219028: 2
177343: x
137673: 1
29606: 3
22802: 4
16305: (x + 1)
15837: 2x
13263: i
9920: (x div 2)
9454: x2
9163: 0
8091: (x + 2)
7920: 5
6931: (x mod 2)
4907: 8
3911: 4x
3879: (x + ~1)
3054: (x div 4)
2840: 6
2762: (x div 3)
2553: 3x
2092: (x + ~2)
2011: (2x + 1)
2007: (2x + 2)
1902: 5x
1842: 7
1832: (~x + 2)
1707: (1 + (x div 2))
1669: (1 + i)
1668: x3
1633: (x mod 3)
1630: ~2
1500: (~x + 1)
1490: (2 * i)
1315: 12
1280: (x2 + 2x)
1245: (x * i)
1126: 6x
1103: 9
1096: (x2 + x)
1064: (2 + (x div 4))
1048: (x mod 4)
1032: ((x + 1) div 2)
1020: 16
982: 8x
970: (x + 4)
957: (2 + (x mod 2))
907: 10x
832: (2 + (x div 2))
822: (x div 5)
815: ((x div 2) mod 2)
771: (1 + (2 * i))
755: (2 + i)
698: loop(\(x,i).2x,x,1)
693: loop(\(x,i).(2x + 2),x,2)
680: (2 - (x mod 2))
658: (loop(\(x,i).(2x + 2),x,2) mod (x + 2))
647: (x + (x div 2))
641: (2x + 4)
640: (x + 3)
635: 10
621: (4 + (x div 4))
620: (x2 + ~x)
609: compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)
591: (1 + (x mod 2))
575: (if x <= 0 then 1 else 2)
558: 11
552: (2 * (x mod 2))
539: (i mod 2)
519: (x + i)
519: 12x
506: (~2 + (x div 2))
467: (1 + (x div 3))
458: ~4
457: (2x + ~1)
455: loop(\(x,i).2x,x,2)
454: (1 + (x div 4))
447: ((x div 2) div 3)
438: (i * i)
434: (if x <= 0 then 1 else x)
425: (4x + 4)
420: 7x
419: 2x2
414: (x mod 5)
411: (3x + 2)
410: (if x <= 0 then 0 else 1)
403: (x div ~2)
402: ~x
400: (x * (x div 2))
393: (x2 + 1)
393: (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
391: (if i <= 0 then 1 else i)
388: ((x + ~1) div 2)
372: (~1 + (2 * i))
372: (x div 8)
366: (2x mod (4 + (x div 4)))
361: (x2 div 2)
354: (((x + 1) div 2) div 2)
349: x5
338: x4
333: (x mod (1 + i))
331: (4x + 1)
328: (x div (2 - (x mod 2)))
326: ((x + ~2) * (x div 3))
323: (3x + 1)
319: (x mod (1 + (2 * i)))
312: (((x + ~2) * (x div 3)) mod (1 + (x div 2)))
309: (~2x + 1)
307: ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)
307: loop(\(x,i).3x,x,1)
305: (4x + 2)
303: (2 - (2x mod (4 + (x div 4))))
296: (x2 + ~1)
292: ((x2 + x) div 2)
291: ((~x + 2) div 2)
289: ((2 - (2x mod (4 + (x div 4)))) mod (x + 1))
283: (~2x + 2)
283: 11x
277: (x2 + 2)
275: (x mod 8)
274: (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)
269: 13
262: (~1 + i)
259: (x * (~1 + (2 * i)))
241: loop(\(x,i).x3,2,x)
238: (x mod 10)
237: (x2 + 2x + 1)
237: ~7
233: (x + ~4)
232: (x2 + 3x + 2)
232: (x2 div 4)
231: 32
224: (~x + i)
220: 24
218: ~3
213: (x2 + ~2x)
213: ((x2 + ~x) div 2)
204: (x div ~4)
204: ((x div 4) mod 2)
201: (x + 5)
198: (2x * (~1 + (2 * i)))
198: (x mod (2 + (x mod 2)))
197: (1 + (x div 5))
197: (if (x mod (1 + i)) <= 0 then 0 else x)
195: (5x + 1)
194: loop(\(x,i).4x,x,1)
193: 17
193: (1 + (x mod 4))
193: (~1 + (x div 2))
193: ((x mod 3) div 2)
192: (x + (x div 4))
192: (x * (1 + (2 * i)))
190: (x + 8)
190: (x + (x mod 2))
190: (x2 + 4x + 4)
188: (10x + 1)
187: (2 + (x div 3))
187: (x div 7)
187: loop(\(x,i).5x,x,1)
186: (3 + (x mod 2))
182: ((x2 + 2x) div 2)
180: (x mod 6)
179: ((x + 1) div 3)
178: 3x2
178: (x div (if i <= 0 then 1 else i))
177: (~1 + loop(\(x,i).2x,x,2))
174: (2 - (x div 2))
172: (if x <= 0 then 0 else 2)
170: loop(\(x,i).(2x + 2),x,0)
168: (x * (2 + i))
167: (~2 + (x div 3))
167: 9x
166: (~x2 + x)
164: ((~x + 2) div 4)
164: (x2 div 3)
162: (~2 + (x mod 2))
162: (x div (1 + (x mod 2)))
162: ((x * (x div 2)) mod 2)
159: (x + 6)
159: (3x + 3)
159: ((1 + (x div 2)) div 2)
159: ((x div 2) mod 3)
158: loop(\(x,i).(x * i),x,1)
156: (~4 + (x div 2))
156: (x - i)
155: (2 + ((x div 2) mod 2))
155: (i div 2)
154: (2x * (1 + (2 * i)))
150: (2x + ~4)
149: 4x2
149: ((2x * (~1 + (2 * i))) div (1 + i))
147: loop(\(x,i).(2x + 1),x,0)
146: (2x + 3)
145: loop(\(x,i).10x,x,1)
144: (3 * (x div 4))
144: ((x + ~1) mod 3)
143: (x * (x mod 2))
143: loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))
142: (x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1))
142: (2 * (x div 2))
142: ((~x + 2) mod 4)
142: (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)
142: loop(\(x,i).7x,x,1)
141: (5x + 2)
141: (x * (1 + i))
140: x6
140: loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x)
140: loop(\(x,i).3x,(2 * i),1)
139: ~11x
138: (x mod 9)
137: (4 + (x div 2))
137: (x + (x div 3))
136: (2 + (x mod 4))
135: (if (x mod (1 + (2 * i))) <= 0 then 0 else x)
134: (1 - (x div 2))
134: (loop(\(x,i).(2x + 2),x,0) mod (x + 1))
133: (5x + 4)
132: (~2 + (x div 4))
132: ((3 * (x div 4)) div 2)
132: ((x + 1) mod 4)
131: (1 + (x mod 3))
131: (~1 + (x mod 3))
130: (~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x))
129: ((~x + 1) div 3)
128: (if x <= 0 then 1 else 4x)
125: (1 + (2 * (x mod 2)))
125: (6x + 6)
125: x7
124: (x2 + x + 1)
123: ((x div 3) mod 2)
123: (if (~x + i) <= 0 then i else 0)
122: (x2 + ~2)
122: (2 * (x div 3))
121: (~x + (x mod 2))
121: (x - (x div 4))
120: ((2x * (1 + (2 * i))) div (2 + i))
119: (2 + (x mod 3))
119: 15
119: 18
119: (8x + 8)
119: ((x + ~1) div 3)
119: loop(\(x,i).11x,i,1)
119: loop(\(x,i).(x div (1 + (x mod 2))),x,x)
117: (((x + 1) div 2) div 3)
117: ((~1 + loop(\(x,i).2x,x,2)) mod (x + 2))
116: (x - (if (~x + i) <= 0 then i else 0))
116: (2x * i)
115: (10x + 10)
114: (~2x + 4)
114: loop(\(x,i).2x,i,1)
113: (x mod 7)
112: (6x + 4)
112: ((x2 + 3x + 2) div 2)
111: (x3 + x)
111: (8x + 4)
110: ((x + 1) mod 3)
109: (x div ~3)
109: loop(\(x,i).3x,i,1)
108: (4x + 8)
107: ~5
107: (2x - (x div (if i <= 0 then 1 else i)))
107: ((x div 3) mod 3)
107: (i mod 3)
107: loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)
106: (x + ~3)
106: (2 * (2 + (x mod 2)))
104: (3 + (x div 4))
104: (if (x mod 2) <= 0 then 2 else 0)
104: loop(\(x,i).x2,2,x3)
103: (4 + (x mod 2))
103: (3x + ~1)
103: ((1 + (2 * i)) * i)
103: ((x + 1) div 5)
103: (((x + ~1) div 2) div 2)
103: loop(\(x,i).6x,x,1)
101: ((x + ~1) mod 4)
100: (3x + 4)
100: (x2 * loop(\(x,i).x3,2,x))
100: (2x div 3)
99: (2x + ~2)
98: (~x2 + 1)
98: (~x2 + 2x)
98: (x3 + ~x)
98: (2x div (1 + i))
97: 23
97: (2 * (2x - (x div (if i <= 0 then 1 else i))))
97: ((~2x + 2) mod (4 + (x div 4)))
97: compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)
96: (1 + ((~x + 2) mod 4))
95: (2 - ((x div 2) mod 2))
95: (x * loop(\(x,i).x3,2,x))
94: (2 + ((x div 2) div 3))
93: (x + ((1 + (2 * i)) * i))
93: (x + ((x div 2) mod 2))
93: (2x2 + 2x)
92: (2 * (2 - (x mod 2)))
92: (x mod (2 + i))
91: ((x div 2) div ~2)
91: ((x div 2) mod 4)
90: (2 + (if x <= 0 then 0 else 2))
90: (2x2 + x)
90: (((x2 + 2x) div 2) mod (3 + (x mod 2)))
90: loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0)
89: (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))
89: ((x + 2) div 3)
89: ((~x + 1) mod 3)
89: (loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1))
88: ((x div 2) mod 5)
87: (3 - (x mod 2))
87: (~2 + i)
87: 20
87: ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2)
87: (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2)))))
87: ((x + 1) mod 8)
86: (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))
86: ~2x
85: (4 * (x mod 2))
85: (x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2)))))))
85: loop(\(x,i).8x,x,1)
84: (x2 + 2x + 2)
84: (2 + (x div 5))
84: (x * (i * i))
84: ((x + (x div 2)) div 4)
84: (loop(\(x,i).(2x + 1),x,0) mod (x + 1))
84: loop(\(x,i).3x,2x,1)
83: (x + (i * i))
83: (x * (x - i))
83: (x mod (1 + (x div 2)))
82: (~x + 4)
82: 19
82: (x div (2 + (x mod 2)))
81: (2 * (1 + (x mod 2)))
81: 16x
81: (x3 + x2)
81: (x * (x div 3))
80: ((x + 1) + (x div 2))
80: ~8
80: ((x + 1) mod 5)
79: (2x + 8)
79: (2x2 + ~x)
79: ((x + ~2) div 3)
79: (x mod ~4)
79: (if (~2 + (x div 2)) <= 0 then 1 else 2)
79: loop(\(x,i).(3x + 1),i,1)
78: (4x + ~1)
78: (8x + 2)
77: (1 + (x * i))
77: (((x + 1) div 2) - ((3 * (x div 4)) div 2))
77: (10x + 2)
77: ((2x div (1 + i)) * (1 + (2 * i)))
77: (2 * (x mod 4))
76: (x + (x div 8))
76: 31
76: (x div 9)
75: (x + 16)
75: (1 + ((x + 1) div 2))
75: (4x + 3)
75: (x + ~8)
75: (x3 + 2x)
75: (12x + 6)
75: ((x - (x div 4)) div 2)
75: ((x + ~1) mod 8)
75: (if (x mod 3) <= 0 then 2 else 0)
74: (1 + (((x + 1) div 2) div 2))
73: (4 + i)
73: (1 + ((x div 2) mod 2))
73: ((x div 2) div 5)
73: (if (x mod 2) <= 0 then 1 else x)
72: (8x + 1)
72: (x - ((x div 2) mod 2))
72: (6x + 3)
71: (6x + 2)
71: (2 + (x div 8))
71: (x - ((~x + 2) div 2))
71: ((((x + 1) div 2) div 2) div 2)
71: (if (~1 + (x mod 3)) <= 0 then x else 2)
71: (if (x mod (2 + i)) <= 0 then 0 else x)
71: loop(\(x,i).10x,i,1)
70: (x + (i mod 2))
70: (1 + (if (x mod 3) <= 0 then 2 else 0))
70: (~2 + ((~x + 2) div 4))
70: 14
69: (~1 + ((~2x + 2) mod (4 + (x div 4))))
69: (x * (x + i))
69: 48
69: (x div 12)
69: loop(\(x,i).4x,x,2)
68: (~x2 + 2)
68: 13x
68: (~4x + 4)
68: 36
68: (2 mod (x + 1))
68: (x mod (1 + ((~x + 2) mod 4)))
68: compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)
67: (3 + i)
67: (2x + i)
67: (6x + 1)
67: (2x + (x div 2))
67: (1 + (x mod 5))
67: (11x + 1)
67: (x - (x div 3))
67: (x2 + 3x)
67: (x2 + 4x)
67: loop(\(x,i).(~2x + 1),x,1)
66: (10x + 5)
66: (2 * (x + i))
66: (3 * (x div 2))
65: (~x + 3)
65: ((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1))
65: (12x + 8)
64: (2 - ((x * (x div 2)) mod 2))
64: ((~1 + (x div 2)) div 2)
64: (if x <= 0 then 1 else 0)
63: (x + ((x div 2) div 3))
63: (~1 + (2 * (x mod 2)))
63: 17x
63: (2 * (x div 4))
63: ((x + ((x div 2) mod 2)) div 2)
63: (x div (1 + i))
63: loop(\(x,i).(x div (2 - (x mod 2))),x,x)
62: (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))
62: (1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
62: ((x + 2) mod 4)
61: (x3 + 1)
61: (x - (x div ~2))
60: (2x + (x mod 2))
60: (x3 + ~3x2 + 2x)
60: ((1 + (x div 2)) div 3)
59: (1 + (x div 8))
59: (~2 + (x div 5))
59: (x3 + 3x2 + 2x)
59: (2 * (x div 5))
59: (loop(\(x,i).(~2x + 1),x,1) mod (x + 2))
59: (x mod 12)
58: (2x2 + 1)
58: (8 - (x div 2))
58: (2x - (x mod 2))
58: ((x div 5) mod 2)
58: loop(\(x,i).x2,x,2)
57: 40
57: (2 * (i mod 2))
57: (2x div 5)
57: (x div ~5)
56: (2x + 5)
56: (1 - (2 * (x mod 2)))
56: (3x + ~2)
56: ~7x
56: ((2x + 1) div (3 + (x div 4)))
56: (x div ~7)
56: (x div (~2 + (x mod 2)))
56: (if (x + ~2) <= 0 then 1 else 2)
56: (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)
56: (if x <= 0 then 2 else x)
55: (9x + 6)
55: ((~x2 + x) div 2)
55: (if (x + ~4) <= 0 then 1 else 2)
55: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1)
55: compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x)
54: (~x + ~1)
54: (2x2 + ~1)
54: (3x + 6)
54: ((x + (x div 2)) div 2)
54: ((x mod (1 + (x div 2))) div 2)
54: (x mod (1 + (x div 3)))
54: (if (~2 + (x div 4)) <= 0 then 1 else 2)
53: (3 + (x div 2))
53: (2 - (x div ~4))
53: (~1 + (x div ~2))
53: (x - ((x + ~1) mod 8))
53: (16 mod (x + 1))
53: ((x div ~2) mod 2)
53: (if x <= 0 then 1 else 2x)
53: loop(\(x,i).3x,x,2)
52: (1 + (if (x mod 2) <= 0 then 2 else 0))
52: (2 - (x div ~2))
52: (x - (if x <= 0 then 0 else (1 + i)))
52: (~4x + 2)
52: (3x2 + 3x)
52: (i * i * i)
52: ((x + 2) div 5)
52: (((x div 2) div 3) mod 2)
52: (if x <= 0 then 0 else (1 + i))
52: loop(\(x,i).11x,x,1)
51: ((1 - (x div 2)) div 3)
51: ((x + 2) mod 5)
51: ((2 - (x div 2)) mod 4)
51: ((x mod 3) mod 2)
51: (x mod (1 + (x div 4)))
51: (x mod ~3)
51: (x mod (x - ((x + ~1) mod 8)))
51: (if (x mod 3) <= 0 then 0 else 2)
51: loop(\(x,i).(11x + 1),i,1)
50: ((x + 2) + (x div 2))
50: (9x + 1)
50: (1 + (x mod 6))
50: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2))
50: (x div (1 + (if (x mod 3) <= 0 then 2 else 0)))
50: loop(\(x,i).10x,(x + 1),1)
49: (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))
49: (x + (x div 5))
49: (if (x mod 2) <= 0 then x else 1)
48: (1 + (x mod 8))
48: (~x + 16)
48: (10x + 8)
48: (2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2)))
48: 20x
48: (x3 + 2x2)
48: ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)
48: (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))
48: loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)
47: (1 + ((x div 2) div 3))
47: (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))
47: (1 + ((2 - (x div 2)) mod 4))
47: (1 + loop(\(x,i).2x,x,1))
47: (x - (i mod 2))
47: (10x + 4)
47: ((x + 1) mod 2)
47: ((if x <= 0 then 1 else x) mod 2)
46: (2 + (x mod (2 + (x mod 2))))
46: (2 - (x mod 4))
46: (x + ~10)
46: (2 * (1 + i))
46: (~x3 + x)
46: (2x2 + 4x)
46: (x3 + ~x2)
46: (3 * (if x <= 0 then 1 else 2))
46: (8 mod (1 + (x div 2)))
45: ~1
45: (2x - (x div (1 + i)))
45: (~1 + (x div 4))
45: (x + ~6)
45: 30
45: ((x div 2) * (x div 2))
45: (2 div (x + 1))
45: ((1 + (x div 4)) div 2)
45: ((x - ((x div 2) mod 2)) div 2)
45: ((2 * (x div 2)) div 3)
45: (2x mod 3)
45: (x mod ~2)
45: (x mod 11)
45: compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i)
45: compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x)
44: (~1 + (if (x mod (2 + i)) <= 0 then 0 else x))
44: (2 * (2x - (x div (1 + i))))
44: (x div (~2 + ((~x + 2) div 4)))
44: ((x + ~1) mod 5)
44: (loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1))
44: loop(\(x,i).(3x + 1),x,1)
44: loop(\(x,i).(2x + 1),x,(2 * (x mod 2)))
44: loop(\(x,i).(x * i),i,1)
44: compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x)
43: (2 + (x mod 5))
43: (1 + (x mod (1 + ((~x + 2) mod 4))))
43: (x + loop(\(x,i).3x,(2 * i),1))
43: (3 * i)
43: (5x + 5)
43: (x * (x + (x div 2)))
43: (2 * ((x div 2) mod 2))
43: ((2 - (x div 2)) div 2)
43: ((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3)
43: (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))
43: ((x + 2) mod 8)
43: (if (x mod 2) <= 0 then 2 else x)
42: (1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1))
42: (10x + loop(\(x,i).11x,i,1))
42: (2 - (x div 4))
42: (~x + ((x div 2) mod 2))
42: loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)
41: (x2 + (x div 2))
41: (1 + ((1 + (x div 2)) div 2))
41: (2 * (~2 + (x mod 2)))
41: (~x mod 4)
40: 33
40: (x2 + 3)
40: (x2 + 4)
40: ((x div 2) - (x mod 2))
40: (x - (if x <= 0 then 1 else (x div (2 - (x mod 2)))))
40: (2 * (x - (i mod 2)))
40: 24x
40: (x div (1 + ((x div 2) mod 2)))
40: (x2 mod 3)
40: (x mod (2 + (x mod 3)))
40: (if (x mod 3) <= 0 then 2 else 1)
40: (if x <= 0 then 1 else (x div (2 - (x mod 2))))
40: loop(\(x,i).2x,x,3)
40: loop(\(x,i).2x,x,x)
39: (3x2 + x)
39: (1 + (x mod 9))
39: (2 + (i mod 2))
39: (2x + loop(\(x,i).3x,i,1))
39: (x + ~16)
39: (x - (x div 5))
39: (12x + 12)
39: 18x
39: ((x + 1) * (x div 2))
39: (x div (1 + (if (x mod 2) <= 0 then 2 else 0)))
39: (i div 3)
39: ((~x + 1) mod 4)
39: (2x mod (2 + (x div 4)))
39: (x mod (2 * (1 + (x mod 2))))
39: (if x <= 0 then 0 else i)
39: (if x <= 0 then 1 else 6x)
39: loop(\(x,i).(10x + 1),x,1)
38: (3 + ((x div 2) div 3))
38: (2 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))
38: (1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x)))
38: (x + ~12)
38: (3x2 + 2x)
38: (2 * (2 + (if x <= 0 then 0 else 2)))
38: ((1 + i) * i)
38: (4 mod (x + 1))
38: ((x2 + 2x) mod 6)
38: (x mod (2 + (x div 2)))
38: (if (~x + 2) <= 0 then 2 else 1)
38: loop(\(x,i).(10x + 1),i,1)
38: loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))
37: (x4 + 1)
37: (1 + ((x + 1) div 3))
37: (x + (x2 div 3))
37: (x + (x2 div 4))
37: (2 + ((x mod 3) div 2))
37: (1 + (i div 2))
37: (1 + (2x mod (2 + (x div 4))))
37: (10x + loop(\(x,i).3x,(2 * i),1))
37: (~1 + (x div 3))
37: (5x + ~4)
37: (4x + ~4)
37: (2 * (x + (i mod 2)))
37: ((2 + i) * i)
37: (4x2 + 4x)
37: (x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2))
37: (x * (x mod 3))
37: ((~x + 1) div 2)
37: ((x3 + 3x2 + 2x) div 2)
37: (2x mod (2 + (x div 2)))
37: (if (~2 + (x div 3)) <= 0 then 1 else 2)
37: (if (x + ~2) <= 0 then 1 else x)
37: (if (x mod 2) <= 0 then 4 else 1)
37: (if (x mod 2) <= 0 then 6 else 1)
36: (x + 9)
36: (x + 10)
36: (4 - (x mod 2))
36: (x2 + x + 2)
36: (1 + (8 mod (1 + (x div 2))))
36: (2x + (i mod 2))
36: (x + loop(\(x,i).10x,i,1))
36: (2 - (x div (1 + ((x div 2) mod 2))))
36: (5x + ~1)
36: (11x + loop(\(x,i).2x,i,1))
36: 15x
36: ((~x + 1) div (2 + (x div 2)))
36: (2x div 7)
36: (x div (1 + (x mod 4)))
35: (1 + (2 * (x div 2)))
35: (1 + (x mod (1 + (x div 3))))
35: (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))
35: (1 - (x div 3))
35: (3x2 + ~x)
35: (x3 + ~1)
35: 23x
35: (4 * (x div 3))
35: (4 * i)
35: (x div (2 * (2 - (x mod 2))))
35: ((x + 1) mod (2 + ((x div 2) mod 2)))
35: (x mod (3 + (x mod 2)))
35: loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)
35: loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)
35: loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)
35: loop(\(x,i).(x2 + x),2,2)
34: (7x + 1)
34: (1 + (4 * (x mod 2)))
34: (1 + ((1 + (x div 2)) div 3))
34: (1 + (x mod (2 * (1 + (x mod 2)))))
34: (x + (if (x + ~4) <= 0 then 1 else 2))
34: (2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))
34: (2 - (x mod ~4))
34: (2 - i)
34: (~2x + (x div 2))
34: (~1 + (x mod 10))
34: (~1 + (if x <= 0 then i else x))
34: (5x + ~2)
34: (2 * (x + (x div 2)))
34: 14x
34: 32x
34: 8x2
34: ((1 + (8 mod (1 + (x div 2)))) div 2)
34: ((~x + 2) div 5)
34: (x3 div 8)
34: ((x * (x mod 2)) div 2)
34: (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))
34: ((x + 1) mod 7)
34: (if (x mod (1 + i)) <= 0 then 1 else 0)
34: (if x <= 0 then i else x)
34: loop(\(x,i).10x,x,2)
34: loop(\(x,i).x2,2,x2)
34: loop(\(x,i).(x * i),x,2)
33: 37
33: 49
33: (x + (2 * (x mod 2)))
33: (x + (4x div (if i <= 0 then 1 else i)))
33: (2 + (((x + 1) div 2) div 2))
33: (1 + ((x + 1) mod 4))
33: (~1 + (2 * (x div 3)))
33: (~2 + (x mod ~2))
33: ((x + 1) - (x mod 10))
33: (x - ((x div 2) div 3))
33: (x - (x div ~4))
33: (x2 + 6x + 8)
33: (3 * (x mod 2))
33: ((~2x + 2) div 5)
33: ((x3 + ~x) div 2)
33: (4x div (if i <= 0 then 1 else i))
33: (x div ~8)
33: loop(\(x,i).3x,x,3)
32: (x + 7)
32: (5x + 3)
32: (x3 + 2)
32: (1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))
32: (1 + (x mod (2 + (x mod 2))))
32: (1 + (x mod 12))
32: (2x - (i mod 2))
32: (~8 + (x div 2))
32: (x - (x div 8))
32: (x2 + 5x)
32: (x * (4 + i))
32: ((2 + i) * (1 + i))
32: (~2x2 + 2x)
32: ((x3 + ~3x2 + 2x) div 2)
32: ((x div 4) div ~2)
32: (if (x mod (1 + i)) <= 0 then 1 else x)
31: ((x + 1) + (x div 4))
31: (7x + 6)
31: (1 + (((x + 1) div 2) div 3))
31: (2 + ((x + ~1) mod 3))
31: (1 + ((x + ~1) mod 4))
31: (x + (if (~2 + (x div 2)) <= 0 then 1 else 2))
31: ~11
31: (x2 + ~x + ~1)
31: (x - (2x * i))
31: (5 * i)
31: (12x + 4)
31: (2 * (x + (x mod 2)))
31: 22
31: (2 * (x mod 5))
31: ((x + 1) div 7)
31: ((2x + 1) mod (2 + (x div 4)))
31: ((x * (x div 3)) mod (1 + ((2 - (x div 2)) mod 4)))
31: (((x + ~1) div 2) mod 2)
31: (x mod ~7)
31: (if x <= 0 then 1 else 5x)
31: loop(\(x,i).(5x + 1),i,1)
31: loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
30: (7x + 3)
30: (2x + loop(\(x,i).(3x + 1),i,1))
30: (~x + (x div 3))
30: (~1 + loop(\(x,i).(x * i),x,1))
30: (x4 + x)
30: (2 * (1 + (2 * (x mod 2))))
30: (2 * (x - (x div ~2)))
30: (2 * (x - i))
30: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2)))
30: (2 * (x mod 3))
30: ((~x + 1) div 5)
30: ((~x3 + x) div 2)
30: ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2)
30: (((~x + 2) div 2) div 3)
30: (((x3 + 3x2 + 2x) div 2) div 3)
30: (2x mod 5)
30: (if (~x + 2) <= 0 then x else 2)
30: (if (~4 + (x div 2)) <= 0 then 1 else 2)
30: loop(\(x,i).(2x + 2),x,1)
30: loop(\(x,i).x2,2,3)
29: (5x + 8)
29: (12x + 1)
29: (x + (3 * (x div 2)))
29: (1 + ((x + 1) div 5))
29: (2x + (x div (if i <= 0 then 1 else i)))
29: (1 + ((x + ~1) mod 3))
29: (x + loop(\(x,i).3x,i,1))
29: (x + loop(\(x,i).11x,i,1))
29: (x + loop(\(x,i).(x * i),i,1))
29: (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i))
29: (2 - ((~x + 1) div 3))
29: (2 - (x div 3))
29: 29
29: (~1 + ((~x + 2) div 4))
29: (x - ((~x + 2) div 4))
29: (x * (3 + i))
29: (2 * (2x + (x div (if i <= 0 then 1 else i))))
29: ~14
29: (3x + ~3)
29: (2 * ((x div 2) div 3))
29: ((~x + ((x div 2) mod 2)) div 2)
29: ((x - (x div 3)) div 3)
29: ((x2 + 2x) div 4)
29: ((4 * (x div 3)) div 3)
29: (((x3 + ~x) div 2) div 3)
29: ((x div 2) div 7)
29: ((x3 div 8) mod 2)
29: loop(\(x,i).5x,i,1)
28: (11x + 10)
28: (2 + ((x2 + x) div 2))
28: (1 + (if (x mod 2) <= 0 then 6 else 1))
28: (x - (x div 12))
28: (2x + 6)
28: (2 * (2 + ((x div 2) mod 2)))
28: (3x2 + ~2x)
28: ((x + ~1) div 5)
28: ((x2 + 3x) div 2)
28: (((1 + (x div 2)) div 2) div 2)
28: (((~x3 + x) div 2) div 3)
28: ((2x + 1) mod (1 + (2x mod (2 + (x div 4)))))
28: ((~1 + loop(\(x,i).(x * i),x,1)) mod (x + 2))
28: ((x + ~2) mod 5)
28: (x mod (2 + (x div 4)))
28: (if (x + ~4) <= 0 then 0 else 2)
28: (if (x mod 3) <= 0 then 1 else 2)
28: (if x <= 0 then 2 else 0)
28: loop(\(x,i).2x,(x + ~1),x)
28: loop(\(x,i).2x,(x div 2),(2 + (x mod 2)))
28: loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),x)
27: (4 - ((x * (x div 2)) mod 2))
27: (8x + 5)
27: (1 + ((x2 + x) div 2))
27: (2 + (x2 div 2))
27: (2 + ((x div 2) mod 3))
27: (~1 + (2 * (x mod 4)))
27: (x + ~9)
27: (x - ((x mod 3) div 2))
27: (x - (x mod 3))
27: (2x + 16)
27: (12x + 3)
27: (2x2 + 4)
27: (~6x + 6)
27: 2x3
27: ((~x + 1) div (2 + (x div 4)))
27: ((~x + 2) div (2 - (x div ~4)))
27: ((x2 + ~1) div 2)
27: (x3 div 2)
27: ((x * (x div 2)) div 2)
27: (x mod (2 + (x mod 4)))
27: (x mod (2 - (x div (1 + ((x div 2) mod 2)))))
27: (if (x mod 2) <= 0 then x else 2)
27: loop(\(x,i).2x,(x + ~1),1)
26: (1 + (2 * (2 + (x mod 2))))
26: 41
26: (9x + 4)
26: (x + (2 * i))
26: (x + (if (~2 + (x div 4)) <= 0 then 1 else 2))
26: (~4x + 1)
26: (8x + 7)
26: (~1 + (2 * (x div 4)))
26: (x2 - (x div 2))
26: (~1 + ((~x + 1) div 3))
26: (x + ~24)
26: (5 * (if x <= 0 then 1 else 2))
26: 27
26: (x3 + 3x)
26: (2 * (2 + (x mod 4)))
26: ~6
26: ((~x + 2) * (x div 2))
26: (4x + ~2)
26: 64
26: (8 * (x mod 2))
26: (4x * (~1 + (2 * i)))
26: (((x + ~1) div 2) * (x div 2))
26: (2 * (2x div 3))
26: (2 * (if x <= 0 then 1 else x))
26: ((1 + (x div 3)) div 2)
26: ((x + (x div 4)) div 2)
26: (x2 div 8)
26: ((x mod (2 + (x mod 2))) div 2)
26: (x div (4 - ((x * (x div 2)) mod 2)))
26: (2 mod (1 + (x div 2)))
26: (2 mod (1 + (x div 4)))
26: ((x + 1) mod 10)
26: ((x + 2) mod 6)
26: ((x mod (2 - (x div (1 + ((x div 2) mod 2))))) mod 2)
26: loop(\(x,i).(x2 + 2x + 1),2,2)
26: loop(\(x,i).(1 + (x * i)),x,1)
26: loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,0)
26: loop(\(x,i).(x * i),(~1 + i),1)
26: loop(\(x,i).(x * i),x,x)
26: compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),(x + 1))
26: compr(\x.((~1 + loop(\(x,i).(x * i),x,1)) mod (x + 2)),x)
25: (9x + 8)
25: 21
25: (1 + (x2 div 2))
25: (1 + (~x mod 4))
25: (1 + (x mod (1 + (x div 4))))
25: (2x + loop(\(x,i).3x,(2 * i),1))
25: (1 - (x div ~4))
25: (6x + 5)
25: (~1 + (2 * (i mod 2)))
25: (((1 + (8 mod (1 + (x div 2)))) div 2) - (x mod 2))
25: (x - (if x <= 0 then 0 else i))
25: (2 * (x + (x div 3)))
25: (2 * (2 + i))
25: (2x2 + 8x + 8)
25: ((x + (x mod 2)) div 3)
25: ((x2 + ~x) div 4)
25: ((x2 div 2) div 3)
25: ((x + (x div 2)) mod 4)
25: (((~x + 2) div 2) mod 4)
25: (x mod (1 + (x mod 4)))
25: (if (~2 + (x div 2)) <= 0 then 0 else 1)
25: (if (~2 + (x div 2)) <= 0 then x else (x + 2))
25: (if (~2 + (x div 3)) <= 0 then 0 else 2)
25: (if (x + ~1) <= 0 then x else 2)
25: (if ((x + 1) mod (2 + ((x div 2) mod 2))) <= 0 then x else 1)
25: loop(\(x,i).(3x + 2),x,0)
25: loop(\(x,i).(x2 + 2),2,2)
25: loop(\(x,i).(3x + ~1),x,2)
25: loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 1))
25: loop(\(x,i).(x2 + 2x),2,2)
24: (10x + 3)
24: (9x + 2)
24: (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))))
24: (2 + (x mod 8))
24: (x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 1)))
24: (1 - ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2))
24: (~3 + (x mod 2))
24: ((~x + ~1) + (x mod 2))
24: (~2 + (x div ~4))
24: (~1 + (x mod 4))
24: (x - (if (x mod (1 + i)) <= 0 then 1 else 0))
24: (2x + 12)
24: 19x
24: (3 * (x + (x div 4)))
24: (2 * (2x + (x mod 2)))
24: (2 * (x - (2x * i)))
24: 21x
24: (2x2 + 4x + 2)
24: (x * (x div 4))
24: (2 * (x div 7))
24: ((~x + (x mod 2)) div 3)
24: ((x3 + 2x) div 3)
24: ((x2 + 4x + 4) div 2)
24: (((2 + i) * (1 + i)) div 2)
24: ((x3 + x2) div 2)
24: (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2)
24: (x div (4 + (x mod 2)))
24: (x div (2 * (2 + (x mod 2))))
24: ((x + 2) mod 9)
24: ((x * (x mod 3)) mod 5)
24: (loop(\(x,i).2x,x,2) mod (2x + 1))
24: (x mod (1 + (((x + 1) div 2) div 3)))
24: (i mod 4)
24: (if x <= 0 then 0 else (2 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2)))
24: (if x <= 0 then i else (x div 2))
24: loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)
24: loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,1)
23: ((x + 1) + (x mod 2))
23: (x + 12)
23: (1 + ((x + 2) div 5))
23: (2 + ((~x + 2) mod 4))
23: (x + ((x * (x div 2)) mod 2))
23: (2 + ((x div 4) mod 2))
23: (1 + (loop(\(x,i).2x,x,2) mod (2x + 1)))
23: (2 + (if x <= 0 then 0 else (2 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))))
23: (2 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x))
23: (0 - i)
23: 47
23: (x4 + ~1)
23: (~2 + (x div ~2))
23: (x5 + x)
23: (2 * (1 + (x mod (1 + ((~x + 2) mod 4)))))
23: (2 * (2 + (if x <= 0 then 0 else (2 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2)))))
23: (x * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)))
23: 28
23: (x2 * i)
23: (3 * (x div (4 - ((x * (x div 2)) mod 2))))
23: (2 * (if x <= 0 then 0 else 2))
23: ((1 + i) div 2)
23: ((x - ((x mod 3) div 2)) div 2)
23: ((2 * (2 + (if x <= 0 then 0 else (2 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))))) div 3)
23: ((3 * (x div (4 - ((x * (x div 2)) mod 2)))) div 2)
23: (((2x + 1) mod (2 + (x div 4))) div 2)
23: ((if x <= 0 then 2 else x) div 2)
23: (x2 mod (x + 4))
23: (if (2 - i) <= 0 then x else 1)
23: (if (x mod 2) <= 0 then x else 0)
23: (if (x mod 3) <= 0 then 1 else x)
23: loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),i,1)
23: loop(\(x,i).(3x + ~1),x,1)
23: loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x)
23: loop(\(x,i).(~2x + 2),x,2)
23: loop(\(x,i).(x * (x - i)),2,(x + ~1))
22: (3x2 + 3x + 1)
22: (2x2 + 2x + 1)
22: (2 + ((x div 2) div 5))
22: (2 + (x div (2 + (x mod 2))))
22: (1 + (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))
22: (2 + ((x div 2) mod 5))
22: (x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1))
22: (~6 + (x div 2))
22: (~x + (x mod 10))
22: (~2 + loop(\(x,i).10x,(x + 1),1))
22: (x + ~5)
22: (2x2 + 3x + 1)
22: ~14x
22: 22x
22: (3x * i)
22: (2 * ((1 + (x div 4)) div 2))
22: (3 * ((x2 + x) div 2))
22: (2 * (((x + 1) div 2) div 2))
22: ((x + (x div 3)) div 3)
22: ((~x + 2) div (2 + (x div 2)))
22: ((2x + 2) div 5)
22: (x div (~2 + (x mod ~2)))
22: ((x + 1) mod 6)
22: ((x + ~1) mod 9)
22: (loop(\(x,i).(~2x + 2),x,2) mod (x + 2))
22: (x mod (4 + (x div 2)))
22: (x mod (3 - (x mod 2)))
22: loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),x,1)
22: loop(\(x,i).2x,i,x)
21: (4 + (x div 3))
21: ((x + 1) + i)
21: (x2 + ~x + 1)
21: (x2 + ~x + 2)
21: 25
21: (12x + 9)
21: (1 + (2 * (x mod 4)))
21: (1 + (x div (2 + (x mod 2))))
21: (1 + (x mod (3 + (x mod 2))))
21: (1 + (i mod 2))
21: (x + loop(\(x,i).(3x + 1),i,1))
21: (x + loop(\(x,i).(11x + 1),i,1))
21: (x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1))
21: (1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x))
21: (1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x))
21: (1 - ((x3 div 8) mod 2))
21: (1 - i)
21: (2 - ((x div 2) div ~2))
21: (x2 + 2x + ~1)
21: (2x + ~5)
21: (1 + (x * i) - (2 * (x mod 2)))
21: ((x + ~1) - (x mod 12))
21: (x - ((x div 3) mod 3))
21: (4x2 + x)
21: (~6x + 3)
21: ((~x + 1) * (x div 2))
21: (4x2 + ~x)
21: (3x + ~6)
21: (10x + 20)
21: (16x + 16)
21: (2 * ((x + ~1) div 3))
21: (3 * (x div ~2))
21: (2 * ((x div 4) mod 2))
21: (2 * (if (x mod 3) <= 0 then 0 else 2))
21: ((2x + 1) div 7)
21: ((2 + (x div 2)) div 3)
21: (2x div (2 + (x div 2)))
21: (x2 div (x - ((~x + 2) div 2)))
21: (((~x + 2) div 2) div 5)
21: (x div 11)
21: (6 mod (1 + (x div 2)))
21: ((((x + 1) div 2) div 2) mod 2)
21: (x mod ((x + ~1) - (x mod 12)))
21: (x mod ((x + 1) - (x mod 10)))
21: (if (~x + 2) <= 0 then x else 0)
21: (if (i mod 2) <= 0 then 1 else 2x)
21: (if x <= 0 then 1 else 4)
21: (if x <= 0 then 2 else 1)
21: loop(\(x,i).(3x + 1),x,0)
21: loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x)
21: loop(\(x,i).4x,i,1)
21: loop(\(x,i).x2,2,(x + 1))
21: loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,2x)
21: compr(\x.(loop(\(x,i).(~2x + 2),x,2) mod (x + 2)),x)
20: ((x + 2) + (x div 3))
20: (4 + (x div 8))
20: (3x + loop(\(x,i).3x,(2 * i),1))
20: (1 + (2 * (1 + i)))
20: (1 + (8 * (x mod 2)))
20: (1 + (2 * (x mod 3)))
20: (x2 + (x mod 2))
20: (x + ((x div 2) div 5))
20: (x + (x div 7))
20: (1 + (x div (2 * (2 - (x mod 2)))))
20: (x + ((x div 2) mod 4))
20: (x + (if (x mod 2) <= 0 then x else 1))
20: (2 + loop(\(x,i).2x,x,1))
20: (~x + 18)
20: (4x - (x div 2))
20: (2x - (x mod 4))
20: (2x - (x mod 8))
20: (~1 + (x2 div 2))
20: (~2 + ((x div 2) mod 2))
20: (~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x))
20: ~12
20: 31x
20: (4 * (2 + (x mod 2)))
20: 10x2
20: (~x3 + x2)
20: (4x * i)
20: ((x2 + 1) div 2)
20: ((~x + 2) div 3)
20: ((~1 + (x div 4)) div 2)
20: (4x div (1 + i))
20: ((x * (x div 2)) div 4)
20: (x2 div (x + 2))
20: (x div (3 + ((x div 2) div 3)))
20: (x div (2 + ((x div 2) div 3)))
20: (x div (2 + (x mod (2 + (x mod 2)))))
20: (x div (2 - ((x * (x div 2)) mod 2)))
20: (x div 15)
20: ((1 + (x div 2)) mod 3)
20: ((x + 1) mod (1 + (x div 4)))
20: (x2 mod 5)
20: (x2 mod (x - ((~x + 2) div 2)))
20: (x mod 13)
20: (x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4))))))
20: loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1)
20: loop(\(x,i).(x2 + x),1,loop(\(x,i).2x,x,1))
20: loop(\(x,i).(10x + 10),x,0)
20: loop(\(x,i).(x * i),x,(x + 1))
20: loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + 1))
19: (5x + loop(\(x,i).3x,i,1))
19: (8x + 3)
19: (10x + 6)
19: (11x + 5)
19: (12x + 7)
19: (1 + (2 * ((1 + (x div 4)) div 2)))
19: (2 + (3 * (x mod 2)))
19: (x + (((2 + i) * (1 + i)) div 2))
19: (2 + ((x + 1) mod 4))
19: (1 + ((x div 2) mod 3))
19: (x + ((x div 3) mod 3))
19: (x + ((x div 4) mod 2))
19: (1 + (if (~2 + (x div 2)) <= 0 then x else (x + 2)))
19: (1 + (if (x mod 3) <= 0 then 0 else 2))
19: (1 + (if x <= 0 then 1 else x))
19: (loop(\(x,i).5x,x,1) + loop(\(x,i).3x,x,1))
19: (4x + loop(\(x,i).11x,i,1))
19: (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x))
19: (1 - (2 * (i mod 2)))
19: (7x + 2)
19: ((x + ~1) + i)
19: (~3x + 2)
19: ((~x + ~2) + (x mod 2))
19: ~9
19: (~1 + ((~x + 2) div 3))
19: (~1 + ((x div 2) mod 2))
19: (~2x + (x mod 2))
19: (~x + (x mod 3))
19: (7x + ~6)
19: (x - (x2 div 4))
19: 26
19: (2x2 + 2)
19: (2 * (1 + (x div 2)))
19: (3 * (1 + (x div 2)))
19: (3 * (2 + (if x <= 0 then 0 else 2)))
19: ((x + 1) * (x + i))
19: ((x + 2) * (x + i))
19: ((x + i) * i)
19: ~x2
19: (~4x + 8)
19: (3 * (8 - (x div 2)))
19: (8x + 6)
19: ~4x
19: (2 * (i * i))
19: (3 * ((x div 2) div 3))
19: (2 * ((x div 5) mod 2))
19: (3 * (x mod 3))
19: (((x + 1) + (x div 4)) div 2)
19: ((~x + 2) div 8)
19: ((2x + 2) div 7)
19: ((x mod 5) div 2)
19: (x div (4 + (x div 2)))
19: ((1 + (x mod 8)) mod (x + 1))
19: ((x + 1) mod (1 + i))
19: ((~x + 2) mod 5)
19: ((x2 div 2) mod 3)
19: (loop(\(x,i).2x,x,x) mod (x + 1))
19: (if (~4 + (x div 2)) <= 0 then 2 else 1)
19: (if (~2 + (x div 2)) <= 0 then 1 else 0)
19: (if (x + ~2) <= 0 then x else 1)
19: (if (x + ~4) <= 0 then 1 else x)
19: (if ((x + 1) mod (1 + i)) <= 0 then 0 else x)
19: (if (x mod 2) <= 0 then 4 else 0)
19: (if x <= 0 then 1 else (x div 3))
19: loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1)
19: loop(\(x,i).(2 * (2x - (x div (1 + i)))),x,2)
19: loop(\(x,i).12x,x,1)
19: loop(\(x,i).4x,x,4)
18: (5x + loop(\(x,i).3x,(2 * i),1))
18: (4x + 5)
18: (9x + 7)
18: (1 + (2 * (x - (x div ~2))))
18: (1 + (4 * i))
18: (x + (x div 12))
18: (1 + ((x + 2) mod 4))
18: (2 + ((x * (x div 2)) mod 2))
18: (1 + loop(\(x,i).2x,x,2))
18: (3 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
18: (2 - ((if x <= 0 then 1 else x) mod 2))
18: (2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),x))
18: (9x + 5)
18: (2x - (x div 4))
18: (2x - (x div ~2))
18: (x2 + ~3)
18: ((x mod 2) - (x div 2))
18: (~x + (i mod 2))
18: (7x + ~3)
18: (x - ((~x + 1) div 3))
18: (x - ((~1 + (x div 2)) div 2))
18: (x - (x div ~3))
18: (x - ((x div 2) mod 4))
18: (x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1))
18: (4 * (1 + i))
18: (2 * (1 + (x mod 3)))
18: ((x + 1) * i)
18: (x * (1 - ((x3 div 8) mod 2)))
18: (x5 + ~x)
18: 5x2
18: (4x2 + 2x)
18: (x4 + x2)
18: (2 * ((x + ((x div 2) mod 2)) div 2))
18: (2 * (x mod (2 + (x mod 2))))
18: ((x + (x div 3)) div 5)
18: ((x - ((x div 2) div 3)) div 2)
18: ((x - (x div 5)) div 3)
18: ((x - (x div ~4)) div 2)
18: ((x2 + x) div 4)
18: ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3)
18: ((if (i mod 2) <= 0 then 1 else 2x) div (1 + i))
18: (x div (4 + (x div 4)))
18: (x div (2 + (x div 5)))
18: (x div ~6)
18: (3x mod (2 + (x div 2)))
18: ((x2 + 2x) mod 8)
18: (((x + ~1) div 2) mod 4)
18: (loop(\(x,i).2x,x,2) mod (x + 1))
18: (x mod (~1 + (2 * (x div 3))))
18: (x mod (2 * (2 - (x mod 2))))
18: (if (x mod 2) <= 0 then 1 else 8)
18: (if (x mod 4) <= 0 then 0 else 2)
18: (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)
18: loop(\(x,i).(4x + 1),i,1)
18: loop(\(x,i).5x,x,2)
18: loop(\(x,i).(2x + 4),x,1)
18: loop(\(x,i).x3,2,2x)
18: loop(\(x,i).((x2 + ~x) div 2),2,(x + 2))
17: ((x + 2) + (x div 4))
17: (5x + loop(\(x,i).10x,i,1))
17: ((x + 2) + i)
17: (1 + (x * (x div 2)))
17: (x + (5x div (if i <= 0 then 1 else i)))
17: (2 + (((x + 1) div 2) div 3))
17: (1 + ((x mod 3) div 2))
17: (x + ((x mod (1 + (x div 2))) div 2))
17: (1 + (x div (2 + (x div 5))))
17: (1 + (x div (2 + (x mod (2 + (x mod 2))))))
17: (x + (i div 2))
17: (2 + ((~x + 1) mod 3))
17: (2 + ((x2 + 2x) mod 6))
17: (2 + (x mod 6))
17: (1 + loop(\(x,i).3x,x,1))
17: (4x + loop(\(x,i).3x,i,1))
17: (1 + loop(\(x,i).(x2 + x),2,2))
17: (~1 - (x div 4))
17: (~x + 26)
17: (11x + 2)
17: (2 - ((x div 4) mod 2))
17: (2 - (i mod 2))
17: (2x - ((if (i mod 2) <= 0 then 1 else 2x) div (1 + i)))
17: (2x - ((x div 2) mod 2))
17: (~1 + ((~x + 1) div 2))
17: ((x + 1) - ((x div 2) mod 2))
17: (x - ((x div 4) mod 2))
17: (x2 + 5x + 4)
17: (3x2 + 7x + 4)
17: (3x2 + 4x)
17: 34
17: (12x + 2)
17: ((1 + (x div 2)) * (x div 2))
17: (4 * (x + (if (x + ~4) <= 0 then 1 else 2)))
17: (2 * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
17: (x * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i)))
17: (~3x + 6)
17: (x4 + ~x)
17: (2 * (2x - (x mod 8)))
17: (10x + ~8)
17: (4x2 + 8x + 4)
17: (2x2 + 6x + 4)
17: ~28x
17: (6 * (x mod 2))
17: (x3 + ~2x2)
17: (x * ((x + 1) div 2))
17: (x * (x2 div 2))
17: (((x + 1) + (x div 2)) div 2)
17: ((3x2 + ~x) div 2)
17: ((x - (x mod 3)) div 2)
17: (5x div (if i <= 0 then 1 else i))
17: ((~2x + 2) div 9)
17: ((3 * ((x div 2) div 3)) div 2)
17: (((2 - (x div 2)) div 2) div 2)
17: (((x div 2) div ~2) div 2)
17: ((x mod (1 + ((~x + 2) mod 4))) div 2)
17: (x div (2 + (x div 4)))
17: (x div (1 + (loop(\(x,i).2x,x,2) mod (2x + 1))))
17: (2 mod (if ((x + 1) mod (2 + ((x div 2) mod 2))) <= 0 then x else 1))
17: (4 mod (x + 2))
17: ((~x2 + 2) mod (~1 + ((~2x + 2) mod (4 + (x div 4)))))
17: ((2x + ~1) mod (4 + (x div 4)))
17: ((~1 + (x div 2)) mod 3)
17: ((x + ~2) mod (1 + (x div 2)))
17: (2x mod 9)
17: (2x mod (2 + (x div 3)))
17: (x2 mod 7)
17: (((x + 1) div 2) mod 3)
17: ((x mod (~1 + (2 * (x div 3)))) mod 2)
17: (if (~2 + i) <= 0 then 1 else x)
17: (if x <= 0 then i else (x + ~1))
17: loop(\(x,i).(5x + loop(\(x,i).3x,(2 * i),1)),i,1)
17: loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),i,1)
17: loop(\(x,i).(5x + loop(\(x,i).10x,i,1)),i,1)
17: loop(\(x,i).(10x + 1),2x,1)
17: loop(\(x,i).8x,x,2)
17: loop(\(x,i).2x,(x div 2),2)
17: loop(\(x,i).(x div (2 - ((x * (x div 2)) mod 2))),x,x)
16: (6 + (x mod 2))
16: (4 + ((x div 2) div 3))
16: (3 + (x div 3))
16: ((x + 1) + (x div 8))
16: (5x + loop(\(x,i).2x,i,1))
16: (2 + (x * (x mod 2)))
16: (x + (7x div (if i <= 0 then 1 else i)))
16: (2 + ((2 * (x div 2)) div 3))
16: (4x + (x2 div 4))
16: (x + (x div 9))
16: (2 + (x div (1 + (x mod 4))))
16: (2 + (2 mod (x + 1)))
16: (1 + (4 mod (x + 1)))
16: (1 + ((x + ~1) mod 5))
16: (1 + ((x2 + 2x) mod 8))
16: (2 + ((x div 2) mod 4))
16: (1 + (x mod (1 + (x mod (2 * (2 + ((x div 2) mod 2)))))))
16: (1 + (x mod (2 * (2 + ((x div 2) mod 2)))))
16: ((if (x mod 2) <= 0 then 2 else 0) + (x div 2))
16: (1 + (if x <= 0 then 1 else 2))
16: (2 + (if x <= 0 then 1 else 2))
16: (x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1))
16: (~2 - (x div 3))
16: (x2 + x + ~1)
16: (4x2 + ~1)
16: (~1 + (2 * ((x + ~1) div 3)))
16: ((x div 2) - ((3 * (x div (4 - ((x * (x div 2)) mod 2)))) div 2))
16: (~1 + (x div ~3))
16: (~1 + (x div ~4))
16: (~1 + (x mod 2))
16: (~2 + (x mod ~4))
16: (~2 + (i mod 2))
16: (~2x + (i mod 2))
16: (~2x2 + x)
16: (2 * ((x + 1) + (x div 2)))
16: (2 * (3 - (x mod 2)))
16: (3 * (x + (x mod 2)))
16: (~2x2 + 4x)
16: (8 * (if x <= 0 then 1 else 2))
16: (3x2 + 6x)
16: 30x
16: (2 * ((1 + (x div 2)) div 2))
16: (3 * ((x + 1) div 2))
16: (2 * ((~x + 1) div (2 + (x div 2))))
16: (5 * ((x2 + x) div 2))
16: ((x div 3) * (x div 2))
16: (3 * (x div 5))
16: (2 * (if (~2 + (x div 3)) <= 0 then 0 else 2))
16: (2 div (1 + (x div 5)))
16: ((x2 + (x div 2)) div 2)
16: ((x + ~2) div (2 + (x div 2)))
16: ((x - ((~x + 2) div 4)) div 2)
16: (7x div (if i <= 0 then 1 else i))
16: ((x3 + x) div 2)
16: (((1 + i) * i) div 2)
16: (((x div 2) * (x div 2)) div 2)
16: ((x * (x div 2)) div 3)
16: (x2 div 5)
16: (x2 div (x + 5))
16: (x2 div ~2)
16: ((x mod (1 + (x div 2))) div 3)
16: (x div 13)
16: (x div (2 + (x mod 3)))
16: (x div (2 + i))
16: ((x + 1) mod 12)
16: ((1 - (x div 2)) mod 4)
16: ((2 - (x mod 4)) mod (x + 1))
16: (6 mod (x + 1))
16: (((x + 2) mod 8) mod 3)
16: (loop(\(x,i).2x,x,1) mod (x + 1))
16: (x mod (2 + ((x div 2) mod 2)))
16: (x mod (1 + (x mod 6)))
16: (x mod (1 + (x mod (2 * (2 + ((x div 2) mod 2))))))
16: (x mod (2 * (2 + ((x div 2) mod 2))))
16: (if (x mod 4) <= 0 then 2 else (x mod 2))
16: (if (x mod 5) <= 0 then 0 else 2)
16: loop(\(x,i).(9x + 1),i,1)
16: loop(\(x,i).(4x + 1),x,1)
16: loop(\(x,i).2x,x,4)
16: loop(\(x,i).x2,2,4)
16: loop(\(x,i).(x * i),i,x)
16: loop(\(x,i).(if ((x + 1) mod (1 + i)) <= 0 then 0 else x),x,2x)
16: loop(\(x,i).(if x <= 0 then i else (x div 2)),x,0)
15: (5 + (x mod 2))
15: ((x + 2) + (3 * (x div 2)))
15: ((x + 1) + (x2 div 4))
15: (5x + loop(\(x,i).11x,i,1))
15: (4 - ((x div 2) mod 2))
15: (1 + (2 * (1 + (x mod 2))))
15: (4x + 9)
15: (1 + (2 * ((x div 2) mod 2)))
15: (((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3) + (if x <= 0 then 0 else 1))
15: (x + (2x div 5))
15: (x + ((x div 2) div 7))
15: (1 + (x div (2 - (x mod 2))))
15: (2 + (i div 2))
15: (1 + ((2 - (x mod 4)) mod (x + 1)))
15: (1 + (2x mod 3))
15: (1 + (x mod (1 + (x mod 4))))
15: (1 + (x mod ((1 + (x mod (1 + (x div 4)))) * (1 + (x mod 2)))))
15: (1 + (if x <= 0 then 0 else 2))
15: (1 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))
15: (~6x + ~5)
15: (~6x + 1)
15: (x2 + 2x + ~2)
15: 35
15: (~x + (x div 4))
15: (~x + ((x div 4) mod 2))
15: (~1 + loop(\(x,i).4x,x,2))
15: (7x + 5)
15: ((x + 1) - (2 * (x mod 2)))
15: (~11x + ~6)
15: (compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
15: 33x
15: 49x
15: ((1 + (x mod (1 + (x div 4)))) * (1 + (x mod 2)))
15: ~3x
15: (~3x + 3)
15: (x * (2 - (x mod 2)))
15: (x2 + ~3x + 2)
15: (2x + ~6)
15: (5x2 + 5x)
15: (4x2 + 8x)
15: (4 * (2 - (x mod 2)))
15: (8x + 16)
15: (x * (i * (1 + i)))
15: (2 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2))
15: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + ~1) div 2))
15: ((x + (x div 4)) div ~2)
15: ((x - ((x div 3) mod 3)) div 2)
15: ((2 * (x - (2x * i))) div (1 + i))
15: (10x div (if i <= 0 then 1 else i))
15: (8x div (if i <= 0 then 1 else i))
15: ((4x * (~1 + (2 * i))) div (1 + i))
15: (4x div (x + 2))
15: (2x div 9)
15: (2x div (if i <= 0 then 1 else i))
15: ((x mod (1 + ((2 - (x mod 4)) mod (x + 1)))) div 2)
15: (loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2)
15: (x div (3 + (x mod 2)))
15: ((1 + (x div 2)) mod 4)
15: ((1 + (x mod (1 + (x mod (2 * (2 + ((x div 2) mod 2))))))) mod (x + 1))
15: ((x + 2) mod 7)
15: ((~x + 1) mod 8)
15: ((~x + 2) mod 3)
15: (2x mod 7)
15: (x2 mod (x + 5))
15: (x2 mod 6)
15: ((if (x mod 2) <= 0 then 1 else x) mod 4)
15: (x mod (1 + ((2 - (x mod 4)) mod (x + 1))))
15: (x mod (1 + ((x2 + 2x) mod 8)))
15: (x mod ~5)
15: (x mod (~3 + (x mod 2)))
15: (x mod (~1 + (2 * ((x + ~1) div 3))))
15: (x mod ((1 + (x mod (1 + (x div 4)))) * (1 + (x mod 2))))
15: (if (~2 + (x div 4)) <= 0 then 0 else 2)
15: (if ((x + ~1) mod 3) <= 0 then 1 else x)
15: (if (x mod 3) <= 0 then 0 else x)
15: (if (x mod 4) <= 0 then 4 else 1)
15: (if (x mod (1 + i)) <= 0 then i else 0)
15: loop(\(x,i).(5x + loop(\(x,i).11x,i,1)),i,1)
15: loop(\(x,i).(2x + 1),x,2)
15: loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,1)
15: loop(\(x,i).(4x + loop(\(x,i).3x,i,1)),i,1)
15: loop(\(x,i).(1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),2,x)
15: loop(\(x,i).~2x,x,1)
15: loop(\(x,i).(x * (~1 + (2 * i))),x,1)
15: loop(\(x,i).2x2,2,2)
15: loop(\(x,i).2x,(x div 2),1)
15: loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,1)
15: compr(\x.loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,2x),x)
14: (5x + loop(\(x,i).(3x + 1),i,1))
14: (2 + (x div 2) - (x mod 2))
14: (1 + (4 * (x + (if (x + ~4) <= 0 then 1 else 2))))
14: (x + ((2 + i) * i))
14: (x2 + ~2x + 1)
14: (10x + 21)
14: (1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + ~1) div 2)))
14: (1 + (2 * (x div 4)))
14: (x + ((x3 + 2x) div 3))
14: (1 + ((x2 + 2x) div 2))
14: (2 + ((x2 + ~x) div 2))
14: (x + (8x div (if i <= 0 then 1 else i)))
14: (x + ((4 * (x div 3)) div 3))
14: (x + (6x div (if i <= 0 then 1 else i)))
14: (1 + ((x * (x div 2)) div 4))
14: (1 + (2 mod (x + 1)))
14: (1 + ((x + 1) mod 3))
14: (x + ((~x + 1) mod 3))
14: (1 + ((x * (x div 3)) mod (1 + ((2 - (x div 2)) mod 4))))
14: (x + ((x div 3) mod 2))
14: (1 + (x mod (1 + (x mod (3 + (x mod 2))))))
14: (1 + (x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4)))))))
14: (x + (if (~4 + (x div 2)) <= 0 then 1 else 2))
14: (x + (if (x + ~2) <= 0 then 1 else 2))
14: (1 + (if (x + ~4) <= 0 then 0 else 2))
14: (2 + (if (x mod 2) <= 0 then 1 else 8))
14: (x + (if (x mod 2) <= 0 then x else 2))
14: (x + (if (x mod (1 + i)) <= 0 then i else 0))
14: (2 + loop(\(x,i).2x,x,2))
14: (1 - (2x mod (4 + (x div 4))))
14: (1 - (x mod 3))
14: ((x + ~2) + (x div 2))
14: (~3x + 1)
14: ((~x + 2) - (x div 2))
14: (10x + 7)
14: ((3 * (x + (x div 4))) - (x mod 2))
14: (3x + 5)
14: (10x + ~1)
14: (8x + ~1)
14: (~x + (x2 div 3))
14: (~1 + loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x))
14: (x - (x div 9))
14: (x - (x div ~7))
14: (x - (if x <= 0 then 1 else (2 * (1 + i))))
14: (x2 + 6x)
14: (9x + 3)
14: (2x3 + x)
14: (x3 + x2 + x + 1)
14: (2 * (2 + (x div 8)))
14: (x * (1 + (i div 2)))
14: 46
14: (x3 + ~3x)
14: ((~1 + i) * i)
14: (16x + 8)
14: (9x + 9)
14: 27x
14: (8x2 + 8x)
14: (x2 * (x div 2))
14: (4 * (i * i))
14: ((x + ~2) * (x div 2))
14: (2 * (i div 2))
14: (2 * ((x div 3) mod 2))
14: (2 * (x mod 6))
14: ((1 + (4 * (x + (if (x + ~4) <= 0 then 1 else 2)))) div 3)
14: ((2x + 1) div 3)
14: ((2x + 1) div 5)
14: ((x + (x2 div 3)) div 2)
14: ((x + ((x mod (1 + (x div 2))) div 2)) div 2)
14: ((x + ((x div 2) mod 4)) div 4)
14: ((x + (x mod 2)) div 5)
14: ((1 - (x div 3)) div 3)
14: ((x - ((x div 4) mod 2)) div 2)
14: ((3x2 + 7x + 4) div 2)
14: ((x * (1 + i)) div (1 + (i div 2)))
14: ((x2 + ~x) div 8)
14: (6x div (if i <= 0 then 1 else i))
14: (((x div 3) * (x div 2)) div 2)
14: (2x div (4 + (x div 4)))
14: (2x div (1 + (x div 4)))
14: (2x div ~7)
14: (((x + ~1) div 2) div 3)
14: ((x div 2) div (1 + (x mod 2)))
14: ((x mod (2 + (x div 2))) div 2)
14: (loop(\(x,i).((x2 + ~x) div 2),2,(x + 2)) div 3)
14: (x div (2 + (x mod 5)))
14: (x div ~9)
14: (x div (~2 + (x div ~2)))
14: (2 mod (~2x + 1))
14: ((1 + (x mod ((1 + (x mod (1 + (x div 4)))) * (1 + (x mod 2))))) mod (x + 1))
14: ((x - (x div 3)) mod 3)
14: (loop(\(x,i).(2 * (x - i)),x,2) mod (x + 1))
14: (loop(\(x,i).x3,2,2x) mod (x + 1))
14: (loop(\(x,i).(x * i),x,x) mod (x + 1))
14: (x mod (1 + (x mod (3 + (x mod 2)))))
14: (x mod (~2 - (x div 3)))
14: (if (~4 + (x div 2)) <= 0 then 1 else x)
14: (if (x mod 2) <= 0 then 1 else 4)
14: (if (x mod 2) <= 0 then (2 + (if x <= 0 then 0 else 2)) else 1)
14: (if (x mod 2) <= 0 then ~2 else 1)
14: (if (x mod 3) <= 0 then 1 else 0)
14: (if (x mod 4) <= 0 then 2 else 0)
14: (if (x mod (1 + i)) <= 0 then 2 else 0)
14: (if (x mod 8) <= 0 then 2 else 1)
14: (if x <= 0 then 1 else (x + 2))
14: (if x <= 0 then 1 else (2 * (1 + i)))
14: loop(\(x,i).(5x + loop(\(x,i).2x,i,1)),i,1)
14: loop(\(x,i).(x3 + 2),2,2)
14: loop(\(x,i).(x + (i * i)),x,0)
14: loop(\(x,i).(2x + ~1),x,0)
14: loop(\(x,i).(x - (if x <= 0 then 1 else (2 * (1 + i)))),x,2x)
14: loop(\(x,i).7x,x,2)
14: loop(\(x,i).(2 * (x - i)),x,2)
14: loop(\(x,i).2x,i,2)
14: loop(\(x,i).(x div (~2 + (x mod 2))),x,(x + 1))
14: compr(\x.loop(\(x,i).(if ((x + 1) mod (1 + i)) <= 0 then 0 else x),x,2x),x)
13: (4 + (((x + 1) div 2) div 2))
13: (4 + ((x div 2) div 5))
13: (4 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))
13: ((x + 1) + (x div 3))
13: (3 + (x mod 4))
13: (~x + 17)
13: ((2x + 2) - (x mod 2))
13: (2 + (x * (x + (x div 2))))
13: (x + (2 * (2x + (x mod 2))))
13: (x2 + 4x + 6)
13: (2 + (x * (x div 2)))
13: (2 + (x * i))
13: (1 + ((x + (x div 2)) div 2))
13: (1 + ((x + 2) div 3))
13: (1 + ((x - ((x div 3) mod 3)) div 2))
13: (1 + ((x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) div 2))
13: (1 + (2x div 3))
13: ((x div 2) + i)
13: (x + (((x div 2) div 3) mod 2))
13: (1 + (x mod (2 * (1 + (x mod (1 + (x div 3)))))))
13: (2 + (if (x + ~4) <= 0 then 0 else 2))
13: (x + (if (x mod 2) <= 0 then 2 else 0))
13: (1 + (if (x mod 2) <= 0 then 4 else 0))
13: (2x + (if x <= 0 then 1 else x))
13: (x + (if x <= 0 then (1 + i) else 0))
13: (4x + loop(\(x,i).3x,(2 * i),1))
13: (x + loop(\(x,i).2x,x,1))
13: (x + loop(\(x,i).2x,i,1))
13: (0 - (if (x mod (1 + i)) <= 0 then 0 else x))
13: (1 - (2 * ((~x + 1) div (2 + (x div 2)))))
13: (10 - (x div 2))
13: (2 - (x div ~3))
13: (~1 + (2 * (x + (i mod 2))))
13: 39
13: (12x + 5)
13: (10x + 9)
13: (~x + ((~x + 2) div 2))
13: (~x + (x mod 8))
13: (x + ~7)
13: ((x + 1) - (2 * (i mod 2)))
13: (x - ((1 - (x div 2)) div 3))
13: (x - ((x div 2) div ~2))
13: (x - (x div ~5))
13: (x - ((x div 3) mod 2))
13: (x - (if (~2 + (x div 2)) <= 0 then 0 else 1))
13: (x - (if (x mod (2 + i)) <= 0 then 0 else 1))
13: (2 * (4 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2)))
13: (x2 + 5x + 6)
13: (3x2 + 5x + 2)
13: (2x2 + 3x)
13: (x3 + 3x2 + 3x + 1)
13: (2x2 + 4x + 4)
13: (x * (1 + (2 * (1 + i))))
13: (2x2 + 8)
13: (2 * (1 + (x div 5)))
13: (2 * (1 + (x div 8)))
13: (2 * (1 + (x mod (1 + (x div 3)))))
13: (x * (0 - i))
13: (~x2 + 2x + ~1)
13: (x * (2 - (x div 2)))
13: (8x + ~2)
13: (2x3 + ~x)
13: ((~1 + (2 * i)) * i)
13: (2 * (~x + (x mod 2)))
13: (2x + ~8)
13: (x * (~x + i))
13: (16x + 4)
13: (x4 + x3 + x2 + x)
13: (x3 + 4x2 + 4x)
13: (9 * (if x <= 0 then 1 else 2))
13: (2x * (1 + i))
13: (3 * (x2 div 2))
13: (2 * (x mod 10))
13: (2 div (1 + (x div 4)))
13: ((4x + (x2 div 4)) div (x + 2))
13: ((x + ((x div 2) div 3)) div 2)
13: ((x + (x div 2)) div 5)
13: ((x + 2) div ~7)
13: (((3 * (x + (x div 4))) - (x mod 2)) div 2)
13: ((~1 + (x div 2)) div 3)
13: ((~x + ((x div 4) mod 2)) div 2)
13: (((x mod 2) - (x div 2)) div 2)
13: ((~x + (x mod 2)) div 5)
13: ((x2 + 5x) div 2)
13: ((2 * (4 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3)
13: ((x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) div 2)
13: (x2 div (x + 4))
13: ((((x + ~1) div 2) div 2) div 2)
13: ((x mod (1 + (x div 4))) div 2)
13: ((if x <= 0 then 2 else loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 2)
13: (x div (4 + i))
13: (x div (1 + (x mod 3)))
13: (x div (~1 + ((~x + 2) div 4)))
13: (x div (3 * (8 - (x div 2))))
13: (2 mod (1 + (x mod 3)))
13: ((x + 1) mod (2 + (x mod 2)))
13: ((x + 2) mod 12)
13: ((x + ~1) mod (1 + (x div 2)))
13: (10 mod (x + 1))
13: ((2x + ~4) mod (x + 2))
13: (((x + ~1) div 2) mod 3)
13: ((x div 4) mod 3)
13: ((i div 2) mod 2)
13: ((loop(\(x,i).(x * i),x,x) mod (x + 1)) mod 2)
13: (x mod (1 + (((x + 1) div 2) div 2)))
13: (x mod (1 + (x div 5)))
13: (x mod (1 + (x div (2 + (x div 5)))))
13: (x mod (~2 + ((~x + 2) div 4)))
13: (x mod (2 * (1 + (x mod (1 + (x div 3))))))
13: (if (~2 + (x div 2)) <= 0 then 2 else 1)
13: (if (x + ~2) <= 0 then 2 else 1)
13: (if ((x div 2) mod 3) <= 0 then 2 else 1)
13: (if (x mod 2) <= 0 then 6 else 0)
13: (if (x mod 2) <= 0 then ((x div 3) mod 3) else 0)
13: (if (x mod 4) <= 0 then 0 else 1)
13: (if (x mod (2 + i)) <= 0 then 0 else 1)
13: (if (i mod 2) <= 0 then 2 else 0)
13: (if x <= 0 then 2 else loop(\(x,i).(x div (1 + (x mod 2))),x,x))
13: (if x <= 0 then (1 + i) else 0)
13: loop(\(x,i).(x + (x div 2)),x,2)
13: loop(\(x,i).(4x + loop(\(x,i).3x,(2 * i),1)),i,1)
13: loop(\(x,i).(0 - (if (x mod (1 + i)) <= 0 then 0 else x)),(x div 2),x)
13: loop(\(x,i).(x - (if (x mod (2 + i)) <= 0 then 0 else 1)),x,x)
13: loop(\(x,i).(2x + 2),(x div 2),(x mod 2))
13: loop(\(x,i).(x * (~1 + (2 * i))),i,1)
13: loop(\(x,i).6x,x,2)
13: loop(\(x,i).((x2 + ~x) div 2),2,(x + ~1))
13: loop(\(x,i).(if x <= 0 then i else (x + ~1)),x,0)
13: loop(\(x,i).i,(x + ~8),1)
13: compr(\x.(if (x mod 2) <= 0 then ((x div 3) mod 3) else 0),x)
12: (4 + ((x div 2) mod 5))
12: ((((1 + (8 mod (1 + (x div 2)))) div 2) + (if x <= 0 then 0 else 1)) - (x mod 2))
12: (x + (2 * (x + i)))
12: (1 + (6 * (x mod 2)))
12: (4x + (x mod 2))
12: (3x2 + 1)
12: (1 + (2 * (x div (2 * (2 + (x mod 2))))))
12: (x + ((x + (x div 2)) div 2))
12: (x + ((x + 1) div 5))
12: (x + ((x - ((x div 2) mod 2)) div 2))
12: (1 + ((x2 + ~x) div 2))
12: (x + (10x div (if i <= 0 then 1 else i)))
12: (x + (x div (4 + i)))
12: (1 + (x div (2 + (x div 4))))
12: (1 + (x div (1 + (loop(\(x,i).2x,x,2) mod (2x + 1)))))
12: (2 + (i div 3))
12: (x + ((1 - (x div 2)) mod 4))
12: (2 + ((~x + 1) mod 4))
12: (2 + (((x div 2) div 3) mod 2))
12: (1 + ((x div 3) mod 2))
12: (2 + (loop(\(x,i).x3,2,2x) mod (x + 1)))
12: (x + (x mod 3))
12: (1 + (x mod (1 + (x div (2 + (x div 5))))))
12: (1 + (x mod (1 + ((x2 + 2x) mod 8))))
12: (1 + (x mod 10))
12: (x + (if (~x + 2) <= 0 then x else 2))
12: (x + (if (~2 + (x div 2)) <= 0 then 1 else 0))
12: ((if (~2 + (x div 2)) <= 0 then 1 else 2) + (x div 2))
12: (1 + (if (x mod 2) <= 0 then 6 else 0))
12: (2 + (if (x mod 5) <= 0 then 2 else 0))
12: (x + (if (x mod (1 + i)) <= 0 then 2 else 0))
12: (x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1))
12: (x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1))
12: (2x + loop(\(x,i).10x,i,1))
12: (1 - (2 * (x div 3)))
12: (~3 + loop(\(x,i).10x,(x + 1),1))
12: (8 - ((x + 2) div 3))
12: (x2 + 3x + 1)
12: (x2 + 4x + 3)
12: (12x + 11)
12: (6x + ~1)
12: (2x - (x div 3))
12: (~1 + (x * i))
12: (~x + ((~x + 2) div 4))
12: (~x + ((x + ~2) div 3))
12: ((x div 2) - (2 * (x mod 2)))
12: ((x div 2) - ((x div 4) mod 2))
12: (~1 + (x div 5))
12: (~1 + (x div ~5))
12: (~2x + (x div (if i <= 0 then 1 else i)))
12: (~1 + (i mod 3))
12: ((x + 1) - (x div ~2))
12: ((x + 1) - i)
12: (2x - i)
12: (3x + ~4)
12: (5x + ~8)
12: (~3x2 + x)
12: (x - ((x + (x div 2)) div 4))
12: (x - ((x + (x div 3)) div 3))
12: (x - ((x + 1) mod 4))
12: (2x + 10)
12: (7x + 7)
12: (2x2 + 2x + 2)
12: (x3 + x2 + x)
12: (2x2 + 5x)
12: (5x2 + 10x + 5)
12: (3x2 + 3)
12: (5 * (1 + (x div 2)))
12: (x * (1 + (x div 2)))
12: (2 * (2x + (x div 2)))
12: (3 * (x + (x div 2)))
12: (2 * (1 + (x mod 4)))
12: (2 * (1 + (x mod (2 * (1 + (x mod (1 + (x div 3))))))))
12: (~x2 + 4x + ~4)
12: (x * ((x + ~1) + i))
12: (2 * (2x - (x mod 2)))
12: ((~2 + (x div 2)) * (x div 2))
12: (2 * (~2x + (x div (if i <= 0 then 1 else i))))
12: (2 * (~x + (i mod 2)))
12: 25x
12: (~10x + 10)
12: (~x3 + 3x2 + ~2x)
12: 72
12: (4x2 + 12x + 8)
12: 16x2
12: 6x2
12: 12x2
12: (4 * (x div 5))
12: (i * i * (1 + i))
12: (2 * ((1 + (4 * (x + (if (x + ~4) <= 0 then 1 else 2)))) div 3))
12: (x * ((1 + (x div 2)) div 2))
12: (x * ((1 + i) div 2))
12: (2 * ((2 * (x div 2)) div 3))
12: (2 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))
12: (2 * (x div (2 * (2 + (x mod 2)))))
12: ((2x + 1) div 9)
12: ((x + 2) div 7)
12: ((1 - (x div 2)) div 5)
12: ((~2 + (x div 2)) div 3)
12: (((x + 1) - ((x div 2) mod 2)) div 2)
12: ((x - ((x + (x div 3)) div 3)) div 2)
12: ((~x2 + 2x) div 4)
12: ((x3 + 3x2 + 2x) div 3)
12: ((x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) div 5)
12: (x2 div 7)
12: (((x3 + ~3x2 + 2x) div 2) div 2)
12: ((x div 2) div ~3)
12: (((1 + (x mod (1 + (x mod (2 * (2 + ((x div 2) mod 2))))))) mod (x + 1)) div 2)
12: (((x + ~1) mod (2 + (x div 2))) div 2)
12: ((32 mod (x + 1)) div 2)
12: ((x mod (~1 + (2 * ((x + ~1) div 3)))) div 2)
12: (loop(\(x,i).2x,x,1) div 2)
12: (x div ~14)
12: (5 mod (x + 1))
12: ((x + 1) mod 11)
12: ((x + 2) mod (2 + (x mod 2)))
12: (~x mod 5)
12: ((2 - (x div 2)) mod (x + 1))
12: ((2 - (x div 2)) mod (x + 2))
12: ((~x + 2) mod 7)
12: ((x + ~1) mod (2 + (x div 2)))
12: (8 mod (x + 1))
12: (32 mod (x + 1))
12: (((x + 1) * (x div 2)) mod 2)
12: ((x * (x div 3)) mod 3)
12: (2x mod (1 + (x div 3)))
12: (((x - (x div 4)) div 2) mod 2)
12: ((x2 div 2) mod (x + 1))
12: ((x2 div 2) mod (x + 2))
12: ((x2 div 3) mod (x + 1))
12: ((x mod 6) mod (1 + (x div 3)))
12: ((i mod 3) mod 2)
12: (x mod (1 + (2 * (x div (2 * (2 + (x mod 2)))))))
12: (x mod (1 + (x div 8)))
12: (x mod (2 + (x mod (2 + (x mod 2)))))
12: (x mod 15)
12: (x mod (~1 + (2 * (x div 4))))
12: (x mod (2 * (1 + (x mod (2 * (1 + (x mod (1 + (x div 3)))))))))
12: (if (~x + 4) <= 0 then 2 else 1)
12: (if (~2 + (x div 2)) <= 0 then 0 else 2)
12: (if (~2 + (x div 3)) <= 0 then 2 else 1)
12: (if (x + ~1) <= 0 then x else 0)
12: (if (x mod 5) <= 0 then 2 else 0)
12: (if (x mod (2 + (x mod 2))) <= 0 then 1 else x)
12: (if (x mod 8) <= 0 then x else 0)
12: (if x <= 0 then 1 else (2 * i))
12: (if x <= 0 then 2 else loop(\(x,i).(x div (2 - (x mod 2))),x,x))
12: loop(\(x,i).(5x + loop(\(x,i).(3x + 1),i,1)),i,1)
12: loop(\(x,i).(~2x + 1),x,0)
12: loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),x,x)
12: loop(\(x,i).3x,(x + ~1),x)
12: loop(\(x,i).3x,2x,2)
12: loop(\(x,i).3x,x,x)
12: loop(\(x,i).(x * (1 + (i div 2))),x,1)
12: loop(\(x,i).2x,x,(1 + (x mod 2)))
12: loop(\(x,i).x2,2,(x + 2))
12: loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x + ~2),x)
12: loop(\(x,i).loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,0),2,x)
11: (x + 17)
11: (4 + ((x div 4) mod 2))
11: ((2x + 1) + (x mod 2))
11: (11 - (x div 2))
11: (4 - (x mod 4))
11: ((2x + 1) - (x mod 2))
11: (2x + 9)
11: (x2 + 4x + 1)
11: (1 + (2 * (2 + (((x div 2) div 3) mod 2))))
11: (3x + 7)
11: (2 + (x * (x + i)))
11: (1 + (2 * (2 - (x mod 2))))
11: (2x2 + 4x + 1)
11: (x + 32)
11: (x5 + 1)
11: (4x2 + 1)
11: (1 + (2 * (i div 2)))
11: ((x * (x mod 2)) + (x div 2))
11: (1 + (2 * (if x <= 0 then 0 else 2)))
11: (1 + ((2 + (x div 2)) div 3))
11: (x + ((x + ((x div 2) mod 2)) div 2))
11: (x + ((x - (x div 4)) div 2))
11: (1 + (x2 div 4))
11: (1 + (x2 div 8))
11: (1 + (x div 7))
11: (x + (x div 11))
11: (1 + (x div (~2 + (x mod 2))))
11: (2 + ((x + 1) mod 8))
11: (2 + ((x + 2) mod 4))
11: (1 + ((~x + 1) mod 3))
11: (2 + (((x + ~1) div 2) mod 2))
11: (1 + (x mod (3 - (x mod 2))))
11: (1 + (x mod 7))
11: (2 + (x mod (2 + ((x div 2) mod 2))))
11: (1 + (x mod (1 + (x mod (1 + (x div (2 + (x div 5))))))))
11: (x + (x mod 10))
11: (x + (if (~2 + (x div 3)) <= 0 then 1 else 2))
11: (x + (if (x + ~1) <= 0 then x else 2))
11: (1 + (if (x mod 8) <= 0 then 2 else 1))
11: (x + (if x <= 0 then 1 else (x div 3)))
11: (4x + loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),i,1))
11: (x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1))
11: (1 + loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x))
11: (4x + loop(\(x,i).5x,i,1))
11: (8x + loop(\(x,i).11x,i,1))
11: (6x + loop(\(x,i).11x,i,1))
11: (2 + loop(\(x,i).(x div (1 + (x mod 2))),x,x))
11: (x + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i))
11: (1 + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x))
11: (0 - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x))
11: ~15
11: (~10x + ~9)
11: (2 - (x mod ~3))
11: ((x + ~1) + (x mod 2))
11: (6 - (x div 3))
11: ((2 * (2x - (x mod 8))) - (x mod 4))
11: (11x + 8)
11: (7x + 4)
11: (~x + 32)
11: (2x - (x mod 5))
11: (~1 + ((x2 + x) div 2))
11: ((x div 2) - (x div 3))
11: ((x div 2) - (x mod 4))
11: (~1 + (2x mod (4 + (x div 4))))
11: (~x + ((x div 2) mod 3))
11: (~x + ((x div 2) mod 4))
11: (~x + ((x div 2) mod 5))
11: (~1 + (loop(\(x,i).2x,x,x) mod (x + 1)))
11: (~1 + (x mod 9))
11: (~2 + (x mod (2 + (x mod 3))))
11: (~2 + loop(\(x,i).(x3 + 2),2,2))
11: (11x + 9)
11: (7x + ~1)
11: (x - ((~1 + (x div 4)) div 2))
11: (x - ((if x <= 0 then 2 else loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 2))
11: (x - (x div 7))
11: (x - (x div (~2 + (x mod 2))))
11: (x - (if x <= 0 then 1 else (x - ((if x <= 0 then 2 else loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 2))))
11: (x - loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,0))
11: (x2 + 8x + 12)
11: (3x + 12)
11: (7 * i)
11: (x3 + 3x2 + 4x + 2)
11: (2 * (1 + (2 * (x div 2))))
11: (2x2 + 5x + 2)
11: (2 * (2 + (((x div 2) div 3) mod 2)))
11: (3 * (2 + (x mod 2)))
11: (2 * (2 + (x mod 3)))
11: (4 * (x + (if (~2 + (x div 2)) <= 0 then 1 else 2)))
11: (2 * (1 + (if (x + ~4) <= 0 then 0 else 2)))
11: ((x + 2) * i)
11: (x3 + ~2x)
11: (5x2 + ~2x)
11: 44
11: 48x
11: 9x2
11: (4 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2))
11: (4 * (x mod 4))
11: (4 * (x mod (2 + (x mod 2))))
11: (2 * (2x div (4 + (x div 8))))
11: ((((x + 1) div 2) div 2) * (x div 2))
11: (x * (((x + ~1) div 2) div 2))
11: ((x + ~1) * (x div 2))
11: (2 * ((x + ~1) mod 4))
11: (2 * (((~x + 2) div 2) mod 4))
11: (3 * (if x <= 0 then 0 else 2))
11: (2 div (x + ~16))
11: ((2 + (x * (x + (x div 2)))) div (x + 2))
11: ((3x2 + x) div 2)
11: ((1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + ~1) div 2))) div 2)
11: ((1 + ((x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) div 2)) div 2)
11: ((x + ((x div 3) mod 3)) div 3)
11: ((x + 1) div (2 + (x mod 2)))
11: ((x + 1) div (8 - ((x + 2) div 3)))
11: ((x + 2) div (2 + (loop(\(x,i).x3,2,2x) mod (x + 1))))
11: ((~x + 2) div (4 + (x mod 2)))
11: ((~x + ((~x + 2) div 4)) div 2)
11: ((x - (x div ~7)) div 2)
11: ((x - ((x div 2) mod 4)) div 2)
11: ((2x + 4) div 3)
11: (((~x + 1) * (x div 2)) div 2)
11: ((~x2 + x) div 4)
11: (x4 div 2)
11: ((((x + ~1) div 2) * (x div 2)) div 2)
11: ((2 * (2x div (4 + (x div 8)))) div 3)
11: ((3 * (x div 2)) div 2)
11: ((x * (x mod 2)) div 4)
11: (2x div (4 + (x div 8)))
11: (((2 + (x * (x + (x div 2)))) div (x + 2)) div 2)
11: (((x2 + ~x) div 2) div 3)
11: ((x2 div 2) div 5)
11: ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 2)
11: ((if x <= 0 then 2 else loop(\(x,i).(x div (2 - (x mod 2))),x,x)) div 2)
11: (x div (1 + (x div 4)))
11: (x div (2 + ((x div 2) mod 3)))
11: (x div (1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))
11: (x div (1 + (if (x mod 3) <= 0 then 0 else 2)))
11: (x div (2 - ((x div 2) mod 2)))
11: (x div ~12)
11: (x div (if (x mod 2) <= 0 then ~2 else 1))
11: (4 mod (1 + (x div 2)))
11: ((2x + 1) mod (4 + (x div 4)))
11: ((1 + (x div 2)) mod 6)
11: ((1 + (x div (~2 + (x mod 2)))) mod 3)
11: ((1 + i) mod 3)
11: ((~x + 1) mod 5)
11: ((x + ~2) mod (2 + (x div 2)))
11: ((x2 + x) mod 8)
11: (2x mod (1 + (x div 4)))
11: (((x + 1) div 2) mod 4)
11: ((x mod 5) mod 2)
11: (loop(\(x,i).(x * i),x,1) mod (x + 1))
11: (loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 8)
11: (x mod (3 + ((x div 2) div 3)))
11: (x mod (4 + (x mod 2)))
11: (x mod (1 + ((x + 2) div 5)))
11: (x mod (2 + ((x mod 3) div 2)))
11: (x mod (1 + (x div (2 * (2 - (x mod 2))))))
11: (x mod (1 + ((x + ~1) mod 4)))
11: (x mod (1 + (x mod (1 + (x div (2 + (x div 5)))))))
11: (x mod (1 - (2 * ((~x + 1) div (2 + (x div 2))))))
11: (x mod (~1 + (loop(\(x,i).2x,x,x) mod (x + 1))))
11: (x mod ~8)
11: (x mod (2 * (1 + (2 * (x mod 2)))))
11: (if (~x + 2) <= 0 then 1 else 0)
11: (if (~2 + (x div 4)) <= 0 then 2 else 1)
11: (if (~2 + (x div 5)) <= 0 then 0 else 2)
11: (if (x + ~2) <= 0 then 1 else (x div 3))
11: (if (x mod 4) <= 0 then 1 else 2)
11: (if (x mod 4) <= 0 then 2 else 1)
11: (if (x mod (1 + i)) <= 0 then 2 else 1)
11: (if x <= 0 then 0 else (x + 2))
11: (if x <= 0 then 1 else (x - ((if x <= 0 then 2 else loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 2)))
11: (if x <= 0 then 1 else x2)
11: loop(\(x,i).(2x + i),x,0)
11: loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then i else 0)),(x div 2),(x + 1))
11: loop(\(x,i).(4x + loop(\(x,i).5x,i,1)),i,1)
11: loop(\(x,i).(8x + loop(\(x,i).11x,i,1)),i,1)
11: loop(\(x,i).(6x + loop(\(x,i).11x,i,1)),i,1)
11: loop(\(x,i).(2x + loop(\(x,i).10x,i,1)),i,1)
11: loop(\(x,i).3x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
11: loop(\(x,i).3x,x,4)
11: loop(\(x,i).(x2 + x),1,loop(\(x,i).3x,x,1))
11: loop(\(x,i).(x * (x + i)),2,4)
11: loop(\(x,i).(10x + ~8),x,2)
11: loop(\(x,i).x3,x,2)
11: loop(\(x,i).2x,(x + 2),2)
11: loop(\(x,i).((2 * (x - (2x * i))) div (1 + i)),x,1)
11: loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x + 2))
10: (5 + (x div 2))
10: ((x + 1) + (x div 5))
10: (4 + ((x div 2) mod 2))
10: ((x + 2) + (x mod 2))
10: (7x + loop(\(x,i).10x,i,1))
10: (7x + loop(\(x,i).2x,i,1))
10: (~x + 5)
10: ((2x + 1) - (x div ~2))
10: ((x + 1) - (x div 4))
10: (8 + (x mod 2))
10: (1 + (2 * (3 - (x mod 2))))
10: (2x2 + x + 1)
10: (x2 + 4x + 5)
10: (x + 24)
10: (4x + i)
10: (x + (2 * (x div 3)))
10: (1 + (2 * (if (~4 + (x div 2)) <= 0 then 2 else 1)))
10: (1 + (2 * (if (x mod 3) <= 0 then 0 else 2)))
10: (x + ((x + (x div 2)) div 4))
10: (1 + ((x - ((x div 2) mod 2)) div 2))
10: (x + ((x2 + 2x) div 4))
10: (x + (((1 + i) * i) div 2))
10: (x2 + (x2 div 4))
10: (1 + ((32 mod (x + 1)) div 2))
10: (x + (x div (4 + (x div 2))))
10: (2 + (2 mod (1 + (x div 2))))
10: (2 + (4 mod (x + 2)))
10: (2 + ((x + 1) mod 3))
10: (2 + (6 mod (1 + (x div 2))))
10: (1 + ((x * (x div 2)) mod 2))
10: (2 + (x2 mod 3))
10: (x + (x2 mod 3))
10: (2 + (x2 mod 5))
10: (1 + (((x + 1) div 2) mod 3))
10: (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 8))
10: (1 + (x mod ~3))
10: (2 + (if (~2 + (x div 4)) <= 0 then 1 else 2))
10: (x + (if (x mod 2) <= 0 then 2 else x))
10: (1 + (if (x mod 3) <= 0 then 0 else x))
10: (x + (if (x mod (1 + i)) <= 0 then 1 else 0))
10: (4x + loop(\(x,i).(3x + 1),i,1))
10: (x + loop(\(x,i).(6x + loop(\(x,i).11x,i,1)),i,1))
10: (1 + compr(\x.((~1 + loop(\(x,i).(x * i),x,1)) mod (x + 2)),x))
10: (0 - (x mod 3))
10: (~12x + 1)
10: (1 - (2 * ((x div 2) mod 2)))
10: (1 - (x div 4))
10: (~6x + 2)
10: (2 - ((x mod 3) div 2))
10: (2 - ((x mod 3) mod 2))
10: ((~x + 1) - (x mod 2))
10: (~3 + (x div 2))
10: (~2 + (3 * i))
10: (~3x + 4)
10: (4x + 7)
10: (~2 + ((1 - (x div 2)) div 3))
10: (~1 + ((x + ~2) div 3))
10: (~1 + (((x + 1) div 2) div 2))
10: ((x div 2) - ((x + ~1) div 3))
10: ((x div 2) - ((3 * (x div 4)) div 2))
10: (~x + (x div 8))
10: (~1 + (loop(\(x,i).2x,x,1) mod (x + 1)))
10: (~x + (x mod 4))
10: (~1 + (x mod 5))
10: (~1 + (x mod 8))
10: (~1 + loop(\(x,i).10x,x,1))
10: (x + ~17)
10: (11x + ~10)
10: (x - (2 * ((x div 2) mod 2)))
10: (x - ((2 - (x div 2)) div 2))
10: (x - (x2 div 3))
10: (x - ((x + 1) mod 3))
10: (x - (x mod 10))
10: (x - (if x <= 0 then 1 else (2 * i)))
10: ((3 + i) * i)
10: (7 * (if x <= 0 then 1 else 2))
10: 45
10: (2x2 + 2x + 4)
10: (x3 + 2x2 + 2x)
10: (2x + 32)
10: 37x
10: (x * (2 + (x mod 2)))
10: (4 * (x + (x mod 2)))
10: (~2x + 36)
10: (2 * (2 - ((x * (x div 2)) mod 2)))
10: ((2 - (x mod 2)) * (if x <= 0 then 1 else 2))
10: (~x2 + 3x + ~2)
10: (5x2 + ~x)
10: (2 * ((2 * (2x - (x mod 8))) - (x mod 4)))
10: (~2x + 32)
10: (12x + 10)
10: (10x + ~5)
10: (2 * (~2x + (x mod 2)))
10: ((x + ~1) * i)
10: (x * ((x + 1) - i))
10: (x * (~1 + i))
10: 34x
10: (x4 + ~x2)
10: (4 * (~2 + (x mod 2)))
10: (4x + ~8)
10: (24x + 24)
10: 40x
10: (4 * (x mod 5))
10: (x * (i * (2 + i)))
10: (x * (i * i * i))
10: (i * i * i * i)
10: (2 * ((2x + 1) div (3 + (x div 4))))
10: (2 * ((x + 1) div 5))
10: (2 * ((2x * (1 + (2 * i))) div (2 + i)))
10: (2 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2))
10: (2 * (x2 div 2))
10: (2 * (((2x + 1) mod (2 + (x div 4))) div 2))
10: (2 * (2x mod 3))
10: ((x mod 3) * (x div 2))
10: (2 * (if (~4 + (x div 2)) <= 0 then 2 else 1))
10: (x * loop(\(x,i).((x2 + ~x) div 2),2,(x + ~2)))
10: (2 div (8 - (x div 2)))
10: ((x2 + 2) div 3)
10: ((x2 + 2) div (x + 2))
10: ((1 + (x2 div 8)) div 2)
10: ((x + (x div 2)) div 8)
10: ((x + (x div 4)) div 3)
10: ((x + (if (~2 + (x div 2)) <= 0 then 1 else 0)) div 2)
10: (((if (~2 + (x div 2)) <= 0 then 1 else 2) + (x div 2)) div 2)
10: ((x + (if (~2 + (x div 4)) <= 0 then 1 else 2)) div 2)
10: ((2 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 3)
10: ((~x + 1) div 7)
10: ((2 - (x div 2)) div (x + 2))
10: ((2 - (x div 4)) div 2)
10: ((x + ~2) div 5)
10: ((x - (x div 9)) div 2)
10: ((x - (x div 8)) div 2)
10: ((x - (x div 12)) div 2)
10: ((x - ((x div 3) mod 2)) div 2)
10: ((4 * (x + (if (~2 + (x div 2)) <= 0 then 1 else 2))) div 3)
10: ((x2 + x) div 5)
10: ((x2 + 4x + 4) div (~x + 26))
10: ((x2 + ~x) div 3)
10: ((x2 + ~x) div (x + 2))
10: ((x2 + ~2x) div 2)
10: ((x2 + ~2x) div (x + 2))
10: ((2 * (x div 2)) div 5)
10: ((x * (x div 3)) div 2)
10: (((x + ~2) mod (2 + (x div 2))) div 2)
10: ((3x mod (2 + (x div 2))) div 2)
10: ((x2 mod (x - ((~x + 2) div 2))) div (x + 1))
10: (x div (11 - (x div 2)))
10: (x div (2 + (x div 3)))
10: (x div (2 + (i mod 2)))
10: (x div (~1 + ((~x + 1) div 3)))
10: (i div ~2)
10: (1 mod (8 - (x div 2)))
10: (3 mod (x + 1))
10: ((2x + 1) mod (1 - (x div ~4)))
10: ((x2 + 1) mod (x + 4))
10: ((1 + (x div 2)) mod 2)
10: ((1 + (x div (2 - (x mod 2)))) mod 3)
10: ((x + 1) mod 9)
10: ((x + 1) mod (1 + (2 * ((1 + (x div 4)) div 2))))
10: ((x + 1) mod (1 + (x div (2 + (x mod (2 + (x mod 2)))))))
10: ((1 + i) mod (x + 1))
10: ((~x + 1) mod (2 + (x div 2)))
10: ((x + ~1) mod 7)
10: ((x - (x div 4)) mod 2)
10: ((x2 + x) mod 3)
10: ((x * (x div 2)) mod 4)
10: (2x mod (1 + (x div 2)))
10: (((x + 2) div 3) mod 4)
10: (((x2 + 2x) div 2) mod (1 + ((1 + (x div 2)) div 3)))
10: ((2x div (1 + (x div 4))) mod 2)
10: ((x div ~3) mod 2)
10: ((x div ~4) mod 2)
10: ((x mod (~2 - (x div 3))) mod 2)
10: ((x mod 10) mod (if x <= 0 then 1 else x))
10: ((if (x mod 2) <= 0 then 2 else x) mod 4)
10: (loop(\(x,i).(x * (1 + (i div 2))),x,1) mod (x + 1))
10: (x mod (1 + ((1 + (x div 2)) div 2)))
10: (x mod (2 + (x div 5)))
10: (x mod (1 + ((2 - (x div 2)) mod 4)))
10: (x mod (2 + ((~x + 2) mod 4)))
10: (x mod (2 + (6 mod (1 + (x div 2)))))
10: (x mod (2 - (x mod ~4)))
10: (x mod (~1 + ((~x + 1) div 2)))
10: (x mod (2 * (~2 + (x mod 2))))
10: (if (~4 + (x div 2)) <= 0 then x else (x + 2))
10: (if (~2 + (x div 3)) <= 0 then x else (x + 2))
10: (if (~2 + (x div 4)) <= 0 then 1 else 0)
10: (if (~1 + (i mod 3)) <= 0 then 2 else 1)
10: (if (x + ~1) <= 0 then 1 else 0)
10: (if (x + ~6) <= 0 then 1 else 2)
10: (if (x + ~10) <= 0 then 1 else 2)
10: (if ((x + 1) mod 8) <= 0 then 2 else 1)
10: (if (x mod 2) <= 0 then x else (~x + 2))
10: (if (x mod 4) <= 0 then x else 0)
10: (if (i mod 3) <= 0 then 1 else 2)
10: loop(\(x,i).(2x + i),x,2)
10: loop(\(x,i).(5x + 1),x,1)
10: loop(\(x,i).(10x + 21),x,1)
10: loop(\(x,i).(2x + (i mod 2)),x,0)
10: loop(\(x,i).(x + (if x <= 0 then (1 + i) else 0)),x,(~x + 1))
10: loop(\(x,i).3x,(x div 2),1)
10: loop(\(x,i).(2x2 + x),2,2)
10: loop(\(x,i).(x2 + x),x,1)
10: loop(\(x,i).(2x + 4),x,4)
10: loop(\(x,i).(2 * (x + i)),x,0)
10: loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),i,1)
10: loop(\(x,i).(3x + ~3),x,2)
10: loop(\(x,i).4x,x,3)
10: loop(\(x,i).4x,x,x)
10: loop(\(x,i).x3,2,(x + 1))
10: loop(\(x,i).2x,(x + ~2),x)
10: loop(\(x,i).2x,compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),2)
10: loop(\(x,i).x2,2,10)
10: loop(\(x,i).((x2 + ~x) div 2),2,(x + ~2))
10: loop(\(x,i).(x2 div 3),2,x)
10: loop(\(x,i).((if x <= 0 then 2 else loop(\(x,i).(x div (2 - (x mod 2))),x,x)) div 2),2,x)
10: loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,x)
10: loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),x,(~4x + 1))
10: loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),x,(2x + 1))
10: compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),i)
10: compr(\x.(x mod ((x + 1) - (x mod 10))),x)
10: compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),x,(~4x + 1)),x)
9: ((2x + 1) + (x div 2))
9: (5x + (x div 2))
9: (3x + (x div 2))
9: (3 + ((x div 2) mod 2))
9: (4 + (x mod 3))
9: (3 + (if (x + ~4) <= 0 then 0 else 2))
9: (3x + i)
9: (1 + (x div 2) - (2 * (x mod 2)))
9: (5x + 6)
9: (1 + (2 * (x + (x mod 2))))
9: (x2 + x + 8)
9: (x2 + 3x + 3)
9: (x2 + 2x + 4)
9: (1 + (x * (1 + i)))
9: ((2 * (x + i)) + i)
9: (~2x + 5)
9: (x2 + 16)
9: (x + 20)
9: (x4 + x2 + 1)
9: (16x + 1)
9: (4x2 + 4x + 1)
9: (1 + (4 * (x mod 5)))
9: (1 + (4 * (x mod (2 + (x mod 2)))))
9: (x + (i * i * i))
9: (x + (2 * ((x div 2) div 3)))
9: (1 + (2 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))
9: (1 + (2 * (x div 5)))
9: (x + (2 * (x div 5)))
9: (1 + (2 * (x mod 6)))
9: (1 + (2 * (if (x mod 5) <= 0 then 0 else 2)))
9: (x2 + i)
9: (x + ((x + (x mod 2)) div 3))
9: (2 + (((x div 3) * (x div 2)) div 2))
9: (((3 * (x div 4)) div 2) + (x div 2))
9: (1 + ((x * (x mod 2)) div 4))
9: (x + (2x div 7))
9: (1 + (((1 + (x div 2)) div 2) div 2))
9: (x + ((x2 div 2) div 3))
9: ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) + ((2x + 1) div (3 + (x div 4))))
9: (1 + ((3x mod (2 + (x div 2))) div 2))
9: (x + ((x mod 3) div 2))
9: (1 + ((x mod (1 + ((2 - (x mod 4)) mod (x + 1)))) div 2))
9: (x + (x div 13))
9: (2 + (x div (2 + (x mod 3))))
9: (1 + (i div 3))
9: (1 + ((4 + (x div 2)) mod (1 + (x div 3))))
9: (x + ((x + ~1) mod 3))
9: (1 + ((x div 4) mod 2))
9: (1 + (loop(\(x,i).2x,x,(1 + (x mod 2))) mod (2x + 1)))
9: ((x mod 4) + (x div 2))
9: (1 + (x mod (2 + ((x mod 3) div 2))))
9: (1 + (x mod (1 + (x div (2 * (2 - (x mod 2)))))))
9: (1 + (x mod (2 + (x mod 4))))
9: (1 + (x mod (2 * (1 + (x mod (2 * (1 + (x mod (1 + (x div 3))))))))))
9: (x + (if (2 - i) <= 0 then x else 1))
9: (x + (if (x + ~2) <= 0 then 1 else x))
9: (10x + loop(\(x,i).(3x + 1),i,1))
9: (x + loop(\(x,i).(10x + 1),i,1))
9: (x + loop(\(x,i).(2x + loop(\(x,i).10x,i,1)),i,1))
9: (1 + loop(\(x,i).(x + 1),(~4 + ((x + ((x div 2) mod 2)) div 2)),x))
9: (10x + loop(\(x,i).(11x + 1),i,1))
9: (1 + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x))
9: (2 + loop(\(x,i).3x,x,1))
9: (loop(\(x,i).7x,x,1) + loop(\(x,i).5x,x,1))
9: (8x + loop(\(x,i).10x,i,1))
9: (x + loop(\(x,i).2x,i,2))
9: (loop(\(x,i).(x * i),(~1 + i),1) + (x * i))
9: (2 + compr(\x.((~1 + loop(\(x,i).(x * i),x,1)) mod (x + 2)),x))
9: (x + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))
9: (11x + 7)
9: (1 - (x * i))
9: (1 - (x2 div 2))
9: (1 - loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x))
9: (1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 4x)))
9: (2 - ((~x + 1) div (2 + (x div 4))))
9: (2 - ((~x + 2) div (2 + (x div 2))))
9: (2 - ((x div 4) div ~2))
9: (2 - (x div (2 + i)))
9: (2 - (x div (~1 + ((~x + 2) div 4))))
9: (~4 + ((x + ((x div 2) mod 2)) div 2))
9: (~x + 8)
9: (~4x + 3)
9: (~x + 24)
9: (x3 + ~2)
9: (~1 + (4 * i))
9: (~1 + (2 * (((~x + 2) div 2) mod 4)))
9: ((x * (x mod 2)) - (x div 2))
9: (~2 + ((x + ((x div 2) mod 2)) div 2))
9: (~2 + ((~x + 1) div 2))
9: (~2 + (((~x + 2) div 2) div 3))
9: (~1 + ((x div 2) div ~2))
9: (~x + ((x div 2) div ~2))
9: ((x div 2) - ((~x + 2) div (2 + (x div 2))))
9: (~x + ((x div 3) mod 3))
9: (~2 + (x mod 4))
9: (~x + (x mod 9))
9: (~1 + (x mod (~1 + ((~x + 1) div 2))))
9: (loop(\(x,i).5x,x,1) - loop(\(x,i).3x,x,1))
9: (~1 + loop(\(x,i).10x,(x + 1),1))
9: (~x + loop(\(x,i).2x,x,1))
9: (7x + ~2)
9: 29x
9: (x - (3 * (x div ~2)))
9: (x - ((x div 2) mod 3))
9: (i - (2 * (i * i)))
9: (2 * ((x + 2) + (x div 2)))
9: (x2 + 8x)
9: (5x2 + x)
9: (10x + 16)
9: (x * (1 + (2 * (i div 2))))
9: (x3 + x2 + 2x + 2)
9: (2 * (1 + (x div 3)))
9: (3 * (1 + (x mod 2)))
9: ~21
9: (x * (2 - (x div (2 + i))))
9: (2 * (2 - ((x div 2) mod 2)))
9: (4x2 + 3x)
9: (2 * (4x - (x div 2)))
9: (2x2 + ~2)
9: (x2 + ~4x + 4)
9: (2 * ((x + 1) - (2 * (i mod 2))))
9: (2 * (~x + i))
9: 60
9: (2x2 + 6x)
9: (x6 + x2)
9: (4x2 + ~2x)
9: 36x
9: (2x3 + 2x2)
9: (x5 + x3)
9: (x4 + ~x3)
9: (10 * (x mod 2))
9: (2x2 + ~2x)
9: (6 * i)
9: (2 * ((x + (if (~2 + (x div 2)) <= 0 then 1 else 0)) div 2))
9: (2 * ((~x + 1) div 3))
9: (x * ((x + ~1) div 2))
9: ((4x div (1 + i)) * (~1 + (2 * i)))
9: (x * (x4 div 2))
9: ((x + ~2) * (x2 div 2))
9: ((x + 1) * (x mod 2))
9: (3 * (x mod 4))
9: (2 * (x mod 7))
9: (2 * (if (x mod 5) <= 0 then 0 else 2))
9: ((x + 1) * loop(\(x,i).x2,2,3))
9: (2 div (1 + (x div 2)))
9: (2 div (~8 + (x div 2)))
9: (((x + 1) + (x mod 2)) div 5)
9: ((1 + (x * (x div 2))) div 3)
9: ((2 + (((x div 3) * (x div 2)) div 2)) div 3)
9: ((x + ((x2 div 2) div 3)) div 2)
9: ((x + ((1 - (x div 2)) mod 4)) div 4)
9: ((x + ((x div 4) mod 2)) div 2)
9: ((1 + (if (x mod 3) <= 0 then 0 else x)) div 3)
9: ((~2x + 1) div (4 + (x div 4)))
9: ((~x + ((x div 2) mod 4)) div 4)
9: ((~x + (x mod 3)) div 4)
9: (3x div (if i <= 0 then 1 else i))
9: ((x2 + x) div ~8)
9: ((2x + 4) div 7)
9: ((x2 + 2x) div 5)
9: ((x2 + ~3x + 2) div 2)
9: (16 div (x + 1))
9: ((12x + 12) div 5)
9: ((2x * (~1 + (2 * i))) div (2 + i))
9: ((x3 + ~x2) div 2)
9: (2x div (2 + (x div 3)))
9: (2x div ~5)
9: (2x div 15)
9: (x2 div (3 + (x div 2)))
9: (((x - ((x mod 3) div 2)) div 2) div 2)
9: (((x3 + ~3x2 + 2x) div 2) div 3)
9: ((x2 div 4) div (x + 3))
9: (((2x + 1) mod (1 - (x div ~4))) div 2)
9: (((x + 1) mod (1 + (2 * ((1 + (x div 4)) div 2)))) div 2)
9: (((2 - (x div 2)) mod (x + 1)) div 2)
9: ((x mod (2 + (6 mod (1 + (x div 2))))) div 2)
9: ((if x <= 0 then 1 else x) div ~4)
9: (x div (3 - (x mod 2)))
9: (x div (1 + (2 * (2 + (x mod 2)))))
9: (x div (2 + (3 * (x mod 2))))
9: (x div (1 + (2 * (if (~4 + (x div 2)) <= 0 then 2 else 1))))
9: (x div (2 + ((x div 2) mod 2)))
9: (x div (2 + (x mod 4)))
9: (x div (1 + (x mod (2 * (1 + (x mod 2))))))
9: (x div (~2 + ((1 - (x div 2)) div 3)))
9: (x div (2 * (~2 + (x mod 2))))
9: ((4 + (x div 2)) mod (1 + (x div 3)))
9: ((x + 3) mod 7)
9: ((x + ((4 * (x div 3)) div 3)) mod 3)
9: ((1 + (x div 2)) mod 5)
9: ((x + (x div 3)) mod 3)
9: ((x + (if (x mod 2) <= 0 then x else 2)) mod 3)
9: ((x + 1) mod (3 - (x mod 2)))
9: ((x + 1) mod (2 + (x div 4)))
9: ((x + i) mod 2)
9: ((1 - (x div 2)) mod (x + 2))
9: ((~x + 1) mod (1 + ((x - ((x div 3) mod 3)) div 2)))
9: ((~x + 2) mod (2 + (x div 2)))
9: ((x + ~2) mod (2 + (x mod 2)))
9: ((x + ~2) mod 8)
9: ((~1 + i) mod 3)
9: (8 mod (if x <= 0 then 1 else x))
9: ((x2 + x) mod 5)
9: ((2x + ~2) mod (2 + (x div 2)))
9: (((x mod 3) * (x div 2)) mod 2)
9: (2x mod (4 + (x div 2)))
9: (x2 mod (1 + (x div 2)))
9: (x2 mod (2 + (x div 2)))
9: (((x + 1) div 2) mod 6)
9: (((x2 + x) div ~8) mod 2)
9: (((x2 + 2x) div 2) mod 3)
9: ((x2 div 4) mod (x + 1))
9: (((x + ~2) mod (1 + (x div 2))) mod 3)
9: (((x div 2) mod 3) mod 2)
9: ((x mod 7) mod 3)
9: (loop(\(x,i).(x2 + 2x),2,2) mod (x + 1))
9: (loop(\(x,i).4x,x,1) mod (2x + 1))
9: (loop(\(x,i).2x,x,(1 + (x mod 2))) mod (2x + 1))
9: (x mod (1 + (4 * (x mod 5))))
9: (x mod (2 + (x div 3)))
9: (x mod (2 + ((x + ~1) mod 3)))
9: (x mod (~1 + (x div ~2)))
9: (x mod (~1 + (x mod (~1 + ((~x + 1) div 2)))))
9: (x mod 14)
9: (x mod (2 * (1 + (x mod 4))))
9: (if (x + ~2) <= 0 then 0 else 2)
9: (if (x mod 2) <= 0 then 1 else (x div 4))
9: (if (x mod 2) <= 0 then 8 else 1)
9: (if (x mod 2) <= 0 then (2 * (2 + (if x <= 0 then 0 else 2))) else 1)
9: (if (i mod 3) <= 0 then 1 else 0)
9: (if x <= 0 then 2 else loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then i else 0)),(x div 2),(x + 1)))
9: loop(\(x,i).(7x + loop(\(x,i).2x,i,1)),i,1)
9: loop(\(x,i).(7x + 1),i,1)
9: loop(\(x,i).(10x + 1),x,0)
9: loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1)
9: loop(\(x,i).(x + 1),(~4 + ((x + ((x div 2) mod 2)) div 2)),x)
9: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(3x + 1))
9: loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,2x)
9: loop(\(x,i).(7x + ~6),x,0)
9: loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,(x + 2))
9: loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,x)
9: loop(\(x,i).3x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1)
9: loop(\(x,i).5x,(x + 1),1)
9: loop(\(x,i).(x2 + 4x + 4),2,1)
9: loop(\(x,i).(x * (2 - (x div (2 + i)))),x,2)
9: loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,x)
9: loop(\(x,i).2x2,x,1)
9: loop(\(x,i).(2x * i),i,1)
9: loop(\(x,i).2x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),2)
9: loop(\(x,i).2x,(x + ~1),2)
9: loop(\(x,i).x2,(x + ~1),2)
9: loop(\(x,i).((x * (1 + i)) div (1 + (i div 2))),(x + ~1),1)
9: loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(~2 + i),1)
9: loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),i,1)
9: loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 4x))
9: loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(3x + 1))
9: loop(\(x,i).i,(~2 + (x div 2)),1)
9: loop(\(x,i).i,(x + ~9),1)
9: compr(\x.(loop(\(x,i).(2x + 1),x,0) mod (x + 1)),x)
9: compr(\x.(loop(\(x,i).(x * (1 + (i div 2))),x,1) mod (x + 1)),x)
9: compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + 1)),x)
8: (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) + ((2x + 1) div (3 + (x div 4)))))
8: ((2x + 2) + (x div 2))
8: ((x + 4) + (x div 2))
8: (3 + ((x2 + 2x) mod 6))
8: (4 + (i mod 2))
8: (5x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1))
8: (5x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1))
8: (4 + loop(\(x,i).2x,x,1))
8: ((2x + 2) + i)
8: (17x + 1)
8: (1 + (2 * (1 + (((x2 + ~x + 2) mod (x + 4)) div 2))))
8: (1 + (2 * (2 + (x div 8))))
8: (x + (2 * (x + (x mod 2))))
8: (1 + (2 * (1 + (x mod 3))))
8: (1 + (2 * (2 + (x mod 4))))
8: (x2 + 2x + 3)
8: (x + ((1 + i) * i))
8: (1 + (2 * (2 + i)))
8: (x3 + ~x + 1)
8: (25x + 1)
8: 65
8: (24x + 1)
8: (2 + (3 * (x div 2)))
8: (1 + (2 * (x div 3)))
8: (x + (2 * (x div 4)))
8: (1 + (2 * (2x mod 3)))
8: (1 + (i * i))
8: (1 + ((2x + 1) div (3 + (x div 4))))
8: (1 + ((x + ((x2 div 2) div 3)) div 2))
8: (1 + ((1 + (x div 3)) div 2))
8: (1 + ((1 + (x div 4)) div 2))
8: (2 + ((x + ~2) div (2 + (x div 2))))
8: (x + ((x2 + 3x + 2) div 2))
8: (x + (9x div (if i <= 0 then 1 else i)))
8: (x + (2x div 3))
8: (1 + (x2 div 3))
8: (2 + (x2 div 3))
8: (1 + ((((x + 1) div 2) div 2) div 2))
8: (x + ((((x + 1) div 2) div 2) div 2))
8: (1 + (((x2 + ~x + 2) mod (x + 4)) div 2))
8: (1 + ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2))
8: (1 + ((x mod 5) div 2))
8: (2x + (x div 4))
8: ((2x + 2) + (x div (1 + (2 * (if (~4 + (x div 2)) <= 0 then 2 else 1)))))
8: (1 + (x div (2 + (x div 3))))
8: (1 + (x div (2 + ((x div 2) mod 2))))
8: (2 + (x div (2 + (x mod 5))))
8: (x + (x div (2 + (i mod 2))))
8: (1 + (2 mod (1 + (x mod 3))))
8: (1 + (2 mod (if ((x + 1) mod (2 + ((x div 2) mod 2))) <= 0 then x else 1)))
8: (2 + ((1 + ((x - ((x div 2) mod 2)) div 2)) mod 5))
8: (1 + ((1 + (x mod ((1 + (x mod (1 + (x div 4)))) * (1 + (x mod 2))))) mod (x + 1)))
8: (x + ((x + 1) mod 3))
8: (4x + ((x + 1) mod 4))
8: (1 + (31 mod (x + 1)))
8: (2 + ((x + ~1) mod 4))
8: (1 + ((~2x + 2) mod (4 + (x div 4))))
8: (2 + (16 mod (1 + (x div 2))))
8: (2 + (2x mod 5))
8: (2 + ((x div 3) mod 2))
8: (1 + ((x mod 3) mod 2))
8: (2 + (x mod 11))
8: (x + (if (~2 + (x div 3)) <= 0 then 2 else 1))
8: (x + (if (x - i) <= 0 then x else 0))
8: (x + (if (i mod 2) <= 0 then 2 else 0))
8: (4x + loop(\(x,i).(5x + 1),i,1))
8: (2x + loop(\(x,i).(5x + 1),i,1))
8: (4x + loop(\(x,i).(10x + 1),i,1))
8: (4x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1))
8: (x + loop(\(x,i).(8x + loop(\(x,i).11x,i,1)),i,1))
8: (8x + loop(\(x,i).3x,(2 * i),1))
8: (8x + loop(\(x,i).3x,i,1))
8: (loop(\(x,i).7x,x,1) + loop(\(x,i).3x,x,1))
8: (1 + loop(\(x,i).10x,x,1))
8: (x + loop(\(x,i).4x,i,1))
8: (loop(\(x,i).(x * i),i,1) + (x * (1 + i)))
8: (1 + loop(\(x,i).(if x <= 0 then i else (x + ~1)),x,0))
8: (1 + loop(\(x,i).(if x <= 0 then i else (x div 2)),x,0))
8: (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))
8: (~2 - (x div 4))
8: (0 - (x mod 4))
8: (1 - (2 * ((x div 5) mod 2)))
8: (1 - (2 * (x mod 4)))
8: (1 - (x mod (2 + ((1 + ((x - ((x div 2) mod 2)) div 2)) mod 5))))
8: ((~x + 2) - (x div 4))
8: (2 - ((~x + 1) div 5))
8: (2 - ((~x + 2) div 5))
8: (2 - ((~x + 2) div (2 - (x div ~4))))
8: (4 - (x mod 3))
8: (x + 15)
8: ((x + ~1) + (x div 2))
8: (~4 + (x div 4))
8: (~4 + (x mod 2))
8: ((~x + ~1) + i)
8: (8 - (x div 4))
8: (12 - (x div 2))
8: (~1 + (x * (1 + i)))
8: (11x + 6)
8: (~1 + (2 * (x div 2)))
8: (~1 + (2 * ((x + ~1) mod 4)))
8: (2x - (x mod 3))
8: (~x + (2 div (x + 1)))
8: (~2 + ((~x + 1) div 3))
8: (~x + ((x + ~1) div 3))
8: ((x2 div 2) - (x mod 2))
8: (~2 + (((~x + 2) div 2) div 5))
8: ((x div 2) - (2 * ((x div 4) mod 2)))
8: (~x + (x div 5))
8: (~1 + (2x mod (2 + (x div 2))))
8: (~x + ((x div 3) mod 2))
8: (~2 + (x mod 3))
8: (~1 + (x mod (~1 + (loop(\(x,i).2x,x,x) mod (x + 1)))))
8: (~1 + loop(\(x,i).(x + (if (~2 + (x div 4)) <= 0 then 1 else 2)),2,x))
8: (~1 + loop(\(x,i).10x,x,2))
8: (loop(\(x,i).2x,x,1) - (x mod 2))
8: (loop(\(x,i).2x,x,(1 + (x mod (2 * (1 + (x mod 2)))))) - (x mod 2))
8: (~7x + ~1)
8: (~11x + ~1)
8: (~7x + ~4)
8: (x - ((~2 + (x div 2)) div 3))
8: (x - ((3 * (x div 4)) div 2))
8: (x - ((x div 2) div 5))
8: (x - (x div (11 - (x div 2))))
8: (x - (x div ~8))
8: (x - ((x div 2) mod 5))
8: (x - ((x div 5) mod 2))
8: (x - (x mod 5))
8: (x - (if x <= 0 then 0 else 1))
8: (~2x + i)
8: (i - ((1 + i) mod (x + 1)))
8: (5x + 10)
8: (x2 + 7x + 6)
8: (x2 + 10x + 16)
8: (13x + 13)
8: (5x2 + 4x)
8: (x6 + x)
8: (2 * (1 + (4 * (x mod 2))))
8: (4x2 + 4x + 2)
8: ((2x + 1) * i)
8: (2 * (x + (2 * i)))
8: (2 * (1 + (((x2 + ~x + 2) mod (x + 4)) div 2)))
8: (2 * (2 + (x div 2)))
8: (4 * (x + (x div 2)))
8: ((x + 2) * (x + (x div 2)))
8: (x * (1 + (x div 5)))
8: (2 * ((2x + 2) + (x div (1 + (2 * (if (~4 + (x div 2)) <= 0 then 2 else 1))))))
8: (2 * ((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)))
8: ((1 + ((x * (x div 3)) mod (1 + ((2 - (x div 2)) mod 4)))) * (x mod 2))
8: (2 * (x + (((x div 2) div 3) mod 2)))
8: (2 * (1 + ((x div 2) mod 2)))
8: (x * (2 + (i mod 2)))
8: (4 * (x + i))
8: (2 * (3 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
8: (3 * (2 - (x mod 2)))
8: (2 * (8 - (x div 2)))
8: (11 * (if x <= 0 then 1 else 2))
8: (x * (~1 + (x div 2)))
8: (2 * (~2x + (x div 2)))
8: (x * (~2 + (i mod 2)))
8: (5x2 + ~4x)
8: (2 * (x - ((~x + 1) div 3)))
8: (25x + 25)
8: 45x
8: (4x + 16)
8: (x3 + 7x2 + 14x + 8)
8: 7x2
8: 26x
8: (20x + 8)
8: (x5 + x2)
8: (14 * (2 + (if x <= 0 then 0 else 2)))
8: (x3 + 2x2 + x)
8: (3x2 + 12x + 12)
8: (x3 + 6x2 + 12x + 8)
8: (~8x2 + 8x)
8: (x6 + ~x2)
8: (8x * (~1 + (2 * i)))
8: (x6 + ~x4)
8: (x4 + x3)
8: (x5 + ~x3)
8: (i * i * i * i * i * i)
8: (4 * ((1 + (4 * (x + (if (x + ~4) <= 0 then 1 else 2)))) div 3))
8: (4 * (x div 2))
8: (4 * (x div 7))
8: (2x * (x mod 2))
8: (((x + 1) div 2) * (1 + (x div 2)))
8: (3 * ((~x + 2) div 2))
8: (5 * ((~x2 + x) div 2))
8: (3 * ((((x + 1) div 2) div 2) div 2))
8: (3 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))
8: ((x + 1) * (x div 3))
8: ((x + 1) * (x div 4))
8: (3 * (x div 7))
8: (5 * (x div ~2))
8: (2 * (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))
8: (x * ((x div 2) mod 2))
8: ((x + 2) * (x mod 2))
8: (3 * (x mod 7))
8: ((x + 1) * (if x <= 0 then 1 else 2))
8: ((x + 1) * loop(\(x,i).(x2 + 2x + 1),2,2))
8: (x * loop(\(x,i).(x2 + 2),2,2))
8: ((x + 1) * loop(\(x,i).x2,2,4))
8: (3 * compr(\x.(1 - (x mod (2 + ((1 + ((x - ((x div 2) mod 2)) div 2)) mod 5)))),x))
8: (2 div (~x + 16))
8: (((x + 1) + (x div 8)) div 2)
8: ((~x + 3) div 7)
8: (((x + 1) - (x div 4)) div 2)
8: ((x2 + (x div 2)) div 3)
8: ((1 + (x div 3)) div 3)
8: ((x + (x div 8)) div 2)
8: ((x + (x div 12)) div 2)
8: (((x mod 4) + (x div 2)) div 2)
8: ((x + 2) div (2 + (x div 4)))
8: ((x + 2) div (2 - (x mod 2)))
8: ((~x + 2) div 7)
8: (((~x + ~1) + (x mod 2)) div 5)
8: ((2x + ~1) div 5)
8: ((2x + ~1) div (4 + (x div 4)))
8: ((~1 + ((x2 + x) div 2)) div 2)
8: ((~x + (x div 3)) div 3)
8: ((~1 + (2x mod (2 + (x div 2)))) div 2)
8: ((~x + ((x div 2) mod 5)) div 5)
8: ((x + ~2) div (2 + (x div 4)))
8: ((x - ((x + (x div 2)) div 4)) div 2)
8: ((x - ((~1 + (x div 2)) div 2)) div 2)
8: ((x - (x2 div 4)) div 2)
8: (8 div (x + 1))
8: ((2 * ((2x + 2) + (x div (1 + (2 * (if (~4 + (x div 2)) <= 0 then 2 else 1)))))) div 3)
8: ((2x + 4) div 5)
8: ((x2 + 2x) div 3)
8: (((x + i) * i) div (x + 1))
8: ((x2 + ~x) div (1 + i))
8: ((2x + ~4) div 7)
8: (9x div (if i <= 0 then 1 else i))
8: ((2 * ((x + (if (~2 + (x div 2)) <= 0 then 1 else 0)) div 2)) div 3)
8: ((x * (((x + ~1) div 2) div 2)) div 2)
8: ((2 * (x div 3)) div 3)
8: (x2 div (x + (if x <= 0 then 1 else (x div 3))))
8: (x2 div ~7)
8: ((x * i) div 2)
8: ((i * i) div 2)
8: ((3 * compr(\x.(1 - (x mod (2 + ((1 + ((x - ((x div 2) mod 2)) div 2)) mod 5)))),x)) div 2)
8: (((~1 + ((x2 + x) div 2)) div 2) div 2)
8: (((x2 + 2x) div 2) div 3)
8: ((((2 - (x div 2)) mod (x + 1)) div 2) div 2)
8: ((x div 3) div ~3)
8: (((x2 + ~x + 2) mod (x + 4)) div 2)
8: (((x + ~1) mod (1 + (x div 2))) div 2)
8: (((~2x + 4) mod (2 + (x div 2))) div 2)
8: ((x mod (2 + (x div 2))) div 3)
8: ((if x <= 0 then 1 else x) div ~7)
8: (loop(\(x,i).(x2 div 3),2,x) div (x + 1))
8: (x div (4 - ((x div 2) mod 2)))
8: (x div (1 + (2 * (1 + (((x2 + ~x + 2) mod (x + 4)) div 2)))))
8: (x div (1 + (2 * (x mod 2))))
8: (x div (1 + (2 * i)))
8: (x div (1 + (x div 5)))
8: (x div (2 + ((~x + 2) mod 4)))
8: (x div (1 + (x mod 5)))
8: (x div ~11)
8: (x div (~2 + (((~x + 2) div 2) div 5)))
8: (x div (~1 + (x div ~2)))
8: (x div ((x + 2) div (2 + (loop(\(x,i).x3,2,2x) mod (x + 1)))))
8: (1 mod (~2x + 1))
8: (1 mod (1 - (2x mod (4 + (x div 4)))))
8: (2 mod (1 + (x mod (2 + (x mod 2)))))
8: ((x2 + ~x + 2) mod (x + 4))
8: ((1 + ((x - ((x div 2) mod 2)) div 2)) mod 5)
8: ((1 + (x div 2)) mod (1 + (x div 5)))
8: ((2 + (x div 2)) mod 4)
8: ((x + 1) mod 13)
8: ((x + 1) mod (1 + (x div 5)))
8: ((x + 1) mod (1 + (x mod 4)))
8: ((x + 2) mod (1 + (x div 4)))
8: ((x + 2) mod (2 + ((x div 2) mod 2)))
8: ((x + 2) mod 10)
8: ((1 + i) mod 4)
8: ((1 - (x div 3)) mod 3)
8: ((~x + 2) mod 8)
8: (31 mod (x + 1))
8: ((~2 + (x mod 2)) mod (~1 + ((~2x + 2) mod (4 + (x div 4)))))
8: ((x + ~2) mod 6)
8: ((~x2 + x) mod 5)
8: ((~2x + 4) mod (2 + (x div 2)))
8: (((~2 + (x div 2)) * (x div 2)) mod (x + 1))
8: (16 mod (1 + (x div 2)))
8: (16 mod (~x + ~1))
8: (((x + 1) div 3) mod 2)
8: (((~1 + (2x mod (2 + (x div 2)))) div 2) mod 2)
8: (((x + ~2) div 3) mod 2)
8: ((((~1 + ((x2 + x) div 2)) div 2) div 2) mod 2)
8: ((loop(\(x,i).(x2 div 3),2,x) div (x + 1)) mod 3)
8: ((x div 2) mod (1 + (x mod (1 + ((~x + 2) mod 4)))))
8: ((x div 7) mod 2)
8: (((x + 1) mod 5) mod 2)
8: (((x + 1) mod 8) mod 3)
8: ((x mod (1 + (((x + 1) div 2) div 2))) mod 2)
8: ((x mod (2 + (x mod 2))) mod 2)
8: ((x mod 8) mod (if x <= 0 then 1 else x))
8: ((if x <= 0 then 1 else x) mod 3)
8: (loop(\(x,i).(1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),2,x) mod (x + 1))
8: (loop(\(x,i).2x,x,2) mod (x + 2))
8: (x mod (4 + (x div 3)))
8: (x mod (3 + i))
8: (x mod (1 + (4 * (x mod (2 + (x mod 2))))))
8: (x mod (1 + ((3x mod (2 + (x div 2))) div 2)))
8: (x mod (1 + ((4 + (x div 2)) mod (1 + (x div 3)))))
8: (x mod (2 + ((1 + ((x - ((x div 2) mod 2)) div 2)) mod 5)))
8: (x mod (1 + (31 mod (x + 1))))
8: (x mod (1 + (loop(\(x,i).2x,x,(1 + (x mod 2))) mod (2x + 1))))
8: (x mod (1 + (x mod (1 + (x div (2 * (2 - (x mod 2))))))))
8: (x mod (2 * (2 + (x mod 2))))
8: (if (~4 + (x div 2)) <= 0 then 0 else 2)
8: (if (~4 + (x div 2)) <= 0 then 1 else 0)
8: (if (x + ~2) <= 0 then 1 else 0)
8: (if (x + ~12) <= 0 then 1 else 2)
8: (if (x - i) <= 0 then x else 0)
8: (if (~2 + i) <= 0 then 2 else x)
8: (if (x mod 2) <= 0 then (~x + 2) else x)
8: (if (x mod 2) <= 0 then (3 * (if x <= 0 then 1 else 2)) else 1)
8: (if (x mod 4) <= 0 then x else (x div 2))
8: (if (i mod 2) <= 0 then 2 else ~2)
8: (if (i mod 2) <= 0 then i else 1)
8: loop(\(x,i).(7x + loop(\(x,i).10x,i,1)),i,1)
8: loop(\(x,i).(10x + 1),x,loop(\(x,i).(10x + 10),x,0))
8: loop(\(x,i).(1 + (x * i)),4,2)
8: loop(\(x,i).(2x + (i mod 2)),x,1)
8: loop(\(x,i).(x + (if (~2 + (x div 4)) <= 0 then 1 else 2)),2,x)
8: loop(\(x,i).(10x + loop(\(x,i).(3x + 1),i,1)),i,1)
8: loop(\(x,i).(2x + loop(\(x,i).(5x + 1),i,1)),i,1)
8: loop(\(x,i).(10x + loop(\(x,i).(11x + 1),i,1)),i,1)
8: loop(\(x,i).(8x + loop(\(x,i).3x,(2 * i),1)),i,1)
8: loop(\(x,i).(8x + loop(\(x,i).10x,i,1)),i,1)
8: loop(\(x,i).(~1 + (2 * (x + (i mod 2)))),x,0)
8: loop(\(x,i).(4x + ~1),x,1)
8: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(4x + 1))
8: loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,10x)
8: loop(\(x,i).(11x + ~10),x,0)
8: loop(\(x,i).(x - (x div 12)),2,x)
8: loop(\(x,i).3x,2x,3)
8: loop(\(x,i).3x,x2,1)
8: loop(\(x,i).3x,x,(1 + loop(\(x,i).2x,x,1)))
8: loop(\(x,i).3x,i,x)
8: loop(\(x,i).5x,x,4)
8: loop(\(x,i).7x,i,1)
8: loop(\(x,i).(2x + 4),x,0)
8: loop(\(x,i).(x2 + 4x + 4),2,2)
8: loop(\(x,i).(x * (2 + i)),4,(x + 1))
8: loop(\(x,i).(x * (2 + i)),compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x),1)
8: loop(\(x,i).((x + 2) * (x + i)),2,2)
8: loop(\(x,i).(x * (x + i)),2,3)
8: loop(\(x,i).(~2x + 2),x,1)
8: loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,2)
8: loop(\(x,i).(2 * (x - (i mod 2))),x,0)
8: loop(\(x,i).(x * (x - i)),2,(x + ~2))
8: loop(\(x,i).12x,2,(x + 1))
8: loop(\(x,i).4x,(~1 + i),1)
8: loop(\(x,i).x3,x,3)
8: loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(x + ~1),1)
8: loop(\(x,i).2x,(~1 + i),x)
8: loop(\(x,i).2x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
8: loop(\(x,i).2x,loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1)
8: loop(\(x,i).2x,x,(1 + (x mod (2 * (1 + (x mod 2))))))
8: loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x)))
8: loop(\(x,i).x2,1,loop(\(x,i).((2 * (x - (2x * i))) div (1 + i)),x,1))
8: loop(\(x,i).(x * i),(x div 2),1)
8: loop(\(x,i).((x2 + ~x) div 2),2,(x + 1))
8: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,x)
8: loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,x)
8: loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + x + 1))
8: compr(\x.(1 - (x mod (2 + ((1 + ((x - ((x div 2) mod 2)) div 2)) mod 5)))),x)
8: compr(\x.(x mod (1 + (4 * (x mod (2 + (x mod 2)))))),(x + 3))
8: compr(\x.loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(3x + 1)),x)
8: compr(\x.loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,x),x)
7: (6 + i)
7: (6 - (x mod 2))
7: ((4x + 1) + (x mod 2))
7: ((x + 1) + (2 * ((x div 2) div 3)))
7: ((x + 1) + (2 * (x div 5)))
7: (3 + (x div (1 + (x mod 4))))
7: (1 + (((1 + (x mod ((1 + (x mod (1 + (x div 4)))) * (1 + (x mod 2))))) mod (x + 1)) + (x mod 2)))
7: (1 + (((2x div (1 + (x div 4))) mod 2) + (x mod 2)))
7: (3 + (x mod 3))
7: (4 + (x mod 4))
7: (5x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1))
7: (5x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1))
7: (5x + loop(\(x,i).(11x + 1),i,1))
7: (3x + loop(\(x,i).(11x + 1),i,1))
7: (3x + loop(\(x,i).11x,i,1))
7: ((x + 2) + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i))
7: (3 - (x div ~2))
7: ((2x + 1) - ((~x + 1) div (2 + (x div 4))))
7: (2 + (3 * i))
7: (2 + (5 * i))
7: (13x + 1)
7: (1 + (2 * (1 + (2 * ((x div 2) mod 2)))))
7: (1 + (2 * (1 + (2 * (x mod 2)))))
7: (x + (3 * (x + (x mod 2))))
7: (~2x + 3)
7: (1 + (3 * (2 - (x mod 2))))
7: (8x + 9)
7: (4x2 + 2x + 1)
7: (3x2 + 3x + 2)
7: 73
7: (32x + 1)
7: (1 + (6 * i))
7: (x + (2 * (i * i)))
7: (1 + (x * (i * i)))
7: (1 + (3 * ((x2 + x) div 2)))
7: (x + (3 * (2x div (if i <= 0 then 1 else i))))
7: (1 + (2 * (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))))
7: (1 + (2 * ((x + ~1) mod 3)))
7: (2 + ((4x + (x2 div 4)) div (x + 2)))
7: (1 + ((x + (x div 2)) div 4))
7: (1 + ((2 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 3))
7: (1 + ((x + 1) div (1 + (((2x div (1 + (x div 4))) mod 2) + (x mod 2)))))
7: (x + ((i * i * (1 + i)) div 2))
7: (1 + ((x * (x div 2)) div 2))
7: (x + (x2 div 5))
7: (1 + ((x div 2) div (1 + (x mod 2))))
7: (1 + (((2x + 1) mod (2 + (x div 4))) div 2))
7: (1 + ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 2))
7: (1 + ((loop(\(x,i).2x,x,2) mod (x + 1)) div 2))
7: (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2))
7: (1 + (x div (3 + ((x div 2) div 3))))
7: (1 + (x div (1 + (2 * (1 + (((x2 + ~x + 2) mod (x + 4)) div 2))))))
7: (1 + (x div (2 + ((x div 2) mod 3))))
7: (x + (x div (2 + (x mod 2))))
7: (2 + (x div (1 + (x mod (2 * (1 + (x mod 2)))))))
7: (2 + (x div (2 * (2 - (x mod 2)))))
7: (x + (2 mod (1 + (x div 4))))
7: (2 + ((~2x + 1) mod (2 + (x div 4))))
7: (1 + ((x + ~1) mod 9))
7: (1 + ((x2 + 2x) mod 6))
7: (1 + ((~2x + 2) mod (1 + (x div 2))))
7: (1 + (x2 mod 6))
7: (((2x div (1 + (x div 4))) mod 2) + (x mod 2))
7: (1 + (((x + 1) mod 7) mod 3))
7: (x + (x mod 4))
7: (2 + (x mod (1 + ((x + 1) div (1 + (((2x div (1 + (x div 4))) mod 2) + (x mod 2)))))))
7: (1 + (x mod (1 + ((3x mod (2 + (x div 2))) div 2))))
7: (1 + (x mod (1 + (x div 5))))
7: (1 + (x mod (1 + ((4 + (x div 2)) mod (1 + (x div 3))))))
7: (1 + (x mod (1 + (loop(\(x,i).2x,x,(1 + (x mod 2))) mod (2x + 1)))))
7: (1 + (x mod (1 + (x mod (1 + (x div (2 * (2 - (x mod 2)))))))))
7: (2 + (x mod 10))
7: (1 + (x mod (2 * (1 + (x mod 4)))))
7: (1 + (if (~x + 2) <= 0 then x else 0))
7: (x + (if (~2 + (x div 4)) <= 0 then 2 else 1))
7: (1 + (if (~1 + (x mod 3)) <= 0 then x else 2))
7: (2 + (if (~x + i) <= 0 then 0 else x))
7: (2 + (if (x mod 3) <= 0 then 0 else 2))
7: (1 + (if (x mod 4) <= 0 then 0 else 2))
7: (x + (if (i mod 3) <= 0 then 1 else 0))
7: (1 + (if x <= 0 then 0 else i))
7: ((if x <= 0 then 1 else x) + (x div 2))
7: (2x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1))
7: (4x + loop(\(x,i).(5x + loop(\(x,i).11x,i,1)),i,1))
7: (x + loop(\(x,i).(9x + 1),i,1))
7: (2x + loop(\(x,i).(10x + 1),i,1))
7: (2x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1))
7: (10x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1))
7: (2x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1))
7: (2x + loop(\(x,i).(11x + 1),i,1))
7: (x + loop(\(x,i).(x - ((~1 + (x div 4)) div 2)),2,(x + ~1)))
7: (x + loop(\(x,i).3x,x,1))
7: (8x + loop(\(x,i).5x,i,1))
7: (loop(\(x,i).(x2 + x),1,loop(\(x,i).2x,x,1)) + loop(\(x,i).3x,x,1))
7: (4x + loop(\(x,i).10x,i,1))
7: (x + loop(\(x,i).x3,2,x))
7: (2x + loop(\(x,i).2x,i,1))
7: (x + loop(\(x,i).i,(~2 + (x div 3)),1))
7: (1 + compr(\x.(loop(\(x,i).(x * (1 + (i div 2))),x,1) mod (x + 1)),x))
7: ((x + 1) + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))
7: (~1 - (x div 5))
7: (0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(4x + 1)))
7: (0 - loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,10x))
7: (~10x + 1)
7: (~8x + 1)
7: (1 - (2 * ((x div 3) mod 2)))
7: (1 - (x div (~2 + ((~x + 2) div 4))))
7: (1 - ((2 - (2x mod (4 + (x div 4)))) mod (x + 1)))
7: (1 - (x mod 4))
7: (1 - (x mod ~7))
7: (1 - loop(\(x,i).(x - (if x <= 0 then 1 else (2 * (1 + i)))),x,2x))
7: (1 - loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),(x div 2),(x2 + 4x)))
7: (4 - (x div 2))
7: (~x + 19)
7: (2 - (2 div (1 + (x div 5))))
7: (2 - (2x mod 5))
7: (2 - ((x3 div 8) mod 2))
7: (2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(3x + 1)))
7: (2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + x + 1)))
7: (~x + ~2)
7: (~1 - i)
7: (~3 + ((~x + 2) div 4))
7: ((~x + ~1) + (x div 3))
7: (8 - (x div 3))
7: (8 - (x mod 2))
7: (11x + 3)
7: (~1 + (2 * (2x + loop(\(x,i).2x,i,1))))
7: (x2 + ~2x + ~1)
7: (9x + ~1)
7: (~x + 20)
7: (~1 + (2 * ((x + ~2) div 3)))
7: (~1 + (2 * ((2 * (x div 2)) div 3)))
7: (~1 + (x * (x div 2)))
7: (2x - ((~x + 1) div (2 + (x div 4))))
7: (2x - ((~x + 2) div 2))
7: (~1 + (i * i))
7: (((x + ~1) div 2) - ((3 * (x div 4)) div 2))
7: (~1 + (x2 div 4))
7: (~12 + (x div 2))
7: (~x2 + (x div 2))
7: (~1 + (x div ~7))
7: (~2 + (x div ~3))
7: (~1 + ((1 + (x div (2 - (x mod 2)))) mod 3))
7: (~1 + ((x + 1) mod 3))
7: (~2 + ((x * (x div 2)) mod 2))
7: (~x + (((x div 2) div 3) mod 2))
7: (~1 + (loop(\(x,i).4x,x,1) mod (2x + 1)))
7: (~1 + (x mod ~4))
7: ((x + 1) - (x div 3))
7: (11x + ~5)
7: ~19x
7: (x - (2 * (x div 5)))
7: (x - (2 * (x mod 2)))
7: (x - ((2 - (x div 4)) div 2))
7: (x - ((((x * ((1 - (x div 2)) div 3)) div 2) div 2) div 2))
7: (x - (x div (1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1))))
7: (x - (x div (2 - ((x3 div 8) mod 2))))
7: (x - (x div ~9))
7: (x - (x div ~14))
7: (x - (x mod (4 + (x div 3))))
7: (x - (if (~x + i) <= 0 then i else 1))
7: (i - (x mod 2))
7: (x2 + 7x)
7: (((x + 1) + (x div 2)) * ((x + 1) div 2))
7: (x * (4 + (x div 4)))
7: (3x + 9)
7: (~2x + 6)
7: (~x2 + 3x)
7: (~x2 + 4x)
7: (2 * ((2x + 1) - ((~x + 1) div (2 + (x div 4)))))
7: (2 * ((2x + 2) - (x mod 2)))
7: (3x2 + 8x + 4)
7: (2x + 24)
7: (7x2 + 3x)
7: (x3 + 3x2 + 3x + 2)
7: (2 * (1 + (2 * (x - (x div ~2)))))
7: 41x
7: (49x + 49)
7: (x6 + x4 + x2 + 1)
7: (2 * (1 + (2 * ((x div 2) mod 2))))
7: (x3 + 3x2 + 2x + 6)
7: (2 * (1 + (2 * i)))
7: (2 * (1 + ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 2)))
7: ((x + ~1) * (1 + (x div 2)))
7: (3 * (2 + (x div 2)))
7: (x * (2 + (x div 2)))
7: (2 * (2 + (x div 3)))
7: (x * (2 + (x div 5)))
7: (x * (1 + (x mod 2)))
7: (x * (2 + (x mod 4)))
7: (2 * (2x + loop(\(x,i).2x,i,1)))
7: ~2x2
7: (~x * (x div 2))
7: ((1 - (2 * (i mod 2))) * i)
7: (~10x + 5)
7: (2 * (1 - (x div 2)))
7: (2 * (2 - ((x div 4) mod 2)))
7: (~3x2 + 2x)
7: (x * (~2 + (3 * i)))
7: (x3 + ~x2 + ~x)
7: 47x
7: (4x2 + ~2)
7: (4x3 + ~x)
7: (2 * (2x - (x mod 4)))
7: (2 * (~2 + (x div 2)))
7: ((~2x + (x div 2)) * (x div 2))
7: (2 * (~x + (x div 3)))
7: (4 * (~x + (x mod 2)))
7: (2 * (~1 + (x mod 4)))
7: (2 * (~x + (x mod 10)))
7: (~4x2 + 2x)
7: (9 * i)
7: (25 * (if x <= 0 then 1 else 2))
7: (4 * ((x + 1) + (x div 2)))
7: (2x2 + 8x)
7: 28x
7: 39x
7: (4x2 + 4x + 4)
7: (4 * (1 + (x mod 2)))
7: (4 * (2 + (x mod 4)))
7: (2x3 + 3x2 + x)
7: (6x + 12)
7: (x3 + 5x2 + 8x + 4)
7: ~28
7: (~4x2 + 4x)
7: (11x2 + 11x)
7: 11x2
7: 54
7: (18x + 18)
7: (32x + 32)
7: 60x
7: (12 * (x div 7))
7: (4x * (1 + i))
7: (2x * (x div 2))
7: (4 * (if x <= 0 then 0 else 2))
7: (x * ((1 - (x div 2)) div 3))
7: (x * ((~x + 2) div 2))
7: (x * ((x + ~1) div 3))
7: (2 * ((x + ~2) div 3))
7: (3 * ((x2 + 3x) div 2))
7: (5 * ((x2 + 3x + 2) div 2))
7: (9 * ((~x2 + x) div 2))
7: (3 * (2x div (if i <= 0 then 1 else i)))
7: (x * (x2 div 3))
7: ((x + ~1) * (x2 div 4))
7: (2 * ((((x + 1) div 2) div 2) div 2))
7: (x * ((x div 2) div 3))
7: ((x div 4) * (x div 4))
7: (x * ((x + 1) mod 5))
7: (2 * ((~x + 2) mod 4))
7: (2 * ((x + ~1) mod 3))
7: (x * ((x * (x div 2)) mod 2))
7: (2 * ((x mod (1 + (((x + 1) div 2) div 2))) mod 2))
7: (2 * ((x mod (~1 + (2 * (x div 3)))) mod 2))
7: (2 * (x mod (x - ((x + ~1) mod 8))))
7: (2 * (x mod 8))
7: ((if ((x + ~1) mod 3) <= 0 then 1 else x) * (x mod 2))
7: (x * (if (x mod 2) <= 0 then 1 else x))
7: (2 * loop(\(x,i).3x,2x,2))
7: (x * loop(\(x,i).(x2 + x),2,2))
7: (2 * loop(\(x,i).(2x + 4),x,4))
7: (x * loop(\(x,i).(x * (x - i)),2,(x + ~2)))
7: (2 div (6 - (x div 3)))
7: (2 div (if x <= 0 then 1 else x))
7: ((1 + (((x + 1) div 2) div 2)) div 2)
7: ((1 + ((loop(\(x,i).2x,x,2) mod (x + 1)) div 2)) div 2)
7: ((x + (x2 mod 3)) div 4)
7: ((1 + (x mod 4)) div 2)
7: ((x + 1) div (1 + (((2x div (1 + (x div 4))) mod 2) + (x mod 2))))
7: ((x + i) div 2)
7: ((~2x + 1) div 5)
7: (((~x + 2) - (x div 4)) div 4)
7: (((~x + ~2) + (x mod 2)) div 3)
7: ((~x + ((x + ~2) div 3)) div 3)
7: ((~x + (x div 4)) div 2)
7: ((~x + ((x div 2) mod 3)) div 3)
7: ((~x + ((x div 3) mod 3)) div 3)
7: ((x - ((2 - (x div 2)) div 2)) div 2)
7: ((x - (x2 div 3)) div 2)
7: ((x - (x div 7)) div 2)
7: ((x - (x div (2 - ((x3 div 8) mod 2)))) div 2)
7: ((x - (x mod (4 + (x div 3)))) div 3)
7: (3x div 5)
7: ((2 * ((2x + 1) - ((~x + 1) div (2 + (x div 4))))) div 3)
7: ((2 * (x + (((x div 2) div 3) mod 2))) div 3)
7: ((x2 + 2x) div 9)
7: ((x2 + 2x) div 8)
7: ((x * (x + i)) div (1 + i))
7: ((~2x + 2) div 7)
7: ((~2x + 4) div 7)
7: ((~2x + 4) div 9)
7: ((~x2 + 2x) div 2)
7: ((~x2 + 2x) div 3)
7: ((x2 + ~2x) div 4)
7: ((x3 + ~3x2 + 2x) div 3)
7: (8x div 5)
7: ((4 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2)) div 3)
7: (2x2 div 5)
7: (3x2 div (x + 2))
7: ((x3 + 2x2) div 2)
7: ((~x3 + x2) div 2)
7: (x3 div 3)
7: (x3 div (x + 2))
7: ((i * i * (1 + i)) div 2)
7: ((x * ((1 - (x div 2)) div 3)) div 2)
7: ((x * ((~x + 2) div 2)) div 2)
7: ((3 * ((((x + 1) div 2) div 2) div 2)) div 2)
7: (2x div (2 + (x div 4)))
7: (x2 div (2 + (x div 2)))
7: ((((x + 1) - (x div 4)) div 2) div 2)
7: (((x * ((1 - (x div 2)) div 3)) div 2) div 2)
7: ((((x3 + ~3x2 + 2x) div 2) div 2) div 2)
7: ((((x * ((1 - (x div 2)) div 3)) div 2) div 2) div 2)
7: ((((1 - (x div 2)) mod (x + 2)) div 2) div 2)
7: ((((2 - (x div 2)) mod (x + 2)) div 2) div 2)
7: (((1 - (x div 2)) mod (x + 2)) div 2)
7: (((2 - (x div 2)) mod (x + 2)) div 2)
7: (((~2x + 2) mod (4 + (x div 4))) div 2)
7: ((loop(\(x,i).(2x + 2),x,(12 * (x div 7))) mod 5) div 2)
7: ((loop(\(x,i).(2 * (x - i)),x,2) mod (x + 1)) div 2)
7: ((loop(\(x,i).2x,x,2) mod (x + 1)) div 2)
7: ((x mod ~4) div 2)
7: ((x mod (~2 + ((~x + 2) div 4))) div 2)
7: ((if (x mod 2) <= 0 then 2 else x) div 2)
7: (loop(\(x,i).3x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 3)
7: (loop(\(x,i).(2x + 4),x,1) div 2)
7: (loop(\(x,i).2x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2)
7: (loop(\(x,i).2x,x,1) div 3)
7: (loop(\(x,i).((x2 + ~x) div 2),2,(x + 1)) div 3)
7: (x div (6 - (x mod 2)))
7: (x div (1 + (2 * (1 + (2 * ((x div 2) mod 2))))))
7: (x div (2 + ((x mod 3) div 2)))
7: (x div (1 + (x mod 9)))
7: (x div (2 + (x mod (1 + ((x + 1) div (1 + (((2x div (1 + (x div 4))) mod 2) + (x mod 2))))))))
7: (x div (1 + (x mod (1 + (x mod (1 + (x div (2 + (x div 5)))))))))
7: (x div (2 + (if (x mod 2) <= 0 then 1 else 8)))
7: (x div (2 - ((x3 div 8) mod 2)))
7: (x div (~2 + (x div ~4)))
7: (x div (if (x mod 2) <= 0 then 4 else 1))
7: (x div (if (x mod 4) <= 0 then 4 else 1))
7: ((x + 3) mod 8)
7: ((x2 + 2) mod 5)
7: ((1 + (x div 3)) mod 3)
7: ((2 + (x mod 8)) mod (x + 1))
7: ((x + (if (x mod 2) <= 0 then 2 else x)) mod 3)
7: ((x + 1) mod (2 + (x mod 4)))
7: ((x + 1) mod (~1 + (x div ~5)))
7: ((x + 2) mod (2 + (x div 4)))
7: ((x + 2) mod (1 + (((x + 1) mod 7) mod 3)))
7: ((x + 2) mod (1 + i))
7: ((~2x + 1) mod (2 + (x div 4)))
7: ((2 - (x div 3)) mod 4)
7: ((~1 + (x2 div 2)) mod (~1 + ((~2x + 2) mod (4 + (x div 4)))))
7: ((~1 + (x div 2)) mod 4)
7: ((x + ~1) mod (1 + (x div 3)))
7: ((x + ~1) mod (1 + (x div 4)))
7: ((x + ~4) mod (2 + (x div 3)))
7: ((~2x + 2) mod (1 + (x div 2)))
7: ((x2 + ~x) mod 8)
7: (2x2 mod (2 + (x div 2)))
7: ((2 * (x div 2)) mod 3)
7: ((x * (x div 2)) mod 3)
7: (2x mod (x + 5))
7: (2x mod (~1 + (2 * (((~x + 2) div 2) mod 4))))
7: (((1 + (x * (x div 2))) div 3) mod 3)
7: (((1 + (x div 2)) div 2) mod 4)
7: (((x + 1) div 3) mod 4)
7: (((~1 + (x div 2)) div 2) mod 2)
7: (((x + ~1) div 3) mod 2)
7: ((((x + ~1) div 2) div 2) mod 2)
7: ((x div 2) mod (1 + (if (x mod 2) <= 0 then 6 else 1)))
7: ((x div 5) mod 3)
7: ((x div ~2) mod 3)
7: (((x + 1) mod 7) mod 3)
7: ((((~2 + (x div 2)) * (x div 2)) mod (x + 1)) mod 2)
7: ((2x mod (2 + (x div 2))) mod 2)
7: ((2x mod (2 + (x div 3))) mod 2)
7: ((((x + ~2) mod (1 + (x div 2))) mod 3) mod 2)
7: ((x mod (~1 + (x mod (~1 + ((~x + 1) div 2))))) mod 2)
7: ((if (x + ~2) <= 0 then 1 else x) mod 2)
7: (loop(\(x,i).(2x + 2),x,(12 * (x div 7))) mod 5)
7: (loop(\(x,i).4x2,2,3) mod (x + 1))
7: (x mod (4 + (x div 4)))
7: (x mod (4 - (x mod 2)))
7: (x mod (1 + (2 * (x mod 4))))
7: (x mod (1 + ((x + 1) div 5)))
7: (x mod (1 + ((x + 1) div (1 + (((2x div (1 + (x div 4))) mod 2) + (x mod 2))))))
7: (x mod (1 + (4 mod (x + 1))))
7: (x mod (1 + ((~2x + 2) mod (1 + (x div 2)))))
7: (x mod (1 + (x mod (3 - (x mod 2)))))
7: (if (~4 + (x div 2)) <= 0 then 1 else (x div 4))
7: (if (~2 + (x div 2)) <= 0 then 1 else 4)
7: (if (~2 + (x div 2)) <= 0 then x else (x + 1))
7: (if (~1 + (x div 4)) <= 0 then x else 8)
7: (if (~2 + (x div 4)) <= 0 then 1 else 4)
7: (if (~2 + (x div 5)) <= 0 then x else (x + 2))
7: (if (x + ~2) <= 0 then 1 else (x + ~2))
7: (if (x + ~4) <= 0 then 0 else 1)
7: (if (x + ~6) <= 0 then 0 else 2)
7: (if (~x + i) <= 0 then 0 else x)
7: (if (~x + i) <= 0 then i else 1)
7: (if ((x + 1) mod 5) <= 0 then 2 else 1)
7: (if ((x + 2) mod 4) <= 0 then 2 else 1)
7: (if ((x + ~1) mod 4) <= 0 then 2 else 1)
7: (if ((x div 2) mod 3) <= 0 then 1 else 2)
7: (if (x mod 2) <= 0 then 1 else (x + 2))
7: (if (x mod 2) <= 0 then (~x + 1) else x)
7: (if (x mod 2) <= 0 then 10 else 1)
7: (if (x mod 2) <= 0 then (5 * (if x <= 0 then 1 else 2)) else 1)
7: (if (x mod 2) <= 0 then (x div 2) else 2x)
7: (if (x mod 2) <= 0 then x else (~x + 1))
7: (if (x mod 3) <= 0 then x else 0)
7: (if (x mod 3) <= 0 then x else 1)
7: (if (i mod 3) <= 0 then 2 else 1)
7: (if x <= 0 then 1 else (2 * (1 + ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 2))))
7: loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1)
7: loop(\(x,i).(3x + loop(\(x,i).(11x + 1),i,1)),i,1)
7: loop(\(x,i).(5x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1)
7: loop(\(x,i).(3x + loop(\(x,i).11x,i,1)),i,1)
7: loop(\(x,i).((x + 2) + i),x,2)
7: loop(\(x,i).(5x + 4),x,0)
7: loop(\(x,i).(8x + 1),i,1)
7: loop(\(x,i).(x2 + 1),2,3)
7: loop(\(x,i).(x + (x div 2)),(x + ~1),2)
7: loop(\(x,i).(x + (if (x - i) <= 0 then x else 0)),x,1)
7: loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),x,1)
7: loop(\(x,i).(2x + loop(\(x,i).(10x + 1),i,1)),i,1)
7: loop(\(x,i).(2x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)
7: loop(\(x,i).(2x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1)
7: loop(\(x,i).(2x + loop(\(x,i).(11x + 1),i,1)),i,1)
7: loop(\(x,i).(4x + loop(\(x,i).10x,i,1)),i,1)
7: loop(\(x,i).(~1 + (2 * (2x + loop(\(x,i).2x,i,1)))),i,1)
7: loop(\(x,i).(x2 + ~1),x,2)
7: loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),i,1)
7: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,7x)
7: loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,8x)
7: loop(\(x,i).(5x + ~4),x,0)
7: loop(\(x,i).(x - ((~1 + (x div 4)) div 2)),2,(x + ~1))
7: loop(\(x,i).(x - (if (~x + i) <= 0 then i else 1)),x,x)
7: loop(\(x,i).(x - (if x <= 0 then 1 else (2 * i))),x,x)
7: loop(\(x,i).3x,2x,x)
7: loop(\(x,i).3x,(x div 2),2)
7: loop(\(x,i).5x,x2,1)
7: loop(\(x,i).5x,x,x)
7: loop(\(x,i).(2x + 6),x,1)
7: loop(\(x,i).(10x + 2),2x,2)
7: loop(\(x,i).(2 * (x + (x div 2))),x,1)
7: loop(\(x,i).(2x + 2),2x,2)
7: loop(\(x,i).(2x + 2),x,(12 * (x div 7)))
7: loop(\(x,i).(x2 + x),1,loop(\(x,i).(x * i),x,1))
7: loop(\(x,i).(x2 + x),2,x)
7: loop(\(x,i).(x2 + 2x),1,compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),(x + 1)))
7: loop(\(x,i).(2 * (x + i)),x,1)
7: loop(\(x,i).(x * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))),x,1)
7: loop(\(x,i).(2 * (2x - (x div (1 + i)))),(x + ~1),2)
7: loop(\(x,i).(2 * (2x - (x div (1 + i)))),(~1 + i),2)
7: loop(\(x,i).(2x + ~4),x,1)
7: loop(\(x,i).(x * (x - i)),2,(x + 3))
7: loop(\(x,i).10x,x,3)
7: loop(\(x,i).(2x2 + 8x + 8),2,0)
7: loop(\(x,i).8x,i,1)
7: loop(\(x,i).(x6 + ~x4),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
7: loop(\(x,i).4x,(x + ~1),x)
7: loop(\(x,i).6x,(x + 1),1)
7: loop(\(x,i).~4x,x,1)
7: loop(\(x,i).4x2,2,3)
7: loop(\(x,i).(x3 + x2),1,loop(\(x,i).2x,x,1))
7: loop(\(x,i).x3,2,2)
7: loop(\(x,i).(2x * i),x,1)
7: loop(\(x,i).(x * ((1 + i) div 2)),x,1)
7: loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),i,1)
7: loop(\(x,i).2x,(x + ~1),(x + 2))
7: loop(\(x,i).2x,(x + ~2),2)
7: loop(\(x,i).2x,x2,1)
7: loop(\(x,i).2x,((x + 1) div 2),1)
7: loop(\(x,i).2x,x,(2 + (x mod 2)))
7: loop(\(x,i).x2,4,x)
7: loop(\(x,i).(x * i),(x + ~1),x)
7: loop(\(x,i).(x * i),x,3)
7: loop(\(x,i).((x2 + ~x) div 2),2,(x + 4))
7: loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(4x + 1))
7: loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),(x div 2),(x2 + 4x))
7: loop(\(x,i).i,(~2 + (x div 3)),1)
7: loop(\(x,i).i,((~1 + (x div 2)) div 2),1)
7: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(4x + 1))),x)
7: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,10x)),x)
7: compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 4x))),(x + 1))
7: compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),(x + 2))
7: compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(3x + 1))),x)
7: compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + x + 1))),x)
7: compr(\x.(loop(\(x,i).4x2,2,3) mod (x + 1)),x)
7: compr(\x.loop(\(x,i).(x div (2 - ((x * (x div 2)) mod 2))),x,x),x)
6: ((x + 1) + (((2x + 1) div 7) + (x div 3)))
6: (5 + i)
6: (5 - (x mod 2))
6: ((x + 1) + (2 * (2x + (x mod 2))))
6: (x + 18)
6: (x2 + 5)
6: (1 + (((2x + 1) div 7) + (x div 3)))
6: ((x + 1) + ((x div 2) div 3))
6: ((x + 2) + (x div (2 + (16 mod (1 + (x div 2))))))
6: (3 + ((x div 2) mod 3))
6: (4 + ((x div 2) mod 4))
6: (3x + (i mod 2))
6: (5x + loop(\(x,i).(10x + 1),i,1))
6: (5x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1))
6: (3x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1))
6: (5x + loop(\(x,i).(2x + loop(\(x,i).10x,i,1)),i,1))
6: (7x + loop(\(x,i).3x,i,1))
6: (3x + loop(\(x,i).10x,i,1))
6: (7x + loop(\(x,i).4x,i,1))
6: (4 - (x div 4))
6: (~x + 6)
6: ((3x + 4) - ((((x + ~2) mod (1 + (x div 2))) mod 3) mod 2))
6: (8 + (x div 2))
6: ((5x + 5) + ((x div 2) div 3))
6: (1 + (5 * i))
6: (1 + (2 * ((2x + 2) - (x mod 2))))
6: (3x2 + 4x + 2)
6: (4x2 + x + 1)
6: (x3 + x + 1)
6: (1 + (2 * (x + (x div 2))))
6: (1 + (x * (x + (x div 2))))
6: (1 + (3 * (1 + (x mod 2))))
6: (1 + (2 * (2 + (x mod 3))))
6: (3x + 8)
6: (x2 + 2x + 8)
6: ((x * (1 - ((x3 div 8) mod 2))) + (x mod 2))
6: (~4x + 5)
6: (x2 + ~2x + 2)
6: (1 + (2 * (x - (i mod 2))))
6: (9x + ((x + 1) mod 3))
6: (15x + 1)
6: (10x + 81)
6: (5x2 + 5x + 1)
6: (9x + 16)
6: (20x + 1)
6: (8x2 + 1)
6: (6x + ((x + 1) mod 3))
6: (1 + (2x * i))
6: (x + (4 * (i * i)))
6: (x + (i * i * i * i))
6: (x + (2 * ((x + ((x div 2) mod 2)) div 2)))
6: (x + (2 * ((x + 1) div 5)))
6: (1 + (2 * ((x div 2) div 3)))
6: (1 + (2 * (((2x + 1) mod (2 + (x div 4))) div 2)))
6: (x + ((x div 2) * (x div 2)))
6: (1 + (2 * ((~x + 1) mod 4)))
6: (2 + (3 * (x mod 3)))
6: (1 + (2 * (x mod 5)))
6: (1 + (2 * (x mod (2 + (x mod 2)))))
6: (1 + (2 * (if (x mod 2) <= 0 then 1 else (x div 4))))
6: ((x2 + 2) + i)
6: (2 + ((2x + 1) div (3 + (x div 4))))
6: (1 + ((2x + 1) div 7))
6: (x + ((x + ((x mod (1 + (x div 2))) div 2)) div 2))
6: (1 + ((x + (x div 4)) div 2))
6: (x + ((x + (x div 4)) div 2))
6: (2 + ((x + (x mod 2)) div 3))
6: (x + ((x + (x mod 2)) div 5))
6: (1 + ((x - (x mod 5)) div 2))
6: (x + (3x div (if i <= 0 then 1 else i)))
6: (((3 * (2x + (x div 4))) div 2) + (x div 2))
6: (1 + ((x2 + 2x) div 4))
6: (2 + (4x div (x + 2)))
6: (1 + (2x div 5))
6: (1 + (((x + ~2) mod (2 + (x div 2))) div 2))
6: (2 + (x div 7))
6: (2 + (x div (1 + (2 * (1 + (2 * ((x div 2) mod 2)))))))
6: (2 + (x div (2 + (16 mod (1 + (x div 2))))))
6: (2 + (x div (1 + (x mod 2))))
6: (x + (x div (1 + (i mod 2))))
6: (x + (x div (~2 + ((~x + 2) div 4))))
6: (x + (2 mod (x + 1)))
6: (2 + (3 mod (x + 1)))
6: (1 + (4 mod (1 + (x div 2))))
6: (1 + ((x + 1) mod (1 + (x div (2 + (x mod (2 + (x mod 2))))))))
6: (2 + ((x + 2) mod 5))
6: (1 + ((x + 2) mod 8))
6: (2 + ((~x + 1) mod (2 + (x div 2))))
6: (2 + ((~x + 2) mod 5))
6: (1 + (6 mod (1 + (x div 2))))
6: (1 + (3x mod (2 + (x div 2))))
6: (1 + (2x mod (1 + (x div 2))))
6: (1 + (2x mod (1 + (x div 3))))
6: (1 + (((1 + (x * (x div 2))) div 3) mod 3))
6: (1 + ((x div 2) mod (1 + (x mod (1 + ((~x + 2) mod 4))))))
6: (2 + ((x div 3) mod 3))
6: (((x div 4) mod 2) + (x div 2))
6: (1 + ((2x mod (2 + (x div 3))) mod 2))
6: (1 + (x mod (1 + (2 * (if (x mod 2) <= 0 then 1 else (x div 4))))))
6: (1 + (x mod (2 + (x div 4))))
6: (1 + (x mod (2 + (x div 5))))
6: (1 + (x mod (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))))
6: (1 + (x mod (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))
6: (1 + (x mod (1 + (loop(\(x,i).2x,x,2) mod (2x + 1)))))
6: (2 + (x mod (1 + i)))
6: (2 + (x mod (2 * (2 + (x mod 2)))))
6: (2x + (if (2 - i) <= 0 then x else 1))
6: (1 + (if (~1 + (x mod 3)) <= 0 then 2 else 0))
6: (x + (if (~1 + (i mod 3)) <= 0 then 2 else 1))
6: (x + (if (x + ~4) <= 0 then 1 else x))
6: (x + (if (x mod 2) <= 0 then 1 else x))
6: (2 + (if (x mod 3) <= 0 then 2 else 1))
6: ((if (x mod 3) <= 0 then 2 else 1) + (x mod 2))
6: (x + (if (x mod 4) <= 0 then 1 else 2))
6: (1 + (if (x mod (1 + i)) <= 0 then 0 else i))
6: (1 + (if (i mod 2) <= 0 then 4 else 1))
6: ((if x <= 0 then 1 else x) + (x mod 2))
6: (4x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1))
6: (4x + loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),i,1))
6: (4x + loop(\(x,i).(5x + loop(\(x,i).2x,i,1)),i,1))
6: (4x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1))
6: (x + loop(\(x,i).(12x + loop(\(x,i).11x,i,1)),i,1))
6: (x + loop(\(x,i).(8x + loop(\(x,i).10x,i,1)),i,1))
6: (4x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1))
6: (x + loop(\(x,i).(x - (x div 12)),2,x))
6: (1 + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then x else (1 + i))),x,x))
6: (x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,x))
6: (loop(\(x,i).3x,x,1) + loop(\(x,i).2x,x,1))
6: (1 + loop(\(x,i).(x * (x + i)),2,4))
6: (12x + loop(\(x,i).11x,i,1))
6: (x + loop(\(x,i).10x,x,1))
6: (2 + loop(\(x,i).4x,x,2))
6: (2 + loop(\(x,i).2x,(x div 2),(2 + (x mod 2))))
6: (x + loop(\(x,i).2x,x,2))
6: (4x + loop(\(x,i).2x,i,1))
6: (1 + loop(\(x,i).x2,x,2))
6: (x + loop(\(x,i).(x * i),x,1))
6: (2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),i))
6: (0 - ((x - (((x + 1) div 2) mod 6)) div 2))
6: (~x + 25)
6: (19x + 1)
6: (~9x + 1)
6: (1 - (2 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)))
6: (1 - (2 * i))
6: (1 - ((~x + 2) div (2 - (x div ~4))))
6: (1 - (2x div 3))
6: (1 - ((x div 2) div 3))
6: (1 - (x div (~2 + (((~x + 2) div 2) div 5))))
6: (1 - (x mod (1 + (4 * (x mod 5)))))
6: ~22
6: (~8x + ~6)
6: (2 - (x div ~8))
6: (2 - (16 mod (~x + ~1)))
6: (2 - (x mod 5))
6: (2 - (x mod 8))
6: (2 - loop(\(x,i).(0 - (if (x mod (1 + i)) <= 0 then 0 else x)),(x div 2),x))
6: (2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(4x + 1)))
6: ((x + 2) - (x div 3))
6: (~5x + 1)
6: (~3 + (x div ~4))
6: (8 - ((x + ~2) div 3))
6: (~1 + (4 * (1 + i)))
6: (11x + 4)
6: (~1 + (3 * (2 + (x mod 2))))
6: ((2x + 4) - ((((x + ~2) mod (1 + (x div 2))) mod 3) mod 2))
6: ((x2 + 2x) - (x div 2))
6: (~3x + 5)
6: ~13
6: ((2 * ((2 * (2x - (x mod 8))) - (x mod 4))) - (x mod 2))
6: (~1 + (2 * (~1 + (x mod 4))))
6: (x2 + ~2x + ~2)
6: (2x2 + 4x + ~1)
6: (~28x + ~1)
6: (12x + ~1)
6: (4x - (x div ~2))
6: (~1 + (3 * (((x + ~1) div 2) mod 3)))
6: (2x - ((x * (x div 2)) mod 2))
6: (2x - ((x div 4) mod 2))
6: (2x - ((i div 2) mod 2))
6: (~1 + ((x + (x div 2)) div 4))
6: (~2 + ((x + ~1) div 3))
6: (~2 + (((2 - (x div 2)) div 2) div 2))
6: (~1 + (((x + ~1) div 2) div 2))
6: ((x div 2) - (x * (x mod 2)))
6: ((x div 3) - (x div 2))
6: ((x div 4) - (if x <= 0 then 1 else x))
6: (~2 + (2x mod (4 + (x div 4))))
6: ((x mod 2) - (x div ~2))
6: (~2 + (x mod 5))
6: (~1 + (if (x mod 2) <= 0 then x else 0))
6: (~2 + (if (x mod 4) <= 0 then x else 0))
6: (~1 + (if x <= 0 then (2 * i) else x))
6: (~1 + loop(\(x,i).2x2,2,2))
6: (~1 + loop(\(x,i).2x,(x + ~2),2))
6: (loop(\(x,i).2x,x,2) - (x mod 2))
6: (~11x + ~9)
6: (~7x + ~5)
6: (~11x + ~7)
6: ((x + ~1) - (if x <= 0 then 0 else i))
6: (5x + ~3)
6: ((x + 1) - ((~x + 1) div 3))
6: ((x + 1) - (x mod 9))
6: ((x + 1) - (x mod 8))
6: (x + (2 * (i * i)) - i)
6: (~7x + ~2)
6: (~11x + ~3)
6: (~11x + ~4)
6: (~5x + ~3)
6: (x + 14)
6: (x - (2 * (~x + (i mod 2))))
6: (x - (2 * (~x + i)))
6: (x + ~18)
6: (~11x + ~8)
6: ~23x
6: (~4x2 + x)
6: (x - (5 * ((~x2 + x) div 2)))
6: (x - (2 div (x + ~16)))
6: (x - ((x + (x div 4)) div ~2))
6: (x - ((0 - ((x - (((x + 1) div 2) mod 6)) div 2)) div 2))
6: (x - ((~x + 1) div (2 + (x div 2))))
6: (x - ((((x + 1) div 2) div 2) div 2))
6: (x - ((~x + 1) mod 3))
6: (x - (((x + 1) div 2) mod 6))
6: (x - (x mod ~3))
6: (x - (if (x mod (1 + (2 * i))) <= 0 then x else (1 + i)))
6: (x - (if (x mod (1 + i)) <= 0 then 2 else 1))
6: (x - (if (i mod 2) <= 0 then 2 else ~2))
6: (5 * (x div 2))
6: (5 * (x mod 2))
6: (3x + 18)
6: (2x + 18)
6: (2x + 20)
6: (2 * (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) + ((2x + 1) div (3 + (x div 4))))))
6: (2 * (3x + (x div 2)))
6: ((4 + i) * i)
6: (2 * (2x + i))
6: (13 * (if x <= 0 then 1 else 2))
6: (3x2 + 6x + 3)
6: (17x + 17)
6: (4x2 + 2)
6: (x * (1 + (6 * i)))
6: (2 * (x + ((x3 + 2x) div 3)))
6: (3 * (x + ((x div 2) div 3)))
6: (2 * (2 + ((x div 2) div 5)))
6: (2 * (1 + (x div 4)))
6: (2 * (2 + (x div 4)))
6: (3 * (2x + (x div 4)))
6: (2 * (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))))
6: (2 * (x + (x div 8)))
6: (3 * (x + (x div 8)))
6: (2 * (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 8)))
6: (3 * (2x + (x mod 2)))
6: (x * (x + (x mod 2)))
6: (5 * (1 + (x mod 3)))
6: ((2 + (i mod 2)) * i)
6: (2 * (2x + (i mod 2)))
6: (x * (1 + (if (x mod (1 + i)) <= 0 then 0 else i)))
6: (2 * (x + (if (i mod 2) <= 0 then 2 else 0)))
6: (x * (1 + (if (i mod 2) <= 0 then 4 else 1)))
6: (5 * (2 + (if x <= 0 then 0 else 2)))
6: (x * (1 + loop(\(x,i).(x2 + x),2,2)))
6: ((x + 1) * (1 + loop(\(x,i).(x * (x + i)),2,4)))
6: ((x + 1) * (1 + i))
6: (3 * (2 + i))
6: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) * (2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)))
6: ~30
6: (~x2 + ~x + 2)
6: ((x + 1) * (2 - (x mod 2)))
6: (11x + 11)
6: (10x + ~2)
6: (x3 + 2x2 + ~x)
6: (23 * (if x <= 0 then 1 else 2))
6: (6x2 + ~2x)
6: (x * (~1 + (4 * i)))
6: (2 * (2x - (x div 3)))
6: (4 * (2x - (x div (if i <= 0 then 1 else i))))
6: (2 * (~x + (x2 div 3)))
6: ((~1 + (x div 2)) * (x div 2))
6: (2 * (~x + ((x div 3) mod 2)))
6: (3 * (~x + (x mod 2)))
6: (2 * (~1 + (x mod 3)))
6: (x * (~1 + (x mod 3)))
6: (7x2 + 5x)
6: (5x2 + ~3x)
6: (9 * ((x + 1) - (x mod 10)))
6: (3x2 + ~4x)
6: (2 * (x - (x div 3)))
6: (2 * (x - (x div ~5)))
6: (8 * (1 + i))
6: 50
6: 35x
6: (10x + 80)
6: (4x3 + 2x)
6: (x7 + x6 + x5 + x4 + x3 + x2 + x + 1)
6: (4 * (1 + (2 * (x mod 2))))
6: (6x2 + 3x)
6: (9 * (1 + (x div 2)))
6: (4 * (2x + (x div 2)))
6: (4x2 + 6x + 2)
6: (5x2 + 10x)
6: (x3 + 6x2 + 8x)
6: (3x * (1 + i))
6: (3x * (2 + i))
6: (~8x + 8)
6: (~6x2 + 6x)
6: (~2x3 + 3x2 + ~x)
6: (x6 + ~x3)
6: (x * ((~1 + (2 * i)) * i))
6: (8x2 + 16x + 8)
6: (x8 + x6 + x4 + x2)
6: (2x3 + 6x2 + 4x)
6: (64x + 64)
6: (x4 + 3x3 + 2x2)
6: 3x3
6: (i * i * i * i * i)
6: (x2 * (x4 div 2))
6: (4 * (2x div 3))
6: (3 * ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (2 + (x div (1 + (2 * (1 + (2 * ((x div 2) mod 2)))))))))
6: (15 * (if x <= 0 then 1 else 2))
6: (2x * (i * i))
6: ((x + 1) * ((x + 1) div 2))
6: (2 * ((x + 1) div 3))
6: (2 * ((~2x + 1) div 3))
6: (2 * ((~x + 2) div 2))
6: (2 * ((x - (x div 4)) div 2))
6: (2 * ((4 * (x + (if (~2 + (x div 2)) <= 0 then 1 else 2))) div 3))
6: (3 * ((~x2 + x) div 2))
6: (2 * ((4 * (x div 3)) div 3))
6: ((2x div (1 + i)) * (~1 + (2 * i)))
6: (x * (((x + 1) div 2) div 2))
6: (2 * (((x + 1) div 2) div 3))
6: (2 * (((~x + 2) div 2) div 3))
6: ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (2 + (x div (1 + (2 * (1 + (2 * ((x div 2) mod 2))))))))
6: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + ((x - (x mod 5)) div 2)))
6: (3 * ((x mod 3) div 2))
6: (x * ((x mod (2 + (x mod 2))) div 2))
6: ((x + ~1) * (x div 3))
6: ((x + 1) * (x div 5))
6: (2 * ((x + 1) mod 3))
6: (2 * ((x + 1) mod 4))
6: (2 * ((~x + 1) mod 4))
6: (3 * (((x + ~1) div 2) mod 3))
6: (3 * ((x div 3) mod 2))
6: (2 * ((x div 3) mod 3))
6: (x * (x mod (2 + (x mod 2))))
6: ((i mod 2) * i)
6: (2 * (if (~2 + (x div 5)) <= 0 then 0 else 2))
6: (2 * (if (x mod 2) <= 0 then 1 else (x div 4)))
6: (2 * (if (x mod 4) <= 0 then 0 else 2))
6: (2 * (if (x mod 4) <= 0 then 4 else 1))
6: (2 * (if x <= 0 then 1 else 2x))
6: (4 * (if x <= 0 then 1 else x))
6: (2 * loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x))
6: (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (1 + (((x + 1) div 2) div 2)))
6: ((x + 1) * loop(\(x,i).((x + 2) * (x + i)),2,2))
6: (x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).2x,i,1)))
6: (x * loop(\(x,i).x2,2,3))
6: (5 * compr(\x.(1 - (x mod (1 + (4 * (x mod 5))))),x))
6: (4 div (x + 1))
6: (((x + 2) + (x div (2 + (16 mod (1 + (x div 2)))))) div 3)
6: ((~x + 3) div 9)
6: (((x * (1 - ((x3 div 8) mod 2))) + (x mod 2)) div 3)
6: ((x2 + 1) div (2 + (x div 2)))
6: ((1 + ((x2 + x) div 2)) div 2)
6: ((x + (x2 div 4)) div 2)
6: ((1 + ((32 mod (x + 1)) div 2)) div 2)
6: ((x + (x div 2)) div ~5)
6: ((x + ((~x + 1) mod 3)) div 4)
6: ((1 + (x mod (1 + (2 * (if (x mod 2) <= 0 then 1 else (x div 4)))))) div 3)
6: ((1 + (x mod (1 + (x div 4)))) div (1 + ((x + 1) mod 4)))
6: ((x + 1) div (1 + (x div (2 + (x mod (2 + (x mod 2)))))))
6: ((0 - ((x - (((x + 1) div 2) mod 6)) div 2)) div 2)
6: ((~2x + 1) div 3)
6: ((~2x + 1) div 7)
6: ((~x + 1) div 9)
6: ((~x + 2) div 12)
6: (((~x + ~1) + (x div 3)) div 3)
6: ((x2 + ~2) div (x + 4))
6: ((~x + ((x div 2) div ~2)) div 2)
6: ((~2x + (x div 2)) div 5)
6: (((x div 2) - ((~x + 2) div (2 + (x div 2)))) div 2)
6: (((x div 2) - (x mod 2)) div 2)
6: (((x div 2) - (x mod 4)) div 2)
6: (((x div 3) - (x div 2)) div 2)
6: (((x div 4) - (if x <= 0 then 1 else x)) div 2)
6: ((~x + (x mod 3)) div 2)
6: ((x + ~1) div (2 + (x div 2)))
6: ((x - (x div (11 - (x div 2)))) div 2)
6: ((x - (((x + 1) div 2) mod 6)) div 2)
6: ((x - ((x div 2) mod 3)) div 3)
6: ((x - (x mod 5)) div 2)
6: (3x div 7)
6: ((x2 + 5x + 6) div 2)
6: ((3x2 + 5x + 2) div 2)
6: (((1 + (x div 2)) * (x div 2)) div 2)
6: ((3 * (2x + (x div 4))) div 2)
6: ((2x + 2) div ~7)
6: ((x2 + x) div 3)
6: ((x2 + 2x) div ~2)
6: (((2 + i) * i) div 2)
6: ((x * (2 - (x div 2))) div 2)
6: ((2 * (~x + ((x div 3) mod 2))) div 3)
6: ((x * (~1 + (x mod 3))) div 2)
6: ((2x + ~2) div 7)
6: ((x2 + ~x) div 5)
6: ((2x + ~4) div (2 + (x div 4)))
6: (14x div (1 + i))
6: ((~x3 + 3x2 + ~2x) div 2)
6: ((8x * (~1 + (2 * i))) div (1 + i))
6: (8x div (1 + i))
6: ((3 * ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (2 + (x div (1 + (2 * (1 + (2 * ((x div 2) mod 2))))))))) div 2)
6: ((x * ((1 + (x div 2)) div 2)) div 3)
6: ((2 * (2x div 3)) div 3)
6: ((x * (x div 2)) div (x + 4))
6: (((x + 1) * (x div 3)) div 2)
6: (((x + ~1) * (x div 3)) div 2)
6: ((3 * (x div 5)) div 2)
6: (2x div (1 + (x div 2)))
6: (x2 div (4 + (x div 2)))
6: (x2 div (x + 3))
6: (x2 div (x + 16))
6: (x2 div 12)
6: (x2 div (2x + 8))
6: (x2 div 16)
6: ((5 * compr(\x.(1 - (x mod (1 + (4 * (x mod 5))))),x)) div 2)
6: (((x - (x div ~4)) div 2) div 2)
6: (((x2 + 3x + 2) div 2) div 2)
6: (((x2 + 3x + 2) div 2) div 3)
6: ((((~x + 1) * (x div 2)) div 2) div 3)
6: (((~x2 + x) div 2) div 3)
6: (((3 * ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (2 + (x div (1 + (2 * (1 + (2 * ((x div 2) mod 2))))))))) div 2) div 2)
6: (((5 * compr(\x.(1 - (x mod (1 + (4 * (x mod 5))))),x)) div 2) div 2)
6: ((x div 2) div (1 + (x mod (2 + ((x mod 3) div 2)))))
6: ((x div 2) div (1 + (x mod (1 + (x mod (3 + (x mod 2)))))))
6: ((x div 2) div (1 + (x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4))))))))
6: ((x div 2) div ~5)
6: ((x div 5) div ~2)
6: (((1 + (x mod ((1 + (x mod (1 + (x div 4)))) * (1 + (x mod 2))))) mod (x + 1)) div 2)
6: (((~x + 2) mod (2 + (x div 2))) div 2)
6: (((x2 div 2) mod (x + 1)) div 2)
6: (((x div 2) mod 3) div 2)
6: (((x div 3) mod 3) div 2)
6: ((x mod (x - ((x + ~1) mod 8))) div 2)
6: (loop(\(x,i).(x * (x - i)),2,(x + ~1)) div 2)
6: (loop(\(x,i).2x,loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1) div 2)
6: (loop(\(x,i).2x,x,1) div (x + 1))
6: (loop(\(x,i).2x,x,2) div (x + 1))
6: (x div (4 + ((x div 2) div 5)))
6: (x div (3 + (x div 3)))
6: (x div (3 + (x div 4)))
6: (x div (3 + i))
6: (x div (2 + (x div (1 + (x mod 4)))))
6: (x div (1 + ((x + 2) mod 4)))
6: (x div (1 + ((~x + 2) mod 4)))
6: (x div (2 + (16 mod (1 + (x div 2)))))
6: (x div (2 + ((x * (x div 2)) mod 2)))
6: (x div (1 + ((x div 2) mod 3)))
6: (x div (1 + (i mod 2)))
6: (x div (2 + (if (~2 + (x div 4)) <= 0 then 1 else 2)))
6: (x div (2 - (x div (~1 + ((~x + 2) div 4)))))
6: (x div (~3 + (x div ~4)))
6: (x div (~3 + (x mod 2)))
6: (x div (8 - (x div 4)))
6: (x div (~x + 16))
6: (x div (x2 + ~2))
6: (x div (~1 + (2 * i)))
6: (x div (~2 + ((~x + 1) div 2)))
6: (x div (~2 + (i mod 2)))
6: (x div (2 * (2 + ((x div 2) mod 2))))
6: (x div (~2x + 32))
6: (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) div 2)
6: (2 mod (~x2 + 2))
6: (4 mod (1 + (x div 3)))
6: (5 mod (1 + (x div 2)))
6: ((2 + (x * (x div 2))) mod (1 + (x div 3)))
6: ((x2 + 2) mod (1 + (x div 2)))
6: ((2 + (x div 2)) mod 6)
6: ((1 + (x div 3)) mod 4)
6: ((1 + (x div 4)) mod (2 + (x mod 4)))
6: ((x + (x div 8)) mod 5)
6: ((1 + (x mod (2 * (1 + (x mod (2 * (1 + (x mod (1 + (x div 3)))))))))) mod (x + 1))
6: ((1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)) mod (x + 1))
6: ((x + 1) mod ~7)
6: ((x + 1) mod 16)
6: ((x + 2) mod (1 + (((1 + (x * (x div 2))) div 3) mod 3)))
6: ((1 - (x div 2)) mod 5)
6: ((~1 + (x div 3)) mod 4)
6: ((x + ~4) mod 8)
6: ((x - (2 * ((x div 2) mod 2))) mod 8)
6: (8 mod (x + 2))
6: ((2x + 2) mod 5)
6: (~2x mod 5)
6: ((x2 + ~x) mod (2 + (x div 2)))
6: (((x + 1) * (x div 4)) mod 2)
6: (x2 mod (x + 3))
6: (((x + (x div 2)) div 4) mod 2)
6: (((x + 1) div 2) mod 5)
6: (((x + ~1) div 5) mod 2)
6: (((x2 + 2x) div 2) mod (1 + (x div (2 + (x div 3)))))
6: (((2x + ~4) div (2 + (x div 4))) mod 2)
6: ((x2 div (x - ((~x + 2) div 2))) mod 2)
6: (((x mod (~2 + ((~x + 2) div 4))) div 2) mod 2)
6: ((x div 2) mod (1 + (~x mod 4)))
6: ((x div 2) mod (2 + (x mod 2)))
6: ((x div 2) mod (1 + (x mod 4)))
6: ((x div 2) mod (1 + (x mod (1 + (x div 3)))))
6: ((x div (1 + (x mod 3))) mod 2)
6: (((x + ~4) mod (2 + (x div 3))) mod 2)
6: (((x * (x div 3)) mod 3) mod 2)
6: ((x mod (1 + ((1 + (x div 2)) div 2))) mod 2)
6: ((x mod (~1 + (2 * (x div 4)))) mod 2)
6: ((x mod 8) mod 3)
6: ((x mod 10) mod 9)
6: ((if (x mod 2) <= 0 then x else (~x + 2)) mod 3)
6: (loop(\(x,i).2x,x,1) mod 9)
6: (x mod (3 + (x mod 4)))
6: (x mod (1 + (8 * (x mod 2))))
6: (x mod (1 + (4 * (x mod 2))))
6: (x mod (1 + (2 * (x mod 3))))
6: (x mod (1 + (2 * (if (x mod 2) <= 0 then 1 else (x div 4)))))
6: (x mod (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))
6: (x mod (2 + (4 mod (x + 2))))
6: (x mod (1 + ((x + 2) mod 4)))
6: (x mod (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))
6: (x mod (1 + (loop(\(x,i).2x,x,2) mod (2x + 1))))
6: (x mod (2 + (x mod 5)))
6: (x mod (~1 - (x div 4)))
6: (x mod ~11)
6: (x mod (2 - ((x div 2) mod 2)))
6: (x mod (~1 + (2 * ((2 * (x div 2)) div 3))))
6: (x mod (~1 + (3 * (((x + ~1) div 2) mod 3))))
6: (x mod (~2 + ((x div 2) mod 2)))
6: (x mod (if (~2 + (x div 4)) <= 0 then 1 else 4))
6: (if (~2 + (x div 2)) <= 0 then x else (x + 4))
6: (if (~6 + (x div 2)) <= 0 then 0 else 2)
6: (if (~2 + (x div 4)) <= 0 then 2 else 0)
6: (if (~1 + (x mod 3)) <= 0 then 2 else 0)
6: (if (x + ~1) <= 0 then 2 else 1)
6: (if (x + ~1) <= 0 then x else (2 + ((2 * (x div 2)) div 3)))
6: (if (x + ~2) <= 0 then 0 else 1)
6: (if (x + ~2) <= 0 then 0 else x)
6: (if (x + ~2) <= 0 then 2 else (x + ~2))
6: (if (x + ~2) <= 0 then 2 else ((x + 1) div 2))
6: (if (x + ~2) <= 0 then 3 else x)
6: (if (x + ~3) <= 0 then 2 else 1)
6: (if (x + ~4) <= 0 then x else (x + 1))
6: (if (~x + i) <= 0 then (2 * i) else 0)
6: (if ((x + 1) mod (1 + (x div 4))) <= 0 then 1 else 2)
6: (if (16 mod (x + 1)) <= 0 then 1 else 2)
6: (if ((x * (x div 2)) mod 2) <= 0 then x else (x mod 3))
6: (if (((x + 2) mod 8) mod 3) <= 0 then 0 else 2)
6: (if (x mod 2) <= 0 then 1 else (x div 3))
6: (if (x mod 2) <= 0 then (x div 2) else (3x + 1))
6: (if (x mod 2) <= 0 then x else ~x)
6: (if (x mod (1 + (2 * (x div (2 * (2 + (x mod 2))))))) <= 0 then 1 else 2)
6: (if (x mod (1 + (2 * i))) <= 0 then x else (1 + i))
6: (if (x mod (1 + i)) <= 0 then 0 else i)
6: (if (x mod 8) <= 0 then 1 else 2)
6: (if (i mod 2) <= 0 then 1 else i)
6: (if (i mod 2) <= 0 then 4 else 1)
6: (if x <= 0 then 1 else 8)
6: (if x <= 0 then 1 else (2 * (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))))))
6: (if x <= 0 then 2 else ((x + 1) div 2))
6: (if x <= 0 then (2 * i) else x)
6: loop(\(x,i).(5x + loop(\(x,i).(10x + 1),i,1)),i,1)
6: loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)
6: loop(\(x,i).(5x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1)
6: loop(\(x,i).(5x + loop(\(x,i).(11x + 1),i,1)),i,1)
6: loop(\(x,i).(3x + loop(\(x,i).10x,i,1)),i,1)
6: loop(\(x,i).(3x + 2),2x,0)
6: loop(\(x,i).(5x + 2),x,2)
6: loop(\(x,i).(4x + 1),x,0)
6: loop(\(x,i).((x * (x mod 2)) + (x div 2)),x,x)
6: loop(\(x,i).(2x + 1),x,loop(\(x,i).2x,x,1))
6: loop(\(x,i).(x + (i * i)),(x + 1),0)
6: loop(\(x,i).(x + (((2 + i) * (1 + i)) div 2)),x,1)
6: loop(\(x,i).(2 + (x div 2)),(x + ~8),1)
6: loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then 1 else 0)),x,(x + 2))
6: loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then 2 else 0)),x,(x + 2))
6: loop(\(x,i).(2x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)
6: loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).11x,i,1)),i,1)),i,1)
6: loop(\(x,i).(4x + loop(\(x,i).(3x + 1),i,1)),i,1)
6: loop(\(x,i).(4x + loop(\(x,i).(5x + 1),i,1)),i,1)
6: loop(\(x,i).(4x + loop(\(x,i).(10x + 1),i,1)),i,1)
6: loop(\(x,i).(10x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1)
6: loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1)
6: loop(\(x,i).(8x + loop(\(x,i).3x,i,1)),i,1)
6: loop(\(x,i).(8x + loop(\(x,i).5x,i,1)),i,1)
6: loop(\(x,i).(12x + loop(\(x,i).11x,i,1)),i,1)
6: loop(\(x,i).(1 - (x * i)),x,1)
6: loop(\(x,i).(2x2 + ~1),2,2)
6: loop(\(x,i).(2x - ((i div 2) mod 2)),x,2)
6: loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),x,1)
6: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(5x + 2))
6: loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,4x)
6: loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),2,x)
6: loop(\(x,i).((x + ~1) - (if x <= 0 then 0 else i)),x,x)
6: loop(\(x,i).(x - (x div (~2 + (x mod 2)))),x,1)
6: loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then x else (1 + i))),x,x)
6: loop(\(x,i).(i - ((1 + i) mod (x + 1))),x,0)
6: loop(\(x,i).7x,(x + 1),1)
6: loop(\(x,i).(10x + 2),x,2)
6: loop(\(x,i).(x3 + x),1,loop(\(x,i).2x,x,1))
6: loop(\(x,i).(2 * (2x + (x div (if i <= 0 then 1 else i)))),x,1)
6: loop(\(x,i).(x2 + 2x),2,x)
6: loop(\(x,i).(x * (1 + i)),x,(x + 1))
6: loop(\(x,i).(x * (2 + i)),x,1)
6: loop(\(x,i).((x + 1) * (x + i)),2,x)
6: loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),(x div 2),(1 + (x mod 2)))
6: loop(\(x,i).(2x2 + ~2),2,2)
6: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).2x,x,1))
6: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).2x,i,1))
6: loop(\(x,i).(2x + ~6),x,0)
6: loop(\(x,i).(x * (x - i)),2,(x + 2))
6: loop(\(x,i).10x,2,x)
6: loop(\(x,i).10x,x,4)
6: loop(\(x,i).10x,x,x)
6: loop(\(x,i).(x6 + ~x2),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
6: loop(\(x,i).8x,x,4)
6: loop(\(x,i).8x,x,x)
6: loop(\(x,i).(x5 + ~x3),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
6: loop(\(x,i).(x2 * (x4 div 2)),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
6: loop(\(x,i).4x,(x + ~1),1)
6: loop(\(x,i).x3,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
6: loop(\(x,i).x3,x2,2)
6: loop(\(x,i).(x * (i * i)),(x div 2),1)
6: loop(\(x,i).2x,((((1 + (8 mod (1 + (x div 2)))) div 2) + (if x <= 0 then 0 else 1)) - (x mod 2)),2)
6: loop(\(x,i).2x,(2x + ~1),1)
6: loop(\(x,i).2x,(~2 + i),1)
6: loop(\(x,i).2x,(x div 2),(2 - (x mod 2)))
6: loop(\(x,i).2x,x,(1 + loop(\(x,i).3x,x,1)))
6: loop(\(x,i).2x,x,(x + 2))
6: loop(\(x,i).2x,x,(~1 + loop(\(x,i).2x,x,2)))
6: loop(\(x,i).2x,i,2x)
6: loop(\(x,i).x2,1,(2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)))
6: loop(\(x,i).x2,2,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
6: loop(\(x,i).x2,2,x5)
6: loop(\(x,i).x2,2,2x)
6: loop(\(x,i).x2,4,2)
6: loop(\(x,i).x2,x,3)
6: loop(\(x,i).x2,i,x)
6: loop(\(x,i).(x * i),(x + ~1),1)
6: loop(\(x,i).(x * i),(x + ~2),1)
6: loop(\(x,i).(x * i),2x,1)
6: loop(\(x,i).((x2 + ~x) div 2),2,x)
6: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,(3x + 1))
6: loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 0 else 2))),x,x)
6: loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),x,2x)
6: loop(\(x,i).(x div (if (x mod 2) <= 0 then ~2 else 1)),x,x)
6: loop(\(x,i).i,(x + ~9),x)
6: loop(\(x,i).i,(x + ~6),1)
6: loop(\(x,i).i,(x div 4),1)
6: compr(\x.(1 + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then x else (1 + i))),x,x)),x)
6: compr(\x.(1 - (x mod (1 + (4 * (x mod 5))))),x)
6: compr(\x.(1 - loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),(x div 2),(x2 + 4x))),(x + 1))
6: compr(\x.(2 - loop(\(x,i).(0 - (if (x mod (1 + i)) <= 0 then 0 else x)),(x div 2),x)),x)
6: compr(\x.(~1 + (loop(\(x,i).4x,x,1) mod (2x + 1))),x)
6: compr(\x.(~1 + (x mod (~1 + (loop(\(x,i).2x,x,x) mod (x + 1))))),x)
5: (5 + ((x div 2) mod 5))
5: ((x + 4) + (if x <= 0 then 1 else 2))
5: (9 + (x mod 2))
5: ((10x + 1) + (x mod 2))
5: ((x + 1) + (2 * (x div 4)))
5: ((x + 1) + ((x + (x div 2)) div 4))
5: ((x + 2) + (((1 + i) * i) div 2))
5: ((x + 2) + (2x div 7))
5: ((x + 1) + (x2 div 3))
5: (3 + (((x + 1) div 2) div 2))
5: ((x + 2) + ((x div 2) div 3))
5: (3 + (x div 5))
5: ((x + 2) + (x div 5))
5: ((x + 2) + (x div 9))
5: (3 + (x div 8))
5: ((x + 2) + (x div 8))
5: (3 + ((x + ~1) mod 3))
5: (2 + (((x div 2) mod 2) + (x mod 3)))
5: ((x + 1) + ((x div 2) mod 2))
5: (4 + (x mod (2 + (x mod 2))))
5: (5x + (i mod 2))
5: ((x + 1) + (if (~2 + (x div 2)) <= 0 then 1 else 2))
5: (3x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1))
5: (9x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1))
5: (3x + loop(\(x,i).(8x + loop(\(x,i).11x,i,1)),i,1))
5: (9x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1))
5: (9x + loop(\(x,i).2x,i,2))
5: ((2x + 1) - (x div 4))
5: (1 + (x div 2) - ((x div 3) mod 2))
5: (1 + (x div 2) - ((x div 4) mod 2))
5: (6 + (x div 3))
5: (x2 + 5x + 1)
5: (x + ((3 + i) * i))
5: (3x2 + 2x + 1)
5: (33x + 1)
5: (49x + 50)
5: (2x2 + 3)
5: (x3 + 2x + 1)
5: (x + ((2 + (i div 2)) * (i div 2)))
5: (1 + (2 * (1 + ((x div 2) mod 2))))
5: (x + (2 * (x + (i mod 2))))
5: (1 + ((x + 1) * (1 + loop(\(x,i).(x * (x + i)),2,4))))
5: (x2 + x + 3)
5: (x2 + 3x + 4)
5: ((x2 + 2x) + (x mod 2))
5: (1 + (x * (2 + i)))
5: (~x2 + 2x + 1)
5: (2x2 + ~x + 1)
5: (1 + (2 * (x - ((x div 2) div ~2))))
5: (10x + (x mod 2))
5: (10x + (i mod 2))
5: (10x + 11)
5: (27x + 1)
5: (17x + 16)
5: (x8 + x6 + x4 + x2 + 1)
5: (18x + 1)
5: (30x + 1)
5: (10x2 + x)
5: (x + (4 * (x div 3)))
5: (1 + (4 * (2x mod (1 + (2 * (if (x mod 3) <= 0 then 0 else 2))))))
5: (x + (4 * (x mod 2)))
5: (1 + (4 * (x mod 4)))
5: (1 + (4 * (if (x mod 3) <= 0 then 0 else 2)))
5: (1 + (4 * (if x <= 0 then 0 else 2)))
5: (4x + (i mod 2))
5: (x3 + x2 + 1)
5: (x3 + ~x2 + 1)
5: (1 + (3 * ((x + 1) div 2)))
5: (1 + (5 * ((x2 + x) div 2)))
5: ((5 * ((x2 + 3x + 2) div 2)) + (x div 5))
5: (x + (2 * (2x div 3)))
5: (1 + (2 * ((x + 1) mod 3)))
5: (1 + (2 * ((~x + 1) mod 3)))
5: (1 + (2 * (i mod 2)))
5: (1 + (3 * (if x <= 0 then 0 else 2)))
5: (1 + (2 * loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)))
5: (1 + ((x + 1) * loop(\(x,i).x2,2,3)))
5: (2 + (i * i))
5: ((x + 2) + (i * i))
5: (1 + ((2 + (((x div 3) * (x div 2)) div 2)) div 3))
5: (1 + ((1 + ((loop(\(x,i).2x,x,2) mod (x + 1)) div 2)) div 2))
5: (2x + ((x + ((x div 2) mod 2)) div 2))
5: (2 + ((x + 1) div 5))
5: (1 + ((x + 1) div (1 + (x div (2 + (x mod (2 + (x mod 2))))))))
5: (x + ((x - ((x + (x div 3)) div 3)) div 2))
5: (x + ((x - ((~x + 2) div 4)) div 2))
5: (x + ((x - (x div 3)) div 3))
5: (2 + ((x - ((x div 2) mod 2)) div 2))
5: (x + (5x div (1 + i)))
5: (1 + ((4 * (x + ((x div 2) div 3))) div 3))
5: (x + ((x * (1 + (x div 5))) div 9))
5: (2 + ((x2 + 3x + 2) div 2))
5: (1 + ((x2 + 4x + 4) div (~x + 26)))
5: (4x + ((x2 + ~x) div 2))
5: (2x + (14x div (1 + i)))
5: (x + ((x3 + 3x2 + 2x) div 3))
5: (x + (((x div 2) * (x div 2)) div 2))
5: (1 + ((x * (x div 2)) div 3))
5: (1 + ((x * (x mod 2)) div 2))
5: (2 + (2x div 3))
5: (2 + (2x div 5))
5: (2 + (2x div (2 + (x div 4))))
5: (2x + (x2 div 4))
5: (1 + (x2 div (x + 5)))
5: (1 + (x2 div (4 + (x div 2))))
5: (x + ((i * i) div 2))
5: (x + ((i * i) div 3))
5: (x + (((x + 1) div 2) div 3))
5: (1 + (((x + 1) div (2 - (16 mod (~x + ~1)))) div 2))
5: (2 + ((x div 2) div (1 + (x mod (2 + ((x mod 3) div 2))))))
5: (1 + (((~1 + loop(\(x,i).2x,x,(x - ((x div 2) mod 2)))) mod (x + 1)) div 2))
5: (((x2 mod (x - ((~x + 2) div 2))) div (x + 1)) + (x mod 2))
5: (2 + (((x2 div 2) mod (2 + (x div 2))) div 2))
5: (1 + ((x mod (1 + (x div 2))) div 2))
5: (4x + ((x mod (1 + (x div 2))) div 2))
5: (x + ((x mod (1 + (x div 2))) div 3))
5: (x + ((x mod (2 + (x div 2))) div 2))
5: (1 + ((x mod (1 + (x div 4))) div 2))
5: (1 + ((x mod ((x + ~1) - (x mod 4))) div 2))
5: (2 + ((if x <= 0 then 2 else x) div 2))
5: (1 + (loop(\(x,i).3x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 3))
5: ((x div 3) + (x div 2))
5: ((2x + 2) + (x div 4))
5: (1 + (x div (4 + (x mod 2))))
5: (2 + (x div (4 + (x mod 2))))
5: (2 + (x div (2 + (3 * (x mod 2)))))
5: ((x div (2 + ((x div 2) div (1 + (x mod (2 + ((x mod 3) div 2))))))) + (x mod 2))
5: (2 + (x div (2 + (((x2 div 2) mod (2 + (x div 2))) div 2))))
5: (2 + (x div (2 + ((x mod 3) div 2))))
5: (2 + (x div (1 + ((x mod (1 + ((2 - (x mod 4)) mod (x + 1)))) div 2))))
5: (1 + (x div (2 + (x div (1 + (x mod (2 * (1 + (x mod 2)))))))))
5: (1 + (x div (2 + (x div 8))))
5: (2 + (x div (2 + ((~x + 2) mod 4))))
5: (1 + (x div (2 + (if (x mod 2) <= 0 then 1 else 8))))
5: (x + (x div (1 + i)))
5: (x + (x div (~1 + (2 * i))))
5: ((x div 8) + (((x + 1) div 2) div 2))
5: (1 + (x div (2 * (2 + (x mod 2)))))
5: (1 + (x div ((x + 2) div (2 + (loop(\(x,i).x3,2,2x) mod (x + 1))))))
5: ((x + 2) + (x div (if i <= 0 then 1 else i)))
5: (x + (1 mod (8 - (x div 2))))
5: (1 + (7 mod (1 + (x div 2))))
5: (1 + ((1 + (x div 2)) mod (1 + (x div 5))))
5: (2 + ((1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)) mod (x + 1)))
5: (2 + ((x + 1) mod 5))
5: (2 + ((x + 1) mod (2 + (x mod 2))))
5: (1 + ((x + 1) mod 6))
5: (1 + ((x + 2) mod 6))
5: (2 + ((~x + 2) mod 8))
5: (2 + ((x + ~1) mod 9))
5: (1 + (6 mod (x + 1)))
5: (1 + ((4x + 4) mod (2 + (x div 3))))
5: (1 + ((x2 + x) mod 3))
5: (1 + ((x2 + ~x) mod 8))
5: (1 + ((3 * ((x + 1) div 2)) mod (1 + (x div 3))))
5: (2 + (2x mod 7))
5: (1 + (((x2 + 2x) div 2) mod 3))
5: (1 + (((x2 + 2x) div 2) mod (1 + ((1 + (x div 2)) div 3))))
5: (1 + ((x div 2) mod 4))
5: (1 + ((x div 2) mod 5))
5: (x + ((x div 2) mod 5))
5: (1 + ((x div 2) mod (1 + (x mod 4))))
5: (1 + ((x div 2) mod (1 + (x mod (1 + (x div 3))))))
5: (2x + ((x div 3) mod 3))
5: (x + ((x div 5) mod 2))
5: (1 + ((x div ~2) mod 2))
5: (1 + (loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)))
5: (x + (x mod 5))
5: (1 + (x mod (4 + (x div 2))))
5: (2 + (x mod 7))
5: (x + (x mod 9))
5: (1 + (x mod (1 + (((x + 1) div 2) div 3))))
5: (2 + (x mod (2 + (x div 4))))
5: (1 + (x mod (1 + (x div (1 + (loop(\(x,i).2x,x,2) mod (2x + 1)))))))
5: (1 + (x mod (1 + (7 mod (1 + (x div 2))))))
5: (1 + (x mod (1 + ((2 - (x div 2)) mod 4))))
5: (1 + (x mod (1 + (31 mod (x + 1)))))
5: (x + (x mod (2 + (x mod 2))))
5: (1 + (x mod (1 + (x mod (3 - (x mod 2))))))
5: (2 + (x mod (2 + (x mod (2 + (x mod 2))))))
5: (1 + (x mod ~4))
5: (x + (x mod 8))
5: (1 + (x mod ~8))
5: (2 + (x mod (2 * (1 + (2 * (x mod 2))))))
5: (1 + (x mod (2 * (~2 + (x mod 2)))))
5: (~1 + ((i mod 2) + i))
5: (2 + (if (~x + 2) <= 0 then 2 else 1))
5: (x + (if (~4 + (x div 2)) <= 0 then 1 else 0))
5: (2 + (if (~4 + (x div 2)) <= 0 then 2 else 1))
5: (1 + (if (~2 + (x div 2)) <= 0 then x else (x + 4)))
5: (1 + (if (~2 + (x div 3)) <= 0 then x else (x + 2)))
5: (1 + (if (~1 + (x div 4)) <= 0 then x else 8))
5: (x + (if (~2 + i) <= 0 then 2 else x))
5: (2 + (if (((x + 2) mod 8) mod 3) <= 0 then 0 else 2))
5: (1 + (if (x mod 2) <= 0 then 16 else 1))
5: (2 + (if (x mod 4) <= 0 then 2 else 0))
5: (x + (if (i mod 3) <= 0 then 1 else 2))
5: (2 + (if x <= 0 then 1 else x))
5: (4x + loop(\(x,i).(5x + loop(\(x,i).3x,(2 * i),1)),i,1))
5: (8x + loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),i,1))
5: (8x + loop(\(x,i).(5x + loop(\(x,i).11x,i,1)),i,1))
5: (4x + loop(\(x,i).(5x + loop(\(x,i).10x,i,1)),i,1))
5: (x + loop(\(x,i).(7x + loop(\(x,i).10x,i,1)),i,1))
5: (x + loop(\(x,i).(5x + 1),i,1))
5: (9x + loop(\(x,i).(10x + 1),i,1))
5: (9x + loop(\(x,i).(4x + 1),i,1))
5: (x + loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),i,1))
5: (4x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1))
5: (4x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1))
5: (4x + loop(\(x,i).(11x + 1),i,1))
5: (loop(\(x,i).5x,x,1) + loop(\(x,i).4x,x,1))
5: (x + loop(\(x,i).(x * (2 + i)),4,(x + 1)))
5: (1 + loop(\(x,i).(x * (x + i)),2,3))
5: (1 + loop(\(x,i).10x,2,x))
5: (loop(\(x,i).8x,x,1) + loop(\(x,i).6x,x,1))
5: (loop(\(x,i).6x,x,1) + loop(\(x,i).4x,x,1))
5: (x2 + loop(\(x,i).x3,2,x))
5: (loop(\(x,i).2x,i,1) + (i mod 2))
5: (x + loop(\(x,i).x2,1,(2 + (i div 2))))
5: (2 + loop(\(x,i).x2,2,3))
5: (x + loop(\(x,i).(x * i),(~1 + i),1))
5: (1 + loop(\(x,i).(x * i),x,1))
5: (1 + compr(\x.(1 + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then x else (1 + i))),x,x)),x))
5: (2 + compr(\x.(1 - loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),(x div 2),(x2 + 4x))),(x + 1)))
5: (1 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x))
5: (~x - (x div (4 + i)))
5: (0 - (x mod 5))
5: (0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(5x + 2)))
5: (0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(5x + ~2)))
5: (0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,7x))
5: (0 - loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,8x))
5: (~3 - (x div 4))
5: (23x + 1)
5: (~x2 + ~x + 1)
5: ~23
5: (~2x2 + 1)
5: (1 - (2 * (((x + 1) div 2) div 2)))
5: (1 - (2 * ((x mod (1 + (((x + 1) div 2) div 2))) mod 2)))
5: (1 - ((~x + (x mod 2)) div 3))
5: (1 - (x div ~5))
5: (1 - (x div (~2 + (x div ~2))))
5: (1 - (x mod (~1 + (x div ~2))))
5: (1 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(8x2 + 8x)))
5: (1 - loop(\(x,i).(2 * (x - (i mod 2))),x,0))
5: (1 - loop(\(x,i).(10x + ~20),x,0))
5: (1 - loop(\(x,i).(x div (if (x mod 2) <= 0 then ~2 else 1)),x,x))
5: (1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + 2x + 2)))
5: (1 - loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x)))
5: (~x2 + 3)
5: (3 - (x div 2))
5: (~12x + ~10)
5: (2 - (x * (x mod 2)))
5: (2 - (2 div (1 + (x div 4))))
5: (2 - ((1 - (x div 2)) div 3))
5: (2 - (((x mod 2) - (x div 2)) div 2))
5: (2 - (x2 div 4))
5: (2 - (((x + ~1) div 2) div 2))
5: (2 - ((x div 2) div 3))
5: (2 - ((x mod (2 + (x mod 2))) div 2))
5: (2 - (x mod (~1 - (x div 4))))
5: (2 - (x mod ~5))
5: (2 - (if x <= 0 then 1 else ((x mod 2) - (((2x + 1) mod (1 - (x div ~4))) div 2))))
5: (2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x + ~2),x))
5: ((9x + ~1) + loop(\(x,i).2x,i,2))
5: (~1 + (loop(\(x,i).2x,i,1) + (i mod 2)))
5: ((x + 2) - (x div ~3))
5: (~2 - (x mod 4))
5: (~13x + 1)
5: (~5 + (x mod 2))
5: (~4 + ((x div 2) mod 2))
5: (~1 + loop(\(x,i).2x,x,(1 + (x mod (2 * (1 + (x mod 2)))))) - (x mod 2))
5: (3x - (x div 3))
5: (x2 + 3x + ~1)
5: (x3 + x2 + 2x + 1)
5: (~1 + (2 * (4x + loop(\(x,i).2x,i,1))))
5: ((2x + 4) - (x div 2))
5: (~x2 + x + ~1)
5: (10x + ~6)
5: (~1 + (2 * (~2x + (x div 2))))
5: (~1 + (2 * (~2 + (x mod 2))))
5: (~1 + (2 * (~2x + (x mod 2))))
5: (7x + 8)
5: 59
5: ~29
5: (~6x + 5)
5: (4x - (x mod 2))
5: (3x2 + ~1)
5: (~x + (3x * i))
5: (~1 + (2 * ((4 * (x + (if (~2 + (x div 2)) <= 0 then 1 else 2))) div 3)))
5: (~1 + (2 * (((~x + 2) div 2) div 3)))
5: (~1 + (2 * (x mod 5)))
5: (2x - (2x div 7))
5: (2x - (x2 div 4))
5: (2x - ((x div 2) div 3))
5: (2x - (x mod ~3))
5: (2x - (if x <= 0 then 0 else 1))
5: (((x + 1) div 3) - ((1 - (x div 3)) div 3))
5: (~1 + ((~x + 1) div 5))
5: (~1 + (((~x + 2) - (x div 4)) div 4))
5: (~x + ((2 - (x div 2)) div 2))
5: (((~x + 2) div 2) - (x mod 3))
5: (~1 + ((x + ~1) div 2))
5: (~2 + ((x + ~1) div 2))
5: (~1 + ((x + ~1) div 3))
5: (~2 + ((x + ~2) div 3))
5: (~1 + ((x - (x div 4)) div 2))
5: (~2 + ((x - (x div 4)) div 2))
5: ((~2x + ~1) + ((x - (x div 4)) div 2))
5: ((~2x + ~2) + ((x - (x div 4)) div 2))
5: (~1 + ((~2x + 2) div 5))
5: (~1 + ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2))
5: (~x + (x2 div 4))
5: (~1 + (((x + 1) div 2) div 3))
5: (~x + ((x div 2) div 3))
5: (~1 + ((x div 4) div ~2))
5: ((x div 2) - ((x + 1) div 3))
5: ((x div 2) - ((x div 4) div ~2))
5: ((x div 2) - ((x mod 3) div 2))
5: ((x div 2) - (x div 8))
5: ((x div 2) - ((x div 3) mod 2))
5: (~6 + (x div 4))
5: (~1 + ((x + (if (x mod 2) <= 0 then 2 else x)) mod 3))
5: (~x + ((x + 1) mod 3))
5: (~x + ((~x + 1) mod 3))
5: ((((x div 2) div 3) mod 2) - (if x <= 0 then 1 else x))
5: (~1 + ((x div 2) mod 5))
5: (((x div 4) mod 2) - (x div 2))
5: (~1 + (loop(\(x,i).2x,x,2) mod (x + 2)))
5: (~8 + (x mod 2))
5: ((x mod 2) - (((2x + 1) mod (1 - (x div ~4))) div 2))
5: ((x mod 3) - ((((x + 1) div 2) div 2) mod 2))
5: (~2 + (x mod (2 - (x mod ~4))))
5: (~1 + (x mod (x - ((x + ~1) mod 8))))
5: (~1 + (i mod 2))
5: (~2 + (if x <= 0 then 2 else (loop(\(x,i).(1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),2,x) mod (x + 1))))
5: (~1 + (if x <= 0 then 2 else x))
5: (~1 + loop(\(x,i).(2x + i),x,2))
5: (~2 + loop(\(x,i).10x,x,2))
5: (~1 + loop(\(x,i).4x,x,4))
5: (~1 + loop(\(x,i).2x,x,(x - ((x div 2) mod 2))))
5: (~1 + loop(\(x,i).(if x <= 0 then i else (x div 2)),x,2))
5: ((x + ~1) - (x mod 4))
5: ((x + ~1) - i)
5: ((x + ~1) + (2 * (i mod 2)))
5: ((x + 1) - (2 * (~2x + (x mod 2))))
5: (29x + 1)
5: (~11x + 1)
5: ((x + 1) - (2 * (x div 3)))
5: ((x + 1) - (((~x + 2) - (x div 4)) div 4))
5: ((x + 1) - ((~2x + 2) div 5))
5: ((x + 1) - (((x + 1) div 2) div 3))
5: ((x + 2) - (x div ~2))
5: ((x + 1) - (loop(\(x,i).2x,x,1) mod (x + 1)))
5: ((x + 1) - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x))
5: ((x + 2) - i)
5: (x + 21)
5: (2x2 + ~3x)
5: (x - (2 * (~x + (x div 3))))
5: (x - (2 * (~x + (x mod 2))))
5: (4x2 + ~3x)
5: (x3 + ~x2 + x)
5: (x - (2 * (((x + 1) div 2) div 2)))
5: (x - ((~x + 2) div 5))
5: (x - (((~x + ~1) + (x mod 2)) div 5))
5: (x - ((x - (x div 5)) div 3))
5: (x - ((2x + 2) div 7))
5: (x - ((x2 + ~x) div 4))
5: (x - (2x div ~7))
5: (x - (x2 div (x + 5)))
5: (x - (x2 div ~2))
5: (x - (((x + ~1) div 2) div 3))
5: (x - ((x div 4) div ~2))
5: (x - (x div (1 + (x mod 2))))
5: (x - (x div (~2 + (x mod ~2))))
5: (x - (x div ~12))
5: (x - (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))
5: (x - ((x + 1) mod 13))
5: (x - (x2 mod (x + 8)))
5: (x - (((x div 2) div 3) mod 2))
5: (x - (x mod 4))
5: (x - (if (~x + i) <= 0 then (1 + i) else 0))
5: (x - (if x <= 0 then 0 else (1 + (2 * i))))
5: (x - (if x <= 0 then 1 else i))
5: ((~x + 1) + i)
5: (2 * ((x + 2) + (3 * (x div 2))))
5: (2 * (3 + (x mod 2)))
5: (2 * (3x + (i mod 2)))
5: (5x2 + 2x)
5: (2x2 + 9x)
5: (3x2 + 10x + 8)
5: (3x2 + 6x + 6)
5: (2x2 + 4x + 8)
5: (17 * (if x <= 0 then 1 else 2))
5: (18x + 16)
5: (16x + 2)
5: (4x2 + 5x + 1)
5: (6x2 + x)
5: (6x2 + 2)
5: (6x2 + 2x)
5: (x4 + 2x)
5: (2 * (1 + (2 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))))
5: (2 * (x + (3 * (x div 2))))
5: (x * (2 + (x * (x mod 2))))
5: (x3 + 4x)
5: (x * (1 + (x * i)))
5: (4 * (x + ((x div 2) div 3)))
5: (2 * (2 + ((x mod 3) div 2)))
5: ((x + (x div 2)) * (1 + (x mod 2)))
5: (3 * (1 + (x div 4)))
5: (2 * (x + (x div 4)))
5: (2 * (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))
5: (2 * (x + (x div 11)))
5: ((2 + (i div 2)) * (i div 2))
5: (2 * (2 + (2 mod (x + 1))))
5: (3 * (2 + ((x + 1) mod 8)))
5: (2 * (2 + ((x + 2) mod 4)))
5: (2 * (2 + ((x + ~1) mod 3)))
5: ((x + 1) * (1 + (x mod 2)))
5: ((x + 1) * (2 + (x mod 2)))
5: (5 * (x + (x mod 2)))
5: (3 * (1 + (x mod 4)))
5: (2 * (1 + (x mod (2 + (x mod 2)))))
5: (2 * (1 + (x mod 6)))
5: (x * (~1 + ((i mod 2) + i)))
5: (3 * (x + (i mod 2)))
5: (((if (x mod 2) <= 0 then 2 else 0) + (x div 2)) * (1 + (x div 2)))
5: (2 * (4x + loop(\(x,i).2x,i,1)))
5: ((1 - (x div 2)) * (x div 2))
5: (4 * (1 - i))
5: (~2x2 + 4)
5: (2 * (2 - ((x mod 3) div 2)))
5: (5 * (2 - ((x div 2) mod 2)))
5: ((x + 1) * (2 - ((x div 2) mod 2)))
5: (x * (~1 + (loop(\(x,i).2x,i,1) + (i mod 2))))
5: (((x + ~1) + i) * i)
5: (2 * ((~x + ~1) + (x mod 2)))
5: (2 * ((~x + ~2) + (x mod 2)))
5: (11 * i)
5: (2 * (~1 + (2 * (~2x + (x div 2)))))
5: (16x + 14)
5: (2 * (2x - (x div ~2)))
5: (2 * (2x - (i mod 2)))
5: (x3 + x2 + ~x + ~1)
5: (x3 + 2x2 + ~x + ~2)
5: (3 * (~2 + ((x - (x div 4)) div 2)))
5: (x * (~2 + (x div 2)))
5: (2 * (~x + ((x div 2) mod 2)))
5: (3 * (~2x + (x mod 2)))
5: (2 * (~2x + (i mod 2)))
5: (2 * (~1 + loop(\(x,i).10x,x,2)))
5: ((x + ~2) * i)
5: (x2 + ~3x)
5: (2x + ~12)
5: (10x + ~16)
5: (5x2 + ~8x)
5: (2 * (x - (2 * (x div 5))))
5: (2 * (x - ((0 - ((x - (((x + 1) div 2) mod 6)) div 2)) div 2)))
5: (2 * (x - ((x div 2) div ~2)))
5: (3 * (x - (x div 5)))
5: (2 * (x - (x div ~3)))
5: (2 * (x - (x div ~4)))
5: (x * (x - (x mod 3)))
5: (5 * (i * i))
5: (x3 + 3x2 + ~4x)
5: (2x * (4 + i))
5: (14 * (if x <= 0 then 1 else 2))
5: 13x2
5: (4x2 + 8x + 8)
5: 68
5: (17x2 + 17x)
5: (4 * (1 + (2 * (x div 2))))
5: (2x * (1 + (2 * (i div 2))))
5: (2x3 + 2x)
5: (2x3 + 4x)
5: (6 * (2 + (if x <= 0 then 0 else 2)))
5: (2x2 + 8x + 6)
5: (15x + 15)
5: (3x2 + 9x + 6)
5: (2x3 + 5x2 + 2x)
5: (2x * (2 + i))
5: (4 * (3 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
5: 46x
5: (12x + ~6)
5: (5x2 + ~5x)
5: (10x + ~20)
5: (4 * (x - (x div ~2)))
5: (16x2 + 32x + 16)
5: (6x2 + 12x + 6)
5: (4x3 + 12x2 + 8x)
5: (6x * (~1 + (2 * i)))
5: (48x + 48)
5: 64x
5: (8x2 + ~4x)
5: (6x2 + 6x)
5: (10x2 + 10x)
5: (2x3 + 4x2)
5: 5x3
5: (x * (i * i * i * i))
5: (6 * (x div 7))
5: (4 * (2x mod (1 + (2 * (if (x mod 3) <= 0 then 0 else 2)))))
5: (6 * (if (~2 + (x div 3)) <= 0 then 0 else 2))
5: (4 * (if (x mod 3) <= 0 then 0 else 2))
5: (21 * (if x <= 0 then 1 else 2))
5: (27 * (if x <= 0 then 1 else 2))
5: (x2 * (2 + i))
5: (x2 * (x mod 2))
5: (2 * (i * (1 + i)))
5: ((x + 1) * (i * i))
5: (2 * ((x + 1) div 7))
5: (2 * ((x + 1) div (8 - ((x + 2) div 3))))
5: (((1 + i) div 2) * i)
5: (2 * ((~x + 2) div 4))
5: (2 * ((x + ~1) div 2))
5: (((x + ~2) div 3) * (x div 2))
5: (3 * ((x - (x div 4)) div 2))
5: (9 * ((x2 + x) div 2))
5: ((((4x div (1 + i)) * (~1 + (2 * i))) div (1 + i)) * (1 + (2 * i)))
5: (2 * (2x div 15))
5: (2 * (((x + ~1) div 2) div 2))
5: (5 * ((x div 2) div 3))
5: ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + ((1 + (x div 2)) div 2)))
5: ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (if (x mod 3) <= 0 then 2 else 1))
5: (2 * ((x mod (~1 + (2 * ((x + ~1) div 3)))) div 2))
5: ((x + 2) * (x div 2))
5: ((~x + 1) * (x div 3))
5: ((x div 3) * (x div 3))
5: ((x + ~1) * (x div 4))
5: ((x div 4) * (x div 2))
5: ((x div 5) * (x div 2))
5: (x * (x div 5))
5: ((x + ~1) * (x div ~2))
5: (2 * (x div ~3))
5: (3 * (x div 8))
5: (2 * ((x + (x div 8)) mod 5))
5: (2 * ((~x + 1) mod 3))
5: (x * ((~x2 + 2) mod (~1 + ((~2x + 2) mod (4 + (x div 4))))))
5: (2 * ((~x + 2) mod 5))
5: (2 * (2x mod (1 + (2 * (if (x mod 3) <= 0 then 0 else 2)))))
5: (2 * (((x + ~1) div 2) mod 2))
5: (2 * ((2x div (4 + (x div 4))) mod 2))
5: (x * (x mod 4))
5: (2 * (x mod ~3))
5: (3 * (x mod 10))
5: (3 * (i mod 2))
5: (3 * (if (~2 + (x div 2)) <= 0 then 1 else 2))
5: (2 * (if (~2 + (x div 4)) <= 0 then 0 else 2))
5: (2 * (if (x mod 2) <= 0 then (2 + (if x <= 0 then 0 else 2)) else 1))
5: (x * (if (x mod 2) <= 0 then x else 1))
5: (2 * (if x <= 0 then 0 else i))
5: (2 * (if x <= 0 then 1 else 4x))
5: ((x + 2) * (if x <= 0 then 1 else x))
5: (2 * loop(\(x,i).(x + loop(\(x,i).x2,1,(2 + (i div 2)))),x,1))
5: ((x + 1) * loop(\(x,i).(x2 + 4x + 4),2,1))
5: ((x + 1) * loop(\(x,i).(x2 + 4x + 4),2,2))
5: (x * loop(\(x,i).(x2 + 2x),2,2))
5: ((x + 1) * loop(\(x,i).((x + 2) * (x + i)),2,3))
5: ((x + 1) * loop(\(x,i).(2x2 + 8x + 8),2,0))
5: (3 * compr(\x.loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,2x),x))
5: (2 div (1 + (x mod 5)))
5: (2 div (1 + i))
5: (2 div (16 div (x + 1)))
5: (((x + 1) + (x2 div 4)) div 2)
5: ((x2 + x + 1) div 3)
5: ((x2 + 2x + 1) div 3)
5: (((5 * ((x2 + 3x + 2) div 2)) + (x div 5)) div 2)
5: ((x + (2 * (x mod 2))) div 5)
5: ((2 + (x2 div 2)) div (x + 3))
5: ((x2 + (x2 div 4)) div 3)
5: ((x + ((x div 2) div 5)) div 2)
5: ((x + (x div 2)) div (4 + (x div 2)))
5: ((x + (x div 4)) div ~3)
5: ((1 + (x div (1 + (loop(\(x,i).2x,x,2) mod (2x + 1))))) div 2)
5: ((x + (((x div 2) div 3) mod 2)) div 2)
5: ((x + ((x div 2) mod 5)) div 5)
5: ((2x + ((x div 3) mod 3)) div 3)
5: ((1 + (x mod (1 + (31 mod (x + 1))))) div 2)
5: ((1 + (if (~2 + (x div 2)) <= 0 then x else (x + 4))) div 3)
5: ((x + (if (~2 + (x div 3)) <= 0 then 2 else 1)) div 2)
5: ((x + 1) div (1 + (x div 4)))
5: ((x + 1) div (1 + (x mod 4)))
5: ((x + 1) div (1 + (x mod 9)))
5: ((x + 1) div (2 - (16 mod (~x + ~1))))
5: ((x + 1) div (if x <= 0 then 1 else (2 * (1 + ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 2)))))
5: ((x + 2) div (12 - (x div 2)))
5: ((1 - (2 * (x div 3))) div 3)
5: ((~2x + 1) div 9)
5: ((~x2 + 1) div (x + 4))
5: ((~x + 1) div (1 + (2 * (2 + (((x div 2) div 3) mod 2)))))
5: ((~x + 1) div (1 + (x div 2)))
5: ((~x + 2) div (2 + ((if x <= 0 then 2 else x) div 2)))
5: ((~x + 2) div (x + 2))
5: ((~x + 2) div (2 - (x div ~2)))
5: ((x2 + ~1) div 5)
5: ((~x + (2 div (x + 1))) div 5)
5: ((~1 + (x2 div 2)) div 5)
5: (((x div 2) - (x div 3)) div 2)
5: (((x div 2) - ((x div 4) mod 2)) div 2)
5: ((~1 + (x div 3)) div 2)
5: ((~1 + (x mod 4)) div 2)
5: ((x + ~1) div (3 + (x div 2)))
5: ((x - ((2 - (x div 4)) div 2)) div 2)
5: ((x - ((~x + 2) div 2)) div 5)
5: ((x - (x div ~3)) div 3)
5: ((x - (x div ~8)) div 2)
5: ((x - ((~x + 1) mod 3)) div 2)
5: ((x - (((x div 2) div 3) mod 2)) div 2)
5: ((x - (x mod ~3)) div 2)
5: ((~1 + i) div 2)
5: ((4x + 4) div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))
5: (5x div (1 + i))
5: ((5x2 + x) div 2)
5: ((x3 + 3x2 + 2x + 6) div 3)
5: ((4 * (x + ((x div 2) div 3))) div 3)
5: ((x * (x + (x div 2))) div 2)
5: ((x * (1 + (x div 5))) div 9)
5: ((x * (2 + (x div 5))) div 4)
5: ((3 * (x + (x div 8))) div 2)
5: ((2x + 2) div (2 + (x div 2)))
5: ((2x + 4) div 9)
5: ((~x * (x div 2)) div 2)
5: ((~2x + 4) div (4 + ((x div 2) div 3)))
5: ((5x2 + ~x) div 2)
5: ((2x + ~2) div 5)
5: ((3 * (x - (x div 5))) div 2)
5: (((~1 + i) * i) div 2)
5: ((8x + 4) div 3)
5: ((x3 + 5x2 + 8x + 4) div 2)
5: ((2x3 + 6x2 + 4x) div 3)
5: ((4x3 + 12x2 + 8x) div 3)
5: (8x div 3)
5: (4x div (1 + (x div 4)))
5: ((x2 * (x div 2)) div 2)
5: ((2x * i) div (1 + i))
5: ((x * (i * (1 + i))) div 2)
5: ((3 * ((x2 + x) div 2)) div 2)
5: (((4x div (1 + i)) * (~1 + (2 * i))) div (1 + i))
5: ((2 * (((x + 1) div 2) div 2)) div 3)
5: (((x + ~1) * (x div 2)) div 2)
5: (((~x + 1) * (x div 3)) div 2)
5: ((x * (x div 4)) div 2)
5: ((3 * (x div 7)) div 2)
5: ((x * (x mod 2)) div 3)
5: (2x div (3 + (x div 2)))
5: (2x div (4 + (x div 2)))
5: (x2 div (x + 10))
5: (x2 div ((x + 2) + (x div 4)))
5: (x2 div (3x + 4))
5: ((i * i) div 3)
5: ((i * i) div 4)
5: ((i * i) div ~2)
5: ((((x + 1) + (x div 4)) div 2) div 2)
5: ((((5 * ((x2 + 3x + 2) div 2)) + (x div 5)) div 2) div 2)
5: (((1 + (x mod (1 + (31 mod (x + 1))))) div 2) div 2)
5: (((x + 1) div (2 + (x mod 2))) div 2)
5: (((x + 1) div (2 - (16 mod (~x + ~1)))) div 2)
5: (((~1 + (x div 2)) div 2) div 2)
5: (((x + ~1) div 2) div 5)
5: (((3 * (x - (x div 5))) div 2) div 2)
5: ((3x2 div (x + 2)) div 2)
5: (((3 * (x div 2)) div 2) div 2)
5: (((((x3 + ~3x2 + 2x) div 2) div 2) div 2) div 2)
5: ((x div 2) div (1 + (x mod (2 * (1 + (x mod 2))))))
5: ((x div 2) div (2 - ((x div 2) mod 2)))
5: ((x div 2) div (~1 + (2 * (x mod 4))))
5: ((x div (2 - (x mod 2))) div 3)
5: (((~1 + loop(\(x,i).2x,x,(x - ((x div 2) mod 2)))) mod (x + 1)) div 2)
5: (((2x + 2) mod (2 + (x div 2))) div 2)
5: ((~x2 mod (2 + (x div 2))) div 2)
5: ((2x mod (2 + (x div 2))) div ~2)
5: ((2x mod (~1 + (2 * (((~x + 2) div 2) mod 4)))) div 2)
5: ((x2 mod (x + 5)) div 2)
5: ((x2 mod (~1 + (2 * (x div 3)))) div 2)
5: ((x2 mod (x - ((~x + 2) div 2))) div (x + 2))
5: (((x2 div 2) mod (2 + (x div 2))) div 2)
5: ((((x div 2) div ~2) mod (x + 1)) div 2)
5: (((1 mod (1 - (2x mod (4 + (x div 4))))) mod (x + 1)) div 2)
5: ((x mod (2 + (x mod 3))) div 2)
5: ((x mod ((x + ~1) - (x mod 4))) div 2)
5: ((i mod 3) div 2)
5: ((if (x + ~2) <= 0 then 2 else ((x + 1) div 2)) div 2)
5: ((if x <= 0 then 1 else (2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2)))) div (2 + (x mod 2)))
5: (loop(\(x,i).(x + (x div 2)),x,2) div 2)
5: (loop(\(x,i).(3x + ~1),x,2) div 2)
5: (loop(\(x,i).(x6 + ~x4),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2)
5: (loop(\(x,i).2x,x,3) div 2)
5: (loop(\(x,i).(x * i),x,1) div (x + 1))
5: (loop(\(x,i).(x * i),x,2) div (x + 1))
5: (x div (3 + ((x div 2) mod 2)))
5: (x div (4 + ((x div 2) mod 4)))
5: (x div (3 + (if (x + ~4) <= 0 then 0 else 2)))
5: (x div (2 + ((x div 2) div (1 + (x mod (2 + ((x mod 3) div 2)))))))
5: (x div (2 + (((x2 div 2) mod (2 + (x div 2))) div 2)))
5: (x div (1 + ((x mod (1 + ((2 - (x mod 4)) mod (x + 1)))) div 2)))
5: (x div (1 + (x div 3)))
5: (x div (2 + (x div (2 + (((x2 div 2) mod (2 + (x div 2))) div 2)))))
5: (x div (2 + (x div (1 + ((x mod (1 + ((2 - (x mod 4)) mod (x + 1)))) div 2)))))
5: (x div (2 + (x div (1 + (x mod (2 * (1 + (x mod 2))))))))
5: (x div (2 + (x div 8)))
5: (x div (2 + ((~2x + 1) mod (2 + (x div 4)))))
5: (x div (2 + ((x2 + 2x) mod 6)))
5: (x div (1 + ((x div 2) mod (1 + (x mod (1 + ((~x + 2) mod 4)))))))
5: (x div (1 + (loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1))))
5: (x div (1 + (x mod (1 + ((3x mod (2 + (x div 2))) div 2)))))
5: (x div (1 + (x mod 8)))
5: (x div (1 + (if (x mod 2) <= 0 then 4 else 0)))
5: (x div (1 + (if (x mod 2) <= 0 then 6 else 1)))
5: (x div (2 - ((x div 2) div ~2)))
5: (x div (~2 + (x mod ~4)))
5: (x div (4 * (1 + i)))
5: (x div (3 * (2 + ((x + 1) mod 8))))
5: (x div (4 * (2 + (x mod 2))))
5: (x div (4 * (2 + (x mod 4))))
5: (x div (if i <= 0 then 1 else (2 * i)))
5: (4 mod (if x <= 0 then 1 else x))
5: (7 mod (1 + (x div 2)))
5: ((2x + 1) mod 5)
5: ((2x + 1) mod 7)
5: ((1 + ((x + (x div 2)) div 2)) mod 5)
5: ((x + (x div 2)) mod 5)
5: ((1 + (x mod (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))) mod (x + 1))
5: ((x + 1) mod (1 + (x div 3)))
5: ((x + 1) mod (2 + (i div 3)))
5: ((x + 1) mod (1 + loop(\(x,i).(if x <= 0 then i else (x + ~1)),x,0)))
5: ((x + 1) mod (1 - (x mod ~7)))
5: ((1 - (x mod 4)) mod (x + 1))
5: ((~x + 1) mod (1 + (x div 2) - ((x div 3) mod 2)))
5: ((1 - i) mod 3)
5: ((2 - (x div 3)) mod 5)
5: ((~x + 2) mod (1 + (x div 4)))
5: ((~x + 2) mod 6)
5: ((x2 - (x div 2)) mod (x + 2))
5: ((~1 + (if (x mod 2) <= 0 then x else 0)) mod (~1 + ((~2x + 2) mod (4 + (x div 4)))))
5: ((~1 + loop(\(x,i).2x,x,(x - ((x div 2) mod 2)))) mod (x + 1))
5: ((x + ~1) mod (4 + (x div 2)))
5: ((x + ~1) mod (1 + ((x + 1) div 5)))
5: ((x + ~1) mod (1 + (x div (2 + ((x div 2) mod 3)))))
5: ((x + ~1) mod 6)
5: ((x + ~2) mod (3 - (x mod 2)))
5: ((x + ~2) mod 7)
5: ((x + ~2) mod (1 + (x div 3)))
5: ((x + ~2) mod (1 + (x div 4)))
5: ((x + ~4) mod (1 + (x div 2)))
5: ((x - ((1 - (x div 2)) div 3)) mod 3)
5: ((~1 + i) mod 4)
5: ((4x + 4) mod (2 + (x div 3)))
5: (((x + 1) * (1 + (x mod 2))) mod (1 + (x div 5)))
5: ((2x + 2) mod (2 + (x div 2)))
5: ((2x + 2) mod (2 + (x div 4)))
5: (~x2 mod (2 + (x div 2)))
5: ((~2x + 2) mod 5)
5: ((~x2 + x) mod (2 + (x div 2)))
5: ((~2x + 4) mod (1 + (x div 2)))
5: ((x2 + ~x) mod 5)
5: ((x2 + ~2x) mod (2 + (x div 2)))
5: ((2x + ~8) mod (x + 1))
5: (x5 mod 31)
5: (2x2 mod (1 + ((x + 1) div 2)))
5: (2x2 mod (1 + (x div 2)))
5: (x3 mod 11)
5: ((3 * ((x + 1) div 2)) mod (1 + (x div 3)))
5: (((((x + 1) div 2) div 2) * (x div 2)) mod 2)
5: ((x * (x div 2)) mod (1 + (if (x mod 8) <= 0 then 2 else 1)))
5: ((x * (x div 3)) mod 2)
5: (2x mod (3 + (x div 4)))
5: (2x mod (1 + (2 * (if (x mod 3) <= 0 then 0 else 2))))
5: (2x mod (1 + (x mod 4)))
5: (2x mod (2 - ((~x + 1) div 3)))
5: (2x mod (~1 + (2 * (x div 4))))
5: (x2 mod (4 + (((x + 1) div 2) div 2)))
5: (x2 mod (x + 8))
5: (x2 mod (2x + ~5))
5: (x2 mod (~1 + (2 * (x div 3))))
5: (x2 mod (2 * (2 + (x mod 2))))
5: (((x2 + 2) div 3) mod 4)
5: (((1 + (x div 2)) div 2) mod 2)
5: (((x + 1) div (1 + (x mod 4))) mod 2)
5: (((~x + 2) div 2) mod 3)
5: (((x2 + ~1) div 2) mod 4)
5: (((x - ((~1 + (x div 2)) div 2)) div 2) mod 2)
5: ((2x div (4 + (x div 4))) mod 2)
5: ((2x div (2 + (x div 3))) mod 2)
5: ((x2 div 2) mod (2 + (x div 2)))
5: ((x2 div 3) mod 3)
5: (((x div 2) div ~2) mod (x + 1))
5: (((2x mod (2 + (x div 2))) div ~2) mod 2)
5: ((x div 2) mod 7)
5: ((x div 2) mod (1 + (x div 4)))
5: ((x div 2) mod ~4)
5: ((x div 3) mod 4)
5: ((x div (3 + ((x div 2) div 3))) mod 2)
5: ((x div (2 + ((x div 2) div 3))) mod 2)
5: ((x div ~2) mod 4)
5: ((1 mod (1 - (2x mod (4 + (x div 4))))) mod (x + 1))
5: (((x + 3) mod 7) mod 2)
5: (((1 - (x mod 4)) mod (x + 1)) mod 3)
5: ((6 mod (x + 1)) mod 2)
5: ((((1 - (x mod 4)) mod (x + 1)) mod 3) mod 2)
5: ((x mod (2 - (x mod (~1 - (x div 4))))) mod 2)
5: ((x mod ~5) mod 2)
5: ((x mod 6) mod (1 + (x div 2)))
5: ((if (x mod 2) <= 0 then 1 else x) mod 3)
5: ((if (x mod 2) <= 0 then (~x + 2) else x) mod 3)
5: (loop(\(x,i).4x2,2,5) mod (x + 1))
5: (loop(\(x,i).(x * i),x,2) mod (x + 1))
5: (x mod (1 + (4 * (2x mod (1 + (2 * (if (x mod 3) <= 0 then 0 else 2)))))))
5: (x mod (1 + (2 * (x mod 6))))
5: (x mod (1 + (2 * (if (x mod 3) <= 0 then 0 else 2))))
5: (x mod (1 + ((x mod ((x + ~1) - (x mod 4))) div 2)))
5: (x mod (1 + (x div (2 + (x div 8)))))
5: (x mod (1 + (x div (1 + (loop(\(x,i).2x,x,2) mod (2x + 1))))))
5: (x mod (1 + (7 mod (1 + (x div 2)))))
5: (x mod (2 + ((~x + 1) mod 3)))
5: (x mod (1 + ((3 * ((x + 1) div 2)) mod (1 + (x div 3)))))
5: (x mod (2 + ((x * (x div 2)) mod 2)))
5: (x mod (2 + ((x div 4) mod 2)))
5: (x mod (1 + (x mod (1 + (x div 3)))))
5: (x mod (1 - (x div ~4)))
5: (x mod (1 - ((2 - (2x mod (4 + (x div 4)))) mod (x + 1))))
5: (x mod (1 - (x mod (~1 + (x div ~2)))))
5: (x mod (2 - ((x div 4) div ~2)))
5: (x mod (2 - (x mod (~1 - (x div 4)))))
5: (x mod (((~x + 2) div 2) - (x mod 3)))
5: (x mod (~1 + ((~x + 2) div 4)))
5: (x mod (~1 + (x div ~3)))
5: (x mod ((x + ~1) - (x mod 4)))
5: (x mod (x - ((x + 1) mod 3)))
5: (x mod (x - ((x + 1) mod 4)))
5: (x mod (if (~4 + (x div 2)) <= 0 then 1 else 2))
5: (compr(\x.(if (x mod 2) <= 0 then ((x div 3) mod 3) else 0),x) mod 3)
5: (if (~x + 2) <= 0 then (x div 2) else 1)
5: (if (~2 + (x div 2)) <= 0 then 2 else (x + ~2))
5: (if (~2 + (x div 2)) <= 0 then x else 2)
5: (if (~2 + (x div 3)) <= 0 then 2 else (x div 2))
5: (if (~2 + (x div 4)) <= 0 then 2 else x)
5: (if (~2 + (x div 5)) <= 0 then 1 else 2)
5: (if (~2 + (x div 5)) <= 0 then 2 else 1)
5: (if (x + ~1) <= 0 then x else 3)
5: (if (x + ~3) <= 0 then x else 4)
5: (if (x + ~4) <= 0 then 1 else 0)
5: (if (x + ~6) <= 0 then 1 else 0)
5: (if (~x + i) <= 0 then (1 + i) else 0)
5: (if ((x + 1) mod 5) <= 0 then 2 else 0)
5: (if (8 mod (if x <= 0 then 1 else x)) <= 0 then x else 0)
5: (if (16 mod (x + 1)) <= 0 then 0 else 2)
5: (if ((x * (x mod 3)) mod 5) <= 0 then 1 else 2)
5: (if (x mod 2) <= 0 then 1 else 6)
5: (if (x mod 2) <= 0 then 3 else ~2)
5: (if (x mod 2) <= 0 then 12 else 0)
5: (if (x mod 2) <= 0 then 12 else 1)
5: (if (x mod 2) <= 0 then (3 * (2 + (if x <= 0 then 0 else 2))) else 1)
5: (if (x mod 2) <= 0 then 16 else 1)
5: (if (x mod 2) <= 0 then ((x mod 3) div 2) else 2)
5: (if (x mod 2) <= 0 then (x div 2) else 1)
5: (if (x mod 2) <= 0 then ((x div 2) mod 2) else 3)
5: (if (x mod 4) <= 0 then 1 else 0)
5: (if (x mod 4) <= 0 then (2 + (if x <= 0 then 0 else 2)) else 1)
5: (if (x mod 4) <= 0 then x else 1)
5: (if (x mod 5) <= 0 then 1 else 2)
5: (if (x mod 5) <= 0 then 2 else 1)
5: (if (x mod 5) <= 0 then 4 else 0)
5: (if (x mod 5) <= 0 then (x mod 2) else 0)
5: (if (x mod 9) <= 0 then 0 else x)
5: (if (x mod (1 + (2 * (x mod 4)))) <= 0 then 1 else loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))
5: (if (x mod 6) <= 0 then 2 else 1)
5: (if (x mod 8) <= 0 then x else 1)
5: (if (x mod 10) <= 0 then 0 else 2)
5: (if (i mod 2) <= 0 then 2 else i)
5: (if x <= 0 then 0 else 3)
5: (if x <= 0 then 0 else (1 + (2 * i)))
5: (if x <= 0 then 0 else (1 + (if (~2 + (x div 2)) <= 0 then x else (x + 2))))
5: (if x <= 0 then 1 else ((x mod 2) - (((2x + 1) mod (1 - (x div ~4))) div 2)))
5: (if x <= 0 then 1 else (~2 + (if x <= 0 then 2 else (loop(\(x,i).(1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),2,x) mod (x + 1)))))
5: (if x <= 0 then 1 else (2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))))
5: (if x <= 0 then 1 else (x div 4))
5: (if x <= 0 then 1 else i)
5: (if x <= 0 then 2 else (loop(\(x,i).(1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),2,x) mod (x + 1)))
5: (if i <= 0 then 1 else (2 * i))
5: loop(\(x,i).((x + 1) + (((2x + 1) div 7) + (x div 3))),x,0)
5: loop(\(x,i).((x + 2) + (x div 2)),x,0)
5: loop(\(x,i).(5x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)
5: loop(\(x,i).(3x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)
5: loop(\(x,i).(9x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1)
5: loop(\(x,i).(3x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1)
5: loop(\(x,i).(3x + loop(\(x,i).(8x + loop(\(x,i).11x,i,1)),i,1)),i,1)
5: loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).10x,i,1)),i,1)),i,1)
5: loop(\(x,i).(9x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1)
5: loop(\(x,i).(7x + loop(\(x,i).3x,i,1)),i,1)
5: loop(\(x,i).(7x + loop(\(x,i).4x,i,1)),i,1)
5: loop(\(x,i).((x + 2) + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i)),x,2)
5: loop(\(x,i).(3x + 2),x,2)
5: loop(\(x,i).(5x + 2),x,0)
5: loop(\(x,i).(10x + 3),x,0)
5: loop(\(x,i).(x2 + x + 2),2,2)
5: loop(\(x,i).(3x + 4),x,1)
5: loop(\(x,i).(4x + 1),x,2)
5: loop(\(x,i).(6x + 1),i,1)
5: loop(\(x,i).(x2 + 1),2,4)
5: loop(\(x,i).(x2 + (x mod 2)),x,1)
5: loop(\(x,i).(1 + (x * i)),(~1 + i),1)
5: loop(\(x,i).(1 + (x * i)),x,0)
5: loop(\(x,i).(1 + (x * i)),i,1)
5: loop(\(x,i).(2 + (x * i)),x,2)
5: loop(\(x,i).(x + (i * i)),(x + ~1),x)
5: loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,x)
5: loop(\(x,i).(2 + (x mod (1 + i))),x,2)
5: loop(\(x,i).(2x + (i mod 2)),x,2)
5: loop(\(x,i).(4x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)
5: loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),i,1)),i,1)
5: loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).2x,i,1)),i,1)),i,1)
5: loop(\(x,i).(4x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1)
5: loop(\(x,i).(4x + loop(\(x,i).(11x + 1),i,1)),i,1)
5: loop(\(x,i).(4x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1)
5: loop(\(x,i).(x + loop(\(x,i).x2,1,(2 + (i div 2)))),x,1)
5: loop(\(x,i).(x + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)),x,x)
5: loop(\(x,i).(~x - (x div (4 + i))),2,x)
5: loop(\(x,i).(3x + ~1),(x + ~1),1)
5: loop(\(x,i).(2x - ((x div 2) mod 2)),x,2)
5: loop(\(x,i).(2x - (i mod 2)),x,1)
5: loop(\(x,i).(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1,i)
5: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(5x + ~2))
5: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(8x2 + 8x))
5: loop(\(x,i).(2x - i),x,0)
5: loop(\(x,i).(x - (x div 8)),2,(x + ~1))
5: loop(\(x,i).(x - (if (~x + i) <= 0 then (1 + i) else 0)),x,x)
5: loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,2x)
5: loop(\(x,i).(x - (if x <= 0 then 1 else (x - ((if x <= 0 then 2 else loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 2)))),x,(x + 1))
5: loop(\(x,i).3x,(x + ~2),x)
5: loop(\(x,i).3x,(~1 + i),1)
5: loop(\(x,i).5x,(x + 1),2)
5: loop(\(x,i).5x,x,3)
5: loop(\(x,i).13x,x,1)
5: loop(\(x,i).(10x + 2),(x div 2),(x mod 2))
5: loop(\(x,i).(4x + 2),x,2)
5: loop(\(x,i).(2 * (2x + (x div (if i <= 0 then 1 else i)))),x,(x + 2))
5: loop(\(x,i).((x + 1) * i),x,0)
5: loop(\(x,i).(2x + 4),(x + ~1),0)
5: loop(\(x,i).(x2 + 3x + 2),2,2)
5: loop(\(x,i).(x2 + 2x),3,x)
5: loop(\(x,i).(x * (2 + i)),compr(\x.((~1 + loop(\(x,i).(x * i),x,1)) mod (x + 2)),x),2)
5: loop(\(x,i).((x + 2) * (x + i)),2,3)
5: loop(\(x,i).(x * (x + i)),2,5)
5: loop(\(x,i).(x * (0 - i)),x,1)
5: loop(\(x,i).(~2x + 4),x,1)
5: loop(\(x,i).11x,x,2)
5: loop(\(x,i).(x5 + ~x),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
5: loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),(x div 2),1)
5: loop(\(x,i).(2 * (~2x + (x div (if i <= 0 then 1 else i)))),x,1)
5: loop(\(x,i).(x * (~2 + (i mod 2))),x,1)
5: loop(\(x,i).(3x + ~6),x,0)
5: loop(\(x,i).(x2 + ~2x),1,loop(\(x,i).2x,x,2))
5: loop(\(x,i).(2 * (x - (i mod 2))),x,2)
5: loop(\(x,i).10x,x,9)
5: loop(\(x,i).(10x + ~20),x,0)
5: loop(\(x,i).8x,(x + 1),1)
5: loop(\(x,i).20x,2,(x + 1))
5: loop(\(x,i).4x,(x div 2),1)
5: loop(\(x,i).4x,(x div 2),(2 - (x mod 2)))
5: loop(\(x,i).4x,i,x)
5: loop(\(x,i).6x,x,x)
5: loop(\(x,i).2x2,(2x + ~1),2)
5: loop(\(x,i).4x2,2,5)
5: loop(\(x,i).x3,2,i)
5: loop(\(x,i).x3,x,x)
5: loop(\(x,i).(x * (i * i)),4,(x + 1))
5: loop(\(x,i).(x * (i * i)),x,1)
5: loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(~1 + i),1)
5: loop(\(x,i).2x,(x + 2),x)
5: loop(\(x,i).2x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1)
5: loop(\(x,i).2x,(x + ~8),1)
5: loop(\(x,i).2x,(~1 + i),1)
5: loop(\(x,i).2x,((x2 + ~x) div 2),1)
5: loop(\(x,i).2x,(loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2),1)
5: loop(\(x,i).2x,(x div 2),(~1 + (x mod 2)))
5: loop(\(x,i).2x,(x div 2),(x mod 2))
5: loop(\(x,i).2x,loop(\(x,i).(x div (1 + (x mod 2))),x,x),2)
5: loop(\(x,i).2x,x,5)
5: loop(\(x,i).2x,x,(x + 1))
5: loop(\(x,i).2x,x,(x - ((x div 2) mod 2)))
5: loop(\(x,i).2x,x,2x)
5: loop(\(x,i).2x,compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),4)
5: loop(\(x,i).x2,1,(2 + (i div 2)))
5: loop(\(x,i).x2,1,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)))
5: loop(\(x,i).x2,1,(~1 + loop(\(x,i).2x,x,2)))
5: loop(\(x,i).x2,2,5)
5: loop(\(x,i).x2,i,2)
5: loop(\(x,i).(x * i),(x div 4),1)
5: loop(\(x,i).((x2 + x) div 2),1,loop(\(x,i).2x,x,1))
5: loop(\(x,i).((x2 + x) div 2),x,2)
5: loop(\(x,i).((x2 + ~x) div (1 + i)),2,(x + 3))
5: loop(\(x,i).((2x * (~1 + (2 * i))) div (2 + i)),x,3x)
5: loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,4x)
5: loop(\(x,i).((x + 2) mod (1 + i)),x,0)
5: loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + 2x + 2))
5: loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))
5: loop(\(x,i).(if x <= 0 then 0 else (1 + (if (~2 + (x div 2)) <= 0 then x else (x + 2)))),2,x)
5: loop(\(x,i).(if x <= 0 then i else (x div 2)),x,2)
5: loop(\(x,i).i,(((x + ~1) div 2) div 2),1)
5: loop(\(x,i).i,(x div 5),1)
5: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(5x + ~2))),x)
5: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,7x)),x)
5: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,8x)),x)
5: compr(\x.(1 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(8x2 + 8x))),x)
5: compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + 2x + 2))),x)
5: compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(4x + 1))),x)
5: compr(\x.(loop(\(x,i).4x2,2,5) mod (x + 1)),x)
5: compr(\x.loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,2x),(x + 1))
5: compr(\x.loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,2x),(x + 1))
4: ((5x + 2) + (x div 2))
4: (5 + (x mod 3))
4: ((x + 4) + (x div 3))
4: ((x + 1) + ((2 + (i div 2)) * (i div 2)))
4: (x2 + x + 10)
4: (2 + ((2 * (x + i)) + i))
4: ((9x + 1) + ((x + 1) mod 3))
4: (3x2 + x + 1)
4: ((x + 1) + (2 * (x div 3)))
4: (x2 + 6)
4: ((2x + 1) + (((x + 1) + (x div 8)) div 2))
4: ((x + 2) + ((x - (x div 4)) div 2))
4: (x + (((x - ((x div 2) mod 2)) div 2) + (2 mod (x + 1))))
4: ((x + 2) + (2x div 5))
4: (3 + (x2 div 2))
4: (6 + (x div 2))
4: ((4x + 2) + (x div 2))
4: ((3x + 2) + (x div 2))
4: (x + ((x div 2) + (x div 4)))
4: (1 + ((x div 4) + (x div 3)))
4: ((x + 3) + (x div 4))
4: (4 + (x div 5))
4: ((x + 2) + (x div (4 + i)))
4: ((x + 2) + (x div 7))
4: (1 + ((x div (2 + ((x div 2) div (1 + (x mod (2 + ((x mod 3) div 2))))))) + (x mod 2)))
4: (3 + (x div (2 + (x mod 2))))
4: ((x + 1) + (x div (1 + (x mod 4))))
4: (3 + (2 mod (1 + (x div 2))))
4: (3 + ((x + 1) mod 8))
4: (4 + ((~x + 1) mod 4))
4: (4 + ((x + ~1) mod 3))
4: (4 + (8 mod (1 + (x div 2))))
4: (x + ((((x + 1) div (1 + (x mod 4))) mod 2) + (x div 3)))
4: ((x + 1) + (((2x + ~4) div (2 + (x div 4))) mod 2))
4: (1 + (((if (x mod 2) <= 0 then 1 else x) mod 4) + ((x mod 3) div 2)))
4: (3 + (x mod 6))
4: (3 + (i mod 2))
4: (3 + (if (~2 + (x div 2)) <= 0 then 0 else 2))
4: ((x + 1) + (if (x + ~4) <= 0 then 1 else 2))
4: (3 + (if (((x + 2) mod 8) mod 3) <= 0 then 0 else 2))
4: (3 + (if x <= 0 then 0 else 2))
4: (9x + loop(\(x,i).(3x + 1),i,1))
4: (5x + loop(\(x,i).(9x + 1),i,1))
4: (7x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1))
4: (7x + loop(\(x,i).(8x + loop(\(x,i).3x,(2 * i),1)),i,1))
4: (7x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1))
4: (9x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1))
4: (7x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1))
4: (3x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1))
4: (5x + loop(\(x,i).(6x + loop(\(x,i).11x,i,1)),i,1))
4: (9x + loop(\(x,i).(11x + 1),i,1))
4: (7x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1))
4: (3x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1))
4: (7x + loop(\(x,i).3x,(2 * i),1))
4: (4 + loop(\(x,i).3x,x,1))
4: (1 + (loop(\(x,i).3x,x,1) + loop(\(x,i).2x,x,1)))
4: (loop(\(x,i).5x,x,1) + loop(\(x,i).3x,x,1) + loop(\(x,i).7x,x,1))
4: (9x + loop(\(x,i).11x,i,1))
4: (3 + loop(\(x,i).2x,x,1))
4: (3 - (i mod 2))
4: ((5x + 1) - (x mod 3))
4: (~x + 21)
4: ((2x + 2) - (x div 4))
4: ((2x + 1) - (x mod 3))
4: ((2x + 1) - (x mod 4))
4: (1 + ((1 + (8 mod (1 + (x div 2)))) div 2) - (x mod 2))
4: (1 + ((x2 + 4x + 4) div 2) - (x mod 2))
4: (1 + (x2 div 2) - (x mod 2))
4: ((~x + 1) + (x mod 2))
4: ((x + 2) - (x div 4))
4: (2x - (if (~2 + (x div 2)) <= 0 then (~1 + (x div 5)) else 1))
4: (3x + (x mod 3))
4: (x2 + 8)
4: (8 + (x div 3))
4: (8 + i)
4: ((4x + 4) + (x div 4))
4: (1 + (4 * (1 + i)))
4: (x + (5 * (x div 2)))
4: (x2 + 8x + 13)
4: (x2 + 5x + 5)
4: (5x2 + 4x + 1)
4: (2x2 + 2x + 5)
4: (2x2 + 4x + 9)
4: (37x + 1)
4: (49x + 1)
4: (x4 + x + 2)
4: (x + ((2x + 1) * i))
4: (x + (5 * (1 + (x div 2))))
4: ((x2 + x) + ((1 + (x div 2)) * (x div 2)))
4: (1 + (2 * (2 + (x div 3))))
4: ((3 * (x + (x div 4))) + (x mod 2))
4: (1 + (2 * (2x + (x mod 2))))
4: (x + (4 * (x + (x mod 2))))
4: (1 + (2 * (2 + (if (~2 + (x div 2)) <= 0 then x else 2))))
4: (x + (2 * (1 + (if (x + ~4) <= 0 then 0 else 2))))
4: (x + ((x + loop(\(x,i).(x * i),i,1)) * (1 + i)))
4: (2 + ((1 + i) * i))
4: ((2 * (2 + i)) + i)
4: (1 + (2 * (x + i)))
4: (1 + (2 * (2 - ((x div 2) mod 2))))
4: (~3x + 7)
4: (1 + (x * (~1 + (2 * i))))
4: (1 + (2 * (x - ((0 - ((x - (((x + 1) div 2) mod 6)) div 2)) div 2))))
4: (x + ((~1 + i) * i))
4: (25x + 26)
4: (35x + 1)
4: (45x + 1)
4: (2x2 + 10x + 9)
4: (14x + 1)
4: (21x + 1)
4: (x + (7 * (i * i)))
4: (6x2 + 3x + 1)
4: (x4 + x3 + x2 + x + 1)
4: (10x + 12)
4: ((10x + 10) + (x div 2))
4: (3x2 + 6x + 2)
4: (25x + 24)
4: (4x2 + 12x + 9)
4: (49x + 48)
4: (8x2 + 8x + 1)
4: (8x + (x mod 2))
4: (x + (i * i * i * i * i))
4: ((10 * (x mod 2)) + (x div 2))
4: (6x + ((x + ~1) mod 3))
4: (3x2 + 2)
4: (2x3 + 1)
4: (x4 + 4)
4: (x + (2 * (i * (1 + i))))
4: (x + (3x * i))
4: (2 + (x2 * i))
4: (1 + (i * i * i))
4: ((2 * (2x div 15)) + (((x + 1) div 2) div 2))
4: (x + (2 * (2x div (if i <= 0 then 1 else i))))
4: (1 + ((x div 2) * (x div 2)))
4: (x + (5 * (x div 3)))
4: (x + (3 * (x div 5)))
4: (1 + (2 * ((x + ~1) mod (1 + (x div (2 + ((x div 2) mod 3)))))))
4: (1 + (2 * (16 mod (x + 1))))
4: (1 + (2 * ((x mod (~1 + (2 * (x div 3)))) mod 2)))
4: (1 + (2 * ((if (x mod 2) <= 0 then 1 else x) mod 3)))
4: (1 + (3 * (x mod 3)))
4: (1 + (3 * (x mod 4)))
4: (1 + ((if ((x + ~1) mod 3) <= 0 then 1 else x) * (x mod 2)))
4: (1 + (2 * (if (x mod 2) <= 0 then x else 2)))
4: (x + ((x + 1) * loop(\(x,i).(x * (x + i)),2,4)))
4: (x + ((x + 1) * loop(\(x,i).(x * (x - i)),2,2x)))
4: ((x * i) + (x div 2))
4: (2x + (i * i))
4: (1 + (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(4x + 1))),x)))
4: (1 + (2 * compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + x + 1))),x)))
4: (1 + (2 * compr(\x.loop(\(x,i).(if ((x + 1) mod (1 + i)) <= 0 then 0 else x),x,2x),x)))
4: (2 + (2 div (x + 1)))
4: ((2x + 2) + (((x + 1) + (x div 4)) div 2))
4: (2x + (((x + 1) + (x div 8)) div 2))
4: (1 + ((2x + 1) div 5))
4: (x + ((x + ((x div 2) div 3)) div 2))
4: (1 + ((1 + ((32 mod (x + 1)) div 2)) div 2))
4: (x + ((x + (x div 3)) div 3))
4: (1 + ((1 + (x div (1 + (x mod (1 + (x div (2 + ((~2x + 1) mod (2 + (x div 4)))))))))) div 2))
4: (x + ((x + (x div 8)) div 2))
4: (((x + ((x div 2) mod 2)) div 2) + (if x <= 0 then 1 else 4x))
4: (x + ((x + ((x div 2) mod 4)) div 2))
4: (1 + ((1 + (x mod (1 + (x div 4)))) div (1 + ((x + 1) mod 4))))
4: (x + (((if (~2 + (x div 2)) <= 0 then 1 else 2) + (x div 2)) div 2))
4: (x + ((x + (if (~2 + (x div 3)) <= 0 then 2 else 1)) div 2))
4: (((x + 2) div 3) + (x div 5))
4: (1 + ((x + 2) div (2 + (x div 4))))
4: (2 + ((x + 2) div (1 + (x mod 2))))
4: (x + (((x div 2) - ((x div 4) mod 2)) div 2))
4: (x + ((~x + ((x div 2) mod 5)) div 5))
4: (2 + ((x + ~2) div (2 + (x div 4))))
4: (x + ((x - ((x div 2) div 3)) div 2))
4: (1 + ((x - (x div 4)) div 2))
4: (1 + ((x - (x div (11 - (x div 2)))) div 2))
4: (2x + ((x - (x div 7)) div 2))
4: (1 + ((x - (x div (2 - ((x3 div 8) mod 2)))) div 2))
4: (x + ((x - (x div ~4)) div 2))
4: (1 + ((x - (((x div 2) div 3) mod 2)) div 2))
4: (1 + ((x - ((x div 4) mod 2)) div 2))
4: (2 + ((x - ((x div 4) mod 2)) div 2))
4: (((2 * (4 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3) + (if x <= 0 then 0 else 1))
4: (1 + ((2 * (1 + ((1 + (x div (1 + (x mod (1 + (x div (2 + ((~2x + 1) mod (2 + (x div 4)))))))))) div 2))) div 3))
4: (x + ((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3))
4: (1 + ((2x + 2) div 5))
4: (4x + ((x2 + x) div 2))
4: (1 + ((2x + 4) div 3))
4: (x + ((x2 + 2x) div 3))
4: (2 + ((x2 + 2x) div 9))
4: (x + (((2 + i) * i) div 2))
4: (1 + ((~x2 + x) div 2))
4: (x + ((2 * (x2 - (x mod 4))) div 3))
4: (2x + (10x div (1 + i)))
4: (x + (8x div (1 + i)))
4: (x + (4x div (x + 2)))
4: (x + (6x div (x + 1)))
4: (x + ((2 * ((x + (if (~2 + (x div 2)) <= 0 then 1 else 0)) div 2)) div 3))
4: (x + ((((x + ~1) div 2) * (x div 2)) div 2))
4: (x + ((3 * ((((x + 1) div 2) div 2) div 2)) div 2))
4: (x + ((3 * ((x div 2) div 3)) div 2))
4: (1 + ((2 * (x div 2)) div 3))
4: (2 + ((x * (x mod 2)) div 2))
4: (1 + ((x * (x mod 2)) div 3))
4: (2x + (2x div 5))
4: (x + (2x div (4 + (x div 4))))
4: (1 + (2x div (2 + (x div 2))))
4: (x + (2x div (1 + i)))
4: (6x + (x2 div 4))
4: (1 + (x2 div (x + 4)))
4: ((x + 1) + (x2 div (x + (if x <= 0 then 1 else (x div 3)))))
4: (1 + (x2 div 16))
4: (1 + (((3 * ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (2 + (x div (1 + (2 * (1 + (2 * ((x div 2) mod 2))))))))) div 2) div 2))
4: (2 + ((((x + 1) div 2) div 2) div 2))
4: (x + ((((2 - (x div 2)) mod (x + 1)) div 2) div 2))
4: (1 + ((loop(\(x,i).(x + (x div 2)),x,2) div 2) div 2))
4: (2 + ((x div 2) div (1 + (x mod 2))))
4: (1 + ((x div (2 - (x mod 2))) div 3))
4: (1 + (((1 + (x mod ((1 + (x mod (1 + (x div 4)))) * (1 + (x mod 2))))) mod (x + 1)) div 2))
4: (2 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))
4: (x + (((x - (x div 3)) mod 3) div 2))
4: (1 + ((~x2 mod (2 + (x div 2))) div 2))
4: (x + (((if (~2 + (x div 3)) <= 0 then 2 else (x div 2)) mod (x + 1)) div 2))
4: (2 + ((x mod (1 + ((~x + 2) mod 4))) div 2))
4: (1 + ((x mod (2 + (x mod 2))) div 2))
4: (2 + ((x mod (2 + (x mod 2))) div 2))
4: (1 + (loop(\(x,i).(2x + 4),x,1) div 2))
4: (x2 + (x div 4))
4: ((x div 4) + (x div 3))
4: ((x div 4) + (x mod 2))
4: ((x div 4) + (if x <= 0 then 1 else 2))
4: (x + (x div (3 + ((x div 2) div 3))))
4: ((x div (4 + (x div 4))) + ((x + 2) div 3))
4: (2 + (x div (1 + (((if (x mod 2) <= 0 then 1 else x) mod 4) + ((x mod 3) div 2)))))
4: (1 + (x div (2 + (3 * (x mod 2)))))
4: ((x div (1 + (x div 4))) + (x div 4))
4: (x + (x div (2 + (x div 4))))
4: ((x div (2 + (x div (2 + ((x2 + 2x) mod 6))))) + (x mod 2))
4: (1 + (x div (2 + ((x + 1) mod 3))))
4: (1 + (x div (2 + ((~2x + 1) mod (2 + (x div 4))))))
4: (2 + (x div (2 + ((x2 + 2x) mod 6))))
4: (2 + (x div (1 + ((x div 2) mod (1 + (x mod 4))))))
4: (2 + (x div (1 + ((x div 2) mod (1 + (if (x mod 2) <= 0 then 6 else 1))))))
4: (1 + (x div (1 + (x mod 2))))
4: (x + (x div (1 + (x mod 4))))
4: (2 + (x div (2 + (x mod 4))))
4: (2 + (x div (1 + (x mod 5))))
4: (1 + (x div (2 + (x mod 5))))
4: (1 + (x div (1 + (x mod (1 + (x div (2 + ((~2x + 1) mod (2 + (x div 4))))))))))
4: (x + (x div (2 + (if (~2 + (x div 4)) <= 0 then 1 else 2))))
4: (1 + (x div (1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1))))
4: (x + (x div (2 - (x div (~1 + ((~x + 2) div 4))))))
4: (8 + (x div ~4))
4: (x + (x div 15))
4: (2 + (x div 12))
4: (2 + (x div (2 * (2 + (x mod 2)))))
4: (x + (x div ((2 + i) * (1 + i))))
4: (4x + (x div (if i <= 0 then 1 else i)))
4: (2x + (i div 2))
4: ((i div 2) + i)
4: (1 + (i div (2 + (x mod 2))))
4: (1 + (i div (x + 2)))
4: (1 + (2 mod (1 + (x div 4))))
4: (2 + (3 mod (x + 2)))
4: (1 + (4 mod (1 + (x div 3))))
4: (x + (4 mod (x + 1)))
4: (x + ((1 + (x div 2)) mod 3))
4: (x + ((x + (x div 3)) mod 3))
4: (2 + ((x + 2) mod (2 + (x mod 2))))
4: (1 + (~2 mod (1 - (2 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)))))
4: (1 + (~x mod (1 + (x div 2))))
4: (1 + ((~x + 1) mod 5))
4: (1 + ((~x + 1) mod 8))
4: (2 + ((~x + 1) mod 8))
4: (1 + ((~x + 2) mod 3))
4: (1 + ((~x + 2) mod 5))
4: (x + ((~x + 2) mod (3 + (x div 4))))
4: (1 + ((~1 + loop(\(x,i).2x,x,(1 + (x mod (2 * (1 + (x mod 2)))))) - (x mod 2)) mod (2x + 1)))
4: (2 + ((~3x + 5) mod (1 + (x div 2))))
4: (1 + ((2x + ~1) mod (4 + (x div 4))))
4: (x + ((~1 + (x div 2)) mod 3))
4: (1 + ((~1 + loop(\(x,i).2x,(x + ~2),2)) mod (x + 1)))
4: (2 + ((x + ~1) mod 5))
4: (1 + ((x + ~1) mod (4 + (x div 2))))
4: (x + ((x - ((1 - (x div 2)) div 3)) mod 3))
4: (2 + (8 mod (1 + (x div 2))))
4: (2 + ((2x2 + x) mod 12))
4: (1 + ((2 * (1 + (x mod 3))) mod (x + 1)))
4: (1 + ((x2 + 2x) mod (1 + ((2 - (x div 2)) mod 4))))
4: (1 + (16 mod (x + 1)))
4: (1 + (4x mod (2 - ((x div 2) div ~2))))
4: (2 + (((x + 1) * (x div 2)) mod 2))
4: (1 + (2x mod 5))
4: (1 + (2x mod (3 + (x div 4))))
4: (1 + (2x mod (2 - ((~x + 1) div 3))))
4: (1 + (2x mod (~1 + (2 * (x div 4)))))
4: (1 + (x2 mod 5))
4: (1 + (x2 mod (x + 4)))
4: (2 + (x2 mod (x + 4)))
4: (1 + (x2 mod (2 + (x div 2))))
4: (1 + (x2 mod (2 * (2 + (x mod 2)))))
4: (1 + (((x2 + 2) div 3) mod 4))
4: (x + (((x + (x div 2)) div 4) mod 2))
4: ((((x + 1) div (1 + (x mod 4))) mod 2) + (x div 3))
4: (1 + (((x + ~1) div 2) mod 4))
4: (2x + (((x2 + x) div ~8) mod 2))
4: (x + (((2x + ~4) div (2 + (x div 4))) mod 2))
4: (2 + ((x2 div 2) mod 3))
4: (2 + ((x2 div 4) mod (x + 1)))
4: (2 + ((((x + 1) div 2) div 2) mod 2))
4: (1 + (((x2 mod (x + 5)) div 2) mod 2))
4: (2x + ((x div 2) mod 2))
4: (1 + ((x div 2) mod (1 + (if (x mod 2) <= 0 then 6 else 1))))
4: (2 + ((x div 4) mod 3))
4: (x + ((x div (3 + ((x div 2) div 3))) mod 2))
4: (x + ((x div ~2) mod 2))
4: (1 + ((x mod 6) mod (1 + (x div 3))))
4: (1 + ((x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4)))))) mod (1 + (x div 2))))
4: (((if (x mod 2) <= 0 then 1 else x) mod 4) + ((x mod 3) div 2))
4: (1 + (loop(\(x,i).(x2 + 2x),2,2) mod (x + 1)))
4: (2 + (x mod 9))
4: (x + (x mod (1 + (x div 3))))
4: (1 + (x mod (1 + (x div (2 + (x div 8))))))
4: (1 + (x mod (1 + (x div (2 + ((~2x + 1) mod (2 + (x div 4))))))))
4: (1 + (x mod (2 + (x div (2 + (x mod 5))))))
4: (1 + (x mod (1 + (~x mod (1 + (x div 2))))))
4: (1 + (x mod (1 + (x mod 6))))
4: (1 + (x mod (1 + (i mod (x + 1)))))
4: (1 + (x mod (1 + (if (x mod 2) <= 0 then 6 else 1))))
4: (1 + (x mod (1 - (x div ~4))))
4: (1 + (x mod 11))
4: (x + (x mod ((x + ~1) - (x mod 12))))
4: (1 + (x mod (2 * (1 + (x mod (3 + (x mod 2)))))))
4: (1 + (x mod (2 * (1 + (x mod (1 + ((2 - (x div 2)) mod 4)))))))
4: (1 + (x mod (2 * (2 - (x mod 2)))))
4: (1 + (x mod (if (~2 + (x div 2)) <= 0 then 1 else 2)))
4: (x + (x mod (if (~2 + (x div 4)) <= 0 then 1 else 4)))
4: ((i mod 2) + i)
4: (1 + (i mod (x + 1)))
4: (2 + (if (~x + 2) <= 0 then x else 0))
4: (2 + (if (~4 + (x div 2)) <= 0 then x else (x + 2)))
4: (2 + (if (~2 + (x div 2)) <= 0 then 0 else 2))
4: (2 + (if (~2 + (x div 2)) <= 0 then x else 2))
4: (1 + (if (~2 + (x div 3)) <= 0 then 0 else 2))
4: (x + (if (~2 + (x div 4)) <= 0 then 1 else 0))
4: (1 + (if (~1 + ((2x + 1) mod (2 + (x div 4)))) <= 0 then x else 0))
4: (1 + (if (x + ~1) <= 0 then x else 2))
4: (1 + (if (x + ~1) <= 0 then x else i))
4: (x + (if (x + ~2) <= 0 then 3 else x))
4: (1 + (if (x + ~4) <= 0 then 1 else 2))
4: (x + (if (x + ~10) <= 0 then 1 else 2))
4: (2x + (if (~2 + i) <= 0 then 1 else x))
4: (2 + (if ((x2 + 2x) mod 6) <= 0 then x else 1))
4: (1 + (if ((x * (x div 2)) mod 2) <= 0 then x else (x mod 3)))
4: (2 + (if ((x div 3) mod 3) <= 0 then 1 else 2))
4: (2 + (if (x mod 2) <= 0 then 4 else 0))
4: (1 + (if (x mod 2) <= 0 then ((x div 2) mod 2) else 3))
4: (2 + (if (x mod 2) <= 0 then x else 2))
4: (2 + (if (x mod 3) <= 0 then 1 else 2))
4: (x + (if (x mod 3) <= 0 then 1 else 2))
4: (2 + (if (x mod 3) <= 0 then 2 else 0))
4: (x + (if (x mod 3) <= 0 then 2 else 1))
4: (1 + (if (x mod 5) <= 0 then 0 else 2))
4: (1 + (if (x mod 9) <= 0 then 0 else x))
4: (1 + (if (x mod (2 + (x mod 2))) <= 0 then 1 else (x div 4)))
4: (2 + (if (x mod 8) <= 0 then x else 1))
4: (1 + (if x <= 0 then 0 else (1 + ((2 * (1 + ((1 + (x div (1 + (x mod (1 + (x div (2 + ((~2x + 1) mod (2 + (x div 4)))))))))) div 2))) div 3))))
4: (2 + (if x <= 0 then 2 else 1))
4: (2x + loop(\(x,i).(5x + loop(\(x,i).(3x + 1),i,1)),i,1))
4: (8x + loop(\(x,i).(5x + loop(\(x,i).3x,(2 * i),1)),i,1))
4: (6x + loop(\(x,i).(5x + loop(\(x,i).3x,(2 * i),1)),i,1))
4: (8x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1))
4: (8x + loop(\(x,i).(5x + loop(\(x,i).10x,i,1)),i,1))
4: (8x + loop(\(x,i).(3x + 1),i,1))
4: (8x + loop(\(x,i).(5x + 1),i,1))
4: (8x + loop(\(x,i).(5x + loop(\(x,i).2x,i,1)),i,1))
4: (8x + loop(\(x,i).(9x + 1),i,1))
4: (8x + loop(\(x,i).(10x + 1),i,1))
4: (1 + loop(\(x,i).((x * (x mod 2)) + (x div 2)),x,x))
4: (4x + loop(\(x,i).(2x + loop(\(x,i).(5x + loop(\(x,i).(3x + 1),i,1)),i,1)),i,1))
4: (x + loop(\(x,i).(10x + loop(\(x,i).(11x + 1),i,1)),i,1))
4: (8x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1))
4: (x + loop(\(x,i).(8x + loop(\(x,i).3x,(2 * i),1)),i,1))
4: (8x + loop(\(x,i).(4x + loop(\(x,i).3x,(2 * i),1)),i,1))
4: (6x + loop(\(x,i).(4x + loop(\(x,i).3x,(2 * i),1)),i,1))
4: (8x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1))
4: (10x + loop(\(x,i).(4x + loop(\(x,i).3x,i,1)),i,1))
4: (8x + loop(\(x,i).(4x + loop(\(x,i).3x,i,1)),i,1))
4: (8x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1))
4: (8x + loop(\(x,i).(4x + loop(\(x,i).5x,i,1)),i,1))
4: (8x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1))
4: (8x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1))
4: (1 + loop(\(x,i).(0 - (if (x mod (1 + i)) <= 0 then 0 else x)),(x div 2),x))
4: (8x + loop(\(x,i).(11x + 1),i,1))
4: (1 + loop(\(x,i).(x2 + ~1),2,4))
4: (x + loop(\(x,i).(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1,i))
4: (8x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1))
4: ((x + ~1) + loop(\(x,i).(x - ((~2 + (x div 2)) div 3)),2,x))
4: (x + loop(\(x,i).(x - (x div 8)),2,(x + ~1)))
4: (x + loop(\(x,i).(x - (if (~x + i) <= 0 then i else 1)),x,x))
4: (1 + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,2x))
4: (1 + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then x else 5)),x,x))
4: (x + loop(\(x,i).(x - (if x <= 0 then 1 else (x - ((if x <= 0 then 2 else loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 2)))),x,(x + 1)))
4: (x + loop(\(x,i).3x,(x + ~2),x))
4: (12x + loop(\(x,i).3x,(2 * i),1))
4: (1 + loop(\(x,i).3x,x,2))
4: (2 + loop(\(x,i).3x,x,2))
4: (loop(\(x,i).3x,i,1) + (x * i))
4: (x + loop(\(x,i).3x,i,x))
4: (1 + loop(\(x,i).5x,x,1))
4: (loop(\(x,i).5x,x,1) + loop(\(x,i).8x,x,1))
4: (loop(\(x,i).5x,x,1) + loop(\(x,i).2x,x,1))
4: (x + loop(\(x,i).(x * (3 + i)),4,(x + 1)))
4: (1 + loop(\(x,i).7x,x,1))
4: (loop(\(x,i).7x,x,1) + loop(\(x,i).8x,x,1))
4: (loop(\(x,i).7x,x,1) + loop(\(x,i).4x,x,1))
4: (loop(\(x,i).7x,x,1) + loop(\(x,i).6x,x,1))
4: (1 + loop(\(x,i).(x2 + x),1,loop(\(x,i).2x,x,1)))
4: (x + loop(\(x,i).(x * (1 + i)),4,(x + 1)))
4: (1 + loop(\(x,i).4x,x,1))
4: (2 + loop(\(x,i).4x,x,1))
4: (x + loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(~1 + i),1))
4: (loop(\(x,i).2x,(x div 2),(2 + (x mod 2))) + loop(\(x,i).2x,x,1))
4: (8 + loop(\(x,i).2x,x,1))
4: (loop(\(x,i).2x,x,1) + (x mod 2))
4: (1 + loop(\(x,i).2x,x,3))
4: (loop(\(x,i).2x,i,1) + (x * i))
4: (loop(\(x,i).(x * i),(~1 + i),2) + (x * i))
4: (x + loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(~2 + i),1))
4: (x + loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),i,1))
4: (1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,x))
4: (x + loop(\(x,i).i,(x + ~9),1))
4: (1 + compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),(x + 1)))
4: (2 + compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),(x + 1)))
4: (1 + compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),(x + 2)))
4: (2 + compr(\x.(2 - loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x)),x))
4: (2 + compr(\x.(loop(\(x,i).(~2x + 2),x,2) mod (x + 2)),x))
4: (1 + compr(\x.(loop(\(x,i).(2x3 + 2x2),2,2) mod (x + 1)),x))
4: (1 + compr(\x.(loop(\(x,i).4x2,2,3) mod (x + 1)),x))
4: (1 + compr(\x.(loop(\(x,i).4x2,2,5) mod (x + 1)),x))
4: (1 + compr(\x.(loop(\(x,i).x2,2,(~1 + (loop(\(x,i).2x,x,1) mod (x + 1)))) mod (x + 1)),x))
4: (0 - (if (~4 + (x div 2)) <= 0 then 1 else x))
4: ~31
4: (1 - (2 * ((x + ((x div 2) mod 2)) div 2)))
4: (1 - ((~x + 2) div 12))
4: (1 - ((~x + (x mod 2)) div 5))
4: (1 - (x2 div 4))
4: (1 - ((2x + ~1) mod (4 + (x div 4))))
4: (1 - (2x mod 9))
4: (1 - ((x div 2) mod 3))
4: (1 - (i mod 3))
4: (1 - (if (~x + 2) <= 0 then x else 0))
4: (1 - (if (~x + 2) <= 0 then x else 2))
4: (1 - (if x <= 0 then 2 else 0))
4: (1 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x2 + 2x)))
4: (1 - loop(\(x,i).2x,x,2))
4: (1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(3x + 2)))
4: (4x2 + 3x + 2)
4: (2 - ((x div 2) * (x div 2)))
4: (2 - (x * (x div 2)))
4: (2 - (2 div (1 + (x div 2))))
4: (2 - ((~x + 2) div 8))
4: (2 - ((x + ~1) div 2))
4: (2 - ((x - (x mod 3)) div 2))
4: (2 - (((x div 2) div ~2) div 2))
4: (2 - ((x div 2) div ~3))
4: (2 - (((~2x + 2) mod (4 + (x div 4))) div 2))
4: (2 - (x div 5))
4: (2 - (2x mod (2 + (x div 2))))
4: (2 - ((x div ~2) mod 2))
4: (2 - (x mod ~7))
4: (2 - loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x))
4: (2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + x + ~1)))
4: (5x + 7)
4: ((x + ~1) + (2 * i))
4: ((2x + ~1) + (x div 2))
4: ((x + 2) - (3 * (~2 + ((x - (x div 4)) div 2))))
4: ((x + 2) - ((x + 1) div (if x <= 0 then 1 else (2 * (1 + ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 2))))))
4: ((x + 2) - ((~2x + 2) div 5))
4: ((x + 2) - (x div (~2 + (x div ~4))))
4: ((x + ~2) + i)
4: (x + i - (x div 4))
4: (~1 - (x mod 5))
4: (~10 + (x div 2))
4: (~3 + (x div 3))
4: ((~2x + ~1) + (i mod 2))
4: (8 - i)
4: ((4x + 4) - ((~2x + 2) div 5))
4: (5x - (x mod 3))
4: (x2 + 5x + 3)
4: (x2 + 6x + 6)
4: (5x2 + 10x + 4)
4: ((2x + 2) - (x div (1 + i)))
4: ((2x + 2) - (x mod 3))
4: ((2x + 4) - (x mod 4))
4: ((2x + 4) - (x mod 5))
4: (~1 + (3 * (2 + i)))
4: (~1 + (5 * (2 - ((x div 2) mod 2))))
4: (~1 + (9 * (2 - ((x div 2) mod 2))))
4: (10x + ~3)
4: (~1 + (2 * (~x + (x mod 2))))
4: (2x + ~3)
4: (9x + ~2)
4: (16 - (x div 2))
4: (10x - ((x div 2) mod 2))
4: (3x2 + 3x + ~2)
4: (2x2 + 8x + 7)
4: (~1 + (4 * (~2 + (x mod 2))))
4: (7x + 16)
4: (32x + 31)
4: (x6 + ~1)
4: ((2x * (x mod 2)) - (x div ~2))
4: (~1 + (6 * (if (~2 + (x div 3)) <= 0 then 0 else 2)))
4: (6x + ~2)
4: (~4x + ~1)
4: (2x2 - (x mod 2))
4: (x3 + 2x2 + ~1)
4: (~1 + (4 * (i * i)))
4: (~1 + (2 * ((1 + (x div 2)) div 2)))
4: (~1 + (2 * ((x * ((x + 1) mod 5)) div 8)))
4: (~2 + (x * (x div 2)))
4: (~1 + (2 * (x div 5)))
4: (~1 + (2 * ((x + (x div 8)) mod 5)))
4: (~x + (x * (x mod 2)))
4: (~x + (2 * (x mod 8)))
4: (2x - (3 * (x div ~2)))
4: (2x - ((2x + 1) div 7))
4: (2x - (((x mod 4) + (x div 2)) div 2))
4: (2x - ((~x + 2) div 4))
4: (2x - (x mod (2 * (2 - (x mod 2)))))
4: (x2 - (x mod 4))
4: (x2 - (if x <= 0 then 0 else 1))
4: (x2 - i)
4: (~x + (i * i))
4: (~1 + ((x + 1) div 5))
4: (~1 + ((~x + 1) div (2 + (x div 2))))
4: (~1 + ((~x + 2) div 5))
4: (~1 + ((~x + ((~x + 2) div 4)) div 2))
4: (~1 + ((~x + ((x div 2) mod 2)) div 2))
4: (~1 + ((~x + (x mod 2)) div 3))
4: (~1 + ((~x + (x mod 2)) div 5))
4: (((x2 + 4x + 4) div 2) - (x mod 2))
4: (~1 + ((x2 + ~x) div 4))
4: (~1 + (((~x + 2) div 2) div 3))
4: (~1 + (((~x3 + x) div 2) div 3))
4: (~2 + ((x div 2) div ~2))
4: (~x + ((x mod (2 + (x div 2))) div 2))
4: ((x div 2) - ((x + 1) div 5))
4: ((x div 2) - (~2x div (1 + (x div 2))))
4: ((x div 4) - (x mod 4))
4: ((x div 4) - (x mod 6))
4: ((x div ~7) - (x div 7))
4: (~1 + (x div ~9))
4: (~1 + (x div (~2 + ((~x + 2) div 4))))
4: (~1 + (x div (~1 + (x div ~2))))
4: (~2 + (x div (~2 + (x mod 2))))
4: (~1 + (x div 8))
4: ((x div 8) - (x mod 2))
4: (~1 + (x div ~6))
4: (~1 + ((2x + 1) mod (2 + (x div 4))))
4: (~1 + ((x + ~1) mod 5))
4: (~1 + (2x mod (4 + (x div 2))))
4: (((x div 2) mod 2) - (if x <= 0 then 1 else x))
4: (~2 + ((x div 2) mod 3))
4: (~1 + ((x div 4) mod 2))
4: (~2 + ((x div 4) mod 2))
4: (~1 + (loop(\(x,i).2x,x,2) mod (x + 1)))
4: ((x mod 4) - (x div 2))
4: (~1 + (x mod (2 + (x mod 2))))
4: (~1 + (x mod (2 + (x mod 3))))
4: (~1 + (x mod ~7))
4: (~2 + (x mod 8))
4: ((if (x + ~1) <= 0 then 1 else (2 * (((x2 mod (x - ((~x + 2) div 2))) div (x + 1)) + (x mod 2)))) - (x mod 2))
4: (~x + (if (~x + i) <= 0 then i else 0))
4: ((if x <= 0 then 1 else 4x) - ((x + (x div 2)) div 4))
4: (~1 + (if x <= 0 then 2 else 0))
4: (loop(\(x,i).(3x + ~1),x,1) - loop(\(x,i).2x,x,1))
4: (~2 + loop(\(x,i).3x,x,1))
4: (~1 + loop(\(x,i).3x,x,2))
4: (loop(\(x,i).3x,x,2) - loop(\(x,i).2x,x,2))
4: (loop(\(x,i).3x,x,3) - loop(\(x,i).2x,x,2))
4: (~1 + loop(\(x,i).3x,x,4))
4: (~1 + loop(\(x,i).(x2 + 2x),2,2))
4: (~2 + loop(\(x,i).(x2 + 2x),2,2))
4: (~1 + loop(\(x,i).(2 * (x + i)),x,2))
4: (~1 + loop(\(x,i).(2 * (2x - (x div (1 + i)))),x,2))
4: (~2 + loop(\(x,i).10x,(x + 1),2))
4: (~1 + loop(\(x,i).4x,x,1))
4: (loop(\(x,i).4x,x,1) - loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,1))
4: (~2 + loop(\(x,i).4x,x,2))
4: (~2 + loop(\(x,i).2x,x,1))
4: (~x2 + loop(\(x,i).2x,x,1))
4: (loop(\(x,i).2x,x,1) - loop(\(x,i).((x * (1 + i)) div (1 + (i div 2))),(x + ~1),1))
4: (~x + loop(\(x,i).2x,x,2))
4: (~1 + loop(\(x,i).(x div (2 - ((x * (x div 2)) mod 2))),x,x))
4: ((x + ~3) - (x mod 2))
4: ((x + ~2) - (x mod 3))
4: ((x + ~1) - (x mod ~8))
4: (x + 11)
4: (13x + ~1)
4: ((x + ~1) + ((x div 2) div 3))
4: ((3x + 1) - (i mod 2))
4: (x + ~11)
4: ((x + 1) - (2 * (~1 + (x mod 4))))
4: (7x + ~5)
4: (~7x + 1)
4: ((x + 1) - ((x + 1) div 5))
4: ((x + 1) - ((x div 2) div ~2))
4: ((x + 1) - ((x div 4) div ~2))
4: ((x + 1) - (x div 8))
4: ((x + 1) - (loop(\(x,i).2x,x,2) mod (x + 1)))
4: ((x + 1) - (x mod 4))
4: ((x + 1) - (i mod 2))
4: (x - (3 * (~2x + (x mod 2))))
4: (x - (4 * (~x + (x mod 2))))
4: (x - (2 * (~2x + (i mod 2))))
4: (x + ~20)
4: (6x2 + ~5x)
4: (x + ~32)
4: (~4x2 + ~3x)
4: (x - (2 * ((~2x + 1) div 3)))
4: (x - (9 * ((~x2 + x) div 2)))
4: (x - (2 * ((4 * (x div 3)) div 3)))
4: (x - (2 * (x div 3)))
4: (x - (3 * (x div 4)))
4: (x - (5 * (x div ~2)))
4: (x - (2 * i))
4: (x - (i * i))
4: (x - (2 div (1 + (x div 5))))
4: (x - ((x + (x div 3)) div 5))
4: (x - ((~x + 1) div (2 + (x div 4))))
4: (x - (((~x + ~1) + (x div 3)) div 3))
4: (x - ((~1 + (x div ~2)) div 3))
4: (x - ((~x + ((x div 2) mod 2)) div 2))
4: (x - ((~x + (x mod 2)) div 3))
4: (x - ((x + ~1) div (3 + (x div 2))))
4: (x - ((~x2 + x) div 32))
4: (x - (2x div 5))
4: (x - (x2 div 8))
4: (x - ((i * i) div ~2))
4: (x - (((x + 1) div 2) div 3))
4: (x - (((~x + 2) div 2) div 3))
4: (x - (((~x2 + x) div 2) div 3))
4: (x - ((x mod (2 + (6 mod (1 + (x div 2))))) div 2))
4: (x - (x div (1 + (2 * i))))
4: (x - (x div (~4 + (x div 4))))
4: (x - (x div ~6))
4: (x - (2 mod (x + 1)))
4: (x - ((1 + (x div 2)) mod 4))
4: (x - ((1 - (x div 2)) mod 5))
4: (x - (x2 mod 3))
4: (x - (x2 mod (x + 5)))
4: (x - (((x - (x div 4)) div 2) mod 2))
4: (x - ((x2 div 2) mod (x + 2)))
4: (x - ((x div 2) mod ~4))
4: (x - (x mod 9))
4: (x - (x mod (2 + (x mod 4))))
4: (x - (x mod (~3 + (x mod 2))))
4: (x - (if (~2 + (x div 2)) <= 0 then (~1 + (x div 5)) else 1))
4: (x - (if (~2 + (x div 4)) <= 0 then 0 else 2))
4: (x - (if (~x + i) <= 0 then (2 * i) else 0))
4: (x - (if (2x mod (1 + i)) <= 0 then 2 else 1))
4: (x - (if (x mod (1 + (2 * i))) <= 0 then x else 5))
4: (x - loop(\(x,i).(x - (if x <= 0 then 1 else (2 * (1 + i)))),x,2x))
4: (x - loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(~2 + i),1))
4: (i - (4 * (1 - i)))
4: (i - (x * i))
4: (compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x) - compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))
4: ((~x + 1) + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))
4: (x * (5 + i))
4: (x2 + 10x)
4: (2 * ((2x + 1) + (((x + 1) + (x div 8)) div 2)))
4: (2 * ((2x + 1) + (x div 2)))
4: (((2x + 2) + (x div 2)) * (x div 2))
4: (2 * (5x + (x div 2)))
4: (2 * ((x + 1) + (x div 3)))
4: (2 * (4 + (x mod 2)))
4: (2 * (5x + (i mod 2)))
4: (2 * ((x + 1) + (if (x + ~4) <= 0 then 1 else 2)))
4: (x2 + 6x + 9)
4: (x2 + 8x + 16)
4: (x2 + 3x + ~4)
4: (x3 + 4x2)
4: (x * (2x + i))
4: (2 * (4 - ((x div 2) mod 2)))
4: ((x + 1) * (3 - (x mod 2)))
4: (x * (3 - (i mod 2)))
4: (~2x + 8)
4: (2 * ((3x + 4) - ((((x + ~2) mod (1 + (x div 2))) mod 3) mod 2)))
4: (2 * ((2x + 1) - (x div ~2)))
4: (2 * ((2x + 1) - (x mod 2)))
4: (7 * (1 + (x div 2)))
4: (7 * (x div ~2))
4: (3x2 + 4x + 1)
4: (x * (2 + (3 * i)))
4: (x2 + 12x + 32)
4: (5x2 + 11x + 2)
4: (x5 + x2 + 2x)
4: (3x2 + 16x + 16)
4: (9x2 + 18x + 8)
4: ((1 + (2 * (1 + i))) * i)
4: (x * (1 + (2 * (2 + i))))
4: (2x + 40)
4: (x5 + x4 + x3 + x2 + x + 1)
4: (5x2 + 13x + 8)
4: (4x2 + 8x + 2)
4: 66
4: 99
4: (8x2 + x)
4: (2 * (4x + (i mod 2)))
4: (2 * (4x + i))
4: (8x2 + 2)
4: (4x3 + x)
4: (x * (1 + (4 * i)))
4: ((1 + (4 * i)) * i)
4: (2x2 + 7x + 3)
4: (3x2 + 6)
4: ((1 + (i * i)) * i)
4: (x * (2 + (2 div (x + 1))))
4: (2 * (1 + ((1 + (x div (1 + (x mod (1 + (x div (2 + ((~2x + 1) mod (2 + (x div 4)))))))))) div 2)))
4: (2 * (2x + ((x + ((x div 2) mod 2)) div 2)))
4: (x * (1 + ((x + 1) div 2)))
4: (2 * (1 + ((x - (((x div 2) div 3) mod 2)) div 2)))
4: ((x + 1) * (x + ((x2 + 2x) div 4)))
4: (2 * (1 + ((x div 2) div 3)))
4: (2 * (1 + (((~1 + loop(\(x,i).2x,x,(x - ((x div 2) mod 2)))) mod (x + 1)) div 2)))
4: (2 * (((x2 mod (x - ((~x + 2) div 2))) div (x + 1)) + (x mod 2)))
4: ((x + 1) * (1 + (x div 2)))
4: ((2 + (x div 2)) * (1 + (x div 2)))
4: ((x + ~1) * (x + (x div 2)))
4: ((x + (x div 2)) * ((x + ~1) div 2))
4: ((x + (x div 2)) * (x div 2))
4: (x * (1 + (x div 3)))
4: (x * (2 + (x div 3)))
4: (2 * (x + (x div 5)))
4: (4 * (x + (x div 5)))
4: (2 * (2 + (x div (1 + ((x div 2) mod (1 + (if (x mod 2) <= 0 then 6 else 1)))))))
4: (2 * (4x + (x div (if i <= 0 then 1 else i))))
4: (x * (1 + (2 mod (x + 1))))
4: (2 * (1 + ((x + 2) mod 6)))
4: (2 * (x + ((x div 3) mod 2)))
4: (x * (x + ((x div 3) mod 3)))
4: (2 * (2 + ((x div 4) mod 2)))
4: ((2x + 1) * (1 + (x mod 2)))
4: ((2x + 1) * (x + (x mod 2)))
4: (5 * (1 + (x mod 4)))
4: (2 * (1 + (x mod (3 + (x mod 2)))))
4: (2 * (1 + (x mod (1 + ((2 - (x div 2)) mod 4)))))
4: (3 * (1 + (x mod (2 * (1 + (x mod (3 + (x mod 2))))))))
4: (x * (1 + (i mod 2)))
4: (x * ((i mod 2) + i))
4: (2 * (2 + (if (~2 + (x div 2)) <= 0 then x else 2)))
4: (2 * (1 + loop(\(x,i).(x + 1),(~4 + ((x + ((x div 2) mod 2)) div 2)),x)))
4: (4 * (x + loop(\(x,i).(x - ((~1 + (x div 4)) div 2)),2,(x + ~1))))
4: ((x + loop(\(x,i).(x * i),i,1)) * (1 + i))
4: ((x + loop(\(x,i).(x * i),i,1)) * i)
4: (2 * (1 + loop(\(x,i).(if x <= 0 then i else (x div 2)),x,0)))
4: (3 * (x + i))
4: (2x * (x + i))
4: (4 * (1 + compr(\x.(1 + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then x else (1 + i))),x,x)),x)))
4: (x * (2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),i)))
4: ((1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) * (1 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)))
4: (3 * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
4: (3 * (1 - (2 * (x mod 2))))
4: ((2x + 1) * (1 - (2 * (x mod 2))))
4: ((x + 1) * (1 - (2 * (x mod 2))))
4: ((x + 2) * (1 - (2 * (x mod 2))))
4: (~x4 + x2)
4: (9 * (2 - ((x div 2) mod 2)))
4: (3 * (2 - ((if x <= 0 then 1 else x) mod 2)))
4: (2 * (2 - (x mod 4)))
4: (2 * (2 - (i mod 2)))
4: (2 * ((x + ~2) + i))
4: (~6x + 4)
4: (2 * (~3 + loop(\(x,i).10x,(x + 1),1)))
4: (6x2 + ~5x + 1)
4: (2 * (3x - (x div 3)))
4: (2 * ((2x + 2) - (x div (1 + i))))
4: (x3 + x2 + ~x)
4: (x * (~1 + (3 * (2 + i))))
4: ((~1 + (5 * (2 - ((x div 2) mod 2)))) * (if x <= 0 then 1 else 2))
4: ((~1 + (9 * (2 - ((x div 2) mod 2)))) * (if x <= 0 then 1 else 2))
4: (29 * (if x <= 0 then 1 else 2))
4: (2x3 + 4x2 + ~x)
4: (8x2 + ~x)
4: (x7 + ~x)
4: (2 * (4x - (x div ~2)))
4: ((~1 + (2 * (i mod 2))) * i)
4: ((2x + ~1) * (x div 2))
4: (2 * (2x - (x mod 5)))
4: (x3 + 3x2 + ~x + ~3)
4: (3x2 + ~6)
4: (2 * (x2 - (x mod 4)))
4: (x * (~1 + (x * i)))
4: (2 * (((x + 1) div 3) - ((1 - (x div 3)) div 3)))
4: (2 * ((~2x + ~1) + ((x - (x div 4)) div 2)))
4: (2 * ((~2x + ~2) + ((x - (x div 4)) div 2)))
4: (2 * ((x div 2) - (2 * ((x div 4) mod 2))))
4: ((x + 1) * (~1 + ((~2x + 2) mod (4 + (x div 4)))))
4: (2 * (~2 + ((x * (x div 2)) mod 2)))
4: (2 * (~x + (((x div 2) div 3) mod 2)))
4: (9 * (~x + (x mod 9)))
4: (9 * (~x + (x mod 10)))
4: (x2 + ~5x + 6)
4: (7x2 + ~5x)
4: (((x + 1) - (2 * (x mod 2))) * (1 + i))
4: (2 * ((x + 2) - i))
4: (2 * (2x - i))
4: (2x + ~16)
4: (10x + ~4)
4: (7x2 + ~3x)
4: (7x2 + ~6x)
4: (~2x3 + x2)
4: (2 * (x - (3 * (x div ~2))))
4: (2 * (x - ((~x + 2) div 4)))
4: (2 * (x - (2x div ~7)))
4: (3 * (x - ((((x * ((1 - (x div 2)) div 3)) div 2) div 2) div 2)))
4: (2 * (x - ((x div 2) div 3)))
4: (x * (x - (x div 3)))
4: ((x - i) * (x + i))
4: (3 * (i * (1 + i)))
4: (8 * (1 + (x div 2)))
4: (36x + 36)
4: (5x * i)
4: (4 * ((2x + 1) + (((x + 1) + (x div 8)) div 2)))
4: (2x2 + 10x + 8)
4: (5x2 + 20x)
4: (7 * (i * i))
4: (18x + 12)
4: (6x2 + 4x)
4: (9x2 + 6x)
4: (x3 + 9x2 + 8x)
4: (13x2 + 13x)
4: (4 * (1 + (2 * (x - (x div ~2)))))
4: 17x2
4: (6 * (1 + (4 * (x mod 2))))
4: (24x + 6)
4: (8x2 + 2x)
4: (x7 + x3)
4: (x6 + x5 + x4 + x3 + x2 + x)
4: (x6 + x3)
4: (2x3 + x2)
4: (4x2 + 8)
4: (x4 + x3 + 2x2 + 2x)
4: (x4 + 2x2)
4: (4 * (1 + (2 * i)))
4: (10 * (2 + (if x <= 0 then 0 else 2)))
4: (9 * (2 + (if x <= 0 then 0 else 2)))
4: (15 * (2 + (if x <= 0 then 0 else 2)))
4: (x3 + 4x2 + 3x)
4: (x3 + 8x2 + 20x + 16)
4: (2x3 + 9x2 + 12x + 4)
4: (6 * (1 + i))
4: (4 * (2 + i))
4: (x * ((2 + i) * (1 + i)))
4: (6 * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
4: (~4x3 + 4x)
4: (~3x2 + 3x)
4: (~6x + 108)
4: (2 * ((2 - (x mod 2)) * (if x <= 0 then 1 else 2)))
4: (4 * (8 - (x div 2)))
4: (x4 + 2x3 + ~x2)
4: (8x2 + ~4)
4: (2x4 + ~x2)
4: (2x * (~1 + (4 * i)))
4: (x3 + ~2x2 + x)
4: (~8x2 + 4x)
4: (4 * (x - (x div ~5)))
4: (24x + 12)
4: (16x2 + ~8)
4: (8 * (~2 + (x mod 2)))
4: 32x2
4: 24x2
4: (8 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2))
4: (4x3 + 6x2 + 2x)
4: (x4 + 4x3 + 4x2)
4: 2x4
4: (8 * i)
4: (10x * i)
4: (8x * i)
4: (4 * ((1 + (x div 2)) div 2))
4: (2 * (((2x * (1 + (2 * i))) div (2 + i)) * (~1 + (2 * i))))
4: (3 * ((2x div (1 + i)) * (~1 + (2 * i))))
4: (4 * ((x div 2) div 3))
4: (x * ((x div 2) * (x div 3)))
4: (9 * (x div ~2))
4: (10 * (if x <= 0 then 1 else x))
4: (6 * loop(\(x,i).(2x + 4),x,4))
4: (x2 * (1 + i))
4: ((x2 + x) * i)
4: (x * (((x + 1) + (x div 2)) div 2))
4: (2 * ((1 + (x div 2)) div 3))
4: (2 * ((2 + (x div 2)) div 3))
4: (2 * ((x + (x div 2)) div 2))
4: (((x + (x div 2)) div 2) * (x div 2))
4: (2 * ((x + (x div 3)) div 3))
4: (2 * ((x + 2) div 3))
4: (((1 - (x div 2)) div 3) * (x div 2))
4: (2 * ((~x + 1) div 7))
4: (2 * ((~x + 2) div 8))
4: (((x + ~1) div 2) * (x div 3))
4: (2 * ((x - (x div 3)) div 3))
4: (2 * ((x - ((x div 2) mod 2)) div 2))
4: (7 * ((x2 + x) div 2))
4: (3 * ((x2 + 3x + 2) div 2))
4: ((x + 1) * ((x2 + 3x + 2) div 2))
4: (2 * ((x2 + 2x) div 2))
4: (2 * ((x2 + ~x) div (x + 2)))
4: (2 * ((x * ((x + 1) mod 5)) div 8))
4: (2 * (2x div 5))
4: (2 * (2x div (if i <= 0 then 1 else i)))
4: (x2 * (x2 div 2))
4: (3 * (x2 div 4))
4: ((x + 1) * (x2 div 4))
4: (2 * ((x * i) div 2))
4: (3 * (((x + 1) div 2) div 2))
4: (3 * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2))
4: (2 * ((x mod (1 + (x div 2))) div 2))
4: ((x div 2) * i)
4: (5 * (x div 3))
4: ((~x + 2) * (x div 3))
4: (2 * (x div (2 + ((x div 2) div 3))))
4: (x * (x div (2 + (x mod 2))))
4: (x * (x div ~2))
4: (3 * (x div ~4))
4: (2 * (x div ~5))
4: (2 * (x div (~2 + ((~x + 2) div 4))))
4: (2 * (x div (~2 + (i mod 2))))
4: (2 * (2 mod (if ((x + 1) mod (2 + ((x div 2) mod 2))) <= 0 then x else 1)))
4: (3 * ((x + ~1) mod 4))
4: (2 * ((x + ~1) mod (1 + (x div (2 + ((x div 2) mod 3))))))
4: (2 * (16 mod (x + 1)))
4: (2 * ((x * (x div 2)) mod 2))
4: (2 * (((~1 + (2x mod (2 + (x div 2)))) div 2) mod 2))
4: (3 * ((x div 2) mod 2))
4: ((x + 1) * ((x mod (2 - (x div (1 + ((x div 2) mod 2))))) mod 2))
4: (2 * ((if (x mod 2) <= 0 then 1 else x) mod 3))
4: ((x mod 4) * (x div 3))
4: ((x mod 4) * i)
4: (x * (x mod (2 + (x div 2))))
4: (9 * (x mod 10))
4: ((~x + 1) * (x mod 10))
4: (3 * (if (~2 + (x div 3)) <= 0 then 1 else 2))
4: (2 * (if (x + ~1) <= 0 then x else 2))
4: (2 * (if (x + ~2) <= 0 then x else (2 - (x div ~2))))
4: (x * (if (~1 + i) <= 0 then 2 else x2))
4: (2 * (if (16 mod (x + 1)) <= 0 then 0 else 2))
4: (2 * (if (x mod 2) <= 0 then 4 else 1))
4: (2 * (if (x mod 2) <= 0 then 6 else 1))
4: (2 * (if (x mod 2) <= 0 then 8 else 1))
4: (2 * (if (x mod 2) <= 0 then x else 2))
4: ((x + 1) * (if x <= 0 then 0 else 2))
4: (2 * (if x <= 0 then 1 else (x + 2)))
4: (3 * loop(\(x,i).(10x + 1),x,1))
4: (2 * loop(\(x,i).(10x + 1),x,loop(\(x,i).(10x + 10),x,0)))
4: (x * loop(\(x,i).(1 + (x * i)),x,1))
4: (2 * loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x))
4: (2 * loop(\(x,i).(x2 + x),x,1))
4: (2 * loop(\(x,i).(2x + 4),x,1))
4: ((x + 1) * loop(\(x,i).(x * (x + i)),2,4))
4: (x * loop(\(x,i).(2x2 + ~2),2,2))
4: ((x + 1) * loop(\(x,i).(x * (x - i)),2,2x))
4: (3 * loop(\(x,i).10x,x,2))
4: (3 * loop(\(x,i).2x,x,2))
4: (x * loop(\(x,i).x2,1,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))))
4: ((x + 1) * loop(\(x,i).x2,2,5))
4: ((x + 2) * loop(\(x,i).x2,2,(x + 2)))
4: (x * loop(\(x,i).x2,i,x))
4: ((x + 2) * loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x + 2),(x + 1)))
4: (2 * loop(\(x,i).(x div (~2 + (x mod 2))),x,(x + 1)))
4: (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(4x + 1))),x))
4: (2 * compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + x + 1))),x))
4: (2 * compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
4: (2 * compr(\x.loop(\(x,i).(if ((x + 1) mod (1 + i)) <= 0 then 0 else x),x,2x),x))
4: (1 div (2x + ~1))
4: (1 div ((2x + ~1) mod (4 + (x div 4))))
4: (2 div (x2 + ~2))
4: (3 div (x + 1))
4: (((5x + 5) + ((x div 2) div 3)) div 2)
4: ((1 + (x * (x + (x div 2)))) div 5)
4: (((3 * (x + (x div 4))) + (x mod 2)) div 2)
4: ((1 + (2 * (x + (x mod 2)))) div 5)
4: ((2x + 1) div ~7)
4: ((x2 + 2) div (x + 5))
4: ((x2 + (x div 2)) div 7)
4: ((((x + 2) div 3) + (x div 5)) div 2)
4: ((1 + ((x - ((x div 4) mod 2)) div 2)) div 2)
4: ((x + ((x3 + 2x) div 3)) div (x + 2))
4: ((x + (2x div 5)) div 2)
4: ((x + (x2 div 3)) div 4)
4: ((6x + (x2 div 4)) div (x + 2))
4: ((x + (x2 div 5)) div 2)
4: ((x + ((x mod (2 + (x div 2))) div 2)) div 2)
4: ((2 + (x div 2)) div (3 + ((x2 + 2x) mod 6)))
4: ((x + (x div 2)) div ~2)
4: ((x + (x div 2)) div ~4)
4: (((x div 2) + i) div 4)
4: ((1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))) div 2)
4: ((1 + (x div (1 + (x mod (1 + (x div (2 + ((~2x + 1) mod (2 + (x div 4)))))))))) div 2)
4: ((x + ((x + (x div 3)) mod 3)) div 3)
4: ((x + ((~x + 2) mod (3 + (x div 4)))) div 4)
4: ((x + ((~1 + (x div 2)) mod 3)) div 2)
4: ((x + ((x + ~1) mod 3)) div 2)
4: ((x + ((x - ((1 - (x div 2)) div 3)) mod 3)) div 3)
4: ((1 + ((~2x + 2) mod (4 + (x div 4)))) div 3)
4: ((x + ((x div 2) mod 4)) div 2)
4: ((x + (if (x mod 2) <= 0 then x else 1)) div 3)
4: ((x + (if (x mod 2) <= 0 then x else 1)) div 5)
4: ((1 + (if x <= 0 then 0 else (1 + ((2 * (1 + ((1 + (x div (1 + (x mod (1 + (x div (2 + ((~2x + 1) mod (2 + (x div 4)))))))))) div 2))) div 3)))) div 2)
4: ((x + loop(\(x,i).2x,x,1)) div (x + 1))
4: ((1 + loop(\(x,i).2x,x,2)) div 3)
4: ((x + 1) div (2 + (x div 8)))
4: ((x + 1) div ~7)
4: ((x + 2) div (8 + (x div ~4)))
4: ((x + 2) div (1 + (x mod 2)))
4: ((x + 2) div (2 + (x mod 2)))
4: ((x + 2) div (1 + (if x <= 0 then 1 else 2)))
4: ((x + 2) div (2 - (x mod ~4)))
4: ((1 + compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),(x + 2))) div 3)
4: ((0 - (if (~4 + (x div 2)) <= 0 then 1 else x)) div 5)
4: ((~x + 1) div (2 + (((x + 1) div 2) div 3)))
4: ((~x + 1) div (2 + (x div 3)))
4: ((~x + 1) div (1 + (if x <= 0 then 0 else 2)))
4: ((~x2 + 2) div (x + 6))
4: ((~x2 + 2) div (3x + 2))
4: ((2 - (x div 3)) div 2)
4: ((~x + 2) div (2 + (x div 5)))
4: ((~x + 2) div ((x + 2) - (x div 3)))
4: ((~x + 2) div 11)
4: (((~x + 1) - (x mod 2)) div 3)
4: (((~x + 2) - (x div 2)) div 4)
4: (((~x + ~1) + (x mod 2)) div 3)
4: ((x2 + 4x + 3) div 2)
4: ((~x + (x * (x mod 2))) div 3)
4: ((~x + (x2 div 3)) div 2)
4: ((~1 + (((x + ~1) div 2) div 2)) div 2)
4: ((~x + ((x div 2) div 3)) div 2)
4: ((~x + ((x mod (2 + (x div 2))) div 2)) div 2)
4: (((x div 2) - (x * (x mod 2))) div 2)
4: ((~1 + (x div ~2)) div 3)
4: ((~1 + (x div ~4)) div 2)
4: ((~x + ((x + 1) mod 3)) div 5)
4: ((((x div 2) mod 2) - (if x <= 0 then 1 else x)) div 2)
4: ((((x div 4) mod 2) - (x div 2)) div 2)
4: ((x - (x div ~2)) div (1 + (x mod 2)))
4: ((x - ((1 - (x div 2)) mod 5)) div 2)
4: ((x - (((x - (x div 4)) div 2) mod 2)) div 2)
4: ((x - ((x2 div 2) mod (x + 2))) div 3)
4: ((x - ((x div 2) mod 2)) div 3)
4: ((x - ((x div 2) mod 2)) div (2 + (x mod 2)))
4: ((x - (x mod (2 + (x mod 4)))) div 2)
4: ((x - (x mod (~3 + (x mod 2)))) div 2)
4: ((x - (if (~2 + (x div 4)) <= 0 then 0 else 2)) div 3)
4: (6 div (x + 1))
4: (3x div (3 + (x div 2)))
4: (3x div ~7)
4: ((4x + ~4) div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))
4: ((x2 + 4x) div 2)
4: ((17x + 17) div 5)
4: ((2 * (1 + (2 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))) div 3)
4: ((x3 + 2x) div 2)
4: ((2 * (1 + ((1 + (x div (1 + (x mod (1 + (x div (2 + ((~2x + 1) mod (2 + (x div 4)))))))))) div 2))) div 3)
4: ((2 * (1 + ((x - (((x div 2) div 3) mod 2)) div 2))) div 3)
4: ((3 * (x + ((x div 2) div 3))) div 2)
4: ((2 * (2 + (x div (1 + ((x div 2) mod (1 + (if (x mod 2) <= 0 then 6 else 1))))))) div 3)
4: ((2 * (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))) div 5)
4: ((x * (x + ((x div 3) mod 3))) div 2)
4: ((x * (x + i)) div 2)
4: (~2x div (1 + (x div 2)))
4: ((~4x + 2) div (x + 3))
4: ((~x4 + x2) div 2)
4: ((~x3 + x) div 3)
4: ((2 * (1 - (x div 2))) div 5)
4: (((1 - (x div 2)) * (x div 2)) div 2)
4: ((x * (1 - ((x3 div 8) mod 2))) div 3)
4: ((~2x + 2) div (x + 3))
4: ((~x2 + x) div ((x + 2) + (x div 3)))
4: ((~x2 + x) div 8)
4: ((~x2 + x) div 32)
4: ((~2x2 + 4x) div 7)
4: (((~x + 2) * (x div 2)) div 2)
4: (((~x + 2) * (x div 2)) div 3)
4: (((~x + 2) * (x div 2)) div 8)
4: ((2 * (x2 - (x mod 4))) div 3)
4: ((x * (~1 + (x div 2))) div 2)
4: ((2 * (~2 + (x div 2))) div 5)
4: (((x + 1) * (~1 + ((~2x + 2) mod (4 + (x div 4))))) div 2)
4: ((2 * (~x + (((x div 2) div 3) mod 2))) div 3)
4: ((2x + ~2) div (2 + (x div 2)))
4: ((2x + ~4) div (3 + (x div 4)))
4: ((x2 + ~2x) div 8)
4: ((x2 + ~5x + 6) div 2)
4: ((7x2 + 5x) div 2)
4: ((3 * (x - ((((x * ((1 - (x div 2)) div 3)) div 2) div 2) div 2))) div 2)
4: ((2 * (x - ((x div 2) div 3))) div 3)
4: (10x div (1 + i))
4: ((4 * ((2x + 1) + (((x + 1) + (x div 8)) div 2))) div 3)
4: ((x3 + 3x2 + ~4x) div 2)
4: ((2x * (4 + i)) div (1 + i))
4: ((17x2 + 17x) div 2)
4: ((4x2 + 2x) div 3)
4: ((2x * (1 + (2 * i))) div (1 + i))
4: ((4 * (x - (x div ~5))) div 3)
4: ((8 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2)) div 3)
4: ((2 * (((2x * (1 + (2 * i))) div (2 + i)) * (~1 + (2 * i)))) div (1 + i))
4: ((4 * (x div 5)) div 3)
4: (4x div (4 + (x div 2)))
4: (4x div 7)
4: (4x div (2 + i))
4: (6x div (x + 1))
4: (6x div (1 + i))
4: ((2 * ((x + ((x div 2) mod 2)) div 2)) div 3)
4: ((x * ((x + 1) div 2)) div 2)
4: ((((1 - (x div 2)) div 3) * (x div 2)) div 2)
4: ((3 * ((~x + 2) div 2)) div 2)
4: ((((x + ~1) div 2) * (x div 3)) div 2)
4: ((2 * ((x2 + ~x) div (x + 2))) div 3)
4: ((x * ((x mod (2 + (x mod 2))) div 2)) div 4)
4: (((x + 1) * (x div 2)) div 2)
4: (((x + ~2) * (x div 2)) div (x + 1))
4: (((x div 4) * (x div 4)) div 2)
4: ((x * ((x + 1) mod 5)) div 8)
4: ((x * ((x * (x div 2)) mod 2)) div 4)
4: (((~x + 1) * (x mod 10)) div 2)
4: ((2 * (if (x + ~2) <= 0 then x else (2 - (x div ~2)))) div 3)
4: ((x * loop(\(x,i).((x2 + ~x) div 2),2,(x + ~2))) div 15)
4: (2x div (1 + (2 * (x mod 4))))
4: (2x div (2 + (4x div (x + 2))))
4: (2x div (2 + (2x div (2 + (x div 4)))))
4: (2x div (~2 + (x div ~4)))
4: (x2 div (x + 6))
4: (x2 div (x + 17))
4: (x2 div ((x + 2) + (x div 3)))
4: (x2 div 9)
4: (x2 div (2 + (x mod 2)))
4: (x2 div (1 + i))
4: (x2 div (2 - ((x div 2) * (x div 2))))
4: (x2 div ((2x + ~1) + (x div 2)))
4: (x2 div 32)
4: ((x * i) div 3)
4: ((((x + 1) + (x div 2)) div 2) div 2)
4: (((x + ((x div 4) mod 2)) div 2) div ~2)
4: (((x2 + ~1) div 2) div 2)
4: (((x - ((2 - (x div 2)) div 2)) div 2) div 2)
4: (((x - ((x div 2) mod 4)) div 2) div 2)
4: (((x - ((x div 4) mod 2)) div 2) div ~2)
4: (((x - (x mod 3)) div 2) div 2)
4: (((x - (x mod ~3)) div 2) div 2)
4: (((3 * (x + (x div 8))) div 2) div 2)
4: (((x * (x + ((x div 3) mod 3))) div 2) div (x + 3))
4: (((~x4 + x2) div 2) div 3)
4: ((((x + 1) * (~1 + ((~2x + 2) mod (4 + (x div 4))))) div 2) div 2)
4: (((x2 + ~x) div 2) div (x + 3))
4: (((((1 - (x div 2)) div 3) * (x div 2)) div 2) div 2)
4: (((x * ((~x + 2) div 2)) div 2) div 3)
4: ((x2 div 3) div (x + 3))
4: ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) div (if ((x + 2) mod 5) <= 0 then 2 else 1))
4: ((((x2 - (x div 2)) mod (x + 2)) div 2) div 3)
4: (((x mod 5) div 2) div 2)
4: ((loop(\(x,i).(x + (x div 2)),x,2) div 2) div 2)
4: ((x div 2) div (2 + ((2x2 + x) mod 12)))
4: ((x div 2) div (1 + (x mod 4)))
4: ((x div 2) div (1 + i))
4: ((x div 2) div ~6)
4: ((x div 3) div (1 + (x mod 4)))
4: ((x div 4) div (1 + (x mod (2 * (1 + (x mod 2))))))
4: ((x div ~2) div 5)
4: ((x div ~4) div ~2)
4: (((2x + 1) mod (4 + (x div 4))) div 2)
4: (((2x + 1) mod (x - ((x + 1) mod 4))) div 2)
4: (((x + 1) mod (1 + ((2 * (1 + (x mod 3))) mod (x + 1)))) div 2)
4: (((x2 - (x div 2)) mod (x + 2)) div 2)
4: (((x + ~1) mod (1 + (x div 4))) div 2)
4: (((x - (x div 3)) mod 3) div 2)
4: ((2x mod (2 + (x div 2))) div 2)
4: (((x2 div 3) mod (x + 1)) div 2)
4: (((x div 2) mod 5) div 2)
4: (((x div 2) mod (1 + (~x mod 4))) div 2)
4: (((if (~2 + (x div 3)) <= 0 then 2 else (x div 2)) mod (x + 1)) div 2)
4: ((x mod 7) div 2)
4: ((x mod 9) div 2)
4: ((x mod (2 + (x div 4))) div 2)
4: ((x mod (1 + (x mod (2 + (x div 4))))) div 2)
4: ((x mod (2 + (if (x mod 8) <= 0 then x else 1))) div 2)
4: ((x mod (1 - (x mod (~1 + (x div ~2))))) div 2)
4: ((x mod (~1 + (2 * ((2 * (x div 2)) div 3)))) div 2)
4: ((x mod (if (x + ~2) <= 0 then 1 else (x div 3))) div 2)
4: ((if x <= 0 then 1 else x) div (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))))
4: ((if x <= 0 then 1 else x) div ~3)
4: (loop(\(x,i).(2 + ((x2 + x) div 2)),2,(x + ~1)) div 3)
4: (loop(\(x,i).(2 + ((x2 + x) div 2)),2,x) div 3)
4: (loop(\(x,i).(x + (i div 2)),(x + ~8),1) div 2)
4: (loop(\(x,i).(3x + ~1),x,1) div 2)
4: (loop(\(x,i).3x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1) div 3)
4: (loop(\(x,i).(2 * (2x + (x div (if i <= 0 then 1 else i)))),x,(x + 2)) div 2)
4: (loop(\(x,i).(2x + 2),(x div 2),(x mod 2)) div 2)
4: (loop(\(x,i).(2x + 2),x,(1 + loop(\(x,i).2x,x,1))) div 2)
4: (loop(\(x,i).(x * (2 + i)),compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x),1) div 2)
4: (loop(\(x,i).(x * (x - i)),2,(x + 2)) div 2)
4: (loop(\(x,i).(x5 + ~x3),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2)
4: (loop(\(x,i).2x,x,1) div 9)
4: (loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x))) div 2)
4: (x div (5 + ((x div 2) mod 5)))
4: (x div (4 + (8 mod (1 + (x div 2)))))
4: (x div (3 + ((x2 + 2x) mod 6)))
4: (x div (4 + ((x div 2) mod 5)))
4: (x div (1 + (((if (x mod 2) <= 0 then 1 else x) mod 4) + ((x mod 3) div 2))))
4: (x div (4 - (x mod 2)))
4: (x div (1 + (2 * (1 + (x mod 3)))))
4: (x div (1 + (4 * i)))
4: (x div (1 + ((x div 2) div 3)))
4: (x div (2 + (x div (2 + ((x mod 3) div 2)))))
4: (x div (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))))
4: (x div (2 + (x div (2 + ((x2 + 2x) mod 6)))))
4: (x div (2 + (x div (2 + (x mod 2)))))
4: (x div (2 + (x div (2 + (x mod 3)))))
4: (x div (2 + ((x + 1) mod 3)))
4: (x div (1 + ((~1 + loop(\(x,i).2x,(x + ~2),2)) mod (x + 1))))
4: (x div (1 + (x2 mod (2 + (x div 2)))))
4: (x div (1 + ((x div 2) mod (1 + (x mod 4)))))
4: (x div (1 + ((x div 2) mod (1 + (if (x mod 2) <= 0 then 6 else 1)))))
4: (x div (1 + (x mod (1 + (x div (2 + ((~2x + 1) mod (2 + (x div 4)))))))))
4: (x div (2 + (x mod (2 + ((x div 2) mod 2)))))
4: (x div (1 + (x mod (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))
4: (x div (1 + (x mod (1 + (x mod (1 + (x div (2 * (2 - (x mod 2))))))))))
4: (x div (2 + (x mod 6)))
4: (x div (1 + (x mod 12)))
4: (x div (~x + 19))
4: (x div (~4 + (x div 4)))
4: (x div (8 - ((x + ~2) div 3)))
4: (x div (~2 + (((~x + 2) div 2) div 3)))
4: (x div (~1 + ((x div 2) div ~2)))
4: (x div (~2 + ((x div 2) mod 2)))
4: (x div ((x + ~1) - (x mod ~8)))
4: (x div (3 * (1 + (x mod (2 * (1 + (x mod (3 + (x mod 2)))))))))
4: (x div (2 * (2 + i)))
4: (x div ((2 + i) * (1 + i)))
4: (x div (2 * (2 - ((x * (x div 2)) mod 2))))
4: (x div (2 * (~2 + ((x * (x div 2)) mod 2))))
4: (x div (4 * (8 - (x div 2))))
4: (x div (2 * loop(\(x,i).(x div (~2 + (x mod 2))),x,(x + 1))))
4: (x div ((if (x mod 2) <= 0 then 1 else x) mod 4))
4: (i div (2 + (x mod 2)))
4: (i div (x + 2))
4: (2 mod (~1 - (x div 5)))
4: (3 mod (1 + ((x div 2) mod (1 + (x mod (1 + (x div 3)))))))
4: (3 mod (x + 2))
4: (5 mod (if x <= 0 then 1 else x))
4: (9 mod (x + 1))
4: ((2x + 1) mod (3 + (x div 4)))
4: ((2x + 1) mod (2 + (x div 2)))
4: ((2x + 1) mod (1 + (2x mod (3 + (x div 4)))))
4: ((2x + 1) mod (x - ((x + 1) mod 4)))
4: ((x2 + 1) mod (1 + (x div 2)))
4: ((x + ((x div 2) div 3)) mod 3)
4: ((2 + (x div 2)) mod 5)
4: (((x div 2) + i) mod 2)
4: ((1 + (x div 4)) mod 2)
4: ((1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,x)) mod 3)
4: ((x + 1) mod (1 + (x div (2 + (x mod 2)))))
4: ((x + 1) mod (1 + ((2 * (1 + (x mod 3))) mod (x + 1))))
4: ((x + 1) mod (1 + (4x mod (2 - ((x div 2) div ~2)))))
4: ((x + 1) mod (~1 - (x div 4)))
4: ((x + 2) mod (1 + (x mod 4)))
4: ((x + 2) mod (2 - (x mod ~4)))
4: ((x + 2) mod (2x + ~1))
4: ((2 + i) mod 4)
4: ((1 + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x)) mod 3)
4: (~2 mod (1 + (x mod 10)))
4: (~2 mod (1 - (2 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2))))
4: (~x mod (1 + (x div 2)))
4: (~x mod (2 + (x div 3)))
4: ((1 - (x div 2)) mod 3)
4: ((1 - (x div 4)) mod 3)
4: ((~x + 1) mod (1 + (x div 4)))
4: ((~x + 1) mod (1 + (x mod 4)))
4: ((~x + 2) mod (3 + (x div 4)))
4: ((~x + 2) mod 9)
4: ((~x + 2) mod (2 + (x div 4)))
4: ((~1 + loop(\(x,i).2x,x,(1 + (x mod (2 * (1 + (x mod 2)))))) - (x mod 2)) mod (2x + 1))
4: ((~3x + 5) mod (1 + (x div 2)))
4: ((x2 + ~2) mod (x + 4))
4: ((~1 + (x2 div 2)) mod 5)
4: ((~1 + (x div 2)) mod (1 + ((2 + (x div 2)) div 3)))
4: ((~1 + (x div 2)) mod (1 + (((x + 1) div 2) mod 3)))
4: (((x div 2) - ((x div 4) div ~2)) mod 2)
4: ((~1 + loop(\(x,i).2x,(x + ~2),2)) mod (x + 1))
4: ((~1 + loop(\(x,i).(if x <= 0 then i else (x div 2)),x,2)) mod (x + 1))
4: ((x + ~1) mod (1 + ((x + 2) div 3)))
4: ((x + ~1) mod (2 + (x div 4)))
4: ((x + ~1) mod (1 + (x mod (2 + (x div 5)))))
4: ((x + ~1) mod 12)
4: ((x + ~2) mod (2 + (x div 3)))
4: ((x + ~2) mod 12)
4: ((x + ~2) mod 10)
4: ((x + ~3) mod (1 + (x div 2)))
4: ((x + ~4) mod (2 - (x div ~4)))
4: ((x - (2 div (1 + (x div 5)))) mod 2)
4: ((x - ((~x2 + x) div 32)) mod 2)
4: ((x - (x div 8)) mod 2)
4: ((x - ((x div 5) mod 2)) mod 3)
4: ((2x2 + x) mod 12)
4: ((2 * (1 + (x mod 3))) mod (x + 1))
4: ((x2 + x) mod (1 + (x mod 4)))
4: ((x2 + 2x) mod (1 + ((2 - (x div 2)) mod 4)))
4: ((~x2 + 2x + ~1) mod (1 + (x div 2)))
4: ((2x + ~2) mod (1 + (x div 2)))
4: ((x2 + ~x) mod 9)
4: ((2x + ~4) mod (1 + (x div 2)))
4: ((2x + ~4) mod (2 + (x div 2)))
4: ((3x + ~6) mod (x + 1))
4: (20 mod (x + 1))
4: (4x mod (4 + (x div 4)))
4: (4x mod (1 + (x div 2)))
4: (4x mod (2 - ((x div 2) div ~2)))
4: (x3 mod 13)
4: (x3 mod (2x + 3))
4: (x3 mod 37)
4: (x3 mod 30)
4: (((x + 1) * (x div 2)) mod 4)
4: (((x + ~1) * (x div 4)) mod 3)
4: ((x * (x div 4)) mod 2)
4: ((x * (x mod 2)) mod 8)
4: ((x2 * loop(\(x,i).x3,2,x)) mod 23)
4: (2x mod (4 + (x div 3)))
4: (2x mod (x + 8))
4: (2x mod (1 + i))
4: (2x mod (~1 + ((~x + 2) div 3)))
4: (x2 mod (4x + 9))
4: (x2 mod (1 + (x div 3)))
4: (x2 mod (2 + (x div 4)))
4: ((i * i) mod 3)
4: (((x + (x div 2)) div 2) mod 2)
4: (((x + 1) div 5) mod 2)
4: (((x + 1) div (1 + (x mod 9))) mod 2)
4: (((~2x + 1) div 9) mod 2)
4: (((x - ((x2 div 2) mod (x + 2))) div 3) mod 2)
4: (((x - (x mod (2 + (x mod 4)))) div 2) mod 2)
4: (((x * (2 + (x div 5))) div 4) mod 2)
4: (((x2 + x) div 2) mod 4)
4: (((x2 + 2x) div 2) mod (1 + (x div (2 + (x div 4)))))
4: (((x2 + ~x) div 3) mod 3)
4: ((x3 div 2) mod (x + 4))
4: ((((~x + 1) * (x mod 10)) div 2) mod (x + 1))
4: ((2x div 9) mod 2)
4: ((2x div (1 + (2 * (x mod 4)))) mod 2)
4: ((((x + 1) div 2) div 2) mod 4)
4: ((((x + ~1) div 2) div 2) mod 3)
4: (((((x + ~1) div 2) div 2) div 2) mod 2)
4: (((x2 mod (x + 5)) div 2) mod 2)
4: (((if x <= 0 then 2 else x) div 2) mod 2)
4: ((x div 2) mod (1 + (6 * (x mod 2))))
4: ((x div 2) mod (1 + (x mod (1 + (7 mod (1 + (x div 2)))))))
4: ((x div 2) mod ~2)
4: ((x div 2) mod 6)
4: ((x div (1 + (x mod 9))) mod 2)
4: ((x div ~3) mod (x + 1))
4: (((2 + (x * (x div 2))) mod (1 + (x div 3))) mod 2)
4: (((x + 1) mod (1 + (x div 3))) mod 2)
4: (((x + 1) mod (1 - (x mod ~7))) mod 2)
4: (((x + 2) mod (2x + ~1)) mod 3)
4: (((x2 + ~x) mod (2 + (x div 2))) mod 2)
4: (((x2 + ~2x) mod (2 + (x div 2))) mod 2)
4: ((2x2 mod (1 + ((x + 1) div 2))) mod 2)
4: ((2x2 mod (2 + (x div 2))) mod 2)
4: ((2x mod (1 + (x div 3))) mod 2)
4: ((2x mod (1 + (x div 4))) mod 2)
4: ((x2 mod (4 + (((x + 1) div 2) div 2))) mod 3)
4: (((if x <= 0 then 1 else x) mod (2 - (x div (1 + ((x div 2) mod 2))))) mod 2)
4: ((x mod 4) mod 3)
4: ((x mod 5) mod 3)
4: ((x mod (1 + (x div 2))) mod 2)
4: ((x mod (2 + (x mod 5))) mod 2)
4: ((x mod ~7) mod 2)
4: ((x mod ~11) mod 4)
4: ((x mod (~3 + (x mod 2))) mod 2)
4: ((x mod 11) mod 3)
4: ((x mod (~1 + (2 * ((x + ~2) div 3)))) mod 2)
4: ((x mod (~2 + (((~x + 2) div 2) div 3))) mod 2)
4: ((x mod (~1 + (x mod ~7))) mod 2)
4: ((x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4)))))) mod (1 + (x div 2)))
4: ((if (~2 + (x div 3)) <= 0 then 2 else (x div 2)) mod (x + 1))
4: ((if (x + ~2) <= 0 then 1 else x) mod 3)
4: ((if x <= 0 then 1 else x) mod (2 - (x div (1 + ((x div 2) mod 2)))))
4: (loop(\(x,i).(2x + i),x,0) mod (x + 1))
4: (loop(\(x,i).(2x + 2),x,1) mod (x + 1))
4: (loop(\(x,i).(2x + 2),x,(loop(\(x,i).(2 * (x - i)),x,2) mod (x + 1))) mod (x + 1))
4: (loop(\(x,i).(x2 + x),1,loop(\(x,i).(if x <= 0 then i else (x div 2)),x,0)) mod (x + 1))
4: (loop(\(x,i).(x * (2 + i)),4,2) mod (x + 1))
4: (loop(\(x,i).(2x3 + 2x2),2,2) mod (x + 1))
4: (loop(\(x,i).x2,2,(~1 + (loop(\(x,i).2x,x,1) mod (x + 1)))) mod (x + 1))
4: (loop(\(x,i).x2,4,2) mod (x + 1))
4: (x mod (5 + (x mod 2)))
4: (x mod (3 + (x div 4)))
4: (x mod (3 - (x div ~2)))
4: (x mod (1 + (2 * (1 + (2 * (x mod 2))))))
4: (x mod (1 + (2 * (2 + (x mod 2)))))
4: (x mod (1 + (2 * ((x + ~1) mod (1 + (x div (2 + ((x div 2) mod 3))))))))
4: (x mod (1 + (2 * (16 mod (x + 1)))))
4: (x mod (1 + (2 * (x mod (2 + (x mod 2))))))
4: (x mod (1 + ((x + 2) div 3)))
4: (x mod (2 + (((x + 1) div 2) div 3)))
4: (x mod (1 + (((x + ~2) mod (2 + (x div 2))) div 2)))
4: (x mod (1 + ((~x2 mod (2 + (x div 2))) div 2)))
4: (x mod (1 + (x div (2 + ((~2x + 1) mod (2 + (x div 4)))))))
4: (x mod (1 + (x div (2 + ((x div 2) mod 2)))))
4: (x mod (2 + (x div (2 + (x mod 5)))))
4: (x mod (1 + (4 mod (1 + (x div 2)))))
4: (x mod (1 + ((1 + (x div 2)) mod (1 + (x div 5)))))
4: (x mod (1 + ((x + 1) mod 3)))
4: (x mod (1 + (~x mod (1 + (x div 2)))))
4: (x mod (2 + ((~x + 2) mod 5)))
4: (x mod (1 + ((x + ~1) mod (4 + (x div 2)))))
4: (x mod (1 + ((x + ~1) mod 9)))
4: (x mod (1 + ((x2 + ~x) mod 8)))
4: (x mod (2 + ((x2 div 4) mod (x + 1))))
4: (x mod (1 + (loop(\(x,i).(x2 + 2x),2,2) mod (x + 1))))
4: (x mod (1 + (x mod (2 + (x div 4)))))
4: (x mod (1 + (x mod (1 + (~x mod (1 + (x div 2)))))))
4: (x mod (1 + (x mod 8)))
4: (x mod (1 + (i mod (x + 1))))
4: (x mod (1 + (if (x mod 2) <= 0 then 6 else 0)))
4: (x mod (1 + (if (x mod 2) <= 0 then 6 else 1)))
4: (x mod (1 + (if (x mod (2 + (x mod 2))) <= 0 then 1 else (x div 4))))
4: (x mod (2 + (if (x mod 8) <= 0 then x else 1)))
4: (x mod (~3 - (x div 4)))
4: (x mod (1 - (2 * (((x + 1) div 2) div 2))))
4: (x mod (1 - (2 * (x mod 4))))
4: (x mod (2 - (x div ~3)))
4: (x mod (2 - (x mod ~3)))
4: (x mod ((x + ~2) + (x div 2)))
4: (x mod (~1 + (2 * (~2 + (x mod 2)))))
4: (x mod (~1 + (2 * ((x + ~2) div 3))))
4: (x mod (~1 + (2 * ((x * ((x + 1) mod 5)) div 8))))
4: (x mod (~1 + ((~x + 2) div 3)))
4: (x mod (~2 + (((~x + 2) div 2) div 3)))
4: (x mod (~1 + (x mod ~7)))
4: (x mod (3 * (1 + (x mod 4))))
4: (x mod (2 * (1 + (x mod (3 + (x mod 2))))))
4: (x mod (2 * (1 + (x mod (1 + ((2 - (x div 2)) mod 4))))))
4: (x mod (if (~2 + (x div 2)) <= 0 then 1 else 2))
4: (x mod (if (x + ~2) <= 0 then 1 else (x div 3)))
4: (i mod (x + 1))
4: (if (~x + 2) <= 0 then (2 + (x div 4)) else 1)
4: (if (~x + 2) <= 0 then (1 - (2 * ((x mod (1 + (((x + 1) div 2) div 2))) mod 2))) else 0)
4: (if (~x + 2) <= 0 then 6 else 1)
4: (if (~4 + (x div 2)) <= 0 then 1 else 4)
4: (if (~4 + (x div 2)) <= 0 then x else 1)
4: (if (~2 + (x div 2)) <= 0 then 2 else 0)
4: (if (~2 + (x div 2)) <= 0 then (~1 + (x div 5)) else 1)
4: (if (~2 + (x div 2)) <= 0 then x else 1)
4: (if (~2 + (x div 3)) <= 0 then 0 else x)
4: (if (~2 + (x div 3)) <= 0 then 1 else 0)
4: (if (~2 + (x div 3)) <= 0 then 1 else (x div 4))
4: (if (~2 + (x div 3)) <= 0 then 2 else 0)
4: (if (~2 + (x div 5)) <= 0 then 2 else x)
4: (if (~1 + ((2x + 1) mod (2 + (x div 4)))) <= 0 then x else 0)
4: (if (x + ~1) <= 0 then 1 else (2 * (((x2 mod (x - ((~x + 2) div 2))) div (x + 1)) + (x mod 2))))
4: (if (x + ~1) <= 0 then x else 2x)
4: (if (x + ~1) <= 0 then x else i)
4: (if (x + ~2) <= 0 then 1 else 4)
4: (if (x + ~2) <= 0 then 1 else ((x + 2) div 5))
4: (if (x + ~2) <= 0 then x else 0)
4: (if (x + ~2) <= 0 then x else 3)
4: (if (x + ~2) <= 0 then x else (x + 1))
4: (if (x + ~2) <= 0 then x else (2 - (x div ~2)))
4: (if (x + ~2) <= 0 then x else (x2 + 2x))
4: (if (x + ~3) <= 0 then 1 else 0)
4: (if (x + ~4) <= 0 then 1 else 6)
4: (if (x + ~4) <= 0 then 2 else 1)
4: (if (x + ~12) <= 0 then (x mod 2) else 1)
4: (if (x + ~10) <= 0 then 2 else 1)
4: (if (x + ~10) <= 0 then x else (x + 2))
4: (if (~1 + i) <= 0 then 2 else x2)
4: (if (~2 + i) <= 0 then i else x)
4: (if (~x + i) <= 0 then 0 else i)
4: (if (x div 2) <= 0 then (1 + (2 * i)) else (x div 2))
4: (if ((1 + ((x + (x div 2)) div 2)) mod 5) <= 0 then 2 else 1)
4: (if ((x + (x div 2)) mod 4) <= 0 then 1 else 2)
4: (if ((1 + (x div 4)) mod (2 + (x mod 4))) <= 0 then 2 else 0)
4: (if ((x + 1) mod 8) <= 0 then 1 else 2)
4: (if ((x + 1) mod 8) <= 0 then 8 else 1)
4: (if ((x + 2) mod 5) <= 0 then 2 else 1)
4: (if ((x2 + 2x) mod 6) <= 0 then x else 1)
4: (if (16 mod (x + 1)) <= 0 then 0 else 1)
4: (if (16 mod (x + 1)) <= 0 then 2 else 0)
4: (if (16 mod (x + 1)) <= 0 then 2 else 1)
4: (if ((x * (x div 2)) mod 4) <= 0 then 2 else 1)
4: (if ((x * (x mod 3)) mod 5) <= 0 then 0 else 2)
4: (if (2x mod (1 + i)) <= 0 then 2 else 1)
4: (if ((x div 2) mod 3) <= 0 then 2 else 0)
4: (if ((x div 3) mod 3) <= 0 then 1 else 2)
4: (if ((x div 5) mod 2) <= 0 then x else ~x)
4: (if ((if x <= 0 then 1 else x) mod 3) <= 0 then 2 else 1)
4: (if (x mod 2) <= 0 then 1 else ~2)
4: (if (x mod 2) <= 0 then 1 else i)
4: (if (x mod 2) <= 0 then (7 * (if x <= 0 then 1 else 2)) else 1)
4: (if (x mod 2) <= 0 then (5 * (2 + (if x <= 0 then 0 else 2))) else 1)
4: (if (x mod 2) <= 0 then ((~1 + (9 * (2 - ((x div 2) mod 2)))) * (if x <= 0 then 1 else 2)) else 1)
4: (if (x mod 2) <= 0 then (8 * (if x <= 0 then 1 else 2)) else 1)
4: (if (x mod 2) <= 0 then (9 * (if x <= 0 then 1 else 2)) else 1)
4: (if (x mod 2) <= 0 then (x div 2) else 2)
4: (if (x mod 2) <= 0 then (x div 2) else (5x + 1))
4: (if (x mod 2) <= 0 then (x div 4) else 1)
4: (if (x mod 3) <= 0 then (8 * (if x <= 0 then 1 else 2)) else 1)
4: (if (x mod 4) <= 0 then 8 else 1)
4: (if (x mod 4) <= 0 then (2 * (2 + (if x <= 0 then 0 else 2))) else 1)
4: (if (x mod 4) <= 0 then 2x else (x div 2))
4: (if (x mod 4) <= 0 then (x div 2) else x)
4: (if (x mod 7) <= 0 then 1 else 2)
4: (if (x mod (1 + (2 * i))) <= 0 then x else 5)
4: (if (x mod (1 + (((x + 1) div 2) div 3))) <= 0 then 1 else 2)
4: (if (x mod (1 + ((~2x + 2) mod (1 + (x div 2))))) <= 0 then 1 else 2)
4: (if (x mod (2 + (x mod 2))) <= 0 then 1 else (x div 4))
4: (if (x mod (2 + (x mod 2))) <= 0 then 2 else 0)
4: (if (x mod 8) <= 0 then (if x <= 0 then 1 else 2) else 1)
4: (if (x mod 12) <= 0 then 2 else 0)
4: (if (i mod 3) <= 0 then 1 else x)
4: (if (i mod 3) <= 0 then 2 else 0)
4: (if x <= 0 then 0 else (1 + ((2 * (1 + ((1 + (x div (1 + (x mod (1 + (x div (2 + ((~2x + 1) mod (2 + (x div 4)))))))))) div 2))) div 3)))
4: (if x <= 0 then 0 else (1 + (x div (1 + (2 * (1 + (((x2 + ~x + 2) mod (x + 4)) div 2)))))))
4: (if x <= 0 then 0 else (x + 1))
4: (if x <= 0 then 1 else (2 + (x div 2)))
4: (if x <= 0 then 1 else ~2)
4: (if x <= 0 then 1 else (2 * (2x + ((x + ((x div 2) mod 2)) div 2))))
4: (if x <= 0 then 1 else (2 * (1 + (((~1 + loop(\(x,i).2x,x,(x - ((x div 2) mod 2)))) mod (x + 1)) div 2))))
4: (if x <= 0 then 1 else 8x)
4: (if x <= 0 then 1 else ((x mod (~1 + (x mod (~1 + ((~x + 1) div 2))))) mod 2))
4: (if x <= 0 then 2 else x2)
4: (if x <= 0 then 2 else (((x + 1) div 2) div 2))
4: (if x <= 0 then 3 else x)
4: (if i <= 0 then 1 else (i * i))
4: loop(\(x,i).((x + 1) + (2 * ((x div 2) div 3))),x,1)
4: loop(\(x,i).((x + 2) + ((x - (x div 4)) div 2)),x,2)
4: loop(\(x,i).(9x + loop(\(x,i).(3x + 1),i,1)),i,1)
4: loop(\(x,i).(5x + loop(\(x,i).(9x + 1),i,1)),i,1)
4: loop(\(x,i).(9x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1)),i,1)
4: loop(\(x,i).(3x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1)),i,1)
4: loop(\(x,i).(5x + loop(\(x,i).(6x + loop(\(x,i).11x,i,1)),i,1)),i,1)
4: loop(\(x,i).(3x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1)
4: loop(\(x,i).(9x + loop(\(x,i).11x,i,1)),i,1)
4: loop(\(x,i).((x + 1) + i),x,2)
4: loop(\(x,i).((2x + 2) + i),x,0)
4: loop(\(x,i).(2x + i),x,1)
4: loop(\(x,i).(3x + 2),4,x)
4: loop(\(x,i).(x + ((2x + 1) * i)),x,0)
4: loop(\(x,i).(x2 + x + 1),2,x)
4: loop(\(x,i).(10x + 1),(x + 1),loop(\(x,i).(10x + 10),x,0))
4: loop(\(x,i).(7x + 6),x,0)
4: loop(\(x,i).(x3 + 1),2,2)
4: loop(\(x,i).(2x + 1),x,4)
4: loop(\(x,i).((x2 + 2) + i),2,2)
4: loop(\(x,i).(x + (i * i)),(1 + i),x)
4: loop(\(x,i).(x + (i * i)),x,2)
4: loop(\(x,i).(x + (i * i)),x,x2)
4: loop(\(x,i).(2 + ((x2 + x) div 2)),2,(x + ~1))
4: loop(\(x,i).(2 + ((x2 + x) div 2)),2,x)
4: loop(\(x,i).(x + (((2 + i) * (1 + i)) div 2)),i,1)
4: loop(\(x,i).(x + (9x div (if i <= 0 then 1 else i))),x,1)
4: loop(\(x,i).(x + (x div (2 + (x mod 2)))),x,2)
4: loop(\(x,i).(x + (x div ((2 + i) * (1 + i)))),2,x)
4: loop(\(x,i).(x + (i div 2)),(x + ~8),1)
4: loop(\(x,i).(1 + (i div (x + 2))),x,1)
4: loop(\(x,i).(x + (if (~x + 2) <= 0 then x else 2)),x,(~x + 1))
4: loop(\(x,i).(2x + (if x <= 0 then 1 else x)),x,0)
4: loop(\(x,i).(2x + loop(\(x,i).(5x + loop(\(x,i).(3x + 1),i,1)),i,1)),i,1)
4: loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)
4: loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).11x,i,1)),i,1)),i,1)
4: loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).10x,i,1)),i,1)),i,1)
4: loop(\(x,i).(9x + loop(\(x,i).(10x + 1),i,1)),i,1)
4: loop(\(x,i).(9x + loop(\(x,i).(4x + 1),i,1)),i,1)
4: loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).(5x + loop(\(x,i).(3x + 1),i,1)),i,1)),i,1)),x,1)
4: loop(\(x,i).(4x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)
4: loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)
4: loop(\(x,i).(10x + loop(\(x,i).(4x + loop(\(x,i).3x,i,1)),i,1)),i,1)
4: loop(\(x,i).(1 + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,2x)),2,x)
4: loop(\(x,i).(~x2 + 1),2,4)
4: loop(\(x,i).((9x + ~1) + loop(\(x,i).2x,i,2)),i,1)
4: loop(\(x,i).(5x + ~1),x,0)
4: loop(\(x,i).(~1 + (2 * (4x + loop(\(x,i).2x,i,1)))),i,1)
4: loop(\(x,i).(10x + ~1),(2x + 1),1)
4: loop(\(x,i).(4x + ~1),x,0)
4: loop(\(x,i).(2x + ~1),(x + ~2),x)
4: loop(\(x,i).(x2 + ~1),2,4)
4: loop(\(x,i).(~x + (if (~x + i) <= 0 then i else 0)),2x,x)
4: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x2 + 2x))
4: loop(\(x,i).(5x + ~2),x,1)
4: loop(\(x,i).(x - (2 * (~2x + (i mod 2)))),x,0)
4: loop(\(x,i).(x - (2 * (~x + (i mod 2)))),x,1)
4: loop(\(x,i).(x - ((~2 + (x div 2)) div 3)),2,x)
4: loop(\(x,i).(x - (x div (1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))),x,x)
4: loop(\(x,i).(x - (x div ~3)),x,1)
4: loop(\(x,i).(x - (x div (~4 + (x div 4)))),x,1)
4: loop(\(x,i).(x - (if (~2 + (x div 2)) <= 0 then 0 else 1)),2,x)
4: loop(\(x,i).(x - (if (~x + i) <= 0 then (2 * i) else 0)),x,x)
4: loop(\(x,i).(x - (if (2x mod (1 + i)) <= 0 then 2 else 1)),x,2x)
4: loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then x else 5)),x,x)
4: loop(\(x,i).(x - (if x <= 0 then 1 else i)),x,x)
4: loop(\(x,i).(x - loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,0)),3,x)
4: loop(\(x,i).(~x + i),x,2)
4: loop(\(x,i).3x,(x + 2),1)
4: loop(\(x,i).3x,(x + ~1),1)
4: loop(\(x,i).3x,3x,1)
4: loop(\(x,i).3x,(2x + 2),1)
4: loop(\(x,i).(x * (3 + i)),4,(x + 1))
4: loop(\(x,i).(x * (3 + i)),4,x)
4: loop(\(x,i).7x,x,4)
4: loop(\(x,i).7x,x,x)
4: loop(\(x,i).(2x + 16),(x + 1),1)
4: loop(\(x,i).(10x + 2),x,(1 - loop(\(x,i).(10x + ~20),x,0)))
4: loop(\(x,i).(4x + 2),x,1)
4: loop(\(x,i).(2x2 + 3x + 1),2,1)
4: loop(\(x,i).(x3 + x),1,x5)
4: loop(\(x,i).(x * (1 + (2 * i))),(~2 + i),1)
4: loop(\(x,i).(2 * (x + (x div 2))),x,3)
4: loop(\(x,i).(x * (2 + (x mod 4))),x,1)
4: loop(\(x,i).(2 * (x + (i mod 2))),x,1)
4: loop(\(x,i).(x * (1 + (if (i mod 2) <= 0 then 4 else 1))),x,1)
4: loop(\(x,i).(2x + 2),x,(1 + loop(\(x,i).2x,x,1)))
4: loop(\(x,i).(2x + 2),x,(loop(\(x,i).(2 * (x - i)),x,2) mod (x + 1)))
4: loop(\(x,i).(3x + 3),2x,2)
4: loop(\(x,i).(3x + 3),x,0)
4: loop(\(x,i).(x2 + x),1,loop(\(x,i).(if x <= 0 then i else (x div 2)),x,0))
4: loop(\(x,i).(x2 + x),2,4)
4: loop(\(x,i).(x2 + x),2,(x + 1))
4: loop(\(x,i).(2x + 4),(x + 1),2)
4: loop(\(x,i).(2x + 4),x,3)
4: loop(\(x,i).(x2 + 2x),1,loop(\(x,i).2x,x,1))
4: loop(\(x,i).(x * (1 + i)),4,(x + 1))
4: loop(\(x,i).(x * (2 + i)),4,2)
4: loop(\(x,i).(x * (2 + i)),i,1)
4: loop(\(x,i).(2 * (x + i)),x,2)
4: loop(\(x,i).(x * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))),i,x)
4: loop(\(x,i).(x * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i))),i,2x)
4: loop(\(x,i).~2x,(~1 + i),1)
4: loop(\(x,i).~2x,(i mod 3),x)
4: loop(\(x,i).(~2x + 2),x,0)
4: loop(\(x,i).(~3x + 3),x,1)
4: loop(\(x,i).(~2x + 4),x,2)
4: loop(\(x,i).(x * ((x + ~1) + i)),2,x3)
4: loop(\(x,i).(2 * (2x - (x div (1 + i)))),i,2)
4: loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),(x div 2),((x + 1) mod 2))
4: loop(\(x,i).(2 * (2x - (x mod 8))),3,x)
4: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).x2,x,2))
4: loop(\(x,i).(2 * ((x + 1) - (2 * (i mod 2)))),x,1)
4: loop(\(x,i).(x * ((x + 1) - i)),2,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
4: loop(\(x,i).(~2x3 + x2),2,2)
4: loop(\(x,i).(x * (x - i)),2,(2 + i))
4: loop(\(x,i).(x * (x - i)),2,2x)
4: loop(\(x,i).15x,x,1)
4: loop(\(x,i).10x,(x + 1),2)
4: loop(\(x,i).10x,x,5)
4: loop(\(x,i).10x,x,11)
4: loop(\(x,i).(x5 + x2),1,x3)
4: loop(\(x,i).(10x + 10),(2x + 1),0)
4: loop(\(x,i).(16x2 + ~8),2,x)
4: loop(\(x,i).12x,(x + 1),1)
4: loop(\(x,i).(2x3 + 2x2),2,2)
4: loop(\(x,i).4x,(x + ~2),x)
4: loop(\(x,i).4x,((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2),1)
4: loop(\(x,i).4x,x,(x + 2))
4: loop(\(x,i).6x,x,3)
4: loop(\(x,i).6x,i,1)
4: loop(\(x,i).(x3 + x2),x2,2)
4: loop(\(x,i).x3,1,(1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))
4: loop(\(x,i).x3,1,2x2)
4: loop(\(x,i).x3,1,loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),i,1))
4: loop(\(x,i).x3,1,loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1))
4: loop(\(x,i).x3,2,x2)
4: loop(\(x,i).(x * (i * i)),i,1)
4: loop(\(x,i).(x * (i * i)),i,x)
4: loop(\(x,i).(2 * (x div (~2 + (i mod 2)))),x,1)
4: loop(\(x,i).(x * (if (~1 + i) <= 0 then 2 else x2)),x,2)
4: loop(\(x,i).(2 * (if x <= 0 then 1 else x)),x,0)
4: loop(\(x,i).2x,(x - (x div (1 + (x mod 2)))),1)
4: loop(\(x,i).2x,((x + ~1) div 2),x)
4: loop(\(x,i).2x,(x div 2),((x + 1) mod 2))
4: loop(\(x,i).2x,loop(\(x,i).(x div (1 + (x mod 2))),x,x),1)
4: loop(\(x,i).2x,x,(2 + loop(\(x,i).2x,x,2)))
4: loop(\(x,i).2x,x,(2 - ((x div 2) mod 2)))
4: loop(\(x,i).2x,x,x2)
4: loop(\(x,i).2x,x,(if x <= 0 then 1 else 2))
4: loop(\(x,i).2x,i,x2)
4: loop(\(x,i).x2,1,(2x + 4))
4: loop(\(x,i).x2,2,(~1 + (loop(\(x,i).2x,x,1) mod (x + 1))))
4: loop(\(x,i).x2,2,loop(\(x,i).2x2,(2x + ~1),2))
4: loop(\(x,i).x2,3,(2x + 1))
4: loop(\(x,i).x2,3,(x + 1))
4: loop(\(x,i).x2,(x - ((~x + 2) div 2)),2)
4: loop(\(x,i).x2,(~1 + i),2)
4: loop(\(x,i).(x * i),(x + 2),2)
4: loop(\(x,i).(x * i),(x + ~2),x)
4: loop(\(x,i).(x * i),(~1 + i),2)
4: loop(\(x,i).(x * i),x,(x + 2))
4: loop(\(x,i).((x2 + x) div 2),2,x)
4: loop(\(x,i).((2 * (x - (2x * i))) div (1 + i)),2x,1)
4: loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x + 1),1)
4: loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x + 2),(x + 1))
4: loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x + ~2),1)
4: loop(\(x,i).(x div 2),x,loop(\(x,i).(3x + 1),x,1))
4: loop(\(x,i).(x div (1 + (x mod 2))),x,(x + 1))
4: loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,(x + 1))
4: loop(\(x,i).(x div (2 - (x mod 2))),2,x)
4: loop(\(x,i).(x div (2 - (x mod 2))),x,(x div (1 + (if (x mod 3) <= 0 then 2 else 0))))
4: loop(\(x,i).(if (x mod 4) <= 0 then x else (x div 2)),x,x)
4: loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(~2 + (x div 2)),x)
4: loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(3x + 2))
4: loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + x + ~1))
4: loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(4x + ~1))
4: loop(\(x,i).loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then 2 else 0)),x,(x + 2)),(x + 4),1)
4: loop(\(x,i).loop(\(x,i).x3,1,2x2),x,2)
4: loop(\(x,i).loop(\(x,i).2x,i,x),x,1)
4: loop(\(x,i).loop(\(x,i).(x * i),i,x),x,1)
4: loop(\(x,i).loop(\(x,i).(x * i),i,x),i,x)
4: loop(\(x,i).loop(\(x,i).(x div (1 + (x mod 2))),x,(x + 1)),2,x)
4: loop(\(x,i).loop(\(x,i).((x + 2) mod (1 + i)),x,0),x,x)
4: loop(\(x,i).i,(~1 + (x div 2)),1)
4: loop(\(x,i).i,(x + ~5),1)
4: loop(\(x,i).i,(x + ~10),1)
4: loop(\(x,i).i,(x div 4),2)
4: compr(\x.(1 + loop(\(x,i).(0 - (if (x mod (1 + i)) <= 0 then 0 else x)),(x div 2),x)),x)
4: compr(\x.(1 + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then x else 5)),x,x)),x)
4: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(5x + 2))),x)
4: compr(\x.(1 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x2 + 2x))),x)
4: compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),x)
4: compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(3x + 2))),x)
4: compr(\x.(1 - loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),(x + 1))
4: compr(\x.(2 - loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x)),x)
4: compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + x + ~1))),x)
4: compr(\x.((x + 1) mod (1 + loop(\(x,i).(if x <= 0 then i else (x + ~1)),x,0))),x)
4: compr(\x.(loop(\(x,i).(2x + 1),x,0) mod (x + 1)),i)
4: compr(\x.(loop(\(x,i).(2x3 + 2x2),2,2) mod (x + 1)),x)
4: compr(\x.(loop(\(x,i).x2,2,(~1 + (loop(\(x,i).2x,x,1) mod (x + 1)))) mod (x + 1)),x)
4: compr(\x.loop(\(x,i).(x - (if (x mod (2 + i)) <= 0 then 0 else 1)),x,x),x)
4: compr(\x.loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,4x),x)
4: compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x + 2)),x)
4: compr(\x.loop(\(x,i).loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,0),2,x),(x + 1))
4: compr(\x.loop(\(x,i).loop(\(x,i).(x div (1 + (x mod 2))),x,(x + 1)),2,x),x)
3: ((x + 3) + ((if (x + ~1) <= 0 then x else 2) + (x div 3)))
3: ((x + 5) + (x div 3))
3: (5 + ((~1 + (x div 2)) mod 3))
3: ((x + 2) + ((if (x + ~1) <= 0 then x else 2) + (x div 3)))
3: (5 + loop(\(x,i).2x,x,1))
3: (x + 13)
3: ((x + 2) + (3 * (2x + (x mod 2))))
3: ((x + 1) + (4 * (x + (x mod 2))))
3: ((x + 1) + (2 * (x + i)))
3: (x + 19)
3: (x + 25)
3: ((10x + 1) + (i div 2))
3: ((x + 1) + (2 * ((x + (x div 2)) div 4)))
3: ((x + 1) + (2 * ((x + ((x div 2) mod 2)) div 2)))
3: ((x + 1) + (3 * (x div 2)))
3: ((x + 1) + (2 * ((x div 4) mod 2)))
3: ((x + 2) + (2 * (x mod 2)))
3: ((2x + 1) + (x div 3))
3: ((x2 + 1) + (x div 2))
3: ((x + 1) + (2 * i))
3: ((x + 2) + ((x + ((x mod (1 + (x div 2))) div 2)) div 2))
3: ((x + 2) + ((x - ((x div 2) mod 2)) div 2))
3: ((x + 2) + (((2 + i) * i) div 2))
3: (2x + (((3 * (x div 4)) div 2) + (x div 2)))
3: ((x + 2) + (2x div 3))
3: ((x + 2) + (x2 div 4))
3: (1 + (((x mod (1 + (x div 4))) div 2) + (x mod 2)))
3: (1 + (((x mod ((x + ~1) - (x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4)))))))) div 2) + (x mod 2)))
3: (1 + ((x div 2) + (x div 3)))
3: ((x + 5) + (x div 2))
3: (1 + ((x div 4) + (x mod 2)))
3: ((x + 5) + (x div 4))
3: (x + ((x div 5) + ((x + 1) div 5)))
3: ((x + 4) + (x div (4 + (x div 2))))
3: ((x + 1) + (x div 7))
3: ((x + 1) + (x div (2 + (i mod 2))))
3: (3x + (i div 2))
3: ((x + 2) + (2 mod (1 + (x div 4))))
3: (4 + (2 mod (x + 1)))
3: (4 + ((x + 1) mod 4))
3: (3 + ((~x + 1) mod 3))
3: (4 + ((~1 + (x div 2)) mod 3))
3: (3 + ((~1 + loop(\(x,i).(if x <= 0 then i else (x div 2)),x,2)) mod (x + 1)))
3: ((x + 1) + ((x * (x div 2)) mod 2))
3: (3 + ((x div 3) mod 3))
3: (4 + (x mod 5))
3: (3 + (x mod 8))
3: ((x + 2) + (i mod 2))
3: (3x + (if (~2 + (x div 3)) <= 0 then 2 else 1))
3: ((x + 2) + (if (x + ~1) <= 0 then x else 2))
3: (4 + (if (x mod 2) <= 0 then 1 else 8))
3: (x + ((if (x mod 2) <= 0 then 2 else 0) + (x div 2)))
3: (3 + (if (x mod 3) <= 0 then 0 else 2))
3: ((x + 1) + (if (x mod 4) <= 0 then 2x else (x div 2)))
3: (3x + (if (i mod 3) <= 0 then 1 else 0))
3: (5x + loop(\(x,i).(7x + loop(\(x,i).10x,i,1)),i,1))
3: (7x + loop(\(x,i).(3x + 1),i,1))
3: (7x + loop(\(x,i).(5x + 1),i,1))
3: (7x + loop(\(x,i).(9x + 1),i,1))
3: (7x + loop(\(x,i).(10x + 1),i,1))
3: (7x + loop(\(x,i).(4x + 1),i,1))
3: (7x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1))
3: (7x + loop(\(x,i).(8x + loop(\(x,i).3x,i,1)),i,1))
3: (7x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1))
3: (7x + loop(\(x,i).(8x + loop(\(x,i).5x,i,1)),i,1))
3: (7x + loop(\(x,i).(4x + loop(\(x,i).5x,i,1)),i,1))
3: (7x + loop(\(x,i).(8x + loop(\(x,i).11x,i,1)),i,1))
3: (5x + loop(\(x,i).(12x + loop(\(x,i).11x,i,1)),i,1))
3: (9x + loop(\(x,i).(6x + loop(\(x,i).11x,i,1)),i,1))
3: (7x + loop(\(x,i).(8x + loop(\(x,i).10x,i,1)),i,1))
3: (3x + loop(\(x,i).(8x + loop(\(x,i).10x,i,1)),i,1))
3: (7x + loop(\(x,i).(4x + loop(\(x,i).10x,i,1)),i,1))
3: (7x + loop(\(x,i).(2x + loop(\(x,i).10x,i,1)),i,1))
3: (7x + loop(\(x,i).(11x + 1),i,1))
3: (loop(\(x,i).5x,x,1) + loop(\(x,i).3x,x,1) + loop(\(x,i).4x,x,1))
3: (7x + loop(\(x,i).5x,i,1))
3: (1 + (loop(\(x,i).(x2 + x),1,loop(\(x,i).2x,x,1)) + loop(\(x,i).3x,x,1)))
3: (7x + loop(\(x,i).11x,i,1))
3: (9x + loop(\(x,i).10x,i,1))
3: (2x + loop(\(x,i).4x,(~1 + i),1))
3: ((x + 2) + loop(\(x,i).(x * i),x,2))
3: ((2x + 1) + i)
3: ((x2 + x) + i)
3: (2 + (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x)))
3: (3 - (2 div (1 + (x mod 5))))
3: (2 + (x div 3) - ((x + (x div 2)) div 4))
3: (4 - ((~x + 1) div (2 + (x div 4))))
3: (4 - (((x + ~1) div 2) div 2))
3: (4 - ((x div 2) div 3))
3: (3 - (x div ~7))
3: (3 - (x div ~4))
3: (3 - ((x * (x div 2)) mod 2))
3: ((x + 3) - (2x mod (4 + (x div 4))))
3: (3 - ((x div 4) mod 2))
3: ((4x + 2) - (x mod 2))
3: (2 + ((x div (1 + ((x + 2) mod 8))) mod 2) - (x mod 2))
3: ((x + 3) - (x div (~2 + (x div ~4))))
3: (9 - (x div 2))
3: ((2x + 5) - (x mod 5))
3: ((4x + 9) - (x mod 2))
3: ((4x + 1) - (x div 2))
3: ((2x + 1) - (3 * (x div ~2)))
3: ((2x + 1) - ((~x + ((x + ~2) div 3)) div 3))
3: ((2x + 2) - (x div (4 + ((x div 2) mod 4))))
3: ((2x + 1) - ((x + 1) mod 4))
3: ((2x + 1) - ((x * (x div 2)) mod 2))
3: ((2x + 1) - ((x div 4) mod 2))
3: ((2x + 1) - (x mod 5))
3: (~11 + (x div 2))
3: (1 + (x div 2) - ((3 * (x div (4 - ((x * (x div 2)) mod 2)))) div 2))
3: (1 + (x div 2) - (x div 3))
3: (1 + (x div 2) - (x mod 2))
3: (1 + (x div 8) - (x mod 2))
3: (1 + ((x * (x div 3)) mod (1 + ((2 - (x div 2)) mod 4))) - (x mod 2))
3: (1 + ((x div (1 + (2x mod 3))) mod 2) - (x mod 2))
3: (2 + (x mod 2) - (x div 2))
3: ((x + 2) - ((x + (x div 4)) div ~2))
3: ((x + 2) - (x div 5))
3: (x + (i div 3) - (x div ~5))
3: ((x + 2) - (x div ~14))
3: (x + i - ((~1 + (x div 4)) div 2))
3: (3x + (x div 3))
3: ((5x + 1) + i)
3: (x + (5 * i))
3: (2x + 13)
3: (x2 + 6x + 2)
3: (1 + (2 * ((2x + 1) + (x div 2))))
3: (x + (((2x + 2) + (x div 2)) * (x div 2)))
3: (1 + (2 * (3 + (x mod 2))))
3: (1 + (2 * (4 + (i mod 2))))
3: (1 + (2 * (5x + (i mod 2))))
3: (2x + 7)
3: (x2 + 6x + 10)
3: (x2 + 7x + 8)
3: (x + (2 * (4 - ((~x + 1) div (2 + (x div 4))))))
3: (1 + (2 * (4 - ((x div 2) mod 2))))
3: (~2x + 7)
3: (1 + (2 * ((2x + 1) - (x mod 2))))
3: (7x + ((1 + i) mod 3))
3: (3x2 + 2x + 2)
3: (x + 27)
3: (2x + 17)
3: (1 + (2 * (1 + (2 * ((2x + 2) - (x mod 2))))))
3: (2x2 + 4x + 5)
3: (41x + 1)
3: (4x2 + 5x + 2)
3: (1 + (2 * (4x + (i mod 2))))
3: (13x + 4)
3: (4x2 + 3)
3: (x + ((1 + (4 * i)) * i))
3: (1 + (2 * (1 + (2 * (x div 2)))))
3: (2x2 + 3x + 2)
3: (x + ((2x + 1) * (x div 2)))
3: (2x2 + x + 2)
3: (x3 + x + 2)
3: ((2 * (x + (2 * i))) + i)
3: (x + (2 * (2x + (2x div 5))))
3: (1 + (2 * (2 + ((x div 2) div 5))))
3: (x + (3 * (1 + (x div 2))))
3: (1 + (2 * (x + (x div 5))))
3: (1 + (2 * (x + (x div 8))))
3: (1 + (2 * (1 + ((~x + 2) mod 4))))
3: (1 + (x * (2 + (x mod 2))))
3: (x + (3 * (2x + (x mod 2))))
3: (x + (8 * (x + (x mod 2))))
3: (1 + (2 * (1 + (x mod 5))))
3: (1 + (2 * (1 + (i mod 2))))
3: (x + ((2 + (i mod 2)) * i))
3: (1 + (2 * (x + (i mod 2))))
3: (x + (3 * (x + (i mod 2))))
3: (1 + (x * (1 + loop(\(x,i).(x2 + x),2,2))))
3: (x + ((x + loop(\(x,i).(x * i),i,1)) * i))
3: ((3x + 3) + (x div 2))
3: (x2 + x + 4)
3: ((2x + 4) + (x div 2))
3: ((2x + 4) + i)
3: (x2 + 4x + 8)
3: ((x2 + 2x + 1) + (x div 2))
3: (2 + (x * (1 + i)))
3: (1 + ((2 + i) * i))
3: ((x + 2) + ((2 + i) * i))
3: (~x2 + x + 1)
3: (1 + (2 * (4 - (x div 2))))
3: (1 + (2 * (2 - ((x mod 3) div 2))))
3: (2 + ((~x + 2) * (x div 2)))
3: (~x2 + 2x + 4)
3: (3x2 + ~2x + 1)
3: (31x + 1)
3: (x + ((~1 + (2 * (i mod 2))) * i))
3: (1 + (2 * (2x - (x div (if i <= 0 then 1 else i)))))
3: (1 + ((~1 + (2 * i)) * i))
3: (1 + (2 * (x - (3 * (x div ~2)))))
3: (10x + (i div 2))
3: (10x + i)
3: (10x + 27)
3: (2x2 + 8x + 1)
3: (13x + 8)
3: (39x + 1)
3: (4x2 + 4x + 5)
3: (4x2 + 9x + 8)
3: 69
3: (17x + 4)
3: (13x + 6)
3: (x + (9 * (1 + (x div 2))))
3: (1 + (2 * ((1 + ((x * (x div 3)) mod (1 + ((2 - (x div 2)) mod 4)))) * (x mod 2))))
3: (1 + (4 * (2 + (x mod 2))))
3: (6x + 7)
3: (4x2 + 6x + 3)
3: (3x2 + 6x + 1)
3: (4x2 + 8x + 1)
3: (1 + ((x2 + 2x) * i))
3: (1 + (3x * (2 + i)))
3: (x + 48)
3: (12x2 + 12x + 1)
3: (24x2 + 1)
3: (8x + (x mod 3))
3: (6x2 + 6x + 1)
3: (10x2 + 1)
3: (9x2 + 1)
3: (9x2 + 2)
3: (12x2 + 1)
3: (x6 + 1)
3: (1 + (8 * i))
3: (1 + (4 * (x2 div 2)))
3: (x + (4 * ((x div 2) div 3)))
3: (1 + (10 * (x mod 2)))
3: (x + (4 * (if (~2 + (x div 4)) <= 0 then 0 else 2)))
3: (x + (4 * (if (x + ~2) <= 0 then 0 else 2)))
3: (4x + (x div 2))
3: (6x + (x mod 2))
3: (x3 + 2x2 + 1)
3: (x4 + 2)
3: (x3 + 4)
3: (x3 + (if x <= 0 then 1 else 2))
3: (x + (i * i * (1 + i)))
3: (1 + (2 * ((1 + (((x + 1) div 2) div 2)) div 2)))
3: (1 + (2 * ((1 + (x div 2)) div 2)))
3: (x + (2 * ((x + (x div 2)) div 4)))
3: (1 + (2 * ((x + ((x div 2) mod 2)) div 2)))
3: (1 + (((x + 1) div 2) * (1 + (x div 2))))
3: (1 + (2 * ((x + 2) div 3)))
3: (1 + (x * ((1 + i) div 2)))
3: (x + (((1 + i) div 2) * i))
3: (1 + (2 * ((x + ~1) div 3)))
3: (1 + (x * ((x + ~1) div 3)))
3: (1 + (2 * ((x + ~1) div 5)))
3: (1 + (2 * ((x2 + 2x) div 2)))
3: (x + (2 * (((x div 4) * (x div 2)) div 2)))
3: (1 + (2 * (2x div 3)))
3: (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (x - (x div 4))))
3: (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (if (x mod 3) <= 0 then 2 else 1)))
3: (1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + ((x - (x mod 5)) div 2))))
3: (2 + (3 * ((x mod 3) div 2)))
3: (1 + (2 * ((x mod (~1 + (2 * ((x + ~1) div 3)))) div 2)))
3: (1 + (7 * (loop(\(x,i).2x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2)))
3: (2 + (x * (x div 3)))
3: (x + (3 * (x div 4)))
3: (x + (5 * (x div 4)))
3: (2 + (x * (x div (2 + (x mod 2)))))
3: (1 + (2 * (x div (2 * (2 + ((x div 2) mod 2))))))
3: (1 + (2 * (2 mod (if ((x + 1) mod (2 + ((x div 2) mod 2))) <= 0 then x else 1))))
3: (1 + (2 * ((x + 1) mod (1 + (x div 4)))))
3: (1 + (2 * ((~1 + (x2 div 2)) mod (~1 + ((~2x + 2) mod (4 + (x div 4)))))))
3: (1 + (2 * ((x - (x div 3)) mod 3)))
3: (1 + (2 * ((x2 div 2) mod 3)))
3: (x + (2 * ((x div 4) mod 2)))
3: (1 + (2 * ((x div 5) mod 2)))
3: (x + (3 * (x mod 2)))
3: (1 + (x * (x mod 2)))
3: (2 + (3 * (x mod 7)))
3: (1 + (2 * (x mod (2 + (x mod (2 + (x mod 2)))))))
3: (1 + (2 * (x mod loop(\(x,i).(1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),2,x))))
3: (x + (2 * (i mod 2)))
3: (x + (2 * (if (2 - i) <= 0 then x else 1)))
3: (1 + (3 * (if (~2 + (x div 2)) <= 0 then 0 else 2)))
3: (1 + (2 * (if (~2 + (x div 3)) <= 0 then 0 else 2)))
3: (1 + (2 * (if (16 mod (x + 1)) <= 0 then 0 else 2)))
3: (2 + (2 * (if (x mod 3) <= 0 then 0 else 2)))
3: (1 + (2 * (if (x mod 4) <= 0 then 0 else 2)))
3: (1 + (2 * (if (x mod 6) <= 0 then 2 else 1)))
3: (x + ((x2 + x + 1) * loop(\(x,i).(1 + (x * i)),x,1)))
3: (1 + (loop(\(x,i).(3x + ~1),x,2) * loop(\(x,i).(2x + 2),x,0)))
3: (1 + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (1 + (((x + 1) div 2) div 2))))
3: (1 + ((x + 1) * loop(\(x,i).(x2 + 4x + 4),2,1)))
3: ((x * i) + (i mod 2))
3: (1 + (2 * compr(\x.loop(\(x,i).loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + 1)),2,x),x)))
3: (x + (2 div (6 - (x div 3))))
3: (x + (2 div (8 - (x div 2))))
3: ((x + 1) + (2 div (~x + 16)))
3: (1 + (4 div (x + 1)))
3: (1 + (((x + 1) + (x div 2)) div 2))
3: (1 + (((x + 1) + (x div 4)) div 2))
3: (1 + ((x + (2 * (4 - ((~x + 1) div (2 + (x div 4)))))) div 3))
3: (x + ((x + (2 * (((x div 4) * (x div 2)) div 2))) div 3))
3: (1 + ((x2 + 1) div 2))
3: (1 + ((x + (((x div 2) * (x div 2)) div 2)) div 2))
3: (2 + ((x + (x2 div 3)) div 2))
3: (x + ((x + (x2 div 3)) div 2))
3: (1 + ((x + (x2 div 5)) div 2))
3: (1 + ((x + ((x div 2) div 3)) div 2))
3: (2x + ((x + ((x mod (1 + (x div 2))) div 2)) div 2))
3: (1 + ((1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2)) div 2))
3: (x + ((x + (x div 2)) div 8))
3: (x + (((x div 2) + i) div 4))
3: (((1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))) div 2) + (if x <= 0 then 0 else 1))
3: (1 + ((1 + (x div (2 + (x mod 2)))) div 2))
3: (x + ((x + (x div 12)) div 2))
3: (x + ((x + ((x - ((((~x + 1) * (x div 2)) div 2) div 3)) mod 3)) div 2))
3: (1 + ((1 + ((x2 + 2x) mod (1 + (x div 3)))) div 2))
3: (x + ((x + (x2 mod 3)) div 4))
3: (((x + (((x div 2) div 3) mod 2)) div 2) + (if x <= 0 then 1 else 4x))
3: (2x + ((2x + ((x div 3) mod 3)) div 3))
3: (x + ((x + ((x div 3) mod 3)) div 3))
3: (((x + 1) div 2) + (x div 3))
3: (1 + ((x + 1) div 7))
3: ((4x + 4) + ((x + 1) div 7))
3: (1 + ((x + 1) div (1 + (x mod (2 + (x div (2 + (x mod 5))))))))
3: (2 + ((x + 2) div 7))
3: (x + ((x + 2) div 7))
3: (1 + ((1 + i) div 2))
3: (2 + ((x2 + ~2) div (x + 4)))
3: (1 + (((x div 2) - (x mod 2)) div 2))
3: (x + ((x + ~1) div 3))
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3: (1 + ((x - (x mod 3)) div 2))
3: (x + (((4 + i) * (1 + i)) div 2))
3: (3 + ((2 * ((2x + 1) - ((~x + 1) div (2 + (x div 4))))) div 3))
3: (x + (7x div (1 + i)))
3: (1 + ((x3 + 2x) div 3))
3: (1 + ((2 * (1 + ((1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2)) div 2))) div 3))
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3: (1 + ((2 * (2 + (x div (1 + ((x div 2) mod (1 + (if (x mod 2) <= 0 then 6 else 1))))))) div 3))
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3: (((x2 + 2x) div 2) + (x div 2))
3: (x + ((x2 + 2x) div 5))
3: (x + ((x2 + 2x) div 8))
3: (x + ((~x2 + x) div 4))
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3: (((x2 + ~x) div 2) + (x div 3))
3: (1 + ((17x2 + 17x) div 2))
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3: (x + ((2 * (x div 2)) div 5))
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3: (x + ((x * (x div 2)) div 4))
3: (x + ((2 * (x div 3)) div 3))
3: (1 + ((x * (x div 4)) div 2))
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3: (x + ((i * i) div 4))
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3: (((((x + 1) * (x + (x div 3))) div 2) div 5) + (x div 2))
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3: (1 + (((1 mod (1 - (2x mod (4 + (x div 4))))) mod (x + 1)) div 2))
3: (1 + ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3))
3: (1 + ((loop(\(x,i).(2 * (x - i)),x,2) mod (x + 1)) div 2))
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3: (1 + ((x mod ((x + ~1) - (x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4)))))))) div 2))
3: (1 + ((if x <= 0 then 2 else x) div 2))
3: (2 + (loop(\(x,i).2x,x,1) div 2))
3: (x + (loop(\(x,i).(x * i),x,2) div (x + 1)))
3: (1 + (loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2))
3: (6 + (x div 4))
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3: (1 + (x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))))
3: (x + (x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))))
3: (1 + (x div (2 + (x div (2 + ((x div 2) mod 3))))))
3: (1 + (x div (2 + (x div (2 + (x mod 2))))))
3: (1 + (x div (1 + ((x + 2) mod 4))))
3: (2 + (x div (2 + ((~x + 1) mod (1 + (x mod 4))))))
3: (2 + (x div (1 + ((~x + 2) mod 4))))
3: (1 + (x div (1 + ((~1 + loop(\(x,i).2x,(x + ~2),2)) mod (x + 1)))))
3: (2 + (x div (2 + (x2 mod 5))))
3: (2 + (x div (1 + (((x2 + 2x) div 2) mod 3))))
3: (2 + (x div (2 + ((x div 2) mod 3))))
3: (2 + (x div (1 + ((x div 2) mod (1 + (x mod (1 + ((~x + 2) mod 4))))))))
3: (2 + (x div (2 + (((x div 2) mod 3) mod 2))))
3: (1 + (x div (1 + (loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)))))
3: (1 + (x div (2 + (loop(\(x,i).(2x + 2),x,1) mod (x + 1)))))
3: (1 + (x div (2 + (x mod 3))))
3: (1 + (x div (1 + (x mod 4))))
3: (1 + (x div (1 + (x mod (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))))
3: (1 + (x div (1 + (x mod (1 + (loop(\(x,i).2x,x,2) mod (2x + 1)))))))
3: (1 + (x div (1 + (x mod (1 + (x mod (1 + (x div (2 + (x div 5))))))))))
3: (2 + (x div (1 + (x mod (1 + (x mod (1 + (x div (2 + (x div 5))))))))))
3: (1 + (x div (2 + (x mod (2 * (1 + (2 * (x mod 2))))))))
3: (1 + (x div (1 + (if ((x * (x div 2)) mod 2) <= 0 then x else (x mod 3)))))
3: (2 + (x div (2 + (if (x mod 2) <= 0 then ((x mod 3) div 2) else 2))))
3: (1 + (x div (1 + (if (x mod 2) <= 0 then ((x div 2) mod 2) else 3))))
3: (1 + (x div (2 + (if (x mod 3) <= 0 then 2 else 0))))
3: (x + (x div ~7))
3: (1 + (x div (1 - (x div (~2 + (((~x + 2) div 2) div 5))))))
3: (x + (x div (8 - (x div 4))))
3: (2 + (x div 15))
3: ((2x + 2) + (x div 12))
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3: (1 + (x div (3 * (1 + (x mod (2 * (1 + (x mod (3 + (x mod 2))))))))))
3: (1 + (x div (4 * (2 + (x mod 4)))))
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3: (1 + (2 mod (1 + (x mod (1 + (x mod 4))))))
3: (1 + (3 mod (1 + ((x div 2) mod (1 + (x mod (1 + (x div 3))))))))
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3: (1 + ((2x + 1) mod (1 + (2x mod (3 + (x div 4))))))
3: (1 + ((2x + 1) mod (1 + (2x mod (2 + (x div 4))))))
3: (x + ((2x + 1) mod (1 + (2x mod (2 + (x div 4))))))
3: (((1 + (x div 2)) mod 3) + loop(\(x,i).2x,x,1))
3: (x + ((x + (x div 2)) mod 4))
3: (1 + ((x + (x div 4)) mod (1 + (x div 2))))
3: (1 + ((1 + ((2x + ~1) mod (4 + (x div 4)))) mod 3))
3: (1 + ((1 + (x mod (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))) mod (x + 1)))
3: (2 + ((2 + (x mod 8)) mod (x + 1)))
3: (1 + ((1 + (if x <= 0 then 1 else x)) mod 3))
3: (8x + ((x + 1) mod 4))
3: (1 + ((x + 1) mod 5))
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3: (1 + ((x + 2) mod 10))
3: (1 + ((1 - (x mod 3)) mod (x + 1)))
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3: (1 + ((~x + 1) mod 4))
3: (4x + ((~x + 1) mod 4))
3: (x + ((~x + 1) mod 4))
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3: (((~x + 1) mod (1 + ((x - ((x div 3) mod 3)) div 2))) + (if x <= 0 then 0 else 1))
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3: (1 + ((~1 + (x div 2)) mod 4))
3: (1 + ((~1 + ((~2x + 2) mod (4 + (x div 4)))) mod (x + 1)))
3: (1 + ((~1 + loop(\(x,i).2x,(x div (2 + (x mod 2))),2)) mod (x + 1)))
3: (1 + ((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)))
3: (2 + ((~1 + loop(\(x,i).(if x <= 0 then i else (x div 2)),x,2)) mod (x + 1)))
3: (8x + ((x + ~1) mod 4))
3: (4x + ((x + ~1) mod 4))
3: (1 + ((x + ~2) mod 5))
3: (x + ((x - ((((~x + 1) * (x div 2)) div 2) div 3)) mod 3))
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3: (1 + (~2x mod 5))
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3: (2 + (2x2 mod (1 + (x div 2))))
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3: (2 + ((2 * (x div 2)) mod 3))
3: (2 + ((x * (x div 2)) mod 3))
3: (((x * (x div 3)) mod (1 + ((2 - (x div 2)) mod 4))) + (if x <= 0 then 0 else 1))
3: (1 + (((x + 1) * (x div 4)) mod 2))
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3: (2 + ((x3 div 2) mod (x + 4)))
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3: (((x div 3) mod 2) + (x div 4))
3: (2 + ((x div 3) mod 4))
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3: (1 + ((x div 5) mod 2))
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3: (1 + ((((~2 + (x div 2)) * (x div 2)) mod (x + 1)) mod 2))
3: (1 + (((x div 2) mod 3) mod 2))
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3: (((x mod (2 - (x div (1 + ((x div 2) mod 2))))) mod 2) + (if x <= 0 then 0 else 1))
3: (1 + ((x mod (~2 - (x div 3))) mod 2))
3: (((x mod (~1 + (2 * ((x + ~2) div 3)))) mod 2) + (x mod 2))
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3: (2 + (loop(\(x,i).(x + (i * i)),x,0) mod (x + 2)))
3: (2 + (loop(\(x,i).(2x + 2),x,1) mod (x + 1)))
3: (2 + (loop(\(x,i).(2 * (x + i)),x,1) mod (x + 1)))
3: (2 + (loop(\(x,i).2x,x,3) mod (x + 1)))
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3: (1 + (x mod (1 + ((1 + (x div 2)) mod (1 + (x div 5))))))
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3: (1 + (x mod (1 + (if (~1 + (x mod 3)) <= 0 then (x div 2) else 2))))
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3: (2 + (x mod (2 * (1 + (x mod (2 * (1 + (x mod (1 + (x div 3))))))))))
3: (x + (if (~x + 4) <= 0 then 2 else 1))
3: (1 + (if (~x + 4) <= 0 then 16 else 1))
3: (1 + (if (~x + 2) <= 0 then 2 else 1))
3: ((if (~x + 2) <= 0 then 2 else 1) + (x mod 2))
3: (x + (if (~x + 2) <= 0 then 2 else 1))
3: (x + (if (~4 + (x div 2)) <= 0 then 1 else x))
3: (x + (if (~4 + (x div 2)) <= 0 then x else 1))
3: (2x + (if (~2 + (x div 2)) <= 0 then 0 else 1))
3: (2x + (if (~2 + (x div 2)) <= 0 then 1 else 2))
3: (x + (if (~2 + (x div 2)) <= 0 then 1 else 4))
3: (2 + (if (~2 + (x div 2)) <= 0 then 2 else 1))
3: (x + (if (~2 + (x div 2)) <= 0 then 2 else 1))
3: (2 + (if (~2 + (x div 3)) <= 0 then 1 else 2))
3: (x + (if (~2 + (x div 3)) <= 0 then 1 else (x div 4)))
3: (1 + (if (~2 + (x div 3)) <= 0 then x else 2))
3: (2 + (if (~2 + (x div 4)) <= 0 then 0 else 2))
3: (2 + (if (~2 + (x div 4)) <= 0 then 2 else 0))
3: (x + (if (~2 + (x div 5)) <= 0 then 1 else 4))
3: (x + (if (~2 + (x div 5)) <= 0 then 2 else 1))
3: (1 + (if (~1 + (x mod 3)) <= 0 then (x div 2) else 2))
3: (x + (if (x + ~1) <= 0 then 1 else ((x div 2) - (((x + ~1) div 5) mod 2))))
3: (x + (if (x + ~1) <= 0 then x else (2 + ((x - ((x div 2) mod 2)) div 2))))
3: (2 + (if (x + ~1) <= 0 then x else 2x))
3: (1 + (if (x + ~2) <= 0 then 0 else x))
3: (x + (if (x + ~2) <= 0 then 1 else (x + ~2)))
3: (x + (if (x + ~2) <= 0 then 1 else (3 * (if (~2 + (x div 3)) <= 0 then 1 else 2))))
3: (x + (if (x + ~2) <= 0 then x else 1))
3: (x + (if (x + ~4) <= 0 then 2 else 1))
3: (2 + (if (x + ~6) <= 0 then 0 else 2))
3: (x + (if (x + ~6) <= 0 then 1 else 2))
3: (x + (if (x + ~12) <= 0 then 1 else 2))
3: (2 + (if (x + ~10) <= 0 then 2 else 1))
3: (x + (if (~2 + i) <= 0 then 1 else x))
3: (x + (if (~2 + i) <= 0 then i else x))
3: (x + (if (~x + i) <= 0 then 0 else i))
3: (2 + (if ((x + 1) mod 8) <= 0 then 1 else 2))
3: (1 + (if ((x mod 3) mod 2) <= 0 then 2 else 0))
3: (2 + (if (x mod 2) <= 0 then 1 else (x div 3)))
3: ((if (x mod 2) <= 0 then 1 else x) + (x div 2))
3: (2 + (if (x mod 2) <= 0 then 8 else 1))
3: (1 + (if (x mod 2) <= 0 then 12 else 0))
3: (1 + (if (x mod 2) <= 0 then 10 else 0))
3: (2 + (if (x mod 2) <= 0 then ((x mod 3) div 2) else 2))
3: (x + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1))
3: (1 + (if (x mod 3) <= 0 then 2 else 1))
3: (x + (if (x mod 3) <= 0 then x else 1))
3: (x + (if (x mod 4) <= 0 then 2 else 0))
3: (1 + (if (x mod 4) <= 0 then 2 else 1))
3: (x + (if (x mod 4) <= 0 then 2x else (x div 2)))
3: (1 + (if (x mod 5) <= 0 then 4 else 0))
3: (1 + (if (x mod 7) <= 0 then 6 else 0))
3: (1 + (if (x mod (1 + (((x + 1) div 2) div 3))) <= 0 then x else 1))
3: (2 + (if (x mod (2 + (x mod 2))) <= 0 then 2 else 0))
3: (x + (if (x mod (1 + i)) <= 0 then 2 else 1))
3: (1 + (if (i mod 2) <= 0 then 2 else 0))
3: (x + (if (i mod 3) <= 0 then 2 else 0))
3: (x + (if (i mod 3) <= 0 then 2 else 1))
3: (2 + (if x <= 0 then 0 else (x + 2)))
3: (2 + (if x <= 0 then 1 else 4x))
3: (2 + (if x <= 0 then 2 else 0))
3: (1 + (if x <= 0 then 2 else x))
3: (2x + (if x <= 0 then 2 else x))
3: (x + loop(\(x,i).((x + 1) + (2 * ((x div 4) mod 2))),(x + ~1),1))
3: (2 + loop(\(x,i).((x + 2) + (((1 + i) * i) div 2)),(x + 2),2))
3: (x + loop(\(x,i).(3x + loop(\(x,i).(8x + loop(\(x,i).11x,i,1)),i,1)),i,1))
3: (x + loop(\(x,i).(5x + loop(\(x,i).(12x + loop(\(x,i).11x,i,1)),i,1)),i,1))
3: (x + loop(\(x,i).(5x + loop(\(x,i).(6x + loop(\(x,i).11x,i,1)),i,1)),i,1))
3: (x + loop(\(x,i).(3x + loop(\(x,i).(11x + 1),i,1)),i,1))
3: (x + loop(\(x,i).(5x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1))
3: (x + loop(\(x,i).(5x + loop(\(x,i).3x,(2 * i),1)),i,1))
3: (6x + loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),i,1))
3: (8x + loop(\(x,i).(9x + loop(\(x,i).11x,i,1)),i,1))
3: (x + loop(\(x,i).(3x + loop(\(x,i).11x,i,1)),i,1))
3: (6x + loop(\(x,i).(5x + loop(\(x,i).10x,i,1)),i,1))
3: (x + loop(\(x,i).(5x + loop(\(x,i).10x,i,1)),i,1))
3: (6x + loop(\(x,i).(5x + 1),i,1))
3: (8x + loop(\(x,i).(4x + 1),i,1))
3: (6x + loop(\(x,i).(4x + 1),i,1))
3: (x + loop(\(x,i).(4x + 1),i,1))
3: (1 + loop(\(x,i).(x + (x div ((2 + i) * (1 + i)))),2,x))
3: (1 + loop(\(x,i).(2x + (i mod 2)),x,1))
3: (x + loop(\(x,i).(2 + (if (~x + i) <= 0 then 0 else x)),i,1))
3: (x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).11x,i,1)),i,1)),i,1))
3: (x + loop(\(x,i).(10x + loop(\(x,i).(3x + 1),i,1)),i,1))
3: (x + loop(\(x,i).(2x + loop(\(x,i).(10x + 1),i,1)),i,1))
3: (x + loop(\(x,i).(2x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
3: (x + loop(\(x,i).(2x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1))
3: (x + loop(\(x,i).(2x + loop(\(x,i).(11x + 1),i,1)),i,1))
3: (x + loop(\(x,i).(12x + loop(\(x,i).3x,(2 * i),1)),i,1))
3: (x + loop(\(x,i).(8x + loop(\(x,i).3x,i,1)),i,1))
3: (6x + loop(\(x,i).(4x + loop(\(x,i).3x,i,1)),i,1))
3: (x + loop(\(x,i).(8x + loop(\(x,i).5x,i,1)),i,1))
3: (x + loop(\(x,i).(4x + loop(\(x,i).5x,i,1)),i,1))
3: (x + loop(\(x,i).(4x + loop(\(x,i).10x,i,1)),i,1))
3: (4x + loop(\(x,i).(4x + loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),i,1)),i,1))
3: (6x + loop(\(x,i).(11x + 1),i,1))
3: (1 + loop(\(x,i).(4x2 + ~1),2,2))
3: (2 + loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),2,x))
3: (x + loop(\(x,i).((x + 1) - (((x + 1) div 2) div 3)),2,x))
3: (x + loop(\(x,i).(x - (2x div (1 + (4 * i)))),x,x))
3: (x + loop(\(x,i).(x - (if (~2 + (x div 2)) <= 0 then 0 else 1)),2,x))
3: (2 + loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x))
3: (1 + loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x))
3: (x + loop(\(x,i).(x - (if x <= 0 then 1 else (x - ((if x <= 0 then 2 else loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 2)))),x,(x + 2)))
3: (x + loop(\(x,i).(x - (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else (1 + (if (~x + 2) <= 0 then x else 0))))),x,(x + 1)))
3: (6x + loop(\(x,i).3x,(2 * i),1))
3: (x + loop(\(x,i).3x,(x div 2),2))
3: (loop(\(x,i).3x,x,1) + loop(\(x,i).4x,x,1))
3: (loop(\(x,i).3x,x,(1 + loop(\(x,i).2x,x,1))) + loop(\(x,i).5x,x,1))
3: (2 + loop(\(x,i).5x,x,1))
3: (loop(\(x,i).5x,x,1) + loop(\(x,i).3x,2x,1))
3: (loop(\(x,i).5x,x,1) + loop(\(x,i).6x,x,1))
3: (x + loop(\(x,i).5x,x,1))
3: (1 + loop(\(x,i).5x,x,2))
3: (x + loop(\(x,i).5x,i,1))
3: (loop(\(x,i).7x,x,1) + loop(\(x,i).3x,2x,1))
3: (loop(\(x,i).7x,x,1) + loop(\(x,i).2x,x,1))
3: (x + loop(\(x,i).7x,x,1))
3: (8x + loop(\(x,i).7x,i,1))
3: (loop(\(x,i).(10x + 2),2x,2) + loop(\(x,i).10x,x,1))
3: (1 + loop(\(x,i).(2x2 + x),2,2))
3: (loop(\(x,i).(x * (2 + i)),(~1 + i),1) + (x * (2 + i)))
3: (x + loop(\(x,i).(x * (2 + i)),i,1))
3: (loop(\(x,i).~2x,i,1) + (x * i))
3: (1 + loop(\(x,i).(x * (2 - (x div (2 + i)))),x,2))
3: (x + loop(\(x,i).(x * (2 - (x div (2 + i)))),x,2))
3: (x + loop(\(x,i).(2 * (2x - (x div (1 + i)))),(~1 + i),2))
3: (x + loop(\(x,i).(2 * (2x - (x div (1 + i)))),i,2))
3: (loop(\(x,i).(x * (~1 + (2 * i))),i,1) + (x * i))
3: (1 + loop(\(x,i).(x2 + ~2x),2,8))
3: (1 + loop(\(x,i).(10x + ~8),x,2))
3: (6x + loop(\(x,i).10x,i,1))
3: (1 + loop(\(x,i).8x,x,1))
3: (loop(\(x,i).8x,x,1) + loop(\(x,i).3x,2x,1))
3: (1 + loop(\(x,i).8x,x,2))
3: (1 + loop(\(x,i).8x,x,4))
3: (x + loop(\(x,i).4x,(~1 + i),1))
3: (1 + loop(\(x,i).4x,x,2))
3: (loop(\(x,i).6x,x,1) + loop(\(x,i).3x,2x,1))
3: (1 + loop(\(x,i).x3,2,x))
3: (x + loop(\(x,i).x3,2,i))
3: (loop(\(x,i).(2x * i),i,1) + (x * (~1 + (2 * i))))
3: (x + loop(\(x,i).(2x * i),i,1))
3: (loop(\(x,i).(x * (i * i)),i,1) + (x * i))
3: (4x + loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),i,1))
3: (x + loop(\(x,i).2x,(x + ~1),1))
3: (x + loop(\(x,i).2x,(~2 + i),1))
3: (loop(\(x,i).2x,(x div 2),(2 + (x mod 2))) + loop(\(x,i).2x,x,2))
3: (1 + loop(\(x,i).2x,(x div 2),((x + 1) mod 2)))
3: (2 + loop(\(x,i).2x,x,3))
3: (1 + loop(\(x,i).2x,x,4))
3: (2 + loop(\(x,i).2x,compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),2))
3: (2 + loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
3: (x2 + loop(\(x,i).x2,2,x3))
3: (x + loop(\(x,i).x2,2,x2))
3: (2 + loop(\(x,i).x2,x,2))
3: (x + loop(\(x,i).(x * i),(x + ~2),1))
3: (2 + loop(\(x,i).(x * i),x,1))
3: (x2 + loop(\(x,i).(x * i),x,1))
3: (x + loop(\(x,i).(x * i),x,2))
3: (x + loop(\(x,i).(x * i),i,2))
3: (1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),x,2x))
3: (2 + loop(\(x,i).(x div (2 - (x mod 2))),x,x))
3: (1 + loop(\(x,i).(if (x div 2) <= 0 then (1 + (2 * i)) else (x div 2)),x,0))
3: (x + loop(\(x,i).loop(\(x,i).3x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1),1,i))
3: (x + loop(\(x,i).i,(x + ~5),1))
3: (x + loop(\(x,i).i,(x div 5),1))
3: (2 + compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 4x))),(x + 1)))
3: (1 + compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + 2x + 2))),x))
3: (1 + compr(\x.(~1 + (x mod (~1 + (loop(\(x,i).2x,x,x) mod (x + 1))))),x))
3: (1 + compr(\x.(loop(\(x,i).(1 + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,2x)),2,x) mod (x + 1)),x))
3: (4 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
3: (1 + compr(\x.(loop(\(x,i).(2x + 2),x,(loop(\(x,i).(2 * (x - i)),x,2) mod (x + 1))) mod (x + 1)),x))
3: (1 + compr(\x.(loop(\(x,i).(~2x + 2),x,2) mod (x + 2)),x))
3: (1 + compr(\x.(loop(\(x,i).x2,2,(4 * (2 + (x mod 2)))) mod (x + 1)),x))
3: (compr(\x.(x mod ((x + 1) - (x mod 10))),x) + (x mod 10))
3: (1 + compr(\x.loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(3x + 1)),x))
3: (compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x + 2)),x) + i)
3: (1 + compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),x,(~4x + 1)),x))
3: (1 + compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,(x + 2)),1,3x),x))
3: (~2 - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
3: (0 - (4 mod (x + 1)))
3: (0 - (x mod (1 + (2 * (x div (2 * (2 + (x mod 2))))))))
3: (0 - (if (~2 + (x div 4)) <= 0 then 2 else x))
3: (0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(7x + 1)))
3: (0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(x2 + ~2)))
3: (0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(7x + ~1)))
3: (0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(7x + ~3)))
3: ((~x + 1) - (4 * (if (x + ~2) <= 0 then 0 else 2)))
3: (2 - (2 * ((x + (x div 8)) mod 5)))
3: (~x + 13)
3: (47x + 1)
3: (1 - (2 * (x + (i mod 2))))
3: (1 - (4 * (x + (if (x + ~4) <= 0 then 1 else 2))))
3: (~4x2 + 1)
3: (1 - (2 * ((~x + 1) div 7)))
3: (1 - (2 * (2x div 3)))
3: (1 - (2 * (x div 4)))
3: (1 - (2 * (x div 5)))
3: (1 - (2 * (x div (~2 + ((~x + 2) div 4)))))
3: (1 - ((~x + 1) div (2 + ((x div 2) div 3))))
3: (1 - ((~x + 2) div 8))
3: (1 - (((x mod 2) - (x div 2)) div 2))
3: (1 - ((~x + (x mod 3)) div 4))
3: (1 - ((x - (x2 div 4)) div 2))
3: (1 - ((x * (x div 2)) div 2))
3: (1 - (((x - ((x2 + ~x) div 4)) div 2) div 3))
3: (1 - (x div 5))
3: (1 - (x div (~2 + (x mod ~4))))
3: (1 - ((x + ~4) mod (2 - (x div ~4))))
3: (1 - ((x * (x mod (2 + (x mod 2)))) mod 5))
3: (1 - (2x mod (1 + (x div 4))))
3: (1 - (x mod (3 + (x mod 2))))
3: (1 - (x mod (1 + ((2 - (x div 2)) mod 4))))
3: (1 - (x mod (2 + (x mod 2))))
3: (1 - (x mod (1 + (x mod 6))))
3: (1 - (x mod (1 - ((2 - (2x mod (4 + (x div 4)))) mod (x + 1)))))
3: (1 - (x mod (~1 + (((x div 3) - (x div 2)) div 2))))
3: (1 - (compr(\x.(if (x mod 2) <= 0 then ((x div 3) mod 3) else 0),x) mod 3))
3: (1 - (if (2 - (x div 4)) <= 0 then (x mod 8) else 1))
3: (1 - (if (~2 + (x div 2)) <= 0 then x else (x + 2)))
3: (1 - loop(\(x,i).(0 - (if (x mod (1 + i)) <= 0 then 0 else x)),(x div 2),x))
3: (1 - loop(\(x,i).(2x + ~4),(x + ~2),0))
3: (~x + 22)
3: (3x2 + ~x + 2)
3: ((~x + 2) + (x div 4))
3: ((~x + 2) + (x div 5))
3: ~10
3: (2 - (7 * (x div ~2)))
3: (~x3 + 2)
3: (2 - (x * (x div 3)))
3: (2 - (2 div (1 + (x mod 5))))
3: (2 - ((x + (x div 2)) div 4))
3: (2 - ((~x + (2 div (x + 1))) div 5))
3: (2 - ((~x + (x mod 2)) div 3))
3: (2 - ((x2 + x) div 2))
3: (2 - (x div (1 + ((x div 2) mod 3))))
3: (2 - (x div ~7))
3: (2 - (x div 8))
3: (2 - ((x + 1) mod (~1 + (2 * ((~x + 1) div (2 + (x div 2)))))))
3: (2 - ((2x + 2) mod 5))
3: (2 - (16 mod (x + 1)))
3: (2 - (((x + 1) * (x div 4)) mod 2))
3: (2 - (((x + 2) div (2 - (x mod ~4))) mod 2))
3: (2 - ((x div 2) mod 3))
3: (2 - (x mod (2 + (x mod 3))))
3: (2 - (x mod (~1 + ((~x + 2) div 4))))
3: (2 - (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1))
3: (2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(~2 + (x div 2)),x))
3: (2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + 2x + ~2)))
3: (5 - ((x + ~2) div 3))
3: (5 - (((x + 1) div 2) div 2))
3: (4 - (x div ~2))
3: ((3x + 2) - (((x + 1) div 2) div 3))
3: ((5x + 2) - (x mod 3))
3: (x2 + 15)
3: (1 + ((x div (1 + ((x + 2) mod 8))) mod 2) - (x mod 2))
3: ((x + 2) - (2 div (1 + (x div 4))))
3: ((x + 2) - ((x + 1) mod 10))
3: (1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) - compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x))
3: (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) - compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x))
3: (~1 - (x mod 3))
3: (1 - ((x mod 3) + (2 * (x mod 2))))
3: (~5x + 2)
3: (~x + 23)
3: (2x - (((x div 2) mod 3) + (x mod 2)))
3: ((~2x + ~1) + (x div 2))
3: ((~x + ~1) + (x div 8))
3: (~4 + (x mod 3))
3: ((~x + ~1) + (x mod 4))
3: ((~x + ~1) + (x mod (2 + (x mod 2))))
3: (~3 + (x mod ~2))
3: ((x + ~2) - (x div 3))
3: (8 - ((x + ~1) div 2))
3: (5x - (x div 3))
3: (x2 + 5x + ~2)
3: (~1 + (2 * (3x + (i mod 2))))
3: ((2x + 8) - (x div 2))
3: ((2x + 8) - (if x <= 0 then 0 else 1))
3: (49x + ~2)
3: ((4x + 2) - ((x - (x div 5)) div 3))
3: (2x2 + 5x + 1)
3: (x3 + x + ~1)
3: (~x + (2 * (2 + ((x + 2) mod 4))))
3: ((2x + 2) - (x div 3))
3: ((2x + 2) - ((2 + (x div 2)) mod 6))
3: ((x2 + x) - (x2 div 4))
3: ((2x + 4) - (x div 3))
3: (1 + (x * (2 + i)) - (2 * (x mod 2)))
3: (~1 + ((2 + i) * i))
3: (~2x2 + 2x + ~1)
3: (~x2 + x + ~2)
3: (~2 + ((~x + 2) * (x div 2)))
3: (~x2 + 2x + ~2)
3: (11x + ~1)
3: (x3 + ~x2 + ~x + ~1)
3: (x3 + ~x + ~1)
3: (~1 + ((~2x + (x div 2)) * (x div 2)))
3: (~14x + ~1)
3: (~1 + (9 * i))
3: (11x + 12)
3: (20 - (x div 2))
3: ((2x2 + 6x) - (((~x3 + x) div 2) div 3))
3: (3x2 + 3x + ~1)
3: ((4x + 8) - (x mod 2))
3: (2x2 + 6x + 3)
3: (16x2 + 32x + 15)
3: 71
3: (18x + 17)
3: (16x + ~1)
3: (8x - (x div 2))
3: (x5 + ~1)
3: (4x - ((((x div 2) mod 2) - (if x <= 0 then 1 else x)) div 2))
3: (4x - ((2x + 2) div 5))
3: (4x - ((2 * ((((x div 2) div 3) mod 2) - (if x <= 0 then 1 else x))) div 3))
3: (4x - (x div (if i <= 0 then 1 else i)))
3: (4x - ((i mod 3) mod 2))
3: (4x - (i mod 4))
3: (6x - (x div 2))
3: (~1 + (2 * ((~x + 1) div (2 + (x div 2)))))
3: (~1 + (2 * (x2 div 2)))
3: (~1 + (2 * (((x + 1) div 2) div 2)))
3: (~1 + (3 * (x div 2)))
3: (~2 + (3 * (x div 2)))
3: (~1 + (x * (x div 4)))
3: (~1 + (2 * (((~1 + (2x mod (2 + (x div 2)))) div 2) mod 2)))
3: (~1 + (2 * (((x + ~1) div 2) mod 2)))
3: (~1 + (((x mod (~1 + (2 * (x div 3)))) mod 2) * (x div 2)))
3: (~1 + (2 * (x mod 3)))
3: ((2 * (x mod 4)) - (x mod 2))
3: (~1 + (2 * (x mod 7)))
3: (~1 + (2 * (x mod ~2)))
3: (~x + ((x + 1) * loop(\(x,i).(2 + (x * (x + i))),2,4)))
3: (~x + ((x + 1) * loop(\(x,i).(x2 + 1),2,4)))
3: (~1 + (2 * loop(\(x,i).(x2 + 2),2,5)))
3: (~1 + (2 * loop(\(x,i).(2 + (x mod (1 + i))),x,2)))
3: (~1 + ((x + 1) * loop(\(x,i).x2,2,4)))
3: (2x - ((x + (x div 2)) div 4))
3: (2x - ((x + (x div 3)) div 5))
3: (2x - ((~x + 1) div 3))
3: (2x - ((~x + 2) div 5))
3: (2x - ((~x + ((x + ~2) div 3)) div 3))
3: (2x - ((~x + ((x div 2) div ~2)) div 2))
3: (2x - (((x div 4) - (if x <= 0 then 1 else x)) div 2))
3: (2x - ((~x + ((x div 2) mod 4)) div 4))
3: (2x - ((x + ~2) div 3))
3: (2x - ((2x + 2) div 7))
3: (2x - ((2x + 4) div 7))
3: (2x - (((2 + (x * (x + (x div 2)))) div (x + 2)) div 2))
3: (2x - (x div (4 + ((x div 2) mod 4))))
3: (2x - (x div 8))
3: (2x - ((x + 1) mod 3))
3: (2x - ((x + 1) mod 4))
3: (2x - ((x div 2) mod 3))
3: (2x - ((x mod 3) mod 2))
3: (2x - (x mod 6))
3: (x2 - (x2 div 4))
3: (x2 - ((x div 2) div 3))
3: (x2 - ((x div 4) mod 2))
3: (~2 + (2 * i))
3: (1 + (x * i) - (2 * (i mod 2)))
3: ((x * i) - (i div 2))
3: (((2x + 1) div 3) - (((x2 + ~x) div 2) div (x + 3)))
3: (~1 + ((x2 + (x div 2)) div 2))
3: (~1 + ((2 + (x2 div 2)) div (x + 3)))
3: (~2x + ((x + (x div 2)) div 4))
3: (~1 + ((x + (x div 4)) div ~2))
3: (~2 + ((1 - (2 * (x div 3))) div 3))
3: (~1 + ((~2x + 1) div (4 + (x div 4))))
3: (~1 + ((1 - (x div 2)) div 3))
3: (~1 + ((~x + 1) div 7))
3: (~2 + ((~x + 1) div (2 + (x div 2))))
3: (~2 + ((~x + 1) div (2 + (x div 4))))
3: (~2 + ((~x + 2) div 5))
3: (~2 + ((~x + 2) div (x + 2)))
3: (~1 + ((~x + 2) div 8))
3: (~1 + (((x div 3) - (x div 2)) div 2))
3: (~1 + ((~x + ((x div 4) mod 2)) div 2))
3: (~3 + ((x + ~1) div 2))
3: (~2 + ((x2 + x) div 2))
3: (~1 + ((~4x + 2) div (x + 3)))
3: (~2 + ((x * (2 - (x div 2))) div 2))
3: (~1 + (((~x + 2) * (x div 2)) div 3))
3: (~1 + ((x * (~1 + (x mod 3))) div 2))
3: (~2 + ((x2 + ~x) div 2))
3: (~x + ((x * (x div 2)) div 3))
3: (~1 + (2x div 7))
3: (~1 + ((3 * compr(\x.(1 - (x mod (2 + ((1 + ((x - ((x div 2) mod 2)) div 2)) mod 5)))),x)) div 2))
3: (~x + (((~x + 2) div 2) div 3))
3: (~6 + (((x + ~1) div 2) div 2))
3: (~1 + ((x2 div 2) div 3))
3: (~1 + ((((x + 1) div 2) div 2) div 2))
3: (~1 + (((x div 2) div ~2) div 2))
3: (~1 + ((x div 2) div 3))
3: (~x + ((x div 2) div 5))
3: (~x + ((x div 2) div 7))
3: (~x + ((x mod 3) div 2))
3: (~x + ((x mod (1 + (x div 2))) div 2))
3: (~x + (loop(\(x,i).(2 + ((x2 + x) div 2)),2,(x + 2)) div 3))
3: ((loop(\(x,i).(2x + 2),x,(1 + loop(\(x,i).2x,x,1))) div 2) - loop(\(x,i).(3x + 1),x,1))
3: (~5 + (x div 2))
3: ((~4x + ~4) + (x div 2))
3: ((~4x + ~2) + (x div 2))
3: (~6x + (x div 2))
3: ((x div 2) - ((~1 + (x div 4)) div 2))
3: ((x div 2) - (((x + ~1) div 5) mod 2))
3: ((x div 2) - (x mod 3))
3: ((x div 2) - (x mod 8))
3: ((x div 2) - (if x <= 0 then 0 else 2))
3: (~6 + (x div 3))
3: ((x div 3) - ((~x + 3) div 9))
3: ((x div 4) - ((x + ~1) div 2))
3: (~2 + (x div (3 + (x mod 2))))
3: (~1 + (x div 7))
3: ((x div 9) - (x mod (x - ((x + ~1) mod 8))))
3: (~1 + (x div (1 + (x2 mod (2 + (x div 2))))))
3: (~2 + (x div (2 + (x mod 2))))
3: (~3 + (x div ~2))
3: (~2 + (x div ~7))
3: (~1 + (x div (~2 + (x mod ~2))))
3: (~2 + (x div 8))
3: (~x + (x div 12))
3: (~1 + (x div ~8))
3: (~x + (x div ((if (x mod 2) <= 0 then 1 else x) mod 4)))
3: (~x + (x div (if i <= 0 then 1 else i)))
3: (~x + (2 mod (x + 1)))
3: (~1 + (2 mod (~2x + 1)))
3: (~1 + ((x + 1) mod 4))
3: (~1 + ((x + 1) mod (~1 + (x div ~5))))
3: (~1 + ((x + 2) mod 5))
3: (~1 + ((~x + 1) mod 3))
3: (~x + ((~1 + (x div 2)) mod 3))
3: (~1 + ((x2 + x) mod 5))
3: (~2 + ((~2x + 2) mod (4 + (x div 4))))
3: (~1 + ((~x2 + x) mod 5))
3: (~1 + ((2x + ~4) mod (2 + (x div 2))))
3: (~x + (((x + 1) * (x div 2)) mod 2))
3: (~x + ((x * (x div 2)) mod 2))
3: (((x * (x div 3)) mod (1 + ((2 - (x div 2)) mod 4))) - (x mod 2))
3: (~1 + ((x2 * loop(\(x,i).x3,2,x)) mod 23))
3: (~1 + (2x mod 3))
3: ((2x mod 3) - (x mod 4))
3: (~x + (x2 mod 3))
3: (~2 + (x2 mod 7))
3: (~x + (((x + ~1) div 2) mod 2))
3: (((x div 2) mod 4) - (if x <= 0 then 1 else x))
3: (~2 + ((x div 2) mod 5))
3: (~1 + ((x div 2) mod (1 + (if (x mod 2) <= 0 then 6 else 1))))
3: (~2 + ((x div 2) mod ~2))
3: (~1 + ((x div 3) mod 2))
3: (((x div (1 + (2x mod 3))) mod 2) - (x mod 2))
3: (~x + ((x div ~2) mod 2))
3: (~1 + ((if (x mod 2) <= 0 then 2 else x) mod 4))
3: (~1 + (loop(\(x,i).(2x + 6),x,1) mod (x + 1)))
3: (~1 + (loop(\(x,i).(x * i),x,1) mod (x + 1)))
3: ((~2x + ~2) + (x mod 2))
3: ((x mod 2) - ((1 + (8 mod (1 + (x div 2)))) div 2))
3: ((x mod 2) - ((x2 + 2x) div ~2))
3: ((x mod 2) - ((x div 2) div ~2))
3: ((x mod 2) - ((x div 3) mod 2))
3: ((x mod 2) - ((x mod (2 - (x div (1 + ((x div 2) mod 2))))) mod 2))
3: ((x mod 3) - (x div 2))
3: (~2 + (x mod (1 + (2 * (x mod 3)))))
3: (~x + (x mod (2 + (x mod 2))))
3: (~2 + (x mod ~7))
3: ((x mod 6) - (x mod 5))
3: (~2 + (x mod 10))
3: ((if (x + ~2) <= 0 then 1 else x) - ((x - ((x mod 3) div 2)) div 2))
3: ((if ((x div 2) mod 3) <= 0 then 2 else 1) - (x mod 2))
3: ((if x <= 0 then 0 else 2) - (x mod 2))
3: ((if x <= 0 then 1 else 2x) - ((x + (x div 2)) div 4))
3: (~x + (if x <= 0 then 2 else 1))
3: (~x + loop(\(x,i).(x + loop(\(x,i).(2 + (if (~x + i) <= 0 then 0 else x)),i,1)),x,0))
3: (~1 + loop(\(x,i).(2x - ((i div 2) mod 2)),x,2))
3: (~x + loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),(~1 + i),1))
3: (loop(\(x,i).3x,x,1) - loop(\(x,i).3x,(x div 2),1))
3: (loop(\(x,i).3x,x,1) - loop(\(x,i).2x,x,2))
3: (~x + loop(\(x,i).3x,x,1))
3: (loop(\(x,i).5x,x,1) - loop(\(x,i).7x,x,1))
3: (loop(\(x,i).7x,x,1) - loop(\(x,i).3x,x,1))
3: (loop(\(x,i).7x,x,1) - loop(\(x,i).5x,x,1))
3: (loop(\(x,i).7x,x,1) - loop(\(x,i).4x,x,1))
3: (~2 + loop(\(x,i).(2x + 16),(x + 1),1))
3: (loop(\(x,i).10x,x,1) - loop(\(x,i).8x,x,1))
3: (loop(\(x,i).10x,x,1) - loop(\(x,i).4x,x,1))
3: (~1 + loop(\(x,i).8x,x,2))
3: (~2 + loop(\(x,i).12x,2,(x + 1)))
3: (~1 + loop(\(x,i).4x,(x div 2),2))
3: (~x + loop(\(x,i).4x,i,1))
3: (loop(\(x,i).6x,x,1) - loop(\(x,i).4x,x,1))
3: (~2 + loop(\(x,i).2x2,2,2))
3: (~1 + loop(\(x,i).2x,(x * (x mod 2)),2))
3: (~1 + loop(\(x,i).2x,(x div 2),2))
3: (~1 + loop(\(x,i).2x,(x div (2 + (x mod 2))),2))
3: (loop(\(x,i).2x,x,1) - (2 * (x mod 2)))
3: (~1 + loop(\(x,i).2x,x,(1 + (2 * (((2x + 1) mod (2 + (x div 4))) div 2)))))
3: (~1 + loop(\(x,i).2x,x,(2 - ((x div 2) mod 2))))
3: (~2 + loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
3: (~2 + loop(\(x,i).x2,x,2))
3: (~1 + loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1))
3: (~1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),x,2x))
3: (~1 + loop(\(x,i).(x3 mod 37),2,x))
3: (x + ~19)
3: ((x + ~1) - (x div 4))
3: ((x + ~2) - (x div 4))
3: ((x + ~1) - ((x + 2) mod 8))
3: ((x + ~1) - ((x mod 3) mod 2))
3: ((x + ~1) - (x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4)))))))
3: ((x + ~1) + (2x mod 9))
3: (x + 22)
3: ((x + ~2) + (2x mod 5))
3: ((x + 1) - (2 * (~x + (x mod 2))))
3: (x + ~15)
3: ((x + 1) - ((2 + (x2 div 2)) div (x + 3)))
3: ((x + 1) - ((~x + 1) div (2 + (x div 2))))
3: ((x + 2) - ((~x + 1) div (2 + (x div 2))))
3: ((x + 2) - ((~x + 1) div (2 + (x div 4))))
3: ((x + 1) - ((~x + 2) div 4))
3: ((x + 1) - ((~x + 2) div 8))
3: ((x + 1) - ((~x + ((~x + 2) div 4)) div 2))
3: ((x + 1) - ((~x + ((x div 2) mod 2)) div 2))
3: ((x + 1) - ((~x + (x mod 2)) div 5))
3: ((x + 1) - ((~4x + 2) div (x + 3)))
3: ((x + 1) - (((~x3 + x) div 2) div 3))
3: ((x + 1) - ((((x + 1) div 2) div 2) div 2))
3: ((x + 1) - (x div 7))
3: ((x + 1) - (x div ~9))
3: ((x + 1) - (x div (~2 + ((~x + 2) div 4))))
3: ((x + 1) - (x div ~6))
3: ((x + 1) - ((x div 2) mod 5))
3: ((x + 1) - (loop(\(x,i).(x * i),x,1) mod (x + 1)))
3: ((x + 1) - (x mod (x - ((x + ~1) mod 8))))
3: ((x + 1) - loop(\(x,i).(x + (if (~2 + (x div 4)) <= 0 then 1 else 2)),2,x))
3: ((3x + 1) - i)
3: (3x - i)
3: (x - ((2 + (x div 2)) * (x mod 3)))
3: (x - ((~x + 1) * (x div 2)))
3: (7x + ~4)
3: (x - (2 * ((~x + ~2) + (x mod 2))))
3: (x - (2 * (~1 + (2 * (~2x + (x div 2))))))
3: (x - (2 * (~2x + ((x + (x div 2)) div 4))))
3: (x - (2 * (((x + 1) div 3) - ((1 - (x div 3)) div 3))))
3: (x - (2 * ((~2x + ~1) + ((x - (x div 4)) div 2))))
3: (x - (2 * (~1 + (x mod 3))))
3: (x - (3 * (~x + (x mod 4))))
3: (x + ~36)
3: (x + 60)
3: (4x3 + ~3x)
3: (9x + ~8)
3: (13x + ~12)
3: (2x3 + ~3x2 + 2x)
3: (8x2 + ~3x)
3: ~47x
3: (x - (2 * ((~x + 1) div 3)))
3: (x - (2 * ((~x + 2) div 8)))
3: (x - (3 * ((x + ~1) div 5)))
3: (x - (7 * ((~x2 + x) div 2)))
3: (x - (2 * ((x mod (2 + (x div 2))) div 3)))
3: (x - (2 * (x div ~3)))
3: (x - (2 * (x div ~5)))
3: (x - (5 * ((x div 5) mod 2)))
3: (x - (9 * (x mod 10)))
3: (x - ((x + 1) * loop(\(x,i).(~x2 + 1),2,4)))
3: (x - ((x + 1) * loop(\(x,i).(x * (~x + i)),2,4)))
3: (x - (2 div (~8 + (x div 2))))
3: (x - ((1 + (x div 2)) div 2))
3: (x - ((0 - (if (~4 + (x div 2)) <= 0 then 1 else x)) div 5))
3: (x - ((~x + 1) div 5))
3: (x - ((2 - (x div 2)) div (x + 2)))
3: (x - ((~1 + (x2 div 2)) div 5))
3: (x - ((~1 + (x div 2)) div 3))
3: (x - ((~x + (x div 3)) div 3))
3: (x - ((~x + (x div (if i <= 0 then 1 else i))) div 2))
3: (x - ((~x + ((x div 4) mod 2)) div 2))
3: (x - ((~2x + 2) div 9))
3: (x - ((~x2 + x) div ((x + 2) + (x div 3))))
3: (x - ((~2x2 + 4x) div 7))
3: (x - ((x2 + ~x) div 8))
3: (x - ((~2x3 + 3x2 + ~x) div 3))
3: (x - ((~2x3 + 6x2 + ~4x) div 3))
3: (x - ((4 * (x div 3)) div 3))
3: (x - ((~x3 + x2) div 2))
3: (x - ((3 * ((x div 2) div 3)) div 2))
3: (x - (((~x + 1) * (x div 3)) div 2))
3: (x - (2x div 7))
3: (x - (2x div (1 + (4 * i))))
3: (x - (x2 div (x + 6)))
3: (x - (x2 div (x + 16)))
3: (x - (x2 div (x - ((~x + 2) div 2))))
3: (x - (((2 + (x * (x + (x div 2)))) div (x + 2)) div 2))
3: (x - (((1 + (x div 2)) div 2) div 2))
3: (x - (((x - ((x mod 3) div 2)) div 2) div 2))
3: (x - ((((~x + 1) * (x div 2)) div 2) div 3))
3: (x - (((3 * (x div 2)) div 2) div 2))
3: (x - (((x div 2) div ~2) div 2))
3: (x - ((x div 2) div (1 + i)))
3: (x - ((if (~x + i) <= 0 then i else 0) div 2))
3: (x - ((if x <= 0 then 1 else x) div ~7))
3: (x - ((if x <= 0 then 1 else x) div ~3))
3: (x - ((if x <= 0 then 1 else x) div ~4))
3: (x - ((if x <= 0 then 1 else x) div (~2 + ((~x + 2) div 4))))
3: (x - (x div (3 + i)))
3: (x - (x div (1 + ((1 + (x div 2)) div 2))))
3: (x - (x div (1 + (x mod 4))))
3: (x - (x div (8 - i)))
3: (x - (x div (~2 + ((~x + 2) div 4))))
3: (x - (x div ((~1 + (x div ~4)) div 2)))
3: (x - (i div ~2))
3: (x - (2 mod (~1 - (x div 5))))
3: (x - ((1 + (x div 2)) mod 8))
3: (x - ((x + 1) mod (3 - (x mod 2))))
3: (x - ((x + 1) mod 9))
3: (x - ((x + 1) mod 6))
3: (x - ((x + 1) mod 8))
3: (x - ((x + i) mod 2))
3: (x - ((2 - (x div 3)) mod 5))
3: (x - ((x + ~1) mod 4))
3: (x - (((x + 1) div 5) mod 2))
3: (x - (((x + ~1) div 2) mod (1 + ((1 + (x div 2)) div 3))))
3: (x - ((x div (1 + (x mod 3))) mod 2))
3: (x - ((i div 2) mod 2))
3: (x - ((x mod 10) mod (if x <= 0 then 1 else x)))
3: (x - (x mod (2 + (x mod 2))))
3: (x - (x mod (~2 + ((x div 2) mod 2))))
3: (x - (x mod 8))
3: (x - (if (~2 + (x div 4)) <= 0 then 1 else 0))
3: (x - (if (x mod (1 + (2 * i))) <= 0 then x else 3))
3: (x - (if x <= 0 then 0 else (1 + (if (x + ~1) <= 0 then x else i))))
3: (x - (if x <= 0 then 0 else (i - (x mod 2))))
3: (x - (if x <= 0 then 1 else (x div (1 + (x mod 2)))))
3: (x - (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else (1 + (if (~x + 2) <= 0 then x else 0)))))
3: (x - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,i))
3: (x - loop(\(x,i).(2 * (x + i)),x,0))
3: (x - loop(\(x,i).((x + ~1) * i),i,0))
3: (x - loop(\(x,i).(x div (1 + (x mod 2))),x,x))
3: (x - loop(\(x,i).loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),x,(2x + 1)),2,(2x + 1)))
3: (x - loop(\(x,i).loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),x,(2x + 1)),2,(x + ~1)))
3: ((~2x + ~1) + i)
3: ((~2x + 1) + i)
3: ((2x + ~4) + i)
3: (i - ((~1 + (x div 4)) div 2))
3: (i - (i div 3))
3: (i - (if (x mod (1 + (2 * i))) <= 0 then 0 else x))
3: (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) - compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))
3: (~x + (compr(\x.(x mod ((x + 1) - (x mod 10))),x) + (x mod 10)))
3: (x * (6 + i))
3: (x2 + 9x)
3: (3 * ((x + 2) + (3 * (x div 2))))
3: (3 * ((x + 1) + (x div 2)))
3: (((x + 1) + (x div 2)) * (x + (x mod 2)))
3: ((x + 1) * ((x + 1) + (x div 2)))
3: (x * ((x + 1) + (x div 2)))
3: (3 * ((x + 2) + (x div 2)))
3: (((x + 2) + (x div 2)) * (x + (x div 2)))
3: (x * ((x + 2) + (x div 2)))
3: (2 * ((x + 1) + (x div 4)))
3: (2 * ((x + 1) + (x div 5)))
3: (5 * ((x + 1) + (x mod 2)))
3: (2 * (4 + (i mod 2)))
3: (x * (4 + (i mod 2)))
3: ((x + 4) * i)
3: ((4 + i) * (1 + i))
3: (2 * ((x + 1) + i))
3: (x * ((x + 1) + i))
3: (2 * (4 - ((~x + 1) div (2 + (x div 4)))))
3: ((x + 2) * ((4x + 9) - (x mod 2)))
3: ((x + 2) * (1 + ((x2 + 4x + 4) div 2) - (x mod 2)))
3: (7 * (x div 2))
3: (3x2 + 7x + 2)
3: (13 * (1 + (x div 2)))
3: (x2 + 14x + 24)
3: (4x2 + 5x)
3: (5x2 + 6x + 1)
3: (15x + 6)
3: (5x2 + 7x + 2)
3: (x * (2 + (5 * i)))
3: (2x2 + 13x)
3: (x * (1 + (2 * (4 + (i mod 2)))))
3: (2 * (1 + (2 * ((2x + 2) - (x mod 2)))))
3: (4x2 + 8x + 18)
3: (2x3 + 3x)
3: (x4 + x2 + x)
3: (2 * (1 + (2 * (x + (x div 5)))))
3: (2 * (1 + (2 * (1 + (x mod 2)))))
3: (2 * (1 + (2 * (x + (x mod 2)))))
3: (2 * (x + (2 * (x + (x mod 2)))))
3: (x * (1 + (2 * (1 + (i mod 2)))))
3: (4x + 6)
3: (2x3 + 3x2 + 3x + 1)
3: ((2x + 5) * (1 + (x div 2)))
3: (2x2 + 9x + 10)
3: (2 * ((2x + 4) + (x div 2)))
3: (12x + 16)
3: (x3 + 3x2 + 3x)
3: (x3 + 6x2 + 14x + 12)
3: (2x3 + 5x2 + 4x + 1)
3: ((x2 + 2x + 2) * (2 + (x mod 2)))
3: (x3 + 4x2 + 6x + 4)
3: (x4 + ~x2 + x)
3: (2 * (1 + (2 * (x - ((0 - ((x - (((x + 1) div 2) mod 6)) div 2)) div 2)))))
3: (9x2 + x)
3: (9x2 + 2x)
3: 51
3: (x2 + 18x + 32)
3: (9x2 + 13x + 4)
3: (4x3 + 6x2 + 3x + 1)
3: (3 * ((10x + 10) + (x div 2)))
3: (6x2 + 6x + 2)
3: (3x3 + 3x2 + 2x)
3: (10x2 + 10x + 2)
3: (x * (1 + (3x * (2 + i))))
3: 73x
3: (x9 + x7 + x5 + x3 + x)
3: (2 * (1 + (8 * (x mod 2))))
3: (16x2 + 10x + 1)
3: (8x2 + 9x + 1)
3: (4x2 + 9x + 2)
3: (18x + 6)
3: (30x + 10)
3: (4x3 + 6x2 + 4x + 1)
3: (9x2 + 3x)
3: (3x3 + x2)
3: (x5 + 4x)
3: (x * (1 + (i * i * i)))
3: (3 * (2 + (3 * (x div 2))))
3: (3 * (1 + (2 * ((x div 5) mod 2))))
3: (4 * (x + (2 * (x mod 2))))
3: (x * (x + (2 * (x mod 2))))
3: (2 * (2 + (3 * (x mod 2))))
3: (x * (1 + (2 * (i mod 2))))
3: (x * (1 + (2 * (if (x mod 5) <= 0 then 0 else 2))))
3: ((2x + 1) * (x div 2))
3: (x3 + 2x2 + x + 2)
3: ((x2 + 1) * (if x <= 0 then 1 else 2))
3: (5x2 + 10)
3: (2x2 + 6)
3: (2 * (x2 + (x div 2)))
3: (x * (x2 + i))
3: (x * (2 + (x * i)))
3: ((2 + (i * i)) * i)
3: (2 * (1 + (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(4x + 1))),x))))
3: (2 * (1 + ((1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2)) div 2)))
3: ((1 + ((1 + ((x2 + 2x) mod (1 + (x div 3)))) div 2)) * (x mod 2))
3: (2 * (2x + ((2x + ((x div 3) mod 3)) div 3)))
3: (2 * (1 + ((1 + (x mod (1 + (x div 4)))) div (1 + ((x + 1) mod 4)))))
3: (3 * (1 + ((2 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 3)))
3: (2 * (1 + ((x + 1) div 3)))
3: (2 * (x + (5x div (if i <= 0 then 1 else i))))
3: (2 * (x + (7x div (if i <= 0 then 1 else i))))
3: (2 * (((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3) + (if x <= 0 then 0 else 1)))
3: (3 * (1 + ((x2 + x) div 2)))
3: (2 * (1 + ((x2 + 2x) div 2)))
3: (2 * (x + ((3 * ((((x + 1) div 2) div 2) div 2)) div 2)))
3: (3 * (1 + ((3 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)) div 2)))
3: (2 * (2x + (2x div 5)))
3: (x * (2 + (x2 div 2)))
3: (2 * (x + (x2 div (x + 17))))
3: (2 * (1 + (((x + 1) div 2) div 2)))
3: (2 * (1 + (((x + 1) div 2) div 3)))
3: (2 * (1 + (((x + 1) div (2 - (16 mod (~x + ~1)))) div 2)))
3: (2 * (x + ((x div 2) div 5)))
3: (2 * (1 + ((x mod 3) div 2)))
3: ((1 + ((x mod 3) div 2)) * (1 + (x mod 2)))
3: (2 * (4x + ((x mod (1 + (x div 2))) div 2)))
3: (3 * (1 + (loop(\(x,i).3x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 3)))
3: ((x + 1) * (2 + (x div 2)))
3: ((2 + (x div 2)) * (x mod 3))
3: (3 * (2x + (x div 2)))
3: (5 * (x + (x div 2)))
3: (5 * (1 + (x div 3)))
3: ((x + 1) * (x + (x div 3)))
3: (5 * (1 + (x div 4)))
3: (3 * (2 + (x div 4)))
3: ((x + 1) * (2 + (x div 4)))
3: ((2 + (x div 4)) * (x div 2))
3: (5 * (x + (x div 4)))
3: (2 * (2 + (x div 5)))
3: (2 * (2 + (x div (1 + (x mod 4)))))
3: ((1 + (x div 8)) * (1 + (x mod 2)))
3: (3 * (2 + (x div 8)))
3: (2 * (1 + (x div (3 * (1 + (x mod (2 * (1 + (x mod (3 + (x mod 2)))))))))))
3: (x * (2 + (3 mod (x + 2))))
3: (3 * (1 + ((x + 1) mod 4)))
3: (2 * (2 + ((x + 1) mod 4)))
3: (2 * (1 + ((~x + 2) mod 4)))
3: (2 * (2 + ((~x + 2) mod 4)))
3: (2 * (1 + ((~1 + (x div 2)) mod 4)))
3: (2 * (1 + ((x + ~1) mod 3)))
3: (2 * (2 + ((x2 + 2x) mod 6)))
3: (2 * (x + ((x * (x div 2)) mod 2)))
3: ((x + 2) * (x + ((x * (x div 2)) mod 2)))
3: (2 * (1 + (((x2 + 2x) div 2) mod (1 + ((1 + (x div 2)) div 3)))))
3: (2 * (2 + ((x3 div 2) mod (x + 4))))
3: (x * (1 + ((x div 2) mod 2)))
3: (2 * (2 + ((x div 2) mod 5)))
3: ((2 + (x mod 2)) * (x div 2))
3: (8 * (x + (x mod 2)))
3: (x * (1 + (x mod 3)))
3: (x * (x + (x mod 3)))
3: ((x + (x mod 4)) * (1 + (x div 4)))
3: (2 * (1 + (x mod 5)))
3: (3 * (2 + (x mod 7)))
3: (2 * (1 + (x mod 9)))
3: (2 * (2 + (x mod 6)))
3: (2 * (1 + (x mod (2 * (1 + (x mod 4))))))
3: (2 * (1 + (x mod (2 * (1 + (x mod (2 * (1 + (x mod 4)))))))))
3: (2 * (1 + (i mod 2)))
3: (2 * (1 + (if (~x + 4) <= 0 then 16 else 1)))
3: (4 * (x + (if (~4 + (x div 2)) <= 0 then 1 else 2)))
3: (2 * (1 + (if (~2 + (x div 3)) <= 0 then 0 else 2)))
3: ((x + 1) * (1 + (if (~1 + ((2x + 1) mod (2 + (x div 4)))) <= 0 then x else 0)))
3: (2 * (x + (if (x + ~4) <= 0 then 1 else x)))
3: (x * (x + (if (x mod 2) <= 0 then 2 else 0)))
3: (2 * (1 + (if (x mod 2) <= 0 then 4 else 0)))
3: ((1 + (if (x mod 2) <= 0 then 4 else 0)) * (if x <= 0 then 1 else 2))
3: ((1 + (if (x mod 2) <= 0 then 6 else 0)) * (if x <= 0 then 1 else 2))
3: ((1 + (if (x mod 2) <= 0 then 16 else 1)) * (if x <= 0 then 1 else 2))
3: (2 * (x + (if (x mod 2) <= 0 then x else 1)))
3: (2 * (1 + (if x <= 0 then 1 else 2)))
3: ((1 + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x)) * (if x <= 0 then 1 else 2))
3: (3 * (x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 1))))
3: (2 * (x + loop(\(x,i).3x,i,1)))
3: ((x + 1) * (1 + loop(\(x,i).(x2 + ~2x),2,8)))
3: (x * (1 + loop(\(x,i).x3,2,x)))
3: (x2 * (x2 + loop(\(x,i).x3,2,x)))
3: (2 * (2 + loop(\(x,i).2x,x,2)))
3: ((x + loop(\(x,i).(x * i),(~1 + i),1)) * (1 + i))
3: ((x + loop(\(x,i).(x * i),i,1)) * (2 + i))
3: ((x + 1) * (2 + i))
3: ((x + 1) * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
3: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) * (1 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)))
3: (~x2 + ~2x)
3: (~7 * (1 + (x div 3)))
3: (~7x + ~7)
3: (2 * (1 - (2 * i)))
3: (2 * (1 - ((~x + 2) div 12)))
3: (2 * (1 - ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)))
3: (x * (1 - (x div 2)))
3: (x * (1 - i))
3: (2 * (4 - (x div 2)))
3: (14x + 4)
3: (4x3 + 3x2 + 2x)
3: (2 * (2 - ((~x + 1) div 3)))
3: (3 * (2 - ((~x + 1) div (2 + (x div 4)))))
3: (2 * (2 - ((x div 2) div ~2)))
3: (3 * (2 - ((x div 2) mod 2)))
3: (x * (2 - ((x div 2) mod 2)))
3: (x * (2 - i))
3: (2 * ((x + 2) - ((x + 1) div (if x <= 0 then 1 else (2 * (1 + ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 2)))))))
3: (~2x + ~4)
3: (3 * ((~x + ~2) + (x mod 2)))
3: (x * (~1 + (4 * (1 + i))))
3: (2 * (5x - (x div 3)))
3: (x3 + 3x2 + ~x)
3: (x3 + 6x2 + 6x)
3: (x4 + x2 + ~x)
3: (3 * ((2x + 2) - ((2 + (x div 2)) mod 6)))
3: (2 * ((2x + 4) - (x mod 4)))
3: (x4 + ~x2 + ~x)
3: (x * (~1 + (9 * i)))
3: (8x2 + 15x + 7)
3: (8x2 + 7x)
3: 62
3: (31x + 31)
3: (x6 + ~x)
3: (6x2 + ~x)
3: (x4 + 2x3 + ~x)
3: (x * (~1 + (4 * (i * i))))
3: ((x + 1) * (~1 + (2 * loop(\(x,i).(x2 + 2),2,5))))
3: (2 * (2x - (2x div 7)))
3: ((x2 + ~1) * (x div 2))
3: (2x2 + ~4)
3: (2 * (~2x + ((x + (x div 2)) div 4)))
3: (2 * (~x + ((x + ~1) div 3)))
3: (3 * (~2x + (x div 2)))
3: (2 * ((x div 2) - (x mod 2)))
3: (x * (~2 + (x div 3)))
3: (x * (~x + (x div 3)))
3: (2 * ((x div 9) - (x mod (x - ((x + ~1) mod 8)))))
3: (2 * ((((x div 2) div 3) mod 2) - (if x <= 0 then 1 else x)))
3: (3 * (~2 + (x mod 2)))
3: (2 * (~2 + (x mod 4)))
3: (3 * (~x + (x mod 4)))
3: (2 * (~2 + loop(\(x,i).10x,x,2)))
3: (x * (~1 + loop(\(x,i).2x2,2,2)))
3: (x * ((x + ~1) - i))
3: (7x2 + ~2x)
3: (((x + 1) - (2 * (i mod 2))) * i)
3: (2 * ((x + 1) - (((~x + 2) - (x div 4)) div 4)))
3: (x2 + ~8x)
3: (2x3 + ~3x2)
3: (2 * (x - (2 * (~x + (x mod 2)))))
3: (2 * (x - (4 * (~x + (x mod 2)))))
3: (9x2 + ~8x)
3: 29x2
3: ~7x2
3: (~8x2 + 2x)
3: (2 * (x - (2 * (x div 3))))
3: (2 * (x - (5 * ((x div 5) mod 2))))
3: (2 * (x - ((x + (x div 2)) div 4)))
3: (2 * (x - ((x + (x div 3)) div 5)))
3: (2 * (x - ((~x + 2) div 2)))
3: (x * (x - ((~x + 2) div 2)))
3: (3 * (x - ((~x + 2) div 4)))
3: (2 * (x - ((x - (x div 5)) div 3)))
3: (2 * (x - ((3 * (x div 4)) div 2)))
3: (2 * (x - ((((x + 1) div 2) div 2) div 2)))
3: (2 * (x - (x div 5)))
3: ((x + 1) * (x - (x div ~2)))
3: ((x - (x div ~2)) * (x div 2))
3: (x * (x - (x div ~2)))
3: (2 * (x - ((x + i) mod 2)))
3: (2 * (x - ((i div 2) mod 2)))
3: (3 * (x - (if (i mod 2) <= 0 then 2 else ~2)))
3: (2 * (x - loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(~2 + i),1)))
3: (((~x + 1) + i) * i)
3: ((i - (4 * (1 - i))) * i)
3: (x * (i - (2 * (i * i))))
3: (8 * (1 + (x mod 2)))
3: (20x + 20)
3: (12x + ~12)
3: (8x2 + ~4x + ~4)
3: (4x2 + ~8x + 4)
3: (x3 + 9x2 + 20x + 12)
3: (10x + 90)
3: (6 * ((x + 1) + (x div 2)))
3: (6 * (3x + (x div 2)))
3: (9x + 27)
3: (3x2 + 9x)
3: (6x + 24)
3: (3x2 + 15x + 12)
3: (4 * (3 - (x mod 2)))
3: (7x2 + 7x)
3: (26 * (if x <= 0 then 1 else 2))
3: (x3 + 15x2 + 38x + 24)
3: (20x + 4)
3: (x5 + x3 + x2)
3: (19x2 + 19x)
3: (x10 + x9 + x8 + x7 + x6 + x5 + x4 + x3 + x2 + x)
3: (8x2 + 8x + 4)
3: (6x2 + 9x + 3)
3: (x4 + 2x3 + 2x2 + 2x + 1)
3: (5x3 + 5x)
3: (x4 + ~x3 + x2 + ~x)
3: (6x2 + 12)
3: (x * ((1 + (2 * i)) * i))
3: (6 * (1 + (x div 8)))
3: (3 * ((1 + (x div 8)) * (1 + (x mod 2))))
3: (2 * ((1 + ((x * (x div 3)) mod (1 + ((2 - (x div 2)) mod 4)))) * (x mod 2)))
3: (2x * (1 + (i mod 2)))
3: ((2x + 2) * (1 + (if (~x + 4) <= 0 then 16 else 1)))
3: (4 * (2 + loop(\(x,i).2x,x,2)))
3: (4x2 + 10x + 4)
3: (x3 + 5x2 + 6x)
3: (x3 + x2 + ~2x)
3: (8x2 + 16x)
3: ((x2 + 2x) * i)
3: (x * ((1 + i) * (1 + i)))
3: ((1 + i) * i * (1 + i))
3: ~3x2
3: ~60
3: (~8x + 4)
3: (~12x + 12)
3: (~4x3 + 6x2 + ~2x)
3: (~2x3 + 6x2 + ~4x)
3: 44x
3: (x5 + ~x3 + ~x2)
3: (x4 + ~x3 + ~x2)
3: 23x2
3: (x5 + ~x2)
3: (8x + ~4)
3: (2x3 + ~x2)
3: (4 * (2x - (x mod 2)))
3: (4 * ((x div 9) - (x mod (x - ((x + ~1) mod 8)))))
3: (10x + ~10)
3: (6x + ~12)
3: (2x2 + ~6x + 4)
3: (2x2 + ~4x)
3: (x3 + ~4x2 + 4x)
3: (5x3 + 3x2 + ~2x)
3: (40x + 40)
3: 50x
3: 25x2
3: 56
3: (32x + 8)
3: (30x + 30)
3: (9x2 + 9x)
3: (x4 + 9x3 + 28x2 + 36x + 16)
3: (8 * (3 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
3: (~16x2 + 16x)
3: (8 * (2 - (x mod 2)))
3: (4 * ((2 - (x mod 2)) * (if x <= 0 then 1 else 2)))
3: 96
3: 72x
3: (12x2 + 12x)
3: (4x3 + 8x2)
3: (x6 + ~x5)
3: (i * i * i * i * i * i * i)
3: (8 * ((1 + (x div 2)) div 2))
3: (4x2 + 12x)
3: (8x2 + 4x)
3: (4x2 + ~4x)
3: (2x3 + 4x2 + 2x)
3: (2x3 + ~2x2)
3: 15x2
3: 20x2
3: 28x2
3: (x4 + 2x3 + x2)
3: 4x4
3: (x5 + ~x4)
3: 4x3
3: (x4 + 4x3)
3: 8x3
3: (x3 * (x2 div 2))
3: (x3 * (x div 2))
3: (3x * (i * i))
3: (4x * (i * i))
3: (x * (i * i * (1 + i)))
3: (4 * ((2x + 1) div 9))
3: ((x + 1) * (((x + 1) div 2) * (1 + (x div 2))))
3: (4 * ((x + 1) div 5))
3: (4 * ((~x + 1) div 3))
3: (4 * ((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3))
3: (4 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2))
3: (4 * ((2 * (x div 2)) div 3))
3: (4 * (x2 div 2))
3: (9 * (x2 div 2))
3: (4 * ((3 * compr(\x.(1 - (x mod (2 + ((1 + ((x - ((x div 2) mod 2)) div 2)) mod 5)))),x)) div 2))
3: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (2 * ((x div 2) mod 2))) * (x div 4))
3: ((x2 + 2x + 1) * (x div 2))
3: ((x2 + ~2x) * (x div 2))
3: (6 * (x div (1 + (loop(\(x,i).2x,x,2) mod (2x + 1)))))
3: (4 * ((x div 2) mod 2))
3: (4 * ((x div 5) mod 2))
3: ((2x + 2) * (x mod 2))
3: (4 * (x mod 3))
3: (4 * (if (~2 + (x div 4)) <= 0 then 0 else 2))
3: (4 * (if (x + ~2) <= 0 then 0 else 2))
3: (4 * loop(\(x,i).3x,2x,2))
3: ((x2 + 2x) * loop(\(x,i).x2,2,(x + 1)))
3: (~x3 + 2x2)
3: ((x2 + ~x) * i)
3: (2 * (2 div (6 - (x div 3))))
3: (2 * ((x + (2 * (1 + (if (x + ~4) <= 0 then 0 else 2)))) div 3))
3: (3 * ((3x2 + x) div 2))
3: (2 * ((2x + 1) div 3))
3: (2 * ((2x + 1) div 9))
3: (2 * ((2x + 1) div ~7))
3: (2 * ((1 + (((x + 1) div 2) div 2)) div 2))
3: (3 * ((1 + (x div 2)) div 2))
3: (((1 + (x div 2)) div 2) * (x div 2))
3: (3 * ((1 + (x div 2)) div 3))
3: (x * ((x + (x div 2)) div 2))
3: (2 * ((x + (x div 2)) div 4))
3: (2 * ((x + (x div 4)) div ~2))
3: (2 * ((x + (x mod 2)) div 3))
3: (5 * ((x + 1) div 2))
3: ((2x + 1) * ((x + 1) div 2))
3: (2 * ((1 - (x div 2)) div 5))
3: (5 * ((~x + 1) div 3))
3: (((~x + 1) div 3) * (x div 2))
3: (x * ((~x + 1) div 3))
3: (((~x + 2) div 2) * (x div 3))
3: (3 * ((~2x + (x div 2)) div 5))
3: (3 * ((~x + ((x div 2) mod 2)) div 2))
3: (3 * ((x + ~1) div 2))
3: (((x + ~1) div 2) * (x mod 3))
3: (((x + ~1) div 3) * (x div 2))
3: (2 * ((x + ~1) div 5))
3: (3 * ((x + ~1) div 5))
3: (x * ((x + ~2) div 3))
3: (2 * ((x - ((~x + 2) div 4)) div 2))
3: (2 * ((x - (x div ~4)) div 2))
3: (5 * ((x2 + 3x) div 2))
3: ((x + 1) * ((3x2 + 7x + 4) div 2))
3: (2 * ((2 * (1 + (2 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))) div 3))
3: (2 * ((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3))
3: (2 * ((2 * (2 + (if x <= 0 then 0 else (2 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))))) div 3))
3: (2 * ((2x + 2) div 5))
3: ((2x + 1) * ((x2 + x) div 2))
3: ((x + 3) * ((x2 + 3x + 2) div 2))
3: ((2x + 1) * ((x2 + 3x + 2) div 2))
3: (2 * ((~2x + 2) div 5))
3: (7 * ((~x2 + x) div 2))
3: ((x + ~1) * ((~x2 + x) div 2))
3: ((x + ~1) * ((x2 + ~2x) div 4))
3: (((2x * (1 + (2 * i))) div (2 + i)) * (~1 + (2 * i)))
3: (((2x * (1 + (2 * i))) div (2 + i)) * i)
3: (2 * ((4 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2)) div 3))
3: ((4x div (1 + i)) * (1 + (2 * i)))
3: ((x + 1) * ((x3 + x2) div 2))
3: (2 * ((x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) div 5))
3: (2 * ((3 * (x div 4)) div 2))
3: (2 * (((x div 4) * (x div 2)) div 2))
3: (2 * ((3 * (x div 5)) div 2))
3: (2 * ((3 * (x div (4 - ((x * (x div 2)) mod 2)))) div 2))
3: (2 * ((((~x2 + 2) mod (~1 + ((~2x + 2) mod (4 + (x div 4))))) * (1 + (x div 2))) div 2))
3: (x * (2x div 3))
3: (5 * (x2 div 2))
3: (((i * i) div 2) * i)
3: (2 * ((3 * compr(\x.(1 - (x mod (2 + ((1 + ((x - ((x div 2) mod 2)) div 2)) mod 5)))),x)) div 2))
3: (3 * (((1 + (x div 2)) div 2) div 2))
3: (2 * (((~x + 2) div 2) div 5))
3: (2 * ((x div 2) div (1 + (x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4)))))))))
3: ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (3 + (x div 2)))
3: ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (x - (x div 4)))
3: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (2 * ((x div 2) mod 2))))
3: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + ((2 * ((~x + 2) div 2)) div 3)))
3: (2 * ((x mod (1 + (x div 2))) div 3))
3: (3 * ((x mod (1 + (x div 2))) div 3))
3: (2 * ((x mod (2 + (x div 2))) div 3))
3: (x * ((x mod (1 + ((~x + 2) mod 4))) div 2))
3: (2 * ((x mod (2 + (6 mod (1 + (x div 2))))) div 2))
3: (7 * (loop(\(x,i).2x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2))
3: (5 * (x div 4))
3: (2 * (x div (3 - (x mod 2))))
3: (2 * (x div (1 + (loop(\(x,i).2x,x,2) mod (2x + 1)))))
3: (2 * (x div ~2))
3: (2 * (x div ~4))
3: (x * (x div 8))
3: (2 * (x div (2 * (2 + ((x div 2) mod 2)))))
3: (2 * (x div (4 * (8 - (x div 2)))))
3: (4 * (x div (if i <= 0 then 1 else i)))
3: ((i div 2) * i)
3: (2 * (2 mod (1 + (x div 2))))
3: (2 * (2 mod (1 + (x div 4))))
3: (3 * (2 mod (1 + (x mod (2 + (x mod 2))))))
3: (2 * ((2x + 1) mod (1 + (2x mod (2 + (x div 4))))))
3: (2 * ((x + 1) mod (1 + (x div 4))))
3: (2 * ((x + 2) mod 5))
3: (2 * ((x + 2) mod 8))
3: (2 * (~x mod 4))
3: (2 * (~x mod 5))
3: (((~x2 + 2) mod (~1 + ((~2x + 2) mod (4 + (x div 4))))) * (1 + (x div 2)))
3: (2 * ((~x + 2) mod 7))
3: (2 * ((~1 + (x2 div 2)) mod (~1 + ((~2x + 2) mod (4 + (x div 4))))))
3: (2 * ((x - (2 * ((x div 2) mod 2))) mod 8))
3: (2 * ((x - (x div 3)) mod 3))
3: (2 * (((1 + (x * (x + (x div 2)))) div 5) mod 2))
3: (2 * (((x - ((x2 div 2) mod (x + 2))) div 3) mod 2))
3: (2 * ((x2 div 2) mod 3))
3: (2 * ((x2 div (x - ((~x + 2) div 2))) mod 2))
3: (2 * (((x mod (~2 + ((~x + 2) div 4))) div 2) mod 2))
3: (2 * ((loop(\(x,i).(x2 div 3),2,x) div (x + 1)) mod 3))
3: (2 * ((x div 2) mod 5))
3: (3 * ((x div 4) mod 2))
3: (5 * ((x div 5) mod 2))
3: (2 * ((x div ~2) mod 2))
3: (2 * ((x div ~3) mod 2))
3: (2 * ((x mod (~2 - (x div 3))) mod 2))
3: (((x mod (~1 + (2 * (x div 3)))) mod 2) * (x div 2))
3: (3 * ((if (x mod 2) <= 0 then x else (~x + 2)) mod 3))
3: (2 * ((if x <= 0 then 1 else x) mod 2))
3: (5 * (x mod 4))
3: (9 * (x mod 5))
3: ((x mod 5) * (x div 4))
3: (2 * (x mod (1 + (x div 8))))
3: (2 * (x mod (2 + ((~x + 2) mod 4))))
3: (2 * (x mod (1 + ((3 * ((x + 1) div 2)) mod (1 + (x div 3))))))
3: (2 * (x mod (2 + (x mod (2 + (x mod 2))))))
3: (2 * (x mod ~2))
3: (2 * (x mod 11))
3: (x * (x mod 10))
3: (2 * (x mod (2 * (1 + (2 * (x mod 2))))))
3: (2 * (x mod loop(\(x,i).(1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),2,x)))
3: (2 * (if (2 - i) <= 0 then x else 1))
3: (2 * (if (~4 + (x div 2)) <= 0 then 0 else 2))
3: ((x + 1) * (if (~4 + (x div 2)) <= 0 then 1 else 2))
3: (x * (if (~4 + (x div 2)) <= 0 then 1 else x))
3: (3 * (if (~2 + (x div 2)) <= 0 then 0 else 2))
3: (2 * (if (~2 + (x div 3)) <= 0 then 1 else 2))
3: (2 * (if (x + ~2) <= 0 then 0 else 2))
3: (x * (if (x + ~2) <= 0 then 1 else x))
3: ((if (x mod 2) <= 0 then 1 else (x div 3)) * ((x mod 3) div 2))
3: (3 * (if (x mod 2) <= 0 then 4 else 1))
3: (x * (if (x mod 2) <= 0 then 4 else 1))
3: (2 * (if (x mod 2) <= 0 then 12 else 1))
3: (x * (if (x mod 2) <= 0 then 10 else 1))
3: (2 * (if (x mod 2) <= 0 then (5 * (if x <= 0 then 1 else 2)) else 1))
3: (2 * (if (x mod 2) <= 0 then (2 * (2 + (if x <= 0 then 0 else 2))) else 1))
3: (3 * (if (x mod 2) <= 0 then (2 * (2 + (if x <= 0 then 0 else 2))) else 1))
3: (2 * (if (x mod 2) <= 0 then x else 1))
3: ((if (x mod 3) <= 0 then (5 * (if x <= 0 then 1 else 2)) else 1) * (2 - (x mod 2)))
3: (3 * (if (x mod 4) <= 0 then (2 + (if x <= 0 then 0 else 2)) else 1))
3: (2 * (if (x mod 4) <= 0 then 8 else 1))
3: (2 * (if (x mod 6) <= 0 then 2 else 1))
3: ((if (i mod 2) <= 0 then 1 else i) * i)
3: (x * (if (i mod 2) <= 0 then 2 else i))
3: ((x + 1) * (if x <= 0 then 1 else x))
3: ((x + ~1) * (if x <= 0 then 1 else x))
3: (2 * (if x <= 0 then 2 else x))
3: ((x + 1) * loop(\(x,i).(x2 + 2x + 1),2,4))
3: ((x + 1) * loop(\(x,i).(2 + (x * (x + i))),2,4))
3: (2 * loop(\(x,i).(10x + 21),x,1))
3: ((x + 1) * loop(\(x,i).(x3 + 1),2,2))
3: ((x + 1) * loop(\(x,i).(x2 + 1),2,4))
3: (2 * loop(\(x,i).(x2 + 2),2,5))
3: ((x2 + x + 1) * loop(\(x,i).(1 + (x * i)),x,1))
3: (2 * loop(\(x,i).(2 + (x mod (1 + i))),x,2))
3: ((x + 1) * loop(\(x,i).(~x2 + 1),2,4))
3: (loop(\(x,i).(3x + ~1),x,2) * loop(\(x,i).(2x + 2),x,0))
3: (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (3 + (((x + 1) div 2) div 2)))
3: (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (((x + 1) div 2) div 2))
3: (x * loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x))
3: (5 * loop(\(x,i).3x,x,2))
3: (x2 * loop(\(x,i).3x,x,x))
3: ((x + ~1) * loop(\(x,i).5x,(x + ~2),x))
3: (3 * loop(\(x,i).7x,x,2))
3: (5 * loop(\(x,i).7x,x,2))
3: (3 * loop(\(x,i).(10x + 2),x,2))
3: (x * loop(\(x,i).(4x + 2),4,2))
3: ((x + 1) * loop(\(x,i).(x2 + 2x),(~1 + i),1))
3: (x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).4x,i,1)))
3: ((x + 1) * loop(\(x,i).(~2x3 + x2),2,2))
3: ((x + 1) * loop(\(x,i).(x * (~x + i)),2,4))
3: ((x + 1) * loop(\(x,i).(x7 + x6 + x5 + x4 + x3 + x2 + x + 1),1,x2))
3: (x * loop(\(x,i).3x2,2,2x))
3: (x * loop(\(x,i).4x2,2,2x))
3: ((x + 1) * loop(\(x,i).x3,2,(x + 1)))
3: (3 * loop(\(x,i).(x * (if (~1 + i) <= 0 then 2 else x2)),x,2))
3: (x * loop(\(x,i).(x * loop(\(x,i).((x2 + ~x) div 2),2,(x + ~2))),1,(x + ~1)))
3: (3 * loop(\(x,i).2x,(x + ~1),x))
3: ((x + 1) * loop(\(x,i).2x,(x + ~1),x))
3: (2 * loop(\(x,i).x2,1,loop(\(x,i).((2 * (x - (2x * i))) div (1 + i)),x,1)))
3: ((x + 1) * loop(\(x,i).x2,2,(x + 1)))
3: ((x + 2) * loop(\(x,i).x2,2,(x + 1)))
3: (x * loop(\(x,i).x2,2,x5))
3: (x * loop(\(x,i).x2,2,x3))
3: (x * loop(\(x,i).x2,4,x))
3: (x * loop(\(x,i).x2,(~1 + i),2))
3: (2 * loop(\(x,i).x2,x,2))
3: (2 * loop(\(x,i).(x * i),(x + ~1),x))
3: (x * loop(\(x,i).((x2 + ~x) div 2),2,(x + 2)))
3: (2 * loop(\(x,i).(x div (2 - (x mod 2))),x,x))
3: (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(7x + ~1))),x))
3: (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,10x)),x))
3: (2 * compr(\x.(x - loop(\(x,i).loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),x,(2x + 1)),2,(x + ~1))),x))
3: (3 * compr(\x.loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,2x),(x + 1)))
3: (3 * compr(\x.loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,x),x))
3: (2 * compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + 1)),x))
3: (2 * compr(\x.loop(\(x,i).loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,0),2,x),(x + 1)))
3: (2 * compr(\x.loop(\(x,i).loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + 1)),2,x),x))
3: (2 div (1 + ((x + 1) mod 4)))
3: (2 div (1 + ((x + 2) mod 10)))
3: (2 div (1 + (x mod 4)))
3: (2 div (5 - ((x + ~2) div 3)))
3: (2 div (5 - (((x + 1) div 2) div 2)))
3: (2 div (if x <= 0 then 2 else x))
3: (4 div (x + 2))
3: (4 div (1 + i))
3: (((x + 1) + (if (x mod 4) <= 0 then 2x else (x div 2))) div 2)
3: ((x + 3) div 7)
3: ((x + (2 * (4 - ((~x + 1) div (2 + (x div 4)))))) div 3)
3: ((x + (2 * (1 + (if (x + ~4) <= 0 then 0 else 2)))) div 3)
3: ((~x2 + 2x + 1) div (x + 5))
3: ((x3 + 1) div 2)
3: ((1 + (2 * ((x + ((x div 2) mod 2)) div 2))) div 3)
3: ((x + (2 * (((x div 4) * (x div 2)) div 2))) div 3)
3: ((1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (x - (x div 4)))) div 2)
3: ((1 + (7 * (loop(\(x,i).2x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2))) div 3)
3: ((1 + (x * (x div 2))) div 2)
3: ((x2 + 1) div 5)
3: ((x2 + 1) div (x + 8))
3: ((1 + ((x + 1) div (1 + (x mod (2 + (x div (2 + (x mod 5)))))))) div 2)
3: ((1 + ((x - ((~x + 2) div 4)) div 2)) div 2)
3: ((1 + ((~x2 + x) div 2)) div 2)
3: ((x + ((~x2 + x) div 4)) div 4)
3: ((1 + ((x2 + ~x) div 2)) div 2)
3: ((x + (((x div 2) * (x div 2)) div 2)) div 2)
3: ((1 + ((x * (x div 2)) div 4)) div 2)
3: ((1 + ((x * (x div 2)) div 4)) div 5)
3: ((1 + ((x * (x div 4)) div 2)) div 2)
3: ((x + (2x div (2 + (x div 2)))) div 2)
3: ((1 + (x2 div (4 + (x div 2)))) div 3)
3: ((1 + (x2 div 7)) div 2)
3: ((1 + (((1 + loop(\(x,i).((x * (x mod 2)) + (x div 2)),x,x)) div 2) div 2)) div 2)
3: ((2 + ((x2 div 2) div 5)) div 3)
3: ((x + ((x2 div 2) div 5)) div 2)
3: ((x + ((x div 2) div 3)) div 3)
3: ((x + ((x div 2) div 3)) div ~2)
3: ((x + (((x - (x div 3)) mod 3) div 2)) div 2)
3: ((x + (((~2x + 4) mod (2 + (x div 2))) div 2)) div 2)
3: ((x + ((x mod 3) div 2)) div 2)
3: ((1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2)) div 2)
3: ((1 + (x div 2)) div (1 + (x mod 2)))
3: (((x div 2) + i) div 2)
3: ((1 + (x div (2 + (x mod 2)))) div 2)
3: ((x + (9 mod (1 + (x div 2)))) div 4)
3: ((((1 + (x div 2)) mod 3) + loop(\(x,i).2x,x,1)) div 3)
3: ((2 + ((1 - (x mod (1 + ((2 - (x div 2)) mod 4)))) mod (x + 1))) div 2)
3: ((2 + ((~3x + 5) mod (1 + (x div 2)))) div 3)
3: ((x + ((x - ((((~x + 1) * (x div 2)) div 2) div 3)) mod 3)) div 2)
3: ((1 + (3x mod (2 + (x div 2)))) div 2)
3: ((1 + ((x2 + 2x) mod (1 + (x div 3)))) div 2)
3: ((((x2 + 2x) mod 6) + (x div 2)) div 2)
3: ((x + ((x * (x div 2)) mod 2)) div 3)
3: ((1 + (x2 mod (1 + (2 * ((x + 1) mod 3))))) div 2)
3: ((x + (((x + (x div 2)) div 4) mod 2)) div 2)
3: ((1 + (((x2 + x) div 2) mod 7)) div 2)
3: ((x + ((x div 2) mod 2)) div 3)
3: ((x + ((x div 3) mod 2)) div 4)
3: ((((x div 4) mod 2) + (x div 2)) div 2)
3: ((x + ((x div 4) mod 2)) div 4)
3: ((x + ((x div 4) mod 3)) div 3)
3: ((x + ((x mod (2 + ((x div 2) mod 2))) mod 2)) div 2)
3: ((x + (x mod 3)) div 2)
3: ((x + (if (x mod 2) <= 0 then 2 else x)) div 2)
3: ((x + (if (x mod 3) <= 0 then x else 1)) div 3)
3: ((x + (if (x mod 4) <= 0 then 1 else 2)) div 3)
3: ((1 + (if x <= 0 then 1 else x)) div 2)
3: ((1 + loop(\(x,i).((x * (x mod 2)) + (x div 2)),x,x)) div 2)
3: ((x + loop(\(x,i).3x,(x + ~2),x)) div 2)
3: ((x + 1) div (2 + ((x div 2) div (1 + (2 mod (if ((x + 1) mod (2 + ((x div 2) mod 2))) <= 0 then x else 1))))))
3: ((x + 1) div (1 + (x div 3)))
3: ((x + 1) div (1 + (x div 5)))
3: ((x + 1) div (2 + (x mod 5)))
3: ((x + 1) div (1 + (x mod (2 + (x div (2 + (x mod 5)))))))
3: ((x + 1) div (2 - ((x * (x div 2)) mod 2)))
3: ((x + 1) div (2 - (x mod 2)))
3: ((x + 1) div (if ((x + 1) mod 5) <= 0 then 4 else 1))
3: ((x + 2) div (1 + (x mod 3)))
3: ((x + 2) div (2 + (x mod 4)))
3: ((x + 2) div (~6 + (((x + ~1) div 2) div 2)))
3: (((~x + 1) - (4 * (if (x + ~2) <= 0 then 0 else 2))) div 5)
3: ((1 - (4 * (x + (if (x + ~4) <= 0 then 1 else 2)))) div 3)
3: ((1 - (2 * ((x + ((x div 2) mod 2)) div 2))) div 3)
3: ((1 - ((x * (x div 2)) div 2)) div (x + 1))
3: ((1 - (x2 div 2)) div (2x + 1))
3: ((1 - (if (~x + 2) <= 0 then x else 2)) div 3)
3: ((1 - (if (~2 + (x div 2)) <= 0 then x else (x + 2))) div 3)
3: ((~x + 1) div (4 + (x mod 3)))
3: ((~x + 1) div (2 + ((x div 2) div 3)))
3: ((~x + 1) div (1 + (x div 3)))
3: ((~x + 1) div (1 + (x mod 4)))
3: ((~x + 1) div 11)
3: ((~x2 + 2) div 2)
3: ((2 - (x2 div 4)) div (x + 1))
3: ((2 - ((x + 1) mod (~1 + (2 * ((~x + 1) div (2 + (x div 2))))))) div 2)
3: ((~x + 2) div (1 + ((if x <= 0 then 2 else x) div 2)))
3: ((~x + 2) div (2 + (x div 4)))
3: (((x + ~1) + (x mod 2)) div 5)
3: ((3x2 + ~x) div 4)
3: ((~1 + (2 * (x div 2))) div 5)
3: ((2x + ~1) div 7)
3: ((2x + ~1) div (2 + (x div 4)))
3: ((2x - (x2 div 4)) div 5)
3: ((2x - (x div 4)) div 3)
3: ((x2 + ~1) div 3)
3: ((x2 + ~2) div 3)
3: ((x2 + ~2) div (x + 6))
3: ((~x + ((2 - (x div 2)) div 2)) div 2)
3: ((~1 + ((~x + ((x div 4) mod 2)) div 2)) div 2)
3: ((~x + (((~x + 2) div 2) div 3)) div 2)
3: ((~x + ((x div 2) div 7)) div 2)
3: ((~x + ((x div 2) div ~2)) div 3)
3: ((~x2 + (x div 2)) div (x + 2))
3: ((~1 + (x div (1 + (x2 mod (2 + (x div 2)))))) div 2)
3: ((~2 + (x div ~3)) div 3)
3: ((~x + (x div 8)) div 2)
3: ((~x + (x div 12)) div 2)
3: ((~x + (x div (if i <= 0 then 1 else i))) div 2)
3: ((~x + (2 mod (x + 1))) div 2)
3: ((~1 + ((x + 1) mod 4)) div 2)
3: ((~x + ((~1 + (x div 2)) mod 3)) div 4)
3: ((~x + (((x + 1) * (x div 2)) mod 2)) div 3)
3: ((~x + ((x * (x div 2)) mod 2)) div 3)
3: ((~x + (((x div 2) div 3) mod 2)) div 2)
3: ((((x div 2) mod 4) - (if x <= 0 then 1 else x)) div 4)
3: (((x mod 3) - (x div 2)) div 2)
3: (((x mod 4) - (x div 2)) div 3)
3: ((~x + (x mod 4)) div 3)
3: ((~1 + loop(\(x,i).2x,x,2)) div (x + 1))
3: ((x + ~1) div 7)
3: ((x + ~1) div 13)
3: ((x + ~2) div (~6 + (x div 4)))
3: ((x + ~4) div 7)
3: ((x + ~4) div (1 + (x div 2)))
3: (((x + 1) - ((x div 2) mod 5)) div 2)
3: ((x - ((2 + (x div 2)) * (x mod 3))) div 2)
3: ((x - ((1 - (x div 2)) div 3)) div 2)
3: ((x - ((~x + 1) div (2 + (x div 4)))) div 2)
3: ((x - ((~x + 2) div 4)) div 3)
3: ((x - ((~2 + (x div 2)) div 3)) div 2)
3: ((x - ((~x + ((x div 4) mod 2)) div 2)) div 2)
3: ((x - ((x2 + ~x) div 4)) div 2)
3: ((x - (((x div 2) div ~2) div 2)) div 2)
3: ((x - ((x div 2) div ~2)) div 2)
3: ((x - (x div ~2)) div 5)
3: ((x - (x div ((~1 + (x div ~4)) div 2))) div 2)
3: ((x - (2 mod (x + 1))) div 5)
3: ((x - (((x + ~1) div 2) mod (1 + ((1 + (x div 2)) div 3)))) div 2)
3: ((x - ((x div 2) mod 4)) div 5)
3: ((x - ((x div 2) mod 5)) div 2)
3: ((x - ((x div 2) mod ~4)) div 5)
3: ((x - ((x div 5) mod 2)) div 3)
3: ((x - (x mod 4)) div 3)
3: ((x - loop(\(x,i).(x - (if x <= 0 then 1 else (2 * (1 + i)))),x,2x)) div 2)
3: ((~x + i) div 2)
3: (3x div (x + 4))
3: ((x2 + 7x + 6) div 2)
3: ((2 * (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) + ((2x + 1) div (3 + (x div 4)))))) div 3)
3: ((((x + 1) + (x div 2)) * ((x + 1) div 2)) div 2)
3: ((x * (4 + (i mod 2))) div 2)
3: ((x2 + 6x + 8) div 2)
3: (((4 + i) * (1 + i)) div 2)
3: (((x + 2) * (1 + ((x2 + 4x + 4) div 2) - (x mod 2))) div 3)
3: (7x div (1 + i))
3: ((3x2 + 7x + 2) div 2)
3: ((2 * (1 + (2 * (x + (x div 5))))) div 3)
3: ((8x + 2) div 5)
3: ((2x3 + x) div 3)
3: ((2x2 + x) div (1 + i))
3: ((2x2 + 4) div 3)
3: ((x3 + x2 + 2x + 2) div 2)
3: ((2 * (1 + ((1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2)) div 2))) div 3)
3: ((3 * (1 + ((2 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 3))) div 2)
3: ((x * (1 + ((x + 1) div 2))) div 2)
3: ((3 * (1 + ((3 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)) div 2))) div 2)
3: ((2 * (1 + (((x + 1) div (2 - (16 mod (~x + ~1)))) div 2))) div 3)
3: ((3 * (1 + (loop(\(x,i).3x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 3))) div 2)
3: (((x + ~1) * (1 + (x div 2))) div 2)
3: (((2 + (x div 2)) * (1 + (x div 2))) div 2)
3: (((x + (x div 2)) * ((x + ~1) div 2)) div 2)
3: (((x + 1) * (x + (x div 3))) div 2)
3: (((2 + (x div 4)) * (x div 2)) div 2)
3: ((4 * (x + (x div 5))) div 3)
3: (((x + 2) * (x + ((x * (x div 2)) mod 2))) div 2)
3: ((2 * (x + ((x div 3) mod 2))) div 3)
3: ((x * (1 + (x mod 3))) div 2)
3: ((((if (x mod 2) <= 0 then 2 else 0) + (x div 2)) * (1 + (x div 2))) div 2)
3: ((2x + 2) div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))
3: ((2x + 4) div ~7)
3: ((x2 + 2x) div 7)
3: ((x2 + 2x) div (2x - ((~x + 2) div 2)))
3: ((x2 + 2x) div 16)
3: ((x * (2 + i)) div 2)
3: (((1 - (2 * (i mod 2))) * i) div 2)
3: ((~x2 + 2x + ~1) div loop(\(x,i).x2,2,3))
3: ((~x2 + x) div 16)
3: ((2 * (2 - ((~x + 1) div 3))) div 3)
3: ((3 * (2 - ((~x + 1) div (2 + (x div 4))))) div 2)
3: ((x * (2 - (x div 2))) div 3)
3: ((~x2 + 3x + ~2) div 2)
3: ((~x2 + 4x + ~4) div 3)
3: ((~x2 + 2x) div (x + 3))
3: ((3 * ((2x + 2) - ((2 + (x div 2)) mod 6))) div 2)
3: ((8x + ~2) div (x + 4))
3: (((2x + ~1) * (x div 2)) div 2)
3: ((2x2 + ~x) div (x + 3))
3: ((x3 + 3x2 + ~x + ~3) div 2)
3: ((x3 + ~x) div 3)
3: ((2 * ((((x div 2) div 3) mod 2) - (if x <= 0 then 1 else x))) div 3)
3: ((x2 + ~4x + 4) div 2)
3: ((2x + ~6) div (1 + (x div 3)))
3: ((2 * (x - (2x div ~7))) div 3)
3: ((2 * (x - ((((x + 1) div 2) div 2) div 2))) div 3)
3: (24 div (x + 1))
3: ((8x + 8) div 5)
3: (5x2 div 2)
3: ((x3 + 7x2 + 14x + 8) div 2)
3: (14x div (if i <= 0 then 1 else i))
3: ((x3 + 9x2 + 8x) div 2)
3: ((13x2 + 13x) div 2)
3: ((x3 + 15x2 + 38x + 24) div 2)
3: ((4x + 8) div (1 + i))
3: ((2x2 + 8x + 8) div 3)
3: ((~2x3 + 3x2 + ~x) div 3)
3: ((~2x3 + 6x2 + ~4x) div 3)
3: ((~x3 + 3x2 + ~2x) div 3)
3: ((11x2 + 11x) div 2)
3: ((2x * (~1 + (4 * i))) div (1 + i))
3: ((x3 + ~3x2 + 2x) div 5)
3: ((x3 + ~3x2 + 2x) div 9)
3: ((5x3 + 3x2 + ~2x) div 2)
3: ((6x * (~1 + (2 * i))) div (2 + i))
3: (18x div (1 + i))
3: (x5 div 2)
3: ((4 * ((2x + 1) div 9)) div 3)
3: ((4 * ((x + 1) div 5)) div 3)
3: ((4 * ((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3)) div 3)
3: ((4 * ((2 * (x div 2)) div 3)) div 3)
3: (4x div (x + 4))
3: (2x2 div ((x + 1) + (x2 div 4)))
3: (2x2 div (x + 1))
3: (2x2 div (x + 2))
3: ((x3 + x2) div (x + 3))
3: (x3 div 4)
3: (x3 div (x + 3))
3: (x3 div (x + 4))
3: ((x * (((x + 1) + (x div 2)) div 2)) div (x + 2))
3: ((((1 + (x div 2)) div 2) * (x div 2)) div 2)
3: ((x * ((1 + (x div 2)) div 2)) div 15)
3: ((3 * ((1 + (x div 2)) div 3)) div 2)
3: ((2 * ((x + 1) div 3)) div 3)
3: ((x * ((~x + 1) div 3)) div 2)
3: ((2 * ((~x + 2) div 2)) div 3)
3: ((((x + ~1) div 2) * (x div 2)) div 3)
3: ((2 * ((x - (x div 4)) div 2)) div 3)
3: ((3 * ((x2 + 3x) div 2)) div 2)
3: ((5 * ((x2 + x) div 2)) div 3)
3: (((((x + 1) div 2) div 2) * (x div 2)) div 2)
3: ((x * ((x div 2) div 3)) div 2)
3: ((3 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)) div 2)
3: (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (3 + (x div 2))) div 2)
3: ((x * ((x mod (1 + ((~x + 2) mod 4))) div 2)) div 3)
3: ((2 * (x div 2)) div (1 + (x div 4)))
3: ((x * (x div 2)) div (x + 3))
3: ((2 * (x div 3)) div ~3)
3: (((~x + 2) * (x div 3)) div 2)
3: (((x div 4) * (x div 2)) div 2)
3: (((x div 5) * (x div 2)) div 2)
3: (((x + ~1) * (x div ~2)) div 2)
3: ((((~x2 + 2) mod (~1 + ((~2x + 2) mod (4 + (x div 4))))) * (1 + (x div 2))) div 2)
3: ((x * (x mod 2)) div 5)
3: (((x mod 5) * (x div 4)) div 2)
3: ((x * loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)) div 2)
3: (2x div (4 + ((x div 2) div 5)))
3: (2x div (4 + (x div 3)))
3: (2x div (3 + (x div 4)))
3: (2x div (1 + (4 * i)))
3: (2x div (1 + ((x + 1) div 5)))
3: (2x div (2 + (x div (1 + (((x2 + 2x) div 2) mod 3)))))
3: (2x div (2 - ((~x + 1) div 3)))
3: (2x div (2 - (x div ~2)))
3: (2x div (~3 + ((~x + 2) div 4)))
3: (x2 div ((x + 5) + (x div 3)))
3: (x2 div ((x + 1) + (2 * (x div 5))))
3: (x2 div ((x + 5) + (x div 2)))
3: (x2 div (4x + 5))
3: (x2 div (2x + 5))
3: (x2 div 19)
3: (x2 div (1 + (2x div 3)))
3: (x2 div (1 + (x div 2)))
3: (x2 div (1 + (if (~2 + (x div 2)) <= 0 then x else (x + 2))))
3: (x2 div (2 - (x mod 2)))
3: (x2 div ((x + 2) - (x div ~3)))
3: (x2 div ~4)
3: (x2 div (3x + ~2))
3: (x2 div (~x + 32))
3: (x2 div (if i <= 0 then 1 else (i * i)))
3: ((2 * i) div (x + 1))
3: ((x * i) div (1 + i))
3: (((1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (x - (x div 4)))) div 2) div 2)
3: (((x2 + 1) div (x + 8)) div 2)
3: (((x2 + (x div 2)) div 2) div 2)
3: (((x + (x2 div 4)) div 2) div 3)
3: (((2 + ((1 - (x mod (1 + ((2 - (x div 2)) mod 4)))) mod (x + 1))) div 2) div 2)
3: (((1 + loop(\(x,i).((x * (x mod 2)) + (x div 2)),x,x)) div 2) div 2)
3: (((x + 1) div 2) div (1 + (x mod 2)))
3: (((x + 1) div (2 - ((x * (x div 2)) mod 2))) div 2)
3: (((x2 + ~1) div 2) div 5)
3: ((((x + 1) - ((x div 2) mod 5)) div 2) div 2)
3: (((x - ((2 - (x div 4)) div 2)) div 2) div 2)
3: (((x - ((x2 + ~x) div 4)) div 2) div 3)
3: (((x - (x mod (~3 + (x mod 2)))) div 2) div 2)
3: (((3 * (1 + (loop(\(x,i).3x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 3))) div 2) div 2)
3: ((((x + 1) * (x + (x div 3))) div 2) div 5)
3: ((((2 + (x div 4)) * (x div 2)) div 2) div 2)
3: (((x2 + x) div 4) div 5)
3: ((((~x + 2) * (x div 2)) div 8) div 2)
3: (((x3 + 3x2 + ~x + ~3) div 2) div 3)
3: (((x3 + 3x2 + ~4x) div 2) div 3)
3: (((2x * (1 + (2 * i))) div (2 + i)) div (1 + i))
3: ((x3 div 2) div 3)
3: (((((x + ~1) div 2) * (x div 3)) div 2) div 2)
3: ((((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (3 + (x div 2))) div 2) div 2)
3: ((((x + ~1) * (x div 2)) div 2) div 2)
3: (((x * (x div 2)) div 2) div (2 + (x div 2)))
3: ((x2 div 2) div (3 + (x div 2)))
3: ((x2 div 2) div (x + 3))
3: ((((x + ~1) div 2) div 2) div 3)
3: ((((x + ~1) div 2) div 2) div ~2)
3: ((((~x4 + x2) div 2) div 3) div 2)
3: (((((~x + 2) * (x div 2)) div 8) div 2) div 2)
3: (((((x + 1) * (~1 + ((~2x + 2) mod (4 + (x div 4))))) div 2) div 2) div 2)
3: ((((((x + 1) * (~1 + ((~2x + 2) mod (4 + (x div 4))))) div 2) div 2) div 2) div 2)
3: ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) div (1 + ((x div 2) mod 2)))
3: ((((2x + 2) mod (2 + (x div 2))) div 2) div 2)
3: ((((2x + ~2) mod (4 + (x div 2))) div 2) div 2)
3: ((loop(\(x,i).(x6 + ~x4),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2) div 2)
3: ((x div 2) div (1 + (2 * (1 + (x mod 2)))))
3: ((x div 2) div (1 + (2 * (x mod 2))))
3: ((x div 2) div (1 + (2 mod (if ((x + 1) mod (2 + ((x div 2) mod 2))) <= 0 then x else 1))))
3: ((x div 2) div (1 + (x mod 3)))
3: ((x div 2) div (1 + (x mod (4 + (x div 2)))))
3: ((x div 2) div (1 + (x mod (1 + (if (~1 + (x mod 3)) <= 0 then (x div 2) else 2)))))
3: ((x div 2) div (1 + (x mod 6)))
3: ((x div 5) div (1 + (x mod 5)))
3: ((1 mod (~2x + 1)) div (x + 2))
3: (((2x + 1) mod (1 + (2 * (2 + (x div 8))))) div 2)
3: (((2x + 1) mod (3 * (1 + (2 * ((x div 5) mod 2))))) div 2)
3: (((x + 1) mod (1 + (x mod 4))) div 2)
3: (((x + 2) mod 5) div 2)
3: (((x + 2) mod (2 + ((x + ~1) mod 4))) div 2)
3: (((0 - (x mod (1 + (2 * (x div (2 * (2 + (x mod 2)))))))) mod (x + 1)) div 3)
3: ((~x mod (2 + (x div 3))) div 2)
3: (((2 - (2 * ((x + (x div 8)) mod 5))) mod (x + 1)) div 3)
3: (((1 - (x mod (3 + (x mod 2)))) mod (x + 1)) div 5)
3: (((~x2 + 2) mod (1 + (x div 3))) div 2)
3: (((1 - ((x mod 3) + (2 * (x mod 2)))) mod (2x + ~1)) div 3)
3: (((x2 - ((x div 2) div 3)) mod 3) div 2)
3: (((~1 + loop(\(x,i).2x,x,(1 + (2 * (((2x + 1) mod (2 + (x div 4))) div 2))))) mod (x + 1)) div 2)
3: (((~1 + loop(\(x,i).2x,x,(2 - ((x div 2) mod 2)))) mod (x + 1)) div 2)
3: (((2x + ~2) mod (4 + (x div 2))) div 2)
3: (((2x + ~4) mod (x + 2)) div 2)
3: ((x3 mod (2x + 3)) div 3)
3: ((((x2 + ~x) div 3) mod 3) div 2)
3: ((x mod (1 + (2 * (if (x mod 2) <= 0 then x else 2)))) div 2)
3: ((x mod (2 + (((x + 1) div 2) div 3))) div 2)
3: ((x mod (1 + (x div 3))) div 2)
3: ((x mod (2 + (x div 3))) div 2)
3: ((x mod (1 + (4 mod (x + 1)))) div 2)
3: ((x mod (2 + ((~x + 2) mod 5))) div 2)
3: ((x mod (1 + (31 mod (x + 1)))) div 3)
3: ((x mod (1 + (3x mod (2 + (x div 2))))) div 2)
3: ((x mod (1 + (((~x2 + x) div 2) mod 4))) div 2)
3: ((x mod (2 + ((x div 4) mod 2))) div 2)
3: ((x mod (~2 + (if (x mod 4) <= 0 then x else 0))) div 2)
3: ((x mod ((x + ~1) - (x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4)))))))) div 2)
3: ((x mod (x - ((x + 1) mod 3))) div 2)
3: ((if (~2 + (x div 3)) <= 0 then 2 else ((x + 1) div 2)) div 2)
3: ((if (~2 + (x div 5)) <= 0 then 2 else x) div 2)
3: ((if (x + ~4) <= 0 then 1 else x) div 4)
3: ((if (~x + i) <= 0 then i else 0) div 2)
3: ((if ((x div 2) mod 2) <= 0 then 2 else x) div 2)
3: ((if x <= 0 then 1 else x) div (~2 + ((~x + 2) div 4)))
3: ((if x <= 0 then 2 else (((x + 1) div 2) div 2)) div 2)
3: ((if x <= 0 then 2 else loop(\(x,i).((2x * (~1 + (2 * i))) div (2 + i)),x,3x)) div 2)
3: (loop(\(x,i).((x + 1) + (((2x + 1) div 7) + (x div 3))),x,0) div 2)
3: (loop(\(x,i).(10x + 1),(x + 1),loop(\(x,i).(10x + 10),x,0)) div 2)
3: (loop(\(x,i).(x2 + 1),2,(x + 1)) div 3)
3: (loop(\(x,i).(2 + ((x2 + x) div 2)),2,(x + 2)) div 3)
3: (loop(\(x,i).(x + (x div 2)),(x + ~1),2) div 2)
3: (loop(\(x,i).(2x + 2),x,1) div 2)
3: (loop(\(x,i).(x2 + x),2,x) div 2)
3: (loop(\(x,i).(x2 + 2x),1,((x div 2) - (x mod 2))) div 2)
3: (loop(\(x,i).(x * (2 + i)),(x + 3),2) div 5)
3: (loop(\(x,i).(x * (2 + i)),(x + 2),1) div 2)
3: (loop(\(x,i).10x,(x + 1),1) div (x + 1))
3: (loop(\(x,i).(x2 * (x4 div 2)),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2)
3: (loop(\(x,i).4x,((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2),1) div 3)
3: (loop(\(x,i).4x,x,x) div 2)
3: (loop(\(x,i).2x,(x + ~2),x) div 2)
3: (loop(\(x,i).2x,(x + ~7),1) div 2)
3: (loop(\(x,i).2x,(x + ~8),1) div 2)
3: (loop(\(x,i).2x,x,(2 + (x div 4))) div 3)
3: (loop(\(x,i).x2,1,(2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))) div 2)
3: (loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2)
3: (loop(\(x,i).((x2 + ~x) div 2),2,(x + 4)) div 3)
3: (loop(\(x,i).((x2 + ~x) div 2),2,(x + ~1)) div 2)
3: (loop(\(x,i).((x2 + ~x) div 2),2,(2x + 4)) div 3)
3: (x div (5 + ((~1 + (x div 2)) mod 3)))
3: (x div (6 + (x mod 2)))
3: (x div (5 + (x mod 3)))
3: (x div (3 + ((~1 + loop(\(x,i).(if x <= 0 then i else (x div 2)),x,2)) mod (x + 1))))
3: (x div (3 + ((x div 3) mod 3)))
3: (x div (4 + ((x div 4) mod 2)))
3: (x div (4 + (x mod 4)))
3: (x div (9 - (x div 2)))
3: (x div (1 + (2 * (4 - ((x div 2) mod 2)))))
3: (x div (1 + (2 * (1 + ((x div 2) mod 2)))))
3: (x div (1 + (2 * (4 - (x div 2)))))
3: (x div (1 + (2 * (2 - ((x div 2) mod 2)))))
3: (x div (1 + (2 * ((~x + 1) mod 4))))
3: (x div (1 + (2 * ((x mod (~1 + (2 * (x div 3)))) mod 2))))
3: (x div (1 + ((1 + (x div 2)) div 2)))
3: (x div (1 + (((2x + 1) mod (2 + (x div 4))) div 2)))
3: (x div (2 + (x div (1 + (((if (x mod 2) <= 0 then 1 else x) mod 4) + ((x mod 3) div 2))))))
3: (x div (1 + (x div (2 + (x div 5)))))
3: (x div (2 + (x div (2 + ((~x + 1) mod (1 + (x mod 4)))))))
3: (x div (2 + (x div (2 + (x2 mod 5)))))
3: (x div (2 + (x div (2 + ((x div 2) mod 3)))))
3: (x div (2 + (x div (1 + ((x div 2) mod (1 + (x mod 4)))))))
3: (x div (2 + (2 mod (1 + (x div 2)))))
3: (x div (1 + ((x + 2) mod 8)))
3: (x div (1 + ((~x + 1) mod 3)))
3: (x div (2 + ((~x + 1) mod 3)))
3: (x div (2 + ((~x + 1) mod (1 + (x mod 4)))))
3: (x div (1 + ((x + ~1) mod 4)))
3: (x div (1 + ((x + ~1) mod 5)))
3: (x div (1 + ((x2 + 2x) mod (1 + ((2 - (x div 2)) mod 4)))))
3: (x div (1 + ((x2 + 2x) mod 6)))
3: (x div (2 + ((~2x + 2) mod 5)))
3: (x div (1 + (2x mod 3)))
3: (x div (2 + (x2 mod 5)))
3: (x div (1 + (((~x + 2) div 2) mod 4)))
3: (x div (1 + (((x2 + 2x) div 2) mod 3)))
3: (x div (2 + ((x div 2) mod 4)))
3: (x div (2 + ((x div 2) mod 5)))
3: (x div (2 + (((x div 2) mod 3) mod 2)))
3: (x div (1 + ((x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4)))))) mod (1 + (x div 2)))))
3: (x div (2 + (loop(\(x,i).(2x + 2),x,1) mod (x + 1))))
3: (x div (1 + (x mod (1 + ((4 + (x div 2)) mod (1 + (x div 3)))))))
3: (x div (1 + (x mod (1 + (loop(\(x,i).2x,x,2) mod (2x + 1))))))
3: (x div (2 + (x mod (2 + (x mod (2 + (x mod 2)))))))
3: (x div (2 + (x mod (2 * (1 + (2 * (x mod 2)))))))
3: (x div (2 + (if (~4 + (x div 2)) <= 0 then 2 else 1)))
3: (x div (2 + (if (x + ~10) <= 0 then 2 else 1)))
3: (x div (1 + (if ((x * (x div 2)) mod 2) <= 0 then x else (x mod 3))))
3: (x div (2 + (if ((x div 3) mod 3) <= 0 then 1 else 2)))
3: (x div (2 + (if (x mod 2) <= 0 then ((x mod 3) div 2) else 2)))
3: (x div (1 + (if (x mod 2) <= 0 then ((x div 2) mod 2) else 3)))
3: (x div (2 + (if (x mod 3) <= 0 then 2 else 0)))
3: (x div ((if (x mod 3) <= 0 then 2 else 1) + (x mod 2)))
3: (x div (1 + loop(\(x,i).(if (x div 2) <= 0 then (1 + (2 * i)) else (x div 2)),x,0)))
3: (x div (~1 - (x div 4)))
3: (x div (1 - (x div (~2 + (((~x + 2) div 2) div 5)))))
3: (x div (2 - ((~x + 1) div 3)))
3: (x div (2 - (((x + 1) * (x div 4)) mod 2)))
3: (x div (2 - (x mod ~4)))
3: (x div (~1 - (x mod 5)))
3: (x div (8 - i))
3: (x div (~1 + (4 * (1 + i))))
3: (x div (~1 + (2 * (x mod ~2))))
3: (x div (~1 + ((~x + 2) div 3)))
3: (x div (~2 + ((x div 2) div ~2)))
3: (x div (~2 + ((x div 4) mod 2)))
3: (x div ((x + ~1) + (2x mod 9)))
3: (x div (2 * (2 + ((x div 4) mod 2))))
3: (x div (5 * (1 + (x mod 3))))
3: (x div (5 * (1 + (x mod 4))))
3: (x div (3 * (2 + (x mod 7))))
3: (x div ((~1 + (x div ~4)) div 2))
3: (x div (if (x + ~2) <= 0 then 1 else 2))
3: (i div ~4)
3: (1 mod (~3x + 4))
3: (1 mod (if x <= 0 then 2 else x))
3: (2 mod (1 + (x mod (1 + (x mod 4)))))
3: (2 mod ((~x + ~1) + (x mod (2 + (x mod 2)))))
3: (2 mod (~1 + (x div ~7)))
3: (2 mod (if (x mod 3) <= 0 then 1 else x))
3: (3 mod (1 + (x div 2)))
3: (4 mod (1 + ((x + 2) div 5)))
3: (4 mod (1 + (x div 4)))
3: (5 mod (1 + (x div 4)))
3: (5 mod (1 + (x mod 6)))
3: (5 mod (x + 2))
3: ((x + 3) mod 9)
3: ((x + 3) mod (1 + (x div 4)))
3: ((2 + ((x div (1 + ((x + 2) mod 8))) mod 2) - (x mod 2)) mod (x + 1))
3: (9 mod (1 + (x div 2)))
3: ((1 + (2 * (2 + (if (~2 + (x div 2)) <= 0 then x else 2)))) mod (x + 1))
3: ((x2 + x + 1) mod 7)
3: ((x3 + 1) mod 7)
3: ((x3 + 2) mod (1 + (x div 3)))
3: ((2x + 1) mod (1 + (2 * (2 + (x div 8)))))
3: ((2x + 1) mod (1 + (x div 4)))
3: ((2x + 1) mod (~1 + loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)))
3: ((2x + 1) mod (3 * (1 + (2 * ((x div 5) mod 2)))))
3: ((x2 + 1) mod (2 + (x div 2)))
3: ((1 + ((x + (x div 2)) div 4)) mod 2)
3: ((1 + ((2 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 3)) mod 3)
3: ((1 + ((x + 1) div 2)) mod 3)
3: ((1 + ((x + 1) div 2)) mod 8)
3: ((1 + ((x + 1) div 3)) mod 5)
3: ((x + ((x + ~2) div (2 + (x div 2)))) mod 3)
3: ((1 + ((2 * (2 + (x div (1 + ((x div 2) mod (1 + (if (x mod 2) <= 0 then 6 else 1))))))) div 3)) mod 3)
3: ((1 + ((x * (x div 2)) div 2)) mod 4)
3: ((x + (x2 div 3)) mod 3)
3: ((x + ((x div 2) div 7)) mod 4)
3: ((1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)) mod 5)
3: ((1 + (x div 2)) mod 8)
3: ((2 + (x div 2)) mod 8)
3: ((2 + (x div 3)) mod (~1 + (2x mod (4 + (x div 4)))))
3: ((1 + (x div 4)) mod 4)
3: ((2 + (x div 4)) mod 4)
3: ((x + (x div 4)) mod 3)
3: ((x + (x div 4)) mod 4)
3: ((x + (x div 4)) mod (1 + (x div 2)))
3: ((x + (x div 5)) mod 5)
3: ((x + (x div (2 + (x div 4)))) mod 3)
3: ((1 + (2 mod (1 + (x mod (1 + (x mod 4)))))) mod (1 + (x div 2)))
3: ((1 + ((2x + ~1) mod (4 + (x div 4)))) mod 3)
3: ((1 + (x mod 2)) mod (x + 1))
3: ((1 + (x mod (1 - loop(\(x,i).(x - (if x <= 0 then 1 else (2 * (1 + i)))),x,2x)))) mod (x + 1))
3: ((1 + (x mod (~2 - (x div 3)))) mod 2)
3: ((2 + (x mod 11)) mod (x + 1))
3: ((2 + (x mod (2 * (1 + (x mod (2 * (1 + (x mod (1 + (x div 3)))))))))) mod (x + 1))
3: ((x + (if (x mod 2) <= 0 then x else 1)) mod 3)
3: ((1 + (if x <= 0 then 1 else x)) mod 3)
3: ((x + 1) mod (3 + ((x div 2) div 3)))
3: ((x + 1) mod (4 + (x div 2)))
3: ((x + 1) mod (3 + (x mod 2)))
3: ((x + 1) mod (1 + ((x div 2) div 3)))
3: ((x + 1) mod (1 + (x div (2 + (if (x mod 2) <= 0 then 1 else 8)))))
3: ((x + 1) mod (1 + (x div (1 - (x div (~2 + (((~x + 2) div 2) div 5)))))))
3: ((x + 1) mod (1 + ((~x + 2) mod 4)))
3: ((x + 1) mod (1 + ((x + ~1) mod 3)))
3: ((x + 1) mod (2 + (x2 mod 5)))
3: ((x + 1) mod (1 + (x mod 6)))
3: ((x + 1) mod (1 - (x div (~2 + (x div ~2)))))
3: ((x + 1) mod (~1 + (2 * ((~x + 1) div (2 + (x div 2))))))
3: ((x + 1) mod (2 * (1 + (x mod 2))))
3: ((x + 1) mod (2 * (1 + (if (x + ~4) <= 0 then 0 else 2))))
3: ((x + 2) mod (2 + (x div 5)))
3: ((x + 2) mod (1 + ((x + (x div 4)) mod (1 + (x div 2)))))
3: ((x + 2) mod (2 + ((x + ~1) mod 4)))
3: ((x + 2) mod (1 + (2x mod (~1 + (2 * (x div 4))))))
3: ((x + 2) mod ~7)
3: ((x + 2) mod 11)
3: ((x + 2) mod 16)
3: ((x + 2) mod loop(\(x,i).(x * i),(x div 4),1))
3: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 10)
3: (~2 mod (1 + (x div 4)))
3: ((0 - (x mod (1 + (2 * (x div (2 * (2 + (x mod 2)))))))) mod (x + 1))
3: (~x mod 8)
3: ((2 - (2 * ((x + (x div 8)) mod 5))) mod (x + 1))
3: ((~2x + 1) mod 9)
3: ((~x2 + 1) mod (1 + (x mod 4)))
3: ((1 - (x2 div 2)) mod 3)
3: ((1 - (x div 3)) mod (1 + (x div 5)))
3: ((1 - (x mod 3)) mod (x + 1))
3: ((1 - (x mod (3 + (x mod 2)))) mod (x + 1))
3: ((1 - (x mod (1 + ((2 - (x div 2)) mod 4)))) mod (x + 1))
3: ((1 - loop(\(x,i).2x,x,2)) mod (x + 1))
3: ((~x + 1) mod (4 + (x div 2)))
3: ((~x + 1) mod (1 + (x div 2)))
3: ((~x + 1) mod (2 + (x div 3)))
3: ((~x + 1) mod (2 + (x div 4)))
3: ((~x + 1) mod (1 + ((4x + ~4) mod (1 + (x div 2)))))
3: ((~x + 1) mod (1 + (2x mod (1 + (x div 2)))))
3: ((~x2 + 2) mod (1 + (x div 3)))
3: ((~x2 + 2) mod 8)
3: ((2 - (x div 2)) mod 6)
3: ((2 - (x div 3)) mod 3)
3: ((~x + 2) mod (1 + (x div 2)))
3: ((~x + 2) mod (2 + (x div 3)))
3: ((~x + 2) mod (2 + (x mod 2)))
3: (((x + ~1) + (x mod 2)) mod 5)
3: ((~x + ~1) mod 9)
3: ((1 - ((x mod 3) + (2 * (x mod 2)))) mod (2x + ~1))
3: ((x2 + ~x + ~1) mod (2 + (x div 2)))
3: ((2x + ~1) mod 5)
3: ((x2 + ~2) mod (x + 10))
3: ((x2 + ~2) mod (2x + 5))
3: ((x2 - ((x div 2) div 3)) mod 3)
3: ((~x + ((~x + 2) div 2)) mod 4)
3: ((~1 + (x div 2)) mod 5)
3: (((x div 2) - ((~1 + (x div 4)) div 2)) mod 2)
3: ((~x + (x div ((if (x mod 2) <= 0 then 1 else x) mod 4))) mod 3)
3: ((~x + ((~x + 1) mod 3)) mod 4)
3: ((~1 + ((~2x + 2) mod (4 + (x div 4)))) mod (x + 1))
3: ((~1 + loop(\(x,i).2x,(x div (2 + (x mod 2))),2)) mod (x + 1))
3: ((~1 + loop(\(x,i).2x,x,(1 + (2 * (((2x + 1) mod (2 + (x div 4))) div 2))))) mod (x + 1))
3: ((loop(\(x,i).2x,x,(1 + (x mod (2 * (1 + (x mod 2)))))) - (x mod 2)) mod (x + 1))
3: ((~1 + loop(\(x,i).2x,x,(2 - ((x div 2) mod 2)))) mod (x + 1))
3: ((x + ~1) mod (2 + (x div 3)))
3: ((x + ~1) mod (2 + (x div (2 + (x mod 2)))))
3: ((x + ~1) mod (1 + (4 mod (x + 1))))
3: ((x + ~1) mod (2 + (x mod 2)))
3: ((x + ~1) mod (1 + (x mod 3)))
3: ((x + ~1) mod (2 + (x mod (1 + (x mod (2 - ((x div 4) div ~2)))))))
3: ((x + ~1) mod (1 + (x mod 6)))
3: ((x + ~2) mod 9)
3: ((x + ~2) mod (2 + ((x div 2) mod 2)))
3: ((x + ~2) mod (2 - (x div ~3)))
3: ((x + ~4) mod (1 + (x div 4)))
3: ((x - ((~2x2 + 4x) div 7)) mod (x + 1))
3: ((x - (((x - ((x mod 3) div 2)) div 2) div 2)) mod 2)
3: ((x - ((((~x + 1) * (x div 2)) div 2) div 3)) mod 3)
3: ((x - (((3 * (x div 2)) div 2) div 2)) mod 2)
3: ((x - ((x div 2) div 5)) mod 2)
3: ((x - (x div 4)) mod 5)
3: ((x - (x div (1 + (x mod 4)))) mod 2)
3: ((x - (x div 8)) mod 3)
3: ((x - (x div 12)) mod 2)
3: ((x - ((2 - (x div 3)) mod 5)) mod 3)
3: ((~1 + i) mod 8)
3: ((~1 + i) mod 10)
3: (3x mod 7)
3: (3x mod (1 + (x div 2)))
3: (12 mod (x + 1))
3: (12 mod (x + 2))
3: ((4x + 4) mod 7)
3: ((4x + ~4) mod (1 + (x div 2)))
3: (10 mod (x + 2))
3: ((x * (x + (x div 2))) mod 6)
3: ((2x + 2) mod 13)
3: ((2x + 2) mod (1 + (x div 3)))
3: ((x2 + x) mod 7)
3: ((x2 + 2x) mod 7)
3: ((x2 + 2x) mod (1 + (x div 3)))
3: ((~2x + 2) mod 9)
3: ((~3x + 3) mod (1 + (x div 2)))
3: ((~2x2 + 2x) mod (2 + (x div 2)))
3: ((~x2 + x) mod 8)
3: ((2x + ~2) mod 5)
3: ((2x + ~2) mod (4 + (x div 2)))
3: ((2x + ~2) mod (4 + (x div 4)))
3: ((2x + ~2) mod (2 + (x div 4)))
3: (16 mod (x + 2))
3: ((4 * (1 + (x mod 2))) mod (1 + (x div 2)))
3: (x5 mod 11)
3: ((6 * (x div (1 + (loop(\(x,i).2x,x,2) mod (2x + 1))))) mod (x + 1))
3: (4x mod 13)
3: (2x2 mod 5)
3: (2x2 mod (4 + (x div 4)))
3: (4x2 mod (2 + (x div 2)))
3: (x3 mod 5)
3: ((x * ((x div 2) div 3)) mod 2)
3: ((2 * (((2x + 1) mod (2 + (x div 4))) div 2)) mod 3)
3: (((x + 1) * (x div 2)) mod 3)
3: (((x + 1) * (x mod 2)) mod 10)
3: ((x * (x mod 3)) mod 7)
3: ((x * (x mod (2 + (x mod 2)))) mod 5)
3: (2x mod (3 + (x div 2)))
3: (2x mod 19)
3: (2x mod (1 + (2 * ((1 + (x div 4)) div 2))))
3: (2x mod (1 + ((x div 2) * (x div 2))))
3: (2x mod (1 + ((x + 1) div 3)))
3: (2x mod (1 + ((x div 2) div 3)))
3: (2x mod (2 + (x mod 6)))
3: (2x mod (~1 + (2 * ((x + ~1) mod 4))))
3: (x2 mod (x + 6))
3: (x2 mod (3 + (x div 4)))
3: (x2 mod (3x + 2))
3: (x2 mod (1 + (2 * ((x + 1) mod 3))))
3: (x2 mod (2x + 1))
3: (x2 mod (2 + (x div 3)))
3: (x2 mod (3x + ~1))
3: (x2 mod (2x + ~1))
3: (x2 mod (~1 + ((~2x + 2) mod (4 + (x div 4)))))
3: (x2 mod 12)
3: (x2 mod 10)
3: (((1 + (x * (x + (x div 2)))) div 5) mod 2)
3: (((x2 + 2x + 1) div 3) mod 3)
3: (((1 + (x div 2)) div 2) mod 3)
3: (((x + 1) div 2) mod 8)
3: (((x + 1) div ~7) mod 2)
3: (((x + 2) div 3) mod 3)
3: (((x + 2) div (2 - (x mod ~4))) mod 2)
3: (((~x + 1) div 2) mod (x + 1))
3: (((~x + 2) div 8) mod 2)
3: (((~x + (x * (x mod 2))) div 3) mod 3)
3: (((~1 + (x div (1 + (x2 mod (2 + (x div 2)))))) div 2) mod 2)
3: (((~x + (2 mod (x + 1))) div 2) mod 2)
3: (((~x + ((x div 2) mod 2)) div 2) mod (2x + 1))
3: (((x + ~1) div 2) mod (1 + ((1 + (x div 2)) div 3)))
3: (((x + ~4) div (1 + (x div 2))) mod 2)
3: (((x - (x div ~2)) div 5) mod 2)
3: (((x - ((1 - (x div 2)) mod 5)) div 2) mod 2)
3: (((x - ((x div 2) mod 2)) div (2 + (x mod 2))) mod 2)
3: (((4x + ~4) div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) mod 4)
3: (((x2 + x) div 2) mod 5)
3: (((x2 + x) div 2) mod 7)
3: (((x2 + 2x) div 2) mod (2 * (2 + (x mod 2))))
3: (((~x2 + x) div 2) mod 4)
3: (((x * (2 - (x div 2))) div 3) mod 3)
3: (((~x2 + 4x + ~4) div 3) mod 3)
3: ((((2x + ~1) * (x div 2)) div 2) mod 3)
3: (((x2 + ~x) div (x + 2)) mod 2)
3: (((2x + ~6) div (1 + (x div 3))) mod 2)
3: ((x3 div (x + 2)) mod 3)
3: (((x * ((1 + (x div 2)) div 2)) div 3) mod 2)
3: ((2x div (1 + ((x + 1) div 5))) mod 2)
3: ((x2 div 2) mod 4)
3: ((x2 div 2) mod (x + 3))
3: ((x2 div 2) mod (x + 4))
3: ((x2 div 2) mod 6)
3: ((x2 div (3 + (x div 2))) mod 2)
3: ((x2 div (2 - ((x div 2) * (x div 2)))) mod 2)
3: ((x2 div 8) mod 2)
3: ((((~1 + (x div 2)) div 2) div 2) mod 2)
3: ((((x + ~1) div 2) div 5) mod 2)
3: (((x div 2) div (1 + (x mod (4 + (x div 2))))) mod 2)
3: (((x3 mod (2x + 3)) div 3) mod 2)
3: (((2x mod (2 + (x div 2))) div 2) mod 2)
3: ((x div 2) mod (1 + (x2 mod (2 * (2 + (x mod 2))))))
3: ((x div (1 + (x div 5))) mod 2)
3: ((x div (1 + ((x + 2) mod 8))) mod 2)
3: ((x div (1 + ((~x + 1) mod 3))) mod 2)
3: ((x div (1 + (2x mod 3))) mod 2)
3: ((x div (1 + (((~x + 2) div 2) mod 4))) mod 2)
3: ((x div (1 + (x mod 8))) mod 2)
3: ((x div ~2) mod 5)
3: ((x div (~3 + (x mod 2))) mod 2)
3: ((x div (~2 + (x mod ~2))) mod 2)
3: ((x div (if (x mod 4) <= 0 then 4 else 1)) mod 2)
3: ((2 mod (~x2 + 2)) mod 3)
3: ((2 mod ((~x + ~1) + (x mod (2 + (x mod 2))))) mod 2)
3: (((x + 1) mod 7) mod 2)
3: (((x + 2) mod 7) mod 2)
3: (((x + 2) mod 9) mod 2)
3: (((~x + 2) mod 7) mod 2)
3: (((x2 + ~x + ~1) mod (2 + (x div 2))) mod 2)
3: (((x2 + ~2) mod (x + 10)) mod 2)
3: (((x + ~1) mod (1 + (x div 2))) mod 3)
3: (((x + ~1) mod (2 + (x div (2 + (x mod 2))))) mod 2)
3: (((x + ~2) mod (2 - (x div ~3))) mod 2)
3: ((8 mod (x + 1)) mod 2)
3: (((2x + ~4) mod (1 + (x div 2))) mod 2)
3: ((2x mod (x + 8)) mod (x + 1))
3: ((x2 mod (4x + 9)) mod 2)
3: (((x2 div 2) mod (x + 1)) mod 2)
3: ((x mod 4) mod (1 + (2x mod (2 - ((~x + 1) div 3)))))
3: ((x mod 4) mod ~3)
3: ((x mod 4) mod (if ((x + 1) mod (2 + ((x div 2) mod 2))) <= 0 then x else 1))
3: ((x mod (1 + ((x div 4) + (x div 3)))) mod 2)
3: ((x mod (3 + (x mod 2))) mod (1 + (x div 2)))
3: ((x mod (4 + (x mod 2))) mod 3)
3: ((x mod (3 + (if (x + ~4) <= 0 then 0 else 2))) mod 2)
3: ((x mod 9) mod 2)
3: ((x mod 13) mod 3)
3: ((x mod (2 + (x div 2))) mod 4)
3: ((x mod (2 + ((x div 2) mod 2))) mod 2)
3: ((x mod (2 - (x div (1 + ((x div 2) mod 3))))) mod 2)
3: ((x mod ((x + ~2) + (x div 2))) mod 2)
3: ((x mod (~2 + ((x * (2 - (x div 2))) div 2))) mod 2)
3: ((x mod (~1 + (((~x + 2) * (x div 2)) div 3))) mod 2)
3: ((x mod (~1 + (x div ~3))) mod 2)
3: ((x mod (~8 + (x mod 2))) mod 2)
3: ((x mod ((x + ~1) - ((x + 2) mod 8))) mod 2)
3: ((x mod ((x + 1) - (x mod 4))) mod 2)
3: ((if ((x div 4) mod 2) <= 0 then x else ~x) mod 8)
3: ((if (x mod 2) <= 0 then 2 else (x2 + 2x)) mod 6)
3: ((if x <= 0 then 1 else x) mod 5)
3: ((if x <= 0 then 1 else x) mod 8)
3: ((if x <= 0 then 1 else x) mod 12)
3: ((if x <= 0 then 2 else ((x + 1) div 2)) mod 3)
3: (loop(\(x,i).(x + (i * i)),x,0) mod (x + 2))
3: (loop(\(x,i).(1 + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,2x)),2,x) mod (x + 1))
3: (loop(\(x,i).3x,x,3) mod (x + 1))
3: (loop(\(x,i).(2x + 6),x,1) mod (x + 1))
3: (loop(\(x,i).(2 * (x + i)),x,1) mod (x + 1))
3: (loop(\(x,i).(x * (x + i)),2,5) mod (x + 1))
3: (loop(\(x,i).~2x,x,1) mod (x + 1))
3: (loop(\(x,i).x3,1,(1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1))) mod (x + 1))
3: (loop(\(x,i).2x,x,1) mod (x + 2))
3: (loop(\(x,i).2x,x,3) mod (x + 1))
3: (loop(\(x,i).2x,x,(if (x mod 4) <= 0 then 0 else 1)) mod (x + 1))
3: (loop(\(x,i).x2,2,10) mod (x + 1))
3: (loop(\(x,i).x2,2,(4 * (2 + (x mod 2)))) mod (x + 1))
3: (loop(\(x,i).(x * i),(x div 2),1) mod (x + 2))
3: (x mod (9 + (x mod 2)))
3: (x mod (3 + (x div 2)))
3: (x mod (1 + ((x div 4) + (x div 3))))
3: (x mod (4 + ((x div 2) mod 2)))
3: (x mod (3 + (if (~2 + (x div 2)) <= 0 then 0 else 2)))
3: (x mod (3 + (if (x + ~4) <= 0 then 0 else 2)))
3: (x mod (3 - (2 div (1 + (x mod 5)))))
3: (x mod (4 - (x mod 4)))
3: (x mod (1 + (6 * (x mod 2))))
3: (x mod (1 + (4 * (if (x mod 3) <= 0 then 0 else 2))))
3: (x mod (1 + (2 * (x div 4))))
3: (x mod (1 + (2 * (x div 5))))
3: (x mod (1 + (2 * ((x - (x div 3)) mod 3))))
3: (x mod (1 + (2 * (2x mod 3))))
3: (x mod (1 + (2 * ((x2 div 2) mod 3))))
3: (x mod (1 + (2 * ((if (x mod 2) <= 0 then 1 else x) mod 3))))
3: (x mod (2 + (3 * (x mod 3))))
3: (x mod (1 + (2 * (x mod loop(\(x,i).(1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),2,x)))))
3: (x mod (1 + (2 * (if (x mod 2) <= 0 then x else 2))))
3: (x mod (1 + (2 * (if (x mod 6) <= 0 then 2 else 1))))
3: (x mod (1 + ((x + (x div 4)) div 2)))
3: (x mod (1 + ((~x mod (2 + (x div 3))) div 2)))
3: (x mod (2 + (x div (1 + (2 * ((x mod (~1 + (2 * (x div 3)))) mod 2))))))
3: (x mod (2 + (x div (1 + ((x div 2) mod (1 + (x mod (1 + ((~x + 2) mod 4)))))))))
3: (x mod (2 + (x div (1 + (x mod (1 + (x mod (1 + (x div (2 + (x div 5)))))))))))
3: (x mod (2 + (x div 8)))
3: (x mod (2 + (x div (2 * (2 - (x mod 2))))))
3: (x mod (1 + (x div (if (x mod 2) <= 0 then 4 else 1))))
3: (x mod (2 + ((x + 1) mod 4)))
3: (x mod (2 + ((~x + 1) mod 4)))
3: (x mod (2 + ((~x + 1) mod (1 + (x div 4)))))
3: (x mod (2 + ((2 - (x div 3)) mod 4)))
3: (x mod (1 + ((~1 + loop(\(x,i).2x,x,(1 + (x mod (2 * (1 + (x mod 2)))))) - (x mod 2)) mod (2x + 1))))
3: (x mod (1 + ((~1 + ((~2x + 2) mod (4 + (x div 4)))) mod (x + 1))))
3: (x mod (1 + ((~1 + loop(\(x,i).2x,(x div (2 + (x mod 2))),2)) mod (x + 1))))
3: (x mod (1 + (3x mod (2 + (x div 2)))))
3: (x mod (1 + (2x mod (~1 + (2 * ((x + ~1) mod 4))))))
3: (x mod (1 + (((~x2 + x) div 2) mod 4)))
3: (x mod (2 + ((((x + 1) div 2) div 2) mod 2)))
3: (x mod (2 + ((x div 2) mod 3)))
3: (x mod (2 + ((x div 2) mod 4)))
3: (x mod (2 + ((x div 4) mod 3)))
3: (x mod (1 + ((x mod (3 + (x mod 2))) mod (1 + (x div 2)))))
3: (x mod (1 + ((x mod 6) mod (1 + (x div 2)))))
3: (x mod (2 + (loop(\(x,i).(2 * (x + i)),x,1) mod (x + 1))))
3: (x mod (1 + (x mod 3)))
3: (x mod (1 + (x mod (2 - ((x div 4) div ~2)))))
3: (x mod (2 + (x mod 8)))
3: (x mod (2 + (x mod (2 * (2 + (x mod 2))))))
3: (x mod (1 + (if (~1 + (x mod 3)) <= 0 then (x div 2) else 2)))
3: (x mod (2 + (if (x mod 2) <= 0 then 1 else (x div 3))))
3: (x mod (1 + (if (x mod 4) <= 0 then 0 else 2)))
3: (x mod (2 + (if (x mod 5) <= 0 then 2 else 0)))
3: (x mod (1 + (if (x mod 8) <= 0 then 2 else 1)))
3: (x mod (1 - (2 * (x div 3))))
3: (x mod (1 - loop(\(x,i).(x - (if x <= 0 then 1 else (2 * (1 + i)))),x,2x)))
3: (x mod (2 - ((x div 2) div ~2)))
3: (x mod (2 - (x div (1 + ((x div 2) mod 3)))))
3: (x mod (~2 - (x mod 4)))
3: (x mod (8 - (x div 3)))
3: (x mod ~9)
3: (x mod (~1 + (((x mod (~1 + (2 * (x div 3)))) mod 2) * (x div 2))))
3: (x mod (~1 + (((x div 3) - (x div 2)) div 2)))
3: (x mod (~2 + ((x * (2 - (x div 2))) div 2)))
3: (x mod (~1 + (((~x + 2) * (x div 2)) div 3)))
3: (x mod (~2 + (x div ~4)))
3: (x mod (~8 + (x mod 2)))
3: (x mod (~2 + (if (x mod 4) <= 0 then x else 0)))
3: (x mod ((x + ~1) - ((x + 2) mod 8)))
3: (x mod ((x + ~1) - (x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4))))))))
3: (x mod ((x + 1) - (loop(\(x,i).2x,x,1) mod (x + 1))))
3: (x mod ((x + 1) - (x mod 4)))
3: (x mod ((x + 1) - (x mod 8)))
3: (x mod (3 * (1 + (x div 4))))
3: (x mod (2 * (1 + ((~1 + (x div 2)) mod 4))))
3: (x mod (2 * (2 + ((x3 div 2) mod (x + 4)))))
3: (x mod (2 * (1 + (x mod 3))))
3: (x mod (2 * (2 + (x mod 4))))
3: (x mod (2 * (1 + (x mod (2 * (1 + (x mod 4)))))))
3: (x mod ~6)
3: (x mod (4 * (2 - (x mod 2))))
3: (x mod ((if ((x div 2) mod 2) <= 0 then 2 else x) div 2))
3: (x mod loop(\(x,i).(1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),2,x))
3: (compr(\x.(loop(\(x,i).(2x + 1),x,0) mod (x + 1)),x) mod (x + 1))
3: (compr(\x.(loop(\(x,i).(~2x + 2),x,2) mod (x + 2)),x) mod (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x)))
3: (if (~x + 4) <= 0 then 1 else 0)
3: (if (~x + 4) <= 0 then 16 else 1)
3: (if (~x + 4) <= 0 then x else 1)
3: (if (2 - (x div 4)) <= 0 then 8 else (x + 1))
3: (if (2 - (x div 4)) <= 0 then (x mod 8) else 1)
3: (if (~x + 2) <= 0 then (1 + (((x mod (1 + (x div 4))) div 2) + (x mod 2))) else 1)
3: (if (~x + 2) <= 0 then (x + ~2) else 0)
3: (if (~x + 2) <= 0 then 8 else 1)
3: (if (~x + 2) <= 0 then ((x * (x div 3)) mod 2) else 1)
3: (if (~4 + (x div 2)) <= 0 then 1 else (x div 3))
3: (if (~4 + (x div 2)) <= 0 then 2 else 0)
3: (if (~4 + (x div 2)) <= 0 then 10 else x)
3: (if (~4 + (x div 2)) <= 0 then x else (x + 3))
3: (if (~2 + (x div 2)) <= 0 then x else 6)
3: (if (~6 + (x div 2)) <= 0 then 1 else 2)
3: (if (~2 + (x div 3)) <= 0 then 1 else 4)
3: (if (~2 + (x div 3)) <= 0 then 2 else ((x + 1) div 2))
3: (if (~2 + (x div 3)) <= 0 then (x mod 2) else 1)
3: (if (~2 + (x div 3)) <= 0 then x else 2)
3: (if (~2 + (x div 4)) <= 0 then x else (x + 2))
3: (if ((x div 4) - (x mod 6)) <= 0 then 1 else 2)
3: (if (~2 + (x div 5)) <= 0 then 1 else 4)
3: (if (~2 + (x div 5)) <= 0 then 1 else x)
3: (if (~1 + (x mod 3)) <= 0 then (x div 2) else 2)
3: (if (~2 + (x mod (2 - (x mod ~4)))) <= 0 then 1 else 2)
3: (if (x + ~1) <= 0 then 1 else ((x div 2) - (((x + ~1) div 5) mod 2)))
3: (if (x + ~1) <= 0 then 1 else ((1 + (x div 2)) div 2))
3: (if (x + ~1) <= 0 then 2 else ((x + 1) div 2))
3: (if (x + ~1) <= 0 then 4 else 0)
3: (if (x + ~1) <= 0 then x else (2 + ((x - ((x div 2) mod 2)) div 2)))
3: (if (x + ~1) <= 0 then i else (x + ~1))
3: (if (x + ~2) <= 0 then 0 else x2)
3: (if (x + ~2) <= 0 then 1 else (2x + ~4))
3: (if (x + ~2) <= 0 then 1 else x3)
3: (if (x + ~2) <= 0 then 1 else (3 * (if (~2 + (x div 3)) <= 0 then 1 else 2)))
3: (if (x + ~2) <= 0 then 1 else x2)
3: (if (x + ~2) <= 0 then 2 else x2)
3: (if (x + ~2) <= 0 then (x + 1) else 0)
3: (if (x + ~2) <= 0 then 2x else 3)
3: (if (x + ~2) <= 0 then x else (2 + ((x - ((x div 4) mod 2)) div 2)))
3: (if (x + ~2) <= 0 then x else (2 - ((~x + 1) div 3)))
3: (if (x + ~3) <= 0 then x else 0)
3: (if (x + ~3) <= 0 then x else 2)
3: (if (x + ~6) <= 0 then x else (x + 2))
3: (if (x + ~12) <= 0 then 2 else 1)
3: (if (x + ~10) <= 0 then 1 else 0)
3: (if (x - (x2 mod (x + 8))) <= 0 then 1 else 2)
3: (if (~2 + i) <= 0 then 1 else 0)
3: (if (~2 + i) <= 0 then i else 1)
3: (if (~x + i) <= 0 then 1 else (x + 2))
3: (if (~x + i) <= 0 then x else 2x)
3: (if ((x2 + 1) mod (x + 4)) <= 0 then 2 else 1)
3: (if ((x + (x div 2)) mod 4) <= 0 then 2 else 1)
3: (if ((x + 1) mod 3) <= 0 then x else 2)
3: (if ((x + 1) mod 5) <= 0 then 0 else 2)
3: (if ((x + 1) mod 5) <= 0 then 4 else 1)
3: (if ((x + 1) mod (3 - (x mod 2))) <= 0 then x else 1)
3: (if ((x + 1) mod 7) <= 0 then 2 else 1)
3: (if ((x + 1) mod (1 + (x div 5))) <= 0 then 1 else 2)
3: (if ((x + 1) mod (2 + (x mod 4))) <= 0 then 2 else 0)
3: (if ((x + 1) mod 8) <= 0 then 0 else 1)
3: (if ((x + 1) mod 8) <= 0 then 2 else 0)
3: (if ((x + 1) mod 8) <= 0 then 3 else x)
3: (if ((x + 1) mod 8) <= 0 then x else 1)
3: (if ((x + 1) mod 12) <= 0 then 2 else 1)
3: (if ((x + 1) mod 10) <= 0 then 2 else 1)
3: (if ((x + 1) mod 10) <= 0 then (x + 2) else 1)
3: (if ((x + 2) mod 4) <= 0 then 0 else 1)
3: (if ((x + 2) mod 5) <= 0 then (x mod 2) else 0)
3: (if ((x + 2) mod 9) <= 0 then 2 else 0)
3: (if ((x + 2) mod (2 + ((x div 2) mod 2))) <= 0 then x else 0)
3: (if ((x + 2) mod (1 + (x mod 4))) <= 0 then 1 else 2)
3: (if ((x + 2) mod 6) <= 0 then 2 else 1)
3: (if ((x + 2) mod 16) <= 0 then 2 else 1)
3: (if ((~1 + (x div 3)) mod 4) <= 0 then 1 else 0)
3: (if ((x + ~1) mod 5) <= 0 then x else 1)
3: (if ((x + ~1) mod 9) <= 0 then 1 else x)
3: (if ((x + ~1) mod 8) <= 0 then x else 1)
3: (if ((x + ~2) mod (2 + (x mod 2))) <= 0 then 1 else 2)
3: (if ((x + ~2) mod 6) <= 0 then x else 2)
3: (if ((x div 2) mod 2) <= 0 then 2 else x)
3: (if ((x div 2) mod 3) <= 0 then 0 else 1)
3: (if ((x div 4) mod 2) <= 0 then x else ~x)
3: (if ((x div ~2) mod 3) <= 0 then 0 else 1)
3: (if ((x mod 3) mod 2) <= 0 then 2 else 0)
3: (if ((x mod ~11) mod 4) <= 0 then 1 else 2)
3: (if (x mod 2) <= 0 then 1 else 10)
3: (if (x mod 2) <= 0 then 1 else (2 * (1 + (x mod (2 * (1 + (x mod (2 * (1 + (x mod 4))))))))))
3: (if (x mod 2) <= 0 then 1 else (x div 8))
3: (if (x mod 2) <= 0 then 1 else loop(\(x,i).(2x + 2),x,0))
3: (if (x mod 2) <= 0 then 2 else (x2 + 2x))
3: (if (x mod 2) <= 0 then 2 else x3)
3: (if (x mod 2) <= 0 then 4 else ~3)
3: (if (x mod 2) <= 0 then (x + 3) else x)
3: (if (x mod 2) <= 0 then (1 + (x div 2)) else 0)
3: (if (x mod 2) <= 0 then (2 + (x mod 4)) else 1)
3: (if (x mod 2) <= 0 then 10 else 0)
3: (if (x mod 2) <= 0 then (11 * (if x <= 0 then 1 else 2)) else 1)
3: (if (x mod 2) <= 0 then ((~1 + (5 * (2 - ((x div 2) mod 2)))) * (if x <= 0 then 1 else 2)) else 1)
3: (if (x mod 2) <= 0 then (3 * (if (x mod 4) <= 0 then (2 + (if x <= 0 then 0 else 2)) else 1)) else 1)
3: (if (x mod 2) <= 0 then 2x else 0)
3: (if (x mod 2) <= 0 then 2x else 1)
3: (if (x mod 2) <= 0 then ((if x <= 0 then 2 else x) div 2) else 1)
3: (if (x mod 2) <= 0 then (x div 2) else 0)
3: (if (x mod 2) <= 0 then (x div 2) else (1 + (if (~x + 2) <= 0 then x else 0)))
3: (if (x mod 2) <= 0 then (x div 2) else (3x + ~1))
3: (if (x mod 2) <= 0 then ((x div 3) mod 2) else 2)
3: (if (x mod 3) <= 0 then 2 else (x mod 2))
3: (if (x mod 3) <= 0 then 2 else x)
3: (if (x mod 3) <= 0 then (5 * (if x <= 0 then 1 else 2)) else 1)
3: (if (x mod 3) <= 0 then ((1 + (if (x mod 2) <= 0 then 16 else 1)) * (if x <= 0 then 1 else 2)) else 1)
3: (if (x mod 3) <= 0 then (2 * (if (x mod 2) <= 0 then (2 + (if x <= 0 then 0 else 2)) else 1)) else 1)
3: (if (x mod 3) <= 0 then (x div 3) else 0)
3: (if (x mod 4) <= 0 then 0 else x)
3: (if (x mod 4) <= 0 then 2 else x)
3: (if (x mod 4) <= 0 then (5 * (if x <= 0 then 1 else 2)) else 1)
3: (if (x mod 4) <= 0 then (3 * (if x <= 0 then 1 else 2)) else 1)
3: (if (x mod 4) <= 0 then (x div 4) else 0)
3: (if (x mod 5) <= 0 then 0 else (1 - (2 * ((x div 5) mod 2))))
3: (if (x mod (3 + ((x div 2) div 3))) <= 0 then 1 else 0)
3: (if (x mod (3 + ((x div 2) div 3))) <= 0 then 2 else 0)
3: (if (x mod (4 + (x div 2))) <= 0 then 1 else x)
3: (if (x mod 7) <= 0 then 0 else 1)
3: (if (x mod 7) <= 0 then 1 else 0)
3: (if (x mod 7) <= 0 then 2 else x)
3: (if (x mod 7) <= 0 then 6 else 0)
3: (if (x mod (1 + (2 * i))) <= 0 then x else 0)
3: (if (x mod (1 + (2 * i))) <= 0 then x else 3)
3: (if (x mod (1 + (((x + 1) div 2) div 3))) <= 0 then x else 1)
3: (if (x mod (2 + (x div 4))) <= 0 then 1 else 2)
3: (if (x mod (2 + ((~x + 1) mod 3))) <= 0 then 1 else 0)
3: (if (x mod (2 + (x mod 2))) <= 0 then 2 else 1)
3: (if (x mod (1 + (x mod 6))) <= 0 then 2 else 1)
3: (if (x mod 6) <= 0 then (if x <= 0 then 1 else 2) else 1)
3: (if (x mod 8) <= 0 then 1 else 0)
3: (if (x mod 8) <= 0 then 1 else x)
3: (if (x mod 12) <= 0 then 1 else 0)
3: (if (x mod 12) <= 0 then (x div 2) else 0)
3: (if (x mod 12) <= 0 then x else 0)
3: (if (x mod 10) <= 0 then 1 else 2)
3: (if (x mod 10) <= 0 then 2 else 0)
3: (if (i mod 2) <= 0 then 1 else x)
3: (if (i mod 2) <= 0 then 2 else 2x)
3: (if (i mod 2) <= 0 then x else 1)
3: (if (i mod 4) <= 0 then 2 else 0)
3: (if x <= 0 then 0 else 9)
3: (if x <= 0 then 0 else (2x + 1))
3: (if x <= 0 then 0 else (1 + (if (x + ~1) <= 0 then x else i)))
3: (if x <= 0 then 0 else (i - (x mod 2)))
3: (if x <= 0 then 0 else (if (x mod (1 + (x mod 6))) <= 0 then 2 else 1))
3: (if x <= 0 then 1 else (x + 4))
3: (if x <= 0 then 1 else ((x mod 2) - ((1 + (8 mod (1 + (x div 2)))) div 2)))
3: (if x <= 0 then 1 else (loop(\(x,i).2x,x,2) - (x mod 2)))
3: (if x <= 0 then 1 else 6)
3: (if x <= 0 then 1 else (6x2 + 2))
3: (if x <= 0 then 1 else (2 * (2x + ((2x + ((x div 3) mod 3)) div 3))))
3: (if x <= 0 then 1 else (2 * (x + (x mod 2))))
3: (if x <= 0 then 1 else (2 * (3x - (x div 3))))
3: (if x <= 0 then 1 else (2 * (4x - (x div 2))))
3: (if x <= 0 then 1 else (i * i))
3: (if x <= 0 then 1 else (x div 7))
3: (if x <= 0 then 1 else (x div (1 + (x mod 2))))
3: (if x <= 0 then 1 else (x div 8))
3: (if x <= 0 then 1 else (loop(\(x,i).(2x + 2),x,0) mod (x + 1)))
3: (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else (1 + (if (~x + 2) <= 0 then x else 0))))
3: (if x <= 0 then 1 else loop(\(x,i).2x,((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3),2))
3: (if x <= 0 then 2 else (2 + loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),2,x)))
3: (if x <= 0 then 2 else (x - (2 * (~2x + ((x + (x div 2)) div 4)))))
3: (if x <= 0 then 2 else (x div 3))
3: (if x <= 0 then 2 else (x mod 2))
3: (if x <= 0 then 2 else loop(\(x,i).((2x * (~1 + (2 * i))) div (2 + i)),x,3x))
3: (if x <= 0 then (2 * i) else (x + ~1))
3: loop(\(x,i).(x + 5),(~1 + (x div 5)),x)
3: loop(\(x,i).((x + 1) + ((2 + (i div 2)) * (i div 2))),x,1)
3: loop(\(x,i).((x + 1) + (2 * ((x div 4) mod 2))),(x + ~1),1)
3: loop(\(x,i).((x + 2) + (((1 + i) * i) div 2)),(x + 2),2)
3: loop(\(x,i).((x + 2) + (2x div 7)),x,2)
3: loop(\(x,i).((x + 2) + (x div 3)),x,1)
3: loop(\(x,i).((x + 1) + (x div (1 + (x mod 4)))),x,0)
3: loop(\(x,i).((2x + 1) + (x mod 2)),x,0)
3: loop(\(x,i).(5x + loop(\(x,i).(7x + loop(\(x,i).10x,i,1)),i,1)),i,1)
3: loop(\(x,i).(7x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)
3: loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)
3: loop(\(x,i).(7x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1)
3: loop(\(x,i).(5x + loop(\(x,i).(12x + loop(\(x,i).11x,i,1)),i,1)),i,1)
3: loop(\(x,i).(7x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1)),i,1)
3: loop(\(x,i).(9x + loop(\(x,i).(6x + loop(\(x,i).11x,i,1)),i,1)),i,1)
3: loop(\(x,i).(3x + loop(\(x,i).(8x + loop(\(x,i).10x,i,1)),i,1)),i,1)
3: loop(\(x,i).(9x + loop(\(x,i).(11x + 1),i,1)),i,1)
3: loop(\(x,i).(7x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1)
3: loop(\(x,i).(7x + loop(\(x,i).3x,(2 * i),1)),i,1)
3: loop(\(x,i).(2x + i),(x + ~1),0)
3: loop(\(x,i).(2x + i),x,x)
3: loop(\(x,i).(x + (i div 3) - (x div ~5)),x,1)
3: loop(\(x,i).(x + i - ((~1 + (x div 4)) div 2)),x,0)
3: loop(\(x,i).(3x + 1),2x,1)
3: loop(\(x,i).(3x + 1),x,3)
3: loop(\(x,i).(7x + 1),x,0)
3: loop(\(x,i).(10x + 6),x,0)
3: loop(\(x,i).(2x + 3),x,0)
3: loop(\(x,i).(2x + 5),x,2)
3: loop(\(x,i).(3x + 4),x,0)
3: loop(\(x,i).(3x + 7),x,1)
3: loop(\(x,i).(x2 + 2x + 1),2,4)
3: loop(\(x,i).(1 + (x * (1 + i))),x,1)
3: loop(\(x,i).(x + ((1 + i) * i)),2x,x)
3: loop(\(x,i).((x + 2) + ((2 + i) * i)),x,2)
3: loop(\(x,i).(x + ((2 + i) * i)),x,1)
3: loop(\(x,i).(2 + (x * (x + i))),2,4)
3: loop(\(x,i).(1 + (2 * (x - (i mod 2)))),x,2)
3: loop(\(x,i).(10x + 1),5,1)
3: loop(\(x,i).(10x + 1),(2x + 1),1)
3: loop(\(x,i).(10x + 1),8,1)
3: loop(\(x,i).(10x + 1),(x div 2),1)
3: loop(\(x,i).(10x + 1),x,loop(\(x,i).(10x + ~8),x,2))
3: loop(\(x,i).(10x + 81),x,1)
3: loop(\(x,i).(4x + 9),x,1)
3: loop(\(x,i).(6x + 2),x,2)
3: loop(\(x,i).(1 + (2x * i)),x,1)
3: loop(\(x,i).(x + (2 * (if (2 - i) <= 0 then x else 1))),x,(x + 1))
3: loop(\(x,i).(2x + 1),(x + ~1),0)
3: loop(\(x,i).(2x + 1),(x div (1 + (x mod 2))),1)
3: loop(\(x,i).(2x + 1),x,8)
3: loop(\(x,i).(x2 + 1),2,(x + 1))
3: loop(\(x,i).(x2 + 1),x,0)
3: loop(\(x,i).(x2 + 1),x,2)
3: loop(\(x,i).(x2 + 2),2,5)
3: loop(\(x,i).((x + 2) + (i * i)),(x + 2),2)
3: loop(\(x,i).(x + (i * i)),x,1)
3: loop(\(x,i).(x + (5x div (1 + i))),x,6)
3: loop(\(x,i).(x + (5x div (if i <= 0 then 1 else i))),x,(x + 2))
3: loop(\(x,i).(2 + ((x2 + x) div 2)),2,(x + 2))
3: loop(\(x,i).(x + (10x div (if i <= 0 then 1 else i))),x,1)
3: loop(\(x,i).(x + ((4x + 8) div (1 + i))),x,3)
3: loop(\(x,i).(x + (8x div (if i <= 0 then 1 else i))),x,1)
3: loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,(x + 2))
3: loop(\(x,i).(4x + (2x div (1 + i))),x,3)
3: loop(\(x,i).(x + (x div 2)),x,3)
3: loop(\(x,i).(x + (x div 5)),x,5)
3: loop(\(x,i).(x + (x div (~1 + (2 * i)))),x,i)
3: loop(\(x,i).((x + 2) + (x div (if i <= 0 then 1 else i))),x,0)
3: loop(\(x,i).(1 + (x mod (1 + (i mod (x + 1))))),x,0)
3: loop(\(x,i).(2 + (if (~x + i) <= 0 then 0 else x)),x,1)
3: loop(\(x,i).(2 + (if (~x + i) <= 0 then 0 else x)),i,1)
3: loop(\(x,i).(2 + (if x <= 0 then 1 else 4x)),(x div 2),(x mod 2))
3: loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)
3: loop(\(x,i).(6x + loop(\(x,i).(5x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)
3: loop(\(x,i).(8x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)
3: loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),i,1)),i,1)
3: loop(\(x,i).(8x + loop(\(x,i).(9x + loop(\(x,i).11x,i,1)),i,1)),i,1)
3: loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).10x,i,1)),i,1)),i,1)
3: loop(\(x,i).(8x + loop(\(x,i).(3x + 1),i,1)),i,1)
3: loop(\(x,i).(4x + loop(\(x,i).(3x + 1),i,1)),x,1)
3: loop(\(x,i).(8x + loop(\(x,i).(5x + 1),i,1)),i,1)
3: loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).2x,i,1)),i,1)),i,1)
3: loop(\(x,i).(8x + loop(\(x,i).(9x + 1),i,1)),i,1)
3: loop(\(x,i).(8x + loop(\(x,i).(10x + 1),i,1)),i,1)
3: loop(\(x,i).(8x + loop(\(x,i).(4x + 1),i,1)),i,1)
3: loop(\(x,i).(x + loop(\(x,i).(2 + (if (~x + i) <= 0 then 0 else x)),i,1)),x,0)
3: loop(\(x,i).(8x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)
3: loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)
3: loop(\(x,i).(6x + loop(\(x,i).(4x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)
3: loop(\(x,i).(8x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)
3: loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).3x,i,1)),i,1)),i,1)
3: loop(\(x,i).(8x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1)
3: loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).5x,i,1)),i,1)),i,1)
3: loop(\(x,i).(8x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1)
3: loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1)),i,1)
3: loop(\(x,i).(8x + loop(\(x,i).(11x + 1),i,1)),i,1)
3: loop(\(x,i).(8x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1)
3: loop(\(x,i).(1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x)),1,(6x + 1))
3: loop(\(x,i).(1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x)),2,6x)
3: loop(\(x,i).(12x + loop(\(x,i).3x,(2 * i),1)),i,1)
3: loop(\(x,i).(6x + loop(\(x,i).3x,(2 * i),1)),i,1)
3: loop(\(x,i).(8x + loop(\(x,i).7x,i,1)),i,1)
3: loop(\(x,i).(4x + loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),i,1)),i,1)
3: loop(\(x,i).(loop(\(x,i).(x * i),(~1 + i),1) + (x * i)),i,0)
3: loop(\(x,i).(x + loop(\(x,i).(x * i),i,1)),(x + ~1),1)
3: loop(\(x,i).(x + 2),(x + ~8),x)
3: loop(\(x,i).(x + i),(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),0)
3: loop(\(x,i).(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1,(x + (x div 13)))
3: loop(\(x,i).(x + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i)),x,0)
3: loop(\(x,i).(compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x + 2)),x) + i),2,x)
3: loop(\(x,i).~x,x,2)
3: loop(\(x,i).~x,x,(~1 + (x mod 3)))
3: loop(\(x,i).(~2x2 + 1),2,2)
3: loop(\(x,i).(~2x + 1),i,0)
3: loop(\(x,i).(~2x + 1),i,1)
3: loop(\(x,i).(1 - loop(\(x,i).(x - (if x <= 0 then 1 else (2 * (1 + i)))),x,2x)),2,x)
3: loop(\(x,i).(~x + 1),x,(x + 2))
3: loop(\(x,i).((~x + ~1) + i),x,2)
3: loop(\(x,i).(3x + ~1),x,0)
3: loop(\(x,i).(3x + ~2),x,0)
3: loop(\(x,i).(~1 + (x * (1 + i))),x,1)
3: loop(\(x,i).(10x + ~6),x,2)
3: loop(\(x,i).(10x + ~1),x,1)
3: loop(\(x,i).(6x + ~1),x,2)
3: loop(\(x,i).(4x2 + ~1),2,2)
3: loop(\(x,i).(2x + ~1),(x + ~1),loop(\(x,i).2x,x,1))
3: loop(\(x,i).(2x + ~1),x,8)
3: loop(\(x,i).(2x + ~1),x,12)
3: loop(\(x,i).(2x + ~1),x,x)
3: loop(\(x,i).(2x - (i mod 2)),(x + ~1),1)
3: loop(\(x,i).(x2 + ~1),2,(x + 2))
3: loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),(~1 + i),1)
3: loop(\(x,i).(((2x + 1) div 3) - (((x2 + ~x) div 2) div (x + 3))),2,x)
3: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(x + 8))
3: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(7x + 1))
3: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(8x + 1))
3: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(6x + 1))
3: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(6x + 2))
3: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x + 1))
3: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(3x + ~1))
3: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(5x + ~1))
3: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(9x + ~1))
3: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(x2 + ~2))
3: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(7x + ~1))
3: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(7x + ~3))
3: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(6x + 4))
3: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,8x)
3: loop(\(x,i).(~1 + (if x <= 0 then (2 * i) else x)),x,2)
3: loop(\(x,i).(x + ~2),(x + ~8),x)
3: loop(\(x,i).((3x + 1) - (i mod 2)),x,1)
3: loop(\(x,i).((x + 1) - (((x + 1) div 2) div 3)),2,x)
3: loop(\(x,i).((x + 1) - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)),2,x)
3: loop(\(x,i).((3x + 1) - i),x,1)
3: loop(\(x,i).(x - (2 * (~x + i))),x,2)
3: loop(\(x,i).(~3x2 + x),2,2)
3: loop(\(x,i).(x - ((~x + (x div (if i <= 0 then 1 else i))) div 2)),x,1)
3: loop(\(x,i).(x - (2x div (1 + (4 * i)))),x,x)
3: loop(\(x,i).(x - ((if (~x + i) <= 0 then i else 0) div 2)),x,x)
3: loop(\(x,i).(x - (x div (8 - i))),2,x)
3: loop(\(x,i).(x - (x div (~2 + (x mod ~2)))),x,1)
3: loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,i)
3: loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then x else 3)),x,x)
3: loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 2 else 1)),(x + 1),x)
3: loop(\(x,i).(x - (if x <= 0 then 0 else (1 + (2 * i)))),x,x)
3: loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,i)
3: loop(\(x,i).(x - (if x <= 0 then 0 else (i - (x mod 2)))),x,x)
3: loop(\(x,i).(x - (if x <= 0 then 1 else (x - ((if x <= 0 then 2 else loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 2)))),x,(x + 2))
3: loop(\(x,i).(x - (if x <= 0 then 1 else (x div (1 + (x mod 2))))),x,(x + 1))
3: loop(\(x,i).(x - (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else (1 + (if (~x + 2) <= 0 then x else 0))))),x,(x + 1))
3: loop(\(x,i).(x - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,i)),x,1)
3: loop(\(x,i).((~2x + 1) + i),x,1)
3: loop(\(x,i).(i - (x * i)),x,0)
3: loop(\(x,i).3x,(2x + 1),2)
3: loop(\(x,i).3x,(1 + i),1)
3: loop(\(x,i).3x,(~2 + (2 * i)),1)
3: loop(\(x,i).3x,(~1 + i),x)
3: loop(\(x,i).3x,((x * (x mod 2)) div 2),1)
3: loop(\(x,i).3x,x,8)
3: loop(\(x,i).3x,i,(1 + i))
3: loop(\(x,i).(4x + 4),x,2)
3: loop(\(x,i).(4x + ~4),x,2)
3: loop(\(x,i).5x,(x + ~1),x)
3: loop(\(x,i).5x,(x + ~2),x)
3: loop(\(x,i).5x,(~1 + i),1)
3: loop(\(x,i).5x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
3: loop(\(x,i).5x,(x div 2),1)
3: loop(\(x,i).(2x + 6),x,2)
3: loop(\(x,i).(2x + 8),x,1)
3: loop(\(x,i).(x * (3 + i)),x,2)
3: loop(\(x,i).(x * (4 + i)),x,3)
3: loop(\(x,i).(x * (4 + i)),x,(x + 2))
3: loop(\(x,i).7x,(x + 1),x)
3: loop(\(x,i).7x,x,3)
3: loop(\(x,i).(2x + 16),x,0)
3: loop(\(x,i).(2x + 16),x,1)
3: loop(\(x,i).(x * (1 + (3x * (2 + i)))),2,x)
3: loop(\(x,i).(x4 + x),1,x3)
3: loop(\(x,i).(x * (1 + (6 * i))),3,x)
3: loop(\(x,i).(4x + 2),4,2)
3: loop(\(x,i).(4x + 2),x,0)
3: loop(\(x,i).(3x2 + 3),2,1)
3: loop(\(x,i).(x3 + x),1,x4)
3: loop(\(x,i).(x3 + x),x,1)
3: loop(\(x,i).(2x2 + 4),2,1)
3: loop(\(x,i).(2x2 + 8),2,2)
3: loop(\(x,i).(x * (x2 + i)),2,2)
3: loop(\(x,i).((x + 2) * (x + (x div 2))),(2x + 3),2)
3: loop(\(x,i).(x * (2 + (i mod 2))),x,1)
3: loop(\(x,i).(x * (~1 + ((i mod 2) + i))),x,1)
3: loop(\(x,i).(x * (1 + (if (x mod (1 + i)) <= 0 then 0 else i))),x,1)
3: loop(\(x,i).(2 * (x + loop(\(x,i).3x,i,1))),x,2)
3: loop(\(x,i).(2x + 2),(x div 2),(1 + (x mod 2)))
3: loop(\(x,i).(2x + 2),x,4)
3: loop(\(x,i).(3x + 3),x,1)
3: loop(\(x,i).(x2 + x),1,(1 + loop(\(x,i).2x,x,1)))
3: loop(\(x,i).(x2 + x),1,x7)
3: loop(\(x,i).(x2 + x),1,x5)
3: loop(\(x,i).(x2 + x),1,loop(\(x,i).(2x + 2),x,2))
3: loop(\(x,i).(x2 + x),1,loop(\(x,i).10x,x,1))
3: loop(\(x,i).(x2 + x),1,loop(\(x,i).2x,x,2))
3: loop(\(x,i).(x2 + x),1,loop(\(x,i).x2,x,2))
3: loop(\(x,i).(2x + 4),(x div 2),(x mod 2))
3: loop(\(x,i).(2x + 4),x,2)
3: loop(\(x,i).(2x + 4),x,(x2 + ~x))
3: loop(\(x,i).(3x + 6),x,1)
3: loop(\(x,i).(x2 + 2x),1,((x div 2) - (x mod 2)))
3: loop(\(x,i).(x2 + 2x),2,6)
3: loop(\(x,i).(x2 + 2x),(~1 + i),1)
3: loop(\(x,i).(x * (1 + i)),2x,1)
3: loop(\(x,i).(x * (2 + i)),4,1)
3: loop(\(x,i).(x * (2 + i)),(x + 3),2)
3: loop(\(x,i).(x * (2 + i)),(x + 2),1)
3: loop(\(x,i).(x * (2 + i)),(x + ~1),x)
3: loop(\(x,i).(x * (2 + i)),(~1 + i),1)
3: loop(\(x,i).(x * (2 + i)),x,2)
3: loop(\(x,i).((x + 1) * (x + i)),2,2)
3: loop(\(x,i).(x * (x + i)),2,x)
3: loop(\(x,i).(x * (2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),i))),x,3)
3: loop(\(x,i).(x * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i))),x,2)
3: loop(\(x,i).~2x,x,2)
3: loop(\(x,i).~2x,x,4)
3: loop(\(x,i).~2x,x,x)
3: loop(\(x,i).~2x,i,1)
3: loop(\(x,i).~3x,x,1)
3: loop(\(x,i).(x * (0 - i)),i,1)
3: loop(\(x,i).(~2x + 2),x,3)
3: loop(\(x,i).(2 * (2 - (i mod 2))),x,1)
3: loop(\(x,i).(x * ((x + ~1) + i)),2,x2)
3: loop(\(x,i).(((x + ~1) + i) * i),x,0)
3: loop(\(x,i).(2 * ((x + ~2) + i)),x,1)
3: loop(\(x,i).11x,x,3)
3: loop(\(x,i).11x,x,4)
3: loop(\(x,i).(2 * ((2x + 2) - (x div (1 + i)))),x,0)
3: loop(\(x,i).(8x2 + ~x),2,x)
3: loop(\(x,i).(2 * (4x - (x div 2))),x,1)
3: loop(\(x,i).(2x2 + ~x),2,x)
3: loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),(x + ~1),x)
3: loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,x2)
3: loop(\(x,i).(x * (~1 + (2 * i))),(x div 2),1)
3: loop(\(x,i).(x * (~1 + (2 * i))),x,(x + 2))
3: loop(\(x,i).(2 * (~x + (i mod 2))),x,1)
3: loop(\(x,i).(2x + ~2),x,1)
3: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).3x,x,1))
3: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).4x,i,1))
3: loop(\(x,i).(x2 + ~x),2,(x + 2))
3: loop(\(x,i).((x + ~1) * i),i,0)
3: loop(\(x,i).(2x + ~4),(x + ~2),0)
3: loop(\(x,i).(x2 + ~2x),2,8)
3: loop(\(x,i).(((x + 1) - (2 * (x mod 2))) * (1 + i)),x,1)
3: loop(\(x,i).(x * ((x + 1) - i)),2,(x + 2))
3: loop(\(x,i).(10x + ~4),x,1)
3: loop(\(x,i).(5x2 + ~8x),2,x)
3: loop(\(x,i).(2 * (x - (2x * i))),x,1)
3: loop(\(x,i).(2 * (x - ((x + i) mod 2))),x,1)
3: loop(\(x,i).(2 * (x - (i mod 2))),x,(2x + 1))
3: loop(\(x,i).(2 * (x - (i mod 2))),x,(x mod 2))
3: loop(\(x,i).(x * (x - i)),2,8)
3: loop(\(x,i).(((~x + 1) + i) * i),x,0)
3: loop(\(x,i).(x * (~x + i)),2,4)
3: loop(\(x,i).(x * (~x + i)),2,x)
3: loop(\(x,i).(8x2 + ~4x + ~4),2,x)
3: loop(\(x,i).10x,(2x + 1),1)
3: loop(\(x,i).10x,(x + 1),(x + 1))
3: loop(\(x,i).10x,(x + 2),1)
3: loop(\(x,i).10x,2x,1)
3: loop(\(x,i).10x,x2,1)
3: loop(\(x,i).10x,x,7)
3: loop(\(x,i).10x,x,(x + 1))
3: loop(\(x,i).10x,x,8)
3: loop(\(x,i).14x,x,1)
3: loop(\(x,i).(x7 + x6 + x5 + x4 + x3 + x2 + x + 1),1,x2)
3: loop(\(x,i).(x4 + x2),1,x4)
3: loop(\(x,i).(2x * (1 + (2 * i))),x,1)
3: loop(\(x,i).(10x + 10),(x + 1),0)
3: loop(\(x,i).(2x * (~1 + (2 * i))),(x + ~2),x)
3: loop(\(x,i).(2x * (~1 + (2 * i))),x,1)
3: loop(\(x,i).(2x * (~1 + (2 * i))),i,1)
3: loop(\(x,i).(x * ((~1 + (2 * i)) * i)),x,1)
3: loop(\(x,i).(4x + ~8),x,0)
3: loop(\(x,i).8x,x2,1)
3: loop(\(x,i).8x,x,3)
3: loop(\(x,i).12x,x,2)
3: loop(\(x,i).12x,x,3)
3: loop(\(x,i).x5,1,5)
3: loop(\(x,i).(10 * (if x <= 0 then 1 else x)),x,0)
3: loop(\(x,i).4x,(2x + 1),2)
3: loop(\(x,i).4x,2x,1)
3: loop(\(x,i).4x,2x,2)
3: loop(\(x,i).4x,x2,1)
3: loop(\(x,i).4x,(x div 2),2)
3: loop(\(x,i).4x,x,9)
3: loop(\(x,i).6x,(x + ~2),x)
3: loop(\(x,i).6x,(~1 + i),1)
3: loop(\(x,i).6x,x2,1)
3: loop(\(x,i).6x,x,(x + 1))
3: loop(\(x,i).6x,x,8)
3: loop(\(x,i).(2x2 + 2x),x,1)
3: loop(\(x,i).2x2,(~1 + i),1)
3: loop(\(x,i).3x2,2,2x)
3: loop(\(x,i).4x2,2,2)
3: loop(\(x,i).4x2,2,2x)
3: loop(\(x,i).x3,1,(4x2 + 4x + 1))
3: loop(\(x,i).x3,1,(1 + (x div 2)))
3: loop(\(x,i).x3,1,6)
3: loop(\(x,i).x3,2,4)
3: loop(\(x,i).x3,2,(2x + 1))
3: loop(\(x,i).x3,3,x)
3: loop(\(x,i).x3,(x + 1),2)
3: loop(\(x,i).x3,4x,2)
3: loop(\(x,i).x3,x2,x)
3: loop(\(x,i).(2x * i),(x div 2),1)
3: loop(\(x,i).(2x * i),x,2)
3: loop(\(x,i).(2x * i),i,x)
3: loop(\(x,i).((x2 + x) * i),2,2)
3: loop(\(x,i).(x2 * i),2,3)
3: loop(\(x,i).(x * (i * i * i)),x,1)
3: loop(\(x,i).(x * (i * i)),(~1 + i),1)
3: loop(\(x,i).(x * (i * i)),x,2)
3: loop(\(x,i).(x * (x4 div 2)),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
3: loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(x + ~1),x)
3: loop(\(x,i).(x * loop(\(x,i).x2,1,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)))),x,1)
3: loop(\(x,i).(x * loop(\(x,i).((x2 + ~x) div 2),2,(x + ~2))),1,(x + ~1))
3: loop(\(x,i).2x,((((1 + (8 mod (1 + (x div 2)))) div 2) + (if x <= 0 then 0 else 1)) - (x mod 2)),1)
3: loop(\(x,i).2x,(x + 2),3)
3: loop(\(x,i).2x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),3)
3: loop(\(x,i).2x,((x div 2) - ((3 * (x div 4)) div 2)),1)
3: loop(\(x,i).2x,(x + ~7),1)
3: loop(\(x,i).2x,(compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1)
3: loop(\(x,i).2x,(x * (x mod 2)),2)
3: loop(\(x,i).2x,((x + ~1) div 2),1)
3: loop(\(x,i).2x,((x - (x div 3)) div 3),1)
3: loop(\(x,i).2x,((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3),2)
3: loop(\(x,i).2x,(2x div 3),1)
3: loop(\(x,i).2x,(x div 2),(3 + (x mod 2)))
3: loop(\(x,i).2x,(x div 3),1)
3: loop(\(x,i).2x,(x div (2 + (x mod 2))),2)
3: loop(\(x,i).2x,(x mod 4),1)
3: loop(\(x,i).2x,(x mod 5),1)
3: loop(\(x,i).2x,x,(x + 6))
3: loop(\(x,i).2x,x,(1 + (2 * (((2x + 1) mod (2 + (x div 4))) div 2))))
3: loop(\(x,i).2x,x,(2x + 1))
3: loop(\(x,i).2x,x,(2 + (x div 4)))
3: loop(\(x,i).2x,x,~1)
3: loop(\(x,i).2x,x,(if (x mod 3) <= 0 then 1 else 2))
3: loop(\(x,i).2x,x,(if (x mod 4) <= 0 then 0 else 1))
3: loop(\(x,i).2x,x,(if x <= 0 then 1 else x))
3: loop(\(x,i).2x,x,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))
3: loop(\(x,i).2x,i,i)
3: loop(\(x,i).x2,1,(1 + (2 * compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + x + 1))),x))))
3: loop(\(x,i).x2,1,(1 + (x mod (1 + (x div (1 + (loop(\(x,i).2x,x,2) mod (2x + 1))))))))
3: loop(\(x,i).x2,1,(1 + (x mod (1 + ((4 + (x div 2)) mod (1 + (x div 3)))))))
3: loop(\(x,i).x2,1,(~1 + ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)))
3: loop(\(x,i).x2,1,((2x + 1) div (3 + (x div 4))))
3: loop(\(x,i).x2,1,((x2 + 3x + 2) div 2))
3: loop(\(x,i).x2,1,loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x))
3: loop(\(x,i).x2,1,loop(\(x,i).(2 * (~2x + (x div (if i <= 0 then 1 else i)))),x,1))
3: loop(\(x,i).x2,1,compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),(x + 1)))
3: loop(\(x,i).x2,2,(1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))
3: loop(\(x,i).x2,2,(x + ~1))
3: loop(\(x,i).x2,2,8)
3: loop(\(x,i).x2,2,(4 * (2 + (x mod 2))))
3: loop(\(x,i).x2,2,(2 * i))
3: loop(\(x,i).x2,2,loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1))
3: loop(\(x,i).x2,2x2,2)
3: loop(\(x,i).x2,x3,2)
3: loop(\(x,i).x2,2x,2)
3: loop(\(x,i).x2,x,4)
3: loop(\(x,i).x2,x,5)
3: loop(\(x,i).x2,x,11)
3: loop(\(x,i).x2,x,x)
3: loop(\(x,i).(x * i),((((x div 2) * (x div 2)) div 2) + (if x <= 0 then 1 else 2x)),1)
3: loop(\(x,i).(x * i),(x + ~1),(x + 1))
3: loop(\(x,i).(x * i),(x * i),1)
3: loop(\(x,i).(x * i),((x2 + x) div 2),1)
3: loop(\(x,i).(x * i),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
3: loop(\(x,i).(x * i),loop(\(x,i).2x,x,1),1)
3: loop(\(x,i).(x * i),x,4)
3: loop(\(x,i).(x * i),x,(x div 2))
3: loop(\(x,i).(x * i),i,2)
3: loop(\(x,i).((x2 + 3x + 2) div 2),2,x)
3: loop(\(x,i).((x * (1 + i)) div (1 + (i div 2))),x,1)
3: loop(\(x,i).(((x + i) * i) div (x + 1)),x,2x)
3: loop(\(x,i).(((x + i) * i) div (x + 1)),x,i)
3: loop(\(x,i).((x2 + ~x) div 2),2,(2x + 4))
3: loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),2x,1)
3: loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,2)
3: loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),i,(1 + i))
3: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,x2)
3: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),i,x)
3: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),i,i)
3: loop(\(x,i).(x3 div 2),1,(x2 + 2x + 1))
3: loop(\(x,i).(x2 div 2),2,x)
3: loop(\(x,i).(x2 div (x + 2)),5,x)
3: loop(\(x,i).(loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2),2,x)
3: loop(\(x,i).(x div (1 + (2 * (x mod 2)))),2,x)
3: loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 4 else 0))),x,4x)
3: loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,(2x + 1))
3: loop(\(x,i).(x div (2 - (((x + 1) * (x div 4)) mod 2))),x,x)
3: loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 2))
3: loop(\(x,i).(x div (2 - (x mod 2))),x,x2)
3: loop(\(x,i).(x div (~2 + (x mod 2))),x,x)
3: loop(\(x,i).(x3 mod 37),2,x)
3: loop(\(x,i).(if (x + ~1) <= 0 then i else (x + ~1)),x,0)
3: loop(\(x,i).(if (~x + i) <= 0 then 1 else (x + 2)),x,1)
3: loop(\(x,i).(if (x div 2) <= 0 then (1 + (2 * i)) else (x div 2)),x,0)
3: loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + 2x + ~2))
3: loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),(x div 2),(~2x + 1))
3: loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),x,(2x + 1))
3: loop(\(x,i).(if x <= 0 then 1 else (~2 + (if x <= 0 then 2 else (loop(\(x,i).(1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),2,x) mod (x + 1))))),2,x)
3: loop(\(x,i).(if x <= 0 then 2 else (2 + loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),2,x))),2,x)
3: loop(\(x,i).loop(\(x,i).(x2 + ~1),x,2),x,1)
3: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,(x + 2)),1,3x)
3: loop(\(x,i).loop(\(x,i).3x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1),1,i)
3: loop(\(x,i).loop(\(x,i).2x,x,x),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
3: loop(\(x,i).loop(\(x,i).(x * i),(x * i),1),x,1)
3: loop(\(x,i).loop(\(x,i).(x * i),x,2),x,1)
3: loop(\(x,i).loop(\(x,i).(((x + i) * i) div (x + 1)),x,i),x,2)
3: loop(\(x,i).loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + 1)),2,x)
3: loop(\(x,i).loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),x,(2x + 1)),2,(2x + 1))
3: loop(\(x,i).loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),x,(2x + 1)),2,(x + ~1))
3: loop(\(x,i).loop(\(x,i).loop(\(x,i).(x * i),i,x),i,x),i,x)
3: loop(\(x,i).i,(~4 + (x div 2)),x)
3: loop(\(x,i).i,(~1 + ((x + ~2) div 3)),1)
3: loop(\(x,i).i,(x div 4),x)
3: compr(\x.(2 + (x div 3) - ((x + (x div 2)) div 4)),x)
3: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(7x + 1))),x)
3: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(x2 + ~2))),x)
3: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(7x + ~1))),x)
3: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(7x + ~3))),x)
3: compr(\x.(1 - loop(\(x,i).(0 - (if (x mod (1 + i)) <= 0 then 0 else x)),(x div 2),x)),x)
3: compr(\x.(1 - loop(\(x,i).(x div (if (x mod 2) <= 0 then ~2 else 1)),x,x)),2x)
3: compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(~2 + (x div 2)),x)),x)
3: compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),x)),2x)
3: compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + 2x + ~2))),x)
3: compr(\x.((x + 2) - (3 * (~2 + ((x - (x div 4)) div 2)))),x)
3: compr(\x.(~1 + (loop(\(x,i).(2x + 6),x,1) mod (x + 1))),x)
3: compr(\x.(x - loop(\(x,i).loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),x,(2x + 1)),2,(2x + 1))),x)
3: compr(\x.(x - loop(\(x,i).loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),x,(2x + 1)),2,(x + ~1))),x)
3: compr(\x.((x + 1) mod (1 + (x div (2 + (if (x mod 2) <= 0 then 1 else 8))))),x)
3: compr(\x.((1 + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x)) mod 3),x)
3: compr(\x.((x * ((x div 2) div 3)) mod 2),x)
3: compr(\x.(((~x + (x * (x mod 2))) div 3) mod 3),x)
3: compr(\x.((x2 mod (4x + 9)) mod 2),(x + 1))
3: compr(\x.(loop(\(x,i).(1 + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,2x)),2,x) mod (x + 1)),x)
3: compr(\x.(loop(\(x,i).(2x + 2),x,(loop(\(x,i).(2 * (x - i)),x,2) mod (x + 1))) mod (x + 1)),x)
3: compr(\x.(loop(\(x,i).x2,2,(4 * (2 + (x mod 2)))) mod (x + 1)),x)
3: compr(\x.(x mod (1 + (4 * (2x mod (1 + (2 * (if (x mod 3) <= 0 then 0 else 2))))))),x)
3: compr(\x.(x mod ((x + 1) - (x mod 10))),(x + 1))
3: compr(\x.loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(3x + ~1)),x)
3: compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,(x + 2)),x)
3: compr(\x.loop(\(x,i).((if x <= 0 then 2 else loop(\(x,i).(x div (2 - (x mod 2))),x,x)) div 2),2,x),(x + 1))
3: compr(\x.loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 4 else 0))),x,4x),x)
3: compr(\x.loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 0 else 2))),x,x),x)
3: compr(\x.loop(\(x,i).(x div (2 - (((x + 1) * (x div 4)) mod 2))),x,x),x)
3: compr(\x.loop(\(x,i).(if (x mod 4) <= 0 then x else (x div 2)),x,x),x)
3: compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(4x + ~1)),(x + 1))
3: compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),(x div 2),(~2x + 1)),x)
3: compr(\x.loop(\(x,i).(if x <= 0 then 2 else (2 + loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),2,x))),2,x),x)
3: compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,(x + 2)),1,3x),x)
3: compr(\x.loop(\(x,i).loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + 1)),2,x),x)
2: ((5x + 3) + (x div 2))
2: (7 + (x mod 2))
2: ((x + 6) + (if x <= 0 then 0 else 1))
2: (x2 + 7)
2: ((2x + 1) + ((x div 2) + (x div 3)))
2: ((2x + 3) + (x div 2))
2: ((x + 2) + ((x div 2) + (x div 4)))
2: (5 + (x div (2 + (x mod 3))))
2: (5 + ((~x + 1) mod 4))
2: (5 + ((x + ~1) mod 3))
2: (5 + (((x + ~1) div 2) mod 2))
2: (5 + ((x div 2) mod 2))
2: ((2x + 1) + ((x mod 2) + (x mod ~3)))
2: ((x + 2) + ((if (x + ~2) <= 0 then 1 else 2) + (x div 5)))
2: ((x + 4) + (if x <= 0 then 1 else ((4x + 2) + ((1 + (x div 2)) div 3))))
2: (2 + (loop(\(x,i).3x,x,(1 + loop(\(x,i).2x,x,1))) + loop(\(x,i).5x,x,1) + loop(\(x,i).(2x + 1),x,loop(\(x,i).2x,x,1))))
2: (3 + (loop(\(x,i).2x,(x div 2),(2 + (x mod 2))) + loop(\(x,i).2x,x,2)))
2: ((x + 4) + i)
2: ((3x + 1) + i)
2: (6 - (x div 4))
2: ((4x + 3) - (x mod 2))
2: ((3x + 2) - ((x - ((x + (x div 3)) div 3)) div 2))
2: ((2x + 3) - (x mod 2))
2: (2 + ((x * (x div 3)) mod (1 + ((2 - (x div 2)) mod 4))) - (x mod 2))
2: ((x + 4) - (x div ~14))
2: ((3x + 2) + (x div 3))
2: ((3x + 1) + (x div 3))
2: (x2 + 9)
2: (10 + i)
2: ((x + 1) + (2 * (2x + (2x div 5))))
2: ((x + 1) + (2 * (4x + ((x mod (1 + (x div 2))) div 2))))
2: ((x + 1) + (4 * (x + (x div 2))))
2: ((x + 1) + (2 * (x + (x mod 2))))
2: ((x + 1) + (3 * (x + (x mod 2))))
2: (x + (((2 + (i mod 2)) * i) + i))
2: (x2 + x + 9)
2: (x2 + 3x + 6)
2: ((x2 + 2x + 1) + (x2 div 3))
2: ((x2 + 2x + 1) + (2 * (x mod 2)))
2: ((x + 1) + (2 * ((2 * (2x - (x mod 8))) - (x mod 4))))
2: ((x + 1) + (9 * ((x + 1) - (x mod 10))))
2: ((9x + 1) + (x mod 3))
2: (x + 26)
2: ((8x + 1) + (x mod 2))
2: ((18x + 1) + i)
2: (1 + ((10 * (x mod 2)) + (x div 2)))
2: ((4x + 1) + i)
2: ((6x + 1) + ((x + 1) mod 3))
2: (6x + (((x + 1) mod 3) + (x mod 2)))
2: ((6x + 1) + (x mod 3))
2: ((x + 1) + (2 * (i * i)))
2: ((x + 1) + (4 * (i * i)))
2: ((x + 1) + (2 * ((1 + (if (~2 + (x div 2)) <= 0 then x else (x + 4))) div 3)))
2: ((x + 2) + (2 * ((x - (((x div 2) div ~2) div 2)) div 2)))
2: ((x + 1) + (3 * ((x mod (1 + (x div 2))) div 3)))
2: ((x + 2) + (5 * (x div 3)))
2: ((x + 2) + (2 * (x div 4)))
2: ((x + 1) + (3 * (x div 5)))
2: ((x + 1) + (2 * (x div (1 + (x div (2 + (x div 5)))))))
2: (1 + ((2 * ((2x div (1 + (x div 4))) mod 2)) + (x mod 2)))
2: (1 + ((2 * ((x div 5) mod 2)) + (x mod 2)))
2: ((x + 1) + (2 * ((if x <= 0 then 1 else x) mod 2)))
2: ((x + 1) + (2 * (x mod 2)))
2: (4 + (x * (x mod 2)))
2: ((x + 1) + (2 * (x mod ((x + ~1) - (x mod 12)))))
2: (x2 + 10)
2: (3 + ((2x + 1) div (3 + (x div 4))))
2: ((4x + 1) + ((1 + ((1 + ((1 + ((1 + ((1 + (((1 + ((x * loop(\(x,i).(x + (x2 div 3)),1,(x + ~1))) div 2)) div 2) div 2)) div 2)) div 2)) div 2)) div 2)) div 2))
2: ((x + 2) + ((1 + ((((x + 1) div 5) * (x div 3)) div 2)) div 2))
2: ((x + 2) + ((x + (x2 div 3)) div 2))
2: (3 + ((4x + (x2 div 4)) div (x + 2)))
2: ((x + 2) + ((x + (((x - (x div 3)) mod 3) div 2)) div 2))
2: ((x + 2) + ((x + (x div 3)) div 3))
2: ((x + 1) + ((x + (x div 4)) div 2))
2: ((x + 2) + ((x + (x div 4)) div 2))
2: ((x + 1) + ((x + (x div 12)) div 2))
2: ((x + 1) + ((x + ((x div 2) mod 2)) div 2))
2: (3x + ((x + ((x div 3) mod 3)) div 3))
2: (x + (((x + ((x div 4) mod 3)) div 3) + (if x <= 0 then 1 else 4x)))
2: ((x + 1) + ((x + ((x mod (2 + ((x div 2) mod 2))) mod 2)) div 2))
2: (3 + ((x + (x mod 2)) div 3))
2: ((x + 1) + ((x + (x mod 2)) div 3))
2: (x + (((x + (x mod 2)) div 5) + (if x <= 0 then 1 else 2)))
2: ((x + 2) + ((x + 1) div 5))
2: ((4x + 4) + (((x + 1) div 7) + (x div 3)))
2: ((x + 2) + ((x + 2) div (12 - (x div 2))))
2: ((x + 1) + (((x div 2) - ((x div 4) mod 2)) div 2))
2: ((x + 1) + ((x - ((x + (x div 3)) div 3)) div 2))
2: ((x + 2) + ((x - ((~x + 2) div 4)) div 2))
2: ((x + 1) + ((x - ((~x + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)) div 2)) div 2))
2: ((x + 3) + ((x - ((x div 2) div 3)) div 2))
2: ((x + 1) + ((x - ((x mod 3) div 2)) div 2))
2: ((x + 1) + ((x - (x div 4)) div 2))
2: ((2x + 1) + ((x - (x div 7)) div 2))
2: ((x + 2) + ((x - (x div ~3)) div 3))
2: (1 + (((x - ((x div 3) mod 2)) div 2) + (x mod 2)))
2: ((x + 2) + ((x3 + 2x) div 3))
2: ((x + 1) + ((2 * (1 + ((((x + ~1) * (x + (x div 3))) div 2) div 3))) div 3))
2: (x + (((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3) + (if x <= 0 then 1 else 2)))
2: (3 + ((5 * (x + loop(\(x,i).(x - (if (~2 + (x div 2)) <= 0 then 0 else 1)),2,x))) div 2))
2: (4 + ((x2 + x) div 2))
2: ((4x + 1) + ((x2 + x) div 2))
2: (1 + (((x2 + 2x) div 2) + (x div 2)))
2: ((x + 1) + ((x2 + 2x) div 5))
2: (x + ((((2 + i) * (1 + i)) div 2) + i))
2: ((x + 1) + (((x2 + ~1) * (x div 2)) div 2))
2: ((x + 1) + ((2x2 + 8x + 8) div 3))
2: ((x + 1) + ((4 * (x div 3)) div 3))
2: ((x + 1) + ((4x div (1 + i)) + i + i))
2: ((x + 3) + (6x div (x + 1)))
2: ((x + 1) + (x3 div loop(\(x,i).x3,1,6)))
2: ((x + 2) + ((2 * ((x + (if (~2 + (x div 2)) <= 0 then 1 else 0)) div 2)) div 3))
2: ((x + 2) + ((3 * (((if (~2 + (x div 2)) <= 0 then 1 else 2) + (x div 2)) div 2)) div 2))
2: ((x + 1) + ((3 * ((x div 2) div 3)) div 2))
2: ((x + 1) + ((x * (if (x + ~2) <= 0 then 1 else x)) div 3))
2: ((x + 1) + (2x div 5))
2: ((x + 1) + (2x div (4 + ((x div 2) div 5))))
2: ((x + 2) + (2x div (4 + (x div 4))))
2: ((2x + 1) + (x2 div 3))
2: ((2x + 1) + (x2 div 4))
2: ((4x + 1) + (x2 div (1 + (if (~2 + (x div 2)) <= 0 then x else (x + 2)))))
2: ((2x + 1) + (x2 div (3x + ~2)))
2: ((x + 1) + ((((x + 1) + ((x * (if (x + ~2) <= 0 then 1 else x)) div 3)) div 2) div 2))
2: ((x + 1) + (((((x2 + 2x) div 2) + (x mod 3)) div 2) div 2))
2: ((x + 1) + (((x + (((~x + 1) mod (4 + (x div 2))) div 2)) div 2) div 2))
2: (2 + ((((x + 1) div 2) div 3) + (if x <= 0 then 0 else 1)))
2: ((x + 2) + (((x + 1) div 2) div 3))
2: ((x + 2) + (((~1 + (x2 div 4)) div 2) div 2))
2: (1 + (((((x + 1) * (x + (x div 3))) div 2) div 5) + (x div 2)))
2: ((3x2 + 12x + 13) + (((x3 + ~x) div 2) div 3))
2: ((x + 1) + ((((x + 1) div 2) div 2) div 2))
2: ((x + 2) + ((((x + 1) div 2) div 2) div 2))
2: ((x + 2) + ((x div 2) div 5))
2: (1 + ((((1 + (x mod (1 + (x mod (2 * (2 + ((x div 2) mod 2))))))) mod (x + 1)) div 2) + (x mod 2)))
2: (1 + ((((1 + (x mod (2 * (1 + (x mod (2 * (1 + (x mod (1 + (x div 3)))))))))) mod (x + 1)) div 2) + (x mod 2)))
2: ((x + 1) + (((x + 2) mod (2 + ((x + ~1) mod 4))) div 2))
2: ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) + (if (x + ~2) <= 0 then 1 else 2) + (x div 5))
2: (1 + (((2x mod (1 + (x mod 4))) div 2) + (x mod 2)))
2: (3 + ((x mod 3) div 2))
2: (4 + ((x mod 3) div 2))
2: (4 + ((x mod (2 + (x mod 2))) div 2))
2: (4 + (loop(\(x,i).(2 * (x - ((x - (x div 5)) div 3))),(x + 1),2) div 2))
2: (2 + ((x div 2) + (x div 3)))
2: (2 + ((x div 2) + (x mod 3)))
2: ((x + 3) + (x div 2))
2: ((x + 1) + (x div (3 + ((x div 2) div 3))))
2: ((x + 2) + (x div (4 + (x div 2))))
2: (2x + ((x div (4 + (x mod 2))) + ((x + 1) div 2)))
2: (x + ((x div (3 + (if (x + ~4) <= 0 then 0 else 2))) + (if x <= 0 then 1 else 4x)))
2: (4 + (x div 7))
2: ((x + 2) + (x div 13))
2: (x + ((x div (1 + (x div 4))) + (x div 4)))
2: (4 + (x div (1 + ((x + ~1) mod 5))))
2: (3 + (x div (1 + (x mod 2))))
2: ((x + 1) + (x div (1 + (x mod 3))))
2: (4 + (x div (2 + (x mod 3))))
2: (3 + (x div (1 + (x mod 5))))
2: (1 + ((x div (2 + (x mod (1 + ((x + 1) div (1 + (((2x div (1 + (x div 4))) mod 2) + (x mod 2)))))))) + (x mod 2)))
2: ((x + 1) + (x div (1 + (i mod 2))))
2: ((x + 1) + (x div (2 + (if (~2 + (x div 4)) <= 0 then 1 else 2))))
2: ((x + 1) + (x div (2 - (x div (~1 + ((~x + 2) div 4))))))
2: ((5x + 1) + (x div (~2 + ((~x + 2) div 4))))
2: (1 + ((x div 8) + (((x + 1) div 2) div 2)))
2: ((x + 4) + (x div 8))
2: ((x + 2) + ((x div 8) + (x div 5)))
2: ((x + 2) + (x div 12))
2: ((x + 1) + (x div (4 * (2 + (x mod 2)))))
2: (1 + ((i div (2 + (x mod 2))) + (x div 2)))
2: ((x + 1) + (i div (2 + (x mod 2))))
2: ((x + 1) + (2 mod (1 + (x div 4))))
2: (3 + (2 mod (x + 1)))
2: ((x + 2) + (2 mod (x + 1)))
2: (4 + (4 mod (x + 2)))
2: (1 + (((1 + ((x + (x div 2)) div 4)) mod 2) + (x mod 2)))
2: ((x + 2) + (((if x <= 0 then 1 else x) + (x div 2)) mod (1 + (x div 3))))
2: (4 + ((x + 1) mod 3))
2: (3x + ((x + 1) mod 3))
2: (3 + ((x + 1) mod 4))
2: (3 + ((x + 2) mod 4))
2: (3 + ((~2x + 1) mod (4 + (x div 2))))
2: (3 + ((~x + 1) mod (2 + (x div 2))))
2: (2 + (((x + ~1) mod 3) + (x mod 2)))
2: (3x + ((x + ~1) mod 3))
2: ((2x + 5) + ((x + ~2) mod (3 - (x mod 2))))
2: (4 + (16 mod (1 + (x div 2))))
2: (2 + ((2x mod 3) + (x mod 2)))
2: (4 + (x2 mod 3))
2: (1 + ((((1 + (x div 3)) div (1 + (x mod (2 + (x mod 2))))) mod 2) + (x mod 2)))
2: (4 + (((x + 1) div 2) mod 8))
2: (7x + (((x + 1) div ~7) mod 2))
2: (4 + (((x + ~1) div 2) mod 2))
2: (4 + (((x2 + x) div 2) mod 5))
2: ((x + 1) + (((x2 + 2x) div 2) mod (3 + (x mod 2))))
2: (1 + (((2x div (1 + ((x + 1) div 5))) mod 2) + (x mod 2)))
2: ((5x + 1) + ((x div 2) mod 2))
2: (4 + ((x div 3) mod 2))
2: ((x + 1) + ((x div 3) mod 3))
2: ((2x + 1) + ((x div 4) mod 2))
2: ((x + 2) + ((x div 5) mod 2))
2: (5x + ((x div 5) mod 2))
2: ((x + 1) + ((x div (3 + ((x div 2) div 3))) mod 2))
2: ((x + 2) + ((x div (3 + ((x div 2) div 3))) mod 2))
2: (4 + ((if (x mod 2) <= 0 then (x div 2) else 2x) mod (x + 4)))
2: (3 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))
2: ((x + 2) + (loop(\(x,i).(2x + 2),x,0) mod (x + 1)))
2: ((4x + 2) + (x mod 2))
2: (2 + ((x mod 2) + (x mod 3)))
2: ((2x + 2) + (x mod 2))
2: (2x + ((x mod 2) + (x mod ~3)))
2: (2x + ((x mod 2) + (if (x + ~2) <= 0 then 1 else 0)))
2: (1 + ((x mod 4) + (x mod 3)))
2: (3 + (x mod (2 + ((x div 2) mod 2))))
2: ((x + 2) + (x mod (2 + (x mod 2))))
2: ((x + 1) + (if (~x + 2) <= 0 then (x div 2) else 1))
2: ((x + 4) + (if (~4 + (x div 2)) <= 0 then 1 else 2))
2: (3 + (if (~2 + (x div 4)) <= 0 then 2 else 0))
2: (2x + (if (~2 + (x div 5)) <= 0 then 2 else 1))
2: (9x + (if (~1 + (i mod 3)) <= 0 then 2 else 1))
2: (5x + (if (~1 + (i mod 3)) <= 0 then 2 else 1))
2: ((x + 2) + (if (x + ~1) <= 0 then 0 else (1 + ((x + 1) div 5))))
2: ((x + 1) + (if (x + ~2) <= 0 then 1 else 2))
2: (x + ((if (x + ~2) <= 0 then 1 else 2) + (x div 5)))
2: (x + ((if ((x div 2) mod 3) <= 0 then 0 else 1) + (x div 3)))
2: (1 + ((if (x mod 2) <= 0 then 2 else 0) + (x div 4)))
2: ((x + 1) + (if (x mod 2) <= 0 then 2 else 0))
2: (2 + (if (x mod 2) <= 0 then (x div 2) else (x mod 3)))
2: ((x + 2) + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1))
2: (2 + ((if (x mod 4) <= 0 then 0 else (if (x mod (2 + (x mod 2))) <= 0 then 1 else x)) + (x mod 2)))
2: (x + ((if (x mod 4) <= 0 then 1 else 2) + (x div 2)))
2: (3x + (if (i mod 3) <= 0 then 1 else 2))
2: (2x + (if (i mod 3) <= 0 then 3 else 0))
2: (2x + (if (i mod 3) <= 0 then x3 else 1))
2: (3 + (if x <= 0 then 1 else 2))
2: (2x + (if x <= 0 then 1 else ((2x + ~1) + ((2 * (2 + (((x + 1) + (if (x mod 4) <= 0 then 2x else (x div 2))) div 2))) div 3))))
2: ((x + 2) + (if x <= 0 then 1 else ((4x + 2) + ((1 + (x div 2)) div 3))))
2: ((x + 2) + (if x <= 0 then 1 else (6x - (((x + ~1) mod (2 + (x div 2))) div 2))))
2: (5 + (if x <= 0 then 1 else (x - (2 * ((x mod (2 + (x div 2))) div 3)))))
2: (2x + (if x <= 0 then 1 else (2 * ((2x + 1) + ((x div 2) + (x div 3))))))
2: (4 + (if x <= 0 then 1 else (2 * (7x - (x div 3)))))
2: (7x + loop(\(x,i).(5x + loop(\(x,i).3x,(2 * i),1)),i,1))
2: (3x + loop(\(x,i).(5x + loop(\(x,i).10x,i,1)),i,1))
2: (3x + loop(\(x,i).(7x + loop(\(x,i).10x,i,1)),i,1))
2: (5x + loop(\(x,i).(7x + loop(\(x,i).2x,i,1)),i,1))
2: ((x + 1) + loop(\(x,i).(x + (x div ((2 + i) * (1 + i)))),2,x))
2: (5x + loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),i,1))
2: (5x + loop(\(x,i).(12x + loop(\(x,i).3x,(2 * i),1)),i,1))
2: (9x + loop(\(x,i).(12x + loop(\(x,i).11x,i,1)),i,1))
2: (3x + loop(\(x,i).(6x + loop(\(x,i).11x,i,1)),i,1))
2: ((x + 2) + loop(\(x,i).((x * i) - (if (~2 + (x div 2)) <= 0 then 0 else 1)),2,x))
2: ((x + 1) + loop(\(x,i).(x - (x div 4)),2,(x div 2)))
2: ((x + 1) + loop(\(x,i).(x - (x div (~2 + ((~x + 2) div 4)))),x,1))
2: (x + (loop(\(x,i).(x - (x div 8)),2,(x + ~1)) + (if x <= 0 then 1 else 4x)))
2: (1 + (loop(\(x,i).3x,x,1) + loop(\(x,i).4x,x,1)))
2: (5x + loop(\(x,i).3x,x,1))
2: (loop(\(x,i).3x,x,(1 + loop(\(x,i).2x,x,1))) + loop(\(x,i).5x,x,1) + loop(\(x,i).(2x + 1),x,loop(\(x,i).2x,x,1)))
2: (4 + loop(\(x,i).5x,x,1))
2: ((x + 2) + loop(\(x,i).(x * (3 + i)),4,(x + 1)))
2: ((x + 2) + loop(\(x,i).(x * (2 + i)),4,(x + 1)))
2: ((x + 1) + loop(\(x,i).(x * (2 - (x div (2 + i)))),x,2))
2: (1 + (loop(\(x,i).(2 * (2x - (x mod 4))),2,(x div 2)) + (x mod 2)))
2: (3 + loop(\(x,i).4x,x,1))
2: (3 + loop(\(x,i).4x,x,2))
2: (4 + loop(\(x,i).(x3 + x2),x2,2))
2: ((x + 1) + loop(\(x,i).x3,1,(4x + 4)))
2: (2 + (loop(\(x,i).2x,(x div 2),(2 + (x mod 2))) + loop(\(x,i).2x,x,1)))
2: (1 + (loop(\(x,i).2x,(x div 2),(2 + (x mod 2))) + loop(\(x,i).2x,x,1)))
2: (2 + (loop(\(x,i).2x,(x div 2),(2 + (x mod 2))) + loop(\(x,i).2x,x,2)))
2: ((x + 1) + loop(\(x,i).2x,x,1))
2: (2 + (loop(\(x,i).2x,x,2) + loop(\(x,i).3x,x,1)))
2: ((x + 1) + loop(\(x,i).2x,x,3))
2: ((5x + ~1) + loop(\(x,i).2x,i,2))
2: (3 + loop(\(x,i).2x,compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),2))
2: (1 + (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) + loop(\(x,i).4x,x,1)))
2: ((2x + ~1) + i)
2: ((x + 1) - (((~x + 1) - (4 * (if (x + ~2) <= 0 then 0 else 2))) div 5))
2: (2 + ((x + 1) div 3) - ((~x + 2) div (2 - (x div ~4))))
2: (4 - (((x + ~1) mod (1 + ((x + 2) div 3))) div 2))
2: (4 - (((~2x + 2) mod (4 + (x div 4))) div 2))
2: (4 - ((x mod (1 + (x div 2))) div 2))
2: (4 - ((x mod (2 + (x mod 2))) div 2))
2: ((4x + 2) - (x div 2))
2: (3 - (((x + 2) div (2 - (x mod ~4))) mod 2))
2: (3 - ((x div 2) mod 2))
2: ((6x + 2) - ((x div 2) mod 2))
2: ((2x + 2) - (loop(\(x,i).(if x <= 0 then 0 else (1 + (if (~2 + (x div 2)) <= 0 then x else (x + 2)))),2,x) mod 3))
2: (4 - (i mod 2))
2: (2 + (2 * (x - (((x div 2) - ((~1 + (x div 4)) div 2)) mod 2))) - (x mod 2))
2: (2 + (2 * (((2x + 1) mod (2 + (x div 4))) div 2)) - (x mod 2))
2: (9 - (x div 3))
2: ((~x + 1) + (4 * (x + ((x div 2) mod 2))))
2: (1 + (2 * (2x + (x mod 2))) - ((x div 2) mod 2))
2: ((2x + 3) - (x div 3))
2: ((10x + 1) - ((x div 2) mod 2))
2: ((10x + 2) - ((x div 2) mod 2))
2: (~x + 33)
2: ((4x + 2) - ((x - (x div 4)) div 2))
2: ((4x + 1) - ((i mod 3) div 2))
2: ((4x + 2) - (x div 8))
2: ((4x + 2) - ((i mod 3) mod 2))
2: ((4x + 1) - (x mod 2))
2: ((6x + 1) - ((i mod 3) mod 2))
2: (1 + (2 * (x mod 4)) - (x mod 2))
2: ((2x + 1) - (5 * (x div ~2)))
2: ((2x + 1) - ((2x + 1) div 7))
2: ((2x + 1) - ((x + (x div 2)) div 4))
2: ((2x + 1) - ((x + (x mod 3)) div 7))
2: ((2x + 2) - (((x mod 4) + (x div 2)) div 2))
2: ((2x + 2) - ((~x + ((x div 2) div ~2)) div 2))
2: ((2x + 1) - ((x + ~2) div 3))
2: ((2x + 2) - ((x - ((x + (x div 3)) div 3)) div 2))
2: ((2x + 2) - (((2 + (x * (x + (x div 2)))) div (x + 2)) div 2))
2: ((2x + 1) - (((x + ((x div 4) mod 2)) div 2) div ~2))
2: ((2x + 1) - ((((x + 1) div 2) div 2) div 2))
2: ((2x + 1) - ((x div 2) div 3))
2: ((2x + 1) - (x div 3))
2: (2x + ((x div ~2) mod 2) - (x div 4))
2: ((2x + 1) - ((x + 1) mod 3))
2: ((2x + 2) - ((x * (x div 2)) mod 2))
2: ((2x + 1) - ((x div 2) mod 2))
2: ((2x + 1) - ((x div 7) mod 2))
2: ((2x + 2) - (x mod 4))
2: (2x + (x div 3) - (x mod ~3))
2: ((2x + 1) - (i mod 2))
2: (~1 + ((2 * i) + i))
2: ((x + ~1) + ((2 * ((3x + 2) - ((x - ((x + (x div 3)) div 3)) div 2))) div 3))
2: ((2x + ~1) + ((2 * (2 + (((x + 1) + (if (x mod 4) <= 0 then 2x else (x div 2))) div 2))) div 3))
2: (1 + (x div 2) - ((x + 1) div 5))
2: (1 + (x div 2) - ((~x + 2) div (2 + (x div 2))))
2: (1 + (x div 3) - (x mod (2 - ((x div 2) mod 2))))
2: (((x div 4) + (x div 3)) - ((x + ~1) div 2))
2: (~2 + ((x mod 2) + (x div 3)))
2: (1 + (x mod 2) - (x div ~3))
2: (x + (if (x + ~2) <= 0 then 1 else x) - ((x - ((x mod 3) div 2)) div 2))
2: (1 + (if x <= 0 then 0 else 2) - (x mod 2))
2: (x + (if x <= 0 then 1 else 4x) - (2 div (16 div (x + 1))))
2: (x + (if x <= 0 then 1 else 4x) - ((2 * (2x div (4 + (x div 8)))) div 3))
2: ((x + ~1) + loop(\(x,i).(x + (if (~2 + (x div 4)) <= 0 then 1 else 2)),2,x))
2: (1 + loop(\(x,i).3x,x,1) - loop(\(x,i).2x,x,2))
2: (1 + loop(\(x,i).(4x + 2),x,2) - loop(\(x,i).2x,x,2))
2: (1 + loop(\(x,i).2x,x,1) - (x mod 2))
2: ((x + 2) - (3 * ((((2 - (x div 3)) * (x div 3)) div 2) div 2)))
2: ((x + 1) - (9 * (x mod 10)))
2: ((x + 2) - (4 div (if (~2 + (x div 2)) <= 0 then 2 else (x + ~2))))
2: ((x + 3) - ((~x + 1) div 3))
2: ((x + 1) - (((~x + ~1) + (x2 div 4)) div 3))
2: ((x + 2) - (((~x + ~1) + (x mod 2)) div 5))
2: ((x + 1) - ((~1 + (x div 2)) div 2))
2: (3x - ((2 * (x - ((x div 2) div 3))) div 3))
2: ((x + 2) - (x2 div 4))
2: ((x + 2) - (x2 div (x + 16)))
2: ((x + 2) - (x2 div ((2x + 10) - (x div 2))))
2: ((x + 2) - (((((1 - (x div 2)) div 3) * (x div 2)) div 2) div 2))
2: (x + (x div 5) - ((x div 2) div 3))
2: ((x + 1) - ((x mod (1 + (x div 4))) div 2))
2: ((x + 2) - ((x mod (2 + (6 mod (1 + (x div 2))))) div 2))
2: ((x + 1) - ((1 + (x div 2)) mod 8))
2: (x + i - (if (~x + i) <= 0 then (2 * i) else 0))
2: (7 + (x div 2))
2: (6 + (2 div (x + 1)))
2: (6 + (x mod 3))
2: (x + (3 * i))
2: (9 + i)
2: (x2 + 12)
2: ((4 * (1 + i)) + i)
2: (1 + (5 * (1 + i)))
2: (2 + (5 * (x mod 2)))
2: (5x + ((1 + i) mod 3))
2: (5x + i)
2: (3 + (5 * i))
2: (x2 + 7x + 1)
2: (2x + 11)
2: (x2 + 5x + 2)
2: (3x + 19)
2: (3x + 20)
2: (x2 + 6x + 1)
2: (3x + 29)
2: (x + (2 * ((x + 2) + ((x - ((~x + 2) div 4)) div 2))))
2: (1 + (2 * ((x + 1) + (x div 2))))
2: (1 + (2 * ((x + 2) + (x div 2))))
2: (x + ((4 + (i mod 2)) * i))
2: (1 + (2 * (3x + (i mod 2))))
2: (1 + (2 * ((x + 1) + loop(\(x,i).(x - (x div 4)),2,(x div 2)))))
2: (1 + (2 * (4 + loop(\(x,i).(x3 + x2),x2,2))))
2: (3x + 14)
2: (x2 + 8x + 17)
2: (1 + (2 * (3 + i)))
2: (1 + (x * (3 + i)))
2: (2 + ((4 + i) * i))
2: (x + (2 * (2x + i)))
2: (~2x + 9)
2: (x + (5 * ((x + 2) - ((x + (x div 4)) div ~2))))
2: (2 + (7 * (x div 2)))
2: (7x + ((1 + i) mod 4))
2: (3x2 + 5x + 4)
2: (x2 + 9x + 10)
2: (13x + 2)
2: (5x2 + 2x + 1)
2: (2x2 + 18x + 21)
2: (x5 + x2 + 2x + 2)
2: (7x2 + 3x + 2)
2: (x + ((1 + ((1 + (2 * i)) * i)) * i))
2: (2 + (3 * (1 + (2 * (x + ((x * (1 + (x div 5))) div 9))))))
2: (2x2 + 2x + 3)
2: (2x2 + 3x + 4)
2: (2x3 + 3x2 + 7x + 4)
2: (x + ((2x + 5) * (1 + (x div 2))))
2: (6x2 + 8x + 1)
2: (x3 + 3x2 + 5x + 2)
2: (x3 + 2x2 + 2x + 1)
2: (2x2 + 5x + 16)
2: (x + ((1 + ((~1 + (2 * i)) * i)) * i))
2: (10x + 17)
2: (5x2 + 8x + 3)
2: 67
2: (8x2 + 9x + 2)
2: (20x2 + 2x + 1)
2: (4x2 + 4x + 3)
2: (4x3 + 6x2 + 5x + 1)
2: (9x2 + 3x + 1)
2: (8x2 + 3)
2: (1 + (2 * (1 + (4 * i))))
2: (2x2 + 3x + 3)
2: (3x2 + x + 3)
2: (1 + (2 * (x2 + (x div 2))))
2: (1 + ((1 + (2 * i)) * i))
2: (1 + (2 * (1 + (2 * compr(\x.(x - loop(\(x,i).loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),x,(2x + 1)),2,(2x + 1))),x)))))
2: (1 + (x * (2 + (2 div (x + 1)))))
2: (1 + (2 * (2 + ((4x + (x2 div 4)) div (x + 2)))))
2: (1 + (2 * (2 + ((x + (x div 4)) div 2))))
2: (x + (2 * (x + ((x + (x mod 2)) div 3))))
2: (1 + (2 * (x + ((2x + ~1) div (4 + (x div 4))))))
2: (x + (2 * (x + ((x3 + 2x) div 3))))
2: (1 + (2 * (x + ((x * (1 + (x div 5))) div 9))))
2: (x + (2 * (x + (x2 div (x + 17)))))
2: (1 + (2 * (2 + ((x mod 3) div 2))))
2: (x + (2 * (4x + ((x mod (1 + (x div 2))) div 2))))
2: ((2 * (((x mod (1 + (x div 2))) div 2) + (x mod 2))) + ((x + 1) div 2))
2: (2 + ((x + ~1) * (2 + (x div 2))))
2: (x + ((2 + (x div 2)) * (x div 4)))
2: (x + (4 * (x + (x div 2))))
2: (1 + ((x + 2) * (x + (x div 2))))
2: (1 + (2 * (x + (x div 3))))
2: ((2 * (x + (x div 3))) + ((~x + 1) mod 3))
2: ((2 * (x + (x div 3))) + (if (x mod 3) <= 0 then 2 else 1))
2: (x + (2 * (x + (x div 3))))
2: (1 + (2 * (2 + (x div 4))))
2: (x + (2 * (2 + (x div 4))))
2: (2 + (3 * (x + (x div 4))))
2: (1 + (2 * (1 + (x div 5))))
2: (1 + (2 * (1 + (x div (2 + ((~2x + 2) mod 5))))))
2: (1 + (2 * (x + (x div (2 - (x div (~1 + ((~x + 2) div 4))))))))
2: (1 + (2 * (x + (x div 11))))
2: (1 + (2 * (1 + (x div 8))))
2: (1 + ((2 + (x div 8)) * ((x div 2) mod 2)))
2: (x + ((x + (i div 2)) * (2 + i)))
2: (x + ((x + (i div 2)) * i))
2: (x + ((2 + (i div 3)) * (1 + (i div 3))))
2: (1 + (2 * (2 + (2 mod (x + 1)))))
2: (1 + (2 * (1 + ((x + ~1) mod 3))))
2: (1 + (2 * (2 + ((x + ~1) mod 3))))
2: (1 + (2 * (2 + (4x mod 17))))
2: (1 + ((1 + ((x * (x div 2)) mod 2)) * ((x mod 3) mod 2)))
2: (2 + ((1 + ((x * (x div 3)) mod (1 + ((2 - (x div 2)) mod 4)))) * (x mod 2)))
2: (1 + (2 * (2 + ((x div 2) mod 2))))
2: (x + (2 * (x + ((x div 2) mod 2))))
2: (1 + (2 * (1 + ((x div 2) mod 3))))
2: (1 + (2 * (2 + ((x div 2) mod 5))))
2: (1 + (2 * (2 + ((x div 3) mod 2))))
2: (1 + (2 * (2 + ((x div 3) mod 4))))
2: ((2 * (1 + (x mod 2))) + ((x div 2) div 3))
2: ((2 * (1 + (x mod 2))) + (x mod 3))
2: (x + (2 * (2 + (x mod 2))))
2: (1 + (3 * (2 + (x mod 2))))
2: (x + ((x + 2) * (2 + (x mod 2))))
2: (1 + (3 * (x + (x mod 2))))
2: (1 + (4 * (x + (x mod 2))))
2: (2 + (5 * (x + (x mod 2))))
2: (1 + ((2x + 1) * (x + (x mod 2))))
2: (1 + (2 * (1 + (x mod 4))))
2: (1 + ((x + (x mod 4)) * (1 + (x div 4))))
2: ((3 * (1 + (x mod (2 + (x mod 2))))) + (x mod 2))
2: (1 + (2 * (2 + (x mod 6))))
2: (1 + (2 * (1 + (x mod (if (~2 + (x div 2)) <= 0 then 1 else 2)))))
2: (1 + (2 * (2 + (i mod 2))))
2: (((2 + (i mod 2)) * i) + i)
2: (1 + (2 * (1 + (if (~x + 2) <= 0 then (1 - (2 * ((x mod (1 + (((x + 1) div 2) div 2))) mod 2))) else 0))))
2: (x + (2 * (1 + (if (x + ~1) <= 0 then 0 else (1 + ((x mod (1 + ((1 + (x div 2)) div 2))) div 2))))))
2: (1 + (((if (x mod 2) <= 0 then 2 else 0) + (x div 2)) * (1 + (x div 2))))
2: (1 + (x * (x + (if (x mod 2) <= 0 then 2 else 0))))
2: (1 + (2 * (1 + (if (x mod 3) <= 0 then 0 else (1 + (2 * ((~1 + (x2 div 2)) mod (~1 + ((~2x + 2) mod (4 + (x div 4)))))))))))
2: (2 + ((1 + (if (x mod 3) <= 0 then (2 - ((x div 2) mod 2)) else 0)) * (x mod 2)))
2: (1 + (2 * (2x + (if x <= 0 then 2 else x))))
2: (1 + (2 * (1 + loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x))))
2: (1 + (2 * (1 + loop(\(x,i).(if x <= 0 then i else (x div 2)),x,0))))
2: (1 + (3 * (x + loop(\(x,i).i,(x + ~9),1))))
2: ((2x + 2) + (x mod 3))
2: (x2 + x + 5)
2: (x2 + x + 6)
2: ((x2 + x) + (x div 2))
2: ((x2 + x) + (if x <= 0 then 1 else 2))
2: ((2x + 4) + (x mod 2))
2: ((2x + 4) + (x mod 3))
2: (x2 + 6x + 4)
2: (x2 + 2x + 6)
2: ((x2 + 2x) + (2 * (x mod 2)))
2: ((x2 + 2x) + ((x div 2) mod 2))
2: (1 + ((1 + i) * i))
2: (x + (2 * (2 + i)))
2: (x + ((x + 1) * (2 + i)))
2: (x + ((2 + i) * (1 + i)))
2: (2 + (x * (2 + i)))
2: ((2 * (x + i)) + (i mod 2))
2: (x + (4 * (x + i)))
2: (x + ((x + i) * (1 + i)))
2: (x + ((x + i) * (2 + i)))
2: (1 + (x * (x + i)))
2: (x + ((x + i) * i))
2: (1 + (2 * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
2: (x + ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i)) * (1 + (2 * i))))
2: (1 + (2 * (1 + compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(x2 + 3x)),x))))
2: (1 + (2 * (1 - (x div 4))))
2: (1 + (2 * (1 - (x mod (1 - ((2 - (2x mod (4 + (x div 4)))) mod (x + 1)))))))
2: (1 + (2 * (3 - ((x div 3) mod 2))))
2: (~2x + 37)
2: (4x3 + 3x2 + 2x + 1)
2: (x + (3 * (2 - ((~x + 2) div (2 - (x div ~4))))))
2: (1 + (2 * (2 - ((x * (x div 2)) mod 2))))
2: (1 + (2 * (2 - ((x mod 3) mod 2))))
2: (1 + (2 * (2 - (x mod 4))))
2: (1 + (2 * (2 - (x mod ~7))))
2: (1 + (2 * (2 - (x mod 8))))
2: ((~2x + 4) + (x div 2))
2: (3x2 + ~2x + 2)
2: (1 + (2 * (8 - (x div 2))))
2: (2 + (3 * (8 - (x div 2))))
2: (4x2 + 3x + 1)
2: (x + ((~1 + ((2 + i) * i)) * i))
2: (x + (2 * ((2 * (2x - (x mod 8))) - (x mod 4))))
2: (1 + (2 * (2x - (x div 3))))
2: (1 + (2 * (2x - (x mod 4))))
2: (1 + (2 * (2x - (i mod 2))))
2: (x3 + ~x + 2)
2: (2x + ((~1 + (2 * i)) * i))
2: (1 + (2 * (~1 + ((3 * compr(\x.(1 - (x mod (2 + ((1 + ((x - ((x div 2) mod 2)) div 2)) mod 5)))),x)) div 2))))
2: ((x2 + 3x + 2) + ((~1 + (x div 2)) * (x div 2)))
2: (2x + ((~2 + (x div 2)) * (x div 2)))
2: (1 + (2 * (~2 + (x mod 2))))
2: ((x2 + ~2x) + (x mod 2))
2: (x + (9 * ((x + 1) - (x mod 10))))
2: (1 + (2 * (2x - i)))
2: (3x2 + ~4x + 1)
2: (1 + (2 * (x - (2 * (x div ~3)))))
2: (1 + (2 * (x - ((1 + (x div 2)) div 2))))
2: (1 + (2 * (x - ((~x + 1) div 3))))
2: ((2 * (x - ((~1 + (2 * (x div 2))) div 5))) + (x div 2))
2: (1 + (2 * (x - (((2 - (x div 2)) div 2) div 2))))
2: (1 + (2 * (x - (((~x + 2) div 2) div 3))))
2: (1 + (2 * (x - ((((x * ((1 - (x div 2)) div 3)) div 2) div 2) div 2))))
2: (1 + (2 * (x - ((x mod (2 + (6 mod (1 + (x div 2))))) div 2))))
2: (1 + (2 * (x - (x div ~5))))
2: (1 + (2 * (x - (((x div 2) - ((~1 + (x div 4)) div 2)) mod 2))))
2: (1 + (2 * (x - i)))
2: (1 + (x * (~1 + i)))
2: (2 + (x * (~1 + i)))
2: (1 + ((~1 + i) * i))
2: (9x + ((1 + i) mod 4))
2: (9x + ((x + ~1) mod 3))
2: (9x + (x mod 3))
2: (16 + (x div 2))
2: (x + 40)
2: (17x + 8)
2: ((8x + 8) + (x div 5))
2: (1 + (8 * (~1 + i)))
2: (x + 36)
2: 61
2: (36x + 37)
2: ((10x + 1) + i)
2: (10x + (2 div (x + 1)))
2: (10x + ((1 + i) mod 3))
2: (10x + ((1 - i) mod 3))
2: (10x + (if (~2 + i) <= 0 then 0 else 2))
2: (x + (4 * ((x + 1) + (x div 2))))
2: (5x2 + 20x + 1)
2: (28x + 1)
2: (7x2 + 1)
2: (6x2 + 4x + 1)
2: (12x2 + 8x + 1)
2: (3x3 + 2x2 + 1)
2: (26x + 1)
2: (34x + 1)
2: (1 + (6 * (1 + (4 * (x mod 2)))))
2: (16x + 5)
2: (8x2 + 2x + 1)
2: (x6 + x3 + 1)
2: (1 + (4 * (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (if (x mod 3) <= 0 then 2 else 1)))))
2: (1 + (4 * (1 + (2 * (x mod 2)))))
2: (x4 + 2x2 + 1)
2: (1 + (2x * (x + ((x3 + 2x) div 3))))
2: (x + (4 * (2 + (x mod 2))))
2: ((6x + 6) + (x div 9))
2: ((10x + 10) + (x mod 9))
2: ((10x + 10) + (x mod 10))
2: (2x2 + 4x + 3)
2: (9x + 10)
2: (5x2 + 5x + 2)
2: ((2x3 + 3x2 + x) + (x div 2))
2: (x3 + 2x2 + x + 1)
2: (7x + 12)
2: (10x + 22)
2: (2x2 + 10x + 13)
2: (2x2 + 6x + 5)
2: (2x2 + 7x + 4)
2: (2x2 + 9x + 8)
2: (5x2 + 10x + 2)
2: (x3 + 4x2 + 4x + 1)
2: ((6 * (1 + i)) + i)
2: (x + ((1 + i) * i * (1 + i)))
2: (x + (2 * ((2 + i) * (~1 + i))))
2: (22x + 1)
2: (11x2 + 1)
2: (12x2 + 9x + 2)
2: (1 + (2x * (~1 + (2 * i))))
2: ((2x * (~1 + (2 * i))) + i)
2: (x + ((~1 + (i * i)) * i * i))
2: (5x2 + ~5x + 2)
2: 55
2: 113
2: (16x2 + 24x + 9)
2: (18x + 19)
2: (9x2 + 9x + 1)
2: (15x2 + 15x + 1)
2: (8x + 17)
2: (1 + (8 * (~2 + (x mod 2))))
2: (64x + 65)
2: (64x + 1)
2: (32x + (x mod 3))
2: (16x2 + 16x + 1)
2: (40x + 1)
2: (36x + 1)
2: (60x + 1)
2: (20x2 + 20x + 1)
2: (16x2 + 1)
2: (60x2 + 1)
2: (x7 + loop(\(x,i).7x,x,1))
2: (x + (i * i * i * i * i * i * i))
2: (1 + (8 * (2 div (6 - (x div 3)))))
2: (1 + (8 * ((x div 2) mod 2)))
2: (x + (8 * ((2x mod (1 + (x div 4))) mod 2)))
2: (8x + (x div 2))
2: (8x + ((1 + i) mod 3))
2: (8x + i)
2: (1 + (4x * (1 + i)))
2: (4x2 + ~4x + 1)
2: (18x + i)
2: (24x2 + 6x + 1)
2: (10x2 + 10x + 1)
2: (10x2 + 2)
2: (20x2 + 1)
2: (5x3 + x)
2: (x + (10x * i))
2: (x + (i * i * i * i * i * i))
2: ((4 * ((1 + (4 * (x + (if (x + ~4) <= 0 then 1 else 2)))) div 3)) + (x mod 2))
2: ((4 * (2x div 3)) + (x mod 3))
2: (1 + (4 * ((x * i) div 2)))
2: (x + (4 * (((x + 1) div 2) div 3)))
2: (1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (2 * ((x div 2) mod 2))) * (x div 4)))
2: (1 + (4 * (x div 2)))
2: (x + (9 * (x div 2)))
2: (x + (6 * (x div 4)))
2: (1 + (4 * (x div 5)))
2: (1 + (4 * ((x * (x div 2)) mod 2)))
2: (1 + (6 * (2x mod 3)))
2: ((4 * (x mod 2)) + (x div 2))
2: (1 + (4 * (x mod 3)))
2: (1 + (2 * ((x mod 3) * (x mod 3))))
2: (1 + ((x2 + x) * loop(\(x,i).(x7 + x6 + x5 + x4 + x3 + x2 + x + 1),1,x2)))
2: (4x + (i div 2))
2: (6x + (x mod 3))
2: (6x + i)
2: ((2x2 + 2x) + loop(\(x,i).2x,x,1))
2: (2x2 + (x div 2))
2: (2x2 + i)
2: (3x2 + (x mod 2))
2: ((x3 + x2) + (x mod 2))
2: (x3 + 6)
2: (x3 + (2 * (x mod 2)))
2: (1 + (x2 * i))
2: (x + ((x + 1) * (i * i)))
2: (2 + (x * (i * i)))
2: (1 + ((1 div ((2x + ~1) mod (4 + (x div 4)))) * (1 + ((1 + (x div 2)) div 2))))
2: (x + (2 * ((x + (2 * (1 + (if (x + ~4) <= 0 then 0 else 2)))) div 3)))
2: (1 + (2 * ((2x + 1) div 3)))
2: (1 + (2 * ((2x + 1) div (3 + ((~2x + 2) mod (4 + (x div 4)))))))
2: (1 + (2 * ((1 + ((x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) div 2)) div 2)))
2: (1 + (2 * ((1 + (x div 2)) div 3)))
2: (1 + (2 * ((2 + (x div 2)) div 3)))
2: (x + (2 * ((x + (x div 2)) div 2)))
2: (x + (2 * ((x + (x div 3)) div 3)))
2: (1 + (2 * ((x + (x mod 2)) div 3)))
2: (x + (2 * ((1 + (if (~2 + (x div 2)) <= 0 then x else (x + 4))) div 3)))
2: (1 + (x * ((x + 1) div 2)))
2: (x + (3 * ((x + 1) div 5)))
2: (x + (2 * ((x + 1) div 7)))
2: (x + (2 * ((x + 1) div (8 - ((x + 2) div 3)))))
2: (1 + (((x + 2) div 3) * ((x + ~1) div 2)))
2: (x + (3 * ((~2x + (x div 2)) div 5)))
2: (1 + (((x + ~2) div 3) * (x div 2)))
2: (x + (2 * ((x + (3 * (if (~2 + (x div 2)) <= 0 then 1 else 2)) - (x div 2)) div 2)))
2: (x + (2 * ((x - ((~x + 2) div 4)) div 2)))
2: (x + (2 * ((x - (((x div 2) div ~2) div 2)) div 2)))
2: (1 + (2 * ((x - ((x div 2) mod 4)) div 2)))
2: (1 + (5 * ((x2 + 3x) div 2)))
2: (1 + (7 * ((x2 + x) div 2)))
2: (2 + (9 * ((x2 + x) div 2)))
2: (1 + (5 * ((x2 + 3x + 2) div 2)))
2: (1 + (2 * ((x2 + 4x + 4) div (~x + 26))))
2: (1 + (3 * ((x2 + 2x) div 2)))
2: (1 + (2 * ((x2 + 2x) div 4)))
2: (x + ((((1 + i) * i) div 2) * (1 + i)))
2: (1 + (2 * ((x * (1 - ((x3 div 8) mod 2))) div 3)))
2: (1 + (2 * ((4 * ((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3)) div 3)))
2: (x + ((4x div (1 + i)) * (~1 + (2 * i))))
2: (x + (2 * ((((x + ~1) div 2) * (x div 2)) div 3)))
2: (1 + (2 * ((3 * ((x div 2) div 3)) div 2)))
2: (1 + (2 * ((3 * (x div 5)) div 2)))
2: (1 + (2 * ((((~x2 + 2) mod (~1 + ((~2x + 2) mod (4 + (x div 4))))) * (1 + (x div 2))) div 2)))
2: (x2 + (3 * (x2 div 2)))
2: (x2 + (5 * (x2 div 2)))
2: (x + (2 * (x2 div 8)))
2: (x + (2 * (((x + 1) div 2) div 3)))
2: (1 + (2 * (((x + ~1) div 2) div 2)))
2: (1 + (2 * ((((x + 1) div 2) div 2) div 2)))
2: (1 + (2 * ((((x + ~1) div 2) div 2) div 2)))
2: (1 + (2 * ((x div 2) div (1 + (x mod (1 + (x mod (1 + ((~x + 2) mod 4)))))))))
2: (1 + (2 * ((x div 2) div (1 + (x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4))))))))))
2: (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * ((1 + (x div 2)) div 2)))
2: (1 + (2 * (((~x + 2) mod (2 + (x div 2))) div 2)))
2: (1 + (2 * ((4x2 mod (2 + (x div 2))) div 2)))
2: (1 + (3 * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)))
2: (1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 3) - (x mod (2 - ((x div 2) mod 2))))))
2: (1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (2 * (x div 5)))))
2: (1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + ((x + 1) div (2 + (x mod 5))))))
2: (1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div (2 - ((x div 2) mod 2))))))
2: (1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((3 * ((~x + 2) div 2)) div 2)))
2: (1 + (x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)))
2: (1 + (2 * (((x2 div 3) mod (x + 1)) div 2)))
2: (x + (3 * ((x mod (1 + (x div 2))) div 3)))
2: (1 + (2 * ((x mod (2 + (if (x mod 8) <= 0 then x else 1))) div 2)))
2: (1 + (5 * (loop(\(x,i).2x,loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1) div 2)))
2: (1 + (3 * (x div 2)))
2: ((2x + 4) + (3 * (x div 2)))
2: (x + ((x + 1) * (x div 2)))
2: (2 + ((x + 2) * (x div 2)))
2: (3 + (x * (x div 2)))
2: ((x * (x div 2)) + (x div 4))
2: ((x * (x div 2)) + (if x <= 0 then 0 else 1))
2: (2 + ((x div 2) * i))
2: (x + ((x + ~2) * (x div 3)))
2: (1 + ((x div 4) * (x div 4)))
2: ((2 * (x div 5)) + (x div 3))
2: (1 + (2 * (x div (3 - (x mod 2)))))
2: (1 + (2 * (x div 7)))
2: (x + (2 * (x div 7)))
2: (x + (3 * (x div 7)))
2: (1 + (2 * (x div (1 + (2 * (1 + ((x div 2) mod 2)))))))
2: (1 + (2 * (x div (2 + ((x div 2) div 3)))))
2: (x + (2 * (x div (1 + (x div (2 + (x div 5)))))))
2: (x + ((x div ~7) * (x mod 7)))
2: (1 + (2 * (x div (2 * (2 + ((x + 2) mod (2 + (x mod 2))))))))
2: (x + (4 * (x div (if i <= 0 then 1 else i))))
2: (x + ((i div 2) * i))
2: (x + (2 * (2 mod (1 + (x div 2)))))
2: (1 + (x * ((1 + (x div 2)) mod 3)))
2: (1 + (2 * ((1 + (x mod (1 + (2 * (2 + (4x mod 17)))))) mod (x + 1))))
2: (1 + (2 * ((1 + (x mod (1 + (x mod (3 - (x mod 2)))))) mod (x + 1))))
2: (1 + (2 * ((x + 1) mod 4)))
2: (1 + (2 * ((x + 1) mod (2 + ((x div 2) mod 2)))))
2: (1 + (2 * ((x + 2) mod 4)))
2: (1 + (2 * ((x + 2) mod (1 + (x div 4)))))
2: (1 + (2 * (~x mod 4)))
2: (1 + (7 * ((~x + 1) mod 3)))
2: (1 + (2 * ((~x + 1) mod 8)))
2: (1 + (2 * ((2 - (((x + ~2) - (x div 3)) mod 3)) mod (1 + (x div 3)))))
2: (1 + (2 * ((~x + 2) mod 3)))
2: (1 + (2 * ((~x + 2) mod 4)))
2: (1 + (5 * ((~x + 2) mod 4)))
2: (1 + (2 * ((~x + 2) mod (1 + (x div 4)))))
2: (1 + (2 * ((x + ~1) mod 4)))
2: (2 + (3 * ((x + ~1) mod 4)))
2: (1 + (2 * (((x + 1) * (1 + (x mod 2))) mod (1 + (x div 5)))))
2: (1 + (3 * (2x mod 3)))
2: ((2 * (((1 + (x * (x + (x div 2)))) div 5) mod 2)) + (x mod 2))
2: (1 + (2 * (((1 + (x div 2)) div 2) mod 3)))
2: (1 + (2 * (((x + ~1) div 2) mod 2)))
2: (1 + (2 * (((x + ~1) div 2) mod 4)))
2: (1 + (2 * (((x2 + ~x) div 2) mod (1 + (x div 4)))))
2: ((2 * ((2x div (1 + (x div 4))) mod 2)) + (x mod 2))
2: (1 + (2 * (((x mod (~2 + ((~x + 2) div 4))) div 2) mod 2)))
2: (1 + (2 * ((loop(\(x,i).(x2 div 3),2,x) div (x + 1)) mod 3)))
2: (x + (2 * ((x div 2) mod 2)))
2: ((2 * ((x div 5) mod 2)) + (x mod 2))
2: (1 + (3 * (((x + 1) mod 8) mod 3)))
2: ((2 * ((((1 - (x mod 4)) mod (x + 1)) mod 3) mod 2)) + (x mod 2))
2: (1 + (x * ((x mod (2 - (x div (1 + ((x div 2) mod 2))))) mod 2)))
2: (x + (2 * ((if x <= 0 then 1 else x) mod 2)))
2: (1 + (2 * (loop(\(x,i).(2x + 2),x,0) mod (x + 1))))
2: (x2 + (2 * (x mod 2)))
2: ((2 * (x mod 2)) + ((x + 1) div 2))
2: ((2 * (x mod 2)) + (if x <= 0 then 1 else x))
2: (x + ((x + 1) * (x mod 2)))
2: (1 + ((x + 2) * (x mod 2)))
2: (((x + 2) * (x mod 2)) + ((x2 + x) div 2))
2: (3 + (x * (x mod 2)))
2: ((3 * (x mod 3)) + (x mod 2))
2: ((2 * (x mod 5)) + (x div 5))
2: (1 + (3 * (x mod (3 + (x mod 2)))))
2: (1 + (2 * (x mod 7)))
2: (1 + (2 * (x mod (1 + (x div 8)))))
2: (1 + (2 * (x mod (1 + i))))
2: (x + (2 * (x mod ((x + ~1) - (x mod 12)))))
2: (x + (2 * (x mod (x - ((x + ~1) mod 8)))))
2: (1 + (9 * (x mod (x - ((x + ~1) mod 8)))))
2: (2 + (x * (x mod 6)))
2: (1 + (2 * (x mod 10)))
2: (1 + (2 * (x mod (2 * (1 + (2 * (x mod 2)))))))
2: (1 + (2 * (x mod (2 * (1 + (x mod 2))))))
2: (2 + (3 * (i mod 2)))
2: (x + ((i mod 2) * i))
2: (x + (2 * (if (~4 + (x div 2)) <= 0 then 1 else (x div 4))))
2: (2 + (3 * (if (x + ~1) <= 0 then 1 else 16)))
2: (1 + (2 * (if (x + ~4) <= 0 then x else (x + 1))))
2: (1 + (2 * (if ((x + 1) mod 8) <= 0 then 2 else 1)))
2: (2 + ((if ((x + ~1) mod 3) <= 0 then 1 else x) * (x mod 2)))
2: (1 + ((if ((x - (x div 3)) mod 3) <= 0 then 1 else x) * (x mod 2)))
2: (1 + ((if ((x * (x mod 3)) mod 5) <= 0 then 1 else 2) * (1 + (x mod 2))))
2: (1 + (2 * (if (((x + 1) div 2) mod 6) <= 0 then 2 else 0)))
2: (1 + (2 * (if (x mod 2) <= 0 then 2 else x)))
2: (1 + (4 * (if (x mod 2) <= 0 then 2 else x)))
2: (1 + (2 * (if (x mod 2) <= 0 then 6 else 1)))
2: (1 + (2 * (if (x mod 2) <= 0 then (x div 4) else 1)))
2: (1 + (2 * (if (x mod (1 + (2 * (x mod 4)))) <= 0 then 1 else loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))))
2: (x + ((if (i mod 2) <= 0 then 1 else i) * i))
2: (x + ((if (i mod 2) <= 0 then 2 else 2x) * (i div 2)))
2: (1 + (2 * (if x <= 0 then 0 else i)))
2: (1 + (2 * (if x <= 0 then 1 else (2 * (2x + ((2x + ((x div 3) mod 3)) div 3))))))
2: (1 + (2 * (if x <= 0 then 1 else (2 * (4x - ((x + ((x + (x div 3)) mod 3)) div 3))))))
2: (1 + ((x + 1) * loop(\(x,i).(x2 + 2x + 1),2,2)))
2: (2 + ((x + 1) * loop(\(x,i).(x2 + 2x + 1),2,2)))
2: (1 + (2 * loop(\(x,i).(x + ((1 + i) * i)),2x,x)))
2: (1 + (2 * loop(\(x,i).(x + (2 * (i * (1 + i)))),2x,x)))
2: (1 + (x * loop(\(x,i).(x2 + 2),2,2)))
2: (1 + (x * loop(\(x,i).(1 + (x * i)),x,1)))
2: (1 + (4 * loop(\(x,i).(x + (i * i)),(x + ~1),x)))
2: (1 + (2 * loop(\(x,i).(x + (i * i)),x,x)))
2: (1 + (2 * loop(\(x,i).(2 + (if x <= 0 then 1 else 4x)),(x div 2),(x mod 2))))
2: (1 + (2 * loop(\(x,i).(x + loop(\(x,i).x2,1,(2 + (i div 2)))),x,1)))
2: (1 + (x * loop(\(x,i).(~x2 + 1),2,4x)))
2: (1 + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (3 + (((x + 1) div 2) div 2))))
2: (1 + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (1 + ((x + 1) mod 3))))
2: (x + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (((x + 1) div 2) div 2)))
2: (1 + (2 * loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)))
2: (1 + (2 * loop(\(x,i).3x,2x,2)))
2: (2 + (x * loop(\(x,i).(4x2 + x),2,2x)))
2: (1 + (x * loop(\(x,i).(6x2 + 2),2,x)))
2: (1 + ((x + 1) * loop(\(x,i).(x2 + 4x + 4),2,2)))
2: (1 + ((x + 1) * loop(\(x,i).((x + 2) * (x + i)),2,2)))
2: (1 + ((x + 1) * loop(\(x,i).((x + 2) * (x + i)),2,3)))
2: (1 + (2 * loop(\(x,i).(2x + ~2),x,(~1 + loop(\(x,i).4x,x,4)))))
2: (1 + (2 * loop(\(x,i).(2 * ((x + ~4) - (x div 4))),x,1)))
2: (1 + ((x + 1) * loop(\(x,i).(2x2 + 8x + 8),2,0)))
2: (2 + (x * loop(\(x,i).2x2,2,(x + ~2))))
2: (2 + (x * loop(\(x,i).3x2,2,2x)))
2: (1 + (x * loop(\(x,i).x3,2,x)))
2: (x + ((2x + 1) * loop(\(x,i).2x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1)))
2: (1 + (x * loop(\(x,i).x2,2,3)))
2: (1 + ((x + 1) * loop(\(x,i).x2,2,4)))
2: (1 + ((x + 1) * loop(\(x,i).x2,2,5)))
2: (1 + (3 * loop(\(x,i).(x div (1 + (x mod 2))),x,x)))
2: (1 + (2 * loop(\(x,i).loop(\(x,i).(x2 + ~1),x,2),x,1)))
2: ((x2 + 1) + i)
2: ((x + 2) + (2 * i))
2: ((x * i) + (i div 2))
2: ((x + 1) + (i * i))
2: ((x + ~1) + (i * i))
2: ((x + ~2) + (i * i))
2: (1 + (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(9x + 1))),x)))
2: (1 + (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x2 + 2x + 1))),x)))
2: (1 + (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,10x)),x)))
2: (1 + (4 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,8x)),x)))
2: (1 + (2 * compr(\x.(1 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(8x2 + 8x))),x)))
2: (1 + (3 * compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(3x + 1))),x)))
2: (1 + (2 * compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + x + ~1))),x)))
2: (1 + (2 * compr(\x.(x - loop(\(x,i).loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),x,(2x + 1)),2,(2x + 1))),x)))
2: (1 + (3 * compr(\x.loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,x),x)))
2: (1 + (4 * compr(\x.loop(\(x,i).(x div (2 - ((x * (x div 2)) mod 2))),x,x),x)))
2: (1 + (2 * compr(\x.loop(\(x,i).loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,0),2,x),(x + 1))))
2: (1 + (2 div (1 + ((x + 2) mod 10))))
2: (2x + (2 div (1 + (x mod 4))))
2: (x + (2 div (5 - ((x + ~2) div 3))))
2: (4x + (2 div (16 div (x + 1))))
2: (1 + (2 div (if x <= 0 then 1 else x)))
2: (1 + (3 div (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2))))
2: (1 + (((x + 1) + (x2 div 4)) div 2))
2: (1 + (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) + (if (x + ~2) <= 0 then 1 else 2) + (x div 5)) div 2))
2: (2 + (((x + 1) + (x div 4)) div 2))
2: ((2x + 2) + (((x + 1) + (x div 8)) div 2))
2: (1 + (((x + 1) + (i div (2 + (x mod 2)))) div 2))
2: (6x + (((x + 1) + (x mod 2)) div 5))
2: (2 + (((x + 1) + (if (x mod 4) <= 0 then 2x else (x div 2))) div 2))
2: (1 + ((x + 3) div 7))
2: (2 + ((x + 3) div (1 + (2 * (1 + (x mod 2))))))
2: (x + ((x + (x div 5) - ((x div 2) div 3)) div 2))
2: (x + ((1 + (2 * (x + (x mod 2)))) div 5))
2: (1 + ((x + (2 * (1 + (if (x + ~1) <= 0 then 0 else (1 + ((x mod (1 + ((1 + (x div 2)) div 2))) div 2)))))) div 3))
2: (1 + (((x * (1 - ((x3 div 8) mod 2))) + (x mod 2)) div 3))
2: (1 + ((x + (3 * (2 - ((~x + 2) div (2 - (x div ~4)))))) div 2))
2: (x + ((~x2 + 2x + 1) div (x + 5)))
2: (1 + ((x2 + ~x + 2) div (x + 3)))
2: (1 + ((x + (2 * (x mod 2))) div 5))
2: (1 + ((1 + (2 * (if (x mod (1 + (2 * (x mod 4)))) <= 0 then 1 else loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))) div 3))
2: (1 + ((x + ((x2 + x + 1) * loop(\(x,i).(1 + (x * i)),x,1))) div 2))
2: (1 + ((1 + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (1 + (((x + 1) div 2) div 2)))) div 2))
2: (1 + ((1 + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (1 + ((x + 1) mod 3)))) div 2))
2: (2 + ((2x + 1) div 5))
2: (x + ((2x + 1) div 5))
2: ((2x + 2) + ((2x + 1) div (3 + (x div 4))))
2: (1 + ((x2 + (x div 2)) div 2))
2: (1 + ((x2 + (x div 2)) div 3))
2: (x + ((x2 + (x div 2)) div 3))
2: (1 + ((1 + ((1 + ((1 + ((1 + ((1 + (((1 + ((x * loop(\(x,i).(x + (x2 div 3)),1,(x + ~1))) div 2)) div 2) div 2)) div 2)) div 2)) div 2)) div 2)) div 2))
2: (1 + ((1 + ((1 + ((1 + ((1 + (((1 + ((x * loop(\(x,i).(x + (x2 div 3)),1,(x + ~1))) div 2)) div 2) div 2)) div 2)) div 2)) div 2)) div 2))
2: (1 + ((1 + ((1 + ((1 + (((1 + ((x * loop(\(x,i).(x + (x2 div 3)),1,(x + ~1))) div 2)) div 2) div 2)) div 2)) div 2)) div 2))
2: (1 + ((1 + ((1 + (((x + 1) * (x div (2 - (x mod 2)))) div 2)) div 2)) div 2))
2: (1 + ((x + (((x2 div 3) + (x div 2)) div 2)) div 2))
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2: (2 + (((x div 2) * (x div 2)) div 2))
2: (x + ((x * (x div 2)) div 3))
2: (1 + ((x * (x div 2)) div (x + 4)))
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2: (1 + ((x * (x div 3)) div 4))
2: (1 + ((3 * (x div 4)) div 2))
2: (x + (((x div 4) * (x div 4)) div 2))
2: (1 + ((x * (x div 5)) div 3))
2: (1 + (((x + 1) * (x div (2 - (x mod 2)))) div 2))
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2: (1 + ((x * ((~x2 + 2) mod (~1 + ((~2x + 2) mod (4 + (x div 4)))))) div 2))
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2: (x + ((x * (if (x + ~2) <= 0 then 1 else x)) div 3))
2: (x + ((2 * (if (x + ~2) <= 0 then x else (2 - (x div ~2)))) div 3))
2: (1 + ((x * loop(\(x,i).(x + (x2 div 3)),1,(x + ~1))) div 2))
2: (x + (2x div (3 + (x div 2))))
2: (x + (2x div (4 + (x div 2))))
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2: (2 + (2x div (4 + ((x + 1) mod 4))))
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2: ((2x + 2) + (2x div 9))
2: (x + (2x div 9))
2: (x + (2x div (1 + (2 * (i mod 2)))))
2: (1 + (2x div (1 + (2x div (2 + (2x div (2 + (x div 4))))))))
2: (8 + (2x div (2 + (x div 2))))
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2: (1 + (2x div (1 + (x mod (1 + ((~x + 2) mod 4))))))
2: (2 + (2x div (1 + (x mod (2 * (1 + (x mod 4)))))))
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2: (x + (2x div (2 - ((~x + 1) div 3))))
2: ((x2 div 3) + (x mod 2))
2: (2 + (x2 div 4))
2: ((2x + 2) + (x2 div 4))
2: ((x2 + 3x + 2) + (x2 div 4))
2: (1 + (x2 div 5))
2: (x + (x2 div ((x + 2) + (x div 4))))
2: (2 + (x2 div 7))
2: (x + (x2 div 7))
2: (x + (x2 div (8 + (x div 2))))
2: (x + (x2 div (x + 16)))
2: (x + (x2 div (1 + (2x div 3))))
2: (x + (x2 div (2 + (x div 2))))
2: (x + (x2 div (1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1))))
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2: (x + (x2 div ~7))
2: (2x + (x2 div (3x + ~2)))
2: (2 + (x2 div 15))
2: (1 + (x2 div (x - ((~x + 2) div 2))))
2: (x + (x2 div 8))
2: (x + ((i * i) div (x + 1)))
2: (x + ((i * i) div (x + 2)))
2: (x + ((((x + 1) + ((x * (if (x + ~2) <= 0 then 1 else x)) div 3)) div 2) div 2))
2: (1 + ((((x + 1) + (x2 div 4)) div 2) div 2))
2: (2x + ((((x + 1) - (x div 4)) div 2) div 2))
2: (1 + (((1 + (((x + 1) * (1 + (2 * ((3 * ((x div 2) div 3)) div 2)))) div 2)) div 2) div 2))
2: (1 + (((1 + (((x + 1) * (1 + ((x + ~1) div 5))) div 2)) div 2) div 2))
2: (1 + (((1 + (((x + 1) * (1 + ((1 - (x mod 3)) mod (x + 1)))) div 3)) div 2) div 2))
2: (x + (((((x2 + 2x) div 2) + (x mod 3)) div 2) div 2))
2: (1 + (((1 + ((x * loop(\(x,i).(x + (x2 div 3)),1,(x + ~1))) div 2)) div 2) div 2))
2: (x + (((x + (((~x + 1) mod (4 + (x div 2))) div 2)) div 2) div 2))
2: (1 + (((1 + (x mod (1 + (31 mod (x + 1))))) div 2) div 2))
2: (1 + (((1 + (x mod (3 + ((x2 div 3) mod (x + 1))))) div 2) div 2))
2: (1 + (((1 + loop(\(x,i).((x + 2) + (2x div 7)),x,2)) div 2) div 2))
2: ((((x + 1) div 2) div 3) + (if x <= 0 then 0 else 1))
2: (1 + (((x + 1) div (1 + (x mod (2 + (x div (1 + ((x div 2) mod (1 + (x mod (1 + ((~x + 2) mod 4))))))))))) div 3))
2: (1 + (((x + 1) div (2 * (1 + (x mod (2 + (x mod 2)))))) div 2))
2: (1 + (((x + 2) div (~2x + 32)) div 2))
2: (1 + ((((x + ~1) + (x div 2)) div 2) div 2))
2: (x + (((~1 + (x2 div 4)) div 2) div 2))
2: (x + (((x - (((x mod 6) - (x div 2)) div 2)) div 2) div 2))
2: (1 + (((x - (x3 div (~x + ~31))) div 2) div 2))
2: (x + (((x - ((x mod 3) div 2)) div 2) div 2))
2: (x + (((x - ((x mod 5) div 2)) div 2) div 2))
2: (x + (((x - ((x div 4) mod 2)) div 2) div 2))
2: ((((x - (x mod (~3 + (x mod 2)))) div 2) div 2) + (if x <= 0 then 0 else 1))
2: (1 + ((((1 + ((x - (x div 3)) div 3)) * (1 + (x div 2))) div 2) div 2))
2: (1 + (((3 * (1 + (loop(\(x,i).3x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 3))) div 2) div 2))
2: (1 + ((((x + ~1) * (x + (x div 3))) div 2) div 3))
2: (x + (((x2 + x) div 2) div 7))
2: (2 + (((x2 + 3x + 2) div 2) div 2))
2: (x + ((((x + 2) * (2 - (x div ~4))) div 2) div 2))
2: (1 + (((x3 + 3x2 + ~x + ~3) div 2) div 3))
2: (1 + (((x2 + ~x) div 2) div 3))
2: (1 + (((x2 + ~4x + 4) div 2) div (x + 3)))
2: (1 + (((x * ((1 + (x div 2)) div 2)) div 3) div 2))
2: (1 + ((((x + 1) * ((1 + (x div 4)) div 2)) div 2) div 2))
2: (1 + ((x2 div 4) div (x + 3)))
2: (2 + ((x2 div 4) div (x + 3)))
2: (1 + ((((~1 + ((x2 div 2) div 3)) div 2) div 2) div 2))
2: (1 + (((((x + 1) * (1 + ((x * (x div 2)) div 4))) div 2) div 2) div 2))
2: (1 + ((((3 * ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (2 + (x div (1 + (2 * (1 + (2 * ((x div 2) mod 2))))))))) div 2) div 2) div 2))
2: (1 + ((((((x + 1) * (~1 + ((~2x + 2) mod (4 + (x div 4))))) div 2) div 2) div 2) div 2))
2: (1 + (((loop(\(x,i).(x2 + 2x),1,((x div 2) - (x mod 2))) div 2) div 2) div 3))
2: (((((2 - (x div 2)) mod (x + 2)) div 2) div 2) + ((x + 1) div 3))
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2: (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) div (1 + ((x div 2) mod 2))))
2: (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) div (if ((x + 2) mod 5) <= 0 then 2 else 1)))
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2: (((((2x + ~2) mod (4 + (x div 2))) div 2) div 2) + (if x <= 0 then 1 else 2))
2: (1 + ((((2 * (x mod ((~x + 2) + (x mod 10)))) mod (x + 1)) div 2) div 2))
2: (2 + (((x mod 5) div 2) div 2))
2: ((3x + 3) + ((x div 2) div 3))
2: (x + ((x div 2) div (3 + i)))
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2: (1 + ((x div 2) div (1 + (x mod 3))))
2: (1 + ((x div 2) div (1 + (x mod 4))))
2: (1 + ((x div 2) div (1 + (x mod (1 + (if (~1 + (x mod 3)) <= 0 then (x div 2) else 2))))))
2: (1 + ((x div 2) div (2 - ((x div 2) mod 2))))
2: (x + ((x div 2) div ~6))
2: (1 + ((x div 3) div (1 + (x mod 4))))
2: (1 + ((x div 4) div (1 + (x mod (2 * (1 + (x mod 2)))))))
2: (1 + (((~x + 5) mod (1 + (x div 3))) div 2))
2: (1 + (((2x2 + 1) mod (2 + (x div 4))) div 2))
2: (1 + (((2x + 1) mod (4 + (x div 4))) div 2))
2: (1 + (((2x + 1) mod (1 + (2 * (2 + (x div 8))))) div 2))
2: ((((2x + 1) mod (1 - (x div ~4))) div 2) + (if x <= 0 then 0 else 1))
2: (1 + (((1 + ((x + 1) div (2 - (if (x mod 5) <= 0 then (x mod 2) else 0)))) mod (x + 1)) div 2))
2: (1 + (((1 + (x mod (1 + (x mod (2 * (2 + ((x div 2) div 5))))))) mod (x + 1)) div 2))
2: ((((1 + (x mod (1 + (x mod (2 * (2 + ((x div 2) mod 2))))))) mod (x + 1)) div 2) + (x mod 2))
2: ((((1 + (x mod (2 * (1 + (x mod (2 * (1 + (x mod (1 + (x div 3)))))))))) mod (x + 1)) div 2) + (x mod 2))
2: (1 + (((2 + (x mod (2 * (1 + (x mod (2 * (1 + (x mod (1 + (x div 3)))))))))) mod (x + 1)) div 2))
2: (1 + (((x + 1) mod ((x + 3) - (2x mod (4 + (x div 4))))) div 3))
2: (1 + (((x + 1) mod (1 + (3 * (((x + 1) mod 8) mod 3)))) div 2))
2: (1 + (((x + 1) mod (1 + ((2 * (1 + (x mod 3))) mod (x + 1)))) div 2))
2: (2 + (((x + 1) mod (1 + (x mod 4))) div 2))
2: (1 + (((x + 1) mod (~1 + (2 * (x div 3)))) div 2))
2: (2 + (((x + 2) mod 5) div 2))
2: (1 + (((x + 2) mod (3 + (x mod 4))) div 2))
2: (1 + (((x + 2) mod (2 + ((x + ~1) mod 4))) div 2))
2: (1 + (((0 - ((~2x + 2) mod (4 + (x div 4)))) mod (x + 1)) div 3))
2: (1 + (((1 - (x mod (3 + (x mod 2)))) mod (x + 1)) div 5))
2: (x + (((~x + 1) mod (4 + (x div 2))) div 2))
2: ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) + (if (x + ~2) <= 0 then 1 else 2))
2: (1 + (((1 - ((x mod 3) + (2 * (x mod 2)))) mod (2x + ~1)) div 3))
2: (x + (((~2 + ((x div 2) mod 2)) mod (x + 1)) div 2))
2: (1 + (((~1 + loop(\(x,i).2x,(x - (x div 8)),2)) mod (x + 1)) div 2))
2: (1 + (((~1 + loop(\(x,i).2x,2x,(1 + (x div (2 + (x mod 2)))))) mod (x + 1)) div 2))
2: (1 + (((~1 + loop(\(x,i).2x,x,(2 - (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))) mod (x + 1)) div 2))
2: (1 + (((~2x + 2) mod 9) div 2))
2: (2 + ((4x mod (4 + (x div 4))) div 2))
2: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) + ((2x + 1) div (3 + (x div 4))))
2: (((2x mod (1 + (x mod 4))) div 2) + (x mod 2))
2: (2 + ((2x mod (~1 + (2 * (((~x + 2) div 2) mod 4)))) div 2))
2: (1 + (((x2 div 2) mod (x + 1)) div 2))
2: (2 + (((x2 div 2) mod (x + 1)) div 2))
2: (x + ((((x div 2) div ~2) mod (x + 1)) div 2))
2: ((((x div 3) mod 3) div 2) + ((x mod 3) div 2))
2: (2 + ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3))
2: (1 + ((x mod (1 + (2 * (if (x mod 2) <= 0 then x else 2)))) div 2))
2: (1 + ((x mod (1 + ((1 + (x div 2)) div 2))) div 2))
2: (((x mod (1 + (x div 2))) div 2) + (x mod 2))
2: (2 + ((x mod (2 + (x div 2))) div 2))
2: (((x mod (1 + (x div 4))) div 2) + (x mod 2))
2: (1 + ((x mod (2 + (x div 4))) div 2))
2: (2 + ((x mod (1 + (4 mod (x + 1)))) div 2))
2: (1 + ((x mod (2 + ((~x + 1) mod 4))) div 2))
2: (1 + ((x mod (1 + ((~x + 2) mod 4))) div 2))
2: (((x mod (2 + ((~x + 2) mod 5))) div 2) + (x mod 3))
2: (1 + ((x mod (1 + ((~1 + ((~2x + 2) mod (4 + (x div 4)))) mod (x + 1)))) div 2))
2: (1 + ((x mod (1 + (3x mod (2 + (x div 2))))) div 2))
2: (1 + ((x mod (2 + ((6 * (1 + (((x2 + 2x) div 2) mod (1 + ((1 + (x div 2)) div 3))))) mod (x + 1)))) div 2))
2: (1 + ((x mod (2 + ((x2 div 4) mod (x + 1)))) div 3))
2: (1 + ((x mod (1 + (loop(\(x,i).(2x + 2),(loop(\(x,i).(~3x2 + x),2,2) mod (x + 1)),1) mod (x + 1)))) div 2))
2: (1 + ((x mod (1 + (x mod (2 + (x div 4))))) div 2))
2: (2 + ((x mod (~2 + (if (x mod 4) <= 0 then x else 0))) div 2))
2: (1 + ((i mod 3) div 2))
2: (1 + ((if ((x * (x div 2)) mod 2) <= 0 then x else (x mod 3)) div 2))
2: (2 + ((if (x mod 2) <= 0 then 2 else x) div 2))
2: (1 + ((if x <= 0 then 0 else 9) div (x + 1)))
2: (1 + ((if x <= 0 then 1 else (2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2)))) div (2 + (x mod 2))))
2: (1 + ((if x <= 0 then 1 else x) div (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))))))
2: (1 + ((if x <= 0 then 2 else (x - ((x div 3) mod 2))) div 2))
2: (1 + (loop(\(x,i).((x + 1) + (((2x + 1) div 7) + (x div 3))),x,0) div 2))
2: (1 + (loop(\(x,i).((x + 1) + ((x + (x div 2)) div 4)),x,1) div 2))
2: (x + (loop(\(x,i).((x + 2) + ((x - (x div 4)) div 2)),x,2) div 2))
2: (x + (loop(\(x,i).(x + 4),(~2 + ((x + ~1) div 3)),x) div 3))
2: (x + (loop(\(x,i).(2 + ((x2 + x) div 2)),2,x) div 3))
2: (1 + (loop(\(x,i).((4x + 2) + ((x2 + x) div 2)),2,x) div 3))
2: (1 + (loop(\(x,i).3x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1) div 3))
2: (1 + (loop(\(x,i).(x * (2 + i)),compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x),1) div 3))
2: (1 + (loop(\(x,i).(4x + ~2),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2))
2: (2 + (loop(\(x,i).(2 * (x - ((x - (x div 5)) div 3))),(x + 1),2) div 2))
2: (1 + (loop(\(x,i).2x,(x + ~1),(x + 2)) div 3))
2: (1 + (loop(\(x,i).2x,(x + ~1),x) div (x + 1)))
2: (1 + (loop(\(x,i).2x,(x + ~7),1) div 2))
2: (1 + (loop(\(x,i).2x,(x + ~8),1) div 2))
2: (1 + (loop(\(x,i).2x,((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3),1) div 2))
2: (1 + (loop(\(x,i).2x,(loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2),1) div 2))
2: (1 + (loop(\(x,i).2x,x,1) div 2))
2: (x + (loop(\(x,i).2x,x,2) div (x + 1)))
2: (x + (loop(\(x,i).2x,x,(2 + (x div 4))) div 3))
2: (2 + (loop(\(x,i).x2,1,(1 + (2 * compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + x + 1))),x)))) div 2))
2: (1 + (loop(\(x,i).x2,2,(x + 1)) div 3))
2: ((x2 + x) + (loop(\(x,i).((x2 + ~x) div 2),2,(x + 1)) div 3))
2: (2 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2))
2: (1 + (loop(\(x,i).(loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)),1,(x + 1)) div 2))
2: (1 + (loop(\(x,i).(if (x mod (3 + (i mod 2))) <= 0 then 1 else x),x,(x + 1)) div 5))
2: (2x + (x div 3))
2: ((x div 3) + (if x <= 0 then 0 else 1))
2: ((x div 4) + i)
2: ((x div 5) + (x mod 2))
2: ((x div 5) + i)
2: (2 + (x div (1 + ((2 * ((2x div (1 + (x div 4))) mod 2)) + (x mod 2)))))
2: (2x + (x div (4 + ((x div 2) div 5))))
2: (1 + (x div (1 + (((2x mod (1 + (x mod 4))) div 2) + (x mod 2)))))
2: (1 + (x div (3 + (x div 3))))
2: (1 + (x div (3 + (x div 4))))
2: (1 + (x div (4 + (x div 4))))
2: ((x div (4 + (x div 4))) + (if x <= 0 then 1 else 2))
2: (x + (x div (4 + (x div 4))))
2: (1 + (x div (3 + ((x + 1) mod 4))))
2: (1 + (x div (3 + ((~2x + 1) mod (4 + (x div 2))))))
2: (1 + (x div (4 + (8 mod (1 + (x div 2))))))
2: (x + (x div (4 + (((x + 1) div 2) mod 8))))
2: (2 + (x div (3 + ((x div 2) mod 2))))
2: (1 + (x div (3 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))
2: (2x + (x div (4 + (x mod 2))))
2: (1 + (x div (4 + (x mod 4))))
2: (1 + (x div (3 + (x mod (2 + ((x div 2) mod 2))))))
2: (x + (x div (3 + (if (x + ~4) <= 0 then 0 else 2))))
2: (1 + (x div (11 - (x div 2))))
2: (2 + (x div (3 - ((x * (x div 2)) mod 2))))
2: (2 + (x div (4 - ((x * (x div 2)) mod 2))))
2: (1 + (x div (4 - ((x div 2) mod 2))))
2: (x + (x div (4 - ((x div 2) mod 2))))
2: (2 + (x div (4 - (x mod 2))))
2: (1 + (x div (2 + (2 * (((2x + 1) mod (2 + (x div 4))) div 2)) - (x mod 2))))
2: ((3x + 3) + (x div 7))
2: ((x div 7) + (if x <= 0 then 0 else 1))
2: (1 + (x div (1 + (2 * (2 + ((x div 2) mod 2))))))
2: (1 + (x div (1 + (2 * (1 + (x mod 3))))))
2: (1 + (x div (1 + (2 * (2 - ((x mod 3) div 2))))))
2: (1 + (x div (1 + (2 * ((x + 1) mod (1 + (x div 4)))))))
2: (1 + (x div (1 + (2 * (loop(\(x,i).(2x + 2),x,0) mod (x + 1))))))
2: (1 + (x div (2 + ((x + 1) div (4 + ((x + 1) mod 3))))))
2: (1 + (x div (2 + ((x div 2) div 3))))
2: (2 + (x div (2 + (((x + 2) mod 5) div 2))))
2: (1 + (x div (1 + (x div 3))))
2: (1 + (x div (1 + (x div 5))))
2: (1 + (x div (2 + (x div (2 + (((x2 div 2) mod (2 + (x div 2))) div 2))))))
2: (1 + (x div (2 + (x div (2 + ((x mod 3) div 2))))))
2: ((x div (2 + (x div (2 + ((x mod 3) div 2))))) + (x mod 2))
2: ((x div (2 + (x div (2 + ((~x + 1) mod (1 + (x mod 4))))))) + (x mod 2))
2: ((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 1 else 2))
2: (2 + (x div (2 + (x div (1 + ((x div 2) mod (1 + (x mod 4))))))))
2: (x + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))))
2: ((x div (2 + (x div (2 + (if (x mod 2) <= 0 then ((x mod 3) div 2) else 2))))) + (x mod 2))
2: (x + (x div (2 + (2 mod (1 + (x div 2))))))
2: (1 + (x div (1 + (5 mod (1 + (x mod 6))))))
2: (1 + (x div (1 + (~x mod 8))))
2: (1 + (x div (2 + ((1 - (x div 2)) mod 4))))
2: (1 + (x div (1 + ((1 - ((2 * (1 + ((1 + (x mod (1 + (x div 4)))) div (1 + ((x + 1) mod 4))))) mod 3)) mod (x + 1)))))
2: (1 + (x div (1 + ((~1 + loop(\(x,i).2x,x,(2 + (x mod 2)))) mod (x + 1)))))
2: (2 + (x div (1 + ((x + ~1) mod 5))))
2: (1 + (x div (1 + ((x2 + 2x) mod (1 + ((2 - (x div 2)) mod 4))))))
2: (1 + (x div (2 + ((~2x + 2) mod 5))))
2: (1 + (x div (2 + ((2 * (((1 + (8 mod (1 + (x div 2)))) div 2) - (x mod 2))) mod (x + 1)))))
2: (1 + (x div (2 + ((x div 2) mod (2 + (x mod 2))))))
2: (1 + (x div (1 + ((x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4)))))) mod (1 + (x div 2))))))
2: (1 + (x div (2 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))
2: (1 + (x div (2 + (loop(\(x,i).2x,(1 + (((1 + (x div 2)) div 2) div 2)),2) mod (x + 1)))))
2: (x + (x div (1 + (x mod 2))))
2: (x + (x div (1 + (x mod 3))))
2: (1 + (x div (2 + (x mod 4))))
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2: (((x2 div 2) mod 3) + loop(\(x,i).2x,x,1))
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2: (2 + (loop(\(x,i).(x * i),x,2) mod (x + 1)))
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2: (1 + (x mod (1 + ((~1 + loop(\(x,i).2x,x,loop(\(x,i).(2 + (x * i)),x,2))) mod (x + 1)))))
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2: (1 + (x mod (1 + ((x mod (3 + (x mod 2))) mod (1 + (x div 2))))))
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2: (1 + (if ((1 + (x div 4)) mod (2 + (x mod 4))) <= 0 then 2 else 0))
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2: (1 + (if ((x + ~2) mod 6) <= 0 then x else 2))
2: (x + (if (8 mod (x + 1)) <= 0 then 2 else 0))
2: (x + (if (8 mod (if x <= 0 then 1 else x)) <= 0 then x else 0))
2: (1 + (if ((x * (x mod 3)) mod 5) <= 0 then 0 else 2))
2: (1 + (if (2x mod (4 + (x div 4))) <= 0 then 2 else 0))
2: (2 + (if (((x + 1) div 2) mod 5) <= 0 then 1 else 2))
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2: (x + (if ((x div 2) mod 3) <= 0 then 0 else 1))
2: (x + (if ((x div 2) mod 3) <= 0 then 2 else 0))
2: (2 + (if ((x div 2) mod 3) <= 0 then 2 else 1))
2: (1 + (if ((x div 2) mod 3) <= 0 then (x div 3) else 0))
2: (x + (if ((x div 3) mod 3) <= 0 then 1 else x))
2: ((if ((x mod 7) mod 3) <= 0 then 1 else 2) + (x mod 2))
2: (2x + (if (x mod 2) <= 0 then 1 else 4))
2: (2 + (if (x mod 2) <= 0 then 1 else (2 + (if (x mod 3) <= 0 then 1 else x))))
2: (2 + (if (x mod 2) <= 0 then 1 else (x + 2)))
2: (1 + (if (x mod 2) <= 0 then 1 else x))
2: ((if (x mod 2) <= 0 then 2 else 0) + (x div 4))
2: ((if (x mod 2) <= 0 then 2 else x) + (x div 2))
2: (1 + (if (x mod 2) <= 0 then 4 else 1))
2: (1 + (if (x mod 2) <= 0 then 8 else 0))
2: (2 + (if (x mod 2) <= 0 then 12 else 0))
2: (1 + (if (x mod 2) <= 0 then (2 * (1 + ((x mod 3) div 2))) else 1))
2: (x + (if (x mod 2) <= 0 then 2x else 0))
2: (1 + (if (x mod 2) <= 0 then 2x else 1))
2: (x + (if (x mod 2) <= 0 then x2 else (x + 1)))
2: (2 + (if (x mod 2) <= 0 then (x div 2) else 1))
2: (x + (if (x mod 2) <= 0 then (x div 2) else 1))
2: (1 + (if (x mod 2) <= 0 then (x div 2) else (x mod 3)))
2: (1 + (if (x mod 2) <= 0 then (x div 4) else 1))
2: (2 + (if (x mod 2) <= 0 then (x mod 3) else (x div 2)))
2: (2 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1))
2: (x + (if (x mod 2) <= 0 then (if x <= 0 then 1 else ~2) else 2))
2: (1 + (if (x mod 2) <= 0 then x else 1))
2: ((if (x mod 2) <= 0 then x else 1) + (if x <= 0 then 0 else 1))
2: (x + (if (x mod 2) <= 0 then x else ((~x + 1) div 3)))
2: (1 + (if (x mod 2) <= 0 then x else ((1 + (x div 2)) mod 2)))
2: (1 + (if (x mod 3) <= 0 then 0 else (1 + (2 * ((~1 + (x2 div 2)) mod (~1 + ((~2x + 2) mod (4 + (x div 4)))))))))
2: (2 + (if (x mod 3) <= 0 then 1 else x))
2: (2x + (if (x mod 3) <= 0 then 2 else 1))
2: (1 + (if (x mod 3) <= 0 then (2 - ((x div 2) mod 2)) else 0))
2: (1 + (if (x mod 3) <= 0 then 3x else 2))
2: (1 + (if (x mod 3) <= 0 then (2 * ((x div 4) mod 2)) else 1))
2: (1 + (if (x mod 3) <= 0 then x else 0))
2: (2x + (if (x mod 4) <= 0 then 0 else 1))
2: ((if (x mod 4) <= 0 then 0 else (if (x mod (2 + (x mod 2))) <= 0 then 1 else x)) + (x mod 2))
2: (2x + (if (x mod 4) <= 0 then 1 else 0))
2: (2 + (if (x mod 4) <= 0 then 2 else 1))
2: (2x + (if (x mod 4) <= 0 then 2 else 1))
2: ((if (x mod 4) <= 0 then ~1 else 2) + (x div 2))
2: (1 + (if (x mod (3 + ((x div 2) div 3))) <= 0 then 2 else 0))
2: (x + (if (x mod (3 + (x div 2))) <= 0 then 2 else 1))
2: (1 + (if (x mod (4 + (x div 2))) <= 0 then 0 else 2))
2: (2 + (if (x mod (1 + (2 * (x mod 4)))) <= 0 then 1 else loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))
2: (2 + (if (x mod (2 + (x div 4))) <= 0 then 1 else 2))
2: ((if (x mod (1 + ((~2x + 2) mod (1 + (x div 2))))) <= 0 then 1 else 2) + (x div 2))
2: (1 + (if (x mod (1 + ((x2 + ~x) mod 8))) <= 0 then (x mod 3) else 0))
2: (1 + (if (x mod (2 + (x mod 2))) <= 0 then 2 else 1))
2: (x + (if (x mod (2 + i)) <= 0 then x else 0))
2: (2 + (if (x mod (1 - (2 * ((~x + 1) div (2 + (x div 2)))))) <= 0 then 1 else x))
2: (1 + (if (x mod 6) <= 0 then 2 else (x mod 2)))
2: (1 + (if (x mod 6) <= 0 then 2x else 1))
2: (1 + (if (x mod 10) <= 0 then 0 else 2))
2: (2 + (if (x mod 10) <= 0 then 1 else 2))
2: (1 + (if (x mod 10) <= 0 then x else 0))
2: (2x + (if (i mod 2) <= 0 then 1 else x))
2: (x + (if (i mod 2) <= 0 then 2 else x))
2: (x + (if (i mod 2) <= 0 then x else 1))
2: (x + (if (i mod 2) <= 0 then x else (1 + (x div 2))))
2: (1 + (if (i mod 2) <= 0 then i else 1))
2: ((if (i mod 2) <= 0 then i else 1) + (x * i))
2: (4x + (if (i mod 3) <= 0 then 1 else 2))
2: (4x + (if (i mod 3) <= 0 then 2 else 1))
2: (x + (if (i mod 3) <= 0 then 3 else 0))
2: (x + (if (i mod 3) <= 0 then x3 else 1))
2: (x + (if (i mod (2 + (x mod 2))) <= 0 then 1 else x))
2: (2 + (if x <= 0 then 0 else (1 + ((x div (1 + (2x mod 3))) mod 2) - (x mod 2))))
2: (1 + (if x <= 0 then 0 else (1 + ((2 * (1 + ((((1 + ((x - (x div 3)) div 3)) * (1 + (x div 2))) div 2) div 2))) div 3))))
2: (1 + (if x <= 0 then 0 else (1 + (x div (3 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))))
2: (1 + (if x <= 0 then 0 else (1 + (x div (1 + (2 * (1 + (((x2 + ~x + 2) mod (x + 4)) div 2))))))))
2: (1 + (if x <= 0 then 0 else (1 + ((1 + ((2 * (2 + (x div (1 + ((x div 2) mod (1 + (if (x mod 2) <= 0 then 6 else 1))))))) div 3)) mod 3))))
2: (2 + (if x <= 0 then 0 else (1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x))))
2: (1 + (if x <= 0 then 0 else (x + 2)))
2: (2 + (if x <= 0 then 0 else (2 - ((x + 1) mod (2 + (x div (4 + (x mod 2))))))))
2: (1 + (if x <= 0 then 0 else (if (x mod (1 + (x mod 6))) <= 0 then 2 else 1)))
2: (2 + (if x <= 0 then 0 else compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x)))
2: (x + (if x <= 0 then 1 else ((2x + ~1) + ((2 * (2 + (((x + 1) + (if (x mod 4) <= 0 then 2x else (x div 2))) div 2))) div 3))))
2: (2 + (if x <= 0 then 1 else ((x + 2) - (((((1 - (x div 2)) div 3) * (x div 2)) div 2) div 2))))
2: (x + (if x <= 0 then 1 else ((x * (x mod 2)) + (x div 2))))
2: (x + (if x <= 0 then 1 else ((4x + 2) + ((1 + (x div 2)) div 3))))
2: (2 + (if x <= 0 then 1 else (x + 2)))
2: (x + (if x <= 0 then 1 else (6x - (((x + ~1) mod (2 + (x div 2))) div 2))))
2: (2 + (if x <= 0 then 1 else (x - (2 * ((x mod (2 + (x div 2))) div 3)))))
2: (x + (if x <= 0 then 1 else (2 * ((2x + 1) + ((x div 2) + (x div 3))))))
2: (x + (if x <= 0 then 1 else (2 * (2x + ((x + ((x div 2) mod 2)) div 2)))))
2: (1 + (if x <= 0 then 1 else (2 * (x + ((3 * ((((x + 1) div 2) div 2) div 2)) div 2)))))
2: (2 + (if x <= 0 then 1 else (2 * (1 + (if (x mod 3) <= 0 then 3x else 2)))))
2: (2 + (if x <= 0 then 1 else (2 * (7x - (x div 3)))))
2: (2 + (if x <= 0 then 1 else (2 * (4x - (x div 2)))))
2: (1 + (if x <= 0 then 1 else 6x))
2: (2 + (if x <= 0 then 1 else 2x))
2: (4x + (if x <= 0 then 1 else ((2 * (x + (((x div 2) div 3) mod 2))) div 3)))
2: (6x + (if x <= 0 then 1 else ((2 * (~x + (((x div 2) div 3) mod 2))) div 3)))
2: (4x + (if x <= 0 then 1 else ((2 * (x - (2x div ~7))) div 3)))
2: (4x + (if x <= 0 then 1 else ((2 * (2x div (4 + (x div 8)))) div 3)))
2: (2x + (if x <= 0 then 1 else (x2 div 12)))
2: (x + (if x <= 0 then 1 else loop(\(x,i).(x - (if x <= 0 then 1 else (x - ((if x <= 0 then 2 else loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 2)))),x,x)))
2: (1 + (if x <= 0 then 2 else 1))
2: (1 + (if x <= 0 then 2 else (x div 3)))
2: (2 + (if x <= 0 then 2 else loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x)))
2: (1 + loop(\(x,i).((x + 2) + (2x div 7)),x,2))
2: (4x + loop(\(x,i).(5x + loop(\(x,i).(3x + 1),i,1)),i,1))
2: (6x + loop(\(x,i).(5x + loop(\(x,i).(3x + 1),i,1)),i,1))
2: (x + loop(\(x,i).(5x + loop(\(x,i).(3x + 1),i,1)),i,1))
2: (x + loop(\(x,i).(5x + loop(\(x,i).(10x + 1),i,1)),i,1))
2: (x + loop(\(x,i).(5x + loop(\(x,i).(12x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
2: (12x + loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
2: (4x + loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1))
2: (6x + loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1))
2: (x + loop(\(x,i).(9x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1))
2: (x + loop(\(x,i).(5x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1))
2: (x + loop(\(x,i).(9x + loop(\(x,i).(12x + loop(\(x,i).11x,i,1)),i,1)),i,1))
2: (x + loop(\(x,i).(9x + loop(\(x,i).(6x + loop(\(x,i).11x,i,1)),i,1)),i,1))
2: (x + loop(\(x,i).(5x + loop(\(x,i).(11x + 1),i,1)),i,1))
2: (x + loop(\(x,i).(9x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1))
2: (x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1))
2: (12x + loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),i,1))
2: (4x + loop(\(x,i).(7x + loop(\(x,i).3x,i,1)),i,1))
2: (6x + loop(\(x,i).(7x + loop(\(x,i).3x,i,1)),i,1))
2: (12x + loop(\(x,i).(5x + loop(\(x,i).10x,i,1)),i,1))
2: (6x + loop(\(x,i).(7x + loop(\(x,i).10x,i,1)),i,1))
2: (x + loop(\(x,i).(3x + loop(\(x,i).10x,i,1)),i,1))
2: (8x + loop(\(x,i).(7x + loop(\(x,i).4x,i,1)),i,1))
2: (6x + loop(\(x,i).(7x + loop(\(x,i).4x,i,1)),i,1))
2: (8x + loop(\(x,i).(7x + loop(\(x,i).2x,i,1)),i,1))
2: (4x + loop(\(x,i).(7x + loop(\(x,i).2x,i,1)),i,1))
2: (6x + loop(\(x,i).(7x + loop(\(x,i).2x,i,1)),i,1))
2: (x + loop(\(x,i).(7x + loop(\(x,i).2x,i,1)),i,1))
2: (1 + loop(\(x,i).(x + 3),(~2 + ((x + ~1) div 3)),x))
2: (loop(\(x,i).(3x + 1),x,1) + (((x + 1) div 3) mod 2))
2: (loop(\(x,i).(3x + 1),x,1) + (((x + ~1) div 2) mod 3))
2: (loop(\(x,i).(3x + 1),x,1) + (x mod 2))
2: (6x + loop(\(x,i).(5x + loop(\(x,i).2x,i,1)),i,1))
2: (8x + loop(\(x,i).(7x + 1),i,1))
2: (6x + loop(\(x,i).(7x + 1),i,1))
2: (2x + loop(\(x,i).(7x + 1),i,1))
2: (1 + loop(\(x,i).(x + ((2 + (i div 3)) * (1 + (i div 3)))),x,1))
2: (6x + loop(\(x,i).(9x + 1),i,1))
2: (loop(\(x,i).(10x + 1),2x,1) + loop(\(x,i).10x,x,2))
2: (6x + loop(\(x,i).(10x + 1),i,1))
2: (x + loop(\(x,i).(25x + 1),i,1))
2: (6x + loop(\(x,i).(8x + 1),i,1))
2: (x + loop(\(x,i).(1 + (2 * (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))),1,i))
2: (x + loop(\(x,i).(2x + 1),x,2))
2: (loop(\(x,i).(1 + (x * i)),(1 + i),1) + (x * i))
2: (loop(\(x,i).(1 + (x * i)),(~1 + i),1) + (x * i))
2: (1 + loop(\(x,i).(x + (i * i)),(x + ~1),x))
2: (1 + loop(\(x,i).(x + (2 div (6 - (x div 3)))),2,x))
2: (4x + loop(\(x,i).(2 + (x div 2)),(x + ~8),1))
2: (1 + loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then 1 else 0)),(x div 2),x))
2: (1 + loop(\(x,i).(x + (if (i mod (2 + (x mod 2))) <= 0 then 1 else x)),x,0))
2: (x + loop(\(x,i).(6x + loop(\(x,i).(5x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
2: (x + loop(\(x,i).(4x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
2: (x + loop(\(x,i).(2x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
2: (6x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),i,1)),i,1))
2: (x + loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).11x,i,1)),i,1)),i,1))
2: (6x + loop(\(x,i).(10x + loop(\(x,i).(3x + 1),i,1)),i,1))
2: (6x + loop(\(x,i).(4x + loop(\(x,i).(3x + 1),i,1)),i,1))
2: (x + loop(\(x,i).(4x + loop(\(x,i).(3x + 1),i,1)),i,1))
2: (6x + loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),i,1))
2: (6x + loop(\(x,i).(4x + loop(\(x,i).(5x + 1),i,1)),i,1))
2: (x + loop(\(x,i).(4x + loop(\(x,i).(5x + 1),i,1)),i,1))
2: (4x + loop(\(x,i).(2x + loop(\(x,i).(5x + 1),i,1)),i,1))
2: (6x + loop(\(x,i).(2x + loop(\(x,i).(5x + 1),i,1)),i,1))
2: (x + loop(\(x,i).(2x + loop(\(x,i).(5x + 1),i,1)),i,1))
2: (6x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).2x,i,1)),i,1)),i,1))
2: (x + loop(\(x,i).(4x + loop(\(x,i).(10x + 1),i,1)),i,1))
2: (12x + loop(\(x,i).(6x + loop(\(x,i).(4x + loop(\(x,i).3x,i,1)),i,1)),i,1))
2: (x + loop(\(x,i).(10x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1))
2: (6x + loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1))
2: (x + loop(\(x,i).(4x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1))
2: (x + loop(\(x,i).(4x + loop(\(x,i).(11x + 1),i,1)),i,1))
2: (x + loop(\(x,i).(4x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1))
2: (6x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1))
2: (12x + loop(\(x,i).(8x + loop(\(x,i).3x,(2 * i),1)),i,1))
2: (6x + loop(\(x,i).(8x + loop(\(x,i).3x,(2 * i),1)),i,1))
2: (12x + loop(\(x,i).(4x + loop(\(x,i).3x,(2 * i),1)),i,1))
2: (x + loop(\(x,i).(4x + loop(\(x,i).3x,(2 * i),1)),i,1))
2: (x + loop(\(x,i).(6x + loop(\(x,i).3x,(2 * i),1)),i,1))
2: (6x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1))
2: (6x + loop(\(x,i).(8x + loop(\(x,i).3x,i,1)),i,1))
2: (2x + loop(\(x,i).(4x + loop(\(x,i).3x,i,1)),i,1))
2: (6x + loop(\(x,i).(8x + loop(\(x,i).5x,i,1)),i,1))
2: (6x + loop(\(x,i).(4x + loop(\(x,i).5x,i,1)),i,1))
2: (6x + loop(\(x,i).(8x + loop(\(x,i).7x,i,1)),i,1))
2: (6x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1))
2: (6x + loop(\(x,i).(8x + loop(\(x,i).11x,i,1)),i,1))
2: (6x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1))
2: (8x + loop(\(x,i).(4x + loop(\(x,i).10x,i,1)),i,1))
2: (12x + loop(\(x,i).(6x + loop(\(x,i).10x,i,1)),i,1))
2: (loop(\(x,i).(loop(\(x,i).2x,i,1) + (x * i)),i,1) + (x * i))
2: (x + loop(\(x,i).(~x - (x div (4 + i))),2,x))
2: (loop(\(x,i).~x,i,3) + (x * (2 + i)))
2: (x + loop(\(x,i).(1 - (x * i)),x,1))
2: (x + loop(\(x,i).(1 - loop(\(x,i).(x - (if x <= 0 then 1 else (2 * (1 + i)))),x,2x)),2,x))
2: (1 + loop(\(x,i).((~x + ~1) + i),x,2))
2: (loop(\(x,i).(3x + ~1),x,1) + (x mod 2))
2: (2 + loop(\(x,i).(3x + ~1),x,2))
2: (loop(\(x,i).(3x + ~1),x,2) + loop(\(x,i).2x,x,1))
2: (8x + loop(\(x,i).(~1 + (2 * (2x + loop(\(x,i).2x,i,1)))),i,1))
2: (6x + loop(\(x,i).(~1 + (2 * (2x + loop(\(x,i).2x,i,1)))),i,1))
2: (x + loop(\(x,i).(~1 + (2 * (2x + loop(\(x,i).2x,i,1)))),i,1))
2: (1 + loop(\(x,i).(x3 + ~1),2,4))
2: (x + loop(\(x,i).(2x - ((if (i mod 2) <= 0 then 1 else 2x) div (1 + i))),i,1))
2: (1 + loop(\(x,i).(x2 + ~1),2,6))
2: (1 + loop(\(x,i).(x2 + ~1),2,2x))
2: (loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),i,1) + (x * i))
2: (x + loop(\(x,i).((x * i) - (if (~2 + (x div 2)) <= 0 then 0 else 1)),2,x))
2: (x + loop(\(x,i).(((1 + (8 mod (1 + (x div 2)))) div 2) - (x mod 2)),1,i))
2: (x + loop(\(x,i).(~x + (if (~x + i) <= 0 then i else 0)),2x,x))
2: (6x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1))
2: ((x + 2) + loop(\(x,i).(~1 + loop(\(x,i).(x div (2 - ((x * (x div 2)) mod 2))),x,x)),(x + 1),(x + 1)))
2: (x + loop(\(x,i).((x + 1) - ((((2 - (x div 2)) mod (x + 1)) div 2) div 2)),2,x))
2: (x + loop(\(x,i).(x - (x div 4)),2,(x div 2)))
2: (1 + loop(\(x,i).(x - (x div ~3)),x,1))
2: (1 + loop(\(x,i).(x - (x div (~2 + ((~x + 2) div 4)))),x,1))
2: (x + loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),i,i))
2: (1 + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then x else 3)),x,x))
2: (1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 2 else 1)),x,x))
2: (1 + loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x))
2: (x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (1 + (x mod 2))))),x,(x + 1)))
2: (x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (1 + (if (x mod 3) <= 0 then 0 else 2))))),x,(x + 1)))
2: (x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - ((x div 2) mod 2))))),x,(x + 1)))
2: (x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),(x + ~1),x))
2: (x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 2)))
2: (x + loop(\(x,i).(x - (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else (2x + ~1)))),x,(x + 1)))
2: (x + loop(\(x,i).(x - (if x <= 0 then 1 else loop(\(x,i).(~1 + (if x <= 0 then 2 else 0)),(x mod 2),(x div 2)))),x,(x + 1)))
2: (1 + loop(\(x,i).(x - (if x <= 0 then 1 else loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,x))),x,x))
2: (x + loop(\(x,i).(x - (if x <= 0 then 1 else i)),x,x))
2: (x + loop(\(x,i).(x - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,i)),x,1))
2: (1 + loop(\(x,i).(i - ((1 + i) mod (x + 1))),x,0))
2: (x + loop(\(x,i).(i - ((1 + i) mod (x + 1))),x,0))
2: (2x + loop(\(x,i).3x,(~2 + (2 * i)),1))
2: (loop(\(x,i).3x,2x,1) + loop(\(x,i).4x,x,1))
2: (loop(\(x,i).3x,2x,1) + loop(\(x,i).2x,x,1))
2: (2 + loop(\(x,i).3x,2x,3))
2: (x3 + loop(\(x,i).3x,x,1))
2: (loop(\(x,i).3x,x,1) + loop(\(x,i).(2x + 1),x,0))
2: (loop(\(x,i).3x,x,2) + loop(\(x,i).2x,x,3))
2: (x + loop(\(x,i).3x,x,2))
2: (x + loop(\(x,i).3x,i,(1 + i)))
2: (x5 + loop(\(x,i).5x,x,1))
2: (loop(\(x,i).5x,x,2) + loop(\(x,i).2x,x,1))
2: (x + loop(\(x,i).5x,x,4))
2: (6x + loop(\(x,i).5x,i,1))
2: (x + loop(\(x,i).(x * (4 + i)),4,(x + 1)))
2: (2 + loop(\(x,i).(2x + 16),x,1))
2: (x + loop(\(x,i).(x4 + 2x),(x + ~2),1))
2: (1 + loop(\(x,i).(2x2 + 8),2,2))
2: (x + loop(\(x,i).(x * (1 + (2 * i))),(~2 + i),1))
2: (loop(\(x,i).(2x + 2),(x div 2),(x mod 2)) + loop(\(x,i).2x,x,2))
2: (1 + loop(\(x,i).(3x + 3),2x,2))
2: (2 + loop(\(x,i).(3x + 3),2x,2))
2: (1 + loop(\(x,i).(3x + 3),2x,4))
2: (1 + loop(\(x,i).(3x + 3),(x div 3),(x mod 3)))
2: (1 + loop(\(x,i).(x2 + x),1,loop(\(x,i).3x,x,1)))
2: (loop(\(x,i).(x2 + x),1,loop(\(x,i).3x,x,1)) + loop(\(x,i).5x,x,1))
2: (1 + loop(\(x,i).(x2 + x),1,loop(\(x,i).(x * i),x,1)))
2: (1 + loop(\(x,i).(2x + 4),(x div 2),(x mod 2)))
2: (1 + loop(\(x,i).(2x + 4),x,1))
2: (1 + loop(\(x,i).(2x + 4),x,4))
2: (1 + loop(\(x,i).(x * (2 + i)),x,1))
2: (1 + loop(\(x,i).(x * (x + i)),2,5))
2: (1 + loop(\(x,i).(x * (x + i)),2,6))
2: (x + loop(\(x,i).(x * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i))),i,2))
2: (1 + loop(\(x,i).(~2x + 2),x,0))
2: (1 + loop(\(x,i).11x,x,1))
2: (1 + loop(\(x,i).11x,x,3))
2: (x + loop(\(x,i).11x,i,(1 + i)))
2: (loop(\(x,i).(2 * (2x - (x div (1 + i)))),(x + ~1),2) + loop(\(x,i).4x,x,1))
2: (loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),(x div 2),((x + 1) mod 2)) + loop(\(x,i).2x,x,1))
2: (1 + loop(\(x,i).(2 * (2x - (x mod 4))),2,(x div 2)))
2: (loop(\(x,i).(x * (~1 + (2 * i))),i,1) + (x * (1 + (2 * i))))
2: (loop(\(x,i).(x * (~1 + (2 * i))),i,1) + (2x * i))
2: (x + loop(\(x,i).(3x + ~3),i,1))
2: (1 + loop(\(x,i).(x2 + ~x),1,loop(\(x,i).x2,x,2)))
2: (2 + loop(\(x,i).(10x + ~4),x,1))
2: (2 + loop(\(x,i).(10x + ~8),x,2))
2: (1 + loop(\(x,i).(2 * (x - i)),x,2x))
2: (x + loop(\(x,i).(x * (x - i)),2,(2 + i)))
2: (1 + loop(\(x,i).10x,(2x + 1),1))
2: (1 + loop(\(x,i).10x,(x + 1),1))
2: (2 + loop(\(x,i).10x,(x + 1),1))
2: (1 + loop(\(x,i).10x,(1 + i),x))
2: (x + loop(\(x,i).10x,(2 + i),1))
2: (loop(\(x,i).10x,x,1) + loop(\(x,i).8x,x,1))
2: (loop(\(x,i).10x,x,1) + loop(\(x,i).4x,x,1))
2: (loop(\(x,i).10x,x,1) + loop(\(x,i).6x,x,1))
2: (1 + loop(\(x,i).10x,x,2))
2: (2 + loop(\(x,i).10x,x,2))
2: (1 + loop(\(x,i).10x,x,7))
2: (1 + loop(\(x,i).10x,x,9))
2: (1 + loop(\(x,i).10x,x,11))
2: (1 + loop(\(x,i).10x,x,x))
2: (x + loop(\(x,i).10x,i,(1 + i)))
2: (1 + loop(\(x,i).(x6 + x5 + x4 + x3 + x2 + x),1,x2))
2: (1 + loop(\(x,i).(x4 + x3 + x2 + x),1,loop(\(x,i).2x,x,1)))
2: (loop(\(x,i).(10x + 10),(2x + 1),0) + loop(\(x,i).10x,x,2))
2: (loop(\(x,i).8x,x,1) + loop(\(x,i).3x,x,1))
2: (6x + loop(\(x,i).8x,i,1))
2: (2x + loop(\(x,i).8x,i,1))
2: (1 + loop(\(x,i).12x,2,(x + 1)))
2: (1 + loop(\(x,i).4x,(1 + i),x))
2: (1 + loop(\(x,i).4x,x,3))
2: (8x + loop(\(x,i).4x,i,1))
2: (x + loop(\(x,i).4x,i,x))
2: (1 + loop(\(x,i).6x,(x + ~2),x))
2: (x + loop(\(x,i).6x,(~1 + i),1))
2: (1 + loop(\(x,i).6x,x,2))
2: (x2 + loop(\(x,i).2x2,(~1 + i),1))
2: (2 + loop(\(x,i).(x3 + x2),x2,2))
2: (x + loop(\(x,i).x3,1,(4x + 4)))
2: (1 + loop(\(x,i).x3,1,(2x2 + 2x)))
2: (loop(\(x,i).x3,2,x) + loop(\(x,i).x2,4,x))
2: (1 + loop(\(x,i).x3,x2,2x))
2: (loop(\(x,i).(2x * i),(x div 2),1) + loop(\(x,i).(x * i),x,1))
2: (1 + loop(\(x,i).(x * (i * i)),4,(x + 1)))
2: (loop(\(x,i).(x * (i * i)),(~1 + i),1) + (x * (i * i)))
2: (1 + loop(\(x,i).(x * (i * i)),x,1))
2: (1 + loop(\(x,i).2x,((((1 + (8 mod (1 + (x div 2)))) div 2) + (if x <= 0 then 0 else 1)) - (x mod 2)),2))
2: (1 + loop(\(x,i).2x,(x + ~1),1))
2: (x + loop(\(x,i).2x,(x + ~1),2))
2: (2x + loop(\(x,i).2x,(~1 + i),x))
2: (x + loop(\(x,i).2x,(~1 + i),x))
2: (loop(\(x,i).2x,(~2 + i),1) + (x * i))
2: (1 + loop(\(x,i).2x,(x div 2),1))
2: (6 + loop(\(x,i).2x,(x div 2),(2 + (x mod 2))))
2: (loop(\(x,i).2x,(x div 2),(~1 + (x mod 2))) + loop(\(x,i).2x,x,1))
2: (loop(\(x,i).2x,(x div 2),(x mod 2)) + loop(\(x,i).2x,x,1))
2: (loop(\(x,i).2x,loop(\(x,i).(x div (1 + (x mod 2))),x,x),1) + loop(\(x,i).2x,x,1))
2: (6 + loop(\(x,i).2x,x,1))
2: (x2 + loop(\(x,i).2x,x,1))
2: (loop(\(x,i).2x,x,2) + (x div 2))
2: (loop(\(x,i).2x,x,2) + (x mod 2))
2: (x + loop(\(x,i).2x,x,3))
2: (x + loop(\(x,i).2x,x,4))
2: (2 + loop(\(x,i).2x,x,5))
2: (1 + loop(\(x,i).2x,x,(1 + loop(\(x,i).3x,x,1))))
2: (loop(\(x,i).2x,i,1) + (x * (~1 + i)))
2: (1 + loop(\(x,i).2x,i,x))
2: (2x + loop(\(x,i).2x,i,x))
2: (x + loop(\(x,i).2x,i,x))
2: (x + loop(\(x,i).2x,compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i),2))
2: (1 + loop(\(x,i).2x,compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),2))
2: (1 + loop(\(x,i).2x,compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),4))
2: (x + loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i))))
2: (x + loop(\(x,i).x2,1,loop(\(x,i).x3,1,(1 + (2 * i)))))
2: (x + loop(\(x,i).x2,2,(1 + (2 * i))))
2: (x2 + loop(\(x,i).x2,2,x2))
2: (loop(\(x,i).x2,(x + ~1),2) + loop(\(x,i).x2,x,2))
2: (2 + loop(\(x,i).x2,x,3))
2: (x + loop(\(x,i).(2 * i),(((x + ~1) div 2) div 2),1))
2: (1 + loop(\(x,i).(x * i),((((x div 2) * (x div 2)) div 2) + (if x <= 0 then 1 else 2x)),1))
2: (1 + loop(\(x,i).(x * i),(x + ~1),1))
2: (loop(\(x,i).(x * i),(~1 + i),1) + loop(\(x,i).(x * i),x,1))
2: (loop(\(x,i).(x * i),x,1) + loop(\(x,i).2x,x,1))
2: (1 + loop(\(x,i).(x * i),x,2))
2: (x + loop(\(x,i).(x * i),i,i))
2: (x + loop(\(x,i).(((3 * (x + (x div 4))) - (x mod 2)) div 2),1,i))
2: (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) + loop(\(x,i).4x,x,1))
2: (x + loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),i,i))
2: (x + loop(\(x,i).((if x <= 0 then 2 else loop(\(x,i).(x div (2 - (x mod 2))),x,x)) div 2),2,x))
2: (x + loop(\(x,i).(loop(\(x,i).3x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1) div 3),1,i))
2: (1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,(2x + 1)))
2: (2 + loop(\(x,i).(x div (2 - (x mod 2))),x,(x div (1 + (if (x mod 3) <= 0 then 2 else 0)))))
2: (x + loop(\(x,i).(x div (2 - (x mod 2))),x,x))
2: (1 + loop(\(x,i).((x + 1) mod (2 + (i div 3))),(x + ~1),0))
2: (1 + loop(\(x,i).(x mod 2),(x mod 2),(if (~1 + (x mod 3)) <= 0 then x else 2)))
2: (1 + loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x + ~2),x))
2: (1 + loop(\(x,i).(if x <= 0 then 0 else (x + (x mod 2) - (if ((x + (x div 2)) mod 4) <= 0 then 2 else 1))),2,x))
2: (1 + loop(\(x,i).(if x <= 0 then 1 else ((2x * (~1 + (2 * i))) mod (1 + i))),x,0))
2: (x + loop(\(x,i).(if x <= 0 then (2 * i) else (x + ~1)),x,0))
2: (x + loop(\(x,i).loop(\(x,i).(x + (i * i)),(1 + i),x),i,1))
2: ((x + 1) + loop(\(x,i).loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,0),2,x))
2: (x + loop(\(x,i).loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),x,x),1,3x))
2: (1 + loop(\(x,i).loop(\(x,i).(~x + i),x,x),x,x))
2: (x + loop(\(x,i).loop(\(x,i).2x,((((1 + (8 mod (1 + (x div 2)))) div 2) + (if x <= 0 then 0 else 1)) - (x mod 2)),2),1,i))
2: (x + loop(\(x,i).i,(~3 + (x div 2)),1))
2: (x + loop(\(x,i).i,(~1 + (((x + 1) div 2) div 2)),1))
2: (x + loop(\(x,i).i,(~1 + (x div 2)),1))
2: (x + loop(\(x,i).i,(~2 + (x div 2)),1))
2: (x + loop(\(x,i).i,(~1 + (x div 3)),1))
2: (x + loop(\(x,i).i,(x + ~8),1))
2: (x + loop(\(x,i).i,(x + ~10),1))
2: (x + loop(\(x,i).i,((~1 + (x div 2)) div 2),1))
2: (x + loop(\(x,i).i,((x + ~1) div 3),1))
2: (x + loop(\(x,i).i,(((x + ~1) div 2) div 2),1))
2: (x + loop(\(x,i).i,(x div (3 * (8 - (x div 2)))),1))
2: (1 + loop(\(x,i).compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x),1,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
2: (1 + compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,7x)),x))
2: (1 + compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,10x)),x))
2: (2 + compr(\x.((~x + 1) + (23 * loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x))),x))
2: (1 + compr(\x.(1 - (loop(\(x,i).(x2 + 2x),2,2) mod (x + 1))),x))
2: (2 + compr(\x.(1 - (loop(\(x,i).3x2,2,x) mod (x + 2))),x))
2: (1 + compr(\x.(1 - (x mod (2 + ((1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)) mod (x + 1))))),(x + 1)))
2: (1 + compr(\x.(2 - ((1 + ((1 + ((loop(\(x,i).2x,x,2) mod (x + 1)) div 2)) div 2)) mod 3)),x))
2: (1 + compr(\x.(2 - ((~1 + loop(\(x,i).2x,loop(\(x,i).(x div (1 + (x mod 2))),x,x),2)) mod (x + 1))),x))
2: (1 + compr(\x.((x div 4) - (loop(\(x,i).(2x + 2),x,0) mod (x + 1))),x))
2: (1 + compr(\x.(~1 + (loop(\(x,i).(2x + 1),(x div (1 + (x mod 2))),1) mod (x + 1))),(x + 1)))
2: (2 + compr(\x.(~2 + (loop(\(x,i).(~2x + 1),x,1) mod (x + 2))),(x + 1)))
2: (1 + compr(\x.(~1 + (x mod (~1 + (loop(\(x,i).2x,x,x) mod (x + 1))))),(x + 1)))
2: (2 + compr(\x.(~1 + (x mod (~1 + (loop(\(x,i).2x,x,x) mod (x + 1))))),x))
2: (1 + compr(\x.(~1 + (x mod ((x + 1) - (loop(\(x,i).2x,x,1) mod (x + 1))))),(x + 1)))
2: (1 + compr(\x.(~1 + loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(3x2 + 6x))),x))
2: (1 + compr(\x.((1 + loop(\(x,i).(x3 + ~1),2,4)) mod (x + 1)),x))
2: (1 + compr(\x.((1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,x)) mod 3),x))
2: (1 + compr(\x.((x + 1) mod (1 + (x div (2 + (loop(\(x,i).(2x + 2),x,1) mod (x + 1)))))),x))
2: (1 + compr(\x.((x + 1) mod (1 + (x div (2 + (if (x mod 2) <= 0 then 1 else 8))))),x))
2: (x + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),i))
2: (1 + compr(\x.((x * ((x div 2) div 3)) mod 2),x))
2: (1 + compr(\x.(((~x + (x * (x mod 2))) div 3) mod 3),x))
2: (x + compr(\x.((x div 2) mod 2),(x div 5)))
2: (1 + compr(\x.(loop(\(x,i).(2x + 1),x,0) mod (x + 1)),x))
2: (x + compr(\x.(loop(\(x,i).(2x + 1),x,0) mod (x + 1)),i))
2: (compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x) + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))
2: (2 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x))
2: (2 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))
2: (5 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
2: ((x + 2) + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
2: (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + ((x + ~1) div 3))
2: (1 + compr(\x.(loop(\(x,i).((x + 1) * (x + i)),4,2) mod (x + 1)),x))
2: (1 + compr(\x.(loop(\(x,i).((x + 1) * (x + i)),4,5) mod (x + 1)),x))
2: (1 + compr(\x.(loop(\(x,i).(x * (x + i)),2,5) mod (x + 1)),x))
2: (1 + compr(\x.(loop(\(x,i).(~x4 + 3x2),3,2) mod (x + 1)),x))
2: (1 + compr(\x.(loop(\(x,i).(x * (x - i)),2,8) mod (x + 1)),x))
2: (1 + compr(\x.(loop(\(x,i).(x * (x - i)),2,(x div 2)) mod (x + 1)),x))
2: (1 + compr(\x.(loop(\(x,i).x3,2,15) mod (x + 1)),x))
2: (1 + compr(\x.(loop(\(x,i).x2,2,10) mod (x + 1)),x))
2: (1 + compr(\x.(loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 4),x))
2: (1 + compr(\x.(x mod (1 + ((x mod ((x + ~1) - (x mod 4))) div 2))),x))
2: (1 + compr(\x.(x mod (1 + ((5x2 + 10x + 5) mod 9))),x))
2: (2 + compr(\x.(x mod (1 + ((x4 + 4x3) mod 9))),x))
2: (1 + compr(\x.(if (x mod 2) <= 0 then ((x div 3) mod 3) else 0),x))
2: (2 + compr(\x.loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(3x + 1)),x))
2: (2 + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x))
2: (2 + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,(x + 2)),x))
2: (1 + compr(\x.loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,2x),x))
2: (1 + compr(\x.loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 0 else 2))),x,x),x))
2: (1 + compr(\x.loop(\(x,i).(x div (2 - (((x + 1) * (x div 4)) mod 2))),x,x),x))
2: (1 + compr(\x.loop(\(x,i).(if ((x + 1) mod (1 + i)) <= 0 then 0 else x),x,2x),x))
2: (1 + compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + 1)),x))
2: (2 + compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(2x2 + 8x + 1)),x))
2: (1 + compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(11x + 8)),x))
2: (1 + compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(x2 + 3x)),x))
2: (1 + compr(\x.loop(\(x,i).loop(\(x,i).(x div (1 + (x mod 2))),x,(x + 1)),2,x),x))
2: (2 + compr(\x.loop(\(x,i).loop(\(x,i).(x div (1 + (x mod 2))),x,(x + 1)),2,x),x))
2: (~x3 + ~1)
2: (~1 - (x div (2 + (x div (1 + (x mod (2 * (1 + (x mod 2)))))))))
2: (~1 - (x mod 4))
2: (0 - (2 * (2 + (2x mod 5))))
2: (~2x + ~2)
2: (~x2 + ~x)
2: (0 - (2x * (1 + (2 * i))))
2: ~8x
2: (0 - (3 * ((x + 1) mod 12)))
2: (0 - ((x2 + (x div 2)) div 2))
2: (0 - ((2x - (x2 div 4)) div 5))
2: (0 - ((x2 + 2x) div 4))
2: (0 - (2x div (~3 + ((~x + 1) div 3))))
2: (0 - (2x div (~2 + (x div ~3))))
2: (0 - ((x div 2) div 3))
2: (0 - (x div 4))
2: (0 - (x div 5))
2: (0 - (x div (1 + (loop(\(x,i).2x,x,2) mod (2x + 1)))))
2: (0 - ((1 + (x div 2)) mod 3))
2: (0 - ((~2x + 2) mod (4 + (x div 4))))
2: (0 - (x2 mod (x + 5)))
2: (0 - ((x div 2) mod 4))
2: (0 - (x mod 7))
2: (0 - (if (~x + 2) <= 0 then (x div 2) else 1))
2: (0 - (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1))
2: (0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(5x + 4)))
2: (0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(9x + 1)))
2: (0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(8x + 1)))
2: (0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(6x + 1)))
2: (0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(6x + 2)))
2: (0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x2 + 2x + 1)))
2: (0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x2 + 1)))
2: (0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(5x + ~1)))
2: (0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(x2 + x + ~1)))
2: (0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(9x + ~1)))
2: (0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(8x + ~1)))
2: (0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(7x + ~2)))
2: (0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(6x + 4)))
2: (0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x2 + 3x)))
2: (0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,8x))
2: (0 - loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,4x))
2: (0 - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + (if (x + ~1) <= 0 then x else i)))),x,x))
2: (0 - loop(\(x,i).2x,x,(if (x mod (2 + ((~x + 1) mod 3))) <= 0 then 1 else 0)))
2: (0 - loop(\(x,i).loop(\(x,i).loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,2x),1,(x + 1)),2,x))
2: (~x + ~31)
2: ((~x + 1) - (2 * ((x + ((x div 2) mod 2)) div 2)))
2: (~1 - (x2 div 3))
2: ((~2x + 1) - (x div 2))
2: (~1 - ((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)))
2: ((~x + 1) - ((x * (x div 2)) mod 2))
2: ((~x + 1) - ((x div 3) mod 3))
2: (1 - (((x mod (~1 + (2 * ((x + ~2) div 3)))) mod 2) + (x mod 2)))
2: (~1 - (if (x + ~4) <= 0 then 0 else 2))
2: ((~x + 1) - i)
2: (1 + ((2 + (((x div 3) * (x div 2)) div 2)) div 3) - (x mod 2))
2: (1 + loop(\(x,i).(2x + 4),(x + ~1),0) - (x mod 2))
2: (3 - (x mod ~4))
2: (5x + 13)
2: ((~x + 1) + (23 * loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x)))
2: ((~x + 1) + (x * loop(\(x,i).x2,(~1 + i),2)))
2: ((~x + 1) + loop(\(x,i).(2 * (x + i)),x,0))
2: (1 - (x * (1 + (2 * i))))
2: (1 - (5 * (1 + (x div 2))))
2: (1 - (2 * (2 + (x div 8))))
2: (1 - (3 * (1 + ((x + 1) mod 4))))
2: (1 - (2 * (2 + (x mod 2))))
2: (1 - (2 * (2 + (x mod 3))))
2: (~x2 + ~2x + 1)
2: (~12x + ~11)
2: ~19
2: (~18x + ~11)
2: (~12x + ~5)
2: (~4x2 + ~4x + 1)
2: (~x5 + 1)
2: (~x3 + 1)
2: (1 - (2 * ((1 + (x div 2)) div 2)))
2: (1 - (2 * ((x + (if (~2 + (x div 4)) <= 0 then 1 else 2)) div 2)))
2: (1 - (2 * ((~x + (x mod 3)) div 4)))
2: (1 - (((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2) * (x div 5)))
2: (1 - (2 * (((~x + 2) div 2) div 5)))
2: (1 - (2 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))
2: (1 - (3 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))
2: (1 - (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + ((2 * ((~x + 2) div 2)) div 3))))
2: (1 - (2 * ((x + 1) mod (~1 + (x div ~5)))))
2: (1 - (2 * ((x - ((~x2 + x) div 32)) mod 2)))
2: (1 - (2 * ((2x div (4 + (x div 4))) mod 2)))
2: (1 - (2 * ((x div 4) mod 2)))
2: (1 - (2 * ((x mod ((x + ~2) + (x div 2))) mod 2)))
2: (1 - (2 * (x mod 5)))
2: (1 - (2 * (x mod 7)))
2: (1 - (2 div (x + 1)))
2: (1 - ((1 + (x mod (1 + (2 * (if (x mod 2) <= 0 then 1 else (x div 4)))))) div 3))
2: (1 - (((~x + 1) - (4 * (if (x + ~2) <= 0 then 0 else 2))) div 5))
2: (1 - ((~x + 1) div 5))
2: (1 - ((~x + 1) div (3 + (x mod 6))))
2: (1 - ((~x + 1) div (2 + (x div 3))))
2: (1 - ((~x2 + 2) div (x + 6)))
2: (1 - ((~x + 2) div (4 + (x mod 2))))
2: (1 - ((3x2 + ~x) div 4))
2: (1 - ((~x + ((x mod (2 + (x div 2))) div 2)) div 2))
2: (1 - ((~x + ((x div ~2) mod 2)) div 3))
2: (1 - (((x mod 4) - (x div 2)) div 3))
2: (1 - ((x2 + 4x) div 2))
2: (1 - ((2 * (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2))) div 3))
2: (1 - ((3 * ((1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((3 * ((~x + 2) div 2)) div 2))) div 2)) div 2))
2: (1 - ((2 * (((x + 1) div 2) div 2)) div 3))
2: (1 - ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (~1 + (x div ~2))) div 2))
2: (1 - (((x * (x div 3)) div ~2) div 2))
2: (1 - (((((x + ~2) * ((x div 3) * (1 - (x div 2)))) div 2) div 2) div 2))
2: (1 - (((x div 2) div ~2) div 2))
2: (1 - ((x div 2) div (~1 + (2 * (x mod 4)))))
2: (1 - (((x + 1) mod (~1 - (x div 4))) div 2))
2: (1 - (((x div (3 * (~2 + (x mod 2)))) mod 3) div 2))
2: (1 - ((loop(\(x,i).(2x + 2),x,(12 * (x div 7))) mod 5) div 2))
2: (1 - ((x mod (1 + (x div 2))) div 3))
2: (1 - (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 3))
2: (1 - (x div (1 + (x mod 4))))
2: (1 - (x div (~1 - (x div (2 + (x div (1 + (x mod (2 * (1 + (x mod 2)))))))))))
2: (1 - (x div (~1 - ((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)))))
2: (1 - (x div (~1 + ((~x + 2) div 4))))
2: (1 - (x div (~2 + (((2 - (x div 2)) div 2) div 2))))
2: (1 - (x div (~1 + ((x div 2) div ~2))))
2: (1 - (x div ~8))
2: (1 - (x div ~14))
2: (1 - (2 mod (1 - (2 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))))
2: (1 - (2 mod (~4x2 + ~4x + 2)))
2: (1 - ((2x + 1) mod (~1 + loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x))))
2: (1 - ((1 + ((2 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 3)) mod 3))
2: (1 - ((x + 1) mod (1 + (4x mod (2 - ((x div 2) div ~2))))))
2: (1 - ((x + 1) mod ~7))
2: (1 - ((x + 1) mod 11))
2: (1 - ((x + 2) mod (~1 + ((~x + 2) div 4))))
2: (1 - ((x + ~2) mod (3 - (x mod 2))))
2: (1 - ((x - (x mod (1 + (2 * ((x - (x div 3)) mod 3))))) mod 3))
2: (1 - ((2 * (1 + ((1 + (x mod (1 + (x div 4)))) div (1 + ((x + 1) mod 4))))) mod 3))
2: (1 - ((x2 + x) mod 3))
2: (1 - ((x2 + x) mod 5))
2: (1 - ((x2 + 2x) mod 7))
2: (1 - ((x2 + 2x) mod 8))
2: (1 - (((x + 1) * (if (~2 + (x div 4)) <= 0 then 1 else 2)) mod 3))
2: (1 - (((x2 + 2x) div 2) mod (1 + (x div (2 + (x div 3))))))
2: (1 - (((loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + 1)) mod (x + 1)) div 2) mod 3))
2: (1 - ((x div 2) mod 5))
2: (1 - (loop(\(x,i).(x2 + 2x),2,2) mod (x + 1)))
2: (1 - (loop(\(x,i).3x2,2,x) mod (x + 2)))
2: (1 - (loop(\(x,i).x2,2,(1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1))) mod (x + 1)))
2: (1 - (loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,1) mod (2 + (x * (x mod 2)))))
2: (1 - (x mod 5))
2: (1 - (x mod (1 + (2 * (1 + ((x div 2) mod 3))))))
2: (1 - (x mod (1 + (4 * (x mod 2)))))
2: (1 - (x mod (1 + (3 * (x mod (3 + (x mod 2)))))))
2: (1 - (x mod (1 + (2 * (x mod (2 + (x mod 2)))))))
2: (1 - (x mod (2 + ((1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)) mod (x + 1)))))
2: (1 - (x mod (2 + ((x div ~7) mod 3))))
2: (1 - (x mod (1 + (x mod 4))))
2: (1 - (x mod (2 + (if (x mod 5) <= 0 then 2 else 0))))
2: (1 - (x mod (1 + (if (x mod 8) <= 0 then 2 else 1))))
2: (1 - (x mod (1 - (x div (~1 + ((~x + 2) div 4))))))
2: (1 - (x mod (2 - (x mod ~3))))
2: (1 - (x mod (((~x + 2) div 2) - (x mod 3))))
2: (1 - (x mod (2 * (1 + ((~1 + (x div 2)) mod 4)))))
2: (1 - (x mod (4 * (2 - (x mod 2)))))
2: (1 - (if ((1 + (x div 4)) mod (2 + (x mod 4))) <= 0 then 2 else 0))
2: (1 - (if ((x + 2) mod (2 + ((x div 2) mod 2))) <= 0 then x else 0))
2: (1 - (if (x mod 2) <= 0 then x else 0))
2: (1 - loop(\(x,i).(~1 + (x * (1 + i))),x,0))
2: (1 - loop(\(x,i).(~1 + (2 * loop(\(x,i).(x div (1 + (x mod 2))),x,x))),2x,x))
2: (1 - loop(\(x,i).(~2 + (loop(\(x,i).(1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),2,x) mod (x + 1))),2,x))
2: (1 - loop(\(x,i).(~2x + (if x <= 0 then 2 else 0)),x,(x mod 2)))
2: (1 - loop(\(x,i).(x - (2 * (~2x + (i mod 2)))),x,0))
2: (1 - loop(\(x,i).(x - (if x <= 0 then 0 else (i - (i div 3)))),x,x))
2: (1 - loop(\(x,i).(x - (if x <= 0 then 0 else (i - (x mod 2)))),x,x))
2: (1 - loop(\(x,i).3x,x,loop(\(x,i).(3x + ~6),x,0)))
2: (1 - loop(\(x,i).3x,x,loop(\(x,i).(2x + ~6),x,0)))
2: (1 - loop(\(x,i).(2 * (x - (i mod 2))),(x + ~2),0))
2: (1 - loop(\(x,i).(x * (~x + i)),2,x))
2: (1 - loop(\(x,i).(12x + ~6),(x + 1),0))
2: (1 - loop(\(x,i).(10x + ~60),x,0))
2: (1 - loop(\(x,i).(10 * (x - (i mod 2))),x,0))
2: (1 - loop(\(x,i).(3 * ((x + ~1) div 2)),x,0))
2: (1 - loop(\(x,i).(x div (2 - ((x * (x div 2)) mod 2))),x,x))
2: (1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),x))
2: (1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(3x + 1)))
2: (1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + (x div 2))))
2: (1 - loop(\(x,i).(if x <= 0 then 1 else (x + ~11)),x,4x))
2: (1 - compr(\x.(if (x mod 2) <= 0 then ((x div 3) mod 3) else 0),x))
2: (2 + (if x <= 0 then 0 else 2) - (x div 2))
2: (3 - ((x div 3) mod 2))
2: (2 + ((loop(\(x,i).(x * i),x,1) mod (x + 1)) div 3) - (x mod 2))
2: (2 + ((x mod 3) mod 2) - (x mod 2))
2: (~x + 7)
2: (~x + 11)
2: ((~x + 2) + ((x div 2) div 3))
2: ((~x + 2) + ((x mod 3) div 2))
2: ((~x + 2) + ((x div 2) mod 2))
2: ((~x + 2) + (x mod 10))
2: (2 - (3 * i))
2: (2 - (5 * (1 + (x div 2))))
2: (2 - (3 * (2 + (x div 4))))
2: (~x2 + ~4x + ~2)
2: (3x2 + ~3x + 2)
2: (~12x + 2)
2: (~4x2 + ~4x + 2)
2: (2 - (3 * (x div ~2)))
2: (2 - (5 * (x div ~2)))
2: (2 - (2 div (2 div (~2x + 1))))
2: (2 - ((~x + 3) div 7))
2: (2 - ((~x + 3) div (1 + (x mod 4))))
2: (2 - ((~2x + 5) div (4 + (x div 4))))
2: (2 - ((1 + (((1 + loop(\(x,i).((x * (x mod 2)) + (x div 2)),x,x)) div 2) div 2)) div 2))
2: (2 - ((x + (x div 2)) div 2))
2: (2 - ((~8x + 1) div (x + 3)))
2: (2 - ((~2x + 1) div 5))
2: (2 - ((1 - (x div 2)) div (1 + (2 mod (x + 1)))))
2: (2 - ((~x + 1) div (1 + (x div 2))))
2: (2 - ((~x + 1) div (2 + (x div 2))))
2: (2 - ((~x + 1) div (1 + (if (x mod (3 + ((x div 2) div 3))) <= 0 then 2 else 0))))
2: (2 - ((2 - (x2 div 4)) div (x + 1)))
2: (2 - ((2 - (2x mod (4 + (x div 4)))) div (x + 2)))
2: (2 - ((~x + 2) div 7))
2: (2 - ((~x + 2) div (2 + ((if x <= 0 then 2 else x) div 2))))
2: (2 - ((~x + 2) div (2 - (x div ~2))))
2: (2 - ((~1 + (x div 2)) div 2))
2: (2 - ((~x + ((x div 2) mod 2)) div 2))
2: (2 - (((x mod 2) - ((x2 + ~x) div 4)) div 2))
2: (2 - ((~2x + 2) div 9))
2: (2 - ((~x2 + 2x) div 3))
2: (2 - ((x * (x mod 2)) div 2))
2: (2 - (((x + 1) div 2) div 2))
2: (2 - (((x + ~1) mod (1 + ((x + 2) div 3))) div 2))
2: (2 - ((x mod 5) div 2))
2: (2 - ((x mod 7) div 2))
2: (2 - ((x mod (1 + (x div 2))) div 2))
2: (2 - ((if x <= 0 then 1 else x) div ~4))
2: (2 - (loop(\(x,i).((x + ~2) + (x div 2)),x,0) div 2))
2: (2 - (x div (~5 + (x div 4))))
2: (2 - (x div (~1 + (2 * (x mod ~2)))))
2: (2 - (x div (~2 + (((~x + 2) div 2) div 3))))
2: (2 - (x div (~1 + ((x div 2) div ~2))))
2: (2 - (x div (~2 + (x mod ~2))))
2: (2 - (x div (2 * (~2 + (x mod 2)))))
2: (2 - (i div ~4))
2: (2 - (1 mod (~x2 + 2)))
2: (2 - (1 mod (~3x + 4)))
2: (2 - ((x2 + 2) mod 5))
2: (2 - ((1 + ((1 + ((loop(\(x,i).2x,x,2) mod (x + 1)) div 2)) div 2)) mod 3))
2: (2 - ((x + (x div 5)) mod 5))
2: (2 - ((x + 1) mod (1 + (6 * (2x mod 3)))))
2: (2 - ((x + 1) mod (1 + (2 * (x mod 3)))))
2: (2 - ((x + 1) mod (1 + (2 * (if (((x + 1) div 2) mod 6) <= 0 then 2 else 0)))))
2: (2 - ((x + 1) mod (2 + (x div (4 + (x mod 2))))))
2: (2 - ((x + 2) mod 5))
2: (2 - ((0 - loop(\(x,i).2x,x,(if (x mod (2 + ((~x + 1) mod 3))) <= 0 then 1 else 0))) mod (x + 1)))
2: (2 - (((x + ~2) - (x div 3)) mod 3))
2: (2 - ((x2 - ((x div 4) mod 2)) mod 5))
2: (2 - ((~1 + loop(\(x,i).2x,loop(\(x,i).(x div (1 + (x mod 2))),x,x),2)) mod (x + 1)))
2: (2 - ((x + ~2) mod ((~x + ~1) + (x mod 2))))
2: (2 - (2x mod (6 + (x mod 2))))
2: (2 - (2x mod (4 + (x div 3))))
2: (2 - (2x mod 9))
2: (2 - (((if x <= 0 then 2 else x) div 2) mod 2))
2: (2 - ((x div 2) mod 5))
2: (2 - ((x div 3) mod 2))
2: (2 - ((loop(\(x,i).(x * i),x,x) mod (x + 1)) mod 2))
2: (2 - ((if (x + ~4) <= 0 then 1 else x) mod 2))
2: (2 - (loop(\(x,i).((2x + 1) + (x mod 2)),x,0) mod (x + 1)))
2: (2 - (loop(\(x,i).(2x + 2),x,0) mod (x + 1)))
2: (2 - (loop(\(x,i).(if x <= 0 then 0 else (1 + (if (~2 + (x div 2)) <= 0 then x else (x + 2)))),2,x) mod 3))
2: (2 - (x mod (4 + (x mod 5))))
2: (2 - (x mod (4 + (x mod (2 + (x mod 2))))))
2: (2 - (x mod (2 + (x mod 2))))
2: (2 - (x mod (1 - (2 * (x mod 4)))))
2: (2 - (x mod (~4 + (x mod 3))))
2: (2 - (x mod ((~x + ~1) + (x mod 4))))
2: (2 - (x mod (~1 + ((~x + 2) div 3))))
2: (2 - (x mod (~1 + (loop(\(x,i).2x,x,x) mod (x + 1)))))
2: (2 - (x mod ~8))
2: (2 - (x mod ~12))
2: (2 - (if (x mod 3) <= 0 then 2 else (x mod 2)))
2: (2 - (if (x mod 4) <= 0 then x else 0))
2: (2 - (if (x mod 5) <= 0 then (x mod 2) else 0))
2: (2 - (if x <= 0 then 1 else ((0 - (x div (1 + (loop(\(x,i).2x,x,2) mod (2x + 1))))) div 2)))
2: (2 - (if x <= 0 then 1 else x))
2: (2 - loop(\(x,i).((x + ~1) + ((2x2 + x) div (1 + i))),x,1))
2: (2 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(4x + ~1)))
2: (2 - loop(\(x,i).(5x + ~2),x,0))
2: (2 - loop(\(x,i).(x - (2 * (~2x + (i mod 2)))),x,0))
2: (2 - loop(\(x,i).(x div (1 + (2 * (x mod 2)))),2,x))
2: (2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + ~x + ~1)))
2: (2 - loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),x,(x2 + x + 1)))
2: (2 - compr(\x.(if (x mod 2) <= 0 then ((x div 3) mod 3) else 0),x))
2: (5 - ((x + ~1) div 3))
2: (5 - (x mod ~4))
2: (4 - ((x + 2) div 5))
2: (4 - (x mod (2 + (x mod 3))))
2: (4 - (if (x mod 2) <= 0 then 1 else x))
2: ((~x + 4) + (x div 4))
2: ((x + 2) + (x div 4) - (x div (~1 + ((~x + 1) div 3))))
2: ((x + 4) - (2 div (1 + (x div 4))))
2: ((x + 4) - ((~x + 2) div (2 - (x div ~4))))
2: ((3x + 2) - ((2x + 1) div 7))
2: ((3x + 2) - ((x + 1) div 5))
2: ((3x + 2) - ((x + 1) div 7))
2: ((5x + 2) - ((~2x + 2) div 9))
2: (x2 + 7x + 17)
2: ((x + ~1) + (2 * (2x + (x mod 2))))
2: (1 + (2 * (x - (((x div 2) - ((~1 + (x div 4)) div 2)) mod 2))) - (x mod 2))
2: (x + 31)
2: (~1 + ((4 * ((1 + (4 * (x + (if (x + ~4) <= 0 then 1 else 2)))) div 3)) + (x mod 2)))
2: ((4x + ~1) + (x mod 2))
2: ((x + ~1) + (4 * (i * i)))
2: (1 + (2 * (((2x + 1) mod (2 + (x div 4))) div 2)) - (x mod 2))
2: ((x + ~1) + (2 * (if (~4 + (x div 2)) <= 0 then 1 else (x div 4))))
2: ((x2 + ~1) + (x mod 2))
2: ((x + ~1) + ((x + 2) div (2 - (((x div 2) div ~2) div 2))))
2: ((x + ~1) + ((2x2 + x) div (1 + i)))
2: (1 + ((2 * (1 + ((1 + (((~1 + loop(\(x,i).2x,x,(2 - (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))) mod (x + 1)) div 2)) div 2))) div 3) - (x mod 2))
2: (2 + (((x + 1) div 2) div 2) - loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x))
2: (2 + (((~2x + 4) mod (2 + (x div 2))) div 2) - (x mod 2))
2: (2 + (x div 2) - (x div 3))
2: (2x + (x div 2) - (x mod 6))
2: ((x + ~5) + (x div 2))
2: (x + (x div 2) - ((x div 2) mod 3))
2: ((x + ~1) + (x div 4))
2: ((x + ~2) + (x div (4 + i)))
2: ((x + ~1) + (x div (1 + i)))
2: ((x + ~1) + ((x * (x div 2)) mod 2))
2: (2 + (x mod 2) - (x div ~2))
2: ((2x + ~1) + (x mod 2))
2: ((~x + 1) + (x mod 4))
2: ((x + ~1) + (x mod 8))
2: (2x + (if (~2 + (x div 2)) <= 0 then 1 else 2) - (x mod 3))
2: (1 + (if x <= 0 then 0 else (1 + (x div (3 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))) - (x mod 2))
2: (2x + (if x <= 0 then 1 else x) - ((x + (x div 2)) div 4))
2: (~1 + (loop(\(x,i).2x,loop(\(x,i).(x div (1 + (x mod 2))),x,x),1) + loop(\(x,i).2x,x,1)))
2: (1 + loop(\(x,i).2x,x,2) - loop(\(x,i).(4x + ~8),x,0))
2: (x + ~22)
2: ((x + 2) - (2 div (1 + (x div 2))))
2: ((x + 2) - (2 div (1 + (x div 5))))
2: ((x + 2) - (((~x + 1) - ((x * (x div 2)) mod 2)) div 3))
2: ((x + 2) - ((~x + 1) div 3))
2: ((x + 2) - ((~x + 1) div (1 + (if x <= 0 then 0 else 2))))
2: ((x + 2) - ((~1 + (x div 2)) div 2))
2: ((x + 2) - ((~x + (x mod 2)) div 5))
2: ((x + 2) - ((~x + (if (x + ~2) <= 0 then x else 0)) div 5))
2: ((x + 2) - ((~2x + 2) div (x + 3)))
2: ((x + 2) - (((x div 2) div ~2) div 2))
2: ((x + 2) - ((x div 4) div ~2))
2: ((x + 2) - (x div (~2 + ((1 - (x div 2)) div 3))))
2: ((x + 2) - (x div (~2 + (((~x + 2) div 2) div 5))))
2: ((x + 2) - (x div (~2 + (x div ~2))))
2: ((11x + 1) + i)
2: ((~x + 2) + i)
2: (x + i - ((x + 1) div 5))
2: (x + i - (x div 5))
2: (x + i - (x div (1 + (4 * i))))
2: (x + i - (x div (4 * (1 + i))))
2: (x + i - (x div (2 * (2 + i))))
2: (x + i - (x div ~12))
2: (x + i - (x mod 9))
2: (x + i - (x mod 10))
2: (~2 - (x mod 3))
2: (~1 - (4 mod (x + 1)))
2: (~1 - ((1 + (x div 2)) mod 3))
2: (~1 - (x2 mod (x + 5)))
2: (~2 - (x mod 7))
2: (~x + ~11)
2: ((~x + 1) - (x mod 3))
2: ((~x + 1) - (x div 2))
2: (~1 + (loop(\(x,i).2x,loop(\(x,i).(x div (1 + (x mod 2))),x,x),1) + loop(\(x,i).2x,x,1)) - (x mod 2))
2: (~5 + (x div 4))
2: (~5 + ((x div 2) mod 2))
2: ((4x + 3) - ((~2x + 2) div 5))
2: ((5x + ~1) - (x div (~2 + ((~x + 2) div 4))))
2: (~x + 15)
2: ((12x + 11) - (x mod 3))
2: (~x + 31)
2: (4x - ((x div 3) + (x div 2)))
2: (~1 + (3 * (((x + ~2) div 3) mod 2)) - (x mod 2))
2: ((2x + ~1) - (x div 3))
2: (~3 + ((~x + 1) div 2))
2: (~3 + ((~x + 1) div 3))
2: (~4 + ((~x + 2) div (x + 2)))
2: ((~x + ~1) + (x2 div 4))
2: ((~x + ~1) + (((x * ((~x + 2) div 2)) div 2) div 3))
2: ((~x + ~2) + (loop(\(x,i).(2 + ((x2 + x) div 2)),2,(x + 2)) div 3))
2: (~1 + (x div 2) - ((3 * (x div (4 - ((x * (x div 2)) mod 2)))) div 2))
2: (~4 + (x div 3))
2: (~9 + (x div 3))
2: (~4 + (x div ~4))
2: (~3 + ((x * (x div 2)) mod 2))
2: ((~x + ~1) + ((x div 2) mod 3))
2: ((~x + ~1) + ((x div 4) mod 2))
2: (~x + (x mod 2) - (x div 3))
2: (~3 + (x mod 4))
2: ((~x + ~1) + (x mod 8))
2: (~3 + (if (x mod 4) <= 0 then x else 0))
2: (~4 + loop(\(x,i).3x,x,1))
2: (loop(\(x,i).5x,x,1) - (loop(\(x,i).3x,x,1) + loop(\(x,i).(x2 + x),1,loop(\(x,i).2x,x,1))))
2: (loop(\(x,i).7x,x,1) - (loop(\(x,i).5x,x,1) + loop(\(x,i).3x,x,1)))
2: (~2x + loop(\(x,i).~2x,(~1 + i),1))
2: (~4 + loop(\(x,i).10x,(x + 1),1))
2: ((x + ~3) + ((x div 2) mod 5))
2: (x + ~26)
2: ((x + ~2) - (x2 div 3))
2: ((x + ~2) - ((~2x3 + 6x2 + ~4x) div 3))
2: (x - ((x div ~2) + ((3 * (x div 4)) div 2)))
2: ((x + ~2) - (x2 div 4))
2: (6 - (x mod 3))
2: ((3x + ~1) - i)
2: ((3x + 1) - ((x - (x div 4)) div 2))
2: (3x - ((x + (x div 2)) div 4))
2: (3x - ((x div 2) div 3))
2: (3x - (x div ~3))
2: (7 - i)
2: (8 - ((x + 1) div 3))
2: (8 - ((x + ~2) div (2 + (x mod 2))))
2: (8 - ((x * (x mod 2)) div 2))
2: (~x + 12)
2: (5x - (x div (~2 + ((~x + 2) div 4))))
2: (5x - loop(\(x,i).2x,i,1))
2: ((2x + 10) - (x div 2))
2: (3x + 17)
2: (x2 + 7x + 5)
2: (x2 + 8x + 9)
2: ((2 * ((x + 2) + (x div 2))) - (x mod 4))
2: ((x * ((2x + 2) + (x mod 2))) - (x div 2))
2: (x2 + 3x + ~2)
2: ((2x + 8) - ((x + ~1) div 3))
2: (~1 + (2 * ((3x + 4) - ((((x + ~2) mod (1 + (x div 2))) mod 3) mod 2))))
2: (7x - (x div 3))
2: (~2 + (7 * i))
2: ((6x + 4) - ((2x + 4) div 5))
2: (3x2 + 2x + ~1)
2: (x3 + x2 + x + ~1)
2: (x3 + 2x2 + 3x + 1)
2: (9x + 11)
2: (x3 + 3x2 + 4x + 1)
2: (4x2 + x + ~1)
2: (x5 + x + ~1)
2: ((4x + 2) + ((~2x + 2) div 5) - (x div 3))
2: ((4x + 2) - ((~2x + 2) div 9))
2: (~1 + (2 * (1 + ((1 + ((1 + (((x + 1) * (x div (2 - (x mod 2)))) div 2)) div 2)) div 2))))
2: ((2 * (1 + ((2 + (((x div 3) * (x div 2)) div 2)) div 3))) - (x mod 3))
2: (~1 + (5 * (1 + (x div 2))))
2: (~1 + (2 * (x + (x div 2))))
2: ((2 * (x + (x div 3))) - ((x + ~2) div 3))
2: ((2 * (x + (x div 3))) - ((x mod 3) div 2))
2: ((2 * (x + (x div 3))) - (x mod ~3))
2: (~1 + (2 * (2 + ((1 - (2 * (x mod 4))) mod (x + 2)))))
2: ((3 * (x + ((x div 2) mod 2))) - (x mod 2))
2: (~x + (4 * (x + ((x div 2) mod 2))))
2: ((2 * (2x + (x mod 2))) - ((x div 2) mod 2))
2: ((2 * (x + (x mod 2))) - (x div 2))
2: (~1 + (2 * (2x + (i mod 2))))
2: (~1 + (2 * (x + loop(\(x,i).((x + 1) - ((((2 - (x div 2)) mod (x + 1)) div 2) div 2)),2,x))))
2: (~1 + (2 * (loop(\(x,i).2x,x,1) + (x mod 2))))
2: ((2x + 2) - ((~x + ((x div 3) mod 3)) div 3))
2: ((2x + 2) - (((x mod 2) - (x div 5)) div 2))
2: ((2x + 2) - ((x - (x div 3)) div 3))
2: ((2x + 2) - ((x - (x div 5)) div 3))
2: ((2x + 2) - ((2 * (x + (x mod 2))) div 7))
2: ((2x + 2) - ((2x + 2) div 7))
2: ((2x + 2) - (((x + 1) div 2) div 3))
2: ((2x + 2) - ((x + 1) mod 5))
2: ((2x + 2) - ((x + 1) mod 10))
2: ((2x + 2) - ((x + 2) mod 12))
2: ((2x + 2) - (if x <= 0 then 1 else ((x mod 2) - ((1 + (8 mod (1 + (x div 2)))) div 2))))
2: ((3x + 3) - ((~x + 2) div (4 + (x mod 2))))
2: ((3x + 3) - ((x - (x div 3)) div 3))
2: ((x2 + x + 1) - (x mod 2))
2: ((x2 + x) - ((~x2 + x) div 4))
2: ((2x + 4) - ((1 - (x div 2)) div 5))
2: ((2x + 4) - ((~x + 2) div (2 + (x div 4))))
2: ((2x + 4) - ((x - ((x div 2) mod 2)) div 2))
2: ((2x + 4) - (2x div 3))
2: ((x2 + 3x + 2) - (x2 div 4))
2: ((x2 + 2x) - ((x + ~1) div 3))
2: ((x2 + 2x) - ((~x2 + 2x) div 4))
2: ((x2 + 2x) - (x div 3))
2: (~1 + (x * (2 + i)))
2: (~5x + 4)
2: (~1 + (2 * (2 - (x div 2))))
2: (~1 + (7 * (2 - ((x div 2) mod 2))))
2: (~4x + 7)
2: (~1 + ((~x + 2) * (x div 2)))
2: (~1 + (2 * ((~x + ~1) + (x mod 2))))
2: (~1 + (3 * (8 - (x div 2))))
2: (11x + ~2)
2: (25x + ~7)
2: (16x + 13)
2: (4x2 + 14x + 15)
2: (31x + ~1)
2: ((2 * (~x + ((x + ~1) div 3))) - (x div 3))
2: (~1 + (2 * ((~2x + ~2) + ((x - (x div 4)) div 2))))
2: (~1 + (3 * (~2x + (x div 2))))
2: (~2 + ((~2x + (x div 2)) * (x div 2)))
2: (~1 + (2 * ((x div 2) - (x mod 4))))
2: (~1 + (2 * (~1 + (x div 3))))
2: (~1 + (2 * (~x + (x div 8))))
2: (~1 + (4 * (~x + (x mod 2))))
2: (~1 + (2 * (~1 + (x mod (3 - (x mod 2))))))
2: (~1 + (9 * (~x + (x mod 10))))
2: (~1 + (2 * (~x + (i mod 2))))
2: ((x2 + ~x) - (x2 div 4))
2: (x2 + ~3x + ~1)
2: (2x + ~9)
2: (~x + (9 * ((x + 1) - (x mod 10))))
2: (2x + ~13)
2: (2x + ~17)
2: (~1 + (3 * (x - ((~x + 2) div 4))))
2: ((2 * (x - (x div ~3))) - (x mod 3))
2: (16 - (x div 3))
2: (~x + 40)
2: (16x + 7)
2: (15x + 8)
2: ((12x + 12) - (x mod 3))
2: (36x + 35)
2: (4x2 + 8x + 3)
2: (5x2 + ~3)
2: (~1 + (4 * ((x + 2) + (x div 2))))
2: (3x + 16)
2: (15x + 4)
2: (8x2 + 8x + 3)
2: (6x2 + 9x + 2)
2: (~1 + (6 * (1 + (x div (3 + ((~1 + loop(\(x,i).(if x <= 0 then i else (x div 2)),x,2)) mod (x + 1)))))))
2: ((3x * (x + (x mod 2))) - (x div 2))
2: ((6x + 6) - (x div 7))
2: (2x2 + 7x + 8)
2: ((2x2 + 4x) - (x mod 2))
2: (~1 + (6 * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
2: (~10x + 9)
2: (16x + ~5)
2: (~1 + (4 * (~1 + (2 * i))))
2: (~2 + (4 * (~2 + (x mod 2))))
2: (4x + ~9)
2: (16x + 15)
2: (8x2 + 16x + 7)
2: (8x2 + 28x + 23)
2: 63
2: 95
2: (64x + 63)
2: (~1 + (8 * ((1 + (x div 2)) div 2)))
2: (8x - (x div ~2))
2: (8x - (x div (if i <= 0 then 1 else i)))
2: (12x - (x div 2))
2: (~1 + (4x * (1 + i)))
2: (6x2 - (if x <= 0 then 0 else 2))
2: (~1 + (4 * (2x div 3)))
2: (~1 + (4 * (x div 2)))
2: (((x2 + 2x + 1) * (x div 2)) - (((~x3 + x) div 2) div 3))
2: (~1 + (6 * (x div 7)))
2: ((4x + 1) - loop(\(x,i).(x + (if (~2 + (x div 4)) <= 0 then 1 else 2)),2,x))
2: (4x - ((2x + 1) div 7))
2: (4x - ((x + (x div 4)) div 3))
2: (4x - ((x + ((x + (x div 3)) mod 3)) div 3))
2: (4x - ((x + ((x div 3) mod 3)) div 3))
2: (4x - (((((x div 2) div 3) mod 2) - (if x <= 0 then 1 else x)) div 2))
2: (4x - ((x - (x div 4)) div 2))
2: (4x - ((~x2 + 2x + ~1) div loop(\(x,i).x2,2,3)))
2: (4x - (((~1 + i) * i) div 2))
2: (4x - (((x - ((2 - (x div 4)) div 2)) div 2) div 2))
2: (4x - ((i mod 3) div 2))
2: (4x - (x div 3))
2: (4x - (x div 7))
2: (4x - (x div 8))
2: (4x - (i mod 3))
2: (4x - (if x <= 0 then 0 else 1))
2: (4x - loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),i,1))
2: (4x - i)
2: (6x - ((2 * ((2x + 2) + (x div (1 + (2 * (if (~4 + (x div 2)) <= 0 then 2 else 1)))))) div 3))
2: (6x - ((~2x + 2) div 7))
2: (6x - (((x + ~1) mod (2 + (x div 2))) div 2))
2: (6x - ((i mod 3) mod 2))
2: (2x2 + 2x + ~1)
2: (2x2 + ~2x + ~1)
2: (2x2 - (x div 2))
2: (x3 + x2 + ~1)
2: (x4 + ~2)
2: (~1 + (2x * i))
2: (~1 + (2 * ((x2 + (x div 2)) div 7)))
2: (~1 + (2 * ((x + 1) div 3)))
2: (~1 + (2 * ((x + 2) div 5)))
2: (~1 + (2 * ((~2x + 1) div 3)))
2: (~1 + (2 * ((~x + 2) div 4)))
2: (~1 + (2 * ((x + ~1) div 2)))
2: (~1 + (2 * ((~2x + 2) div 9)))
2: (~1 + (2 * ((3 * (x div (4 - ((x * (x div 2)) mod 2)))) div 2)))
2: (~1 + (2 * (2x div 3)))
2: (~1 + (3 * (((x + 1) div 2) div 2)))
2: (~1 + (2 * ((if x <= 0 then 2 else (3x + ~2)) div 2)))
2: (~x + ((x + 1) * (x div 2)))
2: (~2 + (x * (x div 3)))
2: (~1 + ((x div 4) * (x div 2)))
2: (~x + (2 * (x div 5)))
2: (~1 + (2 * (x div (1 + (x mod 9)))))
2: (~1 + (2 * ((x + 2) mod 9)))
2: (~1 + (2 * ((x + 2) mod 12)))
2: (~1 + (2 * ((~x + 2) mod 5)))
2: ((3 * (((x + ~2) div 3) mod 2)) - (x mod 2))
2: (~1 + (2 * ((x2 div (x - ((~x + 2) div 2))) mod 2)))
2: (~1 + (2 * ((x div 3) mod 2)))
2: ((3 * ((x div 4) mod 2)) - (x mod 4))
2: (~1 + (2 * ((x div ~2) mod 2)))
2: (~1 + (2 * ((x div ~3) mod 2)))
2: ((2 * (x mod 2)) - (if x <= 0 then 0 else 1))
2: (~1 + (3 * (x mod 4)))
2: (~1 + (9 * (x mod 5)))
2: (~1 + (2 * (x mod 8)))
2: (~1 + (2 * (x mod 10)))
2: ((3 * (x mod 10)) - (x div 4))
2: (~1 + (2 * (if (~2 + (x div 5)) <= 0 then 0 else 2)))
2: ((3 * (if (x mod 2) <= 0 then (3 * (if (x mod 4) <= 0 then (2 + (if x <= 0 then 0 else 2)) else 1)) else 1)) - (if x <= 0 then 1 else 2))
2: (~1 + (2 * (if x <= 0 then 1 else (2 * (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))))))))
2: (~1 + (2 * (if x <= 0 then 1 else 2x)))
2: (~x + ((x + 1) * loop(\(x,i).(x2 + 4x + 5),2,4)))
2: (~2 + ((x + 1) * loop(\(x,i).(x2 + 2x + 1),2,2)))
2: (~x + ((x + 1) * loop(\(x,i).(2 + (x * (x + i))),2,6)))
2: (~x + ((x + 1) * loop(\(x,i).(x3 + 1),2,2)))
2: (~x + ((x + 1) * loop(\(x,i).(x2 + 1),3,2)))
2: (~1 + (5 * loop(\(x,i).7x,x,2)))
2: (~1 + (2 * loop(\(x,i).(2x + 4),x,1)))
2: (~1 + ((x + 1) * loop(\(x,i).((x + 2) * (x + i)),2,2)))
2: (~1 + ((x + 1) * loop(\(x,i).(2x2 + 8x + 8),2,0)))
2: (~1 + ((x + 1) * loop(\(x,i).((x + 2) * ((x + i) * i)),2,2)))
2: (~1 + ((x + 1) * loop(\(x,i).x3,2,2)))
2: (~1 + (2 * loop(\(x,i).x2,1,loop(\(x,i).((2 * (x - (2x * i))) div (1 + i)),x,1))))
2: (~1 + (2 * loop(\(x,i).(x div (1 + (x mod 2))),x,x)))
2: ((2x + ~1) - i)
2: ((2x + 1) - ((x2 + 2x) div (2x - ((~x + 2) div 2))))
2: (2x + ((3 * (x div (4 - ((x * (x div 2)) mod 2)))) div 2) - (x div 2))
2: (2x + (x div ~7) - (x div 7))
2: (2x - (5 * (x div ~2)))
2: (2x - ((~x + 3) div 7))
2: (2x - ((x + ((~x2 + x) div 4)) div 4))
2: (2x - ((x + (x div 4)) div ~3))
2: (2x - ((x + ((x div 2) mod 4)) div 4))
2: (2x - ((x + (x mod 3)) div 7))
2: (2x - ((x + 1) div 3))
2: (2x - ((x + 1) div 5))
2: (2x - (((~x + 2) - (x div 4)) div 4))
2: (2x - ((~x + ((~x + 2) div 4)) div 2))
2: (2x - ((~x + ((x div 2) div 3)) div 2))
2: (2x - ((~1 + (x div 2)) div 3))
2: (2x - (((x div 2) - (if (~2 + (x div 2)) <= 0 then 1 else 0)) div 2))
2: (2x - ((~x + ((x div 3) mod 3)) div 3))
2: (2x - ((~1 + (x mod 4)) div 2))
2: (2x - ((x - ((x + (x div 3)) div 3)) div 2))
2: (2x - ((x - ((~x + 2) div 2)) div 5))
2: (2x - ((x - loop(\(x,i).(x - (if x <= 0 then 1 else (2 * (1 + i)))),x,2x)) div 2))
2: (2x - ((~1 + i) div 2))
2: (2x - ((2 * (x + (x mod 5))) div 5))
2: (2x - ((~2x + 2) div 5))
2: (2x - ((2x + ~2) div 5))
2: (2x - ((2x + ~2) div 7))
2: (2x - ((2x + ~4) div 7))
2: (2x - (((x2 + 1) div (x + 8)) div 2))
2: (2x - (((x + ((x div 4) mod 2)) div 2) div ~2))
2: (2x - (((2 - (x div 2)) div 2) div 2))
2: (2x - (((5 * compr(\x.(1 - (x mod (1 + (4 * (x mod 5))))),x)) div 2) div 2))
2: (2x - ((((x + 1) div 2) div 2) div 2))
2: (2x - ((x mod 3) div 2))
2: (2x - ((x mod ~4) div 2))
2: (2x - (x div 5))
2: (2x - (x div ~7))
2: (2x - (x div ~3))
2: (2x - (x div (~2 + ((~x + 2) div 4))))
2: (2x - (i div 2))
2: (2x - (2 mod (~2x + 1)))
2: (2x - (((x div 2) + i) mod 2))
2: (2x - (x2 mod 3))
2: (2x - ((x div 3) mod 2))
2: (2x - ((x div 7) mod 2))
2: (2x - ((x mod 4) mod 3))
2: (2x - ((i mod 3) mod 2))
2: (2x - (x mod ~4))
2: (2x - (x mod 10))
2: (2x - (x mod (2 * (~2 + (x mod 2)))))
2: (2x - (if (x + ~4) <= 0 then 0 else 1))
2: (2x - (if (x mod 4) <= 0 then (x div 4) else 0))
2: (2x - (if x <= 0 then 1 else (((x div 2) * (x div 2)) div 2)))
2: (2x - loop(\(x,i).(~1 + (if x <= 0 then (2 * i) else x)),x,2))
2: (2x - loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),x,x))
2: (x2 + ~4)
2: (x2 + ~5)
2: (x2 - (9 * ((~x2 + x) div 2)))
2: (x2 - ((x + ~1) div 2))
2: (x2 - ((~x2 + 2x) div 4))
2: (x2 - (x2 div ~2))
2: (x2 - (((x2 + 2x) div 2) div 3))
2: (x2 - (((x3 + ~x) div 2) div 3))
2: (x2 - (x div ~2))
2: (x2 - loop(\(x,i).2x,x,1))
2: ((x * i) - (x div 2))
2: ((x * i) - (if (~2 + (x div 2)) <= 0 then 0 else 1))
2: ((x * i) - loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),i,1))
2: ((x * i) - loop(\(x,i).(x * i),(~1 + i),1))
2: (~2 + (i * i))
2: (~2x + (i * i))
2: (~1 + (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(7x + ~3))),x)))
2: (~2 + (2 div (~8 + (x div 2))))
2: (~1 + (2 div (x + ~16)))
2: (((2x + 1) div (3 + (x div 4))) - ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2))
2: (~1 + ((1 + ((32 mod (x + 1)) div 2)) div 2))
2: (((x + 1) div 2) - (2x div (~1 + (x div ~4))))
2: (((x + 1) div 2) - ((x div 4) mod 2))
2: (((x + 1) div 3) - (2x div (3 + (x div 2))))
2: (((x + 2) div 3) - ((2 * (x div 3)) div 3))
2: (~1 + (((~x + 1) - ((x div 3) mod 3)) div 3))
2: (~2 + ((~2x + 1) div (4 + (x div 4))))
2: (~1 + ((1 - (x div 3)) div 3))
2: (~2 + ((~x + 1) div 5))
2: (~1 + ((~x + 1) div (2 + (x div 4))))
2: (~1 + ((~x + 1) div 11))
2: (~1 + ((~x + 2) div (3 + (x div 4))))
2: (~1 + ((~x + 2) div 7))
2: (~1 + ((~x + 2) div (2 + ((if x <= 0 then 2 else x) div 2))))
2: (~2 + ((~x + 2) div (2 + i)))
2: (~1 + ((~x + 2) div 11))
2: (~1 + (((~x + 2) - (x div 2)) div 4))
2: (~2 + (((~x + 2) - (x div 2)) div 4))
2: (~2 + ((2x + ~1) div 5))
2: (~x + ((~1 + (x div 2)) div 2))
2: (~x + ((~1 + (x div 2)) div 3))
2: (~x + ((~2 + (x div 2)) div 3))
2: (~1 + ((~x + (x div 3)) div 3))
2: (~1 + ((~x + (x div 4)) div 2))
2: (((~x + (((x div 2) div 3) mod 2)) div 2) - (if x <= 0 then 1 else 4x))
2: (~1 + ((((x div 2) mod 2) - (if (~x + 2) <= 0 then x else 0)) div 2))
2: (~2 + ((~x + ((x div 2) mod 2)) div 2))
2: (~1 + ((((x div 4) mod 2) - (x div 2)) div 2))
2: (~1 + ((~x + (x mod 3)) div 2))
2: (~1 + ((~x + (x mod 3)) div 4))
2: (~x + ((x + ~1) div 5))
2: (~x + ((x - (((x + ~1) div 2) mod (1 + ((1 + (x div 2)) div 3)))) div 2))
2: (~x + ((x - i) div 4))
2: (~1 + ((2 * ((3x + 2) - ((x - ((x + (x div 3)) div 3)) div 2))) div 3))
2: (~1 + (((4 + (x div 2)) * ((x + ~1) div 2)) div 2))
2: (~1 + ((2 * ((x + 2) + (if x <= 0 then 1 else (6x - (((x + ~1) mod (2 + (x div 2))) div 2))))) div 3))
2: (~x + (17x div (if i <= 0 then 1 else i)))
2: (~1 + ((x3 + 2x) div 2))
2: (~1 + ((2 * (2 + (((x + 1) + (if (x mod 4) <= 0 then 2x else (x div 2))) div 2))) div 3))
2: (~x + ((2x + 2) div 7))
2: ((6x2 + ~6x) + ((x2 + x) div 2))
2: (~1 + ((x2 + 4x + 4) div 2))
2: (~1 + ((x2 + 2x) div (2x - ((~x + 2) div 2))))
2: (~1 + ((2 * (1 - (x div 2))) div 5))
2: ((~2x + ~2) + ((~2x + 2) div 5))
2: (~x + ((~2x + 2) div 5))
2: (~1 + ((~2x + 2) div 7))
2: (~1 + ((~2x + 2) div 9))
2: (~1 + ((~2x + 4) div 9))
2: (~x + ((2 * (~2 + (x div 2))) div 5))
2: (~1 + ((x2 + ~2x) div 4))
2: (~x + (10x div (if i <= 0 then 1 else i)))
2: (~1 + (2x2 div 5))
2: (~2 + (2x2 div (x + 2)))
2: (~1 + ((2 * (((x + 1) div 2) div 2)) div 3))
2: (~1 + (((x + ~2) * ((x div 2) div 3)) div 2))
2: (~1 + ((x * ((x div 2) div 3)) div 2))
2: (~x + ((2 * (x div 2)) div 3))
2: (~1 + (((x + 1) * (x div 2)) div 2))
2: (~1 + (((x + 1) * (x div 3)) div 2))
2: (((3 * (x div 4)) div 2) - ((x + 1) div 2))
2: (~2 + ((x * (x mod 2)) div 2))
2: (~2x + ((2 * (if x <= 0 then 1 else x)) div (1 + i)))
2: ((2x div 3) - ((x + (x mod 2)) div 5))
2: (~2 + (2x div (2 + (x div 2))))
2: (~1 + (2x div ~5))
2: ((x2 div 2) - (x div 3))
2: (~1 + (x2 div (x + 5)))
2: (~1 + (x2 div ~2))
2: (~1 + (((2 + (x * (x + (x div 2)))) div (x + 2)) div 2))
2: (~x + (((2 - (x div 2)) div 2) div 2))
2: (~1 + (((~x + 2) div 2) div 5))
2: (~1 + (((3x2 + ~x) div 2) div 4))
2: (~1 + (((~x2 + x) div 2) div 5))
2: (~2 + ((((x + 2) * ((~x + 2) div 2)) div 2) div 2))
2: (~1 + (((x * ((~x + 2) div 2)) div 2) div 3))
2: (~2 + ((x2 div 2) div (~2x + 1)))
2: (~x + (((5 * compr(\x.(1 - (x mod (1 + (4 * (x mod 5))))),x)) div 2) div 2))
2: (~x + ((((x + ~1) div 2) div 2) div 2))
2: (~1 + ((((~x4 + x2) div 2) div 3) div 2))
2: (~1 + (((((~x + 2) * (x div 2)) div 8) div 2) div 2))
2: (~1 + ((((2 - (x div 2)) mod (x + 1)) div 2) div 2))
2: (~2 + ((x div 2) div 3))
2: (~2 + ((x div 2) div (1 + (x mod 6))))
2: (~1 + ((x div 2) div ~5))
2: (~x + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))
2: (~1 + (((2x + ~4) mod (x + 2)) div 2))
2: (~1 + ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 2))
2: (~1 + ((loop(\(x,i).(2x + 2),x,(12 * (x div 7))) mod 5) div 2))
2: (~2 + ((x mod 3) div 2))
2: (((x mod 3) div 2) - (x mod 2))
2: (~1 + ((x mod (1 + ((2 - (x mod 4)) mod (x + 1)))) div 2))
2: (~1 + ((if (~2 + (x div 3)) <= 0 then 2 else ((x + 1) div 2)) div 2))
2: (~1 + (loop(\(x,i).(x * (2 + i)),(x + 2),1) div 2))
2: ((~2x + ~2) + (x div 2))
2: ((~2x + ~4) + (x div 2))
2: (~x3 + (x div 2))
2: ((x div 2) - (2 * ((x div 2) div 3)))
2: ((x div 2) - (2 * (x div 5)))
2: ((x div 2) - (3 * (if (~2 + (x div 2)) <= 0 then 1 else 2)))
2: ((x div 2) - (2 div (x + 1)))
2: ((x div 2) - ((1 + (x div 4)) div 2))
2: ((x div 2) - (2x3 div (1 + (x div 2))))
2: ((x div 2) - (x div (1 + (2 * (2 + (x mod 2))))))
2: ((x div 2) - ((x * (x div 2)) mod 2))
2: ((x div 2) - (((x + 1) div 3) mod 4))
2: ((x div 2) - (x mod (2 - ((x div 2) mod 2))))
2: ((x div 2) - (if (~2 + (x div 2)) <= 0 then 1 else 0))
2: (~8 + (x div 3))
2: (~2x + (x div 3))
2: ((x div 3) - ((~2x + 2) div 5))
2: ((x div 3) - (((x + ~1) div 2) div 2))
2: ((x div 3) - (x div (~1 + ((~x + 2) div 3))))
2: ((x div 3) - (x mod 3))
2: ((x div 3) - (x mod (2 - ((x div 2) mod 2))))
2: (~2x + (x div 4))
2: ((x div 4) - (x div 5))
2: ((x div 4) - (loop(\(x,i).(2x + 2),x,0) mod (x + 1)))
2: ((x div 4) - (x mod 2))
2: ((x div 4) - (x mod 5))
2: (~1 + (x div (6 - (x mod 2))))
2: ((x div (4 + (x mod 2))) - (x div 2))
2: ((x div 7) - (x div ~7))
2: (~x + (x div 9))
2: ((x div (1 + (2 * i))) - (2 * i))
2: (~1 + (x div (1 + ((~x + 2) mod 4))))
2: (~1 + (x div (2 + (x mod 2))))
2: ((x div (2 + (x mod 2))) - (x div 2))
2: (~2 + (x div (1 + (x mod 4))))
2: ((~x + ~1) + (x div ~3))
2: (~1 + (x div (~2 - (x mod 4))))
2: (~1 + (x div (~3 + (x div ~4))))
2: (~1 + (x div (~1 + (2 * (x div (1 + (x mod 9)))))))
2: (~1 + (x div (~2 + ((1 - (2 * (x div 3))) div 3))))
2: (~1 + (x div (~2 + ((1 - (x div 2)) div 3))))
2: (~1 + (x div (~2 + ((~x + 1) div 2))))
2: (~2 + (x div (~2 + ((~x + 1) div 2))))
2: (~1 + (x div (~2 + (((~x + 2) div 2) div 3))))
2: (~1 + (x div (~2 + (x div ~2))))
2: (~1 + (x div (~2 + (x div ~7))))
2: ((x div 8) - (x div ~2))
2: ((x div 8) - (x div (~1 + ((~x + 1) div 3))))
2: ((x div 8) - (x div (~2 + ((~x + 2) div 4))))
2: (~2 + (x div ~8))
2: (~1 + (i div 2))
2: (~1 + (2 mod (x + 1)))
2: (~2x + (2 mod (x + 1)))
2: (~2 + (2 mod (~x2 + 2)))
2: (~1 + ((2x + 1) mod (4 + (x div 4))))
2: (~1 + ((2x + 1) mod (1 + (2x mod (2 + (x div 4))))))
2: (~x + ((1 + (x div 2)) mod 3))
2: (~2 + ((x + (x div 2)) mod 4))
2: (~2 + ((1 + (x mod (1 + (2 * (2 + ((x div 2) mod 5)))))) mod (x + 1)))
2: (~1 + ((1 + (x mod (1 + (x mod (2 * (2 + ((x div 2) mod 2))))))) mod (x + 1)))
2: (((x + 1) mod 2) - (x div ~3))
2: (((x + 1) mod 3) - (x mod 2))
2: (((x + 1) mod 3) - (if x <= 0 then 0 else 1))
2: (~4 + ((x + 1) mod 8))
2: (~x + ((x + 2) mod 5))
2: (~1 + ((x + 2) mod (1 + (if (~1 + (x mod 7)) <= 0 then 2 else 1))))
2: (~1 + (~x mod 5))
2: (((~x + 1) mod 3) - (x mod 2))
2: (((~x + 1) mod 3) - (if x <= 0 then 0 else 1))
2: (~1 + ((2 - (x div 3)) mod 5))
2: (~1 + ((~1 + (x div 2)) mod 4))
2: (~x + ((x + ~1) mod 8))
2: (((x - ((2x + 1) mod (1 + (x div 4)))) mod 2) - (x mod 2))
2: (~x + (8 mod (x + 2)))
2: (~1 + ((2x + ~2) mod (4 + (x div 4))))
2: (~1 + ((x2 + ~x) mod (1 + (x div 4))))
2: (~1 + ((x2 + ~x) mod 8))
2: (~2 + ((2x + ~4) mod (x + 2)))
2: ((2x mod 7) - (x mod 2))
2: (~1 + (2x mod (1 + (x div 2))))
2: (~2 + (2x mod (2 + (x div 3))))
2: (~x + (x2 mod (x - ((~x + 2) div 2))))
2: (~2 + (((x + 1) div 2) mod 4))
2: ((((~2x + 1) div 9) mod 2) - (x mod 2))
2: ((((~x + 2) div 2) mod 4) - (x mod 2))
2: (~1 + (((2x + ~4) div (2 + (x div 4))) mod 2))
2: (~2 + ((x2 div 2) mod (4 + (x div 2))))
2: (~2 + ((x2 div 2) mod ~3))
2: ((~4x + ~2) + ((x div 2) mod 2))
2: (((x div 2) mod 2) - (x mod 2))
2: (((x div 2) mod 2) - (if (~x + 2) <= 0 then x else 0))
2: (~1 + ((x div 2) mod 3))
2: (~1 + ((x div 2) mod (1 + (6 * (x mod 2)))))
2: (~2 + ((x div 5) mod 2))
2: (((x div ~3) mod 2) - (x mod 2))
2: (~1 + ((x mod 4) mod ~3))
2: (((x mod (~1 + (x div ~3))) mod 2) - (x mod 2))
2: (~x + ((i mod 3) mod 2))
2: (~1 + ((if (x + ~2) <= 0 then 1 else x) mod (3 - (x mod 2))))
2: (~1 + ((if (x mod 4) <= 0 then 2 else (x mod 2)) mod (1 + (x div 3))))
2: (~1 + (loop(\(x,i).(2x + 1),(x div (1 + (x mod 2))),1) mod (x + 1)))
2: (~2 + (loop(\(x,i).(1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),2,x) mod (x + 1)))
2: (~2 + (loop(\(x,i).(~2x + 1),x,1) mod (x + 2)))
2: (~1 + (loop(\(x,i).(4x + 2),(x div 2),1) mod (x + 1)))
2: (~1 + (loop(\(x,i).(2x + 2),(if (x mod 2) <= 0 then x else 1),1) mod (x + 1)))
2: (~1 + (loop(\(x,i).(2x + 2),x,2) mod loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))
2: (~1 + (x mod 2) - ((x div 2) mod 7))
2: (~2 + ((x mod 2) + (x mod (4 + (x mod (2 + (x mod 2)))))))
2: (~4x + (x mod 2))
2: (~x2 + (x mod 2))
2: ((x mod 2) - ((2 + (((x div 3) * (x div 2)) div 2)) div 3))
2: ((x mod 2) - (((x div 3) - (x div 2)) div 2))
2: ((x mod 2) - ((x - (x mod 3)) div 2))
2: ((x mod 2) - ((x2 + ~x) div 4))
2: ((x mod 2) - ((loop(\(x,i).(x * i),x,1) mod (x + 1)) div 3))
2: ((x mod 2) - (x div 4))
2: ((x mod 2) - (x div 5))
2: ((x mod 2) - (x div ~3))
2: ((x mod 2) - (x div ~4))
2: ((x mod 2) - (x div (~1 + ((~x + 2) div 4))))
2: ((x mod 2) - ((x - (x div 4)) mod 2))
2: ((x mod 2) - ((x mod 3) mod 2))
2: ((x mod 2) - (if ((x div 3) mod 2) <= 0 then ~1 else 2))
2: ((x mod 2) - loop(\(x,i).(2x + 4),(x + ~1),0))
2: ((x mod 3) - ((x + 1) mod 4))
2: ((x mod 3) - (x mod 5))
2: ((x mod 4) - (x div 4))
2: (~2 + (x mod (4 + (x mod 2))))
2: (~1 + (x mod (3 - (x mod 2))))
2: (~1 + (x mod 7))
2: (~2 + (x mod 7))
2: ((x mod 7) - (x mod 8))
2: ((x mod 9) - (x mod 10))
2: (~1 + (x mod (1 + (2 * (if (x mod 2) <= 0 then (x div 4) else 1)))))
2: (~1 + (x mod (1 + ((~x mod (2 + (x div 3))) div 2))))
2: (~2 + (x mod (1 + (x div 3))))
2: (~x + (x mod (1 + (x div 3))))
2: (~1 + (x mod (1 + ((~x + 2) mod 4))))
2: (~1 + (x mod (1 + ((loop(\(x,i).2x,x,1) - (x mod 2)) mod (x + 1)))))
2: (~1 + (x mod (1 + ((x + ~1) mod 8))))
2: (~2 + (x mod ~3))
2: (~1 + (x mod (~1 + (x div ~2))))
2: (~1 + (x mod ((x + 1) - (loop(\(x,i).2x,x,1) mod (x + 1)))))
2: (~2 + (x mod (x - ((x + 1) mod 4))))
2: (~1 + (x mod 6))
2: ((x mod 6) - (x div 2))
2: ((x mod 6) - (x mod 7))
2: ((x mod 8) - (x mod 9))
2: (~1 + (x mod 12))
2: (~2 + (x mod ~8))
2: ((x mod 10) - (x mod 11))
2: (~1 + (x mod (2 * (2 - (x mod 2)))))
2: ((~4x + ~2) + (i mod 2))
2: (~6x + (i mod 2))
2: (~1 + (i mod ~2))
2: (~1 + (if (~x + 2) <= 0 then x else 0))
2: (~x + (if (~2 + (x div 2)) <= 0 then 0 else 2))
2: (~x + (if (~2 + (x div 3)) <= 0 then 2 else 0))
2: (~x + (if (~2 + (x div 4)) <= 0 then 0 else 2))
2: (~2 + (if (x + ~2) <= 0 then 0 else x))
2: ((if (x + ~2) <= 0 then 1 else 2) - (x div ~4))
2: (~8 + (if (x + ~2) <= 0 then 2 else 1))
2: (~x + (if (x + ~2) <= 0 then x else 0))
2: ((if ((1 + ((x + (x div 2)) div 2)) mod 5) <= 0 then 2 else 1) - (x mod 2))
2: ((if ((x + (x div 2)) mod 4) <= 0 then 2 else 1) - (x mod 2))
2: (~1 + (if ((x * (x mod 3)) mod 5) <= 0 then 2 else 0))
2: (~4 + (if (x mod 2) <= 0 then 1 else x))
2: ((if (x mod 2) <= 0 then 1 else x) - (x div 2))
2: ((if x <= 0 then 1 else 5x) - ((1 + (2 * ((x + ((x div 2) mod 2)) div 2))) div 3))
2: ((if x <= 0 then 1 else 4x) - (2 div (16 div (x + 1))))
2: ((if x <= 0 then 1 else 4x) - (((~x + 1) - (2 * ((x + ((x div 2) mod 2)) div 2))) div 3))
2: ((if x <= 0 then 1 else 4x) - ((1 - (2 * ((x + ((x div 2) mod 2)) div 2))) div 3))
2: ((if x <= 0 then 1 else 4x) - ((~2x + 4) div 9))
2: ((if x <= 0 then 1 else 4x) - ((2 * (2x div (4 + (x div 8)))) div 3))
2: ((if x <= 0 then 1 else 6x) - (((x + 1) + (2 * ((x + ((x div 2) mod 2)) div 2))) div 3))
2: ((if x <= 0 then 1 else 6x) - ((2 * (x + (((x div 2) div 3) mod 2))) div 3))
2: ((if x <= 0 then 1 else 2x) - (x div (if i <= 0 then 1 else i)))
2: (~1 + (if x <= 0 then 1 else (2 * i)))
2: ((if x <= 0 then 1 else x) - ((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3))
2: ((if x <= 0 then 1 else x) - (x div 7))
2: (~2x + (if x <= 0 then 2 else 0))
2: (~1 + (if x <= 0 then 2 else (2 * i)))
2: (~1 + (if x <= 0 then 2 else (x div (1 + (x mod (1 + (x mod (1 + (x div (2 * (2 - (x mod 2))))))))))))
2: (~1 + (if x <= 0 then 2 else (((x2 + 2x) div 2) mod (1 + ((1 + (x div 2)) div 3)))))
2: (~x + loop(\(x,i).((x + 1) + (2 * ((x div 2) div 3))),x,1))
2: (loop(\(x,i).(3x + 2),x,2) - loop(\(x,i).(2x + 2),x,1))
2: (~2 + loop(\(x,i).(x2 + x + 1),2,x))
2: (~1 + loop(\(x,i).((2 * (x + i)) + i),x,2))
2: (~1 + loop(\(x,i).(24x + 1),2,x2))
2: (loop(\(x,i).(6x + 2),x,2) - loop(\(x,i).(3x + 1),x,1))
2: (~1 + loop(\(x,i).(x3 + 2),2,2))
2: (loop(\(x,i).(1 + (x * i)),i,1) - (x * i))
2: (loop(\(x,i).(4x + (2x div (1 + i))),x,3) - loop(\(x,i).4x,x,2))
2: (~1 + loop(\(x,i).(x + (x div 2)),x,2))
2: (~x + loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then 2 else 0)),x,(2x + 1)))
2: (~1 + loop(\(x,i).(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 1))),2,x))
2: (~1 + loop(\(x,i).(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,x)),2,x))
2: (~2 + loop(\(x,i).(~x2 + 1),2,(x + 2)))
2: (loop(\(x,i).(3x + ~1),(x + ~1),1) - loop(\(x,i).2x,(x + ~1),1))
2: (~1 + loop(\(x,i).(4x - (i mod 4)),x,4))
2: (loop(\(x,i).(6x + ~1),x,2) - loop(\(x,i).2x,x,1))
2: (~1 + loop(\(x,i).(2x - ((x div 2) mod 2)),x,2))
2: (~1 + loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),x,2x)),2,x))
2: (~1 + loop(\(x,i).(x - (if x <= 0 then 0 else (1 + (2 * i)))),x,2x))
2: (~2x + loop(\(x,i).3x,(~1 + i),1))
2: (loop(\(x,i).3x,2x,1) - loop(\(x,i).7x,x,1))
2: (loop(\(x,i).3x,2x,1) - loop(\(x,i).8x,x,1))
2: (loop(\(x,i).3x,2x,1) - loop(\(x,i).4x,x,1))
2: (loop(\(x,i).3x,x,1) - (2 * (x mod 2)))
2: (~2x + loop(\(x,i).3x,x,1))
2: (loop(\(x,i).3x,x,1) - (x mod 2))
2: (loop(\(x,i).3x,x,1) - loop(\(x,i).(2x + 3),x,0))
2: (loop(\(x,i).3x,x,1) - loop(\(x,i).(2x + 1),x,0))
2: (loop(\(x,i).3x,x,1) - loop(\(x,i).7x,x,1))
2: (loop(\(x,i).3x,x,x) - loop(\(x,i).2x,x,x))
2: (~2x + loop(\(x,i).3x,i,1))
2: (~x + loop(\(x,i).3x,i,1))
2: (~2x + loop(\(x,i).5x,x,1))
2: (loop(\(x,i).5x,x,1) - loop(\(x,i).(x2 + x),1,loop(\(x,i).2x,x,1)))
2: (loop(\(x,i).5x,x,1) - loop(\(x,i).4x,x,1))
2: (~x + loop(\(x,i).5x,x,1))
2: (~1 + loop(\(x,i).5x,x,2))
2: (~x + loop(\(x,i).(x * (3 + i)),4,x))
2: (loop(\(x,i).7x,x,1) - loop(\(x,i).(3x + 2),x,0))
2: (loop(\(x,i).7x,x,1) - loop(\(x,i).6x,x,1))
2: (~x + loop(\(x,i).7x,x,1))
2: (~1 + loop(\(x,i).7x,x,2))
2: (loop(\(x,i).(4x + 2),x,2) - loop(\(x,i).2x,x,2))
2: (~1 + loop(\(x,i).(x * (x2 + i)),2,2))
2: (loop(\(x,i).(x2 + x),1,loop(\(x,i).2x,x,1)) - loop(\(x,i).3x,x,1))
2: (~2 + loop(\(x,i).(x2 + 4x + 4),2,2))
2: (~1 + loop(\(x,i).(x * (2 + i)),x,2))
2: (~x + loop(\(x,i).(2 * (x + i)),x,0))
2: (~1 + loop(\(x,i).(x * (x + i)),2,3))
2: (~x + loop(\(x,i).~2x,(~1 + i),1))
2: (~1 + loop(\(x,i).~2x,x,4))
2: (loop(\(x,i).11x,x,1) - loop(\(x,i).10x,x,1))
2: (loop(\(x,i).11x,x,1) - loop(\(x,i).8x,x,1))
2: (loop(\(x,i).11x,x,1) - loop(\(x,i).4x,x,1))
2: (loop(\(x,i).11x,x,1) - loop(\(x,i).6x,x,1))
2: (~1 + loop(\(x,i).11x,x,4))
2: (~1 + loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,2))
2: (loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,(x + 1)) - loop(\(x,i).4x,x,1))
2: (loop(\(x,i).(3x + ~3),x,2) - loop(\(x,i).2x,x,1))
2: (~1 + loop(\(x,i).(x2 + ~x),1,loop(\(x,i).(2x + 2),2x,2)))
2: (~1 + loop(\(x,i).(x2 + ~x),1,loop(\(x,i).2x,x,1)))
2: (loop(\(x,i).(x2 + ~x),1,loop(\(x,i).2x,x,1)) - loop(\(x,i).3x,x,1))
2: (~1 + loop(\(x,i).(x2 + ~x),2,4))
2: (~2 + loop(\(x,i).(x2 + ~2x),1,loop(\(x,i).2x,x,2)))
2: (~x + loop(\(x,i).10x,x,1))
2: (~1 + loop(\(x,i).10x,x,11))
2: (~1 + loop(\(x,i).(x3 + 7x2 + 14x + 8),1,x2))
2: (loop(\(x,i).8x,x,1) - loop(\(x,i).(3x + 2),x,0))
2: (loop(\(x,i).8x,x,1) - loop(\(x,i).6x,x,1))
2: (~2 + loop(\(x,i).20x,2,(x + 1)))
2: (~x + loop(\(x,i).4x,(~1 + i),1))
2: (~1 + loop(\(x,i).4x,(2 * (x div 2)),2))
2: (~2 + loop(\(x,i).4x,x,1))
2: (~2x + loop(\(x,i).4x,x,1))
2: (loop(\(x,i).4x,x,1) - loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,(3x + 1)))
2: (~x + loop(\(x,i).4x,x,1))
2: (loop(\(x,i).4x,x,2) - loop(\(x,i).3x,x,1))
2: (loop(\(x,i).4x,x,2) - loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),x,1))
2: (loop(\(x,i).4x,x,3) - loop(\(x,i).3x,x,2))
2: (~1 + loop(\(x,i).6x,x,2))
2: (~1 + loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),x,1))
2: (loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),x,(x + 2)) - loop(\(x,i).4x,x,1))
2: (~1 + loop(\(x,i).2x,((x + 1) - ((x mod (1 + (x div 4))) div 2)),1))
2: (~2 + loop(\(x,i).2x,(1 - ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)),1))
2: (~1 + loop(\(x,i).2x,(~4 + (x div 2)),2))
2: (loop(\(x,i).2x,(x + ~1),1) - (if (x mod 2) <= 0 then 1 else x))
2: (~1 + loop(\(x,i).2x,(x - (x div 8)),2))
2: (~x + loop(\(x,i).2x,(~1 + i),1))
2: (~1 + loop(\(x,i).2x,2x,(1 + (x div (2 + (x mod 2))))))
2: (~1 + loop(\(x,i).2x,(x div 2),(2 + (x mod 2))))
2: (~1 + loop(\(x,i).2x,loop(\(x,i).(x div (1 + (x mod 2))),x,x),2))
2: (1 + loop(\(x,i).2x,x,1) - ((if (x mod 2) <= 0 then 2 else x) mod 4))
2: (loop(\(x,i).2x,x,1) - loop(\(x,i).2x,(x div 2),(x mod 2)))
2: (loop(\(x,i).2x,x,2) - loop(\(x,i).2x,((x + 1) div 2),1))
2: (loop(\(x,i).2x,x,2) - loop(\(x,i).2x,((x + 1) div 2),2))
2: (~1 + loop(\(x,i).2x,x,4))
2: (~1 + loop(\(x,i).2x,x,(2 + (x mod 2))))
2: (loop(\(x,i).2x,x,(2 + (x mod 2))) - (x mod 2))
2: (~1 + loop(\(x,i).2x,x,(x + 2)))
2: (~1 + loop(\(x,i).2x,x,(2 - (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1))))
2: (~1 + loop(\(x,i).2x,x,23))
2: (~1 + loop(\(x,i).2x,x,(((~x + 1) mod 3) - (x mod 2))))
2: (~1 + loop(\(x,i).2x,x,2x))
2: (~1 + loop(\(x,i).2x,x,(if (x mod 4) <= 0 then 2 else (x mod 2))))
2: (~1 + loop(\(x,i).2x,x,loop(\(x,i).(2 + (x * i)),x,2)))
2: (~1 + loop(\(x,i).2x,x,loop(\(x,i).2x,((x mod (1 + (x div 2))) div 2),2)))
2: (~x + loop(\(x,i).2x,x,x))
2: (~1 + loop(\(x,i).2x,compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),4))
2: (~1 + loop(\(x,i).x2,1,(1 + (x mod (1 + (x div (1 + (loop(\(x,i).2x,x,2) mod (2x + 1)))))))))
2: (~1 + loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
2: (~x + loop(\(x,i).x2,1,loop(\(x,i).(x div (~2 + (x mod 2))),x,(x + 1))))
2: ((~x2 + ~x) + loop(\(x,i).x2,2,(x + 2)))
2: (~x + loop(\(x,i).x2,2,(x + 2)))
2: (~1 + loop(\(x,i).x2,x,2))
2: (~x + loop(\(x,i).x2,i,2))
2: (~1 + loop(\(x,i).(x * i),(x div 5),1))
2: (~2 + loop(\(x,i).(x * i),x,1))
2: (~x + loop(\(x,i).(x * i),x,1))
2: (~1 + loop(\(x,i).(x * i),x,2))
2: (~1 + loop(\(x,i).(x * i),x,3))
2: (~1 + loop(\(x,i).((x2 + x) div 2),x,2))
2: (~x + loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,1))
2: (~2 + loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1))
2: (~x + loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1))
2: (~1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x))
2: (~1 + loop(\(x,i).(x div (~2 + (x mod 2))),x,x))
2: (~1 + loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(3x2 + 6x)))
2: (loop(\(x,i).loop(\(x,i).(x * i),(x * i),1),x,1) - loop(\(x,i).(x * i),x,1))
2: (~1 + loop(\(x,i).loop(\(x,i).(x * i),i,x),x,1))
2: (~1 + loop(\(x,i).loop(\(x,i).(((x + i) * i) div (x + 1)),x,i),x,2))
2: ((x + ~4) - (x div 4))
2: (~x2 + 3x + ~1)
2: (x + ~25)
2: (x + ~33)
2: ((x + ~1) - (2 * ((x + ~1) div 3)))
2: ((x + ~1) - (2 * ((((x + ~1) div 2) div 2) div 2)))
2: ((x + ~1) - (2 * (if x <= 0 then 0 else i)))
2: (x - ((x div 4) + i))
2: ((x + ~1) - ((x div 2) mod 2))
2: ((x + ~1) - (x mod 3))
2: ((x + ~1) + (5 * (1 + (x div 2))))
2: (x + 23)
2: (13x + 11)
2: (19x + 11)
2: (13x + 5)
2: ((x + ~1) + (i mod 3))
2: ((x + ~1) + loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x))
2: ((x + ~2) + (5 * (1 + (x div 2))))
2: ((x + ~2) + ((x div 2) mod 2))
2: ((x + 4) - ((~x + 2) div (x + 2)))
2: ((x + 1) + ((3 * (x div (4 - ((x * (x div 2)) mod 2)))) div 2) - (x div 2))
2: (3x - loop(\(x,i).~2x,(~1 + i),1))
2: ((x + 1) - (2 * ((~x + ~1) + (x mod 2))))
2: ((x + 1) - (2 * ((~2x + ~2) + ((x - (x div 4)) div 2))))
2: ((x + 1) - ((~2x + (x div 2)) * (x div 2)))
2: ((x + 2) - ((~2x + (x div 2)) * (x div 2)))
2: ((x + 1) - (2 * (~1 + (x mod (3 - (x mod 2))))))
2: ((x + 1) - (9 * (~x + (x mod 10))))
2: (x + ~39)
2: (x + 29)
2: ((x + 1) - (6 * (x div 7)))
2: ((x + 1) - (2 * ((~2x + 1) div 3)))
2: ((x + 1) - (2 * ((3 * (x div (4 - ((x * (x div 2)) mod 2)))) div 2)))
2: ((x + 1) - (2 * i))
2: ((x + 2) - (2 div (~8 + (x div 2))))
2: ((x + 1) - (2 div (x + ~16)))
2: ((x + 1) - ((x + (x div 2)) div 4))
2: ((x + 1) - ((x + (x div 4)) div ~2))
2: ((x + 1) - (((~x + 1) - ((x div 3) mod 3)) div 3))
2: ((x + 1) - ((~2x + 1) div (4 + (x div 4))))
2: ((x + 2) - ((~2x + 1) div (4 + (x div 4))))
2: ((x + 1) - ((1 - (x div 2)) div 3))
2: ((x + 1) - ((1 - (x div 3)) div 3))
2: ((x + 1) - ((~x + 1) div (2 + (x div 4))))
2: ((x + 1) - ((~x + 1) div 11))
2: ((x + 1) - ((~x + 2) div 5))
2: ((x + 1) - ((~x + 2) div (3 + (x div 4))))
2: ((x + 1) - ((~x + 2) div 7))
2: ((x + 2) - ((~x + 2) div (2 + i)))
2: ((x + 1) - ((~x + 2) div 11))
2: ((x + 1) - (((~x + 2) - (x div 2)) div 4))
2: ((x + 2) - (((~x + 2) - (x div 2)) div 4))
2: (x + (if x <= 0 then 1 else 4x) - ((~x + (((x div 2) div 3) mod 2)) div 2))
2: ((x + 1) - ((((x div 2) mod 2) - (if (~x + 2) <= 0 then x else 0)) div 2))
2: ((x + 2) - ((~x + ((x div 2) mod 2)) div 2))
2: ((x + 1) - ((((x div 4) mod 2) - (x div 2)) div 2))
2: ((x + 1) - ((~x + (x mod 2)) div 3))
2: ((x + 1) - ((~x + (x mod 3)) div 4))
2: ((x + 1) - ((2 * (1 - (x div 2))) div 5))
2: ((x + 1) - ((~2x + 2) div 7))
2: ((x + 1) - ((~2x + 4) div 9))
2: ((x + 1) - ((2 * (((x + 1) div 2) div 2)) div 3))
2: ((x + 1) - (2x div 7))
2: ((x + 1) - (x2 div ~2))
2: ((x + 1) - (((2 + (x * (x + (x div 2)))) div (x + 2)) div 2))
2: ((x + 1) - (((~x + 2) div 2) div 3))
2: ((x + 1) - (((~x2 + x) div 2) div 5))
2: ((x + 2) - ((((x + 2) * ((~x + 2) div 2)) div 2) div 2))
2: ((x + 2) - ((x2 div 2) div (~2x + 1)))
2: ((x + 1) - ((((2 - (x div 2)) mod (x + 1)) div 2) div 2))
2: ((x + 1) - ((x div 2) div 3))
2: ((x + 1) - ((x div 2) div ~5))
2: ((5x + 4) - (x div 2))
2: ((5x + 2) - (x div 2))
2: (7x - (x div 2))
2: (x + (3 * (if (~2 + (x div 2)) <= 0 then 1 else 2)) - (x div 2))
2: (x + ((~x + 3) div 9) - (x div 3))
2: ((x + 1) - (x div (6 - (x mod 2))))
2: (x + (x div 2) - (x div (4 + (x mod 2))))
2: (x + (2 * i) - (x div (1 + (2 * i))))
2: ((x + 1) - (x div ~5))
2: ((x + 1) - (x div (~3 + (x div ~4))))
2: ((x + 1) - (x div (~2 + ((1 - (2 * (x div 3))) div 3))))
2: ((x + 2) - (x div (~2 + ((~x + 1) div 2))))
2: ((x + 1) - (x div (~1 + (x div ~2))))
2: ((x + 1) - (x div (~2 + (x div ~7))))
2: ((x + 2) - (2 mod (~x2 + 2)))
2: ((x + 1) - ((2x + 1) mod (1 + (2x mod (2 + (x div 4))))))
2: ((x + 1) - ((x + 1) mod 3))
2: ((x + 1) - ((x + 1) mod (~1 + (x div ~5))))
2: ((x + 1) - ((~x + 1) mod 3))
2: ((x + 1) - ((2 - (x div 3)) mod 5))
2: ((5x + 2) - ((x div 2) mod 2))
2: ((x + 1) - ((x div 4) mod 2))
2: ((x + 1) - ((if (x mod 4) <= 0 then 2 else (x mod 2)) mod (1 + (x div 3))))
2: ((x + 1) - (loop(\(x,i).2x,x,2) mod (x + 2)))
2: ((x + 1) + ((x div 2) mod 7) - (x mod 2))
2: (x + ((x - (x div 4)) mod 2) - (x mod 2))
2: ((x + 1) - (x mod 6))
2: ((x + 2) - (i mod 2))
2: ((5x + 2) - (i mod 2))
2: (3x - (i mod 2))
2: (x + (x mod 2) - (if ((x + (x div 2)) mod 4) <= 0 then 2 else 1))
2: ((x + 1) - (if x <= 0 then 1 else (2 * i)))
2: ((x + 1) - (if x <= 0 then 2 else (2 * i)))
2: (5x - i)
2: (~3x + ~4)
2: (x + ~27)
2: (x - (3 * (x + (x div 2))))
2: (~x2 + ~3x + ~4)
2: (13x + ~3)
2: (2x3 + ~3x)
2: (x - (2 * ((~x + ~1) + (x mod 2))))
2: (x - (((~x + ~1) + (x mod 2)) * (x div 2)))
2: (x - (5 * ((~x + ~2) + (x mod 2))))
2: (~7x + 2)
2: (x - (3 * (~1 + ((x + (x div 2)) div 4))))
2: (x - (2 * ((~2x + ~2) + ((x - (x div 4)) div 2))))
2: (x - (2 * (~x + ((x - (((x + ~1) div 2) mod (1 + ((1 + (x div 2)) div 3)))) div 2))))
2: (x - (2 * (~x + ((2 * (~2 + (x div 2))) div 5))))
2: (x - (3 * (~2 + (x div 2))))
2: (x - ((~2x + (x div 2)) * (x div 2)))
2: (x - (4 * (~x + (x div 5))))
2: (x - (2 * (~2x + (x mod 2))))
2: (x - (3 * (~x + (x mod 2))))
2: (x - (2x * (~x + (x mod 2))))
2: (x - (2 * (~2 + (x mod 4))))
2: (x - (3 * (~x + (x mod 10))))
2: (x - (9 * (~x + (x mod 10))))
2: (x + ~40)
2: (~11x + ~12)
2: ~9x
2: (2x2 + 9x + ~10)
2: (~3x2 + ~2x)
2: (~5x + ~12)
2: (~4x2 + ~7x)
2: (9x + ~4)
2: (8x2 + ~7x)
2: (x3 + ~3x2 + 3x)
2: (x3 + ~4x2 + 5x)
2: (9x2 + ~5x)
2: (15x2 + ~9x)
2: (x - (4 * ((~x + ~2) + (x mod 2))))
2: (25x + ~18)
2: (x - (4 * ((x div 2) - (2 * ((x div 4) mod 2)))))
2: (x - (4 * (x - (2x * i))))
2: (x - (4 * (x div 5)))
2: (~2x3 + x)
2: (x - (2 * (2 div (~8 + (x div 2)))))
2: (x - (2 * ((x + (x div 4)) div ~2)))
2: (x - (2 * ((1 - (x div 2)) div 5)))
2: (x - (2 * ((~x + 2) div 4)))
2: (x - (2 * ((x - ((x div 2) div ~2)) div 3)))
2: (x - (3 * (((x + 1) div 2) div 2)))
2: (x - (2 * (((x + 1) div 2) div 3)))
2: (x - (3 * ((((2 - (x div 3)) * (x div 3)) div 2) div 2)))
2: (x - (2 * ((x div 2) div 3)))
2: (x - (2 * ((x div 5) div ~2)))
2: (x - (2 * ((x div (2 * (~2 + ((x * (x div 2)) mod 2)))) div 3)))
2: (x - (3 * (x div 5)))
2: (x - (2 * (x div (3 + ((x div 3) mod 3)))))
2: (x - (5 * (x div 7)))
2: (x - (2 * (x div ~4)))
2: (x - (2 * ((2x div (4 + (x div 4))) mod 2)))
2: (x - (2 * ((x div 2) mod 5)))
2: (x - (2 * (x mod (1 + ((3 * ((x + 1) div 2)) mod (1 + (x div 3)))))))
2: (x - (2 * (x mod ~3)))
2: (x - (2 * (x mod (x - ((x + ~1) mod 8)))))
2: (x - (2 * (i mod 2)))
2: (x - (2 * (if (~4 + (x div 2)) <= 0 then 0 else 2)))
2: (x - (2 * (if (x + ~1) <= 0 then x else 2)))
2: (x - (2 * (if x <= 0 then 0 else i)))
2: (x - ((x + 1) * loop(\(x,i).(~4x2 + 1),2,2)))
2: (x - (23 * loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x)))
2: (x - ((x + 1) * loop(\(x,i).(~x2 + ~2x),2,4)))
2: (x - ((x + 1) * loop(\(x,i).(x * (~x + i)),2,6)))
2: (x - (x * loop(\(x,i).x2,(~1 + i),2)))
2: (x - (1 div (~1 + (2 * ((x + 2) mod 12)))))
2: (x - (4 div (~4 + (x div 4))))
2: (x - (4 div (if (~2 + (x div 2)) <= 0 then 2 else (x + ~2))))
2: (x - ((~x + 3) div 7))
2: (x - ((x2 + 1) div (x + 5)))
2: (x - ((x2 + 2) div (x + 5)))
2: (x - ((x2 + 2) div (1 + (2 * (2 + ((x + (x div 4)) div 2))))))
2: (x - ((x2 + (x div 2)) div 3))
2: (x - ((2 + (x div 2)) div 3))
2: (x - ((x + (x div 2)) div 5))
2: (x - ((x + (x div 2)) div ~5))
2: (x - ((((x div 4) mod 2) + (x div 2)) div ~2))
2: (x - ((1 + ((x mod (2 + (x div 2))) mod 4)) div 2))
2: (x - ((x + 2) div ~7))
2: (x - ((x + 2) div ~5))
2: (x - ((x + 2) div (~9 + (x div 3))))
2: (x - ((x + 2) div (~6 + (((x + ~1) div 2) div 2))))
2: (x - ((0 - (3 * ((x + 1) mod 12))) div (x + 1)))
2: (x - ((0 - (if (~x + 2) <= 0 then (x div 2) else 1)) div 3))
2: (x - ((0 - (if (~2 + (x div 4)) <= 0 then 2 else x)) div 6))
2: (x - ((1 - ((x2 + 4x) div 2)) div 3))
2: (x - ((1 - ((x * (x div 2)) div 2)) div (x + 1)))
2: (x - ((1 - (x div 2)) div 5))
2: (x - ((1 - (x div 3)) div 3))
2: (x - ((1 - (if (~x + 2) <= 0 then x else 2)) div 3))
2: (x - ((2 - (x div 3)) div 2))
2: (x - ((~x + 2) div (4 + (x mod 2))))
2: (x - ((~x + 2) div 7))
2: (x - (((~x + 1) - (x mod 2)) div 3))
2: (x - (((~x + ~1) + (x2 div 4)) div 3))
2: (x - (((~x + ~1) + (((x * ((~x + 2) div 2)) div 2) div 3)) div 3))
2: (x - (((~x + ~1) + ((x div 2) mod 3)) div 3))
2: (x - (((~x + ~1) + (x mod 2)) div 3))
2: (x - (((~x + ~2) + (x mod 2)) div 3))
2: (x - (((~x + ~2) + (x mod 2)) div 5))
2: (x - ((~1 + (2 * ((~x + 2) div 4))) div 3))
2: (x - ((~1 + (2 * (x div 2))) div 5))
2: (x - ((2x + ~1) div 7))
2: (x - ((x2 + ~2) div (x + 6)))
2: (x - ((~1 + ((~x + ((x div 4) mod 2)) div 2)) div 2))
2: (x - ((~1 + ((x + ~1) div 3)) div 3))
2: (x - ((~2 + (2x2 div (x + 2))) div 3))
2: (x - ((~1 + (((x + ~1) div 2) div 2)) div 2))
2: (x - ((~x + ((x div 2) div 7)) div 2))
2: (x - ((~x + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)) div 2))
2: (x - ((~1 + (((2x + ~4) mod (x + 2)) div 2)) div 3))
2: (x - ((~1 + ((x mod (1 + ((2 - (x mod 4)) mod (x + 1)))) div 2)) div 2))
2: (x - (((x div 4) - (if x <= 0 then 1 else x)) div 2))
2: (x - ((~2 + (x div ~3)) div 3))
2: (x - ((~x + (x div 12)) div 2))
2: (x - ((((x div 2) mod 4) - (if x <= 0 then 1 else x)) div 4))
2: (x - ((~x + ((i mod 3) mod 2)) div 2))
2: (x - (((x mod 6) - (x div 2)) div 2))
2: (x - ((x + ~1) div 5))
2: (x - ((x + ~2) div 5))
2: (x - ((x + ~2) div (4 + (x div 5))))
2: (x - ((x + ~2) div (~6 + (x div 4))))
2: (x - ((x - (x2 div 4)) div (2 + (x div 3))))
2: (x - ((x - ((x * i) div 3)) div 2))
2: (x - ((x - ((x div 2) div 3)) div 2))
2: (x - ((x - ((x mod 3) div 2)) div 2))
2: (x - ((x - (x div 3)) div 3))
2: (x - ((x - ((~x + 1) mod 3)) div 2))
2: (x - ((x - (x mod 3)) div 2))
2: (x - (3x div ~7))
2: (x - (3x div (16 - (x div 2))))
2: (x - (5x div (~1 - i)))
2: (x - ((~2 * ((x + 1) + (x mod 2))) div 5))
2: (x - ((2x + 2) div ~5))
2: (x - ((2 * (1 - (x div 2))) div 5))
2: (x - ((~2x + 2) div 5))
2: (x - ((~x2 + x) div 8))
2: (x - ((~2x + 4) div 7))
2: (x - ((x * (2 - i)) div (1 + i)))
2: (x - ((2 * (~2 + (x div 2))) div 5))
2: (x - ((x * (~2 + (x div 2))) div (x + 1)))
2: (x - ((2x + ~4) div 7))
2: (x - ((2 * (x - ((x div 2) div 3))) div 3))
2: (x - ((~21 * (1 + (x div 3))) div 5))
2: (x - ((~x4 + x3) div 2))
2: (x - (2x2 div ~3))
2: (x - (x3 div (~x + ~31)))
2: (x - ((2 * ((2x + 1) div ~7)) div 3))
2: (x - ((~2 * (((x + ~1) div 2) div 2)) div 3))
2: (x - (((x + ~2) * (x div 2)) div (x + 1)))
2: (x - (((x div 2) * (x div 2)) div 3))
2: (x - ((x * (x div 2)) div 3))
2: (x - ((2 * (if x <= 0 then 1 else x)) div (~3 + ((~x + 2) div 4))))
2: (x - (2x div (2 + (x div 5))))
2: (x - (2x div (~2 + (x div ~4))))
2: (x - (x2 div (x + 7)))
2: (x - (x2 div (x + 3)))
2: (x - (x2 div (x + 4)))
2: (x - (x2 div (3x + 4)))
2: (x - (x2 div ~7))
2: (x - (x2 div ((2x + ~1) + (x div 2))))
2: (x - (x2 div ((2x + 10) - (x div 2))))
2: (x - ((x * i) div 3))
2: (x - (((x + ((x div 4) mod 2)) div 2) div ~2))
2: (x - (((2 - (x div 2)) div 2) div 2))
2: (x - (((~x + 2) div 2) div 5))
2: (x - (((x - ((x2 + ~x) div 8)) div 2) div 2))
2: (x - (((x - ((x div 4) mod 2)) div 2) div ~2))
2: (x - ((((2 + (x div 4)) * (x div 2)) div 2) div 2))
2: (x - (((~x3 + x) div 2) div 3))
2: (x - ((((2 - (x div 2)) * (x div 2)) div 2) div 2))
2: (x - (((~x3 + 3x2 + ~2x) div 2) div 3))
2: (x - (((x2 * (x div 2)) div 2) div 3))
2: (x - (((((1 - (x div 2)) div 3) * (x div 2)) div 2) div 2))
2: (x - (((x * ((~x + 2) div 2)) div 2) div 3))
2: (x - ((x2 div 2) div (3 + (x div 2))))
2: (x - ((x div 2) div ~3))
2: (x - (((1 - (2x div 3)) mod 5) div 2))
2: (x - (((2x + ~1) mod (1 + (x div 3))) div 2))
2: (x - (((x + ~1) mod (1 + (x div 2))) div 2))
2: (x - (((x + ~1) mod (2 + (x div 2))) div 2))
2: (x - ((x mod 5) div 2))
2: (x - ((x mod (1 + (x div 4))) div 2))
2: (x - ((x mod ((~x + 2) + ((x mod 3) div 2))) div 2))
2: (x - ((if (x mod 3) <= 0 then x else (~x + 1)) div 3))
2: (x - ((if x <= 0 then 1 else x) div (~6 + (x div 4))))
2: (x - (x div (3 + ((~x + 1) mod 3))))
2: (x - (x div (~11 + (x div 2))))
2: (x - (x div (1 + ((1 + (x div 2)) div 3))))
2: (x - (x div (1 + ((x div 2) div 3))))
2: (x - (x div (1 + (x div 5))))
2: (x - (x div (2 + (x div (2 + (x2 mod 5))))))
2: (x - (x div (2 + ((x div 2) mod 4))))
2: (x - (x div (1 + (x mod 3))))
2: (x - (x div (~3 + (x div ~4))))
2: (x - (x div (~x + 16)))
2: (x - (x div (~1 + ((~x + 1) div 2))))
2: (x - (x div (~2 + ((x2 div 2) mod ~3))))
2: (x - (x div (~2 + (i mod 2))))
2: (x - (x div (~1 + (i mod ~2))))
2: (x - (x div (x + ~19)))
2: (x - (x div (if i <= 0 then 1 else (2 * i))))
2: (x - (2 mod (1 + (x div 2))))
2: (x - (2 mod (~2x + 1)))
2: (x - (4 mod (1 + (x div 4))))
2: (x - (4 mod (x + 2)))
2: (x - ((2x + 1) mod (1 + (x div 4))))
2: (x - ((x + 1) mod 5))
2: (x - ((x + 1) mod 11))
2: (x - ((~x + 2) mod (2 + (x div 2))))
2: (x - ((x2 + ~1) mod 16))
2: (x - (((x div 2) - ((~1 + (x div 4)) div 2)) mod 2))
2: (x - ((x + ~1) mod 3))
2: (x - ((x + ~1) mod 7))
2: (x - ((x - (x div 4)) mod 2))
2: (x - ((2x + 2) mod 13))
2: (x - ((x * (x div 2)) mod 8))
2: (x - ((x * (x mod 2)) mod 8))
2: (x - (2x mod 13))
2: (x - (x2 mod (x + 6)))
2: (x - (x2 mod (3x + 4)))
2: (x - (x2 mod (1 + (x div 2))))
2: (x - (((x + 1) div 2) mod 3))
2: (x - (((x + 2) div 3) mod 3))
2: (x - (((if x <= 0 then 2 else x) div 2) mod 2))
2: (x - ((x div (1 + ((x + ~1) mod 3))) mod 3))
2: (x - ((x div ~2) mod 2))
2: (x - (((x + 1) mod 5) mod 2))
2: (x - ((i mod 3) mod 2))
2: (x - ((if (~2 + (x div 2)) <= 0 then 2 else (x + ~2)) mod 5))
2: (x - (loop(\(x,i).2x,x,1) mod 9))
2: (x - (loop(\(x,i).(x * i),x,1) mod (x + 1)))
2: (x - (x mod 13))
2: (x - (x mod (1 + (2 * ((x - (x div 3)) mod 3)))))
2: (x - (x mod (1 + (2 * i))))
2: (x - (x mod (1 + (x div 3))))
2: (x - (x mod (1 + (x div 5))))
2: (x - (x mod (1 - (2 * (((x + 1) div 2) div 2)))))
2: (x - (x mod (~1 + (2 * ((~2x + 2) div 9)))))
2: (x - (x mod ((x + 1) - (x mod 10))))
2: (x - (compr(\x.(loop(\(x,i).(2x + 1),x,0) mod (x + 1)),x) mod (x + 1)))
2: (x - (if (~x + 2) <= 0 then 1 else 0))
2: (x - (if (~2 + (x div 2)) <= 0 then 1 else 2))
2: (x - (if (~2 + (x div 2)) <= 0 then 2 else 1))
2: (x - (if (~2 + (x div 2)) <= 0 then x else 1))
2: (x - (if (~2 + (x div 4)) <= 0 then 1 else 2))
2: (x - (if (~2 + (x div 4)) <= 0 then 2 else 1))
2: (x - (if (x + ~2) <= 0 then 0 else 1))
2: (x - (if (x + ~3) <= 0 then 1 else 0))
2: (x - (if (x + ~6) <= 0 then 1 else 0))
2: (x - (if (~x + i) <= 0 then i else 2))
2: (x - (if ((~1 + (x div 3)) mod 4) <= 0 then 1 else 0))
2: (x - (if ((x div ~2) mod 3) <= 0 then 0 else 1))
2: (x - (if (x mod 2) <= 0 then ((if x <= 0 then 2 else x) div 2) else 1))
2: (x - (if (x mod (1 + i)) <= 0 then 1 else x))
2: (x - (if (x mod (1 + i)) <= 0 then 2 else 0))
2: (x - (if (x mod (2 + i)) <= 0 then 1 else 2))
2: (x - (if (i mod 4) <= 0 then 2 else 0))
2: (x - (if x <= 0 then 0 else (i - (i div 3))))
2: (x - (if x <= 0 then 1 else (x div (1 + (if (x mod 3) <= 0 then 0 else 2)))))
2: (x - (if x <= 0 then 1 else (x div (2 - ((x div 2) mod 2)))))
2: (x - (if x <= 0 then 1 else (x div 8)))
2: (x - (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else (2x + ~1))))
2: (x - (if x <= 0 then 1 else (if (x mod (1 + i)) <= 0 then 2 else 1)))
2: (x - (if x <= 0 then 1 else loop(\(x,i).(~1 + (if x <= 0 then 2 else 0)),(x mod 2),(x div 2))))
2: (x - (if x <= 0 then 1 else loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,x)))
2: (x - (if x <= 0 then 2 else (~2 + i)))
2: (x - loop(\(x,i).(2x + ~1),x,0))
2: (x - loop(\(x,i).(~1 + (if x <= 0 then (2 * i) else x)),x,0))
2: (x - loop(\(x,i).((x + ~1) - (if x <= 0 then 0 else i)),x,x))
2: (x - loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x))
2: (x - loop(\(x,i).(x - (if (2x mod (1 + i)) <= 0 then 2 else 1)),x,2x))
2: (x - loop(\(x,i).(x - (if x <= 0 then 1 else (2 * i))),x,2x))
2: (x - loop(\(x,i).(x - (if x <= 0 then 1 else (2 * i))),x,x))
2: (x - loop(\(x,i).2x,x,1))
2: (x - loop(\(x,i).(x * i),(~1 + i),1))
2: (x - loop(\(x,i).((~x2 + x) div 2),2,x))
2: (x - loop(\(x,i).loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),x,(2x + 1)),2,(x + 1)))
2: (x - compr(\x.(1 - (x mod (2 + (if (x mod 5) <= 0 then 2 else 0)))),(x + 1)))
2: (x - compr(\x.((x div 2) mod 2),(x div 4)))
2: (i - (2 * (1 - (2 * i))))
2: (i - (x * (1 - i)))
2: (~4x + i)
2: (i - (x div 2))
2: (i - (x div (3 + i)))
2: (i - (i div ~2))
2: (i - (if (~x + i) <= 0 then (2 * i) else 0))
2: (~1 + compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(5x + ~2))),x))
2: (~2 + compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),(x + 1)))
2: (~1 + compr(\x.((x2 mod (4x + 9)) mod 2),(x + 1)))
2: (~x + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))
2: ((~x + 1) + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
2: (~x + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
2: (~1 + compr(\x.(if (x mod 2) <= 0 then ((x div 3) mod 3) else 0),x))
2: (~x + compr(\x.loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,2x),(x + 1)))
2: (4 * (~1 + i))
2: (5 * (1 + i))
2: (5 * (if x <= 0 then 1 else x))
2: (2 * ((x + 3) + ((if (x + ~1) <= 0 then x else 2) + (x div 3))))
2: (2 * ((2x + 1) + ((x div 2) + (x div 3))))
2: (2 * (6 + (x mod 2)))
2: (5x + 25)
2: (~x2 + ~4x + 5)
2: (2x2 + 9x + ~5)
2: (x2 + 10x + 24)
2: (2x2 + 13x + 6)
2: ((5 + i) * i)
2: ((6 + i) * i)
2: (2 * ((3x + 2) - ((x - ((x + (x div 3)) div 3)) div 2)))
2: (3x + 27)
2: (9x + 81)
2: (x * (10 + i))
2: (2x2 + 6x + 12)
2: (2 * ((x + 1) + (2 * ((2 * (2x - (x mod 8))) - (x mod 4)))))
2: (x2 + 25x)
2: (((x + 2) + (3 * (x div 2))) * ((x + 1) div 2))
2: ((x + 2) * ((x + 1) + (2 * ((if x <= 0 then 1 else x) mod 2))))
2: (x * ((x + 2) + (2 * (x mod 2))))
2: (2 * ((2x + 1) + (x div 3)))
2: (x3 + 5x)
2: (2 * (3x + ((x + ((x div 3) mod 3)) div 3)))
2: (2 * ((x + 2) + ((x - ((~x + 2) div 4)) div 2)))
2: (2 * (x + (((x - ((x div 2) mod 2)) div 2) + (2 mod (x + 1)))))
2: (x * ((x + 2) + ((x3 + 2x) div 3)))
2: (2 * ((x + 1) + ((2 * (1 + ((((x + ~1) * (x + (x div 3))) div 2) div 3))) div 3)))
2: (2 * ((x + 2) + ((2 * ((x + (if (~2 + (x div 2)) <= 0 then 1 else 0)) div 2)) div 3)))
2: (2 * ((x + 2) + (2x div 3)))
2: ((x + 1) * ((x + 1) + (x2 div 3)))
2: ((x + 1) * ((x + 1) + (x2 div 4)))
2: (2 * ((x + 2) + (((~1 + (x2 div 4)) div 2) div 2)))
2: ((x + 1) * (4 + (x div 2)))
2: ((4 + (x div 2)) * ((x + ~1) div 2))
2: (((x + 1) + (x div 2)) * (1 + (2 * (x div 2))))
2: (((x + 1) + (x div 2)) * (x + (x div 2)))
2: (((x + 2) + (x div 2)) * ((x + 1) div 2))
2: (2 * ((3x + 2) + (x div 2)))
2: (2 * ((x + 2) + (x div 3)))
2: (3 * ((x + 2) + (x div 4)))
2: ((x + 1) * ((x + 2) + (x div 4)))
2: (5 * (1 + (((1 + (x mod ((1 + (x mod (1 + (x div 4)))) * (1 + (x mod 2))))) mod (x + 1)) + (x mod 2))))
2: (2 * (3 + ((x + 1) mod 8)))
2: (3 * (x + ((((x + 1) div (1 + (x mod 4))) mod 2) + (x div 3))))
2: (x * (4 + (x mod 2)))
2: (x * ((2x + 2) + (x mod 2)))
2: (2 * ((x + 1) + (x mod 2)))
2: ((x + 1) * ((x + 1) + (x mod 2)))
2: (~2 * ((x + 1) + (x mod 2)))
2: (((x + 1) + (x mod 2)) * ((x + 1) div 2))
2: (5 * ((x + 2) + (x mod 2)))
2: (x * (3 + (i mod 2)))
2: ((4 + (i mod 2)) * i)
2: (2 * ((x + 2) + (i mod 2)))
2: (2 * ((x + 2) + (if x <= 0 then 1 else (6x - (((x + ~1) mod (2 + (x div 2))) div 2)))))
2: (2 * ((x + 1) + loop(\(x,i).(x - (x div 4)),2,(x div 2))))
2: (2 * ((x + 1) + loop(\(x,i).(x - (x div (~2 + ((~x + 2) div 4)))),x,1)))
2: (2 * (4 + loop(\(x,i).(x3 + x2),x2,2)))
2: (3 * ((x + 1) + loop(\(x,i).x3,1,(4x + 4))))
2: (2 * (4 + loop(\(x,i).2x,x,1)))
2: ((x + 3) * i)
2: (2 * (3 + i))
2: (2 * ((x + 2) + i))
2: (x * ((x + 2) + i))
2: (4 * (2x + i))
2: ((~x + 3) * (x div 2))
2: ((~x + 3) * (x div 3))
2: (~3x + 12)
2: (~2x + 10)
2: (~x2 + 6x)
2: (2 * ((x + 3) - (x div (~2 + (x div ~4)))))
2: (x * ((~x + 1) + (4 * (x + ((x div 2) mod 2)))))
2: (2 * ((2x + 5) - (x mod 5)))
2: (((2x + 1) - (3 * (x div ~2))) * ((x + 1) div 2))
2: (((2x + 1) - (x div ~2)) * ((x + 1) div 2))
2: (x * ((2x + 1) - (x mod 4)))
2: (2 * ((x + ~1) + ((2 * ((3x + 2) - ((x - ((x + (x div 3)) div 3)) div 2))) div 3)))
2: (3 * (2 + (x div 2) - (x mod 2)))
2: (2 * ((x + ~1) + loop(\(x,i).(x + (if (~2 + (x div 4)) <= 0 then 1 else 2)),2,x)))
2: (5 * ((x + 2) - ((x + (x div 4)) div ~2)))
2: (2 * (3x - ((2 * (x - ((x div 2) div 3))) div 3)))
2: (2 * ((x + 2) - ((x mod (2 + (6 mod (1 + (x div 2))))) div 2)))
2: (5 * (2x - (if (~2 + (x div 2)) <= 0 then (~1 + (x div 5)) else 1)))
2: (14x + 7)
2: (7x + ~14)
2: (7 * (x div 4))
2: (x * (6 + (x div 3)))
2: (15x + 5)
2: (6x2 + 5x + 1)
2: ((3x + 1) * (1 + (x mod 2)))
2: (3x2 + 11x + 6)
2: (3x2 + 14x + 8)
2: (27x + 18)
2: ((3x + 2) * (2 - (x mod 2)))
2: (3 * (2 + (3 * i)))
2: (9 * (x div 4))
2: (x * (9 + i))
2: (3x + 24)
2: (x3 + 8x2 + x + 8)
2: (x2 + 9x + 8)
2: (8x + 10)
2: (10x2 + 3x + ~4)
2: (x * (1 + (4 * (1 + i))))
2: ((1 + (4 * (1 + i))) * i)
2: (5x2 + 11x + 6)
2: (5x2 + 16x + 12)
2: (10x2 + 7x + 1)
2: (5x2 + 3x)
2: (2 * ((5x + 1) + i))
2: (2 * (5x + i))
2: ((1 + (5 * i)) * (1 + i))
2: (x * (1 + (5 * i)))
2: (x * (3 + (5 * i)))
2: (2x2 + 10x + 2)
2: (2 * (1 + (2 * (4 + loop(\(x,i).(x3 + x2),x2,2)))))
2: (10x + 45)
2: (2x2 + 8x + 2)
2: (x3 + 6x2 + 9x + 2)
2: (x * (1 + (2 * (3 + i))))
2: (14x2 + 9x + 1)
2: (9x2 + 7x)
2: (3x3 + 2x2 + x)
2: (x2 + 27x)
2: (2x2 + 18x + 20)
2: (x6 + x3 + 2x2 + 2x)
2: (3x3 + 7x2 + 6x + 2)
2: (3x3 + 4x2 + 2x)
2: (4x2 + 8x + 10)
2: (49x2 + 99x + 50)
2: (40x2 + 4x + 2)
2: (8x3 + 3x)
2: (2x3 + 3x2 + 2x + 1)
2: (x4 + x2 + 2x)
2: ((1 + ((1 + (2 * i)) * i)) * i)
2: (3 * (1 + (2 * (x + ((x * (1 + (x div 5))) div 9)))))
2: (2 * (x + (3 * (1 + (x div 2)))))
2: (2 * ((x2 + x) + ((1 + (x div 2)) * (x div 2))))
2: (2 * (1 + (2 * (x + (x div 8)))))
2: (x * (1 + (2 * (2 + (2 mod (x + 1))))))
2: (x * (1 + (2 * (2 + (i mod 2)))))
2: (2 * (1 + ((x + 1) * (1 + loop(\(x,i).(x * (x + i)),2,4)))))
2: ((2x + 3) * (1 + (x div 2)))
2: (2x2 + 5x + 3)
2: (2x2 + 7x + 6)
2: (5x2 + 5x + 5)
2: (x3 + 2x2 + 3x + 2)
2: (x3 + 3x2 + 4x + 4)
2: (2x3 + 3x2 + 7x + 3)
2: (2x2 + 2x + 8)
2: (4x + 10)
2: (4x2 + 12x + 5)
2: (6x + 8)
2: (9x + 12)
2: (9x2 + 15x + 4)
2: (6x2 + 8x)
2: (3x2 + 7x)
2: (2x2 + 8x + 10)
2: (5x2 + 20x + 30)
2: (x3 + 4x2 + 6x)
2: (9x2 + 18x + 9)
2: ((x2 + 2x + 1) * (1 + (x mod 2)))
2: ((x2 + 2x + 1) * (1 + (if x <= 0 then 1 else x)))
2: (2x2 + 4x + 6)
2: (x3 + 3x2 + 5x + 3)
2: (x3 + 2x2 + 4x)
2: (2x2 + 4x + 16)
2: (3 * ((x2 + 2x) + (x mod 2)))
2: ((1 + ((1 + i) * i)) * i)
2: ((2 + ((1 + i) * i)) * i)
2: (x * ((2 * (2 + i)) + i))
2: (x * (1 + (2 * (x + i))))
2: (2 * (x + (2 * (x + i))))
2: (5 * (2 + (x * (x + i))))
2: (~x3 + 2x2 + 4x)
2: ((x + ((~1 + (2 * (i mod 2))) * i)) * (1 + i))
2: (2 * (1 + (2 * (2x - (i mod 2)))))
2: (x4 + ~x2 + 2x)
2: (2 * (1 + (x * (~1 + (2 * i)))))
2: ((1 + ((~1 + (2 * i)) * i)) * i)
2: (2x2 + ~2x + 2)
2: (2 * (1 + (2 * (x - (3 * (x div ~2))))))
2: (2 * (1 + (2 * (x - ((x div 2) div ~2)))))
2: (3 * (1 + (2 * (x - (x div ~2)))))
2: (x * (1 + ((~1 + i) * i)))
2: (19x + 19)
2: (19 * (if x <= 0 then 1 else 2))
2: 85
2: (x2 + 17x + 16)
2: (x2 + 16x)
2: (27x2 + 33x + 8)
2: (9x2 + 17x + 8)
2: ((1 + (8 * (~1 + i))) * i)
2: (156x + 117)
2: (4x3 + 9x2 + 8x)
2: (8x2 + 5x)
2: (27x + 12)
2: (9x2 + 22x + 8)
2: (6x3 + 9x2 + 4x + 1)
2: (x5 + x4 + x3 + x2 + x)
2: (14x + 12)
2: (7x2 + 6x)
2: (22x + 20)
2: (11x2 + 10x)
2: (6x3 + 9x2 + 5x + 1)
2: (3x3 + 6x2 + 4x + 1)
2: (3x3 + 3x2 + x)
2: (x4 + 3x3 + 3x2 + 2x + 1)
2: (4x2 + 9x)
2: (5x2 + 18x + 16)
2: (5x2 + 8x)
2: (9x2 + 18x + 6)
2: 98
2: (18x + 32)
2: (9x2 + 25x + 16)
2: (16x2 + 17x + 1)
2: (24x3 + 36x2 + 14x + 1)
2: (32x2 + 2)
2: (x * (1 + (4x * (1 + i))))
2: (20x2 + 2)
2: (20x2 + 2x)
2: (18x2 + 2)
2: (8x3 + x)
2: (24x2 + 2)
2: (x7 + x)
2: (x * (1 + (8 * i)))
2: (3 * (x + (4 * (x mod 2))))
2: (36x + 9)
2: (8x2 + 6x + 1)
2: (4x2 + ~3x + ~1)
2: (2 * (4x + (x div 2)))
2: (6x2 + 3)
2: (10x2 + 5)
2: (x * (2x2 + (x div 2)))
2: (3x3 + 4x2 + x)
2: (x4 + 2x3 + x)
2: (3x3 + 3)
2: (2x3 + 4)
2: (2 * (1 + (4 * i)))
2: (3 * (x + (3x * i)))
2: (3 * (x + (2 * ((x + (x div 2)) div 2))))
2: (3 * (1 + (3 * ((x + 1) div 2))))
2: (2 * (1 + (2 * ((x - ((x div 2) mod 4)) div 2))))
2: ((x + 1) * (1 + (3 * ((x2 + x) div 2))))
2: ((x + 2) * (1 + (5 * ((x2 + 3x + 2) div 2))))
2: (2 * (x + (2 * ((((x + ~1) div 2) * (x div 2)) div 3))))
2: ((x + 1) * (1 + (2 * ((3 * ((x div 2) div 3)) div 2))))
2: (2 * ((2 * (2x div 15)) + (((x + 1) div 2) div 2)))
2: (2 * (x + (2 * (2x div (if i <= 0 then 1 else i)))))
2: (2 * (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (if (x mod 3) <= 0 then 2 else 1))))
2: ((2x + 1) * (1 + (2 * (x div 2))))
2: (x * (1 + (2 * (x div 2))))
2: (2 * (2 + (3 * (x div 2))))
2: (4 * (x + (3 * (x div 2))))
2: (2 * (x + (4 * (x div (if i <= 0 then 1 else i)))))
2: (2 * (1 + (2 * (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))))
2: ((1 + (5 * ((~x + 2) mod 4))) * (if x <= 0 then 1 else 2))
2: (5 * (1 + (2 * (x mod 2))))
2: (x * (1 + (2 * (x mod 2))))
2: (5 * (x + (2 * (x mod 2))))
2: ((x + 2) * (2 + (x * (x mod 2))))
2: (2 * (x + (2 * (i mod 2))))
2: (x * (2 + (3 * (i mod 2))))
2: (2 * (1 + (2 * (if (x + ~4) <= 0 then x else (x + 1)))))
2: ((1 + (2 * (if (x mod 2) <= 0 then 6 else 1))) * (if x <= 0 then 1 else 2))
2: ((x + 1) * (1 + ((x + 1) * loop(\(x,i).x2,2,3))))
2: (x3 + ~x2 + x + ~1)
2: (x3 + ~2x2 + x + ~2)
2: (x3 + 4x2 + 2x + 8)
2: (x4 + 3x2 + 2)
2: (x3 + 2x2 + 3x + 6)
2: (x4 + 5x2 + 4)
2: (x3 + x2 + 4x + 4)
2: (x * ((x2 + 2) + i))
2: (2 * (x2 + (x mod 2)))
2: (x * (x2 + (x mod 2)))
2: (x * (x + (2 * i)))
2: ((1 + (x * i)) * i)
2: (2 * ((x * i) + (x div 2)))
2: (x * (x + (i * i)))
2: ((x + (i * i)) * i)
2: (2 * (1 + (2 * compr(\x.(1 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(8x2 + 8x))),x))))
2: (2 * (1 + (2 * compr(\x.(x - loop(\(x,i).loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),x,(2x + 1)),2,(2x + 1))),x))))
2: (2 * (1 + (2 * compr(\x.loop(\(x,i).loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + 1)),2,x),x))))
2: (2 * ((2x + 2) + (((x + 1) + (x div 4)) div 2)))
2: (2 * (2 + (((x + 1) + (if (x mod 4) <= 0 then 2x else (x div 2))) div 2)))
2: (2 * (x + ((1 + (2 * (x + (x mod 2)))) div 5)))
2: (2 * (1 + ((1 + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (1 + (((x + 1) div 2) div 2)))) div 2)))
2: (2 * (1 + ((2x + 1) div (3 + (x div 4)))))
2: (2 * (1 + ((1 + ((1 + (((x + 1) * (x div (2 - (x mod 2)))) div 2)) div 2)) div 2)))
2: (2 * (1 + ((1 + ((x + 1) div (2 + (x div (4 + (x mod 2)))))) div 2)))
2: (2 * (1 + ((2 + (((x div 3) * (x div 2)) div 2)) div 3)))
2: (2 * (2 + ((4x + (x2 div 4)) div (x + 2))))
2: (2 * (1 + ((1 + (((~1 + loop(\(x,i).2x,(x - (x div 8)),2)) mod (x + 1)) div 2)) div 2)))
2: (2 * (1 + ((1 + (((~1 + loop(\(x,i).2x,x,(2 - (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))) mod (x + 1)) div 2)) div 2)))
2: (2 * (1 + ((1 + ((loop(\(x,i).2x,x,2) mod (x + 1)) div 2)) div 2)))
2: (2 * (x + ((x + ((x mod (1 + (x div 2))) div 2)) div 2)))
2: (2 * (1 + ((1 + ((x mod (1 + (loop(\(x,i).(2x + 2),(loop(\(x,i).(~3x2 + x),2,2) mod (x + 1)),1) mod (x + 1)))) div 2)) div 2)))
2: (2 * (1 + ((1 + (x div 2)) div 3)))
2: (2 * (2 + ((x + (x div 4)) div 2)))
2: (2 * (1 + ((1 + (x div (1 + ((1 - ((2 * (1 + ((1 + (x mod (1 + (x div 4)))) div (1 + ((x + 1) mod 4))))) mod 3)) mod (x + 1))))) div 2)))
2: (2 * (1 + ((1 + (x div (2 + ((2 * (((1 + (8 mod (1 + (x div 2)))) div 2) - (x mod 2))) mod (x + 1))))) div 2)))
2: (2 * (1 + ((1 + (x div (2 + (loop(\(x,i).2x,(1 + (((1 + (x div 2)) div 2) div 2)),2) mod (x + 1))))) div 2)))
2: (2 * (1 + ((1 + ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod (2 * (1 + (x div 4))))) div 2)))
2: (2 * (x + ((x + ((1 - (x div 2)) mod 4)) div 2)))
2: (2 * (2x + ((x + ((1 - (x div 2)) mod 4)) div 4)))
2: ((1 + ((1 + (6 mod (1 + (x div 2)))) div 3)) * ((x div 2) mod 2))
2: (2 * (x + ((x + ((x div 2) mod 2)) div 2)))
2: (2 * (x + ((x + ((x div 2) mod 4)) div 2)))
2: (2 * (2x + ((x + ((x div 3) mod 3)) div 3)))
2: (2 * (x + ((x + (x mod 2)) div 3)))
2: (2 * (1 + ((1 + (x mod (1 + (if x <= 0 then 0 else (1 + (x div (1 + (2 * (1 + (((x2 + ~x + 2) mod (x + 4)) div 2)))))))))) div 2)))
2: (2 * (x + ((x + (if (~2 + (x div 3)) <= 0 then 2 else 1)) div 2)))
2: (2 * (1 + ((1 + (if ((x + 1) mod (3 - (x mod 2))) <= 0 then x else 1)) div 2)))
2: ((1 + ((x + 1) div 3)) * (x div 3))
2: (4 * (x + ((x + 1) div 5)))
2: ((x + 1) * (1 + ((x + 1) div 7)))
2: (x * (1 + ((1 + i) div 2)))
2: (2 * (x + ((2x + ~1) div (4 + (x div 4)))))
2: ((x + 1) * (1 + ((x + ~1) div 5)))
2: (2 * (2 + ((x - ((x div 2) div 3)) div 2)))
2: ((1 + ((x - (x div 3)) div 3)) * (1 + (x div 2)))
2: (2 * ((2x + 2) + ((x - (x div 4)) div 2)))
2: (2 * (1 + ((x - (x div (11 - (x div 2)))) div 2)))
2: (2 * (2x + ((x - (x div ~7)) div 2)))
2: (2 * ((2x + 2) + ((x - (x div 8)) div 2)))
2: (2 * (2x + ((x - (x div 12)) div 2)))
2: (3 * (x + ((x - ((x div 2) mod 2)) div 2)))
2: (2 * (2x + ((x - ((x div 2) mod ~4)) div 5)))
2: (2 * (x + (6 div (x + 1))))
2: (2 * (2x + (3x div (if i <= 0 then 1 else i))))
2: (2 * (x + (3x div (if i <= 0 then 1 else i))))
2: (4 * (x + (5x div (if i <= 0 then 1 else i))))
2: (4 * (x + (7x div (if i <= 0 then 1 else i))))
2: (x * (1 + ((x3 + 2x) div 3)))
2: (2 * (x + ((x * (1 + (x div 5))) div 9)))
2: (2 * (2x + ((2 * (x + (if (~2 + (x div 4)) <= 0 then 1 else 2))) div 3)))
2: (3 * (2 + ((x2 + x) div 2)))
2: ((x + 2) * (2 + ((x2 + x) div 2)))
2: ((x + 1) * (2 + ((x2 + 2x) div 2)))
2: (x * (2 + ((x2 + ~x) div 2)))
2: ((x + ~1) * (4x + ((x2 + ~x) div 2)))
2: (2 * (x + (10x div (if i <= 0 then 1 else i))))
2: (2 * (2x + (14x div (1 + i))))
2: (5 * (x + ((2x * (~1 + (2 * i))) div (1 + i))))
2: (3 * (1 + ((4 * (x - (x div ~5))) div 3)))
2: (9 * (x + (8x div (1 + i))))
2: (2 * (2 + ((2x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) div 3)))
2: (5 * (x + (4x div (1 + i))))
2: (7 * (x + (6x div (1 + i))))
2: (2 * (x + (6x div (if i <= 0 then 1 else i))))
2: (4 * (x + (6x div (if i <= 0 then 1 else i))))
2: (2 * (2 + (4x2 div (x + 1))))
2: (5 * (x + ((4x * i) div (1 + i))))
2: (2 * (2x + ((2 * ((x + (if (~2 + (x div 2)) <= 0 then 1 else 0)) div 2)) div 3)))
2: (2 * (1 + ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (~1 + (8 * ((1 + (x div 2)) div 2)))) div 2)))
2: (2 * (1 + ((2 * (x div 2)) div 5)))
2: (x * (1 + ((x * (x div 2)) div 3)))
2: ((x + 1) * (1 + ((x * (x div 2)) div 4)))
2: ((x + ~1) * (x + ((x * (x div 2)) div 4)))
2: (2 * (1 + (2x div 5)))
2: (3 * (x + (2x div (1 + i))))
2: (x * (1 + (x2 div 2)))
2: ((2 + (x2 div 2)) * (1 + (2 * (x mod 2))))
2: (x * (1 + (x2 div (x + 5))))
2: (2 * (2x + ((((x + 1) - (x div 4)) div 2) div 2)))
2: (x * (1 + (((x + 1) div 2) div 2)))
2: (3 * (2 + (((x + 1) div 2) div 2)))
2: (2 * (2 + (((x + 1) div 2) div 3)))
2: (2 * (1 + ((((1 + ((x - (x div 3)) div 3)) * (1 + (x div 2))) div 2) div 2)))
2: (2 * (1 + ((((x + ~1) * (x + (x div 3))) div 2) div 3)))
2: (7 * (x + ((x div 2) div 3)))
2: (2 * ((2x + 2) + ((x div 2) div 5)))
2: (4 * (x + ((x div 2) div 5)))
2: (3 * (1 + ((x div 2) div (1 + (x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4))))))))))
2: (2 * (1 + ((x div 4) div (1 + (x mod (2 * (1 + (x mod 2))))))))
2: (2 * (1 + (((2x2 + 1) mod (2 + (x div 4))) div 2)))
2: (3 * (1 + (((1 + (x mod (1 + (x mod (2 * (2 + ((x div 2) mod 2))))))) mod (x + 1)) div 2)))
2: (2 * (1 + (((x + 1) mod (1 + (2 * ((1 + (x div 4)) div 2)))) div 2)))
2: (2 * (1 + (((x + 1) mod (1 + (3 * (((x + 1) mod 8) mod 3)))) div 2)))
2: (2 * (1 + (((1 - (x mod (3 + (x mod 2)))) mod (x + 1)) div 5)))
2: (2 * (1 + (((~1 + loop(\(x,i).2x,x,(1 + (2 * (((2x + 1) mod (2 + (x div 4))) div 2))))) mod (x + 1)) div 2)))
2: (2 * (1 + ((32 mod (x + 1)) div 2)))
2: (2 * (x + ((x mod 3) div 2)))
2: (2 * (2x + ((x mod (1 + (x div 2))) div 2)))
2: (2 * (((x mod (1 + (x div 2))) div 2) + (x mod 2)))
2: (3 * (x + ((x mod (1 + (x div 2))) div 3)))
2: (2 * (((x mod (1 + (x div 4))) div 2) + (x mod 2)))
2: (2 * (1 + (loop(\(x,i).2x,((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3),1) div 2)))
2: (2 * (1 + (loop(\(x,i).x2,2,(x + 1)) div 3)))
2: ((2x + 1) * (1 + (x div 2)))
2: ((x + 2) * (1 + (x div 2)))
2: ((1 + (x div 2)) * i)
2: ((x + 2) * (2 + (x div 2)))
2: ((x + ~1) * (2 + (x div 2)))
2: ((2 + (x div 2)) * (x div 2))
2: ((2 + (x div 2)) * (x div 3))
2: ((2 + (x div 2)) * (x div 4))
2: (5 * (2x + (x div 2)))
2: ((2x + (x div 2)) * (1 + (x div 2)))
2: ((2x + 1) * (x + (x div 2)))
2: (x2 * (x + (x div 2)))
2: (2 * ((x + (x div 2)) * i))
2: ((x + 1) * (1 + (x div 3)))
2: ((x + 2) * (1 + (x div 3)))
2: ((1 + (x div 3)) * (x div 2))
2: ((x + ~1) * (x + (x div 3)))
2: ((x + 1) * (1 + (x div 4)))
2: ((1 + (x div 4)) * (x div 3))
2: ((1 + (x div 4)) * (x mod 4))
2: (x * (1 + (x div 4)))
2: (x * (2 + (x div 4)))
2: (x * (x + (x div 4)))
2: (3 * (1 + (x div 5)))
2: (3 * (x + (x div 5)))
2: (2 * (2x + (x div (4 + ((x div 2) div 5)))))
2: (2 * (1 + (x div (3 + ((~1 + loop(\(x,i).(if x <= 0 then i else (x div 2)),x,2)) mod (x + 1))))))
2: ((x + 1) * (1 + (x div 7)))
2: ((1 + (x div 7)) * (x mod 7))
2: (5 * (x + (x div 7)))
2: (2 * (x + (x div 13)))
2: ((x + 1) * (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))))
2: (2 * (1 + (x div (2 + ((~2x + 2) mod 5)))))
2: (2 * (1 + (x div (1 + (loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1))))))
2: (3 * (1 + (x div (1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))))
2: (2 * (x + (x div (2 - (x div (~1 + ((~x + 2) div 4)))))))
2: (2 * (x + (x div (8 - (x div 4)))))
2: (2 * (x + (x div (~2 + ((~x + 2) div 4)))))
2: (5 * (1 + (x div 8)))
2: ((x + 1) * (2 + (x div 8)))
2: ((2 + (x div 8)) * ((x div 2) mod 2))
2: (2 * ((2x + 2) + (x div 12)))
2: (2 * (1 + (x div (2 * (1 + ((x + 2) mod 6))))))
2: (2 * (1 + (x div (4 * (2 + (x mod 4))))))
2: ((x + 1) * (1 + (x div ((x + 2) div (2 + (loop(\(x,i).x3,2,2x) mod (x + 1)))))))
2: (x * (1 + ((i div 2) + i)))
2: ((x + (i div 2)) * (2 + i))
2: ((x + (i div 2)) * i)
2: (x * ((i div 2) + i))
2: (x * (1 + (i div 3)))
2: ((2 + (i div 3)) * (1 + (i div 3)))
2: (2 * (1 + (2 mod (1 + (x div 4)))))
2: (x * (2 + (2 mod (x + 1))))
2: ((1 + (2 mod (if ((x + 1) mod (2 + ((x div 2) mod 2))) <= 0 then x else 1))) * (if x <= 0 then 1 else 2))
2: (2 * (1 + ((2x + 1) mod (1 + (2x mod (3 + (x div 4)))))))
2: (2 * (1 + ((x + 1) mod 4)))
2: ((x + 2) * (1 + ((x + 1) mod (1 + (x div (2 + (x mod (2 + (x mod 2)))))))))
2: (2 * (2 + ((x + 1) mod (2 + (x mod 2)))))
2: (2 * (2 + ((x + 2) mod (2 + (x mod 2)))))
2: (2 * (1 + (~2 mod (1 - (2 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2))))))
2: (2 * (2 + ((1 - (2 * (x mod 4))) mod (x + 2))))
2: (2 * (2 + ((1 - (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 3)) mod (x + 1))))
2: ((x + 1) * (1 + ((1 - (x mod 3)) mod (x + 1))))
2: (3 * (1 + ((~x + 1) mod 3)))
2: ((2 + ((~x + 1) mod 6)) * (1 + (x mod 4)))
2: ((1 + ((x + ~1) mod 3)) * (1 + (x div 5)))
2: ((1 + ((x + ~1) mod 3)) * (if x <= 0 then 0 else 3))
2: (x * (2 + ((x + ~1) mod 3)))
2: (3 * (2 + ((x + ~1) mod 5)))
2: (2 * (1 + ((x + ~2) mod (1 + (x div 5)))))
2: (2 * (2 + ((x + ~2) mod (2 + (x mod 2)))))
2: (3 * (1 + ((19x + 19) mod 11)))
2: (2 * (1 + ((x2 + x) mod 5)))
2: (3 * (2 + ((x2 + x) mod 8)))
2: (2 * (2 + ((2 * (~1 + ((x2 + x) mod 5))) mod (x + 1))))
2: (2 * (2 + ((2x + ~4) mod 9)))
2: (2 * (2 + (4x mod 17)))
2: ((x + 1) * (1 + (x3 mod 13)))
2: (3 * (1 + (x3 mod 11)))
2: ((1 + ((x * (x div 2)) mod 2)) * ((x mod 3) mod 2))
2: (2 * (2 + (2x mod 5)))
2: (3 * (2 + (2x mod 7)))
2: (2 * (2 + (x2 mod 3)))
2: (2 * (2x + (((x2 + x) div ~8) mod 2)))
2: (2 * (2 + ((x2 div 2) mod 6)))
2: (2 * (2x + ((((~1 + ((x2 + x) div 2)) div 2) div 2) mod 2)))
2: (2 * (1 + (((x2 mod (x + 5)) div 2) mod 2)))
2: ((1 + ((x div 2) mod 2)) * (1 + (x div 2)))
2: (2 * (x + ((x div 2) mod 2)))
2: (3 * (x + ((x div 2) mod 2)))
2: (4 * (x + ((x div 2) mod 2)))
2: (2 * (1 + ((x div 2) mod 3)))
2: (2 * (2 + ((x div 2) mod 3)))
2: (2 * (1 + ((x div 3) mod 2)))
2: (2 * (2 + ((x div 3) mod 2)))
2: (2 * (2 + ((x div 3) mod 3)))
2: (2 * (2 + ((x div 3) mod 4)))
2: (2 * (1 + ((x div 4) mod 2)))
2: (2 * (x + ((i div 2) mod 2)))
2: ((x + 1) * (1 + ((2x mod (2 + (x div 3))) mod 2)))
2: (~2 * (1 + (x mod 2)))
2: ((1 + (x mod 2)) * (x div 2))
2: ((1 + (x mod 2)) * (if x <= 0 then 0 else 2))
2: ((x + 2) * (2 + (x mod 2)))
2: (5 * (2x + (x mod 2)))
2: (x * (2x + (x mod 2)))
2: (3 * (1 + (x mod 3)))
2: (x * (2 + (x mod 3)))
2: (3 * (2x + (x mod 3)))
2: (3 * (2 + (x mod 4)))
2: (5 * (1 + (x mod 5)))
2: ((1 + (x mod 5)) * (x div 5))
2: (x * (1 + (x mod 5)))
2: (2 * (x + (x mod 5)))
2: (x * (1 + (x mod (1 + ((~x + 2) mod 4)))))
2: (2 * (1 + (x mod (1 + ((x2 + 2x) mod 8)))))
2: (2 * (2 + (x mod (2 + ((x div 2) mod 2)))))
2: (3 * (1 + (x mod (2 + (x mod 2)))))
2: (2 * (1 + (x mod (2 + (x mod 4)))))
2: (9 * (1 + (x mod 11)))
2: (x * (1 + (x mod 8)))
2: (x * (2 + (x mod 8)))
2: (2 * (1 + (x mod 12)))
2: (2 * (1 + (x mod (2 * (2 + (x mod 4))))))
2: (2 * (1 + (x mod (2 * (2 - (x mod 2))))))
2: (2 * (1 + (x mod (if (~2 + (x div 2)) <= 0 then 1 else 2))))
2: ((1 + (i mod 2)) * i)
2: (2 * (2 + (i mod 2)))
2: (x * (x + (i mod 2)))
2: ((x + (i mod 2)) * i)
2: (x * (2 + (i mod 3)))
2: (3 * (x + (if (~x + 2) <= 0 then (2 + (x div 4)) else 1)))
2: (2 * (1 + (if (~x + 2) <= 0 then (1 - (2 * ((x mod (1 + (((x + 1) div 2) div 2))) mod 2))) else 0)))
2: (2 * (2x + (if (~2 + (x div 2)) <= 0 then 0 else 1)))
2: (2 * (2 + (if (~2 + (x div 2)) <= 0 then 1 else 2)))
2: (x * (x + (if (~2 + (x div 2)) <= 0 then 2 else 1)))
2: (2 * (x + (if (~2 + (x div 3)) <= 0 then 1 else (x div 4))))
2: (2 * (1 + (if (~2 + (x div 3)) <= 0 then x else (x + 2))))
2: (2 * (2 + (if (~1 + (x div 4)) <= 0 then x else 8)))
2: (2 * (x + (if (~2 + (x div 4)) <= 0 then 1 else 2)))
2: (3 * (x + (if (~2 + (x div 4)) <= 0 then 1 else 2)))
2: (3 * (x + (if (~2 + (x div 4)) <= 0 then 2 else 1)))
2: (2 * (1 + (if (x + ~1) <= 0 then 0 else (1 + ((x mod (1 + ((1 + (x div 2)) div 2))) div 2)))))
2: (3 * (x + (if (x + ~1) <= 0 then 2 else 1)))
2: (2 * (x + (if (x + ~2) <= 0 then 1 else (3 * (if (~2 + (x div 3)) <= 0 then 1 else 2)))))
2: (2 * (x + (if (x + ~2) <= 0 then 1 else x)))
2: (3 * (1 + (if (x + ~4) <= 0 then 0 else 2)))
2: (2 * (x + (if (x + ~4) <= 0 then 1 else 2)))
2: ((1 + (if ((x div 2) mod 2) <= 0 then 10 else 1)) * (if x <= 0 then 1 else 2))
2: (2 * (x + (if (x mod 2) <= 0 then 2 else 0)))
2: (2 * (1 + (if (x mod 2) <= 0 then 6 else 1)))
2: ((1 + (if (x mod 2) <= 0 then 6 else 1)) * (if x <= 0 then 1 else 2))
2: (x * (1 + (if (x mod 3) <= 0 then 0 else 2)))
2: (2 * (2 + (if (x mod 3) <= 0 then 0 else 2)))
2: (2 * (1 + (if (x mod 3) <= 0 then 0 else (1 + (2 * ((~1 + (x2 div 2)) mod (~1 + ((~2x + 2) mod (4 + (x div 4))))))))))
2: (3 * (x + (if (x mod 3) <= 0 then 1 else 2)))
2: (x * (1 + (if (x mod 3) <= 0 then 2 else 0)))
2: (2 * ((if (x mod 3) <= 0 then 2 else 1) + (x mod 2)))
2: ((1 + (if (x mod 3) <= 0 then (2 - ((x div 2) mod 2)) else 0)) * (x mod 2))
2: (2 * (1 + (if (x mod 3) <= 0 then 3x else 2)))
2: (2 * (2 + (if (x mod 4) <= 0 then 2 else 0)))
2: (x * (1 + (if (i mod 2) <= 0 then i else 1)))
2: (3 * (2 + (if x <= 0 then 0 else (1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)))))
2: (2 * (2 + (if x <= 0 then 1 else 2)))
2: ((x + 1) * ((if x <= 0 then 1 else x) + (x mod 2)))
2: (2 * (2 + (if x <= 0 then 2 else 0)))
2: (2 * (2x + (if x <= 0 then 2 else x)))
2: (2 * (x + loop(\(x,i).((x + 1) + (2 * ((x div 4) mod 2))),(x + ~1),1)))
2: (2 * (2 + loop(\(x,i).((x + 2) + (((1 + i) * i) div 2)),(x + 2),2)))
2: (2 * (x + loop(\(x,i).(~x - (x div (4 + i))),2,x)))
2: ((x + 1) * (1 + loop(\(x,i).(4x2 + ~1),2,2)))
2: ((x + 1) * (1 + loop(\(x,i).(x2 + ~1),2,4)))
2: ((x + 1) * (1 + loop(\(x,i).(x2 + ~1),2,6)))
2: (3 * (x + loop(\(x,i).((x + 1) - (((x + 1) div 2) div 3)),2,x)))
2: (2 * (x + loop(\(x,i).((x + 1) - ((((2 - (x div 2)) mod (x + 1)) div 2) div 2)),2,x)))
2: (18 * ((x + ~1) + loop(\(x,i).(x - ((~2 + (x div 2)) div 3)),2,x)))
2: (5 * (x + loop(\(x,i).(x - (if (~2 + (x div 2)) <= 0 then 0 else 1)),2,x)))
2: (2 * (1 + loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)))
2: ((x + 1) * (1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x)))
2: ((1 + loop(\(x,i).3x,x,1)) * (1 + loop(\(x,i).2x,x,1)))
2: (x * (1 + loop(\(x,i).(2x2 + 8),2,2)))
2: ((x + 1) * (1 + loop(\(x,i).(x * (x + i)),2,3)))
2: ((x + 1) * (1 + loop(\(x,i).(x * (x + i)),2,5)))
2: ((x + 1) * (1 + loop(\(x,i).(x * (x + i)),2,6)))
2: (2 * (2 + loop(\(x,i).(10x + ~4),x,1)))
2: ((x + 1) * (1 + loop(\(x,i).(x6 + x5 + x4 + x3 + x2 + x),1,x2)))
2: (x * (1 + loop(\(x,i).6x,(x + ~2),x)))
2: (3 * (2 + loop(\(x,i).2x,x,1)))
2: (2 * (loop(\(x,i).2x,x,1) + (x mod 2)))
2: (2 * (x + loop(\(x,i).2x,x,1)))
2: (9 * (1 + loop(\(x,i).2x,x,4)))
2: (3 * (x + loop(\(x,i).2x,i,1)))
2: ((x + 1) * (1 + loop(\(x,i).(if x <= 0 then 1 else ((2x * (~1 + (2 * i))) mod (1 + i))),x,0)))
2: (2 * (x + loop(\(x,i).i,(~2 + (x div 3)),1)))
2: (3 * (x + loop(\(x,i).i,(x + ~9),1)))
2: (2 * (1 + loop(\(x,i).compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x),1,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))))
2: (x2 + x + ~2)
2: ((x + i) * (1 + i))
2: ((x + i) * (2 + i))
2: ((x + ~1) * (x + i))
2: (2 * (2 + compr(\x.((~x + 1) + (23 * loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x))),x)))
2: (2 * (1 + compr(\x.(1 - (x mod (2 + ((1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)) mod (x + 1))))),(x + 1))))
2: (2 * (1 + compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),(x + 1))))
2: (2 * (2 + compr(\x.(2 - loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x)),x)))
2: (2 * (1 + compr(\x.(loop(\(x,i).(1 + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,2x)),2,x) mod (x + 1)),x)))
2: (x * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)))
2: (5 * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
2: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) * (2 + (x mod 2)))
2: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x)))
2: (x * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
2: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i)) * (1 + (2 * i)))
2: (2 * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,(loop(\(x,i).(2 * (x - i)),x,2) mod (x + 1))) mod (x + 1)),x)))
2: (3 * (1 + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x)))
2: (2 * (1 + compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),x,(~4x + 1)),x)))
2: (2 * (1 + compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(11x + 8)),x)))
2: (2 * (1 + compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(x2 + 3x)),x)))
2: (2 * (1 + compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,(x + 2)),1,3x),x)))
2: (11x2 + 7x)
2: (~7 * (x div 2))
2: (~7 * (x div ~2))
2: (~11x + ~11)
2: (x * (1 - (x * (1 + (2 * i)))))
2: (~8x + 2)
2: (~12x + 3)
2: ((1 - (2 * ((x div 2) mod 2))) * (1 - ((x div 2) mod 3)))
2: ((1 - (2 * (x mod 2))) * (1 + (x div 3)))
2: ((1 - (2 * (i mod 2))) * (1 + i))
2: ((~x2 + 1) * (x div 4))
2: (2 * (1 - ((~x + 2) div (2 - (x div ~4)))))
2: (2 * (1 - ((~x + (x mod 2)) div 5)))
2: (3 * (1 - ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)))
2: ((1 - ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)) * (if x <= 0 then 1 else 2))
2: ((1 - (x div 2)) * (x div 4))
2: (2 * (1 - (x div 4)))
2: ((1 - (x div ~4)) * (x div 4))
2: (2 * (1 - (x div (~2 + ((~x + 2) div 4)))))
2: (2 * (1 - (x mod (1 - ((2 - (2x mod (4 + (x div 4)))) mod (x + 1))))))
2: (7 * (1 - (if (2 - (x div 4)) <= 0 then (x mod 8) else 1)))
2: ((x + 1) * (1 - i))
2: (~x4 + 3x2)
2: (2 * (3 - ((x div 3) mod 2)))
2: (11x2 + 2x)
2: (6x2 + ~2x + 4)
2: (~2x3 + 4x)
2: (2 * (2 - (2 div (1 + (x div 4)))))
2: (3 * (2 - ((~x + 2) div (2 - (x div ~4)))))
2: (2 * (2 - ((~x + (2 div (x + 1))) div 5)))
2: (2 * (2 - (((x mod 2) - (x div 2)) div 2)))
2: ((2 - ((x + ~1) div 2)) * (x div 5))
2: (2 * (2 - (x div 2)))
2: (3 * (2 - (x div 2)))
2: ((x + 1) * (2 - (x div 2)))
2: ((2 - (x div 2)) * (x div 2))
2: ((2 - (x div 2)) * (x div 4))
2: ((2 - (x div 3)) * (x div 3))
2: (x * (2 - (x div ~2)))
2: ((x + 2) * (2 - (x div ~4)))
2: (2 * (2 - (x div (~1 + ((~x + 2) div 4)))))
2: (7 * (2 - ((x div 2) mod 2)))
2: ((x + 2) * (2 - ((x div 2) mod 2)))
2: (2 * (2 - ((x div ~2) mod 2)))
2: (2 * (2 - ((x mod 3) mod 2)))
2: (5 * (2 - ((if x <= 0 then 1 else x) mod 2)))
2: ((2x + 1) * (2 - (x mod 2)))
2: ((2 - (x mod 2)) * (x mod 4))
2: (3 * (2 - (x mod 4)))
2: ((2 - (x mod 4)) * (x mod 2))
2: (x * (2 - (x mod 4)))
2: (x * (2 - (x mod 5)))
2: (2 * (2 - (x mod ~7)))
2: (2 * (2 - (x mod 8)))
2: (x * (2 - (i mod 2)))
2: ((2 - i) * i)
2: (2x2 + 14x + 34)
2: (x2 + 15x)
2: (x2 + 31x)
2: (2 * (2x + (x div 2) - (x mod 6)))
2: (~4x + ~4)
2: (~3x + ~3)
2: (~5x + ~5)
2: (~6x2 + 5x + ~1)
2: (2 * ((12x + 11) - (x mod 3)))
2: (2 * (2x - (((x div 2) mod 3) + (x mod 2))))
2: (((~x + ~1) + (x mod 2)) * (x div 2))
2: (5 * ((~x + ~2) + (x mod 2)))
2: (2 * (~4 + loop(\(x,i).10x,(x + 1),1)))
2: (2 * ((x + ~2) - ((~2x3 + 6x2 + ~4x) div 3)))
2: (9x + ~3)
2: (6x + ~4)
2: (9x + ~6)
2: ((~2 + (3 * i)) * i)
2: (x * (7 - i))
2: (2 * (8 - ((x + ~2) div (2 + (x mod 2)))))
2: (5 * (8 - (x div 2)))
2: (25x + ~5)
2: (x3 + 5x2 + ~2x)
2: (3x2 + 17x)
2: (2x2 + 16x + 18)
2: (x3 + 3x2 + ~2x)
2: (2x2 + 10x + 6)
2: (2 * (7x - (x div 3)))
2: (9x2 + 5x)
2: (2 * (~1 + (2 * (x + (i mod 2)))))
2: (2 * ((2x + 2) - (x mod 3)))
2: (2 * ((2x + 4) - ((1 - (x div 2)) div 5)))
2: (2 * ((2x + 4) - ((~x + 2) div (2 + (x div 4)))))
2: (3x2 + 5x)
2: (5x2 + 15x + 5)
2: (x3 + 3x2 + x)
2: (x3 + 7x2 + 15x + 9)
2: (2x2 + 4x + ~2)
2: (2 * ((x2 + 2x) - (x div 2)))
2: ((~1 + ((2 + i) * i)) * i)
2: (~8x + 6)
2: (~4x2 + 4x + ~2)
2: (~3x2 + 3x + ~6)
2: (~3x2 + 4x)
2: ((~x2 + 2x + ~2) * (x div 2))
2: (2 * ((2 * ((2 * (2x - (x mod 8))) - (x mod 4))) - (x mod 2)))
2: (3 * ((2 * ((2 * (2x - (x mod 8))) - (x mod 4))) - (x mod 2)))
2: (x4 + ~x3 + ~x2 + ~x)
2: (31x2 + ~x)
2: (2x2 + ~2x + ~2)
2: (2x2 + ~5x)
2: (x3 + ~3x2 + ~x)
2: (9x2 + ~2x)
2: (23x + 23)
2: (7x2 + 8x)
2: (5x3 + ~3x)
2: (11x2 + 19x + 8)
2: (6x2 + 5x)
2: (6x2 + 6x + ~2)
2: (3x3 + 3x2 + ~2x)
2: (8x + 14)
2: (4x2 + 12x + 6)
2: (4x2 + 14x + 16)
2: (16x2 + ~5x)
2: (~2x + 64)
2: 94
2: (16x3 + 48x2 + 47x + 15)
2: (64x + 62)
2: (16x2 + ~x)
2: (2 * (8x - (x div 2)))
2: (2 * (8x - (x div (if i <= 0 then 1 else i))))
2: (x * (~1 + (4x * (1 + i))))
2: (8x2 + ~6x + 1)
2: (2 * ((4x + 1) - loop(\(x,i).(x + (if (~2 + (x div 4)) <= 0 then 1 else 2)),2,x)))
2: (2 * (4x - ((x + ((x + (x div 3)) mod 3)) div 3)))
2: (2 * (4x - ((x + ((x div 3) mod 3)) div 3)))
2: (2 * (4x - (x div 7)))
2: (2 * (4x - (x div (if i <= 0 then 1 else i))))
2: (2 * (4x - (x mod 2)))
2: (2 * (6x - (x div 2)))
2: (3x3 + ~x)
2: (12x2 + ~4x)
2: (2x2 + 3x + ~2)
2: (2x2 + ~3x + 1)
2: (2 * (2x - ((~x + 3) div 7)))
2: (2 * (2x - ((~x + 2) div 5)))
2: (2 * (2x - ((~x + ((x div 2) mod 4)) div 4)))
2: (2 * (2x - ((~x + ((x div 3) mod 3)) div 3)))
2: (2 * (2x - (((2 - (x div 2)) div 2) div 2)))
2: (2 * (2x - (x div ~7)))
2: (8 * (2x - (x div (if i <= 0 then 1 else i))))
2: (2 * (2x - ((x div 2) mod 2)))
2: (5 * (2x - ((x div 2) mod 3)))
2: (3 * (2x - (x mod 2)))
2: (3 * (2x - (x mod 4)))
2: (2 * (2x - (x mod ~3)))
2: (5x2 + ~5)
2: (x3 + ~x2 + ~x + 1)
2: ((x + 4) * (x2 - (x div 2)))
2: (x * (x2 - (x div 2)))
2: (2 * (~1 + (2 * i)))
2: ((~1 + (i * i)) * (2 + i))
2: ((~1 + (i * i)) * i)
2: (3 * (~1 + ((x + (x div 2)) div 4)))
2: (2 * (((1 + (8 mod (1 + (x div 2)))) div 2) - (x mod 2)))
2: (x * (~1 + ((~x + 2) div 3)))
2: (2 * (~x + ((x + ~2) div 3)))
2: (2 * (~x + ((x - (((x + ~1) div 2) mod (1 + ((1 + (x div 2)) div 3)))) div 2)))
2: (2 * (~x + ((2x + 2) div 7)))
2: (2 * ((~2x + ~2) + ((~2x + 2) div 5)))
2: (3 * (~x + ((~2x + 2) div 5)))
2: (2 * (~x + ((2 * (~2 + (x div 2))) div 5)))
2: (2 * (~1 + ((3 * compr(\x.(1 - (x mod (2 + ((1 + ((x - ((x div 2) mod 2)) div 2)) mod 5)))),x)) div 2)))
2: ((~1 + (x div 2)) * (x div 3))
2: (3 * (~2 + (x div 2)))
2: ((x + 2) * (~2 + (x div 2)))
2: (2 * (~8 + (x div 2)))
2: (((~2x + ~4) + (x div 2)) * (1 + (x div 2)))
2: (5 * (~2x + (x div 2)))
2: ((~2x + (x div 2)) * (1 + (x div 2)))
2: (3 * ((x div 2) - ((x mod 3) div 2)))
2: (2 * ((x div 2) - (x mod 4)))
2: (2 * (~1 + (x div 3)))
2: ((~1 + (x div 3)) * (x div 3))
2: (2 * ((x div 4) - (x mod 2)))
2: (2 * (~x + (x div 4)))
2: (3 * (~x + (x div 5)))
2: (4 * (~x + (x div 5)))
2: (2 * (~x + (x div 9)))
2: (x * (~2 + (x div ~2)))
2: (2 * (~x + (x div 8)))
2: (2 * (~1 + ((x + (if (x mod 2) <= 0 then 2 else x)) mod 3)))
2: (2 * (~1 + ((x2 + x) mod 5)))
2: (3 * ((~2x + ~2) + (x mod 2)))
2: ((x + 1) * ((x mod 2) - ((x2 + 2x) div ~2)))
2: (2x * (~x + (x mod 2)))
2: ((x + 1) * (~1 + (x mod 4)))
2: (2 * (~1 + (x mod (3 - (x mod 2)))))
2: (2 * (~x + (x mod 8)))
2: (4 * (~x + (x mod 8)))
2: (3 * (~x + (x mod 10)))
2: (4 * (~x + (i mod 2)))
2: (4 * ((if x <= 0 then 1 else 2x) - (x div (if i <= 0 then 1 else i))))
2: (2 * (loop(\(x,i).3x,x,2) - loop(\(x,i).2x,x,2)))
2: (x * (~2 + loop(\(x,i).(x2 + 4x + 4),2,2)))
2: (x * (~2 + loop(\(x,i).(x2 + 2x),2,2)))
2: (2 * (~1 + loop(\(x,i).(2 * (x + i)),x,2)))
2: (2 * (~2 + loop(\(x,i).10x,(x + 1),1)))
2: (3 * (~2 + loop(\(x,i).10x,(x + 1),1)))
2: (5 * (~2 + loop(\(x,i).10x,(x + 1),1)))
2: (x * (~1 + loop(\(x,i).(x3 + 7x2 + 14x + 8),1,x2)))
2: (x3 + ~3x2)
2: (x2 + ~6x + 8)
2: (x2 + ~5x)
2: (2 * ((x + ~4) - (x div 4)))
2: (x2 + 23x)
2: (19x2 + 11x)
2: (2 * ((x + ~1) + (2 * (i mod 2))))
2: (2x + ~30)
2: (2 * ((x + 1) - ((2 + (x2 div 2)) div (x + 3))))
2: (2 * ((x + 1) - (((~x + 1) - ((x div 3) mod 3)) div 3)))
2: (2 * ((x + 1) - ((2 * (((x + 1) div 2) div 2)) div 3)))
2: (2 * ((x + 1) - (((~x2 + x) div 2) div 5)))
2: (((5x + 2) - (x div 2)) * ((x + 1) div 2))
2: (2 * ((x + 1) - (x div ~2)))
2: (2 * ((x + 2) - (x div ~2)))
2: (2 * ((x + 1) - (x div ~5)))
2: (3 * ((x + 1) - (x div ~6)))
2: (x * ((x + 1) - ((x div 2) mod 2)))
2: ((x + 1) * ((x + 1) - (loop(\(x,i).(x * i),x,1) mod (x + 1))))
2: (2 * ((x + 1) - (x mod (x - ((x + ~1) mod 8)))))
2: (2 * ((x + 1) - (i mod 2)))
2: (2 * ((x + 2) - (i mod 2)))
2: (x2 + ~6x + ~16)
2: (x2 + ~12x + 32)
2: (~3x2 + ~4x)
2: (x2 + 21x)
2: (7x2 + ~4x)
2: (2 * (x - (2 * ((~x + ~2) + (x mod 2)))))
2: (~7x2 + 2x)
2: (2 * (x - (2 * ((~2x + ~1) + ((x - (x div 4)) div 2)))))
2: (2 * (x - (2 * (~x + (x div 3)))))
2: (2 * (x - (2 * (~2x + (x mod 2)))))
2: (2 * (x - (2 * (~1 + (x mod 3)))))
2: (21x + ~18)
2: (7x2 + x + ~6)
2: (13x2 + ~12x)
2: ~21x
2: (~6x2 + 2x)
2: ((x + 1) * (x - (2 * ((x + (x div 4)) div ~2))))
2: (3 * (x - (9 * ((~x2 + x) div 2))))
2: ((x - (5 * (x div ~2))) * (1 + (x div 2)))
2: (2 * (x - (2 * (x div ~3))))
2: (2 * (x - (2 * (i mod 2))))
2: (2 * (x - (2 div (~8 + (x div 2)))))
2: (2 * (x - (2 div (x + ~16))))
2: (2 * (x - ((1 + (x div 2)) div 2)))
2: (2 * (x - ((~x + 1) div 5)))
2: (2 * (x - ((2 - (x div 2)) div (x + 2))))
2: (2 * (x - ((~x + 2) div 5)))
2: (3 * (x - ((~1 + (2 * ((~x + 2) div 4))) div 3)))
2: (2 * (x - ((~1 + (2 * (x div 2))) div 5)))
2: (2 * (x - ((x + ~1) div (3 + (x div 2)))))
2: (2 * (x - ((x - (x div 3)) div 3)))
2: (2 * (x - ((2x + 2) div 7)))
2: (2 * (x - ((x * (2 - i)) div (1 + i))))
2: (3 * (x - (2x div 5)))
2: (2 * (x - (x2 div (x - ((~x + 2) div 2)))))
2: (2 * (x - (((2 - (x div 2)) div 2) div 2)))
2: (2 * (x - (((~x + 2) div 2) div 3)))
2: (2 * (x - ((((x * ((1 - (x div 2)) div 3)) div 2) div 2) div 2)))
2: (2 * (x - ((x div 2) div 5)))
2: (2 * (x - ((x mod (2 + (6 mod (1 + (x div 2))))) div 2)))
2: (3 * (x - ((if x <= 0 then 1 else x) div ~7)))
2: ((x - (x div 3)) * ((x + 1) div 2))
2: (x * (x - (x div (~2 + (x mod 2)))))
2: (2 * (x - (((x div 2) - ((~1 + (x div 4)) div 2)) mod 2)))
2: (2 * (x - (((x + 1) div 2) mod 3)))
2: ((x - ((x div 2) mod 2)) * (1 + (x div 2)))
2: (2 * (x - (x mod 8)))
2: (2 * (x - (x mod 10)))
2: (3 * (x - (i mod 2)))
2: ((x - (i mod 2)) * i)
2: (2 * (x - (if (i mod 2) <= 0 then 2 else ~2)))
2: (2 * (x - (if (i mod 4) <= 0 then 2 else 0)))
2: (3 * (x - loop(\(x,i).(x div (1 + (x mod 2))),x,x)))
2: ((x + 2) * (x - i))
2: ((x - i) * i)
2: ((~2 + i) * i)
2: (2 * (~2x + i))
2: (x * (i - (i div ~2)))
2: (2 * (compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
2: (8x + 24)
2: (16x + ~8)
2: (8 * (~1 + i))
2: (8x2 + 12x + 4)
2: ~16
2: (~8x + ~8)
2: (20x + ~20)
2: 90
2: (x3 + 9x2 + 14x)
2: (~2x2 + ~8x + 10)
2: (4x + 24)
2: (6x + 36)
2: (x3 + 6x2)
2: (6 * ((x + 2) + (3 * (x div 2))))
2: (4 * (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) + ((2x + 1) div (3 + (x div 4))))))
2: (3 * (((x + 1) + (x div 2)) * ((x + 1) div 2)))
2: (4 * ((x + 2) + (x div 2)))
2: (4 * ((x + 1) + (x div 5)))
2: (4 * ((x + 1) + (if (x + ~4) <= 0 then 1 else 2)))
2: (4x + 12)
2: (2x2 + 12x + 16)
2: (x3 + 5x2 + 4x)
2: (2x * (3 + i))
2: 7x3
2: (6x3 + 11x2 + 6x + 1)
2: (30x + 20)
2: (6x2 + 10x + 4)
2: (9x2 + 15x + 6)
2: (6x2 + 16x + 8)
2: (12x2 + 8x)
2: (15x2 + 10x)
2: (3x3 + 2x2)
2: 52
2: 26x2
2: (4x3 + 9x2 + 5x)
2: (20x + 16)
2: (30x + 24)
2: (50x + 40)
2: (10x3 + 3x2 + ~4x)
2: (5x3 + 9x2 + 4x)
2: (5x3 + 21x2 + 28x + 12)
2: (30x + 6)
2: (50x + 10)
2: (50x + 20)
2: (3x4 + 7x3 + 6x2 + 2x)
2: (6 * (1 + ((x + 1) * (1 + loop(\(x,i).(x * (x + i)),2,4)))))
2: (2x3 + 7x2 + 6x)
2: (2x3 + 3x2)
2: (2x3 + 9x2 + 10x)
2: (4x2 + 16x + 20)
2: (2x3 + 6x2 + 8x + 4)
2: (4x2 + 8x + 12)
2: (2x * (1 + (2 * (1 + i))))
2: (2x * ((1 + (2 * (1 + i))) * i))
2: (x * ((1 + (2 * (1 + i))) * i))
2: (x5 + ~x3 + x2)
2: (6 * (1 + (2 * (x - (x div ~2)))))
2: 19x2
2: 68x
2: 34x2
2: (x3 + 19x2 + 50x + 32)
2: (18x2 + 34x + 16)
2: (9x3 + 31x2 + 30x + 8)
2: (18x2 + 18x + 6)
2: (20x2 + 20x + 4)
2: 66x
2: 99x
2: (49x2 + 49x)
2: (32x + 4)
2: (x8 + x3)
2: (x7 + x2)
2: (12x2 + 3x)
2: (24x + 4)
2: (24x + 8)
2: (18x2 + 6x)
2: (x7 + x5 + x3 + x)
2: (x8 + x7 + x6 + x5 + x4 + x3 + x2 + x)
2: (4 * (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (if (x mod 3) <= 0 then 2 else 1))))
2: (4x * (1 + (2 * (i div 2))))
2: (6 * (1 + (2 * (x mod 2))))
2: (16x2 + 12x + 2)
2: (8x2 + 8x + 2)
2: (18x + 9)
2: (54x + 27)
2: (6x2 + 15x + 6)
2: (10x2 + 5x)
2: (4x3 + 4x2 + x)
2: (x5 + 3x3 + 2x)
2: (x4 + 3x2)
2: (x4 + 4x2)
2: (5x * (1 + (2 * i)))
2: (x * ((1 + (2 * i)) * (1 + (2 * i))))
2: (x2 * (1 + (2 * i)))
2: ((1 + (i * i)) * i * i)
2: (2x * (2 + (2 div (x + 1))))
2: (2x * (x + ((x3 + 2x) div 3)))
2: (4 * (2x + (14x div (1 + i))))
2: (4 * (1 + ((32 mod (x + 1)) div 2)))
2: (4 * (2 + ((x mod 3) div 2)))
2: (4 * (1 + (x div 2)))
2: (4 * (2 + (x div 2)))
2: (4 * (1 + (x div 3)))
2: (6 * (x + (x div 4)))
2: (4 * (1 + (x div 5)))
2: (6 * (1 + (x div (3 + ((~1 + loop(\(x,i).(if x <= 0 then i else (x div 2)),x,2)) mod (x + 1))))))
2: (4 * (2x + (x div (if i <= 0 then 1 else i))))
2: (6 * (1 + (((x2 + 2x) div 2) mod (1 + ((1 + (x div 2)) div 3)))))
2: (4 * (2 + ((x div 2) mod 2)))
2: (3x * (x + (x mod 2)))
2: (x * ((1 + (i mod 2)) * i))
2: (4 * (1 + (if (~2 + (x div 3)) <= 0 then x else (x + 2))))
2: (2 * ((1 + (if (x mod 2) <= 0 then 4 else 0)) * (if x <= 0 then 1 else 2)))
2: (4 * (1 + loop(\(x,i).(x + 1),(~4 + ((x + ((x div 2) mod 2)) div 2)),x)))
2: (8 * (x + loop(\(x,i).(x - ((~1 + (x div 4)) div 2)),2,(x + ~1))))
2: (2x2 + 10x + 12)
2: (x3 + 4x2 + 5x + 2)
2: (x4 + 6x3 + 13x2 + 12x + 4)
2: (8x2 + 32x + 32)
2: ((x2 + 2x) * (2 + i))
2: (2x3 + 3x2 + ~2x)
2: (x4 + 2x3 + ~x2 + ~2x)
2: (x * ((1 + i) * (1 + (2 * i))))
2: ((x2 + x) * (1 + i))
2: (2 * ((2 + i) * (~1 + i)))
2: (5x * (2 + i))
2: (x * ((2 + i) * (2 + i)))
2: (8 * (x + i))
2: ((3x + 6) * (x + i))
2: ((x + 2) * ((x + i) * i))
2: (8 * (1 + compr(\x.(1 + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then x else (1 + i))),x,x)),x)))
2: (4 * (1 + compr(\x.(loop(\(x,i).(1 + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,2x)),2,x) mod (x + 1)),x)))
2: (4 * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
2: ~10x
2: (~x2 * (2 + (x div 2)))
2: (~21 * (1 + (x div 3)))
2: ((x2 + 3x + 2) * (1 - (2 * (x mod 2))))
2: ((1 - (2 * (i mod 2))) * i * i * i)
2: (~12x + 6)
2: (6 * (1 - ((~x + 2) div 12)))
2: (~14x2 + 14x)
2: (~5x2 + 5x)
2: (~x3 + 2x2 + ~x)
2: (~4x + 72)
2: (4 * (2 - (((x mod 2) - (x div 2)) div 2)))
2: ((2x + 2) * (2 - (x mod 2)))
2: (3 * ((2 - (x mod 2)) * (if x <= 0 then 1 else 2)))
2: (2x * (2 - (x mod 2)))
2: (3x * (2 - (x mod 2)))
2: ((x2 + x) * (2 - (x mod 2)))
2: (~6x + 12)
2: (~9x + 18)
2: (~x4 + 2x3 + ~x2 + 2x)
2: (~x3 + 4x2 + ~4x)
2: (4 * ((x + 2) - ((x + 1) div (if x <= 0 then 1 else (2 * (1 + ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 2)))))))
2: (x2 * ((x + ~1) + i))
2: (~9x2 + 6x)
2: (~15x2 + 10x)
2: (4 * ((~x + ~2) + (x mod 2)))
2: (4 * (~3 + loop(\(x,i).10x,(x + 1),1)))
2: (6x2 + ~4x)
2: (9x2 + ~6x)
2: (12x2 + ~8x)
2: (22 * (if x <= 0 then 1 else 2))
2: 55x
2: 22x2
2: (16x + 12)
2: (8x2 + 6x)
2: (12x2 + 9x)
2: (x5 + x3 + ~x2)
2: (4 * ((2x + 2) - (x mod 3)))
2: (6x2 + 12x + ~6)
2: (x2 * (~1 + (3 * (2 + i))))
2: (~24x + 18)
2: (23x2 + 23x)
2: (32x + 28)
2: (7x3 + 15x2 + 8x)
2: (8x2 + 24x + 12)
2: 62x
2: 93x
2: 31x2
2: (16x + ~4)
2: (8x2 + ~2x)
2: (12x2 + ~3x)
2: (4x3 + 3x2 + ~x)
2: (12x2 + ~2x)
2: (12x2 + ~6)
2: (18x2 + ~6x)
2: (8x3 + ~2x)
2: (8x2 + ~8x + 2)
2: (10x2 + ~5x)
2: (4 * (2x - (x div 3)))
2: (6 * (2x - (x div (if i <= 0 then 1 else i))))
2: (2 * ((2x - (x div (if i <= 0 then 1 else i))) * (~1 + (2 * i))))
2: (6 * (2x - (x mod 2)))
2: (4 * (2x - (x mod 4)))
2: (4 * (2x - (x mod ~3)))
2: (9x2 + ~18)
2: (x4 + ~2x2)
2: (4 * (~1 + (2 * i)))
2: ((~1 + (2 * i)) * i * i)
2: ((~1 + (i * i)) * i * i)
2: (4 * ((x div 2) - (2 * ((x div 4) mod 2))))
2: (4 * (~2x + (x div 2)))
2: (6 * (~2 + (x mod 2)))
2: (2x * (~2 + (i mod 2)))
2: (4 * (~1 + loop(\(x,i).10x,x,2)))
2: (4 * (~2 + loop(\(x,i).10x,x,2)))
2: (2x2 + ~4x + 2)
2: (2x3 + ~3x2 + x)
2: (x3 + ~3x2 + 4)
2: (5x2 + ~10x)
2: (2x3 + ~3x2 + ~2x)
2: (x3 + ~x2 + ~2x)
2: ((x2 + ~2x) * i)
2: (5x3 + ~3x2)
2: (4 * ((x + 1) - (2 * (i mod 2))))
2: (10x + ~60)
2: (10x + ~80)
2: ~21x2
2: (4 * (x - (2x * i)))
2: (4 * (x - ((~x + 1) div 3)))
2: (4 * (x - ((~x + 1) div 5)))
2: (6 * (x - ((~x + 2) div 4)))
2: (4 * (x - (x div ~4)))
2: (10 * (x - (i mod 2)))
2: 112
2: (32x + 16)
2: (16 * (if x <= 0 then 1 else 2))
2: (16x2 + 24x + 8)
2: (24 * (if x <= 0 then 1 else 2))
2: (8 * ((x + 1) + (x div 2)))
2: (24x + 16)
2: (60x + 24)
2: (16x2 + 16x + 4)
2: (12x2 + 6x)
2: (x5 + ~x4 + x3 + ~x2)
2: ((6x + 6) * (1 + (if (~x + 4) <= 0 then 16 else 1)))
2: (16 * (x + loop(\(x,i).(x - ((~1 + (x div 4)) div 2)),2,(x + ~1))))
2: (8 * (2 + loop(\(x,i).2x,x,2)))
2: (10x2 + 20x + 10)
2: (14x2 + 28x + 14)
2: (18x2 + 36x + 18)
2: (15x2 + 15x)
2: (3x3 + 6x2 + 3x)
2: (8x2 + 28x + 24)
2: (6x2 + 18x + 12)
2: (9x2 + 18x)
2: (x4 + 5x3 + 8x2 + 4x)
2: (8x3 + 24x2 + 16x)
2: ((x3 + 6x2 + 11x + 6) * (1 - (2 * (x mod 2))))
2: (~16x + 16)
2: (~x5 + x4 + x3 + x2 + 2x)
2: (64x + 56)
2: (20x2 + ~10x)
2: (x6 + ~2x4 + x2)
2: (10x * (~1 + (2 * i)))
2: (8 * ((x div 9) - (x mod (x - ((x + ~1) mod 8)))))
2: (8x + ~16)
2: (8 * (x - (x div ~2)))
2: (32 * (x + loop(\(x,i).(x - ((~1 + (x div 4)) div 2)),2,(x + ~1))))
2: 96x
2: 64x2
2: (16x2 + 16x)
2: 48x2
2: (4x4 + 12x3 + 8x2)
2: 56x
2: (16x2 + 8x)
2: (16x2 + ~8x)
2: (20x2 + 20x)
2: (24x2 + ~12x)
2: 30x2
2: (2x4 + 4x3 + 2x2)
2: 60x2
2: (x5 + ~2x4 + x3)
2: 9x5
2: (x7 + x5)
2: (x6 + x5)
2: (8 * (2 div (6 - (x div 3))))
2: (8 * ((1 + (4 * (x + (if (x + ~4) <= 0 then 1 else 2)))) div 3))
2: (8 * ((4 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2)) div 3))
2: (8 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2))
2: (8 * ((x div 2) mod 2))
2: (8 * ((2x mod (1 + (x div 4))) mod 2))
2: (8 * (x mod 4))
2: (4x * (1 + (2 * i)))
2: (4x3 + ~4x)
2: 54x
2: (12x2 + 18x)
2: (24x2 + 6x)
2: (14x2 + 14x)
2: (18x2 + 18x)
2: (4x3 + 2x2)
2: 27x2
2: 36x2
2: (4x4 + ~4x2)
2: (x4 + x3 + ~2x2)
2: 10x3
2: (x5 + x4)
2: (2x4 + x3)
2: (x4 + 2x3)
2: (~x4 + x3)
2: (2x4 + ~x3)
2: (6x * i)
2: (2x * (i * (~1 + (2 * i))))
2: (x * (i * (2 + i) * (1 + i)))
2: (x4 * i)
2: (4 * (2 div (6 - (x div 3))))
2: (4 * ((1 + (4 * (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (if (x mod 3) <= 0 then 2 else 1))))) div 3))
2: (4 * ((1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + ~1) div 2))) div 2))
2: (4 * ((2 + (x div 2)) div 3))
2: (9 * ((x + 1) div 2))
2: (x * (((1 + i) div 2) * i))
2: (4 * ((x - (x div 3)) div 3))
2: (4 * ((3 * (x + (if (~x + 2) <= 0 then (2 + (x div 4)) else 1))) div 2))
2: (4 * ((2 * (2 + (if x <= 0 then 0 else (2 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))))) div 3))
2: (15 * ((x2 + x) div 2))
2: (25 * ((x2 + x) div 2))
2: (4 * ((2x * (1 + (2 * i))) div (2 + i)))
2: (4 * ((4 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2)) div 3))
2: (4 * ((x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) div 5))
2: (4 * ((x * i) div 2))
2: (4 * (((x + 1) div 2) div 3))
2: (4 * (((3 * (x + (x div 8))) div 2) div 2))
2: (2 * (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)))
2: (2x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2))
2: (4 * ((x mod (1 + (x div 2))) div 2))
2: (4 * ((x mod (~1 + (2 * ((x + ~1) div 3)))) div 2))
2: (9 * (x div 2))
2: ((x2 + x) * (x div 2))
2: ((x2 + ~x) * (x div 2))
2: (x * ((x div 2) * (x div 2)))
2: ((x + ~2) * ((x div 3) * (1 - (x div 2))))
2: ((x + ~2) * ((x div 3) * ((~x + 2) div 2)))
2: (6 * (x div 4))
2: (6 * (x div 8))
2: (4 * (x div (4 * (8 - (x div 2)))))
2: (6 * (2 mod (1 + (x div 4))))
2: (4 * ((x * (x div 2)) mod 2))
2: (6 * (2x mod 3))
2: (4 * ((x div 4) mod 2))
2: (4 * ((2x mod (1 + (x div 4))) mod 2))
2: (4 * (loop(\(x,i).2x,x,x) mod (x + 1)))
2: (9 * (x mod 2))
2: (2 * ((x mod 3) * (x mod 3)))
2: (4 * (x mod (x - ((x + ~1) mod 8))))
2: (6 * (x mod 6))
2: (4 * (if (2 - (x div 4)) <= 0 then 8 else (x + 1)))
2: (4 * (if (~x + 2) <= 0 then x else 2))
2: (4 * (if (~4 + (x div 2)) <= 0 then x else (x + 2)))
2: (4 * (if (~2 + (x div 3)) <= 0 then 0 else 2))
2: (4 * (if (x + ~1) <= 0 then x else 2))
2: (2 * ((if (x mod 2) <= 0 then 12 else 1) * (if x <= 0 then 1 else 2)))
2: (6 * (if (x mod 2) <= 0 then (2 * (2 + (if x <= 0 then 0 else 2))) else 1))
2: (2 * ((if (x mod 3) <= 0 then (5 * (if x <= 0 then 1 else 2)) else 1) * (2 - (x mod 2))))
2: (4 * (if (x mod 4) <= 0 then 4 else 1))
2: (2 * ((if (x mod 4) <= 0 then 8 else 1) * (if x <= 0 then 1 else 2)))
2: (8 * (if x <= 0 then 1 else x))
2: (4 * loop(\(x,i).(10x + 1),x,loop(\(x,i).(10x + 10),x,0)))
2: (2x * loop(\(x,i).(x2 + 2),2,2))
2: (6 * loop(\(x,i).(x * (5 + i)),x,2))
2: (4 * loop(\(x,i).(10x + 2),(x div 2),(x mod 2)))
2: (2x * loop(\(x,i).(4x + 2),4,2))
2: (x2 * loop(\(x,i).(x2 + x),2,2))
2: (4 * loop(\(x,i).(2x + 4),x,4))
2: (x2 * loop(\(x,i).(x2 + 4x + 4),2,1))
2: ((3x + 3) * loop(\(x,i).(x2 + 2x),2,6))
2: ((x2 + x) * loop(\(x,i).(x7 + x6 + x5 + x4 + x3 + x2 + x + 1),1,x2))
2: (x2 * loop(\(x,i).x2,2,3))
2: (2x * loop(\(x,i).x2,2,2x))
2: ((x2 + 5x + 6) * loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x + 2),(x + 1)))
2: (3 * (i * i))
2: (x2 * (i * i))
2: (2 * (i * i * i))
2: ((1 div ((2x + ~1) mod (4 + (x div 4)))) * (1 + ((1 + (x div 2)) div 2)))
2: ((2 div (~x + 16)) * (x div 3))
2: (2 * (2 div (~8 + (x div 2))))
2: (3 * (((5x + 5) + ((x div 2) div 3)) div 2))
2: (3 * ((x + (2 * (x + (x2 div (x + 17))))) div 3))
2: (x * ((x2 + x + 1) div 3))
2: (3 * (((x * (1 - ((x3 div 8) mod 2))) + (x mod 2)) div 3))
2: (2 * ((1 + (4 * (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (if (x mod 3) <= 0 then 2 else 1))))) div 3))
2: (2 * ((1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + ~1) div 2))) div 2))
2: (3 * ((1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((3 * ((~x + 2) div 2)) div 2))) div 2))
2: (2 * ((1 + (7 * (loop(\(x,i).2x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2))) div 3))
2: (2 * ((2x + 1) div (3 + ((~2x + 2) mod (4 + (x div 4))))))
2: (x * ((x2 + 1) div 2))
2: (2 * ((x2 + 2) div (x + 2)))
2: (((x2 + 2) div (x + 2)) * (if x <= 0 then 1 else 2))
2: (2 * ((x2 + (x div 2)) div 7))
2: (2 * ((1 + ((1 + ((32 mod (x + 1)) div 2)) div 2)) div 2))
2: (2 * ((1 + ((x2 + x) div 2)) div 2))
2: (2 * ((1 + ((x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) div 2)) div 2))
2: (2 * ((x + ((x div 2) div 3)) div ~2))
2: (2 * ((1 + (loop(\(x,i).(4x + ~2),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2)) div 3))
2: ((x + 1) * ((1 + (x div 2)) div 3))
2: (3 * ((1 + (x div 2)) div (3 + (x mod 2))))
2: (3 * ((x + (x div 2)) div 4))
2: (x * ((1 + (x div 3)) div 2))
2: (2 * ((1 + (x div 3)) div 3))
2: (3 * ((1 + (x div 4)) div 2))
2: ((x + 1) * ((1 + (x div 4)) div 2))
2: (3 * ((x + (x div 4)) div ~2))
2: (2 * ((x + ((~1 + (x div 2)) mod 3)) div 2))
2: (2 * ((x + ((x + ~1) mod 3)) div 2))
2: (((1 + (8 mod (1 + (x div 2)))) div 2) * ((1 + (x mod 4)) div 2))
2: (3 * ((x + ((x div 2) mod 2)) div 2))
2: (3 * (((if (~2 + (x div 2)) <= 0 then 1 else 2) + (x div 2)) div 2))
2: (2 * ((1 + (if (~2 + (x div 2)) <= 0 then x else (x + 4))) div 3))
2: (2 * ((x + (if (~2 + (x div 4)) <= 0 then 1 else 2)) div 2))
2: (2 * ((2 + ((if ((x + ~1) mod 3) <= 0 then 1 else x) + (x mod 2))) div 3))
2: (2 * ((1 + (if (x mod 3) <= 0 then 0 else x)) div 3))
2: ((x + 2) * ((x + 1) div 2))
2: (((x + 1) div 2) * (x div 3))
2: (((x + 1) div 3) * (x div 3))
2: (3 * ((x + 1) div 5))
2: (((x + 1) div 5) * (x div 3))
2: (2 * ((x + 1) div (3 - (x mod 2))))
2: (3 * ((x + 1) div 7))
2: (((x + 2) div 3) * ((x + ~1) div 2))
2: (2 * ((x + 2) div 5))
2: (2 * ((x + 2) div 7))
2: (2 * ((1 - (4 * (x + (if (x + ~4) <= 0 then 1 else 2)))) div 3))
2: (3 * ((~2x + 1) div 5))
2: (((~x + 1) div 3) * ((x + ~1) div 2))
2: (((~x + 1) div 3) * (x div 3))
2: (x * ((~x + 1) div (2 + (x div 2))))
2: (((2 - (x div 2)) div 2) * (x div 3))
2: (2 * ((2 - ((x + 1) mod (~1 + (2 * ((~x + 1) div (2 + (x div 2))))))) div 2))
2: ((x + 2) * ((2 - (2x mod (4 + (x div 4)))) div (x + 1)))
2: ((x + 1) * ((~x + 2) div 2))
2: ((x + 2) * ((~x + 2) div 2))
2: ((2x + ~1) * ((~x + 2) div 2))
2: (((~x + 2) div 2) * (x div 4))
2: (((~x + 2) div 2) * (x mod 3))
2: (((~x + 2) div 2) * i)
2: (5 * ((~x + 2) div 4))
2: (2 * (((~x + ~2) + (x mod 2)) div 3))
2: (2 * (((3 * (x + (x div 4))) - (x mod 2)) div 2))
2: ((x + 1) * ((x2 + 4x + 3) div 2))
2: (3 * ((3x2 + ~x) div 2))
2: (2 * ((x2 + ~1) div 2))
2: (x * ((~1 + (x div 2)) div 2))
2: (2 * (((x div 2) - (x * (x mod 2))) div 2))
2: (2 * ((~x + (x div 4)) div 2))
2: (2 * ((~2 + ((~2x + 2) mod (4 + (x div 4)))) div 2))
2: (2 * ((~x + ((x div 2) mod 2)) div 2))
2: (2 * ((~x + (x mod 2)) div 3))
2: (2 * ((~x + (x mod 3)) div 4))
2: (3 * ((~x + (x mod 8)) div 2))
2: ((x + ~2) * ((x + ~1) div 2))
2: (((x + ~1) div 3) * (x div ~2))
2: (2 * ((x + (3 * (if (~2 + (x div 2)) <= 0 then 1 else 2)) - (x div 2)) div 2))
2: ((x + 1) * (((x + 1) - ((x div 2) mod 2)) div 2))
2: (2 * ((x - (((x div 2) div ~2) div 2)) div 2))
2: (2 * ((x - ((x div 2) div ~2)) div 3))
2: (2 * ((x - ((x div 2) mod 4)) div 2))
2: (2 * ((x - ((x div 3) mod 3)) div 3))
2: (2 * (3x div 7))
2: (7 * ((x2 + 3x) div 2))
2: (3 * ((3x2 + 7x + 4) div 2))
2: (5 * ((3x2 + 7x + 4) div 2))
2: (2 * ((17x + 17) div 5))
2: ((x + 2) * ((x4 + 3x3 + 3x2 + 2x + 1) div 2))
2: (5 * ((x3 + x) div 2))
2: (9 * ((x3 + x) div 2))
2: ((x + 1) * ((x3 + x) div 2))
2: ((x + ~1) * ((x3 + x) div 2))
2: (3 * ((3 * (1 + ((3 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)) div 2))) div 2))
2: (2 * (((1 + ((x div 2) mod 2)) * (1 + (x div 2))) div 3))
2: (2 * ((3 * (x + (if (~x + 2) <= 0 then (2 + (x div 4)) else 1))) div 2))
2: ((x + 1) * ((2 * (2 + (if x <= 0 then 0 else (2 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))))) div 3))
2: ((x + 1) * ((x2 + x) div 2))
2: (9 * ((x2 + 3x + 2) div 2))
2: (((x2 + 3x + 2) div 2) * (1 + (x div 2)))
2: ((x + 2) * ((x2 + 4x + 4) div 2))
2: (x * ((x2 + 4x + 4) div 2))
2: (2 * ((x2 + 4x + 4) div (~x + 26)))
2: (3 * ((x2 + 2x) div 2))
2: (2 * ((x2 + 2x) div 4))
2: (3 * (((1 + i) * i) div 2))
2: ((((1 + i) * i) div 2) * (1 + i))
2: (x * (((1 - (x div 2)) * (x div 2)) div 2))
2: (2 * ((x * (1 - ((x3 div 8) mod 2))) div 3))
2: (3 * ((~2x + 2) div 5))
2: (2 * ((~2x + 2) div 9))
2: (x * ((~x2 + 2x) div 4))
2: ((x + ~1) * ((x3 + 5x2 + ~2x) div 2))
2: (3 * ((x * (~1 + (9 * i))) div (1 + i)))
2: (2 * ((2 * (4x - (x div 7))) div 3))
2: ((2x + 1) * ((x2 + ~x) div 2))
2: ((2x + ~1) * ((x2 + ~x) div 2))
2: (2 * ((3 * ((x + 1) - (x div ~6))) div 2))
2: (3 * ((12x + 12) div 5))
2: ((x + 3) * ((x3 + 19x2 + 50x + 32) div 2))
2: ((x + 3) * ((9x3 + 31x2 + 30x + 8) div 2))
2: (3 * ((2x * (1 + (2 * i))) div (2 + i)))
2: ((x + 7) * ((x3 + 3x2 + 2x) div 2))
2: ((x + 1) * ((x3 + 3x2 + 2x) div 2))
2: (5 * ((2x * (~1 + (2 * i))) div (1 + i)))
2: (7 * ((2x * (~1 + (2 * i))) div (1 + i)))
2: (2 * ((16x + 16) div 3))
2: (2 * ((8x * (~1 + (2 * i))) div (1 + i)))
2: (2 * ((8 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2)) div 3))
2: (5 * ((4x * (~1 + (2 * i))) div (1 + i)))
2: (((4x * (~1 + (2 * i))) div (1 + i)) * (~1 + (2 * i)))
2: (2 * ((4 * ((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3)) div 3))
2: (3 * ((4 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2)) div 3))
2: (2 * ((4 * (if (~4 + (x div 2)) <= 0 then x else (x + 2))) div 3))
2: (2 * (4x div (4 + (x div 2))))
2: (2 * (4x div 7))
2: ((x + 3) * ((x3 + ~x2) div 2))
2: ((x + ~1) * ((x3 + ~x2) div 2))
2: (((x * (i * (1 + i))) div 2) * (~1 + (2 * i)))
2: (2 * ((((x + ~1) div 2) * (x div 2)) div 3))
2: (2 * ((((2x * (1 + (2 * i))) div (2 + i)) * (~1 + (2 * i))) div (1 + i)))
2: (3 * ((3 * (x2 div 2)) div 5))
2: (2 * ((3 * ((x div 2) div 3)) div 2))
2: (7 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2))
2: (3 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2))
2: (((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2) * (x div 5))
2: (3 * ((x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) div 5))
2: (2 * (((x div 3) * (x div 2)) div 2))
2: (2 * ((3 * (x div 7)) div 2))
2: (x * ((3 * ((2x + 1) mod (1 + (2x mod (2 + (x div 4)))))) div 2))
2: (3 * (2x div 3))
2: (x * (2x div 5))
2: (2 * (2x div 7))
2: (3 * (2x div 7))
2: (2 * (2x div ~5))
2: ((2x div (if i <= 0 then 1 else i)) * (4 + i))
2: ((x + 2) * (x2 div 2))
2: ((x2 div 2) * ((x + 1) div 2))
2: (3 * (x2 div 3))
2: ((x + 1) * (x2 div 3))
2: ((x + ~1) * (x2 div 3))
2: ((x2 div 4) * (~1 + (x div 2)))
2: ((x + 1) * (x2 div (x + 2)))
2: (2 * (x2 div (x - ((~x + 2) div 2))))
2: (2 * (x2 div 8))
2: (3 * ((((x + 1) + (x div 2)) div 2) div 2))
2: (3 * (((x + 1) div 2) div 3))
2: (x * (((x + 1) div 2) div 3))
2: (2 * (((x + 1) div 2) div (1 + (x mod 2))))
2: (3 * (((x + ~1) div 2) div 2))
2: (~2 * (((x + ~1) div 2) div 2))
2: ((((x + ~1) div 2) div 2) * (x div 2))
2: (2 * (((x + ~1) div 2) div 3))
2: (2 * (((3 * (x + (x div 8))) div 2) div 2))
2: (3 * ((((2 - (x div 3)) * (x div 3)) div 2) div 2))
2: (2 * ((((2x * (1 + (2 * i))) div (2 + i)) div (1 + i)) * (1 + (2 * i))))
2: (5 * (((x3 + 3x2 + 2x) div 2) div 3))
2: (2 * ((((x + ~1) div 2) div 2) div 2))
2: (2 * (((x div 2) div ~2) div 2))
2: ((x + ~2) * ((x div 2) div 3))
2: (2 * ((x div 2) div (1 + (x mod (1 + (x mod (1 + ((~x + 2) mod 4))))))))
2: (2 * ((x div 2) div ~2))
2: (2 * ((x div 4) div ~2))
2: (2 * ((x div 5) div ~2))
2: (2 * ((x div (2 * (~2 + ((x * (x div 2)) mod 2)))) div 3))
2: (3 * (((1 + (x mod (1 + (x mod (2 * (2 + ((x div 2) mod 2))))))) mod (x + 1)) div 2))
2: (2 * (((0 - (x mod (1 + (2 * (x div (2 * (2 + (x mod 2)))))))) mod (x + 1)) div 3))
2: ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (x div (2 * (2 - (x mod 2))))))
2: ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (2 - ((x div 2) div ~2)))
2: ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * ((1 + (x div 2)) div 2))
2: (2 * (((~x + 2) mod (2 + (x div 2))) div 2))
2: (2 * (((~x + 2) mod (2 + (x mod 4))) div 2))
2: (2 * ((4x2 mod (2 + (x div 2))) div 2))
2: (2 * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2))
2: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (3 + (x div (1 + (x mod 5)))))
2: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 3) - (x mod (2 - ((x div 2) mod 2)))))
2: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (2 * (x div 5))))
2: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + ((x + 1) div (2 + (x mod 5)))))
2: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (2 + (x div (2 + (x mod 5)))))
2: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div (2 - ((x div 2) mod 2)))))
2: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (x + ((~x + 1) mod 4)))
2: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x mod (2 + (x mod 2)))))
2: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (~3 + (x div 2)))
2: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (~1 + (8 * ((1 + (x div 2)) div 2))))
2: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (~1 + (x div ~2)))
2: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (x - (2 * (((x + 1) div 2) div 2))))
2: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((3 * ((~x + 2) div 2)) div 2))
2: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (x div (2 - ((x div 2) mod 2))))
2: (2 * (((x2 div 3) mod (x + 1)) div 2))
2: ((((x div 2) mod 5) div 2) * (8 mod (1 + (x div 2))))
2: (2 * (((x div 3) mod 3) div 2))
2: (2 * ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3))
2: (3 * ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3))
2: (9 * ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3))
2: (2 * ((loop(\(x,i).(2 * (x - i)),x,2) mod (x + 1)) div 2))
2: (2 * ((x mod (1 + (x mod (2 + (x div 4))))) div 2))
2: (2 * ((x mod (2 + (if (x mod 8) <= 0 then x else 1))) div 2))
2: (3 * ((x mod (2 + (if (x mod 8) <= 0 then x else 1))) div 2))
2: (2 * ((x mod (~1 + (2 * ((2 * (x div 2)) div 3)))) div 2))
2: ((x + 1) * ((if (x mod 2) <= 0 then 2 else x) div 2))
2: (3 * ((if x <= 0 then 1 else x) div ~7))
2: (2 * ((if x <= 0 then 2 else (3x + ~2)) div 2))
2: (2 * (loop(\(x,i).(x + (i div 2)),(x + ~8),1) div 2))
2: (x * (loop(\(x,i).(1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),2,x) div (1 + i)))
2: ((2x + 3) * (loop(\(x,i).(2 * (2x + (x div (if i <= 0 then 1 else i)))),x,(x + 2)) div 2))
2: ((loop(\(x,i).4x,((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2),1) div 3) * (1 + (x div 2)))
2: (5 * (loop(\(x,i).2x,loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1) div 2))
2: ((x + 2) * (x div 4))
2: ((x div 4) * (x div 3))
2: (3 * (x div (4 + (x div 4))))
2: (2 * (x div (3 + ((x div 3) mod 3))))
2: (2 * (x div (3 + (x mod 2))))
2: (5 * (x div 7))
2: (2 * (x div (1 + (2 * (1 + ((x div 2) mod 2))))))
2: (2 * (x div (1 + (2 * (2 - ((x mod 3) mod 2))))))
2: (2 * (x div (2 + ((x mod (2 + (x mod 2))) div 2))))
2: (3 * (x div (2 + (x div (1 + ((x mod (1 + ((2 - (x mod 4)) mod (x + 1)))) div 2))))))
2: (2 * (x div (1 + (x div (2 + (x div 5))))))
2: ((x + 1) * (x div (2 + (x mod 2))))
2: (2 * (x div (1 + (x mod 9))))
2: (2 * (x div (1 + (x mod 12))))
2: ((2x + 1) * (x div ~2))
2: ((x div ~2) * (1 + (x div 2)))
2: ((x div ~2) * (x div 3))
2: (2 * (x div ~7))
2: ((x div ~7) * (x mod 7))
2: (x * (x div (2 - ((x div 2) mod 2))))
2: ((x + 1) * (x div (2 - (x mod 2))))
2: ((x + 2) * (x div (2 - (x mod 2))))
2: ((x + 1) * (x div ~3))
2: ((x div ~3) * ((x + ~1) div 2))
2: ((x div ~4) * (x div 2))
2: (x * (x div ~4))
2: (2 * (x div (~2 + (x mod ~2))))
2: (3 * (x div (~2 + (x mod ~2))))
2: (5 * (x div 8))
2: (2 * (x div (2 * (2 + ((x + 2) mod (2 + (x mod 2)))))))
2: (2 * (x div (2 * (2 - (x mod 2)))))
2: (x * (x div (if i <= 0 then 1 else i)))
2: (x * (i div 2))
2: (3 * ((2x + 1) mod (1 + (2x mod (2 + (x div 4))))))
2: (((1 + ((2 * (x div 2)) div 3)) mod 3) * (x div 4))
2: (x * ((1 + (x div 2)) mod 2))
2: (x * ((1 + (x div 2)) mod 3))
2: (3 * ((1 + (x mod 2)) mod (x + 1)))
2: (2 * ((1 + (x mod (1 + (2 * (2 + (4x mod 17)))))) mod (x + 1)))
2: (2 * ((1 + (x mod (1 + (x mod (3 - (x mod 2)))))) mod (x + 1)))
2: (3 * ((x + (if (x mod 2) <= 0 then x else 2)) mod 3))
2: (7 * ((x + 1) mod 3))
2: (x * ((x + 1) mod 3))
2: (x * ((x + 1) mod 4))
2: (2 * ((x + 1) mod (2 + ((x div 2) mod 2))))
2: (2 * ((x + 1) mod 11))
2: (2 * ((x + 1) mod (~1 + (x div ~5))))
2: (x * ((x + 1) mod 8))
2: (3 * ((x + 1) mod 12))
2: (2 * ((x + 1) mod 10))
2: (2 * ((x + 2) mod 4))
2: (3 * ((x + 2) mod 5))
2: ((x + 1) * ((x + 2) mod 7))
2: (2 * ((x + 2) mod 9))
2: (2 * ((x + 2) mod (1 + (x div 4))))
2: (((x + 2) mod 6) * (x div 2))
2: (2 * ((x + 2) mod 12))
2: (7 * ((~x + 1) mod 3))
2: (2 * ((~x + 1) mod 8))
2: ((x + 1) * ((~x2 + 2) mod (~1 + ((~2x + 2) mod (4 + (x div 4))))))
2: (2 * ((2 - (((x + ~2) - (x div 3)) mod 3)) mod (1 + (x div 3))))
2: (2 * ((~x + 2) mod 3))
2: ((x + 1) * ((~x + 2) mod 3))
2: (3 * ((~x + 2) mod 4))
2: (5 * ((~x + 2) mod 4))
2: (2 * ((~x + 2) mod (1 + (x div 4))))
2: (2 * ((2x + ~1) mod 5))
2: (2 * ((~1 + (if (x mod 2) <= 0 then x else 0)) mod (~1 + ((~2x + 2) mod (4 + (x div 4))))))
2: (3 * ((~1 + (if (x mod 2) <= 0 then x else 0)) mod (~1 + ((~2x + 2) mod (4 + (x div 4))))))
2: (2 * ((x + ~1) mod 5))
2: (2 * ((x - ((~x2 + x) div 32)) mod 2))
2: (2 * ((x - (((3 * (x div 2)) div 2) div 2)) mod 2))
2: (2 * ((x - (x div 4)) mod 2))
2: (2 * (((x + 1) * (1 + (x mod 2))) mod (1 + (x div 5))))
2: (2 * (~2x mod 5))
2: (3 * ((~2x + 2) mod (4 + (x div 4))))
2: (2 * (((x + 1) * (x mod 2)) mod 10))
2: (3 * (2x mod 3))
2: (2 * (2x mod 5))
2: (3 * (x2 mod 6))
2: (2 * (((1 + (x div 2)) div 2) mod 3))
2: (x * (((x + 1) div 2) mod 4))
2: (2 * (((~1 + (x div 2)) div 2) mod 2))
2: ((x + 1) * (((~1 + (x div 2)) div 2) mod 2))
2: (2 * (((x + ~1) div 2) mod 4))
2: (3 * (((x + ~2) div 3) mod 2))
2: (2 * (((x2 + 2x) div 2) mod (1 + ((1 + (x div 2)) div 3))))
2: (2 * (((x2 + ~x) div 2) mod (1 + (x div 4))))
2: (2 * (((x2 + ~x) div (x + 2)) mod 2))
2: (9 * ((2x div 9) mod 2))
2: (2 * ((2x div (1 + (x div 4))) mod 2))
2: (2 * ((((x + ~1) div 2) div 2) mod 2))
2: ((x + ~1) * ((x div 2) mod 2))
2: (3 * ((x div 2) mod 3))
2: (2 * ((x div 5) mod 3))
2: (x * ((x div ~2) mod 2))
2: (3 * (((x + 1) mod 8) mod 3))
2: (2 * ((6 mod (x + 1)) mod 2))
2: (2 * ((((~2 + (x div 2)) * (x div 2)) mod (x + 1)) mod 2))
2: (x * ((2x mod (2 + (x div 2))) mod 2))
2: (2 * ((2x mod (1 + (x div 4))) mod 2))
2: (3 * ((x2 mod (4 + (((x + 1) div 2) div 2))) mod 3))
2: (2 * ((((1 - (x mod 4)) mod (x + 1)) mod 3) mod 2))
2: (2 * (((if x <= 0 then 1 else x) mod (2 - (x div (1 + ((x div 2) mod 2))))) mod 2))
2: (2 * ((x mod 5) mod 2))
2: (2 * ((x mod (2 + (x mod 2))) mod 2))
2: (3 * ((x mod (2 - (x div (1 + ((x div 2) mod 2))))) mod 2))
2: (x * ((x mod (2 - (x div (1 + ((x div 2) mod 2))))) mod 2))
2: (2 * ((x mod ((x + ~2) + (x div 2))) mod 2))
2: (((x mod (~1 + (2 * (x div 3)))) mod 2) * (5 mod (1 + (x div 2))))
2: (2 * ((x mod 6) mod (1 + (x div 3))))
2: (3 * ((if (x mod 2) <= 0 then 2 else x) mod 4))
2: ((2x + 1) * ((if x <= 0 then 1 else x) mod 2))
2: ((x + 1) * (loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)))
2: (3 * (loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)))
2: (2 * (loop(\(x,i).(2x + 2),x,0) mod (x + 1)))
2: (2 * (loop(\(x,i).2x,x,x) mod (x + 1)))
2: ((x + ~1) * (x mod 2))
2: ((x mod 2) * i)
2: ((x + 2) * (x mod 3))
2: ((~x + 1) * (x mod 3))
2: ((x + ~2) * (x mod 4))
2: ((x mod 4) * (x div 2))
2: (3 * (x mod 5))
2: (3 * (x mod (3 + (x mod 2))))
2: (2 * (x mod 9))
2: (2 * (x mod (1 + i)))
2: (2 * (x mod (1 - ((2 - (2x mod (4 + (x div 4)))) mod (x + 1)))))
2: (2 * (x mod ((~x + 2) + (x mod 10))))
2: (3 * (x mod ~4))
2: (2 * (x mod (~1 + (3 * (((x + ~1) div 2) mod 3)))))
2: (2 * (x mod ((x + ~1) - (x mod 12))))
2: (9 * (x mod ((x + ~1) - (x mod 12))))
2: (9 * (x mod (x - ((x + ~1) mod 8))))
2: (9 * (x mod 6))
2: (x * (x mod 6))
2: (x * (x mod 8))
2: ((x mod 10) * (x mod 3))
2: (2 * (x mod (2 * (1 + (x mod 2)))))
2: (2 * (x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4)))))))
2: (2 * (x mod (2 * (2 - (x mod 2)))))
2: (2 * (if (2 - (x div 4)) <= 0 then 8 else (x + 1)))
2: (2 * (if (~x + 2) <= 0 then x else 2))
2: (3 * (if (~4 + (x div 2)) <= 0 then 0 else 2))
2: (2 * (if (~4 + (x div 2)) <= 0 then 1 else (x div 3)))
2: (2 * (if (~4 + (x div 2)) <= 0 then 1 else (x div 4)))
2: (2 * (if (~4 + (x div 2)) <= 0 then x else (x + 2)))
2: (2 * (if (~2 + (x div 2)) <= 0 then x else (x + 1)))
2: (3 * (if (~2 + (x div 3)) <= 0 then 0 else 2))
2: ((x + 1) * (if (~2 + (x div 3)) <= 0 then 1 else 2))
2: (2 * (if (~2 + (x div 3)) <= 0 then 2 else (x + ~2)))
2: (x * (if (~2 + (x div 3)) <= 0 then 2 else x))
2: ((x + 1) * (if (~2 + (x div 4)) <= 0 then 1 else 2))
2: (3 * (if (x + ~1) <= 0 then 1 else 16))
2: ((x + ~1) * (if (x + ~2) <= 0 then 0 else x2))
2: (x * (if (x + ~2) <= 0 then 0 else loop(\(x,i).loop(\(x,i).(x * i),(x + ~2),x),1,(x + ~1))))
2: ((x + 1) * (if (x + ~2) <= 0 then 1 else 2x2))
2: (x * (if (x + ~2) <= 0 then 1 else x2))
2: (2 * (if (x + ~2) <= 0 then x else 1))
2: (x * (if (x + ~2) <= 0 then x else (x + 1)))
2: ((x + 1) * (if (x + ~2) <= 0 then x else (x2 + 2x)))
2: ((x + 1) * (if (x + ~4) <= 0 then 1 else 2))
2: (2 * (if (x + ~4) <= 0 then 1 else 4))
2: (2 * (if (x + ~4) <= 0 then x else (x + 1)))
2: (3 * (if (x + ~6) <= 0 then 1 else 2))
2: ((if ((x + 1) mod (1 + (x div 4))) <= 0 then 1 else 2) * (1 + ((x mod 3) div 2)))
2: (2 * (if ((x + 1) mod 8) <= 0 then 2 else 1))
2: ((x + 1) * (if ((x + 1) mod 8) <= 0 then 2 else 1))
2: ((if ((x - (x div 3)) mod 3) <= 0 then 1 else x) * (x mod 2))
2: ((if ((x * (x mod 3)) mod 5) <= 0 then 1 else 2) * (1 + (x mod 2)))
2: (2 * (if (((x + 1) div 2) mod 6) <= 0 then 2 else 0))
2: (2 * (if (x mod 2) <= 0 then 1 else 4))
2: (2 * (if (x mod 2) <= 0 then 2 else x))
2: (4 * (if (x mod 2) <= 0 then 2 else x))
2: (x * (if (x mod 2) <= 0 then 2 else x))
2: ((x + 1) * (if (x mod 2) <= 0 then (2 + (x mod 4)) else 1))
2: (3 * (if (x mod 2) <= 0 then (2 + (if x <= 0 then 0 else 2)) else 1))
2: (2 * (if (x mod 2) <= 0 then 10 else 1))
2: (5 * (if (x mod 2) <= 0 then (5 * (if x <= 0 then 1 else 2)) else 1))
2: (3 * (if (x mod 2) <= 0 then (7 * (if x <= 0 then 1 else 2)) else 1))
2: (3 * (if (x mod 2) <= 0 then (3 * (2 + (if x <= 0 then 0 else 2))) else 1))
2: (3 * (if (x mod 2) <= 0 then (5 * (2 + (if x <= 0 then 0 else 2))) else 1))
2: (2 * (if (x mod 2) <= 0 then (11 * (if x <= 0 then 1 else 2)) else 1))
2: (2 * (if (x mod 2) <= 0 then ((~1 + (5 * (2 - ((x div 2) mod 2)))) * (if x <= 0 then 1 else 2)) else 1))
2: (2 * (if (x mod 2) <= 0 then (8 * (if x <= 0 then 1 else 2)) else 1))
2: (3 * (if (x mod 2) <= 0 then (9 * (if x <= 0 then 1 else 2)) else 1))
2: (3 * (if (x mod 2) <= 0 then (3 * (if (x mod 4) <= 0 then (2 + (if x <= 0 then 0 else 2)) else 1)) else 1))
2: (2 * (if (x mod 2) <= 0 then (3 * (if x <= 0 then 1 else 2)) else 1))
2: (5 * (if (x mod 2) <= 0 then (3 * (if x <= 0 then 1 else 2)) else 1))
2: (2 * (if (x mod 2) <= 0 then (x div 4) else 1))
2: (2 * (if (x mod 2) <= 0 then (2x mod 9) else 1))
2: ((x + 1) * (if (x mod 2) <= 0 then ((x div 3) mod 2) else 2))
2: (2 * (if (x mod 2) <= 0 then x else (~x + 1)))
2: (2 * (if (x mod 3) <= 0 then (8 * (if x <= 0 then 1 else 2)) else 1))
2: (2 * (if (x mod 4) <= 0 then 2 else (x mod 2)))
2: ((if (x mod 4) <= 0 then 13 else 1) * (if x <= 0 then 1 else 2))
2: ((if (x mod 4) <= 0 then 31 else 1) * (if x <= 0 then 1 else 2))
2: (3 * (if (x mod 4) <= 0 then (2 * (2 + (if x <= 0 then 0 else 2))) else 1))
2: (3 * (if (x mod 4) <= 0 then (3 * (2 + (if x <= 0 then 0 else 2))) else 1))
2: (x * (if (x mod 5) <= 0 then 1 else 2))
2: (2 * (if (x mod (1 + (2 * (x mod 4)))) <= 0 then 1 else loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))
2: (2 * (if (x mod (1 + (((x + 1) div 2) div 3))) <= 0 then 1 else 2))
2: (3 * (if (x mod 8) <= 0 then 1 else 2))
2: (x * (if (i mod 2) <= 0 then 2 else ~2))
2: ((if (i mod 2) <= 0 then 2 else 2x) * (i div 2))
2: ((x + ~1) * (if x <= 0 then 0 else 2))
2: ((x + 1) * (if x <= 0 then 1 else 4))
2: (2 * (if x <= 0 then 1 else (2 + (if (5 mod (x + 1)) <= 0 then x else 1))))
2: (2 * (if x <= 0 then 1 else (2 * (3x + ((x + ((x div 3) mod 3)) div 3)))))
2: (2 * (if x <= 0 then 1 else (2 * (2x + ((2x + ((x div 3) mod 3)) div 3)))))
2: (2 * (if x <= 0 then 1 else (2 * (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))))))
2: (2 * (if x <= 0 then 1 else (2 * (4x - ((x + ((x + (x div 3)) mod 3)) div 3)))))
2: (2 * (if x <= 0 then 1 else loop(\(x,i).2x,((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3),2)))
2: (3 * (if x <= 0 then 1 else x))
2: ((x + 1) * (if x <= 0 then 2 else ((x + 1) div 2)))
2: (3 * (if x <= 0 then 3 else x))
2: (2 * loop(\(x,i).(x + 5),(~1 + (x div 5)),x))
2: ((x + 1) * loop(\(x,i).((x + 2) + (x div 8)),x,1))
2: (x * loop(\(x,i).(x + (2 * (2x + (x mod 2)))),(x + 1),x))
2: (x * loop(\(x,i).(x2 + x + 2),2,2))
2: ((x + 1) * loop(\(x,i).(x2 + 4x + 5),2,4))
2: (x * loop(\(x,i).(x2 + 4x + 6),2,3))
2: (2 * loop(\(x,i).(x + ((1 + i) * i)),2x,x))
2: ((x + 1) * loop(\(x,i).(2 + (x * (x + i))),2,6))
2: (x * loop(\(x,i).(10x + 1),8,1))
2: (x * loop(\(x,i).(10x + 1),x,0))
2: ((x + 1) * loop(\(x,i).(4x2 + 12x + 9),2,3))
2: (x * loop(\(x,i).(8x + 1),i,1))
2: (x * loop(\(x,i).(6x + 1),i,1))
2: (2 * loop(\(x,i).(x + (2 * (i * (1 + i)))),2x,x))
2: (x * loop(\(x,i).(x2 + 1),2,3))
2: ((x + 1) * loop(\(x,i).(x2 + 1),3,2))
2: (x * loop(\(x,i).(x2 + 2),2,3))
2: (4 * loop(\(x,i).(x + (i * i)),(x + ~1),x))
2: (2 * loop(\(x,i).(x + (i * i)),x,x))
2: (x * loop(\(x,i).(x + (x2 div 3)),1,(x + ~1)))
2: (2 * loop(\(x,i).(1 + (loop(\(x,i).(x * (2 + i)),compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x),1) div 3)),1,(x + 1)))
2: (2 * loop(\(x,i).(2 + (x div 2)),(~1 + (x div 2)),1))
2: (2 * loop(\(x,i).(x + (if (x - i) <= 0 then x else 0)),x,1))
2: (2 * loop(\(x,i).(2 + (if x <= 0 then 1 else 4x)),(x div 2),(x mod 2)))
2: ((x + 1) * loop(\(x,i).(x + loop(\(x,i).(x * i),i,1)),(x + ~1),1))
2: ((x + 1) * loop(\(x,i).(~2x2 + 1),2,2))
2: ((x + 1) * loop(\(x,i).(~4x2 + 1),2,2))
2: (x * loop(\(x,i).(~x2 + 1),2,4x))
2: (x * loop(\(x,i).(2x2 + ~1),2,2))
2: (x * loop(\(x,i).(2x + ~1),(x + ~2),x))
2: (2 * loop(\(x,i).(2x + ~1),x,12))
2: (x * loop(\(x,i).(x2 + ~2),3,3))
2: (x * loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),x,0))
2: (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (4 + (((x + 1) div 2) div 2)))
2: (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (1 + ((x + 1) mod 3)))
2: (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * ((x + 1) div 2))
2: (23 * loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x))
2: ((x + 1) * loop(\(x,i).(x - loop(\(x,i).(x * i),(~1 + i),1)),x,1))
2: (2 * loop(\(x,i).3x,(x + ~1),x))
2: ((x + ~1) * loop(\(x,i).3x,(x + ~1),x))
2: (5 * loop(\(x,i).3x,2x,2))
2: (3 * loop(\(x,i).5x,x,2))
2: (2 * loop(\(x,i).(x * (5 + i)),x,2))
2: (2 * loop(\(x,i).(2x + 6),x,1))
2: ((x + 3) * loop(\(x,i).(x * (4 + i)),x,(x + 2)))
2: (9 * loop(\(x,i).(10x + 2),(x div 2),(1 + (x mod 2))))
2: (2 * loop(\(x,i).(10x + 2),(x div 2),(x mod 2)))
2: (2 * loop(\(x,i).(10x + 2),x,(1 - loop(\(x,i).(10x + ~20),x,0))))
2: ((x + 1) * loop(\(x,i).(x * (1 + (2 * (2 + i)))),x,(x + 2)))
2: ((x + 1) * loop(\(x,i).(x5 + x4 + x3 + x2 + x + 1),1,x2))
2: (2 * loop(\(x,i).(10x + 16),x,1))
2: (x * loop(\(x,i).(4x2 + x),2,2x))
2: (x * loop(\(x,i).(6x2 + 2),2,x))
2: (x * loop(\(x,i).(x3 + x),1,x5))
2: (x * loop(\(x,i).(x3 + x),1,x4))
2: ((2x + 1) * loop(\(x,i).(2 * (x + (x div 2))),x,3))
2: (x * loop(\(x,i).(x * (2 + (x mod 4))),x,1))
2: (x * loop(\(x,i).(x * (2 + (x mod 4))),i,1))
2: (x * loop(\(x,i).(2x + 2),x,2))
2: (4 * loop(\(x,i).(x2 + x),2,x))
2: (2 * loop(\(x,i).(2x + 4),(x + 1),2))
2: (3 * loop(\(x,i).(2x + 4),(x + 1),2))
2: (x * loop(\(x,i).(x2 + 4x + 4),2,1))
2: (2 * loop(\(x,i).(x2 + 2x),1,compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),(x + 1))))
2: ((x + 1) * loop(\(x,i).(x2 + 2x),2,6))
2: ((x + 1) * loop(\(x,i).(x2 + 2x),2,x))
2: ((x + 1) * loop(\(x,i).(~x2 + ~2x),2,4))
2: (3 * loop(\(x,i).11x,x,2))
2: (x * loop(\(x,i).(8x2 + ~x),2,x))
2: (x * loop(\(x,i).(2x2 + ~3x + 1),2,2x))
2: (x * loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),(x + ~1),x))
2: (2 * loop(\(x,i).(2x + ~2),x,(~1 + loop(\(x,i).4x,x,4))))
2: (x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).2x,i,2)))
2: (2 * loop(\(x,i).(2 * ((x + ~4) - (x div 4))),x,1))
2: (x * loop(\(x,i).(((x + 1) - (2 * (x mod 2))) * (1 + i)),x,1))
2: (3 * loop(\(x,i).(10x + ~8),x,2))
2: ((x + 1) * loop(\(x,i).(7x2 + x + ~6),2,2))
2: (2 * loop(\(x,i).(x * (x - i)),2,(x + 3)))
2: (x * loop(\(x,i).(x * (x - i)),2,(x + 3)))
2: (x * loop(\(x,i).(x * (x - i)),2,(2 + i)))
2: ((x + 1) * loop(\(x,i).(x * (~x + i)),2,6))
2: (x * loop(\(x,i).(8x2 + ~4x + ~4),2,x))
2: (3 * loop(\(x,i).(6 * (3x + (x div 2))),(x + 1),1))
2: (x * loop(\(x,i).(x5 + x2),1,x3))
2: ((x + 1) * loop(\(x,i).(x3 + 4x2 + 4x),2,1))
2: ((x + 1) * loop(\(x,i).((x + 2) * ((x + i) * i)),2,2))
2: (x * loop(\(x,i).(16x2 + ~8),2,x))
2: (3 * loop(\(x,i).8x,x,2))
2: (5 * loop(\(x,i).8x,x,2))
2: ((x + ~1) * loop(\(x,i).4x,(x + ~2),x))
2: (3 * loop(\(x,i).4x,x,2))
2: (5 * loop(\(x,i).4x,x,2))
2: (5 * loop(\(x,i).6x,x,2))
2: ((x + 1) * loop(\(x,i).2x2,2,2))
2: (x * loop(\(x,i).2x2,2,(x + ~2)))
2: (x2 * loop(\(x,i).2x2,2,3x))
2: ((x + 1) * loop(\(x,i).4x2,2,2))
2: (2 * loop(\(x,i).(x3 + x2),x2,2))
2: (x * loop(\(x,i).(x2 * (2 + i)),2,2x))
2: (2 * loop(\(x,i).(x2 * (x div 2)),(x + 4),2))
2: ((x + 1) * loop(\(x,i).x3,1,loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1)))
2: ((x + 1) * loop(\(x,i).x3,2,2))
2: (x * loop(\(x,i).x3,2,2x))
2: (3 * loop(\(x,i).x3,x2,2))
2: ((x + 1) * loop(\(x,i).(x2 * i),2,3))
2: ((x + 3) * loop(\(x,i).2x,(x + 2),(x + 2)))
2: ((2x + 1) * loop(\(x,i).2x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1))
2: (loop(\(x,i).2x,((x div 2) - ((3 * (x div 4)) div 2)),1) * (1 + (2 * (x mod 2))))
2: (3 * loop(\(x,i).2x,(x + ~1),(x + 1)))
2: (2 * loop(\(x,i).2x,(x div 2),(2 + (x mod 2))))
2: (11 * loop(\(x,i).2x,(x div 2),(2 - (x mod 2))))
2: (loop(\(x,i).2x,i,i) * i * i)
2: (2 * loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
2: ((x + 1) * loop(\(x,i).x2,2,7))
2: (x2 * loop(\(x,i).x2,2,x3))
2: (x * loop(\(x,i).x2,2,2x))
2: (x * loop(\(x,i).x2,2,(2 * i)))
2: ((x + 1) * loop(\(x,i).x2,2,loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1)))
2: ((x + 1) * loop(\(x,i).x2,(x2 + ~1),(x + 1)))
2: (3 * loop(\(x,i).(x * i),x,2))
2: (3 * loop(\(x,i).(x * i),x,x))
2: (3 * loop(\(x,i).((x2 + x) div 2),1,loop(\(x,i).2x,x,1)))
2: (x * loop(\(x,i).((x2 + ~x) div (1 + i)),2,(x + 3)))
2: ((x + 1) * loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x + 1),2))
2: ((3x + 4) * loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,1))
2: ((x + ~1) * loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,x))
2: (x * loop(\(x,i).(x2 div 2),2,(x + 2)))
2: (x * loop(\(x,i).(x2 div 3),2,x))
2: (2 * loop(\(x,i).(x div (1 + (x mod 2))),x,x))
2: (3 * loop(\(x,i).(x div (1 + (x mod 2))),x,x))
2: (2 * loop(\(x,i).loop(\(x,i).(x2 + ~1),x,2),x,1))
2: (2 * loop(\(x,i).i,((x div 2) div (1 + (x mod (1 + (x mod (3 + (x mod 2))))))),1))
2: (2 * compr(\x.(1 + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then x else 5)),x,x)),x))
2: (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(5x + 2))),x))
2: (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(7x + 1))),x))
2: (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(9x + 1))),x))
2: (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x2 + 2x + 1))),x))
2: (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(x2 + ~2))),x))
2: (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(5x + ~2))),x))
2: (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(7x + ~3))),x))
2: (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,7x)),x))
2: (4 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,8x)),x))
2: (2 * compr(\x.(1 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(8x2 + 8x))),x))
2: (2 * compr(\x.(1 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x2 + 2x))),x))
2: (2 * compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),(x + 1)))
2: (3 * compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(3x + 1))),x))
2: (2 * compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(4x + 1))),x))
2: (2 * compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + x + ~1))),x))
2: (2 * compr(\x.(x - loop(\(x,i).loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),x,(2x + 1)),2,(2x + 1))),x))
2: (2 * compr(\x.((x + 1) mod (1 + loop(\(x,i).(if x <= 0 then i else (x + ~1)),x,0))),x))
2: (x * compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i))
2: (2 * compr(\x.loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,4x),x))
2: (2 * compr(\x.loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 4 else 0))),x,4x),x))
2: (2 * compr(\x.loop(\(x,i).(x div (2 - ((x * (x div 2)) mod 2))),x,x),x))
2: (3 * compr(\x.loop(\(x,i).(x div (2 - ((x * (x div 2)) mod 2))),x,x),x))
2: (4 * compr(\x.loop(\(x,i).(x div (2 - ((x * (x div 2)) mod 2))),x,x),x))
2: (3 * compr(\x.loop(\(x,i).(if ((x + 1) mod (1 + i)) <= 0 then 0 else x),x,2x),x))
2: (2 * compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(4x + ~1)),(x + 1)))
2: (2 * compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),x,(~4x + 1)),x))
2: (4 * compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),x,(~4x + 1)),x))
2: (1 div (1 - (if (x mod 2) <= 0 then x else 0)))
2: (1 div (~1 + (2 * ((x + 2) mod 9))))
2: (1 div (~1 + (2 * ((x + 2) mod 12))))
2: (1 div (x2 + ~3))
2: (1 div ((~1 + (x2 div 2)) mod 5))
2: (2 div (1 + (3 div (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2)))))
2: (2 div (1 + (((~2x + 2) mod 9) div 2)))
2: (2 div (1 + ((loop(\(x,i).(2 * (x - i)),x,2) mod (x + 1)) div 2)))
2: (2 div (1 + ((2 + ((x2 + ~2x) div 8)) mod 5)))
2: (2 div (1 + ((x + 1) mod 16)))
2: (2 div (1 + (~x mod 4)))
2: (2 div (1 + ((~1 + (x * (x div 2))) mod 4)))
2: (2 div (1 + (x mod (1 + (if (x mod 2) <= 0 then 6 else 1)))))
2: (2 div (~2x + 1))
2: (2 div (5 - ((x + ~1) div 3)))
2: (2 div (8 - ((x + ~1) div 2)))
2: (2 div (8 - ((x * (x mod 2)) div 2)))
2: (2 div (2x + ~1))
2: (2 div (~2 + (x mod 2)))
2: (2 div (2 div (~2x + 1)))
2: (2 div ((x + 2) div (1 + (2 * (((x + ~1) div 2) div 2)))))
2: (2 div ((1 - (if ((x + 2) mod (2 + ((x div 2) mod 2))) <= 0 then x else 0)) mod 5))
2: (2 div (if ((x + 2) mod 4) <= 0 then x else 2))
2: (3 div (4 - (((~2x + 2) mod (4 + (x div 4))) div 2)))
2: (3 div (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2)))
2: (4 div (4 - ((x mod (1 + (x div 2))) div 2)))
2: (4 div (1 + (4 div (x + 1))))
2: (4 div (1 + ((x + ~1) mod 3)))
2: (4 div (4 - ((x + 2) div 5)))
2: (4 div (~4 + (x div 4)))
2: (4 div (if (~2 + (x div 2)) <= 0 then 2 else (x + ~2)))
2: (4 div (if x <= 0 then 1 else x))
2: (5 div (x + 1))
2: (((x + 1) + (2 * ((x + ((x div 2) mod 2)) div 2))) div 3)
2: (((x + 1) + ((x * (if (x + ~2) <= 0 then 1 else x)) div 3)) div 2)
2: ((3 + (x2 div 2)) div (x + 2))
2: (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) + (if (x + ~2) <= 0 then 1 else 2) + (x div 5)) div 2)
2: (((x + 2) + (x div 2)) div 5)
2: (((x + 1) + (i div (2 + (x mod 2)))) div 2)
2: (((x + 2) + (((if x <= 0 then 1 else x) + (x div 2)) mod (1 + (x div 3)))) div 3)
2: (((x + 1) + ((x div 2) mod 2)) div 2)
2: (((x + 1) + ((x div 2) mod 2)) div 3)
2: (((x + 1) + ((x div 3) mod 3)) div 3)
2: ((x + 3) div (1 + (2 * (1 + (x mod 2)))))
2: ((x + 3) div (2 - (x div ~8)))
2: ((~x + 3) div 3)
2: ((~x + 3) div (1 + (x mod 4)))
2: ((1 + (x div 2) - ((x div 4) mod 2)) div 2)
2: ((x + (x div 5) - ((x div 2) div 3)) div 2)
2: (((x + 1) - ((1 + (x div 2)) mod 8)) div 3)
2: (7 div (x + 1))
2: ((3x + 1) div (3 + (x div 4)))
2: ((3x + 2) div ((~x2 + 2) mod 8))
2: ((2x2 + x + 1) div 7)
2: ((1 + (2 * (x + ((2x + ~1) div (4 + (x div 4)))))) div 3)
2: ((x + (2 * (x + (x2 div (x + 17))))) div 3)
2: ((2 + (x * (x + (x div 2)))) div (x + 1))
2: ((x + (2 * (1 + (if (x + ~1) <= 0 then 0 else (1 + ((x mod (1 + ((1 + (x div 2)) div 2))) div 2)))))) div 3)
2: ((1 + (((if (x mod 2) <= 0 then 2 else 0) + (x div 2)) * (1 + (x div 2)))) div 3)
2: ((1 + (3 * (x + loop(\(x,i).i,(x + ~9),1)))) div 2)
2: ((x2 + x + 1) div ((x + 2) + (x div 2)))
2: ((x2 + x + 1) div ((x + 1) + (x div 3)))
2: ((x2 + 4x + 5) div 2)
2: ((x2 + 2x + 1) div 5)
2: ((x2 + 2x + 1) div (16 + (x div 2)))
2: ((x2 + 2x + 2) div (1 + (x mod 2)))
2: ((x2 + 2x + 2) div (~x + 25))
2: (((x2 + 2x) + ((x div 2) mod 2)) div 2)
2: ((1 + (2 * (1 - (x mod (1 - ((2 - (2x mod (4 + (x div 4)))) mod (x + 1))))))) div 3)
2: ((x + (3 * (2 - ((~x + 2) div (2 - (x div ~4)))))) div 2)
2: ((~2x + 5) div (4 + (x div 4)))
2: (((x2 + 3x + 2) + ((~1 + (x div 2)) * (x div 2))) div 2)
2: ((x2 + ~x + 2) div (x + 5))
2: ((x2 + ~x + 2) div (x + 3))
2: (((8x + 8) + (x div 5)) div 3)
2: (37 div (x + 1))
2: ((1 + (4 * (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (if (x mod 3) <= 0 then 2 else 1))))) div 3)
2: ((8x + 1) div 3)
2: ((8x + 1) div (1 + (if x <= 0 then 0 else 2)))
2: ((8x + 1) div (x + 2))
2: ((4x2 + 4x + 1) div 3)
2: ((4x + 1) div (x + 3))
2: ((2x2 + 1) div 3)
2: ((2x2 + 1) div (x + 4))
2: ((2x2 + 1) div (1 + (2 * (x + (x div 2)))))
2: ((x3 + 2) div 3)
2: ((1 + (((x + 1) div 2) * (1 + (x div 2)))) div 3)
2: ((1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((3 * ((~x + 2) div 2)) div 2))) div 2)
2: ((1 + (2 * (x div 2))) div 3)
2: ((1 + ((x div 4) * (x div 4))) div 2)
2: ((2 + (x * (x div (2 + (x mod 2))))) div (x + 1))
2: ((1 + (x * ((1 + (x div 2)) mod 3))) div 2)
2: ((2 + (x * (x mod 6))) div (x + 2))
2: ((1 + (2 * (if (x mod (1 + (2 * (x mod 4)))) <= 0 then 1 else loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))) div 3)
2: ((1 + (2 * (if x <= 0 then 1 else (2 * (2x + ((2x + ((x div 3) mod 3)) div 3)))))) div 3)
2: ((1 + (2 * (if x <= 0 then 1 else (2 * (4x - ((x + ((x + (x div 3)) mod 3)) div 3)))))) div 3)
2: ((x + ((x2 + x + 1) * loop(\(x,i).(1 + (x * i)),x,1))) div 2)
2: ((1 + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (1 + (((x + 1) div 2) div 2)))) div 2)
2: ((1 + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (1 + ((x + 1) mod 3)))) div 2)
2: ((x + ((2x + 1) * loop(\(x,i).2x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1))) div (x + 1))
2: ((2x + 1) div (4 + ((x div 2) div 3)))
2: ((2x + 1) div (3 + (if (((x + 2) mod 8) mod 3) <= 0 then 0 else 2)))
2: ((2x + 1) div (1 + (3 * loop(\(x,i).(x div (1 + (x mod 2))),x,x))))
2: ((2x + 1) div (2 + (x div (4 - ((x * (x div 2)) mod 2)))))
2: ((2x + 1) div (3 + ((~2x + 2) mod (4 + (x div 4)))))
2: ((2x + 1) div (1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))
2: ((x2 + 1) div (x + 5))
2: ((x2 + 1) div ((x + 2) + (x div 2)))
2: ((x2 + 1) div (x + 3))
2: ((x2 + 1) div (x + 4))
2: ((x2 + 1) div (x + 2))
2: ((x2 + 2) div ((x + 3) + (x div 2)))
2: ((x2 + 2) div ((x + 3) + (x div 4)))
2: ((x2 + 2) div (1 + (2 * (2 + ((x + (x div 4)) div 2)))))
2: ((x2 + 2) div 11)
2: ((1 + ((1 + (2 * (if (x mod (1 + (2 * (x mod 4)))) <= 0 then 1 else loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))) div 3)) div 3)
2: ((1 + ((1 + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (1 + ((x + 1) mod 3)))) div 2)) div 2)
2: ((1 + ((1 + ((1 + ((1 + ((1 + (((1 + ((x * loop(\(x,i).(x + (x2 div 3)),1,(x + ~1))) div 2)) div 2) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)
2: ((1 + ((1 + ((1 + ((1 + (((1 + ((x * loop(\(x,i).(x + (x2 div 3)),1,(x + ~1))) div 2)) div 2) div 2)) div 2)) div 2)) div 2)) div 2)
2: ((1 + ((1 + ((1 + (((1 + ((x * loop(\(x,i).(x + (x2 div 3)),1,(x + ~1))) div 2)) div 2) div 2)) div 2)) div 2)) div 2)
2: ((1 + ((1 + (((x + 1) * (x div (2 - (x mod 2)))) div 2)) div 2)) div 2)
2: ((x + (((x2 div 3) + (x div 2)) div 2)) div 2)
2: ((x + ((1 + (((1 + (((x + 1) * (1 + ((1 - (x mod 3)) mod (x + 1)))) div 3)) div 2) div 2)) div 2)) div 2)
2: ((1 + ((1 + (((1 + ((x * loop(\(x,i).(x + (x2 div 3)),1,(x + ~1))) div 2)) div 2) div 2)) div 2)) div 2)
2: ((1 + ((1 + ((32 mod (x + 1)) div 2)) div 2)) div 2)
2: ((1 + ((1 + ((x mod (2 + ((6 * (1 + (((x2 + 2x) div 2) mod (1 + ((1 + (x div 2)) div 3))))) mod (x + 1)))) div 2)) div 2)) div 2)
2: ((1 + ((x + (loop(\(x,i).2x,x,(2 + (x div 4))) div 3)) div 2)) div 2)
2: ((1 + ((x + (x div 2)) div 2)) div 2)
2: ((1 + ((x + (x div 4)) div 2)) div 2)
2: ((x + ((x + (x div 4)) div 2)) div ~2)
2: ((x + ((x + ((2 - (x div 2)) mod 6)) div 3)) div 2)
2: ((1 + ((2 + ((8 * (1 + (x mod 2))) mod (x + 1))) div 3)) div 2)
2: ((x + ((x + ((x div 2) mod 4)) div 2)) div 2)
2: ((x + ((x + (x mod 2)) div 3)) div 3)
2: ((x + ((x + loop(\(x,i).2x,x,1)) div (x + 1))) div 2)
2: ((1 + ((x + 1) div (2 + (x div (4 + (x mod 2)))))) div 2)
2: ((1 + ((x + 1) div (2 + ((1 + (if ((x + ~2) mod 6) <= 0 then x else 2)) mod (x + 1))))) div 2)
2: ((1 + ((x + 1) div (1 + ((2 - ((x + (x div 5)) mod 5)) mod (x + 1))))) div 2)
2: ((1 + ((x + 1) div (2 + (((x2 + 1) div (2 + (x div 2))) mod 2)))) div 2)
2: ((1 + ((x - ((x mod 3) div 2)) div 2)) div 2)
2: ((1 + ((x - ((x div 3) mod 2)) div 2)) div 2)
2: ((2 + (3x div (1 + ((x + 2) div 5)))) div 3)
2: ((x + ((2 * ((x + 1) + (2 * ((2 * (2x - (x mod 8))) - (x mod 4))))) div 3)) div 2)
2: ((1 + ((x * ((~x + 1) + (4 * (x + ((x div 2) mod 2))))) div 2)) div 2)
2: ((1 + ((5x2 + 10x + 5) div 7)) div 2)
2: ((1 + (((x + 1) * (1 + (2 * ((3 * ((x div 2) div 3)) div 2)))) div 2)) div 2)
2: ((1 + (((x + 1) * (1 + ((x + ~1) div 5))) div 2)) div 2)
2: ((x + (((x + 1) * (x + ((x2 + 2x) div 4))) div 3)) div 2)
2: ((1 + ((x * (1 + (((x + 1) div 2) div 2))) div 2)) div 2)
2: ((1 + (((x + 1) * (1 + ((1 - (x mod 3)) mod (x + 1)))) div 3)) div 2)
2: ((1 + ((x * (1 + (x mod 3))) div 2)) div 2)
2: ((1 + (((x + 1) * (1 + (if (~1 + ((2x + 1) mod (2 + (x div 4)))) <= 0 then x else 0))) div 3)) div 2)
2: ((2 + ((((if (x mod 2) <= 0 then 2 else 0) + (x div 2)) * (1 + (x div 2))) div 2)) div 3)
2: ((((x2 + 2x) div 2) + (x mod 3)) div 2)
2: ((2 + ((x2 + 2x) div 9)) div 3)
2: ((((x2 + ~x) div 8) + (x div 2)) div 2)
2: ((((x2 + ~2x) div (x + 2)) + ((x mod 3) mod 2)) div 2)
2: ((1 + (((x + 2) * ((x + 1) div 2)) div 2)) div 2)
2: ((1 + ((((x + 1) div 5) * (x div 3)) div 2)) div 2)
2: ((1 + (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (x div (2 * (2 - (x mod 2)))))) div 2)) div 2)
2: ((1 + (((~x + 2) * (x div 3)) div 2)) div 2)
2: ((1 + ((x * (x div 3)) div 4)) div 2)
2: ((1 + ((x * (x div 5)) div 3)) div 2)
2: ((1 + (((x + 1) * (x div (2 - (x mod 2)))) div 2)) div 2)
2: ((1 + ((x * ((~x2 + 2) mod (~1 + ((~2x + 2) mod (4 + (x div 4)))))) div 2)) div 2)
2: ((1 + ((x * loop(\(x,i).(x + (x2 div 3)),1,(x + ~1))) div 2)) div 2)
2: ((1 + (x2 div 2)) div (x + 3))
2: ((2 + (x2 div 2)) div (x + 2))
2: (((x2 div 3) + (x div 2)) div 2)
2: (((x2 div 3) + (x mod 2)) div 2)
2: ((1 + (x2 div 4)) div 2)
2: ((1 + (x2 div 4)) div 3)
2: ((x2 + (x2 div 4)) div 2)
2: ((x + (x2 div 4)) div 3)
2: ((1 + (x2 div 5)) div 2)
2: ((2 + (x2 div 7)) div 3)
2: ((x + (x2 div 7)) div 2)
2: ((x + (x2 div (1 + (2x div 3)))) div 2)
2: ((x + (x2 div (1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))) div 2)
2: ((1 + (x2 div (x - ((~x + 2) div 2)))) div 2)
2: ((1 + (x2 div 16)) div 2)
2: ((1 + (x2 div 16)) div 3)
2: ((1 + (((1 + (((x + 1) * (1 + (2 * ((3 * ((x div 2) div 3)) div 2)))) div 2)) div 2) div 2)) div 2)
2: ((1 + (((1 + (((x + 1) * (1 + ((1 - (x mod 3)) mod (x + 1)))) div 3)) div 2) div 2)) div 2)
2: ((1 + (((1 + ((x * loop(\(x,i).(x + (x2 div 3)),1,(x + ~1))) div 2)) div 2) div 2)) div 2)
2: ((1 + (((1 + loop(\(x,i).((x + 2) + (2x div 7)),x,2)) div 2) div 2)) div 2)
2: ((1 + (((3 * (1 + (loop(\(x,i).3x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 3))) div 2) div 2)) div 2)
2: ((x + ((((x + 2) * (2 - (x div ~4))) div 2) div 2)) div 2)
2: ((1 + (((3 * ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (2 + (x div (1 + (2 * (1 + (2 * ((x div 2) mod 2))))))))) div 2) div 2)) div 2)
2: ((1 + (((x * ((1 + (x div 2)) div 2)) div 3) div 2)) div 2)
2: ((1 + ((((x + 1) * ((1 + (x div 4)) div 2)) div 2) div 2)) div 2)
2: ((1 + (((((x + 1) * (1 + ((x * (x div 2)) div 4))) div 2) div 2) div 2)) div 2)
2: ((1 + ((loop(\(x,i).(x + (x div 2)),x,2) div 2) div 2)) div 2)
2: ((x + ((x div 2) div 7)) div 2)
2: ((x + ((x div 2) div ~6)) div 2)
2: ((1 + (((1 + ((x + 1) div (2 - (if (x mod 5) <= 0 then (x mod 2) else 0)))) mod (x + 1)) div 2)) div 2)
2: ((x + (((~x + 1) mod (4 + (x div 2))) div 2)) div 2)
2: (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) + (2 * ((2x + 1) div (3 + (x div 4))))) div 2)
2: ((1 + (((~1 + loop(\(x,i).2x,(x - (x div 8)),2)) mod (x + 1)) div 2)) div 2)
2: ((1 + (((~1 + loop(\(x,i).2x,2x,(1 + (x div (2 + (x mod 2)))))) mod (x + 1)) div 2)) div 2)
2: ((1 + (((~1 + loop(\(x,i).2x,x,(2 - (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))) mod (x + 1)) div 2)) div 2)
2: ((1 + ((x mod (1 + (2 * (if (x mod 2) <= 0 then x else 2)))) div 2)) div 3)
2: ((((x mod (2 + ((~x + 2) mod 5))) div 2) + (x mod 3)) div 2)
2: ((1 + ((x mod (2 + ((6 * (1 + (((x2 + 2x) div 2) mod (1 + ((1 + (x div 2)) div 3))))) mod (x + 1)))) div 2)) div 2)
2: ((1 + ((x mod (1 + (loop(\(x,i).(2x + 2),(loop(\(x,i).(~3x2 + x),2,2) mod (x + 1)),1) mod (x + 1)))) div 2)) div 2)
2: ((1 + ((if ((x * (x div 2)) mod 2) <= 0 then x else (x mod 3)) div 2)) div 2)
2: ((1 + ((if x <= 0 then 2 else (x - ((x div 3) mod 2))) div 2)) div 2)
2: ((1 + (loop(\(x,i).((x + 1) + ((x + (x div 2)) div 4)),x,1) div 2)) div 2)
2: ((x + (loop(\(x,i).((x + 2) + ((x - (x div 4)) div 2)),x,2) div 2)) div 2)
2: ((1 + (loop(\(x,i).(4x + ~2),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2)) div 3)
2: ((1 + (loop(\(x,i).2x,(x + ~1),x) div (x + 1))) div 2)
2: ((1 + (loop(\(x,i).2x,(x + ~7),1) div 2)) div 2)
2: ((1 + (loop(\(x,i).2x,(x + ~8),1) div 2)) div 2)
2: ((x + (loop(\(x,i).2x,x,(2 + (x div 4))) div 3)) div 2)
2: ((1 + (loop(\(x,i).(loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)),1,(x + 1)) div 2)) div 2)
2: ((1 + (x div 2)) div (3 + (x mod 2)))
2: ((1 + (x div 2)) div (2 + (x mod 2)))
2: ((x + (x div 2)) div (if (~x + 2) <= 0 then 2 else 1))
2: ((x + (x div 2)) div (if (x mod 2) <= 0 then 4 else (x + 1)))
2: ((1 + (x div 3)) div (2 + (2x2 mod (1 + (x div 2)))))
2: ((1 + (x div 3)) div (1 + (x mod (2 + (x mod 2)))))
2: ((1 + (x div 3)) div (2 * (1 + ((x + 2) mod 6))))
2: ((1 + (x div 4)) div (1 + (~x mod 4)))
2: ((1 + (x div 4)) div (1 + (x mod 5)))
2: ((1 + (x div 5)) div 2)
2: ((x + (x div (4 - ((x div 2) mod 2)))) div 2)
2: ((1 + (x div (3 - (x mod 2)))) div 3)
2: ((1 + (x div (1 + ((1 - ((2 * (1 + ((1 + (x mod (1 + (x div 4)))) div (1 + ((x + 1) mod 4))))) mod 3)) mod (x + 1))))) div 2)
2: ((1 + (x div (1 + ((~1 + loop(\(x,i).2x,(x + ~2),2)) mod (x + 1))))) div 2)
2: ((1 + (x div (2 + ((2 * (((1 + (8 mod (1 + (x div 2)))) div 2) - (x mod 2))) mod (x + 1))))) div 2)
2: ((1 + (x div (2 + (loop(\(x,i).2x,(1 + (((1 + (x div 2)) div 2) div 2)),2) mod (x + 1))))) div 2)
2: ((x + (x div (~x + 16))) div 5)
2: ((x + (x div 8)) div 4)
2: ((x + (x div 8)) div ~2)
2: ((1 + (x div (2 * (1 + (x div (2 * (1 + ((x + 2) mod 6)))))))) div 2)
2: ((x + (1 mod (8 - (x div 2)))) div 2)
2: ((x + (2 mod (1 + (x div 2)))) div 2)
2: ((x + (2 mod (x + 1))) div 3)
2: ((x + (4 mod (x + 1))) div 3)
2: ((x + ((1 + (x div 2)) mod 3)) div 4)
2: ((x + ((x + (x div 2)) mod 4)) div 4)
2: ((2 + ((x + 1) mod (2 + ((x mod (1 + (x div 2))) div 2)))) div 3)
2: ((1 + ((x + 1) mod (1 + (x div (2 + (x mod 5)))))) div 2)
2: ((x + ((x + 1) mod 6)) div 2)
2: ((x + ((x + 2) mod (2 + ((x div 2) mod 2)))) div 2)
2: ((1 + ((x + 2) mod (2 * (1 + (x mod (1 + ((x2 + 2x) mod 8))))))) div 3)
2: ((1 + ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod (2 * (1 + (x div 4))))) div 2)
2: ((x + ((1 - (x div 2)) mod 4)) div 2)
2: ((x + ((~x + 1) mod 3)) div 2)
2: ((x + ((2 - (x div 2)) mod 6)) div 3)
2: ((x + ((x + ~2) mod (2 + (x div 3)))) div 2)
2: ((1 + (6 mod (1 + (x div 2)))) div 3)
2: ((2 + ((8 * (1 + (x mod 2))) mod (x + 1))) div 3)
2: ((2 + ((2 * ((x + ((x + ~1) mod 3)) div 2)) mod (x + 1))) div 3)
2: ((x + (((x mod 3) * (x div 2)) mod 2)) div 2)
2: ((x + (2x mod (2 + (x div 2)))) div 4)
2: ((1 + (2x mod (2 + ((~x + 1) mod (2 + (x div 2)))))) div 2)
2: ((x + (((~x + 2) div 2) mod 4)) div 5)
2: ((((x2 div 2) mod 3) + loop(\(x,i).2x,x,1)) div 3)
2: (((((x div 2) div 3) mod 2) + (x div 2)) div 2)
2: ((((x div 3) mod 2) + (x div 4)) div 2)
2: ((((x div 4) mod 2) + (x div 2)) div ~2)
2: ((x + ((x div 4) mod 2)) div 3)
2: ((x + ((x div ~4) mod 2)) div 3)
2: ((1 + ((x mod (1 + (2 * (16 mod (x + 1))))) mod 4)) div 2)
2: ((1 + ((x mod (2 + (x div 2))) mod 4)) div 2)
2: ((x + ((if (x + ~2) <= 0 then 1 else x) mod 2)) div 3)
2: ((x + (x mod 3)) div 7)
2: (((x mod 5) + (x div 2)) div 2)
2: ((1 + (x mod (1 + (2 * (x div (2 * (2 + ((x + 2) mod (2 + (x mod 2)))))))))) div 2)
2: ((1 + (x mod (1 + (2 * (x div (2 * (2 + ((x div 2) mod 2)))))))) div 2)
2: ((x + (x mod (1 + (x div 3)))) div 2)
2: ((1 + (x mod (2 + ((1 + ((if ((x * (x mod 3)) mod 5) <= 0 then 1 else 2) * (1 + (x mod 2)))) mod (x + 1))))) div 3)
2: ((1 + (x mod (3 + ((x2 div 3) mod (x + 1))))) div 2)
2: ((1 + (x mod (1 + ((x mod 6) mod (1 + (x div 2)))))) div 2)
2: ((1 + (x mod (1 + (if x <= 0 then 0 else (1 + (x div (1 + (2 * (1 + (((x2 + ~x + 2) mod (x + 4)) div 2)))))))))) div 2)
2: (((x mod 6) + (x mod 5)) div 2)
2: ((x + (x mod 8)) div 5)
2: ((1 + (if (~2 + (x div 2)) <= 0 then x else (x + 2))) div 2)
2: ((1 + (if (~2 + (x div 2)) <= 0 then x else (x + 2))) div 3)
2: ((x + (if (~2 + (x div 4)) <= 0 then 2 else 0)) div 3)
2: ((1 + (if (x + ~2) <= 0 then 0 else x)) div 3)
2: ((x + (if (x + ~12) <= 0 then 2 else 1)) div 2)
2: ((1 + (if ((x + 1) mod (3 - (x mod 2))) <= 0 then x else 1)) div 2)
2: ((2 + ((if ((x + ~1) mod 3) <= 0 then 1 else x) + (x mod 2))) div 3)
2: ((x + (if ((x div 2) mod 3) <= 0 then 2 else 0)) div 2)
2: ((x + (if (x mod 2) <= 0 then x else 2)) div 3)
2: ((x + (if (x mod 3) <= 0 then 1 else 2)) div 4)
2: ((x + (if (x mod 3) <= 0 then 2 else 1)) div 4)
2: ((x + (if (x mod (3 + (x div 2))) <= 0 then 2 else 1)) div 2)
2: ((x + (if (i mod 2) <= 0 then 2 else 0)) div 3)
2: ((1 + loop(\(x,i).((x + 2) + (2x div 7)),x,2)) div 2)
2: ((loop(\(x,i).(3x + 1),x,1) + (((x + ~1) div 2) mod 3)) div 2)
2: ((1 + loop(\(x,i).(2x + (i mod 2)),x,1)) div 2)
2: ((x + loop(\(x,i).(1 - loop(\(x,i).(x - (if x <= 0 then 1 else (2 * (1 + i)))),x,2x)),2,x)) div 2)
2: ((loop(\(x,i).7x,x,1) + loop(\(x,i).3x,x,1)) div 2)
2: ((loop(\(x,i).(2 * (2x - (x div (1 + i)))),(x + ~1),2) + loop(\(x,i).4x,x,1)) div 2)
2: ((loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),(x div 2),((x + 1) mod 2)) + loop(\(x,i).2x,x,1)) div 2)
2: ((x + loop(\(x,i).10x,x,1)) div (x + 1))
2: ((loop(\(x,i).(10x + 10),(2x + 1),0) + loop(\(x,i).10x,x,2)) div 2)
2: ((1 + loop(\(x,i).8x,x,1)) div 3)
2: ((1 + loop(\(x,i).8x,x,2)) div 3)
2: ((x + loop(\(x,i).4x,i,1)) div (2x + 1))
2: ((loop(\(x,i).x3,2,x) + loop(\(x,i).x2,4,x)) div 2)
2: ((x + loop(\(x,i).x3,2,x)) div 2)
2: ((loop(\(x,i).(2x * i),(x div 2),1) + loop(\(x,i).(x * i),x,1)) div 2)
2: ((1 + loop(\(x,i).2x,((((1 + (8 mod (1 + (x div 2)))) div 2) + (if x <= 0 then 0 else 1)) - (x mod 2)),2)) div 3)
2: ((2 + loop(\(x,i).2x,x,1)) div 5)
2: ((loop(\(x,i).2x,x,2) + (x div 2)) div (x + 1))
2: ((x + loop(\(x,i).2x,x,2)) div (x + 1))
2: ((loop(\(x,i).x2,(x + ~1),2) + loop(\(x,i).x2,x,2)) div 2)
2: ((1 + loop(\(x,i).(x * i),(x + ~1),1)) div 2)
2: ((2 + loop(\(x,i).(x div (2 - (x mod 2))),x,(x div (1 + (if (x mod 3) <= 0 then 2 else 0))))) div 3)
2: ((x + 1) div (1 + (((1 + (x mod ((1 + (x mod (1 + (x div 4)))) * (1 + (x mod 2))))) mod (x + 1)) + (x mod 2))))
2: ((x + 1) div (4 + ((x + 1) mod 3)))
2: ((x + 1) div (1 + (((2x div (1 + ((x + 1) div 5))) mod 2) + (x mod 2))))
2: ((x + 1) div (3 - (x mod 2)))
2: ((x + 1) div (1 + (x div 2) - ((3 * (x div (4 - ((x * (x div 2)) mod 2)))) div 2)))
2: ((x + 1) div (1 + (2 * (1 + (x div (2 + ((~2x + 2) mod 5)))))))
2: ((x + 1) div (1 + (2 * (1 + (if (x mod 3) <= 0 then 0 else (1 + (2 * ((~1 + (x2 div 2)) mod (~1 + ((~2x + 2) mod (4 + (x div 4))))))))))))
2: ((x + 1) div (1 + (2 * ((2x + 1) div (3 + ((~2x + 2) mod (4 + (x div 4))))))))
2: ((x + 1) div (2 + ((x + 3) div (1 + (2 * (1 + (x mod 2)))))))
2: ((x + 1) div (2 + ((x + ~1) div (2 + (x div 2)))))
2: ((x + 1) div (2 + (x div 4)))
2: ((x + 1) div (2 + (x div (4 + (x mod 2)))))
2: ((x + 1) div (2 + (x div (2 + (((x div 2) mod 3) mod 2)))))
2: ((x + 1) div (1 + (x div (2 + (x mod 2)))))
2: ((x + 1) div (2 + ((1 + (if ((x + ~2) mod 6) <= 0 then x else 2)) mod (x + 1))))
2: ((x + 1) div (1 + ((2 - ((x + (x div 5)) mod 5)) mod (x + 1))))
2: ((x + 1) div (1 + ((~x + 2) mod 4)))
2: ((x + 1) div (2 + ((~1 + loop(\(x,i).2x,x,loop(\(x,i).2x,((x mod (1 + (x div 2))) div 2),2))) mod (x + 1))))
2: ((x + 1) div (2 + (((x2 + 1) div (2 + (x div 2))) mod 2)))
2: ((x + 1) div (2 + ((x2 mod (2 + (x div 2))) mod 2)))
2: ((x + 1) div (1 + (x mod (2 + (x div (1 + ((x div 2) mod (1 + (x mod (1 + ((~x + 2) mod 4)))))))))))
2: ((x + 1) div (1 + (x mod (2 + (x mod 4)))))
2: ((x + 1) div (2 + (x mod 11)))
2: ((x + 1) div (1 + (x mod 6)))
2: ((x + 1) div (1 + i))
2: ((x + 1) div (2 - ((~x + 1) div 5)))
2: ((x + 1) div (2 - (if (x mod 5) <= 0 then (x mod 2) else 0)))
2: ((x + 1) div (2 + (((x + 1) div 2) div 2) - loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x)))
2: ((x + 1) div (~x + 16))
2: ((x + 1) div (~1 + (2 * (((~1 + (2x mod (2 + (x div 2)))) div 2) mod 2))))
2: ((x + 1) div ((x + 1) + ((x div 2) mod 7) - (x mod 2)))
2: ((x + 1) div (2 * (1 + ((1 + ((x + 1) div (2 + (x div (4 + (x mod 2)))))) div 2))))
2: ((x + 1) div (2 * (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 8))))
2: ((x + 1) div (2 * (1 + (x mod (2 + (x mod 2))))))
2: ((x + 1) div (3 * ((1 + (x div 8)) * (1 + (x mod 2)))))
2: ((x + 1) div (if (x + ~4) <= 0 then 1 else 6))
2: ((x + 1) div (if (16 mod (x + 1)) <= 0 then 2 else 1))
2: ((x + 1) div loop(\(x,i).(x div (~2 + (x mod 2))),x,(x + 1)))
2: ((x + 1) div loop(\(x,i).i,(x mod (1 + (x div 4))),1))
2: ((x + 2) div (4 + (x div 8)))
2: ((x + 2) div (1 + (2 * (2 + (((x div 2) div 3) mod 2)))))
2: ((x + 2) div (1 + (2 * (1 + loop(\(x,i).(if x <= 0 then i else (x div 2)),x,0)))))
2: ((x + 2) div (1 + (2 * (((x + ~1) div 2) div 2))))
2: ((x + 2) div (2 + (3 * (x mod 2))))
2: ((x + 2) div (2 + (2x div (4 + ((x + 1) mod 4)))))
2: ((x + 2) div (2 + (((x + 1) div 2) div 2)))
2: ((x + 2) div (1 + (x div 3)))
2: ((x + 2) div (1 + ((x + 1) mod 3)))
2: ((x + 2) div (2 + ((x div 2) mod 2)))
2: ((x + 2) div (1 + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x)))
2: ((x + 2) div (2 - (((x div 2) div ~2) div 2)))
2: ((x + 2) div ~5)
2: ((x + 2) div (~9 + (x div 3)))
2: ((x + 2) div (8 - ((x + ~2) div 3)))
2: ((x + 2) div (~2 + (x mod 2)))
2: ((x + 2) div (~2x + 32))
2: ((1 + i) div 3)
2: ((x + i) div 3)
2: ((x + i) div (x + 1))
2: ((2 + compr(\x.(1 - loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),(x div 2),(x2 + 4x))),(x + 1))) div 3)
2: ((2 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x)) div 3)
2: ((compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x) + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)) div 2)
2: ((compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + ((x + ~1) div 3)) div 2)
2: ((compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)) div 2)
2: ((0 - (3 * ((x + 1) mod 12))) div (x + 1))
2: ((0 - ((x2 + (x div 2)) div 2)) div 2)
2: ((0 - (x div (1 + (loop(\(x,i).2x,x,2) mod (2x + 1))))) div 2)
2: ((0 - ((x div 2) mod 4)) div 2)
2: ((0 - (if (~x + 2) <= 0 then (x div 2) else 1)) div 3)
2: ((0 - (if (~2 + (x div 4)) <= 0 then 2 else x)) div 6)
2: (((~x + 1) - (2 * ((x + ((x div 2) mod 2)) div 2))) div 3)
2: (((~x + 1) - ((x * (x div 2)) mod 2)) div 3)
2: (((~x + 1) - ((x div 3) mod 3)) div 3)
2: ((~8x + 1) div (x + 3))
2: ((1 - (2 * ((x + (if (~2 + (x div 4)) <= 0 then 1 else 2)) div 2))) div 3)
2: ((1 - ((3x2 + ~x) div 4)) div 2)
2: ((1 - (((x mod 2) - (x div 2)) div 2)) div 2)
2: ((1 - ((x - (x2 div 4)) div 2)) div 2)
2: ((1 - ((x2 + 4x) div 2)) div 3)
2: ((1 - (x2 div 4)) div 3)
2: ((1 - (x2 div 4)) div (x + 1))
2: ((1 - (((x * (x div 3)) div ~2) div 2)) div 3)
2: ((1 - (((((x + ~2) * ((x div 3) * (1 - (x div 2)))) div 2) div 2) div 2)) div 3)
2: ((1 - (x div 2)) div (1 + (2 mod (x + 1))))
2: ((1 - (x div (~2 + (((2 - (x div 2)) div 2) div 2)))) div 2)
2: ((1 - (2x mod (4 + (x div 4)))) div 3)
2: ((1 - loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x)) div 2)
2: ((~x + 1) div (4 + ((x div 4) mod 2)))
2: ((~x + 1) div (3 + (x mod 6)))
2: ((~x + 1) div 13)
2: ((~x + 1) div (1 + (2 * (if x <= 0 then 0 else 2))))
2: ((~x + 1) div (1 + ((1 + (x div 2)) div 2)))
2: ((~x + 1) div ((x div 4) + (if x <= 0 then 1 else 2)))
2: ((~x + 1) div (1 + ((x div 2) mod 3)))
2: ((~x + 1) div (1 + (x mod 2)))
2: ((~x + 1) div (1 + (x mod (1 + (x mod (3 + (x mod 2)))))))
2: ((~x + 1) div (1 + (x mod (1 + (x mod (3 - (x mod 2)))))))
2: ((~x + 1) div (1 + (if (x + ~4) <= 0 then 1 else 2)))
2: ((~x + 1) div (1 + (if (x mod (3 + ((x div 2) div 3))) <= 0 then 2 else 0)))
2: ((~x + 1) div (2 - (x div (1 + ((x div 2) mod 2)))))
2: ((~x + 1) div ((x + 1) div (1 + (x div 3))))
2: ((2 + (if x <= 0 then 0 else 2) - (x div 2)) div (x + 1))
2: ((~x2 + 2) div (3x + ~1))
2: ((2 - ((x + (x div 2)) div 2)) div 2)
2: ((2 - ((x * (x mod 2)) div 2)) div 2)
2: ((2 - (x2 div 4)) div (x + 2))
2: ((2 - (((x + ~1) div 2) div 2)) div 2)
2: ((2 - (((~2x + 2) mod (4 + (x div 4))) div 2)) div 2)
2: ((2 - (x div (~5 + (x div 4)))) div 2)
2: ((2 - (16 mod (x + 1))) div 2)
2: ((2 - (2x mod (4 + (x div 4)))) div (x + 1))
2: ((2 - (2x mod (4 + (x div 4)))) div (x + 2))
2: ((2 - (x mod 4)) div 2)
2: ((2 - (x mod (2 + (x mod 3)))) div (x + 2))
2: ((2 - (x mod (~4 + (x mod 3)))) div 2)
2: ((2 - (x mod ((~x + ~1) + (x mod 4)))) div 2)
2: ((2 - (x mod (~1 + ((~x + 2) div 4)))) div 2)
2: ((~x + 2) div (3 + (x div 4)))
2: ((~x + 2) div (3 + (x mod 2)))
2: ((~x + 2) div (2 + (2x div 3)))
2: ((~x + 2) div (2 + ((((x + 1) div 2) div 2) div 2)))
2: ((~x + 2) div (2 + ((x div 2) div 3)))
2: ((~x + 2) div (x + 1))
2: ((~x + 2) div (2 + i))
2: ((~x + 2) div (2 - (x div ~8)))
2: ((~x + 2) div (2 - (x mod ~4)))
2: ((2 - i) div 2)
2: ((2 + (((~2x + 4) mod (2 + (x div 2))) div 2) - (x mod 2)) div 2)
2: (((x + ~1) + (x div 2)) div 2)
2: ((~3x + 2) div 5)
2: (((~x + 2) - (x div 2)) div 5)
2: (((~x + 2) - (x div 2)) div 8)
2: (((~x + ~1) + (x2 div 4)) div 3)
2: (((~x + ~1) + (((x * ((~x + 2) div 2)) div 2) div 3)) div 3)
2: (((~x + ~1) + ((x div 2) mod 3)) div 3)
2: (((~x + ~2) + (x mod 2)) div 5)
2: ((~x + (x mod 2) - (x div 3)) div 3)
2: (((x + ~2) - (x2 div 4)) div 3)
2: (((2 * (1 + ((2 + (((x div 3) * (x div 2)) div 2)) div 3))) - (x mod 3)) div 2)
2: ((x2 + x + ~1) div (x + 8))
2: ((x2 + 2x + ~1) div 2)
2: ((x2 + 2x + ~1) div 3)
2: ((x2 + ~x + ~1) div 3)
2: ((x2 + ~2x + ~1) div 2)
2: ((x2 + ~2x + ~2) div (x + 5))
2: ((~1 + (6 * (1 + (x div (3 + ((~1 + loop(\(x,i).(if x <= 0 then i else (x div 2)),x,2)) mod (x + 1))))))) div 2)
2: (31 div (x + 1))
2: ((~1 + (2 * ((~x + 2) div 4))) div 3)
2: ((~x + ((x + 1) * (x div 2))) div 4)
2: ((~1 + (x * (x div 4))) div 3)
2: ((~1 + (2 * (if x <= 0 then 1 else (2 * (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))))))) div 2)
2: ((2x + ~1) div 3)
2: ((2x + ~1) div (2 + (x div 2)))
2: ((2x - (x mod 4)) div 5)
2: ((x2 + ~1) div (x + 5))
2: ((x2 + ~2) div (4 + (x div 2)))
2: ((x2 + ~2) div (x + 16))
2: ((x2 - (((x2 + 2x) div 2) div 3)) div 2)
2: ((x2 - (x div 2)) div 3)
2: ((x2 - (x div 2)) div 7)
2: ((x2 - (x div ~2)) div 2)
2: ((x2 - (if x <= 0 then 0 else 1)) div 2)
2: ((~x + (2 div (x + 1))) div 4)
2: ((~1 + ((x2 + (x div 2)) div 2)) div 2)
2: ((((x + 1) div 2) - (2x div (~1 + (x div ~4)))) div 2)
2: ((~x + ((2 - (x div 2)) div 2)) div 3)
2: ((~x + ((~x + 2) div 2)) div 4)
2: ((~x + ((~x + 2) div 2)) div 5)
2: ((~x + ((~1 + (x div 2)) div 3)) div 2)
2: ((~x + ((~2 + (x div 2)) div 3)) div 2)
2: ((~1 + ((x + ~1) div 3)) div 3)
2: ((~2 + (2x2 div (x + 2))) div 3)
2: ((~1 + ((x * ((x div 2) div 3)) div 2)) div 2)
2: ((~x + ((2 * (x div 2)) div 3)) div 3)
2: ((~1 + (((x + 1) * (x div 2)) div 2)) div 2)
2: ((~x + ((x * (x div 2)) div 3)) div 5)
2: ((~1 + (((x + 1) * (x div 3)) div 2)) div 2)
2: (((x2 div 2) - (x div 3)) div 2)
2: (((x2 div 2) - (x mod 2)) div 2)
2: ((~1 + (x2 div 4)) div 2)
2: ((~x + (((2 - (x div 2)) div 2) div 2)) div 2)
2: ((~1 + ((x2 div 2) div 3)) div 2)
2: ((~x + ((x div 2) div 5)) div 2)
2: ((~x + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)) div 2)
2: ((~1 + (((2x + ~4) mod (x + 2)) div 2)) div 3)
2: ((~x + ((x mod 3) div 2)) div 2)
2: ((~x + ((x mod (1 + (x div 2))) div 2)) div 2)
2: ((~1 + ((x mod (1 + ((2 - (x mod 4)) mod (x + 1)))) div 2)) div 2)
2: ((~1 + (x div 2)) div (~1 + (2 * (x mod 4))))
2: (((~2x + ~2) + (x div 2)) div 5)
2: (((x div 2) - (((x + 1) div 3) mod 4)) div 2)
2: (((x div 2) - (if (~2 + (x div 2)) <= 0 then 1 else 0)) div 2)
2: ((~1 + (x div 3)) div (1 + ((x div 4) mod 2)))
2: (((x div 4) - (x mod 4)) div 2)
2: ((~1 + (x div (2 + (x mod 2)))) div 2)
2: ((~x + ((1 + (x div 2)) mod 3)) div 3)
2: ((~x + ((x + 2) mod 5)) div 4)
2: ((~2 + ((~2x + 2) mod (4 + (x div 4)))) div 2)
2: ((~x + (x2 mod 3)) div 2)
2: (((((x div 2) div 3) mod 2) - (if x <= 0 then 1 else x)) div 2)
2: ((((x div 2) mod 2) - (if (~x + 2) <= 0 then x else 0)) div 2)
2: ((~x + ((x div 2) mod 2)) div 3)
2: ((~x + ((x div 2) mod 2)) div 5)
2: ((~x + ((x div 2) mod 3)) div 2)
2: ((~x + ((x div ~2) mod 2)) div 3)
2: ((~x + ((i mod 3) mod 2)) div 2)
2: (((x mod 2) - ((x2 + ~x) div 4)) div 2)
2: (((x mod 2) - (x div 5)) div 2)
2: (((x mod 2) - (x div (~1 + ((~x + 2) div 4)))) div 2)
2: ((~x + (x mod (1 + (x div 3)))) div 2)
2: (((x mod 6) - (x div 2)) div 2)
2: ((~1 + (x mod 8)) div 2)
2: ((~x + (x mod 8)) div 2)
2: ((~x + (if (~2 + (x div 2)) <= 0 then 0 else 2)) div 2)
2: ((~x + (if (~2 + (x div 3)) <= 0 then 2 else 0)) div 3)
2: ((~x + (if (x + ~2) <= 0 then x else 0)) div 5)
2: ((~x + loop(\(x,i).((x + 1) + (2 * ((x div 2) div 3))),x,1)) div 5)
2: ((loop(\(x,i).3x,x,1) - loop(\(x,i).3x,(x div 2),1)) div 2)
2: ((~1 + loop(\(x,i).10x,(x + 1),1)) div (x + 1))
2: ((loop(\(x,i).4x,x,1) - loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,1)) div 2)
2: ((~1 + loop(\(x,i).2x,(x + ~2),2)) div (x + 1))
2: ((x + ~1) div 9)
2: ((x + ~1) div (1 + ((x div 2) div 3)))
2: ((x + ~1) div (2 + (x div 3)))
2: ((x + ~1) div (1 + (x div (2 + (if (x mod 3) <= 0 then 2 else 0)))))
2: ((x + ~1) div (~1 + (x mod ~4)))
2: ((x + ~1) div (if ((x div 2) mod 3) <= 0 then 1 else 2))
2: ((x + ~2) div (4 + (x div 5)))
2: ((x + ~2) div 7)
2: ((x + ~2) div (2 + (x mod 2)))
2: (((x + ~1) + ((x div 2) div 3)) div 2)
2: (((x + 1) - (2 * (x mod 2))) div 5)
2: ((x + (3 * (if (~2 + (x div 2)) <= 0 then 1 else 2)) - (x div 2)) div 2)
2: (((x + 2) - (2 mod (~x2 + 2))) div 2)
2: (((x + 1) - ((x div 4) mod 2)) div 3)
2: ((9x2 + ~5x) div 2)
2: ((x - (2 * ((2x div (4 + (x div 4))) mod 2))) div 3)
2: ((x - (2 * (x mod 2))) div 3)
2: ((x - ((x2 + (x div 2)) div 3)) div 2)
2: ((x - ((x + (x div 2)) div 5)) div 2)
2: ((x - ((1 + ((x mod (2 + (x div 2))) mod 4)) div 2)) div 2)
2: ((x - ((0 - (3 * ((x + 1) mod 12))) div (x + 1))) div 2)
2: ((x - ((~x + 1) div 3)) div 3)
2: ((x - ((~1 + (x2 div 2)) div 5)) div 2)
2: ((x - ((~x + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)) div 2)) div 2)
2: ((x - ((~1 + (((2x + ~4) mod (x + 2)) div 2)) div 3)) div 2)
2: ((x - ((~x + (x div 3)) div 3)) div 2)
2: ((x - (((x mod 6) - (x div 2)) div 2)) div 2)
2: ((x - ((x * (~2 + (x div 2))) div (x + 1))) div 2)
2: ((x - ((x2 + ~x) div 8)) div 2)
2: ((x - (x3 div (~x + ~31))) div 2)
2: ((x - ((3 * ((x div 2) div 3)) div 2)) div 2)
2: ((x - (((x + ~2) * (x div 2)) div (x + 1))) div 2)
2: ((x - (((~x + 1) * (x div 3)) div 2)) div 2)
2: ((x - (2x div (2 + (x div 5)))) div 2)
2: ((x - (x2 div 4)) div (2 + (x div 3)))
2: ((x - (x2 div ~7)) div 2)
2: ((x - (x2 div 8)) div 2)
2: ((x - ((x * i) div 3)) div 2)
2: ((x - (((~x + 2) div 2) div 5)) div 2)
2: ((x - (((x * ((~x + 2) div 2)) div 2) div 3)) div 3)
2: ((x - ((x div 2) div 3)) div (2 + (x div 3)))
2: ((x - ((x div 2) div ~2)) div 3)
2: ((x - ((x div 4) div ~2)) div 2)
2: ((x - ((x mod 5) div 2)) div 2)
2: ((x - (x div (3 + ((~x + 1) mod 3)))) div 2)
2: ((x - (x div (~11 + (x div 2)))) div 2)
2: ((x - (x div (1 + ((1 + (x div 2)) div 3)))) div 2)
2: ((x - (x div (1 + (x div 5)))) div 3)
2: ((x - (x div (2 + (x div (2 + (x2 mod 5)))))) div 2)
2: ((x - (x div (~2 + ((x2 div 2) mod ~3)))) div 2)
2: ((x - ((~x + 2) mod (2 + (x div 2)))) div 2)
2: ((x - ((x - (x div 4)) mod 2)) div 3)
2: ((x - (((x + 1) div 5) mod 2)) div 2)
2: ((x - ((x div 2) mod 4)) div 3)
2: ((x - ((x div 3) mod 3)) div 3)
2: ((x - ((x div 4) mod 2)) div 3)
2: ((x - ((x div (1 + ((x + ~1) mod 3))) mod 3)) div 2)
2: ((x - ((x div (1 + (x mod 3))) mod 2)) div 2)
2: ((x - (((x + 1) mod 5) mod 2)) div 2)
2: ((x - ((if (~2 + (x div 2)) <= 0 then 2 else (x + ~2)) mod 5)) div 2)
2: ((x - (x mod (1 + (x div 3)))) div 2)
2: ((x - (x mod (1 - (2 * (((x + 1) div 2) div 2))))) div 2)
2: ((x - (x mod (~1 + (2 * ((~2x + 2) div 9))))) div 3)
2: ((x - (x mod (~2 + ((x div 2) mod 2)))) div 3)
2: ((x - (if (~2 + (x div 2)) <= 0 then x else 1)) div 2)
2: ((x - i) div 2)
2: ((x - i) div 4)
2: ((compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x) - compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)) div 2)
2: (6 div (1 + (x div 2)))
2: (3x div (x + 3))
2: (3x div (1 + ((x + 2) div 5)))
2: (3x div (1 + (x mod 4)))
2: (3x div (16 - (x div 2)))
2: (8 div (1 + i))
2: (12 div (x + 1))
2: ((4x + ~4) div (4 + (x div 2)))
2: (10 div (x + 1))
2: ((5x + 10) div (1 + i))
2: (5x div (x + 3))
2: (5x div (~1 - i))
2: ((2 * ((3x + 2) - ((x - ((x + (x div 3)) div 3)) div 2))) div 3)
2: ((2 * ((x + 1) + (2 * ((2 * (2x - (x mod 8))) - (x mod 4))))) div 3)
2: ((x * ((x + 2) + (2 * (x mod 2)))) div 2)
2: ((x * ((x + 2) + ((x3 + 2x) div 3))) div 4)
2: ((2 * ((x + 2) + ((2 * ((x + (if (~2 + (x div 2)) <= 0 then 1 else 0)) div 2)) div 3))) div 3)
2: ((2 * ((x + 2) + (((~1 + (x2 div 4)) div 2) div 2))) div 3)
2: (((4 + (x div 2)) * ((x + ~1) div 2)) div 2)
2: ((x * (4 + (x div 4))) div (x + 1))
2: ((5 * (1 + (((1 + (x mod ((1 + (x mod (1 + (x div 4)))) * (1 + (x mod 2))))) mod (x + 1)) + (x mod 2)))) div 2)
2: ((3 * (x + ((((x + 1) div (1 + (x mod 4))) mod 2) + (x div 3)))) div 2)
2: ((~2 * ((x + 1) + (x mod 2))) div 5)
2: ((2 * ((x + 2) + (if x <= 0 then 1 else (6x - (((x + ~1) mod (2 + (x div 2))) div 2))))) div 3)
2: ((2 * ((x + 1) + loop(\(x,i).(x - (x div (~2 + ((~x + 2) div 4)))),x,1))) div 3)
2: ((2x + 8) div 5)
2: ((3x + 12) div (if x <= 0 then 1 else x))
2: ((x2 + 4x) div 3)
2: ((x2 + 4x) div (if (x mod 2) <= 0 then 4 else 1))
2: (((3 + i) * i) div 2)
2: ((~x2 + 3x) div 4)
2: ((x * ((~x + 1) + (4 * (x + ((x div 2) mod 2))))) div 2)
2: (((x + 2) * ((4x + 9) - (x mod 2))) div 2)
2: ((x * ((2x + 1) - (x mod 4))) div 4)
2: ((2 * ((x + 2) - ((x mod (2 + (6 mod (1 + (x div 2))))) div 2))) div 3)
2: ((7 * (x div 4)) div 2)
2: ((3x2 + 8x + 4) div 2)
2: ((3x2 + 2x) div 4)
2: ((13 * (1 + (x div 2))) div 5)
2: ((5x2 + 11x + 2) div 2)
2: ((7x2 + 3x) div 2)
2: ((2x3 + 3x2 + 2x + 1) div 2)
2: ((x3 + 3x2 + 3x + 2) div 2)
2: ((2x2 + 5x) div 3)
2: ((3x2 + 10x + 8) div 2)
2: ((3x2 + 4x) div 4)
2: ((5x2 + 10x + 5) div 7)
2: ((2 * (1 + (x * (~1 + (2 * i))))) div (1 + i))
2: (17x div (if i <= 0 then 1 else i))
2: ((27x2 + 33x + 8) div 2)
2: ((9x2 + 13x + 4) div 2)
2: ((3 * ((10x + 10) + (x div 2))) div 2)
2: ((3x3 + 3x2 + 2x) div 2)
2: ((x4 + 3x3 + 3x2 + 2x + 1) div 2)
2: ((5x2 + 13x + 8) div 2)
2: (33x div (if i <= 0 then 1 else i))
2: ((x4 + x) div 2)
2: ((3 * (x + (2 * ((x + (x div 2)) div 2)))) div 2)
2: ((2 * (1 + (2 * ((x - ((x div 2) mod 4)) div 2)))) div 3)
2: (((x + 1) * (1 + (2 * ((3 * ((x div 2) div 3)) div 2)))) div 2)
2: ((x * (x + (2 * (x mod 2)))) div 2)
2: ((2 * (1 + (2 * (if (x + ~4) <= 0 then x else (x + 1))))) div 3)
2: ((x3 + x) div (x + 2))
2: ((x3 + 2x) div 9)
2: ((2 * (2 + (((x + 1) + (if (x mod 4) <= 0 then 2x else (x div 2))) div 2))) div 3)
2: ((2 * (1 + ((1 + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (1 + (((x + 1) div 2) div 2)))) div 2))) div 3)
2: ((2 * (1 + ((1 + (((~1 + loop(\(x,i).2x,(x - (x div 8)),2)) mod (x + 1)) div 2)) div 2))) div 3)
2: ((2 * (1 + ((1 + (((~1 + loop(\(x,i).2x,x,(2 - (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))) mod (x + 1)) div 2)) div 2))) div 3)
2: ((2 * (1 + ((1 + (x div (1 + ((1 - ((2 * (1 + ((1 + (x mod (1 + (x div 4)))) div (1 + ((x + 1) mod 4))))) mod 3)) mod (x + 1))))) div 2))) div 3)
2: ((2 * (1 + ((1 + (x div (2 + ((2 * (((1 + (8 mod (1 + (x div 2)))) div 2) - (x mod 2))) mod (x + 1))))) div 2))) div 3)
2: ((2 * (1 + ((1 + (x div (2 + (loop(\(x,i).2x,(1 + (((1 + (x div 2)) div 2) div 2)),2) mod (x + 1))))) div 2))) div 3)
2: ((2 * (1 + ((1 + ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod (2 * (1 + (x div 4))))) div 2))) div 3)
2: ((2 * (x + ((x + ((1 - (x div 2)) mod 4)) div 2))) div 3)
2: ((2 * (x + ((x + ((x div 2) mod 4)) div 2))) div 3)
2: (((1 + ((x + 1) div 3)) * (x div 3)) div 2)
2: ((4 * (x + ((x + 1) div 5))) div 3)
2: (((x + 1) * (1 + ((x + 1) div 7))) div 9)
2: (((x + 1) * (1 + ((x + ~1) div 5))) div 2)
2: (((1 + ((x - (x div 3)) div 3)) * (1 + (x div 2))) div 2)
2: ((3 * (x + ((x - ((x div 2) mod 2)) div 2))) div 2)
2: ((2 * (x + (6 div (x + 1)))) div 3)
2: (((x + 1) * (x + ((x2 + 2x) div 4))) div 2)
2: (((x + 1) * (x + ((x2 + 2x) div 4))) div 3)
2: ((2 * (2 + ((2x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) div 3))) div 3)
2: (((x + 1) * (1 + ((x * (x div 2)) div 4))) div 2)
2: (((x + ~1) * (x + ((x * (x div 2)) div 4))) div 2)
2: ((x * (2 + (x2 div 2))) div (x + 1))
2: ((x * (1 + (x2 div (x + 5)))) div 2)
2: ((x * (1 + (((x + 1) div 2) div 2))) div 2)
2: ((2 * (1 + ((((1 + ((x - (x div 3)) div 3)) * (1 + (x div 2))) div 2) div 2))) div 3)
2: ((2 * (1 + ((((x + ~1) * (x + (x div 3))) div 2) div 3))) div 3)
2: ((3 * (1 + ((x div 2) div (1 + (x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4)))))))))) div 2)
2: ((2 * (1 + ((x div 4) div (1 + (x mod (2 * (1 + (x mod 2)))))))) div 3)
2: ((3 * (1 + (((1 + (x mod (1 + (x mod (2 * (2 + ((x div 2) mod 2))))))) mod (x + 1)) div 2))) div 2)
2: ((2 * (1 + (loop(\(x,i).2x,((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3),1) div 2))) div 3)
2: ((2 * (1 + (x div 2))) div 5)
2: ((3 * (1 + (x div 2))) div 2)
2: (((1 + (x div 2)) * (x div 2)) div 5)
2: ((x * (1 + (x div 2))) div 2)
2: ((3 * (2 + (x div 2))) div 2)
2: (((x + 1) * (2 + (x div 2))) div 2)
2: (((2 + (x div 2)) * (x div 2)) div 2)
2: ((x * (2 + (x div 2))) div 2)
2: ((2 * (x + (x div 2))) div 5)
2: (((x + ~1) * (x + (x div 2))) div 2)
2: (((x + ~1) * (x + (x div 3))) div 2)
2: ((5 * (x + (x div 7))) div 2)
2: (((x + 1) * (1 + ((1 - (x mod 3)) mod (x + 1)))) div 3)
2: ((2 * (x + ((x * (x div 2)) mod 2))) div 3)
2: (((1 + ((x div 2) mod 2)) * (1 + (x div 2))) div 3)
2: (((x + 1) * (1 + ((2x mod (2 + (x div 3))) mod 2))) div 2)
2: (((x + 1) * (2 + (x mod 2))) div 2)
2: (((2 + (x mod 2)) * (x div 2)) div 2)
2: ((2 * (x + (x mod 2))) div 7)
2: ((x * (x + (x mod 3))) div 2)
2: (((1 + (x mod 5)) * (x div 5)) div 2)
2: ((2 * (x + (x mod 5))) div 5)
2: ((2 * (1 + (x mod 6))) div 3)
2: ((x * (2 + (x mod 8))) div (x + 1))
2: ((3 * (x + (if (~x + 2) <= 0 then (2 + (x div 4)) else 1))) div 2)
2: ((4 * (x + (if (~4 + (x div 2)) <= 0 then 1 else 2))) div 3)
2: ((2 * (x + (if (~2 + (x div 4)) <= 0 then 1 else 2))) div 3)
2: ((3 * (x + (if (~2 + (x div 4)) <= 0 then 1 else 2))) div 2)
2: ((3 * (x + (if (~2 + (x div 4)) <= 0 then 2 else 1))) div 2)
2: (((x + 1) * (1 + (if (~1 + ((2x + 1) mod (2 + (x div 4)))) <= 0 then x else 0))) div 3)
2: ((2 * (x + (if (x + ~4) <= 0 then 1 else x))) div (x + 2))
2: ((3 * (2 + (if x <= 0 then 0 else (1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x))))) div 7)
2: ((3 * (x + loop(\(x,i).((x + 1) - (((x + 1) div 2) div 3)),2,x))) div 2)
2: ((5 * (x + loop(\(x,i).(x - (if (~2 + (x div 2)) <= 0 then 0 else 1)),2,x))) div 2)
2: ((2x + 2) div ~5)
2: ((2x + 2) div loop(\(x,i).(x div (~2 + (x mod 2))),x,(x + 1)))
2: ((x2 + x) div 7)
2: ((x2 + x) div (x + 16))
2: ((x2 + x) div (1 + ((x2 + x) mod 3)))
2: ((x2 + x) div ~2)
2: ((x2 + x) div 8)
2: ((x2 + x) div (2 * (2 - ((x div ~2) mod 2))))
2: ((x2 + x) div 24)
2: ((3x + 6) div (1 + i))
2: ((x2 + 3x + 2) div (x + 8))
2: ((x2 + 3x + 2) div (1 + (x mod 2)))
2: ((x2 + 3x + 2) div (1 + (if (x mod 3) <= 0 then 2 else 0)))
2: ((x2 + 3x + 2) div 11)
2: ((x2 + 2x) div ~5)
2: ((x2 + 2x) div 12)
2: ((x * (2 + i)) div (1 + (i div 2)))
2: (((1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) * (1 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))) div 2)
2: (((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) * (1 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))) div 2)
2: (((~x2 + 1) * (x div 4)) div 2)
2: ((~x3 + x) div 4)
2: ((~x3 + x) div (2 + (x div 2)))
2: (((1 - (x div 2)) * (x div 4)) div 2)
2: ((x * (1 - ((x3 div 8) mod 2))) div 4)
2: ((x * (1 - ((x3 div 8) mod 2))) div 5)
2: ((~2x + 2) div (3 + (x div 3)))
2: ((~x2 + ~x + 2) div 2)
2: ((~2x2 + 2x) div (2 + (x div 2)))
2: ((~x2 + x) div 7)
2: ((~2x2 + 4) div 5)
2: ((2 * (2 - ((x div 2) div ~2))) div 3)
2: (((x + 1) * (2 - (x div 2))) div 2)
2: (((2 - (x div 2)) * (x div 2)) div 2)
2: (((2 - (x div 2)) * (x div 4)) div 2)
2: (((2 - (x div 3)) * (x div 3)) div 2)
2: (((x + 2) * (2 - (x div ~4))) div 2)
2: ((x * (2 - (x mod 5))) div 2)
2: ((~2x + 4) div (2 + (((x + 1) div 2) div 2)))
2: ((~x2 + 4x + ~4) div (x + 2))
2: (((~x + 2) * (x div 2)) div (x + 3))
2: (((~x + 2) * (x div 2)) div (x + 4))
2: ((~x2 + 2x) div (4 + (x div 2)))
2: ((~x2 + 2x) div (2x + 3))
2: ((~x2 + 2x) div (1 + (x2 div 2)))
2: ((~x2 + 2x) div (x + 2))
2: ((~x2 + 2x) div 8)
2: ((x * (2 - i)) div (1 + i))
2: ((2 * ((12x + 11) - (x mod 3))) div 5)
2: (11x div (if i <= 0 then 1 else i))
2: ((x3 + 5x2 + ~2x) div 2)
2: ((3x2 + 17x) div 2)
2: ((x3 + 3x2 + ~2x) div 2)
2: ((9x2 + 5x) div 2)
2: ((2 * ((2x + 4) - ((1 - (x div 2)) div 5))) div 3)
2: ((2 * ((2x + 4) - ((~x + 2) div (2 + (x div 4))))) div 3)
2: ((3x2 + 5x) div 2)
2: (((~x2 + 2x + ~2) * (x div 2)) div (x + 1))
2: ((31x2 + ~x) div 2)
2: ((x3 + ~3x2 + ~x) div 3)
2: ((x * (~1 + (9 * i))) div (1 + i))
2: ((11x2 + 19x + 8) div 2)
2: ((3x3 + 3x2 + ~2x) div 2)
2: ((x7 + ~x) div 2)
2: ((2 * (4x - (x div 7))) div 3)
2: ((x5 + ~x) div 5)
2: (((x + 1) * (~1 + (2 * loop(\(x,i).(x2 + 2),2,5)))) div 2)
2: ((2 * (2x - (x div ~7))) div 3)
2: ((x3 + x2 + ~x + ~1) div 2)
2: (((x2 + ~1) * (x div 2)) div 2)
2: (((x + 4) * (x2 - (x div 2))) div 2)
2: ((x * (~1 + ((~x + 2) div 3))) div 2)
2: ((3 * (~x + ((~2x + 2) div 5))) div 2)
2: ((2 * (~x + (x2 div 3))) div (x + 3))
2: ((2 * (~x + (x2 div 3))) div (x + 2))
2: (((~1 + (x div 2)) * (x div 3)) div 2)
2: ((x * (~2 + (x div 2))) div (x + 1))
2: ((((~2x + ~4) + (x div 2)) * (1 + (x div 2))) div 2)
2: ((x * (~2 + (x div 3))) div 4)
2: ((x * (~x + (x div 3))) div 5)
2: ((2 * (~x + (x div 9))) div 3)
2: ((3x + ~3) div (2 + (x div 4)))
2: ((x2 + ~x) div (4 + (x * (x mod 2))))
2: ((x2 + ~x) div (x + 3))
2: ((x2 + ~x) div 9)
2: ((x2 + ~x) div (x + (if x <= 0 then 1 else (x div 3))))
2: ((x2 + ~x) div 11)
2: ((x2 + ~x) div (~x + 24))
2: ((x2 + ~x) div (2x + 4))
2: ((x2 + ~x) div (~6x + 108))
2: ((2x + ~4) div (x + 4))
2: ((x2 + ~4x + 4) div (x + 1))
2: ((x2 + ~2x) div 5)
2: ((x2 + ~2x) div 7)
2: ((x2 + ~2x) div (x + 16))
2: ((3 * ((x + 1) - (x div ~6))) div 2)
2: (((x + 1) * (x - (2 * ((x + (x div 4)) div ~2)))) div 2)
2: ((2 * (x - (2 * (x div 5)))) div 3)
2: (((x - (5 * (x div ~2))) * (1 + (x div 2))) div 2)
2: ((3 * (x - ((~1 + (2 * ((~x + 2) div 4))) div 3))) div 2)
2: ((2 * (x - ((x div 2) div 5))) div 3)
2: ((3 * (x - ((if x <= 0 then 1 else x) div ~7))) div 2)
2: ((x * (x - (x div 3))) div (x + 2))
2: ((2 * (x - (((x + 1) div 2) mod 3))) div 3)
2: (18 div (x + 1))
2: (15x div (if i <= 0 then 1 else i))
2: ((8 * (1 + (x div 2))) div 5)
2: ((8x + 8) div 3)
2: (20 div (x + 1))
2: (25x div (if i <= 0 then 1 else i))
2: ((5 * (i * i)) div 2)
2: ((x3 + 9x2 + 14x) div 2)
2: ((x3 + 9x2 + 20x + 12) div 2)
2: ((4 * ((x + 1) + (if (x + ~4) <= 0 then 1 else 2))) div 3)
2: (28 div (x + 1))
2: (21x div (if i <= 0 then 1 else i))
2: ((18x + 12) div 5)
2: ((10x3 + 3x2 + ~4x) div 2)
2: ((5x3 + 21x2 + 28x + 12) div 2)
2: ((19x2 + 19x) div 2)
2: (34x div (if i <= 0 then 1 else i))
2: ((x3 + 19x2 + 50x + 32) div 2)
2: ((9x3 + 31x2 + 30x + 8) div 2)
2: ((49x2 + 49x) div 2)
2: ((x8 + x3) div 2)
2: ((4x3 + 2x) div 3)
2: ((x6 + x3) div 2)
2: ((4x * (1 + (2 * (i div 2)))) div (1 + i))
2: ((2x3 + 4x) div 3)
2: ((x4 + x3 + 2x2 + 2x) div 2)
2: ((4 * (1 + (if (~2 + (x div 3)) <= 0 then x else (x + 2)))) div 3)
2: ((2x2 + 4x + 2) div 5)
2: ((4x2 + 10x + 4) div 3)
2: ((x3 + 6x2 + 8x) div 3)
2: ((2x3 + 5x2 + 2x) div 2)
2: (~3x2 div 5)
2: ((~21 * (1 + (x div 3))) div 5)
2: (22x div (if i <= 0 then 1 else i))
2: (55x div (if i <= 0 then 1 else i))
2: ((4 * ((2x + 2) - (x mod 3))) div 3)
2: ((x4 + 2x3 + ~x2) div 2)
2: ((23x2 + 23x) div 2)
2: ((7x3 + 15x2 + 8x) div 2)
2: ((4 * (2x - (x mod ~3))) div 3)
2: ((x4 + ~x2) div 2)
2: ((x4 + ~x2) div 12)
2: ((x3 + ~4x2 + 4x) div (x + 2))
2: ((5x3 + ~3x2) div 2)
2: ((4 * (x - ((~x + 1) div 5))) div 3)
2: (27x div (if i <= 0 then 1 else i))
2: (32 div (x + 1))
2: ((16x + 16) div 3)
2: ((16x + 16) div 5)
2: ((24x + 24) div 7)
2: ((x4 + 9x3 + 28x2 + 36x + 16) div 2)
2: ((x6 + ~2x4 + x2) div 2)
2: (64 div (x + 1))
2: (32x div (if i <= 0 then 1 else i))
2: (48x div (if i <= 0 then 1 else i))
2: (24x div (if i <= 0 then 1 else i))
2: (72x div (1 + i))
2: (36x div (if i <= 0 then 1 else i))
2: (60x div (1 + i))
2: ((x6 + x5) div 2)
2: ((8 * ((4 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2)) div 3)) div 3)
2: (8x div (x + 2))
2: (12x div (if i <= 0 then 1 else i))
2: (20x div (if i <= 0 then 1 else i))
2: ((4x * (~1 + (2 * i))) div (2 + i))
2: (18x div (if i <= 0 then 1 else i))
2: (30x div (if i <= 0 then 1 else i))
2: ((4x3 + 6x2 + 2x) div 3)
2: ((~x4 + x3) div 2)
2: ((4 * ((1 + (4 * (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (if (x mod 3) <= 0 then 2 else 1))))) div 3)) div 3)
2: ((4 * ((2 + (x div 2)) div 3)) div 3)
2: ((4 * ((3 * (x + (if (~x + 2) <= 0 then (2 + (x div 4)) else 1))) div 2)) div 3)
2: ((4 * (2x div 3)) div 3)
2: ((2 * (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2))) div 3)
2: ((2x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) div 3)
2: ((2x * (x div 2)) div (2 + (x div 2)))
2: (((x + ~2) * ((x div 3) * (1 - (x div 2)))) div 2)
2: ((4 * (loop(\(x,i).2x,x,x) mod (x + 1))) div 3)
2: ((4 * (if (~4 + (x div 2)) <= 0 then x else (x + 2))) div 3)
2: (((x2 + 5x + 6) * loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x + 2),(x + 1))) div 2)
2: (4x div 5)
2: (4x div (3 + (x div 2)))
2: (4x div ((x + 2) + (loop(\(x,i).(2x + 2),x,0) mod (x + 1))))
2: (4x div (x + 3))
2: (4x div (8 + (x div 3)))
2: (4x div (2 + (x div 2)))
2: (4x div (x + (if (8 mod (x + 1)) <= 0 then 2 else 0)))
2: (4x div ~7)
2: (2x2 div (1 + (x div 2)))
2: (2x2 div ~7)
2: (2x2 div ~3)
2: (2x2 div ((x + 1) - ((1 - (x div 3)) div 3)))
2: (3x2 div 7)
2: (4x2 div 3)
2: (4x2 div 5)
2: (4x2 div (x + 4))
2: (4x2 div (x + 1))
2: ((x3 + ~x2) div 3)
2: ((x3 + ~x2) div 65)
2: ((x3 + ~2x2) div (x + 2))
2: (2x3 div (1 + (x div 2)))
2: (x4 div 4)
2: (x4 div (2x + ~1))
2: ((x2 * (x mod 2)) div 8)
2: (x3 div 5)
2: (x3 div (3x + 1))
2: (x3 div 9)
2: (x3 div (~x + ~31))
2: (x3 div (~1 + (2 * (x div 2))))
2: (x3 div 16)
2: (x3 div loop(\(x,i).x3,1,6))
2: ((4x * i) div (1 + i))
2: ((x * (i * i)) div 2)
2: ((3 * (((5x + 5) + ((x div 2) div 3)) div 2)) div 2)
2: ((3 * ((x + (2 * (x + (x2 div (x + 17))))) div 3)) div 2)
2: ((3 * ((1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((3 * ((~x + 2) div 2)) div 2))) div 2)) div 2)
2: ((2 * ((2x + 1) div ~7)) div 3)
2: ((3 * ((1 + (x div 2)) div 2)) div 2)
2: (((x + 1) * ((1 + (x div 2)) div 3)) div 2)
2: ((3 * ((1 + (x div 2)) div (3 + (x mod 2)))) div 2)
2: ((x * ((1 + (x div 3)) div 2)) div 5)
2: ((2 * ((x + (x div 3)) div 3)) div 3)
2: (((x + 1) * ((1 + (x div 4)) div 2)) div 2)
2: ((3 * (((if (~2 + (x div 2)) <= 0 then 1 else 2) + (x div 2)) div 2)) div 2)
2: ((2 * ((2 + ((if ((x + ~1) mod 3) <= 0 then 1 else x) + (x mod 2))) div 3)) div 3)
2: ((3 * ((x + 1) div 2)) div 2)
2: (((x + 2) * ((x + 1) div 2)) div 2)
2: ((((x + 1) div 2) * (x div 3)) div 2)
2: ((((x + 1) div 5) * (x div 3)) div 2)
2: ((((~x + 1) div 3) * ((x + ~1) div 2)) div 2)
2: ((x * ((~x + 1) div (2 + (x div 2)))) div 2)
2: ((((2 - (x div 2)) div 2) * (x div 3)) div 2)
2: (((x + 2) * ((2 - (2x mod (4 + (x div 4)))) div (x + 1))) div 2)
2: ((2 * ((~x + 2) div 2)) div 5)
2: (((x + 1) * ((~x + 2) div 2)) div 2)
2: (((x + 2) * ((~x + 2) div 2)) div 2)
2: (((2x + ~1) * ((~x + 2) div 2)) div 2)
2: ((((~x + 2) div 2) * (x div 3)) div 3)
2: ((((~x + 2) div 2) * (x mod 3)) div 2)
2: ((x * ((~1 + (x div 2)) div 2)) div 2)
2: ((3 * ((~x + ((x div 2) mod 2)) div 2)) div 2)
2: ((x * ((x + ~1) div 2)) div 3)
2: ((x * ((x + ~1) div 3)) div (x + 1))
2: ((x * ((x + ~2) div 3)) div 2)
2: ((2 * ((x - (x div ~4)) div 2)) div 3)
2: (((x + 2) * ((x4 + 3x3 + 3x2 + 2x + 1) div 2)) div 2)
2: ((3 * ((3 * (1 + ((3 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)) div 2))) div 2)) div 2)
2: ((5 * ((x2 + x) div 2)) div 2)
2: (((x + 2) * ((x2 + 4x + 4) div 2)) div 2)
2: ((x * ((x2 + 4x + 4) div 2)) div 2)
2: ((x * (((1 - (x div 2)) * (x div 2)) div 2)) div 2)
2: ((3 * ((~x2 + x) div 2)) div 2)
2: ((x * ((~x2 + 2x) div 4)) div 2)
2: (((x + ~1) * ((x2 + ~2x) div 4)) div 2)
2: (((x + 3) * ((x3 + 19x2 + 50x + 32) div 2)) div 2)
2: (((x + 3) * ((9x3 + 31x2 + 30x + 8) div 2)) div 2)
2: ((((2x * (1 + (2 * i))) div (2 + i)) * (~1 + (2 * i))) div (1 + i))
2: (((x + 7) * ((x3 + 3x2 + 2x) div 2)) div 2)
2: ((3 * ((4 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2)) div 3)) div 2)
2: (((x + 1) * ((x3 + x2) div 2)) div 2)
2: (((x + 3) * ((x3 + ~x2) div 2)) div 2)
2: ((3 * ((3 * (x2 div 2)) div 5)) div 2)
2: ((3 * ((x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) div 5)) div 2)
2: ((x * (2x div 3)) div 2)
2: ((2 * (2x div 5)) div 3)
2: ((2 * (2x div ~5)) div 3)
2: ((3 * (x2 div 2)) div 5)
2: (((x + ~2) * (x2 div 2)) div 2)
2: (((x + ~1) * (x2 div 4)) div 2)
2: ((3 * (((1 + (x div 2)) div 2) div 2)) div 2)
2: ((3 * (((x + 1) div 2) div 3)) div 2)
2: ((~2 * (((x + ~1) div 2) div 2)) div 3)
2: (((((x + ~1) div 2) div 2) * (x div 2)) div 2)
2: ((x * (((x + ~1) div 2) div 2)) div 7)
2: (((x + ~2) * ((x div 2) div 3)) div 2)
2: (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + ((1 + (x div 2)) div 2))) div 2)
2: (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (x div (2 * (2 - (x mod 2)))))) div 2)
2: ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (3 + (x div (1 + (x mod 5))))) div 2)
2: ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (x + ((~x + 1) mod 4))) div 2)
2: ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (~3 + (x div 2))) div 2)
2: ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (~1 + (8 * ((1 + (x div 2)) div 2)))) div 2)
2: ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (~1 + (x div ~2))) div 2)
2: ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (x div (2 - ((x div 2) mod 2)))) div 2)
2: ((3 * ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3)) div 2)
2: ((2 * ((loop(\(x,i).(2 * (x - i)),x,2) mod (x + 1)) div 2)) div 3)
2: ((x * ((x mod (2 + (x mod 2))) div 2)) div 3)
2: (((2x + 3) * (loop(\(x,i).(2 * (2x + (x div (if i <= 0 then 1 else i)))),x,(x + 2)) div 2)) div 3)
2: (((loop(\(x,i).4x,((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2),1) div 3) * (1 + (x div 2))) div 2)
2: (((x + 1) * (x div 2)) div 3)
2: (((x + ~2) * (x div 2)) div (x + 6))
2: (((x div 2) * (x div 2)) div 3)
2: ((x * (x div 2)) div 5)
2: ((x * (x div 3)) div 4)
2: ((x * (x div 3)) div ~2)
2: ((x * (x div 5)) div 3)
2: ((2 * (x div (1 + (2 * (2 - ((x mod 3) mod 2)))))) div 3)
2: ((3 * (x div (2 + (x div (1 + ((x mod (1 + ((2 - (x mod 4)) mod (x + 1)))) div 2)))))) div 2)
2: ((2 * (x div ~2)) div 5)
2: (((x + 1) * (x div (2 - (x mod 2)))) div 2)
2: (((x + 1) * (x div ~3)) div 2)
2: ((3 * (x div ~4)) div 2)
2: ((x * (x div ~4)) div 2)
2: ((x * (x div 8)) div 5)
2: ((3 * ((2x + 1) mod (1 + (2x mod (2 + (x div 4)))))) div 2)
2: ((2 * ((x + 2) mod 5)) div 3)
2: ((x * ((~x2 + 2) mod (~1 + ((~2x + 2) mod (4 + (x div 4)))))) div 2)
2: ((x * ((~x2 + 2) mod (~1 + ((~2x + 2) mod (4 + (x div 4)))))) div 5)
2: ((3 * ((~1 + (if (x mod 2) <= 0 then x else 0)) mod (~1 + ((~2x + 2) mod (4 + (x div 4)))))) div 2)
2: ((x * (((x + 1) div 2) mod 4)) div 3)
2: (((x + 1) * (((~1 + (x div 2)) div 2) mod 2)) div 2)
2: (((x + ~1) * ((x div 2) mod 2)) div 2)
2: ((x * ((x div 2) mod 2)) div 2)
2: ((x * ((x div 2) mod 2)) div 7)
2: ((3 * ((x2 mod (4 + (((x + 1) div 2) div 2))) mod 3)) div 2)
2: (((x + 1) * ((x mod (2 - (x div (1 + ((x div 2) mod 2))))) mod 2)) div 3)
2: (((x + 1) * (loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1))) div 2)
2: ((3 * (loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1))) div 2)
2: ((3 * (x mod 3)) div 2)
2: (((x + 2) * (x mod 3)) div 5)
2: ((x * (x mod 3)) div 3)
2: (((x mod 4) * (x div 2)) div 2)
2: (((x + ~1) * (if (x + ~2) <= 0 then 0 else x2)) div 3)
2: (((x + 1) * (if (x + ~2) <= 0 then 1 else 2x2)) div 3)
2: ((x * (if (x + ~2) <= 0 then 1 else x)) div 3)
2: ((x * (if (x mod 2) <= 0 then 1 else x)) div (1 + (x div 2)))
2: (((x + 1) * (if (x mod 2) <= 0 then (2 + (x mod 4)) else 1)) div 2)
2: ((2 * (if (x mod 2) <= 0 then (2x mod 9) else 1)) div (x + 1))
2: (((x + 1) * (if (x mod 2) <= 0 then ((x div 3) mod 2) else 2)) div 2)
2: ((2 * (if x <= 0 then 1 else x)) div (1 + i))
2: ((2 * (if x <= 0 then 1 else x)) div (~3 + ((~x + 2) div 4)))
2: (((x + 1) * (if x <= 0 then 2 else ((x + 1) div 2))) div 2)
2: (((x + 1) * loop(\(x,i).((x + 2) + (x div 8)),x,1)) div 2)
2: ((x * loop(\(x,i).(x + (x2 div 3)),1,(x + ~1))) div 2)
2: ((2 * loop(\(x,i).(1 + (loop(\(x,i).(x * (2 + i)),compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x),1) div 3)),1,(x + 1))) div 3)
2: ((2 * loop(\(x,i).(x + (if (x - i) <= 0 then x else 0)),x,1)) div 3)
2: (((x + 1) * loop(\(x,i).(x + loop(\(x,i).(x * i),i,1)),(x + ~1),1)) div 2)
2: ((x * loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),x,0)) div 2)
2: (((x + ~1) * loop(\(x,i).3x,(x + ~1),x)) div 2)
2: (((x + ~1) * loop(\(x,i).5x,(x + ~2),x)) div 2)
2: ((x * loop(\(x,i).(x3 + x),1,x5)) div 2)
2: ((x * loop(\(x,i).(x3 + x),1,x4)) div 2)
2: ((x * loop(\(x,i).(x2 + x),2,2)) div (1 + i))
2: ((x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).2x,i,1))) div 2)
2: ((2 * loop(\(x,i).(x * (x - i)),2,(x + 3))) div 3)
2: ((x * loop(\(x,i).(x5 + x2),1,x3)) div 2)
2: ((x * loop(\(x,i).(x * loop(\(x,i).((x2 + ~x) div 2),2,(x + ~2))),1,(x + ~1))) div 2)
2: (((x + 1) * loop(\(x,i).2x,(x + ~1),x)) div 2)
2: (((x + 2) * loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x + 2),(x + 1))) div (x + 5))
2: (((3x + 4) * loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,1)) div 2)
2: (2x div (5 + (x div (2 + (x mod 3)))))
2: (2x div (4 + ((x + 1) mod 4)))
2: (2x div (8 + (x mod 2)))
2: (2x div (1 + (2 * (i mod 2))))
2: (2x div (1 + ((x + 1) div loop(\(x,i).i,(x mod (1 + (x div 4))),1))))
2: (2x div (1 + (2x div (2 + (2x div (2 + (x div 4)))))))
2: (2x div (1 + ((x div 2) div (1 + (x mod 2)))))
2: (2x div (1 + (x div 3)))
2: (2x div (1 + (x div 5)))
2: (2x div (2 + (x div 5)))
2: (2x div (2 + (x div (2 + (if (x + ~2) <= 0 then 0 else 2)))))
2: (2x div (1 + (x mod (1 + ((~x + 2) mod 4)))))
2: (2x div (1 + (x mod (2 * (1 + (x mod 4))))))
2: (2x div (2 + (if ((x2 + 2x) mod 6) <= 0 then x else 1)))
2: (2x div (~2 - (x div 4)))
2: (2x div (~x + 22))
2: (2x div (~3 + ((~x + 1) div 3)))
2: (2x div (~4 + (x div ~4)))
2: (2x div (~1 + ((~x + 2) div 3)))
2: (2x div (~2 + (x div ~3)))
2: (2x div (~1 + (x div ~4)))
2: (2x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))
2: (x2 div (x + 7))
2: (x2 div (x + 9))
2: (x2 div ((x + 1) + (2 * ((x div 2) div 3))))
2: (x2 div ((x + 1) + (x div 2)))
2: (x2 div ((x + 2) + (x div 2)))
2: (x2 div ((x + 1) + (((x2 + 2x) div 2) mod (3 + (x mod 2)))))
2: (x2 div (5 + (if x <= 0 then 1 else (x - (2 * ((x mod (2 + (x div 2))) div 3))))))
2: (x2 div ((2x + 3) - (x div 3)))
2: (x2 div ((2x + 1) - (x div 4)))
2: (x2 div (8 + (x div 2)))
2: (x2 div (x + 8))
2: (x2 div 13)
2: (x2 div (2x + 3))
2: (x2 div 17)
2: (x2 div (x + 24))
2: (x2 div 49)
2: (x2 div 65)
2: (x2 div (3 + (x * (x mod 2))))
2: (x2 div (2 + (6 mod (x + 1))))
2: (x2 div (1 + (x mod 2)))
2: (x2 div (x + (if (~2 + (x div 4)) <= 0 then 2 else 1)))
2: (x2 div (1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))
2: (x2 div ((~2x + 1) - (x div 2)))
2: (x2 div ~11)
2: (x2 div ~3)
2: (x2 div ((2x + 10) - (x div 2)))
2: (x2 div ((2x + 4) - (x div 3)))
2: (x2 div 15)
2: (x2 div ((x + 1) - ((x div 2) div ~2)))
2: (x2 div 14)
2: (x2 div (3 * (2 + (x div 2))))
2: (x2 div (4 * (2 - (((x mod 2) - (x div 2)) div 2))))
2: (x2 div (if (~x + 2) <= 0 then 2 else 1))
2: (x2 div (if (x + ~2) <= 0 then 1 else 2))
2: ((x * i) div 5)
2: ((i * i) div (x + 1))
2: ((i * i) div (x + 2))
2: ((3 * compr(\x.loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,2x),(x + 1))) div 2)
2: ((((x + 1) + ((x * (if (x + ~2) <= 0 then 1 else x)) div 3)) div 2) div 2)
2: ((((x + 1) + (x2 div 4)) div 2) div 2)
2: (((1 + (x * (x div 2))) div 2) div 2)
2: (((1 + ((x + (loop(\(x,i).2x,x,(2 + (x div 4))) div 3)) div 2)) div 2) div 2)
2: (((1 + ((x + 1) div (1 + (x mod (2 + (x div (2 + (x mod 5)))))))) div 2) div 2)
2: (((1 + (((x + 1) * (1 + (2 * ((3 * ((x div 2) div 3)) div 2)))) div 2)) div 2) div 2)
2: (((1 + (((x + 1) * (1 + ((x + ~1) div 5))) div 2)) div 2) div 2)
2: (((1 + (((x + 1) * (1 + ((1 - (x mod 3)) mod (x + 1)))) div 3)) div 2) div 2)
2: (((1 + (((x + 1) * (1 + (if (~1 + ((2x + 1) mod (2 + (x div 4)))) <= 0 then x else 0))) div 3)) div 2) div 2)
2: (((((x2 + 2x) div 2) + (x mod 3)) div 2) div 2)
2: (((1 + (((x + 2) * ((x + 1) div 2)) div 2)) div 2) div 2)
2: (((1 + ((x * loop(\(x,i).(x + (x2 div 3)),1,(x + ~1))) div 2)) div 2) div 2)
2: (((x + (((~x + 1) mod (4 + (x div 2))) div 2)) div 2) div 2)
2: (((1 + (x div 3)) div 2) div (1 + (x mod (1 + (x mod 4)))))
2: (((x + (2 mod (1 + (x div 2)))) div 2) div 2)
2: (((1 + (3x mod (2 + (x div 2)))) div 2) div 2)
2: ((((x mod 5) + (x div 2)) div 2) div 2)
2: (((1 + (x mod (3 + ((x2 div 3) mod (x + 1))))) div 2) div 2)
2: (((1 + loop(\(x,i).((x + 2) + (2x div 7)),x,2)) div 2) div 2)
2: (((x + loop(\(x,i).3x,(x + ~2),x)) div 2) div 2)
2: (((x + 1) div 2) div (1 + (x mod 8)))
2: (((x + 1) div 5) div (1 + (x mod (1 + (x mod (3 + (x mod 2)))))))
2: (((x + 1) div (1 + (x mod (2 + (x div (1 + ((x div 2) mod (1 + (x mod (1 + ((~x + 2) mod 4))))))))))) div 3)
2: (((x + 1) div (2 - (x mod 2))) div 2)
2: (((x + 1) div (~x + 16)) div 4)
2: (((x + 1) div (2 * (1 + (x mod (2 + (x mod 2)))))) div 2)
2: (((x + 2) div (~2x + 32)) div 2)
2: (((0 - ((x2 + (x div 2)) div 2)) div 2) div 3)
2: ((((x + ~1) + (x div 2)) div 2) div 2)
2: (((3x2 + ~x) div 2) div 4)
2: (((x2 + ~1) div 2) div 3)
2: (((~1 + ((x * ((x div 2) div 3)) div 2)) div 2) div 2)
2: (((~1 + (((x + 1) * (x div 2)) div 2)) div 2) div 2)
2: (((~1 + (((x + 1) * (x div 3)) div 2)) div 2) div 2)
2: (((~1 + (x2 div 4)) div 2) div 2)
2: (((~1 + ((x2 div 2) div 3)) div 2) div 2)
2: (((~x + ((x div 2) div ~2)) div 2) div 2)
2: ((((x div 2) - (x mod 4)) div 2) div 2)
2: (((x - ((~1 + (x div 2)) div 2)) div 2) div 2)
2: (((x - (((x mod 6) - (x div 2)) div 2)) div 2) div 2)
2: (((x - ((x2 + ~x) div 8)) div 2) div 2)
2: (((x - (x3 div (~x + ~31))) div 2) div 2)
2: (((x - (((~x + 1) * (x div 3)) div 2)) div 2) div 2)
2: (((x - (x2 div 3)) div 2) div 2)
2: (((x - (x2 div 3)) div 2) div 3)
2: (((x - (x2 div 4)) div 2) div 2)
2: (((x - (x2 div ~7)) div 2) div 2)
2: (((x - (x2 div 8)) div 2) div 2)
2: (((x - ((x mod 5) div 2)) div 2) div 2)
2: (((x - (x div (~2 + ((x2 div 2) mod ~3)))) div 2) div 2)
2: (((x - ((x div 4) mod 2)) div 2) div 2)
2: (((x - (if (~2 + (x div 2)) <= 0 then x else 1)) div 2) div 2)
2: (((5 * (1 + (((1 + (x mod ((1 + (x mod (1 + (x div 4)))) * (1 + (x mod 2))))) mod (x + 1)) + (x mod 2)))) div 2) div 3)
2: (((x2 + 4x) div 2) div 3)
2: (((3x2 + 10x + 8) div 2) div 2)
2: (((x3 + x) div (x + 2)) div 7)
2: (((3 * (1 + ((2 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 3))) div 2) div 2)
2: ((((1 + ((x - (x div 3)) div 3)) * (1 + (x div 2))) div 2) div 2)
2: ((((x + 1) * (1 + ((x * (x div 2)) div 4))) div 2) div 2)
2: ((((x + ~1) * (x + ((x * (x div 2)) div 4))) div 2) div 2)
2: ((((x + ~1) * (1 + (x div 2))) div 2) div 2)
2: (((3 * (2 + (x div 2))) div 2) div 2)
2: (((x * (x + (x div 2))) div 2) div (x + 5))
2: ((((x + ~1) * (x + (x div 3))) div 2) div 3)
2: ((((1 + (x mod 5)) * (x div 5)) div 2) div 2)
2: (((3 * (x + (if (~2 + (x div 4)) <= 0 then 2 else 1))) div 2) div 2)
2: (((x2 + x) div 2) div 3)
2: (((x2 + x) div 2) div 5)
2: (((x2 + x) div 2) div 7)
2: (((x2 + 4x + 4) div 2) div 5)
2: (((~x3 + x) div 4) div 3)
2: ((((1 - (x div 2)) * (x div 4)) div 2) div 2)
2: (((~x2 + x) div 2) div 5)
2: ((((2 - (x div 2)) * (x div 2)) div 2) div 2)
2: ((((2 - (x div 3)) * (x div 3)) div 2) div 2)
2: ((((x + 2) * (2 - (x div ~4))) div 2) div 2)
2: ((((~x + 2) * (x div 2)) div 2) div 3)
2: ((((x + 4) * (x2 - (x div 2))) div 2) div (x + 1))
2: (((x * (~1 + ((~x + 2) div 3))) div 2) div 2)
2: (((x2 + ~x) div 2) div 5)
2: (((x2 + ~x) div 2) div 7)
2: (((x2 + ~x) div 3) div 7)
2: (((x2 + ~4x + 4) div 2) div (x + 3))
2: (((x2 + ~5x + 6) div 2) div 7)
2: (((x3 + 9x2 + 14x) div 2) div 3)
2: (((x3 + 9x2 + 8x) div 2) div 3)
2: (((x3 + 15x2 + 38x + 24) div 2) div 3)
2: (((10x3 + 3x2 + ~4x) div 2) div 3)
2: (((x4 + x3 + 2x2 + 2x) div 2) div 3)
2: (((~x3 + 3x2 + ~2x) div 2) div 3)
2: (((7x3 + 15x2 + 8x) div 2) div 3)
2: (((x3 + ~3x2 + 2x) div 2) div 5)
2: (((x3 + ~3x2 + 2x) div 2) div 15)
2: (((5x3 + 3x2 + ~2x) div 2) div 3)
2: (((x6 + ~2x4 + x2) div 2) div 3)
2: ((((x + ~2) * ((x div 3) * (1 - (x div 2)))) div 2) div 2)
2: (((x2 * (x div 2)) div 2) div 3)
2: (((x * ((1 + (x div 2)) div 2)) div 3) div 2)
2: ((((x + 1) * ((1 + (x div 2)) div 3)) div 2) div 2)
2: ((((x + 1) * ((1 + (x div 4)) div 2)) div 2) div 2)
2: (((((~x + 1) div 3) * ((x + ~1) div 2)) div 2) div 2)
2: (((((2 - (x div 2)) div 2) * (x div 3)) div 2) div 2)
2: ((((x + 2) * ((2 - (2x mod (4 + (x div 4)))) div (x + 1))) div 2) div 2)
2: (((3 * ((~x + 2) div 2)) div 2) div 2)
2: ((((x + 2) * ((~x + 2) div 2)) div 2) div 2)
2: ((((2x + ~1) * ((~x + 2) div 2)) div 2) div 2)
2: (((((x + ~1) div 2) * (x div 2)) div 2) div 2)
2: ((((x + 2) * ((x4 + 3x3 + 3x2 + 2x + 1) div 2)) div 2) div 3)
2: (((3 * ((~x2 + x) div 2)) div 2) div 2)
2: ((((x + ~1) * ((x2 + ~2x) div 4)) div 2) div 3)
2: ((((x + 3) * ((x3 + 19x2 + 50x + 32) div 2)) div 2) div 3)
2: ((((x + 3) * ((9x3 + 31x2 + 30x + 8) div 2)) div 2) div 3)
2: ((((x + 7) * ((x3 + 3x2 + 2x) div 2)) div 2) div 2)
2: ((((x + ~2) * (x2 div 2)) div 2) div 2)
2: ((((((x + 1) div 2) div 2) * (x div 2)) div 2) div 2)
2: ((((((x + ~1) div 2) div 2) * (x div 2)) div 2) div 2)
2: (((x * (((x + ~1) div 2) div 2)) div 2) div 2)
2: (((x * (((x + ~1) div 2) div 2)) div 2) div 7)
2: (((x * (x div 2)) div 2) div 5)
2: (((x * (x div 2)) div 2) div (~2x + 37))
2: ((((x + 1) * (x div 3)) div 2) div 2)
2: (((x * (x div 3)) div 2) div 3)
2: (((x * (x div 3)) div ~2) div 2)
2: ((((x + ~1) * (x div ~2)) div 2) div 2)
2: (((3 * (x div ~4)) div 2) div 2)
2: ((((x + 1) * (((~1 + (x div 2)) div 2) mod 2)) div 2) div 2)
2: (((3 * (loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1))) div 2) div 2)
2: ((((x + 1) * (if (x mod 2) <= 0 then ((x div 3) mod 2) else 2)) div 2) div 2)
2: ((((x + 1) * loop(\(x,i).((x + 2) + (x div 8)),x,1)) div 2) div 2)
2: ((x2 div 2) div (~2x + 1))
2: ((x2 div 2) div 15)
2: ((x2 div (3 + (x div 2))) div 3)
2: ((((1 + (((x + 1) * (1 + (if (~1 + ((2x + 1) mod (2 + (x div 4)))) <= 0 then x else 0))) div 3)) div 2) div 2) div 2)
2: ((((1 + (((x + 2) * ((x + 1) div 2)) div 2)) div 2) div 2) div 2)
2: ((((x + 1) div 2) div 2) div (1 + ((1 + ((2x + ~1) mod (4 + (x div 4)))) mod 3)))
2: ((((x + 1) div (2 - ((x * (x div 2)) mod 2))) div 2) div 2)
2: ((((~1 + ((x2 div 2) div 3)) div 2) div 2) div 2)
2: (((((x + 1) * (1 + ((x * (x div 2)) div 4))) div 2) div 2) div 2)
2: (((((x + ~1) * (x + ((x * (x div 2)) div 4))) div 2) div 2) div 2)
2: ((((x2 + 3x + 2) div 2) div 2) div 2)
2: ((((x3 + ~3x2 + 2x) div 2) div 2) div 3)
2: ((((3 * ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (2 + (x div (1 + (2 * (1 + (2 * ((x div 2) mod 2))))))))) div 2) div 2) div 2)
2: (((((x + ~2) * ((x div 3) * (1 - (x div 2)))) div 2) div 2) div 2)
2: (((3x2 div (x + 2)) div 2) div 2)
2: (((((x + 3) * ((9x3 + 31x2 + 30x + 8) div 2)) div 2) div 3) div 2)
2: (((((x + ~1) * (x div 2)) div 2) div 2) div 2)
2: (((((x + 1) * (((~1 + (x div 2)) div 2) mod 2)) div 2) div 2) div 2)
2: ((((3 * (loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1))) div 2) div 2) div 2)
2: (((((1 + (((x + 1) * (1 + (if (~1 + ((2x + 1) mod (2 + (x div 4)))) <= 0 then x else 0))) div 3)) div 2) div 2) div 2) div 2)
2: ((((((x + ~1) * (x div 2)) div 2) div 2) div 2) div 2)
2: ((((loop(\(x,i).((x + 1) + (x div (2 + (i mod 2)))),x,0) div 2) div 2) div 2) div 2)
2: (((loop(\(x,i).((x + 1) + (x div (2 + (i mod 2)))),x,0) div 2) div 2) div 2)
2: (((loop(\(x,i).(x2 + 2x),1,((x div 2) - (x mod 2))) div 2) div 2) div 3)
2: (((loop(\(x,i).(x3 + ~x),1,(x2 + 4x + 4)) div 2) div 2) div 3)
2: (((loop(\(x,i).x2,1,(1 + loop(\(x,i).((~x + ~1) + i),x,2))) div 2) div 2) div 2)
2: ((((x2 + ~1) mod (2 + (x div 2))) div 2) div 2)
2: ((((x + ~1) mod (2 + (x div 3))) div 2) div 2)
2: ((((3 * (x2 mod 6)) mod (x + 1)) div 2) div 2)
2: ((((2 * (x mod ((~x + 2) + (x mod 10)))) mod (x + 1)) div 2) div 2)
2: (((x2 mod (3x + ~1)) div 2) div 2)
2: (((x mod (2 + (x div 3))) div 2) div 2)
2: ((loop(\(x,i).((x + 1) + (x div (2 + (i mod 2)))),x,0) div 2) div 2)
2: ((loop(\(x,i).(2 + ((x + (x2 div 3)) div 2)),2,(x + ~1)) div 2) div 5)
2: ((loop(\(x,i).(x - ((i * i) div ~2)),x,1) div 2) div 2)
2: ((loop(\(x,i).(2x + 2),(x div 2),(x mod 2)) div 2) div 2)
2: ((loop(\(x,i).(2x + 4),x,1) div 2) div 2)
2: ((loop(\(x,i).(x2 + 2x),1,((x div 2) - (x mod 2))) div 2) div 2)
2: ((loop(\(x,i).(x * (2 + i)),compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x),1) div 2) div 2)
2: ((loop(\(x,i).(x3 + ~x),1,(x2 + 4x + 4)) div 2) div 2)
2: ((loop(\(x,i).(x5 + ~x3),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2) div 2)
2: ((loop(\(x,i).(x2 * (x4 div 2)),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2) div 3)
2: ((loop(\(x,i).x3,1,((2x + 1) * (1 - (2 * (x mod 2))))) div 2) div 2)
2: ((loop(\(x,i).x2,1,(1 + loop(\(x,i).((~x + ~1) + i),x,2))) div 2) div 2)
2: ((loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x))) div 2) div 3)
2: ((loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2) div 2)
2: ((loop(\(x,i).((x2 + ~x) div 2),2,(x + ~1)) div 2) div 2)
2: ((loop(\(x,i).(x2 div 2),2,(~2 + (x div 2))) div 2) div 2)
2: ((x div 2) div (3 + (x div 3)))
2: ((x div 2) div (3 + ((x + 1) mod 8)))
2: ((x div 2) div (3 + (x mod 2)))
2: ((x div 2) div (3 + (x mod 8)))
2: ((x div 2) div (3 + i))
2: ((x div 2) div (3 - (x mod 2)))
2: ((x div 2) div (1 + (2 * (2 + (x mod 4)))))
2: ((x div 2) div (1 + (3 * (2 - (x mod 2)))))
2: ((x div 2) div (1 + ((((x + 1) div 2) div 2) div 2)))
2: ((x div 2) div (1 + ((x mod 3) div 2)))
2: ((x div 2) div (1 + ((x mod (2 + ((~x + 1) mod 4))) div 2)))
2: ((x div 2) div (1 + (x div (2 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))
2: ((x div 2) div (1 + ((x + ~1) mod 3)))
2: ((x div 2) div (1 + (loop(\(x,i).x3,2,2x) mod (x + 1))))
2: ((x div 2) div (1 + (x mod (2 + (x mod 2)))))
2: ((x div 2) div (1 + (x mod (1 + (x mod (1 + ((~x + 2) mod 4)))))))
2: ((x div 2) div (1 + (x mod 10)))
2: ((x div 2) div (1 + (x mod (2 * (1 + (x mod (1 + ((2 - (x div 2)) mod 4))))))))
2: ((x div 2) div (1 + (if (x mod 2) <= 0 then 6 else 1)))
2: ((x div 3) div (3 + ((x + ~1) mod 3)))
2: ((x div 3) div (1 + (x div 4)))
2: ((x div 4) div (1 + ((~x + 1) mod 3)))
2: ((x div 4) div (~8 + (x div 2)))
2: ((x div (2 + (x div (1 + ((~x + 2) mod 4))))) div (2 - (x mod 2)))
2: ((x div (2 - ((x div 2) mod 2))) div ~2)
2: ((x div (2 * (~2 + ((x * (x div 2)) mod 2)))) div 3)
2: ((2 mod (~2x + 1)) div 3)
2: (((~x + 4) mod (2 - (x div ~4))) div 2)
2: (((~x + 5) mod (1 + (x div 3))) div 2)
2: (((4x + 1) mod (x + 2)) div 3)
2: (((2x2 + 1) mod (2 + (x div 4))) div 2)
2: (((2x + 1) mod (2 + (2x div 5))) div 3)
2: (((2x + 1) mod (2 + (x div 2))) div 2)
2: (((1 + ((x + 1) div (2 - (if (x mod 5) <= 0 then (x mod 2) else 0)))) mod (x + 1)) div 2)
2: (((1 + (loop(\(x,i).2x,(loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2),1) div 2)) mod (x + 1)) div 2)
2: (((x + (x div 2)) mod 5) div 2)
2: (((x + (x div 2)) mod (2 + ((2 * (x div 2)) div 3))) div 2)
2: (((2 + ((x div ~2) mod 3)) mod (if x <= 0 then 1 else x)) div 2)
2: (((1 + (x mod (1 + (x mod (2 * (2 + ((x div 2) div 5))))))) mod (x + 1)) div 2)
2: (((1 + (x mod (2 * (1 + (x mod (2 * (1 + (x mod (1 + (x div 3)))))))))) mod (x + 1)) div 2)
2: (((2 + (x mod (2 * (1 + (x mod (2 * (1 + (x mod (1 + (x div 3)))))))))) mod (x + 1)) div 2)
2: (((x + 1) mod 4) div (2 - (x mod ~3)))
2: (((x + 1) mod ((x + 3) - (2x mod (4 + (x div 4))))) div 3)
2: (((x + 1) mod (1 + (3 * (((x + 1) mod 8) mod 3)))) div 2)
2: (((x + 1) mod (((x + 1) mod 4) + (x div 3))) div 2)
2: (((x + 1) mod (~1 - (x div 4))) div 2)
2: (((x + 1) mod (~1 + (2 * (x div 3)))) div 2)
2: (((x + 2) mod (3 + (x mod 4))) div 2)
2: (((0 - ((~2x + 2) mod (4 + (x div 4)))) mod (x + 1)) div 3)
2: (((~x2 + 1) mod (1 + (x div 2))) div 2)
2: (((1 - (2x div 3)) mod 5) div 2)
2: (((1 - (x div 2)) mod (x + 1)) div 3)
2: (((~x + 1) mod (4 + (x div 2))) div 2)
2: (((~x + 2) mod 7) div 2)
2: (((~x + 2) mod (2 + (x div 4))) div 2)
2: (((~x + 2) mod (2 + (x div 5))) div 2)
2: (((~x + 2) mod (2 + (x mod 4))) div 2)
2: (((~1 + (2 * (x mod 5))) mod (x + 1)) div 2)
2: (((2x + ~1) mod (4 + (x div 4))) div 2)
2: (((2x + ~1) mod (1 + (x div 3))) div 2)
2: (((2x + ~1) mod (1 + (x mod 5))) div 2)
2: (((x2 + ~1) mod (2 + (x div 2))) div 2)
2: (((~1 + (((4 + (x div 2)) * ((x + ~1) div 2)) div 2)) mod (x + 1)) div 2)
2: (((~2 + ((x div 2) mod 2)) mod (x + 1)) div 2)
2: (((~1 + loop(\(x,i).4x,(2 * (x div 2)),2)) mod (x + 1)) div 2)
2: (((~1 + loop(\(x,i).2x,(x - (x div 8)),2)) mod (x + 1)) div 2)
2: (((~1 + loop(\(x,i).2x,2x,(1 + (x div (2 + (x mod 2)))))) mod (x + 1)) div 2)
2: (((~1 + loop(\(x,i).2x,x,(2 - (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))) mod (x + 1)) div 2)
2: (((x + ~1) mod (3 + (x div 4))) div 3)
2: (((x + ~1) mod (1 + ((x + 2) div 3))) div 2)
2: (((x + ~1) mod (2 + (x div 3))) div 2)
2: (((x + ~1) mod (2 + (x mod (1 + (x mod (2 - ((x div 4) div ~2))))))) div 2)
2: (((x + ~2) mod (1 + (2 * ((~x + 1) mod 3)))) div 2)
2: (((x + ~2) mod (1 + (x div 2))) div 2)
2: (((x + ~2) mod (1 + (x2 mod 6))) div 2)
2: (((x + ~3) mod 9) div 2)
2: (((x + ~3) mod (1 + (x div 2))) div 3)
2: (((x + ~4) mod (1 + (x div 2))) div 2)
2: (((x - (x div 5)) mod 3) div 2)
2: ((8 mod (x + 2)) div (x + 1))
2: (((~x2 + 3x) mod (1 + (x div 2))) div 3)
2: ((~2x mod (2 + (x div 4))) div 2)
2: (((~2x + 2) mod 9) div 2)
2: (((~x2 + x) mod 5) div 2)
2: (((~x2 + x) mod (2 + (x div 2))) div 2)
2: (((2x + ~2) mod (2 + (x div 2))) div 2)
2: (((2x + ~2) mod (2 + (x div 2))) div 5)
2: (((x * (x - (x mod 3))) mod 7) div 3)
2: (((2x2 + ~4x + 2) mod (4 + (x div 4))) div 2)
2: ((4x mod (4 + (x div 4))) div 2)
2: ((4x2 mod (2 + (x div 2))) div 2)
2: ((x3 mod (2x + ~1)) div 2)
2: (((3 * (x2 mod 6)) mod (x + 1)) div 2)
2: (((2 * (x mod (1 - ((2 - (2x mod (4 + (x div 4)))) mod (x + 1))))) mod (x + 1)) div 2)
2: (((2 * (x mod ((~x + 2) + (x mod 10)))) mod (x + 1)) div 2)
2: ((2x mod 9) div 2)
2: ((2x mod (8 + (x div 3))) div 2)
2: ((2x mod (1 + (2 * ((1 + (x div 4)) div 2)))) div 2)
2: ((2x mod (1 + ((1 + (x div 2)) div 2))) div 2)
2: ((2x mod (1 + (x mod 4))) div 2)
2: ((2x mod ~5) div 3)
2: ((x2 mod 7) div 3)
2: ((x2 mod (3x + 2)) div 2)
2: ((x2 mod (2 + (x div 3))) div 2)
2: ((x2 mod (3x + ~1)) div 2)
2: ((((x2 + 2x + 1) div 3) mod 3) div 2)
2: ((((x + 2) div 3) mod 4) div 3)
2: ((((~x + 1) div 2) mod (x + 1)) div 2)
2: ((((~x + 2) div 4) mod (x + 1)) div 2)
2: ((((x + ~1) div 2) mod (2 + (x mod 3))) div 2)
2: ((((x2 + ~x) div 4) mod 4) div 3)
2: (((x3 div (x + 2)) mod 3) div 2)
2: (((x2 div 2) mod (1 + ((1 + (x div 2)) div 2))) div 2)
2: (((x2 div 5) mod (x + 1)) div 2)
2: ((((x2 div 2) div 3) mod (x + 1)) div 2)
2: (((x div 2) mod 5) div 3)
2: (((x div 2) mod (1 + (x mod 8))) div 2)
2: (((x div (3 * (~2 + (x mod 2)))) mod 3) div 2)
2: (((if (x + ~2) <= 0 then x else 2x) mod 5) div 2)
2: (((if (x mod 2) <= 0 then 2 else x3) mod (2 + (x div 2))) div 2)
2: ((loop(\(x,i).(~2x + 6),x,1) mod (x + 1)) div 2)
2: ((loop(\(x,i).(2x + 2),x,0) mod (x + 1)) div 2)
2: ((loop(\(x,i).(x2 + x),1,loop(\(x,i).(if x <= 0 then i else (x div 2)),x,0)) mod (x + 1)) div 2)
2: ((loop(\(x,i).2x,(x div 2),~2) mod (x + 1)) div 2)
2: ((loop(\(x,i).2x,x,1) mod (x + 1)) div 2)
2: ((loop(\(x,i).2x,x,(if ((x + (x div 2)) mod 4) <= 0 then 1 else 2)) mod (x + 1)) div 2)
2: ((loop(\(x,i).2x,x,(if (x mod 4) <= 0 then 0 else 1)) mod (x + 1)) div 2)
2: ((loop(\(x,i).2x,x,x) mod (x + 1)) div 2)
2: ((loop(\(x,i).(x * i),x,1) mod (x + 1)) div 3)
2: ((loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + 1)) mod (x + 1)) div 2)
2: ((x mod 3) div (if (x mod 8) <= 0 then 1 else 2))
2: ((x mod 5) div 3)
2: ((x mod (1 + ((x div 4) + (x mod 2)))) div 2)
2: ((x mod (2 + (((x div 2) mod 2) + (x mod 3)))) div 2)
2: ((x mod (3 - ((x div 4) mod 2))) div 2)
2: ((x mod ((2 * (1 + (x mod 2))) + ((x div 2) div 3))) div 2)
2: ((x mod (1 + (2 * (1 + (x mod (if (~2 + (x div 2)) <= 0 then 1 else 2)))))) div 2)
2: ((x mod (2 + ((~x + 2) * (x div 2)))) div 2)
2: ((x mod (1 + (2 * (x div (1 + (2 * (1 + ((x div 2) mod 2)))))))) div 2)
2: ((x mod (1 + ((1 + (x div 2)) div 2))) div 2)
2: ((x mod (1 + (((x + 1) div 2) div 2))) div 2)
2: ((x mod (2 + (x div 3))) div 3)
2: ((x mod (2 + ((x + (x div 3)) mod 3))) div 2)
2: ((x mod (1 + ((x + 2) mod 4))) div 2)
2: ((x mod (2 + ((~x + 1) mod 4))) div 2)
2: ((x mod (2 + ((~x + 1) mod (1 + (x div 4))))) div 2)
2: ((x mod (2 + ((~x + 1) mod 8))) div 2)
2: ((x mod (1 + ((~3x + 4) mod (1 + (x div 2))))) div 2)
2: ((x mod (1 + ((~1 + ((~2x + 2) mod (4 + (x div 4)))) mod (x + 1)))) div 2)
2: ((x mod (2 + ((6 * (1 + (((x2 + 2x) div 2) mod (1 + ((1 + (x div 2)) div 3))))) mod (x + 1)))) div 2)
2: ((x mod (2 + ((x2 div 4) mod (x + 1)))) div 2)
2: ((x mod (2 + ((x2 div 4) mod (x + 1)))) div 3)
2: ((x mod (1 + (loop(\(x,i).(2x + 2),(loop(\(x,i).(~3x2 + x),2,2) mod (x + 1)),1) mod (x + 1)))) div 2)
2: ((x mod (2 + (x mod 3))) div 3)
2: ((x mod (1 + (x mod (1 - (x div ~4))))) div 2)
2: ((x mod (1 + (if (x + ~2) <= 0 then 0 else 2))) div 2)
2: ((x mod (1 + (if (x mod 4) <= 0 then 0 else 2))) div 2)
2: ((x mod ~7) div 2)
2: ((x mod ((~x + 2) + ((x mod 3) div 2))) div 2)
2: ((x mod (2 - ((~x + 3) div (1 + (x mod 4))))) div 2)
2: ((x mod (2 - ((~x + 1) div 3))) div 3)
2: ((x mod (2 - (((x mod 2) - (x div 2)) div 2))) div 2)
2: ((x mod (2 * (1 + (x div 3)))) div 3)
2: ((x mod loop(\(x,i).i,(~2 + (x div 2)),1)) div 2)
2: ((if (x + ~4) <= 0 then 1 else x) div 3)
2: ((if ((x * (x div 2)) mod 2) <= 0 then x else (x mod 3)) div 2)
2: ((if (2x mod (4 + (x div 4))) <= 0 then (x div ~2) else 0) div 2)
2: ((if (x mod 3) <= 0 then x else (~x + 1)) div 3)
2: ((if x <= 0 then 0 else 9) div (x + 1))
2: ((if x <= 0 then 0 else (1 + (7 * ((~x + 1) mod 3)))) div 2)
2: ((if x <= 0 then 0 else (2 - (((x mod 2) - ((x2 + ~x) div 4)) div 2))) div 2)
2: ((if x <= 0 then 1 else (2 + ((~2x + 3) mod (4 + (x div 4))))) div 3)
2: ((if x <= 0 then 1 else (2x - loop(\(x,i).(~1 + (if x <= 0 then (2 * i) else x)),x,2))) div 3)
2: ((if x <= 0 then 1 else x) div (1 + (x div 5)))
2: ((if x <= 0 then 1 else x) div (~6 + (x div 4)))
2: ((if x <= 0 then 1 else x) div (x + ~18))
2: ((if x <= 0 then 2 else (1 + ((x + 3) mod (1 + (x div 4))))) div 2)
2: ((if x <= 0 then 2 else (3x + ~2)) div 2)
2: ((if x <= 0 then 2 else (x - ((x div 3) mod 2))) div 2)
2: ((if x <= 0 then 2 else (x2 + ~x)) div 2)
2: ((if x <= 0 then 2 else x2) div (2 + (x mod 4)))
2: ((if x <= 0 then 2 else (((x + ~2) * (x div 3)) mod (1 + (x div 2)))) div 2)
2: ((if x <= 0 then 2 else x) div (2 + (x mod 2)))
2: (loop(\(x,i).((x + 1) + ((x + (x div 2)) div 4)),x,1) div 2)
2: (loop(\(x,i).((x + 2) + ((x - (x div 4)) div 2)),x,2) div 2)
2: (loop(\(x,i).((x + 1) + (x div 5)),x,1) div 2)
2: (loop(\(x,i).((x + 1) + (x div (2 + (i mod 2)))),x,0) div 2)
2: (loop(\(x,i).(1 + ((i div (2 + (x mod 2))) + (x div 2))),x,0) div 2)
2: (loop(\(x,i).(x + 4),(~2 + ((x + ~1) div 3)),x) div 3)
2: (loop(\(x,i).(3x + 1),x,2) div 2)
2: (loop(\(x,i).(3x + 2),x,2) div (x + 1))
2: (loop(\(x,i).(x + ((1 + i) * i)),(1 + (x div 2)),x) div 2)
2: (loop(\(x,i).(x + ((~1 + ((2 + i) * i)) * i)),(x + 1),0) div 2)
2: (loop(\(x,i).(2 + (3 * (x mod 7))),x,2) div 2)
2: (loop(\(x,i).(2x + 1),x,2) div 2)
2: (loop(\(x,i).(2x + 1),x,(4 + loop(\(x,i).2x,x,1))) div 2)
2: (loop(\(x,i).(x + (i * i)),x,2) div 3)
2: (loop(\(x,i).(2 + ((x + (x2 div 3)) div 2)),2,(x + ~1)) div 2)
2: (loop(\(x,i).(1 + ((~1 + (x2 div 2)) div 5)),2,x) div 2)
2: (loop(\(x,i).((4x + 2) + ((x2 + x) div 2)),2,x) div 3)
2: (loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,x) div 5)
2: (loop(\(x,i).(x + (x div 3)),(x + ~2),4) div 3)
2: (loop(\(x,i).(2 + (x div (2 + (3 * (x mod 2))))),2,x) div 2)
2: (loop(\(x,i).(2x + ((((((x3 + ~3x2 + 2x) div 2) div 2) div 2) div 2) mod 2)),x,1) div 2)
2: (loop(\(x,i).(x + (if (~2 + (x div 3)) <= 0 then 1 else 2)),x,(x + 1)) div 2)
2: (loop(\(x,i).(x + (if ((x + 1) mod 10) <= 0 then (x + 2) else 1)),x,x) div 2)
2: (loop(\(x,i).(1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),2,x) div (1 + i))
2: (loop(\(x,i).(x + 2),(x + ~8),x) div 3)
2: (loop(\(x,i).(x + i),(x + ~7),0) div 3)
2: (loop(\(x,i).(~x + 1),x,(x + loop(\(x,i).(1 - (x * i)),x,1))) div 2)
2: (loop(\(x,i).(~x + 1),x,(x + 2)) div 2)
2: (loop(\(x,i).((x + ~2) + (x div 2)),x,0) div 2)
2: (loop(\(x,i).(2x - (i mod 2)),(x + ~1),1) div 2)
2: (loop(\(x,i).(x - (2 * (~x + (i mod 2)))),x,1) div 2)
2: (loop(\(x,i).(x - ((i * i) div ~2)),x,1) div 2)
2: (loop(\(x,i).3x,x,3) div (x2 + 2x + 1))
2: (loop(\(x,i).5x,(x + 1),2) div 3)
2: (loop(\(x,i).5x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2)
2: (loop(\(x,i).(x2 + 3x),1,loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)) div 2)
2: (loop(\(x,i).(x * (3 + i)),(x + 3),2) div 3)
2: (loop(\(x,i).(4x + 2),x,1) div 2)
2: (loop(\(x,i).((x + (x div 2)) * (x div 2)),1,loop(\(x,i).3x,x,3)) div 2)
2: (loop(\(x,i).(2 * (2x + (x div (if i <= 0 then 1 else i)))),x,x) div 2)
2: (loop(\(x,i).(2x + 2),x,0) div (x + 1))
2: (loop(\(x,i).(2x + 2),x,2) div (x + 2))
2: (loop(\(x,i).(3x + 3),x,1) div 2)
2: (loop(\(x,i).(x2 + x),1,loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)) div 2)
2: (loop(\(x,i).(2x + 4),loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1) div (x + 2))
2: (loop(\(x,i).(x * (1 + i)),x,(3x + 2)) div 2)
2: (loop(\(x,i).(x * (2 + i)),4,(x + 1)) div 2)
2: (loop(\(x,i).(x * (2 + i)),compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x),2) div 3)
2: (loop(\(x,i).(x * (2 + i)),compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x),1) div 3)
2: (loop(\(x,i).(x * (2 + i)),compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x),1) div 5)
2: (loop(\(x,i).~2x,x,x) div 2)
2: (loop(\(x,i).(x * ((x + ~1) + i)),2,x3) div 2)
2: (loop(\(x,i).(((x + ~1) + i) * i),x,0) div 2)
2: (loop(\(x,i).(4x + ~2),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2)
2: (loop(\(x,i).(x3 + ~x),1,(x2 + 4x + 4)) div 2)
2: (loop(\(x,i).(x3 + ~x),1,(x2 + 2x)) div 2)
2: (loop(\(x,i).(2x + ~2),x,x) div 2)
2: (loop(\(x,i).(x2 + ~2x),3,x) div (x + 1))
2: (loop(\(x,i).(x * ((x + 1) - i)),2,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2)
2: (loop(\(x,i).(2 * (x - ((x - (x div 5)) div 3))),(x + 1),2) div 2)
2: (loop(\(x,i).(2 * (x - (i mod 2))),x,2) div 3)
2: (loop(\(x,i).(x * (x - i)),2,(x + 3)) div 2)
2: (loop(\(x,i).(x * (x - i)),2,(x + ~1)) div 3)
2: (loop(\(x,i).(x5 + x2),1,x3) div 2)
2: (loop(\(x,i).(x4 + x2),1,x4) div 2)
2: (loop(\(x,i).(x6 + ~x2),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2)
2: (loop(\(x,i).(2x * (~1 + (2 * i))),(x + ~2),x) div 2)
2: (loop(\(x,i).(x3 * (x2 div 2)),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2)
2: (loop(\(x,i).(x2 * (x4 div 2)),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 3)
2: (loop(\(x,i).4x,x,4) div (x + 1))
2: (loop(\(x,i).4x,x,(x + 2)) div 2)
2: (loop(\(x,i).4x,i,x) div 2)
2: (loop(\(x,i).6x,(x + 1),1) div (x + 1))
2: (loop(\(x,i).x3,1,(4x2 + 4x + 1)) div 2)
2: (loop(\(x,i).x3,1,((2x + 1) * (1 - (2 * (x mod 2))))) div 2)
2: (loop(\(x,i).x3,3,(x + 4)) div 2)
2: (loop(\(x,i).(x * (x2 div 2)),1,(2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))) div 2)
2: (loop(\(x,i).2x,(x + ~1),(x + 3)) div 2)
2: (loop(\(x,i).2x,(x + ~1),(x + 2)) div 3)
2: (loop(\(x,i).2x,(x + ~1),x) div (x + 1))
2: (loop(\(x,i).2x,((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3),1) div 2)
2: (loop(\(x,i).2x,(loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2),1) div 2)
2: (loop(\(x,i).2x,(x div 2),1) div (x + 1))
2: (loop(\(x,i).2x,x,1) div (x + 2))
2: (loop(\(x,i).2x,x,2) div (2 + (x mod 2)))
2: (loop(\(x,i).2x,x,4) div 3)
2: (loop(\(x,i).2x,x,(3x + 4)) div 2)
2: (loop(\(x,i).2x,x,(2 + (x mod 2))) div 2)
2: (loop(\(x,i).2x,x,(1 + loop(\(x,i).2x,x,3))) div 2)
2: (loop(\(x,i).2x,x,(x + 2)) div 2)
2: (loop(\(x,i).x2,1,(1 + (2 * compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + x + 1))),x)))) div 2)
2: (loop(\(x,i).x2,1,(1 + loop(\(x,i).((~x + ~1) + i),x,2))) div 2)
2: (loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x))) div 3)
2: (loop(\(x,i).x2,2,(x + 1)) div 3)
2: (loop(\(x,i).x2,2,(x + 1)) div 5)
2: (loop(\(x,i).x2,2,loop(\(x,i).2x2,(2x + ~1),2)) div 2)
2: (loop(\(x,i).x2,3,(2x + 1)) div (2x + 1))
2: (loop(\(x,i).x2,3,(x + 1)) div 2)
2: (loop(\(x,i).(x * i),(2 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x)),1) div 5)
2: (loop(\(x,i).(x * i),x,1) div (x + 2))
2: (loop(\(x,i).(x * i),x,1) div loop(\(x,i).(x * (i * i)),(x div 2),1))
2: (loop(\(x,i).(x * i),x,2) div (x + 2))
2: (loop(\(x,i).((x2 + ~x) div 2),2,(~1 + (x div 2))) div 3)
2: (loop(\(x,i).((x2 + ~x) div 2),2,(x + ~1)) div 3)
2: (loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x + 1),(x + 1)) div 2)
2: (loop(\(x,i).(x3 div 2),1,(x2 + 2x + 1)) div 2)
2: (loop(\(x,i).(x2 div 2),2,(~2 + (x div 2))) div 2)
2: (loop(\(x,i).(x div (1 + (2 * (x mod 2)))),2,(x + ~1)) div 2)
2: (loop(\(x,i).(x div (1 + (x mod 2))),x,(3x + 1)) div 2)
2: (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 3)
2: (loop(\(x,i).(loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)),1,(x + 1)) div 2)
2: (loop(\(x,i).(if (x mod (3 + (i mod 2))) <= 0 then 1 else x),x,(x + 1)) div 5)
2: (loop(\(x,i).loop(\(x,i).((2x * (~1 + (2 * i))) + i),3,x),x,0) div 2)
2: (loop(\(x,i).loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then 2 else 0)),i,(x + 2)),x,1) div 3)
2: (loop(\(x,i).loop(\(x,i).x3,1,2x2),x,2) div 2)
2: (loop(\(x,i).loop(\(x,i).((x + 2) mod (1 + i)),x,0),x,x) div 2)
2: (x div (5 + (((x + ~1) div 2) mod 2)))
2: (x div (1 + ((2 * ((2x div (1 + (x div 4))) mod 2)) + (x mod 2))))
2: (x div (1 + (((2x mod (1 + (x mod 4))) div 2) + (x mod 2))))
2: (x div (4 + (x div (1 + ((x + ~1) mod 5)))))
2: (x div (1 + (((1 + ((x + (x div 2)) div 4)) mod 2) + (x mod 2))))
2: (x div (3 + ((x + 1) mod 4)))
2: (x div (3 + ((~2x + 1) mod (4 + (x div 2)))))
2: (x div (3 + ((~x + 1) mod 3)))
2: (x div (2 + (((x + ~1) mod 3) + (x mod 2))))
2: (x div (4 + (16 mod (1 + (x div 2)))))
2: (x div (4 + (((x + 1) div 2) mod 8)))
2: (x div (4 + ((x div 2) mod 2)))
2: (x div (3 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))
2: (x div (3 + (x mod (2 + ((x div 2) mod 2)))))
2: (x div (3 + (if (~2 + (x div 4)) <= 0 then 2 else 0)))
2: (x div (3 - ((x * (x div 2)) mod 2)))
2: (x div (2 + (2 * (((2x + 1) mod (2 + (x div 4))) div 2)) - (x mod 2)))
2: (x div (~11 + (x div 2)))
2: (x div (1 + (2 * (3 - (x mod 2)))))
2: (x div (1 + (2 * (2 + (((x div 2) div 3) mod 2)))))
2: (x div (1 + (2 * (2 + ((x div 2) mod 2)))))
2: (x div (1 + (2 * (2 + ((x div 3) mod 4)))))
2: (x div (1 + (2 * (2 + (x mod 4)))))
2: (x div (1 + (2 * (2 - ((x mod 3) div 2)))))
2: (x div (1 + (2 * (2 - ((x mod 3) mod 2)))))
2: (x div (1 + (2 * (2 - (x mod 2)))))
2: (x div (1 + (2 * (2 - (x mod 8)))))
2: (x div (1 + (4 * (1 + (2 * (x mod 2))))))
2: (x div (1 + (2 * (2 mod (if ((x + 1) mod (2 + ((x div 2) mod 2))) <= 0 then x else 1)))))
2: (x div (1 + (2 * ((x + 1) mod (1 + (x div 4))))))
2: (x div (1 + (2 * ((x + ~1) mod 3))))
2: (x div (1 + (2 * (loop(\(x,i).(2x + 2),x,0) mod (x + 1)))))
2: (x div (1 + ((1 + (x div 2)) div 3)))
2: (x div (1 + ((x + 1) div 5)))
2: (x div (2 + ((x + 1) div (4 + ((x + 1) mod 3)))))
2: (x div (1 + ((x + 1) div (2 + ((x2 mod (2 + (x div 2))) mod 2)))))
2: (x div (2 + ((x + 1) div (1 + (x mod (2 + (x mod 4)))))))
2: (x div (2 + (2x div (1 + (x mod (2 * (1 + (x mod 4))))))))
2: (x div (2 + ((x div 2) div (1 + ((x mod (2 + ((~x + 1) mod 4))) div 2)))))
2: (x div (2 + (((x + 2) mod 5) div 2)))
2: (x div (2 + ((x mod (2 + (x mod 2))) div 2)))
2: (x div (2 + (x div (1 + ((2 * ((2x div (1 + (x div 4))) mod 2)) + (x mod 2))))))
2: (x div (2 + (x div (3 + ((x div 2) mod 2)))))
2: (x div (2 + (x div 7)))
2: (x div (2 + (x div (2 + (((x + 2) mod 5) div 2)))))
2: (x div (2 + (x div (1 + ((~x + 2) mod 4)))))
2: (x div (2 + (x div (2 + (if (x mod 2) <= 0 then ((x mod 3) div 2) else 2)))))
2: (x div (1 + (x div 8)))
2: (x div (1 + (2 mod (x + 1))))
2: (x div (1 + (5 mod (1 + (x mod 6)))))
2: (x div (2 + ((1 + (2 * loop(\(x,i).(2 * ((x + ~4) - (x div 4))),x,1))) mod (x + 1))))
2: (x div (2 + ((1 + ((~x + 2) mod 4)) mod (x + 1))))
2: (x div (1 + ((x + 1) mod 3)))
2: (x div (2 + ((x + 1) mod 5)))
2: (x div (1 + (~x mod 8)))
2: (x div (2 + ((1 - (x div 2)) mod 4)))
2: (x div (1 + ((1 - ((2 * (1 + ((1 + (x mod (1 + (x div 4)))) div (1 + ((x + 1) mod 4))))) mod 3)) mod (x + 1))))
2: (x div (2 + ((4 - (x mod 3)) mod (x + 1))))
2: (x div (1 + ((~1 + loop(\(x,i).2x,x,2)) mod (x + 2))))
2: (x div (1 + ((~1 + loop(\(x,i).2x,x,(2 + (x mod 2)))) mod (x + 1))))
2: (x div (1 + ((x + ~1) mod 3)))
2: (x div (1 + ((x - ((x2 + ~1) mod 16)) mod (x + 1))))
2: (x div (2 + ((2 * (((1 + (8 mod (1 + (x div 2)))) div 2) - (x mod 2))) mod (x + 1))))
2: (x div (1 + (16 mod (x + 1))))
2: (x div (2 + (2x mod 5)))
2: (x div (1 + (x2 mod 12)))
2: (x div (2 + ((x2 div 3) mod (x + 1))))
2: (x div (2 + ((x div 2) mod (2 + (x mod 2)))))
2: (x div (1 + ((x div 3) mod 3)))
2: (x div (2 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))
2: (x div (2 + (loop(\(x,i).2x,(1 + (((1 + (x div 2)) div 2) div 2)),2) mod (x + 1))))
2: (x div (2 + (x mod (1 + ((x + 1) div (1 + (((2x div (1 + ((x + 1) div 5))) mod 2) + (x mod 2))))))))
2: (x div (1 + (x mod (2 + ((x mod 3) div 2)))))
2: (x div (2 + (x mod (1 + (x div (1 + (((2x mod (1 + (x mod 4))) div 2) + (x mod 2))))))))
2: (x div (2 + (x mod (2 + (x div (1 + (2 * ((x mod (~1 + (2 * (x div 3)))) mod 2))))))))
2: (x div (1 + (x mod (1 + ((~1 + loop(\(x,i).2x,x,(((~x + 1) mod 3) - (x mod 2)))) mod (x + 1))))))
2: (x div (1 + (x mod (1 + (loop(\(x,i).2x,x,(1 + (x mod 2))) mod (2x + 1))))))
2: (x div (1 + (x mod 6)))
2: (x div (2 + (x mod 10)))
2: (x div (1 + (x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4))))))))
2: (x div (1 + (x mod (2 * (1 + (x mod (2 * (1 + (x mod (1 + (x div 3)))))))))))
2: (x div (2 + (if (x + ~2) <= 0 then 0 else 2)))
2: (x div (1 + (if ((x mod 3) mod 2) <= 0 then 2 else 0)))
2: (x div (2 + (if (x mod 2) <= 0 then 1 else (2 + (if (x mod 3) <= 0 then 1 else x)))))
2: (x div (1 + (if (x mod 2) <= 0 then 6 else 0)))
2: (x div (1 + (if (x mod 2) <= 0 then (2 * (1 + ((x mod 3) div 2))) else 1)))
2: (x div (2 + (if (x mod 3) <= 0 then 1 else 2)))
2: (x div (1 + (if (x mod 3) <= 0 then 2 else 1)))
2: (x div (2 + (if (x mod 3) <= 0 then 2 else 1)))
2: (x div (2 + (if (x mod 10) <= 0 then 1 else 2)))
2: (x div (1 + (if (i mod 2) <= 0 then 2 else 0)))
2: (x div (2 + (if x <= 0 then 0 else (1 + ((x div (1 + (2x mod 3))) mod 2) - (x mod 2)))))
2: (x div (~1 - (x div (2 + (x div (1 + (x mod (2 * (1 + (x mod 2))))))))))
2: (x div (0 - (2 * (2 + (2x mod 5)))))
2: (x div (~1 - ((~1 + loop(\(x,i).2x,x,2)) mod (x + 2))))
2: (x div (3 - (x mod ~4)))
2: (x div (1 - (3 * (1 + ((x + 1) mod 4)))))
2: (x div (1 - ((~x + 1) div (3 + (x mod 6)))))
2: (x div (10 - (x div 2)))
2: (x div (~x + 18))
2: (x div (2 - ((x - (x mod 3)) div 2)))
2: (x div (2 - (x div (~1 + (2 * (x mod ~2))))))
2: (x div (2 - (x mod ~3)))
2: (x div (4 - (if (x mod 2) <= 0 then 1 else x)))
2: (x div (~1 - ((1 + (x div 2)) mod 3)))
2: (x div (~1 - (x2 mod (x + 5))))
2: (x div (~1 - (x mod 3)))
2: (x div (~2 - (x mod 4)))
2: (x div (~1 - i))
2: (x div ((~x + 1) - (x mod 3)))
2: (x div (~5 + (x div 4)))
2: (x div (~3 + ((~x + 1) div 2)))
2: (x div (~3 + ((~x + 2) div 4)))
2: (x div (~10 + (x div 2)))
2: (x div (~4 + ((x div 2) mod 2)))
2: (x div (~4 + (x mod 2)))
2: (x div (12 - (x div 2)))
2: (x div (~1 + (2 * (2 + ((1 - (2 * (x mod 4))) mod (x + 2))))))
2: (x div (~1 + (3 * (2 + (x mod 2)))))
2: (x div (~1 + (4 * (~2 + (x mod 2)))))
2: (x div (~1 + (2 * (x div (1 + (x mod 9))))))
2: (x div (2x - (if x <= 0 then 1 else (((x div 2) * (x div 2)) div 2))))
2: (x div (~2 + ((1 - (2 * (x div 3))) div 3)))
2: (x div (~1 + ((~x + 1) div 2)))
2: (x div (~2 + (((2 - (x div 2)) div 2) div 2)))
2: (x div (~3 + (x div ~2)))
2: (x div (~2 + (x div ~7)))
2: (x div (~2 + (x div ~3)))
2: (x div (~2 + (x div 8)))
2: (x div (~2 + ((x2 div 2) mod ~3)))
2: (x div (~2 + (x mod ~3)))
2: (x div (~1 + (x mod (~1 + (x div ~2)))))
2: (x div (~1 + (i mod ~2)))
2: (x div (x + ~19))
2: (x div ((x + ~2) - (x mod 3)))
2: (x div (x + ~18))
2: (x div (x + ~16))
2: (x div (x - (3 * ((x + ~1) div 5))))
2: (x div (2 * (1 + (x div (2 * (1 + ((x + 2) mod 6)))))))
2: (x div (2 * (2 + ((x + 1) mod (2 + (x mod 2))))))
2: (x div (2 * (2 + ((x + 2) mod (2 + (x mod 2))))))
2: (x div (2 * (1 + ((x + 2) mod 6))))
2: (x div ((2 + ((~x + 1) mod 6)) * (1 + (x mod 4))))
2: (x div (2 * (2 + ((2 * (~1 + ((x2 + x) mod 5))) mod (x + 1)))))
2: (x div (2 * (2 + ((2x + ~4) mod 9))))
2: (x div (2 * (2 + (x mod 4))))
2: (x div (2 * (8 - ((x + ~2) div (2 + (x mod 2))))))
2: (x div (3 * (~2 + (x mod 2))))
2: (x div (4 * (1 + (2 * (x mod 2)))))
2: (x div (3 * (if (x mod 2) <= 0 then 4 else 1)))
2: (x div ((x + 2) div (1 + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x))))
2: (x div ((3x + 12) div (if x <= 0 then 1 else x)))
2: (x div ((if (x mod 2) <= 0 then 2 else x) mod 4))
2: (x div (if (~x + 2) <= 0 then 2 else 1))
2: (x div (if ((x + 1) mod 8) <= 0 then 2 else 1))
2: (x div (if (x mod 8) <= 0 then 2 else 1))
2: (x div (if (i mod 3) <= 0 then 4 else 1))
2: (i div (2x + 1))
2: (compr(\x.(1 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x2 + 2x))),x) div 3)
2: (compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 4x))),(x + 1)) div 2)
2: (compr(\x.(1 - loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),(x + 1)) div 2)
2: (compr(\x.(~1 + (loop(\(x,i).4x,x,1) mod (2x + 1))),x) div 2)
2: (1 mod (~x2 + 2))
2: (1 mod (~x + 16))
2: (1 mod (~1 + (2x mod (4 + (x div 4)))))
2: (1 mod (if ((x + ~1) mod 5) <= 0 then x else 1))
2: (1 mod loop(\(x,i).x2,(x + ~1),2))
2: (2 mod (1 + (((x + ~2) mod (2 + (x div 2))) div 2)))
2: (2 mod (1 + (x2 mod (3 + (x div 4)))))
2: (2 mod (1 + (x mod 5)))
2: (2 mod (1 - (2 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))))
2: (2 mod (~4x2 + ~4x + 2))
2: (2 mod ((~x + 1) - (x mod 2)))
2: (2 mod (~1 + (2 * ((x + ~2) div 3))))
2: (2 mod ((x + ~3) - (x mod 2)))
2: (2 mod ((if x <= 0 then 1 else x) div ~4))
2: (3 mod (1 + (x div 3)))
2: (3 mod (1 + (x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2)))))))))
2: (3 mod (if x <= 0 then 2 else x))
2: (4 mod (~1 + (x div ~3)))
2: (5 mod (1 + ((x * ((x mod (1 + ((~x + 2) mod 4))) div 2)) div 3)))
2: (5 mod (1 + ((x + 1) mod (if (~x + 2) <= 0 then 6 else 1))))
2: (5 mod (1 + (x mod 5)))
2: ((x + 5) mod (1 + (x div 2)))
2: (((x + 1) + (x div 2)) mod 5)
2: ((1 + (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) + loop(\(x,i).4x,x,1))) mod (x + 1))
2: ((x + 3) mod (2 + (x div 5)))
2: ((x + 3) mod 12)
2: ((x + 3) mod (if x <= 0 then 1 else (2 * (1 + (if (~2 + (x div 3)) <= 0 then 0 else 2)))))
2: ((x + 4) mod 9)
2: ((x + 4) mod (1 + (2 * (x div 3))))
2: ((x + 4) mod (1 + i))
2: ((x + 4) mod (~1 + ((2x + ~4) mod (2 + (x div 2)))))
2: ((~x + 4) mod (2x + 1))
2: ((~x + 4) mod (1 + (x mod (1 + (x div 5)))))
2: ((~x + 4) mod (2 - (x div ~4)))
2: ((~x + 5) mod (1 + (x div 3)))
2: ((1 + (x div 2) - ((~x + 2) div (2 + (x div 2)))) mod 2)
2: ((2 + (x div 2) - (x mod 2)) mod (4 + (x mod 2)))
2: (((x + 1) - (9 * (x mod 10))) mod (x + 1))
2: (7 mod (1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))
2: (13 mod (x + 1))
2: ((~2x + 3) mod (4 + (x div 4)))
2: ((4x + 1) mod (x + 2))
2: ((2x2 + 1) mod (2 + (x div 4)))
2: ((1 + (2 * ((4 * ((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3)) div 3))) mod (x + 1))
2: ((2 + (x * (x div 2))) mod (x + 3))
2: (((x * (x div 2)) + (x div 4)) mod 3)
2: (((x * (x div 2)) + (if x <= 0 then 0 else 1)) mod 3)
2: ((1 + (2 * (x mod 10))) mod (x + 1))
2: ((1 + ((if ((x * (x mod 3)) mod 5) <= 0 then 1 else 2) * (1 + (x mod 2)))) mod (x + 1))
2: ((1 + (x * loop(\(x,i).(~x2 + 1),2,4x))) mod (x + 1))
2: ((2 + (x * loop(\(x,i).(4x2 + x),2,2x))) mod (x + 1))
2: ((1 + (2 * loop(\(x,i).(2 * ((x + ~4) - (x div 4))),x,1))) mod (x + 1))
2: ((2 + (x * loop(\(x,i).2x2,2,(x + ~2)))) mod (x + 1))
2: ((2 + (x * loop(\(x,i).3x2,2,2x))) mod (x + 1))
2: ((2x + 1) mod 9)
2: ((2x + 1) mod 17)
2: ((2x + 1) mod (2 + (2x div 5)))
2: ((2x + 1) mod (1 + (2x mod (1 + ((x + 1) div 3)))))
2: ((2x + 1) mod (2 + (x mod (1 + (x div 8)))))
2: ((2x + 1) mod (1 + i))
2: ((2x + 1) mod (if (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) <= 0 then (2 + (x div 4)) else 1))
2: ((x2 + 1) mod 5)
2: ((x2 + 2) mod (x + 3))
2: ((x2 + 2) mod 6)
2: ((x + ((x + (2 * (((x div 4) * (x div 2)) div 2))) div 3)) mod 3)
2: ((1 + ((x + ((x div 2) div 3)) div 2)) mod 2)
2: ((1 + ((1 + ((loop(\(x,i).2x,x,2) mod (x + 1)) div 2)) div 2)) mod 3)
2: ((1 + ((x + 1) div 2)) mod 5)
2: ((1 + ((x + 1) div 2)) mod ((1 + ((x mod 3) div 2)) * (1 + (x mod 2))))
2: ((1 + ((x + 1) div (2 - (if (x mod 5) <= 0 then (x mod 2) else 0)))) mod (x + 1))
2: ((1 + ((x - (x div 8)) div 2)) mod 2)
2: ((((x2 + 2x) div 5) + (x mod 2)) mod 3)
2: ((2 + ((x2 + ~2x) div 8)) mod 5)
2: ((1 + ((2 * (x div 2)) div 3)) mod 3)
2: ((x + (((x div 2) * (x div 2)) div 2)) mod 3)
2: ((1 + ((x * (x mod 2)) div 2)) mod 5)
2: ((1 + (((1 + (x mod (1 + (x mod (2 * (2 + ((x div 2) div 5))))))) mod (x + 1)) div 2)) mod 3)
2: ((1 + (((x + 2) mod (3 + (x mod 4))) div 2)) mod (2 + (x mod 2)))
2: ((2 + ((x mod 3) div 2)) mod (1 + (x div 2)))
2: ((1 + (loop(\(x,i).2x,(loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2),1) div 2)) mod (x + 1))
2: ((1 + (x div 2)) mod (1 + (loop(\(x,i).~2x,x,1) mod (x + 1))))
2: ((2 + (x div 2)) mod (2 + (if (~4 + (x div 2)) <= 0 then 0 else 2)))
2: ((2x + (x div 2)) mod 4)
2: ((x + (x div 2)) mod (2 + ((2 * (x div 2)) div 3)))
2: ((1 + (x div 3)) mod 2)
2: ((1 + (x div 3)) mod 5)
2: (((x div 3) + (x div 2)) mod 3)
2: (((x div 3) + (x div 2)) mod 4)
2: ((x + (x div 3)) mod 5)
2: ((1 + (x div 4)) mod (1 + ((~x + 1) mod 5)))
2: ((2 + (x div 4)) mod (1 + (x mod 3)))
2: ((1 + (x div 5)) mod 2)
2: ((x + (x div (4 + (x div 2)))) mod 4)
2: ((1 + (x div (1 + (((2x + 1) mod (2 + (x div 4))) div 2)))) mod (x + 1))
2: ((1 + (x div (1 + (x div 5)))) mod 2)
2: ((2 + (x div (1 + (x mod (1 + ((3x mod (2 + (x div 2))) div 2)))))) mod (x + 1))
2: ((1 + (x div (2 + (x mod (2 + ((x div 2) mod 2)))))) mod 2)
2: ((1 + (x div (1 + (x mod (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))) mod (x + 1))
2: ((1 + (x div (2 - ((x - (x mod 3)) div 2)))) mod 2)
2: ((x + (x div 12)) mod 3)
2: ((1 + (x div (2 * (2 - (x mod 2))))) mod 2)
2: ((1 + ((1 + (x mod (2 * (1 + (x mod (2 * (1 + (x mod (1 + (x div 3)))))))))) mod (x + 1))) mod 3)
2: ((x + ((~x + 1) mod 3)) mod 5)
2: ((1 + ((~x + 2) mod 4)) mod (x + 1))
2: ((x + (((x + ~1) + (x mod 2)) mod 5)) mod 3)
2: ((1 + (8 mod (if x <= 0 then 1 else x))) mod 2)
2: ((1 + ((x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) mod 9)) mod (x + 1))
2: ((x + (((x2 div 4) div (x + 3)) mod 2)) mod 3)
2: ((2 + ((x div ~2) mod 3)) mod (if x <= 0 then 1 else x))
2: ((1 + ((2x mod (4 + (x div 4))) mod 4)) mod 3)
2: ((x + (x mod 2)) mod (~1 + ((~x + 1) div 3)))
2: ((1 + (x mod 3)) mod 2)
2: ((x2 + (x mod 4)) mod 8)
2: ((1 + (x mod 5)) mod 2)
2: ((1 + (x mod (1 + (2 * (2 + (4x mod 17)))))) mod (x + 1))
2: ((1 + (x mod (1 + (2 * (2 + ((x div 2) mod 5)))))) mod (x + 1))
2: ((2 + (x mod (1 + (2 * (if (x mod 6) <= 0 then 2 else 1))))) mod 3)
2: ((1 + (x mod (2 + ((x mod (2 + (x div 2))) div 2)))) mod 2)
2: ((1 + (x mod (1 + ((1 + (if (x mod 6) <= 0 then 2x else 1)) mod (x + 1))))) mod (x + 1))
2: ((1 + (x mod (1 + (x mod (3 - (x mod 2)))))) mod (x + 1))
2: ((1 + (x mod (1 + (x mod 6)))) mod 3)
2: ((1 + (x mod (1 + (x mod (2 * (2 + ((x div 2) div 5))))))) mod (x + 1))
2: ((1 + (x mod ~4)) mod (1 + (x div 3)))
2: ((1 + (x mod 8)) mod (1 + (if x <= 0 then 1 else x)))
2: ((x + (if (x + ~2) <= 0 then 1 else (if (x mod 2) <= 0 then x else (~x + 1)))) mod 3)
2: ((1 + (if ((x + ~2) mod 6) <= 0 then x else 2)) mod (x + 1))
2: ((x + (if (x mod 2) <= 0 then x else 1)) mod 6)
2: ((1 + (if (x mod 6) <= 0 then 2x else 1)) mod (x + 1))
2: (((if x <= 0 then 1 else x) + (x div 2)) mod (1 + (x div 3)))
2: ((1 + loop(\(x,i).(x3 + ~1),2,4)) mod (x + 1))
2: ((1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),x,2x)) mod 3)
2: ((x + loop(\(x,i).(x div (2 - (x mod 2))),x,x)) mod 3)
2: ((1 + loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x + ~2),x)) mod 3)
2: ((1 + loop(\(x,i).loop(\(x,i).(~x + i),x,x),x,x)) mod 2)
2: ((x + 1) mod (3 + (2 mod (1 + (x div 2)))))
2: ((x + 1) mod (4 + ((if (x mod 2) <= 0 then (x div 2) else 2x) mod (x + 4))))
2: ((x + 1) mod (3 + (x mod 4)))
2: ((x + 1) mod ((x + 3) - (2x mod (4 + (x div 4)))))
2: ((x + 1) mod (1 + (6 * (2x mod 3))))
2: ((x + 1) mod (1 + (2 * ((x + ~1) div 5))))
2: ((x + 1) mod (1 + (2 * ((x div 2) div 3))))
2: ((x + 1) mod (1 + (2 * ((4x2 mod (2 + (x div 2))) div 2))))
2: ((x + 1) mod (1 + (2 * (((x2 div 3) mod (x + 1)) div 2))))
2: ((x + 1) mod (1 + (2 * ((~x + 2) mod 3))))
2: ((x + 1) mod (1 + (3 * (((x + 1) mod 8) mod 3))))
2: ((x + 1) mod (1 + (2 * (x mod 3))))
2: ((x + 1) mod (1 + (2 * (x mod 5))))
2: ((x + 1) mod (1 + (2 * (if (((x + 1) div 2) mod 6) <= 0 then 2 else 0))))
2: ((x + 1) mod (1 + ((2 + (x div 2)) div 3)))
2: ((x + 1) mod (1 + ((x * (x mod 2)) div 4)))
2: ((x + 1) mod (1 + ((x div 2) div (1 + (x mod 2)))))
2: ((x + 1) mod (2 + ((x mod (1 + (x div 2))) div 2)))
2: ((x + 1) mod (2 + (x div (4 + (x mod 2)))))
2: ((x + 1) mod (1 + (x div (1 + (2 * (2 - ((x mod 3) div 2)))))))
2: ((x + 1) mod (1 + (x div (2 + (3 * (x mod 2))))))
2: ((x + 1) mod (1 + (x div (1 + (~x mod 8)))))
2: ((x + 1) mod (1 + (x div (2 + ((x div 2) mod 2)))))
2: ((x + 1) mod (1 + (x div (2 + (loop(\(x,i).(2x + 2),x,1) mod (x + 1))))))
2: ((x + 1) mod (1 + (x div (2 + (x mod 5)))))
2: ((x + 1) mod (1 + (x div (5 * (1 + (x mod 3))))))
2: ((x + 1) mod (1 + (4 mod (1 + (x div 2)))))
2: ((x + 1) mod (((x + 1) mod 4) + (x div 3)))
2: ((x + 1) mod (1 + ((x2 + ~x) mod 9)))
2: ((x + 1) mod (1 + (x2 mod (1 + (x div 2)))))
2: ((x + 1) mod (1 + (x mod (9 + (x mod 2)))))
2: ((x + 1) mod (1 + (x mod 9)))
2: ((x + 1) mod (1 + (x mod (1 + (x div (2 + (x div 8)))))))
2: ((x + 1) mod (1 + (x mod (1 + (x div (2 + (x mod 4)))))))
2: ((x + 1) mod (1 + (x mod (2 + (loop(\(x,i).(x + (i * i)),x,0) mod (x + 2))))))
2: ((x + 1) mod (1 + (x mod (1 - ((~x + (x mod 2)) div 3)))))
2: ((x + 1) mod ((if (x mod 4) <= 0 then ~1 else 2) + (x div 2)))
2: ((x + 1) mod (1 + loop(\(x,i).(if x <= 0 then 0 else (x + (x mod 2) - (if ((x + (x div 2)) mod 4) <= 0 then 2 else 1))),2,x)))
2: ((x + 1) mod (1 - (x div ~5)))
2: ((x + 1) mod ~10)
2: ((x + 1) mod 15)
2: ((x + 1) mod (~1 + (2 * (x div 3))))
2: ((x + 1) mod (~1 + ((~2x + 2) mod (4 + (x div 4)))))
2: ((x + 1) mod 14)
2: ((x + 1) mod (2 * (1 + (x div 8))))
2: ((x + 1) mod (2 * (1 + ((x + ~2) mod (1 + (x div 5))))))
2: ((x + 1) mod (2 * (1 + (x mod (2 + (x mod 2))))))
2: ((x + 1) mod ((2 * (2 + (if x <= 0 then 0 else (2 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))))) div 3))
2: ((x + 1) mod ((2 * (2 - ((x div 2) div ~2))) div 3))
2: ((x + 1) mod (if (~x + 2) <= 0 then 6 else 1))
2: ((x + 2) mod (3 + (x mod 4)))
2: ((x + 2) mod 13)
2: ((x + 2) mod (2 + (3 * ((x mod 3) div 2))))
2: ((x + 2) mod (2 + ((2 * (x div 2)) div 3)))
2: ((x + 2) mod (1 + (x div 3)))
2: ((x + 2) mod (1 + (x div (2 + (x div (2 + ((x div 2) mod 3)))))))
2: ((x + 2) mod (1 + (((x * (x div 2)) + (x div 4)) mod 3)))
2: ((x + 2) mod (1 + ((x - (if (~2 + (x div 2)) <= 0 then 2 else 1)) mod 3)))
2: ((x + 2) mod (2 + (x mod 4)))
2: ((x + 2) mod (1 + (if (~1 + (x mod 7)) <= 0 then 2 else 1)))
2: ((x + 2) mod (2 + (if (x mod 2) <= 0 then (x mod 3) else (x div 2))))
2: ((x + 2) mod (2 + i))
2: ((x + 2) mod (~1 + ((~x + 2) div 4)))
2: ((x + 2) mod (2 * (1 + (2x div 5))))
2: ((x + 2) mod (2 * (1 + (x mod (1 + ((x2 + 2x) mod 8))))))
2: ((x + 2) mod (2 * ((x + ((~1 + (x div 2)) mod 3)) div 2)))
2: ((x + i) mod 3)
2: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 5)
2: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 7)
2: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 9)
2: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 12)
2: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod (2 * (1 + (x div 4))))
2: ((1 + compr(\x.(if (x mod 2) <= 0 then ((x div 3) mod 3) else 0),x)) mod 3)
2: ((1 + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x)) mod 2)
2: (~2 mod (1 + ((x + 1) div 5)))
2: (~2 mod (1 + (x div 5)))
2: (~2 mod (1 + (x mod 5)))
2: ((0 - ((x div 2) div 3)) mod 3)
2: ((0 - ((~2x + 2) mod (4 + (x div 4)))) mod (x + 1))
2: ((0 - loop(\(x,i).2x,x,(if (x mod (2 + ((~x + 1) mod 3))) <= 0 then 1 else 0))) mod (x + 1))
2: (~x mod (2 + (x div 2)))
2: (~x mod (1 + (x div 4)))
2: ((1 - (2 * (x mod 4))) mod (x + 2))
2: ((~2x + 1) mod 5)
2: ((~2x + 1) mod (4 + (x div 2)))
2: ((~x2 + 1) mod (1 + (x div 2)))
2: ((1 - (2x div 3)) mod 5)
2: ((1 - (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 3)) mod (x + 1))
2: ((1 - (x div 2)) mod (x + 1))
2: ((1 - (x div 2)) mod (~1 + (2 * (x mod 4))))
2: ((1 - (x div 3)) mod 5)
2: ((1 - ((1 + ((2 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 3)) mod 3)) mod (x + 1))
2: ((1 - ((2 * (1 + ((1 + (x mod (1 + (x div 4)))) div (1 + ((x + 1) mod 4))))) mod 3)) mod (x + 1))
2: ((1 - ((x2 + 2x) mod 8)) mod (x + 1))
2: ((1 - (2x mod (4 + (x div 4)))) mod (x + 1))
2: ((1 - (x mod (((~x + 2) div 2) - (x mod 3)))) mod 3)
2: ((1 - (if ((x + 2) mod (2 + ((x div 2) mod 2))) <= 0 then x else 0)) mod 5)
2: ((~x + 1) mod 7)
2: ((~x + 1) mod 9)
2: ((~x + 1) mod 21)
2: ((~x + 1) mod (1 + (((x + 1) div 2) div 2)))
2: ((~x + 1) mod (1 + (x div 3)))
2: ((~x + 1) mod (1 + (x div 5)))
2: ((~x + 1) mod (2 + (x div (2 + (x mod 2)))))
2: ((~x + 1) mod (1 + ((~x + 2) mod 4)))
2: ((~x + 1) mod (1 + ((~2x + 4) mod (1 + (x div 2)))))
2: ((~x + 1) mod (1 + (x mod 9)))
2: ((~x + 1) mod (2 - (x div ~2)))
2: ((~x + 1) mod 6)
2: ((~x + 1) mod ((x + (if ((x div 2) mod 3) <= 0 then 2 else 0)) div 2))
2: ((1 - i) mod 4)
2: ((1 - compr(\x.(if (x mod 2) <= 0 then ((x div 3) mod 3) else 0),x)) mod 3)
2: (((~x + 2) + (x div 5)) mod 3)
2: ((~x2 + 2) mod 5)
2: ((~x2 + 2) mod (3 + (x div 2)))
2: ((2 - (x div 5)) mod 4)
2: ((2 - ((x + (x div 5)) mod 5)) mod (x + 1))
2: ((2 - (((x + ~2) - (x div 3)) mod 3)) mod (1 + (x div 3)))
2: ((2 - (2x mod 5)) mod (x + 1))
2: ((2 - (2x mod (2 + (x div 2)))) mod (x + 1))
2: ((2 - ((x div 2) mod 2)) mod (x + 1))
2: ((2 - (x mod 4)) mod (1 + (x div 3)))
2: ((~x + 2) mod (3 + (x div 3)))
2: ((~x + 2) mod (1 + (2 * (2 + (x mod 4)))))
2: ((~x + 2) mod (2 + ((x + ~2) div (2 + (x div 2)))))
2: ((~x + 2) mod (1 + ((((x + 1) + (x2 div 4)) div 2) div 2)))
2: ((~x + 2) mod (2 + (x div 5)))
2: ((~x + 2) mod (2 + (x mod 4)))
2: ((~x + 2) mod (2 - (x div ~2)))
2: ((~x + 2) mod 11)
2: ((2 - compr(\x.(if (x mod 2) <= 0 then ((x div 3) mod 3) else 0),x)) mod 3)
2: ((4 - (x mod 3)) mod (x + 1))
2: (~4 mod (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 8)))
2: ((~x + ~1) mod 5)
2: ((~x + ~1) mod (1 + (x div 4)))
2: ((~x + ~1) mod 10)
2: (((~x + 2) - (x div 2)) mod 8)
2: ((~1 + (loop(\(x,i).2x,loop(\(x,i).(x div (1 + (x mod 2))),x,x),1) + loop(\(x,i).2x,x,1)) - (x mod 2)) mod (x + 1))
2: (((x + ~3) + ((x div 2) mod 5)) mod (1 + (x div 2)))
2: (((x + ~2) - (x div 3)) mod 3)
2: (11 mod (2x + 1))
2: (11 mod (x + 1))
2: ((~1 + (2 * (1 + ((1 + ((1 + (((x + 1) * (x div (2 - (x mod 2)))) div 2)) div 2)) div 2)))) mod (x + 1))
2: ((~3x + 4) mod (1 + (x div 2)))
2: ((x2 + ~x + ~1) mod 7)
2: (23 mod (x + 1))
2: ((2x2 + ~1) mod (4 + (x div 4)))
2: ((x3 + ~1) mod 19)
2: ((x3 + ~1) mod (1 + (x div 2)))
2: ((~1 + (2 * ((x2 + (x div 2)) div 7))) mod (x + 2))
2: ((~1 + (2 * ((1 + (x div 2)) div 2))) mod (x + 1))
2: ((~1 + (x * (x div 2))) mod 4)
2: (((x * (x mod 2)) - (x div 2)) mod 5)
2: ((~1 + (2 * (x mod 5))) mod (x + 1))
2: ((~x + (2 * (x mod 8))) mod (2x + 1))
2: ((~1 + (2 * loop(\(x,i).x2,1,loop(\(x,i).((2 * (x - (2x * i))) div (1 + i)),x,1)))) mod (x + 1))
2: ((2x + ~1) mod 7)
2: ((2x + ~1) mod 9)
2: ((2x + ~1) mod (1 + (x div 2)))
2: ((2x + ~1) mod (1 + (x div 3)))
2: ((2x + ~1) mod (1 + (x mod 5)))
2: ((2x - ((x div 2) mod 2)) mod 4)
2: ((x2 + ~1) mod 5)
2: ((x2 + ~1) mod (2 + (x div 2)))
2: ((x2 + ~1) mod (2 + (x mod 2)))
2: ((x2 + ~1) mod (1 + (x mod 4)))
2: ((x2 + ~1) mod 6)
2: ((x2 + ~1) mod 16)
2: ((x2 + ~2) mod (2 + (x div 2)))
2: ((x2 + ~2) mod 6)
2: ((x2 - ((x div 4) mod 2)) mod 5)
2: ((((x + 1) div 2) - ((x div 4) mod 2)) mod 3)
2: ((~1 + (((4 + (x div 2)) * ((x + ~1) div 2)) div 2)) mod (x + 1))
2: ((~1 + ((x2 + ~x) div 4)) mod (x + 1))
2: ((~1 + (2x2 div 5)) mod (x + 1))
2: ((~1 + (((3x2 + ~x) div 2) div 4)) mod (x + 1))
2: ((~1 + (x div 2)) mod (1 + ((x div 2) div (1 + (2 * (x mod 2))))))
2: ((~1 + (x div 2)) mod (1 + (x div 4)))
2: ((~2 + (x div 2)) mod (x + 1))
2: (((x div 2) - (2x3 div (1 + (x div 2)))) mod 2)
2: (((x div 2) - (x div 8)) mod 2)
2: ((~x + (x div 4)) mod 4)
2: ((~x + (x div 5)) mod 3)
2: ((~x + ((~x + 1) mod 3)) mod 5)
2: ((~1 + ((x + ~1) mod 5)) mod (1 + (x div 3)))
2: ((~2 + ((x div 2) mod 2)) mod (x + 1))
2: ((~2 + (x mod 3)) mod (x + 2))
2: ((~1 + (x mod 5)) mod 3)
2: ((~2 + loop(\(x,i).(x3 + 2),2,2)) mod (x + 1))
2: ((~1 + loop(\(x,i).4x,(2 * (x div 2)),2)) mod (x + 1))
2: ((~1 + loop(\(x,i).4x,(x div 2),2)) mod (x + 1))
2: ((~1 + loop(\(x,i).4x,x,2)) mod (x + 1))
2: ((~1 + loop(\(x,i).2x,((x + 1) - ((x mod (1 + (x div 4))) div 2)),1)) mod (x + 1))
2: ((~2 + loop(\(x,i).2x,(1 - ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)),1)) mod 9)
2: ((~1 + loop(\(x,i).2x,(x - (x div 8)),2)) mod (x + 1))
2: ((~1 + loop(\(x,i).2x,2x,(1 + (x div (2 + (x mod 2)))))) mod (x + 1))
2: ((~1 + loop(\(x,i).2x,loop(\(x,i).(x div (1 + (x mod 2))),x,x),2)) mod (x + 1))
2: ((loop(\(x,i).2x,x,1) - (x mod 2)) mod (x + 1))
2: ((~1 + loop(\(x,i).2x,x,4)) mod (x + 1))
2: ((~1 + loop(\(x,i).2x,x,(2 + (x mod 2)))) mod (x + 1))
2: ((~1 + loop(\(x,i).2x,x,(2 - (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))) mod (x + 1))
2: ((~1 + loop(\(x,i).2x,x,(((~x + 1) mod 3) - (x mod 2)))) mod (x + 1))
2: ((~1 + loop(\(x,i).2x,x,(if (x mod 4) <= 0 then 2 else (x mod 2)))) mod (x + 1))
2: ((~1 + loop(\(x,i).2x,x,loop(\(x,i).(2 + (x * i)),x,2))) mod (x + 1))
2: ((~1 + loop(\(x,i).2x,x,loop(\(x,i).2x,((x mod (1 + (x div 2))) div 2),2))) mod (x + 1))
2: ((~1 + loop(\(x,i).x2,1,(1 + (x mod (1 + (x div (1 + (loop(\(x,i).2x,x,2) mod (2x + 1))))))))) mod (x + 1))
2: ((x + ~1) mod (3 + (x div 2)))
2: ((x + ~1) mod (4 + (x div 3)))
2: ((x + ~1) mod (3 + (x div 4)))
2: ((x + ~1) mod (3 + (x div (1 + (x mod 2)))))
2: ((x + ~1) mod (3 + (x div (1 + (x mod 4)))))
2: ((x + ~1) mod 13)
2: ((x + ~1) mod (1 + (2 * (2 + (x mod 3)))))
2: ((x + ~1) mod (1 + (4 * (if x <= 0 then 0 else 2))))
2: ((x + ~1) mod (1 + ((x * (x mod 2)) div 5)))
2: ((x + ~1) mod (1 + ((x div 2) div 3)))
2: ((x + ~1) mod (1 + (x div 5)))
2: ((x + ~1) mod (1 + (x2 mod (2 + (x div 4)))))
2: ((x + ~1) mod (2 + (x mod (2 + (x mod 2)))))
2: ((x + ~1) mod (1 + (if ((x + 1) mod (2 + ((x div 2) mod 2))) <= 0 then 1 else x)))
2: ((x + ~1) mod (1 + (if (x mod (1 + (((x + 1) div 2) div 3))) <= 0 then x else 1)))
2: ((x + ~1) mod (2 - (x div ~2)))
2: ((x + ~1) mod (x - ((x + 1) mod 11)))
2: ((x + ~1) mod 10)
2: ((x + ~1) mod (2 * (1 + i)))
2: ((x + ~2) mod (3 + ((x + (x mod 2)) div 3)))
2: ((x + ~2) mod (4 + (x div 2)))
2: ((x + ~2) mod (1 + (2 * ((~x + 1) mod 3))))
2: ((x + ~2) mod (1 + (2 * (x mod (2 + (x mod 2))))))
2: ((x + ~2) mod (1 + ((x + 1) div 2)))
2: ((x + ~2) mod (2 + (x div 4)))
2: ((x + ~2) mod (1 + (x div 5)))
2: ((x + ~2) mod (1 + (x2 mod 6)))
2: ((x + ~2) mod (2 + ((x2 div 2) mod 3)))
2: ((x + ~2) mod (1 + (if x <= 0 then 2 else (x div 3))))
2: ((x + ~2) mod ~4)
2: ((x + ~2) mod ((~x + ~1) + (x mod 2)))
2: ((x + ~2) mod (~1 + (2 * (x mod 4))))
2: ((x + ~3) mod 9)
2: ((x + ~3) mod (1 + ((1 + (x div 2)) div 3)))
2: ((x + ~3) mod (2 + (x div 2)))
2: ((x + ~4) mod (1 + ((x mod 6) mod (1 + (x div 3)))))
2: (((x + ~2) - (x div 4)) mod 4)
2: (((x + ~1) + loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x)) mod (x + 1))
2: (((x + ~2) + ((x div 2) mod 2)) mod 5)
2: (((x + 1) - ((2 - (x div 3)) mod 5)) mod 3)
2: (((x + 1) - (loop(\(x,i).2x,x,2) mod (x + 2))) mod (x + 1))
2: ((~3x2 + ~2x) mod 9)
2: ((x - (2 * ((x div (2 * (~2 + ((x * (x div 2)) mod 2)))) div 3))) mod (x + 1))
2: ((x - ((1 - ((x * (x div 2)) div 2)) div (x + 1))) mod 2)
2: ((x - ((~x + 1) div 3)) mod 3)
2: ((x - ((~x + 1) div (2 + (x div 2)))) mod 3)
2: ((x - ((~1 + (x div 2)) div 2)) mod 2)
2: ((x - ((~1 + (x div 2)) div 2)) mod 5)
2: ((x - ((~1 + (x div 4)) div 2)) mod 2)
2: ((x - ((x + ~2) div (4 + (x div 5)))) mod 2)
2: ((x - ((~2x + 2) div 9)) mod 2)
2: ((x - (x2 div 4)) mod 8)
2: ((x - (x2 div (x + 5))) mod 3)
2: ((x - (((x + 1) div 2) div 3)) mod 2)
2: ((x - (((x2 * (x div 2)) div 2) div 3)) mod 2)
2: ((x - (((1 - (2x div 3)) mod 5) div 2)) mod 3)
2: ((x - ((x mod ((~x + 2) + ((x mod 3) div 2))) div 2)) mod 2)
2: ((x - (x div 5)) mod 3)
2: ((x - (x div (2 + ((x div 2) mod 4)))) mod 2)
2: ((x - (x div (1 + (x mod 3)))) mod 2)
2: ((x - (x div ~2)) mod 5)
2: ((x - (x div (~3 + (x div ~4)))) mod 2)
2: ((x - (x div 12)) mod 3)
2: ((x - (2 mod (1 + (x div 2)))) mod 3)
2: ((x - ((2x + 1) mod (1 + (x div 4)))) mod 2)
2: ((x - ((1 + (x div 2)) mod 4)) mod 3)
2: ((x - ((x2 + ~1) mod 16)) mod (x + 1))
2: ((x - ((2x + 2) mod 13)) mod 3)
2: ((x - (2x mod 13)) mod 3)
2: ((x - ((x div 2) mod 3)) mod 5)
2: ((x - ((x div 2) mod 5)) mod 2)
2: ((x - ((x div 2) mod 5)) mod 3)
2: ((x - ((x div 3) mod 3)) mod 2)
2: ((x - (x mod (1 + (2 * ((x - (x div 3)) mod 3))))) mod 3)
2: ((x - (if (~2 + (x div 2)) <= 0 then 0 else 1)) mod 2)
2: ((x - (if (~2 + (x div 2)) <= 0 then 2 else 1)) mod 3)
2: ((x - (if (~2 + (x div 4)) <= 0 then 1 else 2)) mod 4)
2: ((x - (if ((~1 + (x div 3)) mod 4) <= 0 then 1 else 0)) mod 3)
2: ((x - i) mod 3)
2: ((x - compr(\x.(1 - (x mod (2 + (if (x mod 5) <= 0 then 2 else 0)))),(x + 1))) mod 3)
2: ((~1 + i) mod 9)
2: ((~1 + i) mod 6)
2: ((~1 + i) mod 12)
2: ((~1 + compr(\x.(if (x mod 2) <= 0 then ((x div 3) mod 3) else 0),x)) mod 3)
2: (6 mod (x + 2))
2: (6 mod (if x <= 0 then 1 else x))
2: (3x mod (1 + (x div 2) - (x div 3)))
2: (3x mod (~1 + (x div ~2)))
2: (8 mod (~x + ~1))
2: (5x mod 33)
2: (5x mod (1 + (x div 2)))
2: ((2 * ((x + 1) + (x mod 2))) mod (1 + (x div 4)))
2: ((x2 + 3x + ~4) mod (1 + (x div 4)))
2: ((~x2 + 3x) mod (1 + (x div 2)))
2: (14 mod (x + 1))
2: ((5x2 + 10x + 5) mod 9)
2: ((19x + 19) mod 11)
2: ((4x + 2) mod (2 + (x div 2)))
2: ((2x2 + 2) mod (1 + (x div 2)))
2: ((2 * (1 + ((1 + (x mod (1 + (x div 4)))) div (1 + ((x + 1) mod 4))))) mod 3)
2: ((2 * (1 + (((1 - (x mod (3 + (x mod 2)))) mod (x + 1)) div 5))) mod (x + 1))
2: ((2 * (((x mod (1 + (x div 4))) div 2) + (x mod 2))) mod (x + 1))
2: (((x + ~1) * (1 + (x div 2))) mod (1 + (x div 4)))
2: ((x * (1 + (x div 2))) mod 3)
2: ((x * (1 + (x div 2))) mod 4)
2: ((x * (1 + (x div 2))) mod (1 + (x div 5)))
2: (((x + (x div 2)) * (1 + (x mod 2))) mod 9)
2: ((2 * (2 + ((1 - (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 3)) mod (x + 1)))) mod 3)
2: (((x + 1) * (1 + (x3 mod 13))) mod 3)
2: (((x + 1) * (1 + loop(\(x,i).(if x <= 0 then 1 else ((2x * (~1 + (2 * i))) mod (1 + i))),x,0))) mod 3)
2: ((2x + 2) mod 9)
2: ((2x + 2) mod (1 + ((x div 2) div 3)))
2: ((2x + 2) mod (1 + ((x mod 5) div 2)))
2: ((2x + 2) mod (2 + (x div 3)))
2: ((3x + 3) mod 8)
2: ((x2 + x) mod 9)
2: ((x2 + x) mod 17)
2: ((x2 + x) mod (1 + (2 * ((1 + (x div 2)) div 3))))
2: ((x2 + x) mod (2x + 1))
2: ((x2 + x) mod 12)
2: ((x2 + x) mod loop(\(x,i).(x2 + 2x + 1),2,2))
2: ((2x + 4) mod 7)
2: ((2x + 4) mod (1 + ((x + 1) mod 4)))
2: ((x2 + 2x) mod (4 + (x div 2)))
2: ((x2 + 2x) mod 9)
2: ((x2 + 2x) mod (1 + (2 * (2 + (x div 3)))))
2: ((x2 + 2x) mod (1 + (x div (3 + ((x div 2) div 3)))))
2: ((x2 + 2x) mod (1 + (x div (2 + (x div 4)))))
2: ((x2 + 2x) mod (1 + (x div (2 + (x div (2 + (x mod 2)))))))
2: ((x2 + 2x) mod (1 + (if (~2 + (x div 3)) <= 0 then x else 2)))
2: (~2x mod (2 + (x div 4)))
2: (~2x mod (1 + (2x mod (1 + (x div 3)))))
2: (~x2 mod 5)
2: ((~x2 + x) mod (3 + (x div 2)))
2: ((~x2 + x) mod (1 + (x div 2)))
2: (((x + 1) * (2 - ((x div 2) mod 2))) mod 3)
2: (((x + 2) * (2 - ((x div 2) mod 2))) mod (1 + (x div 3)))
2: ((~2x + 4) mod (1 + (x div 3)))
2: ((~x2 + 2x) mod ((x + 1) + ((x div 2) div 3)))
2: ((~x2 + 2x) mod (1 + (x div 2)))
2: ((x4 + ~x) mod 21)
2: ((2 * (((1 + (8 mod (1 + (x div 2)))) div 2) - (x mod 2))) mod (x + 1))
2: ((2 * (~1 + ((x2 + x) mod 5))) mod (x + 1))
2: (((x + 1) * (~1 + (x mod 4))) mod 3)
2: ((x2 + ~x) mod (x + 4))
2: ((x2 + ~x) mod (1 + (x div 2)))
2: ((x2 + ~x) mod (1 + (x div 4)))
2: ((x2 + ~x) mod 10)
2: ((2x + ~4) mod 9)
2: ((2x + ~4) mod (2 + (x div 4)))
2: ((3x + ~6) mod (1 + (x div 2)))
2: ((x2 + ~2x) mod (x + 4))
2: ((x2 + ~2x) mod 9)
2: ((2x + ~6) mod (1 + (x div 2)))
2: ((~3x2 + ~4x) mod (1 + (x div 3)))
2: ((x * (x - (x mod 3))) mod 7)
2: ((8 * (1 + (x mod 2))) mod (x + 1))
2: ((x4 + x3 + 2x2 + 2x) mod 9)
2: ((4 * (2 + ((x mod 3) div 2))) mod (x + 1))
2: ((6 * (1 + (((x2 + 2x) div 2) mod (1 + ((1 + (x div 2)) div 3))))) mod (x + 1))
2: ((2x * (~1 + (2 * i))) mod (1 + i))
2: ((2x2 + ~4x + 2) mod (4 + (x div 4)))
2: (8x mod (1 + (x div 2)))
2: (x6 mod 13)
2: ((x4 + 4x3) mod 9)
2: ((2x4 + x3) mod (x + 4))
2: (x5 mod 9)
2: (x5 mod 17)
2: (x5 mod 41)
2: (4x mod 7)
2: (4x mod 9)
2: (4x mod 17)
2: (4x mod 11)
2: (2x2 mod (x + 4))
2: (2x2 mod 17)
2: (2x2 mod (1 + ((x div 2) div 3)))
2: (2x2 mod (1 + (x div 3)))
2: (2x2 mod (1 + ((4x + 4) mod (2 + (x div 3)))))
2: ((~x3 + x2) mod 5)
2: ((x3 + ~x2) mod 24)
2: ((x3 + ~2x2) mod (2 + (x div 2)))
2: (x4 mod 31)
2: (x4 mod 10)
2: (x4 mod 27)
2: (x3 mod (x + 4))
2: (x3 mod 7)
2: (x3 mod (~2x + 5))
2: (x3 mod 17)
2: (x3 mod 25)
2: (x3 mod (2 + (x div 2)))
2: (x3 mod 47)
2: (x3 mod (2x + ~1))
2: (x3 mod (x - ((~x + 2) div 2)))
2: (x3 mod 14)
2: (x3 mod 20)
2: ((((x + (x div 2)) div 2) * (x div 2)) mod 2)
2: ((2 * ((x + ((x + ~1) mod 3)) div 2)) mod (x + 1))
2: ((2 * ((~x + (x div 4)) div 2)) mod (x + 2))
2: ((((x + ~1) div 2) * (x mod 3)) mod 4)
2: ((((x + ~2) div 3) * (x div 2)) mod 2)
2: ((2 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2)) mod (x + 1))
2: ((2 * (((~x + 2) mod (2 + (x mod 4))) div 2)) mod 3)
2: ((x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) mod 9)
2: (((x + ~1) * (x div 2)) mod 3)
2: (((x div 2) * (x div 2)) mod (if x <= 0 then 1 else x))
2: ((x * (x div 2)) mod 5)
2: ((x * (x div 2)) mod (1 + (if ((x + 1) mod 8) <= 0 then 8 else 1)))
2: ((x * (x div 2)) mod (1 - ((~x + 2) div 8)))
2: ((x * (x div 2)) mod 8)
2: (((x + 1) * (x div 5)) mod 2)
2: (((x div ~3) * ((x + ~1) div 2)) mod 2)
2: ((2 * ((x + 1) mod 11)) mod (x + 2))
2: ((2 * ((x + 1) mod 10)) mod (x + 2))
2: ((2 * ((x + 2) mod 8)) mod 3)
2: ((3 * (x2 mod 6)) mod (x + 1))
2: (((x mod 4) * (x div 3)) mod 3)
2: ((x * (x mod (2 + (x div 2)))) mod 5)
2: ((2 * (x mod (1 - ((2 - (2x mod (4 + (x div 4)))) mod (x + 1))))) mod (x + 1))
2: ((2 * (x mod ((~x + 2) + (x mod 10)))) mod (x + 1))
2: (((x + 1) * (if (~2 + (x div 4)) <= 0 then 1 else 2)) mod 3)
2: ((2 * (if x <= 0 then 2 else x)) mod 3)
2: (2x mod (x + 7))
2: (2x mod (6 + (x mod 2)))
2: (2x mod (x + 10))
2: (2x mod (3 - (x div ~4)))
2: (2x mod (8 + (x div 3)))
2: (2x mod 13)
2: (2x mod 17)
2: (2x mod 21)
2: (2x mod (1 + ((1 + (x div 2)) div 2)))
2: (2x mod (5 + ((x + 1) div 2)))
2: (2x mod (1 + ((x div 3) div (1 + (x mod 4)))))
2: (2x mod (2 + ((~x + 1) mod (2 + (x div 2)))))
2: (2x mod (1 + ((4x + 4) mod (2 + (x div 3)))))
2: (2x mod (1 + (x mod 8)))
2: (2x mod (2 - (x div ~2)))
2: (2x mod (2 - (x div ~3)))
2: (2x mod ~5)
2: (2x mod (~1 + ((~x + (x mod 2)) div 3)))
2: (2x mod (~1 + (x div ~2)))
2: (2x mod (~1 + (x div ~3)))
2: (2x mod (~1 + ((~x2 + x) mod 5)))
2: (2x mod (if (~x + 2) <= 0 then (x div (2 + (x mod 2))) else 1))
2: (x2 mod 9)
2: (x2 mod (8 + (x div 2)))
2: (x2 mod 13)
2: (x2 mod (3x + 4))
2: (x2 mod (~2x + 5))
2: (x2 mod 19)
2: (x2 mod 17)
2: (x2 mod (1 + (8 * (~2 + (x mod 2)))))
2: (x2 mod (4x + 1))
2: (x2 mod (1 + (x div (2 + (x div 4)))))
2: (x2 mod (2 + (x mod 5)))
2: (x2 mod (2 + (if (x mod 2) <= 0 then 1 else (x + 2))))
2: (x2 mod (3x + ~2))
2: (x2 mod 11)
2: (x2 mod ~13)
2: (x2 mod 15)
2: (x2 mod (4x + ~1))
2: (x2 mod (2x - ((~x + 2) div 2)))
2: (x2 mod 8)
2: (x2 mod (2x + 8))
2: (x2 mod 14)
2: (x2 mod 16)
2: (x2 mod 20)
2: (x2 mod loop(\(x,i).(x + i),(x mod 4),1))
2: ((x * i) mod 2)
2: ((2 div (1 + (x div 4))) mod 2)
2: ((4 div (x + 2)) mod 2)
2: ((4 div (if x <= 0 then 1 else x)) mod 2)
2: (((1 + (x * ((1 + (x div 2)) mod 3))) div 2) mod 2)
2: (((2 + (x * (x mod 6))) div (x + 2)) mod 2)
2: (((2x + 1) div (3 + (x div 4))) mod 2)
2: (((x2 + 1) div 2) mod (x + 2))
2: (((x2 + 1) div (2 + (x div 2))) mod 2)
2: (((1 + ((~x2 + x) div 2)) div 2) mod (x + 1))
2: (((1 + ((x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) div 2)) div 2) mod 5)
2: (((1 + (((~x + 2) * (x div 3)) div 2)) div 2) mod 2)
2: (((1 + ((x * (x div 3)) div 4)) div 2) mod 2)
2: (((x + ((x div 2) div 3)) div 2) mod 2)
2: (((1 + (x div 2)) div 3) mod 2)
2: (((x + (x div 2)) div 2) mod (2 + ((x div 2) mod 2)))
2: (((1 + (x div 3)) div (1 + (x mod (2 + (x mod 2))))) mod 2)
2: (((x + (x div 4)) div 2) mod 2)
2: (((x + ((x + ~2) mod (2 + (x div 3)))) div 2) mod 2)
2: (((1 + (2x mod (2 + ((~x + 1) mod (2 + (x div 2)))))) div 2) mod 3)
2: ((((x mod 6) + (x mod 5)) div 2) mod 2)
2: (((x + (if (~2 + (x div 4)) <= 0 then 1 else 2)) div 2) mod 2)
2: (((x + (if (x mod 2) <= 0 then x else 1)) div 3) mod (1 + (x div 2)))
2: (((x + (if (x mod 2) <= 0 then x else 2)) div 3) mod 3)
2: (((x + 1) div 3) mod 3)
2: (((x + 1) div (2 + (x mod 2))) mod 2)
2: (((1 - ((3x2 + ~x) div 4)) div 2) mod (x + 1))
2: (((1 - (((x mod 2) - (x div 2)) div 2)) div 2) mod 2)
2: (((~x + 1) div 2) mod 4)
2: (((~x + 1) div 3) mod (1 + (x div 2)))
2: (((~x + 1) div (1 + ((1 + (x div 2)) div 2))) mod 2)
2: (((~x + 1) div (1 + (x mod 2))) mod 3)
2: (((~x + 1) div (1 + (x mod 4))) mod 2)
2: (((~x2 + 2) div (3x + ~1)) mod 2)
2: (((2 - (x div 2)) div 2) mod 3)
2: (((2 - (x div 2)) div (x + 2)) mod 2)
2: (((~x + 2) div 2) mod 5)
2: (((~x + 2) div 4) mod (x + 1))
2: (((~x + 2) div (2 + (x div 5))) mod 2)
2: (((~x + 2) div ((x + 2) - (x div 3))) mod 2)
2: (((~x + ((x + 1) * (x div 2))) div 4) mod 2)
2: (((~1 + (x * (x div 4))) div 3) mod 2)
2: (((2x + ~1) div (4 + (x div 4))) mod 3)
2: (((2x + ~1) div (2 + (x div 4))) mod 2)
2: (((x2 + ~1) div 2) mod (1 + (x mod 4)))
2: (((x2 + ~1) div 5) mod 3)
2: (((~1 + (x div 2)) div 3) mod 2)
2: ((((x mod 3) - (x div 2)) div 2) mod 2)
2: (((x + ~1) div 2) mod (1 + (2 * (x mod 4))))
2: (((x + ~1) div 2) mod (2 + (x mod 3)))
2: (((x + ~1) div 3) mod 4)
2: (((x + ~1) div (1 + ((x div 2) div 3))) mod 2)
2: (((x + ~1) div (2 + (x div 2))) mod 2)
2: (((x + ~1) div (1 + (x div (2 + (if (x mod 3) <= 0 then 2 else 0))))) mod 2)
2: (((x + ~1) div (if ((x div 2) mod 3) <= 0 then 1 else 2)) mod 2)
2: ((((x + ~1) + ((x div 2) div 3)) div 2) mod 2)
2: (((x - ((2 + (x div 2)) * (x mod 3))) div 2) mod 2)
2: (((x - ((x2 + (x div 2)) div 3)) div 2) mod 2)
2: (((x - (((x + 1) div 5) mod 2)) div 2) mod 2)
2: (((x - (((x + 1) mod 5) mod 2)) div 2) mod 2)
2: (((4x + ~4) div (4 + (x div 2))) mod 2)
2: (((~x2 + 3x) div 4) mod (x + 1))
2: (((x2 + x) div 2) mod 10)
2: (((x2 + x) div 2) mod 16)
2: ((((~x2 + 1) * (x div 4)) div 2) mod 3)
2: (((~x3 + x) div (2 + (x div 2))) mod 2)
2: (((~2x2 + 2x) div (2 + (x div 2))) mod 2)
2: (((~x2 + x) div 8) mod 3)
2: (((~2x2 + 4) div 5) mod (x + 1))
2: (((~x2 + 2x) div 2) mod 3)
2: (((~x2 + 2x) div (x + 2)) mod 2)
2: ((((~x2 + 2x + ~2) * (x div 2)) div (x + 1)) mod 2)
2: (((x * (~2 + (x div 3))) div 4) mod 2)
2: (((x2 + ~x) div 2) mod (1 + (x div 4)))
2: (((x2 + ~x) div 4) mod 4)
2: (((x2 + ~x) div (4 + (x * (x mod 2)))) mod 2)
2: (((x2 + ~x) div 8) mod 2)
2: (((2x + ~4) div (3 + (x div 4))) mod 2)
2: (((x3 + ~4x2 + 4x) div (x + 2)) mod 2)
2: (((x3 + x2) div (x + 3)) mod 2)
2: ((x4 div (2x + ~1)) mod 2)
2: ((x3 div (x + 4)) mod 3)
2: (((x * ((~x + 1) div (2 + (x div 2)))) div 2) mod 2)
2: (((x * (((1 - (x div 2)) * (x div 2)) div 2)) div 2) mod 3)
2: (((x * (x div 2)) div 2) mod (if (~2 + (x div 2)) <= 0 then 1 else 2))
2: (((x * (x div 3)) div 2) mod 3)
2: (((x * (((x + 1) div 2) mod 4)) div 3) mod 2)
2: ((((x + ~1) * (if (x + ~2) <= 0 then 0 else x2)) div 3) mod 3)
2: ((2x div 3) mod (1 + (x mod 4)))
2: ((2x div 3) mod (2 * (1 + (x mod 2))))
2: ((2x div (1 + ((x div 2) div (1 + (x mod 2))))) mod 2)
2: ((2x div (2 + (x div 2))) mod 2)
2: ((2x div (1 + (x div 3))) mod 2)
2: ((2x div (2 + (x div (2 + (if (x + ~2) <= 0 then 0 else 2))))) mod 2)
2: ((2x div ~7) mod (3x + 1))
2: ((x2 div 2) mod (4 + (x div 2)))
2: ((x2 div 2) mod (1 + ((1 + (x div 2)) div 2)))
2: ((x2 div 2) mod ~3)
2: ((x2 div 5) mod (x + 1))
2: ((x2 div (3 + (x div 2))) mod (x + 3))
2: ((x2 div (2 + (x mod 2))) mod (x + 3))
2: ((x2 div 12) mod 2)
2: ((((x2 + (x div 2)) div 2) div 2) mod 2)
2: ((((x + 1) div 2) div 3) mod 2)
2: (((((~x + 1) * (x div 2)) div 2) div 3) mod 2)
2: ((((3 * ((~x + 2) div 2)) div 2) div 2) mod 2)
2: (((((2x + ~1) * ((~x + 2) div 2)) div 2) div 2) mod 2)
2: (((x2 div 2) div 3) mod (x + 1))
2: (((x2 div 4) div (x + 3)) mod 2)
2: (((((x + ~1) div 2) div 2) div 3) mod 2)
2: ((((((x3 + ~3x2 + 2x) div 2) div 2) div 2) div 2) mod 2)
2: (((x div 2) div (~1 + (2 * (x mod 4)))) mod 2)
2: ((((4x + 1) mod (x + 2)) div 3) mod 3)
2: ((((x + (x div 2)) mod 5) div 2) mod 2)
2: ((((~x2 + 2) mod (1 + (x div 3))) div 2) mod 2)
2: ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) mod 4)
2: ((((~x + 2) mod 7) div 2) mod 2)
2: ((((x + ~2) mod (2 + (x div 2))) div 2) mod 2)
2: ((((x + ~3) mod 9) div 2) mod 3)
2: ((((~x2 + x) mod (2 + (x div 2))) div 2) mod 2)
2: (((x3 mod (2x + ~1)) div 2) mod 2)
2: (((2x mod 9) div 2) mod 3)
2: ((((x2 div 5) mod (x + 1)) div 2) mod 2)
2: (((loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + 1)) mod (x + 1)) div 2) mod 3)
2: (((x mod (2 + ((~x + 2) * (x div 2)))) div 2) mod 2)
2: (((if x <= 0 then 2 else x2) div (2 + (x mod 4))) mod 2)
2: (((if x <= 0 then 2 else x) div (2 + (x mod 2))) mod 2)
2: ((loop(\(x,i).2x,loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1) div 2) mod 5)
2: ((x div 2) mod (3 + (x mod 2)))
2: ((x div 2) mod (4 + (x mod 2)))
2: ((x div 2) mod (3 - (x mod 2)))
2: ((x div 2) mod (1 + (2 * (x mod 2))))
2: ((x div 2) mod (1 + (x div 5)))
2: ((x div 2) mod (1 + ((1 + ((x + 1) div 2)) mod 3)))
2: ((x div 2) mod (1 + ((2 * (x div 2)) mod 3)))
2: ((x div 2) mod (2 + ((x div 2) mod 2)))
2: ((x div 2) mod (1 + (x mod 3)))
2: ((x div 2) mod (2 + (x mod 4)))
2: ((x div 2) mod (1 + (x mod 5)))
2: ((x div 2) mod (1 + (x mod 8)))
2: ((x div 2) mod (1 + (x mod (2 * (1 + (x mod 2))))))
2: ((x div 2) mod (1 - ((x + 2) mod (~1 + ((~x + 2) div 4)))))
2: ((x div 2) mod ~3)
2: ((x div 2) mod (~1 + ((~x + 1) div 3)))
2: ((x div 2) mod (~2 + (x mod 2)))
2: ((x div 3) mod 5)
2: ((x div (1 + (2 * (1 + (x mod 3))))) mod 2)
2: ((x div (1 + (2 * (4 - (x div 2))))) mod 2)
2: ((x div (1 + (2 * ((~x + 1) mod 4)))) mod 2)
2: ((x div (1 + (2 * ((x + ~1) mod 3)))) mod 2)
2: ((x div (2 + ((~x + 1) mod 3))) mod 2)
2: ((x div (1 + ((x + ~1) mod 3))) mod 3)
2: ((x div (1 + ((x2 + 2x) mod 6))) mod (1 + (x div 2)))
2: ((x div (1 + (x2 mod 12))) mod 2)
2: ((x div (2 + (x mod 2))) mod 2)
2: ((x div (1 + (x mod 4))) mod 2)
2: ((x div (2 + (x mod (2 + ((x div 2) mod 2))))) mod 2)
2: ((x div (2 + i)) mod 2)
2: ((x div (0 - (2 * (2 + (2x mod 5))))) mod 2)
2: ((x div ~7) mod 3)
2: ((x div ~7) mod (2x + 1))
2: ((x div (1 - (3 * (1 + ((x + 1) mod 4))))) mod 2)
2: ((x div ~4) mod (x + 2))
2: ((x div (~1 - ((1 + (x div 2)) mod 3))) mod 2)
2: ((x div (~1 - (x2 mod (x + 5)))) mod 2)
2: ((x div ~5) mod 2)
2: ((x div (~2 + (x div 8))) mod 2)
2: ((x div (~2 + ((x div 2) mod 2))) mod 3)
2: ((x div (~2 + ((x div 4) mod 2))) mod 3)
2: ((x div (2 * (2 - (x mod 2)))) mod 2)
2: ((x div (2 * (~2 + (x mod 2)))) mod (1 + (x div 5)))
2: ((x div (3 * (~2 + (x mod 2)))) mod 3)
2: ((1 mod (1 - (2x mod (4 + (x div 4))))) mod (1 + (x div 3)))
2: ((4 mod (1 + (x div 2))) mod 2)
2: ((4 mod (~1 + (x div ~3))) mod 2)
2: ((4 mod (if x <= 0 then 1 else x)) mod 2)
2: (((x + 3) mod 8) mod 3)
2: (((x + 4) mod (1 + (2 * (x div 3)))) mod 2)
2: (((1 + (x div 2)) mod 5) mod 2)
2: (((2 + (x div 2)) mod 5) mod 2)
2: (((2 + (x div 4)) mod (1 + (x mod 3))) mod 2)
2: (((x + (x div 4)) mod 3) mod 2)
2: (((x + (x mod 2)) mod (~1 + ((~x + 1) div 3))) mod 2)
2: (((1 + (x mod ~4)) mod (1 + (x div 3))) mod 2)
2: (((x + 1) mod (3 + (2 mod (1 + (x div 2))))) mod 2)
2: (((x + 1) mod (1 + (4 mod (1 + (x div 2))))) mod 2)
2: (((x + 2) mod (2 + (3 * ((x mod 3) div 2)))) mod 4)
2: (((x + 2) mod 6) mod (1 + (2 * (x div 2))))
2: (((1 - (x div 2)) mod (x + 2)) mod 3)
2: (((1 - (x div 3)) mod 5) mod 2)
2: (((~x + 1) mod (2 - (x div ~2))) mod 2)
2: (((~x + 1) mod 8) mod 3)
2: (((~x2 + 2) mod (3 + (x div 2))) mod 2)
2: (((2 - (x div 2)) mod (x + 1)) mod 3)
2: (((2 - (x div 2)) mod (x + 2)) mod 2)
2: (((~x + 2) mod (3 + (x div 3))) mod 2)
2: (((~x + 2) mod (1 + (2 * (2 + (x mod 4))))) mod 2)
2: (((x3 + ~1) mod 19) mod 2)
2: (((x2 + ~1) mod (2 + (x mod 2))) mod (1 + (x div 2)))
2: (((x + ~1) mod (3 + (x div (1 + (x mod 2))))) mod 2)
2: (((x + ~1) mod (3 + (x div (1 + (x mod 4))))) mod 2)
2: (((x + ~1) mod (1 + ((x div 2) div 3))) mod 2)
2: (((x + ~1) mod (2 + (x mod 2))) mod 2)
2: (((x + ~1) mod (1 + (x mod 6))) mod 2)
2: (((x + ~2) mod 5) mod 2)
2: (((x + ~2) mod (3 + ((x + (x mod 2)) div 3))) mod 2)
2: (((x + ~2) mod (1 + (x div 2))) mod 5)
2: (((x + ~2) mod (1 + (if x <= 0 then 2 else (x div 3)))) mod 2)
2: (((x + ~3) mod (1 + (x div 2))) mod 4)
2: ((3x mod (~1 + (x div ~2))) mod 2)
2: ((8 mod (~x + ~1)) mod 3)
2: ((5x mod 33) mod 2)
2: (((2x + 2) mod (2 + (x div 4))) mod 2)
2: (((x2 + 2x) mod (1 + (2 * (2 + (x div 3))))) mod 3)
2: (((~2x2 + 2x) mod (2 + (x div 2))) mod 2)
2: (((~x2 + x) mod (3 + (x div 2))) mod 2)
2: (((~x2 + x) mod (2 + (x div 2))) mod 2)
2: (((~2x + 4) mod (1 + (x div 3))) mod 2)
2: (((2x + ~2) mod (2 + (x div 4))) mod 2)
2: (((2x + ~4) mod (x + 2)) mod 2)
2: (((2x + ~4) mod (x + 2)) mod 4)
2: (((2x + ~8) mod (x + 1)) mod 2)
2: ((16 mod (~x + ~1)) mod 8)
2: (((2x4 + x3) mod (x + 4)) mod 3)
2: ((2x2 mod (1 + (x div 2))) mod 2)
2: ((x3 mod (~2x + 5)) mod 2)
2: ((2x mod (4 + (x div 4))) mod 4)
2: ((2x mod 9) mod (x + 1))
2: ((2x mod (1 + ((x div 2) * (x div 2)))) mod 2)
2: ((2x mod (~1 + ((~x + 2) div 3))) mod 2)
2: ((2x mod (~1 + (x div ~3))) mod 2)
2: ((x2 mod (2 + (x div 2))) mod 2)
2: ((x2 mod (2 + (if (x mod 2) <= 0 then 1 else (x + 2)))) mod 2)
2: ((x2 mod (3x + ~2)) mod 2)
2: ((x2 mod (2x + ~5)) mod 2)
2: ((x2 mod (2x - ((~x + 2) div 2))) mod 2)
2: ((((x + ~1) div 2) mod (1 + (2 * (x mod 4)))) mod 2)
2: (((2x div 3) mod (1 + (x mod 4))) mod 2)
2: (((x2 div 2) mod (x + 2)) mod 2)
2: (((x2 div (3 + (x div 2))) mod (x + 3)) mod 2)
2: (((x2 div (2 + (x mod 2))) mod (x + 3)) mod 2)
2: (((x div 2) mod 5) mod 2)
2: ((((x + 2) mod 8) mod 3) mod 2)
2: ((((x + ~1) mod (1 + (x div 2))) mod 3) mod 2)
2: ((((x + ~2) mod (1 + (x div 2))) mod 5) mod 2)
2: (((x mod 13) mod 3) mod 2)
2: (((x mod 11) mod 3) mod 2)
2: ((x mod 4) mod (if x <= 0 then 1 else x))
2: ((x mod 5) mod (3 + ((x div 2) mod 2)))
2: ((x mod 5) mod (1 + (((x + 1) div 2) div 2)))
2: ((x mod 5) mod (1 + ((x + ~1) mod 4)))
2: ((x mod 5) mod (if x <= 0 then 1 else x))
2: ((x mod (3 + (x mod 2))) mod 2)
2: ((x mod (1 + (2 * (2 - (x mod 4))))) mod 2)
2: ((x mod (1 + (2 * (16 mod (x + 1))))) mod 4)
2: ((x mod (1 + (2 * (x mod 6)))) mod 2)
2: ((x mod (2 + (x div 3))) mod 2)
2: ((x mod (2 + (x div 4))) mod 3)
2: ((x mod (1 + (4 mod (1 + (x div 2))))) mod 2)
2: ((x mod (1 + ((~2 + (x div 2)) mod (x + 1)))) mod 2)
2: ((x mod (1 + ((x + ~1) mod 4))) mod 2)
2: ((x mod (2 + ((((x + 1) div 2) div 2) mod 2))) mod 2)
2: ((x mod (2 + (x mod (2 + (x mod 2))))) mod 3)
2: ((x mod ~2) mod 8)
2: ((x mod (~3 - (x div 4))) mod 2)
2: ((x mod ~7) mod 3)
2: ((x mod (1 - (2 * (2 + (x mod 2))))) mod 2)
2: ((x mod (2 - (x div ~3))) mod 2)
2: ((x mod ~3) mod (x + 1))
2: ((x mod (~2 - (x mod 4))) mod 2)
2: ((x mod (~2 - (x mod 7))) mod 2)
2: ((x mod ~9) mod 2)
2: ((x mod ~13) mod 2)
2: ((x mod (((~x + 2) div 2) - (x mod 3))) mod 2)
2: ((x mod (~2 + (x mod ~4))) mod 2)
2: ((x mod (~8 + (if (x + ~2) <= 0 then 2 else 1))) mod 2)
2: ((x mod 6) mod 4)
2: ((x mod 6) mod ((x + ~1) - ((x mod 3) mod 2)))
2: ((x mod 8) mod 5)
2: ((x mod ~8) mod 3)
2: ((x mod (2 * (1 + (x mod 4)))) mod (1 + (x div 2)))
2: ((x mod (((~x + ~1) + (x mod 2)) div 3)) mod 2)
2: ((x mod (if (x + ~1) <= 0 then 1 else ((1 + (x div 2)) div 2))) mod 2)
2: ((if (~2 + (x div 2)) <= 0 then 2 else (x + ~2)) mod 5)
2: ((if (~2 + (x div 2)) <= 0 then x else (x + 1)) mod 5)
2: ((if (x + ~2) <= 0 then 1 else x) mod (3 - (x mod 2)))
2: ((if (x + ~2) <= 0 then x else 2x) mod 5)
2: ((if (x + ~2) <= 0 then x else ((x + 1) mod (2 + (x mod 2)))) mod 2)
2: ((if (x + ~4) <= 0 then 1 else x) mod 2)
2: ((if ((x div 3) mod 3) <= 0 then x else ~x) mod 4)
2: ((if ((x div 5) mod 2) <= 0 then x else ~x) mod 10)
2: ((if (x mod 2) <= 0 then 1 else x) mod (2 + (x mod 3)))
2: ((if (x mod 2) <= 0 then 2 else x3) mod (2 + (x div 2)))
2: ((if (x mod 2) <= 0 then (~x + 1) else x) mod 3)
2: ((if (x mod 2) <= 0 then (x div 2) else 2x) mod (x + 4))
2: ((if (x mod 2) <= 0 then x else ~x) mod 10)
2: ((if (x mod 3) <= 0 then 1 else x) mod 2)
2: ((if (x mod 4) <= 0 then 2 else (x mod 2)) mod (1 + (x div 3)))
2: ((if (x mod 5) <= 0 then (x + ~1) else 1) mod (1 + (x div 4)))
2: ((if (x mod (2 + (x mod 2))) <= 0 then 1 else x) mod 4)
2: ((if x <= 0 then 1 else x2) mod 3)
2: ((if x <= 0 then 1 else x2) mod 9)
2: ((if x <= 0 then 1 else (((x + 1) div 2) div 2)) mod 2)
2: ((if x <= 0 then 1 else (x div ((if (x mod 2) <= 0 then 2 else x) mod 4))) mod 2)
2: ((if x <= 0 then 1 else x) mod 6)
2: (loop(\(x,i).((2x + 1) + (x mod 2)),x,0) mod (x + 1))
2: (loop(\(x,i).(3x + 2),x,0) mod (x + 1))
2: (loop(\(x,i).(3x + 4),x,1) mod (~1 + loop(\(x,i).2x,x,2)))
2: (loop(\(x,i).(2x + 1),(x div (1 + (x mod 2))),1) mod (x + 1))
2: (loop(\(x,i).(x + (i * i)),x,0) mod (x + 1))
2: (loop(\(x,i).(~2x + 1),x,0) mod (x + 1))
2: (loop(\(x,i).(1 - (x * i)),x,1) mod (x + 1))
2: (loop(\(x,i).(2x2 + ~1),2,4) mod (x + 1))
2: (loop(\(x,i).(~3x2 + x),2,2) mod (x + 1))
2: (loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x) mod 7)
2: (loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x) mod (x + 2))
2: (loop(\(x,i).(2x + 8),x,1) mod (x + 1))
2: (loop(\(x,i).(~2x + 6),x,1) mod (x + 1))
2: (loop(\(x,i).(x * (1 + (3x * (2 + i)))),2,x) mod (x + 1))
2: (loop(\(x,i).(4x + 2),(x div 2),1) mod (x + 1))
2: (loop(\(x,i).(2x2 + 7x + 3),4,2) mod (x + 1))
2: (loop(\(x,i).(x * (1 + (if (x mod (1 + i)) <= 0 then 0 else i))),x,1) mod (x + 2))
2: (loop(\(x,i).(2x + 2),(loop(\(x,i).(~3x2 + x),2,2) mod (x + 1)),1) mod (x + 1))
2: (loop(\(x,i).(2x + 2),(if (x mod 2) <= 0 then x else 1),1) mod (x + 1))
2: (loop(\(x,i).(2x + 2),x,2) mod loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))
2: (loop(\(x,i).(2x + 2),x,(1 - (2 * (x mod 2)))) mod (x + 1))
2: (loop(\(x,i).(3x + 3),x,0) mod (x + 1))
2: (loop(\(x,i).(x2 + x),1,(loop(\(x,i).(2 * (x - i)),x,2) mod (x + 1))) mod (x + 1))
2: (loop(\(x,i).(x2 + x),2,8) mod (x + 1))
2: (loop(\(x,i).(x2 + x),3,2) mod (x + 1))
2: (loop(\(x,i).(x2 + x),4,10) mod (x + 1))
2: (loop(\(x,i).(x * (2 + i)),4,1) mod (x + 1))
2: (loop(\(x,i).(x * (2 + i)),((x + 1) div 2),1) mod (x + 2))
2: (loop(\(x,i).((x + 1) * (x + i)),4,2) mod (x + 1))
2: (loop(\(x,i).((x + 1) * (x + i)),4,5) mod (x + 1))
2: (loop(\(x,i).~2x,x,1) mod 7)
2: (loop(\(x,i).~2x2,2,2) mod (x + 1))
2: (loop(\(x,i).(~2x + 2),x,0) mod (x + 1))
2: (loop(\(x,i).(~2x + 2),x,3) mod (x + 2))
2: (loop(\(x,i).(~x4 + 3x2),3,2) mod (x + 1))
2: (loop(\(x,i).(~2x + 4),x,1) mod (x + 1))
2: (loop(\(x,i).(6x2 + ~5x + 1),2,x) mod (x + 1))
2: (loop(\(x,i).(2 * (2x - (x div (1 + i)))),x,2) mod (x + 1))
2: (loop(\(x,i).(2x + ~2),x,1) mod (if x <= 0 then 1 else x))
2: (loop(\(x,i).(x2 + ~x),2,4x) mod (x + 1))
2: (loop(\(x,i).(2x + ~4),x,1) mod loop(\(x,i).3x,x,1))
2: (loop(\(x,i).(x * (x - i)),2,8) mod (x + 1))
2: (loop(\(x,i).(x * (x - i)),2,(x div 2)) mod (x + 1))
2: (loop(\(x,i).(x2 * (~1 + (3 * (2 + i)))),2,x) mod (x + 1))
2: (loop(\(x,i).(16x2 + ~8),2,x) mod (x + 1))
2: (loop(\(x,i).8x,(x + 1),1) mod (x + 1))
2: (loop(\(x,i).4x,x,1) mod 13)
2: (loop(\(x,i).4x,x,1) mod (x + 1))
2: (loop(\(x,i).2x2,2,4) mod (x + 1))
2: (loop(\(x,i).3x2,2,x) mod (x + 2))
2: (loop(\(x,i).x3,2,15) mod (x + 1))
2: (loop(\(x,i).(x * ((1 + i) div 2)),x,1) mod (x + 1))
2: (loop(\(x,i).((x + 2) * loop(\(x,i).x2,2,(x + 2))),2,1) mod (x + 1))
2: (loop(\(x,i).2x,(1 + (((1 + (x div 2)) div 2) div 2)),2) mod (x + 1))
2: (loop(\(x,i).2x,(2 - ((~x + 2) div 5)),1) mod (x + 1))
2: (loop(\(x,i).2x,(3x div (1 + (x mod 4))),1) mod (x + 1))
2: (loop(\(x,i).2x,(x div 2),2) mod (x + 1))
2: (loop(\(x,i).2x,(x div 2),~2) mod (x + 1))
2: (loop(\(x,i).2x,x,2) mod loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))
2: (loop(\(x,i).2x,x,(~1 + (loop(\(x,i).2x,x,2) mod (x + 2)))) mod (x + 1))
2: (loop(\(x,i).2x,x,(x + ~1)) mod (x + 1))
2: (loop(\(x,i).2x,x,(x mod 2)) mod (x + 1))
2: (loop(\(x,i).2x,x,(if ((x + (x div 2)) mod 4) <= 0 then 1 else 2)) mod (x + 1))
2: (loop(\(x,i).2x,x,loop(\(x,i).2x,((((1 + (8 mod (1 + (x div 2)))) div 2) + (if x <= 0 then 0 else 1)) - (x mod 2)),1)) mod (x + 1))
2: (loop(\(x,i).2x,x,x) mod (x + 2))
2: (loop(\(x,i).x2,2,(1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1))) mod (x + 1))
2: (loop(\(x,i).(2 * i),(x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))),1) mod (x + 1))
2: (loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,1) mod (2 + (x * (x mod 2))))
2: (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) mod 9)
2: (loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 4)
2: (loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 6)
2: (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) mod 5)
2: (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) mod 9)
2: (loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + 1)) mod (x + 1))
2: (loop(\(x,i).(if x <= 0 then 0 else (1 + (if (~2 + (x div 2)) <= 0 then x else (x + 2)))),2,x) mod 3)
2: (loop(\(x,i).i,(x mod (1 + (4 mod (x + 1)))),1) mod 3)
2: (x mod (6 + (x mod 2)))
2: (x mod (6 + (x div 2)))
2: (x mod (3 + (x div 3)))
2: (x mod (1 + ((x div 4) + (x mod 2))))
2: (x mod (2 + (((x div 2) mod 2) + (x mod 3))))
2: (x mod (4 + ((x div 4) mod 2)))
2: (x mod (4 + (x mod 5)))
2: (x mod (4 + (x mod (2 + (x mod 2)))))
2: (x mod (3 + (i mod 2)))
2: (x mod (2 + (if (x mod 2) <= 0 then (x div 2) else (x mod 3))))
2: (x mod (4 - (((x + ~1) mod (1 + ((x + 2) div 3))) div 2)))
2: (x mod (3 - ((x div 2) mod 2)))
2: (x mod (3 - ((x div 4) mod 2)))
2: (x mod ((x + 1) - ((~1 + (x div 2)) div 2)))
2: (x mod ((x + 2) - (x div 5)))
2: (x mod (1 + (2 * (2 + (x div 4)))))
2: (x mod (1 + (2 * (2 + (4x mod 17)))))
2: (x mod (1 + (2 * (1 + ((x div 2) mod 3)))))
2: (x mod (1 + (2 * (2 + ((x div 2) mod 5)))))
2: (x mod ((2 * (1 + (x mod 2))) + ((x div 2) div 3)))
2: (x mod (1 + (2 * (1 + (x mod 3)))))
2: (x mod (1 + (2 * (2 + (x mod 3)))))
2: (x mod (1 + (2 * (1 + (x mod 5)))))
2: (x mod (1 + (2 * (1 + (x mod (if (~2 + (x div 2)) <= 0 then 1 else 2))))))
2: (x mod (1 + (2 * (3 - ((x div 3) mod 2)))))
2: (x mod (1 + (2 * (2 - (x mod 2)))))
2: (x mod (1 + (2 * (2 - (x mod 4)))))
2: (x mod (2 + ((~x + 2) * (x div 2))))
2: (x mod (1 + (10 * (x mod 2))))
2: (x mod (1 + (2 * (((~x + 2) mod (2 + (x div 2))) div 2))))
2: (x mod (1 + (2 * (x div (3 - (x mod 2))))))
2: (x mod (1 + (2 * (x div (1 + (2 * (1 + ((x div 2) mod 2))))))))
2: (x mod (1 + (2 * (x div (2 * (2 + ((x + 2) mod (2 + (x mod 2)))))))))
2: (x mod (1 + (2 * (x div (2 * (2 + ((x div 2) mod 2)))))))
2: (x mod (1 + (2 * ((x + 1) mod (2 + ((x div 2) mod 2))))))
2: (x mod (1 + (2 * ((x + 2) mod (1 + (x div 4))))))
2: (x mod (1 + (2 * ((2 - (((x + ~2) - (x div 3)) mod 3)) mod (1 + (x div 3))))))
2: (x mod (1 + (2 * ((x div 2) mod 2))))
2: (x mod (1 + (3 * (x mod 4))))
2: (x mod (1 + (3 * (x mod (3 + (x mod 2))))))
2: (x mod (1 + (2 * (x mod (1 + (x div 8))))))
2: (x mod (1 + (4 * (if (x mod 2) <= 0 then 2 else x))))
2: (x mod (1 + (2 * (if (x mod 2) <= 0 then (x div 4) else 1))))
2: (x mod (1 + ((x2 + ~x + 2) div (x + 3))))
2: (x mod (1 + ((1 + (x div 2)) div (1 + (x mod 2)))))
2: (x mod (1 + ((x + 1) div (1 + (((2x div (1 + ((x + 1) div 5))) mod 2) + (x mod 2))))))
2: (x mod (2 + ((x + ~2) div (2 + (x div 2)))))
2: (x mod (1 + ((2 * (x + ((x * (x div 2)) mod 2))) div 3)))
2: (x mod (1 + ((4 * (loop(\(x,i).2x,x,x) mod (x + 1))) div 3)))
2: (x mod (8 + (2x div (2 + (x div 2)))))
2: (x mod (1 + (2x div (1 + (x mod (1 + ((~x + 2) mod 4)))))))
2: (x mod (2 + ((x div 2) div 3)))
2: (x mod (1 + (((x + 1) mod (~1 + (2 * (x div 3)))) div 2)))
2: (x mod (2 + ((x mod (2 + (x div 2))) div 2)))
2: (x mod (1 + ((x mod (2 + (x div 4))) div 2)))
2: (x mod (1 + ((x mod (2 + ((x2 div 4) mod (x + 1)))) div 3)))
2: (x mod (8 + (x div 4)))
2: (x mod (1 + (x div (1 + (((2x mod (1 + (x mod 4))) div 2) + (x mod 2))))))
2: (x mod (1 + (x div (3 + (x div 3)))))
2: (x mod (1 + (x div (3 + ((x + 1) mod 4)))))
2: (x mod (2 + (x div (3 - (x mod 2)))))
2: (x mod (1 + (x div (2 + (2 * (((2x + 1) mod (2 + (x div 4))) div 2)) - (x mod 2)))))
2: (x mod (1 + (x div (1 + (2 * ((x + 1) mod (1 + (x div 4))))))))
2: (x mod (1 + (x div (1 + (2 * (loop(\(x,i).(2x + 2),x,0) mod (x + 1)))))))
2: (x mod (2 + (x div (2 + (3 * (x mod 2))))))
2: (x mod (1 + (x div (2 + (x div (2 + ((x mod 3) div 2)))))))
2: (x mod (1 + (x div (2 + ((1 - (x div 2)) mod 4)))))
2: (x mod (1 + (x div (2 + (x mod 2)))))
2: (x mod (2 + (x div (2 + (x mod 2)))))
2: (x mod (1 + (x div (2 + (x mod 4)))))
2: (x mod (1 + (x div (2 + (x mod 5)))))
2: (x mod (1 + (x div (2 + (if x <= 0 then 0 else (1 + ((x div (1 + (2x mod 3))) mod 2) - (x mod 2)))))))
2: (x mod (1 + (x div (2 * (2 + (x mod 2))))))
2: (x mod (1 + (i div 3)))
2: (x mod (1 + (4 mod (1 + (x div 3)))))
2: (x mod (2 + (5 mod (1 + (x div 2)))))
2: (x mod (1 + ((1 + (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) + loop(\(x,i).4x,x,1))) mod (x + 1))))
2: (x mod (1 + (((x + 1) - (9 * (x mod 10))) mod (x + 1))))
2: (x mod (2 + (13 mod (x + 1))))
2: (x mod (2 + ((1 + ((if ((x * (x mod 3)) mod 5) <= 0 then 1 else 2) * (1 + (x mod 2)))) mod (x + 1))))
2: (x mod (2 + ((2x + 1) mod (2 + (x div 2)))))
2: (x mod (1 + ((1 + (x div 2)) mod (1 + (loop(\(x,i).~2x,x,1) mod (x + 1))))))
2: (x mod (2 + ((x + (x div 3)) mod 3)))
2: (x mod (1 + ((1 + (x mod (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))) mod (x + 1))))
2: (x mod (2 + ((1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)) mod (x + 1))))
2: (x mod (1 + ((1 + (if (x mod 6) <= 0 then 2x else 1)) mod (x + 1))))
2: (x mod (1 + ((1 - ((x2 + 2x) mod 8)) mod (x + 1))))
2: (x mod (2 + ((~x + 1) mod (2 + (x div 2)))))
2: (x mod (2 + ((~x + 1) mod (2 + (x div 4)))))
2: (x mod (1 + ((~x + 1) mod (1 + (x mod 9)))))
2: (x mod (2 + ((~x + 1) mod 8)))
2: (x mod (1 + ((~x + 2) mod (2 + (x div 3)))))
2: (x mod (2 + ((~x + 2) mod 8)))
2: (x mod (1 + (11 mod (x + 1))))
2: (x mod (1 + ((~1 + (2 * (1 + ((1 + ((1 + (((x + 1) * (x div (2 - (x mod 2)))) div 2)) div 2)) div 2)))) mod (x + 1))))
2: (x mod (1 + ((~3x + 4) mod (1 + (x div 2)))))
2: (x mod (1 + ((~1 + (2 * loop(\(x,i).x2,1,loop(\(x,i).((2 * (x - (2x * i))) div (1 + i)),x,1)))) mod (x + 1))))
2: (x mod (2 + ((~1 + (x div 2)) mod 5)))
2: (x mod (1 + ((~2 + (x div 2)) mod (x + 1))))
2: (x mod (1 + ((loop(\(x,i).2x,x,1) - (x mod 2)) mod (x + 1))))
2: (x mod (1 + ((~1 + loop(\(x,i).2x,x,(((~x + 1) mod 3) - (x mod 2)))) mod (x + 1))))
2: (x mod (1 + ((~1 + loop(\(x,i).2x,x,loop(\(x,i).(2 + (x * i)),x,2))) mod (x + 1))))
2: (x mod (2 + ((x + ~1) mod 4)))
2: (x mod (1 + ((x + ~1) mod 5)))
2: (x mod (1 + ((x + ~1) mod 7)))
2: (x mod (1 + ((x + ~1) mod 8)))
2: (x mod (1 + (6 mod (x + 1))))
2: (x mod (1 + ((5x2 + 10x + 5) mod 9)))
2: (x mod (1 + ((2x2 + 2) mod (1 + (x div 2)))))
2: (x mod (1 + (((x + 2) * (2 - ((x div 2) mod 2))) mod (1 + (x div 3)))))
2: (x mod (1 + ((3x + ~6) mod (x + 1))))
2: (x mod (1 + ((4 * (2 + ((x mod 3) div 2))) mod (x + 1))))
2: (x mod (2 + ((6 * (1 + (((x2 + 2x) div 2) mod (1 + ((1 + (x div 2)) div 3))))) mod (x + 1))))
2: (x mod (1 + ((x4 + 4x3) mod 9)))
2: (x mod (1 + (2x mod 3)))
2: (x mod (2 + (2x mod 5)))
2: (x mod (2 + (x2 mod 3)))
2: (x mod (1 + (x2 mod (x + 4))))
2: (x mod (2 + (x2 mod (x + 4))))
2: (x mod (3 + ((x2 div 3) mod (x + 1))))
2: (x mod (1 + ((x div 2) mod 3)))
2: (x mod (2 + ((x div ~7) mod 3)))
2: (x mod (1 + ((x mod ~7) mod 3)))
2: (x mod (1 + ((x mod (2 * (1 + (x mod 4)))) mod (1 + (x div 2)))))
2: (x mod (2 + (loop(\(x,i).(x + (i * i)),x,0) mod (x + 2))))
2: (x mod (1 + (loop(\(x,i).(2x + 2),(loop(\(x,i).(~3x2 + x),2,2) mod (x + 1)),1) mod (x + 1))))
2: (x mod (1 + (loop(\(x,i).2x,x,x) mod (x + 1))))
2: (x mod (1 + (x mod (2 + (if (x mod 2) <= 0 then (x div 2) else (x mod 3))))))
2: (x mod (1 + (x mod (2 + (x div 2)))))
2: (x mod (2 + (x mod (1 + (x div 3)))))
2: (x mod (1 + (x mod (2 + (x div (3 - (x mod 2)))))))
2: (x mod (1 + (x mod (1 + (x div (1 + (2 * ((x + 1) mod (1 + (x div 4))))))))))
2: (x mod (1 + (x mod (1 + (x div (2 + (x div 8)))))))
2: (x mod (1 + (x mod (1 + (x div (2 + ((1 - (x div 2)) mod 4)))))))
2: (x mod (1 + (x mod (1 + (x div (2 + ((x div 2) mod 2)))))))
2: (x mod (1 + (x mod (1 + (x div (2 + (if x <= 0 then 0 else (1 + ((x div (1 + (2x mod 3))) mod 2) - (x mod 2)))))))))
2: (x mod (1 + (x mod (1 + ((1 + (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) + loop(\(x,i).4x,x,1))) mod (x + 1))))))
2: (x mod (1 + (x mod (1 + (((x + 1) - (9 * (x mod 10))) mod (x + 1))))))
2: (x mod (1 + (x mod (1 + ((~x + 2) mod 4)))))
2: (x mod (1 + (x mod (1 + ((~1 + (2 * (1 + ((1 + ((1 + (((x + 1) * (x div (2 - (x mod 2)))) div 2)) div 2)) div 2)))) mod (x + 1))))))
2: (x mod (1 + (x mod (1 + ((2x2 + 2) mod (1 + (x div 2)))))))
2: (x mod (1 + (x mod (2 + (loop(\(x,i).(2 * (x + i)),x,1) mod (x + 1))))))
2: (x mod (1 + (x mod (1 + (x mod 4)))))
2: (x mod (1 + (x mod (1 + (x mod (1 + (x div (2 + (x div 8)))))))))
2: (x mod (1 + (x mod (1 - (x div ~4)))))
2: (x mod (2 + (x mod (~1 + (2 * (x div 4))))))
2: (x mod (1 + (x mod ((x + 1) - (x mod 10)))))
2: (x mod (2 + (x mod 10)))
2: (x mod (1 + (x mod (2 * (1 + (2 * (x mod 2)))))))
2: (x mod (1 + (x mod (2 * (2 + ((x div 2) div 5))))))
2: (x mod (1 + (x mod (2 * (1 + (x mod 4))))))
2: (x mod (1 + (if (x + ~2) <= 0 then 0 else 2)))
2: (x mod (1 + (if (x mod 5) <= 0 then 0 else 2)))
2: (x mod (1 + (if x <= 0 then 0 else (1 + (x div (1 + (2 * (1 + (((x2 + ~x + 2) mod (x + 4)) div 2)))))))))
2: (x mod (~1 - (x div 5)))
2: (x mod (1 - (2 * (2 + (x mod 2)))))
2: (x mod (1 - (2 * (2 + (x mod 3)))))
2: (x mod (1 - (2 * (x div 4))))
2: (x mod (1 - ((~x + (x mod 2)) div 3)))
2: (x mod (1 - (((x mod 4) - (x div 2)) div 3)))
2: (x mod (1 - (x div (~1 - ((~1 + loop(\(x,i).2x,x,2)) mod (x + 2))))))
2: (x mod (1 - (x div (~1 + ((~x + 2) div 4)))))
2: (x mod ((~x + 2) + ((x mod 3) div 2)))
2: (x mod ((~x + 2) + (x mod 10)))
2: (x mod (2 - (x * (x div 3))))
2: (x mod (2 - (x * (x mod 2))))
2: (x mod (2 - ((~x + 3) div (1 + (x mod 4)))))
2: (x mod (2 - ((~x + 1) div 3)))
2: (x mod (2 - (((x mod 2) - (x div 2)) div 2)))
2: (x mod (2 - ((x2 + x) div 2)))
2: (x mod (2 - ((x mod 3) div 2)))
2: (x mod (2 - ((x div 4) mod 2)))
2: (x mod (2 - (x mod ~5)))
2: (x mod (~1 - (4 mod (x + 1))))
2: (x mod (~2 - (x mod 7)))
2: (x mod (~3 + ((x * (x div 2)) mod 2)))
2: (x mod (~4 + (x mod 3)))
2: (x mod ((~x + ~1) + (x mod 4)))
2: (x mod (~3 + (x mod ~2)))
2: (x mod (~3 + (if (x mod 4) <= 0 then x else 0)))
2: (x mod (8 - (x div 2)))
2: (x mod ~13)
2: (x mod (~1 + (4 * (~2 + (x mod 2)))))
2: (x mod (~1 + (6 * (if (~2 + (x div 3)) <= 0 then 0 else 2))))
2: (x mod (~1 + (2 * ((~2x + 2) div 9))))
2: (x mod (~1 + (2 * (((~x + 2) div 2) div 3))))
2: (x mod (~1 + (x * (x div 2))))
2: (x mod (~1 + (2 * (x div 5))))
2: (x mod (~1 + (2 * ((x + ~1) mod 4))))
2: (x mod (~1 + (2 * (x mod 4))))
2: (x mod (~1 + (2 * i)))
2: (x mod (~2 + ((~x + 1) div 3)))
2: (x mod (~1 + ((~x + 1) div 5)))
2: (x mod (~2 + ((~x + 1) div 5)))
2: (x mod (~1 + (((x + ~2) * ((x div 2) div 3)) div 2)))
2: (x mod (~1 + (x div ~4)))
2: (x mod (~1 + (x div ~5)))
2: (x mod (~1 + (x div (~2 + (x mod ~2)))))
2: (x mod (~x + ((x + ~1) mod 8)))
2: (x mod (~2 + ((x div 2) mod ~2)))
2: (x mod (~2 + (x mod ~7)))
2: (x mod (~1 + (x mod ~4)))
2: (x mod (~2 + (x mod ~4)))
2: (x mod (~8 + (if (x + ~2) <= 0 then 2 else 1)))
2: (x mod ((x + ~2) - (x mod 3)))
2: (x mod ((x + 1) - ((if (x mod 4) <= 0 then 2 else (x mod 2)) mod (1 + (x div 3)))))
2: (x mod ((x + 1) - (x mod 9)))
2: (x mod ((x + 1) - (x mod 6)))
2: (x mod (x - ((x + 1) mod 8)))
2: (x mod (x - ((x + ~1) mod 7)))
2: (x mod (2 * (3 + ((x + 1) mod 8))))
2: (x mod (2 * (2 + ((x div 2) div 5))))
2: (x mod (2 * (1 + (x div 3))))
2: (x mod (2 * (2 + ((x + ~1) mod 3))))
2: (x mod (3 * (2 + (2x mod 7))))
2: (x mod (~2 * (1 + (x mod 2))))
2: (x mod (3 * (1 + (x mod 3))))
2: (x mod (2 * (2 + (x mod 3))))
2: (x mod (2 * (1 + (x mod 9))))
2: (x mod (2 * (1 + (if (x mod 2) <= 0 then 6 else 1))))
2: (x mod (2 * (1 + i)))
2: (x mod (3 * (2 - ((x div 2) mod 2))))
2: (x mod (2 * (2 - ((x div 4) mod 2))))
2: (x mod ~12)
2: (x mod ((x2 + 2) div (x + 2)))
2: (x mod ((2 - (x mod ((~x + ~1) + (x mod 4)))) div 2))
2: (x mod (((~x + ~1) + (x mod 2)) div 3))
2: (x mod (if (~2 + (x div 4)) <= 0 then 1 else 2))
2: (x mod (if (x + ~1) <= 0 then 1 else ((1 + (x div 2)) div 2)))
2: (x mod loop(\(x,i).2x,x,~1))
2: (x mod loop(\(x,i).i,(~2 + (x div 2)),1))
2: (i mod (2 + (x mod 2)))
2: (i mod ~2)
2: (compr(\x.(2 - (x mod (4 + (x mod 5)))),(x + 1)) mod 3)
2: (compr(\x.(((x - ((2x + 1) mod (1 + (x div 4)))) mod 2) - (x mod 2)),x) mod 3)
2: (compr(\x.((((~2x + 1) div 9) mod 2) - (x mod 2)),x) mod 3)
2: (compr(\x.(loop(\(x,i).(~2x + 2),x,2) mod (x + 2)),x) mod (1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
2: (if (~x + 4) <= 0 then (x + ~2) else 2)
2: (if (~x + 4) <= 0 then x else 2)
2: (if (2 - (x div 2)) <= 0 then (1 + (x mod (1 + (x mod (3 + (x mod 2)))))) else 1)
2: (if (2 - (x div 4)) <= 0 then (x + 2) else 1)
2: (if (2 - (x div 4)) <= 0 then x else 8)
2: (if (~x + 2) <= 0 then 4 else 1)
2: (if (~x + 2) <= 0 then (2 + (((x div 2) * (x div 2)) div 2)) else 1)
2: (if (~x + 2) <= 0 then (2 + (x div 2)) else 1)
2: (if (~x + 2) <= 0 then (2 + ((x * (x div 2)) mod 2)) else 1)
2: (if (~x + 2) <= 0 then ((x div 2) - ((x + ~1) div 3)) else 1)
2: (if (~x + 2) <= 0 then ((if ((x div 2) mod 3) <= 0 then 2 else 1) - (x mod 2)) else 0)
2: (if (~x + 2) <= 0 then (x + ~2) else 1)
2: (if (~x + 2) <= 0 then 3x else 1)
2: (if (~x + 2) <= 0 then x2 else 2)
2: (if (~x + 2) <= 0 then ((x2 + 2x + ~1) div 3) else 1)
2: (if (~x + 2) <= 0 then (x div (2 + (x mod 2))) else 1)
2: (if (~x + 2) <= 0 then (x div ~2) else 0)
2: (if (~x + 2) <= 0 then x else 3)
2: (if (~x + 2) <= 0 then x else 4)
2: (if (~x + 2) <= 0 then x else (x + 1))
2: (if (~x + 2) <= 0 then x else 2x)
2: (if (~4 + (x div 2)) <= 0 then 0 else 9)
2: (if (~4 + (x div 2)) <= 0 then x else (x + 4))
2: (if (~x + (2 * (2 + ((x + 2) mod 4)))) <= 0 then 2 else 1)
2: (if (~1 + (x div 2)) <= 0 then (x mod 2) else 0)
2: (if (~2 + (x div 2)) <= 0 then 3 else x)
2: (if (~2 + (x div 2)) <= 0 then (x mod 2) else 0)
2: (if (~6 + (x div 2)) <= 0 then 0 else x)
2: (if (~6 + (x div 2)) <= 0 then 1 else 4)
2: (if (~6 + (x div 2)) <= 0 then 2 else (x div 3))
2: (if (~6 + (x div 2)) <= 0 then x else (x + 2))
2: (if (~2 + (x div 3)) <= 0 then 2 else (x + ~2))
2: (if (~2 + (x div 3)) <= 0 then 2 else x)
2: (if (~2 + (x div 3)) <= 0 then x else 0)
2: (if (~2 + (x div 3)) <= 0 then x else (x + 3))
2: (if (~2 + (x div 3)) <= 0 then x else (x + 4))
2: (if (~2 + (x div 3)) <= 0 then x else 18)
2: (if (~1 + (x div 4)) <= 0 then (x div 2) else 4)
2: (if (~1 + (x div 4)) <= 0 then x else 0)
2: (if (~2 + (x div 5)) <= 0 then 0 else x)
2: (if (~2 + (x div 5)) <= 0 then 1 else (x + 2))
2: (if (~2 + (x div 5)) <= 0 then x else 1)
2: (if (~2 + (x div 5)) <= 0 then x else 2)
2: (if (~2 + (x div 5)) <= 0 then x else (x + 4))
2: (if (~2 + (x div (2 + (x mod 2)))) <= 0 then 1 else 2)
2: (if (~2 + ((x + (x div 2)) mod 4)) <= 0 then 1 else 0)
2: (if (~4 + ((x + 1) mod 8)) <= 0 then 1 else 0)
2: (if (~x + (8 mod (x + 2))) <= 0 then 1 else 0)
2: (if (~1 + (2x mod (4 + (x div 2)))) <= 0 then 1 else 0)
2: (if ((2x mod 7) - (x mod 2)) <= 0 then 2 else 1)
2: (if (~2 + (((x + 1) div 2) mod 4)) <= 0 then 1 else 0)
2: (if ((x mod 3) - ((x + 1) mod 4)) <= 0 then 1 else 0)
2: (if ((x mod 3) - ((((x + 1) div 2) div 2) mod 2)) <= 0 then 1 else 2)
2: (if (~2 + (x mod 4)) <= 0 then x else 3)
2: (if (~1 + (x mod 5)) <= 0 then 1 else 2)
2: (if (~2 + (x mod 5)) <= 0 then 1 else 2)
2: (if (~1 + (x mod 7)) <= 0 then 2 else 1)
2: (if (~2 + (x mod 7)) <= 0 then 0 else 1)
2: (if (~2 + (x mod (1 + (2 * (x mod 3))))) <= 0 then 1 else 2)
2: (if (~2 + (x mod (1 + (x div 3)))) <= 0 then 1 else 2)
2: (if (~1 + (x mod (1 + ((~x + 2) mod 4)))) <= 0 then (x mod 2) else x)
2: (if (~1 + (x mod (2 + (x mod 2)))) <= 0 then 2 else 0)
2: (if (~2 + (x mod (2 + (x mod 3)))) <= 0 then 1 else 0)
2: (if (~2 + (x mod (2 + (x mod 3)))) <= 0 then x else 0)
2: (if (~2 + (x mod (2 + (x mod 3)))) <= 0 then x else 3)
2: (if (~2 + (x mod 10)) <= 0 then 0 else 1)
2: (if (x + ~1) <= 0 then 0 else (1 + ((x + 1) div 5)))
2: (if (x + ~1) <= 0 then 0 else (1 + ((x mod (1 + ((1 + (x div 2)) div 2))) div 2)))
2: (if (x + ~1) <= 0 then 1 else (2 * (1 + ((2 * (x div 2)) div 5))))
2: (if (x + ~1) <= 0 then 1 else 16)
2: (if (x + ~1) <= 0 then 1 else (((x + 1) div 2) div 3))
2: (if (x + ~1) <= 0 then 1 else (if (x mod 2) <= 0 then 2 else 0))
2: (if (x + ~1) <= 0 then 2 else (2x + ~1))
2: (if (x + ~1) <= 0 then 3 else 0)
2: (if (x + ~1) <= 0 then (2x + 2) else 0)
2: (if (x + ~1) <= 0 then x else 5)
2: (if (x + ~1) <= 0 then x else (2 + (2x2 div 5)))
2: (if (x + ~1) <= 0 then x else (2 + (((x + 1) div 2) div 3)))
2: (if (x + ~1) <= 0 then x else (2 + (((x + ~1) div 5) mod 2)))
2: (if (x + ~1) <= 0 then x else (1 + (((x2 + ~2x) mod (2 + (x div 2))) mod 2)))
2: (if (x + ~1) <= 0 then x else (x + 1))
2: (if (x + ~1) <= 0 then x else (2 * (1 + (((x + 1) div 2) div 3))))
2: (if (x + ~1) <= 0 then x else (2 * ((x mod (2 + (x mod 2))) mod 2)))
2: (if (x + ~1) <= 0 then x else (if ((x + ~2) mod (2 + (x mod 2))) <= 0 then 1 else 2))
2: (if (x + ~2) <= 0 then 0 else loop(\(x,i).loop(\(x,i).(x * i),(x + ~2),x),1,(x + ~1)))
2: (if (x + ~2) <= 0 then 1 else (2 + (x mod 2)))
2: (if (x + ~2) <= 0 then 1 else (2 + (if (~2 + (x div 4)) <= 0 then 0 else 2)))
2: (if (x + ~2) <= 0 then 1 else 6)
2: (if (x + ~2) <= 0 then 1 else 8)
2: (if (x + ~2) <= 0 then 1 else (2 * (1 + (x div 8))))
2: (if (x + ~2) <= 0 then 1 else (2 * (1 + (2 mod (1 + (x div 4))))))
2: (if (x + ~2) <= 0 then 1 else 2x2)
2: (if (x + ~2) <= 0 then 1 else 2x)
2: (if (x + ~2) <= 0 then 1 else (2x div 5))
2: (if (x + ~2) <= 0 then 1 else (x2 div 2))
2: (if (x + ~2) <= 0 then 1 else (if (x mod 2) <= 0 then x else (~x + 1)))
2: (if (x + ~2) <= 0 then 2 else 0)
2: (if (x + ~2) <= 0 then 2 else (x2 div (x - ((~x + 2) div 2))))
2: (if (x + ~2) <= 0 then 2 else i)
2: (if (x + ~2) <= 0 then (x + 1) else x3)
2: (if (x + ~2) <= 0 then (x div 2) else 0)
2: (if (x + ~2) <= 0 then (if x <= 0 then 1 else x) else 1)
2: (if (x + ~2) <= 0 then x else (4 - (x mod 2)))
2: (if (x + ~2) <= 0 then x else ((2x + 1) - (x mod 2)))
2: (if (x + ~2) <= 0 then x else (2 + ((2x + 1) div 5)))
2: (if (x + ~2) <= 0 then x else (2 - (x div ~3)))
2: (if (x + ~2) <= 0 then x else 2x)
2: (if (x + ~2) <= 0 then x else ((x + 1) mod (2 + (x mod 2))))
2: (if (x + ~2) <= 0 then i else 2x)
2: (if (x + ~3) <= 0 then 2 else (((x + 1) - ((x div 2) mod 2)) div 2))
2: (if (x + ~3) <= 0 then x else 1)
2: (if (x + ~3) <= 0 then x else (2x + ~4))
2: (if (x + ~4) <= 0 then 1 else 4)
2: (if (x + ~4) <= 0 then 2 else 0)
2: (if (x + ~4) <= 0 then x else 5)
2: (if (x + ~4) <= 0 then x else (x + 2))
2: (if (x + ~4) <= 0 then x else (2x + ~5))
2: (if (x + ~12) <= 0 then 0 else 2)
2: (if (x + ~12) <= 0 then 1 else 0)
2: (if (x + ~10) <= 0 then 1 else 6)
2: (if (x + ~10) <= 0 then 1 else (x div 4))
2: (if (x - (x2 mod (x + 6))) <= 0 then 1 else 2)
2: (if (x - (x2 mod (3x + 4))) <= 0 then 1 else 2)
2: (if (~2 + i) <= 0 then 0 else 2)
2: (if (~2 + i) <= 0 then 1 else 2x)
2: (if (~x + i) <= 0 then i else 2)
2: (if (~x2 + 4x) <= 0 then 1 else 0)
2: (if (2 * (x div 5)) <= 0 then 2x else (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x)))
2: (if (x * ((x + 1) mod 5)) <= 0 then 1 else 2)
2: (if (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) <= 0 then (2 + (x div 4)) else 1)
2: (if ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) <= 0 then ((2x + 1) div (3 + (x div 4))) else 0)
2: (if (x div 2) <= 0 then 1 else ((if (x mod 2) <= 0 then 2 else x) div 2))
2: (if (x div 4) <= 0 then 1 else ((1 + (if (~2 + (x div 2)) <= 0 then x else (x + 2))) div 2))
2: (if (5 mod (x + 1)) <= 0 then x else 1)
2: (if (5 mod (x + 2)) <= 0 then 2 else 1)
2: (if (5 mod (if x <= 0 then 1 else x)) <= 0 then 1 else 2)
2: (if ((x + 3) mod (2 + (x div 5))) <= 0 then 2 else 0)
2: (if ((x3 + 1) mod 7) <= 0 then 2 else 0)
2: (if ((x2 + 1) mod (x + 4)) <= 0 then 2 else 0)
2: (if ((1 + ((x * (x div 2)) div 2)) mod 4) <= 0 then 2 else 0)
2: (if ((x + ((x div 2) div 3)) mod 3) <= 0 then 1 else 0)
2: (if ((1 + (x div 2)) mod 5) <= 0 then (x div 3) else 1)
2: (if ((1 + (x div 2)) mod 6) <= 0 then 2 else 0)
2: (if ((1 + (x div 2)) mod 6) <= 0 then 2 else 1)
2: (if ((2 + (x div 2)) mod 4) <= 0 then 1 else 2)
2: (if ((2 + (x div 2)) mod 4) <= 0 then 2 else 1)
2: (if ((x + (x div 2)) mod 4) <= 0 then x else 0)
2: (if ((1 + (x div 3)) mod 5) <= 0 then 2 else 1)
2: (if ((x + (x div (2 + (x div 4)))) mod 3) <= 0 then 1 else 2)
2: (if ((x + 1) mod 3) <= 0 then 2 else ~1)
2: (if ((x + 1) mod 5) <= 0 then 0 else 1)
2: (if ((x + 1) mod 5) <= 0 then 4 else 0)
2: (if ((x + 1) mod 5) <= 0 then 5 else 0)
2: (if ((x + 1) mod 5) <= 0 then 6 else 1)
2: (if ((x + 1) mod 5) <= 0 then (x div 3) else 0)
2: (if ((x + 1) mod (3 + ((x div 2) div 3))) <= 0 then 1 else 2)
2: (if ((x + 1) mod 7) <= 0 then 6 else 0)
2: (if ((x + 1) mod 7) <= 0 then 8 else 1)
2: (if ((x + 1) mod (2 + (x div 4))) <= 0 then 2 else x)
2: (if ((x + 1) mod (2 + (x2 mod 5))) <= 0 then 2 else 1)
2: (if ((x + 1) mod (2 + ((x div 2) mod 2))) <= 0 then 1 else x)
2: (if ((x + 1) mod (2 + (x mod 4))) <= 0 then 2 else 1)
2: (if ((x + 1) mod 6) <= 0 then (x div 2) else (2 + (x mod 2)))
2: (if ((x + 1) mod 8) <= 0 then 2 else (x mod 2))
2: (if ((x + 1) mod 8) <= 0 then 8 else 0)
2: (if ((x + 1) mod 8) <= 0 then x else 2)
2: (if ((x + 1) mod 8) <= 0 then x else (x div 2))
2: (if ((x + 1) mod 12) <= 0 then 2 else 0)
2: (if ((x + 1) mod 10) <= 0 then 0 else 1)
2: (if ((x + 1) mod 10) <= 0 then 2 else 0)
2: (if ((x + 2) mod 4) <= 0 then (x div 2) else 2x)
2: (if ((x + 2) mod 4) <= 0 then x else 2)
2: (if ((x + 2) mod 5) <= 0 then 1 else 0)
2: (if ((x + 2) mod 7) <= 0 then 1 else 0)
2: (if ((x + 2) mod 9) <= 0 then 0 else x)
2: (if ((x + 2) mod 9) <= 0 then 2 else 1)
2: (if ((x + 2) mod 9) <= 0 then x else 0)
2: (if ((x + 2) mod (2 + ((x div 2) mod 2))) <= 0 then 2 else 0)
2: (if ((x + 2) mod (2 - (x mod ~4))) <= 0 then (x + 2) else 1)
2: (if ((x + 2) mod 6) <= 0 then (x div 4) else 0)
2: (if ((x + 2) mod 8) <= 0 then 0 else 1)
2: (if ((x + 2) mod 8) <= 0 then 2 else 1)
2: (if ((x + 2) mod 12) <= 0 then 2 else 1)
2: (if ((~x + 1) mod 3) <= 0 then 2 else x)
2: (if ((~x + 2) mod 4) <= 0 then 0 else 2)
2: (if ((x + ~1) mod 3) <= 0 then (2 + (x div 4)) else 1)
2: (if ((x + ~1) mod 3) <= 0 then ~2 else 1)
2: (if ((x + ~1) mod 3) <= 0 then 2x else 1)
2: (if ((x + ~1) mod 4) <= 0 then 0 else 1)
2: (if ((x + ~1) mod 4) <= 0 then 1 else 2)
2: (if ((x + ~1) mod 4) <= 0 then 2 else 0)
2: (if ((x + ~1) mod 4) <= 0 then 2 else (x mod 2))
2: (if ((x + ~1) mod 5) <= 0 then 0 else 1)
2: (if ((x + ~1) mod 5) <= 0 then 1 else x)
2: (if ((x + ~1) mod 7) <= 0 then 1 else 2)
2: (if ((x + ~1) mod 7) <= 0 then 2 else 1)
2: (if ((x + ~1) mod (1 + (4 mod (x + 1)))) <= 0 then 0 else 1)
2: (if ((x + ~1) mod 8) <= 0 then 1 else x)
2: (if ((x + ~1) mod 12) <= 0 then 1 else x)
2: (if ((x + ~2) mod 5) <= 0 then 0 else 1)
2: (if ((x + ~2) mod 5) <= 0 then 1 else 2)
2: (if ((x + ~2) mod 5) <= 0 then 2 else 0)
2: (if ((x + ~2) mod (2 + (x mod 2))) <= 0 then 0 else 2)
2: (if ((x + ~2) mod 6) <= 0 then 2 else 1)
2: (if ((x + ~4) mod 8) <= 0 then 1 else 0)
2: (if ((x - (x div 3)) mod 3) <= 0 then 1 else x)
2: (if ((x - ((x div 5) mod 2)) mod 3) <= 0 then 2 else 1)
2: (if (8 mod (x + 1)) <= 0 then 2 else 0)
2: (if (8 mod (x + 1)) <= 0 then 2 else 1)
2: (if (8 mod (x + 2)) <= 0 then 1 else 0)
2: (if (10 mod (x + 1)) <= 0 then 2 else 1)
2: (if ((4x + 2) mod (2 + (x div 2))) <= 0 then 1 else 0)
2: (if (16 mod (x + 1)) <= 0 then 1 else 0)
2: (if (16 mod (x + 1)) <= 0 then (x mod 2) else 2)
2: (if ((4 * (1 + (x mod 2))) mod (1 + (x div 2))) <= 0 then 1 else 2)
2: (if ((x * (x div 2)) mod 4) <= 0 then 1 else 0)
2: (if ((x * (x mod 3)) mod 5) <= 0 then 2 else 0)
2: (if (2x mod (x + 5)) <= 0 then 1 else 0)
2: (if (2x mod (x + 5)) <= 0 then 2 else 0)
2: (if (2x mod (4 + (x div 4))) <= 0 then 2 else 0)
2: (if (2x mod (4 + (x div 4))) <= 0 then (x + 3) else 0)
2: (if (2x mod (4 + (x div 4))) <= 0 then ((x + 2) div 3) else 0)
2: (if (2x mod (4 + (x div 4))) <= 0 then (x div ~2) else 0)
2: (if (x2 mod (x + 4)) <= 0 then 2 else 1)
2: (if (((x + 1) div 2) mod 5) <= 0 then 1 else 2)
2: (if (((x + 1) div 2) mod 6) <= 0 then 2 else 0)
2: (if (((x + ~1) div 2) mod 3) <= 0 then 1 else x)
2: (if (((x + ~1) div 2) mod 4) <= 0 then 2 else 1)
2: (if ((((2x + ~1) * (x div 2)) div 2) mod 3) <= 0 then 1 else 0)
2: (if (((x * (x div 3)) div 2) mod 3) <= 0 then (if x <= 0 then 0 else 1) else 0)
2: (if (((x div 2) div 3) mod 2) <= 0 then x else ~x)
2: (if (((2x mod (2 + (x div 2))) div 2) mod 2) <= 0 then 1 else x)
2: (if ((x div 2) mod 2) <= 0 then 4 else 0)
2: (if ((x div 2) mod 2) <= 0 then (1 + (2 * (x mod 2))) else 0)
2: (if ((x div 2) mod 2) <= 0 then ~2 else 2)
2: (if ((x div 2) mod 2) <= 0 then 10 else 1)
2: (if ((x div 2) mod 2) <= 0 then (x div 2) else 2)
2: (if ((x div 2) mod 2) <= 0 then x else (~x + 1))
2: (if ((x div 2) mod 3) <= 0 then (x div 2) else 0)
2: (if ((x div 2) mod 3) <= 0 then (x div 3) else 0)
2: (if ((x div 2) mod 5) <= 0 then 0 else 1)
2: (if ((x div 2) mod 5) <= 0 then 2 else 1)
2: (if ((x div 3) mod 2) <= 0 then ~1 else 2)
2: (if ((x div 3) mod 3) <= 0 then 1 else x)
2: (if ((x div 3) mod 3) <= 0 then x else ~x)
2: (if ((x div 4) mod 2) <= 0 then 2 else ~2)
2: (if ((x div 4) mod 3) <= 0 then (x mod 2) else 1)
2: (if ((x div ~2) mod 3) <= 0 then 2 else 1)
2: (if (((x + 2) mod (2x + ~1)) mod 3) <= 0 then 1 else 2)
2: (if (((x + 2) mod 8) mod 3) <= 0 then 1 else 0)
2: (if (((x + 2) mod 8) mod 3) <= 0 then 1 else 2)
2: (if (((x + 2) mod 8) mod 3) <= 0 then 2 else 1)
2: (if (((2x + ~4) mod (x + 2)) mod 4) <= 0 then 2 else 1)
2: (if ((x mod 3) mod 2) <= 0 then (x div 3) else 1)
2: (if ((x mod 5) mod (3 + ((x div 2) mod 2))) <= 0 then 2 else 1)
2: (if ((x mod 7) mod 3) <= 0 then 1 else 2)
2: (if ((x mod 6) mod (1 + (x div 3))) <= 0 then x else 0)
2: (if ((if x <= 0 then 1 else x) mod 5) <= 0 then 2 else 1)
2: (if (x mod 2) <= 0 then 1 else (2 + (x div 2)))
2: (if (x mod 2) <= 0 then 1 else (1 + ((1 - ((1 + ((2 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 3)) mod 3)) mod (x + 1))))
2: (if (x mod 2) <= 0 then 1 else (2 + (if (x mod 3) <= 0 then 1 else x)))
2: (if (x mod 2) <= 0 then 1 else (~x + ~1))
2: (if (x mod 2) <= 0 then 1 else (4x2 + 4x))
2: (if (x mod 2) <= 0 then 1 else 2x)
2: (if (x mod 2) <= 0 then 2 else (2x2 + 2x))
2: (if (x mod 2) <= 0 then 3 else x)
2: (if (x mod 2) <= 0 then 4 else (x + 1))
2: (if (x mod 2) <= 0 then 7 else x)
2: (if (x mod 2) <= 0 then (1 + (2 * ((~x + 2) mod (1 + (x div 4))))) else 1)
2: (if (x mod 2) <= 0 then (x + (2 * i)) else 2)
2: (if (x mod 2) <= 0 then (1 + (x div 2)) else ((1 + (x mod 8)) mod (x + 1)))
2: (if (x mod 2) <= 0 then (x + 1) else 0)
2: (if (x mod 2) <= 0 then ~x else x)
2: (if (x mod 2) <= 0 then 15 else 1)
2: (if (x mod 2) <= 0 then 6 else ~4)
2: (if (x mod 2) <= 0 then 8 else 0)
2: (if (x mod 2) <= 0 then (13 * (if x <= 0 then 1 else 2)) else 1)
2: (if (x mod 2) <= 0 then ((1 + (5 * ((~x + 2) mod 4))) * (if x <= 0 then 1 else 2)) else 1)
2: (if (x mod 2) <= 0 then (2 * (1 + ((x mod 3) div 2))) else 1)
2: (if (x mod 2) <= 0 then ((1 + (if ((x div 2) mod 2) <= 0 then 10 else 1)) * (if x <= 0 then 1 else 2)) else 1)
2: (if (x mod 2) <= 0 then (3x + 3) else (x div 2))
2: (if (x mod 2) <= 0 then (25 * (if x <= 0 then 1 else 2)) else 2)
2: (if (x mod 2) <= 0 then (14 * (if x <= 0 then 1 else 2)) else 1)
2: (if (x mod 2) <= 0 then (6 * (2 + (if x <= 0 then 0 else 2))) else 1)
2: (if (x mod 2) <= 0 then (14 * (2 + (if x <= 0 then 0 else 2))) else 2)
2: (if (x mod 2) <= 0 then (15 * (2 + (if x <= 0 then 0 else 2))) else 1)
2: (if (x mod 2) <= 0 then (9 * (if x <= 0 then 1 else 2)) else 2)
2: (if (x mod 2) <= 0 then (15 * (if x <= 0 then 1 else 2)) else 1)
2: (if (x mod 2) <= 0 then x2 else (x + 1))
2: (if (x mod 2) <= 0 then ((if x <= 0 then 2 else x) div 2) else 0)
2: (if (x mod 2) <= 0 then (x div 2) else (7x + 1))
2: (if (x mod 2) <= 0 then (x div 2) else (13x + 1))
2: (if (x mod 2) <= 0 then (x div 2) else (17x + 1))
2: (if (x mod 2) <= 0 then (x div 2) else (41x + 1))
2: (if (x mod 2) <= 0 then (x div 2) else (37x + 1))
2: (if (x mod 2) <= 0 then (x div 2) else (33x + 1))
2: (if (x mod 2) <= 0 then (x div 2) else (49x + 1))
2: (if (x mod 2) <= 0 then (x div 2) else (1 + (x * (1 + loop(\(x,i).(x2 + x),2,2)))))
2: (if (x mod 2) <= 0 then (x div 2) else (9x + 1))
2: (if (x mod 2) <= 0 then (x div 2) else (25x + 1))
2: (if (x mod 2) <= 0 then (x div 2) else (35x + 1))
2: (if (x mod 2) <= 0 then (x div 2) else (45x + 1))
2: (if (x mod 2) <= 0 then (x div 2) else (21x + 1))
2: (if (x mod 2) <= 0 then (x div 2) else (39x + 1))
2: (if (x mod 2) <= 0 then (x div 2) else (27x + 1))
2: (if (x mod 2) <= 0 then (x div 2) else (47x + 1))
2: (if (x mod 2) <= 0 then (x div 2) else (23x + 1))
2: (if (x mod 2) <= 0 then (x div 2) else (11x + 1))
2: (if (x mod 2) <= 0 then (x div 2) else (19x + 1))
2: (if (x mod 2) <= 0 then (x div 2) else (2x + ~1))
2: (if (x mod 2) <= 0 then (x div 2) else (29x + 1))
2: (if (x mod 2) <= 0 then (x div 2) else (x mod 3))
2: (if (x mod 2) <= 0 then (x div 2) else (x mod (1 + (2 * ((x div 2) mod 2)))))
2: (if (x mod 2) <= 0 then (x div 8) else 0)
2: (if (x mod 2) <= 0 then ((~x + 2) mod (1 + (x div 4))) else 0)
2: (if (x mod 2) <= 0 then ((x + ~2) mod (1 + (x div 4))) else 0)
2: (if (x mod 2) <= 0 then (2x mod 9) else 1)
2: (if (x mod 2) <= 0 then (x2 mod 7) else (x mod 3))
2: (if (x mod 2) <= 0 then ((x div 4) mod 2) else 1)
2: (if (x mod 2) <= 0 then (x mod 3) else (x div 2))
2: (if (x mod 2) <= 0 then (x mod 10) else 0)
2: (if (x mod 2) <= 0 then (if (x mod 7) <= 0 then 2 else x) else 1)
2: (if (x mod 2) <= 0 then (if x <= 0 then 0 else 2) else 0)
2: (if (x mod 2) <= 0 then (if x <= 0 then 0 else (2x + 1)) else 0)
2: (if (x mod 2) <= 0 then (if x <= 0 then 1 else 2) else ~1)
2: (if (x mod 2) <= 0 then (if x <= 0 then 1 else 2) else ~2)
2: (if (x mod 2) <= 0 then (if x <= 0 then 1 else ~2) else 2)
2: (if (x mod 2) <= 0 then loop(\(x,i).(10x + 1),x,1) else 0)
2: (if (x mod 2) <= 0 then loop(\(x,i).2x,(x div 2),2) else 0)
2: (if (x mod 2) <= 0 then x else ((~x + 1) div 3))
2: (if (x mod 2) <= 0 then x else ((1 + (x div 2)) mod 2))
2: (if (x mod 3) <= 0 then 0 else (1 + (2 * ((~1 + (x2 div 2)) mod (~1 + ((~2x + 2) mod (4 + (x div 4))))))))
2: (if (x mod 3) <= 0 then 1 else (2 + (x div 3)))
2: (if (x mod 3) <= 0 then 1 else ~2)
2: (if (x mod 3) <= 0 then 1 else (x div 3))
2: (if (x mod 3) <= 0 then 4 else 1)
2: (if (x mod 3) <= 0 then (2 + (((x + 1) * (x div 2)) mod 2)) else 1)
2: (if (x mod 3) <= 0 then (2 - ((x div 2) mod 2)) else 0)
2: (if (x mod 3) <= 0 then 3x else 2)
2: (if (x mod 3) <= 0 then ((1 + (2 * (if (x mod 2) <= 0 then 6 else 1))) * (if x <= 0 then 1 else 2)) else 1)
2: (if (x mod 3) <= 0 then ((1 + (if (x mod 2) <= 0 then 6 else 1)) * (if x <= 0 then 1 else 2)) else 1)
2: (if (x mod 3) <= 0 then (2 * ((x div 4) mod 2)) else 1)
2: (if (x mod 3) <= 0 then (3 * (if x <= 0 then 1 else 2)) else 1)
2: (if (x mod 3) <= 0 then 2x else 1)
2: (if (x mod 3) <= 0 then (x div 3) else 1)
2: (if (x mod 3) <= 0 then (if (~2 + (x div 4)) <= 0 then 1 else 2) else 0)
2: (if (x mod 3) <= 0 then x else (~x + 1))
2: (if (x mod 4) <= 0 then 0 else (1 + (x div 4)))
2: (if (x mod 4) <= 0 then 0 else (if (x mod (2 + (x mod 2))) <= 0 then 1 else x))
2: (if (x mod 4) <= 0 then 1 else (2 * (2 - (x mod 2))))
2: (if (x mod 4) <= 0 then 1 else (x div 3))
2: (if (x mod 4) <= 0 then 1 else x)
2: (if (x mod 4) <= 0 then 4 else 0)
2: (if (x mod 4) <= 0 then 13 else 1)
2: (if (x mod 4) <= 0 then 13 else 2)
2: (if (x mod 4) <= 0 then ~1 else 2)
2: (if (x mod 4) <= 0 then 31 else 1)
2: (if (x mod 4) <= 0 then (x + ~2) else 1)
2: (if (x mod 4) <= 0 then (3 * (2 + (if x <= 0 then 0 else 2))) else 1)
2: (if (x mod 4) <= 0 then (8 * (if x <= 0 then 1 else 2)) else 1)
2: (if (x mod 4) <= 0 then (27 * (if x <= 0 then 1 else 2)) else 2)
2: (if (x mod 4) <= 0 then (2 * (if x <= 0 then 0 else 2)) else 1)
2: (if (x mod 4) <= 0 then ((1 - (x div 3)) mod 3) else 1)
2: (if (x mod 4) <= 0 then (2x mod 5) else 1)
2: (if (x mod 4) <= 0 then ((x div 2) mod 4) else 1)
2: (if (x mod 4) <= 0 then (x mod (2 + (x div 4))) else 0)
2: (if (x mod 4) <= 0 then (if x <= 0 then 1 else 2) else 1)
2: (if (x mod 4) <= 0 then x else 2)
2: (if (x mod 4) <= 0 then x else (x + 1))
2: (if (x mod 4) <= 0 then x else 2x)
2: (if (x mod 5) <= 0 then 0 else x)
2: (if (x mod 5) <= 0 then (x + ~1) else 1)
2: (if (x mod (3 + ((x div 2) div 3))) <= 0 then 0 else 1)
2: (if (x mod (3 + (x div 2))) <= 0 then 2 else 1)
2: (if (x mod (4 + (x div 2))) <= 0 then 0 else 2)
2: (if (x mod (4 + (x div 2))) <= 0 then 1 else 0)
2: (if (x mod (3 + (i mod 2))) <= 0 then 1 else x)
2: (if (x mod (3 + i)) <= 0 then 1 else x)
2: (if (x mod 7) <= 0 then 2 else 1)
2: (if (x mod 9) <= 0 then 0 else 1)
2: (if (x mod 9) <= 0 then 0 else 2)
2: (if (x mod 9) <= 0 then 0 else 6)
2: (if (x mod 9) <= 0 then 1 else 0)
2: (if (x mod 9) <= 0 then (x div 2) else 0)
2: (if (x mod 9) <= 0 then x else 0)
2: (if (x mod 9) <= 0 then x else (x + 1))
2: (if (x mod 13) <= 0 then 1 else 2)
2: (if (x mod 13) <= 0 then (x div 2) else 0)
2: (if (x mod (1 + (2 * (3 - ((x div 3) mod 2))))) <= 0 then 2 else 0)
2: (if (x mod (1 + (2 * i))) <= 0 then x else ~x)
2: (if (x mod (1 + ((x + 2) div 5))) <= 0 then (if x <= 0 then 0 else 1) else 2)
2: (if (x mod (2 + (x div 4))) <= 0 then (x mod 2) else 1)
2: (if (x mod (1 + (4 mod (1 + (x div 2))))) <= 0 then 1 else 2)
2: (if (x mod (2 + (4 mod (x + 2)))) <= 0 then 1 else 0)
2: (if (x mod (2 + (4 mod (x + 2)))) <= 0 then 2 else 0)
2: (if (x mod (2 + (5 mod (1 + (x div 2))))) <= 0 then 2 else 1)
2: (if (x mod (2 + ((x + ~1) mod 3))) <= 0 then 1 else 2)
2: (if (x mod (2 + ((x + ~1) mod 3))) <= 0 then x else 0)
2: (if (x mod (1 + ((x + ~1) mod 4))) <= 0 then 1 else 2)
2: (if (x mod (1 + ((x2 + ~x) mod 8))) <= 0 then (x mod 3) else 0)
2: (if (x mod (2 + (x mod 2))) <= 0 then 0 else 2)
2: (if (x mod (2 + (x mod 2))) <= 0 then 1 else 0)
2: (if (x mod (2 + (x mod 2))) <= 0 then 1 else 2)
2: (if (x mod (2 + (x mod 2))) <= 0 then x else 1)
2: (if (x mod (2 + (x mod 4))) <= 0 then 1 else 0)
2: (if (x mod (2 + (x mod 4))) <= 0 then 1 else x)
2: (if (x mod (2 + (x mod 4))) <= 0 then (x mod 2) else 0)
2: (if (x mod (2 + (x mod 4))) <= 0 then x else 0)
2: (if (x mod (1 + (x mod 6))) <= 0 then 1 else 0)
2: (if (x mod (1 + (x mod 8))) <= 0 then 2 else 1)
2: (if (x mod (1 + i)) <= 0 then x else 0)
2: (if (x mod (1 + i)) <= 0 then i else x)
2: (if (x mod (2 + i)) <= 0 then 1 else 2)
2: (if (x mod (2 + i)) <= 0 then 2 else 1)
2: (if (x mod (2 + i)) <= 0 then x else 0)
2: (if (x mod (1 - (2 * ((~x + 1) div (2 + (x div 2)))))) <= 0 then 1 else 0)
2: (if (x mod (1 - (2 * ((~x + 1) div (2 + (x div 2)))))) <= 0 then 1 else 2)
2: (if (x mod (1 - (2 * ((~x + 1) div (2 + (x div 2)))))) <= 0 then 1 else x)
2: (if (x mod 11) <= 0 then 1 else 0)
2: (if (x mod 11) <= 0 then 1 else 2)
2: (if (x mod 11) <= 0 then (x div 2) else 0)
2: (if (x mod ((x + ~2) - (x mod 3))) <= 0 then 0 else 1)
2: (if (x mod 6) <= 0 then 2 else (x mod 2))
2: (if (x mod 6) <= 0 then (~2 + (x div 2)) else 1)
2: (if (x mod 6) <= 0 then (x + ~2) else 2)
2: (if (x mod 6) <= 0 then 2x else 1)
2: (if (x mod 6) <= 0 then x else 1)
2: (if (x mod 8) <= 0 then 0 else 1)
2: (if (x mod 8) <= 0 then 2 else 0)
2: (if (x mod 8) <= 0 then 2 else (x mod 2))
2: (if (x mod 8) <= 0 then (if x <= 0 then 0 else 2) else 0)
2: (if (x mod 12) <= 0 then 0 else 1)
2: (if (x mod 10) <= 0 then 2 else 1)
2: (if (x mod 10) <= 0 then x else 0)
2: (if (x mod (3 * (1 + (x div 4)))) <= 0 then 2 else 1)
2: (if (x mod (2 * (1 + i))) <= 0 then 1 else 0)
2: (if (i mod 2) <= 0 then 2 else x)
2: (if (i mod 2) <= 0 then ~2 else 2)
2: (if (i mod 2) <= 0 then (x + ~2) else 1)
2: (if (i mod 2) <= 0 then x else (1 + (x div 2)))
2: (if (i mod 2) <= 0 then i else 2)
2: (if (i mod 3) <= 0 then 1 else i)
2: (if (i mod 3) <= 0 then 3 else 0)
2: (if (i mod 3) <= 0 then 4 else 1)
2: (if (i mod 3) <= 0 then x3 else 1)
2: (if (i mod 4) <= 0 then 1 else 0)
2: (if (i mod 4) <= 0 then x else 1)
2: (if (i mod (2 + (x mod 2))) <= 0 then 1 else x)
2: (if (if ((x + (x div 2)) mod 4) <= 0 then x else 0) <= 0 then 1 else 0)
2: (if (if (x mod 8) <= 0 then x else 0) <= 0 then x else 2)
2: (if x <= 0 then 0 else ((x + 2) + ((if (x + ~2) <= 0 then 1 else 2) + (x div 5))))
2: (if x <= 0 then 0 else (1 + ((x div (1 + (2x mod 3))) mod 2) - (x mod 2)))
2: (if x <= 0 then 0 else (1 + (7 * ((~x + 1) mod 3))))
2: (if x <= 0 then 0 else (1 + ((1 + (x div 3)) div (2 * (1 + ((x + 2) mod 6))))))
2: (if x <= 0 then 0 else (1 + ((2 * (1 + ((1 + (((~1 + loop(\(x,i).2x,(x - (x div 8)),2)) mod (x + 1)) div 2)) div 2))) div 3)))
2: (if x <= 0 then 0 else (1 + ((2 * (1 + (((x + 1) div (2 - (16 mod (~x + ~1)))) div 2))) div 3)))
2: (if x <= 0 then 0 else (1 + ((2 * (1 + ((((1 + ((x - (x div 3)) div 3)) * (1 + (x div 2))) div 2) div 2))) div 3)))
2: (if x <= 0 then 0 else (1 + (x div (3 + ((~2x + 1) mod (4 + (x div 2)))))))
2: (if x <= 0 then 0 else (1 + (x div (3 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))
2: (if x <= 0 then 0 else (1 + ((1 + ((2 * (2 + (x div (1 + ((x div 2) mod (1 + (if (x mod 2) <= 0 then 6 else 1))))))) div 3)) mod 3)))
2: (if x <= 0 then 0 else (1 + (x mod (1 + ((4 * (loop(\(x,i).2x,x,x) mod (x + 1))) div 3)))))
2: (if x <= 0 then 0 else (1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)))
2: (if x <= 0 then 0 else (1 - ((~x + 1) div (2 + ((x div 2) div 3)))))
2: (if x <= 0 then 0 else (2 + ((loop(\(x,i).(x * i),x,1) mod (x + 1)) div 3) - (x mod 2)))
2: (if x <= 0 then 0 else (2 - (((x mod 2) - ((x2 + ~x) div 4)) div 2)))
2: (if x <= 0 then 0 else (2 - ((x + 1) mod (2 + (x div (4 + (x mod 2)))))))
2: (if x <= 0 then 0 else (2x - ((if (i mod 2) <= 0 then 1 else 2x) div (1 + i))))
2: (if x <= 0 then 0 else (x + (x mod 2) - (if ((x + (x div 2)) mod 4) <= 0 then 2 else 1)))
2: (if x <= 0 then 0 else (i - (i div 3)))
2: (if x <= 0 then 0 else ((x + 1) mod (2 * (1 + ((x + ~2) mod (1 + (x div 5)))))))
2: (if x <= 0 then 0 else ((x + 1) mod (2 * (1 + (if (x + ~4) <= 0 then 0 else 2)))))
2: (if x <= 0 then 0 else (if ((x mod 5) mod (3 + ((x div 2) mod 2))) <= 0 then 2 else 1))
2: (if x <= 0 then 0 else (if (x mod (1 + (4 mod (1 + (x div 2))))) <= 0 then 1 else 2))
2: (if x <= 0 then 0 else loop(\(x,i).(8x * (~1 + (2 * i))),(x + ~1),1))
2: (if x <= 0 then 0 else compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x))
2: (if x <= 0 then 1 else ((x + 2) + ((x + (((x - (x div 3)) mod 3) div 2)) div 2)))
2: (if x <= 0 then 1 else ((2x + ~1) + ((2 * (2 + (((x + 1) + (if (x mod 4) <= 0 then 2x else (x div 2))) div 2))) div 3)))
2: (if x <= 0 then 1 else ((x + 2) - (((((1 - (x div 2)) div 3) * (x div 2)) div 2) div 2)))
2: (if x <= 0 then 1 else ((3 * (1 + (x mod (2 + (x mod 2))))) + (x mod 2)))
2: (if x <= 0 then 1 else (10x2 + 2))
2: (if x <= 0 then 1 else ((x * (x mod 2)) + (x div 2)))
2: (if x <= 0 then 1 else (4x + (2 div (16 div (x + 1)))))
2: (if x <= 0 then 1 else (6x + (((x + 1) + (x mod 2)) div 5)))
2: (if x <= 0 then 1 else ((4x + 2) + ((1 + (x div 2)) div 3)))
2: (if x <= 0 then 1 else (2 + ((x + 2) div 7)))
2: (if x <= 0 then 1 else (2 + (2 mod (if ((x + 1) mod (2 + ((x div 2) mod 2))) <= 0 then x else 1))))
2: (if x <= 0 then 1 else (2 + ((~2x + 3) mod (4 + (x div 4)))))
2: (if x <= 0 then 1 else (2 + ((~x + 1) mod (1 + ((x - ((x div 3) mod 3)) div 2)))))
2: (if x <= 0 then 1 else (2 + (x mod 2)))
2: (if x <= 0 then 1 else (2 + (if (5 mod (x + 1)) <= 0 then x else 1)))
2: (if x <= 0 then 1 else (2 + (if (x mod 5) <= 0 then 2 else 0)))
2: (if x <= 0 then 1 else ((5x + ~1) - (x div (~2 + ((~x + 2) div 4)))))
2: (if x <= 0 then 1 else (~1 + (3 * (x - ((~x + 2) div 4)))))
2: (if x <= 0 then 1 else (6x - ((2 * ((2x + 2) + (x div (1 + (2 * (if (~4 + (x div 2)) <= 0 then 2 else 1)))))) div 3)))
2: (if x <= 0 then 1 else (6x - (((x + ~1) mod (2 + (x div 2))) div 2)))
2: (if x <= 0 then 1 else (2x - loop(\(x,i).(~1 + (if x <= 0 then (2 * i) else x)),x,2)))
2: (if x <= 0 then 1 else (x + ~11))
2: (if x <= 0 then 1 else (x - (2 * ((x mod (2 + (x div 2))) div 3))))
2: (if x <= 0 then 1 else (x - ((1 - ((x2 + 4x) div 2)) div 3)))
2: (if x <= 0 then 1 else 10)
2: (if x <= 0 then 1 else (2 * ((2x + 1) + ((x div 2) + (x div 3)))))
2: (if x <= 0 then 1 else (2 * (3x + ((x + ((x div 3) mod 3)) div 3))))
2: (if x <= 0 then 1 else (2 * ((x + ~1) + ((2 * ((3x + 2) - ((x - ((x + (x div 3)) div 3)) div 2))) div 3))))
2: (if x <= 0 then 1 else (2 * ((x + ~1) + loop(\(x,i).(x + (if (~2 + (x div 4)) <= 0 then 1 else 2)),2,x))))
2: (if x <= 0 then 1 else (2 * (3x - ((2 * (x - ((x div 2) div 3))) div 3))))
2: (if x <= 0 then 1 else 7x)
2: (if x <= 0 then 1 else (18x2 + 2))
2: (if x <= 0 then 1 else (4x2 + 2))
2: (if x <= 0 then 1 else (2 * (1 + (2 * (x mod 2)))))
2: (if x <= 0 then 1 else (2 * (1 + ((1 + ((x mod (1 + (loop(\(x,i).(2x + 2),(loop(\(x,i).(~3x2 + x),2,2) mod (x + 1)),1) mod (x + 1)))) div 2)) div 2))))
2: (if x <= 0 then 1 else (2 * (2x + ((x + ((1 - (x div 2)) mod 4)) div 4))))
2: (if x <= 0 then 1 else (2 * (2x + ((x + ((x div 3) mod 3)) div 3))))
2: (if x <= 0 then 1 else (2 * (2x + ((x - (x div ~7)) div 2))))
2: (if x <= 0 then 1 else (2 * (2x + ((x - (x div 12)) div 2))))
2: (if x <= 0 then 1 else (2 * (2x + ((x - ((x div 2) mod ~4)) div 5))))
2: (if x <= 0 then 1 else (2 * (2x + ((2 * (x + (if (~2 + (x div 4)) <= 0 then 1 else 2))) div 3))))
2: (if x <= 0 then 1 else (2 * (2x + ((2 * ((x + (if (~2 + (x div 2)) <= 0 then 1 else 0)) div 2)) div 3))))
2: (if x <= 0 then 1 else (2 * (x + ((3 * ((((x + 1) div 2) div 2) div 2)) div 2))))
2: (if x <= 0 then 1 else (2 * (2x + ((((x + 1) - (x div 4)) div 2) div 2))))
2: (if x <= 0 then 1 else (3 * (x + ((x div 2) div 3))))
2: (if x <= 0 then 1 else (2 * (x + ((x div 2) div 5))))
2: (if x <= 0 then 1 else (2 * (1 + (((~1 + loop(\(x,i).2x,x,(1 + (2 * (((2x + 1) mod (2 + (x div 4))) div 2))))) mod (x + 1)) div 2))))
2: (if x <= 0 then 1 else (3 * (x + (x div 2))))
2: (if x <= 0 then 1 else (2 * (2x + (x div (4 + ((x div 2) div 5))))))
2: (if x <= 0 then 1 else (2 * (x + (x div (8 - (x div 4))))))
2: (if x <= 0 then 1 else (2 * (x + (x div 11))))
2: (if x <= 0 then 1 else (2 * (1 + (if (~2 + (x div 3)) <= 0 then 0 else 2))))
2: (if x <= 0 then 1 else (2 * (1 + (if (x mod 3) <= 0 then 3x else 2))))
2: (if x <= 0 then 1 else (2 * (x + loop(\(x,i).(~x - (x div (4 + i))),2,x))))
2: (if x <= 0 then 1 else (x2 + 2x))
2: (if x <= 0 then 1 else (2 * (5x - (x div 3))))
2: (if x <= 0 then 1 else (2 * (7x - (x div 3))))
2: (if x <= 0 then 1 else (2 * ((4x + 1) - loop(\(x,i).(x + (if (~2 + (x div 4)) <= 0 then 1 else 2)),2,x))))
2: (if x <= 0 then 1 else (2 * (4x - ((x + ((x + (x div 3)) mod 3)) div 3))))
2: (if x <= 0 then 1 else (2 * (4x - ((x + ((x div 3) mod 3)) div 3))))
2: (if x <= 0 then 1 else (2 * (2x - ((~x + 3) div 7))))
2: (if x <= 0 then 1 else (2 * (2x - ((~x + ((x div 2) mod 4)) div 4))))
2: (if x <= 0 then 1 else (2 * (2x - ((~x + ((x div 3) mod 3)) div 3))))
2: (if x <= 0 then 1 else (2 * (x - (2 * (~x + (x div 3))))))
2: (if x <= 0 then 1 else (2 * (x - (x div ~2))))
2: (if x <= 0 then 1 else 16)
2: (if x <= 0 then 1 else 10x)
2: (if x <= 0 then 1 else (10x + 10))
2: (if x <= 0 then 1 else (4 * (2x - (x div 3))))
2: (if x <= 0 then 1 else x3)
2: (if x <= 0 then 1 else (2 * ((2 * (4x - (x div 7))) div 3)))
2: (if x <= 0 then 1 else (x * (if (x mod 2) <= 0 then x else 1)))
2: (if x <= 0 then 1 else (2 div (8 - (x div 2))))
2: (if x <= 0 then 1 else ((1 + (x mod (1 + (2 * (if (x mod 2) <= 0 then 1 else (x div 4)))))) div 3))
2: (if x <= 0 then 1 else ((0 - (x div (1 + (loop(\(x,i).2x,x,2) mod (2x + 1))))) div 2))
2: (if x <= 0 then 1 else ((2 * (x + (((x div 2) div 3) mod 2))) div 3))
2: (if x <= 0 then 1 else ((2 * (~x + (((x div 2) div 3) mod 2))) div 3))
2: (if x <= 0 then 1 else ((2 * (x - (2x div ~7))) div 3))
2: (if x <= 0 then 1 else ((2x * (~1 + (2 * i))) div (1 + i)))
2: (if x <= 0 then 1 else ((x * ((~x + 1) div 3)) div 2))
2: (if x <= 0 then 1 else ((2 * (2x div (4 + (x div 8)))) div 3))
2: (if x <= 0 then 1 else (((x div 2) * (x div 2)) div 2))
2: (if x <= 0 then 1 else (x2 div 12))
2: (if x <= 0 then 1 else (((x + 1) div 2) div 2))
2: (if x <= 0 then 1 else (((x + 1) div 2) div 3))
2: (if x <= 0 then 1 else ((((x + ~1) * ((x2 + ~2x) div 4)) div 2) div 3))
2: (if x <= 0 then 1 else ((x div 2) div 3))
2: (if x <= 0 then 1 else ((x div 4) div ~2))
2: (if x <= 0 then 1 else (x div 5))
2: (if x <= 0 then 1 else (x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))))
2: (if x <= 0 then 1 else (x div (1 + (if (x mod 3) <= 0 then 0 else 2))))
2: (if x <= 0 then 1 else (x div (2 - ((x div 2) mod 2))))
2: (if x <= 0 then 1 else (x div 12))
2: (if x <= 0 then 1 else (x div ((if (x mod 2) <= 0 then 2 else x) mod 4)))
2: (if x <= 0 then 1 else ((2x * (~1 + (2 * i))) mod (1 + i)))
2: (if x <= 0 then 1 else ((x2 div 3) mod (x + 1)))
2: (if x <= 0 then 1 else ((x mod ~5) mod 2))
2: (if x <= 0 then 1 else (x mod (1 + (((x + 1) div 2) div 3))))
2: (if x <= 0 then 1 else (x mod (1 + ((1 - ((x2 + 2x) mod 8)) mod (x + 1)))))
2: (if x <= 0 then 1 else (compr(\x.(loop(\(x,i).(~2x + 2),x,2) mod (x + 2)),x) mod (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x))))
2: (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else (2x + ~1)))
2: (if x <= 0 then 1 else (if (x mod (1 + i)) <= 0 then 2 else 1))
2: (if x <= 0 then 1 else (if (x mod 12) <= 0 then 2 else 0))
2: (if x <= 0 then 1 else loop(\(x,i).(x + i - ((x + 1) div 5)),x,0))
2: (if x <= 0 then 1 else loop(\(x,i).(~1 + (if x <= 0 then 2 else 0)),(x mod 2),(x div 2)))
2: (if x <= 0 then 1 else loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,x))
2: (if x <= 0 then 1 else loop(\(x,i).(x - (if x <= 0 then 1 else (x - ((if x <= 0 then 2 else loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 2)))),x,x))
2: (if x <= 0 then 1 else loop(\(x,i).(loop(\(x,i).(2x + 1),x,0) mod (x + 1)),x,(x + ~1)))
2: (if x <= 0 then 1 else loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + ~1)))
2: (if x <= 0 then 1 else compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + (x div 2)))),x))
2: (if x <= 0 then 2 else (1 + (2 * (1 + (if (~x + 2) <= 0 then (1 - (2 * ((x mod (1 + (((x + 1) div 2) div 2))) mod 2))) else 0)))))
2: (if x <= 0 then 2 else (1 + ((x + 3) mod (1 + (x div 4)))))
2: (if x <= 0 then 2 else (x + ((x mod (2 + (x mod 5))) mod 2)))
2: (if x <= 0 then 2 else ~1)
2: (if x <= 0 then 2 else (1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) - compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x)))
2: (if x <= 0 then 2 else (3x + ~2))
2: (if x <= 0 then 2 else (x - ((x div 3) mod 2)))
2: (if x <= 0 then 2 else (~2 + i))
2: (if x <= 0 then 2 else (3x + 3))
2: (if x <= 0 then 2 else (x2 + ~x))
2: (if x <= 0 then 2 else (x * (x div 4)))
2: (if x <= 0 then 2 else (2 * i))
2: (if x <= 0 then 2 else ((3 * ((x2 + 3x) div 2)) div 2))
2: (if x <= 0 then 2 else (x div 2))
2: (if x <= 0 then 2 else (x div (1 + (x mod (1 + (x mod (1 + (x div (2 * (2 - (x mod 2)))))))))))
2: (if x <= 0 then 2 else (((x + ~2) * (x div 3)) mod (1 + (x div 2))))
2: (if x <= 0 then 2 else (((x2 + 2x) div 2) mod (1 + ((1 + (x div 2)) div 3))))
2: (if x <= 0 then 2 else loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x))
2: (if x <= 0 then 2 else compr(\x.(1 - loop(\(x,i).(0 - (if (x mod (1 + i)) <= 0 then 0 else x)),(x div 2),x)),x))
2: (if x <= 0 then 3 else 2x)
2: (if x <= 0 then 3 else (loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2))
2: (if x <= 0 then 5 else 0)
2: (if x <= 0 then (2 + (i div 2)) else (x + ~1))
2: (if x <= 0 then 6 else 1)
2: loop(\(x,i).((x + 1) + (2 * (2x + (x mod 2)))),x,1)
2: loop(\(x,i).((x + 1) + (2 * (x + i))),x,1)
2: loop(\(x,i).(2 + ((2 * (x + i)) + i)),x,2)
2: loop(\(x,i).((9x + 1) + ((x + 1) mod 3)),x,1)
2: loop(\(x,i).((x + 1) + (4 * (i * i))),(x + 1),1)
2: loop(\(x,i).((x + 1) + ((x + (x div 2)) div 4)),x,1)
2: loop(\(x,i).((x + 1) + ((4x div (1 + i)) + i + i)),x,1)
2: loop(\(x,i).((x + 2) + (2x div 5)),x,2)
2: loop(\(x,i).((x + 2) + ((x div 2) div 3)),x,1)
2: loop(\(x,i).((x + 2) + (x div 4)),x,2)
2: loop(\(x,i).((x + 1) + (x div 5)),x,1)
2: loop(\(x,i).((x + 2) + (x div 9)),x,1)
2: loop(\(x,i).((x + 1) + (x div (2 + (i mod 2)))),x,0)
2: loop(\(x,i).((x + 2) + (x div 8)),x,1)
2: loop(\(x,i).(3x + (i div 2)),x,0)
2: loop(\(x,i).(1 + ((i div (2 + (x mod 2))) + (x div 2))),x,0)
2: loop(\(x,i).(7x + (((x + 1) div ~7) mod 2)),x,1)
2: loop(\(x,i).((x + 1) + (((2x + ~4) div (2 + (x div 4))) mod 2)),x,0)
2: loop(\(x,i).((x + 1) + ((x div (3 + ((x div 2) div 3))) mod 2)),x,1)
2: loop(\(x,i).((x + 2) + ((x div (3 + ((x div 2) div 3))) mod 2)),x,1)
2: loop(\(x,i).(3x + (if (i mod 3) <= 0 then 1 else 2)),x,1)
2: loop(\(x,i).(2x + (if (i mod 3) <= 0 then 3 else 0)),x,0)
2: loop(\(x,i).(3x + loop(\(x,i).(5x + loop(\(x,i).10x,i,1)),i,1)),i,1)
2: loop(\(x,i).(3x + loop(\(x,i).(7x + loop(\(x,i).10x,i,1)),i,1)),i,1)
2: loop(\(x,i).(5x + loop(\(x,i).(7x + loop(\(x,i).2x,i,1)),i,1)),i,1)
2: loop(\(x,i).(5x + loop(\(x,i).(3x + 1),i,1)),x,1)
2: loop(\(x,i).(7x + loop(\(x,i).(3x + 1),i,1)),i,1)
2: loop(\(x,i).(7x + loop(\(x,i).(5x + 1),i,1)),i,1)
2: loop(\(x,i).(7x + loop(\(x,i).(9x + 1),i,1)),i,1)
2: loop(\(x,i).(7x + loop(\(x,i).(10x + 1),i,1)),i,1)
2: loop(\(x,i).(7x + loop(\(x,i).(4x + 1),i,1)),i,1)
2: loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1)
2: loop(\(x,i).(5x + loop(\(x,i).(12x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)
2: loop(\(x,i).(7x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)
2: loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).3x,i,1)),i,1)),i,1)
2: loop(\(x,i).(7x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1)
2: loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).5x,i,1)),i,1)),i,1)
2: loop(\(x,i).(7x + loop(\(x,i).(4x + loop(\(x,i).5x,i,1)),i,1)),i,1)
2: loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).11x,i,1)),i,1)),i,1)
2: loop(\(x,i).(9x + loop(\(x,i).(12x + loop(\(x,i).11x,i,1)),i,1)),i,1)
2: loop(\(x,i).(3x + loop(\(x,i).(6x + loop(\(x,i).11x,i,1)),i,1)),i,1)
2: loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).10x,i,1)),i,1)),i,1)
2: loop(\(x,i).(7x + loop(\(x,i).(4x + loop(\(x,i).10x,i,1)),i,1)),i,1)
2: loop(\(x,i).(7x + loop(\(x,i).(2x + loop(\(x,i).10x,i,1)),i,1)),i,1)
2: loop(\(x,i).(7x + loop(\(x,i).(11x + 1),i,1)),i,1)
2: loop(\(x,i).(7x + loop(\(x,i).5x,i,1)),i,1)
2: loop(\(x,i).(7x + loop(\(x,i).11x,i,1)),i,1)
2: loop(\(x,i).((5x + ~1) + loop(\(x,i).2x,i,2)),x,1)
2: loop(\(x,i).(x + 3),(~2 + ((x + ~1) div 3)),x)
2: loop(\(x,i).(x + 4),(~2 + ((x + ~1) div 3)),x)
2: loop(\(x,i).((x + 1) + i),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
2: loop(\(x,i).((x + 1) + i),compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),1)
2: loop(\(x,i).((2x + 2) + i),(x + ~1),1)
2: loop(\(x,i).((x2 + x) + i),2,2)
2: loop(\(x,i).(2x + i),(x + 2),2)
2: loop(\(x,i).(2x + i),(x + ~1),x)
2: loop(\(x,i).(2x + i),(x + ~2),0)
2: loop(\(x,i).((5x + 1) - (x mod 3)),(x + 1),1)
2: loop(\(x,i).((4x + 2) - ((i mod 3) mod 2)),x,2)
2: loop(\(x,i).((2x + 1) - ((x div 7) mod 2)),2,x)
2: loop(\(x,i).((2x + 1) - (x mod 2)),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
2: loop(\(x,i).((2x + 1) - (i mod 2)),x,2)
2: loop(\(x,i).(3x + 1),(x + ~1),1)
2: loop(\(x,i).(3x + 1),2x,2)
2: loop(\(x,i).(3x + 1),(x div 2),1)
2: loop(\(x,i).(3x + 1),x,2)
2: loop(\(x,i).(3x + 1),x,4)
2: loop(\(x,i).(3x + 2),6,x)
2: loop(\(x,i).(3x + 2),2x,2)
2: loop(\(x,i).(x + 8),(~4 + (x div 2)),x)
2: loop(\(x,i).(5x + 1),x,0)
2: loop(\(x,i).(5x + 1),x,2)
2: loop(\(x,i).(5x + 2),(x div 2),(1 + (x mod 2)))
2: loop(\(x,i).(5x + 2),x,1)
2: loop(\(x,i).(x + ((4 + (i mod 2)) * i)),x,0)
2: loop(\(x,i).(x + ((3 + i) * i)),(x + 1),x)
2: loop(\(x,i).(x + ((3 + i) * i)),x,0)
2: loop(\(x,i).(7x + 1),x,1)
2: loop(\(x,i).(10x + 3),x,1)
2: loop(\(x,i).(x + ((1 + ((1 + (2 * i)) * i)) * i)),x,0)
2: loop(\(x,i).(4x2 + x + 1),2,2x)
2: loop(\(x,i).(x + ((1 + (4 * i)) * i)),x,x)
2: loop(\(x,i).(7x + 3),x,0)
2: loop(\(x,i).(10x + 6),x,1)
2: loop(\(x,i).(x + ((2 + (i div 3)) * (1 + (i div 3)))),x,1)
2: loop(\(x,i).(x + (2 * (2x + (x mod 2)))),(x + 1),x)
2: loop(\(x,i).(x + ((2 + (i mod 2)) * i)),x,1)
2: loop(\(x,i).(1 + (2 * (x + (i mod 2)))),x,0)
2: loop(\(x,i).(x + (2 * (x + (i mod 2)))),x,0)
2: loop(\(x,i).(2x + 3),x,(x2 + ~2x))
2: loop(\(x,i).(x2 + x + 1),2,2)
2: loop(\(x,i).(x2 + x + 1),x,0)
2: loop(\(x,i).(3x + 8),x,0)
2: loop(\(x,i).(x2 + 4x + 5),2,4)
2: loop(\(x,i).(x2 + 4x + 6),2,3)
2: loop(\(x,i).(1 + (x * (1 + i))),x,2)
2: loop(\(x,i).(x + ((1 + i) * i)),(1 + (x div 2)),x)
2: loop(\(x,i).(x + ((2 + i) * i)),i,x)
2: loop(\(x,i).((2 * (x + i)) + i),x,2)
2: loop(\(x,i).(2 + (x * (x + i))),2,6)
2: loop(\(x,i).(3x2 + ~2x + 1),2,2x)
2: loop(\(x,i).(x + ((~1 + ((2 + i) * i)) * i)),(x + 1),0)
2: loop(\(x,i).(x3 + ~x + 1),2,2)
2: loop(\(x,i).(1 + (2 * (x - (i mod 2)))),x,0)
2: loop(\(x,i).(2 + (x * (~1 + i))),x,1)
2: loop(\(x,i).(x + ((~1 + i) * i)),(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1)
2: loop(\(x,i).(9x + 2),x,0)
2: loop(\(x,i).(10x + (i mod 2)),x,1)
2: loop(\(x,i).(10x + i),2,x)
2: loop(\(x,i).(25x + 1),i,1)
2: loop(\(x,i).(45x + 1),x,0)
2: loop(\(x,i).(11x + 10),x,4)
2: loop(\(x,i).(5x + 8),(x + 1),0)
2: loop(\(x,i).(1 + ((x2 + 2x) * i)),2,2)
2: loop(\(x,i).((2x * (~1 + (2 * i))) + i),3,x)
2: loop(\(x,i).(x + ((~1 + (i * i)) * i * i)),x,0)
2: loop(\(x,i).(17x + 16),2,x)
2: loop(\(x,i).(4x2 + 12x + 9),2,3)
2: loop(\(x,i).(32x + (x mod 3)),x,1)
2: loop(\(x,i).(24x + 1),2,x2)
2: loop(\(x,i).(8x + 1),x,1)
2: loop(\(x,i).(8x + (x mod 3)),i,1)
2: loop(\(x,i).(12x + 1),x,1)
2: loop(\(x,i).(x + (i * i * i * i * i)),(1 + i),x)
2: loop(\(x,i).(1 + (4 * ((x * i) div 2))),x,1)
2: loop(\(x,i).(4x + 1),(x + ~2),x)
2: loop(\(x,i).(4x + 1),(x div 2),1)
2: loop(\(x,i).(6x + 1),x,0)
2: loop(\(x,i).(6x + 1),x,1)
2: loop(\(x,i).(6x + 1),x,2)
2: loop(\(x,i).(6x + 2),x,1)
2: loop(\(x,i).(6x + ((x + ~1) mod 3)),x,2)
2: loop(\(x,i).(2x2 + 1),2,2)
2: loop(\(x,i).(3x2 + x),2,2x)
2: loop(\(x,i).(x3 + 1),x,1)
2: loop(\(x,i).(x + (2 * (i * (1 + i)))),2x,x)
2: loop(\(x,i).(1 + (2x * i)),i,1)
2: loop(\(x,i).(x + ((x + 1) * (i * i))),3,x)
2: loop(\(x,i).(x + (i * i * i * i)),(1 + i),x)
2: loop(\(x,i).(1 + (x * ((1 + i) div 2))),x,0)
2: loop(\(x,i).(x + ((((1 + i) * i) div 2) * (1 + i))),x,0)
2: loop(\(x,i).(x + (3 * (2x div (if i <= 0 then 1 else i)))),x,3)
2: loop(\(x,i).(x + (3 * (2x div (if i <= 0 then 1 else i)))),x,6)
2: loop(\(x,i).(2 + ((x div 2) * i)),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
2: loop(\(x,i).(1 + (2 * (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))),1,i)
2: loop(\(x,i).(2 + (3 * (x mod 7))),x,2)
2: loop(\(x,i).(1 + (2 * (x mod (1 + i)))),x,1)
2: loop(\(x,i).(2x + 1),(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1)
2: loop(\(x,i).(2x + 1),(x + ~1),2)
2: loop(\(x,i).(2x + 1),2x,2)
2: loop(\(x,i).(2x + 1),x,(4 + loop(\(x,i).2x,x,1)))
2: loop(\(x,i).(2x + 1),x,6)
2: loop(\(x,i).(2x + 1),x,16)
2: loop(\(x,i).(2x + 1),x,(if (x mod 2) <= 0 then 2 else 0))
2: loop(\(x,i).(2x + 1),x,loop(\(x,i).3x,x,1))
2: loop(\(x,i).(2x + 1),x,loop(\(x,i).(2x + 2),x,0))
2: loop(\(x,i).(2x + 1),x,loop(\(x,i).(2x + 2),x,2))
2: loop(\(x,i).(2x + 1),x,loop(\(x,i).2x,x,2))
2: loop(\(x,i).(2x + 1),i,1)
2: loop(\(x,i).(x2 + 1),1,loop(\(x,i).(2x + 2),x,0))
2: loop(\(x,i).(x2 + 1),3,2)
2: loop(\(x,i).(x2 + 2),2,3)
2: loop(\(x,i).(x2 + 2),x,1)
2: loop(\(x,i).(1 + (x * i)),(1 + i),1)
2: loop(\(x,i).((x + 1) + (i * i)),x,1)
2: loop(\(x,i).(2x + (i * i)),x,0)
2: loop(\(x,i).(x + (i * i)),(2x + 1),0)
2: loop(\(x,i).(x + (i * i)),x,x)
2: loop(\(x,i).(x + (i * i)),i,0)
2: loop(\(x,i).(x + (2 div (6 - (x div 3)))),2,x)
2: loop(\(x,i).(1 + (((x + 1) + (i div (2 + (x mod 2)))) div 2)),x,0)
2: loop(\(x,i).(2 + ((x + (x2 div 3)) div 2)),2,(x + ~1))
2: loop(\(x,i).(x + ((x + i) div 3)),x,2)
2: loop(\(x,i).(1 + ((~1 + (x2 div 2)) div 5)),2,x)
2: loop(\(x,i).(2 + ((x - ((~x + 1) mod 3)) div 2)),x,x)
2: loop(\(x,i).(x + ((5x + 10) div (1 + i))),x,4)
2: loop(\(x,i).(x + (5x div (1 + i))),2x,6)
2: loop(\(x,i).(x + (((4 + i) * (1 + i)) div 2)),x,2)
2: loop(\(x,i).(x + (7x div (1 + i))),x,8)
2: loop(\(x,i).(x + (7x div (if i <= 0 then 1 else i))),x,1)
2: loop(\(x,i).(x + (7x div (if i <= 0 then 1 else i))),x,(x + 2))
2: loop(\(x,i).(((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3) + (if x <= 0 then 0 else 1)),1,(x - (if x <= 0 then 0 else 1)))
2: loop(\(x,i).(1 + ((x2 + x) div 2)),2,x)
2: loop(\(x,i).((4x + 2) + ((x2 + x) div 2)),2,x)
2: loop(\(x,i).(x + ((3x + 6) div (1 + i))),x,2)
2: loop(\(x,i).(1 + ((2x2 + ~x) div (x + 3))),2,x)
2: loop(\(x,i).(2x + (10x div (1 + i))),2x,3)
2: loop(\(x,i).(x + (8x div (if i <= 0 then 1 else i))),2x,1)
2: loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,(x + 3))
2: loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,(x + 4))
2: loop(\(x,i).(x + (6x div (if i <= 0 then 1 else i))),2x,1)
2: loop(\(x,i).(x + (6x div (if i <= 0 then 1 else i))),x,1)
2: loop(\(x,i).(x + ((i * i * (1 + i)) div 2)),x,0)
2: loop(\(x,i).(x + (x2 div 3)),1,(x + ~1))
2: loop(\(x,i).(x + ((i * i) div 3)),x,0)
2: loop(\(x,i).(1 + (loop(\(x,i).(x * (2 + i)),compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x),1) div 3)),1,(x + 1))
2: loop(\(x,i).(2 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2)),2,x)
2: loop(\(x,i).(2 + (x div 2)),(~1 + (x div 2)),1)
2: loop(\(x,i).(2x + (x div 2)),x,2)
2: loop(\(x,i).(x + (x div 2)),(x + ~2),2)
2: loop(\(x,i).(x + (x div 3)),(x + ~2),4)
2: loop(\(x,i).(x + (x div 4)),2,(x + 2))
2: loop(\(x,i).(x + (x div 4)),x,5)
2: loop(\(x,i).(x + (x div 9)),x,9)
2: loop(\(x,i).(2 + (x div (2 + (3 * (x mod 2))))),2,x)
2: loop(\(x,i).(x + (x div (2 + (i mod 2)))),x,2)
2: loop(\(x,i).(x + (x div (~1 + (4 * (1 + i))))),2,x)
2: loop(\(x,i).(x + (x div (~1 + (2 * i)))),x2,x)
2: loop(\(x,i).(x + (x div (2 * (2 + i)))),2,x)
2: loop(\(x,i).(x + (x div (if i <= 0 then 1 else (2 * i)))),3x,x)
2: loop(\(x,i).(2 + (i div 3)),loop(\(x,i).(x div (1 + (x mod 2))),x,x),1)
2: loop(\(x,i).(2x + (((x div 2) + i) mod 2)),x,1)
2: loop(\(x,i).(4x + ((x + 1) mod 4)),x,1)
2: loop(\(x,i).(4x + ((x + 1) mod 4)),x,3)
2: loop(\(x,i).(2x + ((((((x3 + ~3x2 + 2x) div 2) div 2) div 2) div 2) mod 2)),x,1)
2: loop(\(x,i).(x + (x mod 5)),x,1)
2: loop(\(x,i).(x + (x mod (1 + i))),(x + ~1),1)
2: loop(\(x,i).(2x + (if (2 - i) <= 0 then x else 1)),x,(x + 1))
2: loop(\(x,i).(x + (if (~2 + (x div 3)) <= 0 then 1 else 2)),x,(x + 1))
2: loop(\(x,i).(x + (if (x + ~2) <= 0 then 1 else x)),i,1)
2: loop(\(x,i).(x + (if (x + ~2) <= 0 then 3 else x)),x,(~2x + 1))
2: loop(\(x,i).((if (~2 + i) <= 0 then 1 else x) + (x * i)),(x + 1),x)
2: loop(\(x,i).(x + (if (~2 + i) <= 0 then 2 else x)),x,2)
2: loop(\(x,i).(x + (if ((x + 1) mod 10) <= 0 then (x + 2) else 1)),x,x)
2: loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then 1 else 0)),(x div 2),x)
2: loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then 2 else 0)),x,(2x + 1))
2: loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then 2 else 0)),i,(x + 2))
2: loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then 2 else 1)),(x + ~2),(x + 2))
2: loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then i else 0)),x,(2 * (if x <= 0 then 1 else x)))
2: loop(\(x,i).(4x + (if (i mod 3) <= 0 then 2 else 1)),x,2)
2: loop(\(x,i).(x + (if (i mod (2 + (x mod 2))) <= 0 then 1 else x)),x,0)
2: loop(\(x,i).(2 + (if x <= 0 then 2 else loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x))),2,x)
2: loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1)
2: loop(\(x,i).(6x + loop(\(x,i).(5x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1)
2: loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1)
2: loop(\(x,i).(6x + loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1)
2: loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),i,1)),x,1)
2: loop(\(x,i).(6x + loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),i,1)),i,1)
2: loop(\(x,i).(4x + loop(\(x,i).(7x + loop(\(x,i).3x,i,1)),i,1)),i,1)
2: loop(\(x,i).(6x + loop(\(x,i).(5x + loop(\(x,i).10x,i,1)),i,1)),i,1)
2: loop(\(x,i).(8x + loop(\(x,i).(7x + loop(\(x,i).4x,i,1)),i,1)),i,1)
2: loop(\(x,i).(8x + loop(\(x,i).(7x + loop(\(x,i).2x,i,1)),i,1)),i,1)
2: loop(\(x,i).(4x + loop(\(x,i).(7x + loop(\(x,i).2x,i,1)),i,1)),i,1)
2: loop(\(x,i).(4x + loop(\(x,i).(5x + 1),i,1)),x,1)
2: loop(\(x,i).(6x + loop(\(x,i).(5x + 1),i,1)),x,1)
2: loop(\(x,i).(8x + loop(\(x,i).(7x + 1),i,1)),i,1)
2: loop(\(x,i).(2x + loop(\(x,i).(7x + 1),i,1)),i,1)
2: loop(\(x,i).(4x + loop(\(x,i).(10x + 1),i,1)),x,1)
2: loop(\(x,i).(6x + loop(\(x,i).(4x + 1),i,1)),x,1)
2: loop(\(x,i).(x + loop(\(x,i).(1 + (2 * (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))),1,i)),x,1)
2: loop(\(x,i).(loop(\(x,i).(1 + (x * i)),(1 + i),1) + (x * i)),x,2)
2: loop(\(x,i).(6x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1)
2: loop(\(x,i).(6x + loop(\(x,i).(10x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1)
2: loop(\(x,i).(6x + loop(\(x,i).(4x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1)
2: loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),i,1)),i,1)
2: loop(\(x,i).(6x + loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1)
2: loop(\(x,i).(6x + loop(\(x,i).(4x + loop(\(x,i).(5x + 1),i,1)),i,1)),x,1)
2: loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).(5x + 1),i,1)),i,1)),x,1)
2: loop(\(x,i).(6x + loop(\(x,i).(2x + loop(\(x,i).(5x + 1),i,1)),i,1)),x,1)
2: loop(\(x,i).(6x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).2x,i,1)),i,1)),i,1)),x,1)
2: loop(\(x,i).(12x + loop(\(x,i).(6x + loop(\(x,i).(4x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1)
2: loop(\(x,i).(6x + loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1)
2: loop(\(x,i).(6x + loop(\(x,i).(4x + loop(\(x,i).3x,i,1)),i,1)),i,1)
2: loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),x,1)
2: loop(\(x,i).(4x + loop(\(x,i).(4x + loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),i,1)),i,1)),x,1)
2: loop(\(x,i).(loop(\(x,i).~x,i,3) + (x * (2 + i))),x,1)
2: loop(\(x,i).(6x + loop(\(x,i).(11x + 1),i,1)),i,1)
2: loop(\(x,i).(8x + loop(\(x,i).(~1 + (2 * (2x + loop(\(x,i).2x,i,1)))),i,1)),x,1)
2: loop(\(x,i).(6x + loop(\(x,i).(~1 + (2 * (2x + loop(\(x,i).2x,i,1)))),i,1)),x,1)
2: loop(\(x,i).(x + loop(\(x,i).(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1,i)),x,0)
2: loop(\(x,i).(1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x)),2,(x + 1))
2: loop(\(x,i).(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 1))),2,x)
2: loop(\(x,i).(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,x)),2,x)
2: loop(\(x,i).(1 + loop(\(x,i).(x - (if x <= 0 then 1 else loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,x))),x,x)),x,1)
2: loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1)
2: loop(\(x,i).(x + loop(\(x,i).3x,i,(1 + i))),i,(x + 1))
2: loop(\(x,i).(6x + loop(\(x,i).5x,i,1)),i,1)
2: loop(\(x,i).(loop(\(x,i).(x * (2 + i)),(~1 + i),1) + (x * (2 + i))),x,1)
2: loop(\(x,i).(x + loop(\(x,i).(2 * (2x - (x div (1 + i)))),i,2)),x,2)
2: loop(\(x,i).(loop(\(x,i).(x * (~1 + (2 * i))),i,1) + (x * i)),x,1)
2: loop(\(x,i).(1 + loop(\(x,i).10x,2,x)),x,1)
2: loop(\(x,i).(6x + loop(\(x,i).10x,i,1)),i,1)
2: loop(\(x,i).(2x + loop(\(x,i).8x,i,1)),i,1)
2: loop(\(x,i).(8x + loop(\(x,i).4x,i,1)),i,1)
2: loop(\(x,i).(loop(\(x,i).(2x * i),i,1) + (x * (~1 + (2 * i)))),x,0)
2: loop(\(x,i).(loop(\(x,i).(x * (i * i)),(~1 + i),1) + (x * (i * i))),x,0)
2: loop(\(x,i).(x + loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(~1 + i),1)),x,1)
2: loop(\(x,i).(2x + loop(\(x,i).2x,(~1 + i),x)),x,1)
2: loop(\(x,i).(loop(\(x,i).2x,i,1) + (x * i)),i,1)
2: loop(\(x,i).(x + loop(\(x,i).2x,i,x)),x,1)
2: loop(\(x,i).(x + loop(\(x,i).x2,1,loop(\(x,i).x3,1,(1 + (2 * i))))),x,1)
2: loop(\(x,i).(x + loop(\(x,i).x2,2,(1 + (2 * i)))),x,1)
2: loop(\(x,i).(loop(\(x,i).(x * i),(~1 + i),1) + (x * i)),x,1)
2: loop(\(x,i).(loop(\(x,i).(x * i),(~1 + i),1) + loop(\(x,i).(x * i),x,1)),(x + ~1),1)
2: loop(\(x,i).(loop(\(x,i).(x * i),i,1) + (x * (1 + i))),x,0)
2: loop(\(x,i).(loop(\(x,i).(x * i),i,1) + (x * (1 + i))),x,1)
2: loop(\(x,i).(x + loop(\(x,i).(x * i),i,2)),x,1)
2: loop(\(x,i).(x + loop(\(x,i).(((3 * (x + (x div 4))) - (x mod 2)) div 2),1,i)),x,0)
2: loop(\(x,i).(x + loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(~2 + i),1)),x,1)
2: loop(\(x,i).(x + loop(\(x,i).(loop(\(x,i).3x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1) div 3),1,i)),x,0)
2: loop(\(x,i).((x + 1) + loop(\(x,i).loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,0),2,x)),x,1)
2: loop(\(x,i).(x + loop(\(x,i).loop(\(x,i).3x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1),1,i)),x,1)
2: loop(\(x,i).(x + loop(\(x,i).loop(\(x,i).2x,((((1 + (8 mod (1 + (x div 2)))) div 2) + (if x <= 0 then 0 else 1)) - (x mod 2)),2),1,i)),x,1)
2: loop(\(x,i).(1 + i),(x + ~8),x)
2: loop(\(x,i).(x + i),((if (x mod 2) <= 0 then 2 else 0) + (x div 2)),0)
2: loop(\(x,i).(x + i),(~2 + ((x + ~2) div 3)),x)
2: loop(\(x,i).(x + i),(x + ~7),0)
2: loop(\(x,i).(x + i),(x + ~8),1)
2: loop(\(x,i).(x + i),((x + ~1) div 5),x)
2: loop(\(x,i).(x + i),(((x + ~1) div 2) div 3),x)
2: loop(\(x,i).(x + i),(x mod 4),1)
2: loop(\(x,i).((x + 1) + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)),x,1)
2: loop(\(x,i).((x + 1) + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)),i,1)
2: loop(\(x,i).(x + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)),(x + 2),x)
2: loop(\(x,i).(x + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)),(x + ~1),x)
2: loop(\(x,i).~x,i,3)
2: loop(\(x,i).(11x + 1),x,0)
2: loop(\(x,i).(1 - (2 * (x + (i mod 2)))),i,1)
2: loop(\(x,i).(~4x + 1),x,1)
2: loop(\(x,i).(~4x2 + 1),2,2)
2: loop(\(x,i).(~2x + 1),(x div 2),1)
2: loop(\(x,i).(~2x + 1),x,2)
2: loop(\(x,i).(~2x + 1),x,3)
2: loop(\(x,i).(~2x + 1),x,loop(\(x,i).(~2x + 2),x,1))
2: loop(\(x,i).(~x2 + 1),2,(x + 2))
2: loop(\(x,i).(~x2 + 1),2,4x)
2: loop(\(x,i).(1 - loop(\(x,i).(x - (if x <= 0 then 0 else (i - (x mod 2)))),x,x)),1,(2x + 2))
2: loop(\(x,i).(~x + 1),x,(x + loop(\(x,i).(1 - (x * i)),x,1)))
2: loop(\(x,i).(7x + 2),x,0)
2: loop(\(x,i).(~x3 + 2),2,2)
2: loop(\(x,i).(2 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(4x + ~1))),1,(2x + 1))
2: loop(\(x,i).((x + ~1) + (4 * (i * i))),(x + 1),0)
2: loop(\(x,i).((x + ~1) + ((2x2 + x) div (1 + i))),x,1)
2: loop(\(x,i).((x + ~2) + (x div 2)),x,0)
2: loop(\(x,i).(x + i - ((x + 1) div 5)),x,0)
2: loop(\(x,i).(x + i - (x div 4)),x,0)
2: loop(\(x,i).(x + i - (x div (1 + (4 * i)))),x,1)
2: loop(\(x,i).(x + i - (x mod 9)),x,0)
2: loop(\(x,i).(x + i - (x mod 10)),x,0)
2: loop(\(x,i).(~3x + 1),2x,3)
2: loop(\(x,i).(~3x + 1),x,0)
2: loop(\(x,i).(~3x + 1),i,1)
2: loop(\(x,i).(~3x + 2),x,1)
2: loop(\(x,i).(3x + ~1),(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1)
2: loop(\(x,i).(3x + ~1),(x + ~1),0)
2: loop(\(x,i).(3x + ~1),2x,1)
2: loop(\(x,i).(3x + ~2),2x,0)
2: loop(\(x,i).(5x + ~1),x,1)
2: loop(\(x,i).(5x + ~1),x,2)
2: loop(\(x,i).(5x - loop(\(x,i).2x,i,1)),x,1)
2: loop(\(x,i).(49x + ~2),x,1)
2: loop(\(x,i).(~1 + (2 * (x + (i mod 2)))),i,0)
2: loop(\(x,i).((2x + 4) - (x div 2)),x,0)
2: loop(\(x,i).(~1 + (x * (1 + i))),x,0)
2: loop(\(x,i).(1 + (x * (2 + i)) - (2 * (x mod 2))),i,1)
2: loop(\(x,i).(10x + ~6),x,1)
2: loop(\(x,i).(x2 + ~x + ~1),x,8)
2: loop(\(x,i).(10x + ~1),x,x)
2: loop(\(x,i).(4x + ~1),x,2)
2: loop(\(x,i).(4x + ~1),x,4)
2: loop(\(x,i).(4x - (i mod 4)),x,4)
2: loop(\(x,i).(4x - loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),i,1)),x,x)
2: loop(\(x,i).(2x2 + ~1),2,4)
2: loop(\(x,i).(2x2 + ~1),2,x)
2: loop(\(x,i).(2x2 + ~1),x,2)
2: loop(\(x,i).(x3 + ~1),2,4)
2: loop(\(x,i).(~1 + (2 * loop(\(x,i).(x div (1 + (x mod 2))),x,x))),2x,x)
2: loop(\(x,i).(2x + ~1),(x + ~1),x)
2: loop(\(x,i).(2x + ~1),2x,8)
2: loop(\(x,i).(2x + ~1),(x div 2),(x mod 2))
2: loop(\(x,i).(2x + ~1),x,2x)
2: loop(\(x,i).(2x - ((~1 + i) div 2)),x,1)
2: loop(\(x,i).(2x - ((if (i mod 2) <= 0 then 1 else 2x) div (1 + i))),x,2)
2: loop(\(x,i).(2x - ((if (i mod 2) <= 0 then 1 else 2x) div (1 + i))),x,(x + 1))
2: loop(\(x,i).(2x - ((if (i mod 2) <= 0 then 1 else 2x) div (1 + i))),i,1)
2: loop(\(x,i).(2x - (i div 2)),x,0)
2: loop(\(x,i).(2x - (((x div 2) + i) mod 2)),x,2)
2: loop(\(x,i).(2x - (i mod 2)),(x + ~2),0)
2: loop(\(x,i).(2x - (i mod 2)),(x div 2),2)
2: loop(\(x,i).(2x - (i mod 2)),x,0)
2: loop(\(x,i).(2x - (i mod 2)),x,(x + 1))
2: loop(\(x,i).(x2 + ~1),2,6)
2: loop(\(x,i).(x2 + ~1),2,2x)
2: loop(\(x,i).(x2 + ~1),x,4)
2: loop(\(x,i).(x2 + ~2),3,3)
2: loop(\(x,i).(x2 + ~2),x,3)
2: loop(\(x,i).(x2 + ~2),x,4)
2: loop(\(x,i).(x2 + ~2),x,6)
2: loop(\(x,i).(x2 + ~2),x,10)
2: loop(\(x,i).(~1 + (x * i)),x,1)
2: loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),x,0)
2: loop(\(x,i).((x * i) - (if (~2 + (x div 2)) <= 0 then 0 else 1)),2,x)
2: loop(\(x,i).((x * i) - loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),i,1)),x,x)
2: loop(\(x,i).(~2x + (i * i)),x,0)
2: loop(\(x,i).(((1 + (8 mod (1 + (x div 2)))) div 2) - (x mod 2)),1,i)
2: loop(\(x,i).(~x + ((x - i) div 4)),2,x)
2: loop(\(x,i).(~x + (17x div (if i <= 0 then 1 else i))),x,1)
2: loop(\(x,i).(~x + (10x div (if i <= 0 then 1 else i))),x,1)
2: loop(\(x,i).(~2x + ((2 * (if x <= 0 then 1 else x)) div (1 + i))),x,1)
2: loop(\(x,i).(~2 + (loop(\(x,i).(1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),2,x) mod (x + 1))),2,x)
2: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(5x + 4))
2: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(9x + 1))
2: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x2 + 2x + 1))
2: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x2 + 1))
2: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(x2 + x + ~1))
2: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(8x + ~1))
2: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(4x + ~1))
2: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(6x + ~1))
2: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(7x + ~2))
2: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x2 + 3x))
2: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(12x + 8))
2: loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,(6x + 4))
2: loop(\(x,i).(~1 + (if x <= 0 then 2 else 0)),(x mod 2),(x div 2))
2: loop(\(x,i).(~2x + (if x <= 0 then 2 else 0)),x,(x mod 2))
2: loop(\(x,i).(~1 + (if x <= 0 then (2 * i) else x)),x,0)
2: loop(\(x,i).(~1 + (if x <= 0 then i else x)),x2,1)
2: loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,2)
2: loop(\(x,i).(loop(\(x,i).(1 + (x * i)),i,1) - (x * i)),x,1)
2: loop(\(x,i).(~x + loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),(~1 + i),1)),x,1)
2: loop(\(x,i).(loop(\(x,i).4x,x,1) - loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,(3x + 1))),1,(x + 1))
2: loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),x,2x)),2,x)
2: loop(\(x,i).(~1 + loop(\(x,i).(x div (2 - ((x * (x div 2)) mod 2))),x,x)),(x + 1),(x + 1))
2: loop(\(x,i).(~1 + loop(\(x,i).(x div (2 - ((x * (x div 2)) mod 2))),x,x)),x,(x + 1))
2: loop(\(x,i).(~1 + loop(\(x,i).(x3 mod 37),2,x)),1,x2)
2: loop(\(x,i).((x + ~1) - (2 * (if x <= 0 then 0 else i))),x,x)
2: loop(\(x,i).(13x + ~1),x,0)
2: loop(\(x,i).(7x + ~1),x,2)
2: loop(\(x,i).(3x - loop(\(x,i).~2x,(~1 + i),1)),x,1)
2: loop(\(x,i).((x + 1) - (2 * (~2x + (x mod 2)))),x,0)
2: loop(\(x,i).((x + 1) - (2 * (~1 + (x mod 4)))),(x div 4),x)
2: loop(\(x,i).((x + 1) - ((~x + 1) div 3)),x,1)
2: loop(\(x,i).((x + 1) - ((((2 - (x div 2)) mod (x + 1)) div 2) div 2)),2,x)
2: loop(\(x,i).((x + 1) - (x div 7)),2,2x)
2: loop(\(x,i).((x + 1) - (x div (~2 + (x div ~7)))),x,0)
2: loop(\(x,i).((x + 1) - ((x + 1) mod (~1 + (x div ~5)))),2,x)
2: loop(\(x,i).((5x + 2) - ((x div 2) mod 2)),x,2)
2: loop(\(x,i).((x + 1) - (if x <= 0 then 1 else (2 * i))),x,x)
2: loop(\(x,i).((x + 1) - (if x <= 0 then 2 else (2 * i))),x,x)
2: loop(\(x,i).(x + (2 * (i * i)) - i),x,0)
2: loop(\(x,i).(5x + ~2),x,0)
2: loop(\(x,i).(5x + ~2),x,5)
2: loop(\(x,i).(7x + ~3),x,2)
2: loop(\(x,i).(11x + ~5),x,2)
2: loop(\(x,i).(5x + ~4),x,8)
2: loop(\(x,i).(3x + ~4),x,1)
2: loop(\(x,i).(x - (2 * (~x + (x div 3)))),x,1)
2: loop(\(x,i).~7x,2x,1)
2: loop(\(x,i).(x - (2x * i)),2x,1)
2: loop(\(x,i).(x - (2 * (if x <= 0 then 0 else i))),x,x)
2: loop(\(x,i).(x - (i * i)),x,1)
2: loop(\(x,i).(x - (((~x + ~1) + (x mod 2)) div 5)),x,1)
2: loop(\(x,i).(x - ((~1 + (((x + ~1) div 2) div 2)) div 2)),2,x)
2: loop(\(x,i).(x - ((~x + ((i mod 3) mod 2)) div 2)),x,1)
2: loop(\(x,i).(x - ((x - ((x * i) div 3)) div 2)),2,x)
2: loop(\(x,i).(x - ((i * i) div ~2)),x,0)
2: loop(\(x,i).(x - ((i * i) div ~2)),x,1)
2: loop(\(x,i).(x - ((x div 2) div (1 + i))),2,x)
2: loop(\(x,i).(x - (x div 4)),2,(x div 2))
2: loop(\(x,i).(x - (x div (3 + i))),x,2x)
2: loop(\(x,i).(x - (x div (1 + (2 * i)))),2,(x div 2))
2: loop(\(x,i).(x - (x div ~9)),x,1)
2: loop(\(x,i).(x - (x div (~2 + ((~x + 2) div 4)))),x,1)
2: loop(\(x,i).(x - (x div (~2 + (x mod 2)))),x,2)
2: loop(\(x,i).(x - (x div (~1 + (i mod ~2)))),x,1)
2: loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),i,i)
2: loop(\(x,i).(x - (if (~x + i) <= 0 then i else 2)),x,x)
2: loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,(2x + 1))
2: loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,x)
2: loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),(x div 2),(x + 2))
2: loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 2 else 1)),x,x)
2: loop(\(x,i).(x - (if (x mod (2 + i)) <= 0 then 1 else 2)),x,x)
2: loop(\(x,i).(x - (if x <= 0 then 0 else (1 + (2 * i)))),x,2x)
2: loop(\(x,i).(x - (if x <= 0 then 0 else (1 + (if (x + ~1) <= 0 then x else i)))),x,x)
2: loop(\(x,i).(x - (if x <= 0 then 0 else (i - (i div 3)))),x,x)
2: loop(\(x,i).(x - (if x <= 0 then 1 else (x - ((if x <= 0 then 2 else loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 2)))),x,x)
2: loop(\(x,i).(x - (if x <= 0 then 1 else (2 * i))),x,2x)
2: loop(\(x,i).(x - (if x <= 0 then 1 else (x div (1 + (if (x mod 3) <= 0 then 0 else 2))))),x,(x + 1))
2: loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - ((x div 2) mod 2))))),x,(x + 1))
2: loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),(x + ~1),x)
2: loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 2))
2: loop(\(x,i).(x - (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else (2x + ~1)))),x,(x + 1))
2: loop(\(x,i).(x - (if x <= 0 then 1 else (if (x mod (1 + i)) <= 0 then 2 else 1))),x,x)
2: loop(\(x,i).(x - (if x <= 0 then 1 else loop(\(x,i).(~1 + (if x <= 0 then 2 else 0)),(x mod 2),(x div 2)))),x,(x + 1))
2: loop(\(x,i).(x - (if x <= 0 then 1 else loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,x))),x,x)
2: loop(\(x,i).(x - (if x <= 0 then 2 else (~2 + i))),x,x)
2: loop(\(x,i).(x - loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,0)),x,(x + ~1))
2: loop(\(x,i).(x - loop(\(x,i).(x * i),(~1 + i),1)),x,1)
2: loop(\(x,i).(x - i),x,loop(\(x,i).2x,x,1))
2: loop(\(x,i).(i - (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),2,x)
2: loop(\(x,i).(~x + i),x,x)
2: loop(\(x,i).((~x + 1) + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)),x,0)
2: loop(\(x,i).(~x + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)),x,0)
2: loop(\(x,i).3x,(x + ((4 * (x div 3)) div 3)),1)
2: loop(\(x,i).3x,(x + 1),2)
2: loop(\(x,i).3x,(x + 1),(x + 1))
2: loop(\(x,i).3x,(x + 1),x)
2: loop(\(x,i).3x,(1 + i),x)
2: loop(\(x,i).3x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),3)
2: loop(\(x,i).3x,((x div 2) - ((3 * (x div 4)) div 2)),1)
2: loop(\(x,i).3x,(x2 + 3x + 2),3)
2: loop(\(x,i).3x,((x + 1) div 2),1)
2: loop(\(x,i).3x,((x + ~1) div 2),1)
2: loop(\(x,i).3x,((x2 + ~x) div 2),1)
2: loop(\(x,i).3x,(x2 div 4),1)
2: loop(\(x,i).3x,(x div 2),(4 - (x mod 2)))
2: loop(\(x,i).3x,(x div 2),(1 + (3 * (1 + (x mod 2)))))
2: loop(\(x,i).3x,(x div 2),((x + 1) mod 2))
2: loop(\(x,i).3x,(x div 2),(x mod 2))
2: loop(\(x,i).3x,(x div 3),1)
2: loop(\(x,i).3x,x,loop(\(x,i).(3x + ~6),x,0))
2: loop(\(x,i).3x,x,loop(\(x,i).(2x + ~6),x,0))
2: loop(\(x,i).(4x + 4),(x + 1),2)
2: loop(\(x,i).(4x + 4),(x div 2),(x mod 2))
2: loop(\(x,i).(4x + 4),x,4)
2: loop(\(x,i).5x,(x + 1),x)
2: loop(\(x,i).5x,2x,1)
2: loop(\(x,i).5x,((x + 1) div 2),1)
2: loop(\(x,i).5x,((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2),1)
2: loop(\(x,i).5x,x,8)
2: loop(\(x,i).(2x + 12),(x + 2),0)
2: loop(\(x,i).(x * (5 + i)),x,2)
2: loop(\(x,i).(2 * ((x + 1) + (x div 2))),x,1)
2: loop(\(x,i).(2 * (5x + (x div 2))),(x + 1),1)
2: loop(\(x,i).(x2 + 3x),1,loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x))
2: loop(\(x,i).(2x + 8),x,0)
2: loop(\(x,i).(2x + 8),x,x)
2: loop(\(x,i).(x * (3 + i)),(x + 3),2)
2: loop(\(x,i).(x * (3 + i)),(x + ~1),x)
2: loop(\(x,i).(x * (3 + i)),x,1)
2: loop(\(x,i).(x * (4 + i)),4,(x + 1))
2: loop(\(x,i).(x * (4 + i)),2x,(x + 1))
2: loop(\(x,i).(x * (4 + i)),x,(x + 1))
2: loop(\(x,i).(x * ((x + 1) + i)),2,2)
2: loop(\(x,i).(x * (3 - (i mod 2))),x,1)
2: loop(\(x,i).(~2x + 6),x,1)
2: loop(\(x,i).(7x + 7),x,0)
2: loop(\(x,i).7x,(4x + 3),1)
2: loop(\(x,i).7x,x2,1)
2: loop(\(x,i).7x,x,5)
2: loop(\(x,i).7x,x,(1 + (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))))
2: loop(\(x,i).7x,x,8)
2: loop(\(x,i).(6x + 4),2,x)
2: loop(\(x,i).(2x + 16),x,13)
2: loop(\(x,i).13x,i,1)
2: loop(\(x,i).(10x + 8),2,x)
2: loop(\(x,i).(10x + 8),(x + 1),0)
2: loop(\(x,i).(10x + 8),x,0)
2: loop(\(x,i).(10x + 8),x,x)
2: loop(\(x,i).(10x + 2),(x div 2),(1 + (x mod 2)))
2: loop(\(x,i).(10x + 2),x,0)
2: loop(\(x,i).(10x + 4),2,1)
2: loop(\(x,i).(10x + 4),2,x)
2: loop(\(x,i).(10x + 4),(x div 2),(x mod 2))
2: loop(\(x,i).(10x + 4),x,0)
2: loop(\(x,i).(2 * ((5x + 1) + i)),x,2)
2: loop(\(x,i).(x * (1 + (2 * (2 + (2 mod (x + 1)))))),x,1)
2: loop(\(x,i).(x3 + 2x2 + 2x),1,(x2 + 3x + 2))
2: loop(\(x,i).(x * (1 + (2 * (2 + i)))),x,(x + 2))
2: loop(\(x,i).(x * (1 + (2 * (x + i)))),2,2x)
2: loop(\(x,i).(5 * (2 + (x * (x + i)))),2,x)
2: loop(\(x,i).((x + ((~1 + (2 * (i mod 2))) * i)) * (1 + i)),x,0)
2: loop(\(x,i).17x,x,1)
2: loop(\(x,i).(2x + 40),(x + 1),1)
2: loop(\(x,i).(x5 + x4 + x3 + x2 + x + 1),1,x2)
2: loop(\(x,i).(10x + 16),x,1)
2: loop(\(x,i).(16x + 2),x,2)
2: loop(\(x,i).(16x2 + 10x + 1),2,x)
2: loop(\(x,i).(x * (1 + (4x * (1 + i)))),2,x)
2: loop(\(x,i).(4x2 + x),2,2x)
2: loop(\(x,i).(6x2 + 2),2,x)
2: loop(\(x,i).(x4 + 2x),(x + ~2),1)
2: loop(\(x,i).(x * (1 + (i * i * i))),x,1)
2: loop(\(x,i).(4x + 2),(x div 2),1)
2: loop(\(x,i).(6x + 3),(1 + (x div 2)),(x mod 2))
2: loop(\(x,i).(10x + 5),x,0)
2: loop(\(x,i).(2x2 + 7x + 3),4,2)
2: loop(\(x,i).(2x2 + x),1,loop(\(x,i).(2x + 1),x,0))
2: loop(\(x,i).(2x2 + x),2,3x)
2: loop(\(x,i).(3x2 + 3),2,2x)
2: loop(\(x,i).(x3 + x2 + x + 1),1,loop(\(x,i).2x,x,1))
2: loop(\(x,i).(x3 + x),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
2: loop(\(x,i).(x3 + x),1,x3)
2: loop(\(x,i).(x3 + 3x),x,2)
2: loop(\(x,i).(x * (1 + (2 * i))),(x + ~2),x)
2: loop(\(x,i).(x * (1 + (2 * i))),x,(x + 1))
2: loop(\(x,i).(2 * (x + (2 * i))),x,0)
2: loop(\(x,i).(x * (1 + (x * i))),x,1)
2: loop(\(x,i).(x * (2 + (x * i))),2,x)
2: loop(\(x,i).(2 * (2x + (3x div (if i <= 0 then 1 else i)))),x,1)
2: loop(\(x,i).(2 * (x + (3x div (if i <= 0 then 1 else i)))),x,1)
2: loop(\(x,i).(2 * (x + (5x div (if i <= 0 then 1 else i)))),x,1)
2: loop(\(x,i).(4 * (x + (5x div (if i <= 0 then 1 else i)))),x,1)
2: loop(\(x,i).(2 * (x + (7x div (if i <= 0 then 1 else i)))),x,1)
2: loop(\(x,i).(4 * (x + (7x div (if i <= 0 then 1 else i)))),x,1)
2: loop(\(x,i).(2 * (x + (6x div (if i <= 0 then 1 else i)))),x,1)
2: loop(\(x,i).(4 * (x + (6x div (if i <= 0 then 1 else i)))),x,1)
2: loop(\(x,i).(5 * (x + ((4x * i) div (1 + i)))),x,1)
2: loop(\(x,i).(2 * (1 + (x div 2))),(x div 8),(((x + 1) div 2) div 2))
2: loop(\(x,i).(3 * (2 + (x div 2))),x,0)
2: loop(\(x,i).(2 * (2x + (x div 2))),x,1)
2: loop(\(x,i).((x + (x div 2)) * (x div 2)),1,loop(\(x,i).3x,x,3))
2: loop(\(x,i).(2 * (4x + (x div (if i <= 0 then 1 else i)))),x,1)
2: loop(\(x,i).(2 * (2x + (x div (if i <= 0 then 1 else i)))),x,4)
2: loop(\(x,i).(2 * (2x + (x div (if i <= 0 then 1 else i)))),x,(x + 1))
2: loop(\(x,i).(2 * (2x + (x div (if i <= 0 then 1 else i)))),x,x)
2: loop(\(x,i).(x * (1 + (i div 3))),x,1)
2: loop(\(x,i).((2x + 1) * (1 + (x mod 2))),x,(2 * (x mod 2)))
2: loop(\(x,i).(x * (2 + (x mod 4))),i,1)
2: loop(\(x,i).(x * (1 + (x mod 5))),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
2: loop(\(x,i).(2 * (x + (if (i mod 2) <= 0 then 2 else 0))),x,1)
2: loop(\(x,i).(2 * (x + (if (i mod 2) <= 0 then 2 else 0))),x,2)
2: loop(\(x,i).(x * (1 + (if (i mod 2) <= 0 then i else 1))),x,1)
2: loop(\(x,i).(2x + 2),(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1)
2: loop(\(x,i).(2x + 2),(x + ~1),0)
2: loop(\(x,i).(2x + 2),(x + ~1),2)
2: loop(\(x,i).(2x + 2),(loop(\(x,i).(~3x2 + x),2,2) mod (x + 1)),1)
2: loop(\(x,i).(2x + 2),(if (x mod 2) <= 0 then x else 1),1)
2: loop(\(x,i).(2x + 2),loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1)
2: loop(\(x,i).(2x + 2),x,(1 - (2 * (x mod 2))))
2: loop(\(x,i).(2x + 2),x,(if x <= 0 then 1 else 0))
2: loop(\(x,i).(3x + 3),2x,4)
2: loop(\(x,i).(3x + 3),(x div 3),(x mod 3))
2: loop(\(x,i).(3x + 3),x,2)
2: loop(\(x,i).(x2 + x),1,(5x + 2))
2: loop(\(x,i).(x2 + x),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
2: loop(\(x,i).(x2 + x),1,(loop(\(x,i).(2 * (x - i)),x,2) mod (x + 1)))
2: loop(\(x,i).(x2 + x),1,loop(\(x,i).(3x + ~1),x,2))
2: loop(\(x,i).(x2 + x),1,loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x))
2: loop(\(x,i).(x2 + x),1,loop(\(x,i).x3,2,x))
2: loop(\(x,i).(x2 + x),2,8)
2: loop(\(x,i).(x2 + x),2,6x)
2: loop(\(x,i).(x2 + x),3,2)
2: loop(\(x,i).(x2 + x),4,10)
2: loop(\(x,i).(x2 + x),x,3)
2: loop(\(x,i).((x + 1) * i),x,2)
2: loop(\(x,i).(2x + 4),(x + 1),1)
2: loop(\(x,i).(2x + 4),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
2: loop(\(x,i).(2x + 4),loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1)
2: loop(\(x,i).(2x + 4),x,x)
2: loop(\(x,i).(2x + 4),i,0)
2: loop(\(x,i).(2x + 4),compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),0)
2: loop(\(x,i).(x * (1 + i)),4,2)
2: loop(\(x,i).(x * (1 + i)),2x,(2x + 3))
2: loop(\(x,i).(x * (1 + i)),2x,(2x + 1))
2: loop(\(x,i).(x * (1 + i)),(2 * i),x)
2: loop(\(x,i).(x * (1 + i)),x,(3x + 2))
2: loop(\(x,i).(x * (1 + i)),x,(1 + (x div 2)))
2: loop(\(x,i).(x * (1 + i)),x,x)
2: loop(\(x,i).(x * (2 + i)),(x + 1),2)
2: loop(\(x,i).(x * (2 + i)),(x + 1),(x + 2))
2: loop(\(x,i).(x * (2 + i)),(x + 1),x)
2: loop(\(x,i).(x * (2 + i)),(x + ~2),1)
2: loop(\(x,i).(x * (2 + i)),2x,1)
2: loop(\(x,i).(x * (2 + i)),2x,2)
2: loop(\(x,i).(x * (2 + i)),((x + 1) div 2),1)
2: loop(\(x,i).(x * (2 + i)),x,(x + 1))
2: loop(\(x,i).(x * (2 + i)),x,x)
2: loop(\(x,i).(x * (2 + i)),i,2)
2: loop(\(x,i).(x * (2 + i)),compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x),2)
2: loop(\(x,i).(x * (2 + i)),compr(\x.((~1 + loop(\(x,i).(x * i),x,1)) mod (x + 2)),x),1)
2: loop(\(x,i).((x + 1) * (x + i)),4,2)
2: loop(\(x,i).((x + 1) * (x + i)),4,5)
2: loop(\(x,i).(x * (x + i)),2,6)
2: loop(\(x,i).(x * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))),x,(if x <= 0 then 1 else 2))
2: loop(\(x,i).(x * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))),i,1)
2: loop(\(x,i).(x * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i))),i,2)
2: loop(\(x,i).~2x,x,3)
2: loop(\(x,i).~2x,i,x)
2: loop(\(x,i).~3x,i,1)
2: loop(\(x,i).(~x2 + ~2x),2,4)
2: loop(\(x,i).~2x2,2,2)
2: loop(\(x,i).(~2x + 2),x,(2 * (x mod 2)))
2: loop(\(x,i).(~2x + 2),i,0)
2: loop(\(x,i).(~2x + 2),i,1)
2: loop(\(x,i).(~x4 + 3x2),3,2)
2: loop(\(x,i).(11x2 + 2x),2,x)
2: loop(\(x,i).(x * (~1 + (loop(\(x,i).2x,i,1) + (i mod 2)))),(2x + 1),2)
2: loop(\(x,i).(6x2 + ~5x + 1),2,x)
2: loop(\(x,i).(3x2 + ~2x),2,2x)
2: loop(\(x,i).(x * (~2 + (3 * i))),x,1)
2: loop(\(x,i).(x * (7 - i)),x,1)
2: loop(\(x,i).11x,(x + 1),1)
2: loop(\(x,i).11x,x,8)
2: loop(\(x,i).11x,i,(1 + i))
2: loop(\(x,i).(2 * (~1 + (2 * (x + (i mod 2))))),x,1)
2: loop(\(x,i).23x,x,1)
2: loop(\(x,i).(2 * (8x - (x div (if i <= 0 then 1 else i)))),x,1)
2: loop(\(x,i).(x * (~1 + (4x * (1 + i)))),2,x)
2: loop(\(x,i).(x6 + ~x),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
2: loop(\(x,i).(2 * (4x - (x div (if i <= 0 then 1 else i)))),x,1)
2: loop(\(x,i).(x4 + ~x),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
2: loop(\(x,i).(4x + ~2),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
2: loop(\(x,i).(4x + ~2),x,1)
2: loop(\(x,i).(2x2 + ~3x + 1),2,2x)
2: loop(\(x,i).(2x2 + ~x),1,loop(\(x,i).2x,compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),2))
2: loop(\(x,i).(2x2 + ~x),2,3x)
2: loop(\(x,i).(2 * (2x - (x div (1 + i)))),x,1)
2: loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),((x + 1) div 2),1)
2: loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,(x + 1))
2: loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),i,x)
2: loop(\(x,i).(4 * (2x - (x div (if i <= 0 then 1 else i)))),x,1)
2: loop(\(x,i).(8 * (2x - (x div (if i <= 0 then 1 else i)))),x,1)
2: loop(\(x,i).(5 * (2x - ((x div 2) mod 3))),(x + 1),1)
2: loop(\(x,i).(2 * (2x - (x mod 2))),x,3)
2: loop(\(x,i).(2 * (2x - (x mod 4))),2,(x div 2))
2: loop(\(x,i).(x3 + ~x),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
2: loop(\(x,i).(x3 + ~x),1,(x2 + 4x + 4))
2: loop(\(x,i).(x3 + ~x),1,(x2 + 2x))
2: loop(\(x,i).(x3 + ~3x),x,3)
2: loop(\(x,i).(x3 + ~3x),x,4)
2: loop(\(x,i).(x * (~1 + (2 * i))),x,2)
2: loop(\(x,i).(2 * (~2x + (x div (if i <= 0 then 1 else i)))),2x,1)
2: loop(\(x,i).(2 * (~2x + (x div (if i <= 0 then 1 else i)))),i,1)
2: loop(\(x,i).(4 * ((if x <= 0 then 1 else 2x) - (x div (if i <= 0 then 1 else i)))),x,0)
2: loop(\(x,i).(2x + ~2),x,(~1 + loop(\(x,i).4x,x,4)))
2: loop(\(x,i).(2x + ~2),x,2x)
2: loop(\(x,i).(2x + ~2),x,x)
2: loop(\(x,i).(3x + ~3),i,1)
2: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).(2x + 2),2x,2))
2: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).10x,x,1))
2: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).2x,x,2))
2: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).2x,i,2))
2: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).(x * i),x,1))
2: loop(\(x,i).(x2 + ~x),1,compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
2: loop(\(x,i).(x2 + ~x),2,4)
2: loop(\(x,i).(x2 + ~x),2,4x)
2: loop(\(x,i).(x2 + ~x),2,loop(\(x,i).(2x + 1),x,0))
2: loop(\(x,i).(x2 + ~x),(x + ~1),4)
2: loop(\(x,i).((x + ~1) * i),x,1)
2: loop(\(x,i).(2x + ~4),x,0)
2: loop(\(x,i).(2x + ~4),x,(x + 2))
2: loop(\(x,i).(3x + ~6),x,1)
2: loop(\(x,i).(x2 + ~2x),3,x)
2: loop(\(x,i).(2 * ((x + ~4) - (x div 4))),x,1)
2: loop(\(x,i).(x * ((x + 1) - i)),2,x2)
2: loop(\(x,i).(2 * ((x + 2) - i)),x,1)
2: loop(\(x,i).(10x + ~8),x,1)
2: loop(\(x,i).(10x + ~16),x,2)
2: loop(\(x,i).(7x2 + x + ~6),2,2)
2: loop(\(x,i).(~8x2 + 2x),2,x)
2: loop(\(x,i).(2 * (x - (2x * i))),2x,1)
2: loop(\(x,i).(2 * (x - ((x - (x div 5)) div 3))),(x + 1),2)
2: loop(\(x,i).(2 * (x - ((x * (2 - i)) div (1 + i)))),x,1)
2: loop(\(x,i).(2 * (x - (x div 3))),x,1)
2: loop(\(x,i).(2 * (x - (x div 5))),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
2: loop(\(x,i).(2 * (x - ((i div 2) mod 2))),x,0)
2: loop(\(x,i).(2 * (x - (i mod 2))),(x + ~2),0)
2: loop(\(x,i).(2 * (x - (i mod 2))),x,1)
2: loop(\(x,i).(2 * (x - (i mod 2))),i,1)
2: loop(\(x,i).(3 * (x - (if (i mod 2) <= 0 then 2 else ~2))),x,0)
2: loop(\(x,i).(2 * (x - i)),x,2x)
2: loop(\(x,i).(x * (x - i)),2,6)
2: loop(\(x,i).(x * (x - i)),2,(x div 2))
2: loop(\(x,i).(x * (i - (2 * (i * i)))),2x,1)
2: loop(\(x,i).(x * (~x + i)),2,6)
2: loop(\(x,i).10x,(1 + i),x)
2: loop(\(x,i).10x,(2 + i),1)
2: loop(\(x,i).10x,(x + ~1),1)
2: loop(\(x,i).10x,3x,1)
2: loop(\(x,i).10x,10,x)
2: loop(\(x,i).10x,(2x + 2),1)
2: loop(\(x,i).10x,((x + 1) div 2),1)
2: loop(\(x,i).10x,(x div 2),1)
2: loop(\(x,i).10x,x,(~1 + loop(\(x,i).10x,(x + 1),1)))
2: loop(\(x,i).10x,x,loop(\(x,i).(10x + 1),x,1))
2: loop(\(x,i).10x,x,loop(\(x,i).(10x + 10),(x + 1),0))
2: loop(\(x,i).10x,x,loop(\(x,i).(10x + 10),x,0))
2: loop(\(x,i).10x,i,(1 + i))
2: loop(\(x,i).10x,i,x)
2: loop(\(x,i).5x2,2,2x)
2: loop(\(x,i).(6 * (3x + (x div 2))),(x + 1),1)
2: loop(\(x,i).(x3 + 7x2 + 14x + 8),1,x2)
2: loop(\(x,i).(5x2 + 20x),2,x)
2: loop(\(x,i).(x7 + x3),1,x2)
2: loop(\(x,i).(x6 + x5 + x4 + x3 + x2 + x),1,x2)
2: loop(\(x,i).(2x * (1 + (2 * (i div 2)))),2x,1)
2: loop(\(x,i).(2x * (1 + (2 * (i div 2)))),x,1)
2: loop(\(x,i).(8x + 4),(x + 1),0)
2: loop(\(x,i).(x4 + x3 + x2 + x),1,loop(\(x,i).2x,x,1))
2: loop(\(x,i).(4 * (2x + (x div 2))),x,1)
2: loop(\(x,i).(4 * (2x + (x div (if i <= 0 then 1 else i)))),x,1)
2: loop(\(x,i).(2x * (1 + (i mod 2))),x,1)
2: loop(\(x,i).(10x + 10),2,x)
2: loop(\(x,i).(9x + 9),x,0)
2: loop(\(x,i).(x3 + 4x2 + 4x),2,1)
2: loop(\(x,i).((x + 2) * ((x + i) * i)),2,2)
2: loop(\(x,i).(~6x + 12),x,1)
2: loop(\(x,i).(x2 * ((x + ~1) + i)),2,x)
2: loop(\(x,i).22x,x,1)
2: loop(\(x,i).(x2 * (~1 + (3 * (2 + i)))),2,x)
2: loop(\(x,i).(12x2 + ~6),2,x)
2: loop(\(x,i).(x6 + ~x3),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
2: loop(\(x,i).(x5 + ~x2),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
2: loop(\(x,i).(12x + ~6),(x + 1),0)
2: loop(\(x,i).(12x + ~6),(x + 1),1)
2: loop(\(x,i).(6 * (2x - (x div (if i <= 0 then 1 else i)))),x,1)
2: loop(\(x,i).(4 * (2x - (x mod 2))),x,1)
2: loop(\(x,i).(9x2 + ~18),2,x)
2: loop(\(x,i).(2x * (~1 + (2 * i))),3x,1)
2: loop(\(x,i).(2x * (~1 + (2 * i))),i,x)
2: loop(\(x,i).(x * ((~1 + (2 * i)) * i)),i,x)
2: loop(\(x,i).(5x2 + ~10x),2,x)
2: loop(\(x,i).(10x + ~60),x,0)
2: loop(\(x,i).(10 * (x - (i mod 2))),x,0)
2: loop(\(x,i).27x,(~1 + i),1)
2: loop(\(x,i).(6x * (~1 + (2 * i))),x,1)
2: loop(\(x,i).32x,x,2)
2: loop(\(x,i).40x,x,1)
2: loop(\(x,i).(8x * (~1 + (2 * i))),(x + ~1),1)
2: loop(\(x,i).(x6 + ~x5),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
2: loop(\(x,i).8x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),1)
2: loop(\(x,i).8x,(x + 1),x)
2: loop(\(x,i).8x,(~1 + i),1)
2: loop(\(x,i).8x,2x,1)
2: loop(\(x,i).8x,(x div 2),(1 + (2 * (x mod 2))))
2: loop(\(x,i).8x,x,5)
2: loop(\(x,i).8x,x,7)
2: loop(\(x,i).8x,x,9)
2: loop(\(x,i).8x,x,11)
2: loop(\(x,i).12x,x2,1)
2: loop(\(x,i).20x,x,1)
2: loop(\(x,i).(4x2 + 4x),2,2x)
2: loop(\(x,i).30x,x,1)
2: loop(\(x,i).10x2,2,x)
2: loop(\(x,i).8x2,(if x <= 0 then 1 else 2x),2)
2: loop(\(x,i).(x4 + 3x3 + 2x2),1,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
2: loop(\(x,i).(x5 + ~x4),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
2: loop(\(x,i).x6,1,(3x + 1))
2: loop(\(x,i).x6,1,(11x + 5))
2: loop(\(x,i).(x5 + x3),1,x3)
2: loop(\(x,i).(x5 + x3),1,x2)
2: loop(\(x,i).(x4 + x3),1,x3)
2: loop(\(x,i).(x4 + x3),(2x + 1),2)
2: loop(\(x,i).(x4 + ~x3),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
2: loop(\(x,i).x5,1,(2x + 1))
2: loop(\(x,i).x5,1,3x)
2: loop(\(x,i).x5,2,x)
2: loop(\(x,i).x5,2x,3)
2: loop(\(x,i).(x3 * (x2 div 2)),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
2: loop(\(x,i).(x * (i * i * i * i)),x,1)
2: loop(\(x,i).(3 * ((2x div (1 + i)) * (~1 + (2 * i)))),x,1)
2: loop(\(x,i).4x,(x + 1),2)
2: loop(\(x,i).4x,(x + 1),9)
2: loop(\(x,i).4x,(x + 1),x)
2: loop(\(x,i).4x,(1 + i),x)
2: loop(\(x,i).4x,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),2)
2: loop(\(x,i).4x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1)
2: loop(\(x,i).4x,((x div 2) - ((3 * (x div 4)) div 2)),1)
2: loop(\(x,i).4x,(x2 + x),1)
2: loop(\(x,i).4x,4x,1)
2: loop(\(x,i).4x,(2 * (x div 2)),2)
2: loop(\(x,i).4x,2x,4)
2: loop(\(x,i).4x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
2: loop(\(x,i).4x,(x div 2),3)
2: loop(\(x,i).4x,(if x <= 0 then 1 else (loop(\(x,i).2x,x,2) - (x mod 2))),1)
2: loop(\(x,i).4x,x,5)
2: loop(\(x,i).4x,x,(x + 1))
2: loop(\(x,i).4x,x,(2 - (x mod 2)))
2: loop(\(x,i).4x,x,loop(\(x,i).(1 + (x * i)),x,1))
2: loop(\(x,i).4x,i,2)
2: loop(\(x,i).4x,compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),1)
2: loop(\(x,i).4x,compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),2)
2: loop(\(x,i).4x,compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),4)
2: loop(\(x,i).6x,(x + 1),x)
2: loop(\(x,i).6x,(x + ~1),1)
2: loop(\(x,i).6x,((x + 1) div 2),1)
2: loop(\(x,i).6x,x,4)
2: loop(\(x,i).6x,x,5)
2: loop(\(x,i).6x,x,7)
2: loop(\(x,i).6x,x,9)
2: loop(\(x,i).6x,x,x2)
2: loop(\(x,i).6x,i,x)
2: loop(\(x,i).(2x2 + 2x),2,2)
2: loop(\(x,i).(2x * (1 + i)),x,1)
2: loop(\(x,i).2x2,1,(5x + 5))
2: loop(\(x,i).2x2,2,4)
2: loop(\(x,i).2x2,2,(x + ~2))
2: loop(\(x,i).2x2,2,3x)
2: loop(\(x,i).2x2,(if x <= 0 then 1 else 2x),2)
2: loop(\(x,i).3x2,2,x)
2: loop(\(x,i).(x3 + x2),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
2: loop(\(x,i).(x3 + x2),1,x4)
2: loop(\(x,i).(x3 + 2x2),1,loop(\(x,i).(2x + 1),x,0))
2: loop(\(x,i).(x2 * (2 + i)),2,2x)
2: loop(\(x,i).(x3 + ~x2),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
2: loop(\(x,i).(x2 * (x div 2)),(x + 4),2)
2: loop(\(x,i).x3,1,(x + 3))
2: loop(\(x,i).x3,1,(3x + 2))
2: loop(\(x,i).x3,1,(1 + (2 * i)))
2: loop(\(x,i).x3,1,(7x + 5))
2: loop(\(x,i).x3,1,(4x + 4))
2: loop(\(x,i).x3,1,(10x + 2))
2: loop(\(x,i).x3,1,(10x + 5))
2: loop(\(x,i).x3,1,((2x + 1) * (1 - (2 * (x mod 2)))))
2: loop(\(x,i).x3,1,(2x2 + 2x))
2: loop(\(x,i).x3,1,((x + 1) div 2))
2: loop(\(x,i).x3,1,((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2))
2: loop(\(x,i).x3,1,loop(\(x,i).(x + (((2 + i) * (1 + i)) div 2)),x,1))
2: loop(\(x,i).x3,2,9)
2: loop(\(x,i).x3,2,15)
2: loop(\(x,i).x3,2,3x)
2: loop(\(x,i).x3,2,4x)
2: loop(\(x,i).x3,3,(x + 4))
2: loop(\(x,i).x3,4,2)
2: loop(\(x,i).x3,(x2 + 1),2)
2: loop(\(x,i).x3,(x + ~1),4)
2: loop(\(x,i).x3,x2,3)
2: loop(\(x,i).x3,x2,2x)
2: loop(\(x,i).x3,x,2x)
2: loop(\(x,i).(2x * i),4,1)
2: loop(\(x,i).(2x * i),(x + ~1),1)
2: loop(\(x,i).(2x * i),(~1 + i),1)
2: loop(\(x,i).(2x * i),x,(2x + 1))
2: loop(\(x,i).(3x * i),x,1)
2: loop(\(x,i).(x * (i * (2 + i))),x,1)
2: loop(\(x,i).(x * (i * (2 + i))),x,2)
2: loop(\(x,i).(x2 * i),(x2 + 3x + 2),2)
2: loop(\(x,i).(2x * (i * i)),3,(x + 1))
2: loop(\(x,i).(x * (i * i)),(x + 1),1)
2: loop(\(x,i).(x * (i * i)),(1 + i),1)
2: loop(\(x,i).(x * (i * i)),2x,1)
2: loop(\(x,i).(x * (i * i)),x,(x + 2))
2: loop(\(x,i).(x * ((x2 + x + 1) div 3)),1,loop(\(x,i).10x,(x + 1),1))
2: loop(\(x,i).(3 * ((x + ~1) div 2)),x,0)
2: loop(\(x,i).(3 * ((x * (~1 + (9 * i))) div (1 + i))),x,1)
2: loop(\(x,i).((4x div (1 + i)) * (1 + (2 * i))),x,1)
2: loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),2x,1)
2: loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(x div 2),1)
2: loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(x div 2),(x mod 2))
2: loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),x,(x + 3))
2: loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),x,(x + 2))
2: loop(\(x,i).((2x div (if i <= 0 then 1 else i)) * (4 + i)),x,1)
2: loop(\(x,i).(x2 * (x2 div 2)),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
2: loop(\(x,i).(x * (x2 div 2)),1,(2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)))
2: loop(\(x,i).(x * (loop(\(x,i).(1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),2,x) div (1 + i))),2,x)
2: loop(\(x,i).(x * (x div 2)),1,(1 + loop(\(x,i).x2,x,2)))
2: loop(\(x,i).(x * (x div 2)),1,loop(\(x,i).(2x + ~1),x,0))
2: loop(\(x,i).(x * (if (i mod 2) <= 0 then 2 else i)),x,1)
2: loop(\(x,i).(x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).2x,i,1))),x,1)
2: loop(\(x,i).(x * loop(\(x,i).(x * (x - i)),2,(x + ~2))),1,(x + ~1))
2: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
2: loop(\(x,i).((x + 2) * loop(\(x,i).x2,2,(x + 2))),2,1)
2: loop(\(x,i).(x * loop(\(x,i).x2,i,x)),2,x2)
2: loop(\(x,i).(x * loop(\(x,i).(x2 div 2),2,(x + 2))),(x + ~1),1)
2: loop(\(x,i).2x,((x + 1) - ((x mod (1 + (x div 4))) div 2)),1)
2: loop(\(x,i).2x,(x + ((x + ((x div 2) div 3)) div 2)),1)
2: loop(\(x,i).2x,(1 + (((1 + (x div 2)) div 2) div 2)),2)
2: loop(\(x,i).2x,(((~x + 1) mod (1 + ((x - ((x div 3) mod 3)) div 2))) + (if x <= 0 then 0 else 1)),1)
2: loop(\(x,i).2x,(2 + (x mod 2)),(x div 2))
2: loop(\(x,i).2x,(x + 2),(x + 2))
2: loop(\(x,i).2x,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),2)
2: loop(\(x,i).2x,(0 - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)),1)
2: loop(\(x,i).2x,(0 - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)),2)
2: loop(\(x,i).2x,(1 - ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)),1)
2: loop(\(x,i).2x,(2 - ((~x + 2) div 5)),1)
2: loop(\(x,i).2x,(~4 + (x div 2)),2)
2: loop(\(x,i).2x,(2x + ~1),2)
2: loop(\(x,i).2x,((x div 2) - ((x + ~1) div 3)),1)
2: loop(\(x,i).2x,(x + ~1),(x + 3))
2: loop(\(x,i).2x,(x + ~1),(3x + 1))
2: loop(\(x,i).2x,(x + ~1),(x + 1))
2: loop(\(x,i).2x,(x + ~2),1)
2: loop(\(x,i).2x,(x + ~9),1)
2: loop(\(x,i).2x,(x + ~10),1)
2: loop(\(x,i).2x,(x - (x div 8)),2)
2: loop(\(x,i).2x,(x - (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))),1)
2: loop(\(x,i).2x,(~1 + i),3x)
2: loop(\(x,i).2x,(~1 + i),i)
2: loop(\(x,i).2x,(x2 + 2x),2)
2: loop(\(x,i).2x,2x,(1 + (x div (2 + (x mod 2)))))
2: loop(\(x,i).2x,((2x + 1) div (3 + (x div 4))),2)
2: loop(\(x,i).2x,((x + 1) div 2),2)
2: loop(\(x,i).2x,(3x div (1 + (x mod 4))),1)
2: loop(\(x,i).2x,((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3),1)
2: loop(\(x,i).2x,((x * (x mod 2)) div 2),2)
2: loop(\(x,i).2x,((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3),1)
2: loop(\(x,i).2x,((x mod (1 + (x div 2))) div 2),2)
2: loop(\(x,i).2x,(x div 2),(3 - (x mod 2)))
2: loop(\(x,i).2x,(x div 2),(1 + (2 * (2 + (x mod 2)))))
2: loop(\(x,i).2x,(x div 2),~2)
2: loop(\(x,i).2x,(x div 4),1)
2: loop(\(x,i).2x,(x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))),1)
2: loop(\(x,i).2x,(loop(\(x,i).2x,x,2) mod (x + 1)),1)
2: loop(\(x,i).2x,(if (x mod 2) <= 0 then x else 1),2)
2: loop(\(x,i).2x,loop(\(x,i).i,(x + ~9),x),1)
2: loop(\(x,i).2x,x,(x + 18))
2: loop(\(x,i).2x,x,9)
2: loop(\(x,i).2x,x,13)
2: loop(\(x,i).2x,x,(x2 + 7x + 8))
2: loop(\(x,i).2x,x,(3x + 4))
2: loop(\(x,i).2x,x,(1 + (x div 2)))
2: loop(\(x,i).2x,x,(1 + (x div 4)))
2: loop(\(x,i).2x,x,(1 + loop(\(x,i).2x,x,3)))
2: loop(\(x,i).2x,x,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
2: loop(\(x,i).2x,x,(1 - loop(\(x,i).(2 * (x - (i mod 2))),x,0)))
2: loop(\(x,i).2x,x,(2 - (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))
2: loop(\(x,i).2x,x,(~x + 2))
2: loop(\(x,i).2x,x,15)
2: loop(\(x,i).2x,x,23)
2: loop(\(x,i).2x,x,(((~x + 1) mod 3) - (x mod 2)))
2: loop(\(x,i).2x,x,(~1 + (loop(\(x,i).2x,x,2) mod (x + 2))))
2: loop(\(x,i).2x,x,(~1 + loop(\(x,i).(x2 + ~x),1,loop(\(x,i).(2x + 2),2x,2))))
2: loop(\(x,i).2x,x,(x + ~1))
2: loop(\(x,i).2x,x,(loop(\(x,i).(2x + 2),x,1) div 2))
2: loop(\(x,i).2x,x,((x + 1) mod 2))
2: loop(\(x,i).2x,x,(x mod 2))
2: loop(\(x,i).2x,x,(if (x + ~2) <= 0 then 1 else 2))
2: loop(\(x,i).2x,x,(if ((x + (x div 2)) mod 4) <= 0 then 1 else 2))
2: loop(\(x,i).2x,x,(if (x mod 2) <= 0 then 1 else loop(\(x,i).(2x + 2),x,0)))
2: loop(\(x,i).2x,x,(if (x mod 4) <= 0 then 2 else (x mod 2)))
2: loop(\(x,i).2x,x,(if (x mod (2 + ((~x + 1) mod 3))) <= 0 then 1 else 0))
2: loop(\(x,i).2x,x,loop(\(x,i).(3x + 1),x,1))
2: loop(\(x,i).2x,x,loop(\(x,i).(3x + 2),x,0))
2: loop(\(x,i).2x,x,loop(\(x,i).(2x + 1),x,2))
2: loop(\(x,i).2x,x,loop(\(x,i).(1 + (x * i)),x,1))
2: loop(\(x,i).2x,x,loop(\(x,i).(2 + (x * i)),x,2))
2: loop(\(x,i).2x,x,loop(\(x,i).(2x + 2),x,1))
2: loop(\(x,i).2x,x,loop(\(x,i).2x,((((1 + (8 mod (1 + (x div 2)))) div 2) + (if x <= 0 then 0 else 1)) - (x mod 2)),1))
2: loop(\(x,i).2x,x,loop(\(x,i).2x,((x mod (1 + (x div 2))) div 2),2))
2: loop(\(x,i).2x,x,loop(\(x,i).x2,x,2))
2: loop(\(x,i).2x,i,(2x + 1))
2: loop(\(x,i).2x,compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i),1)
2: loop(\(x,i).2x,compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i),2)
2: loop(\(x,i).2x,compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),1)
2: loop(\(x,i).x2,1,((x + 4) + (x div 2)))
2: loop(\(x,i).x2,1,(5x + 4))
2: loop(\(x,i).x2,1,(5x + 1))
2: loop(\(x,i).x2,1,(5x + 2))
2: loop(\(x,i).x2,1,(11x + 5))
2: loop(\(x,i).x2,1,(9x + 4))
2: loop(\(x,i).x2,1,(x + ((x + 1) * loop(\(x,i).(x * (x - i)),2,2x))))
2: loop(\(x,i).x2,1,(1 + ((x2 + x) div 2)))
2: loop(\(x,i).x2,1,(1 + (x mod (1 + (loop(\(x,i).2x,x,(1 + (x mod 2))) mod (2x + 1))))))
2: loop(\(x,i).x2,1,(x + (if (x + ~1) <= 0 then 1 else ((x div 2) - (((x + ~1) div 5) mod 2)))))
2: loop(\(x,i).x2,1,(1 + loop(\(x,i).((~x + ~1) + i),x,2)))
2: loop(\(x,i).x2,1,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
2: loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i)))
2: loop(\(x,i).x2,1,(~3 + loop(\(x,i).10x,(x + 1),1)))
2: loop(\(x,i).x2,1,((if (x + ~1) <= 0 then 1 else (2 * (((x2 mod (x - ((~x + 2) div 2))) div (x + 1)) + (x mod 2)))) - (x mod 2)))
2: loop(\(x,i).x2,1,(~1 + loop(\(x,i).10x,x,1)))
2: loop(\(x,i).x2,1,(loop(\(x,i).2x,x,2) - (x mod 2)))
2: loop(\(x,i).x2,1,(4x3 + ~3x))
2: loop(\(x,i).x2,1,(2 * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
2: loop(\(x,i).x2,1,(12x + 12))
2: loop(\(x,i).x2,1,10x)
2: loop(\(x,i).x2,1,(8x + 4))
2: loop(\(x,i).x2,1,(x2 * (x div 2)))
2: loop(\(x,i).x2,1,(3 * loop(\(x,i).(10x + 1),x,1)))
2: loop(\(x,i).x2,1,((2 * (2 + (if x <= 0 then 0 else (2 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))))) div 3))
2: loop(\(x,i).x2,1,((2x + 2) div loop(\(x,i).(x div (~2 + (x mod 2))),x,(x + 1))))
2: loop(\(x,i).x2,1,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))
2: loop(\(x,i).x2,1,(x div (~2 + ((~x + 2) div 4))))
2: loop(\(x,i).x2,1,loop(\(x,i).(x + (((2 + i) * (1 + i)) div 2)),x,1))
2: loop(\(x,i).x2,1,loop(\(x,i).(x - (x div (~4 + (x div 4)))),x,1))
2: loop(\(x,i).x2,1,loop(\(x,i).3x,(x + 1),(x + 1)))
2: loop(\(x,i).x2,1,loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),i,1))
2: loop(\(x,i).x2,1,loop(\(x,i).x3,1,(1 + (2 * i))))
2: loop(\(x,i).x2,1,loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(x + ~1),1))
2: loop(\(x,i).x2,1,loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,1))
2: loop(\(x,i).x2,1,loop(\(x,i).(x div (~2 + (x mod 2))),x,(x + 1)))
2: loop(\(x,i).x2,2,7)
2: loop(\(x,i).x2,2,(3x + 2))
2: loop(\(x,i).x2,2,(10x + 3))
2: loop(\(x,i).x2,2,(4x + 1))
2: loop(\(x,i).x2,2,(1 + (2 * i)))
2: loop(\(x,i).x2,2,(1 + i))
2: loop(\(x,i).x2,2,23)
2: loop(\(x,i).x2,2,(~1 + ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)))
2: loop(\(x,i).x2,2,(~1 + loop(\(x,i).2x,x,2)))
2: loop(\(x,i).x2,2,6)
2: loop(\(x,i).x2,2,(5x + 5))
2: loop(\(x,i).x2,2,5x)
2: loop(\(x,i).x2,2,(10x + 4))
2: loop(\(x,i).x2,2,8x)
2: loop(\(x,i).x2,2,4x)
2: loop(\(x,i).x2,3,8)
2: loop(\(x,i).x2,3,10)
2: loop(\(x,i).x2,3,x3)
2: loop(\(x,i).x2,4,4)
2: loop(\(x,i).x2,(2 - (x mod 2)),4)
2: loop(\(x,i).x2,(x2 + ~1),(x + 1))
2: loop(\(x,i).x2,(x2 + ~2),2)
2: loop(\(x,i).x2,(x + ~2),loop(\(x,i).3x,(x2 + 3x + 2),3))
2: loop(\(x,i).x2,(x2 + 3x + 2),2)
2: loop(\(x,i).x2,4x,2)
2: loop(\(x,i).x2,2x,4)
2: loop(\(x,i).x2,(x div 2),2)
2: loop(\(x,i).x2,x,7)
2: loop(\(x,i).x2,x,13)
2: loop(\(x,i).x2,x,8)
2: loop(\(x,i).x2,x,10)
2: loop(\(x,i).x2,x,loop(\(x,i).2x,x,1))
2: loop(\(x,i).x2,x,loop(\(x,i).(x * i),x,1))
2: loop(\(x,i).x2,i,3)
2: loop(\(x,i).(2 * i),(x + ~8),1)
2: loop(\(x,i).(2 * i),(x + ~12),1)
2: loop(\(x,i).(2 * i),((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3),1)
2: loop(\(x,i).(2 * i),(((x + ~1) div 2) div 2),1)
2: loop(\(x,i).(2 * i),(x div 4),1)
2: loop(\(x,i).(2 * i),(x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))),1)
2: loop(\(x,i).(2 * i),((x * (x div 3)) mod (1 + ((2 - (x div 2)) mod 4))),1)
2: loop(\(x,i).(2 * i),loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1)
2: loop(\(x,i).(x * i),(1 + (2 * (2x + (if x <= 0 then 2 else x)))),1)
2: loop(\(x,i).(x * i),(1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)),1)
2: loop(\(x,i).(x * i),(2 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x)),1)
2: loop(\(x,i).(x * i),(x + ~1),loop(\(x,i).((x2 + ~x) div 2),2,x))
2: loop(\(x,i).(x * i),3x,1)
2: loop(\(x,i).(x * i),5x,1)
2: loop(\(x,i).(x * i),(2x + ~2),x)
2: loop(\(x,i).(x * i),4x,1)
2: loop(\(x,i).(x * i),6x,1)
2: loop(\(x,i).(x * i),2x,(1 + (x mod (1 + ((x2 + 2x) mod 8)))))
2: loop(\(x,i).(x * i),x2,1)
2: loop(\(x,i).(x * i),x2,2)
2: loop(\(x,i).(x * i),((x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) div 5),1)
2: loop(\(x,i).(x * i),(x div 5),1)
2: loop(\(x,i).(x * i),x,5)
2: loop(\(x,i).(x * i),x,7)
2: loop(\(x,i).(x * i),x,(3x + 1))
2: loop(\(x,i).(x * i),x,(4x + 1))
2: loop(\(x,i).(x * i),x,(x2 + 1))
2: loop(\(x,i).(x * i),x,(1 + ((x + 1) div 2)))
2: loop(\(x,i).(x * i),x,2x)
2: loop(\(x,i).(x * i),x,x2)
2: loop(\(x,i).(x * i),x,((x + ~1) div 2))
2: loop(\(x,i).(x * i),i,(1 + i))
2: loop(\(x,i).(x * i),i,i)
2: loop(\(x,i).(i * i),(x + ~2),0)
2: loop(\(x,i).((1 + (x2 div 8)) div 2),2,(x + ~1))
2: loop(\(x,i).((1 + (x2 div 8)) div 2),2,(x + ~2))
2: loop(\(x,i).((1 + (x2 div 8)) div 2),2,x)
2: loop(\(x,i).((x + i) div (x + 1)),loop(\(x,i).2x,x,1),x)
2: loop(\(x,i).(((3 * (x + (x div 4))) - (x mod 2)) div 2),1,i)
2: loop(\(x,i).((~x + i) div 2),x,x)
2: loop(\(x,i).(8 div (x + 1)),2,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))
2: loop(\(x,i).(8 div (x + 1)),2,x)
2: loop(\(x,i).((x2 + 5x) div 2),1,loop(\(x,i).2x,x,1))
2: loop(\(x,i).((x * (4 + (i mod 2))) div 2),x,1)
2: loop(\(x,i).((x2 + 3x) div 2),1,loop(\(x,i).2x,x,1))
2: loop(\(x,i).((x * (x + (x mod 3))) div 2),1,loop(\(x,i).2x,x,1))
2: loop(\(x,i).((x2 + x) div 2),1,loop(\(x,i).10x,x,1))
2: loop(\(x,i).((x2 + x) div 2),2,(x + 1))
2: loop(\(x,i).((x2 + 2x) div 2),1,loop(\(x,i).2x,x,1))
2: loop(\(x,i).((x * (2 + i)) div (1 + (i div 2))),x,1)
2: loop(\(x,i).((x * (x + i)) div (1 + i)),2,x)
2: loop(\(x,i).((~x2 + x) div 2),2,x)
2: loop(\(x,i).((x2 + ~x) div 2),1,loop(\(x,i).4x,x,1))
2: loop(\(x,i).((x2 + ~x) div 2),2,(~1 + (x div 2)))
2: loop(\(x,i).((x2 + ~x) div (1 + i)),2,(x + ~1))
2: loop(\(x,i).((x2 + ~3x + 2) div 2),2,(x + 3))
2: loop(\(x,i).((4x * (1 + (2 * (i div 2)))) div (1 + i)),x,1)
2: loop(\(x,i).((2x * (1 + (2 * i))) div (1 + i)),i,x)
2: loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x + 1),2)
2: loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x + 1),(x + 1))
2: loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x + ~2),x)
2: loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),((x + ~1) div 2),1)
2: loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x div 2),(x div 2))
2: loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,(x + 1))
2: loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,2x)
2: loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,x)
2: loop(\(x,i).((2x * (~1 + (4 * i))) div (1 + i)),x,1)
2: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),((x + ~1) div 2),1)
2: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),(x div 2),((x + 1) mod 2))
2: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),(x div 2),x)
2: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,2)
2: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,(7x + 2))
2: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,2x)
2: loop(\(x,i).(8x div 5),2,(4x + 4))
2: loop(\(x,i).((4x * (~1 + (2 * i))) div (1 + i)),x,1)
2: loop(\(x,i).((4x * (~1 + (2 * i))) div (1 + i)),i,1)
2: loop(\(x,i).((x3 + x2) div 2),2,x)
2: loop(\(x,i).(x2 div 2),2,(x + 2))
2: loop(\(x,i).(x2 div 2),2,(~2 + (x div 2)))
2: loop(\(x,i).((x div 2) div (1 + (x mod (2 * (1 + (x mod 2)))))),2,x)
2: loop(\(x,i).(loop(\(x,i).3x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1) div 3),1,i)
2: loop(\(x,i).(loop(\(x,i).(x * i),x,1) div (x + 1)),1,(1 + compr(\x.((~1 + loop(\(x,i).(x * i),x,1)) mod (x + 2)),x)))
2: loop(\(x,i).(x div 2),x,loop(\(x,i).3x,x,1))
2: loop(\(x,i).(x div 2),x,loop(\(x,i).7x,x,1))
2: loop(\(x,i).(x div (1 + (2 * (x mod 2)))),2,(x + ~1))
2: loop(\(x,i).(x div (1 + (2 * (x mod 2)))),x,x)
2: loop(\(x,i).(x div (1 + (x mod 2))),x,(3x + 1))
2: loop(\(x,i).(x div (1 + (x mod 2))),x,i)
2: loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,2x2)
2: loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,(x div 3))
2: loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 4 else 0))),x,2x)
2: loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),1,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
2: loop(\(x,i).(x div ~2),(~2 + (2x mod (4 + (x div 4)))),1)
2: loop(\(x,i).(x div (2 - (x mod 2))),x,(1 + ((x2 + x) div 2)))
2: loop(\(x,i).(x div (2 - (x mod 2))),x,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
2: loop(\(x,i).(x div (2 - (x mod 2))),x,((x + 1) div 2))
2: loop(\(x,i).(i div 3),((2 - (2x mod (4 + (x div 4)))) mod (x + 1)),1)
2: loop(\(x,i).((2x + 1) mod (1 + i)),x,0)
2: loop(\(x,i).((x + 1) mod (2 + (i div 3))),(x + ~1),0)
2: loop(\(x,i).((x + 1) mod (2 + (i div 3))),x,0)
2: loop(\(x,i).(x5 mod 31),2,x)
2: loop(\(x,i).(((x2 + x) div 2) mod 4),2,x)
2: loop(\(x,i).(loop(\(x,i).(2x + 1),x,0) mod (x + 1)),x,(x + ~1))
2: loop(\(x,i).(loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)),1,(x + 1))
2: loop(\(x,i).(x mod 2),(x mod 2),(if (~1 + (x mod 3)) <= 0 then x else 2))
2: loop(\(x,i).(if (x + ~2) <= 0 then i else 2x),x,1)
2: loop(\(x,i).(if (~x + i) <= 0 then x else 2x),x,1)
2: loop(\(x,i).(if ((x + 1) mod (1 + i)) <= 0 then 0 else x),x,4x)
2: loop(\(x,i).(if ((x + 1) mod 8) <= 0 then x else (x div 2)),x,x)
2: loop(\(x,i).(if (x mod 2) <= 0 then (x + (2 * i)) else 2),(x div 2),x)
2: loop(\(x,i).(if (x mod 4) <= 0 then (x div 2) else x),x,(x + 1))
2: loop(\(x,i).(if (x mod (3 + (i mod 2))) <= 0 then 1 else x),x,(x + 1))
2: loop(\(x,i).(if (x mod (1 + (2 * i))) <= 0 then x else ~x),x,x)
2: loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + (x div 2)))
2: loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + ~x + ~1))
2: loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + ~1))
2: loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),(x + ~2),x)
2: loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),(x div 2),~x)
2: loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),(x div 2),(2x + ~1))
2: loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),x,(x2 + x + 1))
2: loop(\(x,i).(if x <= 0 then 0 else (x + (x mod 2) - (if ((x + (x div 2)) mod 4) <= 0 then 2 else 1))),2,x)
2: loop(\(x,i).(if x <= 0 then 1 else (x + ~11)),x,4x)
2: loop(\(x,i).(if x <= 0 then 1 else 10x),x,0)
2: loop(\(x,i).(if x <= 0 then 1 else ((2x * (~1 + (2 * i))) div (1 + i))),(x + ~1),0)
2: loop(\(x,i).(if x <= 0 then 1 else ((2x * (~1 + (2 * i))) mod (1 + i))),x,0)
2: loop(\(x,i).(if x <= 0 then 1 else loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + ~1))),2,x)
2: loop(\(x,i).(if x <= 0 then 2 else loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then i else 0)),(x div 2),(x + 1))),1,(x div 2))
2: loop(\(x,i).(if x <= 0 then 2 else loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then i else 0)),(x div 2),(x + 1))),2,x)
2: loop(\(x,i).(if x <= 0 then 3 else 2x),x,0)
2: loop(\(x,i).(if x <= 0 then (2 + (i div 2)) else (x + ~1)),x,0)
2: loop(\(x,i).(if x <= 0 then (2 * i) else (x + ~1)),x,0)
2: loop(\(x,i).(if x <= 0 then i else (x + ~1)),x,1)
2: loop(\(x,i).loop(\(x,i).((2x * (~1 + (2 * i))) + i),3,x),x,0)
2: loop(\(x,i).loop(\(x,i).(x + (i * i)),(1 + i),x),i,1)
2: loop(\(x,i).loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then 2 else 0)),i,(x + 2)),x,1)
2: loop(\(x,i).loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,2x),1,(x + 1))
2: loop(\(x,i).loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),x,x),1,3x)
2: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(2x2 + 8x + 1))
2: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(11x + 10))
2: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(9x + ~2))
2: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(11x + 8))
2: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(x2 + 3x))
2: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(3x2 + 6x))
2: loop(\(x,i).loop(\(x,i).(x - (if (x mod (2 + i)) <= 0 then 0 else 1)),x,x),1,(7x + ~1))
2: loop(\(x,i).loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
2: loop(\(x,i).loop(\(x,i).(~x + i),x,x),x,x)
2: loop(\(x,i).loop(\(x,i).((x + 1) * i),x,2),x,1)
2: loop(\(x,i).loop(\(x,i).(x * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))),i,x),x,1)
2: loop(\(x,i).loop(\(x,i).(x * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i))),i,2x),x,1)
2: loop(\(x,i).loop(\(x,i).(x * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i))),i,2x),x,2)
2: loop(\(x,i).loop(\(x,i).~2x,(i mod 3),x),x,1)
2: loop(\(x,i).loop(\(x,i).(x * ((~1 + (2 * i)) * i)),i,x),x,1)
2: loop(\(x,i).loop(\(x,i).2x,((((1 + (8 mod (1 + (x div 2)))) div 2) + (if x <= 0 then 0 else 1)) - (x mod 2)),2),1,i)
2: loop(\(x,i).loop(\(x,i).2x,x,x),x,1)
2: loop(\(x,i).loop(\(x,i).2x,i,x2),(x + ~1),1)
2: loop(\(x,i).loop(\(x,i).x2,1,(x2 * (x div 2))),x,4)
2: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(10x + 1))
2: loop(\(x,i).loop(\(x,i).x2,2,x3),1,loop(\(x,i).(x * i),(x + 2),2))
2: loop(\(x,i).loop(\(x,i).x2,x,2),x,0)
2: loop(\(x,i).loop(\(x,i).x2,x,2),x,(~x + 1))
2: loop(\(x,i).loop(\(x,i).(x * i),(x + ~2),x),1,(x + ~1))
2: loop(\(x,i).loop(\(x,i).((~x + i) div 2),x,x),2,x)
2: loop(\(x,i).loop(\(x,i).(((x + i) * i) div (x + 1)),x,2x),(x + 1),2)
2: loop(\(x,i).loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),i,x),x,1)
2: loop(\(x,i).loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + 1)),1,(x2 + x))
2: loop(\(x,i).loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x + 2)),2,x)
2: loop(\(x,i).loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),x,(2x + 1)),2,(x + 1))
2: loop(\(x,i).loop(\(x,i).loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,2x),1,(x + 1)),2,x)
2: loop(\(x,i).loop(\(x,i).loop(\(x,i).loop(\(x,i).(x * i),i,x),i,x),i,x),i,x)
2: loop(\(x,i).i,(~3 + (x div 2)),1)
2: loop(\(x,i).i,(~2 + ((2x + ~1) div 5)),1)
2: loop(\(x,i).i,(~2 + ((x + ~1) div 2)),1)
2: loop(\(x,i).i,(~3 + ((x + ~1) div 2)),1)
2: loop(\(x,i).i,(~1 + (((x + 1) div 2) div 2)),1)
2: loop(\(x,i).i,(~1 + (x div 3)),1)
2: loop(\(x,i).i,(x + ~9),2)
2: loop(\(x,i).i,(2 * ((2 * (1 + (2 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))) div 3)),1)
2: loop(\(x,i).i,((x + 1) div 5),1)
2: loop(\(x,i).i,((x + ~1) div 3),1)
2: loop(\(x,i).i,((x div 2) div (1 + (x mod (1 + (x mod (3 + (x mod 2))))))),1)
2: loop(\(x,i).i,(x div (3 * (8 - (x div 2)))),1)
2: loop(\(x,i).i,(2x mod (4 + (x div 4))),1)
2: loop(\(x,i).i,(x mod 4),1)
2: loop(\(x,i).i,(x mod (1 + (x div 4))),1)
2: loop(\(x,i).i,(x mod (1 + (4 mod (x + 1)))),1)
2: loop(\(x,i).i,loop(\(x,i).(x div (1 + (x mod 2))),x,x),1)
2: loop(\(x,i).i,loop(\(x,i).(x div (1 + (x mod 2))),x,x),x)
2: loop(\(x,i).compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x),1,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
2: compr(\x.(1 + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then x else 3)),x,x)),x)
2: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(5x + 4))),x)
2: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(9x + 1))),x)
2: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(8x + 1))),x)
2: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(6x + 1))),x)
2: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(6x + 2))),x)
2: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x2 + 2x + 1))),x)
2: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x2 + 1))),x)
2: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(5x + ~1))),x)
2: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(x2 + x + ~1))),x)
2: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(9x + ~1))),x)
2: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(8x + ~1))),x)
2: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(7x + ~2))),x)
2: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(6x + 4))),x)
2: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x2 + 3x))),x)
2: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,8x)),x)
2: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,4x)),x)
2: compr(\x.(0 - loop(\(x,i).loop(\(x,i).loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,2x),1,(x + 1)),2,x)),x)
2: compr(\x.(1 - (((x mod (~1 + (2 * ((x + ~2) div 3)))) mod 2) + (x mod 2))),x)
2: compr(\x.((~x + 1) + (23 * loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x))),x)
2: compr(\x.(1 - ((x + ~4) mod (2 - (x div ~4)))),(x + 1))
2: compr(\x.(1 - ((x * (x mod (2 + (x mod 2)))) mod 5)),x)
2: compr(\x.(1 - (((loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + 1)) mod (x + 1)) div 2) mod 3)),(x + 1))
2: compr(\x.(1 - (loop(\(x,i).(x2 + 2x),2,2) mod (x + 1))),x)
2: compr(\x.(1 - (loop(\(x,i).3x2,2,x) mod (x + 2))),x)
2: compr(\x.(1 - (loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,1) mod (2 + (x * (x mod 2))))),x)
2: compr(\x.(1 - (x mod (1 + (2 * (1 + ((x div 2) mod 3)))))),(x + 1))
2: compr(\x.(1 - (x mod (2 + ((1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)) mod (x + 1))))),(x + 1))
2: compr(\x.(1 - (x mod (1 + (x mod 6)))),x)
2: compr(\x.(1 - (x mod (2 + (if (x mod 5) <= 0 then 2 else 0)))),(x + 1))
2: compr(\x.(1 - (x mod (1 + (if (x mod 8) <= 0 then 2 else 1)))),x)
2: compr(\x.(1 - (x mod (1 - (x div (~1 + ((~x + 2) div 4)))))),x)
2: compr(\x.(1 - (x mod (2 - (x mod ~3)))),x)
2: compr(\x.(1 - loop(\(x,i).(~2 + (loop(\(x,i).(1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),2,x) mod (x + 1))),2,x)),x)
2: compr(\x.(1 - loop(\(x,i).(x div (if (x mod 2) <= 0 then ~2 else 1)),x,x)),(2x + 1))
2: compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 4x))),x)
2: compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(3x + 1))),x)
2: compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + (x div 2)))),x)
2: compr(\x.(1 - loop(\(x,i).(if x <= 0 then 1 else (x + ~11)),x,4x)),x)
2: compr(\x.(2 - ((1 + ((1 + ((loop(\(x,i).2x,x,2) mod (x + 1)) div 2)) div 2)) mod 3)),x)
2: compr(\x.(2 - ((x + 1) mod (1 + (6 * (2x mod 3))))),x)
2: compr(\x.(2 - ((x + 1) mod (1 + (2 * (if (((x + 1) div 2) mod 6) <= 0 then 2 else 0))))),x)
2: compr(\x.(2 - ((0 - loop(\(x,i).2x,x,(if (x mod (2 + ((~x + 1) mod 3))) <= 0 then 1 else 0))) mod (x + 1))),x)
2: compr(\x.(2 - ((x2 - ((x div 4) mod 2)) mod 5)),x)
2: compr(\x.(2 - ((~1 + loop(\(x,i).2x,loop(\(x,i).(x div (1 + (x mod 2))),x,x),2)) mod (x + 1))),x)
2: compr(\x.(2 - (loop(\(x,i).((2x + 1) + (x mod 2)),x,0) mod (x + 1))),(x + 1))
2: compr(\x.(2 - (x mod (4 + (x mod 5)))),(x + 1))
2: compr(\x.(2 - (x mod (~1 + (loop(\(x,i).2x,x,x) mod (x + 1))))),x)
2: compr(\x.(2 - loop(\(x,i).(x div (1 + (2 * (x mod 2)))),2,x)),x)
2: compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + ~x + ~1))),x)
2: compr(\x.(2 - loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),x,(x2 + x + 1))),x)
2: compr(\x.((3 * (x mod 10)) - (x div 4)),(x + 1))
2: compr(\x.((x div 4) - (loop(\(x,i).(2x + 2),x,0) mod (x + 1))),x)
2: compr(\x.(((x - ((2x + 1) mod (1 + (x div 4)))) mod 2) - (x mod 2)),x)
2: compr(\x.(~1 + ((x2 + ~x) mod (1 + (x div 4)))),x)
2: compr(\x.((((~2x + 1) div 9) mod 2) - (x mod 2)),x)
2: compr(\x.(~1 + ((x div 2) mod (1 + (6 * (x mod 2))))),x)
2: compr(\x.(~1 + (loop(\(x,i).(2x + 1),(x div (1 + (x mod 2))),1) mod (x + 1))),(x + 1))
2: compr(\x.(~2 + (loop(\(x,i).(~2x + 1),x,1) mod (x + 2))),(x + 1))
2: compr(\x.(~2 + ((x mod 2) + (x mod (4 + (x mod (2 + (x mod 2))))))),(x + 2))
2: compr(\x.(~1 + (x mod (1 + (2 * (if (x mod 2) <= 0 then (x div 4) else 1))))),x)
2: compr(\x.(~1 + (x mod (1 + ((~x mod (2 + (x div 3))) div 2)))),x)
2: compr(\x.(~1 + (x mod (1 + ((x + ~1) mod 8)))),x)
2: compr(\x.(~1 + (x mod (2 + (x mod 3)))),x)
2: compr(\x.(~1 + (x mod (~1 + (loop(\(x,i).2x,x,x) mod (x + 1))))),(x + 1))
2: compr(\x.(~1 + (x mod ((x + 1) - (loop(\(x,i).2x,x,1) mod (x + 1))))),(x + 1))
2: compr(\x.(~1 + loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),x,2x)),2,x)),(x + 1))
2: compr(\x.(~x + loop(\(x,i).x2,1,loop(\(x,i).(x div (~2 + (x mod 2))),x,(x + 1)))),x)
2: compr(\x.(~1 + loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(3x2 + 6x))),x)
2: compr(\x.(x - (3 * (~1 + ((x + (x div 2)) div 4)))),x)
2: compr(\x.(x - loop(\(x,i).loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),x,(2x + 1)),2,(x + 1))),x)
2: compr(\x.((x mod 4) * (x div 3)),(1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))
2: compr(\x.((x mod 10) * (x mod 3)),(x + 1))
2: compr(\x.((1 + ((x + ((x div 2) div 3)) div 2)) mod 2),x)
2: compr(\x.((x + ((x div 2) div 7)) mod 4),(x + 1))
2: compr(\x.((2 + (x mod (1 + (2 * (if (x mod 6) <= 0 then 2 else 1))))) mod 3),x)
2: compr(\x.((1 + (x mod (1 + (x mod 6)))) mod 3),x)
2: compr(\x.((1 + loop(\(x,i).(x3 + ~1),2,4)) mod (x + 1)),x)
2: compr(\x.((1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,x)) mod 3),x)
2: compr(\x.((1 + loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x + ~2),x)) mod 3),x)
2: compr(\x.((1 + loop(\(x,i).loop(\(x,i).(~x + i),x,x),x,x)) mod 2),x)
2: compr(\x.((x + 1) mod (1 + (x div (2 + (loop(\(x,i).(2x + 2),x,1) mod (x + 1)))))),x)
2: compr(\x.((x + 1) mod (1 + (x2 mod (1 + (x div 2))))),x)
2: compr(\x.((1 + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x)) mod 2),x)
2: compr(\x.((x + ~1) mod (x - ((x + 1) mod 11))),x)
2: compr(\x.((x + ~2) mod (1 + (2 * (x mod (2 + (x mod 2)))))),x)
2: compr(\x.((x - ((~2x + 2) div 9)) mod 2),x)
2: compr(\x.((x - ((2x + 2) mod 13)) mod 3),x)
2: compr(\x.((x2 + x) mod loop(\(x,i).(x2 + 2x + 1),2,2)),x)
2: compr(\x.((x3 + ~x2) mod 24),x)
2: compr(\x.(((x mod 3) * (x div 2)) mod 2),x)
2: compr(\x.((x * (x mod 3)) mod 5),x)
2: compr(\x.((x div 2) mod 2),(x div 4))
2: compr(\x.((x div 2) mod 2),(x div 5))
2: compr(\x.(((x2 + ~2) mod (x + 10)) mod 2),(x + 1))
2: compr(\x.((16 mod (~x + ~1)) mod 8),x)
2: compr(\x.((x mod 10) mod (if x <= 0 then 1 else x)),x)
2: compr(\x.(loop(\(x,i).(x2 + x),3,2) mod (x + 1)),x)
2: compr(\x.(loop(\(x,i).(x * (2 + i)),((x + 1) div 2),1) mod (x + 2)),x)
2: compr(\x.(loop(\(x,i).((x + 1) * (x + i)),4,2) mod (x + 1)),x)
2: compr(\x.(loop(\(x,i).((x + 1) * (x + i)),4,5) mod (x + 1)),x)
2: compr(\x.(loop(\(x,i).(x * (x + i)),2,5) mod (x + 1)),x)
2: compr(\x.(loop(\(x,i).(~x4 + 3x2),3,2) mod (x + 1)),x)
2: compr(\x.(loop(\(x,i).(2x + ~2),x,1) mod (if x <= 0 then 1 else x)),x)
2: compr(\x.(loop(\(x,i).(x * (x - i)),2,8) mod (x + 1)),x)
2: compr(\x.(loop(\(x,i).(x * (x - i)),2,(x div 2)) mod (x + 1)),x)
2: compr(\x.(loop(\(x,i).x3,2,15) mod (x + 1)),x)
2: compr(\x.(loop(\(x,i).(x * ((1 + i) div 2)),x,1) mod (x + 1)),x)
2: compr(\x.(loop(\(x,i).((x + 2) * loop(\(x,i).x2,2,(x + 2))),2,1) mod (x + 1)),x)
2: compr(\x.(loop(\(x,i).2x,x,(~1 + (loop(\(x,i).2x,x,2) mod (x + 2)))) mod (x + 1)),x)
2: compr(\x.(loop(\(x,i).x2,2,10) mod (x + 1)),x)
2: compr(\x.(loop(\(x,i).(x * i),(x div 2),1) mod (x + 2)),x)
2: compr(\x.(loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 4),x)
2: compr(\x.(x mod (1 + (8 * (x mod 2)))),x)
2: compr(\x.(x mod (1 + (2 * ((x2 div 2) mod 3)))),(x + 2))
2: compr(\x.(x mod (1 + ((x mod ((x + ~1) - (x mod 4))) div 2))),x)
2: compr(\x.(x mod (1 + (x div 8))),x)
2: compr(\x.(x mod (1 + ((~x + 1) mod (1 + (x mod 9))))),x)
2: compr(\x.(x mod (1 + ((5x2 + 10x + 5) mod 9))),x)
2: compr(\x.(x mod (1 + ((x4 + 4x3) mod 9))),x)
2: compr(\x.(x mod (1 + (x mod (1 + ((2x2 + 2) mod (1 + (x div 2))))))),x)
2: compr(\x.(x mod (~1 + (6 * (if (~2 + (x div 3)) <= 0 then 0 else 2)))),x)
2: compr(\x.loop(\(x,i).(2 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(4x + ~1))),1,(2x + 1)),x)
2: compr(\x.loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(x + 8)),x)
2: compr(\x.loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,4x),(x + 1))
2: compr(\x.loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,2x),x)
2: compr(\x.loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),2,x),x)
2: compr(\x.loop(\(x,i).(x * (loop(\(x,i).(1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),2,x) div (1 + i))),2,x),(x + 1))
2: compr(\x.loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,(x div 3)),x)
2: compr(\x.loop(\(x,i).(x div (2 - ((x * (x div 2)) mod 2))),x,x),(x + 1))
2: compr(\x.loop(\(x,i).(if ((x + 1) mod (1 + i)) <= 0 then 0 else x),x,4x),x)
2: compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),(x div 2),~x),x)
2: compr(\x.loop(\(x,i).(if x <= 0 then 1 else (~2 + (if x <= 0 then 2 else (loop(\(x,i).(1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),2,x) mod (x + 1))))),2,x),(x + 1))
2: compr(\x.loop(\(x,i).(if x <= 0 then 1 else loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + ~1))),2,x),x)
2: compr(\x.loop(\(x,i).loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,0),2,x),x)
2: compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(2x2 + 8x + 1)),x)
2: compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(11x + 10)),x)
2: compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(9x + ~2)),(x + 1))
2: compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(11x + 8)),x)
2: compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(x2 + 3x)),x)
2: compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (2 + i)) <= 0 then 0 else 1)),x,x),1,(7x + ~1)),x)
1: (10x + loop(\(x,i).(x + ((1 + i) * i)),i,0))
1: ((4x + 9) + (((6x + 5) div (x + 2)) mod 2))
1: (9x + loop(\(x,i).(x + ((1 + i) * i)),i,0))
1: ((5x + 6) + ((x + ((1 + ((((3x2 + 17x) div 2) div 2) div 2)) div 2)) div 2))
1: ((5x + 6) + (((x + (x2 div 4)) div 2) div 3))
1: ((4x + 7) + (((6x + 5) div (x + 2)) mod 2))
1: (8x + loop(\(x,i).(x + ((1 + i) * i)),i,0))
1: ((5x + 3) + (7 * (0 - ((x - (x div 4)) div 2))))
1: ((5x + 4) + ((x + ((1 + ((((3x2 + 17x) div 2) div 2) div 2)) div 2)) div 2))
1: ((4x + 5) + ((x * ((x + 2) + ((x3 + 2x) div 3))) div 4))
1: ((x + 12) + ((64x + 62) div (2x + 3)))
1: ((4x + 6) + (((x + (x2 div 4)) div 2) div 3))
1: ((4x + 5) + (((6x + 5) div (x + 2)) mod 2))
1: (7x + loop(\(x,i).(x + ((1 + i) * i)),i,0))
1: ((3x + 6) + (x div 2) - (~2x div (1 + (x div 2))))
1: ((5x + 5) - ((((x div 2) mod 2) - (if (~x + 2) <= 0 then x else 0)) div 2))
1: ((6x + 3) - ((2 * (2 + (if x <= 0 then 1 else (2 * (4x - ((~x + ((x div 2) mod 2)) div 3)))))) div 3))
1: ((4x + 3) + (7 * (0 - ((x - (x div 4)) div 2))))
1: ((4x + 4) + ((x + ((1 + ((((3x2 + 17x) div 2) div 2) div 2)) div 2)) div 2))
1: ((4x + 3) + ((x - ((x - (3 * (1 - (((x + 1) div 2) mod 5)))) div 2)) div 2))
1: ((4x + 3) + ((x * ((x + 2) + ((x3 + 2x) div 3))) div 4))
1: ((2x + 8) + ((2 * (1 + ((x2 + 2x + 2) div (~x + 25)))) div 3))
1: ((x + 10) + ((11x + 11) div (x + 6)))
1: ((x + 10) + ((64x + 62) div (2x + 3)))
1: ((2x + 6) + (x3 div loop(\(x,i).x3,1,6)))
1: ((4x + 4) + (((x + (x2 div 4)) div 2) div 3))
1: ((x + 10) + (((x + 2) div (~2x + 32)) div 2))
1: ((4x + 5) + ((((33x + 480) div 2) div 2) div 2))
1: ((3x + 5) + (((6x + 5) div (x + 2)) mod 2))
1: (6x + loop(\(x,i).(x + ((1 + i) * i)),i,0))
1: (1 + (loop(\(x,i).5x,x,1) + loop(\(x,i).3x,x,1) + loop(\(x,i).4x,x,1) + loop(\(x,i).6x,x,1) + loop(\(x,i).7x,x,1) + loop(\(x,i).2x,x,1)))
1: (9 + (loop(\(x,i).2x,(x div 2),(2 + (x mod 2))) + loop(\(x,i).2x,x,2)))
1: ((3x + 4) + (x div 2) - (~2x div (1 + (x div 2))))
1: ((5x + 3) - ((((x div 2) mod 2) - (if (~x + 2) <= 0 then x else 0)) div 2))
1: ((5x + 3) - ((2 * (2 + (if x <= 0 then 1 else (2 * (4x - ((~x + ((x div 2) mod 2)) div 3)))))) div 3))
1: ((x + 8) + (x div 2) - (2x div (~2 - (x div 4))))
1: ((2x + 9) - (x2 div ((x + 10) + (x div 4))))
1: ((3x + 3) + (7 * (0 - ((x - (x div 4)) div 2))))
1: ((2x + 5) + (((3x + 4) - (x div 2)) * ((x + 1) div 2)))
1: ((3x + 3) + ((2 * (x - ((x - (x div 3)) div 3))) + (((x + 1) div 2) div 2)))
1: ((4x + 1) + (((x + 1) + (((x + 1) + (((x2 + ~x) div 2) + (x div 3))) div 2)) div 2))
1: ((3x + 3) + (((x + 1) + (((x + 1) + (((2x + 1) + ((2x2 + 8x + 8) div 3)) div 3)) div 2)) div 2))
1: ((4x + 1) + (((x + 1) + ((x + ((1 + (((x + 1) * (x + ((x + (x mod 2)) div 5))) div 2)) div 2)) div 2)) div 2))
1: ((x + 8) + ((x + (2 * (if x <= 0 then 1 else (2 + ((x - ((x div 2) mod 5)) div 2))))) div 3))
1: ((3x + 4) + ((x + ((1 + ((((3x2 + 17x) div 2) div 2) div 2)) div 2)) div 2))
1: ((3x + 3) + ((1 + ((17x2 + 17x) div 2)) div 5))
1: ((3x + 4) + ((x + loop(\(x,i).(x + ((x - (x div 4)) div 2)),2,x)) div 2))
1: ((3x + 3) + ((x - ((x - (3 * (1 - (((x + 1) div 2) mod 5)))) div 2)) div 2))
1: ((4x + 6) + ((x - (x div 9)) div 2))
1: ((3x + 3) + ((x * ((x + 2) + ((x3 + 2x) div 3))) div 4))
1: ((2x + 5) + ((2 * (1 + ((x2 + 2x + 2) div (~x + 25)))) div 3))
1: ((x + 9) + ((2 * (1 + ((x2 + 7x + 10) div 3))) div 3))
1: ((3x + 4) + ((2 * (x + ((2 * (1 + (2 * (2x - ((2x + 1) div 7))))) div 3))) div 3))
1: ((x + 8) + ((x2 + 2x) div 8))
1: ((x + 8) + ((11x + 11) div (x + 6)))
1: ((x + 8) + ((64x + 62) div (2x + 3)))
1: ((x2 + 2x + 4) + ((24x + 24) div 7))
1: ((2x + 4) + (x3 div loop(\(x,i).x3,1,6)))
1: ((2x + 6) + (2x div (8 + (x mod 2))))
1: ((3x + 4) + (((x + (x2 div 4)) div 2) div 3))
1: ((3x + 3) + (((1 + (loop(\(x,i).((x + 1) + (x div (1 + (x mod 4)))),x,0) div 2)) div 2) div 2))
1: ((x + 7) + (((x + 2) div (~2x + 32)) div 2))
1: ((4x + 2) + (((3 * (1 + ((13x2 + 13x) div 2))) div 2) div 2))
1: ((3x + 5) + ((((33x + 480) div 2) div 2) div 2))
1: ((x + 9) + (loop(\(x,i).((x + 1) + (2 * (6 - (x div 3)))),2,x) div 2))
1: ((3x + 4) + ((~x + 1) mod (2 + (x div (2 + (x mod 2))))))
1: ((3x + 3) + ((x * (x div 2)) mod 2))
1: ((3x + 3) + (((6x + 5) div (x + 2)) mod 2))
1: ((4x + 2) + (((~1 + (x * (x div 4))) div 3) mod 2))
1: ((3x + 4) + (if x <= 0 then 1 else ((2x + ~1) + ((2 * ((4x + ~1) + ((2 * ((2x + 2) + (if x <= 0 then 1 else (2 * (2x + ((x - (x div 4)) div 2)))))) div 3))) div 3))))
1: ((2x + 6) + (if x <= 0 then 1 else (2 * ((5x + 1) + ((x div 2) + (x div 3))))))
1: ((4x + 4) + (if x <= 0 then 1 else (2 * ((2x + 1) + ((x div 2) + (x div 3))))))
1: ((x + 6) + ((if x <= 0 then 1 else (2 * (8x - (x div 3)))) + (x mod 2)))
1: (5x + loop(\(x,i).(x + ((1 + i) * i)),i,0))
1: ((3x + 4) + loop(\(x,i).(x - ((~1 + (x div 4)) div 2)),2,(x + ~1)))
1: (loop(\(x,i).5x,x,1) + loop(\(x,i).3x,x,1) + loop(\(x,i).4x,x,1) + loop(\(x,i).6x,x,1) + loop(\(x,i).7x,x,1) + loop(\(x,i).2x,x,1))
1: (7 + (loop(\(x,i).2x,(x div 2),(2 + (x mod 2))) + loop(\(x,i).2x,x,2)))
1: ((3x + 3) + loop(\(x,i).x2,1,((x2 + 5x) div 2)))
1: ((9x + 7) + (((x + 1) div 2) div 2) - ((x + (x div 3)) div 5))
1: ((3x + 1) + (((2 * ((2x + 2) + (if x <= 0 then 1 else (2 * (2x + ((x + ((x div 2) mod 2)) div 2)))))) div 3) + ((x + 1) div 3)))
1: ((3x + 2) + (((2 * (2 + ((1 + (5 * ((x + ((x div 2) mod 2)) div 2))) div 3))) div 3) + (x div 2)))
1: ((4x + 1) + ((2 * (2 + (if x <= 0 then 1 else (2 * (3x + ((x - (x div 12)) div 2)))))) div 3))
1: ((2x + 4) + (x div 2) - (~2x div (1 + (x div 2))))
1: ((4x + 3) - ((((x div 2) mod 2) - (if (~x + 2) <= 0 then x else 0)) div 2))
1: ((4x + 3) - ((2 * (2 + (if x <= 0 then 1 else (2 * (4x - ((~x + ((x div 2) mod 2)) div 3)))))) div 3))
1: ((3x + 3) + (x div 3) - (x mod 10))
1: ((2x + 6) - ((~x + 1) div (1 + ((x + 1) div 5))))
1: ((3x + 4) - ((x2 + 2x) div (2x - ((~x + 2) div 2))))
1: ((x + 6) + (x div 2) - (2x div (~2 - (x div 4))))
1: ((2x + 6) - (x2 div ((x + 10) + (x div 4))))
1: ((2x + 3) + (2 * ((x + 1) + (((x + 1) + (((2x + 1) + (2 * (((x + 1) + (2 * ((1 + (loop(\(x,i).((x + 1) + loop(\(x,i).2x,x,1) - (x mod 2)),x,1) div 2)) div 2))) div 2))) div 3)) div 2))))
1: ((2x + 3) + (2 * (x + (2 * ((x + 1) div (8 - ((x + 2) div 3)))))))
1: ((2x + 3) + (2 * (1 + (x * ((x * (1 + ((x * (x div 2)) div 4))) div 2)))))
1: ((2x + 3) + (2 * (1 + loop(\(x,i).(x * (2 - (x mod ~4))),x,x))))
1: ((2x + 3) + (7 * (0 - ((x - (x div 4)) div 2))))
1: ((2x + 3) + (((3x + 4) - (x div 2)) * ((x + 1) div 2)))
1: ((2x + 3) + ((2 * (x - ((x - (x div 3)) div 3))) + (((x + 1) div 2) div 2)))
1: ((2x + 3) + (2 * ((1 + ((x * (1 + (loop(\(x,i).3x,(x3 + 2x),1) div 2))) div 2)) div 2)))
1: ((2x + 3) + (2 * ((1 + (((2x + 2) * (1 + (((1 + (((x + 1) * (1 + ((x + (x mod 4)) * (1 + (x div 4))))) div 2)) div 2) div 2))) div 2)) div 2)))
1: ((2x + 4) + (5 * ((2 * (~1 + (6 * ((x + 1) + (5 * (1 + (x div 2))))))) div 3)))
1: ((2x + 3) + (2 * (x div (1 + (x div (2 + (x div 5)))))))
1: ((3x + 2) + (((3x + 2) + ((3x + (((3x + 2) - (loop(\(x,i).2x,x,1) mod 9)) div 2)) div 2)) div 2))
1: ((3x + 2) + ((3x + (((3x + 2) - (loop(\(x,i).2x,x,1) mod 9)) div 2)) div 2))
1: ((3x + 1) + (((x + 1) + (((x + 1) + (((x2 + ~x) div 2) + (x div 3))) div 2)) div 2))
1: ((2x + 3) + (((x + 1) + (((x + 1) + (((2x + 1) + ((2x2 + 8x + 8) div 3)) div 3)) div 2)) div 2))
1: ((3x + 1) + (((x + 1) + (((x + 1) + ((5 * compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,(x + 2)),x)) div 2)) div 2)) div 2))
1: ((3x + 1) + (((x + 1) + ((x + ((1 + (((x + 1) * (x + ((x + (x mod 2)) div 5))) div 2)) div 2)) div 2)) div 2))
1: (8 + ((2 + (5 * ((x + 2) + (2 * (x div 4))))) div 3))
1: ((x + 6) + ((x + (2 * (2 + (((x + ~1) mod (2 + (x div 2))) div 2)))) div 3))
1: ((x + 6) + ((x2 + 2x + 2) div (~x + 25)))
1: ((x + 6) + ((x + (2 * (if x <= 0 then 1 else (2 + ((x - ((x div 2) mod 5)) div 2))))) div 3))
1: ((3x + 2) + (((1 + (2 * (if x <= 0 then 1 else (2 * (4x - ((x + ((x div 2) mod 2)) div 2)))))) div 3) + ((x + 1) div 3)))
1: ((3x + 2) + ((x + ((1 + ((((3x2 + 17x) div 2) div 2) div 2)) div 2)) div 2))
1: ((2x + 3) + ((1 + ((17x2 + 17x) div 2)) div 5))
1: ((3x + 2) + ((x + (((3 * (x + (2 * ((x - (x div ~4)) div 2)))) div 2) div 2)) div 2))
1: ((x + 6) + ((x + ((x mod (1 + (x div 2))) div 2)) div 2))
1: ((3x + 2) + ((x + loop(\(x,i).(x + ((x - (x div 4)) div 2)),2,x)) div 2))
1: ((x + 11) + (((x div 2) - ((~x + 2) div (2 + (x div 2)))) div 2))
1: ((3x + 1) + ((x - ((x - (3 * (1 - (((x + 1) div 2) mod 5)))) div 2)) div 2))
1: ((3x + 6) + ((x - (x div 9)) div 2))
1: ((2x + 3) + ((2 * ((x + 2) + (((2x + 1) + (2 * ((x + 1) + ((2 * (1 + ((2 * (1 + (2 * (2x - (2x div 7))))) div 3))) div 3)))) div 3))) div 3))
1: ((2x + 3) + ((x * ((x + 2) + ((x3 + 2x) div 3))) div 4))
1: ((3x + 2) + ((2 * (2x + (if x <= 0 then 1 else (2 * (x + ((x + (2 * ((x2 div 8) mod 2))) div 2)))))) div 3))
1: ((x + 5) + ((2 * (1 + ((x2 + 2x + 2) div (~x + 25)))) div 3))
1: ((x + 5) + ((2 * (1 + ((x + (3 * (2 - ((~x + 2) div (2 - (x div ~4)))))) div 2))) div 3))
1: ((x + 5) + ((2 * (1 + ((1 + ((1 + ((1 + ((1 + ((1 + (((x + 1) * (1 + (((x2 + ~x) div 2) div 3))) div 2)) div 2)) div 2)) div 2)) div 2)) div 2))) div 3))
1: (8 + ((2 * (1 + ((x2 + 7x + 10) div 3))) div 3))
1: ((3x + 2) + ((2 * (x + ((2 * (1 + (2 * (2x - ((2x + 1) div 7))))) div 3))) div 3))
1: (7 + (((x + 1) * (1 + loop(\(x,i).2x,x,3))) div 3))
1: ((x + 6) + ((x2 + 2x) div 8))
1: ((x + 6) + ((5 * (1 - ((~x + 1) div 7))) div 2))
1: ((x + 6) + ((11x + 11) div (x + 6)))
1: ((x + 6) + ((64x + 62) div (2x + 3)))
1: (8 + ((3 * (x - (x div 11))) div 2))
1: ((2x + 4) + ((2x * (2 + (2 div (x + 1)))) div 3))
1: ((2x + 4) + ((24x + 24) div 7))
1: ((2x + 2) + (x3 div loop(\(x,i).x3,1,6)))
1: ((x + 5) + (((x2 + x + 1) * ((x2 + x) div 4)) div 3))
1: ((3x + 2) + (((x + 1) * (x2 div 4)) div (x + 4)))
1: ((2x + 2) + (((x * (x div 2)) div (x + 4)) + (((x + 1) div 2) div 2)))
1: ((2x + 4) + (2x div (8 + (x mod 2))))
1: ((2x + 4) + (x2 div ((x + 1) + (2 * (x div 5)))))
1: ((2x + 4) + (((x + (x2 div 4)) div 2) div 3))
1: ((x + 6) + (((1 + ((((loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2) div 2) div 2) div 2)) div 2) div 2))
1: ((3x + 1) + (((1 + (loop(\(x,i).((x + 1) + (x div (1 + (x mod 4)))),x,0) div 2)) div 2) div 2))
1: ((x + 5) + (((x + 2) div (~2x + 32)) div 2))
1: (7 + ((((x + ~1) + (x div 2)) div 2) div 2))
1: (4x + (((3 * (1 + ((13x2 + 13x) div 2))) div 2) div 2))
1: ((2x + 1) + ((((x3 + ~x) div 2) div 3) + loop(\(x,i).x2,1,(2x + 4))))
1: (8 + (((x3 + ~3x2 + 2x) div 2) div 3))
1: ((3x + 3) + ((((33x + 480) div 2) div 2) div 2))
1: ((x + 6) + (loop(\(x,i).((x + 1) + (2 * (6 - (x div 3)))),2,x) div 2))
1: ((x + 6) + (loop(\(x,i).(x + (if (~2 + (x div 3)) <= 0 then 1 else 2)),x,(x + 1)) div 2))
1: (7 + (loop(\(x,i).((x2 + x) div 2),1,loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1)) div 3))
1: ((5x + 1) + ((x div 2) + (x div 3)))
1: ((3x + 2) + (x div (2 + (if (x + ~10) <= 0 then 2 else 1))))
1: ((x + 5) + ((1 + (20 div (x + 1))) mod 10))
1: ((2x + 5) + ((2 + (((x + 1) mod (1 + (x mod 4))) div 2)) mod (x + 1)))
1: ((x + 6) + ((1 + (if (x + ~4) <= 0 then 1 else 2)) mod (x + 1)))
1: ((3x + 2) + ((~x + 1) mod (2 + (x div (2 + (x mod 2))))))
1: (7 + ((5 * (1 + (x div 4))) mod (x + 1)))
1: ((3x + 1) + ((x * (x div 2)) mod 2))
1: ((3x + 1) + (((6x + 5) div (x + 2)) mod 2))
1: ((3x + 2) + (((~1 + (x * (x div 4))) div 3) mod 2))
1: ((3x + 1) + ((((2x + ~1) * (x div 2)) div 2) mod 3))
1: ((x + 4) + (((2x div (1 + (x mod 8))) mod 2) + (x div 2)))
1: ((2x + 1) + ((((x div 2) div 3) mod 2) + (x div 3)))
1: (7 + ((x div 7) mod 2))
1: ((3x + 2) + (((3 - (x div 2)) mod (2x + 1)) mod 2))
1: ((3x + 1) + (loop(\(x,i).((x + 4) + (x div 8)),x,1) mod 2))
1: ((x + 3) + ((x mod (4 - (x mod 2))) + (x div 3)))
1: (9 + (if (~x + 2) <= 0 then (2 + ((x + ~1) mod 9)) else 1))
1: ((2x + 4) + (if (x div 4) <= 0 then 1 else ((1 + (if (~2 + (x div 2)) <= 0 then x else (x + 2))) div 2)))
1: ((4x + 2) + (if (x div 8) <= 0 then 1 else (x div (~2 + ((~x + 2) div 4)))))
1: ((x + 4) + ((if (16 mod (x + 1)) <= 0 then 1 else 0) + (x mod 2)))
1: ((2x + 4) + (if x <= 0 then 0 else (7 + ((x + ((x mod (1 + (x div 2))) div 2)) div 2))))
1: (9 + (if x <= 0 then 1 else ((x + 2) + ((x * (x div 8)) div 5))))
1: ((2x + 4) + (if x <= 0 then 1 else ((x + 4) + (x div (4 + (x div 2))))))
1: ((3x + 2) + (if x <= 0 then 1 else ((2x + ~1) + ((2 * ((4x + ~1) + ((2 * ((2x + 2) + (if x <= 0 then 1 else (2 * (2x + ((x - (x div 4)) div 2)))))) div 3))) div 3))))
1: ((x + 5) + (if x <= 0 then 1 else ((4x + 2) + ((1 + (x div 2)) div 3))))
1: ((x + 6) + (if x <= 0 then 1 else ((4x + 2) + ((1 + (x div 2)) div 3))))
1: ((2x + 4) + (if x <= 0 then 1 else (2 * ((5x + 1) + ((x div 2) + (x div 3))))))
1: ((2x + 4) + (if x <= 0 then 1 else (2 * ((2x + 1) + ((x div 2) + (x div 3))))))
1: ((x + 4) + ((if x <= 0 then 1 else (2 * (8x - (x div 3)))) + (x mod 2)))
1: ((4x + 2) + (if x <= 0 then 1 else ((2 * (4x - (3x div 5))) div 3)))
1: (3x + ((if x <= 0 then 1 else (x div 3)) + loop(\(x,i).(2x + 2),x,1)))
1: ((2x + 3) + (if x <= 0 then 1 else loop(\(x,i).(~1 + (if x <= 0 then ((1 + ((1 + i) * i)) * i) else x)),x,0)))
1: (4x + (if x <= 0 then 2 else loop(\(x,i).(x - (x div 12)),2,x)))
1: (7 + loop(\(x,i).((x + 2) + (2x div (2 + (3 * (if (~2 + (x div 2)) <= 0 then 1 else 2))))),x,1))
1: ((3x + 2) + loop(\(x,i).((x + 1) + (x div 4)),2,x))
1: (4x + loop(\(x,i).(x + ((1 + i) * i)),i,0))
1: ((2x + 3) + loop(\(x,i).((loop(\(x,i).(x * i),x,2) div (x + 1)) + (x * i)),x,1))
1: ((4x + 1) + loop(\(x,i).(x + (x div ((2 + i) * (1 + i)))),2,x))
1: ((3x + 2) + loop(\(x,i).(x + loop(\(x,i).(4x - ((x - (x div 5)) div 3)),1,i)),x,1))
1: ((2x + 4) + loop(\(x,i).(x + loop(\(x,i).compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),(x + 1)),1,i)),x,1))
1: ((3x + 2) + loop(\(x,i).((~x + 2) + (x div 5)),2,x))
1: ((2x + 4) + loop(\(x,i).(2x - ((~1 + i) div 2)),x,1))
1: ((3x + 2) + loop(\(x,i).(x - ((~1 + (x div 4)) div 2)),2,(x + ~1)))
1: (5 + (loop(\(x,i).3x,x,2) + loop(\(x,i).2x,x,1)))
1: (3 + (loop(\(x,i).3x,x,(1 + loop(\(x,i).2x,x,1))) + loop(\(x,i).5x,x,1) + loop(\(x,i).(2x + 1),x,loop(\(x,i).2x,x,1))))
1: (loop(\(x,i).5x,x,1) + loop(\(x,i).3x,x,1) + loop(\(x,i).4x,x,1) + loop(\(x,i).6x,x,1) + loop(\(x,i).7x,x,1))
1: (5 + (loop(\(x,i).(x2 + x),1,(1 + loop(\(x,i).2x,x,1))) + loop(\(x,i).3x,x,1)))
1: (3x + (loop(\(x,i).4x,(~1 + i),1) + (x mod 2)))
1: (22 + (loop(\(x,i).2x,(x div 2),(2 + (x mod 2))) + loop(\(x,i).2x,x,1)))
1: (5 + (loop(\(x,i).2x,(x div 2),(2 + (x mod 2))) + loop(\(x,i).2x,x,2)))
1: ((3x + 1) + loop(\(x,i).x2,1,((x2 + 5x) div 2)))
1: (7 + loop(\(x,i).((x2 + 2x) div 2),1,loop(\(x,i).2x,x,1)))
1: ((x + 4) + ((if x <= 0 then 1 else 2) + (x div 5)))
1: (7 + i)
1: ((x + 5) + compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,7x)),x))
1: ((2x + 5) + compr(\x.(1 - (x mod (1 + ((1 + (x mod (1 + (2 * (2 + ((2x + 2) mod 9)))))) mod (x + 1))))),x))
1: ((2x + 1) + (compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x) + (2 * (x mod 2))))
1: ((x + 5) - (2x div (~2 + (x div ~3))))
1: (2 + ((x mod 2) + (x2 div 2)) - (2 * (if (x mod (1 + (2 * (x div (2 * (2 + (x mod 2))))))) <= 0 then 1 else 2)))
1: ((3x + 1) - (((x mod 2) - ((x - ((x2 + 2x) div 3)) div 2)) div 2))
1: ((x + 2) + (x div 3) - ((x2 + 2x) mod 7))
1: ((x + 4) + ((1 + (x div 3)) div 2) - ((~x + 2) div (2 + (x div 2))))
1: (5 + (x mod 2) - (((x + ~1) mod (4 + ((x div 2) div 3))) div 2))
1: (7 - (x div 4))
1: ((2x + 4) - (x mod (1 + (((x + (if (x mod 3) <= 0 then 7 else (x div 2))) div 3) mod 3))))
1: ((2x + 4) - (x mod (~1 + ((~x + 1) div 2))))
1: ((2x + 4) - ((((x + 1) div 2) div 3) + (5 * ((~x + ~2) + (x mod 2)))))
1: ((9x + 5) + (((x + 1) div 2) div 2) - ((x + (x div 3)) div 5))
1: (8x2 + 26x + 13)
1: ((4x + 6) - (x div (~3 + ((~x + 2) div 4))))
1: ((3x + 5) - ((x2 + 2x) div (2x - ((~x + 2) div 2))))
1: ((3x + 2) + ((x + 1) div 3) - (x mod 6))
1: ((2x + 1) + ((2 * ((2x + 2) + (if x <= 0 then 1 else (2 * (4x + ((x + ((x div 2) mod 2)) div 2)))))) div 3))
1: ((3x + ~1) + (((2 * ((2x + 2) + (if x <= 0 then 1 else (2 * (2x + ((x + ((x div 2) mod 2)) div 2)))))) div 3) + ((x + 1) div 3)))
1: ((4x + ~1) + ((2 * ((2x + 2) + (if x <= 0 then 1 else (2 * (2x + ((x - (x div 4)) div 2)))))) div 3))
1: ((2x + 1) + ((2 * ((x + 1) + (2 * (x - ((~x2 + 1) div (x + 4)))))) div 3))
1: ((3x + ~1) + (((2 * (2 + ((1 + (5 * ((x + ((x div 2) mod 2)) div 2))) div 3))) div 3) + (x div 2)))
1: ((x + 1) + (((4 * (x + (if (~2 + (x div 2)) <= 0 then 1 else 2))) div 3) + (x div 2)) - (x mod 2))
1: ((4x + ~1) + ((2 * (2 + (if x <= 0 then 1 else (2 * (3x + ((x - (x div 12)) div 2)))))) div 3))
1: (5 + (2x div (2 + (((x + 1) div 2) div 3))) - (x mod 2))
1: (6 + (x div 2) - (~2x div (1 + (x div 2))))
1: ((2x + 2) + (x div 2) - (~2x div (1 + (x div 2))))
1: (6 + (x div 2) - (x div (~1 + ((~x + 1) div 3))))
1: (2 + (((1 + (x mod 5)) mod 2) + ((x div 2) mod 2)) - (x mod 2))
1: ((10x + ~1) + (if ((x + 2) mod 6) <= 0 then 0 else 1))
1: (3x + (if x <= 0 then 1 else 5x) - ((~2x + 2) div 9))
1: ((3x + 3) - ((((x div 2) mod 2) - (if (~x + 2) <= 0 then x else 0)) div 2))
1: ((4x + 1) - ((2 * (2 + (if x <= 0 then 1 else (2 * (4x - ((~x + ((x div 2) mod 2)) div 3)))))) div 3))
1: ((3x + 3) - ((1 + (x mod (~2 - (x div 3)))) mod 2))
1: ((3x + 1) + (x div 3) - (x mod 10))
1: ((2x + 4) - ((~x + 1) div (1 + ((x + 1) div 5))))
1: ((3x + 2) - ((x2 + 2x) div (2x - ((~x + 2) div 2))))
1: ((x + 5) - ((~2x + 2) div (4 + (x div 2))))
1: ((x + 6) - (2x div (~2 - (x div 4))))
1: ((3x + 2) - (x2 div (6 + ((x2 + ~x) div 11))))
1: ((x + 6) - (x2 div ((x + 10) + (x div 4))))
1: ((2x + 4) - (x2 div ((x + 3) - ((x - (x div 5)) div 3))))
1: ((3x + 2) - ((x mod (2 + ((x div 4) mod 3))) div 2))
1: ((x + 5) - (x div ~14))
1: ((2x + 4) - (3 mod (1 + (x div 3))))
1: ((3x + 2) - (loop(\(x,i).2x,x,1) mod 9))
1: (5 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) - (x mod 2))
1: ((x + 10) + (x div 9))
1: ((x + 10) + (if x <= 0 then 0 else 1))
1: ((2x + 4) + (2 * ((3x + 3) - ((1 + (x mod (~2 - (x div 3)))) mod 2))))
1: ((2x + 1) + (2 * ((2x + 2) + (((5 * ((2x + 1) - ((~x + ((x + ~2) div 3)) div 3))) div 2) div 3))))
1: ((2x + 1) + (2 * ((x + 1) + (5 * (x + (x div 4))))))
1: ((2x + 1) + (2 * ((x + 1) + (((x + 1) + (((2x + 1) + (2 * (((x + 1) + (2 * ((1 + (loop(\(x,i).((x + 1) + loop(\(x,i).2x,x,1) - (x mod 2)),x,1) div 2)) div 2))) div 2))) div 3)) div 2))))
1: ((2x + 1) + (2 * ((x + 1) + (((x + 1) + (((x + 1) + ((2 * (x3 div (x + 2))) div 3)) div 2)) div 2))))
1: (3x + (5 * ((x + 2) + ((x + ((x mod (1 + (x div 2))) div 2)) div 2))))
1: ((2x + 2) + (x * (3 + ((x - ((x div 2) mod 2)) div 2))))
1: ((2x + 1) + (2 * ((x + 1) + ((2 * (1 + ((2 * (1 + (2 * (2x - (2x div 7))))) div 3))) div 3))))
1: ((2x + 1) + (2 * ((x + 1) + ((2 * (1 + (6 mod (1 + (x div 2))))) div 3))))
1: ((2x + 1) + (2 * ((x + 1) + (((3 * ((2x + 1) + (2 * ((3 * (x + ((x div 2) div 5))) div 2)))) div 2) div 2))))
1: ((2x + 1) + (2 * (2x + (if (x + ~2) <= 0 then 1 else (8x + 6)))))
1: (3x + (5 * ((x + 2) - ((x + (x div 4)) div ~2))))
1: ((2x + 1) + (2 * (x + (2 * ((x + 1) div (8 - ((x + 2) div 3)))))))
1: ((2x + 1) + (2 * (1 + (x * ((x * (1 + ((x * (x div 2)) div 4))) div 2)))))
1: ((2x + 1) + (2 * (x + ((x4 + 2x3 + 2x2) div (x + 1)))))
1: ((x + 1) + ((2 * (x + ((x + (if (~2 + (x div 3)) <= 0 then 2 else 1)) div 2))) + (((x + 1) div 2) div 2)))
1: ((x + 1) + ((2 * (x + ((x - ((x + (x div 2)) div 5)) div 2))) + (x div 2)))
1: ((2x + 1) + (2 * (x + ((3 * ((1 + (x div 2)) div 2)) div 2))))
1: ((2x + 1) + (2 * (1 + (((10x2 + 27x + 14) div 2) div 2))))
1: ((2x + 2) + (3 * (2x + (x mod 2))))
1: ((2x + 1) + (2 * (1 + loop(\(x,i).(x * (2 - (x mod ~4))),x,x))))
1: (x2 + x + 11)
1: (x2 + 2x + 11)
1: ((2x + 1) + (7 * (0 - ((x - (x div 4)) div 2))))
1: ((2x + 1) + (2 * (1 - (x mod (1 + (((x + 1) - (2 * (x div (2 * (2 - (x mod 2)))))) mod (x + 1)))))))
1: ((x + 3) + (((3x + 4) - (x div 2)) * ((x + 1) div 2)))
1: ((2x + 1) + (2 * ((x + 1) - loop(\(x,i).(x + (if (~2 + (x div 4)) <= 0 then 1 else 2)),2,x))))
1: ((x + 3) + ((2 * (x - ((x - (x div 3)) div 3))) + (((x + 1) div 2) div 2)))
1: (5 + ((x - (x div 3)) * ((x + 1) div 2)))
1: ((x + 1) + (((x - (x div ~2)) * (x div 2)) + (x mod 2)))
1: ((7x + 50) + (x div 7))
1: ((2x + 1) + (9 * (1 + (x div 2))))
1: ((x + 3) + (9 * (1 - (((x div 3) mod 3) div 2))))
1: ((8x + 3) + (x mod 2))
1: ((2x + 1) + (4 * ((1 + (loop(\(x,i).(2x + 2),(x div 2),(x mod 2)) div 2)) div 2)))
1: ((2x + 2) + (15 * (x2 div 3)))
1: ((x3 + 3) + (2 mod (x + 1)))
1: ((x3 + x) + ((if x <= 0 then 1 else 2) + (x mod 4)))
1: ((2x + 1) + (2 * (((2x + 1) + (2 * (1 + (((10x2 + 27x + 14) div 2) div 2)))) div 3)))
1: ((2x + 1) + (2 * (((2x + 1) + (2 * ((8x + 1) div (1 + (if x <= 0 then 0 else 2))))) div 3)))
1: ((2x + 1) + (2 * (((x + 1) + (2 * ((1 + (loop(\(x,i).((x + 1) + loop(\(x,i).2x,x,1) - (x mod 2)),x,1) div 2)) div 2))) div 2)))
1: ((2x + 1) + (2 * (((x + 1) + (2 * ((((x2 div 2) - (x div 3)) div 2) div 2))) div 2)))
1: ((2x + 1) + (2 * (((x + 1) + (3 * ((x mod (1 + (x div 2))) div 3))) div 2)))
1: ((2x + 1) + (2 * (((x + 1) + (2 * (20 mod (1 + (x div 2))))) div 2)))
1: ((2x + 1) + (2 * ((8x + 1) div (1 + (if x <= 0 then 0 else 2)))))
1: ((2x + 1) + (2 * ((2 + (((x + 1) + (2 * ((x div 2) mod (1 + (x2 mod (2 * (2 + (x mod 2)))))))) div 2)) div 2)))
1: ((2x + 1) + (2 * ((1 + ((1 + ((x * (x + (if (~2 + (x div 2)) <= 0 then 2 else 1))) div 2)) div 2)) div 2)))
1: ((2x + 1) + (2 * ((1 + (((x + 2) * (1 + (3 * ((x2 + 2x) div 2)))) div 3)) div 3)))
1: ((2x + 1) + (2 * ((1 + ((x * (1 + (loop(\(x,i).3x,(x3 + 2x),1) div 2))) div 2)) div 2)))
1: ((2x + 1) + (2 * ((1 + (((x + 1) * (x + (if x <= 0 then 2 else (~1 + (2 * (if x <= 0 then 1 else (4x + (2 div (~2 + (x mod 2)))))))))) div 2)) div 2)))
1: ((2x + 1) + (2 * ((1 + (((2x + 2) * (1 + (((1 + (((x + 1) * (1 + ((x + (x mod 4)) * (1 + (x div 4))))) div 2)) div 2) div 2))) div 2)) div 2)))
1: ((2x + 1) + (2 * ((1 + (((x + 1) * loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),(2x + ~1),1)) div 2)) div 3)))
1: ((2x + 1) + (2 * ((1 + (((26x2 + 65x + 26) div 2) div 3)) div 2)))
1: ((2x + 1) + (2 * ((1 + ((((x + ~1) * ((x + 2) div 5)) div 2) div 2)) div 2)))
1: ((2x + 1) + (2 * (19x div (x + 2))))
1: ((2x + 1) + (2 * ((3 * (1 + ((4 * ((2x + 1) - ((x div 2) div 3))) div 3))) div 2)))
1: ((2x + 1) + (2 * ((3 * (x + ((x div 2) div 5))) div 2)))
1: ((2x + 1) + (2 * ((3 * (x + loop(\(x,i).i,(x + ~5),1))) div 2)))
1: ((2x + 1) + (5 * ((2 * (~1 + (6 * ((x + 1) + (5 * (1 + (x div 2))))))) div 3)))
1: ((2x + 1) + (2 * (loop(\(x,i).10x,(x + 1),1) div (x + 1))))
1: ((2x + 1) + (2 * (x div (1 + (x div (2 + (x div 5)))))))
1: ((2x + 1) + (2 * ((x + ((~x + 1) mod 3)) mod 5)))
1: (2 + ((2 * ((1 + (x mod (1 + (x mod (3 - (x mod 2)))))) mod (x + 1))) + (x mod 2)))
1: ((2x + 1) + (2 * ((1 - (x mod (1 + ((if (x mod 2) <= 0 then (x div 2) else (6x + 6)) mod 7)))) mod (x + 1))))
1: (5 + ((if (x + ~1) <= 0 then 2 else ((x + 1) div 2)) * (1 + (x div 2))))
1: (1 + ((3 * (if (x mod 2) <= 0 then (3 * (if (x mod 4) <= 0 then (2 * (2 + (if x <= 0 then 0 else 2))) else 1)) else 1)) + (if x <= 0 then 1 else 2) + (x mod 2)))
1: ((x + 4) + (3 * loop(\(x,i).(i - ((1 + i) mod (x + 1))),x,0)))
1: ((3x + 1) + (x * loop(\(x,i).(7 * i),(x + ~1),x)))
1: ((3x + 1) + (2 * loop(\(x,i).(2x + ~2),x,(~1 + loop(\(x,i).4x,x,4)))))
1: ((x + 1) + ((2 * loop(\(x,i).(2x + ~4),(x + ~2),x)) + (x div 2)))
1: (x2 + 11)
1: ((2x + 2) + (((3x + 2) + ((3x + (((3x + 2) - (loop(\(x,i).2x,x,1) mod 9)) div 2)) div 2)) div 2))
1: (3x + (((3x + 2) - (loop(\(x,i).2x,x,1) mod 9)) div 2))
1: ((2x + 2) + (((2x + 1) + (2 * ((x + 1) + (5 * (x + (x div 4)))))) div 3))
1: ((2x + 2) + ((3x + (((3x + 2) - (loop(\(x,i).2x,x,1) mod 9)) div 2)) div 2))
1: ((2x + 2) + ((3x + ((if (x mod 4) <= 0 then 2 else 1) + (x div 3))) div 3))
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1: ((2x + 1) + (((x + 1) + (((x + 1) + (x2 div (x + (if x <= 0 then 1 else (x div 3))))) mod 3)) div 2))
1: (6 + ((1 + (x div 2) - ((x div 4) mod 2)) div 2))
1: (6 + ((2 + (5 * ((x + 2) + (2 * (x div 4))))) div 3))
1: ((2x + 2) + ((x + ((~x + 4) * (x div 2))) div (x + 2)))
1: ((x + 4) + ((x + (2 * (2 + (((x + ~1) mod (2 + (x div 2))) div 2)))) div 3))
1: (6 + ((1 + (2 * (2 + (23 mod (x + 1))))) div (x + 1)))
1: ((x + 4) + ((x2 + 2x + 2) div (~x + 25)))
1: ((x + 3) + ((1 + ((x + 1) * (x - (x div ~2)))) div 2))
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1: ((2x + 1) + ((x - ((x - (3 * (1 - (((x + 1) div 2) mod 5)))) div 2)) div 2))
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1: ((2x + 1) + ((2 * ((2x + 2) + ((~1 + loop(\(x,i).2x,x,(x + 2))) div 3))) div 3))
1: ((x + 3) + ((2 * ((2x + 2) + ((2 * ((x + 2) + ((3 * (x + (6x div (x + 1)))) div 2))) div 3))) div 3))
1: ((x + 3) + ((9 * ((x + 1) + (2 * (2x + (x mod 2))))) div 2))
1: ((2x + 2) + ((2 * ((x + 2) + (2 * ((x div 3) div (1 + (x div 4)))))) div 3))
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1: ((x + 3) + ((x * ((x + 2) + ((x3 + 2x) div 3))) div 4))
1: ((2x + 2) + ((2 * ((x + 2) + ((3 * (x + (6x div (x + 1)))) div 2))) div 3))
1: (6 + ((x * (4 + (16 div (x + 1)))) div 2))
1: ((x + 4) + ((2 * ((2x + 1) + (((1 + (x div 2)) div 3) mod 2))) div 3))
1: (6 + (((x + 1) * ((x + 1) + (x mod 2))) div (1 + (x div 3))))
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1: ((2x + 2) + ((2 * ((4x + 1) - (((x + 1) * (x div 2)) mod 2))) div 3))
1: ((2x + 2) + ((2x2 + 9x + 10) div 3))
1: ((2x + 1) + ((3x2 + 6x + 3) div 5))
1: ((2x + 1) + ((2 * (1 + ((4x3 + 6x2 + 5x + 1) div 5))) div 3))
1: ((x + 3) + ((2 * (1 + ((x2 + 2x + 2) div (~x + 25)))) div 3))
1: ((x + 3) + ((2 * (1 + ((x + (3 * (2 - ((~x + 2) div (2 - (x div ~4)))))) div 2))) div 3))
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1: (6 + (((x + 1) * (1 + ((x + (x2 div 4)) div 2))) div 2))
1: (2 + (((2 * (1 + ((1 + ((32 mod (x + 1)) div 2)) div 2))) div 3) + (x mod 2)))
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1: (6 + ((2 * (1 + ((x2 + 7x + 10) div 3))) div 3))
1: (3x + ((2 * (x + ((2 * (1 + (2 * (2x - ((2x + 1) div 7))))) div 3))) div 3))
1: ((x + 3) + ((4 * (x + ((x div 2) div 7))) div 3))
1: (2 + (((2 * (1 + (((1 + (x div (2 + (x mod (2 + (x mod (2 + (x mod 2)))))))) mod (x + 1)) div 2))) div 3) + (x mod 2)))
1: ((x + 1) + (((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3) + (x mod 2)))
1: ((x + 1) + (((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3) + (if x <= 0 then 1 else 2)))
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1: (5 + ((x2 + 3x + 2) div 2))
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1: (3 + (((x2 + 2x) div 2) + (x div 2)))
1: ((x + 4) + ((x2 + 2x) div 8))
1: ((x + 4) + ((5 * (1 - ((~x + 1) div 7))) div 2))
1: (6 + ((3 * (1 - ((loop(\(x,i).(2x + 2),x,(12 * (x div 7))) mod 5) div 2))) div 2))
1: (5x + (((~2x + 4) div (4 + ((x div 2) div 3))) + ((x + 1) div 3)))
1: ((x + 4) + ((11x + 11) div (x + 6)))
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1: (5 + ((2x2 + 4x + 2) div 5))
1: ((2x + 1) + ((2x2 + 8x + 8) div 3))
1: ((2x + 2) + ((24x + 24) div 7))
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1: ((x + 1) + ((2x2 div (x + 16)) + ((x + 1) div 2)))
1: ((2x + 1) + (x3 div (x + 32)))
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1: ((x + 4) + (x2 div ((x + 1) + (2 * (x div 5)))))
1: ((4x + 1) + ((x2 div (2x + 5)) + (x div 2)))
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1: ((2x + 1) + ((((x + 1) + ((x * (if (x + ~2) <= 0 then 1 else x)) div 3)) div 2) div 2))
1: ((2x + 4) + (((1 + ((x2 + (x2 div 4)) div 2)) div 2) div 2))
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1: ((x + 4) + (((x + (x2 div 4)) div 2) div 3))
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1: (5 + (((x + 1) div 2) div 2))
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1: ((5x + 1) + (((x - (((~x + 2) * (x div 2)) div 8)) div 2) div 2))
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1: (3x + (((3 * (1 + ((13x2 + 13x) div 2))) div 2) div 2))
1: (6 + (((5 * (~2 + (3 * (x - ((~x + 1) * (x div 2)))))) div 2) div 2))
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1: ((x + 3) + ((((x + 1) div 2) div 2) div 2))
1: ((x + 3) + ((((33x + 480) div 2) div 2) div 2))
1: ((3x + 2) + (((x mod (2 + (x div 3))) div 2) div 2))
1: ((x + 3) + ((loop(\(x,i).(x2 + x),1,(18x + 8)) div 2) div 3))
1: ((x + 4) + ((loop(\(x,i).(x * (0 - i)),x,1) div 2) div 2))
1: (5 + ((x div 2) div 3))
1: ((x + 1) + (((x div 2) div 3) + (x div 4)))
1: ((x + 2) + (((x div 2) div 3) + (x div 5)))
1: (2x + (((x div 2) div 3) + (if x <= 0 then 0 else 1)))
1: (4 + (((x div 2) div 5) + (if x <= 0 then 1 else 2)))
1: ((3x + 2) + ((x div 2) div (3 + (x mod 8))))
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1: ((3x + 2) + (((2 * (((x + 4) + ((2 * (2x - ((x div 2) div ~5))) div 5)) div 2)) mod 3) div 2))
1: (3 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) + ((2x + 1) div (3 + (x div 4)))))
1: (3 + (((x mod (1 + ((~x + 2) mod 4))) div 2) + (x mod 2)))
1: (5 + ((x mod (2 + (x mod 2))) div 2))
1: ((7x + 1) + ((i mod 3) div 2))
1: ((x + 4) + (loop(\(x,i).((x + 1) + (2 * (6 - (x div 3)))),2,x) div 2))
1: ((2x + 2) + (loop(\(x,i).((4x + 1) + ((x2 + x) div 2)),x,1) div 2))
1: (5 + (loop(\(x,i).((x + 2) + ((x div 2) div 3)),x,1) div 2))
1: (5 + (loop(\(x,i).((x + 2) + (x div 9)),x,1) div 3))
1: (6 + (loop(\(x,i).(~x + 17),x,(x + 2)) div 2))
1: (3x + (loop(\(x,i).(x2 + 1),2,(x + ~1)) div 3))
1: ((2x + 3) + (loop(\(x,i).(x + ((x + (i * i)) div (1 + (x div 2)))),x,1) div 3))
1: ((x + 4) + (loop(\(x,i).(x + (if (~2 + (x div 3)) <= 0 then 1 else 2)),x,(x + 1)) div 2))
1: ((3x + 1) + (loop(\(x,i).(x + loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),i,x)),x,1) div 2))
1: ((2x + 1) + (loop(\(x,i).(0 - (3 * ((~x + ((~x + 2) div 4)) div 2))),2,x) div 2))
1: ((2x + 2) + (loop(\(x,i).(2x - (x div 4)),3,x) div 5))
1: ((2x + 2) + (loop(\(x,i).(2 * (2x + (x div (if i <= 0 then 1 else i)))),x,3) div 5))
1: ((2x + 4) + (loop(\(x,i).(2 * (x + i)),x,x) div 2))
1: (5 + (loop(\(x,i).(2 * (x - ((x - (x div 5)) div 3))),(x + 1),2) div 2))
1: (19 + (loop(\(x,i).2x2,(if x <= 0 then 1 else 2x),2) div 2))
1: ((x2 + x + 2) + (loop(\(x,i).2x,x,1) div 8))
1: ((x + 4) + (loop(\(x,i).2x,x,(2 + (x mod 2))) div (x + 1)))
1: (5 + (loop(\(x,i).2x,x,(5x + ~8)) div 2))
1: ((x + 4) + (loop(\(x,i).x2,(x + ~1),~2) div (x + 2)))
1: (5 + (loop(\(x,i).((x2 + x) div 2),1,loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1)) div 3))
1: ((x + 1) + ((x div 2) + (x div 3)))
1: ((5x + 1) + (x div 2))
1: ((x + 1) + ((x div 2) + (x div 4)))
1: (5 + (x div 4))
1: (4 + ((x div 4) + (x * i)))
1: (4 + ((x div 4) + ((x + 1) mod 2)))
1: ((x + 1) + ((x div 5) + ((x + 1) div 5)))
1: ((2x + 1) + ((x div (4 + (x div 4))) + ((x + 2) div 3)))
1: ((x + 1) + ((x div (4 + (x div 4))) + ((x + 2) div 3)))
1: (x + ((x div (3 + (if (x + ~4) <= 0 then 0 else 2))) + (if x <= 0 then 1 else 4x) + ((x + 1) div 3)))
1: ((x + 1) + ((x div (2 + ((x div 2) div 3))) + ((1 + (x div 2)) div 3)))
1: ((x + 1) + ((x div (1 + (x div 4))) + (x div 4)))
1: ((x + 7) + ((x div (1 + (x div 4))) + (x div 4)))
1: ((2x + 2) + (x div (2 + (if (x + ~10) <= 0 then 2 else 1))))
1: (5 + (x div (1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1))))
1: ((x + 1) + ((x div (~x + 18)) + (x div 8)))
1: (5 + (x div 8))
1: ((x + 1) + ((x div 8) + (2 * (1 + (x div 2)))))
1: ((4x + 1) + ((i div 3) + i))
1: ((x + 2) + ((2 mod (1 + (x div 4))) + (x div 7)))
1: ((x + 2) + ((2 mod (x + 1)) + (((x + 1) div 2) div 3)))
1: ((x + 3) + ((3 mod (x + 1)) + (x div 2)))
1: ((x + 1) + ((4 mod (1 + (x div 3))) + (x div 3)))
1: (6 + (4 mod (x + 2)))
1: (3x + (((x + 1) + (((x + 1) * (if ((x + ~1) mod 4) <= 0 then 1 else 2)) div 3)) mod 2))
1: ((3x + 2) + (((x + 1) + (x div (1 + ((2x + 1) mod 9)))) mod 2))
1: ((2x + 1) + (((x2 + 2) mod 6) + (x div 2)))
1: ((2x + 1) + ((1 + ((1 + (3x mod (1 + ((2x + 4) div 9)))) div 2)) mod 2))
1: ((x + 3) + ((1 + ((x + 1) div (2 - (x div ~12)))) mod (x + 1)))
1: (3 + (((2 + ((x * (2 + ((x + 1) mod 4))) div 2)) mod 3) + (x mod 2)))
1: (5 + ((1 + (20 div (x + 1))) mod 10))
1: ((x + 2) + (((x + ((x div 2) div 7)) mod 4) + (x div 2)))
1: ((2x + 2) + ((2 + (((x + 1) mod (1 + (x mod 4))) div 2)) mod (x + 1)))
1: (3 + (((1 + (x div 2)) mod 3) + (x mod 4)))
1: ((x + 4) + ((1 + (if (x + ~4) <= 0 then 1 else 2)) mod (x + 1)))
1: (5 + ((x + 2) mod 6))
1: ((x + 3) + ((1 - (x mod (2 + (x mod 2)))) mod (2x + 1)))
1: ((2x + 2) + ((~x + 1) mod (2 + (x div (2 + (x mod 2))))))
1: ((x + 1) + ((((x div 2) - ((x div 4) div ~2)) mod 2) + (x div 2)))
1: ((3x + 1) + ((x - ((~2x + 4) div (2 - (x div ~4)))) mod 2))
1: ((3x + 1) + ((x - (x2 div (x + 5))) mod 2))
1: (x + (((x - (x div (1 + (x mod 4)))) mod 2) + (if x <= 0 then 1 else 2) + (x div 2)))
1: ((x + 4) + ((2 * (1 + ((x + 1) div (1 + (x div (2 + (x mod (2 + (x mod 2))))))))) mod (x + 1)))
1: (6 + ((5 * (1 + (x div 4))) mod (x + 1)))
1: (5 + ((x2 + 2x) mod 11))
1: (5 + (4x mod 11))
1: (5 + ((x * (x div 2)) mod 2))
1: ((x + 1) + (((x * (x div 2)) mod 2) + (x2 div 3)))
1: ((2x + 1) + ((x * (x div 2)) mod 2))
1: ((2x + 4) + ((x * (x div 3)) mod 2))
1: (5 + (2x mod (2 + (x div 3))))
1: ((x + 3) + ((4 div (if x <= 0 then 1 else x)) mod 2))
1: ((2x + 1) + (((6x + 5) div (x + 2)) mod 2))
1: ((2x + 2) + (((~1 + (x * (x div 4))) div 3) mod 2))
1: ((2x + 1) + ((((x + ~1) div (1 + (x mod (1 + (((x + 1) div 2) div 3))))) mod 2) + (x mod 2)))
1: (2 + ((((x - ((x2 + (x div 2)) div 3)) div 2) mod 2) + (x mod 2)))
1: (6 + (((x2 + x) div 2) mod 5))
1: ((2x + 1) + ((((2x + ~1) * (x div 2)) div 2) mod 3))
1: ((2x + 1) + (((2x + ~2) div (2 - ((~x + 2) div (2 + (x div 2))))) mod 2))
1: ((2x + 1) + (((x2 + ~x) div (4 + (x * (x mod 2)))) mod 2))
1: (4 + (((2x div (1 + (x mod 8))) mod 2) + (x div 2)))
1: ((2x + 1) + ((x2 div (8 - (x div 3))) mod 2))
1: (6 + (((((x div 2) - (x mod 4)) div 2) div 2) mod 2))
1: (5 + ((((x + ~1) div 2) div 2) mod 3))
1: (2x + (((((x + ~1) div 2) div 5) mod 2) + (x mod 2)))
1: ((x + 2) + (((((3 * ((~x + 2) div 2)) div 2) div 2) mod 2) + ((x + 1) div 2)))
1: ((x + 1) + ((((x div 2) div 3) mod 2) + (x div 3)))
1: (5 + ((((x + ~1) mod (1 + (x div 2))) div 2) mod 3))
1: ((9x + 1) + ((x div 2) mod 2))
1: (6 + ((x div 2) mod 5))
1: (5 + ((x div 4) mod 2))
1: (5 + ((x div 7) mod 2))
1: ((x + 2) + (((x div (1 + (2 * (1 + (x mod 3))))) mod 2) + (x div 2)))
1: (2 + (((x div ~4) mod 2) + (x mod 2)))
1: (2 + (((x div (4 * (1 + (2 * (x mod 2))))) mod 2) + (x mod 2)))
1: (2 + ((((x + 2) mod 7) mod 2) + (x mod 2)))
1: (3x + (((3 - (x div 2)) mod (2x + 1)) mod 2))
1: ((x + 2) + (((3x mod (~1 + (x div ~2))) mod 2) + (x div 2)))
1: ((3x + 2) + (((~2x + 4) mod (1 + (x div 3))) mod 2))
1: ((2x + 5) + (((x mod (2 + (x div (2 + (x mod 2))))) mod 2) + (x mod 2)))
1: (5 + ((x mod ~7) mod 2))
1: ((2x + 1) + ((x mod (~2 - (x div 3))) mod 2))
1: (5 + ((if (x mod 2) <= 0 then (~x + 2) else x) mod 3))
1: (5 + ((if (x mod 2) <= 0 then x else (~x + 2)) mod 3))
1: ((2x + 1) + (loop(\(x,i).((x + 4) + (x div 8)),x,1) mod 2))
1: ((2x + 1) + (loop(\(x,i).2x,x,~1) mod (x + 2)))
1: (4 + ((x mod 2) + (x mod 3)))
1: (5 + (x mod 4))
1: (5 + (x mod 5))
1: ((x + 1) + ((x mod (4 - (x mod 2))) + (x div 3)))
1: (4 + ((x mod (~1 + (x div ~2))) + (x div 3)))
1: (4 + ((x mod 8) + (x mod 3)))
1: ((x + 11) + (x mod (if (~2 + (x div 4)) <= 0 then 1 else 4)))
1: ((5x + 1) + (i mod 2))
1: ((x + 3) + (if (~x + 2) <= 0 then 2 else 1))
1: (6 + (if (~x + 2) <= 0 then (2 + ((x + ~1) mod 9)) else 1))
1: ((x + 4) + (if (~x + 2) <= 0 then (2 - ((x div 2) div ~3)) else 1))
1: (5 + (if (~2 + (x div 2)) <= 0 then x else 6))
1: ((9x + 1) + (if (~2 + (x div 5)) <= 0 then 1 else x))
1: ((4x + 1) + ((if (~2 + (x div 5)) <= 0 then 2 else 1) + (x div 2)))
1: ((2x + 2) + (if (~2 + (x div 5)) <= 0 then 2 else 1))
1: (1 + ((if (~1 + (x mod 3)) <= 0 then 2 else 0) + (if (x + ~2) <= 0 then 1 else 2) + (x mod 2)))
1: ((x + 4) + (if (x + ~1) <= 0 then 0 else (1 + ((x + 1) div 5))))
1: ((x + 3) + (if (x + ~1) <= 0 then 1 else (((1 + (8 mod (1 + (x div 2)))) div 2) - (x mod 2))))
1: ((3x + 1) + (if (x + ~1) <= 0 then 1 else (2 * ((x + 1) - (((~x2 + x) div 2) div 5)))))
1: ((x + 1) + ((if (x + ~1) <= 0 then x else 2) + ((x div 2) div 3)))
1: ((x + 1) + ((if (x + ~1) <= 0 then x else 2) + (x div 4)))
1: ((x + 3) + (if (x + ~1) <= 0 then x else (2 + (((x + ~1) div 5) mod 2))))
1: ((x + 4) + (if (x + ~1) <= 0 then x else (2 + (((x + ~1) div 5) mod 2))))
1: (3 + ((if (x + ~1) <= 0 then x else 2x) + (x div 5)))
1: ((x + 2) + ((if (x + ~2) <= 0 then 1 else 2) + ((x div 4) mod 2)))
1: ((x + 4) + (if (x + ~2) <= 0 then x else (2 - ((~x + ((x div 2) mod 2)) div 2))))
1: ((x + 5) + (if (x + ~2) <= 0 then x else (2 - (x div ~3))))
1: ((x + 2) + ((if (x + ~4) <= 0 then 1 else 2) + (x div 5)))
1: ((2x + 2) + (if (x div 4) <= 0 then 1 else ((1 + (if (~2 + (x div 2)) <= 0 then x else (x + 2))) div 2)))
1: (4x + (if (x div 8) <= 0 then 1 else (x div (~2 + ((~x + 2) div 4)))))
1: ((x + 4) + ((if ((1 + (x div 2)) mod 6) <= 0 then 0 else 1) + (x div 2)))
1: ((9x + 1) + (if ((x + (x div 2)) mod 4) <= 0 then 1 else 2))
1: (6 + (if ((x + 1) mod 8) <= 0 then 1 else 2))
1: (5 + (if (6 mod (x + 1)) <= 0 then 1 else 2))
1: ((x + 2) + ((if (16 mod (x + 1)) <= 0 then 1 else 0) + (x mod 2)))
1: ((x + 1) + ((if ((x div 2) mod 3) <= 0 then 0 else 1) + (x div 3)))
1: ((x + 2) + ((if ((x div 2) mod 3) <= 0 then 1 else 2) + ((x div ~2) mod 2)))
1: (5 + (if (x mod 3) <= 0 then 1 else 2))
1: (3 + ((if (x mod 4) <= 0 then 0 else (if (x mod (2 + (x mod 2))) <= 0 then 1 else x)) + (x mod 2)))
1: (3x + ((if (x mod 4) <= 0 then 2 else 1) + (x div 3)))
1: ((3x + 1) + (if (x mod 7) <= 0 then 1 else (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))
1: (10x + (if (i mod 3) <= 0 then 2 else 1))
1: ((3x + 2) + (if (if (x mod 5) <= 0 then (x mod 2) else 0) <= 0 then 1 else (x mod 3)))
1: ((x + 2) + ((if x <= 0 then 0 else ((3x + 1) + (x div 3))) + (x div 2)))
1: ((x + 4) + (if x <= 0 then 0 else ((x + 1) + (((~x + 2) div 8) mod 2))))
1: ((x + 4) + (if x <= 0 then 0 else (7 + ((x + ((x mod (1 + (x div 2))) div 2)) div 2))))
1: ((x + 1) + ((if x <= 0 then 0 else (1 + (((x + ~4) div (1 + (x div 2))) mod 2))) + (x div 2)))
1: (1 + ((if x <= 0 then 0 else (if (x mod (1 + (x mod 6))) <= 0 then 2 else 1)) + (x mod 2) + (x div 4)))
1: ((x + 1) + ((if x <= 0 then 0 else loop(\(x,i).2x,(~1 + loop(\(x,i).(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,x)),2,x)),1)) + ((x + 1) div 2)))
1: (6 + (if x <= 0 then 1 else ((x + 1) + ((2 * (4 + (if x <= 0 then 2 else ((x + 2) + (2 * (2 - (x mod 2))))))) div 3))))
1: (6 + (if x <= 0 then 1 else ((x + 2) + ((x * (x div 8)) div 5))))
1: ((x + 4) + (if x <= 0 then 1 else ((x + 4) + (x div (4 + (x div 2))))))
1: ((2x + 2) + (if x <= 0 then 1 else ((2x + ~1) + ((2 * ((4x + ~1) + ((2 * ((2x + 2) + (if x <= 0 then 1 else (2 * (2x + ((x - (x div 4)) div 2)))))) div 3))) div 3))))
1: ((2x + 2) + (if x <= 0 then 1 else ((2x + ~1) + ((2 * (3x + (if x <= 0 then 1 else 5x) - ((~2x + 2) div 9))) div 3))))
1: ((2x + 2) + (if x <= 0 then 1 else ((2x + ~1) + ((2 * ((x + 2) + ((2 * ((x + 1) + (2 * (2x + (2x div 5))))) div 3))) div 3))))
1: (3x + (if x <= 0 then 1 else ((2x + ~1) + ((2 * (2 + (((x + 1) + (if (x mod 4) <= 0 then 2x else (x div 2))) div 2))) div 3))))
1: ((3x + 1) + (if x <= 0 then 1 else (x + ((x + 1) div 2) - (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))))
1: ((2x + 2) + (if x <= 0 then 1 else (6x + (((x + 1) + (x mod 2)) div 5))))
1: (6 + (if x <= 0 then 1 else (2 + ((2 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x)) div 3))))
1: ((2x + 2) + (if x <= 0 then 1 else (6x + (((~x + 1) - (x mod 2)) div 3))))
1: ((2x + 2) + (if x <= 0 then 1 else (4x + ((x - ((~x + 1) div 3)) div 3))))
1: ((2x + 2) + (if x <= 0 then 1 else (6x + (((x + ~1) mod (2 + (x div 2))) div 2))))
1: (3x + (if x <= 0 then 1 else (2x + ((x div (5 * (1 + (x mod 3)))) mod 2))))
1: ((x + 4) + (if x <= 0 then 1 else (2 + loop(\(x,i).((x + ~1) - (if x <= 0 then 0 else i)),x,x))))
1: (6 + (if x <= 0 then 1 else (2 - ((~x + (x mod 2)) div 3))))
1: ((x + 4) + (if x <= 0 then 1 else (5 - ((x div 2) div ~5))))
1: ((x + 4) + (if x <= 0 then 1 else (2 * ((5x + 1) + ((x div 2) + (x div 3))))))
1: ((2x + 2) + (if x <= 0 then 1 else (2 * ((2x + 1) + ((x div 2) + (x div 3))))))
1: ((2x + 3) + (if x <= 0 then 1 else (2 * ((2x + 1) + ((x div 2) + (x div 3))))))
1: ((2x + 2) + (if x <= 0 then 1 else (2 * (x + ((if (~2 + (x div 2)) <= 0 then 1 else 2) + (x mod 2))))))
1: ((2x + 2) + (if x <= 0 then 1 else (2 * ((x + ~1) + ((2 * ((3x + 2) - ((x - ((x + (x div 3)) div 3)) div 2))) div 3)))))
1: ((x + 4) + (if x <= 0 then 1 else (10x + 48)))
1: ((2x + 2) + (if x <= 0 then 1 else (2 * (x + (2 * (x2 div 8))))))
1: ((2x + 2) + (if x <= 0 then 1 else (2 * (6x + ((2x + 1) div 9)))))
1: ((2x + 2) + (if x <= 0 then 1 else (2 * (x + ((x + (((2x + 1) + (((x + 1) + (4 * (2x - (2x div 7)))) div 3)) div 2)) div 2)))))
1: ((x + 4) + (if x <= 0 then 1 else (2 * (1 + ((1 + ((x + loop(\(x,i).((x + 1) * (i * i)),(x + ~1),1)) div 2)) div 2)))))
1: ((2x + 2) + (if x <= 0 then 1 else (2 * (2x + ((x + ((2x - ((x + 2) mod 4)) div 3)) div 2)))))
1: ((2x + 2) + (if x <= 0 then 1 else (2 * (2x + ((x + (x div 3)) div 5)))))
1: ((2x + 2) + (if x <= 0 then 1 else (2 * (4x + ((x + ((x div 2) mod 2)) div 2)))))
1: ((2x + 2) + (if x <= 0 then 1 else (2 * (2x + ((x + ((x div 2) mod 2)) div 2)))))
1: ((2x + 2) + (if x <= 0 then 1 else (2 * (2x + ((x - (x div 4)) div 2)))))
1: ((2x + 2) + (if x <= 0 then 1 else (2 * (x + ((x div 2) div 5)))))
1: ((2x + 1) + (if x <= 0 then 1 else (2 * ((x + ~2) - ((~2x3 + 6x2 + ~4x) div 3)))))
1: ((x + 4) + (if x <= 0 then 1 else (2 * (3x - ((x div 2) div 3)))))
1: (5 + (if x <= 0 then 1 else (2 * (7x - (x div 3)))))
1: ((x + 4) + (if x <= 0 then 1 else (2 * (8x - (x div 3)))))
1: ((2x + 2) + (if x <= 0 then 1 else (2 * ((4x + 1) - loop(\(x,i).(x + (if (~2 + (x div 4)) <= 0 then 1 else 2)),2,x)))))
1: (6 + (if x <= 0 then 1 else (4 * (5x - (x div 3)))))
1: (6 + (if x <= 0 then 1 else (4 * (4x - (x div ~2)))))
1: ((x + 2) + ((if x <= 0 then 1 else (4 * (2x - (x div 3)))) + (x mod 2)))
1: ((2x + 2) + (if x <= 0 then 1 else (2 * (((x + 2) + (((x + 1) div (2 * (1 + (x mod (2 + (x mod 2)))))) div 2) - (x mod 2)) div 2))))
1: ((2x + 2) + (if x <= 0 then 1 else (3 * (((x + 1) - (2 * (~1 + (x mod 4)))) div 2))))
1: (4x + (if x <= 0 then 1 else (2 * ((x + (2 * (x mod 2))) mod (1 + (x div 2))))))
1: (4x + (if x <= 0 then 1 else ((2 * (4x - (3x div 5))) div 3)))
1: (2x + ((if x <= 0 then 1 else (x div 3)) + loop(\(x,i).(2x + 2),x,1)))
1: ((2x + 1) + (if x <= 0 then 1 else loop(\(x,i).(~1 + (if x <= 0 then ((1 + ((1 + i) * i)) * i) else x)),x,0)))
1: (1 + ((if x <= 0 then 1 else x) + (x div 2) + (x div 3)))
1: (3x + (if x <= 0 then 1 else compr(\x.((x * ((x div 2) div 3)) mod 2),x)))
1: ((2x + 2) + (if x <= 0 then 2 else (1 + (2 * ((x + 1) div (~x + 17))))))
1: (3x + (if x <= 0 then 2 else (1 + (((x2 + ~x) div 3) div 7))))
1: (3x + (if x <= 0 then 2 else loop(\(x,i).(x - (x div 12)),2,x)))
1: (6 + (if x <= 0 then 2 else loop(\(x,i).x3,1,14)))
1: ((x + 4) + (if x <= 0 then x else (2 - ((~x + 2) div 5))))
1: ((2x + 2) + loop(\(x,i).((2x + 1) + (loop(\(x,i).(1 + (4 * (x + (x mod 2)))),x,0) + (x mod 2))),(x + ~1),(x mod 2)))
1: (5 + loop(\(x,i).((x + 2) + (2x div (2 + (3 * (if (~2 + (x div 2)) <= 0 then 1 else 2))))),x,1))
1: ((2x + 2) + loop(\(x,i).((x + 1) + (x div 4)),2,x))
1: ((3x + 1) + loop(\(x,i).((x + 2) + (x div (4 + i))),2,x))
1: (3x + loop(\(x,i).(7x + loop(\(x,i).(5x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (3x + loop(\(x,i).(7x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (3x + loop(\(x,i).(9x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (3x + loop(\(x,i).(7x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (3x + loop(\(x,i).(9x + loop(\(x,i).(12x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (10x + loop(\(x,i).(5x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1))
1: ((2x + 1) + (loop(\(x,i).(1 + (4 * (x + (x mod 2)))),x,0) + (x mod 2)))
1: (3x + loop(\(x,i).(x + ((1 + i) * i)),i,0))
1: ((2x + 1) + loop(\(x,i).((loop(\(x,i).(x * i),x,2) div (x + 1)) + (x * i)),x,1))
1: (5x + (loop(\(x,i).(2 + (x div 2)),(x + ~8),1) + ((x + 1) div 3)))
1: ((2x + 1) + loop(\(x,i).(x + (x div ((2 + i) * (1 + i)))),2,x))
1: (3x + loop(\(x,i).(x + loop(\(x,i).(4x - ((x - (x div 5)) div 3)),1,i)),x,1))
1: ((x + 4) + loop(\(x,i).(x + loop(\(x,i).compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),(x + 1)),1,i)),x,1))
1: (3x + loop(\(x,i).((~x + 2) + (x div 5)),2,x))
1: ((x + 4) + loop(\(x,i).(2x - ((~1 + i) div 2)),x,1))
1: ((x + 3) + loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,(6x + 2)))
1: (6 + loop(\(x,i).((x + 1) - (((~x + 2) div 2) div 3)),x,1))
1: ((2x + 2) + loop(\(x,i).(x - (2 * (~x + i))),x,2))
1: ((2x + 2) + loop(\(x,i).(x - ((~1 + (x div 4)) div 2)),2,(x + ~1)))
1: (2x + (loop(\(x,i).(x - (x div 8)),2,(x + ~1)) + ((x + 1) div 3)))
1: (2 + (loop(\(x,i).3x,(x + ~1),1) + loop(\(x,i).2x,x,1)))
1: (5 + loop(\(x,i).3x,x,1))
1: (4 + (loop(\(x,i).3x,x,1) + loop(\(x,i).2x,x,1)))
1: (5x + (loop(\(x,i).3x,x,1) + loop(\(x,i).2x,x,1)))
1: (4 + (loop(\(x,i).3x,x,2) + loop(\(x,i).2x,x,1)))
1: (3x + (loop(\(x,i).3x,x,2) + loop(\(x,i).4x,x,1)))
1: ((x + 1) + (loop(\(x,i).3x,x,2) + loop(\(x,i).2x,x,1)))
1: ((x2 + 3x + 3) + (loop(\(x,i).3x,x,3) + loop(\(x,i).2x,x,2)))
1: (5 + loop(\(x,i).5x,x,1))
1: (1 + (loop(\(x,i).5x,x,1) + loop(\(x,i).3x,x,1) + loop(\(x,i).7x,x,1)))
1: (loop(\(x,i).5x,x,1) + loop(\(x,i).3x,x,1) + loop(\(x,i).7x,x,1) + loop(\(x,i).2x,x,1))
1: (loop(\(x,i).5x,x,1) + loop(\(x,i).3x,x,1) + loop(\(x,i).4x,x,1) + loop(\(x,i).6x,x,1))
1: (2 + (loop(\(x,i).5x,x,1) + loop(\(x,i).4x,x,1) + (loop(\(x,i).4x,x,1) div 2)))
1: (4 + (loop(\(x,i).(x2 + x),1,(1 + loop(\(x,i).2x,x,1))) + loop(\(x,i).3x,x,1)))
1: (1 + (loop(\(x,i).(x2 + x),1,loop(\(x,i).3x,x,1)) + loop(\(x,i).5x,x,1) + loop(\(x,i).7x,x,1)))
1: (1 + (loop(\(x,i).(x2 + x),1,loop(\(x,i).2x,x,1)) + loop(\(x,i).3x,x,1) + loop(\(x,i).5x,x,1)))
1: (5 + loop(\(x,i).10x,x,1))
1: ((2x + 2) + loop(\(x,i).(10x + 20),x,0))
1: (2x + (loop(\(x,i).4x,(~1 + i),1) + (x mod 2)))
1: (3x + loop(\(x,i).4x,(~1 + i),1))
1: (3 + (loop(\(x,i).4x,x,2) + loop(\(x,i).2x,x,1)))
1: (5 + loop(\(x,i).6x,x,1))
1: (3x + loop(\(x,i).~4x,(~1 + i),1))
1: (5 + loop(\(x,i).2x,(~x + 2),(x + 5)))
1: (6 + (loop(\(x,i).2x,(x + ~1),2) + loop(\(x,i).(2x + 2),x,1) + loop(\(x,i).3x,x,1)))
1: (3 + (loop(\(x,i).2x,(x div 2),(2 + (x mod 2))) + loop(\(x,i).2x,x,1)))
1: (4 + (loop(\(x,i).2x,(x div 2),(2 + (x mod 2))) + loop(\(x,i).2x,x,1)))
1: (3 + (loop(\(x,i).2x,x,1) + (x mod 2)))
1: (3 + (loop(\(x,i).2x,x,2) + loop(\(x,i).3x,x,1)))
1: ((2x + 1) + loop(\(x,i).x2,1,((x2 + 5x) div 2)))
1: (5 + loop(\(x,i).x2,2x,2))
1: (5 + loop(\(x,i).x2,x,2))
1: (6 + loop(\(x,i).(x * i),x,loop(\(x,i).(x + loop(\(x,i).(x * i),i,2)),x,1)))
1: (6 + loop(\(x,i).((x2 + 2x) div 2),1,loop(\(x,i).2x,x,1)))
1: ((3x + 1) + loop(\(x,i).((x2 + ~x) div (x + 2)),2,x))
1: ((x + 4) + loop(\(x,i).((x2 + ~x) div (1 + i)),2,(x + 3)))
1: ((2x + 1) + loop(\(x,i).(if x <= 0 then 0 else (~1 + (2 * (x2 div 2)))),2,x))
1: ((2x + 1) + loop(\(x,i).(if x <= 0 then i else (x + ~1)),(x + ~2),0))
1: ((3x + 1) + loop(\(x,i).loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),x,x),1,3x))
1: (3x + loop(\(x,i).loop(\(x,i).(~1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),x,x),1,3x))
1: ((3x + 2) + i)
1: (5 + compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,7x)),x))
1: ((x + 3) + compr(\x.(1 - (x mod (1 + (2 * (x div (2 + ((x div 2) div 3))))))),x))
1: ((2x + 3) + compr(\x.(1 - (x mod (1 + ((1 + (x mod (1 + (2 * (2 + ((2x + 2) mod 9)))))) mod (x + 1))))),x))
1: (6 + compr(\x.(1 - (x mod (1 + (x mod 6)))),x))
1: ((x + 3) + compr(\x.(~1 + ((x div 2) mod (1 + (if (x mod 2) <= 0 then 6 else 1)))),x))
1: ((x + 4) + compr(\x.((x + 2) mod (1 + (x div 4))),x))
1: ((x + 1) + (compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x) + (2 * (x mod 2))))
1: (2 + (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x) + (if x <= 0 then 0 else 1)))
1: ((x + 2) - (2x div (~2 + (x div ~3))))
1: (2 + (x mod 2) - (2 * (if (x mod (1 + (2 * (x div (2 * (2 + (x mod 2))))))) <= 0 then 1 else 2)))
1: ((2x + 1) - (((~x + 1) - (4 * (if (x + ~2) <= 0 then 0 else 2))) div 5))
1: (5 - ((~x + (x2 mod 3)) div 2))
1: ((2x + 1) - (((x mod 2) - ((x - ((x2 + 2x) div 3)) div 2)) div 2))
1: ((2x + 1) - ((2 * (1 + ((1 + (x div (1 + (loop(\(x,i).(5x + ~2),x,1) mod (x + 1))))) div 2))) div 3))
1: ((2x + 3) - ((2 * (~x + (x2 div 3))) div (x + 6)))
1: ((x + 3) - (((1 + (x2 mod (3 * (if (x + ~6) <= 0 then 1 else 2)))) div 2) div 2))
1: ((x + 3) - ((((~1 + (6 * (1 + (((~1 + (6 * (1 + ((1 + (if ((x + 1) mod (3 - (x mod 2))) <= 0 then x else 1)) div 2)))) div 2) div 2)))) div 2) div 2) div 2))
1: ((4x + 5) - (x div (~3 + ((~x + 2) div 4))))
1: (2 + (x div 3) - ((x2 + 2x) mod 7))
1: ((3x + 1) - ((10 mod (1 + ((x + 1) div 2))) mod 2))
1: (2 + (x mod 2) - (x mod (4 * (2 - (x mod 2)))))
1: (3 + (x div 3) - ((~x + 1) div (1 + (x div 3))))
1: ((x + 2) + ((1 + (x div 3)) div 2) - ((~x + 1) div (2 + (x div 4))))
1: ((x + 2) + ((1 + (x div 3)) div 2) - ((~x + 2) div (2 + (x div 2))))
1: (4 + ((x + 1) div 3) - ((~x + 2) div (2 - (x div ~4))))
1: (5 - ((~x + ((x mod 3) div 2)) div 2))
1: ((2x + 6) - (((((x + ~1) div 2) div 2) * (x div 4)) div 2))
1: (5 - (((1 + (x div 2)) div 2) div 2))
1: ((x + 4) - (((3 * (2 + (x2 div 32))) div 2) div 2))
1: (4 + (x mod 2) - (((x + ~1) mod (4 + ((x div 2) div 3))) div 2))
1: (6 - ((x mod (2 + (x mod 2))) div 2))
1: (4 + (if x <= 0 then 0 else 1) - ((x mod (2 + (x mod 2))) div 2))
1: ((4x + 3) - (x div 2))
1: (4 + (x mod 3) - (x div 4))
1: ((10x + 4) - ((2x + 2) mod 5))
1: ((x + 4) - ((x2 div 2) mod (3 * (1 + (if (x mod 2) <= 0 then 6 else 0)))))
1: (6 - ((x div 2) mod 2))
1: ((3x + 2) - (loop(\(x,i).(if x <= 0 then 0 else (1 + (if (~2 + (x div 2)) <= 0 then x else (x + 2)))),2,x) mod 3))
1: (3 + (x mod 3) - (x mod 2))
1: (6 - (x mod 4))
1: (4 + (if x <= 0 then 1 else 2) - (x mod 4))
1: (3 + ((1 + (x div 2)) div 2) - (x mod 4))
1: ((x + 4) - (x mod (4 + ((x mod (2 + ((x + 1) mod 4))) div 2))))
1: (6 - (x mod (1 + ((x + ~1) mod 9))))
1: ((x + 4) - (x mod (1 + (((x + (if (x mod 3) <= 0 then 7 else (x div 2))) div 3) mod 3))))
1: ((2x + 2) - (x mod (~1 + ((~x + 1) div 2))))
1: (6 + (2 * (1 + (2 * (2 + (2 * (1 + (2 * ((2x + 2) - (x mod 2))))))))) - (x mod 2))
1: ((x + 3) + ((1 + ((x * (x div 2)) div 4)) div 5) - (x mod 2))
1: ((2x + 2) + ((x + (x div 2)) div 2) - (x mod 4))
1: ((2x + 1) + ((1 + (x div 4)) div 2) - (x mod (1 + (x div 4))))
1: ((x + 2) + ((2 * (1 + ((1 + (x div (1 + (x mod (1 + ((1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x)) mod (x + 1))))))) div 2))) div 3) - (x mod 2))
1: ((x + 2) + (((x + 1) div (2 * (1 + (x mod (2 + (x mod 2)))))) div 2) - (x mod 2))
1: ((3x + 2) + ((x div 2) div 3) - (x div 7))
1: ((x + 4) + (x div 3) - ((~x + 1) div (1 + (x div 3))))
1: ((~x + 13) + (x div 3) - (x mod 2))
1: ((2x + 2) - ((((x + 1) div 2) div 3) + (5 * ((~x + ~2) + (x mod 2)))))
1: ((2x + 33) + (2 * (2 + (6 * (x div 3)))) - (x mod 2))
1: (3 + (2 * (x + (x div 2))) - (x mod 4))
1: ((4x + 5) - ((~x + 2) div (4 + (x mod 2))))
1: ((x2 + 2x + 1) - (x2 div (x + 24)))
1: ((3x + 6) - ((((x + ~2) mod (1 + (x div 2))) mod 3) mod 2))
1: ((3x + 5) - (x mod (~4x + 7)))
1: ((x + 2) + (2 * (4x - ((2x + 1) div 7))) - (((x + 1) div 2) div 2))
1: ((9x + 4) + (((x + 1) div 2) div 2) - ((x + (x div 3)) div 5))
1: (8x2 + 26x + 11)
1: ((4x + 3) - ((x - (x div 4)) div 2))
1: ((5x + 1) - ((2x + 2) div (4 + ((x div 2) div 3))))
1: ((5x + 1) - ((i mod 3) div 2))
1: ((4x + 4) - (x div (~3 + ((~x + 2) div 4))))
1: ((6x + 4) - ((4x + ((x + 1) mod 4)) div 5))
1: ((10x + 1) - ((i mod 3) mod 2))
1: ((7x + 1) - ((i mod 3) mod 2))
1: ((2x2 + 3) - (x mod 2))
1: (2x + (3 * (if (~2 + (x div 5)) <= 0 then 1 else 2)) - (x mod 2))
1: ((x + 1) + (2 * loop(\(x,i).(x - ((~x + (x mod 2)) div 3)),x,2)))
1: ((3x + 3) - ((x2 + 2x) div (2x - ((~x + 2) div 2))))
1: ((2x + 3) - (((x mod 4) + (x div 2)) div 2))
1: ((2x + 4) - ((~x + ((x div 2) div ~2)) div 2))
1: ((2x + 3) - (((2 + (x * (x + (x div 2)))) div (x + 2)) div 2))
1: ((2x + 3) - (((x2 + 1) div (x + 8)) div 2))
1: ((3x + 1) - ((((x + 1) - ((x div 2) mod 5)) div 2) div 2))
1: ((3x + 1) - ((x div 4) + (x div 7)))
1: ((2x + 1) + (x div 3) - (x div 4))
1: ((2x + 3) - (x div 8))
1: ((2x + 2) + (x div 5) - (x div 12))
1: ((2x + 1) + (x div 11) - ((x + 1) mod 3))
1: ((2x + 1) + (x div 3) - ((x + 1) mod 3))
1: ((2x + 2) + (2 * (1 + (x div 4))) - ((x * (x div 2)) mod 2))
1: ((3x + 2) - ((i mod 3) mod 2))
1: ((2x + 1) + (x div 8) - (x mod 2))
1: ((2x + 1) + ((x div 3) mod 2) - (x mod 2))
1: ((2x + 3) - (x mod 4))
1: ((2x + 1) + (x div 3) - (x mod ~3))
1: ((2x + 2) + ((x + 1) div 3) - (x mod 6))
1: ((2x + 3) - (x mod 8))
1: (2 + (2 * compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: ((x + 2) + ((x + 1) div 2) - (x div (2 + ((x * (x div 2)) mod 2))))
1: (2x + ((2 * ((3x + 4) + loop(\(x,i).(x - ((~1 + (x div 4)) div 2)),2,(x + ~1)))) div 3))
1: ((x + 1) + ((2 * ((2x + 2) + (if x <= 0 then 1 else (2 * (4x + ((x + ((x div 2) mod 2)) div 2)))))) div 3))
1: ((2x + ~1) + (((2 * ((2x + 2) + (if x <= 0 then 1 else (2 * (2x + ((x + ((x div 2) mod 2)) div 2)))))) div 3) + ((x + 1) div 3)))
1: ((3x + ~1) + ((2 * ((2x + 2) + (if x <= 0 then 1 else (2 * (2x + ((x - (x div 4)) div 2)))))) div 3))
1: ((x + 1) + ((2 * ((x + 1) + (2 * (x - ((~x2 + 1) div (x + 4)))))) div 3))
1: ((x + 1) + ((2 * (4 + (if x <= 0 then 2 else ((x + 2) + (2 * (2 - (x mod 2))))))) div 3))
1: ((3x + ~1) + ((2 * (2 + ((1 + (5 * ((x + ((x div 2) mod 2)) div 2))) div 3))) div 3))
1: ((x + 1) + ((4 * (x + (if (~2 + (x div 2)) <= 0 then 1 else 2))) div 3) - (x mod 2))
1: ((3x + ~1) + ((2 * (2 + (if x <= 0 then 1 else (2 * (3x + ((x - (x div 12)) div 2)))))) div 3))
1: (2x + ((x2 + x) div 2) - loop(\(x,i).(2x + ~6),x,0))
1: ((x + 1) + ((3 * ((1 + (x * (x div 2))) div 3)) div 2) - (x mod 2))
1: ((x + 2) + (2x div 3) - ((x + (x mod 2)) div 5))
1: (3 + (2x div (2 + (((x + 1) div 2) div 3))) - (x mod 2))
1: (3 + ((x mod 3) div 2) - (x mod 2))
1: ((x + 2) + (x div 2) - (((2 * (if (~2 + (x div 4)) <= 0 then 0 else 2)) - (x div 2)) div 3))
1: (3 + (x div 2) - (~2x div (1 + (x div 2))))
1: (4 + (x div 2) - (~2x div (1 + (x div 2))))
1: ((x + 2) + (x div 2) - (~2x div (1 + (x div 2))))
1: (4 + (x div 2) - (x div (~1 + ((~x + 1) div 3))))
1: (3 + (x div 2) - ((x * (x div 2)) mod 2))
1: ((x + 1) + (x div 2) - ((x div 4) mod 2))
1: (3 + (x div 2) - (x mod 2))
1: (1 + ((x div 2) + ((x mod 3) div 2)) - (x mod 2))
1: ((2x + 5) + (x div 2) - (x mod 4))
1: ((2x + 3) + (x div 2) - (x mod 4))
1: (2 + ((x div (1 + (2 * (2 + (x mod 2))))) + (if x <= 0 then 0 else 1)) - ((x div 2) mod 2))
1: (1 + (((1 + (x mod 5)) mod 2) + ((x div 2) mod 2)) - (x mod 2))
1: ((x + 1) + ((x - (((3 * (x div 2)) div 2) div 2)) mod 2) - (x mod 2))
1: (4 + (((x + 2) div (1 + (x mod 3))) mod 2) - (x mod 2))
1: ((2x + 1) + (x mod 2) - (x div ~8))
1: ((2x + 1) + (x mod 2) - ((x div (1 + (if (x mod 4) <= 0 then 0 else 2))) mod 2))
1: ((x + 1) + (if (x + ~2) <= 0 then 1 else x) - ((x - ((x mod 3) div 2)) div 2))
1: ((9x + ~1) + (if ((x + 2) mod 6) <= 0 then 0 else 1))
1: ((x + 1) + (if ((x div 2) mod 3) <= 0 then 2 else 1) - (x mod 2))
1: (2x + (if x <= 0 then 1 else 5x) - ((~2x + 2) div 9))
1: (2x + (if x <= 0 then 1 else 4x) - (2 div (16 div (x + 1))))
1: (x + ((if x <= 0 then 1 else 4x) + ((x + 1) div 3)) - ((2 * (2x div (4 + (x div 8)))) div 3))
1: (1 + (loop(\(x,i).(x * ((~1 + (2 * i)) * i)),x,1) + (x mod 2)) - loop(\(x,i).2x,x,1))
1: ((4x + 2) + loop(\(x,i).2x,((x + 2) + (x div 4)),2))
1: (3 + loop(\(x,i).2x,x,1) - loop(\(x,i).3x,x,1))
1: ((x + 3) + ((1 + (x div 3)) div 2) - ((~x + 1) div (2 + (x div 2))))
1: ((2x + 3) - ((((x div 2) mod 2) - (if (~x + 2) <= 0 then x else 0)) div 2))
1: ((3x + 1) - ((2 * (2 + (if x <= 0 then 1 else (2 * (4x - ((~x + ((x div 2) mod 2)) div 3)))))) div 3))
1: ((x + 3) + (x div 5) - (x div (~1 + (x div ~2))))
1: ((3x + 1) - ((1 + (x mod (~2 - (x div 3)))) mod 2))
1: ((3x + 2) - (loop(\(x,i).3x,x,1) mod loop(\(x,i).(2x2 + x),2,2)))
1: ((2x + 1) + (x div 3) - (x mod 10))
1: ((x + 4) - (2 * ((2 + (x2 div 3)) div (x + 1))))
1: ((x + 3) - (2 * ((x + ((x div 2) div 3)) div ~2)))
1: ((x + 1) + (x mod 2) - (3 * (2x div (8 + (x mod 2)))))
1: ((x + 1) + (x div 5) - (2 * (x div ~5)))
1: ((x + 3) - (2 div (x + ~16)))
1: ((x + 2) + (if x <= 0 then 1 else 4x) - (4 div (if (~2 + (x div 2)) <= 0 then 2 else (x + ~2))))
1: ((x + 4) - ((~x + 3) div (2 + (x div 8))))
1: ((x + 4) - ((1 + ((x2 div 4) div 5)) div 2))
1: ((x + 3) - ((x + 2) div (12 - (x div 2))))
1: ((x + 4) - ((0 - (if (~x + 2) <= 0 then (x div 2) else 1)) div 3))
1: ((2x + 2) - ((~x2 + 1) div ((x + 2) + (x div 3))))
1: ((x + 4) - ((~x + 1) div (1 + ((x + 1) div 5))))
1: ((x + 1) + (x div 7) - ((~x + 1) div (2 + (x div 2))))
1: ((x + 1) + (x div 9) - ((~x + 1) div (2 + (x div 2))))
1: ((3x + 2) - ((2 - ((2 + ((x div 2) mod 2)) mod (1 + (x div 2)))) div 2))
1: ((x + 3) - ((~x + 2) div (2 - (x div ~8))))
1: ((x + 3) - ((((~x + 1) div 3) - (x div 2)) div 2))
1: ((3x + 1) - ((~x + ((~2 + (x div 2)) div 3)) div 2))
1: ((x + 3) - ((~x + (x div 12)) div 2))
1: ((x + 3) - ((~x + ((x + 1) mod 6)) div 4))
1: ((x + 4) - ((~x + loop(\(x,i).i,(x div 4),2)) div 2))
1: ((x + 4) - ((x + ~2) div (~6 + (x div 4))))
1: ((x + 4) - ((x - ((0 - (x div 4)) mod 3)) div 2))
1: (3x - ((x2 + 2x) div (2x - ((~x + 2) div 2))))
1: ((x + 2) + (x div 2) - ((2 * (1 - (x div 2))) div 5))
1: ((x + 4) - ((~2x + 2) div (4 + (x div 2))))
1: ((2x + 3) - ((3 * (~x + ((~2x + 2) div 5))) div 2))
1: ((x + 4) - ((2 * (~x + (x2 div 3))) div (x + 3)))
1: ((x + 4) - (((~x + 1) * (x div 3)) div 2))
1: ((x + 4) - (2x div (~2 - (x div 4))))
1: ((2x + 2) - (x2 div (6 + ((x2 + ~x) div 11))))
1: ((x + 4) - (x2 div ((x + 10) + (x div 4))))
1: ((2x + 2) - (x2 div ((x + 3) - ((x - (x div 5)) div 3))))
1: ((x + 3) - (x2 div (2x + 25)))
1: ((2x + 1) - (x2 div (3x + 4)))
1: ((x + 3) - (x2 div ((2x + 12) - (x div 3))))
1: ((x + 3) - (x2 div ((2x + 4) - (x div 3))))
1: ((x + 3) - ((x2 div 2) div (3 + (x div 2))))
1: ((x + 4) - ((x div 2) div (~4 + (x mod 2))))
1: ((x + 3) - (((x + ~1) mod (1 + (x div 2))) div 2))
1: ((2x + 2) - ((x mod (2 + ((x div 4) mod 3))) div 2))
1: ((x + 4) - (x div 4))
1: ((x + 1) + ((x + 1) div 3) - (x div ~2))
1: ((x + 9) - (x div ~9))
1: ((x + 14) - (x div ~13))
1: ((x + 3) - (x div (x + ~19)))
1: ((x + 1) + (x mod 2) - (x div (x - (3 * (((x + ~1) div 2) div 2)))))
1: ((x + 14) - (x div ~14))
1: ((x + 4) - (2 mod (~3x + 7)))
1: ((2x + 2) - (3 mod (1 + (x div 3))))
1: ((3x + 2) - (((x - (x div 4)) div 2) mod (~4x + 1)))
1: ((x + 2) + ((x + 1) div 2) - ((2x2 mod (2 + (x div 2))) mod 2))
1: ((x2 + 2x + 1) - ((x mod 10) mod (if x <= 0 then 1 else x)))
1: ((2x + 2) - (loop(\(x,i).2x,x,1) mod 9))
1: ((x + 4) - (if (x + ~2) <= 0 then 1 else (2x div 5)))
1: ((x + 4) - loop(\(x,i).(x - (if (x mod 2) <= 0 then ((if x <= 0 then 2 else x) div 2) else 1)),x,(x + 1)))
1: ((x + 2) + i - ((~x + 1) div (2 + (x div 3))))
1: (4 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) - (x mod 2))
1: ((x + 6) + (x div 3))
1: ((3x + 1) + (x mod 3))
1: ((x + 8) + (if x <= 0 then 0 else 1))
1: ((x + 8) + (if x <= 0 then 1 else 2))
1: (x2 + 13)
1: ((5x + 5) + (((x div 2) div 3) + (x div 7)))
1: (3 + (5 * (x div 2)))
1: ((x + 1) + (5 * (x div 2)))
1: ((x + 2) + (5 * (x div 2)))
1: ((5x + 2) + (if (x + ~4) <= 0 then 1 else 0))
1: ((5x + 1) + ((1 + i) mod 3))
1: ((5x + 1) + (2x mod 3))
1: ((5x + 1) + ((x div ~2) mod 2))
1: ((5x + 1) + (i mod 3))
1: ((x + 1) + (5 * i))
1: ((x + 3) + (2 * ((3x + 3) - ((1 + (x mod (~2 - (x div 3)))) mod 2))))
1: ((x + 1) + (2 * ((2x + 2) + (((5 * ((2x + 1) - ((~x + ((x + ~2) div 3)) div 3))) div 2) div 3))))
1: (1 + ((2 * ((x + 2) + ((if x <= 0 then 0 else ((3x + 1) + (x div 3))) + (x div 2)))) + (if x <= 0 then 1 else 2x)))
1: ((5x + 26) + (x div 5))
1: ((12x + 74) + (x div 3))
1: ((9x + 82) + (x div 9))
1: (4 + (3 * (5 + (3 * (4 + (((3 * (1 + ((2 - (x mod 2)) mod (1 + (if (~1 + (x mod 3)) <= 0 then 2 else 0))))) mod 5) div 2))))))
1: (1 + ((2 * ((7x + 3) + (x div 3))) + (if x <= 0 then 0 else 1)))
1: ((x + 1) + (2 * ((x + 1) + (5 * (x + (x div 4))))))
1: (1 + ((3 * ((x + 1) + (2 * (2x + (x mod 2))))) + (x div 2)))
1: (2x2 + 3x + 21)
1: ((2x + 1) + (3 * ((x + 1) + (3 * ((x + (x div 2)) div 4)))))
1: ((x + 3) + (2 * ((x + 2) + (5 * (x div 4)))))
1: ((x + 1) + (2 * ((x + 1) + (((x + 1) + (((2x + 1) + (2 * (((x + 1) + (2 * ((1 + (loop(\(x,i).((x + 1) + loop(\(x,i).2x,x,1) - (x mod 2)),x,1) div 2)) div 2))) div 2))) div 3)) div 2))))
1: ((x + 1) + (2 * ((x + 1) + (((x + 1) + (((x + 1) + ((2 * (x3 div (x + 2))) div 3)) div 2)) div 2))))
1: (2x + (5 * ((x + 2) + ((x + ((x mod (1 + (x div 2))) div 2)) div 2))))
1: (1 + ((2 * ((x + 2) + ((x - ((x + (x div 3)) div 3)) div 2))) + ((x + 1) div 2)))
1: ((x + 1) + (2 * ((x + 2) + ((x - ((~x + 2) div 4)) div 2))))
1: ((x + 2) + (x * (3 + ((x - ((x div 2) mod 2)) div 2))))
1: ((x + 1) + (2 * ((x + 1) + ((2 * (1 + ((2 * (1 + (2 * (2x - (2x div 7))))) div 3))) div 3))))
1: ((x + 1) + (2 * ((x + 1) + ((2 * (1 + (6 mod (1 + (x div 2))))) div 3))))
1: ((x + 1) + (2 * ((x + 1) + ((x3 + 9x2 + 8x) div 3))))
1: ((x + 1) + (2 * ((x + 1) + (((3 * ((2x + 1) + (2 * ((3 * (x + ((x div 2) div 5))) div 2)))) div 2) div 2))))
1: ((x + 2) + (3 * (4 + ((x div 2) div 5))))
1: (5 + (3 * (4 + (((3 * (1 + ((2 - (x mod 2)) mod (1 + (if (~1 + (x mod 3)) <= 0 then 2 else 0))))) mod 5) div 2))))
1: ((x + 1) + (((2x + 2) + (x div 2)) * (x div 2)))
1: (3 + (((x + 1) + (x div 2)) * ((x + 1) div 2)))
1: ((x + 1) + (3 * (4 + (x div 9))))
1: ((x + 3) + (2 * (4 + (x div 8))))
1: ((x + 1) + (3 * (4 + (x div 8))))
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1: ((x + 1) + (2 * (x mod 9)))
1: ((x + 1) + (2 * (x mod (x - ((x + ~1) mod 8)))))
1: (1 + ((9 * (x mod (x - ((x + ~1) mod 8)))) + (x mod 9)))
1: ((x + 1) + (3 * (x mod 8)))
1: (x + ((2 * (if (~x + 2) <= 0 then 4 else 1)) + (x div 2)))
1: ((x + 1) + (2 * (if (~4 + (x div 2)) <= 0 then 1 else (x div 3))))
1: ((x + 2) + (2 * (if (~2 + (x div 2)) <= 0 then 1 else 12)))
1: (4 + (3 * (if (x + ~1) <= 0 then 1 else 16)))
1: (4 + ((if (x + ~1) <= 0 then 2 else ((x + 1) div 2)) * (1 + (x div 2))))
1: (4 + (x * (if (x + ~2) <= 0 then 1 else x3)))
1: ((x + 1) + (2 * (if (x + ~2) <= 0 then 2 else (x div 2))))
1: (4 + ((x + 1) * (if (x + ~2) <= 0 then x else (x2 + 2x))))
1: ((x + 2) + (2 * (if (x + ~4) <= 0 then 1 else 4)))
1: ((x + 3) + (2 * (if (x + ~4) <= 0 then 1 else x)))
1: ((x + 1) + (9 * (if (x + ~12) <= 0 then 0 else 2)))
1: ((x + 1) + ((if ((x + ~1) mod 3) <= 0 then 1 else x) * (x mod 2)))
1: ((x + 3) + (3 * (if ((x div 3) mod 3) <= 0 then 4 else 1)))
1: ((3 * (if (x mod 2) <= 0 then (3 * (if (x mod 4) <= 0 then (2 * (2 + (if x <= 0 then 0 else 2))) else 1)) else 1)) + (if x <= 0 then 1 else 2) + (x mod 2))
1: ((x + 2) + (5 * (if (x mod 2) <= 0 then (x div 2) else 2x)))
1: (4 + ((x + 1) * (if (x mod 2) <= 0 then (if x <= 0 then 1 else x) else 2)))
1: ((x + 1) + ((if (x mod 3) <= 0 then 1 else x) * (1 + (x mod 2))))
1: (1 + ((2 * (if (x mod 3) <= 0 then 2 else (x mod 2))) + (x mod 2)))
1: ((x + 1) + (3 * (if x <= 0 then 0 else 2)))
1: (1 + ((2 * (if x <= 0 then 0 else (1 + ((x div (2 + (x div (1 + ((x mod (1 + ((2 - (x mod 4)) mod (x + 1)))) div 2))))) + (x mod 2))))) + (x mod 2)))
1: (3 + (2 * (if x <= 0 then 0 else (1 + (x * (2 + loop(\(x,i).x2,(x + ~1),2)))))))
1: ((x + 1) + (3 * (if x <= 0 then 0 else (3 * (1 + (x div 2))))))
1: (1 + ((2 * (if x <= 0 then 1 else x)) + ((x div 2) mod 2)))
1: ((x + 1) + (2 * loop(\(x,i).((x + 2) + ((4 + i) * i)),x,1)))
1: ((x + 1) + (2 * loop(\(x,i).(x + (2 * ((2 + i) * (~1 + i)))),x,0)))
1: (2 + (((x + 1) * loop(\(x,i).(x3 + 1),2,2)) + (x div 2)))
1: (1 + ((x * loop(\(x,i).(1 + (x * (i * i))),x,2)) + (x div 2)))
1: ((x + 1) + ((x2 + x + 1) * loop(\(x,i).(1 + (x * i)),x,1)))
1: ((x + 1) + (2 * loop(\(x,i).(x + (i * i)),x,x)))
1: (6 + (2 * loop(\(x,i).(x + loop(\(x,i).x2,1,(2 + (i div 2)))),x,1)))
1: ((x + 1) + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (((x + 1) div 2) div 2)))
1: ((x + 1) + (2 * loop(\(x,i).(x - (if x <= 0 then 1 else (if (x mod (1 + i)) <= 0 then 2 else 1))),x,x)))
1: ((x + 2) + (3 * loop(\(x,i).(i - ((1 + i) mod (x + 1))),x,0)))
1: ((x + 1) + (x * loop(\(x,i).(7 * i),(x + ~1),x)))
1: ((2x + 1) + (2 * loop(\(x,i).(3x2 + 16x + 16),2x,3)))
1: ((x + 1) + (2 * loop(\(x,i).(2 * (1 + loop(\(x,i).(2x * (2 + i)),4x,1))),x,1)))
1: ((x3 + x2 + ~1) + (loop(\(x,i).(2x + 2),x,2) * (if (x + ~1) <= 0 then 3 else 0)))
1: ((x2 + x + 2) + (3 * loop(\(x,i).(2x + 4),(x + 1),2)))
1: ((x + 1) + (2 * loop(\(x,i).(x * (2 - (x div (2 + i)))),x,2)))
1: ((x + 1) + (3 * loop(\(x,i).(x * (2 - (x div (2 + i)))),x,2)))
1: ((x + 1) + (2 * loop(\(x,i).(2x + ~2),x,(~1 + loop(\(x,i).4x,x,4)))))
1: (1 + ((2 * loop(\(x,i).(2x + ~4),(x + ~2),x)) + (x div 2)))
1: ((2x + 1) + (2 * loop(\(x,i).(4 * (if (x mod 2) <= 0 then 12 else 1)),x,1)))
1: ((x + 1) + (2 * loop(\(x,i).(9 * (if x <= 0 then 1 else (2 + (x mod 2)))),(x div 2),(x mod 2))))
1: ((x + 1) + (3 * loop(\(x,i).x2,2,(x + 1))))
1: ((x2 + 1) + (2 * loop(\(x,i).(i * i),(x + ~2),0)))
1: (1 + ((3 * loop(\(x,i).((x2 + x) div 2),1,loop(\(x,i).2x,x,1))) + loop(\(x,i).3x,x,1)))
1: ((x + 2) + (3 * loop(\(x,i).(if x <= 0 then i else (x div 2)),x,0)))
1: ((x + 1) + (9 * loop(\(x,i).i,(x + ~9),1)))
1: ((x + 1) + (9 * loop(\(x,i).i,(x + ~8),1)))
1: ((x2 + 1) + (2 mod (x + 1)))
1: ((x2 + 2) + (if x <= 0 then 1 else 2))
1: ((x2 + 2) + (x div 2))
1: ((x2 + 2) + (x mod 2))
1: (x2 + ((x mod 2) + (x mod 3)))
1: (1 + ((x * i) + (i div 2)))
1: ((3x + ~1) + (i * i))
1: (x + ((i * i) + (i mod 2)))
1: (x + ((i * i) + (if x <= 0 then 1 else 2)))
1: (3 + (2 * compr(\x.(2 - (x mod loop(\(x,i).4x,(1 - loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x)),1))),x)))
1: (3 + (2 * compr(\x.(2 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),28,x)),x)))
1: ((x + 1) + (2 div (1 + (3 div (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2))))))
1: ((2x + 1) + (2 div (1 + (x mod 4))))
1: ((x + 2) + (2 div (5 - ((x + ~2) div 3))))
1: ((x + 1) + (2 div (8 - ((x + ~1) div 2))))
1: ((x + 1) + (2 div (8 - (x div 2))))
1: ((x + 1) + ((2 div (8 - (x div 2))) + (x div 5)))
1: ((x + 1) + ((2 div (~x + 16)) + (x div 2)))
1: (4 + (4 div (1 + ((x + ~1) mod 3))))
1: ((5x + 4) + (4 div (x + 1)))
1: ((x + 2) + (((4x + 2) + (((3 * (1 + ((13x2 + 13x) div 2))) div 2) div 2)) div 3))
1: ((x + 2) + (((3x + 2) + ((3x + (((3x + 2) - (loop(\(x,i).2x,x,1) mod 9)) div 2)) div 2)) div 2))
1: (2x + (((3x + 2) - (loop(\(x,i).2x,x,1) mod 9)) div 2))
1: ((x + 2) + (((2x + 1) + (2 * ((x + 1) + (5 * (x + (x div 4)))))) div 3))
1: ((x + 2) + (((2x + 1) + (2 * ((x + 1) + ((2 * (1 + ((2 * (1 + (2 * (2x - (2x div 7))))) div 3))) div 3)))) div 3))
1: ((x + 2) + (((x + 1) + ((2 * (x + ((x - ((x + (x div 2)) div 5)) div 2))) + (x div 2))) div 2))
1: ((x + 1) + (((2x + 1) + (2 * (x + ((3 * ((1 + (x div 2)) div 2)) div 2)))) div 3))
1: (4 + (((2x + 1) + (2 * (1 - (x mod (1 + (((x + 1) - (2 * (x div (2 * (2 - (x mod 2)))))) mod (x + 1))))))) div 3))
1: ((x + 2) + (((2x + 1) + (4 * ((1 + (loop(\(x,i).(2x + 2),(x div 2),(x mod 2)) div 2)) div 2))) div 3))
1: ((x + 2) + (((2x + 1) + (2 * (((2x + 1) + (2 * (1 + (((10x2 + 27x + 14) div 2) div 2)))) div 3))) div 3))
1: ((x + 1) + (((2x + 1) + (2 * (((x + 1) + (2 * ((1 + (loop(\(x,i).((x + 1) + loop(\(x,i).2x,x,1) - (x mod 2)),x,1) div 2)) div 2))) div 2))) div 3))
1: ((x + 2) + ((3x + (((3x + 2) - (loop(\(x,i).2x,x,1) mod 9)) div 2)) div 2))
1: (4 + (((x + 4) + ((x + 1) div (1 + (x div (2 + (x mod (2 + (x mod 2)))))))) div 2))
1: ((x + 1) + (((2x + 1) + ((2 * ((4x + 1) + (((x + 1) + (((x + 1) + (((x2 + ~x) div 2) + (x div 3))) div 2)) div 2))) div 3)) div 2))
1: ((x + 1) + (((x + 1) + (((x2 + ~x) div 2) + (x div 3))) div 2))
1: ((x + 1) + (((2x + 1) + ((2x2 + 8x + 8) div 3)) div 3))
1: (4 + (((x + 1) + ((((x + ~1) div 2) div 2) + (x mod 4))) div 2))
1: ((x + 1) + (((3x + 1) + (if (x + ~1) <= 0 then 1 else (2 * ((x + 1) - (((~x2 + x) div 2) div 5))))) div 2))
1: ((x + 2) + ((3x + ((if (x mod 4) <= 0 then 2 else 1) + (x div 3))) div 3))
1: ((x + 2) + (((2x + 2) + (if x <= 0 then 1 else (2 * (2x + ((x + ((2x - ((x + 2) mod 4)) div 3)) div 2))))) div 3))
1: ((x + 1) + (((x + 1) + (4 * (2x - (2x div 7)))) div 3))
1: (4 + (((x + 2) + (2 * ((1 + ((1 + ((32 mod (x + 1)) div 2)) div 2)) div 2))) div 3))
1: ((x + 1) + (((x + 1) + (((2x + 1) + (2 * (((x + 1) + (2 * ((1 + (loop(\(x,i).((x + 1) + loop(\(x,i).2x,x,1) - (x mod 2)),x,1) div 2)) div 2))) div 2))) div 3)) div 2))
1: ((x + 1) + (((x + 1) + (((x + 1) + (((x2 + ~x) div 2) + (x div 3))) div 2)) div 2))
1: ((x + 1) + (((x + 1) + (((2x + 1) + ((2x2 + 8x + 8) div 3)) div 3)) div 2))
1: ((x + 1) + (((x + 1) + (((3x + 1) + (if (x + ~1) <= 0 then 1 else (2 * ((x + 1) - (((~x2 + x) div 2) div 5))))) div 2)) div 2))
1: ((x + 1) + (((x + 1) + (((x + 1) + (((2x + 1) + ((2x2 + 8x + 8) div 3)) div 3)) div 2)) div 2))
1: ((x + 1) + (((x + 1) + (((x + 1) + (((3x + 1) + (if (x + ~1) <= 0 then 1 else (2 * ((x + 1) - (((~x2 + x) div 2) div 5))))) div 2)) div 2)) div 2))
1: ((x + 1) + (((x + 1) + (((x + 1) + ((4x + 1) div (2 + (x div 8)))) div 2)) div 2))
1: ((x + 1) + (((x + 1) + (((x + 1) + ((2 * (x3 div (x + 2))) div 3)) div 2)) div 2))
1: ((x + 1) + (((x + 1) + (((x + 1) + ((5 * compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,(x + 2)),x)) div 2)) div 2)) div 2))
1: ((x + 1) + (((x + 1) + (((x + 1) + (loop(\(x,i).(x + ((x * (1 + i)) div (2 + (x div 4)))),x,1) div 2)) div 2)) div 2))
1: ((x + 1) + (((x + 1) + ((9x + (x div 3)) div (x + 4))) div 2))
1: ((x + 1) + (((x + 1) + ((4x + 1) div (2 + (x div 8)))) div 2))
1: ((x + 1) + (((x + 1) + ((x + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * ((x + 1) div 2))) div 2)) div 2))
1: ((x + 1) + (((x + 1) + ((x + ((1 + (((x + 1) * (x + ((x + (x mod 2)) div 5))) div 2)) div 2)) div 2)) div 2))
1: ((x + 2) + (((x + 2) + ((x + (((x2 + (((x + ~2) * (x2 div 2)) div 3)) div 2) div 2)) div 2)) div 3))
1: ((x + 1) + (((x + 1) + ((x + (if (x mod 2) <= 0 then (x div 2) else 2)) div 4)) div 2))
1: ((x + 1) + (((x + 1) + ((x + loop(\(x,i).(x + (x div 3)),2,(x + ~1))) div 2)) div 2))
1: ((x + 1) + (((x + 1) + ((x + loop(\(x,i).(1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)),(x + ~1),1)) div 2)) div 2))
1: ((x + 1) + (((x + 1) + ((x + loop(\(x,i).2x,(~1 + (((x + ~1) div 2) div 2)),x)) div 2)) div 2))
1: ((x + 2) + ((1 + (((x - ((x div 3) mod 2)) div 2) + (x div 4))) div 2))
1: ((x + 1) + (((x + 1) + ((x - (x mod (4 + (x div 2)))) div 3)) div 2))
1: ((x + 1) + ((1 + (((x - (x mod 7)) div 2) + (x div 3))) div 2))
1: ((x + 1) + (((x + 1) + (49x div (x + 2))) div 2))
1: ((x + 1) + (((x + 1) + ((3 * (x + ((3 * ((x div 2) div 3)) div 2))) div 2)) div 2))
1: ((x + 1) + (((x + 1) + ((2 * (1 + ((2x + 1) mod 31))) div 3)) div 2))
1: ((x + 1) + (((x + 1) + ((3 * (1 + (if x <= 0 then 0 else (2 * (1 - (x div 2)))))) div 2)) div 2))
1: ((x + 1) + (((x + 1) + ((2 * (x3 div (x + 2))) div 3)) div 2))
1: ((x + 1) + (((x2 + x + 1) + ((x * (x div 2)) div 4)) div 2))
1: (1 + ((((x + 1) + (((if (x mod 2) <= 0 then x else 0) * (1 + (x div 2))) div 2)) div 2) + (x mod 2)))
1: ((x + 1) + (((x + 1) + (x2 div 4)) div 2))
1: (x + ((((x + 1) + (x2 div 4)) div 2) + ((x + 1) mod 3)))
1: ((x + 1) + (((x + 1) + ((5 * compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,(x + 2)),x)) div 2)) div 2))
1: ((x + 1) + (((x + 1) + ((((2x2 + 3x + 1) + (x div 2)) div 2) div 2)) div 2))
1: ((x + 1) + (((x + 1) + (((1 + ((1 + ((x * (1 + (loop(\(x,i).3x,(x div 2),1) div 2))) div 2)) div 2)) div 2) div 2)) div 2))
1: ((x + 1) + (((x + 1) + (((((x2 + 2x) div 2) + (x mod 3)) div 2) div 2)) div 2))
1: ((x + 1) + (((x + 1) + (((1 + (((1 + (((2x + 5) * compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) div 3)) div 2) div 2)) div 2) div 2)) div 2))
1: ((x + 1) + (((x + 1) + (((1 + ((((x + (x2 div 3)) * (2 + (x div 2))) div 2) div 2)) div 2) div 2)) div 2))
1: ((x + 1) + (((x + 1) + (((x + (((~x + 1) mod (4 + (x div 2))) div 2)) div 2) div 2)) div 2))
1: (3 + ((x + ((((x2 + ~1) div 2) div 5) + (((x + 1) div 2) div 2))) div 2))
1: ((x + 1) + (((x + 1) + (((3 * ((2x + 1) - (x mod 5))) div 2) div 2)) div 2))
1: ((x + 1) + (((x + 1) + ((((1 - (2 * (x mod 5))) mod (x + 3)) div 2) div 2)) div 2))
1: ((x + 1) + (((x + 1) + ((loop(\(x,i).(2x + (i mod 2)),x,(1 + (x mod 2))) div 2) div 2)) div 2))
1: ((x + 1) + (((x + 1) + (loop(\(x,i).(x + ((x * (1 + i)) div (2 + (x div 4)))),x,1) div 2)) div 2))
1: ((x + 1) + (((x + 1) + (loop(\(x,i).(loop(\(x,i).(x * i),x,i) + i),x,0) div 2)) div 2))
1: ((x + 1) + (((x + 1) + (x div (1 - (2 * ((~x + 1) div (2 + (x div 2))))))) div 2))
1: ((x + 1) + (((x + 1) + (((x + 1) + (x2 div (x + (if x <= 0 then 1 else (x div 3))))) mod 3)) div 2))
1: ((x + 1) + ((x + (((x + 1) mod 3) + (x div 2))) div 2))
1: ((x + 2) + (((x + 1) + ((~x + 1) mod 9)) div 2))
1: ((x + 2) + (((x + 2) + ((~x + 1) mod (2 - ((~x + 1) div 3)))) div 3))
1: ((x + 2) + (((x + 1) + ((x div 3) mod 3)) div 3))
1: ((x + 2) + (((2x + 1) + (x mod 2)) div 5))
1: ((x + 1) + (((x + 1) + (x mod (1 + (x2 div (x + 5))))) div 2))
1: (1 + ((((x + 1) + (x mod (1 + ((~x + 2) mod 4)))) div 2) + (x div 5)))
1: ((x + 1) + ((x + ((if (~2 + (x div 3)) <= 0 then 1 else 2) + ((x div 2) mod 2))) div 2))
1: (3 + ((1 + ((if (x + ~3) <= 0 then x else 4) + (x div 3))) div 2))
1: ((x + 1) + (((x + 2) + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)) div 3))
1: ((x + 1) + (((x + 1) + (if x <= 0 then 0 else (1 - ((0 - ((~x + 1) mod 5)) div 2)))) div 3))
1: ((2x + 1) + ((2x + loop(\(x,i).(x + i - (x div 7)),x,1)) div 2))
1: ((x + 1) + (((x + 1) + loop(\(x,i).(if x <= 0 then 1 else (2 * (x - ((3 * (x div 4)) div 2)))),x,0)) div 2))
1: ((x + 2) + ((~1 + (((2 * ((2x + 2) + (if x <= 0 then 1 else (2 * (x + ((x div 2) div 5)))))) div 3) + (x mod 2))) div 2))
1: ((x + 1) + (((x + ~1) + ((2 * ((x + 3) + compr(\x.(1 - (x mod (1 + (2 * (x div (2 + ((x div 2) div 3))))))),x))) div 3)) div 2))
1: (4 + ((1 + (x div 2) - ((x div 4) mod 2)) div 2))
1: ((x + 2) + ((x + (x div 2) - ((2 - (x div 4)) div 2)) div 2))
1: ((x + 1) + ((x + (x div 5) - ((x div 2) div 3)) div 2))
1: ((x + 2) + ((3x + 1) div (4 + (x div 4))))
1: ((x + 1) + ((3x + 1) div (1 + (2 * i))))
1: (4 + ((2 + (5 * ((x + 2) + (2 * (x div 4))))) div 3))
1: ((x + 2) + ((x + ((~x + 4) * (x div 2))) div (x + 2)))
1: ((x + 2) + ((x + (2 * (2 + (((x + ~1) mod (2 + (x div 2))) div 2)))) div 3))
1: ((x + 1) + ((1 + (2 * (x + (x div 2)))) div (1 + (2 * i))))
1: ((x + 1) + ((2 + ((x + (x div 2)) * ((x + 1) div 2))) div 3))
1: (4 + ((1 + (2 * (2 + (23 mod (x + 1))))) div (x + 1)))
1: ((x + 1) + ((x2 + 2x + 1) div (16 + (x div 2))))
1: ((x + 2) + ((x2 + 2x + 2) div (~x + 25)))
1: (3 + ((x2 + x + 94) div 2))
1: ((x + 1) + ((1 + ((x + 1) * (x - (x div ~2)))) div 2))
1: ((x + 1) + ((9x + (x div 3)) div (x + 4)))
1: (4 + ((1 + (9 * (1 + (x div 2)))) div (x + 1)))
1: ((x + 1) + ((56x + 1) div (x + 3)))
1: (4 + ((8x2 + 8x + 1) div (x + 2)))
1: ((x + 4) + ((8x + (x div 3)) div (x + 2)))
1: ((x + 1) + ((4x + 1) div (4 + (x div 4))))
1: ((x + 1) + ((4x + 1) div (2 + (x div 8))))
1: ((x + 1) + ((1 + (2 * ((x + ((x + loop(\(x,i).2x,x,1)) div (x + 1))) div 2))) div (2x + 1)))
1: ((x + 1) + ((x + (((x + 1) div 3) * (x div 2))) div 2))
1: (1 + (((x + (2 * ((2 + ((loop(\(x,i).2x,(x div 2),~2) mod (x + 1)) div 2)) div 2))) div 3) + (x mod 2)))
1: ((x + 1) + ((x + (2 * (3x div 7))) div 3))
1: ((x + 1) + ((x + (2 * ((12x + 3) div (x + 2)))) div 3))
1: ((x + 2) + ((x + (2 * (((x div 4) * (x div 2)) div 2))) div 3))
1: ((x + 1) + ((1 + (2 * (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))) div 3))
1: ((x + 2) + ((x + (2 * (x mod 2))) div 3))
1: (4 + ((x + (2 * (if x <= 0 then 1 else (2 + ((x - ((x div 2) mod 5)) div 2))))) div 3))
1: (x + (((1 + (2 * (if x <= 0 then 1 else (2 * (2x + ((2x + ((x div 3) mod 3)) div 3)))))) div 3) + ((x + 1) div 3)))
1: (2x + (((1 + (2 * (if x <= 0 then 1 else (2 * (4x - ((x + ((x div 2) mod 2)) div 2)))))) div 3) + ((x + 1) div 3)))
1: (2x + ((1 + (x * loop(\(x,i).((x + 1) - (if x <= 0 then 2 else (2 * i))),x,x))) div (x + 1)))
1: ((x + 1) + ((x + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * ((x + 1) div 2))) div 2))
1: ((x + 2) + ((2x + 1) div 5))
1: ((2x + 2) + ((2x + 1) div (5 + (x div 8))))
1: ((x + 2) + ((2x + 1) div (1 + (2 * (2 + ((((x + 1) div 2) div 3) mod 2))))))
1: ((x + 1) + ((2x + 1) div (1 + (x mod 12))))
1: (1 + (((x2 + 1) div 5) + (x div 5)))
1: (3 + ((x2 + 1) div (1 + ((x + (x2 div 5)) div 2))))
1: (x + (((x2 + 1) div (2 + (x div 2))) + (x div 2)))
1: ((4x + 1) + ((x2 + 2) div ((x + 3) + (x div 4))))
1: ((x + 1) + ((x2 + (x div 2)) div 3))
1: ((x + 1) + ((x2 + (x div 2)) div 7))
1: ((2x + 1) + ((x2 + (x mod 2)) div 5))
1: (4 + ((2 + (((2x + 4) + (if x <= 0 then 1 else ((x + 4) + (x div (4 + (x div 2)))))) div 2)) div 2))
1: ((2x + 1) + ((x + ((x + ((x + ((x + ((x2 + (x2 div 4)) div 3)) div 2)) div 2)) div 2)) div 2))
1: ((x + 1) + ((1 + ((1 + ((1 + ((1 + (loop(\(x,i).(2x * i),(x + ~1),1) div 3)) div 3)) div 2)) div 2)) div 2))
1: ((x + 1) + ((x + ((1 + ((x + ((x3 + ~3x2 + 2x) div 5)) div 2)) div 2)) div 2))
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1: (1 + (((1 + ((1 + ((1 + ((((x + ~1) * (x2 div 4)) div 2) div 3)) div 2)) div 2)) div 2) + (x div 5)))
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1: (5 + ((x + loop(\(x,i).(x - (((~x + ~1) + (x mod 2)) div 5)),x,1)) div 2))
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1: ((x + 1) + ((2 * ((x + 1) - ((x mod (2 - ((x div 2) div ~2))) div 2))) div 3))
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1: ((x + 1) + ((3 * ((x + 1) - loop(\(x,i).(x + (if (~2 + (x div 4)) <= 0 then 1 else 2)),2,x))) div 2))
1: ((x + 2) + ((5x3 + ~9x2) div 3))
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1: ((x + 1) + ((2 * (x - ((x - (4 mod (x + 1))) div 2))) div 3))
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1: ((x + 2) + ((2 * (x - (x mod (2 + (x mod 2))))) div 3))
1: ((x + 1) + (15x div (x + 5)))
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1: ((x + 1) + ((8 * (1 + (x div 2))) div 5))
1: ((x + 2) + ((25x + 25) div (2x + 3)))
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1: ((x + 2) + ((5 * (i * i)) div 2))
1: ((x + 2) + ((4 * ((2x + 1) + (((x + 1) + (x div 8)) div 2))) div 3))
1: ((x + 2) + ((4 * ((2x + 1) + ((x + (x div 12)) div 2))) div 3))
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1: ((x + 1) + ((4 * ((5x + 5) + (x div 5))) div 3))
1: (2 + ((17x2 + 17x) div 2))
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1: ((x2 + x + 1) + ((x4 + 3x2) div 4))
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1: ((x + 1) + ((4 * ((2x + 2) + (((x + 1) + (x div 8)) div 2))) div 3))
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1: (4 + ((2x2 + 4x + 2) div 5))
1: ((x + 1) + ((2x2 + 4x) div 5))
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1: ((x + 1) + ((3 * ((x + ((x div ~2) mod 2)) div 3)) div 2))
1: (4 + ((3 * ((1 + (x mod (2 * (if (x mod 4) <= 0 then 4 else 1)))) div 2)) div 2))
1: ((x + 2) + ((((x + 1) div 5) * (1 + (((x + 1) div 2) div 2))) div 2))
1: ((x + 3) + ((2 * ((2x - (x div 4)) div 3)) div 3))
1: ((x + 1) + ((((x + ~1) div 2) * (x div 2)) div 2))
1: ((x + 1) + (((x + 4) * ((x + ~1) div 3)) div 2))
1: ((x + 1) + ((3 * (((x + 1) - (x div 3)) div 3)) div 2))
1: ((x + 2) + ((7 * (((x + 1) - ((x div 2) mod 2)) div 2)) div 2))
1: (3 + (((x + ~4) * (((x + 1) - ((x div 2) mod 2)) div 2)) div 2))
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1: ((x + 2) + ((2 * ((x - (if (~2 + (x div 2)) <= 0 then 1 else 2)) div 2)) div 3))
1: ((x + 1) + ((2 * ((4 * (x + (if (~4 + (x div 2)) <= 0 then 1 else 2))) div 3)) div 3))
1: ((x + 1) + (((x2 + x + 1) * ((x2 + x) div 4)) div 3))
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1: ((x + 1) + ((3 * ((3 * (x2 div 2)) div 5)) div 2))
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1: ((x + 2) + (((2x div 7) * (((x + ~1) div 2) div 2)) div 2))
1: ((x + 2) + ((x * (x2 div 3)) div 3))
1: ((x + 2) + (((x + 1) * (x2 div 4)) div (x + 4)))
1: ((x + 1) + ((2 * (x2 div (3 * (2 + (x div 2))))) div 3))
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1: ((x + 1) + ((3 * (((1 + (x div 2)) div 2) div 2)) div 2))
1: ((x + 1) + ((x * (((x + 1) div 2) div 2)) div 9))
1: ((x + 1) + ((x * (((x + 1) div 2) div 2)) div 15))
1: (1 + (((3 * (((x + 1) div 2) div 3)) div 2) + (x mod 2)))
1: ((x + 1) + (((((x + 1) div 2) div 3) * ((x + 2) div 3)) div 2))
1: ((x + 1) + ((x * (((x + 1) div 2) div 3)) div 5))
1: ((x + 1) + ((3 * ((x2 div 4) div (x + 3))) div 2))
1: ((x + 1) + ((3 * ((((x + 1) div 2) div 2) div 2)) div 2))
1: (x + (((3 * ((x div 2) div 3)) div 2) + (if (x + ~2) <= 0 then 1 else 2)))
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1: ((x + 1) + ((2 * ((if (~2 + (x div 3)) <= 0 then 0 else x) div 2)) div 3))
1: ((x + 2) + ((2 * (loop(\(x,i).5x,x,4) div 3)) div 3))
1: (4 + ((2 * (x div 2)) div 3))
1: ((x + 1) + (((2 * (x div 2)) div 3) + (x div 2)))
1: (((3 * (x div 2)) div 2) + (x div 3) + (x div 5))
1: ((x + 1) + (((x div 2) * (x div 2)) div (x + 2)))
1: ((x2 + x + 1) + ((x * (x div 2)) div 4))
1: ((x + 2) + ((x * (x div 2)) div 5))
1: (2x + ((x * (x div 2)) div (x + 4)))
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1: ((x + 1) + ((2 * (x div 3)) div 3))
1: ((x + 2) + ((2 * (x div 3)) div 3))
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1: ((x + 1) + ((3 * (x div (4 + (x div 4)))) div 2))
1: ((x + 1) + (((3 * (x div (4 - ((x * (x div 2)) mod 2)))) div 2) + (x div 8)))
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1: ((x + 1) + ((3 * (x div 7)) div 2))
1: ((x + 1) + ((x * (x div 8)) div 5))
1: ((x + 2) + ((x * (x div 8)) div 5))
1: ((x + 1) + ((x * ((x + 1) mod 3)) div 3))
1: ((3x + 2) + ((2 * ((x + 2) mod 5)) div 3))
1: ((x + 1) + (((x + 1) * ((x mod (2 - (x div (1 + ((x div 2) mod 2))))) mod 2)) div 3))
1: (1 + (((x * (x mod 2)) div 2) + (x div 5)))
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1: ((x + 1) + (((x mod ((x + ~1) - (x mod 12))) * (x div 2)) div 2))
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1: ((x + 2) + (((x + 1) * (if (x + ~2) <= 0 then 1 else 2x2)) div 3))
1: ((x + 1) + ((2 * (if (x + ~2) <= 0 then x else (2 - ((~x + 1) div 3)))) div 3))
1: ((x + 1) + ((2 * (if (x + ~2) <= 0 then x else (2 - (x div ~2)))) div 3))
1: ((x + 1) + (((x + 1) * (if ((x + ~1) mod 4) <= 0 then 1 else 2)) div 3))
1: ((x + 1) + (((x + 1) * (if ((x + ~1) mod 4) <= 0 then 4x else 1)) div (1 + (2 * (x mod 2)))))
1: ((x + 1) + (((if (x mod 2) <= 0 then x else 0) * (1 + (x div 2))) div 2))
1: (4 + ((2 * (if x <= 0 then 1 else (2 * (1 + ((2x + 1) div (3 + (x div 4))))))) div 3))
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1: ((2x + 3) + (((x + ~1) * (if x <= 0 then 2 else (x * (x div 2)))) div 2))
1: ((x + 1) + ((2 * loop(\(x,i).(if (~x + i) <= 0 then x else 2x),x,1)) div 3))
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1: ((3x + 4) + (2x div 5))
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1: ((x + 2) + (2x div 9))
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1: (3 + (2x div (2 + (2x div (2 + (x div 4))))))
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1: ((2x div (2 + (x div 2))) + (if x <= 0 then 1 else x) + (x div 2))
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1: (1 + ((2x div (1 + (if (x mod 2) <= 0 then 2 else 0))) + (x mod 2)))
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1: (4 + (x2 div 2))
1: (1 + ((x2 div 2) + (x div 2)))
1: (3 + (x2 div 3))
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1: (4 + (x2 div 4))
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1: ((x2 + x + 1) + ((x2 div 4) + (x div 3)))
1: ((x2 + 2x + 1) + (x2 div 4))
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1: (x + ((x2 div 4) + (2 * (2 + (x div 2)))))
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1: ((5x + 1) + (x2 div ((2x + 4) + (x mod 4))))
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1: (x + (((x * i) div 5) + (x div 2)))
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1: ((x + 2) + ((i * i) div 2))
1: ((x + 1) + ((i * i) div 3))
1: (x + (((i * i) div 4) + i))
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1: ((x + 1) + ((((4x + 2) + loop(\(x,i).2x,((x + 2) + (x div 4)),2)) div 2) div 2))
1: ((x + 1) + ((((x + 1) + (2 * (((x + 1) + (2 * ((1 + (((x + 1) * (1 + ((2x mod (2 + (x div 3))) mod 2))) div 2)) div 2))) div 2))) div 2) div 2))
1: ((x + 2) + ((((x + 1) + (x div 4)) div 2) div 2))
1: ((x + 1) + ((((x2 + 10x) + (x mod 10)) div (x + 1)) div 2))
1: ((x + 1) + ((((2x2 + 3x + 1) + (x div 2)) div 2) div 2))
1: ((x + 4) + ((((5 * ((x2 + 3x + 2) div 2)) + (x div 5)) div 2) div 2))
1: ((x + 1) + (((1 + ((1 + ((x * (1 + (loop(\(x,i).3x,(x div 2),1) div 2))) div 2)) div 2)) div 2) div 2))
1: (2x + (((1 + ((x2 + (x2 div 4)) div 2)) div 2) div 2))
1: ((x + 1) + (((1 + (((x + 1) * (1 + (2 * ((1 + (x div 4)) div 2)))) div 2)) div 2) div 3))
1: ((x + 1) + (((1 + (((x + 1) * (1 + ((x2 + ~2x + 1) div 5))) div 2)) div 2) div 2))
1: ((x + 1) + (((1 + ((x * ((2x + 2) + ((x + (x div 2)) div 4))) div 2)) div 2) div 2))
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1: (1 + ((((1 + (((x + 1) * (1 + (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))) div 2)) div 2) div 2) + (x mod 2)))
1: ((x + 1) + (((1 + (((x + 2) * (x + ((x * (x div 2)) mod 2))) div 2)) div 2) div 2))
1: ((x + 2) + (((1 + ((x * (1 + loop(\(x,i).(x * (2x + loop(\(x,i).x3,2,x))),x,1))) div 2)) div 2) div 2))
1: ((x + 1) + (((1 + ((x * ((x + ~1) div 3)) div 2)) div 2) div 2))
1: ((x + 1) + (((1 + ((x * ((x div 2) div 3)) div 2)) div 2) div 2))
1: ((x + 1) + (((1 + (((x + 1) * (x mod (x - ((x + ~1) mod 8)))) div 2)) div 2) div 2))
1: ((x + 2) + (((x + (x2 div 4)) div 2) div 3))
1: ((x + 1) + (((1 + (((1 + (((x + 1) * ((2x + 1) - (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))) div 2)) div 2) div 2)) div 2) div 2))
1: ((x + 1) + (((1 + (((1 + (((2x + 5) * compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) div 3)) div 2) div 2)) div 2) div 2))
1: ((x + 1) + (((1 + (((1 + ((loop(\(x,i).x2,1,(1 + (x2 div 3))) div 2) div 2)) div 2) div 2)) div 2) div 2))
1: ((x + 1) + (((1 + ((((x + 1) * ((x + 1) + ((x - ((x mod 3) div 2)) div 2))) div 2) div 2)) div 2) div 2))
1: ((x + 1) + (((1 + ((((x + (x2 div 3)) * (2 + (x div 2))) div 2) div 2)) div 2) div 2))
1: ((x + 1) + (((1 + ((((x + 1) * ((if (~2 + (x div 4)) <= 0 then 1 else 2) + (x div 3))) div 2) div 2)) div 2) div 2))
1: ((x + 2) + (((1 + ((((x + 1) * (1 + loop(\(x,i).(x2 + ~2x),2,8))) div 2) div 3)) div 2) div 9))
1: (3 + (((2 + ((((x + 2) * (x - (2 mod (1 + (x div 4))))) div 2) div 2)) div 2) div 2))
1: ((x + 1) + (((1 + (((2 * (((x - ((x div 2) mod 2)) div 2) * ((x + 1) div 2))) div 2) div 2)) div 2) div 2))
1: ((x + 1) + (((1 + (((x * ((x + (2 mod (x + 1))) div 3)) div 2) div 2)) div 2) div 2))
1: (4 + (((1 + ((((loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2) div 2) div 2) div 2)) div 2) div 2))
1: ((x + 1) + (((1 + (loop(\(x,i).((x + 1) + (x div (1 + (x mod 4)))),x,0) div 2)) div 2) div 2))
1: (1 + ((((1 + (x div 2)) div 2) div 2) + (x mod 2)))
1: (3 + (((1 + (x div 2)) div 2) div 2))
1: ((x + 1) + (((x + (x div (2 + (x mod 5)))) div 2) div 2))
1: ((x + 2) + (((2 + ((1 - (x mod (1 + ((2 - (x div 2)) mod 4)))) mod (x + 1))) div 2) div 2))
1: ((2x + 1) + ((((x mod 5) + (x div 2)) div 2) div 2))
1: ((x + 2) + ((((if (~2 + (x div 2)) <= 0 then 1 else (x + ~2)) + (x div 2)) div 2) div 2))
1: (4 + (((1 + loop(\(x,i).x3,x,5)) div 3) div 2))
1: ((2x + 2) + ((((x + 1) div 2) div 3) + (if x <= 0 then 0 else 1)))
1: ((x + 4) + (((x + 1) div 2) div 3))
1: (1 + ((((x + 1) div 2) div (1 + ((x div 2) mod (1 + (x mod (1 + ((~x + 2) mod 4))))))) + (x mod 2)))
1: (1 + ((((x + 1) div (2 + (x div 8))) div 2) + (x mod 2)))
1: (2 + (((x + 1) div (1 + (x mod (2 + (x div (1 + ((x div 2) mod (1 + (x mod (1 + ((~x + 2) mod 4))))))))))) div 3))
1: (3 + (((x + 2) div (~2x + 32)) div 2))
1: (3 + (((1 + compr(\x.((1 + ((4 * (1 + ((x + 1) div (2 + (x div 8))))) div 3)) mod 3),x)) div 2) div 2))
1: ((x + 1) + (((1 + compr(\x.(((((1 + (x div 2)) div 2) * (x div 2)) div 2) mod 3),x)) div 2) div 2))
1: (3 + ((((x + ~1) + (x div 2)) div 2) div 2))
1: ((x + 1) + (((~1 + ((x + 1) * (2 + ((3x + ~3) * ((x2 + x) div 2))))) div 2) div 2))
1: ((x + 1) + ((((3x2 + 3) - (x div 5)) div 2) div 2))
1: ((x + 1) + ((((x2 + 2x) - (x div 3)) div 2) div 2))
1: (3 + (((~1 + (6 * (1 + ((1 + (x div (1 + (x mod (1 + (x mod (1 + (x div (2 * (2 - (x mod 2))))))))))) div 2)))) div 2) div 2))
1: (3 + (((~1 + (6 * (1 + (((~1 + (6 * (1 + ((1 + ((loop(\(x,i).2x,x,2) mod (x + 1)) div 2)) div 2)))) div 2) div 2)))) div 2) div 2))
1: (x + ((((x2 + ~1) div 2) div 5) + (((x + 1) div 2) div 2)))
1: ((x + 1) + (((x2 - (3 * ((x2 + ~x) div 4))) div 2) div 2))
1: ((x + 1) + (((x2 - ((~x2 + 2x) div 4)) div 2) div 2))
1: ((x + 2) + (((x2 - (if (~2 + (x div 2)) <= 0 then 1 else 2)) div 2) div 2))
1: (1 + ((((x + ~1) div 2) div 2) + (x mod 4)))
1: ((((x + ~1) div 2) div 2) + (if (x + ~2) <= 0 then 2 else 1) + (x mod 2))
1: ((x + 1) + ((((x + 2) - (((1 + (x div 2)) div 2) mod 4)) div 2) div 2))
1: ((x + 2) + (((x - (2 * (loop(\(x,i).(x + 2),(x + ~8),x) div 3))) div 2) div 2))
1: ((3x + 1) + (((x - ((2 - (x div 2)) div 2)) div 2) div 2))
1: (3 + (((x - ((~x2 + x) div 8)) div 2) div 2))
1: ((4x + 1) + (((x - (((~x + 2) * (x div 2)) div 8)) div 2) div 2))
1: ((x + 1) + (((x - (x2 div ~7)) div 2) div 2))
1: ((3x + 1) + (((x - ((x mod 3) div 2)) div 2) div 2))
1: ((x + 1) + (((x - ((x mod 5) div 2)) div 2) div 2))
1: ((x + 2) + (((x - ((x mod 5) div 2)) div 2) div 2))
1: ((x + 1) + (((x - ((x div 2) mod 4)) div 2) div 2))
1: ((x + 7) + (((x - ((x div 2) mod 4)) div 2) div 2))
1: ((x + 1) + (((x - ((x div 3) mod 4)) div 2) div 2))
1: ((x + 1) + (((x - ((x div 4) mod 2)) div 2) div 2))
1: (1 + ((((x - (x mod (~3 + (x mod 2)))) div 2) div 2) + (if x <= 0 then 0 else 1)))
1: ((x + 2) + (((x - (if (~2 + (x div 2)) <= 0 then 1 else 0)) div 2) div 2))
1: ((x + 3) + (((x - (if (~2 + (x div 2)) <= 0 then x else 1)) div 2) div 2))
1: ((x + 1) + (((3 * ((2x + 1) + (2 * ((3 * (x + ((x div 2) div 5))) div 2)))) div 2) div 2))
1: ((x + 2) + (((3 * (2x + ((2 + (x2 div 2)) div (x + 2)))) div 2) div 2))
1: ((x + 2) + (((3 * ((x + 1) + loop(\(x,i).(x + (x div (~1 + (4 * (1 + i))))),2,x))) div 2) div 2))
1: ((x + 2) + (((5 * ((2x + 1) - ((~x + ((x + ~2) div 3)) div 3))) div 2) div 3))
1: ((x + 1) + (((3 * ((2x + 1) - (x mod 5))) div 2) div 2))
1: ((x + 2) + (((2x3 + 18x2 + 43x + 27) div 2) div 3))
1: ((x + 2) + (((3x2 + 16x + 16) div 2) div 3))
1: ((x + 1) + (((17 * (1 + (x div 2))) div 2) div 2))
1: ((x + 2) + (((9x2 + 26x + 16) div 2) div 3))
1: ((x + 1) + (((3 * (1 + (3 * (2x div 7)))) div 2) div 2))
1: ((x + 1) + (((x * (1 + (x * (x2 div 3)))) div 2) div 3))
1: ((x + 1) + (((x3 + x) div (x + 2)) div 7))
1: ((x + 2) + (((2x2 + 4) div (x + 2)) div 3))
1: (1 + ((((3 * (1 + ((x + 1) div (2 + ((x + 1) div (1 + (((1 + (x mod ((1 + (x mod (1 + (x div 4)))) * (1 + (x mod 2))))) mod (x + 1)) + (x mod 2)))))))) div 2) div 2) + (x mod 2)))
1: (2x + (((3 * (1 + ((13x2 + 13x) div 2))) div 2) div 2))
1: ((x + 1) + (((3 * (1 + (((x mod (x - ((x + ~1) mod 8))) * (1 + (x div 4))) div 2))) div 2) div 2))
1: ((x + 4) + (((3 * (x + (x2 div ((x + 2) + (x div 2))))) div 2) div 2))
1: ((x + 1) + (((x * (1 + (((x + 1) div 2) div 3))) div 2) div 5))
1: ((x + 1) + (((5 * ((2x + 2) + (((x + 1) div 2) div 3))) div 2) div 2))
1: ((x + 1) + (((3 * (1 + (((x2 + ~4x + 4) div 2) div (x + 3)))) div 2) div 2))
1: (2x + (((x * (1 + (x div 3))) div 2) div 2))
1: ((x + 1) + (((3 * ((x div 5) + (x div 3))) div 2) div 2))
1: (1 + ((((3 * (x + ((~x + 1) mod 3))) div 2) div 2) + (x mod 2)))
1: ((x + 2) + ((((2 + ((x * (x div 2)) mod 2)) * (x div 2)) div 2) div 2))
1: ((x + 2) + (((x * (x + ((x div 2) mod 3))) div 2) div (x + 5)))
1: (3 + (((x * (1 + (x mod (2 + (x mod 2))))) div 2) div 3))
1: ((x + 2) + ((((x + 2) * (x + (if (x + ~2) <= 0 then 1 else x))) div 2) div 2))
1: ((x + 2) + (((5 * (x + (if (x + ~4) <= 0 then 1 else 2))) div 2) div 2))
1: (1 + ((((x2 + x) div 2) div 5) + (x div 5)))
1: ((x + 1) + (((x2 + x) div 2) div 5))
1: ((x + 2) + (((x2 + x) div 2) div 7))
1: (2x + (((x2 + x) div 2) div 7))
1: (4 + (((x2 + x) div 4) div 5))
1: ((3x + 1) + (((x2 + 3x + 2) div 2) div 3))
1: ((x + 1) + (((x2 + 4x + 4) div 2) div 5))
1: ((x + 1) + (((5 * (1 - ((~x + (x mod 3)) div 4))) div 2) div 2))
1: (3 + (((x * (1 - (x div (~2 + ((~x + 2) div 4))))) div 2) div 3))
1: ((x + 2) + ((((~x + 2) * (x div 2)) div 2) div 3))
1: ((x + 2) + (((3 * (3x - ((~x + 1) div (2 + (x div 4))))) div 2) div 2))
1: ((2x + 1) + (((3 * ((2x + 2) - ((x div 2) div 3))) div 2) div 2))
1: (4 + (((5 * (~2 + (3 * (x - ((~x + 1) * (x div 2)))))) div 2) div 2))
1: ((5x + 1) + (((x3 + ~x) div 2) div 3))
1: (1 + ((((x3 + ~x) div 2) div 3) + loop(\(x,i).x2,1,(2x + 4))))
1: ((2x + 3) + (((x2 + ~x) div 2) div 3))
1: (3 + (((x2 + ~2x) div (1 + (x div 4))) div (x + 1)))
1: ((x + 2) + (((3 * (x - ((x2 + x + 1) div (2 + (x div 2))))) div 2) div 2))
1: ((x + 2) + (((3 * (x - ((2 * (~x + (x div 5))) div 3))) div 2) div 2))
1: (4 + ((((x2 + 7x + 6) * (2 + (if x <= 0 then 1 else x))) div 2) div 3))
1: ((x + 3) + (((3x2 + 57x + 102) div 2) div 2))
1: ((x + 1) + (((x4 + x3 + 2x2 + 2x) div 2) div 3))
1: ((x + 3) + (((2x * (1 + (2 * i))) div (2 + i)) div (1 + i)))
1: ((3x2 + 16x) + (((x3 + 3x2 + 2x) div 2) div 3))
1: ((x + 1) + ((((x3 + 3x2 + 2x) div 2) div 3) + (x2 div (x + 2))))
1: ((x + 1) + (((7x3 + 15x2 + 8x) div 2) div 3))
1: ((x + 2) + (((4x3 + 27x2 + 51x + 28) div 2) div 3))
1: (4 + (((x3 + ~3x2 + 2x) div 2) div 3))
1: ((2x + 1) + (((x4 + ~4x3 + 4x2) div 2) div 2))
1: (3 + (((15 * (x - (x div ~14))) div 2) div 2))
1: ((x + 1) + (((4x2 + 12x + 8) div 5) div 5))
1: ((x + 1) + ((2x2 div (x + 2)) div 3))
1: ((x + 1) + (((x3 + x2) div 2) div (4x + ~1)))
1: ((x + 1) + ((((x + 1) * ((1 + (x div 2)) div 3)) div 2) div 2))
1: ((x + 1) + (((3 * ((x + (x div 2)) div 4)) div 2) div 2))
1: ((x + 2) + (((3 * ((x + ((x div 2) mod 2)) div 3)) div 2) div 2))
1: ((x + 2) + (((((2 - (x div 2)) div 2) * (x div 3)) div 2) div 2))
1: ((x + 1) + ((((x + 1) * ((x2 + 4x + 3) div 2)) div 2) div 2))
1: ((x + 2) + (((3 * ((~1 + (x div 2)) div 2)) div 2) div 2))
1: ((x + 2) + (((3 * ((3 * (1 + ((1 + (x div (1 + ((if (x mod 2) <= 0 then 3 else ~2) mod (x + 1))))) div 2))) div 2)) div 2) div 2))
1: (1 + ((((3 * ((3 * (1 + ((2 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 3))) div 2)) div 2) div 2) + (x mod 2)))
1: ((x + 2) + (((3 * ((3 * (1 + (((1 + (((2 * (1 + ((1 + ((1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,(2x + 1))) div 2)) div 2))) div 3) + (x mod 2))) div 2) div 2))) div 2)) div 2) div 2))
1: ((4x + 1) + (((x * ((x2 + ~2x) div 4)) div 2) div 3))
1: ((x + 2) + ((((x + 3) * ((x3 + 19x2 + 50x + 32) div 2)) div 2) div 3))
1: (1 + (((((((x + 1) div 2) div 2) * (x div 2)) div 2) div 2) + (x div 4)))
1: ((x + 2) + ((((((x + ~1) div 2) div 2) * (if x <= 0 then 1 else x)) div 2) div 5))
1: ((x + 2) + (((x * (((x + ~1) div 2) div 2)) div 2) div 5))
1: ((x + 2) + (((3 * ((x2 div 2) div 3)) div 2) div 7))
1: ((x + 2) + (((3 * (x div 2)) div 2) div 2))
1: ((x + 1) + (((x * (x div 2)) div 2) div (2 + (x div 2))))
1: ((x + 2) + ((((3x + 2) * (x div (~2 + ((~x + 2) div 4)))) div 2) div 2))
1: ((x + 2) + ((((x + ~1) * (x div 8)) div 2) div 2))
1: ((x + 1) + ((((x + 1) * (x div (3 * (8 - (x div 2))))) div 3) div 2))
1: ((2x + 2) + (((3x * ((x + ~1) mod 3)) div 2) div 2))
1: ((x + 1) + ((((x + ~1) * (x mod ((x + ~1) - (x mod 12)))) div 2) div 2))
1: ((x + 2) + (((3 * (if (x + ~2) <= 0 then x else (2 - ((~x + 1) div 3)))) div 2) div 2))
1: ((x + 1) + (((3 * (if x <= 0 then 1 else (2 + ((x - ((x div 3) mod 2)) div 2)))) div 2) div 2))
1: ((x + 1) + (((x * loop(\(x,i).((x + 1) + (x div 2)),(x + ~2),0)) div 2) div 2))
1: ((x + 1) + ((((x + ~1) * loop(\(x,i).(x * (x - i)),2,(x + ~1))) div 2) div 3))
1: ((x + 1) + ((((x + 1) * loop(\(x,i).((x2 + ~x) div 2),2,(x + ~1))) div 3) div 5))
1: ((x + 5) + ((x2 div 2) div (x + 3)))
1: ((x + 1) + ((x2 div 3) div (x + 3)))
1: (3 + ((x2 div 4) div (x + 3)))
1: ((x + 2) + (((5 * compr(\x.(1 - (x mod (1 + (4 * (x mod 5))))),x)) div 2) div 2))
1: ((x + 1) + (((3 * compr(\x.(1 - (x mod (1 + (2 * (x mod (2 + (x mod 2))))))),x)) div 2) div 2))
1: (2 + (((((x + 1) div 2) div 2) div 2) + (x div 4)))
1: (1 + (((((x + 1) div 2) div 2) div 2) + (x mod 2)))
1: ((x + 2) + (((((x2 + ~x + ~1) - ((x2 + 2x) div 5)) div 2) div 2) div 2))
1: (3 + ((((33x + 480) div 2) div 2) div 2))
1: (4 + ((((2x4 + ~x3 + 2x + ~1) div 2) div 2) div 2))
1: ((x + 1) + (((((x + 1) * (1 + (((1 + (x div 2)) div 2) div 2))) div 2) div 2) div 2))
1: ((x + 2) + (((((x + ~1) * (x + (x div 5))) div 2) div 2) div 2))
1: ((x + 1) + ((((x2 + 3x + 2) div 2) div 2) div 2))
1: ((x + 1) + ((((x2 + 2x) div 2) div (2 + (x mod 2))) div 3))
1: (3 + (((((x + 1) * (~1 + (2 * ((x - (x div 4)) mod 2)))) div 2) div 2) div 2))
1: ((x + 1) + (((((x + 2) * (~2 + (x div 2))) div 2) div 2) div 5))
1: (2 + ((((3 * ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (2 + (x div (1 + (2 * (1 + (2 * ((x div 2) mod 2))))))))) div 2) div 2) div 2))
1: ((x + 1) + ((((((x + 2) div 3) * (1 + (x div 2))) div 2) div 2) div 2))
1: ((x + 2) + ((((x * (((x + ~1) div 2) div 2)) div 2) div 2) div 3))
1: ((x + 2) + ((((((x + 1) * (x2 div 4)) div 2) div 2) div 2) div 3))
1: ((x + 2) + ((((((x + ~1) * (x div 2)) div 2) div 2) div 2) div 2))
1: ((x + 2) + ((((((loop(\(x,i).(x + (x div 2)),(x + ~1),2) div 2) div 2) div 2) div 2) div 2) div 2))
1: ((x + 1) + ((((1 - (2 * (x mod 5))) mod (x + 3)) div 2) div 2))
1: ((x + 2) + ((((1 - (x div 2)) mod (x + 2)) div 2) div 2))
1: ((x + 1) + ((((1 - (x div 4)) mod (x + 1)) div 2) div 2))
1: ((x + 1) + ((((2 - (x div 2)) mod (x + 1)) div 2) div 2))
1: ((x + 2) + ((((2 - (x div 2)) mod (x + 1)) div 2) div 2))
1: (x + (((((2 - (x div 2)) mod (x + 2)) div 2) div 2) + ((x + 1) div 3)))
1: (1 + (((((2 * (~2 + ((x div 2) mod 3))) mod (x + 1)) div 2) div 2) + (x mod 2)))
1: (1 + (((((2x + ~2) mod (4 + (x div 2))) div 2) div 2) + (if x <= 0 then 1 else 2)))
1: ((x + 1) + ((((2 * (x mod ((~x + 2) + (x mod 10)))) mod (x + 1)) div 2) div 2))
1: ((x + 1) + (((((2 - (x div 2)) div 2) mod (x + 2)) div 2) div 2))
1: ((x + 2) + ((((if x <= 0 then 2 else (1 + loop(\(x,i).(x * (x + i)),2,3))) mod (x + 2)) div 2) div 2))
1: (3x + (((x mod (2 + (x div 3))) div 2) div 2))
1: (3 + ((loop(\(x,i).((x + 2) + (((x + 1) div 2) div 3)),(x + 5),1) div 2) div 2))
1: (4 + ((loop(\(x,i).((x + 2) + (x div 9)),x,1) div 2) div 2))
1: (1 + (((loop(\(x,i).(1 + ((1 + ((x + 1) mod (1 + (x div (2 + (x mod (2 + (x mod 2)))))))) mod (x + 1))),2,x) div 2) div 2) + ((x div 3) mod 2)))
1: ((x + 1) + ((loop(\(x,i).(2x + (i mod 2)),x,(1 + (x mod 2))) div 2) div 2))
1: ((x + 1) + ((loop(\(x,i).(x + (if ((x + 1) mod 10) <= 0 then (x + 2) else 1)),x,x) div 2) div 2))
1: (1 + (((loop(\(x,i).(x + (if x <= 0 then 1 else ((x * (x mod 2)) + (x div 2)))),x,1) div 2) div 2) + (x mod 2)))
1: ((x + 2) + ((loop(\(x,i).((6x + 4) - ((2x + 4) div 5)),x,3) div 2) div 3))
1: ((x + 1) + ((loop(\(x,i).(x - (2 * (~x + (i mod 2)))),x,1) div 2) div 2))
1: ((x + 1) + ((loop(\(x,i).(x - ((i * i) div ~2)),x,1) div 2) div 2))
1: (3 + ((loop(\(x,i).(2x + 2),(x div 2),(x mod 2)) div 2) div 2))
1: ((x + 1) + ((loop(\(x,i).(x2 + x),1,(18x + 8)) div 2) div 3))
1: ((x + 2) + ((loop(\(x,i).(x * (0 - i)),x,1) div 2) div 2))
1: ((x + 2) + ((loop(\(x,i).(x * (~1 + (2 * i))),x,(x + 2)) div 2) div 2))
1: (3 + ((loop(\(x,i).x3,1,((2x + 1) * (1 - (2 * (x mod 2))))) div 2) div 2))
1: (3 + ((loop(\(x,i).x2,1,(2 + loop(\(x,i).4x,x,2))) div 2) div 2))
1: (x + (((x div 2) div 3) + (x div 4)))
1: (1 + (((x div 2) div 3) + (x mod 4)))
1: (2 + (((x div 2) div 3) + (if x <= 0 then 0 else 1)))
1: (2 + (((x div 2) div 3) + (if x <= 0 then 1 else 2)))
1: ((x + 3) + ((x div 2) div 3))
1: (x + (((x div 2) div 3) + (x div 2)))
1: (x + (((x div 2) div 3) + (x div 5)))
1: (x + (((x div 2) div 3) + (i div 2)))
1: (x + (((x div 2) div 3) + (4 mod (1 + (x div 2)))))
1: (x + (((x div 2) div 3) + (if x <= 0 then 0 else 1)))
1: (2x + ((x div 2) div 3))
1: ((3x + 3) + (((x div 2) div 5) + (x div 4)))
1: ((x2 + 2x + 2) + ((x div 2) div 5))
1: ((x + 6) + ((x div 2) div 5))
1: (3x + ((x div 2) div (3 + (x mod 8))))
1: (4 + ((x div 2) div 7))
1: (2x + (((x div 2) div 7) + (x div 2)))
1: (3 + ((x div 3) div (3 + ((x + ~1) mod 3))))
1: ((3x + 2) + ((x div 3) div (1 + (x div 4))))
1: ((x + 1) + (((4 + (x div 4)) mod (x + 1)) div 2))
1: ((x + 2) + (((1 + (2 * ((1 + ((5 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 19)) div 2))) mod (x + 1)) div 2))
1: (1 + ((((2x + 1) mod (2 + (x div 2))) div 2) + (x mod 2)))
1: (1 + ((((1 + ((x + 1) div 2)) mod 5) div 2) + (x mod 2)))
1: ((x + 2) + (((1 - (2x mod (1 + (x div 4)))) mod (x + 1)) div 3))
1: (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) + loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)))
1: (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) + loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x)))
1: (3 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))
1: (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) + (2 * ((2x + 1) div (3 + (x div 4))))))
1: ((x + 1) + (((2x + ~1) mod (4 + (x div 4))) div 2))
1: ((x + 2) + (((~2 + ((x div 2) mod 2)) mod (x + 1)) div 2))
1: (1 + ((((x + ~1) mod (1 + (2 * (2 + (x mod 6))))) div 2) + (x mod 2)))
1: (1 + ((((x + ~1) mod (1 + (2 * ((x2 div 2) mod (x + 2))))) div 2) + (x mod 2)))
1: ((x + 2) + (((x + ~1) mod (1 + (x div 2))) div 2))
1: (1 + ((((x + ~1) mod (~1 + (5 * (if ((x + 1) mod 5) <= 0 then 2 else 0)))) div 2) + (x mod 2)))
1: ((x + 2) + (((x - (x div 3)) mod 3) div 2))
1: (4 + (((3 * (1 + ((2 - (x mod 2)) mod (1 + (if (~1 + (x mod 3)) <= 0 then 2 else 0))))) mod 5) div 2))
1: (1 + ((((2 * (1 + ((x div (1 + (2 * (1 + (2 * (x mod 2)))))) mod 2))) mod (x + 1)) div 2) + (x div 5)))
1: (3 + ((((1 + (if (x mod 2) <= 0 then 2x else 1)) * (if x <= 0 then 1 else 2)) mod (1 + (x div 2))) div 2))
1: ((x + 1) + ((~2x mod (2 + (x div 4))) div 2))
1: ((x + 1) + ((32 mod (x + 1)) div 2))
1: ((2x + 2) + (((2 * (((x + 4) + ((2 * (2x - ((x div 2) div ~5))) div 5)) div 2)) mod 3) div 2))
1: (1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) + ((2x + 1) div (3 + (x div 4)))))
1: (2 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) + ((2x + 1) div (3 + (x div 4)))))
1: (3 + ((2x mod (2 + (x div 3))) div 2))
1: (3 + ((x2 mod (x + 5)) div 2))
1: ((x + 1) + ((x2 mod (1 + ((x + (x div 2)) div 2))) div 2))
1: ((x + 1) + ((x2 mod (~1 + (2 * (x div 3)))) div 2))
1: (1 + (((x2 mod (x - ((~x + 2) div 2))) div (x + 1)) + (x mod 2)))
1: ((x + 1) + ((((~x + 2) div 4) mod (x + 1)) div 2))
1: (3 + ((((x + ~1) div 2) mod (2 + (x mod 3))) div 2))
1: ((x + 1) + ((((x div 2) div ~2) mod (x + 1)) div 2))
1: ((x + 2) + ((((x div 2) div ~2) mod (x + 1)) div 2))
1: ((x + 1) + ((((x div 2) div ~2) mod (x + 2)) div 2))
1: (2 + ((((x div 2) mod (1 + (~x mod 4))) div 2) + (if x <= 0 then 1 else 2)))
1: (1 + ((((x div 3) mod 3) div 2) + ((x mod 3) div 2)))
1: (1 + ((((x div (~2 + (x mod ~2))) mod (2 + (x div 3))) div 2) + (x mod 2)))
1: (1 + ((((((x + ~1) div 2) mod (~4 - (x div 4))) mod 3) div 2) + (x mod 2)))
1: (x + ((((if (~2 + (x div 3)) <= 0 then 2 else (x div 2)) mod (x + 1)) div 2) + (if x <= 0 then 1 else 4x)))
1: (3 + (((if (x mod 2) <= 0 then (x div 2) else (2x + 1)) mod 5) div 2))
1: (3 + ((loop(\(x,i).x5,1,(x mod 3)) mod (x + 1)) div 2))
1: (4 + ((loop(\(x,i).4x,x,1) mod 29) div 3))
1: ((x + 2) + ((loop(\(x,i).2x,(x div 2),~2) mod (x + 1)) div 2))
1: (1 + (((loop(\(x,i).2x,x,(2 - ((x div 2) mod 2))) mod (x + 1)) div 2) + (x mod 2)))
1: ((x + 1) + ((x mod 3) div 2))
1: (3 + ((x mod 5) div 2))
1: (4 + ((x mod 9) div 2))
1: (3x + ((x mod (1 + (x div 2))) div 2))
1: ((x + 2) + ((x mod (1 + (x div 2))) div 3))
1: ((x + 1) + ((x mod (2 + (x div 2))) div 3))
1: ((x + 2) + ((x mod (2 + (x div 2))) div 3))
1: (3 + ((x mod (1 + (x div 4))) div 2))
1: ((x + 2) + ((x mod (1 + (x div 4))) div 2))
1: (3 + ((x mod (1 + (x div (2 + ((x + 1) mod 5))))) div 2))
1: ((x + 1) + ((x mod (2 + (x div (2 + ((~2x + 1) mod (2 + (x div 4))))))) div 2))
1: (4 + ((x mod (2 + ((x + 1) mod 4))) div 2))
1: ((3x + 2) + ((x mod (1 + ((x + 2) mod 4))) div 2))
1: (1 + (((x mod (1 + ((2 - (x mod 8)) mod (x + 1)))) div 3) + (x mod 2)))
1: (2 + (((x mod (1 + ((~x + 2) mod 4))) div 2) + (x mod 2)))
1: (1 + (((x mod (1 + (11 mod (x + 1)))) div 3) + (x mod 2)))
1: (4 + ((x mod (2 + ((~1 + loop(\(x,i).2x,x,4)) mod (x + 1)))) div 2))
1: ((x + 1) + ((x mod (2 + (6 mod (1 + (x div 2))))) div 2))
1: (1 + (((x mod (1 + (((~x2 + x) div 2) mod 4))) div 2) + (x div 3)))
1: (1 + (((x mod (2 + ((x2 div 4) mod (x + 1)))) div 2) + (x div 5)))
1: (4 + ((x mod ~4) div 2))
1: (1 + (((x mod (~1 + (2 * ((x + ~1) div 3)))) div 2) + (x mod 2)))
1: (1 + (((x mod ((x + 1) - (6 * (x div 7)))) div 2) + (x mod 3)))
1: ((x + 4) + ((x mod (x - ((x + ~1) mod 8))) div 2))
1: (1 + (((x mod (if (x + ~2) <= 0 then 1 else (x div 3))) div 2) + (x mod 2)))
1: ((8x + 1) + ((i mod 3) div 2))
1: ((x + 1) + ((i mod 3) div 2))
1: ((4x + 1) + ((i mod 3) div 2))
1: ((x + 4) + ((if (~2 + (x div 3)) <= 0 then 0 else x) div 5))
1: ((3x + 2) + ((if (~2 + (x div 3)) <= 0 then x else (x + 2)) div 3))
1: ((x + 1) + ((if (x + ~4) <= 0 then 1 else x) div 4))
1: (2x + ((if (x mod 2) <= 0 then (x div 2) else 1) div 3))
1: (1 + (((if x <= 0 then 2 else (1 + (x mod (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))) div 2) + (x mod 2)))
1: (3 + ((if x <= 0 then 2 else (x * (x div 4))) div 2))
1: ((x + 2) + (loop(\(x,i).((x + 1) + (2 * (6 - (x div 3)))),2,x) div 2))
1: ((x + 2) + (loop(\(x,i).((4x + 1) + ((x2 + x) div 2)),x,1) div 2))
1: (4 + (loop(\(x,i).((x + 2) + ((x div 2) div 3)),x,1) div 2))
1: (4 + (loop(\(x,i).((x + 2) + (x div 9)),x,1) div 3))
1: ((x + 1) + (loop(\(x,i).(x + 4),(~2 + ((x + ~1) div 3)),x) div 3))
1: ((x + 1) + (loop(\(x,i).(2x + i),(x + 2),2) div 5))
1: (4 + (loop(\(x,i).(~x + 17),x,(x + 2)) div 2))
1: ((x + 1) + (loop(\(x,i).((x + ~1) + loop(\(x,i).(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 1))),2,x)),x,x) div 2))
1: ((x + 2) + (loop(\(x,i).(x + i - ((~x + 2) div 4)),x,2) div 2))
1: ((x + 1) + (loop(\(x,i).(x + ((x + (i div 2)) * i)),(x + ~1),1) div 2))
1: (2x + (loop(\(x,i).(x2 + 1),2,(x + ~1)) div 3))
1: ((x + 3) + (loop(\(x,i).(x + ((x + (i * i)) div (1 + (x div 2)))),x,1) div 3))
1: ((3x + 2) + (loop(\(x,i).(2 + ((x2 + x) div 2)),2,x) div 3))
1: ((x + 1) + (loop(\(x,i).(x + ((x * (1 + i)) div (2 + (x div 4)))),x,1) div 2))
1: ((x + 1) + (loop(\(x,i).((4x div (1 + i)) + i),x,1) div 3))
1: ((x + 1) + (loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,x) div 5))
1: ((x + 2) + (loop(\(x,i).(x + (if (~2 + (x div 3)) <= 0 then 1 else 2)),x,(x + 1)) div 2))
1: ((x + 2) + (loop(\(x,i).(x + (if ((x div 3) mod 2) <= 0 then 3 else 2x)),x,1) div 2))
1: ((2x + 1) + (loop(\(x,i).(x + loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),i,x)),x,1) div 2))
1: (3 + (loop(\(x,i).(x + loop(\(x,i).(4 * ((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1))),1,i)),x,0) div 2))
1: ((x + 1) + (loop(\(x,i).(loop(\(x,i).(x * i),x,i) + i),x,0) div 2))
1: ((x + 1) + (loop(\(x,i).(0 - (3 * ((~x + ((~x + 2) div 4)) div 2))),2,x) div 2))
1: ((x + 1) + (loop(\(x,i).((4x + 3) - ((~2x + 2) div 5)),2,x) div 2))
1: ((x + 2) + (loop(\(x,i).(2x - (x div 4)),3,x) div 5))
1: (4 + (loop(\(x,i).(2x - (i mod 2)),(x + ~1),1) div 2))
1: ((x + 1) + (loop(\(x,i).(2x - (if x <= 0 then 0 else 1)),(x + ~1),(x + ~2)) div 2))
1: (4 + (loop(\(x,i).(~1 + loop(\(x,i).(2x2 + 4x + ~4),2,x)),(x + 1),1) div 2))
1: ((x + 1) + (loop(\(x,i).((x + 1) - ((~4x + 2) div (x + 3))),2,x) div 2))
1: (4 + (loop(\(x,i).((x + 1) - (((x div 2) div ~2) div 2)),x,1) div 3))
1: ((x + 1) + (loop(\(x,i).(4x + 4),(x + 1),(4x + 4)) div 5))
1: (3 + (loop(\(x,i).(4x + 2),x,1) div 2))
1: ((x + 2) + (loop(\(x,i).(2 * (2x + (x div (if i <= 0 then 1 else i)))),x,3) div 5))
1: ((x + 1) + (loop(\(x,i).(2x + 2),(2 * (x div 7)),1) div (x + 1)))
1: (x + ((loop(\(x,i).(2x + 2),x,2) div (x + 2)) + (x div 2)))
1: ((x + 1) + (loop(\(x,i).(2x + 4),(x + ~1),0) div 5))
1: (1 + ((loop(\(x,i).(2x + 4),x,1) div 2) + (x mod 2)))
1: (4 + (loop(\(x,i).(2 * (x + i)),x,x) div 2))
1: ((x + 1) + (loop(\(x,i).(3 * ((x + ~1) + (2 * i))),(x + ~1),x) div 2))
1: ((x + 1) + (loop(\(x,i).(2 * ((x2 + x) - (x div 3))),x,1) div 2))
1: (4 + (loop(\(x,i).(2x + ~2),x,x) div 2))
1: (2 + ((loop(\(x,i).(x2 + ~2x),3,x) div (x + 1)) + (x div 3)))
1: (3 + (loop(\(x,i).(2 * (x - ((x + (x div 3)) div 5))),(x + ~1),2) div 2))
1: ((x + 1) + (loop(\(x,i).(4 * (2x - (x mod 2))),x,1) div 3))
1: (17 + (loop(\(x,i).2x2,(if x <= 0 then 1 else 2x),2) div 2))
1: (3 + (loop(\(x,i).(2 * (((x + ~1) + ((2 * (3 + (((~1 + (6 * (1 + ((1 + (x div (1 + (x mod (1 + (x mod (1 + (x div (2 * (2 - (x mod 2))))))))))) div 2)))) div 2) div 2))) div 3)) div 2)),x,1) div 2))
1: ((x + 1) + (loop(\(x,i).(x * (x div 2)),2,x) div 3))
1: ((x + 1) + (loop(\(x,i).2x,(x + ~1),1) div 2))
1: ((x + 2) + (loop(\(x,i).2x,x,1) div 8))
1: ((x + 2) + (loop(\(x,i).2x,x,(2 + (x mod 2))) div (x + 1)))
1: ((x + 1) + (loop(\(x,i).2x,x,(x + 1)) div (x + 2)))
1: (4 + (loop(\(x,i).2x,x,(5x + ~8)) div 2))
1: (1 + ((loop(\(x,i).2x,x,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2) + (x mod 2)))
1: ((x + 1) + (loop(\(x,i).x2,1,(1 + loop(\(x,i).(2x + 4),x,4))) div 3))
1: (4 + (loop(\(x,i).x2,1,loop(\(x,i).(2x + ~4),x,1)) div 3))
1: ((10x + 2) + (loop(\(x,i).x2,2,(3x + 2)) div 2))
1: ((x + 2) + (loop(\(x,i).x2,(x + ~1),~2) div (x + 2)))
1: (4 + (loop(\(x,i).x2,2x,(5x + 5)) div 2))
1: (4 + (loop(\(x,i).(x * i),x,(x + ~1)) div 2))
1: (3 + (loop(\(x,i).((x2 + x) div 2),1,loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1)) div 3))
1: ((x2 + x + 1) + (loop(\(x,i).((x2 + ~x) div 2),2,(x + 1)) div 3))
1: ((x2 + 3x + 5) + (loop(\(x,i).((x2 + ~x) div 2),2,(x + 1)) div 3))
1: ((2x2 + 2x + 1) + (loop(\(x,i).((x2 + ~x) div 2),2,(x + 1)) div 3))
1: ((x + 1) + (loop(\(x,i).((x2 + ~x) div 2),2,(x + 1)) div 3))
1: ((x2 + 2x + 3) + (loop(\(x,i).((x2 + ~x) div 2),2,(x + 2)) div 3))
1: ((x + 2) + (loop(\(x,i).(x2 div 2),(x + 1),x) div 3))
1: ((x + 5) + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2))
1: ((10x + 11) + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2))
1: ((x + 3) + (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) div 3))
1: (1 + ((x div 2) + (x mod 3)))
1: (10 + (x div 2))
1: (2 + ((x div 2) + (x div 4)))
1: (2x + ((x div 2) + ((~x + 1) mod 4)))
1: ((3x + 1) + (x div 2))
1: (x + ((x div 2) + (if x <= 0 then 0 else 1)))
1: (x + ((x div 2) + (if x <= 0 then 1 else 2)))
1: (2 + ((x div 3) + ((x div 2) mod 3)))
1: ((x div 3) + (x div 2) + (x div 5))
1: (1 + ((x div 3) + (x mod 2)))
1: ((x + 3) + (x div 3))
1: (x + ((x div 3) + ((x + 1) mod 3)))
1: (2 + ((x div 4) + ((x div ~2) mod 2)))
1: (7 + (x div 4))
1: (9 + (x div 4))
1: ((2x + 2) + ((x div 4) + (x div 3)))
1: ((2x + 1) + (x div 4))
1: ((x2 + 1) + (x div 4))
1: ((x + 4) + (x div 4))
1: ((x + 6) + (x div 4))
1: ((5x + 4) + (x div 4))
1: ((x + 10) + (x div 4))
1: ((3x + 2) + (x div 4))
1: (x + ((x div 4) + i))
1: (1 + ((x div 5) + (x mod 3)))
1: (1 + ((x div 5) + (x mod 2)))
1: ((x + 3) + (x div 5))
1: ((x + 1) + ((x div 5) + (x div 2)))
1: ((x + 8) + (x div 5))
1: ((3x + 2) + (x div 5))
1: (x + ((x div 5) + (i div 2)))
1: (x + ((x div 5) + i))
1: ((x + 1) + (x div (5 + ((~1 + (x div 2)) mod 3))))
1: (4 + (x div (5 + (((x + ~1) div 2) mod 2))))
1: ((x + 1) + (x div (5 + ((((x + ~1) div 2) div 2) mod 3))))
1: ((x + 2) + (x div (6 + (x mod 2))))
1: (x + ((x div (6 - (x mod 2))) + (x div 2)))
1: ((x + 1) + (x div (6 - (x mod 2))))
1: ((x + 2) + (x div (3 + ((x div 2) div 3))))
1: ((x + 3) + (x div (3 + ((x div 2) div 3))))
1: ((x + 2) + (x div (4 + ((x mod 3) div 2))))
1: (2x + ((x div (4 + (x div 4))) + ((x + 2) div 3)))
1: (x + ((x div (4 + (x div 4))) + ((x + 2) div 3)))
1: (x + ((x div (4 + (x div 4))) + (if x <= 0 then 1 else 4x)))
1: ((x + 1) + (x div (2 + ((x div 4) + ((x div ~2) mod 2)))))
1: ((x + 2) + (x div (4 + (x div (4 - (x mod 2))))))
1: ((x + 1) + (x div (4 + ((~1 + loop(\(x,i).~2x,x,4)) mod (x + 1)))))
1: ((x + 1) + (x div (2 + (((x + ~1) mod 3) + (x mod 2)))))
1: ((2x + 2) + (x div (3 + (2x mod 5))))
1: ((x + 1) + (x div (4 + (x2 mod (x + 4)))))
1: ((x + 2) + (x div (3 + (((x + (x div 4)) div 3) mod 2))))
1: ((x + 1) + (x div (4 + (((x + 1) div 2) mod 8))))
1: ((x + 4) + (x div (3 + ((x div 4) mod 2))))
1: ((x + 1) + (x div (4 + ((x div 4) mod 2))))
1: ((x + 3) + (x div (4 + ((x div 5) mod 2))))
1: (3 + (x div (3 + (x mod 2))))
1: ((x + 1) + (x div (4 + (x mod 2))))
1: ((x + 2) + (x div (4 + (x mod 2))))
1: (x + ((x div (4 + (x mod 2))) + ((x + 1) div 2)))
1: ((x + 2) + (x div (3 + (if (~4 + (x div 2)) <= 0 then 2 else 1))))
1: (2x + (x div (3 + (if (~2 + (x div 4)) <= 0 then 0 else 2))))
1: (3 + (x div (4 - (x mod 2))))
1: (4 + (x div (4 - (x mod 2))))
1: ((x + 2) + (x div (9 - (x div 2))))
1: ((x + 2) + (x div (2 + i - (x mod 2))))
1: (3 + (x div 7))
1: ((2x + 1) + (x div 7))
1: (x + ((x div 7) + ((x + 1) div 3)))
1: (2 + ((x div 7) + (x mod 2)))
1: ((3x + 1) + (x div 7))
1: ((3x + 2) + (x div 7))
1: (4 + (x div 9))
1: ((x + 8) + (x div 9))
1: (4 + (x div 13))
1: ((x + 1) + (x div (1 + (2 * (2 + ((x div ~4) mod 2))))))
1: ((x + 2) + (x div (1 + (2 * (4 - (x div 2))))))
1: ((x + 1) + (x div (2 + (3 * (8 - (x div 2))))))
1: (x + ((x div (1 + (4 * i))) + i))
1: ((x + 2) + (x div (1 + (2 * (i div 2)))))
1: (1 + ((x div (2 + ((x + 1) div (2 * (1 + (x mod (1 + (x mod (3 + (x mod 2)))))))))) + (x mod 2)))
1: ((x + 1) + (x div (1 + ((x + 2) div 7))))
1: ((x + 1) + (x div (2 + (((x div 2) * (x div 2)) div 5))))
1: ((x + 2) + (x div (2 + ((x div 2) div 3))))
1: (x + ((x div (2 + ((x div 2) div 3))) + ((1 + (x div 2)) div 3)))
1: (1 + ((x div (2 + ((x div 2) div (1 + ((x mod (2 + ((~x + 1) mod 4))) div 2))))) + (x mod 2)))
1: (2 + ((x div (1 + (x div 3))) + (x div 3)))
1: (1 + ((x div (1 + (x div 4))) + (x div 4)))
1: ((x + 2) + (x div (2 + (x div 4))))
1: ((x + 1) + (x div (2 + (x div 7))))
1: (1 + ((x div (2 + (x div (1 + (2 * ((x div 2) mod (1 + (x mod (1 + ((~x + 2) mod 4)))))))))) + (x mod 2)))
1: (1 + ((x div (2 + (x div (2 + (((x2 div 2) mod (2 + (x div 2))) div 2))))) + (x mod 2)))
1: (1 + ((x div (2 + (x div (2 + ((x mod 3) div 2))))) + (x mod 2)))
1: (1 + ((x div (2 + (x div (1 + ((x mod (1 + ((2 - (x mod 4)) mod (x + 1)))) div 2))))) + (x mod 2)))
1: ((x + 1) + (x div (2 + (x div (1 + ((x mod (1 + ((2 - (x mod 4)) mod (x + 1)))) div 2))))))
1: ((x + 2) + (x div (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))))))
1: (1 + ((x div (2 + (x div (1 + ((2 - (x div 2)) mod 4))))) + (x mod 2)))
1: (1 + ((x div (2 + (x div (2 + ((x2 + 2x) mod 6))))) + (x mod 2)))
1: (2 + ((x div (2 + (x div (2 + ((x2 + 2x) mod 6))))) + (x mod 2)))
1: ((x + 1) + (x div (2 + (x div (2 + (x2 mod 5))))))
1: (1 + ((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 1 else 2)))
1: ((x + 1) + (x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))))
1: (x + ((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)))
1: (x + ((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 1 else 2)))
1: (4 + (x div (2 + (x div (1 + ((x div 2) mod (1 + (x mod 4))))))))
1: (1 + ((x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))) + (x mod 2)))
1: ((x + 2) + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))))
1: ((x + 3) + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))))
1: ((x + 2) + (x div (2 + (x div (2 + (x mod 2))))))
1: ((x + 1) + (x div (2 + (x div (2 + (x mod (1 + ((~x + 2) mod 4))))))))
1: (1 + ((x div (2 + (x div (2 + (if (x mod 2) <= 0 then ((x mod 3) div 2) else 2))))) + (x mod 2)))
1: ((x + 1) + (x div (2 + (2 mod (1 + (x div 2))))))
1: ((x + 1) + (x div (2 + (5 mod (1 + (x div 2))))))
1: ((x + 1) + (x div (1 + ((2x + 1) mod 9))))
1: ((x + 2) + (x div (2 + ((x2 + 2) mod 7))))
1: ((x + 1) + (x div (2 + ((1 + (((x div 2) - ((x div 4) mod 2)) mod 3)) mod (x + 1)))))
1: ((x + 2) + (x div (2 + ((~x + 2) mod 4))))
1: (1 + ((x div (2 + ((x - ((x2 + ~2) div (x + 6))) mod 3))) + (x div 5)))
1: ((x + 1) + (x div (1 + ((x - ((x2 + ~1) mod 16)) mod (x + 1)))))
1: ((x + 2) + (x div (1 + ((x2 + 2x) mod (1 + ((2 - (x div 2)) mod 4))))))
1: (4 + (x div (1 + ((x2 + 2x) mod 6))))
1: ((x + 1) + (x div (2 + ((x2 + 2x) mod 6))))
1: ((x + 1) + (x div (1 + ((x * i) mod 7))))
1: ((x + 2) + (x div (2 + ((x div 2) mod 3))))
1: ((x + 2) + (x div (1 + ((x div 2) mod (2 + (x mod 2))))))
1: (1 + ((x div (1 + (loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)))) + (x mod 2)))
1: ((x + 2) + (x div (1 + (x mod 2))))
1: (2 + ((x div (2 + (x mod 2))) + (if x <= 0 then 0 else 1)))
1: ((x + 2) + (x div (2 + (x mod 2))))
1: (4 + (x div (1 + (x mod 3))))
1: (1 + ((x div (2 + (x mod 3))) + (x div 4)))
1: ((x + 1) + (x div (2 + (x mod 3))))
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1: (7x + (if (~1 + (i mod 3)) <= 0 then 2 else 1))
1: (3x + (if (~1 + (i mod 3)) <= 0 then 2 else 1))
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1: ((x + 3) + (if (x + ~1) <= 0 then 8x else 23))
1: ((x2 + 1) + (if (x + ~1) <= 0 then x else 2))
1: ((x + 1) + (if (x + ~1) <= 0 then x else 2))
1: ((x + 3) + (if (x + ~1) <= 0 then x else 2))
1: ((x + 5) + (if (x + ~1) <= 0 then x else 2))
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1: ((x + 3) + (if (x + ~1) <= 0 then x else 3))
1: ((x + 1) + (if (x + ~1) <= 0 then x else (1 + (x * (2 + (x mod 2))))))
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1: ((x + 2) + (if (x + ~2) <= 0 then 1 else 2))
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1: (1 + ((if (x mod 3) <= 0 then 2 else 0) + (x mod 2)))
1: (2x + ((if (x mod 3) <= 0 then 2 else 1) + (x div 3)))
1: (1 + ((if (x mod 3) <= 0 then (1 - (x div (~2 + ((~x + 2) div 4)))) else 1) + ((x + 1) div 3)))
1: (1 + ((if (x mod 3) <= 0 then (2 * ((x div 4) mod 2)) else 1) + ((x div 2) mod 2)))
1: ((x2 + ~2x + 1) + (if (x mod 4) <= 0 then 0 else 2))
1: ((x + 2) + ((if (x mod 4) <= 0 then 1 else 2) + (x div 2)))
1: (2 + ((if (x mod 4) <= 0 then 2 else 0) + (x div 3)))
1: (x + ((if (x mod 4) <= 0 then 2 else 0) + ((1 + (x div 2)) div 2)))
1: (2x + ((if (x mod 4) <= 0 then 2 else 1) + (x div 3)))
1: ((x + 1) + (if (x mod 4) <= 0 then (x mod 9) else 1))
1: ((x + 1) + (if (x mod 4) <= 0 then x else 1))
1: ((x + 2) + (if (x mod 4) <= 0 then x else (x div 2)))
1: ((2x + 1) + (if (x mod 7) <= 0 then 1 else (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))
1: ((x + 1) + (if (x mod 9) <= 0 then x else 0))
1: ((3x + 1) + (if (x mod (1 + (2 * (3 - ((x div 3) mod 2))))) <= 0 then 2 else 0))
1: ((x + 2) + (if (x mod (2 + (x div 4))) <= 0 then 1 else 2))
1: ((2x + 2) + (if (x mod (2 + (5 mod (1 + (x div 4))))) <= 0 then 1 else 0))
1: (1 + ((if (x mod (2 + ((x + ~1) mod 3))) <= 0 then 0 else x) + (x div 2)))
1: ((x + 2) + (if (x mod 8) <= 0 then 2 else (x mod 2)))
1: (3 + (if (x mod 8) <= 0 then (if x <= 0 then 0 else 2) else 0))
1: ((x + 1) + (if (x mod 8) <= 0 then x else 0))
1: (9x + (if (i mod 3) <= 0 then 1 else 0))
1: (5x + (if (i mod 3) <= 0 then 1 else 0))
1: (7x + (if (i mod 3) <= 0 then 1 else 0))
1: (x + ((if (i mod 3) <= 0 then 1 else 0) + ((1 + (x div 2)) div 2)))
1: (9x + (if (i mod 3) <= 0 then 1 else 2))
1: (5x + (if (i mod 3) <= 0 then 1 else 2))
1: (7x + (if (i mod 3) <= 0 then 1 else 2))
1: (9x + (if (i mod 3) <= 0 then 2 else 0))
1: (3x + (if (i mod 3) <= 0 then 2 else 0))
1: (9x + (if (i mod 3) <= 0 then 2 else 1))
1: (7x + (if (i mod 3) <= 0 then 2 else 1))
1: (3x + (if (i mod 3) <= 0 then 2 else 1))
1: (2x + (if (i mod 4) <= 0 then i else 1))
1: ((x + 1) + (if (i mod (1 + (x mod 4))) <= 0 then 0 else 1))
1: ((x + 2) + (if (if (x mod 5) <= 0 then (x mod 2) else 0) <= 0 then 1 else (x mod 3)))
1: ((x + 2) + (if x <= 0 then 0 else ((3x + 1) + (x div 3))))
1: (4 + (if x <= 0 then 0 else ((x + 1) + (((~x + 2) div 8) mod 2))))
1: (2x + (if x <= 0 then 0 else ((x + 1) + (loop(\(x,i).(x * i),x,2) + (x mod 2)))))
1: ((x + 2) + (if x <= 0 then 0 else (7 + ((x + ((x mod (1 + (x div 2))) div 2)) div 2))))
1: (3 + (if x <= 0 then 0 else (1 + ((2 * (1 + ((1 + ((x * (1 + (if ((x + (x div 2)) mod 5) <= 0 then 2 else 1))) div 2)) div 2))) div 3))))
1: (1 + ((if x <= 0 then 0 else (1 + ((2 * (1 + (((2 + (x mod (2 * (1 + (x mod (2 * (1 + (x mod (1 + (x div 3)))))))))) mod (x + 1)) div 2))) div 3))) + (x div 3)))
1: (4 + (if x <= 0 then 0 else (1 + (2x div (4 + (x div 4))))))
1: ((x + 1) + (if x <= 0 then 0 else ((((x + 1) div 2) div (1 + i)) + i)))
1: ((x + 1) + (if x <= 0 then 0 else (1 + (x div ((x + 2) div (2 + (loop(\(x,i).x3,2,2x) mod (x + 1))))))))
1: ((x + 1) + (if x <= 0 then 0 else (1 + (((x + ~4) div (1 + (x div 2))) mod 2))))
1: (4 + (if x <= 0 then 0 else (1 + ((8 mod (x + 1)) mod 2))))
1: (1 + ((if x <= 0 then 0 else (1 + ((2x mod (2 + (x div 3))) mod 2))) + (x mod 2)))
1: ((x + 1) + (if x <= 0 then 0 else (2 + (if (x + ~2) <= 0 then x else 5))))
1: (9 + (if x <= 0 then 0 else (x + 2)))
1: ((x + 1) + (if x <= 0 then 0 else (1 - ((0 - ((~x + 1) mod 5)) div 2))))
1: (2 + ((if x <= 0 then 0 else (1 - ((~x + 1) div (2 + ((x div 2) div 3))))) + (x div 3)))
1: (1 + ((if x <= 0 then 0 else (2 * ((1 + (4 * (x mod 2))) * (1 + (x mod 3))))) + (x mod 2)))
1: ((x + 2) + (if x <= 0 then 0 else ((if (x mod (2 + (x mod 2))) <= 0 then 1 else x) mod 4)))
1: (1 + ((if x <= 0 then 0 else (if (x mod (1 + (x mod 6))) <= 0 then 2 else 1)) + (x mod 2)))
1: (4 + (if x <= 0 then 0 else loop(\(x,i).((x + 2) + ((x + (x div 2)) div 4)),x,2)))
1: ((x + 1) + (if x <= 0 then 0 else loop(\(x,i).(2x + (x div 2)),x,2)))
1: ((x + 1) + (if x <= 0 then 0 else loop(\(x,i).(3 * (~x + (if x <= 0 then 1 else (~1 + loop(\(x,i).(x3 + x),x,1))))),x,1)))
1: ((x + 1) + (if x <= 0 then 0 else loop(\(x,i).2x,(~1 + loop(\(x,i).(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,x)),2,x)),1)))
1: (4 + (if x <= 0 then 1 else ((x + 1) + ((2 * (4 + (if x <= 0 then 2 else ((x + 2) + (2 * (2 - (x mod 2))))))) div 3))))
1: (4 + (if x <= 0 then 1 else ((x + 2) + ((x + (x div 3)) div 3))))
1: (4 + (if x <= 0 then 1 else ((x + 2) + ((x + (((x mod 3) * (x div 2)) mod 2)) div 2))))
1: (4 + (if x <= 0 then 1 else ((x + 2) + ((x * (x div 8)) div 5))))
1: ((x + 2) + (if x <= 0 then 1 else ((x + 4) + (x div (4 + (x div 2))))))
1: (4 + (if x <= 0 then 1 else ((x + 4) + (if (~2 + (x div 2)) <= 0 then 1 else 4))))
1: ((x + 2) + (if x <= 0 then 1 else (4 + loop(\(x,i).(if x <= 0 then 3 else (x2 + ~1)),x,1))))
1: ((x + 2) + (if x <= 0 then 1 else ((x + 1) - ((x + 1) mod (2 + ((x + 1) mod 4))))))
1: (2x + (if x <= 0 then 1 else ((2x + ~1) + ((2 * ((4x + ~1) + ((2 * ((2x + 2) + (if x <= 0 then 1 else (2 * (2x + ((x - (x div 4)) div 2)))))) div 3))) div 3))))
1: (2x + (if x <= 0 then 1 else ((2x + ~1) + ((2 * (3x + (if x <= 0 then 1 else 5x) - ((~2x + 2) div 9))) div 3))))
1: (2x + (if x <= 0 then 1 else ((2x + ~1) + ((2 * ((x + 2) + ((2 * ((x + 1) + (2 * (2x + (2x div 5))))) div 3))) div 3))))
1: (4 + (if x <= 0 then 1 else ((x + 2) - ((1 + (x2 div 2)) div (x + 3)))))
1: (3 + (if x <= 0 then 1 else ((x + 2) - (x2 div (x + 16)))))
1: ((2x + 1) + (if x <= 0 then 1 else (x + ((x + 1) div 2) - (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))))
1: (2x + (if x <= 0 then 1 else (6x + (((x + 1) + (x mod 2)) div 5))))
1: ((x + 2) + (if x <= 0 then 1 else (4x + ((x + (2 * (x mod 2))) div 5))))
1: (4 + (if x <= 0 then 1 else (2 + ((2 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x)) div 3))))
1: (2x + (if x <= 0 then 1 else (6x + (((~x + 1) - (x mod 2)) div 3))))
1: (2x + (if x <= 0 then 1 else (4x + ((x - ((~x + 1) div 3)) div 3))))
1: (3 + (if x <= 0 then 1 else (2 + ((x - ((x mod (2 + (x mod 3))) div 2)) div 2))))
1: (3x + (if x <= 0 then 1 else (x + (((x - (((x mod 6) - (x div 2)) div 2)) div 2) div 2))))
1: ((x + 2) + (if x <= 0 then 1 else (4x + (((x + ~1) mod (2 + (x div 2))) div 2))))
1: (2x + (if x <= 0 then 1 else (6x + (((x + ~1) mod (2 + (x div 2))) div 2))))
1: (9x + (if x <= 0 then 1 else (x + ((x + ~1) mod 9))))
1: (2x + (if x <= 0 then 1 else (2x + ((x div (5 * (1 + (x mod 3)))) mod 2))))
1: ((x + 1) + (if x <= 0 then 1 else (4x + ((x div (if (x mod 4) <= 0 then 4 else 1)) mod 2))))
1: (9 + (if x <= 0 then 1 else (2 + (if (~4 + (x div 2)) <= 0 then x else (x + 2)))))
1: ((x + 2) + (if x <= 0 then 1 else (2 + loop(\(x,i).((x + ~1) - (if x <= 0 then 0 else i)),x,x))))
1: (4 + (if x <= 0 then 1 else (2 - ((~x + (x mod 2)) div 3))))
1: ((x + 2) + (if x <= 0 then 1 else (5 - ((x div 2) div ~5))))
1: (3 + (if x <= 0 then 1 else (3x - ((~x + 1) div 5))))
1: ((x + 2) + (if x <= 0 then 1 else (8x - ((x + ((~x + 1) mod 3)) div 4))))
1: ((x + 2) + (if x <= 0 then 1 else (8x - ((x - ((x + (x div 3)) div 3)) div 2))))
1: ((x + 2) + (if x <= 0 then 1 else (4x - (((1 + (x div 2)) div 2) div 2))))
1: ((x + 2) + (if x <= 0 then 1 else (6x - (((x + 1) + (x mod 2)) div 5))))
1: (4 + (if x <= 0 then 1 else (x - (2 * ((x div 5) div ~2)))))
1: ((x + 2) + (if x <= 0 then 1 else (x - ((~x + ((x mod (2 + (x div 2))) div 2)) div 2))))
1: (x + ((if x <= 0 then 1 else (x - (((x - (x2 div 4)) div 2) div 2))) + (x mod 2)))
1: ((x + 1) + (if x <= 0 then 1 else (x - ((2x2 div (x + 5)) mod 2))))
1: (x + ((if x <= 0 then 1 else (x - ((x div (1 + (x mod 3))) mod 2))) + ((x + 1) div 2)))
1: (4 + (if x <= 0 then 1 else (2 * ((5x + 1) + ((x div 2) + (x div 3))))))
1: ((x + 2) + (if x <= 0 then 1 else (2 * ((x + 1) + (4 * ((x + 1) + (x div 2)))))))
1: (2x + (if x <= 0 then 1 else (2 * (x + ((if (~2 + (x div 2)) <= 0 then 1 else 2) + (x mod 2))))))
1: (2x + (if x <= 0 then 1 else (2 * ((x + ~1) + ((2 * ((3x + 2) - ((x - ((x + (x div 3)) div 3)) div 2))) div 3)))))
1: (4 + (if x <= 0 then 1 else (10x + 48)))
1: (1 + ((if x <= 0 then 1 else (2 * (1 + (4 * (x mod 3))))) + (x mod 2)))
1: (2x + (if x <= 0 then 1 else (2 * (x + (2 * (x2 div 8))))))
1: (2x + (if x <= 0 then 1 else (2 * (x + (((x + 1) + (2 * (((x + 1) + (x mod 2)) div 5))) div 3)))))
1: (2x + (if x <= 0 then 1 else (2 * (x + (((x + 1) + ((3 * ((x + 1) - loop(\(x,i).(x + (if (~2 + (x div 4)) <= 0 then 1 else 2)),2,x))) div 2)) div 2)))))
1: (2x + (if x <= 0 then 1 else (2 * (x + (((x + 1) - ((((x + 1) + ((2x + ~1) mod 7)) div 2) div 2)) div 2)))))
1: (2x + (if x <= 0 then 1 else (2 * (x + ((x + (2 * ((x2 div 8) mod 2))) div 2)))))
1: (2x + (if x <= 0 then 1 else (2 * (6x + ((2x + 1) div 9)))))
1: (2x + (if x <= 0 then 1 else (2 * (x + ((x + (((2x + 1) + (((x + 1) + (4 * (2x - (2x div 7)))) div 3)) div 2)) div 2)))))
1: ((x + 2) + (if x <= 0 then 1 else (2 * (1 + ((1 + ((x + loop(\(x,i).((x + 1) * (i * i)),(x + ~1),1)) div 2)) div 2)))))
1: (2x + (if x <= 0 then 1 else (2 * (2x + ((x + ((2x - ((x + 2) mod 4)) div 3)) div 2)))))
1: (2x + (if x <= 0 then 1 else (2 * (2x + ((x + (x div 3)) div 5)))))
1: (2x + (if x <= 0 then 1 else (2 * (x + ((x + (5 mod (1 + (x div 4)))) div 2)))))
1: (2x + (if x <= 0 then 1 else (2 * (4x + ((x + ((x div 2) mod 2)) div 2)))))
1: ((x + 2) + (if x <= 0 then 1 else (2 * (2x + ((x + ((x div 2) mod 2)) div 2)))))
1: (2x + (if x <= 0 then 1 else (2 * (2x + ((x + ((x div 2) mod 2)) div 2)))))
1: ((x + 2) + (if x <= 0 then 1 else (2 * (2 + ((x + 2) div 7)))))
1: (2x + (if x <= 0 then 1 else (2 * (2x + ((x - (x div 4)) div 2)))))
1: (2x + (if x <= 0 then 1 else (2 * (x + ((x div 2) div 5)))))
1: ((x + 2) + (if x <= 0 then 1 else (2 * (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))))))
1: ((x + 2) + (if x <= 0 then 1 else (2 * (1 + (x div (3 * (2 + ((1 + (2x mod (1 + ((x div 2) div 3)))) mod (x + 1)))))))))
1: ((x + 2) + (if x <= 0 then 1 else (3 * (1 + (if (x + ~4) <= 0 then 0 else 2)))))
1: ((2x + 1) + (if x <= 0 then 1 else (2 * (x + (if (x mod 3) <= 0 then 0 else (if (x mod (2 + (x mod 2))) <= 0 then 1 else x))))))
1: ((2x + 1) + (if x <= 0 then 1 else (2 * (2 + (if x <= 0 then 1 else (2 * (1 + loop(\(x,i).loop(\(x,i).(x * (2 + i)),x,x),x,1))))))))
1: (3 + (if x <= 0 then 1 else (2 * (6x - ((x div 3) + (x div 2))))))
1: (4 + (if x <= 0 then 1 else (2 * (7x - ((x div 3) + (x div 2))))))
1: (2x + (if x <= 0 then 1 else (2 * ((x + ~2) - ((~2x3 + 6x2 + ~4x) div 3)))))
1: (4 + (if x <= 0 then 1 else (2 * (3x - ((x div 2) div 3)))))
1: (4 + (if x <= 0 then 1 else (2 * (8x - (x div 3)))))
1: (2x + (if x <= 0 then 1 else (2 * ((4x + 1) - loop(\(x,i).(x + (if (~2 + (x div 4)) <= 0 then 1 else 2)),2,x)))))
1: ((x + 2) + (if x <= 0 then 1 else (2 * (4x - ((x + ((x div 3) mod 3)) div 3)))))
1: ((x + 2) + (if x <= 0 then 1 else (2 * (4x - ((x - ((x + (x div 3)) div 3)) div 2)))))
1: (3 + (if x <= 0 then 1 else (2 * (4x - (x div 2)))))
1: (2x + (if x <= 0 then 1 else (2 * ((2x + 1) - ((2 * ((x + 2) + ((2 * ((x + (if (~2 + (x div 2)) <= 0 then 1 else 0)) div 2)) div 3))) div 3)))))
1: (2x + (if x <= 0 then 1 else (2 * (2x - (2x div (2 + (4x div (x + 2))))))))
1: (4 + (if x <= 0 then 1 else (98x + ~12)))
1: (2x + (if x <= 0 then 1 else (2 * (x - (2 * ((x + ((x2 div 2) div 15)) div 2))))))
1: (4 + (if x <= 0 then 1 else (4 * (3x - (x div 3)))))
1: (4 + (if x <= 0 then 1 else (4 * (5x - (x div 3)))))
1: (4 + (if x <= 0 then 1 else (4 * (4x - (x div 2)))))
1: (4 + (if x <= 0 then 1 else (4 * (4x - (x div ~2)))))
1: ((x + 2) + (if x <= 0 then 1 else (4 * (2x - (x div 3)))))
1: (2x + (if x <= 0 then 1 else (2 * (((x + 2) + (((x + 1) div (2 * (1 + (x mod (2 + (x mod 2)))))) div 2) - (x mod 2)) div 2))))
1: (2x + (if x <= 0 then 1 else (3 * (((x + 1) - (2 * (~1 + (x mod 4)))) div 2))))
1: (2x + (if x <= 0 then 1 else (2 * ((x - (((x + 2) div 3) mod 3)) div 2))))
1: (2x + (if x <= 0 then 1 else (2 * (((((x + 1) div 2) div 2) * (x div 2)) div 5))))
1: (2x + (if x <= 0 then 1 else (2 * ((x + (2 * (x mod 2))) mod (1 + (x div 2))))))
1: ((x + 2) + (if x <= 0 then 1 else (2 * loop(\(x,i).(3x + ~6),x,0))))
1: (2x + (if x <= 0 then 1 else (2 * compr(\x.((12 mod (x + 2)) mod 2),x))))
1: (1 + ((if x <= 0 then 1 else (((2x + 1) + ((3x2 + 6x + 3) div 5)) div 2)) + (x mod 2)))
1: ((x + 2) + (if x <= 0 then 1 else ((1 + (2 * (x + (x mod 2)))) div 5)))
1: (4x + ((if x <= 0 then 1 else ((2 * (x + (((x div 2) div 3) mod 2))) div 3)) + ((x + 1) div 3)))
1: (3x + (if x <= 0 then 1 else ((2 * (4x - (3x div 5))) div 3)))
1: (4x + ((if x <= 0 then 1 else ((2 * (x - (2x div ~7))) div 3)) + ((2x + 2) div 5)))
1: (4x + ((if x <= 0 then 1 else ((2 * (2x div (4 + (x div 8)))) div 3)) + ((2x + 1) div 3)))
1: (2x + (if x <= 0 then 1 else (x div 3)))
1: (5x + (if x <= 0 then 1 else ((5x + 5) mod 9)))
1: ((x + 2) + (if x <= 0 then 1 else ((16x + 8) mod 17)))
1: ((x + 1) + (if x <= 0 then 1 else loop(\(x,i).(~1 + (if x <= 0 then ((1 + ((1 + i) * i)) * i) else x)),x,0)))
1: (2x + (if x <= 0 then 1 else loop(\(x,i).(x - ((if x <= 0 then 1 else (2 * (2 + ((x + ~1) div 13)))) div 2)),1,(x + ~1))))
1: (3x + (if x <= 0 then 1 else loop(\(x,i).x3,1,loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),i,1))))
1: ((2x + 1) + (if x <= 0 then 1 else x))
1: (2x + ((if x <= 0 then 1 else x) + ((x + 1) div 3)))
1: (2x + ((if x <= 0 then 1 else x) + (x div 3)))
1: ((if x <= 0 then 1 else x) + (x div 2) + (x div 3))
1: (2 + ((if x <= 0 then 1 else x) + (x mod 2)))
1: ((4x + 2) + ((if x <= 0 then 1 else x) + (x mod 2)))
1: (2x + (if x <= 0 then 1 else compr(\x.((x * ((x div 2) div 3)) mod 2),x)))
1: (3x + (if x <= 0 then 1 else compr(\x.((x * (x mod 3)) mod 5),x)))
1: (4 + (if x <= 0 then 2 else ((x + 2) + (2 * (2 - (x mod 2))))))
1: (4 + (if x <= 0 then 2 else (1 + (x2 * (2 + loop(\(x,i).x2,x,3))))))
1: (2x + (if x <= 0 then 2 else (1 + (2 * ((x + 1) div (~x + 17))))))
1: (2x + (if x <= 0 then 2 else (1 + (((x2 + ~x) div 3) div 7))))
1: (2x + (if x <= 0 then 2 else (x + ((x div (2 + ((x div 2) div 3))) mod 2))))
1: (2x + (if x <= 0 then 2 else (x + (if (~2 + (x div 5)) <= 0 then 1 else 4))))
1: ((x + 1) + (if x <= 0 then 2 else (x + (if x <= 0 then 1 else (loop(\(x,i).(x * i),(x + ~2),x) * (1 + (x mod 2)))))))
1: (4 + (if x <= 0 then 2 else (1 - ((((x2 + ~x) div 3) mod 3) div 2))))
1: ((x + 2) + (if x <= 0 then 2 else (if (x + ~2) <= 0 then x else 1)))
1: ((2x + ~1) + (if x <= 0 then 2 else loop(\(x,i).((x + 1) + ((2 + (i div 2)) * (i div 2))),x,1)))
1: (2x + (if x <= 0 then 2 else loop(\(x,i).(x - (x div 12)),2,x)))
1: (4 + (if x <= 0 then 2 else loop(\(x,i).x3,1,14)))
1: ((x2 + 2) + (if x <= 0 then (3x + 7) else 1))
1: (4 + (if x <= 0 then x else (2 - ((~x + 2) div 5))))
1: ((x + 2) + loop(\(x,i).((2x + 1) + (loop(\(x,i).(1 + (4 * (x + (x mod 2)))),x,0) + (x mod 2))),(x + ~1),(x mod 2)))
1: (4 + loop(\(x,i).((x + 1) + ((x + (if (i mod 2) <= 0 then 2 else 0)) div 3)),(x div 2),(x mod 2)))
1: (4 + loop(\(x,i).((x + 2) + (2x div (2 + (3 * (if (~2 + (x div 2)) <= 0 then 1 else 2))))),x,1))
1: (2x + loop(\(x,i).((x + 1) + (x div 4)),2,x))
1: (4 + loop(\(x,i).((x + 2) + (x div (4 + (x div 2)))),(x + ~1),2))
1: (2x + loop(\(x,i).((x + 2) + (x div (4 + i))),2,x))
1: ((x + 1) + loop(\(x,i).((x + 1) + (x div (2 + (x div (2 + (x mod (1 + ((~x + 2) mod 4)))))))),x,1))
1: (2x + loop(\(x,i).((x + 1) + (((2x + ~4) div (2 + (x div 2))) mod 2)),x,1))
1: ((x + 1) + loop(\(x,i).((x + 2) + (if (x mod (2 + (x div 4))) <= 0 then 1 else 2)),x,0))
1: ((x + 1) + loop(\(x,i).((x + 2) + (if x <= 0 then 0 else ((if (x mod (2 + (x mod 2))) <= 0 then 1 else x) mod 4))),x,0))
1: (2x + loop(\(x,i).(7x + loop(\(x,i).(5x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (3x + loop(\(x,i).(5x + loop(\(x,i).(7x + loop(\(x,i).10x,i,1)),i,1)),i,1))
1: (7x + loop(\(x,i).(9x + loop(\(x,i).(3x + 1),i,1)),i,1))
1: (9x + loop(\(x,i).(5x + loop(\(x,i).(3x + 1),i,1)),i,1))
1: (7x + loop(\(x,i).(5x + loop(\(x,i).(3x + 1),i,1)),i,1))
1: (7x + loop(\(x,i).(5x + loop(\(x,i).(9x + 1),i,1)),i,1))
1: (9x + loop(\(x,i).(5x + loop(\(x,i).(10x + 1),i,1)),i,1))
1: (7x + loop(\(x,i).(5x + loop(\(x,i).(10x + 1),i,1)),i,1))
1: (7x + loop(\(x,i).(5x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (2x + loop(\(x,i).(7x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (5x + loop(\(x,i).(3x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (3x + loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (7x + loop(\(x,i).(5x + loop(\(x,i).(12x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (3x + loop(\(x,i).(5x + loop(\(x,i).(12x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (3x + loop(\(x,i).(7x + loop(\(x,i).(12x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (3x + loop(\(x,i).(7x + loop(\(x,i).(6x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (7x + loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (7x + loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1))
1: (7x + loop(\(x,i).(9x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (2x + loop(\(x,i).(9x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (9x + loop(\(x,i).(5x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (7x + loop(\(x,i).(5x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (2x + loop(\(x,i).(7x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (5x + loop(\(x,i).(3x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (9x + loop(\(x,i).(3x + loop(\(x,i).(8x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (5x + loop(\(x,i).(3x + loop(\(x,i).(8x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (7x + loop(\(x,i).(3x + loop(\(x,i).(8x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (7x + loop(\(x,i).(9x + loop(\(x,i).(12x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (2x + loop(\(x,i).(9x + loop(\(x,i).(12x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (9x + loop(\(x,i).(5x + loop(\(x,i).(12x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (7x + loop(\(x,i).(5x + loop(\(x,i).(12x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (3x + loop(\(x,i).(5x + loop(\(x,i).(12x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (3x + loop(\(x,i).(7x + loop(\(x,i).(12x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (7x + loop(\(x,i).(9x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (3x + loop(\(x,i).(7x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (9x + loop(\(x,i).(3x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (7x + loop(\(x,i).(9x + loop(\(x,i).(6x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (3x + loop(\(x,i).(9x + loop(\(x,i).(6x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (9x + loop(\(x,i).(5x + loop(\(x,i).(6x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (7x + loop(\(x,i).(5x + loop(\(x,i).(6x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (3x + loop(\(x,i).(5x + loop(\(x,i).(6x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (7x + loop(\(x,i).(3x + loop(\(x,i).(6x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (7x + loop(\(x,i).(3x + loop(\(x,i).(8x + loop(\(x,i).10x,i,1)),i,1)),i,1))
1: (7x + loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).10x,i,1)),i,1)),i,1))
1: (7x + loop(\(x,i).(9x + loop(\(x,i).(11x + 1),i,1)),i,1))
1: (9x + loop(\(x,i).(5x + loop(\(x,i).(11x + 1),i,1)),i,1))
1: (7x + loop(\(x,i).(5x + loop(\(x,i).(11x + 1),i,1)),i,1))
1: (9x + loop(\(x,i).(3x + loop(\(x,i).(11x + 1),i,1)),i,1))
1: (5x + loop(\(x,i).(3x + loop(\(x,i).(11x + 1),i,1)),i,1))
1: (7x + loop(\(x,i).(3x + loop(\(x,i).(11x + 1),i,1)),i,1))
1: (7x + loop(\(x,i).(9x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1))
1: (3x + loop(\(x,i).(9x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1))
1: (9x + loop(\(x,i).(5x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1))
1: (7x + loop(\(x,i).(5x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1))
1: (3x + loop(\(x,i).(5x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1))
1: (3x + loop(\(x,i).(7x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1))
1: (11x + loop(\(x,i).(5x + loop(\(x,i).3x,(2 * i),1)),i,1))
1: (11x + loop(\(x,i).(7x + loop(\(x,i).3x,(2 * i),1)),i,1))
1: (5x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1))
1: (7x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1))
1: (7x + loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),i,1))
1: (7x + loop(\(x,i).(5x + loop(\(x,i).11x,i,1)),i,1))
1: (9x + loop(\(x,i).(3x + loop(\(x,i).11x,i,1)),i,1))
1: (5x + loop(\(x,i).(3x + loop(\(x,i).11x,i,1)),i,1))
1: (7x + loop(\(x,i).(3x + loop(\(x,i).11x,i,1)),i,1))
1: (7x + loop(\(x,i).(5x + loop(\(x,i).10x,i,1)),i,1))
1: (5x + loop(\(x,i).(3x + loop(\(x,i).10x,i,1)),i,1))
1: (7x + loop(\(x,i).(3x + loop(\(x,i).10x,i,1)),i,1))
1: ((x + 1) + loop(\(x,i).(2 + (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x))),1,i))
1: ((x + 2) + loop(\(x,i).(x + (x div 2) - ((x + 1) div 5)),2,x))
1: (9x + loop(\(x,i).(5x + 1),i,1))
1: (5x + loop(\(x,i).(5x + 1),i,1))
1: (7x + loop(\(x,i).(5x + loop(\(x,i).2x,i,1)),i,1))
1: (2 + (loop(\(x,i).(10x + 3),2x,2) + loop(\(x,i).10x,x,1)))
1: (7x + loop(\(x,i).(49x + 1),i,1))
1: ((x + 1) + loop(\(x,i).(1 + (x * (1 + (x2 div 2)))),x,0))
1: ((2x + 1) + loop(\(x,i).(1 + (4 * (x + (x mod 2)))),x,0))
1: ((x + 1) + loop(\(x,i).(2 + (x * (1 + i))),(x + ~1),1))
1: (2x + loop(\(x,i).(x + ((1 + i) * i)),i,0))
1: (3x + loop(\(x,i).(2x + ((~1 + (2 * i)) * i)),i,0))
1: (5x + loop(\(x,i).(1 + (2 * (x - (x div ~2)))),i,2))
1: (9x + loop(\(x,i).(25x + 1),i,1))
1: (5x + loop(\(x,i).(25x + 1),i,1))
1: (3 + loop(\(x,i).(x4 + x2 + 1),x,0))
1: (3x + loop(\(x,i).(7x + 6),i,1))
1: (2 + (loop(\(x,i).(10x + 21),2x,1) + loop(\(x,i).10x,x,2)))
1: (2 + (loop(\(x,i).(10x + 22),2x,2) + loop(\(x,i).10x,x,1)))
1: (4 + loop(\(x,i).(24x2 + 1),(2x + 2),1))
1: (4 + loop(\(x,i).(24x2 + 1),2x,1))
1: (7x + loop(\(x,i).(8x + 1),i,1))
1: ((x + 2) + loop(\(x,i).((2 * (((x + ~1) div 2) div 2)) + i),(x + ~1),1))
1: ((x + 2) + loop(\(x,i).(x + (2 * (if (2 - i) <= 0 then x else 1))),x,(x + 1)))
1: (9x + loop(\(x,i).(1 + (x * loop(\(x,i).x2,2,3))),i,1))
1: (2 + (loop(\(x,i).(x2 + (x mod 2)),x,1) + loop(\(x,i).x2,x,2)))
1: (x + (loop(\(x,i).(1 + (x * i)),(~1 + i),1) + i))
1: ((x + 1) + loop(\(x,i).(2x + ((x + 1) div 5)),2,x))
1: ((x + 1) + loop(\(x,i).(2 + ((x - ((~x + 1) mod 3)) div 2)),x,x))
1: ((x + 1) + loop(\(x,i).(x + (5x div (if i <= 0 then 1 else i))),x,1))
1: (5x + loop(\(x,i).(x + (((2 + i) * (1 + i)) div 2)),i,1))
1: ((x + 1) + loop(\(x,i).(1 + ((2x2 + ~x) div (x + 3))),2,x))
1: ((x2 + 3x + 3) + loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,1))
1: ((x + 1) + loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,1))
1: ((x + 2) + loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,(x + 3)))
1: (4 + loop(\(x,i).(2 + (3x2 div (1 + i))),x,1))
1: ((3x + 1) + loop(\(x,i).(x + ((x div 2) div 3)),2,x))
1: ((x + 1) + loop(\(x,i).(x + ((x div 2) div 3)),(x + ~1),x))
1: ((x + 1) + loop(\(x,i).(x + ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3)),2,x))
1: ((x + 1) + loop(\(x,i).((loop(\(x,i).(x * i),x,2) div (x + 1)) + (x * i)),x,1))
1: ((x + 1) + loop(\(x,i).(x + (loop(\(x,i).(x * i),x,2) div (x + 1))),(x + ~1),2))
1: (4x + (loop(\(x,i).(2 + (x div 2)),(x + ~8),1) + ((x + 1) div 3)))
1: ((x + 2) + loop(\(x,i).(x + (x div 4)),x,5))
1: ((x + 1) + loop(\(x,i).(x + (x div (~1 + (4 * (1 + i))))),2,x))
1: ((x + 1) + loop(\(x,i).(x + ((x div 7) mod 2)),2,x))
1: (3 + loop(\(x,i).(x + (if (x + ~1) <= 0 then i else x)),x,0))
1: ((x + 1) + loop(\(x,i).(x + (if x <= 0 then 1 else (i - ((x2 mod (x - ((~x + 2) div 2))) div (x + 1))))),x,0))
1: (7x + loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (7x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (7x + loop(\(x,i).(6x + loop(\(x,i).(5x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (3x + loop(\(x,i).(6x + loop(\(x,i).(5x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (5x + loop(\(x,i).(8x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (5x + loop(\(x,i).(4x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (7x + loop(\(x,i).(4x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (5x + loop(\(x,i).(2x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (7x + loop(\(x,i).(2x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (7x + loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),i,1)),i,1))
1: (7x + loop(\(x,i).(12x + loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),i,1)),i,1))
1: (7x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),i,1)),i,1))
1: (7x + loop(\(x,i).(6x + loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),i,1)),i,1))
1: (7x + loop(\(x,i).(8x + loop(\(x,i).(9x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (9x + loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (7x + loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (9x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (7x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (3x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (7x + loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).10x,i,1)),i,1)),i,1))
1: (3x + loop(\(x,i).(12x + loop(\(x,i).(5x + loop(\(x,i).10x,i,1)),i,1)),i,1))
1: (7x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).10x,i,1)),i,1)),i,1))
1: (3x + loop(\(x,i).(6x + loop(\(x,i).(5x + loop(\(x,i).10x,i,1)),i,1)),i,1))
1: (9x + loop(\(x,i).(10x + loop(\(x,i).(3x + 1),i,1)),i,1))
1: (5x + loop(\(x,i).(10x + loop(\(x,i).(3x + 1),i,1)),i,1))
1: (7x + loop(\(x,i).(10x + loop(\(x,i).(3x + 1),i,1)),i,1))
1: (7x + loop(\(x,i).(8x + loop(\(x,i).(3x + 1),i,1)),i,1))
1: (9x + loop(\(x,i).(4x + loop(\(x,i).(3x + 1),i,1)),i,1))
1: (7x + loop(\(x,i).(4x + loop(\(x,i).(3x + 1),i,1)),i,1))
1: (11x + loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),i,1))
1: (9x + loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),i,1))
1: (7x + loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),i,1))
1: (7x + loop(\(x,i).(8x + loop(\(x,i).(5x + 1),i,1)),i,1))
1: (9x + loop(\(x,i).(4x + loop(\(x,i).(5x + 1),i,1)),i,1))
1: (7x + loop(\(x,i).(4x + loop(\(x,i).(5x + 1),i,1)),i,1))
1: (9x + loop(\(x,i).(2x + loop(\(x,i).(5x + 1),i,1)),i,1))
1: (7x + loop(\(x,i).(2x + loop(\(x,i).(5x + 1),i,1)),i,1))
1: (7x + loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).2x,i,1)),i,1)),i,1))
1: (7x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).2x,i,1)),i,1)),i,1))
1: (7x + loop(\(x,i).(8x + loop(\(x,i).(9x + 1),i,1)),i,1))
1: (7x + loop(\(x,i).(9x + loop(\(x,i).(10x + 1),i,1)),i,1))
1: (7x + loop(\(x,i).(8x + loop(\(x,i).(10x + 1),i,1)),i,1))
1: (9x + loop(\(x,i).(4x + loop(\(x,i).(10x + 1),i,1)),i,1))
1: (7x + loop(\(x,i).(4x + loop(\(x,i).(10x + 1),i,1)),i,1))
1: (9x + loop(\(x,i).(2x + loop(\(x,i).(10x + 1),i,1)),i,1))
1: (5x + loop(\(x,i).(2x + loop(\(x,i).(10x + 1),i,1)),i,1))
1: (7x + loop(\(x,i).(2x + loop(\(x,i).(10x + 1),i,1)),i,1))
1: (7x + loop(\(x,i).(9x + loop(\(x,i).(4x + 1),i,1)),i,1))
1: (7x + loop(\(x,i).(8x + loop(\(x,i).(4x + 1),i,1)),i,1))
1: (3 + loop(\(x,i).(1 + loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then 1 else 0)),(x div 2),x)),x,0))
1: (7x + loop(\(x,i).(8x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (7x + loop(\(x,i).(4x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (5x + loop(\(x,i).(2x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (7x + loop(\(x,i).(2x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (3x + loop(\(x,i).(2x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (7x + loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (7x + loop(\(x,i).(12x + loop(\(x,i).(4x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (7x + loop(\(x,i).(6x + loop(\(x,i).(4x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (7x + loop(\(x,i).(12x + loop(\(x,i).(6x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (7x + loop(\(x,i).(8x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (7x + loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (7x + loop(\(x,i).(10x + loop(\(x,i).(4x + loop(\(x,i).3x,i,1)),i,1)),i,1))
1: (7x + loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).3x,i,1)),i,1)),i,1))
1: (5x + loop(\(x,i).(10x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1))
1: (7x + loop(\(x,i).(10x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1))
1: (7x + loop(\(x,i).(8x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1))
1: (7x + loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1))
1: (7x + loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).5x,i,1)),i,1)),i,1))
1: (7x + loop(\(x,i).(8x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (9x + loop(\(x,i).(4x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (7x + loop(\(x,i).(4x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (9x + loop(\(x,i).(2x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (7x + loop(\(x,i).(2x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (3x + loop(\(x,i).(2x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (7x + loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (7x + loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).10x,i,1)),i,1)),i,1))
1: (3x + loop(\(x,i).(12x + loop(\(x,i).(6x + loop(\(x,i).10x,i,1)),i,1)),i,1))
1: (7x + loop(\(x,i).(8x + loop(\(x,i).(2x + loop(\(x,i).10x,i,1)),i,1)),i,1))
1: (7x + loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).10x,i,1)),i,1)),i,1))
1: (7x + loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).8x,i,1)),i,1)),i,1))
1: (9x + loop(\(x,i).(10x + loop(\(x,i).(11x + 1),i,1)),i,1))
1: (5x + loop(\(x,i).(10x + loop(\(x,i).(11x + 1),i,1)),i,1))
1: (7x + loop(\(x,i).(10x + loop(\(x,i).(11x + 1),i,1)),i,1))
1: (3x + loop(\(x,i).(10x + loop(\(x,i).(11x + 1),i,1)),i,1))
1: (7x + loop(\(x,i).(8x + loop(\(x,i).(11x + 1),i,1)),i,1))
1: (9x + loop(\(x,i).(4x + loop(\(x,i).(11x + 1),i,1)),i,1))
1: (7x + loop(\(x,i).(4x + loop(\(x,i).(11x + 1),i,1)),i,1))
1: (9x + loop(\(x,i).(6x + loop(\(x,i).(11x + 1),i,1)),i,1))
1: (9x + loop(\(x,i).(2x + loop(\(x,i).(11x + 1),i,1)),i,1))
1: (5x + loop(\(x,i).(2x + loop(\(x,i).(11x + 1),i,1)),i,1))
1: (7x + loop(\(x,i).(2x + loop(\(x,i).(11x + 1),i,1)),i,1))
1: (5x + loop(\(x,i).(2x + loop(\(x,i).(~2x + 1),i,1)),i,1))
1: (2x + loop(\(x,i).(x + loop(\(x,i).(4x - ((x - (x div 5)) div 3)),1,i)),x,1))
1: (7x + loop(\(x,i).(8x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1))
1: (9x + loop(\(x,i).(4x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1))
1: (7x + loop(\(x,i).(4x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1))
1: (3 + loop(\(x,i).(1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 2 else 1)),x,x)),2,2x))
1: ((x + 1) + loop(\(x,i).(x + loop(\(x,i).(x - (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else 19))),x,(x + 1))),2,x))
1: (2x + loop(\(x,i).(4x + loop(\(x,i).3x,(1 + i),1)),i,2))
1: (11x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1))
1: (7x + loop(\(x,i).(12x + loop(\(x,i).3x,(2 * i),1)),i,1))
1: (11x + loop(\(x,i).(4x + loop(\(x,i).3x,(2 * i),1)),i,1))
1: (7x + loop(\(x,i).(4x + loop(\(x,i).3x,(2 * i),1)),i,1))
1: (11x + loop(\(x,i).(6x + loop(\(x,i).3x,(2 * i),1)),i,1))
1: (7x + loop(\(x,i).(6x + loop(\(x,i).3x,(2 * i),1)),i,1))
1: (11x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1))
1: (2x + loop(\(x,i).((4x + ~2) + loop(\(x,i).3x,i,1)),i,1))
1: (7x + loop(\(x,i).(4x + loop(\(x,i).3x,i,1)),i,1))
1: (11x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1))
1: (7x + loop(\(x,i).(6x + loop(\(x,i).5x,i,1)),i,1))
1: (7x + loop(\(x,i).(12x + loop(\(x,i).11x,i,1)),i,1))
1: (7x + loop(\(x,i).(6x + loop(\(x,i).11x,i,1)),i,1))
1: (7x + loop(\(x,i).(2x + loop(\(x,i).8x,i,1)),i,1))
1: (7x + loop(\(x,i).(8x + loop(\(x,i).4x,i,1)),i,1))
1: (2x + loop(\(x,i).(loop(\(x,i).2x,i,1) + (x * (~1 + i))),i,1))
1: (7x + loop(\(x,i).(4x + loop(\(x,i).2x,i,1)),i,1))
1: ((x + 2) + loop(\(x,i).(x + loop(\(x,i).loop(\(x,i).3x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1),1,i)),x,1))
1: ((x + 2) + loop(\(x,i).(x + loop(\(x,i).compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),(x + 1)),1,i)),x,1))
1: (3 + loop(\(x,i).(x + 2),(x + ~1),(loop(\(x,i).x3,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2)))
1: ((x + 2) + loop(\(x,i).(0 - (loop(\(x,i).2x,x,2) mod (x + 1))),2,x))
1: ((x + 1) + loop(\(x,i).(0 - (x div (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))))),1,(x + 1)))
1: (3x + loop(\(x,i).((~x + 1) - i),(x div 3),1))
1: (3x + loop(\(x,i).(1 - (2 * (x + (i mod 2)))),i,1))
1: (3 + loop(\(x,i).(~2x + 1),x,2))
1: ((x + 2) + loop(\(x,i).(1 - (((x + 2) * (1 + ((x2 + 4x + 4) div 2) - (x mod 2))) div 3)),1,(x + 2)))
1: (2x + loop(\(x,i).((~x + 2) + (x div 5)),2,x))
1: (7x + loop(\(x,i).((9x + ~1) + loop(\(x,i).2x,i,2)),i,1))
1: ((x + 2) + loop(\(x,i).((x + ~1) + (((x - (x div ~2)) div 5) mod 2)),2,x))
1: ((x + 2) + loop(\(x,i).(x + i - (x div 4)),x,0))
1: (2x + loop(\(x,i).(x + i - (x div 7)),x,1))
1: (1 + (loop(\(x,i).(3x + ~1),x,2) + loop(\(x,i).2x,x,1)))
1: (2x + loop(\(x,i).(3x2 + 2x + ~1),2,(x + 1)))
1: (4 + loop(\(x,i).(~1 + (2 * (1 + (2 * (x - (2 * (x mod ~3))))))),x,0))
1: (3x + loop(\(x,i).(~1 + (2 * (x + (i mod 2)))),i,0))
1: (7x + loop(\(x,i).(~1 + (2 * (4x + loop(\(x,i).2x,i,1)))),i,1))
1: (9x + loop(\(x,i).(~1 + (2 * (2x + loop(\(x,i).2x,i,1)))),i,1))
1: (7x + loop(\(x,i).(~1 + (2 * (2x + loop(\(x,i).2x,i,1)))),i,1))
1: (1 + (loop(\(x,i).((4x + ~1) - i),x,1) + loop(\(x,i).2x,x,1)))
1: ((x + 1) + loop(\(x,i).(4x - ((x + 1) div (1 + i))),x,1))
1: ((x + 1) + loop(\(x,i).(x3 + ~1),2,2))
1: ((x + 2) + loop(\(x,i).(2x - ((~1 + i) div 2)),x,1))
1: (x + (loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),i,1) + (x * i)))
1: ((x + 1) + loop(\(x,i).(2 + (x * i) - (x div 2)),x,1))
1: ((x + 3) + loop(\(x,i).((x * i) - (x div 8)),2,x))
1: ((x + 2) + loop(\(x,i).(((~1 + (x div 2)) div 2) - ((~x + 1) div 3)),2,x))
1: (2x + loop(\(x,i).((x div (2 + (x div (1 + (x mod 4))))) - (if x <= 0 then 0 else 1)),x,(x + 1)))
1: ((x + 1) + loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(3x + 2)))
1: ((x + 2) + loop(\(x,i).(~1 + (if (x mod (1 + i)) <= 0 then 0 else x)),x,(x2 + 2x)))
1: ((x + 1) + loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,(6x + 2)))
1: ((x + 3) + loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,4x))
1: ((x + 1) + loop(\(x,i).(loop(\(x,i).6x,x,1) - loop(\(x,i).7x,x,1)),x,8x))
1: ((2x + 2) + loop(\(x,i).(x + ~1),(1 - (((x * loop(\(x,i).(x2 div 3),2,x)) div 3) mod 3)),1))
1: ((x + 1) + loop(\(x,i).(x + ~2),(~3 + (x div 2)),x))
1: (3x + loop(\(x,i).((x + 1) - (2 * (~2x + (x mod 2)))),i,1))
1: ((x + 1) + loop(\(x,i).((x + 1) - ((((x - ((x mod 3) div 2)) div 2) + (x mod 2)) div 2)),2,x))
1: (4 + loop(\(x,i).((x + 1) - (((~x + 2) div 2) div 3)),x,1))
1: (2x + loop(\(x,i).((x + 1) - (x div 7)),2,2x))
1: ((x + 1) + loop(\(x,i).((x + 1) - ((x + 1) mod (~1 + (x div ~5)))),2,x))
1: ((x + 1) + loop(\(x,i).((x + 1) - (~2 mod (1 + (x div 4)))),2,x))
1: ((x + 2) + loop(\(x,i).(x - (2 * (~x + i))),x,2))
1: ((x + 3) + loop(\(x,i).(x - ((1 + ((x * (x div 2)) div 4)) div 2)),2,x))
1: ((x + 2) + loop(\(x,i).(x - ((~1 + ((~x + ((x div 4) mod 2)) div 2)) div 2)),x,1))
1: (x + (loop(\(x,i).(x - ((~1 + (((x + ~1) div 2) div 2)) div 2)),2,x) + ((x + 2) div 3)))
1: ((x + 2) + loop(\(x,i).(x - ((~1 + (x div 4)) div 2)),2,(x + ~1)))
1: ((x + 1) + loop(\(x,i).(x - ((x + ~1) div (3 + (x div 2)))),2,x))
1: ((x + 1) + loop(\(x,i).(x - (2x div (1 + (4 * i)))),x,x))
1: ((x + 2) + loop(\(x,i).(x - (2x div (1 + (4 * i)))),x,x))
1: ((x + 4) + loop(\(x,i).(x - (2x div (1 + (4 * i)))),x,x))
1: ((x + 3) + loop(\(x,i).(x - (x div (8 - i))),2,x))
1: (x + (loop(\(x,i).(x - (x div 8)),2,(x + ~1)) + ((x + 1) div 3)))
1: (2x + loop(\(x,i).(x - (x div 8)),2,(x + ~1)))
1: ((x + 3) + loop(\(x,i).(x - (x div 12)),2,x))
1: ((x + 4) + loop(\(x,i).(x - (x div 12)),2,x))
1: ((x + 10) + loop(\(x,i).(x - (x div 12)),2,x))
1: ((x + 3) + loop(\(x,i).(x - ((1 + (loop(\(x,i).2x,x,2) mod (x + 2))) mod 2)),2,x))
1: ((x + 1) + loop(\(x,i).(x - (loop(\(x,i).(~x2 + 1),2,4) mod (x + 1))),2,x))
1: ((x + 2) + loop(\(x,i).(x - (if (~2 + (x div 2)) <= 0 then 0 else 1)),2,x))
1: ((x + 1) + loop(\(x,i).(x - (if (x - ((if (x mod 2) <= 0 then 1 else i) + i)) <= 0 then 1 else 0)),x,x))
1: (1 + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) + (((x + 1) div 2) div 2)))
1: (1 + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) + ((x div ~2) mod 2)))
1: ((x + 3) + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),(x div 2),(x + 2)))
1: ((x + 1) + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x))
1: (1 + (loop(\(x,i).(x - (if x <= 0 then 0 else (~1 + (2 * (((1 + (x div 2)) div 2) mod 2))))),2,x) + (x mod 2)))
1: (3x + loop(\(x,i).(x - (if x <= 0 then 1 else (x - ((if x <= 0 then 2 else loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 2)))),x,(x + 1)))
1: (x + (loop(\(x,i).(x - (if x <= 0 then 1 else (x - ((if x <= 0 then 2 else loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 2)))),x,(x + 1)) + (x mod 2)))
1: ((3x + 1) + loop(\(x,i).(x - (if x <= 0 then 1 else (x - ((if x <= 0 then 2 else loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 2)))),x,(x + 2)))
1: ((x + 1) + loop(\(x,i).(x - (if x <= 0 then 1 else (2 * (1 + i)))),x,2x))
1: (2x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (1 + (x mod 2))))),x,(x + 1)))
1: (x + (loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),(x + ~1),x) + (2 * (x div 2))))
1: ((x + 2) + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 1)))
1: ((3x + 2) + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 1)))
1: ((5x + 2) + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,x))
1: (x + (loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,x) + (2 * (x div 2))))
1: ((x + 1) + loop(\(x,i).(x - (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else (1 + (if (~x + 2) <= 0 then x else 0))))),x,(x + 1)))
1: ((3x + 1) + loop(\(x,i).(x - (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else (2x + ~1)))),x,(x + 1)))
1: ((x + 2) + loop(\(x,i).(x - (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else (if (~x + 2) <= 0 then (2 + (x div 2)) else 1)))),x,x))
1: (3x + loop(\(x,i).(x - (if x <= 0 then 1 else loop(\(x,i).(~1 + (if x <= 0 then 2 else 0)),(x mod 2),(x div 2)))),x,(x + 1)))
1: ((x + 2) + loop(\(x,i).(x - (if x <= 0 then 1 else loop(\(x,i).(x - (if x <= 0 then 1 else (~1 + ((2x + 1) mod (2 - ((~x + 2) div 5)))))),x,x))),2,x))
1: ((3x + 1) + loop(\(x,i).(x - (if x <= 0 then 2 else (~2 + i))),x,x))
1: ((x + 1) + loop(\(x,i).(i - ((1 + i) mod (x + 1))),x,0))
1: ((x + 2) + loop(\(x,i).(i - ((1 + i) mod (x + 1))),x,0))
1: ((x + 1) + loop(\(x,i).(~x + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)),x,0))
1: (2 + (loop(\(x,i).3x,(x + 2),1) + loop(\(x,i).2x,(x + 2),2)))
1: (1 + (loop(\(x,i).3x,(x + ~1),1) + loop(\(x,i).2x,x,1)))
1: (1 + (loop(\(x,i).3x,3x,1) + loop(\(x,i).4x,x,1)))
1: (1 + (loop(\(x,i).3x,2x,1) + loop(\(x,i).4x,x,1)))
1: (1 + (loop(\(x,i).3x,2x,1) + loop(\(x,i).2x,x,1)))
1: (3 + loop(\(x,i).3x,2x,3))
1: ((4x + 3) + loop(\(x,i).3x,(2 * i),1))
1: ((10x + 1) + loop(\(x,i).3x,(2 * i),1))
1: (11x + loop(\(x,i).3x,(2 * i),1))
1: (3 + loop(\(x,i).3x,x,1))
1: (2 + (loop(\(x,i).3x,x,1) + loop(\(x,i).2x,x,1)))
1: (2x + (loop(\(x,i).3x,x,1) + loop(\(x,i).5x,x,1)))
1: ((3x + 1) + loop(\(x,i).3x,x,1))
1: (3x + loop(\(x,i).3x,x,1))
1: (x + (loop(\(x,i).3x,x,1) + loop(\(x,i).2x,x,1)))
1: (3 + loop(\(x,i).3x,x,2))
1: (2 + (loop(\(x,i).3x,x,2) + (if x <= 0 then 1 else 0)))
1: (2 + (loop(\(x,i).3x,x,2) + loop(\(x,i).2x,x,1)))
1: (1 + (loop(\(x,i).3x,x,2) + loop(\(x,i).2x,x,1)))
1: (x + (loop(\(x,i).3x,x,2) + loop(\(x,i).4x,x,1)))
1: (x + (loop(\(x,i).3x,x,2) + loop(\(x,i).2x,x,1)))
1: (2 + (loop(\(x,i).3x,x,3) + loop(\(x,i).2x,(x + 2),3)))
1: (1 + (loop(\(x,i).3x,x,3) + loop(\(x,i).2x,x,1)))
1: (1 + (loop(\(x,i).3x,x,3) + loop(\(x,i).2x,x,2)))
1: (3x + loop(\(x,i).5x,(~2 + i),1))
1: (4 + loop(\(x,i).5x,(4x + ~2),1))
1: ((x5 + 5x) + loop(\(x,i).5x,x,1))
1: (1 + (loop(\(x,i).5x,x,1) + loop(\(x,i).3x,2x,1)))
1: (1 + (loop(\(x,i).5x,x,1) + loop(\(x,i).3x,x,1)))
1: (8x + (loop(\(x,i).5x,x,1) + loop(\(x,i).3x,x,1)))
1: (loop(\(x,i).5x,x,1) + loop(\(x,i).3x,x,1) + loop(\(x,i).8x,x,1))
1: (loop(\(x,i).5x,x,1) + loop(\(x,i).3x,x,1) + loop(\(x,i).2x,x,1))
1: (1 + (loop(\(x,i).5x,x,1) + loop(\(x,i).8x,x,1)))
1: (loop(\(x,i).5x,x,1) + loop(\(x,i).8x,x,1) + loop(\(x,i).3x,2x,1))
1: (loop(\(x,i).5x,x,1) + loop(\(x,i).8x,x,1) + loop(\(x,i).6x,x,1))
1: (1 + (loop(\(x,i).5x,x,1) + loop(\(x,i).4x,x,1)))
1: (loop(\(x,i).5x,x,1) + loop(\(x,i).4x,x,1) + (loop(\(x,i).4x,x,1) div 2))
1: (loop(\(x,i).5x,x,1) + loop(\(x,i).4x,x,1) + loop(\(x,i).3x,2x,1))
1: (loop(\(x,i).5x,x,1) + loop(\(x,i).4x,x,1) + loop(\(x,i).6x,x,1))
1: (1 + (loop(\(x,i).5x,x,1) + loop(\(x,i).6x,x,1)))
1: (loop(\(x,i).5x,x,1) + loop(\(x,i).6x,x,1) + loop(\(x,i).3x,2x,1))
1: (1 + (loop(\(x,i).5x,x,1) + loop(\(x,i).2x,x,1)))
1: (loop(\(x,i).5x,x,1) + loop(\(x,i).2x,x,1) + loop(\(x,i).3x,2x,1))
1: ((5x + 1) + loop(\(x,i).5x,x,1))
1: (5x + loop(\(x,i).5x,x,1))
1: ((x + 1) + loop(\(x,i).5x,x,2))
1: ((x + 1) + loop(\(x,i).5x,x,4))
1: ((x + 2) + loop(\(x,i).(x * (4 + i)),4,(x + 1)))
1: ((x + 3) + loop(\(x,i).(x * (4 + i)),4,(x + 1)))
1: (2 + (loop(\(x,i).(x * (3 - (i mod 2))),x,1) + loop(\(x,i).2x,x,2)))
1: (3 + loop(\(x,i).(7x + 7),(x div 2),(x mod 2)))
1: (2x + (loop(\(x,i).7x,x,1) + loop(\(x,i).5x,x,1)))
1: (1 + (loop(\(x,i).7x,x,1) + loop(\(x,i).3x,2x,1)))
1: (1 + (loop(\(x,i).7x,x,1) + loop(\(x,i).3x,x,1)))
1: (loop(\(x,i).7x,x,1) + loop(\(x,i).3x,x,1) + loop(\(x,i).8x,x,1))
1: (loop(\(x,i).7x,x,1) + loop(\(x,i).3x,x,1) + loop(\(x,i).4x,x,1))
1: (loop(\(x,i).7x,x,1) + loop(\(x,i).3x,x,1) + loop(\(x,i).2x,x,1))
1: (1 + (loop(\(x,i).7x,x,1) + loop(\(x,i).5x,x,1)))
1: (12x + (loop(\(x,i).7x,x,1) + loop(\(x,i).5x,x,1)))
1: (loop(\(x,i).7x,x,1) + loop(\(x,i).5x,x,1) + loop(\(x,i).3x,2x,1))
1: (loop(\(x,i).7x,x,1) + loop(\(x,i).5x,x,1) + loop(\(x,i).8x,x,1))
1: (loop(\(x,i).7x,x,1) + loop(\(x,i).5x,x,1) + loop(\(x,i).4x,x,1))
1: (loop(\(x,i).7x,x,1) + loop(\(x,i).5x,x,1) + loop(\(x,i).6x,x,1))
1: (loop(\(x,i).7x,x,1) + loop(\(x,i).5x,x,1) + loop(\(x,i).2x,x,1))
1: (1 + (loop(\(x,i).7x,x,1) + loop(\(x,i).8x,x,1)))
1: (loop(\(x,i).7x,x,1) + loop(\(x,i).8x,x,1) + loop(\(x,i).3x,2x,1))
1: (loop(\(x,i).7x,x,1) + loop(\(x,i).8x,x,1) + loop(\(x,i).6x,x,1))
1: (1 + (loop(\(x,i).7x,x,1) + loop(\(x,i).4x,x,1)))
1: (loop(\(x,i).7x,x,1) + loop(\(x,i).4x,x,1) + loop(\(x,i).3x,2x,1))
1: (loop(\(x,i).7x,x,1) + loop(\(x,i).4x,x,1) + loop(\(x,i).6x,x,1))
1: (1 + (loop(\(x,i).7x,x,1) + loop(\(x,i).6x,x,1)))
1: (loop(\(x,i).7x,x,1) + loop(\(x,i).6x,x,1) + loop(\(x,i).3x,2x,1))
1: (1 + (loop(\(x,i).7x,x,1) + loop(\(x,i).2x,x,1)))
1: (loop(\(x,i).7x,x,1) + loop(\(x,i).2x,x,1) + loop(\(x,i).3x,2x,1))
1: ((7x + 1) + loop(\(x,i).7x,x,1))
1: (7x + loop(\(x,i).7x,x,1))
1: (3 + loop(\(x,i).(2x + 16),x,1))
1: (5x + loop(\(x,i).13x,i,1))
1: ((x + 2) + loop(\(x,i).(5x2 + 10x + 5),(x + ~1),10))
1: (5 + loop(\(x,i).(2x + 40),x,1))
1: (4 + loop(\(x,i).(2 * (x3 + (if x <= 0 then 1 else 2))),x,1))
1: (4 + loop(\(x,i).(10x + 5),(x + 2),9))
1: (3 + loop(\(x,i).(2x2 + x),1,loop(\(x,i).4x,x,2)))
1: (3 + loop(\(x,i).(2x2 + x),3,x))
1: ((x2 + 2) + loop(\(x,i).(2 * (x + (x div 2))),x,1))
1: (1 + (loop(\(x,i).(x * (1 + (i div 2))),x,1) + (x div 2)))
1: (x + (loop(\(x,i).(2 * (x + (x mod 2))),(x + ~1),1) + (2 * (x mod 2))))
1: (5x + loop(\(x,i).(2 * (4x + loop(\(x,i).4x,i,1))),i,1))
1: ((x + 1) + loop(\(x,i).(2x + 2),(2x div (4 + (x div 2))),1))
1: (1 + (loop(\(x,i).(2x + 2),x,0) + (x2 div (x + 2))))
1: (2 + (loop(\(x,i).(x2 + x),1,(1 + loop(\(x,i).2x,x,1))) + loop(\(x,i).3x,x,1)))
1: (2 + (loop(\(x,i).(x2 + x),1,(1 + loop(\(x,i).2x,x,1))) + loop(\(x,i).3x,x,2)))
1: ((x + 1) + loop(\(x,i).(x2 + x),1,loop(\(x,i).(2x + i),x,0)))
1: (loop(\(x,i).(x2 + x),1,loop(\(x,i).3x,x,1)) + loop(\(x,i).5x,x,1) + loop(\(x,i).7x,x,1))
1: (loop(\(x,i).(x2 + x),1,loop(\(x,i).2x,x,1)) + loop(\(x,i).3x,x,1) + loop(\(x,i).5x,x,1))
1: (3 + loop(\(x,i).(x2 + x),1,loop(\(x,i).(x * i),x,1)))
1: (2 + (loop(\(x,i).(2x + 4),x,3) + (x mod 2)))
1: ((x + 3) + loop(\(x,i).(x * (2 + i)),4,(x + 1)))
1: (1 + (loop(\(x,i).(x * (2 + i)),x,1) + (if (x + ~1) <= 0 then 1 else ~1)))
1: ((x + 1) + loop(\(x,i).(2 * (x + i)),(x div 2),2))
1: (1 + (loop(\(x,i).((x + 1) * (x + i)),2,x) + (if x <= 0 then 1 else 0)))
1: ((x + 1) + loop(\(x,i).((x + 1) * (x + i)),x,2))
1: (5x + loop(\(x,i).~2x,i,2))
1: (x + (loop(\(x,i).(x * (0 - i)),i,1) + (x * i)))
1: (3x + loop(\(x,i).(~2x + 2),i,1))
1: (3 + loop(\(x,i).(~2x + 4),x,1))
1: (7x + loop(\(x,i).(2 * (4x - (x div ~2))),i,1))
1: ((x + 1) + loop(\(x,i).(2x2 + ~x),2,x))
1: (5x + loop(\(x,i).(2 * (2x - (x div (1 + i)))),(~1 + i),2))
1: (3x + loop(\(x,i).(2 * (2x - (x div (1 + i)))),(~1 + i),2))
1: (2x + loop(\(x,i).(3x + ~3),i,0))
1: (5x + loop(\(x,i).(3x + ~3),i,1))
1: (7x + loop(\(x,i).(3x + ~3),i,1))
1: (3 + loop(\(x,i).(10x + ~8),x,2))
1: ((x + 1) + loop(\(x,i).(~2x3 + x2),2,2))
1: (1 + (loop(\(x,i).(2 * (x - i)),x,2x) + ((x2 + x) div 2)))
1: ((x + 1) + loop(\(x,i).(x * (x - i)),2,(2 + i)))
1: ((x + 1) + loop(\(x,i).(x * (x - i)),2,11))
1: ((x2 + 2x + 1) + loop(\(x,i).(x * (x - i)),2,(x + ~1)))
1: ((2x + 1) + loop(\(x,i).(x * (x - i)),2,(x + ~1)))
1: (4 + loop(\(x,i).(8x + 24),2,(x mod 2)))
1: (3 + loop(\(x,i).10x,(x + 1),1))
1: (1 + (loop(\(x,i).10x,(x + 1),1) + loop(\(x,i).3x,x,1)))
1: (4 + loop(\(x,i).10x,x,1))
1: (9 + loop(\(x,i).10x,x,1))
1: (x + (loop(\(x,i).10x,x,1) + (if x <= 0 then 0 else 1)))
1: (3 + loop(\(x,i).10x,x,2))
1: ((x2 + x + 1) + loop(\(x,i).(x7 + x5 + x3 + x),1,(x + 1)))
1: (2x + loop(\(x,i).(10x + 20),x,0))
1: (1 + (loop(\(x,i).((x2 + x) * (2 - i)),x,2) + loop(\(x,i).x2,x,2)))
1: (x + (loop(\(x,i).(2x * (~1 + (2 * i))),i,1) + (2x * (1 + (2 * i)))))
1: (7 + loop(\(x,i).8x,x,1))
1: (1 + (loop(\(x,i).8x,x,1) + loop(\(x,i).3x,2x,1)))
1: (1 + (loop(\(x,i).8x,x,1) + loop(\(x,i).3x,x,1)))
1: (1 + (loop(\(x,i).8x,x,1) + loop(\(x,i).6x,x,1)))
1: (loop(\(x,i).8x,x,1) + loop(\(x,i).6x,x,1) + loop(\(x,i).3x,2x,1))
1: (17 + loop(\(x,i).8x,x,19))
1: (3x + loop(\(x,i).8x,i,1))
1: (4 + loop(\(x,i).4x,x,1))
1: (2 + (loop(\(x,i).4x,x,2) + loop(\(x,i).2x,x,1)))
1: ((x + 1) + loop(\(x,i).4x,x,2))
1: (4 + loop(\(x,i).4x,x,(2 - (x mod 2))))
1: (9 + loop(\(x,i).4x,x,(2 - (x mod 2))))
1: (4 + loop(\(x,i).6x,x,1))
1: (1 + (loop(\(x,i).6x,x,1) + loop(\(x,i).3x,2x,1)))
1: (1 + (loop(\(x,i).6x,x,1) + loop(\(x,i).4x,x,1)))
1: (loop(\(x,i).6x,x,1) + loop(\(x,i).4x,x,1) + loop(\(x,i).3x,2x,1))
1: (2x + loop(\(x,i).~4x,(~1 + i),1))
1: (4 + loop(\(x,i).(x2 * (1 + i)),2,(x2 + 1)))
1: (9x + loop(\(x,i).x3,2,x))
1: (2x + loop(\(x,i).x3,2,x))
1: (x + (loop(\(x,i).(2x * i),i,1) + (x * (1 + (2 * i)))))
1: ((x2 + x + 1) + loop(\(x,i).(x2 * i),2,3))
1: (2 + (loop(\(x,i).2x,(x + 2),2) + (x mod 2)))
1: (4 + loop(\(x,i).2x,(~x + 2),(x + 5)))
1: ((x + 1) + loop(\(x,i).2x,(x + ~1),1))
1: (loop(\(x,i).2x,(x + ~1),2) + loop(\(x,i).(2x + 2),x,1) + loop(\(x,i).3x,x,1))
1: ((3x + ~1) + loop(\(x,i).2x,(x + ~1),2))
1: (3x + loop(\(x,i).2x,(~2 + i),1))
1: ((x + 3) + loop(\(x,i).2x,((3 * ((x div 2) div 3)) div 2),2))
1: (1 + (loop(\(x,i).2x,(x div 2),1) + loop(\(x,i).2x,x,1)))
1: (4 + loop(\(x,i).2x,(x div 2),(2 + (x mod 2))))
1: (2 + (loop(\(x,i).2x,(x div 2),(2 + (x mod 2))) + (if x <= 0 then 0 else 1)))
1: (6 + (loop(\(x,i).2x,(x div 2),(2 + (x mod 2))) + loop(\(x,i).2x,x,1)))
1: (1 + (loop(\(x,i).2x,(x div 2),(2 + (x mod 2))) + loop(\(x,i).(2x + 4),x,0)))
1: (12 + (loop(\(x,i).2x,(x div 2),(2 + (x mod 2))) + loop(\(x,i).2x,x,1)))
1: (2 + (loop(\(x,i).2x,(x mod 4),1) + loop(\(x,i).2x,x,1)))
1: ((x + 1) + (loop(\(x,i).2x,(x mod (2 * (2 - (x mod 2)))),2) + loop(\(x,i).2x,x,1)))
1: (9 + loop(\(x,i).2x,x,1))
1: ((2x2 + 1) + loop(\(x,i).2x,x,1))
1: (1 + (loop(\(x,i).2x,x,1) + (x mod 2)))
1: (2 + (loop(\(x,i).2x,x,1) + (x mod 2)))
1: ((3x + 1) + loop(\(x,i).2x,x,1))
1: (3 + loop(\(x,i).2x,x,2))
1: (4 + loop(\(x,i).2x,x,2))
1: ((x + 1) + loop(\(x,i).2x,x,2))
1: ((3x + ~1) + loop(\(x,i).2x,x,2))
1: (3 + loop(\(x,i).2x,x,(1 + (2 * (4 + loop(\(x,i).2x,x,1))))))
1: (3 + (loop(\(x,i).2x,x,(1 + loop(\(x,i).3x,x,2))) + loop(\(x,i).(3x + 2),2x,2)))
1: (2 + loop(\(x,i).2x,x,(1 + loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (1 + (9 * (~1 + (5 * loop(\(x,i).7x,x,2)))))),x,3))))
1: (x + (loop(\(x,i).2x,x,(x + 1)) + (if x <= 0 then 0 else 1)))
1: ((2x2 + 1) + loop(\(x,i).2x,x,x))
1: (7x + loop(\(x,i).2x,i,2))
1: (3x + loop(\(x,i).2x,i,2))
1: (4 + loop(\(x,i).x2,1,(1 + (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x2 + 2x + 1))),x)))))
1: (4 + loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (26 + loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: ((x2 + 2x + 1) + loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (2 + (loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) + loop(\(x,i).((x2 + x) * i),2,2)))
1: ((x + 2) + loop(\(x,i).x2,1,(x + ~39)))
1: ((x + 1) + loop(\(x,i).x2,1,(x + ~16)))
1: ((x + 1) + loop(\(x,i).x2,1,(x + ~40)))
1: ((x + 1) + loop(\(x,i).x2,1,(13x + 13)))
1: ((2x + 1) + loop(\(x,i).x2,1,(~2x + 40)))
1: ((x + 1) + loop(\(x,i).x2,1,(31x + 31)))
1: ((x + 1) + loop(\(x,i).x2,1,(12x + 12)))
1: ((x + 1) + loop(\(x,i).x2,1,(20x + 20)))
1: ((x + 1) + loop(\(x,i).x2,1,(28x + 28)))
1: ((x + 1) + loop(\(x,i).x2,1,(10x + 10)))
1: ((x + 1) + loop(\(x,i).x2,1,(15x + 15)))
1: ((x + 1) + loop(\(x,i).x2,1,(46x + 46)))
1: ((x + 1) + loop(\(x,i).x2,1,(40x + 40)))
1: ((x + 1) + loop(\(x,i).x2,1,(30x + 30)))
1: ((x + 1) + loop(\(x,i).x2,1,((1 + (8 mod (1 + (x div 2)))) div 2)))
1: ((x + 1) + loop(\(x,i).x2,1,((x2 + 5x) div 2)))
1: ((x + 1) + loop(\(x,i).x2,1,loop(\(x,i).((x + ~1) - (x * i)),x,2)))
1: (1 + (loop(\(x,i).x2,1,loop(\(x,i).(3x2 * i),x,1)) + (x mod 2)))
1: (4 + loop(\(x,i).x2,2,2x))
1: ((x2 + 2) + loop(\(x,i).x2,2,x2))
1: (3 + loop(\(x,i).x2,(x - ((~x + 2) div 2)),2))
1: (3 + loop(\(x,i).x2,(2x + 2),4))
1: (4 + loop(\(x,i).x2,x3,2))
1: (4 + loop(\(x,i).x2,2x,2))
1: (3 + loop(\(x,i).x2,2x,4))
1: (3 + loop(\(x,i).x2,x,2))
1: (4 + loop(\(x,i).x2,x,2))
1: (7 + loop(\(x,i).x2,x,2))
1: (1 + (loop(\(x,i).x2,x,2) + loop(\(x,i).2x,x,1)))
1: (1 + (loop(\(x,i).(2 * i),((x * (x div 3)) mod (1 + ((2 - (x div 2)) mod 4))),1) + (x mod 2)))
1: ((x + 2) + loop(\(x,i).(x * i),(x + ~2),1))
1: ((x2 + 2x + 1) + loop(\(x,i).(x * i),x,1))
1: ((x2 + 1) + loop(\(x,i).(x * i),x,1))
1: (1 + (loop(\(x,i).(x * i),x,1) + (x div 3)))
1: ((x + 1) + loop(\(x,i).(x * i),x,1))
1: ((x + 1) + (loop(\(x,i).(x * i),x,2) + (x mod 2)))
1: ((x2 + 2x) + (loop(\(x,i).(x * i),x,2) + (x mod 2)))
1: (4 + loop(\(x,i).(x * i),x,loop(\(x,i).(x + loop(\(x,i).(x * i),i,2)),x,1)))
1: ((x + 1) + loop(\(x,i).(x * i),i,1))
1: (x + (loop(\(x,i).(x * i),i,1) + (x * (1 + (2 * i)))))
1: (2x + loop(\(x,i).(x * i),i,i))
1: ((x + 1) + loop(\(x,i).((2 * (2 + (if x <= 0 then 0 else (2 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))))) div 3),1,i))
1: (4 + loop(\(x,i).((x2 + 2x) div 2),1,loop(\(x,i).2x,x,1)))
1: ((x + 2) + loop(\(x,i).((x * (x + i)) div (1 + i)),2,(x + 1)))
1: ((x + 1) + loop(\(x,i).((x2 + ~x) div 2),2,(2x + 2)))
1: ((2x + 1) + loop(\(x,i).((x2 + ~x) div (x + 2)),2,x))
1: ((x + 2) + loop(\(x,i).((x2 + ~x) div (1 + i)),2,(x + 3)))
1: (x + (loop(\(x,i).((if x <= 0 then 2 else loop(\(x,i).(x div (2 - (x mod 2))),x,x)) div 2),2,x) + ((x + 1) div 2)))
1: ((x + 1) + loop(\(x,i).(loop(\(x,i).(2x + 3),x,0) div loop(\(x,i).(x2 + x),2,2)),2,x))
1: ((x + 2) + loop(\(x,i).(x div 2),(~x + 5),3))
1: (2 + (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) + (3 * loop(\(x,i).(2x + 2),x,2))))
1: ((x + 2) + loop(\(x,i).((1 + (x * loop(\(x,i).(8x + 2),2,2x))) mod (x + 1)),1,(x + 1)))
1: (3x + loop(\(x,i).((~1 + loop(\(x,i).2x,x,10)) mod (x + 2)),2,x))
1: ((x + 2) + loop(\(x,i).((x + ~1) mod (2 + i)),x,0))
1: ((x + 1) + loop(\(x,i).(x mod 2),(x mod 2),(x div 7)))
1: ((x + 1) + loop(\(x,i).(if (x mod 10) <= 0 then ~x else i),x,x))
1: ((x + 1) + loop(\(x,i).(if x <= 0 then 0 else (1 + (x * ((x + 1) + loop(\(x,i).(2x2 + ~x),2,x))))),2x,x))
1: ((x + 1) + loop(\(x,i).(if x <= 0 then 0 else (~1 + (2 * (x2 div 2)))),2,x))
1: ((x + 1) + loop(\(x,i).(if x <= 0 then 1 else ((3x + 3) - ((x - (x div 3)) div 3))),1,((x + 1) div 2)))
1: (2x + loop(\(x,i).(if x <= 0 then 1 else (x - ((~x + 1) div 3))),2,2x))
1: ((x + 1) + loop(\(x,i).(if x <= 0 then 1 else (2 * (x - ((3 * (x div 4)) div 2)))),x,0))
1: (4 + loop(\(x,i).(if x <= 0 then 3 else (x2 + ~1)),x,1))
1: (4 + loop(\(x,i).(if x <= 0 then 3 else 2x),x,0))
1: ((x + 1) + loop(\(x,i).(if x <= 0 then (2 * i) else (x + ~1)),x,0))
1: ((x + 1) + loop(\(x,i).(if x <= 0 then i else (x + ~1)),(x + ~2),0))
1: ((3x + 5) + loop(\(x,i).(if x <= 0 then i else (x + ~1)),x,0))
1: ((x + 1) + loop(\(x,i).(if x <= 0 then i else (x + ~1)),x,0))
1: ((x + 1) + loop(\(x,i).(if x <= 0 then i else (x + ~1)),i,0))
1: (4 + loop(\(x,i).loop(\(x,i).(2x + 1),x,2),(x + ~1),1))
1: ((4x + 2) + loop(\(x,i).loop(\(x,i).(x + loop(\(x,i).2x,i,x)),x,1),x,0))
1: ((x + 1) + loop(\(x,i).loop(\(x,i).(2 - (x mod 2)),(x mod 2),(x div 2)),x,x))
1: (3x + loop(\(x,i).loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),x,x),1,3x))
1: (2x + loop(\(x,i).loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),x,x),1,3x))
1: (2x + loop(\(x,i).loop(\(x,i).(~1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),x,x),1,3x))
1: (3 + loop(\(x,i).loop(\(x,i).(x2 + x),x,2),x,0))
1: ((x + 2) + loop(\(x,i).loop(\(x,i).(if x <= 0 then i else (x + ~1)),x,0),2,(x + 1)))
1: ((x + 2) + loop(\(x,i).i,(~3 + (x div 2)),1))
1: (10x + loop(\(x,i).i,(~4 + (x div 2)),x))
1: ((x + 2) + loop(\(x,i).i,(~3 + ((x + ~1) div 2)),1))
1: ((x + 2) + loop(\(x,i).i,(~1 + (((x + 1) div 2) div 2)),1))
1: ((x + 8) + loop(\(x,i).i,(~1 + (x div 2)),1))
1: ((x + 10) + loop(\(x,i).i,(~1 + (x div 3)),1))
1: ((x + 2) + loop(\(x,i).i,(~2 + (x div 3)),1))
1: ((x + 2) + loop(\(x,i).i,(x + ~9),1))
1: (2 + (loop(\(x,i).i,(x + ~8),1) + (x mod 2)))
1: ((x + 2) + loop(\(x,i).i,(x + ~8),1))
1: (x + (loop(\(x,i).i,(x + ~10),1) + ((x2 + x) div 2)))
1: (3x + loop(\(x,i).i,(x - (x mod (2 + (x mod 2)))),1))
1: ((x + 2) + loop(\(x,i).i,((~1 + (x div 2)) div 2),1))
1: ((x + 3) + loop(\(x,i).i,((~1 + (x div 2)) div 2),1))
1: ((x + 2) + loop(\(x,i).i,((x + ~2) div 3),1))
1: (1 + (loop(\(x,i).i,(x div (1 + ((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)))),1) + (x mod 2)))
1: (2 + (i + (x div 2)))
1: (3 + compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,7x)),x))
1: (4 + compr(\x.(1 - (((2x div (1 + (2 * (x mod 4)))) mod 2) + (x mod 2))),x))
1: (3 + compr(\x.(1 - (((x mod (~2 + (x mod ~7))) mod 2) + (x mod 2))),x))
1: (1 + (compr(\x.(1 - ((~1 + (2 * ((2x + 2) - ((x mod ~4) div 2)))) mod 5)),x) + (x div 2)))
1: ((x + 1) + compr(\x.(1 - (x mod (1 + (2 * (x div (2 + ((x div 2) div 3))))))),x))
1: ((2x + 1) + compr(\x.(1 - (x mod (1 + ((1 + (x mod (1 + (2 * (2 + ((2x + 2) mod 9)))))) mod (x + 1))))),x))
1: ((2x + 1) + compr(\x.(1 - (x mod (1 + (((x2 + 3x + 2) div 2) mod 9)))),(x + 1)))
1: ((x + 2) + compr(\x.(1 - (x mod (1 + ((x div ~2) mod 8)))),x))
1: (4 + compr(\x.(1 - (x mod (1 + (x mod 6)))),x))
1: ((x + 1) + compr(\x.(1 - loop(\(x,i).(x div (if (x mod 2) <= 0 then ~2 else 1)),x,x)),(2x + 1)))
1: ((x + 1) + compr(\x.(1 - loop(\(x,i).(x div (if (x mod 2) <= 0 then ~2 else 1)),x,x)),2x))
1: (4 + compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 4x))),(x + 1)))
1: (4 + compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 4x))),x))
1: (4 + compr(\x.(1 - loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),(x div 2),(x2 + 4x))),(x + 1)))
1: (3 + compr(\x.(2 - ((x2 + 2x) mod (1 + (3 * (x mod 4))))),x))
1: (4 + compr(\x.(2 - loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x)),x))
1: (4 + compr(\x.(~1 + (((x + 1) + (x div 8)) mod 5)),x))
1: ((x + 2) + compr(\x.(~1 + ((2 * (1 + loop(\(x,i).loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1,(3x + 3)))) mod 3)),x))
1: ((4x + 1) + compr(\x.((((x + 1) div (1 + ((2x + 1) mod 9))) mod 2) - (x mod 2)),x))
1: ((x + 1) + compr(\x.(~1 + ((x div 2) mod (1 + (if (x mod 2) <= 0 then 6 else 1)))),x))
1: ((x + 1) + compr(\x.(~1 + (x mod (2 + (x mod (x - ((x + ~1) mod 8)))))),x))
1: ((x + 1) + compr(\x.(~1 + (x mod ((x + 1) - (x mod 9)))),x))
1: ((x + 1) + compr(\x.(~1 + loop(\(x,i).(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,x)),2,x)),2x))
1: (7 + compr(\x.((x mod 10) * (x mod 7)),x))
1: ((x + 1) + compr(\x.((x mod (2 + ((2 * (x mod (~1 + (2 * (x mod 5))))) mod (x + 1)))) div 2),x))
1: (3 + compr(\x.((x + 1) mod (1 + (4 * (x mod (1 + (4 * (if (x mod 3) <= 0 then 0 else 2))))))),x))
1: (4 + compr(\x.((x + 1) mod (1 + (2 * ((~x + 2) mod (2 + (x mod 2)))))),x))
1: ((x + 2) + compr(\x.((x + 2) mod (1 + (x div 4))),x))
1: (2 + (compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x) + (4 * (if (~2 + (x div 5)) <= 0 then 0 else 2))))
1: (2 + (compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x) + (loop(\(x,i).(~x + 1),x,(x + 2)) div 2)))
1: ((x + 3) + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))
1: ((x + 2) + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),i))
1: ((x2 + 1) + compr(\x.((x * ((x div 2) div 3)) mod 2),x))
1: ((x + 1) + compr(\x.(((x2 + 3) div (1 + (x div 3))) mod 2),x))
1: ((x + 1) + compr(\x.((x div 2) mod 2),(x div 5)))
1: ((x + 1) + compr(\x.((x div 4) mod 2),(x div 3)))
1: ((x + 3) + compr(\x.((x div 4) mod 2),i))
1: ((x + 1) + compr(\x.((x div (1 + (if (x mod 2) <= 0 then 6 else 1))) mod 2),x))
1: (x + (compr(\x.(loop(\(x,i).(2x + 1),x,0) mod (x + 1)),x) + (if x <= 0 then 1 else 2)))
1: ((x + 2) + compr(\x.(loop(\(x,i).(2x + 1),x,0) mod (x + 1)),i))
1: (2 + (compr(\x.(loop(\(x,i).(x * (1 + (i div 2))),x,1) mod (x + 1)),x) + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x)))
1: (1 + (compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x) + (2 * (x mod 2))))
1: (2 + (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),((x + 1) div 2)) + (x mod 2)))
1: (1 + (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + ((if (~2 + (x div 5)) <= 0 then 2 else x) div 2)))
1: (1 + (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + (if (~2 + (x div 5)) <= 0 then 1 else x)))
1: (1 + (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + (if ((x + ~1) mod 4) <= 0 then 2 else 0)))
1: (1 + (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + (if (x mod 2) <= 0 then 2 else 0)))
1: (1 + (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x)))
1: (3 + (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x)))
1: ((x3 + 3x2 + 3x + 3) + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: (2 + (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + (x2 div ((2x + ~1) + (x div 2)))))
1: (2 + (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + (x2 div (2x + 8))))
1: (2 + (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + (loop(\(x,i).(~x + 1),x,(x + 2)) div 2)))
1: (2 + (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + (((((x + 1) div 2) div 2) * (x div 2)) mod 2)))
1: (2 + (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + loop(\(x,i).10x,(x + 1),1)))
1: (2 + (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + loop(\(x,i).(2x2 + 2x),2,5)))
1: (2 + (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + loop(\(x,i).x2,2,(x + 1))))
1: (2 + (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + loop(\(x,i).(x * i),x,(x + 1))))
1: ((x + 3) + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: (1 + (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)))
1: (4 + (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)))
1: (5 + (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)))
1: (5 + (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x)))
1: ((2x + 2) + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i))
1: (1 + (compr(\x.(loop(\(x,i).(~2x + 2),x,2) mod (x + 2)),x) + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x)))
1: ((x + 1) + compr(\x.(loop(\(x,i).(2x + ~2),x,1) mod (if x <= 0 then 1 else x)),x))
1: ((4x + 1) + compr(\x.(loop(\(x,i).((x2 + x) * (2 - (x mod 2))),2,(1 + (x div 2))) mod (x + 1)),x))
1: (3 + compr(\x.(x mod (1 + ((x4 + 4x3) mod 9))),x))
1: (4 + compr(\x.(x mod (1 + (x mod ((x + 1) - (x mod 8))))),x))
1: (1 + (compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x) + (x div 4)))
1: (4 + (compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x) + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: (1 + (compr(\x.loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 0 else 2))),x,x),x) + (x div 8)))
1: (4 + compr(\x.loop(\(x,i).(if (x mod 4) <= 0 then 0 else (1 + (x div 4))),2,x),x))
1: (4 + compr(\x.loop(\(x,i).loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x + 4)),2,x),(x + 1)))
1: (x2 - (3 * ((1 + (((x + 1) div 2) * (1 + (x div 2)))) div 3)))
1: (0 + (((x + 1) div 2) div 3) - ((2 - (x div 2)) div (x + 2)))
1: (x - (2x div (~2 + (x div ~3))))
1: ((x + 1) + ((x + (x div 12)) mod 3) - (x mod 3))
1: (1 + (((x + 1) div 2) div 2) - (2 * (x mod 2)))
1: (1 + (x div 3) - (2 * (x mod 2)))
1: (1 + (x mod 2) - (2 * (if (x mod (1 + (2 * (x div (2 * (2 + (x mod 2))))))) <= 0 then 1 else 2)))
1: ((x + 1) - ((1 + ((1 + ((((x + 1) * (~1 + (2 * ((x mod (3 + (x mod 2))) mod 2)))) div 2) div 2)) div 2)) div 2))
1: ((x + 1) - ((1 + loop(\(x,i).2x,x,(if x <= 0 then 1 else (x * i)))) div 3))
1: ((x + 1) - (((x div 2) - (x2 div (3 + (x div 2)))) div 2))
1: (3 - ((~x + (x2 mod 3)) div 2))
1: ((x + 1) - (((x mod 2) - ((x - ((x2 + 2x) div 3)) div 2)) div 2))
1: (3 - ((~x + (x mod 4)) div 3))
1: ((x + 1) - ((x - (((x3 div (2 - ((x div 2) mod 2))) div 2) div 3)) div 2))
1: ((x + 1) - ((2 * (1 + ((1 + (x div (1 + (loop(\(x,i).(5x + ~2),x,1) mod (x + 1))))) div 2))) div 3))
1: ((2x + 1) - ((2 * (~x + (x2 div 3))) div (x + 6)))
1: (1 + (2 * (1 + (x div 5))) - ((3 * ((1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((3 * ((~x + 2) div 2)) div 2))) div 2)) div 2))
1: (1 + (x div 7) - ((2 * (x div 3)) div ~3))
1: ((x + 1) - ((((x + 1) + ((2x + ~1) mod 7)) div 2) div 2))
1: ((x + 1) - (((1 + (x2 mod (3 * (if (x + ~6) <= 0 then 1 else 2)))) div 2) div 2))
1: ((x + 1) - (((3 * (1 + (if x <= 0 then 0 else ((x + 1) + ((x mod 3) div 2))))) div 2) div 2))
1: (3 - ((((~1 + (6 * (1 + (((~1 + (6 * (1 + ((1 + (if ((x + 1) mod (3 - (x mod 2))) <= 0 then x else 1)) div 2)))) div 2) div 2)))) div 2) div 2) div 2))
1: ((x + 1) - (((x + 1) mod (2 + ((1 - (2x mod (4 + (x div 4)))) mod (x + 1)))) div 2))
1: (1 + ((x + 1) div 2) - ((x mod (1 + (x mod (1 + (x div 3))))) div 2))
1: ((x + 1) - (loop(\(x,i).(x + ((i * i) div ~2)),x,1) div 2))
1: (1 + (x div 2) - (x div (1 + (2 * (if ((x + 1) mod 3) <= 0 then x else 2)))))
1: ((4x + 3) - (x div (~3 + ((~x + 2) div 4))))
1: (2 - (x div ~12))
1: ((x + 1) - (x div ((if (x mod 2) <= 0 then 1 else x) mod 4)))
1: ((2x + 1) - (1 mod (~x2 + 4x + ~1)))
1: (2 - (2 mod (1 - (2 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))))
1: ((x + 1) - (2 mod ((~x + 2) - (2x div 3))))
1: ((x + 1) - (2 mod (2 - ((x - (x mod 3)) div 2))))
1: ((x + 1) - ((x + 1) mod (2 + ((x + 1) mod 4))))
1: ((x + 1) - ((x + 1) mod (~1 + ((~x + 2) * (x div 2)))))
1: ((x + 1) - ((x + 1) mod ((2 * (2 - ((x div 2) div ~2))) div 3)))
1: ((4x + 1) - ((x + ~2) mod (3 - (x mod 2))))
1: ((x + 1) - ((x + ~2) mod (1 + ((3 * (x div 4)) div 2))))
1: (1 + (x mod 2) - ((x - (x div 8)) mod 3))
1: (3 - ((2 * (1 + ((1 + (((~1 + loop(\(x,i).2x,x,(1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))) mod (x + 1)) div 2)) div 2))) mod 3))
1: (3 - ((2 * (1 + ((1 + (x div (1 + ((x + 2) mod 4)))) div 2))) mod 3))
1: (3 - ((2 * (1 + ((1 + (x div (1 + (loop(\(x,i).3x,(((x + ~1) div 2) mod 4),1) mod (x + 1))))) div 2))) mod 3))
1: ((2x + 3) - (((2x + 1) * (1 + (if x <= 0 then 1 else 2))) mod 7))
1: (1 + (x div 3) - ((x2 + 2x) mod 7))
1: ((3x + 1) - (((x - (((x + 1) div 5) mod 2)) div 2) mod 2))
1: ((x + 1) - ((x3 div 8) mod 2))
1: ((x + 1) - ((((3 - (x mod (1 + ((x2 + 2x) mod 8)))) mod (x + 1)) div 2) mod 3))
1: (1 + ((x div 2) mod 2) - (((2 - (x div 2)) mod (x + 2)) mod 2))
1: ((x + 1) - ((10 mod (1 + ((x + 1) div 2))) mod 2))
1: ((x + 1) - (((~x2 + x) mod (3 + (x div 2))) mod 2))
1: ((x + 1) - (((x2 + ~2x) mod (1 + (x div 2))) mod 2))
1: ((x2 + 1) - (loop(\(x,i).2x,x,1) mod (1 - ((~x2 + x) mod 5))))
1: ((x + 1) - (x mod ((~x2 + 2x + 1) - (x mod 2))))
1: (3 - (x mod ((~x + ~2) + (2x mod (4 + (x div 4))))))
1: ((x + 1) - (x mod (~x2 + 3x + ~1)))
1: ((x + 1) - (x mod (2 * (4 + ((x div 2) div 7)))))
1: (1 + (x mod 2) - (x mod (4 * (2 - (x mod 2)))))
1: (1 + (x div 3) - (if x <= 0 then 0 else (1 + (x div (4 + ((x div 2) mod 2))))))
1: ((x + 1) - loop(\(x,i).(x - (if (~2 + (x div 2)) <= 0 then 0 else 1)),8,x))
1: ((~x + 4) + (3 * (2x - ((x - ((x + (x div 2)) div 4)) div 2))))
1: ((7x + 2) + (x2 mod 3))
1: (3 - (7 * (x div ~2)))
1: (11x2 + 11x + 3)
1: (3 - (5 * (x div ~2)))
1: (3 - (2 div (1 + (x div 2))))
1: (3 - (2 div (1 + (x div 4))))
1: ((4x + 2) - (2 div (1 + (x div 5))))
1: ((2x + 2) - (2 div (1 + (~x mod 5))))
1: ((x + 2) - (2 div (2 div (~2x + 1))))
1: (3 - ((~2x + 1) div (2 + (x div 2))))
1: (3 - ((~x + 1) div 5))
1: (2 + (x mod 2) - ((~x + 1) div (1 + (3 * (1 + (x mod 2))))))
1: ((x + 2) - ((~x + 1) div (1 + (2 * ((~x + 2) mod 5)))))
1: ((6x + 2) - ((~x + 1) div (1 + (x div 2))))
1: (2 + (x div 8) - ((~x + 1) div (2 + (x div 2))))
1: (2 + (x div 3) - ((~x + 1) div (1 + (x div 3))))
1: (2 + ((1 + (x div 3)) div 2) - ((~x + 1) div (2 + (x div 4))))
1: (3 - ((~x + 1) div (1 + (x mod (1 + (x mod (3 - (x mod 2))))))))
1: ((x + 2) - ((~x + 1) div (2 + (if ((x div ~2) mod 3) <= 0 then 2 else 1))))
1: (3 - ((2 - (x2 div 4)) div (x + 1)))
1: (2 + ((x + 1) div 2) - ((2 - (2x mod (2 + (x div 2)))) div (x + 2)))
1: (3 - ((2 - (x mod (2 + (x mod 3)))) div (x + 1)))
1: (3 - ((~x + 2) div (2 + ((if x <= 0 then 2 else x) div 2))))
1: (2 + ((1 + (x div 3)) div 2) - ((~x + 2) div (2 + (x div 2))))
1: (2 + (((x + 1) div 2) div 3) - ((~x + 2) div (2 + (x div 2))))
1: (2 + ((((x + 1) div 2) div 2) div 2) - ((~x + 2) div (2 + (x div 2))))
1: (2 + (x mod (1 + (x div 4))) - ((~x + 2) div (2 + (x div 2))))
1: (5 - ((~x + 2) div (1 - (x div ~5))))
1: (3 - ((~x + 2) div (2 - (x div ~2))))
1: (4 - ((~x + ((((x + ~1) div 2) div 2) div 2)) div 2))
1: (4 - ((~x + ((x mod 3) div 2)) div 2))
1: (4 - ((~1 + (x div (2 + (x mod 2)))) div 2))
1: (4 - ((x - (24 div (x + 1))) div 3))
1: (4 - (((~x + 3) * (x div 2)) div (x + 2)))
1: (3 - ((~2x + 4) div (2 + (((x + 1) div 2) div 2))))
1: (4 - (((((x + ~1) div 2) div 2) * (x div 4)) div 2))
1: (4 - (((1 + (x div 2)) div 2) div 2))
1: (3 - (((~x + 2) div 2) div 3))
1: (4 - (((3 * (2 + (x2 div 32))) div 2) div 2))
1: ((x + 2) - ((((x + 1) * (~4x + (x mod 2))) div 2) div 2))
1: ((x2 + 2) - ((x div ~2) div (~1 + (2 * (x mod 4)))))
1: (4 - (((x + ~1) mod (4 + ((x div 2) div 3))) div 2))
1: (3 - ((((x2 + ~x) div 3) mod 3) div 2))
1: (4 - (((x div 2) mod 3) div 2))
1: (4 - ((x mod 3) div 2))
1: (3 - ((x mod 5) div 2))
1: (4 - ((x mod 5) div 2))
1: (2 + (x mod 3) - ((x mod (4 - (x mod 2))) div 2))
1: (2 + (if x <= 0 then 0 else 1) - ((x mod (2 + (x mod 2))) div 2))
1: (2 + (x div 3) - (x div 2))
1: (5 - (x div 4))
1: (2 + (x mod 3) - (x div 4))
1: (4 - (x div 5))
1: (3 + (x div 3) - (x div (~1 + (x div ~2))))
1: (3 - (x div (~2 + (x div ~3))))
1: (3 - (x div (~2 + (x mod ~2))))
1: ((x + 2) - (x div (~2 + (x mod ~2))))
1: ((x + 2) - ((x + 4) mod 13))
1: (3 - ((2x + 1) mod (1 + (2x mod (2 + (x div 4))))))
1: ((2x + 2) - ((1 + ((~x + 1) mod (1 + (2x mod (1 + (x div 2)))))) mod 3))
1: (2 + (x2 div 2) - ((1 + (x mod 8)) mod (1 + (if x <= 0 then 1 else x))))
1: (5 - ((x + 1) mod (4 + ((if (x mod 2) <= 0 then (x div 2) else 2x) mod (x + 4)))))
1: (18 - ((~x + 2) mod 6))
1: ((8x + 2) - ((~1 + loop(\(x,i).(x * (2 + i)),x,2)) mod 5))
1: ((2x + 2) - ((x + ~1) mod (2 + ((x div 3) mod 2))))
1: (4 - ((x - (x div 4)) mod 2))
1: ((x + 2) - ((x - (x div 5)) mod 8))
1: ((2x + 2) - ((4x + 4) mod 7))
1: ((x + 2) - (((x + (2 * (x mod 2))) * ((1 + (x div 2)) div 2)) mod 3))
1: ((8x + 2) - ((2x + 2) mod 5))
1: (4 - (x2 mod ~10))
1: ((2x + 2) - (((1 + (x * ((1 + (x div 2)) mod 3))) div 2) mod 2))
1: (4 - (((1 + (x div 2)) div 2) mod 2))
1: (2 + (x div 4) - (((1 + (x div 2)) div (2 + (x mod 2))) mod 2))
1: ((x + 2) - (((x + 2) div (2 - (x mod ~4))) mod 2))
1: (4 - (((x + ~1) div 3) mod 2))
1: (4 - (((x - (x div 4)) div 2) mod 2))
1: (3 - (((x2 + x) div 4) mod 5))
1: (3 - ((x2 div 2) mod (x + 4)))
1: ((x + 2) - ((x2 div 2) mod (3 * (1 + (if (x mod 2) <= 0 then 6 else 0)))))
1: (3 - ((((x + 1) div 2) div 2) mod 2))
1: (4 - ((((2x + 1) mod (2 + (x div 2))) div 2) mod 2))
1: (4 - ((((2x + ~1) mod (2 + (x div 2))) div 2) mod 2))
1: (4 - ((x div 2) mod 3))
1: (2 + (x div 3) - ((x div 2) mod 3))
1: (3 - ((x div 2) mod (2 + (x mod 2))))
1: (5 - ((x div 2) mod (1 + (x mod 3))))
1: ((x + 2) - ((x div 4) mod 2))
1: (3 - ((x div 5) mod 2))
1: (4 - (((x + 3) mod 7) mod 2))
1: (3 - (((x + (4 mod (x + 1))) mod 3) mod 2))
1: (3 - (((x + 1) mod 5) mod 2))
1: ((x + 2) - (((2 - (x div 2)) mod (x + 1)) mod 3))
1: (4 - (((x + ~1) mod (2 + (x div (2 + (x mod 2))))) mod 2))
1: ((x + 2) - (((x2 div 3) mod (2x + 1)) mod 2))
1: (2 + (x mod 3) - (((x div ~3) mod 3) mod 2))
1: (3 - ((loop(\(x,i).(x * i),x,x) mod (x + 1)) mod 2))
1: (4 - ((x mod 3) mod 2))
1: (4 - ((x mod 5) mod 2))
1: (2 + ((x mod 3) div 2) - ((if (x + ~2) <= 0 then 1 else x) mod 2))
1: (2 + (x div 2) - ((if (x mod 2) <= 0 then 1 else x) mod 4))
1: (4 - (loop(\(x,i).2x,x,1) mod 9))
1: (2 + ((x div 2) mod 2) - (x mod 2))
1: (2 + (x mod 3) - (x mod 2))
1: (2 + (if x <= 0 then 0 else 1) - (x mod 2))
1: (3 - (x mod 4))
1: (2 + ((1 + (x div 2)) div 2) - (x mod 4))
1: ((x + 2) - (x mod (4 + ((x mod (2 + ((x + 1) mod 4))) div 2))))
1: (4 - (x mod (1 + ((x + ~1) mod 9))))
1: ((x + 2) - (x mod (1 + (((x + (if (x mod 3) <= 0 then 7 else (x div 2))) div 3) mod 3))))
1: (4 - (x mod (2 + (x mod 2))))
1: (4 - (x mod (~2 - (if (~2 + (x div 2)) <= 0 then 2 else 1))))
1: (4 - (x mod (1 - (2 * (x div 4)))))
1: (4 - (x mod ~3))
1: (4 - (x mod ~4))
1: ((x + 2) - (x mod (~1 + ((~x + 1) div 2))))
1: (2 + ((x + 1) mod 3) - (x mod 10))
1: (4 - (x mod (2 * (~4 + (if (x mod 2) <= 0 then 1 else x)))))
1: (4 - (if ((x + 1) mod 8) <= 0 then 2 else (x mod 2)))
1: (3 - (if (x mod 3) <= 0 then 2 else (x mod 2)))
1: (3 - (if x <= 0 then 1 else ((0 - (x div (1 + (loop(\(x,i).2x,x,2) mod (2x + 1))))) div 2)))
1: (5 - (if x <= 0 then 1 else ((x - ((x2 + ~x) div 8)) mod 2)))
1: ((x + 2) - loop(\(x,i).((~2x + ~1) + (((x + 1) div 2) div 3)),3,x))
1: (3 - loop(\(x,i).(x * (2 + i)),(x + 1),2))
1: ((12x + 10) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: (5 - (x mod 3))
1: (7 + ((x + ((x mod (1 + (x div 2))) div 2)) div 2))
1: ((4x + 1) + (x div (2 + (if (x + ~10) <= 0 then 2 else 1))))
1: ((x + 3) + (x div 4) - (x div (~1 + ((~x + 1) div 3))))
1: (2 + ((if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1) + (x div 7)) - (x mod 2))
1: ((x + 4) + (x div 3) - ((~x + 2) div (x + 1)))
1: ((x + 5) - ((~x + 2) div (2 - (x div ~4))))
1: ((x + 5) - ((9 * (((x + 1) div 2) div 3)) div 2))
1: ((x + 5) - (x div ~5))
1: (4 + ((x + (((x div 2) * (x div 2)) div 2)) div 2) - ((x mod 2) + (x div 2)))
1: (3 + ((((~2 + (x div 2)) * (x div 2)) mod (x + 1)) mod 2) - ((x mod 2) + (x mod 2)))
1: ((x + 2) - ((x mod 2) + (2 * ((2 - (x mod (~1 + (2 * (x div 5))))) div 2))))
1: ((3x + 2) + (((x + 1) div 2) div 2) - ((x + 1) div 5))
1: ((3x + 2) + (x div 3) - ((x + 1) div 7))
1: ((3x + 2) + ((((x + 1) div 2) div 2) div 2) - (((x + 1) div 2) div 3))
1: ((5x + 4) + (x div 3) - ((2x + 2) div 5))
1: ((5x + 3) - ((~2x + 2) div 9))
1: ((5x + 3) - (((x + 1) div 2) div 3))
1: ((5x + 2) + (x mod 2) - (x mod 3))
1: (3 + (2 * (1 + (2 * (2 + (2 * (1 + (2 * ((2x + 2) - (x mod 2))))))))) - (x mod 2))
1: (2 + (2 * (((~x + 1) mod 3) + (x mod 2))) - (x mod 2))
1: ((~x + 3) + (2 * (x - ((2 * ((x + 1) - (((x - ((2 - ((x + 1) div (2 * (2 - ((x div 4) mod 2))))) div 2)) div 2) div 2))) div 3))))
1: (2 + (((x + 1) div 5) * (1 + (x div 4))) - (x mod 2))
1: (2 + (2 * ((x mod (~2 - (x mod 7))) mod 2)) - (x mod 2))
1: (1 + ((2 * (x mod (2 + (x mod (2 + (x mod 2)))))) + (x div 2)) - (x div 3))
1: ((x2 + 5) - (x div 3))
1: ((~x + 4) + (((x + 2) + (loop(\(x,i).(5x + 4),x,0) mod (x + 1))) div 2))
1: (2 + ((1 + (((x + (if (x mod 2) <= 0 then x else 1)) div 3) * (1 + (x div 5)))) div 3) - (x mod 2))
1: (2 + ((x + ((1 + (((x + 1) * (loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1))) div 2)) div 2)) div 2) - (x mod 2))
1: (3 + ((x + (((x div 2) * (x div 2)) div 2)) div 2) - (x div 2))
1: ((x + 1) + ((1 + ((x * (x div 2)) div 4)) div 5) - (x mod 2))
1: (2 + ((1 + (((x div 3) * (x div 2)) div 2)) div 2) - (x mod 2))
1: (2 + ((2 + ((x * (x div 5)) div 2)) div 3) - (x mod 2))
1: ((x + 2) + ((x + (x div 2)) div 2) - (x mod 4))
1: ((x + 1) + ((1 + (x div 4)) div 2) - (x mod (1 + (x div 4))))
1: (2 + ((x + ((x div 2) mod 2)) div 2) - (x mod 2))
1: (2 + ((1 + loop(\(x,i).2x,((((1 + (8 mod (1 + (x div 2)))) div 2) + (if x <= 0 then 0 else 1)) - (x mod 2)),2)) div 3) - (x mod 2))
1: (2 + ((x + 1) div (2 + ((2x mod 3) + (x mod 2)))) - (x mod 2))
1: ((2x + 1) + ((x - (x div 7)) div 2) - (x div 3))
1: (2 + ((x - (((x + 1) div 2) mod 5)) div 3) - (x mod 2))
1: (2 + ((2 * (1 + ((2 + ((2 * (1 + ((2 + ((2 * (1 + ((1 + (x2 div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))) div 2))) div 3) - (x mod 2)) div 2))) div 3) - (x mod 2)) div 2))) div 3) - (x mod 2))
1: (2 + ((2 * (1 + ((2 + ((2 * (1 + ((1 + (x2 div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))) div 2))) div 3) - (x mod 2)) div 2))) div 3) - (x mod 2))
1: (2 + ((2 * (1 + ((1 + ((1 + (((1 + loop(\(x,i).2x,(1 + (x div 2) - (2 * (x mod 2))),2)) div 3) div 2)) div 2)) div 2))) div 3) - (x mod 2))
1: (2 + ((2 * (1 + ((1 + ((2 + (loop(\(x,i).(x - (x div (~2 + (x mod ~2)))),x,1) div 2)) div 3)) div 2))) div 3) - (x mod 2))
1: (2 + ((2 * (1 + ((1 + ((x + 1) div (1 + (x div (1 + (2 * (1 + (x mod 3)))))))) div 2))) div 3) - (x mod 2))
1: (2 + ((2 * (1 + ((1 + (x2 div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))) div 2))) div 3) - (x mod 2))
1: (2 + ((2 * (1 + ((1 + ((((x + 1) * (1 + (2x mod (1 + (x div 2))))) div 2) div 2)) div 2))) div 3) - (x mod 2))
1: (2 + ((2 * (1 + ((1 + (((~1 + loop(\(x,i).2x,x,(1 + (x mod (1 + ((x + 1) mod 3)))))) mod (x + 1)) div 2)) div 2))) div 3) - (x mod 2))
1: (2 + ((2 * (1 + ((1 + (((~1 + loop(\(x,i).2x,x,(2 - (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))) mod (x + 1)) div 2)) div 2))) div 3) - (x mod 2))
1: (2 + ((2 * (1 + ((1 + (loop(\(x,i).((x + 1) + (2 * ((x div 2) div 3))),x,1) div 2)) div 2))) div 3) - (x mod 2))
1: (2 + ((2 * (1 + ((1 + (x div (1 + (x mod (1 + ((1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x)) mod (x + 1))))))) div 2))) div 3) - (x mod 2))
1: (2 + ((2 * (1 + ((1 + (x2 mod (~1 + (4 * (2x div 3))))) div 2))) div 3) - (x mod 2))
1: ((~x + 2) + ((2 * (1 + ((15x3 + 30x2 + 16x + 1) div 3))) div 3))
1: (2 + ((2 * (1 + ((2 * (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + ((1 + (x div 2)) div 2))))) div 3))) div 3) - (x mod 2))
1: (2 + ((2 * (1 + ((2 * ((1 + ((x * ((x + (if (x mod 2) <= 0 then 2 else x)) div 2)) div 2)) div 3)) div 3))) div 3) - (x mod 2))
1: (2 + ((2 * (1 + (((x + 1) * (if x <= 0 then 1 else (2 * ((x mod (1 + (x div 2))) div 2)))) div 5))) div 3) - (x mod 2))
1: (2 + ((2 * (1 + (((x + 1) div (2 + ((x * (x div 3)) mod (1 + ((2 - (x div 2)) mod 4))) - (x mod 2))) div 2))) div 3) - (x mod 2))
1: (2 + ((2 * (1 + ((if x <= 0 then 0 else ((2x + 1) - (if (x mod 4) <= 0 then (x div 4) else 0))) div 2))) div 3) - (x mod 2))
1: (2 + ((2 * (1 + (loop(\(x,i).((x + 1) + (3 * (x div 5))),x,1) div (x + 1)))) div 3) - (x mod 2))
1: (2 + ((2 * (1 + (loop(\(x,i).(x + (x div (2 + (x mod 2)))),x,2) div (x + 2)))) div 3) - (x mod 2))
1: (2 + ((2 * (1 + ((x + 1) mod (1 + (2 * (((2x + 1) mod (1 + (2x mod (2 + (x div 4))))) + (if x <= 0 then 0 else 1))))))) div 3) - (x mod 2))
1: (2 + ((2 * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,(loop(\(x,i).(2 * (x - i)),x,2) mod (x + 1))) mod (x + 1)),x))) div 3) - (x mod 2))
1: (2 + ((2 * ((3 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 2)) div 3) - (x mod 2))
1: (2 + ((((x + 1) + (2 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))) div 2) div 2) - (x mod 2))
1: (2 + (((1 + (x div 3)) div (1 + (if (x mod (4 - (x mod 2))) <= 0 then 2 else 0))) div 2) - (x mod 2))
1: (2 + (((x + 1) div (2 * (1 + (x mod (2 + (x mod 2)))))) div 2) - (x mod 2))
1: (2 + (((~1 + (((x + ~1) * (x div 2)) div 2)) div 2) div 3) - (x mod 2))
1: (2 + (((x - (x3 div (~x + ~31))) div 2) div 2) - (x mod 2))
1: (2 + (((((1 + (x div 2)) div (1 + (x mod 2))) * (1 + (x div 2))) div 2) div 2) - (x mod 2))
1: (2 + (((((x + 1) * ((~x + 2) mod 3)) div 2) div 2) div 2) - (x mod 2))
1: (3x + ((x div 2) div 3) - (x div 7))
1: ((2x + 1) + (x div 2) - (x div 8))
1: ((x + 1) + (x div 2) - (x div (1 + (2 * (2 + (x mod 2))))))
1: ((x + 1) + (x div 2) - ((x div 2) mod 3))
1: ((x + 2) + (x div 4) - (x div (1 + (2 * i))))
1: (2 + (x div (2 + ((2x mod 3) + (x mod 2)))) - (x mod 2))
1: (3 + (x div (3 + (x mod 2))) - (x mod 2))
1: (2 + (x div (2 + (x div (1 + (x mod (1 + ((2 - (x div 2)) mod 4))))))) - (x mod 2))
1: (2 + (x div (2 + ((1 + ((~x + 2) mod 4)) mod (x + 1)))) - (x mod 2))
1: (2 + (x div (2 + (if ((x + 1) mod 5) <= 0 then 0 else 2))) - (x mod 2))
1: (2 + (x div (1 + (if (x mod 2) <= 0 then (2 * (1 + ((x mod 3) div 2))) else 1))) - (x mod 2))
1: (2 + ((x + 1) mod (1 + (2 * ((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1))))) - (x mod 2))
1: (3 + ((x + 1) mod (1 + (x div (2 + (x mod (2 + (x mod 2))))))) - (x mod 2))
1: (2 + ((2x + 2) mod (1 + (((x + 1) * (1 + (((1 + (x mod ((1 + (x mod (1 + (x div 4)))) * (1 + (x mod 2))))) mod (x + 1)) + (x mod 2)))) mod 3))) - (x mod 2))
1: ((x + ~1) + (((x * (x div 2)) mod 2) + (if (x + ~2) <= 0 then 1 else (x + ~2))))
1: ((x + 1) + ((x div 2) mod 2) - (x div 8))
1: (2 + (((x + 1) mod (1 + (4 * ((x div 4) mod 2)))) mod 2) - (x mod 2))
1: (2 + ((((~2 + (x div 2)) * (x div 2)) mod (x + 1)) mod 2) - (x mod 2))
1: (2 + ((x mod (((~x + ~1) + (x mod 2)) div 3)) mod 2) - (x mod 2))
1: (2 + (x mod (1 + ((~2x + 1) mod 5))) - (x mod 2))
1: (2 + (x mod (1 + (x mod (1 + (x mod (1 + (loop(\(x,i).4x,x,2) mod (x + 2)))))))) - (x mod 2))
1: ((2x + 1) + (if (~2 + (x div 2)) <= 0 then 1 else 2) - (x mod 3))
1: (2 + (if ((x + 2) mod 6) <= 0 then (x div 4) else 0) - (x mod 2))
1: ((2x + 1) + (if x <= 0 then 1 else x) - (((~x3 + x) div 2) div 3))
1: ((x + 1) + loop(\(x,i).2x,x,1) - (x mod 2))
1: ((x + 1) + loop(\(x,i).((if x <= 0 then 2 else loop(\(x,i).(x div (2 - (x mod 2))),x,x)) div 2),2,x) - (x mod 2))
1: ((x + 3) - (2 * (1 + ((1 + ((1 + (((x + (loop(\(x,i).(x + (x div 2)),x,2) div (x + 1))) div 2) div 2)) div 2)) div 2))))
1: ((x + 3) - (2 div (1 + (x div 5))))
1: ((x + 2) + (if x <= 0 then 0 else 1) - ((~x + 1) div 3))
1: ((x + 3) - ((~x + 1) div 13))
1: ((x + 4) - ((~x + 1) div (1 + (x div 3))))
1: ((x + 3) - ((~x + 2) div (5 + (x mod 2))))
1: ((x + 3) - ((~x + 2) div (1 + ((if x <= 0 then 2 else x) div 2))))
1: ((x + 3) - ((~x + 2) div (x + 1)))
1: ((x + 4) - ((~1 + (x div 2)) div 2))
1: ((x + 3) - ((~x + (x div 3)) div 3))
1: ((x + 3) - ((~x + (if (x + ~2) <= 0 then x else 0)) div 5))
1: ((x + 3) - ((2 * (2x div ~7)) div 3))
1: ((x + 3) - (((2 - (x div 2)) div 2) div 2))
1: ((x + 3) - ((x2 div 3) div (x + 3)))
1: ((x + 2) + ((x + 1) div 3) - ((x div 3) div ~3))
1: ((x + 3) - (x div ~3))
1: ((x + 3) - (x div (~2 + ((1 - (x div 2)) div 3))))
1: ((x + 2) + (x div 3) - (x div (~1 + ((~x + 2) div 3))))
1: ((x + 3) - (x div (~2 + (((~x + 2) div 2) div 5))))
1: ((x + 3) - (x div (~1 + (x div ~2))))
1: ((x + 3) - (x div (~2 + (x div ~2))))
1: ((x + 4) - (x div (~1 + (x div (~1 + (x div ~2))))))
1: ((x + 4) - ((~x + 4) mod 10))
1: ((x + 3) - ((x div 2) mod (1 + (x div 4))))
1: ((x + 1) + i - (x div 4))
1: (2 - ((x mod 2) + ((((~x + 1) div 3) * (x div 3)) div 2)))
1: (2 - ((x mod 2) + ((((~x + 2) div 2) * (x div 3)) div 3)))
1: ((~x + 13) - (x mod 2))
1: ((x + 2) - ((x mod 2) + (x mod (1 + (2 * (if (x mod 3) <= 0 then 0 else 2))))))
1: (0 + (2 * (1 + ((loop(\(x,i).2x,x,2) mod (2 + (x div 4))) div 2))) - (x mod 2))
1: (0 + (2 * (1 + (x mod (2 + (x div (2 + (if ((x + 1) mod 5) <= 0 then 0 else 2))) - (x mod 2))))) - (x mod 2))
1: ((4x + 1) - ((x div 3) + (x div 2)))
1: ((2x + 1) - ((x div 5) + ((~x + 2) div 4)))
1: ((loop(\(x,i).7x,x,1) + loop(\(x,i).2x,x,1)) - (loop(\(x,i).5x,x,1) + loop(\(x,i).3x,x,1)))
1: (1 + loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) - ((x div 2) + (x * (x mod 2))))
1: ((x + 2) - ((((x + 1) div 2) div 3) + (5 * ((~x + ~2) + (x mod 2)))))
1: ((x + ~1) + i - ((1 + (x div 4)) div 2))
1: (7 - (x div 3))
1: ((3x + 2) - ((x + 1) div (2 * (2 + (x div (1 + (x mod 4)))))))
1: ((3x + 2) - ((x + ((4 * (x div 3)) div 3)) mod 3))
1: (~x + 9)
1: (13 - (x mod 2))
1: (12 + (x div 2) - (x mod 3))
1: ((4x + 5) - ((x - (x div ~6)) div 2))
1: ((5x + 4) - ((2 * (~x + (x div 9))) div 3))
1: (11 - (x mod 2))
1: ((5x + 1) - ((~x + 2) div (4 + (x mod 2))))
1: ((5x + 2) - ((2x + 2) div (2 + (x div 2))))
1: ((2x + 11) - ((x div 5) mod 2))
1: (1 + (2 * ((x + 2) + (x div 2))) - (x mod 4))
1: (1 + (x * ((2x + 2) + (x mod 2))) - (x div 2))
1: ((~x + 1) + (2 * (4 + (x mod (x - ((x + ~1) mod 8))))))
1: ((2x + 9) - (((x + ~1) mod (1 + (x div 2))) div 2))
1: ((x2 + 12x + 35) - (x div 5))
1: ((2x + 25) - (x mod 5))
1: ((~x + 2) + ((3x2 + 2x + 1) * ((x + 1) div 2)))
1: (45x3 + 89x2 + 36x + 23)
1: ((x3 + 3x2 + 3x + 2) - ((x div 2) mod 2))
1: ((2x + 33) - (x mod 2))
1: (~1 + ((2 * (1 + ((x + 2) * ((1 + loop(\(x,i).2x,x,2)) div 3)))) + (x mod 2)))
1: (1 + (4 * (x + (2 * (x mod 2)))) - (x div 2))
1: (~1 + ((x + 1) * (1 + (2 * loop(\(x,i).(12x + 8),2,3)))))
1: ((4x + 3) + ((~2x + 2) div 5) - (x div 3))
1: ((x3 + x2 + 2x + 1) + (if (x mod 2) <= 0 then x else 1))
1: ((~x + 1) + (2 * (x2 + (x mod 2))))
1: ((2x + ~1) + (2 * (1 + ((1 + ((1 + ((1 + (((x + 1) * (1 + (2 * ((x + 1) div 7)))) div 2)) div 2)) div 2)) div 2))))
1: (1 + (2 * (((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3) + (if x <= 0 then 0 else 1))) - (x mod 2))
1: ((~x + 1) + (2 * (((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3) + (if x <= 0 then 0 else 1))))
1: (1 + (2 * (x + (((x div 4) * (x div 4)) div 2))) - (x mod 2))
1: (2 + (2 * (x + (x div 2))) - (x mod 4))
1: (1 + (2 * (x + (x div 2))) - (if (~2 + (x div 2)) <= 0 then 0 else 2))
1: (1 + (2 * (x + (x div 3))) - ((x + ~2) div 3))
1: (1 + (2 * (x + (x div 3))) - ((x mod 3) div 2))
1: (1 + (2 * (x + (x div 3))) - ((x + 1) mod 3))
1: (1 + (2 * (x + (x div 3))) - (x mod ~3))
1: ((2x + ~1) + (2 * (1 + (x div (3 * (2 + ((1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)) mod (x + 1))))))))
1: (1 + (2 * (2 + ((x + 1) mod (2 + ((x div 2) mod 2))))) - (x mod 2))
1: (1 + (2 * (((x mod (2 - (x div (1 + ((x div 2) mod 2))))) mod 2) + (if x <= 0 then 0 else 1))) - (x mod 2))
1: (1 + (2 * (2 + (x mod 2))) - (x div 3))
1: (1 + (2 * (x + (x mod 2))) - (x div 2))
1: (1 + (2 * (1 + (if (x + ~4) <= 0 then 0 else 2))) - (x div 3))
1: (1 + (2 * (2 + (if x <= 0 then 0 else 2))) - (x mod 2))
1: ((x + ~1) + (3 * (1 + loop(\(x,i).loop(\(x,i).5x,x,1),(i - (x mod 3)),loop(\(x,i).5x,x,1)))))
1: ((2x + 3) - ((1 + (x2 div (x + 10))) div 2))
1: ((2x + 3) - ((1 + (x2 div (4 + (x div 2)))) div 3))
1: ((2x + 3) - ((~1 - (4x2 div 5)) div 3))
1: ((2x + 3) - ((~x + 2) div (2 - (x div ~2))))
1: ((2x + 3) - ((~x + ((x div 3) mod 3)) div 3))
1: ((2x + 4) - (((x mod 2) - (x div 5)) div 2))
1: ((2x + 3) - ((x - (x div 3)) div 3))
1: ((2x + 3) - ((2x + 2) div 7))
1: ((2x + 3) - (((3 * (x div ~4)) div 2) div 2))
1: ((2x + 3) - ((x2 div 3) div (x + 5)))
1: ((2x + 3) - ((x2 div 3) div (x + 3)))
1: ((2x + 3) - ((~x + 1) mod (1 + ((x - ((x div 3) mod 3)) div 2))))
1: ((3x + 2) - (((1 - loop(\(x,i).(~1 + (x * (1 + i))),x,0)) div (x + 2)) mod 2))
1: ((2x + 2) + (x div 2) - ((x mod (~2 - (x div 3))) mod 2))
1: ((2x + 3) - (x mod 3))
1: ((2x + 3) - (if x <= 0 then 1 else ((x mod 2) - ((1 + (8 mod (1 + (x div 2)))) div 2))))
1: ((3x + 5) - ((x + (x div 2)) div 4))
1: ((4x + 3) - ((~x + 2) div (4 + (x mod 2))))
1: ((x2 + x + 1) - ((x4 + ~x2) div 12))
1: ((x2 + x + 1) - (x2 div (x + 24)))
1: ((2x + 5) - (3 * ((x + (x div 4)) div ~2)))
1: ((2x + 5) - ((x - ((3x2 + 3) div 7)) div 2))
1: ((2x + 5) - ((x2 + 2x) div (x + 17)))
1: ((2x + 5) - ((~6x + 3) div (x + 5)))
1: ((2x + 5) - ((x2 + ~x) div (x + 2)))
1: ((2x + 5) - ((x div 3) div ~3))
1: ((2x + 5) - (x div 3))
1: ((2x + 5) - (2 mod (~2x + 1)))
1: ((2x + 5) - (((~x2 + 2x) div 2) mod 3))
1: ((2x + 4) + ((x + ~1) div 3) - (x mod 3))
1: ((3x + 4) - (x mod (~4x + 7)))
1: ((x2 + 3x + 3) - (2 * (x mod 2)))
1: ((x2 + 4x + 5) - (3 * (x mod 2)))
1: ((x2 + 2x + 1) - ((1 + (x div 3)) * (x div 2)))
1: ((x + 1) + (x * (2 + i)) - (2 * (x mod 2)))
1: (1 + ((2 - ((x div 2) mod 2)) * (2 + (if x <= 0 then 1 else 2))) - (x mod 2))
1: ((~x2 + 2x + 1) - (x mod 2))
1: (1 + (11 * (if x <= 0 then 1 else 2)) - (x mod 2))
1: (8 + (2 * ((2 * (2x - (x mod 8))) - (x mod 4))) - (x mod 2))
1: (2 + (2 * (4x - ((2x + 1) div 7))) - (((x + 1) div 2) div 2))
1: (1 + (2 * (2x - (if (~2 + (x div 2)) <= 0 then 0 else 1))) - (x mod 2))
1: (1 + (3 * (((x mod 3) div 2) - (x mod 2))) - (x mod 2))
1: ((x + ~1) + (2 * ((x div 2) - (x mod 4))))
1: (1 + (2 * (x - (x div ~3))) - (x mod 3))
1: ((9x + 2) - ((x div 2) mod 2))
1: ((9x + 1) - ((x div 3) mod 2))
1: ((x + 20) - (1 mod (8 - (x div 2))))
1: (21 - (x mod 2))
1: ((10x + 1) - (((x + 1) div 3) mod 2))
1: ((10x + 1) - (x mod 2))
1: ((10x + 1) - (if (x + ~1) <= 0 then x else 0))
1: ((2x2 + 6x + 1) - (((~x3 + x) div 2) div 3))
1: ((8x + 4) + (((x + 1) div 2) div 2) - ((x + (x div 3)) div 5))
1: ((~x + 1) + (4 * (2 + ((x div 2) mod 4))))
1: (1 + (4 * (1 + (x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4)))))))) - (x mod 2))
1: (1 + (15 * (2 + (if x <= 0 then 0 else 2))) - (x mod 2))
1: ((10x + 21) - (x mod 2))
1: ((2x2 + 4x + 1) - (((x2 + 2x) div 2) div 3))
1: ((2x2 + 4x + 1) - (x div 2))
1: ((2x2 + 4x + 2) - (x mod 2))
1: ((x3 + 4x2 + 4x + 1) - (x2 div 2))
1: (~1 + ((9 * (2 + (2 * (x + (3 * (1 + (x div 2))))) - (x div 2))) + ((x + 1) mod 2)))
1: (8x2 + 25x + 11)
1: (33 - ((x div 2) mod 2))
1: (x4 + 9x3 + 28x2 + 35x + 17)
1: (1 + (8 * (x mod 2)) - (x div 5))
1: ((8x + 1) - (3 * ((x - (x div 4)) div 2)))
1: ((9x + 1) - ((x div ~2) div 5))
1: (8x + (x mod 2) - (x div ~2))
1: ((8x + 1) - ((x div 2) mod 3))
1: ((8x + 1) - (x mod 2))
1: ((8x + 1) - (x mod ~3))
1: ((6x2 + 1) - (x mod 2))
1: (1 + (4 * (x mod 11)) - (x div 3))
1: ((4x + 1) - ((x + (x div 3)) div 5))
1: ((4x + 1) - ((~x2 + 1) div (x + 4)))
1: ((4x + 1) - (((~x + 2) - (x div 2)) div 5))
1: ((4x + 1) - ((2x - (x div 4)) div 3))
1: (4x + ((x + 1) div 3) - (((((x div 2) div 3) mod 2) - (if x <= 0 then 1 else x)) div 2))
1: (4x + ((2x + 1) div 3) - ((((x div 2) mod 2) - (if x <= 0 then 1 else x)) div 2))
1: (4x + ((x + 1) div 3) - ((((x div 2) mod 2) - (if x <= 0 then 1 else x)) div 2))
1: ((4x + 2) - ((~x + (if (x + ~2) <= 0 then 0 else 1)) div 3))
1: ((4x + 1) - ((x - ((2 - (x div 3)) div 2)) div 2))
1: ((4x + 1) - ((x - ((2 - (x div 4)) div 2)) div 2))
1: ((4x + 1) - ((2x + 2) div 5))
1: ((4x + 1) - ((2x + 2) div (4 + ((x div 2) div 3))))
1: (4x + ((x + 1) div 3) - ((~x2 + 2x + ~1) div loop(\(x,i).x2,2,3)))
1: (4x + ((x + 1) div 3) - ((2 * ((((x div 2) div 3) mod 2) - (if x <= 0 then 1 else x))) div 3))
1: ((4x + 1) - (((~1 + i) * i) div 2))
1: ((4x + 1) - ((3 * (x div 4)) div 2))
1: ((4x + 1) - (x2 div ((x + 2) - (x div ~3))))
1: (4x + (((x + 1) div 2) div 2) - ((((x + ~1) div 2) div 2) div 2))
1: ((4x + 2) - (x div (~3 + ((~x + 2) div 4))))
1: ((4x + 1) - (((x + 1) * (x div 2)) mod 2))
1: ((4x + 1) - ((i mod 3) mod 2))
1: ((4x + 1) - loop(\(x,i).(2 * (x - (i mod 2))),i,1))
1: ((4x + 1) - i)
1: ((6x + 2) - ((4x + ((x + 1) mod 4)) div 5))
1: ((6x + 1) - ((2x + 2) div ~7))
1: ((6x + 1) - ((~2x + 2) div 7))
1: ((2x2 + 2x + 1) - ((1 - ((x2 + x) div 4)) div 3))
1: ((2x2 + 2x + 1) - (x2 div 3))
1: ((2x2 + 1) - ((~x2 + 2x) div 2))
1: ((2x2 + 1) - (x mod 2))
1: ((2x2 + 2) - (x mod 2))
1: (2x2 + (x div 2) - (x mod 2))
1: ((2x2 + 1) - loop(\(x,i).(x2 + 3x + 2),2,2))
1: ((x3 + 2x2 + 1) - (((x3 + ~x) div 2) div 3))
1: ((~x + 1) + (2x * (i * i)))
1: ((~x + 1) + (2 * ((1 + (loop(\(x,i).(2x + 2),x,0) + (x2 div (x + 2)))) div 2)))
1: ((~x + 1) + (2 * ((x + (((~2x + 4) mod (2 + (x div 2))) div 2)) div 2)))
1: ((~x + 1) + (2 * ((x + 1) div (8 - ((x + 2) div 3)))))
1: ((~x + 1) + (2 * ((x - ((x - (3 * (3x div 7))) div 2)) div 2)))
1: (1 + (2 * ((2 * (1 + (x mod 6))) div 3)) - (x mod 2))
1: ((2x + ~1) + (2 * ((4 * (x + (if (~2 + (x div 2)) <= 0 then 1 else 2))) div 3)))
1: ((x + ~1) + (2 * ((4 * (x + (if (~2 + (x div 2)) <= 0 then 1 else 2))) div 3)))
1: ((~x + 1) + (2 * (x2 div ((x + 1) + (2 * (x div 5))))))
1: ((x + ~1) + (2 * (loop(\(x,i).(11x + 10),x,4) div (x + 1))))
1: (1 + (2 * (x div (2 + ((x mod (2 + (x mod 2))) div 2)))) - (x mod 2))
1: (~1 + ((2 * ((1 + ((x2 + 2x) div (2 - (x div ~4)))) mod 2)) + (x mod 2)))
1: ((x + ~1) + (2 * ((1 + (if (x mod 2) <= 0 then ((~x + 2) mod (1 + (x div 4))) else 0)) mod 3)))
1: (1 + (2 * ((x + ~1) mod 4)) - (x mod 2))
1: (1 + (x * ((x div 2) mod 2)) - (x div 2))
1: ((x + ~1) + (2 * (x mod 4)))
1: (x + (3 * (if (~2 + (x div 5)) <= 0 then 1 else 2)) - (x mod 2))
1: ((x2 + ~1) + (2 * (if (x + ~1) <= 0 then 1 else ((~x + 1) * (x mod 2)))))
1: ((x2 + ~1) + (2 * (if (x + ~2) <= 0 then 1 else (2x + ~4))))
1: ((x + ~1) + (2 * (if (x div 4) <= 0 then ((x + 1) mod (4 - (x mod 4))) else (x div 2))))
1: (1 + (2 * (if ((x div 2) mod 6) <= 0 then x else 2)) - (x mod 2))
1: (1 + (3 * (if (x mod 2) <= 0 then (3 * (if (x mod 4) <= 0 then (3 * (2 + (if x <= 0 then 0 else 2))) else 1)) else 1)) - (x mod 2))
1: ((~x + 1) + ((x + 1) * loop(\(x,i).(x2 + 4x + 5),2,4)))
1: ((~x + 1) + ((x + 1) * loop(\(x,i).(2 + (x * (x + i))),2,4)))
1: ((~x + 1) + ((x + 1) * loop(\(x,i).(2 + (x * (x + i))),2,6)))
1: ((~x + 1) + ((x + 1) * loop(\(x,i).(x2 + 1),2,4)))
1: ((x + ~1) + (2 * loop(\(x,i).(x - ((~x + (x mod 2)) div 3)),x,2)))
1: ((x + ~1) + (2 * loop(\(x,i).(2 * (x + (2 * i))),(x + 1),1)))
1: ((~x + 1) + (2 * loop(\(x,i).(2x + 4),x,(x2 + ~x))))
1: ((x2 + ~1) + (3 * loop(\(x,i).(x * (1 + i)),2x,2)))
1: (1 + (3 * loop(\(x,i).4x,(~1 + i),1)) - (x mod 2))
1: ((2x + ~1) + (3 * loop(\(x,i).x2,1,(3 * (if x <= 0 then 4 else (2 + ((1 + loop(\(x,i).11x,x,3)) div (x + 1))))))))
1: ((3x + 1) - ((x2 + 2x) div (2x - ((~x + 2) div 2))))
1: ((2x + 1) + ((x + (if (~2 + (x div 4)) <= 0 then 1 else 2)) div 2) - (((x + 1) div 2) div 2))
1: ((3x + 1) - ((if (x + ~4) <= 0 then 1 else x) div 4))
1: (4x + ((3 * (x div (4 - ((x * (x div 2)) mod 2)))) div 2) - (x div 2))
1: ((2x + 1) - (3 * ((x div 2) - ((x mod 3) div 2))))
1: ((2x + 1) - (3 * (~x + (x div 4))))
1: ((2x + 1) - (9 * (x div ~2)))
1: (3x - (4 div (1 + i)))
1: ((2x + 1) - (((x + 2) + (x div 2)) div 5))
1: ((2x + 1) - ((2x + 1) div 9))
1: ((2x + 1) - ((x + ((~x2 + x) div 4)) div 4))
1: ((3x + 2) - ((x + ((~x2 + x) div 4)) div 4))
1: ((2x + 1) - ((x + (x div 2)) div 5))
1: ((2x + 1) - ((x + (x div 2)) div ~5))
1: ((2x + 1) - ((x + (x div 3)) div 5))
1: ((2x + 1) - ((x + (x div 4)) div ~3))
1: ((2x + 1) - ((x + ((1 + (x div 2)) mod 3)) div 4))
1: ((2x + 1) - ((x + ((1 + (x div 2)) mod 3)) div 5))
1: ((2x + 1) - ((x + ((~x + 1) mod 3)) div 4))
1: ((2x + 1) - ((x + (x3 mod 5)) div 4))
1: ((2x + 1) - ((x + ((x div 2) mod 4)) div 4))
1: ((2x + 1) - (((x mod 4) + (x div 2)) div 2))
1: ((2x + 1) - ((x + 1) div 5))
1: ((2x + 1) - ((x + 1) div 7))
1: ((2x + 1) - ((x + 2) div ~7))
1: ((2x + 1) - ((x + 2) div (~2 + (x mod 2))))
1: ((2x + 1) - ((1 - (4 * (x + (if (x + ~4) <= 0 then 1 else 2)))) div 3))
1: ((2x + 1) - ((~2x + 1) div 7))
1: ((2x + 1) - ((~x2 + 1) div (x + 4)))
1: ((2x + 1) - ((1 - (x div 2)) div 3))
1: ((2x + 1) - ((1 - (x div 2)) div 5))
1: ((2x + 1) - ((~x + 1) div 3))
1: ((2x + 1) - ((~x + 1) div 5))
1: ((2x + 1) - (((~x + 2) - (x div 4)) div 4))
1: ((2x + 1) - ((~x + 2) div 4))
1: ((2x + 1) - ((0 - ((x div 2) + (x mod 4))) div 2))
1: ((2x + 1) - (((~x + ~2) + (x mod 2)) div 3))
1: ((2x + 1) - ((~x + (2 * (((x + ~1) div 2) div 2))) div 3))
1: ((2x + 1) - ((~x + ((x + ~2) * (x div 3))) div 3))
1: ((2x + 2) - ((x2 + ~2) div (x + 6)))
1: ((2x + 1) - ((~x + ((~x + 2) div 4)) div 2))
1: ((2x + 1) - ((~x + ((~1 + (x div 2)) div 3)) div 2))
1: ((2x + 1) - ((~x + ((x2 + ~2x) div 5)) div 3))
1: ((2x + 1) - ((~x + ((x div 2) div 3)) div 2))
1: ((2x + 1) - ((~x + ((x div 2) div ~2)) div 2))
1: ((2x + 1) - ((~x + ((x div 2) div ~2)) div 3))
1: ((2x + 1) - (((x div 2) - ((~x + 2) div (2 + (x div 2)))) div 2))
1: ((2x + 1) - (((x div 4) - (if x <= 0 then 1 else x)) div 2))
1: ((2x + 2) - (((x div 4) - (if x <= 0 then 1 else x)) div 2))
1: ((2x + 1) - ((~x + (x div 4)) div 2))
1: ((2x + 2) - ((~2x + (2 mod (x + 1))) div 5))
1: ((2x + 1) - ((~x + (((x + ~1) div 2) mod 2)) div 3))
1: ((2x + 1) - ((~x + (x mod 2)) div 3))
1: ((2x + 2) - ((~x + (x mod 3)) div 4))
1: ((2x + 1) - ((~1 + (x mod 4)) div 2))
1: ((2x + 2) - ((~x + (x mod (1 + (x div 3)))) div 2))
1: ((2x + 1) - ((~x + (if (~2 + (x div 2)) <= 0 then 0 else 2)) div 2))
1: ((2x + 1) - ((x + ~1) div 5))
1: ((2x + 1) - ((x - (x div 5)) div 3))
1: ((2x + 1) - ((x - ((x div 2) mod 3)) div 3))
1: ((2x + 1) - ((x - (x mod (~2 + ((x div 2) mod 2)))) div 3))
1: ((2x + 1) - ((x - loop(\(x,i).(x - (if x <= 0 then 1 else (2 * (1 + i)))),x,2x)) div 2))
1: ((2x + 1) - (3x div ~7))
1: ((2x + 1) - ((2 * ((2x + 2) + (x div (1 + (2 * (if (~4 + (x div 2)) <= 0 then 2 else 1)))))) div 3))
1: ((2x + 1) - ((2 * (x + (x mod 5))) div 5))
1: ((2x + 1) - ((2x + 2) div 7))
1: ((2x + 1) - ((2x + 2) div ~7))
1: ((2x + 1) - ((2x + 4) div 7))
1: ((2x + 1) - ((~2x + 2) div 5))
1: ((2x + 1) - ((~x2 + x) div 4))
1: ((2x + 1) - ((2 * (~x + (x2 div 3))) div (x + 3)))
1: ((2x + 1) - ((2 * (~x + (x2 div 3))) div (x + 2)))
1: ((2x + 1) - ((2 * (~x + (x div 7))) div 3))
1: ((2x + 1) - ((2x + ~2) div 5))
1: ((2x + 1) - ((x2 + ~2x) div ((x + 4) + (x div 2))))
1: ((2x + 1) - ((2 * ((~x + ((~x + 2) div 4)) div 2)) div 3))
1: ((2x + 1) - ((x * ((x + ~1) div 3)) div (x + 1)))
1: ((2x + 1) - ((3 * (x mod 13)) div (x + 1)))
1: ((2x + 1) - (2x div 7))
1: ((2x + 1) - (2x div ~5))
1: ((2x + 2) - (x2 div ((x + 2) + (x div 3))))
1: ((2x + 1) - (x2 div ((x + 2) + (x div 4))))
1: ((2x + 1) - (x2 div (x + 3)))
1: ((2x + 1) - (x2 div (x - ((~x + 2) div 2))))
1: ((2x + 1) - ((((x + 1) + (x div 4)) div 2) div 2))
1: ((2x + 1) - (((2 + (x * (x + (x div 2)))) div (x + 2)) div 2))
1: ((2x + 1) - (((x2 + 1) div (x + 8)) div 2))
1: ((2x + 2) - (((x2 + 1) div (x + 8)) div 2))
1: ((2x + 1) - (((x + 1) div 2) div 3))
1: ((2x + 1) - (((~x + 2) div 2) div 5))
1: ((2x + 1) - (((x2 - loop(\(x,i).(x * i),x,1)) div 2) div 2))
1: ((2x + 2) - (((~x + ((x div 2) div ~2)) div 2) div 2))
1: (3x - ((((x + 1) - ((x div 2) mod 5)) div 2) div 2))
1: ((2x + 1) - (((x * (x + (x div 2))) div 2) div (x + 5)))
1: ((2x + 1) - (((~x3 + x) div 2) div 3))
1: ((2x + 1) - (((x3 + ~3x2 + 2x) div 2) div 3))
1: ((2x + 1) - (((3 * ((x2 + ~2x) div (x + 2))) div 2) div 2))
1: ((2x + 1) - (((x * (x div 2)) div 2) div (2 + (x div 2))))
1: ((2x + 1) - (((5 * compr(\x.(1 - (x mod (1 + (4 * (x mod 5))))),x)) div 2) div 2))
1: ((2x + 1) - (((3x2 div (x + 2)) div 2) div 2))
1: ((2x + 1) - (((32 mod (x + 1)) div 2) div 2))
1: ((2x + 1) - (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))
1: ((2x + 1) - (((2 * (1 + ((1 + ((x div 2) mod (1 + (x mod (1 + (x div 3)))))) div 2))) mod (x + 1)) div 2))
1: ((2x + 1) - ((x mod 3) div 2))
1: ((2x + 1) - ((x mod (4 - (x div 4))) div 2))
1: ((2x + 1) - ((x mod (1 + (x div 2))) div 3))
1: ((2x + 1) - ((x mod (2 + (x mod 2))) div 2))
1: ((2x + 2) - ((x mod ~4) div 2))
1: (2x + (x div 3) - (x div 4))
1: ((2x + 1) - (x div 5))
1: ((2x + 1) - (x div (5 + ((~x + 1) mod 4))))
1: ((2x + 2) - (x div (4 - ((x div 2) mod 2))))
1: ((2x + 1) - (x div 7))
1: ((2x + 1) - (x div (2 + (if (x mod 2) <= 0 then 1 else 8))))
1: ((2x + 1) - (x div ~3))
1: ((2x + 2) - (x div (~2 + ((~x + 2) div 4))))
1: ((2x + 1) - (x div 8))
1: ((2x + 2) - (x div 8))
1: ((2x + 2) - (x div 12))
1: ((2x + 1) - (x div ~6))
1: ((2x + 1) - (x div (4 * (2 + (x mod 2)))))
1: (3x - (x div (if i <= 0 then 1 else i)))
1: ((2x + 1) - (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))
1: ((2x + 1) - (2 mod (~2x + 1)))
1: ((2x + 1) - (2 mod ((~x + 1) - (x mod 2))))
1: ((3x + 1) - ((2 + (x div 4)) mod (x + 1)))
1: (2x + (x div 3) - ((x + 1) mod 3))
1: ((2x + 1) - ((x + 1) mod 5))
1: ((2x + 1) - ((x + 1) mod (1 + (x mod (1 - ((~x + (x mod 2)) div 3))))))
1: ((2x + 1) - ((x + 1) mod ~10))
1: ((2x + 2) - ((x + 1) mod 8))
1: ((2x + 1) - ((x + ~2) mod 5))
1: ((2x + 1) - (((x + 1) * (x div 2)) mod 3))
1: ((2x + 1) - (x2 mod 7))
1: ((2x + 1) - ((x * i) mod 2))
1: ((2x + 1) - (((((x + 2) div 3) + (x div 5)) div 2) mod 2))
1: (2x + ((1 - (x div 2)) div 3) - (((x + 1) div 2) mod 3))
1: ((2x + 2) - (((x - (x div 4)) div 2) mod 2))
1: ((2x + 1) - (((x3 mod (2x + ~1)) div 2) mod 2))
1: ((2x + 2) - ((x div 2) mod 2))
1: ((2x + 1) - ((x div 2) mod (1 + ((1 + ((x + 1) div 2)) mod 3))))
1: ((2x + 1) - ((x div 3) mod 2))
1: ((2x + 1) - ((x div 3) mod 3))
1: ((2x + 2) - ((x div 4) mod 2))
1: ((2x + 1) - ((x div 5) mod 2))
1: ((2x + 1) - (((x + (x div 4)) mod 3) mod 2))
1: ((2x + 2) - (((x2 + ~x + ~1) mod (2 + (x div 2))) mod 2))
1: ((2x + 1) - ((x mod 3) mod 2))
1: ((2x + 1) - ((x mod 3) mod (1 + (x div 3))))
1: ((2x + 1) - ((x mod 4) mod 3))
1: ((2x + 1) - ((x mod 10) mod 9))
1: (3x - ((i mod 3) mod 2))
1: (2x + (x div 8) - (x mod 2))
1: (2x + ((x div 3) mod 2) - (x mod 2))
1: (2x + ((x div 4) mod 2) - (x mod 2))
1: (2x + (2x div 3) - (x mod 3))
1: (2x + (if (~2 + (x div 2)) <= 0 then 0 else 1) - (x mod 3))
1: ((2x + 2) - (x mod 5))
1: ((2x + 1) - (x mod (1 + ((x2 + ~x) mod 8))))
1: ((2x + 1) - (x mod (1 + ((x mod (3 + (x mod 2))) mod (1 + (x div 2))))))
1: ((2x + 2) - (x mod (x - ((x + ~1) mod 8))))
1: ((2x + 1) - (x mod 6))
1: ((2x + 2) - (x mod 6))
1: ((2x + 2) - (x mod 8))
1: ((2x + 1) - (x mod 10))
1: ((2x + 1) - (x mod (2 * (2 - (x mod 2)))))
1: (2x + (x div 2) - (x mod (2 * (2 - (x mod 2)))))
1: ((2x + 1) - (x mod (2 * (~2 + (x mod 2)))))
1: ((2x + 2) - (i mod 2))
1: (2x + (x mod 2) - (i mod 2))
1: ((2x + 1) - (i mod (2 * (1 + (x mod 2)))))
1: ((2x + 1) - (if (x mod 4) <= 0 then (x div 4) else 0))
1: (2x + loop(\(x,i).5x,x,1) - loop(\(x,i).3x,x,1))
1: ((2x + 1) - loop(\(x,i).(x div (1 + (x mod 2))),x,x))
1: ((x2 + ~1) + (2 div (x + 1)))
1: ((x2 + 2) + (((x3 + ~x) div 2) div 3) - (if x <= 0 then 1 else x))
1: (2 + (2 * i) - (x div 4))
1: (1 + (2 * i) - (i div 3))
1: ((~x + 2) + (2 * i))
1: (1 + (x * i) - (x div 2))
1: (1 + (x * i) - (i div 2))
1: (2 + (x * i) - (i div 2))
1: (0 + (2 * compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: ((~x + 3) + (2 * compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: (1 + ((x2 + 2x + 1) div 5) - ((x div 2) mod 2))
1: (1 + ((x + ((x div 2) * (x div 2))) div 2) - (x mod 2))
1: (1 + ((2x + 1) div (3 + (x div 4))) - ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2))
1: (1 + ((x2 + 1) div 2) - (x div 3))
1: (1 + ((1 + (((((x + ~1) * (1 + (x div 2))) div 2) div 2) div 2)) div 2) - (x mod 2))
1: (2 + ((1 + (x div 2)) div 2) - ((((1 - (x div 2)) mod (x + 2)) div 2) div 2))
1: (1 + ((x + (x div 2)) div 2) - ((x div 2) mod 2))
1: (2 + ((1 + (~x mod 4)) div 2) - (x div 7))
1: ((((1 + (8 mod (1 + (x div 2)))) div 2) + (if x <= 0 then 0 else 2)) - (x mod 2))
1: (2 + ((x + 1) div 2) - ((~x + 3) div 9))
1: (2 + ((x + 1) div 2) - ((4 * ((2 * (x div 2)) div 3)) div 3))
1: (1 + ((x + 1) div 2) - ((3 * (x div 4)) div 2))
1: (2 + ((x + 1) div 2) - (x div (2 + ((x * (x div 2)) mod 2))))
1: (x + ((x + 1) div 2) - (x div (~1 + (2 * i))))
1: (1 + ((x + 1) div 3) - (x div (~2 + (x div ~2))))
1: (1 + ((x + 2) div 3) - ((2 * (x div 3)) div 3))
1: ((((2 - (x mod (~1 + ((~x + 2) div 4)))) div 2) + (if x <= 0 then 0 else 1)) - (x mod 2))
1: ((~x + 1) + ((~x + 2) div 2))
1: ((~x + 1) + ((x2 - (((x2 + 2x) div 2) div 3)) div 2))
1: (1 + (((x div 2) - (x div 3)) div 2) - (x mod 2))
1: (1 + (((x div 4) - ((x mod 3) div 2)) div 2) - (x mod 2))
1: (1 + ((x - (2x div (2 + (x div 5)))) div 2) - (x mod 2))
1: ((x + ~1) + ((2 * ((2x + 6) + (2x div (8 + (x mod 2))))) div 3))
1: (~1 + (((2 * ((3x + 4) + ((~x + 1) mod (2 + (x div (2 + (x mod 2))))))) div 3) + ((x div 2) mod 2)))
1: ((2x + ~1) + ((2 * ((3x + 4) + loop(\(x,i).(x - ((~1 + (x div 4)) div 2)),2,(x + ~1)))) div 3))
1: ((2x + ~1) + ((2 * ((4x + 1) + ((2 * (2 + (if x <= 0 then 1 else (2 * (3x + ((x - (x div 12)) div 2)))))) div 3))) div 3))
1: ((2x + ~1) + ((2 * ((2x + 4) - (x mod (~1 + ((~x + 1) div 2))))) div 3))
1: ((2x + ~1) + ((2 * ((4x + ~1) + ((2 * ((2x + 2) + (if x <= 0 then 1 else (2 * (2x + ((x - (x div 4)) div 2)))))) div 3))) div 3))
1: ((2x + ~1) + ((2 * (3x + (if x <= 0 then 1 else 5x) - ((~2x + 2) div 9))) div 3))
1: ((2x + ~1) + ((2 * ((2x + 2) + (((2x + 1) + (2 * ((x + 1) + (5 * (x + (x div 4)))))) div 3))) div 3))
1: ((x + ~1) + ((2 * ((2x + 2) + (if x <= 0 then 1 else (2 * (4x + ((x + ((x div 2) mod 2)) div 2)))))) div 3))
1: ((2x + ~1) + ((2 * ((2x + 2) + (if x <= 0 then 1 else (2 * (2x + ((x + ((x div 2) mod 2)) div 2)))))) div 3))
1: ((2x + ~1) + ((2 * ((2x + 2) + (if x <= 0 then 1 else (2 * (2x + ((x - (x div 4)) div 2)))))) div 3))
1: (~1 + (((2 * ((2x + 2) + (if x <= 0 then 1 else (2 * (x + ((x div 2) div 5)))))) div 3) + (x mod 2)))
1: ((x + ~1) + ((2 * ((x + 3) + compr(\x.(1 - (x mod (1 + (2 * (x div (2 + ((x div 2) div 3))))))),x))) div 3))
1: ((x + ~1) + ((2 * ((x + 1) + (2 * (x - ((~x2 + 1) div (x + 4)))))) div 3))
1: ((2x + ~1) + ((2 * ((x + 2) + ((2 * ((x + 1) + (2 * (2x + (2x div 5))))) div 3))) div 3))
1: ((x + ~1) + ((2 * ((x + 2) + ((2 * (1 + (2 * (x - ((~2x2 + 4x) div 5))))) div 3))) div 3))
1: ((2x + ~1) + ((2 * (3 + ((4 * (1 + ((((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) * (1 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))) div 2) div 2))) div 3))) div 3))
1: ((x + ~1) + ((2 * ((x + 2) + (if x <= 0 then 1 else (6x - (((x + ~1) mod (2 + (x div 2))) div 2))))) div 3))
1: ((x + ~1) + ((2 * ((x + 2) + (if x <= 0 then 1 else (2 * (2 + ((x + 2) div 7)))))) div 3))
1: ((x + ~1) + ((2 * (4 + (if x <= 0 then 2 else ((x + 2) + (2 * (2 - (x mod 2))))))) div 3))
1: ((2x + ~1) + ((2 * (2x + loop(\(x,i).((x + 1) + (((2x + ~4) div (2 + (x div 2))) mod 2)),x,1))) div 3))
1: (1 + ((x2 + 6x + 8) div 2) - (x mod 2))
1: (1 + ((3 * (1 + (2 * (1 + (2 * (1 + (2 * ((2x + 2) - (x mod 2))))))))) div 2) - (x mod 2))
1: ((2x + ~1) + ((2 * (2 + ((1 + (5 * ((x + ((x div 2) mod 2)) div 2))) div 3))) div 3))
1: ((2x + ~1) + ((2 * (2 + ((1 + (2 * (if x <= 0 then 1 else (2 * (2x - ((x div 2) mod 2)))))) div 3))) div 3))
1: ((x + ~1) + ((2 * (2 + ((2 + (((x + 1) * ((x + ~1) div 3)) div 2)) div 3))) div 3))
1: ((~x + 1) + (((1 + (x div 2)) * (x div 2)) div 2))
1: (1 + ((4 * (x + (if (~2 + (x div 2)) <= 0 then 1 else 2))) div 3) - (x mod 2))
1: ((x + ~1) + ((2 * (2 + (if (x + ~1) <= 0 then 1 else (2 + (loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)))))) div 3))
1: ((2x + ~1) + ((2 * (2 + (if x <= 0 then 1 else (4x - (((~x + 1) - (x mod 2)) div 3))))) div 3))
1: ((2x + ~1) + ((2 * (2 + (if x <= 0 then 1 else (2 * (3x + ((x - (x div 12)) div 2)))))) div 3))
1: ((2x + ~1) + ((2 * (2 + (if x <= 0 then 1 else (2 * (x + loop(\(x,i).(~x - (x div (4 + i))),2,x)))))) div 3))
1: (x + ((x2 + x) div 2) - loop(\(x,i).(2x + ~6),x,0))
1: (1 + ((x2 + 2x) div 2) - (2 * (x mod 2)))
1: (1 + ((2x * (1 + (2 * i))) div (2 + i)) - (x mod 2))
1: (1 + ((x3 + 3x2 + 2x) div 3) - (x mod 2))
1: (1 + ((4 * ((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3)) div 3) - (x mod 2))
1: (1 + ((3 * ((1 + (x * (x div 2))) div 3)) div 2) - (x mod 2))
1: (1 + ((2 * ((x + ((x div 2) mod 2)) div 2)) div 3) - (x mod 2))
1: (1 + ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2) - (x mod 2))
1: (1 + ((3 * (x div 5)) div 2) - (x mod 2))
1: (1 + (2x div 3) - ((x + (x mod 2)) div 5))
1: (x + (2x div 3) - ((x + (x mod 2)) div 5))
1: (2 + (2x div 3) - (if x <= 0 then 1 else (x div 12)))
1: (1 + (2x div (2 + (((x + 1) div 2) div 3))) - (x mod 2))
1: (2 + (x2 div 2) - (x mod 2))
1: (1 + (x2 div 3) - (x mod 2))
1: ((~x + 4) + (x2 div 4))
1: (1 + (((x + ~1) div 2) div 2) - (x div 5))
1: ((~x + 1) + (((5 * compr(\x.(1 - (x mod (1 + (4 * (x mod 5))))),x)) div 2) div 2))
1: (2 + ((x div 2) div 3) - ((((x + 1) + (x div 8)) div 2) mod 2))
1: (1 + ((x div 2) div 3) - (x mod 2))
1: (1 + (((2x + ~2) mod (2 + (x div 2))) div 5) - (x mod 2))
1: (1 + ((loop(\(x,i).2x,x,(1 + (if ((x + 1) mod 3) <= 0 then 2x else 1))) mod (x + 1)) div 2) - (x mod 2))
1: (2 + ((x mod 3) div 2) - (x mod 2))
1: ((5x + 6) + ((x mod (1 + (x div 2))) div 2))
1: ((x + ~1) + (loop(\(x,i).(~x + (i * i * (1 + i))),(x + 1),0) div 2))
1: (((loop(\(x,i).(2x + 2),x,(1 + loop(\(x,i).2x,x,1))) div 2) + loop(\(x,i).2x,x,2)) - loop(\(x,i).(3x + 1),x,1))
1: (1 + (loop(\(x,i).2x,x,1) div 3) - ((x div 3) mod 2))
1: (1 + (loop(\(x,i).x2,1,((x + 2) + (x div 2))) div 2) - (x mod 2))
1: (1 + (x div 2) - (2 * ((1 + (x div (2 - (x mod 2)))) div 3)))
1: (1 + (x div 2) - (2 * ((x div 2) div 3)))
1: (((x div 2) + (if x <= 0 then 0 else 1)) - (2 * ((x div 2) div 3)))
1: (1 + (x div 2) - (2 * (((~x + 1) div 5) mod 2)))
1: (2 + (x div 2) - (2 * ((x div 4) mod 2)))
1: (1 + (x div 2) - (2 * (if ((x + 2) mod 5) <= 0 then (x mod 2) else 0)))
1: (x + (x div 2) - ((x + 1) div 5))
1: (1 + (x div 2) - ((~x + 1) div (1 + (x div 2))))
1: (1 + (x div 2) - ((~x + 2) div (2 - (x div ~4))))
1: (2 + (x div 2) - (((2 * (if (~2 + (x div 4)) <= 0 then 0 else 2)) - (x div 2)) div 3))
1: (1 + (x div 2) - ((~x + ((x div 2) div 3)) div 2))
1: (1 + (x div 2) - (~2x div (1 + (x div 2))))
1: (2 + (x div 2) - (~2x div (1 + (x div 2))))
1: (x + (x div 2) - (~2x div (1 + (x div 2))))
1: (1 + (x div 2) - (2x div 5))
1: (1 + (x div 2) - (((2 - (x div 2)) div 2) div 2))
1: (1 + (x div 2) - ((x div 5) div ~2))
1: (2 + (x div 2) - ((x mod 3) div 2))
1: (1 + (x div 2) - (x div (4 + ((x div 2) mod 5))))
1: (6x + (x div 2) - (x div (4 + (x mod 2))))
1: (1 + (x div 2) - (x div (1 + (2 * (2 + (x mod 2))))))
1: (2 + (x div 2) - (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))))
1: (1 + (x div 2) - (x div (~2 + ((~x + 1) div 2))))
1: (2 + (x div 2) - (x div (~1 + ((~x + 1) div 3))))
1: (1 + (x div 2) - (x div 8))
1: (((x div 2) + (if x <= 0 then 1 else 2)) - (x div 8))
1: (2 + (x div 2) - ((2x + 1) mod (2 + (x div 4))))
1: (1 + (x div 2) - ((2x + 1) mod (1 + (2x mod (2 + (x div 4))))))
1: (1 + (x div 2) - ((1 + (x div 3)) mod (1 + ((1 + (x div 2)) div 3))))
1: (2 + (x div 2) - ((x * (x div 2)) mod 2))
1: (1 + (x div 2) - (((~x2 + 2x) div (x + 2)) mod 2))
1: (1 + (x div 2) - ((x mod 3) mod 2))
1: (((x div 2) + ((x mod 3) div 2)) - (x mod 2))
1: (1 + (x div 2) - (x mod 4))
1: ((2x + 2) + (x div 2) - (x mod 4))
1: (2x + (x div 2) - (if (x mod 4) <= 0 then 0 else 1))
1: (2 + (x div 2) - (if x <= 0 then 1 else (2 div (8 - (x div 2)))))
1: (1 + (x div 3) - ((~x + 3) div 9))
1: (1 + (x div 3) - ((2x + 4) div 7))
1: (1 + (x div 3) - (x div (~1 + ((~x + 1) div 3))))
1: (1 + (x div 3) - (x div (~1 + ((~x + 2) div 3))))
1: (1 + (x div 3) - (x div (4 * (2 + ((x div 2) mod 2)))))
1: (1 + (x div 3) - ((x + 1) mod (1 + ((x + ~1) mod 3))))
1: (1 + (x div 3) - (x mod 3))
1: (2 + (x div 4) - (x div 5))
1: (1 + (x div 4) - (x div (~1 + ((~x + 1) div 3))))
1: (2 + (x div 4) - ((2x div (1 + (x div 3))) mod 2))
1: ((2x + 2) + (x div 4) - ((x div 2) mod 2))
1: (1 + (x div (1 + (2 * (2 + (((((x + 1) div 2) div 2) * (x div 2)) mod 2))))) - (x mod 2))
1: (((x div (1 + (2 * (2 + (x mod 2))))) + (if x <= 0 then 0 else 1)) - ((x div 2) mod 2))
1: (1 + (x div (2 + (x div (2 + (((x2 div 2) mod (2 + (x div 2))) div 2))))) - (x mod 2))
1: (1 + (x div ((if (x mod 3) <= 0 then 2 else 1) + (x mod 2))) - (x mod 2))
1: (6x + (x div ~7) - (x div 7))
1: (1 + (x div 8) - ((x mod (2 + (x mod 3))) div 2))
1: (1 + (x div 8) - (x div ~2))
1: (1 + (x div 8) - (x div (~1 + ((~x + 1) div 3))))
1: (1 + (x div 8) - (x div (~2 + ((~x + 2) div 4))))
1: (2 + (x div 8) - ((x + 1) mod 8))
1: (((x div 8) + (if x <= 0 then 1 else 2)) - (x mod 2))
1: (1 + (2 mod (1 + (x mod 3))) - (x mod 7))
1: (2 + (2 mod (if (x mod 3) <= 0 then 1 else x)) - (x mod 2))
1: ((((1 + ((x2 + ~x) div 8)) mod 2) + (x div 3)) - (x mod 2))
1: (1 + ((1 + (loop(\(x,i).2x,((x + ~1) div 2),1) mod (x + 2))) mod 2) - (x mod 2))
1: (1 + ((1 + (x mod 5)) mod 2) - (x mod 2))
1: (x + ((1 + (if (~2 + ((2x + ~4) mod (x + 2))) <= 0 then x else 0)) mod 3))
1: (1 + ((x + 1) mod 4) - (x div 4))
1: ((2x + 1) + ((1 - ((x + (x div 2)) div 4)) mod 4))
1: (x + (((~x + ~2) - (x div 3)) mod 3) - (x mod 3))
1: (x + ((x - (((3 * (x div 2)) div 2) div 2)) mod 2) - (x mod 2))
1: (1 + ((x - ((x div 2) div 5)) mod 2) - (x mod 2))
1: ((((x - (x div (1 + (x mod 3)))) mod 2) + (x div 3)) - (x mod 2))
1: (~1 + (((~2x + 2) mod (4 + (x div 4))) + (if x <= 0 then 1 else (~1 + (x div (if (x mod 2) <= 0 then 4 else 1))))))
1: (1 + (((x2 + x + 1) div ((x + 1) + (x div 3))) mod 2) - (x mod 2))
1: (~1 + ((((1 + (x div 2)) div 2) mod 4) + (x div 2)))
1: (2 + (((x + 2) div (1 + (x mod 3))) mod 2) - (x mod 2))
1: (x + (((x2 + x) div ~8) mod 2) - (x mod 2))
1: (1 + (((3 * ((~x + 2) div 2)) div 5) mod 2) - (x mod 2))
1: (1 + (((x * (if (~2 + (x div 2)) <= 0 then 1 else 2)) div 5) mod 2) - (x mod 2))
1: (1 + (((x2 mod (3x + 2)) div 2) mod 2) - (x mod 2))
1: ((2x + 2) + ((x div 4) mod 2) - (x mod 4))
1: (1 + ((x div 5) mod 3) - (x mod 3))
1: (1 + ((x div (1 + (2 * ((x div 2) div 3)))) mod 2) - (x mod 2))
1: (1 + ((x div (1 + (2 * ((x div 2) mod 2)))) mod 2) - (x mod 2))
1: (1 + ((x div (1 + ((x2 + ~x) mod 8))) mod 2) - (x mod 2))
1: (1 + (((2 + (x * (x div 2))) mod (1 + (x div 3))) mod 2) - (x mod 2))
1: (1 + (((x + ~1) mod (3 + (x div (1 + (x mod 2))))) mod 2) - (x mod 2))
1: (1 + ((x2 mod (2 + (((x + 1) div 2) div 2))) mod 2) - (x mod 2))
1: (1 + ((x mod (1 + (x div 2))) mod 2) - (x mod 3))
1: ((((x mod (1 + (10 mod (x + 1)))) mod 2) + (if x <= 0 then 0 else 1)) - (x mod 2))
1: (1 + ((x mod (2 - (x div (1 + ((x div 2) mod 2))))) mod 2) - (x mod 2))
1: (1 + ((x mod (~1 + (4 * (x mod 5)))) mod 2) - (x mod 2))
1: (1 + ((x mod (~1 + (2 * (x div 4)))) mod 2) - (x mod 2))
1: (1 + ((x mod (~1 + (x div ~3))) mod 2) - (x mod 2))
1: (~1 + ((loop(\(x,i).2x,(3x div (1 + (x mod 4))),1) mod (x + 1)) + (x mod 2)))
1: (~2 + ((x mod 2) + (x mod 4)))
1: ((x + 1) + ((x mod 2) + ((3 * (x div (4 - ((x * (x div 2)) mod 2)))) div 2)) - (x div 2))
1: (1 + (x mod 2) - (3 * (~2x + (x div 4))))
1: (1 + (x mod 2) - (2 * (~x + (x mod 10))))
1: (1 + (x mod 2) - (2 * ((x div 5) mod 2)))
1: (1 + (x mod 2) - ((~x + 1) div (1 + (2 * (3 - (x mod 2))))))
1: (1 + (x mod 2) - ((~x + 1) div (2 + ((x mod 3) div 2))))
1: (1 + (x mod 2) - ((~x + 2) div (2 - ((x div 2) div ~2))))
1: (1 + (x mod 2) - (((x div 3) - (x div 2)) div 2))
1: (2 + (x mod 2) - ((x - (5 * (x + (x div 4)))) div 2))
1: (1 + (x mod 2) - ((x2 + 2x) div ~2))
1: (1 + (x mod 2) - (x div ~2))
1: (1 + (x mod 2) - (x div ~4))
1: (2 + (x mod 2) - (x div ~4))
1: (2x + (x mod 2) - (x div ~8))
1: (1 + (x mod 2) - (((x + 1) div 3) mod 3))
1: (1 + (x mod 2) - ((x div 2) mod 4))
1: (2 + (x mod 2) - ((x div 3) mod 2))
1: (2x + (x mod 2) - ((x div (1 + (if (x mod 4) <= 0 then 0 else 2))) mod 2))
1: (1 + (x mod 2) - ((x mod (~1 + (x div ~3))) mod 2))
1: (1 + (x mod 2) - (if (~2 + (x div 2)) <= 0 then 2 else 0))
1: (3 + (x mod 2) - (if (x mod 3) <= 0 then ((if (x mod (1 + (4 * (x mod 2)))) <= 0 then 1 else 0) - (x mod 2)) else 1))
1: (1 + (x mod 2) - loop(\(x,i).2x,(x - (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))),1))
1: (2 + (x mod 3) - ((~x + 1) div (2 + (((x + 1) div 2) div 3))))
1: (1 + (x mod 3) - ((1 + (x div 3)) mod 4))
1: ((x + 1) + (x mod 3) - ((x mod 13) mod 3))
1: (1 + (x mod 4) - (6 * ((x div 4) mod 2)))
1: (1 + (x mod 4) - ((x div 2) div 3))
1: (1 + (x mod 4) - ((x + 1) mod 7))
1: (1 + (x mod 10) - (2 * (x mod 2)))
1: (1 + (if (~x + 2) <= 0 then 10 else 1) - (x mod 2))
1: (1 + (if (x + ~1) <= 0 then 1 else (if (x mod 8) <= 0 then 1 else 2)) - (x mod 2))
1: (1 + (if (x + ~2) <= 0 then 0 else (x + (x2 div 4))) - (x mod 2))
1: (2 + (if (x + ~2) <= 0 then 1 else 2) - (x div ~4))
1: (1 + (if (x + ~3) <= 0 then x else 1) - (x mod 2))
1: (1 + (if (x div 4) <= 0 then 1 else ((2 * (x div 2)) div 3)) - (x mod 2))
1: (x + (if ((1 + ((x + (x div 2)) div 2)) mod 5) <= 0 then 2 else 1) - (x mod 2))
1: (1 + (if ((1 + (x div 2)) mod 5) <= 0 then 0 else 2) - (x mod 2))
1: ((8x + ~1) + (if ((x + 2) mod 6) <= 0 then 0 else 1))
1: (1 + (if ((x + ~1) mod 3) <= 0 then 1 else x) - (x mod 2))
1: (1 + (if (16 mod (x + 2)) <= 0 then 0 else 2) - (x mod 2))
1: (x + (if ((x div 2) mod 3) <= 0 then 2 else 1) - (x mod 2))
1: (3x + (if (x mod 2) <= 0 then 2 else 0) - (x div 12))
1: (1 + (if (x mod 2) <= 0 then (1 + ((2 * (1 + ((1 + (((1 + (((x + 1) * (1 + (2 * (((x div 3) * (x div 2)) div 2)))) div 2)) div 2) div 2)) div 2))) div 3)) else 0) - (x mod 2))
1: (1 + (if (x mod 3) <= 0 then (2 * (if (x mod 2) <= 0 then (2 + (if x <= 0 then 0 else 2)) else 1)) else 1) - (x mod 2))
1: (1 + (if (x mod 5) <= 0 then 1 else ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) - (x mod 2))
1: ((x + 1) + (if x <= 0 then 0 else (~1 + loop(\(x,i).(2 * ((x * i) + (i div 2))),x,0))))
1: (((if x <= 0 then 1 else 5x) + ((x + 1) div 3)) - ((1 + (2 * ((x + ((x div 2) mod 2)) div 2))) div 3))
1: (x + (if x <= 0 then 1 else 5x) - ((~2x + 2) div 9))
1: (1 + (if x <= 0 then 1 else (2 * (1 + compr(\x.(~1 + (loop(\(x,i).(2x + 1),(x div (1 + (x mod 2))),1) mod (x + 1))),(x + 1))))) - (x mod 2))
1: (1 + (if x <= 0 then 1 else 4x) - ((x + (x div 2)) div 4))
1: (((if x <= 0 then 1 else 4x) + ((x + 1) div 3)) - (((~x + 1) - (2 * ((x + ((x div 2) mod 2)) div 2))) div 3))
1: (((if x <= 0 then 1 else 4x) + ((2x + 1) div 3)) - ((1 - (2 * ((x + ((x div 2) mod 2)) div 2))) div 3))
1: (x + (if x <= 0 then 1 else 4x) - ((~x + ((0 - ((x div 2) div 3)) mod 3)) div 2))
1: (1 + (if x <= 0 then 1 else 4x) - ((2 * (~x + (if (~2 + (x div 2)) <= 0 then 2 else 1))) div 3))
1: ((x + 1) + (if x <= 0 then 1 else 4x) - ((x + 1) mod (2 + (x mod 2))))
1: (3 + (if x <= 0 then 1 else x) - ((x div 2) div ~2))
1: (~1 + ((if x <= 0 then 1 else compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x)) + (4 * (x mod 2))))
1: ((x + ~1) + loop(\(x,i).(x + ((x div 5) + (i div 2))),x,2))
1: ((x + ~1) + loop(\(x,i).(x + ((if (x + ~4) <= 0 then 1 else 2) + (x div 4))),x,1))
1: ((x2 + ~1) + loop(\(x,i).((x + 2) + i),(1 + (x div 2)),x))
1: (1 + loop(\(x,i).(x + ((2x + 1) * i)),x,0) - ((x div 2) mod 2))
1: (1 + loop(\(x,i).(x + (3 * (x + (i mod 2)))),x,1) - (2 * (x mod 2)))
1: ((x + ~1) + loop(\(x,i).(x2 + 2x + 2),(x div 2),(x mod 2)))
1: ((~x + 1) + loop(\(x,i).((2 * (x + i)) + (i mod 2)),x,0))
1: (1 + loop(\(x,i).(10x + 12),2x,2) - loop(\(x,i).10x,x,1))
1: (x + loop(\(x,i).(1 + (x * i)),(~1 + i),1) - i)
1: ((x + ~1) + loop(\(x,i).(3 + ((x2 + ~2x) div (x + 2))),2,x))
1: (~2 + (loop(\(x,i).(x + (x div 2)),(~2 + (x div 2)),2) + ((x + 1) div 2)))
1: (1 + loop(\(x,i).((x + 2) + (x div (if i <= 0 then 1 else i))),x,0) - (x mod 2))
1: ((x + ~1) + loop(\(x,i).(1 + (if x <= 0 then x else (x - (if x <= 0 then 1 else (~1 + (x div (2 + ((x div 2) div 3)))))))),2,x))
1: ((x + ~1) + loop(\(x,i).(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 1))),2,x))
1: (~1 + (loop(\(x,i).(~2x + 1),x,loop(\(x,i).(x mod 2),(x div 2),(1 - (2 * (x mod 2))))) + loop(\(x,i).2x,x,1)))
1: (11x + loop(\(x,i).(~1 + (2 * (4x + loop(\(x,i).2x,i,1)))),i,1))
1: ((~x2 + 1) + loop(\(x,i).(x2 + ~1),2,(x + 2)))
1: ((x + ~1) + loop(\(x,i).((x + 1) - ((~2x + 2) div 7)),2x,1))
1: (1 + loop(\(x,i).3x,2x,1) - loop(\(x,i).8x,x,1))
1: (1 + loop(\(x,i).3x,2x,1) - loop(\(x,i).4x,x,1))
1: (1 + loop(\(x,i).3x,2x,1) - loop(\(x,i).6x,x,1))
1: (1 + loop(\(x,i).3x,x,1) - (2 * (x mod 2)))
1: (~2x + (loop(\(x,i).3x,x,1) + loop(\(x,i).5x,x,1)))
1: (1 + loop(\(x,i).3x,x,1) - (x mod 2))
1: ((loop(\(x,i).3x,x,1) + loop(\(x,i).5x,x,1)) - loop(\(x,i).(2x + 1),x,loop(\(x,i).2x,x,1)))
1: ((loop(\(x,i).3x,x,1) + loop(\(x,i).2x,x,1)) - loop(\(x,i).7x,x,1))
1: ((loop(\(x,i).3x,x,1) + loop(\(x,i).5x,x,1)) - loop(\(x,i).(x2 + x),1,loop(\(x,i).2x,x,1)))
1: (~x + (loop(\(x,i).3x,x,1) + loop(\(x,i).2x,x,1)))
1: (1 + loop(\(x,i).3x,x,2) - loop(\(x,i).2x,x,2))
1: (x + loop(\(x,i).3x,x,3) - loop(\(x,i).2x,x,2))
1: (1 + loop(\(x,i).5x,x,1) - (2 * (x mod 2)))
1: (~2x + (loop(\(x,i).5x,x,1) + loop(\(x,i).7x,x,1)))
1: ((loop(\(x,i).5x,x,1) + loop(\(x,i).4x,x,1)) - loop(\(x,i).3x,x,1))
1: ((loop(\(x,i).5x,x,1) + loop(\(x,i).2x,x,1)) - loop(\(x,i).3x,x,1))
1: ((loop(\(x,i).5x,x,1) + loop(\(x,i).2x,x,1)) - loop(\(x,i).7x,x,1))
1: (1 + loop(\(x,i).5x,x,1) - loop(\(x,i).4x,x,1))
1: (12x + loop(\(x,i).7x,x,1) - loop(\(x,i).5x,x,1))
1: (1 + loop(\(x,i).7x,x,1) - loop(\(x,i).4x,x,1))
1: (1 + loop(\(x,i).7x,x,1) - loop(\(x,i).6x,x,1))
1: (~2 + (loop(\(x,i).(10x + 4),(x div 2),(2 + (x mod 2))) + (x mod 2)))
1: (1 + loop(\(x,i).(2x2 + x),1,loop(\(x,i).(2x + 1),x,0)) - loop(\(x,i).(3x + 1),x,1))
1: ((x3 + 2x2 + ~1) + loop(\(x,i).(x3 + 2x),1,((x2 + 3x + 2) div 2)))
1: (1 + loop(\(x,i).11x,x,1) - loop(\(x,i).10x,x,1))
1: (1 + loop(\(x,i).11x,x,1) - loop(\(x,i).8x,x,1))
1: (1 + loop(\(x,i).11x,x,1) - loop(\(x,i).4x,x,1))
1: (1 + loop(\(x,i).11x,x,1) - loop(\(x,i).6x,x,1))
1: (1 + loop(\(x,i).10x,x,1) - (2 * (x mod 2)))
1: (1 + loop(\(x,i).10x,x,1) - loop(\(x,i).(9x + 9),x,0))
1: (1 + loop(\(x,i).10x,x,1) - loop(\(x,i).8x,x,1))
1: (1 + loop(\(x,i).10x,x,1) - loop(\(x,i).4x,x,1))
1: (1 + loop(\(x,i).10x,x,1) - loop(\(x,i).6x,x,1))
1: ((loop(\(x,i).(x * ((~1 + (2 * i)) * i)),x,1) + (x mod 2)) - loop(\(x,i).2x,x,1))
1: ((loop(\(x,i).8x,x,1) + loop(\(x,i).2x,x,1)) - loop(\(x,i).(3x + 2),x,0))
1: (1 + loop(\(x,i).8x,x,1) - loop(\(x,i).6x,x,1))
1: ((x + ~1) + loop(\(x,i).(2x3 + ~2x2),(x + ~2),2))
1: ((loop(\(x,i).4x,x,1) + loop(\(x,i).6x,x,1)) - (loop(\(x,i).5x,x,1) + loop(\(x,i).3x,x,1)))
1: (1 + loop(\(x,i).4x,x,1) - (2 * (x mod 2)))
1: ((~2x + 1) + loop(\(x,i).4x,x,1))
1: ((loop(\(x,i).4x,x,1) + loop(\(x,i).6x,x,1)) - loop(\(x,i).5x,x,1))
1: (1 + loop(\(x,i).4x,x,2) - ((x mod 3) div 2))
1: (1 + loop(\(x,i).4x,x,2) - loop(\(x,i).3x,x,3))
1: (11x + loop(\(x,i).4x,i,1))
1: (1 + loop(\(x,i).6x,x,1) - (2 * (x mod 2)))
1: (1 + loop(\(x,i).6x,x,1) - loop(\(x,i).4x,x,1))
1: (1 + loop(\(x,i).(x3 + 2x2),1,loop(\(x,i).(2x + 1),x,0)) - loop(\(x,i).3x,x,1))
1: ((~x + 2) + loop(\(x,i).x3,x,2x))
1: ((4x + 1) + loop(\(x,i).2x,((x + 2) + (x div 4)),2))
1: (1 + loop(\(x,i).2x,x,1) - (4 * (x mod 2)))
1: (1 + loop(\(x,i).2x,x,1) - (2 * ((1 - loop(\(x,i).((x2 + ~x) div (1 + i)),2,(x + ~1))) div 2)))
1: (1 + loop(\(x,i).2x,x,1) - (2 * (x mod 2)))
1: (2 + loop(\(x,i).2x,x,1) - loop(\(x,i).3x,x,1))
1: (1 + loop(\(x,i).2x,x,1) - loop(\(x,i).2x,(x div 2),2))
1: (1 + loop(\(x,i).2x,x,1) - loop(\(x,i).2x,(x div 2),(2 + (x mod 2))))
1: (1 + loop(\(x,i).2x,x,1) - loop(\(x,i).2x,(x div 2),(x mod 2)))
1: (1 + loop(\(x,i).2x,x,1) - loop(\(x,i).((x * (1 + i)) div (1 + (i div 2))),(x + ~1),1))
1: (1 + loop(\(x,i).2x,x,2) - ((1 + (x div (~2 + (x mod 2)))) mod 3))
1: (1 + loop(\(x,i).2x,x,2) - loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),(x div 2),(1 + (x mod 2))))
1: (1 + loop(\(x,i).2x,x,2) - loop(\(x,i).2x,(x div 2),1))
1: ((~x + 1) + loop(\(x,i).2x,x,2))
1: ((2x + ~1) + loop(\(x,i).x2,1,(3 * (x + (x div 4)))))
1: ((~x + 1) + loop(\(x,i).x2,1,(x mod 10)))
1: ((~x + 1) + loop(\(x,i).x2,1,loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)))
1: (~x + (loop(\(x,i).x2,2,(x + 2)) + (if x <= 0 then 0 else 1)))
1: (~1 + loop(\(x,i).(x * i),(1 + (2 * (x - (x div ~2)))),1))
1: (1 + loop(\(x,i).(x * i),2x,1) - loop(\(x,i).(x * i),x,1))
1: (1 + loop(\(x,i).(x * i),x,1) - (x mod 2))
1: ((~x2 + 1) + loop(\(x,i).(x * i),x,(x + 1)))
1: (1 + loop(\(x,i).(x * i),x,(x + 1)) - (x mod 2))
1: ((x + ~1) + loop(\(x,i).((x2 + 3x + 2) div 2),2,9))
1: (~x + (loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,1) + loop(\(x,i).2x,x,1)))
1: (~x + (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) + loop(\(x,i).(2x + 1),x,0)))
1: ((x + ~1) + loop(\(x,i).(if x <= 0 then 1 else (10x + 10)),2,x))
1: ((x + ~1) + loop(\(x,i).loop(\(x,i).(((x + i) * i) div (x + 1)),x,i),x,2))
1: (1 + loop(\(x,i).i,((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),1) - (x mod 2))
1: ((x + 1) - (((((2 - (x div 2)) mod (x + 2)) div 2) div 2) + ((x + 1) div 3)))
1: ((x + 1) + (1 mod ((~x + 1) + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1))))
1: ((2x + ~1) + ((1 - ((x - ((x div 2) div 3)) div 2)) mod 4))
1: ((x + 1) + ((1 + (x div 2)) div 3) - (2 * ((~x + ~1) + (x mod 2))))
1: ((x + 3) - ((~2x + (x div 2)) * (x div 2)))
1: ((x + 4) - (2 div (~8 + (x div 2))))
1: ((x + 3) - ((~x + 1) div (2 + (x div 2))))
1: ((x + 2) + ((1 + (x div 3)) div 3) - ((~x + 1) div (2 + (x div 2))))
1: ((x + 1) + (x div 4) - ((~x + 2) div (3 + (x div 4))))
1: ((2x + 1) - ((((x div 2) mod 2) - (if (~x + 2) <= 0 then x else 0)) div 2))
1: ((x + 3) - ((x - (x div (1 + ((1 + (x div 3)) div 2)))) div 2))
1: ((2x + 1) - ((2 * (2 + (if x <= 0 then 1 else (2 * (4x - ((~x + ((x div 2) mod 2)) div 3)))))) div 3))
1: ((2x + 1) - (x2 div (2 + (if (~4 + (x div 2)) <= 0 then x else (x + 2)))))
1: ((x + 1) + (2 mod (x + 1)) - (((~x3 + x) div 2) div 3))
1: (3x + (x div 2) - (x div (4 + (x mod 2))))
1: ((x + 3) - (x div ~2))
1: ((x + 7) - (x div ~7))
1: ((x + 1) + (if (x + ~2) <= 0 then 1 else 2) - (x div ~4))
1: ((x + 1) + (x div 5) - (x div (~1 + (x div ~2))))
1: ((2x + 1) - ((1 + (x mod (~2 - (x div 3)))) mod 2))
1: ((2x + 1) - ((x + 2) mod (1 + (x div (3 + (x div 4))))))
1: ((2x + 2) - (((~x + ~1) + (2 * (x + (1 mod (8 - (x div 2)))))) mod 5))
1: ((3x + 3) - ((x - ((2 - (x div 3)) mod 5)) mod 3))
1: ((x + 3) - ((if (x + ~2) <= 0 then 1 else x) mod (3 - (x mod 2))))
1: ((3x + 1) - (loop(\(x,i).3x,x,1) mod loop(\(x,i).(2x2 + x),2,2)))
1: ((x + 1) + (x div 3) - (x mod 10))
1: ((3x + 1) - (if (x + ~1) <= 0 then x else (1 + ((1 + (8 mod (if x <= 0 then 1 else x))) mod 2))))
1: ((x2 + 2x + 1) - (if (5 mod (if (x mod 2) <= 0 then 2 else x)) <= 0 then 2 else 0))
1: ((x + 3) - loop(\(x,i).(x + ((x div (~3 + (x mod 2))) mod 2)),2,x))
1: ((x + 1) - (2 * (1 + ((x + ~2) div (2 + (x div 2))))))
1: (2x - ((~12x + 2) * (2x - (x mod 2))))
1: ((x + 1) - (((~x + ~1) + (x mod 2)) * (x div 2)))
1: ((x + 3) - (2 * (~x + (((x + 1) + (x mod 2)) div 5))))
1: ((x + 1) - (3 * (~2 + ((x + (x div 2)) div 4))))
1: ((x + 1) - (3 * ((~2x + ~1) + ((x - (x div 4)) div 2))))
1: ((x + 2) - (2 * (~x + ((x - (((x + ~1) div 2) mod (1 + ((1 + (x div 2)) div 3)))) div 2))))
1: ((x + 3) - (2 * (~x + ((x - (((x + ~1) div 2) mod (1 + ((1 + (x div 2)) div 3)))) div 2))))
1: ((x + 3) - (2 * (~x + ((2x + 2) div 7))))
1: ((x + 1) - (3 * (~3 + ((x mod 3) div 2))))
1: ((x + 1) - (4 * (~x + (x div 5))))
1: ((x + 1) - ((~1 + (x div ~2)) * ((x + 1) div 2)))
1: ((x + 1) - (3 * (~2x + (x mod 2))))
1: ((x + 3) - (2 * (~8x + (x mod 4))))
1: ((x + 1) + (x div 5) - (5 * (~x + (x mod 4))))
1: (15x2 + ~9x + 1)
1: ((x + 10) - (4 * ((x div 2) - (2 * ((x div 4) mod 2)))))
1: ((x + 2) - (4 * (~1 + ((x div 2) mod 4))))
1: (x3 + ~x2 + x + 1)
1: ((x + 2) - (2 * ((2 + (x mod 3) - ((x mod (4 - (x mod 2))) div 2)) div 2)))
1: ((x + 3) - (2 * ((2 + (((x + 2) + ((2 * (1 + ((x + (2 * (4 - ((~x + 1) div (2 + (x div 4)))))) div 3))) mod (x + 1))) div 2)) div 2)))
1: ((x + 1) - (2 * ((1 + ((3 * ((x + 1) div 2)) div 2)) div 2)))
1: ((x + 2) - (2 * ((2 + (x2 div 3)) div (x + 1))))
1: ((x + 2) - (2 * ((x + ((x div 2) div 3)) div ~2)))
1: ((x + 2) - (2 * ((x + (x div 2)) div (4 + (x div 2)))))
1: ((x + 1) - (2 * ((x + (x div 3)) div 5)))
1: ((x + 1) - (3 * ((x + (x div 4)) div ~2)))
1: ((x + 2) - (2 * ((x + (x div (2 * loop(\(x,i).(x div (~2 + (x mod 2))),x,(x + 1))))) div 2)))
1: ((x + 2) - (2 * ((2 + ((2x + 1) mod (2 - (x mod ~4)))) div 3)))
1: ((x + 1) - (2 * ((2 - (x mod (~1 + (2 * (x div 5))))) div 2)))
1: ((x + 2) - (2 * ((~x + 2) div 8)))
1: ((x + 1) - (3 * ((~3x + 2) div 5)))
1: ((x + 1) - (3 * (((~2x + ~2) + (x div 2)) div 5)))
1: ((x + 1) - (2 * ((x - ((~1 + (x div 2)) div 2)) div 2)))
1: ((x + 1) - (2 * ((x - ((x div 2) div ~2)) div 3)))
1: (2x - (9 * ((2 * (x mod 10)) div 9)))
1: ((x + 2) - (3 * (2x div 7)))
1: ((x + 1) - (3 * (2x div (8 + (x mod 2)))))
1: ((x + 1) - (2 * (x div ~5)))
1: (x + (x div 5) - (2 * (x div ~5)))
1: ((x + 1) - (2 * (x mod (x - ((x + ~1) mod 8)))))
1: ((x + 1) - (1 div (~1 + (2 * ((x + 2) mod 12)))))
1: ((x + 2) - (2 div (x + ~16)))
1: ((2x + 1) - (2 div (if x <= 0 then 3 else x)))
1: ((x + 2) - (2 div loop(\(x,i).i,(~2 + (x div 2)),1)))
1: (2x - (((x + 1) + (x mod 2)) div 5))
1: ((x + 2) - ((~x + 3) div (2 + (x div 8))))
1: ((x + 2) - ((~x + 4) div (2 + i)))
1: ((x + 2) - ((x2 + 1) div ((x + 2) + (x div 2))))
1: ((x + 1) - ((x2 + 2) div (1 + (2 * (2 + ((x + (x div 4)) div 2))))))
1: ((x + 2) - ((1 + (x2 div 2)) div (x + 3)))
1: ((x + 6) - ((1 + (x2 div (4 + (x div 2)))) div 3))
1: ((x + 2) - ((1 + ((x2 div 4) div 5)) div 2))
1: ((x + 2) - ((x + ((x - (x div 3)) mod 8)) div 2))
1: ((x + 1) - ((((x div 4) mod 2) + (x div 2)) div ~2))
1: (x + (if x <= 0 then 0 else 1) - ((x + 2) div ~7))
1: ((x + 2) - ((x + 2) div (12 - (x div 2))))
1: ((x + 2) - ((~x - ((x + (x2 div 4)) div 4)) div 2))
1: ((x + 2) - ((0 - ((x - ((1 + (x div 2)) mod 8)) div 2)) div 2))
1: ((x + 2) - ((0 - (loop(\(x,i).(2x + 2),x,0) mod (x + 1))) div 5))
1: ((x + 2) - ((0 - (if (~x + 2) <= 0 then (x div 2) else 1)) div 3))
1: (5x - ((0 - (if (~4 + (x div 2)) <= 0 then 1 else x)) div 5))
1: ((x + 2) - ((0 - (if (~2 + (x div 4)) <= 0 then 2 else x)) div 4))
1: (5x - ((0 - (if (~2 + (x div 4)) <= 0 then 2 else x)) div 6))
1: ((x + 2) - ((~x2 + 1) div ((x + 2) + (x div 3))))
1: ((x + 1) - ((1 - (if (~x + 2) <= 0 then x else 2)) div 3))
1: ((x + 2) - ((~x + 1) div (4 + ((x div 4) mod 2))))
1: ((x + 2) - ((~x + 1) div (1 + ((x + 1) div 5))))
1: (x + (x div 7) - ((~x + 1) div (2 + (x div 2))))
1: (x + (x div 9) - ((~x + 1) div (2 + (x div 2))))
1: ((x + 2) - ((~x + 1) div (x - (((x + ~1) div 2) div 3))))
1: ((x + 2) - ((2 + (if x <= 0 then 0 else 2) - (x div 2)) div (x + 1)))
1: ((x + 2) - ((2 - (((x + (x div 2)) div 2) * (x div 2))) div (x + 2)))
1: ((x + 2) - ((2 - ((((x + 2) * (x + (x div 8))) div 2) div 2)) div 2))
1: ((x + 2) - ((2 - (((x * (~1 + (x div ~5))) div 2) div 2)) div 2))
1: (x + (x div 2) - ((2 - (x div 4)) div 2))
1: ((x + 2) - ((2 - ((2 + ((x div 2) mod 2)) mod (1 + (x div 2)))) div 2))
1: ((x + 2) - ((~x + 2) div (2 - (x div ~8))))
1: ((x + 2) - ((~x - (4 mod (x + 1))) div 5))
1: ((x + 2) - (((~2x + 1) - (x2 div 4)) div (x + 2)))
1: ((x + 2) - (((~x + ~1) + (2 * ((x - ((x div (0 - (2 * (2 + (2x mod 5))))) mod 2)) mod 2))) div 2))
1: ((x + 3) - ((~x + (2 div (x + 1))) div 2))
1: ((x + 2) - ((((~x + 1) div 3) - (x div 2)) div 2))
1: (3x - ((~x + ((~2 + (x div 2)) div 3)) div 2))
1: ((x + 1) - ((~2 + (2x2 div (x + 2))) div 3))
1: ((x + 2) - ((~x + ((x div 2) div ~2)) div 2))
1: (2x - ((~1 + ((x div 2) + ((~x + 2) div 8))) div 2))
1: (2x - (((x div 2) - (if ((x + 2) mod 5) <= 0 then 0 else 1)) div 2))
1: ((x + 1) - ((~2 + (x div ~3)) div 3))
1: ((x + 2) - ((~x + (x div 12)) div 2))
1: ((x + 2) - ((~x + ((x + 1) mod 6)) div 4))
1: (x + (x div 5) - ((((x div 2) mod 4) - (if x <= 0 then 1 else x)) div 4))
1: (x + ((x div 2) mod 2) - ((~x + (x mod 2)) div 3))
1: ((x + 2) - ((~x + loop(\(x,i).i,(x div 4),2)) div 2))
1: ((x + 2) - ((x + ~2) div (~6 + (x div 4))))
1: ((x + 3) - ((x - (x div 5)) div 3))
1: ((x + 2) - ((x - ((0 - (x div 4)) mod 3)) div 2))
1: ((x + 2) - ((x - ((x - (x div 4)) mod 2)) div 3))
1: ((x + 2) - (3x div (16 - (x div 2))))
1: ((x + 2) - ((x2 + 3x + 2) div (x + 16)))
1: ((x + 5) - ((x2 + 2x) div (x + 12)))
1: (2x - ((x2 + 2x) div (2x - ((~x + 2) div 2))))
1: (x + (x div 2) - ((2 * (1 - (x div 2))) div 5))
1: ((x + 2) - ((~2x + 2) div (6 + ((x div 2) mod 5))))
1: ((x + 2) - ((~2x + 2) div (4 + (x div 2))))
1: ((x + 3) - (((~x + 1) * (x div 2)) div (x + 2)))
1: ((x + 2) - ((~x2 + x) div (4 + (x div 2))))
1: ((x + 1) - ((~x2 + 2x) div (4x + 5)))
1: ((x + 2) - ((~x2 + 2x) div (1 + (x2 div 2))))
1: (2x - ((3 * (~x + ((~2x + 2) div 5))) div 2))
1: ((x + 2) - ((2 * (~x + (x2 div 3))) div (x + 3)))
1: ((x + 3) - ((4 * (~x + (x mod 2))) div 5))
1: ((x + 2) - ((3x + ~3) div (2 + (x div 4))))
1: ((x + 1) - ((x2 + ~x) div 4))
1: ((x + 3) - ((x2 + ~2x) div (x + 16)))
1: ((x + 2) - (((x + 1) * (x - (if x <= 0 then 1 else (2 * (x - (1 div (x2 + ~3))))))) div 2))
1: (x + (x div 3) - ((~21 * (1 + (x div 3))) div 5))
1: (2x - (x3 div (x + 4)))
1: ((x + 1) - (x3 div (5x + 1)))
1: (3x - ((2 * (2x div (4 + (x div 8)))) div 3))
1: ((x + 1) - ((x * ((x mod (1 + ((~x + 2) mod 4))) div 2)) div 3))
1: ((x + 2) - (((~x + 1) * (x div 3)) div 2))
1: (2x - ((2 * (if x <= 0 then 1 else x)) div (~3 + ((~x + 2) div 4))))
1: ((x + 2) - (2x div (~2 - (x div 4))))
1: ((x + 2) - (2x div (~4 + (x div ~4))))
1: ((x + 6) - (2x div (~2 + (x div ~4))))
1: ((x + 2) - (x2 div (6 + ((x2 + ~x) div 11))))
1: ((x + 2) - (x2 div (x + 6)))
1: ((x + 2) - (x2 div ((x + 10) + (x div 4))))
1: ((x + 2) - (x2 div ((x + 1) + (if (x mod 2) <= 0 then 7 else x))))
1: ((x + 2) - (x2 div ((x + 3) - ((x - (x div 5)) div 3))))
1: ((x + 2) - (x2 div (2x + 25)))
1: ((x + 2) - (x2 div (x + (3 * (2 + (x div 4))))))
1: ((x + 1) - (x2 div (3x + 4)))
1: ((x + 2) - (x2 div ((~2x + 1) - (x div 2))))
1: ((x + 2) - (x2 div ((2x + 12) - (x div 3))))
1: ((x + 2) - (x2 div ((2x + 4) - (x div 3))))
1: ((x + 2) - (((1 + ((1 + ((x div 2) div 3)) * ((x + 1) div 2))) div 2) div 2))
1: (x + (2 * (1 + (x div 2))) - (((1 + (x div 2)) div 2) div 2))
1: ((x + 1) - (((x + ((x div 4) mod 2)) div 2) div ~2))
1: ((x + 2) - (((1 + (x mod (7 - (x div 3)))) div 2) div 2))
1: (2x - (((1 + (if (x mod (2 + ((x + ~1) mod 3))) <= 0 then x else 0)) div 2) div 2))
1: ((x + 2) - (((x - ((x2 + ~x) div 3)) div 2) div 5))
1: (x + (if x <= 0 then 1 else 4x) - (((x - ((x div 4) mod 2)) div 2) div ~2))
1: ((x + 2) - ((((2 + (x div 4)) * (x div 2)) div 2) div 2))
1: ((3x + 1) - (((x2 + ~2x) div 3) div (x + 3)))
1: ((x + 2) - (((7 * (x - (2x div 5))) div 2) div 2))
1: ((x + 2) - ((((~x + 1) * (x div 8)) div 2) div 2))
1: ((x + 2) - ((x2 div 2) div (3 + (x div 2))))
1: ((x + 2) - ((((x + 1) div 2) div 2) div 2))
1: ((x + 3) - ((x div 2) div 3))
1: ((x + 2) - ((x div 2) div 5))
1: ((x + 2) - ((x div 2) div ~2))
1: ((x + 2) - ((x div 2) div (~4 + (x mod 2))))
1: ((x + 2) - ((x div 2) div (2x + ~5)))
1: ((x + 10) - ((x div ~2) div 5))
1: ((x + 2) - (((x + ~1) mod (1 + (x div 2))) div 2))
1: ((x + 2) - (((x + ~1) mod (2 + (x div 2))) div 2))
1: ((x + 2) - ((x mod 3) div 2))
1: ((x + 2) - ((x mod (2 + ((x div 4) mod 3))) div 2))
1: ((x + 2) - ((if x <= 0 then 1 else (loop(\(x,i).x5,1,11) mod (x + 1))) div 2))
1: (x + (((x + 1) div 2) div 2) - ((if x <= 0 then 1 else x) div ~7))
1: ((x + 1) - ((if x <= 0 then 1 else x) div (~6 + (x div 4))))
1: ((x + 2) - ((if x <= 0 then 1 else x) div (~2 + (x mod ~4))))
1: ((x + 2) - ((if x <= 0 then 2 else (x div (~10 + (x div 2)))) div 2))
1: ((x + 2) - (loop(\(x,i).((x + ~1) * i),x,1) div (x + 2)))
1: ((x + 3) - (x div 3))
1: ((5x + 4) - (x div 4))
1: (2x - (x div (1 + (x mod 2))))
1: (x + ((x + 1) div 3) - (x div ~2))
1: ((x + 6) - (x div ~4))
1: ((x + 8) - (x div ~9))
1: ((x + 10) - (x div ~9))
1: ((x + 2) - (x div ~13))
1: ((x + 2) - (x div (~2 + (x mod ~3))))
1: ((x + 2) - (x div (x + ~19)))
1: ((x + 1) - (x div (x - (3 * (((x + ~1) div 2) div 2)))))
1: ((x + 12) - (x div ~12))
1: ((x + 2) - (x div (3 * (8 - (x div 2)))))
1: (x + ((x + 1) div 2) - (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))
1: (7x - (i div ~2))
1: (x + (x div 3) - (i div ~2))
1: ((x + 1) - (i div (~2 + (x mod ~2))))
1: ((x + 2) - (1 mod (8 + ((~x2 + x) div 2))))
1: ((x + 2) - (1 mod (5 - ((x2 + ~x) div 2))))
1: ((x + 2) - (1 mod ((2x + 3) - (x2 div 4))))
1: ((x + 2) - (1 mod (~x + (2 * (2 - (x div 4))))))
1: ((x + 2) - (1 mod (~x + ((x + ~2) mod 8))))
1: ((x + 2) - (1 mod ((x + 1) - ((2x + 1) * (~1 + ((x2 + ~x) div 4))))))
1: ((2x + 1) - (1 mod (~4x + 18)))
1: ((x + 2) - (1 mod (2 * ((~2x + 4) + (x div 2)))))
1: ((x + 2) - (2 mod (~3x + 7)))
1: ((x + 2) - (2 mod ((2x + 1) div ~7)))
1: ((x + 2) - (3 mod (1 + (x div 3))))
1: ((x + 2) - ((5x + 8) mod (1 + (x div 2))))
1: ((x + 2) - ((x * (x mod 2)) mod 8))
1: ((x + 2) - (((x + 1) div (1 + (x mod 9))) mod 2))
1: ((2x + 1) - (((x + ~1) div (1 + (x div (2 + (if (x mod 3) <= 0 then 2 else 0))))) mod 2))
1: ((x + 2) - (((x - (x div 4)) div 2) mod (~4x + 1)))
1: ((x + 2) - (((x - ((x - i) mod 6)) div 2) mod 2))
1: (x + ((x + 1) div 2) - ((((3 * ((~x + 2) div 2)) div 2) div 2) mod 2))
1: ((x + 3) - ((x div 2) mod 2))
1: (x + (x div 3) - ((x div 2) mod 2))
1: ((x + 2) - ((x div 2) mod 4))
1: ((x + 3) - ((x div 3) mod 3))
1: ((x + 2) - ((x div 5) mod 2))
1: ((x + 2) - ((x div 5) mod 3))
1: ((x + 2) - ((x div (2 + ((x div 2) div 3))) mod 2))
1: ((x + 1) - ((x div (1 + (x div 5))) mod 2))
1: ((x + 2) - ((x div (8 * (~2 + (x mod 2)))) mod 2))
1: ((x + 2) - (((x + 1) mod 4) mod (if x <= 0 then 1 else x)))
1: ((x + 2) - ((2x2 mod (2 + (x div 2))) mod 2))
1: ((3x + 2) - ((x mod (2 - (x mod (~1 - (x div 4))))) mod 2))
1: ((x + 1) - ((x mod 10) mod (if x <= 0 then 1 else x)))
1: (2x - (loop(\(x,i).2x,x,1) mod 9))
1: (3x - (x mod (1 + (2 * i))))
1: ((x + 2) - (x mod ((x + 1) - (x mod 10))))
1: (x + (x div 2) - (x mod 8))
1: ((x + 3) - (x mod (3 * (1 + ((x div 2) mod 3)))))
1: ((x + 1) - (compr(\x.(loop(\(x,i).(2x + 1),x,0) mod (x + 1)),x) mod (x + 1)))
1: ((x + 2) - (if (~4 + (x div 2)) <= 0 then 1 else (x div 3)))
1: ((x + 12) - (if (~2 + (x div 3)) <= 0 then 1 else 0))
1: ((x + 2) - (if (x + ~1) <= 0 then 1 else (2 * ((x - (x div 4)) div 2))))
1: ((x + 2) - (if (x + ~2) <= 0 then 1 else (2x div 5)))
1: (x + (x mod 2) - (if x <= 0 then 0 else (1 - (2 * (x - (2 * (x div 3)))))))
1: ((x + 6) - (if x <= 0 then 1 else (x div 8)))
1: ((2x + 1) - loop(\(x,i).((x + 1) + (((2x + ~4) div (2 + (x div 4))) mod 2)),x,0))
1: ((x + 2) - loop(\(x,i).(~x + 1),x,((~x + 2) + ((x div 2) mod 2))))
1: ((x + 2) - loop(\(x,i).((~x + ~1) + (x * i)),(x + ~1),0))
1: ((x + 2) - loop(\(x,i).(x - (if (2x mod (1 + i)) <= 0 then 2 else 1)),x,2x))
1: ((x + 2) - loop(\(x,i).(x - (if (x mod 2) <= 0 then ((if x <= 0 then 2 else x) div 2) else 1)),x,(x + 1)))
1: (2x - loop(\(x,i).(x - (if x <= 0 then 1 else (1 - (((x2 + 1) div (1 + (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))) mod 3)))),x,x))
1: ((3x + 2) - loop(\(x,i).(x - (if x <= 0 then 1 else (2 * (1 + i)))),x,2x))
1: ((x + 2) - loop(\(x,i).i,((loop(\(x,i).(2x + 2),x,(1 - (2 * (x mod 2)))) mod (x + 1)) div 2),1))
1: ((x + ~1) + i - (((x + 1) div 2) div 3))
1: ((3x + ~4) + i)
1: (x + i - (2 * (~x + (x mod 2))))
1: ((21x + 1) + i)
1: (x + i - (2 * ((x div (1 + i)) * i)))
1: (x + i - ((~x + 1) div (2 + (x div 3))))
1: (x + i - ((~x + 2) div 4))
1: (2x + i - ((x * (x - i)) div (x + 4)))
1: (x + i - (x div (3 + i)))
1: (x + i - (x div (1 + (6 * i))))
1: (x + i - (x div ~4))
1: (2 + i - ((x div 2) mod 2))
1: (2 + i - (x mod 2))
1: (x + i - (x mod 13))
1: (x + i - (if (x + ~1) <= 0 then 0 else (2 * (1 + i))))
1: (1 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: ((compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x) + loop(\(x,i).2x,x,1)) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: (1 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x) - compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))
1: (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) - (x mod 2))
1: (2 + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x) - (x mod 2))
1: (6 + (2 div (1 + i)))
1: (6 + (if x <= 0 then 0 else 1))
1: (3x + ((x div 2) mod 2))
1: (3x + ((i div 2) mod 2))
1: (1 + (3 * i))
1: (8 + (if x <= 0 then 0 else 1))
1: (13 + (x div 2))
1: (12 + ((x + 1) div 2))
1: (12 + (if (x + ~2) <= 0 then 1 else 2))
1: ((4x + 3) + i)
1: ((4x + 4) + (2 div (2x + ~1)))
1: ((4x + 4) + ((x + 1) div 3))
1: ((4x + 4) + ((x + ~1) div 2))
1: ((4x + 4) + ((x div 2) div 3))
1: ((4x + 4) + ((if x <= 0 then 2 else x) div 2))
1: ((4x + 4) + (x div 5))
1: ((4x + 4) + ((x + ~1) mod 3))
1: ((4x + 4) + ((x div 2) mod 2))
1: ((4x + 4) + (x mod 2))
1: ((4x + ~4) + (x mod 3))
1: (1 + (4 * (~1 + i)))
1: (10 + (x div 5))
1: (10 + (if x <= 0 then 1 else 2))
1: (10 + loop(\(x,i).2x,x,1))
1: ((5x + 5) + (x2 div 2))
1: ((5x + 5) + (((x + 1) div 2) div 2))
1: ((5x + 5) + (x div 4))
1: ((5x + 5) + (x div 5))
1: ((5x + 5) + (if (~x + 4) <= 0 then 1 else 0))
1: ((5x + 10) + (x div 2))
1: (2 + (5 * (x div 2)))
1: (x + (5 * (x mod 2)))
1: ((5 * (if x <= 0 then 1 else 2)) + (x div 7))
1: (1 + (5 * (if x <= 0 then 1 else x)))
1: (5x + (x div 5))
1: (5x + ((1 + i) mod 4))
1: (5x + ((2 + i) mod 4))
1: (5x + ((~x + 1) mod 3))
1: (5x + ((1 - i) mod 4))
1: (5x + ((~1 + i) mod 3))
1: (5x + (2x mod 3))
1: (5x + ((i * i) mod 3))
1: (5x + ((x div ~2) mod 2))
1: (5x + (x mod (1 + (x div 2))))
1: (5x + (i mod 3))
1: (5x + (if (2 - i) <= 0 then x else 1))
1: (5x + loop(\(x,i).2x,x,1))
1: (2 + (2 * ((x + 6) + (((1 + ((((loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2) div 2) div 2) div 2)) div 2) div 2))))
1: (1 + (2 * ((x + 3) + ((if (x + ~1) <= 0 then x else 2) + (x div 3)))))
1: ((x2 + 11x + 28) + (if x <= 0 then 1 else 2))
1: (3 + (2 * ((3x + 3) - ((1 + (x mod (~2 - (x div 3)))) mod 2))))
1: (x + (((2x + 1) + (9 * (1 + (x div 2)))) * (x div 2)))
1: (1 + (x * ((2x + 1) + (((x + 1) + (x2 div 4)) div 2))))
1: (x + (2 * (6 + ((1 + (x div 2) - ((x div 4) mod 2)) div 2))))
1: (1 + (2 * ((2x + 2) + (((5 * ((2x + 1) - ((~x + ((x + ~2) div 3)) div 3))) div 2) div 3))))
1: (x + (2 * (4 + (((x div 2) div 5) + (if x <= 0 then 1 else 2)))))
1: (3 + (2 * ((3x + 1) + (loop(\(x,i).(x + loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),i,x)),x,1) div 2))))
1: ((2 * ((5x + 2) + (x div 2))) + (if x <= 0 then 1 else 2))
1: (1 + (2 * ((x + 1) + ((if (x + ~1) <= 0 then x else 2) + (x div 4)))))
1: (1 + (2 * ((x + 2) + ((if x <= 0 then 0 else ((3x + 1) + (x div 3))) + (x div 2)))))
1: (1 + (2 * ((x + 4) + (if x <= 0 then 1 else (10x + 48)))))
1: (1 + (2 * (6 + (if x <= 0 then 2 else loop(\(x,i).x3,1,14)))))
1: (1 + (2 * (3 + (loop(\(x,i).2x,(x div 2),(2 + (x mod 2))) + loop(\(x,i).2x,x,2)))))
1: (1 + (7 * (5 + loop(\(x,i).2x,x,1))))
1: ((2x + 10) + ((x div 2) div 5))
1: ((2x + 10) + ((x div 5) mod 2))
1: ((5x + 25) + (x div 5))
1: (x2 + 9x + 21)
1: ((2x + 12) + (if x <= 0 then ~4 else 1))
1: (5x + 31)
1: (x2 + 10x + 26)
1: (2x2 + 14x + 6)
1: (x2 + 9x + 12)
1: (12x + 74)
1: (x2 + 6x + 3)
1: (x + ((5 + i) * i))
1: ((x + 1) + ((6 + i) * i))
1: (x + (2 * ((x + 4) + i)))
1: (2 + (x * ((x + 4) + i)))
1: (1 + (2 * ((2x + 5) + (x div 2) - (x mod 4))))
1: (2x + 19)
1: (x2 + 15x + 57)
1: ((9x + 81) + (x div 9))
1: (x2 + 9x + 1)
1: (2x + 21)
1: (x2 + 14x + 30)
1: ((x2 + 10x) + (x mod 10))
1: (4x2 + 6x + 43)
1: (2 + (3 * (5 + (3 * (4 + (((3 * (1 + ((2 - (x mod 2)) mod (1 + (if (~1 + (x mod 3)) <= 0 then 2 else 0))))) mod 5) div 2))))))
1: (1 + (2 * (2 + (2 * (1 + (2 * ((2x + 2) - (x mod 2))))))))
1: (1 + (2 * ((x + 3) + ((2x + 5) * (1 + (x div 2))))))
1: ((2 * ((7x + 3) + (x div 3))) + (if x <= 0 then 0 else 1))
1: (1 + (2 * ((x + 1) + (2 * (x + ((x3 + 2x) div 3))))))
1: (x + (((2x + 1) + (5 * (1 + (x div 2)))) * (x div 2)))
1: (1 + (2 * ((x + 1) + (5 * (x + (x div 4))))))
1: (1 + (2 * ((x + 1) + (2 * (2x + (x mod 2))))))
1: ((3 * ((x + 1) + (2 * (2x + (x mod 2))))) + (x div 2))
1: (1 + (2 * ((x + 1) + (2 * (x + (x mod 2))))))
1: (2x2 + 2x + 19)
1: (2x2 + 3x + 20)
1: (3x2 + 13x + 27)
1: (2x2 + 9x + 28)
1: (2 + (((x + 2) + (2 * (2 - ((x div 2) mod 2)))) * (1 + (x div 2))))
1: (1 + (2 * (1 + ((x * (~1 + ((2x + 1) * (x + (x div 2))))) + (x div 2)))))
1: (2x2 + ~4x + 7)
1: (5x3 + 5x2 + 3x + 1)
1: (25x2 + 14x + 2)
1: (9x2 + 35x + 35)
1: (1 + (2 * ((4x + 1) + (x mod 2))))
1: (1 + (2 * ((4x + 1) + i)))
1: (1 + (2 * ((3x2 + 2) + (x mod 2))))
1: (6x2 + 2x + 3)
1: (1 + (2 * ((x + 1) + ((2 * ((1 + (((x + 1) * ((x + 3) + ((2 * (1 + (((x * ((x + 2) + (2 * (x mod 2)))) div 2) + (x mod 2)))) div 3))) div 2)) div 2)) + (x div 3)))))
1: (x + (3 * ((x + 1) + (3 * ((x + (x div 2)) div 4)))))
1: (1 + (2 * ((x + 2) + (2 * ((x - (((x div 2) div ~2) div 2)) div 2)))))
1: (1 + (2 * ((x + 1) + (2 * (x2 div (1 + (2 * (if (x mod 5) <= 0 then 0 else 2))))))))
1: (x + (3 * ((x + 2) + (3 * (x div 2)))))
1: (x3 + (((x + 2) + (3 * (x div 2))) * ((x + 1) div 2)))
1: (1 + (2 * ((x + 1) + (2 * (x div 3)))))
1: (2 + (5 * ((x + 2) + (2 * (x div 4)))))
1: (x + (2 * ((x + 2) + (5 * (x div 4)))))
1: (2 + (x * ((x + 2) + (5 * (if (x mod 2) <= 0 then (x div 2) else 2x)))))
1: ((2 * ((2x + 1) + (x div 3))) + (if x <= 0 then 0 else 1))
1: (x + (3 * ((x2 + 2) + (if x <= 0 then 1 else 2))))
1: (x4 + x3 + 6x2 + 6x + 5)
1: (x3 + 2x2 + 5x + 11)
1: (x + (2 * ((5x + 4) + (4 div (x + 1)))))
1: (3 + (2 * (4 + (((x + 4) + ((x + 1) div (1 + (x div (2 + (x mod (2 + (x mod 2)))))))) div 2))))
1: (1 + (2 * ((x + 1) + (((x + 1) + (((2x + 1) + (2 * (((x + 1) + (2 * ((1 + (loop(\(x,i).((x + 1) + loop(\(x,i).2x,x,1) - (x mod 2)),x,1) div 2)) div 2))) div 2))) div 3)) div 2))))
1: (1 + (2 * ((x + 1) + (((x + 1) + (((x + 1) + ((4x + 1) div (2 + (x div 8)))) div 2)) div 2))))
1: (1 + (2 * ((x + 1) + (((x + 1) + (((x + 1) + ((2 * (x3 div (x + 2))) div 3)) div 2)) div 2))))
1: (1 + (2 * ((x + 1) + (((x + 1) + ((x - (x mod (4 + (x div 2)))) div 3)) div 2))))
1: (1 + (2 * ((x + 1) + (((x + 1) + (loop(\(x,i).(loop(\(x,i).(x * i),x,i) + i),x,0) div 2)) div 2))))
1: (1 + (2 * ((x + 2) + (((x + 1) + ((x div 3) mod 3)) div 3))))
1: (1 + (2 * ((x + 1) + (((x + 2) + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)) div 3))))
1: (x + (2 * ((x + 2) + ((1 + ((x - ((~x + 2) div 4)) div 2)) div 2))))
1: (1 + (2 * ((x + 2) + ((x + (x2 div 3)) div 2))))
1: (x + (5 * ((x + 2) + ((x + ((x mod (1 + (x div 2))) div 2)) div 2))))
1: (1 + (2 * (1 + (((1 + (x div 3)) div (2 * (1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + ((x - (x mod 5)) div 2)))))) + (x mod 2)))))
1: (x + (2 * ((x + 2) + ((x + (x div 4)) div 2))))
1: (1 + (2 * ((x + 2) + ((x + (x mod 2)) div 3))))
1: (1 + (2 * ((x + 2) + ((x + 2) div (12 - (x div 2))))))
1: (1 + (2 * ((x + 1) + ((2x - (x mod (3 - (x mod 2)))) div 3))))
1: (1 + (2 * ((x + 1) + (((x div 2) - ((x div 4) mod 2)) div 2))))
1: (1 + (2 * ((x + 2) + ((x - ((x + (x div 3)) div 3)) div 2))))
1: (x + (2 * ((x + 2) + ((x - (x div ~4)) div 2))))
1: (x + (x * (3 + ((x - ((x div 2) mod 2)) div 2))))
1: (1 + (2 * (x + (((x - ((x div 2) mod 2)) div 2) + (2 mod (x + 1))))))
1: (1 + (2 * ((x + 2) + ((x - ((x div (1 + (x mod 3))) mod 2)) div 2))))
1: (3 + (2 * (4 + (((x + 2) * ((4x + 9) - (x mod 2))) div 2))))
1: (1 + (2 * (4 + ((3 * (x + (2 * ((x + (x div 2)) div 2)))) div 2))))
1: (1 + (2 * ((x + 1) + (((x + 1) * (1 + ((x + 1) div 7))) div 9))))
1: (1 + (2 * ((x + 1) + ((2 * (1 + ((2 * (1 + (2 * (2x - (2x div 7))))) div 3))) div 3))))
1: (x + (x * ((x + 1) + ((2 * (1 + (((x + ~1) * ((x8 + x6 + x4 + x2) div 2)) div 3))) div 3))))
1: (1 + (2 * ((x + 1) + ((2 * (1 + (6 mod (1 + (x div 2))))) div 3))))
1: (x + (2 * ((x + 2) + ((2 * (x - (((x + 1) div 2) mod 3))) div 3))))
1: (1 + (2 * ((x + 1) + ((x3 + 9x2 + 8x) div 3))))
1: (1 + (2 * (2 + ((17x2 + 17x) div 2))))
1: (1 + (2 * ((x + 1) + ((3 * (((1 + (x div 2)) div 2) div 2)) div 2))))
1: (1 + (2 * ((x + 2) + (2x div (4 + ((x div 2) div 5))))))
1: (((x + 1) * ((x + 1) + (x2 div 3))) + (2 * (x mod 2)))
1: (1 + (5 * ((x + 2) + (((x + 1) div 2) div 3))))
1: (1 + (2 * ((x + 1) + (((~1 + ((x + 1) * (2 + ((3x + ~3) * ((x2 + x) div 2))))) div 2) div 2))))
1: (1 + (2 * ((x + 1) + (((3 * ((2x + 1) + (2 * ((3 * (x + ((x div 2) div 5))) div 2)))) div 2) div 2))))
1: (2 + (x * ((x + 1) + (((x4 + x3 + 2x2 + 2x) div 2) div 3))))
1: (1 + (2 * (1 + (((((x + 1) div 2) div 2) div 2) + (x mod 2)))))
1: (1 + (7 * ((x + 2) + ((((x + 1) div 2) div 2) div 2))))
1: (x + (3 * (4 + ((x div 2) div 5))))
1: (2 + (2 * (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) + ((2x + 1) div (3 + (x div 4)))))))
1: (2 + (3 * (4 + (((3 * (1 + ((2 - (x mod 2)) mod (1 + (if (~1 + (x mod 3)) <= 0 then 2 else 0))))) mod 5) div 2))))
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1: (1 + (2 * ((x + 1) + (loop(\(x,i).(2x + i),(x + 2),2) div 5))))
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1: (1 + (3 * (loop(\(x,i).2x,(x div 2),(2 + (x mod 2))) + loop(\(x,i).2x,x,3))))
1: ((3 * (2 + loop(\(x,i).2x,x,1))) + loop(\(x,i).3x,x,1))
1: (2 + (5 * (1 + loop(\(x,i).2x,x,2))))
1: (1 + (9 * (1 + loop(\(x,i).2x,x,4))))
1: (2x + (5 * (2 + loop(\(x,i).2x,x,5))))
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1: (1 + (3 * ((x2 + 2x) + loop(\(x,i).2x,x,(if x <= 0 then 1 else 2)))))
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1: (1 + (x * (1 + loop(\(x,i).x2,(~2x + 4),2))))
1: (x + (2 * (2 + loop(\(x,i).(x * i),x,2))))
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1: ((3x + 3) + (x div 4))
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1: (1 + ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) * (x - (if (x mod 15) <= 0 then 2 else 0))))
1: (1 + (2 * (3 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (1 + (3 * (3 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (1 + (7 * (3 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (x + ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i)) * (1 + i)))
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1: (1 + (7 * (0 - ((x - (x div 4)) div 2))))
1: (2 + ((0 - (x div (~2 + (x mod ~2)))) * (((x + ~1) div 2) div 2)))
1: (x + (3 * (0 - (x mod 3))))
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1: (x + (2 * (1 - (2 * ((x mod (1 + ((2 * (x + ((x * (x div 2)) mod 2))) div 3))) mod 2)))))
1: (2 + ((2x + 3) * (1 - (2 * (x mod 2)))))
1: (2 + ((x + 2) * (1 - (2 * (x mod 2)))))
1: (10x + ((1 - (2 * (i mod 2))) * (1 + i)))
1: (1 + (2 * (1 - ((~x + 2) div (2 - (x div ~4))))))
1: ((2 * (1 - ((~x + 2) div 12))) + (if x <= 0 then 0 else 1))
1: (1 + (2 * (1 - ((~x + (x mod 2)) div 5))))
1: (1 + ((1 - (x div 3)) * (x div 2)))
1: (1 + (2 * (1 - (x div (~2 + ((~x + 2) div 4))))))
1: (1 + (2 * (1 - (x div (~2 + ((x * (x div 3)) mod 2))))))
1: (1 + (2 * (1 - ((x div 2) mod (1 + ((~x + 2) mod 4))))))
1: (1 + (3 * (1 - (x mod 3))))
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1: (1 + (2 * (1 - (x mod (1 + (((x + 1) - (2 * (x div (2 * (2 - (x mod 2)))))) mod (x + 1)))))))
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1: (1 + ((x + 2) * (1 - loop(\(x,i).(2x + ~4),x,0))))
1: (~x2 + 4x + ~1)
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1: (~x2 + x + 2)
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1: (1 + (2 * (3 - ((x div 2) mod (1 + (if (x mod 2) <= 0 then 6 else 1))))))
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1: (1 + (2 * (2 - (x * (((x div 2) div 3) mod 2)))))
1: (~2x2 + 5)
1: (1 + (2 * (2 - (2 div (1 + (x div 4))))))
1: (2 + (2 * (2 - (2 div (1 + (x div 4))))))
1: (x + (5 * (2 - (2 div (1 + (x div 5))))))
1: (1 + (2 * (2 - ((~2x + 5) div (4 + (x div 4))))))
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1: (1 + (2 * (2 - ((~x + (2 div (x + 1))) div 5))))
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1: (x + (2 * ((3x + 2) - ((2x + 1) div 7))))
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1: (2 + ((x + 1) * ((x + 2) - (2 div (~1 + (x2 div 2))))))
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1: ((11x + 11) + (x mod 11))
1: (11x + (x div 7))
1: (11x + (x div 12))
1: (11x + (if (~2 + (x div 2)) <= 0 then 0 else 1))
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1: ((3x2 + 8x + 5) + ((1 + (x div 2)) div 2))
1: ((2 * ((x2 + 2x) - (x div 2))) + ((x2 + x) div 2))
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1: ((23x + 23) + (x div 9))
1: ((23 * (x2 div 4)) + (x mod 2))
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1: (16x2 + 111x + 159)
1: (x + (71 * (x div 9)))
1: (24x3 + 10x + 1)
1: (x + (63 * ((x + 1) div 2)))
1: (32x2 + 223x + 319)
1: (64x2 + 447x + 639)
1: (16x2 + ~x + 1)
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1: (1 + ((2x + 2) * (1 + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x))))
1: (1 + (4 * (loop(\(x,i).(2x + 2),(x div 2),(x mod 2)) + loop(\(x,i).2x,x,2))))
1: (1 + (6 * (x + loop(\(x,i).(x * (2 + i)),(x + ~2),1))))
1: (1 + ((x2 + x) * (1 + loop(\(x,i).(x6 + x5 + x4 + x3 + x2 + x),1,x2))))
1: (1 + (4 * (1 + loop(\(x,i).x3,2,4))))
1: (1 + (6 * (2 + loop(\(x,i).2x,(x + 2),2))))
1: (1 + (4 * (2 + loop(\(x,i).2x,x,3))))
1: (1 + (x2 * (2 + loop(\(x,i).x2,x,3))))
1: ((6x + 6) + ((x + 1) div 5))
1: ((6x + 6) + ((x div 2) div 5))
1: ((6x + 6) + (x div 2))
1: ((6x + 6) + (x div 4))
1: ((6x + 6) + (x div 5))
1: ((6x + 6) + (if (x + ~4) <= 0 then 0 else 1))
1: ((10x + 10) + (x div 9))
1: ((9x + 9) + (x div 2))
1: ((9x + 9) + (x div 5))
1: ((9x + 9) + (x div 8))
1: ((15x + 15) + (x mod 15))
1: ((3x2 + 3x) + (2 * (x mod 2)))
1: ((3x2 + 3x) + (if (x mod 2) <= 0 then 2 else 0))
1: ((4x + 8) + (x div 3))
1: (6x + 14)
1: (11x + 20)
1: (4x2 + 10x + 5)
1: (3x2 + 9x + 8)
1: (2x2 + 8x + 9)
1: (3x2 + 12x + 13)
1: ((3x2 + 12x + 12) + (x2 div 2))
1: (x3 + 7x2 + 17x + 12)
1: (2x3 + 9x2 + 13x + 4)
1: (x4 + 4x3 + 5x2 + 5x + 4)
1: (x3 + 6x2 + 12x + 9)
1: ((8x2 + 32x + 32) + ((x2 + ~x) div 2))
1: ((2x2 + 4x) + (x mod 2))
1: (5x2 + 10x + 1)
1: (5x2 + 11x)
1: (x3 + 5x2 + 6x + 1)
1: (x3 + 6x2 + 8x + 2)
1: (2x3 + 5x2 + 2x + 1)
1: (x4 + 2x3 + x2 + 2x + 1)
1: (1 + ((x2 + 2x) * (1 + (x mod 2))))
1: (x3 + 3x2 + 2x + 1)
1: (x3 + 4x2 + 4x + 2)
1: (1 + ((x2 + 2x) * (2 + i)))
1: (x3 + x2 + ~2x + 1)
1: (2x3 + 8x2 + 8x + 1)
1: (1 + ((x2 + 5x + 6) * i))
1: (1 + (6 * (1 + i)))
1: (x + (2 * ((1 + i) * (1 + (2 * i)))))
1: (1 + (9 * (1 + i)))
1: (1 + (3x * (1 + i)))
1: (1 + (x * ((1 + i) * (1 + i))))
1: (2x + ((1 + i) * i * (1 + i)))
1: (1 + (4 * (2 + i)))
1: (~1 + ((4 * (2 + i)) + i))
1: ((4 * (2 + i)) + i)
1: (((2 + i) * i * (1 + i)) + i)
1: (x + (6 * (x + i)))
1: (x + (9 * (x + i)))
1: (1 + ((3x + 6) * (x + i)))
1: (1 + ((x2 + 2x) * (x + i)))
1: (1 + (8 * (1 + compr(\x.(1 + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then x else (1 + i))),x,x)),x))))
1: (1 + (10 * (1 + compr(\x.((1 + (x * loop(\(x,i).(5x * (x - i)),2,x))) mod (x + 1)),x))))
1: (1 + (4 * (1 + compr(\x.(loop(\(x,i).(1 + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,2x)),2,x) mod (x + 1)),x))))
1: (1 + (4 * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: ((2x + 1) + (3 * ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) * loop(\(x,i).x5,2x,3))))
1: (1 + (4 * (3 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (1 + (6 * (3 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (1 + (6 * (0 - (x mod 4))))
1: ((2 * ((1 - (2 * ((x div 5) mod 2))) * ((x div ~2) mod 2))) + (x mod 2))
1: (2x + ((1 - (2 * (i mod 2))) * i * i * i))
1: (x + ((1 - (2 * (i mod 2))) * i * i * i))
1: (x + (6 * (1 - ((~x + 2) div 12))))
1: (x + (9 * (1 - (((x div 3) mod 3) div 2))))
1: (1 + (4 * (1 - (x div 2))))
1: (x + (9 * (1 - (x div 8))))
1: (1 + ((~x2 + x) * (x div 2)))
1: (1 + ((2x + 2) * (3 - (x div 2))))
1: (8 + ((x2 + 2x + 1) * (4 - (x div 2))))
1: (~4x + 73)
1: (4x4 + 3x3 + 2x2 + 1)
1: (1 + (6 * (2 - (2 div (~8 + (x div 2))))))
1: (1 + (4 * (2 - ((x mod 3) div 2))))
1: (1 + (4 * (2 - (x div (~1 + ((~x + 1) div 3))))))
1: (1 + (4 * (2 - ((x div 3) mod 2))))
1: (1 + (4 * (2 - ((x mod (~1 + (2 * (x div 3)))) mod 2))))
1: (1 + (2 * ((2 - (x mod 2)) * (~x mod 4))))
1: (1 + (2 * ((2 - (x mod 2)) * (x mod 4))))
1: (1 + (2x * (2 - (x mod 2))))
1: (10x2 + 24x + 15)
1: (9x2 + ~6x + 1)
1: (12x2 + ~8x + 1)
1: ((4 * (3x - (~x mod 4))) + (x mod 2))
1: (x + ((~2 + (3 * i)) * i * i))
1: ((22x + 22) + (x div 5))
1: ((22x + 1) + i)
1: (44x + 1)
1: (11x2 + 11x + 1)
1: ((33x2 + ~44x) + ((x2 + ~x) div 2))
1: (22x2 + 1)
1: (11x2 + (if x <= 0 then 1 else 2))
1: (x + (11 * (i * i)))
1: (17x + 12)
1: (25x + 18)
1: (72x + 55)
1: (10x2 + ~2x + 1)
1: (x4 + 8x3 + 18x2 + 12x + 2)
1: (2 + ((2x + 2) * (~1 + (3 * (1 + loop(\(x,i).2x,(2 + (x mod 2)),(x div 2)))))))
1: (x + (4 * ((2x + 2) - (2 * (1 + (x mod (1 + (x div 8))))))))
1: (x + (4 * ((2x + 2) - ((x + 2) mod 12))))
1: (13x + 20)
1: ((x4 + ~x3 + ~x2 + 1) + (x mod 2))
1: (46x + 1)
1: (46x2 + 1)
1: (23x2 + 1)
1: (23x2 + (if x <= 0 then 1 else 2))
1: (12x2 + 22x + 11)
1: (12x2 + 10x + 1)
1: (1 + (6 * (~1 + (6 * (~2 + loop(\(x,i).10x,(x + 1),(x + 1)))))))
1: (x + (62 * (x div 8)))
1: (62x2 + 1)
1: (31x2 + (if x <= 0 then 1 else 2))
1: (200x2 + ~3)
1: (1 + (6 * (~1 + (6 * loop(\(x,i).loop(\(x,i).x3,4,2),(x + ~2),loop(\(x,i).6x,x,1))))))
1: (8x2 + ~2x + 1)
1: (12x2 + ~3x + 1)
1: ((4x3 + ~x2) + (2 * (x div 2)))
1: (x + (4 * (4x - ((if x <= 0 then 1 else x) div ~4))))
1: (2x4 + ~x2 + 2)
1: (18x2 + ~6x + 1)
1: (3x4 + 6x3 + ~3x + 1)
1: (x6 + ~x5 + x4 + ~x3 + x2 + ~x + 1)
1: (x6 + ~x3 + 1)
1: (1 + ((4x + 4) * ((x * (x mod 2)) - (x div 2))))
1: (1 + (9 * (~1 + (5 * loop(\(x,i).7x,x,2)))))
1: (1 + (4 * (~1 + (2 * loop(\(x,i).4x,x,(1 + (2 * loop(\(x,i).(5x + ~4),x,8))))))))
1: (4x2 + ~2x + 1)
1: (2x3 + ~x2 + 2)
1: (x + (4 * (2x - (2x div 7))))
1: (x4 + 3x3 + ~x2 + ~3x + 1)
1: (x4 + ~x2 + 1)
1: (1 + (4 * (x2 - (x div 2))))
1: ((x + ~1) + ((~1 + (2 * i)) * i * i))
1: (x + ((~1 + (2 * i)) * i * i))
1: (x + ((~1 + (i * i)) * (2 + i) * i))
1: (x + (9 * (~1 + (if (~4 + (x div 2)) <= 0 then 1 else x))))
1: (1 + (4 * (loop(\(x,i).3x,x,2) - loop(\(x,i).2x,x,2))))
1: ((4 * (~1 + loop(\(x,i).(2x + 4),x,4))) + (if x <= 0 then 1 else 0))
1: (1 + (x2 * (~2 + loop(\(x,i).(x2 + 2x),2,2))))
1: (1 + (4 * (~2 + loop(\(x,i).10x,x,2))))
1: (1 + (x2 * (~1 + loop(\(x,i).(2x3 + ~4x),2,2))))
1: (1 + (4 * (~2 + loop(\(x,i).8x,x,2))))
1: (1 + ((3x + 3) * (~1 + loop(\(x,i).x3,1,(7x + 5)))))
1: ((10x + ~10) + ((x + 1) div 3))
1: (x3 + ~2x2 + x + 1)
1: (x3 + ~x2 + ~2x + 1)
1: (x + (4 * ((x + 1) - ((x + 1) div 5))))
1: (1 + (6 * ((x + 1) - ((x + 2) div ~7))))
1: (1 + (4 * ((x + 1) - ((~x + ((x div 2) mod 2)) div 2))))
1: (1 + (4 * ((5x + 4) - (x div 2))))
1: (1 + (4 * ((x + 1) - (x div (~2 + ((~x + 2) div 4))))))
1: (x + (6 * ((x + 1) - ((x + 1) mod ~7))))
1: (1 + (6 * ((x + 1) - (x mod (1 - (2 * (2 + (x mod 3))))))))
1: (x + (4 * ((x + 1) - (x mod (x - ((x + ~1) mod 8))))))
1: (x + (10 * ((x + 1) - (x mod (x - ((x + ~1) mod 8))))))
1: (1 + (9 * ((x + 1) - (x mod 8))))
1: (1 + (6 * ((x + 2) - (i mod 2))))
1: (25x2 + ~39x)
1: (4x3 + ~6x2 + 1)
1: (x + (4 * (x - (2 * ((~2x + ~1) + ((x - (x div 4)) div 2))))))
1: (x + (4 * (x - (2 * ((~2x + ~2) + ((x - (x div 4)) div 2))))))
1: (1 + (4 * (x - (2x * (~x + (x mod 2))))))
1: (1 + (4 * (x - (3 * (~x + (x mod 4))))))
1: (4x3 + ~12x2 + 12x + 1)
1: (58x2 + 1)
1: (1 + (4 * (x - ((2 - (x div 2)) div (x + 2)))))
1: (1 + (6 * (x - ((~x + 2) div 4))))
1: (1 + (18 * (x - ((~x + 2) div 4))))
1: (1 + (4 * (x - ((~1 + (x div ~4)) div 2))))
1: ((3x + 3) + (4 * (x - ((2x + 2) div 7))))
1: (1 + (4 * (x - ((2x + ~4) div 7))))
1: (1 + (4 * (x - (2x div ~7))))
1: (1 + (4 * (x - ((if x <= 0 then 1 else x) div ~4))))
1: (1 + (4 * (x - (x div 4))))
1: (1 + (4 * (x - (x div ~4))))
1: (1 + (6 * (x - (x div 8))))
1: (x + (4 * (x - ((x + 1) mod 13))))
1: (x + ((i - (4 * (1 - i))) * i * i))
1: (x2 + 54)
1: 151
1: (27x + 2)
1: (27x + i)
1: (2 + (9 * (i * (1 + i))))
1: (32 + loop(\(x,i).x2,x,2))
1: (16x2 + 32x + 17)
1: (16x + 17)
1: ((16x + 16) + ((x + 1) div 3))
1: (x2 + 72)
1: (x + (24 * (1 + (x div 2))))
1: (24x + 25)
1: (8x2 + 16x + 9)
1: (x + 108)
1: ((4x3 + 12x2 + 12x + 4) + (if x <= 0 then 1 else 0))
1: (60x + ~59)
1: (x + (20 * (1 + (x div 2))))
1: (50x + 1)
1: (10x3 + 20x2 + 10x + 1)
1: (25x2 + 2)
1: (1 + (8 * ((x + 2) + (x div 8))))
1: (13x + 36)
1: (6x2 + 18x + 1)
1: (61x + 40)
1: (12x2 + 21x + 8)
1: (18x2 + 12x + 1)
1: (52x2 + 1)
1: (1 + (12 * (1 + (2 * ((2x + 4) + (x div 2))))))
1: (20x3 + 60x2 + 90x + 51)
1: (x + (12 * (1 + ((x + 1) * (2 + loop(\(x,i).x2,2,3))))))
1: (15x4 + 60x3 + 105x2 + 90x + 31)
1: (68x2 + 1)
1: (24x2 + 52x + 29)
1: (60x2 + 60x + 13)
1: (100x2 + 200x + 51)
1: (32x + 9)
1: ((32x + 8) + (if x <= 0 then 1 else 0))
1: (168x2 + 140x + 29)
1: (x8 + ~x6 + x4 + ~x2 + 1)
1: (25x + 12)
1: (5x4 + 10x2 + 1)
1: (3 + (8 * (1 + ((x div 4) mod 2))))
1: (x + (54 * (x + (x mod 2))))
1: (1 + ((6x + 6) * (1 + (if (~x + 4) <= 0 then 16 else 1))))
1: (x + (8 * (2 + (if (~2 + (x div 2)) <= 0 then x else 6))))
1: (1 + (8 * (4 + (if x <= 0 then 2 else 0))))
1: (12x2 + 30x + 19)
1: (12x2 + 18x + 7)
1: (6x2 + 12x + 7)
1: (14x2 + 28x + 15)
1: (18x2 + 36x + 19)
1: (25x2 + 25x + 1)
1: (x4 + 9x3 + 23x2 + 15x + 1)
1: (8x2 + 20x + 9)
1: ((4x2 + 12x + 8) + (x mod 2))
1: (6x2 + 18x + 13)
1: (4x3 + 14x2 + 13x)
1: (12x2 + 24x + 1)
1: (x + ((2 + i) * i * i * (1 + i)))
1: (1 + (8 * (3 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (1 + (12 * (3 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (~8x + 145)
1: (~x5 + x4 + x3 + x2 + 2x + 1)
1: (1 + (18 * (~2 + loop(\(x,i).x3,1,(10x + 5)) - loop(\(x,i).2x,(x + ~1),1))))
1: (22x2 + 22x + 1)
1: (44x2 + 44x + 1)
1: (44x2 + 1)
1: (200x + 151)
1: (81x + ~24)
1: (4x4 + ~2x2 + 1)
1: (1 + ((2x3 + x2 + ~x) * (2 - (x mod 2))))
1: (5x4 + ~10x2 + 1)
1: (25x2 + ~25x + 1)
1: (1 + (8 * ((x + 2) - ((~2x + 1) div (4 + (x div 4))))))
1: (24x4 + ~60x3 + 54x2 + ~17x)
1: (1 + (8 * (x - (x div ~2))))
1: (x4 + 64)
1: (x + 64)
1: (32x + 33)
1: ((32x + 32) + (((x + 1) div 2) div 2))
1: (30x3 + 30x + 2)
1: (120x + 49)
1: (1 + (36 * (1 + ((x + 1) * (1 + loop(\(x,i).(x * (x + i)),2,4))))))
1: (36x3 + ~81x2 + 46x)
1: (1 + (24 * (2x + (x div 2))))
1: (1 + (8 * ((x + (x mod 4)) * (1 + (x div 4)))))
1: (6x3 + 18x2 + 18x + 7)
1: (8x2 + 24x + 17)
1: (2 + (16 * (~1 + (6 * (2 + (3 * loop(\(x,i).2x,x,2)))))))
1: (1 + (16 * (~1 + loop(\(x,i).(2 * (x + i)),x,2))))
1: (64x + loop(\(x,i).(8x + 1),i,1))
1: (96x + 1)
1: (64x2 + 1)
1: (48x + 1)
1: (48x + (2 div (x + 1)))
1: (32x2 + ~16x + 1)
1: (32x2 + 1)
1: (48x2 + 1)
1: (1 + (16 * ((1 + ((((5x3 + 2x2 + ~3x) div 2) div 3) div 2)) div 2)))
1: (x + (162 * (x div 8)))
1: (1 + (24 * ((x mod (~1 + (2 * (x div 4)))) mod 2)))
1: (x + (24 * (x mod 2)))
1: (1 + (16 * loop(\(x,i).(2x + ~1),x,12)))
1: (17x + i)
1: (16x + (2 div (x + 1)))
1: (16x + i)
1: (25x + i)
1: (24x + (2 div (x + 1)))
1: (24x + i)
1: (40x + (2 div (x + 1)))
1: (56x + 1)
1: (16x2 + 8x + 1)
1: (36x + (2 div (x + 1)))
1: (36x + loop(\(x,i).(6x + 1),i,1))
1: (24x2 + ~12x + 1)
1: (30x2 + 30x + 1)
1: (30x2 + 1)
1: (54x2 + 1)
1: (2x4 + 4x3 + 2x2 + 1)
1: (40x2 + 1)
1: (56x2 + 1)
1: (72x2 + 1)
1: (9x5 + 2)
1: (4x6 + 2x5 + 2)
1: (x7 + 1)
1: (x7 + 3)
1: (x + (2 * (i * i * i * i * i * i)))
1: (1 + (8 * ((1 + (x div 2)) div 2)))
1: (3 + (8 * (((x div 2) - (x * (x mod 2))) div 2)))
1: (1 + (8 * ((x * (1 - ((x3 div 8) mod 2))) div 5)))
1: (1 + (8 * ((x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) div 5)))
1: (1 + (12 * ((((x + 1) div 2) div 2) div 2)))
1: (1 + (4 * ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (if (x mod 3) <= 0 then 2 else 1))))
1: (1 + (8 * ((x mod (~1 + (2 * ((x + ~1) div 3)))) div 2)))
1: (x + (8 * ((x mod (x - ((x + ~1) mod 8))) div 2)))
1: (1 + (8 * (x div (~2x + 32))))
1: (1 + (8 * (x div (4 * (8 - (x div 2))))))
1: ((8 * ((x div 3) mod 2)) + (x mod 2))
1: ((8 * (x mod 2)) + (x div 2))
1: ((12 * (x mod 2)) + (x div 2))
1: (1 + (4x * (x mod 2)))
1: (((6x + 6) * (x mod 2)) + (x div 2))
1: (1 + (8 * (x mod 4)))
1: (1 + (8 * (x mod (2 + (x mod 2)))))
1: (x + (8 * (if (2 - (x div 4)) <= 0 then 8 else (x + 1))))
1: (x + (18 * (if (x + ~4) <= 0 then 0 else 2)))
1: (x + (45 * (if x <= 0 then 0 else 2)))
1: (1 + (8 * loop(\(x,i).(8x + loop(\(x,i).3x,i,1)),x,2)))
1: (1 + (8 * loop(\(x,i).(2x + 4),(x + 3),2)))
1: (2 + (8 * loop(\(x,i).(x3 + ~x),(x2 + 1),2)))
1: (9x + i)
1: ((8x + ~2) + (x div 2))
1: (8x + ((x + 1) div 3))
1: (8x + (x div 3))
1: (8x + ((~x + 1) mod 3))
1: (8x + ((1 - i) mod 3))
1: (8x + ((~1 + i) mod 3))
1: (8x + (i mod 3))
1: (8x + (if (2 - i) <= 0 then x else 1))
1: (13x + i)
1: (12x + (2 div (x + 1)))
1: (12x + (x mod 2))
1: (12x + loop(\(x,i).3x,x,1))
1: (12x + i)
1: (20x + 2)
1: (20x + (x * (1 + i)))
1: (20x + (x mod 3))
1: (20x + i)
1: (4x2 + 12x + 1)
1: (8x2 + 4x + 1)
1: (8x2 + ~4x + 1)
1: (18x + (2 div (x + 1)))
1: (30x + (2 div (x + 1)))
1: (30x + (x div 15))
1: (14x2 + 14x + 1)
1: (18x2 + 18x + 1)
1: (6x2 + 1)
1: (9x2 + (x mod 2))
1: (15x2 + 1)
1: (15x2 + 2)
1: (27x2 + 2)
1: (8x2 + (x mod 3))
1: (28x2 + 1)
1: (28x2 + 2)
1: (36x2 + 1)
1: (4x4 + ~4x2 + 1)
1: (2x3 + 4x2 + 1)
1: (1 + ((x3 + ~x2) * (~1 + (x div 2))))
1: (4x4 + 1)
1: (x6 + 7)
1: (x6 + 6)
1: (x6 + loop(\(x,i).6x,x,1))
1: (x4 + 4x3 + 2)
1: (2x4 + ~x3 + x)
1: (x4 + ~x3 + 2)
1: (2x4 + 4x3 + 1)
1: (2x4 + 1)
1: (x5 + 2)
1: (x5 + 6)
1: (x + (12 * i))
1: (1 + (6x * i))
1: (1 + (2x * (i * (~1 + (2 * i)))))
1: (x + ((x3 + x2) * i))
1: (x + (2 * (i * i * (~1 + i))))
1: (x + (20 * (i * i)))
1: (1 + (4 * (i * i * i * i)))
1: (1 + (3x * (i * i)))
1: (1 + (4x * (i * i)))
1: (1 + (5x * (i * i)))
1: (x + (i * i * i * (1 + (i * i))))
1: (x + (2 * (i * i * i * i)))
1: (1 + (i * i * i * i * i))
1: (3 + (30 * compr(\x.(1 - (x mod (1 + (if (x mod 2) <= 0 then 6 else 0)))),x)))
1: (1 + (4 * ((1 + (4 * (x + (if (x + ~4) <= 0 then 1 else 2)))) div 3)))
1: (x + (6 * ((1 + (4 * (x + (if (x + ~4) <= 0 then 1 else 2)))) div 3)))
1: (x + (4 * ((2 + ((1 + ((1 + ((x3 div 4) div 3)) div 2)) div 2)) div 2)))
1: (1 + (4 * ((1 + ((5 * ((x2 + x) div 2)) div 3)) div 2)))
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1: (1 + (6 * (if (x mod 8) <= 0 then 1 else (x mod 2))))
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1: (1 + (2x * loop(\(x,i).(x2 + 2),2,2)))
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1: (1 + (x2 * loop(\(x,i).(x2 + 2),2,2)))
1: (2 + (4 * loop(\(x,i).(2 + ((x2 + ~x) div 2)),x2,1)))
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1: (1 + (6 * loop(\(x,i).(2x + ~1),x,12)))
1: (1 + (4 * loop(\(x,i).3x,2x,2)))
1: (1 + (6 * loop(\(x,i).(x * (5 + i)),x,2)))
1: (1 + (4 * loop(\(x,i).(10x + 2),(x div 2),(x mod 2))))
1: (1 + (4 * loop(\(x,i).(2x + 32),x,3)))
1: (1 + ((x2 + x) * loop(\(x,i).(x5 + x4 + x3 + x2 + x + 1),1,x2)))
1: (1 + (2x * loop(\(x,i).(4x + 2),4,2)))
1: (1 + (4 * loop(\(x,i).(2 * (2 + ((if x <= 0 then 2 else (~2 + loop(\(x,i).4x,(x + 1),2))) div 2))),x,2)))
1: (1 + (4 * loop(\(x,i).(2x + 2),(x + 2),2)))
1: (1 + (x2 * loop(\(x,i).(x2 + x),2,2)))
1: (2 + (x2 * loop(\(x,i).(x2 + x),2,2)))
1: (1 + (4 * loop(\(x,i).(2x + 4),x,3)))
1: (x + (6 * loop(\(x,i).(2x + 4),x,4)))
1: (1 + (x2 * loop(\(x,i).(x2 + 2x),2,2)))
1: (1 + ((3x + 3) * loop(\(x,i).(x2 + 2x),2,6)))
1: (1 + (2x * loop(\(x,i).((x + 2) * (x + i)),2,2)))
1: (1 + (x2 * loop(\(x,i).(2x2 + ~2),2,2)))
1: (2 + ((3x + 3) * loop(\(x,i).(3x2 + 12x + 12),2,1)))
1: (1 + (4 * loop(\(x,i).(x3 + x2),x2,2)))
1: (1 + (4 * loop(\(x,i).2x,(x div 2),2)))
1: (x + (loop(\(x,i).2x,i,i) * i * i * i))
1: (1 + (4 * loop(\(x,i).i,(~4 + (x div 2)),1)))
1: (1 + (4 * loop(\(x,i).i,(x + ~8),1)))
1: ((4x + 2) + i)
1: (4x + (2 div (x + 1)))
1: (4x + (x div 4))
1: (4x + (i mod 3))
1: (6x + ((i mod 2) * i))
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1: (6x + (2 div (1 + i)))
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1: (6x + (x div 3))
1: (6x + (x div 4))
1: (6x + (i div 2))
1: (6x + ((x div 2) mod 2))
1: (6x + (i mod 2))
1: (6x + loop(\(x,i).2x,i,1))
1: (2x2 + (x mod 2))
1: (2x2 + (i mod 2))
1: ((3x2 + 1) + i)
1: (3x2 + (if (x + ~1) <= 0 then 1 else 0))
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1: (x4 + 5)
1: (x3 + 3)
1: (x3 + 5)
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1: (x3 + (2 mod (x + 1)))
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1: ((3x * i) + loop(\(x,i).2x,i,1))
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1: ((4x * i) + (x div 2))
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1: (1 + (2 * ((2 + ((1 + (((x + 1) * (1 + (if (x mod 2) <= 0 then (if x <= 0 then 0 else (2x + 1)) else 0))) div 2)) div 2)) div 2)))
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1: (x + (2 * ((1 + ((1 + ((32 mod (x + 1)) div 2)) div 2)) div 2)))
1: (1 + (2 * ((1 + ((x + ((x2 mod ((x + 1) + (2 * (x div 4)))) div 2)) div 2)) div 2)))
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1: (1 + (2 * (if x <= 0 then 1 else (2 * ((x + 1) + (2 div (~x + 16)))))))
1: (1 + (2 * (if x <= 0 then 1 else (2 * (2x + ((x + ((1 - (x div 2)) mod 4)) div 4))))))
1: (1 + (2 * (if x <= 0 then 1 else (2 * (2x + ((x + (((x div 2) div 3) mod 2)) div 2))))))
1: (1 + (2 * (if x <= 0 then 1 else (2 * (2x + ((x + ((x div 3) mod 3)) div 3))))))
1: (1 + (2 * (if x <= 0 then 1 else (2 * (2x + ((x - (x div ~7)) div 2))))))
1: (1 + (2 * (if x <= 0 then 1 else (2 * (2x + ((x - (x div 12)) div 2))))))
1: (1 + (2 * (if x <= 0 then 1 else (2 * (2x + ((2 * (x + (if (~2 + (x div 4)) <= 0 then 1 else 2))) div 3))))))
1: (1 + (2 * (if x <= 0 then 1 else (2 * (2x + ((((x + 1) - (x div 4)) div 2) div 2))))))
1: (1 + (2 * (if x <= 0 then 1 else (2 * (2x + (x div (4 + ((x div 2) div 5))))))))
1: (1 + (2 * (if x <= 0 then 1 else (2 * (2x + (x mod 2))))))
1: (1 + (2 * (if x <= 0 then 1 else (2 * (4x + (if (~2 + (x div 2)) <= 0 then 0 else 1))))))
1: (1 + (2 * (if x <= 0 then 1 else (2 * (4x - ((1 + ((x - ((x div 4) mod 2)) div 2)) div 2))))))
1: (1 + (2 * (if x <= 0 then 1 else (2 * (4x - ((x + ((1 - (x div 2)) mod 4)) div 4))))))
1: (1 + (2 * (if x <= 0 then 1 else (2 * (4x - ((x + ((x div 2) mod 2)) div 2))))))
1: (1 + (2 * (if x <= 0 then 1 else (2 * (4x - ((x + ((x div 2) mod 4)) div 4))))))
1: (1 + (2 * (if x <= 0 then 1 else (2 * (4x - ((x + ((x div 3) mod 3)) div 3))))))
1: (1 + (2 * (if x <= 0 then 1 else (2 * (4x - ((x + 1) div 3))))))
1: (1 + (2 * (if x <= 0 then 1 else (2 * (4x - ((~x + 2) div 5))))))
1: (1 + (2 * (if x <= 0 then 1 else (2 * (4x - ((x - (x div ~7)) div 2))))))
1: (1 + (2 * (if x <= 0 then 1 else (2 * (4x - ((x - (x div 12)) div 2))))))
1: (1 + (2 * (if x <= 0 then 1 else (2 * (4x - ((((x + 1) - (x div 4)) div 2) div 2))))))
1: (1 + (2 * (if x <= 0 then 1 else (2 * (4x - (x div (4 + ((x div 2) div 5))))))))
1: (1 + (2 * (if x <= 0 then 1 else (2 * (2x - ((~x + ((x div 2) mod 4)) div 4))))))
1: (1 + (2 * (if x <= 0 then 1 else (2 * (2x - ((~x + ((x div 3) mod 3)) div 3))))))
1: (1 + (2 * (if x <= 0 then 1 else (2 * (2x - ((x div 2) mod 2))))))
1: (1 + (2 * (if x <= 0 then 1 else (2 * (x - ((~1 + (x div 2)) div 3))))))
1: (1 + (2 * (if x <= 0 then 1 else (2 * ((2 * (4x - (x div 7))) div 3)))))
1: (1 + (2 * (if x <= 0 then 1 else (2 * (x3 mod (1 + (3 * (2 - (x mod 2)))))))))
1: (1 + ((if x <= 0 then 1 else x2) * (1 + (x mod 2))))
1: (1 + ((x + 1) * (if x <= 0 then 1 else (x div 4))))
1: (x + (2 * (if x <= 0 then 1 else ((x mod (~1 + (x mod (~1 + ((~x + 1) div 2))))) mod 2))))
1: (1 + (2 * (if x <= 0 then 1 else x)))
1: ((2 * (if x <= 0 then 1 else x)) + ((x div 2) mod 2))
1: (1 + (4 * (if x <= 0 then 1 else x)))
1: (1 + ((x + 1) * (if x <= 0 then 1 else x)))
1: (((x + 1) * (if x <= 0 then 1 else x)) + (x mod 2))
1: (1 + ((x + 2) * (if x <= 0 then 1 else x)))
1: (((x + 2) * (if x <= 0 then 1 else x)) + (x mod 3))
1: (2 + ((x + ~1) * (if x <= 0 then 1 else x)))
1: (1 + (2 * (if x <= 0 then 2 else (2x3 + 2x2 + ~1))))
1: (1 + (2 * (if x <= 0 then 2 else (4x - (((x + ~1) mod (2 + (x div 2))) div 2)))))
1: (1 + (2 * (if x <= 0 then 2 else ((x + 1) - ((1 - (((x + 1) mod (1 + (2 * ((1 + (x div 4)) div 2)))) div 2)) mod 2)))))
1: (1 + (2 * (if x <= 0 then 2 else (6 * (2x + ((2 * (2 + loop(\(x,i).loop(\(x,i).((x + 1) * i),x,2),x,1))) div 3))))))
1: (1 + (2 * (if x <= 0 then 2 else x4)))
1: (1 + (2 * (if x <= 0 then 2 else (x * (x mod 3)))))
1: (1 + (9 * (if x <= 0 then 2 else (if (~4 + (x div 2)) <= 0 then 1 else 2))))
1: (1 + (2 * (if x <= 0 then 2 else loop(\(x,i).(2x2 + 4x),(x + ~1),1))))
1: (1 + (2 * (if x <= 0 then 2 else compr(\x.(1 - loop(\(x,i).(0 - (if (x mod (1 + i)) <= 0 then 0 else x)),(x div 2),x)),x))))
1: (1 + (2 * loop(\(x,i).(x + 5),(~1 + (x div 5)),x)))
1: (1 + (2 * loop(\(x,i).((x + 2) + ((4 + i) * i)),x,1)))
1: (1 + (3 * loop(\(x,i).((9x + 1) + ((x + 1) mod 3)),x,1)))
1: (1 + (2 * loop(\(x,i).((10x + 1) + (x mod 2)),(~x + 2),1)))
1: (1 + (x * loop(\(x,i).(3x2 + x + 1),2,2x)))
1: (1 + (2 * loop(\(x,i).(3 + ((x * (1 + (x div 2))) div 2)),x,1)))
1: (1 + (2 * loop(\(x,i).((x + 2) + ((x div 2) div 3)),(x + ~1),1)))
1: (1 + (2 * loop(\(x,i).((x + 3) + (x div 4)),x,1)))
1: (1 + (2 * loop(\(x,i).((x + 2) + (x div (6 + (x mod 2)))),x,0)))
1: (1 + (2 * loop(\(x,i).((x + 1) + (x div (1 + ((x * i) mod 7)))),x,1)))
1: (1 + (2 * loop(\(x,i).((x + 1) + ((x div (2 + (((x - (x div 4)) div 2) mod 2))) mod 2)),x,1)))
1: (1 + (2 * loop(\(x,i).((x + 1) + ((x mod (1 + (3 * (x mod 7)))) mod 2)),x,1)))
1: (1 + (2 * loop(\(x,i).(x + 3),(~1 + (x div 3)),x)))
1: (2 + (x * loop(\(x,i).(2x + i),(x + 1),2)))
1: (1 + (3 * loop(\(x,i).(2x + i),x,1)))
1: (1 + (loop(\(x,i).(3x + 2),x,0) * (1 + loop(\(x,i).2x,x,1))))
1: (1 + (2 * loop(\(x,i).(x + (2 * ((x + 4) + i))),x,0)))
1: (1 + (2 * loop(\(x,i).(2x2 + 2x + 5),(x div 2),(x mod 2))))
1: (1 + (x * loop(\(x,i).(4x2 + x + 1),2,2x)))
1: (1 + (2 * loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,x)))
1: (1 + ((2 * loop(\(x,i).(1 + (3 * (1 + (x div 2)))),(x div 2),(x mod 2))) + (x mod 2)))
1: (1 + (x * loop(\(x,i).(x + (2 * (2x + (x mod 2)))),(x + 1),x)))
1: (1 + (2 * loop(\(x,i).(1 + (3 * (loop(\(x,i).(3x + ~3),x,2) + loop(\(x,i).2x,x,2)))),1,(x + 1))))
1: (1 + (3 * loop(\(x,i).(x2 + x + 2),2,2)))
1: (1 + (x * loop(\(x,i).(x2 + 4x + 6),2,3)))
1: (2 + ((x + 1) * loop(\(x,i).(x2 + 2x + 1),2,4)))
1: (2 + ((x + 1) * loop(\(x,i).(x2 + 2x + 1),2,5)))
1: (2 + ((x + 1) * loop(\(x,i).(x2 + 2x + 1),2,7)))
1: (1 + ((x + 1) * loop(\(x,i).(x2 + 2x + 1),2,6)))
1: (1 + (x * loop(\(x,i).(1 + (x * (1 + i))),x,1)))
1: (1 + (x * loop(\(x,i).(1 + (x * (1 + i))),i,1)))
1: (1 + (x * loop(\(x,i).(1 + (x * (2 + i))),(x + ~2),0)))
1: (1 + ((x + 3) * loop(\(x,i).((x + 2) + ((2 + i) * i)),x,2)))
1: (1 + (x * loop(\(x,i).(3x2 + ~2x + 1),2,2x)))
1: (1 + (x * loop(\(x,i).(2x2 + ~x + 1),2,2x)))
1: (x + ((x + 1) * loop(\(x,i).(x3 + ~x + 1),2,2)))
1: (2 + ((x + ~1) * loop(\(x,i).(2 + (x * (~1 + i))),x,1)))
1: (1 + (x * loop(\(x,i).(10x + 1),x,0)))
1: (1 + (2 * loop(\(x,i).(x + (5 * (i * i))),x,x)))
1: (1 + (2 * loop(\(x,i).(x + (7 * (i * i))),x,x)))
1: (1 + ((x + ~1) * loop(\(x,i).(2x2 + 4x + 1),2,4)))
1: (1 + (2 * loop(\(x,i).(x + (2 * ((2 + i) * (~1 + i)))),x,0)))
1: (2 + ((x + 1) * loop(\(x,i).(4x2 + 12x + 9),2,1)))
1: (2 + ((x + 1) * loop(\(x,i).(4x2 + 12x + 9),2,3)))
1: (x + (x * loop(\(x,i).(8x + 1),i,1)))
1: (2 + (x * loop(\(x,i).(9x2 + 2),2,x)))
1: (x + (x * loop(\(x,i).(6x + 1),i,1)))
1: (2 + (5 * loop(\(x,i).(6x + 2),(x div 2),(x mod 2))))
1: (2 + (x * loop(\(x,i).(3x2 + x),2,2x)))
1: (((x + 1) * loop(\(x,i).(x3 + 1),2,2)) + (x div 2))
1: (1 + (2 * loop(\(x,i).(x + (2 * (i * i))),x,x)))
1: (1 + (x * loop(\(x,i).(1 + (x * (i * i))),x,2)))
1: (1 + (x * loop(\(x,i).(1 + ((x * (i * i)) + i)),x,1)))
1: (1 + (2 * loop(\(x,i).(1 + (2 * (x mod (1 + i)))),x,1)))
1: (1 + (x * loop(\(x,i).(1 + (x * (if (x + ~1) <= 0 then 1 else (x + ~1)))),i,1)))
1: (1 + (2 * loop(\(x,i).(2x + 1),1,loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,x))))
1: (1 + (x * loop(\(x,i).(2x + 1),(x + ~1),2)))
1: (2 + ((x2 + x + 2) * loop(\(x,i).(2x + 1),x,0)))
1: (1 + (3 * loop(\(x,i).(2x + 1),x,2)))
1: (1 + (5 * loop(\(x,i).(2x + 1),x,4)))
1: (1 + ((x + 2) * loop(\(x,i).(2x + 1),x,(x + 4))))
1: (1 + (2 * loop(\(x,i).(2x + 1),x,(1 + (2 div (if x <= 0 then 1 else x))))))
1: (1 + (x * loop(\(x,i).(x2 + 1),2,3)))
1: (1 + (2 * loop(\(x,i).(1 + (x * i)),4,2)))
1: (1 + (x * loop(\(x,i).(1 + (x * i)),(2x + ~1),1)))
1: (1 + (x * loop(\(x,i).(1 + (x * i)),x,0)))
1: (2 + ((2x + ~1) * loop(\(x,i).(1 + (x * i)),x,1)))
1: (1 + ((x + ~1) * loop(\(x,i).(1 + (x * i)),x,1)))
1: (x + (loop(\(x,i).(x + (i * i)),i,0) * i))
1: (1 + (2 * loop(\(x,i).(2 + (x div 2)),(~1 + (x div 2)),1)))
1: (x + (3 * loop(\(x,i).((x div 2) + i),4,x)))
1: (1 + (2 * loop(\(x,i).(x + ((x + ~2) mod 5)),x,1)))
1: (1 + (2 * loop(\(x,i).(1 + (x mod (1 + ((if (x mod 3) <= 0 then 0 else 2) * (1 + i))))),2,x)))
1: (x + (loop(\(x,i).(x + (if (x - i) <= 0 then x else 0)),x,1) * (x mod 2)))
1: (1 + (2 * loop(\(x,i).(1 + loop(\(x,i).(x - (if x <= 0 then 1 else loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,x))),x,x)),x,1)))
1: (3 + (2 * loop(\(x,i).(x + loop(\(x,i).x2,1,(2 + (i div 2)))),x,1)))
1: (4 + (2 * loop(\(x,i).(x + loop(\(x,i).x2,1,(2 + (i div 2)))),x,1)))
1: (5 + (2 * loop(\(x,i).(x + loop(\(x,i).x2,1,(2 + (i div 2)))),x,1)))
1: (1 + (2 * loop(\(x,i).(x + loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),i,i)),(x + ~1),0)))
1: (1 + (2 * loop(\(x,i).((x + 1) + loop(\(x,i).(5x mod 17),1,(2x + 2))),x,1)))
1: (3 + (2 * loop(\(x,i).(x + i),(((x + ~1) div 2) div 3),x)))
1: (1 + (5 * loop(\(x,i).(~x + 7),(x div 2),(x mod 2))))
1: (2 + (2 * loop(\(x,i).(2 - loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,(x + 2))),1,(x + 2))))
1: (1 + (x * loop(\(x,i).(~x + 2),x,(x + 3))))
1: (1 + (x * loop(\(x,i).(~3x2 + x + ~1),2,2x)))
1: (2 + (loop(\(x,i).(3x + ~2),(x + ~1),5) * loop(\(x,i).4x,x,2)))
1: (1 + (2 * loop(\(x,i).(3x + ~2),(x + ~1),x)))
1: (1 + (x * loop(\(x,i).(~4x2 + 4x + ~3),2,x)))
1: (1 + (x * loop(\(x,i).(x2 + ~x + ~1),(x + ~2),(x + ~1))))
1: (1 + (x * loop(\(x,i).(~6x2 + 2x + ~1),2,x)))
1: (1 + (x * loop(\(x,i).(6x2 + 12x + ~7),2,x)))
1: (1 + (x * loop(\(x,i).(4x2 + ~1),2,2x)))
1: (1 + (2 * loop(\(x,i).((4x * i) - (x mod 2)),x,1)))
1: (1 + (x * loop(\(x,i).(2x + ~1),(x + ~1),x)))
1: ((2 * loop(\(x,i).(2x + ~1),2x,8)) + (if x <= 0 then 0 else 1))
1: (1 + (2 * loop(\(x,i).(2x - (x mod 4)),2,2x)))
1: (1 + (2 * loop(\(x,i).(x2 + ~2),x,(2x + 2))))
1: (1 + (3 * loop(\(x,i).(~1 + (x * i)),x,3)))
1: ((x * loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),x,1)) + (2 * (x mod 2)))
1: (x + (2 * loop(\(x,i).(~x + (if (~x + i) <= 0 then i else 0)),2x,x)))
1: (2 + (5 * loop(\(x,i).(~2 + loop(\(x,i).x2,x,2)),x,1)))
1: (1 + (2 * loop(\(x,i).((x + 1) - ((~x + 1) div 3)),x,1)))
1: (1 + (x * loop(\(x,i).((x + 1) - (if x <= 0 then 2 else (2 * i))),x,x)))
1: (1 + (2 * loop(\(x,i).(x + (2 * (i * i)) - i),(x + ~1),x)))
1: (1 + (2 * loop(\(x,i).(5x + ~4),x,8)))
1: (1 + (x * loop(\(x,i).(6x2 + ~5x),2,x)))
1: (1 + (x * loop(\(x,i).(~2x2 + x),2,(x + ~2))))
1: (1 + (2 * loop(\(x,i).(x - ((if (~x + i) <= 0 then i else 0) div 2)),x,x)))
1: (1 + (2 * loop(\(x,i).(x - (x div (1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))),x,x)))
1: (1 + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (1 + (((x + ~1) div 2) div 3))))
1: (1 + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (2 + (x div 4))))
1: (1 + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (2 + (x div 5))))
1: (1 + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (1 + ((x + 1) mod 4))))
1: (1 + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (~1 + (((x + 1) div 2) div 2))))
1: (1 + (2 * (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (1 + (((x + 1) div 2) div 2)))))
1: (1 + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * ((x + 1) div 2)))
1: (x + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * ((x + 1) div 2)))
1: (1 + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (((x + 1) div 2) div 2)))
1: (1 + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (if (~2 + (x div 2)) <= 0 then 1 else 2)))
1: (1 + (2 * loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,(x + 1))))
1: (1 + (2 * loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x)))
1: (1 + (2 * loop(\(x,i).(x - (if x <= 0 then 1 else (if (x mod (1 + i)) <= 0 then 2 else 1))),x,x)))
1: (x + (3 * loop(\(x,i).(i - ((1 + i) mod (x + 1))),x,0)))
1: (1 + (2 * loop(\(x,i).(~x + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)),x,0)))
1: (x + ((x + 1) * loop(\(x,i).3x,(~1 + (2 * (2x div 3))),1)))
1: (1 + (2 * loop(\(x,i).3x,(~1 + ((x * (~1 + (x mod 3))) div 2)),1)))
1: (1 + (2 * loop(\(x,i).3x,(x + ~1),x)))
1: ((2 * loop(\(x,i).3x,(x + ~1),x)) + loop(\(x,i).2x,x,1))
1: (1 + (5 * loop(\(x,i).3x,2x,2)))
1: (1 + (5 * loop(\(x,i).3x,x,2)))
1: (1 + (x2 * loop(\(x,i).3x,x,x)))
1: (1 + (3 * loop(\(x,i).5x,x,2)))
1: (1 + (2 * loop(\(x,i).(2x + 10),x,3)))
1: (1 + (2 * loop(\(x,i).(2x + 6),(x + 1),2)))
1: (1 + (2 * loop(\(x,i).(2x + 6),x,1)))
1: (2 + ((x + 1) * loop(\(x,i).(x2 + 6x + 9),2,5)))
1: (1 + (x * loop(\(x,i).(2x + 8),(x + ~2),1)))
1: (1 + (2 * loop(\(x,i).(2x + 8),x,3)))
1: (2 + ((x + 1) * loop(\(x,i).(x2 + 8x + 16),2,5)))
1: (x + ((x + 1) * loop(\(x,i).((x + 2) * ((x + 2) + i)),2,4)))
1: (1 + (loop(\(x,i).7x,x,1) * (1 + (x div 5))))
1: (1 + (3 * loop(\(x,i).7x,x,2)))
1: (1 + (5 * loop(\(x,i).7x,x,2)))
1: (1 + (x * loop(\(x,i).(7 * i),(x + ~1),x)))
1: (1 + (3 * loop(\(x,i).(6x + 4),(x div 2),(x mod 2))))
1: (1 + (2 * loop(\(x,i).(2x + 16),x,1)))
1: (1 + (3 * loop(\(x,i).(2x + 16),x,13)))
1: (1 + (9 * loop(\(x,i).(10x + 2),(x div 2),(1 + (x mod 2)))))
1: (2 + (9 * loop(\(x,i).(10x + 2),(x div 2),(x mod 2))))
1: (1 + (2 * loop(\(x,i).(10x + 4),(x + 2),2)))
1: (1 + (3 * loop(\(x,i).(10x + 4),(x div 2),(x mod 2))))
1: (1 + (3 * loop(\(x,i).(10x + 4),x,loop(\(x,i).(10x + 1),x,1))))
1: (1 + (3 * loop(\(x,i).(10x + 4),x,loop(\(x,i).(10x + 10),x,0))))
1: (1 + (x * loop(\(x,i).(16x2 + 14x + 3),2,x)))
1: (1 + (3 * loop(\(x,i).(7x2 + 3x),2,x)))
1: (1 + (2 * loop(\(x,i).(3x2 + 16x + 16),2x,3)))
1: (1 + (x * loop(\(x,i).(5 * (2 + (x * (x + i)))),2,x)))
1: (1 + (x * loop(\(x,i).(6x2 + ~3x + 3),2,x)))
1: (2 + (x * loop(\(x,i).(9x2 + x),2,x)))
1: (1 + (2 * loop(\(x,i).(10x + 16),x,1)))
1: (1 + (5 * loop(\(x,i).(10x + 16),x,2)))
1: (1 + (x * loop(\(x,i).(x * (1 + (3x * (2 + i)))),2,x)))
1: (1 + (x * loop(\(x,i).(16x2 + 10x + 1),2,x)))
1: (1 + (x * loop(\(x,i).(8x + 2),2,2x)))
1: ((3 * loop(\(x,i).(8x + 2),(x div 2),(x mod 2))) + loop(\(x,i).(2x + 4),x,1))
1: (1 + (x * loop(\(x,i).(6x2 + 3),2,x)))
1: (1 + (x * loop(\(x,i).((2x2 + 1) * (2 + i)),2,x)))
1: (2 + ((x + 1) * loop(\(x,i).(4x + 2),(if x <= 0 then 2 else ~1),4x)))
1: (1 + (3 * loop(\(x,i).(10x + 5),(x + 1),2)))
1: (2 + ((x + 1) * loop(\(x,i).(2x2 + x),2,2)))
1: (2 + (x * loop(\(x,i).(2x2 + x),2,2)))
1: (1 + (x * loop(\(x,i).(2x2 + x),2,3x)))
1: (1 + (x * loop(\(x,i).(2x2 + 2),2,3x)))
1: (2 + (x * loop(\(x,i).(3x2 + 3),2,2x)))
1: (1 + (x * loop(\(x,i).(x3 + x),2,2)))
1: (2 + (x * loop(\(x,i).(2x2 + 8),2,2x)))
1: (1 + ((x + 1) * loop(\(x,i).(x * ((x2 + 1) + i)),2,2)))
1: (1 + ((x + 1) * loop(\(x,i).(x * (1 + (x * i))),x,1)))
1: (1 + (9 * loop(\(x,i).(2 * (1 + (x div 2))),x,7)))
1: (1 + (2 * loop(\(x,i).(3 * (2 + (x div 2))),x,0)))
1: (1 + (9 * loop(\(x,i).(2 * (2x + (x div 2))),x,1)))
1: (1 + (2 * loop(\(x,i).(x * (1 + ((~1 + loop(\(x,i).12x,(x + 1),1)) mod (x + 1)))),x,1)))
1: (1 + (2 * loop(\(x,i).((2x + 1) * (1 + (x mod 2))),x,(2 * (x mod 2)))))
1: ((x * loop(\(x,i).(x * (2 + (x mod 4))),x,1)) + loop(\(x,i).4x,x,1))
1: (2 + ((x + 1) * loop(\(x,i).((x + 1) * (x + (i mod 2))),3,2)))
1: (1 + (2 * loop(\(x,i).(2 * (x + loop(\(x,i).3x,i,1))),x,2)))
1: (1 + (2 * loop(\(x,i).(2 * (1 + loop(\(x,i).(2x * (2 + i)),4x,1))),x,1)))
1: (1 + (3 * loop(\(x,i).(2x + 2),(~1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)),1)))
1: (1 + (2 * loop(\(x,i).(2x + 2),(x div 2),(x mod 2))))
1: (1 + ((2x + 3) * loop(\(x,i).(2x + 2),x,0)))
1: ((x3 + x2 + ~x + ~1) + (loop(\(x,i).(2x + 2),x,2) * (if (x + ~1) <= 0 then 3 else 0)))
1: (1 + (3 * loop(\(x,i).(2x + 2),x,16)))
1: (1 + (3 * loop(\(x,i).(x2 + x),1,loop(\(x,i).3x,x,1))))
1: (1 + (3 * loop(\(x,i).(x2 + x),1,loop(\(x,i).10x,x2,1))))
1: (1 + (3 * loop(\(x,i).(x2 + x),1,loop(\(x,i).10x,x,1))))
1: (1 + (3 * loop(\(x,i).(x2 + x),1,loop(\(x,i).12x,x,2))))
1: (2 + (x * loop(\(x,i).(x2 + x),1,loop(\(x,i).x2,2,5))))
1: (1 + (x * loop(\(x,i).(x2 + x),2,2)))
1: ((x * loop(\(x,i).(x2 + x),2,2)) + (2 div (x + 1)))
1: (3 + ((2x + 1) * loop(\(x,i).(x2 + x),2,4)))
1: (1 + ((x2 + x + 1) * loop(\(x,i).(x2 + x),2,(x + 1))))
1: (2 + (x * loop(\(x,i).(x2 + x),2,5x)))
1: (2 + (x * loop(\(x,i).(x2 + x),2,4x)))
1: (1 + (5 * loop(\(x,i).(x2 + x),2,x)))
1: (1 + (2 * loop(\(x,i).(x2 + x),x,1)))
1: ((2 * loop(\(x,i).(x2 + x),x,1)) + (if x <= 0 then 1 else 0))
1: (1 + (loop(\(x,i).(x2 + x),x,1) * (2 + (x mod 2))))
1: (1 + (2 * loop(\(x,i).(x2 + x),x,3)))
1: (1 + ((2x + 1) * loop(\(x,i).((x + 1) * i),x,0)))
1: ((x2 + x) + (3 * loop(\(x,i).(2x + 4),(x + 1),2)))
1: (1 + (2 * loop(\(x,i).(2x + 4),(x div 2),(2 + (x mod 2)))))
1: (1 + (5 * loop(\(x,i).(2x + 4),x,3)))
1: (2 + ((x + 1) * loop(\(x,i).(x2 + 4x + 4),2,1)))
1: (2 + ((x + 1) * loop(\(x,i).(x2 + 4x + 4),2,2)))
1: (1 + ((x + 1) * loop(\(x,i).(x2 + 4x + 4),2,4)))
1: (2 + ((x + 1) * loop(\(x,i).(x2 + 4x + 4),2,5)))
1: (2 + ((x + 1) * loop(\(x,i).(x2 + 4x + 4),2,7)))
1: (1 + (2 * loop(\(x,i).(x2 + 2x),1,loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x))))
1: (3 + (2 * loop(\(x,i).(x2 + 2x),1,compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),(x + 1)))))
1: (1 + (x * loop(\(x,i).(x2 + 2x),2,2)))
1: (1 + (2 * loop(\(x,i).(x2 + 2x),(2x + 1),10)))
1: (1 + (x * loop(\(x,i).((x + 1) * (x + i)),2,2)))
1: (2 + ((x + 1) * loop(\(x,i).((x + 2) * (x + i)),2,2)))
1: (2 + ((x + 1) * loop(\(x,i).((x + 2) * (x + i)),2,3)))
1: (1 + ((x + 1) * loop(\(x,i).((x + 2) * (x + i)),2,5)))
1: (1 + (2 * loop(\(x,i).(x * (x + i)),2,x)))
1: (x + (2 * loop(\(x,i).(x * (x + i)),2,i)))
1: (x + (loop(\(x,i).~2x,i,i) * i))
1: (2 + (x * loop(\(x,i).~2x2,2,3x)))
1: (1 + (x * loop(\(x,i).(~10x2 + ~3x),2,x)))
1: (1 + (x * loop(\(x,i).(~6x2 + ~11x + 2),2,x)))
1: (1 + (x * loop(\(x,i).(~12x2 + 3),2,x)))
1: (1 + ((x + 1) * loop(\(x,i).(x * (1 - loop(\(x,i).3x,x,loop(\(x,i).(3x + ~6),x,0)))),x,1)))
1: (1 + (x * loop(\(x,i).(11x2 + 2x),2,x)))
1: (x + (2 * loop(\(x,i).(x * (2 - (x div (2 + i)))),x,2)))
1: (x + (3 * loop(\(x,i).(x * (2 - (x div (2 + i)))),x,2)))
1: (1 + (x * loop(\(x,i).(~x2 + 4x + ~4),2,2x)))
1: (1 + (2 * loop(\(x,i).(2x + ~44),x,1)))
1: (1 + (x * loop(\(x,i).(3x2 + ~2x),2,2x)))
1: (1 + (3 * loop(\(x,i).(x * (7 - i)),x,1)))
1: (1 + (3 * loop(\(x,i).11x,x,2)))
1: (1 + (x * loop(\(x,i).(10x2 + 2x + ~2),2,x)))
1: (1 + (x * loop(\(x,i).(x * (~1 + (2 * (4x + i)))),2,x)))
1: (1 + (x * loop(\(x,i).(5x2 + 10x + ~10),2,x)))
1: (1 + (x * loop(\(x,i).(4x2 + ~9x),2,x)))
1: (1 + (x * loop(\(x,i).(16x2 + 56x + 46),2,x)))
1: (1 + (x * loop(\(x,i).(8x2 + ~x),2,x)))
1: (2 + (x * loop(\(x,i).(8x2 + ~x),2,x)))
1: (1 + (x * loop(\(x,i).(x * (~1 + (4x * (1 + i)))),2,x)))
1: (1 + (x * loop(\(x,i).(6x2 + ~6x + ~3),2,x)))
1: (2 + (x * loop(\(x,i).(6x2 + ~2x),2,x)))
1: (1 + (x * loop(\(x,i).(8x2 + ~2),2,x)))
1: (1 + (x * loop(\(x,i).(2x2 + ~3x + 1),2,2x)))
1: (2 + (x * loop(\(x,i).(2x2 + ~3x + 1),2,2x)))
1: (1 + (x * loop(\(x,i).(2x2 + ~x),2,(~x + 2))))
1: (1 + (x * loop(\(x,i).(2x2 + ~x),2,3x)))
1: (1 + (x * loop(\(x,i).(2x2 + ~x),2,2x)))
1: (1 + (2 * loop(\(x,i).(2 * (2x - (x mod 8))),3,x)))
1: (1 + (x * loop(\(x,i).(2x2 + ~2),2,2)))
1: (2 + (x * loop(\(x,i).(3x2 + ~3),2,2x)))
1: (1 + (x * loop(\(x,i).(x * (~1 + (x * i))),2,3x)))
1: (1 + (3 * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).12x,x,2))))
1: (x + (x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).x2,i,2))))
1: (1 + (2 * loop(\(x,i).(x2 + ~x),1,compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (1 + (2 * loop(\(x,i).(2x + ~4),(x + ~2),x)))
1: (1 + (2 * loop(\(x,i).(2x + ~4),(x + ~5),x)))
1: (1 + (x * loop(\(x,i).(x2 + ~2x),1,loop(\(x,i).2x,x,2))))
1: (1 + (x * loop(\(x,i).(7x2 + ~2x),2,x)))
1: (1 + (loop(\(x,i).(2 * ((x + 1) - (2 * (i mod 2)))),x,1) * (1 + (4 * (x mod 2)))))
1: (2 + (x * loop(\(x,i).(7x2 + ~3x),2,x)))
1: (1 + (3 * loop(\(x,i).(10x + ~8),x,2)))
1: (1 + (x * loop(\(x,i).(5x2 + ~4x),2,x)))
1: (1 + (2 * loop(\(x,i).(10x + ~16),x,2)))
1: (1 + (5 * loop(\(x,i).(10x + ~16),x,2)))
1: (1 + (x * loop(\(x,i).(5x2 + ~8x),2,x)))
1: (1 + ((x + 1) * loop(\(x,i).(7x2 + x + ~6),2,2)))
1: (1 + (x * loop(\(x,i).~7x2,2,x)))
1: (1 + ((x + 1) * loop(\(x,i).(~2x3 + x2),2,2)))
1: (2 + (x * loop(\(x,i).(~8x2 + 2x),2,x)))
1: (1 + (x * loop(\(x,i).(x * (~x + i)),2,4x)))
1: (1 + (x * loop(\(x,i).(8x2 + ~4x + ~4),2,x)))
1: (2 + (x * loop(\(x,i).(8x2 + ~4x + ~4),2,x)))
1: (1 + (19 * loop(\(x,i).10x,x,1)))
1: (1 + (3 * loop(\(x,i).10x,x,2)))
1: (1 + (3 * loop(\(x,i).(6 * (3x + (x div 2))),(x + 1),1)))
1: (1 + (x * loop(\(x,i).(5x2 + 20x),2,x)))
1: (2 + (x * loop(\(x,i).((x2 + 4x) * (4 + i)),2,x)))
1: (1 + (2 * loop(\(x,i).(12x + 8),2,3)))
1: (1 + (x * loop(\(x,i).(15x2 + 10x),2,x)))
1: (1 + (x * loop(\(x,i).(4x2 + ~4x + 4),2,x)))
1: (2 + (x * loop(\(x,i).(4x2 + 2x),2,2x)))
1: (2 + (x * loop(\(x,i).(10x2 + 5x),2,x)))
1: (2 + ((x + 1) * loop(\(x,i).(4x3 + 4x2 + x),2,1)))
1: (2 + (x * loop(\(x,i).(6x2 + 6),2,x)))
1: (1 + (x * loop(\(x,i).(10x + 10),5,0)))
1: (1 + (x * loop(\(x,i).(5x2 + 5x),2,2x)))
1: (1 + (x * loop(\(x,i).(2x2 + 8x + 8),2,0)))
1: (1 + ((x + 1) * loop(\(x,i).(x3 + 4x2 + 4x),2,1)))
1: (2 + ((x + 1) * loop(\(x,i).(x3 + 4x2 + 4x),2,1)))
1: (1 + (x * loop(\(x,i).~10x2,2,x)))
1: (1 + (x * loop(\(x,i).(12x2 + ~6),2,x)))
1: (1 + (x * loop(\(x,i).(9x2 + ~18),2,x)))
1: (1 + (x * loop(\(x,i).(3x2 + ~12x),2,x)))
1: (1 + (x * loop(\(x,i).(5x * (x - i)),2,x)))
1: (1 + (x * loop(\(x,i).~9x2,2,x)))
1: (1 + (x * loop(\(x,i).(16x2 + ~8),2,x)))
1: (2 + (x * loop(\(x,i).(16x2 + ~8),2,x)))
1: (1 + ((x + 1) * loop(\(x,i).(2x5 + 8x4 + 10x3 + 4x2),2,3)))
1: (1 + (3 * loop(\(x,i).8x,x,2)))
1: (1 + (5 * loop(\(x,i).8x,x,2)))
1: (2 + (x2 * loop(\(x,i).(4x2 + 4x),2,2x)))
1: (2 + (x * loop(\(x,i).(4x2 + 4x),2,2x)))
1: (1 + (x * loop(\(x,i).10x2,2,x)))
1: (x + (x * loop(\(x,i).8x2,2,x)))
1: (2 + ((x + 1) * loop(\(x,i).(x4 + 4x3 + 4x2),2,1)))
1: (2 + (x * loop(\(x,i).(x4 + ~x3),1,4x)))
1: (1 + (x * loop(\(x,i).x5,1,3x)))
1: (1 + (2 * loop(\(x,i).x5,1,loop(\(x,i).(14x + 1),(x + 2),1))))
1: (1 + (2 * loop(\(x,i).(4 * (if (x mod 2) <= 0 then 12 else 1)),x,1)))
1: (1 + (2 * loop(\(x,i).(9 * (if x <= 0 then 1 else (2 + (x mod 2)))),(x div 2),(x mod 2))))
1: ((3 * loop(\(x,i).4x,(x + ~1),x)) + loop(\(x,i).3x,x,1))
1: (1 + (2 * loop(\(x,i).4x,(x + ~2),3)))
1: (1 + ((3x + 2) * loop(\(x,i).4x,((1 + loop(\(x,i).34x,2,(2x + 1))) mod (x + 1)),x)))
1: (1 + (3 * loop(\(x,i).4x,x,2)))
1: (1 + (5 * loop(\(x,i).4x,x,2)))
1: (1 + (5 * loop(\(x,i).6x,x,2)))
1: (1 + (x * loop(\(x,i).(2x2 + 2x),2,2)))
1: (1 + (x * loop(\(x,i).(2x2 + 2x),(2x + ~1),x)))
1: (1 + ((3x + 2) * loop(\(x,i).2x2,2,2)))
1: (1 + ((x + 1) * loop(\(x,i).2x2,2,2)))
1: (1 + ((x + 1) * loop(\(x,i).4x2,2,2)))
1: (1 + (x * loop(\(x,i).4x2,2,2x)))
1: (2 + (x * loop(\(x,i).4x2,2,2x)))
1: (1 + (x * loop(\(x,i).(x3 + x2),1,10)))
1: (2 + (x * loop(\(x,i).(x2 * (1 + i)),2,2x)))
1: (1 + (x * loop(\(x,i).(x2 * (2 + i)),2,2x)))
1: (2 + (x * loop(\(x,i).(x2 * (2 + i)),2,2x)))
1: (2 + (x * loop(\(x,i).x3,1,(x + 3))))
1: (1 + ((x + 1) * loop(\(x,i).x3,1,loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1))))
1: (1 + (x * loop(\(x,i).x3,2,2)))
1: (((x + 1) * loop(\(x,i).x3,2,(x + 1))) + (x * loop(\(x,i).x3,2,x)))
1: (3 + (x2 * loop(\(x,i).x3,2,x)))
1: (x + (loop(\(x,i).x3,2,i) * i * i))
1: (x + (loop(\(x,i).x3,2,i) * i))
1: ((x + 1) + (2 * loop(\(x,i).x3,x2,2)))
1: (x + (3 * loop(\(x,i).x3,x2,2)))
1: (1 + ((x + 1) * loop(\(x,i).(x2 * i),2,3)))
1: (1 + (x * loop(\(x,i).((x + 1) * ((x + 1) div 2)),i,(if x <= 0 then 1 else 2))))
1: (1 + (3 * loop(\(x,i).(2 * (loop(\(x,i).(32x + 1),(x + 1),1) div 2)),1,1)))
1: (1 + (3 * loop(\(x,i).(x * (if (~1 + i) <= 0 then 2 else x2)),x,2)))
1: (1 + (2 * loop(\(x,i).2x,(x + 4),x)))
1: (1 + (5 * loop(\(x,i).2x,(((x + ~1) div 2) - ((3 * (x div 4)) div 2)),1)))
1: (1 + (2 * loop(\(x,i).2x,(x + ~1),(~1 - ((x + loop(\(x,i).(3x + ~1),2x,1)) div 2)))))
1: (1 + (3 * loop(\(x,i).2x,(x + ~1),x)))
1: (x + (3 * loop(\(x,i).2x,(x + ~1),x)))
1: (1 + (5 * loop(\(x,i).2x,(x + ~1),x)))
1: (1 + (7 * loop(\(x,i).2x,(x + ~1),x)))
1: (1 + (9 * loop(\(x,i).2x,(x + ~1),x)))
1: (1 + ((x + 1) * loop(\(x,i).2x,(x + ~1),x)))
1: (x + (2 * loop(\(x,i).2x,(x + ~2),loop(\(x,i).(2x * i),x,2))))
1: (x + (loop(\(x,i).2x,(~1 + i),i) * i * i))
1: ((2 * loop(\(x,i).2x,(x div 2),(2 + (x mod 2)))) + loop(\(x,i).(2x + 2),x,0))
1: (1 + (loop(\(x,i).2x,(x div 3),1) * (x mod 2)))
1: (1 + (2 * loop(\(x,i).2x,(x div 4),1)))
1: (2 + (3 * loop(\(x,i).2x,x,2)))
1: (1 + ((x + 1) * loop(\(x,i).2x,x,(if x <= 0 then 1 else loop(\(x,i).((x2 + ~x) div 2),3,x)))))
1: (1 + (3 * loop(\(x,i).2x,x,x)))
1: (x + (loop(\(x,i).2x,i,i) * i * i))
1: (x + (loop(\(x,i).2x,i,i) * i))
1: (x + (x * loop(\(x,i).x2,1,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)))))
1: (1 + (3 * loop(\(x,i).x2,1,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))))
1: (2 + (2 * loop(\(x,i).x2,1,((2x + 4) - (2x div 3)))))
1: (1 + (2 * loop(\(x,i).x2,1,(25x + ~7))))
1: (1 + (x * loop(\(x,i).x2,1,(~1 + loop(\(x,i).(x * i),x,3)))))
1: (1 + (2 * loop(\(x,i).x2,1,(25x + ~18))))
1: (1 + (2 * loop(\(x,i).x2,1,loop(\(x,i).loop(\(x,i).(2x + i),x,(i * i * i)),x,1))))
1: (2 + ((x + 1) * loop(\(x,i).x2,2,3)))
1: (2 + ((x + 1) * loop(\(x,i).x2,2,4)))
1: (1 + (x * loop(\(x,i).x2,2,4)))
1: (2 + ((x + 1) * loop(\(x,i).x2,2,5)))
1: (1 + ((x + 1) * loop(\(x,i).x2,2,7)))
1: (2 + ((x + 1) * loop(\(x,i).x2,2,7)))
1: (1 + (3 * loop(\(x,i).x2,2,(x + 1))))
1: (1 + ((x + 1) * loop(\(x,i).x2,2,(x + 1))))
1: (x + (x * loop(\(x,i).x2,2,(1 + i))))
1: (1 + ((x + ~1) * loop(\(x,i).x2,2,(x + ~1))))
1: (1 + ((x + 1) * loop(\(x,i).x2,2,6)))
1: (1 + (x * loop(\(x,i).x2,2,10)))
1: (1 + (x * loop(\(x,i).x2,2,(10x + ~16))))
1: (1 + (x * loop(\(x,i).x2,2,20x)))
1: (2 + ((x + 1) * loop(\(x,i).x2,3,3)))
1: (1 + (2 * loop(\(x,i).x2,4,4)))
1: (9 + (x * loop(\(x,i).x2,4,x)))
1: (1 + ((x + 1) * loop(\(x,i).x2,(x2 + ~1),2)))
1: (1 + (x * loop(\(x,i).x2,(x2 + ~2),2)))
1: (1 + (x * loop(\(x,i).x2,(x + ~2),(x2 + 1))))
1: (1 + (x * loop(\(x,i).x2,(~1 + i),2)))
1: (1 + (2 * loop(\(x,i).x2,x,2)))
1: (2 + (x * loop(\(x,i).x2,i,x)))
1: (((x + 1) * loop(\(x,i).(x * i),(x + ~1),(x + 1))) + loop(\(x,i).(x * i),x,1))
1: ((x * loop(\(x,i).(x * i),(x + ~2),x)) + (if (x + ~1) <= 0 then 1 else 0))
1: (1 + (3 * loop(\(x,i).(x * i),x,2)))
1: (1 + (2 * loop(\(x,i).(i * i),(x + ~2),0)))
1: (1 + (2 * loop(\(x,i).(8 div (x + 1)),2,x)))
1: ((3 * loop(\(x,i).((x2 + x) div 2),1,loop(\(x,i).2x,x,1))) + loop(\(x,i).3x,x,1))
1: (1 + ((3x + 1) * loop(\(x,i).((x2 + x) div 2),x,2)))
1: (1 + (2 * loop(\(x,i).((x2 + x) div 2),x,loop(\(x,i).x3,(x + 1),2))))
1: (x + (2 * loop(\(x,i).((x2 + 2x) div 16),2,x)))
1: (1 + (x * loop(\(x,i).((x2 + ~x) div 2),2,x)))
1: (1 + ((x + ~1) * loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,x)))
1: (1 + (9 * loop(\(x,i).(x div (1 + (x mod 2))),x,x)))
1: (1 + (loop(\(x,i).(x div (2 - (x mod 2))),2,x) * (x div 3)))
1: (2 + (x * loop(\(x,i).(x div (2 - (x mod 2))),x,x)))
1: (1 + (3 * loop(\(x,i).((x + 2) mod (1 + i)),x,0)))
1: (1 + (2 * loop(\(x,i).(if (loop(\(x,i).x2,4,2) mod (x + 1)) <= 0 then x else (x + 1)),(x div 2),x)))
1: (1 + (2 * loop(\(x,i).(if x <= 0 then 1 else (x + (3 * (x + (i mod 2))))),x,0)))
1: (1 + (2 * loop(\(x,i).(if x <= 0 then 1 else (2 * (x - (if (~x + i) <= 0 then 1 else 0)))),x,0)))
1: (1 + (2 * loop(\(x,i).(if x <= 0 then 1 else (2x * ((x + ~1) + (3 * (1 + loop(\(x,i).loop(\(x,i).5x,x,1),(i - (x mod 3)),loop(\(x,i).5x,x,1))))))),x,0)))
1: (x + (3 * loop(\(x,i).(if x <= 0 then i else (x + ~1)),x,0)))
1: (1 + (2 * loop(\(x,i).(if x <= 0 then i else (x div 2)),x,0)))
1: (x + (3 * loop(\(x,i).(if x <= 0 then i else (x div 2)),x,0)))
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1: (1 + ((x + (if (x mod 2) <= 0 then (1 + (2 * ((x + 1) - (x div ~5)))) else ~2)) div 2))
1: (1 + ((x + (if (x mod 2) <= 0 then (x div 2) else 2)) div 4))
1: (1 + ((1 + (if (x mod 2) <= 0 then ((1 + (x div 2)) mod 4) else 1)) div 2))
1: (4 + ((x + (if (x mod 2) <= 0 then (x mod 5) else 1)) div 2))
1: (2 + ((x + (if (x mod 2) <= 0 then (x mod 8) else 1)) div 2))
1: (1 + ((x + (if (x mod 2) <= 0 then x else 1)) div 5))
1: (2 + ((x + (if (x mod 3) <= 0 then 2 else 1)) div 2))
1: (4x + ((x + (if (x mod 3) <= 0 then 2 else 1)) div 4))
1: (2x + ((x + (if (x mod 3) <= 0 then 2x else 1)) div 3))
1: (1 + (((if (x mod 4) <= 0 then 0 else (x div 4)) + (x div 2)) div 2))
1: (1 + ((2 + (if (x mod 4) <= 0 then x else (x div 2))) div 3))
1: (2 + ((x + (if (x mod (3 + (x div 2))) <= 0 then 2 else 1)) div 2))
1: (x + ((x + (if (x mod 7) <= 0 then 1 else 2)) div 2))
1: (x + ((x + (if (x mod 7) <= 0 then 2 else 1)) div 2))
1: (x + ((1 + (if (x mod 9) <= 0 then 0 else x)) div 2))
1: (x + ((x + (if (x mod (2 + (x div 2))) <= 0 then 2 else 1)) div 2))
1: (1 + ((1 + (if (x mod (2 + ((~x + 2) mod 5))) <= 0 then x else 0)) div 3))
1: (x + ((x + (if (x mod (1 + (x mod 4))) <= 0 then 2 else 1)) div 2))
1: (x + ((x + (if (i mod 2) <= 0 then 2 else x)) div 2))
1: (1 + ((1 + (if (if ((x + 2) mod (1 + ((x + ~1) mod 3))) <= 0 then 1 else 0) <= 0 then x else 0)) div 3))
1: (1 + ((1 + (if x <= 0 then 0 else (1 + ((2 * (1 + ((1 + (x div (1 + ((~1 + (if (x mod (3 + ((x div 2) div 3))) <= 0 then 1 else 0)) mod (x + 1))))) div 2))) div 3)))) div 2))
1: (1 + ((1 + (if x <= 0 then 0 else (1 + ((2 * (1 + ((1 + (x div (1 + (x mod (1 + (x div (2 + ((~2x + 1) mod (2 + (x div 4)))))))))) div 2))) div 3)))) div 2))
1: (1 + ((1 + (if x <= 0 then 0 else (1 + ((loop(\(x,i).(x - ((~x + (i mod 2)) div 2)),x,1) div 2) div 2)))) div 2))
1: (1 + ((1 + (if x <= 0 then 0 else (x + (loop(\(x,i).(x * i),x,1) div (x + 1))))) div 2))
1: (1 + ((1 + (if x <= 0 then 0 else (loop(\(x,i).(x * i),(x div 2),1) div (1 + (x mod 2))))) div 2))
1: (1 + ((x + (if x <= 0 then 1 else (2 + compr(\x.((1 + ((x + ((x div 2) div 3)) div 2)) mod 2),x)))) div 2))
1: (2 + ((x + (if x <= 0 then 1 else (x - ((x + 1) mod (2 * (1 + (if (x + ~4) <= 0 then 0 else 2))))))) div 2))
1: (1 + ((1 + (if x <= 0 then 1 else (2 * ((1 + (if (x mod 3) <= 0 then 0 else x)) div 3)))) div 2))
1: (3x + ((2 + (if x <= 0 then 1 else (x * (if (x mod 2) <= 0 then x else ((x2 + ~x) div 4))))) div 3))
1: (1 + ((1 + (if x <= 0 then 1 else ((x * loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)) div 2))) div 2))
1: (1 + ((2 + (if x <= 0 then 1 else ((loop(\(x,i).(~2x + 6),x,1) mod (x + 1)) div 2))) div 3))
1: (1 + ((1 + (if x <= 0 then 1 else (compr(\x.(loop(\(x,i).(~2x + 2),x,2) mod (x + 2)),x) mod (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x))))) div 2))
1: (1 + ((x + (if x <= 0 then 2 else (loop(\(x,i).(x * (~2 + (i mod 2))),x,1) - loop(\(x,i).2x,x,1)))) div 2))
1: (1 + ((2 + (if x <= 0 then 2 else ((x + (x2 div 4)) div 2))) div 3))
1: (1 + ((1 + loop(\(x,i).((x + 1) + (2 * ((x + (x div 2)) div 4))),((x + 1) div 2),1)) div 2))
1: (x + ((x + loop(\(x,i).((x + 1) + ((x * (4 + i)) div (x + 3))),x,1)) div 2))
1: (1 + ((x + loop(\(x,i).((x + 2) + (2x div 5)),x,2)) div 2))
1: (1 + ((1 + loop(\(x,i).(2x + ((i * i) div (x + 2))),x,1)) div 2))
1: (1 + ((1 + loop(\(x,i).((x + 2) + (x div 2)),(x div 2),(x mod 2))) div 2))
1: (1 + ((x + loop(\(x,i).((x + 2) + (x div 2)),x,0)) div (x + 1)))
1: (2 + ((1 + loop(\(x,i).((x + 2) + (x div 4)),x,2)) div 3))
1: (1 + ((x + loop(\(x,i).((x + 1) + (x div 5)),(x + ~2),1)) div 3))
1: (1 + ((1 + loop(\(x,i).((x + 2) + (x div (1 + (x mod 2)))),(x div 2),(x mod 2))) div 2))
1: (1 + ((loop(\(x,i).((x + 2) + (x div (2 + (i mod 2)))),x,2) + loop(\(x,i).2x,x,1)) div 2))
1: (2 + ((2 + loop(\(x,i).((x + 2) + (x div 8)),x,2)) div 3))
1: (2 + ((2 + loop(\(x,i).(5x + 1),x,1)) div 2))
1: (1 + ((x + loop(\(x,i).(x + ((2 + (i mod 2)) * i)),x,1)) div 2))
1: (1 + ((1 + loop(\(x,i).(x + (i * i)),(x + ~1),x)) div 2))
1: (x + ((x + loop(\(x,i).(x + ((x - (x div 4)) div 2)),2,x)) div 2))
1: (1 + ((x + loop(\(x,i).(1 + ((x * (x + i)) div 8)),2,x)) div 3))
1: (x + ((1 + loop(\(x,i).(x + (2x div 7)),2,(if x <= 0 then 1 else 4x))) div 2))
1: (1 + ((1 + loop(\(x,i).((x2 div 2) + i),x,0)) div 2))
1: (x + ((x + loop(\(x,i).(x + ((i * i) div (x + 1))),x,2)) div 2))
1: (2 + ((x + loop(\(x,i).(1 + (((x2 + x) div 5) div 3)),2,x)) div 2))
1: (1 + ((x + loop(\(x,i).(x + (x div 3)),2,(x + ~1))) div 2))
1: (1 + ((1 + loop(\(x,i).((x mod (1 + i)) + i),x,1)) div 2))
1: (1 + ((1 + loop(\(x,i).(x + (if x <= 0 then 1 else ((x * (x mod 2)) + (x div 2)))),x,0)) div (x + 1)))
1: (1 + ((1 + loop(\(x,i).(x + (if x <= 0 then 1 else loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,x))),2,x)) div 2))
1: (1 + ((1 + loop(\(x,i).(1 + loop(\(x,i).(1 + (x2 * i)),x,2)),x,0)) div 2))
1: (1 + ((1 + loop(\(x,i).(2x + loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),i,1)),x,1)) div 2))
1: (1 + ((x + loop(\(x,i).(loop(\(x,i).(x * (2 + i)),i,1) + (x * (i * i))),x,1)) div 2))
1: (2 + ((1 + loop(\(x,i).(x + loop(\(x,i).(x * i),(2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),i)),1)),x,2)) div 3))
1: (x + ((x2 + loop(\(x,i).(x + i),x4,1)) div 2))
1: (1 + ((x + loop(\(x,i).(1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)),(x + ~1),1)) div 2))
1: (x + ((x + loop(\(x,i).(1 - (x2 div (x - ((~x + 2) div 2)))),2,x)) div 2))
1: (x + ((x + loop(\(x,i).((~x + 2) + (3 * ((2 + (x div 2)) div 3))),2,x)) div 2))
1: (1 + ((x + loop(\(x,i).((x + 1) + (2 * i) - ((x + ~1) div 5)),x,1)) div 2))
1: (1 + ((x + loop(\(x,i).(x + i - (2x div (2 + (x div 2)))),x,1)) div 2))
1: (1 + ((x + loop(\(x,i).(x + i - (x div 11)),x,1)) div 2))
1: (1 + ((x + loop(\(x,i).(3x + ~1),2x,1)) div 2))
1: (1 + (((x2 + x) + loop(\(x,i).(3x + ~1),x,2)) div 2))
1: (1 + ((x + loop(\(x,i).(x2 + ~1),2,(x + 2))) div 2))
1: (1 + ((x + loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),(x + ~2),1)) div 3))
1: (1 + ((x + loop(\(x,i).((x + 1) - (((~x + ~1) + (2 * (x mod 2))) div 5)),x,1)) div 2))
1: (1 + ((1 + loop(\(x,i).((x + 1) - (((2x + 2) mod (2 + (x div 2))) div 2)),x,x)) div 2))
1: (1 + ((1 + loop(\(x,i).(x - ((2 - (x mod 2)) * (x div 3))),2,x)) div 2))
1: (2 + ((2 + loop(\(x,i).(x - (3 * (x div (~2 + (x mod ~2))))),x,1)) div 2))
1: (2 + ((x + loop(\(x,i).(x - (((~x + ~1) + (x mod 2)) div 5)),x,1)) div 2))
1: (1 + ((1 + loop(\(x,i).(x - (x div ~3)),x,1)) div 2))
1: (1 + ((1 + loop(\(x,i).(x - (x div ~3)),x,1)) div 3))
1: (2 + ((x + loop(\(x,i).(x - (x div ~4)),x,2)) div 2))
1: (2 + ((loop(\(x,i).(x - (x div (~2 + (x mod 2)))),x,2) + loop(\(x,i).2x,x,1)) div 2))
1: (1 + ((1 + loop(\(x,i).(x - (x div (~2 + (x mod ~2)))),x,1)) div 2))
1: (2 + ((2 + loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)) div 3))
1: (2 + ((x + loop(\(x,i).3x,((x div ~4) div ~2),1)) div 2))
1: (x + ((2 + loop(\(x,i).5x,(x + ~1),x)) div (x + 2)))
1: (x + ((x + loop(\(x,i).(x2 + 3x),(x + ~1),1)) div (x + 1)))
1: (1 + ((loop(\(x,i).7x,x,1) + loop(\(x,i).6x,x,1)) div loop(\(x,i).5x,x,1)))
1: (1 + ((x + loop(\(x,i).(2 * (2 + (x div 3))),(~1 + (2x mod (4 + (x div 4)))),1)) div 2))
1: (1 + ((x + loop(\(x,i).(2 * (2x + (i mod 2))),(x + ~1),1)) div 3))
1: (2 + ((1 + loop(\(x,i).(x * (1 + (if (i mod 2) <= 0 then 4 else 1))),x,1)) div 3))
1: (2 + ((x + loop(\(x,i).(2x + 2),(((x + 1) div 2) div 3),1)) div 3))
1: (1 + ((1 + loop(\(x,i).(x2 + x),1,(1 + (x div 2) - (2 * (x mod 2))))) div 3))
1: (1 + ((loop(\(x,i).(x2 + x),1,loop(\(x,i).2x,x,1)) + loop(\(x,i).3x,x,1)) div 2))
1: (1 + ((1 + loop(\(x,i).(2x + 4),(x div 2),(x mod 2))) div 3))
1: (x + ((x + loop(\(x,i).((1 + i) * i),(x div 2),2)) div 2))
1: (1 + ((1 + loop(\(x,i).((x + 1) * (x + i)),2,x)) div (x + 1)))
1: (1 + ((loop(\(x,i).~3x,x,2) + loop(\(x,i).4x,x,1)) div 3))
1: (2 + ((1 + loop(\(x,i).11x,x,3)) div (x + 1)))
1: (1 + ((x + loop(\(x,i).(x2 + ~x),1,(2 - ((~x + 2) div (2 + (x div 2)))))) div 3))
1: (1 + ((1 + loop(\(x,i).(2 * (x - (2 * (~1 + (x mod 3))))),x,1)) div 3))
1: (1 + ((x + loop(\(x,i).(3 * (x - (i div ~2))),x,0)) div 2))
1: (1 + ((1 + loop(\(x,i).(x * ((1 + (4 * i)) * i)),x,1)) div 2))
1: (((loop(\(x,i).(10x + 10),(2x + 1),0) + loop(\(x,i).10x,x,2)) div 2) + loop(\(x,i).10x,x,2))
1: (x + ((1 + loop(\(x,i).((2x + ~1) * ((2 + i) * i)),x,1)) div 2))
1: (x + ((1 + loop(\(x,i).10x2,x,2)) div 3))
1: (x + ((x + loop(\(x,i).x3,2,x)) div 2))
1: (1 + ((loop(\(x,i).(2x * i),(x div 2),1) + loop(\(x,i).(x * i),x,1)) div 2))
1: (1 + ((x + loop(\(x,i).((x + 1) * (i * i)),(x + ~1),1)) div 2))
1: (x + ((1 + loop(\(x,i).((x + 1) * ((x2 + 3x + 2) div 2)),1,(x2 + 2x + 1))) div (x + 1)))
1: (1 + ((1 + loop(\(x,i).2x,(1 + (2 * (2x mod 5))),(x div 2))) div 3))
1: (1 + ((2 + loop(\(x,i).2x,(0 - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)),1)) div 3))
1: (1 + ((1 + loop(\(x,i).2x,(~1 + (2 * (x - (3 * (if x <= 0 then 0 else 2))))),1)) div 3))
1: (1 + ((x + loop(\(x,i).2x,(~1 + (((x + ~1) div 2) div 2)),x)) div 2))
1: (x + ((x + loop(\(x,i).2x,(~2 + (x div 3)),x)) div 2))
1: (x + ((2 + loop(\(x,i).2x,(x + ~1),1)) div (x + 1)))
1: (1 + ((x + loop(\(x,i).2x,(x + ~1),((x div 2) - ((x + ~1) div 3)))) div 3))
1: (1 + ((loop(\(x,i).2x,(x + ~2),x) + ((x + ~1) * (if x <= 0 then 1 else x))) div 2))
1: (1 + ((2x + loop(\(x,i).2x,((x + (x div 3)) div 5),1)) div 2))
1: (1 + ((loop(\(x,i).2x,(x div 2),1) + (x div 2)) div (x + 1)))
1: (1 + ((loop(\(x,i).2x,(x div 2),(2 + (x mod 2))) + loop(\(x,i).2x,x,1)) div 2))
1: (1 + ((x + loop(\(x,i).2x,(x div 2),((x + ~1) div 2))) div 3))
1: (1 + ((1 + loop(\(x,i).2x,x,1)) div (x + 2)))
1: (((2 + loop(\(x,i).2x,x,1)) div 5) + (x mod 2))
1: (1 + ((x + loop(\(x,i).2x,x,1)) div 5))
1: (1 + ((1 + loop(\(x,i).2x,x,(1 + (x * (~1 + loop(\(x,i).(x * i),2x,1)))))) div 3))
1: (1 + ((1 + loop(\(x,i).2x,x,(if ((x + 1) mod (2 + ((~x + 2) mod 5))) <= 0 then 2 else 0))) div 3))
1: (1 + ((1 + loop(\(x,i).2x,x,(if x <= 0 then 1 else (2 * (1 + ((1 + ((loop(\(x,i).2x,x,(~x3 + loop(\(x,i).5x,(x + 1),1))) div 2) div 2)) div 2)))))) div 3))
1: (1 + ((1 + loop(\(x,i).x2,1,loop(\(x,i).(x + loop(\(x,i).loop(\(x,i).(x * (i * i)),i,x),i,1)),x,1))) div 2))
1: (8 + ((x + loop(\(x,i).x2,x,2)) div 2))
1: (1 + ((x + loop(\(x,i).(x * i),(x + ~1),1)) div 2))
1: (1 + ((x + loop(\(x,i).((x + (x2 div 3)) div 2),2,x)) div (x + 1)))
1: (x + ((x + loop(\(x,i).((x2 + ~x) div 4),2,(x + ~2))) div (x + 1)))
1: (2 + ((1 + loop(\(x,i).(24 div (x + 1)),2,(x + 1))) div 2))
1: (1 + ((x + loop(\(x,i).(x2 div 2),(x + ~2),loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1))) div 3))
1: (1 + ((1 + loop(\(x,i).(loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2),2,(x + 1))) div 2))
1: (1 + ((2 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 5))
1: (1 + ((1 + loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 6 else 0))),2,x)) div 2))
1: (1 + ((1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,(2x + 1))) div 2))
1: (1 + ((1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),x,2x)) div 3))
1: (1 + ((1 + loop(\(x,i).(x div (2 - ((x - (x div 8)) mod 2))),x,x)) div 2))
1: (1 + ((loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) + loop(\(x,i).2x,x,2)) div 2))
1: (1 + ((1 + loop(\(x,i).(x div (2 - (x mod 2))),x,((x + 1) div 2))) div 3))
1: (1 + ((2 + loop(\(x,i).(x div (2 - (x mod 2))),x,(x div (1 + (if (x mod 3) <= 0 then 2 else 0))))) div 3))
1: (1 + ((1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)) div 3))
1: (1 + ((1 + loop(\(x,i).((2 - (2x mod (4 + (x div 4)))) mod (x + 1)),3,x)) div 3))
1: (1 + ((x + loop(\(x,i).((x + ~1) mod (1 + (2 * i))),(x + ~1),1)) div 2))
1: (1 + ((1 + loop(\(x,i).(if (x + ~2) <= 0 then i else 2x),x,1)) div 2))
1: (1 + ((1 + loop(\(x,i).(if (x mod 2) <= 0 then (~4x + 9) else (x div 2)),x,0)) div 2))
1: (1 + ((2 + loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),x)) div 3))
1: (1 + ((1 + loop(\(x,i).loop(\(x,i).3x,((x + ~1) div 2),1),(x mod 2),(x div 2))) div 3))
1: (((x + 1) div 2) + (x mod 3))
1: (((x + 1) div 2) + i)
1: ((2x + 2) + ((x + 1) div 5))
1: (2x + ((x + 1) div 5))
1: (1 + ((x + 1) div (1 + ((4 * (x mod 2)) + (x mod 3)))))
1: (1 + ((x + 1) div (1 + (((1 + (x div 2)) div 3) + (x mod 3)))))
1: (1 + ((x + 1) div (3 + (x div 3))))
1: (1 + ((x + 1) div (1 + ((x div 5) + (x mod 3)))))
1: (1 + ((x + 1) div (1 + ((x div (2 + (x mod (1 + ((x + 1) div (1 + (((2x div (1 + (x div 4))) mod 2) + (x mod 2)))))))) + (x mod 2)))))
1: (1 + ((x + 1) div (3 + (x div (2 + (x mod 6))))))
1: (1 + ((x + 1) div (3 + (x div (3 * ((1 + (x div 8)) * (1 + (x mod 2))))))))
1: (2 + ((x + 1) div (1 + (((1 + (x mod ((1 + (x mod (1 + (x div 4)))) * (1 + (x mod 2))))) mod (x + 1)) + (x mod 2)))))
1: (1 + ((x + 1) div (2 + (((~x + 2) mod 5) + (x div 3)))))
1: (1 + ((x + 1) div (4 + ((~3x + 5) mod (1 + (x div 2))))))
1: (1 + ((x + 1) div (4 + ((2 * (1 + (x3 mod 11))) mod (x + 1)))))
1: (1 + ((x + 1) div (2 + ((2x mod 3) + (x mod 2)))))
1: (1 + ((x + 1) div (4 + (((x2 + x) div 2) mod 5))))
1: (2 + ((x + 1) div (3 + (x mod 3))))
1: (1 + ((x + 1) div (2 + (x mod (1 + (2x mod 3))))))
1: (1 + ((x + 1) div (2 - (x div ~12))))
1: (1 + ((x + 1) div (4 - (x div 4))))
1: (1 + ((x + 1) div (4 - ((x mod 5) mod 2))))
1: (1 + ((x + 1) div (1 + (x div 2) - ((3 * (x div (4 - ((x * (x div 2)) mod 2)))) div 2))))
1: (2 + ((x + 1) div 7))
1: ((3x + 3) + ((x + 1) div 7))
1: (((x + 1) div 7) + ((2 * (x div 2)) div 3))
1: (((x + 1) div 7) + (x div 3))
1: (((x + 1) div 7) + (if (~x + 4) <= 0 then 2 else 1))
1: (x + ((x + 1) div 7))
1: (1 + ((x + 1) div (1 + (2 * (1 + (((((x + 1) div 2) div 2) div 2) + (x mod 2)))))))
1: (((x + 1) div (1 + (2 * (3 - (x mod 2))))) + (x mod 2))
1: (1 + ((x + 1) div (1 + (2 * (1 + (((2x + 1) mod (2 + (x div (2 + (x mod 2))))) div 2))))))
1: (1 + ((x + 1) div (1 + (2 * (1 + (x div (2 + ((~2x + 2) mod 5))))))))
1: (1 + ((x + 1) div (1 + (2 * (1 + ((x + 1) mod (1 + (x div (3 + (x mod 2))))))))))
1: (1 + ((x + 1) div (1 + (2 * (2 + (2x mod (1 + (x mod 4))))))))
1: (1 + ((x + 1) div (1 + (2 * (1 + (x mod (1 + (2 * (x div 5)))))))))
1: (1 + ((x + 1) div (1 + (2 * (1 + (x mod (2 + ((2x + 1) mod (3 + (x div 4))))))))))
1: (1 + ((x + 1) div (1 + (2 * (1 + (if (x mod 3) <= 0 then 0 else (1 + (2 * ((~1 + (x2 div 2)) mod (~1 + ((~2x + 2) mod (4 + (x div 4)))))))))))))
1: (1 + ((x + 1) div (1 + (2 * (2 - ((x mod 3) div 2))))))
1: (2 + ((x + 1) div (1 + (2 * (2 - (x mod 2))))))
1: (1 + ((x + 1) div (1 + (2 * ((2 * (1 + (x div 5))) div (1 + (if (2x mod (4 + (x div 4))) <= 0 then 2 else 0)))))))
1: (2 + ((x + 1) div (1 + (2 * ((3 * (x div 5)) div 2)))))
1: (1 + ((x + 1) div (1 + (2 * (((1 + (2 * (1 + (if x <= 0 then 0 else (1 + (((x + 1) div (2 + (x mod 2))) div 2)))))) mod (x + 1)) div 2)))))
1: (2 + ((x + 1) div (1 + (2 * ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 2)))))
1: (1 + ((x + 1) div (1 + (2 * ((x + 1) mod (1 + ((1 + (x div 4)) div 2)))))))
1: (2 + ((x + 1) div (1 + (2 * (x mod 5)))))
1: (1 + ((x + 1) div (1 + (3 * (if (~2 + (x div 2)) <= 0 then 0 else 2)))))
1: (1 + ((x + 1) div (1 + (2 * (if ((x + 1) mod 5) <= 0 then 0 else 2)))))
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1: (x + ((3 * (if x <= 0 then 1 else (3 * (x + ((x div 2) div 3))))) div (x + 1)))
1: (1 + (((x + 1) * (if x <= 0 then 1 else (2 * (1 + (~x2 mod 6))))) div 3))
1: (1 + (((x + 1) * (if x <= 0 then 1 else (2 * ((if ((x + 1) mod (1 + (x div 4))) <= 0 then 1 else 2) + ((x mod 3) div 2))))) div 2))
1: (1 + (((x + 1) * (if x <= 0 then 1 else (2 * ((x mod (1 + (x div 2))) div 2)))) div 5))
1: (1 + ((2 * (if x <= 0 then 1 else (2 * (x mod (~1 + (2 * (x div 4))))))) div 3))
1: (x + (((x + ~2) * (if x <= 0 then 1 else x2)) div 2))
1: (((4 * (if x <= 0 then 1 else x)) div (x + 4)) + ((x + 1) div 2))
1: (1 + (((x + ~1) * (if x <= 0 then 2 else (x * (x div 2)))) div 2))
1: (1 + (((x + 1) * loop(\(x,i).((x + 2) + ((x div 2) div 3)),x,1)) div 2))
1: (1 + ((3 * loop(\(x,i).((x + 1) + (x div (1 + (i mod 3)))),x,1)) div 2))
1: (1 + (((x + ~1) * loop(\(x,i).(3x + (i div 2)),x,0)) div 2))
1: (2 + ((2 * loop(\(x,i).((x + 2) + (((2x + ~1) div (2 + (x div 4))) mod 2)),x,1)) div 3))
1: (1 + (((x + ~1) * loop(\(x,i).(1 + (x2 div 2) - (x mod 2)),1,(x + ~1))) div 3))
1: (1 + ((2 * loop(\(x,i).(3x + 4),x,(x + 2))) div 3))
1: (1 + (((x + ~1) * loop(\(x,i).(1 + (x * (1 + i))),x,2)) div 2))
1: (x + ((5 * loop(\(x,i).(x + ((2 + i) * i)),x,1)) div 2))
1: (1 + ((x * loop(\(x,i).(10x + 1),x,1)) div 2))
1: (1 + (((x + 1) * loop(\(x,i).(2x + 1),x,loop(\(x,i).2x,x,1))) div 3))
1: (1 + ((2 * loop(\(x,i).(1 + (loop(\(x,i).(x * (2 + i)),compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x),1) div 3)),1,(x + 1))) div 3))
1: (1 + (((x + 1) * loop(\(x,i).(x + (x div 5)),x,5)) div 2))
1: (1 + ((2 * loop(\(x,i).(2x + (i mod 2)),x,2x)) div 3))
1: (1 + ((2 * loop(\(x,i).(x + (if (x - i) <= 0 then x else 0)),x,1)) div 3))
1: (1 + ((5 * loop(\(x,i).(x + loop(\(x,i).3x,(~1 + i),x)),x,1)) div 2))
1: (2 + (((x + 1) * loop(\(x,i).(x + loop(\(x,i).(x * i),i,1)),(x + ~1),1)) div 2))
1: (1 + ((x * loop(\(x,i).(3x + ~1),(x + 1),2)) div 2))
1: (1 + (((x + ~1) * loop(\(x,i).(2x - (i mod 2)),x,1)) div 2))
1: (1 + ((2 * loop(\(x,i).(x - (if (~x + i) <= 0 then (1 + i) else 0)),x,x)) div 3))
1: (1 + (((x + 1) * loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)) div 2))
1: (1 + (((x + ~1) * loop(\(x,i).5x,(x + ~2),x)) div 2))
1: (1 + ((x * loop(\(x,i).(2 * ((x + 1) + (x div 2))),x,1)) div 2))
1: (1 + ((x * loop(\(x,i).(6x + 4),2x,1)) div 2))
1: (1 + (((x + 1) * loop(\(x,i).(x * (1 + (6 * i))),3,x)) div 2))
1: (2 + ((x * loop(\(x,i).((x + 1) * (x + loop(\(x,i).(x * i),i,1))),x,1)) div 2))
1: (1 + (((x + 1) * loop(\(x,i).(x * (x + loop(\(x,i).loop(\(x,i).loop(\(x,i).x2,1,loop(\(x,i).((2 * (x - (2x * i))) div (1 + i)),x,1)),1,(x + ~1)),1,i))),x,1)) div 2))
1: (x + ((x * loop(\(x,i).(x2 + x),2,2)) div (1 + i)))
1: (x + ((x * loop(\(x,i).((x + 1) * i),x,0)) div 3))
1: (x + ((x * loop(\(x,i).(x2 + 2x),2,2)) div (if i <= 0 then 1 else i)))
1: (x + ((x * loop(\(x,i).(2x2 + ~2),2,2)) div (1 + i)))
1: (x + ((x * loop(\(x,i).(2x2 + ~2),2,2)) div (if i <= 0 then 1 else i)))
1: (x + ((x * loop(\(x,i).(2x + ~2),(x + ~1),x)) div 3))
1: (1 + ((x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).2x,i,2))) div 2))
1: (6 + (((x + 2) * loop(\(x,i).4x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),2)) div 3))
1: ((((x + ~1) * loop(\(x,i).4x,(x + ~2),x)) div 2) + loop(\(x,i).4x,x,1))
1: (1 + (((x + 1) * loop(\(x,i).(x3 + 2x2),2,2)) div 2))
1: (x4 + ((x * loop(\(x,i).x3,1,(~x + (x div (2 - (x mod 2)))))) div 2))
1: (1 + ((x2 * loop(\(x,i).x3,2,x)) div (x + 1)))
1: (1 + ((x * loop(\(x,i).x3,(x + 1),(x + 1))) div 2))
1: (2 + (((x + 1) * loop(\(x,i).(x * (i * i)),(2x + ~1),1)) div 2))
1: (1 + (((x + 1) * loop(\(x,i).2x,(x + ~1),(~1 + (if x <= 0 then 2 else ((x2 + 5x) div 2))))) div 2))
1: (1 + (((x + 1) * loop(\(x,i).2x,(x + ~1),loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))) div 3))
1: (1 + (((x + 1) * loop(\(x,i).2x,(x + ~1),x)) div 2))
1: (1 + ((2 * loop(\(x,i).x2,1,(1 + (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))))) div 3))
1: (1 + ((2 * loop(\(x,i).x2,1,(1 + (x mod (1 + ((4 + (x div 2)) mod (1 + (x div 3)))))))) div 3))
1: (1 + ((2 * loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x)))) div 3))
1: (x + ((x * loop(\(x,i).x2,2,3)) div (1 + i)))
1: (x + ((x * loop(\(x,i).x2,2,3)) div (if i <= 0 then 1 else i)))
1: (1 + ((x2 * loop(\(x,i).x2,2,x3)) div (x2 + 1)))
1: (1 + ((x * loop(\(x,i).x2,2,x3)) div (x + 1)))
1: (1 + (((x + ~1) * loop(\(x,i).(x * i),(x + ~1),(x + 1))) div 2))
1: (2 + ((x * loop(\(x,i).((x2 + ~x) div 2),2,(x + ~2))) div 15))
1: (x + ((x * loop(\(x,i).((x2 + ~x) div 2),3,(x + ~2))) div (x + 3)))
1: (1 + (((x + 2) * loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x + 2),(x + 1))) div (x + 5)))
1: (1 + (((x + 1) * loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),(2x + ~1),1)) div 2))
1: (1 + ((loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),(x + ~2),x) * ((x + ~1) div 2)) div 2))
1: (1 + ((2 * loop(\(x,i).(x div (2 - (x mod 2))),2,x)) div 5))
1: (1 + ((2 * loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 5))
1: (x + ((2 * loop(\(x,i).(if (~x + i) <= 0 then x else 2x),x,1)) div 3))
1: (1 + ((x * loop(\(x,i).(if x <= 0 then 1 else (2 * (1 + ((1 + (((1 + loop(\(x,i).(x * i),(x + ~1),1)) div 2) div 2)) div 2)))),1,(x + ~1))) div 5))
1: ((2x + 4) + (2x div 3))
1: (4x + (2x div 3))
1: (x2 + (2x div 3))
1: ((2x div 3) + ((x + 1) mod 3))
1: ((2x div 3) + (x mod 2))
1: ((2x + 2) + (2x div 5))
1: ((3x + 3) + (2x div 5))
1: ((2x div 5) + (if (~x + 4) <= 0 then 2 else 1))
1: ((2x div 5) + (if x <= 0 then 1 else 4x))
1: ((2x div (5 + (x div 4))) + (x div 5))
1: (2 + (2x div (5 + ((x div 4) mod 2))))
1: (1 + (2x div (5 + (x mod 5))))
1: (4x + (2x div (5 - (x mod 2))))
1: (1 + (2x div (4 + ((x div 2) div 3))))
1: ((2x div (3 + (x div 2))) + (if x <= 0 then 0 else 1))
1: (1 + (2x div (4 + (x div 2))))
1: (1 + (2x div (4 + (x div 3))))
1: (2 + (2x div (4 + (x div 4))))
1: (1 + (2x div (3 + (x div 5))))
1: (2 + (2x div (4 + ((~x + 1) mod 3))))
1: (1 + (2x div (2 + (x div 2) - (x mod 2))))
1: (1 + (2x div 7))
1: ((6x + 3) + (2x div 7))
1: ((2x div 7) + (x div 3))
1: (1 + (2x div 9))
1: (2 + (2x div 9))
1: (6x + (2x div 9))
1: (2x + (2x div 9))
1: (x + (2x div (8 + (x mod 2))))
1: (1 + (2x div (1 + (2 * (2 + (x div 3))))))
1: (1 + (2x div (1 + (2 * (x mod 2)))))
1: (x + (2x div (1 + (2 * (x mod 3)))))
1: (x + (2x div (2 + (3 * (if (~2 + (x div 2)) <= 0 then 1 else 2)))))
1: (2 + (2x div (1 + (2 * (if (16 mod (x + 1)) <= 0 then 0 else 2)))))
1: (1 + (2x div (1 + ((x + 1) div loop(\(x,i).i,(x mod (1 + (x div 4))),1)))))
1: (1 + (2x div (1 + ((x + 2) div (2 + (x div 4))))))
1: (2x + (2x div (2 + (4x div (x + 2)))))
1: ((2x div (2 + (4x div (x + 2)))) + (if x <= 0 then 1 else 4x))
1: (1 + (2x div (2 + (2x div 5))))
1: (2 + (2x div (2 + (2x div (2 + (x div 4))))))
1: (x + (2x div (2 + ((x div 2) div 3))))
1: (2 + (2x div (1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))))
1: (2 + (2x div (1 + (x div 2))))
1: (2x + (2x div (1 + (x div 2))))
1: ((2x div (1 + (x div 2))) + (x div 4))
1: (2 + (2x div (2 + (x div 2))))
1: ((2x div (2 + (x div 2))) + (if x <= 0 then 1 else x))
1: (1 + (2x div (2 + (x div 3))))
1: (2 + (2x div (2 + (x div 3))))
1: (x + (2x div (2 + (x div 3))))
1: (1 + (2x div (2 + (x div (1 + (((x2 + 2x) div 2) mod 3))))))
1: (1 + (2x div (1 + ((1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),x,2x)) mod 3))))
1: (2 + (2x div (2 + ((x + 1) mod 4))))
1: (1 + (2x div (1 + ((loop(\(x,i).2x,x,(1 + (x mod (2 * (1 + (x mod 2)))))) - (x mod 2)) mod (x + 1)))))
1: (1 + (2x div (1 + ((x2 + x) mod 3))))
1: (2 + (2x div (1 + (2x mod 5))))
1: (1 + (2x div (1 + (x2 mod (2 * (2 + (x mod 2)))))))
1: (1 + (2x div (1 + (x mod 6))))
1: (1 + (2x div (2 + (if ((x2 + 2x) mod 6) <= 0 then x else 1))))
1: (2 + (2x div (2 + (if ((x2 + 2x) mod 6) <= 0 then x else 1))))
1: ((2x div (1 + (if (x mod 2) <= 0 then 2 else 0))) + (x mod 2))
1: (1 + (2x div (1 + (if (x mod 10) <= 0 then 2 else 0))))
1: (1 + (2x div (1 + loop(\(x,i).i,(x mod (1 + ((~x + 2) mod 4))),1))))
1: (6x + (2x div (1 + i)))
1: ((2x div (1 + i)) + i)
1: (2x + (2x div ~7))
1: ((x2 + 3x + 2) + (2x div ~11))
1: (1 + (2x div (~x + 22)))
1: (2 + (2x div (2 - ((~x + 1) div 3))))
1: (x + (2x div (2 - ((~x + 1) div 5))))
1: (1 + (2x div (2 - (x div ~2))))
1: (x + (2x div (2 - (x div ~2))))
1: (x + (2x div (2 - (x mod ~12))))
1: (1 + (2x div (~2x + 23)))
1: (2 + (2x div (8 - (x mod 2))))
1: (1 + (2x div (2x + ~17)))
1: (x + (2x div (~2 + (x div ~6))))
1: (1 + ((x2 div 2) + (2 * i)))
1: (2 + ((x2 div 2) + (x div 2)))
1: (6 + (x2 div 2))
1: (4x + (x2 div 2))
1: ((x2 div 2) + (x div 2))
1: ((x2 div 2) + (x div 3))
1: ((x2 div 2) + (if x <= 0 then 1 else 2))
1: ((x2 div 2) + i)
1: ((~2x + 4) + (x2 div 3))
1: (4x + (x2 div 3))
1: ((x2 div 3) + (x div 3))
1: ((x2 div 3) + (if x <= 0 then 0 else 1))
1: ((4x + 2) + (x2 div 4))
1: ((3x + 3) + (x2 div 4))
1: ((2x + 4) + (x2 div 4))
1: ((x2 + 2x) + (x2 div 4))
1: (3x2 + (x2 div 4))
1: ((x2 div 4) + (2x div 3))
1: (2 + (x2 div 5))
1: (4x + (x2 div 5))
1: (x + (x2 div ((x + 5) + (x div 3))))
1: (x + (x2 div (5 + (x div 2))))
1: (x + (x2 div (6 + (if x <= 0 then 1 else (2 - ((~x + (x mod 2)) div 3))))))
1: (2 + (x2 div (x + 5)))
1: (x + (x2 div (x + 10)))
1: (1 + (x2 div (x + 17)))
1: (2 + (x2 div (x + 18)))
1: (1 + (x2 div (x + 19)))
1: (1 + (x2 div ((x + 1) + (6 * (1 + (x div 8))))))
1: (2 + (x2 div ((x + 1) + (2 * ((x div 2) div 3)))))
1: (1 + (x2 div ((x + 1) + (2 * (x div 5)))))
1: (x + (x2 div ((x + 1) + (2 * (x div 5)))))
1: (1 + (x2 div (4 + (((x + 2) + (2 * ((1 + ((1 + ((32 mod (x + 1)) div 2)) div 2)) div 2))) div 3))))
1: (1 + (x2 div (5 + ((x + (if (x mod 3) <= 0 then 2 else 1)) div 2))))
1: (1 + (x2 div ((x + 1) + ((3 * ((x div 2) div 3)) div 2))))
1: ((x2 div (4 + (((x + 1) div 2) div 2))) + (x div 2))
1: (x + (x2 div (3 + (x div 2))))
1: (1 + (x2 div ((x + 1) + (x div 2))))
1: (x + (x2 div ((x + 2) + (x div 2))))
1: (1 + (x2 div (1 + ((x div 3) + (x mod 2)))))
1: (x + (x2 div ((x + 1) + (x div 3))))
1: ((2x + 8) + (x2 div ((x + 2) + (x div 3))))
1: (x + (x2 div ((x + 2) + (x div 3))))
1: (1 + (x2 div (1 + ((x div 4) + (x div 3)))))
1: (1 + (x2 div ((x + 1) + (x div 4))))
1: (1 + (x2 div (3 + (x div (2 + (x mod 2))))))
1: (1 + (x2 div ((x + 1) + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))
1: (1 + (x2 div ((x + 2) + ((x div 3) mod 2))))
1: (1 + (x2 div ((x + 3) + (if (x mod 2) <= 0 then x else 2))))
1: (x + (x2 div (5 + (if x <= 0 then 1 else (x - (2 * ((x mod (2 + (x div 2))) div 3)))))))
1: (x + (x2 div (x + 3)))
1: (2 + (x2 div (x + 4)))
1: ((x2 + x) + (x2 div (x + 4)))
1: (1 + (x2 div (3 - (x div ~2))))
1: (1 + (x2 div (3 - (x div (~2 + (x mod ~2))))))
1: (1 + (x2 div ((2x + 1) - (x div 4))))
1: (x + (x2 div ((2x + 1) - (x div 4))))
1: (1 + (x2 div ((x + 2) - (x div (3 * (8 - (x div 2)))))))
1: (1 + (x2 div ((x + 2) - ((x div 5) mod 3))))
1: (1 + (x2 div 9))
1: ((x2 div 9) + ((x + 1) div 2))
1: (1 + (x2 div (x + 8)))
1: (2 + (x2 div 13))
1: ((2x + 1) + (x2 div (x + 12)))
1: (1 + (x2 div (4x + 5)))
1: (x + (x2 div (4x + 5)))
1: (4x + (x2 div (2x + 5)))
1: (x + (x2 div ((2x + 4) + (x mod 3))))
1: (4x + (x2 div ((2x + 4) + (x mod 4))))
1: (1 + (x2 div (3x + 4)))
1: (2 + (x2 div 19))
1: (2 + (x2 div 17))
1: ((x2 div 17) + (x div 3))
1: (1 + (x2 div (x + 16)))
1: (x + (x2 div 25))
1: (1 + (x2 div (x + 24)))
1: (1 + (x2 div (x + 20)))
1: (1 + (x2 div 49))
1: ((2x + ~2) + (x2 div 65))
1: (1 + (x2 div (1 + (3 * (((x + 1) * (x div 2)) mod 2)))))
1: (2 + (x2 div (1 + ((x + ((x2 div 2) div 3)) div 2))))
1: (1 + (x2 div (1 + ((x + 1) div 2))))
1: (1 + (x2 div (1 + (loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2))))
1: (1 + (x2 div (1 + (x div 2))))
1: (1 + (x2 div (2 + (x div 2))))
1: (1 + (x2 div (2 + (x div 3))))
1: (1 + (x2 div (2 + ((x + 2) mod 5))))
1: (1 + (x2 div (2 + (6 mod (x + 1)))))
1: (1 + (x2 div (1 + (x mod 2))))
1: (1 + (x2 div (2 + (x mod (2 + (x mod 3))))))
1: (2 + (x2 div (x + (if (~2 + (x div 4)) <= 0 then 2 else 1))))
1: (x + (x2 div (x + (if (~2 + (x div 4)) <= 0 then 2 else 1))))
1: (1 + (x2 div (x + (if x <= 0 then 1 else (x div 3)))))
1: ((6x + 6) + (x2 div (x + (if x <= 0 then 1 else (x div 3)))))
1: (x + (x2 div (x + (if x <= 0 then 1 else (x div 3)))))
1: (1 + (x2 div (x + loop(\(x,i).i,(~2 + (x div 2)),1))))
1: (2 + (x2 div (x + 2)))
1: (1 + (x2 div (1 + (2 * (1 + ((1 + loop(\(x,i).(x - (x div ~3)),x,1)) div 3))) - (x div ~3))))
1: (1 + (x2 div (~x + 25)))
1: (x + (x2 div (1 - ((~x + (x mod 2)) div 3))))
1: (1 + (x2 div (2 - ((x div 2) * (x div 2)))))
1: (1 + (x2 div (2 - (x mod 2))))
1: (x + (x2 div ((~x + 1) + (x mod 4))))
1: (2x + (x2 div (~x + ~6)))
1: (1 + (x2 div (15 - (x div 2))))
1: (x + (x2 div (3x + ~2)))
1: (x2 + (x2 div 11))
1: (x + (x2 div (~1 + (2 * ((x + 1) + (x mod 11))))))
1: (x + (x2 div ((2x + 8) - ((x + ~1) div 3))))
1: (x + (x2 div ((2x + 1) + ((x + 2) mod 7))))
1: (1 + (x2 div (~1 + (2 * (x - ((1 - ((x + ((2 + loop(\(x,i).2x,(x + ~1),1)) div (x + 1))) div 2)) div 2))))))
1: (x + (x2 div (24 - ((x + 2) mod 4))))
1: (1 + (x2 div (~x + 24)))
1: ((x2 div (~x + 32)) + (if x <= 0 then 1 else x))
1: (1 + (x2 div (~1 + (4 * (x div 2)))))
1: (1 + (x2 div (~2 + (3 * (x div 2)))))
1: (x + (x2 div (x + 11)))
1: (2 + (x2 div ((x + 1) - ((x div 2) div ~2))))
1: (1 + (x2 div ((x + 1) - (x div ~2))))
1: (2 + (x2 div ((x + 2) - (x div ~2))))
1: (1 + (x2 div (x - (2 * (((x + ~1) div 2) div 3)))))
1: (2 + (x2 div 8))
1: ((x2 div 8) + (x mod 2))
1: (x + (x2 div 12))
1: (x + (x2 div (2x + 8)))
1: (x + (x2 div 14))
1: (1 + (x2 div (2x + 24)))
1: (1 + (x2 div (2 * (1 + (2 * (2 + (x mod 4)))))))
1: (2 + (x2 div (3 * (2 + (x div 2)))))
1: (1 + (x2 div (2 * (2 - (x mod 2)))))
1: (x + (x2 div (3 * ((x + 1) - (2 * ((x + 2) div 5))))))
1: (2 + (x2 div 24))
1: (x + (x2 div (4 * (3 - (x mod 2)))))
1: (1 + (x2 div (4 * (2 + (if (~2 + (x div 2)) <= 0 then 1 else 2)))))
1: (2 + (x2 div 32))
1: (x + (x2 div 32))
1: (1 + (x2 div ((2x + 4) div 3)))
1: (1 + (x2 div (if (~x + 2) <= 0 then 2 else 1)))
1: (2 + (x2 div (if (~x + 2) <= 0 then 2 else 1)))
1: (x + (x2 div (if (x + ~2) <= 0 then 1 else 2)))
1: (x + (x2 div loop(\(x,i).(x + 1),(2 + (2x div (4 + (x div 4)))),2)))
1: (1 + (x2 div loop(\(x,i).3x,(2 * i),1)))
1: (1 + (x2 div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))
1: (1 + ((2 * i) div 3))
1: (1 + ((2 * i) div (x + 1)))
1: (x + ((2 * i) div (x + 1)))
1: (1 + ((x * i) div 2))
1: (2 + ((x * i) div 2))
1: (x + ((x * i) div 3))
1: (x + ((x * i) div 5))
1: (2x + ((i * i) div 4))
1: (((i * i) div 4) + i)
1: (x + ((i * i) div 5))
1: (x + ((i * i) div (2x + 1)))
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1: (x + ((i * i) div 6))
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1: (x + ((((((x + ~1) * (x div 2)) div 2) div 2) div 2) div 2))
1: (1 + ((((((x + 1) * loop(\(x,i).((x2 + ~x) div 2),2,(x + 4))) div 3) div 2) div 2) div 2))
1: (1 + (((((((x + 1) * (~1 + ((~2x + 2) mod (4 + (x div 4))))) div 2) div 2) div 2) div 2) div 2))
1: (x + ((((((loop(\(x,i).(x + (x div 2)),(x + ~1),2) div 2) div 2) div 2) div 2) div 2) div 2))
1: (1 + (((((loop(\(x,i).8x,x,49) div 2) div 2) div 2) div 2) div 2))
1: (1 + ((((loop(\(x,i).(x + (x2 div 4)),2,(x + ~2)) div 2) div 2) div 2) div 2))
1: (1 + ((((loop(\(x,i).(x * (1 + (x div 5))),1,(13x + 13)) div 2) div 2) div 2) div 2))
1: (1 + ((((loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2) div 2) div 2) div 2))
1: (1 + (((loop(\(x,i).((x + 1) + (2 * (x div 5))),(x + 1),2) div 2) div 2) div 2))
1: (1 + (((loop(\(x,i).((x + 2) + ((((x + 1) + (x div 4)) div 2) div 2)),x,1) div 2) div 2) div 2))
1: (1 + (((loop(\(x,i).((x + 2) + (x div 5)),x,2) div 2) div 2) div 2))
1: (1 + (((loop(\(x,i).((2x + 1) - (x div 3)),x,0) div 2) div 2) div 2))
1: (1 + (((loop(\(x,i).(5x + 2),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2) div 2) div 2))
1: (1 + (((loop(\(x,i).(x2 + 2x + ~2),1,loop(\(x,i).(2x + (i mod 2)),x,0)) div 2) div 2) div 2))
1: (1 + (((loop(\(x,i).3x,(x + ~1),loop(\(x,i).(x2 + x),1,loop(\(x,i).(x * i),x,1))) div 2) div 2) div 2))
1: (1 + (((loop(\(x,i).(2x + 2),x,(~x + 17)) div 2) div 2) div 2))
1: (1 + (((loop(\(x,i).(2x + 2),x,(3x + 6)) div 2) div 2) div 2))
1: (1 + (((loop(\(x,i).(x2 + 2x),1,((if (x mod 2) <= 0 then 2 else 0) + (x div 2))) div 2) div 2) div 2))
1: (1 + (((loop(\(x,i).(x2 + 2x),1,loop(\(x,i).(2x + (i mod 2)),x,0)) div 2) div 2) div 2))
1: (1 + (((loop(\(x,i).(x2 + 2x),1,loop(\(x,i).(((x + 1) - (2 * (i mod 2))) * i),x,1)) div 2) div 2) div 2))
1: (1 + (((loop(\(x,i).(x * (2 + i)),(16x + 16),1) div 2) div 2) div 2))
1: (1 + (((loop(\(x,i).11x,x,(1 + (x mod 2))) div 2) div 2) div 2))
1: (1 + (((loop(\(x,i).((2x + ~1) * (x div 2)),1,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2) div 2) div 2))
1: (1 + (((loop(\(x,i).(x3 + x2),1,loop(\(x,i).(2x + 2),x,0)) div 2) div 2) div 2))
1: (1 + (((loop(\(x,i).x3,1,loop(\(x,i).8x2,x,3)) div 2) div 2) div 2))
1: (1 + (((loop(\(x,i).x2,1,((x + 1) + (x div 3))) div 2) div 2) div 3))
1: (1 + (((loop(\(x,i).x2,1,((3 * (x div 2)) + (x div 3))) div 2) div 2) div 2))
1: (1 + (((loop(\(x,i).x2,1,(1 + loop(\(x,i).((~x + ~1) + i),x,2))) div 2) div 2) div 2))
1: (1 + (((loop(\(x,i).x2,1,(1 + compr(\x.(loop(\(x,i).(~2x + 4),x,1) mod (x + 1)),x))) div 2) div 2) div 2))
1: (1 + (((loop(\(x,i).x2,1,(1 - (2 * ((2x + 1) - (x mod (1 + ((x2 + ~x) mod 8))))))) div 2) div 2) div 3))
1: (1 + (((loop(\(x,i).x2,1,(~1 + (9 * (x mod 5)))) div 2) div 2) div 2))
1: (1 + (((loop(\(x,i).x2,1,(((x + 1) * (x3 div 2)) div 2)) div 2) div 2) div 2))
1: (2 + (((loop(\(x,i).(x * i),x,(if (x + ~1) <= 0 then ~1 else (x2 + 2x))) div 2) div 2) div 2))
1: (1 + (((loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,(x + ~1)) div 2) div 2) div 2))
1: (1 + (((loop(\(x,i).(x3 div 2),1,(x2 + 2x + 1)) div 2) div 2) div 3))
1: (1 + (((loop(\(x,i).((x * ((x + 1) div 2)) div 2),2,(x + ~1)) div 2) div 2) div 2))
1: (1 + (((loop(\(x,i).loop(\(x,i).x2,2,x3),1,(10x + 1)) div 2) div 2) div 3))
1: (1 + (((x div 2) div 3) div (1 + ((x + 1) mod 5))))
1: (1 + (((x div 2) div 3) div (1 + ((x + ~1) mod 3))))
1: (1 + ((((1 + (2 * ((x + 1) + (((x + 2) + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)) div 3)))) mod (x + 1)) div 2) div 2))
1: (1 + ((((1 + (3 * ((1 - ((2x + ~1) mod (4 + (x div 4)))) mod (x + 3)))) mod (x + 1)) div 2) div 2))
1: (1 + ((((1 - (2 * (x mod 5))) mod (x + 3)) div 2) div 2))
1: (1 + ((((1 - ((x div 2) div (~1 + (2 * (x mod 4))))) mod (x + 1)) div 2) div 2))
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1: (x + ((((1 - (x div 4)) mod (x + 1)) div 2) div 2))
1: (1 + ((((1 - (x div (2 - (x mod ~7)))) mod (x + 1)) div 2) div 2))
1: (1 + ((((1 - ((2x + ~1) mod (4 + (x div 4)))) mod (2x + 1)) div 3) div 2))
1: (1 + ((((1 - (3x mod (2 + (x div 2)))) mod (x + 1)) div 2) div 2))
1: (1 + ((((2 - ((if (x mod 4) <= 0 then 0 else 2) + (x div 4))) mod (x + 1)) div 2) div 2))
1: (x + ((((2 - (x div 2)) mod (2x + 1)) div 2) div 2))
1: (((((2 - (x div 2)) mod (x + 1)) div 2) div 2) + (if x <= 0 then 1 else 4x))
1: (((((2 - (x div 2)) mod (x + 2)) div 2) div 2) + (if x <= 0 then 1 else 4x))
1: (1 + ((((2 - (x div 3)) mod (x + 3)) div 2) div 2))
1: (1 + ((((2 - (2x mod (6 + (x mod 2)))) mod (x + 1)) div 2) div 2))
1: (2 + ((((2 - (2x mod (2 + (x div 2)))) mod (x + 3)) div 2) div 2))
1: (1 + ((((2 - ((if (x mod 2) <= 0 then (~x + 2) else x) mod 7)) mod (x + 1)) div 2) div 2))
1: (1 + ((((~1 + (2 * (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 8)))) mod (x + 1)) div 2) div 2))
1: (1 + ((((~1 + (x * (x mod 4))) mod (2 + (x div 2))) div 2) div 2))
1: (1 + ((((~1 + (2 * (x mod 5))) mod (x + 1)) div 2) div 2))
1: (1 + ((((~1 + (2 * (x mod 6))) mod (x + 1)) div 2) div 2))
1: (1 + ((((x2 + ~1) mod (2 + (x div 2))) div 2) div 2))
1: (1 + ((((x2 - (x div 2)) mod (x + 2)) div 2) div 3))
1: (x + ((((x2 - (x div 2)) mod (x + 2)) div 2) div 3))
1: (1 + ((((x + ~1) mod (2 + (x div 3))) div 2) div 2))
1: (1 + ((((5 * (2 + (2 * (if (x mod 3) <= 0 then 0 else 2)))) mod (x + 1)) div 2) div 2))
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1: (1 + ((((5 * (2 + compr(\x.(1 - (x mod (1 + (if (x mod 8) <= 0 then 2 else 1)))),x))) mod (x + 2)) div 2) div 2))
1: (1 + ((((3 * ((x div 2) - (2 * (x mod 2)))) mod (x + 1)) div 2) div 2))
1: (1 + ((((2 * (~2 + ((x div 2) mod 3))) mod (x + 1)) div 2) div 2))
1: (x + ((((2x + ~2) mod (2 + (x div 2))) div 2) div 2))
1: (1 + ((((6 * (1 + (2 * (1 + (x mod 2))))) mod (x + 1)) div 2) div 2))
1: (1 + (((4x mod 9) div 2) div 2))
1: (1 + (((x4 mod (2x + ~1)) div 2) div 2))
1: (1 + (((x3 mod (2x + 5)) div 2) div 2))
1: (1 + (((x3 mod (x - ((~x + 2) div 2))) div 2) div 2))
1: ((x + 1) + ((((3 * ((x * (x mod 4)) div 2)) mod (x + 1)) div 2) div 2))
1: (1 + ((((2 * (x2 div 2)) mod (2 + (x div 2))) div 2) div 2))
1: (1 + ((((3 * ((x + ~1) mod 4)) mod (x + 1)) div 2) div 2))
1: (1 + ((((3 * (x2 mod 6)) mod (x + 1)) div 2) div 2))
1: (1 + ((((3 * ((x2 div 4) mod (2x + 1))) mod (x + 1)) div 2) div 2))
1: (x + (((x2 mod (x + 9)) div 2) div 2))
1: (1 + (((x2 mod (3x + 2)) div 2) div 2))
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1: (1 + (((((x2 + (x div 2)) div 2) mod (2 + (x div 2))) div 2) div 2))
1: (x + (((((2 - (x div 2)) div 2) mod (x + 2)) div 2) div 2))
1: (1 + ((((x2 div 2) mod (x + 3)) div 2) div 2))
1: (x + ((((if x <= 0 then 2 else (1 + loop(\(x,i).(x * (x + i)),2,3))) mod (x + 2)) div 2) div 2))
1: (1 + (((loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,1) mod (x + 2)) div 2) div 2))
1: (1 + (((loop(\(x,i).(2x + 4),5,2) mod (x + 1)) div 2) div 2))
1: (1 + (((loop(\(x,i).(~2x + 4),(x mod 5),0) mod (x + 1)) div 2) div 2))
1: (1 + (((loop(\(x,i).2x,(x + 1),~2) mod (x + 1)) div 2) div 2))
1: (1 + (((loop(\(x,i).2x,x,x) mod (x + 1)) div 2) div 2))
1: (x + (((x mod 5) div 2) div 2))
1: (x + (((x mod (2 + (x div 3))) div 2) div 2))
1: (1 + (((x mod (2 + ((~x + 1) mod 8))) div 2) div 2))
1: (1 + (((if ((x + 1) mod (2 + ((x div 2) mod 2))) <= 0 then x else 1) div 2) div 2))
1: (1 + (((if ((~2x + 2) mod (4 + (x div 4))) <= 0 then x else 0) div 2) div 2))
1: (1 + ((loop(\(x,i).((x + 2) + (((x div 2) div 3) + (x div 5))),x,0) div 2) div 3))
1: (3 + ((loop(\(x,i).((x + 4) + (x div 3)),x,2) div 2) div 2))
1: (1 + ((loop(\(x,i).((x + 1) + ((1 + ((x + (x div 4)) div 2)) div 2)),x,1) div 2) div 2))
1: (1 + ((loop(\(x,i).((x + 2) + ((x + (if (x + ~2) <= 0 then 1 else ((x + 1) div 7))) div 2)),x,1) div 2) div 2))
1: (1 + ((loop(\(x,i).((x + 1) + ((x + i) div 5)),x,1) div 2) div 2))
1: (1 + ((loop(\(x,i).((x + 2) + (((2 + i) * i) div 2)),x,0) div 2) div 2))
1: (1 + ((loop(\(x,i).((x + 2) + ((2 * (x div 3)) div 3)),x,1) div 2) div 2))
1: (1 + ((loop(\(x,i).((x + 2) + (((x + 1) div 2) div 3)),(x + 5),1) div 2) div 2))
1: (1 + ((loop(\(x,i).((x + 1) + ((x mod (2 + (6 mod (1 + (x div 2))))) div 2)),x,1) div 2) div 2))
1: (2 + ((loop(\(x,i).((x + 2) + (x div 4)),x,1) div 2) div 2))
1: (1 + ((loop(\(x,i).((x + 1) + (x div 5)),x,1) div 2) div 2))
1: (1 + ((loop(\(x,i).((x + 2) + (x div (4 + ((x mod 3) div 2)))),x,1) div 2) div 2))
1: (2 + ((loop(\(x,i).((x + 2) + (x div 9)),x,1) div 2) div 2))
1: (1 + ((loop(\(x,i).(x + ((x div 8) + (i div 2))),x,2) div 2) div 2))
1: (1 + ((loop(\(x,i).(7x + (((x + 1) div ~7) mod 2)),x,1) div 2) div 2))
1: (1 + ((loop(\(x,i).((5x + 1) - (x mod 3)),(x + 1),1) div 2) div 3))
1: (1 + ((loop(\(x,i).((2x + 1) - (x div (2 + (if (x mod 2) <= 0 then 1 else 8)))),x,1) div 2) div 2))
1: (x + ((loop(\(x,i).(5x + 2),x,2) div 3) div 3))
1: (x + ((loop(\(x,i).(((x + 1) * (1 + i)) + (x div 2)),x,2) div 2) div 2))
1: (1 + ((loop(\(x,i).(x + ((1 + i) * i)),(1 + (x div 2)),x) div 2) div 2))
1: (1 + ((loop(\(x,i).((~2x + 4) + (x div 2)),(x + 1),3) div 2) div 2))
1: (1 + ((loop(\(x,i).(2 + (x2 * i)),(x + ~2),0) div 2) div 2))
1: (1 + ((loop(\(x,i).(2x + 1),((x + 1) div 2),(1 + (x div 2))) div (2 + (x mod 2))) div 3))
1: (1 + ((loop(\(x,i).(x + (x div (2 + (x mod 2)))),x,2) div 2) div 2))
1: (1 + ((loop(\(x,i).(1 + ((1 + ((x + 1) mod (1 + (x div (2 + (x mod (2 + (x mod 2)))))))) mod (x + 1))),2,x) div 2) div 2))
1: (1 + ((loop(\(x,i).(2x + (i mod 2)),x,(1 + (x mod 2))) div 2) div 2))
1: (1 + ((loop(\(x,i).(x + (if (~2 + (x div 2)) <= 0 then 1 else i)),x,1) div 2) div 2))
1: (1 + ((loop(\(x,i).(x + (if ((x + 1) mod 10) <= 0 then (x + 2) else 1)),x,x) div 2) div 2))
1: (1 + ((loop(\(x,i).(x + (if x <= 0 then 1 else ((x * (x mod 2)) + (x div 2)))),x,1) div 2) div 2))
1: (x + ((loop(\(x,i).(x + loop(\(x,i).(loop(\(x,i).(x + (i * i)),x,0) mod (x + 1)),1,i)),x,0) div 2) div 2))
1: (1 + ((loop(\(x,i).(x + i),((if (x mod 2) <= 0 then 2 else 0) + (x div 2)),1) div 2) div 2))
1: (1 + ((loop(\(x,i).(~1 + (((x2 + ~x) div 2) + i)),x,(~x + 1)) div 2) div 3))
1: (1 + ((loop(\(x,i).(3x + ~1),(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1) div 2) div 2))
1: (2 + ((loop(\(x,i).(5x + ~1),(x + 1),x) div 2) div 2))
1: (x + ((loop(\(x,i).((6x + 4) - ((2x + 4) div 5)),x,3) div 2) div 3))
1: (1 + ((loop(\(x,i).(3x + 5),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2) div 2))
1: (1 + ((loop(\(x,i).(20x + ~21),x,1) div 2) div 2))
1: (1 + ((loop(\(x,i).((2x + 1) - ((x - ((3 * ((x div 2) div 3)) div 2)) div 2)),x,1) div 2) div 2))
1: (1 + ((loop(\(x,i).((3x + 1) - (i mod 2)),x,1) div 2) div 2))
1: (1 + ((loop(\(x,i).((x + 1) - ((~x + 1) div 3)),x,1) div 2) div 2))
1: (1 + ((loop(\(x,i).((x + 1) - ((~x + 2) div 5)),x,1) div 2) div 2))
1: (1 + ((loop(\(x,i).(x - (2 * (~x + (x div 3)))),x,1) div 2) div 2))
1: (1 + ((loop(\(x,i).(x - (2 * (~x + (i mod 2)))),x,1) div 2) div 2))
1: (1 + ((loop(\(x,i).(x - ((~x + (x div (if i <= 0 then 1 else i))) div 2)),x,1) div 2) div 2))
1: (1 + ((loop(\(x,i).(x - ((~x + (i mod 2)) div 2)),x,1) div 2) div 2))
1: (1 + ((loop(\(x,i).(x - ((i * i) div ~2)),x,1) div 2) div 2))
1: (1 + ((loop(\(x,i).(x - (x div ~8)),x,1) div 2) div 2))
1: (1 + ((loop(\(x,i).3x,(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 1))),1) div 2) div 3))
1: (4x + ((loop(\(x,i).3x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),3) div 2) div 2))
1: (1 + ((loop(\(x,i).3x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 3) div (4 - ((x div 2) mod 2))))
1: (1 + ((loop(\(x,i).3x,(x div 2),1) div (if (x mod 3) <= 0 then 1 else 2)) div 2))
1: (1 + ((loop(\(x,i).3x,loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1) div 2) div 3))
1: (1 + ((loop(\(x,i).(2 * ((x + 2) + (i mod 2))),x,(x + 2)) div 2) div 3))
1: (1 + ((loop(\(x,i).(2 * ((x + 2) + (i mod 2))),x,x) div 2) div 3))
1: (1 + ((loop(\(x,i).(2 * ((x + 3) - ((~x + 1) div 3))),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2) div 2))
1: (1 + ((loop(\(x,i).(8x + 10),x,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2) div 3))
1: (1 + ((loop(\(x,i).(2x + 2),(x div 2),(x mod 2)) div 2) div 2))
1: (1 + ((loop(\(x,i).(2x + 2),x,(1 + ((2 * (1 + ((1 + ((compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + ((x + ~1) div 3)) div 2)) div 2))) div 3))) div 2) div 2))
1: (1 + ((loop(\(x,i).(2x + 2),x,(if x <= 0 then 1 else (2 * (1 + ((1 + ((x + ((1 + (((loop(\(x,i).3x,(x + ~1),loop(\(x,i).(x2 + x),1,loop(\(x,i).(x * i),x,1))) div 2) div 2) div 2)) div 2)) div 2)) div 2))))) div 2) div 2))
1: (2 + ((loop(\(x,i).(x2 + x),1,((x3 + x2) + (x mod 2))) div 2) div 2))
1: (1 + ((loop(\(x,i).(x2 + x),1,(1 + ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3))) div 2) div 2))
1: ((3x + 2) + ((loop(\(x,i).(x2 + x),1,(~1 + loop(\(x,i).x2,1,(2x + 4)))) div 2) div 3))
1: (1 + ((loop(\(x,i).(x2 + x),1,(18x + 8)) div 2) div 3))
1: (1 + ((loop(\(x,i).(x2 + x),1,(5 * ((x2 + x) div 2))) div 2) div 3))
1: (1 + ((loop(\(x,i).(x2 + x),1,((1 + ((x2 + ~x) div 2)) div 2)) div 2) div 3))
1: (x + ((loop(\(x,i).(x2 + x),2,x) div 2) div 3))
1: (1 + ((loop(\(x,i).(2x + 4),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2) div 2))
1: (1 + ((loop(\(x,i).(2x + 4),x,1) div 2) div 2))
1: (1 + ((loop(\(x,i).(2x + 4),x,(4 + (x div 8))) div 2) div 2))
1: (1 + ((loop(\(x,i).(2x + 4),x,(3 + (x mod 2))) div 2) div 2))
1: (1 + ((loop(\(x,i).(2x + 4),x,(1 + (loop(\(x,i).(2x + 4),x,1) div 2))) div 2) div 2))
1: (1 + ((loop(\(x,i).(2x + 4),x,((x2 + ~x) div 2)) div 2) div 2))
1: (2 + ((loop(\(x,i).(2x + 4),x,(x mod 2)) div 2) div 2))
1: (1 + ((loop(\(x,i).(x2 + 2x),1,((x div 2) - (x mod 2))) div 2) div 3))
1: (1 + ((loop(\(x,i).(x * (2 + i)),compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x),1) div 2) div 2))
1: (x + ((loop(\(x,i).((x + 2) * (x + i)),2,x) div 2) div 3))
1: (1 + ((loop(\(x,i).~2x,x,(x + 4)) div 2) div 2))
1: (x + ((loop(\(x,i).(x * (0 - i)),x,1) div 2) div 2))
1: (1 + ((loop(\(x,i).(~2x + 2),x,(x + 4)) div 2) div 3))
1: (x + ((loop(\(x,i).23x,2,x) div 2) div 3))
1: (1 + ((loop(\(x,i).(2x2 + ~x),1,(1 + loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x))) div 2) div 2))
1: (1 + ((loop(\(x,i).(2x2 + ~x),1,loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1)) div 2) div 2))
1: (x + ((loop(\(x,i).(x * (~1 + (2 * i))),x,(x + 2)) div 2) div 2))
1: (2 + ((loop(\(x,i).(x2 + ~2x),1,loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)) div 2) div 2))
1: (1 + ((loop(\(x,i).(x2 + ~2x),2,(x + ~2)) div 2) div 2))
1: (1 + ((loop(\(x,i).7x2,1,loop(\(x,i).(~1 + (2 * (x + (i mod 2)))),x,0)) div 2) div 3))
1: (2 + ((loop(\(x,i).(2x4 + 6x3 + 5x2 + 3x + 2),1,(x + 1)) div 2) div 3))
1: (1 + ((loop(\(x,i).(4x + 8),x,x) div 2) div 2))
1: (1 + ((loop(\(x,i).12x,(x + 1),1) div loop(\(x,i).3x,2x,1)) div 2))
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1: (1 + ((loop(\(x,i).x3,1,(1 + loop(\(x,i).(x * i),x,1))) div 3) div 3))
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1: (1 + ((loop(\(x,i).(4x + (i div 2)),x,1) mod (x + 1)) div 2))
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1: (1 + ((loop(\(x,i).(x - (2x * i)),x,1) mod (x + 1)) div 3))
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1: (1 + ((loop(\(x,i).(2x + 2),x,(12 * (x div 7))) mod 5) div 2))
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1: (2 + ((loop(\(x,i).(2 * (x - i)),x,2) mod (x + 1)) div 2))
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1: (1 + ((loop(\(x,i).x5,1,(x mod 3)) mod (x + 1)) div 2))
1: (1 + ((loop(\(x,i).4x,(if (x mod 3) <= 0 then 1 else 0),3) mod (x + 1)) div 2))
1: (2 + ((loop(\(x,i).4x,x,1) mod 29) div 3))
1: (2 + ((loop(\(x,i).2x2,2,4) mod (x + 1)) div 3))
1: (1 + ((loop(\(x,i).2x,(x + (2 * (x mod 2))),x) mod (x + 1)) div 2))
1: (1 + ((loop(\(x,i).2x,(x + ~1),(1 + ((x * (x div 2)) mod 2))) mod (x + 1)) div 2))
1: (((loop(\(x,i).2x,(x + ~1),(2x mod 3)) mod (x + 1)) div 2) + (x mod 2))
1: (1 + ((loop(\(x,i).2x,(x - loop(\(x,i).(~1 + (if x <= 0 then (2 * i) else x)),x,0)),1) mod (x + 1)) div 2))
1: (1 + ((loop(\(x,i).2x,(x div 2),2) mod (x + 1)) div 2))
1: (x + ((loop(\(x,i).2x,(x div 2),~2) mod (x + 1)) div 2))
1: (1 + ((loop(\(x,i).2x,(if (x mod 2) <= 0 then x else 1),2) mod (x + 1)) div 2))
1: (1 + ((loop(\(x,i).2x,x,1) mod 9) div 2))
1: (1 + ((loop(\(x,i).2x,x,1) mod (1 + (x div 2))) div 2))
1: (1 + ((loop(\(x,i).2x,x,1) mod (x + 1)) div 2))
1: (1 + ((loop(\(x,i).2x,x,2) mod (2 + (x div 4))) div 2))
1: (1 + ((loop(\(x,i).2x,x,2) mod loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2))
1: (1 + ((loop(\(x,i).2x,x,(1 + ((2 * (1 + ((1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2)) div 2))) div 3))) mod (x + 1)) div 2))
1: (1 + ((loop(\(x,i).2x,x,(1 + ((x mod (2 + ((x div 2) div (1 + (x mod 2))))) div 2))) mod (x + 1)) div 2))
1: (1 + ((loop(\(x,i).2x,x,(1 + (x div 4))) mod (x + 3)) div 2))
1: (1 + ((loop(\(x,i).2x,x,(1 + (x div 4))) mod (x + 1)) div 2))
1: (1 + ((loop(\(x,i).2x,x,(1 + (x div 8))) mod (x + 1)) div 2))
1: (1 + ((loop(\(x,i).2x,x,(0 - (4 * (x mod 4)))) mod (x + 1)) div 2))
1: (1 + ((loop(\(x,i).2x,x,(1 - ((1 + (((3 * (1 + (loop(\(x,i).3x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 3))) div 2) div 2)) div 2))) mod (x + 1)) div 2))
1: (1 + ((loop(\(x,i).2x,x,(2 - (((2 + loop(\(x,i).(x div (~2 + (x mod 2))),x,x)) div 2) mod 2))) mod (x + 1)) div 2))
1: (((loop(\(x,i).2x,x,(2 - ((x div 2) mod 2))) mod (x + 1)) div 2) + (x mod 2))
1: (1 + ((loop(\(x,i).2x,x,(~x + 2)) mod (x + 2)) div 3))
1: (1 + ((loop(\(x,i).2x,x,(~1 + ((if (x mod 4) <= 0 then 2 else (x mod 2)) * (1 + (x div 4))))) mod (x + 1)) div 2))
1: (1 + ((loop(\(x,i).2x,x,(2 * (~1 + (2x mod 3)))) mod (x + 1)) div 2))
1: (1 + ((loop(\(x,i).2x,x,((~1 + loop(\(x,i).2x,(x + ~2),2)) div (x + 1))) mod (x + 1)) div 2))
1: (1 + ((loop(\(x,i).2x,x,((~x2 + x) div 4)) mod (x + 1)) div 2))
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1: (1 + ((loop(\(x,i).2x,x,(if (x mod 4) <= 0 then 0 else 1)) mod (x + 1)) div 2))
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1: (1 + ((x mod 9) div 2))
1: (2 + ((x mod 9) div 2))
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1: (1 + ((if ((x + 1) mod (2 + ((x div 2) mod 2))) <= 0 then x else 1) div (2 + ((x div 2) mod 2))))
1: (1 + ((if ((x * (x div 2)) mod 6) <= 0 then x else 2) div 5))
1: (1 + ((if (((if x <= 0 then 2 else x) div (2 + (x mod 2))) mod 2) <= 0 then x else 1) div 3))
1: (1 + ((if ((x div 2) mod (2 + (x mod 2))) <= 0 then 2 else x) div 2))
1: (1 + ((if ((if x <= 0 then 1 else (x div ((if (x mod 2) <= 0 then 2 else x) mod 4))) mod 2) <= 0 then x else 1) div 3))
1: (x + ((if (x mod 2) <= 0 then (x div 2) else 1) div 3))
1: (1 + ((if (x mod 2) <= 0 then ((~x2 + x) mod 5) else 0) div 2))
1: (1 + ((if (x mod 2) <= 0 then (if x <= 0 then 1 else (2 * (1 + ((loop(\(x,i).2x,x,(1 + (x div 4))) mod (x + 1)) div 2)))) else 1) div 2))
1: (1 + ((if (x mod 2) <= 0 then x else (x mod ~4)) div 2))
1: (((if (x mod (1 + (((x + 1) div 2) div 3))) <= 0 then 2 else x) div 2) + (if x <= 0 then 0 else 1))
1: (1 + ((if x <= 0 then 0 else ((2x + 1) - (if (x mod 4) <= 0 then (x div 4) else 0))) div 2))
1: (1 + ((if x <= 0 then 0 else (1 + (7 * ((~x + 1) mod 3)))) div 2))
1: (1 + ((if x <= 0 then 1 else (2 + (x div (2 + ((1 + ((~x + 2) mod 4)) mod (x + 1)))) - (x mod 2))) div 2))
1: (1 + ((if x <= 0 then 1 else (2 + ((~2x + 3) mod (4 + (x div 4))))) div 3))
1: (1 + ((if x <= 0 then 1 else (2 - loop(\(x,i).(x - (if x <= 0 then 1 else (2 * i))),x,x))) div 2))
1: (1 + ((if x <= 0 then 1 else (2x - loop(\(x,i).(~1 + (if x <= 0 then (2 * i) else x)),x,2))) div 3))
1: (1 + ((if x <= 0 then 1 else (3 * ((x + 1) + (x div 8)))) div 2))
1: (2 + ((if x <= 0 then 1 else (2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2)))) div (2 + (x mod 2))))
1: (1 + ((if x <= 0 then 1 else (2 * (1 + ((loop(\(x,i).(2 * (x - i)),x,2) mod (x + 1)) div 2)))) div (1 + (x mod 2))))
1: (1 + ((if x <= 0 then 1 else (18x2 + ~9)) div 2))
1: (1 + ((if x <= 0 then 1 else (3 * (if ((x + ~1) mod 3) <= 0 then (2 + (x div 4)) else 1))) div 2))
1: (1 + ((if x <= 0 then 2 else (1 + ((x + (x2 div 5)) div 2))) div 2))
1: (1 + ((if x <= 0 then 2 else (1 + ((1 + (loop(\(x,i).4x,x,1) mod (2x + 1))) div 3))) div 2))
1: (x + ((if x <= 0 then 2 else (1 + ((x + loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),(x + ~2),1)) div 3))) div 2))
1: (1 + ((if x <= 0 then 2 else (1 + ((2 * (1 + ((1 + (x div (1 + ((~1 + ((1 + (x div (2 - (x mod 2)))) mod 3)) mod (x + 1))))) div 2))) div 3))) div 2))
1: (1 + ((if x <= 0 then 2 else (1 + ((2 * (1 + (x mod (1 + (x mod (1 + (x div (2 + ((x div 2) mod 3))))))))) div 3))) div 2))
1: (1 + ((if x <= 0 then 2 else (1 + ((2 * ((2 + ((if ((x + ~1) mod 3) <= 0 then 1 else x) + (x mod 2))) div 3)) div 3))) div 2))
1: (1 + ((if x <= 0 then 2 else (x + (((x3 + ~3x2 + 2x) div 2) div 5))) div 2))
1: (1 + ((if x <= 0 then 2 else (1 + (((x2 mod (3x + 2)) div 2) div 2))) div 2))
1: (1 + ((if x <= 0 then 2 else (1 + (loop(\(x,i).(1 + ((1 + ((x2 + (x div 2)) div 3)) div 3)),2,x) div 3))) div 2))
1: (1 + ((if x <= 0 then 2 else (1 + ((x + 3) mod (1 + (x div 4))))) div 2))
1: (1 + ((if x <= 0 then 2 else (1 + ((1 + ((x + 1) div 2)) mod ((1 + ((x mod 3) div 2)) * (1 + (x mod 2)))))) div 2))
1: (1 + ((if x <= 0 then 2 else (1 + ((1 + (x mod (~1 + (5 * (~x mod 4))))) mod (x + 1)))) div 2))
1: (1 + ((if x <= 0 then 2 else (1 + ((6x + 3) mod (1 + (x div 2))))) div 2))
1: (1 + ((if x <= 0 then 2 else (1 + ((2 * (1 + loop(\(x,i).(if x <= 0 then i else (x div 2)),x,0))) mod (x + 1)))) div 2))
1: (1 + ((if x <= 0 then 2 else (1 + ((~x2 + 2x + ~1) mod (1 + (x div 2))))) div 2))
1: (1 + ((if x <= 0 then 2 else (1 + (loop(\(x,i).(2x + ~1),x,0) mod (1 + (x div 2))))) div 2))
1: (1 + ((if x <= 0 then 2 else (1 + (loop(\(x,i).((x2 + 3x + 2) div 2),2,x) mod (x + 1)))) div 2))
1: (1 + ((if x <= 0 then 2 else (1 + (x mod (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))) div 2))
1: (1 + ((if x <= 0 then 2 else (1 + loop(\(x,i).(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) - (i div 3)),2,x))) div 2))
1: (1 + ((if x <= 0 then 2 else (2 - ((x + 1) mod (1 + (2 * (if ((x + ~1) mod 4) <= 0 then 2 else 1)))))) div 2))
1: ((x + 1) + ((if x <= 0 then 2 else (x + (if (x mod 2) <= 0 then 1 else (~x + ~1)) - (x div 3))) div 2))
1: (2 + ((if x <= 0 then 2 else (~2 + loop(\(x,i).4x,(x + 1),2))) div 2))
1: (1 + ((if x <= 0 then 2 else ((x + 1) - ((x mod 6) mod (1 + (x div 2))))) div 2))
1: (((if x <= 0 then 2 else (x - ((~1 + (x2 div 2)) div 5))) div 2) + (x div 2))
1: (1 + ((if x <= 0 then 2 else (x - (((x - (x3 div 16)) div 2) div 2))) div 2))
1: (1 + ((if x <= 0 then 2 else (x - (x div 4))) div 2))
1: (4x + ((if x <= 0 then 2 else (x2 + ~x)) div 2))
1: (1 + ((if x <= 0 then 2 else (x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2))) div 2))
1: (2 + ((if x <= 0 then 2 else (x * (x div 3))) div 2))
1: (2 + ((if x <= 0 then 2 else (x * (x div 4))) div 2))
1: (1 + ((if x <= 0 then 2 else ((if (~2 + (x div 4)) <= 0 then 1 else 2) * (1 + (x mod 4)))) div 2))
1: (((if x <= 0 then 2 else ((x * (x div 2)) div 4)) div 2) + (x mod 2))
1: (1 + ((if x <= 0 then 2 else (loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,x) div (2 + (x mod 2)))) div 2))
1: (x2 + ((if x <= 0 then 2 else (5 mod (x + 1))) div 2))
1: (1 + ((if x <= 0 then 2 else ((x + 1) mod (1 + (x div (2 + (x mod 3)))))) div 2))
1: (1 + ((if x <= 0 then 2 else ((x + 1) mod (1 + (if (x mod 2) <= 0 then 6 else 1)))) div 2))
1: (1 + ((if x <= 0 then 2 else (x mod (2 + (x mod (1 + (x div 3)))))) div 2))
1: (1 + ((if x <= 0 then 2 else loop(\(x,i).3x,(x div 2),(x div 3))) div 2))
1: (2 + (loop(\(x,i).((x + 1) + ((if x <= 0 then 0 else loop(\(x,i).2x,(~1 + loop(\(x,i).(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,x)),2,x)),1)) + ((x + 1) div 2))),x,1) div 2))
1: (x + (loop(\(x,i).(x + 5),(~1 + (x div 5)),1) div 2))
1: (1 + (loop(\(x,i).((x + 6) + (x div 3)),x,2) div 2))
1: (x + (loop(\(x,i).((x + 1) + (2 * (6 - (x div 3)))),2,x) div 2))
1: (1 + (loop(\(x,i).((x + 2) + (4 * ((2x div (4 + (x div 4))) mod 2))),x,1) div 2))
1: (1 + (loop(\(x,i).((x + 1) + (3 * (((1 + (x div 2)) div 2) div 2))),x,1) div 2))
1: (1 + (loop(\(x,i).((x + 1) + (2 * ((x div 2) div 3))),x,1) div 2))
1: (1 + (loop(\(x,i).((x + 2) + (5 * (x div 3))),x,2) div (x + 1)))
1: (1 + (loop(\(x,i).((x + 1) + (3 * (x div 5))),x,1) div (x + 1)))
1: (1 + (loop(\(x,i).(1 + ((x * i) + (i div 2))),(x + ~1),0) div 2))
1: (1 + (loop(\(x,i).((x + 1) + ((2x + 1) div (1 + (x mod 12)))),x,0) div 2))
1: (1 + (loop(\(x,i).((x + 1) + (((x div 2) + i) div 4)),x,2) div 2))
1: (1 + (loop(\(x,i).((x + 1) + ((x + (x mod (x - ((x + 1) mod 3)))) div 2)),x,1) div 2))
1: (1 + (loop(\(x,i).((x + 1) + ((x + 2) div (2 + ((~x + 2) mod 8)))),x,1) div 2))
1: (1 + (loop(\(x,i).((x + 1) + ((x - ((x + (x div 3)) div 3)) div 2)),x,1) div 5))
1: (1 + (loop(\(x,i).((x + 2) + ((x - (x div 4)) div 2)),x,2) div (x + 4)))
1: (2 + (loop(\(x,i).((4x + 1) + ((x2 + x) div 2)),x,1) div 2))
1: (1 + (loop(\(x,i).((x + 2) + ((4 * (x div 5)) div 3)),x,1) div 2))
1: (x + (loop(\(x,i).((x + 1) + (((x div 2) * i) div 2)),x,1) div (x + 1)))
1: (1 + (loop(\(x,i).((x + 2) + (2x div 5)),x,0) div (x + 1)))
1: (4x + (loop(\(x,i).((x + 2) + (2x div (4 + (x div 4)))),x,1) div 3))
1: (2 + (loop(\(x,i).((x + 1) + ((x div 2) div 3)),(x + ~2),1) div 2))
1: (2 + (loop(\(x,i).((x + 2) + ((x div 2) div 3)),x,1) div 2))
1: (6 + (loop(\(x,i).((x + 2) + ((x div 2) div 5)),x,2) div 2))
1: (1 + (loop(\(x,i).((x + 2) + (x div 2)),(x div 2),(1 + (x mod 2))) div 2))
1: (1 + (loop(\(x,i).((x + 2) + (x div 2)),x,0) div (2x + ~1)))
1: (2 + (loop(\(x,i).((x + 2) + (x div 3)),(x + 3),2) div 3))
1: (2 + (loop(\(x,i).((x + 1) + (x div 4)),x,15) div 2))
1: (2 + (loop(\(x,i).((x + 3) + (x div 5)),(x + 1),2) div 2))
1: (2 + (loop(\(x,i).(x + ((x div 5) + i)),x,2) div 3))
1: (1 + (loop(\(x,i).((x + 2) + (x div 7)),(x + ~1),0) div 2))
1: (2 + (loop(\(x,i).((x + 2) + (x div 9)),x,1) div 3))
1: (x + (loop(\(x,i).((x + 2) + (x div (2 + ((x div 2) mod 3)))),2,x) div 2))
1: (1 + (loop(\(x,i).((x + 2) + (x div (1 + ((x div 2) mod (2 + (x mod 2)))))),x,0) div 2))
1: (x + (loop(\(x,i).((x + 2) + (x div (2 + (x mod 2)))),x,2) div (x + 2)))
1: (1 + (loop(\(x,i).((x + 1) + (x div (1 + (x mod 4)))),x,0) div 2))
1: (1 + (loop(\(x,i).((x + 1) + (x div (1 + (x mod 4)))),x,0) div 5))
1: (1 + (loop(\(x,i).(x + ((x div (2 + i)) + i)),x,1) div 3))
1: (2 + (loop(\(x,i).((x + 1) + (((~x + 2) mod 4) + i)),x,1) div 2))
1: (1 + (loop(\(x,i).((x + 1) + (if (x mod 2) <= 0 then 2 else ((x + ~2) mod (1 + (x div 4))))),x,0) div 2))
1: (1 + (loop(\(x,i).(2x + (if (i mod 3) <= 0 then x3 else 1)),x,1) div 2))
1: (1 + (loop(\(x,i).((x + 1) + loop(\(x,i).(x - (loop(\(x,i).(~x2 + 1),2,4) mod (x + 1))),2,x)),x,1) div 2))
1: (1 + (loop(\(x,i).(2x + i),(x + 2),2) div 5))
1: (1 + (loop(\(x,i).(2x + i),x,2) div 2))
1: (1 + (loop(\(x,i).((x + 1) + loop(\(x,i).2x,x,1) - (x mod 2)),x,1) div 2))
1: (2 + (loop(\(x,i).((x + 1) + loop(\(x,i).((if x <= 0 then 2 else loop(\(x,i).(x div (2 - (x mod 2))),x,x)) div 2),2,x) - (x mod 2)),x,1) div 2))
1: ((loop(\(x,i).((5x + 1) - (x mod 3)),x,2) div 2) + (x mod 3))
1: (2 + (loop(\(x,i).(~x + 17),x,(x + 2)) div 2))
1: (1 + (loop(\(x,i).((2x + 1) - ((~x + ((x + ~2) * (x div 3))) div 3)),x,1) div 2))
1: (1 + (loop(\(x,i).(1 + (x * i) - (i div 2)),x,0) div 2))
1: (2 + (loop(\(x,i).(1 + (x div 2) - (2 * (x mod 2))),3,(x + 3)) div 2))
1: (1 + (loop(\(x,i).((x + ~1) + loop(\(x,i).(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 1))),2,x)),x,x) div 2))
1: (x + (loop(\(x,i).(x + i - ((~x + 2) div 4)),x,2) div 2))
1: (1 + (loop(\(x,i).(x + i - ((~1 + (x div 4)) div 2)),x,0) div 2))
1: (1 + (loop(\(x,i).(x + i - (x div ~4)),x,1) div 2))
1: (1 + (loop(\(x,i).(3x + 1),(x + 1),x) div 2))
1: (1 + (loop(\(x,i).(3x + 1),x,1) div (1 + (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))))
1: (1 + (loop(\(x,i).(3x + 2),x,2) div (x + 1)))
1: (x + (loop(\(x,i).(5x + 1),x,1) div (x + 1)))
1: (1 + (loop(\(x,i).(5x + 2),x,1) div (x + 1)))
1: (1 + (loop(\(x,i).(x + (5 * i)),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2))
1: (x + (loop(\(x,i).(x2 + 4x + 1),2,x) div (x + 1)))
1: (1 + (loop(\(x,i).(7x + 1),x,1) div (x + 1)))
1: (1 + (loop(\(x,i).(x + ((x + (i div 2)) * i)),(x + ~1),1) div 2))
1: (1 + (loop(\(x,i).(x + ((2 + (i div 3)) * (1 + i))),x,x) div 2))
1: (1 + (loop(\(x,i).(2 + (x * (2 + (x mod 2)))),(x div 2),(x mod 2)) div 2))
1: (1 + (loop(\(x,i).(1 + (2 * (x + (i mod 2)))),x,x) div 3))
1: (x + (loop(\(x,i).(x + (2 * (x + (i mod 2)))),x,0) div (x + 2)))
1: (1 + (loop(\(x,i).(1 + (x * (1 + (if (x mod 3) <= 0 then 2 else 0)))),2x,1) div 3))
1: (1 + (loop(\(x,i).(3x + 7),x,1) div 5))
1: (1 + (loop(\(x,i).(3x + 8),x,0) div 7))
1: (2 + (loop(\(x,i).(x + ((1 + i) * i)),(1 + (x div 2)),x) div 2))
1: (1 + (loop(\(x,i).((2x + 1) + ((2 + i) * (1 + i))),x,2) div 2))
1: (1 + (loop(\(x,i).(x + ((2 + i) * i)),(x + 1),0) div 9))
1: (x + (loop(\(x,i).(x + ((2 + i) * i)),(x + 2),x) div 3))
1: (1 + (loop(\(x,i).(x + ((2 + i) * i)),x,(x div 2)) div 2))
1: (1 + (loop(\(x,i).((2 * (x + i)) + (i mod 2)),x,1) div 2))
1: (2 + (loop(\(x,i).(x + ((~1 + ((2 + i) * i)) * i)),(x + 1),0) div 2))
1: (x + (loop(\(x,i).(x + ((~1 + (i * i * i)) * (2 + i))),x,0) div 2))
1: (1 + (loop(\(x,i).(x + ((~1 + (i * i)) * (~2 + i))),x,0) div 2))
1: (1 + (loop(\(x,i).(1 + (2 * ((x + 2) - (i mod 2)))),x,2) div 2))
1: (1 + (loop(\(x,i).(1 + (2 * (x - (x div (2 + (i mod 2)))))),x,1) div (x + 1)))
1: (x + (loop(\(x,i).((x * (x - i)) + i),x,2) div 2))
1: ((loop(\(x,i).(10x + 1),(x + 1),loop(\(x,i).(10x + 10),x,0)) div 2) + loop(\(x,i).10x,x,1))
1: ((loop(\(x,i).(10x + 1),(x + 1),loop(\(x,i).(10x + 10),x,0)) div 2) + loop(\(x,i).10x,x,2))
1: (1 + (loop(\(x,i).(1 + (x2 * ((x + ~1) + (i * i)))),x,1) div 2))
1: (1 + (loop(\(x,i).(10x + 12),(x + ~2),x) div 2))
1: (1 + (loop(\(x,i).(2x + ((1 + i) * i * (1 + i))),(x + ~2),1) div 2))
1: (1 + (loop(\(x,i).(1 + (2x * (~1 + (2 * i)))),x,1) div 2))
1: (1 + (loop(\(x,i).(12x + 1),x,1) div loop(\(x,i).(4x + ~1),x,1)))
1: (1 + (loop(\(x,i).(x4 + ~x3 + 2),x,x) div 3))
1: (1 + (loop(\(x,i).(1 + ((2x + 2) * (x mod 2))),(x div 2),x) div 2))
1: (1 + (loop(\(x,i).(4x + 1),(x + ~2),x) div (x + 1)))
1: (2 + (loop(\(x,i).(1 + (x * (i * i))),(x + 3),2) div 2))
1: (x + (loop(\(x,i).(1 + (x * ((x + ~1) div 3))),2,x) div 3))
1: (1 + (loop(\(x,i).(x + (2 * (x div 3))),x,(x + 1)) div 2))
1: (1 + (loop(\(x,i).((x * (x mod 2)) + (x div 2)),(x + ~1),(x + 2)) div 2))
1: (1 + (loop(\(x,i).(2 + (3 * (x mod 7))),x,2) div 2))
1: (2 + (loop(\(x,i).(2x + 1),((x2 + 4x + 4) div 2),(1 + (x mod 2))) div 2))
1: (1 + (loop(\(x,i).(2x + 1),(x div 2),((x mod 2) - (x div ~2))) div 2))
1: (2 + (loop(\(x,i).(2x + 1),x,2) div 2))
1: (1 + (loop(\(x,i).(2x + 1),x,8) div 2))
1: (1 + (loop(\(x,i).(2x + 1),x,(if (x + ~3) <= 0 then 2 else 1)) div 2))
1: (1 + (loop(\(x,i).(2x + 1),x,loop(\(x,i).3x,x,1)) div 3))
1: (1 + (loop(\(x,i).(2x + 1),x,loop(\(x,i).2x,x,2)) div 3))
1: (x2 + (loop(\(x,i).(x2 + 1),2,(x + 1)) div 3))
1: (x + (loop(\(x,i).(x2 + 1),2,(x + ~1)) div 3))
1: (1 + (loop(\(x,i).(x2 + 2),1,(compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 3))
1: (x + (loop(\(x,i).(x + (i * i)),x,2) div 3))
1: (x + (loop(\(x,i).(x + ((x + (i * i)) div (1 + (x div 2)))),x,1) div 3))
1: (1 + (loop(\(x,i).(1 + ((1 + ((x2 + (x div 2)) div 3)) div 3)),2,x) div 3))
1: (1 + (loop(\(x,i).(1 + ((x + ((1 + ((((x + 1) * (x + (if x <= 0 then 1 else loop(\(x,i).(x - (if x <= 0 then 1 else (x - ((if x <= 0 then 2 else loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 2)))),x,x)))) div 2) div 2)) div 2)) div 2)),1,(x + 1)) div 2))
1: (x + (loop(\(x,i).(1 + ((x + ((x2 div 2) div 3)) div 2)),2,x) div 3))
1: (2x + (loop(\(x,i).(x + ((x + (x div 2)) div 2)),2,(2 + (x div 2))) div 2))
1: ((loop(\(x,i).(x + (((x div 2) + i) div 4)),x,2) div 2) + (x div 2))
1: (1 + (loop(\(x,i).(x + ((x + i) div 2)),(x div 2),1) div 2))
1: (2 + (loop(\(x,i).(x + ((x + i) div 3)),x,2) div 2))
1: (x + (loop(\(x,i).(2x + (8 div (1 + i))),(x div 2),x) div 2))
1: (1 + (loop(\(x,i).(1 + ((2x2 + 4x + 4) div 5)),2,x) div 3))
1: (2x + (loop(\(x,i).(2 + ((x2 + x) div 2)),2,(x + ~1)) div 3))
1: (x + (loop(\(x,i).(2 + ((x2 + x) div 2)),2,(x + ~1)) div 3))
1: (1 + (loop(\(x,i).(x + ((x * (1 + i)) div (2 + (x div 4)))),x,1) div 2))
1: (1 + (loop(\(x,i).(1 + ((x2 + ~x) div 8)),2,x) div 2))
1: (x + (loop(\(x,i).((4x div (1 + i)) + i),x,1) div 3))
1: (1 + (loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,x) div 5))
1: (x + (loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,x) div 5))
1: (1 + (loop(\(x,i).(2 + ((x div 2) div (1 + (x mod 3)))),2,x) div 3))
1: (1 + (loop(\(x,i).(1 + (loop(\(x,i).(x * i),x,(5x + 1)) div 2)),1,(x + 2)) div 2))
1: (1 + (loop(\(x,i).(x + (x div 2)),(x + ~2),2) div (x + 2)))
1: (x + (loop(\(x,i).(x + (x div 2)),x,2) div (x + 1)))
1: (x + (loop(\(x,i).(x + (x div 3)),x,5) div 2))
1: (1 + (loop(\(x,i).(2 + (x div (1 + (2 * (x mod 2))))),1,(1 + (if (~1 + (x mod 3)) <= 0 then x else 2))) div 2))
1: (1 + (loop(\(x,i).(1 + (x div (1 + (loop(\(x,i).2x,x,2) mod (2x + 1))))),1,(x + 1)) div 2))
1: (1 + (loop(\(x,i).(x + (x div (2 + (x mod 2)))),x,2) div (x + 2)))
1: (1 + (loop(\(x,i).(1 + (x div (2 - (x mod 2)))),x,(x div 3)) div 2))
1: (1 + (loop(\(x,i).(x + (i div 2)),(x + ~8),1) div 2))
1: (1 + (loop(\(x,i).(2x + ((((((x3 + ~3x2 + 2x) div 2) div 2) div 2) div 2) mod 2)),x,1) div 2))
1: (1 + (loop(\(x,i).(2x + (i mod 2)),x,1) div 2))
1: (1 + (loop(\(x,i).(2x + (i mod 2)),x,1) div (4 + (x mod 2))))
1: ((loop(\(x,i).(2x + (i mod 2)),x,2) div 3) + loop(\(x,i).2x,x,1))
1: (1 + (loop(\(x,i).(x + (if (~2 + (x div 3)) <= 0 then 1 else 2)),x,(x + 1)) div 2))
1: (x + (loop(\(x,i).(x + (if (~2 + (x div 3)) <= 0 then 1 else 2)),x,(x + 1)) div 2))
1: (1 + (loop(\(x,i).(x + (if (~2 + (x div 4)) <= 0 then i else 1)),x,1) div 5))
1: (x + (loop(\(x,i).(x + (if ((x div 3) mod 2) <= 0 then 3 else 2x)),x,1) div 2))
1: (1 + (loop(\(x,i).(x + (if (i mod 2) <= 0 then (~1 + i) else x)),x,1) div 2))
1: (x2 + (loop(\(x,i).((if (i mod 3) <= 0 then 1 else i) + (x * i)),x,1) div (x + 1)))
1: (1 + (loop(\(x,i).(x + loop(\(x,i).(x + ((i mod 2) * (1 + i))),i,1)),x,1) div 2))
1: (1 + (loop(\(x,i).(x + loop(\(x,i).(x + (if x <= 0 then 1 else loop(\(x,i).(x - (if x <= 0 then 1 else (2 * i))),x,x))),1,i)),x,1) div 2))
1: (1 + (loop(\(x,i).(x + loop(\(x,i).(x - ((x - (((x + 1) * (2 - ((x div 2) mod 2))) mod 3)) div 2)),2,x)),(x + 1),1) div 2))
1: (1 + (loop(\(x,i).(6x + loop(\(x,i).(10x + 2),2,x)),x,1) div 2))
1: (2x + (loop(\(x,i).(x + loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),i,x)),x,1) div 2))
1: (1 + (loop(\(x,i).(2x + loop(\(x,i).(2 * (x - (i mod 2))),i,1)),x,1) div 2))
1: (1 + (loop(\(x,i).(x + loop(\(x,i).(4 * ((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1))),1,i)),x,0) div 2))
1: (1 + (loop(\(x,i).(x + loop(\(x,i).2x,(x mod (1 + i)),2)),x,0) div 2))
1: (1 + (loop(\(x,i).(2 + loop(\(x,i).x2,1,(~2 + (x div 2)))),2,x) div 2))
1: (1 + (loop(\(x,i).(1 + loop(\(x,i).(x * i),(x + ~2),3)),x,1) div 2))
1: (1 + (loop(\(x,i).(loop(\(x,i).(x * i),x,i) + i),x,0) div 2))
1: ((x + 1) + (loop(\(x,i).(x + loop(\(x,i).((x2 + ~x) div 2),2,(1 + i))),x,1) div 3))
1: (x + (loop(\(x,i).(x + loop(\(x,i).((x + 2) mod (1 + i)),i,1)),x,1) div (x + 1)))
1: (1 + (loop(\(x,i).(x + loop(\(x,i).loop(\(x,i).2x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),2),1,i)),x,1) div 2))
1: (1 + (loop(\(x,i).(x + loop(\(x,i).loop(\(x,i).2x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),3),1,i)),x,1) div 2))
1: (1 + (loop(\(x,i).(x + loop(\(x,i).loop(\(x,i).2x,(compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1),1,i)),x,1) div 2))
1: (1 + (loop(\(x,i).(x + 2),(x + ~8),x) div 3))
1: (1 + (loop(\(x,i).(x + i),((if (x mod 2) <= 0 then 2 else 0) + (x div 2)),0) div 2))
1: (1 + (loop(\(x,i).(x + i),(~2 + (x div 2)),1) div 2))
1: (1 + (loop(\(x,i).(x + i),(x + ~2),1) div 2))
1: (1 + (loop(\(x,i).(x + i),(x + ~8),1) div 2))
1: (1 + (loop(\(x,i).(~2x + 1),x,(x + 1)) div 3))
1: (1 + (loop(\(x,i).(1 - ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)),1,(x + 1)) div 3))
1: (1 + (loop(\(x,i).(~x + 1),(x div (2 + (x mod 2))),(x + 1)) div 2))
1: (1 + (loop(\(x,i).(~x + 1),x,(1 + ((x * (x div 3)) mod (1 + ((2 - (x div 2)) mod 4))))) div 2))
1: (1 + (loop(\(x,i).(2x + i - (x div 3)),x,1) div 2))
1: (1 + (loop(\(x,i).(1 + (8 * (x mod 2)) - (x div 2)),x,1) div 2))
1: (1 + (loop(\(x,i).((x + ~1) + ((x + (x div 2)) div 5)),x,1) div 2))
1: (1 + (loop(\(x,i).((3x + ~1) + (if (x mod (1 + i)) <= 0 then 0 else x)),x,1) div 2))
1: (1 + (loop(\(x,i).((x + 2) - ((~x + 1) div 3)),x,1) div 5))
1: (x + (loop(\(x,i).(0 - (3 * ((~x + ((~x + 2) div 4)) div 2))),2,x) div 2))
1: (2 + (loop(\(x,i).((~2x + ~5) + loop(\(x,i).4x,x,1)),x,1) div 2))
1: (x + (loop(\(x,i).((4x + 3) - ((~2x + 2) div 5)),2,x) div 2))
1: (2 + (loop(\(x,i).(3x + ~1),(x + 1),x) div 2))
1: (2 + (loop(\(x,i).(3x + ~1),x,1) div 2))
1: (2 + (loop(\(x,i).(~1 + (3 * (1 + (x div (1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))))),2,x) div 3))
1: (x + (loop(\(x,i).(~1 + ((x + 2) * i)),x,0) div 3))
1: (1 + (loop(\(x,i).(~1 + (x * (1 + i))),x,1) div 3))
1: (1 + (loop(\(x,i).(~1 + (x * (2 - (i mod 2)))),(x + ~1),x) div 2))
1: (1 + (loop(\(x,i).(x2 + ~2x + ~1),(x + ~1),2x) div 2))
1: (2 + (loop(\(x,i).(4x + ~1),(x + 1),x) div 3))
1: (x + (loop(\(x,i).(2x2 + ~1),2,x) div 3))
1: (x + (loop(\(x,i).(2x2 + ~1),(x div 2),x) div 2))
1: (1 + (loop(\(x,i).(2x + ~1),(x + ~1),loop(\(x,i).2x,x,1)) div 2))
1: (1 + (loop(\(x,i).(2x - ((x div 2) div 3)),x,1) div 2))
1: (1 + (loop(\(x,i).(2x - ((if (i mod 2) <= 0 then 1 else 2x) div (1 + i))),(x + 2),2) div 2))
1: (x + (loop(\(x,i).(2x - (x div 4)),3,x) div 5))
1: (1 + (loop(\(x,i).(2x - ((1 + i) mod (x + 1))),x,1) div 2))
1: (1 + (loop(\(x,i).(2x - (x mod (1 + i))),x,2) div 3))
1: (2 + (loop(\(x,i).(2x - (i mod 2)),(x + ~1),1) div 2))
1: (1 + (loop(\(x,i).(2x - (if x <= 0 then 0 else 1)),(x + ~1),(x + ~2)) div 2))
1: (x + (loop(\(x,i).(x2 + ~1),(x div 2),x) div 2))
1: (1 + (loop(\(x,i).(~2x + (if (x mod (1 + i)) <= 0 then 0 else x)),x,x) div (x + 1)))
1: (1 + (loop(\(x,i).(~x + (if x <= 0 then 5 else 8)),x,x) div 2))
1: (2 + (loop(\(x,i).(~1 + loop(\(x,i).(3 * (x + loop(\(x,i).2x,i,1))),(x + 1),1)),1,(x + 2)) div 2))
1: (2 + (loop(\(x,i).(~1 + loop(\(x,i).(2x2 + 4x + ~4),2,x)),(x + 1),1) div 2))
1: (1 + (loop(\(x,i).(~3x + loop(\(x,i).2x,i,1)),x,2) div 2))
1: (1 + (loop(\(x,i).((x + 1) - ((~x + 2) div (4 + (x mod 2)))),x,0) div 2))
1: (x + (loop(\(x,i).((x + 1) - ((~4x + 2) div (x + 3))),2,x) div 2))
1: (2 + (loop(\(x,i).((x + 1) - (((x div 2) div ~2) div 2)),x,1) div 3))
1: (x + (loop(\(x,i).((x + 1) - (x div (~2 + (((~x + 2) div 2) div 3)))),x,2) div 2))
1: (1 + (loop(\(x,i).((3x + 1) - i),x,1) div 3))
1: (1 + (loop(\(x,i).(~6x2 + 3x),2,x) div (x + 1)))
1: (x + (loop(\(x,i).(x - (2 * (~x + i))),x,x) div 3))
1: (1 + (loop(\(x,i).(x - ((~x + 2) div 5)),x,x) div (x + 2)))
1: (1 + (loop(\(x,i).(x - (((~x + ~1) + (x div 3)) div 3)),(x + ~1),0) div 2))
1: (1 + (loop(\(x,i).(x - ((~x + ((~x + 1) div 3)) div 5)),x,1) div 2))
1: (1 + (loop(\(x,i).(x - ((~1 + (x div (~3 + (x mod ~2)))) div 2)),x,1) div 2))
1: (2 + (loop(\(x,i).(x - (x div (~2 + (x mod ~2)))),x,1) div 2))
1: (1 + (loop(\(x,i).(x - (x div 12)),x,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2))
1: (1 + (loop(\(x,i).(x - (if (~x + i) <= 0 then (1 + i) else 0)),x,x) div 3))
1: (1 + (loop(\(x,i).3x,(1 + ((x * (x div 3)) mod (1 + ((2 - (x div 2)) mod 4)))),1) div 3))
1: (1 + (loop(\(x,i).3x,(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,x)),1) div 3))
1: (1 + (loop(\(x,i).3x,(x3 + 2x),1) div 2))
1: (1 + (loop(\(x,i).3x,2x,1) div (x5 + loop(\(x,i).7x,x,1))))
1: (1 + (loop(\(x,i).3x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 4))
1: ((loop(\(x,i).3x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 5) + (x div 5))
1: (1 + (loop(\(x,i).3x,(x div 2),1) div 2))
1: (x + (loop(\(x,i).3x,x,1) div (3x + 1)))
1: (1 + (loop(\(x,i).(4x + 4),(x + 1),(4x + 4)) div 5))
1: (1 + (loop(\(x,i).5x,(~5 + (x div 2)),1) div 2))
1: (1 + (loop(\(x,i).(2x + 12),x,x) div 2))
1: (1 + (loop(\(x,i).(2x + 20),x,x) div 2))
1: (1 + (loop(\(x,i).(2x + 8),x,x) div 2))
1: (1 + (loop(\(x,i).(2x + 8),x,x) div 8))
1: (1 + (loop(\(x,i).(x * (3 + i)),(x + 3),2) div 3))
1: (2 + (loop(\(x,i).(7x + 7),x,0) div 2))
1: (1 + (loop(\(x,i).(6x + 4),(x + 1),x) div 5))
1: (1 + (loop(\(x,i).(2x + 16),x,x) div 2))
1: (2 + (loop(\(x,i).(x * (1 + (5 * i))),x,1) div 2))
1: (1 + (loop(\(x,i).(x3 + 2x2 + 2x),1,loop(\(x,i).10x,(x + 1),1)) div 3))
1: (1 + (loop(\(x,i).(2 * (x + ((x + i) * i))),(x + ~1),1) div 2))
1: (1 + (loop(\(x,i).(x * (1 + (6 * i))),(x + ~2),x) div 2))
1: (1 + (loop(\(x,i).(4x + 2),(x + 1),x) div 3))
1: (1 + (loop(\(x,i).(4x + 2),(x + ~2),1) div 3))
1: (1 + (loop(\(x,i).(4x + 2),x,1) div 2))
1: (2 + (loop(\(x,i).(4x + 2),x,1) div 2))
1: (1 + (loop(\(x,i).((2x + 1) * i),(x + ~1),0) div 2))
1: (2 + (loop(\(x,i).(x3 + 2x),1,(4x + 2)) div 3))
1: (1 + (loop(\(x,i).(3 * (2 + (x div 2))),x,0) div 2))
1: (x + (loop(\(x,i).(2 * (2x + (x div (if i <= 0 then 1 else i)))),x,3) div 5))
1: (1 + (loop(\(x,i).(2 * (2x + (x div (if i <= 0 then 1 else i)))),x,x) div 2))
1: (1 + (loop(\(x,i).(x * (1 + ((1 - (2x mod (4 + (x div 4)))) mod (x + 1)))),(x + 1),1) div 3))
1: (1 + (loop(\(x,i).((x + 1) * (2 + (x mod 2))),(x div 2),(1 + (2 * (x mod 2)))) div 2))
1: (1 + (loop(\(x,i).(x * (1 + (x mod 5))),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2))
1: (1 + (loop(\(x,i).(2 * (x + (i mod 2))),(x + ~2),1) div 2))
1: (1 + (loop(\(x,i).(2 * (x + (i mod 2))),x,(x + 2)) div 3))
1: (1 + (loop(\(x,i).(2 * (x + (if (i mod 2) <= 0 then 2 else 0))),x,1) div 3))
1: (1 + (loop(\(x,i).(2x + 2),(((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3) + (if x <= 0 then 0 else 1)),1) div 2))
1: (1 + (loop(\(x,i).(2x + 2),((x div 2) - (x mod 2)),2) div 3))
1: (x + (loop(\(x,i).(2x + 2),(x + ~2),(1 + loop(\(x,i).2x,x,1))) div 2))
1: (x + (loop(\(x,i).(2x + 2),(2 * (x div 7)),1) div (x + 1)))
1: (1 + (loop(\(x,i).(2x + 2),(x div 2),(x mod 2)) div 2))
1: (1 + (loop(\(x,i).(2x + 2),(x div 2),(x mod 2)) div 3))
1: (1 + (loop(\(x,i).(2x + 2),(if x <= 0 then 1 else (2 * (1 + (x div (2 + (x div (1 + (x mod (2 * (1 + (x mod 2))))))))))),1) div 2))
1: ((loop(\(x,i).(2x + 2),x,2) div (x + 2)) + (x div 5))
1: (x + (loop(\(x,i).(2x + 2),x,2) div (x + 2)))
1: ((loop(\(x,i).(2x + 2),x,(x + 4)) div 2) + loop(\(x,i).3x,x,1))
1: (1 + (loop(\(x,i).(2x + 2),x,(1 + (x mod 2))) div 3))
1: (1 + (loop(\(x,i).(2x + 2),x,~x) div (x + 1)))
1: (1 + (loop(\(x,i).(3x + 3),(x + 2),((x + 1) mod 2)) div 2))
1: (1 + (loop(\(x,i).(3x + 3),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2))
1: (1 + (loop(\(x,i).(3x + 3),x,1) div 2))
1: (1 + (loop(\(x,i).(3x + 3),x,2x) div 2))
1: (1 + (loop(\(x,i).(x2 + x),1,(1 + (loop(\(x,i).(x * i),x,1) div 3))) div 2))
1: (2 + (loop(\(x,i).(x2 + x),1,(x - (x2 div 8))) div 2))
1: (1 + (loop(\(x,i).(x2 + x),1,loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x)) div 2))
1: (1 + (loop(\(x,i).(x2 + x),1,loop(\(x,i).10x,x,1)) div 3))
1: (1 + (loop(\(x,i).((x + 1) * i),x,(x + 1)) div 2))
1: (1 + (loop(\(x,i).(2x + 4),(2x + ~1),(1 + (x mod 2))) div 2))
1: (x + (loop(\(x,i).(2x + 4),(x + ~1),0) div 5))
1: (1 + (loop(\(x,i).(2x + 4),(x + ~1),x) div 4))
1: (1 + (loop(\(x,i).(2x + 4),(x + ~2),0) div (2x + 1)))
1: (1 + (loop(\(x,i).(2x + 4),loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1) div (x + 2)))
1: ((loop(\(x,i).(2x + 4),x,1) div 2) + (x mod 2))
1: (1 + (loop(\(x,i).(2x + 4),x,(x + 5)) div 2))
1: (1 + (loop(\(x,i).(2x + 4),x,(1 + (x mod 2))) div 3))
1: (1 + (loop(\(x,i).(2x + 4),x,x) div 2))
1: (1 + (loop(\(x,i).(2x + 4),x,x) div 4))
1: (1 + (loop(\(x,i).(3x + 6),(x + ~1),(x + 2)) div 3))
1: (2 + (loop(\(x,i).(x2 + 2x),1,(x5 + 2)) div 2))
1: (1 + (loop(\(x,i).(x2 + 2x),1,(((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3) + (if x <= 0 then 0 else 1))) div 3))
1: (1 + (loop(\(x,i).(x2 + 2x),1,loop(\(x,i).(1 + (x * (2 + i))),x,1)) div 2))
1: (1 + (loop(\(x,i).(x2 + 2x),2,x) div 2))
1: (1 + (loop(\(x,i).(x2 + 2x),3,x) div 2))
1: (1 + (loop(\(x,i).(x2 + 2x),3,x) div (2x + 2)))
1: (1 + (loop(\(x,i).(x * (1 + i)),x,(2 + ((x2 + x) div 2))) div 2))
1: (1 + (loop(\(x,i).(x * (1 + i)),x,(x + 1)) div 2))
1: (1 + (loop(\(x,i).(x * (2 + i)),4,(x + 1)) div (x + 3)))
1: (1 + (loop(\(x,i).(x * (2 + i)),(x + 3),2) div 5))
1: (1 + (loop(\(x,i).(x * (2 + i)),(x + 2),1) div 2))
1: (x + (loop(\(x,i).(x * (2 + i)),(x + ~2),3) div 2))
1: (1 + (loop(\(x,i).(x * (2 + i)),(x div 2),1) div loop(\(x,i).2x,x,2)))
1: (1 + (loop(\(x,i).(x * (2 + i)),x,(4x + 3)) div 3))
1: (1 + (loop(\(x,i).(x * (2 + i)),compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x),1) div 3))
1: (1 + (loop(\(x,i).(x * (2 + i)),compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x),2) div 3))
1: (1 + (loop(\(x,i).(x * (2 + i)),compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x),1) div 2))
1: (1 + (loop(\(x,i).(x * (2 + i)),compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x),1) div 5))
1: ((x + 1) + (loop(\(x,i).(2 * (x + i)),(x + ~1),(x + 2)) div 2))
1: (1 + (loop(\(x,i).(2 * (x + i)),x,1) div 2))
1: (2 + (loop(\(x,i).(2 * (x + i)),x,x) div 2))
1: (2 + (loop(\(x,i).(2x * (x + i)),x,4) div (x + 1)))
1: (2 + (loop(\(x,i).((x + i) * i),x,2) div 2))
1: (1 + (loop(\(x,i).~2x,x,1) div 5))
1: (1 + (loop(\(x,i).(x * (1 - ((x3 div 8) mod 2))),1,(x + ~1)) div 3))
1: (1 + (loop(\(x,i).(~2x + 2),x,(2 * (x mod 2))) div (x + 1)))
1: (1 + (loop(\(x,i).(3 * ((x + ~1) + (2 * i))),(x + ~1),x) div 2))
1: (1 + (loop(\(x,i).(((x + ~1) + i) * i),x,0) div 2))
1: (1 + (loop(\(x,i).(2 * ((x2 + x) - (x div 3))),x,1) div 2))
1: (1 + (loop(\(x,i).(2 * ((x * (1 + i)) - (x div 3))),x,1) div 2))
1: (1 + (loop(\(x,i).(x * (~1 + (loop(\(x,i).(x2 + ~x),2,2x) * (1 + i)))),x,1) div 2))
1: (1 + (loop(\(x,i).(2 * (2x - (2x * (x div 2)))),x,1) div 2))
1: (1 + (loop(\(x,i).(2 * (2x - (x mod 8))),3,x) div 2))
1: (2 + (loop(\(x,i).(2x + ~2),x,x) div 2))
1: (1 + (loop(\(x,i).(2x + ~4),x,(x + 2)) div 3))
1: (1 + (loop(\(x,i).(2x + ~4),x,(x + 2)) div (x + 1)))
1: (1 + (loop(\(x,i).(2x + ~4),x,3x) div 2))
1: (2 + (loop(\(x,i).(x2 + ~2x),3,x) div (x + 1)))
1: (x + (loop(\(x,i).(x2 + ~2x),3,x) div (x + 1)))
1: (1 + (loop(\(x,i).(2 * (x - (2 * (x div 5)))),x,1) div 2))
1: (1 + (loop(\(x,i).(2 * (x - ((x + (x div 3)) div 5))),(x + ~1),1) div 2))
1: (1 + (loop(\(x,i).(2 * (x - ((x + (x div 3)) div 5))),(x + ~1),2) div 2))
1: (1 + (loop(\(x,i).(9 * (x - ((3 * (x div 4)) div 2))),x,1) div 2))
1: (1 + (loop(\(x,i).(2 * (x - (x div 3))),x,1) div 2))
1: (2 + (loop(\(x,i).(2 * (x - (x div ~7))),x,1) div 2))
1: (1 + (loop(\(x,i).(2 * (x - (i mod 2))),x,2) div 3))
1: (1 + (loop(\(x,i).(2 * (x - i)),x,x) div 2))
1: (2 + (loop(\(x,i).21x,x,x) div 2))
1: (1 + (loop(\(x,i).(4 * (2x - (x mod 2))),x,1) div 3))
1: (2 + (loop(\(x,i).8x,((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2),1) div 2))
1: (2 + (loop(\(x,i).8x,x,1) div 2))
1: (1 + (loop(\(x,i).(3 * ((2x div (1 + i)) * (~1 + (2 * i)))),x,1) div 2))
1: (1 + (loop(\(x,i).4x,(x + ~2),x) div 2))
1: (2 + (loop(\(x,i).4x,x,1) div 13))
1: (1 + (loop(\(x,i).4x,x,2) div (1 + (((x mod 4) - (x div 2)) mod 3))))
1: (x + (loop(\(x,i).4x,x,2) div (x + 1)))
1: (2 + (loop(\(x,i).4x,x,(2 - ((2x + 2) mod 5))) div 3))
1: (2x + (loop(\(x,i).4x,x,(if (x mod (4 - (x mod 2))) <= 0 then 1 else 0)) div (x + 1)))
1: ((loop(\(x,i).4x,x,x) div 2) + loop(\(x,i).3x,x,1))
1: (x + (loop(\(x,i).4x,i,x) div 2))
1: ((2x + 3) + (loop(\(x,i).6x,(x + ~1),1) div 2))
1: (16 + (loop(\(x,i).2x2,(if x <= 0 then 1 else 2x),2) div 2))
1: (1 + (loop(\(x,i).x3,1,(4x2 + 4x + 1)) div 2))
1: (1 + (loop(\(x,i).x3,x,2) div 2))
1: (x + (loop(\(x,i).x3,x,2) div (x + 1)))
1: (1 + (loop(\(x,i).x3,x,2) div loop(\(x,i).3x,x,3)))
1: (1 + (loop(\(x,i).(2x * i),(x + ~1),1) div 2))
1: (1 + (loop(\(x,i).(2x * i),(x + ~1),1) div 3))
1: (1 + (loop(\(x,i).(2x * i),(x + ~2),1) div 2))
1: (x + (loop(\(x,i).(2x * i),((x + 1) div 2),x) div (x + 2)))
1: (1 + (loop(\(x,i).(2x * i),x,4) div 3))
1: (1 + (loop(\(x,i).(x * (i * (1 + i))),(x + ~2),1) div 2))
1: (1 + (loop(\(x,i).(2 * ((1 + (((loop(\(x,i).4x,x,2) - loop(\(x,i).3x,x,1)) div 2) div 2)) div 2)),x,1) div 2))
1: (1 + (loop(\(x,i).((x + 1) * ((x + 1) div 2)),(1 + (x div 2)),(x + ~1)) div 3))
1: (2 + (loop(\(x,i).(x * ((1 + i) div 2)),x,1) div 3))
1: (1 + (loop(\(x,i).(x * ((1 + i) div 2)),x,1) div (x + 3)))
1: (1 + (loop(\(x,i).(2 * ((~1 + (((x2 + x) * (1 - (2 * (x mod 2)))) div 2)) div 2)),1,(x + 1)) div 2))
1: (1 + (loop(\(x,i).(2 * (((x + ~1) + ((2 * (3 + (((~1 + (6 * (1 + ((1 + (x div (1 + (x mod (1 + (x mod (1 + (x div (2 * (2 - (x mod 2))))))))))) div 2)))) div 2) div 2))) div 3)) div 2)),x,1) div 2))
1: (1 + (loop(\(x,i).(2 * ((3 * (1 + (2 * (1 + (x div 5))))) div 2)),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2))
1: (1 + (loop(\(x,i).(x * (x2 div 2)),1,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)) div 2))
1: (x + (loop(\(x,i).(x * (x div 2)),2,x) div 3))
1: (x + (loop(\(x,i).(x * (x div 2)),(x + ~2),x) div 2))
1: (1 + (loop(\(x,i).(x * (x div (1 + (x mod 2)))),1,(~1 + ((~2x + 2) mod (4 + (x div 4))))) div 2))
1: (2 + (loop(\(x,i).(x2 * loop(\(x,i).(2x2 + ~x),2,x)),x,5) div 2))
1: (1 + (loop(\(x,i).2x,(0 + ((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3) - (x mod 2)),1) div 2))
1: (1 + (loop(\(x,i).2x,((if (x mod 2) <= 0 then 1 else x) - (x div 2)),1) div (x + 1)))
1: (x + (loop(\(x,i).2x,(x + ~1),1) div 2))
1: (1 + (loop(\(x,i).2x,(x + ~1),(x + 3)) div 2))
1: (1 + (loop(\(x,i).2x,(x + ~1),(3x + 1)) div 2))
1: (1 + (loop(\(x,i).2x,(x + ~1),(3x + 4)) div 2))
1: (1 + (loop(\(x,i).2x,(x + ~9),1) div 2))
1: (1 + (loop(\(x,i).2x,(x + ~6),1) div 2))
1: (x + (loop(\(x,i).2x,(~1 + i),x) div 2))
1: (1 + (loop(\(x,i).2x,((1 + (((~1 + loop(\(x,i).2x,x,(if x <= 0 then 1 else (2 * (if (~2 + (x div 3)) <= 0 then 0 else 2))))) mod (x + 1)) div 2)) div 2),1) div 3))
1: (1 + (loop(\(x,i).2x,((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3),1) div 2))
1: ((loop(\(x,i).2x,(x div 2),1) div (x + 1)) + (x mod 2))
1: (1 + (loop(\(x,i).2x,(if (x + ~2) <= 0 then 1 else (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)),1) div 2))
1: (2 + (loop(\(x,i).2x,loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1) div 2))
1: ((loop(\(x,i).2x,x,1) div 2) + loop(\(x,i).(x * i),x,1))
1: (x + (loop(\(x,i).2x,x,1) div 2))
1: (x + (loop(\(x,i).2x,x,1) div 3))
1: (1 + (loop(\(x,i).2x,x,1) div (3 - (x mod 2))))
1: ((loop(\(x,i).2x,x,1) div 9) + (x mod 2))
1: (x + (loop(\(x,i).2x,x,1) div (x + 1)))
1: (x + (loop(\(x,i).2x,x,1) div (x + 2)))
1: (x + (loop(\(x,i).2x,x,1) div 8))
1: (1 + (loop(\(x,i).2x,x,1) div loop(\(x,i).(1 + (i div (x + 2))),x,1)))
1: (1 + (loop(\(x,i).2x,x,2) div 17))
1: (1 + (loop(\(x,i).2x,x,2) div (1 + (6 * (1 + (4 * (x mod 2)))))))
1: (2 + (loop(\(x,i).2x,x,2) div (x + 1)))
1: (1 + (loop(\(x,i).2x,x,3) div 2))
1: (1 + (loop(\(x,i).2x,x,(5 + (loop(\(x,i).3x,x,2) + loop(\(x,i).2x,x,1)))) div 2))
1: (1 + (loop(\(x,i).2x,x,(x + 6)) div 2))
1: (1 + (loop(\(x,i).2x,x,(3x + 4)) div 2))
1: (x + (loop(\(x,i).2x,x,(2 + (x mod 2))) div (x + 1)))
1: (1 + (loop(\(x,i).2x,x,(x + 1)) div 2))
1: (1 + (loop(\(x,i).2x,x,(x + 1)) div (x + 2)))
1: (x + (loop(\(x,i).2x,x,(1 - ((~1 + loop(\(x,i).4x,x,2)) mod (x + 1)))) div (x + 1)))
1: (1 + (loop(\(x,i).2x,x,(2 - loop(\(x,i).(5x + ~2),x,0))) div 3))
1: (1 + (loop(\(x,i).2x,x,(~1 + loop(\(x,i).(2x + (2x div (1 + (x div 2)))),x,1))) div 2))
1: ((x + 1) + (loop(\(x,i).2x,x,(~1 + loop(\(x,i).2x,x,2))) div 3))
1: (2 + (loop(\(x,i).2x,x,(5x + ~8)) div 2))
1: (1 + (loop(\(x,i).2x,x,2x) div (x + 1)))
1: (1 + (loop(\(x,i).2x,x,(if x <= 0 then 1 else (3 + loop(\(x,i).2x,x,2)))) div 2))
1: (1 + (loop(\(x,i).2x,x,(if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + ((loop(\(x,i).(2x2 + ~x),1,loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1)) div 2) div 2)) div 2)) div 2))))) div 2))
1: (1 + (loop(\(x,i).2x,x,(if x <= 0 then 1 else (2 * ((if x <= 0 then 2 else (loop(\(x,i).2x,(x + ~2),x) - ((x + ~1) * (if x <= 0 then 1 else x)))) div 2)))) div 2))
1: (1 + (loop(\(x,i).2x,x,loop(\(x,i).(x + (x div 2)),x,4)) div 2))
1: (1 + (loop(\(x,i).2x,x,loop(\(x,i).2x,(x div 2),(3 + (x mod 2)))) div (x + 1)))
1: ((loop(\(x,i).2x,x,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2) + (x mod 2))
1: (x + (loop(\(x,i).2x,i,1) div (1 + (x * i))))
1: (x + (loop(\(x,i).2x,i,2) div (1 + i)))
1: (x + (loop(\(x,i).2x,compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i),1) div 2))
1: (1 + (loop(\(x,i).x2,1,(x + (3 * loop(\(x,i).x3,x2,2)))) div 2))
1: (1 + (loop(\(x,i).x2,1,(1 + ((x mod (1 + (31 mod (x + 1)))) div 3))) div 3))
1: (1 + (loop(\(x,i).x2,1,(1 + (x mod (1 + ((4 + (x div 2)) mod (1 + (x div 3))))))) div 2))
1: (x + (loop(\(x,i).x2,1,(1 + loop(\(x,i).(2x + 4),x,4))) div 3))
1: (1 + (loop(\(x,i).x2,1,(2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))) div 2))
1: (1 + (loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2))
1: (1 + (loop(\(x,i).x2,1,(2 - ((x2 + 3x) div 2))) div 3))
1: ((x2 + ~x) + (loop(\(x,i).x2,1,(~2x2 + 2x + ~1)) div 3))
1: (1 + (loop(\(x,i).x2,1,(~1 + ((x2 + ~2x) div 2))) div 5))
1: (x + (loop(\(x,i).x2,1,((~x + ~2) + loop(\(x,i).(x * i),x,1))) div (x + 1)))
1: ((x2 + x) + (loop(\(x,i).x2,1,(3 * (x + (x mod 2)))) div 2))
1: (1 + (loop(\(x,i).x2,1,((2x + 8) div 5)) div 3))
1: (2 + (loop(\(x,i).x2,1,loop(\(x,i).(2x + ~4),x,1)) div 3))
1: (1 + (loop(\(x,i).x2,1,compr(\x.(loop(\(x,i).(~2x + 2),x,2) mod (x + 2)),x)) div 2))
1: (1 + (loop(\(x,i).x2,2,(3x + 2)) div 2))
1: (2 + (loop(\(x,i).x2,2,(4x + ~1)) div (x + 1)))
1: (x + (loop(\(x,i).x2,2,2x) div (2x + 1)))
1: (x + (loop(\(x,i).x2,(x2 + ~2),2) div 2))
1: (x + (loop(\(x,i).x2,(x + ~1),~2) div (x + 2)))
1: (2 + (loop(\(x,i).x2,2x,(5x + 5)) div 2))
1: (x + (loop(\(x,i).x2,x,2) div (x + 1)))
1: (1 + (loop(\(x,i).(x * i),(1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)),1) div 2))
1: (1 + (loop(\(x,i).(x * i),(2 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x)),1) div 5))
1: (1 + (loop(\(x,i).(x * i),(x + ~1),loop(\(x,i).loop(\(x,i).(~2 + i),((x + i) div 2),1),x,1)) div 2))
1: (1 + (loop(\(x,i).(x * i),(x + ~2),1) div (x + 1)))
1: (1 + (loop(\(x,i).(x * i),x,1) div 3))
1: (x + (loop(\(x,i).(x * i),x,1) div (x + 1)))
1: (x + (loop(\(x,i).(x * i),x,1) div (x + 2)))
1: (1 + (loop(\(x,i).(x * i),x,1) div loop(\(x,i).(x * (i * i)),(x div 2),1)))
1: ((loop(\(x,i).(x * i),x,2) div (x + 1)) + (x * i))
1: (1 + (loop(\(x,i).(x * i),x,(5x + 1)) div 2))
1: (1 + (loop(\(x,i).(x * i),x,(4x + 1)) div 2))
1: (1 + (loop(\(x,i).(x * i),x,(loop(\(x,i).7x,x,1) + loop(\(x,i).3x,x,1))) div 2))
1: (1 + (loop(\(x,i).(x * i),x,(~2 + ((x2 + ~x) div 2))) div 2))
1: (2 + (loop(\(x,i).(x * i),x,(x + ~1)) div 2))
1: (1 + (loop(\(x,i).(x * i),x,(7x + ~3)) div 2))
1: (1 + (loop(\(x,i).((x2 + x) div 2),1,loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1)) div 3))
1: (x + (loop(\(x,i).((x2 + x) div 4),2,x) div 3))
1: ((x2 + 3x + 2) + (loop(\(x,i).((x2 + ~x) div 2),2,(x + 1)) div 3))
1: ((2x2 + 2x) + (loop(\(x,i).((x2 + ~x) div 2),2,(x + 1)) div 3))
1: ((loop(\(x,i).((x2 + ~x) div 2),2,(x + 1)) div 3) + ((x3 + 2x2 + ~x) div 2))
1: (x + (loop(\(x,i).((x2 + ~x) div 2),2,(x + 1)) div 3))
1: (1 + (loop(\(x,i).((x2 + ~x) div 2),2,(x + 2)) div 3))
1: ((2x3 + 5x2 + 2x + 1) + (loop(\(x,i).((x2 + ~x) div 2),2,(x + 2)) div 3))
1: ((4x + 4) + (loop(\(x,i).((x2 + ~x) div 2),2,(x + 2)) div 3))
1: ((2x + 4) + (loop(\(x,i).((x2 + ~x) div 2),2,(x + 2)) div 3))
1: ((x2 + 2x) + (loop(\(x,i).((x2 + ~x) div 2),2,(x + 2)) div 3))
1: ((loop(\(x,i).((x2 + ~x) div 2),2,(x + 2)) div 3) + ((x + 1) * ((x2 + 3x + 2) div 2)))
1: (x + (loop(\(x,i).((x2 + ~x) div 2),2,(x + ~1)) div 3))
1: (x + (loop(\(x,i).((x2 + ~2x) div 2),2,x) div (x + 1)))
1: (1 + (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,x2) div 3))
1: (x + (loop(\(x,i).((3x * (i * i)) div 2),x,1) div (x + 1)))
1: (x + (loop(\(x,i).(x2 div 2),(x + 1),x) div 3))
1: (2 + (loop(\(x,i).((x2 div 2) div 3),2,(x + ~2)) div 2))
1: (1 + (loop(\(x,i).(x div (1 + (2 * (x mod 2)))),2,(x + ~1)) div 2))
1: (2 + (loop(\(x,i).(x div (1 + (2 * (x mod 2)))),2,(x + ~1)) div 2))
1: (1 + (loop(\(x,i).(x div (1 + (2 * (x mod 2)))),2,x) div 2))
1: ((x + 4) + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2))
1: (10x + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2))
1: ((10x + 10) + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2))
1: ((loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2) + (if x <= 0 then 1 else 2))
1: (x + (loop(\(x,i).(x div (1 + (x mod 2))),x,i) div 2))
1: (1 + (loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),2,(x + 2)) div 2))
1: (1 + (loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),x,(1 + (x div 2))) div 2))
1: (1 + (loop(\(x,i).(x div (2 - (x mod 2))),2,x) div 3))
1: (x + (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) div 3))
1: (1 + (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) div (if x <= 0 then 2 else (1 + (x mod 8)))))
1: (2 + (loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2))
1: (1 + (loop(\(x,i).(x3 mod 30),x,x) div 2))
1: (1 + (loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else 2x),x,(2x + 12)) div 3))
1: (1 + (loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),x,(2x + 1)) div (x + 1)))
1: (1 + (loop(\(x,i).(if x <= 0 then i else (x div 2)),(x + ~1),0) div 2))
1: (1 + (loop(\(x,i).(if x <= 0 then i else (x div 2)),(x + ~1),1) div 2))
1: (1 + (loop(\(x,i).(if x <= 0 then i else (x div 2)),x,0) div 2))
1: (1 + (loop(\(x,i).loop(\(x,i).((2x * (~1 + (2 * i))) + i),3,x),x,0) div 2))
1: ((x + 1) + (loop(\(x,i).loop(\(x,i).(x + ((i * i) div 2)),i,x),x,1) div 2))
1: (1 + (loop(\(x,i).loop(\(x,i).((x + 2) mod (1 + i)),x,0),x,x) div 2))
1: (5 + (x div 3))
1: (x2 + (x div 3))
1: ((x div 3) + (x mod 2))
1: ((2x + 2) + (x div 5))
1: (2x + (x div 5))
1: (x2 + (x div 5))
1: ((x div 5) + (x div 2))
1: ((x div 5) + (x div 3))
1: ((x div 5) + (x div 4))
1: (1 + (x div (5 + (x mod 2) - (((x + ~1) mod (4 + ((x div 2) div 3))) div 2))))
1: (1 + (x div (2 + (((2 * (1 + ((1 + ((32 mod (x + 1)) div 2)) div 2))) div 3) + (x mod 2)))))
1: (1 + (x div (2 + (((2 * (1 + ((1 + ((x mod (2 + ((~1 + (2 * (x mod 4))) mod (x + 1)))) div 2)) div 2))) div 3) + (x mod 2)))))
1: (1 + (x div (2 + (((2 * (1 + (((1 + (x div (2 + (x mod (2 + (x mod (2 + (x mod 2)))))))) mod (x + 1)) div 2))) div 3) + (x mod 2)))))
1: (1 + (x div (2 + (((3 * (((x + 1) div 2) div 3)) div 2) + (x mod 2)))))
1: (1 + (x div (2 + ((((x + 1) div 2) div (1 + ((x div 2) mod (1 + (x mod (1 + ((~x + 2) mod 4))))))) + (x mod 2)))))
1: (1 + (x div (1 + ((((x + ~1) div 2) div 2) + (if (x + ~2) <= 0 then 2 else 1) + (x mod 2)))))
1: (1 + (x div (5 + ((~1 + (x div 2)) mod 3))))
1: (x + (x div (5 + ((~1 + (x div 2)) mod 3))))
1: (2 + (x div (5 + (((x + ~1) div 2) mod 2))))
1: (x + (x div (5 + ((((x + ~1) div 2) div 2) mod 3))))
1: (x + (x div (5 + ((x div 2) mod 5))))
1: (1 + (x div (2 + (((x div ~4) mod 2) + (x mod 2)))))
1: (1 + (x div (2 + (((x div (4 * (1 + (2 * (x mod 2))))) mod 2) + (x mod 2)))))
1: (2 + (x div (5 + (x mod 2))))
1: ((x div (6 + (x mod 2))) + ((x + ~1) mod 3))
1: (x + (x div (6 + (x mod 2))))
1: (1 + (x div (5 + (x mod 3))))
1: ((x div (5 + (x mod 3))) + (if x <= 0 then 0 else 1))
1: (x + (x div (5 + (x mod 3))))
1: (1 + (x div (3 + ((if (x mod 4) <= 0 then 0 else (if (x mod (2 + (x mod 2))) <= 0 then 1 else x)) + (x mod 2)))))
1: (2 + (x div (5 - (x mod 2))))
1: ((x div (6 - (x mod 2))) + (x div 2))
1: (x + (x div (6 - (x mod 2))))
1: (1 + (x div (3 + ((x mod 3) div 2) - (x mod 2))))
1: (1 + (x div (1 + ((2 * (x mod 2)) + (x div 4)))))
1: (1 + (x div (1 + ((2 * (x mod 5)) + (x mod 3)))))
1: ((x div (4 + ((x div 2) div 5))) + (if x <= 0 then 1 else 4x))
1: (x + (x div (4 + ((x div 2) div 5))))
1: (1 + (x div (3 + ((x2 mod (x + 5)) div 2))))
1: (1 + (x div (3 + ((x mod 3) div 2))))
1: (x + (x div (4 + ((x mod 3) div 2))))
1: (1 + (x div (3 + ((x mod (1 + (x div (2 + ((x + 1) mod 5))))) div 2))))
1: ((2x + 2) + (x div (4 + (x div 2))))
1: ((8x + 8) + (x div (4 + (x div 2))))
1: (2x + (x div (4 + (x div 2))))
1: ((x div (4 + (x div 2))) + ((x + 1) div 3))
1: ((x div (4 + (x div 2))) + ((((x + 1) div 2) div 2) div 2))
1: (2x + (x div (4 + (x div 4))))
1: (1 + (x div (2 + ((x div 4) + ((x div ~2) mod 2)))))
1: (x + (x div (4 + (x div (4 - (x mod 2))))))
1: (1 + (x div (4 + (x div (1 + ((x + ~1) mod 5))))))
1: (1 + (x div (4 + (x div (1 + ((x2 + 2x) mod 6))))))
1: (1 + (x div (4 + ((1 + (9 * (x div 4))) mod (x + 1)))))
1: (1 + (x div (1 + (((1 + ((x + (x div 2)) div 4)) mod 2) + (x mod 2)))))
1: (1 + (x div (3 + ((1 + ((x + 1) div 2)) mod 3))))
1: (1 + (x div (4 + ((x + ((4 * (x div 3)) div 3)) mod 3))))
1: (x + (x div (3 + ((2 + ((x div 2) div 3)) mod 3))))
1: (2 + (x div (1 + (((1 + (x div 2)) mod 3) + (x mod 2)))))
1: (1 + (x div (1 + (((1 + ((x + 1) mod (1 + (x div (2 + ((x div 2) mod 2)))))) mod (x + 1)) + (x mod 2)))))
1: (2 + (x div (2 + (((x + (if (x mod 2) <= 0 then x else 2)) mod 3) + (x mod 2)))))
1: (1 + (x div (4 + ((1 - (9 * (x mod 6))) mod (x + 1)))))
1: (2 + (x div (1 + (((~x + 1) mod 3) + (x div 3)))))
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1: (1 + (x div (4 + ((~1 + loop(\(x,i).~2x,x,4)) mod (x + 1)))))
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1: ((x div 8) + (if x <= 0 then 0 else 1))
1: ((x div 8) + (if x <= 0 then 1 else x))
1: ((4x + 4) + (x div 12))
1: ((3x + 3) + (x div 12))
1: ((x div 12) + (x div 3))
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1: ((x div (3 * (2 + ((x2 + x) mod 8)))) + (x mod 2))
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1: (1 + (x div (if (x mod 4) <= 0 then 1 else (2 * (2 - (x mod 2))))))
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1: (6x + (x div (if i <= 0 then 1 else (0 - i))))
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1: (1 + (x div loop(\(x,i).(x2 + 2x),loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1)))
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1: ((((1 + ((1 + ((x * (1 + (((x + 1) div 2) div 2))) div 2)) div 2)) div 2) mod 3) + (x mod 3))
1: (1 + (((1 + ((~x2 + x) div 2)) div 2) mod (x + 1)))
1: (1 + (((x + (4x div (x + 4))) div 2) mod 2))
1: ((((1 + (((x + 2) * (2x div 3)) div 2)) div 2) mod 2) + (x mod 2))
1: (1 + (((1 + ((x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) div 2)) div 2) mod 5))
1: (1 + (((1 + (((~x + 2) * (x div 3)) div 2)) div 2) mod 2))
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1: (1 + (((1 + ((x * (x div 3)) div 4)) div 2) mod 2))
1: (2 + (((1 + (x2 div 2)) div 5) mod 2))
1: (1 + (((4x + (x2 div 4)) div (x + 2)) mod 4))
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1: (1 + (((1 + ((x div 2) div 3)) div (1 + (x mod 4))) mod 2))
1: (2x + (((1 + ((if x <= 0 then 1 else (3 * ((x + 1) + (x div 8)))) div 2)) div 2) mod 2))
1: (1 + (((1 + (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) div (if x <= 0 then 2 else (1 + (x mod 8))))) div 2) mod 3))
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1: (x + (((1 + (x div 2)) div 2) mod 4))
1: (2x + (((1 + (x div 2)) div 3) mod 2))
1: (x + (((1 + (x div 2)) div 3) mod 2))
1: (1 + (((1 + (x div 2)) div (2 + ((x div 2) mod 2))) mod 2))
1: ((((x + (x div 2)) div 2) mod 2) + ((x div 4) mod 2))
1: (1 + (((1 + (x div 3)) div (1 + (x mod (2 - (x mod ~3))))) mod 2))
1: (x + (((1 + (x div 4)) div 2) mod 2))
1: (2 + (((x + (x div 4)) div 3) mod 2))
1: (1 + (((1 + (x div 5)) div (1 + ((x + ~1) mod 3))) mod 3))
1: (1 + (((x + ((3 + ((x div 3) mod 2)) mod (x + 1))) div 2) mod 2))
1: (1 + (((2 + ((x + 2) mod (2 * (2 + ((x div 4) mod 2))))) div 3) mod 2))
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1: (1 + (((~x + 2) div (2 + (x div (2 + (x mod 4))))) mod 2))
1: (x + (((~x + 2) div 8) mod 2))
1: (1 + (((6x + 5) div (x + 2)) mod 2))
1: (2 + (((~x + ((x + 1) * (x div 2))) div 4) mod 2))
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1: (1 + (((2x + ~1) div (4 + (x div 4))) mod 3))
1: (1 + (((2x + ~1) div (1 + (2 * (x mod 3)))) mod 2))
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1: (1 + (((x + ~1) div (2 - (x div ~4))) mod 2))
1: ((((x + ~2) div 3) mod 2) + (x mod 2))
1: (1 + (((x + ~2) div 3) mod 3))
1: (2 + (((x + ~2) div 3) mod (1 + (x mod 4))))
1: (x + (((x + ~2) div 5) mod 2))
1: (1 + (((x + ~2) div 5) mod (4x + 2)))
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1: (1 + (((x + (x mod 6) - (x div 2)) div 2) mod 2))
1: (1 + (((x - ((x2 + (x div 2)) div 3)) div 2) mod 2))
1: (2x + (((x - ((2 - (x div 4)) div 2)) div 2) mod 2))
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1: (2x + (((x - ((~1 + (x div 2)) div 2)) div 2) mod 2))
1: ((((x - ((x - (((x div 3) * (x div 2)) div 2)) div 2)) div 2) mod 2) + (2 * (x mod 2)))
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1: (2x + (((x - ((x div 2) div ~2)) div 2) mod 2))
1: (1 + (((x - ((x div 2) div ~2)) div 2) mod 3))
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1: (x + (((x - (x div 4)) div 2) mod 2))
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1: (((2x div (~2 - (x div 4))) mod 2) + (x mod 2))
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1: (1 + ((x2 div 2) mod (4x + ~9)))
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1: (2 + ((if (x mod 2) <= 0 then (~x + 2) else x) mod 3))
1: (((if (x mod 2) <= 0 then (~x + 2) else x) mod 3) + ((x div 2) div 3))
1: (((if (x mod 2) <= 0 then (~x + 2) else x) mod 3) + (x div 5))
1: (1 + ((if (x mod 2) <= 0 then (~1 + ((16 mod (x + 1)) div 2)) else 0) mod 3))
1: (2 + ((if (x mod 2) <= 0 then (x div 2) else (x2 + 2)) mod (x + 4)))
1: (1 + ((if (x mod 2) <= 0 then (x div 2) else (6x + 6)) mod 7))
1: (1 + ((if (x mod 2) <= 0 then loop(\(x,i).(x * i),x,1) else 3) mod (x + 1)))
1: (1 + ((if (x mod 2) <= 0 then x else ~x) mod 5))
1: (1 + ((if (x mod 2) <= 0 then x else ~x) mod 10))
1: (2 + ((if (x mod 2) <= 0 then x else (~x + 2)) mod 3))
1: (((if (x mod 2) <= 0 then x else (~x + 2)) mod 3) + ((x mod 3) div 2))
1: (x + ((if (x mod 2) <= 0 then x else (~x + 2)) mod 3))
1: (1 + ((if (x mod 3) <= 0 then 1 else x) mod 4))
1: (1 + ((if (x mod (4 + (x div 2))) <= 0 then 1 else x) mod 4))
1: (1 + ((if (x mod (2 + (x mod 2))) <= 0 then 1 else x) mod (1 + (x div 4))))
1: (1 + ((if (x mod 8) <= 0 then 1 else x) mod 9))
1: (1 + ((if x <= 0 then 1 else (2 - (loop(\(x,i).(2x + 2),x,0) mod (x + 1)))) mod 3))
1: (1 + ((if x <= 0 then 1 else (~2 + (2 * ((x + ~1) mod (6 + (x div 4)))))) mod 3))
1: (2 + ((if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + (loop(\(x,i).(3 * (2 + (x div 2))),x,0) div 2)) div 2)) div 2)))) mod (x + 1)))
1: (2 + ((if x <= 0 then 1 else (2 * (1 + ((1 + ((loop(\(x,i).2x,x,2) mod (x + 1)) div 2)) div 2)))) mod (x + 1)))
1: (x + ((if x <= 0 then 1 else x2) mod 3))
1: (1 + ((if x <= 0 then 1 else x2) mod 10))
1: (1 + ((if x <= 0 then 1 else ((x + ((x mod (2 + (x div 2))) div 2)) div 2)) mod 2))
1: (1 + ((if x <= 0 then 1 else (x2 div (x - ((~x + 2) div 2)))) mod 2))
1: (2 + ((if x <= 0 then 1 else (((x + 1) div 2) div 2)) mod 2))
1: (x + ((if x <= 0 then 1 else x) mod 3))
1: (1 + ((if x <= 0 then 2 else (x - (loop(\(x,i).(x * i),x,1) mod (x + 1)))) mod 4))
1: (1 + ((if x <= 0 then x else ((1 + (x mod (1 + (x div 5)))) * (1 + (x mod 2)))) mod 4))
1: (2 + (loop(\(x,i).((x + 4) + (x div 2)),x,0) mod (x + 1)))
1: (1 + (loop(\(x,i).((x + 4) + (x div 8)),x,1) mod 2))
1: (2 + (loop(\(x,i).(2x + (if (i mod 3) <= 0 then 3 else 0)),x,0) mod (x + 1)))
1: (1 + (loop(\(x,i).((x + 2) - (((x2 div 3) mod (2x + 1)) mod 2)),x,1) mod 4))
1: (1 + (loop(\(x,i).(3x + 1),x,1) mod (2x + 1)))
1: (1 + (loop(\(x,i).(3x + 2),x,0) mod (x + 1)))
1: (2 + (loop(\(x,i).(3x + 2),x,0) mod (x + 1)))
1: (2 + (loop(\(x,i).(5x + 4),x,0) mod (x + 1)))
1: ((x + 1) + (loop(\(x,i).(x2 + 4x + 2),2,3) mod (x + 1)))
1: (2 + (loop(\(x,i).(2 + (x * (1 + (4 * (i mod 2))))),x,1) mod (x + 1)))
1: (x + (loop(\(x,i).(x2 + x + 1),2,2) mod (1 + (x div 2))))
1: (1 + (loop(\(x,i).(x2 + x + 2),2,12) mod (x + 1)))
1: (1 + (loop(\(x,i).(3x + 4),x,1) mod (~1 + loop(\(x,i).2x,x,2))))
1: (2 + (loop(\(x,i).(3x + 4),x,1) mod (~1 + loop(\(x,i).2x,x,2))))
1: (1 + (loop(\(x,i).(1 + (2 * (x - (x div ~2)))),x,0) mod (x + 1)))
1: (1 + (loop(\(x,i).(2x + 1),3,(2 * (x mod 2))) mod (x + 1)))
1: (1 + (loop(\(x,i).(2x + 1),(2x div 3),1) mod (x + 1)))
1: (1 + (loop(\(x,i).(2x + 1),(((x2 + 2x) div 2) mod (1 + (x div (2 + (x div 4))))),1) mod (x + 1)))
1: (1 + (loop(\(x,i).(2x + 1),x,(4 - (x mod 2))) mod (x + 1)))
1: (1 + (loop(\(x,i).(2x + 1),x,54) mod (x + 1)))
1: (2 + (loop(\(x,i).(2x + 1),x,(4 * (x mod 2))) mod (x + 1)))
1: (1 + (loop(\(x,i).(2x + 1),x,(x mod 2)) mod (x + 1)))
1: (1 + (loop(\(x,i).(2x + 1),x,(if ((x + 1) mod 3) <= 0 then x else 2)) mod (x + 1)))
1: (2 + (loop(\(x,i).(1 + (if (~2 + (x div 2)) <= 0 then x else (x + 2))),2,x) mod (x + 1)))
1: (1 + (loop(\(x,i).(x + (if (x + ~4) <= 0 then 3 else x)),x,1) mod (x + 1)))
1: (2 + (loop(\(x,i).(1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),2,x) mod (x + 1)))
1: (2x + (loop(\(x,i).(x + 1),(x div (~1 + (4 * i))),(x + 1)) mod 2))
1: (1 + (loop(\(x,i).(~2x + 1),x,1) mod (x + 2)))
1: (2 + (loop(\(x,i).(1 - (x * i)),x,1) mod (x + 1)))
1: (1 + (loop(\(x,i).(~x + 1),x,(x + 2)) mod 3))
1: (2 + (loop(\(x,i).(~x + 1),x,(if ((x + 2) mod (1 + (x mod 4))) <= 0 then 1 else 2)) mod (x + 1)))
1: (x + (loop(\(x,i).(3x + ~1),x,2) mod (x + 1)))
1: (2 + (loop(\(x,i).(x2 + 2x + ~2),1,loop(\(x,i).4x,(x div 2),1)) mod (x + 1)))
1: (1 + (loop(\(x,i).(2x + ~1),x,0) mod (1 + (x div 2))))
1: (1 + (loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),3,x) mod 3))
1: (1 + (loop(\(x,i).(5x + ~2),x,1) mod (x + 1)))
1: (1 + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) mod 4))
1: (1 + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) mod (2 + (x mod 9))))
1: (1 + (loop(\(x,i).(~2 + i),((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2),1) mod 7))
1: (1 + (loop(\(x,i).3x,(((x + ~1) div 2) mod 4),1) mod (x + 1)))
1: (2 + (loop(\(x,i).3x,x,3) mod (x + 1)))
1: (1 + (loop(\(x,i).(2x + 8),x,1) mod (x + 1)))
1: ((x + 1) + (loop(\(x,i).(2x2 + 7x + 3),4,2) mod (x + 1)))
1: (1 + (loop(\(x,i).(2x + 2),((5x + 13) div 2),1) mod (x + 2)))
1: (1 + (loop(\(x,i).(2x + 2),(loop(\(x,i).x2,4,2) mod (x + 1)),1) mod (x + 1)))
1: (1 + (loop(\(x,i).(2x + 2),x,2) mod (x + 3)))
1: (1 + (loop(\(x,i).(2x + 2),x,(2 * (x mod 2))) mod (x + 1)))
1: (1 + (loop(\(x,i).(x2 + x),1,loop(\(x,i).(if x <= 0 then i else (x div 2)),x,0)) mod (x + 1)))
1: (1 + (loop(\(x,i).((x + 1) * i),(x div 2),2) mod (x + 1)))
1: (1 + (loop(\(x,i).((x + 1) * i),x,0) mod (x + 1)))
1: (1 + (loop(\(x,i).(2x + 4),(x div 2),(x mod 2)) mod (2 + (x div 4))))
1: (1 + (loop(\(x,i).(x2 + 2x),1,(loop(\(x,i).(2x + 1),x,0) mod (x + 1))) mod (x + 1)))
1: (1 + (loop(\(x,i).(x2 + 2x),2,x) mod 9))
1: (2 + (loop(\(x,i).(x * (1 + i)),(2 + (x div 4)),1) mod (x + 1)))
1: (1 + (loop(\(x,i).(x * (2 + i)),4,2) mod (x + 1)))
1: (2 + (loop(\(x,i).(x * (2 + i)),4,2) mod (x + 1)))
1: (1 + (loop(\(x,i).(2 * (x + i)),x,0) mod (2x + 3)))
1: (1 + (loop(\(x,i).(3 * (x + i)),x,0) mod (2x + 1)))
1: (1 + (loop(\(x,i).~2x,x,1) mod (1 + (x div 2))))
1: (2 + (loop(\(x,i).~2x2,2,2) mod (x + 1)))
1: (1 + (loop(\(x,i).~x2,2,6) mod (x + 1)))
1: (2 + (loop(\(x,i).(~2x + 2),x,3) mod (2x + 1)))
1: (x + (loop(\(x,i).(~2x + 2),x,3) mod (x + 2)))
1: (1 + (loop(\(x,i).(~2x + 4),x,2) mod (x + 1)))
1: (1 + (loop(\(x,i).(2 * (2x - (x div (1 + i)))),x,2) mod (x + 1)))
1: (2x + (loop(\(x,i).(x * (~2 + (i mod 2))),x,1) mod (1 + (x div 4))))
1: ((x + 1) + (loop(\(x,i).(x2 + ~x),2,loop(\(x,i).(2x + 1),x,0)) mod (x + 1)))
1: (x + (loop(\(x,i).(2 * (x - i)),x,2) mod (x + 1)))
1: (x + (loop(\(x,i).8x,(x + 1),1) mod (x + 1)))
1: (2 + (loop(\(x,i).4x,(x + 3),1) mod (x + 1)))
1: (1 + (loop(\(x,i).4x,((x - (x div 4)) div 2),2) mod (2x + 1)))
1: (1 + (loop(\(x,i).4x,x,1) mod (2x + 1)))
1: (2 + (loop(\(x,i).4x,x,1) mod (2x + 1)))
1: (1 + (loop(\(x,i).4x,x,2) mod (x + 2)))
1: (1 + (loop(\(x,i).6x,x,(x + 1)) mod (2x + 1)))
1: (2 + (loop(\(x,i).2x2,3,6) mod (x + 1)))
1: (2 + (loop(\(x,i).(2 * ((~2x + 2) div 5)),x,~x) mod (x + 1)))
1: (2 + (loop(\(x,i).2x,(1 + ((1 + (8 mod (1 + (x div 2)))) div 2) - (x mod 2)),1) mod (x + 1)))
1: (1 + (loop(\(x,i).2x,(2 + (3 * (x mod 2))),1) mod (x + 1)))
1: (1 + (loop(\(x,i).2x,(2x + ~1),1) mod (1 + (x div 3))))
1: (1 + (loop(\(x,i).2x,(2x + ~1),1) mod (x + 1)))
1: (2 + (loop(\(x,i).2x,(x + ~1),(1 + (~x mod 4))) mod (x + 1)))
1: (2 + (loop(\(x,i).2x,(x + ~1),(if (x mod (2 + (x mod 2))) <= 0 then 1 else 0)) mod (x + 1)))
1: (1 + (loop(\(x,i).2x,((x + ~1) div 2),1) mod (x + 2)))
1: (x + (loop(\(x,i).2x,(3x div (1 + (x mod 4))),1) mod (x + 1)))
1: (1 + (loop(\(x,i).2x,(2x div 3),1) mod (x + 2)))
1: (2 + (loop(\(x,i).2x,((x + 1) mod 4),2) mod (x + 1)))
1: (2 + (loop(\(x,i).2x,((x + 2) mod 4),3) mod (x + 1)))
1: (1 + (loop(\(x,i).2x,x,1) mod (2 + ((x + ((x div 2) mod 2)) div 2) - (x mod 2))))
1: (x + (loop(\(x,i).2x,x,1) mod 9))
1: (1 + (loop(\(x,i).2x,x,1) mod (1 + (x mod (1 + (6 * (x mod 2)))))))
1: (2 + (loop(\(x,i).2x,x,1) mod (1 + (x mod 12))))
1: (1 + (loop(\(x,i).2x,x,1) mod (x + 1)))
1: (2 + (loop(\(x,i).2x,x,2) mod (x + 1)))
1: (x + (loop(\(x,i).2x,x,2) mod (x + 1)))
1: (2 + (loop(\(x,i).2x,x,2) mod loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))
1: (1 + (loop(\(x,i).2x,x,(1 + (3x mod (2 * (1 + (x mod 6)))))) mod (x + 1)))
1: (1 + (loop(\(x,i).2x,x,(1 + (x mod 3))) mod (2x + 1)))
1: (1 + (loop(\(x,i).2x,x,(1 + (x mod (2 + (x mod 2))))) mod (2x + 1)))
1: (2 + (loop(\(x,i).2x,x,(1 + (x mod (2 + (x mod 4))))) mod (x + 1)))
1: (2 + (loop(\(x,i).2x,x,(1 + (if (x mod 3) <= 0 then x else 0))) mod (x + 1)))
1: (1 + (loop(\(x,i).2x,x,(1 + (if (x mod (2 + (x mod 2))) <= 0 then 1 else x))) mod (x + 1)))
1: (1 + (loop(\(x,i).2x,x,~1) mod (x + 2)))
1: (2 + (loop(\(x,i).2x,x,(~2 + (x mod 2))) mod (x + 1)))
1: (2 + (loop(\(x,i).2x,x,(~1 + (x mod 2) - ((1 + loop(\(x,i).2x,((((1 + (8 mod (1 + (x div 2)))) div 2) + (if x <= 0 then 0 else 1)) - (x mod 2)),2)) div 3))) mod (x + 1)))
1: (1 + (loop(\(x,i).2x,x,(x + ~1)) mod (x + 1)))
1: (1 + (loop(\(x,i).2x,x,((x + 1) mod 2)) mod (x + 1)))
1: (1 + (loop(\(x,i).2x,x,(if (x + ~4) <= 0 then 1 else 2)) mod (2x + 1)))
1: (x + (loop(\(x,i).2x,x,(if (~2 + i) <= 0 then 1 else x)) mod 10))
1: (1 + (loop(\(x,i).2x,x,(if x <= 0 then 1 else (if (x mod 2) <= 0 then (~1 + (2 * (x mod 2))) else x))) mod (x + 2)))
1: (x + (loop(\(x,i).2x,x,loop(\(x,i).2x,((((1 + (8 mod (1 + (x div 2)))) div 2) + (if x <= 0 then 0 else 1)) - (x mod 2)),1)) mod (x + 1)))
1: (2 + (loop(\(x,i).2x,x,x) mod (x + 1)))
1: (1 + (loop(\(x,i).2x,x,x) mod (x + 2)))
1: (1 + (loop(\(x,i).x2,2,(x + 6)) mod (1 + (x div 3))))
1: (2 + (loop(\(x,i).x2,2,(x + 9)) mod 7))
1: (2 + (loop(\(x,i).x2,4,2) mod (x + 1)))
1: (1 + (loop(\(x,i).(2 * i),((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3),1) mod (x + 1)))
1: (1 + (loop(\(x,i).(2 * i),(x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))),1) mod (x + 1)))
1: (1 + (loop(\(x,i).(x * i),(x + ~2),(2 - (x mod 2))) mod (x + 1)))
1: (2 + (loop(\(x,i).(x * i),x,1) mod (x + 1)))
1: (x + (loop(\(x,i).((x2 + x) div 2),1,(1 + (x mod (1 + (x mod (2 * (1 + (2 * (x mod 2))))))))) mod (x + 1)))
1: (1 + (loop(\(x,i).((x2 + 3x + 2) div 2),2,x) mod (x + 1)))
1: (1 + (loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,1) mod 9))
1: (1 + (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) mod 9))
1: (1 + (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) mod 13))
1: (1 + (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) mod (2x + 3)))
1: (1 + (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,x2) mod 4))
1: (2 + (loop(\(x,i).((3 * ((x2 + x) div 2)) div 2),3,x) mod (x + 1)))
1: (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 7))
1: (2 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 8))
1: (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 10))
1: (1 + (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) mod 5))
1: (1 + (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) mod (1 + (x mod 8))))
1: (1 + (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) mod 11))
1: (1 + (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) mod (2 * (2 + (x mod 4)))))
1: (1 + (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 2)) mod (x + 2)))
1: (1 + (loop(\(x,i).loop(\(x,i).((if x <= 0 then 2 else loop(\(x,i).(x div (2 - (x mod 2))),x,x)) div 2),2,x),1,(x + 1)) mod 3))
1: (2 + (loop(\(x,i).loop(\(x,i).(x div (~2 + (x mod 2))),x,(x + 1)),2,x) mod (x + 1)))
1: (1 + (loop(\(x,i).i,((2x + 1) mod 19),1) mod (x + 1)))
1: ((x mod 2) + i)
1: (x2 + (x mod 3))
1: (x2 + (x mod 5))
1: ((x mod 5) + (x mod 2))
1: ((x mod 5) + (x mod 4))
1: (2 + (x mod (7 - (x div 4))))
1: (1 + (x mod (5 + (x div 2))))
1: (1 + (x mod (5 + ((x + 2) mod 6))))
1: (1 + (x mod (2 + ((((x + 2) mod 7) mod 2) + (x mod 2)))))
1: (1 + (x mod (6 + (if ((x + 1) mod 8) <= 0 then 1 else 2))))
1: (1 + (x mod (6 - ((x mod (2 + (x mod 2))) div 2))))
1: (1 + (x mod (1 + ((2 * (2x mod (3 * (1 + (8 * (x mod 2)))))) + (x mod 2)))))
1: (1 + (x mod (1 + ((2 * (if (x mod 3) <= 0 then 2 else (x mod 2))) + (x mod 2)))))
1: (2 + (x mod (4 + ((1 + (9 * (1 + (x div 2)))) div (x + 1)))))
1: (1 + (x mod (1 + (((x * (x mod 2)) div 2) + (x div 5)))))
1: (1 + (x mod (4 + ((x div 2) div 3))))
1: (1 + (x mod (4 + ((x mod 9) div 2))))
1: (2 + (x mod (9 + (x div 4))))
1: (1 + (x mod (2 + (((1 + (x mod 5)) mod 4) + (x mod 2)))))
1: (x + (x mod (4 + ((x div 4) mod 2))))
1: (x + (x mod (3 + (x mod 2))))
1: (1 + (x mod (4 + (x mod 2))))
1: (2 + (x mod (4 + (x mod 2))))
1: (1 + (x mod (3 + (x mod 4))))
1: (1 + (x mod (3 - (2 div (1 + (x mod 5))))))
1: (2 + (x mod (3 - ((x mod 5) div 2))))
1: (1 + (x mod (3 - (x div ~2))))
1: (1 + (x mod (4 - ((x * (x div 2)) mod 2))))
1: ((x mod (3 - (x mod 2))) + (x div 3))
1: (1 + (x mod (4 - (x mod ~4))))
1: (1 + (x mod (2 + (x div (2 + (if ((x + 1) mod 5) <= 0 then 0 else 2))) - (x mod 2))))
1: (1 + (x mod (7 - (x div 3))))
1: (2 + (x mod (1 + (x div 2) - ((2x + 1) mod (1 + (2x mod (2 + (x div 4))))))))
1: (1 + (x mod ((x + 1) - ((~1 + (x div 2)) div 2))))
1: (1 + (x mod ((x + 1) - (compr(\x.(loop(\(x,i).(2x + 1),x,0) mod (x + 1)),x) mod (x + 1)))))
1: (x + (x mod 7))
1: (1 + (x mod (6 + (x div 3))))
1: (2 + (x mod 13))
1: (1 + (x mod (1 + (2 * ((4 * (x mod 2)) + (x mod 3))))))
1: (2 + (x mod (1 + (2 * (1 + (2 * (x mod 2)))))))
1: (1 + (x mod (1 + (2 * (2 + (x div 4))))))
1: (1 + (x mod (1 + (2 * (2 + (x div 8))))))
1: (1 + (x mod (1 + (2 * (2 + ((x + ~1) mod 3))))))
1: (1 + (x mod (1 + (2 * (1 + ((x + ~1) mod (1 + (x mod 3))))))))
1: (1 + (x mod (1 + (2 * (2 + ((2x + 2) mod 9))))))
1: (1 + (x mod (1 + (2 * (1 + (2x mod 3))))))
1: (1 + (x mod (1 + (2 * (2 + (x2 mod 3))))))
1: (1 + (x mod (1 + (2 * (2 + (((x div 2) div 3) mod 2))))))
1: (1 + (x mod (1 + (2 * (2 + ((x div 3) mod 2))))))
1: (1 + (x mod (1 + (2 * (1 + (x mod 4))))))
1: (1 + (x mod (1 + (2 * (1 + (x mod 5))))))
1: (1 + (x mod (1 + (2 * (1 + (x mod (1 + (2 * (2 - ((x * (x div 2)) mod 2))))))))))
1: (1 + (x mod (1 + (2 * (1 + (x mod (2 + (x div (2 + (3 * (x mod 2)))))))))))
1: (1 + (x mod (1 + (2 * (1 + (x mod (1 + ((~x + 2) mod (2 + (x div 3))))))))))
1: (1 + (x mod (1 + (2 * (2 + (if ((x + 1) mod 8) <= 0 then 1 else 2))))))
1: (1 + (x mod (1 + (2 * (1 + (if (x mod 3) <= 0 then (2 * ((x div 4) mod 2)) else 1))))))
1: (1 + (x mod (1 + (2 * (2 - (x * (((x div 2) div 3) mod 2)))))))
1: (1 + (x mod (1 + (2 * (2 - ((x * (x div 2)) mod 2))))))
1: (2 + (x mod (1 + (2 * (2 - (x mod 2))))))
1: (1 + (x mod (1 + (2 * (~1 + ((if (~2 + (x div 3)) <= 0 then 2 else ((x + 1) div 2)) div 2))))))
1: (1 + (x mod (1 + (4 * (2 + ((x2 + 2x) mod 6))))))
1: (1 + (x mod (1 + (8 * (x mod (2 + (x mod 2)))))))
1: (1 + (x mod (1 + (4 * (2x mod 7)))))
1: (1 + (x mod (1 + (4 * ((x mod (~1 + (2 * (x div 3)))) mod 2)))))
1: (1 + (x mod (1 + (4 * (x mod 2)))))
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1: (x + (if (x + ~2) <= 0 then 1 else (x4 + x3 + ~x + ~1)))
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1: (x + (if (x + ~2) <= 0 then 1 else ((x2 + ~x) * i)))
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1: (x + (if (x + ~4) <= 0 then 3 else ((x + 1) div 2)))
1: (x + (if (x + ~4) <= 0 then 3 else x))
1: (x + (if (x + ~4) <= 0 then 9 else 2x))
1: (1 + (if (x + ~4) <= 0 then x else 5))
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1: (x + (if (x - (4 mod (x + 2))) <= 0 then 2 else 1))
1: ((if (x - (x2 mod (x + 5))) <= 0 then 0 else 2) + (x mod 2))
1: (x + (if (x - (x2 mod (x + 6))) <= 0 then 1 else 2))
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1: (1 + (if (x - (x2 mod (x + 8))) <= 0 then 1 else 2))
1: (1 + (if (x - (x2 mod (3x + 4))) <= 0 then 1 else 2))
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1: (2 + (if (x * ((x + 1) mod 5)) <= 0 then 1 else 2))
1: (3 + (if (x * ((x + 1) mod 5)) <= 0 then 1 else 2))
1: (1 + (if (x * loop(\(x,i).x2,(x + ~2),x5)) <= 0 then x else 2))
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1: (x + (if (x2 div (1 + i)) <= 0 then 2x else 0))
1: (x + (if (((2x * i) div (1 + i)) div (1 + i)) <= 0 then i else 0))
1: ((if (((x2 + 1) mod (2 + (x div 2))) div 2) <= 0 then 1 else 2) + (x mod 2))
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1: (1 + (if ((x mod 3) div 2) <= 0 then (x mod 3) else x))
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1: ((if (4 mod (if x <= 0 then 1 else x)) <= 0 then 2 else 1) + (x div 2))
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1: (2 + (if ((x + 2) mod 4) <= 0 then 2 else 1))
1: (4x + (if ((x + 2) mod 4) <= 0 then 2 else 1))
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1: (x + (if ((x + 2) mod 4) <= 0 then (x div 2) else 1))
1: (x + (if ((x + 2) mod 5) <= 0 then 2 else 0))
1: (1 + (if ((x + 2) mod (4 + (x div 3))) <= 0 then 2 else 0))
1: (8 + (if ((x + 2) mod (4 + ((x div 4) mod 2))) <= 0 then 2 else 1))
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1: (x + (if ((x + 2) mod (1 + (x mod 4))) <= 0 then 2 else 1))
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1: (2 + (if (6 mod (1 + (x div 2))) <= 0 then 2 else 1))
1: (2 + (if (6 mod (x + 1)) <= 0 then 1 else 2))
1: ((if (12 mod (x + 1)) <= 0 then 0 else 2) + (x mod 2))
1: (1 + (if ((x2 + x) mod (2 + (x div 2))) <= 0 then 1 else 2))
1: (2 + (if ((x2 + x) mod 8) <= 0 then x else 0))
1: (2x + (if ((x2 + x) mod 12) <= 0 then 1 else 2))
1: (2x + (if ((x2 + x) mod 12) <= 0 then 2 else 1))
1: (1 + (if ((2x + 4) mod (4 + (x div 4))) <= 0 then 2 else 0))
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1: (x + (if ((x2 + ~x) mod 5) <= 0 then (x mod 8) else 1))
1: (x + (if ((x2 + ~x) mod (1 + (x div 2))) <= 0 then 0 else 1))
1: ((if (16 mod (x + 1)) <= 0 then 0 else 1) + (x mod 2))
1: ((if (16 mod (x + 1)) <= 0 then 1 else 0) + (x mod 2))
1: ((if (16 mod (x + 1)) <= 0 then 1 else 2) + (2 * (x mod 2)))
1: ((if (16 mod (x + 1)) <= 0 then 1 else 2) + (x mod 2))
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1: (1 + (if (16 mod (x + 1)) <= 0 then (x mod 2) else 2))
1: (x + (if ((2x * (1 + (2 * i))) mod (2 + i)) <= 0 then x else 0))
1: (1 + (if (((x + 1) * (x div 2)) mod 4) <= 0 then 0 else x))
1: (2 + (if ((x * (x div 2)) mod 2) <= 0 then (x div 2) else 1))
1: ((if ((x * (x div 2)) mod 4) <= 0 then 2 else 1) + (x div 3))
1: ((if ((x * (x mod 3)) mod 5) <= 0 then 0 else 2) + ((x + 1) div 3))
1: (2x + (if ((x * (x mod 3)) mod 5) <= 0 then 1 else 2))
1: ((if ((x * (x mod 3)) mod 5) <= 0 then 1 else 2) + (x mod 2))
1: (2x + (if ((x * (x mod 3)) mod 5) <= 0 then 2 else 1))
1: (1 + (if (2x mod (x + 7)) <= 0 then 0 else 2))
1: (1 + (if (2x mod (4 + (x div 3))) <= 0 then 0 else 1))
1: (1 + (if (2x mod (4 + (x div 4))) <= 0 then 0 else (if (x + ~3) <= 0 then x else 2)))
1: (1 + (if (2x mod (4 + (x div 4))) <= 0 then (2 + (if x <= 0 then 0 else (x + 2))) else 0))
1: (1 + (if (2x mod (4 + (x div 4))) <= 0 then ((x + 2) div 3) else 0))
1: (1 + (if (2x mod (4 + (x div 4))) <= 0 then loop(\(x,i).(2x + 1),(x div 4),1) else 0))
1: (1 + (if (2x mod (4 + ((x + 1) mod 4))) <= 0 then 4 else 0))
1: (1 + (if (2x mod (2 + (x div 2))) <= 0 then 2 else 0))
1: (1 + (if (x2 mod (x + 4)) <= 0 then (x div 4) else 0))
1: (x + (if (x2 mod (1 + (x div 2))) <= 0 then 1 else 2))
1: (x + (if (x2 mod (2 + i)) <= 0 then 2 else 0))
1: (1 + (if (((1 + (x div 2)) div 2) mod 3) <= 0 then 2 else 0))
1: (1 + (if (((x + (x div 2)) div 2) mod 2) <= 0 then x else 1))
1: (2 + (if (((x + 1) div 2) mod 4) <= 0 then ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) else x))
1: (1 + (if (((x + 1) div (2 + (x mod 2))) mod 2) <= 0 then x else 1))
1: (1 + (if (((x + 2) div 3) mod 4) <= 0 then 2 else 0))
1: (2 + (if (((x + ~1) div 2) mod 3) <= 0 then 1 else x))
1: (1 + (if (((x + ~1) div 2) mod 4) <= 0 then 2 else 1))
1: ((if (((x + ~1) div 2) mod 4) <= 0 then 2 else 1) + (x mod 2))
1: (2 + (if (((x + ~1) div 2) mod 6) <= 0 then 2 else 0))
1: ((if ((x3 div (x + 2)) mod 3) <= 0 then 1 else 2) + (x mod 2))
1: (1 + (if ((((x + 1) div 2) div 2) mod 2) <= 0 then (x div 8) else 0))
1: (x2 + (if ((x div 2) mod 2) <= 0 then 1 else (2x + 2)))
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1: (x + (if ((x div 2) mod 2) <= 0 then 2 else 0))
1: (x + (if ((x div 2) mod 2) <= 0 then 2 else (~1 + (2 * (x mod 2)))))
1: (2x + (if ((x div 2) mod 2) <= 0 then 2 else ((x + 1) mod 2)))
1: (1 + (if ((x div 2) mod 2) <= 0 then 4 else 0))
1: (8x + (if ((x div 2) mod 2) <= 0 then (1 + (2 * (x mod 2))) else 0))
1: (x + (if ((x div 2) mod 2) <= 0 then (1 + (2 * (x mod 2))) else 0))
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1: (1 + (if ((x div 2) mod 2) <= 0 then (x div 2) else 2))
1: (1 + (if ((x div 2) mod 2) <= 0 then (x div 3) else 1))
1: (1 + (if ((x div 2) mod 2) <= 0 then (x mod 2) else 3))
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1: ((if ((x div 2) mod 3) <= 0 then 1 else 2) + ((x + 2) div 3))
1: ((if ((x div 2) mod 3) <= 0 then 1 else 2) + (x div 3))
1: ((if ((x div 2) mod 3) <= 0 then 1 else 2) + ((x div ~2) mod 2))
1: (x + (if ((x div 2) mod 3) <= 0 then 1 else 2))
1: (4x + (if ((x div 2) mod 3) <= 0 then 2 else 1))
1: (2x + (if ((x div 2) mod 3) <= 0 then 2 else 1))
1: ((if ((x div 2) mod 3) <= 0 then 2 else 1) + (if (x + ~2) <= 0 then 1 else 2))
1: (1 + (if ((x div 2) mod 3) <= 0 then x else 1))
1: (2 + (if ((x div 2) mod 4) <= 0 then 1 else 2))
1: (x + (if ((x div 2) mod 5) <= 0 then 2 else 1))
1: (x + (if ((x div 2) mod (1 + (2 * (x mod 2)))) <= 0 then 2 else 0))
1: (x + (if ((x div 3) mod 2) <= 0 then 3 else 2x))
1: (1 + (if ((x div 3) mod 2) <= 0 then 2x else 1))
1: (1 + (if ((x div 3) mod 2) <= 0 then ((x + 1) div 2) else 1))
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1: (1 + (if ((x div 3) mod 2) <= 0 then (x div 5) else 1))
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1: (x + (if ((x div 3) mod 3) <= 0 then 2 else 0))
1: (1 + (if ((x div 3) mod 3) <= 0 then (x mod 2) else 0))
1: (x + (if ((x div 4) mod 2) <= 0 then 4 else 0))
1: (x + (if ((x div 4) mod 3) <= 0 then 2 else 1))
1: (1 + (if ((x div 4) mod 3) <= 0 then (x mod 2) else 1))
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1: (x + (if ((x div ~4) mod 4) <= 0 then 1 else 2))
1: (1 + (if (((x + 1) mod 8) mod 3) <= 0 then 1 else 2))
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1: ((if (x mod 2) <= 0 then 1 else (x div 8)) + (x div 7))
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1: (x2 + (if (x mod 2) <= 0 then 1 else x))
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1: (x + (if (x mod 2) <= 0 then 1 else i))
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1: (x + (if (x mod 2) <= 0 then 2 else ((x + ~2) mod (1 + (x div 4)))))
1: (1 + (if (x mod 2) <= 0 then 2 else (((2 - (x div 2)) mod (x + 2)) mod 2)))
1: (1 + (if (x mod 2) <= 0 then 2 else x))
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1: (x + (if (x mod 2) <= 0 then 3 else x))
1: (x + (if (x mod 2) <= 0 then 4 else 0))
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1: (1 + (if (x mod 2) <= 0 then 4 else x))
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1: (x + (if (x mod 2) <= 0 then (x + (x div 2)) else 0))
1: (x + (if (x mod 2) <= 0 then (2 + (if (~1 + (x mod 3)) <= 0 then x else 2)) else 1))
1: (x + (if (x mod 2) <= 0 then (1 + (if (x mod 3) <= 0 then 2 else 0)) else 0))
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1: (x + (if (x mod 2) <= 0 then (x + 1) else 0))
1: (x + (if (x mod 2) <= 0 then (x + 1) else x2))
1: ((if (x mod 2) <= 0 then ~x else x) + i)
1: (x + (if (x mod 2) <= 0 then (1 - (2 * (x mod 4))) else x))
1: (1 + (if (x mod 2) <= 0 then (1 - (if x <= 0 then 2 else 0)) else (x div 2)))
1: (x2 + (if (x mod 2) <= 0 then (~x + 1) else x))
1: (2 + (if (x mod 2) <= 0 then (~x + 2) else x))
1: (2 + (if (x mod 2) <= 0 then (2x - ((x div 2) mod 2)) else 1))
1: (1 + (if (x mod 2) <= 0 then (x + ~4) else 0))
1: ((if (x mod 2) <= 0 then 6 else 1) + (x div 2))
1: (x + (if (x mod 2) <= 0 then 6 else 1))
1: (1 + (if (x mod 2) <= 0 then 6 else (1 + i)))
1: (1 + (if (x mod 2) <= 0 then 6 else ~4))
1: ((if (x mod 2) <= 0 then 6 else ~4) + loop(\(x,i).5x,x,3))
1: (1 + (if (x mod 2) <= 0 then 6 else x))
1: (1 + (if (x mod 2) <= 0 then 3x else 0))
1: (2 + (if (x mod 2) <= 0 then 3x else 1))
1: (1 + (if (x mod 2) <= 0 then 12 else 1))
1: ((if (x mod 2) <= 0 then 27 else 1) + (x div 2))
1: ((if (x mod 2) <= 0 then 45 else 1) + (if x <= 0 then 1 else 0))
1: (1 + (if (x mod 2) <= 0 then 26 else 1))
1: ((if (x mod 2) <= 0 then 51 else 1) + (x div 2))
1: (x + (if (x mod 2) <= 0 then (3 * (x + (x div 2))) else 0))
1: (1 + (if (x mod 2) <= 0 then (2 * (1 + ((x div 3) mod 2))) else 1))
1: (1 + (if (x mod 2) <= 0 then (2x + 2) else (x div 2)))
1: (2 + (if (x mod 2) <= 0 then (2x + 4) else (x div 2)))
1: (x + (if (x mod 2) <= 0 then (x2 + 2x) else 0))
1: (1 + (if (x mod 2) <= 0 then (2 * (2 - ((x mod 3) div 2))) else 1))
1: (1 + (if (x mod 2) <= 0 then (5 * (2 - (x mod 4))) else 1))
1: (1 + (if (x mod 2) <= 0 then (9 * (2 - (x mod 4))) else 1))
1: (1 + (if (x mod 2) <= 0 then 22 else 1))
1: (x + (if (x mod 2) <= 0 then (3x + ~6) else 1))
1: (1 + (if (x mod 2) <= 0 then 18 else 0))
1: (1 + (if (x mod 2) <= 0 then 16 else 0))
1: (1 + (if (x mod 2) <= 0 then 40 else 1))
1: (1 + (if (x mod 2) <= 0 then 36 else 1))
1: (1 + (if (x mod 2) <= 0 then 28 else 0))
1: (x + (if (x mod 2) <= 0 then 8x else 0))
1: (x + (if (x mod 2) <= 0 then 12x else 0))
1: (x + (if (x mod 2) <= 0 then 4x else 0))
1: (x + (if (x mod 2) <= 0 then 6x else 0))
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1: (1 + (if (x mod 2) <= 0 then (2 * (if x <= 0 then 0 else 2)) else 1))
1: (2 + (if (x mod 2) <= 0 then (loop(\(x,i).(2x2 + 3x + 1),2,1) * (if x <= 0 then 1 else 2)) else 0))
1: ((if (x mod 2) <= 0 then 2x else 0) + ((x + 1) mod 4))
1: (2 + (if (x mod 2) <= 0 then 2x else 1))
1: (1 + (if (x mod 2) <= 0 then 2x else (x div 2)))
1: (2 + (if (x mod 2) <= 0 then 2x else compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: (x + (if (x mod 2) <= 0 then x2 else 0))
1: (2x + (if (x mod 2) <= 0 then x2 else 2))
1: (x + (if (x mod 2) <= 0 then (i * i) else 1))
1: (1 + (if (x mod 2) <= 0 then ((x + 2) div 5) else 1))
1: (x + (if (x mod 2) <= 0 then ((~x + 1) div 3) else x))
1: (1 + (if (x mod 2) <= 0 then ((x2 + 2x) div 8) else x))
1: ((if (x mod 2) <= 0 then (x2 div 2) else 1) + ((x div 2) mod 2))
1: (x + (if (x mod 2) <= 0 then (x2 div 2) else 2))
1: (1 + (if (x mod 2) <= 0 then ((x mod 3) div 2) else 2))
1: (2 + (if (x mod 2) <= 0 then ((x mod 3) div 2) else x))
1: (2x + (if (x mod 2) <= 0 then ((if x <= 0 then 2 else x) div 2) else 0))
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1: (2 + (if (x mod 2) <= 0 then ((if x <= 0 then 2 else x) div 2) else 2))
1: (1 + (if (x mod 2) <= 0 then (x div 2) else 0))
1: (2 + (if (x mod 2) <= 0 then (x div 2) else 2))
1: ((if (x mod 2) <= 0 then (x div 2) else 2) + (x div 5))
1: (x + (if (x mod 2) <= 0 then (x div 2) else 2))
1: (2 + (if (x mod 2) <= 0 then (x div 2) else 3))
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1: (1 + (if (x mod 2) <= 0 then (x div 3) else 0))
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1: (2 + (if (x mod 2) <= 0 then (x div 4) else 2))
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1: (1 + (if (x mod 2) <= 0 then ((1 + (x div 4)) mod 2) else 2))
1: (1 + (if (x mod 2) <= 0 then ((1 + (x mod 8)) mod (x + 1)) else 0))
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1: (1 + (if (x mod 2) <= 0 then ((x + ~2) mod (1 + (x div 4))) else 0))
1: (2 + (if (x mod 2) <= 0 then ((x * (x div 3)) mod 3) else 2))
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1: (2 + (if (x mod 2) <= 0 then (x2 mod 7) else (x mod 3)))
1: (1 + (if (x mod 2) <= 0 then (((x + 1) div 5) mod 3) else 0))
1: (1 + (if (x mod 2) <= 0 then (((x + 2) div 3) mod 4) else 1))
1: (1 + (if (x mod 2) <= 0 then (((x + ~1) div 3) mod 2) else 2))
1: (1 + (if (x mod 2) <= 0 then ((x div 3) mod 2) else 2))
1: (1 + (if (x mod 2) <= 0 then (x mod 3) else 2))
1: (x + (if (x mod 2) <= 0 then (x mod 5) else 1))
1: (x + (if (x mod 2) <= 0 then (x mod 8) else 1))
1: (1 + (if (x mod 2) <= 0 then (x mod 14) else 0))
1: (1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 0))
1: (x + (if (x mod 2) <= 0 then (if (x + ~2) <= 0 then 1 else x3) else x))
1: (1 + (if (x mod 2) <= 0 then (if ((x + 2) mod (2 + ((x div 2) mod 2))) <= 0 then 2 else 0) else 1))
1: (2 + (if (x mod 2) <= 0 then (if (x mod 3) <= 0 then 1 else x) else 2))
1: ((if (x mod 2) <= 0 then (if (x mod 3) <= 0 then 1 else x) else 3) + (x div 2))
1: (2 + (if (x mod 2) <= 0 then (if (x mod 7) <= 0 then 2 else x) else 1))
1: (1 + (if (x mod 2) <= 0 then (if x <= 0 then 0 else 2) else 0))
1: (1 + (if (x mod 2) <= 0 then (if x <= 0 then 0 else (2x + 1)) else 0))
1: (x2 + (if (x mod 2) <= 0 then (if x <= 0 then 1 else 2) else x))
1: (2 + (if (x mod 2) <= 0 then (if x <= 0 then 1 else 4) else 0))
1: (x + (if (x mod 2) <= 0 then (if x <= 0 then 3 else (x div 2)) else 1))
1: (2 + (if (x mod 2) <= 0 then (if x <= 0 then 6 else 1) else 2x))
1: (1 + (if (x mod 2) <= 0 then loop(\(x,i).2x,(x div 2),2) else 0))
1: (1 + (if (x mod 2) <= 0 then x else 0))
1: (2 + (if (x mod 2) <= 0 then x else 0))
1: ((if (x mod 2) <= 0 then x else 0) + (x div 2))
1: ((if (x mod 2) <= 0 then x else 0) + ((x div 2) mod 2))
1: ((if (x mod 2) <= 0 then x else 2) + (x div 2))
1: (2 + (if (x mod 2) <= 0 then x else ~x))
1: (1 + (if (x mod 2) <= 0 then x else (~x + 1)))
1: (1 + (if (x mod 2) <= 0 then x else (~x + 2)))
1: (1 + (if (x mod 2) <= 0 then x else (x - (x div (~2 + ((x div 2) mod 2))))))
1: (x + (if (x mod 2) <= 0 then x else 3x2))
1: (1 + (if (x mod 2) <= 0 then x else (x mod 4)))
1: (1 + (if (x mod 2) <= 0 then x else (if ((x div 2) mod 3) <= 0 then (x div 2) else 0)))
1: (x + (if (x mod 3) <= 0 then 0 else 2))
1: (1 + (if (x mod 3) <= 0 then 0 else (if ((1 + (x div 3)) mod 5) <= 0 then 2 else 1)))
1: (1 + (if (x mod 3) <= 0 then 0 else (if ((x + 1) mod 5) <= 0 then 2 else 1)))
1: (1 + (if (x mod 3) <= 0 then 0 else (if (x mod 2) <= 0 then x else 1)))
1: (x + (if (x mod 3) <= 0 then 0 else (if (x mod (2 + (x mod 2))) <= 0 then 1 else x)))
1: (2x + (if (x mod 3) <= 0 then 1 else 0))
1: ((if (x mod 3) <= 0 then 1 else 0) + (x div 8))
1: ((if (x mod 3) <= 0 then 1 else 0) + loop(\(x,i).2x,x,1))
1: (x + (if (x mod 3) <= 0 then 1 else 0))
1: (2x + (if (x mod 3) <= 0 then 1 else 2))
1: ((if (x mod 3) <= 0 then 1 else 2) + (x mod 2))
1: ((if (x mod 3) <= 0 then 1 else 2) + (x mod 4))
1: (2 + (if (x mod 3) <= 0 then 1 else (2 + (x div 3))))
1: ((if (x mod 3) <= 0 then 1 else ~2) + (2 * (x mod 2)))
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1: (3 + (if (x mod 3) <= 0 then 1 else x3))
1: (1 + (if (x mod 3) <= 0 then 1 else (x div 3)))
1: (2 + (if (x mod 3) <= 0 then 1 else ((2x mod (1 + (x div 3))) mod 2)))
1: ((if (x mod 3) <= 0 then 1 else x) + (x div 3))
1: (1 + (if (x mod 3) <= 0 then 2 else (x - ((~x + 1) mod 3))))
1: (x + (if (x mod 3) <= 0 then 2 else (x - ((~x + 2) mod 3))))
1: (1 + (if (x mod 3) <= 0 then 2 else (x div (1 + (x div 4)))))
1: (x + (if (x mod 3) <= 0 then 3 else 0))
1: (x + (if (x mod 3) <= 0 then 7 else (x div 2)))
1: (x + (if (x mod 3) <= 0 then (1 + ((x2 + ~1) mod 5)) else 0))
1: (x + (if (x mod 3) <= 0 then (2 + (((x + 1) * (x div 2)) mod 2)) else 1))
1: (2 + (if (x mod 3) <= 0 then (x + 1) else ~x))
1: (1 + (if (x mod 3) <= 0 then (1 - (x div (~2 + ((~x + 2) div 4)))) else 1))
1: (1 + (if (x mod 3) <= 0 then 6 else 0))
1: ((x + 1) + (if (x mod 3) <= 0 then 8 else (~x + (x mod 2))))
1: (1 + (if (x mod 3) <= 0 then 10 else 0))
1: (1 + (if (x mod 3) <= 0 then 10 else 1))
1: (1 + (if (x mod 3) <= 0 then (2 * (2 + (x div 2))) else 1))
1: ((if (x mod 3) <= 0 then ((1 + (if (x mod 2) <= 0 then 16 else 1)) * (if x <= 0 then 1 else 2)) else 1) + (3 * (x mod 2)))
1: (1 + (if (x mod 3) <= 0 then 18 else 1))
1: (1 + (if (x mod 3) <= 0 then (2 * (x div 4)) else 1))
1: ((if (x mod 3) <= 0 then (2 * (if (x mod 2) <= 0 then (2 + (if x <= 0 then 0 else 2)) else 1)) else 1) + (x mod 2))
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1: ((if (x mod 3) <= 0 then (5 * (if (x mod 2) <= 0 then (3 * (if x <= 0 then 1 else 2)) else 1)) else 1) + (if x <= 0 then 1 else 2))
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1: (x + (if (x mod 3) <= 0 then 2x else 1))
1: (1 + (if (x mod 3) <= 0 then (x div 3) else 0))
1: (1 + (if (x mod 3) <= 0 then (x div 3) else 1))
1: (1 + (if (x mod 3) <= 0 then ((1 + (x div (2 * (2 - (x mod 2))))) mod 4) else 0))
1: (1 + (if (x mod 3) <= 0 then (((x * (x mod 2)) div 2) mod 4) else 0))
1: (1 + (if (x mod 3) <= 0 then (x mod 2) else 2))
1: (x + (if (x mod 3) <= 0 then (if (~2 + (x div 4)) <= 0 then 1 else 2) else 0))
1: (2 + (if (x mod 3) <= 0 then (if ((x + 2) mod 4) <= 0 then 2 else 1) else 0))
1: ((if (x mod 3) <= 0 then (if (x mod 2) <= 0 then (9 * (if x <= 0 then 1 else 2)) else 0) else 1) + (x mod 2))
1: (x2 + (if (x mod 4) <= 0 then 0 else 2))
1: ((if (x mod 4) <= 0 then 0 else 2) + (x div 4))
1: (2 + (if (x mod 4) <= 0 then 0 else (1 + (x mod (2 + (x mod 2))))))
1: ((if (x mod 4) <= 0 then 0 else (x div 4)) + (x div 2))
1: (1 + (if (x mod 4) <= 0 then 0 else (if (x mod (1 + (2 * (2x mod 3)))) <= 0 then 2 else 0)))
1: (1 + (if (x mod 4) <= 0 then 0 else x))
1: (2x + (if (x mod 4) <= 0 then 0 else x))
1: (3x2 + (if (x mod 4) <= 0 then 1 else 0))
1: (2 + (if (x mod 4) <= 0 then 1 else 2))
1: ((if (x mod 4) <= 0 then 1 else 2) + (x div 5))
1: ((if (x mod 4) <= 0 then 1 else 2) + (x mod 2))
1: ((if (x mod 4) <= 0 then 1 else 8) + (x mod 2))
1: (2 + (if (x mod 4) <= 0 then 1 else (((x + 1) div 2) div 2)))
1: ((if (x mod 4) <= 0 then 1 else (((x + ~1) div 2) div 3)) + (x mod 2))
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1: ((if (x mod 4) <= 0 then 2 else 0) + (x div 4))
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1: ((if (x mod 4) <= 0 then 2 else (x mod 2)) + (x div 7))
1: (2 + (if (x mod 4) <= 0 then 3 else (x mod 2)))
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1: (1 + (if (x mod 4) <= 0 then 8 else 1))
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1: (x + (if (x mod 4) <= 0 then (6x + 3) else x))
1: (x + (if (x mod 4) <= 0 then (x3 + x2 + x + 1) else x))
1: (2x + (if (x mod 4) <= 0 then ((x + 1) * i) else 0))
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1: ((if (x mod 4) <= 0 then (14 * (2 + (if x <= 0 then 0 else 2))) else 1) + (if x <= 0 then 1 else 2))
1: ((if (x mod 4) <= 0 then (9 * (2 + (if x <= 0 then 0 else 2))) else 1) + (if x <= 0 then 1 else 2))
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1: (1 + (if (x mod 4) <= 0 then (x mod (2 + (x div 4))) else 0))
1: (2 + (if (x mod 4) <= 0 then (if x <= 0 then 1 else 2) else 1))
1: (x + (if (x mod 4) <= 0 then x else 1))
1: (1 + (if (x mod 4) <= 0 then x else 2))
1: ((if (x mod 4) <= 0 then x else 2) + (x2 div 2))
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1: (x + (if (x mod 4) <= 0 then x else (x div 2)))
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1: (1 + (if (x mod 5) <= 0 then 0 else x))
1: (1 + (if (x mod 5) <= 0 then 1 else 2))
1: (2 + (if (x mod 5) <= 0 then 1 else 2))
1: ((if (x mod 5) <= 0 then 1 else 2) + (x mod 4))
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1: (1 + (if (x mod (4 + (x div 4))) <= 0 then 2 else 0))
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1: (x + (if (x mod (3 + i)) <= 0 then 3 else x))
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1: (2 + (if (x mod 7) <= 0 then 1 else 2))
1: (x + (if (x mod 7) <= 0 then 1 else 2))
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1: (1 + (if (x mod 7) <= 0 then 2 else x))
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1: (x + (if (x mod 9) <= 0 then (9x + 9) else 1))
1: (2 + (if (x mod 9) <= 0 then (x div 2) else 0))
1: (1 + (if (x mod 9) <= 0 then x else 0))
1: (x + (if (x mod 9) <= 0 then x else 0))
1: ((if (x mod 9) <= 0 then x else (x + 1)) + (x div 4))
1: (2x + (if (x mod 13) <= 0 then 1 else 2))
1: (1 + (if (x mod 13) <= 0 then (x div 2) else 0))
1: (x + (if (x mod 13) <= 0 then (x div 2) else 0))
1: (1 + (if (x mod (1 + (2 * (3 - ((x div 3) mod 2))))) <= 0 then 2 else 0))
1: (1 + (if (x mod (2 + (3 * ((x mod 3) div 2)))) <= 0 then 0 else 2))
1: (1 + (if (x mod (1 + (2 * (x div (2 * (2 + (x mod 2))))))) <= 0 then 0 else 2))
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1: (1 + (if (x mod (1 + (3 * (x mod 4)))) <= 0 then 2 else 0))
1: (2 + (if (x mod (1 + (3 * (if (x mod (2 + (x mod 2))) <= 0 then 0 else 2)))) <= 0 then 0 else 2))
1: (x + (if (x mod (1 + (2 * i))) <= 0 then 2 else 0))
1: (x + (if (x mod (1 + (2 * i))) <= 0 then x else 0))
1: (x + (if (x mod (1 + (2 * i))) <= 0 then i else 0))
1: ((if (x mod (2 + ((x - (x div 3)) div 3))) <= 0 then 1 else 2) + (x mod 2))
1: (1 + (if (x mod (1 + (((x + 1) div 2) div 3))) <= 0 then 0 else x))
1: (x + (if (x mod (2 + (x div 2))) <= 0 then 2 else 1))
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1: (x + (if x <= 0 then 2 else (1 + (((x2 + ~x) div 3) div 7))))
1: (x + (if x <= 0 then 2 else (x + ((x div (2 + ((x div 2) div 3))) mod 2))))
1: (2 + (if x <= 0 then 2 else (1 + (((x + (x2 div 3)) mod 3) mod 2))))
1: ((if x <= 0 then 2 else (x + ((loop(\(x,i).(x * i),x,x) mod (x + 1)) mod 2))) + (if (x + ~1) <= 0 then 2 else 1))
1: ((2x + 1) + (if x <= 0 then 2 else (x + ((x mod (2 + (x mod 5))) mod 2))))
1: (2x + (if x <= 0 then 2 else (x + ((x mod (2 + (x mod 5))) mod 2))))
1: (x + (if x <= 0 then 2 else (x + (if (~2 + (x div 5)) <= 0 then 1 else 4))))
1: (1 + (if x <= 0 then 2 else (x + (if x <= 0 then 1 else (loop(\(x,i).(x * i),(x + ~2),x) * (1 + (x mod 2)))))))
1: (2 + (if x <= 0 then 2 else (x + loop(\(x,i).(6 + (x div 2)),x,1))))
1: (1 + (if x <= 0 then 2 else (x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - ((x div 2) mod 2))))),x,(x + 1)))))
1: (1 + (if x <= 0 then 2 else (x + loop(\(x,i).(x - (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else (1 + (if (~x + 2) <= 0 then x else 0))))),x,(x + 1)))))
1: (1 + (if x <= 0 then 2 else (1 - ((4 * (x div 3)) div 3))))
1: (2 + (if x <= 0 then 2 else (1 - ((((x2 + ~x) div 3) mod 3) div 2))))
1: (5 + (if x <= 0 then 2 else (2 - (if x <= 0 then 2 else (1 + (if ((x - ((x div 5) mod 2)) mod 3) <= 0 then 2 else 1))))))
1: (1 + (if x <= 0 then 2 else (1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) - compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x))))
1: ((if x <= 0 then 2 else ((3x + 3) - (x div 3))) + (x mod 2))
1: (x + (if x <= 0 then 2 else (~1 + (2 * (if x <= 0 then 1 else (4x + (2 div (~2 + (x mod 2)))))))))
1: (x + (if x <= 0 then 2 else (~1 + ((~x2 + x) mod 5))))
1: (x + (if x <= 0 then 2 else (loop(\(x,i).(x * (~2 + (i mod 2))),x,1) - loop(\(x,i).2x,x,1))))
1: (1 + (if x <= 0 then 2 else (x - (2 * (~2x + ((x + (x div 2)) div 4))))))
1: (2 + (if x <= 0 then 2 else (x - ((x2 + 2) div (x + 5)))))
1: (1 + (if x <= 0 then 2 else (x - ((((~1 + (x div 2)) div 2) - ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) div 2))))
1: (2 + (if x <= 0 then 2 else (x - (if x <= 0 then 1 else (x div (2 - (i mod 2)))))))
1: (x + (if x <= 0 then 2 else (2 * (1 + (((x + ~1) * loop(\(x,i).(2x - (i mod 2)),x,1)) div 2)))))
1: ((if x <= 0 then 2 else (3x + 3)) + (x div 4))
1: ((if x <= 0 then 2 else (3x + 3)) + (x div 7))
1: (1 + (if x <= 0 then 2 else (((x + 1) - ((x2 + ~x) div 4)) div 3)))
1: (2 + (if x <= 0 then 2 else ((x + (x2 div 4)) div 2)))
1: ((if x <= 0 then 2 else ((1 + loop(\(x,i).2x,x,1)) div 5)) + (x div 2))
1: ((if x <= 0 then 2 else ((~x + 2) div 2)) + (x div 3))
1: (2 + (if x <= 0 then 2 else (((2 + ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 12)) div 2) div 2)))
1: (2 + (if x <= 0 then 2 else (((x + 1) div 2) div 2)))
1: (1 + (if x <= 0 then 2 else (((x + 2) mod 5) div 3)))
1: (x + (if x <= 0 then 2 else (x div (2 + (x mod 2)))))
1: (1 + (if x <= 0 then 2 else (((1 + ((x + 1) div 3)) mod 5) mod 2)))
1: (1 + (if x <= 0 then 2 else (((x * (x div 3)) mod 3) mod 2)))
1: (1 + (if x <= 0 then 2 else ((x mod (2 - (x div (1 + ((x div 2) mod 2))))) mod 2)))
1: (2 + (if x <= 0 then 2 else (loop(\(x,i).(2 * (~1 + (4 * (x div 2)))),2,x) mod (x + 1))))
1: (2 + (if x <= 0 then 2 else (loop(\(x,i).x3,2,11) mod (x + 1))))
1: (2x + (if x <= 0 then 2 else (x mod 2)))
1: (2 + (if x <= 0 then 2 else (x mod (~2 + ((x div 2) mod 2)))))
1: (x + (if x <= 0 then 2 else (if (x + ~2) <= 0 then x else 1)))
1: (2 + (if x <= 0 then 2 else (if ((x + 2) mod 7) <= 0 then 1 else 0)))
1: (1 + (if x <= 0 then 2 else (if ((x + ~1) mod (1 + (4 mod (x + 1)))) <= 0 then 0 else 1)))
1: (2 + (if x <= 0 then 2 else (if ((x div 2) mod (3 + (x mod 2))) <= 0 then 1 else 2)))
1: (1 + (if x <= 0 then 2 else (if (x mod 2) <= 0 then 4 else ~3)))
1: (x + (if x <= 0 then 2 else loop(\(x,i).((x + 1) + ((2 + (i div 2)) * (i div 2))),x,1)))
1: (x + (if x <= 0 then 2 else loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then i else 0)),(x div 2),(x + 1))))
1: (2x + (if x <= 0 then 2 else loop(\(x,i).(x + loop(\(x,i).(if x <= 0 then i else (x + ~1)),x,1)),1,(x + ~1))))
1: (x + (if x <= 0 then 2 else loop(\(x,i).(x - (x div 4)),4,(x + 1))))
1: (x + (if x <= 0 then 2 else loop(\(x,i).(x - (x div 12)),2,x)))
1: (x + (if x <= 0 then 2 else loop(\(x,i).(2 * (2x - (i mod 2))),(x div 2),1)))
1: (1 + (if x <= 0 then 2 else loop(\(x,i).(x3 + ~3x),(x + ~1),4)))
1: (2 + (if x <= 0 then 2 else loop(\(x,i).x3,1,14)))
1: (2 + (if x <= 0 then 2 else loop(\(x,i).(((x + 1) - ((x div 2) mod 2)) div 2),2,x)))
1: (1 + (if x <= 0 then 2 else loop(\(x,i).((4x2 + 2x) div 3),x,1)))
1: (1 + (if x <= 0 then 2 else loop(\(x,i).(x div (2 - (x mod 2))),x,x)))
1: (1 + (if x <= 0 then 2 else compr(\x.(loop(\(x,i).(1 + (2 * (x + (i mod 2)))),x,0) mod (x + 1)),x)))
1: (1 + (if x <= 0 then 2 else compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: (2 + (if x <= 0 then 2 else compr(\x.(loop(\(x,i).(~2x + 2),x,2) mod (x + 2)),x)))
1: (2 + (if x <= 0 then 3 else (1 + ((if (~1 + (x mod (2 + (x mod 2)))) <= 0 then 1 else 2x) div 3))))
1: (x + (if x <= 0 then 3 else (2x - (~x mod 4))))
1: (2 + (if x <= 0 then 3 else (2 * (if (~x + 2) <= 0 then 1 else 13))))
1: (2 + (if x <= 0 then 3 else (if (2x mod (x + 5)) <= 0 then 2 else 0)))
1: (3 + (if x <= 0 then 4 else (x + 1)))
1: (1 + (if x <= 0 then 4 else x))
1: (8x + (if x <= 0 then 5 else (x + (if (x + ~2) <= 0 then 1 else x))))
1: (x2 + (if x <= 0 then (3x + 7) else 1))
1: ((if x <= 0 then (1 + (i div 3)) else 0) + (x div 2))
1: (2 + (if x <= 0 then 10 else x))
1: (2 + (if x <= 0 then x else (2 - ((~x + 2) div 5))))
1: (1 + (if x <= 0 then x else (x - (if x <= 0 then 1 else (~1 + (x div (2 + ((x div 2) div 3))))))))
1: (1 + loop(\(x,i).((2x + 2) + (3 * (2x + (x mod 2)))),(x div 2),(x mod 2)))
1: (1 + loop(\(x,i).((x + 1) + (((2x + 1) div 7) + (x div 3))),x,0))
1: (1 + loop(\(x,i).((x + 1) + ((2x div 7) + (x div 3))),x,1))
1: (2 + loop(\(x,i).((2x + 1) + (loop(\(x,i).(1 + (4 * (x + (x mod 2)))),x,0) + (x mod 2))),(x + ~1),(x mod 2)))
1: (1 + loop(\(x,i).(x + 5),(~3 + (x div 2)),x))
1: (1 + loop(\(x,i).(x + 5),(~2 + (x div 3)),x))
1: (1 + loop(\(x,i).(x + 5),(~1 + (x div 5)),x))
1: (1 + loop(\(x,i).(x + 6),(~2 + ((x + ~1) div 3)),x))
1: (1 + loop(\(x,i).(x + 6),(x + ~5),x))
1: (2x + loop(\(x,i).((3x + 1) + i),i,1))
1: (x + loop(\(x,i).((x + 1) + (if ((x div 2) mod 3) <= 0 then 2 else 1) - (x mod 2)),((x + 1) div 3),1))
1: (1 + loop(\(x,i).((3x + 1) + (x mod 3)),x,0))
1: (1 + loop(\(x,i).(x + 9),(x + ~8),x))
1: (1 + loop(\(x,i).(x + 10),(x + ~8),x))
1: (x + loop(\(x,i).((x + 1) + (5 * i)),i,1))
1: (1 + loop(\(x,i).((x + 1) + ((2 + (i div 2)) * (i div 2))),x,1))
1: (x + loop(\(x,i).((x + 1) + ((2 + (i div 2)) * (i div 2))),i,1))
1: (1 + loop(\(x,i).(1 + ((3 * (2x + (x mod 3))) + (x mod 2))),x,1))
1: (x + loop(\(x,i).(x + (((2 + (i mod 2)) * i) + i)),(~1 + i),1))
1: (1 + loop(\(x,i).((x + 1) + (2 * (x - ((~1 + (2 * (x mod 2))) * (1 + i))))),x,0))
1: (1 + loop(\(x,i).((x + 1) + (2 * ((x + (x div 2)) div 4))),((x + 1) div 2),1))
1: (x + loop(\(x,i).((x + 2) + ((i div 2) * i)),x,2))
1: (1 + loop(\(x,i).(4x + (((x + ((x div 2) mod 2)) div 2) + (if x <= 0 then 1 else 2x))),2,x))
1: (2 + loop(\(x,i).((x + 1) + ((x + (if (i mod 2) <= 0 then 2 else 0)) div 3)),(x div 2),(x mod 2)))
1: (1 + loop(\(x,i).((x + 1) + ((x + loop(\(x,i).(x2 div 2),(x + ~2),loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1))) div 3)),x,1))
1: (x + loop(\(x,i).((x + 3) + ((x - ((x div 2) div 3)) div 2)),2,x))
1: (x + loop(\(x,i).((x + 2) + ((x - (x div 4)) div 2)),x,2))
1: (x + loop(\(x,i).((x + 1) + ((x * (4 + i)) div (x + 3))),x,1))
1: (1 + loop(\(x,i).(x + ((((2 + i) * (1 + i)) div 2) + i)),x,2))
1: (x + loop(\(x,i).((x + 3) + (8x div (x + 2))),2,x))
1: (x + loop(\(x,i).((x + 2) + (2x div 5)),x,2))
1: (1 + loop(\(x,i).((x + 1) + (2x div (1 + (2 * (x mod 3))))),x,0))
1: (2 + loop(\(x,i).((x + 2) + (2x div (2 + (3 * (if (~2 + (x div 2)) <= 0 then 1 else 2))))),x,1))
1: (x + loop(\(x,i).((x2 + 2x + 1) + (x2 div 4)),1,i))
1: (loop(\(x,i).((x + 1) + ((i * i) div 3)),x,1) + (x div 2))
1: (1 + loop(\(x,i).(2x + ((i * i) div (x + 2))),x,1))
1: (1 + loop(\(x,i).((x + 1) + ((if (x + ~4) <= 0 then 1 else x) div 4)),x,0))
1: (x + loop(\(x,i).(6 + (x div 2)),x,1))
1: (1 + loop(\(x,i).((x + 2) + (x div 2)),(x div 2),(x mod 2)))
1: (1 + loop(\(x,i).((x + 2) + (x div 2)),x,0))
1: (x + loop(\(x,i).((x + 2) + (x div 2)),x,0))
1: (x + loop(\(x,i).((x + 2) + (x div 3)),x,1))
1: (x + loop(\(x,i).((x + 1) + (x div 4)),2,x))
1: (x + loop(\(x,i).((x + 2) + (x div 4)),2,(x + 1)))
1: (1 + loop(\(x,i).((x + 2) + (x div 4)),x,2))
1: (2 + loop(\(x,i).(x + ((x div 4) + i)),4,x))
1: (x + loop(\(x,i).((x + 1) + (x div 5)),(x + ~2),1))
1: (x + loop(\(x,i).((3x + 2) + (x div 5)),7,4))
1: (2 + loop(\(x,i).((x + 2) + (x div (4 + (x div 2)))),(x + ~1),2))
1: (1 + loop(\(x,i).((x + 1) + (x div (4 + (x2 mod (x + 4))))),x,1))
1: (x + loop(\(x,i).((x + 2) + (x div (4 + i))),2,x))
1: (1 + loop(\(x,i).((3x + 2) + (x div 7)),2,x))
1: (x + loop(\(x,i).(x + ((x div (1 + (4 * i))) + i)),x,1))
1: (1 + loop(\(x,i).((x + 1) + (x div (2 + (x div (2 + (x mod (1 + ((~x + 2) mod 4)))))))),x,1))
1: (1 + loop(\(x,i).((x + 2) + (x div (1 + (x mod 2)))),(x div 2),(x mod 2)))
1: (1 + loop(\(x,i).((x + 1) + (x div (1 + (x mod (2 * (1 + (2 * (x mod 2)))))))),x,0))
1: (1 + loop(\(x,i).((x + 1) + (x div (1 + (i mod 2)))),x,(x mod 2)))
1: (x + loop(\(x,i).((x + 1) + (x div (2 + (i mod 2)))),i,1))
1: (loop(\(x,i).((x + 2) + (x div (2 + (i mod 2)))),x,2) + loop(\(x,i).2x,x,1))
1: (1 + loop(\(x,i).((2x + 1) + (x div (1 + (if (x mod 2) <= 0 then 4 else 1)))),x,1))
1: (x + loop(\(x,i).((x + 1) + (x div 8)),(x + ~2),0))
1: (2 + loop(\(x,i).((x + 2) + (x div 8)),x,2))
1: (8 + loop(\(x,i).((x + 2) + (x div (4 * (1 + i)))),2,x))
1: (x + loop(\(x,i).(x + ((i div 2) + i)),(1 + i),2))
1: (1 + loop(\(x,i).(x + ((i div 3) + (x div 2))),x,1))
1: (x + loop(\(x,i).((x + 1) + (((2x + ~4) div (2 + (x div 2))) mod 2)),x,1))
1: (1 + loop(\(x,i).((x + 1) + (((2x + ~4) div (2 + (x div 4))) mod 2)),x,0))
1: (1 + loop(\(x,i).((x + 1) + (((((~x + 2) * (x div 2)) div 2) div 3) mod 2)),x,0))
1: (2 + loop(\(x,i).((x + 1) + ((((x * (x2 - (if x <= 0 then 1 else ((x + 1) - loop(\(x,i).loop(\(x,i).(x + (i * i)),(x + ~1),1),2,x))))) div 2) div 3) mod 2)),x,1))
1: (2x + loop(\(x,i).((x + 2) + ((x div (3 + ((x div 2) div 3))) mod 2)),x,1))
1: (2 + loop(\(x,i).((x + 1) + ((x div (~2 + ((i div 2) mod 2))) mod 2)),x,1))
1: (2 + loop(\(x,i).(3x + (i mod 2)),x,1))
1: (loop(\(x,i).(x + ((i mod 2) + (x div 3))),x,3) + loop(\(x,i).2x,x,2))
1: (1 + loop(\(x,i).((x + 1) + (if (~x + 2) <= 0 then x else 2)),(x div 2),(x mod 2)))
1: ((x + ~1) + loop(\(x,i).((x + 2) + (if (x + ~2) <= 0 then x else 4)),2,x))
1: (1 + loop(\(x,i).((x + 2) + (if (x mod (2 + (x div 4))) <= 0 then 1 else 2)),x,0))
1: (1 + loop(\(x,i).(3x + (if (i mod 3) <= 0 then 2 else 0)),x,2))
1: (1 + loop(\(x,i).(2x + (if (i mod 3) <= 0 then 3 else 0)),x,0))
1: (1 + loop(\(x,i).(2x + (if (i mod 4) <= 0 then i else 1)),x,0))
1: (1 + loop(\(x,i).((x + 2) + (if x <= 0 then 0 else ((if (x mod (2 + (x mod 2))) <= 0 then 1 else x) mod 4))),x,0))
1: (loop(\(x,i).((2x + 1) + (if x <= 0 then 1 else x)),x,0) + loop(\(x,i).2x,x,1))
1: (x + loop(\(x,i).(7x + loop(\(x,i).(5x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (8x + loop(\(x,i).(3x + loop(\(x,i).(5x + loop(\(x,i).10x,i,1)),i,1)),i,1))
1: (4x + loop(\(x,i).(3x + loop(\(x,i).(5x + loop(\(x,i).10x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(5x + loop(\(x,i).(7x + loop(\(x,i).10x,i,1)),i,1)),i,1))
1: (6x + loop(\(x,i).(5x + loop(\(x,i).(7x + loop(\(x,i).10x,i,1)),i,1)),i,1))
1: (x + loop(\(x,i).(5x + loop(\(x,i).(7x + loop(\(x,i).10x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(3x + loop(\(x,i).(7x + loop(\(x,i).10x,i,1)),i,1)),i,1))
1: (6x + loop(\(x,i).(3x + loop(\(x,i).(7x + loop(\(x,i).10x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(5x + loop(\(x,i).(7x + loop(\(x,i).2x,i,1)),i,1)),i,1))
1: (6x + loop(\(x,i).(5x + loop(\(x,i).(7x + loop(\(x,i).2x,i,1)),i,1)),i,1))
1: (1 + loop(\(x,i).((x + 1) + loop(\(x,i).(2 + (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x))),1,i)),x,1))
1: (8x + loop(\(x,i).(9x + loop(\(x,i).(3x + 1),i,1)),i,1))
1: (12x + loop(\(x,i).(9x + loop(\(x,i).(3x + 1),i,1)),i,1))
1: (6x + loop(\(x,i).(9x + loop(\(x,i).(3x + 1),i,1)),i,1))
1: (x + loop(\(x,i).(9x + loop(\(x,i).(3x + 1),i,1)),i,1))
1: (8x + loop(\(x,i).(5x + loop(\(x,i).(3x + 1),i,1)),i,1))
1: (12x + loop(\(x,i).(5x + loop(\(x,i).(3x + 1),i,1)),i,1))
1: (12x + loop(\(x,i).(7x + loop(\(x,i).(3x + 1),i,1)),i,1))
1: (6x + loop(\(x,i).(7x + loop(\(x,i).(3x + 1),i,1)),i,1))
1: (8x + loop(\(x,i).(5x + loop(\(x,i).(5x + 1),i,1)),i,1))
1: (12x + loop(\(x,i).(7x + loop(\(x,i).(5x + 1),i,1)),i,1))
1: (6x + loop(\(x,i).(7x + loop(\(x,i).(5x + 1),i,1)),i,1))
1: (8x + loop(\(x,i).(5x + loop(\(x,i).(9x + 1),i,1)),i,1))
1: (12x + loop(\(x,i).(5x + loop(\(x,i).(9x + 1),i,1)),i,1))
1: (6x + loop(\(x,i).(5x + loop(\(x,i).(9x + 1),i,1)),i,1))
1: (x + loop(\(x,i).(5x + loop(\(x,i).(9x + 1),i,1)),i,1))
1: (12x + loop(\(x,i).(7x + loop(\(x,i).(9x + 1),i,1)),i,1))
1: (6x + loop(\(x,i).(7x + loop(\(x,i).(9x + 1),i,1)),i,1))
1: (8x + loop(\(x,i).(5x + loop(\(x,i).(10x + 1),i,1)),i,1))
1: (12x + loop(\(x,i).(5x + loop(\(x,i).(10x + 1),i,1)),i,1))
1: (4x + loop(\(x,i).(5x + loop(\(x,i).(10x + 1),i,1)),i,1))
1: (6x + loop(\(x,i).(5x + loop(\(x,i).(10x + 1),i,1)),i,1))
1: (12x + loop(\(x,i).(7x + loop(\(x,i).(10x + 1),i,1)),i,1))
1: (6x + loop(\(x,i).(7x + loop(\(x,i).(10x + 1),i,1)),i,1))
1: (12x + loop(\(x,i).(7x + loop(\(x,i).(4x + 1),i,1)),i,1))
1: (6x + loop(\(x,i).(7x + loop(\(x,i).(4x + 1),i,1)),i,1))
1: (8x + loop(\(x,i).(5x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (12x + loop(\(x,i).(5x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (4x + loop(\(x,i).(5x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (6x + loop(\(x,i).(5x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (x + loop(\(x,i).(5x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (12x + loop(\(x,i).(7x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (6x + loop(\(x,i).(7x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (x + loop(\(x,i).(7x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (8x + loop(\(x,i).(3x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (12x + loop(\(x,i).(3x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (4x + loop(\(x,i).(3x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (6x + loop(\(x,i).(3x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (x + loop(\(x,i).(3x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (12x + loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (6x + loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
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1: (x + loop(\(x,i).(7x + loop(\(x,i).(12x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (x + loop(\(x,i).(7x + loop(\(x,i).(6x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (8x + loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (4x + loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (6x + loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (x + loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (12x + loop(\(x,i).(7x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (6x + loop(\(x,i).(7x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (12x + loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).3x,i,1)),i,1)),i,1))
1: (6x + loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).3x,i,1)),i,1)),i,1))
1: (8x + loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1))
1: (x + loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(7x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1))
1: (6x + loop(\(x,i).(7x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).5x,i,1)),i,1)),i,1))
1: (6x + loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).5x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(7x + loop(\(x,i).(4x + loop(\(x,i).5x,i,1)),i,1)),i,1))
1: (6x + loop(\(x,i).(7x + loop(\(x,i).(4x + loop(\(x,i).5x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(7x + loop(\(x,i).(6x + loop(\(x,i).5x,i,1)),i,1)),i,1))
1: (8x + loop(\(x,i).(9x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(9x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (6x + loop(\(x,i).(9x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (8x + loop(\(x,i).(5x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(5x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (4x + loop(\(x,i).(5x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (6x + loop(\(x,i).(5x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(7x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (6x + loop(\(x,i).(7x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (x + loop(\(x,i).(7x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (8x + loop(\(x,i).(3x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(3x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (4x + loop(\(x,i).(3x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (6x + loop(\(x,i).(3x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (x + loop(\(x,i).(3x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (6x + loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(3x + loop(\(x,i).(8x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (6x + loop(\(x,i).(3x + loop(\(x,i).(8x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (x + loop(\(x,i).(7x + loop(\(x,i).(12x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (8x + loop(\(x,i).(9x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(9x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (6x + loop(\(x,i).(9x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (x + loop(\(x,i).(9x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(7x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (6x + loop(\(x,i).(7x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (x + loop(\(x,i).(7x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (8x + loop(\(x,i).(3x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(3x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (6x + loop(\(x,i).(3x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (x + loop(\(x,i).(3x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(9x + loop(\(x,i).(6x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(5x + loop(\(x,i).(6x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(7x + loop(\(x,i).(6x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(3x + loop(\(x,i).(6x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (x + loop(\(x,i).(3x + loop(\(x,i).(6x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).10x,i,1)),i,1)),i,1))
1: (6x + loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).10x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(3x + loop(\(x,i).(8x + loop(\(x,i).10x,i,1)),i,1)),i,1))
1: (6x + loop(\(x,i).(3x + loop(\(x,i).(8x + loop(\(x,i).10x,i,1)),i,1)),i,1))
1: (x + loop(\(x,i).(3x + loop(\(x,i).(8x + loop(\(x,i).10x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(7x + loop(\(x,i).(4x + loop(\(x,i).10x,i,1)),i,1)),i,1))
1: (6x + loop(\(x,i).(7x + loop(\(x,i).(4x + loop(\(x,i).10x,i,1)),i,1)),i,1))
1: (8x + loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).10x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).10x,i,1)),i,1)),i,1))
1: (4x + loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).10x,i,1)),i,1)),i,1))
1: (6x + loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).10x,i,1)),i,1)),i,1))
1: (x + loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).10x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(7x + loop(\(x,i).(2x + loop(\(x,i).10x,i,1)),i,1)),i,1))
1: (6x + loop(\(x,i).(7x + loop(\(x,i).(2x + loop(\(x,i).10x,i,1)),i,1)),i,1))
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1: (8x + loop(\(x,i).(9x + loop(\(x,i).(11x + 1),i,1)),i,1))
1: (12x + loop(\(x,i).(9x + loop(\(x,i).(11x + 1),i,1)),i,1))
1: (x + loop(\(x,i).(9x + loop(\(x,i).(11x + 1),i,1)),i,1))
1: (8x + loop(\(x,i).(5x + loop(\(x,i).(11x + 1),i,1)),i,1))
1: (12x + loop(\(x,i).(5x + loop(\(x,i).(11x + 1),i,1)),i,1))
1: (4x + loop(\(x,i).(5x + loop(\(x,i).(11x + 1),i,1)),i,1))
1: (6x + loop(\(x,i).(5x + loop(\(x,i).(11x + 1),i,1)),i,1))
1: (12x + loop(\(x,i).(7x + loop(\(x,i).(11x + 1),i,1)),i,1))
1: (6x + loop(\(x,i).(7x + loop(\(x,i).(11x + 1),i,1)),i,1))
1: (8x + loop(\(x,i).(3x + loop(\(x,i).(11x + 1),i,1)),i,1))
1: (12x + loop(\(x,i).(3x + loop(\(x,i).(11x + 1),i,1)),i,1))
1: (4x + loop(\(x,i).(3x + loop(\(x,i).(11x + 1),i,1)),i,1))
1: (6x + loop(\(x,i).(3x + loop(\(x,i).(11x + 1),i,1)),i,1))
1: (8x + loop(\(x,i).(9x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(9x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1))
1: (6x + loop(\(x,i).(9x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1))
1: (8x + loop(\(x,i).(5x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(5x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1))
1: (4x + loop(\(x,i).(5x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1))
1: (6x + loop(\(x,i).(5x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(7x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1))
1: (6x + loop(\(x,i).(7x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1))
1: (x + loop(\(x,i).(7x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1))
1: (8x + loop(\(x,i).(3x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(3x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1))
1: (4x + loop(\(x,i).(3x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1))
1: (6x + loop(\(x,i).(3x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(5x + loop(\(x,i).3x,(2 * i),1)),i,1))
1: (12x + loop(\(x,i).(7x + loop(\(x,i).3x,(2 * i),1)),i,1))
1: (6x + loop(\(x,i).(7x + loop(\(x,i).3x,(2 * i),1)),i,1))
1: (x + loop(\(x,i).(7x + loop(\(x,i).3x,(2 * i),1)),i,1))
1: (10x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1))
1: (x + loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),i,1))
1: (12x + loop(\(x,i).(7x + loop(\(x,i).3x,i,1)),i,1))
1: (12x + loop(\(x,i).(7x + loop(\(x,i).5x,i,1)),i,1))
1: (6x + loop(\(x,i).(7x + loop(\(x,i).5x,i,1)),i,1))
1: (12x + loop(\(x,i).(5x + loop(\(x,i).13x,i,1)),i,1))
1: (12x + loop(\(x,i).(9x + loop(\(x,i).11x,i,1)),i,1))
1: (12x + loop(\(x,i).(5x + loop(\(x,i).11x,i,1)),i,1))
1: (6x + loop(\(x,i).(5x + loop(\(x,i).11x,i,1)),i,1))
1: (x + loop(\(x,i).(5x + loop(\(x,i).11x,i,1)),i,1))
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1: (6x + loop(\(x,i).(7x + loop(\(x,i).11x,i,1)),i,1))
1: (8x + loop(\(x,i).(3x + loop(\(x,i).11x,i,1)),i,1))
1: (12x + loop(\(x,i).(3x + loop(\(x,i).11x,i,1)),i,1))
1: (4x + loop(\(x,i).(3x + loop(\(x,i).11x,i,1)),i,1))
1: (6x + loop(\(x,i).(3x + loop(\(x,i).11x,i,1)),i,1))
1: (12x + loop(\(x,i).(7x + loop(\(x,i).10x,i,1)),i,1))
1: (8x + loop(\(x,i).(3x + loop(\(x,i).10x,i,1)),i,1))
1: (12x + loop(\(x,i).(3x + loop(\(x,i).10x,i,1)),i,1))
1: (4x + loop(\(x,i).(3x + loop(\(x,i).10x,i,1)),i,1))
1: (6x + loop(\(x,i).(3x + loop(\(x,i).10x,i,1)),i,1))
1: (12x + loop(\(x,i).(7x + loop(\(x,i).4x,i,1)),i,1))
1: (12x + loop(\(x,i).(7x + loop(\(x,i).2x,i,1)),i,1))
1: (1 + loop(\(x,i).((x + 2) + loop(\(x,i).(x * i),x,2)),x,0))
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1: (1 + loop(\(x,i).(x + 3),(x + ~4),x))
1: (1 + loop(\(x,i).(x + 4),(~1 + ((x + ~2) div 3)),x))
1: (x + loop(\(x,i).((x + 2) + i),x,2))
1: (4x + loop(\(x,i).((2x + 1) + i),i,1))
1: (x + loop(\(x,i).((2x + 2) + i),(x + ~1),1))
1: (1 + loop(\(x,i).(3x + i),4,x))
1: (2x + loop(\(x,i).(2x + i),(~1 + i),i))
1: (x + loop(\(x,i).(2x + i),(2 * (x div 2)),2))
1: (1 + loop(\(x,i).(2x + i),x,1))
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1: (1 + loop(\(x,i).(2x + i),x,2))
1: (1 + loop(\(x,i).(2x + i),x,x))
1: (2 + loop(\(x,i).(2x + i),x,x))
1: (2 + loop(\(x,i).((x + 3) + compr(\x.((x div 4) mod 2),i)),x,1))
1: (1 + loop(\(x,i).((x + 2) + compr(\x.(loop(\(x,i).(2x + 1),x,0) mod (x + 1)),i)),x,2))
1: (1 + loop(\(x,i).(2 + (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x))),1,i))
1: (x + loop(\(x,i).((x + 2) + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i)),i,2))
1: (2 + loop(\(x,i).((10x + 21) - (x mod 2)),(x div 2),(x mod 2)))
1: (1 + loop(\(x,i).((2x + 2) - (x div 4)),(x div 2),(x mod 2)))
1: (3 + loop(\(x,i).((2x + 1) - ((x div 7) mod 2)),2,x))
1: (x + loop(\(x,i).(2 + (x * i) - (i div 2)),x,1))
1: (1 + loop(\(x,i).(x + ((x + 1) div 2) - (x div (~1 + (2 * i)))),x,1))
1: (x + loop(\(x,i).(x + (x div 2) - ((x + 1) div 5)),2,x))
1: (2 + loop(\(x,i).((x + 2) - (((x + 1) div (1 + (x mod 9))) mod 2)),x,2))
1: (1 + loop(\(x,i).((x + 3) - ((x div 3) mod 3)),x,0))
1: (2 + loop(\(x,i).((x + 2) - ((x div (2 + ((x div 2) div 3))) mod 2)),x,2))
1: (x + loop(\(x,i).((x + ~1) + i - (((x + 1) div 2) div 3)),x,1))
1: (1 + loop(\(x,i).(x + i - (x mod 13)),x,0))
1: ((x + 1) + loop(\(x,i).(x + i - (if (x + ~1) <= 0 then 0 else (2 * (1 + i)))),x,0))
1: (loop(\(x,i).(3x + 1),(x + ~1),1) + (x mod 2))
1: (1 + loop(\(x,i).(3x + 1),2x,2))
1: (x + loop(\(x,i).(3x + 1),(x div (4 + (x div 4))),1))
1: (loop(\(x,i).(3x + 1),x,1) + (((x + ~1) div 3) mod 2))
1: (loop(\(x,i).(3x + 1),x,1) + (((x + ~2) div 3) mod 2))
1: (loop(\(x,i).(3x + 1),x,1) + loop(\(x,i).(2x - i),x,0))
1: (12x + loop(\(x,i).(3x + 1),i,1))
1: (6x + loop(\(x,i).(3x + 1),i,1))
1: (1 + loop(\(x,i).(x + 8),(~4 + (x div 2)),x))
1: (1 + loop(\(x,i).(5x + 4),(x div 3),(x mod 3)))
1: (2 + loop(\(x,i).(5x + 1),x,1))
1: (loop(\(x,i).(5x + 1),x,1) + (x mod 2))
1: (loop(\(x,i).(5x + 1),x,1) + loop(\(x,i).(3x + ~1),x,2))
1: (1 + loop(\(x,i).(5x + 1),x,2))
1: (1 + loop(\(x,i).(5x + 1),i,1))
1: (12x + loop(\(x,i).(5x + 1),i,1))
1: (1 + loop(\(x,i).(5x + 2),(x div 2),(x mod 2)))
1: (loop(\(x,i).(5x + 2),x,0) + loop(\(x,i).(~3x + 2),x,1))
1: (12x + loop(\(x,i).(5x + loop(\(x,i).2x,i,1)),i,1))
1: (x + loop(\(x,i).(5x + loop(\(x,i).2x,i,1)),i,1))
1: (x + loop(\(x,i).(2 + (5 * i)),(x + ~7),1))
1: (1 + loop(\(x,i).(x + ((x + 4) * i)),(x + 1),x))
1: (x + loop(\(x,i).(1 + (x * (3 + i))),(x + ~1),1))
1: (2 + loop(\(x,i).(x + ((3 + i) * i)),(x + 1),x))
1: (x + loop(\(x,i).(x + ((3 + i) * i)),(x + 1),x))
1: (x + loop(\(x,i).(x + ((4 - (i mod 2)) * i)),i,1))
1: (1 + loop(\(x,i).(1 + (5 * ((2x + 2) - (x mod 2)))),(2x + 1),1))
1: (1 + loop(\(x,i).(7x + 1),i,1))
1: (12x + loop(\(x,i).(7x + 1),i,1))
1: (1 + loop(\(x,i).(3x2 + 2x + 2),1,loop(\(x,i).10x,x,1)))
1: (loop(\(x,i).(10x + 3),2x,2) + loop(\(x,i).10x,x,1))
1: (1 + loop(\(x,i).((x5 + x2 + 2x) + (x div 2)),x,1))
1: (x + loop(\(x,i).(x + ((1 + (2 * (1 + (4 * i)))) * i)),x,1))
1: (x + loop(\(x,i).(1 + ((x3 + ~x2 + x) * i)),x,1))
1: (2 + loop(\(x,i).(27x + 7),2,x))
1: (x + loop(\(x,i).(49x + 1),i,1))
1: (x + loop(\(x,i).(x + ((1 + (8 * (x mod 2))) * (1 + i))),x,1))
1: (1 + loop(\(x,i).(1 + (x * (2 + (x * (i * i))))),x,0))
1: (1 + loop(\(x,i).(x + (5 * (x + (2 * (i mod 2))))),x,0))
1: (x2 + loop(\(x,i).(x + ((1 + (2 * i)) * i)),(2x + 1),x))
1: (1 + loop(\(x,i).((2 * (x + (2 * i))) + i),x,0))
1: (1 + loop(\(x,i).((2 * (x + (2 * i))) + i),x,2))
1: (1 + loop(\(x,i).(1 + (x * (1 + (x2 div 2)))),x,0))
1: (2 + loop(\(x,i).(1 + (2 * (2 + (loop(\(x,i).2x,x,2) div (x + 1))))),x,0))
1: ((x + 1) + loop(\(x,i).(((1 + (x div 2)) * i) + ((1 + (x div 2)) div 2)),x,1))
1: (x + loop(\(x,i).(1 + (x * (2 + (x div 3)))),x,0))
1: (2x + loop(\(x,i).(1 + (4 * (x + (x mod 2)))),x,0))
1: (1 + loop(\(x,i).(x + (5 * (x + (x mod 3)))),x,1))
1: (loop(\(x,i).((x * (1 + (i mod 2))) + (x mod 2)),x,1) + loop(\(x,i).2x,x,1))
1: (x + loop(\(x,i).(x + ((2 + (i mod 2)) * i)),x,1))
1: (1 + loop(\(x,i).(x + (2 * (x + (i mod 2)))),(x + ~1),x))
1: (2x + loop(\(x,i).(x + (2 * (x + (i mod 2)))),i,0))
1: (1 + loop(\(x,i).(1 + (x * (1 + (if (x mod (~1 + (2 * i))) <= 0 then 2x else 1)))),x,0))
1: (1 + loop(\(x,i).(x + (2 * (1 + (if x <= 0 then 2 else x)))),(x div 2),(x mod 2)))
1: (loop(\(x,i).(2x + 3),x,x) + (if x <= 0 then 1 else x))
1: (1 + loop(\(x,i).((2x + 2) + (2 mod (x + 1))),(x div 2),(x mod 2)))
1: (1 + loop(\(x,i).(x2 + x + 1),2,x))
1: (2 + loop(\(x,i).(x2 + x + 2),(4x + 4),x))
1: (loop(\(x,i).((x2 + x + ~1) + (x mod 2)),x,1) + (x mod 2))
1: (1 + loop(\(x,i).((x2 + x) + (x div 2)),1,loop(\(x,i).2x,x,1)))
1: (loop(\(x,i).((x2 + x) + (i mod 2)),x,1) + (x mod 3))
1: (2 + loop(\(x,i).(2x + 5),(x div 2),(2 + (3 * (x mod 2)))))
1: (1 + loop(\(x,i).(3x + 4),(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),2))
1: (loop(\(x,i).(3x + 4),x,1) + loop(\(x,i).2x,x,2))
1: (2x + loop(\(x,i).(3x + 4),i,0))
1: (x + loop(\(x,i).((2x + 4) + i),(x + ~1),1))
1: (x + loop(\(x,i).((2x + 4) + i),(x + ~2),0))
1: (2x + loop(\(x,i).(3x + 7),i,1))
1: (x + loop(\(x,i).(x2 + 4x + 6),2,2))
1: (x + loop(\(x,i).(x2 + 2x + 1),2,2))
1: (1 + loop(\(x,i).(1 + (x * (1 + i))),x,2))
1: (x + loop(\(x,i).(2 + (x * (1 + i))),(x + ~1),1))
1: (1 + loop(\(x,i).(2x + ((1 + i) * i)),x,1))
1: (1 + loop(\(x,i).(x + ((1 + i) * i)),2x,x))
1: (x + loop(\(x,i).(x + ((1 + i) * i)),i,0))
1: (loop(\(x,i).(x + ((2 + i) * i)),x,1) + (x div 4))
1: (x + loop(\(x,i).(x + ((2 + i) * i)),i,1))
1: (x + loop(\(x,i).(x + (2 * (x + i))),(x + ~1),1))
1: ((x + 1) + loop(\(x,i).(x + (2 * (x + i))),(x + ~1),x))
1: (1 + loop(\(x,i).(x + (2 * (x + i))),x,1))
1: (1 + loop(\(x,i).((2 * (x + i)) + i),x,2x))
1: (1 + loop(\(x,i).(2 + (x * ((x + ~1) + i))),x,0))
1: (x + loop(\(x,i).(1 + (2 * (2x - (x div (if i <= 0 then 1 else i))))),i,1))
1: (x + loop(\(x,i).(2x + ((~1 + (2 * i)) * i)),i,0))
1: (1 + loop(\(x,i).(1 + (3 * (x - (2 * ((~2x + 1) div 3))))),x,2))
1: (x + loop(\(x,i).(1 + (2 * (x - (x div ~2)))),i,2))
1: (1 + loop(\(x,i).(9x + 1),i,1))
1: (12x + loop(\(x,i).(9x + 1),i,1))
1: (loop(\(x,i).(10x + 1),(2x + 1),1) + loop(\(x,i).10x,x,4))
1: (loop(\(x,i).(10x + 1),(2x + 1),1) + loop(\(x,i).10x,x,8))
1: (loop(\(x,i).(10x + 1),2x,1) + (3 * loop(\(x,i).10x,x,2)))
1: (loop(\(x,i).(10x + 1),2x,1) + loop(\(x,i).10x,x,3))
1: (loop(\(x,i).(10x + 1),2x,1) + loop(\(x,i).10x,x,4))
1: (loop(\(x,i).(10x + 1),2x,1) + loop(\(x,i).10x,x,5))
1: (loop(\(x,i).(10x + 1),x,0) + (if (x + ~1) <= 0 then (2x + 2) else 0))
1: (8 + loop(\(x,i).(10x + 1),x,1))
1: (1 + loop(\(x,i).(10x + 1),x,loop(\(x,i).10x,x,1)))
1: (1 + loop(\(x,i).(10x + 1),i,1))
1: (12x + loop(\(x,i).(10x + 1),i,1))
1: (1 + loop(\(x,i).(10x + (i mod 2)),2x,0))
1: (1 + loop(\(x,i).(45x + 1),x,0))
1: (x + loop(\(x,i).(x + (2 * ((1 + (8 * i)) * i))),x,1))
1: (2 + loop(\(x,i).(x4 + x2 + 1),x,0))
1: (x + loop(\(x,i).((x * ((1 + (2 * i)) * (x div 2))) + i),x,1))
1: (loop(\(x,i).(x + ((x + ((x * i) div (1 + i))) * i * (~1 + i))),x,1) + loop(\(x,i).2x,x,1))
1: (x + loop(\(x,i).(7x + 6),i,1))
1: (loop(\(x,i).(10x + 21),2x,1) + loop(\(x,i).10x,x,2))
1: (loop(\(x,i).(10x + 22),2x,2) + loop(\(x,i).10x,x,1))
1: (1 + loop(\(x,i).(x + (2 * ((2 + i) * (~1 + i)))),x,1))
1: (2 + loop(\(x,i).(1 + (6 * ((x + 2) - (i mod 2)))),x,2))
1: (2 + loop(\(x,i).(4x4 + ~2x2 + 1),x,0))
1: (2 + loop(\(x,i).(32x + (x mod 3)),x,1))
1: (2x + loop(\(x,i).(24x + 1),i,1))
1: (2 + loop(\(x,i).(24x2 + 1),(2x + 2),1))
1: (2 + loop(\(x,i).(24x2 + 1),2x,1))
1: (12x + loop(\(x,i).(8x + 1),i,1))
1: (x + loop(\(x,i).(8x + 1),i,1))
1: (10x + loop(\(x,i).(8x + (x mod 3)),i,1))
1: (6x + loop(\(x,i).(8x + (x mod 3)),i,1))
1: (x + loop(\(x,i).(x + (20 * (i * i))),x,1))
1: (x + loop(\(x,i).(x + ((i mod 2) * i * (2 + i))),x,1))
1: (loop(\(x,i).(4x + 1),x,2) + loop(\(x,i).3x,x,1))
1: (12x + loop(\(x,i).(4x + 1),i,1))
1: (12x + loop(\(x,i).(6x + 1),i,1))
1: (2x + loop(\(x,i).(6x + 1),i,1))
1: ((x + 1) + loop(\(x,i).(6x + ((i mod 2) * i)),x,0))
1: (4x + loop(\(x,i).(6x + (2 div (1 + i))),i,1))
1: ((x + 1) + loop(\(x,i).(x3 + 1),2,2))
1: (2 + loop(\(x,i).(x3 + 1),2x,x))
1: (x + loop(\(x,i).(x3 + 2),2,2))
1: (2 + loop(\(x,i).(x3 + 4),2x,1))
1: (x + (loop(\(x,i).(1 + (2x * i)),i,1) + i))
1: (1 + loop(\(x,i).(1 + (x2 * i)),x,2))
1: (x + loop(\(x,i).(1 + (x * (i * i))),(x + ~2),1))
1: (loop(\(x,i).(1 + (x * (i * i))),i,1) + (x * (i * i)))
1: (1 + loop(\(x,i).(1 + (2 * ((24x + 1) div (x + 1)))),x,0))
1: (2 + loop(\(x,i).(1 + (x * ((1 + i) div 2))),x,1))
1: (2 + loop(\(x,i).(2 + (3 * ((~1 + (6 * (~1 + loop(\(x,i).11x,x,4)))) div 2))),x,1))
1: (loop(\(x,i).(1 + (2 * ((x2 + 2x) div 4))),2,x) + (x mod 2))
1: (loop(\(x,i).(1 + (2 * ((x * i) div 2))),i,1) + (x * i))
1: (x + loop(\(x,i).((2 * (((x + ~1) div 2) div 2)) + i),(x + ~1),1))
1: (2x + loop(\(x,i).(1 + (2 * (x mod 2))),(x div 5),0))
1: (x + loop(\(x,i).(x + ((i mod 2) * (1 + i))),i,1))
1: (x + loop(\(x,i).(x + (2 * (if (2 - i) <= 0 then x else 1))),x,(x + 1)))
1: (1 + loop(\(x,i).(x + (3 * (if (~2x mod 5) <= 0 then 3x else 1))),x,1))
1: (2 + loop(\(x,i).(x + ((2x + ~1) * (if (x mod 2) <= 0 then 1 else i))),x,1))
1: (loop(\(x,i).(x + ((if (i mod 2) <= 0 then i else 1) * i)),x,1) + ((x + 1) div 2))
1: (x + loop(\(x,i).(x + (2 * loop(\(x,i).(x * (x + i)),2,i))),x,1))
1: (x + loop(\(x,i).(1 + (x * loop(\(x,i).x2,2,3))),i,1))
1: (x + loop(\(x,i).(2x + 1),(x + ~3),0))
1: (loop(\(x,i).(2x + 1),(x div 2),2) + (2 * (x mod 2)))
1: (x + loop(\(x,i).(2x + 1),(if (x mod (1 + i)) <= 0 then x else 0),x))
1: (loop(\(x,i).(2x + 1),x,2) + (2 * (x mod 2)))
1: (loop(\(x,i).(2x + 1),x,2) + (x mod 2))
1: (loop(\(x,i).(2x + 1),x,4) + (2 * (x mod 2)))
1: (loop(\(x,i).(2x + 1),i,1) + (i mod 2))
1: (x + loop(\(x,i).(x2 + 1),i,0))
1: (2x + loop(\(x,i).(x2 + 1),i,2))
1: (x + loop(\(x,i).(x2 + 2),2,2))
1: (1 + loop(\(x,i).(x2 + 2),x,1))
1: (x + loop(\(x,i).(x2 + 3),x,(if (x + ~2) <= 0 then 1 else 0)))
1: (1 + loop(\(x,i).(x2 + (x mod 2)),x,1))
1: (loop(\(x,i).(x2 + (x mod 2)),x,1) + loop(\(x,i).x2,x,2))
1: (1 + loop(\(x,i).(x2 + (x mod 2)),x,(1 + (x div 4))))
1: (x + loop(\(x,i).(1 + (x * i)),4,2x))
1: (x + loop(\(x,i).(1 + (x * i)),(x + ~5),1))
1: (1 + loop(\(x,i).(1 + (x * i)),(~1 + i),1))
1: (loop(\(x,i).(1 + (x * i)),(~1 + i),1) + i)
1: (x + loop(\(x,i).(1 + (x * i)),(i div 2),x))
1: (2 + loop(\(x,i).(1 + (x * i)),x,1))
1: (loop(\(x,i).(1 + (x * i)),x,1) + loop(\(x,i).2x,x,1))
1: (x + loop(\(x,i).(1 + (x * i)),x,1))
1: (loop(\(x,i).(1 + (x * i)),i,1) + (2x * i))
1: (x + loop(\(x,i).(1 + (x * i)),i,1))
1: (x + loop(\(x,i).(2 + (x * i)),(x mod 3),1))
1: (loop(\(x,i).(2 + (x * i)),x,2) + (x div 2))
1: (loop(\(x,i).(2 + (x * i)),i,1) + (x * i))
1: (loop(\(x,i).((x * i) + (i mod 2)),i,0) + (x * i))
1: (x2 + loop(\(x,i).(2x + (i * i)),(x + ~2),1))
1: (x + loop(\(x,i).(2x + (i * i)),x,2))
1: (1 + loop(\(x,i).(x + (i * i)),(2x + 1),x))
1: (2x + loop(\(x,i).(x + (i * i)),(1 + i),x))
1: (x + loop(\(x,i).(x + (i * i)),(1 + i),x))
1: (1 + loop(\(x,i).(x + (i * i)),(2x + ~1),x))
1: (2 + loop(\(x,i).(x + (i * i)),(x + ~1),x))
1: ((2x + 3) + loop(\(x,i).(x + (i * i)),(x + ~2),x))
1: (x + loop(\(x,i).(x + (i * i)),(~1 + i),i))
1: (1 + loop(\(x,i).(x + (i * i)),2x,x))
1: (loop(\(x,i).(x + (i * i)),x,x2) + (if x <= 0 then 1 else 2))
1: (1 + loop(\(x,i).(1 + (((x + 1) + (i div (2 + (x mod 2)))) div 2)),x,0))
1: (1 + loop(\(x,i).(x + ((1 + ((2 + i) * i)) div (x + 1))),x,0))
1: (x + loop(\(x,i).(2 + ((x + (2x div (2 - ((~x + 1) div 3)))) div 2)),2,x))
1: (x + loop(\(x,i).(1 + ((x + (x div 2)) div 2)),2,(x div 2)))
1: ((x + 2) + loop(\(x,i).(2 + ((x + ((x div 5) mod 2)) div 2)),2,x))
1: (1 + loop(\(x,i).(2x + ((x + 1) div 5)),2,x))
1: (x + loop(\(x,i).(2 + ((x - ((2 - ((x + 1) mod (1 - (x mod ~7)))) div 2)) div 2)),2,x))
1: (1 + loop(\(x,i).(x + ((x - (x div 3)) div 3)),2,x))
1: (x + loop(\(x,i).(x + ((x - (x div 4)) div 2)),2,x))
1: (x + loop(\(x,i).(2 + ((x - (x div (~4 + ((x div 2) mod 2)))) div 2)),2,x))
1: (1 + loop(\(x,i).(2 + ((x - ((~x + 1) mod 3)) div 2)),x,x))
1: (x + loop(\(x,i).(x + (6 div (1 + (x div 2)))),x,1))
1: (x + loop(\(x,i).(x + (5x div (if i <= 0 then 1 else i))),x,1))
1: (1 + loop(\(x,i).(9 + ((x3 + x) div 2)),2,x))
1: (2 + loop(\(x,i).(x + (((2 + (i * i)) * (1 + i)) div 2)),(x + 1),0))
1: (x + loop(\(x,i).(1 + ((x2 + x) div 2)),i,1))
1: (x + loop(\(x,i).(1 + ((2x + 4) div 3)),3,x))
1: (x + loop(\(x,i).(5 + ((2x + 4) div 3)),x,1))
1: (2 + loop(\(x,i).(x + (((1 + i) * i) div 2)),(x div 2),x))
1: (x + loop(\(x,i).(x + (((1 + i) * i) div 2)),i,1))
1: (4x + loop(\(x,i).(x + (((2 + i) * (1 + i)) div 2)),i,1))
1: (6x + loop(\(x,i).(x + (((2 + i) * (1 + i)) div 2)),i,1))
1: (x + loop(\(x,i).(x + (((2 + i) * (1 + i)) div 2)),i,1))
1: ((x + 1) + loop(\(x,i).(x + (((2 + i) * (1 + i)) div 2)),i,2x))
1: (x + loop(\(x,i).(1 + ((x * (x + i)) div 8)),2,x))
1: (1 + loop(\(x,i).(1 + ((2x2 + ~x) div (x + 3))),2,x))
1: (x + loop(\(x,i).(x + ((2x2 + ~x) div (x + 4))),2,x))
1: (x3 + loop(\(x,i).(((x2 + ~x) div 2) + (if x <= 0 then 0 else 1)),2,x))
1: (1 + loop(\(x,i).(x + (8x div (x2 + 1))),2,x))
1: ((x2 + 3x + 2) + loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,1))
1: (loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,1) + ((x + 1) * ((x2 + x) div 2)))
1: (loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,1) + ((x3 + 7x2 + 14x + 8) div 2))
1: (x + loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,1))
1: (x + loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,(x + 3)))
1: (x + loop(\(x,i).(x + (6x div (if i <= 0 then 1 else i))),2x,1))
1: (2 + loop(\(x,i).(2 + (3x2 div (1 + i))),x,1))
1: (x + loop(\(x,i).(x + ((4 * (i * i)) div 3)),x,(x + 1)))
1: (1 + loop(\(x,i).(((x * (i * i)) div (2 + i)) + i),x,0))
1: (x + loop(\(x,i).(2 + ((x * (((x + ~1) div 2) div 2)) div 2)),2,2x))
1: (x + loop(\(x,i).(1 + ((3 * (x div 2)) div 2)),2,x))
1: (1 + loop(\(x,i).(((3 * (x div 4)) div 2) + (x div 2)),2,x))
1: (1 + loop(\(x,i).(((3 * (x div 4)) div 2) + i),x,1))
1: (1 + loop(\(x,i).(x + (2x div 7)),2,(if x <= 0 then 1 else 4x)))
1: (x + loop(\(x,i).(x + (2x div (1 + (x div 5)))),(x + ~1),1))
1: (1 + loop(\(x,i).(1 + (x2 div 2)),(x + ~2),x))
1: (loop(\(x,i).(1 + (x2 div 2)),x,2) + (if x <= 0 then 0 else 1))
1: (1 + loop(\(x,i).((x2 div 2) + i),x,0))
1: (x + loop(\(x,i).(1 + (x2 div (x + 10))),2,x))
1: (x + loop(\(x,i).(1 + (x2 div (x + 8))),2,(x + 1)))
1: (1 + loop(\(x,i).(x + (x2 div (x + 16))),2,x))
1: (2 + loop(\(x,i).(x + (x2 div (1 + i))),(x + 2),2))
1: (1 + loop(\(x,i).(x + (x2 div (1 + i))),x,2))
1: (1 + loop(\(x,i).(x + ((i * i) div 4)),(x + ~1),x))
1: (x + loop(\(x,i).(x + ((i * i) div (x + 1))),x,2))
1: (x + loop(\(x,i).(x + (((x2 + x) div 2) div (~1 + (2 * i)))),2,x))
1: (x + loop(\(x,i).(1 + (((x2 + x) div 4) div 5)),2,x))
1: (x + loop(\(x,i).(1 + (((x2 + x) div 5) div 3)),2,x))
1: (x + loop(\(x,i).(x + ((x div 2) div 3)),2,x))
1: (1 + loop(\(x,i).(x + ((x div 2) div 3)),(x + ~1),x))
1: ((x + 1) + loop(\(x,i).(x + ((x div 2) div 7)),2,3x))
1: (1 + loop(\(x,i).(x + ((x div 2) div 7)),2,4x))
1: (1 + loop(\(x,i).(x + ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3)),2,x))
1: (1 + loop(\(x,i).(x + ((x mod (1 + ((~x + 2) mod 4))) div 2)),2,x))
1: (x + loop(\(x,i).(x + (loop(\(x,i).(2 + ((x2 + x) div 2)),2,x) div 3)),1,i))
1: (x + loop(\(x,i).(x + (loop(\(x,i).2x,x,1) div (x + 1))),(x + ~2),1))
1: (1 + loop(\(x,i).((loop(\(x,i).(x * i),x,2) div (x + 1)) + (x * i)),x,1))
1: (x + loop(\(x,i).(x + (loop(\(x,i).(x * i),x,2) div (x + 1))),(x + ~1),2))
1: (1 + loop(\(x,i).(x + (loop(\(x,i).(x * i),x,2) div (x + 1))),x,1))
1: (x + loop(\(x,i).(x + (loop(\(x,i).(x div (1 + (x mod 2))),x,i) div 2)),x,1))
1: (x + loop(\(x,i).(2 + (x div 2)),(~3 + (x div 2)),1))
1: (2x + loop(\(x,i).(2 + (x div 2)),(x + ~8),1))
1: (x + loop(\(x,i).(2 + (x div 2)),(x + ~8),1))
1: (loop(\(x,i).(2 + (x div 2)),((x + ~1) div 2),0) + (x div 4))
1: (x + loop(\(x,i).(2 + (x div 2)),(x div 4),(x div 2)))
1: (1 + loop(\(x,i).(x + (x div 2)),2,(x2 + x)))
1: (1 + loop(\(x,i).(x + (x div 2)),(2 * (x div 2)),x))
1: (1 + loop(\(x,i).(x + (x div 2)),x,2))
1: (x + loop(\(x,i).(x + (x div 2)),x,3))
1: (1 + loop(\(x,i).(x + (x div 2)),x,5))
1: (1 + loop(\(x,i).(x + (x div 2)),x,6))
1: (x + loop(\(x,i).(x + (x div 3)),2,(x + ~1)))
1: (1 + loop(\(x,i).(x + (x div 4)),2,(x + 2)))
1: (1 + loop(\(x,i).(x + (x div 4)),2,x))
1: (x + loop(\(x,i).(x + (x div 4)),x,5))
1: (2x + loop(\(x,i).(3x + (x div (3 + i))),x,2))
1: (1 + loop(\(x,i).(x + (x div (~1 + ((2 * i) + i)))),x,x))
1: (1 + loop(\(x,i).(x + (x div 7)),2,x))
1: (1 + loop(\(x,i).(x + (x div 7)),((~1 + (x div 2)) div 2),x))
1: (1 + loop(\(x,i).(x + (x div 9)),10,x))
1: (1 + loop(\(x,i).(x + (x div 9)),x,9))
1: (1 + loop(\(x,i).(x + (x div (2 + (x mod 2)))),x,2))
1: (x + loop(\(x,i).(1 + (x div (1 + (x mod (1 + (loop(\(x,i).2x,x,2) mod (2x + 1))))))),1,i))
1: (loop(\(x,i).(x + (x div (2 + (i mod 2)))),x,2) + loop(\(x,i).2x,x,1))
1: (1 + loop(\(x,i).(x + (x div (~1 + (4 * (1 + i))))),2,x))
1: (1 + loop(\(x,i).(x + (x div 15)),2,4x))
1: (1 + loop(\(x,i).(x + (x div (~1 + (2 * i)))),x2,x))
1: (1 + loop(\(x,i).(x + (x div (~1 + (2 * i)))),x,i))
1: (x + loop(\(x,i).(x + (x div (~1 + (2 * i)))),x,i))
1: (1 + loop(\(x,i).(x + (x div 8)),2,x))
1: (1 + loop(\(x,i).(x + (x div (2 * (2 + i)))),2,x))
1: (1 + loop(\(x,i).(x + (x div (if (x mod (2 + i)) <= 0 then 2 else 1))),x,2))
1: (1 + loop(\(x,i).(x + (x div (if i <= 0 then 1 else (2 * i)))),3x,x))
1: (1 + loop(\(x,i).(x + (x div (if i <= 0 then 1 else (2 * i)))),x,(2 * i)))
1: (1 + loop(\(x,i).((x + 2) + (x div (if i <= 0 then 1 else i))),x,0))
1: (1 + loop(\(x,i).(2x + (i div 2)),(x + 1),x))
1: (1 + loop(\(x,i).(2x + (i div 2)),x,2x))
1: (loop(\(x,i).(2x + (i div 3)),x,1) + i)
1: (1 + loop(\(x,i).(x + ((2x + 1) mod (1 + (2x mod (2 + (x div 4)))))),x,x))
1: (1 + loop(\(x,i).(1 + (((x + ~1) + loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x)) mod (x + 1))),2,x))
1: (2 + loop(\(x,i).(2x + (((1 + (((3 * ((2x + 1) + (2 * (((2x + 1) + (2 * ((8x + 1) div (1 + (if x <= 0 then 0 else 2))))) div 3)))) div 2) div 2)) div 2) mod 2)),x,1))
1: (1 + loop(\(x,i).(1 + (((x + 1) div 2) mod 3)),x,x))
1: (1 + loop(\(x,i).(x + ((x div 7) mod 2)),2,x))
1: (1 + loop(\(x,i).((x + 1) + (loop(\(x,i).(x2 + 4x + 2),2,3) mod (x + 1))),x,1))
1: (x + loop(\(x,i).(1 + (x mod (1 + (x mod (1 + (x div (2 + (x div 5)))))))),1,i))
1: (1 + loop(\(x,i).(1 + (x mod (1 + (i mod (x + 1))))),x,0))
1: (1 + loop(\(x,i).(x + (x mod (1 + i))),(x + ~1),1))
1: (1 + loop(\(x,i).((x mod (1 + i)) + i),x,1))
1: (2 + loop(\(x,i).(1 + ((x mod (2 * (2 + (x mod 2)))) + (x div 3))),x,2))
1: (2 + loop(\(x,i).(2x + (i mod 2)),x,2))
1: ((x2 + x) + loop(\(x,i).(2x + (i mod 2)),x,2))
1: (1 + loop(\(x,i).(x + (if (1 - (loop(\(x,i).(2x + 2),x,0) mod (x + 1))) <= 0 then 1 else i)),x,0))
1: (1 + loop(\(x,i).(x + (if (2 - i) <= 0 then x else 2)),x,x))
1: (x + loop(\(x,i).(x + (if (~4 + (x div 2)) <= 0 then 1 else 0)),2,x))
1: (x + loop(\(x,i).(x + (if (~4 + (x div 2)) <= 0 then 1 else 0)),(x + ~2),1))
1: (x + loop(\(x,i).(1 + (if (~2 + (x div 2)) <= 0 then x else (x + 2))),2,(x + ~1)))
1: (x + loop(\(x,i).(1 + (if (~2 + (x div 2)) <= 0 then x else (x + 2))),(x + ~2),2))
1: (1 + loop(\(x,i).(x + (if (~2 + (x div 3)) <= 0 then 1 else 2)),(x + 2),x))
1: (x + loop(\(x,i).(x + (if (~2 + (x div 4)) <= 0 then 1 else 0)),2,x))
1: (1 + loop(\(x,i).(x + (if (~2 + (x div 4)) <= 0 then i else x)),x,1))
1: (2 + loop(\(x,i).(2 + (if (x + ~1) <= 0 then x else 2x)),x,(~x + 1)))
1: (1 + loop(\(x,i).(x + (if (x + ~1) <= 0 then i else x)),x,0))
1: (2 + loop(\(x,i).(x + (if (x + ~2) <= 0 then 1 else 2)),(x div 2),(x div 4)))
1: (1 + loop(\(x,i).(x + (if (x + ~2) <= 0 then 1 else ((x2 + ~x) * i))),x,0))
1: (1 + loop(\(x,i).(x + (if (x + ~2) <= 0 then 1 else x)),x,0))
1: (4x + loop(\(x,i).(x + (if (x + ~2) <= 0 then 1 else x)),i,1))
1: (~1 + (loop(\(x,i).(x + (if (x + ~2) <= 0 then 3 else x)),(x div 3),1) + (x mod 3)))
1: (1 + loop(\(x,i).(x + (if (x + ~2) <= 0 then x else (x2 + 2x))),x,1))
1: (2 + loop(\(x,i).(1 + (if (x + ~4) <= 0 then x else (x + 2))),2,x))
1: (1 + loop(\(x,i).(x + (if ((x + ~1) - i) <= 0 then (2x + 2) else ~2)),x,1))
1: (1 + loop(\(x,i).(x + (if (x - i) <= 0 then x else 0)),x,1))
1: (x + loop(\(x,i).(x + (if (x - i) <= 0 then x else 0)),x,1))
1: (2x + loop(\(x,i).(x + (if (x - i) <= 0 then x else 0)),x,2))
1: (x + loop(\(x,i).(2x + (if (~2 + i) <= 0 then 1 else i)),(x + ~1),1))
1: ((x + ~2) + loop(\(x,i).(2 + (if (~x + i) <= 0 then 0 else x)),x,1))
1: (x + loop(\(x,i).(x + (if (~x + i) <= 0 then 0 else i)),(x + ~1),0))
1: (x + loop(\(x,i).(x + (if (x2 div (1 + i)) <= 0 then 2x else 0)),x,1))
1: (1 + loop(\(x,i).(x + ((if ((x + ~1) mod 3) <= 0 then 1 else x) + i)),x,1))
1: (1 + loop(\(x,i).(x + (if ((x2 + 2x) mod (1 + (8 * (x mod 2)))) <= 0 then (x + 1) else 0)),2,x))
1: (1 + loop(\(x,i).((if (x mod 2) <= 0 then 2 else 0) + (x div 2)),x,x))
1: (1 + loop(\(x,i).(1 + (if (x mod 2) <= 0 then 6 else 1)),(x div 2),(x mod 2)))
1: (1 + loop(\(x,i).(x + (if (x mod 2) <= 0 then (if x <= 0 then 1 else ~2) else 2)),2,x))
1: (1 + loop(\(x,i).(x + (if (x mod 2) <= 0 then (if x <= 0 then 1 else ~2) else 2)),3,x))
1: (1 + loop(\(x,i).(2x + (if (x mod (1 + (x mod 4))) <= 0 then 2 else 0)),x,0))
1: (x + loop(\(x,i).(x + (if (x mod (2 + i)) <= 0 then x else 0)),x,3))
1: (1 + loop(\(x,i).(x + (if (x mod (2 + i)) <= 0 then x else 0)),x,4))
1: (x + loop(\(x,i).(x + (if (i mod 2) <= 0 then i else 2)),i,1))
1: (1 + loop(\(x,i).(x + (if (if x <= 0 then 2 else loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + 1))) <= 0 then x else 1)),x,1))
1: (x + loop(\(x,i).(x + (if x <= 0 then 1 else (1 + (11 * i)))),i,1))
1: (2 + loop(\(x,i).(1 + (if x <= 0 then 1 else (10x + 21))),(x div 2),(x mod 2)))
1: (1 + loop(\(x,i).(x + (if x <= 0 then 1 else ((x * (x mod 2)) + (x div 2)))),x,0))
1: (2 + loop(\(x,i).(x + (if x <= 0 then 1 else (x - (3 * ((x + ~1) div 5))))),(x div 2),((x + 1) mod 2)))
1: (2 + loop(\(x,i).(x + (if x <= 0 then 1 else (x - ((if (x mod 2) <= 0 then (~x + 1) else x) div (1 + i))))),x,0))
1: (1 + loop(\(x,i).(x + (if x <= 0 then 1 else (i - ((x2 mod (x - ((~x + 2) div 2))) div (x + 1))))),x,0))
1: (1 + loop(\(x,i).(2 + (if x <= 0 then 1 else 4x)),(x div 2),(x mod 2)))
1: (1 + loop(\(x,i).(x + (if x <= 0 then 1 else x3)),x,loop(\(x,i).40x,x,1)))
1: (1 + loop(\(x,i).(x + (if x <= 0 then 1 else loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,x))),2,x))
1: (1 + loop(\(x,i).(x + (if x <= 0 then 1 else loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,2x))),x,1))
1: (x + loop(\(x,i).(x + (if x <= 0 then 1 else loop(\(x,i).(x - (if x <= 0 then 1 else (2 * i))),x,x))),1,i))
1: (loop(\(x,i).(2x + (if x <= 0 then 1 else x)),x,0) + loop(\(x,i).(~2x + 1),x,0))
1: (loop(\(x,i).(2x + (if x <= 0 then 1 else x)),x,0) + loop(\(x,i).2x,x,1))
1: (x + loop(\(x,i).(x + (if x <= 0 then 2 else ((x + 1) + ((2 + i) * i)))),x,0))
1: (1 + loop(\(x,i).(2x + (if x <= 0 then 2 else x)),x,0))
1: (x + loop(\(x,i).(x + loop(\(x,i).(x + ((i div 2) + i)),(1 + i),2)),x,1))
1: (12x + loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (6x + loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (x + loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (8x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (12x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (6x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (12x + loop(\(x,i).(6x + loop(\(x,i).(5x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (12x + loop(\(x,i).(8x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (6x + loop(\(x,i).(8x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (x + loop(\(x,i).(8x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (8x + loop(\(x,i).(4x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (12x + loop(\(x,i).(4x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (6x + loop(\(x,i).(4x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (8x + loop(\(x,i).(2x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (12x + loop(\(x,i).(2x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (4x + loop(\(x,i).(2x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (6x + loop(\(x,i).(2x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (12x + loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),i,1)),i,1))
1: (6x + loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),i,1)),i,1))
1: (x + loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),i,1)),i,1))
1: (x + loop(\(x,i).(12x + loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),i,1)),i,1))
1: (8x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),i,1)),i,1))
1: (x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(6x + loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),i,1)),i,1))
1: (x + loop(\(x,i).(6x + loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(4x + loop(\(x,i).(7x + loop(\(x,i).3x,i,1)),i,1)),i,1))
1: (6x + loop(\(x,i).(4x + loop(\(x,i).(7x + loop(\(x,i).3x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(6x + loop(\(x,i).(7x + loop(\(x,i).3x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(8x + loop(\(x,i).(9x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (6x + loop(\(x,i).(8x + loop(\(x,i).(9x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (x + loop(\(x,i).(8x + loop(\(x,i).(9x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (6x + loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (8x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (6x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).10x,i,1)),i,1)),i,1))
1: (6x + loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).10x,i,1)),i,1)),i,1))
1: (x + loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).10x,i,1)),i,1)),i,1))
1: (x + loop(\(x,i).(12x + loop(\(x,i).(5x + loop(\(x,i).10x,i,1)),i,1)),i,1))
1: (8x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).10x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).10x,i,1)),i,1)),i,1))
1: (6x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).10x,i,1)),i,1)),i,1))
1: (x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).10x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(6x + loop(\(x,i).(5x + loop(\(x,i).10x,i,1)),i,1)),i,1))
1: (x + loop(\(x,i).(6x + loop(\(x,i).(5x + loop(\(x,i).10x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(6x + loop(\(x,i).(7x + loop(\(x,i).10x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(8x + loop(\(x,i).(7x + loop(\(x,i).4x,i,1)),i,1)),i,1))
1: (6x + loop(\(x,i).(8x + loop(\(x,i).(7x + loop(\(x,i).4x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(6x + loop(\(x,i).(7x + loop(\(x,i).4x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(8x + loop(\(x,i).(7x + loop(\(x,i).2x,i,1)),i,1)),i,1))
1: (6x + loop(\(x,i).(8x + loop(\(x,i).(7x + loop(\(x,i).2x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(4x + loop(\(x,i).(7x + loop(\(x,i).2x,i,1)),i,1)),i,1))
1: (6x + loop(\(x,i).(4x + loop(\(x,i).(7x + loop(\(x,i).2x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(6x + loop(\(x,i).(7x + loop(\(x,i).2x,i,1)),i,1)),i,1))
1: (8x + loop(\(x,i).(10x + loop(\(x,i).(3x + 1),i,1)),i,1))
1: (12x + loop(\(x,i).(10x + loop(\(x,i).(3x + 1),i,1)),i,1))
1: (4x + loop(\(x,i).(10x + loop(\(x,i).(3x + 1),i,1)),i,1))
1: (12x + loop(\(x,i).(8x + loop(\(x,i).(3x + 1),i,1)),i,1))
1: (6x + loop(\(x,i).(8x + loop(\(x,i).(3x + 1),i,1)),i,1))
1: (x + loop(\(x,i).(8x + loop(\(x,i).(3x + 1),i,1)),i,1))
1: (8x + loop(\(x,i).(4x + loop(\(x,i).(3x + 1),i,1)),i,1))
1: (12x + loop(\(x,i).(4x + loop(\(x,i).(3x + 1),i,1)),i,1))
1: (12x + loop(\(x,i).(6x + loop(\(x,i).(3x + 1),i,1)),i,1))
1: (10x + loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),i,1))
1: (8x + loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),i,1))
1: (12x + loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),i,1))
1: (2x + loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),i,1))
1: (12x + loop(\(x,i).(8x + loop(\(x,i).(5x + 1),i,1)),i,1))
1: (6x + loop(\(x,i).(8x + loop(\(x,i).(5x + 1),i,1)),i,1))
1: (x + loop(\(x,i).(8x + loop(\(x,i).(5x + 1),i,1)),i,1))
1: (8x + loop(\(x,i).(4x + loop(\(x,i).(5x + 1),i,1)),i,1))
1: (12x + loop(\(x,i).(4x + loop(\(x,i).(5x + 1),i,1)),i,1))
1: (12x + loop(\(x,i).(6x + loop(\(x,i).(5x + 1),i,1)),i,1))
1: (8x + loop(\(x,i).(2x + loop(\(x,i).(5x + 1),i,1)),i,1))
1: (12x + loop(\(x,i).(2x + loop(\(x,i).(5x + 1),i,1)),i,1))
1: (12x + loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).2x,i,1)),i,1)),i,1))
1: (6x + loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).2x,i,1)),i,1)),i,1))
1: (x + loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).2x,i,1)),i,1)),i,1))
1: (8x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).2x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).2x,i,1)),i,1)),i,1))
1: (x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).2x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(6x + loop(\(x,i).(5x + loop(\(x,i).2x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(8x + loop(\(x,i).(7x + 1),i,1)),i,1))
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1: (12x + loop(\(x,i).(9x + loop(\(x,i).(10x + 1),i,1)),i,1))
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1: (12x + loop(\(x,i).(8x + loop(\(x,i).(10x + 1),i,1)),i,1))
1: (6x + loop(\(x,i).(8x + loop(\(x,i).(10x + 1),i,1)),i,1))
1: (x + loop(\(x,i).(8x + loop(\(x,i).(10x + 1),i,1)),i,1))
1: (8x + loop(\(x,i).(4x + loop(\(x,i).(10x + 1),i,1)),i,1))
1: (12x + loop(\(x,i).(4x + loop(\(x,i).(10x + 1),i,1)),i,1))
1: (20x + loop(\(x,i).(4x + loop(\(x,i).(10x + 1),i,1)),i,1))
1: (6x + loop(\(x,i).(4x + loop(\(x,i).(10x + 1),i,1)),i,1))
1: (12x + loop(\(x,i).(6x + loop(\(x,i).(10x + 1),i,1)),i,1))
1: (8x + loop(\(x,i).(2x + loop(\(x,i).(10x + 1),i,1)),i,1))
1: (12x + loop(\(x,i).(2x + loop(\(x,i).(10x + 1),i,1)),i,1))
1: (4x + loop(\(x,i).(2x + loop(\(x,i).(10x + 1),i,1)),i,1))
1: (6x + loop(\(x,i).(2x + loop(\(x,i).(10x + 1),i,1)),i,1))
1: (6x + loop(\(x,i).(2x + loop(\(x,i).(24x + 1),i,1)),i,1))
1: (12x + loop(\(x,i).(6x + loop(\(x,i).(8x + 1),i,1)),i,1))
1: (8x + loop(\(x,i).(9x + loop(\(x,i).(4x + 1),i,1)),i,1))
1: (12x + loop(\(x,i).(9x + loop(\(x,i).(4x + 1),i,1)),i,1))
1: (6x + loop(\(x,i).(9x + loop(\(x,i).(4x + 1),i,1)),i,1))
1: (x + loop(\(x,i).(9x + loop(\(x,i).(4x + 1),i,1)),i,1))
1: (12x + loop(\(x,i).(8x + loop(\(x,i).(4x + 1),i,1)),i,1))
1: (6x + loop(\(x,i).(8x + loop(\(x,i).(4x + 1),i,1)),i,1))
1: (x + loop(\(x,i).(8x + loop(\(x,i).(4x + 1),i,1)),i,1))
1: (12x + loop(\(x,i).(6x + loop(\(x,i).(4x + 1),i,1)),i,1))
1: (12x + loop(\(x,i).(2x + loop(\(x,i).(6x + 1),i,1)),i,1))
1: (1 + loop(\(x,i).(1 + loop(\(x,i).(1 + (x2 * i)),x,2)),x,0))
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1: (x + loop(\(x,i).(2 + loop(\(x,i).(1 + (x * i)),x,1)),(x + ~2),1))
1: (x + loop(\(x,i).(x + loop(\(x,i).(x + (((1 + i) * i) div 2)),i,1)),i,1))
1: (x + loop(\(x,i).(x + loop(\(x,i).(x + (x div (~1 + (2 * i)))),x,i)),x,1))
1: (2 + loop(\(x,i).(1 + loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then 1 else 0)),(x div 2),x)),x,0))
1: (x + loop(\(x,i).(x + loop(\(x,i).(x + (if x <= 0 then 1 else (1 + (11 * i)))),i,1)),i,1))
1: (4x + loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),i,1)),i,1))
1: (x + loop(\(x,i).(2x + loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),i,1)),i,1))
1: (x + loop(\(x,i).(x + loop(\(x,i).(x + loop(\(x,i).(x + (if x <= 0 then 1 else (1 + (11 * i)))),i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(8x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (6x + loop(\(x,i).(8x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (x + loop(\(x,i).(8x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (8x + loop(\(x,i).(4x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (12x + loop(\(x,i).(4x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (6x + loop(\(x,i).(4x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (x + loop(\(x,i).(4x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (12x + loop(\(x,i).(6x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (8x + loop(\(x,i).(2x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (12x + loop(\(x,i).(2x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (4x + loop(\(x,i).(2x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (6x + loop(\(x,i).(2x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (12x + loop(\(x,i).(6x + loop(\(x,i).(8x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (12x + loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (6x + loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (x + loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (x + loop(\(x,i).(12x + loop(\(x,i).(4x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (12x + loop(\(x,i).(6x + loop(\(x,i).(4x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (6x + loop(\(x,i).(6x + loop(\(x,i).(4x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (x + loop(\(x,i).(6x + loop(\(x,i).(4x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (x + loop(\(x,i).(12x + loop(\(x,i).(6x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (12x + loop(\(x,i).(8x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (6x + loop(\(x,i).(8x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (x + loop(\(x,i).(8x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
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1: (6x + loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (x + loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (12x + loop(\(x,i).(6x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: (12x + loop(\(x,i).(6x + loop(\(x,i).(8x + loop(\(x,i).3x,i,1)),i,1)),i,1))
1: (8x + loop(\(x,i).(10x + loop(\(x,i).(4x + loop(\(x,i).3x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(10x + loop(\(x,i).(4x + loop(\(x,i).3x,i,1)),i,1)),i,1))
1: (6x + loop(\(x,i).(10x + loop(\(x,i).(4x + loop(\(x,i).3x,i,1)),i,1)),i,1))
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1: (x + loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).3x,i,1)),i,1)),i,1))
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1: (12x + loop(\(x,i).(10x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1))
1: (4x + loop(\(x,i).(10x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1))
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1: (8x + loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1))
1: (x + loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(6x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(6x + loop(\(x,i).(8x + loop(\(x,i).5x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).5x,i,1)),i,1)),i,1))
1: (6x + loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).5x,i,1)),i,1)),i,1))
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1: (12x + loop(\(x,i).(6x + loop(\(x,i).(4x + loop(\(x,i).5x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(6x + loop(\(x,i).(8x + loop(\(x,i).7x,i,1)),i,1)),i,1))
1: (12x + loop(\(x,i).(8x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1))
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1: (6x + loop(\(x,i).(4x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1))
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1: (12x + loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1)),i,1))
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1: (12x + loop(\(x,i).(6x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1)),i,1))
1: (x + loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).10x,i,1)),i,1)),i,1))
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1: (x + loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).10x,i,1)),i,1)),i,1))
1: (x + loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).8x,i,1)),i,1)),i,1))
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1: (loop(\(x,i).(loop(\(x,i).(loop(\(x,i).2x,i,1) + (x * i)),i,1) + (x * i)),i,1) + (x * i))
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1: (6x + loop(\(x,i).(2x + loop(\(x,i).(11x + 1),i,1)),i,1))
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1: (x + loop(\(x,i).(x + loop(\(x,i).(4x - ((x - (x div 5)) div 3)),1,i)),x,1))
1: (2 + loop(\(x,i).(1 + loop(\(x,i).(2x + ~1),x,2x)),x,1))
1: (x + loop(\(x,i).(x + loop(\(x,i).(2x - (x div (~2 + ((~x + 2) div 4)))),1,i)),x,1))
1: (1 + loop(\(x,i).(2x + loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),i,1)),x,1))
1: (x + loop(\(x,i).(x + loop(\(x,i).(((1 + (8 mod (1 + (x div 2)))) div 2) - (x mod 2)),1,i)),x,1))
1: (x + loop(\(x,i).(x + loop(\(x,i).(~1 + (if x <= 0 then i else x)),i,0)),x,0))
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1: (12x + loop(\(x,i).(6x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1))
1: (1 + loop(\(x,i).(x + loop(\(x,i).((x + 2) - ((~x + 1) div (2 + (x div 4)))),1,i)),x,1))
1: (x + loop(\(x,i).(x + loop(\(x,i).(2x - i),i,i)),x,1))
1: (2 + loop(\(x,i).(2 + loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)),2,(x + 1)))
1: (x + loop(\(x,i).(x + loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,i)),x,1))
1: (1 + loop(\(x,i).(x + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x)),1,(3x + 3)))
1: (2 + loop(\(x,i).(1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x)),1,(6x + 1)))
1: (4 + loop(\(x,i).(1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x)),2,6x))
1: (1 + loop(\(x,i).(1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 2 else 1)),x,x)),2,2x))
1: (1 + loop(\(x,i).(1 + loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)),2,x))
1: (1 + loop(\(x,i).(1 + loop(\(x,i).(x - (if x <= 0 then 1 else (1 + (2 * (1 + i))))),x,2x)),1,2x))
1: (1 + loop(\(x,i).(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 1))),1,(3x + 3)))
1: (1 + loop(\(x,i).(x + loop(\(x,i).(x - (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else 19))),x,(x + 1))),2,x))
1: (x + loop(\(x,i).(x + loop(\(x,i).(i - ((1 + i) mod (x + 1))),i,0)),x,1))
1: (x + loop(\(x,i).(4x + loop(\(x,i).3x,(1 + i),1)),i,2))
1: (x + loop(\(x,i).(x + loop(\(x,i).3x,(1 + i),i)),i,1))
1: (12x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1))
1: (36x + loop(\(x,i).(4x + loop(\(x,i).3x,(2 * i),1)),i,1))
1: (12x + loop(\(x,i).(6x + loop(\(x,i).3x,(2 * i),1)),i,1))
1: (10x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1))
1: (12x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1))
1: (x + loop(\(x,i).((4x + ~2) + loop(\(x,i).3x,i,1)),i,1))
1: (12x + loop(\(x,i).(8x + loop(\(x,i).3x,i,1)),i,1))
1: (x + loop(\(x,i).(4x + loop(\(x,i).3x,i,1)),i,1))
1: (12x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1))
1: (6x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1))
1: (2x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1))
1: (x + loop(\(x,i).(loop(\(x,i).3x,i,1) + (x * i)),(~1 + i),1))
1: (loop(\(x,i).(loop(\(x,i).3x,i,1) + (x * i)),i,1) + (x * i))
1: (x + loop(\(x,i).(x + loop(\(x,i).3x,i,(1 + i))),i,(x + 1)))
1: (1 + loop(\(x,i).(loop(\(x,i).5x,x,1) + loop(\(x,i).3x,x,1)),1,12x))
1: (12x + loop(\(x,i).(8x + loop(\(x,i).5x,i,1)),i,1))
1: (12x + loop(\(x,i).(4x + loop(\(x,i).5x,i,1)),i,1))
1: (12x + loop(\(x,i).(6x + loop(\(x,i).5x,i,1)),i,1))
1: (x + loop(\(x,i).(6x + loop(\(x,i).5x,i,1)),i,1))
1: (1 + loop(\(x,i).(2x + loop(\(x,i).(2x + 6),(~1 + i),1)),x,0))
1: (1 + loop(\(x,i).(2x + loop(\(x,i).(2x + 8),(~1 + i),1)),x,0))
1: (12x + loop(\(x,i).(8x + loop(\(x,i).7x,i,1)),i,1))
1: (12x + loop(\(x,i).(6x + loop(\(x,i).7x,i,1)),i,1))
1: (1 + loop(\(x,i).(loop(\(x,i).(x2 + x),1,loop(\(x,i).2x,x,1)) + loop(\(x,i).3x,x,1)),1,loop(\(x,i).2x,x,1)))
1: (x + loop(\(x,i).(loop(\(x,i).(x * (2 + i)),i,1) + (x * (i * i))),x,1))
1: (loop(\(x,i).(loop(\(x,i).~2x,i,1) + (x * i)),i,1) + (x * i))
1: (4x + loop(\(x,i).(2x + loop(\(x,i).~3x,i,1)),i,1))
1: (12x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1))
1: (12x + loop(\(x,i).(8x + loop(\(x,i).11x,i,1)),i,1))
1: (12x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1))
1: (12x + loop(\(x,i).(6x + loop(\(x,i).11x,i,1)),i,1))
1: (x + loop(\(x,i).(x + loop(\(x,i).11x,i,(1 + i))),i,1))
1: (x + loop(\(x,i).(x + loop(\(x,i).(2 * (2x - (x div (1 + i)))),i,2)),i,2))
1: (12x + loop(\(x,i).(8x + loop(\(x,i).10x,i,1)),i,1))
1: (6x + loop(\(x,i).(8x + loop(\(x,i).10x,i,1)),i,1))
1: (12x + loop(\(x,i).(4x + loop(\(x,i).10x,i,1)),i,1))
1: (6x + loop(\(x,i).(4x + loop(\(x,i).10x,i,1)),i,1))
1: (8x + loop(\(x,i).(2x + loop(\(x,i).10x,i,1)),i,1))
1: (4x + loop(\(x,i).(2x + loop(\(x,i).10x,i,1)),i,1))
1: (x + loop(\(x,i).(x + loop(\(x,i).10x,i,(1 + i))),i,1))
1: (12x + loop(\(x,i).(6x + loop(\(x,i).8x,i,1)),i,1))
1: (4x + loop(\(x,i).(2x + loop(\(x,i).8x,i,1)),i,1))
1: (x + loop(\(x,i).(2x + loop(\(x,i).8x,i,1)),i,1))
1: (6x + loop(\(x,i).(8x + loop(\(x,i).4x,i,1)),i,1))
1: (x + loop(\(x,i).(8x + loop(\(x,i).4x,i,1)),i,1))
1: (x + loop(\(x,i).(1 + loop(\(x,i).(x * ((x + 1) div 2)),i,x)),x,1))
1: (1 + loop(\(x,i).(x + loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(1 + (2 * i)),1)),x,2))
1: (1 + loop(\(x,i).(2x + loop(\(x,i).2x,(~1 + i),x)),x,1))
1: (1 + loop(\(x,i).(x + loop(\(x,i).2x,(i - (2x div (1 + i))),1)),x,1))
1: (x + loop(\(x,i).(loop(\(x,i).2x,i,1) + (x * (~1 + i))),i,1))
1: (x + loop(\(x,i).(4x + loop(\(x,i).2x,i,1)),i,1))
1: (x + loop(\(x,i).(loop(\(x,i).2x,i,1) + (x * i)),(~1 + i),1))
1: (x + loop(\(x,i).(x + loop(\(x,i).x2,1,loop(\(x,i).x2,2,(1 + i)))),i,1))
1: (1 + loop(\(x,i).(x + loop(\(x,i).(x * i),(2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),i)),1)),x,2))
1: (x + loop(\(x,i).(loop(\(x,i).(x * i),(~1 + i),1) + (x * i)),i,0))
1: (loop(\(x,i).(loop(\(x,i).(x * i),(~1 + i),1) + (x * i)),i,1) + (x * (1 + i)))
1: (x + loop(\(x,i).(4x + loop(\(x,i).(x * i),x,1)),(x + ~2),1))
1: (1 + loop(\(x,i).(x + loop(\(x,i).(x * i),x,1)),1,(1 + compr(\x.((~1 + loop(\(x,i).(x * i),x,1)) mod (x + 2)),x))))
1: (loop(\(x,i).(loop(\(x,i).(x * i),i,1) + (x * (1 + i))),x,0) + loop(\(x,i).(x * i),x,1))
1: (2 + loop(\(x,i).(x + loop(\(x,i).(x * i),i,1)),(x + 3),2))
1: (x + loop(\(x,i).(x + loop(\(x,i).(x * i),i,1)),(i div 2),1))
1: (4x + loop(\(x,i).(4x + loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),i,1)),i,1))
1: (1 + loop(\(x,i).(x + loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),i,1)),i,x))
1: (1 + loop(\(x,i).(x + loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),(x div 2),x)),x,1))
1: (x + loop(\(x,i).(x + loop(\(x,i).loop(\(x,i).(x + (i * i)),(1 + i),x),i,1)),i,1))
1: (x + loop(\(x,i).(x + loop(\(x,i).loop(\(x,i).3x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1),1,i)),x,1))
1: (x + loop(\(x,i).(x + loop(\(x,i).compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),(x + 1)),1,i)),x,1))
1: (2 + loop(\(x,i).(x + 2),(x + ~1),(loop(\(x,i).x3,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2)))
1: (1 + loop(\(x,i).(x + 2),(x + ~6),x))
1: (1 + loop(\(x,i).(x + 2),(x + ~8),x))
1: (1 + loop(\(x,i).(1 + i),(x + ~8),x))
1: (x + loop(\(x,i).(2 + i),((x + ~2) div 3),1))
1: (1 + loop(\(x,i).(x + i),(~2 + ((x + ~2) div 3)),x))
1: (x2 + loop(\(x,i).(x + i),x4,1))
1: (1 + loop(\(x,i).(x + i),(2 * (x mod 4)),x))
1: (1 + loop(\(x,i).(x + i),((x + ~1) div 2),x))
1: (1 + loop(\(x,i).(x + i),((x + ~1) div 5),x))
1: (x + loop(\(x,i).(x + i),((2x + ~4) div 7),1))
1: (1 + loop(\(x,i).(x + i),(x div 3),x))
1: (1 + loop(\(x,i).(x + i),(x div 4),x))
1: (x + loop(\(x,i).(x + i),i,(11 * (1 + i))))
1: (x + loop(\(x,i).(1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)),(x + ~1),1))
1: (x + loop(\(x,i).((x + 1) + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)),i,1))
1: (1 + loop(\(x,i).(x + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)),(x + ~1),x))
1: (2 + (loop(\(x,i).(x + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)),x,x) + (x mod 2)))
1: (1 + loop(\(x,i).(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),(x mod 2),(x div 2)))
1: (1 + loop(\(x,i).(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1,(x + (x div 13))))
1: (2 + loop(\(x,i).(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1,(x + (x div 13))))
1: (1 + loop(\(x,i).(~x - (x div (4 + i))),2,x))
1: (4x + loop(\(x,i).(0 - (2 * (x + (x div 2)))),i,1))
1: (x + loop(\(x,i).(0 - (x * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)))),i,1))
1: (1 + loop(\(x,i).(0 - (2x * (1 + (2 * i)))),x,1))
1: (1 + loop(\(x,i).(0 - ((2x * (1 + (2 * i))) div (2 + i))),(x div 2),(x mod 2)))
1: (x + loop(\(x,i).(0 - (loop(\(x,i).2x,x,2) mod (x + 1))),2,x))
1: (1 + loop(\(x,i).(0 - (if ((x + 1) mod (1 + i)) <= 0 then 0 else x)),x,2x))
1: (x + loop(\(x,i).~x,(x + ((2 * i) div (x + 1))),1))
1: (loop(\(x,i).~x,(~2 + i),1) + (x * i))
1: (x + loop(\(x,i).~x,(i mod 3),i))
1: (loop(\(x,i).~x,x,(1 + loop(\(x,i).2x,x,1))) + loop(\(x,i).3x,x,1))
1: (x + loop(\(x,i).~x,x,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i))))
1: (loop(\(x,i).~x,x,(~1 + (x mod 3))) + loop(\(x,i).2x,x,2))
1: (2 + loop(\(x,i).~x,x,(x div (3 * (8 - (x div 2))))))
1: (x + loop(\(x,i).(1 - ((x * (x mod 2)) + (x div 2))),2,x))
1: (x + loop(\(x,i).(0 - (x div (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))))),1,(x + 1)))
1: (2x + loop(\(x,i).((~x + 1) - i),(x div 3),1))
1: (12x + loop(\(x,i).(11x + 1),i,1))
1: (4x + loop(\(x,i).(1 - (2 * (x + (i mod 2)))),i,1))
1: (x + loop(\(x,i).(1 - (2 * (x + (i mod 2)))),i,1))
1: (1 + loop(\(x,i).(~4x + 1),x,0))
1: (x + loop(\(x,i).(~2x + 1),(i div 2),1))
1: (x + loop(\(x,i).(~2x + 1),loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1))
1: (2 + loop(\(x,i).(~2x + 1),x,2))
1: (2x + loop(\(x,i).(~2x + 1),i,1))
1: (2 + loop(\(x,i).(~x2 + 1),2x2,3))
1: (x + loop(\(x,i).(1 - (((x + 2) * (1 + ((x2 + 4x + 4) div 2) - (x mod 2))) div 3)),1,(x + 2)))
1: (x + loop(\(x,i).(1 - ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)),1,i))
1: (x + loop(\(x,i).(1 - (x2 div (x - ((~x + 2) div 2)))),2,x))
1: (1 + loop(\(x,i).(1 - (x mod (1 + ((1 + (x mod ((1 + (x mod 5)) * (1 + (x mod 5))))) mod (x + 1))))),1,2x))
1: (2 + loop(\(x,i).(1 - (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),2,2x))
1: (1 + loop(\(x,i).(1 - (if (x mod (2 + i)) <= 0 then 0 else x)),(x div 2),x))
1: (2 + loop(\(x,i).(~x + 1),x,(2 * (((1 + (x * (x + (x div 2)))) div 5) mod 2))))
1: ((x + 1) + loop(\(x,i).(~x + 1),x,(x div (~2 + ((~x + 2) div 4)))))
1: (1 + loop(\(x,i).(1 - i),(x + ~8),x))
1: (x + loop(\(x,i).(4 - (x div 2)),x,1))
1: (x + loop(\(x,i).((~x + 2) + (3 * ((2 + (x div 2)) div 3))),2,x))
1: (x + loop(\(x,i).((~x + 2) + (x div 5)),2,x))
1: (x + loop(\(x,i).(~x3 + 2),2,2))
1: (1 + loop(\(x,i).(2 - (4x mod 7)),x,1))
1: (x + loop(\(x,i).(~x + 2),(x + ~1),(2 + ((x div 2) mod 2))))
1: (x + loop(\(x,i).((x + 1) + (2 * i) - ((x + ~1) div 5)),x,1))
1: (1 + loop(\(x,i).((9x + ~1) + loop(\(x,i).10x,i,1)),x,0))
1: (8x + loop(\(x,i).((9x + ~1) + loop(\(x,i).2x,i,2)),i,1))
1: (12x + loop(\(x,i).((9x + ~1) + loop(\(x,i).2x,i,2)),i,1))
1: (6x + loop(\(x,i).((9x + ~1) + loop(\(x,i).2x,i,2)),i,1))
1: (x + loop(\(x,i).((9x + ~1) + loop(\(x,i).2x,i,2)),i,1))
1: (x + loop(\(x,i).((3x + 1) - ((x + 1) div 5)),x,1))
1: (x + loop(\(x,i).((x + ~1) + (((x - (x div ~2)) div 5) mod 2)),2,x))
1: (1 + loop(\(x,i).(1 + loop(\(x,i).2x,x,2) - loop(\(x,i).(4x + ~8),x,0)),1,2x))
1: (x + loop(\(x,i).((x + 1) - (2 * (if x <= 0 then 0 else i))),(x + ~1),1))
1: (2 + loop(\(x,i).((x + 2) - (2 div (1 + (x div 2)))),3,x))
1: (x + loop(\(x,i).((x + 2) - ((~x + 1) div (1 + loop(\(x,i).2x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),2)))),x,1))
1: (x + loop(\(x,i).((11x + 1) + i),i,1))
1: (2x + loop(\(x,i).(x + i - ((2x + 1) div 7)),x,1))
1: (x + loop(\(x,i).(x + i - (2x div (2 + (x div 2)))),x,1))
1: (x + loop(\(x,i).(x + i - (x div 4)),x,0))
1: ((x + ~1) + loop(\(x,i).(x + i - (x div 5)),(x + ~1),1))
1: (x + loop(\(x,i).(x + i - (x div 7)),x,1))
1: (x + loop(\(x,i).(x + i - (x div 11)),x,1))
1: (x + loop(\(x,i).(x + i - (x div 8)),(x + ~1),1))
1: ((x + 2) + loop(\(x,i).(x + i - (x div 12)),2,x))
1: (8 + loop(\(x,i).(x + i - (x div (4 * (1 + i)))),x,2))
1: (2 + loop(\(x,i).(x + i - (x div ~12)),x,1))
1: (1 + loop(\(x,i).(x + i - ((2x div (2 + (x div 2))) mod 2)),x,0))
1: (1 + loop(\(x,i).(x + i - (x mod 9)),x,0))
1: (1 + loop(\(x,i).(x + i - (x mod 11)),x,0))
1: (1 + loop(\(x,i).(x + i - (x mod 10)),x,0))
1: (loop(\(x,i).(x + i - (if x <= 0 then 1 else 0)),x,0) + loop(\(x,i).2x,x,1))
1: (1 + loop(\(x,i).(~5x + 1),x,0))
1: (1 + loop(\(x,i).(~3x + 1),x,0))
1: (4x + loop(\(x,i).(~3x + 1),i,1))
1: (2 + loop(\(x,i).((~x + 2) - (2x mod 5)),x,0))
1: (1 + loop(\(x,i).(~3 + ((2 * ((1 + ((x div 2) mod 2)) * (x div 3))) div 2)),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1))
1: (x + loop(\(x,i).(3x + ~1),2x,1))
1: (x3 + loop(\(x,i).(3x + ~1),x,1))
1: (loop(\(x,i).(3x + ~1),x,1) + loop(\(x,i).(4x + 1),x,0))
1: (loop(\(x,i).(3x + ~1),x,1) + loop(\(x,i).2x,(x + ~1),1))
1: (loop(\(x,i).(3x + ~1),x,1) + loop(\(x,i).2x,x,1))
1: ((x2 + x) + loop(\(x,i).(3x + ~1),x,2))
1: (1 + loop(\(x,i).((3x + ~1) - i),x,2))
1: (2x + loop(\(x,i).(5x + ~1),i,2))
1: (loop(\(x,i).(5x - loop(\(x,i).2x,i,1)),x,1) + loop(\(x,i).3x,x,1))
1: ((x + 1) + loop(\(x,i).((2x + 8) - (x div 2)),2,(x mod 3)))
1: (x + loop(\(x,i).(3x2 + 2x + ~1),2,(x + 1)))
1: (2 + loop(\(x,i).(~1 + (2 * (1 + (2 * (x - (2 * (x mod ~3))))))),x,0))
1: (1 + loop(\(x,i).(~x + (2 * (4x + i))),x,0))
1: (1 + loop(\(x,i).((4x + 2) - ((x - (x div 5)) div 3)),2,x))
1: (x + loop(\(x,i).(~2 + (x * (1 + (2 * i)))),x,(x + 2)))
1: (1 + loop(\(x,i).(~1 + (2 * ((2x div (1 + i)) + i))),x,0))
1: (1 + loop(\(x,i).(~1 + (2 * (x + (x div 2)))),x,2))
1: (2x + loop(\(x,i).(~1 + (2 * (x + (i mod 2)))),i,0))
1: (x + loop(\(x,i).(~1 + (2 * (x + (i mod 2)))),i,0))
1: (1 + loop(\(x,i).(~x + (8 * (x + (i mod 2)))),x,0))
1: (12x + loop(\(x,i).(~1 + (2 * (4x + loop(\(x,i).2x,i,1)))),i,1))
1: (6x + loop(\(x,i).(~1 + (2 * (4x + loop(\(x,i).2x,i,1)))),i,1))
1: (x + loop(\(x,i).(~1 + (2 * (4x + loop(\(x,i).2x,i,1)))),i,1))
1: (12x + loop(\(x,i).(~1 + (2 * (2x + loop(\(x,i).2x,i,1)))),i,1))
1: (1 + loop(\(x,i).((2x + 2) - loop(\(x,i).2x,x,1)),1,(x div 2)))
1: (1 + loop(\(x,i).((x2 + x) - (x div (2 div (~2 + (x mod 2))))),x,1))
1: (1 + loop(\(x,i).(x2 + 2x + ~4),3,x))
1: (1 + loop(\(x,i).(~1 + (x * (1 + i))),(x + ~1),x))
1: (x + loop(\(x,i).(~1 + (x * (1 + i))),x,4))
1: (x + loop(\(x,i).((x * (1 + i)) - (x mod 2)),i,1))
1: (x + loop(\(x,i).(1 + (x * (2 + i)) - (2 * (x mod 2))),i,1))
1: (x2 + loop(\(x,i).(~1 + (x * (x + i))),(x + ~1),1))
1: (1 + loop(\(x,i).(~3x + 4),x,0))
1: (loop(\(x,i).(10x + ~6),x,2) + (if x <= 0 then 1 else 0))
1: (2 + loop(\(x,i).(2x2 + ~x + ~1),(x + ~1),x))
1: (1 + loop(\(x,i).(~1 + (2 * (~1 + loop(\(x,i).(x2 + ~x + ~1),x,8)))),(x + 1),2))
1: (1 + loop(\(x,i).(~14x + ~1),2,x2))
1: (1 + loop(\(x,i).(~21x + ~1),2,x2))
1: (1 + loop(\(x,i).(~22x + ~1),2,x2))
1: (1 + loop(\(x,i).(7x + 8),(x div 2),(x mod 2)))
1: (loop(\(x,i).(10x + ~1),(2x + 1),1) + loop(\(x,i).10x,x,1))
1: ((x + 1) + loop(\(x,i).(10x + ~1),x,x))
1: (x + loop(\(x,i).(10x + ~1),i,i))
1: (1 + loop(\(x,i).(((2x + 2) * (2 - (x mod 2))) - (x mod 2)),(x div 2),(x mod 2)))
1: (2x + loop(\(x,i).(~1 + (4 * (~1 + (2 * i)))),((x + ~1) div 2),1))
1: (1 + loop(\(x,i).(~28x + ~1),2,x2))
1: (2 + loop(\(x,i).(~1 + (10 * loop(\(x,i).(5x + 2),(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),2))),1,(x2 + 1)))
1: (loop(\(x,i).((4x + ~1) - i),x,1) + loop(\(x,i).2x,x,1))
1: (x + loop(\(x,i).(4x - ((x + 1) div (1 + i))),x,1))
1: (x + loop(\(x,i).(4x - ((x - (x div 5)) div 3)),1,i))
1: (loop(\(x,i).(4x - (x div 2)),x,1) + loop(\(x,i).(2x + 2),x,1))
1: (1 + loop(\(x,i).(4x - (if x <= 0 then 0 else 1)),3,x))
1: (x + loop(\(x,i).(6x + ~1),2,x))
1: (1 + loop(\(x,i).(3x2 + ~1),2,3))
1: (1 + loop(\(x,i).(x4 + ~1),2,4))
1: (x + loop(\(x,i).(x3 + ~1),2,2))
1: (1 + loop(\(x,i).(x3 + ~1),2,(x + 1)))
1: (1 + loop(\(x,i).(~1 + (x2 * i)),2,4))
1: (1 + loop(\(x,i).(~1 + (x * loop(\(x,i).(x2 + ~2),i,3))),x,2))
1: (1 + loop(\(x,i).(2x + ~1),(x + ~2),x))
1: (loop(\(x,i).(2x + ~1),(x + ~2),x) + (if x <= 0 then 1 else x))
1: (1 + loop(\(x,i).(2x + ~1),(x div 2),x))
1: (2 + loop(\(x,i).(2x + ~1),(x mod 3),x))
1: (2 + loop(\(x,i).(2x + ~1),x,8))
1: (1 + loop(\(x,i).(2x + ~1),x,2x))
1: (2 + loop(\(x,i).((2x + ~2) + (2 div (1 + (x div 2)))),x,x))
1: (2 + loop(\(x,i).((2x + 1) - i),(x + 2),x))
1: (1 + loop(\(x,i).(2x - ((1 - (2 * (i mod 2))) * i)),(x + ~1),0))
1: (x + loop(\(x,i).(2x - ((~1 + i) div 2)),x,1))
1: (x + loop(\(x,i).(2x - ((if (i mod 2) <= 0 then 1 else 2x) div (1 + i))),(~1 + i),1))
1: (loop(\(x,i).(2x - ((if (i mod 2) <= 0 then 1 else 2x) div (1 + i))),x,(x + 1)) + loop(\(x,i).2x,x,1))
1: (x + loop(\(x,i).(2x - (x div (~2 + ((~x + 2) div 4)))),1,i))
1: (1 + loop(\(x,i).(2x - ((2x - (x div (if i <= 0 then 1 else i))) mod 2)),x,2))
1: (x + loop(\(x,i).(2x - (x mod 2)),(~1 + i),i))
1: (x + loop(\(x,i).(2x - (x mod (0 - (if i <= 0 then 1 else i)))),x,1))
1: (x + loop(\(x,i).(2x - (i mod 2)),(x + ~2),1))
1: (1 + loop(\(x,i).(2x - (i mod 2)),(x + ~2),x2))
1: (loop(\(x,i).(2x - (i mod 2)),(x + ~2),x) + (x mod 2))
1: (2 + loop(\(x,i).(2x - (i mod 2)),x,1))
1: (1 + loop(\(x,i).(x2 + ~1),2,(1 + loop(\(x,i).x2,x,2))))
1: (x + loop(\(x,i).(x2 + ~1),2,(x + 2)))
1: (1 + loop(\(x,i).(x2 + ~1),4,2))
1: (1 + loop(\(x,i).(x2 + ~1),(x + ~1),x))
1: (1 + loop(\(x,i).(x2 + ~1),x,2))
1: (1 + loop(\(x,i).(x2 + ~1),x,4))
1: (2 + loop(\(x,i).(x2 + ~1),i,x))
1: (1 + loop(\(x,i).(x2 + ~2),(x mod 3),x))
1: (1 + loop(\(x,i).(x2 - (x div 2)),4,2))
1: (1 + loop(\(x,i).(x2 - loop(\(x,i).(4x + 1),i,1)),2,x))
1: (x + loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),(x + ~2),1))
1: (x + loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),x,1))
1: (2x + loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),i,1))
1: (x + loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),i,1))
1: (x + loop(\(x,i).(2 + (x * i) - (x div 2)),x,1))
1: (x + loop(\(x,i).((x * i) - (x div 8)),2,x))
1: (x + loop(\(x,i).(~x + (i * i)),(x + ~1),1))
1: (2 + loop(\(x,i).(~x + (2 * compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i))),x,0))
1: ((x + 1) + loop(\(x,i).(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1,i))
1: (1 + loop(\(x,i).(~1 + ((~x + ((~x + 2) div 4)) div 2)),2,x))
1: (x + loop(\(x,i).(((~1 + (x div 2)) div 2) - ((~x + 1) div 3)),2,x))
1: (x + loop(\(x,i).(1 + (x div 2) - ((x div 4) div ~2)),2,x))
1: (x + loop(\(x,i).((x div (2 + (x div (1 + (x mod 4))))) - (if x <= 0 then 0 else 1)),x,(x + 1)))
1: (1 + loop(\(x,i).(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) - (i div 3)),2,x))
1: (1 + loop(\(x,i).(~x + (i mod 2)),x,4))
1: (1 + loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(3x + 2)))
1: (1 + loop(\(x,i).(~x + (if (x mod (1 + (2 * i))) <= 0 then x else 0)),(2 + (x mod 2)),x))
1: (x + loop(\(x,i).(~1 + (if (x mod (1 + i)) <= 0 then 0 else x)),x,(x2 + 2x)))
1: (1 + loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,(6x + 2)))
1: (x + loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,4x))
1: (x + loop(\(x,i).(~1 + (if x <= 0 then (i div (2 - (i mod 2))) else x)),x,0))
1: (x + loop(\(x,i).(~1 + (if x <= 0 then x else (1 + (((x + 1) div 2) div (1 + (x mod 2)))))),x,x))
1: (x + loop(\(x,i).(~1 + (if x <= 0 then i else x)),2x,1))
1: (1 + loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,2))
1: (2x + loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,2))
1: (x + loop(\(x,i).(~1 + (if x <= 0 then i else x)),i,0))
1: (1 + loop(\(x,i).(~x + loop(\(x,i).(x + loop(\(x,i).(x * i),i,1)),(1 + i),1)),x,1))
1: ((x + 1) + loop(\(x,i).(~1 + loop(\(x,i).(x - (x div (1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))),x,x)),x,x))
1: (4x + loop(\(x,i).(~2x + loop(\(x,i).3x,i,1)),i,1))
1: (1 + loop(\(x,i).(~x + loop(\(x,i).(2x2 + 2),x,1)),x,1))
1: (x + loop(\(x,i).(~1 + loop(\(x,i).(x * (~1 + (2 * i))),x,i)),x,2))
1: (1 + loop(\(x,i).(loop(\(x,i).6x,x,1) - loop(\(x,i).7x,x,1)),x,8x))
1: (10x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1))
1: (12x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1))
1: (loop(\(x,i).(loop(\(x,i).2x,i,1) - (x div (if i <= 0 then 1 else i))),i,1) + (x * i))
1: (x + loop(\(x,i).(~1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),x,x2))
1: (x + loop(\(x,i).(~1 + loop(\(x,i).(x div (~2 + (x mod 2))),x,x)),x,x))
1: (x + loop(\(x,i).(x + ~1),(1 - (((x * loop(\(x,i).(x2 div 3),2,x)) div 3) mod 3)),1))
1: (x + loop(\(x,i).(x + ~2),(~3 + (x div 2)),x))
1: (1 + loop(\(x,i).(x + ~2),(x + ~8),x))
1: (loop(\(x,i).(x + ~2),(x + ~8),x) + (x div 3))
1: (1 + loop(\(x,i).(~31x + ~1),2,x2))
1: (1 + loop(\(x,i).(~23x + ~1),2,x2))
1: (1 + loop(\(x,i).(~39x + ~1),2,x2))
1: (1 + loop(\(x,i).(~11x + ~1),2,x2))
1: (1 + loop(\(x,i).(~19x + ~1),2,x2))
1: (1 + loop(\(x,i).(~29x + ~1),2,x2))
1: (x + loop(\(x,i).((x + ~1) - (2 * ((((x + ~1) div 2) div 2) div 2))),1,i))
1: (x + loop(\(x,i).(x - ((x div 4) + i)),(x + ~1),1))
1: (2 + loop(\(x,i).((x + ~1) - (if x <= 0 then 0 else i)),x,x))
1: ((2x + 1) + loop(\(x,i).((x + ~2) - (if x <= 0 then 0 else i)),x,x))
1: (x + loop(\(x,i).((x + ~1) + (2x mod (2 - (x mod ~4)))),2,x))
1: (2x + loop(\(x,i).((3x + 1) - (i mod 2)),i,1))
1: (x + loop(\(x,i).((2x + 1) - loop(\(x,i).3x,i,1)),i,1))
1: (x + loop(\(x,i).((x + 1) - (2 * (~x - ((x div 4) mod 2)))),x,1))
1: (x + loop(\(x,i).((x + 1) - (2 * ((x div 2) - (2 * (x div 5))))),2,x))
1: (x + loop(\(x,i).((x + 1) - (2 * (~2x + (x mod 2)))),i,1))
1: (1 + loop(\(x,i).((x + 1) - (2 * (~1 + (x mod 4)))),(x div 4),x))
1: (1 + loop(\(x,i).((x + 1) - ((1 + (2 * (x div 3))) div 3)),2,x))
1: (1 + loop(\(x,i).((x + 1) - ((((x - ((x mod 3) div 2)) div 2) + (x mod 2)) div 2)),2,x))
1: (2x + loop(\(x,i).((x + 1) - ((x + 1) div 5)),2,2x))
1: (x + loop(\(x,i).((x + 1) - ((~x + 1) div (2 + (x div 4)))),x,0))
1: (x + loop(\(x,i).((x + 2) - ((~x + 1) div (2 + (x div 4)))),1,i))
1: (x + loop(\(x,i).((x + 1) - (((~x + ~1) + (2 * (x mod 2))) div 5)),x,1))
1: (x + loop(\(x,i).((x + 1) - ((x - (x div (1 + ((x div 2) div 3)))) div 2)),2,x))
1: (x + loop(\(x,i).((x + 1) - ((2x + ~2) div (2 + (x div 2)))),2,x))
1: (2 + loop(\(x,i).((x + 1) - (((~x + 2) div 2) div 3)),x,1))
1: (x + loop(\(x,i).((x + 1) - ((x div 4) div ~2)),2,x))
1: (1 + loop(\(x,i).((x + 1) - (((2x + 2) mod (2 + (x div 2))) div 2)),x,x))
1: (x + loop(\(x,i).((x + 1) - (x div (6 - (x mod 2)))),2,x))
1: (2 + loop(\(x,i).((x + 1) - (x div 7)),2,2x))
1: (x + loop(\(x,i).((x + 1) - (x div 7)),2,2x))
1: (loop(\(x,i).((x + 1) - (x div (~2 + ((~x + 2) div 4)))),x,0) + (x div 3))
1: (x + loop(\(x,i).((x + 1) - (x div (~2 + (x div ~7)))),x,0))
1: (1 + loop(\(x,i).((x + 1) - ((x + 1) mod (~1 + (x div ~5)))),2,x))
1: (x + loop(\(x,i).((x + 1) - (~2 mod (1 + (x div 4)))),2,x))
1: (x + loop(\(x,i).((x + 1) - ((x - (x div 4)) mod 2)),2,x))
1: (1 + loop(\(x,i).((x + 1) - (((2x + ~4) div (2 + (x div 4))) mod 2)),x,x))
1: (x + loop(\(x,i).((x + 1) - (((x + 1) mod (1 - (x mod ~7))) mod 2)),2,x))
1: ((x + 1) + loop(\(x,i).((x + 1) - (x mod (2 + (x div 8)))),x,x))
1: (x + loop(\(x,i).((x + 1) - (if x <= 0 then 0 else (i * i))),x,x))
1: (1 + loop(\(x,i).((x + 1) - (if x <= 0 then 1 else (if (x mod (1 + ((x + ~1) mod 9))) <= 0 then 2 else 0))),x,x))
1: ((x + 1) + loop(\(x,i).((x + 1) - (if x <= 0 then 2 else (2 * i))),x,x))
1: ((x + 1) + loop(\(x,i).((x + 1) - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + (i div 3)))),x,x)),2,x))
1: ((x + ~1) + loop(\(x,i).((x + 1) - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)),2,x))
1: (x + loop(\(x,i).((x + 1) - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)),2,x))
1: (x + loop(\(x,i).(x + (2 * (i * i)) - i),(1 + i),x))
1: (2x + loop(\(x,i).(x + (x div 4) - i),x,(x + 1)))
1: (x + loop(\(x,i).(x + (x div 12) - i),x,0))
1: (1 + loop(\(x,i).(2x - i),(x + ~1),x))
1: (1 + loop(\(x,i).(2x - i),x,2x))
1: (x + loop(\(x,i).(2x - i),i,i))
1: (loop(\(x,i).(11x + ~5),x,2) + loop(\(x,i).(3x + 1),x,0))
1: (1 + loop(\(x,i).(x - ((2 - (x mod 2)) * (x div 3))),2,x))
1: (loop(\(x,i).(x - (2 * (~x + (i mod 2)))),x,1) + loop(\(x,i).2x,x,1))
1: (2 + loop(\(x,i).(x - (2 * (~x + i))),x,2))
1: (8x + loop(\(x,i).~9x,(~1 + i),1))
1: (loop(\(x,i).(13x + ~8),x,1) + loop(\(x,i).3x,x,1))
1: (loop(\(x,i).~7x,2x,1) + loop(\(x,i).4x,x,1))
1: ((x + 1) + loop(\(x,i).(x - (9 * (x div ~2))),2,x))
1: (x + loop(\(x,i).(x - (2x * i)),i,1))
1: (1 + loop(\(x,i).(x - (3 * (x div 4))),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (2 + loop(\(x,i).(x - (3 * (x div (~2 + (x mod ~2))))),x,1))
1: ((x3 + 2x) + loop(\(x,i).(x - (i * i)),x,1))
1: (x + loop(\(x,i).(x - ((1 + ((x * (x div 2)) div 4)) div 2)),2,x))
1: (x + loop(\(x,i).(x - ((x + 1) div 7)),2,x))
1: (1 + loop(\(x,i).(x - ((~x + 2) div 7)),x,8))
1: (x + loop(\(x,i).(x - (((~x + ~1) + (x mod 2)) div 5)),x,1))
1: (x + loop(\(x,i).(x - ((~1 + ((~x + ((x div 4) mod 2)) div 2)) div 2)),x,1))
1: (loop(\(x,i).(x - ((~1 + (((x + ~1) div 2) div 2)) div 2)),2,x) + ((x + 2) div 3))
1: (x + loop(\(x,i).(x - ((~1 + (((x + ~1) div 2) div 2)) div 2)),2,x))
1: (1 + loop(\(x,i).(x - ((~x + (x div (if i <= 0 then 1 else i))) div 2)),x,1))
1: (1 + loop(\(x,i).(x - ((~x + ((i mod 3) mod 2)) div 2)),x,1))
1: (x + loop(\(x,i).(x - ((x + ~1) div (3 + (x div 2)))),2,x))
1: ((x + ~1) + loop(\(x,i).(x - ((x + ~2) div (2 + (x div 2)))),2,x))
1: ((x + 1) + loop(\(x,i).(x - ((x - ((x * i) div 3)) div 2)),2,x))
1: (x + loop(\(x,i).(x - ((x - ((x mod 3) div 2)) div 2)),2,x))
1: (x + loop(\(x,i).(x - ((x - (((x + 1) * (2 - ((x div 2) mod 2))) mod 3)) div 2)),2,x))
1: (1 + loop(\(x,i).(x - ((i - (x div 2)) div 2)),x,1))
1: (1 + loop(\(x,i).(x - (((2 + i) * i) div (~x + ~1))),x,1))
1: (x + loop(\(x,i).(x - ((2x + ~4) div (x + 4))),2,x))
1: (loop(\(x,i).(x - ((2 * (2x div 3)) div 3)),2,x) + (if x <= 0 then 1 else x))
1: ((x + 1) + loop(\(x,i).(x - (2x div 7)),2,x))
1: ((2x + 1) + loop(\(x,i).(x - (((x - ((~1 + (x div 2)) div 2)) div 2) div 2)),2,x))
1: (x + loop(\(x,i).(x - (((x - (x2 div 4)) div 2) div 5)),2,x))
1: ((2x + 1) + loop(\(x,i).(x - ((x div 2) div (1 + i))),2,x))
1: (2 + loop(\(x,i).(x - ((if (~x + i) <= 0 then i else 0) div 2)),x,x))
1: (1 + loop(\(x,i).(x - ((if x <= 0 then 1 else x) div (~2 + (x mod ~2)))),x,0))
1: (1 + loop(\(x,i).(x - ((if x <= 0 then (x + ~1) else i) div 3)),x,1))
1: (x + loop(\(x,i).(x - (x div (3 + i))),x,(x + 1)))
1: (2 + loop(\(x,i).(x - (x div (3 + i))),x,2x))
1: (1 + loop(\(x,i).(x - (x div 9)),6,x))
1: (1 + loop(\(x,i).(x - (x div (1 + (5 * i)))),2,x))
1: (2x + loop(\(x,i).(x - (x div (1 + (2 * i)))),2,(x + 1)))
1: (1 + loop(\(x,i).(x - (x div (1 + (2 * i)))),2,(x div 2)))
1: (1 + loop(\(x,i).(x - (x div (1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))),x,x))
1: ((x + 1) + loop(\(x,i).(x - (x div (1 + i))),3,x))
1: (loop(\(x,i).(x - (x div ~2)),(x div 2),1) + (x div 3))
1: (x + loop(\(x,i).(x - (x div ~4)),x,2))
1: (1 + loop(\(x,i).(x - (x div ~5)),x,10))
1: (1 + loop(\(x,i).(x - (x div (~4 + (x div 4)))),x,1))
1: ((x + 2) + loop(\(x,i).(x - (x div (8 - i))),2,x))
1: (x + loop(\(x,i).(x - (x div (8 - i))),2,x))
1: (1 + loop(\(x,i).(x - (x div (~2 + ((x div 2) div ~2)))),x,1))
1: (loop(\(x,i).(x - (x div (~2 + (x mod 2)))),x,1) + loop(\(x,i).(3x + ~1),x,1))
1: (loop(\(x,i).(x - (x div (~2 + (x mod 2)))),x,1) + loop(\(x,i).3x,x,1))
1: (loop(\(x,i).(x - (x div (~2 + (x mod 2)))),x,2) + loop(\(x,i).2x,x,1))
1: (1 + loop(\(x,i).(x - (x div (~2 + (x mod ~2)))),x,1))
1: (1 + loop(\(x,i).(x - (x div (~1 + (i mod ~2)))),x,1))
1: (1 + loop(\(x,i).(x - (x div 8)),2,x))
1: (1 + loop(\(x,i).(x - (x div 12)),2,x))
1: (x + loop(\(x,i).(x - (x div 12)),3,(x + 1)))
1: (1 + loop(\(x,i).(x - (4 mod (x + 2))),2,x))
1: (1 + loop(\(x,i).(x - ((1 + (loop(\(x,i).2x,x,2) mod (x + 2))) mod 2)),2,x))
1: (1 + loop(\(x,i).(x - ((loop(\(x,i).(x * i),x,x) mod (x + 1)) mod 2)),2,x))
1: (x + loop(\(x,i).(x - (loop(\(x,i).(~x2 + 1),2,4) mod (x + 1))),2,x))
1: ((x + 1) + loop(\(x,i).(x - (x mod (1 + (2 * i)))),3,(x + 1)))
1: (1 + loop(\(x,i).(x - (x mod (1 + (x div (1 + i))))),2,x))
1: (1 + loop(\(x,i).(x - (if (~2 + (x div 2)) <= 0 then 0 else 1)),2,((x + 1) div 2)))
1: ((x + 1) + loop(\(x,i).(x - (if (~2 + (x div 2)) <= 0 then 0 else 1)),2,x))
1: (2x + loop(\(x,i).(x - (if (x + ~1) <= 0 then 2 else (x div (2 - (x mod 2))))),x,(x + 1)))
1: (1 + loop(\(x,i).(x - (if (x - ((if (x mod 2) <= 0 then 1 else i) + i)) <= 0 then 1 else 0)),x,x))
1: (1 + loop(\(x,i).(x - (if (~x + i) <= 0 then (2 * i) else 0)),x,x))
1: (3 + loop(\(x,i).(x - (if (~x + i) <= 0 then (2 * i) else 0)),x,x))
1: (1 + loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),4,x))
1: (1 + loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,2x))
1: ((x + 1) + loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x))
1: (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) + (((x + 1) div 2) div 2))
1: (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) + ((x div ~2) mod 2))
1: (1 + loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,i))
1: (x + loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,i))
1: ((x + 1) + loop(\(x,i).(x - (if (~x + i) <= 0 then i else 1)),x,x))
1: ((x + 2) + loop(\(x,i).(x - (if (~x + i) <= 0 then i else 1)),x,x))
1: (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 1)),x,x) + (if x <= 0 then 1 else x))
1: ((2x + 1) + loop(\(x,i).(x - (if (~x + i) <= 0 then i else 2)),x,x))
1: ((2x + 2) + loop(\(x,i).(x - (if (~x + i) <= 0 then i else 2)),x,x))
1: (x + loop(\(x,i).(x - (if (x mod 2) <= 0 then ((x div 4) mod 2) else 1)),3,x))
1: (1 + loop(\(x,i).(x - (if (x mod 2) <= 0 then i else 1)),(x div 4),x))
1: (1 + loop(\(x,i).(x - (if (x mod (3 + i)) <= 0 then x else 3)),x,(x + 2)))
1: ((x + 1) + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,3x))
1: (loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x) + ((3x + 2) mod 7))
1: (loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x) + ((1 + (x div 2)) mod 6))
1: (loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x) + ((x + 1) mod 3))
1: (loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x) + ((x + 1) mod 9))
1: (loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x) + ((x + 1) mod 6))
1: (loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x) + (x mod 7))
1: (loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x) + (x mod 10))
1: (x + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x))
1: (x + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),(x div 2),(x + 2)))
1: (1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,(x + ~1)))
1: (1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 2 else 0)),x,x))
1: (1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then x else 5)),x,x))
1: (x + loop(\(x,i).(x - (if (x mod (2 + i)) <= 0 then 1 else 2)),x,x))
1: (1 + loop(\(x,i).(x - (if (x mod (2 + i)) <= 0 then 2 else 1)),x,2x))
1: (1 + loop(\(x,i).(x - (if (x mod (2 * (1 + i))) <= 0 then 1 else 0)),x,i))
1: ((x + 1) + loop(\(x,i).(x - (if (if ((x + (x div 2)) mod 4) <= 0 then x else 0) <= 0 then 1 else 0)),x,x))
1: (x + loop(\(x,i).(x - (if (if (x mod (1 + i)) <= 0 then x else 0) <= 0 then 1 else (~1 + i))),x,x))
1: (2 + loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x))
1: (loop(\(x,i).(x - (if x <= 0 then 0 else (~1 + (2 * (((1 + (x div 2)) div 2) mod 2))))),2,x) + (x mod 2))
1: (2 + loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x))
1: (1 + loop(\(x,i).(x - (if x <= 0 then 1 else (1 + (2 * (1 + i))))),x,2x))
1: (x + loop(\(x,i).(x - (if x <= 0 then 1 else (1 + (2 * (i div 2))))),x,x))
1: (1 + loop(\(x,i).(x - (if x <= 0 then 1 else (1 + (i * i)))),x,x))
1: (x + loop(\(x,i).(x - (if x <= 0 then 1 else (1 + loop(\(x,i).(x - (if (x mod (2 * (1 + i))) <= 0 then 1 else 0)),x,i)))),x,x))
1: (x + loop(\(x,i).(x - (if x <= 0 then 1 else (~1 + ((1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)) mod 3)))),x,(x + 1)))
1: (x + loop(\(x,i).(x - (if x <= 0 then 1 else (x - ((if x <= 0 then 2 else loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 2)))),(x + ~1),x))
1: (x + loop(\(x,i).(x - (if x <= 0 then 1 else (x - (if x <= 0 then 1 else loop(\(x,i).(if (x * i) <= 0 then 1 else (x + ~1)),i,x))))),x,x))
1: (x + loop(\(x,i).(x - (if x <= 0 then 1 else (x - loop(\(x,i).(x - (if x <= 0 then 0 else i)),i,x)))),x,(x + 1)))
1: (x + loop(\(x,i).(x - (if x <= 0 then 1 else (i - ((x + (x div 3)) div 5)))),x,x))
1: (x + loop(\(x,i).(x - (if x <= 0 then 1 else (2 * (1 + (i div 2))))),x,x))
1: (x + loop(\(x,i).(x - (if x <= 0 then 1 else (2 * (1 + i)))),x,2x))
1: (x + loop(\(x,i).(x - (if x <= 0 then 1 else (2 * (if (~x + i) <= 0 then i else x)))),x,x))
1: (x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - ((x * (x div 2)) mod 2))))),x,x))
1: (x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: ((x + 1) + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,x))
1: (x + loop(\(x,i).(x - (if x <= 0 then 1 else (if ((x mod 3) div 2) <= 0 then x else ((x + 1) div 2)))),x,(x + 1)))
1: (x + loop(\(x,i).(x - (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else 19))),x,(x + 1)))
1: (x + loop(\(x,i).(x - (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else (1 + ((if ((x + ~1) mod 3) <= 0 then 1 else x) * (x mod 2)))))),x,x))
1: (x + loop(\(x,i).(x - (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else (1 + (9 * loop(\(x,i).(x div (1 + (x mod 2))),x,x)))))),x,x))
1: (x + loop(\(x,i).(x - (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else (2 + (if (~x + 2) <= 0 then x else 0))))),x,x))
1: (x + loop(\(x,i).(x - (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else ((x + ~1) + loop(\(x,i).x2,2,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))))),x,x))
1: (x + loop(\(x,i).(x - (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else (if (~x + 2) <= 0 then (2 + (x div 2)) else 1)))),x,x))
1: (x + loop(\(x,i).(x - (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else loop(\(x,i).i,((~1 + (x div 2)) div 2),1)))),(x + 1),(x + 1)))
1: (x + loop(\(x,i).(x - (if x <= 0 then 1 else (if (x mod 2) <= 0 then (if x <= 0 then 2 else ~1) else (1 + (x div 2))))),x,x))
1: (x + loop(\(x,i).(x - (if x <= 0 then 1 else (if (x mod (1 + (2 * i))) <= 0 then x else 0))),x,x))
1: (x + loop(\(x,i).(x - (if x <= 0 then 1 else loop(\(x,i).(2 - ((if x <= 0 then 1 else x) mod 2)),(x mod 2),(x div 2)))),x,(x + 1)))
1: (x + loop(\(x,i).(x - (if x <= 0 then 1 else loop(\(x,i).(x - (x div (1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))),2,x))),x,x))
1: (x + loop(\(x,i).(x - (if x <= 0 then 1 else loop(\(x,i).(x - (if x <= 0 then 1 else (~1 + ((2x + 1) mod (2 - ((~x + 2) div 5)))))),x,x))),2,x))
1: (x + loop(\(x,i).(x - (if x <= 0 then 1 else loop(\(x,i).(x mod 2),(x mod 2),(x div 2)))),x,x))
1: ((x + 1) + loop(\(x,i).(x - (if x <= 0 then 1 else i)),x,x))
1: (x + loop(\(x,i).(x - (if x <= 0 then 2 else (~2 + i))),x,x))
1: (1 + loop(\(x,i).(x - (if x <= 0 then (x - ((i div 2) + i)) else 1)),x,0))
1: (x + loop(\(x,i).(x - loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then i else 0)),x,(x + 1))),1,2x))
1: (1 + loop(\(x,i).(x - loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,0)),x,3x))
1: (1 + loop(\(x,i).(x - loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,(x + 1))),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (2 + loop(\(x,i).(x - loop(\(x,i).(x - (if x <= 0 then 1 else (2 * i))),x,x)),1,(3x + 2)))
1: (x + loop(\(x,i).(x - loop(\(x,i).i,(~4 + (x div 2)),x)),2,x))
1: (x + loop(\(x,i).(i - (x * (1 - i))),i,1))
1: (x + loop(\(x,i).(i - ((1 + i) mod (x + 1))),(x + ~2),0))
1: (x + loop(\(x,i).(i - ((1 + i) mod (x + 1))),i,0))
1: ((2x + 2) + loop(\(x,i).(~x + i),((x + 1) + (x div 4)),1))
1: (x + loop(\(x,i).(~x + i),(1 + ((x2 + 2x) div 4)),1))
1: (1 + loop(\(x,i).(~x + compr(\x.(loop(\(x,i).(2x + 1),x,0) mod (x + 1)),i)),x,0))
1: (x + loop(\(x,i).(~x + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)),x,0))
1: (1 + loop(\(x,i).3x,(2x + 1),2))
1: (2 + loop(\(x,i).3x,(2x + 1),2))
1: (1 + loop(\(x,i).3x,(1 + (3x div (x + 4))),1))
1: (2 + loop(\(x,i).3x,(x + 1),2))
1: (loop(\(x,i).3x,(x + 2),1) + loop(\(x,i).2x,(x + 2),2))
1: (loop(\(x,i).3x,(x + 2),1) + loop(\(x,i).2x,(x + 2),3))
1: (4x + loop(\(x,i).3x,(1 + i),1))
1: (x + loop(\(x,i).3x,(1 + i),i))
1: (1 + loop(\(x,i).3x,(2 + i),x))
1: (2x + loop(\(x,i).3x,(~1 + (2 * i)),2))
1: (x + loop(\(x,i).3x,(~1 + (2 * i)),x))
1: (4x + loop(\(x,i).3x,(~2 + (2 * i)),1))
1: (1 + loop(\(x,i).3x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1))
1: (1 + loop(\(x,i).3x,(x + ~1),1))
1: (loop(\(x,i).3x,(x + ~1),1) + loop(\(x,i).(~2x + 1),x,0))
1: (loop(\(x,i).3x,(x + ~1),2) + loop(\(x,i).2x,x,1))
1: (2x + loop(\(x,i).3x,(x + ~1),x))
1: (x + loop(\(x,i).3x,(x + ~1),x))
1: ((4x + 4) + loop(\(x,i).3x,(x + ~4),2))
1: (16x + loop(\(x,i).3x,(~1 + i),1))
1: (1 + loop(\(x,i).3x,(~1 + i),x))
1: (2x + loop(\(x,i).3x,(~1 + i),x))
1: (x + loop(\(x,i).3x,(~1 + i),x))
1: (2 + loop(\(x,i).3x,6,(x + 1)))
1: (loop(\(x,i).3x,3x,1) + loop(\(x,i).4x,x,1))
1: (x + loop(\(x,i).3x,(2x + 2),1))
1: (loop(\(x,i).3x,(2x + 2),3) + loop(\(x,i).2x,x,1))
1: (1 + loop(\(x,i).3x,2x,1))
1: (2 + loop(\(x,i).3x,2x,1))
1: (8 + loop(\(x,i).3x,2x,1))
1: (9x + loop(\(x,i).3x,2x,1))
1: (loop(\(x,i).3x,2x,1) + loop(\(x,i).x3,2,x))
1: (x + loop(\(x,i).3x,2x,1))
1: (1 + loop(\(x,i).3x,2x,2))
1: (1 + loop(\(x,i).3x,2x,3))
1: (loop(\(x,i).3x,2x,3) + loop(\(x,i).4x,x,2))
1: (1 + loop(\(x,i).3x,2x,5))
1: (1 + loop(\(x,i).3x,2x,x))
1: (loop(\(x,i).3x,x2,1) + loop(\(x,i).2x,x2,1))
1: (loop(\(x,i).3x,x2,1) + loop(\(x,i).2x,x,1))
1: (1 + loop(\(x,i).3x,(2 * i),1))
1: ((4x + 2) + loop(\(x,i).3x,(2 * i),1))
1: (2x + loop(\(x,i).3x,(2 * i),2))
1: (x + loop(\(x,i).3x,(2 * i),(1 + i)))
1: (loop(\(x,i).3x,((x + 1) div 2),1) + loop(\(x,i).3x,x,1))
1: (2x + loop(\(x,i).3x,((1 + i) div 2),1))
1: (x + loop(\(x,i).3x,((~1 + i) div 2),1))
1: (loop(\(x,i).3x,((x * (x mod 2)) div 2),1) + loop(\(x,i).2x,x,1))
1: (x + loop(\(x,i).3x,((x div ~4) div ~2),1))
1: (loop(\(x,i).3x,(x div 2),1) + loop(\(x,i).3x,x,1))
1: (loop(\(x,i).3x,(x div 2),2) + (if x <= 0 then 1 else 0))
1: (loop(\(x,i).3x,(x div 2),2) + loop(\(x,i).3x,x,1))
1: (x2 + loop(\(x,i).3x,(x div 2),i))
1: (2 + loop(\(x,i).3x,loop(\(x,i).(3x + 2),((x + ~1) div 3),x),1))
1: ((x + 4) + loop(\(x,i).3x,x,1))
1: (16 + loop(\(x,i).3x,x,1))
1: (2x + loop(\(x,i).3x,x,1))
1: (x2 + loop(\(x,i).3x,x,1))
1: (loop(\(x,i).3x,x,1) + (x mod 2))
1: (loop(\(x,i).3x,x,1) + loop(\(x,i).~2x,x,1))
1: (loop(\(x,i).3x,x,1) + loop(\(x,i).(x * i),x,1))
1: (loop(\(x,i).3x,x,2) + (if x <= 0 then 1 else 0))
1: (loop(\(x,i).3x,x,2) + loop(\(x,i).2x,x,1))
1: (1 + loop(\(x,i).3x,x,3))
1: (loop(\(x,i).3x,x,3) + loop(\(x,i).2x,(x + 2),3))
1: (loop(\(x,i).3x,x,3) + loop(\(x,i).2x,x,1))
1: (loop(\(x,i).3x,x,3) + loop(\(x,i).2x,x,2))
1: (1 + loop(\(x,i).3x,x,4))
1: (loop(\(x,i).3x,x,4) + loop(\(x,i).4x,x,1))
1: (1 + loop(\(x,i).3x,x,(x + 8)))
1: (1 + loop(\(x,i).3x,x,(1 + loop(\(x,i).2x,x,1))))
1: (loop(\(x,i).3x,x,(1 + loop(\(x,i).2x,x,1))) + loop(\(x,i).7x,x,1))
1: (loop(\(x,i).3x,x,(1 + loop(\(x,i).2x,x,1))) + loop(\(x,i).8x,x,1))
1: (loop(\(x,i).3x,x,(1 + loop(\(x,i).2x,x,1))) + loop(\(x,i).4x,x,1))
1: (2 + loop(\(x,i).3x,x,(~1 + loop(\(x,i).2x,x,(if (x mod 2) <= 0 then 1 else loop(\(x,i).(2x + 2),x,0))))))
1: (1 + loop(\(x,i).3x,x,8))
1: (1 + loop(\(x,i).3x,x,(2 * (1 + loop(\(x,i).(x2 + ~x),1,loop(\(x,i).x2,x,2))))))
1: (2 + loop(\(x,i).3x,x,(if x <= 0 then 2 else 1)))
1: (1 + loop(\(x,i).3x,x,loop(\(x,i).x3,x,10)))
1: (1 + loop(\(x,i).3x,x,x))
1: (loop(\(x,i).3x,x,x) + loop(\(x,i).2x,x,1))
1: ((4x + ~2) + loop(\(x,i).3x,i,1))
1: (loop(\(x,i).3x,i,1) + (4x * i))
1: (loop(\(x,i).3x,i,1) + loop(\(x,i).2x,i,1))
1: (x + loop(\(x,i).3x,i,(i * i * i)))
1: (x2 + loop(\(x,i).(3 * i),(x + ~2),1))
1: (x + loop(\(x,i).(3 * i),(x + ~8),1))
1: (1 + loop(\(x,i).(4x + 4),(x + 1),2))
1: (loop(\(x,i).(4x + 4),(x div 2),1) + (x mod 2))
1: (1 + loop(\(x,i).(4x + 4),(x div 2),(x mod 2)))
1: (2 + loop(\(x,i).(4x + 4),(x div 2),(x mod 2)))
1: (1 + loop(\(x,i).(4x + 4),x,((~x + 2) mod 3)))
1: (loop(\(x,i).(4x + ~4),(x + ~1),2) + loop(\(x,i).2x,x,1))
1: (1 + loop(\(x,i).(4x + ~4),x,2))
1: (loop(\(x,i).(4x + ~4),x,2) + loop(\(x,i).2x,x,2))
1: (2 + loop(\(x,i).(5x + 10),(x div 2),(1 + (4 * (x mod 2)))))
1: (1 + loop(\(x,i).5x,2,loop(\(x,i).(2x + 4),x,0)))
1: (x + loop(\(x,i).5x,(x + 1),1))
1: (2 + loop(\(x,i).5x,(x + 1),2))
1: (3 + loop(\(x,i).5x,(x + 1),2))
1: (1 + loop(\(x,i).5x,(2 + i),x))
1: (2 + loop(\(x,i).5x,(x + ~1),x))
1: (x + loop(\(x,i).5x,(~1 + i),1))
1: (x + loop(\(x,i).5x,(~2 + i),1))
1: (2 + loop(\(x,i).5x,(4x + ~2),1))
1: (loop(\(x,i).5x,2x,1) + loop(\(x,i).3x,2x,1))
1: (loop(\(x,i).5x,x2,1) + loop(\(x,i).3x,x2,1))
1: (loop(\(x,i).5x,x2,1) + loop(\(x,i).3x,x,1))
1: (x + loop(\(x,i).5x,(2 * i),(1 + i)))
1: (loop(\(x,i).5x,((x + 1) div 2),1) + loop(\(x,i).5x,x,1))
1: (1 + loop(\(x,i).5x,((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2),1))
1: (loop(\(x,i).5x,(x div 2),1) + loop(\(x,i).5x,x,1))
1: (6 + loop(\(x,i).5x,x,1))
1: (loop(\(x,i).5x,x,1) + loop(\(x,i).(2x + 1),x,0))
1: (x + loop(\(x,i).5x,x,2))
1: (1 + loop(\(x,i).5x,x,3))
1: (1 + loop(\(x,i).5x,x,4))
1: (loop(\(x,i).5x,x,4) + (if x <= 0 then 1 else 0))
1: (loop(\(x,i).5x,x,4) + loop(\(x,i).4x,x,1))
1: (1 + loop(\(x,i).5x,x,9))
1: (1 + loop(\(x,i).5x,x,8))
1: (1 + loop(\(x,i).5x,x,x))
1: (loop(\(x,i).5x,i,1) + (x * (~1 + i)))
1: (12x + loop(\(x,i).5x,i,1))
1: (loop(\(x,i).5x,i,1) + (x * i))
1: (1 + loop(\(x,i).(x2 + 7x),1,loop(\(x,i).10x,x,1)))
1: (1 + loop(\(x,i).(x2 + 5x),1,loop(\(x,i).10x,x,1)))
1: (1 + loop(\(x,i).(x2 + 6x),1,loop(\(x,i).10x,x,1)))
1: (1 + loop(\(x,i).(x2 + 6x),1,loop(\(x,i).2x,x,1)))
1: (1 + loop(\(x,i).(x2 + 9x),1,loop(\(x,i).10x,x,1)))
1: (x + loop(\(x,i).(2 * ((x + 1) + (4 * (x + (x mod 2))))),2,x))
1: (2x + loop(\(x,i).(3 * ((18x + 1) + i)),x,1))
1: (1 + loop(\(x,i).(2 * ((x + 2) + (x div 2))),(x div 2),(1 + (2 * (x mod 2)))))
1: (1 + loop(\(x,i).(x * ((x + 2) + (x div 2))),x,2))
1: (1 + loop(\(x,i).(2 * (5x + (x div 2))),(x + 1),1))
1: (8x + loop(\(x,i).(2 * (3x + (x div 2))),i,1))
1: (1 + loop(\(x,i).(2 * (3x + (if (~2 + i) <= 0 then 1 else 0))),x,1))
1: (1 + loop(\(x,i).(x * (2x + loop(\(x,i).x3,2,x))),x,1))
1: (2x + loop(\(x,i).(2x + 6),(~1 + i),1))
1: (x + loop(\(x,i).(x2 + 3x),(x + ~1),1))
1: (1 + loop(\(x,i).(2x + 8),(x + 3),3))
1: (1 + loop(\(x,i).(2x + 8),(x + 1),1))
1: (2x + loop(\(x,i).(2x + 8),(~1 + i),1))
1: (4x + loop(\(x,i).(2x + 8),i,1))
1: (1 + loop(\(x,i).(x2 + 4x),1,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))
1: (1 + loop(\(x,i).(x2 + 4x),1,loop(\(x,i).10x,x,1)))
1: (x + loop(\(x,i).(x * (3 + i)),4,x))
1: (1 + loop(\(x,i).(x * (3 + i)),x,1))
1: (1 + loop(\(x,i).(x * (3 + i)),x,2))
1: (1 + loop(\(x,i).(x * (4 + i)),x,3))
1: (1 + loop(\(x,i).(x * ((2x + 1) + i)),2,x))
1: (loop(\(x,i).(x * (3 - (i mod 2))),x,1) + loop(\(x,i).2x,x,2))
1: (2 + loop(\(x,i).(7x + 7),(x div 2),(x mod 2)))
1: (x + loop(\(x,i).7x,(x + 1),1))
1: (1 + loop(\(x,i).7x,(2 + i),x))
1: (loop(\(x,i).7x,(x + ~1),x) + loop(\(x,i).7x,x,1))
1: (6 + loop(\(x,i).7x,x,1))
1: (x5 + loop(\(x,i).7x,x,1))
1: (2x + loop(\(x,i).7x,x,1))
1: (loop(\(x,i).7x,x,1) + (if x <= 0 then 0 else 1))
1: (loop(\(x,i).7x,x,1) + loop(\(x,i).(3x + 2),2x,0))
1: (loop(\(x,i).7x,x,1) + loop(\(x,i).(5x + ~4),x,0))
1: (loop(\(x,i).7x,x,1) + loop(\(x,i).~2x,x,2))
1: (loop(\(x,i).7x,x,1) + loop(\(x,i).10x,x,1))
1: (1 + loop(\(x,i).7x,x,2))
1: (1 + loop(\(x,i).7x,x,3))
1: (1 + loop(\(x,i).7x,x,4))
1: (1 + loop(\(x,i).7x,x,5))
1: (1 + loop(\(x,i).7x,x,9))
1: (2 + loop(\(x,i).7x,x,(~1 + loop(\(x,i).2x2,x,2))))
1: (1 + loop(\(x,i).7x,x,8))
1: (1 + loop(\(x,i).7x,x,x))
1: (12x + loop(\(x,i).7x,i,1))
1: (6x + loop(\(x,i).7x,i,1))
1: (x + loop(\(x,i).7x,i,(1 + i)))
1: ((x2 + x + 1) + loop(\(x,i).(6x + 4),2,(x2 + 2x)))
1: (1 + loop(\(x,i).(6x + 4),2,x))
1: (1 + loop(\(x,i).(3x2 + 5x + 2),1,loop(\(x,i).10x,x,1)))
1: (2x + loop(\(x,i).(2 * (x + (3 * i))),i,1))
1: (1 + loop(\(x,i).(2x + 16),x,13))
1: (1 + loop(\(x,i).(x2 + 8x),1,loop(\(x,i).10x,x,1)))
1: (1 + loop(\(x,i).13x,x,1))
1: (2 + loop(\(x,i).13x,x,1))
1: (x + loop(\(x,i).13x,i,1))
1: (x + loop(\(x,i).13x,i,(1 + i)))
1: (2 + loop(\(x,i).(10x + 8),2,(x2 + 2x)))
1: (1 + loop(\(x,i).(10x + 8),2,x))
1: (2 + loop(\(x,i).(10x + 8),(x + 2),1))
1: (6x + loop(\(x,i).(10x + 2),2,x))
1: (1 + loop(\(x,i).(10x + 2),(x + 1),2))
1: (loop(\(x,i).(10x + 2),2x,2) + (3 * loop(\(x,i).10x,x,2)))
1: (loop(\(x,i).(10x + 2),2x,2) + loop(\(x,i).10x,x,3))
1: (loop(\(x,i).(10x + 2),2x,2) + loop(\(x,i).10x,x,4))
1: (loop(\(x,i).(10x + 2),2x,2) + loop(\(x,i).10x,x,5))
1: (loop(\(x,i).(10x + 2),(x div 2),1) + (x mod 2))
1: (1 + loop(\(x,i).(10x + 4),2,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (1 + loop(\(x,i).(10x + 4),2,x))
1: (1 + loop(\(x,i).(2 * ((5x + 1) + i)),x,2))
1: (2 + loop(\(x,i).(28x + 6),(x + 1),2))
1: (x + loop(\(x,i).(6x2 + 8x + 4),2,x))
1: (1 + loop(\(x,i).(2 * (x + (5 * (2x + (x div 2))))),x,1))
1: (1 + loop(\(x,i).(x * (1 + (2 * (2 + (2 mod (x + 1)))))),x,1))
1: (2 + loop(\(x,i).(x3 + 4x2 + 4x + 3),(x2 + x + 2),1))
1: (x + loop(\(x,i).(6x + 8),2,x))
1: (x + loop(\(x,i).(5x2 + 10x + 5),(x + ~1),10))
1: (1 + loop(\(x,i).(x * (1 + (2 * (x + i)))),2,2x))
1: (x + loop(\(x,i).(3x2 + ~3x + 3),(x + ~1),1))
1: (1 + loop(\(x,i).(2 * (x + (2 * (x - (x div ~4))))),x,1))
1: (1 + loop(\(x,i).(2 * (1 + (2 * (x - i)))),x,2))
1: (x + loop(\(x,i).19x,i,(1 + i)))
1: (1 + loop(\(x,i).17x,(2 * (1 + (x mod 2))),x))
1: (1 + loop(\(x,i).17x,x,1))
1: (loop(\(x,i).17x,x,2) + loop(\(x,i).3x,x,1))
1: (x + loop(\(x,i).17x,i,(1 + i)))
1: (2 + loop(\(x,i).(18x + 16),2,(x2 + 2x)))
1: (2 + loop(\(x,i).(26x + 24),2,(x2 + 2x)))
1: (3 + loop(\(x,i).(2x + 40),(x + 1),1))
1: (2 + loop(\(x,i).(2x + 40),x,1))
1: (1 + loop(\(x,i).(10x3 + 10x + 2),x,2))
1: (2 + loop(\(x,i).(2 * (1 + (6 * (~1 + (6 * (~2 + loop(\(x,i).10x,(x + 1),(x + 1)))))))),x,1))
1: (2 + loop(\(x,i).(34x + 32),2,(x2 + 2x)))
1: (1 + loop(\(x,i).(x * (1 + (4x * (1 + i)))),2,x))
1: (1 + loop(\(x,i).(x * ((4x + 2) + i)),2,x))
1: (1 + loop(\(x,i).(x * (4x + (i mod 2))),2,2x))
1: (1 + loop(\(x,i).(2 * (6x + (x mod 2))),x,1))
1: (1 + loop(\(x,i).(6x2 + 2x),2,2))
1: (1 + loop(\(x,i).(x4 + 2x3 + x),2x,1))
1: (2 + loop(\(x,i).(2 * (x3 + (if x <= 0 then 1 else 2))),x,1))
1: (1 + loop(\(x,i).(x * (1 + (i * i * i))),x,1))
1: (x + loop(\(x,i).(2 * (x + (2 * (2x div (if i <= 0 then 1 else i))))),i,1))
1: (1 + loop(\(x,i).(2 * (x + (2 * (i div 2)))),(x + ~1),0))
1: (2 + loop(\(x,i).(2 * (x + (2 * (i mod 2)))),x,1))
1: (1 + loop(\(x,i).(3 * (x + ((i mod 2) * i))),x,2))
1: (1 + loop(\(x,i).(4x + 2),2,8))
1: (1 + loop(\(x,i).(4x + 2),2x,2))
1: (loop(\(x,i).(10x + 5),(2x + 1),1) + loop(\(x,i).10x,x,2))
1: (2 + loop(\(x,i).(10x + 5),(x + 2),9))
1: (2 + loop(\(x,i).(2x2 + x),1,loop(\(x,i).4x,x,2)))
1: (1 + loop(\(x,i).(2x2 + x),3,x))
1: (x + loop(\(x,i).(2x2 + 2),(x + ~2),1))
1: (1 + loop(\(x,i).(x3 + x),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (1 + loop(\(x,i).(x3 + x),1,(x2 + ~1)))
1: (1 + loop(\(x,i).(x3 + x),1,loop(\(x,i).2x,x,1)))
1: (loop(\(x,i).(x3 + x),1,loop(\(x,i).2x,x,1)) + loop(\(x,i).3x,2x,1))
1: (loop(\(x,i).(x3 + x),1,loop(\(x,i).2x,x,1)) + loop(\(x,i).3x,x,1))
1: (loop(\(x,i).(x3 + x),1,loop(\(x,i).2x,x,1)) + loop(\(x,i).5x,x,1))
1: (loop(\(x,i).(x3 + x),1,loop(\(x,i).2x,x,1)) + loop(\(x,i).7x,x,1))
1: (1 + loop(\(x,i).(x3 + x),x,1))
1: (1 + loop(\(x,i).(2x2 + 4),2,1))
1: (1 + loop(\(x,i).(2x2 + 4),(x + (x div 2)),1))
1: (1 + loop(\(x,i).((x2 + 2) * (~1 + i)),2x,1))
1: ((x + 1) + loop(\(x,i).(x3 + 3x),2,(x div 4)))
1: (loop(\(x,i).(x * (1 + (2 * i))),(~2 + i),1) + (x * (~1 + (2 * i))))
1: (1 + loop(\(x,i).(2 * (1 + (x * i))),x,2))
1: (1 + loop(\(x,i).(x * (x + (i * i))),2,x))
1: (x + loop(\(x,i).(2 * (1 + ((x + (x div 2)) div 4))),3,x))
1: (loop(\(x,i).(2 * (x + ((x - (i mod 2)) div 2))),x,1) + (x mod 2))
1: (1 + loop(\(x,i).(2 * (x + (3x div (if i <= 0 then 1 else i)))),x,1))
1: (1 + loop(\(x,i).(2 * (x + (5x div (if i <= 0 then 1 else i)))),x,1))
1: (1 + loop(\(x,i).(2 * (x + (7x div (if i <= 0 then 1 else i)))),x,1))
1: (1 + loop(\(x,i).(2 * (x + (6x div (if i <= 0 then 1 else i)))),x,1))
1: (2 + loop(\(x,i).(3 * (1 + ((2 * (x div 2)) div 3))),(x div 2),x))
1: (x + loop(\(x,i).(2 * (1 + (((1 + (x mod ((1 + (x mod (1 + (x div 4)))) * (1 + (x mod 2))))) mod (x + 1)) div 2))),1,i))
1: (1 + loop(\(x,i).(2 * (x + (x div 2))),x,1))
1: (x2 + loop(\(x,i).(2 * (x + (x div 2))),x,1))
1: (1 + loop(\(x,i).((x + 2) * (x + (x div 2))),(2x + 3),2))
1: (1 + loop(\(x,i).(x * (x + (x div 2))),1,(1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))))
1: ((x + 1) + loop(\(x,i).(x * (x + (x div 2))),(x + ~1),x))
1: (x + loop(\(x,i).(2 * (2 + (x div 3))),(~1 + (2x mod (4 + (x div 4)))),1))
1: (x + loop(\(x,i).(2 * (2x + (x div (if i <= 0 then 1 else i)))),(~1 + i),1))
1: (loop(\(x,i).(2 * (2x + (x div (if i <= 0 then 1 else i)))),x,1) + loop(\(x,i).4x,(x + ~1),x))
1: (loop(\(x,i).(x * (1 + (i div 2))),x,1) + (x div 2))
1: (1 + loop(\(x,i).((x + ~1) * (2 + (i div 3))),x,1))
1: (x + loop(\(x,i).(2 * (x + (x mod 2))),(x + ~1),1))
1: (x + loop(\(x,i).(2 * (2x + (i mod 2))),(x + ~1),1))
1: (1 + loop(\(x,i).(2 * (x + (i mod 2))),(x + 1),x))
1: (1 + loop(\(x,i).(2 * (x + (i mod 2))),x,1))
1: ((x2 + x) + loop(\(x,i).(2 * (x + (i mod 2))),x,1))
1: (loop(\(x,i).(2 * (x + (i mod 2))),x,1) + (if (~x + 2) <= 0 then 1 else 0))
1: (x + loop(\(x,i).(x * (x + (i mod 2))),(x2 + ~2x),1))
1: (x + loop(\(x,i).(x * (x + (i mod 2))),x,1))
1: (x + loop(\(x,i).(x * (1 + (if (x mod 2) <= 0 then 16 else 1))),1,i))
1: (2 + loop(\(x,i).(2 * (x + (if (i mod 2) <= 0 then 2 else 0))),x,1))
1: (1 + loop(\(x,i).(2 * (x + (if (i mod 2) <= 0 then 2 else 0))),x,2))
1: (1 + loop(\(x,i).(x * (1 + (if (i mod 2) <= 0 then 4 else 1))),x,1))
1: (1 + loop(\(x,i).((x + 1) * (2 + (if x <= 0 then 1 else 2))),(x div 2),(x mod 2)))
1: (2 + loop(\(x,i).((2x + 1) * (2 + (if x <= 0 then 1 else x))),(x + ~1),(x mod 2)))
1: (2 + loop(\(x,i).(2 * ((if x <= 0 then 1 else x) + (i div 2))),x,0))
1: (1 + loop(\(x,i).((x + 1) * (2 + (if x <= 0 then 2 else 1))),x,0))
1: (1 + loop(\(x,i).(x * (2 + (if x <= 0 then 2 else (x - (if x <= 0 then 1 else (x div (2 - (i mod 2)))))))),x,1))
1: (1 + loop(\(x,i).(2 * (2x + loop(\(x,i).3x,(2 * i),2))),x,0))
1: (loop(\(x,i).(2 * (2x + loop(\(x,i).3x,i,1))),x,0) + loop(\(x,i).2x,x,1))
1: (x + loop(\(x,i).(2 * (4x + loop(\(x,i).4x,i,1))),i,1))
1: (1 + loop(\(x,i).(3 * (x + loop(\(x,i).2x,i,1))),x,3))
1: (x + loop(\(x,i).((x + loop(\(x,i).(x * i),i,1)) * i),i,1))
1: (1 + loop(\(x,i).(2x + 2),(x + ~1),(if x <= 0 then 1 else ((2 + (loop(\(x,i).3x,(x + ~1),1) + loop(\(x,i).2x,x,1))) div 2))))
1: (x + loop(\(x,i).(2x + 2),(2x div (4 + (x div 2))),1))
1: (x + loop(\(x,i).(2x + 2),(((x + 1) div 2) div 3),1))
1: (12 + loop(\(x,i).(2x + 2),(x div 2),(x mod 2)))
1: (16 + loop(\(x,i).(2x + 2),(x div 2),(x mod 2)))
1: (loop(\(x,i).(2x + 2),(x div 2),(x mod 2)) + loop(\(x,i).2x,(x + ~1),x))
1: (1 + loop(\(x,i).(2x + 2),loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1))
1: (loop(\(x,i).(2x + 2),x,0) + (x2 div (x + 2)))
1: (loop(\(x,i).(2x + 2),x,1) + (4 * (x mod 2)))
1: (loop(\(x,i).(2x + 2),x,1) + (3 * (x mod 2)))
1: (loop(\(x,i).(2x + 2),x,2) + loop(\(x,i).2x2,2,2))
1: (loop(\(x,i).(2x + 2),x,2) + loop(\(x,i).x2,2,4))
1: (1 + loop(\(x,i).(3x + 3),(x + 1),x))
1: (1 + loop(\(x,i).(x2 + x),1,(1 + (x div 2) - (2 * (x mod 2)))))
1: (2 + loop(\(x,i).(x2 + x),1,(1 + loop(\(x,i).x3,x2,2x))))
1: (1 + loop(\(x,i).(x2 + x),1,(1 + loop(\(x,i).2x,x,1))))
1: (loop(\(x,i).(x2 + x),1,(1 + loop(\(x,i).2x,x,1))) + loop(\(x,i).3x,x,1))
1: (loop(\(x,i).(x2 + x),1,(1 + loop(\(x,i).2x,x,1))) + loop(\(x,i).3x,x,2))
1: (x + loop(\(x,i).(x2 + x),1,(~1 + (x mod (x - ((x + ~1) mod 8))))))
1: (1 + loop(\(x,i).(x2 + x),1,x7))
1: (x + loop(\(x,i).(x2 + x),1,loop(\(x,i).(2x + i),x,0)))
1: (loop(\(x,i).(x2 + x),1,loop(\(x,i).3x,x,1)) + loop(\(x,i).7x,x,1))
1: (loop(\(x,i).(x2 + x),1,loop(\(x,i).3x,x,1)) + loop(\(x,i).8x,x,1))
1: (loop(\(x,i).(x2 + x),1,loop(\(x,i).3x,x,1)) + loop(\(x,i).4x,x,1))
1: (loop(\(x,i).(x2 + x),1,loop(\(x,i).3x,x,1)) + loop(\(x,i).2x,x,1))
1: (7 + loop(\(x,i).(x2 + x),1,loop(\(x,i).(2x + 2),x,2)))
1: (8 + loop(\(x,i).(x2 + x),1,loop(\(x,i).(2x + 2),x,2)))
1: (1 + loop(\(x,i).(x2 + x),1,loop(\(x,i).(2 * (2x - (x div (1 + i)))),x,1)))
1: (1 + loop(\(x,i).(x2 + x),1,loop(\(x,i).10x,x,1)))
1: (1 + loop(\(x,i).(x2 + x),1,loop(\(x,i).8x,x,1)))
1: (1 + loop(\(x,i).(x2 + x),1,loop(\(x,i).(10 * (if x <= 0 then 1 else x)),x,0)))
1: (1 + loop(\(x,i).(x2 + x),1,loop(\(x,i).2x2,x,1)))
1: (1 + loop(\(x,i).(x2 + x),1,loop(\(x,i).x3,2,x)))
1: (1 + loop(\(x,i).(x2 + x),1,loop(\(x,i).x3,x,2)))
1: (1 + loop(\(x,i).(x2 + x),1,loop(\(x,i).(x * (i * i * i)),x,1)))
1: (loop(\(x,i).(x2 + x),1,loop(\(x,i).2x,x,1)) + loop(\(x,i).3x,2x,1))
1: (loop(\(x,i).(x2 + x),1,loop(\(x,i).2x,x,1)) + loop(\(x,i).5x,x,1))
1: (loop(\(x,i).(x2 + x),1,loop(\(x,i).2x,x,1)) + loop(\(x,i).7x,x,1))
1: (1 + loop(\(x,i).(x2 + x),1,loop(\(x,i).x2,x,2)))
1: (1 + loop(\(x,i).(x2 + x),1,loop(\(x,i).(x * i),(1 + compr(\x.(loop(\(x,i).(x3 + ~x2),2,x) mod (x + 1)),x)),1)))
1: (x + loop(\(x,i).(x2 + x),1,loop(\(x,i).(x * i),x,1)))
1: (x + loop(\(x,i).(x2 + x),2,2))
1: (1 + loop(\(x,i).(x2 + x),2,3))
1: (1 + loop(\(x,i).(x2 + x),2,6x))
1: (2 + loop(\(x,i).(x2 + x),2,6x))
1: (1 + loop(\(x,i).(x2 + x),2x,1))
1: (1 + loop(\(x,i).(x2 + x),x,1))
1: (1 + loop(\(x,i).(x2 + x),x,4))
1: (1 + loop(\(x,i).(x2 + x),x,5))
1: (1 + loop(\(x,i).(x2 + x),x,9))
1: (1 + loop(\(x,i).(x2 + x),x,13))
1: (1 + loop(\(x,i).(x2 + x),x,17))
1: (1 + loop(\(x,i).(x2 + x),x,(1 + (x div 4))))
1: (1 + loop(\(x,i).(x2 + x),x,8))
1: (1 + loop(\(x,i).(x2 + x),x,10))
1: (1 + loop(\(x,i).(x2 + x),x,14))
1: (1 + loop(\(x,i).(x2 + x),x,16))
1: (1 + loop(\(x,i).((x + 1) * i),(1 + ((x * (x div 3)) mod (1 + ((2 - (x div 2)) mod 4)))),1))
1: (loop(\(x,i).((x + 1) * i),x,0) + loop(\(x,i).(2x + 1),x,0))
1: (1 + loop(\(x,i).(2x + 4),(x + 2),0))
1: (1 + loop(\(x,i).(2x + 4),(x + 2),2))
1: (1 + loop(\(x,i).(2x + 4),(x + ~1),0))
1: (1 + loop(\(x,i).(2x + 4),((x + 1) div 2),2))
1: (1 + loop(\(x,i).(2x + 4),(x div 2),(1 + (4 * (x mod 2)))))
1: (1 + loop(\(x,i).(2x + 4),(x div 3),(x mod 3)))
1: (1 + loop(\(x,i).(2x + 4),x,2))
1: (1 + loop(\(x,i).(2x + 4),x,3))
1: (loop(\(x,i).(2x + 4),x,3) + (x mod 2))
1: (1 + loop(\(x,i).(2x + 4),x,9))
1: (1 + loop(\(x,i).(2x + 4),x,loop(\(x,i).2x,(x div 2),(2 + (x mod 2)))))
1: (x + loop(\(x,i).(2x + 4),i,0))
1: (2 + loop(\(x,i).(3x + 6),2x,2))
1: (x + loop(\(x,i).(x2 + 3x + 2),2,2))
1: (x4 + loop(\(x,i).(x2 + 4x + 4),2,2))
1: (2 + loop(\(x,i).(x2 + 2x),1,compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),(x + 1))))
1: (x + loop(\(x,i).(x * (1 + i)),4,2))
1: (1 + loop(\(x,i).(x * (1 + i)),4,x))
1: (1 + loop(\(x,i).(x * (1 + i)),(x + ((x * (x div 2)) mod 2)),1))
1: (x + loop(\(x,i).(x * (1 + i)),(i - (x mod 2)),1))
1: (x + loop(\(x,i).(x * (1 + i)),(2 * i),1))
1: (x + loop(\(x,i).(x * (1 + i)),(x div 2),1))
1: (1 + loop(\(x,i).(x * (1 + i)),(x div 2),(1 + (x mod 2))))
1: (1 + loop(\(x,i).(x * (1 + i)),x,(x + 1)))
1: (x + loop(\(x,i).((1 + i) * i),(x div 2),2))
1: (1 + loop(\(x,i).(x * (2 + i)),5,2))
1: (x + loop(\(x,i).(x * (2 + i)),(1 + i),2))
1: (1 + loop(\(x,i).(x * (2 + i)),(x + ~1),x))
1: (x + loop(\(x,i).(x * (2 + i)),(x + ~2),1))
1: (x + loop(\(x,i).(x * (2 + i)),(~2 + i),1))
1: (x + loop(\(x,i).(x * (2 + i)),(2 * i),2))
1: (2 + loop(\(x,i).(x * (2 + i)),(x div 2),2))
1: (loop(\(x,i).(x * (2 + i)),i,1) + (x * (i * i)))
1: (x + loop(\(x,i).(x * (2 + i)),i,2))
1: (1 + loop(\(x,i).(x * (2 + i)),compr(\x.((~1 + loop(\(x,i).(x * i),x,1)) mod (x + 2)),x),1))
1: (1 + loop(\(x,i).(x * (2 + i)),compr(\x.((~1 + loop(\(x,i).(x * i),x,1)) mod (x + 2)),x),2))
1: (x + loop(\(x,i).(x * (2 + i)),compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i),2))
1: (x + loop(\(x,i).(2 * (x + i)),(1 + i),1))
1: (x + loop(\(x,i).(2 * (x + i)),(x div 2),2))
1: (1 + loop(\(x,i).(2 * (x + i)),x,(1 + (x mod 2))))
1: (1 + loop(\(x,i).(2 * (x + i)),x,2x))
1: (1 + loop(\(x,i).((x + 1) * (x + i)),2,x))
1: (loop(\(x,i).((x + 1) * (x + i)),2,x) + (if x <= 0 then 1 else 0))
1: (x + loop(\(x,i).((x + 1) * (x + i)),x,2))
1: (1 + loop(\(x,i).((x + 2) * (x + i)),2,2))
1: (1 + loop(\(x,i).(2x * (x + i)),x,x))
1: (1 + loop(\(x,i).(x * (x + i)),2,8))
1: (x + loop(\(x,i).(x * (x + i)),3,(x div ~11)))
1: (x + loop(\(x,i).(x * (x + i)),(x + ~1),1))
1: (1 + loop(\(x,i).(x * (2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),i))),(x + 1),1))
1: (1 + loop(\(x,i).(x * (2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),i))),x,3))
1: (2 + loop(\(x,i).(x * (2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),i))),x,3))
1: (1 + loop(\(x,i).(x * (2 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),i))),(x + 1),1))
1: (x + loop(\(x,i).(x * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))),(~1 + i),1))
1: (1 + loop(\(x,i).(x * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))),x,1))
1: (x + loop(\(x,i).(x * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))),i,1))
1: (1 + loop(\(x,i).(x * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i))),8x,1))
1: (loop(\(x,i).~2x,(~1 + i),1) + (x * i))
1: (x + loop(\(x,i).~2x,i,2))
1: (loop(\(x,i).~3x,(x div 2),1) + loop(\(x,i).3x,x,1))
1: (loop(\(x,i).~3x,x,1) + loop(\(x,i).4x,x,1))
1: (loop(\(x,i).~3x,x,2) + loop(\(x,i).4x,x,1))
1: (2x + loop(\(x,i).~3x,i,1))
1: (loop(\(x,i).~3x,i,1) + (x * i))
1: (1 + loop(\(x,i).(x * (0 - i)),x,1))
1: (loop(\(x,i).(x * (0 - i)),i,1) + (x * (2 + i)))
1: (loop(\(x,i).(x * (0 - i)),i,1) + (x * i))
1: (x + loop(\(x,i).(x * (0 - i)),i,1))
1: (2 + loop(\(x,i).(4x * (1 - (2 * (2 + i)))),x,1))
1: (1 + loop(\(x,i).(~2x + 2),(~1 + i),1))
1: (6x + loop(\(x,i).(~2x + 2),i,1))
1: (x + loop(\(x,i).(~2x + 2),i,1))
1: (1 + loop(\(x,i).(x * (2 - (x mod ~4))),x,x))
1: (1 + loop(\(x,i).(~2x + 4),x,0))
1: (2 + loop(\(x,i).(~2x + 4),x,1))
1: (1 + loop(\(x,i).(~2x + 4),x,2))
1: (x + loop(\(x,i).(2 * ((x + ~1) + (i div 2))),(x + ~1),1))
1: (x + loop(\(x,i).(x * ((x + ~1) + i)),2,10))
1: (loop(\(x,i).11x,x,1) + (x2 * loop(\(x,i).x3,2,x)))
1: (loop(\(x,i).11x,x,1) + loop(\(x,i).(3x + 2),2x,0))
1: (loop(\(x,i).11x,x,1) + loop(\(x,i).(7x + ~6),x,0))
1: (loop(\(x,i).11x,x,1) + loop(\(x,i).3x,2x,1))
1: (loop(\(x,i).11x,x,1) + loop(\(x,i).5x,x,1))
1: (loop(\(x,i).11x,x,1) + loop(\(x,i).7x,x,1))
1: (loop(\(x,i).11x,x,1) + loop(\(x,i).10x,x,1))
1: (x + loop(\(x,i).11x,x,1))
1: (1 + loop(\(x,i).11x,x,2))
1: (1 + loop(\(x,i).11x,x,4))
1: (1 + loop(\(x,i).11x,x,5))
1: (1 + loop(\(x,i).11x,x,9))
1: (1 + loop(\(x,i).11x,x,8))
1: (1 + loop(\(x,i).11x,x,x))
1: (1 + loop(\(x,i).(10x + ~2),(x + 1),1))
1: (1 + loop(\(x,i).(x * (~1 + (x * (1 + (2 * (1 + i)))))),x,2))
1: (loop(\(x,i).(2 * (~1 + (2 * (x + (i mod 2))))),x,1) + loop(\(x,i).~x,x,4))
1: (1 + loop(\(x,i).23x,x,1))
1: (x + loop(\(x,i).23x,i,(1 + i)))
1: (2 + loop(\(x,i).59x,2,(x + 1)))
1: (2 + loop(\(x,i).95x,2,(x + 1)))
1: (1 + loop(\(x,i).(2 * (~1 + (54 * loop(\(x,i).x2,1,(9x + 4))))),1,0))
1: (x + loop(\(x,i).(2 * (4x - (x div ~2))),i,1))
1: (x + loop(\(x,i).(4x + ~2),(x div 2),2))
1: (loop(\(x,i).(4x + ~2),x,1) + loop(\(x,i).2x,x,1))
1: (2 + loop(\(x,i).(10x + ~5),(x + 1),1))
1: (1 + loop(\(x,i).(2x2 + ~x),2,x))
1: (loop(\(x,i).(2 * (2x - (3 * (i mod 2)))),x,2) + loop(\(x,i).2x,x,1))
1: (loop(\(x,i).(2 * (2x - (x div (1 + i)))),(x + ~1),2) + loop(\(x,i).2x,(2x + ~1),1))
1: (loop(\(x,i).(2 * (2x - (x div (1 + i)))),(x + ~1),2) + loop(\(x,i).2x,x,1))
1: (2x + loop(\(x,i).(2 * (2x - (x div (1 + i)))),(~1 + i),2))
1: (2 + loop(\(x,i).(2 * (2x - (x div (1 + i)))),x,2))
1: (loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),(x div 2),1) + loop(\(x,i).2x,(x + ~1),1))
1: (loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),(x div 2),(1 + (x mod 2))) + loop(\(x,i).2x,x,1))
1: (loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,1) + (2 * (x mod 2)))
1: (loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,1) + loop(\(x,i).(3x + 2),x,0))
1: (loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,1) + loop(\(x,i).4x,(x + ~1),x))
1: (x + loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,1))
1: (1 + loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,(x + ~1)))
1: (1 + loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,x))
1: (loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,x) + loop(\(x,i).4x,x,x))
1: (16x + loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),i,1))
1: (x + loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),i,1))
1: (x + loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),i,2))
1: (x + loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),i,x))
1: (1 + loop(\(x,i).(8 * (2x - (x div (if i <= 0 then 1 else i)))),x,1))
1: (2 + loop(\(x,i).(2 * (2x - (x mod 2))),x,3))
1: (1 + loop(\(x,i).(2 * (2x - (x mod 8))),3,x))
1: (1 + loop(\(x,i).(x3 + ~3x),x,3))
1: (1 + loop(\(x,i).(x * (~1 + (2 * i))),x,1))
1: (1 + loop(\(x,i).(x * (~1 + (2 * i))),x,(x + 2)))
1: (loop(\(x,i).(x * (~1 + (2 * i))),i,1) + (x * (~1 + (2 * i))))
1: (loop(\(x,i).(x * (~1 + (2 * i))),i,1) + (4x * i))
1: (x + loop(\(x,i).(x * (~1 + (2 * i))),i,1))
1: (x + loop(\(x,i).((~1 + (x * i)) * (1 + i)),x,2))
1: (x + loop(\(x,i).(3 * ((x * i) - (x div 2))),(x + ~1),1))
1: (1 + loop(\(x,i).(2 * (~2x + (x div (if i <= 0 then 1 else i)))),x,1))
1: (4x + loop(\(x,i).(2 * (~2x + (x div (if i <= 0 then 1 else i)))),i,1))
1: (6x + loop(\(x,i).(2 * (~2x + (x mod 2))),i,1))
1: (2 + loop(\(x,i).(x * (~1 + loop(\(x,i).(x2 + 2x),2,2))),2,(x + 1)))
1: (1 + loop(\(x,i).(2x + ~2),x,4x))
1: (1 + loop(\(x,i).(2x + ~2),x,2x))
1: (2 + loop(\(x,i).(3x + ~3),2x,2))
1: (loop(\(x,i).(3x + ~3),x,1) + loop(\(x,i).(4x + 1),x,0))
1: (2 + loop(\(x,i).(3x + ~3),x,2))
1: (loop(\(x,i).(3x + ~3),x,2) + loop(\(x,i).2x,x,1))
1: (loop(\(x,i).(3x + ~3),x,2) + loop(\(x,i).2x,x,2))
1: (x + loop(\(x,i).(3x + ~3),i,0))
1: (x + loop(\(x,i).(x2 + ~x),1,(2 - ((~x + 2) div (2 + (x div 2))))))
1: (1 + loop(\(x,i).(x2 + ~x),1,(2 * (x + (3 * (x div 2))))))
1: (x + loop(\(x,i).(x2 + ~x),1,(~9x + 3)))
1: (1 + loop(\(x,i).(x2 + ~x),1,loop(\(x,i).3x,(1 + i),1)))
1: (1 + loop(\(x,i).(x2 + ~x),1,loop(\(x,i).3x,x,1)))
1: (1 + loop(\(x,i).(x2 + ~x),1,loop(\(x,i).10x,(2x + 2),1)))
1: (1 + loop(\(x,i).(x2 + ~x),1,loop(\(x,i).10x,x,1)))
1: (1 + loop(\(x,i).(x2 + ~x),1,loop(\(x,i).4x,x,1)))
1: (1 + loop(\(x,i).(x2 + ~x),1,loop(\(x,i).x3,x,2)))
1: (1 + loop(\(x,i).(x2 + ~x),1,loop(\(x,i).x3,x,3)))
1: (1 + loop(\(x,i).(x2 + ~x),1,loop(\(x,i).(x * i),x,1)))
1: (2 + loop(\(x,i).(x2 + ~x),2,5x))
1: (1 + loop(\(x,i).(x2 + ~x),x,loop(\(x,i).x3,2,2x)))
1: (2 + loop(\(x,i).(2x + ~4),compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),2))
1: (x + loop(\(x,i).(3x + ~6),(x + ~1),x))
1: (x + loop(\(x,i).(3x + ~6),(x + ~2),x))
1: (1 + loop(\(x,i).(x2 + ~5x),x,7))
1: (1 + loop(\(x,i).(x2 + ~7x),x,9))
1: (2 + loop(\(x,i).(26x + ~2),x,1))
1: (1 + loop(\(x,i).((x + 2) * ((x + ~1) + (2 * (i mod 2)))),x,1))
1: (x + loop(\(x,i).(((x + 1) - (2 * (x mod 2))) * (1 + i)),i,1))
1: (1 + loop(\(x,i).(2 * ((x + 2) - (x * (i mod 2)))),x,1))
1: (1 + loop(\(x,i).(2 * ((5x + 2) - (i mod 2))),x,0))
1: (1 + loop(\(x,i).(x * ((x + 1) - i)),2,x3))
1: (1 + loop(\(x,i).(x * ((x + 1) - i)),2,x2))
1: (1 + loop(\(x,i).(2 * ((x + 2) - i)),x,1))
1: (x + loop(\(x,i).(2 * (2x - i)),x,1))
1: (1 + loop(\(x,i).(x2 + ~6x),x,8))
1: (1 + loop(\(x,i).(x2 + ~8x),x,10))
1: (2 + loop(\(x,i).(10x + ~8),x,1))
1: (x + loop(\(x,i).(10x + ~8),x,2))
1: (1 + loop(\(x,i).(5x2 + ~8x),2,x))
1: (1 + loop(\(x,i).(2 * (x - (2 * (~1 + (x mod 3))))),x,1))
1: (1 + loop(\(x,i).(2 * (x - (2 * (~1 + (x mod 3))))),x,2))
1: (x + loop(\(x,i).(13x2 + ~12x),1,i))
1: (x + loop(\(x,i).(6x3 + ~5x2),1,i))
1: (x + loop(\(x,i).(~2x3 + x2),2,2))
1: (1 + loop(\(x,i).(2 * (x - ((1 - loop(\(x,i).(x2 + ~1),x,2)) div (x + 1)))),x,1))
1: (1 + loop(\(x,i).(2 * (x - (~12x div (x + 2)))),x,1))
1: ((x2 + x) + loop(\(x,i).(2 * (x - (x div ~4))),x,1))
1: (x + loop(\(x,i).(3 * (x - (i div ~2))),x,0))
1: (2x + loop(\(x,i).(2 * (x - (i mod 2))),i,1))
1: (1 + loop(\(x,i).(x * (x - (i mod 2))),2x,3))
1: (1 + loop(\(x,i).(2 * (x - i)),(x div 2),x))
1: (1 + loop(\(x,i).(2 * (x - i)),(x div 3),x))
1: (1 + loop(\(x,i).((x + 1) * (x - i)),2,2x))
1: (x + loop(\(x,i).(x * (x - i)),2,(1 + (2 * i))))
1: (1 + loop(\(x,i).(x * (x - i)),2,(x + 2)))
1: (x + loop(\(x,i).(x * (x - i)),2,11))
1: (1 + loop(\(x,i).(x * (x - i)),2,(4x + 3)))
1: ((x2 + 2x) + loop(\(x,i).(x * (x - i)),2,(x + ~1)))
1: (2x + loop(\(x,i).(x * (x - i)),2,(x + ~1)))
1: (x + loop(\(x,i).(x * (x - i)),2,(x + ~1)))
1: (1 + loop(\(x,i).(x * (x - i)),2,(x + ~2)))
1: (1 + loop(\(x,i).(x * (x - i)),2,6))
1: (1 + loop(\(x,i).(x * (x - i)),2,8))
1: (1 + loop(\(x,i).(x * (x - i)),(x + ~1),(x + 1)))
1: (1 + loop(\(x,i).(((~x + 1) + i) * i),x,0))
1: (x + loop(\(x,i).(x * (i - (x div (if i <= 0 then 1 else i)))),2,i))
1: (x + loop(\(x,i).15x,i,(1 + i)))
1: (2 + loop(\(x,i).(8x + 24),2,(x mod 2)))
1: (1 + (loop(\(x,i).10x,2,x) + i))
1: (1 + loop(\(x,i).10x,(1 + (x div 3)),x))
1: (loop(\(x,i).10x,(x + 1),1) + loop(\(x,i).3x,x,1))
1: (1 + loop(\(x,i).10x,(x + 2),1))
1: (1 + loop(\(x,i).10x,(11x + 2),1))
1: (1 + loop(\(x,i).10x,15,x))
1: (1 + loop(\(x,i).10x,(x + ~1),x))
1: (1 + loop(\(x,i).10x,6,x))
1: (1 + loop(\(x,i).10x,3x,1))
1: (1 + loop(\(x,i).10x,10,x))
1: (x + loop(\(x,i).10x,((1 + i) * i),x))
1: (loop(\(x,i).10x,(x div 2),1) + loop(\(x,i).10x,(x + 1),1))
1: (2 + loop(\(x,i).10x,x,1))
1: (8 + loop(\(x,i).10x,x,1))
1: (10x + loop(\(x,i).10x,x,1))
1: (loop(\(x,i).10x,x,1) + (2 * (x mod 2)))
1: (loop(\(x,i).10x,x,1) + (x * loop(\(x,i).x3,2,x)))
1: (2x + loop(\(x,i).10x,x,1))
1: (loop(\(x,i).10x,x,1) + loop(\(x,i).(3x + 2),2x,0))
1: (loop(\(x,i).10x,x,1) + loop(\(x,i).(3x + 2),x,0))
1: (loop(\(x,i).10x,x,1) + loop(\(x,i).3x,2x,1))
1: (loop(\(x,i).10x,x,1) + loop(\(x,i).3x,x,1))
1: (loop(\(x,i).10x,x,2) + loop(\(x,i).4x,x,1))
1: (x + loop(\(x,i).10x,x,2))
1: (1 + loop(\(x,i).10x,x,3))
1: (1 + loop(\(x,i).10x,x,4))
1: (1 + loop(\(x,i).10x,x,5))
1: (1 + loop(\(x,i).10x,x,8))
1: (12x + loop(\(x,i).10x,i,1))
1: (loop(\(x,i).10x,i,1) + (if (~2 + i) <= 0 then 1 else x))
1: (1 + loop(\(x,i).10x,i,x))
1: (x + loop(\(x,i).10x,i,i))
1: (1 + loop(\(x,i).5x2,2,2x))
1: (1 + loop(\(x,i).(2x2 + 8x),1,((1 + (x mod 8)) mod (x + 1))))
1: (loop(\(x,i).14x,x,1) + loop(\(x,i).3x,x,1))
1: (x + loop(\(x,i).14x,i,(1 + i)))
1: (x + loop(\(x,i).21x,i,(1 + i)))
1: (1 + loop(\(x,i).26x,x,9))
1: (1 + loop(\(x,i).34x,2,(2x + 1)))
1: (1 + loop(\(x,i).(6x + 120),x,1))
1: (1 + loop(\(x,i).(8x2 + 18x),2,x))
1: (1 + loop(\(x,i).(x10 + x9 + x8 + x7 + x6 + x5 + x4 + x3 + x2 + x),1,loop(\(x,i).2x,x,1)))
1: (1 + loop(\(x,i).(x7 + x5 + x3 + x),1,(x + 1)))
1: (1 + loop(\(x,i).(x6 + x5 + x4 + x3 + x2 + x),1,loop(\(x,i).2x,x,1)))
1: (1 + loop(\(x,i).(x * ((1 + (4 * i)) * i)),x,1))
1: (1 + loop(\(x,i).(x4 + x3 + x2 + x),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (1 + loop(\(x,i).(x4 + x3 + x2 + x),1,x5))
1: (1 + loop(\(x,i).(x4 + x3 + x2 + x),1,loop(\(x,i).(x * i),x,1)))
1: (1 + loop(\(x,i).(x4 + ~x3 + x2 + ~x),1,loop(\(x,i).2x,x,1)))
1: (1 + loop(\(x,i).(x4 + ~x3 + x2 + ~x),1,loop(\(x,i).(x * i),x,1)))
1: (1 + loop(\(x,i).(2x * (1 + (2 * i))),x2,2))
1: (1 + loop(\(x,i).(2x * (1 + (2 * i))),x,1))
1: (loop(\(x,i).(2x * (1 + (2 * i))),x,1) + loop(\(x,i).(x * i),x,(x + 1)))
1: (x + loop(\(x,i).(2x * (1 + (2 * i))),i,2))
1: (x + loop(\(x,i).(4 * ((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1))),1,i))
1: (1 + loop(\(x,i).(4 * (2x + (x div (if i <= 0 then 1 else i)))),x,1))
1: (1 + loop(\(x,i).((2x + 2) * (1 + (x mod 2))),(x div 2),(1 + (2 * (x mod 2)))))
1: ((x + 1) + loop(\(x,i).(10x + 10),2,x))
1: (x + loop(\(x,i).(10x + 10),2,x))
1: (1 + loop(\(x,i).(10x + 10),(x + 1),x))
1: (loop(\(x,i).(10x + 10),(x div 2),0) + (x mod 2))
1: (1 + loop(\(x,i).(4x + 8),x,4))
1: (x + loop(\(x,i).(10x + 20),x,0))
1: (1 + loop(\(x,i).(2x2 + 4x),(x + (x div 3)),1))
1: (loop(\(x,i).(2x2 + 4x),x,2) + (x mod 2))
1: (1 + loop(\(x,i).(x3 + 5x2 + 6x),1,loop(\(x,i).4x,x,1)))
1: (1 + loop(\(x,i).(x3 + 4x2 + 4x),1,(x2 + 2x)))
1: (1 + loop(\(x,i).(x * ((1 + i) * (1 + (i mod 2)))),x,1))
1: (1 + loop(\(x,i).(2x * (2 + i)),4x,1))
1: (1 + loop(\(x,i).((2x + ~1) * ((2 + i) * i)),x,1))
1: (loop(\(x,i).~10x,x,1) + (if x <= 0 then 0 else 1))
1: (1 + loop(\(x,i).(~6x + 12),x,1))
1: (1 + loop(\(x,i).((x2 + x) * (2 - i)),x,2))
1: (x + loop(\(x,i).22x,i,(1 + i)))
1: (1 + loop(\(x,i).(6x2 + 12x + ~6),2,x))
1: (2 + loop(\(x,i).93x,2,(x + 1)))
1: (1 + loop(\(x,i).(6 * (4x - (x mod 2))),x,1))
1: (1 + loop(\(x,i).(6 * (2x - (x div (if i <= 0 then 1 else i)))),x,1))
1: (1 + loop(\(x,i).(4 * ((2x - (x div (if i <= 0 then 1 else i))) * (~1 + (2 * i)))),x,1))
1: (1 + loop(\(x,i).(6x2 + ~12),2,(x + 1)))
1: (2 + loop(\(x,i).(2x * (~1 + (2 * i))),x,x))
1: (loop(\(x,i).(2x * (~1 + (2 * i))),i,1) + (2x * i))
1: (x + loop(\(x,i).(2x * (~1 + (2 * i))),i,1))
1: (1 + loop(\(x,i).(5x2 + ~10x),2,x))
1: (1 + loop(\(x,i).(4 * ((x - i) * i)),x,2))
1: (2 + loop(\(x,i).(x * ((x - i) * (x + i))),x,2))
1: (4x + loop(\(x,i).27x,(~1 + i),1))
1: (2x + loop(\(x,i).27x,(~1 + i),1))
1: (1 + loop(\(x,i).(20x2 + 30x),2,x))
1: (1 + loop(\(x,i).(3x3 + 6x2 + 3x),1,(x2 + x)))
1: (x + loop(\(x,i).24x,i,(1 + i)))
1: (1 + loop(\(x,i).(x5 + 5x4 + 6x3),x,1))
1: (1 + loop(\(x,i).9x5,2x,2))
1: (x + loop(\(x,i).(x * (i * i * i * i * i * i)),i,1))
1: (1 + loop(\(x,i).8x,2,loop(\(x,i).(3x + 4),x,0)))
1: (1 + loop(\(x,i).8x,(1 + (x div 2)),(1 + (2 * (x mod 2)))))
1: (x + loop(\(x,i).8x,(x + 1),1))
1: (1 + loop(\(x,i).8x,2x,1))
1: (1 + loop(\(x,i).8x,(x div 2),(1 + (2 * (x mod 2)))))
1: (1 + loop(\(x,i).8x,(if (x + ~6) <= 0 then 1 else 2),1))
1: (6 + loop(\(x,i).8x,x,1))
1: (8x + loop(\(x,i).8x,x,1))
1: (x5 + loop(\(x,i).8x,x,1))
1: (loop(\(x,i).8x,x,1) + loop(\(x,i).(3x + 2),x,0))
1: (loop(\(x,i).8x,x,1) + loop(\(x,i).x2,2,x2))
1: (x + loop(\(x,i).8x,x,1))
1: (loop(\(x,i).8x,x,2) + (if x <= 0 then 1 else 2))
1: (1 + loop(\(x,i).8x,x,3))
1: (1 + loop(\(x,i).8x,x,5))
1: (1 + loop(\(x,i).8x,x,7))
1: (1 + loop(\(x,i).8x,x,9))
1: (16 + loop(\(x,i).8x,x,19))
1: (1 + loop(\(x,i).8x,x,11))
1: (1 + loop(\(x,i).8x,x,x))
1: (x + loop(\(x,i).8x,i,1))
1: (x + loop(\(x,i).8x,i,(1 + i)))
1: (2 + loop(\(x,i).12x,2,(x + 1)))
1: ((10x + 10) + loop(\(x,i).12x,(x + 1),1))
1: (1 + loop(\(x,i).12x,x2,1))
1: (1 + loop(\(x,i).12x,x,1))
1: (loop(\(x,i).12x,x,1) + loop(\(x,i).8x,x,1))
1: (1 + loop(\(x,i).12x,x,x))
1: (x + loop(\(x,i).12x,i,(1 + i)))
1: (1 + loop(\(x,i).20x,2,(x + 1)))
1: (2 + loop(\(x,i).20x,2,(x + 1)))
1: (loop(\(x,i).20x,x,1) + loop(\(x,i).8x,x,2))
1: (x + loop(\(x,i).20x,i,(1 + i)))
1: (1 + loop(\(x,i).(4x2 + 4x),2,3))
1: (loop(\(x,i).(4x * (~1 + (2 * i))),i,1) + (2x * i))
1: (loop(\(x,i).18x,x,3) + loop(\(x,i).4x,x,1))
1: (x + loop(\(x,i).18x,i,(1 + i)))
1: (2 + loop(\(x,i).10x2,2,x))
1: (1 + loop(\(x,i).10x2,x,2))
1: (x + loop(\(x,i).10x2,i,1))
1: (1 + loop(\(x,i).12x2,2,x))
1: (1 + loop(\(x,i).(x4 + 3x3 + 2x2),1,(x2 + 2)))
1: (x + loop(\(x,i).10x3,i,1))
1: (1 + loop(\(x,i).3x3,(x + ~1),2))
1: (2 + loop(\(x,i).2x4,x,(x + ~1)))
1: (x + loop(\(x,i).x5,1,(1 + (2 * i))))
1: (x + loop(\(x,i).(x * (i * i * i * i)),(1 + i),1))
1: (1 + loop(\(x,i).(x * (i * i * i * i)),x,1))
1: (x + loop(\(x,i).(x * (i * i * i * i)),i,1))
1: (x + loop(\(x,i).(3 * ((2x div (1 + i)) * (~1 + (2 * i)))),i,1))
1: (1 + loop(\(x,i).(10 * (if x <= 0 then 1 else x)),2x,0))
1: (1 + loop(\(x,i).(10 * (if x <= 0 then 1 else x)),x,0))
1: (1 + loop(\(x,i).(8 * (if x <= 0 then 1 else x)),x,0))
1: (1 + loop(\(x,i).((2x + 4) * (if x <= 0 then 1 else x)),x,0))
1: (loop(\(x,i).4x,(x + 1),2) + loop(\(x,i).3x,x,3))
1: (2 + loop(\(x,i).4x,(x + 1),3))
1: (2 + loop(\(x,i).4x,(x + 1),9))
1: (x + loop(\(x,i).4x,(~1 + (2 * i)),x))
1: (1 + loop(\(x,i).4x,(x + ~1),(10x + 1)))
1: (x + loop(\(x,i).4x,(x + ~1),x))
1: (4x + loop(\(x,i).4x,(~1 + i),i))
1: (1 + loop(\(x,i).4x,(2x + 4),1))
1: (1 + loop(\(x,i).4x,22,x))
1: (1 + loop(\(x,i).4x,2x,1))
1: (1 + loop(\(x,i).4x,2x,4))
1: (loop(\(x,i).4x,x2,1) + loop(\(x,i).(x * i),x,1))
1: (x + loop(\(x,i).4x,(2 * i),(1 + i)))
1: (x + loop(\(x,i).4x,(((x + 1) div 2) div 3),1))
1: (loop(\(x,i).4x,(x div 2),3) + loop(\(x,i).3x,x,2))
1: (1 + loop(\(x,i).4x,(x div 2),(2 - (x mod 2))))
1: (loop(\(x,i).4x,(x div 2),(2 - (x mod 2))) + (2 * (x mod 2)))
1: (loop(\(x,i).4x,(x div 2),(2 - (x mod 2))) + (x mod 2))
1: (loop(\(x,i).4x,(x div 2),(2 - (x mod 2))) + (x mod 3))
1: (x + loop(\(x,i).4x,(x mod 4),1))
1: (x4 + loop(\(x,i).4x,x,1))
1: (loop(\(x,i).4x,x,1) + (2 * (x mod 2)))
1: (loop(\(x,i).4x,x,1) + (x mod 2))
1: (loop(\(x,i).4x,x,1) + (x mod 3))
1: (x + loop(\(x,i).4x,x,1))
1: (x2 + loop(\(x,i).4x,x,2))
1: (x + loop(\(x,i).4x,x,2))
1: (loop(\(x,i).4x,x,3) + loop(\(x,i).3x,x,2))
1: ((x + 1) + loop(\(x,i).4x,x,4))
1: ((3x + 3) + loop(\(x,i).4x,x,4))
1: (loop(\(x,i).4x,x,4) + loop(\(x,i).3x,(x + 2),1))
1: (x + loop(\(x,i).4x,x,4))
1: (1 + loop(\(x,i).4x,x,5))
1: (1 + loop(\(x,i).4x,x,9))
1: (2 + loop(\(x,i).4x,x,(2 - (x mod 2))))
1: (8 + loop(\(x,i).4x,x,(2 - (x mod 2))))
1: (1 + loop(\(x,i).4x,x,x))
1: (loop(\(x,i).4x,i,1) + (x * (~1 + i)))
1: (4x + loop(\(x,i).4x,i,1))
1: (loop(\(x,i).4x,i,1) + (x * i))
1: (loop(\(x,i).6x,(x + 1),1) + loop(\(x,i).(2x + 2),x,2))
1: (x + loop(\(x,i).6x,(x + 1),1))
1: (loop(\(x,i).6x,(x + ~1),1) + loop(\(x,i).3x,x,1))
1: (4x + loop(\(x,i).6x,(~2 + i),1))
1: (loop(\(x,i).6x,((x + 1) div 2),1) + loop(\(x,i).6x,x,1))
1: (1 + loop(\(x,i).6x,x,1))
1: (2 + loop(\(x,i).6x,x,1))
1: (6 + loop(\(x,i).6x,x,1))
1: (6x + loop(\(x,i).6x,x,1))
1: (loop(\(x,i).6x,x,1) + (2 * (x mod 2)))
1: (x + loop(\(x,i).6x,x,1))
1: (loop(\(x,i).6x,x,2) + loop(\(x,i).8x,x,1))
1: (1 + loop(\(x,i).6x,x,3))
1: (1 + loop(\(x,i).6x,x,4))
1: (1 + loop(\(x,i).6x,x,5))
1: (1 + loop(\(x,i).6x,x,7))
1: (1 + loop(\(x,i).6x,x,9))
1: (1 + loop(\(x,i).6x,x,11))
1: (1 + loop(\(x,i).6x,x,8))
1: (1 + loop(\(x,i).6x,x,x))
1: (loop(\(x,i).6x,i,1) + (x * i))
1: (1 + loop(\(x,i).(2x2 + 2x),1,(4x + ~4)))
1: (1 + loop(\(x,i).(2x2 + 2x),2,x))
1: (2 + loop(\(x,i).(2x2 + 2x),(x2 + 1),2))
1: (1 + loop(\(x,i).(2x2 + 2x),(x + (x div 3)),1))
1: (1 + loop(\(x,i).(2x2 + 2x),(1 + i),3))
1: (1 + loop(\(x,i).(2x2 + 2x),2x2,2))
1: (1 + loop(\(x,i).(2x2 + 2x),x,1))
1: (1 + loop(\(x,i).(2x2 + 2x),x,4))
1: (1 + loop(\(x,i).(2x2 + 2x),i,2))
1: (1 + loop(\(x,i).(2x2 + 2x),i,5))
1: (x + loop(\(x,i).~4x,(~1 + i),1))
1: (1 + loop(\(x,i).~4x,x,1))
1: (loop(\(x,i).~4x,x,1) + loop(\(x,i).6x,x,1))
1: (1 + loop(\(x,i).(2x2 + ~2x),1,loop(\(x,i).(x * (~2 + (i mod 2))),x,1)))
1: (1 + loop(\(x,i).2x2,1,(5x + 5)))
1: (x + loop(\(x,i).2x2,(x + ~3),1))
1: (x + loop(\(x,i).2x2,(~1 + i),1))
1: (1 + loop(\(x,i).2x2,x,1))
1: (2 + loop(\(x,i).2x2,x,3))
1: (1 + loop(\(x,i).3x2,(x + ~1),(x + 1)))
1: (loop(\(x,i).3x2,x,1) + loop(\(x,i).2x,x,1))
1: (x2 + loop(\(x,i).4x2,(~1 + i),1))
1: (1 + loop(\(x,i).4x2,(x * ((x + 1) div 2)),1))
1: (1 + loop(\(x,i).(x3 + x2),1,(x2 + 2x + 1)))
1: (1 + loop(\(x,i).(x3 + x2),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (1 + loop(\(x,i).(x3 + x2),1,loop(\(x,i).2x,x,1)))
1: (loop(\(x,i).(x3 + x2),1,loop(\(x,i).2x,x,1)) + loop(\(x,i).3x,2x,1))
1: (loop(\(x,i).(x3 + x2),1,loop(\(x,i).2x,x,1)) + loop(\(x,i).3x,x,1))
1: (loop(\(x,i).(x3 + x2),1,loop(\(x,i).2x,x,1)) + loop(\(x,i).5x,x,1))
1: (loop(\(x,i).(x3 + x2),1,loop(\(x,i).2x,x,1)) + loop(\(x,i).7x,x,1))
1: (loop(\(x,i).(x3 + x2),1,loop(\(x,i).2x,x,1)) + loop(\(x,i).6x,x,1))
1: (2 + loop(\(x,i).(x2 * (1 + i)),2,(x2 + 1)))
1: (1 + loop(\(x,i).(x3 + ~2x2),1,loop(\(x,i).3x,x,3)))
1: (x + loop(\(x,i).x3,1,(x + 4)))
1: (x + loop(\(x,i).x3,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i))))
1: (1 + loop(\(x,i).x3,1,(~1 + loop(\(x,i).(x2 + ~x),1,loop(\(x,i).2x,x,1)))))
1: (x + loop(\(x,i).x3,1,(((2 + i) * (1 + i)) div 2)))
1: (x + loop(\(x,i).x3,1,loop(\(x,i).(x3 + ~x + 1),2,2)))
1: (x + loop(\(x,i).x3,1,loop(\(x,i).(2 * (2x - (x div (1 + i)))),(~1 + i),2)))
1: (4x + loop(\(x,i).x3,1,loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),i,1)))
1: (2x + loop(\(x,i).x3,1,loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),i,1)))
1: (x + loop(\(x,i).x3,1,loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),i,1)))
1: (1 + loop(\(x,i).x3,2,4))
1: (loop(\(x,i).x3,2,(x2 + 2x + 1)) + loop(\(x,i).x3,2,x2))
1: (1 + loop(\(x,i).x3,2,(x + 1)))
1: (loop(\(x,i).x3,2,(x + 1)) + loop(\(x,i).x3,2,x))
1: (x2 + loop(\(x,i).x3,2,(if (x + ~2) <= 0 then 1 else 2)))
1: (2 + loop(\(x,i).x3,(x + 2),16))
1: (1 + loop(\(x,i).x3,4x,2))
1: (2 + loop(\(x,i).x3,4x,2))
1: (2 + loop(\(x,i).x3,2x,(11x + 16)))
1: (2 + loop(\(x,i).x3,x2,2))
1: (2 + loop(\(x,i).x3,x2,3))
1: (15 + loop(\(x,i).x3,x2,x))
1: (1 + loop(\(x,i).x3,x,2))
1: (1 + loop(\(x,i).x3,x,3))
1: (1 + loop(\(x,i).x3,x,5))
1: (x + loop(\(x,i).x3,i,2))
1: (x + loop(\(x,i).(4 * i),(x mod 3),1))
1: (1 + loop(\(x,i).(2x * i),4,1))
1: (1 + loop(\(x,i).(2x * i),4,x))
1: (loop(\(x,i).(2x * i),(~1 + i),1) + (x * i))
1: (x + loop(\(x,i).(2x * i),(~1 + i),1))
1: (loop(\(x,i).(2x * i),x,1) + (if (x + ~2) <= 0 then x2 else 0))
1: (loop(\(x,i).(2x * i),x,1) + (if (x + ~2) <= 0 then x else 1))
1: (loop(\(x,i).(2x * i),i,1) + (x * (1 + (2 * i))))
1: (loop(\(x,i).(2x * i),i,1) + (x * (1 + i)))
1: (1 + loop(\(x,i).(3x * i),x,1))
1: (x + loop(\(x,i).(3x * i),i,1))
1: (1 + loop(\(x,i).(4x * i),5,x))
1: (loop(\(x,i).(x * (i * (1 + i))),(~1 + i),1) + (x * (i * i)))
1: (x + loop(\(x,i).(x * (i * (1 + i))),i,1))
1: ((x2 + x) + loop(\(x,i).(x2 * i),2,3))
1: (1 + loop(\(x,i).(x2 * i),(x2 + ~x),x))
1: (1 + loop(\(x,i).(x2 * i),x2,1))
1: (x + loop(\(x,i).((x + 1) * (i * i)),(x + ~1),1))
1: (1 + loop(\(x,i).(2x * (i * i)),3,(x + 1)))
1: (1 + loop(\(x,i).(x2 * (i * i)),2,(x + 1)))
1: (x + loop(\(x,i).(x * (i * i * i)),(1 + i),1))
1: (1 + loop(\(x,i).(x * (i * i * i)),x,1))
1: (x + loop(\(x,i).(x * (i * i * i)),i,1))
1: (2 + loop(\(x,i).(x * (i * i)),4,(x + 1)))
1: (loop(\(x,i).(x * (i * i)),(x + 1),1) + (2 * (x mod 2)))
1: (x + loop(\(x,i).(x * (i * i)),(1 + i),1))
1: (x + loop(\(x,i).(x * (i * i)),(~1 + i),1))
1: (1 + loop(\(x,i).(x * (i * i)),((x + 1) div 2),1))
1: (x + loop(\(x,i).(x * (i * i)),i,1))
1: (x + loop(\(x,i).(x * (i * i)),i,x))
1: (1 + loop(\(x,i).(x * ((x2 + x + 1) div 3)),1,loop(\(x,i).10x,(x + 1),1)))
1: (1 + loop(\(x,i).(x * ((x + 1) div 2)),i,x))
1: (loop(\(x,i).(x * ((1 + i) div 2)),x,1) + ((x mod (1 + (x div 2))) mod 2))
1: (x + loop(\(x,i).(((x + i) div 2) * (2 + i)),(x + ~2),1))
1: (x + loop(\(x,i).(((x + ~1) div 2) * i),x,1))
1: (1 + loop(\(x,i).((2x + 1) * ((x2 + x) div 2)),2,2))
1: (1 + loop(\(x,i).((x + 1) * ((x2 + 3x + 2) div 2)),1,(x2 + 2x + 1)))
1: (x + loop(\(x,i).(5 * ((2x * (~1 + (2 * i))) div (1 + i))),i,1))
1: (x + loop(\(x,i).(7 * ((2x * (~1 + (2 * i))) div (1 + i))),i,1))
1: (x + loop(\(x,i).(9 * ((2x * (~1 + (2 * i))) div (1 + i))),i,1))
1: (x + loop(\(x,i).(2 * ((8x * (~1 + (2 * i))) div (1 + i))),i,1))
1: (x + loop(\(x,i).(3 * ((4x * (~1 + (2 * i))) div (1 + i))),i,1))
1: (x + loop(\(x,i).(5 * ((4x * (~1 + (2 * i))) div (1 + i))),i,1))
1: (1 + loop(\(x,i).((4x div (1 + i)) * (1 + (2 * i))),x,1))
1: (x + loop(\(x,i).((4x div (1 + i)) * (1 + (2 * i))),i,1))
1: (x + loop(\(x,i).((((4x div (1 + i)) * (~1 + (2 * i))) div (1 + i)) * (1 + (2 * i))),i,(1 + i)))
1: (x + loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(1 + (2 * i)),1))
1: (x + loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(1 + i),1))
1: (1 + loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(x + ~1),1))
1: (loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(x + ~1),1) + loop(\(x,i).4x,(x + ~1),1))
1: (1 + loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(x + ~1),x))
1: (loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(~1 + i),1) + (x * i))
1: (4x + loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(~2 + i),1))
1: (loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(x div 2),1) + loop(\(x,i).(2x + 1),x,0))
1: (loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(x div 2),(1 + (2 * (x mod 2)))) + loop(\(x,i).(2x + 1),x,0))
1: (loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),x,1) + loop(\(x,i).3x,x,1))
1: (loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),x,1) + loop(\(x,i).(2x + 2),x,1))
1: (loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),x,1) + loop(\(x,i).(x2 + ~x),1,loop(\(x,i).2x,x,1)))
1: (loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),x,1) + loop(\(x,i).4x,x,4))
1: (x + loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),x,1))
1: (2x + loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),i,1))
1: (x + loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),i,1))
1: (1 + loop(\(x,i).((2x div (if i <= 0 then 1 else i)) * (4 + i)),x,1))
1: (1 + loop(\(x,i).(x * (x div 2)),1,(1 + loop(\(x,i).x2,x,2))))
1: (1 + loop(\(x,i).(x * (x div 2)),1,((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3)))
1: (loop(\(x,i).(2 * (x div (~2 + (i mod 2)))),x,1) + loop(\(x,i).2x,x,1))
1: (x + loop(\(x,i).((i div 2) * i),(x div 2),1))
1: (1 + loop(\(x,i).(2 * ((~x + 2) mod 7)),x,0))
1: (1 + loop(\(x,i).(2 * ((~x + 2) mod 14)),x,0))
1: (1 + loop(\(x,i).(x * ((x div 2) mod 2)),2,compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: (2 + loop(\(x,i).((if (x + ~2) <= 0 then 2 else (x + ~2)) * i),x,0))
1: (1 + loop(\(x,i).(x * (if (~1 + i) <= 0 then 2 else (x2 div 2))),x,1))
1: (1 + loop(\(x,i).((if (~2 + i) <= 0 then 1 else x) * (1 + (if x <= 0 then 1 else x))),x,0))
1: (1 + loop(\(x,i).((x + 1) * (if (~2 + i) <= 0 then 2 else x)),x,1))
1: (1 + loop(\(x,i).(x * (if (~2 + i) <= 0 then 2 else x)),(2x + ~1),2))
1: (1 + loop(\(x,i).((2x + 1) * (if ((x div 3) mod 2) <= 0 then 1 else 2x)),x,0))
1: (1 + loop(\(x,i).((x + 1) * (if ((if x <= 0 then 1 else x) mod 2) <= 0 then (x + ~1) else 1)),x,0))
1: (x + loop(\(x,i).(x * (if (x mod 2) <= 0 then 1 else x)),2,(1 + i)))
1: (1 + loop(\(x,i).((x + 1) * (if (x mod 3) <= 0 then (2 * (x div 2)) else 1)),x,1))
1: (x + loop(\(x,i).(3 * (if x <= 0 then 0 else (7x + ~3))),1,(x + ~1)))
1: (1 + loop(\(x,i).(2 * (if x <= 0 then 1 else (x2 + 2x))),x,0))
1: (1 + loop(\(x,i).(2 * (if x <= 0 then 1 else x)),x,0))
1: (2 + loop(\(x,i).(2 * (if x <= 0 then 1 else x)),x,0))
1: (1 + loop(\(x,i).(3 * (if x <= 0 then 1 else x)),2x,0))
1: (1 + loop(\(x,i).(3 * (if x <= 0 then 1 else x)),x,0))
1: (1 + loop(\(x,i).(4 * (if x <= 0 then 1 else x)),(x + ~1),0))
1: (1 + loop(\(x,i).((x + 1) * (if x <= 0 then 1 else x)),x,0))
1: (1 + loop(\(x,i).(2 * (if x <= 0 then 2 else ((x + 1) - (i mod 2)))),x,0))
1: (x + loop(\(x,i).(3 * (if x <= 0 then 3 else x)),x,0))
1: (2 + loop(\(x,i).(x * loop(\(x,i).(1 + (x * i)),4,2)),2,(x + 1)))
1: (x + loop(\(x,i).(x * loop(\(x,i).(2x + ~1),(x + ~2),x)),1,i))
1: (1 + loop(\(x,i).(x * loop(\(x,i).(x2 + x),2,x)),(x + ~2),x))
1: (1 + loop(\(x,i).((x + 1) * loop(\(x,i).(x2 + x),(x div 4),1)),x,1))
1: (1 + loop(\(x,i).(x * loop(\(x,i).(x * (x - i)),2,(x + ~2))),1,(x + ~1)))
1: (x + loop(\(x,i).(x * loop(\(x,i).(x * (x - i)),2,(x + ~2))),1,(x + ~1)))
1: (1 + loop(\(x,i).(x * loop(\(x,i).x2,1,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)))),x,1))
1: (x + loop(\(x,i).(x * loop(\(x,i).(x2 div 2),2,(x + 2))),(x + ~1),1))
1: (2 + loop(\(x,i).2x,((((1 + (8 mod (1 + (x div 2)))) div 2) + (if x <= 0 then 0 else 1)) - (x mod 2)),2))
1: (1 + loop(\(x,i).2x,(1 + (x div 2) - (2 * (x mod 2))),2))
1: (1 + loop(\(x,i).2x,(1 + (2 * (2x mod 5))),(x div 2)))
1: (1 + loop(\(x,i).2x,(1 + (i * i)),x))
1: (1 + loop(\(x,i).2x,(1 + (loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2)),x))
1: (1 + loop(\(x,i).2x,(x + (x div 2)),2))
1: (1 + loop(\(x,i).2x,(2 + (x mod 2)),(x div 2)))
1: (1 + loop(\(x,i).2x,((if (x mod 2) <= 0 then 2 else 0) + (x div 2)),2))
1: (2 + loop(\(x,i).2x,(x + 2),2))
1: (loop(\(x,i).2x,(x + 2),2) + (x mod 2))
1: (1 + loop(\(x,i).2x,(x + 2),x))
1: (1 + loop(\(x,i).2x,(2 + i),x))
1: (1 + loop(\(x,i).2x,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),2))
1: (1 + loop(\(x,i).2x,(0 - (x div (2 * loop(\(x,i).(x div (~2 + (x mod 2))),x,(x + 1))))),1))
1: (2 + loop(\(x,i).2x,(0 - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)),1))
1: (x + loop(\(x,i).2x,(1 - ((x div 2) div ~6)),1))
1: (x + loop(\(x,i).2x,(2 - (x mod 2)),(x div 2)))
1: (2 + loop(\(x,i).2x,(~x + 2),(x + 5)))
1: (x + loop(\(x,i).2x,(~3 + (x div 3)),1))
1: (1 + loop(\(x,i).2x,(~1 + (2 * (x - (3 * (if x <= 0 then 0 else 2))))),1))
1: (2x + loop(\(x,i).2x,(~2 + (3 * ((x div 2) div 3))),1))
1: (2 + loop(\(x,i).2x,(2x + ~1),1))
1: ((2x2 + 2x) + loop(\(x,i).2x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1))
1: (1 + loop(\(x,i).2x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),2))
1: (x + loop(\(x,i).2x,(~1 + (((x + ~1) div 2) div 2)),x))
1: (x + loop(\(x,i).2x,(~2 + (x div 3)),x))
1: (x + loop(\(x,i).2x,(~1 + loop(\(x,i).(x * i),(x div 5),1)),1))
1: (2 + loop(\(x,i).2x,(x + ~1),1))
1: (loop(\(x,i).2x,(x + ~1),1) + i)
1: (2 + loop(\(x,i).2x,(x + ~1),2))
1: ((x2 + 2x) + loop(\(x,i).2x,(x + ~1),2))
1: (loop(\(x,i).2x,(x + ~1),2) + loop(\(x,i).(2x + 2),x,1))
1: (2 + loop(\(x,i).2x,(x + ~1),(x + (loop(\(x,i).(x * i),x,2) div (x + 1)))))
1: (x + loop(\(x,i).2x,(x + ~1),((x div 2) - ((x + ~1) div 3))))
1: (1 + loop(\(x,i).2x,(x + ~1),(loop(\(x,i).(3x + ~1),x,2) div 2)))
1: (1 + loop(\(x,i).2x,(x + ~1),(x2 mod 3)))
1: (x + loop(\(x,i).2x,(x + ~1),(x mod 2)) - (x div 3))
1: (1 + loop(\(x,i).2x,(x + ~1),(if (x mod 3) <= 0 then 1 else 2)))
1: (2 + loop(\(x,i).2x,(x + ~1),(if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + (((x * (~1 + loop(\(x,i).(x2 + x),1,loop(\(x,i).(x * i),x,1)))) div 2) div 3)) div 2)) div 2))))))
1: (1 + loop(\(x,i).2x,(x + ~1),x))
1: ((x + 1) + loop(\(x,i).2x,(x + ~1),x))
1: (x + loop(\(x,i).2x,(x + ~1),x))
1: (x + loop(\(x,i).2x,(x + ~2),1))
1: (loop(\(x,i).2x,(x + ~2),x) + ((x + ~1) * (if x <= 0 then 1 else x)))
1: (loop(\(x,i).2x,(x + ~2),x) + (if x <= 0 then 1 else x))
1: (x + loop(\(x,i).2x,(x + ~5),1))
1: (loop(\(x,i).2x,(x + ~8),1) + loop(\(x,i).2x,x,2))
1: (4x + loop(\(x,i).2x,(~1 + i),1))
1: (x + loop(\(x,i).2x,(~1 + i),1))
1: (x + loop(\(x,i).2x,(~1 + i),3x))
1: (loop(\(x,i).2x,(~1 + i),(i mod 2)) + (x * i))
1: (1 + loop(\(x,i).2x,(~1 + i),x))
1: (loop(\(x,i).2x,(~1 + i),x) + (if (~2 + i) <= 0 then 1 else x))
1: (loop(\(x,i).2x,(~1 + i),i) + (x * i))
1: (x + loop(\(x,i).2x,(i - (2x div (1 + i))),1))
1: (x + loop(\(x,i).2x,(i - (x mod 2)),x))
1: (1 + loop(\(x,i).2x,(compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1))
1: (1 + loop(\(x,i).2x,(~1 + compr(\x.(loop(\(x,i).(~2x + 2),x,2) mod (x + 2)),x)),1))
1: (1 + loop(\(x,i).2x,(x2 + 2x),2))
1: (loop(\(x,i).2x,x2,1) + loop(\(x,i).3x,x,1))
1: (1 + loop(\(x,i).2x,x2,(if x <= 0 then 1 else (if (x + ~2) <= 0 then x else loop(\(x,i).x3,x,3)))))
1: (x + loop(\(x,i).2x,(4 div (1 + i)),x))
1: (loop(\(x,i).2x,((1 + (x div 3)) div 2),1) + (if x <= 0 then 0 else 1))
1: (2x + loop(\(x,i).2x,((x + (x div 3)) div 5),1))
1: (x + loop(\(x,i).2x,((1 + (x div (1 + (loop(\(x,i).2x,x,2) mod (2x + 1))))) div 2),1))
1: (1 + loop(\(x,i).2x,((x + 1) div 2),1))
1: (1 + loop(\(x,i).2x,((x + 1) div 2),(2 + (x mod 2))))
1: (2x + loop(\(x,i).2x,((1 + i) div 2),1))
1: (2x + loop(\(x,i).2x,((x + ~1) div 2),1))
1: (loop(\(x,i).2x,((x + ~1) div 2),2) + loop(\(x,i).2x,x,1))
1: (1 + loop(\(x,i).2x,((x + ~1) div 2),x))
1: (2 + loop(\(x,i).2x,((x + ~1) div 2),x))
1: (x + loop(\(x,i).2x,((x + ~2) div 3),1))
1: (x + loop(\(x,i).2x,((x + ~2) div 5),1))
1: (x + loop(\(x,i).2x,((x - (x div 3)) div 3),1))
1: (x + loop(\(x,i).2x,((x - (x div (1 + ((x div 2) div 3)))) div 3),1))
1: (x + loop(\(x,i).2x,(((~1 + i) * i) div 2),1))
1: (loop(\(x,i).2x,(((x + ~1) * ((x3 + ~3x2 + 2x) div 2)) div 2),1) + ((x div 2) mod 2))
1: (x + loop(\(x,i).2x,((3 * ((x div 2) div 3)) div 2),2))
1: (2x + loop(\(x,i).2x,(((x + 1) div 2) div 2),1))
1: ((x + ~1) + loop(\(x,i).2x,(((1 - (x div 2)) mod (x + 1)) div 3),1))
1: (loop(\(x,i).2x,(loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2),1) + loop(\(x,i).2x,x,1))
1: (loop(\(x,i).2x,(x div 2),1) + (x div 2))
1: (loop(\(x,i).2x,(x div 2),1) + (x mod 2))
1: (loop(\(x,i).2x,(x div 2),1) + loop(\(x,i).2x,x,1))
1: (loop(\(x,i).2x,(x div 2),1) + loop(\(x,i).2x,x,2))
1: (1 + loop(\(x,i).2x,(x div 2),2))
1: (loop(\(x,i).2x,(x div 2),2) + (x mod 2))
1: (loop(\(x,i).2x,(x div 2),(3 + (x mod 2))) + (x mod 2))
1: (1 + loop(\(x,i).2x,(x div 2),(2 + (x mod 2))))
1: (loop(\(x,i).2x,(x div 2),(2 + (x mod 2))) + loop(\(x,i).(2x + 4),x,0))
1: (loop(\(x,i).2x,(x div 2),(2 + (x mod 2))) + loop(\(x,i).2x,(x + ~1),x))
1: (loop(\(x,i).2x,(x div 2),(2 + (x mod 2))) + loop(\(x,i).2x,x,3))
1: (loop(\(x,i).2x,(x div 2),(2 - (x mod 2))) + (2 * (x mod 2)))
1: (x + loop(\(x,i).2x,(x div 2),((x + ~1) div 2)))
1: (1 + loop(\(x,i).2x,(x div (1 + (2 * (3 - (x mod 2))))),2))
1: (x + loop(\(x,i).2x,(x div (2 + (x mod (2 + (x mod 2))))),1))
1: (1 + loop(\(x,i).2x,(x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))),2))
1: (1 + loop(\(x,i).2x,(loop(\(x,i).2x,x,2) mod (x + 1)),1))
1: (loop(\(x,i).2x,(x mod 4),1) + loop(\(x,i).2x,x,1))
1: (x + loop(\(x,i).2x,(x mod (1 + i)),2))
1: (loop(\(x,i).2x,(x mod 8),1) + loop(\(x,i).2x,x,1))
1: (loop(\(x,i).2x,(x mod (2 * (2 - (x mod 2)))),2) + loop(\(x,i).2x,x,1))
1: (1 + loop(\(x,i).2x,(if x <= 0 then 2 else (1 + (2 * (x mod 2)))),loop(\(x,i).6x,x,1)))
1: (x + loop(\(x,i).2x,loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,i),1))
1: (2 + loop(\(x,i).2x,loop(\(x,i).(x div (1 + (x mod 2))),x,x),2))
1: (loop(\(x,i).2x,loop(\(x,i).(x div (1 + (x mod 2))),x,x),2) + (x div 3))
1: ((x2 + x) + loop(\(x,i).2x,x,1))
1: ((x2 + 2x) + loop(\(x,i).2x,x,1))
1: (2x2 + loop(\(x,i).2x,x,1))
1: (x3 + loop(\(x,i).2x,x,1))
1: (loop(\(x,i).2x,x,1) + (if (~x + 2) <= 0 then 2 else 1))
1: (loop(\(x,i).2x,x,1) + (if x <= 0 then 2 else 0))
1: (x2 + loop(\(x,i).2x,x,2))
1: (loop(\(x,i).2x,x,2) + (2 div (x + 1)))
1: (loop(\(x,i).2x,x,2) + (if (~x + 2) <= 0 then 1 else 0))
1: (loop(\(x,i).2x,x,2) + (if (x + ~2) <= 0 then 0 else 1))
1: (loop(\(x,i).2x,x,2) + (if (x + ~2) <= 0 then 1 else 2))
1: (loop(\(x,i).2x,x,2) + (if (x mod 2) <= 0 then 2 else 0))
1: (loop(\(x,i).2x,x,2) + (if x <= 0 then 1 else 0))
1: (loop(\(x,i).2x,x,3) + (x mod 2))
1: (1 + loop(\(x,i).2x,x,5))
1: (2 + loop(\(x,i).2x,x,(3 + (loop(\(x,i).4x,x,2) + loop(\(x,i).2x,x,1)))))
1: (1 + loop(\(x,i).2x,x,(3 + loop(\(x,i).3x,x,2))))
1: (1 + loop(\(x,i).2x,x,(13 - (x mod 2))))
1: (1 + loop(\(x,i).2x,x,9))
1: (1 + loop(\(x,i).2x,x,13))
1: (2 + loop(\(x,i).2x,x,(5x + 2)))
1: (1 + loop(\(x,i).2x,x,(1 + (2 * (4 + loop(\(x,i).2x,x,1))))))
1: (1 + loop(\(x,i).2x,x,(1 + (x * (~1 + loop(\(x,i).(x * i),2x,1))))))
1: (1 + loop(\(x,i).2x,x,(1 + (((1 + (x div 2)) div 2) div 2))))
1: (1 + loop(\(x,i).2x,x,(1 + (if (x mod 3) <= 0 then 2 else 0))))
1: (loop(\(x,i).2x,x,(1 + loop(\(x,i).3x,x,1))) + loop(\(x,i).3x,2x,1))
1: (loop(\(x,i).2x,x,(1 + loop(\(x,i).3x,x,1))) + loop(\(x,i).5x,x,1))
1: (loop(\(x,i).2x,x,(1 + loop(\(x,i).3x,x,1))) + loop(\(x,i).7x,x,1))
1: (loop(\(x,i).2x,x,(1 + loop(\(x,i).3x,x,2))) + loop(\(x,i).(3x + 2),2x,2))
1: (1 + loop(\(x,i).2x,x,(2 + loop(\(x,i).2x,x,2))))
1: (1 + loop(\(x,i).2x,x,(1 + loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (1 + (9 * (~1 + (5 * loop(\(x,i).7x,x,2)))))),x,3))))
1: (1 + loop(\(x,i).2x,x,(x + 1)))
1: (x + loop(\(x,i).2x,x,(x + 1)))
1: (1 + loop(\(x,i).2x,x,(1 - (x div loop(\(x,i).(x * (0 - i)),x,1)))))
1: (1 + loop(\(x,i).2x,x,(~1 + (loop(\(x,i).2x,x,1) mod (~1 + (2 * (((~x + 2) div 2) mod 4)))))))
1: (1 + loop(\(x,i).2x,x,(~1 + loop(\(x,i).(2x + (if (x + ~2) <= 0 then 1 else 4)),x,1))))
1: (1 + loop(\(x,i).2x,x,(~2 + loop(\(x,i).(2x + 4),(x + 1),1))))
1: (1 + loop(\(x,i).2x,x,(loop(\(x,i).10x,x,1) - loop(\(x,i).4x,x,1))))
1: (1 + loop(\(x,i).2x,x,(~2 + loop(\(x,i).2x2,2,2))))
1: (loop(\(x,i).2x,x,(~1 + loop(\(x,i).2x,x,2))) + loop(\(x,i).3x,x,4))
1: (1 + loop(\(x,i).2x,x,(~1 + loop(\(x,i).2x,x,2x))))
1: (2 + loop(\(x,i).2x,x,(x2 + 5x)))
1: (1 + loop(\(x,i).2x,x,(3 * (1 + (loop(\(x,i).3x,x,2) + loop(\(x,i).2x,x,1))))))
1: (1 + loop(\(x,i).2x,x,(3x + 3)))
1: (1 + loop(\(x,i).2x,x,(2 * loop(\(x,i).x2,x,2))))
1: (1 + loop(\(x,i).2x,x,x2))
1: (1 + loop(\(x,i).2x,x,(x2 mod 3)))
1: (1 + loop(\(x,i).2x,x,(if ((x + 1) mod (2 + ((~x + 2) mod 5))) <= 0 then 2 else 0)))
1: (1 + loop(\(x,i).2x,x,(if (x mod 3) <= 0 then 1 else 2)))
1: (1 + loop(\(x,i).2x,x,(if (x mod 4) <= 0 then 2 else 0)))
1: ((x2 + 2x) + loop(\(x,i).2x,x,(if x <= 0 then 1 else 2)))
1: (1 + loop(\(x,i).2x,x,(if x <= 0 then 1 else (x + (loop(\(x,i).2x,x,1) div (x + 2))))))
1: (1 + loop(\(x,i).2x,x,(if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + loop(\(x,i).(1 + loop(\(x,i).(1 + (x2 * i)),x,2)),x,0)) div 2)) div 2))))))
1: (1 + loop(\(x,i).2x,x,(if x <= 0 then 1 else (2 * (1 + ((1 + ((loop(\(x,i).2x,x,(~x3 + loop(\(x,i).5x,(x + 1),1))) div 2) div 2)) div 2))))))
1: (1 + loop(\(x,i).2x,x,(if x <= 0 then 1 else (x * i))))
1: (1 + loop(\(x,i).2x,x,loop(\(x,i).(x + ((2 - i) * (1 + i))),x,2)))
1: (loop(\(x,i).2x,x,loop(\(x,i).(2x + 2),x,1)) + (if (x + ~1) <= 0 then 2 else 1))
1: (1 + loop(\(x,i).2x,x,loop(\(x,i).x2,x,3)))
1: (1 + loop(\(x,i).2x,x,x))
1: (2x2 + loop(\(x,i).2x,x,x))
1: (x + loop(\(x,i).2x,x,x))
1: (loop(\(x,i).2x,i,1) + (x * (i * i)))
1: (x2 + loop(\(x,i).2x,i,1))
1: (1 + loop(\(x,i).2x,i,2))
1: (x + loop(\(x,i).2x,i,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))))
1: (x + loop(\(x,i).2x,i,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i))))
1: (x + loop(\(x,i).2x,i,2x2))
1: (1 + loop(\(x,i).2x,i,2x))
1: (x + loop(\(x,i).2x,i,2x))
1: (x + loop(\(x,i).2x,i,x2))
1: (loop(\(x,i).2x,i,x) + (x * i))
1: (loop(\(x,i).2x,i,x) + i)
1: (x + loop(\(x,i).2x,compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i),1))
1: (2 + loop(\(x,i).2x,compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),1))
1: (1 + loop(\(x,i).x2,1,((2x + 2) - (x mod 2))))
1: (1 + loop(\(x,i).x2,1,(9x + ~5)))
1: (2 + loop(\(x,i).x2,1,((23x + 23) + (x div 9))))
1: (1 + loop(\(x,i).x2,1,(1 + (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x2 + 2x + 1))),x)))))
1: (x + loop(\(x,i).x2,1,(1 + ((1 + i) div 2))))
1: (1 + loop(\(x,i).x2,1,(1 + ((~1 + loop(\(x,i).((x + 1) + (((1 + i) * i) div 2)),x,1)) div 2))))
1: (1 + loop(\(x,i).x2,1,(1 + ((2 * (1 + (((1 + (loop(\(x,i).2x,(x + ~8),1) div 2)) div 2) div 2))) div 3))))
1: (x2 + loop(\(x,i).x2,1,(1 + ((x2 + ~x) div 2))))
1: (x + loop(\(x,i).x2,1,(1 + (i div 3))))
1: (x + loop(\(x,i).x2,1,(1 + ((~1 + i) mod 8))))
1: (1 + loop(\(x,i).x2,1,(x + (if (~2 + (x div 2)) <= 0 then 1 else 2))))
1: (x + loop(\(x,i).x2,1,(1 + loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,i))))
1: (1 + loop(\(x,i).x2,1,(1 + loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x))))
1: (1 + loop(\(x,i).x2,1,(2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))))
1: (x + loop(\(x,i).x2,1,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))))
1: (1 + loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: ((x2 + 2x) + loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (68 + loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (56 + loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) + loop(\(x,i).((x + 1) * (x + i)),2,2))
1: (loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) + loop(\(x,i).((x2 + x) * i),2,2))
1: (x + loop(\(x,i).x2,1,(2 - ((~x + (x mod 2)) div 5))))
1: (x + loop(\(x,i).x2,1,(~1 + ((~x + (x mod 2)) div 5))))
1: (2 + loop(\(x,i).x2,1,(~2 + (x div 2))))
1: (x + loop(\(x,i).x2,1,(~1 + (x div (~2 + ((~x + 2) div 4))))))
1: (2 + loop(\(x,i).x2,1,((x mod 2) - ((~x + 2) div 2))))
1: ((x + 1) + loop(\(x,i).x2,1,((if (x + ~1) <= 0 then 1 else (2 * (((x2 mod (x - ((~x + 2) div 2))) div (x + 1)) + (x mod 2)))) - (x mod 2))))
1: (1 + loop(\(x,i).x2,1,(~1 + loop(\(x,i).2x,x,2))))
1: ((2x + 2) + loop(\(x,i).x2,1,(~1 + loop(\(x,i).2x,x,2))))
1: (loop(\(x,i).x2,1,(loop(\(x,i).2x,x,2) - (x mod 2))) + (x mod 2))
1: (x + loop(\(x,i).x2,1,(x + ~39)))
1: (x + loop(\(x,i).x2,1,(x + ~16)))
1: (x + loop(\(x,i).x2,1,(x + ~40)))
1: (1 + loop(\(x,i).x2,1,(9x + ~4)))
1: (x + loop(\(x,i).x2,1,(13x + 13)))
1: (x + loop(\(x,i).x2,1,((x + 1) * (15 + loop(\(x,i).x3,x2,x)))))
1: (x + loop(\(x,i).x2,1,(2x + 4)))
1: (1 + loop(\(x,i).x2,1,(2 * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))))
1: (x + loop(\(x,i).x2,1,(~2x + 40)))
1: (x + loop(\(x,i).x2,1,(31x + 31)))
1: (1 + loop(\(x,i).x2,1,(2 * (x - (x3 div 2)))))
1: (x + loop(\(x,i).x2,1,(12x + 12)))
1: (x + loop(\(x,i).x2,1,(20x + 20)))
1: (x + loop(\(x,i).x2,1,(28x + 28)))
1: (1 + loop(\(x,i).x2,1,10x))
1: (x + loop(\(x,i).x2,1,(10x + 10)))
1: (x + loop(\(x,i).x2,1,(15x + 15)))
1: (x + loop(\(x,i).x2,1,(46x + 46)))
1: (x + loop(\(x,i).x2,1,(40x + 40)))
1: (x + loop(\(x,i).x2,1,(30x + 30)))
1: ((2x + 1) + loop(\(x,i).x2,1,((2x + 1) div (3 + (x div 4)))))
1: (x + loop(\(x,i).x2,1,((1 + (8 mod (1 + (x div 2)))) div 2)))
1: (2 + loop(\(x,i).x2,1,((x + ((x div 2) mod 2)) div 2)))
1: (x + loop(\(x,i).x2,1,((x2 + 5x) div 2)))
1: (1 + loop(\(x,i).x2,1,(((x + 1) mod (1 + ((2 * (1 + (x mod 3))) mod (x + 1)))) div 2)))
1: (x + loop(\(x,i).x2,1,(x div (~2 + ((~x + 2) div 4)))))
1: (x + loop(\(x,i).x2,1,(if (x + ~2) <= 0 then 1 else (4x2 + 2x))))
1: (1 + loop(\(x,i).x2,1,(if x <= 0 then 1 else (2 * (1 - (((x div 2) div ~2) div 2))))))
1: (1 + loop(\(x,i).x2,1,loop(\(x,i).(x2 + ~x + 2),x,2)))
1: (x + loop(\(x,i).x2,1,loop(\(x,i).(x + (i * i * i)),(1 + i),0)))
1: (x + loop(\(x,i).x2,1,loop(\(x,i).(x + (((2 + i) * (1 + i)) div 2)),i,1)))
1: (1 + loop(\(x,i).x2,1,loop(\(x,i).(x + loop(\(x,i).loop(\(x,i).(x * (i * i)),i,x),i,1)),x,1)))
1: (x + loop(\(x,i).x2,1,loop(\(x,i).(~2x + 1),i,0)))
1: ((x + 1) + loop(\(x,i).x2,1,loop(\(x,i).(3x - (1 mod loop(\(x,i).x2,x,2))),x,1)))
1: (x + loop(\(x,i).x2,1,loop(\(x,i).((x + ~1) - (x * i)),x,2)))
1: (x + loop(\(x,i).x2,1,loop(\(x,i).(~x + i),i,1)))
1: (x + loop(\(x,i).x2,1,loop(\(x,i).(x * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))),i,1)))
1: (x + loop(\(x,i).x2,1,loop(\(x,i).(2 * (2x - (x div (1 + i)))),(~1 + i),2)))
1: (4x + loop(\(x,i).x2,1,loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),i,1)))
1: (loop(\(x,i).x2,1,loop(\(x,i).(3x2 * i),x,1)) + (x mod 2))
1: (x + loop(\(x,i).x2,1,loop(\(x,i).x2,2,(1 + i))))
1: (x + loop(\(x,i).x2,1,loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),i,1)))
1: (1 + loop(\(x,i).x2,2,3))
1: (2x2 + loop(\(x,i).x2,2,3))
1: (x + loop(\(x,i).x2,2,4))
1: (1 + loop(\(x,i).x2,2,(x + 1)))
1: (x + loop(\(x,i).x2,2,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))))
1: (16 + loop(\(x,i).x2,2,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (x + loop(\(x,i).x2,2,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i))))
1: (2 + loop(\(x,i).x2,2,5x))
1: (1 + loop(\(x,i).x2,2,(4 * (1 + (2 * (x mod 2))))))
1: (2 + loop(\(x,i).x2,2,4x))
1: (2 + loop(\(x,i).x2,2,2x2))
1: (x + loop(\(x,i).x2,2,(i * i * i)))
1: ((x + 1) + loop(\(x,i).x2,2,(3 * (x div 8))))
1: (2 + loop(\(x,i).x2,2,2x))
1: (1 + loop(\(x,i).x2,2,x2))
1: (8x + loop(\(x,i).x2,2,x2))
1: (x + loop(\(x,i).x2,2,(2 * i)))
1: (x + loop(\(x,i).x2,2,(i * i)))
1: (1 + loop(\(x,i).x2,2,loop(\(x,i).3x,x,1)))
1: (31 + loop(\(x,i).x2,2,loop(\(x,i).x3,x,2)))
1: (x + loop(\(x,i).x2,2,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))
1: (loop(\(x,i).x2,3,(x + 1)) + loop(\(x,i).x2,2,x2))
1: (x + loop(\(x,i).x2,3,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))))
1: (2 + loop(\(x,i).x2,4,2))
1: (1 + loop(\(x,i).x2,4,x))
1: (1 + loop(\(x,i).x2,((x + 1) + (x div 4)),2))
1: (1 + loop(\(x,i).x2,(x + 4),4))
1: (1 + loop(\(x,i).x2,(x + (x div 5)),2))
1: (2 + loop(\(x,i).x2,(x + 1),3))
1: (1 + loop(\(x,i).x2,(x + 2),x))
1: (1 + loop(\(x,i).x2,(2 - (x mod 2)),4))
1: (1 + loop(\(x,i).x2,(x + ~1),2))
1: (2 + loop(\(x,i).x2,(x + ~1),2))
1: (2 + loop(\(x,i).x2,(x + ~1),4))
1: (1 + loop(\(x,i).x2,(x + ~1),(2 * (1 + (if x <= 0 then 1 else 2)))))
1: (1 + loop(\(x,i).x2,(x + ~1),(2 * (2 + (if x <= 0 then 1 else 2)))))
1: (x + loop(\(x,i).x2,(x + ~2),2))
1: (2 + loop(\(x,i).x2,(x + ~2),3))
1: (1 + loop(\(x,i).x2,(x + ~2),loop(\(x,i).2x,x2,loop(\(x,i).(2x + 1),x,0))))
1: (1 + loop(\(x,i).x2,(x - ((~x + 2) div 2)),2))
1: (2 + loop(\(x,i).x2,(x - ((~x + 2) div 2)),2))
1: (1 + loop(\(x,i).x2,(~1 + i),2))
1: (2 + loop(\(x,i).x2,(2x + 2),4))
1: (1 + loop(\(x,i).x2,(x2 + 3x + 2),2))
1: (1 + loop(\(x,i).x2,(~2x + 4),2))
1: (x + loop(\(x,i).x2,4x,2))
1: (1 + loop(\(x,i).x2,2x2,2))
1: (x + loop(\(x,i).x2,2x2,2))
1: (2 + loop(\(x,i).x2,x3,2))
1: (2 + loop(\(x,i).x2,2x,2))
1: (loop(\(x,i).x2,2x,2) + (if x <= 0 then 0 else 1))
1: (1 + loop(\(x,i).x2,2x,3))
1: (2 + loop(\(x,i).x2,2x,4))
1: (6 + loop(\(x,i).x2,x,2))
1: (loop(\(x,i).x2,x,2) + (if x <= 0 then 0 else 1))
1: (loop(\(x,i).x2,x,2) + loop(\(x,i).2x,x,1))
1: (x + loop(\(x,i).x2,x,2))
1: (1 + loop(\(x,i).x2,x,3))
1: (1 + loop(\(x,i).x2,x,4))
1: (2 + loop(\(x,i).x2,x,4))
1: (1 + loop(\(x,i).x2,x,5))
1: (2 + loop(\(x,i).x2,x,5))
1: (1 + loop(\(x,i).x2,x,7))
1: (2 + loop(\(x,i).x2,x,7))
1: (2 + loop(\(x,i).x2,x,13))
1: (2 + loop(\(x,i).x2,x,17))
1: (2 + loop(\(x,i).x2,x,21))
1: (1 + loop(\(x,i).x2,x,((if x <= 0 then 1 else x) + (x mod 2))))
1: (2 + loop(\(x,i).x2,x,(1 + loop(\(x,i).x2,2x,3))))
1: (1 + loop(\(x,i).x2,x,11))
1: (2 + loop(\(x,i).x2,x,11))
1: (2 + loop(\(x,i).x2,x,15))
1: (1 + loop(\(x,i).x2,x,6))
1: (1 + loop(\(x,i).x2,x,8))
1: (1 + loop(\(x,i).x2,x,12))
1: (1 + loop(\(x,i).x2,x,10))
1: (1 + loop(\(x,i).x2,x,14))
1: (1 + loop(\(x,i).x2,x,(x3 + 2x2 + x + 2)))
1: (loop(\(x,i).x2,x,loop(\(x,i).(4x + ~1),x,1)) + loop(\(x,i).4x,x,1))
1: (2 + loop(\(x,i).x2,x,loop(\(x,i).2x,x,3)))
1: (1 + loop(\(x,i).x2,x,loop(\(x,i).(x * i),x,1)))
1: (2 + loop(\(x,i).x2,i,2))
1: (x + loop(\(x,i).x2,i,2))
1: (x + loop(\(x,i).x2,i,3))
1: (x + loop(\(x,i).(2 * i),(x + ~12),1))
1: (x + loop(\(x,i).(2 * i),(~2 + i),x))
1: (1 + loop(\(x,i).(2 * i),((x * (x div 3)) mod (1 + ((2 - (x div 2)) mod 4))),1))
1: (1 + loop(\(x,i).(2 * i),(x mod 9),x))
1: (2 + loop(\(x,i).(2 * i),loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1))
1: (1 + loop(\(x,i).(x * i),4,loop(\(x,i).(2x + 4),x,1)))
1: (1 + loop(\(x,i).(x * i),(1 + ((x3 div 3) + (x mod 2))),1))
1: (1 + loop(\(x,i).(x * i),((x + 4) + (x div 2)),1))
1: (1 + loop(\(x,i).(x * i),(x + ((x div 2) * (x div 2))),1))
1: ((x + ~1) + loop(\(x,i).(x * i),(1 + (2 * (if (~2 + (x div 3)) <= 0 then 0 else 2))),1))
1: (loop(\(x,i).(x * i),(x + 2),2) + loop(\(x,i).2x,x,1))
1: (2 + loop(\(x,i).(x * i),(x + 2),(x + ~1)))
1: (x + loop(\(x,i).(x * i),(2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),i)),1))
1: (x + loop(\(x,i).(x * i),(2 - ((~x + 2) div (2 + (x div 2)))),1))
1: (loop(\(x,i).(x * i),(x + ~1),1) + (x mod 2))
1: (loop(\(x,i).(x * i),(x + ~1),1) + (if x <= 0 then 0 else 1))
1: (x + loop(\(x,i).(x * i),(x + ~1),1))
1: (1 + loop(\(x,i).(x * i),(x + ~2),3))
1: (loop(\(x,i).(x * i),(~1 + i),1) + (x * (~1 + (2 * i))))
1: (loop(\(x,i).(x * i),(~1 + i),1) + (2x * i))
1: (loop(\(x,i).(x * i),(~1 + i),1) + (3x * i))
1: (loop(\(x,i).(x * i),(~1 + i),1) + (x * (i * i)))
1: (x + loop(\(x,i).(x * i),(~1 + i),(1 - (2 * i))))
1: (x + loop(\(x,i).(x * i),(~1 + i),(~2 + i)))
1: (x + loop(\(x,i).(x * i),2x2,1))
1: (1 + loop(\(x,i).(x * i),2x,1))
1: (1 + loop(\(x,i).(x * i),2x,loop(\(x,i).(x * (1 + i)),x,(x + 1))))
1: (x + loop(\(x,i).(x * i),(2 * i),1))
1: (x + loop(\(x,i).(x * i),((1 + (x div 3)) div 2),1))
1: (x + loop(\(x,i).(x * i),(x div 2),x))
1: (1 + loop(\(x,i).(x * i),loop(\(x,i).(x + (i * i * i)),x,2),1))
1: ((x2 + x) + loop(\(x,i).(x * i),x,1))
1: ((x2 + 2x) + loop(\(x,i).(x * i),x,1))
1: (4x + loop(\(x,i).(x * i),x,1))
1: (loop(\(x,i).(x * i),x,1) + (x div 3))
1: (loop(\(x,i).(x * i),x,1) + i)
1: (2 + loop(\(x,i).(x * i),x,2))
1: ((x + 1) + loop(\(x,i).(x * i),x,2))
1: ((x2 + 2x) + loop(\(x,i).(x * i),x,2))
1: (1 + loop(\(x,i).(x * i),x,3))
1: (x2 + loop(\(x,i).(x * i),x,3))
1: (1 + loop(\(x,i).(x * i),x,4))
1: (1 + loop(\(x,i).(x * i),x,5))
1: (1 + loop(\(x,i).(x * i),x,7))
1: (1 + loop(\(x,i).(x * i),x,(3x + 1)))
1: (1 + loop(\(x,i).(x * i),x,(x + (x div 4))))
1: (loop(\(x,i).(x * i),x,(x + 1)) + (if (x + ~1) <= 0 then x else 0))
1: (x + loop(\(x,i).(x * i),x,(x + 1)))
1: (1 + loop(\(x,i).(x * i),x,(x + 2)))
1: (x + loop(\(x,i).(x * i),x,(x + 2)))
1: (1 + loop(\(x,i).(x * i),x,2x))
1: (2 + loop(\(x,i).(x * i),x,loop(\(x,i).(x + loop(\(x,i).(x * i),i,2)),x,1)))
1: (loop(\(x,i).(x * i),x,i) + i)
1: (2x + loop(\(x,i).(x * i),i,1))
1: (loop(\(x,i).(x * i),i,(1 + i)) + (x * i))
1: (x + loop(\(x,i).(x * i),i,(1 + i)))
1: (x + loop(\(x,i).(x * i),i,(~1 + i)))
1: (x + loop(\(x,i).(x * i),i,(i * i)))
1: (x + loop(\(x,i).(x * i),i,x))
1: (loop(\(x,i).(x * i),i,x) + i)
1: (2 + loop(\(x,i).(i * i),(x + ~2),0))
1: (x + loop(\(x,i).((1 + (4 * (x + (if (x + ~4) <= 0 then 1 else 2)))) div 3),1,i))
1: (x + loop(\(x,i).((4x + 1) div (1 + i)),x,1))
1: (x + loop(\(x,i).((x2 + 2) div (x + 4)),2,x))
1: (x + loop(\(x,i).((x + (x2 div 3)) div 2),2,x))
1: (x + loop(\(x,i).((1 + (x2 div (4 + (x div 2)))) div 2),2,x))
1: (1 + loop(\(x,i).((x + 2) div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,2x))
1: (1 + loop(\(x,i).((x + i) div (1 + (x div 2))),x,x))
1: (1 + loop(\(x,i).((x + i) div (x + 1)),loop(\(x,i).2x,x,1),x))
1: (2 + loop(\(x,i).((3x + ~1) div 5),2,x))
1: (x + loop(\(x,i).((x2 + ~2x + ~1) div 2),2,x))
1: (2 + loop(\(x,i).((x2 + ~2) div 7),2,(x + ~1)))
1: (x + loop(\(x,i).((loop(\(x,i).3x,x,1) - loop(\(x,i).3x,(x div 2),1)) div 2),1,i))
1: (x + loop(\(x,i).(8 div (x + 1)),2,i))
1: (x + loop(\(x,i).((2 * (4 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3),1,i))
1: (1 + loop(\(x,i).((5 * (3 + (x mod 2))) div (x + 1)),2,2x))
1: (1 + loop(\(x,i).((2 * (1 + (x * (~1 + (2 * i))))) div (1 + i)),x,0))
1: (1 + loop(\(x,i).((x3 + x) div 2),x,2))
1: (1 + loop(\(x,i).((x * (1 + ((x div 2) div (1 + (x mod 2))))) div 2),3,x))
1: (1 + loop(\(x,i).((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3),1,(x + 1)))
1: (1 + loop(\(x,i).((2 * (x + ((x div 3) mod 2))) div 3),2,x))
1: (1 + loop(\(x,i).((2 * (2 + (if x <= 0 then 0 else (2 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))))) div 3),1,i))
1: (x + loop(\(x,i).((x2 + x) div 2),1,(1 - loop(\(x,i).(2x + ~4),(x + ~2),0))))
1: (1 + loop(\(x,i).((x2 + x) div 2),1,loop(\(x,i).2x,x,1)))
1: (1 + loop(\(x,i).((x2 + x) div 2),2,7))
1: (x + loop(\(x,i).((x2 + x) div 2),2,(1 + (x div 2))))
1: ((x + 1) + loop(\(x,i).((x2 + x) div 2),2,x))
1: (1 + loop(\(x,i).((x2 + x) div (1 + (x div 2))),x,1))
1: (x + loop(\(x,i).(((x + 1) * i) div 3),(x + ~1),1))
1: (1 + loop(\(x,i).((x2 + 2x) div 2),1,loop(\(x,i).2x,x,1)))
1: (2 + loop(\(x,i).((x2 + 2x) div 2),1,loop(\(x,i).2x,x,1)))
1: (1 + loop(\(x,i).((x * (1 + i)) div (1 + (i div 2))),(x + ~1),1))
1: (loop(\(x,i).((x * (1 + i)) div (1 + (i div 2))),(x + ~1),1) + loop(\(x,i).(2x + 1),x,0))
1: (2 + loop(\(x,i).((x * (2 + i)) div 2),x,(x + ~1)))
1: (1 + loop(\(x,i).((2 * (x + i)) div 3),x,2x))
1: (1 + loop(\(x,i).((4 * (x + i)) div (x + 1)),x,2))
1: (x + loop(\(x,i).((x * (x + i)) div (1 + i)),2,(x + 1)))
1: ((x + 1) + loop(\(x,i).((x * (x + i)) div (1 + i)),2,x))
1: (x + loop(\(x,i).((x * (x + i)) div (1 + i)),2,i))
1: (x + loop(\(x,i).((x2 + ~x) div 2),2,(x + 1)))
1: (1 + loop(\(x,i).((x2 + ~x) div 2),2,(x + 2)))
1: (x + loop(\(x,i).((x2 + ~x) div 2),2,(1 + i)))
1: (x + loop(\(x,i).((x2 + ~x) div 2),2,(2x + 2)))
1: (x2 + loop(\(x,i).((x2 + ~x) div 2),2,x))
1: (x + loop(\(x,i).((x2 + ~x) div 4),2,(x + ~2)))
1: ((x + 1) + loop(\(x,i).((x2 + ~x) div (x + 2)),2,x))
1: (x + loop(\(x,i).((x2 + ~x) div (1 + i)),2,(x + 3)))
1: (x + loop(\(x,i).((x2 + ~x) div (8 * (1 + i))),2,x))
1: (1 + loop(\(x,i).((2x + ~4) div (1 + i)),(x + ~1),(x2 + x)))
1: (2 + loop(\(x,i).((x2 + ~2x) div (1 + (x div 2))),1,loop(\(x,i).4x,x,1)))
1: (1 + loop(\(x,i).(24 div (x + 1)),2,(x + 1)))
1: (1 + loop(\(x,i).(28 div (x + 1)),2,2x))
1: (loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x + 1),1) + (if x <= 0 then 1 else 0))
1: (1 + loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x + ~2),x))
1: (x + loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x + ~2),x))
1: (4x + loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),i,1))
1: (4x + loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),i,(1 + i)))
1: (x + loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),i,(1 + i)))
1: (1 + loop(\(x,i).((x * ((2 + i) * (1 + i))) div 2),x,1))
1: (x + loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),(x div 2),x))
1: (1 + loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1))
1: (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) + loop(\(x,i).(2x + 1),x,0))
1: (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) + loop(\(x,i).(2 * (if x <= 0 then 1 else x)),x,0))
1: (x + loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1))
1: (1 + loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,(3x + 1)))
1: (2x + loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,(3x + 1)))
1: (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,(3x + 1)) + loop(\(x,i).4x,x,1))
1: (1 + loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,x))
1: (x + loop(\(x,i).((8x * (~1 + (2 * i))) div (1 + i)),i,1))
1: (x + loop(\(x,i).((4x * (~1 + (2 * i))) div (1 + i)),i,1))
1: (1 + loop(\(x,i).(x3 div 2),1,(x2 + x + ~1)))
1: (x + loop(\(x,i).((x2 * i) div (x + 1)),x,2))
1: (1 + loop(\(x,i).(((x div 4) * (x div 4)) div 2),2,2x))
1: (1 + loop(\(x,i).(2x div (1 + i)),x,loop(\(x,i).(5x + 4),x,0)))
1: (x + loop(\(x,i).(x2 div 2),2,i))
1: (x + loop(\(x,i).(x2 div 2),(x + ~2),loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1)))
1: ((x + 1) + loop(\(x,i).(x2 div (x + 4)),3,x))
1: (1 + loop(\(x,i).(x2 div (x + 2)),5,x))
1: (1 + loop(\(x,i).(x2 div (1 + i)),2,(2x + 2)))
1: (x + loop(\(x,i).((2 * i) div (x + 2)),x,1))
1: (x + loop(\(x,i).((x * i) div 2),x,(x + 1)))
1: ((x + 1) + loop(\(x,i).(((x * (x div 2)) div 2) div 5),2,x))
1: (1 + loop(\(x,i).((x div 2) div (1 + (x mod (2 * (1 + (x mod 2)))))),2,x))
1: (1 + loop(\(x,i).(((1 + (x mod (1 + (x mod (2 * (2 + ((x div 2) mod 2))))))) mod (x + 1)) div 2),1,(x + 1)))
1: (1 + loop(\(x,i).((if x <= 0 then 1 else x) div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))),2,x))
1: (1 + loop(\(x,i).(loop(\(x,i).(2x + 3),x,0) div loop(\(x,i).(x2 + x),2,2)),2,x))
1: (x + loop(\(x,i).(loop(\(x,i).(2 + ((x2 + x) div 2)),2,x) div 3),1,i))
1: (1 + loop(\(x,i).(loop(\(x,i).(4x + ~1),x,2) div 3),1,(x + 1)))
1: (1 + loop(\(x,i).(loop(\(x,i).(2x * i),x,1) div (x + 1)),1,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (1 + loop(\(x,i).(loop(\(x,i).(x * i),x,1) div (x + 1)),1,(1 + compr(\x.((~1 + loop(\(x,i).(x * i),x,1)) mod (x + 2)),x))))
1: (1 + loop(\(x,i).(loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2),2,(x + 1)))
1: (x + loop(\(x,i).(x div 2),(~x + 5),3))
1: (1 + loop(\(x,i).(x div 2),(x + ~1),loop(\(x,i).(x * (~1 + (2 * i))),x,1)))
1: (1 + loop(\(x,i).(x div 2),(x div 3),(x + 2)))
1: (1 + loop(\(x,i).(x div 2),x,loop(\(x,i).(3x + 1),x,1)))
1: (2 + loop(\(x,i).(x div 2),x,loop(\(x,i).(3x + 1),x,1)))
1: (loop(\(x,i).(x div 2),x,loop(\(x,i).(3x + 1),x,1)) + loop(\(x,i).(2x + 2),x,0))
1: (1 + loop(\(x,i).(x div 2),x,loop(\(x,i).3x,x,1)))
1: (1 + loop(\(x,i).(x div 3),(x + 1),loop(\(x,i).10x,x,1)))
1: (1 + loop(\(x,i).(x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))),1,(x - (if x <= 0 then 0 else 1))))
1: (1 + loop(\(x,i).(x div (1 + (x mod 2))),2,(1 + ((x + (x mod 2)) div 3))))
1: (1 + loop(\(x,i).(x div (1 + (x mod 2))),(x + 1),3x))
1: (x + loop(\(x,i).(x div (1 + (x mod 2))),i,i))
1: (1 + loop(\(x,i).(x div (2 + (x mod 2))),2,x))
1: (1 + loop(\(x,i).(x div (1 + (x mod 4))),x,x))
1: (1 + loop(\(x,i).(x div (1 + (x mod (2 + ((x mod 3) div 2))))),x,x))
1: (1 + loop(\(x,i).(x div (1 + (x mod (1 + (x mod 6))))),2,x))
1: (1 + loop(\(x,i).(x div (1 + (x mod 6))),2,x))
1: (1 + loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 6 else 0))),2,x))
1: (1 + loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then (if ((x + 2) mod (2 + ((x div 2) mod 2))) <= 0 then 2 else 0) else 1))),x,x))
1: (1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),1,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (2 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,(2x + 1)))
1: (x + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,x))
1: (1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),(1 + (2 * (x mod 2))),(x + ~1)))
1: (1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),x,(2x + 1)))
1: (1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 1))),1,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))
1: (1 + loop(\(x,i).(x div (2 - ((x - (x div 8)) mod 2))),x,x))
1: (1 + loop(\(x,i).(x div (2 - ((x * (x div 2)) mod 2))),x,2x))
1: (1 + loop(\(x,i).(x div (2 - ((x * (x div 2)) mod 2))),x,x))
1: (1 + loop(\(x,i).(x div (2 - ((loop(\(x,i).(x * i),x,x) mod (x + 1)) mod 2))),x,x))
1: (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) + (2 * (x div 4)))
1: (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) + (3 * loop(\(x,i).(2x + 2),x,2)))
1: (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) + (x div (1 + ((x div 2) mod 3))))
1: (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) + ((x + ~1) mod 4))
1: (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) + (loop(\(x,i).(2x + 2),x,0) mod (x + 1)))
1: (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) + (if (x mod 8) <= 0 then x else 1))
1: (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) + loop(\(x,i).2x,x,2))
1: (2 + loop(\(x,i).(x div (2 - (x mod 2))),x,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x2))
1: (1 + loop(\(x,i).(x div (2 - (x mod 2))),x,((x + 1) div 2)))
1: (2 + loop(\(x,i).(x div (2 - (x mod 2))),x,((x + 1) div 2)))
1: (1 + loop(\(x,i).(x div (2 - (x mod 2))),x,(x div (1 + (if (x mod 3) <= 0 then 2 else 0)))))
1: (loop(\(x,i).(x div (~2 + (x mod 2))),x,(x + 1)) + (if x <= 0 then 1 else 4x))
1: (2 + loop(\(x,i).(x div (~2 + (x mod 2))),x,x))
1: (1 + loop(\(x,i).(x div (if (x mod 2) <= 0 then ~2 else 1)),x,((x + 1) div 2)))
1: (1 + loop(\(x,i).(x div (if (x mod 2) <= 0 then ~2 else (if (~x + 2) <= 0 then 2 else 1))),x,x))
1: (1 + loop(\(x,i).((x + 8) mod (1 + i)),x,0))
1: (x + loop(\(x,i).((1 + (x * loop(\(x,i).(8x + 2),2,2x))) mod (x + 1)),1,(x + 1)))
1: (1 + loop(\(x,i).((2x + 1) mod (1 + i)),x,0))
1: (1 + loop(\(x,i).((2x + 1) mod (2 * (2 + (i div 2)))),x,0))
1: (1 + loop(\(x,i).((x + 1) mod (2 + (i div 3))),x,0))
1: (x + loop(\(x,i).((x + 2) mod (1 + i)),i,1))
1: (1 + loop(\(x,i).((2 - (2x mod (4 + (x div 4)))) mod (x + 1)),3,x))
1: (1 + loop(\(x,i).((x2 + ~1) mod (2x + 5)),x,0))
1: (x + loop(\(x,i).((~1 + loop(\(x,i).2x,x,10)) mod (x + 2)),2,x))
1: (x + loop(\(x,i).((x + ~1) mod (1 + (2 * i))),(x + ~1),1))
1: (x + loop(\(x,i).((x + ~1) mod (2 + i)),x,0))
1: (1 + loop(\(x,i).((x + ~1) mod (2 * (1 + i))),x,0))
1: (x + loop(\(x,i).(((x + 1) - (loop(\(x,i).2x,x,2) mod (x + 2))) mod (x + 1)),1,(x + 1)))
1: ((x + 1) + loop(\(x,i).(5x mod 17),1,(2x + 2)))
1: (1 + loop(\(x,i).((~2x + 2) mod (2 - (x div ~4))),2,x))
1: (1 + loop(\(x,i).(54 mod (x + 1)),3,x))
1: (1 + loop(\(x,i).(((x2 + x) div 2) mod 4),2,x))
1: (x + loop(\(x,i).(((x2 + x) div 2) mod 4),2,x))
1: (x + loop(\(x,i).(loop(\(x,i).(x + (i * i)),x,0) mod (x + 1)),1,i))
1: (1 + loop(\(x,i).(loop(\(x,i).2x,x,2) mod (1 + i)),x,0))
1: (x + loop(\(x,i).(x mod 2),(x mod 2),(x div 7)))
1: (1 + loop(\(x,i).(if (~x + 2) <= 0 then x2 else 2),x,(x div 2)))
1: (1 + loop(\(x,i).(if (x + ~1) <= 0 then i else (x + ~1)),x,0))
1: (1 + loop(\(x,i).(if (x + ~2) <= 0 then 0 else x2),(x div 2),x))
1: (1 + loop(\(x,i).(if (x + ~2) <= 0 then i else 2x),x,1))
1: (x + loop(\(x,i).(if (~x + i) <= 0 then x else 2x),i,1))
1: (1 + loop(\(x,i).(if (x div 2) <= 0 then (1 + (2 * i)) else (x div 2)),x,1))
1: (x + loop(\(x,i).(if (x mod 2) <= 0 then 1 else (4x2 + 4x)),1,i))
1: (1 + loop(\(x,i).(if (x mod 2) <= 0 then (~4x + 9) else (x div 2)),x,0))
1: (1 + loop(\(x,i).(if (x mod 2) <= 0 then (x + (2 * i)) else 2),(x div 2),x))
1: (1 + loop(\(x,i).(if (x mod 2) <= 0 then (3x + 3) else (x div 2)),2,x))
1: (1 + loop(\(x,i).(if (x mod 2) <= 0 then (3x + 3) else (x div 2)),3,x))
1: (1 + loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else ((2x + 1) - (x div ~2))),x,5))
1: (1 + loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (1 + (9 * (~1 + (5 * loop(\(x,i).7x,x,2)))))),x,3))
1: (2 + loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (if ((x + ~1) mod 3) <= 0 then 1 else x)),x,x))
1: (2 + loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),x))
1: (x + loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),(x + ~2),x))
1: (1 + loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),(x div 2),x))
1: (1 + loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),x,(x + 2)))
1: (1 + loop(\(x,i).(if (x mod 10) <= 0 then ~x else i),x,x))
1: (3 + loop(\(x,i).(if loop(\(x,i).x3,2,x) <= 0 then 1 else (8x + 2)),x,4))
1: (1 + loop(\(x,i).(if x <= 0 then 0 else (1 + (x * ((x + 1) + loop(\(x,i).(2x2 + ~x),2,x))))),2x,x))
1: (1 + loop(\(x,i).(if x <= 0 then 0 else (1 + (2 * loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)))),2,x))
1: (1 + loop(\(x,i).(if x <= 0 then 0 else (1 + (if (~2 + (x div 2)) <= 0 then x else (x + 2)))),2,x))
1: (2 + loop(\(x,i).(if x <= 0 then 0 else (1 + (if (~2 + (x div 2)) <= 0 then x else (x + 2)))),2,x))
1: (3 + loop(\(x,i).(if x <= 0 then 0 else (1 + (if (~2 + (x div 2)) <= 0 then x else (x + 2)))),2,x))
1: (1 + loop(\(x,i).(if x <= 0 then 0 else (~1 + (2 * (x2 div 2)))),2,x))
1: (1 + loop(\(x,i).(if x <= 0 then 0 else (2x - ((if (i mod 2) <= 0 then 1 else 2x) div (1 + i)))),x,(x + ~1)))
1: (1 + loop(\(x,i).(if x <= 0 then 1 else (x + ((2 * (x mod 2)) + (x div 3)))),x,0))
1: (1 + loop(\(x,i).(if x <= 0 then 1 else (x + (2 * (i * (1 + i))))),x,0))
1: (1 + loop(\(x,i).(if x <= 0 then 1 else (x + (2 * (x div (~1 + (4 * (1 + i))))))),x,x))
1: (1 + loop(\(x,i).(if x <= 0 then 1 else ((3x + 3) - ((x - (x div 3)) div 3))),1,((x + 1) div 2)))
1: (1 + loop(\(x,i).(if x <= 0 then 1 else (2x - (if (x - i) <= 0 then 0 else 2))),x,0))
1: (1 + loop(\(x,i).(if x <= 0 then 1 else (~1 + loop(\(x,i).(x2 + x),1,(1 + loop(\(x,i).3x,x,(2 * (1 + loop(\(x,i).(x2 + ~x),1,loop(\(x,i).x2,x,2))))))))),x,0))
1: (x + loop(\(x,i).(if x <= 0 then 1 else (x - ((~x + 1) div 3))),2,2x))
1: (x + loop(\(x,i).(if x <= 0 then 1 else (x - (if x <= 0 then 1 else (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))),2,x))
1: (1 + loop(\(x,i).(if x <= 0 then 1 else (2x + 8)),x,0))
1: (x + loop(\(x,i).(if x <= 0 then 1 else (2 * (1 + ((1 + (((1 + ((x + 1) * (1 + loop(\(x,i).(x2 + x),1,loop(\(x,i).(2 * (2x - (x div (1 + i)))),x,1))))) div 2) div 2)) div 2)))),1,(x + ~1)))
1: (1 + loop(\(x,i).(if x <= 0 then 1 else (2 * (~1 + ((x + 2) mod 5)))),2,x))
1: (1 + loop(\(x,i).(if x <= 0 then 1 else (2 * (x - ((x + (x div 3)) div 5)))),x,0))
1: (1 + loop(\(x,i).(if x <= 0 then 1 else (2 * (x - ((3 * (x div 4)) div 2)))),x,0))
1: (1 + loop(\(x,i).(if x <= 0 then 1 else (2x * ((x + 1) + (2 * loop(\(x,i).(2 * (1 + loop(\(x,i).(2x * (2 + i)),4x,1))),x,1))))),2,x))
1: ((x + 2) + loop(\(x,i).(if x <= 0 then 1 else (x3 + ~3x2 + 2x)),2,x))
1: (1 + loop(\(x,i).(if x <= 0 then 1 else 4x),x,0))
1: (1 + loop(\(x,i).(if x <= 0 then 1 else x3),(~1 + i),4))
1: (1 + loop(\(x,i).(if x <= 0 then 1 else (x * (((~1 + i) * i) div 2))),x,x))
1: (1 + loop(\(x,i).(if x <= 0 then 1 else (x * ((loop(\(x,i).((x * ((x * loop(\(x,i).((x2 + ~x) div 2),2,(x + 2))) div (x + 1))) div 2),x,2) div 2) div 2))),x,0))
1: (1 + loop(\(x,i).(if x <= 0 then 1 else (x * (if (x mod 2) <= 0 then 10 else 1))),2,x))
1: (x + loop(\(x,i).(if x <= 0 then 1 else ((2x * (~1 + (2 * i))) div (1 + i))),(x + ~1),0))
1: (1 + loop(\(x,i).(if x <= 0 then 1 else (((x + 1) * (x div 2)) mod 4)),2,x))
1: (1 + loop(\(x,i).(if x <= 0 then 2 else ((4x + ~4) - (x div 4))),x,0))
1: (1 + loop(\(x,i).(if x <= 0 then 2 else ((2x + ~1) - i)),x,0))
1: (1 + loop(\(x,i).(if x <= 0 then 2 else (2 * (2x - (x div (1 + i))))),x,0))
1: (1 + loop(\(x,i).(if x <= 0 then 2 else (3x + ~3)),(x + ~1),0))
1: ((x + 1) + loop(\(x,i).(if x <= 0 then 2 else ((x * ((x2 + 2x) + (x mod 3))) div 2)),2,x))
1: (2 + loop(\(x,i).(if x <= 0 then 3 else (x2 + ~1)),x,1))
1: (1 + loop(\(x,i).(if x <= 0 then 3 else (2 * (2x - (x mod 2)))),x,0))
1: (1 + loop(\(x,i).(if x <= 0 then 3 else (x2 + ~x)),x,0))
1: (1 + loop(\(x,i).(if x <= 0 then 3 else 2x),x,0))
1: (2 + loop(\(x,i).(if x <= 0 then 3 else 2x),x,0))
1: (1 + loop(\(x,i).(if x <= 0 then 4 else (x2 + ~2x)),x,0))
1: (1 + loop(\(x,i).(if x <= 0 then 4 else x4),x,0))
1: (1 + loop(\(x,i).(if x <= 0 then (2 + (i div 2)) else (x + ~1)),x,0))
1: (loop(\(x,i).(if x <= 0 then (loop(\(x,i).(x * i),(~1 + i),1) + (x * i)) else 0),i,1) + (x * i))
1: (1 + loop(\(x,i).(if x <= 0 then (~1 + (i div 2)) else ((2x * (1 + (2 * i))) div (2 + i))),x,0))
1: (2 + loop(\(x,i).(if x <= 0 then (x + ~1) else loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)),2,x))
1: (1 + loop(\(x,i).(if x <= 0 then (2 * i) else (x - (i mod 2))),x,0))
1: (x + loop(\(x,i).(if x <= 0 then i else (x + ~1)),(x + ~2),0))
1: ((2x + 4) + loop(\(x,i).(if x <= 0 then i else (x + ~1)),x,0))
1: (x + loop(\(x,i).(if x <= 0 then i else (x + ~1)),x,0))
1: (x + loop(\(x,i).(if x <= 0 then i else (x + ~1)),x,1))
1: (x + loop(\(x,i).(if x <= 0 then i else (x + ~1)),i,0))
1: (1 + loop(\(x,i).loop(\(x,i).(3x + ((~1 + (2 * i)) * i)),x,1),x,0))
1: (1 + loop(\(x,i).loop(\(x,i).((x + 1) + (x2 div 3)),x,1),x,1))
1: (x + loop(\(x,i).loop(\(x,i).((x + 2) + i),i,x),i,1))
1: (x + loop(\(x,i).loop(\(x,i).(x + ((2 + i) * i)),i,x),i,1))
1: (x + loop(\(x,i).loop(\(x,i).(x + (i * i * i * i * i)),(1 + i),x),i,1))
1: (x + loop(\(x,i).loop(\(x,i).(x + (i * i * i * i)),(1 + i),x),i,1))
1: (x + loop(\(x,i).loop(\(x,i).(x + (i * i * i)),(1 + i),x),i,1))
1: (1 + loop(\(x,i).loop(\(x,i).(2x + 1),(x div 2),(2 - (x mod 2))),x,2))
1: (1 + loop(\(x,i).loop(\(x,i).(2x + 1),x,0),(x mod 2),(x div 2)))
1: (2 + loop(\(x,i).loop(\(x,i).(2x + 1),x,2),(x + ~1),1))
1: (2 + loop(\(x,i).loop(\(x,i).(x2 + 2),x,2),x,0))
1: (x + loop(\(x,i).loop(\(x,i).(2 + (x * i)),x,2),(x + ~1),1))
1: (x + loop(\(x,i).loop(\(x,i).(x + loop(\(x,i).3x,i,(1 + i))),i,(x + 1)),i,1))
1: (1 + loop(\(x,i).loop(\(x,i).(x + loop(\(x,i).2x,i,x)),x,1),x,0))
1: (1 + loop(\(x,i).loop(\(x,i).(x + i),(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i)),x),x,2))
1: (1 + loop(\(x,i).loop(\(x,i).(2 - (x mod 2)),(x mod 2),(x div 2)),x,x))
1: (2 + loop(\(x,i).loop(\(x,i).(x2 + ~1),x,2),x,1))
1: (2 + loop(\(x,i).loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),(x + ~2),x),1,(x + 1)))
1: (x + loop(\(x,i).loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,0),2,x))
1: (x + loop(\(x,i).loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),x,x),1,(2x2 + 4x)))
1: (x + loop(\(x,i).loop(\(x,i).(~1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),x,x),1,3x))
1: (1 + loop(\(x,i).loop(\(x,i).(x + ~1),(x * (i div 2)),(x + 1)),x,1))
1: (1 + loop(\(x,i).loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1,(x + (x div 5))))
1: (1 + loop(\(x,i).loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1,(3x + 3)))
1: (1 + loop(\(x,i).loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1,(x2 + 2x)))
1: (1 + loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (1 + loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (1 + loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,3x))
1: (x + loop(\(x,i).loop(\(x,i).3x,(1 + i),x),i,1))
1: (1 + loop(\(x,i).loop(\(x,i).3x,((x + ~1) div 2),1),(x mod 2),(x div 2)))
1: (x + loop(\(x,i).loop(\(x,i).5x,(1 + i),x),i,1))
1: (2 + loop(\(x,i).loop(\(x,i).5x,(2x + ~1),1),1,(x * (1 + (if (x mod 3) <= 0 then 2 else 0)))))
1: (1 + loop(\(x,i).loop(\(x,i).5x,x,1),(i - (x mod 3)),loop(\(x,i).5x,x,1)))
1: (x + loop(\(x,i).loop(\(x,i).7x,(1 + i),x),i,1))
1: (1 + loop(\(x,i).loop(\(x,i).(2 * (x + ((1 + i) mod 4))),x,1),x,1))
1: (1 + loop(\(x,i).loop(\(x,i).(x2 + x),(x + ~1),(2x + 1)),x,1))
1: (2 + loop(\(x,i).loop(\(x,i).(x2 + x),x,2),x,0))
1: (2 + loop(\(x,i).loop(\(x,i).((x + 1) * i),x,2),x,1))
1: (1 + loop(\(x,i).loop(\(x,i).(x * (2 + i)),x,x),x,1))
1: (1 + loop(\(x,i).loop(\(x,i).(2 * (x + i)),x,1),x,1))
1: (1 + loop(\(x,i).loop(\(x,i).(x * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i))),i,2x),x,2))
1: (1 + loop(\(x,i).loop(\(x,i).~2x,(i mod 3),x),x,1))
1: (x + loop(\(x,i).loop(\(x,i).10x,x,loop(\(x,i).(10x + 1),x,1)),1,i))
1: (x + loop(\(x,i).loop(\(x,i).(x * (i * i)),i,x),i,1))
1: (x + loop(\(x,i).loop(\(x,i).2x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),2),1,i))
1: (x + loop(\(x,i).loop(\(x,i).2x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),3),1,i))
1: (x + loop(\(x,i).loop(\(x,i).2x,(compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1),1,i))
1: (1 + loop(\(x,i).loop(\(x,i).2x,x,x),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (1 + loop(\(x,i).loop(\(x,i).2x,x,x),x,1))
1: (1 + loop(\(x,i).loop(\(x,i).2x,i,2x),x,2))
1: (x + loop(\(x,i).loop(\(x,i).2x,i,2x),i,1))
1: (1 + loop(\(x,i).loop(\(x,i).2x,i,x),x,1))
1: (loop(\(x,i).loop(\(x,i).2x,i,x),x,1) + loop(\(x,i).2x,x2,1))
1: (x + loop(\(x,i).loop(\(x,i).2x,i,x),i,1))
1: (2 + loop(\(x,i).loop(\(x,i).x2,x,2),x,0))
1: (x + loop(\(x,i).loop(\(x,i).x2,x,2),x,0))
1: (1 + loop(\(x,i).loop(\(x,i).x2,i,x),x,2))
1: (x + loop(\(x,i).loop(\(x,i).(2 * i),(if (i mod 2) <= 0 then 2 else 2x),x),(~1 + i),1))
1: (3 + loop(\(x,i).loop(\(x,i).(x * i),x,(2 + i)),(x + ~1),1))
1: (1 + loop(\(x,i).loop(\(x,i).(x * i),i,x),x,1))
1: (x + loop(\(x,i).loop(\(x,i).(x * i),i,x),i,1))
1: (1 + loop(\(x,i).loop(\(x,i).((~x + i) div 2),x,x),2,x))
1: (2 + loop(\(x,i).loop(\(x,i).(((x + i) * i) div (x + 1)),x,2x),(x + 1),2))
1: (1 + loop(\(x,i).loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,2x),1,(x + 1)))
1: (1 + loop(\(x,i).loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)),1,(x - ((~x + 2) div 2))))
1: (1 + loop(\(x,i).loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)),2,x))
1: (x + loop(\(x,i).loop(\(x,i).(if x <= 0 then i else (x + ~1)),x,0),2,(x + 1)))
1: (x + loop(\(x,i).loop(\(x,i).loop(\(x,i).x2,1,loop(\(x,i).((2 * (x - (2x * i))) div (1 + i)),x,1)),1,(x + ~1)),1,i))
1: (x + loop(\(x,i).loop(\(x,i).i,(x div 4),x),1,i))
1: (x + loop(\(x,i).i,(3x + ~30),1))
1: (2x + loop(\(x,i).i,(~4 + (x div 2)),x))
1: (x + loop(\(x,i).i,(~2 + ((x + ((x div 2) div 3)) div 2)),1))
1: (x + loop(\(x,i).i,(~2 + ((2x + ~1) div 5)),1))
1: (loop(\(x,i).i,(~2 + ((x + ~1) div 2)),1) + (x div 2))
1: (x + loop(\(x,i).i,(~3 + ((x + ~1) div 2)),1))
1: (x + loop(\(x,i).i,(~1 + ((x + ~2) div 3)),1))
1: (x + loop(\(x,i).i,((x div 2) - (if (x mod 4) <= 0 then 2 else 1)),1))
1: (x + loop(\(x,i).i,(~1 + (x mod (2 - (x mod ~4)))),1))
1: (x + loop(\(x,i).i,(x + ~7),2))
1: ((x2 + 2x) + loop(\(x,i).i,(x + ~9),1))
1: (loop(\(x,i).i,(x + ~9),1) + (x div 2))
1: (x + loop(\(x,i).i,(x + ~9),x))
1: (2x + loop(\(x,i).i,(x + ~6),1))
1: (loop(\(x,i).i,(x + ~6),1) + (x div 2))
1: (x + loop(\(x,i).i,(x + ~6),1))
1: (2 + loop(\(x,i).i,(x + ~8),1))
1: (loop(\(x,i).i,(x + ~8),1) + (x div 2))
1: (loop(\(x,i).i,(x + ~8),1) + (x mod 2))
1: (x + loop(\(x,i).i,(x + ~8),2))
1: (x + loop(\(x,i).i,(x - (x mod (2 + (x mod 2)))),1))
1: (x + loop(\(x,i).i,(5 * (~1 + (((x + 1) div 2) div 2))),1))
1: (x + loop(\(x,i).i,(5 * (~1 + (x div 3))),1))
1: (x + loop(\(x,i).i,((x + 1) div 5),1))
1: (1 + loop(\(x,i).i,((x + 1) div 5),x))
1: (loop(\(x,i).i,((~1 + (x div 2)) div 2),1) + (((x + 1) div 2) div 2))
1: (x + loop(\(x,i).i,((x + ~2) div 3),1))
1: (x + loop(\(x,i).i,((x2 + x) div (x + 16)),1))
1: (2x + loop(\(x,i).i,(((x + ~1) div 2) div 2),1))
1: (x + loop(\(x,i).i,(((3 * (1 + (2 * (2x div 5)))) div 2) div 2),1))
1: (1 + loop(\(x,i).i,(((2x + 1) mod (2 + (x div 4))) div 2),x))
1: (x + loop(\(x,i).i,(x div 4),1))
1: (3 + loop(\(x,i).i,(x div 4),2))
1: (1 + loop(\(x,i).i,(x div (2 + ((x mod 3) div 2))),x))
1: (x + loop(\(x,i).i,(x div (2 + (x div 5))),1))
1: (loop(\(x,i).i,(x div (1 + ((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)))),1) + (x mod 2))
1: (x + loop(\(x,i).i,((~x + 2) mod 7),1))
1: (1 + loop(\(x,i).i,((x2 + 2x) mod 6),x))
1: (x + loop(\(x,i).i,((x div 2) mod 4),2))
1: (1 + loop(\(x,i).i,(x mod (1 + (((x + 1) div 2) div 3))),x))
1: (1 + loop(\(x,i).i,(x mod (2 + ((x mod 3) div 2))),x))
1: (1 + loop(\(x,i).i,(x mod (1 + ((~x + 2) mod 4))),1))
1: (1 + loop(\(x,i).i,loop(\(x,i).(x div (1 + (x mod 2))),x,x),x))
1: (2 + loop(\(x,i).i,compr(\x.loop(\(x,i).loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x + 2)),2,x),x),1))
1: (x + loop(\(x,i).compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),(x + 1)),1,i))
1: (1 + loop(\(x,i).compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x),1,((x * (x mod 2)) div 2)))
1: (2 + loop(\(x,i).compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),1,(x + (x div 9))))
1: (1 + loop(\(x,i).compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x),1,(x + (x div 11))))
1: (1 + loop(\(x,i).compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x),2,x))
1: (1 + compr(\x.(2 + (x div 3) - ((x + (x div 2)) div 4)),x))
1: (2 + compr(\x.(2 + (x div 3) - ((x + (x div 2)) div 4)),x))
1: (1 + compr(\x.(loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x) + ((3x + 2) mod 7)),x))
1: (1 + compr(\x.(loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x) + ((1 + (x div 2)) mod 6)),x))
1: (1 + compr(\x.(loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x) + ((x + 1) mod 9)),x))
1: (1 + compr(\x.(loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x) + ((x + 1) mod 6)),x))
1: (1 + compr(\x.(loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x) + (x mod 7)),x))
1: (1 + compr(\x.(loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x) + (x mod 10)),x))
1: (1 + compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(5x + 2))),x))
1: (2 + compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(7x + 1))),x))
1: (1 + compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(4x + 1))),x))
1: (1 + compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x2 + 3x))),x))
1: (2 + compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x2 + 3x))),x))
1: (1 + compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,(3x + 1))),x))
1: (10 + compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,10x)),x))
1: (2 + compr(\x.(1 - (((2x div (1 + (2 * (x mod 4)))) mod 2) + (x mod 2))),x))
1: (1 + compr(\x.(1 - (((x mod (~1 + (2 * ((x + ~2) div 3)))) mod 2) + (x mod 2))),x))
1: (2 + compr(\x.(1 - (((x mod (~1 + (2 * ((x + ~2) div 3)))) mod 2) + (x mod 2))),x))
1: (1 + compr(\x.(1 - (((x mod (~2 + (x mod ~7))) mod 2) + (x mod 2))),x))
1: (1 + compr(\x.(1 - ((x + ((x + 2) div (2 + (x div 4)))) mod 5)),x))
1: (1 + compr(\x.(1 - ((1 + (((x + 1) * (~1 + loop(\(x,i).2x,x,loop(\(x,i).(3x + (if (i mod 3) <= 0 then 1 else 2)),x,1)))) div 3)) mod 3)),x))
1: (1 + compr(\x.(1 - ((1 + ((4 * ((2x + 1) - ((~x + ((~x + 2) div 4)) div 2))) div 3)) mod 3)),x))
1: (1 + compr(\x.(1 - ((x + ((x * ((1 + (x div 4)) div 2)) div 3)) mod 3)),x))
1: (1 + compr(\x.(1 - ((x + 1) mod (1 + ((2 + (x div 2)) div 3)))),x))
1: (1 + compr(\x.(1 - ((x + 1) mod (1 + ((x - ((x div 3) mod 3)) div 2)))),x))
1: (2 + compr(\x.(1 - ((x + 1) mod (1 + (x div (2 + (((x + ~2) div 3) mod (1 + (x mod 4)))))))),x))
1: (2 + compr(\x.(1 - ((x + 1) mod (1 + (x div (2 + (x mod (2 + (x mod 2)))))))),x))
1: (1 + compr(\x.(1 - ((x + 1) mod (1 + (x div (1 - (x div (~2 + (((~x + 2) div 2) div 5)))))))),x))
1: (1 + compr(\x.(1 - ((x + 1) mod (1 + ((~1 + loop(\(x,i).(x - (if x <= 0 then 1 else (2 * i))),x,x)) mod (x + 1))))),x))
1: (1 + compr(\x.(1 - ((x + 1) mod (2 * (1 + (x div 8))))),x))
1: (2 + compr(\x.(1 - ((x + 2) mod (2 + (x mod 9)))),x))
1: (1 + compr(\x.(1 - ((~1 + (2 * ((2x + 2) - ((x mod ~4) div 2)))) mod 5)),x))
1: (2 + compr(\x.(1 - ((~1 + loop(\(x,i).2x,x,2)) mod (x + 2))),x))
1: (1 + compr(\x.(1 - (((x + 1) - ((loop(\(x,i).2x,(if (x mod 3) <= 0 then x else 1),2) mod (x + 1)) div 2)) mod 3)),x))
1: (1 + compr(\x.(1 - ((2 * ((x + 2) + ((x + ((3 * ((3 * (x + (x div 4))) - (x mod 2))) div 7)) div 2))) mod 3)),x))
1: (1 + compr(\x.(1 - ((2 * ((x + 2) + ((x + (((2 * (~1 + (x div 4))) mod (x + 1)) div 2)) div 2))) mod 3)),x))
1: (1 + compr(\x.(1 - ((2 * (1 + ((2 + ((2 * (1 + ((2 * (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + ((1 + (x div 2)) div 2))))) div 3))) div 3) - (x mod 2)) div 2))) mod 3)),(x + 1)))
1: (1 + compr(\x.(1 - ((2 * (1 + ((1 + (x div (1 + ((~1 + (2 * ((x + 1) + ((2 * (1 + ((1 + (x div (1 + ((~1 + (2 * ((x + 1) + (2 div (1 + (3 div (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2)))))))) mod (x + 1))))) div 2))) div 3)))) mod (x + 1))))) div 2))) mod 3)),(x + 1)))
1: (1 + compr(\x.(1 - ((2 * (1 + ((2 * ((x + 1) + (2 * ((x + ((x div 2) mod 2)) div 2)))) div 3))) mod 3)),x))
1: (1 + compr(\x.(1 - ((2 * (1 + (((2 + ((9 * (1 + (x div 2))) mod (x + 1))) div 2) div 2))) mod 3)),x))
1: (1 + compr(\x.(1 - ((2 * (1 + (((((if x <= 0 then 1 else x) mod 2) - loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2) div 2))) mod 3)),x))
1: (1 + compr(\x.(1 - (((x + ~1) * (1 + (x div 2))) mod (1 + (x div 3)))),x))
1: (1 + compr(\x.(1 - (((x + 1) * (1 + (x mod 8))) mod 5)),x))
1: (1 + compr(\x.(1 - ((2 * (2 + (if x <= 0 then 1 else (2 * (1 + ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 2)))))) mod 3)),x))
1: (2 + compr(\x.(1 - ((x * ((x - (x div 3)) div 3)) mod 8)),x))
1: (1 + compr(\x.(1 - (((1 + ((loop(\(x,i).2x,(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x - ((if x <= 0 then 2 else loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 2)))),x,(x + 1))),1) div 2) div 3)) div 2) mod 3)),x))
1: (1 + compr(\x.(1 - (((x + 1) div (2 + ((x * (x div 2)) mod 2))) mod 3)),x))
1: (1 + compr(\x.(1 - ((((loop(\(x,i).(x * (4 + (x div 4))),1,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2) div 2) div 3) mod 3)),x))
1: (1 + compr(\x.(1 - (((loop(\(x,i).(x * (x div 2)),1,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2) div 2) mod 3)),x))
1: (1 + compr(\x.(1 - (((loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + 1)) mod (x + 1)) div 2) mod 3)),(x + 1)))
1: (1 + compr(\x.(1 - ((x div 2) mod (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 6)))),x))
1: (2 + compr(\x.(1 - (loop(\(x,i).(x * (1 + (i div 3))),x,1) mod (x + 2))),x))
1: (1 + compr(\x.(1 - (loop(\(x,i).(x * (2 + ((~1 + i) mod 4))),x,1) mod (x + 1))),x))
1: (2 + compr(\x.(1 - (loop(\(x,i).(x * (1 + (if (x mod (1 + i)) <= 0 then 0 else i))),x,1) mod (x + 2))),x))
1: (1 + compr(\x.(1 - (loop(\(x,i).(x * (2 + i)),4,1) mod (x + 1))),x))
1: (1 + compr(\x.(1 - (loop(\(x,i).(x * (2 + i)),8,1) mod (x + 1))),x))
1: (1 + compr(\x.(1 - (loop(\(x,i).x3,1,(1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1))) mod (x + 1))),x))
1: (2 + compr(\x.(1 - (loop(\(x,i).(x * (i * i)),(x div 2),1) mod (x + 2))),x))
1: (1 + compr(\x.(1 - (loop(\(x,i).x2,2,(1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1))) mod (x + 1))),x))
1: (1 + compr(\x.(1 - (loop(\(x,i).(x * i),(6 + (x mod 2)),1) mod (x + 1))),x))
1: (1 + compr(\x.(1 - (loop(\(x,i).(x * i),(4 + (x div 3)),1) mod (x + 1))),x))
1: (2 + compr(\x.(1 - (loop(\(x,i).(x * i),(x div 2),1) mod (x + 2))),x))
1: (1 + compr(\x.(1 - (loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,1) mod (2 + (x * (x mod 2))))),x))
1: (2 + compr(\x.(1 - (loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,1) mod (2 + (x * (x mod 2))))),x))
1: (2 + compr(\x.(1 - (loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x + 2)) mod 7)),x))
1: (1 + compr(\x.(1 - (x mod (1 + ((((2x + 1) mod (2 + (x div 2))) div 2) + (x mod 2))))),x))
1: (1 + compr(\x.(1 - (x mod (1 + (4 * (x mod (2 + ((~x + 2) mod 4))))))),x))
1: (1 + compr(\x.(1 - (x mod (1 + (2 * (x div (2 + ((x div 2) div 3))))))),x))
1: (1 + compr(\x.(1 - (x mod (1 + (3 * (x mod (3 + (x mod 2))))))),(x + 1)))
1: (2 + compr(\x.(1 - (x mod (1 + (3 * (x mod (3 + (x mod 2))))))),x))
1: (2 + compr(\x.(1 - (x mod (1 + (3 * (x mod (1 + (x mod 4))))))),x))
1: (2 + compr(\x.(1 - (x mod (2 + (13 mod (x + 1))))),x))
1: (1 + compr(\x.(1 - (x mod (2 + ((1 + (3 * ((1 + (x div 4)) div 2))) mod (x + 1))))),x))
1: (1 + compr(\x.(1 - (x mod (2 + ((2x + 1) mod 7)))),x))
1: (1 + compr(\x.(1 - (x mod (1 + ((1 + (x mod (1 + (2 * (2 + ((2x + 2) mod 9)))))) mod (x + 1))))),x))
1: (1 + compr(\x.(1 - (x mod (1 + ((x + 2) mod (2 + ((~x + 1) mod (1 + (x div 2)))))))),x))
1: (1 + compr(\x.(1 - (x mod (2 + ((~x + 1) mod (1 + (x div 3)))))),x))
1: (1 + compr(\x.(1 - (x mod (1 + ((~1 + loop(\(x,i).2x,x,(1 + (x mod (2 * (1 + (x mod 2)))))) - (x mod 2)) mod (2x + 1))))),x))
1: (x + compr(\x.(1 - (x mod (2 + (x2 mod 6)))),(x + 1)))
1: (1 + compr(\x.(1 - (x mod (1 + (((x2 + 3x + 2) div 2) mod 9)))),(x + 1)))
1: (1 + compr(\x.(1 - (x mod (1 + ((((4x + ~4) div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2) mod 3)))),x))
1: (1 + compr(\x.(1 - (x mod (1 + ((x div ~2) mod 8)))),x))
1: (1 + compr(\x.(1 - (x mod (2 + ((2x mod (1 + (x div 4))) mod 2)))),(x + 1)))
1: (1 + compr(\x.(1 - (x mod (1 + (loop(\(x,i).(3x + 2),x,0) mod (x + 1))))),x))
1: (1 + compr(\x.(1 - (x mod (1 + (loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,1) mod 9)))),x))
1: (1 + compr(\x.(1 - (x mod (2 + (x mod 3)))),(x + 1)))
1: (1 + compr(\x.(1 - (x mod (1 + (x mod (5 + (x mod 2)))))),(x + 1)))
1: (1 + compr(\x.(1 - (x mod (2 + (x mod (2 + ((x - (x div 4)) div 2)))))),x))
1: (1 + compr(\x.(1 - (x mod (1 + (x mod (2 + (4x mod (4 + (x div 4)))))))),x))
1: (1 + compr(\x.(1 - (x mod (1 + (x mod (1 + (x2 mod (x + 5))))))),x))
1: (1 + compr(\x.(1 - (x mod (1 + (x mod 6)))),(x + 2)))
1: (2 + compr(\x.(1 - (x mod (1 + (x mod 6)))),x))
1: (2 + compr(\x.(1 - (x mod (1 + (if (x mod 8) <= 0 then 2 else 1)))),x))
1: (1 + compr(\x.(1 - (x mod (1 - (x div (~1 + ((~x + 2) div 4)))))),x))
1: (2 + compr(\x.(1 - (x mod (1 - (x div (~1 + ((~x + 2) div 4)))))),x))
1: (1 + compr(\x.(1 - (x mod (2 - (x mod ~3)))),x))
1: (2 + compr(\x.(1 - (x mod (2 * (1 + ((~1 + (x div 2)) mod 4))))),(x + 1)))
1: (2 + compr(\x.(1 - loop(\(x,i).(x - (loop(\(x,i).((x2 + x) div 2),2,3x) mod (x + 1))),x,x)),x))
1: (1 + compr(\x.(1 - loop(\(x,i).(x div (if (x mod 2) <= 0 then ~2 else 1)),x,x)),(2x + 1)))
1: (1 + compr(\x.(1 - loop(\(x,i).(x div (if (x mod 2) <= 0 then ~2 else 1)),x,x)),2x))
1: (2 + compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 4x))),x))
1: (2 + compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),(x + 2)))
1: (1 + compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),x))
1: (2 + compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),x))
1: (x + compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),i))
1: (2 + compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(3x + 2))),x))
1: (2 + compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + 2x + 2))),x))
1: (1 + compr(\x.(1 - loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(2x2 + 2x + 1))),x))
1: (1 + compr(\x.(1 - loop(\(x,i).loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x + 2)),1,(x2 + 4x))),x))
1: (1 + compr(\x.(4 - (69 mod (x + 1))),x))
1: (1 + compr(\x.(2 - ((x div 2) div (1 + (x mod 6)))),x))
1: (1 + compr(\x.(2 - (((x + 1) + (((x + 1) + (x div (1 - (2 * ((~x + 1) div (2 + (x div 2))))))) div 2)) mod 5)),x))
1: (4 + compr(\x.(2 - ((x3 + 1) mod (x + 4))),x))
1: (2 + compr(\x.(2 - ((x2 + 2) mod (x + 4))),x))
1: (1 + compr(\x.(2 - ((x + ((x + ~1) div 3)) mod 5)),x))
1: (2 + compr(\x.(2 - ((x + 1) mod (1 + (2x mod (x + 8))))),x))
1: (3 + compr(\x.(2 - ((x + 1) mod (1 + (2x mod (1 + (x div 2)))))),x))
1: (1 + compr(\x.(2 - ((0 - loop(\(x,i).2x,x,(if (x mod (2 + ((~x + 1) mod 3))) <= 0 then 1 else 0))) mod (x + 1))),x))
1: (1 + compr(\x.(2 - ((~1 + loop(\(x,i).4x,x,2)) mod (x + 1))),x))
1: (1 + compr(\x.(2 - ((~1 + loop(\(x,i).2x,x,2)) mod (1 + (if (~1 + (x mod 3)) <= 0 then x else 2)))),x))
1: (1 + compr(\x.(2 - ((~1 + loop(\(x,i).2x,x,(if (x mod 3) <= 0 then 1 else 2))) mod (x + 1))),x))
1: (1 + compr(\x.(2 - ((~1 + loop(\(x,i).2x,x,(if (x mod 4) <= 0 then 2 else (x mod 2)))) mod (x + 1))),x))
1: (1 + compr(\x.(2 - (((x + 1) * (2 + (if (x mod 3) <= 0 then 0 else 2))) mod 5)),(x + 1)))
1: (1 + compr(\x.(2 - ((x2 + 4x + 4) mod (~x + 26))),x))
1: (1 + compr(\x.(2 - ((x2 + 2x) mod (1 + (3 * (x mod 4))))),x))
1: (4 + compr(\x.(2 - ((~2x + 4) mod (4 + (x div 4)))),x))
1: (1 + compr(\x.(2 - ((2x3 + 7x2 + 6x) mod 11)),x))
1: (1 + compr(\x.(2 - (x3 mod (x + 4))),x))
1: (1 + compr(\x.(2 - ((if x <= 0 then 1 else (2 * (1 + ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 2)))) mod 3)),x))
1: (1 + compr(\x.(2 - ((if x <= 0 then 1 else (2 * (1 + ((loop(\(x,i).2x,x,1) mod (x + 1)) div 2)))) mod 3)),x))
1: (1 + compr(\x.(2 - (loop(\(x,i).((2x + 1) + (x mod 2)),x,0) mod (x + 1))),(x + 1)))
1: (1 + compr(\x.(2 - (loop(\(x,i).(2x2 + ~1),2,4) mod (x + 1))),x))
1: (1 + compr(\x.(2 - (loop(\(x,i).((x + 1) * (1 + ((~x + 2) mod 4))),x,5) mod (x + 1))),x))
1: (2 + compr(\x.(2 - (loop(\(x,i).2x,x,2) mod (x + 2))),x))
1: (1 + compr(\x.(2 - (loop(\(x,i).2x,x,(~1 + (if ((x + 1) mod (3 - (x mod 2))) <= 0 then x else 1))) mod (x + 1))),x))
1: (1 + compr(\x.(2 - (loop(\(x,i).2x,x,(if (~2 + (x div 3)) <= 0 then 2 else 1)) mod (x + 1))),x))
1: (1 + compr(\x.(2 - (loop(\(x,i).x2,2,35) mod (x + 1))),x))
1: (2 + compr(\x.(2 - (x mod (1 + (2 * (1 + (x mod 3)))))),x))
1: (1 + compr(\x.(2 - (x mod (1 + (4 * (2x mod 5))))),(x + 1)))
1: (1 + compr(\x.(2 - (x mod (1 + (2 * (if ((x + 1) mod 8) <= 0 then 2 else 1))))),x))
1: (1 + compr(\x.(2 - (x mod (~1 + ((~1 + (6 * (1 + (loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),x,(2x + 1)) div (x + 1))))) div 2)))),x))
1: (1 + compr(\x.(2 - (x mod (~1 + (loop(\(x,i).2x,x,x) mod (x + 1))))),x))
1: (1 + compr(\x.(2 - (x mod ((x + 1) - (loop(\(x,i).2x,x,1) mod (x + 1))))),x))
1: (2 + compr(\x.(2 - loop(\(x,i).(x div (1 + (2 * (x mod 2)))),2,x)),x))
1: (1 + compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(~2 + (x div 2)),x)),x))
1: (1 + compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(3x + 1))),x))
1: (2 + compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(3x + 1))),x))
1: (1 + compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + x + 1))),x))
1: (2 + compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + x + 1))),x))
1: (1 + compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(4x + 1))),x))
1: (2 + compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + x + ~1))),x))
1: (1 + compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + 2x + ~2))),x))
1: (2 + compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + ~x + ~1))),x))
1: (2 + compr(\x.((x + 2) - (3 * (~2 + ((x - (x div 4)) div 2)))),x))
1: (4 + compr(\x.((if x <= 0 then 1 else 2) - ((x mod 2) + ((1 + (8 mod (1 + (x div 2)))) div 2))),(x + 1)))
1: (1 + compr(\x.(~2 + loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) - (x mod 4)),x))
1: (1 + compr(\x.((x + ~1) - ((4x + 4) div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))),x))
1: (1 + compr(\x.((3 * (x mod 10)) - (x div 4)),(x + 1)))
1: (1 + compr(\x.(~1 + ((1 + (((x + 1) * (1 - (loop(\(x,i).x2,2,(1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1))) mod (x + 1)))) div 2)) div 2)),x))
1: (1 + compr(\x.(~1 + ((x div 4) div (1 + (x mod (2 * (1 + (x mod 2))))))),x))
1: (1 + compr(\x.(~1 + ((8x mod (1 + (x div 2))) div 2)),x))
1: (1 + compr(\x.(~1 + (loop(\(x,i).8x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),1) div (x + 1))),x))
1: (2 + compr(\x.(~1 + (((x + 1) + (x div 8)) mod 5)),x))
1: (2 + compr(\x.(~1 + (((x + 1) + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x)) mod 3)),x))
1: (1 + compr(\x.(~1 + ((x + (2 * (1 + (2 * (x - ((x mod (2 + (6 mod (1 + (x div 2))))) div 2)))))) mod 3)),x))
1: (1 + compr(\x.(~1 + ((1 + (((1 + (2x mod (2 + (x div 3)))) div 2) * (loop(\(x,i).(2x + 2),x,0) mod (x + 1)))) mod (x + 1))),x))
1: (1 + compr(\x.(~2 + ((1 + (9 * ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3))) mod (x + 1))),x))
1: (1 + compr(\x.(~1 + ((1 + (x * loop(\(x,i).(~x2 + 1),2,4x))) mod (x + 1))),x))
1: (1 + compr(\x.(~1 + ((1 + ((x + 1) div (2 + ((2 + (x mod 8)) mod (x + 1))))) mod 3)),x))
1: (1 + compr(\x.(~1 + ((x + ((x - (((x + ~1) mod (2 + (x div 2))) div 2)) div 2)) mod 3)),x))
1: (1 + compr(\x.(~1 + ((2 + ((2 * ((x + 1) - (2 * (((x + ~1) div 2) mod 2)))) div 3)) mod 3)),x))
1: (1 + compr(\x.(~1 + ((1 + (loop(\(x,i).(5x + 2),x,1) div (x + 1))) mod 3)),x))
1: (1 + compr(\x.(~1 + ((1 + ((x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) mod 9)) mod (x + 1))),x))
1: (1 + compr(\x.(~1 + ((1 + ((x mod 11) mod 9)) mod (x + 1))),x))
1: (1 + compr(\x.(~1 + ((1 + ((x mod 10) mod 8)) mod (x + 1))),x))
1: (1 + compr(\x.(~1 + ((1 + (x mod (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))) mod (x + 1))),(x + 2)))
1: (1 + compr(\x.(~2 + ((1 + (x mod (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))) mod (x + 1))),x))
1: (1 + compr(\x.(~1 + ((1 + (x mod (1 + (x mod (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))))) mod (x + 1))),x))
1: (1 + compr(\x.(~1 + ((1 + (x mod (2 + (x mod ((x + 1) - ((x - (((x + ~1) + ((x + 1) mod (~1 + (2 * (x - (x mod 10)))))) div 2)) div 2)))))) mod (x + 1))),x))
1: (2 + compr(\x.(~1 + ((1 + (if (1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 2 else 1)),x,x)) <= 0 then 1 else x)) mod 5)),x))
1: (2 + compr(\x.(~1 + ((1 + (if (x mod 3) <= 0 then 0 else (if ((1 + (x div 3)) mod 5) <= 0 then 2 else 1))) mod 3)),x))
1: (1 + compr(\x.(~1 + ((1 + (if (x mod 7) <= 0 then 0 else x)) mod (1 + (x div 3)))),x))
1: (1 + compr(\x.(~1 + ((1 + loop(\(x,i).(6x2 + ~12),2,(x + 1))) mod (x + 1))),x))
1: (2 + compr(\x.(~1 + ((1 + loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),x,(x + 2))) mod 3)),x))
1: (1 + compr(\x.(((x + 1) mod (1 + ((x div 2) div 3))) - (x mod 2)),x))
1: (1 + compr(\x.(~2 + ((x + 1) mod (1 + (x div (2 + (x mod 2)))))),x))
1: (1 + compr(\x.(~1 + ((x + 1) mod (1 + (x div (2 + (if (x mod 5) <= 0 then 2 else 0)))))),x))
1: (1 + compr(\x.(~1 + ((x + 1) mod ((x + 1) - (loop(\(x,i).2x,x,1) mod (x + 1))))),(x + 1)))
1: (1 + compr(\x.(~1 + ((x + 2) mod (1 + ((x - ((x div 3) mod 3)) div 2)))),x))
1: (2 + compr(\x.(~1 + ((1 + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x)) mod 3)),x))
1: (2 + compr(\x.(~1 + ((1 + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x)) mod 5)),x))
1: (1 + compr(\x.(~1 + ((1 + compr(\x.loop(\(x,i).(x - (if (x mod (2 + i)) <= 0 then 0 else 1)),x,x),x)) mod 3)),x))
1: (1 + compr(\x.(~1 + ((1 - (2x2 div (x + 7))) mod 3)),x))
1: (1 + compr(\x.(~1 + ((1 - (x div (2 + (x div (2 * (2 - (x mod 2))))))) mod 3)),x))
1: (1 + compr(\x.(~1 + ((1 - loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 0 else 2))),x,(2x + 2))) mod (x + 1))),x))
1: (1 + compr(\x.(~1 + (((2 * (x + (x div 3))) - (x div 7)) mod 3)),x))
1: (1 + compr(\x.(~1 + ((~1 + (2 * (if x <= 0 then 1 else (2 * ((loop(\(x,i).2x,x,(if (x mod 4) <= 0 then 0 else 1)) mod (x + 1)) div 2))))) mod 3)),(x + 1)))
1: (1 + compr(\x.(~1 + ((~1 + ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 2)) mod 3)),x))
1: (1 + compr(\x.(~1 + ((~x + (x mod (1 + ((x div 2) div 3)))) mod 3)),x))
1: (1 + compr(\x.(~2 + ((x + ~1) mod (2 + (x div 4)))),x))
1: (1 + compr(\x.(~2 + ((x + ~1) mod (1 + (x mod 6)))),x))
1: (1 + compr(\x.(~1 + (((x + ~1) + (x div (1 + (x div 5)))) mod 3)),x))
1: (1 + compr(\x.(~1 + ((x - (((x mod 4) - (x div 2)) div 3)) mod 3)),x))
1: (1 + compr(\x.(~1 + (3x mod (1 + (x div 4)))),x))
1: (1 + compr(\x.(~1 + ((2 * ((x + 2) + (if x <= 0 then 1 else (4x + ((x + (2 * (x mod 2))) div 5))))) mod 3)),x))
1: (2 + compr(\x.(~1 + ((3 * ((2x + 1) - ((x div 4) mod 2))) mod 5)),x))
1: (1 + compr(\x.(~1 + ((2 * (x + ((x + ((x * (x div 2)) mod 2)) div 3))) mod 3)),x))
1: (1 + compr(\x.(~1 + ((2 * (x + (((1 + (((x + 1) div 2) mod 3)) * ((~1 + (x div 2)) div 2)) div 2))) mod 3)),x))
1: (1 + compr(\x.(~1 + (((x + 1) * (1 + (((x + ~1) div 2) mod 4))) mod 3)),x))
1: (1 + compr(\x.(~1 + (((x + 1) * (1 + (x mod (2 * (2 + ((x2 + x) mod 8)))))) mod 3)),(x + 1)))
1: (1 + compr(\x.(~1 + ((2 * (1 + loop(\(x,i).loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1,(3x + 3)))) mod 3)),x))
1: (1 + compr(\x.(~1 + ((2 * (~x + (x2 div 3))) mod 5)),x))
1: (3 + compr(\x.(~1 + ((x2 + ~x) mod (1 + (x div 4)))),x))
1: (1 + compr(\x.(~1 + ((2x + ~4) mod loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))),x))
1: (1 + compr(\x.(~1 + (9x mod loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))),x))
1: (2 + compr(\x.(~1 + (4x mod (8 - (x mod 2)))),x))
1: (1 + compr(\x.(~1 + (x3 mod (2 + (x div 4)))),x))
1: (1 + compr(\x.(~1 + ((2 * ((3 * (3 + (((~1 + (6 * (1 + (((~1 + (6 * (1 + ((1 + ((loop(\(x,i).2x,x,2) mod (x + 1)) div 2)) div 2)))) div 2) div 2)))) div 2) div 2))) div 2)) mod 3)),x))
1: (2 + compr(\x.(~1 + ((2 * (((x div 3) * (x div 2)) div 2)) mod 3)),x))
1: (1 + compr(\x.(~1 + (2x mod (1 + (x div 4)))),x))
1: (1 + compr(\x.(~1 + (2x mod (~1 + (2 * ((1 + (x div 2)) div 2))))),x))
1: (1 + compr(\x.(~1 + (((1 + ((((x + 1) * (2 + ((if (x mod 2) <= 0 then (x + 3) else x) mod (x + 1)))) div 2) div 2)) div 2) mod 3)),(x + 1)))
1: (1 + compr(\x.((((x + 1) div (1 + (2 * (x mod (3 * (1 + (x mod 4))))))) mod 2) - (x mod 2)),x))
1: (1 + compr(\x.((((x + 1) div (1 + ((2x + 1) mod 9))) mod 2) - (x mod 2)),x))
1: (2 + compr(\x.((((x + 1) div (1 + (x mod 5))) mod 2) - (x mod 2)),x))
1: (2 + compr(\x.((((x + 1) div (2 + (if (~2 + (x div 4)) <= 0 then 1 else 2))) mod 2) - (x mod 2)),x))
1: (1 + compr(\x.((((x - ((x - (x mod 3)) div 2)) div 2) mod 2) - (x mod 2)),x))
1: (1 + compr(\x.(((((1 - (2 * ((x mod (1 + (((x + 1) div 2) div 2))) mod 2))) * (1 + (x div 2))) div 2) mod 2) - (x mod 2)),x))
1: (2 + compr(\x.(~1 + ((loop(\(x,i).((2x + 1) - ((1 - (x div 2)) div 3)),x,1) div 2) mod 3)),x))
1: (1 + compr(\x.(~1 + ((loop(\(x,i).(3x + 3),x,1) div 2) mod (x + 1))),x))
1: (1 + compr(\x.(~1 + ((x div 2) mod (1 + (6 * (x mod 2))))),x))
1: (1 + compr(\x.(~1 + ((x div 2) mod (1 + (if (x mod 2) <= 0 then 6 else 1)))),x))
1: (1 + compr(\x.(~1 + (((1 - (2 * ((2x + 2) + ((x - (x div 4)) div 2)))) mod (x + 1)) mod 3)),x))
1: (1 + compr(\x.(~1 + (((~1 + (2 * (1 + ((1 + (((loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) + (loop(\(x,i).(2x + 2),x,0) mod (x + 1))) div 2) div 2)) div 2)))) mod (x + 1)) mod 3)),x))
1: (1 + compr(\x.((((x + ~1) mod (1 + (x div 5))) mod 2) - (x mod 2)),x))
1: (1 + compr(\x.(~1 + ((x mod 7) mod (1 + (x div 4)))),x))
1: (1 + compr(\x.(~2 + (loop(\(x,i).(5x + 2),x,0) mod (x + 1))),x))
1: (1 + compr(\x.(~1 + (loop(\(x,i).(4x + 9),x,1) mod (x + 1))),(x + 1)))
1: (1 + compr(\x.(~1 + (loop(\(x,i).(4x + 1),x,1) mod (2x + 1))),(x + 1)))
1: (1 + compr(\x.(~1 + (loop(\(x,i).(x + (i * i * i * i)),x,1) mod (x + 1))),x))
1: (1 + compr(\x.(~1 + (loop(\(x,i).(2x + 1),x,((x div 4) mod 2)) mod (x + 1))),x))
1: (1 + compr(\x.(~2 + (loop(\(x,i).(~2x + 1),x,0) mod (x + 1))),x))
1: (1 + compr(\x.(~1 + (loop(\(x,i).(2x2 + ~1),2,4) mod (x + 1))),x))
1: (1 + compr(\x.(~2 + (loop(\(x,i).(~1 + ((x + 1) * loop(\(x,i).(x2 + 1),2,3))),2,1) mod (x + 1))),x))
1: (1 + compr(\x.(~1 + (loop(\(x,i).(2x + 6),x,1) mod (x + 1))),x))
1: ((x + 2) + compr(\x.(~1 + (loop(\(x,i).(2x + 6),x,1) mod (x + 1))),x))
1: (1 + compr(\x.(~1 + (loop(\(x,i).(4x + 2),(x div 2),1) mod (x + 1))),(x + 1)))
1: (1 + compr(\x.(~1 + (loop(\(x,i).(4x + 2),(x div 2),1) mod (x + 1))),x))
1: (1 + compr(\x.(~1 + (loop(\(x,i).(2x + 2),(if (x mod 2) <= 0 then x else 1),1) mod (x + 1))),(x + 1)))
1: (1 + compr(\x.(~1 + (loop(\(x,i).(2x + 2),(if (x mod 2) <= 0 then x else 1),1) mod (x + 1))),x))
1: (1 + compr(\x.(~1 + (loop(\(x,i).(2x + 2),x,1) mod (1 + (x div (1 + (x mod 2)))))),(x + 2)))
1: (1 + compr(\x.(~1 + (loop(\(x,i).(2x + 2),x,1) mod (x + 1))),x))
1: (1 + compr(\x.(~1 + (loop(\(x,i).(2x + 2),x,2) mod loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))),x))
1: (1 + compr(\x.(~2 + (loop(\(x,i).(2x + 4),x,(2 * (x mod 2))) mod (x + 1))),x))
1: (1 + compr(\x.(~2 + (loop(\(x,i).~2x,x,2) mod (x + 1))),x))
1: (1 + compr(\x.(~1 + (loop(\(x,i).(2 * (x - (i mod 2))),x,1) mod (x + 1))),x))
1: (2 + compr(\x.(~1 + (loop(\(x,i).4x,x,1) mod (2x + 1))),x))
1: (x + compr(\x.(~1 + (loop(\(x,i).4x,x,1) mod (2x + 1))),i))
1: (1 + compr(\x.(~1 + (loop(\(x,i).4x,x,1) mod (x + 1))),x))
1: (1 + compr(\x.(~1 + (loop(\(x,i).2x,x,1) mod (1 + (2x mod (2 + (x div 4)))))),x))
1: (1 + compr(\x.(~1 + (loop(\(x,i).2x,x,1) mod (x + 1))),x))
1: (1 + compr(\x.(~1 + (loop(\(x,i).2x,x,2) mod (1 + (if (~1 + (x mod 3)) <= 0 then x else 2)))),x))
1: (2 + compr(\x.(~1 + (loop(\(x,i).2x,x,2) mod (x + 2))),(x + 1)))
1: (2 + compr(\x.(~1 + (loop(\(x,i).2x,x,(1 + (if (x mod 2) <= 0 then 2x else 1))) mod (x + 2))),x))
1: (1 + compr(\x.(~1 + (loop(\(x,i).2x,x,loop(\(x,i).(x + (i * i)),x,1)) mod (x + 1))),x))
1: (1 + compr(\x.((x mod 2) - (loop(\(x,i).(x2 + 2x),2,2) mod (x + 1))),x))
1: (1 + compr(\x.(~1 + (x mod (1 + (10 * (x mod 2))))),x))
1: (2 + compr(\x.(~1 + (x mod (1 + (2 * (if ((x + ~2) mod 7) <= 0 then 1 else 2))))),x))
1: (1 + compr(\x.(~1 + (x mod (1 + (2 * (if (x mod 2) <= 0 then (x div 4) else 1))))),x))
1: (2 + compr(\x.(~1 + (x mod (1 + (2 * (if (x mod 3) <= 0 then 0 else 2))))),x))
1: (1 + compr(\x.(~1 + (x mod (1 + ((~x mod (2 + (x div 3))) div 2)))),x))
1: (1 + compr(\x.(~1 + (x mod (2 + ((x + 4) mod (1 + (x div 4)))))),x))
1: (1 + compr(\x.(~1 + (x mod (1 + ((9x + 1) mod (1 + (x div 2)))))),x))
1: (1 + compr(\x.(~1 + (x mod (1 + ((1 + (x mod (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))) mod (x + 1))))),x))
1: (1 + compr(\x.(~1 + (x mod (1 + ((~1 + ((1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),(1 + (2 * (x mod 2))),(x + ~1))) mod 3)) mod (x + 1))))),x))
1: (1 + compr(\x.(~1 + (x mod (1 + ((~1 + (((2x + 2) * (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 8))) mod 3)) mod (x + 1))))),x))
1: (1 + compr(\x.(~1 + (x mod (1 + ((~1 + loop(\(x,i).(~2x + 1),x,6)) mod (x + 1))))),x))
1: (1 + compr(\x.(~1 + (x mod (1 + ((loop(\(x,i).2x,x,1) - (x mod 2)) mod (x + 1))))),(x + 1)))
1: (1 + compr(\x.(~1 + (x mod (1 + ((loop(\(x,i).2x,x,1) - (x mod 2)) mod (x + 1))))),x))
1: (1 + compr(\x.(~1 + (x mod (1 + ((~1 + loop(\(x,i).2x,x,(1 - loop(\(x,i).(2 * (x - (i mod 2))),x,0)))) mod (x + 1))))),x))
1: (1 + compr(\x.(~1 + (x mod (1 + ((~1 + loop(\(x,i).2x,x,(~1 + (x mod 4)))) mod (x + 1))))),(x + 1)))
1: (1 + compr(\x.(~1 + (x mod (1 + ((x + ~1) mod 8)))),x))
1: (2 + compr(\x.(~1 + (x mod (2 + ((5 * (x mod 2)) mod (x + 1))))),x))
1: (1 + compr(\x.(~1 + (x mod (1 + (((1 - loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2) mod (x + 1))))),x))
1: (2 + compr(\x.(~1 + (x mod (2 + ((x div 2) mod 4)))),x))
1: (1 + compr(\x.(~1 + (x mod (2 + (x mod 3)))),x))
1: (1 + compr(\x.(~1 + (x mod (2 + (x mod (x - ((x + ~1) mod 8)))))),x))
1: (1 + compr(\x.(~1 + (x mod (~1 + (6 * (loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)))))),(x + 1)))
1: (1 + compr(\x.(~1 + (x mod ((x + 1) - (x mod 9)))),x))
1: (1 + compr(\x.(~1 + (compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x) mod 3)),x))
1: (1 + compr(\x.(~2 + (if ((x + 1) mod (2 + ((x div 2) mod 2))) <= 0 then x else 0)),(x + 1)))
1: (1 + compr(\x.(~1 + loop(\(x,i).(x + (if x <= 0 then 1 else (if (x mod 2) <= 0 then x else loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),x,x)))),2,x)),x))
1: (1 + compr(\x.(~1 + loop(\(x,i).(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 1))),2,x)),(x + 1)))
1: (x + compr(\x.(~1 + loop(\(x,i).(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,x)),2,x)),2x))
1: (2 + compr(\x.(loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x) - (x div 11)),x))
1: (2 + compr(\x.(~x + loop(\(x,i).x2,1,loop(\(x,i).(x div (~2 + (x mod 2))),x,(x + 1)))),x))
1: (1 + compr(\x.(~1 + loop(\(x,i).(if x <= 0 then 1 else loop(\(x,i).(if (x mod 2) <= 0 then 2 else loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),x,x)),2,x)),2,x)),x))
1: (2 + compr(\x.(~1 + loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(9x + 6))),x))
1: (1 + compr(\x.(~1 + loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(6x2 + 12x + 3))),x))
1: (2 + compr(\x.(~1 + loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,18x)),x))
1: (1 + compr(\x.(~1 + loop(\(x,i).loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + 1)),1,(x2 + x))),x))
1: (1 + compr(\x.(~1 + loop(\(x,i).loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + 1)),1,(x2 + 2x))),x))
1: (1 + compr(\x.((x + 1) - ((2 * ((x + 2) + (if x <= 0 then 1 else (2 * (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))))))) div 3)),x))
1: (1 + compr(\x.(x - (3 * (1 + (x3 mod 11)))),x))
1: (1 + compr(\x.(x - (3 * (~1 + ((x + (x div 2)) div 4)))),x))
1: (1 + compr(\x.(x - ((1 + (x * loop(\(x,i).(4x2 + ~1),2,2x))) mod (x + 1))),x))
1: (1 + compr(\x.(x - ((2 + (x * loop(\(x,i).(4x2 + x),2,2x))) mod (x + 1))),x))
1: (1 + compr(\x.(x - ((2 + (x * loop(\(x,i).2x2,2,(x + ~2)))) mod (x + 1))),x))
1: (1 + compr(\x.(x - ((2 + (x * loop(\(x,i).3x2,2,2x))) mod (x + 1))),x))
1: (1 + compr(\x.(x - ((1 + loop(\(x,i).(x * (4x + (i mod 2))),2,2x)) mod (x + 1))),x))
1: (1 + compr(\x.(x - ((1 + loop(\(x,i).(x4 + 3x3 + 2x2),1,(x2 + 2))) mod (x + 1))),x))
1: (1 + compr(\x.(x - (loop(\(x,i).(5x2 + x + 10),2,x) mod (x + 1))),x))
1: (1 + compr(\x.(x - (loop(\(x,i).(5x2 + ~5x + 2),2,x) mod (x + 1))),x))
1: (1 + compr(\x.(x - (loop(\(x,i).(2x2 + 1),2,3x) mod (x + 1))),x))
1: (1 + compr(\x.(x - (loop(\(x,i).(~2x + 1),x,3) mod (x + 2))),x))
1: (1 + compr(\x.(x - (loop(\(x,i).(3x2 + ~1),2,5) mod (x + 1))),x))
1: (1 + compr(\x.(x - (loop(\(x,i).(x3 + 2x2 + 2x),2,3) mod (x + 1))),x))
1: (1 + compr(\x.(x - (loop(\(x,i).(x * (1 + (3x * (2 + i)))),2,x) mod (x + 1))),x))
1: (2 + compr(\x.(x - (loop(\(x,i).~2x,x,4) mod (x + 2))),x))
1: (1 + compr(\x.(x - (loop(\(x,i).(6x2 + ~5x + 1),2,x) mod (x + 1))),x))
1: (1 + compr(\x.(x - (loop(\(x,i).(x2 * (~1 + (3 * (2 + i)))),2,x) mod (x + 1))),x))
1: (1 + compr(\x.(x - (loop(\(x,i).(9x2 + 18x),2,x) mod (x + 1))),x))
1: (1 + compr(\x.(x - (loop(\(x,i).(16x2 + ~8),2,x) mod (x + 1))),x))
1: (1 + compr(\x.(x - (loop(\(x,i).x5,2,~4) mod (x + 1))),x))
1: (2 + compr(\x.(x - (loop(\(x,i).2x,x,x) mod (x + 2))),x))
1: (2 + compr(\x.(x - loop(\(x,i).x2,2,(loop(\(x,i).(2x + 2),x,2) mod (x + 2)))),(x + 1)))
1: (2 + compr(\x.(x - loop(\(x,i).loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),x,(2x + 1)),2,(x + 1))),x))
1: (2 + compr(\x.((x mod 10) * (x mod 7)),x))
1: (2 + compr(\x.(((loop(\(x,i).(x4 mod 27),2,(2x + 1)) div 2) div 2) div 3),x))
1: (1 + compr(\x.((x mod (2 + ((2 * (x mod (~1 + (2 * (x mod 5))))) mod (x + 1)))) div 2),x))
1: (1 + compr(\x.(((x + 1) + (((x + 1) + ((x + loop(\(x,i).(x + (x div 3)),2,(x + ~1))) div 2)) div 2)) mod 3),x))
1: (1 + compr(\x.((1 + (2 * ((2x + 1) - ((x + (x mod 3)) div 7)))) mod 3),x))
1: (1 + compr(\x.((2 + (x * (1 + (x * loop(\(x,i).(6x2 + 2),2,x))))) mod (x + 1)),x))
1: (1 + compr(\x.((x2 + 2x + 1) mod loop(\(x,i).(1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),2,x)),x))
1: (2 + compr(\x.((x2 + 2x + 2) mod (5 * (~1 + (2 * (6 + (x mod 2)))))),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(3x2 + x + 1),2,2x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(4x2 + x + 1),2,2x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(3x2 + ~2x + 1),2,2x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(2x2 + ~x + 1),2,2x))) mod (x + 1)),x))
1: (1 + compr(\x.((2 + (x * loop(\(x,i).(9x2 + 2),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((2 + (x * loop(\(x,i).(3x2 + x),2,2x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(~x2 + 1),2,4x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(~3x2 + x + ~1),2,2x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(~4x2 + 4x + ~3),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(~6x2 + 2x + ~1),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(6x2 + 12x + ~7),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(6x2 + ~5x),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(~2x2 + x),2,(x + ~2)))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(16x2 + 14x + 3),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(5 * (2 + (x * (x + i)))),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(6x2 + ~3x + 3),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((2 + (x * loop(\(x,i).(9x2 + x),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(x * (1 + (3x * (2 + i)))),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(16x2 + 10x + 1),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((2 + (x * loop(\(x,i).(4x2 + x),2,2x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(6x2 + 3),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).((2x2 + 1) * (2 + i)),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(6x2 + 2),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(2x2 + x),2,3x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(2x2 + 2),2,3x))) mod (x + 1)),x))
1: (1 + compr(\x.((2 + (x * loop(\(x,i).(3x2 + 3),2,2x))) mod (x + 1)),x))
1: (1 + compr(\x.((2 + (x * loop(\(x,i).(2x2 + 8),2,2x))) mod (x + 1)),x))
1: (1 + compr(\x.((2 + (x * loop(\(x,i).(x2 + x),1,loop(\(x,i).x2,2,5)))) mod (x + 1)),x))
1: (1 + compr(\x.((2 + (x * loop(\(x,i).(x2 + x),2,5x))) mod (x + 1)),x))
1: (1 + compr(\x.((2 + (x * loop(\(x,i).(x2 + x),2,4x))) mod (x + 1)),x))
1: (1 + compr(\x.((2 + (x * loop(\(x,i).~2x2,2,3x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(~10x2 + ~3x),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(~6x2 + ~11x + 2),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(~12x2 + 3),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(11x2 + 2x),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(~x2 + 4x + ~4),2,2x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(3x2 + ~2x),2,2x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(10x2 + 2x + ~2),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(x * (~1 + (2 * (4x + i)))),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(5x2 + 10x + ~10),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(4x2 + ~9x),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(16x2 + 56x + 46),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(8x2 + ~x),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((2 + (x * loop(\(x,i).(8x2 + ~x),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(x * (~1 + (4x * (1 + i)))),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(6x2 + ~6x + ~3),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((2 + (x * loop(\(x,i).(6x2 + ~2x),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(8x2 + ~2),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(2x2 + ~3x + 1),2,2x))) mod (x + 1)),x))
1: (1 + compr(\x.((2 + (x * loop(\(x,i).(2x2 + ~3x + 1),2,2x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(2x2 + ~x),2,(~x + 2)))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(2x2 + ~x),2,3x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(2x2 + ~x),2,2x))) mod (x + 1)),x))
1: (1 + compr(\x.((2 + (x * loop(\(x,i).(3x2 + ~3),2,2x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(x * (~1 + (x * i))),2,3x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(7x2 + ~2x),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((2 + (x * loop(\(x,i).(7x2 + ~3x),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(5x2 + ~4x),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(5x2 + ~8x),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).~7x2,2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((2 + (x * loop(\(x,i).(~8x2 + 2x),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(x * (~x + i)),2,4x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(8x2 + ~4x + ~4),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((2 + (x * loop(\(x,i).(8x2 + ~4x + ~4),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(5x2 + 20x),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((2 + (x * loop(\(x,i).((x2 + 4x) * (4 + i)),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(15x2 + 10x),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(4x2 + ~4x + 4),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((2 + (x * loop(\(x,i).(4x2 + 2x),2,2x))) mod (x + 1)),x))
1: (1 + compr(\x.((2 + (x * loop(\(x,i).(10x2 + 5x),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((2 + (x * loop(\(x,i).(6x2 + 6),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(5x2 + 5x),2,2x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).~10x2,2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(12x2 + ~6),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(9x2 + ~18),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(3x2 + ~12x),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(5x * (x - i)),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).~9x2,2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(16x2 + ~8),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((2 + (x * loop(\(x,i).(16x2 + ~8),2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((2 + (x2 * loop(\(x,i).(4x2 + 4x),2,2x))) mod (x + 1)),x))
1: (1 + compr(\x.((2 + (x * loop(\(x,i).(4x2 + 4x),2,2x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).10x2,2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((x + (x * loop(\(x,i).8x2,2,x))) mod (x + 1)),x))
1: (1 + compr(\x.((2 + (x * loop(\(x,i).(x4 + ~x3),1,4x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).x5,1,3x))) mod (x + 1)),x))
1: (1 + compr(\x.((2 + (x * loop(\(x,i).2x2,2,(x + ~2)))) mod (x + 1)),x))
1: (1 + compr(\x.((2 + (x * loop(\(x,i).3x2,2,2x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).4x2,2,2x))) mod (x + 1)),x))
1: (1 + compr(\x.((2 + (x * loop(\(x,i).4x2,2,2x))) mod (x + 1)),x))
1: (1 + compr(\x.((2 + (x * loop(\(x,i).(x2 * (1 + i)),2,2x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).(x2 * (2 + i)),2,2x))) mod (x + 1)),x))
1: (1 + compr(\x.((2 + (x * loop(\(x,i).(x2 * (2 + i)),2,2x))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).x2,2,(10x + ~16)))) mod (x + 1)),x))
1: (1 + compr(\x.((1 + (x * loop(\(x,i).x2,2,20x))) mod (x + 1)),x))
1: (1 + compr(\x.((2 + (x * loop(\(x,i).loop(\(x,i).(x4 + x),1,(2x + 1)),1,3x))) mod (x + 1)),x))
1: (2 + compr(\x.((2x + 1) mod (1 + (2x mod (2 + (x div 4))))),x))
1: (1 + compr(\x.((x + ((1 + (((x + loop(\(x,i).((3x + 1) - ((x + 1) div 5)),x,1)) div 2) div 2)) div 2)) mod 2),x))
1: (2 + compr(\x.((1 + ((x + ((x div 2) div 3)) div 2)) mod 2),x))
1: (1 + compr(\x.((1 + ((4 * (1 + ((x + 1) div (2 + (x div 8))))) div 3)) mod 3),x))
1: (2 + compr(\x.((1 + ((~x + 1) mod (1 + (x div (2 + (x mod 2)))))) mod 2),x))
1: (2 + compr(\x.((1 + (loop(\(x,i).2x,x,1) mod (x + 2))) mod 2),x))
1: (2 + compr(\x.((1 + (x mod (1 + (x mod 6)))) mod 3),x))
1: (1 + compr(\x.((1 + loop(\(x,i).(9 + ((x3 + x) div 2)),2,x)) mod (x + 1)),x))
1: (1 + compr(\x.((1 + loop(\(x,i).(x2 + 2x + ~4),3,x)) mod (x + 1)),x))
1: (1 + compr(\x.((1 + loop(\(x,i).(3x2 + ~1),2,3)) mod (x + 1)),x))
1: (1 + compr(\x.((1 + loop(\(x,i).(4x2 + ~1),2,2)) mod (x + 1)),x))
1: (1 + compr(\x.((1 + loop(\(x,i).(x4 + ~1),2,4)) mod (x + 1)),x))
1: (1 + compr(\x.((1 + loop(\(x,i).(~1 + (x2 * i)),2,4)) mod (x + 1)),x))
1: (1 + compr(\x.((1 + loop(\(x,i).17x,(2 * (1 + (x mod 2))),x)) mod (x + 1)),x))
1: (1 + compr(\x.((1 + loop(\(x,i).(x * (1 + (4x * (1 + i)))),2,x)) mod (x + 1)),x))
1: (1 + compr(\x.((1 + loop(\(x,i).(x2 + x),2,6x)) mod (x + 1)),x))
1: (1 + compr(\x.((2 + loop(\(x,i).(x2 + x),2,6x)) mod (x + 1)),x))
1: (1 + compr(\x.((2 + loop(\(x,i).(x2 + ~x),2,5x)) mod (x + 1)),x))
1: (1 + compr(\x.((1 + loop(\(x,i).(5x2 + ~8x),2,x)) mod (x + 1)),x))
1: (1 + compr(\x.((1 + loop(\(x,i).10x,15,x)) mod (x + 1)),x))
1: (1 + compr(\x.((1 + loop(\(x,i).10x,6,x)) mod (x + 1)),x))
1: (1 + compr(\x.((1 + loop(\(x,i).10x,10,x)) mod (x + 1)),x))
1: (1 + compr(\x.((1 + loop(\(x,i).5x2,2,2x)) mod (x + 1)),x))
1: (1 + compr(\x.((1 + loop(\(x,i).(8x2 + 18x),2,x)) mod (x + 1)),x))
1: (1 + compr(\x.((1 + loop(\(x,i).(6x2 + 12x + ~6),2,x)) mod (x + 1)),x))
1: (1 + compr(\x.((1 + loop(\(x,i).(5x2 + ~10x),2,x)) mod (x + 1)),x))
1: (1 + compr(\x.((1 + loop(\(x,i).(20x2 + 30x),2,x)) mod (x + 1)),x))
1: (1 + compr(\x.((2 + loop(\(x,i).10x2,2,x)) mod (x + 1)),x))
1: (1 + compr(\x.((1 + loop(\(x,i).12x2,2,x)) mod (x + 1)),x))
1: (1 + compr(\x.((1 + loop(\(x,i).4x,22,x)) mod (x + 1)),x))
1: (1 + compr(\x.((1 + loop(\(x,i).2x,(x div 2),1)) mod (x + 1)),(x + 1)))
1: (2 + compr(\x.((1 + loop(\(x,i).2x,(x div 2),2)) mod (x + 2)),x))
1: (1 + compr(\x.((2 + loop(\(x,i).x2,2,5x)) mod (x + 1)),x))
1: (1 + compr(\x.((2 + loop(\(x,i).x2,2,4x)) mod (x + 1)),x))
1: (1 + compr(\x.((2 + loop(\(x,i).x2,4,2)) mod (x + 1)),x))
1: (1 + compr(\x.((1 + loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,3x)) mod 3),x))
1: (1 + compr(\x.((x + 1) mod (1 + (4 * (x mod (1 + (4 * (if (x mod 3) <= 0 then 0 else 2))))))),x))
1: (1 + compr(\x.((x + 1) mod (1 + (4 * (x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4))))))))),x))
1: (1 + compr(\x.((x + 1) mod (1 + (2 * ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3)))),(x + 1)))
1: (2 + compr(\x.((x + 1) mod (1 + (2 * ((~x + 2) mod (2 + (x mod 2)))))),x))
1: (1 + compr(\x.((x + 1) mod (1 + (2 * (((x + 1) div (2 + (x mod 5))) mod 2)))),x))
1: (1 + compr(\x.((x + 1) mod (1 + ((x div 2) div (1 + (2 * (2 - (x mod 2))))))),x))
1: (1 + compr(\x.((x + 1) mod (1 + (x div (3 + ((x div 2) mod 2))))),x))
1: (1 + compr(\x.((x + 1) mod (1 + (x div (1 + ((if (~2 + (x div 4)) <= 0 then 1 else 2) + (x mod 2)))))),x))
1: (1 + compr(\x.((x + 1) mod (1 + (x div (1 + (2 * (2 - ((x mod 3) div 2))))))),x))
1: (1 + compr(\x.((x + 1) mod (1 + (x div (1 + (~x mod 8))))),x))
1: (1 + compr(\x.((x + 1) mod (1 + (x div (1 - (x div (~2 + (((~x + 2) div 2) div 5))))))),x))
1: (1 + compr(\x.((x + 1) mod (1 + (x div (5 * (1 + (x mod 3)))))),x))
1: (1 + compr(\x.((x + 1) mod (1 + ((2 + ((x mod 3) div 2)) mod (1 + (x div 2))))),x))
1: (1 + compr(\x.((x + 1) mod (1 + ((1 + (2x mod 3)) mod (x + 1)))),x))
1: (1 + compr(\x.((x + 1) mod (1 + ((~1 + (2 * ((1 + (x div 2)) div 2))) mod (1 + (x div 4))))),x))
1: (1 + compr(\x.((x + 1) mod (1 + ((x - ((x + 1) mod 3)) mod (1 + (x div 2))))),x))
1: (2 + compr(\x.((x + 1) mod (1 + (x2 mod (1 + (x div 2))))),x))
1: (4 + compr(\x.((x + 1) mod (1 + (x2 mod (1 + (x div 2))))),x))
1: (1 + compr(\x.((x + 1) mod (1 + ((x mod 5) mod (1 + (x div 4))))),x))
1: (1 + compr(\x.((x + 1) mod (1 + ((if x <= 0 then 1 else (2 - (loop(\(x,i).(2x + 2),x,0) mod (x + 1)))) mod 3))),x))
1: (1 + compr(\x.((x + 1) mod (1 + (x mod 9))),x))
1: (2 + compr(\x.((x + 1) mod (1 + (x mod (1 + (2 * ((1 + (x div 4)) div 2)))))),x))
1: (2 + compr(\x.((x + 1) mod (1 + (x mod (2 + (x div 4))))),x))
1: (1 + compr(\x.((x + 1) mod (1 + (x mod (1 + (x div (2 + (x div 8))))))),(x + 1)))
1: (1 + compr(\x.((x + 1) mod (1 + (x mod (1 + (x div (2 + (x div 8))))))),x))
1: (1 + compr(\x.((x + 1) mod (1 + (x mod (2 + (x div (2 + (x mod 5))))))),x))
1: (2 + compr(\x.((x + 1) mod (1 + (x mod (1 + (x div (2 + (x mod (2 * (1 + (2 * (x mod 2))))))))))),x))
1: (1 + compr(\x.((x + 1) mod (1 + (x mod (2 + (loop(\(x,i).x3,2,2x) mod (x + 1)))))),x))
1: (2 + compr(\x.((x + 1) mod (1 + (x mod (2 * (2 + (loop(\(x,i).(3x + 2),x,0) mod (x + 1))))))),x))
1: (1 + compr(\x.((x + 1) mod (1 + (x mod (3 * (1 + (x mod 4)))))),x))
1: (1 + compr(\x.((x + 1) mod (~1 + loop(\(x,i).2x,(1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))),1))),x))
1: (1 + compr(\x.((x + 1) mod (loop(\(x,i).(2x + 2),x,1) mod (x + 2))),x))
1: (2 + compr(\x.((x + 1) mod (loop(\(x,i).(~2x + 2),x,3) mod (x + 2))),x))
1: (1 + compr(\x.((x + 1) mod (if x <= 0 then 1 else (2 * (2 + (x mod (x - ((x + ~1) mod 8))))))),x))
1: (1 + compr(\x.((x + 2) mod (1 + (8 * (x mod 2)))),(x + 1)))
1: (x + compr(\x.((x + 2) mod (1 + (x div 4))),x))
1: (2 + compr(\x.((x + 2) mod (2 + (x mod (1 + ((x + 1) div 5))))),x))
1: (1 + compr(\x.((1 + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x)) mod 2),x))
1: (2 + compr(\x.((1 + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x)) mod 2),x))
1: (1 + compr(\x.((1 + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x)) mod 3),x))
1: (2 + compr(\x.((1 + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x)) mod 3),x))
1: (1 + compr(\x.((0 - ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 2)) mod 3),x))
1: (1 + compr(\x.((1 - ((x + 2) mod 13)) mod (x + 1)),x))
1: (1 + compr(\x.((1 - ((x + 2) mod 11)) mod (x + 1)),x))
1: (1 + compr(\x.((1 - ((x + 2) mod 15)) mod (x + 1)),x))
1: (1 + compr(\x.((1 - ((x + 2) mod 12)) mod (x + 1)),x))
1: (1 + compr(\x.((1 - ((x + 2) mod 10)) mod (x + 1)),x))
1: (1 + compr(\x.((1 - ((x + 2) mod 14)) mod (x + 1)),x))
1: (1 + compr(\x.((~x + 1) mod (~1 + (6 * (if (~2 + (x div 3)) <= 0 then 0 else 2)))),x))
1: (1 + compr(\x.((2 - ((x + 3) mod 12)) mod (x + 1)),x))
1: (1 + compr(\x.((14 - loop(\(x,i).(2x + 2),x,0)) mod (x + 1)),x))
1: (1 + compr(\x.((32 - loop(\(x,i).2x,x,1)) mod (x + 1)),x))
1: (1 + compr(\x.((~1 + loop(\(x,i).(2x2 + 1),2,8)) mod (x + 1)),x))
1: (1 + compr(\x.((~2 + loop(\(x,i).(x3 + 2),2,2)) mod (x + 1)),x))
1: (1 + compr(\x.((~2 + loop(\(x,i).(x2 + x),2,(12x + 6))) mod (x + 1)),x))
1: (1 + compr(\x.((~2 + loop(\(x,i).(x2 + 3x + 2),2,2)) mod (x + 1)),x))
1: (1 + compr(\x.((~2 + loop(\(x,i).(6x2 + 12),2,(x + 1))) mod (x + 1)),x))
1: (1 + compr(\x.((~1 + loop(\(x,i).2x3,3,2)) mod (x + 1)),x))
1: (1 + compr(\x.((~1 + loop(\(x,i).x3,1,loop(\(x,i).4x2,2,4))) mod (x + 1)),x))
1: (1 + compr(\x.((~1 + loop(\(x,i).x3,1,loop(\(x,i).x2,2,10))) mod (x + 1)),x))
1: (1 + compr(\x.((~2 + loop(\(x,i).x3,2,2)) mod (x + 1)),x))
1: (1 + compr(\x.((loop(\(x,i).x3,2,2) - loop(\(x,i).2x,x,1)) mod (x + 1)),x))
1: (1 + compr(\x.((~1 + loop(\(x,i).x3,2,4)) mod (x + 1)),x))
1: (1 + compr(\x.((~1 + loop(\(x,i).x3,2,16)) mod (x + 1)),x))
1: (3 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))
1: (4 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))
1: (5 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))
1: (x + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))
1: (1 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),i))
1: (2 + compr(\x.((~1 + loop(\(x,i).2x,x,(if (x mod 7) <= 0 then 1 else 2))) mod (x + 2)),x))
1: (2 + compr(\x.((~1 + loop(\(x,i).2x,x,(if (x mod 13) <= 0 then 1 else 2))) mod (x + 2)),x))
1: (2 + compr(\x.((~1 + loop(\(x,i).2x,x,(if (x mod 11) <= 0 then 1 else 2))) mod (x + 2)),x))
1: (1 + compr(\x.((~1 + loop(\(x,i).x2,1,loop(\(x,i).2x2,3,2))) mod (x + 1)),x))
1: (1 + compr(\x.((~1 + loop(\(x,i).x2,2,8)) mod (x + 1)),x))
1: (1 + compr(\x.((loop(\(x,i).x2,2,8) - loop(\(x,i).2x,x,2)) mod (x + 1)),x))
1: (1 + compr(\x.((~1 + loop(\(x,i).x2,2,32)) mod (x + 1)),x))
1: (1 + compr(\x.((~1 + loop(\(x,i).x2,2,loop(\(x,i).2x2,2,2))) mod (x + 1)),x))
1: (1 + compr(\x.((~1 + loop(\(x,i).x2,3,8)) mod (x + 1)),x))
1: (1 + compr(\x.((~1 + loop(\(x,i).x2,3,10)) mod (x + 1)),x))
1: (1 + compr(\x.((~1 + loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + 1))) mod 3),x))
1: (1 + compr(\x.((x + ~1) mod (1 + ((x mod (2 + (x div 3))) div 2))),x))
1: (2 + compr(\x.((x + ~2) mod (1 + (2 * (x mod (2 + (x mod 2)))))),x))
1: (1 + compr(\x.((x - ((~x + (x div 3)) div 3)) mod 2),x))
1: (1 + compr(\x.((x - ((~2x + 2) div 9)) mod 2),x))
1: (2 + compr(\x.((x - (x div (~4 - ((x div 4) mod 2)))) mod 2),x))
1: (2 + compr(\x.((x - (x div ~14)) mod 4),x))
1: (1 + compr(\x.((x - ((2x + 2) mod 13)) mod 3),x))
1: (1 + compr(\x.((x - loop(\(x,i).(3x + 2),(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1)) mod (x + 1)),x))
1: (1 + compr(\x.((x - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x + 1))) mod 2),x))
1: (1 + compr(\x.((x * (2 + (x * (x mod 2)))) mod 9),x))
1: (1 + compr(\x.((x3 + ~x2) mod 24),x))
1: (3 + compr(\x.((x3 + ~x2) mod 24),x))
1: (1 + compr(\x.(x3 mod (2 + (3 * (x mod 4)))),x))
1: (2 + compr(\x.(((x mod 3) * (x div 2)) mod 2),x))
1: (1 + compr(\x.(((x2 + 3) div (1 + (x div 3))) mod 2),x))
1: (1 + compr(\x.((((x + ~1) + (x mod 8)) div 3) mod 3),x))
1: (2 + compr(\x.(((3 * (x + ((2x mod (2 + (x div 2))) mod 2))) div 2) mod 2),x))
1: (1 + compr(\x.(((x2 + 4x + 4) div 2) mod 9),x))
1: (2 + compr(\x.(((3 * (1 + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x))) div 2) mod 2),x))
1: (1 + compr(\x.(((~x2 + 2x) div 3) mod 3),x))
1: (1 + compr(\x.(((x2 + ~x) div 8) mod 2),x))
1: (1 + compr(\x.(((x2 + ~2x) div 7) mod 2),x))
1: (1 + compr(\x.(((((1 + (x div 2)) div 2) * (x div 2)) div 2) mod 3),x))
1: (2 + compr(\x.((((x2 div 3) * ((x + 1) div 2)) div 2) mod 2),x))
1: (1 + compr(\x.((((x + ~1) * ((((x + ~1) div 2) div 2) div 2)) div 2) mod 2),x))
1: (2 + compr(\x.((x2 div ~7) mod 2),x))
1: (1 + compr(\x.(((((x + ~1) * (1 - (((x - ((x2 + ~x) div 4)) div 2) div 3))) div 2) div 2) mod 2),x))
1: (1 + compr(\x.((x div 2) mod (1 + ((x2 + 2x) mod 6))),x))
1: (1 + compr(\x.((x div 4) mod 2),(x div 3)))
1: (x + compr(\x.((x div 4) mod 2),i))
1: (1 + compr(\x.((x div (1 + (if (x mod 2) <= 0 then 6 else 1))) mod 2),x))
1: (1 + compr(\x.((x div (~3 + (x mod 2))) mod 2),x))
1: (2 + compr(\x.((compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x) div 2) mod 2),(x + 1)))
1: (1 + compr(\x.(((5x + (((~x + 1) div (2 + (x div 2))) + (x div 5))) mod (1 + (x div 2))) mod 2),x))
1: (1 + compr(\x.(((2 - (x mod 4)) mod (1 + (x div 3))) mod 2),x))
1: (2 + compr(\x.(((x2 + ~2) mod (x + 10)) mod 2),(x + 1)))
1: (2 + compr(\x.(((~x2 + x) mod (2 + (x div 2))) mod 2),x))
1: (1 + compr(\x.((16 mod (~x + ~1)) mod 8),x))
1: (1 + compr(\x.((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) mod 8),x))
1: (1 + compr(\x.((loop(\(x,i).(x * i),x,x) mod (x + 1)) mod 2),x))
1: (1 + compr(\x.((x mod (1 + (8 * (x mod 2)))) mod 2),x))
1: (1 + compr(\x.((x mod (1 + (2 * ((x - ((~x + 1) div 3)) mod 3)))) mod 2),x))
1: (1 + compr(\x.((x mod (~2 - (x mod 7))) mod 2),(x + 1)))
1: (1 + compr(\x.((x mod (~2 + (((~x + 2) div 2) div 3))) mod 2),(x + 1)))
1: (1 + compr(\x.((x mod (~2 + (((~x + 2) div 2) div 3))) mod 2),x))
1: (1 + compr(\x.((x mod (~8 + (x mod 2))) mod 2),x))
1: (3 + compr(\x.((x mod (x - ((x + 1) mod 8))) mod 2),x))
1: (1 + compr(\x.((x mod 10) mod (if x <= 0 then 1 else x)),x))
1: (1 + compr(\x.(loop(\(x,i).(4x2 + x + 1),2,6) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(4x2 + x + 1),2,2x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x2 + 3),2,3x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(1 + ((x + 2) * (x + (x div 2)))),2,3) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x2 + 2x + 1),2,16x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2 + (x * (x + i))),3,1) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(3x2 + ~2x + 1),2,2x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(3x2 + ~2x + 2),2,2x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(10x + 1),5,1) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2 + ((2x2 + x) * (4 + i))),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(10x2 + x),2,4) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(10x2 + x),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(3x2 + 1),2,2x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(3x2 + 2),2,2x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(3x2 + x),2,2x) mod (x + 1)),x))
1: (2 + compr(\x.(loop(\(x,i).(2x + 1),x,0) mod (x + 1)),x))
1: (compr(\x.(loop(\(x,i).(2x + 1),x,0) mod (x + 1)),x) + (if x <= 0 then 1 else 2))
1: (x + compr(\x.(loop(\(x,i).(2x + 1),x,0) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x + ((x + loop(\(x,i).4x,i,1)) div (2x + 1))),(x + 1),1) mod 2),x))
1: (1 + compr(\x.(loop(\(x,i).(1 + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,2x)),2,x) mod (x + 2)),x))
1: (1 + compr(\x.(loop(\(x,i).(~x3 + ~1),2,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(~x3 + ~1),2,4) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(~2x + ~32),(x + 1),0) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(~6x2 + 2x + ~4),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(~2x + 1),x,0) mod (x + 1)),x))
1: (compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x) + (if x <= 0 then 0 else 2))
1: (2 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),i))
1: (1 + compr(\x.(loop(\(x,i).(3x2 + ~x + 2),2,2x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(4x2 + x + ~1),2,2x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x3 + x + ~2),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(3x2 + ~2x + ~1),2,2x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x2 + ~2x + ~2),2,4x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x2 - (x div 2)),2,3) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x2 + ~1),2,4x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x2 - (x div 2)),2,4x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).((x mod 2) - ((x2 + 6x + 9) div 2)),3,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x2 + ~3x),2,2x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(~11x2 + x),2,6x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(8x2 + ~3x),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(~2x2 + x),2,3x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(~3x2 + x),2,2x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(~4x2 + x),2,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(~x4 + x),2,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 2 else 1)),(x + 1),x) mod 3),x))
1: (1 + compr(\x.(loop(\(x,i).(i - (x * i)),6,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x2 + 5x),2,3) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x2 + 7x + 6),2,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x3 + 9x2),2,1) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x2 + 10x),2,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * ((x + 1) + (2 * i))),3,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x2 + 5x + 6),3,3) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x2 + 3x),2,3) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x + 8),x,0) mod (1 + (x div 3))),x))
1: (1 + compr(\x.(loop(\(x,i).(x * ((x + 1) + i)),2,3) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).((x + 1) * ((x + 2) + i)),2,3) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * (3x + i)),2,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * (2x + i)),2,3) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * (2x + i)),3,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * (2x + i)),4,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(~x2 + x + 6),3,0) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(~x2 + 3x),2,16) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(~x2 + 4x),2,3x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x + 16),x,0) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x2 + 10x + 16),2,9) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(5x2 + 6x + 1),3,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(~5x2 + 9x + 2),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * (1 + (2 * (5x + (x div 2))))),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(7x2 + 28x + 7),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(15x2 + 33x + 9),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(14x2 + 6x + 4),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(8x2 + 2x + 2),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(4x2 + 2x + 2),2,2x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x2 + 5x + 3),2,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x2 + 5x),2,12) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x2 + 5x),4,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(3x2 + 7x + 4),2,1) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(5x2 + 20x + 30),2,0) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(5x2 + 10x + 5),2,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x2 + 4x + 4),2,4x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * (1 + (x * (2 + i)))),2,2x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).((x + 1) * (1 + (x * (x + i)))),2,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(5 * (2 + (x * (x + i)))),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(5 * (2 + (x * (x - i)))),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(9x2 + 2x),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x + 32),(x + 1),0) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(4x3 + 6x2 + 3x + 1),2,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(8x2 + 18),2,3) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(12x2 + 24x + 3),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * (1 + (3x * (2 + i)))),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(24x2 + 20x + 2),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(8x2 + 17x),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(96x2 + x),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(16x2 + 10x + 1),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * (8x + i)),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * (1 + (4x * (1 + i)))),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(6x2 + 14x + 4),2,8x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(4x2 + 4x + 2),2,2x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * (2x2 + i)),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(6x2 + 4),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2 * ((3x2 + 1) + i)),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(4x3 + x),2,4) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2 * (4x2 + i)),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * (1 + (x2 * (1 + i)))),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x5 + x),1,3x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x6 + 2x2),1,(~x + 2)) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(3x3 + 3),2,10) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x3 + 4),2,3) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * (2 + ((x2 + x) * i))),2,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2 * (2 + (x2 * i))),2,2x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).((x + 1) * (2 + ((x + 1) * loop(\(x,i).(2x2 + x),2,2)))),2,3) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * (2 + (x * loop(\(x,i).(2x2 + x),2,2)))),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x2 + 3x + 1),2,4x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(~2x2 + 3x + 2),2,2x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x2 + x),1,(loop(\(x,i).(2x + 2),x,0) mod (x + 1))) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x2 + x),2,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x2 + x),2,3x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(3x2 + 3),2,2x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x3 + x),1,(~x2 + 3x + ~2)) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x3 + x),2,20) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(3x2 + 6),2,2x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x3 + 2x),2,2x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x3 + 2x2 + 3x + 6),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x3 + 3x),2,(x + ~2)) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x2 + 8),2,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * ((x2 + 2) + i)),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * (x2 + i)),2,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * (1 + (2 * i))),4,1) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * (1 + (x * i))),2,3) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * (2 + (x * i))),4,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * (x + (i * i))),4,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).((x + 2) * (x + (x div 2))),2,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).((x + 2) * (x + (x div 2))),2,3) mod (x + 1)),x))
1: (2 + compr(\x.(loop(\(x,i).(x * (1 + (i div 2))),x,1) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * (2x + (i mod 2))),2,3) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * (1 + (if (x mod (1 + i)) <= 0 then 0 else i))),(x div 2),1) mod (x + 1)),x))
1: (2 + compr(\x.(loop(\(x,i).(x * (1 + (if (x mod (1 + i)) <= 0 then 0 else i))),x,1) mod (x + 2)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * (1 + loop(\(x,i).10x,(1 + i),x))),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x + 2),36,0) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))
1: (1 + (compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x) + ((x + 1) * (if x <= 0 then 0 else 2))))
1: ((x + 1) + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x))
1: ((x + 2) + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x))
1: (compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x) + (if x <= 0 then 1 else 2))
1: ((x2 + 1) + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))
1: ((x + 2) + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))
1: (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (2 + loop(\(x,i).(x div (2 - (x mod 2))),x,x))),x))
1: (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),((x + 1) div 2)))
1: (4 + (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + (x mod 2)))
1: (7 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: (9 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: ((x2 + 2x + 3) + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: (1 + (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + (2 * (x mod 2))))
1: (x + (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + (((x + ~1) div 2) mod 2)))
1: (2 + (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + loop(\(x,i).2x,x,2)))
1: (11 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: (6 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: (8 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: (12 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: (10 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: ((2x + 2) + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: ((2x + 4) + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + (2 * (if x <= 0 then 1 else (x + 2))))
1: (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + ((~1 + loop(\(x,i).2x,x,2)) div (x + 3)))
1: (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + (8 div (x + 3)))
1: (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + (if (x + ~3) <= 0 then 1 else 0))
1: (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + loop(\(x,i).2x,x,1))
1: (x + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x))
1: (2x + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i))
1: (1 + compr(\x.(loop(\(x,i).(2x + 2),x,8) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x + 2),x,(4 * (x mod 2))) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x + 2),x,(x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))) mod (x + 1)),(x + 1)))
1: (1 + compr(\x.(loop(\(x,i).(2x + 2),x,(loop(\(x,i).(2 * (x - i)),x,2) mod (x + 1))) mod (x + 1)),(x + 1)))
1: (1 + compr(\x.(loop(\(x,i).(2x + 2),x,(if ((x + 2) mod 5) <= 0 then 1 else 0)) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x + 2),x,(if (x mod 7) <= 0 then 1 else 0)) mod (x + 1)),(x + 1)))
1: (1 + compr(\x.(loop(\(x,i).(2x + 2),x,(if (x mod 9) <= 0 then 1 else 0)) mod (x + 1)),(x + 1)))
1: (1 + compr(\x.(loop(\(x,i).(2x + 2),x,(if (x mod 8) <= 0 then 1 else 0)) mod (x + 1)),(x + 1)))
1: (1 + compr(\x.(loop(\(x,i).(x2 + x),1,(1 - (loop(\(x,i).(2x + 1),2x,2) mod (x + 1)))) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x2 + x),1,(~1 + (loop(\(x,i).(2x + 2),x,2) mod loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x2 + x),1,(loop(\(x,i).(2 * (x - i)),x,2) mod (x + 1))) mod (x + 1)),(x + 1)))
1: (1 + compr(\x.(loop(\(x,i).(x2 + x),1,(loop(\(x,i).(2 * (x - i)),x,2) mod (x + 1))) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x2 + x),2,4) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x2 + x),2,5) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x2 + x),2,17) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x2 + x),2,8) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x2 + x),3,2) mod (x + 1)),x))
1: (2 + compr(\x.(loop(\(x,i).(x2 + x),3,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x2 + x),4,10) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x + 4),((x + 1) mod 8),0) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x2 + 3x + 2),2,3) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x2 + 2x),2,3) mod (x + 1)),(x div 2)))
1: (1 + compr(\x.(loop(\(x,i).(x2 + 2x),2,4) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x2 + 2x),2,(~1 + (x mod (9 + (x mod 2))))) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x2 + 2x),2,6) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x2 + 2x),2,(~3x + 6)) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x2 + 2x),2,(6 * (1 + (2 * (x mod 2))))) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x2 + 2x),3,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x2 + 2x),3,(6 * (x div 5))) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).((x + 2) * i),8,1) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * (1 + i)),4,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * (1 + i)),(2 - (x div ~4)),1) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * (2 + i)),4,1) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * (2 + i)),4,2) mod (x + 1)),x))
1: (2 + compr(\x.(loop(\(x,i).(x * (2 + i)),((x + 1) div 2),1) mod (x + 2)),x))
1: (1 + compr(\x.(loop(\(x,i).((x + 1) * (x + i)),2,4) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x * (x + i)),2,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x * (x + i)),2,4) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * (x + i)),2,3) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * (x + i)),2,4) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * (x + i)),2,5) mod (x + 1)),(x + 2)))
1: (1 + compr(\x.(loop(\(x,i).(x * (x + i)),3,3) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(~x3 + ~6x2 + ~8x),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(~2x3 + ~2x2 + ~2x + ~2),2,1) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * (1 - (x * (1 + (2 * i))))),2,2x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(~8x2 + x),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * (1 - (4x * (1 + i)))),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(~4x2 + ~3x + 1),2,2x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(~x3 + ~x2 + x + 1),2,2) mod (x + 1)),x))
1: (3 + compr(\x.(loop(\(x,i).(~2x + 2),x,2) mod (x + 2)),x))
1: (1 + (compr(\x.(loop(\(x,i).(~2x + 2),x,2) mod (x + 2)),x) + (2 * (x mod 2))))
1: (1 + compr(\x.(loop(\(x,i).(~x2 + x),3,(x + ~2)) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(11x2 + 2x),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(6x2 + ~2x + 4),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * (2 - (x * (1 + (2 * (1 + i)))))),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(~2x + 4),(1 + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x)),1) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(~2x + 4),x,1) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(~x2 + 3x + ~2),2,4x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).((~x + 2) * i),6,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * (4 - (x * (4 + i)))),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(~6x2 + 5x + ~1),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(~11x2 + ~2x),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(6x2 + ~5x + 1),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(3x2 + 4x + ~4),2,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(3x2 + ~2x),2,2x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(3x2 + ~2x),(2 + (x mod 2)),2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(5x2 + ~x),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * (~1 + (x * (2 + (3 * i))))),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * (~2 + (x * (2 + (5 * i))))),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * (~1 + (x * (2 + i)))),2,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(~x4 + x3 + ~x2),2,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(9x2 + ~x),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(8x2 + 15x + 7),2,2x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * (~1 + (5x * i))),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * (~1 + (2x * (1 + (2 * i))))),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(6x2 + 6x + ~2),2,2x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(8x2 + ~x),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * (~1 + (4x * (1 + i)))),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(4x2 + ~x),2,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(4x2 + ~2),2,2x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(6x2 + ~2x),2,4) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(12x2 + ~3),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(4x3 + ~x),2,6) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x2 + 3x + ~2),3,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(~2x2 + 5x + ~2),2,2x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x2 + ~x),1,(1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1))) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x2 + ~x),2,(~2x + 1)) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x2 + ~x),2,3x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x2 + ~4),2,3x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x3 + ~2x),2,2x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * (~1 + (x * i))),3,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x + ~2),x,1) mod (if x <= 0 then 1 else x)),x))
1: (1 + compr(\x.(loop(\(x,i).(x2 + ~x),2,6) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x2 + ~x),2,(~x2 + 2x)) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x2 + ~x),2,4x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).((x + ~1) * i),8,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x2 + ~3x + 2),2,4x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x2 + ~2x),2,6) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x2 + ~2x),2,(~x2 + 2x)) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x3 + ~3x2),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * ((x + 2) - i)),3,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(3x2 + ~4x),2,5) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(3x2 + ~4x),2,(~2x + 1)) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(5x2 + ~8x),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(~7x2 + 2x),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(~4x2 + 2x),2,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(~4x3 + 4x2 + ~x),2,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(~8x2 + 2x),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).((x + 2) * (x - i)),2,5) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * (x - i)),2,4) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * (x - i)),2,6) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * (x - i)),3,3) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * (x - i)),3,8) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * ((6x + ~6) + i)),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(4x2 + 8x + 4),2,8x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(8x2 + ~4x + ~4),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x2 + 10x),2,1) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).((3x + 3) * ((x + 2) + (x div 2))),2,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x2 + 6x),2,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(3x2 + 9x),2,1) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x2 + 12x + 16),2,(x2 + 2x)) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x2 + 8x),2,1) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(5x2 + 20x),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(10x2 + 2x),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x2 * (1 + (2 * (3 + i)))),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(80x2 + 8x + 4),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(120x2 + 12x + 6),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(14x2 + 6x),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(6x2 + 6x + 12),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x2 * ((2 * (2 + i)) + i)),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(12x2 + ~20),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(18x2 + 18x + 6),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(10x2 + 36x + 32),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(4 * (1 + ((x2 + 2x) * (2 + i)))),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(4 * (1 + ((3x + 6) * (x + i)))),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(48x2 + 96x + 4),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(40x2 + 5x),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(6 * (8x2 + (x mod 3))),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x7 + x6 + 2x2 + x),1,2x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(24x2 + 16x + 2),2,2x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x7 + x5 + x3 + x),1,2x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x5 + 4x),1,3x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(6x3 + 6),2,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(4 * (1 + (x2 * i))),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(10x2 + 10),2,(x + 1)) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x3 + 2x),2,6) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x3 + 2x),2,2x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x4 + x2),2,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(4x2 + 8),2,0) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(4x2 + 8),2,(2x + 1)) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x3 + 4x),2,1) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x4 + 3x2),2,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x3 + 2x2 + 8x + 8),2,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(6 * (x2 + i)),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).((2x2 + ~x) * (1 + (2 * i))),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(20 * (x + (x div 2))),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(12 * (x + (x div 4))),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x * (2 + ((x + ~1) mod 3))),3,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x3 + 4x2 + 3x),2,1) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x3 + 3x2 + x),2,1) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x3 + 2x2 + x),2,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(4x + 8),4,0) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(4x + 8),4,1) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x2 + 8x + 8),2,1) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(3x2 + 12x + 12),2,0) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).((x2 + 4x + 4) * (1 + i)),2,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x2 + 4x),2,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x2 + 4x),5,1) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(4x2 + 8x),2,1) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).((x2 + 2x) * (2 + i)),2,1) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x3 + x2 + ~2x),2,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x3 + x2 + ~2x),3,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).((x2 + x) * (1 + i)),2,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).((x2 + x) * (1 + i)),2,3) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).((2x + 2) * (x + i)),2,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).((x2 + 2x + 1) * (x + i)),2,1) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).((3x + 6) * (x + i)),2,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).((5x + 10) * (x + i)),2,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x2 * (x + i)),2,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).((x + 1) * ((x + i) * i)),2,3) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(~6x2 + ~9x + 6),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(~4x2 + ~4x + 8),2,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(~2x3 + ~2x2 + 4x),2,3) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(~5x2 + 5x),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(~x3 + 2x2 + ~x),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(~10x2 + 20),2,1) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).((x2 + x) * (2 - (x mod 2))),2,(1 + (x div 2))) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(~2x2 + 2x + 4),2,3x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(~4x2 + 16),2,0) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(~x3 + 4x2 + ~5x + 2),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x * ((x + ~1) + i)),2,3) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x2 * (~1 + (4 * (1 + i)))),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(4x2 + 20x + ~8),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x2 * (~1 + (3 * (2 + i)))),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(18x2 + 306x + 282),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(18x2 + 18x + ~6),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(12x2 + 12x + ~8),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(30x2 + 30x + ~6),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(8x2 + 16x + ~4),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(4x3 + 3x2 + ~x),2,1) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(12x2 + ~6),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x5 + ~x3),1,3x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(12x2 + ~4),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(18x2 + ~12),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(4x2 + ~2x),2,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(4x2 + ~4),2,2x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(9x2 + ~18),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(6x2 + ~18),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(5x * (~1 + (x * i))),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(3x2 + ~3x),2,3) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x3 + ~3x2 + x),2,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x2 + ~6x + 4),2,2x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(5x2 + ~10x),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x4 + ~2x3),1,5x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(~8x2 + ~28x + ~32),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).((2x + ~2) * (x - i)),2,2x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x2 * (x - i)),2,5) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).((x2 + ~2x) * (~x + i)),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(12x2 + ~24x + 12),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(4x2 + 16x + 12),2,1) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(8 * (1 + ((x + 2) * (x + i)))),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x5 + 4x3),1,3x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(4x * (2x + (x div 2))),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(12x + 24),2,3) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(~24x2 + 24x + ~6),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(16x2 + ~8),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(18 * (~1 + ((x + 1) * loop(\(x,i).x2,2,4)))),2,5) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(24x2 + ~24x + 6),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(12 * (2x - (x mod 4))),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(24 * (1 + (((x + 1) * (1 + ((x + 1) * loop(\(x,i).x2,2,3)))) div 3))),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x5 + ~x4),1,3x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(4x2 + 4x),2,1) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(4x3 + 2x2),2,3) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x3 + ~2x2),2,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(8x3 + 12x2),2,3) mod (x + 1)),(x + 1)))
1: (1 + compr(\x.(loop(\(x,i).(2x3 + 4x2),2,5) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(3x3 + 6x2),2,5) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x5 + 2x3),2,3) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).((x3 + ~2x2) * i),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).4x,1,(~1 + loop(\(x,i).~4x,x,1))) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x2 + 2x),2,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).2x2,2,3) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).2x2,(1 + (x mod 2)),5) mod (x + 1)),x))
1: (2 + compr(\x.(loop(\(x,i).4x2,2,3) mod (x + 1)),x))
1: (2 + compr(\x.(loop(\(x,i).(x3 + x2),2,48) mod (x + 2)),x))
1: (1 + compr(\x.(loop(\(x,i).(x3 + x2),2,2x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x3 + x2),3,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x3 + 2x2),3,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x3 + ~x2),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x3 + ~2x2),2,7) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).x3,1,(1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1))) mod (x + 1)),(x + 1)))
1: (1 + compr(\x.(loop(\(x,i).x3,1,(1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1))) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).x3,1,6) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).x3,2,(3 + (x mod 2))) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).x3,2,55) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).x3,2,65) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).x3,2,39) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(2x * i),4,1) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * ((1 + i) div 2)),x,1) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(3 * (x2 div 2)),2,(~x + 3)) mod (x + 1)),x))
1: (2 + compr(\x.(loop(\(x,i).((x + ~2) * (x2 div 2)),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * (x2 div 2)),2,(x + ~8)) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * loop(\(x,i).3x,3,(x2 + x + 2))),2,1) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).((x + 2) * loop(\(x,i).x2,2,(x + 2))),2,1) mod (x + 1)),x))
1: (2 + compr(\x.(loop(\(x,i).((x + 2) * loop(\(x,i).x2,2,(x + 2))),2,1) mod (x + 1)),x))
1: (2 + compr(\x.(loop(\(x,i).x2,1,(loop(\(x,i).2x,x,2) - (x mod 2))) mod (x + 2)),x))
1: (1 + compr(\x.(loop(\(x,i).x2,1,loop(\(x,i).(x2 + ~x),1,loop(\(x,i).2x,(x mod 4),x))) mod (x + 1)),x))
1: (2 + compr(\x.(loop(\(x,i).x2,2,(1 + loop(\(x,i).(2x * i),4,1))) mod (x + 2)),x))
1: (1 + compr(\x.(loop(\(x,i).x2,2,6) mod (x + 1)),x))
1: (2 + compr(\x.(loop(\(x,i).x2,2,(3 * (1 + (x div 2)))) mod (x + 2)),x))
1: (1 + compr(\x.(loop(\(x,i).x2,2,(2 * (2 + (x2 mod 3)))) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).x2,2,(3 * (x div (~2 + (x mod ~2))))) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x * i),(1 + (x mod (1 + (x div 3)))),1) mod (x + 1)),(x + 1)))
1: (1 + compr(\x.(loop(\(x,i).(x * i),(x div 2),1) mod (x + 2)),x))
1: (1 + compr(\x.(loop(\(x,i).((x3 + x) div 2),2,(x + ~1)) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).((x2 + x) div 2),5,2) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).((~x3 + x) div 2),2,3) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).((x3 + ~x2) div 2),2,(x + ~1)) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(((x + ~2) * ((x2 + 2x) div 2)) div 2),2,x) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 5),x))
1: (1 + compr(\x.(loop(\(x,i).loop(\(x,i).(10x + 1),x,1),2,1) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).loop(\(x,i).(x * (x + i)),2,(x + 2)),2,0) mod (x + 1)),x))
1: (1 + compr(\x.(loop(\(x,i).loop(\(x,i).x2,1,(~3x + 3)),2,x) mod (x + 1)),x))
1: (3 + compr(\x.(x mod (4 - (x mod 4))),x))
1: (2 + compr(\x.(x mod (1 + (2 * (1 + (x mod 3))))),x))
1: (1 + compr(\x.(x mod (1 + (8 * (x mod 2)))),x))
1: (x + compr(\x.(x mod (1 + (8 * (x mod 2)))),x))
1: (1 + compr(\x.(x mod (1 + (4 * (2x mod (1 + (2 * (if (x mod 3) <= 0 then 0 else 2))))))),x))
1: (2 + compr(\x.(x mod (1 + (4 * (2x mod (1 + (2 * (if (x mod 3) <= 0 then 0 else 2))))))),x))
1: (1 + compr(\x.(x mod (1 + (2 * ((x2 div 2) mod 3)))),(x + 2)))
1: (2 + compr(\x.(x mod (1 + (2 * (((x2 + ~2) mod (x + 6)) mod 3)))),x))
1: (1 + compr(\x.(x mod (1 + (2 * (x mod (2 + (x mod 2)))))),x))
1: (x + compr(\x.(x mod (1 + (x div 8))),x))
1: (1 + compr(\x.(x mod (1 + ((x + 5) mod (1 + (x div 3))))),x))
1: (1 + compr(\x.(x mod (1 + ((1 + (x mod (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))) mod (x + 1)))),x))
1: (1 + compr(\x.(x mod (1 + ((x + loop(\(x,i).2x,(x div (2 + (x mod (2 + (x mod 2))))),1)) mod (x + 1)))),(x + 1)))
1: (2 + compr(\x.(x mod (1 + ((x + 1) mod (2 * (1 + (x div 8)))))),x))
1: (1 + compr(\x.(x mod (1 + ((x + 2) mod (1 + (x div (2 + (x div 4))))))),x))
1: (1 + compr(\x.(x mod (1 + ((~x + 1) mod (1 + (x mod 9))))),x))
1: (2 + compr(\x.(x mod (1 + ((~x + 1) mod (1 + (x mod 9))))),x))
1: (1 + compr(\x.(x mod (1 + ((~1 + loop(\(x,i).(2 * (x - (i mod 2))),x,(2x + 1))) mod (x + 1)))),x))
1: (1 + compr(\x.(x mod (1 + ((6 * (x mod 2)) mod (x + 1)))),x))
1: (1 + compr(\x.(x mod (2 + ((x * (x div 2)) mod 2))),x))
1: (1 + compr(\x.(x mod (1 + (loop(\(x,i).2x,x,(x + ~1)) mod (x + 1)))),x))
1: (1 + compr(\x.(x mod (1 + (loop(\(x,i).2x,x,x) mod (x + 1)))),x))
1: (1 + compr(\x.(x mod (1 + (x mod (1 + ((2x2 + 2) mod (1 + (x div 2))))))),x))
1: (2 + compr(\x.(x mod (1 + (x mod ((x + 1) - (x mod 8))))),x))
1: (1 + compr(\x.(x mod (2 + (if (x mod 2) <= 0 then 1 else (x div 12)))),x))
1: (1 + compr(\x.(x mod (~1 + (6 * (if (~2 + (x div 3)) <= 0 then 0 else 2)))),x))
1: (compr(\x.(x mod ((x + 1) - (x mod 8))),x) + (x mod 8))
1: (10 + compr(\x.(x mod ((x + 1) - (x mod 10))),(x + 1)))
1: (9 + compr(\x.(x mod ((x + 1) - (x mod 10))),x))
1: (1 + (compr(\x.(x mod ((x + 1) - (x mod 10))),x) + (x mod 10)))
1: (compr(\x.(x mod ((x + 1) - (x mod 10))),x) + (if x <= 0 then 1 else 10))
1: (1 + compr(\x.(x mod (if (x mod (1 + (2 * (x mod 3)))) <= 0 then 2 else 1)),x))
1: (1 + compr(\x.(if ((x + 2) mod 4) <= 0 then 1 else loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x)),x))
1: (1 + compr(\x.(if ((x + 2) mod 8) <= 0 then 0 else (x mod 3)),x))
1: (1 + compr(\x.(if (x mod 2) <= 0 then (~1 + (2x mod (4 + (x div 2)))) else 0),(x + 1)))
1: (1 + compr(\x.(if (x mod 2) <= 0 then (2x mod (4 + (x div 2))) else 0),x))
1: (1 + compr(\x.(if (x mod 4) <= 0 then 1 else loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x)),x))
1: (2 + compr(\x.loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),3,x),x))
1: (1 + compr(\x.loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(x + 8)),x))
1: (1 + compr(\x.loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(3x + ~1)),x))
1: (1 + compr(\x.loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),(x div 2),(x + (x mod 2))),x))
1: (2 + compr(\x.loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,(2 * ((x + 1) + (x div 2)))),x))
1: (2 + compr(\x.loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,4x),(x + 1)))
1: (x + compr(\x.loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,2x),(x + 1)))
1: (compr(\x.loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,2x),x) + (if x <= 0 then 1 else x))
1: (1 + compr(\x.loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),2,x),x))
1: (1 + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),(x + 5)))
1: (1 + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),(x + 6)))
1: (1 + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),(x + 4)))
1: (3 + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x))
1: (4 + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x))
1: (5 + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x))
1: (7 + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x))
1: (9 + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x))
1: ((x + 1) + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x))
1: ((x + 2) + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x))
1: (11 + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x))
1: (6 + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x))
1: (8 + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x))
1: (10 + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x))
1: (compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x) + (x div 4))
1: (compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x) + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: (4 + compr(\x.loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 2 else 1)),x,(x + 2)),x))
1: (1 + compr(\x.loop(\(x,i).(x - (if (x mod (2 + i)) <= 0 then 0 else 1)),x,x),x))
1: (3 + compr(\x.loop(\(x,i).(x - (if (x mod (2 + i)) <= 0 then 0 else 1)),x,x),x))
1: (5 + compr(\x.loop(\(x,i).(x - (if (x mod (2 + i)) <= 0 then 0 else 1)),x,x),x))
1: (1 + compr(\x.loop(\(x,i).((if x <= 0 then 2 else loop(\(x,i).(x div (2 - (x mod 2))),x,x)) div 2),2,x),(x + 1)))
1: (1 + compr(\x.loop(\(x,i).((if x <= 0 then 2 else loop(\(x,i).(x div (2 - (x mod 2))),x,x)) div 2),2,x),x))
1: (2 + compr(\x.loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,2x),x))
1: (3 + compr(\x.loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,2x),x))
1: (4 + compr(\x.loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,2x),x))
1: (3 + (compr(\x.loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,2x),x) + (x mod 2)))
1: (1 + (compr(\x.loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,2x),x) + (x mod 2)))
1: (2 + (compr(\x.loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,2x),x) + (x mod 2)))
1: (compr(\x.loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,2x),x) + (x mod 2))
1: (1 + compr(\x.loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,(x div 3)),x))
1: (1 + compr(\x.loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,x),x))
1: (1 + compr(\x.loop(\(x,i).(x div (if (x mod 2) <= 0 then 4 else 1)),x,2x),(x + 1)))
1: (2 + compr(\x.loop(\(x,i).(if ((x + 1) mod (1 + i)) <= 0 then 0 else x),x,2x),x))
1: (5 + compr(\x.loop(\(x,i).(if ((x + 1) mod (1 + i)) <= 0 then 0 else x),x,2x),x))
1: (7 + compr(\x.loop(\(x,i).(if ((x + 1) mod (1 + i)) <= 0 then 0 else x),x,2x),x))
1: (9 + compr(\x.loop(\(x,i).(if ((x + 1) mod (1 + i)) <= 0 then 0 else x),x,2x),x))
1: (10 + compr(\x.loop(\(x,i).(if ((x + 1) mod (1 + i)) <= 0 then 0 else x),x,2x),x))
1: (2 + compr(\x.loop(\(x,i).(if (x mod 4) <= 0 then 0 else (1 + (x div 4))),2,x),x))
1: (1 + compr(\x.loop(\(x,i).(if (x mod 4) <= 0 then x else (x div 2)),x,x),x))
1: (x + compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x + ~2),x),i))
1: (3 + compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + 1)),x))
1: (4 + compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + 1)),x))
1: (6 + compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + 1)),x))
1: (8 + compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + 1)),x))
1: (x + compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x + 2)),i))
1: (2 + compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),(x div 2),(~2x + 1)),x))
1: (1 + compr(\x.loop(\(x,i).(if x <= 0 then 2 else (2 + loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),2,x))),2,x),x))
1: (1 + compr(\x.loop(\(x,i).loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,0),2,x),x))
1: (2 + compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (3 + i)) <= 0 then 2 else 1)),x,(x + 2)),2,2x),x))
1: (1 + compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(13x + 4)),x))
1: (1 + compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(21x + 20)),x))
1: (1 + compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(11x + 10)),x))
1: (1 + compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(2x2 + 6x + 5)),x))
1: (1 + compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(17x + 12)),x))
1: (1 + compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(17x + 16)),x))
1: (2 + compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(4x + (x div 2))),x))
1: (1 + compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(9x + 5)),x))
1: (1 + compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(2x2 + 5x + 1)),x))
1: (1 + compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(11x + 9)),x))
1: (1 + compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(4x2 + 8x + 2)),x))
1: (1 + compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(2x2 + 6x)),x))
1: (1 + compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,((3x2 + 6x) div 2)),x))
1: (1 + compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,loop(\(x,i).(2x + 2),4,x)),x))
1: (2 + compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,(x + 2)),1,(2x + 1)),x))
1: (1 + compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (2 + i)) <= 0 then 0 else 1)),x,x),1,(9x + 4)),x))
1: (1 + compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (2 + i)) <= 0 then 0 else 1)),x,x),1,(7x + ~1)),x))
1: (2 + compr(\x.loop(\(x,i).loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 0 else 2))),x,(x + 1)),2,(x + 1)),x))
1: (1 + compr(\x.loop(\(x,i).loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x + 4)),2,x),(x + 1)))
1: (1 + compr(\x.loop(\(x,i).loop(\(x,i).(if x <= 0 then i else (x + ~1)),x,0),2,(x + ~1)),x))
1: (2 + compr(\x.loop(\(x,i).loop(\(x,i).loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x + 2)),2,x),2,x),x))
1: (~4 - (x div 4))
1: (~3 - ((2x div (2 + (x div 3))) mod 2))
1: (~4 - ((x div 2) mod 5))
1: (~4 - ((x div 4) mod 2))
1: (~x - ((x + loop(\(x,i).(x * i),i,1)) * (1 + i)))
1: (~3x2 + ~3x + ~1)
1: (~1 - (4 * (x mod 4)))
1: (~1 - (2 * (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))))
1: (~1 - (2 * ((x + ~1) mod 3)))
1: (~x - ((x + (x2 div 4)) div 4))
1: (~1 - ((1 + ((32 mod (x + 1)) div 2)) div 2))
1: (~1 - ((x + loop(\(x,i).(3x + ~1),2x,1)) div 2))
1: (~x - ((x div 2) div 7))
1: (~2 - ((x div 2) div (1 + ((((x + 1) div 2) div 2) div 2))))
1: (~2 - ((x div 2) div (1 + ((x + ~1) mod 3))))
1: (0 - ((x div (2 + (x div (2 + ((~x + 1) mod (1 + (x mod 4))))))) + (x mod 2)))
1: (~1 - (x div (2 + ((x + 2) mod (1 + (x div 4))))))
1: (~2 - (x div (1 + ((~x + 2) mod 4))))
1: (~1 - (x div (2 + (x mod 2))))
1: (~1 - (4 mod (x + 2)))
1: (~2 - ((18 + (x div 3)) mod (x + 1)))
1: (~1 - ((x + 1) mod (2 * (1 + (if (x mod (2 + (x mod 2))) <= 0 then 0 else 2)))))
1: (~2 - ((x + ~1) mod 3))
1: (~1 - (6 mod (x + 1)))
1: (~2 - ((3x + ~6) mod (1 + (x div 2))))
1: (~x - ((x div 4) mod 2))
1: (~1 - (x mod (1 + (x div (2 + (x mod 2))))))
1: (~1 - (x mod (1 + (x mod (1 + (~x mod (1 + (x div 2))))))))
1: (~1 - (x mod (2 * (if (x div 2) <= 0 then 2 else ~2))))
1: (~x - (if (~4 + (x div 2)) <= 0 then 1 else x))
1: (~2 - (if (~2 + (x div 2)) <= 0 then 2 else 1))
1: (~2x - (if (~2 + i) <= 0 then 1 else x))
1: (~2 - (if ((x + 1) mod 8) <= 0 then 1 else 2))
1: (~1 - (if (x mod 3) <= 0 then 2 else 0))
1: (~1 - loop(\(x,i).(x - (if x <= 0 then 1 else (1 + (i * i)))),x,x))
1: (~1 - loop(\(x,i).(if x <= 0 then i else (x div 2)),x,0))
1: ~5x
1: (~x2 + ~6x + ~8)
1: (0 - (2 * (1 + (2 * (x + (x mod 2))))))
1: (~2x + ~32)
1: (~2x2 + ~2)
1: (0 - (2 * (x + (x div 2))))
1: (0 - ((x + 1) * (x + (x div 2))))
1: (0 - (2 * (2 + ((x + 1) mod 4))))
1: (0 - (2 * (2 + ((((x + 1) div 2) div 2) mod 4))))
1: (0 - ((x + 1) * (1 + (x mod 4))))
1: (0 - (2 * (2 + (x mod 4))))
1: (0 - (2 * (1 + (x mod (1 + ((~x + 2) mod 4))))))
1: (0 - (3 * (1 + (x mod (1 + (x mod 4))))))
1: (0 - (x * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))))
1: (~6x2 + 2x + ~4)
1: ~24x
1: ~x6
1: (0 - (4 * (x mod 2)))
1: (0 - (4 * (x mod 4)))
1: ~6x
1: (0 - (3 * ((1 + (((x + 1) div 2) * (1 + (x div 2)))) div 3)))
1: (0 - (((4x * (~1 + (2 * i))) div (1 + i)) * (~1 + (2 * i))))
1: (0 - (2 * (x div 5)))
1: (0 - (3 * (x div 7)))
1: (0 - (2 * (x div (1 + (x mod 12)))))
1: (0 - ((x + 1) * ((~x2 + 2) mod (~1 + ((~2x + 2) mod (4 + (x div 4)))))))
1: (0 - (2 * (x mod 7)))
1: (0 - ((x + 1) * (if x <= 0 then 1 else 2)))
1: (0 - ((x + 1) * loop(\(x,i).(x2 + 2),2,2)))
1: (0 - (1 div (3 - (x2 mod 7))))
1: (0 - (1 div (2x + ~1)))
1: (0 - (2 div (2x + ~1)))
1: (0 - (((x div 2) + i) div 2))
1: (0 - ((x + 1) div (1 + (x div 4))))
1: (0 - ((~x + 1) div 5))
1: (0 - ((~x + 1) div (1 + (2 * (2 + (x mod 6))))))
1: (0 - ((2 - (x div 2)) div (x + 2)))
1: (0 - ((~x + 2) div (2 + (x div 2))))
1: (0 - ((~x + 2) div (2 - (x div ~4))))
1: (0 - (((~x2 + x) - (x2 div 4)) div 3))
1: (0 - ((~2x + (x mod 2)) div 7))
1: (0 - ((x - (((x div 2) - (x mod 4)) div 2)) div 2))
1: (0 - ((x - (x div 4)) div 2))
1: (0 - ((x - ((1 + (x div 2)) mod 4)) div 2))
1: (0 - ((x - ((1 + (x div 2)) mod 8)) div 2))
1: (0 - ((x - ((x div 2) mod ~4)) div 2))
1: (0 - ((5 * (x + (x div 7))) div 2))
1: (0 - ((2x + 2) div (2 + (x div 2))))
1: (0 - ((x2 + 2x) div ~14))
1: (0 - ((x2 + 2x) div ~21))
1: (0 - ((x2 + ~2x) div 8))
1: (0 - ((2x * (1 + (2 * i))) div (2 + i)))
1: (0 - ((2x * (~1 + (2 * i))) div (1 + i)))
1: (0 - ((x3 + 2x2) div 2))
1: (0 - ((((1 + (x div 2)) div 2) * (x div 2)) div 2))
1: (0 - ((((x + ~1) div 2) * (x div 2)) div 2))
1: (0 - ((x * (x mod 2)) div 3))
1: (0 - (2x div (~2 + (x div ~4))))
1: (0 - (x2 div 3))
1: (0 - (x2 div 4))
1: (0 - (x2 div (x + 10)))
1: (0 - (x2 div ~7))
1: (0 - (x2 div ~11))
1: (0 - (x2 div (x + ~32)))
1: (0 - (x2 div ~42))
1: (0 - (((x + (x2 div 4)) div 2) div 3))
1: (0 - (((x + 1) div 2) div 3))
1: (0 - (((x * (1 - (x div 2))) div 2) div 5))
1: (0 - (((~x3 + 3x2 + ~2x) div 2) div 7))
1: (0 - (((x * (((x + ~1) div 2) div 2)) div 2) div 2))
1: (0 - ((x div (~2 + (x mod 2))) div 7))
1: (0 - ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 2))
1: (0 - ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3))
1: (0 - ((x mod 5) div 2))
1: (0 - ((x mod (1 + ((~x + 2) mod 4))) div 2))
1: (0 - ((if x <= 0 then 1 else x) div ~7))
1: (0 - (loop(\(x,i).(x * (~1 + (2 * i))),(x + ~2),1) div 2))
1: (0 - (loop(\(x,i).(3x + ~3),x,0) div 5))
1: (0 - (loop(\(x,i).2x,x,1) div (x + 1)))
1: (0 - (x div (2 + (if (~2 + (x div 3)) <= 0 then 2 else 0))))
1: (0 - (x div ~7))
1: (0 - (x div ~11))
1: (0 - (x div (~x + 18)))
1: (0 - (x div (~2 + ((1 - (x div 2)) div 3))))
1: (0 - (x div (~2 + ((~x + 2) div 4))))
1: (0 - (x div (~2 + ((~x + 2) div 5))))
1: (0 - (x div (~1 + ((~x + 2) div (2 + ((if x <= 0 then 2 else x) div 2))))))
1: (0 - (x div (~1 + ((~x + (x div 3)) div 3))))
1: (0 - (x div (~2 + (x div ~2))))
1: (0 - (x div (~2 + (x div ~3))))
1: (0 - (x div (~2 + (x div ~4))))
1: (0 - (x div (~1 + (x div (~2 - (x mod 4))))))
1: (0 - (x div (~2 + (x div ~8))))
1: (0 - (x div (~10 + (x mod (1 + (x div 2))))))
1: (0 - (x div (~2 + (x mod ~2))))
1: (0 - (x div (3 * (~2 + (x mod ~8)))))
1: (0 - (x div (2 * loop(\(x,i).(x div (~2 + (x mod 2))),x,(x + 1)))))
1: (0 - (x div (if (x + ~2) <= 0 then 1 else 2)))
1: (0 - ((2x + 1) mod (2 + (x div 4))))
1: (0 - ((x2 + 2) mod 5))
1: (0 - ((1 + (x div 2)) mod 4))
1: (0 - ((2 + (x mod 8)) mod (x + 1)))
1: (0 - ((x + 1) mod 9))
1: (0 - ((x + 1) mod (~1 + (x div ~5))))
1: (0 - ((x + 1) mod 8))
1: (0 - ((x + 1) mod 10))
1: (0 - ((~x + 1) mod 5))
1: (0 - ((2 - (2x mod (4 + (x div 4)))) mod (x + 1)))
1: (0 - ((x2 + ~x) mod 5))
1: (0 - (2x mod 5))
1: (0 - (2x mod (4 + (x div 4))))
1: (0 - (x2 mod (x + 4)))
1: (0 - (x2 mod (x - ((~x + 2) div 2))))
1: (0 - (((~x + 2) div 2) mod 3))
1: (0 - (((~x + 2) div 2) mod 4))
1: (0 - ((x2 div 4) mod (x + 1)))
1: (0 - ((x div 2) mod (~1 + ((~x + 1) div 3))))
1: (0 - ((x div (1 + (x mod 3))) mod 2))
1: (0 - (loop(\(x,i).(2x + 2),x,0) mod (x + 1)))
1: (0 - (loop(\(x,i).2x,x,2) mod (x + 1)))
1: (0 - (x mod (4 + (x div 2))))
1: (0 - (x mod (3 - (x mod 2))))
1: (0 - (x mod (1 + (2 * (if (x mod 3) <= 0 then 0 else 2)))))
1: (0 - (x mod (2 + (x mod 2))))
1: (0 - (x mod (1 - (if (x mod 4) <= 0 then (x div 2) else 0))))
1: (0 - (x mod (~2 + ((~x + 2) div 4))))
1: (0 - (x mod ((x + ~2) - (x mod 11))))
1: (0 - (i mod 4))
1: (0 - (if (~x + 4) <= 0 then x else 4))
1: (0 - (if (2 - (x div 4)) <= 0 then x else 8))
1: (0 - (if (~x + 2) <= 0 then (x2 div 3) else 1))
1: (0 - (if (~2 + (x div 2)) <= 0 then x else 1))
1: (0 - (if (x + ~2) <= 0 then 1 else ((x mod (2 + (x mod 2))) div 2)))
1: (0 - (if ((x + 1) mod (1 + i)) <= 0 then 0 else x))
1: (0 - (if (x mod 3) <= 0 then ((loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,x) div 2) mod 3) else 1))
1: (0 - (if (x mod (1 + i)) <= 0 then 1 else x))
1: (0 - (if i <= 0 then 1 else i))
1: (0 - loop(\(x,i).((x + 1) + (2 * (2x + (x mod 2)))),x,1))
1: (0 - loop(\(x,i).(10x + 1),x,1))
1: (0 - loop(\(x,i).(x + (i * i)),(x div 2),0))
1: (0 - loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,1))
1: (0 - loop(\(x,i).(~2x + 1),x,(2 * (x mod 2))))
1: (0 - loop(\(x,i).(~10x + 2),(2x + 1),1))
1: (0 - loop(\(x,i).((x + ~1) - (if x <= 0 then 1 else i)),x,x))
1: (0 - loop(\(x,i).(2x - ((i mod 2) * i)),x,1))
1: (0 - loop(\(x,i).(~1 + ((~2x + 2) mod (4 + (x div 4)))),2,x))
1: (0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(x + 8)))
1: (0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x2 + 2x + 5)))
1: (0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(12x + 1)))
1: (0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(10x + ~1)))
1: (0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(16x + ~1)))
1: (0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(6x + ~1)))
1: (0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(6x + ~2)))
1: (0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,13x))
1: (0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x2 + 2x + 2)))
1: (0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x2 + 2x + 4)))
1: (0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(12x + 2)))
1: (0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x2 + 4)))
1: (0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(8x + ~2)))
1: (0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(12x + ~2)))
1: (0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(12x + 8)))
1: (0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(8x + 4)))
1: (0 - loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,(3x + 1)))
1: (0 - loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,(x2 + x + 2)))
1: (0 - loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,(6x + 4)))
1: (0 - loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,(x2 + x)))
1: (0 - loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,2x2))
1: (0 - loop(\(x,i).(~x2 + loop(\(x,i).2x,i,1)),x,1))
1: (0 - loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),x,x))
1: (0 - loop(\(x,i).(x - (if (~x + i) <= 0 then (1 + i) else 0)),x,x))
1: (0 - loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then x else 3)),x,x))
1: (0 - loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x))
1: (0 - loop(\(x,i).(x - (if x <= 0 then 1 else (2 * (1 + i)))),x,2x))
1: (0 - loop(\(x,i).(x - (if x <= 0 then 1 else (2 * i))),x,x))
1: (0 - loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,x))
1: (0 - loop(\(x,i).3x,x,1))
1: (0 - loop(\(x,i).~2x,i,x))
1: (0 - loop(\(x,i).(x * (0 - i)),i,2x))
1: (0 - loop(\(x,i).(x2 + ~x),2,loop(\(x,i).(2x + 1),x,0)))
1: (0 - loop(\(x,i).(((x + 1) - (2 * (i mod 2))) * i),x,0))
1: (0 - loop(\(x,i).(2 * (x - (2x * i))),x,1))
1: (0 - loop(\(x,i).10x,x,1))
1: (0 - loop(\(x,i).(~2x * (i * i)),x,1))
1: (0 - loop(\(x,i).2x,(x + ~1),1))
1: (0 - loop(\(x,i).x2,1,(1 + (x mod (1 + (x div (1 + (loop(\(x,i).2x,x,2) mod (2x + 1)))))))))
1: (0 - loop(\(x,i).(x * i),x,1))
1: (0 - loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1))
1: (0 - loop(\(x,i).(x div (~2 + (x mod 2))),x,(x + 1)))
1: (0 - loop(\(x,i).loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),x,x),1,(3x + 2)))
1: (0 - loop(\(x,i).loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),x,x),1,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (0 - loop(\(x,i).loop(\(x,i).(x - (if x <= 0 then 0 else (i - (x mod 2)))),x,x),1,(2x + 2)))
1: (0 - loop(\(x,i).loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (0 - loop(\(x,i).loop(\(x,i).(x - (if x <= 0 then 1 else (2 * i))),x,x),1,3x))
1: (0 - compr(\x.(1 - (x mod (1 + ((~x2 + x) mod 8)))),x))
1: ((~x + ~3) - (x div 2))
1: (0 + (2 * (x mod 2)) - (((x + 1) div 2) div 2))
1: ((~x + 1) - (2 * (24 + (x div 2))))
1: ((~x + 1) - (2 * (2 + (x div 8))))
1: (~x + ~15)
1: (~x + ~35)
1: (1 - ((2 * ((1 - (2 * ((x div 5) mod 2))) * ((x div ~2) mod 2))) + (x mod 2)))
1: ((~x + 1) - (6 * (x div 8)))
1: ((~x + 1) - (2 * (9 div (2 + (x div 2)))))
1: (0 - (2 * ((x + ~1) mod 4)))
1: (1 - ((x * (x mod 2)) + (x div 2)))
1: ((~x2 + 1) - (x mod 2))
1: ((~x + 1) - ((x2 + 1) div (x + 3)))
1: (1 - (((~x + (x div 8)) div 2) + (x div 7)))
1: (~1 - (4x2 div 5))
1: (0 - (((x + ~1) * loop(\(x,i).5x,(x + ~2),x)) div 2))
1: ((~2x + 1) - (x2 div 3))
1: ((~x + 1) - (x2 div 5))
1: ((~x + 1) - (x2 div ~7))
1: (0 - (((loop(\(x,i).loop(\(x,i).x2,2,x3),1,(10x + 1)) div 2) div 2) div 3))
1: (~1 - ((x div 2) div 3))
1: (0 - (x div (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))))))
1: (1 - ((4 mod (1 + (x div 4))) + (x mod 2)))
1: (0 - ((2x + ~1) mod (4 * (2 - (x mod 2)))))
1: (~1 - (x2 mod 5))
1: (1 - (((2x div (1 + (2 * (x mod 4)))) mod 2) + (x mod 2)))
1: (~1 - ((x div 2) mod 3))
1: ((~x + 1) - ((x div 5) mod 3))
1: (1 - (((x mod (~2 + (x mod ~7))) mod 2) + (x mod 2)))
1: (1 - (((if (x mod 2) <= 0 then x else (~x + 2)) mod 3) + ((x mod 3) div 2)))
1: (~1 - (x mod (2 + (x mod (2 + (x mod 2))))))
1: (~1 - (x mod 8))
1: ((~x + 1) - (if (x + ~4) <= 0 then 1 else x))
1: (~1 - (if (x mod 5) <= 0 then 2 else 0))
1: ((~x + 1) - (if (x mod (1 + (2 * i))) <= 0 then x else 0))
1: ((~x + 1) - loop(\(x,i).3x,(x div 2),2))
1: (~1 - loop(\(x,i).2x,((((1 + (8 mod (1 + (x div 2)))) div 2) + (if x <= 0 then 0 else 1)) - (x mod 2)),2))
1: (~1 - loop(\(x,i).2x,(2x + ~1),1))
1: (0 - loop(\(x,i).2x,x,loop(\(x,i).(x + ((2 - i) * (1 + i))),x,2)))
1: ((~x + 1) - loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,x))
1: (~7 + (x div 2))
1: (1 + (x div 2) - (2 * (x + (x mod 2))))
1: ((~2x + ~1) + (((x + 1) div 2) div 3))
1: ((~2x + ~1) + (x div 7))
1: ((~x2 + ~x + 1) + (loop(\(x,i).((x2 + ~x) div 2),2,(x + 2)) div 3))
1: (2 - (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + ~1) div 2)))
1: ((~2x + 1) + (7 * (x - (x div 5))))
1: ((~2x + 1) + (x div (1 + i)))
1: ((~2x + 1) + (x mod 2))
1: ((~x2 + 1) + ((2x + (x div 2)) * (1 + (x div 2))))
1: ((~x2 + 1) + loop(\(x,i).2x,x,1))
1: ((3x2 + 3x + 1) - ((x2 + x) div 4))
1: (1 + (loop(\(x,i).((x2 + ~x) div 2),2,(x + 2)) div 3) - ((x2 + ~x) div 2))
1: (1 + (2 * ((2x + 1) div (3 + (x div 4)))) - ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2))
1: (2 + (2 * (x + (3 * (1 + (x div 2))))) - (x div 2))
1: (1 + (3 * (2x + (x mod 2))) - (x div 2))
1: ((6x + 1) - (x div 2))
1: (1 + ((3 * (3x div 5)) div 2) - (x div 2))
1: (1 + ((x div 4) mod 2) - (x div 2))
1: (1 + (x mod 3) - (x div 2))
1: (1 + (2 * (1 + ((1 + loop(\(x,i).(x - (x div ~3)),x,1)) div 3))) - (x div ~3))
1: (1 + (x mod 8) - (~x mod 5))
1: (3 - ((2x + ~1) mod 5))
1: (1 + (x mod 2) - (((1 - (((x mod 2) - (x div 2)) div 2)) div 2) mod 2))
1: (2 + (x mod (1 + (x mod (2 + (x div (3 - (x mod 2))))))) - (x mod 2))
1: (1 + (3 * (x + (x div 2))) - (x mod 2))
1: ((3x2 + 3x + 1) - (x mod 2))
1: ((6x + 1) - (x mod 2))
1: (1 + (3 * ((x div 3) mod 2)) - (x mod 2))
1: (1 + ((2 + (x2 div 7)) div 3) - (x mod 2))
1: (1 + ((x + 1) div 3) - (x mod 2))
1: (1 + ((x + ~1) div 9) - (x mod 2))
1: (1 + (x2 div (x + ((x + 2) * (2 + (x mod 2))))) - (x mod 2))
1: (1 + (((x2 + x) div 4) div 5) - (x mod 2))
1: (1 + ((x div 2) div (1 + (2 * (1 + (x mod 2))))) - (x mod 2))
1: (1 + (((x + ~1) mod (3 + (x div 4))) div 3) - (x mod 2))
1: (1 + (loop(\(x,i).8x,x,1) div 3) - (x mod 2))
1: (1 + (loop(\(x,i).2x,x,1) div 9) - (x mod 2))
1: (1 + (loop(\(x,i).2x,x,(if (x mod 3) <= 0 then 1 else 2)) div 3) - (x mod 2))
1: (1 + (x div (4 + ((x * (x + (x div 2))) mod 6))) - (x mod 2))
1: (1 + (x div 7) - (x mod 2))
1: (1 + (x div (1 + (2 * (2 + (((x div 2) div 3) mod 2))))) - (x mod 2))
1: (1 + (if ((x div 2) mod 3) <= 0 then 2 else 1) - (x mod 2))
1: (1 + loop(\(x,i).3x,2x,3) - (x mod 2))
1: (1 + loop(\(x,i).(2 * (x + i)),x,0) - (x mod 2))
1: (1 + loop(\(x,i).2x,(x + ~1),1) - (x mod 2))
1: (1 + ((x + (x div 12)) mod 3) - (x mod 3))
1: (1 + (x mod 13) - (x mod 7))
1: (1 + ((x + 3) mod 7) - (x mod 8))
1: (1 + (x mod 7) - (x mod 8))
1: (1 + (x mod 15) - (x mod 8))
1: (1 + loop(\(x,i).(2x + 4),x,0) - loop(\(x,i).(2 * (2x - (x div (1 + i)))),x,2))
1: ((~x + 1) + (2 * (6 + (x mod 2))))
1: ((~x + 1) + (3 * (2x + (45 * (if x <= 0 then 0 else 2)))))
1: ((~x + 1) + (3 * ((4x + 2) + (x div 2))))
1: ((~x + 1) + (3 * ((5x + 10) + (x div 2))))
1: ((~x + 1) + (3 * ((16x + 8) + (x div 2))))
1: ((~x + 1) + (5 * (x + (2 * (x mod 2)))))
1: ((~x + 1) + (3 * (x + ((x + (x div 2)) div 2))))
1: ((~x + 1) + (3 * (x + (x div 2))))
1: ((~x + 1) + (3 * (16 - (x div 2))))
1: ((~x + 1) + (3 * (2x - (3 * (x div 5)))))
1: ((~x + 1) + (3 * (2x - ((2x + ~1) div 7))))
1: ((~x + 1) + (3 * (2x - ((2x + ~4) div 7))))
1: ((~x + 1) + (9 * ((x + 1) - (x mod 10))))
1: ((~x + 1) + (5 * (x - (x div ~2))))
1: (~x + 37)
1: (11x + 13)
1: (9x2 + 14x + 7)
1: (9x2 + 5x + 1)
1: (10x2 + ~6x + 1)
1: ((~x + 1) + (6 * (x - (x div 5))))
1: (12x2 + 5x + 1)
1: (71x + ~23)
1: (16x2 + 7x + 1)
1: (8x2 + 3x + 1)
1: (12x2 + ~x + 1)
1: (3x2 + ~x + 1)
1: ((~x + 1) + (2 * ((~2x + 1) div 3)))
1: ((~x + 1) + (2 * ((~x + 1) div 3)))
1: ((~x + 1) + (2 * ((x - (x div ((~1 + (x div ~4)) div 2))) div 2)))
1: ((~x + 1) + (5 * ((x3 + x) div 2)))
1: ((~x + 1) + (9 * ((x2 + x) div 2)))
1: ((~x + 1) + (3 * ((((x + 1) + (x div 2)) div 2) div 2)))
1: ((~x + 1) + (9 * (x mod 10)))
1: ((~x + 1) + ((2x3 + 12x2 + 16x) div 3))
1: ((~x + 1) + (x div 3))
1: ((~x + 1) + (x div (4 * (1 + i))))
1: ((~x + 1) + loop(\(x,i).(2 + (x * i)),x,0))
1: ((~x + 1) + loop(\(x,i).(4x + 8),x,0))
1: (~4x + ~3)
1: (1 - (2 * ((2x + 2) - (x div 4))))
1: (1 - (2 * ((2x + 1) - (x mod (1 + ((x2 + ~x) mod 8))))))
1: (~10x + ~3)
1: (~26x + ~15)
1: (~22x + ~19)
1: (1 - (2 * (1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x mod 2))))))
1: (~10x + ~4)
1: (~x3 + ~2x2 + ~2x + ~3)
1: (1 - (2 * (1 + ((~2 + (3 * (x div 15)) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) div 2))))
1: (1 - (2 * (2 + ((x - ((x div 2) div 3)) div 2))))
1: (1 - (2 * ((2x + 2) + ((x - (x div 4)) div 2))))
1: (1 - (5 * (1 + (x div 3))))
1: (1 - (2 * (x + ((i div 2) mod 2))))
1: (1 - (2 * (2 + (x mod 5))))
1: (1 - (2 * (2 + (x mod (1 + i)))))
1: (1 - (2 * (2 + (x mod 6))))
1: (1 - (2 * (x + (if (~4 + (x div 2)) <= 0 then 2 else 0))))
1: (1 - (2 * (x + (if (x + ~2) <= 0 then 1 else x))))
1: (1 - (2 * (1 + (if (x + ~4) <= 0 then 0 else 2))))
1: (1 - (3 * (2 + (if (x mod 3) <= 0 then 2 else 1))))
1: (1 - (2 * (2 + loop(\(x,i).(2x + ~4),compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),2))))
1: (~3x + ~2)
1: (~3x + ~5)
1: (1 - (2 * (2 + i)))
1: (1 - (2 * (x + i)))
1: (18x3 + 31x2 + 10x + 1)
1: (1 - (2 * (1 - (x div (~2 + (x div ~2))))))
1: (~18x2 + ~31x + ~10)
1: (1 - (2 * (2x - (x mod 8))))
1: (1 - (2 * (x2 - (2 * (x + ((x3 + 2x) div 3))))))
1: (1 - (2 * ((x div 2) - (x div 7))))
1: (1 - (2 * ((x div 2) - (x mod 2))))
1: (1 - (3 * (~x + (x mod 2))))
1: (1 - (2 * (x - (2 * (x div 3)))))
1: (1 - (2 * (x - ((~x + 1) div 3))))
1: (1 - (2 * (x - ((~x + 2) div 5))))
1: (1 - (2 * (x - (x2 div (x - ((~x + 2) div 2))))))
1: (1 - (2 * (compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: ~39
1: (~16x + ~7)
1: ~89
1: (1 - (6 * ((x + 1) + (x div 2))))
1: (~4x2 + ~26x + ~39)
1: (1 - (6 * (2 + ((1 + (((x + 1) * (1 + (2 * (37 div (x + 1))))) div 2)) div 2))))
1: (~2x2 + ~6x + ~3)
1: (1 - (6 * (1 - ((~x + 2) div 12))))
1: (~2x2 + 4x + 1)
1: (~24x + ~23)
1: (~60x + ~23)
1: (~48x + ~47)
1: (1 - (16 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)))
1: (~x7 + 1)
1: (1 - (8 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)))
1: (1 - (8 * (x mod 2)))
1: (1 - (4x * (1 + i)))
1: (1 - (4x * ((x + ~1) div 2)))
1: (~18x + 1)
1: (~x6 + 1)
1: (1 - (4 * ((1 + (x div 2)) div 2)))
1: (1 - (4 * ((loop(\(x,i).2x,x,2) - loop(\(x,i).(4x + 2),x,1)) div 2)))
1: (1 - (4 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)))
1: (1 - (6 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)))
1: (1 - (4 * (x mod 2)))
1: (1 - (6 * (if (~2 + (x div 3)) <= 0 then 0 else 2)))
1: (~2x2 + ~2x + 1)
1: (~x4 + 1)
1: (1 - (2 * (((x + 1) + ((32 mod (x + 1)) div 2)) div 2)))
1: (1 - (2 * ((2x + 1) div 3)))
1: (1 - (2 * ((1 + ((x + (x div 2)) div 2)) div 2)))
1: (1 - (2 * ((1 + (((1 + loop(\(x,i).((2x + 2) - loop(\(x,i).2x,x,1)),1,(x div 2))) div 2) div 2)) div 2)))
1: (1 - (2 * ((x + (x mod 2)) div 3)))
1: (1 - (3 * ((~x + ((~x + 2) div 4)) div 2)))
1: (1 - (2 * ((~2 + ((~2x + 2) mod (4 + (x div 4)))) div 2)))
1: (1 - (2 * ((~x + (x mod 2)) div 5)))
1: (1 - (2 * ((~2 + (x mod (~1 - (if (x mod 5) <= 0 then 2 else 0))) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) div 2)))
1: (1 - (2 * ((x - (x mod (2 + (x mod 2)))) div 2)))
1: (1 - (2 * (((1 - (2 * (i mod 2))) * i) div 2)))
1: (1 - (5 * ((~2x + 2) div 9)))
1: (1 - (2 * (((~x + 2) * (x div 2)) div (x + 4))))
1: (1 - (3 * ((x * (x - loop(\(x,i).x3,1,(3x + 2)))) div 2)))
1: (1 - (2 * (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 - (2 * (x div 5)))) div 2)))
1: (1 - (3 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)))
1: (1 - (5 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)))
1: (1 - (7 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)))
1: (1 - (2 * ((2 * (x div 2)) div 3)))
1: (1 - (2 * (((2x + 1) * (x div ~2)) div 2)))
1: (1 - (2 * (((if (x mod 4) <= 0 then 0 else 1) * (1 + (x div 2))) div 2)))
1: (1 - (2 * (2x div 5)))
1: (1 - (x * (((x + 1) div 2) div 2)))
1: (1 - (2 * ((((x + 1) div 2) div 2) div 2)))
1: (1 - (2 * ((x div 2) div 3)))
1: (1 - (2 * ((x div 2) div (1 + (x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4))))))))))
1: (1 - (2 * ((x div 3) div (1 + (x mod 4)))))
1: (1 - (2 * (((0 - (x mod (1 + (2 * (x div (2 * (2 + (x mod 2)))))))) mod (x + 1)) div 3)))
1: (1 - (2 * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)))
1: (1 - (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + ((x - (x mod 5)) div 2))))
1: (1 - (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (x div (~1 - (x mod 5)))))
1: (1 - (2 * ((x mod (2 - (((x mod 2) - (x div 2)) div 2))) div 2)))
1: (1 - (2 * ((x mod (~1 + (2 * ((2 * (x div 2)) div 3)))) div 2)))
1: (1 - (2 * (loop(\(x,i).~x6,1,(x2 + 1)) div 2)))
1: (1 - (2 * (loop(\(x,i).((3x + ~1) + (x mod 3)),x,0) div 2)))
1: (1 - (2 * (loop(\(x,i).(2x - ((1 + (x div 2)) mod 4)),x,0) div 2)))
1: (1 - ((x div 2) * (x div 2)))
1: (1 - (x * (x div 2)))
1: (1 - (x * (x div 3)))
1: (1 - (2 * (x div (3 + (x mod 2)))))
1: (1 - (2 * (x div 7)))
1: (1 - ((x div ~5) * (x div 5)))
1: (1 - ((x div ~5) * (if (x + ~2) <= 0 then 1 else 2)))
1: (1 - (2 * (x div (~2 + ((~x + 1) div 2)))))
1: (1 - (2 * (x div (~2 + ((x div 2) div ~2)))))
1: (1 - (x * (x div ~8)))
1: (1 - (5 * (3 mod (~2x + 1))))
1: (1 - (2 * (((((~1 + (x div 2)) div 2) div 2) + (x div 3)) mod 2)))
1: (1 - (2 * ((x + (x div 8)) mod 5)))
1: (1 - (2 * ((x + 1) mod (1 + (2 * (if (x mod 5) <= 0 then 0 else 2))))))
1: (1 - (x * ((x + ~1) mod 4)))
1: (1 - (2 * ((x - ((x mod 7) div 2)) mod 2)))
1: (1 - (2 * ((x - (x div 4)) mod 2)))
1: (1 - (2 * ((x2 + x) mod 8)))
1: (1 - (2 * (((x + (x div 2)) div 2) mod 2)))
1: (1 - (2 * (((x + 1) div (2 + ((x + 2) mod 4))) mod 2)))
1: (1 - (2 * (((~x2 + 2) div (3x + ~1)) mod 2)))
1: (1 - (2 * (((~x + 2) div 2) mod 4)))
1: (1 - (2 * (((~x + 2) div (2 + (x div 5))) mod 2)))
1: (1 - (2 * ((((x2 + 2x) - (x div 3)) div 3) mod 2)))
1: (1 - (2 * (((x + ~4) div (1 + (x div 2))) mod 2)))
1: (1 - (2 * (((x - ((x2 div 2) mod (x + 2))) div 3) mod 2)))
1: (1 - (2 * (((x2 + ~2x) div (x + 2)) mod 2)))
1: (1 - (2 * ((2x div (2 + (x div (2 + (if (x + ~2) <= 0 then 0 else 2))))) mod 2)))
1: (1 - (2 * ((x2 div (3 + (x div 2))) mod 2)))
1: (1 - (2 * ((x2 div (x - ((~x + 2) div 2))) mod 2)))
1: (1 - (2 * (((((x + ~1) * (1 + (x div 2))) div 2) div 2) mod 2)))
1: (1 - (2 * (((((x + ~1) * (x div ~2)) div 2) div 2) mod 2)))
1: (1 - (2 * (((x mod (~2 + ((~x + 2) div 4))) div 2) mod 2)))
1: (1 - (2 * ((x div 2) mod 5)))
1: (1 - (2 * ((x div 3) mod 3)))
1: (1 - (2 * ((x div ~3) mod 2)))
1: (1 - (2 * (((2 + (x * (x div 2))) mod (1 + (x div 3))) mod 2)))
1: (1 - (2 * (((x2 + (x mod 3)) mod 5) mod 2)))
1: (1 - (2 * (((x + (if (x + ~10) <= 0 then 1 else 2)) mod 5) mod 2)))
1: (1 - (2 * (((~x + 2) mod 7) mod 2)))
1: (1 - (2 * ((((~x + 4) + (x div 4)) mod (1 + (x div 2))) mod 2)))
1: (1 - (2 * (((x + ~1) mod (1 + (x div 3))) mod 2)))
1: (1 - (2 * (((2x + 2) mod (2 + (x div 4))) mod 2)))
1: (1 - (2 * ((((~2 + (x div 2)) * (x div 2)) mod (x + 1)) mod 2)))
1: (1 - (2 * ((((x + ~1) mod (1 + (x div 2))) mod 3) mod 2)))
1: (1 - (2 * (((x mod 13) mod 3) mod 2)))
1: (1 - (2 * ((x mod (1 + ((2 * (x + ((x * (x div 2)) mod 2))) div 3))) mod 2)))
1: (1 - (2 * ((x mod (2 + (x mod 5))) mod 2)))
1: (1 - (2 * ((x mod (~2 - (x div 3))) mod 2)))
1: (1 - (2 * ((x mod (~1 - (4 mod (x + 1)))) mod 2)))
1: (1 - (2 * ((x mod ~5) mod 2)))
1: (1 - (2 * ((x mod (~6 + (x div 3))) mod 2)))
1: (1 - (2 * ((if (x mod 3) <= 0 then 1 else x) mod 5)))
1: (1 - (3 * (x mod 9)))
1: (1 - (2 * (x mod (1 + ((~1 + loop(\(x,i).2x,x,2)) mod (x + 2))))))
1: (1 - (9 * (x mod 6)))
1: (1 - (2 * (x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4))))))))
1: (1 - (2 * (if (x mod 2) <= 0 then x else (~x + 1))))
1: (1 - (2 * (if (x mod 4) <= 0 then 0 else 2)))
1: (1 - (2 * (if (x mod (1 + (2 * (x div (2 * (2 + (x mod 2))))))) <= 0 then 1 else 2)))
1: (1 - (2 * (if x <= 0 then 1 else (2 * (3x + ((x + ((x div 3) mod 3)) div 3))))))
1: (1 - (2 * (if x <= 0 then 1 else x)))
1: (1 - (2 * (if x <= 0 then 2 else (loop(\(x,i).(2x + i),x,0) div (x + 1)))))
1: (1 - (x * loop(\(x,i).(~1 + (x * i)),x,1)))
1: (1 - (2 * loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)))
1: (1 - (3 * loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)))
1: (1 - ((x + 1) * loop(\(x,i).(x - loop(\(x,i).(x * i),(~1 + i),1)),x,1)))
1: (1 - (2 * loop(\(x,i).(x2 + x),(x + ~1),x)))
1: (1 - (x2 * loop(\(x,i).x3,2,x)))
1: (1 - (x * loop(\(x,i).x3,2,x)))
1: (1 - (2 * loop(\(x,i).(x * i),x2,2)))
1: (1 - (1 div ((2x + 1) - ((x2 + ~2x) div 4))))
1: (1 - (2 div (1 + (x div 4))))
1: (1 - (2 div (1 + (x div 5))))
1: (1 - (2 div (1 + ((1 + (x div 2)) mod 4))))
1: (1 - (2 div (1 + ((x + 1) mod 4))))
1: (1 - (2 div (1 + (x mod 4))))
1: (1 - (2 div (1 + (x mod 5))))
1: (1 - (2 div (1 + (x mod (1 + ((x2 + 2x) mod 6))))))
1: (1 - (2 div (1 + (x mod (1 + (if (x mod 2) <= 0 then 6 else 1))))))
1: (1 - (2 div (1 + (x mod 6))))
1: (1 - ((2 + ((2 * (1 + ((if x <= 0 then 0 else ((2x + 1) - (if (x mod 4) <= 0 then (x div 4) else 0))) div 2))) div 3) - (x mod 2)) div 2))
1: (1 - ((x2 + 2x + 1) div 5))
1: (1 - ((~x2 + 2x + 1) div 17))
1: (1 - ((1 + (2 * (((x mod 2) + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) - compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)))) div 3))
1: (1 - ((1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (2 * (2 + (x mod (~5 + (x mod 2)))))))) div 2))
1: (1 - ((1 + ((1 + ((1 + ((1 + ((1 + ((x * (2 - (((x + ~1) div 2) * (x div 2)))) div 2)) div 2)) div 2)) div 2)) div 2)) div 2))
1: (1 - ((1 + ((1 + ((1 + ((1 + ((1 + ((((x + 1) * (if x <= 0 then 1 else (2 * (1 + ((1 + (((1 + (((x + 1) * (x - loop(\(x,i).(1 + ((2x2 + ~x) div (x + 3))),2,x))) div 2)) div 2) div 2)) div 2))))) div 2) div 2)) div 2)) div 2)) div 2)) div 2)) div 2))
1: (1 - ((1 + ((1 + ((1 + ((1 + ((1 + (loop(\(x,i).(2x + loop(\(x,i).(2 * (x - (i mod 2))),i,1)),x,1) div 2)) div 2)) div 2)) div 2)) div 2)) div 2))
1: (1 - ((1 + ((1 + ((1 + (((x + 1) * loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)) div 2)) div 2)) div 2)) div 2))
1: (1 - ((1 + ((1 + ((1 + ((((x + ~1) * (2 - (2x mod 9))) div 2) div 2)) div 2)) div 2)) div 2))
1: (1 - ((1 + ((1 + ((1 + (loop(\(x,i).(~x + 1),(x div (2 + (x mod 2))),(x + 1)) div 2)) div 2)) div 2)) div 2))
1: (1 - ((1 + ((1 + ((1 + (x mod (2 + ((1 + (2 * (1 + (((1 + (x div 3)) div (2 * (1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + ((x - (x mod 5)) div 2)))))) + (x mod 2))))) mod (x + 1))))) div 2)) div 2)) div 2))
1: (1 - ((1 + ((1 + ((((x + 1) * (~1 + (2 * ((x mod (3 + (x mod 2))) mod 2)))) div 2) div 2)) div 2)) div 2))
1: (1 - ((1 + ((1 + (((x2 + ~2x) mod 11) div 2)) div 2)) div 2))
1: (1 - ((1 + ((x + (if x <= 0 then 2 else (loop(\(x,i).(x * (~2 + (i mod 2))),x,1) - loop(\(x,i).2x,x,1)))) div 2)) div 2))
1: (1 - ((x + ((2 + loop(\(x,i).2x,(x + ~1),1)) div (x + 1))) div 2))
1: (1 - ((1 + ((1 + loop(\(x,i).(if (x mod 2) <= 0 then (~4x + 9) else (x div 2)),x,0)) div 2)) div 2))
1: (1 - ((1 + (((x + 1) * (1 + ((x - ((1 + ((loop(\(x,i).(x + (x div 2)),x,2) div 2) div 2)) div 2)) div 2))) div 2)) div (2x + 1)))
1: (1 - ((1 + ((x * ((x * ((~x + 2) div 2)) div 2)) div 8)) div 2))
1: (1 - ((2 + (((x div 3) * (x div 2)) div 2)) div 3))
1: (1 - ((x + (x2 div ~7)) div 2))
1: (1 - ((1 + (((1 + (((x + 1) * (0 - ((x + ((~1 + (x div 2)) mod 3)) div 2))) div 2)) div 2) div 2)) div 2))
1: (1 - ((1 + (((1 + loop(\(x,i).(x - ((i - (x div 2)) div 2)),x,1)) div 2) div 2)) div 2))
1: (1 - ((1 + (((3 * (1 + (loop(\(x,i).3x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 3))) div 2) div 2)) div 2))
1: (1 - ((1 + ((((x + 1) * (0 + (2 * (x mod 2)) - (((x + 1) div 2) div 2))) div 2) div 2)) div 2))
1: (1 - ((1 + ((((x + 1) * ((~x + 2) + loop(\(x,i).(2 + ((x2 + ~2) div (x + 4))),2,x))) div 2) div 2)) div 2))
1: (1 - ((1 + (((((x + 1) * (~1 + ((0 - ((((x + ~1) div 2) * (x div 2)) div 2)) div 2))) div 2) div 2) div 2)) div 2))
1: (1 - ((1 + ((x mod (2 + (loop(\(x,i).2x,((x + 1) mod 4),2) mod (x + 1)))) div 2)) div 2))
1: (1 - ((1 + ((if x <= 0 then 1 else (3 * (if ((x + ~1) mod 3) <= 0 then (2 + (x div 4)) else 1))) div 2)) div 2))
1: (1 - ((1 + (loop(\(x,i).(1 + (8 * (x mod 2)) - (x div 2)),x,1) div 2)) div 2))
1: (1 - ((1 + (loop(\(x,i).((x + ~1) + ((x + (x div 2)) div 5)),x,1) div 2)) div 2))
1: (1 - ((2 + (loop(\(x,i).8x,((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2),1) div 2)) div 3))
1: (1 - ((x + (x div 2)) div 4))
1: (1 - ((x + (x div 2)) div 8))
1: (1 - ((x + (x div 3)) div 5))
1: (1 - ((1 + (x div (2 + ((2 + (x2 mod (4 * (2 + (x mod 2))))) mod (x + 1))))) div 2))
1: (1 - ((1 + (x div (2 + ((~1 + loop(\(x,i).2x,x,(if (x + ~2) <= 0 then 1 else 2))) mod (x + 1))))) div 2))
1: (1 - ((1 + (x div (2 * (2 - (x mod 2))))) div 2))
1: (1 - ((1 + ((1 - (((x2 + ~x) div 3) mod 3)) mod (x + 1))) div 2))
1: (1 - ((1 + ((~1 + ((2x + 1) mod (4 + (x div 4)))) mod 4)) div 2))
1: (1 - ((1 + (((x + 1) * (1 + (if (~x + 2) <= 0 then x else 0))) mod 9)) div 2))
1: (1 - ((1 + (((x + 1) * (1 - (2 * (x mod 2)))) mod 5)) div 2))
1: (1 - ((1 + (((x div (1 + (if (x mod 3) <= 0 then 2 else 0))) div 2) mod 4)) div 2))
1: (1 - ((1 + ((if (x mod 2) <= 0 then x else ~x) mod 5)) div 2))
1: (1 - ((1 + ((if x <= 0 then 2 else (x - (loop(\(x,i).(x * i),x,1) mod (x + 1)))) mod 4)) div 2))
1: (1 - ((1 + (loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x) mod 7)) div 3))
1: (1 - ((1 + (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) mod 11)) div 3))
1: (1 - ((1 + (x mod (1 + (2 * (1 + (x mod 5)))))) div 3))
1: (1 - ((1 + (x mod (1 + (2 * (1 + (x mod (1 + ((~x + 2) mod (2 + (x div 3)))))))))) div 3))
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1: (1 - (if x <= 0 then 0 else (1 + (((x3 + ~2x2) mod (2 + (x div 2))) mod 2))))
1: (1 - (if x <= 0 then 0 else (1 + (if (x + ~1) <= 0 then 2x else loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x + ~2),1)))))
1: (1 - (if x <= 0 then 0 else (if (x mod 4) <= 0 then (2x2 + 3x + 1) else 0)))
1: (1 - (if x <= 0 then 0 else (if (x mod (2 + ((~x + 2) mod 8))) <= 0 then 2 else 0)))
1: (1 - (if x <= 0 then 0 else loop(\(x,i).(~x + loop(\(x,i).((x + ~2) * i),i,0)),x,1)))
1: (1 - (if x <= 0 then 0 else loop(\(x,i).(~2 + i),(x mod 6),1)))
1: (1 - (if x <= 0 then 1 else (if ((x + 1) mod (1 + (2 * (x mod 5)))) <= 0 then 2 else 0)))
1: (1 - (if x <= 0 then 1 else (if ((x + 1) mod (1 + (~2x mod 5))) <= 0 then 2 else 0)))
1: (1 - (if x <= 0 then 1 else (if ((x + 1) mod (2 + (x mod (4 + (x div 2))))) <= 0 then 2 else 0)))
1: (1 - (if x <= 0 then 1 else (if ((x + ~2) mod (1 + ((~x + 2) mod 4))) <= 0 then 2 else 0)))
1: (1 - (if x <= 0 then 1 else (if ((x + ~2) mod (2 + (((x + ~1) div 2) mod 2))) <= 0 then 2 else 0)))
1: (1 - (if x <= 0 then 1 else (if ((x * ((x + 1) div 2)) mod 6) <= 0 then 2 else 0)))
1: (1 - (if x <= 0 then 1 else (if (x mod (1 + (2 * (3 - ((x div 3) mod 2))))) <= 0 then 2 else 0)))
1: (1 - (if x <= 0 then 2 else (4x + ((x + 1) mod (2 + (x mod 2))))))
1: (1 - (if x <= 0 then 2 else x))
1: (1 - loop(\(x,i).((x + 1) - ((1 + loop(\(x,i).2x,x,(if x <= 0 then 1 else (x * i)))) div 3)),x,1))
1: (1 - loop(\(x,i).(1 + (2 * (2x - (x mod 4)))),x,0))
1: (1 - loop(\(x,i).(1 + (2 * (2x - i))),x,0))
1: (1 - loop(\(x,i).(2 + (x mod (1 + i))),x,2))
1: (1 - loop(\(x,i).(x + loop(\(x,i).(x - (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else (2x + ~1)))),x,(x + 1))),1,(2x + ~1)))
1: (1 - loop(\(x,i).(x + loop(\(x,i).(x * i),(~1 + i),(1 - (2 * i)))),x,0))
1: (1 - loop(\(x,i).(1 - ((x * (x + i)) div (1 + i))),2,x))
1: (1 - loop(\(x,i).((x + ~1) + ((x + (x div 2)) div (2 + i))),x,0))
1: (1 - loop(\(x,i).(~1 + ((x div 2) + i)),x,2))
1: (1 - loop(\(x,i).((x + ~2) + (x div (4 + i))),x,1))
1: (1 - loop(\(x,i).((x + ~1) + (x div (1 + i))),x,0))
1: (1 - loop(\(x,i).((x + ~2) + (x div (if i <= 0 then 1 else i))),x,0))
1: (1 - loop(\(x,i).(5x + ~1),x,0))
1: (1 - loop(\(x,i).(~2 + ((~x + 2) * (x div 2))),x,0))
1: (1 - loop(\(x,i).(11x + ~1),x,0))
1: (1 - loop(\(x,i).((2x + ~4) - i),x,0))
1: (1 - loop(\(x,i).((2 * (x - i)) - i),x,0))
1: (1 - loop(\(x,i).(9x + ~1),x,0))
1: (1 - loop(\(x,i).(8x + ~1),x,0))
1: (1 - loop(\(x,i).(12x + ~1),x,0))
1: (1 - loop(\(x,i).(4x - (((~1 + i) * i) div 2)),x,0))
1: (1 - loop(\(x,i).(4x - (i mod 3)),x,0))
1: (1 - loop(\(x,i).((2x + ~2) + ((1 + (((2x + 2) * (2 - ((x div 4) mod 2))) div 5)) mod 2)),x,0))
1: (1 - loop(\(x,i).(2x - (i mod 2)),(x div 2),2))
1: (1 - loop(\(x,i).(2x - (i mod 2)),x,0))
1: (1 - loop(\(x,i).(x2 + ~1),x,2))
1: (1 - loop(\(x,i).(~1 + (x * i)),x,0))
1: (1 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,7x))
1: (1 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,2x2))
1: (1 - loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,8x))
1: (1 - loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,4x))
1: (1 - loop(\(x,i).(~1 + loop(\(x,i).(x3 mod 37),2,x)),1,x2))
1: (1 - loop(\(x,i).(~1 + loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),(x div 2),(2x + ~1))),1,(x2 div 2)))
1: (1 - loop(\(x,i).(x - ((x div 4) + i)),x,0))
1: (1 - loop(\(x,i).((x + ~1) - (if x <= 0 then 0 else i)),x,x))
1: (1 - loop(\(x,i).(13x + ~1),x,0))
1: (1 - loop(\(x,i).(7x + ~1),x,0))
1: (1 - loop(\(x,i).(2x - (i * i)),x,0))
1: (1 - loop(\(x,i).(3x - (i mod 2)),x,0))
1: (1 - loop(\(x,i).(2x - i),x,0))
1: (1 - loop(\(x,i).(3x + ~64),x,0))
1: (1 - loop(\(x,i).(x - (3 * (~2x + (i mod 2)))),x,0))
1: (1 - loop(\(x,i).(x - (loop(\(x,i).((x2 + x) div 2),2,3x) mod (x + 1))),x,x))
1: (1 - loop(\(x,i).(x - (if (~x + 2) <= 0 then (2 + i) else 0)),x,x))
1: (1 - loop(\(x,i).(x - (if (~x + 2) <= 0 then (2 + i) else 1)),x,x))
1: (1 - loop(\(x,i).(x - (if (~2 + (x div 2)) <= 0 then 0 else 1)),8,x))
1: (1 - loop(\(x,i).(x - (if (~x + i) <= 0 then (1 + i) else 0)),x,x))
1: (1 - loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x))
1: (1 - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + (3 * (i * (1 + i)))))),x,x))
1: (1 - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),2x,x2))
1: (1 - loop(\(x,i).(x - (if x <= 0 then 0 else (~1 + loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)))),x,x))
1: (1 - loop(\(x,i).(x - (if x <= 0 then 0 else loop(\(x,i).((x + 1) + ((x + (x mod 2)) div 3)),i,1))),x,x))
1: (1 - loop(\(x,i).(x - (if x <= 0 then 1 else (x div (1 + (x mod 2))))),x,(x + 1)))
1: (1 - loop(\(x,i).(x - (if x <= 0 then 1 else (if (x mod (1 + i)) <= 0 then 2 else 1))),x,x))
1: (1 - loop(\(x,i).(x - (if x <= 0 then 2 else (1 + loop(\(x,i).3x,(2 * i),1)))),x,x))
1: (1 - loop(\(x,i).(x - loop(\(x,i).2x,(~1 + (if x <= 0 then 0 else i)),1)),x,x))
1: (1 - loop(\(x,i).(~2x + i),x,0))
1: (1 - loop(\(x,i).3x,x,3))
1: (1 - loop(\(x,i).((x + 4) * i),x,0))
1: (1 - loop(\(x,i).(2 * (x + (2 * (i mod 2)))),(x + ~2),0))
1: (1 - loop(\(x,i).(2x + 2),x,loop(\(x,i).(2x + ~6),x,0)))
1: (1 - loop(\(x,i).(~4x + 2),x,(x mod 2)))
1: (1 - loop(\(x,i).(~2x + 2),compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x),2))
1: (1 - loop(\(x,i).(~3x + 6),x,0))
1: (1 - loop(\(x,i).(9x + ~3),x,0))
1: (1 - loop(\(x,i).(10x + ~2),x,0))
1: (1 - loop(\(x,i).((2x + ~1) * i),x,0))
1: (1 - loop(\(x,i).(2 * (2x - ((x + 1) div (if i <= 0 then 1 else i)))),x,0))
1: (1 - loop(\(x,i).(2 * (2x - (i mod 2))),x,0))
1: (1 - loop(\(x,i).(3 * ((x * i) - (i div 2))),x,0))
1: (1 - loop(\(x,i).(2x + ~4),(x div 3),0))
1: (1 - loop(\(x,i).(2x + ~4),x,0))
1: (1 - loop(\(x,i).(2x + ~4),compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),0))
1: (1 - loop(\(x,i).(2x + ~8),2x,0))
1: (1 - loop(\(x,i).(2x + ~8),x,0))
1: (1 - loop(\(x,i).(2x + ~30),x,0))
1: (1 - loop(\(x,i).(2 * (2x - i)),x,0))
1: (1 - loop(\(x,i).(2x + ~12),x,0))
1: (1 - loop(\(x,i).(2 * (x - (3 * i))),x,0))
1: (1 - loop(\(x,i).(10x + ~16),x,0))
1: (1 - loop(\(x,i).(2 * (x - (2 * (i mod 2)))),(x + ~1),0))
1: (1 - loop(\(x,i).(3 * (x - (3 * (i mod 2)))),x,0))
1: (1 - loop(\(x,i).(2 * (x - (2 * i))),x,0))
1: (1 - loop(\(x,i).(2 * (x - ((i div 2) mod 2))),(x + ~1),0))
1: (1 - loop(\(x,i).(2 * (x - ((i div 2) mod 2))),x,0))
1: (1 - loop(\(x,i).(2 * (x - (i mod 2))),(x + ~1),(x mod 2)))
1: (1 - loop(\(x,i).(2 * (x - (i mod 2))),x,(x mod 2)))
1: (1 - loop(\(x,i).(2 * (x - (i mod 2))),x,(if x <= 0 then 2 else 1)))
1: (1 - loop(\(x,i).(3 * (x - loop(\(x,i).(2x + 4),i,0))),x,0))
1: (1 - loop(\(x,i).(2 * (x - i)),(x + ~1),0))
1: (1 - loop(\(x,i).(16x + ~8),x,0))
1: (1 - loop(\(x,i).(8x + ~4),x,0))
1: (1 - loop(\(x,i).(4x + ~8),x,0))
1: (1 - loop(\(x,i).(6x + ~12),x,0))
1: (1 - loop(\(x,i).(10x + ~40),x,0))
1: (1 - loop(\(x,i).(2 * (((x + 1) - (2 * i)) * i)),x,0))
1: (1 - loop(\(x,i).(10x + ~80),x,0))
1: (1 - loop(\(x,i).(8x + ~16),x,0))
1: (1 - loop(\(x,i).4x,x,2))
1: (1 - loop(\(x,i).4x,x,(2 - loop(\(x,i).(2x + 4),x,0))))
1: (1 - loop(\(x,i).x3,2,x))
1: (1 - loop(\(x,i).((2x + ~4) * i),x,0))
1: (1 - loop(\(x,i).(x * (i * i)),x,1))
1: (1 - loop(\(x,i).(x * (x mod (1 + (2 * i)))),3,x))
1: (1 - loop(\(x,i).((2x + ~1) * (if (x mod 2) <= 0 then 1 else 4)),x,0))
1: (1 - loop(\(x,i).2x,(x + ~2),2))
1: (1 - loop(\(x,i).2x,((x * (x mod 2)) div 2),2))
1: (1 - loop(\(x,i).2x,x,x2))
1: (1 - loop(\(x,i).2x,x,(if x <= 0 then 0 else loop(\(x,i).(2x + ~4),x,1))))
1: (1 - loop(\(x,i).2x,x,loop(\(x,i).((x + ~2) - ((1 + i) * i)),x,0)))
1: (1 - loop(\(x,i).2x,x,loop(\(x,i).(2x + ~2),x,0)))
1: (1 - loop(\(x,i).2x,x,loop(\(x,i).(3x + ~6),x,0)))
1: (1 - loop(\(x,i).2x,x,loop(\(x,i).(2x + ~6),x,0)))
1: (1 - loop(\(x,i).x2,2,x3))
1: (1 - loop(\(x,i).x2,2,x2))
1: (1 - loop(\(x,i).((x2 + ~x) div (1 + i)),2,(x + ~1)))
1: (1 - loop(\(x,i).(loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2),2,x))
1: (1 - loop(\(x,i).(x div 3),x,loop(\(x,i).((x + ~1) * (i * i)),x,1)))
1: (1 - loop(\(x,i).(x div (4 - (x mod 4))),x,x))
1: (1 - loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,2x2))
1: (1 - loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 0 else 2))),x,(2x + 2)))
1: (1 - loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))
1: (1 - loop(\(x,i).(if ((x + 3) mod 8) <= 0 then x else (x div 2)),x,x))
1: (1 - loop(\(x,i).(if ((x + 1) mod 8) <= 0 then x else (x div 2)),x,x))
1: (1 - loop(\(x,i).(if ((x + 2) mod 8) <= 0 then x else (x div 2)),x,x))
1: (1 - loop(\(x,i).(if (((x + 1) div 2) mod 4) <= 0 then x else (x div 2)),x,x))
1: (1 - loop(\(x,i).(if (x mod 4) <= 0 then x else (x div 2)),x,x))
1: (1 - loop(\(x,i).(if (x mod (1 + (2 * i))) <= 0 then x else ~x),x,x))
1: (1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(~2 + (x div 2)),x))
1: (1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 3),(x2 + 2x)))
1: (1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + 2)))
1: (1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + 2x + ~1)))
1: (1 - loop(\(x,i).loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,0),2,x))
1: (1 - loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(2x2 + 2x + 1)))
1: (1 - loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(5x + ~2)))
1: (1 - loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(8x + 6)))
1: (1 - loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,((3x + 20) div 2)))
1: (1 - loop(\(x,i).loop(\(x,i).(x - (if (x mod (2 + i)) <= 0 then 1 else 2)),x,x),1,2x))
1: (1 - loop(\(x,i).loop(\(x,i).(x - (if x <= 0 then 0 else (1 + (2 * i)))),x,x),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (1 - loop(\(x,i).loop(\(x,i).(x - (if x <= 0 then 0 else (1 + (2 * i)))),x,x),1,loop(\(x,i).2x,x,1)))
1: (1 - loop(\(x,i).loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (1 - loop(\(x,i).loop(\(x,i).10x,(i mod 2),(x + ~2)),x,1))
1: (1 - loop(\(x,i).loop(\(x,i).(if ((x + 1) mod (1 + i)) <= 0 then 0 else x),x,2x),2,(x + 1)))
1: (1 - loop(\(x,i).loop(\(x,i).(if ((x + 1) mod (1 + i)) <= 0 then 0 else x),x,2x),2,x))
1: (1 - loop(\(x,i).loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x + 2)),1,(x2 + 4x)))
1: (1 - loop(\(x,i).i,(2 - (((x mod 4) + (x div 2)) div 2)),x))
1: (1 - (((loop(\(x,i).(1 + ((1 + ((x + 1) mod (1 + (x div (2 + (x mod (2 + (x mod 2)))))))) mod (x + 1))),2,x) div 2) div 2) + ((x div 3) mod 2)))
1: (~1 - ((loop(\(x,i).x3,1,((2x + 1) * (1 - (2 * (x mod 2))))) div 2) div 2))
1: ((~x + 1) - loop(\(x,i).(loop(\(x,i).6x,x,1) - loop(\(x,i).7x,x,1)),x,8x))
1: ((~x + 2) - ((x + (x div 3)) div 5))
1: (0 - ((x + ((~1 + (x div 2)) mod 3)) div 2))
1: (2 - (((x2 + ~x) div 2) + (x mod 3)))
1: ((~x + 2) - (2x div 3))
1: ((~x + 2) - (x2 div 3))
1: (0 - (((~20x3 + ~3x2 + 17x) div 2) div 3))
1: ((~2x + 2) - (x div 2))
1: ((~x + 2) - (x div 3))
1: ((~x + 2) - (x div 8))
1: ((~x + 2) - ((x div 2) mod 2))
1: ((~x + 2) - (if (x mod 2) <= 0 then (x2 div 2) else 2))
1: ((~x + 2) - (if (x mod 2) <= 0 then x else 1))
1: (2 - ((if (x mod 4) <= 0 then 0 else 2) + (x div 4)))
1: (0 - loop(\(x,i).(4x * (1 - (2 * (2 + i)))),x,1))
1: ((~x + 2) - i)
1: ((x + 1) - (2 * (2x mod 3)))
1: ((x + 1) - ((2 * (1 + ((2 * ((x + 2) + ((1 + ((x * (x div 7)) div 2)) div 2))) div 3))) div 3))
1: (2 + loop(\(x,i).(x2 + ~x),1,loop(\(x,i).3x,x,1)) - (loop(\(x,i).5x,x,1) + loop(\(x,i).2x,x,1)))
1: (1 + ((x div 3) + (x div (~3 + (((2 - (x div 2)) div 2) div 2)))))
1: (6 - (x div 2))
1: ((~x + 3) + ((2 + ((x + ~1) mod 3)) * (1 + (x div 2))))
1: (2 + (if x <= 0 then 1 else (2 * (1 + ((((x + ~2) * (x div 3)) mod (x + 1)) div 2)))) - (2 * (x mod 2)))
1: (2 + (x div 2) - (x * (x mod 2)))
1: ((~2x + 2) + (5 * (x + (x div 2))))
1: (3 - (2 div ((1 - (if ((x + 2) mod (2 + ((x div 2) mod 2))) <= 0 then x else 0)) mod 5)))
1: ((6x + 2) - ((x + ((x div 2) div 5)) div 2))
1: (2 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) - ((x + (x div 2)) div 4))
1: (3 - (2x div ~5))
1: (4 - ((x2 div 2) + (2x mod (4 + (x div 4)))))
1: (2 + (3 * (x + (x mod 2))) - (x div 2))
1: (2 + (2 * (x - (2 * ((~x + ~2) + (x mod 2))))) - (x div 2))
1: (2 + ((if x <= 0 then 1 else (((x + 1) div 2) div 2)) mod 2) - (x div 2))
1: (3 - (x div (~1 - ((x div 2) mod 3))))
1: (3 - (x div (~2 + (x mod ~4))))
1: (4 - (69 mod (x + 1)))
1: (3 - ((1 + ((~2x + 2) mod (4 + (x div 4)))) mod 5))
1: (4 - (~x mod (2 + ((x div 2) mod 2))))
1: (3 - ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + ((2x2 + 4) div 3))) mod 3))
1: (4 - (2x mod (4 + (x div 4))))
1: (3 - (((x * (2 + (x div 5))) div 4) mod 2))
1: (3 - ((x div 2) mod (1 + (if (x mod 2) <= 0 then 6 else 1))))
1: (3 - ((if ((2 + (x div 2)) mod 4) <= 0 then x else 2) mod 3))
1: (2 + ((x mod (~1 + (2 * (x div 3)))) mod 2) - ((if x <= 0 then 1 else x) mod 2))
1: (3 + (2 * (2 + loop(\(x,i).4x,x,2))) - (x mod 2))
1: (3 + (((x - ((x div 2) mod 4)) div 2) div 2) - (x mod 2))
1: (2 + (9 * (if x <= 0 then 1 else 2)) - ((x mod 2) + (x mod 7)))
1: (2 + (2 * ((2x + 4) - (x mod 4))) - (x mod 2))
1: ((2x2 + 6x + 6) - (x mod 2))
1: (2 + (2 * ((1 - (x div 3)) mod (1 + (x div 5)))) - (x mod 2))
1: (2 + (2 * (((2x + ~2) mod (2 + (x div 4))) mod 2)) - (x mod 2))
1: (2 + (3 * (if (x mod 2) <= 0 then (15 * (2 + (if x <= 0 then 0 else 2))) else 1)) - (x mod 2))
1: (2 + (((x + 1) div 2) div 3) - (x mod 2))
1: (2 + (((~1 + (((x + 1) * (x div 3)) div 2)) div 2) div 2) - (x mod 2))
1: (2 + (((x + 1) mod (2 + ((1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)) mod (x + 1)))) div 2) - (x mod 2))
1: (2 + ((((loop(\(x,i).(2x + 2),x,0) mod (x + 1)) - loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) mod (x + 1)) div 2) - (x mod 2))
1: (2 + ((x2 mod (x - ((~x + 2) div 2))) div (x + 2)) - (x mod 2))
1: (2 + (((x + ~1) div (if ((x div 2) mod 3) <= 0 then 1 else 2)) mod 2) - (x mod 2))
1: (2 + (if (~2 + (x div 3)) <= 0 then 1 else 2) - (x mod 2))
1: (2 + (if (x mod 5) <= 0 then 4 else 0) - (x mod 2))
1: (2 + (if x <= 0 then 1 else (if (x mod 4) <= 0 then 4 else 0)) - (x mod 2))
1: (2 + loop(\(x,i).(4 * ((2 - (x mod 2)) * (if x <= 0 then 1 else 2))),(x mod 4),1) - (x mod 2))
1: (2 + loop(\(x,i).2x,(x + 2),2) - (x mod 2))
1: (2 + loop(\(x,i).2x,(x div 2),2) - (x mod 2))
1: (3 - (x mod (1 + ((x2 + 2x) mod 8))))
1: (2 + (((x + ~1) div 2) mod 4) - (x mod 10))
1: ((9x + 2) - (i mod 2))
1: ((6x + 2) - (i mod 2))
1: (3 - (if (~2 + (x div 3)) <= 0 then (x mod 2) else 1))
1: (2 + (x div 2) - ((if (x + ~2) <= 0 then 1 else 2) + ((3 * (x div (4 - ((x * (x div 2)) mod 2)))) div 2)))
1: (2 + ((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)) - (if ((x + 1) mod 8) <= 0 then 1 else 2))
1: (2 + (x mod 2) - (if (x mod (2 + ((~x + 1) mod 3))) <= 0 then 1 else 0))
1: (2 + loop(\(x,i).5x,x,1) - (loop(\(x,i).3x,x,1) + loop(\(x,i).(2x + 1),x,loop(\(x,i).2x,x,1))))
1: (2 + loop(\(x,i).3x,x,3) - loop(\(x,i).2x,x,1))
1: (2 + ((x + 1) div 2) - loop(\(x,i).i,(x div 4),2))
1: (2x2 + 7x + 11)
1: (~x + 35)
1: ((~x + 3) + (8 * (x - (x div ~2))))
1: ((x2 + ~x + 2) - (6 * (x div 2)))
1: (~x + 10)
1: (~x + 14)
1: ((~x + 2) + (3 * (5 + (x mod 2))))
1: ((~x + 2) + (2 * ((2x2 + 2x + 1) + (loop(\(x,i).((x2 + ~x) div 2),2,(x + 1)) div 3))))
1: ((~x + 2) + (2 * (4 + (x mod 9))))
1: (~x + 29)
1: (2x2 + 11x + 22)
1: ((~x + 2) + (3 * (x + (x div 2))))
1: ((~x + 2) + (5 * (2x + (x mod 2))))
1: ((~x + 2) + (3 * (x + (x mod 2))))
1: ((~x + 2) + (3 * (2x - ((x - ((x + (x div 2)) div 4)) div 2))))
1: ((~x + 2) + (3 * (2x - ((2x + 2) div 7))))
1: ((~x + 2) + (3 * (2x - ((2x + 4) div 7))))
1: ((~x + 2) + (3 * (2x - (x div ~2))))
1: ((~x + 2) + (3 * (2x - (x mod 4))))
1: ((~x + 2) + (5 * (x - (3 * (x div ~2)))))
1: ((~x + 2) + (7 * (x - (x div ~2))))
1: ((~x + 2) + (3 * (x - (x div (~1 + (x div ~4))))))
1: (4x2 + 7x + 2)
1: (~x + 34)
1: ((~x + 2) + (8 * (3 - (x mod 2))))
1: ((~x + 2) + (3 * ((2 + (x div 2)) div 3)))
1: ((~x + 2) + (3 * ((2x + ~1) div 5)))
1: ((~x + 2) + (5 * (x div 7)))
1: ((~x + 2) + (2 * ((x div 2) mod 2)))
1: ((~x + 2) + ((x + 1) * loop(\(x,i).(11x + 7),2,x)))
1: ((~x + 2) + ((x - ((1 - (x div 2)) mod 5)) div 2))
1: ((~x + 2) + (x2 div 4))
1: ((~x + 2) + (x2 div 8))
1: ((~x + 2) + (((x2 + ~1) div 2) div 5))
1: ((~x + 2) + (loop(\(x,i).(x3 + 2x),2x,2) div 2))
1: ((~x + 2) + (x2 mod 3))
1: ((~x + 2) + (x2 mod (1 + (2 * (x + (x div 4))))))
1: ((~x + 2) + ((x div ~2) mod 5))
1: ((~x + 2) + ((if (x + ~2) <= 0 then 1 else ((x + 2) div 5)) mod 2))
1: ((~x + 2) + (x mod 3))
1: ((~x + 2) + loop(\(x,i).(2 + ((x2 + ~2) div (x + 4))),2,x))
1: ((~x + 2) + loop(\(x,i).(1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x)),2,(x + 1)))
1: ((~x + 2) + loop(\(x,i).(2 * (x + i)),x,0))
1: (26 - i)
1: (2 - (((x + 2) + (x div 2)) * (x div ~2)))
1: (2 - (3 * (2 + (3 * (2 + (x div 2))))))
1: (2 - ((x2 + 2x + 2) * (x div ~2)))
1: (2 - (x * (1 + (2 * (1 + i)))))
1: (2 - (2 * (1 + (2 * loop(\(x,i).(2x + ~44),x,1)))))
1: (~x3 + ~x + 2)
1: (2 - (2 * (1 + (((((x2 + ~x) - (((x3 + ~x) div 2) div 3)) div 2) div 2) div 2))))
1: (2 - (5 * (1 + (x div 3))))
1: (2 - (2 * (1 + (x div (1 + (x mod 5))))))
1: (2 - (3 * (2 + (x div 8))))
1: (2 - (2 * (2 + (if (x + ~8) <= 0 then 9 else x))))
1: (~x2 + ~2x + 2)
1: (9x2 + ~10x + 3)
1: (2 - ((1 - (2 * ((2x div (4 + (x div 4))) mod 2))) * ((if x <= 0 then 1 else x) mod 2)))
1: (2 - ((1 - (2 * (x mod 2))) * ((x + 1) mod 3)))
1: (2 - ((x + 1) * (1 - (2 * loop(\(x,i).(x2 + x),(x + ~1),x)))))
1: (2 - ((x + 1) * (1 - i)))
1: (x2 + ~3x + 4)
1: (2 - (2 * (1 + loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x) - (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))))
1: (2 - ((~1 + ((x div 2) mod (1 + (if (x mod 2) <= 0 then 6 else 1))) - ((x mod 2) + (x mod 2))) * (if x <= 0 then 1 else 2)))
1: (2 - (5 * ((~x + ~1) + (x mod 2))))
1: (2 - ((x + 1) * ((~x + ~1) + (x mod 4))))
1: (2 - (3 * ((2x + 2) - (((x + 1) div 2) div 3))))
1: (3x2 + ~7x + 6)
1: (~10x + 7)
1: (2 - (3 * (~2 + (x div 8))))
1: (3x2 + 15x + 26)
1: (~3x + 50)
1: (11x2 + 11x + 2)
1: (~10x + 2)
1: (x6 + ~x5 + ~x4 + ~x3 + ~x2 + ~x)
1: (2 - (9 * ((~x + 1) - (2 * (2 + (x div 8))))))
1: (2 - ((x2 + x) * (~1 + (x div ~2))))
1: (~5x2 + 85x + 2)
1: (~24x + ~22)
1: (2 - ((2x2 + 2x) * (~2 + (x div ~2))))
1: (~16x + 2)
1: (2 - (4 * ((1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + ~1) div 2))) div 2)))
1: (2 - (9 * (x div ~2)))
1: (2 - (3 * ((1 + (((1 + loop(\(x,i).((x * (x mod 2)) + (x div 2)),x,x)) div 2) div 2)) div 2)))
1: (2 - (((x + (x div 2)) div 2) * (x div 2)))
1: (2 - ((~x2 + x + ~1) * ((x2 + ~1) div 3)))
1: (2 - (((x + ~1) div 2) * (x div 2)))
1: (2 - (3 * ((4 * (x + (if (~2 + (x div 2)) <= 0 then 1 else 2))) div 3)))
1: (2 - (3 * ((x2 + x) div 2)))
1: (2 - ((x + ~1) * ((~x2 + x) div 2)))
1: (2 - (3 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)))
1: (2 - (3 * ((2 * (x div 2)) div 3)))
1: (2 - (((((x + 1) div 2) div 2) div 2) * ((x + 1) div 2)))
1: (2 - (((x div 2) div 3) * ((x + ~1) div 2)))
1: (2 - (x * ((x div 2) div 3)))
1: (2 - (3 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))
1: (2 - (x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)))
1: (2 - (3 * (x div 2)))
1: (2 - ((x + 1) * (x div 2)))
1: (2 - (2 * (x div 3)))
1: (2 - (x * (x div 4)))
1: (2 - (2 * (x div 5)))
1: (2 - ((x div ~2) * (1 + (x div 2))))
1: (2 - ((x div ~4) * (x div 2)))
1: (2 - ((x div ~4) * (if (x + ~2) <= 0 then 1 else 2)))
1: (2 - (((~x + 1) mod 3) * (~1 + (2 * (x mod 2)))))
1: (2 - (x * ((x + ~1) mod 3)))
1: (2 - (x * (((x div 2) div 3) mod 2)))
1: (2 - (3 * (x mod ~4)))
1: (2 - (3 * (i mod 2)))
1: (2 - (2 * (if (~4 + (x div 2)) <= 0 then 1 else 8)))
1: (2 - ((x + 2) * (if (x mod 2) <= 0 then (x div 2) else 2)))
1: (2 - ((x + 2) * (if (x mod 2) <= 0 then x else 1)))
1: (2 - ((x + 1) * loop(\(x,i).(x - loop(\(x,i).(x * i),(~1 + i),1)),x,1)))
1: (2 - (2 * i))
1: (2 - (2 div (1 + ((x * (x mod 2)) div 4))))
1: (2 - (2 div (1 + (((2x + 1) mod (4 + (x div 4))) div 2))))
1: (2 - (2 div (1 + ((loop(\(x,i).(2 * (x - i)),x,2) mod (x + 1)) div 2))))
1: (2 - (2 div (1 + (x div 3))))
1: (2 - (2 div (1 + (x div (2 + ((x + 1) mod 3))))))
1: (2 - (2 div (1 + (~x mod 5))))
1: (2 - (2 div (~8 + (x div 2))))
1: (2 - (2 div (if ((x + 2) mod 4) <= 0 then x else 2)))
1: (2 - (2 div (if ((x + ~2) mod 8) <= 0 then x else 1)))
1: (2 - (3 div (1 + ((x + 2) mod 5))))
1: (2 - (4 div (2 + (x mod 6))))
1: (2 - (4 div (x + 2)))
1: (2 - ((2 + ((((~x + 2) div 2) mod 4) + (x mod 3))) div 3))
1: (2 - (((x + 1) + (if (x mod 2) <= 0 then (1 + (2 * (x - ((1 + (x mod 4)) div 2)))) else 2)) div 2))
1: (2 - ((~x + 3) div (3 + (x div 2))))
1: (2 - ((~x + 3) div (2 + ((x div 2) div 3))))
1: (2 - ((~x + 3) div (2 + (x div 5))))
1: (2 - (((x + ~1) + loop(\(x,i).((x2 + 3x + 2) div 2),2,9)) div 2))
1: (2 - ((x + 8) div (~1 + ((~x + 1) div 2))))
1: (2 - ((2 + ((~x + 1) * (4 + (x div 4)))) div 5))
1: (2 - ((1 + (2 * (x - ((x + 1) mod (1 + ((~x + 2) mod 4)))))) div 3))
1: (2 - ((x + ((x + (x div 4)) div 2)) div ~2))
1: (2 - ((1 + ((((x + 2) * ((~x + 4) + (x div 4))) div 2) div 3)) div 2))
1: (2 - ((2 + (x div 2)) div (if x <= 0 then 1 else x)))
1: (2 - (((x mod 4) + (x div 2)) div 2))
1: (2 - ((2 + (x mod (2 + ((~x + 1) mod (2 + (x div (2 + (x mod 2)))))))) div 3))
1: (2 - ((1 + loop(\(x,i).(1 + loop(\(x,i).(x - (if x <= 0 then 1 else (1 + (2 * (1 + i))))),x,2x)),1,2x)) div 2))
1: (2 - ((1 + loop(\(x,i).(1 - (x mod (1 + ((1 + (x mod ((1 + (x mod 5)) * (1 + (x mod 5))))) mod (x + 1))))),1,2x)) div 2))
1: (2 - ((1 + loop(\(x,i).loop(\(x,i).(x + ~1),(x * (i div 2)),(x + 1)),x,1)) div 2))
1: (2 - ((x + 1) div 5))
1: (2 - ((x + 1) div (1 + (2 * (((x + 1) * (x div 2)) mod 3)))))
1: (2 - ((x + 1) div (1 + ((x div 2) div 3))))
1: (2 - ((x + 1) div ((~x + 1) - (x mod 2))))
1: (2 - ((x + 1) div (2 * (2 - ((x div 4) mod 2)))))
1: (2 - ((x + 2) div (2 + ((3 * (x div (3 + (x mod 2)))) div 2))))
1: (2 - ((0 - (((x + (x2 div 4)) div 2) div 3)) div 2))
1: (2 - (((~x + 1) - (6 * (x div 8))) div 3))
1: (2 - ((~2x + 1) div (4 + (x div 7))))
1: (2 - ((~2x + 1) div (2 + (x div 2))))
1: (2 - ((1 - (x div 2)) div (1 + (((1 + (x div 2)) div 2) div 2))))
1: (2 - ((1 - (x div 2)) div (1 + ((((x + 1) div 2) div 2) div 2))))
1: (2 - ((1 - ((x + 2) mod (2 + (x mod 6)))) div (x + 1)))
1: (2 - ((1 - ((x div 2) mod (1 + (x2 mod 6)))) div (x + 1)))
1: (2 - ((1 - (loop(\(x,i).2x,x,1) mod (x + 1))) div (x + 1)))
1: (2 - ((~x + 1) div (4 - ((x mod 3) div 2))))
1: (2 - ((~x + 1) div (1 + (3 * (1 + (x mod 2))))))
1: (2 - ((~x + 1) div (1 + (4 * (x mod 2)))))
1: (2 - ((~x + 1) div (1 + (2 * ((~x + 2) mod 5)))))
1: (2 - ((~x + 1) div (1 + ((2 + (x div 2)) div 3))))
1: (2 - ((~x + 1) div (1 + ((2 * (1 + (x div (2 * (2 - (x mod 2)))))) div 3))))
1: (2 - ((~x + 1) div (1 + ((x div 2) div 3))))
1: (2 - ((~x + 1) div (1 + (x div 3))))
1: (2 - ((~x + 1) div ((x div 4) + (if x <= 0 then 1 else 2))))
1: (2 - ((~x + 1) div (1 + (x div (2 + (3 * (x mod 2)))))))
1: (2 - ((~x + 1) div (1 + (4 mod (x + 1)))))
1: (2 - ((~x + 1) div (1 + ((x + 2) mod (1 + (((1 + (x * (x div 2))) div 3) mod 3))))))
1: (2 - ((~x + 1) div (1 + ((~x + 2) mod 4))))
1: (2 - ((~x + 1) div (1 + ((x - (((1 + (x div 2)) div 2) div 2)) mod 3))))
1: (2 - ((~x + 1) div (1 + (x mod (1 + (x mod (3 - (x mod 2))))))))
1: (2 - ((~x + 1) div (1 + (x mod (1 + (x mod (1 + (x div (2 * (2 - (x mod 2)))))))))))
1: (2 - ((~x + 1) div (1 + (if (~2 + (x div 2)) <= 0 then 2 else 0))))
1: (2 - ((~x + 1) div (2 + (if ((x div ~2) mod 3) <= 0 then 2 else 1))))
1: (2 - ((~x + 1) div (1 + (if (x mod (1 + (((x + 1) div 2) div 3))) <= 0 then x else 1))))
1: (2 - ((~x + 1) div (1 + (if x <= 0 then 0 else 2))))
1: (2 - ((~x + 1) div (2 * (2 - ((x * (x div 2)) mod 2)))))
1: (2 - ((~x + 1) div (if ((x + ~2) mod 6) <= 0 then 2 else 1)))
1: (2 - ((2 + (x div 2) - (x * (x mod 2))) div (x + 1)))
1: (2 - ((2 + (if x <= 0 then 0 else 2) - (x div 2)) div (x + 1)))
1: (2 - ((~x2 + 2) div (3x + 2)))
1: (2 - ((2 - (x div 4)) div (x + 1)))
1: (2 - ((2 - (((x + 5) + (x div 4)) mod (1 + (x div 3)))) div 2))
1: (2 - ((2 - (16 mod (x + 1))) div 2))
1: (2 - ((2 - (2x mod (2 + (x div 2)))) div (x + 2)))
1: (2 - ((2 - (x mod (2 + (x mod 3)))) div (x + 1)))
1: (2 - ((~x + 2) div (3 + (x mod 2))))
1: (2 - ((~x + 2) div (1 + (2 * (2 mod (1 + (x div 4)))))))
1: (2 - ((~x + 2) div (1 + ((1 + (x div 2)) div 3))))
1: (2 - ((~x + 2) div (2 + ((((x + 1) div 2) div 2) div 2))))
1: (2 - ((~x + 2) div (2 + ((x div 2) div (1 + (x mod (1 + (if (x mod 2) <= 0 then 6 else 1))))))))
1: (2 - ((~x + 2) div (1 + ((x mod (2 + (x mod 2))) div 2))))
1: (2 - ((~x + 2) div (1 + ((if x <= 0 then 2 else x) div 2))))
1: (2 - ((~x + 2) div (2 + (x div (1 + (3 * (2 - (x mod 2))))))))
1: (2 - ((~x + 2) div (2 + (x div (2 * (if (x mod (1 + (((x + 1) div 2) div 3))) <= 0 then 1 else 2))))))
1: (2 - ((~x + 2) div (2 + (if (x + ~6) <= 0 then 0 else 2))))
1: (2 - ((~x + 2) div (1 + (if (x mod 8) <= 0 then 1 else 2))))
1: (2 - ((~x + 2) div (x + 2)))
1: (2 - ((~x + 2) div (1 - (x div ~4))))
1: (2 - ((~x + 2) div (1 - (x div ~5))))
1: (2 - ((~x + 2) div (2 - (x div (~2 + (x mod ~3))))))
1: (2 - ((~x + 2) div (4 - (x mod 3))))
1: (2 - ((~x + 2) div ((x + 2) - (x div 3))))
1: (2 - ((~x + 2) div 11))
1: (2 - ((~x + (x * (x mod 2))) div 3))
1: (2 - ((x2 + ~1) div 2))
1: (2 - ((~x + (2 div (1 + (x div 2)))) div 2))
1: (2 - ((((~x + 2) div (2 + (x div 4))) - (x mod 2)) div 2))
1: (2 - ((~x + (((~x + 1) * (x div 2)) div 2)) div 2))
1: (2 - ((~x + ((~x2 + x) div 4)) div 2))
1: (2 - ((~x + ((((x + ~1) div 2) div 2) div 2)) div 2))
1: (2 - ((~x + ((x div 2) div 3)) div 2))
1: (2 - ((~x + ((x mod 3) div 2)) div 2))
1: (2 - ((~x + ((x mod (2 + (x div 2))) div 2)) div 2))
1: (2 - ((~2 + (x div 2)) div (x + 1)))
1: (2 - ((~x3 + (x div 2)) div 3))
1: (2 - (((x div 4) - ((x + 1) mod 4)) div 2))
1: (2 - (((x div 4) - (x mod 4)) div 2))
1: (2 - ((~1 + (x div (2 + (x mod 2)))) div 2))
1: (2 - ((~x + (x div 8)) div 2))
1: (2 - ((((~x + 1) mod 4) - (x div 2)) div 3))
1: (2 - ((~x + (2x mod (1 + (x div 3)))) div 2))
1: (2 - ((~x + (x2 mod 3)) div 2))
1: (2 - (((~2x + ~2) + ((x div 2) mod 2)) div 3))
1: (2 - (((x mod 2) - ((~1 + (x div 2)) div 2)) div 2))
1: (2 - ((~x + (x mod 2)) div 5))
1: (2 - (((x mod 3) - (x div 2)) div 2))
1: (2 - ((~1 + (x mod 4)) div 2))
1: (2 - ((~x + (x mod 5)) div 2))
1: (2 - ((~x + loop(\(x,i).(1 - loop(\(x,i).(x - (if x <= 0 then 1 else (2 * (1 + i)))),x,2x)),2,x)) div 2))
1: (2 - ((~x + loop(\(x,i).(if x <= 0 then i else (x div 2)),x,0)) div 2))
1: (2 - ((x + ~2) div 7))
1: (2 - ((x + ~2) div (1 + (2 * (x mod 2)))))
1: (2 - (((x + 1) - (3 * (1 + ((x - (2 * ((x + (if (x mod 3) <= 0 then 1 else 2)) div 4))) * (x div 3))))) div 2))
1: (2 - ((x - ((~x + 2) div 4)) div 2))
1: (2 - ((x - (24 div (x + 1))) div 3))
1: (2 - ((x - (loop(\(x,i).2x,x,1) div (x + 1))) div 2))
1: (2 - ((x - ((x div 2) mod 4)) div 2))
1: (2 - (5x div (~1 + (x div ~2))))
1: (2 - ((x2 + 3x) div 2))
1: (2 - ((x2 + 4x) div 3))
1: (2 - (((~x + 3) * (x div 2)) div (x + 2)))
1: (2 - ((~4x + 2) div (x + 3)))
1: (2 - ((2 * (1 - (x div 2))) div (x + 1)))
1: (2 - ((~4x + 4) div (4 + (x div 4))))
1: (2 - ((~x2 + x) div 3))
1: (2 - ((~x2 + x) div 4))
1: (2 - ((~x2 + x) div 16))
1: (2 - (((2 - ((x + ~1) div 2)) * (x div 5)) div 2))
1: (2 - ((~2x + 4) div (x + 3)))
1: (2 - ((~2x + 4) div (2 + (((x + 1) div 2) div 2))))
1: (2 - ((~2x + 4) div (2 + (if x <= 0 then 1 else (x div 3)))))
1: (2 - ((~2x + 4) div (x + 1)))
1: (2 - ((~x2 + 3x + ~2) div 2))
1: (2 - ((~x2 + 4x + ~4) div (x + 4)))
1: (2 - ((~x2 + 2x) div 5))
1: (2 - ((~x2 + 2x) div (4 + (x div 2))))
1: (2 - ((~x2 + 2x) div 19))
1: (2 - ((~3x3 + ~x2 + x) div 2))
1: (2 - ((x * ((x2 + ~1) - (((x3 + ~x) div 2) div 3))) div 2))
1: (2 - ((x * (~1 + ((x div 2) mod 2) - (x mod 2))) div 2))
1: (2 - (((~1 + (x div 2)) * (x div 3)) div 2))
1: (2 - ((3 * ((x div 2) - ((x mod 3) div 2))) div 2))
1: (2 - ((2 * (~x + (x div 9))) div 3))
1: (2 - ((3 * (~1 + ((~x + 2) mod 6))) div 2))
1: (2 - (((x + 2) * (~1 + ((if (x mod 2) <= 0 then 2 else x) mod 4))) div 2))
1: (2 - ((2x + ~4) div (x + 3)))
1: (2 - ((~5x2 + ~26x + ~24) div 5))
1: (2 - (4x div (~x + ~3)))
1: (2 - (4x div (x3 + ~2)))
1: (2 - ((x3 + ~x2) div (x + 2)))
1: (2 - ((2 * ((~x + 1) div (2 + (x mod 2)))) div 3))
1: (2 - ((((~x + 2) div 2) * (x div 3)) div 3))
1: (2 - (((((x + ~1) div 2) div 2) * (x div 4)) div 2))
1: (2 - ((x * (x div 2)) div 2))
1: (2 - ((x * (x div 2)) div ~7))
1: (2 - (((x + 1) * (x div ~2)) div 2))
1: (2 - ((x * (x div 8)) div 3))
1: (2 - ((2 * (if x <= 0 then 0 else (1 + ((1 + loop(\(x,i).(2x + 4),(x + ~1),0)) mod (x + 1))))) div (x + 1)))
1: (2 - (2x div (2 + ((x + ~1) mod 3))))
1: (2 - (2x div (~5 + (x mod 3))))
1: (2 - (2x div (~3 + ((~x + 2) div 4))))
1: (2 - (2x div (~1 + ((~x + 2) div 3))))
1: (2 - (2x div (~4 + (x div ~2))))
1: (2 - (2x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))
1: (2 - (x2 div 2))
1: (2 - (x2 div 3))
1: (2 - (x2 div (2 + (x mod 2))))
1: (2 - (x2 div ~2))
1: (2 - (x2 div (~3 - ((2x div (2 + (x div 3))) mod 2))))
1: (2 - (x2 div ((~x + 1) + (9 * (x mod 10)))))
1: (2 - (x2 div ~7))
1: (2 - (x2 div (x + ~26)))
1: (2 - (x2 div (~16 + ((x + 1) div 2))))
1: (2 - (x2 div ~21))
1: (2 - (((1 + (x div 2)) div 2) div 2))
1: (2 - (((1 - (if x <= 0 then 2 else x)) div 2) div 3))
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1: (2 - ((if x <= 0 then 1 else (((x - ((x mod 3) div 2)) div 2) div 2)) mod 2))
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1: (2 - (loop(\(x,i).(x + (x div 2)),x,2) mod 2))
1: (2 - (loop(\(x,i).(2x2 + ~1),2,4) mod (x + 1)))
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1: (2 - (loop(\(x,i).2x,(if (x mod 3) <= 0 then x else 0),2) mod (x + 1)))
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1: (2 - (loop(\(x,i).x2,2,35) mod (x + 1)))
1: (2 - (loop(\(x,i).x2,2,x2) mod 17))
1: (2 - (loop(\(x,i).(x * i),x,2) mod (x + 1)))
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1: (2 - (x mod (3 + (x div 2))))
1: (2 - (x mod (4 + (x div (1 + (x mod 3))))))
1: (2 - (x mod (4 + ((2x + 1) mod (4 + ((x div 2) div 3))))))
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1: (2 - (x mod (3 + (x mod 8))))
1: (2 - (x mod (3 + (if (~2 + (x div 2)) <= 0 then 0 else 2))))
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1: (2 - (x mod (6 + (x mod 3))))
1: (2 - (x mod 9))
1: (2 - (x mod 13))
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1: (2 - (x mod (1 + (2 * (1 + ((x + 2) div (2 + (((x + 1) div 2) div 2))))))))
1: (2 - (x mod (1 + (2 * (1 + ((~x + 2) mod 4))))))
1: (2 - (x mod (1 + (2 * (1 + (((x - ((~1 + (x div 2)) div 2)) div 2) mod 2))))))
1: (2 - (x mod (1 + (2 * (1 + (x mod 3))))))
1: (2 - (x mod (1 + (2 * (2 + (x mod 3))))))
1: (2 - (x mod (1 + (2 * (2 - (2x mod 5))))))
1: (2 - (x mod (1 + (4 * (2x mod 5)))))
1: (2 - (x mod (1 + (2 * ((x + 5) div (6 * (1 + (x mod 2))))))))
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1: (2 - (x mod (1 + (3 * (2x mod 7)))))
1: (2 - (x mod (1 + (2 * ((x mod 7) mod 3)))))
1: (2 - (x mod (1 + (2 * (loop(\(x,i).(x2 + x),2,8) mod (x + 1))))))
1: (2 - (x mod (1 + (2 * (if ((x + 1) mod 8) <= 0 then 2 else 1)))))
1: (2 - (x mod (1 + (2 * (if (x mod 3) <= 0 then 0 else 2)))))
1: (2 - (x mod (1 + (2 * (if (x mod 6) <= 0 then 2 else 1)))))
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1: (2 - (x mod (2 + (x div (2 + (x mod 2))))))
1: (2 - (x mod (2 + (x div (1 + (x mod (1 + (x mod 4))))))))
1: (2 - (x mod (1 + (x div 8))))
1: (2 - (x mod (1 + (x div (2 * (2 - (x mod 2)))))))
1: (2 - (x mod (1 + (x div (if (x mod 2) <= 0 then 4 else 1)))))
1: (2 - (x mod (2 + ((2 - (x div 3)) mod 4))))
1: (2 - (x mod (1 + ((~x + 2) mod 4))))
1: (2 - (x mod (2 + ((~x + 2) mod 4))))
1: (2 - (x mod (1 + ((x + ~1) mod 9))))
1: (2 - (x mod (2 + ((x * (x div 2)) mod 2))))
1: (2 - (x mod (2 + (2x mod (1 + (x div 3))))))
1: (2 - (x mod (1 + (x2 mod (x + 4)))))
1: (2 - (x mod (1 + (((x + (if (x mod 3) <= 0 then 7 else (x div 2))) div 3) mod 3))))
1: (2 - (x mod (1 + ((x2 div ~4) mod (x + 1)))))
1: (2 - (x mod (2 + ((x div 2) mod 2))))
1: (2 - (x mod (2 + (x mod (4 * (1 + (x mod (2 + (x mod 2)))))))))
1: (2 - (x mod (~1 - (2 * ((x + ~1) mod 3)))))
1: (2 - (x mod (~1 - (x div 5))))
1: (2 - (x mod (~2 - ((3x + ~6) mod (1 + (x div 2))))))
1: (2 - (x mod (~2 - (if (~2 + (x div 2)) <= 0 then 2 else 1))))
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1: (2 - (x mod (4 - ((x2 div 2) + (2x mod (4 + (x div 4)))))))
1: (2 - (x mod ((~x + 2) + (x2 mod 3))))
1: (2 - (x mod (2 - ((x + 1) * (x div 2)))))
1: (2 - (x mod (2 - (x * (x div 3)))))
1: (2 - (x mod (2 - (x * (x mod 2)))))
1: (2 - (x mod (2 - (x mod ~3))))
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1: (2 - (x mod (~1 + (2 * (x mod (~1 + (2 * (~2 + (x mod 2)))))))))
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1: (2 - (x mod (~1 + (x div ~5))))
1: (2 - (x mod (~2 + ((x div 2) mod (~2 - (x div 4))))))
1: (2 - (x mod (~2 + (x mod ~2))))
1: (2 - (x mod (~1 + (x mod (~1 + (x div ~3))))))
1: (2 - (x mod ((x + ~2) + (2x mod (3 + (x div 4))))))
1: (2 - (x mod ((x + 1) - (loop(\(x,i).2x,x,1) mod (x + 1)))))
1: (2 - (x mod 10))
1: (2 - (x mod (2 * (1 + (4 * (x mod 2))))))
1: (2 - (x mod (2 * (2 + (((x + ~1) * (x div 2)) mod 3)))))
1: (2 - (x mod (2 * (2 + (((x + ~1) div 2) mod 4)))))
1: (2 - (x mod (3 * (2 + (if ((x + ~1) mod 4) <= 0 then 2 else 1)))))
1: (2 - (x mod ~6))
1: (2 - (x mod (2 * (~4 + (if (x mod 2) <= 0 then 1 else x)))))
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1: (2 - (i mod 4))
1: (2 - (compr(\x.(2 - (x mod (4 + (x mod 5)))),(x + 1)) mod 3))
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1: (2 - (if ((x + ~1) mod 4) <= 0 then x else 0))
1: (2 - (if ((x + ~1) mod 5) <= 0 then x else 0))
1: (2 - (if ((x + ~1) mod 7) <= 0 then x else 0))
1: (2 - (if (6 mod (x + 1)) <= 0 then x else 1))
1: (2 - (if (x mod 2) <= 0 then (~2 + ((x mod 3) div 2)) else 0))
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1: (2 - (if (x mod 5) <= 0 then 1 else ((1 + (x mod 4)) mod (1 + (x mod 3)))))
1: (2 - (if (x mod (4 - (x mod 2))) <= 0 then x else 0))
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1: (2 - (if x <= 0 then 0 else (if (x mod 3) <= 0 then 1 else (2 * ((x div 4) mod 2)))))
1: (2 - (if x <= 0 then 1 else (x + loop(\(x,i).(x + (x div 12) - i),x,0))))
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1: (2 - (if x <= 0 then 1 else (x - (2 * ((2 + (x3 div (x + 2))) div 3)))))
1: (2 - (if x <= 0 then 1 else (~3x2 + 3x)))
1: (2 - (if x <= 0 then 1 else ~21x2))
1: (2 - (if x <= 0 then 1 else (3 * ((~x2 + x) div 2))))
1: (2 - (if x <= 0 then 1 else (2 * (((2 + (x mod (2 + (x mod 3)))) mod (1 + (x div 3))) mod 2))))
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1: (2 - (if x <= 0 then 1 else ((x - (3 * (x2 div 2))) div 2)))
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1: (2 - (if x <= 0 then 1 else ((x div 4) div ~2)))
1: (2 - (if x <= 0 then 1 else (x div ~4)))
1: (2 - (if x <= 0 then 1 else ((x - ((x2 + ~x) div 8)) mod 2)))
1: (2 - (if x <= 0 then 1 else ((x mod ~5) mod 2)))
1: (2 - (if x <= 0 then 1 else ((if ((x + (x div 2)) mod 4) <= 0 then x else 2) mod 5)))
1: (2 - (if x <= 0 then 1 else (x mod (~1 + (x div (~2 + (x mod ~2)))))))
1: (2 - (if x <= 0 then 1 else (if ((x + 1) mod (1 + (2 * ((~x + 2) mod 3)))) <= 0 then 2 else 0)))
1: (2 - (if x <= 0 then 2 else (x + ((x + (x2 div 3)) div 4))))
1: (2 - (if x <= 0 then 2 else (1 + (if ((x - ((x div 5) mod 2)) mod 3) <= 0 then 2 else 1))))
1: (2 - (if x <= 0 then 2 else (x - ((x + (((x + (x div 2)) div 4) mod 2)) div 2))))
1: (2 - (if x <= 0 then 2 else ((x - ((~1 + (x2 div 2)) div 5)) div 2)))
1: (2 - loop(\(x,i).((x + 2) + (2 * (x - loop(\(x,i).7x,i,2)))),x,1))
1: (2 - loop(\(x,i).(2x + loop(\(x,i).(3x + ~3),i,0)),x,2))
1: (2 - loop(\(x,i).(1 + (2 * (x - (i mod 2)))),x,0))
1: (2 - loop(\(x,i).(x + (x div 4)),x,~1))
1: (2 - loop(\(x,i).((x div (1 + (if (x mod 3) <= 0 then 2 else 0))) + (if (x + ~2) <= 0 then 1 else 2)),1,(x + 1)))
1: (2 - loop(\(x,i).(2 + loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x)),2,x))
1: (2 - loop(\(x,i).((~2x + ~1) + (((x + 1) div 2) div 3)),3,x))
1: (2 - loop(\(x,i).(~2x2 + 4x + 1),2x,x))
1: (2 - loop(\(x,i).(~2x + 1),x,0))
1: (2 - loop(\(x,i).(~2x + 1),x,(if x <= 0 then 2 else 0)))
1: (2 - loop(\(x,i).((x + ~2) + (x div (4 + i))),x,0))
1: (2 - loop(\(x,i).(~x + ~1),(x div 2),(x mod 2)))
1: (2 - loop(\(x,i).((~x2 + ~1) + ((x + ~1) div 2)),x,2))
1: (2 - loop(\(x,i).(~x2 + x + ~1),(x div 4),1))
1: (2 - loop(\(x,i).(10x + ~1),x,0))
1: (2 - loop(\(x,i).(4x + ~1),x,0))
1: (2 - loop(\(x,i).(x3 + ~1),4,(x + 1)))
1: (2 - loop(\(x,i).((x3 + ~1) - (2 * ((2x + 1) mod 5))),2,1))
1: (2 - loop(\(x,i).((2x + ~2) - (4 mod (x + 1))),x,1))
1: (2 - loop(\(x,i).((~x2 + ~x) + (x3 div 2)),x,1))
1: (2 - loop(\(x,i).(~2 + (x div 2)),x,2))
1: (2 - loop(\(x,i).(~x2 + (x div 2)),x2,1))
1: (2 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),28,x))
1: (2 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(3x + 1)))
1: (2 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x + 1)))
1: (2 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(8x - (x div 2))))
1: (2 - loop(\(x,i).((~x2 + ~x) + loop(\(x,i).(~x + (if x <= 0 then 2 else 1)),x,3)),x,1))
1: (2 - loop(\(x,i).(x - ((2 - (x * ((x + ~1) mod 3))) div 2)),x,1))
1: (2 - loop(\(x,i).(x - ((~1 + i) mod 13)),(x + 1),2))
1: (2 - loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x))
1: (2 - loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,(x + 2)))
1: (2 - loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else x)),x,(x + 2)))
1: (2 - loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 2 else 1)),(x + 1),x))
1: (2 - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + (2 * i)))),x,x))
1: (2 - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x))
1: (2 - loop(\(x,i).(x - (if x <= 0 then 1 else (x - ((if x <= 0 then 2 else loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 2)))),x,(x + 1)))
1: (2 - loop(\(x,i).(x - (if x <= 0 then 1 else (2 * i))),x,x))
1: (2 - loop(\(x,i).((2x + ~4) + i),(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1))
1: (2 - loop(\(x,i).(i - (x * i)),x,0))
1: (2 - loop(\(x,i).(2x + 4),x,0))
1: (2 - loop(\(x,i).(x * (2 + i)),(x + 1),2))
1: (2 - loop(\(x,i).(~x2 + ~x + 2),(2x + 3),x))
1: (2 - loop(\(x,i).((2 - i) * i),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1))
1: (2 - loop(\(x,i).(~3x2 + 2x),1,(1 + loop(\(x,i).10x,x,1))))
1: (2 - loop(\(x,i).(10x + ~5),x,0))
1: (2 - loop(\(x,i).((x + ~1) * i),x,0))
1: (2 - loop(\(x,i).(2 * (x - ((i mod 3) mod 2))),x,1))
1: (2 - loop(\(x,i).(2 * (x - (i mod 2))),((x + ~2) div 3),1))
1: (2 - loop(\(x,i).(2 * (x - i)),x,0))
1: (2 - loop(\(x,i).2x,(x + ~2),loop(\(x,i).((x + ~1) div 2),(x + ~2),1)))
1: (2 - loop(\(x,i).2x,(if (x mod 2) <= 0 then x else 1),2))
1: (2 - loop(\(x,i).x2,((x2 + ~x) div 2),3))
1: (2 - loop(\(x,i).(((x + ~1) * (1 + i)) div 3),x,1))
1: (2 - loop(\(x,i).(if (x mod (3 + i)) <= 0 then 0 else x),x,(6x + 1)))
1: (2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + ~x + 1)))
1: (2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + 1)))
1: (2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),(x div 2),(3x + ~1)))
1: (2 - loop(\(x,i).loop(\(x,i).(((3 * (x div 4)) div 2) + ((x + ~1) div 3)),1,2x),x,1))
1: (2 - loop(\(x,i).loop(\(x,i).(2 + (if x <= 0 then 2 else loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x))),2,x),1,(x + 1)))
1: (2 - loop(\(x,i).loop(\(x,i).((x + 2) mod (1 + i)),x,0),x,x))
1: (2 - loop(\(x,i).i,(x + ~9),2))
1: (2 - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: ((~x + 3) - (x div 3))
1: (5 - ((1 + (if x <= 0 then 2 else (1 + (2 * (1 + (if (~x + 2) <= 0 then (1 - (2 * ((x mod (1 + (((x + 1) div 2) div 2))) mod 2))) else 0)))))) mod 5))
1: (4 - ((1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 10))
1: ((~x + 3) + (4 * ((2x + ~2) div 7)))
1: ((~x + 3) + ((x div 2) mod 2))
1: (3 - (2 * (1 + ((1 + ((x + 1) div (2 + ((x + 1) div (1 + ((x - (((x + ~1) div 2) div 3)) mod 3)))))) div 2))))
1: (3 - (2 * (1 + ((1 + (if (x mod 2) <= 0 then ((1 + (x div 2)) mod 4) else 1)) div 2))))
1: (3 - (2 * (1 + ((((x + 2) * ((x mod (2 - (x div (1 + ((x div 2) mod 2))))) mod 2)) div 2) div 2))))
1: (3 - (2 * (1 + (loop(\(x,i).(2 * (2x - (2x * (x div 2)))),x,1) div 2))))
1: (3 - (2 * (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) - ((2x + ~1) div (4 + (x div 4))))))
1: (3 - (2x * (x mod 2)))
1: (3 - (2 * ((x + (x div 2)) div 2)))
1: (3 - (((x + 1) * ((~x + 1) - (2 * (24 + (x div 2))))) div 2))
1: (3 - ((x2 + ~x) div 2))
1: (3 - (((x3 + 3x2 + ~4x) div 2) div 3))
1: (3 - (loop(\(x,i).((x + ~2) + (x div 4)),x,0) div 3))
1: (3 - (x2 mod 7))
1: (3 - (loop(\(x,i).(3x + 1),(x + ~1),16) mod 7))
1: (3 - (loop(\(x,i).(~3x + 3),x,1) mod 13))
1: (3 - (if (~x + 2) <= 0 then (x + ~2) else 0))
1: (3 - (if ((1 + (x div 3)) mod 4) <= 0 then (x mod 2) else 2))
1: (3 - (if ((x + 2) mod 5) <= 0 then (x mod 2) else 3))
1: (3 - (if x <= 0 then 1 else (if (~1 + ((x div 3) mod 3)) <= 0 then 3 else (x div 2))))
1: (3 - (if x <= 0 then 1 else x))
1: (3 - loop(\(x,i).(x + loop(\(x,i).(x * loop(\(x,i).(x * (x - i)),2,(x + ~2))),1,(x + ~1))),x,0))
1: (3 - loop(\(x,i).(~2x2 + (if x <= 0 then 1 else 0)),x,1))
1: (3 - loop(\(x,i).(2x3 + 2x),x,(~x + 1)))
1: (3 - loop(\(x,i).2x,(((x + (x div 2)) div 2) mod (2 + ((x div 2) mod 2))),1))
1: (3 - loop(\(x,i).(if (x mod 4) <= 0 then 1 else (x div 3)),x,(x + 2)))
1: (3 - loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,(x + 2)),1,(x + 5)))
1: (3 + ((~x + 2) div (2 + ((2x div 3) + (x mod 2)))))
1: (5 - (((x + ~1) div 2) div 2))
1: (5 - ((loop(\(x,i).(2x + 2),x,(12 * (x div 7))) mod 5) div 2))
1: (4 + (2 div (x + 1)) - (x div 8))
1: (6 - ((if x <= 0 then 2 else ((x + 1) * (x div 2))) mod 3))
1: (4 - (x * (4 + i)))
1: (4 - (7 * (x div ~2)))
1: (~x2 + ~2x + 4)
1: (4 - ((x + 1) * ((~x + 2) + (x div 4))))
1: (4 - (x * (x div 2)))
1: (4 - ((x + 1) * loop(\(x,i).(~2x2 + 1),2,2)))
1: (~x2 + 4)
1: (4 - ((x + 1) div 5))
1: (4 - ((~x + 1) div (3 + (x div 4))))
1: (4 - ((~x + 1) div (1 + (x mod (1 + (x mod (3 + (x mod 2))))))))
1: (4 - ((x2 + x) div 2))
1: (4 - (((x + 1) div 2) div 3))
1: (4 - ((loop(\(x,i).(2x + 2),x,(12 * (x div 7))) mod 5) div 2))
1: (4 - (x div 3))
1: (4 - (x div 7))
1: (4 - (2 mod (x2 + ~5)))
1: (4 - ((x + 2) mod (~2 + (x mod ~2))))
1: (4 - (((x + (x div 2)) * (1 + (x mod 2))) mod 9))
1: (4 - (((if x <= 0 then 1 else (2 + (x div 2))) mod 5) mod 2))
1: (4 - ((x mod (~3 + (x mod 2))) mod 2))
1: (4 - (x mod (~1 + (2 * (~2 + (x mod 2))))))
1: (4 - (i mod 3))
1: (4 - (if (x + ~2) <= 0 then 1 else 2))
1: (4 - loop(\(x,i).(4x + ~1),x,0))
1: (3 - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: (5 - ((x2 + ~x) div 2))
1: (5 - ((x div 2) div ~5))
1: (5 - ((x + 2) mod (3 - ((x div 4) mod 2))))
1: (5 - (x mod (1 + ((x + ~1) mod (4 + (x div 2))))))
1: (5 - (if (x mod 2) <= 0 then x else 0))
1: ((x + 8) + ((2 * (1 + ((x2 + 2x + 2) div (~x + 25)))) div 3))
1: (9 + ((11x + 11) div (x + 6)))
1: ((x + 6) + (x3 div loop(\(x,i).x3,1,6)))
1: (3x + (((3x + 2) + ((3x + (((3x + 2) - (loop(\(x,i).2x,x,1) mod 9)) div 2)) div 2)) div 2))
1: (3x + ((x + (((3 * (x + (2 * ((x - (x div ~4)) div 2)))) div 2) div 2)) div 2))
1: (6 + ((x + ((x mod (1 + (x div 2))) div 2)) div 2))
1: (5 + ((2 * (1 + ((x + (3 * (2 - ((~x + 2) div (2 - (x div ~4)))))) div 2))) div 3))
1: ((2x + ~1) + ((((x3 + ~x) div 2) div 3) + loop(\(x,i).x2,1,(2x + 4))))
1: (3x + (x div (2 + (if (x + ~10) <= 0 then 2 else 1))))
1: ((x + 3) + (if x <= 0 then 1 else loop(\(x,i).(~1 + (if x <= 0 then ((1 + ((1 + i) * i)) * i) else x)),x,0)))
1: ((4x + ~1) + (if x <= 0 then 2 else loop(\(x,i).(x - (x div 12)),2,x)))
1: ((3x + ~2) + (5 * ((x + 2) + ((x + ((x mod (1 + (x div 2))) div 2)) div 2))))
1: ((3x + ~3) + (5 * ((x + 2) - ((x + (x div 4)) div ~2))))
1: ((2x + ~2) + (2 * (((x + 1) + (3 * ((x mod (1 + (x div 2))) div 3))) div 2)))
1: ((2x + ~1) + (2 * ((1 + (((x + 1) * (x + (if x <= 0 then 2 else (~1 + (2 * (if x <= 0 then 1 else (4x + (2 div (~2 + (x mod 2)))))))))) div 2)) div 2)))
1: (2x + (((2x + 2) + (if x <= 0 then 1 else (2 * (2x + ((x + ((2x - ((x + 2) mod 4)) div 3)) div 2))))) div 3))
1: ((3x + ~2) + ((2 * ((x + 5) + compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,7x)),x))) div 3))
1: ((~x + 6) + (((5 * (~2 + (3 * (x - ((~x + 1) * (x div 2)))))) div 2) div 2))
1: ((~x + 4) + ((x div 4) + (x * i)))
1: (5 + (x mod 2) - (x div 3))
1: ((~x + 2) + (loop(\(x,i).5x,x,1) + loop(\(x,i).4x,x,1) + (loop(\(x,i).4x,x,1) div 2)))
1: ((x + 6) - (x div ~6))
1: ((x + 6) - ((1 + (x mod 8)) mod (x + 1)))
1: (4 + (if x <= 0 then 1 else 2) - ((x mod 3) + (x mod 4)))
1: ((x + 3) - ((x div 3) + (((x + ~1) mod (1 + (x div 2))) div 2)))
1: ((x + 13) - (x div ~13))
1: ((x + 10) - (x mod ((x + ~1) - (x mod 12))))
1: ((7x + 2) + ((x div 2) mod 2) - (x mod 3))
1: (x + (2 * loop(\(x,i).(x + (i * i)),x,x)))
1: ((2x + ~1) + (2 * loop(\(x,i).(3x2 + 16x + 16),2x,3)))
1: ((x + 1) + (2 * i) - ((x + ~1) div 5))
1: ((~x + 4) + ((x + (loop(\(x,i).((x + 2) + ((x - (x div 4)) div 2)),x,2) div 2)) div 2))
1: (x + (((x + (x div 3)) div 3) + (if x <= 0 then 1 else 4x)) - ((x div 2) div 3))
1: (x + (((x + ((x div 4) mod 3)) div 3) + (if x <= 0 then 1 else 4x)) - ((x + 1) div 3))
1: (x + (((x + (x mod 2)) div 5) + (if x <= 0 then 1 else 4x)) - (((x + 1) div 2) div 2))
1: (~1 + (((x + 2) div (2 + (x div (2 * (2 + (x mod 2)))))) + (x div 3)))
1: ((~x + 1) + (((~1 + loop(\(x,i).((x2 + 3x + 2) div 2),x,4)) div 3) + (x mod 2)))
1: ((2x + 1) + ((x - (x div 7)) div 2) - (x div 4))
1: (0 + (((2 * (1 + ((1 + (((2 - (2x mod (2 + (x div 2)))) mod (x + 1)) div 2)) div 2))) div 3) + (x mod 2)))
1: (0 + (((2 * (1 + ((1 + ((x mod (2 + ((2 - (2x mod (2 + (x div 2)))) mod (x + 1)))) div 2)) div 2))) div 3) + (x mod 2)))
1: (0 + (((2 * (1 + ((1 + (x div (1 + ((~1 + loop(\(x,i).2x,x,(1 + (x mod (2 * (1 + (x mod 2)))))) - (x mod 2)) mod (2x + 1))))) div 2))) div 3) + (x mod 2)))
1: (0 + (((2 * (1 + ((1 + (x div (1 + (loop(\(x,i).(2x + 1),x,(x mod 2)) mod (x + 1))))) div 2))) div 3) + (x mod 2)))
1: (0 + (((2 * (1 + ((1 + (x div (1 + (x mod (1 + (loop(\(x,i).2x,x,2) mod (2x + 1))))))) div 2))) div 3) + (x mod 2)))
1: (0 + (((2 * (1 + ((3x2 + 10x + 8) div 3))) div 3) + (x mod 2)))
1: ((x + ~1) + ((2 * (1 + ((2 * (1 + compr(\x.(1 - (x mod (2 + ((1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)) mod (x + 1))))),(x + 1)))) div 3))) div 3))
1: (2 + ((2 * (loop(\(x,i).5x,x,4) div 3)) div 3))
1: ((x + 5) + (x2 div 4) - (x div 3))
1: ((4x + 1) + (x2 div (1 + (if (~2 + (x div 2)) <= 0 then x else (x + 2)))) - ((x + 1) div 3))
1: (0 + ((((3 * ((3 * (1 + ((2 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 3))) div 2)) div 2) div 2) + (x mod 2)))
1: (2 + ((loop(\(x,i).2x,(x div 2),~2) mod (x + 1)) div 2))
1: ((4x + 2) + (x div 2) - (x div 3))
1: ((x + 2) + (x div 2) - ((x div 2) mod 3))
1: (3x + (x div 2) - (x div 3))
1: ((x + ~1) + ((x div 3) + ((x + 1) mod 3)))
1: (4 + (x div 4) - (x mod 3))
1: ((3x + 2) + (x div 4) - (x div 5))
1: ((5x + 1) + (x div (~2 + ((~x + 2) div 4))) - ((x + 1) div 3))
1: ((x + ~1) + ((2 + ((x mod ((x div 2) - ((1 + (x div 2)) mod 3))) div 2)) mod 4))
1: ((~x + 4) + ((~x + 1) mod 4))
1: ((x + ~1) + (((x div 2) mod 2) + (4 * (x mod 2))))
1: (1 + (((x div (3 + (x div 3))) mod 2) + (x div 2)))
1: (3 + (x mod 2) - (x div 5))
1: (1 + ((if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1) + (x div 7)) - (x mod 2))
1: ((2x + ~1) + (if (i mod 3) <= 0 then x3 else 1))
1: ((~2x + 3) + loop(\(x,i).(x + 2),(x + ~1),(loop(\(x,i).x3,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2)))
1: (3 + loop(\(x,i).(~1 + (2 * (1 + (2 * (x - (2 * (x mod ~3))))))),x,0))
1: (x + (loop(\(x,i).(x - (x div 8)),2,(x + ~1)) + (if x <= 0 then 1 else 4x)) - ((x + 1) div 3))
1: ((~x + 1) + (loop(\(x,i).(x - (if x <= 0 then 0 else (~1 + (2 * (((1 + (x div 2)) div 2) mod 2))))),2,x) + (x mod 2)))
1: (2x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (1 + (x mod 2))))),x,(x + 1)) - (x mod 2))
1: (2 + loop(\(x,i).(x - (if x <= 0 then 1 else loop(\(x,i).(x - (if x <= 0 then 1 else (~1 + ((2x + 1) mod (2 - ((~x + 2) div 5)))))),x,x))),2,x))
1: (5x + loop(\(x,i).3x,x,1) - loop(\(x,i).2x,x,1))
1: ((loop(\(x,i).5x,x,1) + loop(\(x,i).3x,x,1) + loop(\(x,i).7x,x,1)) - loop(\(x,i).2x,x,1))
1: ((9x + ~1) + loop(\(x,i).10x,i,1))
1: ((7x + ~1) + loop(\(x,i).2x,i,2))
1: (0 + (loop(\(x,i).(2 * i),((x * (x div 3)) mod (1 + ((2 - (x div 2)) mod 4))),1) + (x mod 2)))
1: ((x + ~1) + loop(\(x,i).(if x <= 0 then 1 else ((3x + 3) - ((x - (x div 3)) div 3))),1,((x + 1) div 2)))
1: ((x + 3) - ((x + (x2 div (5 + (x div 2)))) div 2))
1: ((x + 4) - ((~x + 1) div (1 + (2 * (if x <= 0 then 0 else 2)))))
1: ((x + 4) - ((~x + 1) div (1 + (x div 2))))
1: ((x + 4) - ((~x + 1) div (1 + (if x <= 0 then 0 else 2))))
1: ((x + 4) - ((2 - (x2 div 4)) div (x + 1)))
1: ((x + 4) - ((~x + 2) div (x + 1)))
1: ((x + 4) - ((~x + ((x + 1) mod 8)) div 3))
1: ((x + 4) - ((~2x + 2) div (2 - ((~x + 1) div 3))))
1: ((x + 4) - ((x * (~x + (x div 3))) div 3))
1: ((x + 4) - ((9 * (((x + 1) div 2) div 3)) div 2))
1: ((x + 4) - (x2 div ~2))
1: ((x + 4) - (x div (1 + (2 mod (x + 1)))))
1: ((x + 4) - (x div ~5))
1: ((x + 4) - (if x <= 0 then 1 else ((1 - (x div 2)) div 3)))
1: ((~x + 3) + i)
1: ((3x + ~1) + i)
1: (2x + i - (x div 3))
1: ((x + 1) - ((x div 2) + (((x2 + ~2x) mod (1 + (x div 2))) mod 2)))
1: ((~x + 3) - (x mod 2))
1: (3 + ((x + (((x div 2) * (x div 2)) div 2)) div 2) - ((x mod 2) + (x div 2)))
1: (2 + ((((~2 + (x div 2)) * (x div 2)) mod (x + 1)) mod 2) - ((x mod 2) + (x mod 2)))
1: ((~x + 12) + (x div 2) - (x mod 3))
1: (~3 + ((2 * (1 + ((x + 2) * ((1 + loop(\(x,i).2x,x,2)) div 3)))) + (x mod 2)))
1: ((~x + 1) + (3 * loop(\(x,i).4x,(~1 + i),1)) - (x mod 2))
1: ((2x + 1) - ((x div 2) + ((1 - (4 * (x + (if (x + ~4) <= 0 then 1 else 2)))) div 3)))
1: ((2x + 1) - ((x div 3) + (x div ~2)))
1: ((2x + ~1) + (x mod 2) - (i mod 2))
1: ((x + ~3) + ((2 * ((2x + 6) + (2x div (8 + (x mod 2))))) div 3))
1: (1 + ((x div 2) div 3) - ((((x + 1) + (x div 8)) div 2) mod 2))
1: (~1 + ((loop(\(x,i).(2x + 2),x,(1 + loop(\(x,i).2x,x,1))) div 2) + loop(\(x,i).2x,x,2)) - loop(\(x,i).(3x + 1),x,1))
1: (1 + (x div 2) - ((x div 3) + ((~x + ((x div 2) div 3)) div 2)))
1: ((~x + 1) + (x div 3) - ((x + 1) mod (1 + ((x + ~1) mod 3))))
1: (1 + (x mod 2) - (loop(\(x,i).2x,x,1) + loop(\(x,i).2x,(x - (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))),1)))
1: (x + (if x <= 0 then 1 else 4x) - (((x + 1) div 3) + ((2 * (2x div (4 + (x div 8)))) div 3)))
1: ((~x + ~1) + (loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,1) + loop(\(x,i).2x,x,1)))
1: ((x + 1) - ((x mod 2) + (2 * ((2 - (x mod (~1 + (2 * (x div 5))))) div 2))))
1: ((5x + 3) - (x div 4))
1: (7 - (x mod 2))
1: (7 - (if (~1 + (x div 4)) <= 0 then x else 0))
1: ((3x + 1) - ((x + 1) div 5))
1: ((3x + 2) - ((2x + 1) div 9))
1: ((3x + 2) - ((~2x + 1) div 5))
1: ((3x + 2) - ((~2x + 1) div 7))
1: ((3x + 2) - ((~x + ((~x + 2) div 2)) div 5))
1: ((3x + 2) - ((2x + 2) div 7))
1: ((3x + 2) - ((~2x + 2) div 5))
1: ((3x + 2) - ((2x + ~4) div 7))
1: ((3x + 2) - ((x div 2) div 3))
1: ((3x + 2) - (x div 5))
1: ((3x + 2) - (x div (3 + (x div 4))))
1: ((3x + 2) - (i mod 3))
1: ((3x + ~1) + (x mod 3))
1: (9 - ((~x2 + x) div 2))
1: (9 - (if (~4 + (x div 2)) <= 0 then x else 0))
1: ((x + 8) - (x div ~8))
1: ((x + 8) - ((2x + 2) mod 13))
1: ((x + 8) - (x mod (x - ((x + ~1) mod 8))))
1: ((x + 8) - (if (x + ~3) <= 0 then 2 else 1))
1: (13 - (if (~x + i) <= 0 then 0 else 1))
1: ((x + 12) - (if (x + ~1) <= 0 then 1 else 0))
1: ((4x + 4) - ((~x + (x div 4)) mod 4))
1: ((4x + 3) + ((x + ~1) mod 3))
1: ((5x + 4) - ((x + ~1) div 3))
1: ((5x + 4) - ((x - (x div 5)) div 3))
1: ((5x + 4) - ((2x + 2) div 5))
1: ((5x + 4) - ((2 * (~x + ((x div 3) mod 2))) div 3))
1: ((5x + 4) - (((x + 1) div 2) div 3))
1: ((5x + 4) - (x div 3))
1: ((5x + 4) - (if (x + ~4) <= 0 then 0 else 1))
1: ((5x + 2) - (((x + 1) div 2) div 3))
1: ((5x + 2) - (x div 3))
1: ((5x + 2) - (i mod 3))
1: (1 + (2 * ((x + 1) + (2 * (x + (x mod 2))))) - (((x + 1) div 2) div 3))
1: ((~x + 1) + (2 * (2 + ((if (~2 + (x div 3)) <= 0 then 1 else 2) + (x mod 3)))))
1: ((~x + 1) + (2 * ((x + 1) + loop(\(x,i).(x - (x div 4)),2,(x div 2)))))
1: (1 + (2 * ((x + 1) - (4 * (~x + (x div 5))))) - (x div 2))
1: ((x + ~1) + (2 * (8 + (if x <= 0 then 0 else 1))))
1: ((2x + 17) - (if x <= 0 then 2 else 0))
1: (x2 + 12x + 15)
1: (x2 + 11x + 14)
1: (1 + (2 * (1 + (2 * (2 + (2 * (1 + (2 * ((2x + 2) - (x mod 2))))))))) - (x mod 2))
1: ((6x2 + 11x + 15) + (if x <= 0 then 0 else 1))
1: (2x2 + 5x + 15)
1: (3x2 + 50x + 12)
1: ((~x2 + 1) + ((12x + 9) * ((x + 1) div 2)))
1: (~3 + ((3 * ((10x + 10) + (x div 2))) + ((x div 2) mod 2)))
1: (4x2 + ~x + 3)
1: ((~2x + 1) + (2 * (x + (2 * ((((x + 1) + ((((3 * ((x * (x mod 4)) div 2)) mod (x + 1)) div 2) div 2)) div 2) div 3)))))
1: ((7x + 3) - ((~1 + i) mod 3))
1: ((x + ~1) + (2 * (x + ((~x + 2) div (2 - (x div ~4))))))
1: ((x + ~1) + (2 * (1 + (((4x3 + 8x2 + 9x + 5) div 2) div 3))))
1: ((x + ~1) + (2 * (12 + ((((x + 1) div 2) div 2) div 2))))
1: (1 + (2 * ((((2x + 1) mod (1 - (x div ~4))) div 2) + (if x <= 0 then 0 else 1))) - (x mod 2))
1: (1 + (x * (2x + (x div 2))) - (x mod 2))
1: (x + (2 * (2 + (x div 4))) - (if x <= 0 then 1 else 0))
1: (((3 * (x + (x div 4))) + (x div 2)) - (x mod 8))
1: ((x + ~2) + (2 * (12 + (x div 8))))
1: ((x + ~1) + (2 * (x + ((1 - (x div 2)) mod 3))))
1: (1 + (2 * (((~x + 1) mod 3) + (x mod 2))) - (x mod 2))
1: ((x + ~1) + (2 * (x + (x mod 2))))
1: ((x + ~1) + (3 * (x + (x mod 2))))
1: ((x + ~1) + ((1 + (x mod 5)) * (x mod 2)))
1: ((x + ~1) + (9 * (x + (x mod 10))))
1: ((x + ~1) + (2 * (x + (i mod 2))))
1: (2 + (3 * (x + (if (x + ~2) <= 0 then 1 else 2))) - (x mod 3))
1: ((x + ~1) + (2 * ((if ((x div 2) mod 3) <= 0 then 1 else 2) + (x div 3))))
1: (1 + (2 * (1 + (if (x mod 4) <= 0 then 2 else (x mod 2)))) - ((x div 2) mod 2))
1: ((2x + 4) + (x mod 2) - (((~x2 + x) div 2) div 3))
1: ((3x + 4) - ((~2x + 2) div (x + 3)))
1: ((x2 + 3x + 1) + (2 * (x mod 2)))
1: ((x2 + 2x + 1) - loop(\(x,i).x2,1,(x mod ((x + ~1) - (x mod 12)))))
1: ((x + ~1) + ((x + 1) * (2 + i)))
1: ((x + ~1) + ((2 + i) * i))
1: ((x + ~1) + (2 * (x + i)))
1: (~1 + ((2 * (x + i)) + i))
1: (1 + (2 * ((x + 4) - (2 div (1 + (x div 4))))) - (x mod 2))
1: (1 + (2 * ((x + 2) - (2 div (1 + (x div 4))))) - (x mod 2))
1: ((x + ~3) + (2 * ((2x + 2) - ((x2 div (x + 2)) mod 4))))
1: ((~x + 1) + (3 * ((2 * ((2 * (2x - (x mod 8))) - (x mod 4))) - (x mod 2))))
1: ((x + ~2) + (5 * ((4x + 16) - (x div 2))))
1: (1 + (3 * (x2 - (2 * ((x div 2) mod 2)))) - (x div 2))
1: (~1 + ((x * (~1 + (2 * i))) + (x div 2)))
1: (22x + ~19)
1: (1 + (2 * (x - (7 * (x div ~4)))) - (x div 2))
1: (2 + (2 * (x - (((~x + 1) - (x mod 2)) div 3))) - (x mod 3))
1: (~1 + ((2 * (x - (((~x + ~2) + (x mod 2)) div 5))) + (x div 2)))
1: ((x + ~1) + (2 * (x - (((x div 4) - (if x <= 0 then 1 else x)) div 2))))
1: ((x + ~1) + (2 * (x - ((x + ~1) div (3 + (x div 2))))))
1: (~1 + ((2 * (x - ((2 * (~2 + (x div 2))) div 5))) + (x div 2)))
1: ((~x + 1) + (2 * (x - ((2 * ((x + 1) - (((x - ((2 - ((x + 1) div (2 * (2 - ((x div 4) mod 2))))) div 2)) div 2) div 2))) div 3))))
1: (17 - (x div 15))
1: (14 + (x mod 2))
1: (15 + loop(\(x,i).x2,x,2))
1: ((x + 17) - (x div ~3))
1: ((x + 16) - (if x <= 0 then 1 else 0))
1: ((9x + 8) - ((x + 1) div 5))
1: ((10x + 1) - (x div ~9))
1: ((10x + 1) - i)
1: (~2 + ((6 * ((x + 2) + ((x div 2) + (x div 4)))) + (x div 2)))
1: ((x + ~1) + (4 * ((x + 1) + (x div 2))))
1: ((~x + 1) + (4 * (1 + ((3x2 + ~2x) div 2))))
1: (~2 + (((2x + 2) * (2 + (if (x mod 2) <= 0 then 4 else 0))) + (x div 2)))
1: ((6x + 5) + ((x + 1) div 5))
1: ((6x + 6) + (x div 9) - (((x + 1) div 2) div 3))
1: ((7x + 6) - ((2x + 2) div 7))
1: ((5x + 8) - (if x <= 0 then 2 else 1))
1: ((x + ~3) + (4 * (x - (2 * ((~2x + ~2) + ((x - (x div 4)) div 2))))))
1: (1 + (6 * (x - ((~x + 2) div 4))) - (x div 2))
1: ((x + ~1) + (20 * (1 + (x div 2))))
1: ((~x + 3) + (8 * (1 + ((x div 4) mod 2))))
1: ((31x + 32) + (((x + 1) div 2) div 2))
1: (1 + (8 * (x mod 2)) - (x div 2))
1: ((4x2 + 4x + 1) - (if (x + ~1) <= 0 then x else 0))
1: (29x + (x div 15))
1: ((9x2 + ~1) + (x mod 2))
1: ((x + ~1) + (4 * (x mod 2)))
1: (1 + (3 * (loop(\(x,i).(10x + 1),(x div 2),(x mod 2)) * (1 + (x mod 2)))) - (x mod 2))
1: (1 + (9 * loop(\(x,i).(10x + (i mod 2)),x,1)) - (x mod 2))
1: ((4x + 1) - (x div 3))
1: (4x + (x mod 2) - (x div 3))
1: ((4x + ~1) + i)
1: ((6x + 2) - ((~x + ((x div 2) mod 2)) div 5))
1: ((6x + 2) - ((~2x + 2) div 7))
1: ((6x + 2) - (x div 3))
1: (3x2 + x + ~1)
1: ((x3 + ~1) + (2 * (x mod 2)))
1: ((x + ~1) + (2 * (i * i)))
1: ((~x + 1) + (2 * (((x + 1) + (3 * ((x + (if (x mod 2) <= 0 then x else 2)) mod 3))) div 2)))
1: ((~x + 1) + (2 * ((2x + 1) div (1 + (2 * ((x mod (1 + (if (x mod 4) <= 0 then 0 else 2))) div 2))))))
1: ((~x + 1) + (2 * ((1 + (((1 + (loop(\(x,i).4x,(x + ~2),x) div 2)) div 2) div 2)) div 2)))
1: ((x + ~1) + (2 * ((x + ((loop(\(x,i).(x2 + x),2,x) div 2) div 3)) div 2)))
1: (1 + (2 * ((1 + ((loop(\(x,i).x2,1,((x + 4) + (x div 2))) div 2) div 2)) div 2)) - (x mod 2))
1: ((x + ~1) + (2 * ((1 + ((if (x div 2) <= 0 then 1 else ((if (x mod 2) <= 0 then 2 else x) div 2)) mod 4)) div 2)))
1: (1 + (((x + 1) div 5) * (1 + (x div 4))) - (x mod 2))
1: ((x + ~1) + (2 * ((2 - ((3 * ((x div 2) - ((x mod 3) div 2))) div 2)) div 2)))
1: ((x + ~1) + (2 * ((x + (3 * (if (~2 + (x div 2)) <= 0 then 1 else 2)) - (x div 2)) div 2)))
1: (1 + (3 * ((x2 + x) div 2)) - ((x2 + ~x) div 5))
1: ((~x + 1) + (2 * ((x3 + ~3x2 + 2x) div 9)))
1: ((~x + 1) + (2 * ((loop(\(x,i).(~1 + loop(\(x,i).(x div (2 - ((x * (x div 2)) mod 2))),x,x)),x,(x + 1)) mod (2x + 2)) div 2)))
1: (~1 + ((3 * ((x mod 3) div 2)) + loop(\(x,i).2x,x,2)))
1: (2 + (3 * (loop(\(x,i).2x,x,2) div 5)) - (x mod 2))
1: ((x + ~1) + ((x div 2) * (x div 2)))
1: ((x + 1) + (2 * (x div 3)) - (x mod 2))
1: ((x + ~2) + (2 * ((2x + 1) mod (2 + (x mod (1 + (x div 8)))))))
1: ((x + ~1) + (2 * ((~x + 2) mod 10)))
1: ((~x + 1) + (2 * (2x mod 3)))
1: (1 + (2 * (((2x2 + x) div 3) mod 3)) - (x mod 2))
1: (1 + (2 * ((x mod (~2 - (x mod 7))) mod 2)) - (x mod 2))
1: ((~x + 1) + (2 * ((if x <= 0 then 1 else (x - (loop(\(x,i).2x,x,1) mod 9))) mod (x + 1))))
1: ((x2 + ~1) + (2 * (x mod 2)))
1: (~1 + ((2 * (x mod 2)) + (x * i)))
1: ((x + ~1) + (2 * (x mod 2)))
1: (x + (2 * (x mod 2)) - (if x <= 0 then 0 else 1))
1: ((x + ~1) + (3 * (x mod 7)))
1: (1 + (2 * (x mod (2 + (x mod (2 + (x mod 2)))))) - (x div 3))
1: ((x + ~3) + (2 * (if (~2 + (x div 3)) <= 0 then 2 else (x + ~2))))
1: ((x + ~1) + (5 * (if (x + ~4) <= 0 then 1 else 2)))
1: (~1 + (((2x + 1) * (if (x mod 2) <= 0 then 2 else x)) + (x mod 2)))
1: ((x + ~1) + (2 * (if (x mod 4) <= 0 then 2 else (x mod 2))))
1: ((x + ~1) + (2 * (if (if (x mod 8) <= 0 then x else 0) <= 0 then 1 else x)))
1: ((x + ~1) + (2 * (if x <= 0 then 1 else (2 + ((6x + (x2 div 4)) div (x + 2))))))
1: ((x + ~1) + (2 * (if x <= 0 then 1 else 8)))
1: ((~x + 1) + (9 * (if x <= 0 then 2 else (if (~4 + (x div 2)) <= 0 then 1 else 2))))
1: ((~x + 1) + (2 * loop(\(x,i).((x + 1) + ((x mod (1 + (3 * (x mod 7)))) mod 2)),x,1)))
1: ((~x3 + 1) + (2 * loop(\(x,i).(x + ((1 + i) * i)),2x,x)))
1: (~1 + ((x * loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),x,1)) + (2 * (x mod 2))))
1: (~x + ((3 * loop(\(x,i).(8x + 2),(x div 2),(x mod 2))) + loop(\(x,i).(2x + 4),x,1)))
1: ((x + ~1) + ((x + 1) * loop(\(x,i).(x * (x + i)),2,4)))
1: ((~x2 + 1) + (x * loop(\(x,i).x2,(x + ~2),(x2 + 1))))
1: ((2x + 1) - (7 * ((x div 4) mod 2)))
1: ((2x + 1) - ((x + 1) div (5 - (x mod ~4))))
1: ((2x + 1) - compr(\x.((((x + 1) div ~7) mod 2) - (x mod 2)),x))
1: ((x2 + 2) - (2 * ((2 * (2x - (x mod 8))) - (x mod 4))))
1: ((x2 + 2) - (((~x3 + x) div 2) div 3))
1: ((x2 + 4) - (x div 3))
1: ((x + ~2) + (2 * i))
1: (x + (2 * i) - (((x + ~1) div 2) div 2))
1: (x + (i * i) - (i div 2))
1: ((~2x + 1) + (2 * compr(\x.loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,2x),x)))
1: ((x2 + ~1) + (2 div (if x <= 0 then 1 else x)))
1: ((~x + 1) + (((2x + 1) + (2 * ((1 + ((1 + ((x * (x + (if (~2 + (x div 2)) <= 0 then 2 else 1))) div 2)) div 2)) div 2))) div 3))
1: ((~x + 1) + (((x + 1) + (((1 + (((1 + (((x + 1) * ((2x + 1) - (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))) div 2)) div 2) div 2)) div 2) div 2)) div 2))
1: ((~x + 2) + (((x + 2) + (loop(\(x,i).(5x + 4),x,0) mod (x + 1))) div 2))
1: ((~x + 1) + (((x + 1) + loop(\(x,i).(x + ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3)),2,x)) div 2))
1: (1 + (((x + 1) - (2 * (x mod (x - ((x + ~1) mod 8))))) div 3) - (x mod 2))
1: ((~x + 1) + ((x + (2 * (x + ((x + ((x + ((3 * ((3x2 + x) div 2)) div 2)) div 2)) div 2)))) div 2))
1: (~x + ((1 + (2 * (x + ((1 + (((1 + ((((3x3 + 3x2 + ~2x) div 2) div 2) div 2)) div 2) div 2)) div 2)))) div 3))
1: (1 + ((1 + (((x + (if (x mod 2) <= 0 then x else 1)) div 3) * (1 + (x div 5)))) div 3) - (x mod 2))
1: ((~x + 2) + ((2 + (x * loop(\(x,i).x3,1,(x + 3)))) div 2))
1: ((~x + 2) + ((x2 + 1) div (2 + (x div 2))))
1: (1 + ((x + ((1 + (((x + 1) * (loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1))) div 2)) div 2)) div 2) - (x mod 2))
1: ((~x + 1) + ((1 + ((5 * ((2x + 1) - ((x div 4) mod 2))) div 3)) div 3))
1: (1 + ((x + (((x div 2) * (x div 2)) div 2)) div 2) - (x div 2))
1: (x + ((1 + ((x * (x div 2)) div 4)) div 2) - (if x <= 0 then 0 else 1))
1: (1 + ((1 + ((x * (x div 2)) div 4)) div 5) - (x mod 2))
1: (1 + ((1 + (((x div 3) * (x div 2)) div 2)) div 2) - (x mod 2))
1: (1 + ((2 + ((x * (x div 5)) div 2)) div 3) - (x mod 2))
1: ((~x + 1) + ((x + (((3 * (x + ((x + (x2 div 4)) div 5))) div 2) div 2)) div 2))
1: ((~x + 1) + (((x2 + ~x) + (loop(\(x,i).x2,1,(~2x2 + 2x + ~1)) div 3)) div 2))
1: ((x + 1) + ((x + (x div 2)) div 2) - ((x div 2) mod 2))
1: ((x + 2) + ((x + (x div 2)) div 2) - ((x div 2) mod 2))
1: (x + ((x + (x div 2)) div 2) - (x * (~4 + (x div 2))))
1: (x + ((x + (x div 2)) div 2) - ((x div 2) mod 2))
1: (x + ((x + (x div 2)) div 2) - (x mod 4))
1: ((x + ~1) + ((x + (x div 2)) div 5))
1: ((x + ~1) + ((x + (x div 2)) div (2 + i)))
1: (1 + ((1 + (x div 4)) div 2) - (x mod (1 + (x div 4))))
1: (1 + ((((1 + (x div 3)) mod 3) + (x div 3)) div 3) - (x mod 2))
1: (1 + ((x + ((x div 2) mod 2)) div 2) - (x mod 2))
1: ((((x + ((x div 2) mod 2)) div 2) + (if x <= 0 then 1 else 4x)) - ((x + 1) div 3))
1: (x + ((x + ((x div 2) mod 2)) div 2) - ((x + 1) div 3))
1: ((~x + 1) + ((x + (if (x mod 2) <= 0 then (1 + (2 * ((x + 1) - (x div ~5)))) else ~2)) div 2))
1: ((~x + 1) + ((1 + loop(\(x,i).((x2 div 2) + i),x,0)) div 2))
1: ((~x + 1) + ((x + loop(\(x,i).((x + 1) - (((~x + ~1) + (2 * (x mod 2))) div 5)),x,1)) div 2))
1: (1 + ((1 + loop(\(x,i).2x,((((1 + (8 mod (1 + (x div 2)))) div 2) + (if x <= 0 then 0 else 1)) - (x mod 2)),2)) div 3) - (x mod 2))
1: (1 + ((x + 1) div (2 + ((2x mod 3) + (x mod 2)))) - (x mod 2))
1: (1 + ((x + 1) div (1 + ((if (16 mod (x + 1)) <= 0 then 1 else 2) * (x mod 2)))) - (x mod 2))
1: (1 + ((x + 1) div (if x <= 0 then 1 else (2 * (1 + ((if (x mod (2 + (x mod 2))) <= 0 then 1 else x) mod (1 + (x div 4))))))) - (x mod 2))
1: (~1 + (((x + 2) div 5) + (x div 7)))
1: (2x + ((2 - (x div 4)) div 2) - (x mod 2))
1: ((4x + 3) + ((~x + 2) div 4))
1: ((x + ~1) + ((~x + 2) div (2 - (x div ~4))))
1: (1 + ((2 + (((~2x + 4) mod (2 + (x div 2))) div 2) - (x mod 2)) div 2) - (x mod 2))
1: (~1 + ((~1 + (6 * (1 + (loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),x,(2x + 1)) div (x + 1))))) div 2))
1: ((((~x + ((x div 3) mod 3)) div 3) + (if x <= 0 then 1 else 6x)) - ((x + 1) div 3))
1: (2 + ((x + ~2) div (2 + (x div 2))) - (((x div 2) div 3) mod 2))
1: ((4x + 3) + ((x - ((x + (x div 2)) div 4)) div 2))
1: (1 + ((x - ((~x + ((x + ~1) mod 5)) div 2)) div 2) - (x mod 2))
1: (2x + ((x - (x div 7)) div 2) - (x div 3))
1: ((((x - (x div 7)) div 2) + (x mod 2)) - (x div 3))
1: (1 + ((x - (((x + 1) div 2) mod 5)) div 3) - (x mod 2))
1: ((x + ~1) + ((x - (x mod ~7)) div 3))
1: ((x + ~2) + ((3 * ((4x + 6) + ((x - (x div 9)) div 2))) div 2))
1: ((~x + 1) + ((2 * ((x + 1) + ((x + (((1 + ((x2 + x) div 2)) div 2) div 2)) div 2))) div 3))
1: ((~x + 1) + ((2 * ((x + 1) + ((2 * (1 + ((((x2 + 3x + 2) div 2) div 2) div 2))) div 3))) div 3))
1: (~x + (((x3 + 2x) div 3) + ((~x + 1) * (x div 2))))
1: ((~x + 1) + ((2 * (x + (((x + 2) + (((((x + ~1) * (x + (x div 5))) div 2) div 2) div 2)) div 2))) div 3))
1: (1 + ((2 * (1 + ((2 + ((2 * (1 + ((2 + ((2 * (1 + ((1 + (x2 div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))) div 2))) div 3) - (x mod 2)) div 2))) div 3) - (x mod 2)) div 2))) div 3) - (x mod 2))
1: (1 + ((2 * (1 + ((2 + ((2 * (1 + ((1 + (x2 div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))) div 2))) div 3) - (x mod 2)) div 2))) div 3) - (x mod 2))
1: (1 + ((2 * (1 + ((1 + ((1 + ((x + ~1) * (x2 div 4))) div 5)) div 2))) div 3) - (x mod 2))
1: ((~x + 1) + ((2 * (1 + ((x + ((x + (2 * ((((x + 3) * ((x + 1) - ((~x + 1) div 3))) div 2) div 2))) div 2)) div 2))) div 3))
1: (1 + ((2 * (1 + ((1 + ((1 + (((1 + loop(\(x,i).2x,(1 + (x div 2) - (2 * (x mod 2))),2)) div 3) div 2)) div 2)) div 2))) div 3) - (x mod 2))
1: (1 + ((2 * (1 + ((1 + ((2 + (loop(\(x,i).(x - (x div (~2 + (x mod ~2)))),x,1) div 2)) div 3)) div 2))) div 3) - (x mod 2))
1: (1 + ((2 * (1 + ((1 + ((x + 1) div (1 + (x div (1 + (2 * (1 + (x mod 3)))))))) div 2))) div 3) - (x mod 2))
1: ((~x + 1) + ((2 * (x + ((x + ((((1 + (x div 3)) div 2) * (x div 2)) div 2)) div 2))) div 3))
1: (1 + ((2 * (1 + ((1 + (x2 div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))) div 2))) div 3) - (x mod 2))
1: ((~x + 1) + ((2 * (x + ((1 + (((1 + (((x + 1) * ((x + 1) + (x div 3))) div 2)) div 2) div 2)) div 2))) div 3))
1: (1 + ((2 * (1 + ((1 + (((1 + (((x + 1) * (1 + (2 * (1 + ((1 + (x div (2 + (x mod 2)))) div 2))))) div 2)) div 2) div 2)) div 2))) div 3) - (x div 2))
1: (1 + ((2 * (1 + ((1 + (((1 + (((x + 1) * (1 - ((x - (x2 div 3)) div 3))) div 2)) div 2) div 2)) div 2))) div 3) - (x mod 2))
1: (1 + ((2 * (1 + ((1 + (((1 + ((((x + ~1) * ((x + 1) + (x2 div 4))) div 2) div 2)) div 2) div 2)) div 2))) div 3) - (x mod 2))
1: (1 + ((2 * (1 + ((1 + ((((x + 1) * (1 + (2x mod (1 + (x div 2))))) div 2) div 2)) div 2))) div 3) - (x mod 2))
1: (1 + ((2 * (1 + ((1 + (((~1 + loop(\(x,i).2x,x,(1 + (x mod (1 + ((x + 1) mod 3)))))) mod (x + 1)) div 2)) div 2))) div 3) - (x mod 2))
1: (1 + ((2 * (1 + ((1 + (loop(\(x,i).((x + 1) + (2 * ((x div 2) div 3))),x,1) div 2)) div 2))) div 3) - (x mod 2))
1: (1 + ((2 * (1 + ((1 + (x div (1 + (x mod (1 + ((1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x)) mod (x + 1))))))) div 2))) div 3) - (x mod 2))
1: (1 + ((2 * (1 + ((1 + (x2 mod (~1 + (4 * (2x div 3))))) div 2))) div 3) - (x mod 2))
1: ((((2 * (1 + ((x - (((x div 2) div 3) mod 2)) div 2))) div 3) + (if x <= 0 then 1 else 5x)) - ((x + 1) div 3))
1: ((~x + 1) + ((2 * (1 + ((2 * ((x + 2) + ((1 + ((x * (x div 7)) div 2)) div 2))) div 3))) div 3))
1: ((~x + 1) + ((2 * (1 + ((15x3 + 30x2 + 16x + 1) div 3))) div 3))
1: (1 + ((2 * (1 + ((2 * (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + ((1 + (x div 2)) div 2))))) div 3))) div 3) - (x mod 2))
1: (1 + ((2 * (1 + ((2 * ((1 + ((x * ((x + (if (x mod 2) <= 0 then 2 else x)) div 2)) div 2)) div 3)) div 3))) div 3) - (x mod 2))
1: (1 + ((2 * (1 + (((x + 1) * (if x <= 0 then 1 else (2 * ((x mod (1 + (x div 2))) div 2)))) div 5))) div 3) - (x mod 2))
1: ((x + ~2) + ((7 * (1 + (((x + 1) div 2) div 2))) div 2))
1: (1 + ((2 * (1 + (((x + 1) div (2 + ((x * (x div 3)) mod (1 + ((2 - (x div 2)) mod 4))) - (x mod 2))) div 2))) div 3) - (x mod 2))
1: ((~x + 1) + ((2 * (x + ((((2x + 3) * ((9x + 9) - (x mod 5))) div 2) div 3))) div 3))
1: (1 + ((2 * (1 + ((((if ((x + 2) mod (1 + (x mod 4))) <= 0 then 1 else 2) * (1 + (x div 2))) div 2) div 2))) div 3) - (x mod 2))
1: (1 + ((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3) - (x mod 2))
1: (~1 + (((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3) + (if x <= 0 then 0 else 1)))
1: (1 + ((2 * (1 + ((if x <= 0 then 0 else ((2x + 1) - (if (x mod 4) <= 0 then (x div 4) else 0))) div 2))) div 3) - (x mod 2))
1: (1 + ((2 * (1 + (loop(\(x,i).((x + 1) + (3 * (x div 5))),x,1) div (x + 1)))) div 3) - (x mod 2))
1: (1 + ((2 * (1 + (loop(\(x,i).(x + (x div (2 + (x mod 2)))),x,2) div (x + 2)))) div 3) - (x mod 2))
1: (~1 + (((3 * (2x + (x div 4))) div 2) + (x div 2)))
1: (1 + ((2 * (1 + ((x + 1) mod (1 + (2 * (((2x + 1) mod (1 + (2x mod (2 + (x div 4))))) + (if x <= 0 then 0 else 1))))))) div 3) - (x mod 2))
1: (1 + ((x2 + 4x + 4) div 3) - ((x + 1) mod 3))
1: (1 + ((2 * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,(loop(\(x,i).(2 * (x - i)),x,2) mod (x + 1))) mod (x + 1)),x))) div 3) - (x mod 2))
1: ((x + ~2) + ((31x + 31) div (2x + 5)))
1: (~1 + (((x2 + ~x) div 2) + i))
1: (1 + ((2x3 + 6x2 + 6x + 4) div 3) - (x div 2))
1: (1 + ((4 * (2x div 3)) div 3) - (((x + 1) div 2) div 3))
1: ((~x + 1) + ((9 * loop(\(x,i).(x3 mod 47),2,x)) div (x + 1)))
1: (1 + ((x3 + ~x2) div 3) - (x2 div 2))
1: (1 + ((2 * ((3 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 2)) div 3) - (x mod 2))
1: (1 + ((2 * (loop(\(x,i).((x + 1) + (x div 5)),x,1) div 2)) div 3) - (x mod 2))
1: ((x + ~1) + ((x * (x div 2)) div 3))
1: (1 + ((x * (x div 2)) div (x + 4)) - (x div 7))
1: ((2x + 4) + (2x div 3) - (x mod 3))
1: ((x + ~2) + (2x div 3))
1: (((2x div 5) + (if x <= 0 then 1 else 4x)) - (x div 8))
1: ((2x + 2) + (x2 div 4) - (x div 3))
1: ((x + ~1) + (x2 div 4))
1: (1 + (x2 div (x + 5)) - (x div 7))
1: (1 + (x2 div (1 + ((x + 1) div 2))) - (x div 3))
1: ((x + ~1) + ((i * i) div 2))
1: (1 + ((((x + 1) + (2 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))) div 2) div 2) - (x mod 2))
1: (1 + (((1 + (x div 3)) div (1 + (if (x mod (4 - (x mod 2))) <= 0 then 2 else 0))) div 2) - (x mod 2))
1: (1 + (((2 + ((1 - (x mod (1 + ((2 - (x div 2)) mod 4)))) mod (x + 1))) div 2) div 2) - (x mod 2))
1: (1 + (((x + 1) div (2 + (((x - (x div 4)) div 2) mod 2))) div 2) - (x mod 2))
1: (1 + (((x + 1) div (2 * (1 + (x mod (2 + (x mod 2)))))) div 2) - (x mod 2))
1: (1 + (((~1 + (((x + ~1) * (x div 2)) div 2)) div 2) div 3) - (x mod 2))
1: (1 + ((((x + 1) - ((1 + (x mod 3)) * (x mod 3))) div 2) div 2) - (x mod 2))
1: (1 + (((x - (x3 div (~x + ~31))) div 2) div 2) - (x mod 2))
1: ((x + ~2) + (((5 * ((x + 2) - (x2 div (x + 6)))) div 2) div 2))
1: ((x + ~2) + ((((x + 2) * (2 + ((x2 + x) div 2))) div 2) div (3x + 1)))
1: ((3x2 + 12x + 11) + (((x3 + ~x) div 2) div 3))
1: ((3x2 + 6x + ~1) + (((x3 + ~x) div 2) div 3))
1: ((4x + 3) + (((x3 + 3x2 + 2x) div 2) div 3))
1: ((5x2 + ~6x) + (((x3 + 3x2 + 2x) div 2) div 3))
1: (1 + (((((1 + (x div 2)) div (1 + (x mod 2))) * (1 + (x div 2))) div 2) div 2) - (x mod 2))
1: (1 + (((((x + 1) * ((~x + 2) mod 3)) div 2) div 2) div 2) - (x mod 2))
1: (1 + ((((1 + (2 * ((x + 1) + (((x + 2) + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)) div 3)))) mod (x + 1)) div 2) div 2) - (x mod 2))
1: (1 + ((loop(\(x,i).((x + 1) + (x div 5)),x,1) div 2) div 2) - (x mod 2))
1: (x + ((x div 2) div 3) - (x div 7))
1: ((x + ~8) + ((x div 2) div 5))
1: ((((x div 2) div 7) + (x div 2)) - (x div 3))
1: (1 + (((3x + 3) mod (1 + (x div 3))) div 2) - ((x div 2) mod 2))
1: (1 + ((x2 mod (1 + (2 * (3x div 5)))) div 2) - (x mod 2))
1: (2 + (((x2 div 3) mod (x + 1)) div 2) - (x mod 3))
1: ((x + ~1) + ((x mod 3) div 2))
1: ((x + ~2) + ((x mod 3) div 2))
1: ((x + ~1) + ((if (~6 + (x div 2)) <= 0 then 2 else x) div 2))
1: ((~x + 1) + (loop(\(x,i).((4x + 2) + ((x2 + x) div 2)),2,x) div 3))
1: (1 + (loop(\(x,i).(x + (i div 2)),(x + ~8),1) div 2) - ((x + 1) div 2))
1: ((~x + 1) + (loop(\(x,i).(2x - (x mod (1 + i))),x,2) div 3))
1: ((~x + 1) + (loop(\(x,i).(2 * ((x * (1 + i)) - (x div 3))),x,1) div 2))
1: ((4x + 3) + (loop(\(x,i).((x2 + ~x) div 2),2,(x + 2)) div 3))
1: (0 + (x div 2) - (x div ((3x + 12) div (if x <= 0 then 1 else x))))
1: (0 + ((x div 2) + ((if x <= 0 then 2 else (1 - ((x + 1) mod (1 + (2 * ((x div 2) div 3)))))) div 2)))
1: (1 + (x div 2) - (if x <= 0 then 1 else ((3 * ((x + (x mod 2)) div 5)) div 2)))
1: (2 + (x div 2) - (2 * (x mod 10)))
1: (2 + (x div 2) - ((~x + 2) div (2 + (2x div 3))))
1: (2 + (x div 2) - ((~x + 2) div (2 + ((x div 2) div 3))))
1: (2 + (x div 2) - ((x div 4) mod 2))
1: (2x + (x div 2) - (x div 8))
1: (2x + (x div 2) - (x mod 4))
1: (2x + (x div 2) - (if x <= 0 then 0 else 1))
1: ((x + 2) + (x div 2) - (((2 - (x div 2)) div 2) div 2))
1: (x + (x div 2) - (2 * (~2 + (x mod 2))))
1: (x + (x div 2) - (2 * (x div 3)))
1: (x + (x div 2) - ((x + ((x2 + ~x) div 8)) div 3))
1: (x + (x div 2) - ((1 + (x div 4)) div 2))
1: (x + (x div 2) - (((~x + ~1) + (x mod 2)) div 5))
1: (x + (x div 2) - ((~1 + (x div 4)) div 2))
1: (x + (x div 2) - (x div (1 + (2 * (2 + (x mod 2))))))
1: (x + (x div 2) - (if (x mod 4) <= 0 then 0 else 1))
1: (~1 + ((x div 2) + i))
1: (1 + (x div 3) - (x div (1 + (2 * (2 + (((x div 2) div 3) mod 2))))))
1: (1 + (x div 3) - ((~1 + ((x + 1) mod 3)) mod (x + 2)))
1: (1 + (x div 3) - (x mod (~3 + (x mod ~2))))
1: (1 + (x div 3) - ((x + 1) div (2 - ((~x + 1) div 5))))
1: (2 + (x div 3) - (x mod 4))
1: ((x + ~2) + (x div 3))
1: (1 + (x div 4) - ((1 + (((if (x + ~1) <= 0 then 1 else ((1 + (((x + 1) * (2 + (x mod 2))) div 2)) div 2)) + (x mod 3)) div 2)) mod 2))
1: (1 + (x div 4) - ((x mod 5) mod 2))
1: (1 + (x div 4) - (x mod 10))
1: (2 + (x div 4) - (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))
1: (2 + (x div 4) - (x div (1 + (2 * i))))
1: ((x + ~2) + (x div 4))
1: (x + (x div 4) - (2 * ((~x + 2) div 4)))
1: ((x + ~1) + (x div 5))
1: (1 + (x div (2 + ((2x mod 3) + (x mod 2)))) - (x mod 2))
1: (2 + (x div (3 + (x mod 2))) - (x mod 2))
1: (1 + (x div (1 + (2 * (2 + ((x mod 3) div 2))))) - (x mod 2))
1: (1 + (x div (1 + ((x + 1) div (1 + ((x div (2 + (x mod (1 + ((x + 1) div (1 + (((2x div (1 + (x div 4))) mod 2) + (x mod 2)))))))) + (x mod 2)))))) - (x mod 2))
1: (1 + (x div (2 + ((x + 1) div (1 + (2 * ((3 * (x div 5)) div 2)))))) - (x mod 2))
1: (1 + (x div (2 + ((x + 1) div (1 + (2 * ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 2)))))) - (x mod 2))
1: (1 + (x div (2 + (x div (3 + ((x div 2) mod 2))))) - ((x mod 3) div 2))
1: (1 + (x div (2 + (x div (1 + (x mod (1 + ((2 - (x div 2)) mod 4))))))) - (x mod 2))
1: (1 + (x div (2 + ((1 + ((~x + 2) mod 4)) mod (x + 1)))) - (x mod 2))
1: (1 + (x div (2 + ((if (x + ~2) <= 0 then 1 else x) mod 2))) - (x mod 2))
1: (1 + (x div (2 + (if ((x + 1) mod 5) <= 0 then 0 else 2))) - (x mod 2))
1: (1 + (x div (1 + (if (x mod 2) <= 0 then (2 * (1 + ((x mod 3) div 2))) else 1))) - (x mod 2))
1: (1 + (x div (2 + (if (x mod (1 + (2 * (x div (2 * (2 + (x mod 2))))))) <= 0 then 1 else 2))) - ((1 + (x div 2)) div 2))
1: (1 + (x div (3 - (x mod ~4))) - (x div 4))
1: (1 + (x div (x - (3 * ((x + ~1) div 5)))) - (x mod 2))
1: (2 + (x div 8) - ((~x + 2) div (2 - (x div ~4))))
1: (x + (x div 8) - (x div 5))
1: ((x + ~2) + (x div (if i <= 0 then 1 else i)))
1: ((x + ~1) + (i div 2))
1: (((2 mod (1 + (x div 4))) + (x mod 2)) - ((x div 2) mod 2))
1: (1 + ((1 + ((x - ((3 * (2 - ((~x + 1) div (2 + (x div 4))))) div 2)) div 2)) mod (x + 1)) - (x mod 2))
1: (1 + ((1 + ((2 * (1 + ((1 + (x2 div 7)) div 2))) div 3)) mod (x + 1)) - (x mod 2))
1: (0 + ((1 + (loop(\(x,i).3x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1) div 3)) mod 3) - (2 * (x mod 2)))
1: (1 + ((x + 1) mod (1 + (2 * ((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1))))) - (x mod 2))
1: (1 + ((x + 1) mod (1 + (x div (2 + (x mod (2 + (x mod 2))))))) - (x mod 2))
1: ((x + ~2) + (~x mod 4))
1: ((x + ~2) + ((1 - (x div 4)) mod 3))
1: ((~x + 2) + ((~x + 1) mod 3))
1: (4x + ((~x + 1) mod 4) - (x div 4))
1: ((2x + ~1) + ((~x + 1) mod 4))
1: ((x + ~1) + ((2 - (x div 2)) mod 4))
1: (2 + ((x + ~1) mod 9) - (x div 9))
1: (2 + ((x + ~1) mod 9) - (x mod 8))
1: (~1 + (((x - (x div (1 + (x mod 4)))) mod 2) + (x mod 2)))
1: (1 + ((2x + 2) mod (1 + (((x + 1) * (1 + (((1 + (x mod ((1 + (x mod (1 + (x div 4)))) * (1 + (x mod 2))))) mod (x + 1)) + (x mod 2)))) mod 3))) - (x mod 2))
1: (x + ((x2 + x) mod 3) - ((x + 1) div 3))
1: (1 + ((x * (x div 2)) mod (1 + (if (x mod 8) <= 0 then 2 else 1))) - (2 * (x mod 2)))
1: ((~2x + 1) + (2x mod (2 + (x div 4))))
1: (~1 + ((((x + (x div 2)) div 2) mod 2) + ((x div 4) mod 2)))
1: (1 + (((~x2 + 2) div (4 + (x div 2))) mod 2) - (x mod 2))
1: ((x + ~1) + (((x - (x div ~2)) div 5) mod 2))
1: ((4x + 3) + ((((~x2 + 1) * (x div 4)) div 2) mod 3))
1: (1 + (((x2 + ~2x) div (4 + (x div 2))) mod 2) - (x mod 2))
1: (1 + (((x * (((x + 1) div 2) mod 4)) div 3) mod 2) - (x mod 2))
1: (2x + ((x div 2) mod 2) - (((x + 1) div 2) div 2))
1: (x + ((x div 2) mod 2) - (((x + 1) div 2) div 2))
1: (x + ((x div 2) mod 2) - (x div 8))
1: (~x + (((x div 2) mod 2) + i))
1: ((x + ~2) + ((x div 2) mod 4))
1: ((2x + ~1) + ((x div 4) mod 3))
1: ((x + ~1) + ((x div (1 + ((~x + 1) mod 3))) mod 2))
1: (1 + (((x2 + 2) mod (1 + ((x + 1) div 3))) mod 2) - (x mod 2))
1: (1 + (((x + 1) mod (1 + (4 * ((x div 4) mod 2)))) mod 2) - (x mod 2))
1: (1 + (((x + ~2) mod (3 + ((x + (x mod 2)) div 3))) mod 2) - (x mod 2))
1: (1 + ((((~2 + (x div 2)) * (x div 2)) mod (x + 1)) mod 2) - (x mod 2))
1: (1 + ((x mod (1 - (x div (~2 - (x mod 3))))) mod 2) - (x mod 2))
1: (1 + ((x mod (((~x + ~1) + (x mod 2)) div 3)) mod 2) - (x mod 2))
1: (~2 + (((if (x + ~2) <= 0 then 2 else (x + ~2)) mod 4) + (x div 2)))
1: (1 + (x mod 2) - loop(\(x,i).(2x - i),x,0))
1: (2 + (x mod 2) - (5 * (~2x + (x div 2))))
1: (2 + (x mod 2) - ((x div (1 + ((x div 2) div 3))) mod 2))
1: (2 + (x mod 2) - (if (~x + 2) <= 0 then ((x mod 3) div 2) else 1))
1: (2x + (x mod 2) - (x div 3))
1: ((x + 1) + (x mod 2) - ((x2 div (x - ((~x + 2) div 2))) mod 2))
1: ((x + 1) + (x mod 2) - ((x div 2) mod 2))
1: (x + (x mod 2) - ((x - ((x - (x mod 3)) div 2)) mod 2))
1: (x + (x mod 2) - ((x div 2) mod 2))
1: (~5 + (x mod 3))
1: ((~x + 1) + (x mod 3))
1: (2 + (x mod 4) - (x div 2))
1: (~2 + ((x mod 5) + (x mod 4)))
1: ((x + ~1) + (x mod (4 + ((x div 4) mod 2))))
1: ((~x + 1) + (x mod 9))
1: (~1 + ((x mod (1 + ((x + 1) div 5))) + (x div 8)))
1: (1 + (x mod (1 + ((~2x + 1) mod 5))) - (x mod 2))
1: (1 + (x mod (2 + (x mod 2))) - (x mod (3 + (x mod 2))))
1: ((~x + 2) + (x mod (2 + (x mod 2))))
1: ((2x + ~1) + (x mod (2 + (x mod 2))))
1: (1 + (x mod (1 + (x mod (1 + (x mod (1 + (loop(\(x,i).4x,x,2) mod (x + 2)))))))) - (x mod 2))
1: ((~x + 1) + (x mod (1 + (x mod (2 * (2 + ((x div 2) mod 2)))))))
1: (~1 + ((x mod 6) + (x mod 2)))
1: ((x + ~1) + (x mod 10))
1: ((2x + ~1) + (i mod 2))
1: ((x + ~1) + (i mod 2))
1: ((2x + ~1) + (if (~x + 4) <= 0 then (x + ~2) else 2))
1: ((2x + ~1) + (if (~x + 2) <= 0 then x else 2))
1: ((x + ~1) + (if (~x + 2) <= 0 then x else 2))
1: ((x + ~1) + (if (~4 + (x div 2)) <= 0 then 1 else (2 * (x div 4))))
1: (2x + (if (~2 + (x div 3)) <= 0 then 1 else 2) - (x mod 3))
1: (2x + (if (~2 + (x div 4)) <= 0 then 1 else 2) - (x mod 3))
1: ((x + ~1) + (if (~2 + (x div 5)) <= 0 then 2 else (x div 2)))
1: ((~x + 1) + (if (~1 + (x mod 3)) <= 0 then x else 2))
1: ((x + ~2) + (if (x + ~1) <= 0 then 2 else (x + (2 * ((x + 1) div 7)))))
1: (~1 + ((if (x + ~1) <= 0 then 2 else 4x) + (x mod 3)))
1: (x + (if (x + ~2) <= 0 then 1 else 2) - (x div ~5))
1: ((x + ~1) + (if (x + ~2) <= 0 then 2 else (2x div 3)))
1: ((x + ~1) + (if (x + ~2) <= 0 then 2 else (x2 div (x - ((~x + 2) div 2)))))
1: (x + (if (x + ~6) <= 0 then 1 else 2) - (x div ~2))
1: ((~x + 1) + (if (2 * (x div 5)) <= 0 then 2x else (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x))))
1: ((x + ~1) + (if ((x + 1) mod 3) <= 0 then x else 2))
1: (1 + (if ((x + 1) mod 4) <= 0 then x else 2x) - (2 * (((x + 1) div 2) div 2)))
1: ((x + ~1) + (if ((x + 1) mod 5) <= 0 then (x + ~2) else 2))
1: (x + (if ((x + 1) mod 10) <= 0 then 2 else 1) - (x div 2))
1: (1 + (if ((x + 2) mod 6) <= 0 then (x div 4) else 0) - (x mod 2))
1: ((x + ~1) + (if (8 mod (if x <= 0 then 1 else x)) <= 0 then x else 0))
1: (1 + (if (((1 + (x div 2)) div 2) mod 3) <= 0 then 2 else 0) - (x mod 2))
1: (2x + (if ((x div 2) mod 3) <= 0 then 2 else 1) - (x div 3))
1: (x + (if (x mod 2) <= 0 then 1 else (~x + ~1)) - (x div 3))
1: ((x + ~1) + (if (x mod 2) <= 0 then 4 else (2 div (x + 1))))
1: ((~x + 1) + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1))
1: (1 + (if (x mod 3) <= 0 then 2 else 0) - (x mod 2))
1: (1 + (if (x mod 3) <= 0 then (2 * (2 + (x div 2))) else 1) - (x div 2))
1: (((if (x mod 3) <= 0 then (5 * (if (x mod 2) <= 0 then (3 * (if x <= 0 then 1 else 2)) else 1)) else 1) + (if x <= 0 then 1 else 2)) - (x mod 2))
1: (((if (x mod 5) <= 0 then 2 else 1) + (x div 4)) - (x mod 2))
1: (2 + (if (x mod 7) <= 0 then (x div 2) else 0) - (x mod 2))
1: (((if (x mod (1 + ((~2x + 2) mod (1 + (x div 2))))) <= 0 then 0 else 2) + (if x <= 0 then 1 else 2)) - (x mod 2))
1: ((3x + ~1) + (if (x mod (1 + i)) <= 0 then 0 else x))
1: ((2x + ~1) + (if (i mod 4) <= 0 then x else 1))
1: (1 + (if x <= 0 then 0 else (1 + (((x + 1) + (((x + 1) + ((loop(\(x,i).(2x + (i mod 2)),x,(1 + (x mod 2))) div 2) div 2)) div 2)) div 2))) - (x mod 2))
1: (1 + (if x <= 0 then 0 else (1 + (x div (2 + (((2 * (1 + ((1 + ((32 mod (x + 1)) div 2)) div 2))) div 3) + (x mod 2)))))) - (x mod 2))
1: (1 + (if x <= 0 then 0 else (if (x mod (2 + ((1 + (6 mod (1 + (x div 2)))) mod 2))) <= 0 then 2 else 1)) - (x mod 2))
1: ((~x + 2) + (if x <= 0 then 1 else 2))
1: (x + (if x <= 0 then 1 else (4x + ((x - (x div 5)) div 3))) - (2x div 3))
1: (~x + ((if x <= 0 then 1 else (2 * (x - (2 * (~x + (x div 3)))))) + (x mod 2)))
1: (6x + (if x <= 0 then 1 else ((2 * (~x + (((x div 2) div 3) mod 2))) div 3)) - ((x + 1) div 3))
1: ((2x + ~1) + (if x <= 0 then 1 else (x2 div 12)))
1: (2x + (if x <= 0 then 1 else x) - (((~x3 + x) div 2) div 3))
1: (1 + (if x <= 0 then 2 else (loop(\(x,i).x3,2,11) mod (x + 1))))
1: ((2x + ~1) + (if x <= 0 then 2 else (x mod 2)))
1: ((x + ~1) + loop(\(x,i).((3x + 2) + (x div 5)),7,4))
1: ((~x + 1) + loop(\(x,i).((x + 1) + (((((~x + 2) * (x div 2)) div 2) div 3) mod 2)),x,0))
1: (11x + loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1))
1: ((x + ~1) + loop(\(x,i).(x2 + 4x + 6),2,2))
1: ((loop(\(x,i).(4x + 1),x,2) + loop(\(x,i).3x,x,1)) - loop(\(x,i).2x,x,1))
1: ((x + ~3) + loop(\(x,i).(x3 + 2),2,2))
1: ((~x + 1) + loop(\(x,i).(1 + (x * i)),(~1 + i),1))
1: ((x + ~2) + loop(\(x,i).(2 + ((x - (x div (~4 + ((x div 2) mod 2)))) div 2)),2,x))
1: ((~4x + 1) + loop(\(x,i).(x + (if x <= 0 then 1 else x3)),x,loop(\(x,i).40x,x,1)))
1: (11x + loop(\(x,i).(8x + loop(\(x,i).3x,(2 * i),1)),i,1))
1: ((x + ~2) + loop(\(x,i).(1 + loop(\(x,i).(x * ((x + 1) div 2)),i,x)),x,1))
1: (~1 + (loop(\(x,i).(10x + ~1),(2x + 1),1) + loop(\(x,i).10x,x,1)))
1: (~x + (loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),i,1) + (x * i)))
1: ((x + ~3) + loop(\(x,i).((x + 1) - ((2x + ~2) div (2 + (x div 2)))),2,x))
1: ((x + ~1) + loop(\(x,i).(x - (x div 12)),2,x))
1: (1 + loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x) - (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))
1: ((x + ~1) + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 2)))
1: (2 + loop(\(x,i).3x,x,1) - loop(\(x,i).(x - (x div (~2 + (x mod 2)))),x,1))
1: ((x + 4) + loop(\(x,i).3x,x,1) - loop(\(x,i).2x,x,1))
1: (~x + (loop(\(x,i).3x,i,1) + (x * i)))
1: (~7x + loop(\(x,i).3x,i,1))
1: (~3x + loop(\(x,i).5x,(~1 + i),1))
1: ((loop(\(x,i).5x,x,1) + loop(\(x,i).3x,x,1)) - loop(\(x,i).4x,x,1))
1: ((loop(\(x,i).5x,x,1) + loop(\(x,i).3x,x,1)) - loop(\(x,i).2x,x,1))
1: ((loop(\(x,i).5x,x,1) + loop(\(x,i).2x,x,1)) - loop(\(x,i).(x2 + ~x),1,loop(\(x,i).3x,x,1)))
1: ((x + ~1) + loop(\(x,i).(x * (3 + i)),4,(x + 1)))
1: (~2 + loop(\(x,i).7x,x,1) - (loop(\(x,i).3x,x,(1 + loop(\(x,i).2x,x,1))) + loop(\(x,i).5x,x,1) + loop(\(x,i).(2x + 1),x,loop(\(x,i).2x,x,1))))
1: (~1 + (loop(\(x,i).(10x + 2),(x div 2),1) + (x mod 2)))
1: ((x + ~1) + loop(\(x,i).(6x + 8),2,x))
1: ((x + ~1) + loop(\(x,i).(x4 + 2x),(x + ~2),1))
1: ((~x2 + 1) + loop(\(x,i).(x3 + x),x,1))
1: ((x + ~1) + loop(\(x,i).(2 * (1 + ((x + (x div 2)) div 4))),3,x))
1: ((x + ~1) + loop(\(x,i).(x2 + 3x + 2),2,2))
1: ((x + ~1) + loop(\(x,i).(x * (2 + i)),4,(x + 1)))
1: ((~x + 1) + loop(\(x,i).(x * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i))),8x,1))
1: (~1 + (loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,1) + (2 * (x mod 2))))
1: ((x + ~1) + loop(\(x,i).(2 * (2x - i)),x,1))
1: (~1 + (loop(\(x,i).10x,x,1) + (2 * (x mod 2))))
1: (~1 + (loop(\(x,i).10x,x,1) + loop(\(x,i).8x,x,1)))
1: (~1 + (loop(\(x,i).10x,x,1) + loop(\(x,i).4x,x,1)))
1: (~1 + (loop(\(x,i).10x,x,1) + loop(\(x,i).6x,x,1)))
1: ((x + ~1) + loop(\(x,i).10x,x,1))
1: ((x5 + ~1) + loop(\(x,i).8x,x,1))
1: (~1 + (loop(\(x,i).8x,x,1) + loop(\(x,i).3x,2x,1)))
1: (~1 + (loop(\(x,i).8x,x,1) + loop(\(x,i).6x,x,1)))
1: (~1 + (loop(\(x,i).4x,(x div 2),(2 - (x mod 2))) + (2 * (x mod 2))))
1: (~1 + (loop(\(x,i).4x,(x div 2),(2 - (x mod 2))) + (x mod 2)))
1: (~1 + (loop(\(x,i).4x,x,1) + (2 * (x mod 2))))
1: (~1 + (loop(\(x,i).4x,x,1) + (x mod 3)))
1: (~2 + (loop(\(x,i).4x,x,4) + loop(\(x,i).3x,(x + 2),1)))
1: (~7x + loop(\(x,i).6x,(~1 + i),1))
1: (~1 + (loop(\(x,i).6x,x,1) + (2 * (x mod 2))))
1: (~1 + (loop(\(x,i).6x,x,1) + loop(\(x,i).3x,2x,1)))
1: (~1 + (loop(\(x,i).6x,x,1) + loop(\(x,i).4x,x,1)))
1: ((loop(\(x,i).6x,x,2) + loop(\(x,i).8x,x,1)) - loop(\(x,i).4x,x,3))
1: ((x + ~1) + loop(\(x,i).2x2,(x + ~3),1))
1: (~1 + (loop(\(x,i).(x * (i * i)),(x + 1),1) + (2 * (x mod 2))))
1: ((~x + ~1) + (loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),x,1) + loop(\(x,i).(2x + 2),x,1)))
1: ((x2 + 2x + ~1) + loop(\(x,i).2x,(x + ~1),2))
1: ((x + ~1) + loop(\(x,i).2x,(x + ~1),2))
1: (~2 + (loop(\(x,i).2x,(x + ~8),1) + loop(\(x,i).2x,x,2)))
1: (~1 + (loop(\(x,i).2x,(~2 + i),1) + (x * i)))
1: (~3x + loop(\(x,i).2x,(~2 + i),1))
1: (~1 + (loop(\(x,i).2x,(x div 2),2) + (x mod 2)))
1: (~1 + (loop(\(x,i).2x,(x div 2),(2 + (x mod 2))) + loop(\(x,i).2x,(x + ~1),x)))
1: (~1 + (loop(\(x,i).2x,(x div 2),(2 - (x mod 2))) + (2 * (x mod 2))))
1: (8 + loop(\(x,i).2x,x,1) - (x mod 2))
1: (x + loop(\(x,i).2x,x,1) - (x mod 2))
1: ((x2 + ~1) + loop(\(x,i).2x,x,2))
1: (~1 + (loop(\(x,i).2x,x,2) + (x mod 2)))
1: ((x + ~1) + loop(\(x,i).2x,x,2))
1: ((x + ~1) + loop(\(x,i).2x,x,4))
1: ((~x + 1) + loop(\(x,i).2x,i,2x))
1: (~1 + (loop(\(x,i).x2,1,(loop(\(x,i).2x,x,2) - (x mod 2))) + (x mod 2)))
1: ((x + ~1) + loop(\(x,i).x2,2,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))
1: (1 + loop(\(x,i).x2,(x + 2),x) - (x div 2))
1: (2 + loop(\(x,i).x2,x,2) - loop(\(x,i).(2x + 1),x,0))
1: (~1 + (loop(\(x,i).(x * i),(x + ~1),1) + (x mod 2)))
1: ((loop(\(x,i).(x * i),(~1 + i),1) + (x * i)) - (if x <= 0 then 0 else 1))
1: ((x + ~1) + loop(\(x,i).(x * i),x,(x + 2)))
1: (~1 + (loop(\(x,i).(x * i),i,1) + (x * (1 + i))))
1: ((x + ~1) + loop(\(x,i).(x * i),i,1))
1: ((x + ~1) + loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x + ~2),x))
1: ((x + ~1) + loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),i,1))
1: (x + loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) - loop(\(x,i).(2x + 1),x,0))
1: ((2x + ~1) + loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,(3x + 1)))
1: (x + loop(\(x,i).((if x <= 0 then 2 else loop(\(x,i).(x div (2 - (x mod 2))),x,x)) div 2),2,x) - (x mod 2))
1: ((~2x + 1) + loop(\(x,i).(x div (2 - (x mod 2))),x,x2))
1: ((~x + 1) + loop(\(x,i).(if x <= 0 then 1 else (x + (2 * (x div (~1 + (4 * (1 + i))))))),x,x))
1: ((~x + 1) + loop(\(x,i).(if x <= 0 then 1 else (x * ((loop(\(x,i).((x * ((x * loop(\(x,i).((x2 + ~x) div 2),2,(x + 2))) div (x + 1))) div 2),x,2) div 2) div 2))),x,0))
1: (1 + loop(\(x,i).i,((x2 + 2x) mod 6),x) - (x mod 2))
1: (x + (x mod 2) - ((x2 mod (2 + (((x + 1) div 2) div 2))) mod 2))
1: ((x + 1) - ((2 * (2x div 9)) + ((x + 1) div 3)))
1: ((x + ~1) + ((x + 1) div (1 + ((x div 2) div 3))))
1: ((x + ~1) + ((if x <= 0 then 1 else x) mod 11))
1: ((x + 2) - (2 * (1 + (if x <= 0 then 0 else ((x + 1) mod (2 * (1 + ((x + ~2) mod (1 + (x div 5))))))))))
1: ((x + 2) - (2 * ((x + 1) - loop(\(x,i).(x - (x div 8)),6,x))))
1: ((x + 2) - (2 * (loop(\(x,i).((x + 2) + (if x <= 0 then 1 else (2 * loop(\(x,i).(3x + ~6),x,0)))),x,0) div 2)))
1: ((x + 1) + loop(\(x,i).(2 * (x + i)),x,0) - (((x3 + 3x2 + 2x) div 2) div 3))
1: ((x + 1) + (x mod 2) - (if (x2 mod 7) <= 0 then (if x <= 0 then 0 else 3) else 0))
1: ((x + 2) - loop(\(x,i).2x,(1 + ((2 * (1 + ((1 + (((~1 + loop(\(x,i).2x,x,(if (x mod 4) <= 0 then 2 else (x mod 2)))) mod (x + 1)) div 2)) div 2))) div 3)),1))
1: (4x + ~11)
1: ((x + 1) - (2 * (1 + ((1 + ((1 + (((x + (loop(\(x,i).(x + (x div 2)),x,2) div (x + 1))) div 2) div 2)) div 2)) div 2))))
1: ((x + 1) - (2 * (((x + 1) div (~x + 16)) div 4)))
1: ((x + 1) - (2 * (((x + 1) * (x mod 2)) mod 10)))
1: ((x + 1) - (2 * (if x <= 0 then 0 else i)))
1: ((x + 1) - (((x + 2) + (x div (2 + (16 mod (1 + (x div 2)))))) div 3))
1: ((x + 1) - (((x + 2) + (((if x <= 0 then 1 else x) + (x div 2)) mod (1 + (x div 3)))) div 3))
1: ((x + 1) - ((x - (x mod (1 - (2 * (((x + 1) div 2) div 2))))) div 2))
1: ((x + 1) - (((2 - ((x div ~4) * (x div 2))) div 2) div 2))
1: ((x + 1) - (x div (1 + ((x div 2) mod (1 + (x mod (1 + ((~x + 2) mod 4))))))))
1: ((x + 1) - (1 mod ((~x + ((x + 2) mod 6)) div 2)))
1: ((x + 1) - (2 mod (~x + ((~x + 3) div 3))))
1: ((x + 1) - ((x + 1) mod (1 + (if (x mod 2) <= 0 then ((1 + (x mod 8)) mod (x + 1)) else 0))))
1: ((x + 1) - (x mod (2 * (2 - (x div (~4 + (x mod 3)))))))
1: ((x + 1) - (if (x div 2) <= 0 then 2x else (if (x mod 12) <= 0 then 1 else 0)))
1: ((x + 1) - (if ((x + 1) mod (2 + (x mod 4))) <= 0 then 2 else 0))
1: ((x + 1) - (if ((x + 2) mod 5) <= 0 then 4 else 0))
1: ((x + 1) - (if x <= 0 then 2 else (1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x))))
1: ((x + 1) - loop(\(x,i).(2 + (x div (2 + (x mod 3)))),3,2x))
1: ((x + 1) - loop(\(x,i).(1 + (x mod (1 + (i mod (x + 1))))),x,0))
1: ((x + 1) - loop(\(x,i).(x + loop(\(x,i).(x * (i - (x div (if i <= 0 then 1 else i)))),2,i)),x,1))
1: ((x + 1) - loop(\(x,i).(~x + (((x div 2) mod 2) + i)),x,1))
1: ((x + 1) - loop(\(x,i).(((2x + 1) div 3) - (((x2 + ~x) div 2) div (x + 3))),2,x))
1: ((x + 1) - loop(\(x,i).(~9 + (if x <= 0 then 1 else x)),2,x))
1: ((x + 1) - loop(\(x,i).(5x - i),x,0))
1: ((x + 1) - loop(\(x,i).(x - ((x + (if (x mod 3) <= 0 then 2 else 1)) div 4)),2,x))
1: ((x + 1) - loop(\(x,i).(x - (x div 7)),(x div 3),x))
1: ((x + 1) - loop(\(x,i).(x - (x div (~x + 16))),x,x))
1: ((x + 1) - loop(\(x,i).(x - loop(\(x,i).(~1 + (((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3) + (if x <= 0 then 0 else 1))),1,i)),x,1))
1: ((x + 1) - loop(\(x,i).(2x + ~4),(x + ~1),0))
1: ((x + 1) - loop(\(x,i).(2 * (x - ((2 + i) * i))),x,0))
1: ((x + 1) - loop(\(x,i).(2 * (x - (i mod 2))),x,0))
1: ((x + 1) - loop(\(x,i).2x,(x + ~1),2))
1: ((x + 1) - loop(\(x,i).x2,1,(1 + (x mod (1 + (x mod (1 + (x div (2 + (x div 5))))))))))
1: ((x + 1) - loop(\(x,i).(if x <= 0 then 2 else loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then i else 0)),(x div 2),(x + 1))),1,(x div 2)))
1: ((x + 1) - loop(\(x,i).i,(x mod (8 + (x div 4))),1))
1: ((x + 1) - (2 * ((1 + (x mod (2 + (loop(\(x,i).(2 * (x + i)),x,1) mod (x + 1))))) mod (x + 1))))
1: ((x + 3) - ((2 * ((x + 3) + ((x mod (4 - (x mod 2))) + (x div 3)))) div 3))
1: ((x + 3) - ((2 * (1 + ((2 * (x - (if (16 mod (x + 1)) <= 0 then 0 else 1))) div 3))) div 3))
1: ((5x + 6) - ((2x + 4) div 9))
1: ((x + 3) - (((x + ~2) * (x div 2)) div (x + 1)))
1: ((x + 2) + (if x <= 0 then 0 else 1) - (x div ~2))
1: ((x + 3) - (x div ~9))
1: ((x + 3) - (((x * (x div 2)) div 2) mod 2))
1: ((x + 3) - loop(\(x,i).2x,(1 + (x div (3 + ((x div 2) div 3)))),1))
1: ((x + 2) - (3 * ((~x + ~2) + (x mod 8))))
1: ((x + 2) - (5 * (~2x + (x div 2))))
1: ((x + 2) - (3 * (~x + (x mod 2))))
1: ((x + 2) - (4 * (~x + (i mod 2))))
1: ((x + 2) - (((~x + 1) div 3) * ((x + 1) div 3)))
1: ((x + 2) - (3 * ((~x + (x mod 8)) div 2)))
1: ((x + 2) - (3 * ((x - (x div 4)) div 2)))
1: ((x + 2) - (3 * ((x2 + 2x) div ~2)))
1: ((x + 2) - (3 * ((~3x2 + ~8x + ~4) div 2)))
1: ((x + 2) - (2 div (~1 + (x2 div 2))))
1: ((x + 2) - ((1 + (x2 div (4 + (x div 2)))) div 3))
1: ((x + 2) - ((1 - (x div 2)) div 5))
1: ((x + 2) - ((1 - (x div 3)) div 3))
1: ((x + 2) - ((1 - (if (~x + 2) <= 0 then x else 2)) div 3))
1: ((x + 2) - ((1 - (if (~x + 2) <= 0 then x else 2)) div 5))
1: ((x + 2) - ((1 - (if (~2 + (x div 2)) <= 0 then x else (x + 4))) div 5))
1: ((x + 2) - ((~x + 1) div (3 + ((x div 2) mod 3))))
1: ((x + 2) - ((~x + 1) div (4 + (x mod 3))))
1: ((x + 2) - ((~x + 1) div 13))
1: ((x + 2) - ((~x + 1) div (1 + (x div 3))))
1: ((x + 2) - ((~x + 1) div (2 + (if (~2 + (x div 2)) <= 0 then 2 else 1))))
1: ((x + 2) - ((~x + 1) div (1 + loop(\(x,i).2x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),2))))
1: ((x + 2) - ((~x + 1) div (2 - ((x div 2) div ~2))))
1: ((x + 2) - ((~x + 2) div (5 + (x mod 2))))
1: ((x + 2) - ((~x + 2) div (1 + ((if x <= 0 then 2 else x) div 2))))
1: ((x + 2) - ((~x + 2) div (x + 1)))
1: ((x + 2) - ((~x + 2) div (2 - (x div ~2))))
1: ((x + 2) - ((~x + 2) div (2 - (x div ~4))))
1: ((x + 2) - ((~x + 2) div ((x + 1) - (x div 3))))
1: ((x + 2) - (((~x + ~1) + (x div 3)) div 3))
1: ((x + 2) - (((~x + ~1) + ((x + 2) mod ~7)) div 3))
1: ((x + 2) - ((~x + (2 div (x + 1))) div 5))
1: ((x + 2) - ((~x + ((2 - (x div 2)) div 2)) div 3))
1: ((x + 2) - ((~x + (x div 3)) div 3))
1: ((x + 2) - ((~2 + (x div ~3)) div 3))
1: ((x + 2) - ((~x + (if (~2 + (x div 3)) <= 0 then 2 else 0)) div 3))
1: ((x + 2) - ((x - (5 mod (1 + (x div 4)))) div 2))
1: ((x + 2) - (3x div (3 + (x div 2))))
1: ((x + 2) - (((~x + 2) * (x div 2)) div (x + 3)))
1: ((x + 2) - ((~x2 + 2x) div (2x + 3)))
1: ((x + 2) - ((3 * (~x + ((~2x + 2) div 5))) div 2))
1: ((x + 2) - ((2 * (~x + ((x div 3) mod 2))) div 3))
1: ((x + 2) - ((2 * (2x div ~7)) div 3))
1: ((x + 2) - (x2 div (x + 9)))
1: ((x + 2) - (x2 div ((x + 5) + (x div 2))))
1: ((x + 2) - (x2 div ((2x + 3) - (x div 3))))
1: ((x + 2) - (((2 - (x div 2)) div 2) div 2))
1: ((x + 2) - (((~x3 + x) div 2) div 3))
1: ((x + 2) - (((~x2 + x) div 2) div 3))
1: ((x + 2) - (((((2 - (x div 2)) div 2) * (x div 3)) div 2) div 2))
1: ((x + 2) - ((x2 div 2) div 3))
1: ((x + 2) - ((x2 div 3) div (x + 3)))
1: ((x + 2) - ((x div 3) div ~3))
1: ((x + 2) - ((x div 5) div ~2))
1: ((x + 2) - ((x mod (2 + (((x div 2) mod 2) + (x mod 3)))) div 2))
1: ((x + 2) - ((x mod ~4) div 2))
1: ((x + 2) - ((if x <= 0 then 1 else x) div (x + ~18)))
1: ((x + 2) - (x div (~1 - i)))
1: ((x + 2) - (x div (~1 + ((~x + 2) div 3))))
1: ((x + 2) - (x div (~1 + (x div ~2))))
1: ((x + 2) - (x div (~1 + (x div (~1 + ((~x + 1) div 3))))))
1: ((x + 2) - (x div (~1 + (x div (~1 + (x div ~2))))))
1: ((x + 2) - (1 mod (~3x + 7)))
1: ((x + 2) - (2 mod (~1 - (x div 5))))
1: ((x + 2) - ((~x + 4) mod 10))
1: ((x + 2) - ((2x + 1) mod (if (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) <= 0 then (2 + (x div 4)) else 1)))
1: ((x + 2) - ((x + 1) mod 9))
1: ((x + 2) - ((x + 1) mod 13))
1: ((x + 2) - ((x + 1) mod (1 + (2 * (((x2 div 3) mod (x + 1)) div 2)))))
1: ((x + 2) - ((x + 1) mod 11))
1: ((x + 2) - ((x + 1) mod 12))
1: ((x + 2) - ((x + 1) mod 14))
1: ((x + 2) - ((~x + 1) mod (1 + (x div 2) - ((x div 3) mod 2))))
1: ((x + 2) - (((x - ((1 - (x div 2)) mod 5)) div 2) mod 2))
1: ((x + 2) - ((x div 2) mod (1 + (x div 4))))
1: ((x + 2) - ((loop(\(x,i).(x * i),x,x) mod (x + 1)) mod 2))
1: ((x + 2) - (loop(\(x,i).(x2 + 1),2,4) mod (x + 2)))
1: ((x + 2) - (loop(\(x,i).2x2,2,4) mod (x + 1)))
1: ((x + 2) - (x mod 9))
1: ((x + 2) - (x mod 8))
1: ((x + 2) - (if (x + ~1) <= 0 then 1 else ((~x2 + 2x) div 3)))
1: ((x + 2) - (if (x div 4) <= 0 then 1 else ((~x + 2) div 5)))
1: ((x + 2) - (if x <= 0 then 1 else ((x mod 2) - ((1 + (8 mod (1 + (x div 2)))) div 2))))
1: ((x + 2) - (if x <= 0 then 1 else ((~x + (x mod 4)) div 3)))
1: ((x + 2) - (if x <= 0 then 1 else ((x div 4) div ~2)))
1: ((x + 2) - (if x <= 0 then 1 else (x div ~5)))
1: ((x + 2) - (if x <= 0 then 1 else (x div (~2 + ((1 - (x div 2)) div 3)))))
1: ((x + 2) - (if x <= 0 then 1 else (x div ~12)))
1: ((x + 2) - loop(\(x,i).(x + (x mod 4) - i),x,1))
1: ((x + 2) - loop(\(x,i).(2 * (x - i)),((x + ~1) div 2),1))
1: ((x + 2) - loop(\(x,i).2x,(~1 + ((x - ((x2 div 2) div (x + 3))) div 2)),1))
1: ((x + 2) - loop(\(x,i).(2 * i),(x + ~8),1))
1: ((x + 2) - loop(\(x,i).i,(~2 + (2x div 3)),1))
1: ((x + 2) - loop(\(x,i).i,(~2 + (x div 2)),1))
1: ((x + 2) - loop(\(x,i).i,(x + ~9),2))
1: ((x + 2) - loop(\(x,i).i,((~1 + (x div 2)) div 2),1))
1: ((23x + 1) + i)
1: ((19x + 1) + i)
1: (1 + i - (x * i))
1: ((x + 1) + i - ((x div 2) div 3))
1: (x + i - ((2x + 1) div 7))
1: (x + i - ((1 + (x div 2)) div 2))
1: (x + i - ((1 + (x div 3)) div 3))
1: (x + i - ((~x + 2) div 5))
1: (x + i - (((x + ~1) + (x mod 2)) div 5))
1: (x + i - ((x - (x div 3)) div 3))
1: (x + i - (((~x + 2) * (x div 3)) div 2))
1: (x + i - (2x div (2 + (x div 2))))
1: (x + i - ((x div 2) div 3))
1: (x + i - ((x mod (1 + (x div 2))) div 2))
1: (x + i - (x div 3))
1: (x + i - (x div 7))
1: (x + i - (x div 11))
1: (x + i - (x div 8))
1: (x + i - (x div 12))
1: (x + i - ((~1 + i) mod 12))
1: (x + i - ((2x div (2 + (x div 2))) mod 2))
1: (x + i - (x mod 11))
1: (x + i - (if (x - (2 * i)) <= 0 then 0 else 1))
1: (x + i - (if x <= 0 then 1 else 0))
1: ((~x + 1) + compr(\x.(1 - ((2 * ((x + 2) + ((x + (((2 * (~1 + (x div 4))) mod (x + 1)) div 2)) div 2))) mod 3)),x))
1: ((~x + 1) + compr(\x.(1 - ((2 * (1 + ((2 * ((x + 1) + (2 * ((x + ((x div 2) mod 2)) div 2)))) div 3))) mod 3)),x))
1: (~x + compr(\x.(1 - (x mod (1 + ((((2x + 1) mod (2 + (x div 2))) div 2) + (x mod 2))))),x))
1: ((~x + 1) + compr(\x.(~1 + ((1 - (2x2 div (x + 7))) mod 3)),x))
1: ((~x + 1) + compr(\x.(~1 + ((1 - (x div (2 + (x div (2 * (2 - (x mod 2))))))) mod 3)),x))
1: ((~x + 1) + compr(\x.(~1 + ((~x + (x mod (1 + ((x div 2) div 3)))) mod 3)),x))
1: ((~x + 1) + compr(\x.(~1 + ((x - (((x mod 4) - (x div 2)) div 3)) mod 3)),x))
1: ((~x + 1) + compr(\x.(~1 + ((2 * (x + ((x + ((x * (x div 2)) mod 2)) div 3))) mod 3)),x))
1: ((~x + 1) + compr(\x.(~1 + (x3 mod (2 + (x div 4)))),x))
1: ((~x + 1) + compr(\x.(~1 + (2x mod (1 + (x div 4)))),x))
1: ((~x + 2) + compr(\x.((((x + 1) div (2 + (if (~2 + (x div 4)) <= 0 then 1 else 2))) mod 2) - (x mod 2)),x))
1: ((~x + 1) + compr(\x.((((x - ((x - (x mod 3)) div 2)) div 2) mod 2) - (x mod 2)),x))
1: ((~x + 1) + compr(\x.((((x + ~1) mod (1 + (x div 5))) mod 2) - (x mod 2)),x))
1: ((~x + 1) + compr(\x.(~1 + (loop(\(x,i).2x,x,1) mod (1 + (2x mod (2 + (x div 4)))))),x))
1: ((~3x + ~4) + compr(\x.(~1 + loop(\(x,i).(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 1))),2,x)),(x + 1)))
1: (1 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x) - compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x))
1: ((~x + 1) + compr(\x.((x + ~1) mod (1 + ((x mod (2 + (x div 3))) div 2))),x))
1: (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i) - (x div 2))
1: (1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) - (3x div (x + 3)))
1: (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) - ((x + 1) * (1 - (2 * (x mod 2)))))
1: (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) - ((~2x + 2) div (x + 3)))
1: (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) - (x2 div (3x + 4)))
1: (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) - ((x mod (2 + (x div 3))) div 3))
1: (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) - (((((x + 1) div 2) div 2) * (x div 2)) mod 2))
1: (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) - (if (((x + 1) div 2) mod 6) <= 0 then 2 else 1))
1: (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) - compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x))
1: (~1 + (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)))
1: ((~2x + 1) + (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)))
1: ((~x + ~1) + (compr(\x.(x mod ((x + 1) - (x mod 10))),x) + (x mod 10)))
1: (1 + compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(4x + (x div 2))),x))
1: (~2 - ((x + ((x + 1) mod 6)) div 2))
1: (~2 - (x2 mod 3))
1: ((~x + ~2) - ((x div 2) div 7))
1: (~1 - (2 * (x div 5)))
1: (~1 - ((x + 1) * ((~x2 + 2) mod (~1 + ((~2x + 2) mod (4 + (x div 4)))))))
1: (~1 - (2 div (2x + ~1)))
1: (~1 - ((x mod 5) div 2))
1: (~1 - ((x mod (1 + ((~x + 2) mod 4))) div 2))
1: (~2 - (x div (~1 + ((~x + 2) div (2 + ((if x <= 0 then 2 else x) div 2))))))
1: (~x - (4 mod (x + 1)))
1: (~2 - ((x2 + ~x) mod 5))
1: (0 - ((x div 2) + (x mod 4)))
1: (~2 - (x mod (3 - (x mod 2))))
1: (~2 - (i mod 4))
1: (~1 - (if (~x + 4) <= 0 then x else 4))
1: (~1 - (if (2 - (x div 4)) <= 0 then x else 8))
1: (~1 - (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1))
1: (~1 - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x))
1: (~1 - loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x))
1: (~x + ~3)
1: ((~x + ~2) - (x div 4))
1: ((~x + ~2) + (2x mod (4 + (x div 4))))
1: (~x - ((x div 2) mod 2))
1: (~x - loop(\(x,i).(x - (if x <= 0 then 1 else (2 * (1 + i)))),x,2x))
1: (~3 - i)
1: (~x - i)
1: (~2 - (x2 div 3))
1: ((~x + 1) + (3 * (2x + (45 * (if x <= 0 then 0 else 2)))) - (x div 2))
1: ((~x2 + ~2x + 1) - (x mod 2))
1: (0 - (3 * ((~x + ((~x + 2) div 4)) div 2)))
1: ((~x + ~1) - (5 * ((~2x + 2) div 9)))
1: (1 - ((x mod 2) + (2 * (x div (~2 + ((~x + 1) div 2))))))
1: (1 - ((x div 3) + (2 * (if x <= 0 then 1 else (2 * (3x + ((x + ((x div 3) mod 3)) div 3)))))))
1: ((~2x + 1) - (x2 div 4))
1: ((~2x + 1) - (x div 4))
1: ((~2x + 1) - ((x div 2) mod 2))
1: ((~2x + 1) - (x mod ~3))
1: ((~2x + 1) - (if (~2 + i) <= 0 then i else 1))
1: (1 - (((x div 5) mod 2) + ((~x + 2) div (4 + (x mod 2)))))
1: ((~x + 1) - (((x div 2) - (x * (x mod 2))) div 2))
1: (1 - ((x mod 2) + ((2 * (2 + ((~1 + (x2 div (3 + (x div 4)))) div 2))) div 3)))
1: (1 - ((x mod 2) + ((x2 + 2x) div ~11)))
1: (1 - ((x mod 2) + ((((~x + 1) div 3) * (x div 3)) div 2)))
1: (1 - ((x mod 2) + ((((~x + 2) div 2) * (x div 3)) div 3)))
1: (1 - ((x div 15) + ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)))
1: ((~x + 1) - (x2 div ((~x + ~1) + (x div 3))))
1: (1 - ((x div 3) + (x div (~3 + (((2 - (x div 2)) div 2) div 2)))))
1: (0 - (x div (~1 + (x div ~7) - (x mod 3))))
1: (1 - ((x mod 2) + (x div (~2 + (3 * (x div ~4))))))
1: (1 - ((x mod 2) + (2 mod (~4x2 + ~4x + 2))))
1: (1 - ((x mod 2) + ((1 - (x div 4)) mod 3)))
1: (1 - ((x mod 2) + ((if x <= 0 then 1 else (~2 + ((x2 div 4) mod (x + 1)))) mod 3)))
1: ((~x + 1) - (x mod 12))
1: ((~x + 1) - (i mod 3))
1: (~1 - (if x <= 0 then 0 else (1 + ((2 * (1 + ((1 + (((~1 + loop(\(x,i).2x,(x - (x div 8)),2)) mod (x + 1)) div 2)) div 2))) div 3))))
1: (3 - ((if x <= 0 then 1 else x) + loop(\(x,i).(1 + (2 * (2x - i))),x,0)))
1: ((~x + 1) - loop(\(x,i).((x + ~2) + (x div (4 + i))),x,1))
1: ((~x + 1) - (2 * (x + (i mod 2))))
1: ((~x + 1) - (5 * (~2x + (x mod 2))))
1: (~3x2 + ~x + 1)
1: ((~x + 1) - (2 * (x mod 2)))
1: ((~x + 1) - ((x - (x div 5)) div 3))
1: ((~x + 1) - (x2 div 3))
1: ((~x + 1) - ((x2 div 2) div 3))
1: ((~x + 1) - (x div 7))
1: ((~x + 1) - (x mod 8))
1: ((~x + 1) - loop(\(x,i).(2x - (i div 2)),x,0))
1: ((~x + 1) - loop(\(x,i).(2 * ((x + 1) - (2 * i))),x,0))
1: ((~2x + 1) - i)
1: (2 + (3 * (if (x mod 2) <= 0 then (15 * (2 + (if x <= 0 then 0 else 2))) else 1)) - ((if x <= 0 then 1 else 2) + (x mod 2)))
1: ((7x + 2) - (i mod 3))
1: (0 - (x div (~1 - (x div (2 + ((x + 2) mod (1 + (x div 4))))))))
1: (0 - (x div (~2 + (x mod (1 - (2 * ((x div 2) - (x mod 2))))))))
1: (2 - ((x mod 2) + ((1 - (x div 5)) mod 4)))
1: ((~x + 2) - (2x mod 5))
1: (2 - ((x div 5) + ((x div 2) mod 3)))
1: (2 - (((((x + 1) div 2) div 2) mod 2) + ((x div 4) mod 2)))
1: (2 - ((x mod 2) + (((x + ~2) mod (1 + (if x <= 0 then 2 else (x div 3)))) mod 2)))
1: (2 - ((x mod 2) + (x mod (1 + (3 * (2x mod 7))))))
1: (2 - ((x mod 2) + (x mod (1 + (2 * (if (x mod 3) <= 0 then 0 else 2))))))
1: (1 - loop(\(x,i).((x + ~1) + ((2x2 + x) div (1 + i))),x,1))
1: (~x + ~6)
1: ((~x + 2) - (3 * ((~x + ((x div 2) mod 2)) div 2)))
1: ((~x + 2) - (i div 2))
1: ((~x + 2) - (((~x + 2) div 2) mod 4))
1: ((~x + 2) - (if x <= 0 then 1 else 2x))
1: ((~x + 2) - loop(\(x,i).(2 * (x - (i mod 2))),x,0))
1: (0 + (loop(\(x,i).(x - (x div 8)),2,(x + ~1)) + (if x <= 0 then 1 else 4x)) - ((x + 1) div 3))
1: ((2x + ~1) + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (1 + (x mod 2))))),x,(x + 1)) - (x mod 2))
1: (~x + (x div 3) - ((x + 1) mod (1 + ((x + ~1) mod 3))))
1: (~1 + (2 * ((x + 4) - (2 div (1 + (x div 4))))) - (x mod 2))
1: ((x + 15) - (2 div (1 + (x div 2))))
1: ((6x + 5) + (x div 9) - (((x + 1) div 2) div 3))
1: (0 + (2 * (((2x2 + x) div 3) mod 3)) - (x mod 2))
1: (0 + (((x + 1) - (2 * (x mod (x - ((x + ~1) mod 8))))) div 3) - (x mod 2))
1: (0 + ((x + 1) div (if x <= 0 then 1 else (2 * (1 + ((if (x mod (2 + (x mod 2))) <= 0 then 1 else x) mod (1 + (x div 4))))))) - (x mod 2))
1: (0 + ((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3) - (x mod 2))
1: ((3x2 + 12x + 9) + (((x3 + ~x) div 2) div 3))
1: (0 + (x div (1 + ((x + 1) div (1 + ((x div (2 + (x mod (1 + ((x + 1) div (1 + (((2x div (1 + (x div 4))) mod 2) + (x mod 2)))))))) + (x mod 2)))))) - (x mod 2))
1: (0 + (((x + ~2) mod (3 + ((x + (x mod 2)) div 3))) mod 2) - (x mod 2))
1: (0 + (if x <= 0 then 0 else (1 + (x div (3 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))) - (x mod 2))
1: (~x + loop(\(x,i).(1 + (x * i)),(~1 + i),1))
1: (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) - ((x div 7) + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x)))
1: (~4 - (x mod 3))
1: (~4 - (x mod 4))
1: (~3 - ((x + ((x + 1) mod 6)) div 2))
1: ((~x + ~1) - (x div 3))
1: ((~x + ~2) - (x div 3))
1: ((~x + ~2) - (x div 5))
1: ((~x + 1) - ((x mod 3) + (x mod 2)))
1: (~7 + (2 * (x + (x div 3))) - ((x div 2) mod 2))
1: (~2x + 23)
1: (~5 + ((x + 2) mod (2 + (x mod 2))))
1: (~5 + ((x2 div 2) mod 3))
1: (~1 + ((x div 2) mod (1 + (if (x mod 2) <= 0 then 6 else 1))) - ((x mod 2) + (x mod 2)))
1: (~2 + (x mod 2) - (x div 3))
1: (~5 + (x mod ~4))
1: (loop(\(x,i).(6x + 1),x,0) - (loop(\(x,i).2x,x,1) + loop(\(x,i).2x,x,1) + loop(\(x,i).2x,x,1)))
1: (~5 + loop(\(x,i).3x,x,1))
1: (~5 + loop(\(x,i).5x,x,1))
1: (~1 + loop(\(x,i).5x,x,1) - (loop(\(x,i).3x,x,1) + loop(\(x,i).(x2 + x),1,loop(\(x,i).2x,x,1))))
1: (loop(\(x,i).7x,x,1) - (loop(\(x,i).2x,x,1) + loop(\(x,i).5x,x,1) + loop(\(x,i).3x,x,1)))
1: ((~2x + ~5) + loop(\(x,i).4x,x,1))
1: (~1 + loop(\(x,i).6x,x,1) - (loop(\(x,i).2x,x,1) + loop(\(x,i).5x,x,1) + loop(\(x,i).3x,x,1) + loop(\(x,i).4x,x,1)))
1: (~2 + loop(\(x,i).x3,1,(10x + 5)) - loop(\(x,i).2x,(x + ~1),1))
1: (~5 + loop(\(x,i).2x,x,1))
1: ((~x + ~1) + loop(\(x,i).2x,x,1) - (((x3 + ~x) div 2) div 3))
1: ((~x + ~1) + loop(\(x,i).2x,x,2) - loop(\(x,i).(2x + ~1),(x div 2),(x mod 2)))
1: (~2 + loop(\(x,i).2x,x,(1 + (x mod (2 * (1 + (x mod 2)))))) - (x mod 2))
1: (~5 + loop(\(x,i).x2,x,2))
1: ((4x + 3) - ((x - (x div 5)) div 3))
1: ((4x + 3) - (x2 div (4x + 5)))
1: ((4x + 3) - (((x + 1) div 2) div 3))
1: ((4x + 3) - ((((x + 1) div 2) div 2) div 2))
1: ((4x + 3) - (((x + ~1) mod (1 + (x div 4))) div 2))
1: ((4x + 3) - (x div 3))
1: ((4x + 3) - (x div 7))
1: ((~x + ~1) + (2 * ((x + 1) + (((x - (x div ~2)) * (x div 2)) + (x mod 2)))))
1: (~1 + (2 * ((x + 1) + ((2 * (1 + (((x + (2 mod (1 + (x div 2)))) div 2) div 2))) div 3))) - (x div 2))
1: ((6x + 4) - (((x + 1) div 3) + ((2x + 1) div 7)))
1: ((6x + 4) - ((x div 3) + ((2x + 4) div 5)))
1: (x2 + 10x + 12)
1: ((4x + 5) - ((x2 div 3) div (x + 3)))
1: ((2x2 + 5x + ~1) - (((~x3 + x) div 2) div 3))
1: ((~x + ~1) + (2 * ((6x + 6) + (x div 9))))
1: (~1 + (2 * (1 + ((1 + (x div (2 + ((x div 2) mod 2)))) div 2))) - (x div 3))
1: (~1 + (2 * (1 + ((loop(\(x,i).2x,x,2) mod (2 + (x div 4))) div 2))) - (x mod 2))
1: (~1 + (2 * (x + (x div 3))) - ((x div 2) mod 2))
1: ((~x + ~1) + (2 * (x + (1 mod (8 - (x div 2))))))
1: (~1 + (2 * (1 + (x mod (2 + (x div (2 + (if ((x + 1) mod 5) <= 0 then 0 else 2))) - (x mod 2))))) - (x mod 2))
1: (~4 + (11 * (x + (if (~4 + (x div 2)) <= 0 then 1 else 2))))
1: (~1 + (2 * (1 + (if (x mod 3) <= 0 then 0 else (if ((x + 1) mod 5) <= 0 then 2 else 1)))) - (x mod 3))
1: ((2x + 1) - loop(\(x,i).2x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),2))
1: ((2x + 3) - (x2 div 4))
1: ((x2 + 3x + 1) - (x2 div 4))
1: (~2 + (3 * (2 - ((~x + 2) div (x + 2)))) - (x mod 2))
1: ((~x + ~1) + (2 * (~1 + (4 * (2 + (4x2 div (x + 1)))))))
1: ((~x + ~1) + (3 * (2x - ((2x + ~2) div 7))))
1: (x2 + ~10x + 12)
1: (15 - (x div 2))
1: (~x + 39)
1: ((20x + 19) - (((x + 1) div 2) div 2))
1: ((~x + ~1) + (4 * ((2x + 2) + (((x + 1) + (x div 4)) div 2))))
1: (~3 + (6 * (1 + ((if x <= 0 then 2 else ((x + 1) - ((x mod 6) mod (1 + (x div 2))))) div 2))))
1: ((6x + 5) - ((x - (x div 5)) div 3))
1: ((6x + 5) - ((~2x + 2) div 7))
1: ((6x + 5) - ((~2x + 4) div 7))
1: ((6x + 5) - (((x + 1) div 2) div 3))
1: ((6x + 5) - (x div 3))
1: ((6x + 5) - (x div 7))
1: (x3 + 6x2 + 12x + 4)
1: ((x3 + 6x2 + 12x + 7) - ((x2 + x) div 2))
1: (30 - (x mod 2))
1: (~x + 30)
1: ((18x + 17) - (x mod 4))
1: ((64x + 62) - (x div 15))
1: ((~x + ~1) + (6 * ((x + 1) div (if ((x + 1) mod 5) <= 0 then 4 else 1))))
1: (~3 + (6 * ((~3 + loop(\(x,i).(2x + 40),(x + 1),1)) div 2)))
1: (~1 + ((2x + 2) * (if x <= 0 then 1 else (x + 2))) - (((~x3 + x) div 2) div 3))
1: ((~x + ~1) + (4 * loop(\(x,i).(2 * ((x + 1) + i)),x,2)))
1: (4x - ((if x <= 0 then 0 else 1) + (x div 3)))
1: ((4x + ~1) - loop(\(x,i).3x,(~2 + i),1))
1: (6x - ((x div 3) + (x div 2)))
1: ((~x + ~1) + (3 * ((3 + (x2 div 2)) div (x + 2))))
1: ((~x + ~1) + (3 * (((3 * (2 + (x div 2))) div 2) div 2)))
1: ((~x + ~1) + ((2x2 + 4x + 1) * (((x3 + 3x2 + 2x) div 2) div 3)))
1: ((~2x + ~1) + (2 * (loop(\(x,i).((x + ~1) - (3 * ((~2x + 1) div 5))),x,2) div 2)))
1: (((2 * (x div 7)) + ((3 * (x div 4)) div 2)) - ((x mod 2) + ((x + 1) div 2)))
1: (~1 + (2 * ((x + 1) mod 4)) - (x div 3))
1: (~2 + (2 * ((x + ~1) mod (6 + (x div 4)))))
1: ((~x + ~1) + (2 * ((x - ((x div (0 - (2 * (2 + (2x mod 5))))) mod 2)) mod 2)))
1: (~1 + (2 * (((1 + (x div 4)) * (1 + (x mod 2))) mod 5)) - (x mod 2))
1: (~2 + (3 * ((2 * (if x <= 0 then 2 else x)) mod 3)) - (x mod 3))
1: (~1 + (5 * (2x mod 7)) - (x div 2))
1: (~2 + (2 * (x2 mod 19)))
1: (~1 + (2 * (((x + ~2) div (1 + (x mod 3))) mod 2)) - (x mod 2))
1: (~1 + (2 * ((x2 div (x - ((~x + 2) div 2))) mod 2)) - (x mod 2))
1: (~1 + (2 * ((x div 3) mod 2)) - (x mod 3))
1: (~1 + (3 * ((x div 3) mod 2)) - (x mod 2))
1: (~1 + (3 * ((x div 4) mod 2)) - (x mod 4))
1: ((~x + ~1) + (2 * (x mod 2)))
1: (~2 + (x * (x mod 2)) - (x div 4))
1: ((~x + ~1) + (2 * (x mod (x - ((x + ~1) mod 8)))))
1: ((~x + ~1) + (2 * (i mod 2)))
1: (~1 + (2 * (if x <= 0 then 1 else 2x)) - (x div (~2 + ((~x + 2) div 4))))
1: ((~x + ~1) + (2 * loop(\(x,i).(x + loop(\(x,i).(x + loop(\(x,i).3x,(1 + i),i)),i,1)),x,1)))
1: ((~x2 + ~1) + (2 * loop(\(x,i).((x + (i mod 2)) * i),x,1)))
1: ((~x2 + ~2x + ~1) + (2 * loop(\(x,i).2x,x,(~1 + loop(\(x,i).(2 * (x + i)),x,2)))))
1: (2x + ~25)
1: ((2x + ~1) - (3 * ((x - ((~x + 2) div 4)) div 2)))
1: ((2x + ~1) - ((~x + 2) div 2))
1: (2x - ((x div 5) + ((~x + 2) div 4)))
1: (2x - ((x div 2) + ((~2 + (((~x + 2) * (x div 2)) div 2)) div 3)))
1: ((2x + ~1) - ((~x + ((x div 2) mod 4)) div 4))
1: ((2x + ~1) - (x2 div 4))
1: (2x - ((if x <= 0 then 0 else 1) + ((x div 2) div 3)))
1: (2x - (((x div ~2) mod 2) + (x div 4)))
1: ((2x + ~1) - ((x + ~2) mod 8))
1: ((x2 + ~1) - (2 * (2 - (((x + 1) + (if (x mod 2) <= 0 then (1 + (2 * (x - ((1 + (x mod 4)) div 2)))) else 2)) div 2))))
1: ((x2 + ~1) - (((x3 + ~x) div 2) div 3))
1: ((x2 + ~1) - (x div 2))
1: (~1 + (2 * i) - (loop(\(x,i).(2x + 2),x,0) mod (x + 1)))
1: (~x + ((x2 + 1) div 2) - ((3 * (x div 4)) div 2))
1: (((x + 2) div 3) - ((x mod 2) + (x div 4)))
1: (~4 + ((~x + 1) div 2))
1: (~1 + ((~x + 1) div 3) - (x div 5))
1: (~1 + ((~x + 1) div 9) - (x div 3))
1: (~3 + ((~x + (x mod 3)) div 2))
1: ((~x2 + ~1) + ((x + ~1) div 2))
1: (~1 + ((x + ~2) div 3) - (x div 2))
1: ((~x + ~1) + ((2 * ((x + 3) + ((2 * (1 + ((x - ((((~x + 1) div 3) * (1 + (x div 2))) div 2)) div 2))) div 3))) div 3))
1: (~1 + ((2 * (3 + (2 * (x div 4)))) div 3) - (x mod 2))
1: ((~x + ~1) + ((2 * ((x + 2) + loop(\(x,i).(x - ((~1 + ((~x + ((x div 4) mod 2)) div 2)) div 2)),x,1))) div 3))
1: ((~x + ~1) + ((3 * ((10x + 10) + (x div 2))) div 2))
1: (~3 + ((x2 + x) div 2))
1: ((~x + ~1) + ((4 * ((6x + 6) + (x div 4))) div 3))
1: (~3 + ((2 * ((1 + ((x div 2) mod 2)) * (x div 3))) div 2))
1: (~4 + ((x * (x mod 2)) div 2))
1: (~x + (x2 div 3) - (x div 2))
1: ((~x + ~1) + (((2 + ((1 + ((3 * (x + (if (~2 + (x div 4)) <= 0 then 1 else 2))) div 2)) div 2)) div 2) div 2))
1: (~3 + (((2 - (x div 2)) div 2) div 2))
1: ((~4x + ~1) + ((((x + 3) * ((x3 + 5x2 + 8x + 4) div 2)) div 2) div 3))
1: ((~x + ~1) + ((loop(\(x,i).x2,1,(x + 17)) div 2) div 2))
1: ((~x + ~1) + ((loop(\(x,i).x2,1,(x + 27)) div 2) div 2))
1: ((~x + ~1) + ((loop(\(x,i).x2,1,(x + 21)) div 2) div 2))
1: (~4 + ((x div 2) div 3))
1: ((~x + ~1) + ((if (~4 + (x div 2)) <= 0 then 1 else x) div 2))
1: ((~x + ~3) + (loop(\(x,i).(2 + ((x2 + x) div 2)),2,(x + 2)) div 3))
1: ((~2x + ~1) + (loop(\(x,i).(2x + 4),x,(3x + 6)) div 2))
1: ((~x + ~2) + (loop(\(x,i).x2,1,((x + 3) - (x div ~2))) div 2))
1: (~2 + (x div 2) - (x div 3))
1: (~2 + (x div 2) - (x mod 3))
1: (~1 + (x div 2) - (3 * ((~2x + ~2) + (x mod 2))))
1: (~1 + (x div 2) - ((x + 1) div 3))
1: (~1 + (x div 2) - (x div (1 + (2 * (2 + (x mod 2))))))
1: (~2 + (x div 2) - (x mod 4))
1: (~1 + (x div 3) - (2 * (((x + 1) div 2) div 2)))
1: (~1 + (x div 3) - (x mod 2))
1: ((~x + ~1) + (x div 5))
1: (~4 + (x div 7))
1: (~1 + ((x div 9) + (x div 7)) - (x div ~7))
1: (~4 + (x div (2 + (x mod 2))))
1: (~2 + (x div (2 + (x mod 2))) - (x div 2))
1: (~1 + (x div ~2) - (x div 3))
1: (~3 + (x div ~7))
1: (~1 + (x div ~7) - (x mod 3))
1: ((~x + ~2) + (x div ~3))
1: ((~x + ~2) + (x div ~4))
1: ((~x + ~2) + (x div 8))
1: (~1 + ((1 + (x div 2) - ((~x + 2) div (2 + (x div 2)))) mod 2) - (x mod 2))
1: (~4 + ((2 + ((x + 1) * (2 - (x mod 2)))) mod 10))
1: ((~x + ~1) + ((x + ((x div 2) div 3)) mod 3))
1: (~1 + ((1 + (x div 2)) mod 4) - (x mod 2))
1: (~4 + ((x + 1) mod ~7))
1: (~4 + ((x + 2) mod 4))
1: (~4 + ((x + 2) mod (2 + (x mod 2))))
1: ((~x + ~1) + ((x + 2) mod ~7))
1: (~1 + ((x - (((x + 1) div 2) div 3)) mod 2) - (x mod 2))
1: ((~x + ~1) + ((x - (x div 3)) mod 3))
1: (~1 + ((~2x + 2) mod (4 + (x div 4))) - ((x div (2 + (x mod 2))) mod 3))
1: (~3 + (2x mod (4 + (x div 2))))
1: (~4 + (x2 mod (2 + (x div 2))))
1: ((~x + ~1) + (x2 mod (x - ((~x + 2) div 2))))
1: (~1 + (((x + (x div 2)) div 2) mod 2) - (x mod 2))
1: (~1 + (((~x + 2) div 2) mod 4) - (x mod 2))
1: (~3 + (((~1 + (x div 2)) div 2) mod 2))
1: ((~x + ~2) + (((x + ~1) div 2) mod 2))
1: (~4 + (((x + ~1) div 3) mod 2))
1: (~4 + ((x2 div 2) mod 3))
1: (~1 + ((x div 2) mod 2) - (x mod 2))
1: ((~x + ~1) + ((x div 2) mod 2))
1: ((~x + ~2) + ((x div 2) mod 2))
1: (~4 + ((x div 2) mod 3))
1: ((~x + ~2) + ((x div 2) mod 4))
1: (~1 + ((x div 2) mod (1 + (if (x mod 2) <= 0 then 6 else 1))) - (x mod 2))
1: (~3 + ((x div 3) mod 2))
1: ((~x + ~2) + ((x div 3) mod 3))
1: ((~x + ~2) + ((x div 4) mod 2))
1: (~2 + (((2 + (x div 2)) mod 5) mod 2) - (x div 2))
1: (~1 + ((loop(\(x,i).2x,x,1) mod (1 + (4 * (x mod 4)))) mod 3) - (x mod 2))
1: (~1 + (loop(\(x,i).4x,x,1) mod 13) - (2 * (x mod 2)))
1: (~1 + (x mod 2) - (x div 3))
1: (~1 + (x mod 2) - (2 * (((x div 2) - (x * (x mod 2))) div 2)))
1: ((x mod 2) - ((x div 9) + ((x div 2) div ~2)))
1: (~2 + (x mod 2) - (x div 2))
1: (~1 + (x mod 2) - ((~x + 1) mod 3))
1: (~1 + (x mod 2) - (if (x mod 3) <= 0 then 2 else 1))
1: (~1 + (x mod 2) - (if (x mod (1 + (2 * (x div (2 * (2 + (x mod 2))))))) <= 0 then 1 else 2))
1: (~1 + (x mod 2) - (if (x mod (2 + (4 mod (x + 2)))) <= 0 then 0 else 2))
1: (~1 + (x mod 2) - loop(\(x,i).2x,x,3))
1: (~3 + (x mod 3))
1: ((~x + ~1) + (x mod 3))
1: ((~x + ~3) + (x mod 3))
1: (~1 + (x mod 4) - (x mod 5))
1: ((~x + ~4) + (x mod 4))
1: (~1 + ((x mod 4) + (x div 2)) - (x * (x mod 2)))
1: (~1 + (x mod 4) - (~x mod 4))
1: ((~x + ~1) + (x mod 9))
1: (~3 + (x mod (2 + (x mod 2))))
1: ((~x + ~2) + (x mod (2 + (x mod 3))))
1: (~4 + (x mod ~2))
1: (~3 + (x mod ~3))
1: (~3 + (x mod ~4))
1: (~4 + (x mod ~4))
1: ((~x + ~2) + (x mod ~4))
1: ((~x + ~1) + (x mod (~2 + ((x div 2) mod 2))))
1: (~1 + (x mod 6) - (x mod 5))
1: ((~x + ~2) + (x mod 8))
1: (~x + (x mod 8) - (x div 4))
1: (~1 + (x mod 10) - (x div 9))
1: ((~x + ~1) + (x mod 10))
1: ((~8x + ~1) + (i mod 2))
1: ((~4x + ~1) + (i mod 2))
1: ((~6x + ~1) + (i mod 2))
1: (~2x + (i mod 2) - (x mod 3))
1: ((~x + ~1) + (if (~2 + (x div 4)) <= 0 then 0 else 2))
1: (~1 + (if (~1 + (x mod 3)) <= 0 then x else 2) - (x mod 2))
1: ((if ((x * (x mod 3)) mod 5) <= 0 then 0 else 2) - ((if x <= 0 then 0 else 1) + (x mod 2)))
1: (~1 + (if ((x div 2) mod 2) <= 0 then 2 else (x mod 2)) - ((x mod 3) div 2))
1: (~1 + (if ((x div 2) mod 3) <= 0 then 2 else 0) - (x div 3))
1: ((if x <= 0 then 1 else 2) - ((x mod 2) + ((1 + (8 mod (1 + (x div 2)))) div 2)))
1: (~1 + (if x <= 0 then 1 else (2 * (1 + ((1 + ((~7 + (x div 2)) mod (1 + (x div 2)))) div 2)))) - (x mod 2))
1: ((if x <= 0 then 1 else 4x) - (((1 + (x div 2)) div 3) + ((~2x + 4) div 9)))
1: (~x + (if x <= 0 then 1 else 4x) - ((2x + ~4) div (2 - ((~x + 1) div 3))))
1: ((if x <= 0 then 1 else 6x) - (((x + 1) div 3) + (((x + 1) + (2 * ((x + ((x div 2) mod 2)) div 2))) div 3)))
1: ((if x <= 0 then 1 else 6x) - (((x + 1) div 3) + ((x + ((x - ((1 - (x div 2)) div 3)) mod 3)) div 3)))
1: ((if x <= 0 then 1 else 6x) - (((x + 1) div 3) + ((2 * (x + (((x div 2) div 3) mod 2))) div 3)))
1: (~1 + (if x <= 0 then 1 else 6x) - ((~2x + 4) div 7))
1: (~25 + (if x <= 0 then 2 else 0))
1: (~3 + (if x <= 0 then 2 else ((1 + (x3 div (x + 3))) mod 3)))
1: ((~x + ~1) + loop(\(x,i).((x + 2) + ((x + (x div 3)) div (1 + i))),x,1))
1: ((~x + ~1) + loop(\(x,i).((x + 1) + ((x div (3 + ((x div 2) div 3))) mod 2)),x,1))
1: (loop(\(x,i).(6x + 1),x,0) - (loop(\(x,i).2x,x,1) + loop(\(x,i).2x,x,1)))
1: (~x + loop(\(x,i).(1 + (x * i)),4,2) - (x div 2))
1: ((~x + ~1) + loop(\(x,i).(x + ((3x + 4) div (2 + i))),x,1))
1: ((~x + ~2) + loop(\(x,i).(x + (7x div (1 + i))),x,8))
1: ((~x + ~2) + loop(\(x,i).(1 + ((x2 + x) div 2)),2,x))
1: ((~x + ~1) + loop(\(x,i).(x + (6x div (if i <= 0 then 1 else i))),x,1))
1: ((~x + ~1) + loop(\(x,i).(x + loop(\(x,i).(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1,i)),x,1))
1: ((~x + ~1) + loop(\(x,i).(x + loop(\(x,i).(x - (x div (3 + i))),x,(x + 1))),x,2))
1: (~3 + loop(\(x,i).(~x2 + 1),2,(x + 2)))
1: (~1 + loop(\(x,i).(10x + ~1),(2x + 1),1) - loop(\(x,i).10x,x,1))
1: (~1 + loop(\(x,i).(10x + ~1),(2x + 1),1) - loop(\(x,i).10x,x,2))
1: ((~x2 + ~1) + loop(\(x,i).(x - i),x,loop(\(x,i).3x,x,1)))
1: (~5x + loop(\(x,i).3x,(2 * i),1))
1: (~1 + loop(\(x,i).3x,x,1) - (2 * (x mod 2)))
1: (loop(\(x,i).3x,x,1) - (loop(\(x,i).2x,x,1) + loop(\(x,i).7x,x,1)))
1: (~3x + loop(\(x,i).3x,x,1))
1: (~1 + loop(\(x,i).3x,x,4) - loop(\(x,i).(2x + 4),x,0))
1: (~x + loop(\(x,i).3x,x,x) - loop(\(x,i).2x,x,x))
1: ((~x + ~1) + loop(\(x,i).3x,i,1))
1: (~4 + loop(\(x,i).5x,x,1))
1: (~2x + loop(\(x,i).5x,x,1) - loop(\(x,i).3x,x,1))
1: (loop(\(x,i).5x,x,1) - (loop(\(x,i).(2x + 1),x,0) + loop(\(x,i).3x,x,1)))
1: (loop(\(x,i).5x,x,1) - (loop(\(x,i).4x,x,1) + loop(\(x,i).3x,x,1)))
1: (loop(\(x,i).5x,x,1) - (loop(\(x,i).2x,x,1) + loop(\(x,i).3x,x,1)))
1: (loop(\(x,i).5x,x,1) - (loop(\(x,i).2x,x,2) + loop(\(x,i).3x,x,1)))
1: (loop(\(x,i).5x,x,1) - (loop(\(x,i).2x,x,1) + loop(\(x,i).7x,x,1)))
1: (~5x + loop(\(x,i).5x,x,1))
1: (~2x + loop(\(x,i).7x,x,1) - loop(\(x,i).5x,x,1))
1: (loop(\(x,i).7x,x,1) - (loop(\(x,i).(3x + 2),x,0) + loop(\(x,i).4x,x,1)))
1: (~7x + loop(\(x,i).7x,x,1))
1: (~3 + loop(\(x,i).(2x + 16),(x + 1),1))
1: (~4 + loop(\(x,i).(2x + 16),(x + 1),1))
1: (~3 + loop(\(x,i).(10x + 4),(x + 1),1))
1: (~4 + loop(\(x,i).(10x + 15),(x + 1),0))
1: (~3 + loop(\(x,i).(2x + 40),(x + 1),1))
1: (~4 + loop(\(x,i).(10x + 5),(x + 1),1))
1: ((~x + ~1) + loop(\(x,i).(2 * (x + loop(\(x,i).3x,i,1))),x,2))
1: (~1 + loop(\(x,i).(2x + 2),x,2) - (if (x + ~2) <= 0 then x else 3))
1: (~3 + loop(\(x,i).(2x + 4),compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),0))
1: ((~x + ~1) + loop(\(x,i).(x * (2 + i)),2x,1))
1: ((~x + ~1) + loop(\(x,i).(2 * (x + i)),x,0))
1: (~1 + loop(\(x,i).(10x + ~5),(2x + 1),1) - loop(\(x,i).10x,x,1))
1: ((~x + ~1) + loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,2))
1: (~1 + loop(\(x,i).(x2 + ~x),1,loop(\(x,i).2x,x,1)) - loop(\(x,i).3x,x,1))
1: (~3 + loop(\(x,i).(x2 + ~2x),1,loop(\(x,i).2x,x,2)))
1: (~4 + loop(\(x,i).(x2 + ~2x),1,loop(\(x,i).2x,x,2)))
1: (~1 + loop(\(x,i).(2 * (x - (i mod 2))),x,2) - (x mod 2))
1: (~3 + loop(\(x,i).(8x + 8),(x + 1),1))
1: (~2 + loop(\(x,i).10x,(x + 1),1) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: (loop(\(x,i).10x,((x + 1) div 2),1) - ((x mod 2) + (if x <= 0 then 0 else 1)))
1: (~1 + loop(\(x,i).(2x * (~1 + (2 * i))),x,3) - (x div 2))
1: (~1 + loop(\(x,i).(4 * (x - (i mod 2))),x,2) - (x mod 2))
1: ((~x + ~1) + loop(\(x,i).32x,i,2))
1: (~5x + loop(\(x,i).4x,(~1 + i),1))
1: ((~2x + ~4) + loop(\(x,i).4x,x,1))
1: (~4 + loop(\(x,i).4x,x,1))
1: ((~3x + 1) + loop(\(x,i).4x,x,1))
1: (~1 + loop(\(x,i).4x,x,2) - (if (x + ~1) <= 0 then x else 0))
1: ((~x + ~2) + loop(\(x,i).4x,x,2))
1: (~3x + loop(\(x,i).4x,i,1))
1: (loop(\(x,i).6x,x,1) - (loop(\(x,i).2x,x,1) + loop(\(x,i).5x,x,1) + loop(\(x,i).3x,x,1) + loop(\(x,i).4x,x,1)))
1: (~1 + loop(\(x,i).2x2,x,1) - loop(\(x,i).2x,x,1))
1: (~2 + loop(\(x,i).x3,1,(10x + 5)))
1: ((~2x + ~1) + loop(\(x,i).x3,(x2 + 1),2))
1: ((~x + ~3) + loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(1 + (x div 2)),(1 + (x mod 2))))
1: ((~x + ~2) + loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(x + 1),1))
1: ((~x2 + ~1) + loop(\(x,i).2x,(x + ~1),(x + 2)))
1: (~1 + loop(\(x,i).2x,(x div 2),2) - (x mod 2))
1: (~1 + loop(\(x,i).2x,(if (~x + 2) <= 0 then x else 0),2) - (if (x + ~2) <= 0 then x else 1))
1: ((~2x + ~1) + loop(\(x,i).2x,(if (loop(\(x,i).2x2,2x,2) div 2) <= 0 then 1 else (4x + 1)),2))
1: (~1 + loop(\(x,i).2x,(if (x mod 2) <= 0 then x else (~x + 2)),2) - (x mod 2))
1: (~3 + loop(\(x,i).2x,x,1))
1: (~4 + loop(\(x,i).2x,x,1))
1: ((~x + ~1) + (loop(\(x,i).2x,x,1) + ((x + 1) mod 8)))
1: (~9 + loop(\(x,i).2x,x,1))
1: (~1 + loop(\(x,i).2x,x,1) - (2 * (x mod 2)))
1: ((~x2 + ~2) + loop(\(x,i).2x,x,1))
1: (~1 + loop(\(x,i).2x,x,1) - ((x + (x div 2)) div 5))
1: (~x + loop(\(x,i).2x,x,1) - (loop(\(x,i).(2 + ((x2 + x) div 2)),2,(x + ~1)) div 3))
1: (~1 + loop(\(x,i).2x,x,1) - (loop(\(x,i).2x,x,1) div 33))
1: (~1 + loop(\(x,i).2x,x,1) - (x div 2))
1: (~1 + loop(\(x,i).2x,x,1) - ((x + (if (x mod 2) <= 0 then x else 2)) mod 3))
1: (~1 + loop(\(x,i).2x,x,1) - (x mod 2))
1: (~1 + loop(\(x,i).2x,x,1) - (if x <= 0 then 0 else (~1 + ((x * (~1 + (x mod 3))) div 2))))
1: (~1 + loop(\(x,i).2x,x,1) - loop(\(x,i).2x,(x div 2),(x mod 2)))
1: (~x + loop(\(x,i).2x,x,1) - (((x3 + ~x) div 2) div 3))
1: (~x + loop(\(x,i).2x,x,1) - (((x3 + ~3x2 + 2x) div 2) div 3))
1: (~2 + loop(\(x,i).2x,x,1) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: ((~x2 + 2x + ~1) + loop(\(x,i).2x,x,2))
1: (~2 + loop(\(x,i).2x,x,2) - (x mod 2))
1: (~x + loop(\(x,i).2x,x,2) - loop(\(x,i).(2x + ~1),(x div 2),(x mod 2)))
1: (~2 + loop(\(x,i).2x,x,2) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: (~1 + loop(\(x,i).2x,x,(~1 + loop(\(x,i).2x,x,2))) - (1 div (2x + ~1)))
1: (~3 + loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: ((~x2 + ~2x + ~1) + loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: ((~x + ~1) + loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (~2 + loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) - compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))
1: ((~x + ~1) + loop(\(x,i).x2,1,(12x + 12)))
1: ((~x2 + ~x + ~1) + loop(\(x,i).x2,2,(x + 2)))
1: (~4 + loop(\(x,i).x2,x,2))
1: ((~x2 + 2x + ~1) + loop(\(x,i).(x * i),x,(x + 1)))
1: (~2 + loop(\(x,i).(x * i),x,(x + 1)) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: (~2 + loop(\(x,i).((x2 + 5x) div 2),1,loop(\(x,i).2x,x,1)) - loop(\(x,i).(3x + 1),x,1))
1: ((~x + ~1) + loop(\(x,i).((x2 + 3x + 2) div 2),2,x))
1: ((~x2 + ~2x + ~2) + loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x + 1),1))
1: ((~x + ~1) + loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,2))
1: (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) - ((x div 2) + (x * (x mod 2))))
1: (~2 + loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) - (x mod 4))
1: (~4 + loop(\(x,i).loop(\(x,i).2x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),2),2,(x + 1)))
1: (~1 + loop(\(x,i).loop(\(x,i).(x * i),(x * i),1),x,1) - loop(\(x,i).(x * i),x,1))
1: (~x + loop(\(x,i).loop(\(x,i).(x * i),(x * i),1),x,1) - loop(\(x,i).(x * i),x,1))
1: (~2 + loop(\(x,i).loop(\(x,i).(((x + i) * i) div (x + 1)),x,i),x,2))
1: ((x + ~4) + ((x + 8) div (~1 + ((~x + 1) div 2))))
1: (x + ~14)
1: ((x + 4) - ((x div 3) + ((~x + 2) div (x + 2))))
1: ((x + 1) - (2 * (x mod (1 + (((x div (3 + (x div 3))) mod 2) + (x div 2))))))
1: ((x + 1) - ((x div 3) + ((~x2 + 1) div (x + 4))))
1: ((x + 1) - ((x mod 2) + ((~x2 + (x div 2)) div (x + 2))))
1: (x + (if x <= 0 then 1 else 4x) - (((x + 1) div 3) + ((~x + (((x div 2) div 3) mod 2)) div 2)))
1: (7x - ((x div 3) + (x div 2)))
1: ((x + 11) - (x div ~11))
1: (x - ((x div 5) + ((~x + 4) * (x div 4))))
1: ((x + ~1) - ((2 + ((x + ~1) mod 3)) * (1 + (x div 2))))
1: (x - ((((x + 1) div 2) div 3) + (5 * ((~x + ~2) + (x mod 2)))))
1: ((x + ~1) - (3 * (~x + ((~1 + (x div 2)) div 2))))
1: ((x + ~1) - (2 * (~x + ((x + ~1) div 5))))
1: ((x + ~1) - (3 * (~2 + ((x - (x div 4)) div 2))))
1: ((x + ~2) - (3 * ((~2x + ~4) + ((~2x + 2) div 5))))
1: ((x + ~1) - (2 * (~x + ((2 * (~2 + (x div 2))) div 5))))
1: ((x + ~1) - (2 * (~x + ((((x + ~1) div 2) div 2) div 2))))
1: ((x + ~1) - (3 * ((~4x + ~2) + (x div 2))))
1: ((x + ~1) - (3 * (~x + ((x + ~1) mod 3))))
1: ((x + ~1) - (3 * (~x + (x mod 4))))
1: ((x + ~1) - (4 * ((~x + ~2) + (x mod 2))))
1: ((x + ~1) - (9 * ((~x + ~2) + (x mod 2))))
1: ((x + ~2) - (4 * ((~4x + ~4) + (x div 2))))
1: ((x + ~1) - (4 * (~2x + (x div 2))))
1: (29x + ~1)
1: (~11x + ~2)
1: ((x + ~1) - (4 * (x div 5)))
1: (~3x2 + x + ~1)
1: ((x + ~1) - (3 * ((~2x + 1) div 5)))
1: ((x + ~1) - (2 * ((~x + 2) div 8)))
1: ((x + ~1) - (2 * ((~x + ((x div 4) mod 2)) div 2)))
1: (x - ((if x <= 0 then 0 else 1) + (2 * ((~x2 + 2x) div 8))))
1: ((x + ~1) - (2 * (x2 div (x - ((~x + 2) div 2)))))
1: ((x + ~1) - (2 * ((((x + 1) div 2) div 2) div 2)))
1: ((x + ~1) - ((x + 1) * loop(\(x,i).(~4x2 + 1),2,2)))
1: ((x + ~1) - ((x + 1) * loop(\(x,i).(~x2 + 1),2,4)))
1: ((x + ~1) - ((x + 1) * loop(\(x,i).(~x2 + ~2x),2,4)))
1: ((x + ~1) - ((x + 1) * loop(\(x,i).(x * (~x + i)),2,4)))
1: ((x + ~1) - ((x + 1) * loop(\(x,i).(x * (~x + i)),2,6)))
1: (0 - ((0 - loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,1)) div 5))
1: (0 - ((2 - (((x + 2) * (~1 + ((if (x mod 2) <= 0 then 2 else x) mod 4))) div 2)) div 2))
1: ((x + ~2) - ((~x + 2) div 2))
1: ((x + ~2) - ((~x + 2) div 4))
1: (x - ((x div 3) + ((~1 + ((x + ~1) div 3)) div 3)))
1: ((x + ~1) - ((4x + 4) div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))
1: ((x + ~1) - ((x * (1 - (x * (1 + (2 * i))))) div 2))
1: ((x + ~3) - (2x div (~2 + (x div ~4))))
1: (0 - (((((~x + (x div (2 + (x mod 2)))) * (x div 4)) div 2) div 2) div 2))
1: (x - ((x div 11) + (x div 3)))
1: (x - ((2 mod (1 + (x div 4))) + (x div 3)))
1: (x - ((x div 9) + (x div 4)))
1: (x - ((x div 3) + (x div ~2)))
1: ((x + ~1) - (x div ~7))
1: ((x + ~1) - ((x div 3) mod 3))
1: (x - ((x mod ~4) + (x mod 4)))
1: (x - (((x div 2) mod 2) + (if (~2 + (x div 2)) <= 0 then 0 else 1)))
1: ((x + ~1) - (if (i mod 2) <= 0 then 2 else ~2))
1: (0 - (if x <= 0 then 0 else loop(\(x,i).(~1 + loop(\(x,i).(x div (2 - ((x * (x div 2)) mod 2))),x,x)),x,(x + 1))))
1: (0 - (if x <= 0 then 1 else (if (~x + 2) <= 0 then (1 - (2 * ((x mod (1 + (((x + 1) div 2) div 2))) mod 2))) else 0)))
1: ((x + ~1) - (if x <= 0 then 1 else i))
1: (~x - loop(\(x,i).(x - (if (x + ~7) <= 0 then (2 + i) else 1)),x,x))
1: (0 - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + (if (x + ~1) <= 0 then x else i)))),x,(x + ~1)))
1: (~1 + i - ((1 + (x div 4)) div 2))
1: (~1 + i - (2 * (1 - (2 * i))))
1: (~x + i - loop(\(x,i).3x,i,1))
1: ((~x + ~1) + compr(\x.(1 - (x mod (1 + (((x mod (~1 + (2 * ((x + ~1) div 3)))) div 2) + (x mod 2))))),x))
1: (~3 + compr(\x.((x + ((x div 2) div 7)) mod 4),(x + 1)))
1: ((~3x + ~1) + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x))
1: (~1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) - compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))
1: (~1 + compr(\x.loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,2x),(x + 1)) - (x mod 2))
1: ((~x + 6) + (2 * (((x + 1) div 3) - ((1 - (x div 3)) div 3))))
1: (6 - ((1 + (if ((x + 1) mod 5) <= 0 then 2 else 0)) * (1 + (x mod 2))))
1: (6 - (x * (x mod 2)))
1: (6 - ((~x + 1) div (1 + (x div 3))))
1: (6 - ((x + ~1) div 3))
1: (6 - (x div 5))
1: (6 - (x mod (2 + (x mod 3))))
1: (6 - i)
1: ((3x + 4) - (x div 2))
1: ((3x + 1) - ((2x + 1) div 7))
1: ((3x + 1) - ((x + (x div 2)) div 4))
1: ((3x + 1) - ((~x + 1) div 3))
1: ((3x + 1) - ((~x + 1) div 7))
1: ((3x + 1) - ((~x + 2) div 4))
1: ((3x + 1) - ((~x + ((x + ~2) div 3)) div 3))
1: ((3x + 1) - ((x - (x div 5)) div 3))
1: ((3x + 1) - ((2x + 4) div 7))
1: ((3x + 1) - ((~2x + 2) div 9))
1: ((3x + 1) - ((~2x + 4) div 7))
1: ((3x + 1) - ((2x + ~4) div 7))
1: ((3x + 1) - (2x div 5))
1: ((3x + 1) - (2x div 7))
1: ((3x + 1) - (((x - ((2 - (x div 4)) div 2)) div 2) div 2))
1: ((3x + 1) - (x div 3))
1: (3x + (2x mod 3) - (x div 3))
1: (3x + (if (~2 + (x div 3)) <= 0 then 1 else 0) - (x div 5))
1: ((3x + 1) - (x div ~4))
1: ((3x + 1) - ((x div 3) mod 2))
1: ((3x + 1) - ((x mod (2 - (x mod (~1 - (x div 4))))) mod 2))
1: ((3x + 1) - (x mod 12))
1: ((3x + 1) - (x mod 14))
1: (3x - ((x + 4) div ~7))
1: (3x - ((~x + 3) div 7))
1: (3x - ((1 + ((x - ((x div 4) mod 2)) div 2)) div 2))
1: (3x - ((1 + (x div 3)) div 2))
1: (3x - ((x + ((1 - (x div 2)) mod 4)) div 4))
1: (3x - ((x + ((x div 2) mod 4)) div 4))
1: (3x - ((x + ((x div 2) mod 5)) div 5))
1: (3x - ((x + ((x div 3) mod 3)) div 3))
1: (3x - ((1 + (if (~2 + (x div 2)) <= 0 then x else (x + 4))) div 3))
1: (3x - ((1 + (if (~2 + (x div 2)) <= 0 then x else (x + 2))) div 3))
1: (3x - ((1 + (if (x mod 3) <= 0 then 0 else x)) div 3))
1: (3x - ((x + 1) div (2 * (2 + (x div (1 + (x mod 4)))))))
1: (3x - ((x + 2) div 5))
1: (3x - ((1 - (x div 2)) div 3))
1: (3x - ((~x + 1) div 5))
1: (3x - ((~x + 1) div (2 + (x div 4))))
1: (3x - (((~x + 1) - (x div 2)) div 5))
1: (3x - ((~x + (x mod 2) - (x div 3)) div 3))
1: (3x - (((x + ~2) - (x2 div 4)) div 3))
1: (3x - ((~1 + (x div 3)) div 2))
1: (3x - ((~2 + (if (x + ~2) <= 0 then 0 else x)) div 3))
1: (3x - ((x + ~1) div 5))
1: (3x - ((x + ~4) div 7))
1: (3x - ((x - ((x + (x div 3)) div 3)) div 2))
1: (3x - ((x - ((~x + 2) div 2)) div 5))
1: (3x - ((2x + 2) div 5))
1: (3x - ((2x + 4) div 9))
1: (3x - ((~2x + 2) div 13))
1: (3x - ((2x + ~4) div 7))
1: (3x - ((x mod 4) div ~2))
1: (3x - ((if x <= 0 then 1 else x) div ~7))
1: (3x - (x div (4 + (x div 4))))
1: (3x - (x div ~7))
1: (3x - (x div ~6))
1: (3x - (x div (if (x mod 4) <= 0 then 4 else 1)))
1: (3x - (1 mod loop(\(x,i).x2,x,2)))
1: (3x - (2 mod (~1 + (x div ~7))))
1: (3x - ((x + ((4 * (x div 3)) div 3)) mod 3))
1: (3x - (~x mod 4))
1: (3x - (2x mod 21))
1: (3x - (x mod 5))
1: (3x - (x mod (~3 + (x mod 2))))
1: (3x - (if (x mod 5) <= 0 then 0 else 2))
1: (8 + (2 * ((x div 4) mod 2)) - (x div 2))
1: (8 - (x div (1 + (x mod 8))))
1: (8 - (x div ~2))
1: (8 - ((x div 2) mod 2))
1: (8 - (x mod 3))
1: (8 - (if (~2 + (x div 3)) <= 0 then x else 0))
1: (8 - (if x <= 0 then 0 else 1))
1: (8 - loop(\(x,i).(2x + ~1),x,0))
1: (8 - loop(\(x,i).(4x + ~4),x,1))
1: (8 - loop(\(x,i).(10x + ~10),x,0))
1: (11 - i)
1: (12 - ((x + 1) div 2))
1: (12 - (2x div (2 + (x div 2))))
1: (12 - (x div (1 + (x mod 12))))
1: (12 - (x mod 2))
1: (12 - (x mod 3))
1: (12 - (if (x + ~2) <= 0 then x else 1))
1: (12 - (if ((x + 2) mod 12) <= 0 then 2 else 1))
1: (12 - loop(\(x,i).(2x + ~1),x,0))
1: ((4x + 3) - ((x * (x div 2)) mod 3))
1: ((4x + 4) - ((x2 + ~1) div (x + 3)))
1: ((4x + 4) - ((x - (x div 5)) div 3))
1: ((4x + 4) - ((x - (x div ~6)) div 2))
1: ((4x + 4) - ((2 * (~x + (x div 9))) div 3))
1: ((4x + 4) - (x2 div (4x + 5)))
1: ((4x + 4) - (((x + 1) div 2) div 3))
1: ((4x + 4) - ((((x + 1) div 2) div 2) div 2))
1: ((4x + 4) - (((x + ~1) mod (1 + (x div 4))) div 2))
1: ((4x + 4) - (x div 3))
1: ((4x + 4) - (x div 7))
1: ((4x + 4) - ((x + (x div 4)) mod 4))
1: ((4x + 4) - (((~x + 2) + (x div 4)) mod 4))
1: ((4x + 4) - (((2x mod (2 + (x div 2))) div ~2) mod 2))
1: ((4x + 4) - (x mod 2))
1: ((4x + 4) - (x mod (1 + ((x + (x div 4)) div 2))))
1: ((4x + 4) - (if (x mod 8) <= 0 then (if x <= 0 then 1 else 2) else 1))
1: (9 - (2x mod (2 + ((x div 2) mod 3))))
1: (10 - (x mod 2))
1: (10 - (x mod 3))
1: ((5x + 5) - (x div 15))
1: ((5 * (x mod 2)) - (x div 2))
1: ((5x + 1) - ((~1 + (x div 3)) div 2))
1: (5x - (i * i))
1: (5x - ((x + 1) div 5))
1: (5x - ((x + 2) div 5))
1: (5x - ((~x + 2) div 5))
1: (5x - ((~x + 2) div (4 + (x mod 2))))
1: (5x - ((2x + 2) div (2 + (x div 2))))
1: (5x - ((~x2 + 2x + ~1) div loop(\(x,i).x2,2,3)))
1: (5x - (2x mod 5))
1: (5x - (loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (3x + ~1)),3,x) mod 3))
1: (5x - loop(\(x,i).~x,(x div 2),(x - (if x <= 0 then 1 else (x div (2 - (x mod 2)))))))
1: (~1 + (5 * i))
1: (~1 + (2 * (9 + (loop(\(x,i).2x,(x div 2),(2 + (x mod 2))) + loop(\(x,i).2x,x,2)))))
1: (~1 + (3 * (7 + ((x div 7) mod 2))))
1: (~x + (2 * ((x + 1) + (((x - (x div ~2)) * (x div 2)) + (x mod 2)))))
1: (~2 + (3 * ((2x + 1) + (2 * ((2 + (((x + 1) + (2 * ((x div 2) mod (1 + (x2 mod (2 * (2 + (x mod 2)))))))) div 2)) div 2)))))
1: (~2 + ((x + 1) * ((x + 3) + ((((x + 1) div 2) div 2) div 2))))
1: (~1 + (2 * (3x + (loop(\(x,i).(x2 + 1),2,(x + ~1)) div 3))))
1: (~1 + (2 * (6 + (x mod 2))))
1: (~1 + (2 * ((x + 4) + (if x <= 0 then x else (2 - ((~x + 2) div 5))))))
1: ((2x + 10) - ((x div 5) mod 2))
1: ((2x + 10) - (x mod 5))
1: (2x2 + 9x + ~6)
1: ((2x + 12) - (x div 3))
1: (~1 + (5 * ((x + 4) + (if x <= 0 then 1 else 2))))
1: (~x + (2 * ((2x + 4) - ((~x + ((x div 2) div ~2)) div 2))))
1: ((2 * ((3x + 2) + (x div 3))) - (if x <= 0 then 1 else 0))
1: ((2x + 20) - (x mod 10))
1: (x2 + 15x + 49)
1: (x2 + 14x + 39)
1: (~1 + (2 * ((44x2 + 44x + 1) + (x mod 2))))
1: ((3 * ((4x + 1) + (x mod 2))) - (x div 2))
1: ((3 * ((x + 2) + (3 * (x div 2)))) - (x mod 2))
1: (~2 + (((x + 2) + (3 * (x div 2))) * (1 + (2 * (x div 2)))))
1: (~1 + (2 * ((x + 1) + (2 * loop(\(x,i).((x + 2) + ((4 + i) * i)),x,1)))))
1: (~1 + (2 * ((x + 1) + (2 div (1 + (3 div (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2))))))))
1: (~1 + (2 * ((x + 1) + ((1 + (x div (1 + (loop(\(x,i).2x,x,2) mod (2x + 1))))) div 2))))
1: (~2 + (2 * ((x + 2) + ((2x + ((~x + (if x <= 0 then 2 else 1)) mod 9)) div 3))))
1: (~1 + (2 * ((x + 1) + ((2 * (1 + ((1 + (x div (1 + ((~1 + (2 * ((x + 1) + (2 div (1 + (3 div (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2)))))))) mod (x + 1))))) div 2))) div 3))))
1: (~1 + (2 * ((x + 1) + ((2 * (1 + (x2 div ((x + 1) + (6 * (1 + (x div 8))))))) div 3))))
1: (~1 + (2 * ((x + 1) + ((2 * (1 + (((1 + (loop(\(x,i).(2x + 1),x,loop(\(x,i).3x,x,1)) div 3)) div 2) div 2))) div 3))))
1: (~1 + (2 * ((x + 1) + ((2 * (1 + (((x + (2 mod (1 + (x div 2)))) div 2) div 2))) div 3))))
1: (~1 + (2 * ((x + 1) + ((2 * (1 + (((loop(\(x,i).(x2 + x),1,loop(\(x,i).(x * i),x,1)) - loop(\(x,i).3x,x,1)) div 2) div 2))) div 3))))
1: (~1 + (2 * ((x + 1) + ((2 * (1 + ((((x + ~1) * (x + (x div 3))) div 2) div 3))) div 3))))
1: (~1 + (2 * ((x + 1) + ((2 * (x + (loop(\(x,i).2x,x,2) mod (x + 1)))) div 3))))
1: (~1 + (2 * ((x + 1) + ((2 * ((4 * (x + (if (~4 + (x div 2)) <= 0 then 1 else 2))) div 3)) div 3))))
1: (~1 + (2 * ((x + 1) + (((1 + (((x * ((x + (2 mod (x + 1))) div 3)) div 2) div 2)) div 2) div 2))))
1: (~1 + (2 * (4 + (((x + 1) div 2) div 2))))
1: (~1 + (2 * (1 + (((((x + 1) * (x + (x div 3))) div 2) div 5) + (x div 2)))))
1: (~1 + (2 * ((x + 1) + (((5 * (1 - ((~x + (x mod 3)) div 4))) div 2) div 2))))
1: (~1 + (9 * ((x + 1) + ((((x + 1) div 2) div 2) div 2))))
1: (~3 + (2 * (2 + ((((3 * ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (2 + (x div (1 + (2 * (1 + (2 * ((x div 2) mod 2))))))))) div 2) div 2) div 2))))
1: (~2 + (3 * ((x + 1) + (loop(\(x,i).(x + 4),(~2 + ((x + ~1) div 3)),x) div 3))))
1: (~1 + (((x + 1) + (x div 2)) * (1 + (2 * (x div 2)))))
1: (~1 + (x * ((x + 1) + (x div 2))))
1: (~1 + (3 * ((x + 2) + (x div 2))))
1: ((2 * ((3x + 2) + (x div 2))) - (if x <= 0 then 1 else 0))
1: ((2 * ((x + 1) + (x div 3))) - ((x + ~1) div 3))
1: ((2 * ((x + 1) + (x div 3))) - (x div ~2))
1: ((2 * ((x + 2) + (x div 3))) - ((x mod 3) div 2))
1: ((2 * ((x + 2) + (x div 3))) - ((x + ~1) mod 3))
1: (~1 + (2 * (((x + 2) + (x div 3)) * (if x <= 0 then 1 else x))))
1: ((3 * ((x + 2) + (x div 4))) - ((x div 2) mod 2))
1: (~1 + (2 * (1 + ((x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))) + (x mod 2)))))
1: (~1 + (2 * (2 + ((2x mod (1 + (2 * (x mod 3)))) + (x mod 2)))))
1: (~1 + ((4 + (x mod 2)) * (if x <= 0 then 1 else x)))
1: (~1 + (5 * ((x + 1) + (x mod 2))))
1: ((3 * ((x + 2) + (x mod 2))) - (x div 2))
1: (~1 + (2 * (1 + ((x mod (2 + (x mod 4))) + (x mod 4)))))
1: (~1 + (2 * ((x + 1) + (x mod 11))))
1: (~x + (2 * (4 + (x mod (x - ((x + ~1) mod 8))))))
1: (~1 + (2 * (5x + (i mod 2))))
1: (~1 + (2 * (1 + ((if (~2 + (x div 5)) <= 0 then x else (x + 2)) + ((1 + (x div 2)) div 2)))))
1: (~1 + (2 * (x + ((if (x mod 2) <= 0 then 2 else 0) + (x div 2)))))
1: (~2 + ((2x + 1) * (x + ((if (x mod 2) <= 0 then 2 else 0) + (x div 2)))))
1: (~x + (2 * (4 + loop(\(x,i).(2 * (x3 + (if x <= 0 then 1 else 2))),x,1))))
1: (~1 + (2 * (3 + (loop(\(x,i).2x,x,(1 + loop(\(x,i).3x,x,2))) + loop(\(x,i).(3x + 2),2x,2)))))
1: ((2x + 8) - ((~x + 1) div (1 + (x div 2))))
1: ((2x + 8) - (((x + ~1) mod (1 + (x div 2))) div 2))
1: ((2x + 8) - (x div 3))
1: ((2x + 8) - (x mod 8))
1: (3x + 11)
1: ((3x + 12) - (x div 2))
1: ((3x + 12) - (x div 9))
1: (5x + 19)
1: (x3 + 4x2 + x + 2)
1: ((x2 + 5x + 4) - (x div 2))
1: ((x2 + 6x + 8) - (2x div 5))
1: (x2 + 3x + ~6)
1: ((x3 + 4x2) - ((x + ~1) div 2))
1: (~1 + ((x + 4) * (if x <= 0 then 1 else x)))
1: ((x2 + 4x) - ((x + (x div 12)) div 2))
1: (~1 + (2 * (2x + i)))
1: (~3x + 11)
1: (~1 + (2 * (3 + ((((~2 + (x div 2)) * (x div 2)) mod (x + 1)) mod 2) - ((x mod 2) + (x mod 2)))))
1: (~2 + (2 * (2 + ((2 * (1 + ((1 + (((~1 + loop(\(x,i).2x,x,(2 - (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))) mod (x + 1)) div 2)) div 2))) div 3) - (x mod 2))))
1: (~1 + (2 * ((2x + 2) - ((x mod ~4) div 2))))
1: (~1 + (2 * (1 + ((x3 + 3x2 + 2x) div 3) - (x mod 2))))
1: (~1 + (3 * (2 + (x div 2) - (x mod 2))))
1: (~1 + (3 * (2 + (x mod 2) - (x div 2))))
1: (~1 + (3 * (1 + (if (x mod 3) <= 0 then (2 * (if (x mod 2) <= 0 then (2 + (if x <= 0 then 0 else 2)) else 1)) else 1) - (x mod 2))))
1: (~1 + (3 * ((x + 2) - ((x + (x div 4)) div ~2))))
1: (~1 + (2 * (2x - ((2 * (if x <= 0 then 1 else x)) div (~3 + ((~x + 2) div 4))))))
1: (~5 + ((x + 2) * ((x + 3) - ((x div 2) mod 2))))
1: (14 - loop(\(x,i).(2x + 2),x,0))
1: (~1 + (7 * (1 + (x div 2))))
1: (~2 + (7 * (1 + (x div 2))))
1: ((7x + 7) - ((x + 2) div (1 + (x2 div 2))))
1: ((7x + 7) - (x div 9))
1: ((7 * (if x <= 0 then 1 else 2)) - (x div 2))
1: (7x - (x div 7))
1: (~1 + (7 * i))
1: ((15x + 5) - (x mod 2))
1: ((6x + 4) - ((2x + 1) div 7))
1: ((6x + 4) - ((~2x + 1) div 7))
1: ((6x + 4) - ((~2x + 2) div 7))
1: ((9x + 6) - (x div 2))
1: (3x2 + 13x + 8)
1: (3x2 + 5x + 1)
1: (~1 + (3 * (2 + (3 * i))))
1: (~1 + (x * (2 + (3 * i))))
1: (~x + 27)
1: (27 - i)
1: ((9 * (x div 4)) - (x mod 2))
1: (2x + 15)
1: (3x + 23)
1: ((x2 + 12x + 32) - (x div 5))
1: (x2 + 10x + 15)
1: (x2 + 10x + 14)
1: (13x2 + 26x + 12)
1: (13x - (x div 3))
1: ((2x + 24) - (x mod 5))
1: (~1 + (2 * ((4x + 4) + ((x div 2) mod 2))))
1: (~1 + (((4x + 4) + (x mod 2)) * (if x <= 0 then 1 else 2)))
1: (25x + 19)
1: (10x2 + 13x + 3)
1: ((10x + 2) - (i mod 3))
1: ((5x2 + 6x + 1) - (x div 2))
1: (5x2 + 11x + 1)
1: (5x2 + x + ~1)
1: ((10x + 4) - (x div 2))
1: ((5x2 + 7x + 2) - (x mod 2))
1: (~1 + (2 * (5x + loop(\(x,i).2x,i,1))))
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1: (5x2 + 27x + 33)
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1: (~1 + (7 * (1 + ((x + ~1) mod 4))))
1: (~1 + (2 * (1 + ((x + ~4) mod (1 + ((x mod 6) mod (1 + (x div 3))))))))
1: (~1 + (2 * (1 + (((x + 1) - ((1 + (x div 5)) mod (1 + (((x + 1) div 2) div 2)))) mod 2))))
1: (~2 + (5 * (1 + (((x + 1) * (1 + (x mod 2))) mod (1 + (x div 5))))))
1: (~1 + (2 * (1 + ((x2 + x) mod 5))))
1: (~2 + (3 * (1 + (((3x2 + x) div 2) mod 9))))
1: (~1 + ((x + 1) * (2 + (((~x + 2) div 2) mod 5))))
1: (~1 + (3 * (1 + ((x div 2) mod (1 + (6 * (x mod 2)))))))
1: ((2 * (x + ((x div 4) mod 2))) - (x mod 2))
1: (~x + ((x + 1) * (1 + (((~x2 + 2) mod (3 + (x div 2))) mod 2))))
1: ((2 * (((x mod (2 - (x div (1 + ((x div 2) mod 2))))) mod 2) + (if x <= 0 then 0 else 1))) - (x mod 2))
1: (~1 + (2 * (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 8))))
1: ((2 * (2 + (x mod 2))) - (x div 3))
1: ((2 * (2 + (x mod 2))) - loop(\(x,i).(2 * (x - (i mod 2))),x,1))
1: (~x + (2 * (2 + (x mod 2))))
1: ((x * (2 + (x mod 2))) - (x div 2))
1: (~1 + (5 * (2x + (x mod 2))))
1: (~1 + ((x + 2) * (x + (x mod 2))))
1: (~1 + ((1 + (x mod 3)) * (x mod 3)))
1: (~x + (2 * (6 + (x mod 4))))
1: (~1 + (2 * (1 + (x mod (2 + (x div (2 + (if ((x + 1) mod 5) <= 0 then 0 else 2))) - (x mod 2))))))
1: (~1 + (x * (1 + (x mod (1 + ((~x + 2) mod 4))))))
1: (~2 + (3 * (1 + (x mod (1 + (2x mod (~1 + (2 * ((x + ~1) mod 4)))))))))
1: (~1 + (x * (1 + (x mod 8))))
1: (~x + (2 * (12 + (x mod 8))))
1: (~1 + (2 * (1 + (x mod (4 * (1 + (2 * (x mod 2))))))))
1: (~x + (8 * (x + (i mod 2))))
1: (~x + (3 * (2 + (if (1 + ((x + 1) * loop(\(x,i).(x * (1 - loop(\(x,i).3x,x,loop(\(x,i).(3x + ~6),x,0)))),x,1))) <= 0 then x else 2))))
1: (~1 + (2 * ((if (~x + 2) <= 0 then (1 - (x mod (1 + (4 * (x mod 2))))) else 1) + (x mod 2))))
1: (~1 + (x * (x + (if (2 - i) <= 0 then x else 1))))
1: ((4 * (x + (if (~4 + (x div 2)) <= 0 then 1 else 2))) - (x div 3))
1: (~2 + (11 * (x + (if (~4 + (x div 2)) <= 0 then 1 else 2))))
1: (~1 + (2 * (x + (if (~6 + (x div 2)) <= 0 then 2 else (x div 3)))))
1: (~1 + ((x + 1) * (2 + (if (~2 + (x div 4)) <= 0 then 1 else 2))))
1: (~1 + ((x + 1) * (2 + (if (~2 + (x div 5)) <= 0 then 0 else 2))))
1: (~1 + (2 * ((if (~2 + (x div 5)) <= 0 then 0 else 2) + (((x + 1) div 2) div 2))))
1: ((2 * (1 + (if (~4 + ((x + 1) mod 8)) <= 0 then 1 else 0))) - (x mod 2))
1: (~2 + (3 * (x + (if (x + ~1) <= 0 then 2 else 1))))
1: (~x + ((2x + (if (x + ~2) <= 0 then 1 else 2)) * (1 + (x div 5))))
1: (~1 + (2 * (x + (if (x + ~2) <= 0 then 1 else (3 * (if (~2 + (x div 3)) <= 0 then 1 else 2))))))
1: ((2 * (x + (if (x + ~2) <= 0 then 1 else x))) - (x div 3))
1: (~1 + (2 * (x + (if (x + ~2) <= 0 then 2 else (8x2 + 8x)))))
1: ((x * (1 + (if (x + ~2) <= 0 then x else 3))) - (if x <= 0 then 0 else 1))
1: (~1 + (2 * (2 + (if (x + ~2) <= 0 then x else (x + 2)))))
1: (~1 + (2 * (x + (if (x + ~3) <= 0 then 1 else 8))))
1: ((2 * (1 + (if (x + ~4) <= 0 then 0 else 2))) - (x div 3))
1: (~1 + (3 * (2 + (if (x + ~4) <= 0 then 0 else 2))))
1: (~1 + ((x + 2) * (x + (if (x + ~4) <= 0 then 1 else x))))
1: (~1 + ((1 + (if ((1 + (x div 4)) mod (2 + (x mod 4))) <= 0 then 2 else 0)) * (1 + (x mod 2))))
1: ((2 * (1 + (if ((x div 3) mod 3) <= 0 then (x mod 2) else 0))) - (x mod 3))
1: (~1 + (2 * ((if ((2x mod 5) mod 3) <= 0 then 2 else 0) + (x mod 2))))
1: (~1 + (2 * (x + (if ((if x <= 0 then 1 else x) mod 2) <= 0 then 2x else 1))))
1: ((2 * (2x + (if (x mod 2) <= 0 then 1 else 4))) - (x div 2))
1: (~1 + (2 * (x + (if (x mod 2) <= 0 then 2 else 0))))
1: ((2 * (1 + (if (x mod 3) <= 0 then 0 else (if ((x + 1) mod 5) <= 0 then 2 else 1)))) - (x mod 3))
1: (~1 + (2 * ((if (x mod 3) <= 0 then 1 else (((x + 1) div 2) - ((3 * (x div 4)) div 2))) + (x mod 2))))
1: ((x * (x + (if (x mod 4) <= 0 then 2 else 0))) - (x div 2))
1: (~1 + (2 * (2 + (if x <= 0 then 0 else 2))))
1: ((2 * (2 + (if x <= 0 then 0 else 2))) - (x div 4))
1: ((2 * (2 + (if x <= 0 then 0 else 2))) - (x mod 2))
1: ((2 * (2 + (if x <= 0 then 0 else 2))) - (if (x + ~2) <= 0 then x else 1))
1: (~1 + (2 * (1 + (if x <= 0 then 0 else (1 + (((x + 1) - ((1 + (x div (1 + (x mod (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))) mod (x + 1))) div 2))))))
1: (~1 + (2 * (1 + (if x <= 0 then 0 else ((x + 1) mod (2 * (1 + ((x + ~2) mod (1 + (x div 5))))))))))
1: (~1 + (2 * (1 + (if x <= 0 then 0 else (if (x mod (2 + ((1 + (2 * (1 + ((((2x + 2) mod (2 + (x div 2))) div 2) div 2)))) mod (x + 1)))) <= 0 then 2 else 1)))))
1: ((2 * (1 + (if x <= 0 then 0 else (if (x mod (2 + ((~x + 2) mod 4))) <= 0 then 1 else 2)))) - (x mod 2))
1: ((~x + ~1) + (2 * (1 + (if x <= 0 then 0 else (if (x mod (x - ((x + ~1) mod 8))) <= 0 then 5 else x)))))
1: (~1 + (2 * (2 + (if x <= 0 then 1 else (30x3 + 30x + 2)))))
1: (~1 + (3 * (2 + (if x <= 0 then 1 else 16))))
1: (~1 + (2 * (x + (if x <= 0 then 1 else 20))))
1: ((3 * (1 + (if x <= 0 then 2 else x))) - (x div (1 + (x mod 2))))
1: (~1 + (2 * (x + loop(\(x,i).((x + 1) + (2 * ((x div 4) mod 2))),(x + ~1),1))))
1: (~3 + (2 * (x + loop(\(x,i).((x + 3) + ((x - ((x div 2) div 3)) div 2)),2,x))))
1: (~x + (2 * (2 + loop(\(x,i).(2x + i),x,x))))
1: (~x + (2 * (x + loop(\(x,i).(2 + (5 * i)),(x + ~7),1))))
1: (~1 + (3 * (2 + loop(\(x,i).(x2 + x + 2),(4x + 4),x))))
1: (~x + (2 * (x + loop(\(x,i).(x + loop(\(x,i).(~1 + (if x <= 0 then i else x)),i,0)),x,0))))
1: (~1 + (18 * ((x + ~1) + loop(\(x,i).(x - ((~2 + (x div 2)) div 3)),2,x))))
1: (~1 + ((1 + loop(\(x,i).3x,x,1)) * (1 + loop(\(x,i).2x,x,1))))
1: (~1 + (2 * (loop(\(x,i).3x,x,1) + (x mod 2))))
1: (~1 + (5 * (2 + loop(\(x,i).(10x + 8),(x + 2),1))))
1: (~1 + (9 * (1 + loop(\(x,i).(2x + 4),(x + 2),2))))
1: (~1 + ((x + 2) * (1 + loop(\(x,i).(x * (2 - (x div (2 + i)))),x,2))))
1: (~1 + (2 * (2x + loop(\(x,i).10x,i,1))))
1: (~2 + (2 * (1 + loop(\(x,i).(2x2 + 8x),1,((1 + (x mod 8)) mod (x + 1))))))
1: (~1 + (2 * (loop(\(x,i).4x,x,1) + (x mod 2))))
1: (~1 + (3 * (2 + loop(\(x,i).(2x2 + 2x),(x2 + 1),2))))
1: (~1 + (3 * (2 + loop(\(x,i).x3,x2,2))))
1: (~1 + (3 * (1 + loop(\(x,i).2x,(2 + (x mod 2)),(x div 2)))))
1: (~1 + (2 * (x + loop(\(x,i).2x,(~3 + (x div 3)),1))))
1: (~1 + (2 * (x + loop(\(x,i).2x,(x + ~1),1))))
1: (~1 + (2 * (loop(\(x,i).2x,(x div 2),1) + (x mod 2))))
1: (~1 + (2 * (8 + loop(\(x,i).2x,x,1))))
1: (~1 + (2 * (x + loop(\(x,i).2x,x,1))))
1: ((2 * (1 + loop(\(x,i).2x,x,2))) - loop(\(x,i).3x,x,1))
1: (~1 + (2 * (loop(\(x,i).2x,x,2) + (x mod 2))))
1: (~1 + (2 * (2 + loop(\(x,i).2x,x,(3 + (loop(\(x,i).4x,x,2) + loop(\(x,i).2x,x,1)))))))
1: (~1 + ((x + 1) * (2 + loop(\(x,i).(x * i),x,1))))
1: (~1 + (2 * (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) + ((x + ~1) mod 4))))
1: (~1 + (2 * (1 + loop(\(x,i).(if x <= 0 then 1 else (2x * ((x + 1) + (2 * loop(\(x,i).(2 * (1 + loop(\(x,i).(2x * (2 + i)),4x,1))),x,1))))),2,x))))
1: (~1 + (3 * (1 + loop(\(x,i).loop(\(x,i).5x,x,1),(i - (x mod 3)),loop(\(x,i).5x,x,1)))))
1: (~1 + (2 * (x + loop(\(x,i).i,(((x + ~1) div 2) div 2),1))))
1: ((2x + 1) - ((x + ((2x + 1) * loop(\(x,i).2x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1))) div (x + 1)))
1: ((2x + 1) - (((x + 1) - ((1 + (x mod (1 + (11 mod (x + 1))))) mod (x + 1))) div 2))
1: ((2x + 1) - compr(\x.(1 - (x mod (1 + (x mod (1 + (x2 mod (x + 5))))))),x))
1: ((2x + 1) - compr(\x.(~1 + (((1 - (2 * ((2x + 2) + ((x - (x div 4)) div 2)))) mod (x + 1)) mod 3)),x))
1: ((2x + 1) + ((x + 2) mod 7))
1: ((2x + 1) + ((x2 + ~x) mod 9))
1: ((2x + 3) - ((1 + ((1 + ((x3 + 2) div 3)) mod 7)) div 2))
1: ((2x + 3) - ((x + 1) mod (~1 + (x div ~5))))
1: ((2x + 3) - (((2x + ~4) div (2 + (x div 4))) mod 2))
1: ((2x + 3) - ((x div (1 + (2 * ((x + ~1) mod 3)))) mod 2))
1: ((2x + 2) + (x div (6 - (x mod 2))) - (x mod 2))
1: ((2x + 2) + (if x <= 0 then 1 else (x div 3)) - (x mod 2))
1: ((2x + 2) - (2 * (1 + (x mod (1 + (x div 8))))))
1: ((2x + 2) - (3 * ((~2x + 4) div 7)))
1: ((2x + 2) - (((x + 2) + (x div (2 + (16 mod (1 + (x div 2)))))) div 3))
1: ((2x + 2) - ((x2 + 2) div ((x + 3) + (x div 4))))
1: ((2x + 2) - ((1 + (x2 div (x + 10))) div 2))
1: ((2x + 2) - ((1 + (x2 div (4 + (x div 2)))) div 3))
1: ((2x + 2) - ((x + (x div 2)) div ~2))
1: ((2x + 2) - ((x + (x div 2)) div ~4))
1: ((2x + 2) - ((x + (x div 4)) div ~3))
1: ((2x + 2) - ((1 + (if x <= 0 then 0 else (1 + ((2 * (1 + ((1 + (x div (1 + (x mod (1 + (x div (2 + ((~2x + 1) mod (2 + (x div 4)))))))))) div 2))) div 3)))) div 2))
1: ((2x + 2) - ((x + 2) div 5))
1: ((2x + 2) - ((~1 - (4x2 div 5)) div 3))
1: ((2x + 2) - ((1 - (x div 3)) div 3))
1: ((2x + 2) - ((~x + 1) div 3))
1: ((2x + 2) - ((~x + 1) div (1 + (if (x + ~4) <= 0 then 1 else 2))))
1: ((2x + 2) - ((~x + 1) div 11))
1: ((2x + 2) - ((~x + 2) div (2 - (x div ~2))))
1: ((2x + 2) - ((~x + ((~x + 2) div 4)) div 3))
1: ((2x + 2) - ((~1 + ((~x + ((x div 4) mod 2)) div 2)) div 2))
1: ((2x + 2) - ((~x + ((x + ~2) div 3)) div 3))
1: ((2x + 2) - ((~x + ((x div 2) div ~2)) div 3))
1: ((2x + 2) - ((~2x + (x div 2)) div 5))
1: ((2x + 2) - ((~x + ((x * (x div 2)) mod 2)) div 3))
1: ((2x + 2) - ((~x + (x mod 2)) div 3))
1: ((2x + 2) - ((~1 + (x mod 4)) div 2))
1: ((2x + 2) - ((x - (((9 * (x + (x div 5))) div 2) div 2)) div 2))
1: ((2x + 2) - ((2x + 2) div 5))
1: ((2x + 2) - ((2 * ((x2 + ~x) div (x + 2))) div 3))
1: ((2x + 2) - (2x div ~5))
1: ((2x + 2) - (x2 div ((x + 5) + (x div 2))))
1: ((2x + 2) - (x2 div (x + 3)))
1: ((2x + 2) - (x2 div (2x + 3)))
1: ((2x + 2) - (((1 + (x div 2)) div 2) div 2))
1: ((2x + 2) - (((x - ((~1 + (x div 2)) div 2)) div 2) div 2))
1: ((2x + 2) - (((3 * (x div ~4)) div 2) div 2))
1: ((2x + 2) - ((x2 div 3) div (x + 5)))
1: ((2x + 2) - ((x2 div 3) div (x + 3)))
1: ((2x + 2) - ((((x + 1) div 2) div 2) div 2))
1: ((2x + 2) - ((x div 2) div 3))
1: ((2x + 2) - ((x div 3) div ~3))
1: ((2x + 2) - ((x mod 3) div 2))
1: ((2x + 2) - ((x mod (2 + (((x + 1) div 2) div 3))) div 2))
1: ((2x + 2) - (x div 7))
1: ((2x + 2) - (x div ~2))
1: ((2x + 2) - (x div ~5))
1: ((2x + 2) - ((1 + (x mod 8)) mod (x + 1)))
1: ((2x + 2) - ((x + 1) mod 7))
1: ((2x + 2) - ((x + 2) mod 5))
1: ((2x + 2) - ((x + 2) mod 11))
1: ((2x + 2) - (~2 mod (1 + ((x + 1) div 5))))
1: ((2x + 2) - ((~x + 1) mod (1 + ((x - ((x div 3) mod 3)) div 2))))
1: ((2x + 2) - ((2x2 + 4x + 2) mod 5))
1: ((2x + 2) - (((x + (if (x mod 3) <= 0 then x else 1)) div 3) mod 3))
1: ((2x + 2) - (((1 - loop(\(x,i).(~1 + (x * (1 + i))),x,0)) div (x + 2)) mod 2))
1: ((2x + 2) - (((x - (x div ~2)) div 5) mod 2))
1: ((2x + 2) - ((2x div 9) mod 2))
1: ((2x + 2) - ((x2 div (x + 2)) mod 4))
1: ((2x + 2) - ((x2 div 12) mod 2))
1: ((2x + 2) - ((x div (1 + (((~x + 2) div 2) mod 4))) mod 2))
1: ((2x + 2) - (((x + 1) mod 8) mod 3))
1: ((2x + 2) - (((x + ~4) mod (2 + (x div 3))) mod 2))
1: ((2x + 2) - ((x mod (2 - (x mod (~1 - (x div 4))))) mod 2))
1: ((2x + 2) - ((x mod (~2 - (x div 3))) mod 2))
1: ((2x + 2) - (if ((x + 1) mod (4 + (x mod (2 + (x mod 2))))) <= 0 then 2 else 1))
1: ((2x + 2) - (if x <= 0 then 1 else (2 * (1 + (((~1 + loop(\(x,i).2x,x,(x - ((x div 2) mod 2)))) mod (x + 1)) div 2)))))
1: ((2x + 2) - (if x <= 0 then 2 else (x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (1 + (x mod 2))))),x,(x + 1)))))
1: ((2x + 2) - loop(\(x,i).2x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),2))
1: ((2x + 2) - loop(\(x,i).2x,x,1))
1: ((3x + 3) - ((x + (x div 2)) div 4))
1: ((3x + 3) - ((~x + (x mod 2) - (x div 3)) div 3))
1: ((3x + 3) - ((~x + ((x * (x div 2)) mod 2)) div 3))
1: ((3x + 3) - ((2x + 2) div 5))
1: ((3x + 3) - (x div 3))
1: ((3x + 3) - (x div (4 + (x div 2))))
1: ((3x + 3) - (x div 8))
1: ((3x + 3) - (2 mod (~2x + 1)))
1: ((3x + 3) - ((x + ((4 * (x div 3)) div 3)) mod 3))
1: ((3x + 3) - ((((~1 + ((x2 + x) div 2)) div 2) div 2) mod 2))
1: ((x2 + x + ~1) + (3 * (~x + (x mod 2))))
1: ((x2 + x + 1) - ((x - ((x + 1) mod 6)) div 2))
1: ((x2 + x + 1) - (x2 div 4))
1: ((x2 + x + 1) - (((x2 + ~x) div 2) div 3))
1: ((x2 + x + 1) - ((((~x4 + x2) div 2) div 3) div 2))
1: ((x2 + x + 1) - (x div 4))
1: ((x2 + x) + (if x <= 0 then 0 else 2) - (x mod 2))
1: ((x2 + x + 1) - (x mod (x - ((x + ~1) mod 8))))
1: ((x2 + x) - ((~x + 1) div 3))
1: ((x2 + x) - ((~1 + ((x2 + (x div 2)) div 2)) div 2))
1: ((x2 + x) - (((1 + (x div 2)) * (x div 2)) div 2))
1: ((x2 + x) - ((x4 + ~x2) div 12))
1: ((x2 + x) - (x2 div (x + 24)))
1: ((x2 + x) - ((x mod ~4) div 2))
1: ((x2 + x) - (loop(\(x,i).((x2 + ~x) div 2),2,(x + 2)) div 3))
1: ((x2 + x) - (x div 3))
1: ((x2 + x) - (x div (2 div (~2 + (x mod 2)))))
1: ((x2 + x) - (x2 mod (9x + 1)))
1: ((x2 + x) - ((x div 2) mod 2))
1: ((x2 + x) - (x mod 3))
1: ((x2 + x) - (x mod (2 * (~2 + (x mod 2)))))
1: ((x2 + x) - (i mod 2))
1: ((x2 + x) - (if x <= 0 then 0 else 1))
1: ((x2 + x) - loop(\(x,i).((x * ((x + ~1) - i)) div (1 + i)),2,x))
1: ((x2 + x) - i)
1: ((2x + 3) - (x mod (2 + (x2 mod 3))))
1: ((2x + 4) - ((if x <= 0 then 2 else ((~x + 2) div 2)) + (x div 3)))
1: ((2x + 4) - (3 * ((x + (x div 4)) div ~2)))
1: ((2x + 4) - ((x + 1) div 3))
1: ((2x + 4) - ((~x + 1) div (3 + (2 * (x - (x mod 8))))))
1: ((2x + 4) - ((~x + 2) div (2 - (x div ~2))))
1: ((2x + 4) - ((~1 + (x div 3)) div 2))
1: ((2x + 4) - ((x - ((3x2 + 3) div 7)) div 2))
1: ((2x + 4) - ((x2 + 3x + 2) div (x + 8)))
1: ((2x + 4) - ((x2 + 2x) div (x + 17)))
1: ((2x + 4) - ((~6x + 3) div (x + 5)))
1: ((2x + 4) - ((x2 + ~x) div (x + 2)))
1: ((2x + 4) - ((~x3 + 3x2 + ~2x) div 3))
1: ((2x + 4) - (x2 div 4))
1: ((2x + 4) - (x2 div ((x + 5) + (x div 3))))
1: ((2x + 4) - (x2 div ((x + 1) + (2 * ((x div 2) div 3)))))
1: ((2x + 4) - (x2 div (x + 4)))
1: ((2x + 4) - (x2 div ((2x + 8) - (x div 3))))
1: ((2x + 4) - (((x2 + ~3x + 2) div 2) div (x + 1)))
1: ((2x + 4) - ((x div 3) div ~3))
1: ((2x + 4) - (x div 4))
1: ((2x + 4) - (x div (5 + ((x div 2) mod 5))))
1: ((2x + 4) - (x div (12 - (x div 2))))
1: ((2x + 4) - (x div ~8))
1: ((2x + 4) - (2 mod (~2x + 1)))
1: ((2x + 4) - ((x + 3) mod 12))
1: ((2x + 4) - ((1 + (x div 2)) mod 2))
1: ((2x + 4) - ((1 + (x div (~2 + (x mod 2)))) mod 3))
1: ((2x + 4) - ((x + 2) mod 13))
1: ((2x + 4) - ((x + 2) mod 11))
1: ((2x + 4) - ((x + 2) mod 8))
1: ((2x + 4) - ((x + 2) mod 12))
1: ((2x + 4) - (((~x2 + 2x) div 2) mod 3))
1: ((2x + 4) - ((if x <= 0 then 1 else x) mod 3))
1: ((2x + 4) - (x mod 3))
1: ((2x + 4) - (x mod (3 - (x mod 2))))
1: ((2x + 4) - (x mod (~4x + 7)))
1: ((2x + 4) - (i mod 2))
1: ((2x + 4) - (if (~x + 4) <= 0 then 2 else 1))
1: ((2x + 4) - (if (16 mod (x + 2)) <= 0 then 1 else 0))
1: ((2x + 4) - (if (2x mod (x + 5)) <= 0 then 1 else 0))
1: ((2x + 4) - (if x <= 0 then 1 else 0))
1: ((2x + 4) - loop(\(x,i).i,(~1 + (x div 2)),1))
1: ((2x + 4) - loop(\(x,i).i,(x mod 4),1))
1: ((3x + 5) - ((x + 1) mod (1 + (x div (2 + (x mod (2 + (x mod 2))))))))
1: ((3x + 6) - loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),x,x))
1: ((x2 + 3x + 1) - loop(\(x,i).(x * (x + i)),2,3))
1: ((x2 + 3x + 2) - (2 * (x mod 2)))
1: ((x2 + 3x + 2) - (((x2 + ~1) div 2) div 3))
1: ((x2 + 3x + 2) - (((~x3 + x) div 4) div 3))
1: ((x2 + 3x + 2) - (x div 5))
1: ((x2 + 4x + 4) - (3 * (x mod 2)))
1: ((x2 + 4x + 4) - (if (x mod 2) <= 0 then 1 else 4))
1: ((x2 + 4x + 4) - i)
1: (~1 + ((x + 2) * (1 + i)))
1: (x2 + x + ~3)
1: (x2 + 2x + ~4)
1: ((x2 + 2x + ~1) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: ((x2 + 2x + 1) - ((~2x + (x div 2)) * (x div 2)))
1: (x2 + 2x + 29)
1: ((x2 + 2x + 1) - (x * ((x + 1) mod 15)))
1: ((x2 + 2x + 1) - (2 * (if (~2 + (x div 5)) <= 0 then 0 else 2)))
1: ((x2 + 2x + 1) - ((x - (x2 div 3)) div 2))
1: ((x2 + 2x + 1) - ((x - (x2 div 4)) div 2))
1: ((x2 + 2x + 1) - ((x mod (3 + (x div 8))) div 2))
1: ((x2 + 2x + 1) - (x div ~3))
1: ((x2 + 2x) - ((1 + (x div 3)) * (x div 2)))
1: (x2 + 2x + 35)
1: (17x2 + ~14x)
1: (~x5 + x2 + 2x)
1: ((x2 + 2x) - ((x + (x div 12)) div 2))
1: ((x2 + 2x) - ((~x + 2) div 5))
1: ((x2 + 2x) - ((~1 + ((~2x2 + 2x) div 3)) div 3))
1: ((x2 + 2x) - ((x2 + 2x) div 7))
1: ((x2 + 2x) - (2x2 div (1 + (x div 2))))
1: ((x2 + 2x) - ((((~1 + (3 * (x2 div 2))) div 2) div 2) div 2))
1: ((x2 + 2x) - ((x div 2) div ~3))
1: ((x2 + 2x) - (x div 5))
1: ((x2 + 2x) - (x mod 3))
1: ((x2 + 2x) - (x mod 4))
1: ((x2 + 2x) - (if (16 mod (x + 1)) <= 0 then 0 else 1))
1: ((x2 + 2x) - loop(\(x,i).(2x + 1),x,0))
1: (~1 + ((x + 2) * i))
1: (~1 + ((x * (1 + i)) + (2 * (i mod 2))))
1: (1 + (x * (1 + i)) - (2 * (x mod 2)))
1: ((x * (1 + i)) - ((x + 1) div (1 + i)))
1: ((x * (1 + i)) - (((x + ~1) + i) div (1 + i)))
1: ((x * (1 + i)) - (x div 3))
1: ((x * (1 + i)) - ((x div 2) mod 2))
1: ((x * (1 + i)) - (x mod 2))
1: (~2 + (x * (2 + i)))
1: (~1 + ((x * (2 + i)) + (2 * (i mod 2))))
1: ((x * (2 + i)) - (4 div (1 + i)))
1: ((x * (2 + i)) - (x div 2))
1: (~1 + (2 * (x + i)))
1: ((2 * (x + i)) - (i mod 2))
1: (~x + (4 * (x + i)))
1: (~1 + (x * (x + i)))
1: (~3 + (2 * (2 + compr(\x.((~x + 1) + (23 * loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x))),x))))
1: (~1 + (2 * (1 + compr(\x.(1 - loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(2x2 + 2x + 1))),x))))
1: (~3 + (2 * (1 + compr(\x.(2 - (loop(\(x,i).((x + 1) * (1 + ((~x + 2) mod 4))),x,5) mod (x + 1))),x))))
1: (~2 + (2 * (1 + compr(\x.(2 - (x mod (~1 + ((~1 + (6 * (1 + (loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),x,(2x + 1)) div (x + 1))))) div 2)))),x))))
1: (~1 + (2 * (1 + compr(\x.(~1 + loop(\(x,i).loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + 1)),1,(x2 + x))),x))))
1: (~2 + ((x + 2) * (2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),i))))
1: (~2 + (3 * (1 + compr(\x.(((~x + (x * (x mod 2))) div 3) mod 3),x))))
1: (~1 + ((1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) * (1 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))))
1: ((3 * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) - (x div 2))
1: ((3 * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) - (if (x + ~1) <= 0 then x else 0))
1: (~2 + ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) * (2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))))
1: (~1 + ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x))))
1: (~2 + (3 * (1 + compr(\x.(x mod (1 + ((5x2 + 10x + 5) mod 9))),x))))
1: (~1 + (3 * (2 + compr(\x.loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(3x + 1)),x))))
1: (~2 + (2 * (1 + compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(2x2 + 6x + 5)),x))))
1: (~2 + (2 * (1 + compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(11x + 8)),x))))
1: (~1 + (2 * (~x - ((x div 4) mod 2))))
1: (~1 + (2 * (0 - (x mod (2 + (x mod 2))))))
1: (~2x + ~1)
1: (~x2 + ~2x + ~1)
1: (~2x2 + ~1)
1: (~x2 + ~1)
1: (~1 + (x * (0 - i)))
1: (~x + ((1 + (3 * (x + (x div 2))) - (x mod 2)) * (1 + (x div 2))))
1: (~1 + (~7 * (x div 2)))
1: (~1 + ((x + 1) * (1 - (2 * (x mod 2)))))
1: (~4 + ((x + 1) * (1 - (2 * (x mod 2)))))
1: (~1 + ((1 - (2 * i)) * (~1 + (2 * i))))
1: (~1 + (2 * (1 - (((x mod 2) - (x div (4 + ((x div 2) mod 2)))) div 2))))
1: ((3 * (1 - ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2))) - (x div 5))
1: (~1 + (2 * (1 - ((x mod (1 + ((2 - (x mod 4)) mod (x + 1)))) div 2))))
1: (~1 + ((1 - (x div 2)) * (x div 2)))
1: (~1 + ((x + 2) * (1 - ((x2 + x) mod 3))) - (x div 3))
1: ((~x2 + x) - (x2 div 4))
1: ((~x2 + x) - (((x2 + ~x) div 2) div 3))
1: ((~x2 + x) - (x mod 4))
1: (~2x + 35)
1: (~3x + 53)
1: (~7x + 100)
1: (~1 + (3 * (2 - (3 * (x div ~2)))))
1: ((3 * (2 - ((~x + 2) div (x + 2)))) - (x mod 2))
1: (~1 + ((2 - ((x + ~1) div 2)) * (x div 5)))
1: ((2 * (2 - ((x mod (2 + (x mod 2))) div 2))) - (x mod 2))
1: (~2 + (3 * (2 - (x div 2))))
1: (~x + (2 * (2 - (x div 4))))
1: (~1 + (3 * (2 - (2x mod (~2 - (x div 4))))))
1: (((2 - ((x div 2) mod 2)) * (2 + (if x <= 0 then 1 else 2))) - (x mod 2))
1: (~1 + ((x + 1) * (2 - ((x div 2) mod 2))))
1: (((x * (2 - (x mod 2))) + ((3 * (x div 4)) div 2)) - (x div 2))
1: ((2 * (2 - (x mod 4))) - (x mod 2))
1: (~1 + (x * (2 - (i mod 2))))
1: (~1 + (5 * (2 - (if (~x + 2) <= 0 then x else 2))))
1: ((~2x + 4) - ((~x3 + x) div 3))
1: ((~2x + 4) - (x div 2))
1: ((~2x + 4) - loop(\(x,i).(2x - i),x,0))
1: (~2x2 + 4x + ~1)
1: ((~x2 + 2x) - (((~x3 + x) div 2) div 3))
1: ((~x2 + 2x) - (x div 2))
1: ((~x2 + 2x) - (x mod 2))
1: (~x + (3 * (7 - (x mod 2))))
1: (2x2 + 22x + 27)
1: (2x2 + 29)
1: ((2 * ((4x + 1) - (x div 3))) - ((x + ~1) div 2))
1: (~1 + (2 * (2x + ((2 - (x div 4)) div 2) - (x mod 2))))
1: (~1 + (5 * ((x + ~1) + (x mod 2))))
1: (~1 + (2 * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) - compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x))))
1: (~1 + (2 * (~2 - (x mod 3))))
1: (~2x + ~5)
1: (~1 + (2 * (~3 + (x div 2))))
1: (~1 + (((~2x + ~1) + (x div 2)) * (x div 2)))
1: (~1 + (2 * (~4 + ((x div 2) mod 2))))
1: (~1 + (2 * (~3 + loop(\(x,i).(2x + 16),(x + 1),1))))
1: (~2 + (3 * (~4 + loop(\(x,i).(2x + 16),(x + 1),1))))
1: (~1 + (2 * (~3 + loop(\(x,i).10x,(x + 1),1))))
1: (~1 + (2 * (~4 + loop(\(x,i).10x,(x + 1),1))))
1: (9x + ~7)
1: (3x2 + ~2x + ~1)
1: (~1 + (3 * (~2 + (3 * i))))
1: (~2 + (3 * (8 - (x div 2))))
1: (~1 + (5 * (8 - (x div 2))))
1: ((5 * (8 - (x div 2))) - (x mod 2))
1: ((11 * (if x <= 0 then 1 else 2)) - (x mod 2))
1: (11x - (x div 3))
1: (11x - (x div ~11))
1: (~1 + (11 * i))
1: (~1 + (2 * ((2 * ((x + 2) + (x div 2))) - (x mod 4))))
1: (~1 + (2 * ((3x + 12) - (x div 2))))
1: (5x2 + 30x + 29)
1: ((~x + ~1) + (2 * (~1 + (2 * ((4x + 4) + ((x div 2) mod 2))))))
1: ((2 * ((10x + 4) - (x div 2))) - (if x <= 0 then 0 else 1))
1: (7x3 + 14x2 + 21x + 6)
1: (4x3 + ~3x2 + ~2x + ~1)
1: (2x3 + 6x2 + 4x + 9)
1: (~2 + (7 * (~1 + (2 * (1 + ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (x + ((~x + 1) mod 4))) div 2))))))
1: (~1 + (2 * (~x + (2 * (2 + (x mod 2))))))
1: (~1 + (2 * (~1 + ((x + 1) * (2 + (if (~2 + (x div 4)) <= 0 then 1 else 2))))))
1: (~2 + (3 * (~1 + (2 * (x + loop(\(x,i).i,(((x + ~1) div 2) div 2),1))))))
1: (~1 + (2 * ((2x + 4) - ((x + 1) div 3))))
1: (~4x2 + 4x + ~3)
1: (~3x2 + 3x + ~7)
1: (~1 + (2 * (~1 + (2 * (~1 + ((x + 1) * (2 + (if (~2 + (x div 4)) <= 0 then 1 else 2))))))))
1: (x4 + ~x3 + ~3x2 + ~3x + ~1)
1: (~1 + (3 * (~1 + (3 * (~2x + (x div 2))))))
1: (x3 + ~x2 + ~3x + ~3)
1: (x3 + ~x2 + ~4x + ~4)
1: (~8x2 + 4x + ~3)
1: ((9x2 + ~2x) - (if x <= 0 then 0 else 1))
1: (~2x + 31)
1: (23x + ~1)
1: (23x - (x div 2))
1: (~x2 + 19x + 19)
1: (99x + 71)
1: (57x + 47)
1: (10x3 + 30x2 + 30x + 17)
1: (~1 + (2 * (~1 + (4 * (1 + (36 * (1 + ((x + 1) * (1 + loop(\(x,i).(x * (x + i)),2,4))))))))))
1: (16x2 + 15x + 6)
1: (2x4 + 2x3 + 2x2 + 2x + ~3)
1: (~1 + (2 * (~1 + (4 * (1 + (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(8x + 1))),x)))))))
1: (~1 + (2 * (~1 + (4 * (2 + (4x2 div (x + 1)))))))
1: (~1 + (2 * (~1 + (6 * (1 + (((x + 1) mod (1 + (2 * ((1 + (x div 4)) div 2)))) div 2))))))
1: (96x2 + 208x + 141)
1: (7x2 + 16x + ~6)
1: (~1 + (9 * (12x - (if x <= 0 then 0 else 1))))
1: (~1 + (2 * (~1 + (4 * (x mod 2)))))
1: (8x + ~3)
1: (4x2 + ~x + ~1)
1: ((4x2 + ~x) - ((x + 1) div 3))
1: ((4x2 + ~x) - (if x <= 0 then 0 else 1))
1: ((2 * (4x - ((2x + 1) div 7))) - (((x + 1) div 2) div 2))
1: (~x + ((4x - (x div 2)) * (1 + (x div 2))))
1: (4x2 + 4x + ~5)
1: ((2x3 + ~x) - (((~x3 + x) div 2) div 3))
1: ((2x3 + ~x) - (((x3 + ~x) div 2) div 3))
1: ((2x3 + ~x) - (((x3 + ~3x2 + 2x) div 2) div 3))
1: (x5 + ~x3 + ~2x2 + 1)
1: (~1 + (4 * (~x + (2 * (x div 5)))))
1: (~2 + ((x + 1) * (~1 + (2 * (x mod 2)))) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: (~x + ((~1 + (2 * (i mod 2))) * (2 + i)))
1: (~1 + (2 * (~1 + (2 * loop(\(x,i).(10x + 16),(2x + ~1),1)))))
1: (~1 + (2 * (~1 + (2 * loop(\(x,i).x3,(2x + ~1),2)))))
1: (~1 + (2 * (~1 + (2 * loop(\(x,i).x2,1,(11x + 5))))))
1: (2x2 + ~x + ~1)
1: ((2x2 + ~x + 1) - ((x3 + ~3x2 + 2x) div 3))
1: (~x + (3 * (2x - ((2x + ~2) div 7))))
1: (~x + (2 * (2x - (x div (if i <= 0 then 1 else i)))))
1: ((2 * (2x - (x mod 9))) - (x mod 3))
1: ((2 * (2x - (if (~2 + (x div 2)) <= 0 then 0 else 1))) - (x mod 2))
1: (x3 + x2 + ~x + ~2)
1: (~2 + ((x2 + ~1) * (x div 2)))
1: (x3 + ~x + ~2)
1: ((x3 + ~x) - (3 * (x2 div 2)))
1: (2x2 + ~5)
1: (x4 + ~3x2 + 1)
1: (x4 + ~4x2 + 3)
1: ((x * (x2 - (x div 2))) - (((x3 + ~3x2 + 2x) div 2) div 3))
1: (~1 + (x * (~1 + (2 * i))))
1: (~1 + (2 * (~1 + ((x + (x div 4)) div ~2))))
1: (~1 + (2 * (((x + 1) div 3) - ((1 - (x div 3)) div 3))))
1: (~1 + (2 * (~x + (((~x + ~2) + (x mod 2)) div 3))))
1: ((2 * (~x + ((x + ~2) div 3))) - (x div 3))
1: (~1 + (2 * (~1 + ((x - ((~1 + (x div 2)) div 3)) div 2))))
1: (~1 + (2 * ((~2x + ~1) + ((x - (x div 4)) div 2))))
1: (~1 + (2 * (~2x + ((x - (x div 4)) div 2))))
1: (~1 + (2 * (~x + ((2x + 2) div 7))))
1: (~1 + (2 * ((~2x + ~2) + ((~2x + 2) div 5))))
1: (~1 + ((2x + 1) * (~1 + ((x2 + ~x) div 4))))
1: ((3 * (((x mod 3) div 2) - (x mod 2))) - (x mod 2))
1: (~x + ((~2 + (x div 2)) * (x div 2)))
1: (~1 + (((~x2 + ~2x) + (x div 2)) * (1 + (x div 2))))
1: (~1 + (2 * ((x div 2) - (2 * (x div 5)))))
1: (~2 + (3 * (~2x + (x div 2))))
1: (~1 + (2 * ((x div 2) - (x mod 2))))
1: (~1 + (2 * (~x + (x div 4))))
1: (~1 + (3 * (~x + (x div 5))))
1: (~1 + (2 * ((~x + ~1) + ((x + 1) mod 7))))
1: (~1 + (2 * (~x + ((x div 2) mod 2))))
1: (~1 + (3 * (~x + ((x div 2) mod 2))))
1: (~1 + (2 * (~x + ((x div 2) mod 5))))
1: (~1 + (2 * (~x + ((x div 4) mod 2))))
1: ((2 * (~1 + (loop(\(x,i).~2x,x,1) mod 7))) - (x mod 2))
1: (~1 + (3 * (~2 + (x mod 2))))
1: (~1 + (2 * (~8 + (x mod 2))))
1: (~1 + (2 * ((x mod 2) - (x * (x + (x div 2))))))
1: (~1 + (2 * (~8x + (x mod 2))))
1: (~1 + (2 * (~4x + (x mod 2))))
1: (~1 + ((2x + ~1) * (~2x + (x mod 2))))
1: (~1 + (2 * ((x mod 2) - (x div 4))))
1: (~1 + (2 * ((x mod 2) - (if (x mod 4) <= 0 then x else 1))))
1: (~1 + (3 * (~x + (x mod 2))))
1: (~1 + (2 * (~1 + (x mod 3))))
1: (~3 + (2 * (~1 + (x mod 3))))
1: (~x + (3 * (~1 + (x mod 4))))
1: (~x + (2 * (~2 + (x mod 4))))
1: (~1 + (2 * (~9 + (x mod 4))))
1: (~1 + (2 * (~2 + (x mod 5))))
1: (~1 + (3 * (~x + (x mod 9))))
1: (~1 + (9 * (~x + (x mod 9))))
1: (~2 + (9 * (~x + (x mod 9))))
1: (~1 + (2 * (~1 + (x mod (2 + (x mod 3))))))
1: (~1 + (3 * (~2 + (x mod ~5))))
1: (~1 + (2 * (~x + (x mod 6))))
1: (~1 + (2 * (~3 + (x mod 8))))
1: (~1 + (2 * (~x + (x mod 8))))
1: (~1 + (9 * (~x + (x mod 8))))
1: (~1 + (2 * (~x + (x mod 10))))
1: (~1 + (2 * (~1 + (x mod (2 * (1 + (if (x mod 2) <= 0 then 6 else 1)))))))
1: (~1 + (x * (~2 + (i mod 2))))
1: (~1 + (2 * (~2x + (i mod 2))))
1: ((2 * (~x + (i mod 2))) - (x mod 3))
1: (~1 + (2 * (~1 + (if (x mod 2) <= 0 then 2 else (2x2 + 2x)))))
1: (~x + (2 * ((if x <= 0 then 1 else 4x) - ((x + (x div 2)) div 4))))
1: (~1 + (2 * (~x + loop(\(x,i).(x2 + 1),2,3))))
1: (~1 + (2 * (~2 + loop(\(x,i).(x + (x mod 8)),x,3))))
1: (~2 + (3 * (~1 + loop(\(x,i).(x + loop(\(x,i).(8 div (x + 1)),2,i)),x,2))))
1: (~1 + (2 * (~1 + loop(\(x,i).(x2 + ~x + ~1),x,8))))
1: (~1 + (3 * (~1 + loop(\(x,i).(2x + 12),(x + 1),1))))
1: (~1 + (2 * (~1 + loop(\(x,i).(2x + 24),x,17))))
1: (~1 + (2 * (~2 + loop(\(x,i).(10x + 8),(x + 1),0))))
1: (~1 + (x * (~2 + loop(\(x,i).(x2 + 4x + 4),2,2))))
1: (~1 + (2 * (loop(\(x,i).(x2 + x + ~2),x,2) - loop(\(x,i).2x,x,1))))
1: (~1 + ((x2 + 2x + 1) * (~2 + loop(\(x,i).(x2 + 2x),2,2))))
1: (~3 + (2 * (~x2 + loop(\(x,i).(x * (2 + i)),(x + 1),4))))
1: (~1 + (2 * (~1 + loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,2))))
1: (~1 + (3 * (~2 + loop(\(x,i).10x,(x + 1),1))))
1: (~2 + (3 * (~2 + loop(\(x,i).10x,(x + 1),2))))
1: (~1 + (2 * (~1 + loop(\(x,i).10x,x,2))))
1: (~1 + (2 * (~2 + loop(\(x,i).8x,(x + 1),1))))
1: (~1 + (3 * (~2 + loop(\(x,i).4x,x,1))))
1: (~1 + (2 * (loop(\(x,i).4x,x,1) - (if (x + ~1) <= 0 then x else 0))))
1: (~x + (2 * (loop(\(x,i).4x,x,2) - loop(\(x,i).(3x + ~1),x,2))))
1: (~1 + (2 * (loop(\(x,i).2x,x,1) - (x mod 2))))
1: (~1 + ((x + 1) * (~x + loop(\(x,i).2x,x,1))))
1: ((x2 + ~x) - ((x2 + 2x) div 8))
1: ((x2 + ~x) - (((x3 + ~x) div 2) div 3))
1: ((x2 + ~x) - ((x2 div 2) div (2 + (x div 2))))
1: ((2x + ~4) - (x div ~4))
1: ((2x + ~4) - i)
1: (3x + ~8)
1: ((x2 + ~4x + 4) - i)
1: (x2 + ~2x + 20)
1: ((x2 + ~2x) - (((x3 + ~x) div 2) div 3))
1: ((x2 + ~2x) - ((x3 div 2) div 3))
1: ((x2 + ~2x) - (x div (~2 + (x mod 2))))
1: (~1 + (2 * (~2 - (if x <= 0 then 1 else (2 * (2x + ((x + ((x div 2) mod 2)) div 2)))))))
1: ((~x + ~1) + (5 * ((x + 1) - (((~x + 2) - (x div 4)) div 4))))
1: (~1 + (2 * ((x + 1) - (loop(\(x,i).(x2 + 3x),1,loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)) div 2))))
1: (~1 + (((5x + 2) - (x div 2)) * ((x + 1) div 2)))
1: (~1 + (((x + 2) - (x div ~2)) * (1 + (x div 2))))
1: (~1 + ((x + 2) * ((x + 1) - (x mod 9))))
1: ((~x + ~1) + (10 * ((x + 1) - (x mod 9))))
1: (~1 + (2 * ((x + 1) - loop(\(x,i).(x - (x div 8)),6,x))))
1: (x2 + ~10x + 14)
1: (x2 + 15x + 13)
1: (25x + ~11)
1: (7x2 + ~3x + ~1)
1: (15x + ~13)
1: (~2 + (3 * (x - ((~x + 1) * (x div 2)))))
1: (4x3 + ~3x2 + 2x + ~1)
1: ((3 * (x - (2 * (~1 + (2 * (~2x + (x div 2))))))) - (x div 2))
1: (~1 + (2 * (x - (2 * ((~2x + ~2) + (x mod 2))))))
1: (7x2 + ~6x + ~1)
1: (~21x + ~1)
1: (~22x + ~1)
1: (~4x2 + 2x + ~1)
1: (~6x2 + 2x + ~1)
1: ((2 * (x - (2 * (x div 3)))) - (if x <= 0 then 0 else 1))
1: (~1 + (2 * (x - (2 * (x mod 4)))))
1: (~1 + (2 * (x - (3 * (if x <= 0 then 0 else 2)))))
1: (~1 + (3 * (x - (2 div (x + ~16)))))
1: (~1 + (2 * (x - ((x + 2) div (~6 + (((x + ~1) div 2) div 2))))))
1: (~1 + (2 * (x - ((0 - loop(\(x,i).(x * i),x,1)) div (x + 2)))))
1: (~1 + (2 * (x - ((1 - ((x + ((2 + loop(\(x,i).2x,(x + ~1),1)) div (x + 1))) div 2)) div 2))))
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1: (~1 + (2 * (x - ((x + ~1) div (3 + (x div 2))))))
1: (~1 + (2 * (x - ((2 * ((~x + ~1) + (x mod 2))) div 5))))
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1: (~x + (3 * (x - (2x div 5))))
1: (~x + (2 * (x - (((x2 + ~x) div 2) div 7))))
1: ((2 * (x - (x div ~3))) - (x div 3))
1: (~1 + (2 * (x - (loop(\(x,i).3x,x,3) mod (x + 1)))))
1: (~1 + (2 * (x - (x mod 8))))
1: (~1 + (2 * (x - (x mod 10))))
1: (~1 + (2 * (x - loop(\(x,i).((~x2 + x) div 2),2,(x + ~1)))))
1: (~1 + (3 * (x - loop(\(x,i).(x div (1 + (x mod 2))),x,x))))
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1: (~2 + (x * (x - i)))
1: (~1 + (2 * (~2x + i)))
1: ((~x + 1) + (2 * (~x + i)))
1: (~1 + (2 * (~1 + compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(5x + ~2))),x))))
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1: (9x - ((x div 2) mod 2))
1: (9x - ((x div 3) mod 2))
1: (9x - loop(\(x,i).4x,(~1 + i),1))
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1: (15x - (x div 2))
1: (15x - (x div 3))
1: (~2 + (9 * i))
1: (16 - ((x div 2) div 7))
1: (16 - (x mod (1 + i)))
1: (16 - (if (x + ~2) <= 0 then 1 else 2))
1: (24 - ((x + 2) mod 4))
1: (24 - (x mod 3))
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1: (20 - (x mod 2))
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1: ((10x + 3) - (x mod 4))
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1: (10x - (x div ~2))
1: (10x - (((x + 1) div 3) mod 2))
1: (10x - (x mod 2))
1: (10x - (if (x + ~1) <= 0 then x else 0))
1: (10x - loop(\(x,i).(10x + 1),i,0))
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1: (~1 + (5x * i))
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1: (2x2 + 16x + 23)
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1: (~1 + (6 * ((x + 1) + (5 * (1 + (x div 2))))))
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1: (~1 + (6 * (3 + ((x + (x div 2)) div (4 + (x div 2))))))
1: (~1 + (6 * ((x + 2) + (2x div 3))))
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1: (~1 + ((2x + 4) * ((x + 1) + (4 mod (x + 2)))))
1: ((~x + 1) + (4 * (3 + ((x div 2) mod 2))))
1: (~1 + ((3x + 3) * (3 + loop(\(x,i).(2x2 + x),3,x))))
1: (~1 + (4 * (4 + loop(\(x,i).2x,x,1))))
1: (~1 + (6 * (3 + loop(\(x,i).loop(\(x,i).(x2 + x),x,2),x,0))))
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1: ((4x + 16) - (x div 2))
1: (3x2 + 15x + 11)
1: (11x2 + 55x + 43)
1: (x3 + 7x2 + 14x + 7)
1: (~1 + (4 * (4 - (((x + ~1) div 2) div 2))))
1: (~1 + (4 * (4 - (x div 5))))
1: (~x + (4 * (4 - (x mod 2))))
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1: (14x - (x div 2))
1: (21x + ~1)
1: (30x + 19)
1: (75x + 49)
1: (6x2 + 16x + 7)
1: (9x2 + 6x + ~1)
1: (26x + 25)
1: (2x2 + 23x)
1: (19x + 16)
1: (30x + 23)
1: (50x + 39)
1: (49x + 10)
1: ((20x + 8) - (x mod 2))
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1: (19x + 8)
1: (49x + 20)
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1: (~1 + (6 * (1 + (3 * ((x + 1) + (x div 4))))))
1: ((~x + ~1) + (4 * (1 + (2 * ((2x + 1) + ((x div 4) mod 2))))))
1: (6x2 + 71x + 203)
1: (14x4 + 27x3 + 19x2 + 7x + 1)
1: (~1 + (4 * (1 + (2 * (1 + (2 * (x + (x div 11))))))))
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1: (5x3 + 15x2 + 15x + 9)
1: (4x2 + 4x + 7)
1: (4x2 + 4x + 15)
1: (9x2 + 12x + ~1)
1: (4x2 + 16x + 23)
1: (4x2 + 8x + 7)
1: ((4x2 + 8x + 8) - (if x <= 0 then 1 else 0))
1: (~1 + (10 * (1 + (2 * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))))
1: (~1 + (4 * (1 + (2 * (~2 + loop(\(x,i).(2x + ((x + (x2 div 3)) div 2)),x,2))))))
1: (~1 + (6 * (2 + (3 * (x - ((~x + 2) div 4))))))
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1: (3x2 + 51x + 47)
1: (18x2 + 34x + 15)
1: (144x2 + 161x + 45)
1: (9x3 + 18x2 + 12x + 2)
1: (8x3 + 38x2 + 57x + 26)
1: (50x + 79)
1: (66x2 + 132x + 65)
1: (~1 + (4 * (1 + (36 * (1 + ((x + 1) * (1 + loop(\(x,i).(x * (x + i)),2,4))))))))
1: (36x2 + 36x + 5)
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1: (~1 + (6 * (1 + (4 * (x mod 2)))))
1: (~x + ((3x + 3) * (1 + (4 * loop(\(x,i).(2 * (2 + ((if x <= 0 then 2 else (~2 + loop(\(x,i).4x,(x + 1),2))) div 2))),x,2)))))
1: (72x + 17)
1: (8x2 + 10x + 1)
1: (8x2 + 2x + ~1)
1: (23x + 4)
1: (8x3 + 2x + ~1)
1: (x7 + x6 + x5 + x4 + x3 + x2 + x)
1: (2x4 + 4x + ~1)
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1: (~1 + (6 * (1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div (1 + (x mod 5))))))))
1: (~1 + (6 * (1 + (2 * ((~x + 2) mod 4)))))
1: (~1 + (6 * (1 + (2 * loop(\(x,i).((4x * i) - (x mod 2)),x,1)))))
1: (~1 + (10 * (1 + (2 * loop(\(x,i).(2x + 16),x,1)))))
1: (~1 + (6 * (2 + (3 * loop(\(x,i).2x,x,2)))))
1: ((8x + 4) - (3 * ((x - (x div 4)) div 2)))
1: ((8x + 4) - ((x + (x div 3)) div 5))
1: ((8x + 4) - ((((x + 1) - (x div 4)) div 2) div 2))
1: ((8x + 4) - (x div ~2))
1: ((8x + 4) - (i mod 2))
1: (16x2 + 12x + 1)
1: ((54x + 27) - (x mod 2))
1: (6x2 + 15x + 5)
1: (4x2 + 2x + ~1)
1: ((2x3 + x2) - (((x3 + ~x) div 2) div 3))
1: (5x3 + 3x + ~2)
1: (x4 + x3 + x2 + x + ~1)
1: (6x2 + 17)
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1: ((4 * (1 + (2 * i))) - i)
1: (~1 + (2x * (1 + (2 * i))))
1: ((2x * (1 + (2 * i))) - i)
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1: (~1 + (4 * (1 + (4 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,8x)),x)))))
1: (~1 + (4 * (1 + (2 * compr(\x.loop(\(x,i).loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,0),2,x),(x + 1))))))
1: (~1 + (6 * (1 + (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) + (if (x + ~2) <= 0 then 1 else 2) + (x div 5)) div 2))))
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1: (~x + (4 * (2 + (if (x mod 2) <= 0 then (x div 2) else 2))))
1: ((15 * (2 + (if x <= 0 then 0 else 2))) - (x mod 2))
1: (~1 + (6 * (1 + (if x <= 0 then 0 else (1 + ((2 * (1 + ((1 + (x div (1 + (x mod ((x + 1) - (loop(\(x,i).2x,x,2) mod (x + 1))))))) div 2))) div 3))))))
1: (~1 + (6 * (1 + loop(\(x,i).(x + (if (i mod (2 + (x mod 2))) <= 0 then 1 else x)),x,0))))
1: (~1 + (6 * (x + loop(\(x,i).(2x2 + 2),(x + ~2),1))))
1: (~1 + (4 * (1 + loop(\(x,i).(3x + 3),(x div 3),(x mod 3)))))
1: (~x + ((x2 + 2x + 1) * (2 + loop(\(x,i).x2,(x + ~2),3))))
1: (~1 + (10 * (2 + loop(\(x,i).x2,x,4))))
1: (~2 + (4 * (x + loop(\(x,i).(2 * i),(((x + ~1) div 2) div 2),1))))
1: (~1 + (6 * (1 + loop(\(x,i).(if x <= 0 then 2 else (2 * (2x - (x div (1 + i))))),x,0))))
1: ((6x + 5) - compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x))
1: ((6x + 6) - ((x - (x div 5)) div 3))
1: ((6x + 6) - ((~2x + 2) div 7))
1: ((6x + 6) - ((~2x + 4) div 7))
1: ((6x + 6) - (((x + 1) div 2) div 3))
1: ((6x + 6) - (x div 3))
1: ((6x + 6) - (if ((x + 1) mod 5) <= 0 then 0 else 1))
1: ((10x + 10) - i)
1: (2x2 + 8x + 5)
1: (4x2 + 6x + 1)
1: ((9x + 9) - (x mod 5))
1: (15x + 14)
1: (5x2 + 5x + ~1)
1: (x3 + 4x2 + 3x + ~1)
1: (x3 + 2x2 + x + ~1)
1: ((x3 + 2x2 + x) - (((~x3 + x) div 2) div 3))
1: (10x + 19)
1: ((10x + 20) - (x mod 2))
1: ((2x2 + 6x + 4) - (3 * (x mod 2)))
1: (2x2 + 2x + ~5)
1: (6x2 + 21x + 17)
1: (3x2 + 9x + 5)
1: (x3 + 4x2 + 5x + 1)
1: (3x2 + 12x + 11)
1: (2x3 + 9x2 + 12x + 3)
1: (x3 + 6x2 + 12x + 6)
1: ((x3 + 6x2 + 12x + 8) - ((x2 + x) div 2))
1: (x3 + 6x2 + 11x + 8)
1: (8x2 + 31x + 32)
1: ((2x2 + 4x) - (3 * (x mod 2)))
1: ((2x2 + 4x) - ((x + 1) div 2))
1: ((2x2 + 4x) - (((x2 + 2x) div 2) div 3))
1: ((2x2 + 4x) - (x div 2))
1: (5x2 + 9x)
1: (2x3 + 5x2 + 2x + ~1)
1: (((x2 + 2x) * (1 + (x div 2))) - (((x3 + 3x2 + ~x + ~3) div 2) div 3))
1: (x3 + 3x2 + 2x + ~1)
1: (x3 + 3x2 + 2x + ~2)
1: ((x3 + 3x2 + 2x) - (((~x3 + x) div 2) div 3))
1: ((x3 + 4x2 + 4x) - (x2 div 2))
1: (~1 + (6 * (1 + i)))
1: (~1 + (10 * (1 + i)))
1: (~1 + (4 * (2 + i)))
1: (~x + (5x * (2 + i)))
1: (~1 + (8 * (1 + compr(\x.(1 + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then x else (1 + i))),x,x)),x))))
1: (~1 + (6 * (1 + compr(\x.((1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,x)) mod 3),x))))
1: (~1 + (4 * (1 + compr(\x.(loop(\(x,i).(1 + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,2x)),2,x) mod (x + 1)),x))))
1: (~2 + (6 * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (~1 + (22 * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (~1 + (6 * (1 + compr(\x.loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(3x + 1)),x))))
1: (~1 + (9 * (2 + (2 * (x + (3 * (1 + (x div 2))))) - (x div 2))))
1: (~1 + (2 * (((~x + 1) + (2 * (6 + (x mod 2)))) * (if x <= 0 then 1 else 2))))
1: (~1 + (x * ((1 - (2 * (i mod 2))) * i)))
1: (~4x3 + 4x + ~1)
1: (~1 + (2 * ((1 - ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)) * (if x <= 0 then 1 else 2))))
1: (~1 + (3 * ((1 - (if (2 - (x div 4)) <= 0 then (x mod 8) else 1)) * (1 + (if x <= 0 then 0 else 2)))))
1: (~7x + 6)
1: (~9x + 8)
1: (~14x2 + 13x)
1: (~4x3 + 6x2 + ~2x + ~1)
1: (~4x2 + 4x + ~1)
1: (~5x2 + 5x + ~1)
1: (~8x2 + 7x)
1: (~6x + 107)
1: (((2x + 2) * (2 - (x mod 2))) - (x mod 2))
1: (~2x2 + 8x + ~9)
1: (~x3 + 3x2 + ~2x + ~1)
1: (~1 + ((~x2 + 2x) * (x div 2)))
1: (~1 + ((~x2 + 2x) * (x div 3)))
1: (3x3 + ~2x2 + ~1)
1: (~x + ((4x + 2) * (8 - (if x <= 0 then 0 else 1))))
1: (22x - (x div 2))
1: (~1 + ((2x + 2) * ((2x + 4) - ((1 + (x div 2)) mod 2))))
1: (~1 + (4 * ((2x + 4) - ((x + 2) mod 8))))
1: (6x2 + 12x + ~7)
1: (~1 + (4 * (~1 + (2 * (~1 + (4 * (1 + (36 * (1 + ((x + 1) * (1 + loop(\(x,i).(x * (x + i)),2,4))))))))))))
1: 229
1: (46x2 + 92x + 45)
1: (46x - (2x div 5))
1: (~1 + (6 * (~1 + (6 * (1 + (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(9x + 1))),x)))))))
1: (8x2 + 24x + 11)
1: (62x2 + 124x + 61)
1: (91x + 64)
1: (~x + (4 * (4x - (((x - ((2 - (x div 4)) div 2)) div 2) div 2))))
1: (12x2 + ~2x + ~1)
1: (4x4 + 8x3 + ~4x + ~1)
1: (~1 + (4 * ((2 * ((1 + (x mod (2 + (x div 4)))) mod 2)) - (x mod 3))))
1: (~1 + (6 * (~1 + (2 * ((2x + ~1) mod 7)))))
1: (8x + ~5)
1: (~x + (4 * (2x - ((x - ((~x + 2) div 2)) div 5))))
1: ((6 * (2x - (x mod 2))) - (x mod 2))
1: (x4 + ~x2 + ~1)
1: (~1 + (4 * (~2x + (x div 2))))
1: (~1 + (6 * (~1 + (x mod 4))))
1: (~1 + (6 * (~1 + loop(\(x,i).11x,x,4))))
1: (~1 + (6 * (~2 + loop(\(x,i).10x,(x + 1),(x + 1)))))
1: (~3 + (4 * (~1 + loop(\(x,i).2x,(~4 + (x div 2)),2))))
1: (x3 + ~3x2 + 3)
1: ((2x2 + ~4x) - (((~x3 + x) div 2) div 3))
1: (2x3 + ~3x2 + ~2x + ~1)
1: (x3 + ~x2 + ~2x + ~1)
1: (2x2 + 2x + ~41)
1: (~1 + (2 * (((x + 2) - (x div ~2)) * (1 + (x div 2)))))
1: (~1 + (18 * ((x + 1) - (x div ~4))))
1: (~2 + (10 * ((x + 1) - (x div ~9))))
1: (19x + ~16)
1: (~16x2 + 4x + ~1)
1: (~1 + (4 * (x - ((~1 + (x div 2)) div 2))))
1: ((4 * (x - (x div ~2))) - (x div 2))
1: ((6 * (x - (x div ~4))) - ((x + 1) div 2))
1: (54 - (if x <= 0 then 0 else 1))
1: (27x + ~1)
1: (32 + ((3 * (x div 4)) div 2) - ((x + 1) div 2))
1: (32 - ((x div 2) mod 2))
1: (32 - (x mod 2))
1: (32 - loop(\(x,i).2x,x,1))
1: (48 - (x mod 3))
1: (16x + 79)
1: (72x + 71)
1: (~x + ((16x + ~8) * (1 + (x mod 2))))
1: (20x2 + 40x + 19)
1: (28x2 + 56x + 27)
1: (52x2 + 104x + 51)
1: (68x2 + 136x + 67)
1: (44x2 + 88x + 43)
1: (60x2 + 120x + 59)
1: (200x + 49)
1: (50x + 49)
1: (23x + 16)
1: (64x2 + 88x + 39)
1: (64x2 + 136x + 87)
1: (48x2 + 104x + 71)
1: (16x3 + 36x2 + 28x + 7)
1: ((~x + ~1) + (8 * (1 + (2 * (x + (x div 8))))))
1: (4x5 + 20x4 + 43x3 + 49x2 + 28x + 5)
1: (64x2 + 120x + 71)
1: (~1 + (8 * (2 + (16 * (2x - (x mod 2))))))
1: (64x2 + 64x + 7)
1: (12x3 + 5x)
1: ((24x + 12) - (if x <= 0 then 1 else 2))
1: (40x + 19)
1: (16x2 + 16x + 3)
1: (~1 + (8 * (1 + (2 * compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(8x + 2)),x)))))
1: ((18x + 18) - (x mod 4))
1: (30x + 29)
1: (6x2 + 12x + 5)
1: (10x2 + 20x + 9)
1: (14x2 + 28x + 13)
1: (18x2 + 36x + 17)
1: (26x2 + 52x + 25)
1: (34x2 + 68x + 33)
1: (22x2 + 44x + 21)
1: (30x2 + 60x + 29)
1: (153x + 152)
1: (4x2 + 12x + 7)
1: (6x2 + 18x + 11)
1: (4x3 + 18x2 + 23x + 8)
1: (x4 + 9x3 + 28x2 + 35x + 16)
1: (2x3 + 12x2 + 24x + 15)
1: (~1 + (8 * (3 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (~1 + (2x * ((~1 + (2 * i)) * (1 + i))))
1: (~16x2 + 8x + ~1)
1: (32x + 159)
1: (32x2 + 64x + 31)
1: (24x2 + 48x + 23)
1: (40x2 + 80x + 39)
1: (56x2 + 112x + 55)
1: (50x2 + ~1)
1: (216x2 + 720x + 503)
1: (~1 + ((6x + 6) * ((2 + (if x <= 0 then 0 else 2)) * (1 + (((x + 1) div 2) mod 3)))))
1: (~1 + (32 * (x + loop(\(x,i).(x - ((~1 + (x div 4)) div 2)),2,(x + ~1)))))
1: (~1 + (24 * (2 + loop(\(x,i).x2,1,((23x + 23) + (x div 9))))))
1: (54x2 + 108x + 53)
1: (8x2 + 55x + 79)
1: (~1 + (16 * (~1 + (4 * loop(\(x,i).(2x + 4),x,2)))))
1: (64x + 319)
1: ((64x + 64) - (x div 15))
1: (48x + ~1)
1: (48x2 + ~1)
1: (~1 + (24 * (x div 2)))
1: (~1 + (16 * loop(\(x,i).(x + (if (~x + 2) <= 0 then x else 2)),x,(~x + 1))))
1: (~1 + (54 * loop(\(x,i).x2,1,(9x + 4))))
1: (16x - (x div 2))
1: (16x - (x div ~2))
1: (24x + ~1)
1: (24x - (x div 2))
1: (16x2 + ~1)
1: (~x + (i * i * i * i * i * i * i))
1: (~1 + (8 * ((1 + (4 * (x + (if (x + ~4) <= 0 then 1 else 2)))) div 3)))
1: ((8 * ((2x + 1) div (3 + (x div 4)))) - (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))
1: (~1 + (8 * ((3 * compr(\x.(1 - (x mod (2 + ((1 + ((x - ((x div 2) mod 2)) div 2)) mod 5)))),x)) div 2)))
1: ((8 * (x mod 2)) - (x div 5))
1: ((8 * (x mod 2)) - loop(\(x,i).2x,x,1))
1: ((2 * ((if (x mod 4) <= 0 then 8 else 1) * (if x <= 0 then 1 else 2) * (2 - (x mod 2)))) - (if x <= 0 then 1 else 2))
1: ((8x + 1) - loop(\(x,i).(x + (if (~2 + (x div 4)) <= 0 then 1 else 2)),2,x))
1: (8x + loop(\(x,i).5x,x,1) - loop(\(x,i).3x,x,1))
1: (7x + ((~x + (x div 4)) div 5))
1: (7x + (x div ~12))
1: (8x - (3 * (~1 + ((x - (x div 4)) div 2))))
1: (8x - (3 * ((x - (x div 4)) div 2)))
1: (8x - (2 div (x + 1)))
1: (8x - ((x + ((~x + 1) mod 3)) div 4))
1: (8x - ((x + ((x div 3) mod 3)) div 3))
1: (8x - ((x + 1) div 3))
1: (8x - ((x + 2) div 5))
1: (8x - ((~x + (x div ~12)) div 2))
1: (8x - ((x - ((x + (x div 3)) div 3)) div 2))
1: (8x - ((x - ((2 - (x div 2)) div 2)) div 2))
1: (8x - ((x div ~2) div 5))
1: (8x - ((if (i mod 2) <= 0 then 1 else 2x) div (1 + i)))
1: (8x - (x div 3))
1: (8x - (i div ~2))
1: (8x - ((x div 2) mod 3))
1: (8x - (x mod 2))
1: (8x - (x mod ~3))
1: (8x - (if x <= 0 then 0 else 1))
1: (8x - loop(\(x,i).3x,(2 * i),1))
1: (12x - (2 div (x + 1)))
1: (12x - (x div 4))
1: (12x - (if x <= 0 then 0 else 1))
1: (20x + ~2)
1: (20x - (x div 2))
1: (4x2 + 12x + ~1)
1: (18x - (x div 2))
1: (18x - (x div 9))
1: (18x - (if x <= 0 then 0 else 1))
1: (6x2 + ~6x + ~1)
1: (6x2 + ~1)
1: (6x2 - (x mod 2))
1: (2x3 + 2x2 + ~1)
1: ((2x3 + 2x2) - (((x3 + ~x) div 2) div 3))
1: (12x2 + ~1)
1: (3x3 + ~1)
1: (x4 + x3 + ~1)
1: (~1 + (8 * i))
1: (~x + (10x * i))
1: (~x + (i * i * i * i * i * i))
1: (~x + (i * i * i * i * i))
1: (~1 + (4 * ((1 + (4 * (x + (if (x + ~4) <= 0 then 1 else 2)))) div 3)))
1: ((4 * ((1 + (4 * (x + (if (x + ~4) <= 0 then 1 else 2)))) div 3)) - (x mod 2))
1: (~1 + (6 * ((x + 1) div 7)))
1: (~x + (6 * ((x + 1) div (if ((x + 1) mod 5) <= 0 then 4 else 1))))
1: (~1 + (6 * ((~3 + loop(\(x,i).(2x + 40),(x + 1),1)) div 2)))
1: (~1 + (4 * ((3 * compr(\x.(1 - (x mod (2 + ((1 + ((x - ((x div 2) mod 2)) div 2)) mod 5)))),x)) div 2)))
1: (~1 + (4 * (x div 3)))
1: (~1 + (4 * (x div 5)))
1: (((4 * (x div 5)) + ((3 * (x div 4)) div 2)) - ((x + 1) div 2))
1: (~1 + (9 * (x div ~2)))
1: (~1 + (6 * ((1 + (loop(\(x,i).3x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 3)) mod (x + 4))))
1: (~x + (4 * ((x div 3) mod 3)))
1: ((4 * ((x div 5) mod 2)) - (x mod 5))
1: (~1 + (6 * (loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1))))
1: (~1 + (4 * (x mod 2)))
1: ((4 * (x mod 2)) - (x mod 3))
1: ((6 * (x mod 2)) - (x div 2))
1: ((4 * (x mod 4)) - (x mod 2))
1: (~1 + (4 * (x mod 5)))
1: (~1 + (4 * (x mod (2 + (x mod 2)))))
1: ((4 * (x mod 11)) - (x div 3))
1: ((4 * (x mod 10)) - (x div 3))
1: (~1 + (6 * (x mod 10)))
1: (~1 + (4 * (x mod (2 * (1 + (2 * (x mod 2)))))))
1: (~2 + ((3x + 3) * (if (~x + 2) <= 0 then 3x else 1)))
1: ((4 * (if (~x + 2) <= 0 then x else 2)) - (x mod 3))
1: (~1 + (9 * (if (~2 + (x div 4)) <= 0 then 1 else 2)))
1: (~1 + (6 * (if (x mod 4) <= 0 then 4 else 1)))
1: ((2 * ((if (x mod 4) <= 0 then 8 else 1) * (if x <= 0 then 1 else 2))) - (x mod 2))
1: (~1 + (6 * (if (x mod (1 + ((x + ~1) mod 4))) <= 0 then 1 else 2)))
1: ((9 * (if x <= 0 then 1 else 2)) - (x mod 7))
1: (~1 + ((3x + 3) * (if x <= 0 then 1 else ((x2 + 2) + loop(\(x,i).x2,2,x2)))))
1: (~1 + (4 * (if x <= 0 then 1 else (2 + (3 * ((1 + loop(\(x,i).2x,x,(1 + loop(\(x,i).3x,x,1)))) div 3))))))
1: (((2x + 2) * (if x <= 0 then 1 else (x + 2))) - (((~x3 + x) div 2) div 3))
1: (~1 + ((3x + 3) * (if x <= 0 then 2 else 2x2)))
1: (~1 + (10 * loop(\(x,i).(5x + 2),(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),2)))
1: (~1 + (6 * loop(\(x,i).(x2 + 2x + 1),x,8)))
1: (~1 + (21 * loop(\(x,i).(2x + 1),(x + 2),2)))
1: (~1 + (4 * loop(\(x,i).(2x + loop(\(x,i).(4x + loop(\(x,i).3x,i,1)),i,1)),x,2)))
1: (~1 + (4 * loop(\(x,i).3x,2x,2)))
1: (~1 + (6 * loop(\(x,i).(x * (5 + i)),x,2)))
1: (~x + (4 * loop(\(x,i).(2 * ((x + 1) + i)),x,2)))
1: (~1 + (34 * loop(\(x,i).(2x + 4),x,1)))
1: (~1 + (4 * loop(\(x,i).(2x + 4),x,2)))
1: (~1 + (4 * loop(\(x,i).(2x + 4),x,4)))
1: (~1 + (6 * loop(\(x,i).(2x + 4),x,4)))
1: (~1 + ((3x + 3) * loop(\(x,i).(x2 + 2x),2,6)))
1: (~1 + (4 * loop(\(x,i).(x2 * (x div 2)),(x + 4),2)))
1: (~1 + ((2x + 4) * loop(\(x,i).x2,2,(x + 2))))
1: (~1 + ((3x + 3) * loop(\(x,i).(if x <= 0 then (x + 1) else (2 - loop(\(x,i).(x - (2 * (~2x + (i mod 2)))),x,0))),x,1)))
1: (~1 + (6 * loop(\(x,i).loop(\(x,i).x3,4,2),(x + ~2),loop(\(x,i).6x,x,1))))
1: ((4x + ~4) - (x div 4))
1: (3x - (((if (~2 + (x div 3)) <= 0 then 2 else (x div 2)) mod (x + 1)) div 2))
1: (3x - (x div (4 + ((x div 2) div 5))))
1: ((4x + ~1) - i)
1: ((4x + ~1) + ((2 * loop(\(x,i).x2,x,2)) div 3))
1: ((4x + ~1) + ((x + ~2) mod (3 - (x mod 2))))
1: ((4x + 1) - ((2 * ((2x + 2) + (if x <= 0 then 1 else (2 * (2x + ((x + (x div 3)) div 5)))))) div 3))
1: ((4x + 1) - ((x + (x div 4)) mod ~4))
1: ((4x + 1) - (((x2 + 3x + 2) div 2) mod 7))
1: (4x - (1 div ((x + ~1) + (x mod 2))))
1: (4x - ((1 + ((x - ((x div 4) mod 2)) div 2)) div 2))
1: (4x - ((x + (x div 3)) div 5))
1: (4x - ((x + ((1 - (x div 2)) mod 4)) div 4))
1: (4x - ((x + ((x div 2) mod 2)) div 2))
1: (4x - ((x + ((x div 2) mod 4)) div 4))
1: (4x - ((x + 1) div 3))
1: (4x - ((x + 1) div (1 + i)))
1: (4x - ((x + 2) div 3))
1: (4x - ((0 - (if (~4 + (x div 2)) <= 0 then 1 else x)) div 5))
1: (4x - ((~x2 + 1) div (x + 4)))
1: (4x - ((1 - (x2 div 2)) div (2x + 1)))
1: (4x - ((~x2 + 2) div (3x + 2)))
1: (4x - ((~x + 2) div 4))
1: (4x - ((~x + 2) div 5))
1: (4x - (((~x + 1) - (x mod 2)) div 3))
1: (4x - (((~x + 2) - (x div 2)) div 5))
1: (4x - ((2x - (x div 4)) div 3))
1: (4x - ((~x + ((x div 2) mod 2)) div 3))
1: (4x - ((((x div 2) mod 4) - (if x <= 0 then 1 else x)) div 4))
1: (4x - ((((x div 4) mod 2) - (if x <= 0 then 1 else x)) div 2))
1: (4x - ((~x + (if (x + ~2) <= 0 then 0 else 1)) div 3))
1: (4x - ((x - ((x + (x div 3)) div 3)) div 2))
1: (4x - ((x - ((2 - (x div 3)) div 2)) div 2))
1: (4x - ((x - ((2 - (x div 4)) div 2)) div 2))
1: (4x - ((x - (x div 5)) div 3))
1: (4x - ((x - (x div ~7)) div 2))
1: (4x - ((x - (x div 12)) div 2))
1: (4x - ((x - (if (~2 + (x div 4)) <= 0 then 2 else 1)) div 2))
1: (4x - (3x div 5))
1: (4x - (8 div (x + 1)))
1: (4x - ((4x + ~4) div 7))
1: (4x - ((2 * ((2x + 2) + (x div (1 + (2 * (if (~4 + (x div 2)) <= 0 then 2 else 1)))))) div 3))
1: (4x - ((2x + 2) div (4 + ((x div 2) div 3))))
1: (4x - ((~2x + 4) div 9))
1: (4x - ((2 * (x - (if (x + ~4) <= 0 then 1 else 2))) div 3))
1: (4x - ((3 * (x div 4)) div 2))
1: (4x - (x2 div ((x + 2) - (x div ~3))))
1: (4x - ((2 * i) div (x + 1)))
1: (4x - ((((x + 1) - (x div 4)) div 2) div 2))
1: (4x - (((1 + (x div 2)) div 2) div 2))
1: (4x - ((((x + ~1) div 2) div 2) div 2))
1: (4x - ((((x + ~1) div 2) div 2) div ~2))
1: (4x - ((x div 2) div 3))
1: (4x - ((x div 2) div 5))
1: (4x - (((x + ~1) mod (2 + (x div 2))) div 2))
1: (4x - ((x mod 3) div 2))
1: (4x - ((if x <= 0 then 1 else x) div ~4))
1: (4x - (x div (4 + ((x div 2) div 5))))
1: (4x - (x div (1 + (if (x mod 3) <= 0 then 2 else 0))))
1: (4x - (x div (1 + (if (i mod 2) <= 0 then 2 else 0))))
1: (4x - (x div ~4))
1: (4x - (x div (~3 + ((~x + 2) div 4))))
1: (4x - (x div ~8))
1: (4x - (x div (if i <= 0 then 1 else (i * i))))
1: (4x - (2 mod (~2x + 1)))
1: (4x - ((~1 + i) mod 3))
1: (4x - (((x + 1) * (x div 2)) mod 2))
1: (4x - (x2 mod 3))
1: (4x - ((x div 2) mod 2))
1: (4x - (if (~x + 2) <= 0 then 1 else 0))
1: (4x - (if (2 - i) <= 0 then x else 1))
1: (4x - loop(\(x,i).(~2x + 1),i,0))
1: (4x - loop(\(x,i).3x,(~2 + i),1))
1: (4x - loop(\(x,i).(~2x + 2),i,0))
1: (4x - loop(\(x,i).(2 * (~2x + (x div (if i <= 0 then 1 else i)))),i,1))
1: (4x - loop(\(x,i).(2 * (x - (i mod 2))),i,1))
1: (4x - loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),i,1))
1: ((6x + 1) + ((~x + 1) mod 3) - (x mod 2))
1: ((6x + 1) - ((2 * (2 + (if x <= 0 then 1 else (6x + (((x + 1) + (x mod 2)) div 5))))) div 3))
1: (6x - (((x + 1) + (x mod 2)) div 5))
1: (6x - ((1 + (2 * (x + ((2x + ~1) div (4 + (x div 4)))))) div 3))
1: (6x - ((1 + (2 * (x - ((2 - (x div 2)) div (x + 2))))) div 3))
1: (6x - ((1 + (4 * (x - ((2 - (x div 2)) div (x + 2))))) div 3))
1: (6x - ((4x + ((x + 1) mod 4)) div 5))
1: (6x - ((x + 2) div 5))
1: (6x - ((~x + ((x div 2) mod 2)) div 2))
1: (6x - ((2x + 2) div 5))
1: (6x - ((2x + 2) div ~7))
1: (6x - ((2x + 4) div ~7))
1: (6x - ((~2x + 4) div (4 + ((x div 2) div 3))))
1: (6x - ((2 * (if x <= 0 then 1 else x)) div ~7))
1: (6x - (x div 3))
1: (6x - (x div 7))
1: (6x - (if (~2 + (x div 2)) <= 0 then 0 else 2))
1: (6x - (if x <= 0 then 0 else 1))
1: (6x - (if x <= 0 then 1 else (2 * (((2x + 1) + (2 * ((x + 1) - loop(\(x,i).(x + (if (~2 + (x div 4)) <= 0 then 1 else 2)),2,x)))) div 3))))
1: (6x - loop(\(x,i).(~2x + 1),i,1))
1: (2x2 + 2x + ~2)
1: ((2x2 + 2x) - ((1 - ((x2 + x) div 4)) div 3))
1: ((2x2 + 2x) - (x2 div 3))
1: ((2x2 + 2x) - (if x <= 0 then 0 else 1))
1: ((2x2 + ~2x) - loop(\(x,i).(2x + ~1),x,0))
1: ((2x2 + ~x + 1) - ((x div 2) * (x div 2)))
1: (2x2 - ((1 - (x2 div 4)) div 3))
1: (2x2 - ((~x2 + 3x + ~2) div 2))
1: (2x2 - ((~x2 + 2x) div 2))
1: (2x2 - (x2 div 3))
1: (2x2 - (((x2 + 2x) div 2) div 3))
1: (2x2 - (x div 4))
1: (2x2 - loop(\(x,i).(x2 + 3x + 2),2,2))
1: (3x2 + ~2)
1: (3x2 - (2 * (x mod 2)))
1: (4x2 - (3 * (x mod 2)))
1: (x3 + x2 + ~2)
1: ((x3 + 2x2) - (((x3 + ~x) div 2) div 3))
1: ((x3 + 2x2) - (x div ~2))
1: (x4 + ~4)
1: (x4 - ((x2 + ~2x) div 2))
1: (~1 + (x2 * (x mod 2)))
1: (x3 + ~3)
1: ((x3 + ~1) - (2 * ((2x + 1) mod 5)))
1: ((x3 + 2) - (if (x mod 2) <= 0 then 1 else x))
1: (x3 + ~8)
1: (x3 + ~3x2 + ~18x + ~27)
1: (x3 - (x2 div 2))
1: (x3 - (((~x3 + x) div 2) div 3))
1: (x3 - (x div 3))
1: (x3 - loop(\(x,i).x3,1,(x div 3)))
1: (x3 - loop(\(x,i).x2,1,(3x + 9)))
1: (~1 + (6 * i))
1: (~x + ((2x + 2) * i))
1: ((2x * i) - (x div 2))
1: ((2x * i) - (x mod 2))
1: ((2x * i) - loop(\(x,i).(x * (~1 + (2 * i))),i,1))
1: (1 + (3x * i) - (2 * (x mod 2)))
1: ((4x * i) - (x mod 2))
1: (~1 + (x2 * i))
1: (~2 + (x2 * i))
1: (~x + (i * i * (1 + i)))
1: (~x + (2x * (i * i)))
1: (~x + (2 * (i * i * i)))
1: (~1 + ((x * (i * i)) + (2 * (i mod 2))))
1: (1 + (x * (i * i)) - (2 * (x mod 2)))
1: (~1 + (i * i * i))
1: (~x + (i * i * i))
1: (~1 + (4 * compr(\x.(2 - ((x + 1) mod (1 + (2 * (if ((x + 1) mod 8) <= 0 then 2 else 1))))),x)))
1: (~1 + (4 * compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(4x + ~1)),(x + 1))))
1: ((~x + 1) + (2 * (((2x + 1) + (2 * ((x + 1) + (((x + 1) + (((x + 1) + ((2 * (x3 div (x + 2))) div 3)) div 2)) div 2)))) div 3)))
1: (~1 + (3 * ((3 + (x2 div 2)) div (x + 2))))
1: (~1 + (2 * (((x + 1) + ((loop(\(x,i).(x - (2 * (~x + (i mod 2)))),x,1) div 2) div 2)) div 2)))
1: (~x + (2 * (((x + 2) + (loop(\(x,i).(x + (if ((x div 3) mod 2) <= 0 then 3 else 2x)),x,1) div 2)) div 2)))
1: (~x + (2 * ((1 + (loop(\(x,i).(2x + 2),x,0) + (x2 div (x + 2)))) div 2)))
1: (~1 + (2 * ((1 + loop(\(x,i).2x,x,2) - loop(\(x,i).2x,(x div 2),1)) div 2)))
1: (~1 + (2 * ((x + (2 * (1 + (if (x + ~4) <= 0 then 0 else 2)))) div 3)))
1: (~1 + (2 * ((1 + (4 * (x + (if (x + ~4) <= 0 then 1 else 2)))) div 3)))
1: ((2 * ((2x + 1) div (3 + (x div 4)))) - (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))
1: (~1 + (2 * ((1 + ((x - (3 * ((~x + 1) div 7))) div 2)) div 2)))
1: (~1 + (2 * ((1 + (((x2 + x) * (if (x mod 2) <= 0 then 4 else 1)) div 2)) div 3)))
1: (~x + (3 * ((x + (x2 div 14)) div 2)))
1: (~1 + (2 * ((x + ((x div 2) div 3)) div ~2)))
1: (~x + (2 * ((x + (((~2x + 4) mod (2 + (x div 2))) div 2)) div 2)))
1: (~2 + (2 * ((2 + (loop(\(x,i).((x + 1) + (((~x + 2) mod 4) + i)),x,1) div 2)) div 2)))
1: (~1 + (2 * ((1 + (loop(\(x,i).(2x + 1),x,(if (x + ~3) <= 0 then 2 else 1)) div 2)) div 2)))
1: (~1 + (5 * ((1 + (x div 2)) div 3)))
1: (~1 + (2 * ((x + (x div 2)) div ~4)))
1: (~1 + (2 * ((x + (x div 4)) div ~2)))
1: (~x + (2 * ((x + (x div (4 - ((x div 2) mod 2)))) div 2)))
1: (~1 + (2 * ((x + (x div 8)) div ~2)))
1: (~1 + (2 * ((x + ((~x + 1) mod 3)) div 2)))
1: (~x + (3 * ((x + ((x div 2) mod 2)) div 2)))
1: (~1 + (2 * ((x + ((x div 3) mod 2)) div 4)))
1: (~1 + (2 * ((x + (x mod (2 + (x mod 2)))) div 2)))
1: (~1 + (2 * ((1 + (if x <= 0 then 1 else (x - ((x + 1) mod (3 - (x mod 2)))))) div 2)))
1: ((((x + 1) div 2) * (1 + (x div 2))) - (x div 13))
1: ((x * ((x + 1) div 2)) - ((~x3 + x) div 3))
1: ((x * ((x + 1) div 2)) - (x mod (2 * (~2 + (x mod 2)))))
1: (~1 + (2 * ((x + 1) div (3 - (x mod 2)))))
1: (~1 + (2 * ((x + 1) div 7)))
1: (~1 + (2 * ((x + 1) div (2 + (x mod 2)))))
1: (~x + (2 * ((x + 1) div (8 - ((x + 2) div 3)))))
1: (~1 + (((x + 2) div 3) * (x div ~3)))
1: (~1 + (2 * ((2 + compr(\x.((2x + 1) mod (1 + (2x mod (2 + (x div 4))))),x)) div 2)))
1: (~1 + (2 * ((0 - (x2 mod (x - ((~x + 2) div 2)))) div 2)))
1: (~1 + (2 * ((1 - (4 * (x + (if (x + ~4) <= 0 then 1 else 2)))) div 3)))
1: (~1 + (3 * ((1 - (x div 2)) div 3)))
1: (~1 + (5 * ((~x + 1) div 3)))
1: (~1 + ((x + ~2) * ((~x + 1) div 3)))
1: (~1 + (((~x + 1) div 3) * ((x + ~1) div 3)))
1: (~1 + (((~x + 1) div 3) * (x div 2)))
1: (~2 + (((~x + 1) div 3) * (x div 2)))
1: (~1 + (2 * ((~x + 1) div 7)))
1: ((2 * ((2 - (x div (~5 + (x div 4)))) div 2)) - (x mod 3))
1: (~1 + (2 * ((2 - ((x + 1) mod (~1 + (2 * ((~x + 1) div (2 + (x div 2))))))) div 2)))
1: (~1 + ((x + ~1) * ((~x + 2) div 2)))
1: (~1 + (((~x + 2) div 2) * ((x + 1) div 2)))
1: (~1 + (2 * ((~x + 2) div 8)))
1: (~2 + (3 * ((~x + 2) div 12)))
1: (~1 + (2 * (((~x + ~1) + (x div 8)) div 2)))
1: (~1 + (2 * (((~x + ~2) + (x mod 2)) div 3)))
1: (~1 + (2 * ((~1 + (6 * (1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + ((x + 1) div (2 + (x mod 5)))))))) div 5)))
1: (~1 + (((~1 + (x div 2)) div 2) * (x div 3)))
1: (~1 + (2 * (((x div 4) - (x mod 4)) div 2)))
1: (~2 + (2 * ((~2 + ((~2x + 2) mod (4 + (x div 4)))) div 2)))
1: (~1 + (2 * ((~x + ((x div 2) mod 2)) div 2)))
1: (~1 + (2 * ((~x + (x mod 2)) div 3)))
1: (~2 + (((x + ~1) div 2) * (x div 2)))
1: ((((x + ~1) div 2) * (x div 2)) - (x div 3))
1: (~x + (((x + ~1) div 2) * (x div 2)))
1: (~1 + (((x + ~1) div 3) * (x div ~3)))
1: (~1 + (4 * ((x + ~2) div 3)))
1: (~1 + (2 * (((x + 1) - (x2 div 4)) div 3)))
1: (~1 + (2 * (((x + 1) - ((1 + ((x * (1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x))) div 2)) mod 5)) div 2)))
1: (~1 + (2 * (((x + 1) - ((1 + (x div 2)) mod 3)) div 2)))
1: (~1 + (2 * ((x - ((x2 + ~2) div 3)) div 3)))
1: (~x + (2 * ((x - ((x - (3 * (3x div 7))) div 2)) div 2)))
1: (~1 + (2 * ((x - ((x2 + 2x) div 5)) div 2)))
1: (~1 + (2 * ((x - ((x2 + 2x) div 7)) div 2)))
1: (~1 + (2 * ((x - (x div (1 + (x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4))))))))) div 2)))
1: (~1 + (2 * ((x - (x div ((if (x mod 3) <= 0 then 2 else 1) + (x mod 2)))) div 2)))
1: (~1 + (3 * ((x - ((x div 4) mod 2)) div 3)))
1: (~1 + (2 * ((x - (x mod (2 - ((x div 2) mod 2)))) div 3)))
1: (~2 + ((2x + 1) * ((x2 + 5x) div 2)))
1: (~1 + (2 * ((3 * ((x + 1) + (2 * (((x + 1) + (x mod 2)) div 3)))) div 2)))
1: (~1 + (2 * ((3 * (3 + ((x2 + x + 94) div 2))) div 2)))
1: (~1 + (2 * ((3 * ((x + 2) + (((3 * ((~1 + (x div 2)) div 2)) div 2) div 2))) div 2)))
1: (~x + (3 * ((x * ((2x + 1) - (x mod 5))) div 2)))
1: (~1 + (3 * ((3x2 + 11x + 6) div 2)))
1: (~1 + (3 * ((3x2 + 7x + 4) div 2)))
1: (~1 + (2 * ((17x + 17) div 5)))
1: (~1 + (2 * ((2 * (1 + (2 * ((x + 2) div 3)))) div 3)))
1: (((x + 1) * ((x3 + x) div 2)) - (loop(\(x,i).((x2 + ~x) div 2),2,(x + 2)) div 3))
1: (~1 + (2 * ((3 * (1 + (2 div (1 + ((x + 2) mod 10))))) div 2)))
1: (~1 + (2 * ((3 * (x + ((x - ((x div 2) mod 2)) div 2))) div 2)))
1: (~2 + (3 * ((3 * (1 + (((3 * (1 - (((~1 + (6 * (1 + ((~2 + (x mod 2)) mod (~1 + ((~2x + 2) mod (4 + (x div 4)))))))) div 2) div 2))) div 2) div 2))) div 2)))
1: (~1 + (2 * ((3 * (1 + (((1 + (x mod (1 + (x mod (2 * (2 + ((x div 2) mod 2))))))) mod (x + 1)) div 2))) div 2)))
1: ((2 * ((2 * (1 + (x mod 6))) div 3)) - (x mod 2))
1: (~x + (2 * ((4 * (x + (if (~2 + (x div 2)) <= 0 then 1 else 2))) div 3)))
1: (~1 + (2 * ((3 * (x + (if (x + ~10) <= 0 then 1 else 2))) div 2)))
1: (~2 + (2 * ((3 * (x + loop(\(x,i).((x + 1) - (((x + 1) div 2) div 3)),2,x))) div 2)))
1: (~1 + (2 * ((2x + 2) div 5)))
1: ((3 * ((x2 + x) div 2)) - (if x <= 0 then 0 else 1))
1: (~1 + ((x + 3) * ((x2 + 3x + 2) div 2)))
1: (~1 + (7 * ((x2 + 3x + 2) div 2)))
1: (~1 + (9 * ((x2 + 3x + 2) div 2)))
1: (~2 + (9 * ((x2 + 3x + 2) div 2)))
1: (~1 + (2 * ((x * (x + i)) div 2)))
1: (~1 + (2 * ((~2x + 2) div 5)))
1: (~1 + (9 * ((~x2 + x) div 2)))
1: (~1 + (2 * ((~3x + ~3) div 5)))
1: (~1 + (2 * ((3 * (~1 + (if x <= 0 then 1 else 9x))) div 2)))
1: (~1 + (2 * ((3 * ((x + 1) - (x div ~6))) div 2)))
1: (~1 + (2 * ((3 * ((x + 1) - ((x - loop(\(x,i).(x - (x2 div (x + 16))),2,(if x <= 0 then 1 else x))) mod (x + 1)))) div 2)))
1: (~1 + (2 * ((3 * (x - ((if x <= 0 then 1 else x) div ~7))) div 2)))
1: (~1 + (3 * (16 div (x + 1))))
1: (~1 + (2 * ((16x + 16) div 3)))
1: (~1 + (2 * ((4 * (x div 3)) div 3)))
1: (~x + (2 * (4x div (1 + (if (x mod 7) <= 0 then 6 else 0)))))
1: (~1 + (2 * ((4 * compr(\x.(x - loop(\(x,i).loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),x,(2x + 1)),2,(x + ~1))),x)) div 3)))
1: (~1 + (2 * ((x * ((1 + (x div 2)) div 2)) div 15)))
1: (~1 + (2 * ((3 * ((~1 + (2 * (if x <= 0 then 1 else (2 * (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))))))) div 2)) div 2)))
1: (~1 + (2 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2)))
1: ((2 * ((3 * (x div 4)) div 2)) - ((x + 1) div 2))
1: (~1 + (2 * ((3 * ((~1 + (if (x mod 2) <= 0 then x else 0)) mod (~1 + ((~2x + 2) mod (4 + (x div 4)))))) div 2)))
1: (~1 + (2 * ((x * (x mod 2)) div 4)))
1: (~1 + (2 * ((2 * (if (x + ~2) <= 0 then x else (2 - (x div ~2)))) div 3)))
1: (~2 + (2 * ((3 * (if ((x + 1) mod 4) <= 0 then ((x + 1) div 3) else 1)) div 2)))
1: (~1 + (3 * (x2 div 2)))
1: (~x + (2 * (x2 div ((x + 1) + (2 * (x div 5))))))
1: (~x + (2 * (x2 div (x - ((~x + 2) div 2)))))
1: (~2 + (x * (((x + 1) div 2) div 2)))
1: (~1 + (5 * (((x + 1) div 2) div 3)))
1: (~2 + (3 * (((~x + 2) div 2) div 3)))
1: (~x + (2 * (((x + ~1) div 2) div 2)))
1: (~1 + (3 * (((x + ~1) div 2) div 2)))
1: (~x + (3 * (((3 * (2 + (x div 2))) div 2) div 2)))
1: (~1 + (2 * ((((1 - (x div 2)) * (x div 4)) div 2) div 2)))
1: ((~x2 + ~2x) + ((x + 3) * (((x3 + 15x2 + 38x + 24) div 2) div 3)))
1: (~x + ((2x2 + 4x + 1) * (((x3 + 3x2 + 2x) div 2) div 3)))
1: (~1 + (2 * (((x div 2) div ~2) div 2)))
1: ((3 * ((((x2 div 3) mod (x + 1)) div 2) div 2)) - (x mod 3))
1: (~2 + (5 * ((loop(\(x,i).(x2 + x),1,(1 + loop(\(x,i).10x,x,2))) div 2) div 3)))
1: (~1 + (2 * ((x div 2) div 3)))
1: (~x + (2 * ((x div 2) div 3)))
1: (~2 + (3 * ((x div 2) div 3)))
1: (~1 + (5 * ((x div 2) div 3)))
1: (~1 + (x * ((x div 2) div 5)))
1: (~1 + (2 * ((x div 2) div (1 + (x mod 4)))))
1: (~1 + (2 * ((x div (2 - (x mod 2))) div 3)))
1: (~1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (2 - (2 * (1 + (x div (1 + (x mod 5))))))))
1: (~1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + ~1) div 2)))
1: (~1 + (2 * ((x mod (2 + ((x div 4) mod 2))) div 2)))
1: (~1 + (3 * ((if x <= 0 then 2 else (x2 + ~x)) div 2)))
1: (~1 + (2 * ((if x <= 0 then 2 else (((x + ~2) * (x div 3)) mod (1 + (x div 2)))) div 2)))
1: (~1 + (2 * ((if x <= 0 then 2 else (2x mod (1 + (x mod 4)))) div 2)))
1: (~1 + (2 * (loop(\(x,i).(1 + ((i div (2 + (x mod 2))) + (x div 2))),x,0) div 2)))
1: (~1 + (2 * (loop(\(x,i).((x + 2) + (if x <= 0 then 1 else (2 * loop(\(x,i).(3x + ~6),x,0)))),x,0) div 2)))
1: (~1 + (2 * (loop(\(x,i).(11x + 10),x,4) div (x + 1))))
1: (~1 + (2 * (loop(\(x,i).((x + ~1) - (3 * ((~2x + 1) div 5))),x,2) div 2)))
1: (~1 + (2 * (loop(\(x,i).(2x - (i mod 2)),(x + ~1),1) div 2)))
1: (~1 + (2 * (loop(\(x,i).x3,1,(10x + 2)) div (x + 1))))
1: (~1 + ((loop(\(x,i).2x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2) * (2 + (x div 5))))
1: (~1 + (2 * (loop(\(x,i).2x,x,1) div (x + 1))))
1: ((x * (loop(\(x,i).(x * i),x,2) div (x + 1))) - ((x + ~1) div 2))
1: (~1 + (2 * (loop(\(x,i).((x + 2) div (2 - (x mod 2))),2,(x + 2)) div 2)))
1: ((2 * (x div 2)) - (((x + 1) div 2) div 2))
1: (~1 + ((x + 1) * (x div 2)))
1: (~2 + ((x + 1) * (x div 2)))
1: (~x + ((x + 2) * (x div 2)))
1: (((x div 2) * (x div 2)) - (x mod 2))
1: (~3 + (x * (x div 2)))
1: (~4 + (x * (x div 2)))
1: ((~3x2 + ~9x + ~6) + (x * (x div 2)))
1: ((x * (x div 2)) - (2x div 5))
1: ((x * (x div 2)) - (x div (1 + (2 * (2 + (x mod 2))))))
1: ((x * (x div 2)) - (x div (~2 + ((~x + 2) div 4))))
1: ((x * (x div 2)) - ((x + 1) mod (2 + (x div 4))))
1: ((x * (x div 2)) - (x mod 3))
1: ((2 * (x div 3)) - ((x + ~1) div 2))
1: ((2 * (x div 3)) - (x div ~8))
1: ((2 * (x div 3)) - (((x + 1) div (1 + (x mod 9))) mod 2))
1: ((2 * (x div 3)) - (x mod ~3))
1: (~x + (2 * (x div 3)))
1: (((x + ~2) * (x div 3)) - (x div 2))
1: (~x + ((x + ~2) * (x div 3)))
1: ((x * (x div 3)) - (x mod 4))
1: ((2 * (x div 4)) - (x mod 2))
1: (~x + (2 * (x div 4)))
1: (~1 + (3 * (x div 4)))
1: (~2 + (3 * (x div 4)))
1: (~2 + ((x + 2) * (x div 4)))
1: ((2 * (x div 5)) - (if x <= 0 then 0 else 1))
1: (~1 + (3 * (x div 5)))
1: (~1 + (5 * (x div (6 - (x mod 2)))))
1: (~1 + (2 * (x div (3 + (x mod 2)))))
1: (~1 + (2 * (x div (4 + (x mod 2)))))
1: (~1 + (2 * (x div (3 - (x mod 2)))))
1: (~1 + (2 * (x div 7)))
1: (((2 * (x div 7)) + ((3 * (x div 4)) div 2)) - ((x + 1) div 2))
1: (~1 + (2 * (x div (2 + ((x div 2) div 3)))))
1: (~2 + (2 * (x div (2 + ((x mod (2 + (x mod 2))) div 2)))))
1: ((2 * (x div (2 + ((x mod (2 + (x mod 2))) div 2)))) - (x mod 2))
1: (~1 + (2 * (x div (1 + (x div 4)))))
1: (~1 + (x * (x div (2 + (x mod 2)))))
1: (~1 + (2 * (x div (1 + (x mod 8)))))
1: (~1 + (2 * (x div (2 + i))))
1: (~1 + (3 * (x div ~2)))
1: (~1 + ((2x + 1) * (x div ~2)))
1: (~1 + ((x + ~1) * (x div ~2)))
1: (~1 + ((x div ~2) * (x div 3)))
1: (~1 + (2 * (x div ~7)))
1: (~1 + (5 * (x div ~7)))
1: (~1 + (2 * (x div ~4)))
1: (~2 + (3 * (x div ~4)))
1: (~2 + (3 * (x div 15)) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: (~1 + (2 * (x div (~3 + (x div ~2)))))
1: (~1 + (2 * (x div (x + ~16))))
1: (~2 + ((x div 8) * (1 + (x div 2))))
1: (~1 + (2 * (x div ~8)))
1: (~1 + (2 * (x div (2 * (2 - ((x * (x div 2)) mod 2))))))
1: (~1 + (2 * (x div (2 * (2 - (x mod 2))))))
1: (~x + (4 * (x div (if i <= 0 then 1 else i))))
1: (~1 + (2 * (i div 2)))
1: (~x + ((i div 2) * (~1 + i)))
1: (~1 + (2 * (2 mod (~2x + 1))))
1: (~1 + (2 * (2 mod (if ((x + 1) mod (2 + ((x div 2) mod 2))) <= 0 then x else 1))))
1: (~1 + (2 * ((1 + (2 * ((x + 1) - ((x mod (1 + ((x div 4) + (x mod 2)))) div 2)))) mod (x + 1))))
1: (~1 + (2 * ((1 + (2 * ((loop(\(x,i).(x2 div 3),2,x) div (x + 1)) mod 3))) mod 3)))
1: (~1 + (9 * ((2x + 1) mod 7)))
1: (~1 + (2 * ((1 + ((x2 + 2x) div (2 - (x div ~4)))) mod 2)))
1: (~1 + (2 * ((1 + (x div (1 + (x div 5)))) mod 2)))
1: (~1 + (3 * ((1 + (x mod 2)) mod (x + 1))))
1: ((2 * ((1 + (x mod (2 + (x div 4)))) mod 2)) - (x mod 3))
1: (~x + (2 * ((2 + (x mod 10)) mod (x + 1))))
1: (~1 + (2 * ((1 + (if (x mod 2) <= 0 then ((~x + 2) mod (1 + (x div 4))) else 0)) mod 3)))
1: (~1 + (x * ((x + 1) mod 3)))
1: (~1 + (2 * ((x + 1) mod 4)))
1: ((2 * ((x + 1) mod 4)) - (x div 3))
1: (~1 + (9 * ((x + 1) mod 4)))
1: (~1 + (x * ((x + 1) mod 4)))
1: (~1 + (2 * ((x + 1) mod ~10)))
1: (~1 + (x * ((x + 1) mod 15)))
1: (~1 + (2 * ((x + 1) mod (~1 + ((~2x + 2) mod (4 + (x div 4)))))))
1: (~1 + (x * ((x + 1) mod 6)))
1: (~1 + ((x + 1) * ((x + 2) mod 7)))
1: (~1 + (2 * ((x + 2) mod (1 + (2 * (1 + (2 * (2 + ((x2 + 2x) mod 6)))))))))
1: (~1 + (2 * ((x + 2) mod 10)))
1: (~1 + (2 * (~x mod 4)))
1: (~1 + (5 * (~x mod 4)))
1: (~1 + ((2x + ~2) * (~x mod 4)))
1: (~1 + (3 * ((~x2 + 1) mod 8)))
1: (~1 + (2 * ((~x + 1) mod (~x + 21))))
1: (~1 + (2 * ((~x + 1) mod 13)))
1: (~1 + (2 * ((~x + 1) mod (2 + (x div 3)))))
1: (~1 + (2 * ((~x + 1) mod 11)))
1: (~1 + (3 * ((~x2 + 2) mod (~1 + ((~2x + 2) mod (4 + (x div 4)))))))
1: (~2 + (2 * ((2 - (2x mod (4 + (x div 4)))) mod (x + 1))))
1: (~1 + (2 * ((~x + 2) mod 4)))
1: (~1 + (3 * ((~x + 2) mod 4)))
1: (~1 + (2 * ((~x + 2) mod (2 + (x mod (2 + (x div 5)))))))
1: (~1 + (2 * ((~x + 2) mod 11)))
1: (~1 + (2 * ((2x + ~1) mod 5)))
1: ((2 * ((2x + ~1) mod 5)) - (if x <= 0 then 1 else 0))
1: (~1 + (2 * ((2x + ~1) mod 7)))
1: (~1 + (2 * ((x2 + ~1) mod 6)))
1: ((2 * ((x + ~1) mod 4)) - (x mod 2))
1: (~1 + (4 * ((x + ~1) mod 4)))
1: (~1 + (5 * ((x + ~1) mod 4)))
1: (~1 + (7 * ((x + ~1) mod 4)))
1: (~1 + (9 * ((x + ~1) mod 4)))
1: (~1 + (8 * ((x + ~1) mod 4)))
1: (~1 + (2 * ((x + ~1) mod 5)))
1: (~1 + (3 * ((x + ~1) mod (2 + (x div 4)))))
1: (~1 + (2 * ((x + ~1) mod (6 + (x div 4)))))
1: (~1 + (2 * ((x - (2 * ((x div (2 * (~2 + ((x * (x div 2)) mod 2)))) div 3))) mod (x + 1))))
1: (~1 + (2 * ((x - ((~1 + (x div 2)) div 2)) mod 2)))
1: (~1 + (2 * ((x - (x div 4)) mod 2)))
1: (~1 + (2 * ((x - (((x + (if (x mod 2) <= 0 then x else 2)) div 3) mod 3)) mod 2)))
1: (~1 + (2 * ((x - ((x div (0 - (2 * (2 + (2x mod 5))))) mod 2)) mod 2)))
1: (~1 + (2 * ((x - (if ((x + ~2) mod 5) <= 0 then 1 else 0)) mod 2)))
1: (~1 + (2 * ((4x + 4) mod 7)))
1: (~1 + (2 * ((x * (1 + (x div 2))) mod (1 + (x div 5)))))
1: (~1 + (2 * (((1 + (x div 4)) * (1 + (x mod 2))) mod 5)))
1: (~1 + (2 * ((2x + 2) mod 5)))
1: (~1 + (2 * ((2x + 4) mod 7)))
1: ((2 * (~2x mod 5)) - (x div 3))
1: (~1 + (3 * ((~2x + 2) mod (4 + (x div 4)))))
1: (~1 + (2 * ((~2x + 4) mod (1 + (x div 2)))))
1: (~1 + (2 * ((2x + ~4) mod (x + 2))))
1: (~1 + (x * ((x * (x div 2)) mod 2)))
1: ((~x + ~1) + (2 * (((x + 1) * (x mod 2)) mod 10)))
1: (~2 + (3 * ((2 * (if x <= 0 then 2 else x)) mod 3)))
1: ((5 * (2x mod 7)) - (x div 2))
1: (~1 + (2 * (x2 mod 19)))
1: (~1 + (2 * (x2 mod (1 + (2 * (x div 4))))))
1: (~1 + (2 * (((1 + (x div 2)) div 2) mod 2)))
1: (~1 + (2 * (((1 + (x div 2)) div 2) mod 4)))
1: (~1 + (2 * (((x + 1) div 2) mod 5)))
1: ((2 * (((x + 2) div (2 + ((~x + 1) mod 3))) mod 2)) - (x mod 2))
1: (~1 + (2 * (((2 - ((x - ((~x + 2) div 4)) div 2)) div 2) mod 2)))
1: (~1 + (2 * (((~1 + (x * (x div 4))) div 2) mod 2)))
1: (~1 + (2 * (((~1 + (x div 2)) div 2) mod 2)))
1: (~1 + (2 * (((~1 + (x div (1 + (x2 mod (2 + (x div 2)))))) div 2) mod 2)))
1: (~1 + (2 * (((x + ~1) div 3) mod 4)))
1: (~1 + (2 * (((x + ~2) div (1 + (x div 3))) mod 2)))
1: ((2 * (((x + ~2) div (1 + (x mod 3))) mod 2)) - (x mod 2))
1: (~1 + (2 * (((x - ((1 - (x div 2)) mod 5)) div 2) mod 2)))
1: ((2 * (((x2 + ~x) div (x + 2)) mod 2)) - (if x <= 0 then 0 else 1))
1: (~1 + (2 * ((x2 div 2) mod 5)))
1: (~1 + (2 * ((((~x + 2) div 2) div 3) mod 2)))
1: (~1 + (3 * ((x div 2) mod 2)))
1: ((3 * ((x div 2) mod 2)) - (x mod 3))
1: ((x * ((x div 2) mod 2)) - (x div 2))
1: (~1 + ((x + 2) * ((x div 2) mod 3)))
1: ((2 * ((x div 3) mod 2)) - (x mod 3))
1: ((3 * ((x div 3) mod 2)) - (x mod 2))
1: ((3 * ((x div 3) mod 2)) - loop(\(x,i).2x,x,1))
1: (~1 + (2 * ((x div 3) mod 3)))
1: (~1 + (2 * ((x div 5) mod 2)))
1: ((2 * ((x div (1 + (x div 5))) mod 2)) - (if x <= 0 then 0 else 1))
1: (~1 + (2 * (((1 + (16 mod (x + 1))) mod 5) mod 2)))
1: (~1 + (2 * (((1 - (x div 3)) mod 5) mod 2)))
1: (~1 + (2 * (((~x + 1) mod (2 - (x div ~2))) mod 2)))
1: (~1 + (2 * ((((x + ~1) + (x div 2)) mod (x + 4)) mod 2)))
1: (~1 + (2 * (((~2 + (x * (x div 2))) mod 7) mod 2)))
1: (~1 + (2 * (((~1 + (x mod 3)) mod (1 + (x div 4))) mod 2)))
1: (~1 + (2 * (((x + ~1) mod (2 + (x div (2 + (x mod 2))))) mod 2)))
1: (~1 + (2 * ((((x + 1) * (if x <= 0 then 1 else 2)) mod 7) mod 2)))
1: (~1 + (2 * ((x2 mod (1 + (2 * (2 + (x div 2))))) mod 2)))
1: (~1 + (2 * ((x2 mod (2 + (if (x mod 2) <= 0 then 1 else (x + 2)))) mod 2)))
1: (~1 + (2 * (((if x <= 0 then 1 else (x div 3)) mod 5) mod 2)))
1: (~1 + (2 * (((if x <= 0 then 1 else x) mod (2 - (x div (1 + ((x div 2) mod 2))))) mod 2)))
1: (~1 + (2 * ((x mod (3 + (x mod 2))) mod 2)))
1: (~1 + (2 * ((x mod 6) mod (1 + (x div 3)))))
1: ((2 * ((if (((x + ~1) div 2) mod 3) <= 0 then 1 else x) mod 6)) - (x mod 2))
1: (~1 + (3 * ((if (x mod 2) <= 0 then 2 else x) mod 4)))
1: (~1 + (2 * ((if (x mod 2) <= 0 then (~x + 1) else x) mod 5)))
1: (~x + (2 * ((if x <= 0 then 1 else x) mod 10)))
1: ((~3x2 + ~6x + ~6) + (2 * (x mod 2)))
1: (~3x2 + (2 * (x mod 2)))
1: ((2 * (x mod 2)) - (x2 div ~2))
1: ((2 * (x mod 2)) - (x div 2))
1: ((2 * (x mod 2)) - (x mod 3))
1: ((2 * (x mod 2)) - (if x <= 0 then 1 else (2 * (1 + ((((x + ~2) * (x div 3)) mod (x + 1)) div 2)))))
1: ((2 * (x mod 2)) - loop(\(x,i).(3x + ~2),x,0))
1: ((2 * (x mod 2)) - loop(\(x,i).(2x + ~1),x,0))
1: ((2 * (x mod 2)) - loop(\(x,i).(2x - (i mod 2)),(x + ~2),0))
1: ((2 * (x mod 2)) - loop(\(x,i).(5x + ~4),x,0))
1: ((2 * (x mod 2)) - loop(\(x,i).(2x + ~4),x,0))
1: (((x + 1) * (x mod 2)) - (x div 2))
1: (~1 + (x * (x mod 2)))
1: (~2 + (x * (x mod 2)))
1: ((x * (x mod 2)) - ((~1 + ((x + 1) mod 4)) div 2))
1: ((x * (x mod 2)) - (x div 4))
1: ((2 * (x mod 3)) - (x div 3))
1: (~1 + (3 * (x mod 3)))
1: (~2 + (3 * (x mod 3)))
1: (~2 + (x * (x mod 3)))
1: (~9 + (x * (x mod 3)))
1: (~x + (2 * (x mod 4)))
1: (~1 + (x * (x mod 4)))
1: (~x + (2 * (x mod 5)))
1: (~x + (2 * (x mod 7)))
1: (~x + (2 * (x mod 9)))
1: (~1 + (2 * (x mod (~4x + 5))))
1: (~1 + (2 * (x mod (2 + (x mod 2)))))
1: (~1 + (x * (x mod (2 + (x mod 2)))))
1: (~2 + (x * (x mod (2 + (x mod 2)))))
1: (~1 + (4 * (x mod (1 + (if (x mod 2) <= 0 then 6 else 0)))))
1: (~x + (2 * (x mod (1 + (((x div (3 + (x div 3))) mod 2) + (x div 2))))))
1: (~1 + (2 * (x mod (~1 + (2 * (~2 + (x mod 2)))))))
1: (~1 + (2 * (x mod (~1 + (3 * (((x + ~1) div 2) mod 3))))))
1: (~1 + (2 * (x mod (~2 + ((x div 2) mod ~2)))))
1: (~x + (2 * (x mod (x - ((x + ~1) mod 8)))))
1: (~1 + (2 * (x mod 6)))
1: (~x + (2 * (x mod 6)))
1: (~1 + (9 * (x mod 6)))
1: (~x + (2 * (x mod 10)))
1: (~1 + (9 * (x mod 10)))
1: (~x + (17 * (x mod 14)))
1: (~1 + (2 * (x mod ~6)))
1: (~2 + (x * (i mod 2)))
1: (~1 + (2 * (i mod 4)))
1: ((~x + 1) + (2 * (if (2 - (x div 4)) <= 0 then 12 else x)))
1: ((2 * (if (~x + 2) <= 0 then ((x div 2) - ((x + ~1) div 3)) else 1)) - (x mod 3))
1: (~2 + ((x + 3) * (if (~x + 2) <= 0 then x else (x + 1))))
1: (~1 + ((if (~4 + (x div 2)) <= 0 then 1 else 2) * (2 + (x mod 2))))
1: ((3 * (if (~4 + (x div 2)) <= 0 then 1 else (x div 4))) - (x mod 2))
1: ((2 * (if (~2 + (x div 3)) <= 0 then 0 else 2)) - (x mod 3))
1: ((2 * (if (~2 + (x div 4)) <= 0 then 0 else 2)) - (x div 2))
1: ((3 * (if (~2 + (x div 5)) <= 0 then 1 else 2)) - (x mod 2))
1: (~2 + ((x + 2) * (if (~2 + (x div 5)) <= 0 then 1 else 6)))
1: (~1 + (2 * (if (~2 + (((x + 1) div 2) mod 4)) <= 0 then 1 else 0)))
1: (~1 + (2 * (if (x + ~1) <= 0 then 1 else ((~x + 1) * (x mod 2)))))
1: (~1 + (2 * (if (x + ~1) <= 0 then 2 else (2x + ~1))))
1: (~1 + (2 * (if (x + ~1) <= 0 then x else (((x2 + ~1) div 2) mod 3))))
1: (~1 + (2 * (if (x + ~2) <= 0 then 1 else (2x + ~4))))
1: (~1 + ((x + 2) * (if (x + ~2) <= 0 then 2 else (x2 div 2))))
1: (~1 + (2 * (if (x + ~2) <= 0 then (x2 + 1) else x)))
1: (~1 + (5 * (if (x + ~6) <= 0 then 1 else 2)))
1: (~1 + ((x + 1) * (if (x div 2) <= 0 then 1 else ((if (x mod 2) <= 0 then 2 else x) div 2))))
1: (~1 + (2 * (if (x div 4) <= 0 then ((x + 1) mod (4 - (x mod 4))) else (x div 2))))
1: (~1 + (5 * (if ((x + 1) mod 5) <= 0 then 2 else 0)))
1: (~1 + (2 * (if ((x + 1) mod 5) <= 0 then (x div 3) else 1)))
1: (~1 + (2 * (if ((x + ~2) mod 8) <= 0 then x else 2)))
1: (~1 + (5 * (if ((x + ~2) mod 12) <= 0 then 2 else 1)))
1: (~1 + (2 * (if (16 mod (x + 1)) <= 0 then 0 else 2)))
1: ((2 * (if ((x div 2) mod 6) <= 0 then x else 2)) - (x mod 2))
1: (((x + 1) * (if (x mod 2) <= 0 then 1 else 6)) - (x div 2))
1: (~1 + (2 * (if (x mod 2) <= 0 then 1 else x)))
1: (~1 + (3 * (if (x mod 2) <= 0 then (2 * (2 + (if x <= 0 then 0 else 2))) else 1)))
1: ((3 * (if (x mod 2) <= 0 then (5 * ((2 - ((x div 2) mod 2)) * (if x <= 0 then 1 else 2))) else 1)) - (if x <= 0 then 1 else 2))
1: ((3 * (if (x mod 2) <= 0 then (5 * (if (x mod 4) <= 0 then (2 + (if x <= 0 then 0 else 2)) else 1)) else 1)) - (if x <= 0 then 1 else 2))
1: ((3 * (if (x mod 2) <= 0 then (3 * (if (x mod 4) <= 0 then (3 * (2 + (if x <= 0 then 0 else 2))) else 1)) else 1)) - (x mod 2))
1: ((3 * (if (x mod 2) <= 0 then (3 * (if (if (x mod (2 + (x mod 4))) <= 0 then x else 0) <= 0 then 1 else 2)) else 1)) - (if x <= 0 then 1 else 2))
1: ((2 * (if (x mod 2) <= 0 then x else 1)) - (if x <= 0 then 0 else 1))
1: (~1 + (2 * (if (x mod 2) <= 0 then x else (~x + 1))))
1: (~1 + (2 * (if (x mod 3) <= 0 then 0 else 2)))
1: (~1 + (5 * (if (x mod 3) <= 0 then 2 else 1)))
1: (~1 + (2 * (if (x mod 3) <= 0 then 2 else (x div 4))))
1: ((2 * (if (x mod 3) <= 0 then ((1 + (if (x mod 2) <= 0 then 6 else 0)) * (if x <= 0 then 1 else 2)) else 1)) - (x mod 2))
1: (~1 + (5 * (if (x mod 4) <= 0 then 0 else 2)))
1: (~1 + (5 * (if (x mod 4) <= 0 then 2 else 1)))
1: (~1 + (2 * (if (x mod 4) <= 0 then 2 else ((1 - (2 * (x mod 2))) * (1 + (x div 3))))))
1: (~1 + ((if (x mod 4) <= 0 then 2 else (x mod 2)) * (1 + (x div 4))))
1: (~1 + (5 * (if (x mod 4) <= 0 then 4 else 1)))
1: (((if (x mod 4) <= 0 then 17 else 1) * (if x <= 0 then 1 else 2)) - (x mod 2))
1: (((if (x mod 4) <= 0 then 23 else 1) * (if x <= 0 then 1 else 2)) - (x mod 2))
1: (~1 + (5 * (if (x mod 4) <= 0 then 6 else 1)))
1: ((2 * (if (x mod 4) <= 0 then (3 * (if x <= 0 then 1 else 2)) else 1)) - (x mod 2))
1: ((4 * (if (x mod 4) <= 0 then x else (x + 1))) - (x mod 2))
1: (~1 + (5 * (if (x mod 5) <= 0 then 2 else 1)))
1: (~1 + (2 * (if (x mod 9) <= 0 then 0 else 6)))
1: (((if (x mod 8) <= 0 then 29 else 1) * (if x <= 0 then 1 else 2)) - (x mod 2))
1: (~x + ((if x <= 0 then 1 else 4) * (1 + (x mod 2))))
1: (~1 + (2 * (if x <= 0 then 1 else ((3 * (1 + (x mod (2 + (x mod 2))))) + (x mod 2)))))
1: (~1 + (2 * (if x <= 0 then 1 else (4x + (2 div (~2 + (x mod 2)))))))
1: (~1 + (2 * (if x <= 0 then 1 else (4x + (x2 div 4)))))
1: (~1 + (2 * (if x <= 0 then 1 else (2 + (if (5 mod (x + 1)) <= 0 then x else 1)))))
1: (~1 + (2 * (if x <= 0 then 1 else (~1 + (3 * (x - ((~x + 2) div 4)))))))
1: (~1 + (2 * (if x <= 0 then 1 else (x - (x2 mod 20)))))
1: (~1 + (2 * (if x <= 0 then 1 else (2 * (x - ((~x + 2) div 2))))))
1: (~1 + (2 * (if x <= 0 then 1 else 16)))
1: (~1 + (2 * (if x <= 0 then 1 else 4x)))
1: ((2 * (if x <= 0 then 1 else 4x)) - ((2x + 1) div 9))
1: ((2 * (if x <= 0 then 1 else 4x)) - (2x div 7))
1: (~1 + (2 * (if x <= 0 then 1 else (2 * ((loop(\(x,i).2x,x,(if (x mod 4) <= 0 then 0 else 1)) mod (x + 1)) div 2)))))
1: (~1 + (2 * (if x <= 0 then 1 else (2 * (x3 mod 13)))))
1: (~1 + (2 * (if x <= 0 then 1 else (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (1 + (x div 5))))))
1: ((2 * (if x <= 0 then 1 else 2x)) - (x div (~2 + ((~x + 2) div 4))))
1: (~1 + (3 * (if x <= 0 then 1 else (x mod (1 + (((x + 1) div 2) div 3))))))
1: (~1 + (2 * (if x <= 0 then 1 else (if (x mod 4) <= 0 then (x div 2) else x))))
1: (~x + ((x + 1) * (if x <= 0 then 1 else loop(\(x,i).(10x + 10),x,0))))
1: (~1 + (2 * (if x <= 0 then 1 else loop(\(x,i).2x,((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3),2))))
1: ((2 * (if x <= 0 then 1 else x)) - (x2 div ~3))
1: ((2 * (if x <= 0 then 1 else x)) - (if (x mod 3) <= 0 then 1 else (x div 3)))
1: ((2 * (if x <= 0 then 2 else 0)) - (if (x mod 12) <= 0 then 1 else 0))
1: (~1 + (2 * (if x <= 0 then 2 else (~1 + (2 * ((4 * (x + (if (~2 + (x div 2)) <= 0 then 1 else 2))) div 3))))))
1: (~3 + (2 * (if x <= 0 then 2 else (x - (((x2 + ~2x) div (x + 2)) div 5)))))
1: (~1 + (3 * (if x <= 0 then 2 else ((if x <= 0 then 2 else (1 + ((1 + (x div (2 + (x mod 2)))) div 2))) div 2))))
1: (~1 + (2 * (if x <= 0 then 2 else (if (x mod 4) <= 0 then (2x mod 5) else 1))))
1: (~1 + (2 * loop(\(x,i).((2x + 2) + loop(\(x,i).(x - (2 * (~x + i))),x,2)),x,1)))
1: (~1 + (2 * loop(\(x,i).(2x + ((if (x mod 2) <= 0 then (x div 2) else 1) div 3)),x,1)))
1: (~1 + ((x2 + 2x + 1) * loop(\(x,i).((x2 + x) + i),2,2)))
1: (~1 + (2 * loop(\(x,i).(2x + i),(x + 2),2)))
1: (~x + ((x + 1) * loop(\(x,i).(2x + i),x,2)))
1: (~1 + (2 * loop(\(x,i).(x + (i div 3) - (x div ~5)),x,1)))
1: (~1 + (2 * loop(\(x,i).(10x + 17),x,2)))
1: (~1 + ((x2 + 2x + 1) * loop(\(x,i).(x2 + x + 2),2,2)))
1: (~1 + ((x + 1) * loop(\(x,i).(x2 + 3x + 4),2,2)))
1: (~1 + ((x + 1) * loop(\(x,i).(x2 + 2x + 1),2,4)))
1: (~2 + ((x + 1) * loop(\(x,i).(x2 + 2x + 1),2,4)))
1: (~2 + (3 * loop(\(x,i).(1 + (2 * (~1 + ((3x + 3) * (3 + loop(\(x,i).(2x2 + x),3,x)))))),(x + 1),1)))
1: (~2 + (3 * loop(\(x,i).(10x + 21),(x + 1),0)))
1: (~1 + (2 * loop(\(x,i).(10x + 22),x,2)))
1: (~1 + (2 * loop(\(x,i).(27x + i),x,0)))
1: (~2 + ((x + 1) * loop(\(x,i).(4x2 + 12x + 9),2,3)))
1: (~1 + (2 * loop(\(x,i).(1 + (18 * (~2 + loop(\(x,i).x3,1,(10x + 5)) - loop(\(x,i).2x,(x + ~1),1)))),x,1)))
1: (~x + ((x + 1) * loop(\(x,i).(4x2 + 1),2,2)))
1: (~1 + (2 * loop(\(x,i).(2 + ((x div 2) * i)),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)))
1: (~1 + (loop(\(x,i).(2x + 1),x,0) * (1 + (x mod 2))))
1: (~2 + (3 * loop(\(x,i).(2x + 1),x,8)))
1: (~1 + ((x + 1) * loop(\(x,i).(x2 + 1),2,3)))
1: (~x + ((x + 1) * loop(\(x,i).(x2 + 1),2,6)))
1: (~1 + ((x2 + 2x + 1) * loop(\(x,i).(x2 + 2),2,2)))
1: ((x * loop(\(x,i).(x2 + 2),2,3)) - (if x <= 0 then 0 else 1))
1: (~x + ((x + 1) * loop(\(x,i).(x + ((3x + 6) div (1 + i))),x,2)))
1: (~1 + (2 * loop(\(x,i).(x + ((4x + 8) div (1 + i))),x,3)))
1: ((~x + ~1) + (2 * loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then 1 else 0)),x,(x + 2))))
1: (~1 + (2 * loop(\(x,i).(x + loop(\(x,i).(x + loop(\(x,i).3x,(1 + i),i)),i,1)),x,1)))
1: (~1 + (2 * loop(\(x,i).(2x + loop(\(x,i).(4x + loop(\(x,i).3x,i,1)),i,1)),x,3)))
1: (~1 + (2 * loop(\(x,i).((2x + ~1) + (x mod (2 + (x mod 2)))),x,1)))
1: (~1 + (loop(\(x,i).(3x + ~1),x,2) * (1 + loop(\(x,i).2x,x,2))))
1: (((x + 1) * loop(\(x,i).(~1 + (x * (1 + i))),x,1)) - (if x <= 0 then 0 else 1))
1: (~1 + (3 * loop(\(x,i).(8x - (if x <= 0 then 0 else 1)),2,x)))
1: (~1 + (x * loop(\(x,i).(x2 + ~2),i,3)))
1: (~x + ((x + 1) * loop(\(x,i).(~x3 + (x div 2)),2,2)))
1: (~x + (2 * loop(\(x,i).(3x - i),(x + ~1),x)))
1: (~1 + (3 * loop(\(x,i).(7x + ~3),2x,5)))
1: (~1 + (2 * loop(\(x,i).(x - (2 * (~x + i))),x,2)))
1: (~1 + (2 * loop(\(x,i).(x - ((~x + (x mod 2)) div 3)),x,2)))
1: (~x + (2 * loop(\(x,i).(x - ((((2 - (x div 2)) mod (x + 2)) div 2) div 2)),2,x)))
1: (~x + (2 * loop(\(x,i).(x - (x div (4 + i))),2,x)))
1: (~x + (2 * loop(\(x,i).(x - (x div 8)),(x div 2),x)))
1: (~1 + (2 * loop(\(x,i).(x - (if (~x + i) <= 0 then (2 * i) else 0)),x,x)))
1: (~1 + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (3 + (((x + 1) div 2) div 2))))
1: (~1 + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (4 + (((x + 1) div 2) div 2))))
1: (~1 + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (1 + (((x + 1) div 2) div 2))))
1: (~1 + (2 * loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,(2x + 1))))
1: (~1 + (2 * loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)))
1: (~1 + (5 * loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)))
1: (~1 + (2 * loop(\(x,i).3x,2x,2)))
1: (~1 + (5 * loop(\(x,i).3x,2x,2)))
1: (~1 + (5 * loop(\(x,i).3x,x,2)))
1: (~1 + (3 * loop(\(x,i).5x,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),2)))
1: (~1 + (3 * loop(\(x,i).5x,x,2)))
1: (~2 + (3 * loop(\(x,i).(2x + 12),x,17)))
1: (~1 + (2 * loop(\(x,i).(2x + 6),x,1)))
1: (~1 + (3 * loop(\(x,i).7x,x,2)))
1: (~x + ((2x + 1) * loop(\(x,i).(6x + 4),2,2x)))
1: (~2 + ((x + 1) * loop(\(x,i).(6x + 4),2,x)))
1: (~1 + (2 * loop(\(x,i).(2 * (x + (3 * (i * (1 + i))))),x,1)))
1: (~1 + (2 * loop(\(x,i).(10x + 16),(2x + ~1),1)))
1: (~1 + (2 * loop(\(x,i).(10x + 16),x,1)))
1: (~1 + ((x2 + 2x + 1) * loop(\(x,i).(2x2 + 4),2,1)))
1: (~1 + (2 * loop(\(x,i).(2 * (x + (2 * i))),(x + 1),1)))
1: (~1 + (2 * loop(\(x,i).(x * (x + (x2 div (x + 2)))),x,2)))
1: (~1 + ((x + 1) * loop(\(x,i).(2 * (x + (x div (4 + i)))),x,1)))
1: (~1 + (2 * loop(\(x,i).(2 * (2x + (x mod 2))),(x + ~1),1)))
1: (~1 + (2 * loop(\(x,i).(3 * (x + (i mod 2))),(x + 1),1)))
1: (~1 + (2 * loop(\(x,i).((x + (i mod 2)) * i),x,1)))
1: (~1 + ((x2 + 2x + 1) * loop(\(x,i).(x2 + x),2,2)))
1: (~x + (4 * loop(\(x,i).(x2 + x),2,x)))
1: (~1 + (3 * loop(\(x,i).(2x + 4),(x + 3),3)))
1: (~3 + (2 * loop(\(x,i).(2x + 4),(x + 8),0)))
1: (~1 + (3 * loop(\(x,i).(2x + 4),(x + 1),3)))
1: (~x + (2 * loop(\(x,i).(2x + 4),x,(x2 + ~x))))
1: (~1 + (2 * loop(\(x,i).(3x + 6),x,1)))
1: (~2 + ((x + 1) * loop(\(x,i).(x2 + 4x + 4),2,1)))
1: (~1 + ((x + 1) * loop(\(x,i).(x2 + 4x + 4),2,2)))
1: (~2 + ((x + 1) * loop(\(x,i).(x2 + 4x + 4),2,2)))
1: (~2x + (x * loop(\(x,i).(x2 + 4x + 4),3,1)))
1: (~1 + ((x2 + 2x + 1) * loop(\(x,i).(x2 + 2x),2,2)))
1: (~1 + ((x + 1) * loop(\(x,i).(x2 + 2x),2,2)))
1: (~1 + ((x + 1) * loop(\(x,i).(x2 + 2x),2,x)))
1: (~1 + (3 * loop(\(x,i).(x * (1 + i)),2x,2)))
1: (~1 + (2 * loop(\(x,i).(x * (2 + i)),loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1)))
1: (~1 + (2 * loop(\(x,i).(2 * (x + i)),x,1)))
1: (~2 + ((x + 1) * loop(\(x,i).((x + 2) * (x + i)),2,2)))
1: (~1 + ((x + 1) * loop(\(x,i).((x + 2) * (x + i)),2,3)))
1: (~2 + ((x + 1) * loop(\(x,i).((x + 2) * (x + i)),2,3)))
1: (~1 + (2 * loop(\(x,i).(~8x + 2),2x,2)))
1: (~1 + (3 * loop(\(x,i).11x,x,2)))
1: (~1 + (2 * loop(\(x,i).(8x + ~2),(x div 2),(1 + (x mod 2)))))
1: (~1 + (5 * loop(\(x,i).(2x2 + ~x),1,loop(\(x,i).10x,x,1))))
1: (((x + 1) * loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,2)) - loop(\(x,i).4x,x,1))
1: ((x * loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,2)) - loop(\(x,i).4x,x,1))
1: (~1 + ((x2 + 2x + 1) * loop(\(x,i).(2x2 + ~2),2,2)))
1: (~1 + (loop(\(x,i).(x2 + ~x),2,2x) * (1 + i)))
1: (~1 + (9 * loop(\(x,i).(x * ((x + 1) - i)),2,(x + 2))))
1: (~1 + (2 * loop(\(x,i).(5x2 + ~2x),1,loop(\(x,i).10x,x,1))))
1: (~1 + (3 * loop(\(x,i).(10x + ~8),x,2)))
1: (~1 + ((x + 1) * loop(\(x,i).(7x2 + x + ~6),2,2)))
1: (~1 + ((x + 1) * loop(\(x,i).(~2x3 + x2),2,2)))
1: (~1 + (2 * loop(\(x,i).(3 * (x - (2 * i))),x,0)))
1: (~1 + (2 * loop(\(x,i).(2 * (x - ((x + i) mod 2))),x,1)))
1: (~1 + (2 * loop(\(x,i).(2 * (x - (i mod 2))),x,2)))
1: (~1 + (2 * loop(\(x,i).10x,1,((loop(\(x,i).x2,1,(~1 + loop(\(x,i).10x,x,1))) div 2) div 2))))
1: (~1 + (3 * loop(\(x,i).10x,x,2)))
1: (~1 + (3 * loop(\(x,i).10x,x,(x + 1))))
1: (~1 + (3 * loop(\(x,i).10x,x,loop(\(x,i).(10x + 21),x,1))))
1: (~x + (x * loop(\(x,i).(2x2 + 14x + 12),2,2)))
1: (~1 + (2 * loop(\(x,i).(12x + 8),x,1)))
1: (~1 + (2 * loop(\(x,i).(3x3 + 6x),(2x + 2),1)))
1: (~1 + ((x + 1) * loop(\(x,i).((x2 + 4x + 4) * (2 + i)),2,0)))
1: (~2 + (2 * loop(\(x,i).((x + 2) * ((2 + i) * i)),x,2)))
1: (~1 + (3 * loop(\(x,i).8x,x,2)))
1: (~1 + (5 * loop(\(x,i).8x,x,2)))
1: (~2 + (3 * loop(\(x,i).x6,2x,3)))
1: ((3 * loop(\(x,i).4x,(~1 + i),1)) - (x mod 2))
1: (~1 + (2 * loop(\(x,i).4x,x,(1 + (2 * loop(\(x,i).(5x + ~4),x,8))))))
1: (~1 + (5 * loop(\(x,i).6x,x,2)))
1: (~1 + ((2x + 1) * loop(\(x,i).2x2,2,2)))
1: (~1 + ((x + 1) * loop(\(x,i).2x2,2,2)))
1: (~1 + (x2 * loop(\(x,i).2x2,2,3x)))
1: (~1 + ((x + 1) * loop(\(x,i).4x2,2,2)))
1: (~1 + (5 * loop(\(x,i).(x2 * (1 + i)),2,(x + 1))))
1: (~1 + ((2x + 1) * loop(\(x,i).x3,2,2)))
1: (~1 + ((x2 + 2x + 1) * loop(\(x,i).x3,2,(x + 1))))
1: (~1 + ((x + 1) * loop(\(x,i).x3,2,(x + 1))))
1: (((x + 1) * loop(\(x,i).x3,2,(x + 1))) - (x * loop(\(x,i).x3,2,x)))
1: (~1 + (loop(\(x,i).x3,(x + 1),2) * (1 + (~x mod 4))))
1: (~1 + (2 * loop(\(x,i).x3,(2x + ~1),2)))
1: (~1 + (3 * loop(\(x,i).x3,x2,2)))
1: (~1 + ((x + 1) * loop(\(x,i).(x2 * i),2,3)))
1: (~1 + (2 * loop(\(x,i).(2 * (x2 div 2)),x,(2 + (x div 2)))))
1: (~1 + (3 * loop(\(x,i).(x * (if (~1 + i) <= 0 then 2 else x2)),x,2)))
1: (~1 + (3 * loop(\(x,i).((x + 6) * loop(\(x,i).(2x + 2),x,2)),x,4)))
1: (~3 + (2 * loop(\(x,i).2x,(1 + (((x + 1) + (((x + 1) + ((3 * (1 + (if x <= 0 then 0 else (2 * (1 - (x div 2)))))) div 2)) div 2)) div 2)),1)))
1: (~1 + (2 * loop(\(x,i).2x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),2)))
1: (~1 + (loop(\(x,i).2x,((x div 2) - ((3 * (x div 4)) div 2)),1) * (1 + (2 * (x mod 2)))))
1: (~1 + (3 * loop(\(x,i).2x,(x + ~1),(x + 1))))
1: (~1 + (2 * loop(\(x,i).2x,x,(~1 + loop(\(x,i).(2 * (x + i)),x,2)))))
1: (~1 + (2 * loop(\(x,i).2x,x,loop(\(x,i).(x div 2),x,loop(\(x,i).(3x + 1),x,1)))))
1: (~1 + (2 * loop(\(x,i).x2,1,(11x + 5))))
1: (~1 + (2 * loop(\(x,i).x2,1,(1 + ((x + 1) * (1 + loop(\(x,i).(x * (x + i)),2,4)))))))
1: (~1 + (2 * loop(\(x,i).x2,1,(8x + 81))))
1: (~1 + (2 * loop(\(x,i).x2,1,(25x + 24))))
1: (~1 + (2 * loop(\(x,i).x2,1,(200x + 151))))
1: (~1 + (2 * loop(\(x,i).x2,1,(49x + 48))))
1: (~1 + (2 * loop(\(x,i).x2,1,(1 + ((3x + 3) * loop(\(x,i).(x2 + 2x),2,6))))))
1: (~1 + (2 * loop(\(x,i).x2,1,(1 + ((x + 1) * loop(\(x,i).(x2 + 4x + 4),2,1))))))
1: (~1 + (2 * loop(\(x,i).x2,1,(x + ((x + 1) * loop(\(x,i).(x * (x + i)),2,4))))))
1: (~1 + (2 * loop(\(x,i).x2,1,(1 + ((x + 1) * loop(\(x,i).(7x2 + x + ~6),2,2))))))
1: (~1 + (2 * loop(\(x,i).x2,1,(x + ((x + 1) * loop(\(x,i).(x * (x - i)),2,2x))))))
1: (~1 + (2 * loop(\(x,i).x2,1,(1 + ((x + 1) * loop(\(x,i).(2x2 + 8x + 8),2,0))))))
1: (~1 + (2 * loop(\(x,i).x2,1,(x + loop(\(x,i).(x * (1 + i)),4,(x + 1))))))
1: (~1 + (2 * loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))))
1: (~1 + (2 * loop(\(x,i).x2,1,(200x + 49))))
1: (~1 + (2 * loop(\(x,i).x2,1,(50x + 49))))
1: (~1 + (2 * loop(\(x,i).x2,1,(~1 + ((3x + 3) * loop(\(x,i).(x2 + 2x),2,6))))))
1: (~1 + (2 * loop(\(x,i).x2,1,(~1 + ((x + 1) * loop(\(x,i).(7x2 + x + ~6),2,2))))))
1: (~1 + (2 * loop(\(x,i).x2,1,(~1 + ((x + 1) * loop(\(x,i).(2x2 + 8x + 8),2,0))))))
1: (~1 + (2 * loop(\(x,i).x2,1,(~1 + ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)))))
1: (~1 + (2 * loop(\(x,i).x2,1,(~8x + ~87))))
1: (~1 + (2 * loop(\(x,i).x2,1,(4x3 + ~3x))))
1: (~1 + (3 * loop(\(x,i).x2,1,(3 * (if x <= 0 then 4 else (2 + ((1 + loop(\(x,i).11x,x,3)) div (x + 1))))))))
1: (~1 + (2 * loop(\(x,i).x2,1,loop(\(x,i).(3x + 2),4,x))))
1: (~2 + ((x + 1) * loop(\(x,i).x2,2,3)))
1: (~1 + ((2x + 1) * loop(\(x,i).x2,2,4)))
1: (~2 + ((x + 1) * loop(\(x,i).x2,2,4)))
1: (~2 + ((x + 1) * loop(\(x,i).x2,2,5)))
1: (~1 + ((x + 1) * loop(\(x,i).x2,2,(x + 1))))
1: (~1 + (2 * loop(\(x,i).x2,2,(x + 2))))
1: (~1 + (2 * loop(\(x,i).x2,(2x + ~1),4)))
1: (~x2 + ((x + 1) * loop(\(x,i).x2,(x2 + ~1),(x + 1))))
1: (~1 + (2 * loop(\(x,i).x2,(x - ((~x + 2) div 2)),2)))
1: (~1 + (2 * loop(\(x,i).x2,2x2,2)))
1: (~1 + (3 * loop(\(x,i).(x * i),x,2)))
1: ((2 * loop(\(x,i).(x div (2 - (x mod 2))),x,x)) - (if x <= 0 then 0 else 1))
1: (~1 + (2 * loop(\(x,i).(if x <= 0 then i else (x div 2)),x,1)))
1: (~1 + (2 * loop(\(x,i).loop(\(x,i).x2,1,(x2 + x + 1)),1,loop(\(x,i).10x,x,1))))
1: (~1 + (2 * loop(\(x,i).i,((x div 2) div (1 + (x mod (1 + (x mod (3 + (x mod 2))))))),1)))
1: ((2x + ~1) + (if (~2 + (x div 2)) <= 0 then 2 else 0) - (x mod 2))
1: ((2x + ~1) - (2 * ((3x + 1) - (2 * ((x + 1) + (((x - (x div ~2)) * (x div 2)) + (x mod 2)))))))
1: (2x - (((x + ~2) div 5) + (x div 9)))
1: ((2x + ~1) - (x div 4))
1: ((2x + ~2) - (4 mod (x + 1)))
1: (2x + (((~x + 2) div 2) mod 3))
1: ((2x + ~1) + (2 div (1 + (x div 5))))
1: ((2x + ~1) + (2 div (1 + ((x + 1) mod 4))))
1: ((2x + ~1) + (2 div (1 + (x mod 4))))
1: ((2x + ~1) + (2 div (1 + (x mod 5))))
1: ((2x + ~1) + (2 div (1 + (x mod 6))))
1: ((2x + ~1) + ((2 * (2 + (if x <= 0 then 1 else (2 * (3x - ((2 * (x - ((x div 2) div 3))) div 3)))))) div 3))
1: ((2x + ~1) + ((2 * (2 + (if x <= 0 then 1 else (2 * (2x + ((x - ((x div 2) mod ~4)) div 5)))))) div 3))
1: ((2x + ~1) + ((2 * (2 + (if x <= 0 then 1 else (2 * (2x - ((~x + 3) div 7)))))) div 3))
1: ((2x + ~1) + ((~x + 2) mod 5))
1: ((2x + ~2) + (2 div (1 + (x div 2))))
1: ((2x + ~2) + ((1 + (((2x + 2) * (2 - ((x div 4) mod 2))) div 5)) mod 2))
1: ((2x + ~2) + ((x + 2) mod 5))
1: ((3x + 1) - (2 * ((x + 1) + (((x - (x div ~2)) * (x div 2)) + (x mod 2)))))
1: (3x - ((~1 + (2 * (i mod 2))) * (2 + i)))
1: (2x + ~23)
1: ((2x + 1) - (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (3 + (((x + 1) div 2) div 2))))
1: ((2x + 1) - (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (4 + (((x + 1) div 2) div 2))))
1: ((2x + 1) - (loop(\(x,i).2x,((x div 2) - ((3 * (x div 4)) div 2)),1) * (1 + (2 * (x mod 2)))))
1: ((2x + 1) - ((((x div ~4) mod 2) + (x div 2)) div 3))
1: ((2x + 1) - ((x + 2) div (3 - (x div ~7))))
1: ((2x + 1) + (x div 5) - ((~x + 1) div (2 + (x div 2))))
1: ((2x + 1) - ((x - ((3 * ((x div 2) div 3)) div 2)) div 2))
1: ((2x + 1) - ((2 * ((x + 2) + ((2 * ((x + (if (~2 + (x div 2)) <= 0 then 1 else 0)) div 2)) div 3))) div 3))
1: ((2x + 1) - ((x2 + ~2x) div 4))
1: (2x + ((x + (if (~2 + (x div 4)) <= 0 then 1 else 2)) div 2) - (((x + 1) div 2) div 2))
1: ((2x + 1) - ((if (x + ~4) <= 0 then 1 else x) div 4))
1: (2x + ((~x + 2) div (2 + (x div 2))) - (x div 2))
1: (2x + (if ((x div 4) - (x mod 6)) <= 0 then 1 else 2) - (x div 2))
1: (2x + loop(\(x,i).i,(~1 + ((x + ~2) div 3)),1) - (x div 2))
1: (2x + (x div 7) - (x div ~7))
1: ((2x + 1) - (4 mod (1 + (x div 2))))
1: ((2x + 1) - ((x div (4 + ((x mod ~4) div 2))) mod 2))
1: ((2x + 1) - ((x mod 4) mod ~3))
1: ((2x + 1) - ((x mod (~2 - (x div 3))) mod 2))
1: ((2x + 1) - ((x mod ((x + ~1) - ((x + 2) mod 8))) mod 2))
1: ((2x + 1) - ((if ((1 + (x div 2)) mod 5) <= 0 then (x div 3) else 1) mod (x + 1)))
1: ((2x + 1) - (loop(\(x,i).(2x + 2),x,2) mod (x + 4)))
1: (2x + ((x - (x mod 3)) div 2) - (x mod 2))
1: ((2x + 1) - (x mod (1 - (2 * ((x div 3) mod 3)))))
1: ((2x + 1) - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + (2 * i)))),x,2x))
1: (2x + loop(\(x,i).7x,x,1) - loop(\(x,i).5x,x,1))
1: ((2x + 1) - loop(\(x,i).i,((~x + 1) mod 3),x))
1: ((2x + 1) - i)
1: (2x - (5 * (x + (x div 2))))
1: (2x - (~11 * (1 + (x div 2))))
1: (2x - ((1 - (2 * (i mod 2))) * (1 + i)))
1: (2x - ((1 - (2 * (i mod 2))) * i))
1: (2x - ((~1 + (2 * (i mod 2))) * (~1 + (2 * i))))
1: (2x - (3 * (((x + (x div 2)) div 4) - (if x <= 0 then 1 else x))))
1: (2x - (3 * (~x + ((x - ((~x + 2) div 2)) div 5))))
1: (2x - (9 * (~x + ((x div 2) div 5))))
1: (2x - (3 * ((x div 2) - (2 * ((x div 4) mod 2)))))
1: (2x - (3 * ((x div 2) - ((x mod 3) div 2))))
1: (2x - (3 * (~x + (x div 4))))
1: (2x - ((~2 + (x mod 2)) * ((x div 2) mod 2)))
1: (2x - (7 * (x - (x div 5))))
1: (2x + ~24)
1: (2x - (2x * (x div 2)))
1: (2x - (9 * (x div ~2)))
1: (2x - (3 * ((x - ((~x + 2) div 4)) div 2)))
1: (2x - (3 * ((x div 2) div 3)))
1: (2x - ((x + ~2) * (x div 2)))
1: (2x - (3 * (x div 4)))
1: (2x - (3 * (x div 5)))
1: (2x - (9 * ((2x div 9) mod 2)))
1: (2x - (9 * ((x div 5) mod 2)))
1: (2x - (3 * (i mod 2)))
1: (2x - ((i mod 2) * i))
1: (2x - (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (4 + (((x + 1) div 2) div 2))))
1: (2x - (4 div (1 + i)))
1: (2x - (((x + 2) + (x div 2)) div 5))
1: (2x - (((x + 2) + (x div (2 + (16 mod (1 + (x div 2)))))) div 3))
1: (2x - ((x + 3) div 7))
1: (2x - ((2x + 1) div 5))
1: (2x - ((2x + 1) div 9))
1: (2x - ((x + ((x + (x div 4)) div 2)) div ~2))
1: (2x - ((1 + (x div 2)) div 2))
1: (2x - ((x + (x div 2)) div 5))
1: (2x - ((x + (x div 2)) div ~5))
1: (2x - ((x + ((1 + (x div 2)) mod 3)) div 4))
1: (2x - ((x + ((1 + (x div 2)) mod 3)) div 5))
1: (2x - ((x + ((~x + 1) mod 3)) div 4))
1: (2x - ((x + (x3 mod 5)) div 4))
1: (2x - ((x + ((x div 3) mod 3)) div 3))
1: (2x - ((1 + (x mod 4)) div 2))
1: (2x - ((1 + (if (x mod 3) <= 0 then 0 else x)) div 3))
1: (2x - ((x + 1) div 7))
1: (2x - ((x + 1) div (if i <= 0 then 1 else i)))
1: (2x - ((x + 2) div ~7))
1: (2x - ((x + 2) div (~6 + (((x + ~1) div 2) div 2))))
1: (2x - ((x + 2) div (~2 + (x mod 2))))
1: (2x - ((1 + i) div 3))
1: (2x - (((~x + 1) + (2 * ((~2x + 1) div 3))) div 3))
1: (2x - (((~x + 1) + (2 * ((~x + 1) div 3))) div 3))
1: (2x - ((1 - (4 * (x + (if (x + ~4) <= 0 then 1 else 2)))) div 3))
1: (2x - ((1 - (2 * ((x + (if (~2 + (x div 4)) <= 0 then 1 else 2)) div 2))) div 3))
1: (2x - ((~2x + 1) div 7))
1: (2x - ((~x2 + 1) div (x + 4)))
1: (2x - ((1 - ((x2 + ~2x) div 2)) div 5))
1: (2x - ((1 - (x2 div 2)) div (2x + 1)))
1: (2x - ((1 - (x div 2)) div 3))
1: (2x - ((1 - (x div 2)) div 5))
1: (2x - ((1 - (if (~2 + (x div 2)) <= 0 then x else (x + 2))) div 3))
1: (2x - ((~x + 1) div 5))
1: (2x - ((~x + 1) div (1 + (2 * (2 + (((x div 2) div 3) mod 2))))))
1: (2x - (((~x + 2) - (x div 4)) div 2))
1: (2x - ((~x2 + 2) div (3x + 2)))
1: (2x - (((x + ~2) + (~x mod 4)) div 5))
1: (2x - ((0 - ((x div 2) + (x mod 4))) div 2))
1: (2x - (((~x + ~1) + (x div 3)) div 3))
1: (2x - (((~x + ~2) + (x mod 2)) div 3))
1: (2x - ((~1 + (2 * ((3 * (x + ((x - ((x div 2) mod 2)) div 2))) div 2))) div (x + 1)))
1: (2x - ((~x + (2 * (((x + ~1) div 2) div 2))) div 3))
1: (2x - ((~1 + (2 * (x div 2))) div 5))
1: (2x - ((~x + ((x + ~2) * (x div 3))) div 3))
1: (2x - ((2x + ~1) div 7))
1: (2x - ((x2 + ~2) div (x + 6)))
1: (2x - ((x2 + ~2) div (4x + 9)))
1: (2x - ((~1 + ((x + ((x div 2) mod 2)) div 2)) div 3))
1: (2x - ((~x + ((~1 + (x div 2)) div 3)) div 2))
1: (2x - ((~x + ((~2 + (x div 2)) div 3)) div 2))
1: (2x - ((~1 + ((~x + (x div 4)) div 2)) div 2))
1: (2x - ((~1 + ((x - ((x div 2) mod 4)) div 2)) div 2))
1: (2x - ((~2 + (((~x + 2) * (x div 2)) div 2)) div 3))
1: (2x - ((~x + ((x2 + ~2x) div 5)) div 3))
1: (2x - ((~1 + (((x + ~1) div 2) div 2)) div 2))
1: (2x - ((~x + ((x div 2) div 5)) div 2))
1: (2x - ((~x + ((x div 2) div ~2)) div 3))
1: (2x - ((~x + ((x mod (1 + (x div 2))) div 2)) div 2))
1: (2x - ((~1 + (x div 2)) div 2))
1: (2x - ((~2 + (x div 2)) div 5))
1: (2x - (((x div 2) - ((~x + 2) div (2 + (x div 2)))) div 2))
1: (2x - (((x div 2) - (if (~2 + (x div 2)) <= 0 then 1 else 4)) div 2))
1: (2x - ((~x + (x div 4)) div 2))
1: (2x - ((~x + (x div 12)) div 2))
1: (2x - ((~2x + (2 mod (x + 1))) div 5))
1: (2x - ((~x + ((1 + (x div 2)) mod 3)) div 3))
1: (2x - ((~x + ((1 + (x div 2)) mod 4)) div 2))
1: (2x - ((~x + ((x + 1) mod 3)) div 5))
1: (2x - ((~1 + ((x + 1) mod 4)) div 2))
1: (2x - ((~x + (((x + ~1) div 2) mod 2)) div 3))
1: (2x - ((~x + ((x div 2) mod 2)) div 2))
1: (2x - ((~x + ((x div 2) mod 3)) div 3))
1: (2x - ((~x + ((x div 2) mod 5)) div 5))
1: (2x - ((~x + ((x div 4) mod 2)) div 2))
1: (2x - ((~x + (x mod 2)) div 3))
1: (2x - ((~2 + ((x mod 3) + (x div 4))) div 3))
1: (2x - ((~x + (x mod 3)) div 4))
1: (2x - ((~x + (x mod (1 + (x div 3)))) div 2))
1: (2x - ((~1 + (x mod 8)) div 2))
1: (2x - ((~1 + (if (~x + 2) <= 0 then x else 0)) div 5))
1: (2x - ((~x + (if (~2 + (x div 2)) <= 0 then 0 else 2)) div 2))
1: (2x - ((x + ~1) div 3))
1: (2x - ((x + ~1) div 5))
1: (2x - ((x + ~1) div (2 - (x mod (~1 + ((~x + 2) div 3))))))
1: (2x - ((x + ~2) div (2 + (x div 4))))
1: (2x - ((x + ~4) div 7))
1: (2x - ((x - (2 * (x mod 2))) div 3))
1: (2x - ((x - ((x + (x div 2)) div 4)) div 2))
1: (2x - ((x - ((2 - (x div 2)) div 2)) div 3))
1: (2x - ((x - ((x2 + ~x) div 2)) div 5))
1: (2x - ((x - (x div 5)) div 3))
1: (2x - ((x - ((1 + ((x mod (1 + (x div 2))) div 2)) mod 3)) div 2))
1: (2x - ((x - ((x div 2) mod 3)) div 3))
1: (2x - ((x - (x mod (~2 + ((x div 2) mod 2)))) div 3))
1: (2x - ((~1 + i) div 4))
1: (2x - (3x div ~7))
1: (2x - ((4x + ~4) div (4 + (x div 4))))
1: (2x - ((2x2 + 2) div (x + 5)))
1: (2x - ((2 * ((2x + 2) + (x div (1 + (2 * (if (~4 + (x div 2)) <= 0 then 2 else 1)))))) div 3))
1: (2x - ((2 * (x + ((x + 1) mod 5))) div 5))
1: (2x - ((~2 * (x + (if (x + ~4) <= 0 then 1 else 2))) div 3))
1: (2x - ((2x + 2) div ~7))
1: (2x - (((1 - (2 * (i mod 2))) * i) div 2))
1: (2x - ((~x2 + x) div 4))
1: (2x - ((~2x + 4) div 7))
1: (2x - ((~2x + 4) div 9))
1: (2x - (((~x + 2) * (x div 2)) div (x + 3)))
1: (2x - ((2 * ((x + ~1) + (x div 2))) div 5))
1: (2x - ((2 * (~x + (x2 div 3))) div (x + 3)))
1: (2x - ((2 * (~x + (x2 div 3))) div (x + 2)))
1: (2x - ((2 * (~x + (x div 7))) div 3))
1: (2x - ((3 * (~1 + (x div ~2))) div 2))
1: (2x - ((2 * (~x + ((x div 3) mod 2))) div 3))
1: (2x - ((x2 + ~2x) div ((x + 4) + (x div 2))))
1: (2x - ((2 * ((x + ~1) - (x div 4))) div 5))
1: (2x - (18 div (x + 1)))
1: (2x - ((~x3 + 3x2 + ~2x) div 3))
1: (2x - ((4 * (x div 2)) div 7))
1: (2x - ((2 * ((~x + ((~x + 2) div 4)) div 2)) div 3))
1: (2x - ((x * ((x + ~1) div 3)) div (x + 1)))
1: (2x - ((3 * (x mod 13)) div (x + 1)))
1: (2x - (2x div 5))
1: (2x - (2x div (2 + (4x div (x + 2)))))
1: (2x - (2x div ~5))
1: (2x - (x2 div ((x + 2) + (x div 3))))
1: (2x - (x2 div ((x + 2) + (x div 4))))
1: (2x - (x2 div (x + 3)))
1: (2x - (x2 div (1 + (2x div 3))))
1: (2x - (x2 div (x - ((~x + 2) div 2))))
1: (2x - ((((x + 1) + (x div 4)) div 2) div 2))
1: (2x - ((((x + 1) - (x div 4)) div 2) div 2))
1: (2x - (((x + 1) div 2) div 3))
1: (2x - (((~x + 2) div 2) div 5))
1: (2x - (((x2 - loop(\(x,i).(x * i),x,1)) div 2) div 2))
1: (2x - (((~x + ((x div 2) div ~2)) div 2) div 2))
1: (2x - ((((x + 1) - ((x div 2) mod 5)) div 2) div 2))
1: (2x - (((x - (((x + ~2) * ((x + ~1) div 2)) div 2)) div 2) div 2))
1: (2x - (((x * (x + (x div 2))) div 2) div (x + 5)))
1: (2x - (((~x3 + x) div 2) div 3))
1: (2x - (((3 * (~1 + (x div 2))) div 2) div 2))
1: (2x - (((3 * (x - ((x2 + ~x) div 4))) div 2) div 2))
1: (2x - (((x3 + ~3x2 + 2x) div 2) div 3))
1: (2x - (((((1 - (x div 2)) div 3) * (x div 2)) div 2) div 2))
1: (2x - (((3 * ((x2 + ~2x) div (x + 2))) div 2) div 2))
1: (2x - (((x * (x div 2)) div 2) div (2 + (x div 2))))
1: (2x - (((3x2 div (x + 2)) div 2) div 2))
1: (2x - (((32 mod (x + 1)) div 2) div 2))
1: (2x - ((x div 2) div ~5))
1: (2x - ((2 mod (~2x + 1)) div 3))
1: (2x - ((2 mod (~x2 + ~2x + 2)) div 2))
1: (2x - (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))
1: (2x - (((2 * (1 + ((1 + ((x div 2) mod (1 + (x mod (1 + (x div 3)))))) div 2))) mod (x + 1)) div 2))
1: (2x - ((((x div 2) div ~2) mod (x + 1)) div 2))
1: (2x - ((x mod (4 - (x div 4))) div 2))
1: (2x - ((x mod (1 + (x div 2))) div 3))
1: (2x - ((x mod (2 + (x mod 2))) div 2))
1: (2x - ((x mod 8) div 3))
1: (2x - ((if x <= 0 then 1 else (2 - (((x2 + ~x) div 2) div 5))) div 2))
1: (2x - (loop(\(x,i).(x - (x div 8)),2,(x + ~1)) div 2))
1: (2x - (x div (5 + ((~x + 1) mod 4))))
1: (2x - (x div (4 - ((x div 2) mod 2))))
1: (2x - (x div 7))
1: (2x - (x div 13))
1: (2x - (x div (2 + (i mod 2))))
1: (2x - (x div (1 + (if (~6 + (x div 2)) <= 0 then 0 else 2))))
1: (2x - (x div (2 + (if (x mod 2) <= 0 then 1 else 8))))
1: (2x - (x div ~4))
1: (2x - (x div ~5))
1: (2x - (x div 11))
1: (2x - (x div (~1 + (3 * (x div 2)))))
1: (2x - (x div 12))
1: (2x - (x div ~6))
1: (2x - (x div (4 * (2 + (x mod 2)))))
1: (2x - (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))
1: (2x - (i div ~2))
1: (2x - (2 mod (x + 1)))
1: (2x - (2 mod ((~x + 1) - (x mod 2))))
1: (2x - (2 mod (~1 + (x div ~7))))
1: (2x - ((1 + (x div 2)) mod 4))
1: (2x - ((2 + (x div 4)) mod (x + 1)))
1: (2x - ((x + 1) mod 5))
1: (2x - ((x + 1) mod (1 + ((x div 2) div 3))))
1: (2x - ((x + 1) mod (1 + (x mod (1 - ((~x + (x mod 2)) div 3))))))
1: (2x - ((x + 1) mod ~10))
1: (2x - ((x + 1) mod 8))
1: (2x - ((x + 2) mod 4))
1: (2x - ((1 + i) mod (x + 1)))
1: (2x - ((x + i) mod 2))
1: (2x - (~2 mod (1 + (x mod 4))))
1: (2x - (~x mod 4))
1: (2x - ((2x - (x div (if i <= 0 then 1 else i))) mod 2))
1: (2x - ((x + ~1) mod 4))
1: (2x - ((x + ~1) mod (1 + (x div 2))))
1: (2x - ((x + ~2) mod 5))
1: (2x - ((x + ~2) mod 8))
1: (2x - ((x - (((3 * ((~x2 + x) div 2)) div 2) div 2)) mod 2))
1: (2x - ((x - i) mod 3))
1: (2x - (((x + 1) * (x div 2)) mod 2))
1: (2x - (((x + 1) * (x div 2)) mod 3))
1: (2x - (2x mod 17))
1: (2x - (x2 mod 7))
1: (2x - ((x * i) mod 2))
1: (2x - (((((x + 2) div 3) + (x div 5)) div 2) mod 2))
1: (2x - (((x + 1) div 2) mod 3))
1: (2x - (((x - (((x * (x div 3)) div 2) div 3)) div 2) mod 2))
1: (2x - (((x - (x div 4)) div 2) mod 2))
1: (2x - (((x * i) div 2) mod 2))
1: (2x - ((((x + 1) div 2) div 3) mod 2))
1: (2x - (((x3 mod (2x + ~1)) div 2) mod 2))
1: (2x - ((x div 2) mod (1 + ((1 + ((x + 1) div 2)) mod 3))))
1: (2x - ((x div 2) mod (~2 + (x mod 2))))
1: (2x - ((x div 3) mod 3))
1: (2x - ((x div 5) mod 2))
1: (2x - ((x div ~2) mod 2))
1: (2x - (((x + (x div 4)) mod 3) mod 2))
1: (2x - (((x2 + ~x + ~1) mod (2 + (x div 2))) mod 2))
1: (2x - ((x mod 3) mod (1 + (x div 3))))
1: (2x - ((x mod 4) mod ~3))
1: (2x - ((x mod (1 + ((~x + 2) mod 4))) mod 2))
1: (2x - ((x mod 10) mod 9))
1: (2x - ((x mod 10) mod (if x <= 0 then 1 else x)))
1: (2x - (x mod (6 + (x div 2))))
1: (2x - (x mod (3 - (x mod 2))))
1: (2x - (x mod 7))
1: (2x - (x mod 9))
1: (2x - (x mod (8 + (x div 4))))
1: (2x - (x mod (1 + (x div 5))))
1: (2x - (x mod (1 + ((x2 + ~x) mod 8))))
1: (2x - (x mod (1 + ((x div 2) mod 3))))
1: (2x - (x mod (2 + ((x div 2) mod 3))))
1: (2x - (x mod (1 + ((x mod (3 + (x mod 2))) mod (1 + (x div 2))))))
1: (2x - (x mod (1 + i)))
1: (2x - (x mod (0 - (if i <= 0 then 1 else i))))
1: (2x - (x mod (2 - ((x div 2) mod 2))))
1: (2x - (x mod 15))
1: (2x - (x mod (~2 + ((x div 2) mod 2))))
1: (2x - (x mod (x - ((x + ~1) mod 8))))
1: (2x - (x mod (4 * (4 - ((x div 2) mod 2)))))
1: (2x - (i mod (2 * (1 + (x mod 2)))))
1: (2x - (if (~2 + (x div 2)) <= 0 then 0 else 1))
1: (2x - (if (~2 + (x mod 4)) <= 0 then x else 3))
1: (2x - (if (~2 + (x mod (2 + (x mod 3)))) <= 0 then x else 3))
1: (2x - (if (x - i) <= 0 then 0 else 2))
1: (2x - (if ((x div 2) mod 2) <= 0 then (x mod 2) else 2))
1: (2x - (if ((x div 2) mod 2) <= 0 then (x mod 2) else ~1))
1: (2x - (if (x mod 4) <= 0 then 0 else 1))
1: (2x - (if (x mod 5) <= 0 then 0 else 2))
1: (2x - (if (x mod (3 + i)) <= 0 then 1 else x))
1: (2x - (if (x mod (1 + i)) <= 0 then 1 else x))
1: (2x - (if (x mod (1 + i)) <= 0 then i else 0))
1: (2x - (if (x mod 10) <= 0 then 1 else i))
1: (2x - (if (x mod (2 * (1 + i))) <= 0 then 1 else 0))
1: (2x - loop(\(x,i).((x + 2) - ((x div 5) mod 2)),x,0))
1: (2x - loop(\(x,i).((x + 1) - (if x <= 0 then 1 else (2 * i))),x,x))
1: (2x - loop(\(x,i).(x - (x div (8 - i))),2,x))
1: (2x - loop(\(x,i).(x - (if x <= 0 then 0 else (2 + i))),x,(x + ~1)))
1: (2x - loop(\(x,i).(x - loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,0)),3,x))
1: (2x - loop(\(x,i).(x - loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,0)),x,(x + ~1)))
1: (2x - loop(\(x,i).3x,x,1))
1: (2x - loop(\(x,i).(~2x + 2),i,0))
1: (2x - loop(\(x,i).(x * i),i,1))
1: (2x - loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(~2 + i),1))
1: (2x - loop(\(x,i).(x div (1 + (x mod 2))),x,x))
1: (2x - loop(\(x,i).(x div (2 - (x mod 2))),x,x))
1: ((x2 + ~x + ~1) - ((x2 + 2x) div 5))
1: (x2 + ~16x + 43)
1: ((x2 + ~1) - ((2 * (1 + ((1 + ((1 + loop(\(x,i).(x + (i * i)),(x + ~1),x)) div 2)) div 2))) div 3))
1: ((x2 + ~1) - (x2 div 4))
1: ((x2 + ~1) - ((((x2 + ~1) - ((((x3 + ~3x2 + 2x) div 2) div 2) div 3)) div 2) div 2))
1: ((x2 + ~1) - ((((x3 + ~3x2 + 2x) div 2) div 2) div 3))
1: ((x2 + ~2) - (x div 2))
1: (x2 + 23)
1: ((x2 + ~1) + (((x + 1) * ((~x + 1) - loop(\(x,i).3x,(x div 2),2))) div 2))
1: ((x2 + ~1) + loop(\(x,i).(~1 + ((x div 2) + i)),x,2))
1: (x2 + 22)
1: ((x2 + 3) + ((x + ((x + 1) mod 6)) div 2))
1: (x2 + 29)
1: (x2 + ~31)
1: ((x2 + 1) - (3 * ((x div 2) mod 2)))
1: ((x2 + 1) - ((~x + ((x div 2) mod 2)) div 3))
1: ((x2 + 1) - (((x + (x div 2)) * ((x + ~1) div 2)) div 2))
1: ((x2 + 1) - ((2x2 + ~x) div 12))
1: ((x2 + 1) - (x2 div 4))
1: ((x2 + 1) - (((~x3 + x) div 2) div 3))
1: ((x2 + 1) - (x div ~2))
1: ((x2 + 6) - (x div ~2))
1: ((x2 + 1) - (2 mod (~2x + 1)))
1: (x2 + (((x3 + ~x) div 2) div 3) - (if x <= 0 then 1 else x))
1: ((x2 + 1) - loop(\(x,i).2x,x,2))
1: (x2 + ~x + 41)
1: ((x2 + ~x + 1) + (if (x mod 3) <= 0 then 0 else 2))
1: ((x2 + ~x + 1) + loop(\(x,i).2x,x,1))
1: (x2 + ~x + 10)
1: (x2 + 29x + 20)
1: ((x2 + ~x) + (2 * (((x2 div 2) mod (x + 1)) div 2)))
1: ((x2 + ~x) + (if (x mod 4) <= 0 then 0 else 2))
1: ((x2 + ~x) + loop(\(x,i).2x,(~x mod 4),1))
1: ((x2 + ~x) + loop(\(x,i).2x,x,3))
1: (x2 - (((2x + 2) + (x div 2)) * (x div 2)))
1: (x2 - (2 * (x + ((x3 + 2x) div 3))))
1: (x2 - ((2x + (x div 2)) * (1 + (x div 2))))
1: (x2 + 14)
1: (x2 + 21)
1: (x2 + 52x + 30)
1: (x2 + 30)
1: (7x2 + ~5x + 1)
1: (x2 - ((~2x + (x div 2)) * (1 + (x div 2))))
1: (x2 - (2 * (~2 + (x mod 2))))
1: (x2 - (5 * (~x2 + (x mod 2))))
1: (x2 + ~2x + 10)
1: (x2 + ~28)
1: (4x3 + ~5x2 + 2x)
1: (x2 - (4 * (~x2 + (x mod 2))))
1: (x2 - ((5x + ~5) * ((~x2 + x) div 2)))
1: (x2 - ((7x + ~7) * ((~x2 + x) div 2)))
1: (x2 - (4 * ((x2 div 2) div 3)))
1: (x2 - (6 * (x div 2)))
1: (x2 - (3 * ((x div 2) * (x div 2))))
1: (x2 - (3 * ((x2 + ~x) div 4)))
1: (x2 - ((x div 3) * (x div 3)))
1: (x2 - (2 * ((x div 2) mod 2)))
1: (x2 - ((x + ~1) * (x mod 2)))
1: (x2 - ((1 - (x div 3)) div 3))
1: (x2 - ((2 - (x div 2)) div 2))
1: (x2 - ((~x + 2) div 2))
1: (x2 - ((~x2 + ((x2 div 2) div 3)) div 2))
1: (x2 - (((x mod 2) - (x div 2)) div 2))
1: (x2 - ((x + ~1) div 3))
1: (x2 - ((x + ~2) div 3))
1: (x2 - (((x + (x div 2)) * ((x + ~1) div 2)) div 2))
1: (x2 - ((x2 + x) div 4))
1: (x2 - ((~x2 + 2x) div 2))
1: (x2 - ((14x3 + ~12x2 + ~2x) div 3))
1: (x2 - ((x3 + ~3x2 + 2x) div 9))
1: (x2 - (x3 div (x + 3)))
1: (x2 - (x2 div (x + 2)))
1: (x2 - (x2 div ~3))
1: (x2 - ((((x2 + ~x) - (x2 div 4)) div 2) div 2))
1: (x2 - (((((x + ~1) div 2) * (x div 3)) div 2) div 2))
1: (x2 - ((((~x4 + x2) div 2) div 3) div 2))
1: (x2 - ((x div 2) div ~2))
1: (x2 - ((x div 3) div ~3))
1: (x2 - (loop(\(x,i).(~x2 + x),2,(2x + 2)) div (x + 1)))
1: (x2 - (loop(\(x,i).x3,x,(x + ~2)) div 2))
1: (x2 - (loop(\(x,i).(x * i),(x + ~2),1) div (x + 2)))
1: (x2 - (x div 4))
1: (x2 - (x div (2 + (x div (2 + (x mod 3))))))
1: (x2 - (x div ~4))
1: (x2 - (x div 8))
1: (x2 - (2 mod (x + 1)))
1: (x2 - ((1 + (x div 4)) mod 2))
1: (x2 - (2x mod 5))
1: (x2 - ((x div 2) mod 2))
1: (x2 - ((x mod (~2 + (((~x + 2) div 2) div 3))) mod 2))
1: (x2 - (x mod 3))
1: (x2 - (x mod loop(\(x,i).2x,x,~1)))
1: (x2 - (if (~x + 2) <= 0 then 1 else 0))
1: (x2 - (if (~2 + (x div 2)) <= 0 then 1 else 2))
1: (x2 - (if (x mod 2) <= 0 then 1 else x))
1: (x2 - (if x <= 0 then 1 else (~1 + (3 * ((~x2 + 1) mod 8)))))
1: (x2 - (if x <= 0 then 1 else (x + (((x + 1) div 3) mod 2) - (x div 2))))
1: (x2 - (if x <= 0 then 1 else ((x + 1) - loop(\(x,i).loop(\(x,i).(x + (i * i)),(x + ~1),1),2,x))))
1: (x2 - loop(\(x,i).(3x + 1),x,1))
1: (x2 - loop(\(x,i).(4x + 1),i,1))
1: (x2 - loop(\(x,i).(x * (2 + i)),i,2))
1: (x2 - loop(\(x,i).(x * i),x,1))
1: ((2 * i) - (x * (1 + i)))
1: ((2 * i) - (2x div 3))
1: ((2 * i) - (x div 4))
1: ((2 * i) - (i div 3))
1: ((2 * i) - ((1 + i) mod 2))
1: (~x + (2 * i))
1: (~2 + (x * i))
1: (~4 + (x * i))
1: ((~x + ~1) + (x * i))
1: (~1 + ((x * i) + (2 * (i mod 2))))
1: (2 + (x * i) - (x div 2))
1: (1 + (x * i) - (x mod 4))
1: (1 + (x * i) - (i mod 2))
1: (~6 + (x * i))
1: ((x * i) - (x div 8))
1: ((x * i) - loop(\(x,i).(~1 + (x * i)),i,0))
1: ((x * i) - loop(\(x,i).~2x,(~1 + i),1))
1: ((i * i) - ((~x + 2) div 2))
1: (~1 + (2 * compr(\x.(1 + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then x else 5)),x,x)),x)))
1: (~1 + (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(5x + 2))),(x + 1))))
1: (~1 + (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(7x + ~1))),x)))
1: (~1 + (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(7x + ~2))),x)))
1: (~1 + (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(5x + ~2))),x)))
1: (~1 + (2 * compr(\x.(1 - ((x + 1) mod (1 + (x div (2 + ((x div 4) mod 3)))))),x)))
1: (~1 + (2 * compr(\x.(1 - (2x mod (2 + ((x div 2) + (x mod 3))))),x)))
1: (~1 + (2 * compr(\x.(1 - ((((1 - (x mod 4)) mod (x + 1)) mod 3) mod 2)),x)))
1: (~1 + (2 * compr(\x.(1 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,7x)),x)))
1: (~1 + (2 * compr(\x.(1 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x2 + 2x))),x)))
1: (~1 + (2 * compr(\x.(1 - loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,4x)),x)))
1: (~1 + (2 * compr(\x.(2 - ((x + 1) mod (1 + (6 * (2x mod 3))))),x)))
1: (~2 + (3 * compr(\x.(2 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(3x + 1))),x)))
1: (~2 + (2 * compr(\x.((x + 2) - (3 * (~2 + ((x - (x div 4)) div 2)))),(x + 1))))
1: (~x + (2 * compr(\x.((((x + ~1) div (2 + (x div 5))) mod 2) - (x mod 2)),x)))
1: (~1 + (2 * compr(\x.(x - loop(\(x,i).loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),x,(2x + 1)),2,(x + ~1))),x)))
1: (~2 + (2 * compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: (~x + (2 * compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: (~x + (2 * compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i)))
1: (~1 + (2 * compr(\x.(if x <= 0 then 1 else (~2 + (loop(\(x,i).2x,x,(if (x mod 3) <= 0 then 0 else 2)) mod (x + 1)))),x)))
1: (~2 + (3 * compr(\x.loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(3x + 1)),x)))
1: (~1 + (2 * compr(\x.loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,4x),(x + 1))))
1: (~1 + (3 * compr(\x.loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,2x),(x + 1))))
1: (~1 + (9 * compr(\x.loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,2x),(x + 1))))
1: (~2x + (3 * compr(\x.loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,2x),x)))
1: (~1 + (2 * compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + 1)),x)))
1: (~1 + (2 * compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),x,(~4x + 1)),x)))
1: (~1 + (3 * compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),x,(~4x + 1)),x)))
1: (~1 + (2 * compr(\x.loop(\(x,i).(if x <= 0 then 1 else loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + ~1))),2,x),x)))
1: (~1 + (2 * compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(2x div 3)),(x + 1))))
1: (~1 + (2 div (1 + ((1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) mod 7)) div 2))))
1: (~x + (2 div (1 + (x div 2))))
1: (~1 + (2 div (1 + (x div 5))))
1: (~1 + (2 div (1 + (x div (~2x + 32)))))
1: (~1 + (2 div (1 + ((x * (x div 2)) mod (1 + (x mod (1 + ((~x + 2) mod 4))))))))
1: (~1 + (2 div (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 7))))
1: (~1 + (2 div (1 + (x mod (1 + (if (x mod 2) <= 0 then 6 else 1))))))
1: (~1 + (2 div (x + 1)) - (x mod ~3))
1: ((2 div (x + 1)) - loop(\(x,i).(2x + ~6),x,0))
1: (28x + (2 div (1 + i)))
1: (~2x + (2 div (1 + i)))
1: (~1 + (2 div (5 - ((x + ~1) div 3))))
1: (~1 + (2 div (5 - (((x + 1) div 2) div 2))))
1: (~x + (2 div (8 - (x div 2))))
1: (~2x + (2 div (x2 + ~2)))
1: (~1 + (2 div (~8 + (x div 2))))
1: (~x + (2 div (x + ~16)))
1: (~1 + (2 div ((x + 2) div (1 + (2 * (((x + ~1) div 2) div 2))))))
1: (~1 + (2 div ((1 - (if ((x + 2) mod (2 + ((x div 2) mod 2))) <= 0 then x else 0)) mod 5)))
1: (~3 + (2 div (if x <= 0 then 1 else x)))
1: ((4 div (4 - ((x mod (1 + (x div 2))) div 2))) - (x mod 2))
1: (~x + (((x2 + x + 2) + (loop(\(x,i).2x,x,1) div 8)) div 2))
1: (~x + (((x + 1) + (2 * loop(\(x,i).(x - ((~x + (x mod 2)) div 3)),x,2))) div 3))
1: (~2 + (((x + 1) + ((1 + (2 * ((x + ((x + loop(\(x,i).2x,x,1)) div (x + 1))) div 2))) div (2x + 1))) div 2))
1: (~x + (((x + 2) + ((x + ((1 + ((((x + 1) * (x + ((x + ~1) mod 3))) div 2) div 2)) div 2)) div 2)) div 2))
1: (~1 + (((x + 1) + (x mod 2)) div 5))
1: (~x + (((x + 1) + (x mod 2)) div 5))
1: (~1 + ((1 + ((x mod (2 + (x mod 2))) + (x div (1 + (x div 4))))) div 2))
1: (~x + ((~x + 3) div 3))
1: (~1 + ((2 + ((2 * (1 + ((1 + (loop(\(x,i).((x + 1) + (2 * ((x div 2) div 3))),x,1) div 2)) div 2))) div 3) - (x mod 2)) div 2))
1: (~1 + ((2 + ((2 * (1 + (loop(\(x,i).((x + 1) + (3 * (x div 5))),x,1) div (x + 1)))) div 3) - (x mod 2)) div 2))
1: (~1 + ((2 + ((2 * (1 + (loop(\(x,i).(x + (x div (2 + (x mod 2)))),x,2) div (x + 2)))) div 3) - (x mod 2)) div 2))
1: (~x + (((x + ~1) + ((2 * ((x + 2) + ((2 * (1 + (2 * (x - ((~2x2 + 4x) div 5))))) div 3))) div 3)) div 2))
1: ((((x + 1) - (x div 4)) div 2) - (x div 3))
1: (~1 + (((2 * (1 + ((1 + ((1 + (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) mod (2 * (2 + (x mod 4))))) div 2)) div 2))) + (x mod 3)) div 2))
1: (((x2 + 2x + 1) div 5) - ((x div 2) mod 2))
1: (~1 + ((~x2 + 2x + 1) div (x + 5)))
1: (~1 + ((x2 + ~x + 2) div (x + 5)))
1: (~1 + ((x2 + ~2x + 1) div (x + 5)))
1: (~1 + (((3x2 + 12x + 12) + (x2 div 2)) div 2))
1: (((8x + 1) div (x + 2)) - (if x <= 0 then 0 else 1))
1: (((6x + (x div 3)) div (x + 2)) - (x mod 2))
1: (~1 + ((1 + (2 * ((2x2 + 4) div (x + 3)))) div 3))
1: (((x + ((x div 2) * (x div 2))) div 2) - (x mod 2))
1: (~1 + ((1 + (2 * (x div 3))) div 3))
1: (~3 + ((1 + (2 * ((x2 + ~2) mod 13))) div (1 + (x mod 2))))
1: (~1 + ((1 + (5 * loop(\(x,i).2x,(((x + ~1) div 2) - ((3 * (x div 4)) div 2)),1))) div 3))
1: (~1 + ((2x + 1) div (4 + ((x div 2) div 3))))
1: (~1 + ((2x + 1) div (3 + (if (((x + 2) mod 8) mod 3) <= 0 then 0 else 2))))
1: (~1 + ((2x + 1) div 7))
1: (~4 + ((2x + 1) div 7))
1: ((~4x + ~4) + ((2x + 1) div 9))
1: ((~2x + ~2) + ((2x + 1) div (1 + (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))))
1: (((x2 + 1) div 2) - ((3 * (x div 4)) div 2))
1: (((x2 + 1) div 2) - (x div 3))
1: (~1 + ((x2 + 1) div ((x + 1) + (2x div 5))))
1: (~1 + ((x2 + 1) div ((x + 2) + (x div 2))))
1: (((x2 + 1) div (x + 2)) - ((~1 + (x div 2)) div 2))
1: (((x2 + 2) div 3) - (x div 5))
1: (~1 + ((x2 + 2) div (x + 5)))
1: (~x + ((1 + ((1 + (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x))) div 2)) div 2))
1: (~x + ((2 + (((x + ~1) + loop(\(x,i).((x + 1) - ((~2x + 2) div 7)),2x,1)) div 2)) div 2))
1: (~1 + ((1 + ((1 + ((1 + ((loop(\(x,i).x2,1,(8 + loop(\(x,i).2x,x,1) - (x mod 2))) div 2) div 2)) div 3)) div 2)) div 2))
1: (~1 + ((1 + ((1 + (((x + 1) * (1 + (if (x mod 10) <= 0 then (x + 2) else 0))) div 2)) div 2)) div 2))
1: (~1 + ((1 + ((1 + (x2 div (1 + (3 * (((x + 1) * (x div 2)) mod 2))))) div 2)) div 2))
1: (~1 + ((1 + ((x + 1) div (1 + ((x div 5) + (x mod 3))))) div 2))
1: (~1 + ((((x - ((x mod 3) div 2)) div 2) + (x mod 2)) div 2))
1: (~x + ((1 + ((2 * (1 + (2 * loop(\(x,i).((x + 3) + (x div 4)),x,1)))) div 3)) div 3))
1: (~1 + ((1 + (((x + 3) * (1 + (x mod 4))) div (1 + (x mod 2)))) div 2))
1: (~1 + ((1 + (((x + 1) * (1 - (loop(\(x,i).x2,2,(1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1))) mod (x + 1)))) div 2)) div 2))
1: (((1 + ((x * (x div 2)) div 2)) div 2) - (x div 4))
1: (~1 + ((1 + ((x * (x div 2)) div 4)) div 2))
1: (~1 + ((x + (x2 div 3)) div ~2))
1: (~2 + ((x + (x2 div 7)) div 2))
1: (~1 + ((x + (x2 div 25)) div 3))
1: (~1 + ((1 + (((14x2 + 45x + 36) div 2) div 5)) div 2))
1: (~1 + ((1 + (((18 * (1 + (~2 mod (1 - (2 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)))))) div 2) div 2)) div 2))
1: (~1 + ((1 + ((((x + 1) * ((1 + (x div 4)) div 2)) div 2) div 2)) div 2))
1: (((1 + (((((x + ~1) * (1 + (x div 2))) div 2) div 2) div 2)) div 2) - (x mod 2))
1: (~x + ((x + ((loop(\(x,i).(5x + 2),x,2) div 3) div 3)) div 2))
1: (~2 + ((x + ((x div 2) div 3)) div 2))
1: (~1 + ((x + ((x div 2) div 3)) div ~2))
1: (~6x + ((x + ((x div 2) div 5)) div 2))
1: (~x + ((x + (loop(\(x,i).((x + 2) + (x div (2 + ((x div 2) mod 3)))),2,x) div 2)) div 2))
1: (((x + (loop(\(x,i).(1 + ((x + ((x2 div 2) div 3)) div 2)),2,x) div 3)) div 2) - (x div 2))
1: (~1 + ((1 + (loop(\(x,i).2x,x,loop(\(x,i).2x,(x div 2),(3 + (x mod 2)))) div (x + 1))) div 2))
1: (~1 + ((1 + (x div 2)) div 2) - (2x div 3))
1: (((1 + (x div 2)) div 2) - (3 * ((x div 4) mod 2)))
1: (((1 + (x div 2)) div 2) - ((x + (2 * (x mod 2))) div 5))
1: (((1 + (x div 2)) div 2) - ((((1 - (x div 2)) mod (x + 2)) div 2) div 2))
1: (((1 + (x div 2)) div 2) - (x div 9))
1: (((1 + (x div 2)) div 2) - ((x div (1 + (x mod 3))) mod 2))
1: (~1 + ((1 + (x div 2)) div (1 + ((1 + (x div 4)) div 2))))
1: (~1 + ((2 + (x div 2)) div (2 + ((x div 2) mod 2))))
1: (((x + (x div 2)) div 2) - ((x div 2) mod 2))
1: (~2 + ((x + (x div 2)) div 4))
1: ((~2x + ~2) + ((x + (x div 2)) div 4))
1: (((x + (x div 2)) div 4) - ((x + 1) * (if x <= 0 then 1 else 2)))
1: (((x + (x div 2)) div 4) - (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))
1: (((x + (x div 2)) div 4) - (if x <= 0 then 1 else x))
1: (~x + ((x + (x div 2)) div 4))
1: (~1 + ((x + (x div 2)) div 5))
1: (~1 + ((x + (x div 2)) div ~2))
1: (~1 + ((x + (x div 2)) div ~4))
1: (~1 + ((x + (x div 2)) div ~5))
1: ((~6x + ~3) + ((1 + (x div 3)) div 2))
1: (((1 + (x div 3)) div 2) - (x div (3 + (x div 3))))
1: (((1 + (x div 3)) div 2) - (x div (~2 + ((~x + 2) div 4))))
1: (~1 + ((x + (x div 3)) div 5))
1: (((1 + (x div 4)) div (1 + (x mod 5))) - (x mod 3))
1: (~1 + ((x + (x div 4)) div 2))
1: (((x + (x div 4)) div 2) - ((x + ~2) div 3))
1: (~1 + ((x + (x div 4)) div ~3))
1: (~1 + ((1 + (x div (1 + (31 mod (2x + 1))))) div 2))
1: (~1 + ((1 + (x div (1 + (if ((x mod 3) mod 2) <= 0 then 2 else 0)))) div 2))
1: (~1 + ((2 + (x div (~2 + (x mod 2)))) div 3))
1: (~1 + ((x + (x div 8)) div ~2))
1: (~1 + ((1 + ((1 + ((x3 + 2) div 3)) mod 7)) div 2))
1: (~x + ((((1 + (x div 2)) mod 3) + loop(\(x,i).2x,x,1)) div 3))
1: (((1 + ((2 + (x div 2)) mod 6)) div 2) - (x mod 2))
1: (((1 + (~x mod 4)) div 2) - (x div 7))
1: (~1 + ((x + ((2 - (x div 2)) mod 4)) div 2))
1: (~1 + ((1 + ((~1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 0 else 2))),x,x)) mod 4)) div 2))
1: (~1 + ((1 + ((2 * (2 + ((3x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) div 2))) mod 7)) div 2))
1: (~1 + ((((x2 + 2x) mod 6) + (x div 2)) div 2))
1: (~1 + ((x + ((x div 2) mod 2)) div 2))
1: (((x + ((x div 2) mod 4)) div 4) - (x div 5))
1: (((((x div 3) mod 2) + (x div 4)) div 2) - (if x <= 0 then 1 else 4x))
1: (~1 + ((((x div ~4) mod 2) + (x div 2)) div 3))
1: (~1 + ((x + ((x div ~4) mod 2)) div 3))
1: (~1 + ((x + (x mod 2)) div 3))
1: (((1 + (if x <= 0 then 1 else x)) div 2) - ((3 * (x div 4)) div 2))
1: (((1 + (if x <= 0 then 2 else loop(\(x,i).((4x2 + 2x) div 3),x,1))) div 3) - (x div 3))
1: (~1 + ((loop(\(x,i).(3x + 1),x,1) + (((x + ~1) div 2) mod 3)) div 2))
1: (~1 + ((loop(\(x,i).((x * (1 + (i mod 2))) + (x mod 2)),x,1) + loop(\(x,i).2x,x,1)) div 2))
1: (~1 + ((x + loop(\(x,i).(1 - loop(\(x,i).(x - (if x <= 0 then 1 else (2 * (1 + i)))),x,2x)),2,x)) div 2))
1: (~1 + ((1 + loop(\(x,i).(4x - (if x <= 0 then 0 else 1)),3,x)) div 3))
1: (~x + ((x + loop(\(x,i).((x + 1) - (2 * (~x - ((x div 4) mod 2)))),x,1)) div 2))
1: (~1 + ((1 + loop(\(x,i).(x - (3 * (x div 4))),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))) div 2))
1: (~1 + ((loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),(x div 2),((x + 1) mod 2)) + loop(\(x,i).2x,x,1)) div 2))
1: (~1 + ((loop(\(x,i).x2,(x + ~1),2) + loop(\(x,i).x2,x,2)) div 2))
1: (~1 + ((x + loop(\(x,i).((4x + 1) div (1 + i)),x,1)) div 2))
1: (~1 + ((2 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 3))
1: (~1 + ((1 + loop(\(x,i).(if x <= 0 then 1 else (2 * (~1 + ((x + 2) mod 5)))),2,x)) div 2))
1: (~2 + (((x + 1) div 2) + (2 div (1 + (x div 3)))))
1: (1 + ((x + 1) div 2) - ((2 * (1 + (2 * loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)))) div 3))
1: (1 + ((x + 1) div 2) - ((x mod 9) mod 2))
1: (1 + ((x + 1) div 2) - (if (x mod (1 + (2 * (x mod 7)))) <= 0 then 0 else 1))
1: (~10 + ((x + 1) div 2))
1: (~16 + ((x + 1) div 2))
1: (((x + 1) div 2) - (2 * ((x * (x div 2)) mod 2)))
1: (((x + 1) div 2) - ((~x + 3) div 9))
1: (((x + 1) div 2) - ((1 + (x div 3)) div 3))
1: (((x + 1) div 2) - ((x + ~1) div (2 + (x div 8))))
1: (((x + 1) div 2) - ((x + ~2) div 3))
1: (((x + 1) div 2) - ((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3))
1: (((x + 1) div 2) - ((3 * (~2x + (x mod 2))) div (x + 1)))
1: (((x + 1) div 2) - ((2x + ~2) div (2 + (x div 2))))
1: (((x + 1) div 2) - ((4 * ((2 * (x div 2)) div 3)) div 3))
1: (((x + 1) div 2) - (4x div (~x + ~1)))
1: (((x + 1) div 2) - ((((((x + 1) div 2) div 2) div 2) * (((x + 1) div 2) div 2)) div 2))
1: (((x + 1) div 2) - ((3 * ((x div 2) div 3)) div 2))
1: (((x + 1) div 2) - (2x div (4 + (x div 2))))
1: (((x + 1) div 2) - (((x - (x mod 3)) div 2) div 2))
1: (((x + 1) div 2) - (((x * ((x div 2) mod 2)) div 2) div 3))
1: (((x + 1) div 2) - (((x div 2) div (2 - ((x div 2) mod 2))) div 3))
1: (((x + 1) div 2) - ((x div 4) div ~2))
1: (((x + 1) div 2) - (x div 3))
1: (((x + 1) div 2) - (x div (6 - (x mod 2))))
1: (((x + 1) div 2) - (x div (2 + ((x * (x div 2)) mod 2))))
1: (((x + 1) div 2) - (x div (~1 + (2 * i))))
1: (((x + 1) div 2) - (2 mod (1 + (x div 4))))
1: (((x + 1) div 2) - ((1 - (x div 3)) mod (1 + (x div 5))))
1: (((x + 1) div 2) - (((x + 2) div 3) mod 4))
1: (((x + 1) div 2) - (if (~2 + (x div 3)) <= 0 then 0 else 2))
1: (((x + 1) div 2) - (if (x + ~6) <= 0 then 0 else 2))
1: (((x + 1) div 3) - ((x + ~1) div 5))
1: (((x + 1) div 3) - (x div (~2 + (x div ~2))))
1: (((x + 1) div 3) - (x div ~14))
1: (((x + 1) div 3) - ((x + ~2) mod 5))
1: (((x + 1) div 3) - (x mod 2))
1: (((x + 1) div 5) - (x div (~2 + (x div ~2))))
1: (((x + 1) div 5) - (x mod 8))
1: (~1 + ((x + 1) div (1 + (((x div 2) mod 5) + (x div 3)))))
1: (~1 + ((x + 1) div (11 - (x div 2))))
1: (~1 + ((x + 1) div (9 - (x div 3))))
1: ((~6x + ~6) + ((x + 1) div 7))
1: (~1 + ((x + 1) div (1 + (2 * (if ((x + ~1) mod 5) <= 0 then 2 else 1)))))
1: (~1 + ((x + 1) div (1 + (2x div (1 + (2 * (2 + (x div 3))))))))
1: (~1 + ((x + 1) div (1 + (((~1 + (6 * (1 + (x div (2 + (x div (2 + ((x * (x div 2)) mod 2)))))))) div 2) div 2))))
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1: (~1 + ((x + 1) div (1 + (10 mod (x + 1)))))
1: (~x + ((x + 1) div ~7))
1: (~1 + ((x + 1) div (8 - ((x + 2) div 3))))
1: (~1 + ((x + 1) div (8 - (x div 4))))
1: (~1 + ((x + 1) div (if x <= 0 then 1 else (2 * (1 + ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 2))))))
1: (((x + 1) div (if x <= 0 then 1 else (2 * (1 + ((1 - (2 * ((x div 2) mod 2))) mod (1 + (x div 2))))))) - (x mod 2))
1: (((x + 2) div 3) - ((~x + 1) div 9))
1: (((x + 2) div 3) - (x div 4))
1: (((x + 2) div 3) - (x div ~7))
1: (((x + 2) div 3) - (x div (2 * (2 + (x mod 2)))))
1: (((x + 2) div 3) - (if (~2 + (x div 2)) <= 0 then 1 else 0))
1: (~1 + ((x + 2) div 5))
1: (~x + ((x + 2) div 5))
1: (~1 + ((x + 2) div (3 - (x div ~7))))
1: (~1 + ((x + 2) div (2 + ((2x + ~2) div (2 + (x div 2))))))
1: (~1 + ((x + 2) div (2 + (2x div (4 + ((x + 1) mod 4))))))
1: (~1 + ((x + 2) div (2 + (((x + 1) div 2) div 2))))
1: (((x + 2) div (2 + (x div 4))) - ((x div 2) mod 2))
1: (~1 + ((x + 2) div (2 + (x div (2 * (2 - (x mod 2)))))))
1: (~1 + ((x + 2) div (1 + (if (~1 + (x mod 3)) <= 0 then x else 3))))
1: (~1 + ((x + 2) div ~7))
1: (((x + 2) div ~7) - ((x + 1) div 3))
1: (((x + 2) div ~7) - (x div 7))
1: (((x + 2) div ~7) - (if x <= 0 then 1 else 2))
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1: (~1 + ((0 - ((x2 + 2x) div 4)) div 2))
1: (~1 + ((0 - ((x3 + 2x2) div 2)) div 2))
1: (~1 + ((0 - ((((1 + (x div 2)) div 2) * (x div 2)) div 2)) div 2))
1: (~1 + ((0 - ((((x + ~1) div 2) * (x div 2)) div 2)) div 2))
1: (~1 + ((0 - (x2 div (x + 10))) div 2))
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1: (~1 + ((0 - ((2 + (x mod 8)) mod (x + 1))) div 2))
1: (~1 + (((~x + 1) - ((x div 5) mod 3)) div 3))
1: (~1 + ((1 - (2 * (x div 3))) div 3))
1: (~1 + ((~2x + 1) div 5))
1: (~1 + ((~2x + 1) div 9))
1: (~1 + ((~2x + 1) div (12 - (x div 2))))
1: (~1 + ((~x2 + 1) div (x + 4)))
1: (~1 + ((~x2 + 1) div 49))
1: (~1 + ((1 - (x2 div 9)) div 3))
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1: (~1 + ((1 - (x div (~2 + (((2 - (x div 2)) div 2) div 2)))) div 2))
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1: (((~x + 1) div 3) - (x div 5))
1: (~x + ((~x + 1) div 3))
1: (~1 + ((~x + 1) div (6 + (x mod 2))))
1: (~1 + ((~x + 1) div (4 + ((x div 4) mod 2))))
1: (~1 + ((~x + 1) div 9))
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1: (~1 + ((~x + 1) div (1 + (2 * (2 + (((x div 2) div 3) mod 2))))))
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1: (~1 + ((~x3 + 2) div 12))
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1: (~1 + ((2 - (4x mod (~1 + (x div ~3)))) div 2))
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1: (~6 + ((~x + 2) div 2))
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1: (((~x + 2) div 2) - (if (x + ~2) <= 0 then x else 0))
1: (((~x + 2) div 5) - (x div 7))
1: (((~x + 2) div 5) - ((x div 4) mod 2))
1: (~1 + ((~x + 2) div (3 + (x mod 2))))
1: (~1 + ((~x + 2) div (4 + (x mod 2))))
1: (~1 + ((~x + 2) div (4 + (x mod (2 + (x div 4))))))
1: (~1 + ((~x + 2) div (1 + (2 * (8 - (x div 2))))))
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1: (~2 + ((~x + 2) div 8))
1: (~1 + ((~x + 2) div 12))
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1: (~1 + (((~x + 1) - (x2 div 3)) div 3))
1: (~1 + (((~x + 1) - (x mod 2)) div 5))
1: (~2 + ((2 - ((x div 5) + ((x div 2) mod 3))) div 2))
1: (~1 + (((~x + 2) - (x div 2)) div 8))
1: (~1 + (((~x + ~1) + (2 * (x mod 2))) div 5))
1: (~1 + (((~x + ~2) + ((x div 3) mod 3)) div 3))
1: (~1 + (((~x + ~1) + (x mod 2)) div 5))
1: (~1 + (((~x + ~2) + (x mod 2)) div 3))
1: (~x + (((~x + ~2) + (x mod 2)) div 3))
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1: (~1 + (((~x2 + x) - (((x2 + ~x) div 2) div 3)) div 3))
1: (~1 + ((x2 + ~2x + ~2) div (x + 5)))
1: (~1 + ((~x + (((x + ~1) div 2) * (x div 2))) div 5))
1: (~1 + ((~x + (2 * (x div 5))) div 3))
1: (~1 + ((x2 + ~1) div (x + 5)))
1: (~1 + ((x2 + ~2) div (x + 16)))
1: (~1 + ((x2 + ~2) div (x - ((~x + 2) div 2))))
1: (~x + ((x2 - (((x2 + 2x) div 2) div 3)) div 2))
1: (((x2 - (if x <= 0 then 0 else 1)) div 3) - (x div 2))
1: (~2 + ((~x + (2 div (x + 1))) div 4))
1: (~1 + ((~x + ((2 - (x div 2)) div 2)) div 2))
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1: (~1 + ((~x + ((2 - (x div 2)) div 2)) div 3))
1: (~2 + ((~x + ((2 - (x div 4)) div 2)) div 2))
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1: (~2 + ((~x + ((~x + 2) div 4)) div 2))
1: (~1 + ((~x + ((~1 + (x div 4)) div 2)) div 2))
1: (~1 + ((~x + ((~x + (x mod 3)) div 4)) div 2))
1: (~1 + ((~x + ((~1 + (x mod 8)) div 2)) div 3))
1: (~1 + ((~x + ((x + ~2) div 3)) div 3))
1: (((~x + (2x div (2 + (x div 2)))) div 3) - (if x <= 0 then 1 else 4x))
1: (((~x + (x2 div 4)) div 2) - (x div 3))
1: (~1 + ((~1 + (((x + 1) div 2) div 2)) div 2))
1: (~1 + ((~x + (((2 - (x div 2)) div 2) div 2)) div 2))
1: (~1 + ((~x + (((~x + 2) div 2) div 3)) div 2))
1: (~1 + ((~x + ((x div 2) div 7)) div 2))
1: (~1 + ((~x + ((x div 2) div ~2)) div 3))
1: (~2 + ((~x + ((x mod 3) div 2)) div 4))
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1: (((~1 + (x div 2)) div 2) - ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2))
1: (~1 + ((~x2 + (x div 2)) div 2))
1: (~1 + ((~x2 + (x div 2)) div (x + 2)))
1: ((((x div 2) - (x div 3)) div 2) - (x mod 2))
1: (~1 + (((x div 2) - (x mod 2)) div 2))
1: (~1 + ((~1 + (x div 3)) div 2))
1: (~x + ((~1 + (x div 3)) div 2))
1: (~x + ((~1 + (x div 4)) div 2))
1: (~1 + ((~2x + (x div 4)) div 3))
1: ((((x div 4) - ((x mod 3) div 2)) div 2) - (x mod 2))
1: (~x + (((x div 4) - (if x <= 0 then 1 else x)) div 2))
1: (~1 + ((~x + (x div (~2 + (x div ~2)))) div 2))
1: (~1 + ((~x + (x div 8)) div 2))
1: (~1 + ((~x + ((x + 2) mod 5)) div 4))
1: (~1 + ((~x + ((~1 + (x div 2)) mod 3)) div 4))
1: (~2 + ((~x + ((~1 + (x div 2)) mod 3)) div 4))
1: (~1 + ((~x + (((x + 1) * (x div 2)) mod 2)) div 3))
1: (~1 + (((2x mod 3) - (x mod 2)) div 2))
1: (~1 + ((~x + (((x + (x div 2)) div 4) mod 2)) div 2))
1: (~1 + ((~x + (((x + 2) div 3) mod 3)) div 2))
1: (((~x + ((x div 2) mod 2)) div 2) - (if (x + ~2) <= 0 then 1 else 2))
1: (((~x + ((x div 2) mod 2)) div 2) - (if x <= 0 then 1 else 4x))
1: (~1 + ((~x + ((x div 2) mod 2)) div 3))
1: (~1 + ((~x + ((x div 2) mod 2)) div 5))
1: (~1 + ((~x + ((x div 2) mod 3)) div 2))
1: (~1 + ((~x + ((x div 2) mod 3)) div 3))
1: (~1 + ((~x + ((x div 2) mod 4)) div 4))
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1: (~1 + ((~x + ((x div 2) mod 5)) div 4))
1: (~1 + ((~x + ((x div 2) mod 5)) div 5))
1: (~1 + ((~x + ((x div 2) mod 6)) div 5))
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1: (~1 + ((~x + ((x div (2 + ((x div 2) div 3))) mod 2)) div 2))
1: (~1 + ((~x + ((x div ~4) mod 2)) div 3))
1: (~1 + ((~x + ((x mod (2 + (x div 3))) mod 2)) div 2))
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1: (~x + ((~1 + (x mod 4)) div 2))
1: (~1 + ((~x + (x mod 4)) div 3))
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1: (~1 + ((~x + (i mod 2)) div 4))
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1: (~1 + ((~x + (if (~2 + (x div 3)) <= 0 then 2 else 0)) div 3))
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1: (~1 + ((~x + (if (i mod 2) <= 0 then 2 else 0)) div 5))
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1: (~1 + ((~x + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,(x + 1))) div 2))
1: (~1 + ((~x + loop(\(x,i).(if x <= 0 then (2 * i) else (x + ~1)),x,1)) div 2))
1: (~12 + ((x + ~1) div 2))
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1: (((x + ~1) div 2) - (x div ~4))
1: (((x + ~1) div 2) - (x mod (~3 + (x mod 2))))
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1: (((x + ~1) div 3) - (x2 div 3))
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1: (~2 + ((x + ~2) div 5))
1: (~2 + (((x + ~1) + (5 * (1 + (x div 2)))) div 2))
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1: (~1 + ((x - (x2 div 3)) div 2))
1: (~1 + ((x - (x2 div 4)) div 2))
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1: (~2x + ((x - (x div 4)) div 2))
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1: (~1 + ((x - (x mod ~3)) div 5))
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1: (((4 * ((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3)) div 3) - (x mod 2))
1: (~1 + (((x + ~2) * ((x div 3) * ((~x + 2) div 2))) div 2))
1: (~1 + (4x div (1 + (x div 4))))
1: (~1 + (4x div ~7))
1: (~1 + (6x div (1 + i)))
1: (~x + (2x2 div (x + 4)))
1: (~1 + ((~x3 + x2) div 2))
1: (~1 + ((x3 + ~x2) div 2))
1: ((~x2 + ~x) + (x3 div 2))
1: (~x + (x3 div 5))
1: ((x3 div 17) - (x div 4))
1: (~x + (x3 div (x + 16)))
1: (~1 + ((3 * ((x + (2 * (x + (x2 div (x + 17))))) div 3)) div 2))
1: (~1 + ((3 * ((1 + (2 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (~3 + (x div 2))) div 2))) div 3)) div 2))
1: (((3 * ((1 + (x * (x div 2))) div 3)) div 2) - (x mod 2))
1: (~1 + (((x + 1) * ((x2 + (x div 2)) div 2)) div 2))
1: (~x + ((2 * ((2 + ((3 * (x + (2 * (x - ((3 * (x div 4)) div 2))))) div 2)) div 2)) div 3))
1: (~1 + ((x * ((1 + (x div 2)) div 2)) div 15))
1: (((2 * ((x + ((x div 2) mod 2)) div 2)) div 3) - (x mod 2))
1: (~1 + ((2 * ((x + 1) div 3)) div 3))
1: (~1 + (((x + ~1) * ((~x + 1) div 3)) div 2))
1: (((x * ((~x2 + 2) div 2)) div 2) - (((x3 + ~x) div 2) div 3))
1: (~1 + ((x * ((2 - (x div 2)) div 2)) div 3))
1: (~1 + ((2 * ((~x + 2) div 2)) div 5))
1: (~1 + (((x + 1) * ((~x + 2) div 2)) div 2))
1: (~1 + ((((~x + 2) div 2) * (x div 3)) div 2))
1: (~x + ((((~x + 2) div 2) * (x div 4)) div 2))
1: (~1 + ((((~x + 2) div 2) * i) div 5))
1: (~1 + ((x * ((~1 + (x div 2)) div 2)) div 2))
1: (~1 + ((3 * ((~x + ((x div 2) mod 2)) div 2)) div 2))
1: (~2 + ((3 * (((x + 1) * (7 + ((5 * (1 + (x div 4))) mod (x + 1)))) div 3)) div 2))
1: (~1 + ((3 * ((~2x + 2) div 9)) div 2))
1: (~1 + (((x + 1) * (~x3 div 2)) div 3))
1: (((3 * (2x div 5)) div 2) - ((x + ~1) div 2))
1: (~1 + ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2))
1: (((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2) - (x mod 2))
1: (~1 + (((x + ~2) * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) div 3))
1: (~1 + ((x * ((x mod (2 + (x mod 2))) div 2)) div 4))
1: (((2 * (x div 2)) div 3) - ((x mod (1 + (x div 2))) div 2))
1: (~1 + ((2 * (x div 2)) div 5))
1: (~1 + ((3 * (x div 2)) div 2))
1: (~2 + ((3 * (x div 2)) div 2))
1: (~1 + (((x + ~1) * (x div 2)) div 2))
1: (~1 + (((x + ~1) * (x div 2)) div (x + 2)))
1: (~1 + (((x + ~2) * (x div 2)) div (x + 5)))
1: (~1 + (((x + ~2) * (x div 2)) div (x + 1)))
1: (~x + ((x * (x div 2)) div 4))
1: (~1 + ((x * (x div 2)) div (x + 3)))
1: (((x * (x div 2)) div (x + 4)) - (x div 5))
1: (~1 + ((2 * (x div 3)) div ~3))
1: (~1 + ((3 * (x div 4)) div 2))
1: (((3 * (x div 4)) div 2) - ((x + ~1) div 2))
1: (((3 * (x div 4)) div 2) - (x div 2))
1: (((3 * (x div 5)) div 2) - (x mod 2))
1: (~1 + ((3 * (x div (2 + (x div (1 + ((x mod (1 + ((2 - (x mod 4)) mod (x + 1)))) div 2)))))) div 2))
1: (~1 + ((2 * ((x + 2) mod 5)) div 3))
1: (~2 + ((x * ((x div 2) mod 2)) div 2))
1: (~1 + ((x * (loop(\(x,i).(~2x + 2),x,2) mod (x + 2))) div 4))
1: (~1 + ((x * (x mod 2)) div 2))
1: (~3 + ((x * (x mod 2)) div 2))
1: (~1 + (((~x + 1) * (x mod 3)) div 2))
1: (~1 + ((x * (x mod (2 + (x div 2)))) div 4))
1: (~x + ((x * loop(\(x,i).(x2 + x + 2),2,2)) div (1 + i)))
1: (~1 + ((2 * loop(\(x,i).(1 + (x * (x + i))),2,x)) div 3))
1: (~1 + ((2 * loop(\(x,i).(1 + (loop(\(x,i).(x * (2 + i)),compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x),1) div 3)),1,(x + 1))) div 3))
1: (~x + ((3 * loop(\(x,i).(x + (if (x - i) <= 0 then x else 0)),x,1)) div 2))
1: (~x + ((x * loop(\(x,i).(x2 + x),2,2)) div (1 + i)))
1: (~x + ((x * loop(\(x,i).(x2 + 2x),2,2)) div (1 + i)))
1: (~1 + ((loop(\(x,i).(3x + ~3),x,2) * (2 + loop(\(x,i).2x,x,1))) div 3))
1: (~1 + (((x + 2) * loop(\(x,i).2x,((x + 1) + ((3 * (x div (4 - ((x * (x div 2)) mod 2)))) div 2) - (x div 2)),1)) div 2))
1: (~1 + (2x div 3))
1: (~2 + (2x div 3))
1: ((2x div 3) - (if x <= 0 then 1 else (x div 12)))
1: (~1 + (2x div 5))
1: ((2x div 5) - ((x + ~1) div 3))
1: (~x + (2x div 5))
1: (~1 + (2x div (3 + (x div 4))))
1: (~1 + (2x div 9))
1: ((2x div (2 + (((x + 1) div 2) div 3))) - (x mod 2))
1: ((2x div (2 + (x div 2))) - (x div 12))
1: (~x + (2x div (2 + (x div 2))))
1: (~1 + (2x div (2 + (x div (1 + (((x2 + 2x) div 2) mod 3))))))
1: ((2x div (2 + (x div (1 + (((x2 + 2x) div 2) mod 3))))) - (x mod 2))
1: ((2x div (1 + i)) - (x * (2 + i)))
1: (~2 + (2x div ~7))
1: (~x + (2x div (1 - (x div ~4))))
1: (~1 + (2x div (~3 + ((~x + 2) div 4))))
1: (~1 + (2x div (~2 + (2x div ~7))))
1: (~1 + (2x div (~2 + (x div ~4))))
1: (~1 + (2x div (x + ~24)))
1: (~1 + (2x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))
1: (~2 + (x2 div 2))
1: (~1 + ((x2 div 2) + (2x mod (1 + (x div 4)))))
1: (~2 + ((x2 div 2) + (2x mod (4 + (x div 4)))))
1: (~8 + (x2 div 2))
1: ((x2 + ~3x + 2) + (x2 div 2))
1: ((x2 div 2) - ((~x2 + 2x) div 3))
1: ((x2 div 2) - ((if x <= 0 then 1 else x) mod 2))
1: ((x2 div 2) - (if (x + ~2) <= 0 then 1 else (x + ~2)))
1: ((x2 div 3) - (x mod 2))
1: ((~2x + 1) + (x2 div 4))
1: (~2x + (x2 div 4))
1: ((x2 div 4) - (((x + 1) div 2) div 2))
1: ((x2 div 4) - (x div ~3))
1: ((x2 div 4) - ((1 + (x mod 8)) mod (x + 1)))
1: ((x2 div 4) - (x mod (x - ((x + ~1) mod 8))))
1: (~1 + (x2 div (3 + (x div 4))))
1: (~1 + (x2 div ((x + 2) + (x div 4))))
1: ((x2 div ((x + 2) + ((x div 5) mod 2))) - (x div 2))
1: (~1 + (x2 div (x + 4)))
1: (~1 + (x2 div ((2x + 3) - (x div 3))))
1: (~1 + (x2 div (x + 8)))
1: (~1 + (x2 div ((2x + 2) + (x mod 3))))
1: (~1 + (x2 div (3 + (2 * (((x + 1) + (x div 2)) div 2)))))
1: (~2 + (x2 div (2 + (x div 2))))
1: ((x2 div (2 + (x div 2))) - (x div 2))
1: (~1 + (x2 div (2 + (if (~4 + (x div 2)) <= 0 then x else (x + 2)))))
1: ((x2 div (x + 2)) - ((~1 + (x div 2)) div 3))
1: (~x + (x2 div ~7))
1: (~1 + (x2 div (x + 15)))
1: (~2 + (x2 div ((2x + 4) - (x div 2))))
1: (~1 + (x2 div ((2x + 4) - (x div 3))))
1: (~1 + (x2 div (~2x + ~5)))
1: (~1 + (x2 div (2x - ((~x + 2) div 2))))
1: ((~2x + ~2) + (x2 div (x - ((~x + 2) div 2))))
1: (~x + (x2 div 8))
1: (~1 + (x2 div 14))
1: (~1 + (x2 div (4 * (2 - (((x mod 2) - (x div 2)) div 2)))))
1: (~1 + (x2 div loop(\(x,i).(x2 + 2),2,2)))
1: (~2 + ((3 * compr(\x.(2 - (x mod (3 + (x mod 8)))),x)) div 2))
1: (~2 + ((3 * compr(\x.(2 - (x mod (3 * (2 + (if ((x + ~1) mod 4) <= 0 then 2 else 1))))),x)) div 2))
1: (~1 + (((1 + ((2 * (1 + (2 * ((x + 2) + ((x + (x mod 2)) div 3))))) + ((x + 1) div 3))) div 2) div 2))
1: (~1 + (((x + (14 * (x + (if (~2 + (x div 2)) <= 0 then 1 else 2)))) div 2) div 2))
1: (~1 + ((((5 * ((x2 + 3x + 2) div 2)) + (x div 5)) div 2) div 2))
1: (~1 + (((1 + (x * (x div 2))) div 2) div 2))
1: (~1 + (((2 + ((1 + ((3 * (x + (if (~2 + (x div 4)) <= 0 then 1 else 2))) div 2)) div 2)) div 2) div 2))
1: (~1 + (((1 + ((x - (((~x2 + x) div 2) div 3)) div 2)) div 2) div 2))
1: (~1 + (((1 + ((x * (((2 - (x div 2)) div 2) div 2)) div 2)) div 2) div 2))
1: (~1 + (((1 + (((1 + (((x + 1) * (1 + (2 * (x - (x div (2 + (if (~2 + (x div 4)) <= 0 then 1 else 2))))))) div 2)) div 2) div 2)) div 2) div 2))
1: (~1 + (((1 + (x div 2)) div 2) div 2))
1: (~1 + (((2 + ((1 - (x mod (1 + ((2 - (x div 2)) mod 4)))) mod (x + 1))) div 2) div 2))
1: (~1 + (((2 + (loop(\(x,i).loop(\(x,i).(x div (~2 + (x mod 2))),x,(x + 1)),2,x) mod (x + 1))) div 2) div 2))
1: (~2 + (((x + 1) div 2) div 2))
1: (~2 + ((((x + 1) div 2) div 2) + (2 div (1 + (x div 4)))))
1: (1 + (((x + 1) div 2) div 2) - ((1 - (x div (~2 + (((2 - (x div 2)) div 2) div 2)))) div 2))
1: (((((x + 1) div 2) div 2) + (x mod 2)) - ((x div (1 + ((x div 3) mod 3))) mod 2))
1: (~x + ((((x + 1) div 2) div 2) + ((~1 + (x div 4)) div 2)))
1: ((((x + 1) div 2) div 2) - ((x + (if (~2 + (x div 4)) <= 0 then 1 else 2)) div 2))
1: ((((x + 1) div 2) div 2) - ((x div 2) div 5))
1: ((((x + 1) div 2) div 2) - (if ((x div 2) - (x mod 8)) <= 0 then 1 else 2))
1: ((~6x + ~6) + (((x + 1) div 2) div 3))
1: (~1 + (((x + 1) div 2) div (1 + (x mod 8))))
1: (~1 + (((2 - (x div 2)) div 2) div 2))
1: (~1 + (((2 - (if ((x + 1) mod (2 + ((x div 2) mod 2))) <= 0 then x else 1)) div 2) div 3))
1: (~1 + (((~1 + (6 * (1 + ((if x <= 0 then 2 else (1 + ((x + 3) mod (1 + (x div 4))))) div 2)))) div 2) div 2))
1: (~2 + (((~1 + (6 * (~1 + (6 * (1 + (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(9x + 1))),x))))))) div 2) div 2))
1: (~1 + (((~x + ((x div 2) div ~2)) div 2) div 2))
1: (~2 + (((x + ~1) div 2) div 2))
1: ((((x + ~1) div 2) div 2) - (x div 5))
1: ((((x + ~1) div 2) div 2) - (x mod 4))
1: (~1 + (((x - ((2 - ((x + 1) div (2 * (2 - ((x div 4) mod 2))))) div 2)) div 2) div 2))
1: (~1 + (((x - ((2 - (x div 4)) div 2)) div 2) div 2))
1: (~1 + (((x - (x3 div (x + 12))) div 2) div 2))
1: (~1 + (((x - (((~x + 1) * (x div 3)) div 2)) div 2) div 2))
1: (~1 + (((x - (x2 div 8)) div 2) div 2))
1: (~1 + (((x - ((((2 - (x div 2)) * (x div 2)) div 2) div 2)) div 2) div 2))
1: (~1 + (((x - ((x2 div 2) div 3)) div 2) div 2))
1: (~1 + (((x - ((x mod 3) div 2)) div 2) div 2))
1: (~1 + (((x - (x div 4)) div 2) div ~2))
1: (~1 + (((x - (~x mod 5)) div 2) div 2))
1: (~1 + (((3 * (1 + (2 * (2 + ((4x + (x2 div 4)) div (x + 2)))))) div 2) div 2))
1: (~2 + (((3 * (1 + (5 * (x + (if (x + ~2) <= 0 then 1 else 2))))) div 2) div 2))
1: (~1 + (((3x2 + 10x + 8) div 2) div 2))
1: (~1 + (((5x3 + 18x2 + 31x + 24) div 2) div 3))
1: (~1 + (((3 * (2 + ((2 + ((((if (x mod 2) <= 0 then 2 else 0) + (x div 2)) * (1 + (x div 2))) div 2)) div 3))) div 2) div 2))
1: (~1 + (((3 * (1 + ((x + 1) div (1 + (2 * (if ((x + 1) mod 5) <= 0 then 0 else 2)))))) div 2) div 2))
1: (~1 + (((5 * (1 + ((3 * (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * ((1 + (((x + 1) div 2) div 2)) div 2)))) div 2))) div 2) div 2))
1: (~1 + (((3 * (1 + ((3 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)) div 2))) div 2) div 2))
1: (~1 + ((((x + 1) * (2 + (x div 2))) div 2) div 2))
1: (~1 + ((((2 + (x div 4)) * (x div 2)) div 2) div 2))
1: (~1 + (((5 * (1 + (x div (1 + (x mod (2 + (x div (1 + (2 * ((x mod (~1 + (2 * (x div 3)))) mod 2)))))))))) div 2) div 2))
1: (~1 + (((3 * (1 + (((5 * (if x <= 0 then 1 else 2)) + (x div 7)) mod 9))) div 2) div 2))
1: (~1 + (((x * (x + ((x div 3) mod 3))) div 2) div (x + 3)))
1: (~2 + (((3 * (2 + (if (x mod (1 - (2 * ((~x + 1) div (2 + (x div 2)))))) <= 0 then 1 else x))) div 2) div 2))
1: (~1 + (((x2 + x) div ~2) div 3))
1: (~1 + ((((1 - (x div 2)) * (x div 2)) div 2) div 3))
1: (~1 + ((((1 - (x div 2)) * (x div 4)) div 2) div 2))
1: (~1 + ((((~x + 1) * (x div 2)) div 2) div 3))
1: (~1 + ((((2 - (x div 2)) * (x div 4)) div 2) div 3))
1: (~1 + (((x5 + ~x) div 2) div 5))
1: (~1 + (((x3 + ~x) div 2) div 3))
1: (~x + (((x3 + ~x) div 2) div 3))
1: (~1 + ((((~x + ((~x + 2) div 2)) * (1 + (x div 2))) div 2) div 2))
1: (~1 + (((x2 + ~x) div 2) div 3))
1: (~1 + (((x2 + ~2x) div 2) div 7))
1: (~x + (((10x3 + 3x2 + ~4x) div 2) div 3))
1: ((~x + ~2) + (((2x3 + 27x2 + 91x) div 2) div 3))
1: ((((x3 + 3x2 + 2x) div 2) div 3) - loop(\(x,i).(2 * (x + i)),x,0))
1: (~1 + (((x3 + 24x2 + 65x + 42) div 2) div 3))
1: (~1 + ((((x3 + 6x2 + 11x + 6) * (1 - (2 * (x mod 2)))) div 2) div 3))
1: (~1 + (((5 * ((x + 1) div (1 + (((1 + (x mod ((1 + (x mod (1 + (x div 4)))) * (1 + (x mod 2))))) mod (x + 1)) + (x mod 2))))) div 2) div 2))
1: (~1 + (((5 * ((~x + 1) div 3)) div 2) div 2))
1: (~1 + (((((2 - (x div 2)) div 2) * (x div 2)) div 2) div 3))
1: (~1 + (((((x + ~1) div 3) * (x div ~2)) div 2) div 2))
1: (~1 + (((3 * ((~x2 + 2x) div 4)) div 2) div 2))
1: (~1 + (((x * ((~x2 + 2x) div 4)) div 2) div 3))
1: (~x + ((((x + 5) * ((x3 + 7x2 + 6x) div 2)) div 2) div 3))
1: (~1 + ((((x + 3) * ((x3 + 5x2 + 8x + 4) div 2)) div 2) div 3))
1: (~1 + ((((((~x + 2) div 2) div 5) * (x div 2)) div 2) div 2))
1: (~1 + (((x * (((x + ~1) div 2) div 2)) div 2) div 7))
1: (~1 + (((x * (x mod 4)) div 8) div 2))
1: (~x + (((x * loop(\(x,i).((x3 + 7x2 + 14x + 8) div 2),1,(x + 3))) div 2) div 3))
1: ((~x2 + ~2x) + ((x2 div 2) div 3))
1: (~x2 + ((x2 div 2) div 3))
1: (~x + ((x2 div 2) div 3))
1: (((x2 div 2) div 5) - (if x <= 0 then 0 else 1))
1: (~1 + ((x2 div 2) div (3 + (x div 2))))
1: (~1 + ((x2 div 2) div (2x + 5)))
1: (~1 + ((x2 div (3 + (x div 2))) div 3))
1: (~1 + ((((x + 2) div (2 - ((x div 2) mod 2))) div 2) div 2))
1: (~1 + (((((x + 2) * (4 + (if x <= 0 then 1 else ((x + 2) + ((x + (x div 3)) div 3))))) div 2) div 2) div 2))
1: (~1 + ((((3 * (1 + (if (x mod 9) <= 0 then 0 else x))) div 2) div 2) div 2))
1: (~1 + (((x5 div 2) div 3) div 5))
1: (~1 + (((3x2 div (x + 2)) div 2) div 2))
1: (~1 + ((((((x + ~1) div 2) * (x div 3)) div 2) div 2) div 2))
1: (~1 + (((((x + 3) * ((9x3 + 31x2 + 30x + 8) div 2)) div 2) div 3) div 2))
1: (~1 + (((((x * (2 - (x div 2))) div 2) div 2) div 2) div 2))
1: (~2 + (((x div 2) div ~2) div 2))
1: (~1 + ((loop(\(x,i).(~x + 1),(x + ~2),(2 + (x div 2))) div 2) div 2))
1: (~1 + ((loop(\(x,i).((4x + 4) - ((~2x + 2) div 5)),2,x) div 2) div 2))
1: (~1 + ((loop(\(x,i).(x * (2 + i)),compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x),1) div 2) div 2))
1: (~x + ((loop(\(x,i).((x + ~1) * (x + i)),2,(x + 2)) div 2) div 3))
1: (~x + ((loop(\(x,i).x2,1,(x + 17)) div 2) div 2))
1: ((~x + ~1) + ((loop(\(x,i).x2,1,(x + 19)) div 2) div 2))
1: ((~x + ~1) + ((loop(\(x,i).x2,1,(x + 25)) div 2) div 2))
1: (~x + ((loop(\(x,i).x2,1,(x + 27)) div 2) div 2))
1: (~1 + ((loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x))) div 2) div 3))
1: (~1 + ((loop(\(x,i).x2,1,(~3 + loop(\(x,i).10x,(x + 1),1))) div 2) div 5))
1: (~1 + ((loop(\(x,i).x2,1,(~3 + loop(\(x,i).10x,(x + 1),1))) div 3) div 5))
1: ((~x + ~1) + ((loop(\(x,i).x2,1,(x + 29)) div 2) div 2))
1: (~x + ((loop(\(x,i).x2,1,(x + 21)) div 2) div 2))
1: (~1 + ((loop(\(x,i).((x2 + ~x) div 2),1,loop(\(x,i).4x,x,1)) div 2) div 2))
1: (~1 + ((loop(\(x,i).loop(\(x,i).x2,1,(~x + 5)),(2x + 2),1) div 2) div 2))
1: (((x div 2) div 3) - ((x + ~2) div (2 + (x div 4))))
1: (((x div 2) div 3) - (x div 7))
1: (((x div 2) div 3) - ((((x + 1) + (x div 8)) div 2) mod 2))
1: (((x div 2) div 3) - (x mod 2))
1: (((x div 2) div 3) - (x mod 3))
1: (~1 + ((x div 2) div 7))
1: (~2 + ((x div 2) div (1 + ((~x + 2) mod 4))))
1: (~1 + ((x div 2) div ~3))
1: (~x + ((x div 2) div ~3))
1: (~1 + ((x div 2) div (~10 + (x div 2))))
1: (~1 + ((x div 4) div (1 + (x mod (2 * (1 + (x mod 2)))))))
1: (~1 + ((x div 4) div (~8 + (x div 2))))
1: (~1 + ((x div (1 + ((x div 2) mod 2))) div 2))
1: (~1 + ((x div ~2) div 5))
1: (~1 + ((x div (~2 + ((x div 2) mod 2))) div 3))
1: (~1 + ((1 mod (~2x + 1)) div (x + 2)))
1: (~1 + ((((2x + 1) + (x mod 2)) mod (2 + (x div 3))) div 2))
1: (~1 + (((2x + 1) mod (2 + (x div 4))) div 2))
1: (~1 + (((x + 1) mod (1 + (2 * ((1 + (x div 4)) div 2)))) div 2))
1: ((((x + 1) mod (1 + (2 * ((1 + (x div 4)) div 2)))) div 2) - (x mod 2))
1: ((((x + 2) mod 5) div 2) - (x mod 2))
1: (~1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))
1: (~3 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) - ((2x + 1) div (3 + (x div 4))))
1: ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x))
1: (~1 + (((~1 + (loop(\(x,i).4x,x,5) mod (2x + 3))) mod (x + 1)) div 2))
1: (~1 + (((~1 + loop(\(x,i).4x,(2 * (x div 2)),2)) mod (x + 1)) div 2))
1: (~1 + (((x + ~1) mod (1 + (2 * (2 + (x mod 3))))) div 2))
1: (~1 + (((x + ~1) mod (1 + (x div 2))) div 2))
1: (~1 + (((x + ~1) mod (2 - (x div ~2))) div 2))
1: (~1 + (((2x + 2) mod (2 + (x div 2))) div 2))
1: (~1 + (((x2 + 2x) mod (4 + (x div 2))) div 2))
1: (~x + (((~2x + 4) mod (2 + (x div 2))) div 2))
1: (~1 + (((2x2 + ~x) mod (x + 4)) div 2))
1: ((((2x + ~2) mod (2 + (x div 2))) div 5) - (x mod 2))
1: (~1 + ((16 mod (x + 1)) div 2))
1: (~1 + ((8x mod (1 + (x div 2))) div 2))
1: (~2 + ((x3 mod (2 + (x div 2))) div 2))
1: (1 + ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) - (x div (~2 + (x div ~2))))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) - (2 * ((2x + 1) div (3 + (x div 4)))))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) - ((2x + ~1) div (4 + (x div 4))))
1: (~1 + ((x2 mod (~1 + (2 * (x div 3)))) div 2))
1: (~2x + ((x2 mod (x - ((~x + 2) div 2))) div (x + 1)))
1: (~1 + ((((x + 1) div 3) mod 3) div 2))
1: (~2 + (((if (x mod 2) <= 0 then 2 else x3) mod (2 + (x div 2))) div 2))
1: (~1 + ((loop(\(x,i).(2x - (i mod 2)),x,(x + 1)) mod (x + 1)) div 2))
1: (~1 + ((loop(\(x,i).(2x + 2),x,0) mod (x + 1)) div 2))
1: (~1 + ((loop(\(x,i).2x,(16 mod (x + 1)),1) mod (x + 1)) div 2))
1: (~1 + ((loop(\(x,i).2x,(if (x mod 3) <= 0 then x else 1),2) mod (x + 1)) div 2))
1: (((loop(\(x,i).2x,x,(1 + (if ((x + 1) mod 3) <= 0 then 2x else 1))) mod (x + 1)) div 2) - (x mod 2))
1: (~1 + ((x mod 3) div 2))
1: (~3 + ((x mod 3) div 2))
1: (((x mod 3) div 2) - loop(\(x,i).(4x + ~1),x,0))
1: (~1 + ((x mod 5) div 2))
1: (~1 + ((x mod (1 + ((x div 4) + (x mod 2)))) div 2))
1: (~1 + ((x mod (3 + (x div 8))) div 2))
1: (~1 + ((x mod ((x + 2) - (x mod ((x + 1) - (x mod 10))))) div 2))
1: (~1 + ((x mod (2 + (((x + 1) div 2) div 3))) div 2))
1: (~1 + ((x mod (1 + (x mod ((x + 1) - (x mod 10))))) div 2))
1: (~1 + ((x mod (2 - ((~x + 1) div 3))) div 3))
1: (~1 + ((x mod (2 - ((x div 2) div ~2))) div 2))
1: (~x + ((x mod ~4) div 2))
1: (~1 + ((x mod (x - ((x + ~1) mod 8))) div 2))
1: (~x + ((if (~4 + (x div 2)) <= 0 then 1 else x) div 2))
1: (~1 + ((if (x + ~4) <= 0 then 1 else x) div 3))
1: (~1 + ((if (x + ~4) <= 0 then 1 else x) div 4))
1: (~1 + ((if (2x mod (4 + (x div 4))) <= 0 then (x div ~2) else 0) div 2))
1: (~1 + ((if x <= 0 then 1 else x) div (x + ~18)))
1: (~1 + ((if x <= 0 then 2 else (1 + ((2 * (1 + ((1 + (x div (1 + ((~1 + loop(\(x,i).(if x <= 0 then i else (x div 2)),x,2)) mod (x + 1))))) div 2))) div 3))) div 2))
1: (~1 + ((if x <= 0 then 2 else (2x - (x mod (1 + (x div 5))))) div 2))
1: (((if x <= 0 then 2 else (x - (((x mod 6) + (x div 4)) div 2))) div 2) - (x div 3))
1: (~1 + (loop(\(x,i).((x + 2) + ((x + (2 * (x mod 2))) div 3)),x,2) div (x + 1)))
1: (~1 + (loop(\(x,i).((x + 2) + ((x - (x div 3)) div 3)),x,2) div (x + 1)))
1: (~1 + (loop(\(x,i).((x + 2) + (2x div 7)),x,2) div (x + 1)))
1: (~1 + (loop(\(x,i).((x + 2) + (x div 4)),x,2) div (x + 1)))
1: (~1 + (loop(\(x,i).(3x + 1),x,(1 + loop(\(x,i).2x,x,1))) div loop(\(x,i).5x,x,1)))
1: (~1 + (loop(\(x,i).(5x + 1),(x + 1),(8x + 6)) div 3))
1: (~1 + (loop(\(x,i).(1 + (2 * (x + (i mod 2)))),x,0) div (x + 1)))
1: (~1 + (loop(\(x,i).(x + ((~1 + (i * i)) * (2 + i))),x,0) div 2))
1: (~2x + (loop(\(x,i).(x3 + x2 + 1),2x,2) div 2))
1: (~1 + (loop(\(x,i).(2 + (3 * (x mod 7))),(x + ~1),2) div 2))
1: ((loop(\(x,i).(2x + 1),x,(4 + loop(\(x,i).2x,x,1))) div 2) - loop(\(x,i).(3x + 1),x,1))
1: ((loop(\(x,i).(2x + 1),x,(4 + loop(\(x,i).2x,x,1))) div 2) - loop(\(x,i).3x,x,1))
1: (~x + (loop(\(x,i).(x + (i * i)),x,2) div 3))
1: (~1 + (loop(\(x,i).(2 + ((x2 + x) div 2)),2,(x + ~2)) div 3))
1: (~1 + (loop(\(x,i).(x + loop(\(x,i).(x * i),(x + ~2),1)),x,0) div 2))
1: (~2 + (loop(\(x,i).(1 - (2 * (2x - (x mod 8)))),2,x) div 2))
1: (~1 + (loop(\(x,i).(~x + (i * i * (1 + i))),(x + 1),0) div 2))
1: ((loop(\(x,i).(2x + ~1),x,0) div 2) - (3 * (1 - (2 * (x mod 2)))))
1: (~1 + (loop(\(x,i).(x - (3 * (~2 + (x div 2)))),x,(x + 1)) div 2))
1: (~x + (loop(\(x,i).3x,x,(if (x + ~2) <= 0 then loop(\(x,i).(x * (2 + (i mod 2))),x,1) else 0)) div 2))
1: (~1 + (loop(\(x,i).(x2 + 3x),1,loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)) div 2))
1: (~1 + (loop(\(x,i).(x * (3 + i)),(x + 3),2) div 3))
1: (~1 + (loop(\(x,i).(2x2 + x),1,(~1 + loop(\(x,i).4x,x,4))) div 2))
1: (~1 + (loop(\(x,i).(2 * (6x + (2x div (1 + i)))),x,1) div 2))
1: ((loop(\(x,i).(2x + 2),x,(1 + loop(\(x,i).2x,x,1))) div 2) - loop(\(x,i).3x,x,1))
1: (~1 + (loop(\(x,i).(x2 + x),1,(((2 * (4 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3) + (if x <= 0 then 0 else 1))) div 3))
1: (~1 + (loop(\(x,i).(x2 + x),1,loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)) div 2))
1: (~1 + (loop(\(x,i).(2x + 4),x,(3x + 6)) div 2))
1: (~1 + (loop(\(x,i).(x * (2 + i)),(x + 3),2) div 5))
1: (~1 + (loop(\(x,i).(x * (2 + i)),compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x),2) div 3))
1: (~1 + (loop(\(x,i).(x * (2 + i)),compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x),1) div 2))
1: (~1 + (loop(\(x,i).(x * (2 + i)),compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x),1) div 5))
1: (~x + (loop(\(x,i).(2 * (x + i)),x,3) div 2))
1: (~1 + (loop(\(x,i).(2 * (2x - (x div (1 + i)))),(x + ~1),2) div (x + 1)))
1: (~8 + (loop(\(x,i).10x,(x + 2),1) div 2))
1: (~1 + (loop(\(x,i).(2x2 + 4x),2,(x + 1)) div 2))
1: (~1 + (loop(\(x,i).8x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),1) div (x + 1)))
1: ((~2x + ~1) + (loop(\(x,i).4x,x,1) div loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1)))
1: (~2 + (loop(\(x,i).(x * (x div 5)),1,(~3 + loop(\(x,i).10x,(x + 1),1))) div 2))
1: ((loop(\(x,i).2x,x,1) div 2) - (if (x mod 2) <= 0 then x else 1))
1: ((loop(\(x,i).2x,x,1) div 3) - ((x div 3) mod 2))
1: (~1 + (loop(\(x,i).2x,x,2) div (1 + (2 * (x mod 2)))))
1: (~x + (loop(\(x,i).2x,x,3) div 2))
1: ((loop(\(x,i).2x,x,(1 + loop(\(x,i).2x,x,3))) div 2) - loop(\(x,i).3x,x,1))
1: (~1 + (loop(\(x,i).2x,x,((1 + loop(\(x,i).(2 * ((x + 2) - (x * (i mod 2)))),x,1)) div 2)) div 3))
1: (~3 + (loop(\(x,i).2x,x,loop(\(x,i).(x + (if x <= 0 then 1 else ((x + 3) + ((x2 + 3x + 2) div 2)))),1,(x + 1))) div 2))
1: ((loop(\(x,i).x2,1,((x + 2) + (x div 2))) div 2) - (x mod 2))
1: (~2 + (loop(\(x,i).x2,1,((x + 3) - (x div ~2))) div 2))
1: (~1 + (loop(\(x,i).x2,1,(2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))) div 2))
1: (~1 + (loop(\(x,i).x2,1,(~2 + loop(\(x,i).12x,2,(x + 1)))) div 2))
1: (~1 + (loop(\(x,i).x2,2,(x + 1)) div 5))
1: (~1 + (loop(\(x,i).x2,2,loop(\(x,i).2x2,(2x + ~1),2)) div 2))
1: (~1 + (loop(\(x,i).(x * i),(2 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x)),1) div 5))
1: ((~x2 + ~3x + ~2) + (loop(\(x,i).((x2 + ~x) div 2),2,(x + 4)) div 3))
1: ((~x2 + ~2x) + (loop(\(x,i).((x2 + ~x) div 2),2,(x + 4)) div 3))
1: ((~x3 + 2x2 + ~2x) + (loop(\(x,i).((x2 + ~x) div 2),2,(x + 2)) div 3))
1: ((~x2 + ~3x + ~2) + (loop(\(x,i).((x2 + ~x) div 2),2,(2x + 4)) div 3))
1: (~1 + (loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,(x + 4)) div 2))
1: (~x + (loop(\(x,i).(x div (1 + (x mod 2))),x,(3x + 1)) div 2))
1: (~1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2))
1: (~x + (loop(\(x,i).(if (x mod 2) <= 0 then (x + 2) else (x div 2)),x,x) div 2))
1: (~1 + (loop(\(x,i).loop(\(x,i).x3,1,2x2),x,2) div 2))
1: ((~4x + ~4) + (x div 2) - (((x + 1) div 7) + (x div 3)))
1: (~6 + (x div 2) - (x div 3))
1: ((~3x + ~1) + (x div 2))
1: (~1 + (x div 2) - (2 * (x + (3 * (1 + (x div 2))))))
1: ((~4x + ~1) + (x div 2))
1: (~1 + (x div 2) - (((x + 1) div 3) mod 2))
1: (~1 + (x div 2) - (x mod 2))
1: (~1 + (x div 2) - (x mod (1 + (6 * (x mod 5)))))
1: (~1 + ((x div 2) + ((~x + 2) div 8)))
1: (~1 + ((x div 2) + (((x div 4) - ((1 + ((x mod 5) div 2)) mod 3)) mod 2)))
1: (~1 + ((x div 2) + ((x div 2) mod (1 + (x mod 4)))))
1: (~1 + ((x div 2) + (x mod (1 + ((1 + (2 * ((1 + (x * ((1 + loop(\(x,i).((x * (x mod 2)) + (x div 2)),x,x)) mod 2))) mod (x + 1)))) mod (x + 1))))))
1: (~2 + ((x div 2) + (3 * ((4 * (x + (if (~2 + (x div 2)) <= 0 then 1 else 2))) div 3))))
1: ((~2x + ~8) + ((x div 2) + ((~x + 1) div (1 + (x div 2)))))
1: (1 + (x div 2) - ((x div 4) div ~2))
1: (((x div 2) + (if x <= 0 then 0 else 1)) - (x div (2 + ((x * (x div 2)) mod 2))))
1: (1 + (x div 2) - (x div (2 - ((~x + 2) div 5))))
1: ((15x + 8) + (x div 2))
1: (~x + ((x div 2) + (6 * ((x + 2) + (3 * (x div 2))))))
1: (~x + ((x div 2) + (6 * ((x + 1) + (x div 2)))))
1: (~x + ((x div 2) + (10 * ((2x + 1) - (x div ~2)))))
1: (~x + ((x div 2) + (6 * (x - ((~x + 2) div 4)))))
1: (~x + ((x div 2) + (12 * (1 + (2 * (x - (x div ~2)))))))
1: ((x div 2) - (5 * ((x + 1) + (x mod 2))))
1: ((~6x + ~3) + (x div 2))
1: ((x div 2) - (2 * (2 + (x mod 2))))
1: ((x div 2) - (3 * (2x + (x mod 2))))
1: ((x div 2) - (3 * (x + (x mod 2))))
1: ((~x2 + ~2x) + (x div 2))
1: ((x div 2) - ((~2x + 1) * (if x <= 0 then 1 else 2)))
1: ((x div 2) - (2 * (~2x + (2 mod (x + 1)))))
1: ((x div 2) - (3 * ((~2x + ~2) + (x mod 2))))
1: ((x div 2) - (2 * (x - (2 * ((~x + ~2) + (x mod 2))))))
1: (~24 + (x div 2))
1: ((x div 2) - (6 * (1 + (2 * (x - (x div ~2))))))
1: ((~6x + ~6) + (x div 2))
1: ((~2x2 + ~4x) + (x div 2))
1: (~32 + (x div 2))
1: (~24x + (x div 2))
1: (~20x + (x div 2))
1: (~18x + (x div 2))
1: ((x div 2) - (6 * (x mod 2)))
1: ((x div 2) - (21 * (if x <= 0 then 1 else 2)))
1: ((~2x2 + ~2x) + (x div 2))
1: ((x div 2) - (2 * ((1 + (x div 4)) div 2)))
1: ((x div 2) - (2 * ((1 + (x div (2 - (x mod 2)))) div 3)))
1: ((x div 2) - (2 * (((~x + 1) div 5) mod 2)))
1: ((x div 2) - (2 * ((x div 2) mod 2)))
1: ((x div 2) - (5 * ((x div 2) mod 2)))
1: ((x div 2) - (3 * (x mod 7)))
1: ((x div 2) - (2 * (if ((x + 2) mod 5) <= 0 then (x mod 2) else 0)))
1: ((x div 2) - (3 * (if (x mod 8) <= 0 then 1 else 2)))
1: ((x div 2) - ((x + 1) * (if x <= 0 then 1 else 4)))
1: ((x div 2) - ((1 + (x div 2)) div (2 + (if (x mod 3) <= 0 then 2 else 1))))
1: ((x div 2) - ((2 + (x div (2 + (x mod 2)))) div 3))
1: ((x div 2) - ((x + 2) div (x + ~16)))
1: ((x div 2) - ((~x + 1) div (1 + (x div 2))))
1: ((x div 2) - ((~x + 2) div (2 - (x div ~4))))
1: ((x div 2) - ((2x + ~5) div (x + 2)))
1: ((x div 2) - (((2 * (if (~2 + (x div 4)) <= 0 then 0 else 2)) - (x div 2)) div 3))
1: ((x div 2) - ((2x + ~1) div 5))
1: ((x div 2) - ((2x + ~1) div (4 + (x div 5))))
1: ((x div 2) - ((~x + ((x * (x div 2)) div 3)) div 5))
1: ((x div 2) - ((~x + ((x div 2) div 3)) div 2))
1: ((x div 2) - ((x + ~1) div (2 + ((x + 1) div 5))))
1: ((x div 2) - ((x + ~1) div (2 + ((x + 1) div 7))))
1: ((x div 2) - ((x + ~1) div (2 + (x div 3))))
1: ((x div 2) - ((x + ~2) div 3))
1: ((x div 2) - ((x - ((loop(\(x,i).(1 + ((x + (x2 div 4)) div 3)),2,x) div 2) div 2)) div 2))
1: ((x div 2) - ((x - ((if x <= 0 then 2 else (6 mod (1 + (x div 2)))) div 2)) div 2))
1: ((x div 2) - ((x - ((2x + 1) mod (2 + (x div 4)))) div 2))
1: ((x div 2) - ((x2 + x) div 5))
1: ((x div 2) - (((1 - (x div ~4)) * (x div 4)) div 3))
1: ((x div 2) - ((~x2 + x) div 5))
1: ((x div 2) - ((x2 + ~x) div 4))
1: ((x div 2) - ((12x + 12) div 5))
1: ((x div 2) - ((4x + ~8) div (x + 1)))
1: ((x div 2) - ((2x3 + 6x2 + 4x) div 3))
1: ((x div 2) - (12x div (x + 1)))
1: ((x div 2) - (4x div (2 + (x div 2))))
1: ((x div 2) - (~4x div (1 + (x div 2))))
1: ((x div 2) - (x3 div (x + 3)))
1: ((x div 2) - ((((~x + 1) div 3) * (x div 2)) div 2))
1: ((x div 2) - ((3 * (3x div 5)) div 2))
1: ((x div 2) - ((x * (x div 4)) div 3))
1: ((x div 2) - (((x div (6 + (x mod 2))) * (x div 2)) div 3))
1: ((x div 2) - (2x div 5))
1: ((x div 2) - (x2 div (3 + (x div 2))))
1: ((x div 2) - (((1 + (x div 2)) div 2) div 2))
1: ((x div 2) - (((x + 1) div (2 + (x mod 2))) div 2))
1: ((x div 2) - (((2 - (x div 2)) div 2) div 2))
1: ((x div 2) - (((~x2 + 2x + ~1) div 4) div 3))
1: ((x div 2) - (((~x2 + 3x + ~2) div 2) div 5))
1: ((x div 2) - (((3 * ((x + 1) div (2 + (x mod 2)))) div 2) div 2))
1: ((x div 2) - ((x div 2) div 5))
1: ((x div 2) - ((x div 2) div 7))
1: ((x div 2) - ((x div 5) div ~2))
1: ((x div 2) - ((x mod (1 + (x div (1 + (x mod 3))))) div 2))
1: ((x div 2) - (loop(\(x,i).(x + 4),(~1 + (x div 5)),x) div 3))
1: ((x div 2) - (loop(\(x,i).(2 * (x - (i div 2))),(x + ~2),1) div 2))
1: ((x div 2) - (x div 5))
1: ((x div 2) - (x div (3 + ((x div 2) div 3))))
1: ((x div 2) - (x div (4 + ((~x + 1) mod 4))))
1: ((x div 2) - (x div (4 + ((x div 2) mod 5))))
1: ((x div 2) - (x div (4 + (x mod 2))))
1: ((x div 2) - (x div 7))
1: ((x div 2) - (x div (1 + (2 * (1 + (x mod 2))))))
1: ((x div 2) - (x div (1 + (3 * (2 + (x mod (2 + (x mod 2))))))))
1: ((x div 2) - (x div (2 + ((x mod 3) div 2))))
1: ((x div 2) - (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))))
1: ((x div 2) - (x div (2 + ((x + 2) mod 4))))
1: ((x div 2) - (x div (2 + ((x * (x div 2)) mod 2))))
1: ((x div 2) - (x div ~3))
1: ((x div 2) - (x div (~2 + ((~x + 1) div 2))))
1: ((x div 2) - (x div (~1 + ((~x + 1) div 3))))
1: ((x div 2) - (x div ((x + ~1) - (x mod ~8))))
1: ((x div 2) - (x div ~8))
1: ((x div 2) - (2 mod (1 + (x div 4))))
1: ((x div 2) - (2 mod (1 + (x mod (2 + (x mod 2))))))
1: ((x div 2) - (4 mod (1 + ((x + 2) div 5))))
1: ((x div 2) - (4 mod (x + 1)))
1: ((x div 2) - ((2x + 1) mod (2 + (x div 4))))
1: ((x div 2) - ((2x + 1) mod (1 + (2x mod (2 + (x div 4))))))
1: ((x div 2) - ((1 + (x div 2)) mod 3))
1: ((x div 2) - ((1 + (x div 3)) mod (1 + ((1 + (x div 2)) div 3))))
1: ((x div 2) - ((x + 1) mod 3))
1: ((x div 2) - ((x + 1) mod 4))
1: ((x div 2) - ((x + 1) mod (2 + (if (~2 + (x div 3)) <= 0 then 1 else 2))))
1: ((x div 2) - ((x + 1) mod 8))
1: ((x div 2) - ((x + 2) mod 5))
1: ((x div 2) - (~x mod 4))
1: ((x div 2) - ((x + ~1) mod 3))
1: ((x div 2) - ((x + ~1) mod 4))
1: ((x div 2) - (x2 mod 3))
1: ((x div 2) - (((x + 1) div 3) mod 2))
1: ((x div 2) - (((x + 1) div (3 + (2 mod (1 + (x div 2))))) mod 2))
1: ((x div 2) - (((1 - (x div 2)) div 5) mod 2))
1: ((x div 2) - (((~x + 2) div 2) mod 3))
1: ((x div 2) - (((~x2 + 2x) div (x + 2)) mod 2))
1: ((x div 2) - ((((x + 1) div 2) div 2) mod 2))
1: ((x div 2) - ((x div 2) mod (1 + (x mod (2 * (1 + (x mod 2)))))))
1: ((x div 2) - (((x2 div 2) mod (x + 2)) mod 2))
1: ((x div 2) - ((x mod 3) mod 2))
1: ((x div 2) - ((if (x + ~2) <= 0 then 1 else x) mod 3))
1: ((x div 2) - ((if (x mod 5) <= 0 then (x + ~1) else 1) mod (1 + (x div 4))))
1: ((x div 2) - ((if x <= 0 then 0 else (1 + (((1 + (x div 2)) div (2 + ((x div 2) mod 2))) mod 2))) mod 2))
1: ((x div 2) - ((if x <= 0 then 1 else (((x + 1) div 2) div 2)) mod 2))
1: ((x div 2) - ((if x <= 0 then 1 else x) mod 3))
1: ((x div 2) - (x mod 5))
1: ((x div 2) - (x mod (3 + (x div 4))))
1: ((x div 2) - (x mod (1 + ((x + 2) div 3))))
1: ((x div 2) - (x mod (2 + (x mod 2))))
1: ((x div 2) - (x mod ((x + ~1) - (x mod 12))))
1: ((x div 2) - (x mod ((x + 1) - (x mod 10))))
1: ((x div 2) - (x mod 6))
1: ((x div 2) - (if (2 - (x mod 13)) <= 0 then 1 else 0))
1: ((x div 2) - (if (~2 + (x div 2)) <= 0 then 1 else 4))
1: ((x div 2) - (if (~2 + (x div 2)) <= 0 then (x + ~2) else 2))
1: ((x div 2) - (if (~2 + (x div 4)) <= 0 then 2 else 1))
1: ((x div 2) - (if ((x div 4) - (x mod 6)) <= 0 then 1 else 2))
1: ((x div 2) - (if (~2 + ((x + 1) mod 8)) <= 0 then 0 else 1))
1: ((x div 2) - (if ((x mod 3) - ((x + 1) mod 4)) <= 0 then 1 else 0))
1: ((x div 2) - (if (x + ~2) <= 0 then x else 1))
1: ((x div 2) - (if ((x + 1) mod 8) <= 0 then 0 else 1))
1: ((x div 2) - (if ((x + 2) mod 5) <= 0 then 0 else 1))
1: ((x div 2) - (if (8 mod (x + 2)) <= 0 then 1 else 0))
1: ((x div 2) - (if ((x div 3) mod 2) <= 0 then 2 else 0))
1: ((x div 2) - (if (x mod 2) <= 0 then 2 else 0))
1: ((x div 2) - (if (x mod 2) <= 0 then x else 4))
1: ((x div 2) - (if (x mod 3) <= 0 then 1 else 2))
1: ((x div 2) - (if (x mod 3) <= 0 then x else 1))
1: ((x div 2) - (if (x mod 4) <= 0 then 0 else 1))
1: ((x div 2) - (if (x mod 4) <= 0 then 2 else 1))
1: ((x div 2) - (if (x mod 7) <= 0 then 0 else 1))
1: ((x div 2) - (if (x mod 6) <= 0 then x else 6))
1: ((x div 2) - (if x <= 0 then 0 else (~1 + ((2 * ((x + 1) div 3)) div 3))))
1: ((x div 2) - (if x <= 0 then 1 else (2 div (8 - (x div 2)))))
1: ((x div 2) - loop(\(x,i).~x,x,2))
1: ((x div 2) - loop(\(x,i).2x,x,1))
1: ((x div 2) - loop(\(x,i).i,(~1 + ((x + ~2) div 3)),1))
1: ((x div 2) - loop(\(x,i).i,(x + ~6),1))
1: (~1 + (x div 3) - ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2))
1: ((2x + ~1) + (x div 3))
1: (~2 + ((x div 3) + (2 div (1 + (x div 5)))))
1: (1 + (x div 3) - (((~x + 2) div 8) mod 2))
1: (1 + (x div 3) - ((((x + ~1) div 2) div 5) mod 2))
1: (((x div 3) + (((x + 1) div (1 + (x mod 9))) mod 2)) - (x mod 2))
1: (~x + ((x div 3) + (2 * (if x <= 0 then 1 else ((x2 div 3) mod (x + 1))))))
1: (~x + ((x div 3) + ((~1 + ((x + ~1) div 3)) div 3)))
1: ((~3x + ~3) + (x div 3))
1: ((~2x + ~4) + (x div 3))
1: ((x div 3) - (2 * (((x + 1) div 2) div 2)))
1: ((x div 3) - ((2x + 4) div 7))
1: ((x div 3) - (2x div (~1 + (x div ~2))))
1: ((x div 3) - (x2 div 2))
1: ((x div 3) - (x div (~1 + ((~x + 1) div 3))))
1: ((x div 3) - (x div (~1 + (x mod (~1 + (x div ~2))))))
1: ((x div 3) - (x div (4 * (2 + ((x div 2) mod 2)))))
1: ((x div 3) - ((x + 1) mod 3))
1: ((x div 3) - ((x + 1) mod (1 + ((x + ~1) mod 3))))
1: ((x div 3) - ((x * (x div 2)) mod 2))
1: ((x div 3) - (2x mod 3))
1: ((x div 3) - (x2 mod 6))
1: ((x div 3) - ((x div 2) mod 2))
1: ((x div 3) - ((x div (2 + (x mod (2 + ((~x + 1) mod 3))))) mod 2))
1: ((x div 3) - (x mod 2))
1: ((x div 3) - (x mod 4))
1: ((x div 3) - (if (~4 + (x div 2)) <= 0 then 1 else 0))
1: ((x div 3) - (if (x + ~1) <= 0 then x else 0))
1: ((x div 3) - (if ((x * (x div 2)) mod 4) <= 0 then 2 else 1))
1: ((x div 3) - i)
1: (1 + (x div 4) - (2 * (x mod 2)))
1: ((~2x + ~2) + (x div 4))
1: ((x div 4) - ((x + 2) div 5))
1: ((x div 4) - ((x mod 3) div 2))
1: ((x div 4) - (x div (~1 - (x div 4))))
1: ((x div 4) - (x div (~1 + ((~x + 1) div 3))))
1: ((x div 4) - (x div ((x + ~1) - (x mod ~8))))
1: ((x div 4) - (x div ~8))
1: ((x div 4) - ((1 + ((x mod 5) div 2)) mod 3))
1: ((x div 4) - ((x + 1) mod 3))
1: ((x div 4) - ((x + 1) mod 4))
1: ((x div 4) - ((~x + 1) mod 3))
1: ((x div 4) - ((~x + 2) mod 4))
1: ((x div 4) - ((2x div (1 + (x div 3))) mod 2))
1: ((x div 4) - ((x div 2) mod 2))
1: ((x div 4) - ((if (x + ~2) <= 0 then 1 else x) mod 3))
1: ((x div 4) - (x mod 7))
1: ((x div 4) - (x mod (2 + (x mod 4))))
1: ((x div 4) - (if (~2 + (x div 3)) <= 0 then 1 else 0))
1: ((x div 4) - (if (x + ~1) <= 0 then x else 0))
1: ((x div 4) - (if (x + ~4) <= 0 then 1 else 2))
1: ((x div 4) - (if (x mod 3) <= 0 then 2 else 1))
1: ((x div 4) - i)
1: ((x div 5) - ((x div 2) div 3))
1: ((x div 5) - ((x div 3) div ~3))
1: ((x div 5) - (x div (1 + (x div 4))))
1: ((x div 5) - (x div (~2 + (x mod ~2))))
1: ((x div 5) - (x mod 6))
1: ((x div 5) - (if (~2 + (x div 3)) <= 0 then 1 else 0))
1: ((x div 5) - (if (~2 + (x div 4)) <= 0 then 1 else 0))
1: ((x div 5) - (if (~2 + (x div 4)) <= 0 then 2 else 1))
1: (~1 + (x div (3 + ((x div 2) div 3))))
1: ((x div (3 + (x div 4))) - ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2))
1: (~1 + (x div (3 + (x mod 2))))
1: ((x div (4 + (x mod 2))) - (if x <= 0 then 1 else x))
1: (~1 + (x div (3 + (if (~2 + (x div 4)) <= 0 then 2 else 0))))
1: ((x div (4 - ((x * (x div 2)) mod 2))) - (x mod 4))
1: (~2 + (x div 7))
1: ((x div 7) - ((if x <= 0 then 1 else x) div ~7))
1: ((x div 7) - (x mod 2))
1: ((x div 7) - (x mod 3))
1: (~x + (x div 7))
1: (~1 + (x div 9))
1: ((x div 9) - ((~x + 1) div 5))
1: ((x div (1 + (2 * (2 + (((((x + 1) div 2) div 2) * (x div 2)) mod 2))))) - (x mod 2))
1: (~1 + (x div (1 + (2 * (2 + (((x + ~1) div 3) mod 2))))))
1: ((x div (1 + (2 * (2 + (x mod 2))))) - ((x div 2) mod 2))
1: (~x + (x div (1 + (2 * (2 + (x mod 4))))))
1: (~1 + (x div (1 + (2 * (2 - (x mod 8))))))
1: (~1 + (x div (1 + (2 * (((~x + 2) mod 5) - (x mod 4))))))
1: (~x + (x div (1 + ((x + 1) div 5))))
1: (~1 + (x div (2 + ((x div 2) div 3))))
1: ((x div (2 + (x div (2 + (((x2 div 2) mod (2 + (x div 2))) div 2))))) - (x mod 2))
1: ((x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))) - (x mod 2))
1: ((x div (2 + (x div (1 + (x mod 4))))) - (if x <= 0 then 0 else 1))
1: (~1 + (x div (1 + ((x + 1) mod (1 + ((~x + 2) mod 4))))))
1: (~1 + (x div (2 + ((~x + 2) mod 4))))
1: (~1 + (x div (2 + ((15 * (1 + ((x div 4) mod 2))) mod (x + 1)))))
1: ((x div (2 + ((x * (x div 2)) mod 2))) - (if x <= 0 then 0 else 1))
1: (~1 + (x div (2 + (x2 mod 3))))
1: (~2 + (x div (1 + (x2 mod (2 + (x div 2))))))
1: (~1 + (x div (1 + (((x2 + 2x) div 2) mod (1 + (x div (2 + (x div 3))))))))
1: (~2 + (x div (1 + ((x div 2) mod 2))))
1: (~1 + (x div (1 + (loop(\(x,i).2x,(2x + ~1),1) mod (x + 1)))))
1: (~x + (x div (2 + (x mod 2))))
1: (~1 + (x div (2 + (x mod 3))))
1: (~1 + (x div (1 + (x mod 4))))
1: (~2 + (x div (2 + (x mod 4))))
1: (~1 + (x div (1 + (x mod (1 + (x mod (1 + (x div (2 * (2 - (x mod 2)))))))))))
1: (~1 + (x div (2 + (x mod (2 + (x mod (2 + (x mod 2))))))))
1: ((x div ((if (x mod 3) <= 0 then 2 else 1) + (x mod 2))) - (x mod 2))
1: ((x div (1 + i)) - (4x div (2 + i)))
1: (~4 + (x div ~2))
1: (~6 + (x div ~2))
1: ((~4x + ~2) + (x div ~2))
1: ((x div ~2) - ((4 * (x + (if (~2 + (x div 2)) <= 0 then 1 else 2))) div 3))
1: ((x div ~2) - (x div 3))
1: ((x div ~2) - (if x <= 0 then 0 else 1))
1: (~1 + (x div (~4 - ((x div 2) mod 5))))
1: (~2 + (x div (~2 - ((x + ~1) mod 3))))
1: (~1 + (x div (0 - (2 * (2 + ((((x + 1) div 2) div 2) mod 4))))))
1: (~1 + (x div (~3 - (x div 4))))
1: (~1 + (x div (~1 - ((x div 2) mod 3))))
1: (~6 + (x div ~7))
1: (~1 + (x div ~11))
1: (~12 + (x div ~11))
1: (~1 + (x div (2 - ((~x + 2) div 5))))
1: (~1 + (x div (2 - ((x div 2) div ~2))))
1: (~x + (x div (2 - (x mod 2))))
1: ((x div ~3) - (2 * (1 + ((1 + loop(\(x,i).(x - (x div ~3)),x,1)) div 3))))
1: (~x + (x div ~3))
1: ((x div ~4) - (if (x + ~2) <= 0 then 1 else 2))
1: (~x + (x div ~4))
1: (~1 + (x div (~1 - (x mod 5))))
1: (~1 + (x div (~1 - i)))
1: (~1 + (x div (~3 - i)))
1: (~1 + (x div ((~x + 1) - (x mod 3))))
1: (~2 + (x div ~5))
1: ((x div ~5) - (x mod 3))
1: (~1 + (x div (~3 + ((~x + 1) div 2))))
1: (~1 + (x div (~3 + (x mod ~2))))
1: (~2 + (x div (~4 + (x mod ~2))))
1: (~1 + (x div (8 - ((x + ~2) div 3))))
1: (~2 + (x div (~1 + ((~x + 2) * (x div 2)))))
1: (~1 + (x div (~1 + (2 * (~1 + (x div 3))))))
1: (~1 + (x div (~1 + (2 * (x div (1 + (x mod 8)))))))
1: (~1 + (x div (~1 + ((1 - (2 * (x div 3))) div 3))))
1: (~2 + (x div (~1 + ((1 - (x div 2)) div 3))))
1: (~1 + (x div (~1 + ((~x + 1) div 3))))
1: (~2 + (x div (~2 + ((~x + 2) div 4))))
1: (~1 + (x div (~1 + (2x div ~5))))
1: (~1 + (x div (~12 + (x div 2))))
1: (~2 + (x div (~6 + (x div 3))))
1: (~2 + (x div (~1 + (x div ~2))))
1: (~x + (x div (~2 + (x div ~2))))
1: (~2 + (x div (~1 + (x div ~3))))
1: (~1 + (x div (~2 + (x div (~1 + (x div ~3))))))
1: (~1 + (x div (~3 + (x div 8))))
1: (~1 + (x div (~1 + (i div ~2))))
1: (~1 + (x div (~2 + (x mod 2))))
1: (~1 + (x div (~6 + (x mod ~2))))
1: (~1 + (x div (~2 + (x mod ~4))))
1: (~1 + (x div (~2 + (x mod (~1 + (x div ~2))))))
1: (~1 + (x div (~2 + (x mod ~8))))
1: (~1 + (x div (~2 + (x mod ~6))))
1: (~1 + (x div (~8 + (if (x mod 2) <= 0 then 2 else x))))
1: (~1 + (x div (x + ~18)))
1: (~3 + (x div 8))
1: ((11x + 12) + (x div 8))
1: ((~2x + ~2) + (x div 8))
1: ((x div 8) - (2 div (x + 1)))
1: ((x div 8) - ((x mod (2 + (x mod 3))) div 2))
1: ((x div 8) - ((x + 1) mod 8))
1: ((x div 8) - (x mod ~5))
1: ((x div 8) - (if x <= 0 then 1 else x))
1: (~2 + (x div (2 * (2 + (x mod 2)))))
1: (~2 + (x div ~6))
1: ((x div ~14) - (if x <= 0 then 1 else 2))
1: (~2 + (x div (2 * (2 - (x mod 2)))))
1: (~1 + (x div ~12))
1: (~x + (x div ~12))
1: (~1 + (x div (if (x mod 2) <= 0 then 4 else 1)))
1: (~1 + (x div (if (x mod 3) <= 0 then 1 else 2)))
1: (~x + ((i div 2) + ((x + (x div 2)) div 4)))
1: (~x + (i div 2))
1: (~1 + ((i div 3) + (x div 2)))
1: (~x + (i div (1 + (i mod 2))))
1: (~1 + (i div ~2))
1: (~1 + (1 mod (~2x + 7)))
1: (~1 + (1 mod (1 - (2 * (((x + 1) div 2) div 2)))))
1: (~x + (1 mod (8 - (x div 2))))
1: (~1 + (2 mod (1 + ((x + ~1) mod 5))))
1: ((2 mod (1 + (x mod 3))) - (x mod 7))
1: (~2 + (2 mod (x + 1)))
1: (~1 + (2 mod (1 - (2 * ((x + ((x div 2) mod 2)) div 2)))))
1: ((2 mod (if (x mod 3) <= 0 then 1 else x)) - (x mod 2))
1: (~1 + (4 mod (1 + (x div 2))))
1: (~1 + (5 mod (1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + ~1) div 2)))))
1: (~1 + (5 mod (1 + ((x + 1) mod 6))))
1: (~x + (5 mod (x + 1)))
1: (~1 + (((x + 1) + (x div 8)) mod 5))
1: (~2 + ((1 + ((if ((x + ~2) mod 5) <= 0 then 2 else 0) + (x mod 2))) mod 4))
1: (~1 + (((x + 1) + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x)) mod 3))
1: (~1 + (((x + 1) - ((x3 div 8) mod 2)) mod 3))
1: (((1 + (x div 2) - ((~x + 2) div (2 + (x div 2)))) mod 2) - (x mod 2))
1: (~1 + ((x + (2 * (1 + (2 * (x - ((x mod (2 + (6 mod (1 + (x div 2))))) div 2)))))) mod 3))
1: (~1 + ((1 + (2 * (1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 - (x div (~1 + ((~x + 1) div 3)))))))) mod 3))
1: (~1 + ((1 + (2 * (2 + (if (~2 + (x div 2)) <= 0 then x else 2)))) mod (x + 1)))
1: (~1 + ((x2 + 2x + 2) mod (1 + ((x + 2) mod 4))))
1: (~2 + ((2 + ((x + 1) * (2 - (x mod 2)))) mod 10))
1: (~2 + (69 mod (x + 1)))
1: (~1 + ((x3 + 1) mod 7))
1: (~1 + ((x3 + 1) mod (1 + (x div 2))))
1: (~1 + ((1 + (((1 + (2x mod (2 + (x div 3)))) div 2) * (loop(\(x,i).(2x + 2),x,0) mod (x + 1)))) mod (x + 1)))
1: (~2 + ((1 + (9 * ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3))) mod (x + 1)))
1: (~1 + ((1 + ((if (~1 + (2x mod (4 + (x div 2)))) <= 0 then 1 else 0) * (1 + (x div 2)))) mod 3))
1: (~1 + ((1 + (x * loop(\(x,i).(~x2 + 1),2,4x))) mod (x + 1)))
1: (~2 + ((2x + 1) mod (4 + (x div 4))))
1: (~2 + ((2x + 1) mod (1 + (x div 4))))
1: (~1 + ((2x + 1) mod (2 - ((~x + 2) div 5))))
1: (~1 + ((x2 + 1) mod 5))
1: (~1 + ((x2 + 2) mod loop(\(x,i).((x2 + 2) + i),2,2)))
1: (~1 + ((1 + ((x + 1) div (2 + ((x + 1) div (1 + (if (x mod 5) <= 0 then 0 else 2)))))) mod 3))
1: (~1 + ((1 + ((x + 1) div (2 + ((x div 2) div (1 + (x mod (1 + (x mod (3 + (x mod 2)))))))))) mod 3))
1: (~1 + ((2 + ((x + 1) div (2 + (x div (2 + (3 * (x mod 2))))))) mod 3))
1: (~1 + ((1 + ((x + 1) div (2 + ((2 + (x mod 8)) mod (x + 1))))) mod 3))
1: (~1 + ((1 + ((x + 1) div (~1 + (2 * ((x + (x div 8)) mod 5))))) mod 3))
1: (~1 + ((1 + ((x + 1) div (~1 + (2 * (((~1 + (2x mod (2 + (x div 2)))) div 2) mod 2))))) mod 3))
1: (~1 + ((1 + ((x + 1) div (3 * (2 + ((x div 2) mod 5))))) mod 3))
1: (~1 + ((x + ((x - (((x + ~1) mod (2 + (x div 2))) div 2)) div 2)) mod 3))
1: (~1 + ((1 + ((x - ((x div 2) mod 2)) div 2)) mod (1 + (x div 5))))
1: (~1 + ((1 + ((compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x) - compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)) div 2)) mod 3))
1: (~1 + ((((2 * (4 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3) + (if x <= 0 then 0 else 1)) mod 3))
1: (~1 + ((1 + ((2 * (2 + (x div (1 + ((x div 2) mod (1 + (if (x mod 2) <= 0 then 6 else 1))))))) div 3)) mod 3))
1: (~1 + ((1 + ((x * (2 + (x mod 3))) div 7)) mod 2))
1: (~1 + ((1 + ((x * (1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x))) div 2)) mod 5))
1: (~1 + ((1 + ((x2 + 2x) div 2)) mod 3))
1: (~1 + ((1 + ((x2 + 2x) div 4)) mod 5))
1: (~1 + ((2 + ((x2 + ~x) div 2)) mod 5))
1: (((1 + ((x2 + ~x) div 8)) mod 2) - (x mod 2))
1: (~1 + ((2 + ((2 * ((x + 1) - (2 * (((x + ~1) div 2) mod 2)))) div 3)) mod 3))
1: (~1 + ((4x + (x2 div 4)) mod (x + 5)))
1: (~1 + ((2 + (((1 + ((x + 1) div (1 + (x mod (2 + (x div (2 + (x mod 5)))))))) div 2) div 2)) mod 3))
1: (~1 + ((1 + (((1 + (((x + ~1) * (x div 3)) div 2)) div 2) div 2)) mod 3))
1: (~1 + ((1 + (((3 * (1 + (((1 + (x mod ((1 + (x mod (1 + (x div 4)))) * (1 + (x mod 2))))) mod (x + 1)) + (x mod 2)))) div 2) div 2)) mod 4))
1: (~1 + ((x + ((x div 2) div 3)) mod 3))
1: (~1 + ((1 + ((x div 2) div (1 + (x mod (3 - (x mod 2)))))) mod 3))
1: (~1 + ((1 + ((x div (2 - (x mod 2))) div 3)) mod 3))
1: (~2 + ((2 + (((1 + (2 * ((~1 + (2 * ((1 + (x div 2)) div 2))) mod (x + 1)))) mod (x + 1)) div 2)) mod 4))
1: (((1 + (((2x + 1) mod (4 + (x div 4))) div 2)) mod 3) - (if x <= 0 then 0 else 1))
1: (~1 + ((1 + (((1 + (x mod (1 + (x mod (2 * (2 + ((x div 2) div 5))))))) mod (x + 1)) div 2)) mod 3))
1: (~1 + ((1 + ((if x <= 0 then 1 else (2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2)))) div (2 + (x mod 2)))) mod 5))
1: (~1 + ((1 + (loop(\(x,i).(5x + 2),x,1) div (x + 1))) mod 3))
1: (~1 + ((1 + (x div 2)) mod 3))
1: ((~x + 1) + ((1 + (x div 2)) mod 3))
1: (((1 + (x div 2)) mod 4) - (x mod 2))
1: (~x + ((1 + (x div 2)) mod 4))
1: (~1 + ((2 + (x div 2)) mod 6))
1: (((x + (x div 2)) mod 4) - (x div 4))
1: (~2 + ((x + (x div 2)) mod 8))
1: (((1 + (x div 3)) mod 2) - loop(\(x,i).(2x - (i mod 2)),x,0))
1: (~1 + ((1 + (x div 3)) mod 4))
1: (~1 + ((1 + (x div 3)) mod (1 + (if ((2x + 4) mod (4 + (x div 4))) <= 0 then 2 else 0))))
1: (~1 + ((x + (x div 4)) mod ~4))
1: (~1 + ((1 + (x div 5)) mod (1 + (((x + 1) div 2) div 2))))
1: (~1 + ((1 + (x div (1 + (((2x + 1) mod (2 + (x div 4))) div 2)))) mod (x + 1)))
1: (~1 + ((1 + (x div (1 + ((x2 + 2x) mod (1 + ((2 - (x div 2)) mod 4)))))) mod (x + 1)))
1: (~1 + ((1 + (x div (1 + (x mod (1 + (((x2 + x) div 2) mod (2 * (1 + (x mod 2))))))))) mod (x + 1)))
1: (~1 + ((1 + (x div (1 + (x mod (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))) mod (x + 1)))
1: (((1 + (x div (2 - (x mod 2)))) mod 3) - (if x <= 0 then 0 else 1))
1: (~1 + ((1 + (x div (~2 + (x mod 2)))) mod 3))
1: (((1 + (x div (~2 + (x mod 2)))) mod 3) - (((x + 1) div 2) mod 3))
1: (((1 + (x div (~2 + (x mod 2)))) mod 3) - (x mod 3))
1: (((1 + (x div (~2 + (x mod 2)))) mod 3) - (if x <= 0 then 0 else 1))
1: (~1 + ((1 + (((x + 1) - (2 * ((x + (x div 3)) div 5))) mod 3)) mod (x + 1)))
1: (~1 + ((2 + ((1 + (2 * (x mod (1 + ((x + ~1) mod (1 + (2 * (2 + (x mod 3))))))))) mod (x + 1))) mod 3))
1: (~1 + ((1 + ((1 + ((x + 2) div 5)) mod (2 + (x div 5)))) mod 3))
1: (~1 + ((2 + ((1 + ((2 * (1 + ((1 + (x mod (1 + (x mod (1 + (x div (2 + (x mod 5)))))))) div 2))) div 3)) mod (x + 1))) mod 3))
1: (~1 + ((1 + ((1 + (x mod (2 * (1 + (x mod (2 * (1 + (x mod (1 + (x div 3)))))))))) mod (x + 1))) mod 3))
1: (~1 + ((1 + ((1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,x)) mod 3)) mod (x + 1)))
1: (~1 + ((1 + ((x + 1) mod (~1 + (2 * ((x + ~1) mod 4))))) mod 3))
1: (~1 + ((2 + ((x + 2) mod (1 + (((x + 1) mod 7) mod 3)))) mod 3))
1: (~1 + ((2 + ((~1 + (2 * (1 + ((x + 2) mod (1 + (x div (4 + (x div 4)))))))) mod (x + 1))) mod 3))
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1: (~1 + ((x + 1) mod 11))
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1: (~1 + ((x + 1) mod 8))
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1: (~1 + ((2x + ~2) mod (2 + (x div 2) - (x mod 2))))
1: (~1 + ((2x + ~2) mod (1 + (x div 2))))
1: (~1 + ((2x + ~2) mod (2 + (x div 2))))
1: (~1 + ((x2 + ~x) mod (3 + ((x div 2) div 3))))
1: (~1 + ((x2 + ~x) mod 9))
1: (~x + ((2x + ~4) mod (x + 4)))
1: (~x + ((2x + ~4) mod (x + 2)))
1: (~1 + ((2x + ~4) mod loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))
1: (~1 + ((3x + ~6) mod (x + 1)))
1: (~1 + ((x2 + ~2x) mod 8))
1: (~1 + (9x mod loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))
1: (~1 + (16 mod (x + 1)))
1: (~2 + ((x4 + x3 + 2x2 + 2x) mod 9))
1: (~1 + (((2x + 2) * (2 + ((~1 + (2 * (if x <= 0 then 1 else (if (x mod 4) <= 0 then (x div 2) else x)))) mod (x + 1)))) mod 3))
1: (~1 + (((2x + 2) * (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 8))) mod 3))
1: (~x + (x5 mod 31))
1: (~1 + ((6 * (x div (1 + (loop(\(x,i).2x,x,2) mod (2x + 1))))) mod (x + 1)))
1: (~x + (4x mod 9))
1: (~1 + (4x mod (8 - (x mod 2))))
1: (~1 + (2x2 mod (4 + (x div 4))))
1: (~1 + (2x2 mod (2 + ((x * (x mod 2)) div 2))))
1: (~1 + (2x2 mod (1 + (x div 3))))
1: (~1 + (2x2 mod (x + 60)))
1: (~1 + ((x3 + ~x2) mod 7))
1: (~1 + (x3 mod (2 + (x div 4))))
1: (~1 + ((3 * ((~x + 2) div 2)) mod (1 + (x div 5))))
1: (~1 + ((2 * ((x2 + ~1) div 2)) mod 3))
1: (~1 + (((x + 1) * ((x2 + ~1) div 3)) mod 3))
1: (~1 + ((((x + ~2) div 3) * (x div 2)) mod 3))
1: (~1 + ((2 * ((3 * (3 + (((~1 + (6 * (1 + (((~1 + (6 * (1 + ((1 + ((loop(\(x,i).2x,x,2) mod (x + 1)) div 2)) div 2)))) div 2) div 2)))) div 2) div 2))) div 2)) mod 3))
1: (~1 + ((2 * (((x div 3) * (x div 2)) div 2)) mod 3))
1: (~1 + ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + ((2x2 + 4) div 3))) mod 3))
1: (~1 + ((x * (x div 2)) mod 3))
1: (~1 + ((x * (x div 2)) mod (1 + (if (x mod 8) <= 0 then 2 else 1))))
1: (~2 + ((x * (x div 3)) mod 2))
1: (((x * (x div 3)) mod 3) - (x mod 2))
1: (~1 + ((3 * (x div 5)) mod (1 + (x div 2))))
1: (((2 * ((x + 2) mod 5)) mod 3) - (if x <= 0 then 0 else 1))
1: (~1 + ((2 * ((x + 2) mod 8)) mod 3))
1: (~2 + ((2 * ((~x + 2) mod 5)) mod (x + 1)))
1: (~1 + ((2 * ((~1 + loop(\(x,i).2x,x,2)) mod 41)) mod 3))
1: (~2 + ((2 * ((x2 + x) mod 9)) mod (x + 1)))
1: (~1 + ((2 * (if x <= 0 then 1 else (x2 + ~1))) mod 5))
1: (~1 + (((x + 2) * loop(\(x,i).(2 + (if (~x + i) <= 0 then 0 else x)),x,1)) mod 3))
1: (~1 + ((2 * loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)) mod 3))
1: ((2x mod 3) - (x mod 2))
1: ((2x mod 5) - (x mod 3))
1: (~1 + (2x mod (5 + (x div 2))))
1: (~1 + (2x mod (x + 10)))
1: (~2 + (2x mod (4 + (x div 2))))
1: ((2x mod (4 + (x div 4))) - ((2 + (x div 4)) mod 3))
1: ((2x mod 7) - (x div 2))
1: (~1 + (2x mod (1 + ((x div 2) * (x div 2)))))
1: (~2 + (2x mod (1 + (x div 2))))
1: (~2 + (2x mod (2 + (x div 2))))
1: (~x + (2x mod (1 + (x div 3))))
1: (~1 + (2x mod (1 + (x div 4))))
1: (~1 + (2x mod (2 - ((~x + 1) div 3))))
1: (~1 + (2x mod (~1 + (2 * ((1 + (x div 2)) div 2)))))
1: (~1 + (2x mod (~1 + (2 * (((~x + 2) div 2) mod 4)))))
1: (~1 + (2x mod (~1 + ((~x2 + x) mod 5))))
1: ((x2 mod 3) - ((x div 2) mod 2))
1: ((x2 mod 5) - (x div 2))
1: ((x2 mod 5) - (x mod 2))
1: (~2 + (x2 mod (x + 5)))
1: (~2 + (x2 mod ((x + 2) + (x div 3))))
1: (~1 + (x2 mod (x + 3)))
1: (~2 + (x2 mod (2 + (x div 2))))
1: (~1 + (x2 mod (1 + (x div 3))))
1: (~1 + ((2 div (~1 + ((~2x + 2) mod (4 + (x div 4))))) mod 3))
1: ((((x2 + x + 1) div ((x + 1) + (x div 3))) mod 2) - (x mod 2))
1: (~1 + (((1 + (x * (x div 2))) div 3) mod 3))
1: (~1 + (((1 + ((((x + 1) * (2 + ((if (x mod 2) <= 0 then (x + 3) else x) mod (x + 1)))) div 2) div 2)) div 2) mod 3))
1: (~1 + (((1 + (x div 2)) div 2) mod 4))
1: (~2 + (((1 + (x div 2)) div 2) mod 4))
1: (~1 + (((1 + (x div 2)) div (2 + ((x + 1) mod (2 + (x mod 2))))) mod 3))
1: ((((x + (x div 2)) div 2) mod 2) - (x mod 2))
1: (~x + (((x + (x div 2)) div 2) mod 4))
1: (~x + (((x + (x div 2)) div 4) mod 2))
1: (~1 + (((1 + (x div 3)) div (2 + (x mod (2 - (x mod ~4))))) mod 3))
1: ((((x + 1) div 3) mod 2) - (x div 2))
1: ((((x + 1) div (1 + (2 * (x mod (3 * (1 + (x mod 4))))))) mod 2) - (x mod 2))
1: ((((x + 1) div (1 + ((2x + 1) mod 9))) mod 2) - (x mod 2))
1: ((((x + 1) div (1 + (x mod 5))) mod 2) - (x mod 2))
1: ((((x + 1) div (2 + (if (~2 + (x div 4)) <= 0 then 1 else 2))) mod 2) - (x mod 2))
1: ((((x + 1) div ~7) mod 2) - (x mod 2))
1: (~x + (((x + 2) div 3) mod 3))
1: ((((x + 2) div (1 + (x mod 3))) mod 2) - (x mod 2))
1: ((((1 - (((x mod 2) - (x div 2)) div 2)) div 2) mod 2) - (x mod 2))
1: ((((~x + 1) div (1 + ((x div 2) mod 4))) mod 2) - (x mod 2))
1: ((((~x + 1) div (1 + (x mod 4))) mod 2) - (x mod 2))
1: ((((~x + 1) div (2 + (if (~1 + (x mod 3)) <= 0 then x else 2))) mod 2) - (x mod 2))
1: ((((~x + 2) div (2 + ((x div 2) mod 3))) mod 2) - (x mod 2))
1: (~1 + (((~x + 2) div 8) mod 2))
1: ((((2x + ~1) div (2 + (x div 4))) mod 2) - (x mod 2))
1: (~2 + (((~1 + (x div 2)) div 2) mod 2))
1: ((((~1 + (x div 2)) div 2) mod 2) - (x mod 2))
1: ((((~1 + (x div 3)) div 3) mod 2) - (x mod 2))
1: (~1 + (((x + ~1) div 2) mod 4))
1: (~2 + (((x + ~1) div 3) mod 2))
1: ((((x + ~1) div (2 + (x div 5))) mod 2) - (x mod 2))
1: (~2 + (((x + ~2) div 3) mod 2))
1: ((((x - ((2 + (x div 2)) * (x mod 3))) div 2) mod 2) - (if x <= 0 then 1 else 0))
1: ((((x - (2 * ((x div 2) mod 2))) div 3) mod 3) - (x mod 2))
1: ((((x - ((~1 + (x div 2)) div 2)) div 2) mod 2) - (x mod 2))
1: ((((x - ((x - (x mod 3)) div 2)) div 2) mod 2) - (x mod 2))
1: (~1 + (((x - (x mod (2 + (x mod 4)))) div 2) mod 2))
1: ((((x2 + 18x + 32) div (x + 1)) mod 2) - (x mod 2))
1: (~1 + (((x * (2 + (x div 3))) div 2) mod 3))
1: (~1 + (((x * (2 + (x div 5))) div 4) mod 2))
1: (~2 + (((3 * (2 + loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x))) div 2) mod 4))
1: ((((x2 + x) div ~8) mod 2) - (x mod 2))
1: (~1 + (((x2 + 3x + 2) div 2) mod 7))
1: (((((1 - (2 * ((x mod (1 + (((x + 1) div 2) div 2))) mod 2))) * (1 + (x div 2))) div 2) mod 2) - (x mod 2))
1: (~1 + (((x2 + ~x) div 8) mod 3))
1: (((((x + ~1) * ((x + 1) div 2)) div 5) mod 2) - (x mod 2))
1: ((((3 * ((~x + 2) div 2)) div 5) mod 2) - (x mod 2))
1: (~2 + (((x * ((~x + 2) div 2)) div 2) mod 5))
1: (~1 + (((2 * (x div 2)) div (1 + ((x + ~1) mod 3))) mod 3))
1: (~1 + (((x * (x div 2)) div 2) mod 2))
1: (~1 + (((x * (x div ~4)) div 2) mod 3))
1: (~1 + ((((~x + 1) * (x mod 10)) div 2) mod (x + 1)))
1: ((((x * (if (~2 + (x div 2)) <= 0 then 1 else 2)) div 5) mod 2) - (x mod 2))
1: (~1 + ((2x div (2 + (8x mod (x + 1)))) mod 2))
1: (((2x div (~1 - (x mod 3))) mod 3) - (x mod 3))
1: (~2 + ((x2 div 2) mod 3))
1: (~2 + ((x2 div 4) mod (x + 1)))
1: (~1 + ((x2 div (x - ((~x + 2) div 2))) mod 2))
1: (~x + ((((x + 1) div 2) div 2) mod 2))
1: (~1 + ((((x + ~1) div 2) div 5) mod 2))
1: (~1 + (((((x + ~1) * (x div 2)) div 2) div 2) mod 3))
1: (~1 + (((((x + ~1) div 2) div 2) div 3) mod 2))
1: ((((x2 mod (3x + 2)) div 2) mod 2) - (x mod 2))
1: (~1 + ((loop(\(x,i).(2x + i),(x + ~2),1) div 2) mod 2))
1: (~1 + ((loop(\(x,i).((2x + 1) - ((1 - (x div 2)) div 3)),x,1) div 2) mod 3))
1: (~1 + ((loop(\(x,i).(3x + 3),x,1) div 2) mod (x + 1)))
1: (~1 + ((loop(\(x,i).(x * (2 - (x div 4))),1,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2) mod 3))
1: (~1 + ((loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2) mod 4))
1: (~1 + ((x div 2) mod 2) - (2 * (1 + (2 * (x div 2)))))
1: ((~x + 1) + (((x div 2) mod 2) + (2 * (x2 div (x - ((~x + 2) div 2))))))
1: ((~2x + ~2) + ((x div 2) mod 2))
1: (~x2 + ((x div 2) mod 2))
1: (((x div 2) mod 2) - (x div 5))
1: (((x div 2) mod 2) - (x div 8))
1: (((x div 2) mod 2) - (2 mod (1 + (x div 4))))
1: (((x div 2) mod 2) - ((x + 1) mod 4))
1: (((x div 2) mod 2) - ((x + ~1) mod 4))
1: (((x div 2) mod 2) - ((x2 + 2x) mod 6))
1: (((x div 2) mod 2) - (x mod 3))
1: (~2x + ((x div 2) mod 3))
1: (~1 + ((x div 2) mod 4))
1: (((x div 2) mod 5) - (x div 3))
1: (~1 + ((x div 2) mod (1 + (2 * ((((x + 1) div 2) div 2) div 2)))))
1: (~1 + ((x div 2) mod (1 + (x div 4))))
1: (~1 + ((x div 2) mod (1 + (x mod (1 + (x div 3))))))
1: (~2 + ((x div 2) mod (~2 - (x div 4))))
1: (~x + ((x div 2) mod ~3))
1: (~1 + ((x div 2) mod ~4))
1: (~1 + ((x div 2) mod ~5))
1: (~x + ((x div 2) mod 6))
1: (~2 + ((x div 3) mod 2))
1: (((x div 3) mod 2) - (x mod 3))
1: (((x div 3) mod 2) - (if (x + ~2) <= 0 then 1 else 2))
1: (((x div 3) mod 2) - (if x <= 0 then 1 else x))
1: (~1 + ((x div 3) mod 3))
1: (((x div 3) mod 3) - (x div 2))
1: (((x div 3) mod 3) - (x mod 3))
1: (((x div 4) mod 2) - (x mod 4))
1: (((x div 4) mod 2) - (if x <= 0 then 1 else x))
1: (~x + ((x div 5) mod 2))
1: (((x div 5) mod 3) - (x mod 3))
1: (~1 + ((x div (5 - (((1 + (x div 2)) div 2) div 2))) mod 3))
1: (~1 + ((x div (4 + ((x mod ~4) div 2))) mod 2))
1: (((x div (1 + (2 * ((x div 2) div 3)))) mod 2) - (x mod 2))
1: (~1 + ((x div (1 + (2 * ((x + ~1) mod 3)))) mod 2))
1: (((x div (1 + (2 * ((x div 2) mod 2)))) mod 2) - (x mod 2))
1: (~x + ((x div (2 + ((x div 2) div 3))) mod 2))
1: (((x div (1 + ((~x + 1) mod 3))) mod 2) - (x mod 2))
1: (((x div (1 + ((x2 + ~x) mod 8))) mod 2) - (x mod 2))
1: (((x div (1 + ((x div 3) mod 3))) mod 2) - (x mod 2))
1: (~1 + ((x div (1 + (if (x mod 2) <= 0 then 6 else 1))) mod 3))
1: (((x div ~3) mod 2) - (if x <= 0 then 0 else 1))
1: (((x div ~4) mod 2) - (x div 2))
1: (((x div ~4) mod 2) - ((x div 4) mod 2))
1: (~x + ((x div ~4) mod 2))
1: (((x div (~2 + (x mod ~2))) mod 2) - (x mod 2))
1: (~2 + ((i div 2) mod 2))
1: (~1 + ((2 mod (2 - (x * (x div 3)))) mod 2))
1: ((((2 + (x * (x div 2))) mod (1 + (x div 3))) mod 2) - (x mod 2))
1: (~1 + (((1 + (x div 2)) mod (1 + (2 * (2 - (x mod 2))))) mod 2))
1: ((((2 + (x div 2)) mod 5) mod 2) - (x div 2))
1: (~1 + (((x + 1) mod (1 - (x mod ~7))) mod 2))
1: (~1 + (((1 - (2 * ((2x + 2) + ((x - (x div 4)) div 2)))) mod (x + 1)) mod 3))
1: (~1 + (((~1 + (2 * (1 + ((1 + (((loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) + (loop(\(x,i).(2x + 2),x,0) mod (x + 1))) div 2) div 2)) div 2)))) mod (x + 1)) mod 3))
1: ((((x + ~1) mod (3 + (x div (1 + (x mod 2))))) mod 2) - (x mod 2))
1: ((((x + ~1) mod (1 + (x div 5))) mod 2) - (x mod 2))
1: (((x2 mod (2 + (((x + 1) div 2) div 2))) mod 2) - (x mod 2))
1: (~1 + ((x2 mod (2x + ~5)) mod 3))
1: (((x2 mod 15) mod 2) - (x div 2))
1: (~1 + ((((~x + (x mod 2)) div 3) mod (x + 2)) mod 2))
1: (~1 + (((((x + ~1) div 2) div 2) mod 3) mod 2))
1: (~1 + ((loop(\(x,i).2x,x,1) mod (1 + (4 * (x mod 4)))) mod 3))
1: (~1 + ((x mod 3) mod 2))
1: (((x mod 3) mod 2) - (x div ~2))
1: (~1 + ((x mod 4) mod (if ((x + 1) mod (2 + ((x div 2) mod 2))) <= 0 then x else 1)))
1: (~x + ((x mod 5) mod 2))
1: (~1 + ((x mod 5) mod 3))
1: (~1 + ((x mod 7) mod (1 + (x div 4))))
1: (~1 + ((x mod 9) mod 2))
1: (((x mod 9) mod 2) - (x mod 2))
1: (((x mod (1 + (x div 2))) mod 2) - (x mod 3))
1: (~x + ((x mod (2 + (x div 3))) mod 2))
1: (((x mod (1 + ((x + 1) mod 7))) mod 2) - (x mod 2))
1: (((x mod (1 + (10 mod (x + 1)))) mod 2) - (x mod 2))
1: (((x mod (1 + (((x + (if (x mod 2) <= 0 then x else 1)) div 3) mod 3))) mod 2) - (x mod 2))
1: (~2 + ((x mod (2 + (x mod 5))) mod 2))
1: (~1 + ((x mod (~1 - (x div 5))) mod 2))
1: (((x mod (2 - (x div (1 + ((x div 2) mod 2))))) mod 2) - (x mod 2))
1: (~1 + ((x mod (2 - (x mod (~1 - (x div 4))))) mod 2))
1: (~1 + ((x mod (~2 - (x div 3))) mod 2))
1: (((x mod (~1 + (4 * (x mod 5)))) mod 2) - (x mod 2))
1: (((x mod (~1 + (2 * (x div 4)))) mod 2) - (x mod 2))
1: (~1 + ((x mod ((x + ~1) - ((x + 2) mod 8))) mod 2))
1: (~1 + ((x mod 6) mod 4))
1: (~1 + ((x mod 6) mod (1 + (x div 2))))
1: (~1 + ((x mod 8) mod (1 + (x div 2))))
1: (~1 + ((x mod (2 * (1 + (if (x mod 2) <= 0 then 6 else 1)))) mod 3))
1: (~1 + ((if ((1 + (x div 2)) mod 5) <= 0 then (x div 3) else 1) mod (x + 1)))
1: (~1 + ((if ((2 + (x div 2)) mod 4) <= 0 then x else 2) mod 3))
1: (~1 + ((if (16 mod (x + 1)) <= 0 then (x + ~1) else 1) mod 3))
1: (~1 + ((if ((x div 2) mod 2) <= 0 then (~x + 2) else x) mod 3))
1: (~1 + ((if (x mod 2) <= 0 then 2 else (1 + (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))) mod 3))
1: (~1 + ((if (x mod 2) <= 0 then (~x + 1) else x) mod 3))
1: (~1 + ((if (x mod 2) <= 0 then ((~x + 1) mod 5) else 1) mod 3))
1: (~1 + ((if x <= 0 then 1 else (2 + ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3))) mod 3))
1: (((if x <= 0 then 1 else ((x2 + 2) mod (1 + (x div 2)))) mod 2) - (x mod 2))
1: (((if x <= 0 then 1 else ((x + 2) mod (1 + (x div 3)))) mod 2) - (x mod 2))
1: (((if x <= 0 then 1 else x) mod 2) - (((x * (x div 3)) mod 3) mod 2))
1: (((if x <= 0 then 1 else x) mod 2) - ((x mod (~1 + (2 * (x div 3)))) mod 2))
1: (((if x <= 0 then 1 else x) mod 2) - loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))
1: (~2 + ((if x <= 0 then 2 else ((x + 1) * (x div 2))) mod 3))
1: (~1 + (loop(\(x,i).((x + 1) + (x div 8)),(x + 1),1) mod 3))
1: (~2 + (loop(\(x,i).(5x + 2),x,0) mod (x + 1)))
1: (~1 + (loop(\(x,i).(4x + 9),x,1) mod (x + 1)))
1: (~1 + (loop(\(x,i).(4x + 1),x,1) mod (2x + 1)))
1: (~1 + (loop(\(x,i).(x + (i * i * i * i)),x,1) mod (x + 1)))
1: (~1 + (loop(\(x,i).(2x + 1),x,((x div 4) mod 2)) mod (x + 1)))
1: (~1 + (loop(\(x,i).(2 + (x mod (1 + i))),x,2) mod 3))
1: (~1 + (loop(\(x,i).(2 + i),(x mod 10),1) mod (x + 1)))
1: (~2 + (loop(\(x,i).(~2x + 1),x,0) mod (x + 1)))
1: (~1 + (loop(\(x,i).(2x2 + ~1),2,4) mod (x + 1)))
1: (~2 + (loop(\(x,i).(~1 + ((x + 1) * loop(\(x,i).(x2 + 1),2,3))),2,1) mod (x + 1)))
1: (~1 + (loop(\(x,i).3x,x,1) mod loop(\(x,i).(2x2 + x),2,2)))
1: (~1 + (loop(\(x,i).5x,x,2) mod (3x + 2)))
1: (~1 + (loop(\(x,i).13x,x,1) mod 31))
1: (~1 + (loop(\(x,i).(2x + 2),x,0) mod (2x + 1)))
1: ((loop(\(x,i).(2x + 2),x,0) mod (x + 1)) - loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))
1: (~1 + (loop(\(x,i).(2x + 2),x,1) mod (1 + (x div (1 + (x mod 2))))))
1: (~1 + (loop(\(x,i).(2x + 2),x,1) mod (x + 1)))
1: (~1 + (loop(\(x,i).(2x + 2),x,2) mod (x + 4)))
1: (~1 + (loop(\(x,i).(2x + 2),x,(1 - (2 * (x mod 2)))) mod (x + 1)))
1: (~2 + (loop(\(x,i).(2x + 4),x,(2 * (x mod 2))) mod (x + 1)))
1: (~1 + (loop(\(x,i).(2 * (x + i)),x,0) mod (x + 1)))
1: (~1 + (loop(\(x,i).~2x,x,1) mod 7))
1: (~2 + (loop(\(x,i).~2x,x,2) mod (x + 1)))
1: (~1 + (loop(\(x,i).(2 * (x - (i mod 2))),x,1) mod (x + 1)))
1: (~1 + (loop(\(x,i).10x,x,1) mod 31))
1: (~2 + (loop(\(x,i).4x,(x + ~1),2) mod 13))
1: (~1 + (loop(\(x,i).4x,x,1) mod 13))
1: (~1 + (loop(\(x,i).4x,x,1) mod (x + 1)))
1: (~1 + (loop(\(x,i).4x,x,5) mod (2x + 3)))
1: (~1 + (loop(\(x,i).2x,(x + 16),1) mod (x + 1)))
1: (~1 + (loop(\(x,i).2x,(3x div (1 + (x mod 4))),1) mod (x + 1)))
1: (~2 + (loop(\(x,i).2x,(x div 2),(x mod 4)) mod (x + 1)))
1: (~1 + (loop(\(x,i).2x,loop(\(x,i).(x div (1 + (x mod 2))),x,x),1) mod ((x + 1) * (2 - (x mod 2)))))
1: (~1 + (loop(\(x,i).2x,x,1) mod (1 + (2x mod (2 + (x div 4))))))
1: (~1 + (loop(\(x,i).2x,x,1) mod (1 + loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,2))))
1: (~1 + (loop(\(x,i).2x,x,1) mod (~1 + (2 * (((~x + 2) div 2) mod 4)))))
1: (~1 + (loop(\(x,i).2x,x,2) mod (1 + (if (~1 + (x mod 3)) <= 0 then x else 2))))
1: (~2 + (loop(\(x,i).2x,x,(1 + (x mod 2))) mod (x + 1)))
1: (~1 + (loop(\(x,i).2x,x,(1 + (if (x mod 2) <= 0 then 2x else 1))) mod (x + 2)))
1: (~2 + (loop(\(x,i).2x,x,(if (x mod 3) <= 0 then 0 else 2)) mod (x + 1)))
1: (~1 + (loop(\(x,i).2x,x,loop(\(x,i).(x + (i * i)),x,1)) mod (x + 1)))
1: (~1 + (loop(\(x,i).x2,2,x2) mod (2x + 1)))
1: (~1 + (loop(\(x,i).(x * i),x,1) mod (x + 2)))
1: (~2 + (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) mod (2x + ~1)))
1: (~1 + (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) mod 9))
1: (~1 + (loop(\(x,i).(if (~x + i) <= 0 then 1 else (x + 2)),x,1) mod (x + 1)))
1: (~1 + (loop(\(x,i).i,(~3 + ((x + ~1) div 2)),1) mod 3))
1: (~1 + (x mod 2) - (2 * (2 + loop(\(x,i).4x,x,2))))
1: (~1 + (x mod 2) - (2 * ((~x + 2) mod 7)))
1: (~1 + (x mod 2) - ((1 + ((x + 1) div loop(\(x,i).(x div (~2 + (x mod 2))),x,(x + 1)))) div 2))
1: (~1 + (x mod 2) - ((1 + (8 mod (1 + (x div 2)))) div 2))
1: (~1 + (x mod 2) - ((1 + loop(\(x,i).2x,((((1 + (8 mod (1 + (x div 2)))) div 2) + (if x <= 0 then 0 else 1)) - (x mod 2)),2)) div 3))
1: (~1 + (x mod 2) - (((x - ((x div 2) mod 4)) div 2) div 2))
1: (~1 + (x mod 2) - (x mod (1 + (x mod (2 + (x div (3 - (x mod 2))))))))
1: (~1 + ((x mod 2) + ((x + (x div 3)) div 5)))
1: (~1 + ((x mod 2) + ((x + 1) mod 5)))
1: (~1 + ((x mod 2) + (x mod 5)))
1: (~1 + ((x mod 2) + (x mod (1 + (((x div 2) - (x mod 2)) mod (1 + (x div 2)))))))
1: (~1 + ((x mod 2) + (if (x mod (2 + ((1 + (2 * ((x + loop(\(x,i).2x,(2 - (x mod 2)),(x div 2))) mod 5))) mod (x + 1)))) <= 0 then 2 else 0)))
1: (~1 + ((x mod 2) + (if (x mod (1 + (x mod 8))) <= 0 then 2 else 0)))
1: (~1 + ((x mod 2) + loop(\(x,i).(2x - (i mod 2)),(x div 2),2)))
1: (((x mod 2) + (x mod 7)) - (9 * (if x <= 0 then 1 else 2)))
1: (1 + (x mod 2) - (2 * ((x - (if ((x + ~2) mod 5) <= 0 then 1 else 0)) mod 2)))
1: (((x mod 2) + loop(\(x,i).2x,x,1)) - (3 * ((x div 3) mod 2)))
1: (~x2 + ((x mod 2) + (x div 8)))
1: (1 + (x mod 2) - (((x - (((~x + 1) * (x div 3)) div 2)) div 2) div 2))
1: (1 + (x mod 2) - ((x div (~2 + ((x div 2) mod 2))) div 3))
1: (1 + (x mod 2) - (loop(\(x,i).(2 * (6x + (2x div (1 + i)))),x,1) div 2))
1: (1 + (x mod 2) - (x div 2))
1: ((2x2 + 4x) + (x mod 2) - (x div 2))
1: (((x mod 2) + ((3 * (x div (4 - ((x * (x div 2)) mod 2)))) div 2)) - (x div 2))
1: (((x mod 2) + (x mod 3)) - (x div ~5))
1: (1 + (x mod 2) - ((~1 + (x div 2)) mod 4))
1: (1 + (x mod 2) - loop(\(x,i).2x,x,2))
1: (((x mod 2) + loop(\(x,i).(3x + ~1),x,2)) - loop(\(x,i).2x,x,2))
1: (~x + ((x mod 2) + ((x3 + 3x2 + 2x) div 3)))
1: (((x mod 2) + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) - compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))
1: (~6 + (x mod 2))
1: ((x mod 2) - (3 * (x + (x div 2))))
1: ((x mod 2) - (x * (x + (x div 2))))
1: ((x mod 2) - (2 * (1 + (x div 3))))
1: ((x mod 2) - (3 * (2x + ((x div 2) mod 2))))
1: ((2x2 + ~2x) + (x mod 2))
1: ((2x2 + 8x + 4) + (x mod 2))
1: ((x mod 2) - (2 * ((2x + 4) - (x mod 4))))
1: ((x mod 2) - (2 * (~1 + (4 * (~x + (x mod 2))))))
1: ((x mod 2) - (3 * (~2x + (x div 4))))
1: ((x mod 2) - (8 * (~x + (x mod 2))))
1: ((x mod 2) - (2 * (~x + (x mod 10))))
1: ((~3x + 3) + (x mod 2))
1: ((~3x2 + ~3x) + (x mod 2))
1: ((~2x2 + ~6x + ~4) + (x mod 2))
1: (~8x + (x mod 2))
1: (~6x + (x mod 2))
1: ((x mod 2) - (2 * (((x div 2) - (x * (x mod 2))) div 2)))
1: ((x mod 2) - (2 * ((x div 4) div ~2)))
1: ((x mod 2) - (2 * ((1 - (x div 3)) mod (1 + (x div 5)))))
1: ((x mod 2) - (2 * ((x div 3) mod 2)))
1: ((x mod 2) - (3 * ((x div 3) mod 2)))
1: ((x mod 2) - (2 * ((x div 4) mod 2)))
1: ((x mod 2) - (2 * ((x div 5) mod 2)))
1: ((x mod 2) - (2 * (((2x + ~2) mod (2 + (x div 4))) mod 2)))
1: ((x mod 2) - (2 * (if ((x div 2) mod 3) <= 0 then 2 else 1)))
1: ((x mod 2) - (3 * (if (x mod 2) <= 0 then (15 * (2 + (if x <= 0 then 0 else 2))) else 1)))
1: ((x mod 2) - ((if x <= 0 then 0 else (~x + 1)) * (1 + (x div 2))))
1: ((x mod 2) - (2 * (if x <= 0 then 1 else x)))
1: ((x mod 2) - ((2 + (x2 div 7)) div 3))
1: ((x mod 2) - ((x + 1) div 3))
1: ((x mod 2) - ((0 - ((x div 2) mod 4)) div 2))
1: ((x mod 2) - ((~x + 1) div (1 + (2 * (3 - (x mod 2))))))
1: ((x mod 2) - ((~x + 1) div (2 + (3 * (x mod 2)))))
1: ((x mod 2) - ((~x + 1) div (2 + ((x mod 3) div 2))))
1: ((x mod 2) - ((~x + 2) div 2))
1: ((x mod 2) - ((~x + 2) div (2 - ((x div 2) div ~2))))
1: ((x mod 2) - ((~1 + (2 * (1 + (2 * (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))))) div 5))
1: ((x mod 2) - ((~1 + (x div 2)) div 2))
1: ((x mod 2) - ((~1 + ((2 + (x div 2)) mod 6)) div 2))
1: ((x mod 2) - ((~1 + ((x + 2) mod 5)) div 2))
1: ((x mod 2) - ((~1 + (2x mod (2 - ((~x + 1) div 3)))) div 2))
1: ((x mod 2) - ((~x + ((x div 2) mod 2)) div 2))
1: ((x mod 2) - ((x + ~1) div 9))
1: ((x mod 2) - ((x + ~2) div 9))
1: ((x mod 2) - ((x - (5 * (x + (x div 4)))) div 2))
1: ((x mod 2) - ((x - ((x2 + 2x) div 3)) div 2))
1: ((x mod 2) - ((x2 + 6x + 9) div 2))
1: ((x mod 2) - ((x2 + 2x) div 7))
1: ((x mod 2) - ((~4x + 4) div (x + 5)))
1: ((x mod 2) - (((2 - (x div 2)) * (x div 4)) div 2))
1: ((x mod 2) - (x2 div 3))
1: ((x mod 2) - (x2 div 5))
1: ((x mod 2) - (x2 div (x + ((x + 2) * (2 + (x mod 2))))))
1: ((x mod 2) - (((x + 1) div 2) div 3))
1: ((x mod 2) - (((~1 + (((x + 1) * (x div 3)) div 2)) div 2) div 2))
1: ((x mod 2) - (((x2 + x) div 4) div 5))
1: ((x mod 2) - (((~x2 + x) div 4) div 5))
1: ((x mod 2) - ((x div 2) div (1 + (2 * (1 + (x mod 2))))))
1: ((x mod 2) - ((x div 2) div ~3))
1: ((x mod 2) - ((x div 2) div ~6))
1: ((x mod 2) - ((x div (1 + ((x div 2) mod 2))) div 3))
1: ((x mod 2) - ((x div (2 - ((x div 2) mod 2))) div ~2))
1: ((x mod 2) - (((x + 1) mod (2 + ((1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)) mod (x + 1)))) div 2))
1: ((x mod 2) - ((((loop(\(x,i).(2x + 2),x,0) mod (x + 1)) - loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) mod (x + 1)) div 2))
1: ((x mod 2) - (((x + ~1) mod (3 + (x div 4))) div 3))
1: ((x mod 2) - (((x + ~1) mod (1 + ((1 + (x div 2)) div 2))) div 2))
1: ((x mod 2) - ((x2 mod (x - ((~x + 2) div 2))) div (x + 2)))
1: ((x mod 2) - ((x mod (x - ((x + 1) mod 3))) div 2))
1: ((x mod 2) - (loop(\(x,i).(2 * (x - (i mod 2))),x,(x mod 2)) div 2))
1: ((x mod 2) - (loop(\(x,i).8x,x,1) div 3))
1: ((x mod 2) - (loop(\(x,i).2x,x,1) div 3))
1: ((x mod 2) - (loop(\(x,i).2x,x,1) div 9))
1: ((x mod 2) - (loop(\(x,i).2x,x,(if (x mod 3) <= 0 then 1 else 2)) div 3))
1: ((x mod 2) - (x div (6 - (x mod 2))))
1: ((x mod 2) - (x div (4 + ((x * (x + (x div 2))) mod 6))))
1: ((x mod 2) - (x div (4 + ((x div 2) mod 2))))
1: ((x mod 2) - (x div 7))
1: ((x mod 2) - (x div (1 + (2 * (2 + (((x div 2) div 3) mod 2))))))
1: ((x mod 2) - (x div ((if (x mod 3) <= 0 then 2 else 1) + (x mod 2))))
1: ((x mod 2) - (x div ~5))
1: ((x mod 2) - (x div (~2 + ((~x + 1) div 3))))
1: ((x mod 2) - (x div ~8))
1: ((x mod 2) - (1 mod (~2x + 1)))
1: ((x mod 2) - ((~x + 1) mod 3))
1: ((x mod 2) - ((~1 + (x div 2)) mod 3))
1: ((x mod 2) - ((x + ~1) mod (1 + (x mod 3))))
1: ((x mod 2) - ((x - (x div (2 + ((x div 2) mod 4)))) mod 2))
1: ((x mod 2) - (2x mod (4 + (x div 4))))
1: ((x mod 2) - (((1 + (x div 2)) div (2 + (x mod 3))) mod 2))
1: ((x mod 2) - (((x + 1) div 3) mod 2))
1: ((x mod 2) - (((x + 1) div 3) mod 3))
1: ((x mod 2) - (((x + 1) div (1 + (2 * (x div (1 + ((x div 2) mod 3)))))) mod 2))
1: ((x mod 2) - (((x + 1) div (1 + (x mod 9))) mod 2))
1: ((x mod 2) - (((~x + 2) div (1 + (x mod 9))) mod 2))
1: ((x mod 2) - (((~1 + (x div 2)) div 2) mod 3))
1: ((x mod 2) - (((x + ~1) div (if ((x div 2) mod 3) <= 0 then 1 else 2)) mod 2))
1: ((x mod 2) - (((x - (x div 3)) div 3) mod 2))
1: ((x mod 2) - (((~x2 + 4x + ~4) div (x + 2)) mod 2))
1: ((x mod 2) - ((((x2 + ~2x) * (x div 3)) div 2) mod 3))
1: ((x mod 2) - ((2x div (2 + (x div 3))) mod 2))
1: ((x mod 2) - ((((~1 + ((x2 + x) div 2)) div 2) div 2) mod 2))
1: ((x mod 2) - ((x div 2) mod 4))
1: ((x mod 2) - ((x div 4) mod 2))
1: ((x mod 2) - ((x div (1 + ((x + 2) mod 4))) mod 2))
1: ((x mod 2) - ((x div (1 + ((x mod 4) mod (1 + (x div 2))))) mod 2))
1: ((x mod 2) - ((x div (1 + (if (x mod 4) <= 0 then 0 else 2))) mod 2))
1: ((x mod 2) - ((x mod (4 + ((x div 2) mod 2))) mod 2))
1: ((x mod 2) - ((x mod (1 + (2 * (x mod 6)))) mod 2))
1: ((x mod 2) - ((x mod (6 + ((1 + (x div 2)) div 2))) mod 2))
1: ((x mod 2) - ((x mod (1 + (4 mod (1 + (x div 2))))) mod 2))
1: ((x mod 2) - ((x mod (~1 + (x div ~3))) mod 2))
1: ((x mod 2) - (loop(\(x,i).(x2 + 2x),2,2) mod (x + 1)))
1: ((x mod 2) - (x mod (~6x + 1)))
1: ((x mod 2) - (if (~x + 2) <= 0 then x else 2))
1: ((x mod 2) - (if (~2 + (x div 2)) <= 0 then 2 else 0))
1: ((x mod 2) - (if (~2 + (x div 3)) <= 0 then 1 else 2))
1: ((x mod 2) - (if (~2 + (x mod (3 + (x div 4)))) <= 0 then 1 else 2))
1: ((x mod 2) - (if ((x + ~1) mod 5) <= 0 then 1 else x))
1: ((x mod 2) - (if ((x + ~4) mod 8) <= 0 then 1 else 0))
1: ((x mod 2) - (if ((x2 div 2) mod 3) <= 0 then (0 - (x mod 3)) else 1))
1: ((x mod 2) - (if ((x div 2) mod 3) <= 0 then 2 else 1))
1: ((x mod 2) - (if (x mod 3) <= 0 then 0 else x))
1: ((x mod 2) - (if (x mod 3) <= 0 then 2 else 1))
1: ((x mod 2) - (if (x mod 3) <= 0 then ((if (x mod (1 + (4 * (x mod 2)))) <= 0 then 1 else 0) - (x mod 2)) else 1))
1: ((x mod 2) - (if (x mod 4) <= 0 then ((x div 3) mod 3) else 0))
1: ((x mod 2) - (if (x mod 4) <= 0 then x else 1))
1: ((x mod 2) - (if (x mod 5) <= 0 then 4 else 0))
1: ((x mod 2) - (if (x mod (4 + (x div 2))) <= 0 then 1 else 0))
1: ((x mod 2) - (if (x mod 7) <= 0 then 1 else 0))
1: ((x mod 2) - (if (x mod (1 + (2 * (x div (2 * (2 + (x mod 2))))))) <= 0 then 1 else 2))
1: ((x mod 2) - (if (x mod (2 + (4 mod (x + 2)))) <= 0 then 0 else 2))
1: ((x mod 2) - (if x <= 0 then 0 else 2))
1: ((x mod 2) - (if x <= 0 then 1 else 2))
1: ((x mod 2) - (if x <= 0 then 1 else (x div 3)))
1: ((x mod 2) - (if x <= 0 then 1 else (if (x mod 4) <= 0 then 4 else 0)))
1: ((x mod 2) - loop(\(x,i).(1 + (2 * (x - (i mod 2)))),x,0))
1: ((x mod 2) - loop(\(x,i).(~3x + 2),x,1))
1: ((x mod 2) - loop(\(x,i).(3x + ~2),(x div 2),0))
1: ((x mod 2) - loop(\(x,i).(2x + ~3),(x + ~1),0))
1: ((x mod 2) - loop(\(x,i).(2x + ~1),x,0))
1: ((x mod 2) - loop(\(x,i).(2x - (i div 2)),x,0))
1: ((x mod 2) - loop(\(x,i).(2x - (i mod 2)),(x + ~2),0))
1: ((x mod 2) - loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),x,x))
1: ((x mod 2) - loop(\(x,i).3x,2x,3))
1: ((x mod 2) - loop(\(x,i).(4x + ~4),(x div 2),0))
1: ((x mod 2) - loop(\(x,i).(2 * (x + (i mod 2))),(x + ~1),0))
1: ((x mod 2) - loop(\(x,i).(2 * (x + i)),x,0))
1: ((x mod 2) - loop(\(x,i).(~2x + 2),x,(2 * (x mod 2))))
1: ((x mod 2) - loop(\(x,i).(~2x + 2),x,(x mod 2)))
1: ((x mod 2) - loop(\(x,i).(2x + ~2),x,1))
1: ((x mod 2) - loop(\(x,i).(2 * (x - (2 * (x + (if (i mod 2) <= 0 then 2 else 0))))),x,1))
1: ((x mod 2) - loop(\(x,i).(2 * (x - (i mod 2))),x,0))
1: ((x mod 2) - loop(\(x,i).(2 * (x - (i mod 2))),x,(x mod 2)))
1: ((x mod 2) - loop(\(x,i).(4 * ((2 - (x mod 2)) * (if x <= 0 then 1 else 2))),(x mod 4),1))
1: ((x mod 2) - loop(\(x,i).2x,(x + 2),2))
1: ((x mod 2) - loop(\(x,i).2x,(x + ~1),1))
1: ((x mod 2) - loop(\(x,i).2x,(x - (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))),1))
1: ((x mod 2) - loop(\(x,i).2x,(x div 2),2))
1: ((x mod 2) - loop(\(x,i).2x,x,3))
1: (~x + (x mod 3) - ((x2 + 2x) div 3))
1: (~1 + ((x mod 3) + ((x mod 5) div 2)))
1: (~2 + ((x mod 3) + (x div 4)))
1: (1 + (x mod 3) - (x div (~2 - (x mod 4))))
1: ((x mod 3) - ((~x + 1) div (2 + (((x + 1) div 2) div 3))))
1: ((x mod 3) - ((x + ~1) div (2 + (x mod 3))))
1: ((x mod 3) - (((((x + ~1) div 2) * (x div 2)) div 2) div 2))
1: ((x mod 3) - ((x + ((4 * (x div 3)) div 3)) mod 3))
1: ((x mod 3) - ((1 + (x div 3)) mod 4))
1: ((x mod 3) - ((x + (x div 12)) mod 3))
1: ((x mod 3) - ((x + 1) mod (1 + ((x div 2) div 3))))
1: ((x mod 3) - ((x div 2) mod 2))
1: ((x mod 3) - ((x div ~2) mod 2))
1: ((x mod 3) - ((x mod 13) mod 3))
1: ((x mod 3) - (if x <= 0 then 0 else 1))
1: (~9 + (x mod 4))
1: ((~x + ~2) + (x mod 4))
1: (((x mod 4) + (x div 2)) - (x * (x mod 2)))
1: (((x mod 4) + (2 * ((x div 4) mod 2))) - (x div 2))
1: (~8x + (x mod 4))
1: ((x mod 4) - (6 * ((x div 4) mod 2)))
1: ((x mod 4) - ((x + ~1) div 2))
1: ((x mod 4) - ((x div 2) div 3))
1: ((x mod 4) - ((x div 4) div ~2))
1: ((x mod 4) - (x div 8))
1: ((x mod 4) - ((x + 1) mod 7))
1: ((x mod 4) - (~x mod 4))
1: ((x mod 4) - (2x mod 3))
1: ((~x + ~5) + (x mod 5))
1: (1 + (x mod 5) - (2 * (i mod 2)))
1: ((x mod 5) - (2 * (x mod 4)))
1: ((x mod 5) - ((x2 + 2x) div 2))
1: (~x + (x mod 5))
1: (~1 + (x mod (3 + (x mod 3) - (x mod 2))))
1: (~1 + (x mod (9 + (x mod 2))))
1: (~1 + (x mod (1 + ((2 * ((x div 5) mod 2)) + (x mod 2)))))
1: (~1 + (x mod (3 + (x div 3))))
1: (~1 + (x mod (4 + (x div 3))))
1: (~2 + (x mod (3 + (x div 4))))
1: ((x mod (3 + (x div 4))) - (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))
1: (~1 + (x mod (4 + (x div 4))))
1: (~1 + (x mod (3 + (if (~2 + (x div 2)) <= 0 then 0 else 2))))
1: (~2 + (x mod (3 - (x div ~2))))
1: (~1 + (x mod (3 - ((x div 2) mod 2))))
1: ((x mod 7) - (x mod 13))
1: ((~5x + ~4) + (x mod 9))
1: ((x mod 9) - (((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3) + (if x <= 0 then 0 else 1)))
1: ((x mod 9) - (x div 3))
1: ((x mod 9) - ((x div 2) mod 5))
1: (~1 + (x mod (1 + (2 * (2 + (x mod 2))))))
1: (~1 + (x mod (1 + (2 * (2 + (x mod 3))))))
1: (~1 + (x mod (1 + (4 * (x mod 2)))))
1: (~1 + (x mod (1 + (10 * (x mod 2)))))
1: (~1 + (x mod (1 + (2 * (x div 5)))))
1: (~2 + (x mod (1 + (2 * (x mod (2 * (1 + (x mod 3))))))))
1: (~1 + (x mod (1 + (2 * (if ((x + ~2) mod 7) <= 0 then 1 else 2)))))
1: (~1 + (x mod (1 + (2 * (if (x mod 3) <= 0 then 0 else 2)))))
1: (~2 + (x mod (1 + ((1 + (x div 2)) div 2))))
1: (~1 + (x mod (8 + (2x div (2 + (x div 2))))))
1: (~1 + (x mod (1 + (((x + 1) div 2) div 2))))
1: (~1 + (x mod (1 + (((x + 1) div 2) div 3))))
1: (~x + (x mod (1 + ((x div 2) div 3))))
1: (~10 + (x mod (1 + (x div 2))))
1: ((x mod (1 + (x div 3))) - (if (x mod (2 + (x mod 2))) <= 0 then 1 else x))
1: (~2 + (x mod (2 + (x div 4))))
1: (~1 + (x mod (1 + (x div 5))))
1: (~1 + (x mod (2 + (x div (1 + (x mod (1 + (x mod (1 + (x div (2 + (x div 5))))))))))))
1: (~1 + (x mod (2 + (x div 8))))
1: (~1 + (x mod (2 + ((x + 4) mod (1 + (x div 4))))))
1: (~1 + (x mod (1 + ((9x + 1) mod (1 + (x div 2))))))
1: (~1 + (x mod (1 + ((1 + (x mod (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))) mod (x + 1)))))
1: (~1 + (x mod (1 + (((x + ~2) + loop(\(x,i).(2 + (if (~x + i) <= 0 then 0 else x)),x,1)) mod (x + 1)))))
1: (~1 + (x mod (2 + ((x + 1) mod 4))))
1: (~1 + (x mod (2 + ((~x + 1) mod (1 + (x div 4))))))
1: (~2 + (x mod (2 + ((~x + 2) mod 8))))
1: (~1 + (x mod (1 + ((~2 + (9 * (~x + (x mod 9)))) mod (x + 1)))))
1: (~1 + (x mod (1 + ((~x2 + (x div 2)) mod 8))))
1: (~1 + (x mod (1 + ((~1 + ((1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),(1 + (2 * (x mod 2))),(x + ~1))) mod 3)) mod (x + 1)))))
1: (~1 + (x mod (1 + ((~1 + (((2x + 2) * (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 8))) mod 3)) mod (x + 1)))))
1: (~1 + (x mod (1 + ((~1 + loop(\(x,i).(~2x + 1),x,6)) mod (x + 1)))))
1: (~1 + (x mod (1 + ((loop(\(x,i).2x,x,2) - ((3 * (x mod 3)) div 2)) mod (x + 1)))))
1: (~1 + (x mod (1 + ((~1 + loop(\(x,i).2x,x,(1 - loop(\(x,i).(2 * (x - (i mod 2))),x,0)))) mod (x + 1)))))
1: (~1 + (x mod (1 + ((~1 + loop(\(x,i).2x,x,(~1 + (x mod 4)))) mod (x + 1)))))
1: (~1 + (x mod (2 + ((5 * (x mod 2)) mod (x + 1)))))
1: (~1 + (x mod (2 + ((x2 + 2x) mod 6))))
1: (~1 + (x mod (1 + ((x2 + 2x) mod 8))))
1: (~2 + (x mod (2 + (2x mod 5))))
1: (~1 + (x mod (1 + (2x mod (2 + (x div 4))))))
1: (~2 + (x mod (2 + (((x + 1) div 2) mod 8))))
1: (~1 + (x mod (1 + (((1 - loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2) mod (x + 1)))))
1: (~1 + (x mod (2 + ((x div 2) mod 4))))
1: (~1 + (x mod (1 + (loop(\(x,i).(2 * (x + i)),x,0) mod (2x + 3)))))
1: (~1 + (x mod (1 + (loop(\(x,i).(~2x + 4),x,2) mod (x + 1)))))
1: (~2 + (x mod (2 + (x mod 2))))
1: (~x + (x mod (2 + (x mod 3))))
1: (~1 + (x mod (1 + (x mod 4))))
1: (~2 + (x mod (2 + (x mod (4 + (x mod 2))))))
1: (~1 + (x mod (1 + (x mod (2 + (if (x mod 2) <= 0 then (x div 2) else (x mod 3)))))))
1: (~1 + (x mod (2 + (x mod (~1 + (2 * (x div 4)))))))
1: (~1 + (x mod (2 + (x mod ((x + 1) - (x mod 10))))))
1: (~1 + (x mod (2 + (x mod (x - ((x + ~1) mod 8))))))
1: (~1 + (x mod (1 + (if (x mod 5) <= 0 then 0 else 2))))
1: (~1 + (x mod (2 + loop(\(x,i).2x,loop(\(x,i).(x div (1 + (x mod 2))),x,x),2))))
1: (~1 + (x mod (1 + i)))
1: (~6 + (x mod ~2))
1: (~2 + (x mod (~1 - (if (x mod 5) <= 0 then 2 else 0))) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: (~1 + (x mod (1 - (2 * (2 + (x mod 3))))))
1: (~2 + (x mod (1 - (2 * ((x div 2) - (x mod 2))))))
1: (~1 + (x mod (1 - (2 * (x div 3)))))
1: (~1 + (x mod (1 - (2 * ((x div 3) mod 3)))))
1: (~1 + (x mod (1 - (2 * (if (x mod 4) <= 0 then 0 else 2)))))
1: (~2 + (x mod (~x2 + 2)))
1: (~2 + (x mod (2 - ((~x + 1) div 5))))
1: (~2 + (x mod (2 - ((x div 2) div ~2))))
1: (~1 + (x mod (2 - (x div ~3))))
1: (~1 + (x mod (2 - (x mod ~4))))
1: (~1 + (x mod ~3))
1: (~2 + (x mod ~5))
1: (~1 + (x mod (~3 + (x mod 2))))
1: (~1 + (x mod 11))
1: (~x + (x mod 11))
1: (~1 + (x mod (~1 + (5 * (1 + (x div 8))))))
1: (~x + (x mod (~2 + (3 * (8 - (x div 2))))))
1: (~1 + (x mod 15))
1: (~1 + (x mod (~1 + (6 * (loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1))))))
1: (~1 + (x mod (~1 + (2 * ((x * ((x + 1) mod 5)) div 8)))))
1: (~1 + (x mod (~1 + (3 * (((x + ~1) div 2) mod 3)))))
1: (~1 + (x mod (~1 + ((~x + 1) div 3))))
1: (~1 + (x mod (~1 + ((~x + 2) div 3))))
1: (~2 + (x mod (~2 + ((~x + 2) div 4))))
1: (~1 + (x mod (~1 + ((~x2 + 2x) div 2))))
1: (~2 + (x mod (~1 + (x div ~2))))
1: (~1 + (x mod (~1 + (x div ~3))))
1: (~2 + (x mod (~1 + (x div ~3))))
1: (~x + (x mod (~2 + (x div ~4))))
1: (~1 + (x mod (~2 + ((x div 2) mod 2))))
1: (~1 + (x mod (~1 + (x mod (~1 + ((~x + 1) div 2))))))
1: (~1 + (x mod ((x + ~2) + ((2x + 4) mod 7))))
1: (~1 + (x mod ((x + 1) - (x mod 9))))
1: (~2 + (x mod ((x + 1) - (x mod 10))))
1: ((x mod (x - ((x + ~1) mod 8))) - (x div 8))
1: ((~2x + ~4) + (x mod 6))
1: ((x mod 6) - (x div 8))
1: (~x + (x mod 6))
1: (~3 + (x mod 8))
1: (~8 + (x mod 8))
1: ((x mod 8) - ((~x + 1) div 5))
1: ((x mod 8) - (x div 3))
1: ((x mod 8) - ((x + 3) mod 7))
1: ((x mod 8) - ((x div 4) mod 2))
1: ((x mod 8) - (x mod 7))
1: ((x mod 8) - (x mod 15))
1: (~x + (x mod 12))
1: (~1 + (x mod 10) - ((~x + 1) mod 8))
1: ((x mod 10) - (2 * (x mod 2)))
1: ((x mod 10) - (x div 2))
1: ((x mod 10) - (x div 9))
1: ((x mod 10) - (((x + ~1) div 2) mod 4))
1: ((x mod 10) - (if x <= 0 then 0 else 1))
1: (~1 + (x mod 14))
1: (~1 + (x mod (3 * (2 + (x mod 8)))))
1: (~1 + (x mod (2 * (1 + (if (x mod 2) <= 0 then 6 else 1)))))
1: (~2 + (x mod ~6))
1: (~1 + (x mod (2 * (4 - (x mod 3)))))
1: (~1 + (x mod (4 * (2 + ((x div 2) div 7)))))
1: (~1 + (x mod loop(\(x,i).2x,loop(\(x,i).(x div (1 + (x mod 2))),x,x),1)))
1: ((~6x + ~2) + (i mod 2))
1: ((~2x + ~2) + (i mod 2))
1: (~9x + (i mod 2))
1: (~8x + (i mod 2))
1: (~4x + (i mod 2))
1: ((i mod 2) - (x * i))
1: (~1 + (i mod (2 * (2 - (i mod 2)))))
1: (~1 + (compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x) mod 3))
1: (~x + (if (~x + 4) <= 0 then 1 else 0))
1: ((if (~x + 4) <= 0 then 2 else 1) - ((~x + ((x div 4) mod 2)) div 2))
1: ((if (~x + 4) <= 0 then 2 else 1) - (x div ~7))
1: (~1 + (if (~x + 4) <= 0 then ((x2 + x) div 2) else 1))
1: (~1 + (if (2 - (2x mod (4 + (x div 4)))) <= 0 then 0 else (x2 + ~x)))
1: (~x + (if (~x + 2) <= 0 then (2 + ((x + ((x2 + 2x) div 8)) div 2)) else 1))
1: ((if (~x + 2) <= 0 then (2 + (x div 4)) else 1) - (x div 7))
1: ((if (~x + 2) <= 0 then ((x div 2) - ((x + ~1) div 3)) else 1) - (x mod 2))
1: ((if (~x + 2) <= 0 then 10 else 1) - (x mod 2))
1: ((if (~4 + (x div 2)) <= 0 then 1 else 2) - (x mod 2))
1: (~2 + (if (~4 + (x div 2)) <= 0 then 1 else (x div 4)))
1: (~1 + (if (~4 + (x div 2)) <= 0 then 1 else x))
1: (~x + (if (~2 + (x div 2)) <= 0 then 2 else 1))
1: ((if (~2 + (x div 3)) <= 0 then 1 else 2) - (x mod 2))
1: ((if (~2 + (x div 3)) <= 0 then 2 else 1) - (x mod 2))
1: (~1 + (if (~2 + (x div 3)) <= 0 then (x mod 2) else 1))
1: (~1 + (if (~2 + (x div 4)) <= 0 then 2 else (x mod 2)))
1: (~1 + (if (~2 + (x div 5)) <= 0 then 2 else 0))
1: (~1 + (if (~1 + (x mod 3)) <= 0 then x else 2))
1: ((if ((x mod 3) - ((((x + 1) div 2) div 2) mod 2)) <= 0 then 0 else 1) - (x mod 2))
1: ((if (~2 + (x mod 8)) <= 0 then 1 else 0) - (x mod 2))
1: (~x2 + (if (x + ~1) <= 0 then 1 else 0))
1: (~x + (if (x + ~1) <= 0 then 1 else (1 + compr(\x.(loop(\(x,i).(x * (x - i)),2,(x div 2)) mod (x + 1)),x))))
1: ((if (x + ~1) <= 0 then 1 else (if (x mod 8) <= 0 then 1 else 2)) - (x mod 2))
1: ((if (x + ~1) <= 0 then 3 else 0) - (x mod 2))
1: (~1 + (if (x + ~1) <= 0 then (x + 2) else loop(\(x,i).4x,x,1)))
1: (~1 + (if (x + ~1) <= 0 then (x * i) else x5))
1: ((if (x + ~1) <= 0 then x else 2) - (x div ~2))
1: (~1 + (if (x + ~1) <= 0 then x else (1 + (((x2 mod (x - ((~x + 2) div 2))) div (x + 1)) + (x mod 2)))))
1: (~1 + (if (x + ~1) <= 0 then x else (1 + ((1 + (8 mod (if x <= 0 then 1 else x))) mod 2))))
1: (~x + (if (x + ~2) <= 0 then 0 else 1))
1: ((if (x + ~2) <= 0 then 0 else (x + (x2 div 4))) - (x mod 2))
1: ((if (x + ~2) <= 0 then 1 else 0) - loop(\(x,i).(x * (2 + (i mod 2))),x,1))
1: (((if (x + ~2) <= 0 then 1 else 2) + ((3 * (x div (4 - ((x * (x div 2)) mod 2)))) div 2)) - (x div 2))
1: ((if (x + ~2) <= 0 then 1 else 2) - (x div ~3))
1: ((if (x + ~2) <= 0 then 1 else 2) - (x div ~5))
1: ((if (x + ~2) <= 0 then 1 else 2) - (if (x mod 3) <= 0 then x else 1))
1: (~1 + (if (x + ~2) <= 0 then 1 else (x + ~2)))
1: ((if (x + ~2) <= 0 then 1 else (x div 3)) - (x mod 2))
1: ((~10x + ~5) + (if (x + ~2) <= 0 then 1 else x))
1: ((if (x + ~2) <= 0 then 1 else x) - ((x div 2) div ~2))
1: ((if (x + ~2) <= 0 then 2 else 1) - ((x mod 3) div 2))
1: ((if (x + ~3) <= 0 then 2 else 1) - (x mod 2))
1: ((if (x + ~3) <= 0 then x else 1) - (x mod 2))
1: (~x + (if (x + ~4) <= 0 then 1 else 2))
1: (~x + (if (x + ~4) <= 0 then 2 else 0))
1: (~1 + (if (x + ~8) <= 0 then 1 else (~2 + (x div 2))))
1: ((if (x + ~12) <= 0 then 1 else 2) - (((1 + (x div 2)) div 2) mod 2))
1: (~x + (if (x + ~12) <= 0 then 2 else 1))
1: ((if (x + ~10) <= 0 then 1 else 2) - (x mod 2))
1: (~1 + (if (x + ~10) <= 0 then x else 0))
1: (~x + (if (~2 + i) <= 0 then 1 else 0))
1: (~1 + (if (x * (~2 + i)) <= 0 then x else 0))
1: (~1 + (if (x * i) <= 0 then x else 0))
1: (~x + (if ((x mod 3) div 2) <= 0 then (1 + (if (x mod 3) <= 0 then 0 else x)) else (2x + ~2)))
1: ((if (x div 4) <= 0 then 1 else ((2 * (x div 2)) div 3)) - (x mod 2))
1: (~1 + (if (5 mod (if (x mod 2) <= 0 then 2 else x)) <= 0 then 2 else 0))
1: ((if ((1 + (x div 2)) mod 5) <= 0 then 0 else 2) - (x mod 2))
1: (~1 + (if ((x + (if (~2 + (x div 4)) <= 0 then 1 else 2)) mod 4) <= 0 then x else 0))
1: (~1 + (if ((x + 1) mod (3 - (x mod 2))) <= 0 then x else 1))
1: ((if ((x + 1) mod (1 + (x div 5))) <= 0 then 1 else 2) - ((x mod 3) div 2))
1: (~2 + (if ((x + 1) mod (2 + ((x div 2) mod 2))) <= 0 then x else 0))
1: ((if ((x + 1) mod 8) <= 0 then 1 else 2) - ((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)))
1: ((if ((x + 2) mod 7) <= 0 then 2 else 1) - ((x div 2) mod 2))
1: ((if ((x + 2) mod (1 + (2x div 5))) <= 0 then 1 else 2) - (x mod 2))
1: (~1 + (if ((x + 2) mod 6) <= 0 then 0 else 1))
1: ((if ((x + 2) mod 8) <= 0 then 2 else 1) - ((if x <= 0 then 1 else x) mod 2))
1: (~x + (if ((~1 + (x div 3)) mod 4) <= 0 then 1 else 0))
1: ((if ((x + ~1) mod 3) <= 0 then 1 else x) - (x mod 2))
1: (~1 + (if ((x + ~1) mod 9) <= 0 then x2 else 1))
1: ((if ((x + ~1) mod 8) <= 0 then x else 1) - (x div 4))
1: ((if (((x + ~1) - (x div 4)) mod 4) <= 0 then 0 else 1) - (x mod 2))
1: (~1 + (if ((x2 + x) mod 5) <= 0 then x else 0))
1: (~1 + (if ((x2 + 2x) mod 6) <= 0 then 2x else 1))
1: ((if (16 mod (x + 2)) <= 0 then 0 else 2) - (x mod 2))
1: (~1 + (if ((((x + ~1) div 2) * (x mod 3)) mod 4) <= 0 then 2 else 0))
1: (~1 + (if (((x mod 3) * (x div 2)) mod 2) <= 0 then 2 else (x mod 2)))
1: ((if ((x * (x mod 3)) mod 5) <= 0 then 0 else 2) - (x mod 2))
1: ((if ((x * (x mod 3)) mod 7) <= 0 then 1 else 0) - (x mod 2))
1: ((if ((x * (x mod 8)) mod 3) <= 0 then 1 else 2) - (x mod 2))
1: ((if (x2 mod 7) <= 0 then (if x <= 0 then 0 else 3) else 0) - (x mod 2))
1: (~1 + (if (((x + ((x div 2) div 3)) div 2) mod 2) <= 0 then x else 1))
1: ((if (((x + 2) div 3) mod 4) <= 0 then 2 else 1) - (if (x + ~1) <= 0 then 1 else 0))
1: ((if (((x + ~1) div 3) mod 2) <= 0 then 4 else 1) - (x mod 2))
1: (~1 + (if (((x - (((x + 1) mod 5) mod 2)) div 2) mod 2) <= 0 then x else 1))
1: ((if ((2x div (2 + (x mod 2))) mod 3) <= 0 then (if x <= 0 then 1 else 2) else 1) - (x mod 2))
1: ((if ((x2 div 2) mod 3) <= 0 then 1 else ~2) - (x mod 2))
1: ((if ((x2 div 2) mod 3) <= 0 then 4 else 1) - (x mod 2))
1: ((if ((x div 2) mod 2) <= 0 then 2 else (x mod 2)) - ((x mod 3) div 2))
1: ((if ((x div 2) mod 3) <= 0 then 2 else 0) - (x div 3))
1: (~2 + (if ((x div (2 + ((x div 2) div 3))) mod 2) <= 0 then 1 else x))
1: (~1 + (if ((x mod (4 + (x mod 2))) mod 3) <= 0 then 2 else 0))
1: (~1 + (if ((x mod 6) mod (1 + (x div 3))) <= 0 then (x mod 2) else 2))
1: ((if (x mod 2) <= 0 then 1 else (x + 2)) - (x div 2))
1: (~2 + (if (x mod 2) <= 0 then 1 else (2 * (((~1 + (x div 2)) div 2) mod 2))))
1: (~2 + (if (x mod 2) <= 0 then 1 else x))
1: (~6 + (if (x mod 2) <= 0 then 1 else x))
1: ((if (x mod 2) <= 0 then 1 else x) - ((~x2 + x) div 2))
1: ((if (x mod 2) <= 0 then 1 else x) - (x mod 10))
1: ((if (x mod 2) <= 0 then 2 else 0) - (x div 12))
1: (~1 + (if (x mod 2) <= 0 then 2 else (3 * (2 - (x mod 4)))))
1: (~1 + (if (x mod 2) <= 0 then 2 else (2x2 + 2x)))
1: (~1 + (if (x mod 2) <= 0 then 2 else x))
1: (~8 + (if (x mod 2) <= 0 then 2 else x))
1: ((if (x mod 2) <= 0 then (x + 3) else x) - ((x div 2) mod 2))
1: (~x + (if (x mod 2) <= 0 then (2x + 5) else 0))
1: ((if (x mod 2) <= 0 then (1 + ((2 * (1 + ((1 + (((1 + (((x + 1) * (1 + (2 * (((x div 3) * (x div 2)) div 2)))) div 2)) div 2) div 2)) div 2))) div 3)) else 0) - (x mod 2))
1: ((if (x mod 2) <= 0 then (2 + ((x div 2) mod 2)) else 1) - ((1 + (x mod 3)) mod 2))
1: ((if (x mod 2) <= 0 then (x + 1) else 8) - (x div 2))
1: ((if (x mod 2) <= 0 then 12 else x) - (x div 2))
1: (~x + (if (x mod 2) <= 0 then (if (x mod 4) <= 0 then (x div 4) else 0) else 2x))
1: (~x + (if (x mod 2) <= 0 then (if (x mod 8) <= 0 then x else 2x) else (x div 2)))
1: (~x + (if (x mod 2) <= 0 then (if x <= 0 then 1 else 4) else x))
1: (~5 + (if (x mod 2) <= 0 then x else 0))
1: ((if (x mod 2) <= 0 then x else 0) - (x div 2))
1: ((if (x mod 2) <= 0 then x else 1) - (x div 2))
1: ((if (x mod 2) <= 0 then x else 2) - (x div 2))
1: ((if (x mod 3) <= 0 then 0 else 2) - (x div ~3))
1: ((if (x mod 3) <= 0 then 0 else x) - (x div 3))
1: ((if (x mod 3) <= 0 then 0 else x) - (x mod 3))
1: ((if (x mod 3) <= 0 then 1 else 0) - (((x mod 7) mod 3) mod 2))
1: ((if (x mod 3) <= 0 then 1 else ((x mod (~3 - (x div 4))) mod 2)) - (x mod 2))
1: (~x + (if (x mod 3) <= 0 then 2 else 1))
1: (~1 + (if (x mod 3) <= 0 then (4 * ((x div 5) mod 2)) else 0))
1: ((if (x mod 3) <= 0 then (2 * (if (x mod 2) <= 0 then (2 + (if x <= 0 then 0 else 2)) else 1)) else 1) - (x mod 2))
1: ((if (x mod 3) <= 0 then (3 * (if (x mod 2) <= 0 then (2 + (if x <= 0 then 0 else 2)) else 1)) else 2) - (x mod 2))
1: ((if (x mod 3) <= 0 then (5 * (if (x mod 2) <= 0 then (5 * (if x <= 0 then 1 else 2)) else 1)) else 2) - (x mod 2))
1: ((if (x mod 3) <= 0 then (3 * (if (x mod 2) <= 0 then (3 * (2 + (if x <= 0 then 0 else 2))) else 1)) else 2) - (x mod 2))
1: ((if (x mod 3) <= 0 then (3 * (if (x mod 2) <= 0 then (5 * (2 + (if x <= 0 then 0 else 2))) else 1)) else 2) - (x mod 2))
1: ((if (x mod 3) <= 0 then ((x + 1) mod 2) else 2) - (x mod 2))
1: (~2 + (if (x mod 3) <= 0 then x else 0))
1: (~x + (if (x mod 4) <= 0 then 1 else 0))
1: ((if (x mod 4) <= 0 then 2 else 0) - (x div 2))
1: (~x + (if (x mod 4) <= 0 then 2 else 0))
1: ((if (x mod 4) <= 0 then 2 else (x mod 2)) - (x mod (1 + (x div 4))))
1: (1 + (if (x mod 4) <= 0 then (~1 + (2 * (2 + (if x <= 0 then 0 else 2)))) else 2) - (2 * (x mod 2)))
1: ((if (x mod 4) <= 0 then (15 * (if x <= 0 then 1 else 2)) else 2) - (x mod 2))
1: ((if (x mod 4) <= 0 then (27 * (if x <= 0 then 1 else 2)) else 2) - (x mod 2))
1: ((if (x mod 4) <= 0 then ((1 - (x div 3)) mod 3) else 1) - (2 * (x mod 2)))
1: (~1 + (if (x mod 4) <= 0 then (loop(\(x,i).2x,x,2) mod 17) else 1))
1: (~1 + (if (x mod 4) <= 0 then x else 0))
1: ((if (x mod 4) <= 0 then x else 1) - (x mod 2))
1: (~1 + (if (x mod 4) <= 0 then x else (x div 2)))
1: ((if (x mod 5) <= 0 then 1 else ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) - (x mod 2))
1: (~1 + (if (x mod (3 + ((x div 2) div 3))) <= 0 then 1 else 0))
1: ((if (x mod (3 + ((x div 2) div 3))) <= 0 then 1 else 0) - (x mod 2))
1: (~1 + (if (x mod (4 + (x div 2))) <= 0 then 1 else x))
1: (~2 + (if (x mod (1 + (8 * (x mod 2)))) <= 0 then x else 1))
1: ((if (x mod (1 + (4 * (x mod 2)))) <= 0 then 1 else 0) - (x mod 2))
1: (~1 + (if (x mod (1 + (2 * (x mod 7)))) <= 0 then 0 else 1))
1: (~x + (if (x mod (1 + (2 * i))) <= 0 then x else 0))
1: ((if (x mod (2 + ((~x + 1) mod 3))) <= 0 then 1 else 0) - (x mod 2))
1: (~1 + (if (x mod (1 + i)) <= 0 then 0 else x))
1: (~2x + (if (x mod (1 + i)) <= 0 then 0 else x))
1: (~2 + (if (x mod (2 + i)) <= 0 then 0 else x))
1: (~1 + (if (x mod 6) <= 0 then x else 1))
1: ((if (x mod 8) <= 0 then x else 0) - (x div 7))
1: (~1 + (if (x mod 14) <= 0 then 2 else (x mod 2)))
1: ((if (i mod 2) <= 0 then 1 else (2 * i)) - i)
1: (~x + (if (i mod 2) <= 0 then 2 else 0))
1: (~1 + (if (i mod 2) <= 0 then 4 else 0))
1: ((if (i mod 2) <= 0 then ~2 else 2) - (x * i))
1: (~x + (if (i mod 3) <= 0 then 2 else 0))
1: (~1 + (if (if (x mod (1 + (x mod 6))) <= 0 then 1 else 0) <= 0 then 1 else x))
1: (~1 + (if loop(\(x,i).((if x <= 0 then 2 else loop(\(x,i).(x div (2 - (x mod 2))),x,x)) div 2),2,x) <= 0 then 0 else x))
1: (((if x <= 0 then 0 else 1) + loop(\(x,i).2x,x,(loop(\(x,i).3x,x,1) - loop(\(x,i).(2x + 1),x,0)))) - loop(\(x,i).5x,x,1))
1: ((if x <= 0 then 0 else 1) - (2 * ((2x mod (1 + ((1 + (x div 2)) div 2))) div 2)))
1: ((if x <= 0 then 0 else 1) - (2 * ((x2 mod (x - ((~x + 2) div 2))) div (x + 2))))
1: ((if x <= 0 then 0 else 1) - (2 * ((x - (((3 * (x div 2)) div 2) div 2)) mod 2)))
1: ((if x <= 0 then 0 else 1) - (2 * (((x - ((x2 div 2) mod (x + 2))) div 3) mod 2)))
1: ((if x <= 0 then 0 else 1) - (2 * (((x3 + x2) div (x + 4)) mod 2)))
1: ((if x <= 0 then 0 else 1) - (2 * ((((~2 + (x div 2)) * (x div 2)) mod (x + 1)) mod 2)))
1: ((if x <= 0 then 0 else 1) - (((x - (x2 div 8)) div 2) div 2))
1: ((if x <= 0 then 0 else 1) - (x div (~2 + ((~x + 2) div 4))))
1: ((if x <= 0 then 0 else 1) - (2 mod (1 + (x mod (1 + ((~x + 2) mod 4))))))
1: ((if x <= 0 then 0 else 1) - (if ((x3 + 1) mod 7) <= 0 then 2 else 0))
1: ((if x <= 0 then 0 else 1) - loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x))
1: ((if x <= 0 then 0 else 2) - ((x mod (~3 + (x mod 2))) mod 2))
1: (~2 + (if x <= 0 then 0 else (1 + ((5x + 6) mod 7))))
1: (~1 + (if x <= 0 then 0 else (1 + ((x mod (1 + (2 * (2 - ((x div 2) div 3))))) mod 2))))
1: (~x2 + (if x <= 0 then 0 else (1 + loop(\(x,i).((x2 + ~x) div 2),2,(x + 2)))))
1: ((if x <= 0 then 0 else (2 - ((x div (2 + (2x mod 9))) mod 2))) - (x mod 2))
1: (~1 + (if x <= 0 then 0 else (~1 + loop(\(x,i).(2 * ((x * i) + (i div 2))),x,0))))
1: (~1 + (if x <= 0 then 0 else (i * i)))
1: (~1 + (if x <= 0 then 0 else ((x + 1) mod (2 * (1 + (if (x + ~4) <= 0 then 0 else 2))))))
1: ((if x <= 0 then 0 else (if ((x2 div 2) mod (x + 3)) <= 0 then 2 else 1)) - (x mod 2))
1: ((if x <= 0 then 0 else (if (x mod (1 + (4 mod (1 + (x div 2))))) <= 0 then 1 else 2)) - (x mod 2))
1: ((if x <= 0 then 0 else (if (x mod (1 + (16 mod (x + 1)))) <= 0 then 1 else 2)) - (x mod 2))
1: (~1 + (if x <= 0 then 0 else i))
1: (~1 + (if x <= 0 then 1 else 0))
1: (~2x2 + (if x <= 0 then 1 else 0))
1: ((if x <= 0 then 1 else 0) - (x * i))
1: ((if x <= 0 then 1 else 0) - ((~x + 1) mod 3))
1: ((if x <= 0 then 1 else 0) - ((x mod (~2 - (x mod 4))) mod 2))
1: ((if x <= 0 then 1 else 0) - loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),(x div 2),(x mod 2)))
1: (~1 + (if x <= 0 then 1 else 2) - (if (2 - (x mod (1 + (x2 mod (x + 4))))) <= 0 then 2 else 0))
1: (~2x + (if x <= 0 then 1 else 2))
1: ((if x <= 0 then 1 else 2) - ((1 + (8 mod (1 + (x div 2)))) div 2))
1: ((if x <= 0 then 1 else 2) - ((~x2 + x) div 4))
1: ((if x <= 0 then 1 else 2) - (((x + (x div 2)) div 2) div ~2))
1: ((if x <= 0 then 1 else 4) - ((~x3 + x2 + ~x) div 2))
1: (~x + (if x <= 0 then 1 else (x + (2 * ((x mod (3 + (((1 + (x div 4)) mod 2) * (x div 2)))) div 2)))))
1: (~x2 + (if x <= 0 then 1 else (x + (2 * (if (x + ~1) <= 0 then 1 else ((x + 1) + loop(\(x,i).2x,x,1)))))))
1: ((if x <= 0 then 1 else (1 + (2 * (if (x mod 2) <= 0 then 2 else (2x2 + 2x))))) - (x mod 2))
1: ((if x <= 0 then 1 else (2 + ((x2 + 2) div 9))) - (x mod 2))
1: ((if x <= 0 then 1 else (x + ((x + ((x - ((x - ((x + (2 * ((1 + ((x * (x - ((1 + (((x * (x + (2 * (x mod 2)))) div 2) div 2)) div 2))) div 2)) div 2))) div 2)) div 2)) div 2)) div 2))) - (x mod 2))
1: ((if x <= 0 then 1 else (2 + ((1 + ((x div 2) div (1 + (x mod (2 * (1 + (x mod 2))))))) div 3))) - (x mod 2))
1: (~x + (if x <= 0 then 1 else (((2x3 + 6x2 + 4x) div 3) + (x mod 2))))
1: ((if x <= 0 then 1 else (2 + (2x div 3))) - (((x + 1) div 2) div 2))
1: ((if x <= 0 then 1 else (6x + (x div ~7))) - (x div 2))
1: ((if x <= 0 then 1 else (2 + (((x2 + ~x) div (4 + (x * (x mod 2)))) mod 2))) - (x mod 2))
1: ((if x <= 0 then 1 else (2 + ((2x mod (4 + (x div 8))) mod 2))) - (x mod 2))
1: ((if x <= 0 then 1 else (x + 2)) - ((1 - (x2 div 4)) div 3))
1: ((if x <= 0 then 1 else (x + 2)) - ((4 * ((~x + 1) div 3)) div 5))
1: (~x + (if x <= 0 then 1 else (2 + compr(\x.(loop(\(x,i).((x + ~2) * (x2 div 2)),2,x) mod (x + 1)),x))))
1: (~x + (if x <= 0 then 1 else (71x + ~23)))
1: ((if x <= 0 then 1 else (2 - (((x mod 2) - (x div 2)) div 2))) - (x div 5))
1: ((if x <= 0 then 1 else (x + (2 * loop(\(x,i).(x + (i * i)),x,x)))) - (x div 2))
1: ((~x + ~1) + (if x <= 0 then 1 else ((~x + 1) + (4 * (1 + ((3x2 + ~2x) div 2))))))
1: (~6 + (if x <= 0 then 1 else (~2 + (((2 - (x div 2)) div 2) div 2))))
1: (~x + (if x <= 0 then 1 else (~1 + loop(\(x,i).(x3 + x),x,1))))
1: ((if x <= 0 then 1 else (x - (2 * (x div (~3 + (2 * (~1 + (x mod 3)))))))) - (x mod 2))
1: (~x + (if x <= 0 then 1 else (x - ((0 - (x2 div 3)) div 7))))
1: (~1 + (if x <= 0 then 1 else (x - ((1 - ((x2 + 4x) div 2)) div 3))))
1: (~1 + (if x <= 0 then 1 else (x - ((~x + 2) div 2))))
1: (~x + (if x <= 0 then 1 else (x - ((~x2 + x) div 19))))
1: ((if x <= 0 then 1 else 6) - (x mod 3))
1: (1 + (if x <= 0 then 1 else 5x) - ((1 + (x div (2 - (x mod 2)))) mod 3))
1: (1 + (if x <= 0 then 1 else 5x) - ((1 + (x div (~2 + (x mod 2)))) mod 3))
1: ((if x <= 0 then 1 else 5x) - ((1 + ((x - ((x div 4) mod 2)) div 2)) div 2))
1: ((if x <= 0 then 1 else 5x) - ((x + ((x + (x div 2)) mod 4)) div 4))
1: ((if x <= 0 then 1 else 5x) - ((x + ((x + (x div 3)) mod 3)) div 3))
1: ((if x <= 0 then 1 else 5x) - ((x + ((1 - (x div 2)) mod 4)) div 4))
1: ((if x <= 0 then 1 else 5x) - ((x + ((x - ((1 - (x div 2)) div 3)) mod 3)) div 3))
1: ((if x <= 0 then 1 else 5x) - ((x + ((x div 2) mod 4)) div 4))
1: ((if x <= 0 then 1 else 5x) - ((x + ((x div 2) mod 5)) div 5))
1: ((if x <= 0 then 1 else 5x) - ((x + ((x div 3) mod 3)) div 3))
1: ((if x <= 0 then 1 else 5x) - ((x + 1) div 3))
1: ((if x <= 0 then 1 else 5x) - ((1 - (2 * ((x + ((x div 2) mod 2)) div 2))) div 3))
1: ((if x <= 0 then 1 else 5x) - ((~x + ((x div 2) mod 3)) div 3))
1: ((if x <= 0 then 1 else 5x) - ((~x + ((x div 2) mod 4)) div 4))
1: ((if x <= 0 then 1 else 5x) - ((~x + ((x div 3) mod 3)) div 3))
1: ((if x <= 0 then 1 else 5x) - ((x - ((x + (x div 3)) div 3)) div 2))
1: ((if x <= 0 then 1 else 5x) - ((x - (x mod (4 + (x div 3)))) div 3))
1: ((if x <= 0 then 1 else 5x) - ((2 * (x + (((x div 2) div 3) mod 2))) div 3))
1: ((if x <= 0 then 1 else 5x) - ((2x + 2) div 5))
1: ((if x <= 0 then 1 else 5x) - ((~2x + 2) div 5))
1: ((if x <= 0 then 1 else 5x) - ((~2x + 2) div 9))
1: ((if x <= 0 then 1 else 5x) - ((2 * (~x + (((x div 2) div 3) mod 2))) div 3))
1: ((if x <= 0 then 1 else 5x) - ((2 * (~x + ((x div 3) mod 2))) div 3))
1: ((if x <= 0 then 1 else 5x) - (((3 * (x - (x div 5))) div 2) div 2))
1: ((if x <= 0 then 1 else 5x) - (x div (4 + (x div 4))))
1: ((if x <= 0 then 1 else 5x) - (x div (3 + (if (x + ~4) <= 0 then 0 else 2))))
1: ((if x <= 0 then 1 else (6x2 + 2)) - (x2 div 2))
1: (~x + (if x <= 0 then 1 else (2 * (x + ((x + (((loop(\(x,i).8x,x,1) + loop(\(x,i).2x,x,1)) - loop(\(x,i).(3x + 2),x,0)) div 2)) div 2)))))
1: ((if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + (((3 * (x div 4)) div 2) * (x div 2))) div 2)) div 2)))) - (x mod 2))
1: ((if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + ((1 + ((1 + (((1 + ((x * (1 + ((x * (x div 2)) div 3))) div 2)) div 2) div 2)) div 2)) div 2)) div 2)) div 2)))) - (x mod 2))
1: ((if x <= 0 then 1 else (2 * (1 + ((1 + ((x mod (2 + ((1 + (2 * (((if x <= 0 then 1 else (2 * (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))))) - (x mod 2)) div 2))) mod (x + 1)))) div 2)) div 2)))) - (x mod 2))
1: ((if x <= 0 then 1 else (2 * (1 + ((1 + (loop(\(x,i).2x,(x + ~7),1) div 2)) div 2)))) - (x mod 2))
1: ((if x <= 0 then 1 else (2 * (1 + ((1 + ((~7 + (x div 2)) mod (1 + (x div 2)))) div 2)))) - (x mod 2))
1: ((if x <= 0 then 1 else (2 * (1 + ((1 + ((~x + 2) mod (1 + ((((x + 1) + (x2 div 4)) div 2) div 2)))) div 2)))) - (x mod 2))
1: ((if x <= 0 then 1 else (2 * (2x + ((x + ((x div 2) mod 2)) div 2)))) - ((x + 1) div 3))
1: ((if x <= 0 then 1 else (2 * (1 + (((1 + (x mod (2 + (x div (1 + ((x div 2) mod (1 + (x mod (1 + (2x mod 3)))))))))) mod (x + 1)) div 2)))) - (x mod 2))
1: ((if x <= 0 then 1 else (2 * (1 + ((loop(\(x,i).2x,x,2) mod loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2)))) - (x mod 2))
1: ((if x <= 0 then 1 else (2 * (1 + ((loop(\(x,i).2x,x,loop(\(x,i).2x,((((1 + (8 mod (1 + (x div 2)))) div 2) + (if x <= 0 then 0 else 1)) - (x mod 2)),1)) mod (x + 1)) div 2)))) - (x mod 2))
1: (~x + (if x <= 0 then 1 else (3 * (2 + (loop(\(x,i).(2 * (x - (x div ~7))),x,1) div 2)))))
1: ((if x <= 0 then 1 else ((1 + (x div 4)) * (x div 3))) - (x mod 2))
1: ((if x <= 0 then 1 else (2 * (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))))) - (x mod 2))
1: ((if x <= 0 then 1 else (2 * (1 + ((x div (3 * (2 + ((x + ~1) mod 4)))) mod 2)))) - (x mod 2))
1: (~1 + (if x <= 0 then 1 else (2 * (2x + ((x mod 3) mod 2)))))
1: (~1 + (if x <= 0 then 1 else (2 * (x + (x mod ((x + ~1) - (x mod 12)))))))
1: ((if x <= 0 then 1 else (2x + 4)) - (x mod 2))
1: ((if x <= 0 then 1 else (2 * (1 + compr(\x.(~1 + (loop(\(x,i).(2x + 1),(x div (1 + (x mod 2))),1) mod (x + 1))),(x + 1))))) - (x mod 2))
1: (~1 + (if x <= 0 then 1 else (x * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))))
1: (~1 + (if x <= 0 then 1 else (2 * (x - ((x div 3) + (x div ~2))))))
1: (~2 + (if x <= 0 then 1 else (72x + ~9)))
1: (~1 + (if x <= 0 then 1 else 9x))
1: (~1 + (if x <= 0 then 1 else (10x + 10)))
1: (~x + (if x <= 0 then 1 else (2x5 + 2x3)))
1: (~2 + (if x <= 0 then 1 else (8 * ((~x + 2) div 2))))
1: (~1 + ((if x <= 0 then 1 else 4x) + ((2 * ((x + 2) + ((2 * ((x + (if (~2 + (x div 2)) <= 0 then 1 else 0)) div 2)) div 3))) div 3)))
1: (((if x <= 0 then 1 else 4x) + (x div 7)) - ((~x + 2) div 5))
1: (((if x <= 0 then 1 else 4x) + (x div 7)) - (x div ~7))
1: ((if x <= 0 then 1 else 4x) - ((x + (if (x mod 3) <= 0 then x else 1)) div 3))
1: ((if x <= 0 then 1 else 4x) - ((1 - (2 * (x - ((~x + 1) div 3)))) div 3))
1: ((if x <= 0 then 1 else 4x) - ((1 - (2 * (x - ((~x + 2) div 5)))) div 3))
1: ((if x <= 0 then 1 else 4x) - ((1 - (2 * ((2x + 1) div 3))) div 3))
1: ((if x <= 0 then 1 else 4x) - ((1 - (2 * ((x + (x mod 2)) div 3))) div 3))
1: ((if x <= 0 then 1 else 4x) - ((1 - (2 * ((x + (if (~2 + (x div 4)) <= 0 then 1 else 2)) div 2))) div 3))
1: ((if x <= 0 then 1 else 4x) - ((1 - (if (~2 + (x div 2)) <= 0 then x else (x + 2))) div 3))
1: ((if x <= 0 then 1 else 4x) - ((1 - (if (x mod 3) <= 0 then 0 else x)) div 3))
1: ((if x <= 0 then 1 else 4x) - ((~x + 1) div (1 + (2 * (2 + (((x div 2) div 3) mod 2))))))
1: ((if x <= 0 then 1 else 4x) - ((~x + 2) div 5))
1: ((if x <= 0 then 1 else 4x) - ((x2 + ~2) div (x + 4)))
1: ((if x <= 0 then 1 else 4x) - ((~x + ((1 + (x div 2)) mod 3)) div 3))
1: ((if x <= 0 then 1 else 4x) - ((~x + ((x + 1) mod 3)) div 5))
1: ((if x <= 0 then 1 else 4x) - ((~x + ((0 - ((x div 2) div 3)) mod 3)) div 2))
1: ((if x <= 0 then 1 else 4x) - ((~x + ((x div 2) mod 3)) div 3))
1: ((if x <= 0 then 1 else 4x) - ((~x3 + x) div 3))
1: ((if x <= 0 then 1 else 4x) - ((~2x + 2) div 5))
1: ((if x <= 0 then 1 else 4x) - ((2 * (~x + ((x div 3) mod 2))) div 3))
1: ((if x <= 0 then 1 else 4x) - ((2 * (~x + (if (~2 + (x div 2)) <= 0 then 2 else 1))) div 3))
1: ((if x <= 0 then 1 else 4x) - ((2x + ~4) div (2 - ((~x + 1) div 3))))
1: ((if x <= 0 then 1 else 4x) - (x2 div ~2))
1: ((if x <= 0 then 1 else 4x) - (((x + 1) div (2 - ((x div 2) mod 2))) div 2))
1: ((if x <= 0 then 1 else 4x) - (((x - ((x div 4) mod 2)) div 2) div ~2))
1: ((if x <= 0 then 1 else 4x) - ((x + 1) mod (2 + (x mod 2))))
1: ((if x <= 0 then 1 else 6x) - ((1 + (2 * ((x + ((x div 2) mod 2)) div 2))) div 3))
1: ((if x <= 0 then 1 else 6x) - ((1 + (2 * (((x + 1) - ((x div 2) mod 2)) div 2))) div 3))
1: ((if x <= 0 then 1 else 6x) - ((x + ((1 - (x div 2)) mod 4)) div 4))
1: ((if x <= 0 then 1 else 6x) - ((x + ((~x + 1) mod 3)) div 4))
1: ((if x <= 0 then 1 else 6x) - ((x + ((x - ((1 - (x div 2)) div 3)) mod 3)) div 3))
1: ((if x <= 0 then 1 else 6x) - ((x + ((x div 2) mod 4)) div 4))
1: ((if x <= 0 then 1 else 6x) - ((x + ((x div 2) mod 5)) div 5))
1: ((if x <= 0 then 1 else 6x) - ((1 + (if (~2 + (x div 2)) <= 0 then x else (x + 2))) div 3))
1: ((if x <= 0 then 1 else 6x) - ((1 + (if (x mod 3) <= 0 then 0 else x)) div 3))
1: ((if x <= 0 then 1 else 6x) - ((x + 1) div 3))
1: ((if x <= 0 then 1 else 6x) - ((x - (x div 9)) div 2))
1: ((if x <= 0 then 1 else 6x) - ((x - (x div ~7)) div 2))
1: ((if x <= 0 then 1 else 6x) - ((x - (x mod (4 + (x div 3)))) div 3))
1: ((if x <= 0 then 1 else 6x) - ((3 * ((x + 1) + (x mod 2))) div 5))
1: ((if x <= 0 then 1 else 6x) - ((2 * (x + ((x + ((1 - (x div 2)) mod 4)) div 2))) div 3))
1: ((if x <= 0 then 1 else 6x) - ((2 * (x + ((x + ((x div 2) mod 4)) div 2))) div 3))
1: ((if x <= 0 then 1 else 6x) - ((2 * (1 + ((x - (((x div 2) div 3) mod 2)) div 2))) div 3))
1: ((if x <= 0 then 1 else 6x) - ((2x + 2) div 5))
1: ((if x <= 0 then 1 else 6x) - ((~2x + 4) div 7))
1: ((if x <= 0 then 1 else 6x) - ((2 * (x - ((((x + 1) div 2) div 2) div 2))) div 3))
1: ((if x <= 0 then 1 else 6x) - ((2 * ((x + (if (~2 + (x div 2)) <= 0 then 1 else 0)) div 2)) div 3))
1: ((if x <= 0 then 1 else 6x) - ((2 * (2x div (4 + (x div 8)))) div 3))
1: ((if x <= 0 then 1 else 6x) - (2x div (2 + (4x div (x + 2)))))
1: ((if x <= 0 then 1 else 6x) - ((((x + 1) - (x div 4)) div 2) div 2))
1: ((if x <= 0 then 1 else 6x) - (((3 * (x - (x div 5))) div 2) div 2))
1: ((if x <= 0 then 1 else 6x) - (x div (4 + ((x div 2) div 5))))
1: ((if x <= 0 then 1 else 6x) - (x div (3 + (if (x + ~4) <= 0 then 0 else 2))))
1: (~2 + (if x <= 0 then 1 else (2 * ((32x + 4) div 3))))
1: (~x + (if x <= 0 then 1 else (2 * (if x <= 0 then 1 else ((x2 + 2) + loop(\(x,i).(2 * (x + (x div 2))),x,1))))))
1: (~x + (if x <= 0 then 1 else ((if x <= 0 then 1 else ~2) * (1 + (2 * i)))))
1: (~1 + (if x <= 0 then 1 else (x * loop(\(x,i).(x2 + ~2),3,3))))
1: (~2x + (if x <= 0 then 1 else (2 * loop(\(x,i).((x + 1) - ((~x + (i mod 2)) div 4)),x,1))))
1: (1 + (if x <= 0 then 1 else 2x) - ((1 + ((32 mod (x + 1)) div 2)) div 2))
1: ((if x <= 0 then 1 else 2x) - (((x div 2) - (x2 mod 3)) div 2))
1: ((if x <= 0 then 1 else 2x) - ((x - (x3 div 3)) div 3))
1: ((if x <= 0 then 1 else 2x) - ((x - (((2x2 + 3x + ~2) div 2) div 3)) div 2))
1: ((if x <= 0 then 1 else 2x) - ((x - ((x mod 3) div 2)) div 2))
1: ((if x <= 0 then 1 else 2x) - ((x - (x mod (4 + (x div 3)))) div 3))
1: ((if x <= 0 then 1 else 2x) - ((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3))
1: ((if x <= 0 then 1 else 2x) - ((x2 + 2x) div ~2))
1: ((if x <= 0 then 1 else 2x) - (((x2 + ~2x) div (x + 2)) div 3))
1: ((if x <= 0 then 1 else 2x) - (x div 4))
1: ((if x <= 0 then 1 else 2x) - ((1 + (x div 3)) mod (1 + (x div 5))))
1: ((if x <= 0 then 1 else 2x) - ((x + ~1) mod (1 + ((x + 1) div 5))))
1: ((if x <= 0 then 1 else 2x) - (((x + (2 * (x div 3))) div 3) mod 2))
1: (~x + (if x <= 0 then 1 else (i * i)))
1: (~x + (if x <= 0 then 1 else ((x + loop(\(x,i).(6x2 + 8x + 4),2,x)) div 2)))
1: ((if x <= 0 then 1 else ((x2 + 3x) div 2)) - (x div 3))
1: ((if x <= 0 then 1 else (x div (2 + (x mod 4)))) - (x div 4))
1: ((if x <= 0 then 1 else (~x mod 4)) - (x mod 4))
1: (~1 + (if x <= 0 then 1 else (if (x - (x2 mod (x + 5))) <= 0 then 2 else 0)))
1: (~1 + (if x <= 0 then 1 else (if ((x + 1) mod (1 + (2 * ((~x + 1) mod 3)))) <= 0 then 2 else 0)))
1: (~1 + (if x <= 0 then 1 else (if ((x + 1) mod (1 + (2 * ((~x + 1) mod 5)))) <= 0 then 2 else 0)))
1: (~1 + (if x <= 0 then 1 else (if ((x + ~1) mod (1 + (x mod 7))) <= 0 then 2 else 0)))
1: (~1 + (if x <= 0 then 1 else (if (x mod (1 + ((x + 1) div 5))) <= 0 then 2 else 0)))
1: (~1 + (if x <= 0 then 1 else (if (x mod (1 + ((x + ~1) mod 9))) <= 0 then 2 else 0)))
1: (~1 + (if x <= 0 then 1 else (if (x mod (2 + ((x2 div 2) mod (x + 2)))) <= 0 then 2 else 0)))
1: ((if x <= 0 then 1 else (if (x mod (3 * (2 + (x mod 2)))) <= 0 then 2 else 1)) - (x mod 2))
1: (~2 + (if x <= 0 then 1 else x))
1: (~9 + (if x <= 0 then 1 else x))
1: ((2x + 2) + (if x <= 0 then 1 else x) - ((x + (x div 2)) div 4))
1: (2 + (if x <= 0 then 1 else x) - ((x div 2) div ~2))
1: (1 + (if x <= 0 then 1 else x) - (x div 4))
1: (~10x + (if x <= 0 then 1 else x))
1: (28x + (if x <= 0 then 1 else x))
1: ((if x <= 0 then 1 else x) - (4 * (x div 5)))
1: ((if x <= 0 then 1 else x) - (6 * (x div 7)))
1: ((if x <= 0 then 1 else x) - (5 * ((x div 2) div 3)))
1: ((if x <= 0 then 1 else x) - (2 * (x div 4)))
1: ((if x <= 0 then 1 else x) - (3 * (x div 4)))
1: ((if x <= 0 then 1 else x) - ((x2 + 1) div (x + 4)))
1: ((if x <= 0 then 1 else x) - ((1 + ((x - ((x div 3) mod 2)) div 2)) div 2))
1: ((if x <= 0 then 1 else x) - ((1 + (x2 div 8)) div 2))
1: ((if x <= 0 then 1 else x) - ((x + (x div 2)) div 4))
1: ((if x <= 0 then 1 else x) - ((x + 1) div 7))
1: ((if x <= 0 then 1 else x) - ((~1 + ((x * (~1 + (x mod 3))) div 2)) div 3))
1: ((if x <= 0 then 1 else x) - ((~2 + (x div 2)) div 3))
1: ((if x <= 0 then 1 else x) - ((x - ((x div ~2) mod 2)) div 3))
1: ((if x <= 0 then 1 else x) - ((2 * (~x + (x div 3))) div 3))
1: ((if x <= 0 then 1 else x) - ((x * ((x * (x div 2)) mod 2)) div 4))
1: ((if x <= 0 then 1 else x) - (x2 div (x + 6)))
1: ((if x <= 0 then 1 else x) - (x2 div (x + (4 * (2 + (x mod 2))))))
1: ((if x <= 0 then 1 else x) - ((((x + 1) - ((x div 2) mod 5)) div 2) div 2))
1: ((if x <= 0 then 1 else x) - (((x - (((x2 + ~x) div 2) div 3)) div 2) div 2))
1: ((if x <= 0 then 1 else x) - (((x3 + ~x) div 2) div 3))
1: ((if x <= 0 then 1 else x) - (x div 3))
1: ((if x <= 0 then 1 else x) - (x div 4))
1: ((if x <= 0 then 1 else x) - ((x * i) mod 3))
1: ((if x <= 0 then 1 else x) - ((((x2 div 5) mod (x + 1)) div 2) mod 2))
1: ((if x <= 0 then 1 else x) - ((x mod 6) mod (1 + (x div 3))))
1: (~1 + (if x <= 0 then 1 else compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x)))
1: (~2 + (if x <= 0 then 2 else 0))
1: (~3 + (if x <= 0 then 2 else 0))
1: ((if x <= 0 then 2 else 0) - (x div (~2 + (x div ~4))))
1: ((if x <= 0 then 2 else 0) - loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x + ~2),1))
1: (~2 + (if x <= 0 then 2 else (1 + (x * loop(\(x,i).(x2 + 4x + 6),2,3)))))
1: (~1 + (if x <= 0 then 2 else (6x + ((~x2 + 1) div (x + 4)))))
1: (~2 + (if x <= 0 then 2 else (1 + ((2 * (1 + ((2 * (2 + loop(\(x,i).(x * i),x,1))) div 3))) div 3))))
1: (~1 + (if x <= 0 then 2 else (4x + ((x2 + x) div 2))))
1: (~1 + (if x <= 0 then 2 else (x + (loop(\(x,i).(x2 + ~2x),3,x) div (x + 1)))))
1: (~1 + (if x <= 0 then 2 else (x + (x mod 2))))
1: (~2 + (if x <= 0 then 2 else (x + (x mod (2 * (1 + (x mod 2)))))))
1: (~x + (if x <= 0 then 2 else (~1 + ((x + 2) * (x + (if (x + ~4) <= 0 then 1 else x))))))
1: (~x + (if x <= 0 then 2 else (loop(\(x,i).(x div (1 + (x mod 2))),x,x) - i)))
1: (~1 + (if x <= 0 then 2 else (4x2 + 5x)))
1: (~1 + (if x <= 0 then 2 else (4 * (x + ((x div 2) div 5)))))
1: (~1 + (if x <= 0 then 2 else 6x))
1: (~1 + (if x <= 0 then 2 else ((x2 + 5x) div 2)))
1: (~1 + (if x <= 0 then 2 else ((3 * ((x2 + 3x) div 2)) div 2)))
1: (~2 + (if x <= 0 then 2 else ((3 * ((x2 + 3x) div 2)) div 2)))
1: (~1 + (if x <= 0 then 2 else (((1 + (x mod (1 + (x mod (2 * (2 + ((x div 2) mod 2))))))) mod (x + 1)) div 2)))
1: ((if x <= 0 then 2 else (x div 2)) - (x div 5))
1: (~1 + (if x <= 0 then 2 else (x div (1 + (x div (2 + ((x div 2) mod (2 + (x mod 2)))))))))
1: ((if x <= 0 then 2 else (x div (1 + (x mod 2)))) - (x div 3))
1: (~2 + (if x <= 0 then 2 else ((1 + (x3 div (x + 3))) mod 3)))
1: (~1 + (if x <= 0 then 2 else (((x2 + 2x) div 2) mod (1 + (x div (2 + (x div 3)))))))
1: (~1 + (if x <= 0 then 2 else (x mod 2)))
1: (~1 + (if x <= 0 then 2 else (if (10 mod (x + 2)) <= 0 then 0 else 1)))
1: (~x + (if x <= 0 then 2 else loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then i else 0)),(x div 2),(x + 1))))
1: (~2 + (if x <= 0 then 2 else x))
1: (~2 + (if x <= 0 then 3 else (2 * (1 + ((1 + ((1 + ((loop(\(x,i).(3x + ~1),(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1) div 2) div 2)) div 2)) div 2)))))
1: (~x + (if x <= 0 then 5 else 0))
1: (~x + (if x <= 0 then 5 else 8))
1: (~x + (if x <= 0 then 7 else 0))
1: (~1 + (if x <= 0 then ~4 else 0))
1: (~1 + (if x <= 0 then ((1 + ((1 + i) * i)) * i) else x))
1: (~1 + (if x <= 0 then (i div (2 - (i mod 2))) else x))
1: (~1 + (if x <= 0 then x else (1 + (((x + 1) div 2) div (1 + (x mod 2))))))
1: (~x + (if x <= 0 then i else 2))
1: (~1 + loop(\(x,i).(2 + ((2 * (x + i)) + i)),x,2))
1: (loop(\(x,i).((4x + 1) + (x mod 2)),x,1) - loop(\(x,i).(3x + 1),x,1))
1: (~1 + loop(\(x,i).(1 + (((2 + ((x2 div 2) div 5)) div 3) + (if x <= 0 then 0 else 1))),2,x))
1: (~1 + loop(\(x,i).((x + 1) + ((x + (x div 2)) div 4)),x,0))
1: (~x + loop(\(x,i).((x + 2) + ((x + (x div 3)) div (1 + i))),x,1))
1: (~3 + loop(\(x,i).((x + 2) + ((~x + ((x * (x div 2)) mod 2)) div 3)),2,x))
1: (~1 + loop(\(x,i).((x + 2) + ((x - ((x + (x div 2)) div 4)) div 2)),x,2))
1: (~x + loop(\(x,i).((x + 2) + ((x - ((~x + 1) div 3)) div (1 + i))),x,0))
1: (~1 + loop(\(x,i).(3x + ((x2 + 2x) div 3)),x,1))
1: (~1 + loop(\(x,i).((x + 1) + (((1 + i) * i) div 2)),x,1))
1: (loop(\(x,i).((x + 1) + (((2 + i) * i) div 2)),x,2) - (x mod 2))
1: ((~x + ~2) + loop(\(x,i).((x + 1) + ((4x div (1 + i)) + i + i)),x,1))
1: (~x + loop(\(x,i).((x + 2) + ((2 * (x mod (2 + (x div 2)))) div 3)),x,1))
1: (~x + loop(\(x,i).((x + 2) + (2x div 7)),x,1))
1: (~x + loop(\(x,i).((x + 2) + ((i * i) div (x + 1))),x,1))
1: (~x + loop(\(x,i).((x + 3) + (((2x * (1 + (2 * i))) div (2 + i)) div (1 + i))),x,1))
1: (~x + loop(\(x,i).((x + 2) + (x div 3)),x,1))
1: (~1 + loop(\(x,i).(x + ((x div 5) + (i div 2))),x,2))
1: (~1 + loop(\(x,i).((x + 1) + (x div (3 + ((x div 2) div 3)))),x,1))
1: (~2 + loop(\(x,i).((x + 2) + (x div (4 + i))),(x + 1),1))
1: (loop(\(x,i).((x + 2) + (x div (4 + i))),x,1) - (if x <= 0 then 0 else 1))
1: (~1 + loop(\(x,i).((x + 2) + (x div (4 + i))),x,2))
1: (loop(\(x,i).((x + 2) + (x div (1 + i))),x,0) - (x div 2))
1: (~1 + loop(\(x,i).((x + 1) + ((1 + ((1 + ((1 + (((((x + 1) * ((x + 1) + (2 * (((((x + 1) * (4 + (x div 2))) div 2) div 2) div 2)))) div 2) div 2) div 2)) div 2)) div 2)) mod 2)),x,1))
1: ((~x + ~1) + loop(\(x,i).((x + 1) + ((x3 div (x - ((~x + 2) div 2))) mod 2)),x,1))
1: (~x + loop(\(x,i).((x + 1) + ((x div (3 + ((x div 2) div 3))) mod 2)),x,1))
1: (~x + loop(\(x,i).((x + 2) + ((x mod (1 + ((x div 4) + (x div 3)))) mod 2)),x,1))
1: (~1 + loop(\(x,i).(x + ((if (x + ~4) <= 0 then 1 else 2) + (x div 4))),x,1))
1: (loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),x,1) - loop(\(x,i).2x,x,1))
1: (~1 + loop(\(x,i).(9x + loop(\(x,i).10x,i,1)),(x + 1),1))
1: (~1 + loop(\(x,i).((x + 1) + i),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1))
1: (~1 + loop(\(x,i).((x + 2) + i),(1 + (x div 2)),x))
1: (~x + loop(\(x,i).((x2 + x) + i),x,0))
1: (~x + loop(\(x,i).(2x + i),(x + ~1),0))
1: ((~x + 1) + loop(\(x,i).(2x + i),(x + ~1),x))
1: (~x2 + loop(\(x,i).(2x + i),(x + ~1),x))
1: (~1 + loop(\(x,i).(2x + i),(x + ~2),(if x <= 0 then 1 else 2)))
1: (~1 + loop(\(x,i).(2x + i),2x,2))
1: (~x2 + loop(\(x,i).(2x + i),x,0))
1: (~x2 + loop(\(x,i).(2x + i),x,2))
1: (~2 + loop(\(x,i).((x + ~1) + i - ((1 + (x div 4)) div 2)),x,2))
1: (loop(\(x,i).((2x + 1) - (i mod 2)),x,2) - (2 * (x mod 2)))
1: ((~x + ~1) + loop(\(x,i).(x + (i div 3) - (x div ~5)),x,1))
1: (~x + loop(\(x,i).((x + 1) - ((x div (1 + (x div 5))) mod 2)),2,x))
1: ((~x + ~1) + loop(\(x,i).(3x - (x mod (1 + (2 * i)))),x,4))
1: (~x + loop(\(x,i).(x + i - ((~1 + (x div 4)) div 2)),x,0))
1: (~1 + loop(\(x,i).(x + i - (x div (3 + i))),x,2))
1: (loop(\(x,i).(3x + 1),2x,1) - loop(\(x,i).(5x + 2),x,0))
1: (loop(\(x,i).(3x + 1),x,0) - loop(\(x,i).(5x + ~1),x,0))
1: (loop(\(x,i).(3x + 1),x,0) - loop(\(x,i).3x,(x div 2),1))
1: (loop(\(x,i).(3x + 1),x,1) - ((x div 2) mod 3))
1: (loop(\(x,i).(3x + 1),x,1) - (x mod 2))
1: (loop(\(x,i).(3x + 1),x,1) - loop(\(x,i).(2x + (i mod 2)),x,0))
1: (loop(\(x,i).(3x + 1),x,1) - loop(\(x,i).2x,x,1))
1: (loop(\(x,i).(3x + 1),x,3) - (if (x mod 2) <= 0 then x else 1))
1: (~4x + loop(\(x,i).(3x + 1),i,1))
1: (~1 + loop(\(x,i).(3x + 2),6,x))
1: (loop(\(x,i).(3x + 2),x,2) - loop(\(x,i).(2x + i),x,0))
1: (~3 + loop(\(x,i).(5x + 4),6,x))
1: (~1 + loop(\(x,i).(5x + 2),x,0))
1: (loop(\(x,i).(5x + 2),x,2) - loop(\(x,i).(4x + 1),x,1))
1: (loop(\(x,i).(5x + 2),x,2) - loop(\(x,i).4x,x,2))
1: (~x + loop(\(x,i).((2x + 12) + (if x <= 0 then ~4 else 1)),4,x))
1: (~1 + loop(\(x,i).(x + ((4 + (i mod 2)) * i)),x,0))
1: (~1 + loop(\(x,i).((2x + 8) + i),x,2))
1: (~1 + loop(\(x,i).(4 + (x * (4 + i))),3,x))
1: (loop(\(x,i).(7x + 1),x,0) - loop(\(x,i).(3x + 1),x,0))
1: (~x + loop(\(x,i).(x + ((3x + 1) * (1 + i))),x,1))
1: (~1 + loop(\(x,i).(27x + 19),2,x))
1: (~1 + loop(\(x,i).(13x + 1),2,x2))
1: (loop(\(x,i).(10x + 3),2x,1) - loop(\(x,i).10x,x,1))
1: (~1 + loop(\(x,i).(10x + 3),x,0))
1: (~x2 + loop(\(x,i).(x + ((1 + (5 * i)) * (1 + i))),x,2))
1: (~1 + loop(\(x,i).(17x + 1),2,x2))
1: (~1 + loop(\(x,i).(37x + 1),2,x2))
1: (~1 + loop(\(x,i).(33x + 1),2,x2))
1: (~x + loop(\(x,i).(7x + 3),x,0))
1: (loop(\(x,i).(7x + 3),x,1) - loop(\(x,i).(3x + 1),x,0))
1: (loop(\(x,i).(x + ((2x + 1) * i)),x,0) - ((x div 2) mod 2))
1: (~x + loop(\(x,i).((2 * (x + (2 * i))) + i),x,(2x + 1)))
1: (~1 + loop(\(x,i).(1 + (2 * (x + (x div 2)))),x,2))
1: (~x + loop(\(x,i).(1 + (x * (2 + (x div 4)))),x,1))
1: (~1 + loop(\(x,i).(x + ((x + (i div 2)) * (2 + i))),x,1))
1: (loop(\(x,i).(x + (2 * (x + (i mod 2)))),x,0) - loop(\(x,i).(2x + 1),x,0))
1: (loop(\(x,i).(x + (3 * (x + (i mod 2)))),x,1) - (2 * (x mod 2)))
1: (loop(\(x,i).(x + ((x + (i mod 2)) * i)),x,0) - (x mod 2))
1: (~1 + loop(\(x,i).(1 + (x * (1 + (if (x mod 10) <= 0 then x else 0)))),x,2))
1: (loop(\(x,i).(1 + ((x + 1) * i)),(2 * (if (~2 + (x div 3)) <= 0 then 0 else 2)),1) - (x div 2))
1: (~x + loop(\(x,i).(x2 + 2x + 1),2,2))
1: (~1 + loop(\(x,i).(x2 + 2x + 2),(x div 2),(x mod 2)))
1: (~1 + loop(\(x,i).((x * (1 + i)) + (i mod 2)),x,1))
1: (loop(\(x,i).(x + ((2 + i) * (1 + i))),x,2) - (x div 2))
1: (loop(\(x,i).((x + 2) + ((2 + i) * i)),x,2) - (x div 2))
1: (~x + loop(\(x,i).((2 * (x + i)) + (i mod 2)),x,0))
1: (~1 + loop(\(x,i).(2 + (x * (x + i))),2,8))
1: (~1 + loop(\(x,i).(2x3 + ~x + 2),x,2))
1: (~1 + loop(\(x,i).(2x2 + ~x + 2),x,2))
1: (~1 + loop(\(x,i).(1 + (2 * (2x - (x div (if i <= 0 then 1 else i))))),x,2))
1: (~1 + loop(\(x,i).(x + ((~1 + i) * i)),(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1))
1: (~1 + loop(\(x,i).(15x + 1),2,x2))
1: (~1 + loop(\(x,i).(2x + (3 * (i * (1 + i)))),x,2))
1: (~2 + loop(\(x,i).(10x + 1),2,(x2 + x)))
1: (loop(\(x,i).(10x + 1),(2x + 1),1) - loop(\(x,i).10x,x,4))
1: (~1 + loop(\(x,i).(10x + 1),(x + 1),loop(\(x,i).(10x + 10),x,0)))
1: (loop(\(x,i).(10x + 1),2x,1) - (2 div (x + 1)))
1: (loop(\(x,i).(10x + 1),2x,1) - (if (x + ~1) <= 0 then 10x else 0))
1: (loop(\(x,i).(10x + 1),2x,1) - loop(\(x,i).10x,2,(if x <= 0 then 0 else 1)))
1: (loop(\(x,i).(10x + 1),2x,1) - loop(\(x,i).10x,(x + 1),1))
1: (loop(\(x,i).(10x + 1),2x,1) - loop(\(x,i).(if x <= 0 then 1 else 10x),x,0))
1: (~10 + loop(\(x,i).(10x + 1),(if (x mod 2) <= 0 then 1 else x),1))
1: (loop(\(x,i).(10x + 1),(if (x mod 2) <= 0 then x else 1),1) - (x mod 2))
1: (loop(\(x,i).(10x + 1),loop(\(x,i).~x,(x + 1),2x),1) - (x mod 2))
1: (loop(\(x,i).(10x + 1),x,1) - (10 * (x mod 2)))
1: (loop(\(x,i).(10x + 1),x,1) - (x mod 2))
1: (~1 + loop(\(x,i).(35x + 1),2,x2))
1: (~2x + loop(\(x,i).(2x + (5 * (i * i))),x,0))
1: (~2 + loop(\(x,i).(10x + 81),(2x + 2),2))
1: (~1 + loop(\(x,i).(26x + 1),2,x2))
1: (~1 + loop(\(x,i).(34x + 1),2,x2))
1: (~1 + loop(\(x,i).(x4 + x3 + x2 + x + 2),(x + 1),2))
1: (~x2 + loop(\(x,i).(x + (5 * ((1 + (2 * i)) * i))),x,1))
1: (loop(\(x,i).(7x + 6),(x + 2),2) - loop(\(x,i).(3x + 2),(x + 2),1))
1: (~1 + loop(\(x,i).(10x + 12),(x + 1),0))
1: (loop(\(x,i).(10x + 12),2x,2) - loop(\(x,i).10x,x,1))
1: (~1 + loop(\(x,i).(5x + 8),2,(x2 + x)))
1: (~1 + loop(\(x,i).(5x + 8),(x + 1),0))
1: (~2 + loop(\(x,i).(1 + ((x2 + 5x + 6) * i)),2,x))
1: (~1 + loop(\(x,i).(27x + 1),2,x2))
1: (~1 + loop(\(x,i).(17x + 16),2,x))
1: (~8x + loop(\(x,i).(64x + 1),i,1))
1: (~1 + loop(\(x,i).(32x + 1),2,x2))
1: (~4x + loop(\(x,i).(16x + 1),i,1))
1: (~1 + loop(\(x,i).(36x + 1),2,x2))
1: (~2 + loop(\(x,i).(12x + 1),2,(x2 + x)))
1: (~1 + loop(\(x,i).(20x + 1),2,x2))
1: (~1 + loop(\(x,i).(18x + 1),2,x2))
1: (~1 + loop(\(x,i).(30x + 1),2,x2))
1: (11x + loop(\(x,i).(4x + 1),i,1))
1: (~2x + loop(\(x,i).(4x + i),i,0))
1: (loop(\(x,i).(6x + 1),x,0) - loop(\(x,i).2x,x,1))
1: (loop(\(x,i).(6x + 2),x,1) - loop(\(x,i).3x,x,1))
1: (~1 + loop(\(x,i).(2x2 + 1),2,8))
1: (~3 + loop(\(x,i).(2x2 + 1),(2x + 4),x))
1: (~1 + loop(\(x,i).(3x2 + x),1,(1 + loop(\(x,i).10x,x,1))))
1: (~1 + loop(\(x,i).(x4 + 1),(x + ~1),2))
1: (~1 + loop(\(x,i).(x4 + 1),x,(if (x + ~1) <= 0 then 1 else 0)))
1: (~2 + loop(\(x,i).(x3 + 1),2x,2))
1: (~1 + loop(\(x,i).(x3 + 1),x,1))
1: (loop(\(x,i).(x3 + 1),x,1) - (x div 3))
1: (loop(\(x,i).(1 + (2x * i)),i,1) - (x * i))
1: (~1 + loop(\(x,i).(2 + (x2 * i)),(x + ~2),2))
1: (~x + loop(\(x,i).(1 + (((x + 1) div 2) * (x + i))),x,0))
1: (~1 + loop(\(x,i).(1 + (x * ((1 + i) div 2))),x,0))
1: (~x + loop(\(x,i).(x + (((1 + i) div 2) * i)),(1 + i),0))
1: (~1 + loop(\(x,i).((x * (x mod 2)) + (x div 2)),x,x))
1: (loop(\(x,i).((x * (x mod 2)) + (x div 2)),x,x) - (x mod 2))
1: (~x + loop(\(x,i).(x + ((if (i mod 2) <= 0 then 1 else x) * (1 + (2 * i)))),x,2))
1: (~1 + loop(\(x,i).(1 + (x * loop(\(x,i).(x2 + 2),2,2))),2,x2))
1: (~x + loop(\(x,i).(1 + (x * loop(\(x,i).((x + 1) * ((x + 1) div 2)),i,(if x <= 0 then 1 else 2)))),x,1))
1: (~x + loop(\(x,i).(2 + (x * loop(\(x,i).x2,i,x))),x,1))
1: (loop(\(x,i).(2x + 1),x,2) - (x mod 2))
1: (~2 + loop(\(x,i).(2x + 1),x,16))
1: (11x + loop(\(x,i).(2x + 1),i,1))
1: (~x + loop(\(x,i).(x2 + 1),2,3))
1: (~2 + loop(\(x,i).(x2 + 1),(x + 1),2))
1: (loop(\(x,i).(x2 + 1),x,2) - (x div 2))
1: (loop(\(x,i).(x2 + 1),x,2) - loop(\(x,i).8x,(x div 2),1))
1: (~x + loop(\(x,i).(x2 + 2),2,2))
1: (loop(\(x,i).(x2 + (x div 2)),2,3) - loop(\(x,i).2x,x,1))
1: (loop(\(x,i).(1 + (x * i)),4,2) - (x div 2))
1: (loop(\(x,i).(1 + (x * i)),(~1 + i),1) - i)
1: (~x2 + loop(\(x,i).(1 + (x * i)),x,0))
1: (~x + loop(\(x,i).(1 + (x * i)),x,0))
1: (loop(\(x,i).(1 + (x * i)),x,1) - loop(\(x,i).2x,x,1))
1: (~x + loop(\(x,i).(1 + (x * i)),x,1))
1: (~x + loop(\(x,i).(2x + (i * i)),x,0))
1: ((~x2 + ~3x + ~2) + loop(\(x,i).(x + (i * i)),x,0))
1: (~x + loop(\(x,i).(x + ((3x + 4) div (2 + i))),x,1))
1: (loop(\(x,i).(((x2 + 1) div 2) + (x mod 2)),2,x) - (x mod 2))
1: (~1 + loop(\(x,i).(x + ((x2 + 2) div (1 + (x div 2)))),x,1))
1: (~1 + loop(\(x,i).(2 + (((x2 div 2) + (x div 3)) div 2)),1,(x div 2)))
1: (~2 + loop(\(x,i).(2x + ((x + (x2 div 3)) div 2)),x,2))
1: (~1 + loop(\(x,i).(x + ((x + i) div 3)),x,2))
1: (~1 + loop(\(x,i).(x + ((x - (x div 4)) div 2)),x,2))
1: (~x + loop(\(x,i).(x + ((5x + 10) div (1 + i))),x,4))
1: (~1 + loop(\(x,i).(x + (5x div (1 + i))),x,6))
1: (~2 + loop(\(x,i).(x + (7x div (1 + i))),x,8))
1: (~x + loop(\(x,i).(x + (7x div (1 + i))),x,8))
1: (~1 + loop(\(x,i).(x + (7x div (if i <= 0 then 1 else i))),x,1))
1: (~5 + loop(\(x,i).(2 + ((x3 + 2x) div 3)),2,x))
1: (~1 + loop(\(x,i).(1 + ((x2 + x) div 2)),2,x))
1: (~2 + loop(\(x,i).(1 + ((x2 + x) div 2)),2,x))
1: (~2 + loop(\(x,i).(2 + ((x2 + 2x) div 20)),2,(x + 1)))
1: (~1 + loop(\(x,i).(3 + ((x2 + ~2x) div (x + 2))),2,x))
1: (~1 + loop(\(x,i).(x + (9x div (if i <= 0 then 1 else i))),x,1))
1: (~x + loop(\(x,i).(x + ((4x + 8) div (1 + i))),x,3))
1: (~2 + loop(\(x,i).(x + (8x div (if i <= 0 then 1 else i))),(x + 1),1))
1: (~1 + loop(\(x,i).(x + (8x div (if i <= 0 then 1 else i))),x,1))
1: (~2 + loop(\(x,i).(1 + ((4 * loop(\(x,i).2x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),2)) div 3)),2,x))
1: (~x2 + loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,1))
1: (~1 + loop(\(x,i).(x + (6x div (if i <= 0 then 1 else i))),x,1))
1: (~x + loop(\(x,i).(x + (6x div (if i <= 0 then 1 else i))),x,1))
1: (~x + loop(\(x,i).(x + (6x div (if i <= 0 then 1 else i))),i,1))
1: (~1 + loop(\(x,i).(2x + (2x div (1 + (x div 2)))),x,1))
1: (~1 + loop(\(x,i).(2 + ((x2 div 2) + (x div 2))),x,2))
1: (~1 + loop(\(x,i).(x + (x2 div 3)),x,2))
1: (~x + loop(\(x,i).(x + (((~x2 + 1) mod (1 + (x div 2))) div 2)),2,x))
1: (~2 + loop(\(x,i).(2 + (loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2)),2,x))
1: (~x + loop(\(x,i).(x + (x div 2)),2,(1 + (x div 2))))
1: (~2 + loop(\(x,i).(x + (x div 2)),(~2 + (x div 2)),2))
1: (loop(\(x,i).(x + (x div 2)),x,3) - (x mod 2))
1: (~1 + loop(\(x,i).(x + (x div 2)),x,(3x + 2)))
1: (~x + loop(\(x,i).(x + (x div 2)),x,x))
1: (~1 + loop(\(x,i).(x + (x div (2 + (i mod 2)))),(x div 2),2))
1: (~1 + loop(\(x,i).(2 + (x div (1 + (if (x mod 2) <= 0 then 6 else 1)))),3,x))
1: (~x + loop(\(x,i).(x + (x div (~1 + (2 * i)))),x,i))
1: (loop(\(x,i).((x + 2) + (x div (if i <= 0 then 1 else i))),x,0) - (x mod 2))
1: (~1 + loop(\(x,i).(2x + (i div 2)),x,2))
1: (~2 + loop(\(x,i).(x + (i div 2)),(2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)),1))
1: (~x + loop(\(x,i).(x + ((2x + 1) mod (1 + (2x mod (2 + (x div 4)))))),2,x))
1: ((~x + 1) + loop(\(x,i).(x + ((~x2 + 2) mod (~1 + ((~2x + 2) mod (4 + (x div 4)))))),2,x))
1: (~x + loop(\(x,i).(x + ((x - (if (~2 + (x div 2)) <= 0 then 0 else 1)) mod 2)),2,x))
1: (~x + loop(\(x,i).(x + (((~1 + (x div 2)) div 3) mod 2)),x,x))
1: (~1 + loop(\(x,i).(x + ((x div (~3 + (x mod 2))) mod 2)),2,x))
1: (~x + loop(\(x,i).(x + ((((~2 + (x div 2)) * (x div 2)) mod (x + 1)) mod 2)),2,x))
1: (~1 + loop(\(x,i).(2 + (x mod (2 + i))),compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),2))
1: (~x + loop(\(x,i).((x mod (~1 + (2 * i))) + i),x,0))
1: (~2 + loop(\(x,i).(x + (x mod 8)),x,3))
1: (loop(\(x,i).(2x + (i mod 2)),x,0) - (if (x mod 2) <= 0 then x else 0))
1: (loop(\(x,i).(2x + (i mod 2)),x,1) - (2 * (x mod 2)))
1: (~1 + loop(\(x,i).(x + (if (2 - (i div 2)) <= 0 then x else 2)),x,2))
1: (loop(\(x,i).(2x + (if (2 - i) <= 0 then x else 1)),x,2) - loop(\(x,i).2x,x,1))
1: (~1 + loop(\(x,i).(x + (if (~2 + (x div 4)) <= 0 then 1 else 0)),x,x))
1: (~1 + loop(\(x,i).(2x + (if (x + ~2) <= 0 then 1 else 4)),x,1))
1: (~1 + loop(\(x,i).(2x + (if (~2 + i) <= 0 then 2 else 1)),x,2))
1: (~1 + loop(\(x,i).(x + (if (~2 + i) <= 0 then 2 else x)),x,2))
1: (~1 + loop(\(x,i).(2 + (if (~x + i) <= 0 then 0 else x)),(x div 2),1))
1: (~x + loop(\(x,i).(x + (if (x div 2) <= 0 then 1 else (2 + (x div (2 + i))))),x,0))
1: (~1 + loop(\(x,i).(x + (if (x mod (1 + (2 * i))) <= 0 then i else 0)),2,x))
1: (~2x + loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then 2 else 1)),(x + ~2),(x + 2)))
1: (~x + loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then 2 else 1)),(x + ~2),(x + 2)))
1: (~1 + loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then 2 else 1)),x,(~x + 2)))
1: (~x + loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then i else 0)),x,(2 * (if x <= 0 then 1 else x))))
1: (~1 + loop(\(x,i).(x + (if (x mod 11) <= 0 then (8x + 2) else 1)),x,1))
1: (~x + loop(\(x,i).(x + (if x <= 0 then 1 else (x * (1 + i - (2 * (i mod 2)))))),i,1))
1: (~1 + loop(\(x,i).(x + (if x <= 0 then 1 else (2x * ((~1 + i) * (~2 + i))))),x,x))
1: (~x + loop(\(x,i).(x + (if x <= 0 then 1 else ((x mod (~3 - (x div 4))) mod 2))),2,x))
1: (~1 + loop(\(x,i).(x + (if x <= 0 then 1 else (if (x mod 2) <= 0 then x else loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),x,x)))),2,x))
1: (~1 + loop(\(x,i).(1 + (if x <= 0 then x else (x - (if x <= 0 then 1 else (~1 + (x div (2 + ((x div 2) div 3)))))))),2,x))
1: (~x + loop(\(x,i).(2x + loop(\(x,i).(2x + i),(~1 + i),i)),x,0))
1: ((~x + ~1) + loop(\(x,i).(2x + loop(\(x,i).(3x + 7),i,1)),x,1))
1: (~x2 + loop(\(x,i).(x + loop(\(x,i).(x + ((2 + i) * i)),i,1)),x,2))
1: (~1 + loop(\(x,i).(x + loop(\(x,i).(1 + (x * i)),(i div 2),x)),x,0))
1: (~x + loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1))
1: (~2 + loop(\(x,i).(x + loop(\(x,i).~x,(i mod 3),i)),x,2))
1: (~x + loop(\(x,i).(x + loop(\(x,i).(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1,i)),x,1))
1: (~1 + loop(\(x,i).(x + loop(\(x,i).((2x + 1) - loop(\(x,i).3x,i,1)),i,1)),x,1))
1: (~1 + loop(\(x,i).(x + loop(\(x,i).(x - (x div (3 + i))),x,(x + 1))),x,2))
1: (~1 + loop(\(x,i).(1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x)),1,(6x + 1)))
1: (~1 + loop(\(x,i).(1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x)),2,6x))
1: (~1 + loop(\(x,i).(x + loop(\(x,i).(x - (if x <= 0 then 1 else (if ((x mod 3) div 2) <= 0 then x else ((x + 1) div 2)))),x,(x + 1))),2,x))
1: (~x + loop(\(x,i).(x + loop(\(x,i).3x,(x div 2),2)),x,1))
1: (~1 + loop(\(x,i).(4x + loop(\(x,i).3x,i,1)),(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1))
1: (~1 + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1))
1: (~1 + loop(\(x,i).(x + loop(\(x,i).3x,i,(i * i * i))),x,1))
1: (~x + loop(\(x,i).(x + loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),i,1)),i,1))
1: (~x + loop(\(x,i).(x + loop(\(x,i).x3,2,i)),i,0))
1: (~x + loop(\(x,i).(x + loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(1 + i),1)),x,2))
1: (loop(\(x,i).(x + loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(~1 + i),1)),x,1) - loop(\(x,i).2x,x,1))
1: (~x + loop(\(x,i).(x + loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(~1 + i),1)),i,1))
1: ((~x + ~1) + loop(\(x,i).(x + loop(\(x,i).(2 * i),(~2 + i),x)),(x + ~1),1))
1: (loop(\(x,i).(loop(\(x,i).(x * i),(~1 + i),1) + (x * i)),i,0) - (x * i))
1: (~x + loop(\(x,i).(loop(\(x,i).(x * i),(~1 + i),1) + (x * i)),i,0))
1: (~1 + loop(\(x,i).(loop(\(x,i).(x * i),x,1) + loop(\(x,i).2x,x,1)),1,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x))))
1: (~x + loop(\(x,i).(x + loop(\(x,i).(x * i),i,1)),(1 + i),1))
1: (~1 + loop(\(x,i).(x + loop(\(x,i).(8 div (x + 1)),2,i)),x,2))
1: (loop(\(x,i).(x + loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),i,1)),((x + 1) div 2),1) - (x mod 2))
1: (~2 + loop(\(x,i).(1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),2,x))
1: (~x + loop(\(x,i).(x + loop(\(x,i).loop(\(x,i).(x + ((2 + i) * i)),i,x),i,1)),x,0))
1: (~2 + loop(\(x,i).(x + 2),(x + ~1),~3))
1: ((~2x2 + ~x) + loop(\(x,i).(x + i),(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),0))
1: (~2 + loop(\(x,i).(x + i),((2 * (2 + (if x <= 0 then 0 else (2 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))))) div 3),2))
1: (~1 + loop(\(x,i).(x + i),x,(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 1)))))
1: ((~x2 + ~2x) + loop(\(x,i).(x + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),i)),x,0))
1: (~x + loop(\(x,i).((x + 1) + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)),i,1))
1: ((~x2 + ~x) + loop(\(x,i).(x + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i)),x,0))
1: (~x2 + loop(\(x,i).(x + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i)),x,1))
1: (~1 + loop(\(x,i).~x,x,(i * i)))
1: (loop(\(x,i).(~2x + 1),x,0) - loop(\(x,i).(3x + ~1),(x + ~1),0))
1: (loop(\(x,i).(~2x + 1),x,0) - loop(\(x,i).(3x + ~1),x,0))
1: (~1 + loop(\(x,i).(~2x + 1),x,2))
1: (~1 + loop(\(x,i).(~2x + 1),x,6))
1: (~1 + loop(\(x,i).(~2x + 1),x,loop(\(x,i).(x mod 2),(x div 2),(1 - (2 * (x mod 2))))))
1: (~x + loop(\(x,i).(1 - (x * i)),i,1))
1: ((~x + ~1) + loop(\(x,i).(1 - loop(\(x,i).(x - (if x <= 0 then 0 else (~1 + loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)))),x,x)),2,(x + 1)))
1: (~x + loop(\(x,i).(1 - loop(\(x,i).(x - (if x <= 0 then 1 else (2 * (1 + i)))),x,2x)),2,x))
1: (loop(\(x,i).(7x + 2),x,0) - loop(\(x,i).(3x + 1),x,0))
1: (~1 + loop(\(x,i).(~x3 + ~x + 2),4,(x + 1)))
1: (~1 + loop(\(x,i).(~1 + ((x * (~1 + (2 * i))) + (x div 2))),x,2))
1: (~1 + loop(\(x,i).((4x + ~1) + (x mod 2)),x,(2 - (x mod 2))))
1: (~1 + loop(\(x,i).((x + ~1) + (x div (1 + i))),(x + ~2),1))
1: (~1 + loop(\(x,i).((x + 2) - ((~x + 2) div (2 - (x div ~2)))),2,x))
1: (~x + loop(\(x,i).((x + 1) + i - ((x div 2) div 3)),x,1))
1: (~1 + loop(\(x,i).(x + i - (x div 4)),x,2))
1: ((~x + ~1) + loop(\(x,i).(x + i - (x div (1 + (4 * i)))),x,1))
1: (~1 + loop(\(x,i).((~x + ~1) + i),x,2))
1: (loop(\(x,i).(3x + ~1),(x + 2),2) - loop(\(x,i).2x,x,2))
1: (~1 + loop(\(x,i).(3x + ~1),(x + ~1),0))
1: (loop(\(x,i).(3x + ~1),(x + ~1),1) - loop(\(x,i).(~2x + 1),x,0))
1: (~2x + loop(\(x,i).(3x + ~1),(~1 + i),1))
1: (loop(\(x,i).(3x + ~1),x,0) - loop(\(x,i).(5x + ~1),x,0))
1: (loop(\(x,i).(3x + ~1),x,1) - ((if x <= 0 then 1 else x) mod 2))
1: (loop(\(x,i).(3x + ~1),x,1) - (x mod 2))
1: (loop(\(x,i).(3x + ~1),x,1) - loop(\(x,i).(2x + 2),(x + ~1),1))
1: (loop(\(x,i).(3x + ~1),x,2) - loop(\(x,i).2x,x,1))
1: (~1 + loop(\(x,i).(5x + ~1),x,2))
1: (~1 + loop(\(x,i).(5x - (2x mod 5)),x,2))
1: (1 + loop(\(x,i).(~1 + (2 * (x + (i mod 2)))),x,0) - (2 * ((x div 3) mod 2)))
1: (~x + loop(\(x,i).(~1 + (2 * (4x + loop(\(x,i).2x,i,1)))),i,1))
1: (~x + loop(\(x,i).((2x + 3) - (((2x + ~4) div (2 + (x div 4))) mod 2)),2,x))
1: (~x + loop(\(x,i).((x2 + x) - (i mod 2)),x,1))
1: (~1 + loop(\(x,i).((2x + 4) - (i mod 2)),x,2))
1: (~1 + loop(\(x,i).(~x5 + x2 + 2x),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (~x + loop(\(x,i).((x * (2 + i)) - (x div 2)),(x + ~1),1))
1: (~1 + loop(\(x,i).(x2 + ~x + ~1),x,8))
1: (~1 + loop(\(x,i).(10x + ~1),(2x + 1),1) - loop(\(x,i).10x,x,7))
1: (loop(\(x,i).(10x + ~1),(2x + 1),1) - loop(\(x,i).10x,x,1))
1: (loop(\(x,i).(10x + ~1),(2x + 1),1) - loop(\(x,i).10x,x,2))
1: ((~2x2 + 2x) + loop(\(x,i).((2x * (1 + (2 * i))) - i),x,1))
1: (loop(\(x,i).(4x + ~1),x,1) - (x mod 2))
1: (~1 + loop(\(x,i).(4x - ((~1 + i) mod 3)),x,2))
1: (~1 + loop(\(x,i).(4x - (i mod 3)),(x + 1),1))
1: (~1 + loop(\(x,i).(4x - (i mod 4)),(x + 1),2))
1: (~1 + loop(\(x,i).(4x - loop(\(x,i).(~2x + 1),i,0)),x,2))
1: (~x + loop(\(x,i).(2x + ~1),(x + ~3),x))
1: (loop(\(x,i).(2x + ~1),x,8) - (2 * (x mod 2)))
1: (~x + loop(\(x,i).(2x + ~1),x,2x))
1: (~2 + loop(\(x,i).(2x - ((if (i mod 2) <= 0 then 1 else 2x) div (1 + i))),x,2))
1: (loop(\(x,i).(2x - ((if (i mod 2) <= 0 then 1 else 2x) div (1 + i))),x,(x + 1)) - loop(\(x,i).2x,x,1))
1: (loop(\(x,i).(2x - ((if (i mod 2) <= 0 then 1 else 2x) div (1 + i))),x,(x + 2)) - loop(\(x,i).2x,x,1))
1: (~1 + loop(\(x,i).(2x - ((((x + 1) div 2) div 3) mod 2)),x,2))
1: (~1 + loop(\(x,i).(2x - ((i mod 3) mod 2)),x,2))
1: (~1 + loop(\(x,i).(2x - (i mod 2)),(x div 2),2))
1: (~1 + loop(\(x,i).(2x - (i mod 2)),x,(x + 2)))
1: ((~x + ~1) + loop(\(x,i).(2x - (if (x mod 10) <= 0 then 1 else i)),x,2))
1: (~1 + loop(\(x,i).(x2 + ~1),2,(x2 + 1)))
1: (~x2 + loop(\(x,i).(x2 + ~1),2,(x + 2)))
1: (~x + loop(\(x,i).(x2 + ~1),2,(x + 2)))
1: (~1 + loop(\(x,i).(x2 + ~1),2,x2))
1: (~1 + loop(\(x,i).(x2 + ~1),x,2))
1: (~2 + loop(\(x,i).(x2 + ~2),1,(10x + 5)))
1: (~1 + loop(\(x,i).(x2 + ~2),x,4))
1: (~1 + loop(\(x,i).(x2 + ~2),x,6))
1: (~1 + loop(\(x,i).(x2 + ~2),x,8))
1: (~1 + loop(\(x,i).(x2 + ~2),x,10))
1: (loop(\(x,i).(x2 - (x div 2)),x,2) - (x div 2))
1: (~x + loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),x,1))
1: (loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),i,1) - (x * i))
1: (~1 + loop(\(x,i).(~1 + (6x div (1 + i))),x,2))
1: ((~x2 + ~x) + loop(\(x,i).(~x + (if x <= 0 then 2 else 1)),x,3))
1: (~x + loop(\(x,i).(~1 + (if x <= 0 then (2 * i) else x)),x,1))
1: (~x + loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,0))
1: (~1 + loop(\(x,i).((x + ~1) - (2 * (if x <= 0 then 0 else i))),x,x))
1: (~1 + loop(\(x,i).((x + ~1) - (if x <= 0 then 0 else i)),x,x))
1: (~2 + loop(\(x,i).((x + ~1) - (if x <= 0 then 0 else i)),x,x))
1: (~1 + loop(\(x,i).((x + ~1) + (x mod (1 + (6 * (x mod 2))))),2,x))
1: (~x + loop(\(x,i).((x + 1) - ((~x + 1) div (6 + (x mod 2)))),x,1))
1: (~x + loop(\(x,i).((x + 1) - ((~x + 1) div (2 - (x div ~4)))),x,1))
1: (~x + loop(\(x,i).((x + 1) - ((~x + (if (i mod 2) <= 0 then 2 else 0)) div 5)),x,1))
1: (~1 + loop(\(x,i).((x + 1) - ((~2x + 2) div 7)),2x,1))
1: (~1 + loop(\(x,i).((x + 1) - (((x - ((x mod 3) div 2)) div 2) div 2)),2,x))
1: (~1 + loop(\(x,i).((x + 1) - ((if (x + ~4) <= 0 then 1 else x) div 3)),2,x))
1: (~1 + loop(\(x,i).(x + (2 * i) - (x div (1 + (2 * i)))),x,2))
1: (~2 + loop(\(x,i).((x + 2) - (x div ~5)),4,(x + ~1)))
1: ((~x + ~1) + loop(\(x,i).((x + 1) - ((x + 1) mod (~1 + (x div ~5)))),2,x))
1: ((~x + ~2) + loop(\(x,i).((x + 1) - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)),2,x))
1: (loop(\(x,i).((3x + 1) - i),x,1) - loop(\(x,i).2x,x,1))
1: ((~x2 + x) + loop(\(x,i).(x + (2 * (i * i)) - i),(x + 2),0))
1: (~1 + loop(\(x,i).(3x - i),x,2))
1: (loop(\(x,i).(5x + ~2),x,1) - (x mod 2))
1: (loop(\(x,i).(5x + ~2),x,1) - loop(\(x,i).2x,x,1))
1: (~1 + loop(\(x,i).(2x3 + ~3x),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (loop(\(x,i).(7x + ~4),x,1) - loop(\(x,i).3x,x,1))
1: (loop(\(x,i).(x - (2 * (~x + (i mod 2)))),x,3) - loop(\(x,i).2x,x,1))
1: (~1 + loop(\(x,i).(x - (2 * (~x + i))),x,2))
1: (~2 + loop(\(x,i).~11x,(2x + 4),1))
1: (~x + loop(\(x,i).(x - (2 * (if x <= 0 then 0 else i))),x,x))
1: (~x + loop(\(x,i).(x - (((x - ((x2 + ~x) div 8)) div 2) div 2)),2,x))
1: (~x + loop(\(x,i).(x - (((x2 + ~x) div 2) div (x + 3))),3,(x + ~1)))
1: (~1 + loop(\(x,i).(x - (x div (1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))),x,x))
1: (~1 + loop(\(x,i).(x - (x div ~9)),x,1))
1: (~1 + loop(\(x,i).(x - (x div (~2 + (x mod 2)))),x,2))
1: (~1 + loop(\(x,i).(x - (x div (~2 + (i mod 2)))),x,2))
1: (~1 + loop(\(x,i).(x - (x div 8)),6,x))
1: (~1 + loop(\(x,i).(x - ((x2 div (x - ((~x + 2) div 2))) mod 2)),2,x))
1: (~1 + loop(\(x,i).(x - (if (~2 + (x div 2)) <= 0 then 0 else 1)),((x + 1) div 2),x))
1: (~1 + loop(\(x,i).(x - (if (~x + i) <= 0 then (1 + i) else 0)),x,x))
1: (~1 + loop(\(x,i).(x - (if (16 mod (x + 1)) <= 0 then 0 else 2)),x,x))
1: (~1 + loop(\(x,i).(x - (if (x mod 5) <= 0 then (5 * (1 - (2 * (x mod 2)))) else 0)),1,(x + 1)))
1: (loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x) - (x div 11))
1: (~2 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 2 else 1)),(x + 1),x))
1: (~1 + loop(\(x,i).(x - (if x <= 0 then 0 else (1 + (i div 3)))),x,x))
1: ((~x + ~1) + loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x))
1: ((~x + ~2) + loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x))
1: (~1 + loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x))
1: ((~x + ~1) + loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x))
1: (~1 + loop(\(x,i).(x - (if x <= 0 then 1 else (1 + (i div 2)))),x,x))
1: (~1 + loop(\(x,i).(x - (if x <= 0 then 1 else (2 * i))),x,x))
1: (~1 + loop(\(x,i).(x - (if x <= 0 then 1 else (i * i))),x,(x + ~1)))
1: (~1 + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 1)))
1: (~1 + loop(\(x,i).(x - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,i)),x,1))
1: (~1 + loop(\(x,i).(x - i),x,loop(\(x,i).3x,x,1)))
1: (~1 + loop(\(x,i).(i - (2 * (~x + (x div 3)))),x,2))
1: (~2 + loop(\(x,i).(i - (x * i)),x,0))
1: (~x + loop(\(x,i).(i - (~24x div (x + 1))),x,1))
1: (~x + loop(\(x,i).3x,5,(x + 1)))
1: (loop(\(x,i).3x,(x + 1),2) - loop(\(x,i).2x,x,1))
1: (loop(\(x,i).3x,(x + 2),1) - loop(\(x,i).2x,x,3))
1: (~x + loop(\(x,i).3x,(~x + 2),(3 + (if x <= 0 then 0 else 2))))
1: (loop(\(x,i).3x,((x + ~1) + (x2 div 4)),1) - (if (x + ~2) <= 0 then x else 1))
1: (loop(\(x,i).3x,(x + ~1),1) - loop(\(x,i).3x,((x + ~1) div 2),1))
1: (loop(\(x,i).3x,(x + ~1),5x) - loop(\(x,i).3x,x,2))
1: (loop(\(x,i).3x,(x + ~1),x) - loop(\(x,i).2x,(x + ~1),x))
1: (loop(\(x,i).3x,(x + ~2),1) - loop(\(x,i).3x,x,1))
1: (~2 + loop(\(x,i).3x,(x + ~2),(3 * (2 + (if x <= 0 then 1 else 2)))))
1: (~4x + loop(\(x,i).3x,(~1 + i),1))
1: (~x + loop(\(x,i).3x,(~1 + i),1))
1: (~x + loop(\(x,i).3x,6,i))
1: ((loop(\(x,i).3x,2x,1) + loop(\(x,i).(9x + loop(\(x,i).10x,i,1)),x,1)) - loop(\(x,i).10x,x,1))
1: (~9x + loop(\(x,i).3x,2x,1))
1: (~x7 + loop(\(x,i).3x,2x,1))
1: (~x6 + loop(\(x,i).3x,2x,1))
1: (~x5 + loop(\(x,i).3x,2x,1))
1: (~x4 + loop(\(x,i).3x,2x,1))
1: (~x3 + loop(\(x,i).3x,2x,1))
1: (loop(\(x,i).3x,2x,1) - (x2 * loop(\(x,i).x3,2,x)))
1: (loop(\(x,i).3x,2x,1) - (x * loop(\(x,i).x3,2,x)))
1: (~x2 + loop(\(x,i).3x,2x,1))
1: (loop(\(x,i).3x,2x,1) - loop(\(x,i).(5x + 4),x,0))
1: (loop(\(x,i).3x,2x,1) - loop(\(x,i).(7x + 6),x,0))
1: (loop(\(x,i).3x,2x,1) - loop(\(x,i).(2x + 1),x,0))
1: (loop(\(x,i).3x,2x,1) - loop(\(x,i).(5x + ~4),x,0))
1: (loop(\(x,i).3x,2x,1) - loop(\(x,i).5x,x,1))
1: (loop(\(x,i).3x,2x,1) - loop(\(x,i).6x,x,1))
1: (loop(\(x,i).3x,2x,1) - loop(\(x,i).x3,2,x))
1: (loop(\(x,i).3x,2x,1) - loop(\(x,i).2x,x,1))
1: (loop(\(x,i).3x,2x,1) - loop(\(x,i).x2,2,x3))
1: (loop(\(x,i).3x,2x,1) - loop(\(x,i).x2,2,x2))
1: (~x + loop(\(x,i).3x,2x,1))
1: (~1 + loop(\(x,i).3x,2x,2))
1: (loop(\(x,i).3x,2x,3) - loop(\(x,i).6x,x,2))
1: (loop(\(x,i).3x,x2,1) - loop(\(x,i).2x,x2,1))
1: (loop(\(x,i).3x,x2,1) - loop(\(x,i).2x,x,1))
1: (~4x + loop(\(x,i).3x,(2 * i),1))
1: (~x + loop(\(x,i).3x,(2 * i),1))
1: (~x + loop(\(x,i).3x,(2 * i),x))
1: ((loop(\(x,i).3x,x,1) + loop(\(x,i).7x,x,1)) - (loop(\(x,i).5x,x,1) + loop(\(x,i).2x,x,1)))
1: ((loop(\(x,i).3x,x,1) + loop(\(x,i).2x,x,1) + loop(\(x,i).7x,x,1)) - loop(\(x,i).5x,x,1))
1: ((loop(\(x,i).3x,x,1) + (if x <= 0 then 0 else 1)) - (2 * (x mod 2)))
1: ((loop(\(x,i).3x,x,1) + loop(\(x,i).(2x + 1),x,loop(\(x,i).2x,x,1))) - loop(\(x,i).5x,x,1))
1: (~x7 + loop(\(x,i).3x,x,1))
1: (~x6 + loop(\(x,i).3x,x,1))
1: (~x5 + loop(\(x,i).3x,x,1))
1: (~x4 + loop(\(x,i).3x,x,1))
1: (~x3 + loop(\(x,i).3x,x,1))
1: (loop(\(x,i).3x,x,1) - (x2 * loop(\(x,i).x3,2,x)))
1: (loop(\(x,i).3x,x,1) - (x * loop(\(x,i).x3,2,x)))
1: (~x2 + loop(\(x,i).3x,x,1))
1: (loop(\(x,i).3x,x,1) - ((x3 + ~x2 + ~x + 1) div 2))
1: (loop(\(x,i).3x,x,1) - (loop(\(x,i).2x,x,1) div 2))
1: (loop(\(x,i).3x,x,1) - loop(\(x,i).(4x + 1),x,0))
1: (loop(\(x,i).3x,x,1) - loop(\(x,i).(2x + 1),x,loop(\(x,i).2x,x,1)))
1: (loop(\(x,i).3x,x,1) - loop(\(x,i).(~1 + (2 * (x + (i mod 2)))),x,0))
1: (loop(\(x,i).3x,x,1) - loop(\(x,i).(4x + ~1),x,0))
1: (loop(\(x,i).3x,x,1) - loop(\(x,i).(5x + ~4),x,0))
1: (loop(\(x,i).3x,x,1) - loop(\(x,i).(7x + ~6),x,0))
1: (loop(\(x,i).3x,x,1) - loop(\(x,i).(11x + ~10),x,0))
1: (loop(\(x,i).3x,x,1) - loop(\(x,i).3x,(x div 2),((x + 1) mod 2)))
1: (loop(\(x,i).3x,x,1) - loop(\(x,i).3x,(x div 2),(x mod 2)))
1: (loop(\(x,i).3x,x,1) - loop(\(x,i).5x,x,1))
1: (loop(\(x,i).3x,x,1) - loop(\(x,i).(2x + 2),(x + ~1),0))
1: (loop(\(x,i).3x,x,1) - loop(\(x,i).(2x + 2),x,0))
1: (loop(\(x,i).3x,x,1) - loop(\(x,i).(x2 + x),1,loop(\(x,i).2x,x,1)))
1: (loop(\(x,i).3x,x,1) - loop(\(x,i).((~x + 1) * (x div 2)),1,loop(\(x,i).2x,x,1)))
1: (loop(\(x,i).3x,x,1) - loop(\(x,i).(~x2 + x),1,loop(\(x,i).2x,x,1)))
1: (loop(\(x,i).3x,x,1) - loop(\(x,i).(x * (~1 + (if (i mod 2) <= 0 then 4 else 0))),x,1))
1: (loop(\(x,i).3x,x,1) - loop(\(x,i).x3,2,x))
1: (loop(\(x,i).3x,x,1) - loop(\(x,i).2x,(x + ((x + ((x div 2) div 3)) div 2)),1))
1: (loop(\(x,i).3x,x,1) - loop(\(x,i).2x,(x + ~1),1))
1: (loop(\(x,i).3x,x,1) - loop(\(x,i).2x,x,1))
1: (loop(\(x,i).3x,x,1) - loop(\(x,i).2x,x,4))
1: (loop(\(x,i).3x,x,1) - loop(\(x,i).x2,2,x3))
1: (loop(\(x,i).3x,x,1) - loop(\(x,i).x2,2,x2))
1: (~1 + loop(\(x,i).3x,x,2) - (2 * ((x mod 3) * (x mod 3))))
1: ((~x2 + x) + loop(\(x,i).3x,x,2))
1: (loop(\(x,i).3x,x,2) - loop(\(x,i).(2x + 1),x,2))
1: (loop(\(x,i).3x,x,2) - loop(\(x,i).3x,(x div 2),1))
1: (loop(\(x,i).3x,x,2) - loop(\(x,i).3x,(x div 2),2))
1: (loop(\(x,i).3x,x,2) - loop(\(x,i).(2x + 2),x,2))
1: (loop(\(x,i).3x,x,2) - loop(\(x,i).(2x + 4),x,1))
1: (loop(\(x,i).3x,x,2) - loop(\(x,i).(~2x + 4),(x + ~1),2))
1: (loop(\(x,i).3x,x,2) - loop(\(x,i).(2 * ((x + 1) - (2 * (i mod 2)))),x,1))
1: (loop(\(x,i).3x,x,2) - loop(\(x,i).2x,x,1))
1: (loop(\(x,i).3x,x,2) - loop(\(x,i).2x,x,3))
1: (loop(\(x,i).3x,x,2) - loop(\(x,i).2x,x,(x + 2)))
1: (loop(\(x,i).3x,x,3) - loop(\(x,i).(2x + 6),x,0))
1: (loop(\(x,i).3x,x,4) - loop(\(x,i).2x,x,3))
1: (~1 + loop(\(x,i).3x,x,(2 + (x div 4))))
1: (loop(\(x,i).3x,x,(1 + loop(\(x,i).2x,x,2))) - loop(\(x,i).5x,x,1))
1: (~1 + loop(\(x,i).3x,x,8))
1: (11x + loop(\(x,i).3x,i,1))
1: (loop(\(x,i).3x,i,1) - (2x * i))
1: (~5x + loop(\(x,i).3x,i,2))
1: (~x + loop(\(x,i).3x,i,(1 + i)))
1: (~1 + loop(\(x,i).3x,i,x))
1: (~x + loop(\(x,i).3x,i,x))
1: (~1 + loop(\(x,i).(4x + 4),x,2))
1: (loop(\(x,i).(4x + 4),x,2) - loop(\(x,i).(2x + 2),x,1))
1: (loop(\(x,i).(4x + ~4),x,2) - loop(\(x,i).(3x + 2),x,0))
1: (~x3 + loop(\(x,i).5x,(x + 1),1))
1: (~6x + loop(\(x,i).5x,(~1 + i),1))
1: (~2x + loop(\(x,i).5x,(~1 + i),1))
1: ((~x2 + ~3x + ~2) + loop(\(x,i).5x,(x2 + 3x + 2),1))
1: (loop(\(x,i).5x,x2,1) - loop(\(x,i).3x,x2,1))
1: (loop(\(x,i).5x,x2,1) - loop(\(x,i).3x,x,1))
1: (~x + loop(\(x,i).5x,(2 * i),x))
1: (~2 + loop(\(x,i).5x,x,1))
1: ((loop(\(x,i).5x,x,1) + loop(\(x,i).7x,x,1)) - (loop(\(x,i).3x,x,1) + loop(\(x,i).2x,x,1)))
1: (0 + (loop(\(x,i).5x,x,1) + (((x + ~1) * loop(\(x,i).5x,(x + ~2),x)) div 2)))
1: ((loop(\(x,i).5x,x,1) + loop(\(x,i).2x,x,1) + loop(\(x,i).7x,x,1)) - loop(\(x,i).3x,x,1))
1: (~x7 + loop(\(x,i).5x,x,1))
1: (~x6 + loop(\(x,i).5x,x,1))
1: (~x5 + loop(\(x,i).5x,x,1))
1: (~x4 + loop(\(x,i).5x,x,1))
1: (~x3 + loop(\(x,i).5x,x,1))
1: (loop(\(x,i).5x,x,1) - (2 * (x mod 2)))
1: (loop(\(x,i).5x,x,1) - (x2 * loop(\(x,i).x3,2,x)))
1: (loop(\(x,i).5x,x,1) - (x * loop(\(x,i).x3,2,x)))
1: (~x2 + loop(\(x,i).5x,x,1))
1: (loop(\(x,i).5x,x,1) - (loop(\(x,i).2x,x,1) div 2))
1: (loop(\(x,i).5x,x,1) - loop(\(x,i).(3x + 2),x,0))
1: (loop(\(x,i).5x,x,1) - loop(\(x,i).(4x + 1),x,0))
1: (loop(\(x,i).5x,x,1) - loop(\(x,i).(2x + 1),x,0))
1: (loop(\(x,i).5x,x,1) - loop(\(x,i).(2x + 1),x,loop(\(x,i).2x,x,1)))
1: (loop(\(x,i).5x,x,1) - loop(\(x,i).(7x + ~6),x,0))
1: (loop(\(x,i).5x,x,1) - loop(\(x,i).(11x + ~10),x,0))
1: (loop(\(x,i).5x,x,1) - loop(\(x,i).5x,(x div 2),1))
1: (loop(\(x,i).5x,x,1) - loop(\(x,i).x3,2,x))
1: (loop(\(x,i).5x,x,1) - loop(\(x,i).(x * (x div 2)),1,loop(\(x,i).(2x + ~1),x,0)))
1: (loop(\(x,i).5x,x,1) - loop(\(x,i).2x,x,1))
1: (loop(\(x,i).5x,x,1) - loop(\(x,i).2x,x,(loop(\(x,i).3x,x,1) - loop(\(x,i).(2x + 1),x,0))))
1: (loop(\(x,i).5x,x,1) - loop(\(x,i).x2,2,x3))
1: (loop(\(x,i).5x,x,1) - loop(\(x,i).x2,2,x2))
1: (loop(\(x,i).5x,x,2) - loop(\(x,i).(2x + 1),x,0))
1: (loop(\(x,i).5x,x,2) - loop(\(x,i).3x,x,1))
1: (loop(\(x,i).5x,x,2) - loop(\(x,i).4x,x,1))
1: (loop(\(x,i).5x,x,2) - loop(\(x,i).2x,x,1))
1: (loop(\(x,i).5x,x,3) - loop(\(x,i).3x,x,2))
1: (loop(\(x,i).5x,x,3) - loop(\(x,i).4x,x,2))
1: (~1 + loop(\(x,i).5x,x,4))
1: (loop(\(x,i).5x,x,4) - loop(\(x,i).4x,x,3))
1: (~1 + loop(\(x,i).5x,x,8))
1: (11x + loop(\(x,i).5x,i,1))
1: (~4x + loop(\(x,i).5x,i,1))
1: (~x + loop(\(x,i).5x,i,x))
1: (~1 + loop(\(x,i).(2x + 12),(x + 1),1))
1: (loop(\(x,i).(2 * ((x + 1) + (x div 2))),x,1) - loop(\(x,i).(2x + 2),x,0))
1: (~1 + loop(\(x,i).(2 * (5x + (x div 2))),(x + 1),1))
1: (~1 + loop(\(x,i).(2x + 6),x,17))
1: (loop(\(x,i).(x2 + 3x),1,loop(\(x,i).2x,x,1)) - loop(\(x,i).3x,x,1))
1: (~2 + loop(\(x,i).(2x + 8),(x + 4),1))
1: (~1 + loop(\(x,i).(2x + 8),x,0))
1: (~1 + loop(\(x,i).(x * (3 + i)),x,2))
1: (~1 + loop(\(x,i).(x * (4 + i)),x,3))
1: (loop(\(x,i).(x * (4 + i)),x,3) - loop(\(x,i).2x,x,2))
1: (~1 + loop(\(x,i).(x * ((x + 1) + i)),2,2))
1: (~1 + loop(\(x,i).(2 * (2x + i)),3,x))
1: (~2 + loop(\(x,i).7x,(x + 1),1))
1: (~8x + loop(\(x,i).7x,(~1 + i),1))
1: (~x7 + loop(\(x,i).7x,x,1))
1: (~x6 + loop(\(x,i).7x,x,1))
1: (~x5 + loop(\(x,i).7x,x,1))
1: (~x4 + loop(\(x,i).7x,x,1))
1: (~x3 + loop(\(x,i).7x,x,1))
1: (loop(\(x,i).7x,x,1) - (x2 * loop(\(x,i).x3,2,x)))
1: (loop(\(x,i).7x,x,1) - (x * loop(\(x,i).x3,2,x)))
1: (~2x + loop(\(x,i).7x,x,1))
1: (~x2 + loop(\(x,i).7x,x,1))
1: (loop(\(x,i).7x,x,1) - loop(\(x,i).(2x + 1),x,0))
1: (loop(\(x,i).7x,x,1) - loop(\(x,i).(11x + ~10),x,0))
1: (loop(\(x,i).7x,x,1) - loop(\(x,i).x3,2,x))
1: (loop(\(x,i).7x,x,1) - loop(\(x,i).2x,x,1))
1: (loop(\(x,i).7x,x,1) - loop(\(x,i).x2,2,x3))
1: (loop(\(x,i).7x,x,1) - loop(\(x,i).x2,2,x2))
1: (loop(\(x,i).7x,x,2) - loop(\(x,i).3x,x,1))
1: (loop(\(x,i).7x,x,2) - loop(\(x,i).5x,x,1))
1: (loop(\(x,i).7x,x,2) - loop(\(x,i).6x,x,1))
1: (loop(\(x,i).7x,x,3) - loop(\(x,i).(3x + 1),x,1))
1: (~1 + loop(\(x,i).7x,x,4))
1: (loop(\(x,i).7x,x,4) - loop(\(x,i).5x,x,3))
1: (~1 + loop(\(x,i).7x,x,8))
1: (~6x + loop(\(x,i).7x,i,1))
1: (~2x + loop(\(x,i).7x,i,1))
1: (~x + loop(\(x,i).7x,i,x))
1: (~1 + loop(\(x,i).(3x2 + 8x + 4),1,loop(\(x,i).10x,x,1)))
1: (~1 + loop(\(x,i).(2x + 24),x,17))
1: (~1 + loop(\(x,i).(10x + 8),2,x))
1: (~1 + loop(\(x,i).(10x + 8),(x + 1),0))
1: (~2 + loop(\(x,i).(10x + 8),(x + 1),0))
1: (loop(\(x,i).(10x + 2),x,2) - loop(\(x,i).(5x + 1),x,1))
1: (~1 + loop(\(x,i).(10x + 4),2,1))
1: (~2 + loop(\(x,i).(10x + 4),(x + 1),1))
1: (~2 + loop(\(x,i).(10x + 4),(x div 2),(2 + (x mod 2))))
1: (~1 + loop(\(x,i).(10x + 4),x,4))
1: (~2 + loop(\(x,i).(2 * (1 + (2 * (1 + (loop(\(x,i).(3x + ~1),x,2) * loop(\(x,i).(2x + 2),x,0)))))),1,(x + 1)))
1: (~1 + loop(\(x,i).(2 * (1 + (2 * (2x + (x mod 2))))),x,5))
1: (~2 + loop(\(x,i).(10x + 15),(x + 1),0))
1: (~2 + loop(\(x,i).(2 * ((2x + 3) + i)),(x + 1),1))
1: (~x + loop(\(x,i).(x4 + x3 + 3x2),x,1))
1: (~1 + loop(\(x,i).(2 * (x + ((1 + i) * i))),x,2))
1: (~1 + loop(\(x,i).(2x + 32),x,9))
1: (~2 + loop(\(x,i).(2x + 40),(x + 1),1))
1: (loop(\(x,i).(8x + 2),x,2) - loop(\(x,i).(4x + 1),x,1))
1: (~1 + loop(\(x,i).(2 * (2x2 + (i mod 2))),x,2))
1: (loop(\(x,i).(x * (1 + (4 * i))),x,1) - (x div 4))
1: (~1 + loop(\(x,i).(x * (2 + (3 * (i mod 2)))),(x + 1),1))
1: (loop(\(x,i).(4x + 2),x,0) - loop(\(x,i).(3x + 1),x,0))
1: (loop(\(x,i).(4x + 2),x,2) - loop(\(x,i).(2x + 2),x,0))
1: (~2 + loop(\(x,i).(10x + 5),(x + 1),1))
1: (loop(\(x,i).(2x2 + x),1,loop(\(x,i).(2x + 1),x,0)) - loop(\(x,i).(3x + 1),x,1))
1: (~1 + loop(\(x,i).(2x2 + x),2,2))
1: (~3 + loop(\(x,i).(2x2 + x),2,2))
1: (~4 + loop(\(x,i).(2x2 + 2),2,x2))
1: (~x + loop(\(x,i).(2x2 + 2),x,1))
1: (~1 + loop(\(x,i).(x3 + x),x,1))
1: (~1 + loop(\(x,i).(x3 + 2x),1,((x2 + 3x + 2) div 2)))
1: ((~x + 1) + loop(\(x,i).(x3 + 2x),x,x))
1: (loop(\(x,i).(2 * (x + (2 * i))),x,0) - ((x2 + x) div 2))
1: (~x + loop(\(x,i).(2 * (x + (2 * i))),x,0))
1: (~x + loop(\(x,i).(x * (1 + (x * i))),3x,1))
1: (~1 + loop(\(x,i).(2 * ((x * i) + (i div 2))),x,0))
1: (~x + loop(\(x,i).((x + 1) * (1 + ((x * i) div 2))),x,1))
1: (~1 + loop(\(x,i).(2 * (1 + (x div 2))),(x div 8),(((x + 1) div 2) div 2)))
1: (~1 + loop(\(x,i).(2 * (x + (x div 2))),(x + ~1),1))
1: (loop(\(x,i).(2 * (x + (x div 2))),x,3) - loop(\(x,i).2x,x,1))
1: (~1 + loop(\(x,i).(2 * (x + (x div 2))),x,7))
1: (~1 + loop(\(x,i).((x + 2) * (x + (x div 2))),(2x + 3),2))
1: ((~x2 + ~x) + loop(\(x,i).(2 * (2x + (x div (if i <= 0 then 1 else i)))),x,1))
1: (loop(\(x,i).(2 * (2x + (x div (if i <= 0 then 1 else i)))),x,1) - loop(\(x,i).4x,x,1))
1: (~x + loop(\(x,i).(x * (1 + (i div 2))),i,1))
1: (~1 + loop(\(x,i).((1 + (x mod 2)) * (x div 2)),1,((x2 + x) div 2)))
1: (~1 + loop(\(x,i).(x * (2 + (i mod 2))),x,2))
1: (~1 + loop(\(x,i).(x * ((i mod 2) + i)),(x + 1),2))
1: (~1 + loop(\(x,i).(2 * (x + (if (i mod 2) <= 0 then 2 else 0))),x,2))
1: (~x + loop(\(x,i).(2 * (x + loop(\(x,i).3x,i,1))),x,2))
1: (~1 + loop(\(x,i).(x * (1 + loop(\(x,i).6x,(x + ~2),x))),x,2))
1: (~1 + loop(\(x,i).(3 * (x + loop(\(x,i).2x,i,1))),(x + 1),1))
1: (loop(\(x,i).(2x + 2),(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1) - (if x <= 0 then 0 else 1))
1: (~x + loop(\(x,i).(2x + 2),2x,2))
1: (loop(\(x,i).(2x + 2),loop(\(x,i).(x div (1 + (x mod 2))),x,x),1) - (x mod 2))
1: (loop(\(x,i).(2x + 2),x,0) - (if (~x + 2) <= 0 then 1 else 0))
1: (loop(\(x,i).(2x + 2),x,2) - (if (x + ~2) <= 0 then x else 3))
1: (~1 + loop(\(x,i).(2x + 2),x,(2 div (x + 1))))
1: (~2 + loop(\(x,i).(3x + 3),(1 + (x div 2)),(1 + (x mod 2))))
1: (~1 + loop(\(x,i).(3x + 3),x,2))
1: (~1 + loop(\(x,i).(x2 + x),1,(1 + loop(\(x,i).3x,x,(2 * (1 + loop(\(x,i).(x2 + ~x),1,loop(\(x,i).x2,x,2))))))))
1: (~1 + loop(\(x,i).(x2 + x),1,(1 + loop(\(x,i).10x,x,1))))
1: (~1 + loop(\(x,i).(x2 + x),1,(1 + loop(\(x,i).4x,x,1))))
1: (~1 + loop(\(x,i).(x2 + x),1,(1 + loop(\(x,i).(x * (i * i)),x,1))))
1: (~1 + loop(\(x,i).(x2 + x),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (~1 + loop(\(x,i).(x2 + x),1,(2 * (1 + (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) div 2)))))
1: (~1 + loop(\(x,i).(x2 + x),1,((1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + ~1) div 2))) div 2)))
1: (~1 + loop(\(x,i).(x2 + x),1,loop(\(x,i).(2x2 + 1),(2x + 1),1)))
1: (~1 + loop(\(x,i).(x2 + x),1,loop(\(x,i).(x + (if x <= 0 then (1 + i) else 0)),x,(~x + 1))))
1: (~1 + loop(\(x,i).(x2 + x),1,loop(\(x,i).3x,x,1)))
1: (~1 + loop(\(x,i).(x2 + x),1,loop(\(x,i).(2x + 2),2x,2)))
1: (~1 + loop(\(x,i).(x2 + x),1,loop(\(x,i).(2x + 2),(x div 2),(1 + (x mod 2)))))
1: (~2 + loop(\(x,i).(x2 + x),1,loop(\(x,i).2x,x,2)))
1: (~x + loop(\(x,i).(x2 + x),1,loop(\(x,i).2x,i,1)))
1: (~1 + loop(\(x,i).(x2 + x),1,loop(\(x,i).(x * i),x,1)))
1: (loop(\(x,i).(x2 + x),1,loop(\(x,i).(x * i),x,1)) - loop(\(x,i).3x,x,1))
1: (~2 + loop(\(x,i).(x2 + x),2,(12x + 6)))
1: (~1 + loop(\(x,i).(x2 + x),x,1))
1: (~2 + loop(\(x,i).(2x + 4),(x + 1),1))
1: (~1 + loop(\(x,i).(2x + 4),((x + 1) div 2),(2 - (x mod 2))))
1: (~2 + loop(\(x,i).(2x + 4),x,0))
1: (~2 + loop(\(x,i).(2x + 4),x,1))
1: (~1 + loop(\(x,i).(2x + 4),x,2))
1: (~1 + loop(\(x,i).(2x + 4),x,4))
1: (~1 + loop(\(x,i).(2x + 4),compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),0))
1: (~2 + loop(\(x,i).(2x + 4),compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),0))
1: (loop(\(x,i).(3x + 6),x,1) - loop(\(x,i).(2x + 2),x,0))
1: (~1 + loop(\(x,i).(x2 + 3x + 2),2,2))
1: (~2 + loop(\(x,i).(x2 + 3x + 2),2,2))
1: (loop(\(x,i).(x2 + 4x + 4),2,1) - ((x2 + ~x) div 2))
1: (loop(\(x,i).(x2 + x + ~2),x,2) - loop(\(x,i).2x,x,1))
1: (~1 + loop(\(x,i).(x2 + 2x),1,loop(\(x,i).2x,x,1)))
1: (loop(\(x,i).(x2 + 2x),1,loop(\(x,i).2x,x,1)) - loop(\(x,i).3x,x,2))
1: (~1 + loop(\(x,i).(x2 + 2x),1,loop(\(x,i).2x,x,2)))
1: (~1 + loop(\(x,i).(x2 + 2x),1,compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),(x + 1))))
1: (~2 + loop(\(x,i).(x2 + 2x),1,compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),(x + 1))))
1: (~1 + loop(\(x,i).(x2 + 2x),2,loop(\(x,i).2x,x,1)))
1: ((~x + ~1) + loop(\(x,i).(x2 + 2x),2,x))
1: (~1 + loop(\(x,i).(x2 + 2x),(x2 + 3x + 2),2))
1: (~2 + loop(\(x,i).((x + 2) * i),(x + ~1),(x + 3)))
1: (~1 + loop(\(x,i).((x + 1) * (1 + i)),(x + 1),1))
1: (~1 + loop(\(x,i).(x * (2 + i)),5,(x + 1)))
1: (~x2 + loop(\(x,i).(x * (2 + i)),(x + 1),4))
1: (~x + loop(\(x,i).(x * (2 + i)),(x + ~1),x))
1: (~x + loop(\(x,i).(x * (2 + i)),2x,1))
1: (~1 + loop(\(x,i).(x * (2 + i)),2x,2))
1: (~1 + loop(\(x,i).(x * (2 + i)),x,1))
1: (~1 + loop(\(x,i).(x * (2 + i)),x,(x + 1)))
1: (~1 + loop(\(x,i).(x * (2 + i)),compr(\x.((~1 + loop(\(x,i).(x * i),x,1)) mod (x + 2)),x),1))
1: (~1 + loop(\(x,i).(x * (2 + i)),compr(\x.((~1 + loop(\(x,i).(x * i),x,1)) mod (x + 2)),x),2))
1: (loop(\(x,i).(x * (2 + i)),compr(\x.((~1 + loop(\(x,i).(x * i),x,1)) mod (x + 2)),x),2) - loop(\(x,i).(x * i),x,(x + 1)))
1: (~1 + loop(\(x,i).((x + 1) * (x + i)),2,2))
1: (~3 + loop(\(x,i).((x + 1) * (x + i)),2,2x))
1: (~1 + loop(\(x,i).((x + 1) * (x + i)),2,x))
1: (loop(\(x,i).(x * (2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),i))),x,3) - loop(\(x,i).2x,x,1))
1: (~1 + loop(\(x,i).(x * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))),x,2))
1: (~1 + loop(\(x,i).(x * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i))),x,2))
1: (~1 + loop(\(x,i).(x * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i))),x,8))
1: (~1 + loop(\(x,i).~2x,x,2))
1: (~1 + loop(\(x,i).~2x,x,~3))
1: (~1 + loop(\(x,i).~2x,x,8))
1: (~x + loop(\(x,i).~2x,i,x))
1: (~1 + loop(\(x,i).(x * (0 - i)),(x + 1),1))
1: (loop(\(x,i).(~2x + 2),(x div 2),1) - (x mod 2))
1: (~1 + loop(\(x,i).(~4x + 4),2x,2))
1: (~1 + loop(\(x,i).(~x2 + x),1,(7x + 6)))
1: (~1 + loop(\(x,i).(~x2 + x),1,(10x + 8)))
1: (loop(\(x,i).(~2x + 4),(x div 2),2) - (x mod 2))
1: (~2 + loop(\(x,i).(~2x + 4),x,loop(\(x,i).(~2x + 2),x,2)))
1: (~2 + loop(\(x,i).11x,(x + 1),1))
1: (~x7 + loop(\(x,i).11x,x,1))
1: (~x6 + loop(\(x,i).11x,x,1))
1: (~x5 + loop(\(x,i).11x,x,1))
1: (~x4 + loop(\(x,i).11x,x,1))
1: (~x3 + loop(\(x,i).11x,x,1))
1: (loop(\(x,i).11x,x,1) - (x2 * loop(\(x,i).x3,2,x)))
1: (loop(\(x,i).11x,x,1) - (x * loop(\(x,i).x3,2,x)))
1: (~x2 + loop(\(x,i).11x,x,1))
1: (loop(\(x,i).11x,x,1) - loop(\(x,i).(3x + 2),2x,0))
1: (loop(\(x,i).11x,x,1) - loop(\(x,i).(3x + 2),x,0))
1: (loop(\(x,i).11x,x,1) - loop(\(x,i).(5x + 4),x,0))
1: (loop(\(x,i).11x,x,1) - loop(\(x,i).(2x + 1),x,0))
1: (loop(\(x,i).11x,x,1) - loop(\(x,i).3x,2x,1))
1: (loop(\(x,i).11x,x,1) - loop(\(x,i).3x,x,1))
1: (loop(\(x,i).11x,x,1) - loop(\(x,i).5x,x,1))
1: (loop(\(x,i).11x,x,1) - loop(\(x,i).7x,x,1))
1: (loop(\(x,i).11x,x,1) - loop(\(x,i).x3,2,x))
1: (loop(\(x,i).11x,x,1) - loop(\(x,i).2x,x,1))
1: (loop(\(x,i).11x,x,1) - loop(\(x,i).x2,2,x3))
1: (loop(\(x,i).11x,x,1) - loop(\(x,i).x2,2,x2))
1: (~x + loop(\(x,i).11x,x,1))
1: (~1 + loop(\(x,i).11x,x,2))
1: (loop(\(x,i).11x,x,3) - loop(\(x,i).7x,x,1))
1: (~1 + loop(\(x,i).11x,x,8))
1: (~x + loop(\(x,i).11x,i,x))
1: (~1 + loop(\(x,i).(x3 + 2x2 + ~x),1,29))
1: (~1 + loop(\(x,i).(2x2 + 4x + ~4),2,x))
1: ((x + ~1) + loop(\(x,i).(2 * (~1 + (~7 * (x div 2)))),2,x))
1: (~x + loop(\(x,i).(2x2 + ~2x + ~2),i,x))
1: (~x + loop(\(x,i).23x,i,x))
1: (~2 + loop(\(x,i).47x,x,2))
1: (loop(\(x,i).(4x + ~2),(x + 1),2) - (x mod 2))
1: (loop(\(x,i).(10x + ~5),(2x + 1),1) - loop(\(x,i).10x,x,1))
1: (~1 + loop(\(x,i).(2x2 + ~x),1,(5x + 5)))
1: (loop(\(x,i).(2 * (2x - (x div (1 + i)))),(x + ~1),2) - loop(\(x,i).4x,(x + ~1),1))
1: (loop(\(x,i).(2 * (2x - (x div (1 + i)))),(x + ~1),2) - loop(\(x,i).4x,x,1))
1: (~2x + loop(\(x,i).(2 * (2x - (x div (1 + i)))),(~1 + i),2))
1: ((~x + ~1) + loop(\(x,i).(2 * (2x - (x div (1 + i)))),x,2))
1: ((~2x + ~2) + loop(\(x,i).(2 * (2x - (x div (1 + i)))),x,2))
1: (loop(\(x,i).(2 * (2x - (x div (1 + i)))),x,2) - loop(\(x,i).(2x + 4),x,0))
1: (loop(\(x,i).(2 * (2x - (x div (1 + i)))),x,2) - loop(\(x,i).2x,x,1))
1: (~x + loop(\(x,i).(2 * (2x - (x div (1 + i)))),x,2))
1: (~x + loop(\(x,i).(2 * (2x - (x div (1 + i)))),i,2))
1: (~x + loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,1))
1: (~x + loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,2))
1: (loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,x) - loop(\(x,i).4x,x,1))
1: (~1 + loop(\(x,i).(2 * (2x - (i mod 2))),x,4))
1: (~2 + loop(\(x,i).(x3 + ~2x),x,(x2 + 4x + 4)))
1: (~1 + loop(\(x,i).(x * (~1 + (2 * i))),x,2))
1: (~1 + loop(\(x,i).(x * (~1 + (2 * i))),x,i))
1: (loop(\(x,i).(x * (~1 + (2 * i))),i,1) - (x * i))
1: (loop(\(x,i).(x * (~2 + (i mod 2))),x,1) - loop(\(x,i).2x,x,1))
1: (~1 + loop(\(x,i).(2x + ~2),(1 + ((x div 3) mod 2)),(1 + (x div 4))))
1: (~1 + loop(\(x,i).(x2 + ~x),1,(~1 + ((~2x + 2) mod (4 + (x div 4))))))
1: (~1 + loop(\(x,i).(x2 + ~x),1,loop(\(x,i).10x,(x + 1),1)))
1: (~2 + loop(\(x,i).(x2 + ~x),1,loop(\(x,i).2x,x,2)))
1: ((~x2 + x) + loop(\(x,i).(x2 + ~x),3,x))
1: (loop(\(x,i).(x2 + ~x),(x + ~1),3) - (if x <= 0 then 0 else 1))
1: (loop(\(x,i).(x2 + ~x),(x + ~1),4) - (if x <= 0 then 0 else 1))
1: (~1 + loop(\(x,i).(2x + ~4),(if x <= 0 then 0 else 3),loop(\(x,i).(2x + 2),x,2)))
1: (~1 + loop(\(x,i).(x2 + ~2x),1,loop(\(x,i).2x,x,2)))
1: (~x + loop(\(x,i).((x + ~2) * i),i,0))
1: (~x + loop(\(x,i).(2 * ((x + 2) - (x div ~2))),x,1))
1: (~x + loop(\(x,i).(2 * (x - (2 * ((((x + ~1) div 2) div 2) mod 2)))),x,1))
1: (~1 + loop(\(x,i).(2 * (x - (x div 5))),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1))
1: (loop(\(x,i).(2 * (x - ((x + i) mod 2))),x,1) - (2 * (x mod 2)))
1: (~1 + loop(\(x,i).(2 * (x - (i mod 2))),(x div 2),2))
1: (loop(\(x,i).(2 * (x - (i mod 2))),x,2) - (x mod 2))
1: (~1 + loop(\(x,i).(2 * (x - (i mod 2))),x,(2x + 1)))
1: (~1 + loop(\(x,i).(2 * (x - (i mod 2))),i,2))
1: (~1 + loop(\(x,i).(2 * (x - (if (i mod 4) <= 0 then 2 else 0))),x,2))
1: (~x + loop(\(x,i).(2 * (x - i)),(x + ~1),5))
1: (~1 + loop(\(x,i).(4 * (x - i)),x,2))
1: (~1 + loop(\(x,i).(x * (x - i)),2,(x + 3)))
1: (~2 + loop(\(x,i).(8x + 8),(x + 1),1))
1: (loop(\(x,i).10x,(x + 1),1) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: (~1 + loop(\(x,i).10x,(x + 1),(x + 1)))
1: (~2 + loop(\(x,i).10x,(x + 1),(x + 1)))
1: (~2 + loop(\(x,i).10x,(x + 2),1))
1: (~1 + loop(\(x,i).10x,2x,1))
1: (~1 + loop(\(x,i).10x,2x,11))
1: (loop(\(x,i).10x,((x + 1) div 2),1) - (if x <= 0 then 0 else 1))
1: (~10x + loop(\(x,i).10x,x,1))
1: (~x7 + loop(\(x,i).10x,x,1))
1: (~x6 + loop(\(x,i).10x,x,1))
1: (~x5 + loop(\(x,i).10x,x,1))
1: (~x4 + loop(\(x,i).10x,x,1))
1: (~x3 + loop(\(x,i).10x,x,1))
1: (loop(\(x,i).10x,x,1) - (2 * (x mod 2)))
1: (loop(\(x,i).10x,x,1) - (x2 * loop(\(x,i).x3,2,x)))
1: (loop(\(x,i).10x,x,1) - (x * loop(\(x,i).x3,2,x)))
1: (~2x + loop(\(x,i).10x,x,1))
1: (~x2 + loop(\(x,i).10x,x,1))
1: (loop(\(x,i).10x,x,1) - (if x <= 0 then 0 else 1))
1: (loop(\(x,i).10x,x,1) - loop(\(x,i).(9x + loop(\(x,i).10x,i,1)),x,1))
1: (loop(\(x,i).10x,x,1) - loop(\(x,i).(3x + 2),2x,0))
1: (loop(\(x,i).10x,x,1) - loop(\(x,i).(3x + 2),x,0))
1: (loop(\(x,i).10x,x,1) - loop(\(x,i).(7x + 6),x,0))
1: (loop(\(x,i).10x,x,1) - loop(\(x,i).(7x + ~6),x,0))
1: (loop(\(x,i).10x,x,1) - loop(\(x,i).(11x + ~10),x,0))
1: (loop(\(x,i).10x,x,1) - loop(\(x,i).3x,2x,1))
1: (loop(\(x,i).10x,x,1) - loop(\(x,i).3x,x,1))
1: (loop(\(x,i).10x,x,1) - loop(\(x,i).7x,x,1))
1: (loop(\(x,i).10x,x,1) - loop(\(x,i).(9x + 9),x,0))
1: (loop(\(x,i).10x,x,1) - loop(\(x,i).6x,x,1))
1: (loop(\(x,i).10x,x,1) - loop(\(x,i).x3,2,x))
1: (loop(\(x,i).10x,x,1) - loop(\(x,i).x2,2,x3))
1: (loop(\(x,i).10x,x,1) - loop(\(x,i).x2,2,x2))
1: (~1 + loop(\(x,i).10x,x,3))
1: (loop(\(x,i).10x,x,3) - loop(\(x,i).3x,2x,2))
1: (loop(\(x,i).10x,x,3) - loop(\(x,i).6x,x,1))
1: (~1 + loop(\(x,i).10x,x,4))
1: (~1 + loop(\(x,i).10x,x,5))
1: (~1 + loop(\(x,i).10x,x,7))
1: (loop(\(x,i).10x,x,9) - (if x <= 0 then 0 else 1))
1: (~1 + loop(\(x,i).10x,x,(1 - loop(\(x,i).(10x + ~60),x,0))))
1: (~1 + loop(\(x,i).10x,x,(~3 + loop(\(x,i).10x,(x + 1),1))))
1: (~1 + loop(\(x,i).10x,x,(~1 + loop(\(x,i).10x,(x + 1),1))))
1: (~1 + loop(\(x,i).10x,x,(~2 + loop(\(x,i).10x,(x + 1),1))))
1: (~1 + loop(\(x,i).10x,x,8))
1: (~x + loop(\(x,i).10x,x,x))
1: (loop(\(x,i).10x,i,1) - (x * i))
1: (~x + loop(\(x,i).10x,i,x))
1: (~1 + loop(\(x,i).(10x + 90),(2x + 1),1))
1: (~1 + loop(\(x,i).(10x + 90),(x + 2),1))
1: (~2 + loop(\(x,i).(12x + 8),2,3x))
1: (~1 + loop(\(x,i).(8x + 4),(x + 1),0))
1: (~2 + loop(\(x,i).(6x2 + 12),2,(x + 1)))
1: (~3 + loop(\(x,i).(6x2 + 24),2,3))
1: (~1 + loop(\(x,i).(2x * (1 + (2 * i))),(2x + 1),2))
1: (~2 + loop(\(x,i).(4 * (1 + ((32 mod (x + 1)) div 2))),x,3))
1: (loop(\(x,i).(10x + 10),(2x + 1),0) - loop(\(x,i).10x,x,2))
1: (loop(\(x,i).(4x + 8),x,1) - loop(\(x,i).(2x + 4),x,0))
1: (~2 + loop(\(x,i).(x4 + ~x3 + ~x2),x,9))
1: (~1 + loop(\(x,i).(8x + ~4),x,2))
1: (~1 + loop(\(x,i).(2x3 + ~4x),2,2))
1: (loop(\(x,i).(2x * (~1 + (2 * i))),x,1) - loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1))
1: (loop(\(x,i).(2x * (~1 + (2 * i))),x,3) - (x div 2))
1: (loop(\(x,i).(x * ((~1 + (2 * i)) * i)),x,1) - loop(\(x,i).2x,x,1))
1: (loop(\(x,i).(4 * (x - (i mod 2))),x,2) - (x mod 2))
1: (~1 + loop(\(x,i).(6x * (~1 + (2 * i))),x,1))
1: (~1 + loop(\(x,i).32x,i,2))
1: (~x + loop(\(x,i).24x,i,x))
1: (~2 + loop(\(x,i).x7,1,loop(\(x,i).(2x + 1),x,0)))
1: (~2 + loop(\(x,i).x7,x,(3x + 4)))
1: (~2 + loop(\(x,i).8x,(x + 1),1))
1: (~1 + loop(\(x,i).8x,(x + 1),(x + 1)))
1: (~9x + loop(\(x,i).8x,(~1 + i),1))
1: (~6x + loop(\(x,i).8x,(~1 + i),1))
1: (~1 + loop(\(x,i).8x,(8x + 2),2))
1: (~1 + loop(\(x,i).8x,x,1))
1: ((~2x2 + ~x) + loop(\(x,i).8x,x,1))
1: (~x7 + loop(\(x,i).8x,x,1))
1: (~8x + loop(\(x,i).8x,x,1))
1: (~x6 + loop(\(x,i).8x,x,1))
1: (~x5 + loop(\(x,i).8x,x,1))
1: (~x4 + loop(\(x,i).8x,x,1))
1: (~x3 + loop(\(x,i).8x,x,1))
1: (loop(\(x,i).8x,x,1) - (x2 * loop(\(x,i).x3,2,x)))
1: (loop(\(x,i).8x,x,1) - (x * loop(\(x,i).x3,2,x)))
1: (~x2 + loop(\(x,i).8x,x,1))
1: (loop(\(x,i).8x,x,1) - loop(\(x,i).(5x + 4),x,0))
1: (loop(\(x,i).8x,x,1) - loop(\(x,i).(7x + 6),x,0))
1: (loop(\(x,i).8x,x,1) - loop(\(x,i).(5x + ~4),x,0))
1: (loop(\(x,i).8x,x,1) - loop(\(x,i).(7x + ~6),x,0))
1: (loop(\(x,i).8x,x,1) - loop(\(x,i).(11x + ~10),x,0))
1: (loop(\(x,i).8x,x,1) - loop(\(x,i).3x,x,1))
1: (loop(\(x,i).8x,x,1) - loop(\(x,i).5x,x,1))
1: (loop(\(x,i).8x,x,1) - loop(\(x,i).7x,x,1))
1: (loop(\(x,i).8x,x,1) - loop(\(x,i).x3,2,x))
1: (loop(\(x,i).8x,x,1) - loop(\(x,i).x2,2,x3))
1: (loop(\(x,i).8x,x,1) - loop(\(x,i).x2,2,x2))
1: (~x + loop(\(x,i).8x,x,1))
1: (~2 + loop(\(x,i).8x,x,2))
1: (~1 + loop(\(x,i).8x,x,3))
1: (~1 + loop(\(x,i).8x,x,4))
1: (~1 + loop(\(x,i).8x,x,5))
1: (~1 + loop(\(x,i).8x,x,7))
1: (~1 + loop(\(x,i).8x,x,9))
1: (~1 + loop(\(x,i).8x,x,11))
1: (11x + loop(\(x,i).8x,i,1))
1: (~x + loop(\(x,i).8x,i,x))
1: (~1 + loop(\(x,i).12x,2,(x + 1)))
1: (~1 + loop(\(x,i).12x,(x + 1),1))
1: (~1 + loop(\(x,i).12x,(x + 1),(x + 1)))
1: (~1 + loop(\(x,i).12x,x,1))
1: (~x7 + loop(\(x,i).12x,x,1))
1: (~x6 + loop(\(x,i).12x,x,1))
1: (~x5 + loop(\(x,i).12x,x,1))
1: (~x4 + loop(\(x,i).12x,x,1))
1: (~x3 + loop(\(x,i).12x,x,1))
1: (loop(\(x,i).12x,x,1) - (x2 * loop(\(x,i).x3,2,x)))
1: (loop(\(x,i).12x,x,1) - (x * loop(\(x,i).x3,2,x)))
1: (~x2 + loop(\(x,i).12x,x,1))
1: (loop(\(x,i).12x,x,1) - loop(\(x,i).11x,x,1))
1: (loop(\(x,i).12x,x,1) - loop(\(x,i).x3,2,x))
1: (loop(\(x,i).12x,x,1) - loop(\(x,i).x2,2,x3))
1: (loop(\(x,i).12x,x,1) - loop(\(x,i).x2,2,x2))
1: (~x + loop(\(x,i).12x,x,1))
1: (~1 + loop(\(x,i).12x,x,2))
1: (~1 + loop(\(x,i).12x,x,3))
1: (loop(\(x,i).12x,x,3) - loop(\(x,i).8x,x,1))
1: (loop(\(x,i).12x,x,3) - loop(\(x,i).8x,x,2))
1: (~1 + loop(\(x,i).12x,x,4))
1: (~1 + loop(\(x,i).12x,x,5))
1: (~x + loop(\(x,i).12x,i,x))
1: (~1 + loop(\(x,i).20x,2,(x + 1)))
1: (~1 + loop(\(x,i).(2x3 + ~2x2),(x + ~2),2))
1: (~1 + loop(\(x,i).8x2,(if x <= 0 then 1 else 2x),2))
1: (~1 + loop(\(x,i).8x2,x,2))
1: (~1 + loop(\(x,i).(x4 + x3),(2x + 1),2))
1: (~2 + loop(\(x,i).x5,1,loop(\(x,i).(2x + 1),x,0)))
1: (~1 + loop(\(x,i).4x,((x + 1) + (3 * (if x <= 0 then 0 else 2))),2))
1: (~1 + loop(\(x,i).4x,(2x + 1),2))
1: (~2 + loop(\(x,i).4x,(x + 1),2))
1: (~2 + loop(\(x,i).4x,(x + 1),9))
1: (~1 + loop(\(x,i).4x,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),2))
1: (~1 + loop(\(x,i).4x,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1))
1: (~1 + loop(\(x,i).4x,(x2 + x),1))
1: (~1 + loop(\(x,i).4x,4x,1))
1: (loop(\(x,i).4x,2x,1) - loop(\(x,i).15x,x,1))
1: (~1 + loop(\(x,i).4x,2x,2))
1: (~x + loop(\(x,i).4x,(2 * i),2))
1: (loop(\(x,i).4x,(x div 2),1) - (x mod 2))
1: (loop(\(x,i).4x,(x div 2),(1 - loop(\(x,i).(2 * (x - (i mod 2))),x,0))) - (x mod 2))
1: (loop(\(x,i).4x,(x div (if (~x + 2) <= 0 then 2 else 1)),1) - (x mod 2))
1: (~1 + loop(\(x,i).4x,(if x <= 0 then 1 else 2),loop(\(x,i).x3,x,2)))
1: (~1 + loop(\(x,i).4x,(if x <= 0 then 1 else (loop(\(x,i).2x,x,2) - (x mod 2))),2))
1: (loop(\(x,i).4x,x,1) - (loop(\(x,i).5x,x,1) + loop(\(x,i).3x,x,1)))
1: ((loop(\(x,i).4x,x,1) + loop(\(x,i).(2x + 2),x,1)) - loop(\(x,i).(3x + 2),x,2))
1: ((loop(\(x,i).4x,x,1) + loop(\(x,i).5x,x,1) + loop(\(x,i).3x,x,1)) - loop(\(x,i).6x,x,1))
1: (~x7 + loop(\(x,i).4x,x,1))
1: (~x6 + loop(\(x,i).4x,x,1))
1: (~x5 + loop(\(x,i).4x,x,1))
1: (~x4 + loop(\(x,i).4x,x,1))
1: (~x3 + loop(\(x,i).4x,x,1))
1: (loop(\(x,i).4x,x,1) - (2 * (x mod 2)))
1: (loop(\(x,i).4x,x,1) - (x2 * loop(\(x,i).x3,2,x)))
1: (loop(\(x,i).4x,x,1) - (x * loop(\(x,i).x3,2,x)))
1: (~x2 + loop(\(x,i).4x,x,1))
1: (loop(\(x,i).4x,x,1) - (x mod 2))
1: (loop(\(x,i).4x,x,1) - (if (x + ~1) <= 0 then x else 0))
1: (loop(\(x,i).4x,x,1) - loop(\(x,i).(3x + 1),x,0))
1: (loop(\(x,i).4x,x,1) - loop(\(x,i).(3x + 2),x,0))
1: (loop(\(x,i).4x,x,1) - loop(\(x,i).(x + (2 * (if (2 - i) <= 0 then x else 1))),x,(x + 1)))
1: (loop(\(x,i).4x,x,1) - loop(\(x,i).(2x + (if x <= 0 then 1 else x)),x,0))
1: (loop(\(x,i).4x,x,1) - loop(\(x,i).(3x + ~2),2x,0))
1: (loop(\(x,i).4x,x,1) - loop(\(x,i).(3x + ~2),x,0))
1: (loop(\(x,i).4x,x,1) - loop(\(x,i).(5x + ~4),x,0))
1: (loop(\(x,i).4x,x,1) - loop(\(x,i).(7x + ~6),x,0))
1: (loop(\(x,i).4x,x,1) - loop(\(x,i).(11x + ~10),x,0))
1: (loop(\(x,i).4x,x,1) - loop(\(x,i).3x,x,1))
1: (loop(\(x,i).4x,x,1) - loop(\(x,i).3x,x,2))
1: (loop(\(x,i).4x,x,1) - loop(\(x,i).5x,x,1))
1: (loop(\(x,i).4x,x,1) - loop(\(x,i).(2 * (x + (x div 2))),x,1))
1: (loop(\(x,i).4x,x,1) - loop(\(x,i).~3x,x,1))
1: (loop(\(x,i).4x,x,1) - loop(\(x,i).(2 * (2 - (i mod 2))),x,1))
1: (loop(\(x,i).4x,x,1) - loop(\(x,i).4x,(x div 2),(1 - (if x <= 0 then 2 else 0))))
1: (loop(\(x,i).4x,x,1) - loop(\(x,i).x3,2,x))
1: (loop(\(x,i).4x,x,1) - loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),x,1))
1: (loop(\(x,i).4x,x,1) - loop(\(x,i).x2,2,x3))
1: (loop(\(x,i).4x,x,1) - loop(\(x,i).x2,2,x2))
1: (loop(\(x,i).4x,x,1) - loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,1))
1: (loop(\(x,i).4x,x,1) - loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,x))
1: (loop(\(x,i).4x,x,1) - loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1))
1: (loop(\(x,i).4x,x,1) - loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,2x))
1: (loop(\(x,i).4x,x,2) - ((x mod 3) div 2))
1: (loop(\(x,i).4x,x,2) - loop(\(x,i).(3x + ~1),x,2))
1: (loop(\(x,i).4x,x,2) - loop(\(x,i).3x,x,2))
1: (loop(\(x,i).4x,x,2) - loop(\(x,i).3x,x,3))
1: (loop(\(x,i).4x,x,2) - loop(\(x,i).(2 * (2x - (x div (1 + i)))),x,2))
1: (loop(\(x,i).4x,x,2) - loop(\(x,i).(2x * (1 + (i mod 2))),x,1))
1: (~x + loop(\(x,i).4x,x,2))
1: (loop(\(x,i).4x,x,3) - loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,1))
1: (loop(\(x,i).4x,x,4) - loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,1))
1: (loop(\(x,i).4x,x,9) - loop(\(x,i).3x,x,4))
1: (loop(\(x,i).4x,x,(1 + loop(\(x,i).3x,x,1))) - loop(\(x,i).3x,x,1))
1: (loop(\(x,i).4x,x,(if (~x + 2) <= 0 then (2 * (x mod 2)) else 1)) - (x mod 2))
1: (~1 + loop(\(x,i).4x,x,(if x <= 0 then 2 else x)))
1: (~1 + loop(\(x,i).4x,x,loop(\(x,i).i,(~x + 2),2)))
1: (~1 + loop(\(x,i).4x,i,1) - (2 * i))
1: (~1 + loop(\(x,i).4x,i,2))
1: (~6x + loop(\(x,i).4x,i,2))
1: (~x + loop(\(x,i).4x,i,(1 + i)))
1: (~x + loop(\(x,i).4x,i,x))
1: (~1 + loop(\(x,i).4x,compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),1))
1: (~1 + loop(\(x,i).4x,compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),2))
1: (~1 + loop(\(x,i).4x,compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),4))
1: (~1 + loop(\(x,i).6x,(x + 1),(x + 1)))
1: (~4x + loop(\(x,i).6x,(~1 + i),1))
1: (~1 + loop(\(x,i).6x,x,1))
1: (loop(\(x,i).6x,x,1) - (loop(\(x,i).5x,x,1) + loop(\(x,i).3x,x,1) + loop(\(x,i).4x,x,1)))
1: (loop(\(x,i).6x,x,1) - (loop(\(x,i).5x,x,1) + loop(\(x,i).3x,x,1)))
1: (~x7 + loop(\(x,i).6x,x,1))
1: (~x6 + loop(\(x,i).6x,x,1))
1: (~x5 + loop(\(x,i).6x,x,1))
1: (~6x + loop(\(x,i).6x,x,1))
1: (~x4 + loop(\(x,i).6x,x,1))
1: (~x3 + loop(\(x,i).6x,x,1))
1: (loop(\(x,i).6x,x,1) - (2 * (x mod 2)))
1: (loop(\(x,i).6x,x,1) - (x2 * loop(\(x,i).x3,2,x)))
1: (loop(\(x,i).6x,x,1) - (x * loop(\(x,i).x3,2,x)))
1: (~x2 + loop(\(x,i).6x,x,1))
1: (loop(\(x,i).6x,x,1) - loop(\(x,i).(5x + 4),x,0))
1: (loop(\(x,i).6x,x,1) - loop(\(x,i).(5x + ~4),x,0))
1: (loop(\(x,i).6x,x,1) - loop(\(x,i).(7x + ~6),x,0))
1: (loop(\(x,i).6x,x,1) - loop(\(x,i).(11x + ~10),x,0))
1: (loop(\(x,i).6x,x,1) - loop(\(x,i).5x,x,1))
1: (loop(\(x,i).6x,x,1) - loop(\(x,i).7x,x,1))
1: (loop(\(x,i).6x,x,1) - loop(\(x,i).6x,(x div 2),1))
1: (loop(\(x,i).6x,x,1) - loop(\(x,i).x3,2,x))
1: (loop(\(x,i).6x,x,1) - loop(\(x,i).x2,2,x3))
1: (loop(\(x,i).6x,x,1) - loop(\(x,i).x2,2,x2))
1: (~x + loop(\(x,i).6x,x,1))
1: (loop(\(x,i).6x,x,2) - loop(\(x,i).5x,x,1))
1: (loop(\(x,i).6x,x,2) - loop(\(x,i).4x,x,1))
1: (~1 + loop(\(x,i).6x,x,3))
1: (loop(\(x,i).6x,x,3) - loop(\(x,i).4x,x,2))
1: (~1 + loop(\(x,i).6x,x,4))
1: (~1 + loop(\(x,i).6x,x,5))
1: (~1 + loop(\(x,i).6x,x,7))
1: (~1 + loop(\(x,i).6x,x,9))
1: (~1 + loop(\(x,i).6x,x,8))
1: (11x + loop(\(x,i).6x,i,1))
1: (~5x + loop(\(x,i).6x,i,1))
1: (~x + loop(\(x,i).6x,i,x))
1: (loop(\(x,i).(2x * (1 + i)),x,1) - loop(\(x,i).(x * i),x,x))
1: (~1 + loop(\(x,i).~4x,x,1))
1: (~1 + loop(\(x,i).2x2,1,(49x + 50)))
1: (~1 + loop(\(x,i).2x2,1,(8x + 9)))
1: (~1 + loop(\(x,i).2x2,1,(25x + 26)))
1: (~1 + loop(\(x,i).2x2,1,(72x + 55)))
1: (~1 + loop(\(x,i).2x2,1,(18x + 19)))
1: (~1 + loop(\(x,i).2x2,1,(32x + 33)))
1: (~1 + loop(\(x,i).2x2,1,(1 + ((x + 1) * loop(\(x,i).x2,2,3)))))
1: (~1 + loop(\(x,i).2x2,1,(8x + 7)))
1: (~1 + loop(\(x,i).2x2,1,(72x + 17)))
1: (~1 + loop(\(x,i).2x2,1,(18x + 17)))
1: (~1 + loop(\(x,i).2x2,1,(32x + 31)))
1: (~1 + loop(\(x,i).2x2,1,(5x + 5)))
1: (~1 + loop(\(x,i).2x2,1,(6x + 6)))
1: (~1 + loop(\(x,i).2x2,1,((2x + 2) div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))))
1: (~1 + loop(\(x,i).2x2,2,loop(\(x,i).4x,x,2)))
1: (~1 + loop(\(x,i).2x2,(2x + 2),2))
1: (~3 + loop(\(x,i).2x2,x2,5))
1: (~1 + loop(\(x,i).2x2,(if x <= 0 then 1 else 2x),2))
1: (~1 + loop(\(x,i).2x2,x,1))
1: (loop(\(x,i).2x2,x,1) - loop(\(x,i).2x,x,1))
1: (~1 + loop(\(x,i).2x2,x,2))
1: (loop(\(x,i).(x3 + 2x2),1,loop(\(x,i).(2x + 1),x,0)) - loop(\(x,i).3x,x,1))
1: (~1 + loop(\(x,i).2x3,1,(3x + 3)))
1: (~1 + loop(\(x,i).2x3,3,2))
1: (~1 + loop(\(x,i).x3,1,(x2 + 2x + 1)))
1: (loop(\(x,i).x3,1,25) - loop(\(x,i).(2x + 2),x,0))
1: (~1 + loop(\(x,i).x3,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (~2 + loop(\(x,i).x3,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: ((~x3 + ~3x2 + ~3x + ~1) + loop(\(x,i).x3,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (~1 + loop(\(x,i).x3,1,(7x + 5)))
1: (~1 + loop(\(x,i).x3,1,(10x + 5)))
1: (~x + loop(\(x,i).x3,1,loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),i,1)))
1: (~1 + loop(\(x,i).x3,1,loop(\(x,i).4x2,2,4)))
1: (~1 + loop(\(x,i).x3,1,loop(\(x,i).x2,2,10)))
1: (~2 + loop(\(x,i).x3,2,2))
1: (loop(\(x,i).x3,2,2) - loop(\(x,i).2x,x,1))
1: (~1 + loop(\(x,i).x3,2,4))
1: (~1 + loop(\(x,i).x3,2,(x + 1)))
1: (loop(\(x,i).x3,2,(x + 1)) - loop(\(x,i).x3,2,x))
1: (~1 + loop(\(x,i).x3,2,16))
1: (~1 + loop(\(x,i).x3,2,x))
1: (~x + loop(\(x,i).x3,2,x))
1: (~2x + loop(\(x,i).x3,(x2 + 1),2))
1: (~1 + loop(\(x,i).x3,x,(2 * (1 + (x mod 2)))))
1: (~x + loop(\(x,i).x3,x,2x))
1: (loop(\(x,i).x3,x,x) - loop(\(x,i).x3,2,(if x <= 0 then 1 else x)))
1: (loop(\(x,i).(2x * i),(x + ~2),2) - (if x <= 0 then 1 else 2))
1: (~1 + loop(\(x,i).(2x * i),x,1))
1: (~x + loop(\(x,i).(2x * i),i,1))
1: (~1 + loop(\(x,i).(x2 * i),(x2 + 3x + 2),2))
1: (~4x + loop(\(x,i).(x2 * i),x,(x2 + 2)))
1: (~1 + loop(\(x,i).(2x * (i * i)),3,(x + 1)))
1: (~1 + loop(\(x,i).(x * (i * i * i)),(x + 1),1))
1: (~1 + loop(\(x,i).(x * (i * i)),4,(x + 1)))
1: (~2 + loop(\(x,i).(x * (i * i)),4,(x + 1)))
1: (~1 + loop(\(x,i).(x * (i * i)),(x + 1),1))
1: (~x + loop(\(x,i).(x * (i * i)),(1 + i),1))
1: (~1 + loop(\(x,i).(3 * ((x + 1) div 2)),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1))
1: (loop(\(x,i).(x * ((1 + i) div 2)),(x div 2),1) - (x mod 2))
1: (~1 + loop(\(x,i).(x * ((x + i) div 2)),(x + ~1),2))
1: (~1 + loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(1 + (x div 2)),(1 + (x mod 2))))
1: (~x + loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(x + 1),1))
1: (~2 + loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(x + 2),1))
1: (loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),x,1) - loop(\(x,i).2x,x,1))
1: (loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),x,(x + 3)) - loop(\(x,i).4x,x,2))
1: (~x + loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),i,1))
1: (~2 + loop(\(x,i).((2x div (1 + i)) * (~1 + (2 * i))),x,3))
1: (~x + loop(\(x,i).((2x div (if i <= 0 then 1 else i)) * (2 + i)),i,1))
1: (~1 + loop(\(x,i).(3 * (x mod 7)),x,2))
1: (~1 + loop(\(x,i).(3 * (x mod 7)),x,8))
1: (~1 + loop(\(x,i).(x * (if (x mod 5) <= 0 then 2 else 1)),(x + 1),(x + 1)))
1: (~1 + loop(\(x,i).(x * loop(\(x,i).(x - (if x <= 0 then 0 else (~x + i))),x,x)),2x,2))
1: (~2 + loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,loop(\(x,i).(2x + 1),x,0)))
1: (loop(\(x,i).(x * loop(\(x,i).x2,1,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)))),x,1) - (if x <= 0 then 0 else 1))
1: (~1 + loop(\(x,i).2x,1,loop(\(x,i).(x * i),(x + ~1),1)))
1: ((~3x + ~2) + loop(\(x,i).2x,2,compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)))
1: (~1 + loop(\(x,i).2x,((x + 1) + (x div 2)),2))
1: (~1 + loop(\(x,i).2x,((x + 2) + (x div 4)),2))
1: (~1 + loop(\(x,i).2x,(1 + (2 * loop(\(x,i).(x * (1 + ((~1 + loop(\(x,i).12x,(x + 1),1)) mod (x + 1)))),x,1))),1))
1: (~1 + loop(\(x,i).2x,(x + ((x + (x div 2)) div 4)),2))
1: (~1 + loop(\(x,i).2x,(1 + ((2 * (1 + ((1 + (((~1 + loop(\(x,i).2x,x,(if (x mod 4) <= 0 then 2 else (x mod 2)))) mod (x + 1)) div 2)) div 2))) div 3)),1))
1: (~1 + loop(\(x,i).2x,(1 + (loop(\(x,i).(2 * (x - (i mod 2))),x,2) div 3)),1))
1: (~1 + loop(\(x,i).2x,(1 + (x div (3 + ((x div 2) div 3)))),1))
1: (~1 + loop(\(x,i).2x,(1 + (x div (1 + (2 * (1 + (((x2 + ~x + 2) mod (x + 4)) div 2)))))),1))
1: (~1 + loop(\(x,i).2x,(1 + (x div (2 + ((x div 2) div (1 + (x mod (1 + (x mod (3 + (x mod 2)))))))))),1))
1: (~1 + loop(\(x,i).2x,(1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))),1))
1: (~1 + loop(\(x,i).2x,(1 + (x div (1 + (loop(\(x,i).2x,x,2) mod (2x + 1))))),1))
1: (~1 + loop(\(x,i).2x,(1 + (((4x + ~4) div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) mod 4)),2))
1: (~1 + loop(\(x,i).2x,(2 + (x mod 2)),(x div 2)))
1: (~2 + loop(\(x,i).2x,(x + (if (~2 + (x div 2)) <= 0 then 1 else 2)),1))
1: (~1 + loop(\(x,i).2x,(x + 2),2))
1: (loop(\(x,i).2x,(x + 2),2) - loop(\(x,i).2x,(x div 2),(2 + (x mod 2))))
1: (~1 + loop(\(x,i).2x,(x + 2),4))
1: ((~x + 1) + loop(\(x,i).2x,(x + 2),x))
1: (~x + loop(\(x,i).2x,(x + 2),x))
1: (~1 + loop(\(x,i).2x,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),2))
1: (~1 + loop(\(x,i).2x,(0 - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)),2))
1: (~1 + loop(\(x,i).2x,(2 - ((~x + 1) div 3)),2))
1: (~1 + loop(\(x,i).2x,(~1 + (2 * ((if x <= 0 then 2 else (((x + ~2) * (x div 3)) mod (1 + (x div 2)))) div 2))),1))
1: (loop(\(x,i).2x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),2) - (x mod 3))
1: (loop(\(x,i).2x,(x + ~1),1) - (x div 15))
1: (~2x + loop(\(x,i).2x,(x + ~1),(1 + (if (x + ~2) <= 0 then x else 1))))
1: (~x2 + loop(\(x,i).2x,(x + ~1),(x + 2)))
1: (~x + loop(\(x,i).2x,(x + ~1),x))
1: (loop(\(x,i).2x,(x + ~2),x) - ((x + ~1) * (if x <= 0 then 1 else x)))
1: (~x + loop(\(x,i).2x,(x + ~2),x))
1: (~6x + loop(\(x,i).2x,(~1 + i),1))
1: (~x + loop(\(x,i).2x,(~2 + i),1))
1: (~1 + loop(\(x,i).2x,x2,1))
1: (loop(\(x,i).2x,x2,1) - loop(\(x,i).3x,x,1))
1: (loop(\(x,i).2x,((x2 + ~x) div 2),1) - loop(\(x,i).2x,(x + ~1),1))
1: (loop(\(x,i).2x,((x2 + ~x) div 2),1) - loop(\(x,i).(x * i),x,1))
1: (loop(\(x,i).2x,((x2 + ~x) div 2),1) - loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1))
1: (loop(\(x,i).2x,((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2),1) - (x mod 2))
1: (~1 + loop(\(x,i).2x,((x * (x mod 2)) div 2),2))
1: (loop(\(x,i).2x,(x div 2),1) - (x mod 2))
1: ((~x2 + ~x) + loop(\(x,i).2x,(x div 2),2))
1: (loop(\(x,i).2x,(x div 2),2) - (x mod 2))
1: (~1 + loop(\(x,i).2x,(x div 2),(2 - (x mod 2))))
1: (~1 + loop(\(x,i).2x,(x div 2),(~1 + (x mod 2))))
1: (~1 + loop(\(x,i).2x,(x div (2 - (x mod 2))),2))
1: (~1 + loop(\(x,i).2x,(if (~x + 2) <= 0 then x else 0),2))
1: (~1 + loop(\(x,i).2x,(if (~x2 + 4x) <= 0 then (x + ~1) else 1),1))
1: (~1 + loop(\(x,i).2x,(if (loop(\(x,i).2x2,2x,2) div 2) <= 0 then 1 else (4x + 1)),2))
1: (loop(\(x,i).2x,(if (x mod 2) <= 0 then x else (~x + 2)),2) - (x mod 2))
1: (~1 + loop(\(x,i).2x,x,1) - (2 * ((x2 + 4x + 4) div (~x + 26))))
1: (6 + (loop(\(x,i).2x,x,1) + (x div 3)) - (x div 2))
1: ((loop(\(x,i).2x,x,1) + loop(\(x,i).3x,x,1)) - loop(\(x,i).3x,(x + ~2),1))
1: ((loop(\(x,i).2x,x,1) + loop(\(x,i).(4x + 1),x,0)) - loop(\(x,i).3x,x,1))
1: (~x + (loop(\(x,i).2x,x,1) + ((x + 1) mod 8)))
1: ((loop(\(x,i).2x,x,1) + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) - compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))
1: (~8 + loop(\(x,i).2x,x,1))
1: (~10 + loop(\(x,i).2x,x,1))
1: (~27 + loop(\(x,i).2x,x,1))
1: ((~x2 + ~x) + loop(\(x,i).2x,x,1))
1: ((~x2 + ~2x) + loop(\(x,i).2x,x,1))
1: (loop(\(x,i).2x,x,1) - ((2 - (x mod 4)) * (x mod 2)))
1: (loop(\(x,i).2x,x,1) - (3 * (~1 + (2 * (x mod 2)))))
1: (loop(\(x,i).2x,x,1) - (3 * ((x mod 2) - ((x div 3) mod 2))))
1: ((~x2 + 2x) + loop(\(x,i).2x,x,1))
1: (~x7 + loop(\(x,i).2x,x,1))
1: (~x6 + loop(\(x,i).2x,x,1))
1: (~x5 + loop(\(x,i).2x,x,1))
1: (loop(\(x,i).2x,x,1) - (4 * (x mod 2)))
1: (~x4 + loop(\(x,i).2x,x,1))
1: (~x3 + loop(\(x,i).2x,x,1))
1: (loop(\(x,i).2x,x,1) - (2 * ((1 - loop(\(x,i).((x2 + ~x) div (1 + i)),2,(x + ~1))) div 2)))
1: (loop(\(x,i).2x,x,1) - (2 * loop(\(x,i).3x,(x div 2),(x mod 2))))
1: (loop(\(x,i).2x,x,1) - (3 * loop(\(x,i).(2 * (2 - (i mod 2))),x,1)))
1: (loop(\(x,i).2x,x,1) - (x2 * loop(\(x,i).x3,2,x)))
1: (loop(\(x,i).2x,x,1) - (x * loop(\(x,i).x3,2,x)))
1: (loop(\(x,i).2x,x,1) - (3 * loop(\(x,i).x2,2,3)))
1: (loop(\(x,i).2x,x,1) - (1 div (1 - (if (x mod 2) <= 0 then x else 0))))
1: (loop(\(x,i).2x,x,1) - ((x + (x div 2)) div 5))
1: (loop(\(x,i).2x,x,1) - ((loop(\(x,i).(2 * (2x - (x div (1 + i)))),(x + ~1),2) - loop(\(x,i).4x,x,1)) div 2))
1: (loop(\(x,i).2x,x,1) - (((~x3 + x) div 2) div 3))
1: (loop(\(x,i).2x,x,1) - (loop(\(x,i).(2 + ((x2 + x) div 2)),2,(x + ~1)) div 3))
1: (loop(\(x,i).2x,x,1) - (loop(\(x,i).(2x - (i mod 2)),(x + ~1),x) div 3))
1: (loop(\(x,i).2x,x,1) - (loop(\(x,i).2x,x,1) div 33))
1: (loop(\(x,i).2x,x,1) - (x div 2))
1: (loop(\(x,i).2x,x,1) - (x div 15))
1: (loop(\(x,i).2x,x,1) - ((1 + (x div (~2 + (x mod 2)))) mod 3))
1: (loop(\(x,i).2x,x,1) - ((x + (if (x mod 2) <= 0 then x else 2)) mod 3))
1: (loop(\(x,i).2x,x,1) - (x2 mod 6))
1: (loop(\(x,i).2x,x,1) - (if (x mod 2) <= 0 then ~2 else 1))
1: (loop(\(x,i).2x,x,1) - (if x <= 0 then 0 else (~1 + ((x * (~1 + (x mod 3))) div 2))))
1: (loop(\(x,i).2x,x,1) - loop(\(x,i).(3x + 1),(x div 2),1))
1: (loop(\(x,i).2x,x,1) - loop(\(x,i).(3x + 2),x,0))
1: (loop(\(x,i).2x,x,1) - loop(\(x,i).~x,x,2))
1: (loop(\(x,i).2x,x,1) - loop(\(x,i).(3x + ~1),x,0))
1: (loop(\(x,i).2x,x,1) - loop(\(x,i).(3x + ~2),2x,0))
1: (loop(\(x,i).2x,x,1) - loop(\(x,i).(7x + ~6),x,0))
1: (loop(\(x,i).2x,x,1) - loop(\(x,i).(11x + ~10),x,0))
1: (loop(\(x,i).2x,x,1) - loop(\(x,i).(x - (x div (~2 + (x mod 2)))),x,1))
1: (loop(\(x,i).2x,x,1) - loop(\(x,i).(x - loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,0)),3,x))
1: (loop(\(x,i).2x,x,1) - loop(\(x,i).3x,((x + (x div 4)) div 2),1))
1: (loop(\(x,i).2x,x,1) - loop(\(x,i).3x,(x div 2),1))
1: (loop(\(x,i).2x,x,1) - loop(\(x,i).3x,x,1))
1: (loop(\(x,i).2x,x,1) - loop(\(x,i).3x,x,3))
1: (loop(\(x,i).2x,x,1) - loop(\(x,i).(2x + 2),(x div 2),(1 + (x mod 2))))
1: (loop(\(x,i).2x,x,1) - loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),((x + 1) div 2),1))
1: (loop(\(x,i).2x,x,1) - loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),(x div 2),(1 + (x mod 2))))
1: (loop(\(x,i).2x,x,1) - loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),(x div 2),((x + 1) mod 2)))
1: (loop(\(x,i).2x,x,1) - loop(\(x,i).(2x + ~2),(x div 2),1))
1: (loop(\(x,i).2x,x,1) - loop(\(x,i).(3x * (i * i)),(x + ~1),1))
1: (loop(\(x,i).2x,x,1) - loop(\(x,i).x3,2,x))
1: (loop(\(x,i).2x,x,1) - loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(x + ~1),1))
1: (loop(\(x,i).2x,x,1) - loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(x div 2),(x mod 2)))
1: (loop(\(x,i).2x,x,1) - loop(\(x,i).(2 * (x div (~2 + (i mod 2)))),x,1))
1: (loop(\(x,i).2x,x,1) - loop(\(x,i).2x,(x - (x div (1 + (x mod 2)))),1))
1: (loop(\(x,i).2x,x,1) - loop(\(x,i).2x,((x + 1) div 2),1))
1: (loop(\(x,i).2x,x,1) - loop(\(x,i).2x,(2x div 3),1))
1: (loop(\(x,i).2x,x,1) - loop(\(x,i).2x,(x div 2),1))
1: (loop(\(x,i).2x,x,1) - loop(\(x,i).2x,(x div 2),2))
1: (loop(\(x,i).2x,x,1) - loop(\(x,i).2x,(x div 2),(2 + (x mod 2))))
1: (loop(\(x,i).2x,x,1) - loop(\(x,i).2x,(x div 2),(~1 + (x mod 2))))
1: (loop(\(x,i).2x,x,1) - loop(\(x,i).x2,2,3))
1: (loop(\(x,i).2x,x,1) - loop(\(x,i).x2,2,x3))
1: (loop(\(x,i).2x,x,1) - loop(\(x,i).x2,2,x2))
1: (loop(\(x,i).2x,x,1) - loop(\(x,i).((x * (1 + i)) div (1 + (i div 2))),x,1))
1: (loop(\(x,i).2x,x,1) - loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x div 2),1))
1: (loop(\(x,i).2x,x,1) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: ((~x + ~3) + loop(\(x,i).2x,x,2))
1: (~1 + loop(\(x,i).2x,x,2) - ((loop(\(x,i).(x + (x div 2)),x,2) div 2) div 2))
1: (~1 + loop(\(x,i).2x,x,2) - (x div 2))
1: (1 + loop(\(x,i).2x,x,2) - ((x + (if (x mod 2) <= 0 then 2 else x)) mod 3))
1: ((~x2 + 2x) + loop(\(x,i).2x,x,2))
1: (loop(\(x,i).2x,x,2) - ((3 * (x mod 3)) div 2))
1: (loop(\(x,i).2x,x,2) - ((1 + (x div (~2 + (x mod 2)))) mod 3))
1: (loop(\(x,i).2x,x,2) - (loop(\(x,i).2x,x,1) mod (x + 1)))
1: (loop(\(x,i).2x,x,2) - (if (~2 + (x div 5)) <= 0 then 0 else 2))
1: (loop(\(x,i).2x,x,2) - (if (x mod 2) <= 0 then loop(\(x,i).2x,(x div 2),2) else 0))
1: (loop(\(x,i).2x,x,2) - (if loop(\(x,i).(~x + i),x,2) <= 0 then 2 else 1))
1: (loop(\(x,i).2x,x,2) - (if x <= 0 then 0 else 1))
1: (loop(\(x,i).2x,x,2) - loop(\(x,i).~x,x,2))
1: (loop(\(x,i).2x,x,2) - loop(\(x,i).~x,x,(~1 + (x mod 3))))
1: (loop(\(x,i).2x,x,2) - loop(\(x,i).((2x + ~1) + (i mod 2)),((x + 1) div 2),1))
1: (loop(\(x,i).2x,x,2) - loop(\(x,i).(3x + ~1),x,2))
1: (loop(\(x,i).2x,x,2) - loop(\(x,i).(2x + ~1),(x div 2),(x mod 2)))
1: (loop(\(x,i).2x,x,2) - loop(\(x,i).(4x + 2),x,1))
1: (loop(\(x,i).2x,x,2) - loop(\(x,i).(2x + 2),((x + 1) div 2),0))
1: (loop(\(x,i).2x,x,2) - loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),((x + 1) div 2),2))
1: (loop(\(x,i).2x,x,2) - loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),(x div 2),(1 + (x mod 2))))
1: (loop(\(x,i).2x,x,2) - loop(\(x,i).(3x + ~6),x,1))
1: (loop(\(x,i).2x,x,2) - loop(\(x,i).(3x + ~6),x,2))
1: (loop(\(x,i).2x,x,2) - loop(\(x,i).(2 * (x div (~2 + (i mod 2)))),x,1))
1: (loop(\(x,i).2x,x,2) - loop(\(x,i).2x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1))
1: (loop(\(x,i).2x,x,2) - loop(\(x,i).2x,(x - (x div (1 + (x mod 2)))),1))
1: (loop(\(x,i).2x,x,2) - loop(\(x,i).2x,(loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2),1))
1: (loop(\(x,i).2x,x,2) - loop(\(x,i).2x,(x div 2),1))
1: (loop(\(x,i).2x,x,2) - loop(\(x,i).2x,(x div 2),2))
1: (loop(\(x,i).2x,x,2) - loop(\(x,i).2x,(x mod 4),1))
1: (loop(\(x,i).2x,x,2) - loop(\(x,i).2x,(x mod 6),1))
1: (loop(\(x,i).2x,x,2) - loop(\(x,i).2x,(x mod 12),1))
1: (loop(\(x,i).2x,x,2) - loop(\(x,i).2x,(if (x mod 2) <= 0 then (x div 2) else 0),1))
1: (loop(\(x,i).2x,x,2) - loop(\(x,i).(x * i),(x div 2),1))
1: (loop(\(x,i).2x,x,2) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: ((loop(\(x,i).2x,x,3) + loop(\(x,i).6x,x,1)) - (loop(\(x,i).4x,x,1) + loop(\(x,i).5x,x,1) + loop(\(x,i).3x,x,1)))
1: (loop(\(x,i).2x,x,3) - loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),((x + 1) div 2),1))
1: (loop(\(x,i).2x,x,3) - loop(\(x,i).2x,((x + 1) div 2),1))
1: (loop(\(x,i).2x,x,3) - loop(\(x,i).2x,((x + 1) mod 5),1))
1: (loop(\(x,i).2x,x,4) - ((if (x mod 2) <= 0 then (~x + 2) else x) mod 3))
1: (~1 + loop(\(x,i).2x,x,(4 + ((x div 2) div 3))))
1: (~1 + loop(\(x,i).2x,x,(x2 + 7x + 8)))
1: (~1 + loop(\(x,i).2x,x,(x2 + x + 2)))
1: (~1 + loop(\(x,i).2x,x,(1 + (2 * (1 + loop(\(x,i).(2x + 4),(x + ~1),0) - (x mod 2))))))
1: (~1 + loop(\(x,i).2x,x,(1 + (2 * (if (x mod 5) <= 0 then 0 else 2)))))
1: (~x + loop(\(x,i).2x,x,(2x + 1)))
1: (~1 + loop(\(x,i).2x,x,(1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))))
1: (loop(\(x,i).2x,x,(1 + (x mod 2))) - (x mod 2))
1: (~1 + loop(\(x,i).2x,x,(1 + (x mod (1 + ((x + 1) mod 3))))))
1: (loop(\(x,i).2x,x,(1 + (x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4)))))))) - (x mod 2))
1: (~1 + loop(\(x,i).2x,x,(1 + (if ((x mod 7) mod 3) <= 0 then 2 else 0))))
1: (~1 + loop(\(x,i).2x,x,(2 + loop(\(x,i).2x,x,2))))
1: (~x + loop(\(x,i).2x,x,(x + 1)))
1: (~1 + loop(\(x,i).2x,x,(1 - (2 * ((x mod (2 + (x mod 5))) mod 2)))))
1: (~1 + loop(\(x,i).2x,x,(1 - loop(\(x,i).(2 * (x - (i mod 2))),x,0))))
1: (~1 + loop(\(x,i).2x,x,(1 - loop(\(x,i).(2 * (x - (i mod 2))),x,(x mod 2)))))
1: (~1 + loop(\(x,i).2x,x,(1 + (if (x mod 3) <= 0 then 2 else 0) - (x mod 2))))
1: (~1 + loop(\(x,i).2x,x,((x5 + ~1) + loop(\(x,i).8x,x,1))))
1: (~1 + loop(\(x,i).2x,x,(8 - ((x + 2) div 3))))
1: (~1 + loop(\(x,i).2x,x,15))
1: (~1 + loop(\(x,i).2x,x,(~1 + (x mod 4))))
1: (~1 + loop(\(x,i).2x,x,((x mod 6) - (x mod 5))))
1: (loop(\(x,i).2x,x,(~1 + loop(\(x,i).2x,(x * (x mod 2)),2))) - (x mod 2))
1: (loop(\(x,i).2x,x,(~1 + loop(\(x,i).2x,x,2))) - (1 div (2x + ~1)))
1: (loop(\(x,i).2x,x,(~1 + loop(\(x,i).2x,x,2))) - loop(\(x,i).(3x + 1),x,1))
1: (~1 + loop(\(x,i).2x,x,(loop(\(x,i).(x * i),x,1) - loop(\(x,i).(x * (~1 + (2 * i))),x,1))))
1: (~1 + loop(\(x,i).2x,x,10))
1: (~1 + loop(\(x,i).2x,x,(2 * (~x + loop(\(x,i).2x,x,1)))))
1: (~1 + loop(\(x,i).2x,x,(3 * ((x div 3) mod 2))))
1: (~1 + loop(\(x,i).2x,x,(x div (2 - (x mod 2)))))
1: (~1 + loop(\(x,i).2x,x,(if (x + ~2) <= 0 then 1 else 2)))
1: (~1 + loop(\(x,i).2x,x,(if ((x + (x div 2)) mod 4) <= 0 then 2 else 1)))
1: (~1 + loop(\(x,i).2x,x,(if (loop(\(x,i).2x,x,3) mod (x + 3)) <= 0 then 2 else 1)))
1: (~1 + loop(\(x,i).2x,x,(if (x mod 2) <= 0 then 1 else loop(\(x,i).(2x + 2),x,0))))
1: (loop(\(x,i).2x,x,(if (x mod 2) <= 0 then 1 else loop(\(x,i).(2x + 2),x,0))) - (x mod 2))
1: (~1 + loop(\(x,i).2x,x,(if (x mod 2) <= 0 then 2 else 0)))
1: (~1 + loop(\(x,i).2x,x,(if (x mod 3) <= 0 then 1 else 2)))
1: (~1 + loop(\(x,i).2x,x,(if (x mod 7) <= 0 then 1 else 2)))
1: (~1 + loop(\(x,i).2x,x,(if (x mod 13) <= 0 then 1 else 2)))
1: (~1 + loop(\(x,i).2x,x,(if (x mod 11) <= 0 then 1 else 2)))
1: (~1 + loop(\(x,i).2x,x,(if loop(\(x,i).(~x + i),x,2) <= 0 then 1 else 2)))
1: (loop(\(x,i).2x,x,(if x <= 0 then 1 else 2)) - ((x2 + 3x + 2) div 2))
1: (~1 + loop(\(x,i).2x,x,(if x <= 0 then 1 else (2 * (if (~2 + (x div 3)) <= 0 then 0 else 2)))))
1: (~1 + loop(\(x,i).2x,x,(if x <= 0 then 1 else x)))
1: (~1 + loop(\(x,i).2x,x,loop(\(x,i).(3x + (if (i mod 3) <= 0 then 1 else 2)),x,1)))
1: (loop(\(x,i).2x,x,loop(\(x,i).(3x + 2),x,0)) - loop(\(x,i).3x,x,1))
1: (~1 + loop(\(x,i).2x,x,loop(\(x,i).(2x + 1),x,2)))
1: (~2 + loop(\(x,i).2x,x,loop(\(x,i).(1 + (x * i)),x,1)))
1: (~1 + loop(\(x,i).2x,x,loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),i,1)),x,1)))
1: (~1 + loop(\(x,i).2x,x,loop(\(x,i).(2x + 6),x,2)))
1: (~1 + loop(\(x,i).2x,x,loop(\(x,i).(2x + 2),(x + ~1),2)))
1: (~1 + loop(\(x,i).2x,x,loop(\(x,i).x2,x,2)))
1: (~8x + loop(\(x,i).2x,x,x))
1: (~3x + loop(\(x,i).2x,i,1))
1: (~4x + loop(\(x,i).2x,i,1))
1: (~x2 + loop(\(x,i).2x,i,1))
1: (loop(\(x,i).2x,i,1) - (x div (if i <= 0 then 1 else i)))
1: (~x + loop(\(x,i).2x,i,1))
1: (~1 + loop(\(x,i).2x,i,2x))
1: (~1 + loop(\(x,i).2x,i,x2))
1: (~1 + loop(\(x,i).2x,i,x))
1: (~x + loop(\(x,i).2x,i,x))
1: (~1 + loop(\(x,i).2x,compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),2))
1: (~1 + loop(\(x,i).x2,1,(5x + 4)))
1: (~1 + loop(\(x,i).x2,1,(5x + 2)))
1: (~x + loop(\(x,i).x2,1,(1 + ((x2 + x) div 2))))
1: ((~x + ~1) + loop(\(x,i).x2,1,(1 + (x div (1 + (x mod (1 + (x mod (1 + (x div (2 + (x div 5))))))))))))
1: (~1 + loop(\(x,i).x2,1,(1 + (x mod (1 + (loop(\(x,i).2x,x,(1 + (x mod 2))) mod (2x + 1)))))))
1: ((~x2 + ~2x) + loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) - (if (x + ~2) <= 0 then 2 else 1))
1: (~x + loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) - compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))
1: (~1 + loop(\(x,i).x2,1,((x mod 3) - (x mod 5))))
1: (loop(\(x,i).x2,1,(~1 + loop(\(x,i).2x,x,2))) - (if (x + ~1) <= 0 then x else 0))
1: (~1 + loop(\(x,i).x2,1,(~49x + ~10)))
1: (~1 + loop(\(x,i).x2,1,(2 * (2x + i))))
1: (~1 + loop(\(x,i).x2,1,(3 * (x + (x div 4)))))
1: (~1 + loop(\(x,i).x2,1,(2x + 4)))
1: (~3 + loop(\(x,i).x2,1,(2 * (1 - ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)))))
1: (~1 + loop(\(x,i).x2,1,(8x + 8)))
1: (~x + loop(\(x,i).x2,1,(12x + 12)))
1: (~1 + loop(\(x,i).x2,1,(8x + 4)))
1: (~1 + loop(\(x,i).x2,1,(6x + 6)))
1: (loop(\(x,i).x2,1,((2x + 1) div (3 + (x div 4)))) - (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))
1: (~x2 + loop(\(x,i).x2,1,((~2 - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) div 2)))
1: (~1 + loop(\(x,i).x2,1,((4x + 4) div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))))
1: (~x + loop(\(x,i).x2,1,(x mod 10)))
1: (~1 + loop(\(x,i).x2,1,(if x <= 0 then 1 else (2 * (1 + ((1 + ((loop(\(x,i).(20x + ~21),x,1) div 2) div 2)) div 2))))))
1: (~1 + loop(\(x,i).x2,1,loop(\(x,i).((x + 2) + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i)),x,2)))
1: (~x + loop(\(x,i).x2,1,loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)))
1: (~1 + loop(\(x,i).x2,1,loop(\(x,i).(2x + 2),2x,2)))
1: (~x + loop(\(x,i).x2,1,loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),i,1)))
1: (~1 + loop(\(x,i).x2,1,loop(\(x,i).2x2,3,2)))
1: (~2 + loop(\(x,i).x2,1,compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),(x + 1))))
1: (~4 + loop(\(x,i).x2,1,compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x)))
1: (~2 + loop(\(x,i).x2,2,4))
1: ((~x + ~1) + loop(\(x,i).x2,2,4))
1: (~x2 + loop(\(x,i).x2,2,(x + 1)))
1: (~x + loop(\(x,i).x2,2,(x + 1)))
1: (~1 + loop(\(x,i).x2,2,(x + 2)))
1: ((~2x + ~2) + loop(\(x,i).x2,2,(x + 2)))
1: (loop(\(x,i).x2,2,(x + 2)) - ((x2 + 3x + 2) div 2))
1: (~8 + loop(\(x,i).x2,2,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (~32 + loop(\(x,i).x2,2,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (~2 + loop(\(x,i).x2,2,23))
1: (~1 + loop(\(x,i).x2,2,8))
1: (loop(\(x,i).x2,2,8) - loop(\(x,i).2x,x,2))
1: (~1 + loop(\(x,i).x2,2,(x3 + 3x2 + 3x + 1)))
1: (~1 + loop(\(x,i).x2,2,32))
1: (~x + loop(\(x,i).x2,2,x2))
1: (~2 + loop(\(x,i).x2,2,loop(\(x,i).(2x + 1),x,0)))
1: (~1 + loop(\(x,i).x2,2,loop(\(x,i).2x2,2,2)))
1: (~1 + loop(\(x,i).x2,2,loop(\(x,i).2x2,(2x + ~1),2)))
1: (loop(\(x,i).x2,3,(x + 1)) - loop(\(x,i).x2,2,x2))
1: (~1 + loop(\(x,i).x2,3,8))
1: (~1 + loop(\(x,i).x2,3,10))
1: (~2 + loop(\(x,i).x2,(3x + 2),3))
1: (~1 + loop(\(x,i).x2,(x + ~2),(if x <= 0 then 1 else (x + (if (x mod 2) <= 0 then x else 1)))))
1: (~1 + loop(\(x,i).x2,x3,2))
1: (~1 + loop(\(x,i).x2,x2,4))
1: (loop(\(x,i).x2,x,2) - loop(\(x,i).(2x + 1),x,0))
1: (loop(\(x,i).x2,x,2) - loop(\(x,i).(x2 + (x mod 2)),x,1))
1: (loop(\(x,i).x2,x,2) - loop(\(x,i).(2x + ~1),x,0))
1: (loop(\(x,i).x2,x,2) - loop(\(x,i).((2 * i) - (x * (1 + i))),x,1))
1: (loop(\(x,i).x2,x,2) - loop(\(x,i).loop(\(x,i).2x,i,x2),(x + ~1),1))
1: (loop(\(x,i).x2,x,3) - loop(\(x,i).x2,x,2))
1: (~1 + loop(\(x,i).x2,x,4))
1: (~1 + loop(\(x,i).x2,x,8))
1: (loop(\(x,i).x2,x,loop(\(x,i).2x,x,1)) - loop(\(x,i).(x * i),loop(\(x,i).2x,x,1),1))
1: (~x + loop(\(x,i).x2,i,3))
1: (~2 + loop(\(x,i).(x * i),(1 + (2 * (x - (x div ~2)))),1))
1: (~1 + loop(\(x,i).(x * i),(~4 + (x div 2)),2))
1: (~2 + loop(\(x,i).(x * i),(x + ~1),(x2 + 3)))
1: (loop(\(x,i).(x * i),(x + ~2),1) - (if x <= 0 then 2 else 0))
1: (~x + loop(\(x,i).(x * i),(~1 + i),1))
1: (~1 + loop(\(x,i).(x * i),(2x2 + 4),1))
1: (~1 + loop(\(x,i).(x * i),2x,1))
1: (loop(\(x,i).(x * i),2x,1) - loop(\(x,i).(2x * i),x,1))
1: (loop(\(x,i).(x * i),2x,1) - loop(\(x,i).(x * i),x,1))
1: (loop(\(x,i).(x * i),(x div 2),1) - loop(\(x,i).(x * i),x,1))
1: (~1 + loop(\(x,i).(x * i),(x div 3),1))
1: ((~x + ~2) + loop(\(x,i).(x * i),x,1))
1: (~x7 + loop(\(x,i).(x * i),x,1))
1: (~x6 + loop(\(x,i).(x * i),x,1))
1: (~x5 + loop(\(x,i).(x * i),x,1))
1: (~x4 + loop(\(x,i).(x * i),x,1))
1: (~x3 + loop(\(x,i).(x * i),x,1))
1: (loop(\(x,i).(x * i),x,1) - (x * loop(\(x,i).x3,2,x)))
1: (~x2 + loop(\(x,i).(x * i),x,1))
1: (loop(\(x,i).(x * i),x,1) - (((x3 + ~3x2 + 2x) div 2) div 3))
1: (loop(\(x,i).(x * i),x,1) - (x mod 2))
1: (loop(\(x,i).(x * i),x,1) - loop(\(x,i).(2x + ~1),x,0))
1: (loop(\(x,i).(x * i),x,1) - loop(\(x,i).(x * (~1 + ((i mod 2) + i))),x,1))
1: (loop(\(x,i).(x * i),x,1) - loop(\(x,i).(x * (~1 + (2 * i))),x,1))
1: (loop(\(x,i).(x * i),x,1) - loop(\(x,i).x3,2,x))
1: (loop(\(x,i).(x * i),x,1) - loop(\(x,i).2x,(x + ~1),1))
1: (loop(\(x,i).(x * i),x,1) - loop(\(x,i).2x,x,1))
1: (loop(\(x,i).(x * i),x,1) - loop(\(x,i).x2,2,x2))
1: (~x + loop(\(x,i).(x * i),x,2))
1: (~1 + loop(\(x,i).(x * i),x,4))
1: (~1 + loop(\(x,i).(x * i),x,5))
1: (~1 + loop(\(x,i).(x * i),x,7))
1: ((~x2 + 2x) + loop(\(x,i).(x * i),x,(x + 1)))
1: (~x2 + loop(\(x,i).(x * i),x,(x + 1)))
1: (loop(\(x,i).(x * i),x,(x + 1)) - (x mod 2))
1: (loop(\(x,i).(x * i),x,(x + 1)) - loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,1))
1: (loop(\(x,i).(x * i),x,(x + 1)) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: (~1 + loop(\(x,i).(x * i),x,loop(\(x,i).(2 * (x + (i mod 2))),(x div 2),1)))
1: (~1 + loop(\(x,i).(x * i),x,loop(\(x,i).((x + 1) * ((if (x mod 2) <= 0 then 1 else x) mod 4)),x,1)))
1: (loop(\(x,i).(x * i),x,x) - (if (x + ~2) <= 0 then x else 0))
1: (~1 + loop(\(x,i).(x * i),i,1))
1: (~x + loop(\(x,i).(x * i),i,1))
1: (~x + loop(\(x,i).(x * i),i,3))
1: (~1 + loop(\(x,i).(i * i),(x + ~2),x))
1: (~1 + loop(\(x,i).(10 div (x + 1)),2,(x + 1)))
1: (loop(\(x,i).((x2 + 5x) div 2),1,loop(\(x,i).2x,x,1)) - loop(\(x,i).(3x + 1),x,1))
1: (loop(\(x,i).((x2 + 3x) div 2),1,loop(\(x,i).2x,x,1)) - loop(\(x,i).3x,x,1))
1: (~1 + loop(\(x,i).((3x2 + 7x + 4) div 2),1,(x2 + 2x + 1)))
1: (~1 + loop(\(x,i).((x * (2 + (x div 2))) div 2),x,2))
1: (loop(\(x,i).((x2 + x) div 2),1,loop(\(x,i).2x,x,1)) - loop(\(x,i).(3x + 1),x,0))
1: ((~x2 + x) + loop(\(x,i).((x2 + x) div 2),2,x))
1: (~1 + loop(\(x,i).((x2 + 3x + 2) div 2),2,9))
1: (~1 + loop(\(x,i).((x2 + 3x + 2) div 2),2,x))
1: (~x + loop(\(x,i).((x2 + 3x + 2) div 2),2,x))
1: (~1 + loop(\(x,i).((x2 + 3x + 2) div 2),x,4))
1: (~1 + loop(\(x,i).((x * (1 + i)) div (1 + (i div 2))),(x + ~1),1))
1: (~2 + loop(\(x,i).((x * (1 + i)) div (1 + (i div 2))),(x + ~1),1))
1: (loop(\(x,i).((x * (1 + i)) div (1 + (i div 2))),x,1) - ((x2 + x) div 2))
1: (loop(\(x,i).((x2 + ~3x + 2) div 2),2,(x + 3)) - (x mod 2))
1: (~1 + loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x + 1),1))
1: ((~x2 + ~2x) + loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x + 1),1))
1: (loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x + 2),1) - loop(\(x,i).2x,x,2))
1: (~2 + loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,2))
1: (~x + loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,2))
1: (~x + loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),i,1))
1: (~x + loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),i,(1 + i)))
1: (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) - (x * (x mod 2)))
1: (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) - loop(\(x,i).(1 + (if (x + ~1) <= 0 then x else i)),(x + ~1),0))
1: (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) - loop(\(x,i).2x,(x + ~1),1))
1: (~1 + loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,2))
1: ((~x2 + x) + loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,2))
1: (~1 + loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,(x + 2)))
1: ((~x + ~1) + loop(\(x,i).(8x div 5),2,(4x + 4)))
1: (~x + loop(\(x,i).((4x * (~1 + (2 * i))) div (1 + i)),(~1 + i),2))
1: (~x + loop(\(x,i).((4x * (~1 + (2 * i))) div (1 + i)),i,1))
1: (~x + loop(\(x,i).((4x * (~1 + (2 * i))) div (1 + i)),i,2))
1: (~1 + loop(\(x,i).(loop(\(x,i).(2x + 2),x,0) div (x + 1)),1,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (~1 + loop(\(x,i).(x div 2),(x + ~2),loop(\(x,i).(2x + 2),x,2)))
1: (~x + loop(\(x,i).(x div (1 + (x mod 2))),x,x))
1: (loop(\(x,i).(x div (1 + (x mod 2))),x,x) - i)
1: (~1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 0 else 2))),x,x))
1: (~x + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,(x + 1)))
1: (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) - (x mod 4))
1: (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) - loop(\(x,i).4x,x,1))
1: (~x + loop(\(x,i).(x div (2 - (x mod 2))),x,x2))
1: (~1 + loop(\(x,i).(x div (if (x mod 2) <= 0 then 4 else 1)),3,x))
1: (~2 + loop(\(x,i).(x3 mod 30),(x + 1),(x + 2)))
1: (~1 + loop(\(x,i).(loop(\(x,i).2x,x,2) mod (x + 1)),1,(2x + 2)))
1: (~1 + loop(\(x,i).(if (x + ~1) <= 0 then 1 else (2 * ((x + 1) - (((x + 1) mod (1 + (2 * ((1 + (x div 4)) div 2)))) div 2)))),1,(x + ~1)))
1: (~1 + loop(\(x,i).(if (x mod (1 + (2 * i))) <= 0 then 1 else x),(x + 1),2x))
1: (~1 + loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + 1)))
1: (~1 + loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),(x div 2),(2x + ~1)))
1: (~2 + loop(\(x,i).(if x <= 0 then 1 else (2 * (1 + loop(\(x,i).2x,x,(loop(\(x,i).10x,x,1) - loop(\(x,i).4x,x,1)))))),1,(x + 1)))
1: (~1 + loop(\(x,i).(if x <= 0 then 1 else (10x + 10)),2,x))
1: (~1 + loop(\(x,i).(if x <= 0 then 1 else 2x),x,(~x + 3)))
1: (~1 + loop(\(x,i).(if x <= 0 then 1 else loop(\(x,i).(if (x mod 2) <= 0 then 2 else loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),x,x)),2,x)),2,x))
1: (~x + loop(\(x,i).(if x <= 0 then 2 else loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then i else 0)),(x div 2),(x + 1))),2,x))
1: (~x + loop(\(x,i).(if x <= 0 then (2 * i) else (x + ~1)),x,1))
1: (~x + loop(\(x,i).(if x <= 0 then i else (x div 2)),x,0))
1: (~1 + loop(\(x,i).loop(\(x,i).(x + (((2 * (i mod 2)) + i) * i)),i,x),x,1))
1: (~1 + loop(\(x,i).loop(\(x,i).(x + (i * i)),(x + ~1),1),2,x))
1: (~1 + loop(\(x,i).loop(\(x,i).(2 + (x mod 2)),(x mod 2),(x div 2)),4,x))
1: (~2 + loop(\(x,i).loop(\(x,i).(x + loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(~2 + i),1)),x,1),1,loop(\(x,i).2x,x,1)))
1: (~1 + loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(9x + 6)))
1: (~1 + loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(15x + 6)))
1: (~1 + loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(6x2 + 12x + 3)))
1: (~1 + loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,33x))
1: (~1 + loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,21x))
1: (~1 + loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(12x + 6)))
1: (~1 + loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,18x))
1: (~1 + loop(\(x,i).loop(\(x,i).3x,x,x),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (~1 + loop(\(x,i).loop(\(x,i).5x,x,x),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (~1 + loop(\(x,i).loop(\(x,i).(x * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i))),i,2x),x,2))
1: (~x + loop(\(x,i).loop(\(x,i).(x2 * (1 + (2 * i))),x,2),x,0))
1: (~1 + loop(\(x,i).loop(\(x,i).4x,x,x),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (~1 + loop(\(x,i).loop(\(x,i).x3,1,2x2),x,2))
1: (~2 + loop(\(x,i).loop(\(x,i).2x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),2),2,(x + 1)))
1: (~1 + loop(\(x,i).loop(\(x,i).2x,loop(\(x,i).(x * i),i,1),1),x,2))
1: (~1 + loop(\(x,i).loop(\(x,i).2x,loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),i,1),1),x,2))
1: (~x + loop(\(x,i).loop(\(x,i).2x,x,(1 + (x div 2))),1,i))
1: (~1 + loop(\(x,i).loop(\(x,i).2x,x,x),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (~1 + loop(\(x,i).loop(\(x,i).2x,i,x),x,1))
1: (~1 + loop(\(x,i).loop(\(x,i).x2,1,(6x2 + 12)),1,x2))
1: (~1 + loop(\(x,i).loop(\(x,i).x2,1,(x2 * (x div 2))),x,4))
1: (~1 + loop(\(x,i).loop(\(x,i).x2,2,x3),(1 + (x mod 2)),2))
1: (~1 + loop(\(x,i).loop(\(x,i).(x * i),x,2),x,1))
1: (~1 + loop(\(x,i).loop(\(x,i).(x * i),i,2x),x,1))
1: (~1 + loop(\(x,i).loop(\(x,i).(x * i),i,x),x,~x))
1: (~1 + loop(\(x,i).loop(\(x,i).(((x + i) * i) div (x + 1)),x,2x),(x + ~1),2))
1: (~x + loop(\(x,i).loop(\(x,i).(2x div (1 + i)),x,(1 + (2 * i))),x,x))
1: (~1 + loop(\(x,i).loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + 1)),1,(x2 + x)))
1: (~1 + loop(\(x,i).loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + 1)),1,(x2 + 2x)))
1: (~1 + loop(\(x,i).loop(\(x,i).i,((x + 1) mod 10),x),2,x))
1: (~x + loop(\(x,i).i,(~2 + (x div 2)),1))
1: (loop(\(x,i).i,(x div 4),2) - ((x + 1) div 2))
1: (~x + loop(\(x,i).i,(x div 4),2))
1: (~x + loop(\(x,i).i,(x div 4),x))
1: (~1 + loop(\(x,i).i,((~x + 1) mod 3),x))
1: (loop(\(x,i).i,((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),1) - (x mod 2))
1: (~1 + loop(\(x,i).i,(((x + ~2) * (x div 3)) mod (1 + (x div 2))),1))
1: (~x - (((x - ((x3 + 3x2 + 2x + 6) div 3)) div 2) + (if x <= 0 then 1 else x)))
1: ((x + ~4) - (x div 12))
1: (~2 - (if (x + ~2) <= 0 then 1 else 8))
1: (~2 - (if (x + ~4) <= 0 then 9 else 2x))
1: (~2 - (if x <= 0 then 1 else (2 * (2x + ((x + ((x div 2) mod 2)) div 2)))))
1: (~2 - loop(\(x,i).(1 - (((x + 2) * (1 + ((x2 + 4x + 4) div 2) - (x mod 2))) div 3)),1,(x + 2)))
1: (x + ((2 - (x div 2)) div (x + 2)) - (((x + 1) div 2) div 3))
1: ((x + ~1) + (2 * (x mod 2)) - (x div 2))
1: ((x + ~1) + (x mod 2) - ((x mod (~1 + (2 * (x div 4)))) mod 2))
1: (x + ~13)
1: ((x + ~3) - (2 * (4 + (((x + 4) + ((x + 1) div (1 + (x div (2 + (x mod (2 + (x mod 2)))))))) div 2))))
1: ((x + ~1) - (2 * ((x div (1 + (4 * (1 + (2 * (x mod 2)))))) + (x mod 2))))
1: ((x + ~1) - (2 * (2 + (x div 8))))
1: ((x + ~1) - ((1 + ((x * (x div 2)) mod 2)) * ((x mod 3) mod 2)))
1: ((x + ~1) - (2 * (1 + ((x div 2) mod 2))))
1: ((x + ~1) - (3 * (2x + (x mod 2))))
1: ((x + ~2) - ((1 + i) * i))
1: (2x2 + x + ~7)
1: (2x2 + x + ~5)
1: ((x + ~1) - (3 * ((~x + ~2) + (x mod 2))))
1: ((x + ~1) - (3 * ((~2x + ~2) + ((x - (x div 4)) div 2))))
1: ((x + ~1) - (2 * ((x div 8) - (if x <= 0 then 1 else x))))
1: ((x + ~1) - (2 * (~x + ((x div 2) mod 2))))
1: ((x + ~1) - (3 * ((~2x + ~2) + (x mod 2))))
1: ((x + ~1) - (2 * ((x mod 2) - ((~1 + (x div 2)) mod 3))))
1: ((x + ~1) - (3 * (x - (3 * ((x + 2) + (3 * (x div 2)))))))
1: (x + ~41)
1: (x + ~37)
1: (x + ~21)
1: (~2x2 + ~7x + ~9)
1: (x + ~49)
1: (x5 + ~x4 + ~x3 + ~x2 + ~x + ~1)
1: ((x + ~1) - (8 * (x - (x div ~2))))
1: (~31x + ~1)
1: (~23x + ~1)
1: (~39x + ~1)
1: (~19x + ~1)
1: (~29x + ~1)
1: (~5x + ~1)
1: (x - ((2 * ((1 + (x div 3)) div 3)) + ((x + 1) div 3)))
1: ((x + ~1) - (2 * ((x + 1) div 3)))
1: ((x + ~1) - (2 * ((2x + ~1) div 5)))
1: ((x + ~1) - (2 * ((x + ~1) div (2 + (if (~2 + (x div 3)) <= 0 then 2 else 1)))))
1: ((x + ~1) - (2 * ((x + ~2) div (if x <= 0 then 1 else 4))))
1: ((x + ~1) - (2 * ((x - (x div 4)) div 2)))
1: ((x + ~1) - (2 * (3x div 7)))
1: ((x + ~1) - (2 * (4x div 7)))
1: ((x + ~1) - (2 * (((x + ~1) div 2) div 3)))
1: (x - ((2 * ((((2 - (x div 2)) mod (x + 2)) div 2) div 2)) + ((x + 1) div 3)))
1: ((x + ~1) - (3 * ((if x <= 0 then 1 else x) div ~7)))
1: ((x + ~2) - (3 * ((if x <= 0 then 1 else x) div ~7)))
1: ((x + ~2) - (x * (x div 3)))
1: (x - ((2 * (x div 5)) + (x div 3)))
1: ((x + ~1) - (2 * (x div 7)))
1: ((x + ~1) - (2 * ((x + 1) mod (~2 + (x mod ~2)))))
1: ((x + ~1) - (2 * (x mod ~3)))
1: ((x + ~1) - (2 * loop(\(x,i).2x,(x + ~1),(~1 - ((x + loop(\(x,i).(3x + ~1),2x,1)) div 2)))))
1: ((x + ~1) - (x * i))
1: ((x + ~2) - (((2x + 3) + (2 * ((1 + (((2x + 2) * (1 + (((1 + (((x + 1) * (1 + ((x + (x mod 4)) * (1 + (x div 4))))) div 2)) div 2) div 2))) div 2)) div 2))) div 3))
1: (x - (((x + ((x div 4) mod 2)) div 2) + ((x + ~1) div 3)))
1: ((x + ~1) - ((1 + (if x <= 0 then 1 else (2 * ((1 + (if (x mod 3) <= 0 then 0 else x)) div 3)))) div 2))
1: ((x + ~1) - ((x + 2) div (2 + (x div 4))))
1: ((x + ~1) - ((~x + 2) div 8))
1: (x - (((~1 + (x div 2)) div 2) + (x div 3)))
1: (x - (((x + ~2) div (2 + (x div 2))) + ((x div 2) div 3)))
1: ((x + ~1) - (6 div (1 + (x div 2))))
1: ((x + ~1) - ((2 * ((2x + 1) - (x2 div (3x + 4)))) div 3))
1: (x - (((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3) + (if x <= 0 then 0 else 1)))
1: (0 - ((2 * (x + (if (x + ~4) <= 0 then 1 else x))) div (x + 2)))
1: ((x + ~1) - ((2 * (x - ((~x + 4) div (2 + (x div 4))))) div 3))
1: (0 - (x3 div loop(\(x,i).(~3x2 + x),2,2)))
1: ((x + ~1) - ((3 * ((1 + (x div 2)) div (3 + (x mod 2)))) div 2))
1: ((x + ~2) - ((2 * (x div 2)) div 3))
1: ((x + ~1) - ((2 * (x div 2)) div (1 + (x div 4))))
1: ((x + ~1) - (2x div (1 + (x mod 6))))
1: ((x + ~1) - (x2 div (3 - (x div ~2))))
1: (x - ((((1 + (x div 2)) div 2) div 2) + (((x + ~1) div 2) div 2)))
1: (0 - ((((x + 1) - loop(\(x,i).((x + 1) + ((x + (x div 2)) div 4)),x,0)) div 2) div 2))
1: ((x + ~1) - (((x - (x mod 3)) div 2) div 2))
1: ((x + ~1) - (((~x3 + x) div 2) div 3))
1: ((x + ~1) - (((3 * (x div 2)) div 2) div 2))
1: ((x + ~1) - ((((x + 1) div 2) div 2) div 2))
1: ((x + ~1) - (((((x2 + 2x) - (x div 2)) div 2) div 2) div 2))
1: (x - (((((2 - (x div 2)) mod (x + 2)) div 2) div 2) + ((x + 1) div 3)))
1: (x - (((x div 2) div 3) + (if x <= 0 then 0 else 1)))
1: ((x + ~1) - (((x div 2) mod (1 + (x mod 8))) div 2))
1: ((x + ~1) - (x div (3 + ((x div 2) mod 2))))
1: ((x + ~1) - (x div (2 + (3 mod (x + 1)))))
1: ((x + ~1) - (x div (1 + ((x + 2) mod 4))))
1: ((x + ~2) - (x div (1 + (x mod 5))))
1: ((x + ~2) - (x div (2 + (x mod 5))))
1: ((x + ~1) - (x div (1 - ((~x + 1) div 5))))
1: ((x + ~1) - (x div (2 - ((~x + 1) div 3))))
1: (x - ((x div 8) + (((x + 1) div 2) div 2)))
1: (x - ((i div 2) + i))
1: ((x + ~1) - ((2x + 1) mod (2 + (x div 4))))
1: ((x + ~2) - ((x + 1) mod 4))
1: ((x + ~2) - ((x + 1) mod 5))
1: (x - (((x + 2) mod (1 + (((x + 1) mod 7) mod 3))) + (if x <= 0 then 0 else 1)))
1: ((x + ~1) - ((x2 + ~1) mod (x + 8)))
1: ((x + ~1) - ((~1 + (x div 2)) mod (1 + (((x + 1) div 2) mod 3))))
1: ((x + ~2) - ((x + ~1) mod 3))
1: ((x + ~1) - ((x div 2) mod 5))
1: ((x + ~1) - (((1 - (x div 3)) mod 5) mod 2))
1: ((x + ~2) - (x mod 2))
1: ((x + ~1) - (x mod 9))
1: (x - ((x mod (1 + ((x + 1) div 5))) + (x div 8)))
1: ((x + ~1) - (x mod (1 + (x div (2 * (2 + (x mod 2)))))))
1: ((x + ~1) - (x mod ~4))
1: ((x + ~1) - (x mod (~1 - (x mod 5))))
1: ((x + ~2) - (x mod 11))
1: ((x + ~1) - (x mod 6))
1: ((x + ~1) - (x mod (2 * (~2 + (x mod 2)))))
1: (x - ((if (~2 + (x div 3)) <= 0 then 0 else 2) + (x div 3)))
1: (0 - (if (x + ~1) <= 0 then 1 else loop(\(x,i).(x - (if x <= 0 then 1 else i)),x,x)))
1: (x - ((if (x mod 2) <= 0 then 1 else i) + i))
1: ((x + ~1) - (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1))
1: ((x + ~1) - (if (x mod 3) <= 0 then 0 else 2))
1: ((x + ~2) - (if x <= 0 then 0 else i))
1: ((x + ~1) - (if x <= 0 then 1 else (2 - (x mod 5))))
1: ((x + ~1) - (if x <= 0 then 2 else (x - ((((~1 + (x div 2)) div 2) - ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) div 2))))
1: (0 - loop(\(x,i).(x - ((x div 4) + i)),(x + ~1),1))
1: ((x + ~1) - loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,(x + ~1)))
1: ((x + ~1) - loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x))
1: (0 - loop(\(x,i).(x - loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then i else 0)),x,(x + 1))),1,2x))
1: ((x + ~1) - loop(\(x,i).2x,x,1))
1: ((x + ~6) - loop(\(x,i).2x,x,1))
1: (0 - loop(\(x,i).loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),x,x),1,(2x2 + 4x)))
1: ((x + ~2) - i)
1: ((x + ~2) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i))
1: ((x + ~1) + loop(\(x,i).(2 * (2x - (x div (1 + i)))),x,2) - loop(\(x,i).(2x + 4),x,0))
1: ((x + ~1) + (5 * (1 + (x div 3))))
1: ((x + ~1) + (3 * (2 + (if (x mod 3) <= 0 then 2 else 1))))
1: (17x + 7)
1: ((x + ~1) + (6 * ((x + 1) + (x div 2))))
1: (4x2 + 27x + 39)
1: ((x + ~1) + (6 * (1 - ((~x + 2) div 12))))
1: (25x + 23)
1: (61x + 23)
1: (49x + 47)
1: (19x + ~1)
1: ((x + ~1) + (2 div (1 + (x div 4))))
1: ((x + ~1) + (2 div (1 + ((1 + (x div 2)) mod 4))))
1: ((x + ~1) + (2 div (1 + (x mod (1 + ((x2 + 2x) mod 6))))))
1: ((x + ~1) + ((1 + (x mod (1 + (2 * (1 + (x mod 5)))))) div 3))
1: ((x + ~1) + ((~x + 1) div (1 + (((2x + 1) mod (2 + (x div 4))) div 2))))
1: ((x + ~1) + ((~x + 1) div ((x + 1) div (1 + (x div 3)))))
1: ((x + ~1) + ((2 * (3 + (((~1 + (6 * (1 + ((1 + (x div (1 + (x mod (1 + (x mod (1 + (x div (2 * (2 - (x mod 2))))))))))) div 2)))) div 2) div 2))) div 3))
1: ((x + ~1) + ((2 * ((x + 2) + (if x <= 0 then 1 else (4x + (((x + ~1) mod (2 + (x div 2))) div 2))))) div 3))
1: ((x + ~1) + ((2 * ((2x + 4) - ((~1 + (x div 3)) div 2))) div 3))
1: ((x + ~1) + ((2x3 + 12x2 + 28x + 24) div 3))
1: ((x + ~1) + (2x div 5))
1: ((x + ~1) + (((x - (x2 div 3)) div 2) div 3))
1: ((x + ~1) + (loop(\(x,i).(2 + ((x2 + x) div 2)),2,(x + ~1)) div 3))
1: ((x + ~1) + (loop(\(x,i).(x2 + x),1,loop(\(x,i).(2x + 5),x,2)) div 3))
1: ((x + ~1) + (x div 3))
1: ((x + ~1) + (x div (1 + (x div 5))))
1: ((x + ~1) + (1 mod ((~x + 1) + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1))))
1: ((x + ~1) + ((1 + (x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2))) mod 3))
1: ((x + ~1) + ((x + 1) mod (~1 + (2 * (x - (x mod 10))))))
1: ((x + ~1) + ((x + 2) mod 5))
1: ((x + ~1) + ((1 - ((x - ((x div 2) div 3)) div 2)) mod 4))
1: ((x + ~1) + ((~x + 1) mod 8))
1: ((x + ~1) + ((2x + 2) mod 5))
1: ((x + ~1) + (2x2 mod 5))
1: ((x + ~1) + (2x mod (2 - (x mod ~4))))
1: ((x + ~1) + ((if ((x + 1) mod 8) <= 0 then x else 2) mod 3))
1: ((x + ~1) + (loop(\(x,i).i,(x mod (1 + (4 mod (x + 1)))),1) mod 3))
1: ((x + ~1) + (x mod 3))
1: ((x + ~1) + (x mod 5))
1: ((x + ~1) + (x mod (5 + (x mod 2))))
1: ((x + ~1) + (x mod (1 + (2 * (1 + (2 * (x mod 2)))))))
1: ((x + ~1) + (x mod (1 + (6 * (x mod 2)))))
1: ((x + ~1) + (x mod (1 + (x div (1 + (if (x mod 2) <= 0 then 6 else 1))))))
1: ((x + ~1) + (x mod (1 - (x div (~2 + (((~x + 2) div 2) div 5))))))
1: ((x + ~1) + (if (x + ~1) <= 0 then 4 else 0))
1: ((x + ~1) + (if ((x div 2) mod 2) <= 0 then 4 else 0))
1: ((x + ~1) + (if (x mod 2) <= 0 then 4 else 0))
1: ((x + ~1) + (if (x mod 2) <= 0 then 6 else 0))
1: ((x + ~1) + (if (x mod 4) <= 0 then 4 else 0))
1: ((x + ~1) + (if (x mod 5) <= 0 then 4 else 0))
1: ((x + ~1) + (if x <= 0 then 2 else (4x + ((x + 1) mod (2 + (x mod 2))))))
1: ((x + ~1) + loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),2x,x2))
1: ((x + ~2) + (((x2 + ~x) div 2) + (x mod 3)))
1: ((x + ~2) + (3 * (2 + (3 * (2 + (x div 2))))))
1: ((x + ~2) + (5 * (1 + (x div 3))))
1: ((x + ~2) + (3 * (2 + (x div 4))))
1: ((x + ~2) + (3 * (2 + (x div 8))))
1: ((x + ~2) + (3 * ((2x + 2) - (((x + 1) div 2) div 3))))
1: (11x + ~7)
1: (13x + 10)
1: (25x + 22)
1: (13x + ~2)
1: ((x + ~2) + (2 * (if (~4 + (x div 2)) <= 0 then 1 else 8)))
1: ((x + ~2) + (2 div (1 + (x div 5))))
1: ((x + ~2) + ((~x + 2) div (1 + ((x mod (2 + (x mod 2))) div 2))))
1: ((x + ~2) + ((x mod (1 + (x mod 4))) div 2))
1: ((x + ~2) + (x div (~2 + ((x div 5) mod 2))))
1: ((x + ~2) + ((x + 1) mod (1 + (2 * (if (x mod 2) <= 0 then 2 else x)))))
1: ((x + ~2) + ((x + 2) mod 5))
1: ((x + ~2) + ((2x + 4) mod 7))
1: ((x + ~2) + (2x mod (6 + (x mod 2))))
1: ((x + ~2) + (2x mod (3 + (x div 4))))
1: ((x + ~2) + (((x2 + 2x) div 2) mod 3))
1: ((x + ~2) + ((x2 div 2) mod 3))
1: ((x + ~2) + ((x div 4) mod 2))
1: ((x + ~2) + loop(\(x,i).x2,((x2 + ~x) div 2),3))
1: ((x + ~3) + (2 * (1 + ((1 + (if (x mod 2) <= 0 then ((1 + (x div 2)) mod 4) else 1)) div 2))))
1: ((x + ~5) + (((x + ~1) div 2) div 2))
1: ((x + 1) - (((x + 2) div 5) + (x div 7)))
1: ((x + ~1) + (x mod 2) - ((x - ((~x + ((x + ~1) mod 5)) div 2)) div 2))
1: ((x + ~1) + (x mod 2) - (x div (1 + (2 * (2 + ((x mod 3) div 2))))))
1: ((3x + ~1) - (2x mod (2 + (x div 4))))
1: ((x + 1) - ((x mod (1 + ((x + 1) div 5))) + (x div 8)))
1: ((2x + 1) - (compr(\x.(x mod ((x + 1) - (x mod 10))),x) + (x mod 10)))
1: ((x + ~1) + ((x mod 2) + ((2 * (2 + ((~1 + (x2 div (3 + (x div 4)))) div 2))) div 3)))
1: ((x + ~1) + ((x mod 2) + ((if x <= 0 then 1 else (~2 + ((x2 div 4) mod (x + 1)))) mod 3)))
1: ((x + ~1) + loop(\(x,i).((x + ~1) + ((2x2 + x) div (1 + i))),x,1))
1: ((x + 5) - ((x div 2) mod 2))
1: ((x + 1) + (x mod 3) - (2 * ((x div 3) mod 2)))
1: ((x + 1) + (x mod 4) - (3 * ((x div 4) mod 2)))
1: ((x + 1) + (x div 5) - ((~x + 1) div 3))
1: ((x + 1) + (x div 3) - ((~x + 1) div 9))
1: ((x + 3) - ((~x + (x mod 3)) div 2))
1: ((x + 1) + ((x + 1) div 3) - (x div 2))
1: ((x + 1) + (x div (1 + (2 * (2 + (x mod 2))))) - (x div 2))
1: ((x + 1) + (x div 3) - (x div ~2))
1: ((x + 1) + (x mod 2) - ((1 + (x div 2) - ((~x + 2) div (2 + (x div 2)))) mod 2))
1: ((x + 1) + (x mod 2) - ((x - (((x + 1) div 2) div 3)) mod 2))
1: ((x + 1) + (x mod 2) - (((x + (x div 2)) div 2) mod 2))
1: ((x + 2) + (x div 2) - (((2 + (x div 2)) mod 5) mod 2))
1: ((x + 1) + (x mod 2) - ((loop(\(x,i).2x,x,1) mod (1 + (4 * (x mod 4)))) mod 3))
1: ((x + 1) + loop(\(x,i).2x,x,3) - (x mod 2))
1: ((x + 3) - (x mod 4))
1: ((x + 1) + (~x mod 4) - (x mod 4))
1: ((9x + 1) - (i mod 2))
1: ((5x + 1) - (i mod 2))
1: ((7x + 1) - (i mod 2))
1: ((x + 25) - (if x <= 0 then 2 else 0))
1: ((x + 3) - loop(\(x,i).(~x2 + 1),2,(x + 2)))
1: ((2x + 1) - loop(\(x,i).3x,i,1))
1: (2x + loop(\(x,i).3x,i,1) - i)
1: ((x + 1) + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: ((x + 1) - (3 * (1 + ((x - (2 * ((x + (if (x mod 3) <= 0 then 1 else 2)) div 4))) * (x div 3)))))
1: ((x + 3) - (2 * (1 + ((1 + ((((x + 1) * ((1 + (x div 4)) div 2)) div 2) div 2)) div 2))))
1: ((x + 3) - (2 * (1 + (((3 * (1 + ((1 + ((1 + ((((x + 2) * (1 + (2 * ((1 + (x div 4)) div 2)))) div 2) div 2)) div 2)) div 2))) div 2) div 2))))
1: ((x + 1) - (2 * ((x div 12) + (x div 3))))
1: ((x + 1) - ((1 + (x mod 3)) * (x mod 3)))
1: ((x + 1) - (2 * ((if (~2 + (x div 5)) <= 0 then 0 else 2) + (((x + 1) div 2) div 2))))
1: ((x + 1) - (2 * (~x - ((x div 4) mod 2))))
1: ((x + 1) - ((1 - (x div 2)) * (x div 2)))
1: ((x + 1) - ((2 - ((x + ~1) div 2)) * (x div 5)))
1: ((x + 1) - (5 * (2 - (if (~x + 2) <= 0 then x else 2))))
1: (5x + ~7)
1: ((x + 2) - ((~x + 2) * (x div 2)))
1: ((x + 1) - (((~2x + ~1) + (x div 2)) * (x div 2)))
1: (3x2 + ~2x + 7)
1: ((x + 1) - (3 * (~1 + (3 * (~2x + (x div 2))))))
1: (8x2 + ~3x + 3)
1: ((x + 1) - (4 * (~x + (2 * (x div 5)))))
1: ((x + 1) - (2 * (~1 + ((x + (x div 4)) div ~2))))
1: ((x + 1) - (2 * (((x + 1) div 3) - ((1 - (x div 3)) div 3))))
1: ((x + 1) - (2 * (~x + (((~x + ~2) + (x mod 2)) div 3))))
1: (x + (x div 3) - (2 * (~x + ((x + ~1) div 3))))
1: (x + (x div 3) - (2 * (~x + ((x + ~2) div 3))))
1: ((x + 1) - (2 * (~1 + ((x - ((~1 + (x div 2)) div 3)) div 2))))
1: ((x + 1) - (2 * ((~2x + ~1) + ((x - (x div 4)) div 2))))
1: ((x + 1) - (2 * (~2x + ((x - (x div 4)) div 2))))
1: ((x + 1) - (2 * (~x + ((2x + 2) div 7))))
1: ((x + 1) - (2 * ((~2x + ~2) + ((~2x + 2) div 5))))
1: ((x + 1) - ((2x + 1) * (~1 + ((x2 + ~x) div 4))))
1: ((x + 1) - (((~x2 + ~2x) + (x div 2)) * (1 + (x div 2))))
1: ((x + 1) - (2 * ((x div 2) - (2 * (x div 5)))))
1: ((x + 1) - (3 * (~2x + (x div 2))))
1: ((x + 2) - (3 * (~2x + (x div 2))))
1: ((x + 1) - (2 * (~x + (x div 4))))
1: ((x + 1) - (3 * (~x + (x div 5))))
1: ((x + 1) - (2 * ((~x + ~1) + ((x + 1) mod 7))))
1: ((x + 1) - (2 * (~x + ((x div 2) mod 2))))
1: ((x + 1) - (3 * (~x + ((x div 2) mod 2))))
1: ((x + 1) - (2 * (~x + ((x div 4) mod 2))))
1: ((x + 1) - (2 * (~8 + (x mod 2))))
1: ((x + 1) - (2 * ((x mod 2) - (x * (x + (x div 2))))))
1: ((x + 1) - (2 * (~8x + (x mod 2))))
1: ((x + 1) - (2 * (~4x + (x mod 2))))
1: ((x + 1) - ((2x + ~1) * (~2x + (x mod 2))))
1: ((x + 1) - (3 * (~x + (x mod 2))))
1: ((x + 1) - (4 * (~x + (x mod 2))))
1: ((x + 1) - (2 * (~1 + (x mod 3))))
1: ((x + 1) - (2 * (~9 + (x mod 4))))
1: ((x + 1) - (2 * (~2 + (x mod 5))))
1: ((x + 1) - (3 * (~x + (x mod 9))))
1: ((x + 1) - (9 * (~x + (x mod 9))))
1: ((x + 1) - (2 * (~x + (x mod 6))))
1: ((x + 1) - (2 * (~3 + (x mod 8))))
1: ((x + 1) - (9 * (~x + (x mod 8))))
1: ((x + 1) - (2 * (~x + (x mod 10))))
1: ((x + 1) - (2 * (~x + (i mod 2))))
1: ((~x2 + 3x) + (((x3 + ~x) div 2) div 3))
1: ((x + 1) - (2 * (~2 - (if x <= 0 then 1 else (2 * (2x + ((x + ((x div 2) mod 2)) div 2)))))))
1: ((x + 1) - (3 * (x - loop(\(x,i).(x div (1 + (x mod 2))),x,x))))
1: ((x + 1) - (2 * (~2x + i)))
1: (x + ~29)
1: (x + ~23)
1: (x + ~35)
1: (4x3 + ~3x + 1)
1: (11x + ~9)
1: (4x3 + ~6x2 + 3x + 1)
1: (4x2 + ~3x + 1)
1: (2x2 + ~7x + 9)
1: (x3 + ~3x2 + 3x + 1)
1: ((x + 1) - ((~x2 + 2x) * (x div 2)))
1: ((x + 1) - (4 * (~2x + (x div 2))))
1: (16x2 + ~3x + 1)
1: (x + ~31)
1: (16x2 + ~7x + 1)
1: (~7x + loop(\(x,i).3x,(2 * i),1))
1: ((x + 1) - (6 * ((x + 1) div 7)))
1: ((x + 1) - (4 * (x div 5)))
1: (x + ((x + 1) div 2) - ((4 * (x div 5)) + ((3 * (x div 4)) div 2)))
1: ((x + 1) - (9 * (x div ~2)))
1: (x + (x mod 5) - (4 * ((x div 5) mod 2)))
1: (~2x2 + 3x + 1)
1: (~2x2 + x + 1)
1: ((x + 1) - (2 * ((x + (2 * (1 + (if (x + ~4) <= 0 then 0 else 2)))) div 3)))
1: ((x + 1) - (2 * ((1 + ((x - (3 * ((~x + 1) div 7))) div 2)) div 2)))
1: ((x + 1) - (2 * ((x + ((x div 2) div 3)) div ~2)))
1: ((x + 1) - (5 * ((1 + (x div 2)) div 3)))
1: ((x + 1) - (2 * ((x + (x div 2)) div ~4)))
1: ((x + 1) - (2 * ((x + (x div 4)) div ~2)))
1: ((x + 1) - (2 * ((x + (x div 8)) div ~2)))
1: ((x + 1) - (2 * ((x + ((x div 3) mod 2)) div 4)))
1: ((x + 1) - (2 * ((x + 1) div 3)))
1: ((x + 1) - (2 * ((x + 1) div 7)))
1: ((x + 1) - (2 * ((x + 1) div (2 + (x mod 2)))))
1: ((x + 1) - (((x + 2) div 3) * (x div ~3)))
1: ((x + 1) - (2 * ((x + 2) div 5)))
1: ((x + 1) - (2 * ((0 - (x2 mod (x - ((~x + 2) div 2)))) div 2)))
1: ((x + 1) - (2 * ((1 - (4 * (x + (if (x + ~4) <= 0 then 1 else 2)))) div 3)))
1: ((x + 1) - (5 * ((~x + 1) div 3)))
1: ((x + 1) - ((x + ~2) * ((~x + 1) div 3)))
1: ((x + 1) - (((~x + 1) div 3) * ((x + ~1) div 3)))
1: ((x + 1) - (((~x + 1) div 3) * (x div 2)))
1: ((x + 2) - (((~x + 1) div 3) * (x div 2)))
1: ((x + 1) - (((~x + 2) div 2) * ((x + 1) div 2)))
1: ((x + 1) - (2 * (((~x + ~1) + (x div 8)) div 2)))
1: ((x + 1) - (2 * (((~x + ~2) + (x mod 2)) div 3)))
1: ((x + 2) - (2 * ((~2 + ((~2x + 2) mod (4 + (x div 4)))) div 2)))
1: ((x + 1) - (2 * ((~x + ((x div 2) mod 2)) div 2)))
1: ((x + 1) - (2 * ((~x + (x mod 2)) div 3)))
1: ((x + 1) - (((x + ~1) div 3) * (x div ~3)))
1: ((x + 1) - (2 * (((x + 1) - (x2 div 4)) div 3)))
1: ((x + 1) - (2 * (((x + 1) - ((1 + ((x * (1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x))) div 2)) mod 5)) div 2)))
1: ((x + 1) - (2 * ((x - ((x2 + ~2) div 3)) div 3)))
1: ((x + 1) - (2 * ((x - ((x2 + 2x) div 5)) div 2)))
1: ((x + 1) - (2 * ((x - ((x2 + 2x) div 7)) div 2)))
1: ((x + 1) - (2 * ((x - (x div (1 + (x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4))))))))) div 2)))
1: ((x + 1) - (2 * ((x - (x div ((if (x mod 3) <= 0 then 2 else 1) + (x mod 2)))) div 2)))
1: ((x + 1) - (3 * ((x - ((x div 4) mod 2)) div 3)))
1: ((x + 1) - (2 * ((x - (x mod (2 - ((x div 2) mod 2)))) div 3)))
1: ((x + 1) - (2 * ((4 * (x + (if (~2 + (x div 2)) <= 0 then 1 else 2))) div 3)))
1: ((x + 1) - (2 * ((2x + 2) div 5)))
1: ((x + 1) - (2 * ((~2x + 2) div 5)))
1: ((x + 1) - (9 * ((~x2 + x) div 2)))
1: ((x + 1) - (2 * ((~3x + ~3) div 5)))
1: ((x + 1) - (2 * ((4 * (x div 3)) div 3)))
1: ((x + 1) - (2 * ((x * ((1 + (x div 2)) div 2)) div 15)))
1: ((x + 1) - (2 * ((2 * (if (x + ~2) <= 0 then x else (2 - (x div ~2)))) div 3)))
1: ((x + 1) - (3 * (((x + 1) div 2) div 2)))
1: ((x + 1) - (5 * (((x + 1) div 2) div 3)))
1: ((x + 2) - (3 * (((~x + 2) div 2) div 3)))
1: ((x + 1) - (2 * ((((1 - (x div 2)) * (x div 4)) div 2) div 2)))
1: ((x + 1) - (2 * (((x div 2) div ~2) div 2)))
1: ((x + 1) - (5 * ((x div 2) div 3)))
1: ((x + 1) - (x * ((x div 2) div 5)))
1: ((x + 1) - (2 * ((x div 2) div (1 + (x mod 4)))))
1: ((x + 1) - (2 * ((x mod (2 + ((x div 4) mod 2))) div 2)))
1: ((x + 1) - (2 * (loop(\(x,i).(1 + ((i div (2 + (x mod 2))) + (x div 2))),x,0) div 2)))
1: ((3x2 + 10x + 6) - (x * (x div 2)))
1: (x + (x div ~8) - (2 * (x div 3)))
1: (x + (((x + 1) div (1 + (x mod 9))) mod 2) - (2 * (x div 3)))
1: ((x + 1) - (2 * (x div 4)))
1: ((x + 1) - (3 * (x div 4)))
1: (x + (if x <= 0 then 0 else 1) - (2 * (x div 5)))
1: ((x + 1) - (5 * (x div (6 - (x mod 2)))))
1: ((x + 1) - (2 * (x div (3 - (x mod 2)))))
1: ((x + 2) - (2 * (x div (2 + ((x mod (2 + (x mod 2))) div 2)))))
1: ((x + 1) - ((2x + 1) * (x div ~2)))
1: ((x + 1) - ((x + ~1) * (x div ~2)))
1: ((x + 1) - (5 * (x div ~7)))
1: ((x + 1) - (2 * (x div (~3 + (x div ~2)))))
1: ((x + 1) - (2 * (x div (2 * (2 - (x mod 2))))))
1: ((x + 1) - (2 * (2 mod (~2x + 1))))
1: ((x + 1) - (2 * (2 mod (if ((x + 1) mod (2 + ((x div 2) mod 2))) <= 0 then x else 1))))
1: ((x + 1) - (9 * ((2x + 1) mod 7)))
1: ((x + 1) - (2 * ((x + 1) mod ~10)))
1: ((x + 1) - (2 * ((x - (2 * ((x div (2 * (~2 + ((x * (x div 2)) mod 2)))) div 3))) mod (x + 1))))
1: ((x + 1) - (2 * (((x + ~1) div 2) mod 2)))
1: ((x + 1) - (2 * ((((~x + 2) div 2) div 3) mod 2)))
1: (x + (x mod 4) - (3 * ((x div 4) mod 2)))
1: ((x + 1) - (2 * ((x mod 6) mod (1 + (x div 3)))))
1: ((3x2 + 7x + 6) - (2 * (x mod 2)))
1: ((3x2 + x) - (2 * (x mod 2)))
1: (x + (x mod 3) - (2 * (x mod 2)))
1: ((x + 1) - (2 * (x mod (~4x + 5))))
1: (2x - (2 * (x mod (1 + (((x div (3 + (x div 3))) mod 2) + (x div 2))))))
1: ((x + 1) - (2 * (x mod (~1 + (3 * (((x + ~1) div 2) mod 3))))))
1: ((x + 2) - (x * (i mod 2)))
1: (x + (x mod 3) - (2 * (if (~2 + (x div 3)) <= 0 then 0 else 2)))
1: ((x + 1) - (2 * (if (~2 + (x div 5)) <= 0 then 0 else 2)))
1: ((x + 1) - (2 * (if (x mod 3) <= 0 then 0 else 2)))
1: ((x + 1) - (3 * (if x <= 0 then 2 else ((if x <= 0 then 2 else (1 + ((1 + (x div (2 + (x mod 2)))) div 2))) div 2))))
1: ((x + 1) - (2 * loop(\(x,i).(x - (if (~x + i) <= 0 then (2 * i) else 0)),x,x)))
1: ((x + 1) - (5 * loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)))
1: ((x + 1) - (2 * loop(\(x,i).(3 * (x - (2 * i))),x,0)))
1: ((x + 1) - (2 * loop(\(x,i).2x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),2)))
1: ((~x2 + x + 1) - (((x + 1) * ((~x + 1) - loop(\(x,i).3x,(x div 2),2))) div 2))
1: ((~x2 + x) + (6 * (x div 2)))
1: ((~x2 + x) + (((x3 + ~x) div 2) div 3))
1: ((~x2 + x) + loop(\(x,i).2x,x,1))
1: ((x + 1) - (i * i))
1: ((x + 2) - (i * i))
1: (2x - (i * i))
1: ((x + 1) - (2 div (1 + (x div 5))))
1: ((x + 1) - (2 div (5 - ((x + ~1) div 3))))
1: ((x + 1) - (2 div (5 - (((x + 1) div 2) div 2))))
1: (3x - (2 div (x2 + ~2)))
1: ((x + 1) - (2 div (~8 + (x div 2))))
1: ((x + 3) - (2 div (if x <= 0 then 1 else x)))
1: ((x + 1) - (((x + 1) + (x mod 2)) div 5))
1: ((x + 1) - ((~x2 + 2x + 1) div (x + 5)))
1: ((x + 1) - ((x2 + ~x + 2) div (x + 5)))
1: ((x + 1) - ((x2 + ~2x + 1) div (x + 5)))
1: ((x + 1) - ((1 + (2 * (x div 3))) div 3))
1: ((x + 1) - ((2x + 1) div (4 + ((x div 2) div 3))))
1: ((x + 1) - ((2x + 1) div (3 + (if (((x + 2) mod 8) mod 3) <= 0 then 0 else 2))))
1: ((5x + 4) - ((2x + 1) div 9))
1: ((x + 1) - ((x2 + 1) div ((x + 2) + (x div 2))))
1: ((x + 1) - ((x2 + 2) div (x + 5)))
1: ((x + 1) - ((((x - ((x mod 3) div 2)) div 2) + (x mod 2)) div 2))
1: ((x + 1) - ((1 + ((x * (x div 2)) div 4)) div 2))
1: ((x + 1) - ((x + (x2 div 3)) div ~2))
1: ((x + 1) - ((x + (x2 div 25)) div 3))
1: ((x + 1) - ((1 + ((((x + 1) * ((1 + (x div 4)) div 2)) div 2) div 2)) div 2))
1: ((x + 1) - ((x + ((x div 2) div 3)) div ~2))
1: ((x + 1) + (2x div 3) - ((1 + (x div 2)) div 2))
1: (x + ((x + 1) * (if x <= 0 then 1 else 2)) - ((x + (x div 2)) div 4))
1: ((x + 1) - ((x + (x div 2)) div 5))
1: ((x + 1) - ((x + (x div 2)) div ~2))
1: ((x + 1) - ((x + (x div 2)) div ~4))
1: ((x + 1) - ((x + (x div 2)) div ~5))
1: ((7x + 3) - ((1 + (x div 3)) div 2))
1: ((x + 1) - ((x + (x div 3)) div 5))
1: ((x + 1) - ((x + (x div 4)) div ~3))
1: ((x + 1) - ((1 + (x div (1 + (31 mod (2x + 1))))) div 2))
1: ((x + 1) - ((1 + (x div (1 + (if ((x mod 3) mod 2) <= 0 then 2 else 0)))) div 2))
1: ((x + 1) - ((x + (x div 8)) div ~2))
1: ((x + 1) - ((((x2 + 2x) mod 6) + (x div 2)) div 2))
1: (x + (if x <= 0 then 1 else 4x) - ((((x div 3) mod 2) + (x div 4)) div 2))
1: ((x + 1) - ((x + ((x div ~4) mod 2)) div 3))
1: ((x + 1) - ((x + (x mod 2)) div 3))
1: ((x + 1) - ((x + loop(\(x,i).(1 - loop(\(x,i).(x - (if x <= 0 then 1 else (2 * (1 + i)))),x,2x)),2,x)) div 2))
1: (x + (x mod 8) - ((x + 1) div 5))
1: ((x + 1) - ((x + 1) div (11 - (x div 2))))
1: ((x + 1) - ((x + 1) div (9 - (x div 3))))
1: ((7x + 6) - ((x + 1) div 7))
1: ((x + 1) - ((x + 1) div (1 + (2 * (if ((x + ~1) mod 5) <= 0 then 2 else 1)))))
1: ((x + 1) - ((x + 1) div (1 + (10 mod (x + 1)))))
1: ((x + 1) - ((x + 1) div (8 - ((x + 2) div 3))))
1: ((x + 1) - ((x + 1) div (8 - (x div 4))))
1: ((x + 1) - ((x + 2) div 5))
1: ((x + 1) - ((x + 2) div ~7))
1: (x + ((x + 1) div 3) - ((x + 2) div ~7))
1: (x + (x div 7) - ((x + 2) div ~7))
1: (x + (if x <= 0 then 1 else 2) - ((x + 2) div ~7))
1: ((x + 1) - ((0 - ((x2 + 2x) div 4)) div 2))
1: ((x + 1) - ((0 - ((x3 + 2x2) div 2)) div 2))
1: ((x + 1) - ((0 - ((((1 + (x div 2)) div 2) * (x div 2)) div 2)) div 2))
1: ((x + 1) - ((0 - (x2 div (x + 10))) div 2))
1: ((x + 1) - ((0 - (x div (2 + (if (~2 + (x div 3)) <= 0 then 2 else 0)))) div 2))
1: ((x + 1) - ((0 - (x div (if (x + ~2) <= 0 then 1 else 2))) div 2))
1: ((x + 1) - ((0 - ((2 + (x mod 8)) mod (x + 1))) div 2))
1: ((x + 1) - (((~x + 1) - ((x div 5) mod 3)) div 3))
1: ((x + 1) - ((~2x + 1) div 5))
1: ((x + 1) - ((~2x + 1) div 9))
1: ((x + 1) - ((~2x + 1) div (12 - (x div 2))))
1: ((x + 1) - ((~x2 + 1) div (x + 4)))
1: ((x + 1) - ((~x2 + 1) div 49))
1: ((x + 1) - ((1 - (x2 div 9)) div 3))
1: ((x + 1) - ((1 - (x div 2)) div 5))
1: ((x + 1) - ((~x + 1) div 5))
1: ((x + 1) - ((~x + 1) div (6 + (x mod 2))))
1: ((x + 1) - ((~x + 1) div (4 + ((x div 4) mod 2))))
1: ((x + 1) - ((~x + 1) div 7))
1: ((x + 1) - ((~x + 1) div (1 + (2 * (2 + (((x div 2) div 3) mod 2))))))
1: ((x + 1) - ((~x + 1) div (1 + (if (x + ~4) <= 0 then 1 else 2))))
1: ((x + 1) - ((~x + 1) div (1 + i)))
1: ((x + 1) - ((~x + 1) div (2 + i)))
1: ((x + 1) - ((~x + 1) div (2 - (x div ~2))))
1: ((x + 1) - ((~x + 1) div (2 - (x div ~4))))
1: ((x + 1) - (((~x + 2) - (x2 div 3)) div 4))
1: ((x + 1) - ((~x3 + 2) div 12))
1: ((x + 1) - ((2 - (x * (x div 2))) div 16))
1: ((x + 2) - ((2 - (x2 div 4)) div (x + 2)))
1: ((x + 2) - ((~x + 2) div 5))
1: (x + ((x div 4) mod 2) - ((~x + 2) div 5))
1: ((x + 1) - ((~x + 2) div (3 + (x mod 2))))
1: ((x + 1) - ((~x + 2) div (4 + (x mod 2))))
1: ((x + 1) - ((~x + 2) div (4 + (x mod (2 + (x div 4))))))
1: ((x + 1) - ((~x + 2) div (1 + (2 * (8 - (x div 2))))))
1: ((x + 1) - ((~x + 2) div (2 + ((if x <= 0 then 2 else x) div 2))))
1: ((x + 2) - ((~x + 2) div (2 + ((if x <= 0 then 2 else x) div 2))))
1: ((x + 1) - ((~x + 2) div (2 + (x div 2))))
1: ((x + 1) - ((~x + 2) div (2 + (if ((x div 2) mod 3) <= 0 then 2 else 1))))
1: ((x + 2) - ((~x + 2) div (x + 2)))
1: ((x + 2) - ((~x + 2) div 8))
1: ((x + 2) - ((~x + 2) div (if x <= 0 then 1 else 8)))
1: ((x + 1) - ((~x - ((x div 2) mod 2)) div 3))
1: ((x + 1) - (((~x + 1) - (x2 div 3)) div 3))
1: ((x + 1) - (((~x + 1) - (x mod 2)) div 5))
1: ((x + 1) - (((~x + 2) - (x div 2)) div 8))
1: ((x + 1) - (((~x + ~1) + (2 * (x mod 2))) div 5))
1: ((x + 1) - (((~x + ~2) + ((x div 3) mod 3)) div 3))
1: ((x + 1) - (((~x + ~1) + (x mod 2)) div 5))
1: ((x + 1) - (((~x + ~2) + (x mod 2)) div 3))
1: ((x + 1) - (((~x2 + x) - (((x2 + ~x) div 2) div 3)) div 3))
1: ((x + 1) - ((x2 + ~2x + ~2) div (x + 5)))
1: ((x + 1) - ((~x + (((x + ~1) div 2) * (x div 2))) div 5))
1: ((x + 1) - ((x2 + ~1) div (x + 5)))
1: ((x + 1) - ((x2 + ~2) div (x + 16)))
1: ((x + 2) - ((~x + (2 div (x + 1))) div 4))
1: ((x + 1) - ((~x + ((2 - (x div 2)) div 2)) div 2))
1: (x + (if x <= 0 then 1 else 2) - ((~x + ((2 - (x div 2)) div 2)) div 2))
1: ((x + 1) - ((~x + ((2 - (x div 2)) div 2)) div 3))
1: ((x + 2) - ((~x + ((2 - (x div 4)) div 2)) div 2))
1: ((x + 1) - ((~x + ((~x + 2) div 2)) div 4))
1: ((x + 2) - ((~x + ((~x + 2) div 4)) div 2))
1: ((x + 1) - ((~x + ((~1 + (x div 4)) div 2)) div 2))
1: ((x + 1) - ((~x + ((~x + (x mod 3)) div 4)) div 2))
1: ((x + 1) - ((~x + ((~1 + (x mod 8)) div 2)) div 3))
1: (x + (if x <= 0 then 1 else 4x) - ((~x + (2x div (2 + (x div 2)))) div 3))
1: ((x + 1) - ((~x + (((2 - (x div 2)) div 2) div 2)) div 2))
1: ((x + 1) - ((~x + (((~x + 2) div 2) div 3)) div 2))
1: ((x + 1) - ((~x + ((x div 2) div 7)) div 2))
1: ((x + 1) - ((~x + ((x div 2) div ~2)) div 3))
1: ((x + 2) - ((~x + ((x mod 3) div 2)) div 4))
1: ((x + 1) - ((~x2 + (x div 2)) div 2))
1: ((x + 1) - ((~x2 + (x div 2)) div (x + 2)))
1: ((x + 1) - (((x div 2) - (x mod 2)) div 2))
1: ((x + 1) - ((~2x + (x div 4)) div 3))
1: ((x + 1) - ((~x + (x div 4)) div 2))
1: ((x + 1) - ((~x + (x div (~2 + (x div ~2)))) div 2))
1: ((x + 1) - ((~x + (x div 8)) div 2))
1: ((x + 1) - ((~x + ((x + 2) mod 5)) div 4))
1: ((x + 1) - ((~x + ((~1 + (x div 2)) mod 3)) div 4))
1: ((x + 2) - ((~x + ((~1 + (x div 2)) mod 3)) div 4))
1: ((x + 1) - ((~x + (((x + 1) * (x div 2)) mod 2)) div 3))
1: ((x + 1) - (((2x mod 3) - (x mod 2)) div 2))
1: ((x + 1) - ((~x + (((x + (x div 2)) div 4) mod 2)) div 2))
1: ((x + 1) - ((~x + (((x + 2) div 3) mod 3)) div 2))
1: (x + (if (x + ~2) <= 0 then 1 else 2) - ((~x + ((x div 2) mod 2)) div 2))
1: (x + (if x <= 0 then 1 else 4x) - ((~x + ((x div 2) mod 2)) div 2))
1: ((x + 1) - ((~x + ((x div 2) mod 2)) div 5))
1: ((x + 1) - ((~x + ((x div 2) mod 3)) div 2))
1: ((x + 1) - ((~x + ((x div 2) mod 3)) div 3))
1: ((x + 1) - ((~x + ((x div 2) mod 4)) div 4))
1: ((x + 1) - ((~x + ((x div 2) mod 5)) div 5))
1: ((x + 1) - ((~x + ((x div 2) mod 6)) div 5))
1: ((x + 1) - ((~x + ((x div 3) mod 2)) div 4))
1: ((x + 1) - ((~x + ((x div 3) mod 3)) div 2))
1: ((x + 1) - ((~x + ((x div 3) mod 3)) div 3))
1: (x + (if x <= 0 then 1 else 4x) - ((~x + ((x div 4) mod 2)) div 2))
1: ((x + 1) - ((~x + ((x div (2 + ((x div 2) div 3))) mod 2)) div 2))
1: ((x + 1) - ((~x + ((x div ~4) mod 2)) div 3))
1: ((x + 1) - ((~x + ((x mod (2 + (x div 3))) mod 2)) div 2))
1: ((x + 1) - ((~x + (x mod 4)) div 3))
1: ((x + 1) - ((~x + (x mod 11)) div 2))
1: ((x + 1) - ((~x + (i mod 2)) div 4))
1: ((x + 1) - ((~x + (if (~x + 4) <= 0 then 1 else 0)) div 2))
1: ((x + 1) - ((~x + (if (~2 + (x div 3)) <= 0 then 2 else 0)) div 3))
1: ((x + 1) - (((if (x mod 2) <= 0 then 1 else x) - (x div 2)) div 3))
1: ((x + 1) - (((if (x mod 2) <= 0 then x else 2) - (x div 2)) div 4))
1: ((x + 1) - ((~x + (if (x mod 3) <= 0 then 2 else 1)) div 4))
1: ((x + 1) - ((~x + (if (x mod 4) <= 0 then 1 else 0)) div 3))
1: ((x + 1) - ((~x + (if (i mod 2) <= 0 then 2 else 0)) div 5))
1: ((x + 1) - ((~x + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,(x + 1))) div 2))
1: ((x + 1) - ((~x + loop(\(x,i).(if x <= 0 then (2 * i) else (x + ~1)),x,1)) div 2))
1: (x + ((x div 2) mod 2) - ((x + ~1) div 3))
1: ((x + 2) - ((x + ~1) div (~10 + (x div 2))))
1: ((x + 1) - ((x - (((x + ~1) + ((x + 1) mod (~1 + (2 * (x - (x mod 10)))))) div 2)) div 2))
1: ((x + 1) - ((x - (x2 div 4)) div 11))
1: ((x + 1) - ((x - ((x div 2) div 3)) div 2))
1: ((5x + 2) - ((x - (x div 3)) div 3))
1: ((x + 1) - ((x - (x div (1 + ((1 + (x div 2)) div 2)))) div 2))
1: ((x + 1) - ((x - (x div (1 + ((1 + (x div 3)) div 2)))) div 2))
1: ((x + 1) - ((x - (x div (1 + ((x div 2) div 3)))) div 2))
1: ((x + 1) - ((x - (x2 mod (1 + (x div 2)))) div 2))
1: ((x + 1) - ((x - ((x div 2) mod 2)) div 3))
1: ((x + 1) - ((x - ((x div 3) mod 3)) div 2))
1: ((x + 1) - ((x - (x mod ~3)) div 5))
1: ((x + 1) - ((2 * ((x + 2) + (if x <= 0 then 1 else (2 * (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))))))) div 3))
1: ((x + 1) - ((2 * (1 + ((1 + (((x + ~2) div 3) * (x div 2))) div 2))) div 3))
1: (2x - (((x + ~1) * (4x + ((x2 + ~x) div 2))) div 3))
1: ((x + 1) - ((2 * (1 + (((x + 1) * (x div 2)) div 2))) div 3))
1: ((x + 1) - ((2 * (1 + ((2 * loop(\(x,i).(x + (if (x - i) <= 0 then x else 0)),x,1)) div 3))) div 3))
1: ((x + 1) - ((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3))
1: ((x + 1) - (((x + 1) * (1 + (x div 8))) div 7))
1: ((5x + ~1) - ((2 * (x + (((x div 2) div 3) mod 2))) div 3))
1: ((x + 1) - ((2 * (2 + (if x <= 0 then 1 else (2 * (4x - ((~x + ((x div 2) mod 2)) div 3)))))) div 3))
1: ((x + 1) - ((2x + 2) div 5))
1: ((x + 1) - ((2x + 4) div ~7))
1: ((x + 1) - ((x2 + 2x) div ~5))
1: ((x + 1) - (~x2 div 8))
1: ((x + 1) - (((1 - (x div 2)) * (x div 2)) div 2))
1: ((x + 1) - ((~2x + 2) div 9))
1: ((x + 2) - ((~3x + 3) div (4 + (x div 4))))
1: ((x + 1) - ((~2x2 + 2x) div 7))
1: ((x + 1) - ((~x2 + x) div ((x + 2) + (x div 3))))
1: ((x + 1) - (((3 - (x div 2)) * (x div 5)) div 2))
1: ((x + 1) - ((~x2 + 2x) div 8))
1: ((x + 1) - (((~1 + ((x + ~2) div 3)) * (x div 5)) div 2))
1: ((x + 1) - ((x * (~2 + (((x + ~1) div 2) div 2))) div 3))
1: ((x + 1) - ((((~2x + ~4) + (x div 2)) * (1 + (x div 2))) div 2))
1: ((x + 1) - ((2 * (~x + (x mod 2))) div 3))
1: ((x + 1) - ((2x + ~2) div (2 + (x div 2))))
1: (3x - ((x2 + ~x) div 4))
1: ((x + 2) - ((x2 + ~x) div (2x + 4)))
1: ((x + 1) - (~3x2 div 5))
1: ((x + 1) - ((~x3 + 3x2 + ~3x + 1) div 3))
1: ((x + 1) - ((~x3 + 3x2 + ~2x) div 2))
1: ((x + 1) - ((~x3 + 3x2 + ~2x) div 3))
1: ((x + 1) - (((~x2 + 2x) * ((x + ~1) div 2)) div 2))
1: ((x + 1) - (((x + ~2) * ((x div 3) * ((~x + 2) div 2))) div 2))
1: ((x + 1) - (4x div ~7))
1: ((x + 1) - ((~x3 + x2) div 2))
1: ((x + 1) - ((x * ((1 + (x div 2)) div 2)) div 15))
1: ((x + 1) - (((x + ~1) * ((~x + 1) div 3)) div 2))
1: (x + (((x3 + ~x) div 2) div 3) - ((x * ((~x2 + 2) div 2)) div 2))
1: ((x + 1) - ((2 * ((~x + 2) div 2)) div 5))
1: ((x + 1) - ((((~x + 2) div 2) * (x div 3)) div 2))
1: ((x + 1) - ((((~x + 2) div 2) * i) div 5))
1: ((x + 1) - ((3 * ((~x + ((x div 2) mod 2)) div 2)) div 2))
1: ((x + 1) - ((3 * ((~2x + 2) div 9)) div 2))
1: ((x + 1) - (((x + 1) * (~x3 div 2)) div 3))
1: ((x + 1) - ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2))
1: ((x + 1) - ((2 * (x div 2)) div 5))
1: ((x + 1) - (((x + ~1) * (x div 2)) div (x + 2)))
1: ((x + 1) - (((x + ~2) * (x div 2)) div (x + 5)))
1: ((x + 1) - ((x * (x div 2)) div (x + 3)))
1: ((x + 1) - ((2 * (x div 3)) div ~3))
1: ((x + 1) - ((3 * (x div (2 + (x div (1 + ((x mod (1 + ((2 - (x mod 4)) mod (x + 1)))) div 2)))))) div 2))
1: ((x + 1) - (2x div 9))
1: ((x + 1) - (2x div (2 + (x div (1 + (((x2 + 2x) div 2) mod 3))))))
1: ((x + 1) - (2x div (~3 + ((~x + 2) div 4))))
1: ((x + 1) - (2x div (~2 + (2x div ~7))))
1: ((x + 1) - (2x div (~2 + (x div ~4))))
1: ((x + 1) - (2x div (x + ~24)))
1: ((x + 1) - (x2 div 4))
1: ((x + 1) - (x2 div (x + 5)))
1: ((x + 1) - (x2 div ((x + 2) + (x div 4))))
1: ((x + 1) - (x2 div (x + 4)))
1: ((x + 1) - (x2 div ((2x + 3) - (x div 3))))
1: ((x + 1) - (x2 div ((2x + 2) + (x mod 3))))
1: ((x + 1) - (x2 div (3 + (2 * (((x + 1) + (x div 2)) div 2)))))
1: ((x + 1) - (x2 div (2 + (if (~4 + (x div 2)) <= 0 then x else (x + 2)))))
1: ((x + 1) - (x2 div (x + 15)))
1: ((x + 2) - (x2 div ((2x + 4) - (x div 2))))
1: ((x + 1) - (x2 div ((2x + 4) - (x div 3))))
1: ((x + 1) - (x2 div (~2x + ~5)))
1: ((x + 1) - (x2 div (2x - ((~x + 2) div 2))))
1: ((x + 1) - (x2 div (4 * (2 - (((x mod 2) - (x div 2)) div 2)))))
1: ((x + 1) - (x2 div loop(\(x,i).(x2 + 2),2,2)))
1: ((x + 1) - (((1 + ((x - (((~x2 + x) div 2) div 3)) div 2)) div 2) div 2))
1: ((x + 1) - (((1 + ((x * (((2 - (x div 2)) div 2) div 2)) div 2)) div 2) div 2))
1: ((x + 1) - (((1 + (((1 + (((x + 1) * (1 + (2 * (x - (x div (2 + (if (~2 + (x div 4)) <= 0 then 1 else 2))))))) div 2)) div 2) div 2)) div 2) div 2))
1: ((x + 1) - (((1 + (x div 2)) div 2) div 2))
1: ((x + 1) - (((2 + ((1 - (x mod (1 + ((2 - (x div 2)) mod 4)))) mod (x + 1))) div 2) div 2))
1: ((x + 1) - (((2 + (loop(\(x,i).loop(\(x,i).(x div (~2 + (x mod 2))),x,(x + 1)),2,x) mod (x + 1))) div 2) div 2))
1: (2x - ((((x + 1) div 2) div 2) + ((~1 + (x div 4)) div 2)))
1: (x + (if ((x div 2) - (x mod 8)) <= 0 then 1 else 2) - (((x + 1) div 2) div 2))
1: ((7x + 6) - (((x + 1) div 2) div 3))
1: ((x + 1) - (((x + 1) div 2) div (1 + (x mod 8))))
1: ((x + 1) - (((2 - (x div 2)) div 2) div 2))
1: ((x + 1) - (((~x + ((x div 2) div ~2)) div 2) div 2))
1: ((x + 1) - (((x - ((2 - ((x + 1) div (2 * (2 - ((x div 4) mod 2))))) div 2)) div 2) div 2))
1: ((x + 1) - (((x - (x3 div (x + 12))) div 2) div 2))
1: ((x + 1) - (((x - (x2 div 8)) div 2) div 2))
1: ((x + 1) - (((x - ((((2 - (x div 2)) * (x div 2)) div 2) div 2)) div 2) div 2))
1: ((x + 1) - (((x - ((x2 div 2) div 3)) div 2) div 2))
1: ((x + 1) - (((x - ((x mod 3) div 2)) div 2) div 2))
1: ((x + 1) - (((x - (x div 4)) div 2) div ~2))
1: ((x + 1) - (((x - (~x mod 5)) div 2) div 2))
1: ((x + 1) - (((3 * (1 + (2 * (2 + ((4x + (x2 div 4)) div (x + 2)))))) div 2) div 2))
1: ((x + 1) - (((3 * (1 + ((x + 1) div (1 + (2 * (if ((x + 1) mod 5) <= 0 then 0 else 2)))))) div 2) div 2))
1: ((x + 1) - ((((2 + (x div 4)) * (x div 2)) div 2) div 2))
1: ((x + 1) - (((x * (x + ((x div 3) mod 3))) div 2) div (x + 3)))
1: ((x + 1) - (((x2 + x) div ~2) div 3))
1: ((x + 1) - ((((1 - (x div 2)) * (x div 2)) div 2) div 3))
1: ((x + 1) - ((((1 - (x div 2)) * (x div 4)) div 2) div 2))
1: ((x + 1) - ((((2 - (x div 2)) * (x div 4)) div 2) div 3))
1: ((x + 1) - (((x3 + ~x) div 2) div 3))
1: ((x + 1) - ((((~x + ((~x + 2) div 2)) * (1 + (x div 2))) div 2) div 2))
1: ((x + 1) - (((x2 + ~2x) div 2) div 7))
1: ((x + 1) - (((5 * ((~x + 1) div 3)) div 2) div 2))
1: ((x + 1) - (((((2 - (x div 2)) div 2) * (x div 2)) div 2) div 3))
1: ((x + 1) - (((((x + ~1) div 3) * (x div ~2)) div 2) div 2))
1: ((x + 1) - (((3 * ((~x2 + 2x) div 4)) div 2) div 2))
1: ((x + 1) - (((x * ((~x2 + 2x) div 4)) div 2) div 3))
1: ((x + 1) - ((((((~x + 2) div 2) div 5) * (x div 2)) div 2) div 2))
1: ((x + 1) - (((x * (((x + ~1) div 2) div 2)) div 2) div 7))
1: ((x + 1) - (((x * (x mod 4)) div 8) div 2))
1: ((x + 1) - ((x2 div 2) div (3 + (x div 2))))
1: ((x + 1) - ((x2 div 2) div (2x + 5)))
1: ((x + 1) - ((x2 div (3 + (x div 2))) div 3))
1: ((x + 1) - ((((x + 2) div (2 - ((x div 2) mod 2))) div 2) div 2))
1: ((x + 1) - ((((3 * (1 + (if (x mod 9) <= 0 then 0 else x))) div 2) div 2) div 2))
1: ((x + 1) - ((((~x4 + x2) div 2) div 3) div 2))
1: ((x + 1) - (((((~x + 2) * (x div 2)) div 8) div 2) div 2))
1: ((x + 1) - (((3x2 div (x + 2)) div 2) div 2))
1: ((x + 1) - ((((((x + ~1) div 2) * (x div 3)) div 2) div 2) div 2))
1: ((x + 1) - (((((x * (2 - (x div 2))) div 2) div 2) div 2) div 2))
1: ((x + 1) - (((x div 2) div ~2) div 2))
1: ((x + 1) - ((loop(\(x,i).(~x + 1),(x + ~2),(2 + (x div 2))) div 2) div 2))
1: ((x + 1) - ((x div 2) div ~3))
1: ((x + 1) - ((x div 2) div (~10 + (x div 2))))
1: ((x + 1) - ((x div 4) div (~8 + (x div 2))))
1: ((x + 1) - ((x div ~2) div 5))
1: ((x + 1) - ((1 mod (~2x + 1)) div (x + 2)))
1: ((x + 1) - (((2x + 1) mod (2 + (x div 4))) div 2))
1: ((x + 1) - (((x + 1) mod (1 + (2 * ((1 + (x div 4)) div 2)))) div 2))
1: ((x + 1) - (((~1 + (loop(\(x,i).4x,x,5) mod (2x + 3))) mod (x + 1)) div 2))
1: ((x + 1) - (((~1 + loop(\(x,i).4x,(2 * (x div 2)),2)) mod (x + 1)) div 2))
1: ((x + 1) - (((x + ~1) mod (1 + (x div 2))) div 2))
1: ((x + 1) - (((x + ~1) mod (2 - (x div ~2))) div 2))
1: ((x + 1) - (((2x + 2) mod (2 + (x div 2))) div 2))
1: ((x + 1) - (((x2 + 2x) mod (4 + (x div 2))) div 2))
1: ((x + 1) - (((2x2 + ~x) mod (x + 4)) div 2))
1: ((x + 1) - ((((x + 1) div 3) mod 3) div 2))
1: ((x + 2) - (((if (x mod 2) <= 0 then 2 else x3) mod (2 + (x div 2))) div 2))
1: ((x + 1) - ((loop(\(x,i).(2x - (i mod 2)),x,(x + 1)) mod (x + 1)) div 2))
1: ((x + 1) - ((loop(\(x,i).2x,(if (x mod 3) <= 0 then x else 1),2) mod (x + 1)) div 2))
1: ((x + 1) - ((x mod 3) div 2))
1: ((x + 1) - ((x mod (1 + ((x div 4) + (x mod 2)))) div 2))
1: ((x + 1) - ((x mod ((x + 2) - (x mod ((x + 1) - (x mod 10))))) div 2))
1: ((x + 1) - ((x mod (2 + (((x + 1) div 2) div 3))) div 2))
1: ((x + 1) - ((x mod (1 + (x mod ((x + 1) - (x mod 10))))) div 2))
1: ((x + 1) - ((x mod (2 - ((~x + 1) div 3))) div 3))
1: ((x + 1) - ((x mod (2 - ((x div 2) div ~2))) div 2))
1: ((x + 1) - ((x mod (x - ((x + ~1) mod 8))) div 2))
1: ((x + 1) - ((if (x + ~4) <= 0 then 1 else x) div 3))
1: ((x + 1) - ((if (2x mod (4 + (x div 4))) <= 0 then (x div ~2) else 0) div 2))
1: ((x + 1) - ((if x <= 0 then 1 else x) div (x + ~18)))
1: ((x + 1) - (loop(\(x,i).(x2 + 3x),1,loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)) div 2))
1: ((x + 1) - (loop(\(x,i).(x2 + x),1,loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)) div 2))
1: ((x + 1) - (loop(\(x,i).x2,2,(x + 1)) div 5))
1: ((x + 1) - (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2))
1: ((5x + 4) + (((x + 1) div 7) + (x div 3)) - (x div 2))
1: ((3x + 8) - ((x div 2) + ((~x + 1) div (1 + (x div 2)))))
1: (x + (5 * ((x + 1) + (x mod 2))) - (x div 2))
1: (x + (6 * (1 + (2 * (x - (x div ~2))))) - (x div 2))
1: ((7x + 6) - (x div 2))
1: (25x - (x div 2))
1: (21x - (x div 2))
1: (19x - (x div 2))
1: (x + (6 * (x mod 2)) - (x div 2))
1: ((2x2 + 3x) - (x div 2))
1: (x + (5 * ((x div 2) mod 2)) - (x div 2))
1: (x + (3 * (if (x mod 8) <= 0 then 1 else 2)) - (x div 2))
1: (x + ((x + 1) * (if x <= 0 then 1 else 4)) - (x div 2))
1: (x + ((x + 1) div 3) - (x div 2))
1: (x + ((12x + 12) div 5) - (x div 2))
1: (x + ((2x3 + 6x2 + 4x) div 3) - (x div 2))
1: (x + (12x div (x + 1)) - (x div 2))
1: (x + (((x + 1) div 3) mod 2) - (x div 2))
1: (x + (x mod 6) - (x div 2))
1: (x + (if ((x mod 3) - ((x + 1) mod 4)) <= 0 then 1 else 0) - (x div 2))
1: (x + loop(\(x,i).2x,x,1) - (x div 2))
1: (x + loop(\(x,i).i,(x + ~6),1) - (x div 2))
1: ((x + 2) - ((x div 3) + (2 div (1 + (x div 5)))))
1: ((x + ~1) + ((((x + ~1) div 2) div 5) mod 2) - (x div 3))
1: (2x - ((x div 3) + ((~1 + ((x + ~1) div 3)) div 3)))
1: (x + ((x + 1) mod 3) - (x div 3))
1: ((3x + 2) - (x div 4))
1: (x + (if (~2 + (x div 3)) <= 0 then 1 else 0) - (x div 4))
1: (x + (if (x + ~4) <= 0 then 1 else 2) - (x div 4))
1: (x + (if (x mod 3) <= 0 then 2 else 1) - (x div 4))
1: ((x + 1) - (x div 5))
1: (x + (if (~2 + (x div 4)) <= 0 then 1 else 0) - (x div 5))
1: (x + (if (~2 + (x div 4)) <= 0 then 2 else 1) - (x div 5))
1: ((x + 1) - (x div (3 + ((x div 2) div 3))))
1: ((x + 1) - (x div (3 + (if (~2 + (x div 4)) <= 0 then 2 else 0))))
1: (x + ((~x + 1) div 5) - (x div 9))
1: ((x + 1) - (x div (1 + (2 * (2 + (((x + ~1) div 3) mod 2))))))
1: ((x + 1) - (x div (1 + ((x + 1) mod (1 + ((~x + 2) mod 4))))))
1: ((x + 1) - (x div (1 + (((x2 + 2x) div 2) mod (1 + (x div (2 + (x div 3))))))))
1: ((x + 1) - (x div (1 + (loop(\(x,i).2x,(2x + ~1),1) mod (x + 1)))))
1: ((x + 1) - (x div (2 + (x mod (2 + (x mod (2 + (x mod 2))))))))
1: (x + (4x div (2 + i)) - (x div (1 + i)))
1: (x + ((4 * (x + (if (~2 + (x div 2)) <= 0 then 1 else 2))) div 3) - (x div ~2))
1: ((x + 1) - (x div (~4 - ((x div 2) mod 5))))
1: ((x + 1) - (x div (0 - (2 * (2 + ((((x + 1) div 2) div 2) mod 4))))))
1: ((x + 1) - (x div (~3 - (x div 4))))
1: ((x + 1) - (x div ~7))
1: ((x + 6) - (x div ~7))
1: ((x + 12) - (x div ~11))
1: ((x + 1) - (x div (2 - ((x div 2) div ~2))))
1: ((x + 1) - (x div ~3))
1: ((x + 1) - (x div ~4))
1: (x + (if (x + ~2) <= 0 then 1 else 2) - (x div ~4))
1: ((x + 1) - (x div (~1 - i)))
1: ((x + 1) - (x div (~3 - i)))
1: ((x + 2) - (x div ~5))
1: ((x + 1) - (x div (~3 + ((~x + 1) div 2))))
1: ((x + 1) - (x div (8 - ((x + ~2) div 3))))
1: ((x + 1) - (x div (~1 + ((1 - (2 * (x div 3))) div 3))))
1: ((x + 1) - (x div (~2 + ((1 - (x div 2)) div 3))))
1: ((x + 1) - (x div (~2 + ((~x + 1) div 2))))
1: ((x + 2) - (x div (~2 + ((~x + 2) div 4))))
1: ((x + 1) - (x div (~1 + (2x div ~5))))
1: ((x + 1) - (x div (~2 + (((~x + 2) div 2) div 3))))
1: ((x + 1) - (x div (~12 + (x div 2))))
1: ((x + 1) - (x div (~2 + (x div ~2))))
1: ((x + 1) - (x div (~2 + (x div (~1 + (x div ~3))))))
1: ((x + 1) - (x div (~1 + (i div ~2))))
1: ((x + 1) - (x div (~6 + (x mod ~2))))
1: ((x + 1) - (x div (~2 + (x mod ~6))))
1: ((3x + 2) - (x div 8))
1: ((x + 1) - (x div ~8))
1: (x + (if x <= 0 then 1 else 2) - (x div ~14))
1: ((x + 1) - (x div ~12))
1: ((x + 1) - (1 mod (~2x + 7)))
1: ((x + 1) - (1 mod (1 - (2 * (((x + 1) div 2) div 2)))))
1: ((x + 1) - (2 mod (x + 1)))
1: ((x + 1) - (2 mod (1 - (2 * ((x + ((x div 2) mod 2)) div 2)))))
1: ((x + 1) - (2 mod (~2x + 1)))
1: ((x + 1) - (5 mod (1 + ((x + 1) mod 6))))
1: ((x + 1) - ((1 + (2 * (2 + (if (~2 + (x div 2)) <= 0 then x else 2)))) mod (x + 1)))
1: ((x + 1) - ((1 + ((x - ((x div 2) mod 2)) div 2)) mod (1 + (x div 5))))
1: ((x + 1) - ((1 + ((x * (1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x))) div 2)) mod 5))
1: ((x + 1) - ((1 + ((x2 + 2x) div 4)) mod 5))
1: ((x + 1) - ((4x + (x2 div 4)) mod (x + 5)))
1: ((x + 1) - ((1 + (x div 2)) mod 3))
1: ((x + 1) - ((1 + (x div 3)) mod 4))
1: ((x + 1) - ((1 + (x div 5)) mod (1 + (((x + 1) div 2) div 2))))
1: ((x + 1) - ((1 + (x div (1 + (((2x + 1) mod (2 + (x div 4))) div 2)))) mod (x + 1)))
1: ((x + 1) - ((1 + (x div (1 + ((x2 + 2x) mod (1 + ((2 - (x div 2)) mod 4)))))) mod (x + 1)))
1: ((x + 1) - ((1 + (x div (1 + (x mod (1 + (((x2 + x) div 2) mod (2 * (1 + (x mod 2))))))))) mod (x + 1)))
1: ((x + 1) - ((1 + (x div (1 + (x mod (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))) mod (x + 1)))
1: ((x + 1) - ((1 + (x mod (6 + (x div 3)))) mod (x + 1)))
1: ((x + 1) - ((1 + (x mod (1 + (4 * (2x mod 7))))) mod (x + 1)))
1: ((x + 1) - ((1 + (x mod (1 + (11 mod (x + 1))))) mod (x + 1)))
1: ((x + 1) - ((1 + (x mod (~2 - (x div 3)))) mod 2))
1: ((x + 1) - ((1 + (x mod (((~x + 2) div 2) - (x mod 3)))) mod 3))
1: ((x + 1) - ((1 + (x mod (2 * (1 + (x mod 9))))) mod (x + 1)))
1: ((x + 1) - ((1 + (x mod (2 * (1 + (x mod (2 * (1 + (x mod (1 + (x div 3)))))))))) mod (x + 1)))
1: ((x + 1) - ((1 + (if (x mod 2) <= 0 then ((x div 3) mod 2) else 2)) mod (x + 1)))
1: ((x + 1) - ((x + 1) mod (1 + ((x div (3 * (2 + ((x2 + x) mod 8)))) + (x mod 2)))))
1: ((x + 1) - ((x + 1) mod (1 + (6 * (2 + (x mod 2))))))
1: ((x + 1) - ((x + 1) mod (1 + (2 * ((4x2 mod (2 + (x div 2))) div 2)))))
1: ((x + 1) - ((x + 1) mod (1 + (2 * (((x2 div 3) mod (x + 1)) div 2)))))
1: ((x + 1) - ((x + 1) mod (1 + (x div 4))))
1: ((x + 1) - ((x + 1) mod (1 + ((x - ((x + ~1) mod 4)) mod (x + 1)))))
1: ((x + 1) - ((x + 1) mod (1 + (x mod (1 + ((x + (x mod ((x + ~1) - (x mod 12)))) div 2))))))
1: ((x + 1) - ((x + 1) mod (~1 - (x div 4))))
1: ((x + 1) - ((x + 1) mod ~7))
1: ((x + 1) - ((x + 1) mod (1 - (x div (~2 + (x div ~2))))))
1: ((x + 1) - ((x + 1) mod ((2 * (2 + (if x <= 0 then 0 else (2 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))))) div 3)))
1: ((x + 1) - ((x + 2) mod (1 + (x div (3 + (x div 4))))))
1: ((x + 1) - ((x + 2) mod (2 + (if (x mod 2) <= 0 then (x mod 3) else (x div 2)))))
1: ((x + 1) - ((x + 2) mod 8))
1: ((x + 1) - (~2 mod (1 + (x div 4))))
1: ((x + 1) - ((1 - (2 * (x div 4))) mod (1 + (((x + 1) div 2) div 2))))
1: ((x + 1) - ((1 - (2 * ((x div 5) mod 2))) mod (1 + (2 * (1 + (x mod 5))))))
1: ((x + 1) - ((1 - (((x + 1) mod (1 + (2 * ((1 + (x div 4)) div 2)))) div 2)) mod 2))
1: ((x + 1) - ((1 - (x mod (x - ((x + ~1) mod 7)))) mod 3))
1: ((x + 1) - ((2 - (x div 5)) mod 4))
1: ((x + 1) - ((~1 + (loop(\(x,i).2x,loop(\(x,i).(x div (1 + (x mod 2))),x,x),1) + loop(\(x,i).2x,x,1)) - (x mod 2)) mod (x + 1)))
1: (2x - (((~x + ~1) + (2 * (x + (1 mod (8 - (x div 2)))))) mod 5))
1: ((x + 1) - ((x3 + ~1) mod (1 + (x div 2))))
1: ((x + 1) - ((~1 + (x div 2)) mod 4))
1: ((x + 1) - ((~1 + (x div 2)) mod (1 + (x div 4))))
1: ((x + 1) - ((x + ~1) mod (1 + (x div (2 + ((x div 2) mod 3))))))
1: ((x + 1) - ((x + ~2) mod (1 + (x div 3))))
1: ((x + 1) - ((x - ((2 - (x * (x div 2))) div 5)) mod 3))
1: ((x + 1) - ((x - ((~2x2 + 4x) div 7)) mod (x + 1)))
1: ((x + 1) - ((x - (x div 4)) mod 2))
1: ((x + 1) - ((x - (x div 9)) mod 9))
1: ((x + 1) - ((x - ((2 - (x div 3)) mod 5)) mod 3))
1: ((x + 1) - ((x - (if (x + ~2) <= 0 then 0 else 1)) mod 3))
1: ((x + 1) - ((x - loop(\(x,i).(x - (x2 div (x + 16))),2,(if x <= 0 then 1 else x))) mod (x + 1)))
1: ((x + 1) - (3x mod (1 + ((~x + 1) mod (2 + (x div 3))))))
1: ((x + 1) - ((2 * (1 + ((x mod 10) mod (1 + (x div 2))))) mod 3))
1: ((x + 1) - ((x2 + x) mod 3))
1: ((x + 1) - ((~2x + 2) mod (1 + (x div 3))))
1: ((x + 2) - ((~x2 + 2x) mod (4 + (x div 4))))
1: ((x + 1) - ((2x + ~2) mod (1 + (x div 2))))
1: ((x + 1) - ((x2 + ~2x) mod 8))
1: ((x + 1) - ((6 * (x div (1 + (loop(\(x,i).2x,x,2) mod (2x + 1))))) mod (x + 1)))
1: ((x + 1) - ((3 * ((~x + 2) div 2)) mod (1 + (x div 5))))
1: ((x + 1) - ((2 * ((x2 + ~1) div 2)) mod 3))
1: ((x + 2) - ((x * (x div 2)) mod 2))
1: ((x + 1) - ((x * (x div 2)) mod 3))
1: ((x + 1) - ((x * (x div 2)) mod (1 + (if (x mod 8) <= 0 then 2 else 1))))
1: ((x + 1) - (2x mod 3))
1: ((x + 1) - (2x mod (4 + (x div 4))))
1: ((x + 2) - (((1 + (x div 2)) div 2) mod 4))
1: (x + (x mod 2) - (((x - ((~1 + (x div 2)) div 2)) div 2) mod 2))
1: ((x + 1) - (((x - (x mod (2 + (x mod 4)))) div 2) mod 2))
1: (x + (x mod 2) - (((x2 + 18x + 32) div (x + 1)) mod 2))
1: ((x + 1) - (((2x + ~4) div (2 + (x div 4))) mod 2))
1: ((x + 1) - (((2 * (x div 2)) div (1 + ((x + ~1) mod 3))) mod 3))
1: ((x + 1) - ((((~x + 1) * (x mod 10)) div 2) mod (x + 1)))
1: ((x + 1) - ((loop(\(x,i).(2x + i),(x + ~2),1) div 2) mod 2))
1: ((x + 1) + (2 * (1 + (2 * (x div 2)))) - ((x div 2) mod 2))
1: (x + ((x + 1) mod 4) - ((x div 2) mod 2))
1: (x + ((x + ~1) mod 4) - ((x div 2) mod 2))
1: ((x + 1) - ((x div 2) mod 3))
1: ((x + 2) - ((x div 2) mod 3))
1: ((x + 1) - ((x div 2) mod (1 + (x div 4))))
1: ((x + 1) - ((x div 2) mod (1 + (x mod (1 + (x div 3))))))
1: ((x + 1) - ((x div 2) mod ~5))
1: (x + (if (x + ~2) <= 0 then 1 else 2) - ((x div 3) mod 2))
1: ((x + 1) - ((x div (1 + (if (x mod 2) <= 0 then 6 else 1))) mod 3))
1: (x + (x mod 2) - ((x div (~2 + (x mod ~2))) mod 2))
1: ((x + 1) - (((x + 1) mod (1 - (x mod ~7))) mod 2))
1: ((x + 1) - ((x2 mod (2x + ~5)) mod 3))
1: ((x + 1) - ((((~x + (x mod 2)) div 3) mod (x + 2)) mod 2))
1: ((x + 1) - (((((x + ~1) div 2) div 2) mod 3) mod 2))
1: ((x + 1) - ((x mod 3) mod 2))
1: ((x + 1) - ((x mod 4) mod ~3))
1: ((x + 1) - ((x mod 4) mod (if ((x + 1) mod (2 + ((x div 2) mod 2))) <= 0 then x else 1)))
1: ((x + 2) - ((x mod (2 + (x mod 5))) mod 2))
1: ((x + 1) - ((x mod (~1 - (x div 5))) mod 2))
1: (x + (x mod 2) - ((x mod (~1 + (x div ~3))) mod 2))
1: ((x + 1) - ((x mod 6) mod (1 + (x div 2))))
1: ((x + 1) - ((x mod 8) mod (1 + (x div 2))))
1: ((x + 1) - ((if (x + ~2) <= 0 then 1 else x) mod (3 - (x mod 2))))
1: ((x + 1) - (loop(\(x,i).3x,x,1) mod loop(\(x,i).(2x2 + x),2,2)))
1: ((x + 1) - (loop(\(x,i).5x,x,2) mod (3x + 2)))
1: ((x + 1) - (loop(\(x,i).2x,(x + 16),1) mod (x + 1)))
1: ((x + 2) - (loop(\(x,i).2x,x,(1 + (x mod 2))) mod (x + 1)))
1: ((x + 2) - (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) mod (2x + ~1)))
1: ((x + 1) + (2 * ((~x + 2) mod 7)) - (x mod 2))
1: ((x + 1) - ((x mod 2) + ((x + (x div 3)) div 5)))
1: (x + (3 * (2x + ((x div 2) mod 2))) - (x mod 2))
1: (x + (((~x2 + 4x + ~4) div (x + 2)) mod 2) - (x mod 2))
1: (x + ((((~1 + ((x2 + x) div 2)) div 2) div 2) mod 2) - (x mod 2))
1: (x + ((x div 3) mod 2) - (x mod 2))
1: (x + ((x mod (1 + (2 * (x mod 6)))) mod 2) - (x mod 2))
1: (x + ((x mod (6 + ((1 + (x div 2)) div 2))) mod 2) - (x mod 2))
1: ((x + 1) - (x mod 3))
1: (x + ((x + ((4 * (x div 3)) div 3)) mod 3) - (x mod 3))
1: (x + (x div 2) - ((x mod 4) + (2 * ((x div 4) mod 2))))
1: ((x + 1) - (x mod (1 + ((2 * ((x div 5) mod 2)) + (x mod 2)))))
1: ((x + 1) - (x mod (1 + (2 * (2 + (x mod 2))))))
1: ((x + 1) - (x mod (2 + (x div (1 + (x mod (1 + (x mod (1 + (x div (2 + (x div 5))))))))))))
1: ((x + 1) - (x mod (2 + (x div 8))))
1: ((x + 1) - (x mod (1 + (loop(\(x,i).(2 * (x + i)),x,0) mod (2x + 3)))))
1: ((x + 1) - (x mod (2 + (x mod 3))))
1: ((x + 1) - (x mod (1 + (if (x mod 5) <= 0 then 0 else 2))))
1: ((x + 1) - (x mod (1 - (2 * (2 + (x mod 3))))))
1: ((x + 1) - (x mod (1 - (2 * (if (x mod 4) <= 0 then 0 else 2)))))
1: ((x + 1) - (x mod (2 - (x div ~3))))
1: ((x + 2) - (x mod ~4))
1: ((x + 1) - (x mod (~1 + (5 * (1 + (x div 8))))))
1: ((x + 1) - (x mod (~1 + (3 * (((x + ~1) div 2) mod 3)))))
1: ((x + 1) - (x mod (~1 + ((~x2 + 2x) div 2))))
1: ((x + 1) - (x mod (~1 + (x mod (~1 + ((~x + 1) div 2))))))
1: ((x + 1) - (x mod ((x + ~2) + ((2x + 4) mod 7))))
1: (x + ((x div 4) mod 2) - (x mod 8))
1: ((x + 1) + ((~x + 1) mod 8) - (x mod 10))
1: ((x + 1) - (x mod (3 * (2 + (x mod 8)))))
1: ((x + 1) - (x mod (2 * (4 - (x mod 3)))))
1: ((x + 1) - (x mod (4 * (2 + ((x div 2) div 7)))))
1: ((x + 1) - (x mod loop(\(x,i).2x,loop(\(x,i).(x div (1 + (x mod 2))),x,x),1)))
1: ((7x + 2) - (i mod 2))
1: ((3x + 2) - (i mod 2))
1: ((x + 1) - (i mod (2 * (2 - (i mod 2)))))
1: ((x + 2) - (if (~4 + (x div 2)) <= 0 then 1 else (x div 4)))
1: ((x + 1) - (if (x + ~1) <= 0 then x else (1 + ((1 + (8 mod (if x <= 0 then 1 else x))) mod 2))))
1: (x + loop(\(x,i).(x * (2 + (i mod 2))),x,1) - (if (x + ~2) <= 0 then 1 else 0))
1: ((11x + 5) - (if (x + ~2) <= 0 then 1 else x))
1: ((x + 1) - (if (5 mod (if (x mod 2) <= 0 then 2 else x)) <= 0 then 2 else 0))
1: ((x + 1) - (if (x mod 3) <= 0 then (4 * ((x div 5) mod 2)) else 0))
1: (x + (x * i) - (if (i mod 2) <= 0 then ~2 else 2))
1: ((x + 1) - (if x <= 0 then 0 else (i * i)))
1: ((x + 1) - (if x <= 0 then 0 else ((x + 1) mod (2 * (1 + (if (x + ~4) <= 0 then 0 else 2))))))
1: ((x + 6) - (if x <= 0 then 1 else (~2 + (((2 - (x div 2)) div 2) div 2))))
1: ((x + 2) - (if x <= 0 then 1 else (8 * ((~x + 2) div 2))))
1: ((x + 1) - (if x <= 0 then 1 else (if (x mod (1 + ((x + ~1) mod 9))) <= 0 then 2 else 0)))
1: ((x + 1) - (if x <= 0 then 1 else (if (x mod (2 + ((x2 div 2) mod (x + 2)))) <= 0 then 2 else 0)))
1: ((x + 1) - loop(\(x,i).(1 + (((2 + ((x2 div 2) div 5)) div 3) + (if x <= 0 then 0 else 1))),2,x))
1: ((x + 1) - loop(\(x,i).((x + 1) + ((x + (x div 2)) div 4)),x,0))
1: ((x + 1) - loop(\(x,i).(x + ((x div (~3 + (x mod 2))) mod 2)),2,x))
1: ((x + 1) - loop(\(x,i).(x + (if (x mod (1 + (2 * i))) <= 0 then i else 0)),2,x))
1: ((x + 1) - loop(\(x,i).(x + loop(\(x,i).((2x + 1) - loop(\(x,i).3x,i,1)),i,1)),x,1))
1: ((x + 2) - loop(\(x,i).(x + 2),(x + ~1),~3))
1: ((x + 2) - loop(\(x,i).(~x2 + 1),2,(x + 2)))
1: ((x + 1) - loop(\(x,i).((x + ~1) + (x div (1 + i))),(x + ~2),1))
1: (2x - loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,0))
1: ((x + 1) - loop(\(x,i).((x + ~1) - (2 * (if x <= 0 then 0 else i))),x,x))
1: ((x + 1) - loop(\(x,i).((x + ~1) - (if x <= 0 then 0 else i)),x,x))
1: ((x + 2) - loop(\(x,i).((x + ~1) - (if x <= 0 then 0 else i)),x,x))
1: ((x + 1) - loop(\(x,i).(x - (x div 8)),6,x))
1: ((x + 1) - loop(\(x,i).(x - ((x2 div (x - ((~x + 2) div 2))) mod 2)),2,x))
1: ((x + 1) - loop(\(x,i).(x - (if (~2 + (x div 2)) <= 0 then 0 else 1)),((x + 1) div 2),x))
1: ((x + 1) - loop(\(x,i).(x - (if (16 mod (x + 1)) <= 0 then 0 else 2)),x,x))
1: ((x + 2) - loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 2 else 1)),(x + 1),x))
1: ((x + 1) - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + (2 * i)))),x,2x))
1: ((x + 1) - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + (i div 3)))),x,x))
1: ((2x + 1) - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x))
1: ((2x + 2) - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x))
1: ((2x + 1) - loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x))
1: ((x + 1) - loop(\(x,i).(x - (if x <= 0 then 1 else (1 + (i div 2)))),x,x))
1: ((x + 1) - loop(\(x,i).(x - (if x <= 0 then 1 else (i * i))),x,(x + ~1)))
1: ((x + 1) - loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 1)))
1: ((x + 1) - loop(\(x,i).3x,i,x))
1: ((x + 1) - loop(\(x,i).(2 * (1 + (x div 2))),(x div 8),(((x + 1) div 2) div 2)))
1: ((x + 1) - loop(\(x,i).(~x2 + x),1,(7x + 6)))
1: ((x + 1) - loop(\(x,i).(~x2 + x),1,(10x + 8)))
1: (7x - loop(\(x,i).2x,(~1 + i),1))
1: ((x + 1) - loop(\(x,i).2x,(x div 2),(~1 + (x mod 2))))
1: ((x + 1) - loop(\(x,i).2x,x,(loop(\(x,i).(x * i),x,1) - loop(\(x,i).(x * (~1 + (2 * i))),x,1))))
1: ((x + 1) - loop(\(x,i).2x,i,x))
1: ((x + 1) - loop(\(x,i).(if x <= 0 then i else (x div 2)),x,2))
1: ((x + 1) - loop(\(x,i).loop(\(x,i).(x + (i * i)),(x + ~1),1),2,x))
1: ((x + 7) - i)
1: (7x - i)
1: (x + (2x * i) - i)
1: (x + (4 * (i * i)) - i)
1: (x + (x div 4) - i)
1: (x + (x div 12) - i)
1: (x + (x mod 4) - i)
1: (x + loop(\(x,i).2x,i,1) - i)
1: (x + loop(\(x,i).(x * i),i,1) - i)
1: (x + compr(\x.(loop(\(x,i).(2x + 1),x,0) mod (x + 1)),i) - i)
1: ((x + 2) + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) - compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))
1: (x + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: (x - (3 * i))
1: (x - (3 * (5 + (x mod 2))))
1: (x - (2 * (6 + (x mod 2))))
1: (x - (3 * (2x + (45 * (if x <= 0 then 0 else 2)))))
1: (x - (3 * ((x + 2) + (3 * (x div 2)))))
1: (x - (2 * ((2x2 + 2x + 1) + (loop(\(x,i).((x2 + ~x) div 2),2,(x + 1)) div 3))))
1: (x - (3 * ((4x + 2) + (x div 2))))
1: (x - (2 * (4 + (x mod 9))))
1: (~x2 + ~5x + ~8)
1: (x - ((~x + 4) * (x div 4)))
1: (x - (((~x + 1) + (x mod 2)) * (x div 2)))
1: (x - (3 * ((5x + 10) + (x div 2))))
1: (~8x + ~87)
1: (~2x2 + ~11x + ~20)
1: (x + ~34)
1: (x - (3 * ((16x + 8) + (x div 2))))
1: (x - (2 * (4x + i)))
1: (x - (5 * (x + (2 * (x mod 2)))))
1: (x - (2 * (2 + (x * (x mod 2)))))
1: (x - (3 * (x + ((x + (x div 2)) div 2))))
1: (x - (2 * (1 + ((x + ~2) div (2 + (x div 2))))))
1: (x - (2 * (((x2 mod (x - ((~x + 2) div 2))) div (x + 1)) + (x div 3))))
1: (x - (5 * (x + (x div 4))))
1: (x - (2 * ((x div 5) + (x div 4))))
1: (x - (2 * (2 + (x div (1 + (((if (x mod 2) <= 0 then 1 else x) mod 4) + ((x mod 3) div 2)))))))
1: (x - (2 * ((x div 9) + (x div 5))))
1: (x - ((1 + (x div (2 + ((1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)) mod (x + 1))))) * ((x mod 3) div 2)))
1: (x - (2 * (2 + (x div (1 + (x mod 4))))))
1: (x - (2 * (2 + (x div 8))))
1: (x - (3 * (2 + (x div 8))))
1: (x - (2 * ((x div 8) + (x div 3))))
1: (x - (3 * (2 + (x div (2 * (2 + (x mod 2)))))))
1: (x - (2 * (1 + ((1 - ((x + 1) mod 11)) mod (x + 1)))))
1: (x - ((2 + ((x + ~1) mod 3)) * (1 + (x div 2))))
1: (x - (3 * (1 + (x3 mod 11))))
1: (x - (2 * (1 + ((x div 2) mod 2))))
1: (x - (5 * (2x + (x mod 2))))
1: (x - (3 * (x + (x mod 2))))
1: (x - (4 * (x + (x mod 2))))
1: (x - (3 * (2 + (x mod (5 * (1 + (x mod (2 + (x mod 2)))))))))
1: (x - ((1 + (if (x mod ((x + ~2) - (x mod 3))) <= 0 then 0 else 1)) * (x div 4)))
1: (x - (2 * (x + (if (i mod 2) <= 0 then 2 else 0))))
1: (x - (2 * (x + loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(~2 + i),1))))
1: (x - ((1 + i) * i))
1: (x - ((2 + i) * i))
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1: (x - ((0 - (loop(\(x,i).(2x + 2),x,0) mod (x + 1))) div 5))
1: (x - ((0 - (x mod (~2 + ((~x + 2) div 4)))) div 2))
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1: (x - ((0 - (if (~x + 2) <= 0 then (x2 div 3) else 1)) div 3))
1: (x - ((0 - (if (~2 + (x div 4)) <= 0 then 2 else x)) div 4))
1: (x - ((0 - loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,1)) div 5))
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1: (x - ((1 - (2 * (x + (if (~4 + (x div 2)) <= 0 then 2 else 0)))) div 3))
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1: (x - ((1 - (2 * (x div 3))) div 3))
1: (x - ((1 - (2 * (if x <= 0 then 1 else x))) div 5))
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1: (x - ((~2x + 1) div (4 + (x div 4))))
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1: (x - ((~x2 + 1) div ((x + 2) + (x div 3))))
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1: (x - ((~x2 + 1) div 13))
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1: (x - ((x div (2 + ((~x + 2) mod 4))) div 2))
1: (x - ((x div ~2) div 5))
1: (x - ((x div ~4) div ~2))
1: (x - ((1 mod (~2x + 1)) div (x + 2)))
1: (x - ((2 mod (~2x + 1)) div 3))
1: (x - ((2 mod ((~x + 2) - ((x div 2) mod 2))) div 2))
1: (x - ((2 mod (~x2 + 2)) div 2))
1: (x - (((2x + 1) mod (3 * (1 + (2 * ((x div 5) mod 2))))) div 2))
1: (x - (((x2 + 2) mod ~7) div 2))
1: (x - (((x + 1) mod 4) div ~2))
1: (x - (((x + 1) mod (4 + (x div 2))) div 2))
1: (x - (((x + 1) mod 7) div 2))
1: (x - (((x + 2) mod (1 + (~x mod 4))) div 2))
1: (x - (((x - (x div 5)) mod 3) div 2))
1: (x - (((2x + 2) mod (2 + (x div 2))) div 2))
1: (x - (((~4x + 2) mod (2 + (x div 2))) div 2))
1: (x - (((4 * ((~x + 2) - (x div 3))) mod (x + 1)) div 2))
1: (x - ((x2 mod (x + 3)) div (x + 1)))
1: (x - ((x2 mod (8 + (x div 2))) div 3))
1: (x - ((x2 mod (x - ((~x + 2) div 2))) div (x + 1)))
1: (x - ((((2 - (x div 2)) div 2) mod (if x <= 0 then 1 else x)) div 2))
1: (x - (((x div 2) mod (1 + (x mod 8))) div 2))
1: (x - (((x div 4) mod (~1 + ((~x + 1) div 2))) div 2))
1: (x - ((loop(\(x,i).~2x,x,1) mod (x + 1)) div 2))
1: (x - ((loop(\(x,i).(2 * (x - i)),x,2) mod (x + 1)) div 2))
1: (x - ((loop(\(x,i).2x,x,(1 + (x mod (1 + (x mod (1 + (x mod 4))))))) mod (x + 1)) div 2))
1: (x - ((x mod 7) div 2))
1: (x - ((x mod 9) div 2))
1: (x - ((x mod (1 + (2 * (2 + ((x div 2) div 5))))) div 2))
1: (x - ((x mod (1 + (2 * (if (x mod 2) <= 0 then x else 2)))) div 2))
1: (x - ((x mod (1 + (x div 3))) div 2))
1: (x - ((x mod (6 + (x div 4))) div 2))
1: (x - ((x mod (2 + ((~x + 2) mod 5))) div 2))
1: (x - ((x mod (2 + ((x div 4) mod 3))) div 2))
1: (x - ((x mod (2 + (x mod 3))) div 2))
1: (x - ((x mod (2 + (x mod 3))) div 3))
1: (x - ((x mod ~11) div 3))
1: (x - ((x mod (2 - ((x2 + x) div 2))) div 2))
1: (x - ((x mod (2 - (x mod ~5))) div 2))
1: (x - ((x mod ((x + 1) - (2 * (x div 3)))) div 2))
1: (x - ((x mod (x - ((x + ~1) mod 8))) div 2))
1: (x - ((x mod 8) div (1 + i)))
1: (x - ((if (x + ~2) <= 0 then 2 else (((x + 1) div 2) div 2)) div 2))
1: (x - ((if 2x <= 0 then x else (~1 + loop(\(x,i).(x + (if (~2 + (x div 4)) <= 0 then 1 else 0)),x,x))) div 2))
1: (x - ((if (x mod 2) <= 0 then (~x + 1) else x) div (1 + i)))
1: (x - ((if (x mod 2) <= 0 then (~x + 2) else x) div 4))
1: (x - ((if (x mod (1 - (((x mod 4) - (x div 2)) div 3))) <= 0 then x else 5) div 2))
1: (x - ((if x <= 0 then 1 else (2 * (2 + ((x + ~1) div 13)))) div 2))
1: (x - ((if x <= 0 then 1 else (2 * (1 + (((1 + (x mod (2 + (if (x mod (2 + (x mod 2))) <= 0 then 2 else 0)))) mod (x + 1)) div 2)))) div 2))
1: (x - ((if x <= 0 then 1 else 3x2) div ~2))
1: (x - ((if x <= 0 then 1 else x2) div ~2))
1: (x - ((if x <= 0 then 1 else (loop(\(x,i).x5,1,11) mod (x + 1))) div 2))
1: (x - ((if x <= 0 then 1 else x) div (1 + (x div 5))))
1: (x - ((if x <= 0 then 1 else x) div ~2))
1: (x - ((if x <= 0 then 1 else x) div ~5))
1: (x - ((if x <= 0 then 1 else x) div (~4 + (((x + ~1) div 3) mod 2))))
1: (x - ((if x <= 0 then 1 else x) div (~2 + (x mod ~2))))
1: (x - ((if x <= 0 then 1 else x) div (~2 + (x mod ~4))))
1: (x - ((if x <= 0 then 1 else x) div ~6))
1: (x - ((if x <= 0 then 2 else (x div (~10 + (x div 2)))) div 2))
1: (x - ((if x <= 0 then 2 else (6 mod (1 + (x div 2)))) div 2))
1: (x - ((if x <= 0 then (x + ~1) else (x * i)) div 5))
1: (x - ((if x <= 0 then (x + ~1) else i) div 3))
1: (x - (loop(\(x,i).(x - (if x <= 0 then 0 else (if (x mod 3) <= 0 then 1 else ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)))),2,x) div 2))
1: (x - (loop(\(x,i).(x - (if x <= 0 then 1 else (2 * i))),x,(x + ~2)) div 2))
1: (x - (loop(\(x,i).(x2 + 3x),1,loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)) div 2))
1: (x - (loop(\(x,i).(x3 + 2x),2x,2) div 2))
1: (x - (loop(\(x,i).(x2 + x),1,loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)) div 2))
1: (x - (loop(\(x,i).((x + ~1) * i),x,1) div (x + 2)))
1: (x - (loop(\(x,i).(3x + ~6),x,0) div 7))
1: (x - (loop(\(x,i).4x,i,x) div 2))
1: (x - (loop(\(x,i).2x,x,1) div (x + 1)))
1: (x - (loop(\(x,i).2x,x,((x + 1) - loop(\(x,i).2x,(x + ~1),2))) div 2))
1: (x - (loop(\(x,i).(x3 div 3),x,(~x + 1)) div 2))
1: (x - (x div (3 + ((x div 2) div 3))))
1: (x - (x div (4 + (x div 2))))
1: (x - (x div (3 + ((x + 2) mod 4))))
1: (x - (x div (4 + ((x + 2) mod 4))))
1: (x - (x div (3 + ((~x + 1) mod (1 + (x div 2))))))
1: (x - (x div (4 + ((x div 2) mod 5))))
1: (x - (x div (4 + (x mod 2))))
1: (x - (x div (4 + i)))
1: (x - (x div (4 - (x mod 2))))
1: (x - (x div (9 - (x div 2))))
1: (x - (x div 13))
1: (x - (x div (1 + (5 * i))))
1: (x - (x div (1 + (2 * (1 + ((x div 4) mod 2))))))
1: (x - (x div (1 + ((2 + i) * i))))
1: (x - (x div (1 + ((1 + (x div 3)) div 2))))
1: (x - (x div (2 + ((x + ~2) div (2 + (x div 2))))))
1: (x - (x div (1 + (x div 4))))
1: (x - (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))))
1: (x - (x div (2 + (x div (2 + (x mod 3))))))
1: (x - (x div (1 + ((x + 1) mod 3))))
1: (x - (x div (2 + ((x + 1) mod (2 + (x mod 2))))))
1: (x - (x div (1 + ((x + 2) mod 4))))
1: (x - (x div (1 + ((1 - (x div 2)) mod 4))))
1: (x - (x div (2 + ((~x + 1) mod 3))))
1: (x - (x div (1 + ((~x + 2) mod 4))))
1: (x - (x div (2 + ((4 - (x mod 3)) mod (x + 1)))))
1: (x - (x div (1 + ((x + ~1) mod 4))))
1: (x - (x div (2 + (x2 mod (x + 4)))))
1: (x - (x div (2 + ((x div 2) mod 5))))
1: (x - (x div (1 + ((x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4)))))) mod (1 + (x div 2))))))
1: (x - (x div (2 + (x mod (3 - (x mod 2))))))
1: (x - (x div (1 + (x mod (1 + ((3x mod (2 + (x div 2))) div 2))))))
1: (x - (x div (1 + (x mod (2 + ((x mod 3) div 2))))))
1: (x - (x div (1 + (x mod (1 + (loop(\(x,i).2x,x,(1 + (x mod 2))) mod (2x + 1)))))))
1: (x - (x div (2 + (x mod ((x + ~1) - (x mod 12))))))
1: (x - (x div (1 + (x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4)))))))))
1: (x - (x div (2 + (i mod 2))))
1: (x - (x div (2 + (if (~2 + (x div 4)) <= 0 then 1 else 2))))
1: (x - (x div ((if ((x div 2) mod 3) <= 0 then 2 else 1) + (if (x + ~2) <= 0 then 1 else 2))))
1: (x - (x div (2 + (if (((x + 2) mod 8) mod 3) <= 0 then 0 else 2))))
1: (x - (x div (2 + (if (x mod 2) <= 0 then 2 else i))))
1: (x - (x div ((if (x mod 3) <= 0 then 2 else 1) + (x mod 2))))
1: (x - (x div (1 + i)))
1: (x - (x div (2 + i)))
1: (x - (x div (~4 - ((x div 4) mod 2))))
1: (x - (x div (~1 - (x div 4))))
1: (x - (x div (~2 - (if ((x + 1) mod 8) <= 0 then 1 else 2))))
1: (x - (x div (0 - (2 * (2 + ((x + 1) mod 4))))))
1: (x - (x div (0 - (2 * (2 + (x mod 4))))))
1: (x - (x div (1 - (2 * (2 + (x mod 5))))))
1: (x - (x div (1 - ((~2x + 2) div 9))))
1: (x - (x div (2 - ((~x + 1) div 3))))
1: (x - (x div (2 - (x mod ~4))))
1: (x - (x div (~2 - (i mod 4))))
1: (x - (x div (~5 + (x mod 2))))
1: (x - (x div (~5 + (x mod ~4))))
1: (x - (x div (~4 + ((x div 2) mod 2))))
1: (x - (x div (~4 + ((x div 2) mod 3))))
1: (x - (x div (8 - (x div 4))))
1: (x - (x div 11))
1: (x - (x div ~13))
1: (x - (x div (~1 + (2 * ((x + ((~x + 1) mod 3)) div 2)))))
1: (x - (x div (~1 + (((~x + 2) div 2) div 5))))
1: (x - (x div (~1 + (((((~x + 2) * (x div 2)) div 8) div 2) div 2))))
1: (x - (x div (~2 + ((x div 2) div ~2))))
1: (x - (x div (~2 + (x div ~2))))
1: (x - (x div (~1 + (x div ~4))))
1: (x - (x div (~2 + (x div ~4))))
1: (x - (x div (~2 + ((x div 2) mod 2))))
1: (x - (x div (~2 + ((x div 2) mod ~2))))
1: (x - (x div (~2 + (x mod ~3))))
1: (x - (x div (~2 + (if (x mod 3) <= 0 then x else 0))))
1: (x - (x div (x - (3 * (((x + ~1) div 2) div 2)))))
1: (x - (x div (4 * (1 + i))))
1: (x - (x div (2 * (1 + ((x div 2) div 3)))))
1: (x - (x div (3 * (8 - (x div 2)))))
1: (x - (x div (~2x + 32)))
1: (x - (x div (4 * (2 + (x mod 2)))))
1: (x - (x div (if ((x mod (2 + (x mod 2))) div 2) <= 0 then 6 else 1)))
1: (x - (x div (if ((x + 1) mod 3) <= 0 then 2 else ~1)))
1: (x - (x div loop(\(x,i).(x div (~2 + (x mod 2))),x,(x + 1))))
1: (x - (i div 2))
1: (x - (i div (~2 + (x mod ~2))))
1: (x - (1 mod (~2x + 3)))
1: (x - (1 mod (2 + ((~x2 + x) div 2))))
1: (x - (1 mod (8 + ((~x2 + x) div 2))))
1: (x - (1 mod (~4x + 1)))
1: (x - (1 mod (~2x + 1)))
1: (x - (1 mod (5 - ((x2 + ~x) div 2))))
1: (x - (1 mod ((~x + 1) + (x mod 9))))
1: (x - (1 mod ((2x + 3) - (x2 div 4))))
1: (x - (1 mod (~x + (2 * (2 - (x div 4))))))
1: (x - (1 mod (~2 + (x * (x div 3)))))
1: (x - (1 mod (~x + ((x + 1) mod 3))))
1: (x - (1 mod (~x + ((x + ~2) mod 8))))
1: (x - (1 mod ((x + 1) - ((2x + 1) * (~1 + ((x2 + ~x) div 4))))))
1: (x - (1 mod (~4x + 18)))
1: (x - (1 mod (2 * ((~2x + 4) + (x div 2)))))
1: (x - (1 mod (~8x + 2)))
1: (x - (2 mod (~2x + 3)))
1: (x - (2 mod (~3x + 7)))
1: (x - (2 mod (1 + (x div 4))))
1: (x - (2 mod (~1 - (x div 4))))
1: (x - (2 mod (1 - (2 * (x div 3)))))
1: (x - (2 mod (2 - ((x2 + 4x) div 3))))
1: (x - (2 mod ((~x + ~1) + (x div 8))))
1: (x - (2 mod (~1 + ((~x + 2) div 3))))
1: (x - (2 mod (~1 + (x div ~7))))
1: (x - (2 mod (~x2 + 3x + ~1)))
1: (x - (2 mod (x - loop(\(x,i).2x,x,1))))
1: (x - (2 mod ((2x + 1) div ~7)))
1: (x - (2 mod (if (x mod 3) <= 0 then 1 else x)))
1: (x - (2 mod (if (x mod (2 + (x mod 2))) <= 0 then 1 else x)))
1: (x - (3 mod (1 + (x div 3))))
1: (x - (3 mod (x + 1)))
1: (x - (3 mod (1 - (2 * ((1 + (x div 2)) div 2)))))
1: (x - (3 mod (1 - (2 * ((2 * (x div 2)) div 3)))))
1: (x - (4 mod (1 + (x div 3))))
1: (x - (4 mod (x + 1)))
1: (x - (5 mod (1 + (x div 4))))
1: (x - (5 mod (if x <= 0 then 1 else x)))
1: (x - ((x + 3) mod (if x <= 0 then 1 else (2 * (1 + (if (~2 + (x div 3)) <= 0 then 0 else 2))))))
1: (x - ((5x + 8) mod (1 + (x div 2))))
1: (x - ((4x + 1) mod 11))
1: (x - ((x3 + 1) mod (2 + (x div 2))))
1: (x - ((1 + (2 * (x div 2))) mod 5))
1: (x - ((1 + (x * loop(\(x,i).(4x2 + ~1),2,2x))) mod (x + 1)))
1: (x - ((2 + (x * loop(\(x,i).(4x2 + x),2,2x))) mod (x + 1)))
1: (x - ((2 + (x * loop(\(x,i).2x2,2,(x + ~2)))) mod (x + 1)))
1: (x - ((2 + (x * loop(\(x,i).3x2,2,2x))) mod (x + 1)))
1: (x - ((2x + 1) mod (2 + (x div 4))))
1: (x - ((2x + 1) mod (1 + (2x mod (2 + (x div 4))))))
1: (x - ((x2 + 1) mod 5))
1: (x - ((x2 + 1) mod (1 + (((x + 1) div 2) div 2))))
1: (x - ((x2 + 2) mod 5))
1: (x - ((x2 + 2) mod (3 + (x div 2))))
1: (x - ((1 + ((x * (x div 2)) div 5)) mod 3))
1: (x - ((1 + ((x * (x div 3)) div 2)) mod 3))
1: (x - ((1 + (2x div 3)) mod 3))
1: (x - ((1 + (((x + 1) div 2) div 2)) mod 3))
1: (x - ((1 + ((x mod (1 + (x div 2))) div 2)) mod 3))
1: (x - (((x div 3) + (x div 2)) mod 4))
1: (x - ((2 + ((x + ~2) mod 5)) mod (x + 1)))
1: (x - ((1 + (8 mod (1 + (x div 2)))) mod 3))
1: (x - ((1 + (loop(\(x,i).2x,x,2) mod (x + 2))) mod 2))
1: (x - ((x + (x mod 4)) mod 3))
1: (x - ((1 + (x mod (2 * (1 + (x mod (2 * (1 + (x mod (1 + (x div 3)))))))))) mod (x + 1)))
1: (x - ((1 + loop(\(x,i).(x * (4x + (i mod 2))),2,2x)) mod (x + 1)))
1: (x - ((1 + loop(\(x,i).(x4 + 3x3 + 2x2),1,(x2 + 2))) mod (x + 1)))
1: (x - ((x + 1) mod (4 - (x div 4))))
1: (x - ((x + 1) mod 7))
1: (x - ((x + 1) mod (1 + (2 * ((2 + (x div 2)) div 3)))))
1: (x - ((x + 1) mod (1 + ((4 * (1 + (2 * (0 - ((2 * (x + (if (x + ~4) <= 0 then 1 else x))) div (x + 2)))))) div 3))))
1: (x - ((x + 1) mod (1 + (x div (2 + (3 * (x mod 2)))))))
1: (x - ((x + 1) mod (1 + ((~x + 2) mod 4))))
1: (x - ((x + 1) mod (1 + (x mod 4))))
1: (x - ((x + 1) mod (1 + (x mod (9 + (x mod 2))))))
1: (x - ((x + 1) mod (1 + (x mod (2 + ((~x + 1) mod (2 + (x div 2))))))))
1: (x - ((x + 1) mod (1 + (x mod (2 + (loop(\(x,i).(x + (i * i)),x,0) mod (x + 2)))))))
1: (x - ((x + 1) mod (1 + (x mod 6))))
1: (x - ((x + 1) mod (1 - (2 * (1 + (if (x + ~4) <= 0 then 0 else 2))))))
1: (x - ((x + 1) mod (2 - (x div (~3 + (x mod 2))))))
1: (x - ((x + 1) mod ((~x + ~1) + (x mod 8))))
1: (x - ((x + 1) mod ~9))
1: (x - ((x + 1) mod 15))
1: (x - ((x + 1) mod ((x + ~2) + ((x mod (1 + (x mod 4))) div 2))))
1: (x - ((x + 1) mod 14))
1: (x - ((x + 1) mod (2 * (1 + (if (x + ~4) <= 0 then 0 else 2)))))
1: (x - ((x + 1) mod (2 * (~1 - (if (x + ~4) <= 0 then 0 else 2)))))
1: (x - ((x + 1) mod 16))
1: (x - ((x + 1) mod (if x <= 0 then 1 else (2 * (1 + (2 * (x mod 2)))))))
1: (x - ((x + 2) mod 5))
1: (x - ((x + 2) mod 7))
1: (x - ((x + 2) mod (2 + (x div 8))))
1: (x - ((x + 2) mod (1 + (((x + 1) mod 7) mod 3))))
1: (x - ((x + 2) mod (2 + (x mod 2))))
1: (x - ((x + 2) mod loop(\(x,i).(x * i),(x div 4),1)))
1: (x - (~1 mod (x - ((x + 2) mod 7))))
1: (x - (~2 mod (1 + (x * (x div 2)))))
1: (x - (~2 mod (1 + (x div 5))))
1: (x - (~2 mod (1 + (x mod 10))))
1: (x - ((0 - (2 * (x mod 7))) mod (if x <= 0 then 1 else x)))
1: (x - ((0 - (x div 4)) mod 3))
1: (x - (~x mod 5))
1: (x - (~x mod (1 + (x div 4))))
1: (x - ((~x2 + 1) mod (1 + ((x * (x mod 2)) div 3))))
1: (x - ((1 - (x div 2)) mod (x + 4)))
1: (x - ((1 - (x div 3)) mod 4))
1: (x - ((~x + 1) mod 4))
1: (x - ((~x + 1) mod 7))
1: (x - ((~x + 1) mod (2 + (x div 2))))
1: (x - ((~x + 1) mod (1 + (x div 5))))
1: (x - ((2 - (x div 4)) mod 5))
1: (x - ((~x + 2) mod 3))
1: (x - ((~x + 2) mod (2 - (x div ~2))))
1: (x - ((2x2 + ~1) mod (x + 4)))
1: (x - ((~2 + (3 * (x div 2))) mod (1 + (x div 4))))
1: (x - ((~2 + (x * (x div 2))) mod 5))
1: (x - ((~1 + (2x div 3)) mod 5))
1: (x - ((~1 + (x div 2)) mod 3))
1: (x - ((~1 + (x div 2)) mod (1 + (x div 4))))
1: (x - ((x + ~1) mod 5))
1: (x - ((x + ~1) mod (3 + (x div 2))))
1: (x - ((x + ~1) mod 9))
1: (x - ((x + ~1) mod (1 + ((x + 1) div 5))))
1: (x - ((x + ~1) mod (1 + ((x + 2) div 3))))
1: (x - ((x + ~1) mod (1 + (x div 3))))
1: (x - ((x + ~2) mod (2 + (x div 3))))
1: (x - ((x + ~2) mod (2 + (x mod 2))))
1: (x - ((x + ~2) mod (2 - (x div ~2))))
1: (x - ((x - ((~1 + (x div 4)) div 2)) mod 2))
1: (x - ((x - ((((x + 1) div 2) div 2) div 2)) mod 3))
1: (x - ((x - i) mod 6))
1: (x - ((~1 + i) mod 13))
1: (x - (6 mod (1 + (x div 2))))
1: (x - (3x mod 19))
1: (x - (3x mod (x - ((x + 1) mod 3))))
1: (x - ((x3 + x) mod (x + 8)))
1: (x - ((x * (1 + (x div 2))) mod 3))
1: (x - ((2x + 2) mod 21))
1: (x - ((~2x + 2) mod 5))
1: (x - (((x + 1) * (2 - ((x div 2) mod 2))) mod 3))
1: (x - (2x2 mod 5))
1: (x - (x3 mod (x + 8)))
1: (x - ((x * (x div 2)) mod 2))
1: (x - ((x * (x div 2)) mod 3))
1: (x - ((2 * (x div 3)) mod 5))
1: (x - (((x mod 3) * (x div 2)) mod 2))
1: (x - (2x mod 19))
1: (x - (2x mod (2 + (x mod 2))))
1: (x - (2x mod (~2x2 + 4x + ~1)))
1: (x - (2x mod ((2x + 4) div 3)))
1: (x - (x2 mod 5))
1: (x - (x2 mod (x + 4)))
1: (x - (x2 mod (1 + (2 * (x + (x div 4))))))
1: (x - (x2 mod (x + 36)))
1: (x - (x2 mod (1 + (3 * (x div 2)))))
1: (x - (x2 mod (2 + (x div 2))))
1: (x - (x2 mod (2 + (x mod 2))))
1: (x - (x2 mod (~2 - (x div 4))))
1: (x - (x2 mod (~x + ~15)))
1: (x - (x2 mod (11x + 12)))
1: (x - (x2 mod ((x + 1) - (x mod 3))))
1: (x - (x2 mod (x + 14)))
1: (x - (x2 mod (x - ((~x + 2) div 2))))
1: (x - (x2 mod (2x + 8)))
1: (x - (x2 mod 16))
1: (x - (x2 mod 20))
1: (x - (((x + (x div 2)) div 4) mod 2))
1: (x - (((x + (x div 2)) div (4 + (x div 2))) mod 2))
1: (x - (((x + (if (x mod 2) <= 0 then x else 2)) div 3) mod 3))
1: (x - (((x + 1) div 2) mod 5))
1: (x - (((x + 1) div 2) mod 7))
1: (x - (((x + 1) div (2 + (x div 8))) mod 3))
1: (x - (((x + 1) div (1 + (x mod 9))) mod 2))
1: (x - (((x + 2) div (2 + (x mod 2))) mod 4))
1: (x - (((1 - (x div 2)) div 3) mod 3))
1: (x - (((~x + 2) div 2) mod 4))
1: (x - (((2x + ~1) div 5) mod 3))
1: (x - (((~1 + (x div 2)) div 2) mod 2))
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1: (x - (((x + ~1) div 2) mod 5))
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1: (x - (if x <= 0 then 1 else (i * i)))
1: (x - (if x <= 0 then 1 else ((2x * (~1 + (2 * i))) div (2 + i))))
1: (x - (if x <= 0 then 1 else (((x div 5) * (x div 2)) div 2)))
1: (x - (if x <= 0 then 1 else (x div 3)))
1: (x - (if x <= 0 then 1 else (x div (1 + ((x + ~1) mod 5)))))
1: (x - (if x <= 0 then 1 else (x div ~2)))
1: (x - (if x <= 0 then 1 else (x div (2 - ((x * (x div 2)) mod 2)))))
1: (x - (if x <= 0 then 1 else (x div (2 - (i mod 2)))))
1: (x - (if x <= 0 then 1 else (x2 mod (1 + (4x * (x mod 2))))))
1: (x - (if x <= 0 then 1 else (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))
1: (x - (if x <= 0 then 1 else (loop(\(x,i).(x2 + ~x),2,4x) mod (x + 1))))
1: (x - (if x <= 0 then 1 else (x mod (~2 + (3 * (x div 4))))))
1: (x - (if x <= 0 then 1 else (if (~x + 2) <= 0 then (1 - (2 * ((x mod (1 + (((x + 1) div 2) div 2))) mod 2))) else 0)))
1: (x - (if x <= 0 then 1 else (if ((x mod 3) div 2) <= 0 then x else ((x + 1) div 2))))
1: (x - (if x <= 0 then 1 else (if (x div 3) <= 0 then x else (if (x mod (2 + (x mod 2))) <= 0 then 1 else x))))
1: (x - (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else 19)))
1: (x - (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else (1 + ((if ((x + ~1) mod 3) <= 0 then 1 else x) * (x mod 2))))))
1: (x - (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else (1 + (9 * loop(\(x,i).(x div (1 + (x mod 2))),x,x))))))
1: (x - (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else (2 + (if (~x + 2) <= 0 then x else 0)))))
1: (x - (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else ((x + ~1) + loop(\(x,i).x2,2,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))))))
1: (x - (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else (if (~x + 2) <= 0 then (2 + (x div 2)) else 1))))
1: (x - (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else loop(\(x,i).i,((~1 + (x div 2)) div 2),1))))
1: (x - (if x <= 0 then 1 else (if (x mod 2) <= 0 then (if x <= 0 then 2 else ~1) else (1 + (x div 2)))))
1: (x - (if x <= 0 then 1 else (if (x mod (1 + (2 * i))) <= 0 then x else 0)))
1: (x - (if x <= 0 then 1 else loop(\(x,i).(2 - ((if x <= 0 then 1 else x) mod 2)),(x mod 2),(x div 2))))
1: (x - (if x <= 0 then 1 else loop(\(x,i).(x - (x div (1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))),2,x)))
1: (x - (if x <= 0 then 1 else loop(\(x,i).(x - (if x <= 0 then 1 else (~1 + ((2x + 1) mod (2 - ((~x + 2) div 5)))))),x,x)))
1: (x - (if x <= 0 then 1 else loop(\(x,i).(x mod 2),(x mod 2),(x div 2))))
1: (x - (if x <= 0 then 1 else loop(\(x,i).(if (x * i) <= 0 then 1 else (x + ~1)),i,x)))
1: (x - (if x <= 0 then 2 else (1 + loop(\(x,i).3x,(2 * i),1))))
1: (x - (if x <= 0 then 2 else (x div 3)))
1: (x - (if x <= 0 then 2 else (if (6 mod (1 + (x div 2))) <= 0 then 1 else 0)))
1: (x - (if x <= 0 then (2 - i) else 1))
1: (x - (if x <= 0 then (x - ((i div 2) + i)) else 1))
1: (x - loop(\(x,i).((x + 1) + (((2x + ~4) div (2 + (x div 4))) mod 2)),x,0))
1: (x - loop(\(x,i).(1 + (x div 2) - (2 * (x mod 2))),((x + 1) div 2),1))
1: (x - loop(\(x,i).(3x + 2),(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1))
1: (x - loop(\(x,i).(2x + 1),(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1))
1: (x - loop(\(x,i).(2x + 1),((x div 2) - ((3 * (x div 4)) div 2)),0))
1: (x - loop(\(x,i).(x2 + 1),x,2))
1: (x - loop(\(x,i).(x2 + 2),2,2))
1: (x - loop(\(x,i).(2 + (x * i)),x,0))
1: (x - loop(\(x,i).(2 + ((x2 + ~2) div (x + 4))),2,x))
1: (x - loop(\(x,i).(x + ((~x + ((x div 2) mod 5)) div 5)),2,x))
1: (x - loop(\(x,i).(1 + ((2x2 + ~x) div (x + 3))),2,x))
1: (x - loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then i else 0)),x,(x + 1)))
1: (x - loop(\(x,i).(1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x)),2,(x + 1)))
1: (x - loop(\(x,i).(~2x2 + 1),2,2))
1: (x - loop(\(x,i).(~2x + 1),i,0))
1: (x - loop(\(x,i).(~x + 1),(x + ~1),(x - (3 mod (x + 1)))))
1: (x - loop(\(x,i).(~x + 1),x,((~x + 2) + ((x div 2) mod 2))))
1: (x - loop(\(x,i).(~x + 1),x,((x + ~1) - ((x div 2) mod 2))))
1: (x - loop(\(x,i).(~1 + (((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3) + (if x <= 0 then 0 else 1))),1,i))
1: (x - loop(\(x,i).(~2 + ((~x + 2) * (x div 2))),x,x))
1: (x - loop(\(x,i).((~x + ~1) + (x * i)),(x + ~1),0))
1: (x - loop(\(x,i).(~x + ((x - i) div 4)),2,x))
1: (x - loop(\(x,i).(~2 + ((x2 + x) div 2)),2,x))
1: (x - loop(\(x,i).(~x2 + (x div 2)),2,(x + 2)))
1: (x - loop(\(x,i).(~x + ((i div 2) + ((x + (x div 2)) div 4))),x,0))
1: (x - loop(\(x,i).(~x + (4x mod 9)),2,(x + 1)))
1: (x - loop(\(x,i).(~x + ((x div 3) mod 2)),3,x))
1: (x - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x + 1)))
1: (x - loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,x2))
1: (x - loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),i,x))
1: (x - loop(\(x,i).((x + ~1) - (2 * (if x <= 0 then 0 else i))),x,x))
1: (x - loop(\(x,i).((x + 1) - (2 * ((4 * (x + (if (~2 + (x div 2)) <= 0 then 1 else 2))) div 3))),1,(x div 2)))
1: (x - loop(\(x,i).(x + (x mod 3) - (2 * (x mod 2))),2,x))
1: (x - loop(\(x,i).((x + 1) - (x mod (1 + (2 * (2 + (x mod 2)))))),x,x))
1: (x - loop(\(x,i).((x + 1) - (if x <= 0 then 1 else (2 * i))),x,x))
1: (x - loop(\(x,i).(x - (2 * (~x + i))),i,1))
1: (x - loop(\(x,i).(x - (2 * (if x <= 0 then 0 else i))),x,x))
1: (x - loop(\(x,i).(x - (((x div 2) + i) div 4)),x,0))
1: (x - loop(\(x,i).(x - ((1 + (x mod (1 + (2 * (if (x mod 2) <= 0 then 1 else (x div 4)))))) div 3)),2,x))
1: (x - loop(\(x,i).(x - ((~2 + (x div 2)) div 3)),x,x))
1: (x - loop(\(x,i).(x - (x2 div (x + 16))),2,(if x <= 0 then 1 else x)))
1: (x - loop(\(x,i).(x - (x div (1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))),x,x))
1: (x - loop(\(x,i).(x - ((x - ((~1 + (x div 4)) div 2)) mod 2)),2,x))
1: (x - loop(\(x,i).(x - ((x mod 6) mod (1 + (x div 2)))),2,x))
1: (x - loop(\(x,i).(x - (x mod (3 + i))),2,x))
1: (x - loop(\(x,i).(x - (if (~2 + (x div 2)) <= 0 then 0 else 1)),4,x))
1: (x - loop(\(x,i).(x - (if (x + ~7) <= 0 then (2 + i) else 1)),x,x))
1: (x - loop(\(x,i).(x - (if (x mod 2) <= 0 then ((if x <= 0 then 2 else x) div 2) else 1)),x,(x + 1)))
1: (x - loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else x)),x,2x))
1: (x - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + (if (x + ~1) <= 0 then x else i)))),x,(x + ~1)))
1: (x - loop(\(x,i).(x - (if x <= 0 then 0 else (i - ((~1 + i) mod 6)))),x,x))
1: (x - loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,(x + 1)))
1: (x - loop(\(x,i).(x - (if x <= 0 then 0 else i)),i,x))
1: (x - loop(\(x,i).(x - (if x <= 0 then 1 else (1 - (((x2 + 1) div (1 + (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))) mod 3)))),x,x))
1: (x - loop(\(x,i).(x - (if x <= 0 then 1 else (11 * i))),2,(x + 1)))
1: (x - loop(\(x,i).(x - (if x <= 0 then 2 else (~2 + i))),x,x))
1: (x - loop(\(x,i).(x - (if x <= 0 then (2 - i) else 1)),x,2))
1: (x - loop(\(x,i).(x - loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,0)),3,x))
1: (x - loop(\(x,i).(x - loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,0)),x,(x + ~1)))
1: (x - loop(\(x,i).(x - loop(\(x,i).2x,(1 + ((x + ~2) div (2 + (x div 2)))),1)),2,(x + 1)))
1: (x - loop(\(x,i).(i - (x * i)),x,0))
1: (x - loop(\(x,i).7x,i,2))
1: (x - loop(\(x,i).(2x + 4),i,0))
1: (x - loop(\(x,i).(x2 + 2x),1,(x div (~2 + ((~x + 2) div 4)))))
1: (x - loop(\(x,i).(~x2 + x),1,(2 - (x div (~2 + ((~x + 2) div 4))))))
1: (x - loop(\(x,i).(~x2 + x),1,(x mod 10)))
1: (x - loop(\(x,i).(x * ((~x + ~1) + i)),2,4))
1: (x - loop(\(x,i).(((x + 1) - i) * i),i,0))
1: (x - loop(\(x,i).(2 * (x - ((~x + i) div 2))),x,0))
1: (x - loop(\(x,i).(2 * (x - i)),2x,0))
1: (x - loop(\(x,i).(4x + 8),x,0))
1: (x - loop(\(x,i).2x2,1,((x + 2) div 7)))
1: (x - loop(\(x,i).x3,1,(3x + 2)))
1: (x - loop(\(x,i).2x,((((1 + (8 mod (1 + (x div 2)))) div 2) + (if x <= 0 then 0 else 1)) - (x mod 2)),2))
1: (x - loop(\(x,i).2x,(1 + ((x + ~2) div (2 + (x div 2)))),1))
1: (x - loop(\(x,i).2x,(~1 + (x mod 9)),1))
1: (x - loop(\(x,i).2x,(~1 + (x mod 10)),1))
1: (x - loop(\(x,i).2x,(~1 + (if x <= 0 then 0 else i)),1))
1: (x - loop(\(x,i).2x,((x - (x div 3)) div 3),1))
1: (x - loop(\(x,i).2x,(~x mod 4),1))
1: (x - loop(\(x,i).2x,loop(\(x,i).i,(x + ~9),x),1))
1: (x - loop(\(x,i).2x,x,3))
1: (x - loop(\(x,i).2x,x,loop(\(x,i).(2x - i),x,0)))
1: (x - loop(\(x,i).x2,2,(loop(\(x,i).(2x + 2),x,2) mod (x + 2))))
1: (x - loop(\(x,i).(2 * i),(x + ~8),1))
1: (x - loop(\(x,i).(((x * i) + (x div 2)) div 2),2,x))
1: (x - loop(\(x,i).((x - (((if x <= 0 then 2 else x) div 2) mod 2)) div 2),2,x))
1: (x - loop(\(x,i).((~2x + 8) div (x + 3)),2,x))
1: (x - loop(\(x,i).((~x2 + ~x + 2) div 2),2,x))
1: (x - loop(\(x,i).((~x2 + x) div 2),2,(x + ~1)))
1: (x - loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(~2 + i),2))
1: (x - loop(\(x,i).(x2 div (x + 2)),5,x))
1: (x - loop(\(x,i).(x5 mod 31),2,x))
1: (x - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x + ~2),x))
1: (x - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),x))
1: (x - loop(\(x,i).(if x <= 0 then 1 else loop(\(x,i).(x - (if x <= 0 then 1 else (x - (if x <= 0 then 1 else ((2x * (~1 + (2 * i))) div (2 + i)))))),1,x)),2,x))
1: (x - loop(\(x,i).(if x <= 0 then i else (x + ~3)),x,0))
1: (x - loop(\(x,i).loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,0),2,x))
1: (x - loop(\(x,i).loop(\(x,i).((x + ~1) - (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)),x,x),1,2x))
1: (x - loop(\(x,i).loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),x,(2x + 1)),2,x))
1: (x - loop(\(x,i).i,(~4 + (x div 2)),x))
1: (x - loop(\(x,i).i,(~2 + (x mod 10)),0))
1: (x - loop(\(x,i).i,((loop(\(x,i).(2x + 2),x,(1 - (2 * (x mod 2)))) mod (x + 1)) div 2),1))
1: (x - loop(\(x,i).i,loop(\(x,i).(x div (1 + (x mod 2))),x,x),x))
1: (~7 + i)
1: ((~x2 + ~1) + i)
1: (~1 + i - (((x + 1) div 2) div 3))
1: (~x + i - ((x div 2) mod 2))
1: (~1 + (i + (2 * (i mod 2))))
1: ((14x + 1) + i)
1: (1 + i - (2 * (i mod 2)))
1: (1 + i - (x mod 3))
1: ((4x + ~2) + i)
1: (i - (3 * (1 - (2 * i))))
1: ((3x + ~3) + i)
1: ((x2 + ~x) + i)
1: (i - (2 * (2 - (3 * i))))
1: (i - (3 * (2 - (2 * i))))
1: (i - (2 * (~x + (x div 3))))
1: (i - (2 * (~x + (x mod 2))))
1: (21x + i)
1: (~24 + i)
1: (i - (8 * (1 + i)))
1: (i - (4 * (1 - (2 * i))))
1: ((6x + ~6) + i)
1: (i - (8 * (1 - i)))
1: (~6x + i)
1: (i - (2x * i))
1: (i - (4 * (i * i)))
1: (i - (2 * ((x div (1 + i)) * i)))
1: (i - ((x + (x div 3)) div 5))
1: (i - (~24x div (x + 1)))
1: (i - ((~x + 1) div (2 + (x div 3))))
1: (i - ((~x + 2) div 4))
1: (i - ((2 - i) div 2))
1: (i - ((x + ~1) div 2))
1: (i - ((x * (x - i)) div (x + 4)))
1: (i - (2x div (1 + i)))
1: (i - ((((x + (x mod 2)) mod 5) div 2) div 2))
1: (i - ((x2 mod (x - ((~x + 2) div 2))) div (x + 1)))
1: (i - (x div 4))
1: (i - (x div (1 + (6 * i))))
1: (i - (x div ~4))
1: (i - (x div (~2 + (x mod 2))))
1: (i - (x div 12))
1: (i - (x div (if i <= 0 then 1 else i)))
1: (i - ((1 + (x div (2 + (x mod (2 + (x mod 2)))))) mod (x + 1)))
1: (i - ((~1 + i) mod 6))
1: (i - ((x div 2) mod 2))
1: (i - (x mod 3))
1: (i - (x mod 4))
1: (i - (x mod 13))
1: (i - (if (x + ~1) <= 0 then 0 else (2 * (1 + i))))
1: (i - loop(\(x,i).(~2 + (x * i)),x,0))
1: (i - loop(\(x,i).2x,i,1))
1: (i - loop(\(x,i).(x * i),i,1))
1: (i - compr(\x.(loop(\(x,i).(2x + 1),x,0) mod (x + 1)),i))
1: (~2 + compr(\x.(1 + loop(\(x,i).(0 - (if (x mod (1 + i)) <= 0 then 0 else x)),(x div 2),x)),x))
1: (~1 + compr(\x.(1 + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then x else 5)),x,x)),x))
1: (~1 + compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(7x + ~3))),x))
1: (~1 + compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(8x + ~2))),x))
1: (~x + compr(\x.(1 - ((x + ((2x + ~1) div 5)) mod 3)),x))
1: (~1 + compr(\x.(1 - (((x2 + 2x) - ((~x + 2) div 5)) mod 3)),x))
1: (~1 + compr(\x.(1 - ((~x2 + x) mod 8)),(x + 1)))
1: (~1 + compr(\x.(1 - (((((x2 + ~2) * ((x + 1) div 2)) div 2) div 3) mod 3)),x))
1: (~1 + compr(\x.(1 - (x mod (1 + (((x mod (~1 + (2 * ((x + ~1) div 3)))) div 2) + (x mod 2))))),x))
1: (~1 + compr(\x.(1 - (x mod (1 + (3 * ((~x2 + x) mod 8))))),x))
1: ((~x + ~1) + compr(\x.(1 - (x mod (2 + (3 * (x mod 3))))),(x + 1)))
1: (~3 + compr(\x.(1 - (x mod (1 + (x div 5)))),x))
1: (~1 + compr(\x.(1 - (x mod (1 + ((1 + ((x + ((x div 2) div 3)) mod 3)) mod (x + 1))))),x))
1: (~1 + compr(\x.(1 - (x mod (1 + ((1 + (((x + 2) mod 10) mod 9)) mod (x + 1))))),x))
1: (~1 + compr(\x.(1 - (x mod (1 + ((x + 1) mod (1 + (2 * ((x + ~1) div 5))))))),x))
1: (~1 + compr(\x.(1 - (x mod (2 + ((x + 2) mod (5 + (x mod 2)))))),(x + 1)))
1: (~1 + compr(\x.(1 - (x mod (1 + (~x mod (1 + (x div 5)))))),x))
1: (~1 + compr(\x.(1 - (x mod (1 + ((~2x + 1) mod (1 + (x div 4)))))),x))
1: (~1 + compr(\x.(1 - (x mod (1 + ((~1 + (3 * (if (x mod 2) <= 0 then (2 * (2 + (if x <= 0 then 0 else 2))) else 1))) mod (x + 1))))),x))
1: (~2 + compr(\x.(1 - (x mod (2 + ((~2x + 4) mod (1 + (x div 2)))))),(x + 1)))
1: (~1 + compr(\x.(1 - (x mod (2 + (((~x2 + x) div 8) mod 3)))),(x + 1)))
1: (~1 + compr(\x.(1 - (x mod (1 + (x mod (1 + ((x + 2) div 3)))))),x))
1: (~1 + compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),(x + 1)))
1: (~1 + compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(3x + 2))),x))
1: (~2 + compr(\x.(1 - loop(\(x,i).(if x <= 0 then 1 else (x + ~11)),x,4x)),x))
1: (~1 + compr(\x.(1 - loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(5x + ~2))),x))
1: (~2 + compr(\x.(2 - ((2x + 1) mod (2 + ((x + 1) div 5)))),x))
1: (~1 + compr(\x.(2 - ((x + 1) mod (1 + (2 * (2 + (x mod (2 * (2 + (x mod 2))))))))),(x + 1)))
1: (~1 + compr(\x.(2 - ((x + 1) mod (1 + (6 * (2x mod 3))))),x))
1: (~2 + compr(\x.(2 - ((x + 1) mod (1 + (4 * ((2x mod (2 + (x div 2))) mod 2))))),x))
1: (~1 + compr(\x.(2 - ((x + 1) mod (3 + (if ((x + ~1) mod 8) <= 0 then 2 else 1)))),x))
1: (~2 + compr(\x.(2 - ((x * ((x + (x div 2)) div 2)) mod 9)),x))
1: (~2 + compr(\x.(2 - (x2 mod ((x + 4) - (x div 4)))),x))
1: (~1 + compr(\x.(2 - (x mod (1 + (x div (if (x mod 2) <= 0 then 4 else 1))))),x))
1: (~1 + compr(\x.(2 - (x mod (1 + ((x2 div ~4) mod (x + 1))))),x))
1: (~4 + compr(\x.(2 - loop(\(x,i).(0 - (if (x mod (1 + i)) <= 0 then 0 else x)),(x div 2),x)),x))
1: (~1 + compr(\x.(2 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x + 1))),x))
1: ((~2x + ~2) + compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),x)),2x))
1: (~1 + compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(3x + 1))),x))
1: (~2 + compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(3x + 1))),x))
1: (~1 + compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + 2x + ~2))),x))
1: (~1 + compr(\x.(2 - loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),x,(x2 + x + 1))),x))
1: (~1 + compr(\x.((x + 2) - (3 * (~2 + ((x - (x div 4)) div 2)))),x))
1: (~1 + compr(\x.(~2 + ((2x + 1) mod (1 + (x div 4)))),(x + 2)))
1: (~1 + compr(\x.(~1 + ((1 + (x mod (1 + (x mod (2 * (2 + ((x div 2) mod 2))))))) mod (x + 1))),(x + 2)))
1: ((~x + 1) + compr(\x.(~1 + ((x div 2) mod (1 + (6 * (x mod 2))))),x))
1: (~1 + compr(\x.((x mod (x - ((x + ~1) mod 8))) - (x div 8)),(x + 2)))
1: (~1 + compr(\x.(((x + 1) + (((x + ~1) + ((2 * ((x + 3) + compr(\x.(1 - (x mod (1 + (2 * (x div (2 + ((x div 2) div 3))))))),x))) div 3)) div 2)) mod 3),x))
1: (~1 + compr(\x.((1 + ((1 + ((1 + ((1 + ((((x + 1) * (1 + (x mod (1 + (x mod 4))))) div 2) div 2)) div 2)) div 2)) div 2)) mod 3),x))
1: (~2 + compr(\x.((2 + (((x * (((x + ~1) div 2) div 2)) div 2) div 3)) mod 3),x))
1: (~1 + compr(\x.((1 + ((loop(\(x,i).2x,loop(\(x,i).(loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2),2,x),2) div 2) div 2)) mod 3),x))
1: (~2 + compr(\x.((x + ((x div 2) div 7)) mod 4),(x + 1)))
1: (~x + compr(\x.((x2 + ~1) mod (1 + (4 * (x mod 2)))),x))
1: (~4 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))
1: (~2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: (~2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),i))
1: (~2x + compr(\x.(loop(\(x,i).(2x + 1),x,0) mod (x + 1)),x))
1: (~x + compr(\x.(loop(\(x,i).(2x + 1),x,0) mod (x + 1)),i))
1: (~2 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x))
1: (~1 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x) - compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))
1: (~1 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x) - compr(\x.(loop(\(x,i).(~2x + 2),x,2) mod (x + 2)),x))
1: (~x + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x))
1: (compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: (~x + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x))
1: (~2 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))
1: (~1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: ((~2x + 1) + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: ((~x + 2) + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: ((~2x + 2) + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: (~2x + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) - (x mod 2))
1: (~1 + compr(\x.(loop(\(x,i).(~2x + 2),x,2) mod (x + 2)),x))
1: ((~x + 1) + compr(\x.(loop(\(x,i).(~2x + 2),x,2) mod (x + 2)),x))
1: (~x + compr(\x.(x mod (1 + (x div 8))),x))
1: ((~x + ~1) + (compr(\x.(x mod ((x + 1) - (x mod 10))),(x + 1)) + (x mod 10)))
1: ((~x + 3) + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x))
1: (compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x) - (x mod 2))
1: (~x + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x))
1: (compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: (compr(\x.loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,2x),(x + 1)) - (x mod 2))
1: (1 + compr(\x.loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,x),x) - (x mod 2))
1: (~x + compr(\x.loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,x),x))
1: (~2 + compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(4x + 1)),x))
1: (~x + compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),(x div 2),~x),x))
1: (~x + compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),(x div 2),(~2x + 1)),x))
1: (~2 + compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),x,(~4x + 1)),x))
1: (~x + compr(\x.loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),x,(2x + 1)),x))
1: (~1 + compr(\x.loop(\(x,i).(if x <= 0 then 1 else loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + ~1))),2,x),x))
1: (~5x + 5)
1: (~5x + 10)
1: (5x + ~10)
1: (5 * (if x <= 0 then 2 else x))
1: (2 * ((5x + 6) + ((x + ((1 + ((((3x2 + 17x) div 2) div 2) div 2)) div 2)) div 2)))
1: ((x + 1) * ((5x + 6) + (((x + (x2 div 4)) div 2) div 3)))
1: (3 * ((5x + 5) - ((((x div 2) mod 2) - (if (~x + 2) <= 0 then x else 0)) div 2)))
1: (2 * ((4x + 3) + ((x - ((x - (3 * (1 - (((x + 1) div 2) mod 5)))) div 2)) div 2)))
1: (2 * (9 + (loop(\(x,i).2x,(x div 2),(2 + (x mod 2))) + loop(\(x,i).2x,x,2))))
1: (2 * ((4x + 1) + (((x + 1) + (((x + 1) + (((x2 + ~x) div 2) + (x div 3))) div 2)) div 2)))
1: (3 * ((4x + 6) + ((x - (x div 9)) div 2)))
1: ((x + 1) * ((x + 8) + ((x2 + 2x) div 8)))
1: (2 * ((2x + 6) + (2x div (8 + (x mod 2)))))
1: (2 * ((3x + 4) + ((~x + 1) mod (2 + (x div (2 + (x mod 2)))))))
1: (((3x + 3) + ((x * (x div 2)) mod 2)) * (2 + (x div 2)))
1: (2 * ((3x + 4) + (if x <= 0 then 1 else ((2x + ~1) + ((2 * ((4x + ~1) + ((2 * ((2x + 2) + (if x <= 0 then 1 else (2 * (2x + ((x - (x div 4)) div 2)))))) div 3))) div 3)))))
1: (2 * ((3x + 4) + loop(\(x,i).(x - ((~1 + (x div 4)) div 2)),2,(x + ~1))))
1: (2 * ((3x + 1) + (((2 * ((2x + 2) + (if x <= 0 then 1 else (2 * (2x + ((x + ((x div 2) mod 2)) div 2)))))) div 3) + ((x + 1) div 3))))
1: (2 * ((4x + 1) + ((2 * (2 + (if x <= 0 then 1 else (2 * (3x + ((x - (x div 12)) div 2)))))) div 3)))
1: (2 * ((2x + 6) - ((~x + 1) div (1 + ((x + 1) div 5)))))
1: (2 * ((2x + 3) + (2 * (x + (2 * ((x + 1) div (8 - ((x + 2) div 3))))))))
1: (2 * ((2x + 3) + (2 * (x div (1 + (x div (2 + (x div 5))))))))
1: (2 * ((3x + 2) + (((1 + (2 * (if x <= 0 then 1 else (2 * (4x - ((x + ((x div 2) mod 2)) div 2)))))) div 3) + ((x + 1) div 3))))
1: (2 * ((2x + 3) + ((2 * ((x + 2) + (((2x + 1) + (2 * ((x + 1) + ((2 * (1 + ((2 * (1 + (2 * (2x - (2x div 7))))) div 3))) div 3)))) div 3))) div 3)))
1: (2 * ((3x + 2) + ((2 * (2x + (if x <= 0 then 1 else (2 * (x + ((x + (2 * ((x2 div 8) mod 2))) div 2)))))) div 3)))
1: ((x + 1) * (8 + ((3 * (x - (x div 11))) div 2)))
1: (2 * ((2x + 4) + ((2x * (2 + (2 div (x + 1)))) div 3)))
1: (2 * ((2x + 4) + (x2 div ((x + 1) + (2 * (x div 5))))))
1: (2 * ((x + 6) + (((1 + ((((loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2) div 2) div 2) div 2)) div 2) div 2)))
1: ((x + 1) * (7 + ((((x + ~1) + (x div 2)) div 2) div 2)))
1: (2 * ((5x + 1) + ((x div 2) + (x div 3))))
1: (2 * ((5x + 3) + (x div 2)))
1: (2 * ((x + 5) + ((1 + (20 div (x + 1))) mod 10)))
1: ((x + 1) * (7 + ((5 * (1 + (x div 4))) mod (x + 1))))
1: (2 * ((2x + 1) + ((((x div 2) div 3) mod 2) + (x div 3))))
1: (3 * (7 + ((x div 7) mod 2)))
1: (x * (7 + (x mod 2)))
1: (2 * ((x + 3) + ((x mod (4 - (x mod 2))) + (x div 3))))
1: (x * ((x + 4) + ((if (16 mod (x + 1)) <= 0 then 1 else 0) + (x mod 2))))
1: (2 * ((4x + 2) + (if x <= 0 then 1 else ((2 * (4x - (3x div 5))) div 3))))
1: (x * ((2x + 4) + loop(\(x,i).(2x - ((~1 + i) div 2)),x,1)))
1: (2x + 14)
1: (x2 + 11x + 28)
1: (7x + 49)
1: (2 * ((x + 6) + (if x <= 0 then 0 else 1)))
1: (x * (7 + i))
1: (2 * ((x + 5) + compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,7x)),x)))
1: (2 * ((2x + 4) - (x mod (~1 + ((~x + 1) div 2)))))
1: (2 * ((2x + 4) - ((((x + 1) div 2) div 3) + (5 * ((~x + ~2) + (x mod 2))))))
1: (16x2 + 52x + 26)
1: (3 * ((2x + 1) + ((2 * ((2x + 2) + (if x <= 0 then 1 else (2 * (4x + ((x + ((x div 2) mod 2)) div 2)))))) div 3)))
1: (2 * ((4x + ~1) + ((2 * ((2x + 2) + (if x <= 0 then 1 else (2 * (2x + ((x - (x div 4)) div 2)))))) div 3)))
1: (3 * (2 + (((1 + (x mod 5)) mod 2) + ((x div 2) mod 2)) - (x mod 2)))
1: (2 * (3x + (if x <= 0 then 1 else 5x) - ((~2x + 2) div 9)))
1: (2 * ((3x + 3) - ((1 + (x mod (~2 - (x div 3)))) mod 2)))
1: (3 * ((2x + 1) + (2 * (2x + (if (x + ~2) <= 0 then 1 else (8x + 6))))))
1: (2 * ((x + 1) + (((x - (x div ~2)) * (x div 2)) + (x mod 2))))
1: (((2x + 1) + (9 * (1 + (x div 2)))) * (x div 2))
1: (2 * ((2x + 2) + (15 * (x2 div 3))))
1: (3 * ((2x + 1) + (2 * (((2x + 1) + (2 * ((8x + 1) div (1 + (if x <= 0 then 0 else 2))))) div 3))))
1: (3 * ((2x + 1) + (2 * ((2 + (((x + 1) + (2 * ((x div 2) mod (1 + (x2 mod (2 * (2 + (x mod 2)))))))) div 2)) div 2))))
1: (3 * ((2x + 1) + (2 * ((3 * (x + ((x div 2) div 5))) div 2))))
1: (2 * ((2x + 1) + (2 * (loop(\(x,i).10x,(x + 1),1) div (x + 1)))))
1: (3 * (1 + ((3 * (if (x mod 2) <= 0 then (3 * (if (x mod 4) <= 0 then (2 * (2 + (if x <= 0 then 0 else 2))) else 1)) else 1)) + (if x <= 0 then 1 else 2) + (x mod 2))))
1: (2x2 + 14)
1: (2 * ((2x + 2) + (((2x + 1) + (2 * ((x + 1) + (5 * (x + (x div 4)))))) div 3)))
1: ((x + 1) * ((2x + 1) + (((x + 1) + (((x + 1) + (((3x + 1) + (if (x + ~1) <= 0 then 1 else (2 * ((x + 1) - (((~x2 + x) div 2) div 5))))) div 2)) div 2)) div 2)))
1: (x * ((2x + 1) + (((x + 1) + (x2 div 4)) div 2)))
1: (2 * ((x + 3) + (((x + 1) + (((1 + (((1 + (((2x + 5) * compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) div 3)) div 2) div 2)) div 2) div 2)) div 2)))
1: (2 * (6 + ((1 + (x div 2) - ((x div 4) mod 2)) div 2)))
1: (3 * (6 + ((1 + (2 * (2 + (23 mod (x + 1))))) div (x + 1))))
1: (2 * ((x + 3) + ((1 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))) div 3)))
1: (2 * ((x + 3) + ((x + ((x * (x div 3)) mod (1 + ((2 - (x div 2)) mod 4)))) div 2)))
1: ((x + 1) * (6 + ((x + 1) div (5 * (1 + (x mod 3))))))
1: (2 * ((2x + 2) + ((x + 2) div (2 + (if (~2 + (x div 4)) <= 0 then 1 else 2)))))
1: (2 * ((2x + 2) + ((~1 + loop(\(x,i).2x,x,(x + 2))) div 3)))
1: (2 * ((2x + 1) + ((2 * ((2x + 2) + ((~1 + loop(\(x,i).2x,x,(x + 2))) div 3))) div 3)))
1: (2 * ((2x + 2) + ((2 * ((x + 2) + (2 * ((x div 3) div (1 + (x div 4)))))) div 3)))
1: ((x + 1) * ((x + 3) + ((2 * (1 + (((x * ((x + 2) + (2 * (x mod 2)))) div 2) + (x mod 2)))) div 3)))
1: (2 * ((2x + 2) + ((2 * ((x + 2) + ((3 * (x + (6x div (x + 1)))) div 2))) div 3)))
1: ((x + 1) * (6 + (((x + 1) * ((x + 1) + (x mod 2))) div (1 + (x div 3)))))
1: ((x + 1) * ((2x + 2) + ((2x2 + 9x + 10) div 3)))
1: (2 * ((x + 3) + ((2 * (1 + ((1 + (x div (1 + (x mod (1 + (x div (1 + (loop(\(x,i).2x,x,2) mod (2x + 1))))))))) div 2))) div 3)))
1: (2 * ((x + 3) + ((2 * (1 + ((x - ((((~x + 1) div 3) * (1 + (x div 2))) div 2)) div 2))) div 3)))
1: (2 * ((x + 3) + ((4 * (x + ((x div 2) div 7))) div 3)))
1: (x * (3 + (((x2 + 2x) div 2) + (x div 2))))
1: (2 * ((x + 3) + ((4 * ((3 * (1 + (x div 2) - ((x div 4) mod 2))) div 2)) div 3)))
1: ((x + 1) * (6 + ((3 * ((12x + 12) div 5)) div 2)))
1: (2 * (2x + (((2 * (2x div (4 + (x div 8)))) div 3) + ((x + 1) div 3))))
1: (2 * ((x + 3) + ((((4x + 2) + loop(\(x,i).2x,((x + 2) + (x div 4)),2)) div 2) div 2)))
1: (x * (5 + (((x + 1) div 2) div 2)))
1: (2 * ((2x + 2) + (((5 * ((2x + 1) - ((~x + ((x + ~2) div 3)) div 3))) div 2) div 3)))
1: ((x + 1) * ((x + 3) + ((((x + 1) div 2) div 2) div 2)))
1: (2 * ((x + 3) + ((loop(\(x,i).(x2 + x),1,(18x + 8)) div 2) div 3)))
1: ((x + 1) * ((x + 4) + ((loop(\(x,i).(x * (0 - i)),x,1) div 2) div 2)))
1: (2 * (4 + (((x div 2) div 5) + (if x <= 0 then 1 else 2))))
1: (2 * ((2x + 1) + (((x div 2) div 7) + (x div 2))))
1: (2 * (3x + (loop(\(x,i).(x2 + 1),2,(x + ~1)) div 3)))
1: (2 * ((3x + 1) + (loop(\(x,i).(x + loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),i,x)),x,1) div 2)))
1: (2 * ((2x + 3) + (x div 2)))
1: (2 * ((x + 1) + ((x div 2) + (x div 3))))
1: (2 * ((5x + 2) + (x div 2)))
1: (2 * ((x + 2) + ((x div 2) + (x div 4))))
1: (x * (6 + (4 mod (x + 2))))
1: ((x + 2) * ((2x + 4) + ((x * (x div 3)) mod 2)))
1: ((x + 1) * (6 + (((x2 + x) div 2) mod 5)))
1: (2 * ((2x + 1) + (loop(\(x,i).2x,x,~1) mod (x + 2))))
1: (2 * (5 + (x mod 2)))
1: (3 * (5 + (x mod 2)))
1: (x * (5 + (x mod 2)))
1: ((x + 1) * ((2x + 1) + ((x mod 2) + (x mod ~3))))
1: (2 * (4 + ((x mod 8) + (x mod 3))))
1: ((x + 1) * ((x + 3) + (if (~x + 2) <= 0 then 2 else 1)))
1: ((x + 1) * ((2x + 2) + (if (~2 + (x div 5)) <= 0 then 2 else 1)))
1: (2 * ((x + 4) + (if (x + ~1) <= 0 then 0 else (1 + ((x + 1) div 5)))))
1: (2 * ((x + 1) + ((if (x + ~1) <= 0 then x else 2) + (x div 4))))
1: ((x + 1) * (5 + (if (6 mod (x + 1)) <= 0 then 1 else 2)))
1: (2 * ((x + 2) + ((if x <= 0 then 0 else ((3x + 1) + (x div 3))) + (x div 2))))
1: ((x + 1) * (6 + (if x <= 0 then 1 else ((x + 1) + ((2 * (4 + (if x <= 0 then 2 else ((x + 2) + (2 * (2 - (x mod 2))))))) div 3)))))
1: (2 * ((2x + 2) + (if x <= 0 then 1 else ((2x + ~1) + ((2 * (3x + (if x <= 0 then 1 else 5x) - ((~2x + 2) div 9))) div 3)))))
1: (2 * ((2x + 2) + (if x <= 0 then 1 else ((2x + ~1) + ((2 * ((x + 2) + ((2 * ((x + 1) + (2 * (2x + (2x div 5))))) div 3))) div 3)))))
1: (2 * ((2x + 2) + (if x <= 0 then 1 else (6x + (((x + 1) + (x mod 2)) div 5)))))
1: (2 * ((2x + 2) + (if x <= 0 then 1 else (6x + (((~x + 1) - (x mod 2)) div 3)))))
1: (2 * ((2x + 2) + (if x <= 0 then 1 else (4x + ((x - ((~x + 1) div 3)) div 3)))))
1: (2 * ((2x + 2) + (if x <= 0 then 1 else (6x + (((x + ~1) mod (2 + (x div 2))) div 2)))))
1: ((x + 1) * ((x + 4) + (if x <= 0 then 1 else (2 + loop(\(x,i).((x + ~1) - (if x <= 0 then 0 else i)),x,x)))))
1: (2 * ((2x + 2) + (if x <= 0 then 1 else (2 * ((x + ~1) + ((2 * ((3x + 2) - ((x - ((x + (x div 3)) div 3)) div 2))) div 3))))))
1: (2 * ((x + 4) + (if x <= 0 then 1 else (10x + 48))))
1: (2 * ((2x + 2) + (if x <= 0 then 1 else (2 * (x + ((x + (((2x + 1) + (((x + 1) + (4 * (2x - (2x div 7)))) div 3)) div 2)) div 2))))))
1: (2 * ((2x + 2) + (if x <= 0 then 1 else (2 * (2x + ((x + (x div 3)) div 5))))))
1: (2 * ((2x + 2) + (if x <= 0 then 1 else (2 * (4x + ((x + ((x div 2) mod 2)) div 2))))))
1: (2 * ((2x + 2) + (if x <= 0 then 1 else (2 * (2x + ((x + ((x div 2) mod 2)) div 2))))))
1: (2 * ((2x + 2) + (if x <= 0 then 1 else (2 * (2x + ((x - (x div 4)) div 2))))))
1: (2 * ((2x + 2) + (if x <= 0 then 1 else (2 * (x + ((x div 2) div 5))))))
1: (2 * ((x + 4) + (if x <= 0 then 1 else (2 * (3x - ((x div 2) div 3))))))
1: (2 * ((2x + 2) + (if x <= 0 then 1 else (2 * ((4x + 1) - loop(\(x,i).(x + (if (~2 + (x div 4)) <= 0 then 1 else 2)),2,x))))))
1: ((x + 1) * ((2x + 2) + (if x <= 0 then 1 else (3 * (((x + 1) - (2 * (~1 + (x mod 4)))) div 2)))))
1: (2 * (6 + (if x <= 0 then 2 else loop(\(x,i).x3,1,14))))
1: (2 * ((x + 4) + (if x <= 0 then x else (2 - ((~x + 2) div 5)))))
1: ((x + 1) * (6 + loop(\(x,i).((x + 1) - (((~x + 2) div 2) div 3)),x,1)))
1: (3 * ((x + 1) + (loop(\(x,i).3x,x,2) + loop(\(x,i).2x,x,1))))
1: (2 * ((2x + 2) + loop(\(x,i).(10x + 20),x,0)))
1: (3 * (3x + loop(\(x,i).4x,(~1 + i),1)))
1: (2 * (3 + (loop(\(x,i).2x,(x div 2),(2 + (x mod 2))) + loop(\(x,i).2x,x,2))))
1: (2 * (5 + loop(\(x,i).2x,x,1)))
1: (7 * (5 + loop(\(x,i).2x,x,1)))
1: ((x + 1) * (6 + loop(\(x,i).(x * i),x,loop(\(x,i).(x + loop(\(x,i).(x * i),i,2)),x,1))))
1: (x2 + 9x + 20)
1: (9x + 45)
1: (x2 + 6x + 5)
1: (x2 + 7x + 10)
1: ((x + 5) * (x div 3))
1: ((x + 5) * (x div 5))
1: (5x + 30)
1: ((x + 6) * (2 + (x mod 2)))
1: ((x + 6) * (2 + (if x <= 0 then 1 else x)))
1: (12x + 72)
1: (2 * ((x + 4) + (if x <= 0 then 1 else 2)))
1: (5 * ((x + 4) + (if x <= 0 then 1 else 2)))
1: (9 * ((x + 4) + (if x <= 0 then 1 else 2)))
1: ((6 + i) * (1 + i))
1: (2 * ((x + 4) + i))
1: (x * ((x + 4) + i))
1: (2 * ((x + 3) + compr(\x.(1 - (x mod (1 + (2 * (x div (2 + ((x div 2) div 3))))))),x)))
1: (2 * (6 + compr(\x.(1 - (x mod (1 + (x mod 6)))),x)))
1: ((x + 1) * (5 - (x mod 2)))
1: ((x + 2) * ((4x + 3) - (x mod 2)))
1: (2 * (6 - (x mod 4)))
1: ((x + 1) * ((x + 3) + ((1 + ((x * (x div 2)) div 4)) div 5) - (x mod 2)))
1: (3 * ((4x + 5) - ((~x + 2) div (4 + (x mod 2)))))
1: (2 * ((3x + 6) - ((((x + ~2) mod (1 + (x div 2))) mod 3) mod 2)))
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1: (x2 + 15x + 54)
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1: (x2 + 15x + 50)
1: (x2 + 13x + 30)
1: (x2 + 14x + 40)
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1: (2x3 + 5x2 + 17x)
1: (28x2 + 105x + 98)
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1: (2 * ((x + 2) + ((2 * (x - ((2x2 + ~x) div (x + 3)))) div 3)))
1: (2 * (3x + ((2 * (x - (2x div ~7))) div 3)))
1: (2 * (3x + ((2 * (x - ((x div 2) div 3))) div 3)))
1: (2 * ((x + 2) + ((2 * (x - (((x + 1) div 2) mod 3))) div 3)))
1: (x * (4 + (16 div (x + 1))))
1: (2 * ((x + 1) + ((x3 + 9x2 + 8x) div 3)))
1: (2 * (2 + ((17x2 + 17x) div 2)))
1: ((x + 1) * ((x + 2) + ((2x3 + 4x) div 3)))
1: (2 * (3 + ((4 * (1 + ((((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) * (1 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))) div 2) div 2))) div 3)))
1: (2 * ((x + 1) + ((4 * (4x - ((2 * ((((x div 2) div 3) mod 2) - (if x <= 0 then 1 else x))) div 3))) div 3)))
1: (3 * ((x + 1) + ((24x + 12) div (x + 4))))
1: (2 * ((x + 2) + ((4 * ((2x + 1) div 9)) div 3)))
1: (2 * ((x + 1) + ((4 * ((x + 1) div 5)) div 3)))
1: ((x + ~1) * (2 + (((x3 + ~2x2) div 17) + (x mod 2))))
1: (2 * ((x + 1) + ((3 * ((1 + ((x + 2) div 5)) div 2)) div 2)))
1: (2 * ((x + 2) + ((3 * (((if (~2 + (x div 2)) <= 0 then 1 else 2) + (x div 2)) div 2)) div 2)))
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1: (2 * ((x + 1) + ((2 * ((4 * (x + (if (~4 + (x div 2)) <= 0 then 1 else 2))) div 3)) div 3)))
1: (2 * ((x + 1) + ((3 * (((1 + (x div 2)) div 2) div 2)) div 2)))
1: (2 * ((x + 2) + ((x * (x div 2)) div 5)))
1: (2 * ((x + 1) + (((x + 1) * ((x mod (2 - (x div (1 + ((x div 2) mod 2))))) mod 2)) div 3)))
1: (2 * ((x + 1) + (2x div (4 + ((x div 2) div 5)))))
1: (2 * ((x + 2) + (2x div (4 + ((x div 2) div 5)))))
1: (3 * ((x + 2) + (2x div 7)))
1: (x * (3 + (x2 div 2)))
1: (2 * ((x + 1) + (x2 div 3)))
1: ((x + 3) * ((x + 1) + (x2 div 4)))
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1: (2 * (x + ((x2 div 4) + (2 * (2 + (x div 2))))))
1: (2 * ((2x + 1) + (x2 div (3x + ~2))))
1: (2 * ((x + 1) + (((1 + (((x * ((x + (2 mod (x + 1))) div 3)) div 2) div 2)) div 2) div 2)))
1: (2 * (4 + (((1 + loop(\(x,i).x3,x,5)) div 3) div 2)))
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1: (2 * (4 + (((x + 1) div 2) div 2)))
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1: (2 * (3 + (((~1 + (6 * (1 + ((1 + (x div (1 + (x mod (1 + (x mod (1 + (x div (2 * (2 - (x mod 2))))))))))) div 2)))) div 2) div 2)))
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1: (x * ((x + 1) + (((x4 + x3 + 2x2 + 2x) div 2) div 3)))
1: (3 * ((x + 2) + (((3 * ((~1 + (x div 2)) div 2)) div 2) div 2)))
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1: (2 * (1 + (((((x + 1) div 2) div 2) div 2) + (x mod 2))))
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1: (2 * (3 + ((loop(\(x,i).x2,1,(2 + loop(\(x,i).4x,x,2))) div 2) div 2)))
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1: (3 * (4 + ((x div 2) div 5)))
1: (2 * ((x + 6) + ((x div 2) div 5)))
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1: (3 * (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) + ((2x + 1) div (3 + (x div 4))))))
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1: (3 * (4 + (((3 * (1 + ((2 - (x mod 2)) mod (1 + (if (~1 + (x mod 3)) <= 0 then 2 else 0))))) mod 5) div 2)))
1: ((x + 1) * (4 + ((x mod 3) div 2)))
1: (2 * (1 + (((x mod (1 + ((2 - (x mod 8)) mod (x + 1)))) div 3) + (x mod 2))))
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1: (2 * ((x + 1) + (loop(\(x,i).(2x + i),(x + 2),2) div 5)))
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1: ((x + 1) * (4 + (loop(\(x,i).(2x - (i mod 2)),(x + ~1),1) div 2)))
1: (2 * ((x + 1) + (loop(\(x,i).(4 * (2x - (x mod 2))),x,1) div 3)))
1: ((x + 1) * (1 + ((loop(\(x,i).2x,x,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2) + (x mod 2))))
1: (2 * ((10x + 2) + (loop(\(x,i).x2,2,(3x + 2)) div 2)))
1: (2 * (4 + (loop(\(x,i).x2,2x,(5x + 5)) div 2)))
1: (2 * ((2x2 + 2x + 1) + (loop(\(x,i).((x2 + ~x) div 2),2,(x + 1)) div 3)))
1: (2 * ((x + 2) + (loop(\(x,i).(x2 div 2),(x + 1),x) div 3)))
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1: ((4 + (x div 2)) * ((x + 1) div 2))
1: ((4 + (x div 2)) * (x div 2))
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1: (7 * (6 + (x div 2)))
1: (2 * ((4x + 2) + (x div 2)))
1: (3 * ((4x + 2) + (x div 2)))
1: (x * ((2x + 1) + (x div 2)))
1: (5 * ((x + 1) + (x div 2)))
1: ((x + 4) * ((x + 1) + (x div 2)))
1: (7 * ((x + 1) + (x div 2)))
1: (9 * ((x + 1) + (x div 2)))
1: (((x + 1) + (x div 2)) * i)
1: ((x + 1) * ((x + 2) + (x div 2)))
1: ((x + 2) * ((x + 2) + (x div 2)))
1: (((x + 2) + (x div 2)) * (1 - (2 * (x mod 2))))
1: (((x + 2) + (x div 2)) * (x div ~2))
1: (((3x + 2) + (x div 2)) * ((x + 1) div 2))
1: (3 * (3x + (x div 2)))
1: (2 * (3 + (x div 3)))
1: (x * (4 + (x div 3)))
1: ((x + 1) * ((x + 1) + (x div 3)))
1: ((x + 2) * ((x + 1) + (x div 3)))
1: (2 * (((x + 2) + (x div 3)) * (if x <= 0 then 1 else x)))
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1: ((2x + ~3) * (4 + (x div 4)))
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1: (3 * ((5x + 4) + (x div 4)))
1: ((x + 1) * ((x + 1) + (x div 5)))
1: (2 * ((x + 2) + (x div 5)))
1: ((x + 1) * ((x + 2) + (x div 5)))
1: (2 * ((x + 8) + (x div 5)))
1: (2 * (x + ((x div 5) + ((x + 1) div 5))))
1: (2 * (x + ((x div (6 - (x mod 2))) + (x div 2))))
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1: (2 * (2x + ((x div (4 + (x mod 2))) + ((x + 1) div 2))))
1: (2 * ((x + 2) + (x div (4 + (x mod 2)))))
1: (2 * ((x + 2) + (x div (3 + (if (~4 + (x div 2)) <= 0 then 2 else 1)))))
1: (2 * (2x + (x div (3 + (if (~2 + (x div 4)) <= 0 then 0 else 2)))))
1: (3 * ((x + 2) + (x div (9 - (x div 2)))))
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1: (((x + 2) + (x div 7)) * ((x + 1) div 2))
1: (3 * (4 + (x div 9)))
1: (9 * ((x + 2) + (x div 9)))
1: (2 * (4 + (x div 13)))
1: (2 * ((x + 2) + (x div 13)))
1: (2 * ((x + 2) + (x div (2 + ((x div 2) div 3)))))
1: (2 * (1 + ((x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))) + (x mod 2))))
1: (2 * ((x + 2) + (x div (2 + (x div (2 + (x mod 2)))))))
1: ((x + ~1) * (3 + (x div (1 + (x mod 4)))))
1: (2 * ((x + 1) + (x div (2 + (if (~2 + (x div 4)) <= 0 then 1 else 2)))))
1: (2 * ((x + 1) + (x div (2 - (x div (~1 + ((~x + 2) div 4)))))))
1: ((3 + (x div 8)) * (x div 3))
1: ((3 + (x div 8)) * (x mod 2))
1: (2 * (4 + (x div 8)))
1: (3 * (4 + (x div 8)))
1: (x * (1 + ((x div 8) + (((x + 1) div 2) div 2))))
1: (2 * ((x + 1) + (x div 8)))
1: (3 * ((x + 1) + (x div 8)))
1: (9 * ((x + 1) + (x div 8)))
1: (2 * ((x + 2) + (x div 8)))
1: (2 * ((x + 4) + (x div 8)))
1: (2 * ((x + 2) + (x div 12)))
1: (((x + 1) + (x div (4 * (2 + (x mod 2))))) * ((x + 1) div 2))
1: ((x + 1) * (4 + (x div (3 * (if (x + ~6) <= 0 then 1 else 2)))))
1: (3 * (3x + (x div (if i <= 0 then 1 else i))))
1: (2 * ((x + 1) + (1 mod (~2x + 5))))
1: (2 * ((x + 2) + (2 mod (1 + (x div 4)))))
1: ((x + 2) * ((x + 1) + (2 mod (x + 1))))
1: (2 * (4 + (2 mod (x + 1))))
1: (3 * (4 + (2 mod (x + 1))))
1: (x * (4 + (2 mod (x + 1))))
1: ((x + 2) * ((x + 2) + (2 mod (x + 1))))
1: (x * (4 + (4 mod (x + 2))))
1: ((x + 2) * ((x + 1) + (4 mod (x + 2))))
1: ((x + 1) * (3 + (((x + 4) + (loop(\(x,i).2x,x,(2 + (x mod 2))) div (x + 1))) mod (x + 1))))
1: (3 * (1 + (((1 + (x mod ((1 + (x mod (1 + (x div 4)))) * (1 + (x mod 2))))) mod (x + 1)) + (x mod 2))))
1: ((x + 1) * (1 + (((1 + (x mod ((1 + (x mod (1 + (x div 4)))) * (1 + (x mod 2))))) mod (x + 1)) + (x mod 2))))
1: (3 * ((x + 2) + ((x + 1) mod (2 + ((x div 2) mod 2)))))
1: ((x + 1) * ((x + 2) + ((~2x + 1) mod 5)))
1: (2 * ((2x + 1) + ((~x + 1) mod 5)))
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1: (2 * ((2x + 5) + ((x + ~2) mod (3 - (x mod 2)))))
1: (2 * ((2x + 2) + ((x - ((x + (x mod 2)) div 5)) mod 2)))
1: (x * ((x + 2) + ((2 * loop(\(x,i).(x div (2 - (x mod 2))),x,x)) mod (x + 1))))
1: (2 * (2 + ((2x mod (1 + (2 * (x mod 3)))) + (x mod 2))))
1: (2 * ((2x + 1) + ((2 div (1 + (x div 4))) mod 2)))
1: (2 * ((2x + 1) + (((1 + (x div 2)) div 3) mod 2)))
1: (2 * (x + ((((x + 1) div (1 + (x mod 4))) mod 2) + (x div 3))))
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1: (2 * ((x + 2) + (loop(\(x,i).2x,x,1) mod 9)))
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1: ((4 + (x mod 2)) * (1 + (x mod 3)))
1: ((4 + (x mod 2)) * (if x <= 0 then 1 else x))
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1: (3 * ((x + 2) + (x mod 2)))
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1: (x * (3 + (x mod 3)))
1: (x * (3 + (x mod 4)))
1: (2 * (4 + (x mod 9)))
1: (2 * ((x + 1) + (x mod (1 + (loop(\(x,i).2x,x,(1 + (x mod 2))) mod (2x + 1))))))
1: (2 * ((x + 2) + (x mod (2 + (x mod 2)))))
1: (2 * (1 + ((x mod (2 + (x mod 4))) + (x mod 4))))
1: (2 * ((x + 1) + (x mod 11)))
1: (2 * (4 + (x mod (x - ((x + ~1) mod 8)))))
1: (2 * (4 + (x mod 6)))
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1: (((x + 2) + (i mod 2)) * i)
1: (x * (4 + (if (~x + 2) <= 0 then 2 else 1)))
1: (x * (3 + (if (~x + 2) <= 0 then x else 2)))
1: (2 * ((x + 2) + (if (~x + 2) <= 0 then x else 2)))
1: (2 * ((x + 4) + (if (~4 + (x div 2)) <= 0 then 1 else 2)))
1: (2 * ((x + 1) + (if (~2 + (x div 2)) <= 0 then 1 else 2)))
1: ((x + 1) * ((x + 8) + (if (~2 + (x div 2)) <= 0 then 1 else 2)))
1: (2 * (x + ((if (~2 + (x div 2)) <= 0 then 1 else 2) + (x mod 2))))
1: (2 * (2 + ((if (~2 + (x div 3)) <= 0 then 1 else 2) + (x mod 3))))
1: (2 * (3x + (if (~2 + (x div 3)) <= 0 then 2 else 1)))
1: (3 * (3x + (if (~2 + (x div 3)) <= 0 then 2 else 1)))
1: (3 * (4 + (if (~2 + (x div 4)) <= 0 then 1 else 2)))
1: (5 * (2x + (if (~2 + (x div 5)) <= 0 then 2 else 1)))
1: (2 * (1 + ((if (~2 + (x div 5)) <= 0 then x else (x + 2)) + ((1 + (x div 2)) div 2))))
1: (3 * (1 + ((if (~2 + (x div 5)) <= 0 then x else (x + 2)) + (x div 2))))
1: (2 * ((x + 2) + (if (x + ~1) <= 0 then 0 else (1 + ((x + 1) div 5)))))
1: (2 * (2x + (if (x + ~1) <= 0 then 1 else (2 * (if (x + ~2) <= 0 then x else 1)))))
1: (2 * ((x + 2) + (if (x + ~1) <= 0 then 1 else (2 * loop(\(x,i).x2,1,loop(\(x,i).((2 * (x - (2x * i))) div (1 + i)),x,1))))))
1: (2 * ((x + 1) + (if (x + ~1) <= 0 then x else 2)))
1: (x * (3 + (if (x + ~1) <= 0 then x else 2x)))
1: (2 * ((x + 1) + (if (x + ~2) <= 0 then 1 else 2)))
1: (3 * ((x + 1) + (if (x + ~2) <= 0 then 1 else 2)))
1: (2 * (2x + (if (x + ~2) <= 0 then 1 else (8x + 6))))
1: (x * ((x + 1) + (if (x + ~2) <= 0 then x else 1)))
1: (x * (3 + (if (x + ~4) <= 0 then 0 else 2)))
1: (2 * ((x + 2) + (if (x + ~4) <= 0 then 1 else 2)))
1: (2 * (1 + ((if (x + ~6) <= 0 then 0 else 2) + (x div 9))))
1: (3 * (4 + (if (x + ~12) <= 0 then 1 else 2)))
1: (3 * (4 + (if (x + ~10) <= 0 then 1 else 2)))
1: (2 * (3x + (if (~2 + i) <= 0 then 1 else 0)))
1: (2 * (4 + (if ((x + 1) mod 12) <= 0 then 2 else 1)))
1: (2 * (2x + (if ((x + ~1) mod 7) <= 0 then 1 else 2)))
1: (2 * ((x + 2) + (if ((x + ~2) mod 5) <= 0 then 1 else 2)))
1: ((4 + (if (x mod 2) <= 0 then 1 else 8)) * (1 + (x div 2)))
1: (2 * (x + ((if (x mod 2) <= 0 then 2 else 0) + (x div 2))))
1: ((2x + 1) * (x + ((if (x mod 2) <= 0 then 2 else 0) + (x div 2))))
1: ((x + 1) * ((x + 2) + (if (x mod 2) <= 0 then 2x else 0)))
1: (3 * ((x + 1) + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))
1: (2 * ((x + 1) + (if (x mod 2) <= 0 then x else 2)))
1: (3 * (1 + ((if (x mod 3) <= 0 then 2 else 0) + (x mod 2))))
1: (3 * (2 + ((if (x mod 4) <= 0 then 0 else (if (x mod (2 + (x mod 2))) <= 0 then 1 else x)) + (x mod 2))))
1: (3 * (x + ((if (x mod 4) <= 0 then 1 else 2) + (x div 2))))
1: ((x + 1) * ((x + 2) + (if (x mod 4) <= 0 then x else (x div 2))))
1: ((3 + (if x <= 0 then 0 else 2)) * (1 + (x mod 3)))
1: ((x + 2) * (3 + (if x <= 0 then 0 else 2)))
1: ((x + 1) * (4 + (if x <= 0 then 0 else (1 + (2x div (4 + (x div 4)))))))
1: (2 * (1 + ((if x <= 0 then 0 else (1 + ((2x mod (2 + (x div 3))) mod 2))) + (x mod 2))))
1: (2 * (9 + (if x <= 0 then 0 else (x + 2))))
1: (3 * (3 + (if x <= 0 then 1 else 2)))
1: ((x + 2) * (4 + (if x <= 0 then 1 else ((x + 2) + ((x + (x div 3)) div 3)))))
1: (2 * (4 + (if x <= 0 then 1 else ((x + 2) - ((1 + (x2 div 2)) div (x + 3))))))
1: (2 * ((x + 2) + (if x <= 0 then 1 else (4x + ((x + (2 * (x mod 2))) div 5)))))
1: (2 * ((x + 2) + (if x <= 0 then 1 else (4x + (((x + ~1) mod (2 + (x div 2))) div 2)))))
1: (2 * ((x + 2) + (if x <= 0 then 1 else (8x - ((x + ((~x + 1) mod 3)) div 4)))))
1: (2 * ((x + 2) + (if x <= 0 then 1 else (8x - ((x - ((x + (x div 3)) div 3)) div 2)))))
1: (2 * ((x + 2) + (if x <= 0 then 1 else (4x - (((1 + (x div 2)) div 2) div 2)))))
1: (2 * ((x + 2) + (if x <= 0 then 1 else (6x - (((x + 1) + (x mod 2)) div 5)))))
1: (2 * (4 + (if x <= 0 then 1 else (x - (2 * ((x div 5) div ~2))))))
1: (2 * (2x + (if x <= 0 then 1 else (2 * (x + ((x + (2 * ((x2 div 8) mod 2))) div 2))))))
1: (2 * ((x + 2) + (if x <= 0 then 1 else (2 * (2 + ((x + 2) div 7))))))
1: (2 * ((x + 2) + (if x <= 0 then 1 else (2 * (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))))))))
1: (2 * ((x + 2) + (if x <= 0 then 1 else (2 * (4x - ((x + ((x div 3) mod 3)) div 3))))))
1: (2 * ((x + 2) + (if x <= 0 then 1 else (2 * (4x - ((x - ((x + (x div 3)) div 3)) div 2))))))
1: ((x + 1) * (1 + ((if x <= 0 then 1 else (((2x + 1) + ((3x2 + 6x + 3) div 5)) div 2)) + (x mod 2))))
1: (2 * ((x + 2) + (if x <= 0 then 1 else ((16x + 8) mod 17))))
1: (2 * (4 + (if x <= 0 then 2 else ((x + 2) + (2 * (2 - (x mod 2)))))))
1: (2 * (2x + (if x <= 0 then 2 else (x + (if (~2 + (x div 5)) <= 0 then 1 else 4)))))
1: (2 * ((x + 2) + (if x <= 0 then 2 else (if (x + ~2) <= 0 then x else 1))))
1: (3 * ((x2 + 2) + (if x <= 0 then (3x + 7) else 1)))
1: ((x + 1) * (4 + loop(\(x,i).((x + 2) + (x div (4 + (x div 2)))),(x + ~1),2)))
1: (2 * (2x + loop(\(x,i).((x + 1) + (((2x + ~4) div (2 + (x div 2))) mod 2)),x,1)))
1: (3 * (2 + (loop(\(x,i).(10x + 3),2x,2) + loop(\(x,i).10x,x,1))))
1: (x * ((x + 2) + loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,(x + 3))))
1: (3 * ((x + 1) + loop(\(x,i).(x + (x div (~1 + (4 * (1 + i))))),2,x)))
1: (2 * ((x + 1) + loop(\(x,i).(x + (x div ((2 + i) * (1 + i)))),2,x)))
1: (2 * (3 + loop(\(x,i).(x + (if (x + ~1) <= 0 then i else x)),x,0)))
1: (3 * ((x + 2) + loop(\(x,i).((x * i) - (if (~2 + (x div 2)) <= 0 then 0 else 1)),2,x)))
1: (2 * ((x + 1) + loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(3x + 2))))
1: (2 * ((x + 2) + loop(\(x,i).(x - ((~1 + ((~x + ((x div 4) mod 2)) div 2)) div 2)),x,1)))
1: (2 * ((x + 2) + loop(\(x,i).(x - (2x div (1 + (4 * i)))),x,x)))
1: (2 * (2x + loop(\(x,i).(x - (x div 8)),2,(x + ~1))))
1: (5 * ((x + 2) + loop(\(x,i).(x - (if (~2 + (x div 2)) <= 0 then 0 else 1)),2,x)))
1: (2 * (1 + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) + (((x + 1) div 2) div 2))))
1: (3 * (1 + (loop(\(x,i).3x,x,2) + loop(\(x,i).2x,x,1))))
1: (3 * (2 + (loop(\(x,i).3x,x,3) + loop(\(x,i).2x,(x + 2),3))))
1: ((x + 1) * ((x + 2) + loop(\(x,i).(x * (3 + i)),4,(x + 1))))
1: ((x + 1) * ((x + 2) + loop(\(x,i).(x * (4 + i)),4,(x + 1))))
1: ((x + 1) * ((x + 3) + loop(\(x,i).(x * (4 + i)),4,(x + 1))))
1: (2 * (3 + loop(\(x,i).(2x + 16),x,1)))
1: (2 * (5 + loop(\(x,i).(2x + 40),x,1)))
1: (2 * (4 + loop(\(x,i).(2 * (x3 + (if x <= 0 then 1 else 2))),x,1)))
1: ((x + 1) * (3 + loop(\(x,i).(2x2 + x),3,x)))
1: ((x + 1) * ((x + 2) + loop(\(x,i).(x * (2 + i)),4,(x + 1))))
1: ((x + 1) * ((x + 3) + loop(\(x,i).(x * (2 + i)),4,(x + 1))))
1: (2 * (1 + (loop(\(x,i).(x * (2 + i)),x,1) + (if (x + ~1) <= 0 then 1 else ~1))))
1: (2 * ((x + 1) + loop(\(x,i).(x * (2 - (x div (2 + i)))),x,2)))
1: (x * ((x + 1) + loop(\(x,i).(2x2 + ~x),2,x)))
1: (2 * (1 + (loop(\(x,i).(2 * (2x - (x mod 4))),2,(x div 2)) + (x mod 2))))
1: (2 * (1 + (loop(\(x,i).10x,(x + 1),1) + loop(\(x,i).3x,x,1))))
1: (2 * (3 + loop(\(x,i).4x,x,1)))
1: (2 * (3 + loop(\(x,i).4x,x,2)))
1: (2 * (4 + loop(\(x,i).4x,x,(2 - (x mod 2)))))
1: (x * (2x + loop(\(x,i).x3,2,x)))
1: (2 * ((x2 + x + 1) + loop(\(x,i).(x2 * i),2,3)))
1: (2 * (3 + loop(\(x,i).2x,x,1)))
1: (5 * (3 + loop(\(x,i).2x,x,1)))
1: (2 * (4 + loop(\(x,i).2x,x,2)))
1: (3 * (2 + (loop(\(x,i).2x,x,2) + loop(\(x,i).3x,x,1))))
1: (2 * ((x + 1) + loop(\(x,i).2x,x,3)))
1: (2 * (3 + loop(\(x,i).2x,x,(1 + (2 * (4 + loop(\(x,i).2x,x,1)))))))
1: (2 * (3 + (loop(\(x,i).2x,x,(1 + loop(\(x,i).3x,x,2))) + loop(\(x,i).(3x + 2),2x,2))))
1: (2 * (2 + loop(\(x,i).2x,x,(1 + loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (1 + (9 * (~1 + (5 * loop(\(x,i).7x,x,2)))))),x,3)))))
1: (2 * (3 + loop(\(x,i).2x,compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),2)))
1: (2 * (4 + loop(\(x,i).x2,x3,2)))
1: ((x + 1) * ((x2 + 2x + 1) + loop(\(x,i).(x * i),x,1)))
1: (2 * ((x + 1) + loop(\(x,i).(if x <= 0 then 0 else (1 + (x * ((x + 1) + loop(\(x,i).(2x2 + ~x),2,x))))),2x,x)))
1: ((x + 2) * ((x + 1) + loop(\(x,i).(if x <= 0 then i else (x + ~1)),x,0)))
1: (2 * (4 + loop(\(x,i).loop(\(x,i).(2x + 1),x,2),(x + ~1),1)))
1: (2 * (3 + loop(\(x,i).loop(\(x,i).(x2 + x),x,2),x,0)))
1: ((x + 2) * ((x + 2) + loop(\(x,i).i,(x + ~8),1)))
1: (x2 + x + ~6)
1: ((x + 3) * (x div 3))
1: (5x + 20)
1: (x2 + 7x + 12)
1: (2x2 + 9x + 4)
1: (x3 + 4x2 + x + 4)
1: (~x2 + ~2x + 8)
1: (x3 + 4x2 + ~x + ~4)
1: ((x + 4) * ((x + 1) div 2))
1: ((x + 4) * (if x <= 0 then 1 else 2))
1: ((x + 4) * (if x <= 0 then 1 else x))
1: ((x + 1) * (3 + i))
1: ((3 + i) * (2 + i))
1: (2 * (4 + i))
1: ((x + 1) * ((x + 2) + i))
1: ((x + 2) * ((x + 2) + i))
1: (((x + 2) + i) * (1 + i))
1: (x * ((2x + 1) + i))
1: (3 * (3x + i))
1: (x * (3x + i))
1: (3 * (2x + i))
1: (5 * (2x + i))
1: (2 * (4 + compr(\x.(2 - loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x)),x)))
1: (2 * (1 + (x div 3) - (2 * (x mod 2))))
1: ((3 - ((~x + (x mod 4)) div 3)) * (x div 2))
1: (2 * ((x + 1) - ((x + 1) mod (~1 + ((~x + 2) * (x div 2))))))
1: (2 * (4 - ((x - (24 div (x + 1))) div 3)))
1: (2 * (4 - (((x + ~1) div 2) div 2)))
1: (2 * (4 - (x div 5)))
1: ((x + 1) * (4 - ((((2x + 1) mod (2 + (x div 2))) div 2) mod 2)))
1: ((x + 1) * (3 - (((x + 1) mod 5) mod 2)))
1: (2 * (4 - (((x + ~1) mod (2 + (x div (2 + (x mod 2))))) mod 2)))
1: ((x + 1) * (3 - ((loop(\(x,i).(x * i),x,x) mod (x + 1)) mod 2)))
1: (2 * (4 - (loop(\(x,i).2x,x,1) mod 9)))
1: ((3 - (x mod 2)) * (if x <= 0 then 1 else x))
1: (2 * (4 - (x mod 2)))
1: (x * (4 - (x mod 2)))
1: (5 * (3 - (x mod 4)))
1: (2 * (4 - (x mod 4)))
1: (2 * (4 - (x mod ~3)))
1: (x * (4 - (i mod 2)))
1: ((4 - (i mod 2)) * i)
1: (~4x + 12)
1: (~x2 + x + 6)
1: (~x2 + 3x + 4)
1: ((~x + 4) * (x div 2))
1: ((~x + 4) * (x div 4))
1: (~3x + 15)
1: (~x2 + 5x)
1: (~x2 + 4x + 12)
1: (~x3 + 7x2 + ~6x)
1: (2 * (3 + ((((~2 + (x div 2)) * (x div 2)) mod (x + 1)) mod 2) - ((x mod 2) + (x mod 2))))
1: (2 * (2 + (2 * (x - (((x div 2) - ((~1 + (x div 4)) div 2)) mod 2))) - (x mod 2)))
1: (5 * (2 + ((1 + loop(\(x,i).2x,((((1 + (8 mod (1 + (x div 2)))) div 2) + (if x <= 0 then 0 else 1)) - (x mod 2)),2)) div 3) - (x mod 2)))
1: (2 * (2 + ((2 * (1 + ((1 + (((~1 + loop(\(x,i).2x,x,(2 - (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))) mod (x + 1)) div 2)) div 2))) div 3) - (x mod 2)))
1: (2 * ((~x + 2) + ((2 * (1 + ((15x3 + 30x2 + 16x + 1) div 3))) div 3)))
1: (2 * ((x + 3) - ((2 * (2x div ~7)) div 3)))
1: ((x + 2) * ((x + 3) - (((2 - (x div 2)) div 2) div 2)))
1: (3 * ((3x + 2) - ((x + ((4 * (x div 3)) div 3)) mod 3)))
1: ((11 - (x mod 2)) * (1 + ((x + 1) div 2)))
1: (2 * (1 + (2 * (x + (x mod 2))) - (x div 2)))
1: (x * ((x + ~1) + (3 * (1 + loop(\(x,i).loop(\(x,i).5x,x,1),(i - (x mod 3)),loop(\(x,i).5x,x,1))))))
1: (2 * ((2x + 3) - ((~x + ((x div 3) mod 3)) div 3)))
1: (2 * ((2x + 4) - (((x mod 2) - (x div 5)) div 2)))
1: (2 * ((2x + 5) - ((x div 3) div ~3)))
1: ((x2 + 2x + 1) * (1 + (11 * (if x <= 0 then 1 else 2)) - (x mod 2)))
1: (~2x + 34)
1: ((21 - (x mod 2)) * (1 + (x div 2)))
1: ((1 + (15 * (2 + (if x <= 0 then 0 else 2))) - (x mod 2)) * ((x + 1) div 2))
1: ((x + 1) * (33 - ((x div 2) mod 2)))
1: ((8x + (x mod 2) - (x div ~2)) * (1 + (x div 2)))
1: (2 * ((6x2 + 1) - (x mod 2)))
1: (2 * ((4x + 1) - (x div 2)))
1: (((4x + 1) - (x div 2)) * (x div 2))
1: (2 * ((4x + 2) - (x div 8)))
1: (2 * ((4x + 1) - (((x + 1) * (x div 2)) mod 2)))
1: (x * ((~x + 1) + (2x * (i * i))))
1: (2 * ((x + ~1) + (2 * ((4 * (x + (if (~2 + (x div 2)) <= 0 then 1 else 2))) div 3))))
1: (3 * ((x + ~1) + (2 * (x mod 4))))
1: ((x + 1) * ((~x + 1) + ((x + 1) * loop(\(x,i).(x2 + 4x + 5),2,4))))
1: ((x + 1) * ((~x + 1) + ((x + 1) * loop(\(x,i).(2 + (x * (x + i))),2,4))))
1: ((x + 1) * ((~x + 1) + ((x + 1) * loop(\(x,i).(2 + (x * (x + i))),2,6))))
1: ((x + 1) * ((~x + 1) + ((x + 1) * loop(\(x,i).(x2 + 1),2,4))))
1: (2 * ((2x + 1) - ((2x + 1) div 7)))
1: (2 * ((2x + 1) - ((x + (x div 2)) div 4)))
1: (2 * ((2x + 1) - ((x + (x mod 3)) div 7)))
1: (2 * ((2x + 1) - ((~x2 + 1) div (x + 4))))
1: (2 * ((2x + 1) - ((1 - (x div 2)) div 5)))
1: (2 * ((2x + 1) - ((~x + ((~x + 2) div 4)) div 2)))
1: (3 * ((2x + 1) - ((~x + ((x + ~2) div 3)) div 3)))
1: (5 * ((2x + 1) - ((~x + ((x + ~2) div 3)) div 3)))
1: (2 * ((2x + 1) - ((x + ~2) div 3)))
1: (5 * ((2x + 1) - ((x + ~2) div 3)))
1: (2 * ((2x + 1) - ((x - ((x div 2) mod 3)) div 3)))
1: (2 * ((2x + 1) - ((2 * ((2x + 2) + (x div (1 + (2 * (if (~4 + (x div 2)) <= 0 then 2 else 1)))))) div 3)))
1: (2 * ((2x + 1) - (((x + ((x div 4) mod 2)) div 2) div ~2)))
1: (2 * ((2x + 1) - ((((x + 1) div 2) div 2) div 2)))
1: (2 * ((2x + 1) - ((x div 2) div 3)))
1: ((x + 1) * ((2x + 1) - (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))
1: (2 * ((2x + 1) - ((x mod (2 + (x mod 2))) div 2)))
1: (2 * ((2x + 2) - ((x mod ~4) div 2)))
1: (2 * ((2x + 2) - (x div 4)))
1: (((2x + 2) - (x div 4)) * (1 + (x div 4)))
1: (2 * (2x + ((x div ~2) mod 2) - (x div 4)))
1: (3 * ((2x + 2) - (x div (4 + ((x div 2) mod 4)))))
1: (2 * ((2x + 2) - (x div (4 - ((x div 2) mod 2)))))
1: (((2x + 1) - (x div ~2)) * (x + (x mod 2)))
1: (3 * (3x - (x div (if i <= 0 then 1 else i))))
1: (2 * ((2x + 1) - ((x + 1) mod 4)))
1: (2 * ((2x + 1) - ((x div 3) mod 3)))
1: (3 * ((2x + 1) - ((x div 4) mod 2)))
1: (5 * ((2x + 1) - ((x div 4) mod 2)))
1: (5 * ((2x + 2) - (x mod 2)))
1: (x * ((2x + 2) - (x mod 2)))
1: (3 * ((2x + 1) - (x mod 5)))
1: (x * ((2x + 1) - (x mod 5)))
1: (2 * ((2x + 2) - (x mod 5)))
1: (2 * ((2x + 1) - (x mod (1 + ((x2 + ~x) mod 8)))))
1: (2 * (2x + (x div 2) - (x mod (2 * (2 - (x mod 2))))))
1: (2 * ((2x + 2) - (i mod 2)))
1: ((x + 1) * ((2x + 1) - loop(\(x,i).(x div (1 + (x mod 2))),x,x)))
1: ((~1 + ((2 * i) + i)) * i)
1: (x * (1 + (2 * i) - (i div 3)))
1: (x * ((~x + 2) + (2 * i)))
1: (3 * (1 + ((3 * (1 + (2 * (1 + (2 * (1 + (2 * ((2x + 2) - (x mod 2))))))))) div 2) - (x mod 2)))
1: ((x + 1) * (1 + ((x2 + 4x + 4) div 2) - (x mod 2)))
1: (2 * (1 + ((x3 + 3x2 + 2x) div 3) - (x mod 2)))
1: (2 * (1 + (x2 div 3) - (x mod 2)))
1: (3 * (1 + ((x div 2) div 3) - (x mod 2)))
1: (2 * (2 + (x div 2) - (2 * ((x div 4) mod 2))))
1: ((1 + (x div 2) - (2 * (x mod 2))) * (x div 2))
1: (2 * (1 + (x div 2) - ((~x + 1) div (1 + (x div 2)))))
1: (2 * (1 + (x div 2) - (((2 - (x div 2)) div 2) div 2)))
1: (2 * (1 + (x div 2) - ((x div 4) mod 2)))
1: (3 * (1 + (x div 2) - ((x div 4) mod 2)))
1: ((x + 2) * (2 + (x div 2) - (x mod 2)))
1: (3 * (1 + (x div 3) - ((2x + 4) div 7)))
1: (3 * (((x div 4) + (x div 3)) - ((x + ~1) div 2)))
1: ((x + 1) * (1 + (2 mod (1 + (x mod 3))) - (x mod 7)))
1: ((1 + ((x - ((x div 2) div 5)) mod 2) - (x mod 2)) * (1 + (x div 3)))
1: ((x + 1) * (1 + (((x + ~1) mod (3 + (x div (1 + (x mod 2))))) mod 2) - (x mod 2)))
1: (2 * (~2 + ((x mod 2) + (x mod 4))))
1: (3 * (2 + (x mod 2) - (x div 2)))
1: ((1 + (x mod 2) - (x div ~3)) * (1 + (x mod 3)))
1: (((~x + 1) + (x mod 2)) * (x div 2))
1: ((1 + (if (~x + 2) <= 0 then 10 else 1) - (x mod 2)) * ((x + 1) div 2))
1: (3 * (1 + (if (x mod 3) <= 0 then (2 * (if (x mod 2) <= 0 then (2 + (if x <= 0 then 0 else 2)) else 1)) else 1) - (x mod 2)))
1: (3 * (1 + loop(\(x,i).(x + (3 * (x + (i mod 2)))),x,1) - (2 * (x mod 2))))
1: (3 * (1 + loop(\(x,i).3x,x,1) - loop(\(x,i).2x,x,2)))
1: (x * (1 + loop(\(x,i).(x * i),x,1) - (x mod 2)))
1: (x * ((~x2 + 1) + loop(\(x,i).(x * i),x,(x + 1))))
1: ((x + 1) * ((x + 1) - (2 * (1 + ((x + ~2) div (2 + (x div 2)))))))
1: (2 * ((x + 1) - (4 * (~x + (x div 5)))))
1: (x4 + ~x3 + x2 + x)
1: (((x + 1) - (2 * ((x - ((~1 + (x div 2)) div 2)) div 2))) * ((x + 1) div 2))
1: (2 * ((x + 1) - (2 * ((x - ((x div 2) div ~2)) div 3))))
1: (2 * ((x + 2) - (3 * ((((2 - (x div 3)) * (x div 3)) div 2) div 2))))
1: (2 * (2x - (((x + 1) + (x mod 2)) div 5)))
1: (3 * ((x + 2) - ((x + (x div 4)) div ~2)))
1: (2 * ((x + 1) - ((((x div 4) mod 2) + (x div 2)) div ~2)))
1: (3 * ((x + 1) - ((1 - (if (~x + 2) <= 0 then x else 2)) div 3)))
1: (2 * ((x + 3) - ((~x + 1) div 3)))
1: ((x + 1) * ((x + 1) - (((~x + ~1) + (x2 div 4)) div 3)))
1: ((x + 4) * ((x + 2) - (((~x + ~1) + (x mod 2)) div 5)))
1: (2 * (x + ((x div 2) mod 2) - ((~x + (x mod 2)) div 3)))
1: (2 * ((x + 2) - ((x - ((x - (x div 4)) mod 2)) div 3)))
1: (2 * ((x + 2) - (3x div (16 - (x div 2)))))
1: (2 * ((x + 2) - ((~x2 + x) div (4 + (x div 2)))))
1: (2 * (3x - ((2 * (2x div (4 + (x div 8)))) div 3)))
1: (2 * (2x - ((2 * (if x <= 0 then 1 else x)) div (~3 + ((~x + 2) div 4)))))
1: (3 * ((x + 2) - (x2 div 4)))
1: (5 * ((x + 2) - (x2 div (x + 6))))
1: ((x + 1) * ((x + 2) - (x2 div (x + 16))))
1: (2 * ((x + 2) - (x2 div ((2x + 10) - (x div 2)))))
1: (3 * ((x + 2) - ((x div 2) div 5)))
1: (2 * ((x + 2) - (((x + ~1) mod (2 + (x div 2))) div 2)))
1: (2 * ((x + 2) - ((if x <= 0 then 1 else x) div (~2 + (x mod ~4)))))
1: (3 * ((x + 1) - (x div 4)))
1: (2 * ((x + 2) - (x div 5)))
1: (2 * ((x + 6) - (x div ~4)))
1: ((x + 2) * ((x + 3) - ((x div 2) mod 2)))
1: (2 * ((x + 2) - ((x div 2) mod 4)))
1: (2 * ((x + 2) - (if (~4 + (x div 2)) <= 0 then 1 else (x div 3))))
1: (25 * (2x - (if (~2 + (x div 2)) <= 0 then (~1 + (x div 5)) else 1)))
1: (3 * ((3x + ~4) + i))
1: (2 * (2 + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x) - (x mod 2)))
1: (7 * (2 - (x mod 2)))
1: (7 * (if (x + ~2) <= 0 then 2 else 1))
1: (7 * (if (~2 + i) <= 0 then 1 else x))
1: ((x + 1) * (6 + (2 div (x + 1))))
1: (x * (6 + (2 div (x + 1))))
1: (x * (6 + (2 div (1 + i))))
1: (2 * (6 + (if x <= 0 then 0 else 1)))
1: (21x + 7)
1: (12x2 + 7x + 1)
1: ((3x + 1) * (1 + i))
1: (6x2 + ~x + ~1)
1: (15x + 10)
1: (9x2 + 9x + 2)
1: ((3x + 2) * (if x <= 0 then 1 else 2))
1: (2 * (1 + (3 * i)))
1: (2 * (x + (3 * i)))
1: (2x2 + 16)
1: (2 * (8 + (if x <= 0 then 0 else 1)))
1: (4x + 32)
1: (9x + 72)
1: (8x + 64)
1: (2x2 + 16x)
1: (x * (8 + i))
1: (13x2 + 26x + 13)
1: (26x + 13)
1: (13 * (2 - ((if x <= 0 then 1 else x) mod 2)))
1: (~13x + ~13)
1: (13 * i)
1: (x * (12 + (if (x + ~2) <= 0 then 1 else 2)))
1: (3x2 + 39x + 36)
1: (x2 + 12x)
1: (16x2 + 24x + 5)
1: (8x2 + 14x + 5)
1: ((4x + 5) * ((x + 1) + (if x <= 0 then 1 else x)))
1: (4x2 + 9x + 5)
1: (4x2 + 13x + 10)
1: (x * ((4x + 3) + i))
1: (2 * ((4x + 4) + (2 div (2x + ~1))))
1: (2 * ((4x + 4) + ((x + 1) div 3)))
1: (2 * ((4x + 4) + ((x div 2) div 3)))
1: (3 * ((4x + 4) + (x div 4)))
1: (2 * ((4x + 4) + ((x div 2) mod 2)))
1: (((4x + 4) + (x mod 2)) * (if x <= 0 then 1 else 2))
1: (25x + 20)
1: (5x2 + 19x + 12)
1: (25x2 + 25x + 4)
1: (10x2 + 13x + 4)
1: (5x2 + 9x + 4)
1: (5x2 + 14x + 8)
1: (10x3 + 18x2 + 8x)
1: (10x2 + 8x)
1: ((5x + 4) * loop(\(x,i).x2,2,x2))
1: (2x * ((4 * (1 + i)) + i))
1: (x * ((4 * (1 + i)) + i))
1: ((1 + (4 * (~1 + i))) * i)
1: (5 * (10 + (x div 5)))
1: (9 * (10 + (if x <= 0 then 1 else 2)))
1: (25x2 + 35x + 6)
1: (10x2 + 17x + 6)
1: (2 * ((5x + 5) + ((x div 2) div 3)))
1: (2 * ((5x + 5) + (x div 5)))
1: (3 * ((5x + 10) + (x div 2)))
1: (x * (1 + (5 * (1 + i))))
1: (2 * (x + (5 * (x div 2))))
1: (2 * (x + (5 * (x mod 2))))
1: (2 * (1 + (5 * (if x <= 0 then 1 else x))))
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1: (15x2 + 13x + 2)
1: (~5x2 + 9x + 2)
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1: (5x2 + 12x + 4)
1: (40x2 + 29x + 3)
1: (2 * (5x + loop(\(x,i).2x,i,1)))
1: (2 * (1 + (5 * i)))
1: ((2 + (5 * i)) * i)
1: ((x2 + 7x + 1) * (1 + ((x div 2) mod 2)))
1: (2 * (1 + (7 * (5 + loop(\(x,i).2x,x,1)))))
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1: (x3 + 5x2 + x)
1: (x3 + 5x2 + 2x)
1: (3x2 + 19x)
1: (3x2 + 20x)
1: (5x2 + 31x)
1: (2x2 + 16x + 26)
1: (x3 + 9x2 + 21x + 13)
1: (x3 + 10x2 + 21x + 12)
1: (3x2 + 18x + 6)
1: (x3 + 6x2 + 2x)
1: (2x2 + 19x)
1: (6x + 58)
1: (9x + 87)
1: (2x2 + 30x + 114)
1: (4x + 42)
1: (x3 + 15x2 + 44x + 30)
1: (2 * (1 + (2 * (2 + (2 * (1 + (2 * ((2x + 2) - (x mod 2)))))))))
1: ((x + 1) * (1 + (2 * ((x + 1) + (2 * (x + ((x3 + 2x) div 3)))))))
1: (9x2 + 39x + 81)
1: (2x3 + 11x2 + 37x + 28)
1: (27x2 + 105x + 105)
1: (2 * (1 + (2 * ((4x + 1) + (x mod 2)))))
1: ((2x + 3) * (1 + (2 * ((4x + 1) + i))))
1: (6x3 + 8x2 + 5x + 3)
1: (2 * (1 + (2 * ((x + 2) + ((x + (x mod 2)) div 3)))))
1: ((2x + 1) * (1 + (2 * (2 + ((17x2 + 17x) div 2)))))
1: (x * (2 + (x * ((x + 1) + (((x4 + x3 + 2x2 + 2x) div 2) div 3)))))
1: (2 * (x + (((2x + 2) + (x div 2)) * (x div 2))))
1: (2 * (1 + (2 * ((x + 1) + (x div 2)))))
1: (2 * (1 + (2 * ((x + 2) + (x div 2)))))
1: (5 * (1 + (2 * ((x + 2) + (x div 2)))))
1: (2 * (x + (3 * ((x + 2) + (x div 2)))))
1: (x * (1 + (2 * (5x + (x div 2)))))
1: (2 * (1 + (3 * ((x + 1) + (x div 4)))))
1: (2 * (1 + (2 * ((x + 8) + (x div 5)))))
1: (x * (1 + (2 * (4 + (2 mod (x + 1))))))
1: (x * (1 + (3 * (4 + (2 mod (x + 1))))))
1: (2 * (1 + (2 * ((2x + 1) + ((x div 4) mod 2)))))
1: ((x + 1) * (2 + (x * (3 + (x mod 4)))))
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1: (x2 * (1 + (3 * ((x2 + 2) + (if x <= 0 then (3x + 7) else 1)))))
1: (2 * (1 + (2 * (3 + loop(\(x,i).2x,x,1)))))
1: (2 * (1 + (2 * ((x + 1) + loop(\(x,i).2x,x,3)))))
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1: (3x2 + 10x)
1: (9x2 + 45x + 63)
1: (3x2 + 15x + 24)
1: (2x2 + 10x + 18)
1: (4x2 + 20x + 9)
1: (2x2 + 11x + 9)
1: (3x2 + 13x)
1: (3x2 + 20x + 28)
1: (3x2 + 14x)
1: (2x3 + 11x2 + 15x + 6)
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1: (x3 + 6x2 + 10x + 5)
1: (x3 + 7x2 + 15x + 10)
1: (x3 + 5x2 + 5x)
1: (3 * ((x2 + 5x + 4) + (x div 2)))
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1: (3x2 + 18x + 30)
1: ((x + 3) * ((x2 + 6x + 10) + (x mod 2)))
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1: (x3 + 7x2 + 8x)
1: (3x2 + 12x + 3)
1: (7x2 + 28x + 7)
1: (2x3 + 9x2 + 6x + 1)
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1: (x * (1 + (2 * (4 + i))))
1: ((1 + ((4 + i) * i)) * i)
1: (4 * (2 + ((4 + i) * i)))
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1: (~x3 + 3x2 + 8x + 4)
1: (~4x + 30)
1: (~x3 + 4x2 + 13x + 2)
1: (9 * (1 + (2 * ((2x + 1) - (x mod 2)))))
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1: ((1 + (2 * ((2x + 2) - (x mod 2)))) * (x div 2))
1: (3 * (1 + (3 * (2 + (x div 2) - (x mod 2)))))
1: (2 * ((7x + 7) + (x div 4)))
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1: (7x2 + 15x + 2)
1: (105x + 15)
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1: (x * (2 + (7 * i)))
1: (x4 + 6x2 + 4x)
1: (81x2 + 81x + 14)
1: (36x2 + 55x + 21)
1: (2 * ((9x + 6) + (x div 3)))
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1: (3x4 + 8x3 + 8x2 + 4x + 1)
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1: (3x3 + 5x2 + 4x + 2)
1: (x * (1 + (3 * (2 + (3 * i)))))
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1: (2x2 + 24x + 68)
1: (x3 + 13x2 + 47x + 51)
1: (13x2 + 15x)
1: (13x2 + x)
1: (8x2 + 18x + 12)
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1: (5x3 + 9x2 + 5x + 1)
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1: (15x2 + 33x + 9)
1: (5x3 + 12x2 + 10x + 3)
1: (10x2 + 4x + 2)
1: (x * (1 + (2 * (1 + (5 * i)))))
1: (2x3 + 18x2 + 43x + 27)
1: (3x3 + 21x2 + 26x + 8)
1: (15x2 + 75x + 125)
1: (2x3 + 9x2 + x)
1: (6x2 + 36x + 62)
1: (2 * (1 + (2 * (1 + (2 * ((2x + 2) - (x mod 2)))))))
1: (28x + 6)
1: (14x3 + 9x2 + 2x)
1: (4x2 + 36x + 42)
1: (10x3 + 18x2 + 11x + 3)
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1: (3 * (1 + (2 * (1 + (2 * (1 + (2 * ((2x + 2) - (x mod 2)))))))))
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1: (x5 + 5x4 + 10x3 + 7x2 + 2x + 1)
1: (4x3 + 8x2 + 11x)
1: (8x3 + 20x2 + 46x + 19)
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1: (54x2 + 82x + 32)
1: (16x2 + 22x + 10)
1: (76x + 26)
1: (14x2 + 6x + 4)
1: (14x3 + 13x2 + 7x + 2)
1: (2 * (2 + (3 * (1 + (2 * (x + ((x * (1 + (x div 5))) div 9)))))))
1: (2 * (3 + (2 * (2 + (3 * (x + ((((x + 1) div 2) div 2) div 2)))))))
1: ((1 + (2 * (x + (5 * (1 + (x div 2)))))) * (x div 2))
1: (2 * (1 + (2 * (2 + (3 * (x + (x div 2)))))))
1: (2 * (1 + (2 * (1 + (2 * (x + (x div 11)))))))
1: (2 * (1 + (2 * (1 + (x * (1 + (2 mod (x + 1))))))))
1: (2 * (1 + (2 * (x + (2 * (x + ((x div 2) mod 2)))))))
1: (2 * ((3 * (1 + (2 * (2x + (x mod 2))))) + (x div 2)))
1: ((1 + (2 * (x + (3 * (x + (x mod 2)))))) * ((x + 1) div 2))
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1: (5x3 + 15x2 + 16x + 12)
1: (4x3 + 6x2 + 12x + 5)
1: (2x3 + 3x2 + 4x)
1: (4x3 + 6x2 + 14x + 8)
1: (4x2 + 4x + 18)
1: (2x3 + 11x2 + 21x + 12)
1: (2x3 + 11x2 + 27x + 18)
1: (2 * (1 + (2 * ((2x + 4) + (x div 2)))))
1: (6x2 + 20x + 20)
1: (12x2 + 16x + 2)
1: (6x2 + 8x + 4)
1: (9x2 + 12x + 6)
1: (6x2 + 8x + 6)
1: (3x3 + 10x2 + 17x + 18)
1: (4x2 + 12x + 14)
1: (x4 + 4x3 + 6x2 + x)
1: (2x3 + 11x2 + 25x + 16)
1: (5x4 + 20x3 + 32x2 + 24x + 7)
1: (4x3 + 10x2 + 8x + 4)
1: (6x2 + 12x + 15)
1: (x5 + 5x4 + 11x3 + 13x2 + 9x + 3)
1: (2x3 + 6x2 + 13x + 9)
1: (x4 + 3x3 + 8x2 + 8x + 2)
1: (2 * (1 + (2 * (x + (2 * (x + i))))))
1: (22x3 + 36x2 + 17x + 3)
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1: (45x3 + 90x2 + 36x + 21)
1: (2 * (2 + (3 * (1 + (2 * (~1 + ((3 * compr(\x.(1 - (x mod (2 + ((1 + ((x - ((x div 2) mod 2)) div 2)) mod 5)))),x)) div 2)))))))
1: (5 * (1 + (2 * (1 + (2 * (x - (2 * (x div ~3))))))))
1: (3 * (x + (3 * (1 + (2 * (x - (x div ~2)))))))
1: (2 * (1 + (2 * (1 + (2 * (x - ((x + 1) mod ~9)))))))
1: (27x2 + 33x + 12)
1: (17x2 + x)
1: (4x2 + 66)
1: (32x2 + 84x + 60)
1: (16x2 + 34x + 22)
1: (2 * (x + ((10x + 1) * (x div 2))))
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1: (8x3 + 5x2 + 2x)
1: (27x2 + 41x + 14)
1: (4x5 + 10x4 + 13x3 + 11x2 + 5x + 2)
1: (2x6 + 2x5 + 6x4 + 6x3 + 6x2 + 4x + 6)
1: (12x2 + 26x + 18)
1: (14x2 + 12x + 6)
1: (11x3 + 21x2 + 13x + 3)
1: (20x + 34)
1: (45x2 + 72x + 27)
1: (10x3 + 21x2 + 14x + 3)
1: (11x3 + 53x2 + 83x + 42)
1: (4x3 + 30x2 + 70x + 50)
1: (250x + 184)
1: (66x + 2)
1: (98x + 100)
1: (49x2 + 100x + 51)
1: (17x3 + 33x2 + 19x + 3)
1: (19x2 + 51x + 32)
1: (16x3 + 33x2 + 20x + 3)
1: (16x2 + 3x)
1: (32x3 + 12x2 + 2x)
1: (8x3 + 17x2 + 11x + 2)
1: (8x3 + 9x2 + 3x)
1: (x * (1 + (x * (1 + ((x2 + x) * loop(\(x,i).(x7 + x6 + x5 + x4 + x3 + x2 + x + 1),1,x2))))))
1: (16x2 + 14x + 3)
1: (8x2 + 11x + 3)
1: (8x2 + 19x + 6)
1: (64x2 + 80x + 21)
1: (8x2 + 3x)
1: ((2x + 3) * ((8x + 2) + (x div 3)))
1: (4x3 + 21x2 + 23x + 6)
1: (8x2 + 10x + 4)
1: (4x3 + 9x2 + 7x + 2)
1: (4x3 + 5x2 + 2x)
1: (4x3 + 13x2 + 13x + 4)
1: (8x2 + 2x + 2)
1: (4x3 + 5x2 + 2x + 1)
1: ((x + 2) * ((4x2 + x) + (if x <= 0 then 0 else 1)))
1: (2 * (2x + ((6x + 1) * (x div 2))))
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1: (38x + 12)
1: (4x3 + 12x2 + 11x + 6)
1: (4x4 + 6x3 + 5x2 + x)
1: (4x3 + 3x)
1: (2x4 + x2 + x)
1: (6x5 + 5x4 + 4x3 + 3x2 + x + 1)
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1: ((1 + (2 * (1 + (4 * i)))) * i)
1: ((x + ~1) * (1 + (2 * (1 + (2 * (loop(\(x,i).(x * (2 + i)),x,1) div 3))))))
1: (2 * (1 + (2 * (1 + (2 * (x div 2))))))
1: (2 * (1 + (x * (1 + (2 * (x div 2))))))
1: ((x + 2) * (1 + (2 * (x + (3 * (x div 2))))))
1: ((x + 1) * (1 + (2 * (x + ((x + ~2) * (x div 2))))))
1: (x * (1 + ((1 + (x * (x div 2))) * (1 + (x div 2)))))
1: (x * (1 + (2 * (2 + (2 * (((x + 1) mod (1 + (2 * (x mod 5)))) mod 2))))))
1: (2 * (2 + ((1 + (2 * (loop(\(x,i).(x * (~1 + (2 * i))),x,~2) mod (x + 1)))) * (x mod 2))))
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1: (2 * (x + (4 * (x + (2 * (x mod 2))))))
1: (2 * (1 + (2 * (2 + (3 * (if (x + ~1) <= 0 then 1 else 16))))))
1: ((x + 1) * (3 + (2 * (2 + (3 * (if (x + ~2) <= 0 then 1 else 16))))))
1: (2 * (1 + (2 * (1 + ((if ((x + ~1) mod 4) <= 0 then 2 else 1) * (1 + (2 * (x mod 2))))))))
1: (2 * (1 + (2 * (1 + (loop(\(x,i).(3x + ~1),x,2) * loop(\(x,i).(2x + 2),x,0))))))
1: (2 * (1 + (2 * (1 + (5 * loop(\(x,i).(2x + 4),x,3))))))
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1: (2 * ((6x + 3) + (x div 2)))
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1: (2x3 + 7x2 + 8x + 4)
1: (2x3 + 7x2 + 9x + 6)
1: (2x3 + 7x2 + 9x + 4)
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1: (3 * (1 + (2 * (1 + ((x mod (2 + (x div 2))) div 3)))))
1: (2 * (1 + (2 * (x + (loop(\(x,i).x3,x,2) div (x + 1))))))
1: ((1 + (2 * (1 + (x div 2)))) * (x div 2))
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1: (3 * ((x2 + x) + ((1 + (x div 2)) * (x div 2))))
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1: (2 * (x + ((2 + (x div 2)) * (x div 4))))
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1: (2 * (2 + (3 * (x + (x div 2)))))
1: ((x + (3 * (x + (x div 2)))) * (1 + (x div 2)))
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1: (2 * (1 + (x * (x + (x div 2)))))
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1: (2 * (x + (2 * (2 + (x div 4)))))
1: (2 * (2 + (3 * (x + (x div 4)))))
1: ((x + 1) * (2 + (3 * (x + (x div 4)))))
1: (3 * (x + (3 * (x + (x div 4)))))
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1: (2 * (1 + (2 * (x + (x div (2 + ((x div 2) div 3)))))))
1: ((x + 1) * ((2 * (2 + (x div (1 + (x mod 4))))) + (x mod 2)))
1: (2 * (1 + (2 * (x + (x div (2 - (x div (~1 + ((~x + 2) div 4)))))))))
1: (2 * (1 + (2 * (x + (x div 11)))))
1: ((1 + (2 * (x + (x div 15)))) * (x div 2))
1: ((1 + ((2 + (x div 8)) * ((x div 2) mod 2))) * (x mod 2))
1: (2 * (1 + (8 * (x + (x div 8)))))
1: (2 * (1 + (x * (1 + (2 mod (x + 1))))))
1: (2 * (x + (2 * (x + (2 mod (x + 1))))))
1: (2 * (1 + (x * (1 + ((1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),x,2x)) mod 3)))))
1: (2 * (1 + (2 * (2 + ((~1 + ((~x + 1) div 2)) mod 4)))))
1: (x * (1 + (2 * (2 + ((x + ~1) mod 3)))))
1: (2 * (1 + (2 * (2 + ((x2 + 2x) mod 6)))))
1: (2 * (1 + ((1 + ((x * (x div 2)) mod 2)) * ((x mod 3) mod 2))))
1: ((x + 1) * (1 + (2 * (2x + ((x * (x div 2)) mod 2)))))
1: ((x + 1) * (2 + ((1 + ((x * (x div 3)) mod (1 + ((2 - (x div 2)) mod 4)))) * (x mod 2))))
1: (2 * (x + (2 * (x + ((x div 2) mod 2)))))
1: (x * (2 + (x * (2 + (loop(\(x,i).x2,4,2) mod (x + 1))))))
1: (3 * (1 + (2 * (2 + (x mod 2)))))
1: ((1 + (2 * (2 + (x mod 2)))) * (if x <= 0 then 1 else x))
1: (2 * (((x + 1) * (2 + (x mod 2))) + (x2 div 2)))
1: (3 * (1 + (x * (2 + (x mod 2)))))
1: (2 * (1 + (2 * (2x + (x mod 2)))))
1: (3 * (1 + (2 * (2x + (x mod 2)))))
1: ((1 + (2 * (2x + (x mod 2)))) * ((x + 1) div 2))
1: (2 * (x + (2 * (2x + (x mod 2)))))
1: ((x + 1) * (x + (2 * (x + (x mod 2)))))
1: ((1 + (3 * (x + (x mod 2)))) * (1 + (x div 2)))
1: (2 * (x2 + (3 * (x + (x mod 2)))))
1: (2 * (x + (3 * (x + (x mod 2)))))
1: (3 * (x + (3 * (x + (x mod 2)))))
1: ((x + (3 * (x + (x mod 2)))) * (2 + (x mod 2)))
1: (3 * (x + (4 * (x + (x mod 2)))))
1: (3 * (1 + ((2x + 1) * (x + (x mod 2)))))
1: (3 * (x + (8 * (x + (x mod 2)))))
1: (2 * (3 + (x * (x + (x mod 2)))))
1: (x * (1 + (2 * (1 + (x mod 3)))))
1: (2 * (1 + (2 * (2 + (x mod 4)))))
1: (x * (1 + (2 * (2 + (x mod 4)))))
1: ((x + 1) * (1 + ((x + (x mod 4)) * (1 + (x div 4)))))
1: (2 * (1 + (2 * (1 + (x mod (2 + (35 mod (x + 1))))))))
1: ((1 + (x * (2 + (x mod (2 + (x mod 2)))))) * (1 + (x div 2)))
1: (x * (1 + (7 * (1 + (if (~x + 2) <= 0 then 2 else 1)))))
1: ((1 + (2 * (1 + (if (~x + 2) <= 0 then x else 0)))) * (1 + (x div 2)))
1: (2 * (((x + 1) * (2 + (if (x + ~1) <= 0 then x else 2))) + (x mod 2)))
1: (2 * (x + (2 * (1 + (if (x + ~1) <= 0 then x else 8)))))
1: (3 * (1 + (5 * (x + (if (x + ~2) <= 0 then 1 else 2)))))
1: ((x + 1) * (1 + (x * (2x + (if (x mod 2) <= 0 then 1 else 4)))))
1: (2 * (x + (2 * (x + (if (x mod 2) <= 0 then 2 else 0)))))
1: (2 * (1 + (x * (x + (if (x mod 2) <= 0 then 2 else 0)))))
1: ((1 + (3 * (1 + (if (x mod 2) <= 0 then 6 else 1)))) * (if x <= 0 then 1 else 2))
1: ((1 + (3 * (2 + (if (x mod 2) <= 0 then 8 else 1)))) * (if x <= 0 then 1 else 2))
1: ((x + 3) * (2 + ((1 + (if (x mod 3) <= 0 then (2 - ((x div 2) mod 2)) else 0)) * (x mod 2))))
1: ((x + 1) * (1 + (3 * (2 + (if x <= 0 then 2 else 0)))))
1: ((2x + 1) * (1 + (2 * (3 + (if x <= 0 then 4 else (x + 1))))))
1: ((x + 1) * (2 + ((x + 1) * (1 + loop(\(x,i).(4x2 + ~1),2,2)))))
1: ((x + 1) * (2 + ((x + 1) * (1 + loop(\(x,i).(x2 + ~1),2,4)))))
1: ((x + 1) * (1 + ((x + 1) * (1 + loop(\(x,i).(x2 + ~1),2,6)))))
1: ((x + 1) * (2 + ((x + 1) * (1 + loop(\(x,i).(x2 + ~1),2,6)))))
1: ((x + 1) * (2 + ((x + 1) * (1 + loop(\(x,i).(x2 + ~1),4,2)))))
1: (2 * (1 + (2 * (x + loop(\(x,i).(x - (x div 12)),2,x)))))
1: (3 * (2 + (3 * (x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 1))))))
1: ((x + 1) * (2 + ((x + 1) * (1 + loop(\(x,i).(6x2 + 2x),2,2)))))
1: ((x + 1) * (2 + (x * (1 + loop(\(x,i).(x2 + x),2,2)))))
1: ((x + 1) * (2 + ((x + 1) * (1 + loop(\(x,i).(x * (2 + i)),5,2)))))
1: ((x + 1) * (2 + ((x + 1) * (1 + loop(\(x,i).(x * (x + i)),2,3)))))
1: ((x + 1) * (1 + ((x + 1) * (1 + loop(\(x,i).(x * (x + i)),2,4)))))
1: ((x + 1) * (2 + ((x + 1) * (1 + loop(\(x,i).(x * (x + i)),2,4)))))
1: ((x + 1) * (2 + ((x + 1) * (1 + loop(\(x,i).(x * (x + i)),2,5)))))
1: ((x + 1) * (1 + ((x + 1) * (1 + loop(\(x,i).(x * (x + i)),2,6)))))
1: ((x + 1) * (2 + ((x + 1) * (1 + loop(\(x,i).(x * (x + i)),2,6)))))
1: ((x + 1) * (2 + ((x + 1) * (1 + loop(\(x,i).(x * (x + i)),2,8)))))
1: ((x + 1) * (2 + (x * (1 + loop(\(x,i).(2 * (~1 + (54 * loop(\(x,i).x2,1,(9x + 4))))),1,0)))))
1: ((x + 1) * (1 + ((x + 1) * (1 + loop(\(x,i).(x2 + ~2x),2,8)))))
1: ((x + 1) * (2 + ((x + 1) * (1 + loop(\(x,i).(x2 + ~2x),2,8)))))
1: ((x + 1) * (2 + ((x + 1) * (1 + loop(\(x,i).(x * (x - i)),2,6)))))
1: ((x + 1) * (2 + ((x + 1) * (1 + loop(\(x,i).(x * (x - i)),2,8)))))
1: ((x + 1) * (2 + ((x + 1) * (1 + loop(\(x,i).(4x2 + 4x),2,3)))))
1: ((x + 1) * (2 + ((x + 1) * (1 + loop(\(x,i).(4x * i),5,x)))))
1: ((x + 1) * (2 + ((x + 1) * (1 + loop(\(x,i).((2x + 1) * ((x2 + x) div 2)),2,2)))))
1: (2 * (2 + (5 * (1 + loop(\(x,i).2x,x,2)))))
1: (2 * (1 + (9 * (1 + loop(\(x,i).2x,x,4)))))
1: (2 * (1 + (2 * (2 + loop(\(x,i).2x,compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),1)))))
1: (2 * (1 + ((x + 1) * (2 + loop(\(x,i).x2,2,3)))))
1: ((x + 1) * (1 + (x * (1 + loop(\(x,i).x2,(~2x + 4),2)))))
1: (10x + 15)
1: ((2x + 3) * (if x <= 0 then 1 else 2x))
1: (2 * ((2x + 3) + i))
1: (x * ((3x + 3) + (x div 2)))
1: (3 * ((3x + 3) + (x div 4)))
1: ((x + 1) * ((3x + 3) + (if (x + ~2) <= 0 then 1 else 0)))
1: (x3 + 4x2 + 4x + 3)
1: (2x3 + 5x2 + 5x + 3)
1: (x4 + x3 + 3x2 + 2x + 2)
1: ((x2 + x + 1) * (2 + i))
1: (5x2 + 5x + 10)
1: (7x2 + 7x + 14)
1: (9x2 + 9x + 18)
1: ((x2 + x + 2) * (if x <= 0 then 1 else 2))
1: (x3 + 3x2 + 5x + 6)
1: (x4 + x3 + 3x2)
1: (2x2 + 2x + 10)
1: (2x2 + 2x + 16)
1: (3x2 + 3x + 24)
1: (((x2 + x) + (if x <= 0 then 1 else 2)) * (2 + (x div 2)))
1: (3 * ((2x + 4) + (x mod 2)))
1: (3x3 + 10x2 + 11x + 4)
1: (3x2 + 13x + 14)
1: (3x2 + 11x + 8)
1: (3x2 + 8x)
1: (2x2 + 6x + 6)
1: (x3 + 5x2 + 9x + 6)
1: (2x2 + 6x + 8)
1: (x3 + 3x2 + 4x)
1: (2x3 + 7x2 + 13x + 5)
1: (2x2 + 6x + 20)
1: (x3 + 8x2 + 21x + 20)
1: (2x3 + 9x2 + 14x + 5)
1: (x3 + 4x2 + 5x)
1: (2x2 + 8x + 12)
1: (x3 + 5x2 + 10x + 6)
1: (x3 + 4x2 + 7x)
1: (2x2 + 8x + 16)
1: (x4 + 6x3 + 17x2 + 20x + 8)
1: (x3 + 6x2 + 18x + 20)
1: (x4 + 6x3 + 5x2 + 6x + 4)
1: (x3 + 7x2 + 10x + 4)
1: (2 * ((x2 + 4x + 4) + (if (~x + 2) <= 0 then 2 else 1)))
1: (3x3 + 7x2 + 5x + 1)
1: (4x3 + 9x2 + 6x + 1)
1: (2x4 + 4x3 + 3x2 + 2x + 1)
1: ((x2 + 2x + 1) * (1 + (x div 2)))
1: ((x2 + 2x + 1) * (1 + (if x <= 0 then 2 else x)))
1: (5x2 + 10x + 10)
1: (2x3 + 5x2 + 6x + 2)
1: ((x2 + 2x + 2) * (x div ~2))
1: (x4 + 5x3 + 12x2 + 15x + 9)
1: (2 * ((x2 + 2x + 1) + (x div 2)))
1: (2x2 + 4x + 12)
1: (x3 + 2x2 + 6x)
1: (x4 + 4x3 + 14x2 + 20x + 16)
1: (2 * ((x2 + 2x) + (x mod 2)))
1: ((x + ~2) * ((x2 + 2x) + (x mod 2)))
1: (((x2 + 2x) + (x mod 2)) * ((x + 1) div 2))
1: (x * ((x2 + 2x) + (x mod 3)))
1: (3 * ((x2 + 2x) + (if x <= 0 then 1 else 2)))
1: (2 * (2 + (x * (1 + i))))
1: (x * (2 + ((1 + i) * i)))
1: (2 * (x + ((1 + i) * i)))
1: ((1 + (2 * (2 + i))) * (~1 + i))
1: ((1 + (2 * (2 + i))) * (x div 2))
1: (x * (x + (2 * (2 + i))))
1: (2x * ((2 * (2 + i)) + i))
1: (((2 * (2 + i)) + i) * i)
1: (x * (1 + (3 * (2 + i))))
1: (x * (2 + (3 * (2 + i))))
1: (x * (1 + (x * (2 + i))))
1: (3 * (2 + (x * (2 + i))))
1: (x * (2 + ((2 + i) * i)))
1: ((1 + (2 * (x + i))) * (1 + i))
1: (3 * (x + (2 * (x + i))))
1: (2 * (x + (4 * (x + i))))
1: (2 * (1 + ((x + 2) * (x + i))))
1: ((x + 1) * (1 + (x * (x + i))))
1: (2 * (x + ((x + i) * i)))
1: (2 * (1 + (2 * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))))
1: (2 * (1 + (3 * (1 + compr(\x.loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(3x + 1)),x)))))
1: (22x2 + 14x + 2)
1: ((2x + 1) * (2 + ((2x + 3) * (1 - (2 * (x mod 2))))))
1: (3 * (2 + ((x + 2) * (1 - (2 * (x mod 2))))))
1: (2 * (1 + (2 * (1 - (x mod ~7)))))
1: (x * (1 + (3 * (1 - (i mod 3)))))
1: (~4x2 + ~3x + 10)
1: (4x2 + ~9x + 5)
1: (~4x2 + 5x)
1: (x * (1 + ((x + 2) * (3 - (x div 2)))))
1: (28x + 10)
1: (4x4 + 3x3 + 2x2 + x)
1: (2 * (2 + (2 * (2 - (2 div (1 + (x div 4)))))))
1: (5 * (x + (2 * (2 - ((~2x + 1) div 5)))))
1: ((x + 1) * (1 + (2 * (2 - ((~x + 1) div 5)))))
1: (2 * (1 + (2 * (2 - ((x div 4) mod 2)))))
1: ((1 + (2 * (2 - (x mod 2)))) * (1 + (x div 2)))
1: ((x + 1) * (x + ((x + 2) * (2 - (x mod 2)))))
1: ((1 + (3 * (2 - (x mod 4)))) * (if x <= 0 then 1 else 2))
1: ((1 + (12 * (2 - (x mod 4)))) * (if x <= 0 then 1 else 2))
1: (2 * (1 + (2 * (2 - (x mod (1 + (2 * ((x + 5) div (6 * (1 + (x mod 2)))))))))))
1: (2 * ((~2x + 4) + (x div 2)))
1: (~2x2 + 4x + 2)
1: (4x2 + 28x + 70)
1: (2 * (2 + (x * ((x2 + ~1) + (x mod 2)))))
1: (2 * (1 + (x * ((x + ~1) + (x mod 2)))))
1: ((x + ~1) * (1 + (2 * ((2x + ~1) - (x div 3)))))
1: (x * (11x + (x div 7)))
1: (4x3 + 7x2 + 4x + 1)
1: (12x4 + 16x3 + 10x2 + 4x + 2)
1: (x5 + 6x4 + 9x3 + x2 + ~x + 2)
1: (15x3 + 30x2 + 12x + 6)
1: (343x + 273)
1: (16x3 + 39x2 + 32x + 9)
1: (16x2 + 30x + 18)
1: (12x3 + 56x2 + 79x + 30)
1: (4x3 + 15x2 + 20x + 9)
1: (31x2 + x)
1: (24x4 + 24x3 + 10x2 + 11x + 1)
1: (2 * (1 + (2 * (4x - ((x div 2) mod 2)))))
1: (4x4 + 4x3 + ~x2 + 1)
1: (2 * (1 + ((~1 + (2 * (x mod 4))) * (1 + (x mod 2)))))
1: (6x2 + ~3x + 3)
1: ((2x2 + ~x + 1) * (if (x mod 2) <= 0 then 1 else x))
1: (2 * (1 + (2 * (2x - ((2x + 1) div 7)))))
1: (2 * (1 + (2 * (2x - (2x div 7)))))
1: (2 * (1 + (2 * (2x - (x div 3)))))
1: (3 * ((x + 3) + (2 * (2x - ((x div 2) mod 2)))))
1: (2 * (1 + (2 * (2x - ((x div 4) mod 2)))))
1: (2 * (2 + (16 * (2x - (x mod 2)))))
1: (5 * (1 + (2 * (2x - (x mod 4)))))
1: (2 * (1 + (2 * (2x - (x mod 8)))))
1: (5x4 + ~4x2)
1: (6x2 + ~10)
1: (4x3 + ~7x)
1: (2 * (2 + (x * (~1 + (2 * i)))))
1: (3 * (1 + (3 * ((6x2 + ~6x) + ((x2 + x) div 2)))))
1: (2 * (1 + (2 * (~1 + ((3 * compr(\x.(1 - (x mod (2 + ((1 + ((x - ((x div 2) mod 2)) div 2)) mod 5)))),x)) div 2)))))
1: (3 * (1 + (2 * (~1 + ((3 * compr(\x.(1 - (x mod (2 + ((1 + ((x - ((x div 2) mod 2)) div 2)) mod 5)))),x)) div 2)))))
1: ((2x + ((~2 + (x div 2)) * (x div 2))) * (1 + (x div 2)))
1: ((x + 1) * (2 + ((~1 + (x div 4)) * (x div 2))))
1: (2 * (1 + (2 * (~2 + (x mod 2)))))
1: ((x + 1) * (2 + ((x + 1) * (~1 + loop(\(x,i).(2 + (x * (x + i))),2,8)))))
1: (2 * (1 + (2 * (~2 + loop(\(x,i).(2x + ((x + (x2 div 3)) div 2)),x,2)))))
1: (2 * (1 + (2 * (loop(\(x,i).2x,x,1) - ((1 + (x div (~2 + (x mod 2)))) mod 3)))))
1: ((x + 1) * (1 + (x * (~1 + loop(\(x,i).loop(\(x,i).(x * i),i,x),x,~x)))))
1: (3x2 + ~3x + 3)
1: ((x3 + ~x2 + x) * i)
1: (3x2 + ~3x + 6)
1: (x3 + 4x2 + ~3x + 10)
1: (x3 + ~x2 + 2x)
1: (2 * ((x2 + ~x) + (x mod 2)))
1: (2x2 + ~8x + 10)
1: (x3 + x2 + ~5x + 3)
1: (2x3 + ~3x2 + 2x + 2)
1: (x4 + ~2x3 + 3x2 + ~2x + 2)
1: (x3 + ~2x2 + 2x)
1: (2 * (1 + (2 * (0 - ((2 * (x + (if (x + ~4) <= 0 then 1 else x))) div (x + 2))))))
1: (19x3 + 30x2 + 12x + 1)
1: (7x3 + 12x2 + 6x + 1)
1: (2 * ((2 * ((x + 1) - (2 * (i mod 2)))) + (x div 2)))
1: ((x + 1) * (3 + (2 * ((x + 2) - ((~x + ((x div 2) mod 2)) div 2)))))
1: (6x3 + ~11x2 + 6x + ~1)
1: (18x2 + ~26x + 12)
1: (21x2 + ~17x)
1: (7x3 + ~6x2 + 2x)
1: (3 * (1 + ((x - (2 * ((x + (if (x mod 3) <= 0 then 1 else 2)) div 4))) * (x div 3))))
1: (2 * (1 + (2 * (x - (2 * ((x + 2) div ~7))))))
1: (2 * (1 + (3 * (x - (9 * ((~x2 + x) div 2))))))
1: (2 * (1 + (2 * (x - (2 * (x div ~3))))))
1: ((x + 1) * ((x + 2) + (2 * (x - (2 * ((x div 2) mod 2))))))
1: (2 * (1 + (2 * (x - (2 * (x mod ~3))))))
1: (2 * (1 + (x * (x - (2 * (x mod ~3))))))
1: ((x + ~1) * (1 + (2 * (x - ((~x + 1) div 3)))))
1: (2 * (1 + (2 * (x - ((~x + 2) div 4)))))
1: (2 * (2 + (3 * (x - ((~x + 2) div 4)))))
1: (2 * ((2 * (x - ((~1 + (2 * (x div 2))) div 5))) + (x div 2)))
1: (2 * (1 + (2 * (x - ((2x + ~1) div 7)))))
1: (2 * (1 + (2 * (x - ((~2x2 + 4x) div 5)))))
1: (3 * (x + (2 * (x - ((3 * (x div 4)) div 2)))))
1: (x * (1 + (2 * (x - (2x div (2 + (x mod (1 + (2 * (x mod (1 + (x div 8))))))))))))
1: (2 * (1 + (2 * (x - (((2 - (x div 2)) div 2) div 2)))))
1: (5 * (1 + (2 * (x - (((~x + 2) div 2) div 3)))))
1: (2 * (1 + (2 * (x - (((x - ((x2 + ~x) div 8)) div 2) div 2)))))
1: (2 * (1 + (2 * (x - ((((x * ((1 - (x div 2)) div 3)) div 2) div 2) div 2)))))
1: (5 * (1 + (2 * (x - ((x div 2) div ~2)))))
1: (2 * (1 + (2 * (x - ((x mod (2 + (6 mod (1 + (x div 2))))) div 2)))))
1: ((x + 2) * (2 + (x * (x - (x div 3)))))
1: ((x + 1) * (1 + (2 * (x - (x div (2 + (if (~2 + (x div 4)) <= 0 then 1 else 2)))))))
1: (5 * (1 + (2 * (x - (x div ~2)))))
1: ((x + 2) * (1 + (2 * (x - (x div ~2)))))
1: ((1 + (2 * (x - (x div ~2)))) * ((x + 1) div 2))
1: (2 * (1 + (x * (x - (x div ~2)))))
1: (2 * (x + (2 * (x - (x div ~4)))))
1: (2 * (1 + (3 * (x - (x div ~4)))))
1: (2 * (1 + (2 * (x - (x div ~5)))))
1: (5 * (1 + (2 * (x - (x div ~9)))))
1: (2 * (2 + (5 * (x - (x div ~9)))))
1: (2 * (1 + (2 * (x - ((x + 1) mod ~9)))))
1: ((x + 1) * (1 + (2 * (x - (x mod 10)))))
1: (x * (1 + ((x - (x mod 10)) * (x mod 10))))
1: (2 * (1 + (2 * (x - (i mod 2)))))
1: (3 * (1 + (3 * (x - loop(\(x,i).(x div (1 + (x mod 2))),x,x)))))
1: (2 * (1 + (2 * (x - i))))
1: (5 * (1 + (2 * (x - i))))
1: (5 * (2 + (x * (x - i))))
1: (2 * (1 + (x * (~1 + i))))
1: ((1 + (x * (~1 + i))) * (1 + i))
1: ((2 + ((~1 + i) * i)) * i)
1: ((2 + ((~2 + i) * i)) * i)
1: (19 * (2 - ((if x <= 0 then 1 else x) mod 2)))
1: (19 * loop(\(x,i).(2x + 2),x,1))
1: (x * (1 + ((6 * (~1 + i)) + i)))
1: (2 * (2 + (6 * (x div 3))))
1: (171x + 19)
1: (18x2 + 11x + 1)
1: (9x2 + 10x + 1)
1: (27x + 6)
1: (45x + 10)
1: (36x2 + 17x + 2)
1: (9x2 + 11x + 2)
1: (15x2 + 31x + 2)
1: (15x2 + x)
1: (30x + 4)
1: (x * (1 + (9 * i)))
1: (x * (2 + (9 * i)))
1: (x * (1 + (15 * i)))
1: (2 * (x + (3 * (i * (1 + i)))))
1: (17 * (1 + (x div 2)))
1: (17 * (2 - ((if x <= 0 then 1 else x) mod 2)))
1: (~17x + ~17)
1: (17 * (x2 div 4))
1: (17 * (x div 2))
1: (17 * (x mod 7))
1: (x3 + 3x2 + 18x + 16)
1: (2x2 + 32)
1: (2 * (16 + loop(\(x,i).2x,x,1)))
1: (3x2 + 49x + 16)
1: (2x2 + 33x + 16)
1: (2 * (24 + (x div 2)))
1: (5x + 120)
1: (x2 + 26x + 48)
1: (x2 + 24x)
1: (41x2 + 82x + 41)
1: (82x + 41)
1: (41 * (x div 8))
1: (3 * ((16x + 8) + (x div 2)))
1: (16x + 18)
1: (16x2 + 42x + 27)
1: (8x2 + 17x + 9)
1: (2 * ((8x + 8) + (if x <= 0 then 1 else 2)))
1: (81x2 + 81x + 8)
1: (9x2 + 26x + 16)
1: (36x2 + 68x + 32)
1: (x * (1 + (8 * (1 + i))))
1: (x * ((8 * (1 + i)) + i))
1: (16x + ~44)
1: (37x2 + 74x + 37)
1: (74x + 37)
1: (37 * (1 + (x div 2)))
1: (~37x + ~37)
1: (37 * loop(\(x,i).3x,3x,1))
1: (2x2 + 72)
1: (26x + 24)
1: (36x2 + 73x + 37)
1: (8x2 + 16x + 10)
1: (x2 + 20x)
1: (50x + 52)
1: (25x2 + 51x + 26)
1: (25x2 + 52x + 27)
1: (30x + 3)
1: (70x + 7)
1: (90x + 9)
1: (20x2 + 12x + 1)
1: (10x2 + 11x + 1)
1: ((10x + 1) * (x div 2))
1: (50x + 2)
1: (75x + 3)
1: (25x2 + x)
1: (45x2 + 47x + 2)
1: (2 * (1 + (6 * (5 + loop(\(x,i).2x,x,1)))))
1: (10x + 48)
1: (3 * (1 + (4 * ((x + 1) + (x div 4)))))
1: (2 * (1 + ((2x + ~2) * ((x + 2) + (loop(\(x,i).2x,x,1) mod 9)))))
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1: (14x + 48)
1: (11x2 + 52x + 41)
1: (4x2 + 20x + 18)
1: (2x3 + 12x2 + 19x + 9)
1: (2x3 + 14x2 + 29x + 18)
1: (2x3 + 10x2 + 9x)
1: (10x2 + 85x + 160)
1: (x4 + 8x3 + 21x2 + 23x + 10)
1: (4x3 + 34x2 + 92x + 86)
1: (x4 + 8x3 + 21x2 + 24x + 10)
1: (5x3 + 25x2 + 21x + 1)
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1: ((12x + 9) * ((x + 1) div 2))
1: (26x + 16)
1: (13x2 + 8x)
1: (84x + 60)
1: (108x2 + 112x + 24)
1: (6x3 + 28x2 + 41x + 18)
1: (2 * (1 + ((15x + 10) * (if x <= 0 then 1 else 2))))
1: (6x3 + 4x2 + x)
1: (3x4 + 2x3 + x)
1: ((13x2 + 1) * (if x <= 0 then 1 else 2))
1: (8x3 + 42x2 + 73x + 42)
1: (21x2 + 58x + 32)
1: (10x3 + 48x2 + 73x + 34)
1: (2x4 + 18x3 + 58x2 + 81x + 42)
1: (4x3 + 18x2 + 27x + 13)
1: (8x3 + 12x2 + 14x + 5)
1: (4x3 + 8x2 + 9x + 5)
1: (8x2 + 18x + 16)
1: (9x3 + 18x2 + 19x)
1: (4x3 + 13x2 + 21x + 12)
1: (2 * ((4 * (1 + (2 * (x - (x div ~2))))) + (x div 2)))
1: (33x + 480)
1: (16x2 + 56x + 34)
1: (32x + 10)
1: (16x2 + 5x)
1: (17x2 + 38x + 8)
1: (17x2 + ~13x + ~4)
1: (100x2 + 49x + 6)
1: (64x3 + 24x2 + 3x)
1: (16x3 + 12x2 + 4x + 1)
1: (x8 + x4 + 2x2 + 4x)
1: (x7 + x3 + 2x)
1: (8x4 + 2x + 16)
1: (x7 + x4 + x)
1: (x6 + x3 + x)
1: (16x + 10)
1: (64x2 + 112x + 45)
1: (16x2 + 18x + 5)
1: (8x2 + 13x + 5)
1: (2 * ((8x + 4) + (x mod 5)))
1: (18x + 8)
1: (36x2 + 52x + 16)
1: (27x2 + 39x + 12)
1: (9x3 + 4x2)
1: (24x + 14)
1: (2 * ((12x + 6) + (x mod 2)))
1: (54x2 + 82x + 28)
1: (6x3 + 21x2 + 23x + 8)
1: (16x3 + 12x2 + 6x + 1)
1: (4x3 + 2x2 + x)
1: (6x3 + 3x2 + x)
1: (4x3 + 5x)
1: (10x3 + 10x + 2)
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1: (8x2 + 12x + 6)
1: (4x3 + 14x2 + 15x + 6)
1: (4x3 + 6x2 + 3x)
1: (4x2 + 8x + 6)
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1: (9x2 + 19x + 10)
1: (6x3 + 15x2 + 11x + 3)
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1: (6x4 + 12x3 + 11x2 + 5x + 1)
1: (6x2 + 6x + 4)
1: (9x2 + 9x + 6)
1: (15x2 + 15x + 10)
1: (3x3 + 9x2 + 8x + 4)
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1: (4x2 + 17x + 18)
1: (5x3 + 18x2 + 31x + 24)
1: (12x + 28)
1: (14x2 + 45x + 36)
1: (7x2 + 19x + 12)
1: (11x2 + 31x + 20)
1: (4x2 + 20x + 26)
1: (2x3 + 14x2 + 33x + 26)
1: (4x3 + 18x2 + 25x + 10)
1: (4x2 + 14x + 8)
1: (3x3 + 12x2 + 17x + 8)
1: (2x3 + 15x2 + 35x + 24)
1: (2x3 + 11x2 + 17x + 8)
1: (6x2 + 24x + 26)
1: (x4 + 9x3 + 31x2 + 46x + 24)
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1: (2x3 + 4x2 + x)
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1: (3x3 + 6x2 + 2x)
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1: (5x3 + 20x2 + 22x + 4)
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1: (x * ((6 * (1 + i)) + i))
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1: (x * (1 + (9 * (1 + i))))
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1: (x * ((4 * (2 + i)) + i))
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1: (3 * (1 + (6 * (2 - (2 div (~8 + (x div 2)))))))
1: ((11x2 + 1) * (if x <= 0 then 1 else 2))
1: ((11x2 + 1) * (if x <= 0 then 1 else x))
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1: (x5 + 5x4 + 5x3 + ~5x2 + ~5x + 2)
1: (2 * (1 + (4 * (loop(\(x,i).3x,x,2) - loop(\(x,i).2x,x,2)))))
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1: (2 * (1 + (6 * (x - (x div 8)))))
1: (27x2 + x)
1: (x * (2 + (9 * (i * (1 + i)))))
1: (66x + 33)
1: (2x + 64)
1: (3x + 96)
1: (49x + 98)
1: (2x + 96)
1: (16x2 + 33x + 17)
1: (34x + 32)
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1: (x3 + 72x)
1: (24x2 + 73x + 50)
1: (50x + 48)
1: (25x2 + 49x + 24)
1: (16x3 + 24x2 + 9x)
1: (8x3 + 24x2 + 25x + 9)
1: (26x + 72)
1: (122x + 80)
1: (12x3 + 33x2 + 29x + 8)
1: (30x4 + 120x3 + 210x2 + 180x + 62)
1: (x9 + x8 + x7 + x6 + x5 + x4 + x3 + x2 + x + 1)
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1: (50x3 + 75x2 + 27x + 1)
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1: (8x2 + 25x + 17)
1: (8x2 + 17x)
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1: (8x3 + 28x2 + 30x + 9)
1: (6x3 + 24x2 + 31x + 13)
1: (8x3 + 28x2 + 26x)
1: (24x2 + 48x + 2)
1: (65x2 + 130x + 65)
1: (98x + 96)
1: (49x2 + 97x + 48)
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1: (8x3 + 32x2 + 41x + 17)
1: (2 * (1 + (16 * (~1 + loop(\(x,i).(2 * (x + i)),x,2)))))
1: (64x2 + 129x + 65)
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1: (32x3 + 48x2 + 18x + 1)
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1: (2 * (1 + (16 * loop(\(x,i).(2x + ~1),x,12))))
1: (48x + 3)
1: (16x2 + x)
1: (16x2 + 16x + 2)
1: (16x3 + 24x2 + 10x + 1)
1: (40x3 + 60x2 + 22x + 1)
1: (60x3 + 90x2 + 32x + 1)
1: (120x3 + 60x2 + 2x + 1)
1: (9x6 + 2x)
1: (4x7 + 6x6 + 2x5 + 2x + 2)
1: (2 * (x + (8 * ((2x mod (1 + (x div 4))) mod 2))))
1: (3 * (1 + (8 * (x mod 2))))
1: ((1 + (8 * (x mod 2))) * (1 + i))
1: (8x3 + 17x2 + 10x + 1)
1: (136x + 17)
1: (32x2 + 12x + 1)
1: ((8x + 1) * (1 + (x mod 2)))
1: (x * (8x + i))
1: (24x2 + 14x + 1)
1: (12x2 + x)
1: (2 * (12x + (x mod 2)))
1: (20x2 + x)
1: (100x + 10)
1: (16x3 + 20x2 + 8x + 1)
1: (18x3 + 37x2 + 20x + 1)
1: (48x3 + 36x2 + 8x + 1)
1: (12x2 + 12x + 2)
1: (12x3 + 18x2 + 8x + 1)
1: (20x3 + 30x2 + 12x + 1)
1: (12x2 + 2)
1: (30x2 + 2)
1: (16x2 + 2)
1: (8x4 + 9x2 + 1)
1: (2 * (8x2 + (x mod 3)))
1: (40x2 + 2)
1: (2x4 + 4x3 + x)
1: (3 * (1 + ((x3 + ~x2) * (~1 + (x div 2)))))
1: (4x5 + x)
1: (x7 + 7x)
1: (x7 + 6x)
1: (5x4 + x2)
1: (x5 + 6x4 + 8x3 + 2x + 4)
1: (2x5 + ~x4 + x2)
1: ((x5 + 1) * loop(\(x,i).x3,2,x))
1: ((x5 + 1) * loop(\(x,i).x2,2,x2))
1: (x6 + 6x)
1: (2 * (1 + (8 * i)))
1: (2 * (x + (12 * i)))
1: (x * (1 + (4 * (i * i * i * i))))
1: (x * (1 + (i * i * i * i * i)))
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1: (x * (1 + (4 * (x2 div 2))))
1: (2 * (1 + (2x * (x2 div 3))))
1: (2 * (1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (2 * ((x div 2) mod 2))) * (x div 4))))
1: ((1 + (4 * (x div 2))) * (1 + i))
1: ((2 + ((x2 + ~x) * (x div 2))) * ((x + 1) div 2))
1: (x * (1 + (4 * (i div 2))))
1: ((1 + (4 * ((~x + 2) mod 4))) * (if x <= 0 then 1 else 2))
1: ((1 + (6 * ((~x + 2) mod 4))) * (if x <= 0 then 1 else 2))
1: ((1 + (10 * ((~x + 2) mod 4))) * (if x <= 0 then 1 else 2))
1: ((1 + (14 * ((~x + 2) mod 4))) * (if x <= 0 then 1 else 2))
1: ((x + 2) * ((4 * (x mod 2)) + (x div 2)))
1: (2 * ((4 * (x mod 2)) + (x mod 3)))
1: (2 * (x + (4 * (x mod 2))))
1: (x * (x + ((4x + 2) * (x mod 2))))
1: (x * (1 + (2x * (x mod 2))))
1: (x * (1 + (x3 * (x mod 2))))
1: (2 * (1 + (4 * (x mod 3))))
1: (2 * ((4 * (x mod 3)) + (x div 3)))
1: (2 * (1 + (4 * (x mod (2 + (x mod 2))))))
1: (x * (1 + (4 * (i mod 2))))
1: (2 * (1 + (6 * (if (~2 + (x div 2)) <= 0 then x else (x + 1)))))
1: ((1 + (4 * (if (~2 + (x div 3)) <= 0 then 0 else 2))) * (1 + (x div 2)))
1: (3 * (x + (4 * (if (~2 + (x div 4)) <= 0 then 0 else 2))))
1: (5 * (x + (4 * (if (~2 + (x div 4)) <= 0 then 0 else 2))))
1: (2 * (x + (4 * (if (x + ~1) <= 0 then 8 else x))))
1: ((x + 1) * (2 + (4 * (if (x + ~3) <= 0 then 1 else 6))))
1: (2 * (1 + (4 * (if (x mod 3) <= 0 then 0 else 2))))
1: ((1 + (4 * (if (x mod 4) <= 0 then 4 else 1))) * (if x <= 0 then 1 else 2))
1: ((x + 2) * (1 + ((x2 + 2x + 1) * loop(\(x,i).(x + 1),(if x <= 0 then 3 else x),3))))
1: ((x + 1) * (1 + (4 * loop(\(x,i).(2 * (2 + ((if x <= 0 then 2 else (~2 + loop(\(x,i).4x,(x + 1),2))) div 2))),x,2))))
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1: ((x + 1) * (2 + ((3x + 3) * loop(\(x,i).(3x2 + 12x + 12),2,1))))
1: (2 * (1 + (4 * loop(\(x,i).i,(~4 + (x div 2)),1))))
1: (4x2 + 17x + 4)
1: (28x + 7)
1: (x * ((4x + 2) + i))
1: (2 * (4x + (x mod 2)))
1: (x * (4x + (i mod 2)))
1: (4 * (4x + i))
1: (78x + 13)
1: ((6x + 1) * (2 + (if x <= 0 then 2 else 1)))
1: (6x2 + 13x + 2)
1: ((6x + 1) * (x div 2))
1: (6x2 + 8x + 2)
1: (6x2 + 14x + 4)
1: (2 * (6x + (x mod 2)))
1: (2 * (6x + (i mod 2)))
1: (2 * (6x + loop(\(x,i).2x,i,1)))
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1: (2x4 + 2x3 + 3x2 + 2x + 1)
1: (2x3 + 2x2 + x)
1: (2x3 + 4x2 + x + 2)
1: ((2x2 + 1) * (2 + i))
1: (2x3 + ~2x2 + x + ~1)
1: (2x4 + 4x3 + x2 + 2x)
1: (2 * (2x2 + (i mod 2)))
1: (x * (2x2 + i))
1: (3x4 + 4x2 + 1)
1: (3x3 + 6x2 + x + 2)
1: ((3x2 + 1) * (if (~x + 2) <= 0 then 2 else 1))
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1: (2 * ((3x2 + 1) + i))
1: (3 * (3x2 + (if (x + ~1) <= 0 then 1 else 0)))
1: (12x2 + 4x)
1: (18x3 + 6x2)
1: (3x4 + x3)
1: (2 * (4x2 + i))
1: (x4 + x3 + x)
1: (x4 + 2x3 + 2x)
1: (x * (1 + (x2 * (1 + i))))
1: (x4 + ~x3 + x)
1: (x4 + ~2x3 + x)
1: (4x3 + 2)
1: (x5 + ~x4 + x + ~1)
1: (2x4 + 4)
1: (x6 + 2x2)
1: (x5 + 2x)
1: (x5 + 5x)
1: (2x3 + 2)
1: (x4 + x3 + x + 1)
1: (2x4 + ~x3 + 2x + ~1)
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1: (2 * (x + (3x * i)))
1: (x * (2 + ((x2 + x) * i)))
1: (2 * (1 + (x2 * i)))
1: (2 * (2 + (x2 * i)))
1: (x * (1 + (2 * (i * i))))
1: (x * (1 + (3 * (i * i))))
1: (x * (1 + (4 * (i * i))))
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1: (x * (2 + (x * (i * i))))
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1: ((x + (i * i * i)) * i)
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1: (3 * (1 + (2 * (((x + 1) + (x div 4)) div 2))))
1: (3 * (x + (2 * ((1 + (x div 2) - ((x div 4) mod 2)) div 2))))
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1: (2 * (1 + (((x2 + 2) div (x + 2)) * (if x <= 0 then 1 else 2))))
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1: (2 * (1 + (2 * ((1 + ((x2 + x) div 4)) div 2))))
1: (2 * (x + (2 * ((1 + ((x2 + 2x) div 4)) div 5))))
1: (2 * (1 + (2 * ((1 + (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * ((~x + 2) div 2)) div 2)) div 2))))
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1: (3 * (1 + (2 * ((1 + (x div 2)) div 2))))
1: (2 * (1 + (2 * ((x + (x div 2)) div 2))))
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1: ((x + 1) * (1 + (x * ((x + 1) div 2))))
1: (2 * (x + (2 * ((x + 1) div 5))))
1: ((x + 1) * (1 + (2 * ((x + 1) div (3 - (x mod 2))))))
1: ((x + 1) * (1 + (2 * ((x + 1) div 7))))
1: (2 * (x + (2 * ((x + 1) div (8 - ((x + 2) div 3))))))
1: (3 * (x + (2 * ((x + 1) div (8 - ((x + 2) div 3))))))
1: (2 * (1 + (2 * ((x + 2) div 3))))
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1: ((x + 1) * (1 + (((x + 2) div 3) * ((x + ~1) div 2))))
1: (x * (2 + (x * ((~1 + (loop(\(x,i).(x + loop(\(x,i).(x * i),(x + ~2),1)),x,0) div 2)) div 2))))
1: ((2x + 1) * (1 + (2 * ((~1 + loop(\(x,i).(24x + 1),2,x2)) div (x + 1)))))
1: (x * (2 + (x * ((~1 + loop(\(x,i).2x,1,loop(\(x,i).(x * i),(x + ~1),1))) div (x + 1)))))
1: ((1 + (2 * ((x + ~1) div 3))) * (x div 3))
1: (2 * (x + (2 * ((x - (x div ~7)) div 2))))
1: (2 * (x + (2 * ((x - (x div ~3)) div 3))))
1: (3 * (x + (2 * ((x - (x div ~4)) div 2))))
1: ((x + 2) * (1 + (5 * ((3x2 + 5x + 2) div 2))))
1: ((x + 1) * (1 + (3 * ((7x2 + 3x) div 2))))
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1: ((x + 1) * (1 + ((x + 1) * loop(\(x,i).((x + 2) * (x + i)),2,2))))
1: ((x + 1) * (2 + ((x + 1) * loop(\(x,i).((x + 2) * (x + i)),2,2))))
1: ((x + 1) * (1 + ((x + 1) * loop(\(x,i).((x + 2) * (x + i)),2,3))))
1: ((x + 1) * (2 + ((x + 1) * loop(\(x,i).((x + 2) * (x + i)),2,3))))
1: ((x + 1) * (1 + ((x + 1) * loop(\(x,i).((x + 2) * (x + i)),2,5))))
1: (2 * (x + ((x + 1) * loop(\(x,i).(x * (x + i)),2,4))))
1: (2 * (1 + (2 * loop(\(x,i).(2x + ~44),x,1))))
1: ((x + 1) * (1 + (x * loop(\(x,i).(x2 + ~2x),1,loop(\(x,i).2x,x,2)))))
1: ((x + 1) * (1 + ((x + 1) * loop(\(x,i).(~2x3 + x2),2,2))))
1: ((x + 1) * (1 + (2 * loop(\(x,i).(12x + 8),2,3))))
1: ((x + 1) * (2 + ((x + 1) * loop(\(x,i).(4x3 + 4x2 + x),2,1))))
1: ((x + 1) * (1 + ((x + 1) * loop(\(x,i).(x3 + 4x2 + 4x),2,1))))
1: ((x + 1) * (2 + ((x + 1) * loop(\(x,i).(x3 + 4x2 + 4x),2,1))))
1: ((x + 1) * (2 + ((x + 1) * loop(\(x,i).(x4 + 4x3 + 4x2),2,1))))
1: (x * (1 + (2 * loop(\(x,i).x5,1,loop(\(x,i).(14x + 1),(x + 2),1)))))
1: ((x + 1) * (1 + ((x + 1) * loop(\(x,i).4x2,2,2))))
1: ((1 + (x * loop(\(x,i).x3,2,x))) * loop(\(x,i).x3,2,x))
1: (x * (1 + (x * loop(\(x,i).x3,2,x))))
1: (2 * ((x + 1) + (2 * loop(\(x,i).x3,x2,2))))
1: (x * (1 + (3 * loop(\(x,i).(2 * (loop(\(x,i).(32x + 1),(x + 1),1) div 2)),1,1))))
1: (x * (x + (2 * loop(\(x,i).2x,(x + ~2),loop(\(x,i).(2x * i),x,2)))))
1: (2 * (2 + (3 * loop(\(x,i).2x,x,2))))
1: (2 * (1 + (3 * loop(\(x,i).x2,1,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))))
1: (2 * (1 + ((x + 1) * loop(\(x,i).x2,2,3))))
1: ((x + 1) * (2 + ((x + 1) * loop(\(x,i).x2,2,3))))
1: ((x + 1) * (1 + ((x + 1) * loop(\(x,i).x2,2,4))))
1: ((x + 1) * (2 + ((x + 1) * loop(\(x,i).x2,2,4))))
1: ((x + 1) * (1 + ((x + 1) * loop(\(x,i).x2,2,5))))
1: ((x + 1) * (2 + ((x + 1) * loop(\(x,i).x2,2,5))))
1: ((x + 1) * (1 + ((x + 1) * loop(\(x,i).x2,2,7))))
1: ((x + 1) * (2 + ((x + 1) * loop(\(x,i).x2,2,7))))
1: ((x + 1) * (1 + ((x + 1) * loop(\(x,i).x2,2,6))))
1: ((x + 1) * (2 + ((x + 1) * loop(\(x,i).x2,3,3))))
1: (2 * (1 + (x * loop(\(x,i).x2,(x2 + ~2),2))))
1: (2 * (1 + (2 * loop(\(x,i).(if x <= 0 then 1 else (2x * ((x + ~1) + (3 * (1 + loop(\(x,i).loop(\(x,i).5x,x,1),(i - (x mod 3)),loop(\(x,i).5x,x,1))))))),x,0))))
1: ((x + 1) * (2 + ((x + 1) * loop(\(x,i).loop(\(x,i).x2,1,(3x + 2)),2,1))))
1: (2 * (1 + (3 * loop(\(x,i).loop(\(x,i).x2,x,2),x,(~x + 1)))))
1: (2 * (1 + (2 * loop(\(x,i).i,((x div 2) div (1 + (x mod (1 + (x mod (3 + (x mod 2))))))),1))))
1: ((2x + 1) * (1 + i))
1: ((2x + 1) * (2 + i))
1: (~2x2 + 3x + 2)
1: (5x2 + 5)
1: (x3 + 3x2 + x + 3)
1: ((x2 + 1) * (x div 2))
1: (x4 + 4x2 + 4)
1: (x3 + 2x2 + 2x + 4)
1: ((x2 + 2) * (~1 + i))
1: (3x2 + 9)
1: (7x2 + 28)
1: (x3 + 2x2 + 4x + 8)
1: (x * ((x2 + 1) + i))
1: ((x + 1) * (x2 + (x mod 2)))
1: (2 * (x2 + i))
1: (3 * (1 + (2 * i)))
1: (2 * (1 + (x * i)))
1: ((x + 1) * (1 + (x * i)))
1: (2x * (1 + (x * i)))
1: ((1 + (x * i)) * (i div 2))
1: (2 * ((x * i) + (i div 2)))
1: (x * (1 + (i * i)))
1: (2 * (2 + (i * i)))
1: ((2 + (i * i)) * (1 + i))
1: (x * ((x + ~1) + (i * i)))
1: (((x + ~2) + (i * i)) * (1 + i))
1: (x * ((i * i) + (x div 2)))
1: (3 * (x + (i * i)))
1: ((x + 1) * (x + (i * i)))
1: (5 * (1 + (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(5x + 2))),x))))
1: (2 * (1 + (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(9x + 1))),x))))
1: (2 * (1 + (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(8x + 1))),x))))
1: (2 * (1 + (4 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(4x + 1))),x))))
1: (2 * (1 + (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(6x + 1))),x))))
1: (2 * (1 + (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(6x + 2))),x))))
1: (2 * (1 + (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(6x + 4))),x))))
1: (2 * (1 + (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(8x + 4))),x))))
1: (2 * (1 + (4 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,8x)),x))))
1: (5 * (1 + (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,10x)),x))))
1: (2 * (1 + (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,8x)),x))))
1: (2 * (1 + (4 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,8x)),x))))
1: (2 * (1 + (2 * compr(\x.(1 - (2x mod (1 + (x div 4)))),x))))
1: (2 * (1 + (4 * compr(\x.(1 - loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,8x)),x))))
1: (2 * (1 + (3 * compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(3x + 1))),x))))
1: (2 * (1 + (2 * compr(\x.loop(\(x,i).(2 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(4x + ~1))),1,(2x + 1)),x))))
1: (3 * (2 + (3 * compr(\x.loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,2x),x))))
1: (2 * (1 + (3 * compr(\x.loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,x),x))))
1: (2 * (1 + (4 * compr(\x.loop(\(x,i).(x div (2 - ((x * (x div 2)) mod 2))),x,x),x))))
1: (2 * (1 + (2 * compr(\x.loop(\(x,i).(if ((x + 1) mod (1 + i)) <= 0 then 0 else x),x,4x),x))))
1: ((2x + 1) * (1 + (2 * compr(\x.loop(\(x,i).(if ((x + 1) mod (1 + i)) <= 0 then 0 else x),x,2x),x))))
1: (2 * (1 + (2 * compr(\x.loop(\(x,i).loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,0),2,x),(x + 1)))))
1: (2 * (1 + (2 * compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(10x + 4)),x))))
1: (2 * (1 + (2 * compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(8x + 2)),x))))
1: (3 * (1 + (2 div (1 + ((x + 2) mod 10)))))
1: (2 * (1 + (2 div (1 + (x mod (2 + (x mod 4)))))))
1: (2 * ((x + 1) + (2 div (~x + 16))))
1: (2 * ((2x + 4) + (2 div (if x <= 0 then 1 else x))))
1: (2 * (2 + (4 div (1 + (4 div (x + 1))))))
1: (2 * (x + (((2x + 1) + (2 * (x + ((x4 + 2x3 + 2x2) div (x + 1))))) div 3)))
1: (2 * (2 + (((x + 2) + (((x + ((x div 2) div 7)) mod 4) + (x div 2))) div 2)))
1: (2 * (2 + (((x + 3) + (if (x + ~1) <= 0 then 1 else (((1 + (8 mod (1 + (x div 2)))) div 2) - (x mod 2)))) div 2)))
1: (2 * (x + (((3x + 1) + (if x <= 0 then 1 else (x + ((x + 1) div 2) - (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))))) div 2)))
1: (2 * (x + (((x + 1) + (2 * (2x - (((x + 1) + (x mod 2)) div 5)))) div 3)))
1: (2 * (x + (((x + 1) + (2 * (((x + 1) + (x mod 2)) div 5))) div 3)))
1: (2 * (2x + (((x + 1) + (2 * ((1 + (if (~2 + (x div 2)) <= 0 then x else (x + 4))) div 3))) div 3)))
1: (2 * (2x + (((x + 1) + (2 * ((x - (x div 12)) div 2))) div 3)))
1: (2 * (1 + (((x + 1) + (((x + 1) + (((1 + ((1 + ((x * (1 + (loop(\(x,i).3x,(x div 2),1) div 2))) div 2)) div 2)) div 2) div 2)) div 2)) div 2)))
1: (2 * (x + (((x + 1) + (((x + 1) + (((3 * ((2x + 1) - (x mod 5))) div 2) div 2)) div 2)) div 2)))
1: ((x + 1) * (1 + (((x + 1) + (((x + 1) + loop(\(x,i).(if x <= 0 then 1 else (2 * (x - ((3 * (x div 4)) div 2)))),x,0)) div 2)) div 2)))
1: (2 * (x + (((x + 1) + ((3 * ((x + 1) - loop(\(x,i).(x + (if (~2 + (x div 4)) <= 0 then 1 else 2)),2,x))) div 2)) div 2)))
1: (2 * (x + (((x + 2) + (((((x + ~1) * (x + (x div 5))) div 2) div 2) div 2)) div 2)))
1: (2 * (1 + ((1 + (((loop(\(x,i).(x + (if x <= 0 then 1 else ((x * (x mod 2)) + (x div 2)))),x,1) div 2) div 2) + (x mod 2))) div 2)))
1: (2 * (1 + (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) + (if (x + ~2) <= 0 then 1 else 2) + (x div 5)) div 2)))
1: (3 * ((4x + 4) + (((x + 1) + (x div 2)) div 2)))
1: ((x + 1) * (1 + (((x + 1) + (x div 4)) div 2)))
1: (2 * (2 + (((x + 1) + (x div 4)) div 2)))
1: ((x + 1) * (2 + (((x + 1) + (x div 4)) div 2)))
1: (5 * ((2x + 2) + (((x + 1) + (x div 4)) div 2)))
1: (2 * (1 + ((1 + ((x div (1 + (x mod 4))) + (x mod 2))) div 2)))
1: (2 * ((2x + 2) + (((x + 1) + (x div 8)) div 2)))
1: (2 * ((((x + 2) + ((2 * (2 - ((x div 4) mod 2))) mod (x + 1))) div 2) + (x div 4)))
1: (3 * (1 + (((x + 1) + ((x div 3) mod 3)) div 3)))
1: (2 * (2 + (((x + 1) + ((x mod (1 + (2 * (16 mod (x + 1))))) mod 2)) div 2)))
1: (2 * (1 + (((x + 1) + (x mod (2 + (x mod 2)))) div 2)))
1: ((x + 1) * (1 + ((x + 3) div 7)))
1: (2 * (x + (((x + 1) - ((((x + 1) + ((2x + ~1) mod 7)) div 2) div 2)) div 2)))
1: (2 * (1 + ((4 + ((x + (((x div 2) * (x div 2)) div 2)) div 2) - ((x mod 2) + (x div 2))) div 2)))
1: (2 * (1 + ((2 + ((2 * (1 + ((2 + ((2 * (1 + ((2 + ((2 * (1 + ((1 + (x2 div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))) div 2))) div 3) - (x mod 2)) div 2))) div 3) - (x mod 2)) div 2))) div 3) - (x mod 2)) div 2)))
1: (2 * (1 + ((2 + ((2 * (1 + ((2 + ((2 * (1 + ((1 + (x2 div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))) div 2))) div 3) - (x mod 2)) div 2))) div 3) - (x mod 2)) div 2)))
1: (2 * (1 + ((2 + ((2 * (1 + ((1 + ((2 + (loop(\(x,i).(x - (x div (~2 + (x mod ~2)))),x,1) div 2)) div 3)) div 2))) div 3) - (x mod 2)) div 2)))
1: (2 * (1 + ((2 + ((2 * (1 + ((1 + (x2 div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))) div 2))) div 3) - (x mod 2)) div 2)))
1: (2 * (1 + ((2 + ((2 * (1 + ((1 + ((((x + 1) * (1 + (2x mod (1 + (x div 2))))) div 2) div 2)) div 2))) div 3) - (x mod 2)) div 2)))
1: (2 * (1 + ((2 + ((2 * (1 + ((2 * (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + ((1 + (x div 2)) div 2))))) div 3))) div 3) - (x mod 2)) div 2)))
1: (2 * (1 + ((2 + ((2 * ((3 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 2)) div 3) - (x mod 2)) div 2)))
1: (2 * (1 + ((0 + (2 * (1 + (x mod (2 + (x div (2 + (if ((x + 1) mod 5) <= 0 then 0 else 2))) - (x mod 2))))) - (x mod 2)) div 2)))
1: (2 * (1 + (((2x + 1) - (x div 4)) div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))))
1: (2 * (x + ((x + (x div 5) - ((x div 2) div 3)) div 2)))
1: ((1 + (7 div (x + 1))) * (1 + (x div 5)))
1: (2 * (x + ((x + (3 * ((5x + 4) + (x div 4)))) div (x + 1))))
1: (2 * (1 + ((x + (2 * (4 - ((~x + 1) div (2 + (x div 4)))))) div 3)))
1: (2 * ((2x + 2) + ((1 + (2 * (2 + (2 * (x - (((x div 2) - ((~1 + (x div 4)) div 2)) mod 2))) - (x mod 2)))) div 3)))
1: (2 * (1 + ((4x3 + 6x2 + 5x + 1) div 5)))
1: (2 * (1 + ((2x2 + x + 1) div 7)))
1: (2 * (1 + (((2 * (2 + ((2x + 1) mod (1 + (2x mod (2 + (x div 4))))))) + (x mod 3)) div 3)))
1: (2 * (1 + ((x + (2 * (1 + (if (x + ~1) <= 0 then 0 else (1 + ((x mod (1 + ((1 + (x div 2)) div 2))) div 2)))))) div 3)))
1: (2 * (2 + ((x2 + 4x + 5) div 2)))
1: (2 * (1 + ((x2 + 2x + 2) div (~x + 25))))
1: (2 * (1 + ((x + (3 * (2 - ((~x + 2) div (2 - (x div ~4)))))) div 2)))
1: (2 * (x + ((x4 + 2x3 + 2x2) div (x + 1))))
1: ((x + 1) * (1 + ((x2 + ~2x + 1) div 5)))
1: (2 * (x + ((x + (4 * ((x + 1) + (5 * (x + (x mod 2)))))) div 2)))
1: (2 * (1 + ((1 + (4 * (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) + ((2x + 1) div (3 + (x div 4))))))) div 3)))
1: ((x + 1) * (1 + ((9x2 + 9x + 1) div (1 + (x mod 2)))))
1: (x * (1 + ((x3 + 1) div 2)))
1: (2 * (2x + ((1 + (2 * ((2x + 1) div 3))) div 3)))
1: (2 * (2 + ((1 + (5 * ((x + ((x div 2) mod 2)) div 2))) div 3)))
1: (2 * (1 + ((1 + (2 * ((x + 2) div ((2 + (x div 5)) * (1 + (x mod 2)))))) div 3)))
1: (2 * (1 + ((1 + (((x + ~2) div 3) * (x div 2))) div 2)))
1: (2 * (1 + ((1 + (5 * ((x2 + 3x) div 2))) div 2)))
1: (2 * (1 + ((1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (2 * (x mod (2 * (2 + (x div 5)))))))) div 2)))
1: (3 * (1 + ((1 + (5 * (loop(\(x,i).2x,loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1) div 2))) div 3)))
1: (2 * (1 + ((1 + (x * (x div 2))) div 3)))
1: (2 * (x + ((x + (2 * ((x2 div 8) mod 2))) div 2)))
1: ((1 + ((x + (2 * (x mod 2))) div 5)) * (x mod 2))
1: (2 * (x + ((1 + (2 * (if x <= 0 then 1 else (1 + compr(\x.(~1 + (x mod ((x + 1) - (loop(\(x,i).2x,x,1) mod (x + 1))))),(x + 1)))))) div 3)))
1: (2 * (2 + ((1 + (2 * (if x <= 0 then 1 else (2 * (2x - ((x div 2) mod 2)))))) div 3)))
1: ((x + 1) * (1 + ((x + ((x2 + x + 1) * loop(\(x,i).(1 + (x * i)),x,1))) div 2)))
1: (2 * (1 + ((1 + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (1 + ((x + 1) mod 4)))) div 2)))
1: (2 * (1 + ((1 + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * ((x + 1) div 2))) div 2)))
1: ((1 + ((2x + 1) div 5)) * (1 + (x div 2)))
1: (3 * (1 + ((2x + 1) div (3 + (x div 4)))))
1: ((x + 1) * (1 + ((2x + 1) div (3 + (x div 4)))))
1: (2 * (2 + ((2x + 1) div (3 + (x div 4)))))
1: (2 * ((2x + 2) + ((2x + 1) div (3 + (x div 4)))))
1: (2 * (6x + ((2x + 1) div 9)))
1: (2 * (1 + ((x2 + 2) div 3)))
1: (5 * (4 + ((x2 + 2) div 3)))
1: (2 * (1 + ((1 + (((2x + 1) + (compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x) + (2 * (x mod 2)))) div 2)) div 2)))
1: (2 * (x + ((x + (((2x + 1) + (((x + 1) + (4 * (2x - (2x div 7)))) div 3)) div 2)) div 2)))
1: (2 * (1 + ((1 + (((x + 2) + ((x + ((x + ((x + loop(\(x,i).2x,x,1)) div (x + 1))) div 2)) div 2)) div 3)) div 2)))
1: (2 * (1 + ((1 + ((x + loop(\(x,i).3x,x,3) - loop(\(x,i).2x,x,2)) div 2)) div 2)))
1: (2 * (x + ((x + (((loop(\(x,i).8x,x,1) + loop(\(x,i).2x,x,1)) - loop(\(x,i).(3x + 2),x,0)) div 2)) div 2)))
1: (2 * (1 + ((1 + ((1 + (((3 * (x div 4)) div 2) * (x div 2))) div 2)) div 2)))
1: (2 * (1 + ((1 + ((1 + ((x + ~1) * (x2 div 4))) div 5)) div 2)))
1: (2 * (1 + ((x + ((x + (2 * ((((x + 3) * ((x + 1) - ((~x + 1) div 3))) div 2) div 2))) div 2)) div 2)))
1: (2 * (1 + ((1 + ((1 + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (3 + (((x + 1) div 2) div 2)))) div 2)) div 2)))
1: (3 * (x + ((x + ((x2 + (x div 2)) div 3)) div 3)))
1: (2 * (1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + (loop(\(x,i).(2x + ~1),(x + ~1),loop(\(x,i).2x,x,1)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)))
1: (3 * (1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + (loop(\(x,i).(2 * (x + (i mod 2))),(x + ~2),1) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)))
1: (2 * (1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + loop(\(x,i).2x,(1 + (2 * (2x mod 5))),(x div 2))) div 3)) div 2)) div 2)) div 2)) div 2)) div 2)))
1: (2 * (1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((x * (1 + (2 * loop(\(x,i).(1 + (2 * (x mod (1 + i)))),x,1)))) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)))
1: (2 * (1 + ((1 + ((1 + ((1 + ((1 + ((1 + (((x + 1) * (1 + (((x2 + ~x) div 2) div 3))) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)))
1: (2 * (1 + ((1 + ((1 + ((1 + ((1 + ((1 + loop(\(x,i).(if (x + ~2) <= 0 then i else 2x),x,1)) div 2)) div 2)) div 2)) div 2)) div 2)))
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1: (2 * (1 + ((1 + ((1 + ((1 + ((1 + (((1 + ((x * (1 + ((x * (x div 2)) div 3))) div 2)) div 2) div 2)) div 2)) div 2)) div 2)) div 2)))
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1: (2 * (1 + ((1 + (((3 * (1 + (loop(\(x,i).3x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 3))) div 2) div 2)) div 2)))
1: (2 * (1 + ((1 + (((5 * (1 + (loop(\(x,i).(3x + 3),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2))) div 2) div 2)) div 2)))
1: (2 * (1 + ((1 + ((((x + 2) * (2 + (x div 4))) div 2) div 2)) div 2)))
1: (2 * (x + ((x + (((3 * (x + (x div 7))) div 2) div 2)) div 2)))
1: (2 * (1 + ((1 + ((((x + 1) * (1 + (2x mod (1 + (x div 2))))) div 2) div 2)) div 2)))
1: (2 * (1 + ((1 + ((((x + 1) * (1 + (if (x mod 5) <= 0 then 0 else 2))) div 2) div 2)) div 2)))
1: (2 * (1 + ((1 + ((((x + 1) * (1 - ((~x + 1) div (2 + ((x div 2) div 3))))) div 2) div 2)) div 2)))
1: (2 * (1 + ((x + (((2x3 + 5x2 + 2x) div 2) div 3)) div 2)))
1: (2 * (1 + ((1 + (((2x3 + 5x2 + ~3x) div 2) div 3)) div 2)))
1: (2 * (2 + ((1 + ((((x2 + 2x + 1) * loop(\(x,i).(5x + 8),x,1)) div 2) div 3)) div 3)))
1: (2 * (1 + ((1 + ((((x + 1) * ((1 + (x div 4)) div 2)) div 2) div 2)) div 2)))
1: (2 * (1 + ((1 + (((5 * (4x2 div (2 - (x mod 2)))) div 2) div 2)) div 2)))
1: (2 * (1 + ((1 + ((((x + 1) * (((~2x + 4) mod (2 + (x div 2))) div 2)) div 2) div 2)) div 2)))
1: (3 * (1 + ((x + ((x2 div 2) div 3)) div 2)))
1: ((1 + ((x + ((x2 div 2) div 3)) div 2)) * (x div 2))
1: (2 * (1 + ((1 + (((loop(\(x,i).11x,x,(1 + (x mod 2))) div 2) div 2) div 2)) div 2)))
1: (2 * (1 + ((1 + (((x3 mod (x - ((~x + 2) div 2))) div 2) div 2)) div 2)))
1: (2 * (1 + ((1 + ((loop(\(x,i).(20x + ~21),x,1) div 2) div 2)) div 2)))
1: (2 * (1 + ((1 + ((loop(\(x,i).((3x + 1) - (i mod 2)),x,1) div 2) div 2)) div 2)))
1: (2 * (1 + ((1 + ((loop(\(x,i).(x - (2 * (~x + (x div 3)))),x,1) div 2) div 2)) div 2)))
1: (2 * (1 + ((1 + ((loop(\(x,i).3x,(x div 2),1) div (if (x mod 3) <= 0 then 1 else 2)) div 2)) div 2)))
1: (2 * (1 + ((1 + ((loop(\(x,i).2x,x,(~x3 + loop(\(x,i).5x,(x + 1),1))) div 2) div 2)) div 2)))
1: (2 * (1 + ((1 + ((loop(\(x,i).(((x2 + x) div 2) div 3),2,(x + ~2)) div 2) div 2)) div 2)))
1: (2 * (1 + ((1 + ((loop(\(x,i).(x div (2 - (x mod 2))),x,(1 + ((x2 + x) div 2))) div 2) div 3)) div 2)))
1: (2 * (2 + ((x + ((x div 2) div 3)) div 2)))
1: (2 * (x + ((x + ((x div 2) div 3)) div 3)))
1: (2 * (1 + ((x + ((x div 2) div 5)) div 2)))
1: (2 * (x + ((x + ((x div 2) div 5)) div 2)))
1: (2 * (1 + ((1 + (((2 + loop(\(x,i).(3x + ~3),x,2)) mod (x + 1)) div 2)) div 2)))
1: (2 * (1 + ((1 + (((2 - (2x mod (4 + (x div 3)))) mod (2x + 5)) div 2)) div 2)))
1: (2 * (2 + (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) + (2 * ((2x + 1) div (3 + (x div 4))))) div 2)))
1: (2 * (1 + ((1 + (((2 - (2x mod (2 + (x div 2)))) mod (x + 1)) div 2)) div 2)))
1: (2 * (1 + ((1 + (((~1 + ((1 + ((32 mod (x + 1)) div 2)) div 2)) mod (x + 1)) div 2)) div 2)))
1: (2 * (1 + ((1 + (((~1 + loop(\(x,i).4x,(x div 2),2)) mod (x + 1)) div 2)) div 2)))
1: (2 * (1 + ((1 + (((~1 + loop(\(x,i).2x,2x,(1 + (x div (2 + (x mod 2)))))) mod (x + 1)) div 2)) div 2)))
1: (2 * (1 + ((1 + (((~1 + loop(\(x,i).2x,x,(1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))) mod (x + 1)) div 2)) div 2)))
1: (2 * (1 + ((1 + (((~1 + loop(\(x,i).2x,x,(1 + (x mod (1 + ((x + 1) mod 3)))))) mod (x + 1)) div 2)) div 2)))
1: (2 * (1 + ((1 + (((~1 + loop(\(x,i).2x,x,(1 + (if ((x mod 7) mod 3) <= 0 then 2 else 0)))) mod (x + 1)) div 2)) div 2)))
1: (2 * (1 + ((1 + (((~1 + loop(\(x,i).2x,x,(2 - ((x div 2) mod 2)))) mod (x + 1)) div 2)) div 2)))
1: (2 * (1 + ((1 + (((~1 + loop(\(x,i).2x,x,(if (x mod 2) <= 0 then 2 else 0))) mod (x + 1)) div 2)) div 2)))
1: (2 * (1 + ((1 + (((~1 + loop(\(x,i).2x,x,(if (x mod 4) <= 0 then 2 else (x mod 2)))) mod (x + 1)) div 2)) div 2)))
1: (2 * (((x + (((~2x + 4) mod (2 + (x div 2))) div 2)) div 2) + (if x <= 0 then 0 else 1)))
1: (2 * (1 + ((1 + ((40 mod (x + 1)) div 2)) div 2)))
1: (2 * (1 + ((1 + ((20 mod (x + 1)) div 2)) div 2)))
1: (2 * (1 + ((1 + ((32 mod (x + 1)) div 2)) div 2)))
1: (2 * (1 + ((1 + ((loop(\(x,i).(1 + (2 * (x mod (1 + i)))),x,1) mod (x + 1)) div 2)) div 2)))
1: (2 * (1 + ((1 + ((loop(\(x,i).((2x + 1) * i),x,1) mod (x + 1)) div 2)) div 2)))
1: (2 * (1 + ((1 + ((loop(\(x,i).(2x + ~2),x,(1 + (2x mod (2 + (x div 4))))) mod (x + 1)) div 2)) div 2)))
1: (2 * (1 + ((1 + ((loop(\(x,i).2x,(x div 2),2) mod (x + 1)) div 2)) div 2)))
1: (2 * (1 + ((1 + ((loop(\(x,i).2x,x,(1 + ((2 * (1 + ((1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2)) div 2))) div 3))) mod (x + 1)) div 2)) div 2)))
1: (2 * (1 + ((1 + ((loop(\(x,i).2x,x,(1 + (x div 8))) mod (x + 1)) div 2)) div 2)))
1: (3 * (1 + ((1 + ((x mod (1 + (2 * (if (x mod 2) <= 0 then x else 2)))) div 2)) div 3)))
1: (2 * (2 + ((x + ((x mod (1 + (x div 2))) div 2)) div 2)))
1: (2 * (2x + ((x + ((x mod (1 + (x div 2))) div 2)) div 2)))
1: (3 * (2x + ((x + ((x mod (1 + (x div 2))) div 2)) div 2)))
1: (2 * (1 + ((1 + ((x mod (1 + (x div (if (x mod 2) <= 0 then 4 else 1)))) div 2)) div 2)))
1: (2 * (1 + ((1 + ((x mod (2 + ((1 + (2 * (((if x <= 0 then 1 else (2 * (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))))) - (x mod 2)) div 2))) mod (x + 1)))) div 2)) div 2)))
1: (2 * (1 + ((1 + ((x mod (2 + ((2 - (2x mod (2 + (x div 2)))) mod (x + 1)))) div 2)) div 2)))
1: (2 * (1 + ((1 + ((x mod (2 + ((~1 + (2 * (x mod 4))) mod (x + 1)))) div 2)) div 2)))
1: (2 * (1 + ((1 + ((x mod (2 + ((~1 + (2 * (if (~2 + (((x + 1) div 2) mod 4)) <= 0 then 1 else 0))) mod (x + 1)))) div 2)) div 2)))
1: (2 * (1 + ((1 + ((x mod (1 + ((~1 + loop(\(x,i).2x,(x div (2 + (x mod 2))),2)) mod (x + 1)))) div 2)) div 2)))
1: (2 * (1 + ((1 + ((x mod (2 + (loop(\(x,i).3x,x,3) mod (x + 1)))) div 2)) div 2)))
1: (2 * (2 + ((2 + ((if x <= 0 then 2 else (x * (x div 3))) div 2)) div 3)))
1: (2 * (1 + ((1 + (loop(\(x,i).((x + 1) + (2 * ((x div 2) div 3))),x,1) div 2)) div 2)))
1: (2 * (1 + ((1 + (loop(\(x,i).(2 + (x div (1 + (2 * (x mod 2))))),1,(1 + (if (~1 + (x mod 3)) <= 0 then x else 2))) div 2)) div 2)))
1: (2 * (1 + (((loop(\(x,i).(2x + (i mod 2)),x,2) div 3) + loop(\(x,i).2x,x,1)) div 3)))
1: (2 * (1 + ((1 + (loop(\(x,i).(x + i),(x + ~2),1) div 2)) div 2)))
1: (2 * (1 + ((1 + (loop(\(x,i).(2x - ((1 + i) mod (x + 1))),x,1) div 2)) div 2)))
1: (2 * (1 + ((1 + (loop(\(x,i).(~2x + (if (x mod (1 + i)) <= 0 then 0 else x)),x,x) div (x + 1))) div 2)))
1: (2 * (1 + ((1 + (loop(\(x,i).(2x + 2),(((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3) + (if x <= 0 then 0 else 1)),1) div 2)) div 2)))
1: (2 * (1 + ((1 + (loop(\(x,i).(2x + ~4),x,(x + 2)) div (x + 1))) div 2)))
1: (2 * (1 + ((1 + (loop(\(x,i).(2 * ((1 + (((loop(\(x,i).4x,x,2) - loop(\(x,i).3x,x,1)) div 2) div 2)) div 2)),x,1) div 2)) div 2)))
1: (2 * (1 + ((1 + (loop(\(x,i).2x,((if (x mod 2) <= 0 then 1 else x) - (x div 2)),1) div (x + 1))) div 2)))
1: (2 * (1 + ((1 + (loop(\(x,i).2x,(x + ~1),x) div (x + 1))) div 2)))
1: (2 * (1 + ((1 + (loop(\(x,i).2x,(x + ~7),1) div 2)) div 2)))
1: (2 * (1 + (((x + 1) + (loop(\(x,i).2x,x,(~1 + loop(\(x,i).2x,x,2))) div 3)) div 3)))
1: (2 * (1 + ((1 + (loop(\(x,i).(x * i),x,(7x + ~3)) div 2)) div 2)))
1: (2 * (1 + ((1 + (loop(\(x,i).(x div (1 + (2 * (x mod 2)))),2,x) div 2)) div 2)))
1: (2 * (1 + ((1 + (x div 2)) div 2)))
1: ((1 + ((1 + (x div 2)) div 2)) * i)
1: (3 * (6 + ((1 + (x div 2)) div 2)))
1: ((1 + ((1 + (x div 2)) div 3)) * (if x <= 0 then 1 else 2))
1: ((1 + ((2 + (x div 2)) div 3)) * (1 + ((1 + (x div 2)) div 2)))
1: ((x + 1) * (1 + ((x + (x div 2)) div 2)))
1: ((x + 1) * (2 + ((x + (x div 2)) div 2)))
1: (3 * (x + ((x + (x div 2)) div 2)))
1: (2 * (1 + ((x + (x div 2)) div 4)))
1: (x * ((2x + 2) + ((x + (x div 2)) div 4)))
1: (2 * (1 + ((x + (x div 2)) div 5)))
1: (4 * (x + ((x + (x div 2)) div 8)))
1: ((1 + ((1 + (x div 3)) div 2)) * (x div 3))
1: (2 * (2x + ((x + (x div 3)) div 5)))
1: (2 * (1 + ((1 + (x div 4)) div (2 - ((x mod 3) mod 2)))))
1: (2 * (((x + (x div 4)) div 2) + (x div 9)))
1: (2 * (1 + ((1 + (x div (3 + ((x mod (1 + (x div (2 + ((x + 1) mod 5))))) div 2)))) div (1 + (x div 4)))))
1: (2 * (1 + ((1 + (x div (1 + (2 * ((2 + ((4 * (3 - (x mod 2))) mod (x + 1))) div 2))))) div 2)))
1: (2 * (1 + ((1 + (x div (1 + (2 * loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x))))) div 2)))
1: (2 * (1 + ((1 + (x div (1 + (x div (1 + (2 * (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + ((x - (x mod 5)) div 2))))))))) div 2)))
1: (3 * (((1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))) div 2) + (if x <= 0 then 0 else 1)))
1: (2 * (1 + ((1 + (x div (1 + ((1 + ((loop(\(x,i).(x + (x div 2)),x,2) div 2) div 2)) mod (x + 1))))) div 2)))
1: (2 * (2 + ((2 + (x div (1 + ((x + 1) mod 3)))) div 3)))
1: (2 * (1 + ((1 + (x div (1 + ((x + 2) mod 4)))) div 2)))
1: (2 * (1 + ((1 + (x div (2 + ((2 - (x div 5)) mod 5)))) div 2)))
1: (2 * (1 + ((1 + (x div (1 + ((~1 + loop(\(x,i).2x,x,(1 + (x mod (2 * (1 + (x mod 2)))))) - (x mod 2)) mod (2x + 1))))) div 2)))
1: (2 * (1 + ((1 + (x div (1 + ((~1 + (2 * ((x + 1) + (2 div (1 + (3 div (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2)))))))) mod (x + 1))))) div 2)))
1: (2 * (1 + ((1 + (x div (1 + ((~1 + (2 * ((x + 1) + ((2 * (1 + ((1 + (x div (1 + ((~1 + (2 * ((x + 1) + (2 div (1 + (3 div (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2)))))))) mod (x + 1))))) div 2))) div 3)))) mod (x + 1))))) div 2)))
1: (2 * (1 + ((1 + (x div (1 + ((~1 + ((1 + (x div (2 - (x mod 2)))) mod 3)) mod (x + 1))))) div 2)))
1: (2 * (1 + ((1 + (x div (1 + ((~1 + (if (x mod (3 + ((x div 2) div 3))) <= 0 then 1 else 0)) mod (x + 1))))) div 2)))
1: (2 * (1 + ((1 + (x div (1 + ((loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) - loop(\(x,i).4x,x,1)) mod (x + 1))))) div 2)))
1: (2 * (1 + ((1 + (x div (1 + ((~1 + loop(\(x,i).(if x <= 0 then i else (x div 2)),x,2)) mod (x + 1))))) div 2)))
1: (2 * (1 + ((1 + (x div (1 + (((x + 1) - (2 * ((x div 2) div (1 + (x mod 4))))) mod (x + 1))))) div 2)))
1: (2 * (1 + ((1 + (x div (2 + ((x - ((x div 2) mod 5)) mod 3)))) div 2)))
1: (2 * (1 + ((1 + (x div (2 + ((5 * (1 + (x mod 5))) mod (x + 1))))) div 2)))
1: (2 * (1 + ((1 + (x div (2 + ((6 * (2 - (x div 2))) mod (x + 1))))) div 2)))
1: (2 * (1 + ((1 + (x div (2 + (((x + ~1) div 2) mod 3)))) div 2)))
1: (2 * (1 + ((1 + (x div (2 + ((x div 2) mod 2)))) div 2)))
1: (3 * (1 + ((1 + (x div (1 + ((if (x mod 2) <= 0 then 3 else ~2) mod (x + 1))))) div 2)))
1: (2 * (1 + ((1 + (x div (1 + (loop(\(x,i).(1 + (2 * (x - (x div ~2)))),x,0) mod (x + 1))))) div 2)))
1: (2 * (1 + ((1 + (x div (1 + (loop(\(x,i).(2x + 1),(2x div 3),1) mod (x + 1))))) div 2)))
1: (2 * (1 + ((1 + (x div (1 + (loop(\(x,i).(2x + 1),x,(x mod 2)) mod (x + 1))))) div 2)))
1: (2 * (1 + ((1 + (x div (1 + (loop(\(x,i).(5x + ~2),x,1) mod (x + 1))))) div 2)))
1: (2 * (1 + ((1 + (x div (1 + (loop(\(x,i).3x,(((x + ~1) div 2) mod 4),1) mod (x + 1))))) div 2)))
1: (2 * (1 + ((1 + (x div (1 + (loop(\(x,i).((x + 1) * i),(x div 2),2) mod (x + 1))))) div 2)))
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1: (2 * (1 + ((1 + (x div (1 + (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) mod (1 + (x mod 8)))))) div 2)))
1: (2 * (1 + ((1 + (x div (2 + (x mod 2)))) div 2)))
1: (2 * (1 + ((1 + (x div (1 + (x mod (1 + (x div (1 + (loop(\(x,i).2x,x,2) mod (2x + 1))))))))) div 2)))
1: (2 * (1 + ((1 + (x div (1 + (x mod (1 + (x div (if x <= 0 then 1 else (2 * ((~1 + (2 * (if x <= 0 then 1 else (2 * (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))))))) div 2))))))))) div 2)))
1: (2 * (1 + ((1 + (x div (1 + (x mod (1 + ((1 + (if ((x + ~1) mod 3) <= 0 then 1 else x) - (x mod 2)) mod (x + 1))))))) div 2)))
1: (2 * (1 + ((1 + (x div (1 + (x mod (1 + ((1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x)) mod (x + 1))))))) div 2)))
1: (2 * (1 + ((1 + (x div (1 + (x mod (1 + ((1 - ((2x + ~1) mod (4 + (x div 4)))) mod 3)))))) div 2)))
1: (2 * (1 + ((1 + (x div (1 + (x mod (1 + ((~1 + (2 * ((x + 1) + ((1 + (x div (1 + (loop(\(x,i).2x,x,2) mod (2x + 1))))) div 2)))) mod (x + 1))))))) div 2)))
1: (2 * (1 + ((1 + (x div (1 + (x mod (1 + ((~1 + (2 * ((3 * (1 + (((1 + (x mod (1 + (x mod (2 * (2 + ((x div 2) mod 2))))))) mod (x + 1)) div 2))) div 2))) mod (x + 1))))))) div 2)))
1: (2 * (1 + ((1 + (x div (1 + (x mod (1 + ((~1 + loop(\(x,i).2x,((x + 1) + (x div 2)),2)) mod (x + 1))))))) div 2)))
1: (2 * (1 + ((1 + (x div (1 + (x mod (1 + ((~1 + loop(\(x,i).2x,(1 + (x div (2 + ((x div 2) div (1 + (x mod (1 + (x mod (3 + (x mod 2)))))))))),1)) mod (x + 1))))))) div 2)))
1: (2 * (1 + ((1 + (x div (1 + (x mod (1 + ((~1 + loop(\(x,i).2x,x,23)) mod (x + 1))))))) div 2)))
1: (2 * (1 + ((1 + (x div (1 + (x mod (1 + ((~1 + loop(\(x,i).2x,x,(x div (2 - (x mod 2))))) mod (x + 1))))))) div 2)))
1: (2 * (1 + ((1 + (x div (1 + (x mod (1 + (loop(\(x,i).(3x + 3),x,0) mod (x + 1))))))) div 2)))
1: (2 * (1 + ((1 + (x div (1 + (x mod (1 + (loop(\(x,i).2x,x,2) mod (2x + 1))))))) div 2)))
1: (2 * (1 + ((1 + (x div (1 + (x mod (1 + (x mod (1 + (x div (2 * (2 - (x mod 2))))))))))) div 2)))
1: (2 * (1 + ((1 + (x div (1 + (x mod (1 + (x mod (2 + (x div (2 * (2 - (x mod 2))))))))))) div 2)))
1: (2 * (1 + ((1 + (x div (1 + (x mod ((x + 1) - (loop(\(x,i).2x,x,2) mod (x + 1))))))) div 2)))
1: (2 * (1 + ((1 + (x div (2 + (x mod (x - ((x + 1) mod 4)))))) div 2)))
1: (7 * (1 + ((1 + (x div (1 + (if ((x * (x div 2)) mod 2) <= 0 then x else (x mod 3))))) div 3)))
1: (2 * (x + ((x + (x div 8)) div 2)))
1: (5 * (x + ((x + (x div 8)) div 2)))
1: (2 * ((2x + 2) + ((x + (x div 12)) div 2)))
1: (2 * (1 + ((1 + (x div (2 * (1 + ((x mod (~2 + (((~x + 2) div 2) div 3))) mod 2))))) div 2)))
1: ((x + 1) * (1 + ((1 + (x div (2 * (2 - ((x * (x div 2)) mod 2))))) div 3)))
1: (2 * (x + ((x + (5 mod (1 + (x div 4)))) div 2)))
1: (2 * (1 + ((1 + ((x + 1) mod (1 + (2 * ((x div 2) div (1 + ((((x + 1) div 2) div 2) div 2))))))) div 2)))
1: (2 * (1 + ((1 + ((x + 1) mod (1 + (x div (2 + (x mod 5)))))) div 2)))
1: (2 * (1 + ((((x + 1) mod 6) + (x div 2)) div 3)))
1: (2 * (1 + ((1 + ((~7 + (x div 2)) mod (1 + (x div 2)))) div 2)))
1: ((1 + ((x + ((1 - (x div 3)) mod 3)) div 3)) * (if x <= 0 then 1 else 2))
1: (2 * (2 + ((x + ((1 - (x div 3)) mod 3)) div 4)))
1: (2 * (1 + ((1 + ((1 - ((1 + ((1 + (x mod (2 * (1 + (x mod (2 * (1 + (x mod (1 + (x div 3)))))))))) mod (x + 1))) mod 3)) mod (x + 1))) div 2)))
1: (2 * (1 + ((1 + ((~x + 2) mod (1 + ((((x + 1) + (x2 div 4)) div 2) div 2)))) div 2)))
1: (2 * (1 + ((2 + ((~3x + 5) mod (1 + (x div 2)))) div 3)))
1: (2 * (x + ((x + ((x - ((((~x + 1) * (x div 2)) div 2) div 3)) mod 3)) div 2)))
1: (2 * (1 + ((1 + ((x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) mod 8)) div 2)))
1: (2 * (x + ((x + ((x * (x div 2)) mod 2)) div 3)))
1: (2 * (1 + ((1 + ((x * loop(\(x,i).(2x + 2),x,0)) mod loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))) div 2)))
1: (3 * (x + ((x + (x2 mod 3)) div 4)))
1: (2 * (1 + ((1 + (x2 mod (~1 + (4 * (2x div 3))))) div 2)))
1: (2 * (1 + ((1 + (((x2 + 2x) div 2) mod 11)) div 2)))
1: (3 * (2 + ((x + ((x2 div (x - ((~x + 2) div 2))) mod 2)) div 2)))
1: (2 * (2x + ((x + (((x div 2) div 3) mod 2)) div 2)))
1: ((1 + ((x + ((x div 2) mod 2)) div 2)) * (1 + (x div 4)))
1: ((x + 2) * (2 + ((x + ((x div 2) mod 2)) div 2)))
1: (2 * (4x + ((x + ((x div 2) mod 2)) div 2)))
1: (3 * (x + ((x + ((x div 2) mod 2)) div 2)))
1: (2 * (2 + ((x + ((x div 2) mod 2)) div 3)))
1: (2 * (2x + ((x + ((x div 2) mod 4)) div 4)))
1: (2 * (2x + ((x + ((x div 2) mod 5)) div 5)))
1: (2 * (1 + ((1 + ((x div 2) mod (1 + (x mod (1 + (x div 3)))))) div 2)))
1: (2 * (x + ((((x div 4) mod 2) + (x div 2)) div 2)))
1: (2 * (2x + ((x + ((x div 4) mod 2)) div 2)))
1: (2 * (1 + ((x + ((x div 4) mod 2)) div 3)))
1: (3 * (1 + ((x + (loop(\(x,i).8x,(x + 1),1) mod (x + 1))) div 2)))
1: (2 * (1 + ((1 + (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) mod (2x + 3))) div 2)))
1: ((x + 1) * (2 + ((x + (x mod 2)) div 5)))
1: ((x + 1) * (x + ((x + (x mod 2)) div 5)))
1: (3 * (1 + ((1 + (x mod 4)) div 2)))
1: (2 * (1 + ((1 + (x mod (1 + (2 * (1 + (x mod (1 + (2 * (2 - ((x * (x div 2)) mod 2)))))))))) div 3)))
1: (2 * (1 + ((1 + (x mod (1 + (2 * ((x + 2) mod (2 * (1 + (x mod 2)))))))) div 3)))
1: (2 * (2 + ((2 + (x mod (1 + (2 * (16 mod (x + 1)))))) div 3)))
1: (2 * (1 + ((1 + (x mod (1 + (2 * (if (16 mod (x + 1)) <= 0 then 1 else 2))))) div 3)))
1: (2 * (1 + ((1 + (x mod (1 + (2 * (if (x mod 5) <= 0 then 1 else (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))))) div 2)))
1: (2 * (1 + ((1 + (x mod (1 + (((x mod 5) * (x div 4)) div 2)))) div 2)))
1: (2 * (1 + ((1 + (x mod (1 + (4 mod (1 + (x div 3)))))) div 2)))
1: (2 * (1 + ((1 + (x mod (2 + ((1 + ((if ((x * (x mod 3)) mod 5) <= 0 then 1 else 2) * (1 + (x mod 2)))) mod (x + 1))))) div 3)))
1: (2 * (1 + ((1 + (x mod (1 + ((2 - (x div 2)) mod 6)))) div 2)))
1: (2 * (1 + ((1 + (x mod (1 + ((((1 + (8 mod (1 + (x div 2)))) div 2) - (x mod 2)) mod (1 + (x div 2)))))) div 2)))
1: (2 * (1 + ((1 + (x mod (1 + (x mod (1 + (x div (2 + ((x div 2) mod (1 + (if (x mod 3) <= 0 then 0 else 2)))))))))) div 2)))
1: (2 * (1 + ((1 + (x mod (1 + (x mod (1 + (x div (2 + (x mod 5)))))))) div 2)))
1: ((x + 1) * (1 + ((1 + (x mod (2 - (x div (~1 + ((~x + 2) div 4)))))) div 3)))
1: (2 * (1 + ((1 + (if (1 - ((x2 + x) mod 5)) <= 0 then x else 1)) div 2)))
1: (2 * (2 + ((x + (if (~4 + (x div 2)) <= 0 then 1 else 4)) div 2)))
1: (2 * (2x + ((2 + (if (~4 + (x div 2)) <= 0 then x else (x + 2))) div 3)))
1: (2 * (1 + ((x + (if (~2 + (x div 2)) <= 0 then 1 else 0)) div 2)))
1: (3 * (1 + (((if (~2 + (x div 2)) <= 0 then 1 else 2) + (x div 2)) div 2)))
1: (2 * (2x + ((1 + (if (~2 + (x div 2)) <= 0 then x else (x + 4))) div 3)))
1: (3 * (x + ((x + (if (~2 + (x div 3)) <= 0 then 2 else 1)) div 2)))
1: (2 * (2x + ((x + (if (~2 + (x div 4)) <= 0 then 1 else 2)) div 2)))
1: (2 * (x + ((x + (if (~2 + (x div 4)) <= 0 then 1 else 2)) div 2)))
1: (2 * (1 + ((1 + (if (x + ~1) <= 0 then x else loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x + ~2),1))) div 2)))
1: (3 * (x + ((x + (if (x + ~12) <= 0 then 2 else 1)) div 2)))
1: (3 * (1 + ((2 + (if ((x2 + x) mod 8) <= 0 then x else 0)) div 3)))
1: (2 * (1 + ((1 + (if (((x + 1) div (2 + (x mod 2))) mod 2) <= 0 then x else 1)) div 3)))
1: (2 * (1 + ((1 + (if (x mod 2) <= 0 then ((1 + (x div 2)) mod 4) else 1)) div 2)))
1: ((1 + ((1 + (if (x mod 3) <= 0 then 0 else x)) div 3)) * (1 + (x div 3)))
1: (2 * (x + ((1 + (if (x mod 9) <= 0 then 0 else x)) div 2)))
1: (2 * (2 + ((1 + loop(\(x,i).((x + 2) + (x div 4)),x,2)) div 3)))
1: (2 * (2 + ((2 + loop(\(x,i).(5x + 1),x,1)) div 2)))
1: (2 * (1 + ((1 + loop(\(x,i).(x + (if x <= 0 then 1 else loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,x))),2,x)) div 2)))
1: (2 * (1 + ((1 + loop(\(x,i).(2x + loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),i,1)),x,1)) div 2)))
1: (3 * (x + ((x + loop(\(x,i).(1 - (x2 div (x - ((~x + 2) div 2)))),2,x)) div 2)))
1: (2 * (1 + (((x2 + x) + loop(\(x,i).(3x + ~1),x,2)) div 2)))
1: (x * (1 + ((1 + loop(\(x,i).(x - (x div ~3)),x,1)) div 2)))
1: (2 * (1 + ((1 + loop(\(x,i).(x - (x div ~3)),x,1)) div 3)))
1: (2 * (1 + ((1 + loop(\(x,i).(x2 + x),1,(1 + (x div 2) - (2 * (x mod 2))))) div 3)))
1: (x * (x + ((1 + loop(\(x,i).10x2,x,2)) div 3)))
1: (x * (x + ((x + loop(\(x,i).x3,2,x)) div 2)))
1: (2 * (1 + ((1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),x,2x)) div 3)))
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1: ((1 + ((x + 1) div 2)) * (x div 4))
1: ((1 + ((x + 1) div 2)) * (x mod 3))
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1: (3 * (x + ((x + 1) div 5)))
1: (2 * (1 + ((x + 1) div (1 + ((4 * (x mod 2)) + (x mod 3))))))
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1: (3 * (1 + ((x + 1) div (1 + (3 * (if (~2 + (x div 2)) <= 0 then 0 else 2))))))
1: (3 * (1 + ((x + 1) div (1 + (2 * (if ((x + 1) mod 5) <= 0 then 0 else 2))))))
1: (2 * (1 + ((x + 1) div (1 + (2 * loop(\(x,i).(2x + 1),1,loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,x)))))))
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1: (2 * (1 + ((x + 1) div (1 + (x div 5)))))
1: (2 * (x + ((x + 1) div (1 + (x div 5)))))
1: (2 * (1 + ((x + 1) div (1 + (x div (3 + ((x2 + 2x) mod 6)))))))
1: (2 * (1 + ((x + 1) div (2 + (x div (2 + ((~x + 2) mod 4)))))))
1: (2 * (1 + ((x + 1) div (2 + (x div (2 + (((x div 2) mod 3) mod 2)))))))
1: (2 * (1 + ((x + 1) div (1 + (x div (2 + (x mod (2 + (x mod 2)))))))))
1: ((x + 1) * (1 + ((x + 1) div (1 + (x div (2 + (x mod (2 + (x mod 2)))))))))
1: (2 * (1 + ((x + 1) div (2 + (x div 8)))))
1: (3 * (1 + ((x + 1) div (2 + (loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1))))))
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1: (2 * (1 + ((x + 2) div 5)))
1: (5 * (1 + ((x + 2) div 5)))
1: (2 * (2 + ((x + 2) div 7)))
1: (2 * (2x + ((x + 2) div (1 + (2 * (2 + (((x div 2) div 3) mod 2)))))))
1: (2 * (1 + ((x + 2) div (2 + (((x + 1) div 2) div 2)))))
1: (2 * (1 + ((x + 2) div (8 + (x div ~4)))))
1: ((x + 3) * (2 + ((x + 2) div (1 + (x mod 2)))))
1: ((2 + ((x + 2) div (1 + (x mod 2)))) * (1 + (x div 2)))
1: (2 * (x + ((x + 2) div (2 + (if (~4 + (x div 2)) <= 0 then 2 else 1)))))
1: (2 * (1 + ((x + 2) div (1 + (if (x mod 6) <= 0 then 2 else (x mod 2))))))
1: ((x + 1) * (2 + ((x + 2) div (2 - (x mod 2)))))
1: (3 * (x + ((x + 2) div (8 - ((x + ~2) div 3)))))
1: (2 * (1 + ((compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)) div 2)))
1: (2 * ((2x + 2) + ((~x + 1) div (2 + (((x + 1) div 2) div 3)))))
1: ((x + 2) * (6 + ((~x + 2) div 2)))
1: (2 * (x + ((~x + 2) div (2 - (x div ~4)))))
1: (2 * (1 + (((2 * (1 + ((2 + (((x div 3) * (x div 2)) div 2)) div 3))) - (x mod 3)) div 2)))
1: (2 * (1 + (((3 * (1 - ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2))) - (x div 5)) div 2)))
1: (2 * (1 + ((~2 + (3 * (x div 15)) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) div 2)))
1: (3 * (x + ((2x - (x mod 4)) div 3)))
1: (3 * (1 + ((x2 + ~2) div (x + 4))))
1: (x * (2 + ((x2 + ~2) div (x + 4))))
1: (2 * (x + ((x2 - (x div 2)) div 7)))
1: (2 * (2 + ((~1 + (x2 div (3 + (x div 4)))) div 2)))
1: (2 * (2 + (((x div 2) - ((~x + 2) div (2 + (x div 2)))) div 2)))
1: (2 * (2 + (((x div 2) - (x div 3)) div 2)))
1: ((1 + (((x div 2) - (x mod 2)) div 2)) * (((x + 1) div 2) div 2))
1: ((1 + (((x div 2) - (x mod 2)) div 2)) * ((x + ~1) mod 3))
1: (3 * (2 + (((x div 2) - (x mod 2)) div 2)))
1: (2 * (1 + ((loop(\(x,i).7x,x,1) - loop(\(x,i).(3x + 2),x,0)) div (x + 1))))
1: (2 * (1 + ((loop(\(x,i).2x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),2) - (x mod 3)) div 2)))
1: (2 * (x + ((x + ~1) div 3)))
1: ((1 + ((x + ~1) div 5)) * (1 + (x div 3)))
1: ((1 + ((x + ~1) div (3 + (if (x mod 3) <= 0 then 0 else 2)))) * (x mod 2))
1: (2 * (1 + ((x + ~2) div (2 + (x div 2)))))
1: (5 * (2 + ((x + ~2) div (2 + (x div 4)))))
1: ((2 + ((x + ~2) div (2 + (x div 4)))) * (1 + (x mod 2)))
1: (2 * (1 + (((x + 1) - ((2 * (1 + ((x mod 10) mod (1 + (x div 2))))) mod 3)) div 2)))
1: (2 * (1 + (((x + 1) - ((loop(\(x,i).(2x + i),(x + ~2),1) div 2) mod 2)) div 2)))
1: (2 * (1 + ((x - (2 * ((x div 2) div 3))) div 3)))
1: (2 * (x + ((x - (2 * ((2x div (4 + (x div 4))) mod 2))) div 3)))
1: (2 * (1 + ((x - ((2x2 + 4x + 1) div 7)) div 2)))
1: ((x + 1) * (1 + ((x - ((1 + ((loop(\(x,i).(x + (x div 2)),x,2) div 2) div 2)) div 2)) div 2)))
1: ((x + 1) * (1 + ((x - ((x + (x div 2)) div 5)) div 2)))
1: (2 * (x + ((x - ((x + (x div 2)) div 5)) div 2)))
1: (2 * (2x + ((x - ((x + (x div 3)) div 3)) div 2)))
1: (2 * ((3x + 3) + ((x - ((~2 + (x div 2)) div 3)) div 2)))
1: (2 * (1 + ((x - ((x - ((x + 2) mod (2 + (x mod 2)))) div 2)) div 2)))
1: ((x + 2) * (1 + ((x - ((~x3 + x2) div 2)) div 3)))
1: (2 * (1 + ((x - ((((~x + 1) div 3) * (1 + (x div 2))) div 2)) div 2)))
1: (2 * (2x + ((x - (2x div ~7)) div 2)))
1: (2 * (1 + ((x - ((x div 2) div 3)) div 2)))
1: (2 * ((3x + 3) + ((x - ((x div 2) div 3)) div 2)))
1: (2 * ((2x + 2) + ((x - (x div 3)) div 3)))
1: (5 * ((3x + 3) + ((x - (x div 4)) div 2)))
1: (2 * (2x + ((x - (x div 4)) div 2)))
1: (2 * (2x + ((x - (x div 7)) div 2)))
1: (2 * (2x + ((x - (x div 9)) div 2)))
1: (5 * ((2x + 2) + ((x - (x div ~7)) div 2)))
1: (5 * (1 + ((x - (x div (2 - ((x3 div 8) mod 2)))) div 2)))
1: (x * (x + ((x - (x div ~4)) div 2)))
1: (2 * (((x - (x div 12)) div 2) + (2 * (if x <= 0 then 1 else 4x))))
1: (2 * (2x + ((x - (x div ~8)) div 2)))
1: ((x + 1) * (2 + ((x - ((x + 1) mod (if x <= 0 then 1 else (2 * (1 + (2 * (x mod 2))))))) div 2)))
1: (2 * (x + ((x - (((x + 1) div 5) mod 2)) div 3)))
1: ((1 + ((x - ((x div 3) mod 3)) div 2)) * (x div 2))
1: (2 * (((x - (x mod 4)) div 3) + (x div 3)))
1: (2 * (x + ((x - (x mod 4)) div 3)))
1: (2 * (2x + ((x - (x mod (4 + (x div 3)))) div 3)))
1: (2 * (x + ((x - (x mod (~x + ((x + ~1) mod 8)))) div 3)))
1: (2 * (x + ((x - (i mod 2)) div 2)))
1: (2 * (2x + ((x - (if (~2 + (x div 4)) <= 0 then 0 else 2)) div 3)))
1: (x * (2 + ((x - i) div 2)))
1: (2 * (x + ((x - i) div 3)))
1: (2 * (4x + (3x div (if i <= 0 then 1 else i))))
1: (4 * (x + (3x div (if i <= 0 then 1 else i))))
1: (7 * (x + (3x div (if i <= 0 then 1 else i))))
1: (8 * (x + (3x div (if i <= 0 then 1 else i))))
1: (3 * (x + (5x div (if i <= 0 then 1 else i))))
1: (7 * (x + (5x div (if i <= 0 then 1 else i))))
1: (9 * (x + (5x div (if i <= 0 then 1 else i))))
1: (2 * (2 + (((x + 1) * ((x + 3) + (if (~x + 2) <= 0 then 2 else 1))) div 2)))
1: (2 * (1 + ((x2 + 7x + 10) div 3)))
1: (2 * (1 + ((2 * ((x + 1) + (2 * ((x + ((x div 2) mod 2)) div 2)))) div 3)))
1: (2 * (x + ((2 * ((x + 1) + (((x + 1) + ((3 * (x + ((3 * ((x div 2) div 3)) div 2))) div 2)) div 2))) div 3)))
1: (2 * (1 + ((2 * ((x + 2) + ((1 + ((x * (x div 7)) div 2)) div 2))) div 3)))
1: (2 * (1 + ((2 * (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) + ((2x + 1) div (3 + (x div 4)))))) div 3)))
1: (x * (1 + ((2 * (4 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3)))
1: (2 * (x + ((2 * ((x + 2) + (if x <= 0 then 1 else ((16x + 8) mod 17)))) div 3)))
1: ((x + 1) * (1 + ((x2 + 5x + 6) div (1 + (x mod 2)))))
1: ((x + 2) * (1 + ((x2 + 6x + 8) div 2)))
1: (2 * (2 + ((x2 + 6x + 8) div 2)))
1: (3 * (1 + ((2 * ((2x + 3) - ((~x + ((x div 3) mod 3)) div 3))) div 3)))
1: (2 * (3 + ((2 * ((2x + 1) - ((~x + 1) div (2 + (x div 4))))) div 3)))
1: (2 * (1 + ((2 * (1 + (x2 div 3) - (x mod 2))) div 3)))
1: (3 * (x + (7x div (if i <= 0 then 1 else i))))
1: (5 * (x + (7x div (if i <= 0 then 1 else i))))
1: (9 * (x + (7x div (if i <= 0 then 1 else i))))
1: (3 * (1 + ((3x2 + 5x + 2) div 2)))
1: (3 * (2 + ((5x2 + 7x + 2) div 2)))
1: ((x + 2) * (1 + ((x3 + 10x2 + 21x + 12) div 2)))
1: (2 * (1 + ((4x3 + 6x2 + 12x + 5) div 3)))
1: ((x + 1) * (1 + ((13x2 + 17x + 4) div 2)))
1: (2 * (1 + (((x + 2) * (1 + (2 * (x + (3 * (x div 2)))))) div 2)))
1: (2 * (1 + ((2 * (2 + ((1 + (2 * (loop(\(x,i).(x * (~1 + (2 * i))),x,~2) mod (x + 1)))) * (x mod 2)))) div 3)))
1: (2 * (1 + ((2 * (1 + (2 * (x + (x div 5))))) div 3)))
1: (2 * (1 + ((2 * (1 + (2 * (x + (x div 8))))) div 3)))
1: (2 * (1 + (((1 + (x * (2 + (x mod (2 + (x mod 2)))))) * (1 + (x div 2))) div 3)))
1: ((3x + 2) * (1 + ((3x2 + 7x + 4) div 2)))
1: ((5 + ((3x2 + 7x + 4) div 2)) * (1 + (x div 2)))
1: (2 * (1 + ((3x2 + 10x + 8) div 3)))
1: (2 * (x + ((2 * (1 + (2 * (2x - ((2x + 1) div 7))))) div 3)))
1: (2 * (1 + ((2 * (1 + (2 * (2x - (2x div 7))))) div 3)))
1: (3 * (1 + (((x + ~1) * (1 + (2 * (x - ((~x + 1) div 3))))) div 2)))
1: (2 * (1 + (((x + 2) * (1 + (2 * (x - (x div ~2))))) div 2)))
1: (2 * (1 + ((15x3 + 30x2 + 16x + 1) div 3)))
1: (2 * (1 + (((x + 1) * (1 + (2 * ((x + 1) div (3 - (x mod 2)))))) div 3)))
1: (2 * (1 + ((2 * (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + ((1 + (x div 2)) div 2))))) div 3)))
1: (5 * (1 + ((3 * (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * ((1 + (((x + 1) div 2) div 2)) div 2)))) div 2)))
1: (2 * (1 + ((2 * (1 + (2 * (((x2 + ~x) div 2) mod (1 + (x div 4)))))) div 3)))
1: (2 * (1 + (((x + 1) * (1 + ((x + 1) * loop(\(x,i).x2,2,3)))) div 3)))
1: (2 * (2 + ((4x + 2) div 5)))
1: ((x + 1) * (1 + ((x3 + x) div 2)))
1: ((x + 1) * (2 + ((x3 + x) div 2)))
1: (3 * (x + ((x3 + x) div 5)))
1: ((2x + 1) * (1 + ((2 * (1 + ((1 + (loop(\(x,i).2x,(x + ~1),x) div (x + 1))) div 2))) div 3)))
1: ((1 + ((2 * (1 + ((1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2)) div 2))) div 3)) * (1 + (x mod 2)))
1: (2 * (1 + (((1 + ((2 + (x div 2)) div 3)) * (1 + ((1 + (x div 2)) div 2))) div 2)))
1: (2 * (1 + ((3 * (x + ((x + (x2 mod 3)) div 4))) div 2)))
1: ((x + 1) * (2 + ((x * (1 + ((x + 1) div 2))) div 2)))
1: (2 * (1 + ((2 * (2 + (x3 div (x + 8)))) div 3)))
1: (2 * (1 + ((2 * (1 + ((2 * loop(\(x,i).(3x + 4),x,(x + 2))) div 3))) div 3)))
1: (2 * (2 + ((x * (1 + (x2 div (x + 5)))) div 2)))
1: (2 * (x + ((3 * (2 + (((x + 1) div 2) div 2))) div 2)))
1: (2 * (1 + ((3 * (x + ((x div 2) div 3))) div 2)))
1: (2 * (1 + ((4 * (x + ((x div 2) div 3))) div 3)))
1: (9 * (1 + ((4 * (x + ((x div 2) div 3))) div 3)))
1: (2 * (x + ((2 * (2 + ((if (~2 + (x div 3)) <= 0 then x else (x + 4)) div 3))) div 3)))
1: (2 * (1 + ((2 * (1 + (loop(\(x,i).x2,2,(x + 1)) div 3))) div 3)))
1: (3 * (1 + ((2 * (1 + (loop(\(x,i).(x * i),(1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)),1) div 2))) div 3)))
1: (2 * (1 + ((x * (1 + (x div 2))) div (x - ((~1 + (x div 2)) div 2)))))
1: (2 * (2 + (((2 + (x div 2)) * (x div 2)) div 2)))
1: (2 * (x + ((3 * (2x + (x div 2))) div (x + 2))))
1: ((x + 1) * (x + ((2 * (x + (x div 3))) div 5)))
1: (2 * (x + ((2 * ((2x + 2) + (x div (1 + (2 * (if (~4 + (x div 2)) <= 0 then 2 else 1)))))) div 3)))
1: (2 * (2 + (((x + 1) * (1 + ((~1 + (loop(\(x,i).13x,x,1) mod 31)) mod (x + 1)))) div 2)))
1: (2 * (1 + ((2 * (2 + ((~3x + 3) mod (1 + (x div 2))))) div 3)))
1: (2 * (x + (((1 + (((x + 1) div 2) mod 3)) * ((~1 + (x div 2)) div 2)) div 2)))
1: (2 * (2x + ((2 * (x + ((x div 3) mod 2))) div 3)))
1: (2 * (x + ((3 * (x + ((x mod ((x + 1) - (x mod 4))) mod 2))) div 2)))
1: (2 * (1 + ((2 * (2 + (loop(\(x,i).2x2,3,6) mod (x + 1)))) div 3)))
1: (2 * (1 + ((2 * (x + (x mod 2))) div 3)))
1: (2 * (1 + ((2 * (1 + (x mod (2 + (x mod 4))))) div (x + 1))))
1: (2 * (2 + ((3 * (x + (if (x mod 3) <= 0 then 1 else 2))) div 5)))
1: (2 * (1 + ((2 * (x + (if (x mod 5) <= 0 then 2 else 1))) div 3)))
1: (2 * (((2 * (2 + (if x <= 0 then 0 else (2 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))))) div 3) + (x div 5)))
1: (2 * (1 + (((x + 1) * (1 + loop(\(x,i).(x2 + x + 1),2,x))) div 3)))
1: (2 * (x + ((2 * (x + loop(\(x,i).2x,((x + ~2) div 3),1))) div 3)))
1: (2 * (1 + (((x + 1) * (2 + loop(\(x,i).x2,2,2x2))) div 3)))
1: (2 * (1 + ((2 * (2 + loop(\(x,i).(x * i),x,1))) div 3)))
1: (2 * (1 + (((x + 1) * (1 + loop(\(x,i).loop(\(x,i).(3x + ((~1 + (2 * i)) * i)),x,1),x,0))) div 3)))
1: ((x2 + 2x + 1) * (1 + ((x2 + x) div 2)))
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1: (2 * (2 + (x2 div ((x + 1) + (2 * ((x div 2) div 3))))))
1: (3 * (x + (x2 div ((x + 2) + (x div 2)))))
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1: (3 * ((x + 1) + (x2 div (x + (if x <= 0 then 1 else (x div 3))))))
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1: (2 * (1 + (((1 + (((x + 1) * (1 + (if (if (x mod 2) <= 0 then x else 0) <= 0 then (x mod 4) else 2))) div 2)) div 2) div 2)))
1: (2 * (1 + (((1 + (((2x + 1) * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2)) div 2) div 2)))
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1: (2 * (1 + (((1 + (((x + 1) * (((x + 1) - ((x div 2) mod 2)) div 2)) div 2)) div 2) div 2)))
1: (2 * (1 + (((1 + (((1 + (((x + 1) * (1 + (2 * (x - (x mod 10))))) div 2)) div 2) div 2)) div 2) div 2)))
1: (2 * (1 + (((1 + (((1 + ((loop(\(x,i).((~2x + 4) + (x div 2)),(x + 1),3) div 2) div 2)) div 2) div 2)) div 2) div 2)))
1: (2 * (1 + (((1 + (((x * (if (~4 + (x div 2)) <= 0 then 1 else x)) div 3) div 2)) div 2) div 2)))
1: (2 * (1 + (((1 + ((((15x2 + 10x) div 2) div 3) div 2)) div 2) div 2)))
1: (2 * (1 + (((1 + (loop(\(x,i).(2x + 1),x,loop(\(x,i).3x,x,1)) div 3)) div 2) div 2)))
1: (2 * (1 + (((1 + (loop(\(x,i).2x,(x + ~8),1) div 2)) div 2) div 2)))
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1: (2 * (1 + (((2 + (x div (1 + (loop(\(x,i).(2x + i),x,0) mod (x + 1))))) div 2) div 2)))
1: (2 * (1 + (((x + (2 mod (1 + (x div 2)))) div 2) div 2)))
1: (2 * (1 + (((2 + ((1 - (x mod 9)) mod (x + 1))) div 2) div 2)))
1: (2 * (1 + (((2 + ((9 * (1 + (x div 2))) mod (x + 1))) div 2) div 2)))
1: (3 * (1 + (((1 + (x mod (1 + (31 mod (x + 1))))) div 2) div 2)))
1: (2 * (1 + (((1 + (x mod (3 + ((x2 div 3) mod (x + 1))))) div 2) div 2)))
1: ((x + 1) * (1 + (((1 + (if x <= 0 then 0 else ((x + 2) + (((3 * ((3 * (1 + ((1 + (x div (1 + ((if (x mod 2) <= 0 then 3 else ~2) mod (x + 1))))) div 2))) div 2)) div 2) div 2)))) div 2) div 2)))
1: (2 * (1 + (((loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) + (if (x mod 8) <= 0 then x else 1)) div 2) div 2)))
1: (7 * (1 + (((x + 1) div 2) div 2)))
1: ((1 + (((x + 1) div 2) div 2)) * (x div 4))
1: (2 * (2 + (((x + 1) div 2) div 2)))
1: (2 * ((((x + 1) div 2) div 2) + (if x <= 0 then 0 else 1)))
1: (x * (1 + (((x + 1) div 2) div 3)))
1: (5 * ((2x + 2) + (((x + 1) div 2) div 3)))
1: (2 * (1 + (((x + 1) div 2) div (2 - ((x mod 3) mod 2)))))
1: (2 * (1 + (((x + 1) div (2 + ((x * (x div 3)) mod (1 + ((2 - (x div 2)) mod 4))) - (x mod 2))) div 2)))
1: (3 * (1 + (((x + 1) div (2 - (16 mod (~x + ~1)))) div 2)))
1: ((1 + (((x + 1) div (2 * (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 8)))) div 2)) * (1 + (2 * (x mod 2))))
1: (2 * (1 + (((x + 2) div (1 + ((x + 1) mod 3))) div 2)))
1: (2 * (2x + (((~x + (3 * (x - (2x div 5)))) div 2) div 2)))
1: (3 * (1 + (((~1 + (6 * (1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (2 * ((x div 2) mod 2))) * (x div 4))))) div 2) div 2)))
1: (2 * (1 + (((~1 + (6 * (1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div (1 + (x mod 5)))))))) div 2) div 2)))
1: (3 * (1 + (((~1 + (6 * (1 + (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) + (if (x + ~2) <= 0 then 1 else 2) + (x div 5)) div 2)))) div 2) div 2)))
1: (2 * (1 + (((~1 + (6 * (1 + ((1 + (((1 + (((x + 1) * (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))))) div 2)) div 2) div 2)) div 2)))) div 2) div 2)))
1: (2 * (1 + (((~1 + (6 * (1 + ((1 + ((loop(\(x,i).2x,x,2) mod (x + 1)) div 2)) div 2)))) div 2) div 2)))
1: (2 * (1 + (((~1 + (6 * (1 + ((1 + ((x mod (1 + (x div (if (x mod 2) <= 0 then 4 else 1)))) div 2)) div 2)))) div 2) div 2)))
1: (2 * (1 + (((~1 + (6 * (1 + ((2 + ((~3x + 5) mod (1 + (x div 2)))) div 3)))) div 2) div 2)))
1: (2 * (1 + (((~1 + (6 * (1 + ((1 + (if ((x + 1) mod (3 - (x mod 2))) <= 0 then x else 1)) div 2)))) div 2) div 2)))
1: (2 * (1 + (((~1 + (6 * (1 + ((loop(\(x,i).(8x + 10),x,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2) div 3)))) div 2) div 2)))
1: (2 * (1 + (((((if x <= 0 then 1 else x) mod 2) - loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2) div 2)))
1: (2 * (1 + (((loop(\(x,i).(x2 + x),1,loop(\(x,i).(x * i),x,1)) - loop(\(x,i).3x,x,1)) div 2) div 2)))
1: (2 * (1 + (((x + ~1) div 2) div 2)))
1: ((1 + (((x + ~1) div 2) div 2)) * (if (x mod 4) <= 0 then 1 else 2))
1: ((1 + (((x + ~1) div 2) div 3)) * ((x div 2) div 3))
1: (x * (1 + (((x + ~1) div 2) div 3)))
1: (3 * (x + ((((x + 1) - (2 * (~x + (x mod 10)))) div 2) div 2)))
1: (2 * (x + ((((x + 1) - ((x div 2) mod 3)) div 2) div 2)))
1: (2 * (x + (((x - ((2 - (16 mod (x + 1))) div 2)) div 2) div 2)))
1: (2 * (x + (((x - ((x div 2) mod 6)) div 2) div 2)))
1: (3 * (x + (((x - (x mod ~3)) div 2) div 2)))
1: (4 * (x + (((x - (x mod ~3)) div 2) div 2)))
1: (2 * (1 + (((3 * ((2x + 1) + ((2 * ((2x + 2) + (if x <= 0 then 1 else (2 * (4x + ((x + ((x div 2) mod 2)) div 2)))))) div 3))) div 2) div 2)))
1: (2 * (2 + ((((x + 2) * (4 + (((x + 1) + ((((x + ~1) div 2) div 2) + (x mod 4))) div 2))) div 2) div 2)))
1: (2 * (1 + (((8x2 + 19x + 6) div 2) div 3)))
1: (2 * (1 + (((4x3 + 8x2 + 9x + 5) div 2) div 3)))
1: (2 * (2 + ((((x + 1) * (x + (3 * (if (~2 + (x div 2)) <= 0 then 1 else 2)))) div 2) div 3)))
1: (2 * (1 + (((3 * (1 + ((1 + ((1 + ((((x + 2) * (1 + (2 * ((1 + (x div 4)) div 2)))) div 2) div 2)) div 2)) div 2))) div 2) div 2)))
1: (3 * (1 + (((3 * (1 + ((2 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 3))) div 2) div 2)))
1: (2 * (1 + (((7 * (1 + ((4 * ((8 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2)) div 3)) div 3))) div 2) div 2)))
1: (2 * (1 + (((3 * (1 + ((((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (4 * (1 + ((1 + (x div 2)) div 2))))) div 2) div 2))) div 2) div 2)))
1: (2 * (1 + (((3 * (1 + ((x2 + x) mod 7))) div 2) div 2)))
1: (2 * (1 + ((((1 + (x mod (2 + ((x + ~1) mod 3)))) * (1 + (x div 4))) div 2) div 2)))
1: (x * (2 + (((x2 + 3x + 2) div 2) div 2)))
1: ((x + ~1) * (1 + (((x2 + 3x + 2) div 2) div 3)))
1: ((x + 1) * (1 + (((x2 + 4x + 4) div 2) div (2 + (x mod 2)))))
1: (x * (2 + (((x2 + 2x) div 2) div 3)))
1: (2 * (x2 + (((x2 + 2x) div 2) div 3)))
1: (2 * (1 + ((((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) * (1 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))) div 2) div 2)))
1: (3 * (2 + ((((x + 1) * (~1 - (x div 4))) div 2) div 2)))
1: (2 * (1 + ((((~x + 3) * (~1 - ((x div 2) div 3))) div 2) div 2)))
1: (3 * (1 + (((3 * (1 - (((~1 + (6 * (1 + ((~2 + (x mod 2)) mod (~1 + ((~2x + 2) mod (4 + (x div 4)))))))) div 2) div 2))) div 2) div 2)))
1: (2 * (1 + ((((x + 1) * (2 - ((x div 2) mod 2))) div 2) div 2)))
1: (2 * (1 + (((10x2 + 27x + 14) div 2) div 2)))
1: (2 * (1 + (((2x3 + 9x2 + 11x + 2) div 2) div 3)))
1: (2 * (x + ((((2x + 3) * ((9x + 9) - (x mod 5))) div 2) div 3)))
1: ((x + 1) * (1 + (((x3 + 3x2 + ~x + ~3) div 2) div 3)))
1: (x2 * ((x3 + x) + (((x3 + ~x) div 2) div 3)))
1: ((x + 1) * (1 + (((x2 + ~x) div 2) div 3)))
1: (x * (2 + (((x2 + ~x) div 2) div 3)))
1: (3 * (1 + (((x2 + ~4x + 4) div 2) div (x + 3))))
1: (2 * (2x + (((3 * (x - (x div 5))) div 2) div 2)))
1: (x * (x + (((x5 + 3x3 + 2x) div 2) div 3)))
1: ((x + 1) * ((4x + 6) + (((x3 + 3x2 + 2x) div 2) div 3)))
1: ((x + 1) * ((x3 + 3x2 + 4x + 2) + (((x3 + 3x2 + 2x) div 2) div 3)))
1: (2 * (1 + (((21 * ((1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + ~1) div 2))) div 2)) div 2) div 2)))
1: (2 * (1 + (((3 * ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (2 + (x div (1 + (2 * (1 + (2 * ((x div 2) mod 2))))))))) div 2) div 2)))
1: (2 * (x + ((((3x + ~3) * (loop(\(x,i).2x,(x + ~2),x) div 2)) div 2) div 2)))
1: (3 * (2 + ((3x2 div (x + 2)) div 2)))
1: (2 * (1 + (((((2x + 1) div 3) * (1 + (x div 3))) div 2) div 2)))
1: (2 * (1 + (((((1 + (x div 2)) div 2) * (x div 2)) div 2) div 2)))
1: (2 * (1 + (((3 * ((~1 + (6 * (1 + ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (3 + (x div (1 + (x mod 5))))) div 2)))) div 2)) div 2) div 2)))
1: (2 * (1 + (((((x + ~1) div 3) * (1 + (x div 2))) div 2) div 2)))
1: (2 * (1 + (((5 * ((3x2 + 7x + 4) div 2)) div 3) div 3)))
1: (2 * (2 + ((((x + 2) * ((x4 + 3x3 + 3x2 + 2x + 1) div 2)) div 2) div 3)))
1: (3 * (1 + (((3 * ((3 * ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (2 * ((1 + (x div 2)) div 2))))) div 2)) div 2) div 2)))
1: (2 * (1 + ((((((x + 1) div 2) div 2) * (x div 2)) div 2) div 2)))
1: (2 * (1 + ((((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (2 * (1 + (2 * ((((x + 1) div 2) div 2) mod 2)))))) div 2) div 2)))
1: (3 * (1 + ((((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (4 * (1 + ((1 + (x div 2)) div 2))))) div 2) div 2)))
1: (3 * (1 + ((((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (4 * (1 + (x div 5))))) div 2) div 2)))
1: (2 * (1 + (((((1 + (x mod 8)) mod (x + 1)) * (1 + (x div 2))) div 2) div 2)))
1: (2 * (1 + ((((x + 2) * ((x mod (2 - (x div (1 + ((x div 2) mod 2))))) mod 2)) div 2) div 2)))
1: (2 * (1 + ((((x mod ((x + ~1) - (x mod 12))) * (1 + (x div 2))) div 2) div 2)))
1: (2 * (1 + ((((if ((x + 2) mod (1 + (x mod 4))) <= 0 then 1 else 2) * (1 + (x div 2))) div 2) div 2)))
1: (2 * (1 + ((((x + 1) * (if (x mod 2) <= 0 then 1 else (2 * (1 + (8 * (x mod 2)))))) div 2) div 2)))
1: ((1 + (((x * (if (x mod 5) <= 0 then 1 else 2)) div 2) div 3)) * (x mod 2))
1: (2 * (2 + ((((x + 1) * loop(\(x,i).(x + ((3 + i) * i)),x,0)) div 2) div 3)))
1: (2 * (1 + ((((x + 1) * loop(\(x,i).(x + (if x <= 0 then (1 + i) else 0)),x,(~x + 1))) div 2) div 2)))
1: ((x + 2) * (2 + ((x2 div 2) div 9)))
1: (3 * (1 + ((x2 div 4) div (x + 3))))
1: (2 * (12 + ((((x + 1) div 2) div 2) div 2)))
1: (3 * (x + ((((x + 1) div 2) div 2) div 2)))
1: (4 * (x + ((((x + 1) div 2) div 2) div 2)))
1: ((x + 1) * (2 + ((((x + 1) div (2 - ((x * (x div 2)) mod 2))) div 2) div 2)))
1: (2 * (1 + (((((x2 + ~x) - (((x3 + ~x) div 2) div 3)) div 2) div 2) div 2)))
1: (2 * (1 + ((((~1 + ((x2 div 2) div 3)) div 2) div 2) div 2)))
1: (3 * (1 + ((((5 * (1 + (loop(\(x,i).3x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 3))) div 2) div 2) div 2)))
1: (2 * (1 + ((((x2 + 3x + 2) div 2) div 2) div 2)))
1: (2 * (1 + (((((8x + 5) * loop(\(x,i).2x,(x mod 5),1)) div 2) div 2) div 2)))
1: (2 * (2 + (((((x + loop(\(x,i).3x,(x + ~2),x)) div 2) div 2) div 2) div 2)))
1: (9 * (1 + ((((((x + 1) * (~1 + ((~2x + 2) mod (4 + (x div 4))))) div 2) div 2) div 2) div 2)))
1: (3 * (1 + (((loop(\(x,i).(x2 + 2x),1,((x div 2) - (x mod 2))) div 2) div 2) div 3)))
1: (3 * (x + ((((1 - (x div 2)) mod (x + 2)) div 2) div 2)))
1: (3 * (x + ((((2 - (x div 2)) mod (x + 1)) div 2) div 2)))
1: (3 * (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) div (1 + ((x div 2) mod 2)))))
1: (7 * (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) div (if ((x + 2) mod 5) <= 0 then 2 else 1))))
1: (2 * (1 + ((((~1 + (2 * (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 8)))) mod (x + 1)) div 2) div 2)))
1: (2 * (1 + ((((~1 + (2 * (x mod 5))) mod (x + 1)) div 2) div 2)))
1: (2 * (1 + ((((2x + 2) mod (2 + (x div 2))) div 2) div 2)))
1: (2 * (1 + (((loop(\(x,i).2x,x,x) mod (x + 1)) div 2) div 2)))
1: (2 * (2 + (((x mod 5) div 2) div 2)))
1: (3 * (1 + ((loop(\(x,i).((x + 1) + ((x mod (2 + (6 mod (1 + (x div 2))))) div 2)),x,1) div 2) div 2)))
1: (3 * (1 + ((loop(\(x,i).((2x + 1) - (x div (2 + (if (x mod 2) <= 0 then 1 else 8)))),x,1) div 2) div 2)))
1: (x * (1 + ((loop(\(x,i).((x + 1) - ((~x + 1) div 3)),x,1) div 2) div 2)))
1: (2 * (1 + ((loop(\(x,i).(8x + 10),x,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2) div 3)))
1: (3 * (1 + ((loop(\(x,i).(2x + 4),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2) div 2)))
1: (2 * (1 + ((loop(\(x,i).2x,x,(3 + (2 * (2 + loop(\(x,i).4x,x,2))) - (x mod 2))) div 2) div 3)))
1: (x * (1 + ((loop(\(x,i).loop(\(x,i).x2,x,2),(x + ~2),1) div 2) div 2)))
1: (7 * (1 + ((x div 2) div 3)))
1: ((1 + ((x div 2) div 3)) * (1 + (x div 5)))
1: ((1 + ((x div 2) div 3)) * (1 + (x mod 3)))
1: ((x + 2) * (1 + ((x div 2) div 3)))
1: ((~x + 2) * (1 + ((x div 2) div 3)))
1: ((1 + ((x div 2) div 3)) * ((x + 1) div 2))
1: (2 * (2 + ((x div 2) div 3)))
1: (3 * ((3x + 3) + ((x div 2) div 3)))
1: ((x + ((x div 2) div 3)) * (1 + (x div 2)))
1: ((x + ((x div 2) div 3)) * (1 + i))
1: ((x + ((x div 2) div 3)) * ((x + ~1) div 2))
1: (3 * ((3x + 3) + ((x div 2) div 5)))
1: (3 * (x + ((x div 2) div 5)))
1: (9 * (x + ((x div 2) div 5)))
1: (2 * (2 + ((x div 2) div 7)))
1: ((2 + ((x div 2) div 7)) * (1 + (x div 4)))
1: (2 * (x + ((x div 2) div 7)))
1: (4 * (x + ((x div 2) div 7)))
1: (5 * (x + ((x div 2) div 7)))
1: (x * (1 + ((x div 2) div (1 + (x mod 2)))))
1: (3 * (2 + ((x div 2) div (1 + (x mod 2)))))
1: (2 * (2 + ((x div 2) div (1 + (x mod (1 + (x mod (3 + (x mod 2)))))))))
1: ((x + 1) * (1 + ((x div 2) div (1 + (x mod (1 + (if (~1 + (x mod 3)) <= 0 then (x div 2) else 2)))))))
1: (3 * (1 + ((x div 2) div (1 + (x mod (2 * (1 + (x mod 2))))))))
1: (2 * (1 + ((x div 2) div (1 + (x mod (2 * (1 + (x mod (1 + ((2 - (x div 2)) mod 4))))))))))
1: (2 * (1 + ((x div 3) div (1 + (if (~2 + (x div 4)) <= 0 then 2 else 0)))))
1: (3 * (1 + ((x div 3) div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))))
1: (2 * (1 + ((x div (2 - (x mod 2))) div 3)))
1: (2 * (1 + (((~x + 5) mod (1 + (x div 3))) div 2)))
1: (2 * (1 + (((2x + 1) mod (1 + (2 * (2 + (x div 8))))) div 2)))
1: (2 * (1 + (((2x + 1) mod (1 + (2 * ((1 + (x div 2)) div 2)))) div 2)))
1: (3 * (1 + (((2x + 1) mod (2 + (x div 4))) div 2)))
1: (2 * (1 + (((2x + 1) mod (2 + (x div (2 + (x mod 2))))) div 2)))
1: (2 * ((((2x + 1) mod (1 - (x div ~4))) div 2) + (if x <= 0 then 0 else 1)))
1: (2 * (1 + (((1 + (x div 4)) mod (1 + (x div 3))) div 2)))
1: (2 * (1 + (((1 + (x div (2 + (x mod (2 + (x mod (2 + (x mod 2)))))))) mod (x + 1)) div 2)))
1: (2 * (1 + (((x + (x div 8)) mod 5) div 2)))
1: (2 * (1 + (((1 + (x mod (2 + (x div (1 + ((x div 2) mod (1 + (x mod (1 + (2x mod 3)))))))))) mod (x + 1)) div 2)))
1: (2 * (1 + (((1 + (x mod (2 + (x mod (1 + (2 * (2 - (x mod 2)))))))) mod (x + 1)) div 2)))
1: (2 * (1 + (((1 + (x mod (1 + (x mod (2 * (1 + ((1 + (x div 2)) div 3))))))) mod (x + 1)) div 2)))
1: (2 * (1 + (((1 + (x mod (2 + (if (x mod (2 + (x mod 2))) <= 0 then 2 else 0)))) mod (x + 1)) div 2)))
1: (2 * (1 + (((1 + (x mod ((1 + (x mod (1 + (x div 4)))) * (1 + (x mod 2))))) mod (x + 1)) div 2)))
1: (3 * (1 + (((1 + (x mod ((1 + (x mod (1 + (x div 4)))) * (1 + (x mod 2))))) mod (x + 1)) div 2)))
1: ((x + 1) * (1 + (((1 + (x mod ((1 + (x mod (1 + (x div 4)))) * (1 + (x mod 2))))) mod (x + 1)) div 2)))
1: (2 * (1 + (((2 + (x mod (2 * (1 + (x mod (2 * (1 + (x mod (1 + (x div 3)))))))))) mod (x + 1)) div 2)))
1: (2 * (1 + (((x + 1) mod (2 + ((((x + 1) div 2) div 3) + (if x <= 0 then 0 else 1)))) div 2)))
1: (2 * (1 + (((x + 1) mod ((x + 3) - (2x mod (4 + (x div 4))))) div 3)))
1: (3 * (1 + (((x + 1) mod ((x + 3) - (2x mod (4 + (x div 4))))) div 3)))
1: (3 * (1 + (((x + 1) mod 13) div 2)))
1: (2 * (1 + (((x + 1) mod (1 + (2 * (x div (3 * (1 + ((x2 + 2x) mod 6))))))) div 2)))
1: (2 * (1 + (((x + 1) mod (2 + ((~1 + (2 * (if (16 mod (x + 1)) <= 0 then 0 else 2))) mod (x + 1)))) div 2)))
1: (2 * (1 + (((x + 2) mod (2 + ((x + 1) mod 4))) div 2)))
1: (2 * (1 + (((1 - loop(\(x,i).2x,x,2)) mod (x + 1)) div 2)))
1: ((1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)) * (1 + ((2 - (x div 3)) mod 3)))
1: (2 * (1 + (((~1 + (x div 2)) mod (~1 + (2 * (x mod 4)))) div 2)))
1: (2 * (x + (((~2 + ((x div 2) mod 2)) mod (x + 1)) div 2)))
1: (2 * (1 + (((loop(\(x,i).2x,x,(1 + (x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4)))))))) - (x mod 2)) mod (x + 1)) div 2)))
1: (2 * (1 + (((~1 + loop(\(x,i).2x,x,(2 - ((x div 2) mod 2)))) mod (x + 1)) div 2)))
1: (2 * (1 + (((~1 + loop(\(x,i).2x,x,(if ((x + (x div 2)) mod 4) <= 0 then 2 else 1))) mod (x + 1)) div 2)))
1: (2 * (2 + (((x + ~1) mod (2 + (x div 2))) div 2)))
1: (5 * (1 + (((x + ~1) mod (2 + (x mod (1 + (x mod (2 - ((x div 4) div ~2))))))) div 2)))
1: ((2 + (((x + ~2) mod (1 + (x div 2))) div 2)) * (x div 4))
1: (2 * (2 + ((((x + ~2) + ((x2 div 2) mod 3)) mod (x + 1)) div 2)))
1: (2 * (1 + ((8 mod (2x + ~1)) div 3)))
1: (2 * (1 + (((x2 + 4x) mod (1 + (x div 3))) div 2)))
1: (2 * (1 + (((2 * (1 + ((1 + (((1 + (((x + 1) * (if x <= 0 then 1 else (2 * ((if ((x + 1) mod (1 + (x div 4))) <= 0 then 1 else 2) + ((x mod 3) div 2))))) div 2)) div 2) div 2)) div 2))) mod (x + 1)) div 2)))
1: (2 * (2 + (((x2 + 2x) mod ((x + 2) + (x div 2))) div 2)))
1: (3 * (1 + ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)))
1: (2 * (1 + ((((x + ~2) * (x div 3)) mod (x + 1)) div 2)))
1: (2 * (1 + ((x2 mod (2 + (x div 3))) div 2)))
1: (3 * (2 + ((x2 mod (2 + (x div 4))) div 2)))
1: (2 * (((x2 mod (x - ((~x + 2) div 2))) div (x + 1)) + (x div 3)))
1: (2 * (1 + ((((x + 2) div 3) mod 4) div 3)))
1: (2 * (2 + ((((((x + ~1) div 2) * (x div 2)) div 2) mod (x + 1)) div 2)))
1: (2 * (x + (((x div 2) mod 5) div 3)))
1: (5 * (1 + (((1 mod (1 - (2x mod (4 + (x div 4))))) mod (x + 1)) div 2)))
1: (2 * (x + (((if (~2 + (x div 3)) <= 0 then 2 else (x div 2)) mod (x + 1)) div 2)))
1: (3 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2)))
1: ((1 + ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3)) * (if x <= 0 then 1 else 2))
1: (2 * (2 + ((loop(\(x,i).(3x + 12),(x + 1),0) mod (x + 1)) div 2)))
1: (2 * (2 + ((loop(\(x,i).~x2,4,3) mod (x + 1)) div 2)))
1: (2 * (1 + ((loop(\(x,i).(2 * (x - i)),x,2) mod (x + 1)) div 2)))
1: (2 * (1 + ((loop(\(x,i).4x,(if (x mod 3) <= 0 then 1 else 0),3) mod (x + 1)) div 2)))
1: (2 * (1 + ((loop(\(x,i).2x,x,1) mod 9) div 2)))
1: (3 * (1 + ((loop(\(x,i).2x,x,1) mod (1 + (x div 2))) div 2)))
1: (2 * (1 + ((loop(\(x,i).2x,x,1) mod (x + 1)) div 2)))
1: (2 * (1 + ((loop(\(x,i).2x,x,2) mod (2 + (x div 4))) div 2)))
1: (2 * (1 + ((loop(\(x,i).2x,x,2) mod loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2)))
1: (2 * (1 + ((loop(\(x,i).2x,x,(1 + (x div 4))) mod (x + 1)) div 2)))
1: (2 * (1 + ((loop(\(x,i).2x,x,(((x + ~1) div 2) mod 2)) mod (x + 1)) div 2)))
1: (3 * (2 + ((loop(\(x,i).2x,x,(if ((x + (x div 2)) mod 4) <= 0 then 1 else 2)) mod (x + 1)) div 2)))
1: (2 * (1 + ((loop(\(x,i).2x,x,(if (x mod 2) <= 0 then ((x div 2) mod 2) else x)) mod (x + 1)) div 2)))
1: (2 * (1 + ((loop(\(x,i).2x,x,loop(\(x,i).2x,((((1 + (8 mod (1 + (x div 2)))) div 2) + (if x <= 0 then 0 else 1)) - (x mod 2)),1)) mod (x + 1)) div 2)))
1: ((1 + ((x mod 3) div 2)) * (1 + (x mod 3)))
1: ((1 + ((x mod 3) div 2)) * (x div 3))
1: (3 * (2 + ((x mod 3) div 2)))
1: (5 * (2 + ((x mod 3) div 2)))
1: (2 * (((x mod 3) div 2) + ((x + 1) div 3)))
1: (2 * (1 + ((x mod (2 + (((x div 2) mod 2) + (x mod 3)))) div 2)))
1: (2 * (1 + ((x mod (1 + (2 * (2 - (((x + ~1) div 2) mod 4))))) div 2)))
1: (2 * (1 + ((x mod (1 + (2 * ((x + ~2) mod (2 * (1 + (((x + 1) mod 5) mod 2))))))) div 2)))
1: (2 * (1 + ((x mod (1 + (2 * (x mod (3 - (x mod 2)))))) div 2)))
1: (3 * (4x + ((x mod (1 + (x div 2))) div 2)))
1: (3 * (x + ((x mod (1 + (x div 2))) div 2)))
1: (2 * (1 + ((x mod (2 + (x div 2))) div 3)))
1: ((1 + ((x mod (1 + (x div 4))) div 2)) * (1 + (x mod 2)))
1: (2 * (1 + ((x mod (1 + (x div (2 + (x div 8))))) div 2)))
1: (2 * (1 + ((x mod (1 + (x div (2 + ((x div 2) mod 2))))) div 2)))
1: (2 * (1 + ((x mod (1 + ((2 - (x mod 4)) mod (x + 1)))) div 2)))
1: (2 * (1 + ((x mod (1 + ((~1 + ((~2x + 2) mod (4 + (x div 4)))) mod (x + 1)))) div 2)))
1: (3 * (2 + ((x mod (2 + ((~1 + (x mod 5)) mod 3))) div 2)))
1: (2 * (2x + ((x mod (2 + ((x - ((~x + 1) div 3)) mod 3))) div 2)))
1: (3 * (2 + ((x mod (2 + ((x - (x div 3)) mod 3))) div 2)))
1: (3 * (1 + ((x mod (1 + (3x mod (2 + (x div 2))))) div 2)))
1: (2 * (x + ((x mod (2 + (2x2 mod 30))) div 2)))
1: (2 * (1 + ((x mod (1 + (loop(\(x,i).(2x + 2),(loop(\(x,i).x2,4,2) mod (x + 1)),1) mod (x + 1)))) div 2)))
1: (2 * (2 + ((x mod (2 + (x mod 3))) div 2)))
1: (2 * (1 + ((x mod (1 + loop(\(x,i).(1 + (((x + ~1) + loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x)) mod (x + 1))),2,x))) div 2)))
1: (2 * (2 + ((x mod 15) div 2)))
1: (2 * (1 + ((x mod (~1 + (((~1 + (x div 2)) div 2) * (x div 3)))) div 2)))
1: (2 * (2 + ((x mod (~2 + (if (x mod 4) <= 0 then x else 0))) div 2)))
1: ((1 + ((x mod (if (x + ~2) <= 0 then 1 else (x div 3))) div 2)) * (1 + (x mod 2)))
1: (2 * (2 + ((if (~2 + (x div 3)) <= 0 then x else (x + 4)) div 3)))
1: (2 * (x + ((if (x + ~4) <= 0 then 1 else x) div 2)))
1: (2 * (x + ((if (x + ~4) <= 0 then 1 else x) div 3)))
1: (2 * (2 + ((if ((x + 1) mod (2 + (x div 4))) <= 0 then 2 else x) div 2)))
1: (5 * (1 + ((if ((if x <= 0 then 1 else (x div ((if (x mod 2) <= 0 then 2 else x) mod 4))) mod 2) <= 0 then x else 1) div 3)))
1: (2 * (1 + ((if x <= 0 then 0 else ((2x + 1) - (if (x mod 4) <= 0 then (x div 4) else 0))) div 2)))
1: ((x + 1) * (1 + ((if x <= 0 then 0 else 9) div (x + 1))))
1: ((x + 1) * (1 + ((if x <= 0 then 1 else (18x2 + ~9)) div 2)))
1: ((x + 1) * (1 + ((if x <= 0 then 1 else x) div (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))))))
1: (2 * (1 + ((if x <= 0 then 2 else (1 + ((x + 3) mod (1 + (x div 4))))) div 2)))
1: (2 * (1 + ((if x <= 0 then 2 else (2 - ((x + 1) mod (1 + (2 * (if ((x + ~1) mod 4) <= 0 then 2 else 1)))))) div 2)))
1: (2 * (2 + ((if x <= 0 then 2 else (~2 + loop(\(x,i).4x,(x + 1),2))) div 2)))
1: (2 * (1 + ((if x <= 0 then 2 else ((x + 1) - ((x mod 6) mod (1 + (x div 2))))) div 2)))
1: (2 * (1 + ((if x <= 0 then 2 else (x mod (2 + (x mod (1 + (x div 3)))))) div 2)))
1: (2 * (1 + (loop(\(x,i).((x + 1) + (3 * (x div 5))),x,1) div (x + 1))))
1: (2 * (2 + (loop(\(x,i).((x + 1) + loop(\(x,i).((if x <= 0 then 2 else loop(\(x,i).(x div (2 - (x mod 2))),x,x)) div 2),2,x) - (x mod 2)),x,1) div 2)))
1: (2 * ((loop(\(x,i).((5x + 1) - (x mod 3)),x,2) div 2) + (x mod 3)))
1: (2 * (1 + (loop(\(x,i).(7x + 1),x,1) div (x + 1))))
1: (2 * (1 + (loop(\(x,i).(3x + 7),x,1) div 5)))
1: (2 * (1 + (loop(\(x,i).(2x + 1),x,loop(\(x,i).2x,x,2)) div 3)))
1: (2 * (1 + (loop(\(x,i).(x + (x div (2 + (x mod 2)))),x,2) div (x + 2))))
1: (x * (1 + (loop(\(x,i).(~6x2 + 3x),2,x) div (x + 1))))
1: (x * (1 + (loop(\(x,i).3x,(x3 + 2x),1) div 2)))
1: (5 * (1 + (loop(\(x,i).3x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 3)))
1: (x * (1 + (loop(\(x,i).3x,(x div 2),1) div 2)))
1: (2 * (1 + (loop(\(x,i).(x * (1 + (x mod 5))),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2)))
1: (5 * (1 + (loop(\(x,i).(3x + 3),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2)))
1: (2 * (1 + (loop(\(x,i).(2x + 4),(x + ~2),0) div (2x + 1))))
1: (2 * (1 + (loop(\(x,i).(2 * (2x - (2x * (x div 2)))),x,1) div 2)))
1: (3 * (2 + (loop(\(x,i).(2 * (x - (x div ~7))),x,1) div 2)))
1: (2 * (x + (loop(\(x,i).4x,x,2) div (x + 1))))
1: (2 * (x + (loop(\(x,i).x3,x,2) div (x + 1))))
1: ((x + 1) * (2 + (loop(\(x,i).(x * ((1 + i) div 2)),x,1) div 3)))
1: (2 * (2 + (loop(\(x,i).2x,x,1) div 2)))
1: (2 * (1 + (loop(\(x,i).2x,x,1) div loop(\(x,i).(1 + (i div (x + 2))),x,1))))
1: (2 * (2 + (loop(\(x,i).2x,x,2) div (x + 1))))
1: (3 * (1 + (loop(\(x,i).x2,1,(1 + ((x mod (1 + (31 mod (x + 1)))) div 3))) div 3)))
1: (2 * (1 + (loop(\(x,i).x2,1,(1 + (x mod (1 + ((4 + (x div 2)) mod (1 + (x div 3))))))) div 2)))
1: (2 * (2 + (loop(\(x,i).x2,2,(4x + ~1)) div (x + 1))))
1: (3 * (x + (loop(\(x,i).x2,(x2 + ~2),2) div 2)))
1: (2 * (1 + (loop(\(x,i).(x * i),(1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)),1) div 2)))
1: (x * (x + (loop(\(x,i).(x * i),x,1) div (x + 2))))
1: (3 * (1 + (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,x2) div 3)))
1: (x * (x + (loop(\(x,i).((3x * (i * i)) div 2),x,1) div (x + 1))))
1: (5 * (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2)))
1: ((x + ~1) * (1 + (loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),x,(1 + (x div 2))) div 2)))
1: (2 * (1 + (loop(\(x,i).(x div (2 - (x mod 2))),2,x) div 3)))
1: ((x + 1) * (1 + (loop(\(x,i).(if (x mod (3 + (i mod 2))) <= 0 then 1 else x),x,(x + 1)) div 5)))
1: (2 * (1 + (loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),x,(2x + 1)) div (x + 1))))
1: (2 * (1 + (loop(\(x,i).(if x <= 0 then i else (x div 2)),x,0) div 2)))
1: ((~x + 1) * (1 + (x div 2)))
1: (5 * (2 + (x div 2)))
1: ((x + 3) * (2 + (x div 2)))
1: ((~x + 2) * (2 + (x div 2)))
1: ((x + ~2) * (2 + (x div 2)))
1: ((2 + (x div 2)) * ((x + 1) div 2))
1: (2 * ((2x + (x div 2)) * i))
1: ((2x + (x div 2)) * (x mod 2))
1: (x * (2x + (x div 2)))
1: ((x + 1) * (x + (x div 2)))
1: ((x + (x div 2)) * (~1 + (x div 2)))
1: ((x + (x div 2)) * ((x + 1) div 2))
1: ((x + (x div 2)) * ((x div 2) mod 2))
1: (3 * (1 + (x div 3)))
1: ((~x + 2) * (1 + (x div 3)))
1: ((2 + (x div 3)) * (1 + (x div 4)))
1: ((2 + (x div 3)) * (x div 3))
1: ((2 + (x div 3)) * i)
1: (3 * (x + (x div 3)))
1: (4 * (x + (x div 3)))
1: ((1 + (x div 4)) * (1 + (x div 2)))
1: ((1 + (x div 4)) * (1 + (x mod 2)))
1: ((x + 2) * (1 + (x div 4)))
1: ((1 + (x div 4)) * ((x + ~1) div 2))
1: ((1 + (x div 4)) * (x div 2))
1: ((1 + (x div 4)) * (x div 4))
1: ((1 + (x div 4)) * (x div 5))
1: ((2 + (x div 4)) * (1 + (x mod 3)))
1: ((2 + (x div 4)) * (1 + (x mod 4)))
1: ((x + 2) * (2 + (x div 4)))
1: ((~x + 2) * (2 + (x div 4)))
1: ((2 + (x div 4)) * ((x + 1) div 3))
1: ((2 + (x div 4)) * ((x + ~1) mod 3))
1: ((2 + (x div 4)) * (if (~x + 2) <= 0 then 2 else 1))
1: (3 * ((2x + 2) + (x div 4)))
1: (2 * (2x + (x div 4)))
1: (4 * (x + (x div 4)))
1: ((x + (x div 4)) * (x div ~4))
1: ((1 + (x div 5)) * (3 + (x mod 2)))
1: ((x + 1) * (1 + (x div 5)))
1: ((x + 2) * (1 + (x div 5)))
1: ((x + ~1) * (1 + (x div 5)))
1: (3 * (2 + (x div 5)))
1: ((2 + (x div 5)) * (1 + (x mod 2)))
1: (3 * ((x div 5) + (x div 3)))
1: (2 * ((x div 5) + (x div 4)))
1: (5 * (x + (x div 5)))
1: (9 * (x + (x div 5)))
1: ((x + 1) * (x + (x div 5)))
1: ((x + ~1) * (x + (x div 5)))
1: (x * (x + (x div 5)))
1: (2 * (1 + (x div (3 + ((x2 mod (x + 5)) div 2)))))
1: (2 * (2x + (x div (4 + (x div 2)))))
1: ((x + 1) * ((x div (4 + (x div 2))) + ((((x + 1) div 2) div 2) div 2)))
1: (2 * (x + (x div (4 + (x div 2)))))
1: (2 * (2x + (x div (4 + (x div 4)))))
1: (2 * ((x div (4 + (x div 4))) + ((x + 2) div 3)))
1: (2 * (1 + (x div (4 + (x div (1 + ((x + ~1) mod 5)))))))
1: (2 * (1 + (x div (4 + (8 mod (1 + (x div 2)))))))
1: (2 * ((x div (4 + (8 mod (1 + (x div 2))))) + (x mod 2)))
1: (3 * (x + (x div (4 + (8 mod (1 + (x div 2)))))))
1: (2 * (2 + (x div (3 + ((x div 2) mod 5)))))
1: (2 * (x + (x div (4 + ((x div 4) mod 2)))))
1: (2 * (2 + (x div (1 + (((if (x mod 2) <= 0 then 1 else x) mod 4) + ((x mod 3) div 2))))))
1: (2 * (1 + (x div (4 + (x mod 2)))))
1: ((x + 1) * (1 + (x div (4 + (x mod (2 + (x mod 2)))))))
1: (2 * (x + (x div (4 + i))))
1: (2 * (1 + (x div (11 - (x div 2)))))
1: (2 * (1 + (x div (3 + ((x + 1) mod (1 + (x div (2 + (x mod (2 + (x mod 2))))))) - (x mod 2)))))
1: ((x + 2) * (1 + (x div 7)))
1: (3 * (2 + (x div 7)))
1: (3 * ((x div 7) + (if x <= 0 then 0 else 1)))
1: (3 * (x + (x div 7)))
1: (4 * (x + (x div 7)))
1: (2 * (6 + (x div 9)))
1: (2 * ((x div 9) + (x div 5)))
1: (2 * (x + (x div 9)))
1: (4 * (x + (x div 9)))
1: (9 * (x + (x div 9)))
1: (4 * (x + (x div 13)))
1: (2 * (2 + (x div (1 + (2 * (1 + ((x + ~1) mod 3)))))))
1: (2 * (x + (x div (1 + (2 * (2 + (x mod (2 + (x div 4)))))))))
1: (2 * ((x div (1 + (4 * (1 + (2 * (x mod 2)))))) + (x mod 2)))
1: (2 * (x + (x div (1 + (4 * i)))))
1: ((x + 1) * (2 + (x div (2 + ((x div 2) div 3)))))
1: (2 * (x + (x div (2 + ((x div 2) div 3)))))
1: ((1 + (x div (2 + ((x div 2) div (1 + (2 * ((x div 2) mod 2))))))) * (x mod 2))
1: ((1 + (x div (2 + ((x div 2) div (1 + (((1 + (x div 2)) div 2) div 2)))))) * (1 + (x div 4)))
1: ((2 + (x div (2 + ((x mod 3) div 2)))) * (1 + (x mod 2)))
1: ((2 + (x div (2 + (x div (1 + (2 * ((((x + ~1) div 2) div 2) mod 2))))))) * (x mod 2))
1: (2 * (1 + (x div (2 + (x div (2 + (((x + 2) mod 5) div 2)))))))
1: (2 * (1 + (x div (2 + (x div (2 + ((x * (x div 2)) mod 2)))))))
1: ((x + 1) * ((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)))
1: (((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)) * (if ((x + 1) mod 12) <= 0 then 2 else 1))
1: ((2 + (x div (2 + (x div (1 + ((x div 2) mod (1 + (x mod 4)))))))) * (x mod 2))
1: (2 * (1 + (x div (2 + (x div (1 + ((loop(\(x,i).(x2 + x),1,loop(\(x,i).(if x <= 0 then i else (x div 2)),x,0)) mod (x + 1)) mod 3)))))))
1: ((1 + (x div (2 + (x div (1 + (x mod 4)))))) * (x mod 2))
1: ((x + 1) * (1 + (x div (2 + (x div (2 + (x mod 10)))))))
1: (2 * (1 + (x div (2 + (x div (1 + (x mod (2 * (1 + (x mod 2))))))))))
1: (x * (1 + (x div (2 + (x div 12)))))
1: ((x + 1) * (1 + (x div (1 + (5 mod (1 + (x mod 6)))))))
1: (2 * (1 + (x div (1 + ((1 + ((((1 + (x mod (1 + (x mod (2 * (2 + ((x div 2) mod 2))))))) mod (x + 1)) div 2) + (x mod 2))) mod (x + 1))))))
1: (2 * (1 + (x div (2 + ((0 + (2 * (1 + ((loop(\(x,i).2x,x,2) mod (2 + (x div 4))) div 2))) - (x mod 2)) mod (x + 1))))))
1: (2 * (1 + (x div (2 + ((1 + (2 * (if x <= 0 then 1 else (2 + (x mod (2 + (x div 4))))))) mod (x + 1))))))
1: ((x + 1) * (1 + (x div (2 + ((1 + (x div 5)) mod 4)))))
1: ((1 + (x div (2 + ((1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)) mod (x + 1))))) * ((x mod 3) div 2))
1: (2 * (1 + (x div (2 + ((x + 1) mod (4 - (x mod 2)))))))
1: (2 * (2 + (x div (1 + ((~1 + loop(\(x,i).2x,(x + ~2),2)) mod (x + 1))))))
1: (3 * (1 + (x div (1 + ((~1 + loop(\(x,i).2x,x,(2 + (x mod 2)))) mod (x + 1))))))
1: (2 * (1 + (x div (2 + (((1 + ((x mod 3) div 2)) * (1 + (x mod 2))) mod (x + 1))))))
1: (2 * (1 + (x div (2 + ((6 * (1 + ((x mod (1 + (loop(\(x,i).(2x + 2),(loop(\(x,i).x2,4,2) mod (x + 1)),1) mod (x + 1)))) div 2))) mod (x + 1))))))
1: (2 * (1 + (x div (2 + (((x2 + x) div 4) mod (2x + 1))))))
1: ((x + 1) * (1 + (x div (1 + ((x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4)))))) mod (1 + (x div 2)))))))
1: (2 * (1 + (x div (2 + ((if x <= 0 then 1 else (2 * (1 + ((1 + ((loop(\(x,i).2x,x,2) mod (x + 1)) div 2)) div 2)))) mod (x + 1))))))
1: (2 * (2 + (x div (1 + (loop(\(x,i).(x2 + x + 2),2,12) mod (x + 1))))))
1: (x * (1 + (x div (2 + (loop(\(x,i).(1 - (x * i)),x,1) mod (x + 1))))))
1: (5 * (1 + (x div (2 + (loop(\(x,i).(2x + 2),x,1) mod (x + 1))))))
1: (2 * (1 + (x div (2 + (loop(\(x,i).(x * (2 + i)),4,2) mod (x + 1))))))
1: ((2 + (x div (1 + (x mod 2)))) * (2 + (x div 2)))
1: ((x + 1) * (2 + (x div (1 + (x mod 2)))))
1: ((x + (x div (1 + (x mod 2)))) * ((x + 1) div 2))
1: (x * ((x div (2 + (x mod 2))) + (x div 2)))
1: (x * (x + (x div (2 + (x mod 2)))))
1: (2 * (1 + (x div (1 + (x mod 5)))))
1: (2 * (2 + (x div (1 + (x mod 5)))))
1: (2 * (1 + (x div (2 + (x mod (1 + ((x + 1) div (1 + (((2x div (1 + (x div 4))) mod 2) + (x mod 2))))))))))
1: (2 * (1 + (x div (2 + (x mod (1 + (x div 4)))))))
1: (3 * (1 + (x div (2 + (x mod (2 + (x div (1 + ((((x + ~2) mod (2 - (x div ~3))) mod 2) + (x mod 2))))))))))
1: (5 * (1 + (x div (1 + (x mod (2 + (x div (1 + (2 * ((x mod (~1 + (2 * (x div 3)))) mod 2))))))))))
1: (3 * (1 + (x div (1 + (x mod (1 + (loop(\(x,i).(x2 + 2x),1,(loop(\(x,i).(2x + 1),x,0) mod (x + 1))) mod (x + 1))))))))
1: (3 * (1 + (x div (1 + (x mod (1 + (x mod (2 + (x div (3 - (x mod 2)))))))))))
1: (2 * (1 + (x div (1 + (x mod (1 + (x mod (1 + (x div (2 + (x div 5)))))))))))
1: (2 * (1 + (x div (1 + (if ((x * (x div 2)) mod 2) <= 0 then x else (x mod 3))))))
1: (2 * (1 + (x div (2 + (if (((x + 1) div 2) mod 5) <= 0 then 1 else 2)))))
1: (2 * (1 + (x div (1 + (if (x mod 2) <= 0 then ((x div 2) mod 2) else 3)))))
1: (2 * (1 + (x div (2 + (if (x mod 10) <= 0 then 1 else 2)))))
1: (3 * (x + (x div (1 + i))))
1: (5 * (x + (x div ~7)))
1: (7 * (1 + (x div (10 - (x div 2)))))
1: (2 * (1 + (x div (2 - ((x div 2) div ~2)))))
1: (2 * (1 + (x div (2 - ((x * (x div 2)) mod 2)))))
1: ((x + ~1) * (2 + (x div (2 - ((x div 2) mod 2)))))
1: ((x + 1) * (1 + (x div (2 - (x mod 2)))))
1: (2 * (2 + (x div (4 - (x mod 3)))))
1: (2 * (2x + (x div ~5)))
1: (4 * (x + (x div 11)))
1: (2 * (2 + (x div 15)))
1: (2 * (x + (x div 15)))
1: ((1 + (x div 8)) * (1 + ((x div 3) mod 2)))
1: ((x + 1) * (1 + (x div 8)))
1: ((x + 2) * (1 + (x div 8)))
1: ((1 + (x div 8)) * (x div 7))
1: ((2 + (x div 8)) * (2 + (x mod 2)))
1: ((2 + (x div 8)) * (((x + 1) div 2) div 2))
1: (2 * (12 + (x div 8)))
1: (2 * ((4x + 4) + (x div 8)))
1: (2 * ((2x + 2) + (x div 8)))
1: (2 * ((3x + 3) + (x div 8)))
1: (3 * ((x div 8) + (x div 2)))
1: (2 * ((x div 8) + (x div 3)))
1: (2 * ((x div 8) + (x mod 2)))
1: (2 * ((x div 8) + (x mod 4)))
1: (2 * ((x div 8) + (if x <= 0 then 1 else 2)))
1: (5 * (x + (x div 8)))
1: ((x + 2) * (x + (x div 8)))
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1: ((3 + (x2 mod (2x + ~1))) * (1 + (x div 2)))
1: ((1 + (x2 mod (~1 + ((~2x + 2) mod (4 + (x div 4)))))) * (1 + (x div 3)))
1: (2 * (1 + (x2 mod (2x + 16))))
1: (2 * (1 + (x2 mod (2 * (1 + (x div 5))))))
1: ((x + 1) * (2 + (((~x + 3) div 3) mod (x + 1))))
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1: (2 * (2 + (((2 - (((~2x + 2) mod (4 + (x div 4))) div 2)) div 2) mod (x + 1))))
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1: (2 * (2 + (x mod (~5 + (x mod 2)))))
1: (2 * (x + (x mod (~1 + (x * (x div 2))))))
1: (2 * (1 + (x mod (~1 + (3 * (((x + ~1) div 2) mod 3))))))
1: (2 * (x + (x mod ((x + ~1) - (x mod 12)))))
1: ((x + 1) * (1 + (x mod ((x + 1) - ((if (x mod 4) <= 0 then 2 else (x mod 2)) mod (1 + (x div 3)))))))
1: (2 * (2 + (x mod (x - ((x + ~1) mod 8)))))
1: (5 * (2 + (x mod 6)))
1: ((x + 1) * (1 + (x mod 8)))
1: (3 * (2 + (x mod 8)))
1: (2 * (12 + (x mod 8)))
1: ((1 + (x mod 12)) * (1 + (x div 2)))
1: (9 * (x + (x mod 10)))
1: ((x + 1) * (1 + (x mod (2 * (2 + (3 * (x mod 2)))))))
1: (2 * (1 + (x mod (2 * (1 + ((2 * (2x div 3)) div 3))))))
1: ((x + 1) * (1 + (x mod (2 * (2 + (x div 3))))))
1: (3 * (1 + (x mod (2 * (1 + ((x + 1) mod 6))))))
1: (2 * (1 + (x mod (2 * (1 + ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 10))))))
1: (2 * (1 + (x mod (2 * (1 + ((~1 + (x div 2)) mod 4))))))
1: (2 * (1 + (x mod (2 * (2 + ((x + ~1) mod 3))))))
1: ((x + 1) * (1 + (x mod (2 * (2 + ((x2 + x) mod 8))))))
1: (3 * (1 + (x mod (3 * (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 8))))))
1: (2 * (1 + (x mod (2 * (1 + (x mod 2))))))
1: ((1 + (x mod (2 * (1 + (x mod 2))))) * (1 + ((1 + (x div 4)) div 2)))
1: ((x + 2) * (1 + (x mod (2 * (1 + (x mod 2))))))
1: ((x + 2) * (1 + (x mod (~2 * (1 + (x mod 2))))))
1: (2 * (2 + (x mod (2 * (2 + (x mod 2))))))
1: (2 * (1 + (x mod (2 * (1 + (x mod (1 + ((2 - (x div 2)) mod 4))))))))
1: (2 * (1 + (x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4))))))))
1: (3 * (2 + (x mod (5 * (1 + (x mod (2 + (x mod 2))))))))
1: (2 * (1 + (x mod (2 * (1 + (x mod (2 * (1 + ((~1 + (x div 2)) mod 4)))))))))
1: (2 * (1 + (x mod (2 * (2 + (if (x mod 4) <= 0 then 2 else 0))))))
1: (x * (1 + (x mod (2 * (2 - (x mod 2))))))
1: (2 * (1 + (x mod (2 * (~2 + (x mod 2))))))
1: ((1 + (x mod (2 * (~2 + (x mod 2))))) * (1 + ((1 + (x div 3)) div 2)))
1: (2 * (1 + (x mod (4 * (1 + (2 * (x mod 2)))))))
1: (2 * (1 + (x mod (2 * ((~1 + (6 * (1 + ((1 + (x mod (1 + (2 * (if (16 mod (x + 1)) <= 0 then 1 else 2))))) div 3)))) div 2)))))
1: ((x + 1) * (1 + (x mod (if (~2 + (x div 2)) <= 0 then 1 else 2))))
1: (9 * (x + (x mod (if (~2 + (x div 4)) <= 0 then 1 else 4))))
1: ((2 + (i mod 2)) * (1 + i))
1: ((2x + (i mod 2)) * (if x <= 0 then 1 else 2))
1: (x * (2x + (i mod 2)))
1: ((x + (i mod 2)) * (1 + (2 * i)))
1: ((x + 1) * (x + (i mod 2)))
1: (8 * (x + (i mod 2)))
1: (x * (2 + (if (~x + 4) <= 0 then x else 1)))
1: (4 * (x + (if (~x + 4) <= 0 then x else 1)))
1: (4 * (x + (if (~x + 4) <= 0 then x else 2)))
1: (3 * (2 + (if (1 + ((x + 1) * loop(\(x,i).(x * (1 - loop(\(x,i).3x,x,loop(\(x,i).(3x + ~6),x,0)))),x,1))) <= 0 then x else 2)))
1: (2 * (1 + (if (2 - (x div 4)) <= 0 then (x div 2) else 4)))
1: (3 * (1 + (if (2 - (x div 4)) <= 0 then x else 8)))
1: (3 * (1 + (if (~x + 2) <= 0 then 2 else 1)))
1: (7 * (1 + (if (~x + 2) <= 0 then 2 else 1)))
1: ((x + 4) * (2 + (if (~x + 2) <= 0 then 2 else 1)))
1: (x * (2 + (if (~x + 2) <= 0 then 2 else 1)))
1: ((2 + (if (~x + 2) <= 0 then 2 else 1)) * i)
1: (2 * ((if (~x + 2) <= 0 then 2 else 1) + (x mod 2)))
1: (2 * (x + (if (~x + 2) <= 0 then (1 + (2 * ((x + 1) + (if (x + ~2) <= 0 then 1 else 2)))) else 1)))
1: (2 * ((if (~x + 2) <= 0 then (1 - (x mod (1 + (4 * (x mod 2))))) else 1) + (x mod 2)))
1: (x * (2 + (if (~x + 2) <= 0 then 8 else 1)))
1: (2 * (1 + (if (~x + 2) <= 0 then x else 0)))
1: ((x + 1) * (1 + (if (~x + 2) <= 0 then x else 0)))
1: (3 * (2 + (if (~x + 2) <= 0 then x else 0)))
1: ((x + 2) * (2 + (if (~x + 2) <= 0 then x else 0)))
1: ((2x2 + 1) * (1 + (if (~x + 2) <= 0 then x else 2)))
1: (x * (1 + (if (~x + 2) <= 0 then x else 2)))
1: ((x + 1) * (2 + (if (~x + 2) <= 0 then x else 2)))
1: ((2x + (if (~x + 2) <= 0 then x else 2)) * (1 + (x div 2)))
1: ((x + 1) * (x + (if (~x + 2) <= 0 then x else 2)))
1: (2 * (x + (if (2 - i) <= 0 then x else 1)))
1: (3 * (x + (if (2 - i) <= 0 then x else 1)))
1: (4 * (x + (if (2 - i) <= 0 then x else 1)))
1: (x * (x + (if (2 - i) <= 0 then x else 1)))
1: (9 * (x + (if (~4 + (x div 2)) <= 0 then 1 else 2)))
1: (11 * (x + (if (~4 + (x div 2)) <= 0 then 1 else 2)))
1: ((x + (if (~4 + (x div 2)) <= 0 then 1 else 2)) * ((x + 1) mod 4))
1: ((x + (if (~4 + (x div 2)) <= 0 then 1 else 2)) * (if x <= 0 then 1 else 2))
1: (2 * (x + (if (~4 + (x div 2)) <= 0 then 2 else 0)))
1: ((1 + (if (~4 + (x div 2)) <= 0 then 2 else 1)) * (x mod 2))
1: (3 * (1 + (if (~4 + (x div 2)) <= 0 then x else (x + 2))))
1: (3 * (x + (if (~1 + (x div 2)) <= 0 then 1 else (1 - (x div ~4)))))
1: (2 * (4x + (if (~2 + (x div 2)) <= 0 then 0 else 1)))
1: ((x + 1) * ((3x + 3) + (if (~2 + (x div 2)) <= 0 then 1 else 0)))
1: (2 * (4x + (if (~2 + (x div 2)) <= 0 then 1 else 2)))
1: (2 * (x + (if (~2 + (x div 2)) <= 0 then 1 else 2)))
1: (3 * (x + (if (~2 + (x div 2)) <= 0 then 1 else 2)))
1: (5 * (x + (if (~2 + (x div 2)) <= 0 then 1 else 2)))
1: (2x * (x + (if (~2 + (x div 2)) <= 0 then 1 else 2)))
1: ((x + 2) * (x + (if (~2 + (x div 2)) <= 0 then 1 else x)))
1: (2 * ((if (~2 + (x div 2)) <= 0 then 2 else 1) + (x mod 2)))
1: (2 * (1 + (if (~2 + (x div 2)) <= 0 then 6 else x)))
1: (2 * (1 + (if (~2 + (x div 2)) <= 0 then x else (x + 2))))
1: ((x + 2) * (1 + (if (~2 + (x div 2)) <= 0 then x else (x + 2))))
1: (2 * (2 + (if (~2 + (x div 2)) <= 0 then x else 6)))
1: (x * (2 + (if (~6 + (x div 2)) <= 0 then 0 else x)))
1: (2 * (x + (if (~6 + (x div 2)) <= 0 then 2 else (x div 3))))
1: ((x + 1) * (2 + (if (~2 + (x div 3)) <= 0 then 1 else 2)))
1: (2 * (x + (if (~2 + (x div 3)) <= 0 then 1 else 2)))
1: (3 * (x + (if (~2 + (x div 3)) <= 0 then 1 else 2)))
1: (9 * (x + (if (~2 + (x div 3)) <= 0 then 1 else 2)))
1: (11 * (x + (if (~2 + (x div 3)) <= 0 then 1 else 2)))
1: ((x + (if (~2 + (x div 3)) <= 0 then 1 else 2)) * ((x + 1) div 2))
1: ((x + 1) * (1 + (if (~2 + (x div 3)) <= 0 then 10 else 0)))
1: (9 * (1 + (if (~2 + (x div 3)) <= 0 then x else (x + 2))))
1: (9 * (2 + (if (~2 + (x div 3)) <= 0 then x else (x + 2))))
1: (2 * ((if (~2 + (x div 3)) <= 0 then x else (x + 2)) + (x div 4)))
1: (9 * (1 + (if (~1 + (x div 4)) <= 0 then x else 8)))
1: ((x + 1) * (2 + (if (~2 + (x div 4)) <= 0 then 1 else 2)))
1: ((x + 1) * ((if (~2 + (x div 4)) <= 0 then 1 else 2) + (x div 3)))
1: (x * ((if (~2 + (x div 4)) <= 0 then 1 else 2) + (x div 3)))
1: (4 * (x + (if (~2 + (x div 4)) <= 0 then 1 else 2)))
1: (2 * (1 + (if (~2 + (x div 4)) <= 0 then x else (x + 2))))
1: ((x + 1) * (2 + (if (~2 + (x div 5)) <= 0 then 0 else 2)))
1: (2 * ((if (~2 + (x div 5)) <= 0 then 0 else 2) + (((x + 1) div 2) div 2)))
1: (2 * (1 + (if (~4 + ((x + 1) mod 8)) <= 0 then 1 else 0)))
1: (2 * (2x + (if ((2x mod 7) - (x mod 2)) <= 0 then 2 else 1)))
1: ((1 + (if (~1 + (x mod 3)) <= 0 then 2 else 0)) * (2 - (x mod 2)))
1: (2 * ((if (~2 + (x mod 5)) <= 0 then 1 else 2) + (x mod 2)))
1: (2 * (1 + (if (x + ~1) <= 0 then 0 else (1 + ((x div 2) div (1 + (x mod (2 + ((x mod 3) div 2)))))))))
1: (2 * (2 + (if (x + ~1) <= 0 then 1 else (2 + (loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1))))))
1: (3 * (x + (if (x + ~1) <= 0 then 1 else ((1 + (x div 2)) div 2))))
1: (2 * (x + (if (x + ~1) <= 0 then 2 else (x + ((x + ((x div 2) mod 2)) div 2)))))
1: (2 * (x + (if (x + ~1) <= 0 then 2 else (3x + ~3))))
1: ((x + 1) * (2 + (if (x + ~1) <= 0 then 5 else 3x)))
1: (2 * (2 + (if (x + ~1) <= 0 then (~2x + 4) else 1)))
1: ((2 + (if (x + ~1) <= 0 then x else 0)) * (1 + (if x <= 0 then 1 else 2)))
1: ((x + 2) * (1 + (if (x + ~1) <= 0 then x else 2)))
1: (2 * (2 + (if (x + ~1) <= 0 then x else 2)))
1: ((x + 1) * (2 + (if (x + ~1) <= 0 then x else 2)))
1: (5 * (2x + (if (x + ~1) <= 0 then x else 2)))
1: ((x + 1) * (x + (if (x + ~1) <= 0 then x else 2)))
1: (2 * (2 + (if (x + ~1) <= 0 then x else 3)))
1: (x * (1 + (if (x + ~1) <= 0 then x else (2 + ((2 * (x div 2)) div 3)))))
1: (2 * (1 + (if (x + ~1) <= 0 then x else 8)))
1: (2 * (1 + (if (x + ~1) <= 0 then x else ((x2 + 2x) div 4))))
1: (2 * (1 + (if (x + ~2) <= 0 then 0 else (2 + (x mod 2)))))
1: ((2x + (if (x + ~2) <= 0 then 1 else 2)) * (1 + (x div 5)))
1: (2 * (x + (if (x + ~2) <= 0 then 1 else 2)))
1: (3 * (x + (if (x + ~2) <= 0 then 1 else 2)))
1: (5 * (x + (if (x + ~2) <= 0 then 1 else 2)))
1: (2 * (x + (if (x + ~2) <= 0 then 1 else (2 + (if (~2 + (x div 4)) <= 0 then 0 else 2)))))
1: (2 * (x + (if (x + ~2) <= 0 then 1 else (x + ~2))))
1: (3 * (2 + (if (x + ~2) <= 0 then 1 else 8)))
1: (x * (x + (if (x + ~2) <= 0 then 1 else 2x)))
1: ((x + (if (x + ~2) <= 0 then 1 else (x2 div 2))) * (1 + (x div 2)))
1: (x * (1 + (if (x + ~2) <= 0 then 1 else x)))
1: (2 * (4x + (if (x + ~2) <= 0 then 1 else x)))
1: ((x + 2) * (x + (if (x + ~2) <= 0 then 1 else x)))
1: ((x + (if (x + ~2) <= 0 then 1 else x)) * (x div 2))
1: (x * (x + (if (x + ~2) <= 0 then 2 else 1)))
1: (2 * (x + (if (x + ~2) <= 0 then 2 else (8x2 + 8x))))
1: (3 * (x + (if (x + ~2) <= 0 then 2 else (x2 * (x div 2)))))
1: (x * (1 + (if (x + ~2) <= 0 then 2 else i)))
1: (x * (4 + (if (x + ~2) <= 0 then 3 else x)))
1: (x * (1 + (if (x + ~2) <= 0 then x else 1)))
1: (x * (1 + (if (x + ~2) <= 0 then x else 3)))
1: (2 * (2 + (if (x + ~2) <= 0 then x else (x + 2))))
1: (2 * (1 + (if (x + ~2) <= 0 then x else (x - (x div ~4)))))
1: (2 * (x + (if (x + ~3) <= 0 then 1 else 8)))
1: (2 * ((if (x + ~3) <= 0 then 2 else 0) + loop(\(x,i).2x,x,1)))
1: (2 * (x + (if (x + ~3) <= 0 then 2 else (((x + 1) - ((x div 2) mod 2)) div 2))))
1: (x * (1 + (if (x + ~4) <= 0 then 0 else 2)))
1: (3 * (2 + (if (x + ~4) <= 0 then 0 else 2)))
1: ((2 + (if (x + ~4) <= 0 then 0 else 2)) * (x div 2))
1: (5 * (1 + (if (x + ~4) <= 0 then 0 else (1 + (x mod (1 + (x mod 4)))))))
1: (2 * (x + (if (x + ~4) <= 0 then 1 else 0)))
1: (x * (2 + (if (x + ~4) <= 0 then 1 else 2)))
1: (3 * (x + (if (x + ~4) <= 0 then 1 else 2)))
1: (5 * (x + (if (x + ~4) <= 0 then 1 else 2)))
1: ((x + 2) * (x + (if (x + ~4) <= 0 then 1 else 2)))
1: (~2 * (x + (if (x + ~4) <= 0 then 1 else 2)))
1: (2 * (2 + (if (x + ~4) <= 0 then 1 else x)))
1: (x * (2 + (if (x + ~4) <= 0 then 1 else x)))
1: ((x + 2) * (x + (if (x + ~4) <= 0 then 1 else x)))
1: (x * (x + (if (x + ~4) <= 0 then 2 else 1)))
1: ((x + 1) * (1 + (if (x + ~6) <= 0 then 0 else 2)))
1: (2 * (2 + (if (x + ~6) <= 0 then 0 else 2)))
1: ((x + 1) * (x + (if (x + ~6) <= 0 then 1 else 0)))
1: (2 * (2 + (if (x + ~8) <= 0 then 9 else x)))
1: ((x + 1) * (1 + (if (x + ~12) <= 0 then (x mod 2) else 1)))
1: (3 * (x + (if (x + ~10) <= 0 then 1 else 2)))
1: (9 * (x + (if (x + ~10) <= 0 then 1 else 2)))
1: (2 * (x + (if (~2 + i) <= 0 then 1 else x)))
1: (x * (2 + (if (~2 + i) <= 0 then x else 2)))
1: (x * (2 + (if (~2 + i) <= 0 then i else 1)))
1: (x * (1 + (if (~x + i) <= 0 then 0 else i)))
1: (2 * (x + (if x2 <= 0 then 1 else (1 + (2 * loop(\(x,i).4x,(x + ~2),3))))))
1: (2 * (x + (if ((x mod 3) div 2) <= 0 then 1 else x)))
1: (4 * ((x + 2) + (if (x div 2) <= 0 then (1 + (8 * (x mod 2))) else 1)))
1: (2 * (2 + (if (9 mod (x + 1)) <= 0 then 0 else 2)))
1: (2 * ((2x + 2) + (if ((1 + (x div 2)) mod 6) <= 0 then 2 else 0)))
1: (x * (1 + (if ((x + (x div 2)) mod 5) <= 0 then 2 else 1)))
1: ((1 + (if ((1 + (x div 4)) mod (2 + (x mod 4))) <= 0 then 2 else 0)) * (1 + (x mod 2)))
1: ((1 + (if ((x + 1) mod 5) <= 0 then 2 else 0)) * (1 + (x mod 2)))
1: (2 * ((if ((x + 1) mod (1 + (x div 4))) <= 0 then 1 else 2) + ((x mod 3) div 2)))
1: ((x + 1) * (1 + (if ((x + 1) mod (2 + (x mod 3))) <= 0 then 0 else 2)))
1: (2 * (1 + (if ((x + 1) mod (1 - (x div ~5))) <= 0 then 1 else 2)))
1: (2 * (2 + (if ((x + 1) mod 8) <= 0 then 1 else 2)))
1: (7 * (4x + (if ((x + 2) mod 4) <= 0 then 2 else 1)))
1: (2 * (1 + (if ((x + 2) mod (4 + (x div 3))) <= 0 then 2 else 0)))
1: (2 * (x + (if ((x + ~1) mod 3) <= 0 then 1 else x)))
1: (5 * (1 + (if ((x + ~1) mod 3) <= 0 then 2x else 0)))
1: (3 * (2 + (if ((x + ~1) mod 4) <= 0 then 2 else 1)))
1: (2 * (x + (if ((x + ~1) mod 7) <= 0 then 1 else 2)))
1: (2 * (x + (if ((x2 + ~x) mod 5) <= 0 then (x mod 8) else 1)))
1: ((x + 1) * ((if (16 mod (x + 1)) <= 0 then 1 else 2) + (2 * (x mod 2))))
1: ((x + 1) * (1 + (if (16 mod (x + 1)) <= 0 then 2 else 0)))
1: ((1 + (if ((x * (x mod 3)) mod 5) <= 0 then 0 else 2)) * (x div 8))
1: (3 * (1 + (if (2x mod (4 + (x div 4))) <= 0 then 2 else 0)))
1: (3 * (1 + (if (2x mod (4 + (x div 4))) <= 0 then (2 + (if x <= 0 then 0 else (x + 2))) else 0)))
1: ((1 + (if ((x div 2) mod 2) <= 0 then 28 else 1)) * (if x <= 0 then 1 else 2))
1: (2 * ((if ((x div 2) mod 3) <= 0 then 1 else 2) + (x div 3)))
1: (x * (x + (if ((x div 2) mod 3) <= 0 then 1 else 2)))
1: (2 * (1 + (if ((x div 3) mod 3) <= 0 then (x mod 2) else 0)))
1: (2 * ((if ((2x mod 5) mod 3) <= 0 then 2 else 0) + (x mod 2)))
1: (2 * (1 + (if ((x mod 7) mod 3) <= 0 then (x mod 3) else 1)))
1: (2 * (x + (if ((if x <= 0 then 1 else x) mod 2) <= 0 then 2x else 1)))
1: (2 * (2x + (if (x mod 2) <= 0 then 1 else 4)))
1: (x * (2x + (if (x mod 2) <= 0 then 1 else 4)))
1: (2 * (x + (if (x mod 2) <= 0 then 1 else 4)))
1: (2 * (x + (if (x mod 2) <= 0 then 1 else 6)))
1: (3 * (2 + (if (x mod 2) <= 0 then 1 else 8)))
1: ((x + 1) * (x + (if (x mod 2) <= 0 then 1 else (3 * (2x - (x mod 2))))))
1: ((x + 1) * ((if (x mod 2) <= 0 then 1 else x) + (x * (x div 2))))
1: (((if (x mod 2) <= 0 then 1 else x) + (x div 2)) * (x div 2))
1: (4 * (x + (if (x mod 2) <= 0 then 1 else x)))
1: (x * ((if (x mod 2) <= 0 then 2 else 0) + (x div 2)))
1: (4 * (x + (if (x mod 2) <= 0 then 2 else 0)))
1: (x * (2 + (if (x mod 2) <= 0 then 2 else (10x + 5))))
1: ((x + 1) * (x + (if (x mod 2) <= 0 then 2 else ((x2 + 3x + 2) div 2))))
1: ((1 + (if (x mod 2) <= 0 then 2 else x)) * (1 + (x div 2)))
1: (2 * (2 + (if (x mod 2) <= 0 then 3 else ((1 + (x div 2)) mod 2))))
1: (2 * (2 + (if (x mod 2) <= 0 then 4 else 0)))
1: ((2 + (if (x mod 2) <= 0 then 4 else 0)) * (if x <= 0 then 1 else 2))
1: (3 * (x + (if (x mod 2) <= 0 then 4 else 0)))
1: (3 * (x + (if (x mod 2) <= 0 then (1 - (2 * (x mod 4))) else x)))
1: ((x + 2) * (1 + (if (x mod 2) <= 0 then (1 - (if x <= 0 then 2 else 0)) else (x div 2))))
1: (3 * (1 + (if (x mod 2) <= 0 then 6 else 0)))
1: (3 * (1 + (if (x mod 2) <= 0 then 6 else 1)))
1: ((x + 1) * (1 + (if (x mod 2) <= 0 then 6 else 1)))
1: (x * (1 + (if (x mod 2) <= 0 then 6 else (1 + i))))
1: ((1 + (if (x mod 2) <= 0 then 3x else 0)) * i)
1: (2 * (1 + (if (x mod 2) <= 0 then 8 else 0)))
1: ((2x + ~1) * (1 + (if (x mod 2) <= 0 then 8 else 0)))
1: (3 * (2 + (if (x mod 2) <= 0 then 8 else 1)))
1: ((2 + (if (x mod 2) <= 0 then 8 else 1)) * (if x <= 0 then 1 else 2))
1: (2 * (1 + (if (x mod 2) <= 0 then 12 else 0)))
1: ((1 + (if (x mod 2) <= 0 then 12 else 0)) * (if x <= 0 then 1 else 2))
1: (2 * (2 + (if (x mod 2) <= 0 then 12 else 0)))
1: ((2 + (if (x mod 2) <= 0 then 12 else 0)) * (if x <= 0 then 1 else 2))
1: (2 * (1 + (if (x mod 2) <= 0 then 10 else 0)))
1: ((1 + (if (x mod 2) <= 0 then 10 else 0)) * (1 + (x div 2)))
1: ((1 + (if (x mod 2) <= 0 then 10 else 0)) * (if x <= 0 then 1 else 2))
1: ((1 + (if (x mod 2) <= 0 then 26 else 1)) * (if x <= 0 then 1 else 2))
1: ((x + 1) * (2 + (if (x mod 2) <= 0 then (2x + 4) else (x div 2))))
1: ((x + 2) * (x + (if (x mod 2) <= 0 then (x2 + 2x) else 0)))
1: ((1 + (if (x mod 2) <= 0 then (5 * (2 - (x mod 4))) else 1)) * (if x <= 0 then 1 else 2))
1: ((1 + (if (x mod 2) <= 0 then (9 * (2 - (x mod 4))) else 1)) * (if x <= 0 then 1 else 2))
1: ((1 + (if (x mod 2) <= 0 then 22 else 1)) * (if x <= 0 then 1 else 2))
1: (5 * (x + (if (x mod 2) <= 0 then (3x + ~6) else 1)))
1: ((1 + (if (x mod 2) <= 0 then 18 else 0)) * (if x <= 0 then 1 else 2))
1: ((1 + (if (x mod 2) <= 0 then 16 else 0)) * (if x <= 0 then 1 else 2))
1: (x * (1 + (if (x mod 2) <= 0 then 16 else 1)))
1: ((1 + (if (x mod 2) <= 0 then 28 else 0)) * (if x <= 0 then 1 else 2))
1: ((1 + (if (x mod 2) <= 0 then (2 * (if (x mod 4) <= 0 then 8 else 1)) else 0)) * (if x <= 0 then 1 else 2))
1: (2 * (x + (if (x mod 2) <= 0 then 2x else 0)))
1: ((1 + (if (x mod 2) <= 0 then 2x else 1)) * (if x <= 0 then 1 else 2))
1: (2 * (2 + (if (x mod 2) <= 0 then (x div 2) else 2)))
1: ((1 + (if (x mod 2) <= 0 then (x div 2) else ~2)) * (1 + (x div 2)))
1: (3 * (1 + (if (x mod 2) <= 0 then (x div 7) else 0)))
1: (3 * (1 + (if (x mod 2) <= 0 then ((1 + (x div 2)) mod 6) else x)))
1: ((1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)) * (1 + (x div 8)))
1: ((x + 1) * (1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))
1: ((x + 1) * (1 + (if (x mod 2) <= 0 then (if x <= 0 then 0 else (2x + 1)) else 0)))
1: (2 * (1 + (if (x mod 2) <= 0 then x else 0)))
1: (x * (2 + (if (x mod 2) <= 0 then x else 0)))
1: (2 * (2 + (if (x mod 2) <= 0 then x else 2)))
1: (x * (2 + (if (x mod 2) <= 0 then x else 2)))
1: (2 * (2 + (if (x mod 2) <= 0 then x else ~x)))
1: ((x + 1) * (1 + (if (x mod 2) <= 0 then x else ((1 + (x div 2)) mod 2))))
1: ((x + 1) * (1 + (if (x mod 3) <= 0 then 0 else 2)))
1: ((x + 1) * (2 + (if (x mod 3) <= 0 then 0 else 2)))
1: (2 * (x + (if (x mod 3) <= 0 then 0 else 2)))
1: (2 * (1 + (if (x mod 3) <= 0 then 0 else (if ((x + 1) mod 5) <= 0 then 2 else 1))))
1: (2 * (x + (if (x mod 3) <= 0 then 0 else (if (x mod (2 + (x mod 2))) <= 0 then 1 else x))))
1: (3 * (2x + (if (x mod 3) <= 0 then 1 else 2)))
1: (2 * ((if (x mod 3) <= 0 then 1 else 2) + (x mod 4)))
1: (2 * ((if (x mod 3) <= 0 then 1 else (((x + 1) div 2) - ((3 * (x div 4)) div 2))) + (x mod 2)))
1: ((1 + (if (x mod 3) <= 0 then 1 else (x div 3))) * (x mod 2))
1: ((1 + (if (x mod 3) <= 0 then 2 else 0)) * (1 + (x mod 2)))
1: ((x + 2) * (1 + (if (x mod 3) <= 0 then 2 else 0)))
1: ((1 + (if (x mod 3) <= 0 then 2 else 0)) * (2 - (x mod 2)))
1: (3 * (2 + (if (x mod 3) <= 0 then 2 else 1)))
1: (3 * ((if (x mod 3) <= 0 then 2 else 1) + (x mod 2)))
1: (x * (x + (if (x mod 3) <= 0 then 2 else 1)))
1: ((x + 1) * (2 + (if (x mod 3) <= 0 then (x + 1) else ~x)))
1: ((1 + (if (x mod 3) <= 0 then 6 else 0)) * (if x <= 0 then 1 else 2))
1: ((1 + (if (x mod 3) <= 0 then 10 else 0)) * (if x <= 0 then 1 else 2))
1: ((1 + (if (x mod 3) <= 0 then 10 else 1)) * (if x <= 0 then 1 else 2))
1: ((1 + (if (x mod 3) <= 0 then 18 else 1)) * (if x <= 0 then 1 else 2))
1: (2 * (1 + (if (x mod 3) <= 0 then (2 * (x div 4)) else 1)))
1: (2 * (1 + (if (x mod 3) <= 0 then (2 * ((x div 4) mod 2)) else 1)))
1: (2 * (1 + (if (x mod 3) <= 0 then (x mod 2) else 2)))
1: (2 * (1 + (if (x mod 4) <= 0 then 0 else (if (x mod (1 + (2 * (2x mod 3)))) <= 0 then 2 else 0))))
1: (3 * (2x + (if (x mod 4) <= 0 then 1 else 0)))
1: (x * ((if (x mod 4) <= 0 then 1 else 2) + (x mod 2)))
1: (x * (x + (if (x mod 4) <= 0 then 2 else 0)))
1: (2 * (1 + (if (x mod 4) <= 0 then 2 else (x mod 2))))
1: (2 * ((if (x mod 4) <= 0 then 2 else (x mod 2)) + (x div 7)))
1: ((1 + (if (x mod 4) <= 0 then 4 else 1)) * (if x <= 0 then 1 else 2))
1: ((1 + (if (x mod 4) <= 0 then 6 else 0)) * (if x <= 0 then 1 else 2))
1: ((1 + (if (x mod 4) <= 0 then 8 else 1)) * (if x <= 0 then 1 else 2))
1: ((1 + (if (x mod 4) <= 0 then 2x else (x div 2))) * (1 + (4 * (x mod 2))))
1: ((x + 1) * (1 + (if (x mod 5) <= 0 then 0 else 2)))
1: (x * ((if (x mod 5) <= 0 then 1 else 2) + (x mod 4)))
1: (2 * (x + (if (x mod 5) <= 0 then 2 else 1)))
1: ((1 + (if (x mod 5) <= 0 then 4 else 0)) * (1 + (x mod 2)))
1: ((1 + (if (x mod 5) <= 0 then 4 else 0)) * (2 - (x mod 2)))
1: ((1 + (if (x mod 7) <= 0 then 6 else 0)) * (1 + (x mod 2)))
1: (x * (1 + (if (x mod 9) <= 0 then 0 else 2)))
1: (3 * (1 + (if (x mod 9) <= 0 then 0 else x)))
1: (9 * (1 + (if (x mod 9) <= 0 then x else 0)))
1: ((x + 1) * (2 + (if (x mod (1 + (2 * (x mod 4)))) <= 0 then 1 else loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))))
1: ((x + 1) * (1 + (if (x mod (1 + (((x + 1) div 2) div 3))) <= 0 then 0 else x)))
1: (2 * ((if (x mod (1 + ((~2x + 2) mod (1 + (x div 2))))) <= 0 then 1 else 2) + (x div 2)))
1: (2 * (1 + (if (x mod (2 + (x mod 2))) <= 0 then 0 else 2)))
1: (x * (1 + (if (x mod (2 + (x mod 2))) <= 0 then 2 else 1)))
1: (3 * (2 + (if (x mod (1 - (2 * ((~x + 1) div (2 + (x div 2)))))) <= 0 then 1 else x)))
1: (x * (1 + (if (x mod (~1 + (2 * i))) <= 0 then 2x else 1)))
1: ((1 + (if (x mod ((x + ~2) - (x mod 3))) <= 0 then 0 else 1)) * (x div 4))
1: (x * (1 + (if (x mod 6) <= 0 then (~2 + (x div 2)) else 1)))
1: (2 * ((1 + (if (x mod 8) <= 0 then 2 else 1)) * (x div 2)))
1: (5 * (2 + (if (x mod 12) <= 0 then (x div 2) else 0)))
1: (2 * (2 + (if (x mod 10) <= 0 then 0 else 2)))
1: (x * (2 + (if (x mod 10) <= 0 then 2 else 1)))
1: ((x + 1) * (1 + (if (x mod 10) <= 0 then (x + 2) else 0)))
1: (x * (1 + (if (x mod 10) <= 0 then x else 0)))
1: (2 * (1 + (if (x mod (2 * (2 - (x mod 2)))) <= 0 then (x mod 8) else 1)))
1: ((x + 1) * (2x + (if (i mod 2) <= 0 then 1 else x)))
1: ((x + (if (i mod 2) <= 0 then 1 else i)) * i)
1: ((1 + (if (i mod 2) <= 0 then 2 else 0)) * i)
1: (x * ((if (i mod 2) <= 0 then 2 else i) + i))
1: (2 * (x + (if (i mod 2) <= 0 then 2x else 0)))
1: ((x + (if (i mod 2) <= 0 then i else 1)) * i)
1: (x * (1 + (if (i mod 3) <= 0 then 0 else i)))
1: (2 * (x + (if (i mod 3) <= 0 then 2 else 0)))
1: ((x + 1) * (1 + (if (if (x mod 2) <= 0 then x else 0) <= 0 then (x mod 4) else 2)))
1: (3 * (1 + (if x <= 0 then 0 else ((x + 1) + ((x mod 3) div 2)))))
1: (2 * (1 + (if x <= 0 then 0 else ((x + 5) + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2)))))
1: (2 * (2 + (if x <= 0 then 0 else (1 + (x * loop(\(x,i).((x2 + ~x) div 2),2,x))))))
1: (2 * (1 + (if x <= 0 then 0 else (2 + ((x + (((x div 2) div 3) mod 2)) div 2)))))
1: (2 * (1 + (if x <= 0 then 0 else (1 + (((x + 1) - ((1 + (x div (1 + (x mod (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))) mod (x + 1))) div 2)))))
1: (2 * (2 + (if x <= 0 then 0 else (1 + ((2 * (1 + ((1 + (x div (1 + (x mod (1 + (x mod (2 + (x div (2 * (2 - (x mod 2))))))))))) div 2))) div 3)))))
1: (2 * (1 + (if x <= 0 then 0 else (1 + ((2 * (1 + ((1 + (x div (1 + (x mod ((x + 1) - (loop(\(x,i).2x,x,2) mod (x + 1))))))) div 2))) div 3)))))
1: (2 * (1 + (if x <= 0 then 0 else (1 + ((2 * (1 + ((((1 + ((x - (x div 3)) div 3)) * (1 + (x div 2))) div 2) div 2))) div 3)))))
1: (2 * (1 + (if x <= 0 then 0 else (1 + (((x + 1) div (2 + (x mod 2))) div 2)))))
1: (2 * (1 + (if x <= 0 then 0 else (1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))))
1: (3 * (2 + (if x <= 0 then 0 else (x + 2))))
1: ((x + 3) * (2 + (if x <= 0 then 0 else (x + 2))))
1: (2 * (x + (if x <= 0 then 0 else (1 + compr(\x.loop(\(x,i).(if ((x + 1) mod (1 + i)) <= 0 then 0 else x),x,2x),x)))))
1: (2 * (2 + (if x <= 0 then 0 else (2 - ((x + 1) mod (2 + (x div (4 + (x mod 2)))))))))
1: (2 * (2 + (if x <= 0 then 0 else (2 * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))))
1: (3 * (1 + (if x <= 0 then 0 else (2 * (1 - (x div 2))))))
1: (2 * (1 + (if x <= 0 then 0 else ((2 + loop(\(x,i).2x,((x + ~1) div 2),x)) div 2))))
1: (2 * (1 + (if x <= 0 then 0 else ((x + 1) mod (2 * (1 + ((x + ~2) mod (1 + (x div 5)))))))))
1: (2 * (x + (if x <= 0 then 0 else (if (x + ~1) <= 0 then 1 else (x * (4 - (x mod 2)))))))
1: (2 * (1 + (if x <= 0 then 0 else (if (x mod (2 + ((1 + (2 * (1 + ((((2x + 2) mod (2 + (x div 2))) div 2) div 2)))) mod (x + 1)))) <= 0 then 2 else 1))))
1: (2 * (1 + (if x <= 0 then 0 else (if (x mod (2 + ((~x + 2) mod 4))) <= 0 then 1 else 2))))
1: ((1 + (if x <= 0 then 0 else (if (x mod (1 + (x mod 6))) <= 0 then 2 else 1))) * (1 + (((x + 1) div 2) div 2)))
1: (2 * (1 + (if x <= 0 then 0 else (if (x mod (x - ((x + ~1) mod 8))) <= 0 then 5 else x))))
1: (2 * (1 + (if x <= 0 then 0 else (if x <= 0 then 1 else (2 * compr(\x.(1 - (x mod (1 + (2x mod (1 + (x div 2)))))),x))))))
1: ((x + 1) * (1 + (if x <= 0 then 0 else i)))
1: (2 * (2 + (if x <= 0 then 0 else compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x))))
1: ((2x + 1) * (1 + (if x <= 0 then 1 else 2)))
1: (3 * (2 + (if x <= 0 then 1 else 2)))
1: ((2x + 1) * (2 + (if x <= 0 then 1 else 2)))
1: ((x + 1) * (2 + (if x <= 0 then 1 else 2)))
1: (2 * (2 + (if x <= 0 then 1 else ((x + 2) - (((((1 - (x div 2)) div 3) * (x div 2)) div 2) div 2)))))
1: (2 * (2 + (if x <= 0 then 1 else (30x3 + 30x + 2))))
1: (2 * (x + (if x <= 0 then 1 else (x + (2 * ((x + 1) div 5))))))
1: (2 * (2 + (if x <= 0 then 1 else (6x + (((x + 1) + (x mod 2)) div 5)))))
1: (2 * (1 + (if x <= 0 then 1 else (2 + ((3 * ((x2 + x) div 2)) div 5)))))
1: (2 * (2 + (if x <= 0 then 1 else (2 + loop(\(x,i).(2x - (i mod 2)),x,1)))))
1: ((x + 1) * (2 + (if x <= 0 then 1 else (x + 2))))
1: ((x + 1) * (x + (if x <= 0 then 1 else (~1 + (2 * (12x + (x mod 2)))))))
1: (2 * (2 + (if x <= 0 then 1 else (4x - (((~x + 1) - (x mod 2)) div 3)))))
1: ((x + 1) * (x + (if x <= 0 then 1 else ((x + ~2) + (((x2 + ~x) div 2) + (x mod 3))))))
1: (2 * (x + (if x <= 0 then 1 else (x - loop(\(x,i).loop(\(x,i).((x + ~1) - (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)),x,x),1,2x)))))
1: (2 * (2 + (if x <= 0 then 1 else (2 * (4x + ((~x + ((x div 2) mod 4)) div 4))))))
1: (2 * (2 + (if x <= 0 then 1 else (2 * (3x + ((x - (x div 12)) div 2))))))
1: (2 * (2 + (if x <= 0 then 1 else (2 * (3x - ((2 * (x - ((x div 2) div 3))) div 3))))))
1: (2 * (2 + (if x <= 0 then 1 else (2 * (2x + ((x - ((x div 2) mod ~4)) div 5))))))
1: (2 * (x + (if x <= 0 then 1 else (2 * (1 + (((2x2 + ~x + ~1) * (x + (x div 2))) div 2))))))
1: (2 * (1 + (if x <= 0 then 1 else (2 * (x + ((3 * ((((x + 1) div 2) div 2) div 2)) div 2))))))
1: (x * (x + (if x <= 0 then 1 else (2 * (x + ((((3x + ~3) * (loop(\(x,i).2x,(x + ~2),x) div 2)) div 2) div 2))))))
1: (2 * (2 + (if x <= 0 then 1 else (2 * (1 + ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 2))))))
1: ((x + ~1) * (x + (if x <= 0 then 1 else (3 * (x + (x div 2))))))
1: (2 * (1 + (if x <= 0 then 1 else (2 * (x + (x div 8))))))
1: (2 * (1 + (if x <= 0 then 1 else (2 * (x + (x div 12))))))
1: (3 * (2 + (if x <= 0 then 1 else (2 * (1 + (if (x mod 3) <= 0 then 3x else 2))))))
1: (2 * (2 + (if x <= 0 then 1 else (2 * (x + loop(\(x,i).(~x - (x div (4 + i))),2,x))))))
1: (2 * (2 + (if x <= 0 then 1 else (2 * (1 + loop(\(x,i).loop(\(x,i).(x * (2 + i)),x,x),x,1))))))
1: (2 * (2 + (if x <= 0 then 1 else (2 * (4x - ((~x + ((x div 2) mod 2)) div 3))))))
1: (2 * (2 + (if x <= 0 then 1 else (2 * (2x - ((~x + 3) div 7))))))
1: (3 * (2 + (if x <= 0 then 1 else 16)))
1: (2 * (x + (if x <= 0 then 1 else 20)))
1: (2 * (1 + (if x <= 0 then 1 else 6x)))
1: (2 * (2 + (if x <= 0 then 1 else (3 * loop(\(x,i).2x,x,2)))))
1: ((x + 1) * (2 + (if x <= 0 then 1 else 2x)))
1: ((x + 2) * (x + (if x <= 0 then 1 else (x div 4))))
1: (2 * (2 + (if x <= 0 then 1 else (if ((x + ~2) mod (2 + (x mod 2))) <= 0 then 0 else 2))))
1: (2 * (x + (if x <= 0 then 1 else (if (x mod (1 + (2 * (2x mod 3)))) <= 0 then (x div 3) else 1))))
1: (2 * (1 + (if x <= 0 then 1 else (if (x mod (3 * (1 + (x div 5)))) <= 0 then 2 else 0))))
1: (2 * (2 + (if x <= 0 then 1 else loop(\(x,i).(x + i - ((x + 1) div 5)),x,0))))
1: ((x + 1) * (x + (if x <= 0 then 1 else loop(\(x,i).(x - (if x <= 0 then 1 else (x - ((if x <= 0 then 2 else loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 2)))),x,x))))
1: ((x + ~1) * (x + (if x <= 0 then 1 else loop(\(x,i).((x * (1 + loop(\(x,i).(x * i),x,1) - (x mod 2))) div 2),1,(x + ~1)))))
1: (2 * (1 + (if x <= 0 then 1 else loop(\(x,i).((2x * (~1 + (2 * i))) div 3),(x + ~2),x))))
1: ((2x + 1) * (2 + (if x <= 0 then 1 else x)))
1: (2 * ((if x <= 0 then 1 else x) + (i div 2)))
1: (2 * (1 + (if x <= 0 then 2 else 0)))
1: (3 * (2 + (if x <= 0 then 2 else 0)))
1: (2 * (4 + (if x <= 0 then 2 else 0)))
1: ((x + 1) * (2 + (if x <= 0 then 2 else 1)))
1: (2 * (x + (if x <= 0 then 2 else (4 + (x * (x - ((~x + 2) div 2)))))))
1: ((x + 1) * (x + (if x <= 0 then 2 else (~1 + (2 * (if x <= 0 then 1 else (4x + (2 div (~2 + (x mod 2))))))))))
1: (x * (2 + (if x <= 0 then 2 else (x - (if x <= 0 then 1 else (x div (2 - (i mod 2))))))))
1: (2 * (x + (if x <= 0 then 2 else (2 * (1 + (((x + ~1) * loop(\(x,i).(2x - (i mod 2)),x,1)) div 2))))))
1: (2 * (1 + (if x <= 0 then 2 else x)))
1: (3 * (1 + (if x <= 0 then 2 else x)))
1: (2 * (2 + (if x <= 0 then 2 else compr(\x.(loop(\(x,i).(~2x + 2),x,2) mod (x + 2)),x))))
1: ((2 + (if x <= 0 then 3 else (1 + ((if (~1 + (x mod (2 + (x mod 2)))) <= 0 then 1 else 2x) div 3)))) * (x mod 2))
1: (2 * (3 + (if x <= 0 then 4 else (x + 1))))
1: (2 * (2 + (if x <= 0 then 10 else x)))
1: (2 * (x + loop(\(x,i).((x + 3) + ((x - ((x div 2) div 3)) div 2)),2,x)))
1: (x * (2 + loop(\(x,i).(3x + (i mod 2)),x,1)))
1: (3 * (1 + loop(\(x,i).((x + 2) + loop(\(x,i).(x * i),x,2)),x,0)))
1: (2 * (1 + loop(\(x,i).(x + 3),(~2 + ((x + ~1) div 3)),x)))
1: (2 * (2 + loop(\(x,i).(2x + i),x,x)))
1: (2 * (loop(\(x,i).(3x + 1),x,1) + (((x + 1) div 3) mod 2)))
1: (x * (1 + loop(\(x,i).(5x + 1),i,1)))
1: (2 * (x + loop(\(x,i).(2 + (5 * i)),(x + ~7),1)))
1: (2 * (x + loop(\(x,i).(1 + (x * (3 + i))),(x + ~1),1)))
1: ((x + 2) * (2 + loop(\(x,i).(x + ((3 + i) * i)),(x + 1),x)))
1: (2 * (x + loop(\(x,i).(x + ((3 + i) * i)),(x + 1),x)))
1: (x * (1 + loop(\(x,i).(7x + 1),i,1)))
1: (2 * (1 + loop(\(x,i).(x + (5 * (x + (x mod 3)))),x,1)))
1: ((x + 1) * (1 + loop(\(x,i).(x2 + x + 1),2,x)))
1: (3 * (2 + loop(\(x,i).(x2 + x + 2),(4x + 4),x)))
1: (2 * (loop(\(x,i).(x + ((2 + i) * i)),x,1) + (x div 4)))
1: (3 * (1 + loop(\(x,i).(x + (2 * (x + i))),x,1)))
1: (3 * (1 + loop(\(x,i).(2 + (x * ((x + ~1) + i))),x,0)))
1: (x * (1 + loop(\(x,i).(9x + 1),i,1)))
1: (3 * (loop(\(x,i).(10x + 1),2x,1) + loop(\(x,i).10x,x,2)))
1: (9 * (1 + loop(\(x,i).(10x + 1),x,loop(\(x,i).10x,x,1))))
1: (x * (1 + loop(\(x,i).(10x + 1),i,1)))
1: (2 * (1 + loop(\(x,i).(45x + 1),x,0)))
1: (2 * (1 + loop(\(x,i).(x + (2 * ((2 + i) * (~1 + i)))),x,1)))
1: (x * ((x + 1) + loop(\(x,i).(x3 + 1),2,2)))
1: (2 * (2 + loop(\(x,i).(2 + (3 * ((~1 + (6 * (~1 + loop(\(x,i).11x,x,4)))) div 2))),x,1)))
1: (x * (loop(\(x,i).(2x + 1),i,1) + (i mod 2)))
1: (2 * (1 + loop(\(x,i).(x2 + 2),x,1)))
1: (2 * (1 + loop(\(x,i).(x + (i * i)),(2x + 1),x)))
1: (2 * (2 + loop(\(x,i).(x + (i * i)),(x + ~1),x)))
1: (2 * (1 + loop(\(x,i).(x + (2 div (6 - (x div 3)))),2,x)))
1: (2 * (1 + loop(\(x,i).(x + (x2 div (x + 16))),2,x)))
1: (2 * (x + loop(\(x,i).(1 + (((x2 + x) div 4) div 5)),2,x)))
1: (2 * (2x + loop(\(x,i).(2 + (x div 2)),(x + ~8),1)))
1: (2 * (1 + loop(\(x,i).(x + (x div 2)),(2 * (x div 2)),x)))
1: (2 * (1 + loop(\(x,i).(x + (x div (~1 + ((2 * i) + i)))),x,x)))
1: ((x + 2) * (1 + loop(\(x,i).(x + (x div (2 + (x mod 2)))),x,2)))
1: (3 * (2 + loop(\(x,i).(2x + (i mod 2)),x,2)))
1: (3 * (x + loop(\(x,i).(x + (if (~4 + (x div 2)) <= 0 then 1 else 0)),2,x)))
1: (2 * (x + loop(\(x,i).(1 + (if (~2 + (x div 2)) <= 0 then x else (x + 2))),2,(x + ~1))))
1: (3 * (x + loop(\(x,i).(x + (if (~2 + (x div 4)) <= 0 then 1 else 0)),2,x)))
1: (2 * (2 + loop(\(x,i).(1 + (if (x + ~4) <= 0 then x else (x + 2))),2,x)))
1: (3 * (1 + loop(\(x,i).(x + (if (x - i) <= 0 then x else 0)),x,1)))
1: (2 * (x + loop(\(x,i).(x + (if (x - i) <= 0 then x else 0)),x,1)))
1: ((x + 1) * (1 + loop(\(x,i).(x + (if (x mod (2 + i)) <= 0 then x else 0)),x,4)))
1: (2 * (1 + loop(\(x,i).(x + (if (i mod (2 + (x mod 2))) <= 0 then 1 else x)),x,0)))
1: (2 * (2 + loop(\(x,i).(1 + (if x <= 0 then 1 else (10x + 21))),(x div 2),(x mod 2))))
1: (2 * (1 + loop(\(x,i).(x + (if x <= 0 then 1 else loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,2x))),x,1)))
1: (x * (x + loop(\(x,i).(x + (if x <= 0 then 2 else ((x + 1) + ((2 + i) * i)))),x,0)))
1: (2 * (2 + loop(\(x,i).(1 + loop(\(x,i).(2x + ~1),x,2x)),x,1)))
1: (2 * (x + loop(\(x,i).(x + loop(\(x,i).(~1 + (if x <= 0 then i else x)),i,0)),x,0)))
1: (2 * (1 + loop(\(x,i).(x + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x)),1,(3x + 3))))
1: (2 * (2x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)))
1: (2 * (1 + loop(\(x,i).(x + loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(1 + (2 * i)),1)),x,2)))
1: (3 * (1 + loop(\(x,i).(x + 1),(~4 + ((x + ((x div 2) mod 2)) div 2)),x)))
1: (5 * (1 + loop(\(x,i).(x + 1),(~4 + ((x + ((x div 2) mod 2)) div 2)),x)))
1: (7 * (1 + loop(\(x,i).(x + 1),(~4 + ((x + ((x div 2) mod 2)) div 2)),x)))
1: (9 * (1 + loop(\(x,i).(x + 1),(~4 + ((x + ((x div 2) mod 2)) div 2)),x)))
1: (2 * (x + loop(\(x,i).(4 - (x div 2)),x,1)))
1: (2 * (2 + loop(\(x,i).(x + i - (x div ~12)),x,1)))
1: (2 * (2x + loop(\(x,i).(~1 + (2 * (x + (i mod 2)))),i,0)))
1: (3 * (1 + loop(\(x,i).(~1 + (2 * (~1 + loop(\(x,i).(x2 + ~x + ~1),x,8)))),(x + 1),2)))
1: (2 * (1 + loop(\(x,i).(7x + 8),(x div 2),(x mod 2))))
1: (2 * (x + loop(\(x,i).(6x + ~1),2,x)))
1: (x * (1 + loop(\(x,i).(2x + ~1),(x + ~2),x)))
1: (5 * (1 + loop(\(x,i).(2x + ~1),(x div 2),x)))
1: (2 * (2 + loop(\(x,i).(2x + ~1),(x mod 3),x)))
1: (x * (x + loop(\(x,i).(2x - (i mod 2)),(x + ~2),1)))
1: ((x + 2) * (1 + loop(\(x,i).(x2 + ~1),2,4)))
1: (x * (1 + loop(\(x,i).(x2 + ~1),2,2x)))
1: ((x + 1) * (1 + loop(\(x,i).(x2 + ~1),4,2)))
1: (x * (1 + loop(\(x,i).(x2 + ~1),x,4)))
1: (x * (1 + loop(\(x,i).(x2 - (x div 2)),4,2)))
1: (x * (1 + loop(\(x,i).(x2 - loop(\(x,i).(4x + 1),i,1)),2,x)))
1: (2 * (2x + loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,2)))
1: (2 * (1 + loop(\(x,i).((x + 1) - (((2x + ~4) div (2 + (x div 4))) mod 2)),x,x)))
1: (3 * ((x + ~1) + loop(\(x,i).(x - ((~2 + (x div 2)) div 3)),2,x)))
1: (2 * (x + loop(\(x,i).(x - ((~1 + (x div 4)) div 2)),2,(x + ~1))))
1: (2 * (x + loop(\(x,i).(x - ((x - ((x mod 3) div 2)) div 2)),2,x)))
1: (2 * (1 + loop(\(x,i).(x - (x div ~5)),x,10)))
1: ((2x + 1) * (1 + loop(\(x,i).(x - (x div 8)),2,x)))
1: (2 * (x + loop(\(x,i).(x - (x div 12)),2,x)))
1: (3 * (1 + loop(\(x,i).(x - (if (~x + i) <= 0 then (2 * i) else 0)),x,x)))
1: (3 * (2 + loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)))
1: (2 * (x + loop(\(x,i).(x - (if (~x + i) <= 0 then i else 1)),x,x)))
1: (3 * (x + loop(\(x,i).(x - (if (~x + i) <= 0 then i else 1)),x,x)))
1: (2 * (1 + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x)))
1: (3 * (x + loop(\(x,i).(x - (if x <= 0 then 1 else (x - ((if x <= 0 then 2 else loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 2)))),x,(x + 1))))
1: (3 * (x + loop(\(x,i).(x - (if x <= 0 then 1 else (x - ((if x <= 0 then 2 else loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 2)))),x,(x + 2))))
1: (2 * (x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 1))))
1: (7 * (x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 1))))
1: ((x + 1) * (x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 1))))
1: (x * (x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 1))))
1: (2 * (x + loop(\(x,i).(x - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,i)),x,1)))
1: ((x + 1) * (1 + loop(\(x,i).3x,(1 + (3x div (x + 4))),1)))
1: (2 * (2 + loop(\(x,i).3x,(x + 1),2)))
1: (2 * (2x + loop(\(x,i).3x,(~2 + (2 * i)),1)))
1: (2 * (2x + loop(\(x,i).3x,(x + ~1),x)))
1: ((x + 1) * (2 + loop(\(x,i).3x,6,(x + 1))))
1: (3 * (2 + loop(\(x,i).3x,2x,1)))
1: (2 * (2x + loop(\(x,i).3x,(2 * i),2)))
1: (3 * (x + loop(\(x,i).3x,((~1 + i) div 2),1)))
1: ((2 + loop(\(x,i).3x,x,1)) * (3 + loop(\(x,i).2x,x,1)))
1: (2 * (loop(\(x,i).3x,x,1) + (x mod 2)))
1: (2 * (2x + loop(\(x,i).3x,i,1)))
1: (x * (loop(\(x,i).3x,i,1) + loop(\(x,i).2x,i,1)))
1: ((1 + loop(\(x,i).5x,x,1)) * (1 + loop(\(x,i).2x,x,1)))
1: (3 * (1 + loop(\(x,i).5x,x,2)))
1: (x * (1 + loop(\(x,i).(x * (2x + loop(\(x,i).x3,2,x))),x,1)))
1: (2 * (1 + loop(\(x,i).(2x + 8),(x + 1),1)))
1: (x * (x + loop(\(x,i).(x * (3 + i)),4,x)))
1: ((1 + loop(\(x,i).7x,x,1)) * (1 + loop(\(x,i).3x,x,1)))
1: (2 * (2 + loop(\(x,i).(2x + 16),x,1)))
1: (3 * (1 + loop(\(x,i).(2x + 16),x,13)))
1: ((1 + loop(\(x,i).13x,x,1)) * (1 + loop(\(x,i).2x,x,1)))
1: (5 * (2 + loop(\(x,i).(10x + 8),(x + 2),1)))
1: (2 * (loop(\(x,i).(10x + 2),2x,2) + loop(\(x,i).10x,x,1)))
1: (3 * (loop(\(x,i).(10x + 2),2x,2) + loop(\(x,i).10x,x,1)))
1: (2 * (1 + loop(\(x,i).(x * (1 + (2 * (2 + (2 mod (x + 1)))))),x,1)))
1: (2 * (3 + loop(\(x,i).(2x + 40),(x + 1),1)))
1: (2 * (2 + loop(\(x,i).(2 * (1 + (6 * (~1 + (6 * (~2 + loop(\(x,i).10x,(x + 1),(x + 1)))))))),x,1)))
1: ((x + 1) * (1 + loop(\(x,i).(6x2 + 2x),2,2)))
1: (x * (1 + loop(\(x,i).(2x2 + x),2,2)))
1: (2 * (x + loop(\(x,i).(2x2 + 2),(x + ~2),1)))
1: (x * (1 + loop(\(x,i).(x3 + x),1,(x2 + ~1))))
1: ((x + loop(\(x,i).(x * (1 + (2 * i))),(~2 + i),1)) * i)
1: (2 * (loop(\(x,i).(2x + 2),(x div 2),(x mod 2)) + loop(\(x,i).2x,(x + ~1),x)))
1: (2 * (loop(\(x,i).(2x + 2),(x div 2),(x mod 2)) + loop(\(x,i).2x,x,2)))
1: (2 * (1 + loop(\(x,i).(3x + 3),2x,2)))
1: (2 * (2 + loop(\(x,i).(3x + 3),2x,2)))
1: (2 * (1 + loop(\(x,i).(3x + 3),2x,4)))
1: (2 * (1 + loop(\(x,i).(3x + 3),(x div 3),(x mod 3))))
1: (2 * (x + loop(\(x,i).(x2 + x),1,(~1 + (x mod (x - ((x + ~1) mod 8)))))))
1: ((1 + loop(\(x,i).(x2 + x),1,loop(\(x,i).3x,x,1))) * (1 + loop(\(x,i).2x,x,1)))
1: ((x + 1) * (1 + loop(\(x,i).(x2 + x),1,loop(\(x,i).(2 * (2x - (x div (1 + i)))),x,1))))
1: ((1 + loop(\(x,i).(x2 + x),1,loop(\(x,i).2x,x,1))) * (1 + loop(\(x,i).3x,x,1)))
1: ((1 + loop(\(x,i).(x2 + x),1,loop(\(x,i).2x,x,1))) * (1 + loop(\(x,i).5x,x,1)))
1: ((1 + loop(\(x,i).(x2 + x),1,loop(\(x,i).2x,x,1))) * (1 + loop(\(x,i).7x,x,1)))
1: (3 * (x + loop(\(x,i).(x2 + x),2,2)))
1: (9 * (1 + loop(\(x,i).(2x + 4),(x + 2),2)))
1: (2 * (1 + loop(\(x,i).(2x + 4),(x div 2),(x mod 2))))
1: (17 * (1 + loop(\(x,i).(2x + 4),x,4)))
1: (3 * (x + loop(\(x,i).(2x + 4),i,0)))
1: (2 * (2 + loop(\(x,i).(x2 + 2x),1,compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),(x + 1)))))
1: ((x + 1) * (x + loop(\(x,i).(x * (1 + i)),4,(x + 1))))
1: (22 * (x + loop(\(x,i).(x * (1 + i)),4,(x + 1))))
1: (x * (x + loop(\(x,i).(x * (1 + i)),(x div 2),1)))
1: ((x + 1) * (1 + loop(\(x,i).(x * (2 + i)),5,2)))
1: (2 * (x + loop(\(x,i).(x * (2 + i)),(x + ~2),1)))
1: ((x + 1) * (1 + loop(\(x,i).(x * (x + i)),2,8)))
1: (x * (1 + loop(\(x,i).(~2x + 2),(~1 + i),1)))
1: ((x + 1) * (1 + loop(\(x,i).(x * (2 - (x div (2 + i)))),x,2)))
1: ((x + 2) * (1 + loop(\(x,i).(x * (2 - (x div (2 + i)))),x,2)))
1: (2 * (1 + loop(\(x,i).(x * (2 - (x mod ~4))),x,x)))
1: ((1 + loop(\(x,i).11x,x,1)) * (1 + loop(\(x,i).2x,x,1)))
1: ((x + 1) * (2 + loop(\(x,i).59x,2,(x + 1))))
1: ((x + 1) * (2 + loop(\(x,i).95x,2,(x + 1))))
1: (x * (1 + loop(\(x,i).(2 * (~1 + (54 * loop(\(x,i).x2,1,(9x + 4))))),1,0)))
1: (2 * (x + loop(\(x,i).(4x + ~2),(x div 2),2)))
1: (x * (loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),(x div 2),(1 + (x mod 2))) + loop(\(x,i).2x,x,1)))
1: (2 * (loop(\(x,i).(x * (~1 + (2 * i))),i,1) + (x * i)))
1: ((x + 1) * (2 + loop(\(x,i).(x * (~1 + loop(\(x,i).(x2 + 2x),2,2))),2,(x + 1))))
1: (2 * (2 + loop(\(x,i).(3x + ~3),2x,2)))
1: (3 * (loop(\(x,i).(3x + ~3),x,2) + loop(\(x,i).2x,x,2)))
1: (3 * (1 + loop(\(x,i).(x2 + ~x),1,(2 * (x + (3 * (x div 2)))))))
1: (2 * (1 + loop(\(x,i).(x2 + ~x),1,loop(\(x,i).x2,x,2))))
1: (2 * (2 + loop(\(x,i).(2x + ~4),compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),2)))
1: (2 * (1 + loop(\(x,i).(10x + ~8),x,2)))
1: (3 * (1 + loop(\(x,i).(10x + ~8),x,2)))
1: (2 * (2 + loop(\(x,i).(10x + ~8),x,2)))
1: (x * (1 + loop(\(x,i).(x * (x - i)),2,(4x + 3))))
1: (x * (1 + loop(\(x,i).(x * (x - i)),2,(x + ~2))))
1: ((x + 1) * (1 + loop(\(x,i).(x * (x - i)),2,6)))
1: ((x + 1) * (1 + loop(\(x,i).(x * (x - i)),2,8)))
1: (2 * (1 + loop(\(x,i).(((~x + 1) + i) * i),x,0)))
1: ((1 + loop(\(x,i).10x,(x + 1),1)) * (~1 + loop(\(x,i).10x,x,1)))
1: (x * (1 + loop(\(x,i).10x,(1 + i),x)))
1: ((x + 1) * (x + loop(\(x,i).10x,x,2)))
1: (2 * (2x + loop(\(x,i).10x,i,1)))
1: (2 * (1 + loop(\(x,i).(2x2 + 8x),1,((1 + (x mod 8)) mod (x + 1)))))
1: ((1 + loop(\(x,i).(x4 + x3 + x2 + x),1,loop(\(x,i).2x,x,1))) * (1 + loop(\(x,i).3x,x,1)))
1: ((x + 1) * (1 + loop(\(x,i).(x3 + 4x2 + 4x),1,(x2 + 2x))))
1: (2 * (1 + loop(\(x,i).(2x * (2 + i)),4x,1)))
1: ((x + 1) * (2 + loop(\(x,i).93x,2,(x + 1))))
1: ((x + 1) * (1 + loop(\(x,i).8x,(if (x + ~6) <= 0 then 1 else 2),1)))
1: ((1 + loop(\(x,i).8x,x,4)) * (~1 + loop(\(x,i).4x,x,2)))
1: ((1 + loop(\(x,i).8x,x,4)) * (~1 + loop(\(x,i).2x,x,2)))
1: ((x + 1) * (2 + loop(\(x,i).12x,2,(x + 1))))
1: ((1 + loop(\(x,i).12x,x2,1)) * loop(\(x,i).(4x + 1),(if (x + ~1) <= 0 then 1 else 0),1))
1: ((x + 1) * (2 + loop(\(x,i).20x,2,(x + 1))))
1: (2 * (loop(\(x,i).20x,x,1) + loop(\(x,i).8x,x,2)))
1: ((x + 1) * (1 + loop(\(x,i).(4x2 + 4x),2,3)))
1: (x * (1 + loop(\(x,i).4x,(1 + i),x)))
1: (2 * (x + loop(\(x,i).4x,(x + ~1),x)))
1: ((x + 1) * (loop(\(x,i).4x,(x div 2),3) + loop(\(x,i).3x,x,2)))
1: (2 * (loop(\(x,i).4x,x,1) + (x mod 2)))
1: ((1 + loop(\(x,i).4x,x,2)) * loop(\(x,i).(3x + 2),x,0))
1: (2 * (2 + loop(\(x,i).4x,x,2)))
1: ((x + 3) * (x2 + loop(\(x,i).4x,x,2)))
1: (2 * (1 + loop(\(x,i).4x,x,3)))
1: (2 * (4x + loop(\(x,i).4x,i,1)))
1: (5 * (x + loop(\(x,i).6x,(~1 + i),1)))
1: (3 * (2 + loop(\(x,i).(2x2 + 2x),(x2 + 1),2)))
1: (x * (1 + loop(\(x,i).(2x2 + 2x),(1 + i),3)))
1: (x * (1 + loop(\(x,i).(2x2 + 2x),i,2)))
1: (x * (1 + loop(\(x,i).(2x2 + 2x),i,5)))
1: (3 * (2 + loop(\(x,i).2x2,x,3)))
1: ((x + 2) * (x + loop(\(x,i).x3,1,(x + 4))))
1: (2 * (1 + loop(\(x,i).x3,1,(2x2 + 2x))))
1: (3 * (1 + loop(\(x,i).x3,1,(2x2 + 2x))))
1: (2 * (1 + loop(\(x,i).x3,2,4)))
1: (x3 * (x2 + loop(\(x,i).x3,2,x)))
1: (x2 * (x + loop(\(x,i).x3,2,x)))
1: (x * (x + loop(\(x,i).x3,2,x)))
1: (3 * (2 + loop(\(x,i).x3,x2,2)))
1: ((x + 1) * (15 + loop(\(x,i).x3,x2,x)))
1: ((x + 1) * (1 + loop(\(x,i).(4x * i),5,x)))
1: ((x + 1) * (1 + loop(\(x,i).(x * (i * i)),4,(x + 1))))
1: ((x + 1) * (2 + loop(\(x,i).(x * (i * i)),4,(x + 1))))
1: ((x + loop(\(x,i).(x * (i * i)),(~1 + i),1)) * i)
1: ((x + 1) * (1 + loop(\(x,i).((2x + 1) * ((x2 + x) div 2)),2,2)))
1: (x * (loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(x + ~1),1) + loop(\(x,i).4x,(x + ~1),1)))
1: (2 * (1 + loop(\(x,i).(x * (if (~1 + i) <= 0 then 2 else (x2 div 2))),x,1)))
1: ((x + 1) * (2 + loop(\(x,i).(x * loop(\(x,i).(1 + (x * i)),4,2)),2,(x + 1))))
1: (x * (1 + loop(\(x,i).(x * loop(\(x,i).(x * (x - i)),2,(x + ~2))),1,(x + ~1))))
1: (3 * (1 + loop(\(x,i).2x,(2 + (x mod 2)),(x div 2))))
1: (2 * (2 + loop(\(x,i).2x,(x + 2),2)))
1: (2 * (x + loop(\(x,i).2x,(~3 + (x div 3)),1)))
1: (2 * (x + loop(\(x,i).2x,(x + ~1),1)))
1: ((x + 1) * (2 + loop(\(x,i).2x,(x + ~1),2)))
1: (3 * (x + loop(\(x,i).2x,(x + ~5),1)))
1: (5 * (x + loop(\(x,i).2x,(~1 + i),1)))
1: (2 * (x + loop(\(x,i).2x,(~2 + i),1)))
1: (2 * (x + loop(\(x,i).2x,((x + ~2) div 3),1)))
1: (2 * (x + loop(\(x,i).2x,((x + ~2) div 5),1)))
1: (2 * (loop(\(x,i).2x,(x div 2),1) + (x mod 2)))
1: (2 * (loop(\(x,i).2x,(x div 2),(3 + (x mod 2))) + (x mod 2)))
1: (2 * (loop(\(x,i).2x,(x div 2),(2 + (x mod 2))) + loop(\(x,i).2x,x,2)))
1: (3 * (loop(\(x,i).2x,(x div 2),(2 + (x mod 2))) + loop(\(x,i).2x,x,3)))
1: (2 * (loop(\(x,i).2x,(x div 2),(x mod 2)) + loop(\(x,i).2x,x,1)))
1: (5 * (1 + loop(\(x,i).2x,x,1)))
1: (2 * (8 + loop(\(x,i).2x,x,1)))
1: (2 * (1 + loop(\(x,i).2x,x,2)))
1: (5 * (1 + loop(\(x,i).2x,x,2)))
1: (x * (1 + loop(\(x,i).2x,x,2)))
1: (2 * (loop(\(x,i).2x,x,2) + (x mod 2)))
1: ((x + 1) * (loop(\(x,i).2x,x,2) + (if (x + ~2) <= 0 then 1 else 2)))
1: ((x + 1) * (1 + loop(\(x,i).2x,x,3)))
1: (2 * (2 + loop(\(x,i).2x,x,3)))
1: ((x + 2) * (2 + loop(\(x,i).2x,x,3)))
1: (2 * (2 + loop(\(x,i).2x,x,5)))
1: (5 * (2 + loop(\(x,i).2x,x,5)))
1: (2 * (2 + loop(\(x,i).2x,x,(3 + (loop(\(x,i).4x,x,2) + loop(\(x,i).2x,x,1))))))
1: (2 * (2 + loop(\(x,i).2x,x,(5x + 2))))
1: (2 * (1 + loop(\(x,i).2x,x,(~2 + loop(\(x,i).(2x + 4),(x + 1),1)))))
1: (2 * (1 + loop(\(x,i).2x,x,(loop(\(x,i).10x,x,1) - loop(\(x,i).4x,x,1)))))
1: (2 * (1 + loop(\(x,i).2x,x,(~1 + loop(\(x,i).2x,x,2x)))))
1: (3 * (1 + loop(\(x,i).2x,x,(3x + 3))))
1: (3 * ((x2 + 2x) + loop(\(x,i).2x,x,(if x <= 0 then 1 else 2))))
1: ((x + loop(\(x,i).2x,i,1)) * (1 + (2 * i)))
1: ((1 + loop(\(x,i).2x,i,2)) * i)
1: (2 * (2 + loop(\(x,i).2x,compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),1)))
1: (2 * (1 + loop(\(x,i).2x,compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),2)))
1: (2 * (2 + loop(\(x,i).2x,compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),2)))
1: (2 * (1 + loop(\(x,i).x2,1,((2x + 2) - (x mod 2)))))
1: (2 * (2 + loop(\(x,i).x2,1,((23x + 23) + (x div 9)))))
1: (5 * (1 + loop(\(x,i).x2,1,(2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)))))
1: ((x + 1) * (x + loop(\(x,i).x2,1,(2x + 4))))
1: ((x + 1) * (2 + loop(\(x,i).x2,2,3)))
1: (2 * (2x2 + loop(\(x,i).x2,2,3)))
1: ((x + 1) * (2 + loop(\(x,i).x2,2,2x2)))
1: (x2 * (x2 + loop(\(x,i).x2,2,x3)))
1: (x * (x2 + loop(\(x,i).x2,2,x3)))
1: (x2 * (x + loop(\(x,i).x2,2,x2)))
1: ((x + 1) * (1 + loop(\(x,i).x2,(x + ~1),2)))
1: (x * (2 + loop(\(x,i).x2,(x + ~1),2)))
1: (3 * (x + loop(\(x,i).x2,(x + ~2),2)))
1: ((x + 1) * (2 + loop(\(x,i).x2,(x + ~2),3)))
1: (x * (1 + loop(\(x,i).x2,(~1 + i),2)))
1: (x * (1 + loop(\(x,i).x2,(~2x + 4),2)))
1: (x * (2 + loop(\(x,i).x2,x,3)))
1: (2 * (2 + loop(\(x,i).x2,x,4)))
1: (x * (2 + loop(\(x,i).x2,i,2)))
1: (2 * (x + loop(\(x,i).(2 * i),(((x + ~1) div 2) div 2),1)))
1: (2 * (1 + loop(\(x,i).(x * i),2x,loop(\(x,i).(x * (1 + i)),x,(x + 1)))))
1: (2 * (2 + loop(\(x,i).(x * i),x,1)))
1: ((x + 1) * (2 + loop(\(x,i).(x * i),x,1)))
1: (2 * (2 + loop(\(x,i).(x * i),x,2)))
1: ((x + 1) * (x + loop(\(x,i).(x * i),i,1)))
1: ((x + loop(\(x,i).(x * i),i,i)) * (1 + i))
1: (2 * (x + loop(\(x,i).((x2 + 2) div (x + 4)),2,x)))
1: (2 * (x + loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(~2 + i),1)))
1: ((x + 1) * (1 + loop(\(x,i).(loop(\(x,i).(4x + ~1),x,2) div 3),1,(x + 1))))
1: (2 * (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) + ((x + ~1) mod 4)))
1: (3 * (1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)))
1: (x * (1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)))
1: (2 * (2 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)))
1: (2 * (1 + loop(\(x,i).((x + 1) mod (2 + (i div 3))),(x + ~1),0)))
1: (2 * (1 + loop(\(x,i).((x + ~1) mod (2 * (1 + i))),x,0)))
1: (x * (1 + loop(\(x,i).(if (x + ~2) <= 0 then 0 else x2),(x div 2),x)))
1: (2 * (1 + loop(\(x,i).(if x <= 0 then 1 else (x + (2 * (i * (1 + i))))),x,0)))
1: (2 * (1 + loop(\(x,i).(if x <= 0 then 1 else (2x * ((x + 1) + (2 * loop(\(x,i).(2 * (1 + loop(\(x,i).(2x * (2 + i)),4x,1))),x,1))))),2,x)))
1: (x * (1 + loop(\(x,i).(if x <= 0 then 1 else x3),(~1 + i),4)))
1: (2 * (1 + loop(\(x,i).(if x <= 0 then 2 else ((2x + ~1) - i)),x,0)))
1: (2 * (1 + loop(\(x,i).(if x <= 0 then 2 else (2 * (2x - (x div (1 + i))))),x,0)))
1: (2 * (x + loop(\(x,i).(if x <= 0 then (2 * i) else (x + ~1)),x,0)))
1: ((x + 1) * (1 + loop(\(x,i).loop(\(x,i).(3x + ((~1 + (2 * i)) * i)),x,1),x,0)))
1: (2 * (2 + loop(\(x,i).loop(\(x,i).(x2 + 2),x,2),x,0)))
1: (2 * (2 + loop(\(x,i).loop(\(x,i).(x2 + ~1),x,2),x,1)))
1: (2 * (1 + loop(\(x,i).loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1,(3x + 3))))
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1: (3 * (1 + loop(\(x,i).loop(\(x,i).5x,x,1),(i - (x mod 3)),loop(\(x,i).5x,x,1))))
1: (2 * (2 + loop(\(x,i).loop(\(x,i).((x + 1) * i),x,2),x,1)))
1: (2 * (1 + loop(\(x,i).loop(\(x,i).(x * (2 + i)),x,x),x,1)))
1: (2 * (1 + loop(\(x,i).loop(\(x,i).(2 * (x + i)),x,1),x,1)))
1: (2 * (x + loop(\(x,i).loop(\(x,i).x2,x,2),x,0)))
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1: (3 * (x + loop(\(x,i).i,(~2 + (x div 3)),1)))
1: (7 * (x + loop(\(x,i).i,(~2 + (x div 3)),1)))
1: (11 * (x + loop(\(x,i).i,(~2 + (x div 3)),1)))
1: (3 * (x + loop(\(x,i).i,(x + ~5),1)))
1: ((2 + loop(\(x,i).i,(x + ~8),1)) * (1 + (x div 5)))
1: (3 * (x + loop(\(x,i).i,((x + ~1) div 3),1)))
1: (2 * (x + loop(\(x,i).i,(((x + ~1) div 2) div 2),1)))
1: (2 * (x + loop(\(x,i).i,(x div 5),1)))
1: (2 * (x + loop(\(x,i).i,(x div (3 * (8 - (x div 2)))),1)))
1: (2 * (1 + loop(\(x,i).compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x),2,x)))
1: ((x + 2) * (1 + i))
1: (3 * (1 + i))
1: ((x + ~1) * (1 + i))
1: ((x + i) * (x + i))
1: (2 * (1 + compr(\x.(loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x) + ((3x + 2) mod 7)),x)))
1: (2 * (1 + compr(\x.(loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x) + ((1 + (x div 2)) mod 6)),x)))
1: (2 * (1 + compr(\x.(loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x) + ((x + 1) mod 9)),x)))
1: (2 * (1 + compr(\x.(loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x) + ((x + 1) mod 6)),x)))
1: (2 * (1 + compr(\x.(loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x) + (x mod 7)),x)))
1: (2 * (1 + compr(\x.(loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x) + (x mod 10)),x)))
1: (2 * (2 + compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(7x + 1))),x)))
1: (2 * (1 + compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,7x)),x)))
1: (2 * (1 + compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x2 + 3x))),x)))
1: (2 * (1 + compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,10x)),x)))
1: (2 * (1 + compr(\x.(1 - ((x + 1) mod (1 + ((x - ((x div 3) mod 3)) div 2)))),x)))
1: (2 * (2 + compr(\x.(1 - (loop(\(x,i).3x2,2,x) mod (x + 2))),x)))
1: (5 * (2 + compr(\x.(1 - (x mod (1 + (if (x mod 8) <= 0 then 2 else 1)))),x)))
1: (2 * (2 + compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 4x))),(x + 1))))
1: (2 * (2 + compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),(x + 1))))
1: (2 * (1 + compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + 2x + 2))),x)))
1: (2 * (1 + compr(\x.(1 - loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(2x2 + 2x + 1))),x)))
1: (2 * (1 + compr(\x.(2 - ((1 + ((1 + ((loop(\(x,i).2x,x,2) mod (x + 1)) div 2)) div 2)) mod 3)),x)))
1: (2 * (1 + compr(\x.(2 - ((~1 + loop(\(x,i).2x,loop(\(x,i).(x div (1 + (x mod 2))),x,x),2)) mod (x + 1))),x)))
1: (2 * (1 + compr(\x.(2 - ((~1 + loop(\(x,i).2x,x,(if (x mod 4) <= 0 then 2 else (x mod 2)))) mod (x + 1))),x)))
1: (2 * (1 + compr(\x.(2 - (((x + 1) * (2 + (if (x mod 3) <= 0 then 0 else 2))) mod 5)),(x + 1))))
1: (2 * (1 + compr(\x.(2 - (loop(\(x,i).((x + 1) * (1 + ((~x + 2) mod 4))),x,5) mod (x + 1))),x)))
1: (2 * (1 + compr(\x.(2 - (loop(\(x,i).2x,x,(if (~2 + (x div 3)) <= 0 then 2 else 1)) mod (x + 1))),x)))
1: (2 * (1 + compr(\x.(2 - (x mod (1 + (4 * (2x mod 5))))),(x + 1))))
1: (2 * (1 + compr(\x.(2 - (x mod (~1 + ((~1 + (6 * (1 + (loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),x,(2x + 1)) div (x + 1))))) div 2)))),x)))
1: (2 * (1 + compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(4x + 1))),x)))
1: (2 * (1 + compr(\x.((x div 4) - (loop(\(x,i).(2x + 2),x,0) mod (x + 1))),x)))
1: (2 * (1 + compr(\x.(~1 + (((x + 1) * (1 + (x mod (2 * (2 + ((x2 + x) mod 8)))))) mod 3)),(x + 1))))
1: (2 * (1 + compr(\x.(~1 + (((1 + ((((x + 1) * (2 + ((if (x mod 2) <= 0 then (x + 3) else x) mod (x + 1)))) div 2) div 2)) div 2) mod 3)),(x + 1))))
1: (2 * (1 + compr(\x.(~1 + (loop(\(x,i).(4x + 9),x,1) mod (x + 1))),(x + 1))))
1: (2 * (1 + compr(\x.(~1 + (loop(\(x,i).(4x + 1),x,1) mod (2x + 1))),(x + 1))))
1: (2 * (1 + compr(\x.(~1 + (loop(\(x,i).(2x + 1),(x div (1 + (x mod 2))),1) mod (x + 1))),(x + 1))))
1: (2 * (2 + compr(\x.(~2 + (loop(\(x,i).(~2x + 1),x,1) mod (x + 2))),(x + 1))))
1: (2 * (1 + compr(\x.(~1 + (loop(\(x,i).2x,x,2) mod (1 + (if (~1 + (x mod 3)) <= 0 then x else 2)))),x)))
1: (2 * (1 + compr(\x.(~1 + (x mod (~1 + (loop(\(x,i).2x,x,x) mod (x + 1))))),x)))
1: (2 * (2 + compr(\x.(loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x) - (x div 11)),x)))
1: (2 * (1 + compr(\x.(~1 + loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(3x2 + 6x))),x)))
1: (2 * (2 + compr(\x.(~1 + loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,18x)),x)))
1: (2 * (1 + compr(\x.(~1 + loop(\(x,i).loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + 1)),1,(x2 + x))),x)))
1: (2 * (1 + compr(\x.(x - (3 * (1 + (x3 mod 11)))),x)))
1: (2 * (1 + compr(\x.((x2 + 2x + 1) mod loop(\(x,i).(1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),2,x)),x)))
1: (5 * (1 + compr(\x.((1 + (x * loop(\(x,i).(5x * (x - i)),2,x))) mod (x + 1)),x)))
1: (2 * (2 + compr(\x.((1 + (x mod (1 + (x mod 6)))) mod 3),x)))
1: (21 * (1 + compr(\x.((1 + loop(\(x,i).(x3 + ~1),2,4)) mod (x + 1)),x)))
1: (2 * (1 + compr(\x.((1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,x)) mod 3),x)))
1: (2 * (1 + compr(\x.((x + 1) mod (1 + (x div (2 + (loop(\(x,i).(2x + 2),x,1) mod (x + 1)))))),x)))
1: (2 * (1 + compr(\x.((x + 1) mod (1 + (x div (2 + (if (x mod 2) <= 0 then 1 else 8))))),x)))
1: (2 * (1 + compr(\x.((x + 1) mod (1 + ((if x <= 0 then 1 else (2 - (loop(\(x,i).(2x + 2),x,0) mod (x + 1)))) mod 3))),x)))
1: (2 * (1 + compr(\x.((x + 1) mod (1 + (x mod (1 + (x div (2 + (x div 8))))))),(x + 1))))
1: (2 * (1 + compr(\x.((x + 1) mod (1 + (x mod (2 + (loop(\(x,i).x3,2,2x) mod (x + 1)))))),x)))
1: (2 * (2 + compr(\x.((x + 1) mod (1 + (x mod (2 * (2 + (loop(\(x,i).(3x + 2),x,0) mod (x + 1))))))),x)))
1: (3 * (1 + compr(\x.((x + 2) mod (1 + (8 * (x mod 2)))),(x + 1))))
1: (3 * (2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)))
1: ((2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)) * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: ((2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)) * loop(\(x,i).4x2,2,2))
1: ((2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)) * loop(\(x,i).2x3,2,4))
1: ((2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)) * loop(\(x,i).x3,2,2))
1: ((2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)) * loop(\(x,i).x3,2,4))
1: ((2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)) * loop(\(x,i).x2,2,8))
1: ((2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)) * loop(\(x,i).x2,4,2))
1: (2 * (3 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)))
1: ((1 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),i)) * (x div 2))
1: ((x + 2) * (2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),i)))
1: (2 * (1 + compr(\x.((x * ((x div 2) div 3)) mod 2),x)))
1: (3 * (1 + compr(\x.(((~x + (x * (x mod 2))) div 3) mod 3),x)))
1: (2 * (1 + compr(\x.(((x2 + ~x) div 8) mod 2),x)))
1: (3 * (2 + compr(\x.((((x2 div 3) * ((x + 1) div 2)) div 2) mod 2),x)))
1: (2 * (1 + compr(\x.(loop(\(x,i).(2x + 1),x,0) mod (x + 1)),x)))
1: ((1 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x)) * (1 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)))
1: (2 * (2 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x)))
1: (3 * (2 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x)))
1: ((2 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x)) * (1 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)))
1: ((2 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x)) * (2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)))
1: (x * (2 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),i)))
1: (2 * (1 + compr(\x.(loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 2 else 1)),(x + 1),x) mod 3),x)))
1: (2 * (1 + compr(\x.(loop(\(x,i).(x * (1 + (i div 2))),x,1) mod (x + 1)),x)))
1: ((x + 1) * (1 + compr(\x.(loop(\(x,i).(x * (1 + (i div 2))),x,1) mod (x + 1)),x)))
1: (3 * (1 + compr(\x.(loop(\(x,i).(2x + 2),36,0) mod (x + 1)),x)))
1: (2 * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x)))
1: (3 * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x)))
1: ((x + 1) * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x)))
1: (x * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x)))
1: ((1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)) * i)
1: (2 * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: ((1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) * ((x2 + ~x) div (2x + 4)))
1: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) * (3 - (x mod 2)))
1: (7 * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: ((2x + 1) * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) * (1 + ((x + 1) div 2)))
1: ((x + 2) * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) * (2 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x)))
1: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) * (1 - (if ((x + 1) mod 12) <= 0 then 2 else 0)))
1: (11 * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) * (~1 + (2 * (x mod 2))))
1: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) * (x - (if (x mod 15) <= 0 then 2 else 0)))
1: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) * (3 div (if x <= 0 then 1 else x)))
1: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) * (if (x div 2) <= 0 then (2x + 1) else 8))
1: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) * loop(\(x,i).(10x + 1),x,1))
1: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) * loop(\(x,i).x5,2x,3))
1: (3 * (3 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: (7 * (3 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: ((3 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) * (1 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x)))
1: (2 * (4 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: (x * (4 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i)) * (1 + i))
1: (3 * (1 + compr(\x.(loop(\(x,i).(x2 + 2x),2,6) mod (x + 1)),x)))
1: (2 * (1 + compr(\x.(loop(\(x,i).((x + 1) * (x + i)),4,2) mod (x + 1)),x)))
1: (11 * (1 + compr(\x.(loop(\(x,i).((x + 1) * (x + i)),4,5) mod (x + 1)),x)))
1: (17 * (1 + compr(\x.(loop(\(x,i).(x * (x + i)),2,5) mod (x + 1)),x)))
1: ((x + 1) * (2 + compr(\x.(loop(\(x,i).(~2x + 2),x,2) mod (x + 2)),x)))
1: (x * (2 + compr(\x.(loop(\(x,i).(~2x + 2),x,2) mod (x + 2)),x)))
1: (26 * (1 + compr(\x.(loop(\(x,i).(~x4 + 3x2),3,2) mod (x + 1)),x)))
1: (2 * (1 + compr(\x.(loop(\(x,i).(~2x + 4),(1 + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x)),1) mod (x + 1)),x)))
1: (21 * (1 + compr(\x.(loop(\(x,i).(x * (x - i)),2,8) mod (x + 1)),x)))
1: (5 * (1 + compr(\x.(loop(\(x,i).(2x3 + 2x2),2,2) mod (x + 1)),x)))
1: (11 * (1 + compr(\x.(loop(\(x,i).(2x3 + 2x2),2,2) mod (x + 1)),x)))
1: (15 * (1 + compr(\x.(loop(\(x,i).(2x3 + 2x2),2,2) mod (x + 1)),x)))
1: (2 * (1 + compr(\x.(loop(\(x,i).4x2,2,3) mod (x + 1)),x)))
1: (3 * (1 + compr(\x.(loop(\(x,i).4x2,2,3) mod (x + 1)),x)))
1: (2 * (1 + compr(\x.(loop(\(x,i).4x2,2,5) mod (x + 1)),x)))
1: (5 * (1 + compr(\x.(loop(\(x,i).4x2,2,5) mod (x + 1)),x)))
1: (7 * (1 + compr(\x.(loop(\(x,i).4x2,2,5) mod (x + 1)),x)))
1: (15 * (1 + compr(\x.(loop(\(x,i).x3,2,15) mod (x + 1)),x)))
1: (2 * (2 + compr(\x.(loop(\(x,i).((x + 2) * loop(\(x,i).x2,2,(x + 2))),2,1) mod (x + 1)),x)))
1: (2 * (1 + compr(\x.(loop(\(x,i).x2,2,(~1 + (loop(\(x,i).2x,x,1) mod (x + 1)))) mod (x + 1)),x)))
1: (3 * (2 + compr(\x.(loop(\(x,i).x2,2,(3 * (1 + (x div 2)))) mod (x + 2)),x)))
1: (3 * (1 + compr(\x.(loop(\(x,i).x2,2,(4 * (2 + (x mod 2)))) mod (x + 1)),x)))
1: (2 * (1 + compr(\x.(loop(\(x,i).(x * i),(1 + (x mod (1 + (x div 3)))),1) mod (x + 1)),(x + 1))))
1: (2 * (1 + compr(\x.(loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 4),x)))
1: (2 * (2 + compr(\x.(x mod (1 + (2 * (1 + (x mod 3))))),x)))
1: (x * (1 + compr(\x.(x mod (1 + (8 * (x mod 2)))),x)))
1: (2 * (x + compr(\x.(x mod (1 + (8 * (x mod 2)))),x)))
1: (3 * (1 + compr(\x.(x mod (1 + (2 * (x mod (2 + (x mod 2)))))),x)))
1: (3 * (1 + compr(\x.(x mod (1 + ((5x2 + 10x + 5) mod 9))),x)))
1: (2 * (1 + compr(\x.(if ((x + 2) mod 4) <= 0 then 1 else loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x)),x)))
1: (2 * (1 + compr(\x.(if (x mod 4) <= 0 then 1 else loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x)),x)))
1: (2 * (1 + compr(\x.loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(3x + 1)),x)))
1: (3 * (1 + compr(\x.loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(3x + 1)),x)))
1: (3 * (2 + compr(\x.loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(3x + 1)),x)))
1: (3 * (2 + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x)))
1: (2 * (2 + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,(x + 2)),x)))
1: (3 * (2 + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,(x + 2)),x)))
1: (2 * (3 + compr(\x.loop(\(x,i).(x - (if (x mod (2 + i)) <= 0 then 0 else 1)),x,x),x)))
1: (5 * (1 + compr(\x.loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,2x),x)))
1: (3 * (1 + compr(\x.loop(\(x,i).(x div (2 - (((x + 1) * (x div 4)) mod 2))),x,x),x)))
1: (2 * (1 + compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + 1)),x)))
1: (2 * (1 + compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(21x + 20)),x)))
1: (2 * (2 + compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(2x2 + 8x + 1)),x)))
1: (2 * (1 + compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(2x2 + 6x + 5)),x)))
1: (2 * (1 + compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(17x + 12)),x)))
1: (2 * (1 + compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(17x + 16)),x)))
1: (2 * (1 + compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(9x + 5)),x)))
1: (2 * (1 + compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(11x + 9)),x)))
1: (2 * (1 + compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(2x2 + 6x)),x)))
1: (2 * (1 + compr(\x.loop(\(x,i).loop(\(x,i).(x div (1 + (x mod 2))),x,(x + 1)),2,x),x)))
1: (2 * (2 + compr(\x.loop(\(x,i).loop(\(x,i).(x div (1 + (x mod 2))),x,(x + 1)),2,x),x)))
1: ((x + 1) * (~1 - (x div 4)))
1: (2 * (~x - ((x div 4) mod 2)))
1: (x * (~1 - (if (x mod 3) <= 0 then 2 else 0)))
1: (~x3 + ~6x2 + ~8x)
1: (~2x3 + ~2x2 + ~2x + ~2)
1: (9 * (0 - ((2x - (x2 div 4)) div 5)))
1: (7 * (0 - ((x - (x div 4)) div 2)))
1: (3 * (0 - (2x div (~3 + ((~x + 1) div 3)))))
1: ((0 - (((x + 1) div 2) div 3)) * (x div 3))
1: ((0 - (x div 4)) * (x div ~4))
1: ((0 - (x div 5)) * (x div ~5))
1: ((0 - (x div ~7)) * (x div 7))
1: ((0 - (x div (~2 + (x mod ~2)))) * (((x + ~1) div 2) div 2))
1: (3 * (0 - (x mod 3)))
1: (2 * (0 - (x mod 4)))
1: (2 * (0 - (x mod (2 + (x mod 2)))))
1: (x * (0 - loop(\(x,i).~2x,i,x)))
1: ((x + ~1) * (0 - loop(\(x,i).(((x + 1) - (2 * (i mod 2))) * i),x,0)))
1: (~x * (x mod 2))
1: ((x + 1) * (0 + (2 * (x mod 2)) - (((x + 1) div 2) div 2)))
1: ((x + 1) * ((~x + 1) - (2 * (24 + (x div 2)))))
1: (3 * ((~x + 1) - (2 * (2 + (x div 8)))))
1: ((~x + 3) * (~1 - ((x div 2) div 3)))
1: (2 * (~1 - (if (x + ~4) <= 0 then 0 else 2)))
1: (x * ((~x + 1) - (if (x + ~4) <= 0 then 1 else x)))
1: ((x + 1) * ((~x + 1) - loop(\(x,i).3x,(x div 2),2)))
1: ((2x + 1) * (~1 - loop(\(x,i).2x,(2x + ~1),1)))
1: (3 * (2 + (2 * (x + (3 * (1 + (x div 2))))) - (x div 2)))
1: ((x + 1) * (1 + (x mod 2) - (((1 - (((x mod 2) - (x div 2)) div 2)) div 2) mod 2)))
1: ((1 + (3 * (x + (x div 2))) - (x mod 2)) * (1 + (x div 2)))
1: ((x + 1) * (1 + (3 * ((x div 3) mod 2)) - (x mod 2)))
1: (2 * (1 + loop(\(x,i).(2x + 4),(x + ~1),0) - (x mod 2)))
1: (~x2 + 9x + 52)
1: (~x2 + 12x + 13)
1: (((~x + 1) + (2 * (6 + (x mod 2)))) * (if x <= 0 then 1 else 2))
1: (5x2 + 13x)
1: (10x3 + ~6x2 + x)
1: (23x2 + x)
1: (33x2 + 25x + 2)
1: (22x2 + 13x + 1)
1: (11x2 + x)
1: (19x2 + x)
1: (2x2 * ((~x + 1) + (5 * ((x3 + x) div 2))))
1: (3 * ((~x + 1) + loop(\(x,i).(2 * (x + i)),x,0)))
1: ~35
1: (~7x2 + ~7)
1: (~7x + 14)
1: (~7 * ((x div 2) div 3))
1: (~11 * (1 + (x div 2)))
1: (~11 * ((x mod 2) - (if x <= 0 then 1 else 2)))
1: (~11 * (x div 2))
1: (~12x + ~9)
1: (4 * (1 - (2 * ((2x + 2) - (x div 4)))))
1: (~10x2 + ~3x)
1: (~52x + ~30)
1: (~66x + ~57)
1: (2 * (1 - (2 * (x + (i mod 2)))))
1: (~3x2 + ~8x + ~4)
1: (4x * (1 - (2 * (2 + i))))
1: (~18x3 + ~31x2 + ~10x)
1: (~9x2 + 10x + ~1)
1: (~15x + ~15)
1: ~15x2
1: (~15 * (x div 2))
1: (~23x + ~23)
1: (~39x + ~39)
1: (~19x + ~19)
1: (~4x2 + ~12x + ~6)
1: ~62
1: (~31x + ~31)
1: (~31 * (x div 2))
1: (~8x2 + x)
1: (x * (1 - (4x * (1 + i))))
1: ((1 - (4 * (x mod 2))) * loop(\(x,i).(~2x + 1),x,1))
1: (~4x2 + ~3x + 1)
1: (~6x2 + ~11x + 2)
1: (~12x2 + 3)
1: (~x4 + 2x3 + x + ~2)
1: ((1 - (2 * ((~x + (x mod 3)) div 4))) * (x mod 2))
1: (x * (1 - (2 * (((1 - (2 * (i mod 2))) * i) div 2))))
1: (5 * (1 - (((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2) * (x div 5))))
1: (3 * (1 - (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (x div (~1 - (x mod 5))))))
1: ((x + ~1) * (1 - (2 * (x div 3))))
1: (2 * (1 - (2 * ((x + 1) mod (~1 + (x div ~5))))))
1: ((x + 1) * (1 - (2 * ((x - ((~x2 + x) div 32)) mod 2))))
1: (2 * (1 - (2 * (((x2 + ~2x) div (x + 2)) mod 2))))
1: ((1 - (2 * ((2x div (4 + (x div 4))) mod 2))) * ((if x <= 0 then 1 else x) mod 2))
1: ((1 - (2 * ((x div 2) mod 2))) * ((x + 1) + (x div 2)))
1: ((1 - (2 * ((x div 2) mod 2))) * (1 + (2 * (x div 2))))
1: ((1 - (2 * ((x div 2) mod 2))) * (1 + (x div (1 + (x mod 2)))))
1: ((1 - (2 * ((x div 2) mod 2))) * (1 + (if (x mod 2) <= 0 then 2 else 0)))
1: (2 * (1 - (2 * ((x div 2) mod 5))))
1: (3 * (1 - (2 * ((x div 3) mod 2))))
1: ((3x + 1) * (1 - (2 * ((x div 3) mod 2))))
1: ((1 - (2 * ((x div 3) mod 2))) * (1 + ((x mod 3) div 2)))
1: ((1 - (2 * ((x div 3) mod 2))) * (1 + (2x mod 3)))
1: ((1 - (2 * ((x div 3) mod 2))) * (1 + (if (x mod 3) <= 0 then 0 else 2)))
1: ((1 - (2 * ((x div 3) mod 2))) * (2x mod 3))
1: ((2x + 1) * (1 - (2 * ((x div 5) mod 2))))
1: ((1 - (2 * ((x div 5) mod 2))) * ((x div ~2) mod 2))
1: ((1 - (2 * ((x div ~3) mod 2))) * (1 + (x mod 3)))
1: (2 * (1 - (2 * ((x mod (1 + ((2 * (x + ((x * (x div 2)) mod 2))) div 3))) mod 2))))
1: ((1 - (2 * ((x mod (1 + (((x + 1) div 2) div 2))) mod 2))) * (1 + (x div 2)))
1: ((x + 1) * (1 - (2 * ((x mod ((x + ~2) + (x div 2))) mod 2))))
1: (5 * (1 - (2 * (x mod 2))))
1: ((x + 4) * (1 - (2 * (x mod 2))))
1: ((~x + 3) * (1 - (2 * (x mod 2))))
1: ((2x + 3) * (1 - (2 * (x mod 2))))
1: ((x2 + 2x + 1) * (1 - (2 * (x mod 2))))
1: ((x2 + x) * (1 - (2 * (x mod 2))))
1: ((1 - (2 * (x mod 2))) * ((x + 1) mod 3))
1: ((1 - (2 * (x mod 2))) * (if x <= 0 then 0 else (x + 1)))
1: ((x + 1) * (1 - (2 * loop(\(x,i).(x2 + x),(x + ~1),x))))
1: (~2x2 + ~x + 1)
1: (~2x2 + ~3x + 2)
1: ((~2x + 1) * (if x <= 0 then 1 else 2))
1: (~x3 + ~x2 + x + 1)
1: (3 * (1 - (2 * i)))
1: ((1 - (2 * i)) * (~1 + (2 * i)))
1: (3 * (1 - ((2 + (loop(\(x,i).8x,((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2),1) div 2)) div 3)))
1: (3 * (1 - ((1 + (x mod (1 + (2 * (if (x mod 2) <= 0 then 1 else (x div 4)))))) div 3)))
1: ((1 - ((0 - (x2 div 4)) div 7)) * (x mod 2))
1: (2 * (1 - ((~x + 1) div (4 - (((x - (x div 4)) div 2) mod 2)))))
1: (5 * (1 - ((~x + 1) div 7)))
1: ((x + 1) * (1 - ((~x + 1) div (2 + ((x div 2) div 3)))))
1: (x * (1 - ((~x2 + 2) div (x + 6))))
1: ((x + 1) * (1 - ((~x + 2) div (2 - (x div ~4)))))
1: (2 * (1 - (((x mod 2) - (x div (4 + ((x div 2) mod 2)))) div 2)))
1: ((x + 2) * (1 - (((x mod 2) - (x div ((if (x mod 3) <= 0 then 2 else 1) + (x mod 2)))) div 2)))
1: (3 * (1 - ((~x + (x mod 3)) div 4)))
1: (5 * (1 - ((~x + (x mod 3)) div 4)))
1: (3 * (1 - (((x mod 4) - (x div 4)) div 3)))
1: ((x + 1) * (1 - ((x - (x2 div 3)) div 3)))
1: (x * (1 - ((~x2 + 2x) div 3)))
1: (2 * (1 - ((x * (~2x + (x div 2))) div 3)))
1: (3 * (1 - ((2 * (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2))) div 3)))
1: (x * (1 - (x3 div 2)))
1: (3 * (1 - ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (~1 + (x div ~2))) div 2)))
1: ((1 - ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)) * (1 + (2 * (if x <= 0 then 0 else 2))))
1: (2 * (1 - (2x div (~4 + (x div ~4)))))
1: ((1 - (x2 div 2)) * ((x + 1) div 2))
1: (3 * (1 - (((1 + (x mod (1 + (31 mod (x + 1))))) div 2) div 2)))
1: (3 * (1 - (((~1 + (6 * (1 + ((~2 + (x mod 2)) mod (~1 + ((~2x + 2) mod (4 + (x div 4)))))))) div 2) div 2)))
1: (2 * (1 - (((x - ((x2 + ~x) div 4)) div 2) div 3)))
1: ((x + ~1) * (1 - (((x - ((x2 + ~x) div 4)) div 2) div 3)))
1: (2 * (1 - (((x div 2) div ~2) div 2)))
1: ((x + 1) * (1 - ((32 mod (x + 1)) div 2)))
1: (3 * (1 - (((x div 3) mod 3) div 2)))
1: ((1 - (((x div (3 * (~2 + (x mod 2)))) mod 3) div 2)) * (if x <= 0 then 1 else 2))
1: (3 * (1 - ((loop(\(x,i).(2x + 2),x,(12 * (x div 7))) mod 5) div 2)))
1: (2 * (1 - ((x mod (1 + ((2 - (x mod 4)) mod (x + 1)))) div 2)))
1: ((1 - (x div 2)) * (x div 3))
1: ((1 - (x div 3)) * (x div 2))
1: ((1 - (x div 3)) * (x div 3))
1: (x * (1 - (x div 3)))
1: ((1 - (x div 4)) * (1 + (x div 3)))
1: ((x + 2) * (1 - (x div 4)))
1: (2 * (1 - (x div (~1 - (x div (2 + (x div (1 + (x mod (2 * (1 + (x mod 2))))))))))))
1: (3 * (1 - (x div ~4)))
1: ((x + 1) * (1 - (x div ~4)))
1: (2 * (1 - (x div ~5)))
1: (2 * (1 - (x div (~1 + ((~x + 1) div 9)))))
1: (x * (1 - (x div (~2 + ((~x + 2) div 4)))))
1: (2 * (1 - (x div (~2 + (x div ~2)))))
1: (2 * (1 - (x div (~1 + (x div ~8)))))
1: (2 * (1 - (x div (~2 + ((x * (x div 3)) mod 2)))))
1: (3 * (1 - (x div 8)))
1: ((1 - (x div ~8)) * (1 + (x div 8)))
1: (2 * (1 - ((x + 1) mod (~10x + 9))))
1: ((x + 1) * (1 - ((2x + ~1) mod (4 + (x div 4)))))
1: ((x + 1) * (1 - (((x div 2) - (if ((x + 1) mod 8) <= 0 then 0 else 1)) mod 2)))
1: ((x + 1) * (1 - ((x - (x div 12)) mod 5)))
1: ((x + 2) * (1 - ((x2 + x) mod 3)))
1: (3 * (1 - (((x + 1) div 2) mod 5)))
1: (2 * (1 - ((x3 div 8) mod 2)))
1: ((x + 1) * (1 - ((x3 div 8) mod 2)))
1: (2 * (1 - ((x div 2) mod (1 + ((~x + 2) mod 4)))))
1: ((1 - (((x + ~1) mod (2 + (x div 4))) mod 3)) * (x mod 2))
1: (5 * (1 - ((x mod (2 + (x mod 8))) mod 2)))
1: ((x + 1) * (1 - (loop(\(x,i).x2,2,(1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1))) mod (x + 1))))
1: (3 * (1 - (x mod 3)))
1: ((1 - (x mod 3)) * (~1 + (x div 2)))
1: (2 * (1 - (x mod 4)))
1: (2 * (1 - (x mod (1 + (((x + 1) - (2 * (x div (2 * (2 - (x mod 2)))))) mod (x + 1))))))
1: ((2x + 1) * (1 - (x mod (2 + (if (x mod 2) <= 0 then 1 else 8)))))
1: (2 * (1 - (x mod ~7)))
1: ((x + 1) * (1 - (x mod (~1 + (3 * (16 div (x + 1)))))))
1: (2 * (1 - (x mod (~1 + (((x div 3) - (x div 2)) div 2)))))
1: ((x + 1) * (1 - (x mod (~1 + (((x div 3) - (x div 2)) div 2)))))
1: (x * (1 - (x mod 10)))
1: (3 * (1 - (i mod 3)))
1: (3 * (1 - (if (2 - (x div 4)) <= 0 then (x mod 8) else 1)))
1: (2 * (1 - (if ((1 + (x div 3)) mod 4) <= 0 then (x mod 3) else 1)))
1: (x * (1 - loop(\(x,i).3x,x,loop(\(x,i).(3x + ~6),x,0))))
1: ((x + 2) * (1 - loop(\(x,i).(2x + ~4),x,0)))
1: (2 * (1 - loop(\(x,i).(x * (~x + i)),2,x)))
1: (x * (1 - loop(\(x,i).i,(2 - (((x mod 4) + (x div 2)) div 2)),x)))
1: ((~2x + 2) * i)
1: ((~x + 1) * (x mod 2))
1: (3 * (1 - i))
1: ((x + 1) * (0 - ((x + ((~1 + (x div 2)) mod 3)) div 2)))
1: (2 * ((~x + 2) - (x div 3)))
1: (3 * ((~x + 2) - (if (x mod 2) <= 0 then x else 1)))
1: (~2x2 + 6)
1: (2 * (3 - (x div 2)))
1: ((x + 2) * (3 - (x div 2)))
1: ((3 - (x div 2)) * (x div 5))
1: ((x + 1) * (4 - (x div 2)))
1: (x * (4 - (x div 2)))
1: ((x + 1) * (4 - (2x mod (4 + (x div 4)))))
1: (2 * (3 - ((x div 2) mod (1 + (if (x mod 2) <= 0 then 6 else 1)))))
1: (~x2 + 9x + 22)
1: (~x2 + 19x)
1: (((~x + 2) + (5 * (2x + (x mod 2)))) * ((x + 1) div 2))
1: (((~x + 2) + (5 * (x - (3 * (x div ~2))))) * ((x + 1) div 2))
1: (~3x + 54)
1: (4x3 + 11x2 + 9x + 2)
1: (7x2 + 9x + 2)
1: (7x2 + 2x)
1: (22x + 4)
1: ((x + 1) * ((~x + 2) + (x div 4)))
1: (((~x + 2) + ((x div 2) mod 2)) * (x div 2))
1: ((x + 1) * ((~x + 2) + loop(\(x,i).(2 + ((x2 + ~2) div (x + 4))),2,x)))
1: (x * (26 - i))
1: (2 * (2 - (3 * i)))
1: (x * (2 - (3 * i)))
1: ((x + 1) * (2 - (7 * (x div ~2))))
1: (x * (2 - (x * (1 + (2 * (1 + i))))))
1: (~2x2 + ~8x + ~4)
1: (x3 + ~3x2 + 4x)
1: (~6x + 100)
1: (~22x + ~22)
1: (~48x + 6)
1: ((~12x + 2) * (2x - (x mod 2)))
1: (x * (2 - (((x + ~1) div 2) * (x div 2))))
1: (x * (2 - ((x + ~1) * ((~x2 + x) div 2))))
1: (x * (2 - (x * (x div 2))))
1: (3 * (2 - (2 * (x div 3))))
1: (2 * (2 - (2 * (x div 5))))
1: (3 * (2 - (3 * (x div ~2))))
1: (2 * (2 - (x * (((x div 2) div 3) mod 2))))
1: (x * (2 - (x * (x mod 2))))
1: (x * (2 - (3 * (i mod 2))))
1: (~4x2 + 8)
1: (~x3 + ~x2 + 2x + 2)
1: (~x4 + 2x2)
1: (~x3 + 2x)
1: (3 * (2 - (2 * i)))
1: (2 * (2 - (2 div (1 + (x div 5)))))
1: (5 * (2 - (2 div (1 + (x div 5)))))
1: (2 * (2 - (2 div (~8 + (x div 2)))))
1: (2 * (2 - (((x + 1) + (if (x mod 2) <= 0 then (1 + (2 * (x - ((1 + (x mod 4)) div 2)))) else 2)) div 2)))
1: ((x + 1) * (2 - ((~x + 3) div 7)))
1: (2 * (2 - ((~2x + 5) div (4 + (x div 4)))))
1: (2 * (2 - ((~2x + 1) div 5)))
1: (3 * (2 - ((~2x + 1) div 5)))
1: (2 * (2 - ((1 - (x div 2)) div 3)))
1: ((2 - ((~x + 1) div 3)) * (x div 3))
1: (2 * (2 - ((~x + 1) div 5)))
1: (x * (2 - ((~x + 1) div (1 + ((x div 2) div 3)))))
1: ((2 - ((~x + 1) div (2 + (x div 2)))) * ((x mod 3) div 2))
1: (5 * (2 - ((~x + 1) div (2 + (x div 4)))))
1: (2 * (2 - ((~x + 1) div (1 + (x div (2 + (3 * (x mod 2))))))))
1: ((x + 1) * (2 - ((~x + 1) div (1 + ((~x + 2) mod 4)))))
1: ((x + 1) * (2 - ((2 + (x div 2) - (x * (x mod 2))) div (x + 1))))
1: (2 * (2 - ((~x2 + 2) div (3x + 2))))
1: (2 * (2 - ((2 - (2x mod (4 + (x div 4)))) div (x + 2))))
1: (3 * (2 - ((~x + 2) div 7)))
1: (3 * (2 - ((~x + 2) div (x + 2))))
1: (2 * (2 - ((~x + 2) div (2 - (x div ~4)))))
1: ((2 - ((~x + 2) div 8)) * (x div 5))
1: (3 * (2 - ((~x + ((x div 2) div 3)) div 2)))
1: (2 * (2 - ((~1 + (x mod 4)) div 2)))
1: ((2 - ((x + ~1) div 2)) * (2 + (x div 2)))
1: (3 * (2 - ((~2x + 2) div 9)))
1: (2 * (2 - (2x div (2 + ((x + ~1) mod 3)))))
1: ((2 - (((x + 1) div 2) div 2)) * (x div 4))
1: (x * (2 - (((x + 1) div 2) div 2)))
1: (2 * (2 - (((~x2 + 2x) div 4) div 3)))
1: (2 * (2 - ((x div 2) div 3)))
1: (3 * (2 - ((x div 2) div 3)))
1: (3 * (2 - ((x div 2) div (1 + (x mod 10)))))
1: (3 * (2 - ((x div 3) div ~3)))
1: (2 * (2 - ((((x2 + 2x + 1) div 3) mod 3) div 2)))
1: (2 * (2 - ((x mod (2 + (x mod 2))) div 2)))
1: (3 * (2 - ((x mod (2 + (x mod 2))) div 2)))
1: (2 * (2 - ((x mod (~2 - (x mod 4))) div 2)))
1: (5 * (2 - (loop(\(x,i).((x + ~2) + (x div 2)),x,0) div 2)))
1: ((x + ~2) * (2 - (x div 2)))
1: (6 * (2 - (x div 2)))
1: (x2 * (2 - (x div 2)))
1: ((2 - (x div 2)) * (x mod 2))
1: (2 * (2 - (x div 3)))
1: ((x + 2) * (2 - (x div 3)))
1: ((2x + ~1) * (2 - (x div 3)))
1: ((2 - (x div 3)) * (x div 4))
1: (2 * (2 - (x div 4)))
1: (x * (2 - (x div 4)))
1: ((x + 1) * (2 - (x div (1 + (2 * i)))))
1: (x * (2 - (x div (2 + (x mod 4)))))
1: ((x + 1) * (2 - (x div ~2)))
1: (x * (2 - (x div ~4)))
1: (2 * (2 - (x div (~4 + (x mod 3)))))
1: (2 * (2 - (x div (~1 + ((~x + 1) div 3)))))
1: ((2 - (x div ~8)) * (x div 3))
1: (x * (2 - (i div ~4)))
1: ((x + 2) * (2 - (1 mod (~x2 + 2))))
1: (x * (2 - (1 mod (~3x + 4))))
1: (2 * (2 - ((~x + 4) mod (~1 + ((~x + 2) div 4)))))
1: ((2 - ((x2 + 2) mod 5)) * (1 - (2 * (x mod 2))))
1: ((2 - ((x2 + 2) mod 5)) * (~1 + ((~x + 1) mod 3)))
1: ((2 - ((x + 1) mod (1 + (2 * (~2 + (x mod 2)))))) * (x div 7))
1: (2 * (2 - ((x - (2 * ((x div 2) mod 2))) mod 8)))
1: ((2 - ((2x + 4) mod (1 + (2 * (x div 4))))) * (x mod 2))
1: (3 * (2 - ((x * (x div 2)) mod 2)))
1: (2 * (2 - (2x mod 5)))
1: ((x + ~1) * (2 - (2x mod 9)))
1: (3 * (2 - (2x mod (~2 - (x div 4)))))
1: (2 * (2 - (((1 + ((x2 div 2) + (x div 4))) div 2) mod 2)))
1: (2 * (2 - (((x + ~1) div 2) mod 4)))
1: ((2 - ((x div 2) mod 2)) * (1 + (x div 2)))
1: ((2 - ((x div 2) mod 2)) * (2 + (if x <= 0 then 1 else 2)))
1: ((2 - ((x div 2) mod 2)) * (x div 2))
1: ((2 - ((x div 2) mod 2)) * (x div 3))
1: ((2 - ((x div 2) mod 2)) * (x div 5))
1: ((2 - ((x div 2) mod 4)) * ((x div 2) mod 2))
1: (5 * (2 - ((x div 2) mod 5)))
1: (2 * (2 - ((x div 2) mod (~1 - (x mod (2 + (x mod (2 + (x mod 2)))))))))
1: (x * (2 - ((x div 2) mod ~7)))
1: (2 * (2 - ((x div 3) mod 2)))
1: ((x + ~1) * (2 - ((x div 4) mod 2)))
1: ((2 - ((x div 4) mod 2)) * ((x + 1) div 2))
1: (3 * (2 - ((x3 mod (2 + (x div 2))) mod 2)))
1: (2 * (2 - ((2x mod (~2 - (x div 3))) mod 2)))
1: (3 * (2 - ((x mod 3) mod 2)))
1: (x * (2 - ((x mod 3) mod 2)))
1: ((2 - ((x mod (2 + (x div 2))) mod 2)) * ((x mod 3) mod 2))
1: (2 * (2 - ((x mod (~1 + (2 * (x div 3)))) mod 2)))
1: ((x + 1) * (2 - ((if (x + ~4) <= 0 then 1 else x) mod 2)))
1: (7 * (2 - ((if x <= 0 then 1 else x) mod 2)))
1: (9 * (2 - ((if x <= 0 then 1 else x) mod 2)))
1: ((x + 1) * (2 - ((if x <= 0 then 1 else x) mod 2)))
1: ((x + 2) * (2 - (x mod 2)))
1: ((2 - (x mod 2)) * (x div 3))
1: (5 * (2 - (x mod 4)))
1: (9 * (2 - (x mod 4)))
1: (12 * (2 - (x mod 4)))
1: (2 * (2 - (x mod 9)))
1: (2 * (2 - (x mod (1 + (2 * ((x + 5) div (6 * (1 + (x mod 2)))))))))
1: ((x + 1) * (2 - (x mod (2 + ((x div 2) mod 2)))))
1: (2 * (2 - (x mod (2 + (x mod 2)))))
1: (2 * (2 - (x mod ~4)))
1: (x * (2 - (x mod ~4)))
1: (2 * (2 - (x mod ~5)))
1: ((x + 1) * (2 - (x mod (~1 + ((~x + 2) div 4)))))
1: (2 * (2 - (x mod (~1 + (x div ~5)))))
1: (2 * (2 - (x mod (~2 + (x mod ~2)))))
1: ((2 - (i mod 2)) * i)
1: (5 * (2 - (if (~x + 2) <= 0 then x else 2)))
1: (2 * (2 - (if x <= 0 then 1 else ((x mod 2) - (((2x + 1) mod (1 - (x div ~4))) div 2)))))
1: ((2 - (if x <= 0 then 1 else ((x mod 2) - (((2x + 1) mod (1 - (x div ~4))) div 2)))) * (1 + (x mod 2)))
1: ((x + 1) * (2 - (if x <= 0 then 1 else ((x mod 2) - (((2x + 1) mod (1 - (x div ~4))) div 2)))))
1: (x * (2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x + ~2),x)))
1: (9 * (2 - loop(\(x,i).i,(x + ~9),2)))
1: ((~x + 2) * i)
1: ((2 - i) * (1 + i))
1: (2 * (3 - (2 * (1 + (loop(\(x,i).(2 * (2x - (2x * (x div 2)))),x,1) div 2)))))
1: (3 * (3 - (2 * ((x + (x div 2)) div 2))))
1: (x * (4 - (x * (4 + i))))
1: (2 * (4 - (x div 7)))
1: (2 * (4 - (x mod 3)))
1: (x * (4 - (i mod 3)))
1: ((x + 1) * (0 + (((2 * (1 + ((1 + (x div (1 + ((~1 + loop(\(x,i).2x,x,(1 + (x mod (2 * (1 + (x mod 2)))))) - (x mod 2)) mod (2x + 1))))) div 2))) div 3) + (x mod 2))))
1: ((x + 1) * (0 + (((2 * (1 + ((1 + (x div (1 + (x mod (1 + (loop(\(x,i).2x,x,2) mod (2x + 1))))))) div 2))) div 3) + (x mod 2))))
1: (2 * ((4x + 2) + (x div 2) - (x div 3)))
1: ((x + 2) * ((~x + 4) + (x div 4)))
1: (2 * ((x + 4) - (2 div (1 + (x div 4)))))
1: ((x + 1) * ((x + 4) - (x2 div ~2)))
1: (x * ((~x + 3) - (x mod 2)))
1: (2 * ((2x + 1) - ((x div 3) + (x div ~2))))
1: (3 * (7 - (x mod 2)))
1: (2 * ((3x + 2) - ((2x + 1) div 7)))
1: (3 * ((3x + 2) - ((2x + 1) div 7)))
1: (3 * ((3x + 2) - (((x + 1) div 2) div 3)))
1: (x * (9 - ((~x2 + x) div 2)))
1: (2 * ((5x + 2) - (x div 3)))
1: (3 * ((x + ~1) + (2 * (8 + (if x <= 0 then 0 else 1)))))
1: (2x2 + 24x + 30)
1: (2x2 + 22x + 28)
1: (2x3 + 5x2 + 15x)
1: ((x + 1) * ((x + ~1) + (2 * (1 + (((4x3 + 8x2 + 9x + 5) div 2) div 3)))))
1: (x * ((x + ~1) + (2 * (2x + (x mod 2)))))
1: (x * ((x + ~1) + (2 * (x + (x mod 2)))))
1: (2 * ((x + ~1) + (2 * (x + (i mod 2)))))
1: (22x2 + ~19x)
1: ((x + 1) * (17 - (x div 15)))
1: (2x2 + 30)
1: (x3 + 15x)
1: (9x + 135)
1: (x2 + 17x + 30)
1: (10x + 14)
1: (25x2 + 45x + 14)
1: (5x2 + 12x + 7)
1: (2 * (~1 + ((4 * ((1 + (4 * (x + (if (x + ~4) <= 0 then 1 else 2)))) div 3)) + (x mod 2))))
1: (2 * ((4x + 1) - (x div 3)))
1: (2 * (4x + (x mod 2) - (x div 3)))
1: (2 * ((6x + 2) - (x div 3)))
1: (x * ((x + ~1) + (2 * ((x + ((loop(\(x,i).(x2 + x),2,x) div 2) div 3)) div 2))))
1: (2 * ((x + 1) + (2 * (x div 3)) - (x mod 2)))
1: (((x + ~1) + (2 * (x mod 2))) * (1 + i))
1: (2 * ((x + ~1) + (2 * (if (~4 + (x div 2)) <= 0 then 1 else (x div 4)))))
1: ((x + 1) * ((x + ~1) + ((x + 1) * loop(\(x,i).(x * (x + i)),2,4))))
1: (x * ((x2 + ~1) + (x mod 2)))
1: (2 * ((x + ~1) + (2 * i)))
1: (3 * ((x + ~1) + (2 * i)))
1: (((x + ~1) + (2 * i)) * i)
1: (2 * ((x + ~2) + (2 * i)))
1: (2 * ((~x + 2) + ((2 + (x * loop(\(x,i).x3,1,(x + 3)))) div 2)))
1: (2 * (x + ((x + ((x div 2) mod 2)) div 2) - ((x + 1) div 3)))
1: (2 * (2x + ((2 - (x div 4)) div 2) - (x mod 2)))
1: (2 * (2x + (x div 2) - (x mod 4)))
1: (2 * ((x + ~1) + (x div 2)))
1: (((x + ~1) + (x div 2)) * ((x + 1) div 2))
1: (x * ((x + ~1) + (x div 2)))
1: (x * ((x + ~2) + (x div 2)))
1: ((2x + 1) * (1 + (x div 4) - (x mod 10)))
1: (2 * (x + (x div 8) - (x div 5)))
1: (2 * ((x + ~1) + (i div 2)))
1: ((2x + 1) * ((x + ~1) + ((x * (x div 2)) mod 2)))
1: ((2 + (x mod 2) - (x div ~2)) * (x div 2))
1: (2 * (2x + (x mod 2) - (x div 3)))
1: (5 * ((x + ~1) + (x mod 2)))
1: ((x + 1) * ((x + ~1) + (x mod 2)))
1: (x * ((x + ~1) + (x mod 2)))
1: (2 * ((x + ~1) + (i mod 2)))
1: ((x + 2) * ((2x + ~1) + (if (~x + 2) <= 0 then x else 2)))
1: (2 * (2x + (if x <= 0 then 1 else x) - ((x + (x div 2)) div 4)))
1: (2 * (1 + loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x) - (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))
1: ((x + 1) * ((x + ~1) + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 2))))
1: ((x + 1) * ((x + ~1) + loop(\(x,i).(x * (3 + i)),4,(x + 1))))
1: (2 * ((x + ~1) + loop(\(x,i).(6x + 8),2,x)))
1: ((x + 1) * ((x + ~1) + loop(\(x,i).(x * (2 + i)),4,(x + 1))))
1: (2 * (~1 + (loop(\(x,i).2x,(x div 2),(2 + (x mod 2))) + loop(\(x,i).2x,(x + ~1),x))))
1: (2 * (~1 + (loop(\(x,i).2x,x,2) + (x mod 2))))
1: ((x + 1) * (~1 + (loop(\(x,i).(x * i),(x + ~1),1) + (x mod 2))))
1: (x * ((x + ~1) + loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x + ~2),x)))
1: (2 * ((x + 3) - (((x * (x div 2)) div 2) mod 2)))
1: (2x + ~44)
1: (2 * ((x + 2) - (2 div (1 + (x div 4)))))
1: (3 * ((x + 2) - (2 div (1 + (x div 4)))))
1: ((x + 1) * ((x + 2) - (2 div (~1 + (x2 div 2)))))
1: (2 * ((x + 2) - ((~x + 1) div (1 + (if x <= 0 then 0 else 2)))))
1: ((x + 2) * ((x + 2) - ((~2x + 2) div (x + 3))))
1: (5 * ((x + 2) - ((2 * (~x + ((x div 3) mod 2))) div 3)))
1: (2 * ((x + 2) - (((x div 2) div ~2) div 2)))
1: (2 * ((x + 2) - ((x div 4) div ~2)))
1: (x * ((x + 2) - ((x + 1) mod 9)))
1: (x * ((x + 2) - ((x + 1) mod 13)))
1: (x * ((x + 2) - ((x + 1) mod 11)))
1: (x * ((x + 2) - ((x + 1) mod 12)))
1: (9 * ((x + 2) - ((x + 1) mod 10)))
1: (x * ((x + 2) - ((x + 1) mod 10)))
1: (x * ((x + 2) - ((x + 1) mod 14)))
1: (3 * ((x + 2) - (x mod 8)))
1: (2 * ((x + ~1) + i))
1: (2 * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) - compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x)))
1: ~20
1: (2 * (~2 - (x mod 3)))
1: (x * (~1 - i))
1: (~2x + ~22)
1: (~2x2 + ~25x + ~33)
1: (2 * ((~x + 1) - (i mod 3)))
1: (~25x2 + 15x + ~2)
1: ((~5x + 1) * (if (x + ~2) <= 0 then (x + 1) else 0))
1: (~3x3 + ~x2 + x)
1: (~9x + 3)
1: ((~3x + 1) * (1 mod (~2x + 1)))
1: (~10x + 4)
1: (~5x2 + ~13x + 6)
1: (~10x2 + 4x)
1: ((~3x + 2) * (x div (~2 + (x mod 2))))
1: (~5 * (1 + (x div 3)))
1: (x * ((~x + 1) - ((x mod 3) + (x mod 2))))
1: ((~1 + ((x div 2) mod (1 + (if (x mod 2) <= 0 then 6 else 1))) - ((x mod 2) + (x mod 2))) * (if x <= 0 then 1 else 2))
1: ((2x + 1) * (~5 + (x mod 2)))
1: (2 * (~2 + loop(\(x,i).x3,1,(10x + 5)) - loop(\(x,i).2x,(x + ~1),1)))
1: (2x2 + 20x + 24)
1: (~x2 + 15x)
1: (2 * (4x - ((x div 3) + (x div 2))))
1: (2 * (6x - ((x div 3) + (x div 2))))
1: (3 * (~2 + (2 * (x2 mod 19))))
1: (3 * (~1 + (2 * ((x2 div (x - ((~x + 2) div 2))) mod 2)) - (x mod 2)))
1: ((~1 + (3 * ((x div 3) mod 2)) - (x mod 2)) * (1 + (x div 3)))
1: (x * ((~x + ~1) + (2 * (x mod (x - ((x + ~1) mod 8))))))
1: (4 * ((~x + ~1) + (2 * (i mod 2))))
1: (2 * ((2x + ~1) - ((~x + ((x div 2) mod 4)) div 4)))
1: (2 * ((2x + ~1) - (x div 3)))
1: (((2x + ~1) - (x div 3)) * (x div 3))
1: (x * ((x2 + ~1) - (((x3 + ~x) div 2) div 3)))
1: (((x2 + ~1) - (x div 2)) * (1 + (x div 2)))
1: (2 * (~3 + (x div 2)))
1: (3 * (~3 + (x div 2)))
1: (3 * (~4 + (x div 2)))
1: ((~4 + (x div 2)) * (x mod 8))
1: (x * (~4 + (x div 2)))
1: (((~2x + ~1) + (x div 2)) * (x div 2))
1: (2 * (~4 + ((x div 2) mod 2)))
1: (x * (~1 + ((x div 2) mod 2) - (x mod 2)))
1: (2 * ((~x + ~1) + ((x div 2) mod 2)))
1: (x * (~3 + (x mod 2)))
1: (3 * ((~x + ~1) + (x mod 2)))
1: (5 * ((~x + ~1) + (x mod 2)))
1: ((2x + 1) * ((~x + ~1) + (x mod 2)))
1: (3 * (~3 + (x mod 3)))
1: (2 * ((~x + ~3) + (x mod 3)))
1: (3 * ((~x + ~4) + (x mod 4)))
1: ((x + 1) * ((~x + ~1) + (x mod 4)))
1: (3 * ((~x + ~2) + (x mod 8)))
1: (x * ((~x + ~2) + loop(\(x,i).(1 + ((x2 + x) div 2)),2,x)))
1: (2 * ((~x + ~1) + loop(\(x,i).(x + loop(\(x,i).(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1,i)),x,1)))
1: (2 * (~3 + loop(\(x,i).(2x + 16),(x + 1),1)))
1: (3 * (~4 + loop(\(x,i).(2x + 16),(x + 1),1)))
1: (2 * (~3 + loop(\(x,i).(8x + 8),(x + 1),1)))
1: (3 * (~3 + loop(\(x,i).10x,(x + 1),1)))
1: (5 * (~3 + loop(\(x,i).10x,(x + 1),1)))
1: (7 * (~3 + loop(\(x,i).10x,(x + 1),1)))
1: (x * (~2 + loop(\(x,i).loop(\(x,i).(((x + i) * i) div (x + 1)),x,i),x,2)))
1: (((x + ~2) - (x div 3)) * (1 + (x div 3)))
1: (2 * (7x - ((x div 3) + (x div 2))))
1: (((x + ~1) - (3 * (~x + (x mod 4)))) * (x div 2))
1: (2 * ((x + ~1) - (4 * ((~x + ~2) + (x mod 2)))))
1: (29x2 + ~x)
1: (~11x2 + ~2x)
1: (((x + ~1) - (2 * ((((x + 1) div 2) div 2) div 2))) * ((((x + 1) div 2) div 2) div 2))
1: ((x + 1) * ((x + ~1) - ((x + 1) * loop(\(x,i).(~4x2 + 1),2,2))))
1: ((x + 1) * ((x + ~1) - ((x + 1) * loop(\(x,i).(~x2 + 1),2,4))))
1: ((x + 1) * ((x + ~1) - ((x + 1) * loop(\(x,i).(~x2 + ~2x),2,4))))
1: ((x + 1) * ((x + ~1) - ((x + 1) * loop(\(x,i).(x * (~x + i)),2,4))))
1: ((x + 1) * ((x + ~1) - ((x + 1) * loop(\(x,i).(x * (~x + i)),2,6))))
1: (((x + ~2) - ((~x + 2) div 2)) * (x div 2))
1: (((x + ~2) - ((~x + 2) div 4)) * (1 + (x div 2)))
1: (2 * (x - ((x div 3) + (x div ~2))))
1: (2 * ((x + ~1) - (if (i mod 2) <= 0 then 2 else ~2)))
1: (2 * ((~x + ~1) + i))
1: (x * ((~x + ~1) + i))
1: (x * (~1 + i - (2 * (1 - (2 * i)))))
1: (2 * (6 - (x div 3)))
1: (2 * (6 - (x div 5)))
1: ((x + 1) * (6 - (x mod 3)))
1: (x * (6 - i))
1: (12x2 + ~7x + 1)
1: (3x2 + 4x + ~4)
1: (3x2 + ~5x + 2)
1: (((3x + 4) - (x div 2)) * ((x + 1) div 2))
1: (2 * ((3x + 1) - ((x - (x div 4)) div 2)))
1: (2 * (3x - ((1 + ((x - ((x div 4) mod 2)) div 2)) div 2)))
1: (2 * (3x - ((x + (x div 2)) div 4)))
1: (2 * (3x - ((x + ((1 - (x div 2)) mod 4)) div 4)))
1: (2 * (3x - ((x + ((x div 2) mod 4)) div 4)))
1: (2 * (3x - ((x + ((x div 2) mod 5)) div 5)))
1: (2 * (3x - ((x + ((x div 3) mod 3)) div 3)))
1: (2 * (3x - ((1 + (if (~2 + (x div 2)) <= 0 then x else (x + 4))) div 3)))
1: (2 * (3x - ((1 + (if (~2 + (x div 2)) <= 0 then x else (x + 2))) div 3)))
1: (2 * (3x - ((1 + (if (x mod 3) <= 0 then 0 else x)) div 3)))
1: (2 * (3x - ((x + 2) div 5)))
1: (3 * (3x - ((~x + 1) div (2 + (x div 4)))))
1: (2 * (3x - ((x - ((x + (x div 3)) div 3)) div 2)))
1: (2 * (3x - ((2x + 2) div 5)))
1: (2 * (3x - ((2x + 4) div 9)))
1: (2 * (3x - ((x div 2) div 3)))
1: (2 * (3x - (x div (4 + (x div 4)))))
1: (2 * (3x - (~x mod 4)))
1: (3 * (~2 + (3 * i)))
1: (2 * (8 - (x div 4)))
1: (2 * (8 - (if x <= 0 then 0 else 1)))
1: (~2x + 16)
1: (~x2 + 8x)
1: (x * (8 - i))
1: (33x + 11)
1: (11x2 + 22x + 11)
1: (22x + 11)
1: (11 * (1 + (x mod 3)))
1: (11x + 22)
1: (11 * (1 + i))
1: (11 * ((x + ~1) div 3))
1: (x * (11 - i))
1: (~x2 + 12x)
1: (20x + 15)
1: ((4x + 3) * (1 + (x div 5)))
1: ((4x + 3) * ((x + 1) div 2))
1: (10x2 + ~7x + 1)
1: (2 * (5x - (i * i)))
1: (x * (~1 + (5 * i)))
1: (5 * (~1 + (2 * (6 + (x mod 2)))))
1: (2 * ((2x + 10) - (x mod 5)))
1: (2x3 + 11x2 + 3x + ~6)
1: (2x2 + 10x + ~4)
1: (2x2 + 14x + 10)
1: (2 * (~1 + (5 * ((x + 4) + (if x <= 0 then 1 else 2)))))
1: (2x2 + 30x + 98)
1: (2x2 + 28x + 78)
1: (2 * ((3 * ((x + 2) + (3 * (x div 2)))) - (x mod 2)))
1: ((x + 1) * (~1 + (2 * (4 + (((x + 1) div 2) div 2)))))
1: (2 * ((2 * ((x + 2) + (x div 2))) - (x mod 4)))
1: (2 * ((3 * ((x + 2) + (x div 4))) - ((x div 2) mod 2)))
1: (x * ((2x + 8) - (x div 2)))
1: (2 * ((2x + 8) - (if x <= 0 then 0 else 1)))
1: (3 * ((2x + 8) - (if x <= 0 then 0 else 1)))
1: (3x2 + 11x)
1: (2 * ((3x + 12) - (x div 2)))
1: (10x + 38)
1: (x4 + 4x3 + x2 + 2x)
1: (2x3 + 11x2 + 11x + 3)
1: (x * ((x2 + 5x + 4) - (x div 2)))
1: (5x2 + 30x + 30)
1: (x3 + 3x2 + ~6x)
1: (5 * (~1 + (2 * ((3x + 4) - ((((x + ~2) mod (1 + (x div 2))) mod 3) mod 2)))))
1: (x * (~1 + (7 * i)))
1: (x * (~2 + (7 * i)))
1: ((~2 + (7 * i)) * i)
1: (27x + 15)
1: (3 * ((9x + 6) - (x div 2)))
1: (9x2 + 39x + 24)
1: (x * (~1 + (3 * (2 + (3 * i)))))
1: (x * (~1 + (x * (2 + (3 * i)))))
1: (x * (27 - i))
1: (2x2 + 15x)
1: (3x2 + 23x)
1: (x3 + 12x2 + 35x + 30)
1: (3 * (13x - (x div 3)))
1: (2 * (~1 + (2 * ((4x + 4) + ((x div 2) mod 2)))))
1: (10x2 + 27x + 14)
1: (20x3 + 36x2 + 19x + 3)
1: ((x + 1) * ((5x2 + 6x + 1) - (x div 2)))
1: (10x2 + 2x + ~2)
1: (2 * ((10x + 4) - (x div 2)))
1: (x * (~2 + (x * (2 + (5 * i)))))
1: (6x4 + 8x3 + 5x2 + 2x)
1: (2x3 + 11x2 + 7x + ~2)
1: (x4 + 4x3 + x2 + ~x)
1: (8x3 + 3x2 + 4x)
1: (2x3 + 2x2 + 2x + ~2)
1: (x4 + 2x3 + 2x2 + ~1)
1: (7x3 + 14x2 + 21x + 7)
1: (18x2 + 31x + 11)
1: (9x2 + 20x + 11)
1: (3x4 + 13x3 + 21x2 + 14x + 3)
1: (25x2 + 50x + 20)
1: (5x3 + 10x2 + 4x)
1: (9x3 + 27x2 + 36x + 9)
1: ((x + 1) * ((x3 + 4x2 + 6x + 4) - (((x3 + 3x2 + 2x) div 2) div 3)))
1: (x * (~1 + (x * (1 + (2 * (1 + i))))))
1: ((x + 1) * (~1 + (3 * (2 + ((x + 2) * (1 - (2 * (x mod 2))))))))
1: (17x2 + ~x)
1: (2 * (~1 + (2 * (16 + loop(\(x,i).2x,x,1)))))
1: (10x2 + 54x + 66)
1: (9x4 + 4x3 + ~x)
1: (2 * (~1 + (2 * ((12x + 6) + (x mod 2)))))
1: (108x2 + 164x + 52)
1: (9x4 + 18x3 + 23x2 + 14x + 5)
1: (49x2 + ~x)
1: (11x2 + 3x)
1: (4x3 + ~3x2 + ~2x)
1: (4x3 + x2 + ~2x)
1: (x * (~1 + (2 * (4x + i))))
1: (x6 + x2 + ~x)
1: (x5 + ~x4 + x2 + ~2x + 1)
1: (x5 + 2x2 + ~2x)
1: (2 * ((3 * (x + (2 * (x mod 2)))) - (x div 2)))
1: (2 * (~x + (4 * (x + (2 * (x mod 2))))))
1: (3 * ((4x + 2) - ((x - (x div 5)) div 3)))
1: (3 * ((4x + 2) - ((~2x + 2) div 9)))
1: (2x3 + 9x2 + 11x + 2)
1: (2x3 + 5x2 + x)
1: (2x3 + 6x2 + 4x + 10)
1: (2x3 + 2x2 + 4x + 2)
1: (x4 + x3 + 2x2 + x)
1: (x4 + 2x2 + ~x)
1: (2x3 + 2x2 + 8x + 6)
1: ((x + 1) * (~1 + (2 * (1 + ((1 + ((1 + ((1 + (loop(\(x,i).(3 * ((2x div (1 + i)) * (~1 + (2 * i)))),x,1) div 2)) div 2)) div 2)) div 2)))))
1: (7 * (~1 + (2 * (1 + ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (x + ((~x + 1) mod 4))) div 2)))))
1: (2 * (~x + ((x + 1) * (x + (x2 div (x + 2))))))
1: (((2 * (1 + (x div 2))) - (x div 3)) * ((x + 1) div 2))
1: (2 * (~1 + (5 * (1 + (x div 2)))))
1: ((~1 + (4 * (x + (x div 2)))) * (x + (x div 2)))
1: (x * (~1 + ((2x + 1) * (x + (x div 2)))))
1: (3 * ((3 * (x + (x div 4))) - (x mod 2)))
1: (2 * (~1 + (2 * (x + (x div 8)))))
1: (x * (~1 + (2 * (1 + (x div (if (x mod 2) <= 0 then 3 else ~2))))))
1: (2 * ((3 * (1 + ((~x + 1) mod 3))) - (x mod 2)))
1: ((~1 + (5 * (2 + ((~x + 2) mod 4)))) * (if x <= 0 then 1 else 2))
1: ((~1 + (7 * (1 + ((x + ~1) mod 4)))) * (if x <= 0 then 1 else 2))
1: (2 * ((3 * (x + ((x div 2) mod 2))) - (x mod 2)))
1: (3 * (~1 + (3 * (1 + ((x div 2) mod (1 + (6 * (x mod 2))))))))
1: (2 * (~x + (2 * (2 + (x mod 2)))))
1: (2 * (~1 + ((x + 1) * (2 + (if (~2 + (x div 4)) <= 0 then 1 else 2)))))
1: (2 * (~1 + ((x + 1) * (2 + (if (~2 + (x div 5)) <= 0 then 0 else 2)))))
1: (2 * (~1 + (3 * (2 + (if x <= 0 then 1 else 16)))))
1: (2 * (~1 + (2 * (x + loop(\(x,i).((x + 1) - ((((2 - (x div 2)) mod (x + 1)) div 2) div 2)),2,x)))))
1: (2 * (~1 + (3 * (1 + loop(\(x,i).2x,(2 + (x mod 2)),(x div 2))))))
1: (2 * (~1 + (2 * (8 + loop(\(x,i).2x,x,1)))))
1: (2 * (~1 + (2 * (loop(\(x,i).2x,x,2) + (x mod 2)))))
1: (3 * (~1 + (2 * (x + loop(\(x,i).i,(((x + ~1) div 2) div 2),1)))))
1: (2 * ((2x + 2) - (2 * (1 + (x mod (1 + (x div 8)))))))
1: (2 * ((2x + 2) - ((x - (x div 5)) div 3)))
1: (2 * ((2x + 2) - ((2 * (x + (x mod 2))) div 7)))
1: (2 * ((2x + 2) - (((1 + (x div 2)) div 2) div 2)))
1: (3 * ((2x + 2) - (((x + 1) div 2) div 3)))
1: (3 * ((2x + 2) - ((x div 2) div 3)))
1: (((2x + 2) - (x div 3)) * (1 + (x div 3)))
1: (2 * ((2x + 2) - ((x + 1) mod 5)))
1: (2 * ((2x + 2) - ((x + 1) mod 7)))
1: (2 * ((2x + 2) - ((x + 1) mod 10)))
1: (2 * ((2x + 2) - ((x + 2) mod 12)))
1: (2 * ((2x + 2) - ((x2 div (x + 2)) mod 4)))
1: (x3 + 3x2 + x + ~2)
1: (2 * ((x2 + x + ~1) + (3 * (~x + (x mod 2)))))
1: (3 * ((x2 + x + 1) - (x mod 2)))
1: (3 * ((x2 + x) - (x2 div 4)))
1: (2 * ((x2 + x) - (x div 3)))
1: (2 * ((x2 + x) - (x mod 3)))
1: (3 * ((x2 + x) - (if x <= 0 then 0 else 1)))
1: (2 * ((2x + 4) - ((x + 1) div 3)))
1: (2 * ((2x + 4) - ((~x + 1) div (3 + (2 * (x - (x mod 8)))))))
1: (2 * ((2x + 4) - ((~1 + (x div 3)) div 2)))
1: (x * ((2x + 4) - (2x div 3)))
1: (((2x + 4) - (x div 2)) * ((x + 1) + (x div 2)))
1: ((x + 2) * ((2x + 4) - (x div 2)))
1: (2 * ((2x + 4) - (x div ~8)))
1: (2 * ((2x + 4) - ((1 + (x div 2)) mod 2)))
1: (2 * ((2x + 4) - ((x + 2) mod 8)))
1: (6x + 10)
1: (15x + 25)
1: (3x2 + 8x + 5)
1: ((3x + 5) * (x div 2))
1: (2x2 + 6x + 2)
1: (5x2 + 20x + 15)
1: (7x2 + 28x + 21)
1: (11x2 + 44x + 33)
1: (2x2 + 4x + ~4)
1: (5x2 + 10x + ~10)
1: (17x3 + 3x2 + ~14x)
1: (x * ((x2 + 2x) - (x div 2)))
1: (3 * (~1 + (x * (1 + i))))
1: (2 * ((x * (1 + i)) - (x div 3)))
1: (x * (~1 + (x * (2 + i))))
1: (x * (~2 + (x * (2 + i))))
1: ((~1 + ((2 + i) * i)) * (2 + i))
1: (2 * (~1 + (3 * (2 + compr(\x.loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(3x + 1)),x)))))
1: (~6x2 + ~3)
1: (2 * (~1 + (~7 * (x div 2))))
1: (x * (~1 + ((1 - (2 * i)) * (~1 + (2 * i)))))
1: (~12x + 9)
1: (~5x2 + 4x)
1: (~2x2 + 2x + ~2)
1: (~x4 + x3 + ~x2)
1: (~x3 + x2 + ~x)
1: ((~1 + (7 * (2 - ((x div 2) mod 2)))) * (if x <= 0 then 1 else 2))
1: (~3x2 + 7x + ~4)
1: (2 * (~1 + (5 * ((x + ~1) + (x mod 2)))))
1: (2 * (~1 + (2 * (~3 + (x div 2)))))
1: (2 * (~1 + (2 * (~4 + ((x div 2) mod 2)))))
1: (2 * (~1 + (2 * (~3 + loop(\(x,i).(2x + 16),(x + 1),1)))))
1: (2 * (~2 + (3 * (~4 + loop(\(x,i).(2x + 16),(x + 1),1)))))
1: (9x2 + ~7x)
1: (x * (~1 + (3 * (~2 + (3 * i)))))
1: (11x2 + ~x)
1: (2 * (11x - (x div 3)))
1: (x * (~1 + (11 * i)))
1: (20x + ~6)
1: (125x + ~35)
1: (2 * (~1 + (2 * (~1 + ((x + 1) * (2 + (if (~2 + (x div 4)) <= 0 then 1 else 2)))))))
1: (x4 + ~x3 + ~3x2 + ~3x)
1: (23x2 + ~x)
1: (2 * (23x - (x div 2)))
1: (48x + 39)
1: (114x + 94)
1: (2 * (~1 + (2 * (~1 + (4 * (1 + (36 * (1 + ((x + 1) * (1 + loop(\(x,i).(x * (x + i)),2,4)))))))))))
1: (16x3 + 15x2 + 6x)
1: (4x3 + 18x2 + 29x + 15)
1: (16x + ~6)
1: (2 * ((4x2 + ~x) - (if x <= 0 then 0 else 1)))
1: ((4x2 + 4x + ~5) * (x mod 2))
1: (3 * (~x + (2 * (2x - (x div (if i <= 0 then 1 else i))))))
1: (3 * ((2 * (2x - (x mod 8))) - (x mod 4)))
1: ((~2 + ((x2 + ~1) * (x div 2))) * (x div 2))
1: (x * (~1 + (x * (~1 + (2 * i)))))
1: (3 * (~1 + (3 * (~2x + (x div 2)))))
1: (2 * (~1 + (2 * (~x + (x div 8)))))
1: (2 * (~1 + (4 * (~x + (x mod 2)))))
1: (3 * (~1 + (3 * (~1 + loop(\(x,i).(2x + 12),(x + 1),1)))))
1: (2 * (~1 + (2 * (~1 + loop(\(x,i).(2x + 24),x,17)))))
1: ((2x + ~3) * (x div 3))
1: ((x2 + ~x + ~1) * (2 - (x div 3)))
1: (x3 + ~3x2 + x + 2)
1: ((x2 + ~x + ~1) * (x div 2))
1: (x3 + ~x2 + ~3x + ~1)
1: (x4 + ~6x2 + 1)
1: (x3 + ~2x2 + ~x)
1: (x3 + ~x2 + ~4x + ~2)
1: (2x2 + ~9x)
1: (x * (~x + (9 * ((x + 1) - (x mod 10)))))
1: (2x2 + ~13x)
1: (25x2 + ~36x + 11)
1: (7x3 + ~3x2 + ~x)
1: (15x2 + ~13x)
1: (5 * (~2 + (3 * (x - ((~x + 1) * (x div 2))))))
1: (4x4 + ~3x3 + 2x2 + ~x)
1: (7x3 + ~6x2 + ~x)
1: (~8x2 + 4x + ~2)
1: (29 * (2 - ((if x <= 0 then 1 else x) mod 2)))
1: (9x2 + ~x)
1: (3 * (9x - (x div 3)))
1: (15x2 + ~x)
1: (2 * (15x - (x div 2)))
1: (3 * (15x - (x div 3)))
1: (x * (~2 + (9 * i)))
1: 75
1: ((x + 1) * (16 - ((x div 2) div 7)))
1: (3 * (16 - (x div 2)))
1: (x * (16 - (x div 3)))
1: (x * (16 - (if (x + ~2) <= 0 then 1 else 2)))
1: (~7x + 112)
1: (23 * (2 - ((if x <= 0 then 1 else x) mod 2)))
1: (23 * (x2 div 4))
1: (23 * (x div 7))
1: (x * (24 - (x mod 3)))
1: (~2x + 48)
1: (16x2 + 23x + 7)
1: (30x + 16)
1: (24x + 21)
1: (x * (~1 + (8 * (1 + i))))
1: (x * ((8 * (1 + i)) - i))
1: 177
1: 59x
1: (11x2 + 23x + 12)
1: (36x2 + 71x + 35)
1: (12x3 + 21x2 + 12x)
1: (x * (~1 + (4 * ((~1 + i) * (1 - i)))))
1: (~2x + 40)
1: (~x2 + 19x + 20)
1: (2 * (10x - (x div 2)))
1: (2 * (10x - (x div ~2)))
1: (25x2 + ~x)
1: (5x3 + ~2x)
1: (x * (~1 + (5x * i)))
1: (64x2 + 208x + 102)
1: (2 * (~1 + (6 * ((x + 1) + (5 * (1 + (x div 2)))))))
1: (2 * (~1 + (4 * ((x + 2) + (x div 2)))))
1: (9 * (~x + (6 * ((x + 2) + (x div 2)))))
1: (2 * (~1 + ((3x + 3) * (3 + loop(\(x,i).(2x2 + x),3,x)))))
1: (5 * ((4x + 16) - (x div 2)))
1: (3x2 + 16x)
1: (x4 + 9x3 + 28x2 + 35x + 14)
1: (14x2 + 13x)
1: (14x2 + ~x)
1: (2 * (14x - (x div 2)))
1: (21x2 + ~x)
1: (99x + 72)
1: (12x2 + 32x + 14)
1: (52x + 50)
1: (2x3 + 21x2 + ~23x)
1: (57x + 48)
1: (343x + 70)
1: (3 * ((20x + 8) - (x mod 2)))
1: (49x2 + 20x)
1: (10x3 + 30x2 + 30x + 18)
1: (4x3 + 4x2 + 7x)
1: (9x3 + 12x2 + ~x)
1: (8x2 + 16x + 14)
1: (6x2 + 102x + 94)
1: (36x2 + 68x + 30)
1: (8x4 + 46x3 + 95x2 + 83x + 26)
1: (50x2 + 129x + 79)
1: (2 * (~1 + (4 * (1 + (36 * (1 + ((x + 1) * (1 + loop(\(x,i).(x * (x + i)),2,4)))))))))
1: (16x2 + 16x + 6)
1: (8x3 + 24x2 + 19x + 6)
1: ((~1 + (6 * (1 + (2 * ((~x + 2) mod 4))))) * (if x <= 0 then 1 else 2))
1: (2 * (~1 + (10 * (1 + (2 * loop(\(x,i).(2x + 16),x,1))))))
1: (2 * (~1 + (6 * (2 + (3 * loop(\(x,i).2x,x,2))))))
1: (7x2 + 11x + 4)
1: (7x2 + 18x + 8)
1: (7x2 + 4x)
1: (22x + 12)
1: (44x + 24)
1: (32x2 + 24x + 2)
1: (6x3 + 15x2 + 11x + 2)
1: (6x3 + 9x2 + 2x)
1: (6x3 + 15x2 + 5x)
1: (5x4 + 3x2 + ~2x)
1: (2x4 + 2x3 + 2x2 + 2x + ~2)
1: (x * (1 + (4 * (1 + (2 * i))) - i))
1: (x * ((4 * (1 + (2 * i))) - i))
1: (x * (~1 + (2x * (1 + (2 * i)))))
1: (2 * (~1 + (6 * (1 + (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(9x + 1))),x))))))
1: (2 * (~1 + (4 * (1 + (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(8x + 1))),x))))))
1: ((~1 + (6 * (1 + ((1 + (((loop(\(x,i).11x,x,(1 + (x mod 2))) div 2) div 2) div 2)) div 2)))) * (1 + (x mod 2)))
1: (2 * (~1 + (4 * (2 + (4x2 div (x + 1))))))
1: (2 * (~1 + (6 * (1 + (((x + 1) mod (1 + (2 * ((1 + (x div 4)) div 2)))) div 2)))))
1: ((x2 + 1) * (~x + (4 * (2 + (x div 2)))))
1: (x * (~1 + (4 * (2 + (2 mod (x + 1))))))
1: ((~1 + (4 * (2 + ((~x + 2) mod 4)))) * (if x <= 0 then 1 else 2))
1: ((~1 + (6 * (2 + ((~x + 2) mod 4)))) * (if x <= 0 then 1 else 2))
1: (2 * ((3x * (x + (x mod 2))) - (x div 2)))
1: ((2x + 3) * ((9x + 9) - (x mod 5)))
1: (6x2 + 6x + ~4)
1: (10x2 + 10x + ~2)
1: (x4 + 4x3 + 3x2 + ~x)
1: (4x2 + 19x + 21)
1: (4x2 + 23x + 28)
1: (4x3 + 15x2 + 18x + 7)
1: (4x2 + 11x + 7)
1: (16x2 + 40x + 21)
1: (4x2 + 7x)
1: (6x3 + 21x2 + 19x + 5)
1: (4x2 + 16x + 14)
1: (6x2 + 24x + 21)
1: (2x3 + 12x2 + 23x + 14)
1: (2x4 + 11x3 + 21x2 + 15x + 3)
1: (8x3 + 39x2 + 63x + 32)
1: (4x2 + 8x + ~2)
1: (4x4 + 12x3 + 9x2 + ~1)
1: (x4 + 3x3 + 2x2 + ~2x)
1: (x * (~1 + (6 * (1 + i))))
1: (x * (~1 + (10 * (1 + i))))
1: (x * (~1 + (4 * (2 + i))))
1: (~29x + ~29)
1: (~18x + 15)
1: (~14x2 + 12x)
1: (~28x2 + 26x)
1: (~5x3 + 5x2 + ~x)
1: (~16x2 + 14x)
1: (3x4 + ~2x3 + ~x)
1: (2 * (22x - (x div 2)))
1: (8x2 + ~5x)
1: (2 * ((6 * (2x - (x mod 2))) - (x mod 2)))
1: (x * (~1 + (4 * (~1 + (2 * i)))))
1: (2 * (~1 + (6 * (~2 + loop(\(x,i).10x,(x + 1),(x + 1))))))
1: (4x2 + ~9x)
1: (19x2 + 3x + ~16)
1: (27x2 + ~x)
1: 93
1: (31x2 + 62x + 31)
1: (31 * (2 - ((if x <= 0 then 1 else x) mod 2)))
1: (31 * (x div 9))
1: (31 * (x div 8))
1: (31 * (if x <= 0 then 1 else 2))
1: (x * (48 - (x mod 3)))
1: (16x2 + 111x + 158)
1: (16x2 + 31x + 15)
1: (71 * (x div 9))
1: (16x2 + 32x + 14)
1: (46x + 32)
1: (96x2 + 208x + 142)
1: (24x3 + 10x)
1: (36x + 34)
1: (12x2 + 24x + 10)
1: (7x2 + 16x)
1: (16x2 + 56x + 46)
1: (8x3 + 36x2 + 51x + 23)
1: (8x3 + 36x2 + 46x + 16)
1: (4x3 + 24x2 + 48x + 30)
1: (2 * (~1 + (8 * (3 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))))
1: (63 * ((x + 1) div 2))
1: 95x
1: (32x2 + 223x + 318)
1: (100x2 + ~2)
1: (2 * (~1 + (24 * (2 + loop(\(x,i).x2,1,((23x + 23) + (x div 9)))))))
1: (64x2 + 447x + 638)
1: (64x2 + 127x + 63)
1: (2 * (~1 + (54 * loop(\(x,i).x2,1,(9x + 4)))))
1: (2 * (16x - (x div 2)))
1: (2 * (16x - (x div ~2)))
1: (2 * (24x - (x div 2)))
1: (16x3 + ~x)
1: (72x + ~9)
1: (2 * (8x - (x div 3)))
1: (2 * (8x - (x div ~2)))
1: (2 * (12x - (x div 2)))
1: (2 * (12x - (x div 4)))
1: (9 * (12x - (if x <= 0 then 0 else 1)))
1: (2 * (20x - (x div 2)))
1: (4x3 + 12x2 + ~x)
1: (2 * (18x - (x div 2)))
1: (2 * (6x2 - (if x <= 0 then 0 else 2)))
1: (x * (~1 + (8 * i)))
1: (2 * (~1 + (4 * (x div 2))))
1: (2 * (~x + (4 * ((x div 3) mod 3))))
1: (2 * (~1 + (4 * (x mod 2))))
1: (2 * ((4 * (x mod 4)) - (x mod 2)))
1: ((~1 + (6 * (if (x mod 4) <= 0 then 4 else 1))) * (if x <= 0 then 1 else 2))
1: (2 * (~1 + (34 * loop(\(x,i).(2x + 4),x,1))))
1: (2 * (~1 + (4 * loop(\(x,i).(2x + 4),x,2))))
1: (2 * (~1 + ((2x + 4) * loop(\(x,i).x2,2,(x + 2)))))
1: (2 * (~1 + (6 * loop(\(x,i).loop(\(x,i).x3,4,2),(x + ~2),loop(\(x,i).6x,x,1)))))
1: (2 * (3x - (((if (~2 + (x div 3)) <= 0 then 2 else (x div 2)) mod (x + 1)) div 2)))
1: (2 * (3x - (x div (4 + ((x div 2) div 5)))))
1: (2 * ((4x + 1) - ((2 * ((2x + 2) + (if x <= 0 then 1 else (2 * (2x + ((x + (x div 3)) div 5)))))) div 3)))
1: (2 * (4x - ((2x + 1) div 7)))
1: (2 * (4x - ((1 + ((x - ((x div 4) mod 2)) div 2)) div 2)))
1: (2 * (4x - ((x + (x div 4)) div 3)))
1: (x * (4x - ((x + (x div 4)) div 3)))
1: (2 * (4x - ((x + ((1 - (x div 2)) mod 4)) div 4)))
1: (2 * (4x - ((x + ((x div 2) mod 2)) div 2)))
1: (2 * (4x - ((x + ((x div 2) mod 4)) div 4)))
1: (2 * (4x - ((x + 1) div 3)))
1: (2 * (4x - ((~x + 2) div 5)))
1: (2 * (4x - ((~x + ((x div 2) mod 2)) div 3)))
1: (2 * (4x - ((x - ((x + (x div 3)) div 3)) div 2)))
1: (2 * (4x - ((x - (x div ~7)) div 2)))
1: (2 * (4x - ((x - (x div 12)) div 2)))
1: (2 * (4x - (3x div 5)))
1: (2 * (4x - ((2 * ((2x + 2) + (x div (1 + (2 * (if (~4 + (x div 2)) <= 0 then 2 else 1)))))) div 3)))
1: (2 * (4x - ((2x + 2) div 5)))
1: (2 * (4x - ((2 * ((((x div 2) div 3) mod 2) - (if x <= 0 then 1 else x))) div 3)))
1: (2 * (4x - ((((x + 1) - (x div 4)) div 2) div 2)))
1: (2 * (4x - (((x - ((2 - (x div 4)) div 2)) div 2) div 2)))
1: (2 * (4x - ((x div 2) div 3)))
1: (2 * (4x - ((x div 2) div 5)))
1: (2 * (4x - ((if x <= 0 then 1 else x) div ~4)))
1: ((4x - (x div 2)) * (1 + (x div 2)))
1: (2 * (4x - (x div 3)))
1: (2 * (4x - (x div (4 + ((x div 2) div 5)))))
1: (2 * (4x - (x div (if i <= 0 then 1 else (i * i)))))
1: (4 * (4x - (x div (if i <= 0 then 1 else i))))
1: (2 * (4x - ((x div 2) mod 2)))
1: ((2x + 3) * (4x - (if (~x + 2) <= 0 then 1 else 0)))
1: (2 * (4x - (if (2 - i) <= 0 then x else 1)))
1: (12x + ~2)
1: (12x + ~4)
1: (18x + ~6)
1: (6x2 + 6x + ~3)
1: (4x2 + 4x + ~4)
1: (6x2 + ~6x + ~3)
1: (6x2 + ~3)
1: (2x4 + ~3x2 + 1)
1: (6x2 + ~2)
1: (6x2 + ~4)
1: (9x2 + ~3x)
1: (15x2 + ~5x)
1: (3x4 + ~x3)
1: (8x2 + ~2)
1: (12x2 + ~3)
1: (x4 + 2x3 + x2 + ~2x + ~2)
1: (x5 + ~2x)
1: (x5 + ~x4 + x3 + ~x2 + x + ~1)
1: (x4 + x3 + ~x + ~1)
1: (x4 + ~x3 + ~x + 1)
1: (x5 + ~x3 + ~2x2 + 2)
1: (x4 + ~2x)
1: ((x + 2) * (x3 - (x2 div 2)))
1: ((~1 + (4 * i)) * i)
1: (x * (~1 + (6 * i)))
1: (2 * ((2x * i) - (x mod 2)))
1: (2 * (~x + (3x * i)))
1: (3 * (~x + (3x * i)))
1: ((~1 + (4 * (i * i))) * (1 + i))
1: ((~1 + (i * i * i)) * (2 + i))
1: (2 * (~2 + (3 * ((~x + 2) div 12))))
1: (x * (~x + (3 * ((x * ((2x + 1) - (x mod 5))) div 2))))
1: (3 * (~1 + (3 * ((3x2 + 11x + 6) div 2))))
1: ((x + 2) * (~1 + (7 * ((x2 + 3x + 2) div 2))))
1: ((x + 2) * (~1 + (9 * ((x2 + 3x + 2) div 2))))
1: ((x + 1) * (~1 + (2 * ((16x + 16) div 3))))
1: (2 * (~x + (2 * ((x div 2) div 3))))
1: ((x + 1) * (~1 + (2 * (loop(\(x,i).(2x - (i mod 2)),(x + ~1),1) div 2))))
1: ((2x + 1) * (~1 + (2 * (loop(\(x,i).x3,1,(10x + 2)) div (x + 1)))))
1: (2 * (~1 + ((loop(\(x,i).2x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2) * (2 + (x div 5)))))
1: (x * (~2 + ((x + 1) * (x div 2))))
1: ((~1 + (x * (x div 2))) * ((x + ~1) div 3))
1: (x * (~1 + (x * (x div 2))))
1: ((~1 + (2 * (x div 4))) * (x div 3))
1: (x * (~1 + (2 * (x div 4))))
1: (4 * (~x + (2 * (x div 5))))
1: ((~1 + (2 * (x div (2 + i)))) * i)
1: (2 * (~x + (4 * (x div (if i <= 0 then 1 else i)))))
1: (x * (~1 + (2 * (i div 2))))
1: (2 * ((2 * ((1 + (x mod (2 + (x div 4)))) mod 2)) - (x mod 3)))
1: (x * (~1 + ((2x + ~2) * (~x mod 4))))
1: (2 * (~1 + (2 * ((2x + ~1) mod 7))))
1: ((~1 + (2 * ((x + ~1) mod 4))) * (if x <= 0 then 1 else 2))
1: ((~1 + (4 * ((x + ~1) mod 4))) * (if x <= 0 then 1 else 2))
1: ((~1 + (5 * ((x + ~1) mod 4))) * (if x <= 0 then 1 else 2))
1: ((~1 + (7 * ((x + ~1) mod 4))) * (if x <= 0 then 1 else 2))
1: ((~1 + (9 * ((x + ~1) mod 4))) * (if x <= 0 then 1 else 2))
1: ((~1 + (8 * ((x + ~1) mod 4))) * (if x <= 0 then 1 else 2))
1: ((x + 1) * (~1 + (2 * ((x - (x div 4)) mod 2))))
1: (3 * (~1 + (2 * ((x div 3) mod 2))))
1: ((~1 + (2 * ((x div ~2) mod 2))) * (~1 + (x mod 3)))
1: ((~1 + (2 * ((x div ~3) mod 2))) * (2 + (x mod 2)))
1: ((x + 1) * (~1 + (2 * ((x mod (3 + (x mod 2))) mod 2))))
1: (3 * (~1 + (2 * (x mod 2))))
1: ((x + 1) * (~1 + (2 * (x mod 2))))
1: ((~1 + (2 * (x mod 2))) * (1 + i))
1: ((~1 + (2 * (x mod 2))) * i)
1: (2 * (~2 + (x * (x mod 2))))
1: (4 * ((x * (x mod 2)) - (x div 2)))
1: (((x * (x mod 2)) - (x div 2)) * (2 + (x div 2)))
1: ((~1 + (2 * (x mod 4))) * (1 + (x mod 2)))
1: ((~1 + (2 * (x mod 4))) * (x div 2))
1: (2 * ((2 * (x mod 4)) - (x mod 2)))
1: (3 * (~1 + (2 * (x mod 7))))
1: ((~1 + (9 * (x mod 6))) * (if x <= 0 then 1 else 2))
1: (2 * (~1 + (2 * (x mod 10))))
1: ((~1 + (2 * (i mod 2))) * (2 + i))
1: ((~1 + (2 * (i mod 2))) * (~1 + (2 * i)))
1: (5 * ((3 * (if (x mod 2) <= 0 then (3 * (if (x mod 4) <= 0 then (2 + (if x <= 0 then 0 else 2)) else 1)) else 1)) - (if x <= 0 then 1 else 2)))
1: (2 * (~1 + (2 * (if (x mod 2) <= 0 then x else (~x + 1)))))
1: ((~1 + (5 * (if (x mod 4) <= 0 then 2 else 1))) * (if x <= 0 then 1 else 2))
1: ((~1 + (5 * (if (x mod 4) <= 0 then 4 else 1))) * (if x <= 0 then 1 else 2))
1: ((~1 + (5 * (if (x mod 4) <= 0 then 6 else 1))) * (if x <= 0 then 1 else 2))
1: (2 * ((2 * (if (x mod 4) <= 0 then (3 * (if x <= 0 then 1 else 2)) else 1)) - (x mod 2)))
1: (2 * ((2 * (if x <= 0 then 1 else 4x)) - ((2x + 1) div 9)))
1: (2 * ((2 * (if x <= 0 then 1 else 4x)) - (2x div 7)))
1: (2 * ((2 * (if x <= 0 then 1 else x)) - (x2 div ~3)))
1: (2 * (~1 + (2 * loop(\(x,i).(2x + i),(x + 2),2))))
1: ((x + 1) * (~x + ((x + 1) * loop(\(x,i).(x2 + 4x + 5),2,4))))
1: (2 * (~2 + ((x + 1) * loop(\(x,i).(x2 + 2x + 1),2,2))))
1: ((x + 1) * (~2 + ((x + 1) * loop(\(x,i).(x2 + 2x + 1),2,2))))
1: ((x + 1) * (~2 + ((x + 1) * loop(\(x,i).(x2 + 2x + 1),2,4))))
1: ((x + 1) * (~x + ((x + 1) * loop(\(x,i).(2 + (x * (x + i))),2,4))))
1: ((x + 1) * (~x + ((x + 1) * loop(\(x,i).(2 + (x * (x + i))),2,6))))
1: (2 * (~1 + (2 * loop(\(x,i).(27x + i),x,0))))
1: ((x + 1) * (~2 + ((x + 1) * loop(\(x,i).(4x2 + 12x + 9),2,3))))
1: ((x + 1) * (~x + ((x + 1) * loop(\(x,i).(4x2 + 1),2,2))))
1: ((x + 1) * (~x + ((x + 1) * loop(\(x,i).(x3 + 1),2,2))))
1: ((x + 1) * (~x + ((x + 1) * loop(\(x,i).(x2 + 1),2,4))))
1: ((x + 1) * (~x + ((x + 1) * loop(\(x,i).(x2 + 1),2,6))))
1: ((x + 1) * (~x + ((x + 1) * loop(\(x,i).(x2 + 1),3,2))))
1: ((x + 1) * (~1 + (2 * loop(\(x,i).(x + ((4x + 8) div (1 + i))),x,3))))
1: (2 * (~1 + (loop(\(x,i).(3x + ~1),x,2) * (1 + loop(\(x,i).2x,x,2)))))
1: (3 * (~1 + (2 * loop(\(x,i).(x - (2 * (~x + i))),x,2))))
1: (3 * (~1 + (5 * loop(\(x,i).7x,x,2))))
1: (2 * (~1 + (2 * loop(\(x,i).(10x + 16),(2x + ~1),1))))
1: (2 * (~1 + (3 * loop(\(x,i).(2x + 4),(x + 3),3))))
1: (3 * (~1 + (3 * loop(\(x,i).(2x + 4),(x + 1),3))))
1: (2 * (~1 + (2 * loop(\(x,i).(2x + 4),x,1))))
1: ((x + 1) * (~2 + ((x + 1) * loop(\(x,i).(x2 + 4x + 4),2,1))))
1: ((x + 1) * (~2 + ((x + 1) * loop(\(x,i).(x2 + 4x + 4),2,2))))
1: ((x + 1) * (~1 + ((x + 1) * loop(\(x,i).((x + 2) * (x + i)),2,2))))
1: ((x + 1) * (~2 + ((x + 1) * loop(\(x,i).((x + 2) * (x + i)),2,2))))
1: ((x + 1) * (~2 + ((x + 1) * loop(\(x,i).((x + 2) * (x + i)),2,3))))
1: (x * (~1 + (loop(\(x,i).(x2 + ~x),2,2x) * (1 + i))))
1: ((x + 1) * (~1 + ((x + 1) * loop(\(x,i).(~2x3 + x2),2,2))))
1: (2 * (~1 + (2 * loop(\(x,i).(2 * (x - (i mod 2))),x,2))))
1: (2 * (~1 + (2 * loop(\(x,i).10x,1,((loop(\(x,i).x2,1,(~1 + loop(\(x,i).10x,x,1))) div 2) div 2)))))
1: (2 * (~1 + ((x + 1) * loop(\(x,i).((x + 2) * ((x + i) * i)),2,2))))
1: (2 * (~1 + (2 * loop(\(x,i).4x,x,(1 + (2 * loop(\(x,i).(5x + ~4),x,8)))))))
1: (2 * (~1 + ((x + 1) * loop(\(x,i).x3,2,2))))
1: (2 * (~1 + (2 * loop(\(x,i).x3,(2x + ~1),2))))
1: ((x + 1) * (~1 + (3 * loop(\(x,i).((x + 6) * loop(\(x,i).(2x + 2),x,2)),x,4))))
1: (2 * (~1 + (2 * loop(\(x,i).x2,1,(11x + 5)))))
1: ((x + 1) * (~2 + ((x + 1) * loop(\(x,i).x2,2,3))))
1: (2 * (~1 + ((x + 1) * loop(\(x,i).x2,2,4))))
1: ((x + 1) * (~1 + ((x + 1) * loop(\(x,i).x2,2,4))))
1: ((x + 1) * (~2 + ((x + 1) * loop(\(x,i).x2,2,4))))
1: ((x + 1) * (~2 + ((x + 1) * loop(\(x,i).x2,2,5))))
1: (5 * (~1 + (2 * loop(\(x,i).x2,2,(x + 2)))))
1: (6x + ~3)
1: (~2x2 + 5x + ~2)
1: ((2x + ~1) * (if x <= 0 then 0 else 2))
1: ((2x + ~1) * i)
1: (2 * ((2x + ~1) - i))
1: (2 * ((3x + 1) - (2 * ((x + 1) + (((x - (x div ~2)) * (x div 2)) + (x mod 2))))))
1: (2 * ((2x + 1) - ((2 * ((x + 2) + ((2 * ((x + (if (~2 + (x div 2)) <= 0 then 1 else 0)) div 2)) div 3))) div 3)))
1: (2 * (2x + ((~x + 2) div (2 + (x div 2))) - (x div 2)))
1: (2 * (2x + (x div ~7) - (x div 7)))
1: (2 * (2x + (x div 7) - (x div ~7)))
1: (2 * (2x - (2x * (x div 2))))
1: (3 * (2x - (3 * ((x div 2) div 3))))
1: (3 * (2x - (3 * (x div 5))))
1: (2 * (2x - (3 * (i mod 2))))
1: (2 * (2x - ((2x + 1) div 7)))
1: (2 * (2x - ((x + ((x + (x div 4)) div 2)) div ~2)))
1: (2 * (2x - ((x + (x div 4)) div ~3)))
1: (2 * (2x - ((x + ((x div 3) mod 3)) div 3)))
1: (3 * (2x - ((1 + (if (x mod 3) <= 0 then 0 else x)) div 3)))
1: (2 * (2x - ((x + 1) div 3)))
1: (2 * (2x - ((x + 1) div (if i <= 0 then 1 else i))))
1: (2 * (2x - (((~x + 1) + (2 * ((~2x + 1) div 3))) div 3)))
1: (2 * (2x - (((~x + 1) + (2 * ((~x + 1) div 3))) div 3)))
1: (2 * (2x - ((1 - (2 * ((x + (if (~2 + (x div 4)) <= 0 then 1 else 2)) div 2))) div 3)))
1: (2 * (2x - ((1 - (x2 div 2)) div (2x + 1))))
1: (2 * (2x - ((1 - (if (~2 + (x div 2)) <= 0 then x else (x + 2))) div 3)))
1: (2 * (2x - ((~x + 1) div 3)))
1: (2 * (2x - ((~x + 1) div (1 + (2 * (2 + (((x div 2) div 3) mod 2)))))))
1: (2 * (2x - (((~x + 2) - (x div 4)) div 4)))
1: (2 * (2x - ((~x2 + 2) div (3x + 2))))
1: (3 * (2x - ((~x + 2) div 4)))
1: (3 * (2x - ((2x + ~1) div 7)))
1: (2 * (2x - ((~1 + (x div 2)) div 3)))
1: (2 * (2x - (((x div 2) - (if (~2 + (x div 2)) <= 0 then 1 else 0)) div 2)))
1: (2 * (2x - ((~x + ((1 + (x div 2)) mod 3)) div 3)))
1: (2 * (2x - ((~x + ((x + 1) mod 3)) div 5)))
1: (2 * (2x - ((~x + ((x div 2) mod 2)) div 2)))
1: (2 * (2x - ((~x + ((x div 2) mod 3)) div 3)))
1: (2 * (2x - ((~x + ((x div 2) mod 5)) div 5)))
1: (2 * (2x - ((~x + ((x div 4) mod 2)) div 2)))
1: (3 * (2x - ((x - ((x + (x div 2)) div 4)) div 2)))
1: (2 * (2x - ((x - ((~x + 2) div 2)) div 5)))
1: (3 * (2x - ((2x + 2) div 7)))
1: (3 * (2x - ((2x + 4) div 7)))
1: (2 * (2x - ((~2x + 2) div 5)))
1: (2 * (2x - ((~2x + 4) div 9)))
1: (2 * (2x - ((2 * (~x + ((x div 3) mod 2))) div 3)))
1: (3 * (2x - ((2x + ~2) div 7)))
1: (3 * (2x - ((2x + ~4) div 7)))
1: (2 * (2x - ((4 * (x div 2)) div 7)))
1: (2 * (2x - (2x div (2 + (4x div (x + 2))))))
1: (2 * (2x - ((((x + 1) - (x div 4)) div 2) div 2)))
1: (2 * (2x - ((x div 2) div ~5)))
1: ((2x - ((if (i mod 2) <= 0 then 1 else 2x) div (1 + i))) * (1 + ((x div 2) mod 2)))
1: (2 * (2x - (x div (2 + (i mod 2)))))
1: (3 * (2x - (x div ~2)))
1: ((2x - (x div ~2)) * ((x + ~1) div 2))
1: (2 * (2x - (2 mod (x + 1))))
1: (3 * (2x - (2 mod (~2x + 1))))
1: (3 * (2x - ((x + 1) mod (1 + ((x div 2) div 3)))))
1: (2 * (2x - ((x + ~1) mod (1 + (x div 2)))))
1: (3 * (2x - (2x mod 17)))
1: (2 * (2x - (x2 mod 3)))
1: (3 * (2x - ((x div 2) mod 2)))
1: (5 * (2x - ((x div 3) mod 2)))
1: (2 * (2x - ((x div 4) mod 2)))
1: (2 * (2x - ((x mod 3) mod 2)))
1: ((x2 + 1) * (2x - (x mod 2)))
1: ((2x - (x mod 2)) * (1 + (x div 2)))
1: (16 * (2x - (x mod 2)))
1: ((2x - (x mod 2)) * (x div 2))
1: (x * (2x - (x mod 2)))
1: (5 * (2x - (x mod 5)))
1: (2 * (2x - (x mod 7)))
1: (2 * (2x - (x mod 9)))
1: (5 * (2x - (x mod ~4)))
1: (2 * (2x - (x mod 15)))
1: (2 * (2x - (x mod (2 * (2 - (x mod 2))))))
1: (2 * (2x - (if (~2 + (x div 2)) <= 0 then 0 else 1)))
1: (2 * (2x - loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),x,x)))
1: (3 * (2x - loop(\(x,i).(~2x + 2),i,0)))
1: (3x2 + ~3)
1: (x3 + ~2x2 + ~x + 2)
1: (4x2 + ~8)
1: (x3 + x2 + ~2x + ~2)
1: (x4 + ~3x2 + 2)
1: (x4 + ~4x2 + 4)
1: ((x2 + ~2) * ((x + 1) div 2))
1: (2x2 + ~6)
1: (x3 + 3x2 + ~4x + ~12)
1: (2x2 + ~62)
1: (2 * (x2 - (2 * (x + ((x3 + 2x) div 3)))))
1: (4x4 + ~x3 + ~3x2 + 2x)
1: (3 * (x2 - (9 * ((~x2 + x) div 2))))
1: (3 * (x2 - (2 * ((x div 2) mod 2))))
1: (x * (x2 - ((~x2 + 2x) div 2)))
1: (3 * (x2 - ((14x3 + ~12x2 + ~2x) div 3)))
1: ((x2 - (x2 div 4)) * (x2 div 4))
1: (x * (x2 - (x2 div (x + 2))))
1: (3 * (x2 - (x2 div ~2)))
1: (2 * (x2 - (x div 2)))
1: ((x + 5) * (x2 - (x div 2)))
1: ((x + 1) * (x2 - (x div 2)))
1: ((x + ~1) * (x2 - (x div 2)))
1: (3 * (x2 - (x div ~4)))
1: (5 * (x2 - (2 mod (x + 1))))
1: ((x + 1) * (x2 - ((x div 2) mod 2)))
1: (x * (x2 - (if x <= 0 then 1 else ((x + 1) - loop(\(x,i).loop(\(x,i).(x + (i * i)),(x + ~1),1),2,x)))))
1: ((~1 + (2 * i)) * (1 + i))
1: (x * ((2 * i) - ((1 + i) mod 2)))
1: ((~1 + (x * i)) * (1 + i))
1: (3 * ((x * i) - (x div 2)))
1: (3 * ((x * i) - (i div 2)))
1: ((~1 + (i * i)) * (~2 + i))
1: (x * (~1 + (i * i)))
1: (x * (~2 + (i * i)))
1: ((~x + (i * i)) * (i div 2))
1: (2 * (~1 + (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(7x + ~3))),x))))
1: (2 * (~x + (((x + 1) + (x mod 2)) div 5)))
1: (2 * ((~2x + ~2) + ((2x + 1) div (1 + (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))))))
1: (3 * (~2 + ((x + (x div 2)) div 4)))
1: (3 * (((x + (x div 2)) div 4) - (if x <= 0 then 1 else x)))
1: (2 * (~1 + ((x + (x div 4)) div ~2)))
1: (3 * (((x + 1) div 2) - ((3 * (x div 4)) div 2)))
1: ((((x + 1) div 2) - ((3 * (x div 4)) div 2)) * (2 + (x div 5)))
1: ((x + 1) * (((x + 1) div 2) - ((3 * (x div 4)) div 2)))
1: ((((x + 1) div 2) - ((3 * (x div 4)) div 2)) * (~1 + (2 * (x div 4))))
1: ((((x + 1) div 2) - ((3 * (x div 4)) div 2)) * (~1 + (2 * (x mod 2))))
1: (x * (((x + 1) div 2) - ((3 * (x div 4)) div 2)))
1: (x * (((x + 1) div 3) - (2x div (3 + (x div 2)))))
1: (x * (((x + 1) div 3) - (x mod 2)))
1: (2 * (~x + ((x + 1) div ~7)))
1: (2 * (~1 + ((x + 1) div (if x <= 0 then 1 else (2 * (1 + ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 2)))))))
1: (2 * (~x + ((x + 2) div 5)))
1: ((x + 1) * (~1 + ((0 - ((((x + ~1) div 2) * (x div 2)) div 2)) div 2)))
1: ((x + 1) * (~1 + ((~x + 1) div 2)))
1: (3 * (~x + ((~x + 2) div 2)))
1: ((~x + ((~x + 2) div 2)) * (1 + (x div 2)))
1: (x * (~x + ((~x + 2) div 2)))
1: (3 * (~1 + ((~x + 2) div 4)))
1: (x * (~2 + ((~x + 2) div 4)))
1: (2 * (~1 + ((~x + 2) div 12)))
1: (2 * (~x + (((~x + ~2) + (x mod 2)) div 3)))
1: (x * (~1 + ((~1 + (((x + 1) div 2) div 2)) div 2)))
1: (3 * (~x + ((~1 + (x div 2)) div 2)))
1: (3 * (~x + (((x div 4) - (if x <= 0 then 1 else x)) div 2)))
1: (2 * (~1 + ((~x + ((x div 2) mod 2)) div 2)))
1: ((~1 + ((x + ~1) div 2)) * ((x + ~1) div 2))
1: (x * (~1 + ((x + ~1) div 2)))
1: (x * (~2 + ((x + ~1) div 2)))
1: ((((x + ~1) div 2) - (x div ~4)) * (((x + 1) div 2) div 2))
1: (5 * (~x + ((x + ~1) div 3)))
1: ((~x + ((x + ~1) div 3)) * (x div ~3))
1: (2 * (~x + ((x + ~1) div 5)))
1: (3 * (~x + ((x + ~1) div 5)))
1: ((~1 + ((x + ~2) div 3)) * (x div 5))
1: (5 * (~x + ((x + ~2) div 3)))
1: (3 * (~x + ((x - ((~x + 2) div 2)) div 5)))
1: (2 * (~1 + ((x - ((~1 + (x div 2)) div 3)) div 2)))
1: (3 * (~1 + ((x - (x div 4)) div 2)))
1: (3 * ((~2x + ~1) + ((x - (x div 4)) div 2)))
1: (3 * ((~2x + ~2) + ((x - (x div 4)) div 2)))
1: (2 * (~2x + ((x - (x div 4)) div 2)))
1: (x * (~1 + ((2 * ((x + ~1) + (2 * ((4 * (x + (if (~2 + (x div 2)) <= 0 then 1 else 2))) div 3)))) div 3)))
1: (x * (~1 + ((x2 + 10x + 16) div 3)))
1: (x * (~1 + ((x3 + 2x) div 2)))
1: ((2x2 + 1) * (~1 + ((x2 + x) div 2)))
1: (x * (~2 + ((x2 + x) div 2)))
1: (3 * ((6x2 + ~6x) + ((x2 + x) div 2)))
1: ((x + 1) * (~1 + ((x2 + 4x + 4) div 2)))
1: (3 * ((~2x + ~4) + ((~2x + 2) div 5)))
1: (x * (~2 + ((~x2 + 2x) div 4)))
1: ((x + 1) * (~1 + ((11x2 + 19x + 8) div 2)))
1: (x * (~2 + ((x2 + ~x) div 2)))
1: (x * (~x + ((x2 + ~x) div 2)))
1: ((2x + 1) * (~1 + ((x2 + ~x) div 4)))
1: (2 * (~x + ((x4 + 9x3 + 28x2 + 36x + 16) div 2)))
1: (2 * (~x + ((8x3 + 12x2 + 4x) div 3)))
1: (x * (((3 * (x div 4)) div 2) - ((x + 1) div 2)))
1: (2 * (~x + (2x div 5)))
1: (x * ((x2 + ~3x + 2) + (x2 div 2)))
1: (5 * (~1 + (x2 div 4)))
1: (x * (~1 + (x2 div (x + 5))))
1: (2 * ((~2x + ~2) + (x2 div (x - ((~x + 2) div 2)))))
1: (5 * (~1 + (((x + 1) div 2) div 2)))
1: (x * (~1 + (((x + 1) div 2) div 2)))
1: (x * (~2 + (((x + ~1) div 2) div 2)))
1: (x * (~x + (((x3 + ~x) div 2) div 3)))
1: (2 * (~x + ((((x + ~1) div 2) div 2) div 2)))
1: (9 * (~x + ((x div 2) div 5)))
1: (2 * (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) - ((2x + ~1) div (4 + (x div 4)))))
1: (2 * (~2x + ((x2 mod (x - ((~x + 2) div 2))) div (x + 1))))
1: ((x + 1) * (~1 + ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 2)))
1: (2 * (~2 + ((x mod 3) div 2)))
1: (3 * (~3 + ((x mod 3) div 2)))
1: (3 * (((x mod 3) div 2) - (x mod 2)))
1: (2 * (~1 + ((if (~2 + (x div 3)) <= 0 then 2 else ((x + 1) div 2)) div 2)))
1: (8 * ((loop(\(x,i).(2x + 2),x,(1 + loop(\(x,i).2x,x,1))) div 2) - loop(\(x,i).(3x + 1),x,1)))
1: (3 * (~1 + (x div 2)))
1: ((x + ~1) * (~1 + (x div 2)))
1: ((x + 1) * (~2 + (x div 2)))
1: (((~3x + ~1) + (x div 2)) * (x div 2))
1: (2 * ((~4x + ~4) + (x div 2)))
1: (3 * ((~4x + ~2) + (x div 2)))
1: (((~x2 + ~2x) + (x div 2)) * (1 + (x div 2)))
1: (2 * ((x div 2) - (2 * (x div 5))))
1: (3 * ((x div 2) - (2 * ((x div 4) mod 2))))
1: (3 * ((x div 2) - (2 * (x mod 2))))
1: (((x div 2) - (x * (x mod 2))) * (1 + (x div 2)))
1: (x * (~2x + (x div 2)))
1: ((x + 1) * ((x div 2) - (2 div (x + 1))))
1: (3 * ((x div 2) - ((1 + (x div 4)) div 2)))
1: (2 * ((x div 2) - ((x + 1) div 3)))
1: (2 * ((x div 2) - ((x + ~1) div 3)))
1: (((x div 2) - (((1 + (x div 2)) div 2) div 2)) * (1 + (x div 2)))
1: (2 * ((x div 2) - ((x div 4) div ~2)))
1: (2 * ((x div 2) - ((x mod 3) div 2)))
1: (2 * ((x div 2) - (x div 3)))
1: (2 * ((x div 2) - (x div 7)))
1: (2 * ((x div 2) - (2 mod (1 + (x mod (2 + (x mod 2)))))))
1: (2 * ((x div 2) - (((x + 1) div (3 + (2 mod (1 + (x div 2))))) mod 2)))
1: (3 * ((x div 2) - (x mod 2)))
1: (((x div 2) - (x mod 2)) * (1 + (x div 2)))
1: (((x div 2) - (x mod 2)) * (2 + (x div 2)))
1: ((x + 1) * ((x div 2) - (x mod 2)))
1: (4 * (~1 + (x div 3)))
1: (5 * (~1 + (x div 3)))
1: ((x + 2) * (~1 + (x div 3)))
1: (x * (~1 + (x div 3)))
1: (2 * (~1 + (x div 3) - ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)))
1: (2 * (~6 + (x div 3)))
1: ((~2x + (x div 3)) * (x div 3))
1: (3 * ((x div 3) - (((x + ~1) div 2) div 2)))
1: (2 * ((x div 3) - (if (~4 + (x div 2)) <= 0 then 1 else 0)))
1: (2 * ((x div 3) - (if (x + ~1) <= 0 then x else 0)))
1: (5 * (~x + (x div 3)))
1: (2 * (~1 + (x div 4)))
1: ((~1 + (x div 4)) * (x div 2))
1: ((x + 1) * (1 + (x div 4) - (2 * (x mod 2))))
1: (3 * (~2x + (x div 4)))
1: (2 * ((x div 4) - ((x + 2) div 5)))
1: (((x div 4) - ((x + ~1) div 2)) * (x div 2))
1: (2 * ((x div 4) - (if (x + ~1) <= 0 then x else 0)))
1: (3 * (~x + (x div 4)))
1: (2 * (~2 + (x div 5)))
1: (2 * ((x div 5) - ((x div 3) div ~3)))
1: (2 * (~x + (x div 5)))
1: (2 * (~x + (x div 7)))
1: (2 * ((x div (2 + (x mod 2))) - (x div 2)))
1: ((~x + (x div (2 + (x mod 2)))) * (x div 4))
1: (3 * (~1 + (x div ~2)))
1: ((~1 + (x div ~2)) * ((x + 1) div 2))
1: (x * (~1 + (x div ~2)))
1: ((x + 1) * ((~x + ~1) + (x div ~3)))
1: (2 * (~1 + (x div ~4)))
1: (x * (~1 + (x div ~5)))
1: (2 * (~2 + (x div (~4 + (x mod ~2)))))
1: (2 * (~2 + (x div (~1 + (x div ~2)))))
1: (3 * (~2 + (x div 8)))
1: (2 * ((x div 8) - (if x <= 0 then 1 else x)))
1: (2 * (~x + (i div 2)))
1: (x * (~2 + (2 mod (x + 1))))
1: (2 * (~2x + (2 mod (x + 1))))
1: (3 * (~1 + ((2x + 1) mod (4 + (x div 4)))))
1: (2 * (~1 + ((1 + (x div (2 - (x mod 2)))) mod 3)))
1: (3 * (~1 + ((1 + (x div (2 - (x mod 2)))) mod 3)))
1: (x * (~1 + ((1 + (x div (2 - (x mod 2)))) mod 3)))
1: (x * (~1 + ((x + (if (x mod 2) <= 0 then 2 else x)) mod 3)))
1: ((2x + 1) * (~1 + ((x + 1) mod 3)))
1: ((~1 + ((x + 1) mod 3)) * (1 + (x div 3)))
1: (x * (~1 + ((x + 1) mod 3)))
1: (2 * ((~x + ~1) + ((x + 1) mod 7)))
1: (2 * ((~x + ~1) + ((x + 1) mod 11)))
1: (2 * (~1 + ((x + 2) mod 5)))
1: ((x + 1) * (~1 + ((x + 2) mod (1 + (if (~1 + (x mod 7)) <= 0 then 2 else 1)))))
1: (2 * (((~x + 2) mod 5) - (x mod 4)))
1: (3 * (~1 + ((~x + 2) mod 6)))
1: (3 * (~x + ((x + ~1) mod 3)))
1: (3 * (~1 + ((x - (x div 3)) mod 3)))
1: ((~1 + ((x2 + x) mod 5)) * (~1 + (x mod 3)))
1: ((~1 + ((~2x + 2) mod (4 + (x div 4)))) * (1 + (4 * (x mod 2))))
1: ((~1 + ((~2x + 2) mod (4 + (x div 4)))) * ((x div 2) mod 2))
1: (2 * (~1 + (2x mod 3)))
1: ((x + ~1) * (~1 + (2x mod 3)))
1: (2 * (~2 + (((x + ~2) div 3) mod 2)))
1: (2 * (~2 + ((x div 2) mod 2)))
1: (3 * (~x + ((x div 2) mod 2)))
1: (2 * (~2 + ((x div 2) mod 3)))
1: ((~2 + ((x div 2) mod 3)) * (x div 2))
1: (2 * (~1 + ((x div 2) mod 4)))
1: (2 * (~x + ((x div 2) mod 5)))
1: (3 * (((x div 3) mod 2) - (x mod 3)))
1: (2 * (((x div 3) mod 3) - (x mod 3)))
1: (2 * (((x div 4) mod 2) - (x div 2)))
1: (2 * (~x + ((x div 4) mod 2)))
1: (5 * (~x + ((x div 5) mod 2)))
1: (3 * (((x div (1 + ((~x + 1) mod 3))) mod 2) - (x mod 2)))
1: (2 * (~x + ((x div ~2) mod 2)))
1: (3 * (((x div ~3) mod 2) - (x mod 2)))
1: ((x + 2) * (~1 + ((if (x mod 2) <= 0 then 2 else x) mod 4)))
1: (2 * (~1 + (loop(\(x,i).~2x,x,1) mod 7)))
1: ((x + 1) * (~1 + (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) mod 9)))
1: (2 * (~1 + (loop(\(x,i).i,(~3 + ((x + ~1) div 2)),1) mod 3)))
1: (3 * (~1 + (x mod 2)))
1: (5 * (~2 + (x mod 2)))
1: ((~2 + (x mod 2)) * ((x div 2) mod 2))
1: (2 * (~1 + ((x mod 2) + ((x + 1) mod 5))))
1: (2 * (((x mod 2) + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) - compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)))
1: (2 * (~8 + (x mod 2)))
1: (2 * ((x mod 2) - (x * (x + (x div 2)))))
1: (2 * ((~2x + ~2) + (x mod 2)))
1: (2 * (~8x + (x mod 2)))
1: (2 * (~4x + (x mod 2)))
1: ((x + 1) * (~4x + (x mod 2)))
1: (2 * ((x mod 2) - (2 * ((x div 3) mod 2))))
1: (5 * (~2x + (x mod 2)))
1: ((2x + ~1) * (~2x + (x mod 2)))
1: (2 * (~x2 + (x mod 2)))
1: (5 * (~x2 + (x mod 2)))
1: (3 * ((x mod 2) - (x div 2)))
1: (2 * ((x mod 2) - (x div 4)))
1: (5 * ((x mod 2) - (x div ~2)))
1: (2 * ((x mod 2) - (x div (~2 + ((~x + 1) div 3)))))
1: (2 * ((x mod 2) - ((~1 + (x div 2)) mod 3)))
1: (3 * ((x mod 2) - ((x div 3) mod 2)))
1: (2 * ((x mod 2) - ((x mod (2 - (x div (1 + ((x div 2) mod 2))))) mod 2)))
1: (((x mod 2) - (if ((x div 3) mod 2) <= 0 then ~1 else 2)) * (1 + (x mod 3)))
1: (2 * ((x mod 2) - (if (x mod 4) <= 0 then x else 1)))
1: (x * ((x mod 2) - loop(\(x,i).(2x - (i mod 2)),(x + ~2),0)))
1: (2 * ((x mod 2) - loop(\(x,i).(~2x + 2),x,(2 * (x mod 2)))))
1: (2 * ((x mod 2) - loop(\(x,i).(2 * (x - (i mod 2))),x,0)))
1: ((~x + (x mod 2)) * (1 + (x div 2)))
1: ((~x + (x mod 2)) * (~1 + (x div 2)))
1: (8 * (~x + (x mod 2)))
1: ((~x + (x mod 2)) * (x div 2))
1: ((x + 1) * (~1 + (x mod 3)))
1: ((x + 2) * (~1 + (x mod 3)))
1: ((x + ~2) * (~1 + (x mod 3)))
1: ((~1 + (x mod 3)) * ((x + ~1) div 2))
1: (2 * (~x + (x mod 3)))
1: (4 * (~x + (x mod 3)))
1: (3 * (~1 + (x mod 4)))
1: ((~1 + (x mod 4)) * (1 + (x mod 2)))
1: ((~1 + (x mod 4)) * (x mod 3))
1: ((~2 + (x mod 4)) * (x mod 2))
1: (2 * (~9 + (x mod 4)))
1: (2 * (~8x + (x mod 4)))
1: (5 * (~x + (x mod 4)))
1: (2 * (~2 + (x mod 5)))
1: (2 * ((~x + ~5) + (x mod 5)))
1: (2 * (1 + (x mod 5) - (2 * (i mod 2))))
1: (2 * ((~5x + ~4) + (x mod 9)))
1: (3 * (~x + (x mod 9)))
1: (5 * (~x + (x mod 9)))
1: (19 * (~x + (x mod 9)))
1: (x * (~1 + (x mod (2 + (x mod 2)))))
1: (2 * (~1 + (x mod (2 + (x mod 3)))))
1: (2 * (~2 + (x mod ~7)))
1: (2 * (~2 + (x mod ~4)))
1: (3 * (~2 + (x mod ~5)))
1: (2 * (~x + (x mod 6)))
1: (2 * (~3 + (x mod 8)))
1: (9 * (~x + (x mod 8)))
1: (13 * (~x + (x mod 8)))
1: ((~x + (x mod 8)) * (x mod 8))
1: (3 * (~2 + (x mod ~8)))
1: (4 * (~x + (x mod 10)))
1: (5 * (~x + (x mod 10)))
1: (7 * (~x + (x mod 10)))
1: ((~x + (x mod 10)) * (1 + (x div 5)))
1: (8 * (~x + (x mod 10)))
1: ((~x + (x mod 10)) * (x mod 2))
1: (2 * (~1 + (x mod (2 * (1 + (if (x mod 2) <= 0 then 6 else 1))))))
1: (2 * (~1 + (x mod (2 * (2 - (x mod 2))))))
1: ((~1 + (x mod (2 * (2 - (x mod 2))))) * (~1 + (x mod 3)))
1: (3 * (~2x + (i mod 2)))
1: ((~1 + (if (~x + 2) <= 0 then x else 0)) * (1 + (x div 4)))
1: (3 * (~1 + (if (~4 + (x div 2)) <= 0 then 1 else x)))
1: (2 * (~x + (if (~2 + (x div 2)) <= 0 then 2 else 1)))
1: (2 * ((if (~2 + (x div 3)) <= 0 then 2 else 1) - (x mod 2)))
1: (x * (~x2 + (if (x + ~1) <= 0 then 1 else 0)))
1: (2 * ((if (x + ~1) <= 0 then 1 else (2 * (((x2 mod (x - ((~x + 2) div 2))) div (x + 1)) + (x mod 2)))) - (x mod 2)))
1: (x * (~x + (if (x + ~4) <= 0 then 1 else 2)))
1: (2 * (~x + (if (~2 + i) <= 0 then 1 else 0)))
1: (x * (~1 + (if (x * (~2 + i)) <= 0 then x else 0)))
1: (x * (~1 + (if (x * i) <= 0 then x else 0)))
1: ((~1 + (if ((x * (x mod 3)) mod 5) <= 0 then 2 else 0)) * (1 + (2 * (x div 2))))
1: (2 * (~4 + (if (x mod 2) <= 0 then 1 else x)))
1: (2 * (~1 + (if (x mod 2) <= 0 then 2 else (2x2 + 2x))))
1: (2 * (~x + (if (x mod 4) <= 0 then 2 else 0)))
1: (3 * ((if (x mod (3 + ((x div 2) div 3))) <= 0 then 1 else 0) - (x mod 2)))
1: (x * ((if (i mod 2) <= 0 then 1 else (2 * i)) - i))
1: (x * (~1 + (if (i mod 2) <= 0 then 4 else 0)))
1: (2 * (~x + (if (i mod 3) <= 0 then 2 else 0)))
1: (2 * ((if x <= 0 then 1 else 2) - ((~x2 + x) div 4)))
1: (3 * (~x + (if x <= 0 then 1 else (~1 + loop(\(x,i).(x3 + x),x,1)))))
1: ((x + 1) * ((if x <= 0 then 1 else (x - (2 * (x div (~3 + (2 * (~1 + (x mod 3)))))))) - (x mod 2)))
1: ((~1 + (if x <= 0 then 1 else (x - ((~x + 2) div 2)))) * (1 + (x div 2)))
1: (3 * (~1 + (if x <= 0 then 1 else 9x)))
1: (2 * ((if x <= 0 then 1 else 4x) - ((x + (x div 2)) div 4)))
1: ((x + 4) * ((if x <= 0 then 1 else 4x) - ((x + (x div 2)) div 4)))
1: (2 * ((if x <= 0 then 1 else 6x) - ((x + ((~x + 1) mod 3)) div 4)))
1: (3 * ((if x <= 0 then 1 else 2x) - ((x + (x div 2)) div 4)))
1: (5 * ((if x <= 0 then 1 else 2x) - ((x + (x div 2)) div 4)))
1: ((x + 1) * ((if x <= 0 then 1 else x) - ((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3)))
1: (2 * ((if x <= 0 then 1 else x) - ((x * i) mod 3)))
1: (2 * (~1 + (if x <= 0 then 2 else (x + (x mod 2)))))
1: ((x + 1) * (~1 + (if x <= 0 then 2 else (x div (1 + (x mod (1 + (x mod (1 + (x div (2 * (2 - (x mod 2)))))))))))))
1: ((x + 1) * (~1 + (if x <= 0 then 2 else (((x2 + 2x) div 2) mod (1 + ((1 + (x div 2)) div 3))))))
1: (2 * (~1 + (if x <= 0 then 2 else x)))
1: (2 * (loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),x,1) - loop(\(x,i).2x,x,1)))
1: ((x + 3) * (~1 + loop(\(x,i).(2x + i),x,2)))
1: ((x + 2) * (~1 + loop(\(x,i).(2x + i),x,2)))
1: (x * (~1 + loop(\(x,i).(2x + i),x,2)))
1: (2 * (loop(\(x,i).(3x + 1),x,1) - (x mod 2)))
1: ((x + 1) * (~1 + loop(\(x,i).(3x + 2),6,x)))
1: (2 * (loop(\(x,i).(5x + 2),x,2) - loop(\(x,i).4x,x,2)))
1: (5 * (loop(\(x,i).(10x + 3),2x,1) - loop(\(x,i).10x,x,1)))
1: ((2x + 1) * (~2 + loop(\(x,i).(x2 + x + 1),2,x)))
1: (2 * (loop(\(x,i).(x + ((2 + i) * (1 + i))),x,2) - (x div 2)))
1: ((x + 2) * (~1 + loop(\(x,i).((2 * (x + i)) + i),x,2)))
1: ((x + 1) * (~1 + loop(\(x,i).(2 + (x * (x + i))),2,8)))
1: ((x + 1) * (~1 + loop(\(x,i).(17x + 16),2,x)))
1: (2 * (loop(\(x,i).(6x + 2),x,1) - loop(\(x,i).3x,x,1)))
1: (2 * (~2 + loop(\(x,i).(x3 + 1),2x,2)))
1: ((x + 1) * (~1 + loop(\(x,i).(x3 + 2),2,2)))
1: (x * (~1 + loop(\(x,i).(x3 + 2),2,2)))
1: ((x + 1) * (~2 + loop(\(x,i).(x3 + 2),2,2)))
1: (x * (~2 + loop(\(x,i).(x3 + 2),2,2)))
1: ((x + ~1) * (~1 + loop(\(x,i).(1 + (x * ((1 + i) div 2))),x,0)))
1: (2 * (~x + loop(\(x,i).(x2 + 1),2,3)))
1: (2 * (~2 + loop(\(x,i).(2x + ((x + (x2 div 3)) div 2)),x,2)))
1: ((x + 2) * (loop(\(x,i).(4x + (2x div (1 + i))),x,3) - loop(\(x,i).4x,x,2)))
1: (2 * (~1 + loop(\(x,i).(x + (x div 2)),x,2)))
1: (2 * (~2 + loop(\(x,i).(x + (x mod 8)),x,3)))
1: ((x + 1) * (~1 + loop(\(x,i).(x + (if x <= 0 then 1 else (2x * ((~1 + i) * (~2 + i))))),x,x)))
1: (2 * (~x + loop(\(x,i).(x + loop(\(x,i).(2 + (if (~x + i) <= 0 then 0 else x)),i,1)),x,0)))
1: ((x + 1) * (~1 + loop(\(x,i).(x + loop(\(x,i).(x - (if x <= 0 then 1 else (if ((x mod 3) div 2) <= 0 then x else ((x + 1) div 2)))),x,(x + 1))),2,x)))
1: (3 * (~1 + loop(\(x,i).(x + loop(\(x,i).(8 div (x + 1)),2,i)),x,2)))
1: (x * (~1 + loop(\(x,i).~x,x,(i * i))))
1: (2 * (loop(\(x,i).(3x + ~1),(x + 2),2) - loop(\(x,i).2x,x,2)))
1: ((x + 1) * (~1 + loop(\(x,i).(~x5 + x2 + 2x),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))))
1: (2 * (~1 + loop(\(x,i).(x2 + ~x + ~1),x,8)))
1: (2x * (~x + loop(\(x,i).(2x + ~1),(x + ~3),x)))
1: (2 * (~1 + loop(\(x,i).(2x - ((i div 2) mod 2)),x,2)))
1: (3 * (~1 + loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)))
1: (2 * (~2 + loop(\(x,i).(i - (x * i)),x,0)))
1: (2 * (~x + loop(\(x,i).3x,(~1 + i),1)))
1: ((~2 + loop(\(x,i).3x,x,1)) * loop(\(x,i).(2x + 1),x,0))
1: (2 * (loop(\(x,i).3x,x,1) - (x mod 2)))
1: (x * (loop(\(x,i).3x,x,1) - loop(\(x,i).(2x + 3),x,0)))
1: (3 * (loop(\(x,i).3x,x,1) - loop(\(x,i).3x,(x div 2),1)))
1: ((x + 1) * (~1 + loop(\(x,i).3x,x,2)))
1: ((x + 1) * (loop(\(x,i).3x,x,3) - loop(\(x,i).2x,x,2)))
1: (2 * (~1 + loop(\(x,i).3x,x,4)))
1: ((loop(\(x,i).5x,x,1) - loop(\(x,i).3x,x,1)) * loop(\(x,i).(3x + 1),x,0))
1: (5 * (loop(\(x,i).5x,x,1) - loop(\(x,i).5x,(x div 2),1)))
1: ((x + 1) * (~1 + loop(\(x,i).5x,x,2)))
1: (3 * (~1 + loop(\(x,i).(2x + 12),(x + 1),1)))
1: (3 * (~1 + loop(\(x,i).(2x + 6),x,17)))
1: (2 * (~2 + loop(\(x,i).(2x + 8),(x + 4),1)))
1: ((x + 1) * (~1 + loop(\(x,i).7x,x,2)))
1: (2 * (~2 + loop(\(x,i).(2x + 16),(x + 1),1)))
1: (2 * (~1 + loop(\(x,i).(2x + 24),x,17)))
1: (2 * (~2 + loop(\(x,i).(10x + 8),(x + 1),0)))
1: (3 * (~1 + loop(\(x,i).(2x + 32),x,9)))
1: (x * (~3 + loop(\(x,i).(2x2 + x),2,2)))
1: (2 * (~x + loop(\(x,i).(2 * (x + (2 * i))),x,0)))
1: (x * (~1 + loop(\(x,i).(x2 + x),1,loop(\(x,i).(x * i),x,1))))
1: (2 * (~2 + loop(\(x,i).(2x + 4),x,1)))
1: (2 * (~1 + loop(\(x,i).(2x + 4),x,4)))
1: (2 * (loop(\(x,i).(x2 + x + ~2),x,2) - loop(\(x,i).2x,x,1)))
1: (x * (~1 + loop(\(x,i).(x2 + 2x),2,2)))
1: ((x2 + 2x + 1) * (~2 + loop(\(x,i).(x2 + 2x),2,2)))
1: ((x + 2) * (~1 + loop(\(x,i).((x + 1) * (1 + i)),(x + 1),1)))
1: (2 * (~x2 + loop(\(x,i).(x * (2 + i)),(x + 1),4)))
1: (2 * (~x + loop(\(x,i).(2 * (x + i)),x,0)))
1: (x * (~1 + loop(\(x,i).(x * (x + i)),2,3)))
1: (2 * (loop(\(x,i).(~2x + 2),(x div 2),1) - (x mod 2)))
1: (2 * (~1 + loop(\(x,i).11x,x,4)))
1: (2 * (~2 + loop(\(x,i).47x,x,2)))
1: ((x + 1) * (~1 + loop(\(x,i).(2x2 + ~x),1,(5x + 5))))
1: (2 * ((~x + ~1) + loop(\(x,i).(2 * (2x - (x div (1 + i)))),x,2)))
1: (2 * (~1 + loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,2)))
1: (x * (~1 + loop(\(x,i).(2 * (x - (i mod 2))),i,2)))
1: (2 * (~2 + loop(\(x,i).10x,(x + 1),2)))
1: (3 * (~2 + loop(\(x,i).10x,(x + 1),2)))
1: (2 * (~2 + loop(\(x,i).10x,(x + 1),(x + 1))))
1: (15 * (~1 + loop(\(x,i).10x,x,2)))
1: (35 * (~1 + loop(\(x,i).10x,x,2)))
1: (3 * (~2 + loop(\(x,i).10x,x,2)))
1: (2 * (~2 + loop(\(x,i).(12x + 8),2,3x)))
1: ((x + 1) * (~1 + loop(\(x,i).(8x + 4),(x + 1),0)))
1: (x * (~1 + loop(\(x,i).(2x3 + ~4x),2,2)))
1: (2 * (~2 + loop(\(x,i).8x,(x + 1),1)))
1: (2 * ((~2x2 + ~x) + loop(\(x,i).8x,x,1)))
1: ((x + 1) * (~1 + loop(\(x,i).8x,x,2)))
1: (2 * (~2 + loop(\(x,i).8x,x,2)))
1: (2 * (~2 + loop(\(x,i).12x,2,(x + 1))))
1: ((x + 1) * (~2 + loop(\(x,i).12x,2,(x + 1))))
1: (2 * (~2 + loop(\(x,i).20x,2,(x + 1))))
1: ((x + 1) * (~2 + loop(\(x,i).20x,2,(x + 1))))
1: (3 * (~2 + loop(\(x,i).4x,x,1)))
1: (2 * (loop(\(x,i).4x,x,1) - (if (x + ~1) <= 0 then x else 0)))
1: (2 * (loop(\(x,i).4x,x,1) - loop(\(x,i).(2 * (2 - (i mod 2))),x,1)))
1: (2 * (loop(\(x,i).4x,x,1) - loop(\(x,i).4x,(x div 2),(1 - (if x <= 0 then 2 else 0)))))
1: ((x + 1) * (loop(\(x,i).4x,x,1) - loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1)))
1: ((x + 1) * (loop(\(x,i).4x,x,1) - loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,2x)))
1: ((x + 1) * (~1 + loop(\(x,i).4x,x,2)))
1: ((x + ~1) * (~1 + loop(\(x,i).4x,x,2)))
1: ((~1 + loop(\(x,i).4x,x,2)) * ((if x <= 0 then 1 else x) mod 2))
1: (2 * (loop(\(x,i).4x,x,2) - loop(\(x,i).(3x + ~1),x,2)))
1: (2 * (loop(\(x,i).4x,x,2) - loop(\(x,i).3x,x,2)))
1: ((x + 1) * (loop(\(x,i).4x,x,2) - loop(\(x,i).(2 * (2x - (x div (1 + i)))),x,2)))
1: ((x + 1) * (loop(\(x,i).4x,x,2) - loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),x,1)))
1: (x * (~1 + loop(\(x,i).4x,i,1) - (2 * i)))
1: (5 * (~x + loop(\(x,i).4x,i,1)))
1: (3 * (loop(\(x,i).6x,x,1) - loop(\(x,i).6x,(x div 2),1)))
1: ((x + 1) * (~1 + loop(\(x,i).6x,x,2)))
1: ((x + 1) * (loop(\(x,i).(2x * (1 + i)),x,1) - loop(\(x,i).(x * i),x,x)))
1: (x * (~2 + loop(\(x,i).2x2,2,2)))
1: ((x + 1) * (~1 + loop(\(x,i).x3,1,(7x + 5))))
1: (x * (~1 + loop(\(x,i).x3,2,x)))
1: ((x + 1) * (~2 + loop(\(x,i).(x * (i * i)),4,(x + 1))))
1: (2 * (~1 + loop(\(x,i).(3 * ((x + 1) div 2)),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)))
1: (2 * (loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),x,(x + 2)) - loop(\(x,i).4x,x,1)))
1: ((x + 1) * (~1 + loop(\(x,i).2x,(1 + (((4x + ~4) div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) mod 4)),2)))
1: ((~1 + loop(\(x,i).2x,(x + 2),4)) * (1 + loop(\(x,i).2x,x,1)))
1: (x * ((~x + 1) + loop(\(x,i).2x,(x + 2),x)))
1: ((x + 1) * (~x + loop(\(x,i).2x,(x + 2),x)))
1: (2 * (~1 + loop(\(x,i).2x,(~4 + (x div 2)),2)))
1: (2 * (~x + loop(\(x,i).2x,(x + ~2),x)))
1: (3 * (~x + loop(\(x,i).2x,(~2 + i),1)))
1: (2 * (loop(\(x,i).2x,x,1) - ((1 + (x div (~2 + (x mod 2)))) mod 3)))
1: (2 * (loop(\(x,i).2x,x,1) - (x mod 2)))
1: (2 * (loop(\(x,i).2x,x,1) - loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(x div 2),(x mod 2))))
1: (2 * (loop(\(x,i).2x,x,1) - loop(\(x,i).2x,(x - (x div (1 + (x mod 2)))),1)))
1: ((x + 1) * (loop(\(x,i).2x,x,1) - loop(\(x,i).((x * (1 + i)) div (1 + (i div 2))),(x + ~1),1)))
1: (2 * (~x + loop(\(x,i).2x,x,1)))
1: ((x + 1) * (~x + loop(\(x,i).2x,x,1)))
1: ((~x + loop(\(x,i).2x,x,1)) * (if x <= 0 then 1 else 2))
1: ((2x + 1) * (~1 + loop(\(x,i).2x,x,2)))
1: ((~1 + loop(\(x,i).2x,x,2)) * ((if x <= 0 then 1 else x) mod 2))
1: (x * (~1 + loop(\(x,i).2x,x,2)))
1: (2 * (loop(\(x,i).2x,x,2) - loop(\(x,i).(2 * (x div (~2 + (i mod 2)))),x,1)))
1: (2 * (loop(\(x,i).2x,x,2) - loop(\(x,i).2x,((x + 1) div 2),1)))
1: (2 * (loop(\(x,i).2x,x,2) - loop(\(x,i).2x,((x + 1) div 2),2)))
1: (2 * (loop(\(x,i).2x,x,2) - loop(\(x,i).2x,(x div 2),2)))
1: ((x + 1) * (~x + loop(\(x,i).2x,x,2)))
1: ((~1 + loop(\(x,i).2x,x,(1 - loop(\(x,i).(2 * (x - (i mod 2))),x,(x mod 2))))) * (1 + (x mod 2)))
1: ((x + 1) * (~1 + loop(\(x,i).2x,x,loop(\(x,i).(3x + (if (i mod 3) <= 0 then 1 else 2)),x,1))))
1: ((x + 1) * (~1 + loop(\(x,i).2x,x,loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),i,1)),x,1))))
1: (3 * (~x + loop(\(x,i).2x,x,x)))
1: (2 * (~4x + loop(\(x,i).2x,i,1)))
1: (3 * (~x + loop(\(x,i).2x,i,1)))
1: ((x + 1) * (~1 + loop(\(x,i).x2,1,(5x + 2))))
1: (2 * (~2 + loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))))
1: ((x + 1) * (~1 + loop(\(x,i).x2,1,(2 * (2x + i)))))
1: (2 * (~1 + loop(\(x,i).x2,1,loop(\(x,i).(2x + 2),2x,2))))
1: ((x + 2) * (~1 + loop(\(x,i).x2,2,(x + 2))))
1: (2 * (~1 + loop(\(x,i).x2,x,2)))
1: (x * (~x + loop(\(x,i).x2,i,2)))
1: (x * (~x + loop(\(x,i).x2,i,3)))
1: (x * (~1 + loop(\(x,i).(x * i),2x,1)))
1: ((x + 1) * (~2 + loop(\(x,i).(x * i),x,1)))
1: (x * (~1 + loop(\(x,i).(i * i),(x + ~2),x)))
1: ((x + 1) * (~1 + loop(\(x,i).((3x2 + 7x + 4) div 2),1,(x2 + 2x + 1))))
1: (2 * (~1 + loop(\(x,i).((x2 + x) div 2),x,2)))
1: ((x + 1) * (~1 + loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1)))
1: (x * (~1 + loop(\(x,i).loop(\(x,i).(x * i),x,2),x,1)))
1: ((x + 1) * (~1 + loop(\(x,i).loop(\(x,i).(x * i),i,2x),x,1)))
1: (x * (~1 + loop(\(x,i).loop(\(x,i).(x * i),i,x),x,~x)))
1: (3 * (~x + loop(\(x,i).i,(x div 4),x)))
1: ((x + 1) * (~1 + loop(\(x,i).i,(((x + ~2) * (x div 3)) mod (1 + (x div 2))),1)))
1: (3x + ~9)
1: ((x + ~3) * i)
1: (3x + ~12)
1: (4x + ~16)
1: (x2 + ~3x + ~4)
1: ((x + ~4) * (x mod 3))
1: (x2 + ~4x)
1: ((x + ~4) * i)
1: (2x + ~10)
1: (2 * (~2 - (if x <= 0 then 1 else (2 * (2x + ((x + ((x div 2) mod 2)) div 2))))))
1: (x2 + ~7x)
1: (2 * ((x + ~1) - (2 * ((x div (1 + (4 * (1 + (2 * (x mod 2)))))) + (x mod 2)))))
1: (x2 + ~17x)
1: (~7x2 + ~x)
1: ((x + 1) * ((x + ~1) - (2 * ((x + ~1) div 3))))
1: (2 * ((x + ~1) - ((2 * ((2x + 1) - (x2 div (3x + 4)))) div 3)))
1: (2 * (0 - ((2 * (x + (if (x + ~4) <= 0 then 1 else x))) div (x + 2))))
1: (2 * ((x + ~1) - (x div 4)))
1: (x2 + 11x)
1: (26x + 22)
1: (117x + 45)
1: (7x6 + 5x5)
1: ((11x + 9) * loop(\(x,i).x3,2,x))
1: (11x2 + 9x)
1: (25x2 + 48x + 23)
1: (49x2 + 96x + 47)
1: (26x + ~2)
1: (13x2 + ~x)
1: (19x2 + ~x)
1: ((x + 2) * ((x + ~1) + (2 * (i mod 2))))
1: (x * ((x + ~1) + (2 * (i mod 2))))
1: (((x + ~1) + (2 * (i mod 2))) * i)
1: (2 * ((x + ~1) + (2 div (1 + (x div 4)))))
1: (x * ((x + ~1) + ((x div 2) div 3)))
1: (2 * ((x + ~1) + (i mod 3)))
1: (3 * ((x + ~1) + (i mod 3)))
1: ((x + 1) * ((x + ~1) + (if (x + ~1) <= 0 then 4 else 0)))
1: (2 * ((x + ~2) + (5 * (1 + (x div 2)))))
1: (11x2 + ~7x)
1: (x2 + 23x + 22)
1: (x2 + 22x)
1: (13x2 + 10x)
1: (25x2 + 47x + 22)
1: (2 * ((x + ~2) + ((~x + 2) div (1 + ((x mod (2 + (x mod 2))) div 2)))))
1: (x * ((3x + ~1) - (2x mod (2 + (x div 4)))))
1: (2 * ((x + 1) + (x div 3) - (x div ~2)))
1: (2 * ((x + 1) + (x mod 2) - ((loop(\(x,i).2x,x,1) mod (1 + (4 * (x mod 4)))) mod 3)))
1: (3 * ((x + 25) - (if x <= 0 then 2 else 0)))
1: (5x2 + ~7x)
1: (2 * ((x + 2) - ((~x + 2) * (x div 2))))
1: (8x3 + ~3x2 + 3x)
1: (2 * ((x + 1) - (2 * ((~2x + ~2) + ((x - (x div 4)) div 2)))))
1: (((x + 2) - (3 * (~2x + (x div 2)))) * ((x + 1) div 2))
1: (3 * ((x + 1) - (2 * (~x + ((x div 4) mod 2)))))
1: (3 * ((x + 1) - (2 * (~x + (x mod 2)))))
1: (x * ((x + 1) - (2 * (~x + (x mod 2)))))
1: (5 * ((x + 1) - (9 * (~x + (x mod 8)))))
1: ((x + 1) * ((x + 1) - (9 * (~x + (x mod 10)))))
1: (2 * ((x + 1) - (2 * (~x + (i mod 2)))))
1: (3 * ((x + 1) - (2 * (~2 - (if x <= 0 then 1 else (2 * (2x + ((x + ((x div 2) mod 2)) div 2))))))))
1: (x2 + 29x)
1: (11x2 + ~9x)
1: (29x2 + x)
1: (2 * ((x + 1) - (2 * ((x + 1) div (2 + (x mod 2))))))
1: (3 * ((x + 1) - (2 * ((x + 2) div 5))))
1: (2 * ((x + 2) - (2 * ((~2 + ((~2x + 2) mod (4 + (x div 4)))) div 2))))
1: (3 * ((x + 1) - (2 * ((3 * (x div (4 - ((x * (x div 2)) mod 2)))) div 2))))
1: (2 * ((x + 1) - (2 * (((x + ~1) div 2) mod 2))))
1: (2 * ((x + 1) - (2 * (x mod 2))))
1: (3 * ((x + 1) - (2 * (x mod 2))))
1: (5 * ((x + 1) - (2 * (x mod 2))))
1: (7 * ((x + 1) - (2 * (x mod 2))))
1: (3 * ((x + 1) - (2 * (i mod 2))))
1: (2 * ((x + 2) - (x * (i mod 2))))
1: (2 * ((x + 1) - (2 * i)))
1: (((x + 1) - (2 * i)) * i)
1: (3 * ((5x + 4) - ((2x + 1) div 9)))
1: (2 * ((x + 1) - ((x + (x div 2)) div 4)))
1: (2 * ((x + 1) - ((x + (x div 2)) div ~5)))
1: (2 * ((x + 1) - ((x + (x div 4)) div ~2)))
1: (2 * ((x + 1) - ((x + 1) div 5)))
1: (((x + 1) - ((x + 1) div 5)) * (1 + (x div 2)))
1: (3 * ((7x + 6) - ((x + 1) div 7)))
1: (2 * ((x + 1) - ((x + 2) div ~7)))
1: (2 * ((x + 1) - ((0 - ((2 + (x mod 8)) mod (x + 1))) div 2)))
1: (2 * ((x + 2) - ((~2x + 1) div (4 + (x div 4)))))
1: (2 * ((x + 1) - ((~x + 1) div 3)))
1: ((x + 3) * ((x + 1) - ((~x + 1) div 3)))
1: (3 * ((x + 1) - ((~x + 1) div 11)))
1: (5 * ((x + 1) - (((~x + 2) - (x div 4)) div 4)))
1: (3 * ((x + 1) - ((~x + 2) div 4)))
1: (2 * ((x + 1) - ((~x + 2) div 7)))
1: (2 * ((x + 2) - ((~x + 2) div (x + 2))))
1: (2 * ((x + 1) - ((~x + 2) div 11)))
1: (2 * ((x + 1) - ((~x + 2) div 8)))
1: (3 * ((x + 1) - (((~x + 2) - (x div 2)) div 4)))
1: (3 * ((x + 2) - (((~x + 2) - (x div 2)) div 4)))
1: (2 * ((x + 1) - (((~x + ~1) + (x mod 2)) div 5)))
1: (3 * ((x + 1) - ((~x + ((~x + 2) div 4)) div 2)))
1: (5 * ((x + 1) - ((~x + ((~x + 2) div 4)) div 2)))
1: (2 * ((x + 1) - ((~x + ((x div 2) mod 2)) div 2)))
1: (2 * ((x + 2) - ((~x + ((x div 2) mod 2)) div 2)))
1: (2 * ((x + 1) - ((~x + (x mod 2)) div 3)))
1: (2 * ((x + 1) - ((~x + (x mod 2)) div 5)))
1: (3 * ((x + 1) - ((~x + (x mod 3)) div 4)))
1: (2 * ((x + 1) - ((~x + (x mod 4)) div 3)))
1: (x * (2x - (((x + ~1) * (4x + ((x2 + ~x) div 2))) div 3)))
1: (2 * ((x + 1) - ((2 * (1 + (((x + 1) * (x div 2)) div 2))) div 3)))
1: (2 * ((x + 1) - ((~4x + 2) div (x + 3))))
1: (2 * ((x + 1) - ((2 * (1 - (x div 2))) div 5)))
1: (2 * ((x + 1) - ((~2x + 2) div 5)))
1: (3 * ((x + 1) - ((~2x + 2) div 5)))
1: ((x + 1) * ((x + 1) - ((~2x + 2) div 5)))
1: (2 * ((x + 1) - ((~x2 + 2x) div 8)))
1: ((x + 1) * ((x + 1) - ((x * (~2 + (((x + ~1) div 2) div 2))) div 3)))
1: (2 * ((x + 1) - (((x + ~2) * ((x div 3) * ((~x + 2) div 2))) div 2)))
1: ((x + 1) * ((x + 1) - (x2 div (x + 4))))
1: ((x + 1) * ((x + 1) - (x2 div ~2)))
1: ((x + 1) * ((x + 1) - (((2 + (x * (x + (x div 2)))) div (x + 2)) div 2)))
1: (5 * ((x + 1) - (((x + 1) div 2) div 3)))
1: (2 * ((x + 1) - (((x - ((2 - ((x + 1) div (2 * (2 - ((x div 4) mod 2))))) div 2)) div 2) div 2)))
1: (2 * ((x + 2) - ((x2 div 2) div (~2x + 1))))
1: (7 * ((x + 1) - ((((x + 1) div 2) div 2) div 2)))
1: (x * ((x + 1) - ((((~x4 + x2) div 2) div 3) div 2)))
1: ((x + 2) * ((x + 1) - ((x div 2) div ~2)))
1: (2 * ((x + 1) - ((x div 2) div ~5)))
1: (5 * ((x + 1) - ((x div 4) div ~2)))
1: (2 * ((x + 1) - (((x + 1) mod (1 + (2 * ((1 + (x div 4)) div 2)))) div 2)))
1: (2 * ((x + 1) - ((x mod (1 + ((x div 4) + (x mod 2)))) div 2)))
1: (2 * ((x + 1) - ((x mod (2 + (((x + 1) div 2) div 3))) div 2)))
1: (2 * ((x + 1) - ((x mod (2 - ((x div 2) div ~2))) div 2)))
1: (2 * ((x + 1) - (loop(\(x,i).(x2 + 3x),1,loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)) div 2)))
1: (2 * ((5x + 4) - (x div 2)))
1: (9 * ((5x + 4) - (x div 2)))
1: (2 * (25x - (x div 2)))
1: (2 * (21x - (x div 2)))
1: (2 * (19x - (x div 2)))
1: (2 * (7x - (x div 2)))
1: (2 * ((x + 1) - (x div 3)))
1: (3 * (x + ((~x + 3) div 9) - (x div 3)))
1: (2 * ((x + 1) - (x div (6 - (x mod 2)))))
1: (2 * ((x + 1) - (x div 7)))
1: (((x + 1) - (x div ~2)) * ((x + 1) + (x div 2)))
1: (((x + 1) - (x div ~2)) * (1 + (x div 2)))
1: ((x + 1) * ((x + 1) - (x div ~2)))
1: (((x + 1) - (x div ~2)) * (x div 2))
1: (x * ((x + 1) - (x div ~2)))
1: (((x + 2) - (x div ~2)) * (1 + (x div 2)))
1: (2 * ((x + 1) - (x div ~4)))
1: (2 * ((x + 1) - (x div (~3 + (x div ~4)))))
1: (2 * ((x + 1) - (x div ~9)))
1: (3 * ((x + 1) - (x div (~2 + ((1 - (2 * (x div 3))) div 3)))))
1: (2 * ((x + 2) - (x div (~2 + ((~x + 1) div 2)))))
1: (2 * ((x + 1) - (x div (~2 + ((~x + 2) div 4)))))
1: (((x + 1) - (x div 8)) * (2 + (x div 2)))
1: (2 * ((x + 1) - ((1 + (x mod (2 * (1 + (x mod 9))))) mod (x + 1))))
1: (3 * ((x + 1) - ((x + 1) mod 3)))
1: (2 * ((x + 1) - ((x + 1) mod (1 + (2 * (((x2 div 3) mod (x + 1)) div 2))))))
1: (2 * ((x + 1) - ((x + 1) mod ~7)))
1: (2 * ((x + 1) - ((~1 + (x div 2)) mod (1 + (x div 4)))))
1: (3 * ((x + 1) - ((x - loop(\(x,i).(x - (x2 div (x + 16))),2,(if x <= 0 then 1 else x))) mod (x + 1))))
1: (3 * ((x + 1) - ((x div 2) mod 2)))
1: (3 * ((x + 2) - ((x div 2) mod 3)))
1: (2 * ((x + 1) - ((x div 2) mod (1 + (x mod (1 + (x div 3)))))))
1: (2 * ((x + 1) - ((x div (1 + (if (x mod 2) <= 0 then 6 else 1))) mod 3)))
1: ((x + 1) * ((x + 1) - (loop(\(x,i).2x,x,2) mod (x + 1))))
1: (2 * (x + ((x div 3) mod 2) - (x mod 2)))
1: ((x + 2) * ((x + 1) - (x mod 9)))
1: (10 * ((x + 1) - (x mod 9)))
1: (x * ((x + 1) - (x mod 9)))
1: (2 * ((x + 1) - (x mod (1 - (2 * (2 + (x mod 3)))))))
1: (2 * ((x + 1) - (x mod (1 - (2 * (if (x mod 4) <= 0 then 0 else 2))))))
1: (((x + 2) - (x mod ~4)) * (1 + (x div 2)))
1: (2 * ((x + 1) - (x mod (~1 + (3 * (((x + ~1) div 2) mod 3))))))
1: (9 * ((x + 1) - (x mod (x - ((x + ~1) mod 8)))))
1: (3 * ((x + 1) - (x mod 8)))
1: (((x + 1) - (x mod 8)) * (1 + (x mod 8)))
1: (2 * (x + ((x div 4) mod 2) - (x mod 8)))
1: ((x + 1) * ((x + 1) - (x mod 10)))
1: (x * ((x + 1) - (x mod 10)))
1: (((x + 1) - (i mod 2)) * i)
1: (2 * ((5x + 2) - (i mod 2)))
1: (2 * ((x + 1) - (i mod (2 * (2 - (i mod 2))))))
1: (2 * (x + loop(\(x,i).(x * (2 + (i mod 2))),x,1) - (if (x + ~2) <= 0 then 1 else 0)))
1: (2 * ((x + 1) - loop(\(x,i).(1 + (((2 + ((x2 div 2) div 5)) div 3) + (if x <= 0 then 0 else 1))),2,x)))
1: (2 * ((x + 1) - loop(\(x,i).(x + (if (~2 + (x div 4)) <= 0 then 1 else 2)),2,x)))
1: (3 * ((x + 1) - loop(\(x,i).(x + (if (~2 + (x div 4)) <= 0 then 1 else 2)),2,x)))
1: (2 * (2x - loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,0)))
1: (2 * ((x + 1) - loop(\(x,i).(x - (x div 8)),6,x)))
1: (2 * ((x + 1) - i))
1: (((x + 1) - i) * i)
1: (x * ((x + 2) - i))
1: (x * ((x + 7) - i))
1: (x2 + ~6x)
1: (2 * (x - (3 * i)))
1: (x2 + ~10x + 16)
1: (3 * (x - (3 * ((x + 2) + (3 * (x div 2))))))
1: (~3x2 + ~15x + ~24)
1: (2 * (x - (2 * (x + (if (i mod 2) <= 0 then 2 else 0)))))
1: (~x3 + ~4x2 + ~7x + ~4)
1: ((2x + 1) * (x - ((1 + i) * i)))
1: (2 * (x - ((2 + i) * i)))
1: (2x + 28)
1: (x2 + 15x + 14)
1: (x2 + 16x + 28)
1: (x2 + 14x)
1: (x2 + 23x + 42)
1: (13x2 + 9x)
1: (x2 + 30x)
1: (4x3 + 17x2 + 19x + 6)
1: (13x2 + ~16x + 3)
1: (13x2 + ~3x)
1: (25x + ~10)
1: (7x2 + ~10x + 3)
1: (11x2 + ~5x)
1: (15x + ~12)
1: (3 * (x - ((~x + 1) * (x div 2))))
1: ((x - ((~x + 1) * (x div 2))) * (1 + (x div 2)))
1: (2 * (x - (3 * (1 - i))))
1: (98x + ~12)
1: (4x3 + ~6x)
1: (6x + ~8)
1: (2 * (x - (2 * ((~x + ~1) + ((x div 2) mod 2)))))
1: (2 * (x - (2 * ((~x + ~1) + (x mod 2)))))
1: (13x2 + ~9x)
1: (4x3 + ~3x2 + 2x)
1: (2 * (x - (2 * (~1 + (2 * (~2x + (x div 2)))))))
1: (3 * (x - (2 * (~1 + (2 * (~2x + (x div 2)))))))
1: (19x2 + ~15x)
1: (28x3 + 3x2 + ~25x)
1: (32x2 + ~26x)
1: (2 * (x - ((~1 + (2 * (x mod 2))) * (1 + i))))
1: (2 * (x - (2 * (~x + ((x + 2) div 5)))))
1: (2 * (x - (2 * ((~2x + ~2) + ((x - (x div 4)) div 2)))))
1: (2 * (x - ((~2x + (x div 2)) * (x div 2))))
1: (2 * (x - ((~2x + (x div 3)) * (x div 3))))
1: (3 * (x - (2 * (~x + (x div 4)))))
1: (2 * (x - (5 * (~x + ((x div 5) mod 2)))))
1: (2 * (x - (2 * ((~2x + ~2) + (x mod 2)))))
1: (2 * (x - (3 * (~2x + (x mod 2)))))
1: (3 * (x - (3 * (~2x + (x mod 2)))))
1: (2 * (x - (2x * (~x + (x mod 2)))))
1: (2 * (x - (2 * (~2 + (x mod 4)))))
1: (2 * (x - (3 * (~x + (x mod 4)))))
1: (11 * (x - (9 * (~x + (x mod 10)))))
1: (~2x2 + 8x + ~4)
1: (48x2 + 70x)
1: (2 * (x - (2 * (~x + i))))
1: (2 * (x - (4 * (~x + i))))
1: (2x + ~32)
1: (3x + ~48)
1: (4x2 + 18x + ~20)
1: (2x3 + 11x2 + ~x + ~10)
1: (2x3 + ~7x2)
1: (2x3 + ~11x2)
1: (~5x2 + ~26x + ~24)
1: (~4x2 + ~14x + ~16)
1: (x2 + 28x)
1: (9x2 + ~13x + 4)
1: (11x2 + ~10x)
1: (29x2 + ~28x)
1: (12x2 + ~10x)
1: (6x3 + ~5x2)
1: (4x4 + ~10x3 + 9x2 + ~3x)
1: (4x4 + ~6x3 + 2x2 + 3x)
1: (8x2 + ~6x)
1: (12x2 + ~9x)
1: (4x3 + x2 + ~3x)
1: (2x4 + ~3x3 + 2x2)
1: (8x3 + x2 + ~7x)
1: (2 * (x - (4x * (1 - i))))
1: (5x3 + ~9x2)
1: (2x3 + ~6x2 + 6x)
1: (x4 + ~4x3 + 5x2)
1: (2x3 + ~15x2)
1: (125x + ~90)
1: (2 * (x - (4 * ((x div 9) - (x mod (x - ((x + ~1) mod 8)))))))
1: (2 * (x - (4 * (~2x + (x mod 2)))))
1: (2 * (x - (6 * (~x + (x mod 2)))))
1: (~2x3 + 17x2)
1: (~20x3 + ~3x2 + 17x)
1: 61x2
1: 58x
1: (16x2 + ~6x)
1: (24x2 + ~10x)
1: (2 * (x - (4 * (x - (2x * i)))))
1: (19x2 + ~18x)
1: (17x2 + ~16x)
1: (49x2 + ~48x)
1: ~30x
1: (~7x2 + ~7x)
1: ~22x
1: (~11x2 + ~11x)
1: (~8x3 + ~3x2 + 5x)
1: (~24x2 + ~34x)
1: (~10x3 + ~9x2 + x)
1: (15x3 + ~15x2 + 5x)
1: (~10x3 + 2x)
1: (2 * (x - (4 * ((x div 4) mod 2))))
1: (3 * (x - (2 * ((if (x mod 3) <= 0 then (5 * (if x <= 0 then 1 else 2)) else 1) * (2 - (x mod 2))))))
1: (~2x3 + ~3x2 + 2x)
1: (~4x3 + 4x2 + ~x)
1: (~36x2 + 9x)
1: (x4 + ~2x3 + 2x2 + ~x)
1: (x4 + ~x3 + x2)
1: (~4x3 + 2x)
1: (2 * (x - (2 * (2 div (~8 + (x div 2))))))
1: (2 * (x - (2 * ((2x + 1) div (3 + (x div 4))))))
1: (2 * (x - (2 * ((x + ((x2 div 2) div 15)) div 2))))
1: ((x - (2 * ((x + (if (x mod 3) <= 0 then 1 else 2)) div 4))) * (x div 3))
1: (2 * (x - (2 * ((x + 2) div ~7))))
1: (2 * (x - (2 * ((~2x + 1) div 3))))
1: (3 * (x - (2 * ((~2x + 1) div 3))))
1: (2 * (x - (2 * ((~x + 1) div 3))))
1: (5 * (x - (2 * ((~x + 2) div 4))))
1: (2 * (x - (5 * ((~x + 2) div 4))))
1: (2 * (x - (2 * ((~3x + 2) div 5))))
1: ((x + 1) * (x - (2 * ((x - (((x - (x div 5)) mod 3) div 2)) div 2))))
1: (3 * (x - (5 * ((~x2 + x) div 2))))
1: (5 * (x - (5 * ((~x2 + x) div 2))))
1: (7 * (x - (5 * ((~x2 + x) div 2))))
1: (3 * (x - (7 * ((~x2 + x) div 2))))
1: ((x + 2) * (x - (9 * ((~x2 + x) div 2))))
1: (2 * (x - (2 * ((4 * (x div 3)) div 3))))
1: ((x - (2 * (((x + 1) div 2) div 2))) * (1 + (2 * (x div 2))))
1: (2 * (x - (x * ((loop(\(x,i).2x,x,(~1 + ((2 * (1 + ((((x + 1) * (if (x mod 2) <= 0 then 1 else (2 * (1 + (8 * (x mod 2)))))) div 2) div 2))) mod 3))) mod (x + 1)) div 2))))
1: (2 * (x - (2 * ((x mod (2 + (6 mod (1 + (x div 2))))) div 2))))
1: (3 * (x - (2 * (x div (3 + ((x div 3) mod 3))))))
1: (3 * (x - (2 * (x div 7))))
1: (3 * (x - (3 * (x div ~2))))
1: (5 * (x - (3 * (x div ~2))))
1: ((x - (3 * (x div ~2))) * (1 + (x div 2)))
1: (2 * (x - (5 * (x div ~2))))
1: (5 * (x - (2 * (x div ~4))))
1: (2 * (x - (7 * (x div ~4))))
1: (2 * (x - (2 * (2 mod (~4x + 2)))))
1: (2 * (x - (2 * ((((x + ~1) div 2) div 2) mod 2))))
1: (2 * (x - (2 * ((x div 2) mod 2))))
1: ((x + 1) * (x - (2 * ((x div 2) mod 2))))
1: (5 * (x - (2 * ((x div 2) mod 5))))
1: (2 * (x - (3 * ((x div 3) mod 2))))
1: ((x + 1) * (x - (2 * ((((x2 div 4) mod (x + 1)) mod 3) mod 2))))
1: ((x + 1) * (x - (2 * (x mod 2))))
1: (2 * (x - (2 * (x mod 4))))
1: (2 * (x - (2 * (x mod (1 + ((3 * ((x + 1) div 2)) mod (1 + (x div 3))))))))
1: (2 * (x - (2 * (x mod ~3))))
1: (x * (x - (2 * (x mod ~3))))
1: (3 * (x - (3 * (i mod 2))))
1: (2 * (x - (2 * (if (~4 + (x div 2)) <= 0 then 0 else 2))))
1: (2 * (x - (3 * (if x <= 0 then 0 else 2))))
1: ((x + 1) * (x - ((x + 1) * loop(\(x,i).(~x2 + 1),2,4))))
1: ((x + 1) * (x - ((x + 1) * loop(\(x,i).(x * (~x + i)),2,4))))
1: (2 * (x - (2 * i)))
1: (3 * (x - (2 * i)))
1: ((x - (2 * i)) * (1 + (2 * i)))
1: (2 * (x - (1 div (~1 + (2 * (i mod 4))))))
1: (2 * (x - (1 div (x2 + ~3))))
1: (3 * (x - (2 div (x + ~16))))
1: (9 * (x - (2 div (x + ~16))))
1: (2 * (x - ((~x + 3) div 7)))
1: (2 * (x - ((~x + 4) div (2 + (x div 4)))))
1: (3 * (x - ((x2 + x + 1) div (2 + (x div 2)))))
1: (2 * (x - ((x2 + 1) div (x + 5))))
1: (2 * (x - ((x2 + 2) div ((x + 3) + (x div 2)))))
1: (2 * (x - ((1 + (x2 div 5)) div 2)))
1: (x * (x - ((1 + (((x * (x + (2 * (x mod 2)))) div 2) div 2)) div 2)))
1: (2 * (x - ((1 + (((x * ((1 + (x div 2)) div 2)) div 3) div 2)) div 2)))
1: (2 * (x - ((2 + (x div 2)) div 3)))
1: (2 * (x - ((x + (x div 2)) div ~5)))
1: (2 * (x - ((x + (x div 4)) div ~2)))
1: (5 * (x - ((x + (x div 4)) div ~2)))
1: (3 * (x - ((x + ((x + ~1) mod 3)) div 2)))
1: (2 * (x - ((1 + (x mod 4)) div 2)))
1: (2 * (x - ((1 + (if (x mod 3) <= 0 then 0 else x)) div 3)))
1: (2 * (x - ((x + 2) div (~9 + (x div 3)))))
1: (2 * (x - ((x + 2) div (~6 + (((x + ~1) div 2) div 2)))))
1: (2 * (x - ((x + i) div ~2)))
1: (2 * (x - ((0 - (if (~4 + (x div 2)) <= 0 then 1 else x)) div 5)))
1: (2 * (x - ((0 - loop(\(x,i).(x * i),x,1)) div (x + 2))))
1: (x * (x - (((~2x + 1) - (x2 div 3)) div 2)))
1: (3 * (x - ((~x2 + 1) div 5)))
1: (2 * (x - ((~x2 + 1) div (x + 4))))
1: (2 * (x - ((~x2 + 1) div 13)))
1: (2 * (x - ((1 - ((x + ((2 + loop(\(x,i).2x,(x + ~1),1)) div (x + 1))) div 2)) div 2)))
1: (2 * (x - ((1 - loop(\(x,i).(x2 + ~1),x,2)) div (x + 1))))
1: (3 * (x - ((~x + 1) div 3)))
1: ((x - ((~x + 1) div (2 + (x div 2)))) * (~1 + (x mod 3)))
1: (2 * (x - ((2 - (i mod 4)) div 2)))
1: ((x - ((~x + 2) div 2)) * (x - ((~x + 2) div 2)))
1: ((x - ((~x + 2) div 2)) * (x div 2))
1: (2 * (x - ((~x + 2) div (2 - (x mod ~4)))))
1: (2 * (x - ((2 - i) div 2)))
1: (2 * (x - (((x + ~1) + (x mod 2)) div 5)))
1: (2 * (x - (((~x + 1) - (x mod 2)) div 3)))
1: (2 * (x - (((~x + ~1) + (((x * ((~x + 2) div 2)) div 2) div 3)) div 3)))
1: (2 * (x - (((~x + ~1) + ((x div 4) mod 2)) div 3)))
1: (2 * (x - (((~x + ~2) + ((x div 4) mod 2)) div 3)))
1: (2 * (x - (((~x + ~2) + (x mod 2)) div 3)))
1: (2 * (x - (((~x + ~2) + (x mod 2)) div 5)))
1: (2 * (x - (((x + ~2) - (x2 div 4)) div 3)))
1: (2 * (x - (((x2 + ~2x) - ((x3 div 2) div 3)) div 2)))
1: (2 * (x - ((~1 + (x * (x div 2))) div (x + 3))))
1: (2 * (x - ((~1 + (2 * (x div ~4))) div 3)))
1: (2 * (x - ((2x + ~1) div 7)))
1: ((x + 1) * (x - ((~1 + ((x mod (1 + ((2 - (x mod 4)) mod (x + 1)))) div 2)) div 2)))
1: (2 * (x - ((~1 + (x div 2)) div 2)))
1: ((x + 2) * (x - ((~1 + (x div 2)) div 2)))
1: (2 * (x - ((~1 + (x div 2)) div 3)))
1: (2 * (x - (((x div 4) - (if x <= 0 then 1 else x)) div 2)))
1: (3 * (x - ((~1 + (x div ~2)) div 3)))
1: (2 * (x - ((~1 + (x div ~4)) div 2)))
1: (2 * (x - ((~x + ((x div 2) mod 2)) div 2)))
1: (2 * (x - ((~x + (x mod 2)) div 3)))
1: (2 * (x - (((~2x + ~4) + (x mod 6)) div 3)))
1: (x * (x - ((x - ((x * loop(\(x,i).(x3 + x),1,x4)) div 2)) div 2)))
1: (2 * (x - ((x - (x2 div 4)) div (2 + (x div 3)))))
1: (2 * (x - ((x - (4 mod (x + 1))) div 2)))
1: (2 * (x - ((x - ((x div 2) mod 4)) div 5)))
1: (2 * (x - ((~1 + i) div 2)))
1: (2 * (x - ((~x + i) div 2)))
1: (2 * (x - ((~2 * ((x + 1) + (x mod 2))) div 5)))
1: (3 * (x - ((2x + 2) div 7)))
1: (3 * (x - ((2x + 2) div ~5)))
1: (2 * (x - ((2x + 4) div (x + ~24))))
1: (2 * (x - ((~x2 + x) div ((x + 2) + (x div 3)))))
1: (3 * (x - ((~x2 + x) div ((x + 2) + (x div 3)))))
1: (2 * (x - ((~2x2 + 4x) div 5)))
1: (2 * (x - ((2 * ((~x + ~1) + (x mod 2))) div 5)))
1: (2 * (x - ((2x2 + ~x) div (x + 3))))
1: (2 * (x - ((2 * ((~2x + ~2) + ((2x + 1) div (1 + (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))))) div 3)))
1: (2 * (x - ((2 * (~2 + (x div 2))) div 5)))
1: (3 * (x - ((2 * (~x + (x div 5))) div 3)))
1: (2 * (x - ((3x + ~3) div (1 + i))))
1: (3 * (x - ((x2 + ~x) div 4)))
1: (2 * (x - ((2x + ~4) div 7)))
1: (3 * (x - ((x2 + ~2x) div (2x + 3))))
1: (2 * (x - ((2 * ((x + 1) - (((x - ((2 - ((x + 1) div (2 * (2 - ((x div 4) mod 2))))) div 2)) div 2) div 2))) div 3)))
1: ((x + 1) * (x - ((~7x3 + x2 + 6x) div 2)))
1: (2 * (x - ((~2x3 + 3x2 + ~x) div 3)))
1: (5 * (x - ((~2x3 + 3x2 + ~x) div 3)))
1: (2 * (x - ((~2x3 + 6x2 + ~4x) div 3)))
1: ((x + 2) * (x - (32 div (x + 1))))
1: (2 * (x - (~12x div (x + 2))))
1: ((x + 1) * (x - ((~x4 + x3) div 2)))
1: (2 * (x - ((4 * (x div 3)) div 3)))
1: ((x + 5) * (x - ((~x3 + x2) div 2)))
1: ((x + ~1) * (x - ((~x3 + x2) div 2)))
1: (x * (x - (x4 div (~1 + (x div ~2)))))
1: (2 * (x - (x3 div 2)))
1: (2 * (x - ((2 * ((2x + 1) div ~7)) div 3)))
1: (2 * (x - ((3 * (((1 + (x div 2)) div 2) div 2)) div 2)))
1: (3 * (x - ((~2 * (((x + ~1) div 2) div 2)) div 3)))
1: (2 * (x - ((2 * (x div 2)) div 3)))
1: (9 * (x - ((3 * (x div 4)) div 2)))
1: (2 * (x - ((2 * (x div ~2)) div 5)))
1: (7 * (x - (2x div 5)))
1: (2 * (x - (2x div 7)))
1: (2 * (x - (2x div (2 + (x mod (1 + (2 * (x mod (1 + (x div 8))))))))))
1: (2 * (x - (x2 div (3x + 4))))
1: (3 * (x - (x2 div ~2)))
1: ((x2 + 2x + 1) * (x - (x2 div ~2)))
1: (2 * (x - (((2 + (x * (x + (x div 2)))) div (x + 2)) div 2)))
1: (2 * (x - (((x + 1) div 2) div 3)))
1: ((x + 1) * (x - (((0 - loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1)) div 2) div 2)))
1: (2 * (x - (((x - ((x2 + ~x) div 8)) div 2) div 2)))
1: (3 * (x - (((x - (x2 div 3)) div 2) div 2)))
1: (2 * (x - (((x - (x2 div 3)) div 2) div 7)))
1: (5 * (x - (((~x3 + x) div 2) div 3)))
1: (x * (x - (((~x3 + x) div 4) div 3)))
1: (3 * (x - (((x * (1 - (x3 div 2))) div 2) div 2)))
1: (2 * (x - (((~x2 + x) div 2) div 3)))
1: ((x + 1) * (x - (((~x2 + x) div 2) div 3)))
1: (x * (x - (((x3 + ~x) div 2) div 3)))
1: (2 * (x - (((x2 + ~x) div 2) div 7)))
1: (2 * (x - (((x * (~1 + compr(\x.(1 - ((~x2 + x) mod 8)),(x + 1)))) div 2) div 3)))
1: (2 * (x - ((((~x2 + 4x + ~4) * (x div 3)) div 2) div 2)))
1: (2 * (x - ((((((x + ~1) div 2) div 2) * (x div 2)) div 2) div 2)))
1: (2 * (x - (((((x2 div 2) div 3) mod (x + 1)) div 2) div 2)))
1: (5 * (x - ((x div 2) div 3)))
1: (2 * (x - ((x div 4) div ~2)))
1: (2 * (x - ((x div 5) div ~2)))
1: (2 * (x - ((1 mod (~2x + 1)) div (x + 2))))
1: (2 * (x - (((2x + 1) mod (3 * (1 + (2 * ((x div 5) mod 2))))) div 2)))
1: (2 * (x - (((x + 2) mod (1 + (~x mod 4))) div 2)))
1: (2 * (x - (((2x + ~1) mod (1 + (x div 3))) div 2)))
1: (3 * (x - ((x mod 3) div 2)))
1: (2 * (x - ((x mod 8) div (1 + i))))
1: (3 * (x - ((if x <= 0 then 1 else x) div ~3)))
1: (2 * (x - ((if x <= 0 then 1 else x) div ~4)))
1: (3 * (x - ((if x <= 0 then 1 else x) div (~2 + ((~x + 2) div 4)))))
1: (2 * (x - (x div 4)))
1: (x * (x - (x div 4)))
1: (7 * (x - (x div 5)))
1: (3 * (x - (x div 9)))
1: (2 * (x - (x div 13)))
1: (2 * (x - (x div (2 + (i mod 2)))))
1: (2 * (x - (x div (2 + (if (~2 + (x div 4)) <= 0 then 1 else 2)))))
1: (3 * (x - (x div ~2)))
1: (5 * (x - (x div ~2)))
1: (7 * (x - (x div ~2)))
1: ((x + 2) * (x - (x div ~2)))
1: ((x - (x div ~2)) * (x div 3))
1: (2 * (x - (x div ~7)))
1: (x * (x - (x div ~3)))
1: (3 * (x - (x div ~4)))
1: ((x - (x div ~4)) * (2 - (x mod 2)))
1: (2 * (x - (x div (~5 + (x mod 2)))))
1: (3 * (x - (x div 11)))
1: (2 * (x - (x div ~9)))
1: (5 * (x - (x div ~9)))
1: ((2x + 1) * (x - (x div (~x + 16))))
1: (2 * (x - (x div (~2 + (x div ~2)))))
1: (3 * (x - (x div (~1 + (x div ~4)))))
1: (2 * (x - (x div 8)))
1: (7 * (x - (x div 8)))
1: (11 * (x - (x div 12)))
1: (3 * (x - (x div ~8)))
1: (2 * (x - (x div (2 * (1 + ((x div 2) div 3))))))
1: (2 * (x - (x div ~14)))
1: (3 * (x - (x div ~14)))
1: (5 * (x - (x div ~14)))
1: (2 * (x - (x div (if i <= 0 then 1 else (2 * i)))))
1: (2 * (x - (i div 2)))
1: (3 * (x - (i div ~2)))
1: (3 * (x - (1 mod (~2x + 3))))
1: (2 * (x - (1 mod (~4x + 1))))
1: (2 * (x - (1 mod (~8x + 2))))
1: (2 * (x - (2 mod (~2x + 3))))
1: ((x + 2) * (x - (2 mod (1 + (x div 4)))))
1: (2 * (x - (2 mod (~1 - (x div 5)))))
1: (2 * (x - (2 mod (~2x + 1))))
1: (2 * (x - (4 mod (1 + (x div 4)))))
1: (2 * (x - ((x + 1) mod 4)))
1: (2 * (x - ((x + 1) mod 13)))
1: ((x + 1) * (x - ((x + 1) mod 13)))
1: (2 * (x - ((x + 1) mod (1 + ((~x + 2) mod 4)))))
1: (2 * (x - ((x + 1) mod ~9)))
1: (2 * (x - (~2 mod (1 + (x div 5)))))
1: (3 * (x - ((x + ~1) mod 3)))
1: ((x - ((x + ~1) mod 3)) * (x div 3))
1: (2 * (x - (((x mod 3) * (x div 2)) mod 2)))
1: ((x + 1) * (x - (x2 mod 3)))
1: ((x - (x2 mod 3)) * ((x + 1) div 3))
1: (2 * (x - ((x2 div (4 + (x div 2))) mod 2)))
1: (2 * (x - ((x div 2) mod 2)))
1: (5 * (x - ((x div 2) mod 2)))
1: (x * (x - ((x div 2) mod 2)))
1: (x * (x - ((x div 4) mod 2)))
1: (2 * (x - ((x div (2 + i)) mod 2)))
1: (5 * (x - ((x div ~2) mod 2)))
1: (2 * (x - ((x div (~x + 16)) mod 2)))
1: (4 * (x - ((x mod 10) mod (if x <= 0 then 1 else x))))
1: (9 * (x - ((x mod 10) mod (if x <= 0 then 1 else x))))
1: (2 * (x - ((i mod 3) mod 2)))
1: (3 * (x - ((i mod 3) mod 2)))
1: (2 * (x - (loop(\(x,i).3x,x,3) mod (x + 1))))
1: ((x - (x mod 3)) * (1 + (x div 3)))
1: ((x - (x mod 3)) * (x div 3))
1: (2 * (x - (x mod 4)))
1: ((x - (x mod 5)) * (1 + (x div 5)))
1: (2 * (x - (x mod (3 + (x mod 2)))))
1: ((x + ~8) * (x - (x mod 9)))
1: ((x - (x mod 9)) * (x mod 2))
1: (3 * (x - (x mod 13)))
1: (2 * (x - (x mod (2 + (x mod 2)))))
1: (2 * (x - (x mod (~2 + ((x div 2) mod 2)))))
1: (3 * (x - (x mod 10)))
1: ((x - (x mod 10)) * (x mod 10))
1: (x * (x - (i mod 2)))
1: (3 * (x - (if (x + ~3) <= 0 then 2 else 1)))
1: (2 * (x - (if (x + ~4) <= 0 then 1 else 2)))
1: ((x - (if (x + ~6) <= 0 then 0 else 2)) * (x div 2))
1: (2 * (x - (if (~x + i) <= 0 then 1 else 0)))
1: (2 * (x - (if (16 mod (x + 1)) <= 0 then 0 else 1)))
1: (2 * (x - (if ((x div 2) mod 3) <= 0 then 0 else 2)))
1: (2 * (x - (if (x mod 3) <= 0 then (~x + ((x + ~1) div 3)) else 1)))
1: (3 * (x - (if (x mod 7) <= 0 then 0 else 1)))
1: ((x + 1) * (x - (if x <= 0 then 1 else (2 * (x - (1 div (x2 + ~3)))))))
1: ((x + 1) * (x - loop(\(x,i).(1 + ((2x2 + ~x) div (x + 3))),2,x)))
1: (3 * (x - loop(\(x,i).(~2x + 1),i,0)))
1: (2 * (x - loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,0)))
1: (3 * (x - loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,0)))
1: (2 * (x - loop(\(x,i).(x - (2 * (~x + i))),i,1)))
1: (2 * (x - loop(\(x,i).7x,i,2)))
1: (3 * (x - loop(\(x,i).(2x + 4),i,0)))
1: (x * (x - loop(\(x,i).x3,1,(3x + 2))))
1: (2 * (x - loop(\(x,i).2x,x,1)))
1: (2 * (x - loop(\(x,i).((~x2 + x) div 2),2,(x + ~1))))
1: (2 * (x - loop(\(x,i).((~x2 + x) div 2),2,x)))
1: (2 * (x - loop(\(x,i).i,loop(\(x,i).(x div (1 + (x mod 2))),x,x),x)))
1: (4 * (x - i))
1: ((x + 1) * (x - i))
1: ((x + ~2) * (x - i))
1: (x * (~2 + i))
1: (x * ((~x2 + ~1) + i))
1: (x * (~1 + (i + (2 * (i mod 2)))))
1: (x * (1 + i - (2 * (i mod 2))))
1: (x * (1 + i - (x mod 3)))
1: (4 * ((~x + 1) + i))
1: (x * ((4x + ~2) + i))
1: (x * (i - (2 * (1 - (2 * i)))))
1: (x * (i - (3 * (1 - (2 * i)))))
1: (x * (i - (4 * (1 - i))))
1: (x * (i - (2 * (2 - (3 * i)))))
1: (x * (i - (3 * (2 - (2 * i)))))
1: (x * (i - (8 * (1 + i))))
1: (x * (i - (4 * (1 - (2 * i)))))
1: (x * ((6x + ~6) + i))
1: (x * (i - (8 * (1 - i))))
1: (x * (i - ((2 - i) div 2)))
1: (x * (i - ((((x + (x mod 2)) mod 5) div 2) div 2)))
1: (x * (i - (x div 2)))
1: (x * (i - (x div (3 + i))))
1: (x * (i - (x div (if i <= 0 then 1 else i))))
1: (x * (i - (i div 3)))
1: (4 * (~x + i))
1: ((~x + i) * (~x + i))
1: ((~x + i) * i)
1: (2 * (~1 + compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(5x + ~2))),x)))
1: (2 * (~1 + compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(7x + ~3))),x)))
1: (x * (~1 + compr(\x.(1 - ((~x2 + x) mod 8)),(x + 1))))
1: ((x + 1) * (compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: (x * (~2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),i)))
1: (2 * (~1 + compr(\x.((x2 mod (4x + 9)) mod 2),(x + 1))))
1: ((x + 2) * (compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x) - compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)))
1: (x * (~2 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)))
1: (3 * (~2x + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: (2 * (~x + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: ((x + 1) * (~x + (compr(\x.(x mod ((x + 1) - (x mod 10))),x) + (x mod 10))))
1: (x * (~x + (compr(\x.(x mod ((x + 1) - (x mod 10))),x) + (x mod 10))))
1: (2 * (~x + compr(\x.loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,2x),(x + 1))))
1: (2 * (compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: (2 * (~1 + compr(\x.loop(\(x,i).(if x <= 0 then 1 else loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + ~1))),2,x),x)))
1: (6 * (~1 + i))
1: (6 * (x div 3))
1: (15 * i)
1: ((3x + 3) * i)
1: (3x2 * i)
1: (8x + ~8)
1: (8x + ~24)
1: (48x + 12)
1: (28x + 28)
1: (4x3 + 8x2 + 8x + 4)
1: ((4x + 4) * (1 + (x div 2)))
1: (36x + ~36)
1: (4 * ((~1 + i) * (1 - i)))
1: ((5x + 5) * (x div 2))
1: (5 * ((if x <= 0 then 1 else 2) * (1 + (if (x mod 2) <= 0 then 2 else 0))))
1: (5 * ((if x <= 0 then 1 else 2) * (if (x mod 2) <= 0 then 4 else 1)))
1: (5 * ((if x <= 0 then 1 else 2) * (if (x mod 2) <= 0 then 6 else 1)))
1: (5x * (if (x mod 2) <= 0 then 2 else 0))
1: (4 * ((2x + 3) + (2 * (x + (2 * ((x + 1) div (8 - ((x + 2) div 3))))))))
1: (4 * ((2x + 3) + (2 * (x div (1 + (x div (2 + (x div 5))))))))
1: (4 * ((5x + 3) + (x div 2)))
1: (x3 * (7 + (x mod 2)))
1: (2x2 + 14x)
1: (4 * ((x + 6) + (if x <= 0 then 0 else 1)))
1: (32x2 + 104x + 52)
1: ((x2 + x) * (3 + (((x2 + 2x) div 2) + (x div 2))))
1: (4 * ((x + 3) + ((((4x + 2) + loop(\(x,i).2x,((x + 2) + (x div 4)),2)) div 2) div 2)))
1: (6 * ((x + 3) + ((loop(\(x,i).(x2 + x),1,(18x + 8)) div 2) div 3)))
1: (6 * ((2x + 1) + (((x div 2) div 7) + (x div 2))))
1: (6 * ((x + 2) + ((x div 2) + (x div 4))))
1: (4 * ((2x + 2) + loop(\(x,i).(10x + 20),x,0)))
1: (6 * (5 + loop(\(x,i).2x,x,1)))
1: (6x + 30)
1: (2x2 + 12x + 10)
1: (2x2 + 10x)
1: (3x2 + 15x)
1: (x3 + 4x2 + ~5x)
1: (10x + 60)
1: (2x2 + 18x + 36)
1: (14x + 84)
1: (2x2 + 14x + 12)
1: (x3 + 15x2 + 74x + 120)
1: ((x2 + 7x + 6) * (2 + (if x <= 0 then 1 else x)))
1: (2x2 + 16x + 24)
1: (3x2 + 18x)
1: (x3 + 7x2 + 6x)
1: (10 * ((x + 4) + (if x <= 0 then 1 else 2)))
1: (x * ((5 + i) * i))
1: (x * ((6 + i) * i))
1: ((2x + 4) * ((4x + 3) - (x mod 2)))
1: (4x + 36)
1: (x3 + 13x2 + 40x + 36)
1: (8x + 80)
1: (10x + 100)
1: (3x2 + 33x + 30)
1: (x3 + 15x2 + 50x)
1: (4 * ((x + 1) + (3 * (3 + (if x <= 0 then 1 else 2)))))
1: ((2x + 2) * ((x2 + 5x + 7) + (x mod 2)))
1: (4 * ((x2 + 1) + ((~x + 3) * (x div 2))))
1: (4x * (3 + (x2 * (1 + (3 * ((x2 + 2) + (if x <= 0 then (3x + 7) else 1)))))))
1: (6 * (1 + ((2 * (x + (3 * (x div 2)))) + (x div 2))))
1: (6 * ((x + 1) + (5 * (1 + (x div 2)))))
1: (4 * ((x + 1) + (3 * (x + (x mod 2)))))
1: (4 * ((x + 1) + (5 * (x + (x mod 2)))))
1: (4x2 + 12x + 24)
1: (4x3 + 18x2 + 42x + 36)
1: (3x4 + 12x3 + 30x2 + 36x + 15)
1: (4 * ((x2 + 2x + 1) + (x2 div 3)))
1: (30x + ~84)
1: (3x2 + 57x + 102)
1: (x3 + 21x2 + 56x + 36)
1: (6x + 654)
1: (486x + ~138)
1: (4 * ((x + 1) + (4 * ((x - (x div 3)) div 3))))
1: (4 * ((x + 1) + (3 * ((1 + (x div 3)) div 3))))
1: (4 * ((x + 1) + (13 * ((x + 1) div 5))))
1: (6 * ((x + 1) + (3 * (x div 2))))
1: (6 * ((x + 1) + (2 * (x div 5))))
1: ((2x + 4) * ((x + 1) + (2 * ((if x <= 0 then 1 else x) mod 2))))
1: ((2x + 2) * (4 + (3 * (if (x + ~1) <= 0 then 1 else 16))))
1: (2x * ((x + 1) + (2 * loop(\(x,i).(2 * (1 + loop(\(x,i).(2x * (2 + i)),4x,1))),x,1))))
1: (6 * ((2x + 1) + (x div 3)))
1: (x4 + 5x2)
1: (6 * (3 + ((x + (x div 2)) div (4 + (x div 2)))))
1: (4 * ((2x + 1) + ((x + (x div 12)) div 2)))
1: (4 * ((x + 1) + ((x + (x div 12)) div 2)))
1: (4 * ((x + 2) + ((x + (x div 12)) div 2)))
1: (4 * ((x + 1) + ((x + ((1 + (x div 2)) mod 3)) div 4)))
1: (6 * (x + (((x + (x mod 2)) div 5) + (if x <= 0 then 1 else 2))))
1: (6 * ((x + 2) + ((x - ((3 * ((x div 2) div 3)) div 2)) div 2)))
1: ((x2 + 3x + 2) * ((4x + 3) + ((x2 + 3x) div 2)))
1: ((x2 + 5x + 6) * ((x2 + 2x + 2) + ((5x2 + 19x + 12) div 2)))
1: (6 * (2x + ((2 * (2 + loop(\(x,i).loop(\(x,i).((x + 1) * i),x,2),x,1))) div 3)))
1: (4 * ((x + 2) + ((4 * ((2x + 1) div 9)) div 3)))
1: (6 * ((x + 2) + (2x div 3)))
1: (6 * ((x + 1) + (x2 div 3)))
1: ((3x + 3) * ((x + 1) + (x2 div 4)))
1: (6 * (4 + (((1 + loop(\(x,i).x3,x,5)) div 3) div 2)))
1: (4 * (2 + (((x + 1) div (1 + (x mod (2 + (x div (1 + ((x div 2) mod (1 + (x mod (1 + ((~x + 2) mod 4))))))))))) div 3)))
1: (4 * (3 + ((loop(\(x,i).x2,1,(2 + loop(\(x,i).4x,x,2))) div 2) div 2)))
1: (4 * ((x + 6) + ((x div 2) div 5)))
1: (4 * ((x + 2) + (((x + ~1) mod (1 + (x div 2))) div 2)))
1: (8x * ((10x + 2) + (loop(\(x,i).x2,2,(3x + 2)) div 2)))
1: (3 * (((x + 1) + (x div 2)) * (x + (x mod 2))))
1: (6 * ((x + 2) + (x div 2)))
1: (2 * (((x + 2) + (x div 2)) * (x + (x div 2))))
1: ((3x + 3) * ((x + 2) + (x div 2)))
1: (3 * (((x + 2) + (x div 2)) * (1 - (2 * (x mod 2)))))
1: (3 * (((x + 2) + (x div 2)) * ((x + 1) div 2)))
1: (4 * (3x + (x div 2)))
1: (4 * ((x + 1) + (x div 4)))
1: (4 * (x + ((x div 5) + ((x + 1) div 5))))
1: (4 * ((x + 1) + (x div (6 - (x mod 2)))))
1: (4 * ((x + 2) + (x div (2 + ((x div 2) div 3)))))
1: (4 * ((x + 1) + (x div (2 + (if (~2 + (x div 4)) <= 0 then 1 else 2)))))
1: (4 * ((x + 1) + (x div (2 - (x div (~1 + ((~x + 2) div 4)))))))
1: (4 * ((x + 2) + (x div 8)))
1: (10 * ((x + 2) + (2 mod (1 + (x div 4)))))
1: ((2x + 4) * ((x + 1) + (2 mod (x + 1))))
1: ((2x + 4) * ((x + 1) + (4 mod (x + 2))))
1: (4 * (3 + ((x div 2) mod 2)))
1: ((x2 + 3x + 2) * (4 + ((x div 2) mod 2)))
1: (2 * ((x + (((x div (~4 - (x mod 4))) mod 2) + (x div 2))) * (1 + (x2 div 2))))
1: ((2x + ~2) * ((x + 2) + (loop(\(x,i).2x,x,1) mod 9)))
1: (14 * (4 + (x mod 2)))
1: (6 * ((2x + 1) + (x mod 2)))
1: ((2x + 6) * ((x + 2) + (x mod 2)))
1: ((2x + 2) * ((x + 2) + (if (~x + 2) <= 0 then x else 2)))
1: (4 * ((x + 4) + (if (~4 + (x div 2)) <= 0 then 1 else 2)))
1: (4 * (2x + (if (x + ~1) <= 0 then 1 else (2 * (if (x + ~2) <= 0 then x else 1)))))
1: ((x2 + x) * (3 + (if (x + ~1) <= 0 then x else 2x)))
1: ((2x + 4) * (3 + (if x <= 0 then 0 else 2)))
1: (4 * (9 + (if x <= 0 then 0 else (x + 2))))
1: (6 * (3 + loop(\(x,i).(2x + 16),x,1)))
1: (4 * (5 + loop(\(x,i).(2x + 40),x,1)))
1: ((3x + 3) * (3 + loop(\(x,i).(2x2 + x),3,x)))
1: (4 * (1 + (loop(\(x,i).10x,(x + 1),1) + loop(\(x,i).3x,x,1))))
1: ((3x + 9) * ((x + 1) + loop(\(x,i).x3,1,(4x + 4))))
1: (4 * ((x2 + x + 1) + loop(\(x,i).(x2 * i),2,3)))
1: (4 * (4 + loop(\(x,i).2x,x,1)))
1: (4 * (3 + loop(\(x,i).2x,x,(1 + (2 * (4 + loop(\(x,i).2x,x,1)))))))
1: (6 * (3 + loop(\(x,i).loop(\(x,i).(x2 + x),x,2),x,0)))
1: (3x2 + 18x + 27)
1: (16x2 + 80x + 96)
1: (7x2 + 7x + ~42)
1: (5x2 + 15x)
1: (2x3 + 9x2 + 9x)
1: (x3 + 3x2)
1: (10x + 40)
1: (4x2 + 26x + 40)
1: (9x + 36)
1: (x3 + 10x2 + 33x + 36)
1: (2x2 + 16x + 32)
1: (x3 + 6x2 + 9x + 4)
1: (11x2 + 55x + 44)
1: (3x2 + 18x + 24)
1: (x3 + 9x2 + 26x + 24)
1: (2x3 + 17x2 + 46x + 40)
1: ((x2 + 6x + 8) * loop(\(x,i).x2,2,(x + 1)))
1: (x3 + 9x2 + 20x)
1: (2x3 + 7x2 + ~4x)
1: (3x * (3 + i))
1: (2 * ((3 + i) * i))
1: ((3 + i) * i * (~1 + i))
1: (x * ((3 + i) * i))
1: (4x * (4 + i))
1: ((x2 + 4x) * (4 + i))
1: ((2x2 + x) * (4 + i))
1: (x * ((4 + i) * (1 + i)))
1: ((4 + i) * i * (1 + i))
1: (x * ((4 + i) * i))
1: (4 * (4 - (((x + ~1) div 2) div 2)))
1: (4 * (4 - (x div 5)))
1: (4 * (4 - ((x div 2) mod 2)))
1: ((2x + 2) * (3 - (x mod 2)))
1: ((9x + 9) * (3 - (x mod 2)))
1: (4 * (4 - (x mod 2)))
1: (6 * (4 - (x mod 4)))
1: (~2x2 + 8x)
1: (~2x3 + 12x2 + ~12x + 10)
1: (~4x2 + 20x)
1: (~x3 + 3x2 + 16x + 12)
1: (~2x2 + 12x)
1: (4 * ((x + 3) - (x div (~2 + (x div ~4)))))
1: (2x * ((x + ~1) + (3 * (1 + loop(\(x,i).loop(\(x,i).5x,x,1),(i - (x mod 3)),loop(\(x,i).5x,x,1))))))
1: (4 * ((2x + 1) - ((~x + ((~x + 2) div 4)) div 2)))
1: (6 * ((2x + 1) - ((x + ~2) div 3)))
1: (4 * ((2x + 1) - ((x - ((x div 2) mod 3)) div 3)))
1: (4 * ((2x + 1) - ((((x + 1) div 2) div 2) div 2)))
1: (4 * ((2x + 1) - ((x div 2) div 3)))
1: (10 * ((2x + 1) - (x div ~2)))
1: (4 * ((2x + 1) - ((x div 3) mod 3)))
1: (6 * (1 + (x div 2) - (((2 - (x div 2)) div 2) div 2)))
1: (9 * (1 + loop(\(x,i).3x,x,1) - loop(\(x,i).2x,x,2)))
1: (x5 + ~x4 + x3 + x2)
1: (4 * ((x + 2) - ((x - ((x - (x div 4)) mod 2)) div 3)))
1: (50 * (2x - (if (~2 + (x div 2)) <= 0 then (~1 + (x div 5)) else 1)))
1: (14x + 14)
1: (14x + 28)
1: (7 * ((if x <= 0 then 1 else 2) * (1 + (if (x mod 2) <= 0 then 2 else 0))))
1: (7x3 + 14x2 + 7x)
1: (7x * (1 + i))
1: 14x2
1: (7x * i)
1: ((2x + 2) * (6 + (if x <= 0 then 0 else 1)))
1: ((9x + 3) * (2 + (if x <= 0 then 1 else x)))
1: (24x3 + 26x2 + 9x + 1)
1: (9x3 + 15x2 + 7x + 1)
1: (33x2 + 44x + 11)
1: (42x + 28)
1: (54x + 36)
1: ((6x + 4) * (1 + (x mod 2)))
1: (27x2 + 27x + 6)
1: (75x + 50)
1: (3x3 + 17x2 + 22x + 8)
1: (3x3 + 11x2 + 12x + 4)
1: ((15x + 10) * (if x <= 0 then 1 else 2))
1: (3x4 + 2x3 + ~3x2 + ~2x)
1: (2x * (2 + (3 * i)))
1: (3x * (2 + (3 * i)))
1: (6x + 48)
1: (2x2 + 18x + 16)
1: (x3 + 15x2 + 68x + 96)
1: (x3 + 13x2 + 44x + 32)
1: (x3 + 15x2 + 56x)
1: (26x + 26)
1: (26x2 + 65x + 26)
1: 52x
1: 65x
1: (26x2 + ~13x)
1: (13 * (i * i))
1: (10x + 120)
1: (2x2 + 24x)
1: (8x2 + 26x + 20)
1: (4 * ((4x + 4) + ((x div 2) div 3)))
1: (10x2 + 28x + 16)
1: (2x * (1 + (4 * (1 + i))))
1: (x * ((1 + (4 * (1 + i))) * i))
1: (x * ((1 + (4 * (~1 + i))) * i))
1: (15x2 + 33x + 18)
1: (20x3 + 69x2 + 79x + 30)
1: (4 * ((5x + 5) + ((x div 2) div 3)))
1: (4 * ((5x + 5) + (x div 5)))
1: (5x4 + 16x3 + 18x2 + 8x + 1)
1: (10x2 + 2x)
1: (5x3 + 6x2 + x)
1: (30x + 12)
1: (10x2 + 14x + 4)
1: (5x3 + 17x2 + 16x + 4)
1: (10x2 + 4x)
1: (15x2 + 6x)
1: (40x3 + 69x2 + 32x + 3)
1: (15x2 + 9x)
1: (5x3 + 3x2)
1: (2x * (1 + (5 * i)))
1: (2x * (2 + (5 * i)))
1: (2x * (3 + (5 * i)))
1: (4x2 + 20x + 4)
1: (x4 + 4x3 + ~4x2 + ~x)
1: (x4 + 4x3 + ~3x2 + ~2x)
1: (2x3 + 27x2 + 91x)
1: (2x3 + 19x2 + 39x)
1: (2x3 + 12x2 + 4x)
1: (12x + 116)
1: (6x2 + 90x + 342)
1: (8x2 + 88x + 42)
1: ((4x + 2) * (1 + (2 * ((4x + 1) + (x mod 2)))))
1: (6 * (1 + (2 * ((x + 1) + (x div 2)))))
1: (6 * (1 + (2 * ((x + 2) + (x div 2)))))
1: (6 * (1 + (3 * ((x + 1) + (x div 4)))))
1: (4 * (1 + (2 * ((x + 8) + (x div 5)))))
1: (4 * (1 + (2 * ((2x + 1) + ((x div 4) mod 2)))))
1: (6x2 + 30x + 54)
1: (4x3 + 24x2 + 29x + 9)
1: (4x2 + 18x)
1: (2x3 + 11x2 + 9x)
1: (3x3 + 23x2 + 48x + 28)
1: (x5 + 8x4 + 23x3 + 31x2 + 20x + 5)
1: (2x3 + 14x2 + 30x + 20)
1: (x4 + 7x3 + 15x2 + 10x)
1: (x2 * (1 + (2 * (3 + i))))
1: ((2x + 3) * ((1 + (2 * ((2x + 2) - (x mod 2)))) * (1 + (x div 2))))
1: (3x4 + 8x3 + 9x2 + 4x)
1: (6x2 + 72x + 204)
1: (9x3 + 117x2 + 423x + 459)
1: (13x3 + 15x2)
1: (16x2 + 36x + 24)
1: (12x2 + 72x + 124)
1: (16x3 + 40x2 + 92x + 38)
1: (32x2 + 44x + 20)
1: (14x4 + 27x3 + 20x2 + 9x + 2)
1: (4 * (1 + (2 * (1 + (2 * (x + (x div 11)))))))
1: (4x4 + 12x3 + 7x2 + ~7x)
1: (5x4 + 20x3 + 31x2 + 28x + 12)
1: (4 * (1 + (2 * ((2x + 4) + (x div 2)))))
1: (36x2 + 48x + 6)
1: (12x2 + 16x + 12)
1: (4x3 + 12x2 + 18x + 10)
1: (8x2 + 16x + 36)
1: (4x3 + 12x2 + 26x + 18)
1: (~4x3 + 8x2 + 16x + 8)
1: (64x2 + 168x + 120)
1: (32x2 + 68x + 44)
1: (x8 + ~x7 + x5 + ~x4 + x3 + ~x)
1: (16x3 + 10x2 + 4x)
1: (24x2 + 52x + 36)
1: (14x3 + 12x2 + 6x)
1: (20x2 + 54x + 34)
1: (11x4 + 64x3 + 136x2 + 125x + 42)
1: (500x + 368)
1: (132x + 4)
1: (686x + 700)
1: (64x3 + 24x2 + 4x)
1: (80x2 + 8x + 4)
1: (120x2 + 12x + 6)
1: (16x2 + 20x + 8)
1: (12x3 + 15x2 + 6x)
1: (4x4 + 16x3 + 23x2 + 17x + 6)
1: (16x3 + 12x)
1: (4 * (1 + (2 * (2 + (3 * (if (x + ~1) <= 0 then 1 else 16))))))
1: (6 * (1 + (2 * (1 + (5 * loop(\(x,i).(2x + 4),x,3))))))
1: (14x2 + 6x)
1: (21x2 + 9x)
1: (2x4 + 11x3 + 25x2 + 28x + 12)
1: (14x3 + 21x2 + 14x + 7)
1: (2x4 + ~x3 + x2 + ~2x)
1: (4x3 + 6x)
1: (x5 + 2x3 + 9x2)
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1: (2x * (2 + ((x + ~1) * (4x + ((x2 + ~x) div 2)))))
1: (2x * (2 + (x * (2 + ((x8 + x3) div 2)))))
1: (4 * (1 + (2 * (2 + ((x div 2) div 5)))))
1: (6 * (x + (3 * (1 + (x div 2)))))
1: (6 * (x + (2 * (2 + (x div 4)))))
1: (6 * (2 + (3 * (x + (x div 4)))))
1: (4 * (1 + (2 * (x + (x div (2 - (x div (~1 + ((~x + 2) div 4)))))))))
1: (4 * (1 + (2 * (x + (x div 8)))))
1: (4 * (1 + (8 * (x + (x div 8)))))
1: (6 * (1 + (2 * (1 + (x mod 2)))))
1: (4 * (x2 + (3 * (x + (x mod 2)))))
1: (2x * (1 + (2 * (1 + (i mod 2)))))
1: ((3x + 3) * (1 + (3 * (2 + (if x <= 0 then 2 else 0)))))
1: (14 * (1 + (9 * (1 + loop(\(x,i).2x,x,4)))))
1: (4 * (1 + ((x + 1) * (2 + loop(\(x,i).x2,2,3)))))
1: ((4x + 6) * (1 + (x div 2)))
1: (4x2 + 10x + 6)
1: (4x2 + 14x + 12)
1: (8x2 + 12x)
1: (2x3 + 5x2 + 3x)
1: (6x2 + 6x + 6)
1: (6x5 + 15x4 + 20x3 + 15x2 + 6x + 1)
1: (2x3 + 6x2 + 6x + 4)
1: (5x3 + 15x2 + 15x + 10)
1: (x5 + 6x4 + 15x3 + 20x2 + 15x + 6)
1: (x4 + 3x3 + 3x2 + 2x)
1: (x4 + x3 + x2)
1: (4x2 + 4x + 8)
1: (6x2 + 6x + 12)
1: (5x4 + 10x3 + 20x2 + 15x + 10)
1: (4x2 + 4x + 16)
1: (6x2 + 6x + 30)
1: (8x3 + 36x2 + 46x + 15)
1: (4x2 + 10x)
1: (8x2 + 20x)
1: (4x3 + 24x2 + 35x)
1: (2x3 + 5x2)
1: (36x2 + 60x + 16)
1: (81x2 + 162x + 72)
1: (9x3 + 27x2 + 26x + 8)
1: (9x3 + 33x2 + 40x + 16)
1: (9x2 + 12x)
1: (3x3 + 7x2 + 4x)
1: (3x3 + x2 + ~4x)
1: (3x3 + 7x2)
1: (2x3 + 6x2 + 6x)
1: (3x3 + 9x2 + 12x)
1: (2x4 + 7x3 + 13x2 + 5x)
1: (4x2 + 12x + 40)
1: (4x2 + 16x + 24)
1: (2x3 + 12x2 + 28x + 24)
1: (x4 + 4x3 + 6x2)
1: (x4 + 5x3 + 11x2 + 7x)
1: (5x3 + 30x2 + 90x + 100)
1: (18x3 + 63x2 + 72x + 27)
1: (3x3 + 9x2 + 9x + 3)
1: (9x2 + 18x + 18)
1: (5x4 + 20x3 + 35x2 + 30x + 10)
1: ((x3 + 3x2 + 4x + 2) * (2 + (x mod 2)))
1: (2x4 + 7x3 + 11x2 + 8x + 2)
1: (x5 + 5x4 + 11x3 + 14x2 + 10x + 4)
1: (x4 + 5x3 + 10x2 + 10x + 4)
1: (2x3 + 4x2 + 4x)
1: (3x3 + 9x2 + 15x + 9)
1: (2x3 + 6x2 + 12x + 8)
1: ((x2 + ~3x + 2) * ((x2 + 2x) + (x mod 2)))
1: (3x * (1 + (2 * (1 + i))))
1: (x * ((1 + (2 * (1 + i))) * (~1 + (2 * i))))
1: (6 * (2 + (x * (1 + i))))
1: (2x * (1 + (2 * (2 + i))))
1: (x2 * ((2 * (2 + i)) + i))
1: (x * (((2 * (2 + i)) + i) * i))
1: (4 * (1 + ((x + 2) * (x + i))))
1: (10 * (1 + (2 * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))))
1: (~12x2 + ~9x + 30)
1: (12x2 + ~27x + 15)
1: (~28x2 + 35x)
1: (6 * (2 + (2 * (2 - (2 div (1 + (x div 4)))))))
1: (4 * (1 + (2 * (2 - ((x div 4) mod 2)))))
1: (2 * ((1 + (3 * (2 - (x mod 4)))) * (if x <= 0 then 1 else 2)))
1: (~6x2 + 12x + 6)
1: (8x2 + 56x + 140)
1: (x6 + 6x5 + 9x4 + x3 + ~x2 + 2x)
1: (32x2 + 60x + 36)
1: (12x4 + 68x3 + 135x2 + 109x + 30)
1: (4 * (1 + (2 * (2x - (x div 3)))))
1: (4 * (1 + (2 * (2x - ((x div 4) mod 2)))))
1: (4 * (2 + (16 * (2x - (x mod 2)))))
1: (x5 + ~x3 + 2x2)
1: (12x2 + ~20)
1: (4 * (1 + (2 * (~1 + ((3 * compr(\x.(1 - (x mod (2 + ((1 + ((x - ((x div 2) mod 2)) div 2)) mod 5)))),x)) div 2)))))
1: (4 * (1 + (2 * (~2 + (x mod 2)))))
1: (4 * (1 + (2 * (~2 + loop(\(x,i).(2x + ((x + (x2 div 3)) div 2)),x,2)))))
1: (4x2 + ~4x + 4)
1: (x4 + 4x3 + ~3x2 + 10x)
1: (4x2 + ~16x + 20)
1: (4 * (1 + (2 * (0 - ((2 * (x + (if (x + ~4) <= 0 then 1 else x))) div (x + 2))))))
1: (54x2 + ~78x + 36)
1: (6 * (1 + (3 * (x - (9 * ((~x2 + x) div 2))))))
1: (4 * (1 + (2 * (x - (3 * (x div ~2))))))
1: (4 * (1 + (2 * (x - ((0 - ((x - (((x + 1) div 2) mod 6)) div 2)) div 2)))))
1: (6 * (2 + (3 * (x - ((~x + 2) div 4)))))
1: (4 * (1 + (2 * (x - (((x - ((x2 + ~x) div 8)) div 2) div 2)))))
1: (4 * (1 + (2 * (x - ((x div 2) div ~2)))))
1: (6 * (1 + (2 * (x - ((x div 2) div ~2)))))
1: (4 * (1 + (x * (x - (x div ~2)))))
1: (6 * (1 + (3 * (x - (x div ~4)))))
1: 57x
1: (18x3 + 29x2 + 12x + 1)
1: (18x2 + 2x)
1: (27x2 + 3x)
1: (60x + 8)
1: 102
1: (34x + 34)
1: ((17x + 17) * (x mod 7))
1: (17 * ((if x <= 0 then 1 else 2) * (1 + (x mod 2))))
1: 51x
1: 85x
1: (10x + 160)
1: (6x2 + 99x + 48)
1: (3x2 + 51x + 48)
1: (x3 + 27x2 + 74x + 48)
1: (41x2 + 41x)
1: 41x2
1: (16x2 + 34x + 18)
1: (54x2 + 66x + 16)
1: ((1 + (8 * (~1 + i))) * i * i)
1: (16x2 + 32x + 20)
1: (6x + 120)
1: (250x + 260)
1: (100x + 4)
1: (2x4 + 16x3 + 43x2 + 47x + 18)
1: (2x4 + 12x3 + 19x2 + 9x)
1: (420x + 300)
1: (6x4 + 34x3 + 69x2 + 59x + 18)
1: (12x4 + 14x3 + 6x2 + x)
1: (16x3 + 84x2 + 146x + 84)
1: (10x4 + 58x3 + 121x2 + 107x + 34)
1: (32x2 + 112x + 68)
1: (x9 + x5 + 2x3)
1: (x9 + x8 + x7 + x6 + x5 + x4 + x3 + x2 + x)
1: (144x2 + 162x + 45)
1: (24x2 + 39x + 15)
1: (45x2 + 65x + 20)
1: (~x6 + x5 + x4 + x3 + x2 + x + 2)
1: (18 * (1 + (2 * ((1 + ((x * (x div 3)) mod (1 + ((2 - (x div 2)) mod 4)))) * (x mod 2)))))
1: (24x + 28)
1: (4 * ((6x + 6) + (x div 4)))
1: (14x2 + 26x + 12)
1: (~7x3 + x2 + 6x)
1: (11x3 + 21x2 + 10x)
1: (4x4 + 18x3 + 29x2 + 21x + 6)
1: (4x3 + 12x2 + 14x + 6)
1: (6x3 + 12x2 + 8x + 2)
1: (6x4 + 15x3 + 14x2 + 6x + 1)
1: (9x3 + 18x2 + 12x + 3)
1: (9x3 + 9x2 + 3x)
1: (3x4 + 6x3 + 5x2 + 2x)
1: (5x4 + 5x3 + 2x2)
1: (8x3 + 38x2 + 57x + 27)
1: (8x2 + 18x)
1: (4x3 + 9x2)
1: (50x + 80)
1: (10x2 + 36x + 32)
1: (24x + 56)
1: (12x2 + 60x + 78)
1: (4x3 + 28x2 + 66x + 52)
1: (4x4 + 22x3 + 43x2 + 35x + 10)
1: (8x2 + 28x + 16)
1: (12x2 + 48x + 52)
1: (x5 + 10x4 + 40x3 + 77x2 + 70x + 24)
1: (8x2 + 16x + 4)
1: (20x2 + 40x + 10)
1: (5x4 + 20x3 + 22x2 + 4x)
1: (10x3 + 40x2 + 40x + 10)
1: (4 * (1 + ((x2 + 2x) * (2 + i))))
1: (2x5 + 14x4 + 36x3 + 41x2 + 19x + 2)
1: (4 * (1 + ((3x + 6) * (x + i))))
1: (6 * (1 + (4 * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))))
1: (2x5 + x4 + ~x3 + 2x2 + 2x)
1: (4 * (1 + (4 * (loop(\(x,i).3x,x,2) - loop(\(x,i).2x,x,2)))))
1: (5x5 + ~3x3 + 2x2)
1: (66x2 + 132x + 66)
1: 66x2
1: (98x + 98)
1: (49x2 + 147x + 98)
1: 98x
1: 49x2
1: (~73x2 + 73x)
1: 73x2
1: (48x2 + 146x + 100)
1: (250x + 240)
1: (24x3 + 72x2 + 75x + 27)
1: (36x2 + 74x + 38)
1: (48x2 + 96x + 4)
1: (686x + 672)
1: (4 * (1 + (36 * (1 + ((x + 1) * (1 + loop(\(x,i).(x * (x + i)),2,4)))))))
1: ((32x2 + ~31x + ~1) * ((x + ~1) div 3))
1: (64x2 + 2x)
1: (32x2 + 32x + 4)
1: (24x4 + 60x3 + 50x2 + 15x + 1)
1: (64x2 + 4)
1: (9x7 + 2x2)
1: (16x2 + 2x)
1: (32x2 + 4x)
1: (40x2 + 5x)
1: (36x2 + 36x + 6)
1: (100x2 + 10)
1: (6 * (8x2 + (x mod 3)))
1: (48x2 + 4)
1: (3x6 + 3x)
1: (2x7 + x6 + 2x2 + x)
1: (2 * ((1 + (8 * i)) * i))
1: (x2 * (1 + (4 * (x2 div 2))))
1: (6 * (1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (2 * ((x div 2) mod 2))) * (x div 4))))
1: (2 * ((1 + (4 * (x mod 2))) * (1 + (x mod 3))))
1: (x3 * (1 + (x3 * (x mod 2))))
1: (6 * (1 + (6 * (if (~2 + (x div 2)) <= 0 then x else (x + 1)))))
1: ((3x + 3) * (1 + (4 * loop(\(x,i).(2 * (2 + ((if x <= 0 then 2 else (~2 + loop(\(x,i).4x,(x + 1),2))) div 2))),x,2))))
1: (72x + 18)
1: (64x2 + 24x + 2)
1: (8x2 + 10x + 2)
1: (32x3 + 32x2 + 10x + 1)
1: (12x2 + 27x + 6)
1: (16x2 + 4x)
1: (120x2 + 32x + 2)
1: (24x2 + 16x + 2)
1: (12x2 + 2x)
1: (18x2 + 3x)
1: (24x2 + 20x + 4)
1: (12x2 + 12x + 6)
1: (2x4 + 6x3 + 5x2 + 3x + 2)
1: (8x3 + 4x)
1: (2x5 + x3)
1: (2x4 + x2)
1: (2x * (2x2 + (x div 2)))
1: (6x4 + 11x3 + 6x2 + x)
1: (9x3 + 3x2)
1: (8x3 + 2x)
1: (16x3 + 4x)
1: (x5 + ~x4 + x2)
1: (x5 + ~3x4 + 2x3 + x2 + ~x)
1: (4x4 + 8)
1: (2x5 + 4x)
1: (4x3 + 4)
1: (6x3 + 6)
1: (x7 + ~x6 + x4 + ~x3)
1: (2x4 + 4x)
1: (x5 + 2x2)
1: (2x * (1 + (4 * i)))
1: (x * ((1 + (4 * i)) * i))
1: (4 * (1 + (x2 * i)))
1: (x * ((1 + (i * i * i)) * i))
1: (4 * (1 + (4 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(8x + ~1))),x))))
1: ((x2 + 3x + 2) * (1 + (5 * ((3x2 + 5x + 2) div 2))))
1: ((x2 + 3x + 2) * (1 + (3 * ((3x2 + 7x + 4) div 2))))
1: (6 * (1 + (2 * ((3 * (1 + ((4 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2)) div 3))) div 2))))
1: ((x2 + x) * (1 + (7 * ((x2 + x) div 2))))
1: ((x3 + 4x2 + 5x + 2) * (1 + (5 * ((x2 + 3x + 2) div 2))))
1: ((x2 + 3x + 2) * (1 + (5 * ((x2 + 3x + 2) div 2))))
1: (4 * (x + (2 * ((3 * (x div 7)) div 2))))
1: (6 * (x + (3 * (2x div (if i <= 0 then 1 else i)))))
1: (4 * (1 + (2 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))))
1: (4 * (1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 3) - (x mod (2 - ((x div 2) mod 2)))))))
1: (6 * (1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + ((x + 1) div (2 + (x mod 5)))))))
1: (6 * (1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div (1 + (x mod 5)))))))
1: (6 * (1 + (2 * (x div 2))))
1: (2x * (2 + ((x + 2) * (x div 2))))
1: (6 * (x + (2 * (x div 3))))
1: (4 * (1 + (2 * (x div 4))))
1: (6 * (x + (4 * (x div (if i <= 0 then 1 else i)))))
1: (6 * (1 + (2 * ((~x + 2) mod 4))))
1: (3 * ((1 + (2 * ((~x + 2) mod 4))) * (if x <= 0 then 1 else 2)))
1: ((2x + 2) * (1 + (2 * (((x mod (~2 + ((~x + 2) div 4))) div 2) mod 2))))
1: (10 * (1 + (2 * (x mod 2))))
1: (10 * (x + (2 * (x mod 2))))
1: ((3x + 3) * (x + (2 * (x mod 2))))
1: ((3x2 + x) * (1 + (x * (x mod 2))))
1: (3x * (1 + (2 * (x mod 6))))
1: (2x * (2 + (3 * (x mod 6))))
1: (2x * (1 + (2 * (i mod 2))))
1: ((7x + 7) * (1 + (3 * (if (~2 + (x div 2)) <= 0 then 0 else 2))))
1: (x * ((1 + (2 * (if (x mod 5) <= 0 then 0 else 2))) * (1 + (x mod 2))))
1: (x * ((1 + (2 * (if (x mod 5) <= 0 then 0 else 2))) * (2 - (x mod 2))))
1: (10 * (2 + ((x + 1) * loop(\(x,i).(x2 + 2x + 1),2,2))))
1: (4 * (1 + (x * loop(\(x,i).(~x + 2),x,(x + 3)))))
1: (6 * (1 + (2 * loop(\(x,i).((4x * i) - (x mod 2)),x,1))))
1: (10 * (1 + (2 * loop(\(x,i).(2x + 16),x,1))))
1: (4 * (1 + (3 * loop(\(x,i).(2x + 16),x,13))))
1: (6 * (x + ((x + 1) * loop(\(x,i).(x * (x + i)),2,4))))
1: (6 * (2 + (3 * loop(\(x,i).2x,x,2))))
1: (18 * (1 + ((x + 1) * loop(\(x,i).x2,2,3))))
1: (30x + 15)
1: (50x + 25)
1: (8x3 + 14x2 + 7x + 1)
1: (4x3 + 8x2 + 5x + 1)
1: ((6x + 3) * (2 + i))
1: (14x2 + 7x)
1: (18x2 + 9x)
1: (8x3 + 6x2 + x)
1: ((4x + 2) * i)
1: (4x2 + 4)
1: (6x2 + 6)
1: (10x2 + 10)
1: (9x2 + 9)
1: (x4 + ~x3 + ~x2 + ~x + ~2)
1: ((2x2 + 2) * (if x <= 0 then 1 else 2))
1: (3x3 + 3x)
1: (x5 + 4x3 + 3x)
1: (3x3 + 6x)
1: (4x3 + 8x)
1: (x4 + ~x3 + 2x2 + ~2x)
1: (2x4 + 4x2)
1: (6x2 + 18)
1: (x4 + x3 + 3x2 + 3x)
1: (4x2 + 16)
1: (6x2 + 24)
1: (2x3 + 2x2 + 8x + 8)
1: ((x3 + x) * ((x2 + 2) + i))
1: (3x * (x2 + (x mod 2)))
1: (6 * (x2 + i))
1: (3x * (1 + (2 * i)))
1: (x * ((1 + (2 * i)) * (3 + i)))
1: ((2x2 + ~x) * (1 + (2 * i)))
1: (x * ((1 + (2 * i)) * (x div 2)))
1: (2 * ((1 + (2 * i)) * i))
1: (5 * ((1 + (2 * i)) * i))
1: ((1 + (2 * i)) * i * i)
1: (5 * ((1 + (i * i)) * i))
1: (7 * ((1 + (i * i)) * i))
1: ((2 + (i * i)) * i * i)
1: (x2 * ((x + ~1) + (i * i)))
1: (6 * (1 + (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(9x + 1))),x))))
1: (4 * (1 + (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(8x + 1))),x))))
1: (4 * (1 + (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(4x + 1))),x))))
1: (6 * (1 + (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(6x + 1))),x))))
1: (6 * (1 + (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(6x + 2))),x))))
1: (4 * (1 + (4 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,8x)),x))))
1: (4 * (1 + (2 * compr(\x.loop(\(x,i).(2 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(4x + ~1))),1,(2x + 1)),x))))
1: (4 * (1 + (2 * compr(\x.loop(\(x,i).loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,0),2,x),(x + 1)))))
1: (10 * (1 + (2 * compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(10x + 4)),x))))
1: (4 * (1 + (2 * compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(8x + 2)),x))))
1: (6 * (1 + (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) + (if (x + ~2) <= 0 then 1 else 2) + (x div 5)) div 2)))
1: (4 * ((2x + 2) + (((x + 1) + (x div 4)) div 2)))
1: (4 * ((2x + 2) + (((x + 1) + (x div 8)) div 2)))
1: ((2x + 2) * (2 + ((x2 + 4x + 5) div 2)))
1: (2 * ((x + ((x + (4 * ((x + 1) + (5 * (x + (x mod 2)))))) div 2)) * ((x + 1) div 2)))
1: ((3x + 3) * (1 + ((9x2 + 9x + 1) div (1 + (x mod 2)))))
1: (6 * (1 + ((1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (2 * (x mod (2 * (2 + (x div 5)))))))) div 2)))
1: (2 * ((1 + ((x + (2 * (x mod 2))) div 5)) * (x mod 2)))
1: (6 * (1 + ((x2 + 2) div 3)))
1: ((2x + 2) * (1 + ((1 + ((1 + ((1 + loop(\(x,i).((x + 2) + (x div 2)),(x div 2),(x mod 2))) div 2)) div 2)) div 2)))
1: (4 * (1 + ((1 + ((x + ((2x * (x div 2)) div 5)) div 2)) div 2)))
1: (2x * (1 + ((1 + ((1 + ((x * loop(\(x,i).(2 * ((x + 1) + (x div 2))),x,1)) div 2)) div 2)) div 2)))
1: (6 * (1 + ((1 + ((1 + ((((x + 1) * (0 + (((2 * (1 + ((1 + (x div (1 + (x mod (1 + (loop(\(x,i).2x,x,2) mod (2x + 1))))))) div 2))) div 3) + (x mod 2)))) div 2) div 2)) div 2)) div 2)))
1: (6 * (1 + ((1 + (((2 * (1 + (x div (4 * (2 + (x mod 4)))))) - (x mod 3)) div 2)) div 2)))
1: (6 * (2 + ((1 + (((x + 1) * (1 + (2 * (37 div (x + 1))))) div 2)) div 2)))
1: (6 * (1 + ((1 + (((1 + (x mod (1 + ((~x + 2) mod 4)))) * (x div 2)) div 2)) div 2)))
1: (4 * (2 + ((1 + ((19x2 + 19x) div 2)) div 2)))
1: (6 * (1 + ((1 + (((1 + (((x + 1) * (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))))) div 2)) div 2) div 2)) div 2)))
1: (6 * (1 + ((1 + (((~1 + (6 * (1 + (((~1 + (6 * (1 + ((1 + (((1 + (((x + 1) * (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))))) div 2)) div 2) div 2)) div 2)))) div 2) div 2)))) div 2) div 2)) div 2)))
1: (6 * (1 + ((1 + (((3 * (1 + (loop(\(x,i).3x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 3))) div 2) div 2)) div 2)))
1: (4 * (1 + ((x + (((2x3 + 5x2 + 2x) div 2) div 3)) div 2)))
1: (6 * (1 + ((1 + (((loop(\(x,i).11x,x,(1 + (x mod 2))) div 2) div 2) div 2)) div 2)))
1: (4 * (1 + ((1 + ((loop(\(x,i).(x - (2 * (~x + (x div 3)))),x,1) div 2) div 2)) div 2)))
1: (4 * (1 + ((x + ((x div 2) div 5)) div 2)))
1: (4 * (2 + (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) + (2 * ((2x + 1) div (3 + (x div 4))))) div 2)))
1: (6 * (1 + ((1 + ((loop(\(x,i).2x,x,2) mod (x + 1)) div 2)) div 2)))
1: (6 * (1 + ((1 + ((x mod (1 + (x div (if (x mod 2) <= 0 then 4 else 1)))) div 2)) div 2)))
1: (4 * (1 + ((1 + (x div 2)) div 2)))
1: (5 * ((1 + ((1 + (x div 2)) div 3)) * (if x <= 0 then 1 else 2)))
1: (6 * (1 + ((1 + (x div (3 + ((x mod (1 + (x div (2 + ((x + 1) mod 5))))) div 2)))) div (1 + (x div 4)))))
1: (6 * (1 + ((1 + (x div (1 + (x mod (1 + (x mod (1 + (x div (2 * (2 - (x mod 2))))))))))) div 2)))
1: (6 * (1 + ((2 + ((~3x + 5) mod (1 + (x div 2)))) div 3)))
1: (6 * (1 + ((1 + (x mod (1 + (2 * ((x + 2) mod (2 * (1 + (x mod 2)))))))) div 3)))
1: (6 * (1 + ((1 + (x mod (1 + (2 * (if (16 mod (x + 1)) <= 0 then 1 else 2))))) div 3)))
1: (6 * (1 + ((1 + (x mod (1 + (((x mod 5) * (x div 4)) div 2)))) div 2)))
1: (6 * (1 + ((1 + (x mod (2 + ((1 + ((if ((x * (x mod 3)) mod 5) <= 0 then 1 else 2) * (1 + (x mod 2)))) mod (x + 1))))) div 3)))
1: (4 * (1 + ((x + (if (~2 + (x div 2)) <= 0 then 1 else 0)) div 2)))
1: (6 * (1 + ((1 + (if ((x + 1) mod (3 - (x mod 2))) <= 0 then x else 1)) div 2)))
1: (x2 * (x + ((x + loop(\(x,i).x3,2,x)) div 2)))
1: (4 * (1 + ((x + 1) div 3)))
1: (4 * (1 + ((x + 1) div (2 + (x div 8)))))
1: (x2 * (1 + ((x + 2) div 3)))
1: (4 * (1 + ((x + 2) div (1 + (if (x mod 6) <= 0 then 2 else (x mod 2))))))
1: (4 * (2 + ((x - ((x div 2) div 3)) div 2)))
1: (6 * (x + (5x div (if i <= 0 then 1 else i))))
1: (6 * (1 + ((2 * (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) + ((2x + 1) div (3 + (x div 4)))))) div 3)))
1: ((2x + 6) * (2 + ((x2 + 6x + 8) div 2)))
1: (6 * (x + (7x div (if i <= 0 then 1 else i))))
1: (6 * (1 + ((2 * (2 + ((1 + (2 * (loop(\(x,i).(x * (~1 + (2 * i))),x,~2) mod (x + 1)))) * (x mod 2)))) div 3)))
1: (6 * (1 + ((2 * (1 + (2 * (x + (x div 8))))) div 3)))
1: (4 * (1 + (((x + 1) * (1 + ((x + 1) * loop(\(x,i).x2,2,3)))) div 3)))
1: ((2x + 2) * (2 + ((4x + 2) div 5)))
1: (x2 * (1 + ((x3 + 2x) div 3)))
1: (4 * (1 + ((3 * (x + ((x + (x2 mod 3)) div 4))) div 2)))
1: (4 * (1 + ((2 * (1 + ((2 * loop(\(x,i).(3x + 4),x,(x + 2))) div 3))) div 3)))
1: (4 * (1 + ((4 * (x + ((x div 2) div 3))) div 3)))
1: ((x2 + 3x + 2) * (2 + ((x2 + x) div 2)))
1: ((2x + 2) * (2 + ((x2 + 4x + 4) div 2)))
1: (4 * (1 + ((x2 + 2x) div ((x + 4) + (x div 2)))))
1: (4 * (1 + ((3x2 + ~2x) div 2)))
1: ((x2 + ~x) * (2 + ((x2 + ~x) div 2)))
1: (x2 * (2 + ((x2 + ~x) div 2)))
1: ((x2 + ~2x + 1) * (2 + ((x2 + ~x) div 5)))
1: (6 * (2 + ((3 * ((x + 1) - ((x div 2) mod 2))) div 2)))
1: (6 * (x + (10x div (if i <= 0 then 1 else i))))
1: (4 * (1 + ((12x + 116) div 7)))
1: ((3x + 3) * (1 + ((3x2 + 6x) div 4)))
1: ((4x + 2) * (x + ((x3 + 3x2 + 2x) div 3)))
1: (4 * (1 + ((8 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2)) div 3)))
1: (6 * (x + (8x div (1 + i))))
1: (6 * (x + (8x div (if i <= 0 then 1 else i))))
1: (4 * (2 + (4x2 div (x + 1))))
1: (6 * (x + (x3 div 8)))
1: (4 * (1 + ((2 * ((x + ((x div 2) mod 2)) div 2)) div 3)))
1: (6 * (1 + ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (3 + (x div (1 + (x mod 5))))) div 2)))
1: (6 * (1 + (((3x + ~6) * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) div 2)))
1: (6 * (1 + ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (x div (2 - ((x div 2) mod 2)))) div 2)))
1: (4x * (1 + (x2 div 2)))
1: ((x + ((x * i) div (1 + i))) * i * (~1 + i))
1: ((2x + 2) * (1 + (((1 + (((x + 1) * (1 + ((x + (x mod 4)) * (1 + (x div 4))))) div 2)) div 2) div 2)))
1: (4 * (1 + (((1 + (((2x + 1) * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2)) div 2) div 2)))
1: (4 * (1 + (((1 + (((1 + (((x + 1) * (1 + (2 * (x - (x mod 10))))) div 2)) div 2) div 2)) div 2) div 2)))
1: (10 * (2 + (((x + 1) div 2) div 2)))
1: (6 * (1 + (((~1 + (6 * (1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div (1 + (x mod 5)))))))) div 2) div 2)))
1: (6 * (1 + (((~1 + (6 * (1 + ((1 + (((1 + (((x + 1) * (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))))) div 2)) div 2) div 2)) div 2)))) div 2) div 2)))
1: (6 * (1 + (((~1 + (6 * (1 + ((1 + ((loop(\(x,i).2x,x,2) mod (x + 1)) div 2)) div 2)))) div 2) div 2)))
1: (6 * (1 + (((~1 + (6 * (1 + ((1 + (if ((x + 1) mod (3 - (x mod 2))) <= 0 then x else 1)) div 2)))) div 2) div 2)))
1: (6 * (1 + (((~1 + (6 * (1 + ((loop(\(x,i).(8x + 10),x,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2) div 3)))) div 2) div 2)))
1: (6 * (x + ((((x + 1) - (2 * (~x + (x mod 10)))) div 2) div 2)))
1: (6 * (1 + (((3 * (1 + ((((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (4 * (1 + ((1 + (x div 2)) div 2))))) div 2) div 2))) div 2) div 2)))
1: (4 * (1 + ((((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) * (1 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))) div 2) div 2)))
1: (4 * (1 + (((2x3 + 9x2 + 11x + 2) div 2) div 3)))
1: (6 * (1 + (((3 * ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (2 + (x div (1 + (2 * (1 + (2 * ((x div 2) mod 2))))))))) div 2) div 2)))
1: (4 * (1 + ((((x + 1) * loop(\(x,i).(x + (if x <= 0 then (1 + i) else 0)),x,(~x + 1))) div 2) div 2)))
1: (4 * (2 + (((x mod 5) div 2) div 2)))
1: (6 * (1 + ((loop(\(x,i).(8x + 10),x,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2) div 3)))
1: (x2 * (1 + ((loop(\(x,i).loop(\(x,i).x2,x,2),(x + ~2),1) div 2) div 2)))
1: (6 * (1 + ((x div 2) div 3)))
1: (10 * (1 + ((x div 2) div 3)))
1: (4 * ((2x + 2) + ((x div 2) div 5)))
1: (4 * (2 + ((x div 2) div 7)))
1: (6 * (1 + ((x div 2) div (1 + (x mod (2 * (1 + (x mod (1 + ((2 - (x div 2)) mod 4))))))))))
1: (4 * (1 + ((x div 3) div (1 + (if (~2 + (x div 4)) <= 0 then 2 else 0)))))
1: (4 * (1 + (((2x2 + 1) mod (2 + (x div 4))) div 2)))
1: (6 * (1 + (((x + (x div 8)) mod 5) div 2)))
1: (6 * (1 + (((x + 1) mod (2 + ((((x + 1) div 2) div 3) + (if x <= 0 then 0 else 1)))) div 2)))
1: (6 * (1 + (((x + 1) mod (1 + (2 * ((1 + (x div 4)) div 2)))) div 2)))
1: (3 * ((1 + ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3)) * (if x <= 0 then 1 else 2)))
1: (4 * (1 + ((x mod (2 + (((x div 2) mod 2) + (x mod 3)))) div 2)))
1: (4 * (4x + ((x mod (1 + (x div 2))) div 2)))
1: (6 * (1 + ((x mod (1 + (loop(\(x,i).(2x + 2),(loop(\(x,i).x2,4,2) mod (x + 1)),1) mod (x + 1)))) div 2)))
1: (6 * (1 + ((if x <= 0 then 2 else (1 + ((x + 3) mod (1 + (x div 4))))) div 2)))
1: (6 * (1 + ((if x <= 0 then 2 else ((x + 1) - ((x mod 6) mod (1 + (x div 2))))) div 2)))
1: (4 * (1 + (loop(\(x,i).(x * (1 + (x mod 5))),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2)))
1: (6 * (1 + (loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),x,(2x + 1)) div (x + 1))))
1: (6 * (1 + (x div 2)))
1: (10 * (1 + (x div 2)))
1: ((2x + 6) * (1 + (x div 2)))
1: (2 * ((1 + (x div 2)) * (1 + (x div 2))))
1: ((3x + 3) * (1 + (x div 2)))
1: (9 * ((1 + (x div 2)) * (x div 2)))
1: ((x + 2) * ((2 + (x div 2)) * ((x + 1) div 2)))
1: (20 * (x + (x div 2)))
1: ((2x2 + ~x + ~1) * (x + (x div 2)))
1: (3x * (x + (x div 2)))
1: (6 * (1 + (x div 3)))
1: (2 * ((1 + (x div 3)) * (1 + (x div 3))))
1: ((4x + 6) * (x + (x div 4)))
1: (12 * (x + (x div 4)))
1: (6 * (1 + (x div (4 + (x div (1 + ((x + ~1) mod 5)))))))
1: (4 * (1 + (x div (11 - (x div 2)))))
1: (6 * (x + (x div 9)))
1: (6 * (1 + (x div (2 + (x div (2 + (((x + 2) mod 5) div 2)))))))
1: (6 * (1 + (x div (2 + (x div (2 + ((x * (x div 2)) mod 2)))))))
1: (4 * ((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)))
1: (4 * (1 + (x div (2 + (loop(\(x,i).(x * (2 + i)),4,2) mod (x + 1))))))
1: (4 * (1 + (x div (1 + (if ((x * (x div 2)) mod 2) <= 0 then x else (x mod 3))))))
1: (2 * ((1 + (x div 8)) * (x div 7)))
1: (6 * (2 + (x div 8)))
1: (6 * ((3x + 3) + (x div 8)))
1: (4 * ((x div 8) + (x mod 2)))
1: (4 * ((2x + 2) + (x div 12)))
1: (6 * ((2x + 2) + (x div 12)))
1: (6 * (1 + (x div (3 * (1 + (x mod (2 * (1 + (x mod (3 + (x mod 2)))))))))))
1: (6 * (6x + (x div (if i <= 0 then 1 else (0 - i)))))
1: (4 * (4x + (x div (if i <= 0 then 1 else i))))
1: (6 * (2x + (x div (if i <= 0 then 1 else i))))
1: (9 * ((2 mod (1 + (x mod 3))) + (x mod 2)))
1: (2x * (1 + (2 mod (x + 1))))
1: (5x * (1 + (2 mod (x + 1))))
1: (4 * (2 + (2 mod (x + 1))))
1: (2x * (2 + (2 mod (x + 1))))
1: ((x2 + x) * (2 + (2 mod (x + 1))))
1: (3 * ((1 + (2 mod (if ((x + 1) mod (2 + ((x div 2) mod 2))) <= 0 then x else 1))) * (if x <= 0 then 1 else 2)))
1: (4 * (2 + ((1 + ((x - (x div 8)) div 2)) mod 2)))
1: (6 * (1 + ((x + 1) mod 4)))
1: ((x2 + 4x + 4) * (1 + ((x + 1) mod (1 + (x div (2 + (x mod (2 + (x mod 2)))))))))
1: (4 * (1 + ((x + 1) mod (1 + (x div (2 * (2 + (x mod 4))))))))
1: (6 * (2 + ((x + 1) mod (1 + (x mod (8 - (x mod 3)))))))
1: (6 * (1 + ((x + 2) mod (1 + (((1 + (x * (x div 2))) div 3) mod 3)))))
1: (6 * (1 + (~2 mod (1 - (2 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2))))))
1: (4 * (1 + (~x mod 4)))
1: ((2x + 2) * (2 + ((~x + 1) mod 3)))
1: (4 * (4x + ((~x + 1) mod 3)))
1: (4 * (2 + ((~x + 2) mod 4)))
1: (6 * (2 + ((~x + 2) mod 4)))
1: ((2x + 2) * (2 + ((~1 + (2 * (if x <= 0 then 1 else (if (x mod 4) <= 0 then (x div 2) else x)))) mod (x + 1))))
1: (6 * (1 + ((~2 + (x mod 2)) mod (~1 + ((~2x + 2) mod (4 + (x div 4)))))))
1: (4 * (1 + ((~2 + loop(\(x,i).2x,(1 - ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)),1)) mod 9)))
1: (2 * ((1 + ((x + ~1) mod 3)) * (x div 2)))
1: (2x * (2 + ((x + ~1) mod 3)))
1: (6 * (2x + ((x + ~1) mod 3)))
1: (6 * (1 + ((x2 + x) mod 17)))
1: (4 * (2 + ((x2 + 2x) mod 6)))
1: (4 * (1 + ((2x2 + ~x) mod 8)))
1: (4 * (2 + (16 mod (x + 1))))
1: (6 * (1 + ((x * (x div 2)) mod (1 - ((~x + 2) div 8)))))
1: (3 * ((1 + ((x * (x div 3)) mod (1 + ((2 - (x div 2)) mod 4)))) * (x mod 2)))
1: ((1 + ((x * (x div 3)) mod (1 + ((2 - (x div 2)) mod 4)))) * (x mod 2) * (x div 4))
1: (6 * (1 + (((x + (if (~2 + (x div 4)) <= 0 then 1 else 2)) div 2) mod 2)))
1: (4 * (1 + (((x div 2) div (1 + (x mod (4 + (x div 2))))) mod 2)))
1: (4 * (1 + (((x2 mod (x + 5)) div 2) mod 2)))
1: (2 * ((1 + ((x div 2) mod 2)) * (x div 3)))
1: (x * ((1 + ((x div 2) mod 2)) * (1 + (x div 2))))
1: (4 * (2 + ((x div 2) mod 4)))
1: (4 * (1 + ((x div 4) mod 2)))
1: (15 * (1 + ((x div 4) mod 2)))
1: (4 * (1 + ((x div ~2) mod 2)))
1: (4 * (1 + (((x + 1) mod (1 + (4 mod (1 + (x div 2))))) mod 2)))
1: (4 * (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 8)))
1: ((2x + 2) * (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 8)))
1: (6 * (1 + (x mod 2)))
1: ((2x + 2) * (1 + (x mod 2)))
1: ((2x + ~1) * ((1 + (x mod 2)) * (if x <= 0 then 0 else 2)))
1: (2x * (1 + (x mod 2)))
1: (3x * (1 + (x mod 2)))
1: (6 * (2 + (x mod 2)))
1: (2 * ((2 + (x mod 2)) * (1 + (x2 div 2))))
1: (3x * (2 + (x mod 2)))
1: (4 * (2x + (x mod 2)))
1: (x2 * (2x + (x mod 2)))
1: (6 * (x + (x mod 2)))
1: ((2x + 2) * (x + (x mod 2)))
1: (2 * ((x + (x mod 2)) * (~1 + i)))
1: (12 * (x + (x mod 2)))
1: ((18x + 9) * (x + (x mod 2)))
1: (4 * (1 + (x mod 3)))
1: (2x * (1 + (x mod 3)))
1: (4 * (2 + (x mod 3)))
1: (6 * (1 + (x mod 4)))
1: (3 * ((2 + (x mod 4)) * (x mod 2)))
1: (2 * ((x + (x mod 4)) * (1 + (x div 4))))
1: (4 * (1 + (x mod (1 + (x div 4)))))
1: (4 * (2 + (x mod (2 + ((x div 2) mod 2)))))
1: (4 * (2 + (x mod (2 + (x mod 4)))))
1: ((2x + 2) * (2 + (x mod (2 + (x mod (2 + (x mod 2)))))))
1: (4 * (2 + (x mod ~7)))
1: (4 * (2 + (x mod (2 - ((x div 4) mod 2)))))
1: ((3x + 3) * (1 + (x mod (2 * (2 + (3 * (x mod 2)))))))
1: (4 * (1 + (x mod (2 * (2 + (x mod 4))))))
1: (4 * (1 + (x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4))))))))
1: (2x * (~1 + ((i mod 2) + i)))
1: (2x * ((i mod 2) + i))
1: (2x * (2 + (i mod 3)))
1: (x * ((2 + (if (~x + 2) <= 0 then 2 else 1)) * i))
1: (4 * (2x + (if (~2 + (x div 2)) <= 0 then 0 else 1)))
1: (4 * (2 + (if (~2 + (x div 2)) <= 0 then 1 else 2)))
1: ((2x + 2) * (2 + (if (~2 + (x div 2)) <= 0 then 1 else 2)))
1: (14 * (x + (if (~2 + (x div 2)) <= 0 then 1 else 2)))
1: (4 * (2 + (if (~2 + (x div 2)) <= 0 then x else 6)))
1: (4 * (x + (if (~2 + (x div 3)) <= 0 then 1 else (x div 4))))
1: (4 * (2 + (if (~1 + (x div 4)) <= 0 then x else 8)))
1: (10 * (2 + (if (~1 + (x div 4)) <= 0 then x else 8)))
1: (6 * (x + (if (x + ~1) <= 0 then 1 else ((1 + (x div 2)) div 2))))
1: ((2x + 2) * (x + (if (x + ~1) <= 0 then 2 else (3x + ~3))))
1: ((2x + 2) * (2 + (if (x + ~1) <= 0 then x else 2)))
1: (6 * (x + (if (x + ~4) <= 0 then 1 else 2)))
1: (6 * (1 + (if ((x mod 7) mod 3) <= 0 then (x mod 3) else 1)))
1: ((4x + 4) * (x + (if (x mod 2) <= 0 then 2 else 0)))
1: (3x * (x + (if (x mod 2) <= 0 then 2 else 0)))
1: ((1 + (if (x mod 2) <= 0 then 2 else x)) * (1 + (x div 2)) * (1 + (x div 2)))
1: (4 * (1 + (if (x mod 2) <= 0 then 4 else 0)))
1: (3 * ((1 + (if (x mod 2) <= 0 then 4 else 0)) * (if x <= 0 then 1 else 2)))
1: ((2x + 2) * (2 + (if (x mod 2) <= 0 then 4 else 0)))
1: (3 * ((1 + (if (x mod 2) <= 0 then 6 else 0)) * (if x <= 0 then 1 else 2)))
1: (x * ((1 + (if (x mod 2) <= 0 then 3x else 0)) * i))
1: (2 * ((1 + (if (x mod 2) <= 0 then 8 else 0)) * (if x <= 0 then 1 else 2)))
1: (2 * ((1 + (if (x mod 2) <= 0 then 12 else 0)) * (if x <= 0 then 1 else 2)))
1: (2 * ((2 + (if (x mod 2) <= 0 then 12 else 0)) * (if x <= 0 then 1 else 2)))
1: (2 * ((1 + (if (x mod 2) <= 0 then 10 else 0)) * (if x <= 0 then 1 else 2)))
1: (4 * (2 + (if (x mod 2) <= 0 then (x div 2) else 2)))
1: ((2x + ~2) * (x + (if (x mod 2) <= 0 then x else 1)))
1: (2x * (2 + (if (x mod 2) <= 0 then x else 2)))
1: ((2x + 2) * (2 + (if (x mod 2) <= 0 then x else ~x)))
1: (x * ((1 + (if (x mod 3) <= 0 then 0 else 2)) * (1 + (x mod 2))))
1: ((x2 + 3x + 2) * (1 + (if (x mod 3) <= 0 then 2 else 0)))
1: (3 * ((1 + (if (x mod 4) <= 0 then 8 else 1)) * (if x <= 0 then 1 else 2)))
1: (2x * (1 + (if (x mod (1 + i)) <= 0 then 0 else i)))
1: (x * ((1 + (if (x mod (1 + i)) <= 0 then 0 else i)) * (1 + i)))
1: (x * ((1 + (if (i mod 2) <= 0 then 2 else 0)) * i))
1: (2 * ((2 + (if x <= 0 then 0 else 2)) * (1 + (if (x mod 2) <= 0 then 2 else 0))))
1: ((2x + 2) * (2 + (if x <= 0 then 0 else 2)))
1: (2 * ((2 + (if x <= 0 then 0 else 2)) * (if (x mod 2) <= 0 then 4 else 1)))
1: (3 * ((2 + (if x <= 0 then 0 else 2)) * (1 + (if (x mod 2) <= 0 then 2 else 0))))
1: (3 * ((2 + (if x <= 0 then 0 else 2)) * (if (x mod 2) <= 0 then 4 else 1)))
1: (5 * ((2 + (if x <= 0 then 0 else 2)) * (1 + (if (x mod 2) <= 0 then 2 else 0))))
1: (6 * (2 + (if x <= 0 then 0 else (1 + (x * loop(\(x,i).((x2 + ~x) div 2),2,x))))))
1: (6 * (1 + (if x <= 0 then 0 else (1 + ((2 * (1 + ((1 + (x div (1 + (x mod ((x + 1) - (loop(\(x,i).2x,x,2) mod (x + 1))))))) div 2))) div 3)))))
1: (4 * (2 + (if x <= 0 then 0 else (2 * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))))
1: (6 * (1 + (if x <= 0 then 0 else ((2 + loop(\(x,i).2x,((x + ~1) div 2),x)) div 2))))
1: (4 * (1 + (if x <= 0 then 1 else 2)))
1: ((2x + 2) * (1 + (if x <= 0 then 1 else 2)))
1: (6 * (x + (if x <= 0 then 1 else (x + (2 * ((x + 1) div 5))))))
1: ((x2 + 2x + 1) * (2 + (if x <= 0 then 1 else (x + 2))))
1: (6 * (1 + (if x <= 0 then 1 else 6x)))
1: ((3x + 3) * ((if x <= 0 then 1 else x) + (x mod 2)))
1: (4 * (2 + (if x <= 0 then 2 else 0)))
1: (4 * (4 + (if x <= 0 then 2 else 0)))
1: (4 * (2 + (if x <= 0 then 10 else x)))
1: ((2x + 2) * (x + loop(\(x,i).(x + ((3 + i) * i)),(x + 1),x)))
1: (2x * (1 + loop(\(x,i).(45x + 1),x,0)))
1: (10 * (2 + loop(\(x,i).(2 + (3 * ((~1 + (6 * (~1 + loop(\(x,i).11x,x,4)))) div 2))),x,1)))
1: (4 * (1 + loop(\(x,i).(x + (i * i)),(2x + 1),x)))
1: (6 * (1 + loop(\(x,i).(x + (2 div (6 - (x div 3)))),2,x)))
1: (6 * (1 + loop(\(x,i).(x + (x div 2)),(2 * (x div 2)),x)))
1: (6 * (1 + loop(\(x,i).(x + (if (i mod (2 + (x mod 2))) <= 0 then 1 else x)),x,0)))
1: (6 * (1 + loop(\(x,i).(x + 1),(~4 + ((x + ((x div 2) mod 2)) div 2)),x)))
1: (6 * (1 + loop(\(x,i).(~1 + (2 * (~1 + loop(\(x,i).(x2 + ~x + ~1),x,8)))),(x + 1),2)))
1: (6 * (1 + loop(\(x,i).(7x + 8),(x div 2),(x mod 2))))
1: ((x2 + 3x + 2) * (1 + loop(\(x,i).(x2 + ~1),2,4)))
1: ((2x + 2) * (1 + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x)))
1: ((2x + 2) * (x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 1))))
1: (4 * (1 + loop(\(x,i).(2x + 8),(x + 1),1)))
1: (4 * (2 + loop(\(x,i).(2x + 16),x,1)))
1: (6 * (3 + loop(\(x,i).(2x + 40),(x + 1),1)))
1: (6 * (x + loop(\(x,i).(2x2 + 2),(x + ~2),1)))
1: (4 * (loop(\(x,i).(2x + 2),(x div 2),(x mod 2)) + loop(\(x,i).2x,x,2)))
1: (4 * (1 + loop(\(x,i).(3x + 3),(x div 3),(x mod 3))))
1: (6 * (x + loop(\(x,i).(x * (2 + i)),(x + ~2),1)))
1: ((x2 + x) * (1 + loop(\(x,i).(x6 + x5 + x4 + x3 + x2 + x),1,x2)))
1: ((2x + 6) * (x2 + loop(\(x,i).4x,x,2)))
1: (6 * (1 + loop(\(x,i).x3,1,(2x2 + 2x))))
1: (4 * (1 + loop(\(x,i).x3,2,4)))
1: (x2 * (1 + loop(\(x,i).x3,2,x)))
1: (x4 * (x2 + loop(\(x,i).x3,2,x)))
1: (6 * (2 + loop(\(x,i).2x,(x + 2),2)))
1: (4 * (loop(\(x,i).2x,(x div 2),(x mod 2)) + loop(\(x,i).2x,x,1)))
1: (4 * (2 + loop(\(x,i).2x,x,3)))
1: (6 * (2 + loop(\(x,i).2x,x,5)))
1: (4 * (1 + loop(\(x,i).2x,x,(~2 + loop(\(x,i).(2x + 4),(x + 1),1)))))
1: (4 * (2 + loop(\(x,i).x2,1,((23x + 23) + (x div 9)))))
1: ((x2 + 2x + 1) * (2 + loop(\(x,i).x2,(x + ~2),3)))
1: (x2 * (2 + loop(\(x,i).x2,x,3)))
1: (10 * (2 + loop(\(x,i).x2,x,4)))
1: (4 * (x + loop(\(x,i).(2 * i),(((x + ~1) div 2) div 2),1)))
1: (6 * (1 + loop(\(x,i).(if x <= 0 then 2 else (2 * (2x - (x div (1 + i))))),x,0)))
1: (3x2 + 18x + 15)
1: ((x2 + x) * (1 + (x div 2)))
1: (2x2 + 2x + ~4)
1: (6x2 + 21x + 18)
1: (5x2 + 15x + 10)
1: (x4 + 5x3 + 9x2 + 7x + 2)
1: (2x3 + 7x2 + 7x + 2)
1: (x3 + 7x2 + 16x + 12)
1: (x4 + 4x3 + 5x2 + 4x + 4)
1: ((x2 + 4x + 4) * (1 + i))
1: ((x2 + 4x + 4) * (2 + i))
1: (x4 + 2x3 + x2 + 2x)
1: ((x2 + 2x) * (1 + (x div 2)))
1: ((x2 + 2x) * (1 + (x mod 2)))
1: (x3 + ~4x)
1: (2x3 + 8x2 + 8x)
1: ((x2 + 2x) * (x div 3))
1: ((x2 + 5x + 6) * i)
1: (10 * (1 + i))
1: (2 * ((1 + i) * (1 + (2 * i))))
1: (9 * (1 + i))
1: (5x * (1 + i))
1: (x * ((1 + i) * (1 + (i div 2))))
1: (x * ((1 + i) * (1 + (i mod 2))))
1: (x * ((1 + i) * (~1 + (2 * i))))
1: (4x * (2 + i))
1: (x * ((2 + i) * (3 + i)))
1: (x * ((2 + i) * (~1 + (2 * i))))
1: ((x + 2) * ((2 + i) * i))
1: ((2 + i) * i * (1 + i))
1: ((2x + ~1) * ((2 + i) * i))
1: ((2 + i) * i * i)
1: (6 * (x + i))
1: (9 * (x + i))
1: ((2x + 2) * (x + i))
1: ((x2 + 2x + 1) * (x + i))
1: ((5x + 10) * (x + i))
1: ((x2 + 2x) * (x + i))
1: (x2 * (x + i))
1: ((x + 1) * ((x + i) * i))
1: (x * ((x + i) * i))
1: (6 * (2 + compr(\x.(1 - (loop(\(x,i).3x2,2,x) mod (x + 2))),x)))
1: (4 * (1 + compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),(x + 1))))
1: (4 * (1 + compr(\x.(~1 + (((x + 1) * (1 + (x mod (2 * (2 + ((x2 + x) mod 8)))))) mod 3)),(x + 1))))
1: (4 * (1 + compr(\x.(~1 + (loop(\(x,i).2x,x,2) mod (1 + (if (~1 + (x mod 3)) <= 0 then x else 2)))),x)))
1: (10 * (1 + compr(\x.((1 + (x * loop(\(x,i).(5x * (x - i)),2,x))) mod (x + 1)),x)))
1: (6 * (1 + compr(\x.((1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,x)) mod 3),x)))
1: (4 * (1 + compr(\x.((x + 1) mod (1 + (x div (2 + (loop(\(x,i).(2x + 2),x,1) mod (x + 1)))))),x)))
1: (4 * (1 + compr(\x.((x + 1) mod (1 + (x mod (2 + (loop(\(x,i).x3,2,2x) mod (x + 1)))))),x)))
1: (4 * (3 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)))
1: (4 * (1 + compr(\x.(loop(\(x,i).(2x + 1),x,0) mod (x + 1)),x)))
1: (6 * (2 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x)))
1: (x * ((1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)) * (2 - (x mod 2))))
1: (x2 * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)))
1: ((1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)) * i * i)
1: (10 * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: ((x + 1) * ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) * (2 + (x mod 2))))
1: ((x + 1) * ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) * (1 + ((x + 1) div 2))))
1: ((x2 + 3x + 2) * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: (2 * ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) * (2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))))
1: (22 * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: (3 * ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) * loop(\(x,i).x5,2x,3)))
1: (6 * (3 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: (14 * (1 + compr(\x.(loop(\(x,i).((x + 1) * (x + i)),4,2) mod (x + 1)),x)))
1: (22 * (1 + compr(\x.(loop(\(x,i).((x + 1) * (x + i)),4,5) mod (x + 1)),x)))
1: (30 * (1 + compr(\x.(loop(\(x,i).(2x3 + 2x2),2,2) mod (x + 1)),x)))
1: (6 * (1 + compr(\x.(loop(\(x,i).4x2,2,3) mod (x + 1)),x)))
1: (10 * (1 + compr(\x.(loop(\(x,i).4x2,2,5) mod (x + 1)),x)))
1: (4 * (1 + compr(\x.(loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 4),x)))
1: (6 * (1 + compr(\x.loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(3x + 1)),x)))
1: (6 * (1 + compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,(x + 2)),1,3x),x)))
1: (6 * (0 - (x mod 4)))
1: ~10x2
1: (9 * ((~x + 1) - (2 * (2 + (x div 8)))))
1: (9 * (2 + (2 * (x + (3 * (1 + (x div 2))))) - (x div 2)))
1: (2 * (((~x + 1) + (2 * (6 + (x mod 2)))) * (if x <= 0 then 1 else 2)))
1: ~42
1: (~14x + ~14)
1: (~21x + ~21)
1: (~35x + ~35)
1: (~14 * ((x div 2) div 3))
1: (~33x + ~33)
1: (~30x + ~30)
1: ~30x2
1: (~62 * (x div 2))
1: (2 * ((1 - (2 * ((x div 5) mod 2))) * ((x div ~2) mod 2)))
1: (3 * ((1 - (2 * (x mod 2))) * (2 - ((x div ~2) mod 2))))
1: (x * ((1 - (2 * (i mod 2))) * i))
1: (~20x + 10)
1: (~6x2 + ~9x + 6)
1: (~2x3 + 2x)
1: (~3x3 + 3x)
1: (~8x3 + 8x)
1: (4 * (1 - (2 * i)))
1: (4 * (1 - ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)))
1: (2 * ((1 - ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)) * (if x <= 0 then 1 else 2)))
1: (6 * (1 - (((x - ((x2 + ~x) div 4)) div 2) div 3)))
1: (9 * (1 - (((x div 3) mod 3) div 2)))
1: (4 * (1 - (x div 2)))
1: ((x + 1) * ((1 - (x div ~4)) * (1 + (x div 3))))
1: (4 * (1 - (x div ~5)))
1: (9 * (1 - (x div 8)))
1: (4 * (1 - ((x + 1) mod (~10x + 9))))
1: (3 * ((1 - (if (2 - (x div 4)) <= 0 then (x mod 8) else 1)) * (1 + (if x <= 0 then 0 else 2))))
1: (~28x + 28)
1: (~4x2 + ~4x + 8)
1: (~x3 + 3x2 + ~3x + 1)
1: (~10x2 + 10x)
1: (~18x2 + 18x)
1: (~2x3 + ~2x2 + 4x)
1: (~6x3 + 8x2 + ~2x)
1: (~2x3 + 4x2 + ~2x)
1: ((~x2 + x) * (x div 2))
1: (8 * (1 - i))
1: (4x * (1 - i))
1: (4 * ((~x + 2) - (x div 3)))
1: ((2x + 2) * (3 - (x div 2)))
1: ((x2 + 2x + 1) * (4 - (x div 2)))
1: (~2x2 + 38x)
1: (28x + 8)
1: (7x3 + 9x2 + 2x)
1: (66x + 12)
1: (4x4 + 3x3 + 2x2)
1: (3x * (2 - (3 * i)))
1: (~10x2 + 20)
1: (6 * (2 - (2 div (~8 + (x div 2)))))
1: (4 * (2 - ((x mod 3) div 2)))
1: (4 * (2 - (x div (~1 + ((~x + 1) div 3)))))
1: (4 * (2 - ((x * (x div 2)) mod 2)))
1: ((2x + 2) * (2 - ((x * (x div 2)) mod 2)))
1: (5 * ((2 - ((x div 2) mod 2)) * (if x <= 0 then 1 else 2)))
1: (4 * (2 - ((x div 3) mod 2)))
1: ((2x + 2) * (2 - ((x div 4) mod 2)))
1: (4 * (2 - ((x mod (~1 + (2 * (x div 3)))) mod 2)))
1: (15 * (2 - ((if x <= 0 then 1 else x) mod 2)))
1: (21 * (2 - ((if x <= 0 then 1 else x) mod 2)))
1: (27 * (2 - ((if x <= 0 then 1 else x) mod 2)))
1: (25 * (2 - ((if x <= 0 then 1 else x) mod 2)))
1: (2 * ((2 - (x mod 2)) * (~x mod 4)))
1: ((6x + 3) * (2 - (x mod 2)))
1: ((5x + 5) * (2 - (x mod 2)))
1: ((x2 + 4x + 3) * (2 - (x mod 2)))
1: ((x2 + 2x + 1) * (2 - (x mod 2)))
1: (2 * ((2 - (x mod 2)) * (x mod 4)))
1: (3 * ((2 - (x mod 2)) * (x mod 4)))
1: (5 * ((2 - (x mod 2)) * (if x <= 0 then 1 else 2)))
1: (7 * ((2 - (x mod 2)) * (if x <= 0 then 1 else 2)))
1: (9 * ((2 - (x mod 2)) * (if x <= 0 then 1 else 2)))
1: (13 * ((2 - (x mod 2)) * (if x <= 0 then 1 else 2)))
1: (11 * ((2 - (x mod 2)) * (if x <= 0 then 1 else 2)))
1: (15 * ((2 - (x mod 2)) * (if x <= 0 then 1 else 2)))
1: ((2x2 + x) * (2 - (x mod 2)))
1: (x2 * (2 - (x mod 2)))
1: (4 * (2 - (x mod (~2 + (x mod ~2)))))
1: (3x * (2 - (i mod 2)))
1: (x * ((2 - (i mod 2)) * i))
1: (~10x + 20)
1: (~2x2 + 2x + 4)
1: (~8x + 16)
1: (~4x2 + 16)
1: (~x3 + 4x2 + ~5x + 2)
1: (~2x2 + 8x + ~8)
1: (~x3 + 6x2 + ~12x + 8)
1: (~5x2 + 10x)
1: (~x4 + 2x3 + 2x2 + ~4x)
1: (~x4 + 4x2)
1: ((~x2 + 2x) * ((x + ~1) div 2))
1: ((~x2 + 2x) * (x div 2))
1: ((~x2 + 2x) * (x div 3))
1: ((x2 + x) * (2 - i))
1: ((x2 + x) * (9 - ((~x2 + x) div 2)))
1: (4x2 + 28x + 68)
1: ((x2 + x) * ((x + ~1) + (2 * (2x + (x mod 2)))))
1: (22x3 + 3x2 + ~19x)
1: (x4 + 15x2)
1: (x3 + 16x2 + 15x)
1: (10x2 + 24x + 14)
1: (2 * (((x + ~1) + (2 * i)) * i))
1: (4 * (2x + (x div 2) - (x mod 6)))
1: (4 * ((x + 2) - (((x div 2) div ~2) div 2)))
1: (2x * ((x + ~1) + i))
1: (~27x + ~27)
1: (~25x + ~25)
1: (~4x + ~44)
1: ((~6x + 2) * (1 mod (~2x + 1)))
1: (~12x + 8)
1: (~6x3 + 7x2 + ~2x)
1: (~3x3 + 5x2 + ~2x)
1: (6 * (~2 + loop(\(x,i).x3,1,(10x + 5)) - loop(\(x,i).2x,(x + ~1),1)))
1: (9 * ((~x + ~2) + (x mod 2)))
1: (4 * (~3 + loop(\(x,i).(8x + 8),(x + 1),1)))
1: (24x3 + ~26x2 + 9x + ~1)
1: (15x2 + ~10x)
1: (21x2 + ~14x)
1: (27x2 + ~18x)
1: (3x3 + x2 + ~2x)
1: (3x4 + ~2x3 + ~3x2 + 2x)
1: (24x2 + ~16x)
1: ((3x2 + ~2x) * ((x2 + 3x + 2) div 2))
1: (3x3 + ~2x2)
1: (4 * (3x - (x div 3)))
1: (4 * (3x - (~x mod 4)))
1: (2x * (~2 + (3 * i)))
1: (3x * (~2 + (3 * i)))
1: (x * ((~2 + (3 * i)) * i))
1: ((~2 + (3 * i)) * i * i)
1: ((4x + 2) * (8 - (if x <= 0 then 0 else 1)))
1: (~2x2 + 16x)
1: (22x + 22)
1: (11x3 + 33x2 + 33x + 11)
1: (22x2 + ~11x)
1: (33x2 + ~44x)
1: (11x * i)
1: (11 * (i * i))
1: (24x + 18)
1: (40x + 30)
1: (8x2 + 30x + 18)
1: (72x + 54)
1: (16x2 + 20x + 6)
1: (4x3 + 7x2 + 3x)
1: (2x * (~1 + (4 * (1 + i))))
1: (x2 * (~1 + (4 * (1 + i))))
1: (10x2 + ~2x)
1: (15x2 + ~3x)
1: (5x3 + 9x2 + ~2x)
1: (4 * (5x - (x div 3)))
1: (4x2 + 20x + ~8)
1: (14x2 + 98x + 70)
1: (4x2 + 32x + 36)
1: (4x2 + 60x + 196)
1: (4x3 + 12x2 + ~4x)
1: (10x2 + 48x + 38)
1: (2x3 + 12x2 + 16x + 6)
1: (x4 + 8x3 + 18x2 + 12x)
1: (16x3 + 6x2 + 8x)
1: (18x3 + 49x2 + 42x + 11)
1: (20x2 + 108x + 132)
1: (324x2 + 492x + 156)
1: (4x4 + x3 + ~2x2)
1: (x10 + ~x5 + ~x2 + x)
1: (x6 + ~x3 + ~x2 + x)
1: (2x4 + 4x2 + ~2x)
1: (2 * ((~1 + (4 * (x + (x div 2)))) * (x + (x div 2))))
1: ((2x + 2) * (~1 + (3 * (2 + (if x <= 0 then 1 else 16)))))
1: ((2x + 2) * (~1 + (3 * (1 + loop(\(x,i).2x,(2 + (x mod 2)),(x div 2))))))
1: (4 * (~1 + (2 * (loop(\(x,i).2x,x,2) + (x mod 2)))))
1: (4 * ((2x + 2) - (2 * (1 + (x mod (1 + (x div 8)))))))
1: (6 * ((2x + 2) - ((x + 1) mod 10)))
1: (4 * ((2x + 2) - ((x + 2) mod 12)))
1: (4 * ((x2 + x + ~1) + (3 * (~x + (x mod 2)))))
1: ((2x + 2) * ((2x + 4) - ((1 + (x div 2)) mod 2)))
1: (4 * ((2x + 4) - ((x + 2) mod 8)))
1: (12x + 20)
1: (15x2 + 40x + 25)
1: (2x * (~1 + (3 * (2 + i))))
1: (~15x2 + 12x)
1: (4 * (~2 + (3 * (~4 + loop(\(x,i).(2x + 16),(x + 1),1)))))
1: (40x + ~12)
1: (250x + ~70)
1: (4 * (~1 + (2 * (~1 + (4 * (1 + (36 * (1 + ((x + 1) * (1 + loop(\(x,i).(x * (x + i)),2,4)))))))))))
1: (12x3 + 54x2 + 87x + 45)
1: (4 * ((4x2 + ~x) - (if x <= 0 then 0 else 1)))
1: (4 * (~1 + (2 * (~2x + (x div 2)))))
1: (6 * (~1 + (2 * (~2x + (x div 2)))))
1: (4 * (~1 + (2 * (~x + (x div 8)))))
1: (2x3 + ~5x2)
1: (2x3 + ~9x2)
1: (2x3 + ~13x2)
1: (14x3 + ~12x2 + ~2x)
1: 92
1: 230
1: (46x2 + 92x + 46)
1: (46x + 46)
1: (~23x2 + 23x)
1: 46x2
1: (16x2 + 30x + 14)
1: (16x2 + 14x)
1: (128x2 + 416x + 204)
1: (x5 + 10x4 + 37x3 + 63x2 + 49x + 14)
1: (4x4 + 8x3 + 11x2 + 7x)
1: (8x3 + 24x2 + 30x + 14)
1: (18x2 + 306x + 282)
1: (108x2 + 204x + 90)
1: (16x3 + 48x2 + 38x + 12)
1: (4 * (~1 + (6 * (2 + (3 * loop(\(x,i).2x,x,2))))))
1: (5x5 + 3x3 + ~2x2)
1: (6 * (~1 + (6 * (1 + (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(9x + 1))),x))))))
1: (36x + 30)
1: (12x2 + 22x + 10)
1: (12x2 + 10x)
1: (18x2 + 18x + ~6)
1: (12x2 + 12x + ~8)
1: (30x2 + 30x + ~6)
1: (x5 + 6x4 + 11x3 + 5x2 + ~2x)
1: (8x2 + 22x + 14)
1: (4x3 + 27x2 + 51x + 28)
1: (4x3 + 15x2 + 14x)
1: (8x2 + 16x + ~4)
1: (2x4 + 8x3 + 7x2 + ~2x)
1: (2x4 + 2x3 + ~5x2 + x)
1: (~15x3 + 15x2 + ~3x)
1: (~16x3 + 21x2 + ~5x)
1: (6 * (~1 + (6 * (~2 + loop(\(x,i).10x,(x + 1),(x + 1))))))
1: (19x3 + 3x2 + ~16x)
1: (62x2 + 124x + 62)
1: (62 * (x div 8))
1: (~31x2 + 31x)
1: 62x2
1: (47x2 + 47x)
1: 94x2
1: (32x2 + 64x + 28)
1: (92x + 64)
1: (36x2 + 70x + 34)
1: (36x2 + 72x + 30)
1: (8x3 + 48x2 + 96x + 60)
1: (4 * (~1 + (8 * (3 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))))
1: (64x2 + 126x + 62)
1: (200x2 + ~4)
1: (16x3 + 15x2 + ~x)
1: (32x3 + ~2x)
1: (4 * (~1 + (34 * loop(\(x,i).(2x + 4),x,1))))
1: (4 * (~1 + (4 * loop(\(x,i).(2x + 4),x,2))))
1: (6 * (~1 + ((2x + 4) * loop(\(x,i).x2,2,(x + 2)))))
1: (6 * (~1 + (6 * loop(\(x,i).loop(\(x,i).x3,4,2),(x + ~2),loop(\(x,i).6x,x,1)))))
1: (16x2 + ~4x)
1: (4x3 + ~x2)
1: (4 * (4x - ((2 * ((((x div 2) div 3) mod 2) - (if x <= 0 then 1 else x))) div 3)))
1: (4 * (4x - (((x - ((2 - (x div 4)) div 2)) div 2) div 2)))
1: (4 * (4x - ((if x <= 0 then 1 else x) div ~4)))
1: (4 * (4x - (x div 2)))
1: (4 * (4x - (x div ~2)))
1: (4 * (4x - (x div (if i <= 0 then 1 else (i * i)))))
1: (6 * (4x - (x mod 2)))
1: (24x + ~8)
1: (18x2 + ~9)
1: (8x3 + ~4x)
1: (2x4 + 2x3 + ~x2 + ~x)
1: (2x5 + ~x3)
1: (12x2 + ~4)
1: (3x4 + ~x2)
1: (18x2 + ~12)
1: (12x3 + 8x2 + ~4x)
1: (4x4 + ~x2)
1: (3x4 + 6x3 + ~3x)
1: (4x4 + 8x3 + ~4x)
1: (x6 + ~x5 + x4 + ~x3 + x2 + ~x)
1: (x * ((~1 + (4 * i)) * (~1 + (2 * i))))
1: (x * ((~1 + (4 * i)) * i))
1: ((x2 + 3x + 2) * (~1 + (7 * ((x2 + 3x + 2) div 2))))
1: ((x2 + 3x + 2) * (~1 + (9 * ((x2 + 3x + 2) div 2))))
1: (4 * ((2 * ((1 + (x mod (2 + (x div 4)))) mod 2)) - (x mod 3)))
1: (6 * (~1 + (2 * ((2x + ~1) mod 7))))
1: ((4x + 4) * ((x * (x mod 2)) - (x div 2)))
1: (x * ((~1 + (2 * (i mod 2))) * i))
1: (10 * (~2 + ((x + 1) * loop(\(x,i).(x2 + 2x + 1),2,2))))
1: ((2x + 2) * (~1 + (2 * loop(\(x,i).(x + ((4x + 8) div (1 + i))),x,3))))
1: (9 * (~1 + (5 * loop(\(x,i).7x,x,2))))
1: (4 * (~1 + (2 * loop(\(x,i).(2x + 4),x,1))))
1: ((2x + 2) * (~1 + ((x + 1) * loop(\(x,i).((x + 2) * ((x + i) * i)),2,2))))
1: (4 * (~1 + (2 * loop(\(x,i).4x,x,(1 + (2 * loop(\(x,i).(5x + ~4),x,8)))))))
1: ((2x + 2) * (~1 + ((x + 1) * loop(\(x,i).x3,2,2))))
1: (6 * (~1 + ((x + 1) * loop(\(x,i).x2,2,4))))
1: (6x2 + ~3x)
1: (2x3 + 5x2 + ~3x)
1: (14x2 + ~7x)
1: (18x2 + ~9x)
1: ((2x2 + ~x) * (2 - (x mod 2)))
1: (4 * (2x - ((x - ((~x + 2) div 2)) div 5)))
1: (4 * (2x - (2x div 7)))
1: (6 * (2x - (x div 3)))
1: (12 * (2x - (x div (if i <= 0 then 1 else i))))
1: (4 * ((2x - (x div (if i <= 0 then 1 else i))) * (1 + (2 * i))))
1: (4 * ((2x - (x div (if i <= 0 then 1 else i))) * (~1 + (2 * i))))
1: (3x * (2x - (x mod 4)))
1: (4 * (2x - (x mod 5)))
1: (4 * (2x - (x mod 7)))
1: (4x2 + ~4)
1: (10x2 + ~10)
1: (2x3 + ~2x)
1: (x4 + 3x3 + ~x2 + ~3x)
1: (9x3 + ~9x)
1: (x4 + x3 + ~x2 + ~x)
1: (x4 + ~x3 + ~x2 + x)
1: (16x3 + ~16x)
1: (6x2 + ~12)
1: (2x3 + ~4x)
1: (6x2 + ~18)
1: (4x5 + 3x4 + ~4x3 + ~x2 + 2x)
1: (4 * (x2 - (x div 2)))
1: (3x * (~1 + (2 * i)))
1: (5x * (~1 + (x * i)))
1: ((~1 + (i * i)) * (2 + i) * i)
1: (4 * (~x + ((x + 1) div ~7)))
1: ((x2 + ~x) * (~2 + ((x2 + x) div 2)))
1: ((2x + 2) * (~x + ((x4 + 9x3 + 28x2 + 36x + 16) div 2)))
1: (x2 * (~1 + (x div 2)))
1: (4 * ((~4x + ~4) + (x div 2)))
1: (4 * ((x div 2) - ((x + ~1) div 3)))
1: (4 * ((x div 2) - ((x mod 3) div 2)))
1: (4 * (~6 + (x div 3)))
1: ((x2 + x) * (~1 + (x div ~2)))
1: (2x * (~2 + (x div ~2)))
1: (4 * (~2x + (x div (if i <= 0 then 1 else i))))
1: (2x * (~2 + (2 mod (x + 1))))
1: (3 * ((~1 + ((x - (x div 3)) mod 3)) * (x mod 2)))
1: (4 * (~2 + ((x div 2) mod 2)))
1: (4 * (~1 + ((x div 2) mod 4)))
1: (4 * (~2x + (x mod 2)))
1: (4 * (~x2 + (x mod 2)))
1: (6 * (~x + (x mod 2)))
1: (14 * (~x + (x mod 2)))
1: (15 * (~x + (x mod 2)))
1: (6 * (~1 + (x mod 4)))
1: (4 * ((~x + ~5) + (x mod 5)))
1: (6 * (~x + (x mod 10)))
1: (10 * (~x + (x mod 10)))
1: (18 * (~x + (x mod 10)))
1: (9 * (~1 + (if (~4 + (x div 2)) <= 0 then 1 else x)))
1: (6 * ((if x <= 0 then 1 else 2) - ((~x2 + x) div 4)))
1: ((2x + 8) * ((if x <= 0 then 1 else 4x) - ((x + (x div 2)) div 4)))
1: ((2x + 4) * (loop(\(x,i).(4x + (2x div (1 + i))),x,3) - loop(\(x,i).4x,x,2)))
1: (4 * (~1 + loop(\(x,i).(2x - ((i div 2) mod 2)),x,2)))
1: (4 * (loop(\(x,i).3x,x,2) - loop(\(x,i).2x,x,2)))
1: (6 * (~1 + loop(\(x,i).(2x + 6),x,17)))
1: (6 * (~2 + loop(\(x,i).(2x + 16),(x + 1),1)))
1: (4 * (~1 + loop(\(x,i).(2x + 4),x,4)))
1: (x2 * (~2 + loop(\(x,i).(x2 + 2x),2,2)))
1: (4 * (~1 + loop(\(x,i).(2 * (x + i)),x,2)))
1: (18 * (~1 + loop(\(x,i).(2 * (x + i)),x,2)))
1: (4 * (loop(\(x,i).(~2x + 2),(x div 2),1) - (x mod 2)))
1: (6 * (~1 + loop(\(x,i).11x,x,4)))
1: (4 * (~2 + loop(\(x,i).47x,x,2)))
1: ((2x + 2) * ((~x + ~1) + loop(\(x,i).(2 * (2x - (x div (1 + i)))),x,2)))
1: (4 * (~2 + loop(\(x,i).10x,(x + 1),1)))
1: (6 * (~2 + loop(\(x,i).10x,(x + 1),(x + 1))))
1: (10 * (~1 + loop(\(x,i).10x,x,2)))
1: (30 * (~1 + loop(\(x,i).10x,x,2)))
1: (4 * (~2 + loop(\(x,i).(12x + 8),2,3x)))
1: (x2 * (~1 + loop(\(x,i).(2x3 + ~4x),2,2)))
1: (4 * (~2 + loop(\(x,i).8x,x,2)))
1: (4 * (~2 + loop(\(x,i).12x,2,(x + 1))))
1: (10 * (~2 + loop(\(x,i).20x,2,(x + 1))))
1: (2x * (~2 + loop(\(x,i).2x2,2,2)))
1: ((3x + 3) * (~1 + loop(\(x,i).x3,1,(7x + 5))))
1: (4 * (~1 + loop(\(x,i).2x,(~4 + (x div 2)),2)))
1: ((3x + 3) * (~1 + loop(\(x,i).loop(\(x,i).(x * i),i,2x),x,1)))
1: (3x2 + ~3x)
1: (4x2 + ~6x + ~4)
1: (4x2 + ~8x)
1: (x4 + ~4x3 + 4x2)
1: (x4 + ~2x3)
1: ((x2 + ~2x) * ((x + ~1) div 2))
1: (2x2 + ~6x)
1: (10x + ~40)
1: (2x2 + 2x + ~40)
1: (3x2 + ~12x)
1: (x3 + ~3x2 + ~10x)
1: (5x2 + ~85x)
1: (~14x2 + ~2x)
1: (78x + 66)
1: (14x2 + 10x)
1: (14x2 + ~4x)
1: (2 * (((x + ~2) + ((~x + 2) div (1 + ((x mod (2 + (x mod 2))) div 2)))) * (x div 3)))
1: (10x2 + ~6x)
1: (5x3 + 2x2 + ~3x)
1: (10x3 + ~6x2)
1: (10 * ((x + 1) - (9 * (~x + (x mod 8)))))
1: (14x2 + ~10x)
1: (7x3 + 9x2 + ~10x)
1: (7x3 + ~5x2)
1: (4 * ((x + 1) - (2 * (x mod 2))))
1: (6 * ((x + 1) - (2 * (i mod 2))))
1: (2 * (((x + 1) - (2 * i)) * i))
1: (4 * ((x + 1) - ((2 + (x2 div 2)) div (x + 3))))
1: (4 * ((x + 1) - ((x + 1) div 5)))
1: (6 * ((x + 1) - ((x + 2) div ~7)))
1: (4 * ((x + 1) - (((~x + 1) - ((x div 3) mod 3)) div 3)))
1: (4 * ((x + 2) - ((~2x + 1) div (4 + (x div 4)))))
1: (6 * ((x + 1) - (((~x + 2) - (x div 4)) div 4)))
1: (4 * ((x + 1) - ((~x + ((x div 2) mod 2)) div 2)))
1: (4 * ((x + 1) - ((~x2 + 2x) div 8)))
1: (4 * ((5x + 4) - (x div 2)))
1: (2 * (((x + 1) - (x div ~2)) * (if x <= 0 then 1 else 2)))
1: (2 * (((x + 2) - (x div ~2)) * (1 + (x div 2))))
1: (18 * ((x + 1) - (x div ~4)))
1: (10 * ((x + 1) - (x div ~9)))
1: (4 * ((x + 1) - (x div (~2 + ((~x + 2) div 4)))))
1: (6 * ((x + 1) - ((x + 1) mod ~7)))
1: (6 * ((x + 1) - (x mod (1 - (2 * (2 + (x mod 3)))))))
1: (4 * ((x + 1) - (x mod (x - ((x + ~1) mod 8)))))
1: (10 * ((x + 1) - (x mod (x - ((x + ~1) mod 8)))))
1: (9 * ((x + 1) - (x mod 8)))
1: ((9x + 9) * ((x + 1) - (x mod 10)))
1: (2x * ((x + 1) - (x mod 10)))
1: (6 * ((x + 2) - (i mod 2)))
1: (x3 + ~5x2 + ~22x + ~16)
1: (2x2 + ~16x)
1: (6x + 84)
1: (x3 + 24x2 + 65x + 42)
1: (20x2 + ~8x)
1: (10x3 + ~9x2 + 2x)
1: (5x4 + ~2x3 + ~5x2 + 2x)
1: (14x2 + ~6x)
1: (20x + ~16)
1: (10x2 + ~8x)
1: (15x2 + ~12x)
1: (20x2 + ~16x)
1: (10x3 + ~3x2 + ~4x)
1: (5x3 + x2 + ~4x)
1: (8x3 + ~12x)
1: (25x2 + ~40x)
1: (4x3 + ~6x2)
1: (7x3 + 3x2 + ~4x)
1: (56x2 + ~32x)
1: (~14x2 + 4x)
1: (4 * (x - (2 * ((~2x + ~1) + ((x - (x div 4)) div 2)))))
1: (4 * (x - (2 * ((~2x + ~2) + ((x - (x div 4)) div 2)))))
1: (4 * (x - (2x * (~x + (x mod 2)))))
1: (4 * (x - (3 * (~x + (x mod 4)))))
1: (~8x2 + ~28x + ~32)
1: (7x3 + x2 + ~6x)
1: (9x3 + x2 + ~8x)
1: (8x4 + ~20x3 + 18x2 + ~6x)
1: (4x3 + ~12x2 + 12x)
1: (x5 + ~4x4 + 5x3)
1: (250x + ~180)
1: 58x2
1: ~60x
1: (~20x3 + 4x)
1: (~12x2 + 6x)
1: (~6x3 + ~9x2 + 6x)
1: (~12x2 + 4x)
1: (~16x2 + 4x)
1: (~8x3 + 4x)
1: (2 * ((x - (2x * i)) * (~1 + (2 * i))))
1: ((x2 + 3x + 2) * (x - (9 * ((~x2 + x) div 2))))
1: (4 * (x - (2 * (x div 5))))
1: (6 * (x - ((1 + (if (x mod 3) <= 0 then 0 else x)) div 3)))
1: (4 * (x - ((2 - (x div 2)) div (x + 2))))
1: (6 * (x - ((~x + 2) div 2)))
1: (18 * (x - ((~x + 2) div 4)))
1: (4 * (x - ((~x + 2) div 5)))
1: (4 * (x - ((~1 + (x div 2)) div 2)))
1: (4 * (x - ((~1 + (x div ~4)) div 2)))
1: (6 * (x - ((x - (x div 3)) div 3)))
1: (4 * (x - ((x - ((x div 2) mod 4)) div 5)))
1: (4 * (x - ((2x + 2) div 7)))
1: (4 * (x - ((2x + ~4) div 7)))
1: (4 * (x - ((2 * (x div ~2)) div 5)))
1: (4 * (x - (2x div ~7)))
1: (4 * (x - (x2 div (3x + 4))))
1: (4 * (x - ((1 mod (~2x + 1)) div (x + 2))))
1: (4 * (x - ((if x <= 0 then 1 else x) div ~4)))
1: (4 * (x - (x div 4)))
1: (6 * (x - (x div 5)))
1: (6 * (x - (x div ~4)))
1: (4 * (x - (x div (~2 + (x div ~2)))))
1: (x2 * (x - (x div (~2 + (x mod 2)))))
1: (6 * (x - (x div 8)))
1: (6 * (x - (x div ~14)))
1: (15 * (x - (x div ~14)))
1: (4 * (x - (x div (if i <= 0 then 1 else (2 * i)))))
1: (4 * (x - ((x + 1) mod 13)))
1: (4 * (x - (x mod (3 + (x mod 2)))))
1: (4 * (x - (i mod 2)))
1: (4 * (x - loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,0)))
1: ((2x + ~2) * (x - i))
1: (4 * ((x - i) * i))
1: (x * ((x - i) * (x + i)))
1: (5x * (x - i))
1: (x2 * (x - i))
1: (4x * ((~x + 1) + i))
1: (x * ((i - (4 * (1 - i))) * i))
1: ((i - (4 * (1 - i))) * i * i)
1: ((x2 + ~2x) * (~x + i))
1: 150
1: 63x
1: (9 * (i * (1 + i)))
1: (16x + 80)
1: (16 * (1 + (x * i)))
1: (~16x + ~16)
1: (16 * (~1 + (x * i)))
1: (16x2 + ~16x)
1: (24 * (1 + (x div 2)))
1: (72x + 72)
1: ((16x + ~8) * (1 + (x mod 2)))
1: (8 * ((if x <= 0 then 1 else 2) * (1 + (if (x mod 2) <= 0 then 2 else 0))))
1: 108
1: (12x2 + 24x + 12)
1: (20x2 + 40x + 20)
1: (28x2 + 56x + 28)
1: (52x2 + 104x + 52)
1: (68x2 + 136x + 68)
1: (8x3 + 20x2 + 16x + 4)
1: (4x3 + 12x2 + 12x + 4)
1: (44x2 + 88x + 44)
1: (60x2 + 120x + 60)
1: ~32
1: (~24x + ~24)
1: (~40x + ~40)
1: (60x + ~60)
1: (12x2 + ~24x + 12)
1: (20 * (1 + (x div 2)))
1: (200x + 50)
1: (50x + 50)
1: 90x
1: (20x2 + 30x)
1: (10x3 + 20x2 + 10x)
1: (10x3 + 10x)
1: (8 * ((x + 6) + (if x <= 0 then 0 else 1)))
1: (4x2 + 28x + 24)
1: (8x + 72)
1: (x4 + 14x3 + 53x2 + 76x + 36)
1: (4x3 + 16x2 + 36x + 24)
1: ((4x + 4) * ((x2 + 2x + 1) + (x2 div 3)))
1: (486x2 + ~138x)
1: ((4x + 8) * ((x + 1) + (2 * ((if x <= 0 then 1 else x) mod 2))))
1: (8 * ((x + 1) + ((x + ((1 + (x div 2)) mod 3)) div 4)))
1: (20 * ((x + 1) + (x div 2)))
1: (8 * ((x + 1) + (x div 5)))
1: (8 * ((x + 2) + (x div 8)))
1: (8 * (9 + (if x <= 0 then 0 else (x + 2))))
1: (8 * (1 + (loop(\(x,i).10x,(x + 1),1) + loop(\(x,i).3x,x,1))))
1: (8 * (3 + loop(\(x,i).2x,x,(1 + (2 * (4 + loop(\(x,i).2x,x,1)))))))
1: (12x + 36)
1: (4x2 + 16x + 12)
1: (32x2 + 160x + 192)
1: (6x2 + 18x)
1: (3x3 + 30x2 + 99x + 108)
1: (3x3 + 36x2 + 117x + 84)
1: (4x3 + 30x2 + 68x + 48)
1: (x4 + 8x3 + 19x2 + 12x)
1: (8 * (3 - (x mod 2)))
1: (12 * ((2x + 1) - ((x - ((x div 2) mod 3)) div 3)))
1: (8 * ((2x + 1) - ((x div 3) mod 3)))
1: (27 * (1 + loop(\(x,i).3x,x,1) - loop(\(x,i).2x,x,2)))
1: (24x4 + 50x3 + 35x2 + 10x + 1)
1: (60x + 40)
1: (36x2 + 36x + 8)
1: (12x3 + 32x2 + 28x + 8)
1: (12x2 + 20x + 8)
1: (18x3 + 36x2 + 22x + 4)
1: (18x2 + 12x)
1: 52x2
1: (40x + 8)
1: (10x5 + 37x4 + 52x3 + 34x2 + 10x + 1)
1: (40x + 16)
1: (5x4 + 3x3)
1: (4x3 + 24x2 + 24x + 4)
1: (4x3 + 24x2 + 8x)
1: (12x3 + 72x2 + 87x + 27)
1: ((4x + 6) * ((1 + (2 * ((2x + 2) - (x mod 2)))) * (1 + (x div 2))))
1: (32x3 + 80x2 + 184x + 76)
1: (64x2 + 88x + 40)
1: (12 * (1 + (2 * ((2x + 4) + (x div 2)))))
1: (3x5 + 10x4 + 13x3 + 8x2 + 2x)
1: (20x3 + 60x2 + 90x + 50)
1: (8x3 + 24x2 + 52x + 36)
1: (64x2 + 136x + 88)
1: (48x2 + 104x + 72)
1: (1000x + 736)
1: (16x3 + 36x2 + 28x + 8)
1: ((4x + 4) * (1 + (2 * (2 + (3 * (if (x + ~1) <= 0 then 1 else 16))))))
1: (8 * (1 + (2 * (x + (x div 8)))))
1: (8 * (1 + (8 * (x + (x div 8)))))
1: (18 * (1 + ((x + 1) * (1 + loop(\(x,i).(x * (x + i)),2,4)))))
1: (42 * (1 + ((x + 1) * (1 + loop(\(x,i).(x * (x + i)),2,4)))))
1: (12 * (1 + ((x + 1) * (2 + loop(\(x,i).x2,2,3)))))
1: (8x2 + 8x + 8)
1: (8x3 + 12x2 + 12x + 4)
1: (4x3 + 16x2 + 52x + 40)
1: (12x2 + 48x + 60)
1: (15x4 + 60x3 + 105x2 + 90x + 30)
1: (4x5 + 20x4 + 43x3 + 49x2 + 28x + 6)
1: (4x3 + 12x2 + 20x + 12)
1: (4x * (1 + (2 * (1 + i))))
1: (8 * (1 + ((x + 2) * (x + i))))
1: (12x3 + ~27x2 + 15x)
1: (~84x2 + 105x)
1: (64x2 + 120x + 72)
1: (8 * (2 + (16 * (2x - (x mod 2)))))
1: (12 * (1 + (2 * (x - (3 * (x div ~2))))))
1: (12 * (1 + (2 * (x - (x div ~2)))))
1: (36 * (1 + (2 * (x - (x div ~2)))))
1: (8 * (1 + (x * (x - (x div ~2)))))
1: (54x2 + 6x)
1: (120x + 16)
1: ((17x2 + 34x + 17) * (x mod 7))
1: 68x2
1: (24x2 + 52x + 28)
1: (42x2 + 78x + 36)
1: (60x2 + 60x + 12)
1: (5x5 + ~3x3 + ~2x2)
1: (24x2 + 80x + 56)
1: (60x2 + 300x + 390)
1: (24x2 + 96x + 104)
1: (100x2 + 200x + 50)
1: (64x2 + 64x + 8)
1: (24x5 + 60x4 + 50x3 + 15x2 + x)
1: (128x2 + 8)
1: (144x2 + 12)
1: (x9 + x4)
1: (168x2 + 140x + 28)
1: (12x3 + 6x)
1: (20x3 + 10x)
1: (x8 + ~x6 + x4 + ~x2)
1: (x * ((1 + (i * i * i)) * i * (1 + i)))
1: ((3x2 + 9x + 6) * (1 + (3 * ((3x2 + 7x + 4) div 2))))
1: (6x * (2 + ((x + 2) * (x div 2))))
1: (42 * (x + ((x + 1) * loop(\(x,i).(x * (x + i)),2,4))))
1: (40x + 20)
1: (16x2 + 32x + 12)
1: (8x3 + 36x2 + 40x + 12)
1: (24x2 + 24x + 6)
1: (30x3 + 105x2 + 75x + 15)
1: (6x3 + 3x2)
1: (x6 + 3x5 + 5x4 + 6x3 + 5x2 + 3x + 1)
1: ((4x2 + 4) * (if x <= 0 then 1 else 2))
1: (6x3 + 6x)
1: (5x4 + 10x2)
1: (x5 + 4x3)
1: (6x * (1 + (2 * i)))
1: (18x * (1 + (2 * i)))
1: (2x * ((1 + (2 * i)) * (1 + (4 * i))))
1: (2x * ((1 + (2 * i)) * (1 + (2 * i))))
1: (2x * ((1 + (2 * i)) * (~1 + (2 * i))))
1: (2x2 * (1 + (2 * i)))
1: (8 * (1 + (2 * compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(8x + 2)),x))))
1: ((6x + 6) * (2 + ((x2 + 4x + 5) div 2)))
1: (x3 * (x + ((x + loop(\(x,i).x3,2,x)) div 2)))
1: ((4x + 12) * (2 + ((x2 + 6x + 8) div 2)))
1: (8 * (1 + (((x + 1) * (1 + ((x + 1) * loop(\(x,i).x2,2,3)))) div 3)))
1: ((6x + 6) * (2 + ((x2 + 4x + 4) div 2)))
1: (8 * (1 + ((12x + 116) div 7)))
1: ((12x + 6) * (x + ((x3 + 3x2 + 2x) div 3)))
1: (12 * (2 + (((x mod 5) div 2) div 2)))
1: (12 * (1 + (x div 2)))
1: (8 * (2x + (x div 2)))
1: (4x * (2x + (x div 2)))
1: (8 * (1 + (x div (11 - (x div 2)))))
1: (18 * (1 + (~2 mod (1 - (2 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2))))))
1: (8 * (1 + ((x div 4) mod 2)))
1: (6x * (1 + (x mod 2)))
1: ((4x + 4) * (2 + (x mod 2)))
1: (54 * (x + (x mod 2)))
1: ((2x3 + 2x2 + 2x + 2) * (x + (x mod 2)))
1: (8 * (2 + (x mod 3)))
1: (4 * ((x + (x mod 4)) * (1 + (x div 4))))
1: ((4x + 8) * (2 + (x mod ~7)))
1: (8 * (2 + (if (~2 + (x div 2)) <= 0 then x else 6)))
1: (4 * ((1 + (if (x mod 2) <= 0 then 4 else 0)) * (if x <= 0 then 1 else 2)))
1: (6 * ((1 + (if (x mod 2) <= 0 then 4 else 0)) * (if x <= 0 then 1 else 2)))
1: (6 * ((2 + (if x <= 0 then 0 else 2)) * (1 + (((x + 1) div 2) mod 3))))
1: (12 * (2 + (if x <= 0 then 0 else (2 * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))))
1: (8 * (4 + (if x <= 0 then 2 else 0)))
1: (8 * (1 + loop(\(x,i).(x + (i * i)),(2x + 1),x)))
1: (8 * (1 + loop(\(x,i).(x + 1),(~4 + ((x + ((x div 2) mod 2)) div 2)),x)))
1: (8 * (1 + loop(\(x,i).(2x + 8),(x + 1),1)))
1: (8 * (2 + loop(\(x,i).(2x + 16),x,1)))
1: (8 * (1 + loop(\(x,i).2x,x,(~2 + loop(\(x,i).(2x + 4),(x + 1),1)))))
1: (8 * (2 + loop(\(x,i).x2,1,((23x + 23) + (x div 9)))))
1: (12x2 + 30x + 18)
1: (20x3 + 60x2 + 70x + 30)
1: (6x2 + 24x + 18)
1: (2x3 + 18x2 + 46x + 30)
1: (2x3 + 10x2 + 14x + 6)
1: (12x2 + 18x + 6)
1: (26x2 + 52x + 26)
1: (4x3 + 14x2 + 16x + 6)
1: (34x2 + 68x + 34)
1: (2x3 + 6x2 + 6x + 2)
1: (22x2 + 44x + 22)
1: (30x2 + 60x + 30)
1: (153x + 153)
1: (18x3 + 72x2 + 81x + 27)
1: (25x2 + 25x)
1: (x4 + 9x3 + 23x2 + 15x)
1: (x4 + 3x3 + 3x2 + x)
1: (12x + 24)
1: (4x3 + 12x2 + 12x + 8)
1: (8x2 + 20x + 8)
1: (2x3 + 8x2 + 10x + 4)
1: (10x3 + 45x2 + 65x + 30)
1: (6x2 + 24x + 24)
1: (4x3 + 18x2 + 24x + 8)
1: (5x4 + 30x3 + 65x2 + 60x + 20)
1: (15x4 + 90x3 + 195x2 + 180x + 60)
1: (4x4 + 20x3 + 33x2 + 20x + 4)
1: (x5 + 7x4 + 19x3 + 25x2 + 16x + 4)
1: (2x3 + 12x2 + 24x + 16)
1: (~x4 + ~3x3 + 6x2 + 28x + 24)
1: (x4 + 7x3 + 18x2 + 20x + 8)
1: (4x3 + 14x2 + 12x)
1: (12x2 + 24x)
1: (2x3 + 12x2 + 16x)
1: (x5 + 5x4 + 9x3 + 7x2 + 2x)
1: (x4 + 4x3 + 5x2 + 2x)
1: (x4 + 6x3 + 12x2 + 8x)
1: (x5 + x4 + ~3x3 + ~x2 + 2x)
1: (16x2 + 32x)
1: (9x * (1 + i))
1: (x * ((1 + i) * (1 + (i div 2)) * (1 + i)))
1: (3x * ((1 + i) * (1 + i)))
1: (x * ((2 + i) * (1 + i) * (3 + i)))
1: ((2 + i) * i * i * (1 + i))
1: (x * ((1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)) * i * i))
1: (12 * (3 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: (8 * (1 + compr(\x.(loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 4),x)))
1: ~9x2
1: (~28x + ~28)
1: (~24x2 + 24x + ~6)
1: (8 * (1 - (x div ~5)))
1: (~18x + 18)
1: (~9x2 + 9x)
1: (~12x2 + 12x)
1: (~9x3 + 18x2 + ~9x)
1: (~24x2 + 24x)
1: (~8x + 144)
1: ((2x2 + 4x + 2) * (2 - ((x * (x div 2)) mod 2)))
1: (6 * ((2 - (x mod 2)) * (if x <= 0 then 1 else 2)))
1: (10 * ((2 - (x mod 2)) * (if x <= 0 then 1 else 2)))
1: (14 * ((2 - (x mod 2)) * (if x <= 0 then 1 else 2)))
1: (6x * (2 - (x mod 2)))
1: (8 * ((x + 2) - ((x + 1) div (if x <= 0 then 1 else (2 * (1 + ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 2)))))))
1: (18 * (~2 + loop(\(x,i).x3,1,(10x + 5)) - loop(\(x,i).2x,(x + ~1),1)))
1: (8 * (~3 + loop(\(x,i).(8x + 8),(x + 1),1)))
1: (8 * (~3 + loop(\(x,i).10x,(x + 1),1)))
1: (18x2 + ~12x)
1: (22x2 + 22x)
1: (44x2 + 44x)
1: 44x2
1: (200x + 150)
1: (8x3 + 14x2 + 6x)
1: (8 * (~1 + (2 * (loop(\(x,i).2x,x,2) + (x mod 2)))))
1: (9x4 + 18x3 + ~9x2)
1: (80x + ~24)
1: (8 * (~1 + (2 * (~x + (x div 8)))))
1: (16x3 + 30x2 + 14x)
1: (8 * (~1 + (6 * (2 + (3 * loop(\(x,i).2x,x,2))))))
1: (x6 + 7x5 + 17x4 + 16x3 + 3x2 + ~2x)
1: (16x2 + 48x + 24)
1: (64x2 + 128x + 56)
1: (8 * (~1 + (8 * (3 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))))
1: (8 * (~1 + (4 * loop(\(x,i).(2x + 4),x,2))))
1: (72x + ~24)
1: (4x4 + ~2x2)
1: (24x4 + 4x3 + ~16x2 + 4x)
1: (x7 + ~x6 + ~x4 + x3)
1: (12 * (~1 + (2 * loop(\(x,i).(2x + 4),x,1))))
1: (18 * (~1 + ((x + 1) * loop(\(x,i).x2,2,4))))
1: (24x2 + ~24x + 6)
1: (12x2 + ~6x)
1: (36x2 + ~18x)
1: ((2x3 + x2 + ~x) * (2 - (x mod 2)))
1: (2 * ((2x - (x div (if i <= 0 then 1 else i))) * (~1 + (2 * i)) * (~1 + (2 * i))))
1: (8 * (2x - (x mod 4)))
1: (12 * (2x - (x mod 4)))
1: (20 * (2x - (x mod 5)))
1: (5x4 + ~10x2)
1: (8x5 + 6x4 + ~8x3 + ~2x2 + 4x)
1: (2x * ((~1 + (2 * i)) * (1 + (2 * (1 + i)))))
1: (2x * ((~1 + (2 * i)) * (1 + i)))
1: (8 * ((x div 2) - ((x mod 3) div 2)))
1: ((2x2 + 2x) * (~2 + (x div ~2)))
1: (8 * (~1 + loop(\(x,i).(2 * (x + i)),x,2)))
1: (20 * (~2 + loop(\(x,i).47x,x,2)))
1: (8 * (~1 + loop(\(x,i).10x,x,2)))
1: (20 * (~1 + loop(\(x,i).10x,x,2)))
1: (12 * (~2 + loop(\(x,i).12x,2,(x + 1))))
1: (20 * (~2 + loop(\(x,i).20x,2,(x + 1))))
1: (25x2 + ~25x)
1: (3x3 + ~6x2 + 3x)
1: (2x3 + ~6x2 + 4x)
1: (3x4 + ~10x3 + 9x2 + ~2x)
1: (3x4 + ~11x3 + 12x2 + ~4x)
1: (7x4 + 16x3 + ~x2 + ~10x)
1: (8 * ((x + 1) - (2 * (i mod 2))))
1: (8 * ((x + 2) - ((~2x + 1) div (4 + (x div 4)))))
1: (24x4 + ~60x3 + 54x2 + ~18x)
1: (~16x2 + 8x)
1: (32x + 160)
1: (32x2 + 64x + 32)
1: (48x3 + 112x2 + 80x + 16)
1: (64x2 + 128x + 48)
1: (24x2 + 48x + 24)
1: (40x2 + 80x + 40)
1: (56x2 + 112x + 56)
1: (~32x + ~32)
1: (30x3 + 30x)
1: 50x2
1: (24 * ((x + 1) + (x div 2)))
1: (24 * ((x + 1) + (x div 5)))
1: (16 * (9 + (if x <= 0 then 0 else (x + 2))))
1: (32x3 + 192x2 + 352x + 192)
1: (81 * (1 + loop(\(x,i).3x,x,1) - loop(\(x,i).2x,x,2)))
1: (48x + 32)
1: (36x3 + 96x2 + 84x + 24)
1: (120x + 48)
1: (24x3 + 72x2 + 156x + 108)
1: (36 * (1 + ((x + 1) * (1 + loop(\(x,i).(x * (x + i)),2,4)))))
1: (16x3 + 24x2 + 24x + 8)
1: (36x3 + ~81x2 + 45x)
1: (36 * (1 + (2 * (x - (3 * (x div ~2))))))
1: (378x2 + 702x + 324)
1: (216x2 + 720x + 504)
1: (72x2 + 288x + 312)
1: (256x2 + 16)
1: (24 * (1 + (((x + 1) * (1 + ((x + 1) * loop(\(x,i).x2,2,3)))) div 3)))
1: ((24x + 12) * (x + ((x3 + 3x2 + 2x) div 3)))
1: (24 * (2x + (x div 2)))
1: (8 * ((x + (x mod 4)) * (1 + (x div 4))))
1: ((6x + 6) * ((2 + (if x <= 0 then 0 else 2)) * (1 + (((x + 1) div 2) mod 3))))
1: (16 * (2 + loop(\(x,i).2x,x,2)))
1: (24 * (2 + loop(\(x,i).x2,1,((23x + 23) + (x div 9)))))
1: (2x4 + 10x3 + 14x2 + 6x)
1: (54x2 + 108x + 54)
1: (6x3 + 18x2 + 18x + 6)
1: (8x2 + 56x + 80)
1: (8x2 + 24x + 16)
1: (4x3 + 24x2 + 44x + 24)
1: (8x3 + 36x2 + 52x + 24)
1: (16x3 + 60x2 + 68x + 24)
1: (35x4 + 210x3 + 455x2 + 420x + 140)
1: (x6 + 12x5 + 54x4 + 120x3 + 141x2 + 84x + 20)
1: (x6 + 8x5 + 25x4 + 38x3 + 28x2 + 8x)
1: (24x3 + 72x2 + 48x)
1: (~48x + 48)
1: (8 * ((2 - (x mod 2)) * (if x <= 0 then 1 else 2)))
1: (12 * ((2 - (x mod 2)) * (if x <= 0 then 1 else 2)))
1: (128x + 112)
1: (16 * (~1 + (6 * (2 + (3 * loop(\(x,i).2x,x,2))))))
1: (32x2 + 96x + 48)
1: (16 * (~1 + (8 * (3 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))))
1: (16 * (~1 + (4 * loop(\(x,i).(2x + 4),x,2))))
1: (16 * (~1 + loop(\(x,i).(2 * (x + i)),x,2)))
1: (40 * (~1 + loop(\(x,i).10x,x,2)))
1: (64x + 320)
1: (120 * ((x + 1) + (x div 5)))
1: (324 * (1 + loop(\(x,i).3x,x,1) - loop(\(x,i).2x,x,2)))
1: (96x + 64)
1: (360x2 + 1440x + 1560)
1: (64x2 + 192x + 96)
1: (96x2 + 160x + 64)
1: (288x2 + 480x + 192)
1: (4x5 + 12x4 + 8x3)
1: (72 * loop(\(x,i).(6 * (3x + (x div 2))),(x + 1),1))
1: (32x3 + 16x)
1: (32x2 + ~16x)
1: (16x3 + 24x2 + 8x)
1: (4x * ((~1 + (2 * i)) * i * (1 + (2 * i))))
1: (8x5 + 24x4 + 16x3)
1: (3x5 + ~6x4 + 3x3)
1: (9x8 + 7x7)
1: (x9 + x7)
1: (2x3 * ((x div 2) * (x div 2)))
1: (16 * ((1 + ((((5x3 + 2x2 + ~3x) div 2) div 3) div 2)) div 2))
1: (56 * ((x + 1) div ~8))
1: (x4 * ((x3 * (x + ((x + loop(\(x,i).x3,2,x)) div 2))) div 2))
1: (16 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2))
1: (16 * ((2 * loop(\(x,i).(x * (x - i)),2,(x + 3))) div 3))
1: (60 * (loop(\(x,i).(3x + ~1),x,2) div 2))
1: (24 * (x div 2))
1: (162 * (x div 8))
1: (24 * ((x mod (~1 + (2 * (x div 4)))) mod 2))
1: (24 * (x mod 2))
1: (16 * loop(\(x,i).(x + (if (~x + 2) <= 0 then x else 2)),x,(~x + 1)))
1: (16 * loop(\(x,i).(2x + ~1),x,12))
1: (16 * loop(\(x,i).3x,(2x + 1),2))
1: ((30x + 30) * loop(\(x,i).(x2 + x),2,(x + 1)))
1: (16 * loop(\(x,i).(x * (x - i)),2,(x + ~1)))
1: (24 * loop(\(x,i).(6 * (3x + (x div 2))),(x + 1),1))
1: (54 * loop(\(x,i).x2,1,(9x + 4)))
1: (8x3 + 8x)
1: (8x * (1 + (2 * i)))
1: (8x * (x - (x mod 3)))
1: (48x2 + 12x)
1: (4x4 + 12x3 + 12x2 + 4x)
1: (8x3 + 12x2 + 4x)
1: (12x * (~1 + (2 * i)))
1: (4x * ((~1 + (2 * i)) * (1 + (2 * i))))
1: (4x * ((~1 + (2 * i)) * i))
1: (12x2 + ~12x)
1: (30x2 + 30x)
1: (50x2 + 50x)
1: (10x4 + 20x3 + 20x2 + 10x)
1: (20x3 + 30x2 + 10x)
1: (6x3 + 12x2 + 6x)
1: (4x4 + 6x3 + ~2x)
1: 18x2
1: 54x2
1: (12x3 + 6x2)
1: 40x2
1: 56x2
1: 72x2
1: (2x5 + 8x4 + 10x3 + 4x2)
1: (x5 + 5x4 + 8x3 + 4x2)
1: (3x4 + ~12x2)
1: (x8 + x6)
1: (4x7 + 3x6)
1: (2x7 + ~x6)
1: 9x3
1: (3x4 + 3x3)
1: (x5 + 5x4 + 6x3)
1: (2x5 + 2x3)
1: (x5 + 3x4 + 2x3)
1: (8x4 + 16x3)
1: (2x5 + ~x4)
1: (3x3 * (~1 + (2 * i)))
1: (x8 + x5)
1: (4x6 + 2x5)
1: (x8 + ~x7)
1: (x5 * ((x3 + x2) div 2))
1: (x3 * ((x div 2) * (x div 2)))
1: (24x * i)
1: (x5 * i)
1: (x * (i * i * (1 + i) * (1 + i)))
1: (2 * (i * i * i * i * i * i))
1: (x * (i * i * i * i * i * i))
1: (8 * ((2x + 1) div (3 + (x div 4))))
1: (8 * ((1 + ((((5x3 + 2x2 + ~3x) div 2) div 3) div 2)) div 2))
1: (4x * ((1 + (loop(\(x,i).(x * i),(x + ~1),loop(\(x,i).loop(\(x,i).(~2 + i),((x + i) div 2),1),x,1)) div 2)) div 2))
1: ((x + 1) * (((x + 1) div 2) * (1 + (x div 2)) * (1 + (x div 2))))
1: ((x + 1) * (((x + 1) div 2) * (1 + (x div 2)) * ((x + 1) div 2)))
1: (8 * ((x + 1) div ~8))
1: (8 * ((~x + 1) div 3))
1: (8 * (((x div 2) - (x * (x mod 2))) div 2))
1: ((4x + 4) * ((2 * (2 + (if x <= 0 then 0 else (2 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))))) div 3))
1: (8 * ((x * (1 - ((x3 div 8) mod 2))) div 5))
1: (x3 * ((x3 * (x + ((x + loop(\(x,i).x3,2,x)) div 2))) div 2))
1: (8 * ((x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) div 5))
1: (8 * ((2 * loop(\(x,i).(x * (x - i)),2,(x + 3))) div 3))
1: (8 * ((3 * compr(\x.(1 - (x mod (2 + ((1 + ((x - ((x div 2) mod 2)) div 2)) mod 5)))),x)) div 2))
1: (12 * ((((x + 1) div 2) div 2) div 2))
1: (4 * ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (if (x mod 3) <= 0 then 2 else 1)))
1: (8 * ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3))
1: (8 * ((x mod (~1 + (2 * ((x + ~1) div 3)))) div 2))
1: (8 * ((x mod (x - ((x + ~1) mod 8))) div 2))
1: (20 * (loop(\(x,i).(3x + ~1),x,2) div 2))
1: (8 * (x div 2))
1: (2x * ((x div 2) * (1 + (x div 2))))
1: ((~4x + 8) * (x div 3))
1: ((2x + ~4) * ((x div 3) * ((~x + 2) div 2)))
1: (8 * (x div (~x + 19)))
1: (18 * (x div 8))
1: (~42 * (x div 8))
1: (8 * (x div (~2x + 32)))
1: (8 * (x div (4 * (8 - (x div 2)))))
1: (8 * ((x div 3) mod 2))
1: (18 * ((2x mod (~1 + (2 * (x div 4)))) mod 2))
1: (8 * ((x mod (~1 + (2 * (x div 4)))) mod 2))
1: (12 * (x mod 2))
1: (4x * (x mod 2))
1: ((6x + 6) * (x mod 2))
1: (8 * (x mod (2 + (x mod 2))))
1: (8 * (if (2 - (x div 4)) <= 0 then 8 else (x + 1)))
1: (18 * (if (x + ~4) <= 0 then 0 else 2))
1: (12 * (if ((x + 2) mod 8) <= 0 then (x + 2) else 1))
1: (4 * ((if (x mod 2) <= 0 then 6 else 1) * (if x <= 0 then 1 else 2)))
1: (2 * ((if (x mod 4) <= 0 then 8 else 1) * (if x <= 0 then 1 else 2) * (2 - (x mod 2))))
1: (5x2 * (if (x mod 12) <= 0 then (x + 2) else 0))
1: ((4x2 + 2x + ~2) * (if x <= 0 then 0 else 2))
1: (45 * (if x <= 0 then 0 else 2))
1: (9 * ((if x <= 0 then 1 else 2) * (1 + (if (x mod 2) <= 0 then 2 else 0))))
1: (8 * loop(\(x,i).(10x + 1),x,loop(\(x,i).(10x + 10),x,0)))
1: (12 * loop(\(x,i).(10x + 21),x,1))
1: (8 * loop(\(x,i).(x + (if (~x + 2) <= 0 then x else 2)),x,(~x + 1)))
1: (8 * loop(\(x,i).(8x + loop(\(x,i).3x,i,1)),x,2))
1: (8 * loop(\(x,i).(2x + ~1),x,12))
1: (8 * loop(\(x,i).3x,(2x + 1),2))
1: ((4x + 4) * loop(\(x,i).3x,2x,2))
1: ((x3 + 8x2 + 19x + 12) * loop(\(x,i).5x,x,(x + 2)))
1: ((x3 + 6x2 + 11x + 6) * loop(\(x,i).(x * (4 + i)),x,4))
1: ((x3 + 8x2 + 19x + 12) * loop(\(x,i).(x * (4 + i)),x,(x + 2)))
1: (8 * loop(\(x,i).(2 * (x + (x div 2))),x,1))
1: ((6x + 6) * loop(\(x,i).(x2 + x),2,(x + 1)))
1: (8 * loop(\(x,i).(2x + 4),(x + 3),2))
1: (12 * loop(\(x,i).(2x + 4),(x + 1),1))
1: (28 * loop(\(x,i).(2x + 4),x,1))
1: (12 * loop(\(x,i).(2x + 4),x,4))
1: (8 * loop(\(x,i).(2 * (4x - (x div 2))),x,1))
1: (8 * loop(\(x,i).(x3 + ~x),(x2 + 1),2))
1: ((x3 + 4x2 + 3x) * loop(\(x,i).(x * (x - i)),2,(x + 3)))
1: (8 * loop(\(x,i).(x * (x - i)),2,(x + ~1)))
1: (12 * loop(\(x,i).(6 * (3x + (x div 2))),(x + 1),1))
1: (8 * loop(\(x,i).(4 * (2x + (x div 2))),x,1))
1: (4x2 * loop(\(x,i).x3,2,2x))
1: ((6x + 18) * loop(\(x,i).2x,(x + 2),(x + 2)))
1: (18 * loop(\(x,i).x2,1,(9x + 4)))
1: ((2x2 + 8x + 6) * loop(\(x,i).x2,2,(2x + ~1)))
1: ((2x2 + 4x + 2) * loop(\(x,i).x2,2,(5x + 5)))
1: (6x * loop(\(x,i).x2,2,2x))
1: (9x * loop(\(x,i).(((1 + loop(\(x,i).4x,x,2) - loop(\(x,i).3x,x,3)) div 2) div 2),1,3x))
1: (8 * loop(\(x,i).(x div (2 - (x mod 2))),3,(x + 1)))
1: (8 * loop(\(x,i).loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then 2 else 0)),x,(x + 2)),(x + 6),1))
1: (4x3 + 4x)
1: (4x * ((x + ~1) div 2))
1: (6x * (1 + i))
1: (10x * (1 + i))
1: ~12x
1: (6x2 + ~6x)
1: (2x * ((~1 + i) * (~2 + i)))
1: (2x4 + ~2x2)
1: (2x2 * (~1 + (2 * i)))
1: 21x2
1: (8x3 + 12x2)
1: (4x4 + 8x3 + 4x2)
1: (4x4 + 4x2)
1: (8x3 + ~4x2)
1: (x5 + 3x4 + 3x3 + x2)
1: (3x3 + 6x2)
1: (x5 + 4x4 + 5x3 + 2x2)
1: (~2x3 + 2x2)
1: (~3x3 + 3x2)
1: (~x5 + x4 + ~x3 + x2)
1: (x4 + 2x3 + ~3x2)
1: (x5 + ~x4 + ~x3 + x2)
1: ((x3 + ~x2) * (~1 + (x div 2)))
1: (x4 + ~4x2)
1: 6x3
1: (2x3 * (1 + (x mod 2)))
1: 3x4
1: 5x4
1: (3x5 + 2x4)
1: (x7 + x4)
1: (x6 + x4)
1: (x7 + x6)
1: (x7 + ~x6)
1: (x4 * (x2 div 2))
1: (2x2 * (x div 2))
1: ((x3 + x2) * (x div 2))
1: (x4 + 3x3)
1: (x5 + 2x3)
1: (x3 * (~1 + (2 * i)))
1: (2x4 + 4x3)
1: (x3 * ((x + 1) div 2))
1: (12 * i)
1: (2x * (i * (1 + i)))
1: (9x * i)
1: (12x * i)
1: (4x * (i * (1 + (2 * i))))
1: (4x * (i * (1 + i)))
1: (x * (i * (1 + i) * (1 + i)))
1: (3x * (i * (2 + i)))
1: (4x * (i * (2 + i)))
1: ((x3 + x2) * i)
1: ((x3 + ~2x2) * i)
1: (2 * (i * i * (~1 + i)))
1: (20 * (i * i))
1: (i * i * (1 + i) * (1 + i))
1: (x * (i * i * i * (1 + i)))
1: (4 * (i * i * i * i))
1: (5x * (i * i))
1: (~2x * (i * i))
1: (i * i * i * (1 + (i * i)))
1: (i * i * i * (1 + i))
1: (2x * (i * i * i))
1: (2 * (i * i * i * i))
1: (30 * compr(\x.(1 - (x mod (1 + (if (x mod 2) <= 0 then 6 else 0)))),x))
1: (10 * (2 div (x + ~16)))
1: (6 * (((3x + 2) - (x2 div (6 + ((x2 + ~x) div 11)))) div 2))
1: (6 * (((x + 2) + ((2 * (if (x mod 2) <= 0 then x else 1)) mod (x + 1))) div 2))
1: (6 * ((1 + (4 * (x + (if (x + ~4) <= 0 then 1 else 2)))) div 3))
1: (4 * (((x * (1 - ((x3 div 8) mod 2))) + (x mod 2)) div 3))
1: (21 * ((1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + ~1) div 2))) div 2))
1: ((3x + 3) * ((1 + ((x + 1) * loop(\(x,i).x3,1,loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1)))) div 2))
1: (4 * ((2x + 1) div (3 + (x div 4))))
1: (4 * ((2x + 1) div ~7))
1: (4 * ((x2 + 2) div (x + 2)))
1: (2 * (((x2 + 2) div (x + 2)) * (if x <= 0 then 1 else 2)))
1: (4 * ((2 + ((1 + ((1 + ((x3 div 4) div 3)) div 2)) div 2)) div 2))
1: (4 * ((2 + ((3 * (x + (4 * (if (~2 + (x div 4)) <= 0 then 0 else 2)))) div 2)) div 2))
1: (x2 * ((x + ((x5 + ~x3 + ~x2) div 2)) div 2))
1: (6 * ((1 + (5x3 div (x + 1))) div 2))
1: (4 * ((1 + ((5 * ((x2 + x) div 2)) div 3)) div 2))
1: (4 * ((1 + (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (x div (2 * (2 - (x mod 2)))))) div 2)) div 2))
1: (4 * ((1 + ((x * (x div 2)) div 3)) div 5))
1: (6 * ((1 + ((x * (x div 4)) div 2)) div 2))
1: (6 * ((1 + (x2 div 4)) div 2))
1: (4 * ((1 + ((((5x3 + 2x2 + ~3x) div 2) div 3) div 2)) div 2))
1: (4 * ((1 + (((loop(\(x,i).(x2 + 2x + ~2),1,loop(\(x,i).(2x + (i mod 2)),x,0)) div 2) div 2) div 2)) div 2))
1: (4 * ((1 + (((loop(\(x,i).(x2 + 2x),1,loop(\(x,i).(2x + (i mod 2)),x,0)) div 2) div 2) div 2)) div 2))
1: ((2x + 2) * ((1 + ((loop(\(x,i).(x + (x div (2 + (x mod 2)))),x,2) div 2) div 2)) div 2))
1: (4 * ((1 + (loop(\(x,i).(2x + 2),(x div 2),(x mod 2)) div 2)) div 2))
1: ((x2 + ~x) * ((1 + (loop(\(x,i).(2x * i),(x + ~2),1) div 2)) div 2))
1: (4 * ((1 + (loop(\(x,i).(x * i),(x + ~1),loop(\(x,i).loop(\(x,i).(~2 + i),((x + i) div 2),1),x,1)) div 2)) div 2))
1: (2 * (((1 + (x div 2)) div 2) * (((x + 1) div 2) div 2)))
1: ((2x + 2) * ((x + (x div 2)) div (if (x mod 2) <= 0 then 4 else (x + 1))))
1: (4 * ((1 + (x div 3)) div 2))
1: ((2x + 2) * ((1 + (x div 4)) div 2))
1: (6 * ((1 + (x2 mod (1 + (2 * ((x + 1) mod 3))))) div 2))
1: (6 * ((1 + (x mod 5)) div 2))
1: (4 * ((x + (if (~2 + (x div 2)) <= 0 then 1 else 0)) div 2))
1: (4 * (((if ((x + ~1) mod 8) <= 0 then x else 1) + (x div 9)) div 2))
1: (4 * (((if (x mod 2) <= 0 then 2 else x) + (x div 2)) div 3))
1: ((6x + 3) * ((x + 1) div 2))
1: (3 * (((x + 1) div 2) * (1 + (x div 2))))
1: (((x + 1) div 2) * (1 + (x div 2)) * (1 + (x div 2)))
1: (x * (((x + 1) div 2) * (1 + ((x + 1) div 2))))
1: (6 * ((x + 1) div 7))
1: (4 * ((x + 1) div (8 - ((x + 2) div 3))))
1: (4 * ((x + 1) div ~8))
1: (6 * ((x + 1) div (if ((x + 1) mod 5) <= 0 then 4 else 1)))
1: (4 * ((x + 2) div (1 + (if x <= 0 then 1 else 2))))
1: (6 * ((~x + 1) div 3))
1: (10 * ((~x + 1) div 3))
1: (4 * ((2 - ((x + 1) mod (~1 + (2 * ((~x + 1) div (2 + (x div 2))))))) div 2))
1: (4 * ((2 - (x mod (~2 + ((x div 2) mod (~2 - (x div 4)))))) div 2))
1: (8 * ((~x + 2) div 2))
1: (6 * ((~3 + loop(\(x,i).(2x + 40),(x + 1),1)) div 2))
1: (4 * ((x2 + 4x + 3) div 2))
1: (4 * ((2x - (x mod 4)) div 5))
1: (4 * (((x div 2) - (x * (x mod 2))) div 2))
1: (4 * ((loop(\(x,i).2x,x,2) - loop(\(x,i).(4x + 2),x,1)) div 2))
1: (4 * (((~x + ~1) + loop(\(x,i).x2,2,4)) div 2))
1: (4 * ((x + ~1) div 2))
1: ((x + 3) * (((x + ~1) div 2) * (x div 2)))
1: ((x + 1) * (((x + ~1) div 2) * (x div 2)))
1: (((x + ~1) div 2) * (x div 2) * (~1 + (x div 2)))
1: (4 * ((x + ~1) div 7))
1: (2 * (((x - ((x div 2) mod 2)) div 2) * ((x + 1) div 2)))
1: ((x2 + x) * ((2 * (4 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3))
1: (6 * ((5 * (2x + (if (~2 + (x div 5)) <= 0 then 2 else 1))) div 2))
1: (4 * ((3 * (1 + (x div 2) - ((x div 4) mod 2))) div 2))
1: (2x * (((x + 1) * (2 + (x div 4))) div 2))
1: (4 * ((3 * (1 + (x mod (1 + (2 * ((x + ~1) mod (1 + (x div (2 + ((x div 2) mod 3)))))))))) div 2))
1: ((x2 + 3x + 2) * ((2 * (2 + (if x <= 0 then 0 else (2 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))))) div 3))
1: (4 * ((2x + 2) div 7))
1: (21 * ((x2 + x) div 2))
1: ((3x + ~3) * ((x2 + x) div 2))
1: ((6x + 3) * ((x2 + x) div 2))
1: (2 * (((2x + 4) div 3) * (1 + ((x + 1) div 3))))
1: ((11x + 33) * ((x2 + 3x + 2) div 2))
1: ((2x2 + 7x + 3) * ((x2 + 3x + 2) div 2))
1: ((18x + 9) * ((x2 + 3x + 2) div 2))
1: (((x2 + 3x + 2) div 2) * (1 + (x div 2)) * (~1 + (2 * (x mod 2))))
1: ((3x + 3) * ((x2 + 3x + 2) div 2))
1: ((2x3 + 4x2 + 5x + 3) * ((x2 + 3x + 2) div 2))
1: (4 * ((x * (1 - ((x3 div 8) mod 2))) div 5))
1: (15 * ((~x2 + x) div 2))
1: (21 * ((~x2 + x) div 2))
1: (27 * ((~x2 + x) div 2))
1: (25 * ((~x2 + x) div 2))
1: (35 * ((~x2 + x) div 2))
1: ((5x + ~5) * ((~x2 + x) div 2))
1: ((7x + ~7) * ((~x2 + x) div 2))
1: (4 * ((4x2 + ~x) div 2))
1: (4 * ((2x + ~2) div 7))
1: ((x2 + 3x) * ((x2 + ~5x + 6) div 2))
1: (4 * ((3 * (x - ((~1 + (2 * ((~x + 2) div 4))) div 3))) div 2))
1: (((2x * (1 + (2 * i))) div (2 + i)) * (~1 + (2 * i)) * (1 + i))
1: (4 * ((16x3 + ~16x) div 3))
1: (6 * ((16x + 16) div 3))
1: (2 * (((2x * ((1 + (2 * i)) * (~1 + (2 * i)))) div (1 + i)) * i))
1: (x2 * ((x3 * (x + ((x + loop(\(x,i).x3,2,x)) div 2))) div 2))
1: (4 * ((8 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2)) div 3))
1: (2 * (((4 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2)) div 3) * (((x + 1) div 2) div 2)))
1: (4 * ((4 * (2x div 7)) div 3))
1: (4 * ((4 * (if (~4 + (x div 2)) <= 0 then x else (x + 2))) div 3))
1: (3 * ((4x div (1 + i)) * (~1 + (2 * i))))
1: ((4x div (1 + i)) * (~1 + (2 * i)) * (1 + (2 * i)))
1: (((2x * i) div (1 + i)) * (~1 + (2 * i)) * (1 + (2 * i)))
1: (((x * (i * (1 + i))) div 2) * (~1 + (2 * i)) * (1 + i))
1: (4 * ((x * (i * i)) div 2))
1: (4 * ((3 * ((1 + (2 * (loop(\(x,i).2x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2))) div 3)) div 2))
1: (4 * ((3 * ((1 + (x div 2)) div 2)) div 2))
1: (8 * ((((2x * (1 + (2 * i))) div (2 + i)) * (~1 + (2 * i))) div (1 + i)))
1: ((((4x div (1 + i)) * (~1 + (2 * i))) div (1 + i)) * (1 + (2 * i)) * i)
1: (6 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2))
1: (6 * ((2 * (x div 2)) div 3))
1: (6 * ((((~x2 + 2) mod (~1 + ((~2x + 2) mod (4 + (x div 4))))) * (1 + (x div 2))) div 2))
1: (4 * ((2 * loop(\(x,i).(x * (x - i)),2,(x + 3))) div 3))
1: (4 * (((2x + 1) * loop(\(x,i).6x,x,2)) div 3))
1: ((2x + 2) * (((x + 3) * loop(\(x,i).((x2 + ~x) div 2),2,(x + 4))) div 3))
1: (4 * (2x div 7))
1: (3 * ((2x div (1 + i)) * (1 + (2 * i))))
1: (9 * ((2x div (1 + i)) * (~1 + (2 * i))))
1: (6 * (2x div 15))
1: ((5x + 5) * (x2 div 2))
1: ((x2 + ~3x + 2) * (x2 div 2))
1: (2x * (x2 div 2))
1: (15 * (x2 div 3))
1: (2x * (x2 div 3))
1: (15 * (x2 div 4))
1: ((3x + 3) * (x2 div 4))
1: ((2x2 + ~3x + 1) * (x2 div 4))
1: (((i * i) div 2) * i * i)
1: (4 * (((x + 1) div 2) div 2))
1: (6 * (((x - (x mod 3)) div 2) div 2))
1: ((((x2 + ~x) div 2) div 3) * ((x + ~1) div 2) * (x div 2))
1: (4 * ((x2 div 2) div 3))
1: (4 * ((((x + 1) div 2) div 2) div 2))
1: (6 * ((((x + 1) div 2) div 2) div 2))
1: (4 * ((((3 - (x div 2)) mod (x + 1)) div 2) div 2))
1: (6 * ((loop(\(x,i).((x * (x + (x mod 3))) div 2),1,loop(\(x,i).2x,x,1)) div 3) div 2))
1: ((2x + 2) * ((x div 2) div (3 - (x mod 2))))
1: (6 * ((x div 2) div (1 + (if (x mod 2) <= 0 then 6 else 0))))
1: ((2x + 2) * ((x div 2) div (1 + (if (x mod 2) <= 0 then 6 else 1))))
1: (4 * ((x div 5) div (1 + (x mod 5))))
1: (9 * ((x div (1 + (2 * (if (x mod 10) <= 0 then 0 else 2)))) div 2))
1: (4 * (((2x + 1) mod (x - ((x + 1) mod 4))) div 2))
1: (6 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))
1: (3 * ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (((x + 1) div 2) div 2))))
1: (3 * ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (2 + (x div 4) - (x div 5))))
1: (3 * ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (2 * ((1 + (x div 2)) div 2)))))
1: (2 * ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 - (2 * ((x div 2) mod 2)))))
1: (2 * ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (if (x mod 3) <= 0 then 2 else 1)))
1: (2 * (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + ((x - (x mod 5)) div 2))))
1: (3 * (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + ((x * (1 + ((x div 2) mod 2))) div 3))))
1: (3 * (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (~1 + (3 * (((x + 1) div 2) div 2)))))
1: (3 * (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (~1 + (((2 - ((x div 2) mod 2)) * (x div 2)) div 3))))
1: (3 * (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (x - (2 * (((x + 1) div 2) div 2)))))
1: (3x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2))
1: (4 * (((x div 2) mod 5) div 2))
1: (4 * ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3))
1: (4 * ((x mod (x - ((x + ~1) mod 8))) div 2))
1: (4 * (loop(\(x,i).(x + (x div 3)),(x + ~2),4) div 3))
1: (10 * (loop(\(x,i).(3x + ~1),x,2) div 2))
1: ((6x + 3) * (loop(\(x,i).(x2 + x),2,x) div 2))
1: ((3x + ~3) * (loop(\(x,i).2x,(x + ~2),x) div 2))
1: (3 * ((loop(\(x,i).2x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2) * (1 + (x div 5))))
1: (4 * (loop(\(x,i).x2,x,2) div 3))
1: (6 * (x div 2))
1: ((2x2 + ~3x + ~2) * (x div 2))
1: (3 * ((x div 2) * (x div 2)))
1: (5x * (x div 2))
1: ((2x2 + x) * (x div 2))
1: (x * ((x div 2) * (1 + (x div 2))))
1: ((~2x + 4) * (x div 3))
1: ((~x2 + 4x + ~4) * (x div 3))
1: ((x2 + ~2x) * (x div 3))
1: (x * ((x div 3) * (x div 4)))
1: (2x * (x div 4))
1: (6 * (x div 5))
1: (2x * (x div 7))
1: (51 * (x div 13))
1: (4 * (x div (1 + (2 * (3 - (x mod 2))))))
1: (4 * (x div (2 + (x mod (1 + ((x + 1) div (1 + (((2x div (1 + (x div 4))) mod 2) + (x mod 2)))))))))
1: (4 * (x div (~x + 19)))
1: (2x * (x div (2 - ((x div 2) mod 2))))
1: ((2x2 + 7x + 6) * (x div (2 - (x mod 2))))
1: (4 * (x div ~3))
1: (4 * (x div ~5))
1: (~14 * (x div 8))
1: (6 * (x div (3 * (2 + (x mod 7)))))
1: (4 * (x div (~2x + 32)))
1: (6 * (x div (4 * (2 - ((x * (x div 2)) mod 2)))))
1: (4 * (i div 2))
1: (14 * (2 mod (1 + (x div 2))))
1: (4 * (2 mod (1 + (x mod (2 + (x mod 2))))))
1: (4 * ((2x + 1) mod (1 + (2x mod (2 + (x div 4))))))
1: (6 * ((1 + (loop(\(x,i).3x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 3)) mod (x + 4)))
1: (4 * ((x + 1) mod 3))
1: (4 * ((x + 1) mod 4))
1: (6 * ((x + 2) mod (1 + ((x + (x div 4)) mod (1 + (x div 2))))))
1: (6 * (~x mod (1 + (x div 3))))
1: (4 * ((~x + 2) mod 4))
1: (6 * ((~x + 2) mod 4))
1: (10 * ((~x + 2) mod 4))
1: (14 * ((~x + 2) mod 4))
1: (4 * ((~x + 2) mod 9))
1: (4 * ((~1 + (if (x mod 2) <= 0 then x else 0)) mod (~1 + ((~2x + 2) mod (4 + (x div 4))))))
1: (6 * ((x + ~1) mod (1 + ((x * (x mod 2)) div 5))))
1: (4 * ((x - (2 * ((x div 2) mod 2))) mod 8))
1: (6 * ((x - (x div (~3 + (x div ~4)))) mod 2))
1: (4 * ((x2 + x) mod 3))
1: (4 * (4x mod 7))
1: (9 * ((x * (x div 2)) mod (1 + (if (x mod 8) <= 0 then 2 else 1))))
1: (4 * (2x mod 5))
1: (4 * (2x mod 7))
1: (4 * (2x mod 25))
1: ((2x + 2) * (((2 + (x * (x mod 6))) div (x + 2)) mod 2))
1: (4 * ((2x div (4 + (x div 4))) mod 2))
1: (4 * ((((x + ~1) mod (1 + (2 * ((~x + 1) mod 3)))) div 2) mod 2))
1: (9 * ((x div 2) mod 2))
1: (4 * ((x div 2) mod 4))
1: (4 * ((x div 3) mod 2))
1: (4 * ((x div 3) mod 3))
1: (6 * ((x div 3) mod 3))
1: (6 * ((x div 4) mod 2))
1: (6 * ((x div 7) mod 2))
1: (6 * ((x div ~7) mod 2))
1: (4 * ((x div ~5) mod 2))
1: ((x2 + 2x + 1) * (((x + 1) mod (1 + (x div 3))) mod 2))
1: (2 * ((((x * (x div 3)) mod 3) mod 2) * ((x + ~1) div 2)))
1: (4 * ((2x mod (2 + (x div 2))) mod 2))
1: (6 * ((2x mod (~1 + (2 * (x div 4)))) mod 2))
1: (4 * ((x2 mod (2x + ~5)) mod 2))
1: (4 * ((x mod (1 + (2 * (if (x mod 4) <= 0 then 0 else 2)))) mod 2))
1: (4 * ((x mod (~2 - (x div 3))) mod 2))
1: ((2x + 2) * ((x mod (~2 - (x mod 4))) mod 2))
1: ((x2 + 2x + 1) * ((x mod (~3 + (x mod 2))) mod 2))
1: (4 * ((x mod (~1 + (2 * (x div 3)))) mod 2))
1: (6 * ((x mod (~1 + (2 * (x div 3)))) mod 2))
1: (2 * (((x mod (~1 + (2 * (x div 3)))) mod 2) * (~2 + (x div 2))))
1: (4 * ((x mod (~1 + (2 * (x div 4)))) mod 2))
1: (6 * ((if (x mod 3) <= 0 then 1 else x) mod 6))
1: ((4x2 + 4x + 1) * ((if x <= 0 then 1 else x) mod 2))
1: (6 * (loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)))
1: ((4x + 2) * (x mod 2))
1: (2 * ((x mod 2) * (x div 3)))
1: ((5x + 5) * (x mod 2))
1: ((5x + 10) * (x mod 2))
1: (3x * (x mod 2))
1: ((x2 + 2x) * (x mod 2))
1: (x3 * (x mod 2))
1: (x * ((x mod 2) * (x div 2)))
1: (3 * ((x mod 2) * i))
1: (3x * (x mod 3))
1: (5x * (x mod 3))
1: (x * ((x mod 3) * (x mod 5)))
1: (6 * (x mod 5))
1: (10 * (x mod 5))
1: (4 * (x mod (1 + (4 * (if (x mod 3) <= 0 then 0 else 2)))))
1: (4 * (x mod (1 + (2 * (if ((x2 + x) mod 8) <= 0 then 2 else 0)))))
1: (4 * (x mod (1 + (2 * (if (x mod 3) <= 0 then 0 else 2)))))
1: (4 * (x mod (2 + ((~x + 2) mod 4))))
1: (10 * (x mod (2 + ((~x + 2) mod 4))))
1: (6 * (x mod (1 + (((x2 + ~1) div 2) mod (1 + (x div 3))))))
1: (4 * (x mod 11))
1: (4 * (x mod 10))
1: (6 * (x mod 10))
1: (10 * (x mod 10))
1: (4 * (x mod (2 * (1 + (2 * (x mod 2))))))
1: (4 * (x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4)))))))
1: (4 * (x mod (2 * (2 - (x mod 2)))))
1: (4 * (i mod 2))
1: ((i mod 2) * i * (2 + i))
1: ((2x + 2) * (if (~x + 2) <= 0 then (2x + 5) else x))
1: ((3x + 3) * (if (~x + 2) <= 0 then 3x else 1))
1: (27 * (if (~4 + (x div 2)) <= 0 then 0 else 2))
1: (6 * (if (~4 + (x div 2)) <= 0 then x else (x + 3)))
1: (4 * (if (~2 + (x div 2)) <= 0 then 1 else 4))
1: (6 * (if (~2 + (x div 2)) <= 0 then x else (x + 1)))
1: ((x + 1) * ((if (~2 + (x div 3)) <= 0 then 1 else 2) * (1 + (x div 3))))
1: (10 * (if (~2 + (x div 4)) <= 0 then 0 else 2))
1: (15 * (if (~2 + (x div 4)) <= 0 then 0 else 2))
1: (9 * (if (~2 + (x div 4)) <= 0 then 1 else 2))
1: (4 * (if (~2 + (x div 5)) <= 0 then 0 else 2))
1: (4 * (if (~2 + (x mod (1 + (x div 3)))) <= 0 then 1 else 2))
1: (4 * (if (x + ~1) <= 0 then 8 else x))
1: (27 * (if (x + ~2) <= 0 then 0 else 2))
1: (2x * (if (x + ~2) <= 0 then 2 else i))
1: (x2 * (if (x + ~2) <= 0 then x else (x2 + 2x + 1)))
1: (4x * (if (x + ~2) <= 0 then x else (x + 1)))
1: (4 * (if (x + ~3) <= 0 then 1 else 6))
1: (6 * (if (x + ~4) <= 0 then 0 else 2))
1: ((x + 1) * ((if (x + ~4) <= 0 then 1 else 2) * (1 + (x div 3))))
1: (4 * (if (x + ~4) <= 0 then 1 else 4))
1: (4 * (if (x + ~12) <= 0 then 0 else 2))
1: (4 * (if (x + ~10) <= 0 then x else (x + 2)))
1: (6 * (if (~2 + i) <= 0 then 1 else x))
1: (4 * (if ((2 + (loop(\(x,i).4x,x,(2 - ((2x + 2) mod 5))) div 3)) div 3) <= 0 then 1 else 2))
1: (2x * (if ((1 + loop(\(x,i).x2,x,loop(\(x,i).(x * i),x,1))) div 3) <= 0 then 1 else 2x))
1: (6 * (if (5 mod (if x <= 0 then 1 else x)) <= 0 then 1 else 2))
1: (2 * ((if ((x + 1) mod (1 + (x div 4))) <= 0 then 1 else 2) * (1 + ((x mod 3) div 2))))
1: (4 * (if ((x + 2) mod 8) <= 0 then (x + 2) else 1))
1: (6 * (if (16 mod (x + 1)) <= 0 then 2 else 0))
1: ((3x + 3) * (if (16 mod (x + 1)) <= 0 then 2 else 0))
1: (4 * (if (x mod 2) <= 0 then 1 else 4))
1: ((x2 + x) * (if (x mod 2) <= 0 then 1 else x))
1: (4 * (if (x mod 2) <= 0 then 4 else 1))
1: (2 * ((if (x mod 2) <= 0 then 4 else 1) * (if x <= 0 then 1 else 2)))
1: ((x2 + x) * (if (x mod 2) <= 0 then 4 else 1))
1: (x2 * (if (x mod 2) <= 0 then 4 else 1))
1: (14 * (if (x mod 2) <= 0 then (2 + (if x <= 0 then 0 else 2)) else 1))
1: (4 * (if (x mod 2) <= 0 then (~x + 1) else x))
1: (2 * ((if (x mod 2) <= 0 then 15 else 1) * (if x <= 0 then 1 else 2)))
1: (4 * (if (x mod 2) <= 0 then 6 else 1))
1: (2 * ((if (x mod 2) <= 0 then 6 else 1) * (if x <= 0 then 1 else 2)))
1: ((2x + 2) * (if (x mod 2) <= 0 then 8 else 1))
1: (2 * ((if (x mod 2) <= 0 then 8 else 1) * (if x <= 0 then 1 else 2)))
1: (4 * (if (x mod 2) <= 0 then 12 else 1))
1: (2 * ((if (x mod 2) <= 0 then 10 else 1) * (if x <= 0 then 1 else 2)))
1: (6 * (if (x mod 2) <= 0 then (5 * (if x <= 0 then 1 else 2)) else 1))
1: (2 * ((if (x mod 2) <= 0 then 14 else 1) * (if x <= 0 then 1 else 2)))
1: (4 * (if (x mod 2) <= 0 then ((~1 + (5 * (2 - ((x div 2) mod 2)))) * (if x <= 0 then 1 else 2)) else 1))
1: (10 * (if (x mod 2) <= 0 then ((~1 + (5 * (2 - ((x div 2) mod 2)))) * (if x <= 0 then 1 else 2)) else 1))
1: (6 * (if (x mod 2) <= 0 then ((~1 + (9 * (2 - ((x div 2) mod 2)))) * (if x <= 0 then 1 else 2)) else 1))
1: (4 * (if (x mod 2) <= 0 then (14x + 28) else 2))
1: (6 * (if (x mod 2) <= 0 then (3 * (if x <= 0 then 1 else 2)) else 1))
1: ((x2 + 3x) * (if (x mod 2) <= 0 then x else 1))
1: (x2 * (if (x mod 2) <= 0 then x else 1))
1: (6 * (if (x mod 3) <= 0 then 0 else 2))
1: (4 * (if (x mod 3) <= 0 then 0 else (1 - (2 * ((x div 5) mod 2)))))
1: (2 * ((if (x mod 3) <= 0 then 1 else (2 + (x div 3))) * (1 + (x div 3))))
1: (4 * (if (x mod 4) <= 0 then 0 else 2))
1: (14 * (if (x mod 4) <= 0 then 0 else 2))
1: ((2x + 2) * (if (x mod 4) <= 0 then 2 else 2x))
1: (6 * (if (x mod 4) <= 0 then 4 else 1))
1: (2 * ((if (x mod 4) <= 0 then 4 else 1) * (if x <= 0 then 1 else 2)))
1: (2 * ((if (x mod 4) <= 0 then 13 else 1) * (if x <= 0 then 1 else 2)))
1: ((if (x mod 4) <= 0 then 29 else 1) * (if x <= 0 then 1 else 2) * (1 + (2 * (x mod 2))))
1: ((if (x mod 4) <= 0 then 31 else 1) * (if x <= 0 then 1 else 2) * (1 + (x mod 2)))
1: (4 * (if (x mod 4) <= 0 then (5 * (if x <= 0 then 1 else 2)) else 1))
1: (2 * ((if (x mod 4) <= 0 then (7 * (if x <= 0 then 1 else 2)) else 1) * (2 + (x mod 2))))
1: (4 * (if (x mod 5) <= 0 then 10 else 1))
1: (6 * (if (x mod (1 + ((x + ~1) mod 4))) <= 0 then 1 else 2))
1: (6 * (if (x mod 8) <= 0 then 1 else (x mod 2)))
1: ((x2 + ~2x) * (if (x mod 12) <= 0 then 2 else 0))
1: (5x * (if (x mod 12) <= 0 then (x + 2) else 0))
1: ((if (i mod 2) <= 0 then 1 else i) * i * i)
1: (2x * (if (i mod 3) <= 0 then 1 else 2))
1: ((2x + 2) * (if x <= 0 then 0 else 2))
1: (9 * (if x <= 0 then 0 else 2))
1: ((2x2 + 3x + 1) * (if x <= 0 then 0 else 2))
1: ((2x2 + x + ~1) * (if x <= 0 then 0 else 2))
1: (3 * ((if x <= 0 then 1 else 2) * (1 + (if (x mod 2) <= 0 then 2 else 0))))
1: (3 * ((if x <= 0 then 1 else 2) * (if (x mod 2) <= 0 then 4 else 1)))
1: ((3x + 3) * (if x <= 0 then 1 else ((x2 + 2) + loop(\(x,i).x2,2,x2))))
1: (4 * (if x <= 0 then 1 else (2 + (3 * ((1 + loop(\(x,i).2x,x,(1 + loop(\(x,i).3x,x,1)))) div 3)))))
1: (9 * (if x <= 0 then 1 else (2 + (x mod 2))))
1: ((2x + 2) * (if x <= 0 then 1 else (2 + loop(\(x,i).(2 * (2x - (x div (1 + i)))),x,2))))
1: ((2x + 2) * (if x <= 0 then 1 else (x + 2)))
1: (4 * (if x <= 0 then 1 else (x - (x mod 3))))
1: (6 * (if x <= 0 then 1 else (4x2 + 2)))
1: (6 * (if x <= 0 then 1 else (4 * ((x + 1) + (3 * (x + (x mod 2)))))))
1: (10 * (if x <= 0 then 1 else (2x2 + 8x)))
1: ((3x + 3) * (if x <= 0 then 1 else (3x6 + 3x)))
1: (4 * (if x <= 0 then 1 else (4x3 + 2x)))
1: (4 * (if x <= 0 then 1 else (2x3 + 4x)))
1: (4 * (if x <= 0 then 1 else (~2x3 + 2x)))
1: ((4x + 2) * (if x <= 0 then 1 else 4x))
1: ((2x + 4) * (if x <= 0 then 1 else 2x))
1: ((2x + 4) * (if x <= 0 then 1 else x))
1: (4 * (if x <= 0 then 2 else (x - (2 * (~2x + ((x + (x div 2)) div 4))))))
1: ((3x + 3) * (if x <= 0 then 2 else 2x2))
1: ((2x + 2) * (if x <= 0 then 2 else x))
1: (9 * (if x <= 0 then 3 else x))
1: ((2x + 6) * (if x <= 0 then 8 else 2))
1: ((x3 + 3x2 + 3x + 1) * loop(\(x,i).((3x + 2) + i),6,3))
1: (4 * loop(\(x,i).(~x + 6),(x div 2),(x mod 2)))
1: (4 * loop(\(x,i).((2x + 1) - (x mod 2)),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1))
1: (4 * loop(\(x,i).((2x + ~1) + ((2 * ((2x + 2) + (((2x + 1) + (2 * ((x + 1) + (5 * (x + (x div 4)))))) div 3))) div 3)),x,1))
1: (18 * loop(\(x,i).(3x + 2),4,x))
1: (10 * loop(\(x,i).(5x + 2),(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),2))
1: (4 * loop(\(x,i).(5x + 2),(x div 2),(1 + (x mod 2))))
1: (4 * loop(\(x,i).(x + ((1 + (4 * i)) * i)),x,x))
1: (x2 * loop(\(x,i).(x2 + x + 2),2,2))
1: (6 * loop(\(x,i).(3x + 4),x,2))
1: (6 * loop(\(x,i).(x2 + 2x + 1),x,8))
1: (2x * loop(\(x,i).(x + ((~1 + i) * i)),(x + ~2),1))
1: (3 * (loop(\(x,i).(10x + 1),(x div 2),1) * (1 + (2 * (x mod 2)))))
1: (3 * (loop(\(x,i).(10x + 1),(x div 2),(x mod 2)) * (1 + (x mod 2))))
1: ((x2 + 3x + 2) * loop(\(x,i).(10x + 1),x,1))
1: (6 * loop(\(x,i).(10x + 1),x,loop(\(x,i).(10x + 10),x,0)))
1: (9 * loop(\(x,i).(10x + (i mod 2)),x,1))
1: (4 * loop(\(x,i).(10x + 81),x,1))
1: ((x2 + 2x + 1) * loop(\(x,i).(5x + 8),x,1))
1: (4 * loop(\(x,i).(10x + 21),x,1))
1: (6 * loop(\(x,i).(10x + 21),x,1))
1: (18 * loop(\(x,i).(10x + 21),x,1))
1: (21 * loop(\(x,i).(2x + 1),(x + 2),2))
1: (6 * loop(\(x,i).(x2 + 1),1,loop(\(x,i).(2x + 2),x,0)))
1: (2x2 * loop(\(x,i).(x2 + 2),2,2))
1: (x2 * loop(\(x,i).(x2 + 2),2,2))
1: ((x2 + 3x + 2) * loop(\(x,i).(x + (i * i)),(x + 1),0))
1: ((x2 + 3x + 2) * loop(\(x,i).(x + (i * i)),(x + 1),1))
1: (4 * loop(\(x,i).(2 + ((x2 + ~x) div 2)),x2,1))
1: (4 * loop(\(x,i).(2x + (14x div (1 + i))),2x,2))
1: (4 * loop(\(x,i).(2x + (((x div 2) + i) mod 2)),x,1))
1: (4 * loop(\(x,i).(x + (if (~x + 2) <= 0 then x else 2)),x,(~x + 1)))
1: (4 * loop(\(x,i).(2x + loop(\(x,i).(4x + loop(\(x,i).3x,i,1)),i,1)),x,2))
1: (4 * loop(\(x,i).(8x + loop(\(x,i).3x,i,1)),x,2))
1: ((x2 + 2x + 1) * loop(\(x,i).(x + 1),(if x <= 0 then 3 else x),3))
1: (2 * (loop(\(x,i).(2 + i),loop(\(x,i).(x div (1 + (x mod 2))),x,x),1) * (x mod 2)))
1: ((2x + 2) * loop(\(x,i).(x + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)),(x + 2),x))
1: (4 * loop(\(x,i).((x + ~1) + (4 * (i * i))),(x + 1),0))
1: (6 * loop(\(x,i).(3x + 5),x,2))
1: (x2 * loop(\(x,i).(2x2 + ~1),2,2))
1: (4 * loop(\(x,i).(2x + ~1),x,12))
1: (6 * loop(\(x,i).(2x + ~1),x,12))
1: ((2x + 2) * loop(\(x,i).(((2x + 1) div 3) - (((x2 + ~x) div 2) div (x + 3))),2,x))
1: (10 * loop(\(x,i).(x + ~2),(x + ~5),x))
1: (4 * loop(\(x,i).3x,(2x + 1),2))
1: (4 * loop(\(x,i).3x,(x + 1),(if x <= 0 then 1 else 4)))
1: ((x2 + ~3x + 2) * loop(\(x,i).3x,(x + ~2),x))
1: (4 * loop(\(x,i).3x,(2 * (x div 2)),2))
1: ((4x + 2) * loop(\(x,i).3x,2x,2))
1: (4 * loop(\(x,i).3x,2x,(2x + 4)))
1: ((x2 + 5x + 4) * loop(\(x,i).5x,x,(x + 2)))
1: (14 * loop(\(x,i).(2x + 12),(x + 2),0))
1: (4 * loop(\(x,i).(x2 + 3x),1,loop(\(x,i).2x,x,2)))
1: ((x2 + 3x + 2) * loop(\(x,i).(x * (3 + i)),x,(x + 3)))
1: ((x2 + x) * loop(\(x,i).(x * (4 + i)),(x + ~1),x))
1: ((x2 + 3x + 2) * loop(\(x,i).(x * (4 + i)),x,4))
1: ((x3 + 3x2 + 3x + 1) * loop(\(x,i).(x * (4 + i)),x,(x + 1)))
1: ((x2 + 4x + 3) * loop(\(x,i).(x * (4 + i)),x,(x + 2)))
1: ((x2 + 5x + 6) * loop(\(x,i).(x * (4 + i)),x,(x + 2)))
1: (4 * loop(\(x,i).(2 * ((x + 1) + i)),x,2))
1: (4 * loop(\(x,i).7x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),2))
1: ((3x + 3) * loop(\(x,i).7x,x,2))
1: (6 * loop(\(x,i).(2x + 16),(x + 1),1))
1: ((4x + 6) * loop(\(x,i).(13x + 13),2,x))
1: (4 * loop(\(x,i).(10x + 2),x,(1 - loop(\(x,i).(10x + ~20),x,0))))
1: ((x2 + 4x + 3) * loop(\(x,i).(x * (1 + (2 * (2 + i)))),x,(x + 2)))
1: ((9x + 9) * loop(\(x,i).(3 * (2 + (x * (2 + i)))),2,x))
1: (4 * loop(\(x,i).(2x + 32),x,3))
1: ((x2 + x) * loop(\(x,i).(x5 + x4 + x3 + x2 + x + 1),1,x2))
1: ((2x + 2) * loop(\(x,i).(2 * ((x * i) + (x div 2))),x,1))
1: (4 * loop(\(x,i).(2 * (2 + ((if x <= 0 then 2 else (~2 + loop(\(x,i).4x,(x + 1),2))) div 2))),x,2))
1: (4 * loop(\(x,i).(2 * (x + (x div 2))),x,1))
1: (2x * loop(\(x,i).(x * (2 + (x mod 4))),x,1))
1: (4 * loop(\(x,i).(2x + 2),(x + 2),2))
1: ((2x + 2) * loop(\(x,i).(x2 + x),2,(x + 1)))
1: (4 * loop(\(x,i).(x2 + x),x,1))
1: (4 * loop(\(x,i).(2x + 4),(x + 3),2))
1: (4 * loop(\(x,i).(2x + 4),(x + 1),1))
1: (4 * loop(\(x,i).(2x + 4),(x + 1),2))
1: (4 * loop(\(x,i).(2x + 4),x,1))
1: (34 * loop(\(x,i).(2x + 4),x,1))
1: (4 * loop(\(x,i).(2x + 4),x,2))
1: (4 * loop(\(x,i).(2x + 4),x,3))
1: ((x2 + ~x) * loop(\(x,i).(x2 + 2x),1,(~x + 3)))
1: (x2 * loop(\(x,i).(x2 + 2x),2,2))
1: (2x * loop(\(x,i).((x + 2) * (x + i)),2,2))
1: (4 * loop(\(x,i).(~2x + 4),x,2))
1: (4 * loop(\(x,i).(2 * (4x - (x div 2))),x,1))
1: ((x2 + 6x + 9) * loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),(x + 2),2))
1: ((x2 + x) * loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),(x + ~1),x))
1: (x2 * loop(\(x,i).(2x2 + ~2),2,2))
1: (4 * loop(\(x,i).(x3 + ~x),(x2 + 1),2))
1: (4 * loop(\(x,i).(x2 + ~x),2,(x + 2)))
1: ((x2 + 6x + 9) * loop(\(x,i).(x * ((x + 1) - i)),2,(x + 2)))
1: ((x2 + x) * loop(\(x,i).(x * (x - i)),2,(x + 3)))
1: (4 * loop(\(x,i).(x * (x - i)),2,(x + ~1)))
1: (x * (loop(\(x,i).(x * (x - i)),2,(x + ~2)) * (if (~2 + (x div 2)) <= 0 then 0 else 1)))
1: ((x2 + ~x) * loop(\(x,i).(x * (x - i)),2,(x + ~3)))
1: (4 * loop(\(x,i).(x * (x - i)),(if x <= 0 then 1 else 2),(x + 2)))
1: (6 * loop(\(x,i).(6 * (3x + (x div 2))),(x + 1),1))
1: (4 * loop(\(x,i).(4 * (2x + (x div 2))),x,1))
1: ((3x + 3) * loop(\(x,i).(3x2 + 12x + 12),2,1))
1: (4 * loop(\(x,i).10x2,(3x + 1),1))
1: (x2 * loop(\(x,i).(8x3 + ~4x2),(x + ~1),1))
1: ((2x2 + 7x + 3) * loop(\(x,i).4x,x,(x + 1)))
1: ((8x + 6) * loop(\(x,i).6x,x,2))
1: (x3 * loop(\(x,i).2x2,2,2x))
1: (x2 * loop(\(x,i).3x2,2,2x))
1: (4 * loop(\(x,i).(x3 + x2),x2,2))
1: (2x2 * loop(\(x,i).(x2 * (2 + i)),2,x))
1: (x2 * loop(\(x,i).2x3,2,4x))
1: (4 * loop(\(x,i).(x2 * (x div 2)),(x + 4),2))
1: (3x * loop(\(x,i).x3,2,3x))
1: (4x * loop(\(x,i).x3,2,4x))
1: (2x * loop(\(x,i).x3,2,2x))
1: (x2 * loop(\(x,i).x3,2,2x))
1: ((x3 + x) * loop(\(x,i).x3,2,x))
1: ((x2 + x) * loop(\(x,i).x3,2,x))
1: ((x2 + ~x) * loop(\(x,i).(x * loop(\(x,i).(x * (x - i)),2,(x + ~2))),1,(x + ~2)))
1: ((2x + 6) * loop(\(x,i).2x,(x + 2),(x + 2)))
1: ((3x + 9) * loop(\(x,i).2x,(x + 2),(x + 2)))
1: ((x2 + 3x) * loop(\(x,i).2x,(x + ~1),x))
1: (6 * loop(\(x,i).2x,(x + ~2),loop(\(x,i).5x,(x + 1),2)))
1: (4 * loop(\(x,i).2x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),2))
1: (4 * loop(\(x,i).2x,(x div 2),2))
1: (22 * loop(\(x,i).2x,(x div 2),(2 - (x mod 2))))
1: (loop(\(x,i).2x,i,i) * i * i * i)
1: (6 * loop(\(x,i).x2,1,(9x + 4)))
1: (4 * loop(\(x,i).x2,1,((x + 1) - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x))))
1: ((x2 + 4x + 3) * loop(\(x,i).x2,1,((x2 + 3x + 2) div 2)))
1: ((x2 + 5x + 6) * loop(\(x,i).x2,1,((x2 + 3x + 2) div 2)))
1: ((x2 + 3x + 2) * loop(\(x,i).x2,1,loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,1)))
1: ((2x + 4) * loop(\(x,i).x2,2,(x + 2)))
1: ((x2 + 4x + 3) * loop(\(x,i).x2,2,(2x + ~1)))
1: ((x2 + ~x) * loop(\(x,i).x2,2,(x + ~2)))
1: ((2x + 2) * loop(\(x,i).x2,2,(5x + 5)))
1: (x2 * loop(\(x,i).x2,2,8x))
1: (x3 * loop(\(x,i).x2,2,x5))
1: ((x3 + 3x2 + 3x + 1) * loop(\(x,i).x2,2,loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1)))
1: (x2 * loop(\(x,i).x2,(1 + i),x))
1: (4 * loop(\(x,i).x2,(x mod 2),7))
1: (6 * loop(\(x,i).(x * i),(x + ~1),x))
1: ((2x + ~2) * loop(\(x,i).(x * i),(x + ~1),x))
1: ((x2 + 5x + 4) * loop(\(x,i).((x2 + ~x) div 2),2,(x + 4)))
1: ((x2 + 3x + 2) * loop(\(x,i).((x2 + ~x) div 2),2,(x + 4)))
1: ((x2 + x) * loop(\(x,i).((x2 + ~x) div 2),2,(x + 2)))
1: (x2 * loop(\(x,i).((x2 + ~x) div 2),2,(x + 2)))
1: ((2x2 + ~x) * loop(\(x,i).((x2 + ~x) div 2),2,(x + ~2)))
1: ((x2 + 5x + 6) * loop(\(x,i).((x2 + ~x) div 2),2,x))
1: (2 * (loop(\(x,i).((x2 + ~x) div 2),(x + ~1),(1 + (x mod 3))) * (x mod 2)))
1: ((x2 + 3x + 2) * loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x + 1),2))
1: (3x * loop(\(x,i).(((1 + loop(\(x,i).4x,x,2) - loop(\(x,i).3x,x,3)) div 2) div 2),1,3x))
1: (2x * loop(\(x,i).(loop(\(x,i).(2x * (~1 + (2 * i))),(x + ~2),x) div 2),1,(x + ~1)))
1: (4 * loop(\(x,i).(x div (2 - (x mod 2))),3,(x + 1)))
1: (9 * loop(\(x,i).(x3 mod 47),2,x))
1: (6 * loop(\(x,i).(if (x + ~1) <= 0 then i else (x + ~1)),x,0))
1: ((3x + 3) * loop(\(x,i).(if x <= 0 then (x + 1) else (2 - loop(\(x,i).(x - (2 * (~2x + (i mod 2)))),x,0))),x,1))
1: (4 * loop(\(x,i).loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then 2 else 0)),x,(x + 2)),(x + 6),1))
1: (4 * loop(\(x,i).loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then 2 else 0)),x,(x + 2)),(x + 4),1))
1: (6 * loop(\(x,i).loop(\(x,i).x3,4,2),(x + ~2),loop(\(x,i).6x,x,1)))
1: (2x * loop(\(x,i).loop(\(x,i).(x * i),x,(if (x + ~2) <= 0 then x else 1)),1,(x + ~1)))
1: (4 * loop(\(x,i).i,(~4 + (x div 2)),1))
1: (4 * loop(\(x,i).i,(~2 + (x div 2)),1))
1: (4 * loop(\(x,i).i,(x + ~8),1))
1: (10 * loop(\(x,i).i,(x div 5),1))
1: (2x * (~1 + i))
1: ~x3
1: ((2x + 2) * i)
1: ((2x + ~4) * i)
1: (~x2 * i)
1: (x * (i * (~1 + i)))
1: (x3 * i)
1: (i * i * (x + i))
1: ((x + ~1) * (i * i))
1: (i * i * (i div 2))
1: (i * i * (x mod 2))
1: (4 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(8x + ~1))),x))
1: (4 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(x2 + ~2))),x))
1: (14 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(7x + ~1))),x))
1: (6 * compr(\x.(1 - (x mod (1 + (if (x mod 2) <= 0 then 6 else 0)))),x))
1: (4 * compr(\x.(2 - ((x + 1) mod (1 + (2 * (if ((x + 1) mod 8) <= 0 then 2 else 1))))),x))
1: (6 * compr(\x.(2 - ((x2 - ((x div 4) mod 2)) mod 5)),x))
1: (4 * compr(\x.(~1 + (x mod 4) - (x mod 5)),x))
1: (4 * compr(\x.(x - loop(\(x,i).loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),x,(2x + 1)),2,(x + ~1))),x))
1: (6 * compr(\x.loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(3x + ~1)),x))
1: (6 * compr(\x.loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,4x),x))
1: (4 * compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(4x + ~1)),(x + 1)))
1: (6 * compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(4x + ~1)),(x + 1)))
1: ((2x + 1) * (1 div (x2 + ~3)))
1: ((x + 1) * (2 div (1 + ((x + 1) mod 16))))
1: (2 * (2 div (1 + (~x mod 4))))
1: (2 * (2 div (1 + ((x + ~1) mod 4))))
1: (x * (2 div (6 - (x div 3))))
1: ((2 div (8 - ((x * (x mod 2)) div 2))) * ((x + 1) div 2))
1: (9 * (2 div (8 - (x div 2))))
1: (2 * (2 div (~x + 16)))
1: (5 * (2 div (x + ~16)))
1: (2 * (2 div (if x <= 0 then 1 else x)))
1: (3 * (2 div (if x <= 0 then 1 else x)))
1: (2 * (3 div (4 - (((~2x + 2) mod (4 + (x div 4))) div 2))))
1: (x * (5 div (x + 1)))
1: (2 * (((3x + 2) - (x2 div (6 + ((x2 + ~x) div 11)))) div 2))
1: (2 * (((2x + 1) + (2 * ((x + 1) + (((x + 1) + (((x + 1) + ((2 * (x3 div (x + 2))) div 3)) div 2)) div 2)))) div 3))
1: (2 * (((2x + 1) + (2 * (1 + (((10x2 + 27x + 14) div 2) div 2)))) div 3))
1: (2 * (((2x + 1) + (2 * ((x + 1) - loop(\(x,i).(x + (if (~2 + (x div 4)) <= 0 then 1 else 2)),2,x)))) div 3))
1: (2 * (((2x + 1) + (2 * ((8x + 1) div (1 + (if x <= 0 then 0 else 2))))) div 3))
1: (2 * (((2x + 1) + (2 * ((3 * (1 + ((4 * ((2x + 1) - ((x div 2) div 3))) div 3))) div 2))) div 3))
1: (2 * (((2x + 1) + (2 * ((x + ((~x + 1) mod 3)) mod 5))) div 5))
1: (2 * (((x + 4) + ((2 * (2x - ((x div 2) div ~5))) div 5)) div 2))
1: (2 * ((x + 5) div (6 * (1 + (x mod 2)))))
1: (2 * (((x + 2) + (((x + 1) div (2 * (1 + (x mod (2 + (x mod 2)))))) div 2) - (x mod 2)) div 2))
1: (2 * (((x + 1) + (x div 2) - ((x div 4) mod 2)) div 2))
1: (2 * (((x + 1) + (2 * (x + ((1 + (if (x mod 9) <= 0 then 0 else x)) div 2)))) div 2))
1: (2 * (((x + 40) + (x div 9)) div 2))
1: (2 * (((x + 1) + (2 * ((1 + (((x + 1) * (1 + ((2x mod (2 + (x div 3))) mod 2))) div 2)) div 2))) div 2))
1: (2 * (((x + 1) + (2 * ((1 + ((loop(\(x,i).x2,1,(5x + 1)) div 3) div 2)) div 2))) div 2))
1: (2 * (((x + 1) + (2 * ((1 + (loop(\(x,i).((x + 1) + loop(\(x,i).2x,x,1) - (x mod 2)),x,1) div 2)) div 2))) div 2))
1: (2 * (((x + 1) + (2 * ((((x2 div 2) - (x div 3)) div 2) div 2))) div 2))
1: (2 * (((x + 1) + (3 * ((x mod (1 + (x div 2))) div 3))) div 2))
1: (2 * (((x + 2) + (3 * (x div 2))) div (1 + (x div 4))))
1: (2 * (((x + 1) + (3 * ((x + (if (x mod 2) <= 0 then x else 2)) mod 3))) div 2))
1: (2 * (((x + 1) + (2 * (20 mod (1 + (x div 2))))) div 2))
1: (3 * ((3 + (x2 div 2)) div (x + 2)))
1: (2 * (((x + 1) + ((loop(\(x,i).(x - (2 * (~x + (i mod 2)))),x,1) div 2) div 2)) div 2))
1: (2 * (((x + 1) + ((32 mod (x + 1)) div 2)) div 2))
1: (2 * (((x + 2) + (loop(\(x,i).(x + (if ((x div 3) mod 2) <= 0 then 3 else 2x)),x,1) div 2)) div 2))
1: (((1 + ((x div 2) + (x mod 3))) div 2) * (x mod 2))
1: (2 * (((x + 1) + (x div 2)) div 2))
1: ((((x + 1) + (x div 2)) div 2) * (((x + 1) div 2) div 2))
1: ((((x + 1) + (x div 2)) div 2) * (x div 3))
1: (2 * (((x + 1) + (x div 4)) div 2))
1: ((x + 1) * (((x + 1) + (x div 4)) div 2))
1: (2 * (((x + 2) + ((2 * (if (x mod 2) <= 0 then x else 1)) mod (x + 1))) div 2))
1: (x * (((x + 1) + ((x div 2) mod 2)) div 2))
1: (2 * ((1 + (((x div 4) mod 2) + (x div 2))) div 2))
1: (2 * (((x + 1) + (x mod 2)) div 3))
1: (2 * (((x + 1) + (x mod 2)) div 5))
1: (2 * ((1 + ((x mod 4) + (x mod 3))) div 2))
1: (3 * (((x + 2) + (x mod (2 + (x div (2 * (2 - (x mod 2))))))) div 2))
1: (2 * ((1 + ((if (~x + 2) <= 0 then x else 0) + (x * (x2 div 2)))) div 2))
1: (2 * ((1 + (loop(\(x,i).(2x + 2),x,0) + (x2 div (x + 2)))) div 2))
1: (2 * ((x + 4) div (~12 + (x div 2))))
1: (2 * ((2 + (x mod 3) - ((x mod (4 - (x mod 2))) div 2)) div 2))
1: (2 * ((~x + 3) div 7))
1: (2 * ((~x + 3) div 9))
1: (2 * (((2x + 1) - ((x + 1) mod 4)) div 5))
1: (2 * ((1 + (x div 2) - ((x div 4) mod 2)) div 2))
1: (2 * ((1 + loop(\(x,i).2x,x,1) - loop(\(x,i).2x,(x div 2),(x mod 2))) div 3))
1: (2 * ((1 + loop(\(x,i).2x,x,2) - loop(\(x,i).2x,(x div 2),1)) div 2))
1: (2 * (((x + 1) - ((1 + (x div 2)) mod 8)) div 3))
1: (2 * ((x + (x div 3) - ((x div 2) mod 2)) div 3))
1: (2 * (9 div (2 + (x div 2))))
1: (2 * (((5x + 5) + ((x div 2) div 3)) div 2))
1: ((x + 1) * ((x2 + 8x + 13) div 2))
1: (2 * ((1 + (3 * ((x + 2) + (x div 4)))) div 2))
1: (2 * ((x + ((2x + 1) * (x div 2))) div 2))
1: (2 * ((x + (2 * (2 + ((x + 2) mod 7)))) div 3))
1: (2 * ((x + ((2 + (x mod 2)) * (x div 4))) div 5))
1: (2 * ((1 + (2 * (x + (x mod 2)))) div 5))
1: (2 * ((x + (2 * (1 + (if (x mod (2 * (2 - (x mod 2)))) <= 0 then (x mod 8) else 1)))) div 5))
1: (2 * ((1 + (3 * (x + loop(\(x,i).i,(x + ~9),1)))) div 2))
1: (x * ((x2 + x + 1) div ((x + 2) + (x div 2))))
1: ((x + 1) * ((x2 + 4x + 5) div 2))
1: (2 * (((x2 + 2x) + ((x div 2) mod 2)) div 2))
1: (3 * ((1 + (2 * (1 - (x div 4)))) div 3))
1: (2 * (((x * (1 - ((x3 div 8) mod 2))) + (x mod 2)) div 3))
1: (3 * ((1 + (2 * (1 - (x mod (1 - ((2 - (2x mod (4 + (x div 4)))) mod (x + 1))))))) div 3))
1: (2 * ((x + (2 * (4x - ((x + (x div 4)) div 3)))) div 3))
1: (2 * ((x + (2 * (4x - ((2x + 2) div 5)))) div 3))
1: (3 * ((1 + ((~1 + (2 * (x div 4))) * (x div 3))) div 2))
1: ((x2 + 2x + 1) * ((x2 + ~2x + 1) div 2))
1: (2 * ((x2 + ~2x + 1) div 7))
1: (2 * ((2 + (5 * (x - (2 * (x div ~4))))) div 3))
1: (3 * ((1 + (2 * (x - (2 div (~8 + (x div 2)))))) div 5))
1: (2 * ((1 + (3 * (x - (x mod 10)))) div (x + 1)))
1: (3 * (((8x + 8) + (x div 5)) div 3))
1: (2 * (37 div (x + 1)))
1: (2 * ((24x + 1) div (x + 1)))
1: (2 * ((8x + 1) div 3))
1: (2 * ((8x + 1) div (1 + (if x <= 0 then 0 else 2))))
1: (2 * ((24x2 + 6x + 1) div (2x + 1)))
1: (2 * ((1 + (3 * ((loop(\(x,i).2x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2) * (1 + (x div 5))))) div 2))
1: (2 * ((4x + 1) div (x + 3)))
1: (2 * ((2x2 + 2x + 1) div 5))
1: (9 * ((3x2 + x) div 2))
1: (2 * ((x + (2 * ((x + (x2 div 3)) div 3))) div 3))
1: (3 * ((1 + (((x + 1) div 2) * (1 + (x div 2)))) div 3))
1: (3 * ((1 + (2 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (~3 + (x div 2))) div 2))) div 3))
1: (x * ((x + ((x + ~1) * (x2 div 4))) div 2))
1: (2 * ((1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * ((1 + (x div 2)) div 2))) div 2))
1: (3 * ((1 + (3 * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2))) div 2))
1: (3 * ((1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + ~1) div 2))) div 2))
1: (7 * ((1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + ~1) div 2))) div 2))
1: (11 * ((1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + ~1) div 2))) div 2))
1: (5 * ((1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + ~1) div 2))) div 3))
1: (2 * ((x + (x * (loop(\(x,i).(2 * (x + (i mod 2))),x,1) div (x + 1)))) div 2))
1: (3 * ((1 + (2 * (loop(\(x,i).2x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2))) div 3))
1: (3 * ((1 + (x * (x div 2))) div 3))
1: (((1 + ((x div 4) * (x div 4))) div 2) * (x mod 2))
1: (2 * ((1 + (5 * (x mod 3))) div 2))
1: (2 * ((1 + (9 * (x mod (x - ((x + ~1) mod 8))))) div 2))
1: (5 * ((1 + (2 * (if x <= 0 then 1 else (2 * (x - ((~1 + (x div 2)) div 3)))))) div 3))
1: (2 * ((1 + (2 * (if x <= 0 then 2 else (4x - (((x + ~1) mod (2 + (x div 2))) div 2))))) div 3))
1: (2 * ((1 + (3 * loop(\(x,i).(x * (7 - i)),x,1))) div 2))
1: (3 * ((1 + ((x + 1) * loop(\(x,i).x3,1,loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1)))) div 2))
1: (((2x + 1) div 3) * (1 + (x div 3)))
1: (2 * ((2x + 1) div 5))
1: (3 * ((2x + 1) div (3 + (x div 4))))
1: (2 * ((2x + 1) div (1 + (2 * ((x mod (1 + (if (x mod 4) <= 0 then 0 else 2))) div 2)))))
1: (2 * ((2x + 1) div (1 + (3 * loop(\(x,i).(x div (1 + (x mod 2))),x,x)))))
1: (2 * ((2x + 1) div (1 + (x div 3))))
1: ((3x + 1) * ((x2 + 1) div 2))
1: ((x2 + 2x + 1) * ((x2 + 1) div 2))
1: ((x + 2) * ((x2 + 1) div 2))
1: ((x + ~1) * ((x2 + 1) div 2))
1: (((x2 + 1) div 2) * (x - (x div 3)))
1: (((x2 + 1) div 2) * (if (x + ~2) <= 0 then x else 1))
1: (2 * ((x2 + 1) div (x + 3)))
1: ((x + 1) * ((x2 + (x div 2)) div 2))
1: (x * ((x2 + (x div 2)) div 7))
1: (2 * ((2 + (((x + 1) + (2 * ((x div 2) mod (1 + (x2 mod (2 * (2 + (x mod 2)))))))) div 2)) div 2))
1: (2 * ((2 + (((x + 2) + ((2 * (1 + ((x + (2 * (4 - ((~x + 1) div (2 + (x div 4)))))) div 3))) mod (x + 1))) div 2)) div 2))
1: (2 * ((2 + ((1 + ((1 + ((x3 div 4) div 3)) div 2)) div 2)) div 2))
1: (2 * ((1 + ((1 + ((x * (x + (if (~2 + (x div 2)) <= 0 then 2 else 1))) div 2)) div 2)) div 2))
1: (2 * ((2 + ((1 + (((x + 1) * (1 + (if (x mod 2) <= 0 then (if x <= 0 then 0 else (2x + 1)) else 0))) div 2)) div 2)) div 2))
1: (2 * ((1 + ((x + ((x2 mod ((x + 1) + (2 * (x div 4)))) div 2)) div 2)) div 2))
1: (2 * ((1 + ((x + (x div 2)) div 2)) div 2))
1: (3 * ((1 + ((x + (x div 2)) div 4)) div 2))
1: (2 * ((1 + ((2 + (if (x mod 4) <= 0 then x else (x div 2))) div 3)) div 2))
1: (2 * ((x + ((x + loop(\(x,i).2x,x,1)) div (x + 1))) div 2))
1: (2 * ((1 + ((1 + loop(\(x,i).2x,x,(1 + (x * (~1 + loop(\(x,i).(x * i),2x,1)))))) div 3)) div 2))
1: (2 * ((((x + 1) div (1 + (x div 5))) + (x div 3)) div 2))
1: (2 * ((1 + ((x + 1) div (2 + (((x2 + 1) div (2 + (x div 2))) mod 2)))) div 2))
1: (3 * ((1 + ((x + 2) div 5)) div 2))
1: (2 * ((1 + ((x - (3 * ((~x + 1) div 7))) div 2)) div 2))
1: (9 * ((1 + ((x - ((x mod 3) div 2)) div 2)) div 2))
1: ((x + 1) * ((1 + ((x - ((x div 3) mod 2)) div 2)) div 2))
1: (2 * ((1 + (((x + 1) * ((x + 3) + ((2 * (1 + (((x * ((x + 2) + (2 * (x mod 2)))) div 2) + (x mod 2)))) div 3))) div 2)) div 2))
1: (2 * ((1 + (((x + 2) * ((2x + 4) + ((x * (x div 3)) mod 2))) div 2)) div 2))
1: (2 * ((1 + ((x * ((x + 1) + (2 * ((1 + ((x * loop(\(x,i).(10x + 1),x,1)) div 2)) div 2)))) div 2)) div 2))
1: (2 * ((1 + ((x * ((~x + 1) + (4 * (x + ((x div 2) mod 2))))) div 2)) div 2))
1: ((x + 1) * ((1 + ((x2 + 10x + 16) div 2)) div 2))
1: (2 * ((2 + ((3 * (x + (2 * (x - ((3 * (x div 4)) div 2))))) div 2)) div 2))
1: (2 * ((2 + ((3 * (x + (4 * (if (~2 + (x div 4)) <= 0 then 0 else 2)))) div 2)) div 2))
1: (2 * ((1 + (((x + 2) * (1 + (3 * ((x2 + 2x) div 2)))) div 3)) div 3))
1: (2 * ((x + ((2x2 + 4) div (x + 5))) div 2))
1: (2 * ((x + ((x3 + 2x) div 3)) div (x + 2)))
1: (2 * ((1 + ((x * (1 + (loop(\(x,i).3x,(x3 + 2x),1) div 2))) div 2)) div 2))
1: (2 * ((1 + ((x * (1 + (2x mod (2 + (x div 4))))) div 2)) div 2))
1: (2 * ((1 + (((x + 1) * (1 + ((2x mod (2 + (x div 3))) mod 2))) div 2)) div 2))
1: (2 * ((x + (((2 + (x mod 2)) * (x div 2)) div 2)) div 2))
1: (2 * ((1 + (((x + 2) * (x + (x mod (2 + (x mod 2))))) div 2)) div 2))
1: (2 * ((1 + (((x + 1) * (x + (if x <= 0 then 2 else (~1 + (2 * (if x <= 0 then 1 else (4x + (2 div (~2 + (x mod 2)))))))))) div 2)) div 2))
1: (x * ((1 + ((x * (1 + loop(\(x,i).(x3 + x),1,(x2 + ~1)))) div 2)) div 2))
1: (3 * ((1 + ((x2 + x) div 2)) div 2))
1: (2 * ((1 + ((x2 + x) div 4)) div 2))
1: (2 * ((((x2 + x) div 4) + (x div 3)) div 2))
1: (2 * ((x + ((x2 + x) div 5)) div 2))
1: (2 * ((1 + ((x2 + 2x) div 4)) div 5))
1: (3 * ((2 + ((x2 + 2x) div 9)) div 3))
1: (2 * ((1 + (((x + 1) * (x - (2 * (x mod 2)))) div 2)) div 2))
1: (2 * ((1 + ((x * (x - ((1 + (((x * (x + (2 * (x mod 2)))) div 2) div 2)) div 2))) div 2)) div 2))
1: (2 * ((1 + (((2x + 2) * (1 + (((1 + (((x + 1) * (1 + ((x + (x mod 4)) * (1 + (x div 4))))) div 2)) div 2) div 2))) div 2)) div 2))
1: (x * ((x + ((x5 + ~x3 + ~x2) div 2)) div 2))
1: (2 * ((1 + (5x3 div (x + 1))) div 2))
1: (2 * ((1 + (((x2 + x) * (if (x mod 2) <= 0 then 4 else 1)) div 2)) div 3))
1: (2 * ((2 + (x3 div (x + 2))) div 3))
1: (2 * ((1 + ((((1 + (x div 2)) div 2) * ((x + ~1) div 2)) div 2)) div 2))
1: (2 * ((1 + ((x * ((x + (if (x mod 2) <= 0 then 2 else x)) div 2)) div 2)) div 3))
1: (2 * ((1 + ((3 * ((x + 1) div 2)) div 2)) div 2))
1: (2 * ((1 + ((((x + 1) div 7) * (x div 2)) div 2)) div 2))
1: (2 * ((1 + ((x * ((2x + ~1) div 3)) div 2)) div 2))
1: (2 * ((x + ((3 * ((~2 + ((2 * ((x2 + x) mod 9)) mod (x + 1))) div 2)) div 2)) div 2))
1: (2 * ((1 + ((5 * ((x2 + x) div 2)) div 3)) div 2))
1: (2 * ((1 + (((2x + 1) * ((x2 + x) div 3)) div 3)) div 3))
1: (2 * ((1 + ((2 * ((x2 + x) div 4)) div 3)) div 3))
1: (2 * ((1 + (((x2 + 2x + 1) * ((x3 + x2) div 2)) div 3)) div 2))
1: (2 * ((1 + (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (x div (2 * (2 - (x mod 2)))))) div 2)) div 2))
1: (2 * ((1 + (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * ((~x + 2) div 2)) div 2)) div 2))
1: (3 * ((1 + ((x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) div 2)) div 2))
1: (((1 + ((x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) div 2)) div 2) * ((1 + (((x + 1) div 2) div 2)) div 2))
1: ((x + 1) * ((2 + ((x * (x div 2)) div 2)) div 3))
1: (2 * ((1 + ((x * (x div 2)) div 3)) div 5))
1: (3 * ((x + (((x div 4) * (x div 4)) div 2)) div 2))
1: (2 * ((1 + ((x * (x div 4)) div 2)) div 2))
1: (2 * ((1 + ((x * (x div 4)) div 7)) div 2))
1: (2 * ((1 + (((x + 2) * (if (x + ~2) <= 0 then x else (x + 5))) div 2)) div 2))
1: (x * ((1 + (((x + 1) * (if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + (loop(\(x,i).(2x + ~1),(x + ~1),loop(\(x,i).2x,x,1)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2))))) div 2)) div 2))
1: (2 * ((1 + ((x * loop(\(x,i).(10x + 1),x,1)) div 2)) div 2))
1: (x * ((1 + (((x + 1) * loop(\(x,i).2x,(x + ~1),(~1 + (if x <= 0 then 2 else ((x2 + 5x) div 2))))) div 2)) div 2))
1: (2 * ((1 + (((x + 1) * loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),(2x + ~1),1)) div 2)) div 3))
1: (2 * ((x + (2x div 5)) div 2))
1: (2 * ((2 + (x2 div 2)) div (x + 3)))
1: (2 * ((2 + (x2 div 2)) div (x + 2)))
1: (2 * ((2 + (x2 div 3)) div (x + 1)))
1: ((x + 3) * (((x2 div 3) + (x mod 2)) div 2))
1: (2 * ((x + (x2 div 3)) div 3))
1: (2 * ((1 + (x2 div 4)) div 2))
1: (2 * ((6x + (x2 div 4)) div (x + 2)))
1: ((x + 2) * ((x + (x2 div 4)) div 7))
1: (2 * ((1 + (x2 div 8)) div 2))
1: (3 * ((x + (x2 div 14)) div 2))
1: (2 * ((1 + (((1 + (((x + 1) * (1 + (2 * ((x - (x div 8)) mod 2)))) div 3)) div 2) div 2)) div 2))
1: (3 * ((1 + (((1 + ((x * (x mod (2 + (x mod 4)))) div 2)) div 2) div 2)) div 2))
1: (2 * ((1 + (((1 + (loop(\(x,i).4x,(x + ~2),x) div 2)) div 2) div 2)) div 2))
1: (3 * ((1 + (((1 + loop(\(x,i).((x * (x mod 2)) + (x div 2)),x,x)) div 2) div 2)) div 2))
1: (2 * ((1 + (((1 + loop(\(x,i).((2x + 2) - loop(\(x,i).2x,x,1)),1,(x div 2))) div 2) div 2)) div 2))
1: (2 * ((1 + (((2x + loop(\(x,i).2x,((x + ~1) div 2),1)) div 3) div 2)) div 2))
1: (2 * ((1 + (((loop(\(x,i).4x,x,2) - loop(\(x,i).3x,x,1)) div 2) div 2)) div 2))
1: (2 * ((1 + (((loop(\(x,i).2x,x,2) - loop(\(x,i).(x * i),(x div 2),1)) div 2) div 2)) div 2))
1: (2 * ((1 + (((x * (1 + ((x + 1) div 2))) div 2) div 2)) div 2))
1: (2 * ((1 + (((x * (1 + (x mod (1 + (x mod (1 + ((~1 + (2 * ((1 + (((x2 + x) * (if (x mod 2) <= 0 then 4 else 1)) div 2)) div 3))) mod (x + 1)))))))) div 2) div 2)) div 2))
1: (2 * (((((x3 + ~x) div 2) div 3) + ((x3 + x2 + x) div 2)) div 2))
1: (2 * ((1 + (((26x2 + 65x + 26) div 2) div 3)) div 2))
1: (3 * ((x + (((x3 + 3x2 + 2x) div 2) div 3) - (x2 div ~2)) div 2))
1: (2 * ((1 + (((3 * ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (2 + (x div (1 + (2 * (1 + (2 * ((x div 2) mod 2))))))))) div 2) div 2)) div 2))
1: (3 * ((1 + ((((x + 1) * ((1 + (x div 2)) div 3)) div 2) div 2)) div 2))
1: (2 * ((1 + ((((x + ~1) * ((x + 2) div 5)) div 2) div 2)) div 2))
1: (2 * ((x + ((x2 div 2) div 15)) div 2))
1: (3 * ((x + (((((x + 2) * ((x + 2) + (x div 7))) div 2) div 2) div 2)) div 2))
1: (2 * ((1 + (((((x + 6) * (1 + ((1 + (x2 div 2)) div 3))) div 2) div 2) div 2)) div 2))
1: (x * ((1 + (((((x + 1) * (1 + ((x * (x div 2)) div 4))) div 2) div 2) div 2)) div 2))
1: (2 * ((1 + (((((x + ~1) * (1 + (loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),x,(1 + (x div 2))) div 2))) div 2) div 2) div 2)) div 2))
1: (2 * ((1 + ((((2x4 + 11x3 + 21x2 + 15x + 3) div 2) div 3) div 2)) div 2))
1: (2 * ((1 + ((((5x3 + 2x2 + ~3x) div 2) div 3) div 2)) div 2))
1: (2 * ((1 + (((loop(\(x,i).(x2 + 2x + ~2),1,loop(\(x,i).(2x + (i mod 2)),x,0)) div 2) div 2) div 2)) div 2))
1: (2 * ((1 + (((loop(\(x,i).(x2 + 2x),1,loop(\(x,i).(2x + (i mod 2)),x,0)) div 2) div 2) div 2)) div 2))
1: (2 * ((1 + (((loop(\(x,i).x3,1,loop(\(x,i).8x2,x,3)) div 2) div 2) div 2)) div 2))
1: (2 * ((1 + ((loop(\(x,i).(x + (x div (2 + (x mod 2)))),x,2) div 2) div 2)) div 2))
1: (2 * ((x + ((loop(\(x,i).(x2 + x),2,x) div 2) div 3)) div 2))
1: (2 * ((1 + ((loop(\(x,i).2x,x,(1 + compr(\x.(loop(\(x,i).(2x2 + 12x + 16),2,(x2 + 2x)) mod (x + 1)),x))) div 2) div 2)) div 2))
1: (2 * ((1 + ((loop(\(x,i).2x,x,(~2 + ((x2 + ~x) div 2))) div 2) div 2)) div 2))
1: (2 * ((1 + ((loop(\(x,i).x2,1,((x + 4) + (x div 2))) div 2) div 2)) div 2))
1: (2 * ((1 + ((loop(\(x,i).x2,1,(5x + 1)) div 3) div 2)) div 2))
1: (3 * ((1 + ((loop(\(x,i).x2,1,((x div 2) - (x mod 2))) div 2) div 2)) div 2))
1: (((1 + ((loop(\(x,i).((x * ((x + ~1) div 2)) div 2),2,x) div 2) div 3)) div 3) * (x mod 2))
1: (2 * ((x + (((~2x + 4) mod (2 + (x div 2))) div 2)) div 2))
1: (2 * ((2 + ((loop(\(x,i).(2x + 8),x,1) mod (x + 1)) div 2)) div 3))
1: (x * ((x + ((x mod 3) div 2)) div 2))
1: (2 * ((x + ((x mod (1 + (x div 2))) div 2)) div 2))
1: (2 * ((1 + ((if x <= 0 then 2 else (x - ((x div 3) mod 2))) div 2)) div 2))
1: (2 * ((2 + (loop(\(x,i).((x + 1) + (((~x + 2) mod 4) + i)),x,1) div 2)) div 2))
1: (2 * ((1 + (loop(\(x,i).((x + 1) + loop(\(x,i).2x,x,1) - (x mod 2)),x,1) div 2)) div 2))
1: (2 * ((1 + (loop(\(x,i).(2x + 1),x,(if (x + ~3) <= 0 then 2 else 1)) div 2)) div 2))
1: (((1 + (loop(\(x,i).3x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 4)) div 2) * (x div 5))
1: (2 * ((1 + (loop(\(x,i).(4x + 2),(x + ~2),1) div 3)) div 3))
1: (2 * ((1 + (loop(\(x,i).(2x + 2),(x div 2),(x mod 2)) div 2)) div 2))
1: (2 * ((1 + (loop(\(x,i).~2x,x,1) div 5)) div 2))
1: (2 * ((1 + (loop(\(x,i).(2 * (x - (x div 3))),x,1) div 2)) div 2))
1: (x * ((1 + (loop(\(x,i).(2x * i),(x + ~1),1) div 2)) div 2))
1: (x * ((1 + (loop(\(x,i).(2x * i),(x + ~2),1) div 2)) div 2))
1: (3 * ((1 + (loop(\(x,i).2x,(x + ~1),(x + 3)) div 2)) div 2))
1: (2 * ((1 + (loop(\(x,i).2x,(x + ~1),(x + 2)) div 3)) div 2))
1: (2 * ((1 + (loop(\(x,i).2x,((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3),1) div 2)) div 2))
1: (3 * ((1 + (loop(\(x,i).2x,x,1) div 2)) div (x + 2)))
1: (2 * ((1 + (loop(\(x,i).(x * i),(x + ~1),loop(\(x,i).loop(\(x,i).(~2 + i),((x + i) div 2),1),x,1)) div 2)) div 2))
1: (5 * ((1 + (loop(\(x,i).(x * i),x,(loop(\(x,i).7x,x,1) + loop(\(x,i).3x,x,1))) div 2)) div 2))
1: ((x + ~2) * ((1 + (x div 2)) div 2))
1: (((1 + (x div 2)) div 2) * ((x + ~1) div 2))
1: (5 * ((1 + (x div 2)) div 3))
1: (((1 + (x div 2)) div 3) * (1 + (((x + 1) div 2) div 2)))
1: (((1 + (x div 2)) div 3) * (if (x + ~4) <= 0 then 1 else 2))
1: (((1 + (x div 2)) div (1 + (x mod 2))) * (1 + (x div 2)))
1: (3 * ((2 + (x div 2)) div 3))
1: ((x + 1) * ((2 + (x div 2)) div 3))
1: (2 * ((2 + (x div 2)) div (3 + ((x2 + 2x) mod 6))))
1: (3 * ((2 + (x div 2)) div (3 + ((x2 + 2x) mod 6))))
1: (3 * ((x + (x div 2)) div 2))
1: (7 * ((x + (x div 2)) div 2))
1: (((x + (x div 2)) div 2) * (((x + ~1) div 2) div 2))
1: ((x + 1) * ((x + (x div 2)) div 4))
1: (x * ((x + (x div 2)) div 4))
1: (3 * ((x + (x div 2)) div 5))
1: (((x + (x div 2)) div 5) * (x div 2))
1: (2 * ((x + (x div 2)) div (4 + (x div 2))))
1: (2 * ((x + (x div 2)) div (1 + (3 * (2 - (x mod 2))))))
1: (2 * ((x + (x div 2)) div ~4))
1: (3 * ((x + (x div 2)) div ~5))
1: (2 * ((x + (x div 2)) div 8))
1: (3 * ((x + (x div 2)) div 8))
1: (2 * ((x + (x div 2)) div (if (x mod 2) <= 0 then 4 else (x + 1))))
1: (2 * ((1 + (x div 3)) div 2))
1: (((1 + (x div 3)) div 2) * (x div 2))
1: (3 * ((1 + (x div 3)) div 3))
1: (2 * ((x + (x div 3)) div 5))
1: (2 * ((x + (x div 3)) div (1 + (x mod (2 + (x mod 2))))))
1: (x * ((1 + (x div 4)) div 2))
1: (2 * ((1 + (x div 4)) div (1 + (x div (2 + (x div (2 + (x mod 2))))))))
1: (2 * ((1 + (x div 4)) div (1 + (x mod 5))))
1: (3 * ((x + (x div 4)) div 2))
1: (((1 + (x div 5)) div 2) * (1 + (x div 8)))
1: (2 * ((1 + (x div (3 + (((x + ~1) div 2) mod 2)))) div 2))
1: (2 * ((1 + (x div (4 - ((x div 2) div 3)))) div 2))
1: (2 * ((x + (x div (4 - ((x div 2) mod 2)))) div 2))
1: (3 * ((1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))) div 2))
1: (2 * ((1 + (x div (1 + (x div (2 + (if (x mod 10) <= 0 then 1 else 2)))))) div 2))
1: (2 * ((1 + (x div (1 + ((~1 + loop(\(x,i).2x,(x + ~2),2)) mod (x + 1))))) div 2))
1: (2 * ((1 + (x div (2 + (loop(\(x,i).(x * i),x,2) mod (x + 1))))) div 2))
1: (2 * ((1 + (x div (1 + (x mod (1 + ((~1 + loop(\(x,i).2x,(x div 2),2)) mod (x + 1))))))) div 2))
1: (2 * ((1 + (x div (2 - (x mod 2)))) div 3))
1: (2 * ((x + (x div 8)) div ~2))
1: (2 * ((x + (x div (2 * loop(\(x,i).(x div (~2 + (x mod 2))),x,(x + 1))))) div 2))
1: (3 * ((x + (1 mod (8 - (x div 2)))) div 2))
1: (x * ((x + (2 mod (x + 1))) div 3))
1: (2 * ((x + (4 mod (x + 1))) div 3))
1: (2 * ((2 + ((2x + 1) mod (2 - (x mod ~4)))) div 3))
1: (2 * ((((1 + (x div 2)) mod 3) + loop(\(x,i).2x,x,1)) div 3))
1: (((((1 + (x div 3)) mod 3) + (x div 3)) div 2) * (x div 5))
1: (2 * ((((x + ((~x + 1) mod 3)) mod 4) + (x div 2)) div 2))
1: (3 * ((2 + ((x + 1) mod (2 + ((x mod (1 + (x div 2))) div 2)))) div 3))
1: (2 * ((1 + ((5 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 19)) div 2))
1: (2 * ((((1 - (x div 5)) mod 3) + (x div 2)) div 2))
1: (2 * ((x + ((~x + 1) mod 3)) div 2))
1: (x * ((1 + ((~x + 1) mod 21)) div 2))
1: (2 * ((2 + ((~1 + (2 * ((if (x mod 3) <= 0 then 1 else (((x + 1) div 2) - ((3 * (x div 4)) div 2))) + (x mod 2)))) mod (x + 1))) div 2))
1: (2 * ((2 + ((2x2 + ~1) mod (4 + (x div 4)))) div 3))
1: (2 * ((1 + (3x mod (2 + (x div 2)))) div 2))
1: (2 * ((1 + ((~2x + 2) mod (4 + (x div 4)))) div 3))
1: (((1 + ((~2x + 2) mod (4 + (x div 4)))) div 3) * (1 + (x div 7)))
1: (2 * ((2 + ((3 * (2 - ((x3 mod (2 + (x div 2))) mod 2))) mod (x + 1))) div 2))
1: (2 * ((2 + ((4 * (3 - (x mod 2))) mod (x + 1))) div 2))
1: (((1 + (2x mod (2 + (x div 3)))) div 2) * (loop(\(x,i).(2x + 2),x,0) mod (x + 1)))
1: (2 * ((1 + (x2 mod 5)) div 2))
1: (2 * ((1 + (x2 mod (1 + (2 * ((x + 1) mod 3))))) div 2))
1: (3 * ((1 + (x2 mod (1 + (2 * ((x + 1) mod 3))))) div 2))
1: (2 * ((1 + (((x2 + x) div 2) mod 7)) div 2))
1: (5 * ((x + ((x div 2) mod 2)) div 2))
1: (3 * ((x + ((x div 2) mod 2)) div 3))
1: (2 * ((x + ((x div 3) mod 2)) div 4))
1: (2 * ((((x div 4) mod 2) + (x div 2)) div 2))
1: (3 * ((x + ((x div ~2) mod 2)) div 3))
1: (2 * ((1 + (((x + 2) mod (2 + (x mod 4))) mod 4)) div 2))
1: (2 * ((1 + ((if (x div 2) <= 0 then 1 else ((if (x mod 2) <= 0 then 2 else x) div 2)) mod 4)) div 2))
1: (2 * ((1 + (loop(\(x,i).(x * (2 + i)),4,2) mod (x + 1))) div 2))
1: (x * ((x + (x mod 2)) div 3))
1: (2 * ((x + (x mod 2)) div 5))
1: (3 * ((x + (x mod 2)) div 5))
1: (((1 + (x mod 4)) div 2) * (1 + (x div 4)))
1: (2 * ((1 + (x mod 5)) div 2))
1: (2 * ((1 + (x mod (1 + (2 * (x div (2 * (2 + ((x + 2) mod (2 + (x mod 2)))))))))) div 2))
1: (2 * ((1 + (x mod (1 + (2 * (x div (2 * (2 + ((x div 2) mod 2)))))))) div 2))
1: (((1 + (x mod (2 + ((x mod 3) div 2)))) div (1 + (x div 2))) * (1 + (x div 2)))
1: (2 * ((1 + (x mod (2 + ((2 - (2x mod 5)) mod (x + 1))))) div 2))
1: (2 * ((1 + (x mod (1 + ((x + ~1) mod (4 + (x div 3)))))) div 2))
1: (2 * ((x + (x mod (2 + (x mod 2)))) div 2))
1: (3 * ((1 + (x mod (2 * (if (x mod 4) <= 0 then 4 else 1)))) div 2))
1: (2 * (((if (~2 + (x div 2)) <= 0 then 1 else 2) + (x div 2)) div 2))
1: (2 * ((x + (if (~2 + (x div 2)) <= 0 then 1 else 2)) div 3))
1: (2 * ((x + (if (~2 + (x div 4)) <= 0 then 2 else 0)) div 3))
1: (((1 + (if (~1 + (x mod 3)) <= 0 then 2 else 0)) div (2 - (x mod 2))) * (1 + ((x + 1) div 2)))
1: (2 * ((2x + (if (x + ~3) <= 0 then x else 0)) div 3))
1: (3 * ((1 + (if ((x mod 3) div 2) <= 0 then (x mod 3) else x)) div 2))
1: (2 * (((if ((x + ~1) mod 8) <= 0 then x else 1) + (x div 9)) div 2))
1: (2 * ((x + (if ((x div 3) mod 2) <= 0 then (x div 4) else 1)) div 2))
1: (2 * (((if (x mod 2) <= 0 then 2 else x) + (x div 2)) div 3))
1: (((x + (if (x mod 2) <= 0 then 2 else x)) div 2) * (1 + (x div 5)))
1: (x * ((x + (if (x mod 2) <= 0 then 2 else x)) div 2))
1: (((x + (if (x mod 2) <= 0 then x else 1)) div 3) * (1 + (x div 5)))
1: (2 * ((x + (if (x mod 2) <= 0 then x else 1)) div 5))
1: (3 * ((x + (if (x mod 2) <= 0 then x else 1)) div 5))
1: (((x + (if (x mod 2) <= 0 then x else 1)) div 5) * (1 + (x mod 2)))
1: (2 * ((x + (if (x mod 3) <= 0 then 1 else 2)) div 4))
1: (2 * ((x + (if (x mod 3) <= 0 then (2 + (((x + 1) * (x div 2)) mod 2)) else 1)) div 3))
1: (2 * ((1 + (if x <= 0 then 1 else (x - ((x + 1) mod (3 - (x mod 2)))))) div 2))
1: (((1 + (if x <= 0 then 1 else x)) div 2) * (1 + (x div 2)))
1: (2 * ((1 + loop(\(x,i).(((3 * (x div 4)) div 2) + (x div 2)),2,x)) div 2))
1: (2 * ((1 + loop(\(x,i).(2x + (i mod 2)),x,1)) div 2))
1: (2 * ((1 + loop(\(x,i).(0 - (2x * (1 + (2 * i)))),x,1)) div 2))
1: (2 * ((1 + loop(\(x,i).((x2 + x) - (x div (2 div (~2 + (x mod 2))))),x,1)) div 2))
1: (2 * ((1 + loop(\(x,i).(2 * (x + i)),x,(1 + (x mod 2)))) div 2))
1: (x * ((1 + loop(\(x,i).(x2 + ~x),1,loop(\(x,i).3x,(1 + i),1))) div 3))
1: (2 * ((1 + loop(\(x,i).(x * (x - (i mod 2))),2x,3)) div 2))
1: (2 * ((1 + loop(\(x,i).10x,(2x + 1),1)) div 3))
1: ((x + 1) * ((x + loop(\(x,i).10x,x,1)) div (x + 1)))
1: (2 * ((1 + loop(\(x,i).8x,x,1)) div 3))
1: (2 * ((1 + loop(\(x,i).8x,x,2)) div 3))
1: (x * ((loop(\(x,i).3x2,x,1) + loop(\(x,i).2x,x,1)) div 2))
1: (x * ((loop(\(x,i).x3,2,x) + loop(\(x,i).x2,4,x)) div 2))
1: (2 * ((loop(\(x,i).(2x * i),x,1) + (if (x + ~2) <= 0 then x else 1)) div 2))
1: (2 * ((1 + loop(\(x,i).(3x * i),x,1)) div 2))
1: (2 * ((1 + loop(\(x,i).2x,(x + ~1),(x2 mod 3))) div 3))
1: (2 * ((1 + loop(\(x,i).2x,(x + ~1),(if (x mod 3) <= 0 then 1 else 2))) div 3))
1: (2 * ((1 + loop(\(x,i).2x,((x + ~1) div 2),x)) div 3))
1: (2 * ((1 + loop(\(x,i).2x,(if x <= 0 then 2 else (1 + (2 * (x mod 2)))),loop(\(x,i).6x,x,1))) div 5))
1: ((x + 1) * ((x + loop(\(x,i).2x,x,1)) div (x + 1)))
1: (((1 + loop(\(x,i).2x,x,2)) div 3) * (1 + loop(\(x,i).2x,x,1)))
1: ((x + 2) * ((1 + loop(\(x,i).2x,x,2)) div 3))
1: (x * ((1 + loop(\(x,i).2x,x,2)) div 3))
1: ((x + 1) * ((loop(\(x,i).2x,x,2) + (x div 2)) div (x + 1)))
1: ((x + 1) * ((x + loop(\(x,i).2x,x,2)) div (x + 1)))
1: (3 * ((1 + loop(\(x,i).2x,x,(1 + loop(\(x,i).3x,x,1)))) div 3))
1: (2 * ((1 + loop(\(x,i).2x,x,(if (x mod 3) <= 0 then 1 else 2))) div 3))
1: (2 * ((1 + loop(\(x,i).2x,x,(if x <= 0 then 1 else (x + (loop(\(x,i).2x,x,1) div (x + 2)))))) div 2))
1: (2 * ((2 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 3))
1: (2 * ((x + loop(\(x,i).(if x <= 0 then 1 else (x - (if x <= 0 then 1 else (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))),2,x)) div 2))
1: (9 * ((1 + loop(\(x,i).loop(\(x,i).((x + 1) + (x2 div 3)),x,1),x,1)) div 2))
1: (2 * ((1 + loop(\(x,i).loop(\(x,i).(x2 + x),(x + ~1),(2x + 1)),x,1)) div 2))
1: ((x + 3) * ((x + 1) div 2))
1: (((x + 1) div 2) * (x + i))
1: ((x + ~1) * ((x + 1) div 2))
1: (((x + 1) div 3) * (1 + (x div 2)))
1: (((x + 1) div 3) * (x + (x div 2)))
1: (((x + 1) div 3) * (x div 2))
1: (13 * ((x + 1) div 5))
1: (((x + 1) div 5) * (1 + (((x + 1) div 2) div 2)))
1: (((x + 1) div 5) * (1 + (x div 4)))
1: (((x + 1) div 5) * (x div 5))
1: (2 * ((x + 1) div (3 + (x div 4))))
1: (5 * ((x + 1) div (1 + (((1 + (x mod ((1 + (x mod (1 + (x div 4)))) * (1 + (x mod 2))))) mod (x + 1)) + (x mod 2)))))
1: (2 * ((x + 1) div (~x + 17)))
1: (((x + 1) div 7) * (1 + (((x + 1) div 2) div 2)))
1: (((x + 1) div 7) * (x div 2))
1: (x * ((x + 1) div 7))
1: (3 * ((x + 1) div (1 + (2 * ((2x + 1) div (3 + ((~2x + 2) mod (4 + (x div 4)))))))))
1: (2 * ((x + 1) div (2 + ((x + ~1) div (2 + (x div 2))))))
1: (2 * ((x + 1) div (2 + (8 div (1 + (x mod 3))))))
1: (3 * ((x + 1) div (1 + ((2 * (1 + (x div (1 + (x mod (1 + (x mod (1 + (x div (2 + (x div 5))))))))))) div 3))))
1: (3 * ((x + 1) div (2 + ((x div 2) div (1 + (((2x + 1) mod (2 + (x div 4))) div 2))))))
1: (2 * ((x + 1) div (1 + (x div (2 + (x div 4))))))
1: (2 * ((x + 1) div (2 + (x mod 2))))
1: (3 * ((x + 1) div (2 + (x mod 2))))
1: (2 * ((x + 1) div (2 + (if ((x + ~1) mod 4) <= 0 then 2 else (x mod 2)))))
1: (2 * ((x + 1) div (1 - (2 * ((x div 2) div (1 + (x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4))))))))))))
1: ((x + 1) * ((x + 1) div (2 - (x mod 2))))
1: (3 * ((x + 1) div (8 - ((x + 2) div 3))))
1: (2 * ((x + 1) div ~8))
1: (2 * ((x + 1) div (2 * (2 + ((x div 2) mod 2)))))
1: (2 * ((x + 1) div (2 * (if (x mod (1 + (((x + 1) div 2) div 3))) <= 0 then 1 else 2))))
1: (2 * ((x + 1) div (if ((x + 1) mod 5) <= 0 then 4 else 1)))
1: (7 * ((x + 2) div 3))
1: (((x + 2) div 3) * (1 + (x div 2)))
1: ((x + 1) * ((x + 2) div 3))
1: (((x + 2) div 3) * (~1 + (x div ~2)))
1: ((x + ~1) * ((x + 2) div 3))
1: (((x + 2) div 3) * (x div 3))
1: (((x + 2) div 3) * (x div 4))
1: (((x + 2) div 3) * (x div ~3))
1: ((x + ~1) * ((x + 2) div 5))
1: (((x + 2) div 5) * ((x + ~1) div 5))
1: (2 * ((x + 2) div (1 + (2 * (3 - (x mod 2))))))
1: (2 * ((x + 2) div (1 + (2 * (1 + loop(\(x,i).(if x <= 0 then i else (x div 2)),x,0))))))
1: (((x + 2) div (2 + (3 * (x mod 2)))) * (1 + (x mod 2)))
1: (2 * ((x + 2) div (2 + ((((x + 1) div 2) div 2) div 2))))
1: (2 * ((x + 2) div (2 + ((x div 2) div (1 + ((x mod 3) div 2))))))
1: ((x + 1) * ((x + 2) div (2 + (loop(\(x,i).x3,2,2x) mod (x + 1)))))
1: (2 * ((x + 2) div (1 + (if x <= 0 then 1 else 2))))
1: (2 * ((x + 2) div ~7))
1: (3 * ((x + 2) div ~7))
1: (5 * ((x + 2) div ~7))
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1: (2 * ((x + 2) div (~1 + (3 * (8 - (x div 2))))))
1: (2 * ((x + 2) div ((2 + (x div 5)) * (1 + (x mod 2)))))
1: (3 * ((x + 2) div (4 * (2 + (x mod 2)))))
1: (2 * ((x + i) div 2))
1: (((x + i) div 2) * (2 + i))
1: (x * ((x + i) div 2))
1: (2 * ((2 + compr(\x.((2x + 1) mod (1 + (2x mod (2 + (x div 4))))),x)) div 2))
1: (3 * ((2 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x)) div 3))
1: (3 * ((3 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) div 7))
1: (2 * ((0 - (x2 mod (x - ((~x + 2) div 2)))) div 2))
1: (3 * ((~2x + 1) div 7))
1: (2 * ((1 - ((~x + ((x div 2) mod 3)) div 2)) div 2))
1: ((x + 1) * ((1 - ((x - (x2 div 4)) div 2)) div 2))
1: (2 * ((1 - (x div 2)) div 3))
1: (3 * ((1 - (x div 2)) div 3))
1: ((x + 2) * ((1 - (x div 2)) div 3))
1: (2 * ((1 - (x div 3)) div 3))
1: (((1 - (x div 3)) div 3) * (2 + (x mod 2)))
1: (3 * ((1 - (x mod (1 - ((2 - (2x mod (4 + (x div 4)))) mod (x + 1))))) div 2))
1: (2 * ((1 - loop(\(x,i).((x2 + ~x) div (1 + i)),2,(x + ~1))) div 2))
1: (((~x + 1) div 2) * (x div 2))
1: (7 * ((~x + 1) div 3))
1: (((~x + 1) div 3) * (1 + (x div 2)))
1: ((x + ~1) * ((~x + 1) div 3))
1: ((x + ~2) * ((~x + 1) div 3))
1: (((~x + 1) div 3) * ((x + 1) div 3))
1: (((~x + 1) div 3) * ((x + ~1) div 3))
1: (((~x + 1) div 3) * (x div 5))
1: (((~x + 1) div 3) * (x div ~2))
1: (2 * ((~x + 1) div 5))
1: (3 * ((~x + 1) div 5))
1: (3 * ((~x + 1) div 7))
1: (2 * ((~x + 1) div 9))
1: (2 * ((~x + 1) div (2 + (x mod 2))))
1: (x * ((~x2 + 2) div 2))
1: (2 * ((2 - ((3 * ((x div 2) - ((x mod 3) div 2))) div 2)) div 2))
1: ((x + 1) * ((2 - ((x * (x mod 2)) div 2)) div 2))
1: (((2 - (x div 2)) div 2) * (x div 2))
1: (((2 - (x div 2)) div 2) * (x div 8))
1: (x * ((2 - (x div 2)) div 2))
1: (2 * ((2 - (x div 3)) div 2))
1: (x * ((2 - (x div 4)) div 2))
1: (2 * ((2 - (x div (~5 + (x div 4)))) div 2))
1: (2 * ((2 - ((~1 + (x div 2)) mod 4)) div 2))
1: (2 * ((2 - (x mod (~1 - loop(\(x,i).2x,((((1 + (8 mod (1 + (x div 2)))) div 2) + (if x <= 0 then 0 else 1)) - (x mod 2)),2)))) div 2))
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1: (2 * ((2 - (x mod (~2 + ((x div 2) mod (~2 - (x div 4)))))) div 2))
1: (5 * ((~x + 2) div 2))
1: ((x + ~1) * ((~x + 2) div 2))
1: (((~x + 2) div 2) * ((x + 1) div 2))
1: (3 * ((~x + 2) div 4))
1: (((~x + 2) div 4) * (1 + (x div 4)))
1: (((~x + 2) div 4) * (x div 2))
1: (((~x + 2) div 4) * (x div 4))
1: (x * ((~x + 2) div 4))
1: (2 * ((~x + 2) div 5))
1: (3 * ((~x + 2) div 5))
1: (2 * ((~x + 2) div 7))
1: (2 * ((~x + 2) div (1 + (x div 2))))
1: (3 * ((~x + 2) div 12))
1: (2 * ((4 - (if (x + ~2) <= 0 then 1 else 2)) div (1 + (x mod 5))))
1: (3 * ((2 + ((2 * (loop(\(x,i).5x,x,4) div 3)) div 3)) div 2))
1: (2 * ((2 + ((loop(\(x,i).2x,(x div 2),~2) mod (x + 1)) div 2)) div 2))
1: ((x + 1) * (((x + ~1) + (x mod 2)) div 5))
1: (3 * (((x + 2) - ((~2x + 2) div 5)) div 2))
1: (2 * ((~3x + 2) div 5))
1: (3 * ((~3x + 2) div 5))
1: (3 * (((~2x + ~1) + (x div 2)) div 5))
1: (2 * (((~x + ~1) + (x div 8)) div 2))
1: (2 * (((~x + ~1) + ((x div 4) mod 2)) div 2))
1: (2 * ((~x + (x mod 8) - (x div 4)) div 2))
1: (2 * ((~3 + loop(\(x,i).(2x + 40),(x + 1),1)) div 2))
1: (9 * ((~1 + (3 * (2 + (if (x + ~4) <= 0 then 0 else 2)))) div (x + 1)))
1: (2 * ((x2 + 4x + 3) div 2))
1: (((x2 + 2x + ~1) div 2) * (~1 + (2 * (x mod 2))))
1: (((x2 + 2x + ~1) div 2) * ((x2 + 2x) div 2))
1: (2 * ((x2 + 2x + ~1) div (1 + (x div 2))))
1: (2 * ((~1 + (6 * (1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + ((x + 1) div (2 + (x mod 5)))))))) div 5))
1: (3 * ((~1 + (6 * (1 + ((1 + (((3 * (1 + (loop(\(x,i).3x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 3))) div 2) div 2)) div 2)))) div 2))
1: (2 * ((~1 + (6 * (1 + ((1 + (x mod (1 + (2 * (if (16 mod (x + 1)) <= 0 then 1 else 2))))) div 3)))) div 2))
1: (3 * ((~1 + (6 * (1 + ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (3 + (x div (1 + (x mod 5))))) div 2)))) div 2))
1: (3 * ((~1 + (3 * ((1 + ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3)) * (if x <= 0 then 1 else 2)))) div 2))
1: (3 * ((~1 + (6 * (1 + (x div (3 + ((~1 + loop(\(x,i).(if x <= 0 then i else (x div 2)),x,2)) mod (x + 1))))))) div 2))
1: (3 * ((~1 + (6 * (1 + ((x + 2) mod (1 + (((1 + (x * (x div 2))) div 3) mod 3)))))) div 2))
1: (3 * ((~1 + (6 * (~1 + loop(\(x,i).11x,x,4)))) div 2))
1: (5 * ((3x2 + ~x) div 2))
1: (7 * ((3x2 + ~x) div 2))
1: (9 * ((3x2 + ~x) div 2))
1: (13 * ((3x2 + ~x) div 2))
1: (11 * ((3x2 + ~x) div 2))
1: ((2x + ~1) * ((3x2 + ~x) div 2))
1: (3 * ((~x + (3x * i)) div (1 + i)))
1: ((((3 * ((x div 2) mod 2)) - (x mod 3)) div 2) * (x mod 2))
1: (2 * (((x * (x mod 2)) - (x div 2)) div 2))
1: (2 * ((~1 + (2 * (if x <= 0 then 1 else (2 * (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))))))) div 2))
1: (3 * ((~1 + (2 * (if x <= 0 then 1 else (2 * (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))))))) div 2))
1: (x * ((2x + ~1) div 3))
1: (2 * ((2x + ~1) div 5))
1: (3 * ((2x + ~1) div 5))
1: (3 * ((2x + ~1) div (2 + (x div 2))))
1: (2 * ((2x - (x2 div 4)) div 5))
1: (2 * ((2x - (x div 4)) div 3))
1: (2 * ((2x - (x mod 4)) div 5))
1: ((x + 1) * ((x2 + ~1) div 3))
1: ((~x2 + x + ~1) * ((x2 + ~1) div 3))
1: (2 * ((x2 - (x div 2)) div 3))
1: (2 * ((((x + 1) div 2) - ((3 * (x div 4)) div 2)) div 2))
1: (2 * ((~x + ((~x + 2) div 4)) div 2))
1: (3 * ((~x + ((~x + 2) div 4)) div 2))
1: (2 * ((~1 + (((x2 + x) * (1 - (2 * (x mod 2)))) div 2)) div 2))
1: ((x + 1) * ((~1 + (x2 div 2)) div 3))
1: (2 * ((~x + (x2 div 3)) div 3))
1: (2 * ((~1 + (((x + ~1) div 2) div 2)) div 2))
1: (x * ((~1 + (loop(\(x,i).(x + loop(\(x,i).(x * i),(x + ~2),1)),x,0) div 2)) div 2))
1: (3 * ((~1 + (x div 2)) div 2))
1: (((~1 + (x div 2)) div 2) * (x div 3))
1: (((~1 + (x div 2)) div 2) * (x div 5))
1: (((~1 + (x div 2)) div 2) * ((~x + 2) mod 3))
1: (x * ((~1 + (x div 2)) div 3))
1: (3 * (((~2x + ~2) + (x div 2)) div 5))
1: (2 * (((x div 2) - ((x + ~1) mod 3)) div 2))
1: (2 * (((x div 2) - ((x + ~1) mod 4)) div 2))
1: (2 * (((x div 2) - (x mod 3)) div 2))
1: (2 * (((x div 2) - (x mod ((x + 1) - (x mod 10)))) div 2))
1: (x * ((~1 + (x div 4)) div 2))
1: (2 * (((x div 4) - (x mod 4)) div 2))
1: (((~1 + ((x + 1) mod 4)) div 2) * (x div 2))
1: (2 * ((~x + (((x + 1) * (x div 2)) mod 2)) div 3))
1: (3 * ((~2 + ((2 * ((x2 + x) mod 9)) mod (x + 1))) div 2))
1: (2 * ((~x + ((x div 4) mod 2)) div 2))
1: ((~x + ~1) * (((x mod 2) - (x div 2)) div 2))
1: (2 * ((~x + (x mod 2)) div 5))
1: (x * ((~x + (x mod 3)) div 2))
1: (2 * ((~2 + (x mod (~1 - (if (x mod 5) <= 0 then 2 else 0))) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) div 2))
1: (3 * ((~x + (x mod 10)) div 2))
1: (x * ((~1 + (if (x mod 6) <= 0 then x else 1)) div 2))
1: (3 * (((if x <= 0 then 1 else (2 * (1 + ((loop(\(x,i).2x,x,2) mod loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2)))) - (x mod 2)) div 2))
1: (2 * (((if x <= 0 then 1 else (2 * (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))))) - (x mod 2)) div 2))
1: (x * ((~x + loop(\(x,i).((x + 1) + (2 * ((x div 2) div 3))),x,1)) div 5))
1: (2 * ((~1 + loop(\(x,i).(24x + 1),2,x2)) div (x + 1)))
1: (3 * ((~1 + loop(\(x,i).(2x - ((x div 2) mod 2)),x,2)) div 3))
1: (2 * ((~1 + loop(\(x,i).(x2 + ~1),2,(x2 + 1))) div (x + 2)))
1: (2 * ((~2 + loop(\(x,i).7x,(x + 1),1)) div (x + 1)))
1: ((x + 1) * ((~1 + loop(\(x,i).10x,(x + 1),1)) div (x + 1)))
1: ((2x + 1) * ((loop(\(x,i).4x,x,1) - loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,1)) div 2))
1: (x * ((~1 + loop(\(x,i).2x,1,loop(\(x,i).(x * i),(x + ~1),1))) div (x + 1)))
1: ((x + 1) * ((~1 + loop(\(x,i).2x,x,2)) div (x + 1)))
1: (2 * ((loop(\(x,i).2x,x,2) - loop(\(x,i).(4x + 2),x,1)) div 2))
1: (2 * ((~1 + loop(\(x,i).2x,x,loop(\(x,i).(2x + 1),x,2))) div 3))
1: (2 * (((~x + ~1) + loop(\(x,i).x2,2,4)) div 2))
1: ((x + 1) * ((x + ~1) div 2))
1: ((x + 2) * ((x + ~1) div 2))
1: (((x + ~1) div 2) * (~1 + (x div 2)))
1: ((x + ~1) * ((x + ~1) div 2))
1: (((x + ~1) div 2) * i)
1: ((x + 4) * ((x + ~1) div 3))
1: (((x + ~1) div 3) * (1 + (x div 2)))
1: (((x + ~1) div 3) * (1 + (x mod 2)))
1: ((x + 1) * ((x + ~1) div 3))
1: ((x + ~2) * ((x + ~1) div 3))
1: (((x + ~1) div 3) * (x div ~3))
1: (((x + ~1) div 3) * i)
1: (((x + ~1) div 5) * ((x div 2) div 3))
1: (((x + ~1) div 5) * (x div 3))
1: (2 * ((x + ~1) div 7))
1: (2 * ((x + ~1) div (1 + (x div 4))))
1: (2 * ((x + ~1) div (2 + (x div 4))))
1: (2 * ((x + ~1) div (2 + (if (~2 + (x div 3)) <= 0 then 2 else 1))))
1: (2 * ((x + ~1) div (~x + 18)))
1: (4 * ((x + ~2) div 3))
1: (((x + ~2) div 3) * ((~x + 2) div 2))
1: (((x + ~2) div 3) * (x div 3))
1: (((x + ~2) div 5) * (x div 3))
1: (((x + ~2) div 5) * (x div 5))
1: (x * ((x + ~2) div 5))
1: (2 * ((x + ~2) div (2 + ((x div 2) div 5))))
1: (2 * ((x + ~2) div (if x <= 0 then 1 else 4)))
1: (2 * (((x + ~1) + ((2 * (3 + (((~1 + (6 * (1 + ((1 + (x div (1 + (x mod (1 + (x mod (1 + (x div (2 * (2 - (x mod 2))))))))))) div 2)))) div 2) div 2))) div 3)) div 2))
1: (3 * (((x + 1) - (2 * (~1 + (x mod 4)))) div 2))
1: (2 * (((x + 1) - (2 * (x mod 2))) div 5))
1: (3 * (((x + 1) - ((1 + ((x * (x div 2)) div 4)) div 2)) div 2))
1: (2 * (((x + 1) - (x2 div 4)) div 3))
1: (3 * (((x + 1) - (x div 3)) div 3))
1: (2 * (((x + 1) - ((1 + ((x * (1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x))) div 2)) mod 5)) div 2))
1: (2 * (((x + 1) - ((1 + (x div 2)) mod 3)) div 2))
1: (2 * (((x + 1) - ((x div 2) mod 2)) div 2))
1: (7 * (((x + 1) - ((x div 2) mod 2)) div 2))
1: ((((x + 1) - ((x div 2) mod 2)) div 2) * (1 + ((x + 1) div 2)))
1: ((x + ~4) * (((x + 1) - ((x div 2) mod 2)) div 2))
1: (2 * (((x + 1) - ((x div 4) mod 2)) div 3))
1: (x * ((2x3 + ~3x2 + 2x) div 2))
1: (x * ((x3 + ~6x2 + 13x + ~8) div 2))
1: (2 * ((x - (4 * (~6 + (x div 3)))) div (x + 2)))
1: (2 * ((x - (2 * (((x + 1) - ((x div 4) mod 2)) div 3))) div 3))
1: (2 * ((x - (2 * ((x div 5) mod 3))) div 3))
1: (2 * ((x - (1 div (~1 + (2 * (x mod 4))))) div 3))
1: (2 * ((x - ((((~x + 2) div 2) + (x mod 3)) div 3)) div 2))
1: (3 * ((x - ((x + (x div 2)) div 4)) div 2))
1: (2 * ((x - ((1 + (8 mod (1 + (x div 2)))) div 2)) div 2))
1: (2 * ((x - (((x mod 10) + (x div 4)) div 2)) div 2))
1: (2 * ((x - ((0 - (3 * ((x + 1) mod 12))) div (x + 1))) div 2))
1: (2 * ((x - ((0 - (x mod (~2 + ((~x + 2) div 4)))) div 2)) div 2))
1: (2 * ((x - ((2 - (x div 2)) div 2)) div 2))
1: (2 * ((x - ((~x + 2) div 2)) div 5))
1: (3 * ((x - ((~x + 2) div 4)) div 2))
1: (2 * ((x - ((x2 + ~2) div 3)) div 3))
1: (2 * ((x - ((~1 + (x div 2)) div 2)) div 2))
1: (2 * ((x - ((~1 + (x div 2)) div (1 + (2 * (x mod 2))))) div 2))
1: (2 * ((x - ((~x + ((x div 4) mod 2)) div 2)) div 2))
1: (2 * ((x - ((~1 + (x mod 12)) div 2)) div 3))
1: (2 * ((x - ((x - (3 * (3x div 7))) div 2)) div 2))
1: (2 * ((x - ((x2 + 2x) div 5)) div 2))
1: (2 * ((x - ((x2 + 2x) div 7)) div 2))
1: (~2 * ((x - (x2 div 4)) div 2))
1: (2 * ((x - (((x * ((~x + 2) div 2)) div 2) div 3)) div 3))
1: (2 * ((x - ((x div 2) div 3)) div 2))
1: (x * ((x - ((x div 2) div 3)) div 2))
1: (2 * ((x - ((x div 2) div (2 - (((~x + 2) div (2 + (x div 2))) mod 2)))) div 2))
1: (2 * ((x - (((x - (x div 5)) mod 3) div 2)) div 2))
1: (2 * ((x - ((x mod 9) div 2)) div 2))
1: (2 * ((x - ((x mod (2 + ((~x + 2) mod 5))) div 2)) div 2))
1: (x * ((x - (x div 3)) div 3))
1: (((x - (x div 4)) div 2) * (2 + (x div 2)))
1: (2 * ((x - (x div 9)) div 2))
1: (3 * ((x - (x div 9)) div 2))
1: (2 * ((x - (x div (2 + (x div (2 + (x2 mod 5)))))) div 2))
1: (2 * ((x - (x div (2 + (x div (2 + (x mod 3)))))) div 2))
1: (2 * ((x - (x div (1 + (x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4))))))))) div 2))
1: (2 * ((x - (x div ((if (x mod 3) <= 0 then 2 else 1) + (x mod 2)))) div 2))
1: (2 * ((x - (x div ~7)) div 2))
1: (5 * ((x - (x div ~7)) div 2))
1: (2 * ((x - (x div ~3)) div 3))
1: (2 * ((x - (x div 8)) div 2))
1: (2 * ((x - (x div 12)) div 2))
1: (2 * ((x - (x div ((~1 + (x div ~4)) div 2))) div 2))
1: (2 * ((x - ((x + 1) mod 5)) div 2))
1: ((x + 1) * ((x - (2x2 mod 5)) div 2))
1: (2 * ((x - (((x + 2) div 3) mod 3)) div 2))
1: (2 * ((x - (((x mod (1 + (x div 2))) div 2) mod 3)) div 3))
1: (((x - ((x div 2) mod 2)) div 2) * (x div 2))
1: (2 * ((x - ((x div 2) mod 3)) div 3))
1: (2 * ((x - ((x div 2) mod 4)) div 3))
1: (2 * ((x - ((x div 2) mod 5)) div 2))
1: (3 * ((x - ((x div 4) mod 2)) div 3))
1: (2 * ((x - ((x div 5) mod 2)) div 3))
1: (2 * ((x - (x mod 3)) div 2))
1: (2 * ((x - (x mod (1 + (x div (2 + (x mod 2)))))) div 2))
1: (2 * ((x - (x mod (2 + (x mod 2)))) div 2))
1: (2 * ((x - (x mod (~3 - (x div 4)))) div 3))
1: (2 * ((x - (x mod (2 - ((x div 2) mod 2)))) div 3))
1: (2 * ((x - (x mod (~1 + (2 * ((~2x + 2) div 9))))) div 3))
1: (2 * ((x - (if (~2 + (x div 2)) <= 0 then 1 else 2)) div 2))
1: (2 * ((x - loop(\(x,i).(1 + (x div 2) - (2 * (x mod 2))),((x + 1) div 2),1)) div 2))
1: (((x - i) div 2) * i)
1: (2 * (3x div 5))
1: (3 * (3x div 5))
1: (3 * (3x div 7))
1: (x * (8 div (1 + i)))
1: (3 * ((4x + 4) div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))
1: (3 * (((x + 1) * (7 + ((5 * (1 + (x div 4))) mod (x + 1)))) div 3))
1: (3 * ((x2 + 5x) div 2))
1: (5 * ((x2 + 5x) div 2))
1: ((2x + 1) * ((x2 + 5x) div 2))
1: (2 * ((3 * ((x + 1) + (2 * (((x + 1) + (x mod 2)) div 3)))) div 2))
1: (2 * ((3 * (3 + ((x2 + x + 94) div 2))) div 2))
1: (2 * ((3 * (3 + (((~1 + (6 * (1 + (((~1 + (6 * (1 + ((1 + ((loop(\(x,i).2x,x,2) mod (x + 1)) div 2)) div 2)))) div 2) div 2)))) div 2) div 2))) div 2))
1: (2 * ((3 * ((x + 2) + (((3 * ((~1 + (x div 2)) div 2)) div 2) div 2))) div 2))
1: (2 * ((2 * (4 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3))
1: ((x + 1) * ((2 * (4 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3))
1: (2 * ((x * (4 + (x div 2))) div (x + 1)))
1: (3 * ((((x + 1) + (x div 2)) * ((x + 1) div 2)) div 2))
1: (2 * ((x * (4 + (x div 4))) div (x + 3)))
1: (3 * ((3 * (x + ((((x + 1) div (1 + (x mod 4))) mod 2) + (x div 3)))) div 2))
1: (2 * ((5 * (2x + (if (~2 + (x div 5)) <= 0 then 2 else 1))) div 2))
1: (3 * ((3 * ((x + 1) + (if (x + ~2) <= 0 then 1 else 2))) div 2))
1: (2 * (((x + 3) * (x div 3)) div 7))
1: (9 * ((x2 + 3x) div 2))
1: ((2x + 3) * ((x2 + 3x) div 2))
1: (11 * ((x2 + 3x) div 2))
1: ((2x + 1) * ((x3 + 4x2 + ~x + ~4) div 2))
1: ((((3 + i) * i) div 2) * (1 + i))
1: (x * (((3 + i) * i) div 2))
1: (3 * ((x * ((2x + 1) - (x mod 5))) div 2))
1: (x * (((~1 + ((2 * i) + i)) * i) div 2))
1: (2 * ((3 * (1 + (x div 2) - ((x div 4) mod 2))) div 2))
1: (2 * ((5 * (2x - (if (~2 + (x div 2)) <= 0 then (~1 + (x div 5)) else 1))) div 2))
1: (3 * ((3x2 + 7x + 2) div 2))
1: (((9x + 6) div 2) * (x div 2))
1: (3 * ((3x2 + 11x + 6) div 2))
1: (3 * ((3x2 + 5x + 2) div 2))
1: (5 * ((3x2 + 5x + 2) div 2))
1: ((x + 1) * ((3x2 + 5x + 2) div 2))
1: (3 * ((5x2 + 9x + 4) div 2))
1: (5 * ((5x2 + x) div 2))
1: (x * ((x3 + 7x2 + 26x + 20) div 2))
1: ((x + 1) * ((~x3 + 3x2 + 8x + 4) div 2))
1: ((x + 1) * ((3x3 + 11x2 + 14x + 8) div 2))
1: (3 * ((4x3 + 21x2 + 23x + 6) div 2))
1: (3 * ((7x2 + 3x) div 2))
1: ((x + 1) * ((2x3 + 7x2 + 9x + 6) div 2))
1: (2 * ((3 * (1 + (2 * (1 + (x div 5))))) div 2))
1: (3 * ((3 * (1 + (x * (2 + (x mod 2))))) div 2))
1: (2 * ((x3 + 3x2 + 3x + 2) div 2))
1: ((2x + 3) * ((3x2 + 7x + 4) div 2))
1: (((3x2 + 7x + 4) div 2) * (1 + (3 * ((x + 1) div 2))))
1: ((3x + 5) * ((3x2 + 7x + 4) div 2))
1: (2 * ((x3 + 3x2 + 3x + 1) div 2))
1: (2 * ((4x3 + 7x2 + 4x + 1) div 2))
1: (x * ((x3 + x2 + ~5x + 3) div 2))
1: (2 * (19x div (x + 2)))
1: ((x + 1) * ((15x2 + 31x + 2) div 2))
1: (3 * ((17x + 17) div 5))
1: ((x + 1) * ((x3 + 3x2 + 18x + 16) div 2))
1: (3 * ((27x2 + 33x + 8) div 2))
1: (5 * ((27x2 + 33x + 8) div 2))
1: (7 * ((3 * (1 + (2 * ((1 + ((x * (x div 3)) mod (1 + ((2 - (x div 2)) mod 4)))) * (x mod 2))))) div 2))
1: ((x + 1) * ((3x3 + 9x2 + 8x + 4) div 2))
1: (3 * ((3x3 + 3x2 + 2x) div 2))
1: (5 * ((3x3 + 3x2 + 2x) div 2))
1: (3 * ((5x2 + 13x + 8) div 2))
1: ((x + 1) * ((5x2 + 13x + 8) div 2))
1: (((3x3 + 6x2 + 2x) div 2) * (1 + (x mod 2)))
1: ((x + 1) * ((5x3 + 15x2 + 12x + 2) div 2))
1: (3 * ((8x + 2) div 5))
1: (2 * ((12x + 3) div (x + 2)))
1: ((x2 + x + 1) * ((x4 + x) div 2))
1: (2 * ((2 * (1 + (2 * ((x + 2) div 3)))) div 3))
1: (3 * ((3 * (1 + (2 * ((((~x2 + 2) mod (~1 + ((~2x + 2) mod (4 + (x div 4))))) * (1 + (x div 2))) div 2)))) div 2))
1: (((2 * (x + (2 * (2x div (if i <= 0 then 1 else i))))) div (1 + i)) * (1 + (2 * i)))
1: (x * ((x * (1 + (2 * (i mod 2)))) div 2))
1: (2 * ((2 * (1 + (2 * (if (x + ~4) <= 0 then x else (x + 1))))) div 3))
1: (((4x + 2) div (1 + i)) * (~1 + (2 * i)))
1: ((x + 1) * ((5x2 + 5) div (x + 1)))
1: (2 * ((2x2 + 4) div (x + 3)))
1: (2 * ((5x2 + 10) div 7))
1: ((x + 1) * ((x3 + x2 + 4x + 4) div 2))
1: (((x3 + 2x2 + 4x + 8) div 2) * (1 + (x div 2)))
1: ((x + 1) * ((2 * (x2 + (x mod 2))) div 3))
1: (2 * ((3 * (1 + (2 div (1 + ((x + 2) mod 10))))) div 2))
1: (2 * ((2 * (1 + ((1 + (x div (2 + ((5 * (1 + (x mod 5))) mod (x + 1))))) div 2))) div (1 + (x mod (1 + (x div 3))))))
1: (3 * ((3 * (1 + ((1 + (x div (1 + ((if (x mod 2) <= 0 then 3 else ~2) mod (x + 1))))) div 2))) div 2))
1: (2 * ((2 * (1 + ((1 + ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod (2 * (1 + (x div 4))))) div 2))) div 3))
1: (3 * ((3 * (1 + ((2 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 3))) div 2))
1: (2 * ((3 * (x + ((x + 1) div 5))) div 2))
1: (2 * ((2 * (1 + ((compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)) div 2))) div 3))
1: (2 * ((3 * (x + ((2x - (x mod 4)) div 3))) div 2))
1: (2 * ((3 * (x + ((x - ((x div 2) mod 2)) div 2))) div 2))
1: (2 * ((2 * (x + (6 div (x + 1)))) div 3))
1: (2 * ((3 * (1 + ((2 * (1 + (loop(\(x,i).(x * i),(1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)),1) div 2))) div 3))) div 2))
1: ((x + 1) * ((5 * (1 + ((x2 + 2x) div 2))) div 2))
1: (3 * ((3 * (1 + (((~1 + ((~2x + 2) mod (4 + (x div 4)))) * (1 + (4 * (x mod 2)))) div (x + 4)))) div 2))
1: (2 * (((x + 1) * (2 + ((x * (~1 + (x mod 3))) div 2))) div 2))
1: (2 * ((3 * (1 + ((4 * ((2x + 1) - ((x div 2) div 3))) div 3))) div 2))
1: (2 * ((3 * (1 + ((4 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2)) div 3))) div 2))
1: (2 * ((3 * (x + ((5 * ((x2 + x) div 2)) div 3))) div 2))
1: (x * ((x * (1 + ((x * (x div 2)) div 4))) div 2))
1: (3 * ((3 * (1 + (((1 + (((2 * (1 + ((1 + ((1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,(2x + 1))) div 2)) div 2))) div 3) + (x mod 2))) div 2) div 2))) div 2))
1: (((3 * (1 + (((1 + (x mod (1 + (31 mod (x + 1))))) div 2) div 2))) div 2) * (x mod 2))
1: (3 * ((3 * (1 + (((3 * (1 + ((2 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 3))) div 2) div 2))) div 2))
1: (3 * ((3 * (1 + (((3 * (1 - (((~1 + (6 * (1 + ((~2 + (x mod 2)) mod (~1 + ((~2x + 2) mod (4 + (x div 4)))))))) div 2) div 2))) div 2) div 2))) div 2))
1: (3 * ((3 * (1 + ((((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (4 * (1 + (x div 5))))) div 2) div 2))) div 2))
1: (3 * ((4 * (x + ((((x + 1) div 2) div 2) div 2))) div 3))
1: (5 * ((3 * (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) div (1 + ((x div 2) mod 2))))) div 2))
1: (2 * (((1 + ((x div 2) div 3)) * (1 + (x div 5))) div 2))
1: (2 * ((3 * (x + ((x div 2) div 3))) div 2))
1: (2 * ((3 * (x + ((x div 2) div 5))) div 2))
1: (3 * ((4 * (x + ((x div 2) div 5))) div 3))
1: (2 * ((3 * (1 + (((1 + (x mod (1 + (x mod (2 * (2 + ((x div 2) mod 2))))))) mod (x + 1)) div 2))) div 2))
1: (5 * ((3 * (1 + (((1 + (x mod ((1 + (x mod (1 + (x div 4)))) * (1 + (x mod 2))))) mod (x + 1)) div 2))) div 2))
1: (2 * ((3 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 2))
1: ((x + 1) * (((1 + (x div 2)) * (x div 2)) div 2))
1: (x * (((1 + (x div 2)) * (x div 2)) div 5))
1: (2 * ((2 * (x + (x div 2))) div 5))
1: (x * (((x + 1) * (2 + (x div 4))) div 2))
1: (2 * ((2 * (1 + (x div 5))) div (1 + (if (2x mod (4 + (x div 4))) <= 0 then 2 else 0))))
1: (2 * ((3 * (x + (x div 12))) div 2))
1: (3 * ((3 * (1 + (7 mod (1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))))) div 2))
1: (3 * (((1 + (x2 mod (~1 + ((~2x + 2) mod (4 + (x div 4)))))) * (1 + (x div 3))) div 3))
1: (2 * ((2 * (x + ((((x + ~1) div 2) div 2) mod 2))) div 5))
1: (2 * ((3 * (1 + (x mod (1 + (2 * ((x + ~1) mod (1 + (x div (2 + ((x div 2) mod 3)))))))))) div 2))
1: ((((1 + (x mod (1 + ((x2 + 2x) mod 8)))) * (1 + (x div 2))) div 2) * ((x mod 3) div 2))
1: (3 * ((3 * (1 + (x mod (1 - (x mod (~1 + (x div ~8))))))) div 2))
1: (2 * ((2 * (1 + (x mod 6))) div 3))
1: (3 * (((x + 1) * (2 + (if (~x + 2) <= 0 then x else 2))) div 2))
1: (2 * ((4 * (x + (if (~4 + (x div 2)) <= 0 then 1 else 2))) div 3))
1: (3 * ((4 * (x + (if (~2 + (x div 2)) <= 0 then 1 else 2))) div 3))
1: (2 * ((x * (x + (if (~2 + (x div 2)) <= 0 then 2 else 1))) div 3))
1: (3 * ((3 * (x + (if (~2 + (x div 4)) <= 0 then 1 else 2))) div 2))
1: (2 * ((3 * (x + (if (x + ~10) <= 0 then 1 else 2))) div 2))
1: (2 * ((5 * (1 + (if ((x + ~1) mod 3) <= 0 then 2x else 0))) div 2))
1: ((x2 + 2x + 1) * ((2 * (2 + (if x <= 0 then 0 else (2 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))))) div 3))
1: ((x + 2) * ((2 * (2 + (if x <= 0 then 0 else (2 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))))) div 3))
1: (2 * ((3 * (x + loop(\(x,i).(x + (if (~4 + (x div 2)) <= 0 then 1 else 0)),2,x))) div 2))
1: (2 * ((3 * (x + loop(\(x,i).((x + 1) - (((x + 1) div 2) div 3)),2,x))) div 2))
1: (3 * ((x * (x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 1)))) div 2))
1: ((x + ~1) * ((x * (1 + loop(\(x,i).(if (x + ~2) <= 0 then 0 else x2),(x div 2),x))) div 2))
1: (2 * ((3 * (x + loop(\(x,i).i,(x + ~5),1))) div 2))
1: (2 * ((3 * (x + loop(\(x,i).i,((x + ~1) div 3),1))) div 2))
1: (3 * ((2x + 2) div 5))
1: (2 * ((2x + 2) div 7))
1: (3 * ((2x + 2) div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))
1: ((x + 5) * ((x2 + x) div 2))
1: ((x + 3) * ((x2 + x) div 2))
1: ((2x + 3) * ((x2 + x) div 2))
1: ((x2 + 2x + 1) * ((x2 + x) div 2))
1: ((4x + 1) * ((x2 + x) div 2))
1: ((2x2 + 1) * ((x2 + x) div 2))
1: ((2x + ~1) * ((x2 + x) div 2))
1: ((2x + 1) * ((x2 + x) div 3))
1: (((x2 + x) div 3) * (2 + (x mod 2)))
1: (2 * ((x2 + x) div 4))
1: (5 * ((x2 + x) div 4))
1: ((x2 + x + 1) * ((x2 + x) div 4))
1: (3 * ((x2 + x) div 7))
1: (5 * ((x2 + x) div (2 * (2 - ((x div ~2) mod 2)))))
1: (2 * ((2x + 4) div 3))
1: (3 * ((2x + 4) div 5))
1: (2 * ((2x + 4) div (2 + (if (x + ~3) <= 0 then 2 else 1))))
1: (((x2 + 3x + 2) div 2) * ((x + 1) + (x mod 2)))
1: (7 * ((x2 + 3x + 2) div 2))
1: (17 * ((x2 + 3x + 2) div 2))
1: ((2x2 + 4x + 1) * ((x2 + 3x + 2) div 2))
1: (((x2 + 3x + 2) div 2) * (2 + ((x div 2) mod 2)))
1: (((x2 + 3x + 2) div 2) * (1 + loop(\(x,i).2x,x,1)))
1: ((x2 + 4x + 3) * ((x2 + 3x + 2) div 2))
1: (((x2 + 3x + 2) div 2) * (~1 + (2 * (x mod 2))))
1: ((x + 3) * ((x2 + 3x + 2) div (1 + (x mod 2))))
1: (3 * ((x2 + 4x + 4) div (~x + 26)))
1: ((x + ~2) * ((x2 + 2x) div 2))
1: (((x2 + 2x) div 2) * ((x2 + 2x) div 2))
1: ((x + 1) * ((x2 + 2x) div 5))
1: (3 * ((x2 + 2x) div ~2))
1: (5 * ((x2 + 2x) div 12))
1: ((((2 + i) * (1 + i)) div 2) * (1 + (2 * i)))
1: ((((2 + i) * i) div 2) * (1 + i))
1: (2 * ((x * (x + i)) div 2))
1: (2 * ((x * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))) div 2))
1: (3 * ((~x * (x div 2)) div 2))
1: (5 * ((11x2 + 7x) div 2))
1: ((x + 1) * ((33x2 + 25x + 2) div 2))
1: (3 * ((~3x2 + ~8x + ~4) div 2))
1: (2 * (((1 - (2 * (i mod 2))) * i) div 2))
1: (5 * ((~x3 + x) div 2))
1: (7 * ((~x3 + x) div 3))
1: (2 * ((x * (1 - ((x3 div 8) mod 2))) div 5))
1: (3 * ((~2x + 2) div 9))
1: (5 * ((~2x + 2) div 9))
1: ((x2 + 1) * ((~x2 + x) div 2))
1: (3 * ((~2x + 4) div 7))
1: (7 * ((~x2 + 4x + ~4) div 2))
1: (2 * (((~x + 2) * (x div 2)) div (x + 4)))
1: (3 * ((~x2 + 2x) div 4))
1: (2 * ((~x2 + 2x) div 8))
1: ((x + 1) * ((x2 + 17x + 30) div 2))
1: (2 * ((~3x + ~3) div 5))
1: (3 * ((3 * (~2 + (2 * (x2 mod 19)))) div 2))
1: (2 * ((((x + ~2) - ((~x + 2) div 4)) * (1 + (x div 2))) div 2))
1: (3 * ((x * (~2 + (3 * i))) div (1 + i)))
1: (2 * (((4x + 3) * (1 + (x div 5))) div 3))
1: (5 * ((5x2 + ~x) div 2))
1: ((x + 1) * ((x3 + 3x2 + ~2x) div 2))
1: ((x + ~1) * ((x3 + 3x2 + ~6x) div 2))
1: (3 * ((3 * (~1 + (3 * (1 + ((x div 2) mod (1 + (6 * (x mod 2)))))))) div 2))
1: (3 * ((x3 + x2 + ~x) div 4))
1: (3 * ((3x2 + 5x) div 2))
1: (4 * ((x3 + ~3x2 + ~x) div 3))
1: (5 * ((2 * (~1 + (6 * ((x + 1) + (5 * (1 + (x div 2))))))) div 3))
1: (3 * ((7x2 + 18x + 8) div 2))
1: ((x + 1) * ((3x3 + 3x2 + ~2x) div 2))
1: (2 * ((31x + 31) div 9))
1: (2 * ((4x2 + ~x) div 2))
1: (2 * ((2 * (4x - ((x div 2) div 3))) div 3))
1: (2 * ((2 * (4x - ((x div 2) div 5))) div 3))
1: (2 * ((3 * (2x - ((~x + 2) div 4))) div 2))
1: ((x3 + x + 1) * ((x3 + ~x) div 2))
1: (x * (((~1 + ((x + ~1) div 2)) * ((x + ~1) div 2)) div 2))
1: ((x + 1) * ((x * (~1 + ((x + ~1) div 2))) div 2))
1: (2 * ((2 * (~8 + (x div 2))) div 3))
1: (2 * ((4 * (~x + (x mod 8))) div 3))
1: (2 * ((3 * (~1 + (if x <= 0 then 1 else 9x))) div 2))
1: (2 * ((2x + ~2) div 7))
1: (2 * ((2x + ~2) div 9))
1: (3 * ((x2 + ~x) div 2))
1: (5 * ((x2 + ~x) div 2))
1: ((x + 3) * ((x2 + ~x) div 2))
1: ((x2 + ~x + 1) * ((x2 + ~x) div 2))
1: ((x2 + ~2x + 1) * ((x2 + ~x) div 2))
1: ((2x2 + 1) * ((x2 + ~x) div 2))
1: ((x + ~1) * ((x2 + ~x) div 2))
1: ((2x + ~1) * ((x2 + ~x) div 3))
1: (3 * ((x2 + ~x) div 4))
1: (((x2 + ~x) div 4) * (1 + (((x + 1) div 2) div 2)))
1: ((x + 1) * ((x2 + ~x) div 4))
1: (2 * ((x2 + ~x) div (x + (if x <= 0 then 1 else (x div 3)))))
1: (x * ((x2 + ~x) div (~6x + 108)))
1: (x * ((x2 + ~2x) div 4))
1: ((2x + ~1) * ((x2 + ~2x) div 5))
1: (3 * ((x2 + ~2x) div (x + 2)))
1: (x * ((x2 + ~2x) div (x + 2)))
1: (x * ((x2 + ~5x + 6) div 2))
1: (3 * ((7x2 + 5x) div 2))
1: (2 * ((x * ((x + ~1) + ((x div 2) div 3))) div 3))
1: (2 * ((3 * ((x + 1) - ((x - loop(\(x,i).(x - (x2 div (x + 16))),2,(if x <= 0 then 1 else x))) mod (x + 1)))) div 2))
1: (2 * ((2 * ((x + 1) - ((x div 2) mod (1 + (x mod (1 + (x div 3))))))) div 3))
1: (2 * ((3 * (x - (2 * ((if (x mod 3) <= 0 then (5 * (if x <= 0 then 1 else 2)) else 1) * (2 - (x mod 2)))))) div 2))
1: (2 * ((3 * (x - ((~1 + (2 * ((~x + 2) div 4))) div 3))) div 2))
1: (x * ((x * (x - (x4 div (~1 + (x div ~2))))) div 2))
1: (2 * ((3 * (x - ((((x * ((1 - (x div 2)) div 3)) div 2) div 2) div 2))) div 2))
1: (3 * ((3 * (x - ((((x * ((1 - (x div 2)) div 3)) div 2) div 2) div 2))) div 2))
1: (2 * ((3 * (x - ((if x <= 0 then 1 else x) div ~7))) div 2))
1: (2 * ((3 * (x - (x div ~8))) div 2))
1: (3 * ((x * (x - loop(\(x,i).x3,1,(3x + 2)))) div 2))
1: (x * (((~1 + i) * i) div 2))
1: (2 * (9x div (1 + (x mod 2))))
1: (3 * (16 div (x + 1)))
1: (2 * ((8 * (1 + (x div 2))) div 5))
1: (2 * ((8x + 8) div 5))
1: (2 * ((12x + 12) div 5))
1: (5 * ((12x + 12) div 5))
1: (9 * ((12x + 12) div 5))
1: ((x + 7) * ((x3 + 9x2 + 20x + 12) div 2))
1: ((x + 5) * ((x3 + 7x2 + 6x) div 2))
1: (3 * (((x2 + 3x + 2) * ((4x + 3) + ((x2 + 3x) div 2))) div 2))
1: ((x + 1) * ((x3 + 5x2 + 4x) div 2))
1: ((x + ~1) * ((x3 + 3x2 + ~4x) div 2))
1: ((x + 1) * ((3x3 + 11x2 + 12x + 4) div 2))
1: ((x + 3) * ((x3 + 13x2 + 44x + 32) div 2))
1: ((x + 3) * ((x3 + 9x2 + 8x) div 2))
1: ((x + 3) * ((x3 + 15x2 + 38x + 24) div 2))
1: ((x + 1) * ((5x3 + 21x2 + 28x + 12) div 2))
1: ((x + 3) * ((5x3 + 17x2 + 16x + 4) div 2))
1: (2 * ((5x4 + 20x3 + 31x2 + 28x + 12) div 3))
1: ((x + 1) * ((2x4 + 11x3 + 25x2 + 28x + 12) div 2))
1: ((x + 1) * ((x4 + 5x3 + 10x2 + 10x + 4) div 2))
1: ((x + 3) * ((x3 + 27x2 + 74x + 48) div 2))
1: (2 * ((32x + 4) div 3))
1: ((4x + 1) * ((6x4 + 11x3 + 6x2 + x) div 3))
1: (x * ((x5 + ~x4 + x2) div 2))
1: ((x + ~1) * ((x5 + ~3x4 + 2x3 + x2 + ~x) div 2))
1: (3 * ((4x2 + 2x) div 3))
1: (2 * ((2x3 + 2x) div (x + 3)))
1: (5 * ((2x * (1 + (2 * i))) div (2 + i)))
1: (9 * ((2x * (1 + (2 * i))) div (2 + i)))
1: (((2x * (1 + (2 * i))) div (2 + i)) * (1 + i))
1: (2 * (((2x * (1 + (2 * i))) div (2 + i)) * i))
1: ((x + 3) * (((x2 + 3x + 2) * (2 + ((x2 + x) div 2))) div 2))
1: (2 * ((2x3 + 9x2 + 12x + 4) div 3))
1: (3 * ((x3 + 5x2 + 8x + 4) div 2))
1: ((x + 3) * ((x3 + 5x2 + 8x + 4) div 2))
1: ((3x + 7) * ((x3 + 5x2 + 8x + 4) div 2))
1: ((x2 + 2x + 1) * ((x3 + 5x2 + 8x + 4) div 2))
1: ((x2 + 2x + ~1) * ((x3 + 3x2 + 2x) div 2))
1: ((x + 1) * ((5x3 + 9x2 + ~2x) div 2))
1: (9 * ((x4 + 2x3 + ~x2) div 2))
1: (2 * ((2x * (~1 + (4 * i))) div (1 + i)))
1: (2 * ((16x3 + ~16x) div 3))
1: (9 * ((2x * (~1 + (2 * i))) div (1 + i)))
1: (((2x * (~1 + (2 * i))) div (1 + i)) * (1 + (i mod 2)))
1: (9 * ((x3 + ~3x2 + 2x) div 2))
1: ((x + ~1) * ((x3 + ~3x2 + 2x) div 2))
1: (2 * ((x3 + ~3x2 + 2x) div 9))
1: ((x + 3) * ((x3 + ~5x2 + ~22x + ~16) div 2))
1: ((x + 1) * ((5x3 + 3x2 + ~2x) div 2))
1: (2 * ((16x + 16) div 5))
1: ((x + ~1) * ((x8 + x6 + x4 + x2) div 2))
1: (((2x * ((1 + (2 * i)) * (1 + (2 * i)))) div (1 + i)) * (1 + (2 * i)))
1: (2 * ((2x * ((1 + (2 * i)) * (~1 + (2 * i)))) div (1 + i)))
1: (x * ((x3 * (x + ((x + loop(\(x,i).x3,2,x)) div 2))) div 2))
1: (2 * ((4x2 + 12x + 8) div 7))
1: ((x + 3) * ((x4 + 7x3 + 18x2 + 20x + 8) div 2))
1: (3 * ((8 * (2 - (x mod 2))) div (x + 1)))
1: (2 * ((2x * ((~1 + (2 * i)) * (1 + (2 * (1 + i))))) div (1 + i)))
1: (2 * ((32x3 + 16x) div 3))
1: (2 * (16x div (x + 4)))
1: ((x + 1) * ((x6 + x5) div 2))
1: (3 * ((8 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2)) div 3))
1: ((8x div (1 + i)) * (1 + (2 * i)))
1: (2 * (8x div (if i <= 0 then 1 else i)))
1: (2 * (12x div (x + 2)))
1: (2 * (20x div (x + 3)))
1: (5 * ((4x * (~1 + (2 * i))) div (3 + i)))
1: (3 * ((4x * (~1 + (2 * i))) div (1 + i)))
1: (((4x * (~1 + (2 * i))) div (1 + i)) * (1 + (2 * (1 + i))))
1: (5 * ((4x3 + 6x2 + 2x) div 3))
1: ((x + 1) * ((x4 + 3x3 + 2x2) div 2))
1: ((x + 1) * ((x5 + x4) div 2))
1: (2 * ((2x * (i * (~1 + (2 * i)))) div (1 + i)))
1: (5 * ((4 * ((1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + ~1) div 2))) div 2)) div 3))
1: (2 * ((4 * ((2x + 1) div 9)) div 3))
1: (2 * ((4 * ((x - (x div 3)) div 3)) div 3))
1: (2 * ((4 * ((2x + 2) div 7)) div 3))
1: (5 * ((4 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2)) div 3))
1: (2 * ((4 * (2x div 7)) div 3))
1: (3 * ((3 * ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (2 * ((1 + (x div 2)) div 2))))) div 2))
1: (3 * ((4 * (x div 5)) div 3))
1: (2 * ((4 * (x mod (x - ((x + ~1) mod 8)))) div 5))
1: ((x + 1) * (((x2 + 2x) * loop(\(x,i).x2,2,(x + 1))) div 2))
1: (2 * (4x div 5))
1: (2 * (4x div (1 + (if (x mod 7) <= 0 then 6 else 0))))
1: ((4x div (2 + i)) * (1 + (2 * i)))
1: (2 * ((2x2 + 2x) div 5))
1: (2 * (2x2 div (x + 1)))
1: (2 * (2x2 div ~7))
1: (5 * (4x2 div (2 - (x mod 2))))
1: ((x + 5) * ((x3 + x2) div 2))
1: ((3x + 1) * ((x3 + x2) div 2))
1: ((x2 + 4x + 1) * ((x3 + x2) div 2))
1: ((x2 + 2x + 1) * ((x3 + x2) div 2))
1: ((x3 + ~x2 + 1) * ((x3 + x2) div 2))
1: (((x3 + 2x2) div 2) * (1 - (2 * (x mod 2))))
1: ((~x + 1) * ((x3 + 2x2) div 2))
1: ((x + 1) * (~x3 div 2))
1: ((x + 3) * ((~x3 + x2) div 2))
1: (7 * ((~x3 + x2) div 2))
1: (9 * ((~x3 + x2) div 2))
1: ((x3 + x2 + 1) * ((x3 + ~x2) div 2))
1: (2 * (x3 div 2))
1: ((x + 1) * (x3 div 2))
1: ((x + 2) * (x3 div 2))
1: (x * (x3 div 3))
1: (2 * (x3 div (x + 2)))
1: ((x + 1) * (x3 div 8))
1: (x * (x3 div (4x + 2)))
1: (((2x * i) div (1 + i)) * (1 + (2 * i)))
1: (((2x * i) div (1 + i)) * (~1 + (2 * i)))
1: (2 * ((x * (i * i)) div 2))
1: (2 * ((4 * compr(\x.(x - loop(\(x,i).loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),x,(2x + 1)),2,(x + ~1))),x)) div 3))
1: (2 * ((x * (((x + 1) + (x div 2)) div 2)) div (x + 2)))
1: (2 * ((3 * (((5x + 5) + ((x div 2) div 3)) div 2)) div 2))
1: (2 * ((3 * ((1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + ~1) div 2))) div 2)) div 2))
1: (2 * ((3 * ((1 + (2 * (loop(\(x,i).2x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2))) div 3)) div 2))
1: (2 * ((x * ((x2 + 1) div 2)) div 2))
1: ((x + 1) * ((x * ((1 + ((x * (1 + loop(\(x,i).(x3 + x),1,(x2 + ~1)))) div 2)) div 2)) div 2))
1: (2 * ((3 * ((1 + (x div 2)) div 2)) div 2))
1: (2 * ((x * ((1 + (x div 2)) div 2)) div 15))
1: (2 * ((3 * ((1 + (x div 2)) div 3)) div 2))
1: (2 * ((3 * ((x + (1 mod (8 - (x div 2)))) div 2)) div 2))
1: (2 * ((3 * ((x + ((x div 2) mod 2)) div 2)) div 2))
1: (((2 * ((x + loop(\(x,i).(if x <= 0 then 1 else (x - (if x <= 0 then 1 else (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))),2,x)) div 2)) div 3) * (x mod 2))
1: (2 * ((((~x + 1) div 2) * (x div 2)) div 2))
1: (x * ((x * ((~x + 2) div 2)) div 2))
1: (2 * ((3 * ((~1 + (2 * (if x <= 0 then 1 else (2 * (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))))))) div 2)) div 2))
1: (2 * ((((x + ~1) div 2) * (x div 2)) div 2))
1: (3 * ((x * ((x + ~1) div 3)) div (x + 1)))
1: (2 * ((2 * ((3 * (1 + ((2 * (1 + (loop(\(x,i).(x * i),(1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)),1) div 2))) div 3))) div 2)) div 3))
1: (2 * ((3 * ((3 * (1 + ((3 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)) div 2))) div 2)) div 2))
1: (3 * ((3 * ((3 * (1 + ((((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (4 * (1 + (x div 5))))) div 2) div 2))) div 2)) div 2))
1: (2 * ((3 * ((x2 + x) div 2)) div 2))
1: (3 * ((3 * ((x2 + x) div 2)) div 2))
1: (3 * ((x * ((x2 + 4x + 4) div 2)) div 2))
1: (2 * ((2 * ((x2 + ~x) div (x + 2))) div 3))
1: (2 * ((5 * ((4 * ((1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + ~1) div 2))) div 2)) div 3)) div 2))
1: ((x + 1) * (((x2 + 4x + 1) * ((x3 + x2) div 2)) div 3))
1: (3 * (((x + 1) * ((x3 + x2) div 2)) div 2))
1: ((x + ~1) * (((x + ~1) * ((x3 + ~x2) div 2)) div 2))
1: ((x + 1) * (((x + 1) * ((3 * (x div 4)) div 2)) div 2))
1: (5 * ((2 * (2x div 3)) div 3))
1: (2 * ((3 * (2x div 9)) div 2))
1: (2 * ((2 * (((x + 1) div 2) div 2)) div 3))
1: (2 * (((((x + 1) div 2) div 2) * (x div 2)) div 5))
1: (2 * ((5 * (((3 * (1 + (loop(\(x,i).3x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 3))) div 2) div 2)) div 2))
1: (3 * ((3 * ((x div 2) div (2 + ((2x2 + x) mod 12)))) div 2))
1: (2 * ((3 * (((1 + (x mod (1 + (x mod (2 * (2 + ((x div 2) mod 2))))))) mod (x + 1)) div 2)) div 2))
1: (2 * ((5 * (((1 + (x mod (1 + (x mod (2 * (2 + ((x div 2) mod 2))))))) mod (x + 1)) div 2)) div 2))
1: (3 * (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + ((1 + (x div 2)) div 2))) div 3))
1: (2 * (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 - (2 * (x div 5)))) div 2))
1: (3 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2))
1: (((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2) * (1 + (x div 3)))
1: (((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2) * (1 + (x div 4)))
1: (((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2) * (1 + (x mod 5)))
1: (((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2) * (((x + 1) div 2) div 2))
1: (2 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (~3 + (x div 2))) div 2))
1: (3 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + ~1) - ((x div 2) mod 2))) div 2))
1: (5 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2))
1: (7 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2))
1: (2 * ((x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) div 3))
1: (x * ((x * ((x mod (2 + (x mod 2))) div 2)) div 4))
1: (2 * ((3 * ((x mod (x - ((x + ~1) mod 8))) div 2)) div 2))
1: ((x + 1) * (((2x + 3) * (loop(\(x,i).(2 * (2x + (x div (if i <= 0 then 1 else i)))),x,(x + 2)) div 2)) div 3))
1: (2 * (((loop(\(x,i).4x,((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2),1) div 3) * (1 + (x div 2))) div 2))
1: (3 * ((2 * (x div 2)) div 3))
1: (5 * ((2 * (x div 2)) div 5))
1: (9 * ((2 * (x div 2)) div 5))
1: ((x + 1) * ((2 * (x div 2)) div 5))
1: (2 * ((3 * (x div 2)) div 5))
1: (2 * (((x + ~1) * (x div 2)) div 2))
1: ((((x div 2) * (x div 2)) div 2) * (((x + 1) div 2) div 2))
1: (((x * (x div 2)) div 2) * (2 + (x div 2)))
1: (2 * ((x * (x div 2)) div (x + 4)))
1: (((2 * (x div 3)) div 3) * (1 + (x div 5)))
1: ((x + 1) * ((3 * (x div 4)) div 2))
1: (((3 * (x div 4)) div 2) * (x div 2))
1: (2 * (((x div 4) * (x div 4)) div 2))
1: (3 * ((3 * (x div 7)) div 2))
1: (2 * ((2 * (x div (1 + (2 * (2 - ((x mod 3) mod 2)))))) div 3))
1: (2 * (((2x + 1) * (x div ~2)) div 2))
1: (2 * ((7 * (x div (4 * (8 - (x div 2))))) div 2))
1: (2 * ((3 * ((2 + (x div 3)) mod (~1 + (2x mod (4 + (x div 4)))))) div 2))
1: (3 * ((5 * ((2 + (x div 3)) mod (~1 + (2x mod (4 + (x div 4)))))) div 2))
1: (5 * ((x * ((~x2 + 2) mod (~1 + ((~2x + 2) mod (4 + (x div 4)))))) div 5))
1: (3 * ((3 * ((~1 + (x2 div 2)) mod (~1 + ((~2x + 2) mod (4 + (x div 4)))))) div 2))
1: (2 * ((3 * ((~2 + (x mod 2)) mod (~1 + ((~2x + 2) mod (4 + (x div 4)))))) div 2))
1: (2 * ((3 * ((~1 + (if (x mod 2) <= 0 then x else 0)) mod (~1 + ((~2x + 2) mod (4 + (x div 4)))))) div 2))
1: (2 * ((3 * (x3 mod 17)) div (x + 1)))
1: (((x * ((x * (x div 2)) mod 2)) div 4) * (x div 2))
1: (3 * ((3 * ((x2 mod (4 + (((x + 1) div 2) div 2))) mod 3)) div 2))
1: (((x * (x mod 2)) div 2) * (x div 2))
1: (2 * ((x * (x mod 2)) div 4))
1: (2 * ((3 * (x mod 4)) div 2))
1: (3 * ((x * (x mod 4)) div 2))
1: (9 * ((2 * (x mod 10)) div 9))
1: (2 * ((2 * (if (x + ~2) <= 0 then x else (2 - (x div ~2)))) div 3))
1: (2 * ((3 * (if ((x + 1) mod 4) <= 0 then ((x + 1) div 3) else 1)) div 2))
1: (2 * ((x * (if (x mod 2) <= 0 then 2 else x)) div 8))
1: (2 * (((if (x mod 4) <= 0 then 0 else 1) * (1 + (x div 2))) div 2))
1: (2 * ((2 * (if x <= 0 then 0 else (x + 2))) div 3))
1: (x * (((x + 1) * (if x <= 0 then 2 else ((x + 1) div 2))) div 2))
1: (x * (((x + 1) * loop(\(x,i).(x + (i * i * (1 + i))),(x + 2),0)) div 2))
1: ((x + 1) * (((x + 1) * loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,(x + 2))) div 2))
1: ((x + 2) * (((x + 1) * loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,x)) div 2))
1: (2 * ((2 * loop(\(x,i).(x + (if (x - i) <= 0 then x else 0)),x,1)) div 3))
1: ((x + ~1) * ((x * loop(\(x,i).(x + loop(\(x,i).(x * i),i,1)),(x + ~1),1)) div 2))
1: ((x + ~1) * ((x * loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),x,0)) div 2))
1: (2 * ((x * loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)) div 2))
1: (x * ((x2 * loop(\(x,i).(x3 + x),1,x5)) div 2))
1: (x * ((x * loop(\(x,i).(x3 + x),1,x5)) div 2))
1: (3 * (((x + 1) * loop(\(x,i).(x * (~1 + (2 * i))),x,(x + 2))) div 2))
1: (2 * ((2 * loop(\(x,i).(x * (x - i)),2,(x + 3))) div 3))
1: (x * ((x * loop(\(x,i).(x5 + x2),1,x3)) div 2))
1: (x * ((x * loop(\(x,i).(x4 + x2),1,x4)) div 2))
1: (2 * (((2x + 1) * loop(\(x,i).6x,x,2)) div 3))
1: ((x + 1) * (((x + 2) * loop(\(x,i).x3,1,(x + 3))) div 2))
1: ((x + 1) * (((x + 2) * loop(\(x,i).2x,(x + ~2),x)) div 2))
1: ((x + ~1) * ((x * loop(\(x,i).2x,x,loop(\(x,i).x2,(x + ~1),2))) div 2))
1: (x * (((3x + 4) * loop(\(x,i).x2,2,(x + 1))) div 2))
1: (x * ((x2 * loop(\(x,i).x2,2,((x2 + ~x) div 2))) div 2))
1: (2 * (((x + 3) * loop(\(x,i).((x2 + ~x) div 2),2,(x + 4))) div 3))
1: (x * ((x * loop(\(x,i).((x2 + ~x) div 2),2,(x + 2))) div (x + 1)))
1: (7 * ((x * loop(\(x,i).((x2 + ~x) div 2),2,(x + ~2))) div 15))
1: ((x + 1) * (2x div 3))
1: ((x + 2) * (2x div 3))
1: ((x + ~1) * (2x div 3))
1: (3 * (2x div 5))
1: (2 * (2x div (5 + (x div (2 + (x mod 3))))))
1: (3 * (2x div (4 + (x div 3))))
1: (2 * (2x div (3 + i)))
1: (2 * (2x div (~x + 17)))
1: ((2x div 7) * (((x + ~1) div 2) div 2))
1: ((2x div 7) * (x div 3))
1: (2 * (2x div 9))
1: (3 * (2x div 9))
1: (3 * (2x div (8 + (x mod 2))))
1: ((2x div (1 + (x div 2))) * (x div 2))
1: (x * (2x div (1 + (x div 2))))
1: ((2x div (1 + i)) * (1 + i))
1: (2 * (2x div ~7))
1: (3 * (2x div ~5))
1: (17 * (2x div 15))
1: ((x + 1) * (2x div 15))
1: ((2x div (if i <= 0 then 1 else i)) * (1 + i))
1: ((2x div (if i <= 0 then 1 else i)) * (2 + i))
1: ((x2 div 2) * (1 + (x div 2)))
1: ((x + 1) * (x2 div 2))
1: ((x + ~1) * (x2 div 2))
1: ((x2 div 2) * ((~x + 2) div 2))
1: ((x2 div 2) * (x div 2))
1: (5 * (x2 div 3))
1: ((x2 div 3) * ((x + 1) div 2))
1: (7 * (x2 div 4))
1: (9 * (x2 div 4))
1: ((x2 div 4) * (1 + ((x + 1) div 2)))
1: ((x2 div 4) * (~1 + (x2 div 2)))
1: (x * (x2 div 4))
1: (x * (x2 div 5))
1: (2 * (x2 div ((x + 1) + (2 * (x div 5)))))
1: (x * (x2 div (x + 3)))
1: (2 * (x2 div (x + 4)))
1: ((x2 div (x + 4)) * (1 + (x div 2)))
1: (x * (x2 div ((4x + ~4) + (x mod 3))))
1: (2 * (x2 div (1 + (3 * (2 + (x mod 2))))))
1: (2 * (x2 div 65))
1: (2 * (x2 div (1 + (2 * (if (x mod 5) <= 0 then 0 else 2)))))
1: (2 * (x2 div (1 + (x div 2))))
1: ((x2 div (2 + (x div 2))) * ((x + 1) div 2))
1: (2 * (x2 div (1 + (x mod 4))))
1: (x * (x2 div (x + 2)))
1: ((x2 div ~2) * (x div ~2))
1: (~x * (x2 div ~4))
1: (2 * (x2 div (2x + 8)))
1: (2 * (x2 div (3 * (2 + (x div 2)))))
1: (2 * (x2 div 16))
1: (2 * ((x * i) div 5))
1: (2 * ((3 * compr(\x.loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,2x),(x + 1))) div 2))
1: (2 * ((3 * compr(\x.loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,2x),x)) div 2))
1: (2 * ((((x + 2) + ((3 * ((x + 2) + (2x div 7))) div 2)) div 2) div 2))
1: (2 * (((2 + (x * (x + (x div 2)))) div (x + 2)) div 2))
1: (3 * (((x3 + 2x2 + 1) div 2) div 2))
1: (2 * ((((5 * ((x2 + 3x + 2) div 2)) + (x div 5)) div 2) div 2))
1: (2 * ((((x + 1) + ((((3 * ((x * (x mod 4)) div 2)) mod (x + 1)) div 2) div 2)) div 2) div 3))
1: (x * (((1 + (loop(\(x,i).(2 * (2x + (x div (if i <= 0 then 1 else i)))),x,x) div 2)) div 2) div 3))
1: ((x + 1) * (((1 + (x div 2)) div 2) div 2))
1: ((((1 + (x div 2)) div 2) div 2) * (x div 2))
1: (2 * (((1 + (x mod (1 + (31 mod (x + 1))))) div 2) div 2))
1: ((x + ~1) * (((x + loop(\(x,i).3x,(x + ~2),x)) div 2) div 2))
1: ((x + 1) * (((x + 1) div 2) div 2))
1: ((((x + 1) div 2) div 2) * ((1 + (x div 2)) div 2))
1: ((((x + 1) div 2) div 2) * (x div 4))
1: ((((x + 1) div 2) div 2) * (x div 5))
1: (5 * (((x + 1) div 2) div 3))
1: (9 * (((x + 1) div 2) div 3))
1: ((((x + 1) div 2) div 3) * (1 + (x div 8)))
1: ((((x + 1) div 2) div 3) * (1 + (x mod 2)))
1: ((((x + 1) div 2) div 3) * ((x + 2) div 3))
1: (2 * (((x + 1) div (~x + 16)) div 4))
1: (2 * (((2 - (((x div 2) div 3) * ((x + ~1) div 2))) div 2) div 2))
1: (2 * (((2 - (x div 2)) div 2) div 2))
1: (x * (((2 - (x div 2)) div 2) div 2))
1: (3 * (((~x + 2) div 2) div 3))
1: (x * (((~x + 2) div 2) div 3))
1: ((((~x + 2) div 2) div 5) * (x div 2))
1: ((x + 1) * ((((~x + 1) + (2 * ((x3 + ~3x2 + 2x) div 9))) div 2) div 2))
1: (2 * (((~1 + (6 * (3 + ((x + (x div 2)) div (4 + (x div 2)))))) div 2) div 2))
1: (2 * (((~1 + (6 * (1 + (x div (4 + (x div (1 + ((x + ~1) mod 5)))))))) div 2) div 2))
1: (2 * (((~1 + ((x + 1) * loop(\(x,i).(2 * (x + (x div (4 + i)))),x,1))) div 2) div 2))
1: (x * (((x2 + ~1) div 2) div 2))
1: (2 * ((((x2 div 2) - (x div 3)) div 2) div 2))
1: (2 * (((~1 + (if (x mod (4 + (x div 2))) <= 0 then 1 else x)) div 2) div 2))
1: (5 * (((x + ~1) div 2) div 2))
1: ((((x + ~1) div 2) div 2) * (1 + (x mod 3)))
1: ((x + 1) * (((x + ~1) div 2) div 2))
1: ((x + 2) * (((x + ~1) div 2) div 2))
1: ((((x + ~1) div 2) div 2) * ((~1 + (x div 2)) div 2))
1: ((((x + ~1) div 2) div 2) * ((x mod 3) div 2))
1: ((((x + ~1) div 2) div 2) * (x div 4))
1: ((((x + ~1) div 2) div 2) * (x div 5))
1: ((((x + ~1) div 2) div 2) * (if x <= 0 then 1 else x))
1: (2 * (((x - (x * loop(\(x,i).((x2 + ~x) div 2),2,(x + ~2)))) div 2) div 3))
1: (3 * (((x - (x2 div 3)) div 2) div 3))
1: ((x + 1) * (((x - ((x mod 3) div 2)) div 2) div 2))
1: (3 * (((x - (x div ~4)) div 2) div 2))
1: (2 * (((x - (x mod 3)) div 2) div 2))
1: (2 * (((x - (if (~2 + (x div 2)) <= 0 then x else 1)) div 2) div 2))
1: (2 * (((x2 + 4x) div 2) div 3))
1: (5 * (((3 * (1 + (loop(\(x,i).3x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 3))) div 2) div 2))
1: (3 * (((3 * (2 + (x div 2))) div 2) div 2))
1: (2 * ((((2 + (x div 4)) * ((x + 1) div 3)) div 2) div 2))
1: (2 * (((x * (x + ((x div 3) mod 3))) div 2) div (x + 3)))
1: (9 * ((((1 + (x mod 5)) * (x div 5)) div 2) div 2))
1: (2 * ((((1 + (x mod (1 + (x div 3)))) * (x div 2)) div 2) div 2))
1: (3 * (((3 * (x + (if (~2 + (x div 4)) <= 0 then 2 else 1))) div 2) div 2))
1: ((x + 3) * (((x2 + 3x + 2) div 2) div 3))
1: (2 * ((((1 - (x div 2)) * (x div 4)) div 2) div 2))
1: (2 * (((3 * (2 - ((~2x + 1) div 5))) div 2) div 2))
1: (2 * (((3x4 + 13x3 + 21x2 + 14x + 3) div 2) div 3))
1: ((5x + 2) * (((x3 + ~x) div 2) div 3))
1: ((x3 + ~2x2 + x + 1) * (((x3 + ~x) div 2) div 3))
1: ((((x2 + ~x) div 2) div 3) * ((x + ~1) div 2))
1: ((((x2 + ~3x + 2) div 2) div 3) * (x2 div 4))
1: (2 * ((((x + 3) * ((x + 1) - ((~x + 1) div 3))) div 2) div 2))
1: (2 * ((((x + 2) * (x - (x div ~2))) div 2) div 2))
1: (2 * (((x3 + 9x2 + 14x) div 2) div 3))
1: (x * (((x3 + 15x2 + 68x + 96) div 2) div 3))
1: ((x + 3) * (((x3 + 15x2 + 38x + 24) div 2) div 3))
1: ((2x2 + 4x + 1) * (((x3 + 3x2 + 2x) div 2) div 3))
1: ((3x2 + 6x + 1) * (((x3 + 3x2 + 2x) div 2) div 3))
1: ((x3 + 3x2 + 4x + 1) * (((x3 + 3x2 + 2x) div 2) div 3))
1: ((x3 + 2x2 + ~1) * (((x3 + 3x2 + 2x) div 2) div 3))
1: (3 * (((((1 - (x div 2)) div 3) * (x div 2)) div 2) div 2))
1: (2 * ((((x + ~1) * ((x div 2) div 3)) div 2) div 2))
1: (2 * ((((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (3 + (x div 2))) div 2) div 2))
1: (x * (((x * (x div 2)) div 2) div (~2x + 37)))
1: ((((x * (x mod 2)) div 2) div 3) * (x div 7))
1: (2 * (((3 * (if ((x div 2) mod 3) <= 0 then 1 else x)) div 2) div 2))
1: ((x + 1) * ((((x + 3) * loop(\(x,i).(x * (4 + i)),x,(x + 2))) div 2) div 3))
1: (2 * ((x2 div 2) div 3))
1: (3 * ((x2 div 2) div 3))
1: (3 * ((x2 div 4) div (x + 3)))
1: (2 * ((((1 + (((x + 2) * ((x + 1) div 2)) div 2)) div 2) div 2) div 2))
1: (7 * ((((x + 1) div 2) div 2) div 2))
1: (((((x + 1) div 2) div 2) div 2) * (1 + (x div 8)))
1: ((x + 1) * ((((x + 1) div 2) div 2) div 2))
1: ((x + ~7) * ((((x + 1) div 2) div 2) div 2))
1: (((((x + 1) div 2) div 2) div 2) * ((x + 1) div 2))
1: (((((x + 1) div 2) div 2) div 2) * (((x + 1) div 2) div 2))
1: (((((x + 1) div 2) div 2) div 2) * (x div 3))
1: (x * ((((x + 1) div 2) div 2) div 2))
1: ((x + ~1) * ((((x + ~1) div 2) div 2) div 2))
1: (2 * ((((x + ~1) div 2) div 2) div ~2))
1: (2 * (((((x + 1) * (4 + (x div 2))) div 2) div 2) div 2))
1: (2 * (((((x3 + ~4x2 + 4x) div 2) div 2) div 2) div 2))
1: (x * ((((loop(\(x,i).((x + 1) + (x div (2 + (i mod 2)))),x,0) div 2) div 2) div 2) div 2))
1: (5 * ((((loop(\(x,i).x2,2,(10x + 3)) div 2) div 2) div 3) div 2))
1: (2 * (((loop(\(x,i).(x2 + ~x),1,(loop(\(x,i).loop(\(x,i).2x,x,x),x,1) div 2)) div 2) div 2) div 2))
1: (2 * ((((3 - (x div 2)) mod (x + 1)) div 2) div 2))
1: (2 * ((((2 - (x div 2)) mod (x + 1)) div 2) div 2))
1: (2 * ((((2 - (x div 2)) mod (x + 2)) div 2) div 2))
1: (2 * ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) div (1 + ((x div 2) mod 2))))
1: (2 * ((((8 * (2 + (x mod 3))) mod (x + 1)) div 2) div 2))
1: (3 * ((((3 * (x2 mod 6)) mod (x + 1)) div 2) div 2))
1: (3 * ((((x2 div 3) mod (x + 1)) div 2) div 2))
1: (x * ((loop(\(x,i).(2 + ((x + (x2 div 3)) div 2)),2,(x + ~1)) div 2) div 5))
1: (3 * ((loop(\(x,i).5x,(x + 1),2) div 3) div 3))
1: (2 * ((loop(\(x,i).((1 + (x * i)) * (i div 2)),x,1) div 2) div 2))
1: (5 * ((loop(\(x,i).(x2 + x),1,(1 + loop(\(x,i).10x,x,2))) div 2) div 3))
1: (3 * ((loop(\(x,i).(2x2 + ~x),1,(~1 + loop(\(x,i).10x,x,1))) div 2) div 3))
1: ((x + 1) * ((loop(\(x,i).(x * (x - i)),2,(x + 4)) div 2) div 2))
1: (2 * ((loop(\(x,i).x5,1,(2x + 1)) div 2) div 2))
1: (3 * ((loop(\(x,i).4x,x,(3x + 8)) div 2) div 2))
1: (3 * ((loop(\(x,i).((x * (x + (x mod 3))) div 2),1,loop(\(x,i).2x,x,1)) div 3) div 2))
1: (x * ((loop(\(x,i).((x * ((x * loop(\(x,i).((x2 + ~x) div 2),2,(x + 2))) div (x + 1))) div 2),x,2) div 2) div 2))
1: (2 * ((loop(\(x,i).(x2 div 2),2,(~2 + (x div 2))) div 2) div 2))
1: ((x + 1) * ((x div 2) div 3))
1: ((x + ~1) * ((x div 2) div 3))
1: (((x div 2) div 3) * ((x + ~1) div 2))
1: (((x div 2) div 3) * (x div 2))
1: (x * ((x div 2) div 5))
1: (2 * ((x div 2) div (3 + (x mod 2))))
1: (2 * ((x div 2) div (3 - (x mod 2))))
1: (((x div 2) div 7) * (2 + (x div 2)))
1: (3 * ((x div 2) div (1 + (2 * (1 + (x mod 2))))))
1: (2 * ((x div 2) div (1 + (3 * ((x div 2) mod 5)))))
1: (2 * ((x div 2) div (1 + ((((x + 1) div 2) div 2) div 2))))
1: (2 * ((x div 2) div (1 + ((x mod 3) div 2))))
1: (2 * ((x div 2) div (2 + ((2x2 + x) mod 12))))
1: (3 * ((x div 2) div (2 + ((2x2 + x) mod 12))))
1: (2 * ((x div 2) div (1 + (x mod 2))))
1: (2 * ((x div 2) div (1 + (x mod 4))))
1: (2 * ((x div 2) div (1 + (x mod (1 + (x mod (3 + (x mod 2))))))))
1: (2 * ((x div 2) div (1 + (x mod (2 * (1 + (x mod (1 + ((2 - (x div 2)) mod 4)))))))))
1: (2 * ((x div 2) div (1 + (if (x mod 2) <= 0 then 6 else 0))))
1: (2 * ((x div 2) div (1 + (if (x mod 2) <= 0 then 6 else 1))))
1: (3 * ((x div 2) div ~2))
1: (((x div 2) div ~2) * (x div 2))
1: (((x div 2) div ~2) * (x div ~3))
1: (((x div 2) div ~2) * (x mod 3))
1: (2 * ((x div 2) div (2 - ((x div 2) mod 2))))
1: (2 * ((x div 2) div ~3))
1: (2 * ((x div 2) div ~5))
1: (2 * ((x div 3) div (1 + (x div 4))))
1: (2 * ((x div 3) div (1 + (x mod 4))))
1: (2 * ((x div 3) div (1 + (x mod (~1 + (3 * (2 + (x mod 2))))))))
1: (2 * ((x div 3) div ~3))
1: (2 * ((x div 5) div (1 + (x mod 5))))
1: (3 * ((x div (1 + (2 * (if (x mod 10) <= 0 then 0 else 2)))) div 2))
1: (2 * ((x div (2 - (x mod 2))) div 3))
1: (3 * ((x div ~4) div ~2))
1: (2 * (((~x + 17) mod (1 + (x div 3))) div 2))
1: (2 * ((((x2 + ~1) + (2 div (x + 1))) mod 7) div 2))
1: (2 * (((1 + (2 * ((x + 1) + (loop(\(x,i).(4 * (2x - (x mod 2))),x,1) div 3)))) mod (x + 1)) div 2))
1: (2 * (((1 + (2 * (1 + (if x <= 0 then 0 else (1 + (((x + 1) div (2 + (x mod 2))) div 2)))))) mod (x + 1)) div 2))
1: (2 * (((1 + (2 * ((1 + (x mod (2 + ((2 - (2x mod 5)) mod (x + 1))))) div 2))) mod (x + 1)) div 2))
1: (2 * (((2x + 1) mod (x - ((x + 1) mod 4))) div 2))
1: (2 * (((2x + 1) mod (3 * (1 + (2 * ((x div 5) mod 2))))) div 2))
1: (5 * (((1 + (x mod (1 + (x mod (2 * (2 + ((x div 2) mod 2))))))) mod (x + 1)) div 2))
1: (3 * (((1 + (x mod ((1 + (x mod (1 + (x div 4)))) * (1 + (x mod 2))))) mod (x + 1)) div 2))
1: (3 * (((x + 1) mod (1 + (2 * ((1 + (x div 4)) div 2)))) div 2))
1: (2 * (((x + 1) mod (1 + (2 * ((x + 1) mod (1 + (x div 4)))))) div 2))
1: (2 * (((x + 1) mod (((x + 1) mod 4) + (x div 3))) div 2))
1: (2 * (((x + 1) mod (1 + ((2 * (1 + (x mod 3))) mod (x + 1)))) div 2))
1: (2 * (((0 - (2 * (x div (1 + (x mod 12))))) mod (x + 1)) div 2))
1: (2 * (((2 - (2 * ((x + (x div 8)) mod 5))) mod (x + 1)) div 3))
1: (2 * (((1 - ((x + 2) mod 8)) mod (x + 1)) div 2))
1: (2 * (((~x2 + 2) mod (2 - (x div ~2))) div 2))
1: (2 * (((2 - ((~x + 2) div 8)) mod (1 + (x div 3))) div 2))
1: (5 * (((2 - (x div 2)) mod (x + 1)) div 2))
1: (5 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))
1: ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (2 + (x div 4) - (x div 5)))
1: (7 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))
1: (9 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))
1: (13 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))
1: ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (2 * (1 + (2 * ((((x + 1) div 2) div 2) mod 2))))))
1: ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (2 * (2 + ((x + 1) mod 4)))))
1: ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (2 * (2 + ((x div 3) mod 2)))))
1: (17 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))
1: ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (4 * (1 + ((1 + (x div 2)) div 2)))))
1: ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (4 * (1 + (x div 5)))))
1: ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (4 * ((1 + (x div 3)) div 2))))
1: ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (2 * ((1 + (x div 2)) div 2))))
1: ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (3 * ((1 + (x div 2)) div 2))))
1: ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + ((1 + (x div 3)) div 2)))
1: ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + ((1 + ((4x + 2) mod (3 + (x div 4)))) div 2)))
1: ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (((1 + ((x + 2) div (1 + (2 * ((x div 2) mod 2))))) div 2) div 2)))
1: ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (((2x + 1) mod (3 + (x div 4))) div 2)))
1: ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (x div (3 + ((x div 2) mod 2)))))
1: ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (x div (1 + (2 * (1 + (2 * ((x div 2) mod 2))))))))
1: ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (x div (2 * (2 + ((x div 2) mod 2))))))
1: ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (x div (2 * (2 + (x mod 2))))))
1: ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + ((x + 1) mod 4)))
1: ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + ((x + 2) mod 4)))
1: ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + ((x + ~1) mod 4)))
1: ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + ((x mod 3) mod 2)))
1: ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 - (2 * ((1 + (x div 2)) div 2))))
1: ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 - (2 * (x div 5))))
1: ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 - (2 * (x div 7))))
1: ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 - (2 * ((x div 2) mod 2))))
1: (2 * ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * ((1 + (x div 2)) div 2) * (((x + 1) div 2) div 2)))
1: ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * ((1 + (((x + 1) div 2) div 2)) div 2))
1: ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * ((~x + 2) div 2))
1: ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * ((~x + 2) div 4))
1: ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * ((x + 1) mod 4))
1: ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (x mod (1 + (2 * ((1 + (((x + 1) div 2) div 2)) div 2)))))
1: (x * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))
1: (2 * (((2 - (if (x mod 5) <= 0 then 1 else (x div 3))) mod (x + 1)) div 2))
1: (2 * (((~x + 2) mod (2 + (x div 4))) div 2))
1: ((((2x + ~1) mod (4 + (x div 4))) div 2) * (1 + (x div 4)))
1: (2 * (((~1 + (x div 2)) mod 5) div 2))
1: (2 * (((~1 + loop(\(x,i).2x,x,(1 + (2 * (if (x mod 5) <= 0 then 0 else 2))))) mod (x + 1)) div 2))
1: ((((x + ~1) mod (2 + (x div 2))) div 2) * (1 + (x div 2)))
1: ((((x + ~1) mod (2 + (x div 2))) div 2) * (~1 + (((x + 1) div 2) div 2)))
1: (2 * (((x + ~1) mod (2 + (x mod (1 + (x mod (2 - ((x div 4) div ~2))))))) div 2))
1: (2 * (((x - (2 * (2 + (x div 8)))) mod (x + 1)) div 2))
1: ((x + 1) * ((8 mod (x + 2)) div (x + 1)))
1: (2 * ((5x mod (1 + (x div 2))) div 2))
1: ((x + 1) * (((~x2 + 3x) mod (1 + (x div 2))) div 3))
1: (2 * (((~3x + 3) mod (2 + (x div 2))) div 2))
1: (2 * (((~x2 + x) mod 5) div 2))
1: ((x + 1) * (((~2x + 4) mod (2 + (x div 2))) div 2))
1: (2 * ((22 mod (2 + (x div 2))) div 2))
1: (2 * (((2 * (~2 + (x div 2))) mod (1 + (x div 2))) div 2))
1: (2 * (((4x2 + 8x + 4) mod 5) div 2))
1: (3 * (((2x2 + ~4x + 2) mod (4 + (x div 4))) div 2))
1: (2 * ((6x mod (1 + compr(\x.((((x + 1) div (1 + (2 * (x mod (3 * (1 + (x mod 4))))))) mod 2) - (x mod 2)),x))) div 3))
1: (5 * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (3 + (x div 2)))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (2 * (1 + (((x + 1) div 2) div 2)))))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (2 * (2 + ((x div 2) div 3)))))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (2 * (2 + (x mod (~5 + (x mod 2)))))))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (2 * (2 - (2 * (x div 5))))))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (2 * (2 - ((x div 2) div ~2)))))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + ((2 - ((x div 2) mod 2)) * (x div 5))))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (4 * (1 - (x div 2)))))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (8 * ((1 + (x div 2)) div 2))))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (4 * (x div 5))))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + ((((x + 1) div 2) div 2) * (x div 5))))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (2 * ((((x + 1) div 2) div 2) div 2))))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (2 * ((x div 2) div (2 - ((x div 2) mod 2))))))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (3 * (x div 5))))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (2 * (x div (~1 - (x mod 5))))))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (2 * (x mod (2 * (2 + (x div 5)))))))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + ((1 + (x div 2)) div 2)))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (2 + ((x + (x div 2)) div 2)))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + ((2x2 + 4) div 3)))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + ((x * (1 + ((x div 2) mod 2))) div 3)))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (((x * (2 - (x mod 5))) div 2) div 2)))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + ((x div 2) div 3)))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + ((x div 2) div (2 - ((x div 2) mod 2)))))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (x + (x div 4)))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div (1 + (2 * (2 - ((x div 2) mod 2)))))))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (2 + (x div (1 + (2 * (2 - ((x div 2) mod 2)))))))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (x + (x div (1 + (2 * (2 - ((x div 2) mod 2)))))))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div (2 + (2x mod 5)))))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (2 + (x div (2 + (2x mod 5)))))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div (2 + ((x div 2) mod 2)))))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div (1 + (x mod 5)))))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (2 + (x div (2 * (2 - (x mod 2))))))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + ((~1 + ((x + ~1) div 3)) mod 3)))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (((2 - (x div 2)) div 2) mod 3)))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (x + ((x div 2) mod 2)))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x mod 2)))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 - (4 * ((1 + (x div 2)) div 2))))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 - (2 * ((((x + 1) div 2) div 2) div 2))))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 - (x div (~1 + ((~x + 1) div 3)))))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (2 - (2 * (1 + (x div (1 + (x mod 5)))))))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (2 - (x div 2)))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (2 - (x mod ~5)))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (~1 + (2 * (2 + (x div (1 + (x mod 5)))))))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (~1 + (3 * ((1 - (x div 2)) div 3))))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (~1 + (3 * (((x + 1) div 2) div 2))))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (~1 + (2 * (((x + ~1) div 2) mod 2))))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (~1 + (2 * (x mod 7))))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (~6 + ((~x + 2) div 2)))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (~1 + (((2 - ((x div 2) mod 2)) * (x div 2)) div 3)))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (~1 + (x div (~1 - (x mod 5)))))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (~1 + (~x mod 5)))
1: ((x + ~2) * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + ~2) - (x div (2 + (x mod 5)))))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + ~1) - ((x div 2) mod 2)))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + ~1) - (if x <= 0 then 1 else (2 - (x mod 5)))))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + ~1) + ((x div 2) div 3)))
1: ((2x + ~4) * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2))
1: ((3x + ~6) * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2))
1: (5 * (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 4)))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((1 + ((x div 2) div (2 - ((x div 2) mod 2)))) div 2))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + 1) div (1 + (2 * (2 - ((x div 2) mod 2))))))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + 1) div (2 + (x div 4))))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + 1) div (2 + (((x + ~1) div 2) mod 2))))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + 2) div (1 + (x mod 5))))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + 2) div (2 + (x mod 5))))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((2x + ~1) div 3))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x - ((x div 2) div 3)) div 2))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (x div (~1 - (x mod 5))))
1: (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (~x mod 5))
1: (2 * (((2 * (x mod (1 - ((2 - (2x mod (4 + (x div 4)))) mod (x + 1))))) mod (x + 1)) div 2))
1: (2 * (((2 * (x mod (~3 + (x mod 2)))) mod (x + 1)) div 2))
1: (2 * ((2x mod (1 + ((1 + (x div 2)) div 2))) div 2))
1: (3 * ((2x mod (2 + (x div 2))) div 2))
1: (2 * ((2x mod (2 - (x div (~1 - (if (x + ~4) <= 0 then 0 else 2))))) div 2))
1: (((2x mod (~1 + (2 * (x mod 7)))) div 2) * (x div 2))
1: (2 * ((x2 mod 17) div 2))
1: (2 * ((x2 mod (x - ((~x + 2) div 2))) div (x + 2)))
1: (2 * (((((~x + 1) * (x div 2)) div 2) mod (x + 2)) div 2))
1: (2 * ((((x2 + ~x) div 4) mod 4) div 3))
1: (2 * (((x3 div (x + 2)) mod 3) div 2))
1: (2 * (((x2 div 2) mod (1 + ((1 + (x div 2)) div 2))) div 2))
1: (2 * (((x2 div 2) mod (x + 1)) div 2))
1: (x * (((x div 2) mod 3) div 2))
1: (2 * (((x div 2) mod 5) div 2))
1: (2 * (((x div 2) mod (1 + (~x mod 4))) div 2))
1: (2 * (((1 mod (1 - (2x mod (4 + (x div 4))))) mod (x + 1)) div 2))
1: (3 * (((1 mod (1 - (2x mod (4 + (x div 4))))) mod (x + 1)) div 2))
1: (2 * ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 2))
1: ((x + 1) * ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3))
1: (2 * ((loop(\(x,i).(~1 + loop(\(x,i).(x div (2 - ((x * (x div 2)) mod 2))),x,x)),x,(x + 1)) mod (2x + 2)) div 2))
1: (2 * ((loop(\(x,i).5x,5,x) mod (x + 1)) div 2))
1: (3 * ((loop(\(x,i).(2x + 2),x,0) mod (x + 1)) div 2))
1: (2 * ((loop(\(x,i).(2x + 2),x,(if (x mod (2 + (x mod 4))) <= 0 then 1 else 0)) mod (x + 1)) div 2))
1: (2 * ((loop(\(x,i).(~2x + 4),x,1) mod (x + 1)) div 3))
1: (2 * ((loop(\(x,i).8x,x,(~1 + loop(\(x,i).2x,(x * (x mod 2)),2))) mod (x + 1)) div 2))
1: (2 * ((loop(\(x,i).2x,x,1) mod (x + 1)) div 2))
1: (3 * ((loop(\(x,i).2x,x,(1 + (4 * (x mod 2)))) mod (x + 1)) div 2))
1: (2 * ((loop(\(x,i).2x,x,(2 - ((2x + 2) mod 5))) mod (x + 1)) div 2))
1: (x * ((loop(\(x,i).2x,x,(~1 + ((2 * (1 + ((((x + 1) * (if (x mod 2) <= 0 then 1 else (2 * (1 + (8 * (x mod 2)))))) div 2) div 2))) mod 3))) mod (x + 1)) div 2))
1: (3 * ((loop(\(x,i).2x,x,(if ((x + (x div 2)) mod 4) <= 0 then 1 else 2)) mod (x + 1)) div 2))
1: (2 * ((loop(\(x,i).2x,x,(if (x mod 4) <= 0 then 0 else 1)) mod (x + 1)) div 2))
1: (((loop(\(x,i).2x,x,x) mod (x + 1)) div 2) * (x div 2))
1: (2 * ((loop(\(x,i).x2,(x + ~1),2) mod (x + 1)) div 2))
1: ((x + 3) * ((x mod 3) div 2))
1: (9 * ((x mod 3) div 2))
1: (((x mod 3) div 2) * (1 + (x div 3)))
1: ((~x + 2) * ((x mod 3) div 2))
1: (((x mod 3) div 2) * (if (x + ~2) <= 0 then 1 else 2))
1: (x * ((x mod 3) div 2))
1: (2 * ((x mod (3 + (((1 + (x div 4)) mod 2) * (x div 2)))) div 2))
1: (2 * ((x mod (4 + (x div 4))) div 2))
1: (2 * ((x mod (3 + ((~x + 1) mod (2 + (x div 2))))) div 2))
1: ((x + 1) * ((x mod (3 - ((x div 4) mod 2))) div 2))
1: (9 * ((x mod (3 - (x mod 2))) div 2))
1: (2 * ((x mod (1 + (2 * (1 + (2 * (x mod 2)))))) div 2))
1: ((x + 1) * ((x mod (1 + (4 * (x mod 4)))) div 2))
1: (3 * ((x mod (1 + (x div 2))) div 2))
1: (5 * ((x mod (1 + (x div 2))) div 2))
1: ((x + 1) * ((x mod (1 + (x div 2))) div 2))
1: (((x mod (2 + (x div 2))) div 2) * (1 + (((x + 1) div 2) div 2)))
1: ((x + ~1) * ((x mod (2 + (x div 2))) div 2))
1: ((x + 1) * ((x mod (1 + (x div 4))) div 2))
1: (2 * ((x mod (2 + (x div (8 - (x div 2))))) div 2))
1: (2 * ((x mod (1 + ((2 - (x mod 4)) mod (x + 1)))) div 2))
1: (3 * ((x mod (1 + ((~x + 2) mod 4))) div 2))
1: (((x mod (1 + ((~x + 2) mod 4))) div 2) * (3 - (x mod 2)))
1: (2 * ((x mod (1 + (3x mod (2 + (x div 2))))) div 2))
1: (2 * ((x mod (2 + ((x div 4) mod 2))) div 2))
1: (2 * ((x mod (1 + (x mod (1 - (x div ~4))))) div 2))
1: (2 * ((x mod (2 + (if ((x2 + 2x) mod 6) <= 0 then x else 1))) div 2))
1: (2 * ((x mod (1 + (if (x mod 4) <= 0 then 0 else 2))) div 2))
1: (2 * ((x mod (2 - (((x mod 2) - (x div 2)) div 2))) div 2))
1: (((x mod (~1 + (2 * ((x + ~1) div 3)))) div 2) * (x div 3))
1: (((x mod (~1 + (2 * ((x + ~1) div 3)))) div 2) * (x div 5))
1: (x * ((x mod (~1 + (2 * ((x + ~1) div 3)))) div 2))
1: (2 * ((x mod (~2 + ((~x + 1) div 3))) div 2))
1: (2 * ((x mod (x - ((x + ~1) mod 8))) div 2))
1: (3 * ((x mod (x - ((x + ~1) mod 8))) div 2))
1: (9 * ((x mod (x - ((x + ~1) mod 8))) div 2))
1: (2 * ((x mod ~21) div 2))
1: (2 * ((x mod (if (x + ~2) <= 0 then 1 else (x div 3))) div 2))
1: (2 * ((if (~2 + (x div 3)) <= 0 then 0 else x) div 2))
1: (x * ((if (~2 + (x div 5)) <= 0 then 2 else x) div 2))
1: (2 * ((if (x + ~2) <= 0 then 2 else (x + ~2)) div 2))
1: (2 * ((if (x + ~2) <= 0 then 2 else ((x + 1) div 2)) div 2))
1: ((x + 1) * ((if (x + ~2) <= 0 then 2 else ((x + 1) div 2)) div 2))
1: ((x + 1) * ((if x <= 0 then 0 else (2 - (((x mod 2) - ((x2 + ~x) div 4)) div 2))) div 2))
1: (2 * ((if x <= 0 then 1 else (3 * (x + ((if (x mod 4) <= 0 then 1 else 2) + (x div 2))))) div 2))
1: ((x + 1) * ((if x <= 0 then 1 else (2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2)))) div (2 + (x mod 2))))
1: (2 * ((if x <= 0 then 2 else (1 + (((1 - (2x div 3)) mod (1 + (x div 2))) div 2))) div 2))
1: (2 * ((if x <= 0 then 2 else (loop(\(x,i).2x,(x + ~2),x) - ((x + ~1) * (if x <= 0 then 1 else x)))) div 2))
1: (3 * ((if x <= 0 then 2 else (x2 + ~x)) div 2))
1: (3 * ((if x <= 0 then 2 else (((x + 1) div 2) div 2)) div 2))
1: (2 * ((if x <= 0 then 2 else (((x + ~2) * (x div 3)) mod (1 + (x div 2)))) div 2))
1: (2 * ((if x <= 0 then 2 else (2x mod (1 + (x mod 4)))) div 2))
1: (2 * (loop(\(x,i).((x + 2) + ((x + (x div 2)) div (1 + i))),x,0) div 2))
1: (2 * (loop(\(x,i).((x + 2) + (x div 2)),(~2 + (x div 2)),1) div 3))
1: (2 * (loop(\(x,i).((x + 1) + (x div 5)),x,1) div 2))
1: (2 * (loop(\(x,i).(1 + ((i div (2 + (x mod 2))) + (x div 2))),x,0) div 2))
1: (2 * (loop(\(x,i).((x + 2) + (if x <= 0 then 1 else (2 * loop(\(x,i).(3x + ~6),x,0)))),x,0) div 2))
1: (2 * (loop(\(x,i).((x + 2) - ((x div 2) div ~2)),x,2) div 3))
1: ((loop(\(x,i).(3x + 1),(x div 2),2) div 2) * (1 + (x mod 2)))
1: (2 * (loop(\(x,i).(3x + 1),x,2) div 2))
1: ((loop(\(x,i).(9x + 2),x,0) div 3) * loop(\(x,i).(3x + 1),x,0))
1: (2 * (loop(\(x,i).(11x + 10),x,4) div (x + 1)))
1: (2 * (loop(\(x,i).(32x + 1),(x + 1),1) div 2))
1: (2 * (loop(\(x,i).((4x * i) + (x div 2)),x,1) div 2))
1: (x * (loop(\(x,i).(x2 + 1),2,(x + 1)) div 3))
1: (x * (loop(\(x,i).(1 + ((~1 + (x2 div 2)) div 5)),2,x) div 2))
1: (3 * (loop(\(x,i).(2 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2)),2,x) div 2))
1: (x * (loop(\(x,i).(2x + (x div 2)),x,x) div 2))
1: (3 * (loop(\(x,i).(x + (x div 2)),(x + ~1),2) div 2))
1: (2 * (loop(\(x,i).(x + (x div 3)),(x + ~2),4) div 3))
1: (2 * (loop(\(x,i).(x + (x div 4)),x,5) div 2))
1: (2 * (loop(\(x,i).(x + (x div (2 + (x mod 2)))),x,2) div 3))
1: (3 * (loop(\(x,i).(2x + (i mod 2)),x,0) div (x + 1)))
1: (2 * (loop(\(x,i).(1 + loop(\(x,i).(x2 + ~2),(x mod 3),x)),x,2) div 2))
1: (2 * (loop(\(x,i).(x + loop(\(x,i).(x * (2 + i)),i,1)),(x + ~1),1) div 2))
1: (2 * (loop(\(x,i).(x + 2),(x + ~8),x) div 3))
1: (2 * (loop(\(x,i).(x + i),(x + ~7),0) div 3))
1: (x * (loop(\(x,i).(0 - (2x * (1 + (2 * i)))),x,(x + 2)) div 2))
1: (2 * (loop(\(x,i).~x6,1,(x2 + 1)) div 2))
1: ((x + 1) * (loop(\(x,i).(~x + 1),x,(x + loop(\(x,i).(1 - (x * i)),x,1))) div 2))
1: (2 * (loop(\(x,i).((3x + ~1) + (x mod 3)),x,0) div 2))
1: (2 * (loop(\(x,i).((x + ~1) - (3 * ((~2x + 1) div 5))),x,2) div 2))
1: (2 * (loop(\(x,i).(3x + ~1),x,2) div 2))
1: (3 * (loop(\(x,i).(3x + ~1),x,x) div 2))
1: (2 * (loop(\(x,i).(2x + ~1),(x2 + ~x),loop(\(x,i).(2x + 1),x,0)) div 2))
1: (2 * (loop(\(x,i).(2x - ((1 + (x div 2)) mod 4)),x,0) div 2))
1: (2 * (loop(\(x,i).(2x - (i mod 2)),(x + ~1),1) div 2))
1: (x * (loop(\(x,i).(2x - (i mod 2)),x,1) div 2))
1: ((loop(\(x,i).(2x - (i mod 2)),x,1) div 3) * ((x + ~1) div 2))
1: (2 * (loop(\(x,i).(~2 + (x div 2)),(x + ~1),(x + 4)) div 3))
1: (2 * (loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,0) div 2))
1: (2 * (loop(\(x,i).(x - (((~x + ~1) + (x mod 2)) div 5)),x,1) div 2))
1: (2 * (loop(\(x,i).3x,x,1) div 28))
1: (2 * (loop(\(x,i).5x,x,4) div 3))
1: ((x + ~1) * (loop(\(x,i).(x * (3 + i)),(x + ~2),x) div 2))
1: (2 * (loop(\(x,i).(2 * (x + (4 * (x + (2 * (x mod 2)))))),x,1) div 2))
1: ((x + 1) * (loop(\(x,i).((x + ((~1 + (2 * (i mod 2))) * i)) * (1 + i)),x,0) div 2))
1: (2 * (loop(\(x,i).(x * (2 + (x div 5))),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2))
1: ((x + 3) * (loop(\(x,i).(2 * (2x + (x div (if i <= 0 then 1 else i)))),x,(x + 2)) div 2))
1: (x * (loop(\(x,i).(2 * (x + (i mod 2))),x,1) div (x + 1)))
1: (2 * (loop(\(x,i).(2x + 2),(x div 2),(x mod 2)) div 2))
1: (3 * (loop(\(x,i).(x2 + x),1,(1 + (((x * (1 - ((x3 div 8) mod 2))) + (x mod 2)) div 3))) div 2))
1: (3 * (loop(\(x,i).(x2 + x),1,(2 + loop(\(x,i).(x2 + x),1,(1 + loop(\(x,i).x3,x2,2x))))) div 2))
1: ((x + 1) * (loop(\(x,i).(x2 + x),2,(x + 1)) div 2))
1: ((2x + 1) * (loop(\(x,i).(x2 + x),2,x) div 2))
1: ((x + 1) * (loop(\(x,i).(x * (1 + i)),x,(3x + 2)) div 2))
1: ((x + 1) * (loop(\(x,i).(x * (2 + i)),(x + 1),(x + 2)) div 2))
1: ((x + 1) * (loop(\(x,i).(x * (2 + i)),2x,2) div (x + 2)))
1: (2 * (loop(\(x,i).(x * (2 + i)),x,1) div 3))
1: (3 * (loop(\(x,i).(x * (x + i)),2,x) div 2))
1: (2 * (loop(\(x,i).~2x,x,3) div 5))
1: (x * (loop(\(x,i).(x * ((x + ~1) + i)),2,x3) div 2))
1: ((x + 1) * (loop(\(x,i).(x * (x - i)),2,(x + ~1)) div 2))
1: (2 * (loop(\(x,i).10x,(x + 1),1) div (x + 1)))
1: (9 * (loop(\(x,i).10x,(x + 1),(x + 1)) div 2))
1: ((x + ~1) * (loop(\(x,i).10x,(x + ~2),x) div 2))
1: (9 * (loop(\(x,i).10x,x,x) div 2))
1: (x3 * (loop(\(x,i).(x5 + x2),1,x3) div 2))
1: (x * (loop(\(x,i).(x4 + x2),1,x4) div 2))
1: (2 * (loop(\(x,i).(2x * (~1 + (2 * i))),(x + ~2),x) div 2))
1: ((x + ~1) * (loop(\(x,i).8x,(x + ~2),x) div 2))
1: (2 * (loop(\(x,i).8x,x,2) div 3))
1: (3 * (loop(\(x,i).8x,x,x) div 2))
1: ((x + ~1) * (loop(\(x,i).12x,(x + ~2),x) div 2))
1: (x * (loop(\(x,i).x6,(x + ~1),(x * (1 + loop(\(x,i).2x,x,2)))) div 2))
1: (3 * (loop(\(x,i).4x,x,1) div (1 + (2 * (x mod 2)))))
1: ((2x + 1) * (loop(\(x,i).4x,x,(x + 2)) div 2))
1: ((x + 1) * (loop(\(x,i).4x,x,(x + 2)) div 2))
1: (3 * (loop(\(x,i).4x,x,x) div 2))
1: (3 * (loop(\(x,i).6x,(((x + ~1) div 2) - ((3 * (x div 4)) div 2)),1) div 9))
1: ((x + ~1) * (loop(\(x,i).6x,(x + ~2),x) div 2))
1: (x * (loop(\(x,i).2x2,x2,2) div 2))
1: ((x + 1) * (loop(\(x,i).(x3 + x2),1,(x + 4)) div 2))
1: (2 * (loop(\(x,i).(x3 + ~x2),1,(2x2 + 2x)) div 3))
1: (2 * (loop(\(x,i).x3,1,(10x + 2)) div (x + 1)))
1: (2 * (loop(\(x,i).x3,(2x + 1),(x + 2)) div (x + 1)))
1: ((x + 1) * (loop(\(x,i).(x * (i * i)),(x + 2),(x + 2)) div 2))
1: ((x + 1) * (loop(\(x,i).(2 * ((((2x * (1 + (2 * i))) div (2 + i)) div (1 + i)) * (1 + (2 * i)))),(x + 1),1) div 2))
1: (3 * (loop(\(x,i).(x * (if (~1 + i) <= 0 then 2 else x2)),x,2) div 2))
1: (3 * (loop(\(x,i).((x + 1) * loop(\(x,i).5x2,2,2x)),x,2) div 2))
1: ((loop(\(x,i).2x,(1 + loop(\(x,i).(x + (loop(\(x,i).(x * i),x,2) div (x + 1))),x,1)),1) div 2) * (1 + loop(\(x,i).2x,x,2)))
1: (5 * (loop(\(x,i).2x,(x + ~1),1) div 3))
1: (2 * (loop(\(x,i).2x,(x + ~2),1) div (x + 1)))
1: ((x + ~1) * (loop(\(x,i).2x,(x + ~2),(x2 + ~2x)) div 2))
1: ((x + 1) * (loop(\(x,i).2x,(x + ~2),x) div 2))
1: ((x + ~1) * (loop(\(x,i).2x,(x + ~2),x) div 2))
1: ((x + 1) * (loop(\(x,i).2x,(x + ~10),1) div 3))
1: (2 * (loop(\(x,i).2x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2))
1: (9 * (loop(\(x,i).2x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2))
1: ((loop(\(x,i).2x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2) * (1 + (x div 5)))
1: ((loop(\(x,i).2x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2) * (2 + (x div 5)))
1: (2 * (loop(\(x,i).2x,(x div 2),1) div (x + 1)))
1: ((loop(\(x,i).2x,x,1) div 3) * (2 + (x mod 2)))
1: (2 * (loop(\(x,i).2x,x,1) div 9))
1: ((x + 1) * (loop(\(x,i).2x,x,1) div (x2 + 2x + 2)))
1: (2 * (loop(\(x,i).2x,x,1) div (x + 1)))
1: ((x + 1) * (loop(\(x,i).2x,x,1) div (x + 1)))
1: (2 * (loop(\(x,i).2x,x,1) div (x + 2)))
1: (3 * (loop(\(x,i).2x,x,2) div 5))
1: (3 * (loop(\(x,i).2x,x,2) div (2 + (x mod 2))))
1: ((x + 1) * (loop(\(x,i).2x,x,2) div (x + 1)))
1: ((x + 1) * (loop(\(x,i).2x,x,3) div 2))
1: (5 * (loop(\(x,i).2x,x,3) div 5))
1: ((x + 2) * (loop(\(x,i).2x,x,(x + 7)) div 2))
1: ((x + 3) * (loop(\(x,i).2x,x,(x + 8)) div 2))
1: (x * (loop(\(x,i).2x,x,(2 + (x div 4))) div 3))
1: (3 * (loop(\(x,i).2x,x,(2 + (x mod 2))) div 2))
1: (3 * (loop(\(x,i).2x,x,(8 - (x mod 2))) div 2))
1: (2 * (loop(\(x,i).2x,x,(2 * (2 + (x mod 2)))) div 5))
1: (2 * (loop(\(x,i).2x,x,(loop(\(x,i).((x2 + ~x) div 2),2,(x + 4)) div 3)) div 5))
1: (x * (loop(\(x,i).2x,x,loop(\(x,i).loop(\(x,i).2x,x,(if x <= 0 then 2 else (2x + ~1))),1,3x)) div 2))
1: (2 * (loop(\(x,i).x2,2,(x + 1)) div 5))
1: (2 * (loop(\(x,i).x2,x,2) div 3))
1: (2 * (loop(\(x,i).(x * i),(1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)),1) div (x + 2)))
1: (3 * (loop(\(x,i).(x * i),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2))
1: (2 * (loop(\(x,i).(x * i),x,1) div 2))
1: ((loop(\(x,i).(x * i),x,1) div 8) * (x div 8))
1: (x * (loop(\(x,i).(x * i),x,2) div (x + 1)))
1: ((loop(\(x,i).(x * i),x,(1 + ((x + 1) div 2))) div 2) * ((x + 1) div 2))
1: (2 * (loop(\(x,i).(x * i),x,(1 + (if (if x <= 0 then 1 else (x * loop(\(x,i).((~1 + i) * i),(x + ~2),1))) <= 0 then x else 0))) div 2))
1: (x * (loop(\(x,i).(x * i),x,(1 + loop(\(x,i).(x * i),x,(x + 2)))) div 2))
1: ((loop(\(x,i).(x * i),x,((x + ~1) div 2)) div 2) * ((x + 1) div 2))
1: ((loop(\(x,i).(x * i),x,(x div 2)) div 2) * (1 + (x div 2)))
1: (2 * (loop(\(x,i).(x * i),x,(if (x + ~3) <= 0 then x else 2)) div 2))
1: ((x + ~1) * (loop(\(x,i).(x * i),x,x) div 2))
1: (2 * (loop(\(x,i).((x + 2) div (2 - (x mod 2))),2,(x + 2)) div 2))
1: ((loop(\(x,i).((x2 + ~x) div 2),2,(x + 2)) div 3) * (2 + ((x2 + x) div 2)))
1: ((loop(\(x,i).((x2 + ~x) div 2),2,(~1 + (x div 2))) div 3) * (1 + ((x + 1) div 2)))
1: ((loop(\(x,i).((x2 + ~x) div 2),2,(~1 + (x div 2))) div 3) * ((x + 1) div 2))
1: ((loop(\(x,i).((x2 + ~x) div 2),2,((x + ~1) div 2)) div 3) * (x div 2))
1: ((x + 1) * (loop(\(x,i).((x3 + 7x2 + 14x + 8) div 2),1,(x2 + 2x)) div 2))
1: ((loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),(1 + (2 * (x mod 2))),(x + 2)) div 2) * (1 + (x div 2)))
1: ((x + ~1) * (loop(\(x,i).((4x * (~1 + (2 * i))) div (1 + i)),x,1) div 2))
1: (2 * (loop(\(x,i).loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then 2 else 0)),i,(x + 2)),x,1) div 3))
1: ((x div 2) * (1 + i))
1: ((x div 3) * (1 + i))
1: (x2 * (x div 3))
1: ((2x + 1) * (x div 4))
1: ((x div 4) * (x div ~2))
1: ((x div 4) * (x mod 3))
1: ((x div 5) * (x div 3))
1: ((x div 5) * (x div 4))
1: (2 * (x div (5 + ((x div 2) mod 5))))
1: ((x div (6 + (x mod 2))) * (x div 2))
1: (5 * (x div (6 - (x mod 2))))
1: (2 * (x div (4 + (x div 4))))
1: (2 * (x div (3 + (x div (1 + (x mod 4))))))
1: (3 * (x div (4 + ((x + 1) mod (1 + (2 * ((1 + (x div 4)) div 2)))))))
1: (2 * (x div (4 + (16 mod (1 + (x div 2))))))
1: (2 * (x div (4 + ((((x + 1) div 2) div 2) mod 4))))
1: (2 * (x div (3 + ((((x + ~2) mod (1 + (x div 2))) div 2) mod 2))))
1: (2 * (x div (4 + ((x div 2) mod 5))))
1: (3 * (x div (3 + (x mod 2))))
1: ((x + 1) * (x div (3 + (x mod 2))))
1: (2 * (x div (4 + (x mod 2))))
1: (2 * (x div (4 + (x mod 4))))
1: (13 * (x div 7))
1: (x * (x div 7))
1: (3 * (x div 13))
1: (2 * (x div (1 + (2 * (3 - (x mod 2))))))
1: (2 * (x div (1 + (2 * (2 + (x mod 2))))))
1: (2 * (x div (1 + (2 * (2 - (x mod 2))))))
1: (2 * (x div (1 + (2 * (2 mod (if ((x + 1) mod (2 + ((x div 2) mod 2))) <= 0 then x else 1))))))
1: (2 * (x div (2 + (5 * (x mod 4)))))
1: (2 * (x div (1 + (2 * (x mod (2 + (x mod (2 + (x mod 2)))))))))
1: (2 * (x div (1 + (3 * (if (x mod 2) <= 0 then x else 2)))))
1: (2 * (x div (1 + (2 * (if loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 0 else 2))),x,x) <= 0 then 2 else 1)))))
1: (2 * (x div (1 + ((x + 1) div 3))))
1: (3 * (x div (2 + ((x + 1) div (1 + (x mod (2 + (x mod 4))))))))
1: (2 * (x div (1 + ((x - (x div 4)) div 2))))
1: ((x div (2 + ((x div 2) div 3))) * (1 + ((x div 2) div 3)))
1: (3 * (x div (1 + (x div 3))))
1: (2 * (x div (1 + (x div 4))))
1: (2 * (x div (2 + (x div (1 + ((x mod (1 + ((2 - (x mod 4)) mod (x + 1)))) div 2))))))
1: (2 * (x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))))
1: (3 * (x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))))
1: ((2x + 3) * (x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))))
1: (3 * (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))))
1: (2 * (x div (1 + ((x div 2) mod 3))))
1: (2 * (x div (1 + (loop(\(x,i).2x,x,(1 + (x mod 3))) mod (2x + 1)))))
1: ((x + 1) * (x div (1 + (x mod 2))))
1: (~x * (x div (1 + (x mod 2))))
1: (x * (x div (1 + (x mod 2))))
1: (2 * (x div (2 + (x mod 2))))
1: (x * (x div (2 + (x mod 3))))
1: (2 * (x div (2 + (x mod (1 + ((x + 1) div (1 + (((2x div (1 + (x div 4))) mod 2) + (x mod 2)))))))))
1: (2 * (x div (2 + (x mod (2 + (x div (1 + (2 * ((x mod (~1 + (2 * (x div 3)))) mod 2)))))))))
1: (2 * (x div (1 + (x mod 8))))
1: (2 * (x div (1 + (x mod (2 * (1 + (x mod 2)))))))
1: (9 * (x div (2 + (if (~4 + (x div 2)) <= 0 then 2 else 1))))
1: (2 * (x div (2 + (if ((x div 3) mod 3) <= 0 then 1 else 2))))
1: (2 * (x div (2 + (if (x mod 3) <= 0 then 2 else 1))))
1: (2 * (x div (1 + (if (x mod 4) <= 0 then 2 else 1))))
1: (2 * ((x div (1 + i)) * i))
1: ((x div (1 + i)) * i)
1: (2 * (x div (2 + i)))
1: ((x + 1) * (x div ~2))
1: ((x div ~2) * (x div ~2))
1: (5 * (x div ~7))
1: (2 * (x div (1 - (2 * (x mod 4)))))
1: (2 * (x div (1 - ((~x + 1) div (3 + (x mod 6))))))
1: (2 * (x div (~x + 19)))
1: (3 * (x div (~x + 19)))
1: (x * (x div (~x + 19)))
1: (2 * (x div (2 - ((~x + 1) div (1 + (if (x mod (3 + ((x div 2) div 3))) <= 0 then 2 else 0))))))
1: (3 * (x div (2 - (x mod 2))))
1: ((x div (2 - (x mod 2))) * (2 + i))
1: (5 * (x div ~3))
1: ((2x + 1) * (x div ~3))
1: ((x div ~3) * (x div 3))
1: (7 * (x div ~4))
1: ((x div ~4) * (if (x + ~2) <= 0 then 1 else 2))
1: (x * (x div (~1 - (x mod 3))))
1: (2 * (x div (~1 - (x mod 5))))
1: (3 * (x div ~5))
1: ((x + 2) * (x div ~5))
1: ((x div ~5) * (x div 5))
1: ((x div ~5) * (if (x + ~2) <= 0 then 1 else 2))
1: (2 * (x div (8 - ((x + ~2) div 3))))
1: ((x div 11) * (1 + (x mod 2)))
1: (2 * (x div (~1 + (4 * (1 + i)))))
1: (2 * (x div (~3 + (2 * (~1 + (x mod 3))))))
1: (3 * (x div 15))
1: (2 * (x div (~1 + (4 * (~2 + (x mod 2))))))
1: ((x + 1) * (x div (2x - (if x <= 0 then 1 else (((x div 2) * (x div 2)) div 2)))))
1: (2 * (x div (x2 + ~2)))
1: (~x * (x div (~2 + ((1 - (x div 2)) div 3))))
1: (2 * (x div (~2 + ((~x + 1) div 2))))
1: ((3x + 2) * (x div (~2 + ((~x + 2) div 4))))
1: (2 * (x div (~2 + ((x div 2) div ~2))))
1: (2 * (x div (~3 + (x div ~2))))
1: ((x + 2) * (x div (~2 + (x mod 2))))
1: (2 * (x div (x + ~16)))
1: ((x + 3) * (x div 8))
1: (7 * (x div 8))
1: ((x div 8) * (1 + (x div 2)))
1: (~7 * (x div 8))
1: ((~x + 1) * (x div 8))
1: ((x + ~1) * (x div 8))
1: (2 * (x div ~8))
1: (x * (x div ~8))
1: (2 * (x div (2 * (2 + ((3 + (x2 div 2)) mod (x + 4))))))
1: (2 * (x div ((2 + ((~x + 1) mod 6)) * (1 + (x mod 4)))))
1: (2 * (x div (2 * (2 + ((x + ~1) mod 4)))))
1: (2 * (x div (3 * (1 + ((x2 + 2x) mod 6)))))
1: (2 * (x div (3 * (1 + (x3 mod 11)))))
1: (3 * (x div (2 * (2 + (x mod 2)))))
1: (2 * (x div (5 * (1 + (x mod 4)))))
1: (3 * (x div (5 * (1 + (x mod 4)))))
1: (2 * (x div (3 * (2 + (x mod 7)))))
1: (2 * (x div ~6))
1: (2 * (x div (2 * (2 - ((x * (x div 2)) mod 2)))))
1: (3 * (x div (2 * (2 - (x mod 2)))))
1: (3 * (x div (2 * (8 - (x div 2)))))
1: (5 * (x div (3 * (8 - (x div 2)))))
1: ((x + 1) * (x div (3 * (8 - (x div 2)))))
1: ((x + ~1) * (x div (3 * (8 - (x div 2)))))
1: ((x div (3 * (8 - (x div 2)))) * ((x + ~1) div 3))
1: (x * (x div (3 * (8 - (x div 2)))))
1: (2 * (x div (~2x + 32)))
1: (x * (x div (2 * (~2 + (x mod 2)))))
1: (2 * (x div (4 * (2 - ((x * (x div 2)) mod 2)))))
1: (7 * (x div (4 * (8 - (x div 2)))))
1: (2 * (x div (3 * (if (x mod 2) <= 0 then 4 else 1))))
1: (2 * (x div (3 * (if (x mod 3) <= 0 then 2 else 1))))
1: (3 * (x div (if ((x + ~1) mod 4) <= 0 then 2 else 1)))
1: ((x div (if i <= 0 then 1 else i)) * (1 + i))
1: (8 * (x div (if i <= 0 then 1 else i)))
1: (2 * (x div loop(\(x,i).(x + 1),loop(\(x,i).(x div (2 - ((x * (x div 2)) mod 2))),x,x),2)))
1: (3 * (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))
1: ((i div 2) * (~1 + i))
1: ((i div 2) * (i div 2))
1: (x * (i div ~2))
1: (2 * (compr(\x.(~1 + (loop(\(x,i).4x,x,1) mod (2x + 1))),x) div 2))
1: (3 * (2 mod (1 + (x div 2))))
1: (5 * (2 mod (1 + (x div 2))))
1: (7 * (2 mod (1 + (x div 2))))
1: (2 * (2 mod (1 + (x2 mod (3 + (x div 4))))))
1: (2 * (2 mod (1 + (x mod 3))))
1: (2 * (2 mod (1 + (x mod (2 + (x mod 2))))))
1: ((x + 1) * (2 mod (x + 1)))
1: (x * (2 mod (x + 1)))
1: (2 * (2 mod (~2x + 1)))
1: (2 * (2 mod (~4x + 2)))
1: (2 * (3 mod (1 + (x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))))))
1: (5 * (3 mod (~2x + 1)))
1: (2 * (3 mod (if (x mod (1 + (x mod 4))) <= 0 then 1 else x)))
1: (2 * (4 mod (1 + (2 * ((1 + (x div 4)) div 2)))))
1: (3 * (4 mod (x + 1)))
1: (x * (4 mod (x + 1)))
1: (3 * (4 mod (x + 2)))
1: (5 * (5 mod (1 + (x mod 5))))
1: (3 * (((x + 1) + (3 * ((1 + (2 * (x - (2 div (~8 + (x div 2)))))) div 5))) mod 2))
1: (3 * ((x + 3) mod 7))
1: (3 * ((x + 3) mod 9))
1: (x * ((x + 3) mod 8))
1: (2 * (((x + 1) - (2 * ((1 + ((3 * ((x + 1) div 2)) div 2)) div 2))) mod (x + 1)))
1: (2 * (((x + 2) - (((~x + ~1) + (x mod 2)) div 5)) mod (x + 1)))
1: (2 * ((1 + (3 * (2 - (x mod 2)))) mod (1 + (x div 2))))
1: (2 * ((x2 + ~x + 2) mod 5))
1: (2 * ((1 + (2 * ((x + 1) - ((x mod (1 + ((x div 4) + (x mod 2)))) div 2)))) mod (x + 1)))
1: (2 * ((8x2 + 1) mod (2 + (x div 2))))
1: (2 * ((x + (2 * (2x div 3))) mod 14))
1: (2 * ((1 + (2 * (((1 + (2 * ((x + 1) + (loop(\(x,i).(4 * (2x - (x mod 2))),x,1) div 3)))) mod (x + 1)) div 2))) mod (x + 1)))
1: (3 * (((x * (x div 2)) + (if x <= 0 then 0 else 1)) mod 3))
1: (2 * ((1 + (x * ((1 + loop(\(x,i).((x * (x mod 2)) + (x div 2)),x,x)) mod 2))) mod (x + 1)))
1: (2 * ((1 + (2 * ((loop(\(x,i).(x2 div 3),2,x) div (x + 1)) mod 3))) mod 3))
1: (2 * ((x + (2 * (x mod 2))) mod (1 + (x div 2))))
1: (2 * ((2x + 1) mod 5))
1: (2 * ((2x + 1) mod 7))
1: (3 * ((2x + 1) mod 7))
1: (9 * ((2x + 1) mod 7))
1: ((x + ~2) * ((2x + 1) mod (1 + (x div 2))))
1: (5 * ((2x + 1) mod (1 + (2x mod (2 + (x div 4))))))
1: (((2x + 1) mod (1 + (2x mod (2 + (x div 4))))) * (2 + ((x div 2) mod 2)))
1: (2 * ((2x + 1) mod (2 + (x mod (1 + (x div 8))))))
1: (3 * ((1 + ((x + 1) div 3)) mod (1 + (x div 4))))
1: (2 * ((1 + ((x2 + 2x) div (2 - (x div ~4)))) mod 2))
1: (2 * ((1 + ((x2 + ~x) div 2)) mod (1 + (x div 3))))
1: (2 * ((1 + (x2 div (x + 4))) mod 2))
1: (((1 + (x2 div (x + 16))) mod 3) * (x mod 2))
1: (2 * (((((~1 + (x div 2)) div 2) div 2) + (x div 3)) mod 2))
1: (2 * ((1 + (loop(\(x,i).3x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 3)) mod (x + 4)))
1: (2 * ((2 + (loop(\(x,i).((x + i) * i),x,2) div 2)) mod 3))
1: (3 * ((1 + (x div 2)) mod (1 + (x div 5))))
1: (((1 + (x div 2)) mod (1 + (x div 5))) * (1 + (x div 3)))
1: (2 * ((1 + (x div 2)) mod (2 + (x mod 2))))
1: (2 * ((1 + (x div 2)) mod ~4))
1: (2 * ((2 + (x div 2)) mod 4))
1: (2 * ((2 + (x div 2)) mod (2 + (x mod 2))))
1: (2 * ((1 + (x div 3)) mod (1 + (x mod (1 + (x div 3))))))
1: (3 * ((2 + (x div 3)) mod (~1 + (2x mod (4 + (x div 4))))))
1: (5 * ((2 + (x div 3)) mod (~1 + (2x mod (4 + (x div 4))))))
1: (((1 + (x div 4)) mod 2) * (x div 2))
1: (2 * ((1 + (x div (1 + (x div 5)))) mod 2))
1: (2 * ((1 + (x div (2 + (x div (2 + ((x div 2) mod 3)))))) mod (1 + (((x + 1) div 2) div 2))))
1: (2 * ((1 + (x div (1 + (x mod (4 + (x div 2)))))) mod 2))
1: (((1 + (x div (2 + (x mod (2 + ((x div 2) mod 2)))))) mod 2) * (1 + (((x + 1) div 2) div 2)))
1: (2 * ((1 + (x div (2 - ((x - (x mod 3)) div 2)))) mod 2))
1: (((1 + (x div (~2 + (x mod 2)))) mod 3) * (1 + (x div 2)))
1: (x * ((1 + (x div (2 * (2 - (x mod 2))))) mod 2))
1: (2 * ((1 + (x div (if (x mod 4) <= 0 then 4 else 1))) mod 8))
1: (3 * ((1 + ((1 + (((0 - ((~2x + 2) mod (4 + (x div 4)))) mod (x + 1)) div 3)) mod 3)) mod 2))
1: (2 * ((x + ((~x + 1) mod 3)) mod 5))
1: (((x + (((x div 2) - (x div 5)) mod 3)) mod 2) * (x div 2))
1: (2 * ((1 + ((x * (1 - ((x3 div 8) mod 2))) mod 5)) mod 3))
1: (3 * ((x2 + (x mod 4)) mod 8))
1: (2 * ((2 + (x mod (4 + (x div 2)))) mod (x + 1)))
1: (2 * ((1 + (x mod (2 + ((x mod (2 + (x div 2))) div 2)))) mod 2))
1: (2 * ((1 + (x mod (2 + (x div 4)))) mod 2))
1: (2 * ((1 + (x mod (2 + (loop(\(x,i).(2 * (x + i)),x,1) mod (x + 1))))) mod (x + 1)))
1: (3 * ((1 + (x mod (~2 - (x div 3)))) mod 2))
1: (9 * ((2 + (x mod 11)) mod (x + 1)))
1: (((1 + (x mod 8)) mod (x + 1)) * (1 + (x div 2)))
1: ((x + 2) * ((1 + (x mod 8)) mod (x + 1)))
1: (2 * ((2 + (x mod 10)) mod (x + 1)))
1: (2 * ((x + (if (x + ~1) <= 0 then x else 2)) mod 5))
1: (2 * (((2x + 1) + (if (x mod 2) <= 0 then 2 else x)) mod 5))
1: (2 * ((1 + (if (x mod 2) <= 0 then ((~x + 2) mod (1 + (x div 4))) else 0)) mod 3))
1: (3 * ((x + (if (x mod 2) <= 0 then x else 1)) mod 3))
1: (2 * ((1 + (if x <= 0 then 2 else (1 - ((4 * (x div 3)) div 3)))) mod (x + 1)))
1: (x * ((1 + loop(\(x,i).((x * (x mod 2)) + (x div 2)),x,x)) mod 2))
1: (2 * ((loop(\(x,i).6x,(x + 1),1) + loop(\(x,i).(2x + 2),x,2)) mod (x + 1)))
1: (2 * ((x + loop(\(x,i).2x,(2 - (x mod 2)),(x div 2))) mod 5))
1: (((x + 1) mod 3) * (1 + (if x <= 0 then 1 else x)))
1: (((x + 1) mod 3) * (~1 + (x div 2)))
1: (9 * ((x + 1) mod 4))
1: (2 * ((x + 1) mod 5))
1: (((x + 1) mod (3 - (x mod 2))) * (1 + (x div 2)))
1: ((x + 3) * ((x + 1) mod 7))
1: (2 * ((x + 1) mod 13))
1: (2 * ((x + 1) mod (1 + (2 * (1 + (x mod (1 + (8 * (x mod (2 + (x mod 2)))))))))))
1: (2 * ((x + 1) mod (1 + (2 * (((x div 2) - (x mod 3)) div 2)))))
1: (2 * ((x + 1) mod (1 + (2 * ((3 * (x div 5)) div 2)))))
1: (2 * ((x + 1) mod (1 + (2 * ((~1 + (6 * (x mod 10))) mod (x + 1))))))
1: (2 * ((x + 1) mod (1 + (2 * (if (x mod 5) <= 0 then 0 else 2)))))
1: (2 * ((x + 1) mod (1 + ((1 + (x div 4)) div 2))))
1: (2 * ((x + 1) mod (1 + (((x + 1) div 2) div 2))))
1: (x * ((x + 1) mod (1 + (x div 4))))
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1: (2 * ((x - (2 * ((x div (2 * (~2 + ((x * (x div 2)) mod 2)))) div 3))) mod (x + 1)))
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1: (2 * ((x3 div 4) mod 3))
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1: (2 * ((x2 div (3 + (x div 2))) mod 2))
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1: (2 * ((((x + 1) div 2) div 2) mod 2))
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1: (2 * ((((~1 + (x div 2)) div 2) div 2) mod 2))
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1: (2 * (((((x + ~1) * (1 + (x div 2))) div 2) div 2) mod 2))
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1: (2 * ((loop(\(x,i).3x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2) mod 21))
1: (5 * ((x div 2) mod 2))
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1: (2 * ((x div 2) mod 3))
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1: (x * ((x div 2) mod 3))
1: (2 * ((x div 2) mod 4))
1: (x * ((x div 2) mod 4))
1: (3 * ((x div 2) mod 5))
1: (x * ((x div 2) mod 5))
1: (2 * ((x div 2) mod (3 - (x mod 2))))
1: (2 * ((x div 2) mod (1 + (x2 mod (2 * (2 + (x mod 2)))))))
1: (2 * ((x div 2) mod (1 + (x mod (1 + (7 mod (1 + (x div 2))))))))
1: (2 * ((x div 2) mod (1 + (x mod (1 + ((~x + 2) mod 4))))))
1: (2 * ((x div 2) mod (2 - (x div ~4))))
1: (3 * ((x div 3) mod 3))
1: (7 * ((x div 4) mod 2))
1: (((x div 4) mod 2) * (x div 3))
1: (9 * ((x div 5) mod 2))
1: (2 * ((x div 7) mod 2))
1: (2 * ((x div (1 + (x div 5))) mod 2))
1: (2 * ((x div ~7) mod 2))
1: ((x + 1) * ((x div (1 - (3 * (1 + ((x + 1) mod 4))))) mod 2))
1: (2 * ((x div ~3) mod (x + 1)))
1: (2 * ((x div ~5) mod 2))
1: (3 * ((x div ~8) mod 2))
1: (5 * ((x div ~6) mod 2))
1: (2 * ((4 mod (1 + (x div 2))) mod 2))
1: (2 * (((2 + (x * (x div 2))) mod (1 + (x div 3))) mod 2))
1: (2 * (((2x + 1) mod (1 + (2 * (x mod 4)))) mod 2))
1: (2 * (((2x + 1) mod 29) mod 5))
1: (3 * (((1 + ((x + 1) div 2)) mod 5) mod 2))
1: (5 * (((2 + (x div 4)) mod (1 + (x mod 3))) mod 2))
1: (2 * (((1 + (16 mod (x + 1))) mod 5) mod 2))
1: (2 * (((x2 + (x mod 3)) mod 5) mod 2))
1: (2 * (((2 + (x mod (2 + (x mod 3)))) mod (1 + (x div 3))) mod 2))
1: (2 * (((x + (if (x + ~10) <= 0 then 1 else 2)) mod 5) mod 2))
1: (2 * (((x + 1) mod (1 + (2 * ((1 - (((2x + ~2) mod (2 + (x div 4))) mod 3)) mod 3)))) mod 2))
1: (2 * (((x + 1) mod (1 + (2 * (x mod 5)))) mod 2))
1: ((x + 1) * (((x + 1) mod (1 + (x div 3))) mod 2))
1: ((((x + 1) mod (1 - (x mod ~7))) mod 2) * (1 + (x div 3)))
1: (2 * (((x + 2) mod 9) mod 2))
1: (x * (((x + 2) mod 12) mod (x + 1)))
1: (2 * (((1 - (x div 3)) mod 5) mod 2))
1: (2 * (((~x + 1) mod (2 - (x div ~2))) mod 2))
1: (2 * (((~x + 2) mod (3 + (x div 3))) mod 2))
1: (2 * (((~x + 2) mod 7) mod 2))
1: (2 * ((((~x + 4) + (x div 4)) mod (1 + (x div 2))) mod 2))
1: (2 * ((((x + ~1) + (x div 2)) mod (x + 4)) mod 2))
1: (2 * (((~2 + (x * (x div 2))) mod 7) mod 2))
1: (2 * (((x2 + ~2) mod (x + 6)) mod 3))
1: (2 * (((~1 + (x mod 3)) mod (1 + (x div 4))) mod 2))
1: (3 * (((x + ~1) mod (3 + (x div (1 + (x mod 4))))) mod 2))
1: (2 * (((x + ~1) mod (1 + ((x div 2) div 3))) mod 2))
1: (2 * (((x + ~1) mod (1 + (x div 3))) mod 2))
1: (2 * (((x + ~1) mod (2 + (x div (2 + (x mod 2))))) mod 2))
1: (2 * (((x + ~2) mod (2 - (x div ~3))) mod 2))
1: ((x + 1) * (((x + ~2) mod (2 - (x div ~3))) mod 2))
1: (2 * ((8 mod (~x + ~1)) mod 3))
1: (2 * (((2x + 2) mod (2 + (x div 4))) mod 2))
1: (2 * (((2x + ~2) mod (2 + (x div 4))) mod 2))
1: (2 * (((x2 + ~x) mod (2 + (x div 2))) mod 2))
1: ((x + 1) * (((x2 + ~x) mod (2 + (x div 2))) mod 2))
1: (2 * (((2x + ~4) mod (1 + (x div 2))) mod 2))
1: (2 * (((2x + ~4) mod (x + 1)) mod 2))
1: (2 * (((2x + ~4) mod (x + 2)) mod 2))
1: (2 * (((2x + ~4) mod (2 - ((~x + 1) div 3))) mod 2))
1: (2 * (((x2 + ~2x) mod (2 + (x div 2))) mod 2))
1: (2 * (((2x + ~8) mod (x + 1)) mod 2))
1: (2 * ((2x2 mod (1 + ((x + 1) div 2))) mod 2))
1: (((2x2 mod (1 + ((x + 1) div 2))) mod 2) * (x div 3))
1: (2 * (((x * (x div 3)) mod 3) mod 2))
1: (x * (((x * (x div 3)) mod 3) mod 2))
1: (2 * ((((x + 1) * (if x <= 0 then 1 else 2)) mod 7) mod 2))
1: (2 * ((2x mod (4 + (x div 3))) mod 2))
1: (2 * ((2x mod (2 + (x div 2))) mod 2))
1: (((2x mod (2 + (x div 2))) mod 2) * (1 + (x div 5)))
1: ((x + 1) * ((2x mod (2 + (x div 2))) mod 2))
1: (3 * ((2x mod (~1 + (2 * (x div 4)))) mod 2))
1: (2 * ((2x mod (~1 + (x div ~2))) mod 2))
1: (2 * ((x2 mod (1 + (2 * (2 + (x div 2))))) mod 2))
1: (2 * ((x2 mod (2 + (if (x mod 2) <= 0 then 1 else (x + 2)))) mod 2))
1: (2 * ((x2 mod (2x + ~5)) mod 2))
1: (3 * ((x2 mod (2x + ~5)) mod 2))
1: (2 * ((x2 mod (x - ((~x + 2) div 2))) mod 3))
1: (2 * (((x2 div ~4) mod 5) mod 3))
1: (2 * ((((x + ~1) mod (1 + (x div 2))) mod 3) mod 2))
1: (2 * ((((x2 div 4) mod (x + 1)) mod 3) mod 2))
1: (2 * (((x mod 13) mod 3) mod 2))
1: (2 * (((if x <= 0 then 1 else (x div 3)) mod 5) mod 2))
1: (2 * ((loop(\(x,i).(x * i),x,x) mod (x + 1)) mod 2))
1: ((x + 1) * ((loop(\(x,i).(x * i),x,x) mod (x + 1)) mod 2))
1: (3 * ((x mod 3) mod 2))
1: (2 * ((x mod 4) mod (1 + (2x mod (2 - ((~x + 1) div 3))))))
1: (2 * ((x mod (4 + (x div 4))) mod 2))
1: (2 * ((x mod (3 + (x mod 2))) mod 2))
1: (2 * ((x mod 7) mod 3))
1: (2 * ((x mod (1 + (4 * loop(\(x,i).i,(x + ~8),1)))) mod 3))
1: (3 * ((x mod (1 + (2 * (x div 4)))) mod 2))
1: (2 * ((x mod (1 + (2 * (if (x mod 4) <= 0 then 0 else 2)))) mod 2))
1: (2 * ((x mod (1 + ((1 + (x div 2)) div 2))) mod 2))
1: (2 * ((x mod (1 + ((2 * (x + ((x * (x div 2)) mod 2))) div 3))) mod 2))
1: (2 * ((x mod (2 + (x mod 5))) mod 2))
1: (2 * ((x mod (1 - (2 * (2 + (x mod 2))))) mod 2))
1: (5 * ((x mod (2 - (x div (1 + ((x div 2) mod 2))))) mod 2))
1: ((x + 2) * ((x mod (2 - (x div (1 + ((x div 2) mod 2))))) mod 2))
1: (2 * ((x mod ((~x + 1) + (x mod 4))) mod 2))
1: (2 * ((x mod (~1 - (4 mod (x + 1)))) mod 2))
1: (2 * ((x mod (~2 - (x mod 4))) mod 2))
1: (2 * ((x mod (~2 - (x mod 7))) mod 2))
1: (2 * ((x mod ~5) mod 2))
1: ((x + 1) * ((x mod (~3 + (x mod 2))) mod 2))
1: (2 * ((x mod (~1 + (2 * (2x div 3)))) mod 2))
1: (2 * ((x mod (~1 + (2 * (x div 4)))) mod 2))
1: (2 * ((x mod (~1 + (((x div 2) div ~2) div 2))) mod 2))
1: (2 * ((x mod (~6 + (x div 3))) mod 2))
1: (x * ((x mod (~1 + (x mod (~1 + ((~x + 1) div 2))))) mod 2))
1: (3 * ((x mod 10) mod 9))
1: (2 * ((x mod 10) mod (if x <= 0 then 1 else x)))
1: (2 * ((x mod (2 * (1 + (x mod 3)))) mod 3))
1: (((if (x + ~2) <= 0 then 1 else (x div 3)) mod 3) * (x mod 3))
1: (x * ((if (x + ~2) <= 0 then 1 else x) mod 3))
1: (2 * ((if ((x + (if (x mod 2) <= 0 then 2 else x)) mod 3) <= 0 then 1 else x) mod (1 + (x div 2))))
1: (2 * ((if (((x + ~1) div 2) mod 3) <= 0 then 1 else x) mod 6))
1: (2 * ((if ((x mod (2 + (x mod 2))) mod 2) <= 0 then 1 else x) mod (2 + (x div 2))))
1: (3 * ((if ((x mod (~1 + (2 * (x div 4)))) mod 2) <= 0 then 1 else x) mod 7))
1: (3 * ((if (x mod 2) <= 0 then 1 else x) mod 4))
1: ((x + 1) * ((if (x mod 2) <= 0 then 1 else x) mod 4))
1: ((x + 1) * ((if (x mod 2) <= 0 then 1 else x) mod (2 + (x mod 3))))
1: ((x + 1) * ((if (x mod 2) <= 0 then 2 else (x2 + 2x)) mod 6))
1: (((if (x mod 2) <= 0 then 2 else x) mod 4) * (x div 3))
1: (2 * ((if (x mod 2) <= 0 then (~x + 1) else x) mod 5))
1: (3 * ((if (x mod 2) <= 0 then (~x + 2) else x) mod 3))
1: (2 * ((if (x mod 2) <= 0 then (~1 + ((~x + 2) div 4)) else x) mod 4))
1: (2 * ((if (x mod 3) <= 0 then 1 else x) mod 5))
1: (2 * ((if (x mod 3) <= 0 then 1 else x) mod 6))
1: (2 * ((if x <= 0 then 1 else (x - (loop(\(x,i).2x,x,1) mod 9))) mod (x + 1)))
1: (2 * ((if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + (((loop(\(x,i).x2,1,(~1 + (9 * (x mod 5)))) div 2) div 2) div 2)) div 2)) div 2)))) mod (x + 1)))
1: (2 * ((if x <= 0 then 1 else x2) mod 9))
1: (x * ((if x <= 0 then 1 else (x div 3)) mod 2))
1: (3 * ((if x <= 0 then 1 else x) mod 3))
1: (2 * ((if x <= 0 then 1 else x) mod 10))
1: (2 * (loop(\(x,i).(2x + 1),x,6) mod 5))
1: (2 * (loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)))
1: (2 * (loop(\(x,i).(1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x)),2,2x) mod (x + 1)))
1: (2 * (loop(\(x,i).(2x + 2),(x div 2),(x mod 2)) mod 5))
1: ((x + 1) * (loop(\(x,i).(2x + 2),x,0) mod (x + 1)))
1: (2 * (loop(\(x,i).(2x + 2),x,2) mod (x + 2)))
1: (2 * (loop(\(x,i).(x2 + x),2,8) mod (x + 1)))
1: (x * (loop(\(x,i).(~2x + 2),x,2) mod (x + 2)))
1: (2 * (loop(\(x,i).(x * (~1 + (2 * i))),x,~2) mod (x + 1)))
1: (3 * (loop(\(x,i).x3,2,6) mod (x + 1)))
1: (2 * (loop(\(x,i).2x,((loop(\(x,i).(x * i),x,2) mod (x + 1)) div 2),2) mod (x + 1)))
1: (2 * (loop(\(x,i).2x,x,1) mod (1 + (3 * (4x mod 13)))))
1: (2 * (loop(\(x,i).2x,x,(x mod 2)) mod (x + 1)))
1: (2 * (loop(\(x,i).2x,x,(if (x mod 4) <= 0 then 0 else 1)) mod (x + 1)))
1: (x * (loop(\(x,i).x2,2,(2 * (x mod 2))) mod (x + 1)))
1: ((x + 1) * (loop(\(x,i).(x * i),x,1) mod (x + 1)))
1: ((x + 1) * (loop(\(x,i).(x * i),x,x) mod (x + 2)))
1: (2 * (loop(\(x,i).loop(\(x,i).(2x * (1 + (2 * i))),(i * i),x),2,x) mod (x + 1)))
1: (5 * (x mod 3))
1: ((x mod 3) * (x div 3))
1: ((x mod 4) * (1 + (x div 2)))
1: ((x + 1) * (x mod 4))
1: ((x + ~1) * (x mod 4))
1: ((x mod 4) * (x div 4))
1: (5 * (x mod 5))
1: ((x mod 5) * (x div 5))
1: (x * (x mod 5))
1: (2 * (x mod (1 + (((loop(\(x,i).2x,x,(2 - ((x div 2) mod 2))) mod (x + 1)) div 2) + (x mod 2)))))
1: (x * (x mod (4 + (x div 2))))
1: ((x mod (3 + (x mod 2))) * (x div 2))
1: ((x + 1) * (x mod (4 + (x mod 2))))
1: (2 * (x mod (3 - (2 div (1 + (x mod 5))))))
1: (2 * (x mod (3 - (x mod 2))))
1: (3 * (x mod 9))
1: (x * (x mod 9))
1: (2 * (x mod 13))
1: (3 * (x mod 13))
1: (2 * (x mod (1 + (2 * (2 + (if (x mod 10) <= 0 then 0 else 2))))))
1: (2 * (x mod (~4x + 5)))
1: (2 * (x mod (1 + (4 * (if (x mod 3) <= 0 then 0 else 2)))))
1: (2 * (x mod (1 + (2 * ((x + 2) mod (2 + (x mod 2)))))))
1: (2 * (x mod (1 + (2 * ((2x mod (4 + (x div 3))) mod 2)))))
1: (2 * (x mod (1 + (2 * (if ((x2 + x) mod 8) <= 0 then 2 else 0)))))
1: (2 * (x mod (1 + (2 * (if (x mod 3) <= 0 then 0 else 2)))))
1: (x * (x mod (1 + (2 * i))))
1: ((x + 1) * (x mod (1 + (((x + 1) div 2) div 3))))
1: (2 * (x mod (2 + (((x + 1) div 2) div 3))))
1: (2 * (x mod (1 + (((x + ~2) mod (2 + (x div 2))) div 2))))
1: (2 * (x mod (2 + (x div 2))))
1: (2 * (x mod (1 + (x div 3))))
1: (2 * (x mod (1 + (x div 4))))
1: ((x mod (1 + (x div 4))) * (1 + (x div 2)))
1: (2 * (x mod (1 + (x div (1 + (2 * (1 + (2x mod 7))))))))
1: (2 * (x mod (1 + (x div (2 + (loop(\(x,i).(x * i),x,1) mod (x + 1)))))))
1: (2 * (x mod (1 + ((x + 1) mod (~1 + (2 * ((2x + 2) mod 5)))))))
1: (2 * (x mod (1 + ((~x + 2) mod 4))))
1: (x * (x mod (1 + ((~x + 2) mod 4))))
1: (2 * (x mod (1 + ((((1 + (8 mod (1 + (x div 2)))) div 2) - (x mod 2)) mod (x + 1)))))
1: (3 * (x mod (1 + ((~1 + ((~2x + 2) mod (4 + (x div 4)))) mod (x + 1)))))
1: (2 * (x mod (1 + ((~1 + loop(\(x,i).2x,(x div (2 + (x mod 2))),2)) mod (x + 1)))))
1: (2 * (x mod (1 + ((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)))))
1: (3 * (x mod (1 + ((x + ~1) mod 4))))
1: (x * (x mod (1 + ((x + ~1) mod 4))))
1: (2 * (x mod (1 + ((x + ~1) mod 7))))
1: (3 * (x mod (1 + ((x + ~1) mod 9))))
1: (2 * (x mod (1 + ((x + ~1) mod (1 + (2 * (2 + (x mod 3))))))))
1: (2 * (x mod (1 + ((x + ~1) mod (1 + (2 * (if (x mod 4) <= 0 then 0 else 2)))))))
1: (2 * (x mod (1 + (2x mod (~1 + (2 * ((x + ~1) mod 4)))))))
1: (2 * (x mod (1 + (((x2 + ~1) div 2) mod (1 + (x div 3))))))
1: (2 * (x mod (1 + ((x div 2) mod 3))))
1: (2 * (x mod (1 + (loop(\(x,i).(x2 + 2x),2,2) mod (x + 1)))))
1: (2 * (x mod (2 + (x mod 3))))
1: (3 * (x mod (1 + (x mod 4))))
1: (x * (x mod (2 + (x mod 4))))
1: (2 * (x mod (2 + (x mod 5))))
1: (2 * (x mod (1 + (x mod (1 + (x div (2 * (2 - (x mod 2)))))))))
1: (2 * (x mod (2 + (if (x mod 2) <= 0 then 1 else (x div 3)))))
1: (4 * (x mod (1 + (if (x mod 2) <= 0 then 6 else 0))))
1: (2 * (x mod (1 + (if (x mod (2 + (x mod 2))) <= 0 then 1 else (x div 4)))))
1: ((x mod ~7) * (x div 2))
1: (2 * (x mod (1 + (((x div (3 + (x div 3))) mod 2) + (x div 2)))))
1: ((x mod ~3) * (1 + (x div 2)))
1: (2 * (x mod ~4))
1: ((x mod ~4) * (x div 2))
1: (3 * (x mod ~5))
1: (2 * (x mod (~3 + (x mod 2))))
1: (2 * (x mod (8 - (x mod 2))))
1: (9 * (x mod 11))
1: ((x mod 11) * (x mod 3))
1: (2 * (x mod (~1 + (2 * (~2 + (x mod 2))))))
1: (2 * (x mod 15))
1: (2 * (x mod (~1 + (2 * ((x + ~1) div 3)))))
1: (2 * (x mod (~1 + (2 * ((x * ((x + 1) mod 5)) div 8)))))
1: (2 * (x mod (~1 + (2 * (x div 4)))))
1: (2 * (x mod (~1 + (((x mod (~1 + (2 * (x div 3)))) mod 2) * (x div 2)))))
1: (2 * (x mod (~1 + (2 * (x mod 5)))))
1: (2 * (x mod (~1 + ((~x + 1) div 5))))
1: ((x + 1) * (x mod (~2 + ((~x + 2) div 4))))
1: (2 * (x mod (~2 + (x div ~4))))
1: (2 * (x mod (~2 + ((x div 2) mod ~2))))
1: ((x mod ((x + ~1) - (x mod 12))) * (1 + (x div 2)))
1: ((x mod ((x + ~1) - (x mod 12))) * (2 + (x div 2)))
1: ((x mod ((x + ~1) - (x mod 12))) * (2 + (x mod 8)))
1: ((x + ~1) * (x mod ((x + ~1) - (x mod 12))))
1: ((x mod ((x + ~1) - (x mod 12))) * (x div 2))
1: (3 * (x mod (x - ((x + ~1) mod 8))))
1: ((~x + 4) * (x mod (x - ((x + ~1) mod 8))))
1: (19 * (x mod (x - ((x + ~1) mod 8))))
1: ((x mod (x - ((x + ~1) mod 8))) * (1 + (x div 4)))
1: ((x + 1) * (x mod (x - ((x + ~1) mod 8))))
1: ((x + 2) * (x mod (x - ((x + ~1) mod 8))))
1: (3 * ((x mod (x - ((x + ~1) mod 8))) * (2 + (x div 5))))
1: (3 * ((x mod (x - ((x + ~1) mod 8))) * (x mod 10)))
1: ((x mod (x - ((x + ~1) mod 8))) * (x div 5))
1: (3 * (x mod 6))
1: (4 * (x mod 6))
1: ((x mod 6) * ((x div 2) div 3))
1: ((x mod 6) * (x mod 5))
1: (3 * (x mod 8))
1: (5 * (x mod 10))
1: ((x mod 10) * (1 + (x div 8)))
1: ((x mod 10) * (x div 2))
1: ((x mod 10) * (x mod 7))
1: (17 * (x mod 14))
1: (2 * (x mod (2 * (2 + (x div 5)))))
1: (x * (x mod (2 * (1 + (x mod 2)))))
1: (2 * (x mod (2 * (1 + (x mod 3)))))
1: (2 * (x mod (3 * (1 + (x mod 3)))))
1: (2 * (x mod (3 * (1 + (x mod 4)))))
1: (2 * (x mod ~6))
1: (2 * (x mod (3 * (if (~2 + (x div 4)) <= 0 then 2 else x))))
1: ((x mod ((if ((x div 2) mod 2) <= 0 then 2 else x) div 2)) * (x div 2))
1: ((x + 1) * (i mod 2))
1: ((x + 2) * (i mod 2))
1: ((i mod 2) * (1 + i))
1: (x * (i mod 2))
1: (2 * (i mod 4))
1: ((x + 1) * (compr(\x.(loop(\(x,i).(~2x + 2),x,2) mod (x + 2)),x) mod (1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (2 * (if 1 <= 0 then (x * (loop(\(x,i).2x2,x2,2) div 2)) else (~1 + loop(\(x,i).10x,(x + 1),1))))
1: ((x + 4) * (if (~x + 4) <= 0 then (x + ~2) else 0))
1: (2 * (if (~x + 4) <= 0 then x else 1))
1: (x * (if (1 + ((1 + ((1 + loop(\(x,i).(x * ((1 + (4 * i)) * i)),x,1)) div 2)) div 2)) <= 0 then 1 else (x * i)))
1: (2 * (if (2 - (x div 2)) <= 0 then (4 + (x div 4)) else 1))
1: ((x + 1) * (if (2 - (x div 4)) <= 0 then (x + 2) else 1))
1: (2 * (if (2 - (x div 4)) <= 0 then 12 else x))
1: (2 * (if (~x + 2) <= 0 then 1 else 13))
1: ((if (~x + 2) <= 0 then 2 else 1) * (1 + (x mod 2)))
1: (2 * (if (~x + 2) <= 0 then 4 else 1))
1: ((x + 1) * (if (~x + 2) <= 0 then (1 + (((x mod (1 + (x div 4))) div 2) + (x mod 2))) else 1))
1: (2 * (if (~x + 2) <= 0 then (2x + 5) else x))
1: ((x + 1) * (if (~x + 2) <= 0 then (2 + ((2 * (x div 2)) div 3)) else 1))
1: (x * (if (~x + 2) <= 0 then (2 + (((x div 2) * (x div 2)) div 2)) else 1))
1: ((if (~x + 2) <= 0 then (2 + (x div 2)) else 1) * (x mod 2))
1: ((if (~x + 2) <= 0 then (2 - (x div ~2)) else 1) * (1 + ((x + 1) div 2)))
1: (2 * (if (~x + 2) <= 0 then ((x div 2) - ((x + ~1) div 3)) else 1))
1: ((x + 1) * (if (~x + 2) <= 0 then 3x else 1))
1: (3 * (if (~x + 2) <= 0 then 2x else 1))
1: (3 * (if (~x + 2) <= 0 then x2 else 2))
1: ((x + 1) * (if (~x + 2) <= 0 then ((x + 1) div 3) else 1))
1: (2 * (if (~x + 2) <= 0 then ((x - (x div 4)) div 2) else 1))
1: ((x + 1) * (if (~x + 2) <= 0 then x else 2))
1: (2 * (if (~x + 2) <= 0 then x else 3))
1: (3 * (if (~x + 2) <= 0 then x else 4))
1: ((x + 3) * (if (~x + 2) <= 0 then x else (x + 1)))
1: (5 * (if (2 - i) <= 0 then x else 1))
1: (x * (if ((~x + 2) + i) <= 0 then x else 2))
1: (9 * (if (~4 + (x div 2)) <= 0 then 0 else 9))
1: ((x + 4) * (if (~4 + (x div 2)) <= 0 then 1 else 2))
1: ((if (~4 + (x div 2)) <= 0 then 1 else 2) * (1 + (x div 2)))
1: ((if (~4 + (x div 2)) <= 0 then 1 else 2) * (2 + (x mod 2)))
1: ((if (~4 + (x div 2)) <= 0 then 1 else 2) * (x mod 5))
1: (2 * (if (~4 + (x div 2)) <= 0 then 1 else 8))
1: (3 * (if (~4 + (x div 2)) <= 0 then 1 else (x div 4)))
1: (2 * (if (~4 + (x div 2)) <= 0 then 2 else 0))
1: (2 * (if (~4 + (x div 2)) <= 0 then x else 5))
1: (2 * (if (~4 + (x div 2)) <= 0 then x else (x + 3)))
1: (3 * (if (~4 + (x div 2)) <= 0 then x else (x + 4)))
1: (9 * (if (~4 + (x div 2)) <= 0 then x else (x + 2)))
1: (9 * (if (~1 + (x div 2)) <= 0 then 1 else ((x + 1) div 2)))
1: ((if (~2 + (x div 2)) <= 0 then 1 else 2) * (1 + (x mod 3)))
1: ((x + 1) * (if (~2 + (x div 2)) <= 0 then 1 else 2))
1: (x * (if (~2 + (x div 2)) <= 0 then 1 else 2))
1: (2 * (if (~2 + (x div 2)) <= 0 then 1 else 4))
1: (x * (if (~2 + (x div 2)) <= 0 then 1 else 4))
1: (2 * (if (~2 + (x div 2)) <= 0 then 1 else 12))
1: (2 * (if (~2 + (x div 2)) <= 0 then 2 else 0))
1: (2 * (if (~6 + (x div 2)) <= 0 then 0 else 2))
1: ((if (~6 + (x div 2)) <= 0 then 1 else 2) * (1 + ((((x + 1) div 2) div 2) div 2)))
1: ((x + 2) * (if (~6 + (x div 2)) <= 0 then 1 else 2))
1: ((if (~2 + (x div 3)) <= 0 then 1 else 2) * (1 + (x div 3)))
1: ((if (~2 + (x div 3)) <= 0 then 1 else 2) * ((x mod 3) div 2))
1: (2 * (if (~2 + (x div 3)) <= 0 then 2 else (x div 2)))
1: (5 * (if (~2 + (x div 3)) <= 0 then x else (x + 2)))
1: (3 * (if (~2 + (x div 4)) <= 0 then 0 else 2))
1: (3 * (if (~2 + (x div 4)) <= 0 then 1 else 2))
1: ((if (~2 + (x div 4)) <= 0 then 1 else 2) * (1 + (x mod 4)))
1: ((if (~2 + (x div 4)) <= 0 then 1 else 2) * ((x div ~2) mod 2))
1: ((if (~2 + (x div 4)) <= 0 then 1 else 2) * (x mod 6))
1: (3 * (if (~2 + (x div 4)) <= 0 then 2 else x))
1: (x * (if (~2 + (x div 4)) <= 0 then 3 else x))
1: (3 * (if (~2 + (x div 5)) <= 0 then 1 else 2))
1: ((if (~2 + (x div 5)) <= 0 then 1 else 2) * (1 + (((x + 1) div 2) div 2)))
1: ((x + 1) * (if (~2 + (x div 5)) <= 0 then 1 else 2))
1: (x * (if (~2 + (x div 5)) <= 0 then 1 else (x + 2)))
1: ((x + 2) * (if (~2 + (x div 5)) <= 0 then 1 else 6))
1: (x * (if (~2 + (x div 5)) <= 0 then 2 else (x + ~1)))
1: (2 * (if (~2 + (x div 5)) <= 0 then 2 else x))
1: ((x + 1) * (if (~2 + (x div 5)) <= 0 then x else (x + 2)))
1: (2 * (if (~2 + ((x + (x div 2)) mod 4)) <= 0 then 1 else 0))
1: ((if (~x + (8 mod (x + 2))) <= 0 then 1 else 0) * (1 + (x mod 8)))
1: ((if (~1 + (2x mod (4 + (x div 2)))) <= 0 then 1 else 0) * (1 + (x div 2)))
1: ((if (~2 + (2x mod (2 + (x div 2)))) <= 0 then 2 else 1) * (1 + (x div 5)))
1: (2 * (if (~2 + (((x + 1) div 2) mod 4)) <= 0 then 1 else 0))
1: ((if (~1 + (x mod 3)) <= 0 then x else 2) * (x mod 2))
1: ((if ((x mod 3) - ((((x + 1) div 2) div 2) mod 2)) <= 0 then 1 else 2) * (1 + (x mod 2)))
1: ((if (~1 + (x mod 5)) <= 0 then 1 else 2) * (x mod 2))
1: ((if (~2 + (x mod 5)) <= 0 then 2 else 1) * (x mod 2))
1: ((x + 1) * (if (~2 + (x mod (1 + (2 * (x mod 3))))) <= 0 then 1 else 2))
1: (2 * (if (~2 + (x mod (1 + (x div 3)))) <= 0 then 1 else 2))
1: (5 * (if (~2 + (x mod (2 + (x mod 3)))) <= 0 then 2 else 0))
1: (2 * (if (~2 + (x mod (2 - (x mod ~4)))) <= 0 then 1 else 2))
1: (2 * (if (~1 + (i mod 3)) <= 0 then x else 2))
1: (3 * (if (x + ~1) <= 0 then 0 else ((1 + (x div (2 * (2 - (x mod 2))))) mod 2)))
1: (2 * (if (x + ~1) <= 0 then 1 else ((x + 1) + loop(\(x,i).2x,x,1))))
1: (2 * (if (x + ~1) <= 0 then 1 else (1 + (2 * (x - ((1 + (x div 2)) div 2))))))
1: (2 * (if (x + ~1) <= 0 then 1 else ((x + ~1) + ((x mod 3) div 2))))
1: ((x2 + 2) * (if (x + ~1) <= 0 then 1 else (2x - ((x + 1) div 5))))
1: (x * (if (x + ~1) <= 0 then 1 else (x + ~1)))
1: (2 * (if (x + ~1) <= 0 then 1 else (2 * (1 + (2 * ((1 + (x div 4)) div 2))))))
1: (2 * (if (x + ~1) <= 0 then 1 else ((~x + 1) * (x mod 2))))
1: (3 * (if (x + ~1) <= 0 then 1 else (6x2 + 3x)))
1: (2 * (if (x + ~1) <= 0 then 1 else ((4x + ~4) div 3)))
1: (2 * (if (x + ~1) <= 0 then 1 else (((x + 1) div 2) div 3)))
1: (2 * (if (x + ~1) <= 0 then 2 else (2x + ~1)))
1: ((x + 1) * (if (x + ~1) <= 0 then 2 else (x2 + ~x)))
1: ((if (x + ~1) <= 0 then 2 else ((x + 1) div 2)) * (1 + (x div 2)))
1: ((x + 1) * (if (x + ~1) <= 0 then 3 else ((x + 2) div (2 + (x mod 2)))))
1: (2 * (if (x + ~1) <= 0 then (x + 2) else ((x + 1) mod 2)))
1: (2 * (if (x + ~1) <= 0 then 8 else x))
1: (2 * (if (x + ~1) <= 0 then (22x + 11) else (x + 2)))
1: (2 * (if (x + ~1) <= 0 then x else 4))
1: (3 * (if (x + ~1) <= 0 then x else 5))
1: ((x + 1) * (if (x + ~1) <= 0 then x else (2 + ((2 * (x div 2)) div 3))))
1: (2 * (if (x + ~1) <= 0 then x else (2 + (x div 5))))
1: (2 * (if (x + ~1) <= 0 then x else (1 + ((x mod (2 + (x mod 2))) mod 2))))
1: ((if (x + ~1) <= 0 then x else (x + 1)) * (1 + (x mod 2)))
1: (2 * (if (x + ~1) <= 0 then x else (2 * ((x mod (2 + (x mod 2))) mod 2))))
1: (2 * (if (x + ~1) <= 0 then x else (((x2 + ~1) div 2) mod 3)))
1: (2 * (if (x + ~1) <= 0 then x else ((x div 2) mod (1 + (2 * (x mod 2))))))
1: ((x + 1) * (if (x + ~1) <= 0 then x else (if ((x + ~2) mod (2 + (x mod 2))) <= 0 then 1 else 2)))
1: (3 * (if (x + ~2) <= 0 then 0 else 2))
1: (2 * (if (x + ~2) <= 0 then 0 else (2 - ((~x + 1) div 3))))
1: ((x2 + 1) * (if (x + ~2) <= 0 then 1 else (2x + 1)))
1: ((2x + 1) * (if (x + ~2) <= 0 then 1 else (x2 + ~1)))
1: (x * (if (x + ~2) <= 0 then 1 else (~1 + loop(\(x,i).(6x * (~1 + (2 * i))),x,1))))
1: ((x + 1) * (if (x + ~2) <= 0 then 1 else (10x2 + 5)))
1: ((x + 1) * (if (x + ~2) <= 0 then 1 else (3x + 6)))
1: (2 * (if (x + ~2) <= 0 then 1 else (2x + ~4)))
1: (3 * (if (x + ~2) <= 0 then 1 else 16))
1: ((x + 1) * (if (x + ~2) <= 0 then 1 else (x5 + x3)))
1: (x * (if (x + ~2) <= 0 then 1 else (4 * (x mod 2))))
1: (x2 * (if (x + ~2) <= 0 then 1 else x3))
1: (x * (if (x + ~2) <= 0 then 1 else x3))
1: ((x2 + ~x + 1) * (if (x + ~2) <= 0 then 1 else x2))
1: ((if (x + ~2) <= 0 then 1 else (x div 3)) * (1 + ((x + ~1) mod 4)))
1: (2 * (if (x + ~2) <= 0 then 1 else x))
1: ((x + 2) * (if (x + ~2) <= 0 then 1 else x))
1: ((if (x + ~2) <= 0 then 1 else x) * (x div 2))
1: (2x * (if (x + ~2) <= 0 then 1 else i))
1: ((x + 1) * (if (x + ~2) <= 0 then 2 else (x2 + ~1)))
1: ((if (x + ~2) <= 0 then 2 else (x + ~2)) * i)
1: ((x2 + 2) * (if (x + ~2) <= 0 then 2 else x2))
1: (x * (if (x + ~2) <= 0 then 2 else x2))
1: ((x + 2) * (if (x + ~2) <= 0 then 2 else (x2 div 2)))
1: (2 * (if (x + ~2) <= 0 then 2 else (x div 2)))
1: (3 * (if (x + ~2) <= 0 then 2 else (if (x mod 2) <= 0 then x else (2x + ~4))))
1: (x * (if (x + ~2) <= 0 then 2 else i))
1: (2 * (if (x + ~2) <= 0 then (x2 + 1) else x))
1: (x * (if (x + ~2) <= 0 then (x2 + ~1) else x))
1: (2 * (if (x + ~2) <= 0 then 2x else 3))
1: (2 * (if (x + ~2) <= 0 then 2x else 5))
1: (3 * (if (x + ~2) <= 0 then x else 1))
1: ((x + 2) * (if (x + ~2) <= 0 then x else (x + 5)))
1: (x * (if (x + ~2) <= 0 then x else (x2 + 2x + 1)))
1: (2 * (if (x + ~2) <= 0 then x else (2 - ((~x + 1) div 3))))
1: (3 * (if (x + ~2) <= 0 then x else (2 - ((~x + 1) div 3))))
1: (2 * (if (x + ~2) <= 0 then x else (2 - (x div ~3))))
1: (3 * (if (x + ~2) <= 0 then x else (x3 + 3x2 + 4x + 2)))
1: (2 * (if (x + ~2) <= 0 then x else (2x2 + 4x)))
1: (2 * (if (x + ~2) <= 0 then x else ((x + 2) div 3)))
1: (2 * (if (x + ~2) <= 0 then x else loop(\(x,i).3x,x,loop(\(x,i).10x,x,2))))
1: (x * (if (x + ~2) <= 0 then i else 4))
1: (2 * (if (x + ~3) <= 0 then 1 else 6))
1: (2 * (if (x + ~4) <= 0 then 0 else 2))
1: (5 * (if (x + ~4) <= 0 then 1 else 2))
1: (~2 * (if (x + ~4) <= 0 then 1 else 2))
1: (2 * (if (x + ~4) <= 0 then 1 else x))
1: (2x * (if (x + ~4) <= 0 then 1 else x))
1: ((if (x + ~4) <= 0 then 1 else x) * (x div 2))
1: (3 * (if (x + ~4) <= 0 then x else (x + 1)))
1: (5 * (if (x + ~4) <= 0 then x else (x + 1)))
1: (5 * (if (x + ~6) <= 0 then 1 else 2))
1: (x * (if (x + ~6) <= 0 then 1 else 4))
1: (2 * (if (x + ~12) <= 0 then 0 else 2))
1: (9 * (if (x + ~12) <= 0 then 0 else 2))
1: ((x + 1) * (if (x + ~12) <= 0 then 1 else 2))
1: (x * (if (x + ~12) <= 0 then (x mod 2) else 1))
1: ((x + 1) * (if (x + ~10) <= 0 then 1 else 2))
1: (2 * (if (x + ~10) <= 0 then x else (x + 2)))
1: ((if (x - (x2 mod (x + 6))) <= 0 then 1 else 2) * (if x <= 0 then 1 else 2))
1: (2 * (if (~1 + i) <= 0 then 1 else (2x * (~1 + (2 * i)))))
1: (x * (if (~1 + i) <= 0 then 2 else (x2 div 2)))
1: (x * (if (~1 + i) <= 0 then x else i))
1: (2 * (if (~2 + i) <= 0 then 1 else 2x))
1: (2 * (if (~2 + i) <= 0 then 1 else x))
1: (5 * (if (~2 + i) <= 0 then 1 else x))
1: ((if (~2 + i) <= 0 then 1 else x) * (1 + (if x <= 0 then 1 else x)))
1: (8 * (if (~2 + i) <= 0 then 1 else x))
1: ((x + 1) * (if (~2 + i) <= 0 then 2 else x))
1: (x * (if (~2 + i) <= 0 then 2 else x))
1: (2 * (if (~x + i) <= 0 then i else x))
1: (2 * (if ((2 + (loop(\(x,i).4x,x,(2 - ((2x + 2) mod 5))) div 3)) div 3) <= 0 then 1 else 2))
1: (x * (if ((1 + loop(\(x,i).x2,x,loop(\(x,i).(x * i),x,1))) div 3) <= 0 then 1 else 2x))
1: ((x + 1) * (if ((x * (x mod 2)) div 2) <= 0 then x else 2))
1: ((2x + ~1) * (if (((x + 1) div 2) div 2) <= 0 then 1 else (if x <= 0 then 1 else (if ((x + 1) mod 9) <= 0 then (x + 1) else 0))))
1: (2 * (if ((x mod (2 + (x mod 2))) div 2) <= 0 then (x mod 2) else 4))
1: ((x + 1) * (if ((if ((x + ~1) mod 3) <= 0 then 1 else x) div 2) <= 0 then (x2 + ~1) else 1))
1: (x * (if (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2) <= 0 then x else 1))
1: ((if (x div 2) <= 0 then 1 else ((4 * (2 + (x mod 2))) - ((if x <= 0 then 2 else x) div 2))) * (if x <= 0 then 1 else 2))
1: ((x + 1) * (if (x div 2) <= 0 then 1 else ((if (x mod 2) <= 0 then 2 else x) div 2)))
1: (2 * (if (x div 2) <= 0 then 2 else ~2))
1: (x * (if (x div 4) <= 0 then 1 else (if (x mod (2 + (x mod 2))) <= 0 then x else 1)))
1: (2 * (if (x div 4) <= 0 then ((x + 1) mod (4 - (x mod 4))) else (x div 2)))
1: (2 * (if (5 mod (if x <= 0 then 1 else x)) <= 0 then 1 else 2))
1: ((if ((x + 3) mod 9) <= 0 then 2 else 1) * (2 - (x mod 2)))
1: (3 * (if ((1 + ((x * (x div 2)) div 2)) mod 4) <= 0 then 2 else 0))
1: ((if ((x + ((x div 2) div 3)) mod 3) <= 0 then 1 else 0) * (1 + (2x mod 3)))
1: ((if ((2 + (x div 2)) mod 4) <= 0 then 2 else 1) * (x mod 2))
1: ((if ((1 + (x div 3)) mod 3) <= 0 then 2 else 1) * (1 + ((x mod 3) div 2)))
1: (3 * (if ((1 + (x div 3)) mod 3) <= 0 then (if (x div 4) <= 0 then 2 else ~2) else 1))
1: (2 * (if ((x + 1) mod 3) <= 0 then x else 2))
1: (3 * (if ((x + 1) mod 4) <= 0 then ((x + 1) div 3) else 1))
1: (5 * (if ((x + 1) mod 4) <= 0 then (x div 3) else 1))
1: (2 * (if ((x + 1) mod 5) <= 0 then 0 else 2))
1: ((x + 1) * (if ((x + 1) mod 5) <= 0 then 1 else 10))
1: (5 * (if ((x + 1) mod 5) <= 0 then 2 else 0))
1: ((if ((x + 1) mod 5) <= 0 then 2 else 1) * (1 + (x mod 2)))
1: ((if ((x + 1) mod 5) <= 0 then 2 else 1) * ((x div 2) mod 2))
1: (2 * (if ((x + 1) mod 5) <= 0 then (x div 3) else 1))
1: (7 * (if ((x + 1) mod 7) <= 0 then 8 else 1))
1: (3 * (if ((x + 1) mod (1 + (x div (2 + ((x div 2) mod 2))))) <= 0 then 1 else 2))
1: (2 * (if ((x + 1) mod (2 + ((x div 2) mod 2))) <= 0 then x else 1))
1: ((x + ~1) * (if ((x + 1) mod (2 + (x mod 5))) <= 0 then 2 else 0))
1: ((x + 1) * (if ((x + 1) mod 6) <= 0 then (x div 2) else (2 + (x mod 2))))
1: (3 * (if ((x + 1) mod 8) <= 0 then 2 else 1))
1: (2 * (if ((x + 1) mod 8) <= 0 then 8 else 2))
1: (2 * (if ((x + 2) mod 5) <= 0 then (x mod 2) else 0))
1: (2 * (if ((x + 2) mod 9) <= 0 then 2 else x))
1: ((x + 1) * (if ((x + 2) mod 9) <= 0 then (2x + 2) else 1))
1: (3 * (if ((x + 2) mod 9) <= 0 then x else 0))
1: (2 * (if ((x + 2) mod (2 + (x div 5))) <= 0 then 0 else 2))
1: (2 * (if ((x + 2) mod (2 + ((x div 2) mod 2))) <= 0 then 2 else 0))
1: ((if ((x + 2) mod (1 + (x mod 4))) <= 0 then 1 else 2) * (1 + (x div 2)))
1: (x * (if ((x + 2) mod (2 - (x mod ~4))) <= 0 then 2 else 1))
1: ((x + 1) * (if ((x + 2) mod (2 - (x mod ~4))) <= 0 then (x + 2) else 1))
1: ((if ((x + 2) mod 6) <= 0 then 2 else 1) * (if (~2 + (x div 2)) <= 0 then 1 else 2))
1: ((if ((x + 2) mod 8) <= 0 then 0 else 1) * (x div (2 - (x mod 2))))
1: (2 * (if ((x + 2) mod 8) <= 0 then (x + 2) else 1))
1: ((x + 1) * (if ((x + 2) mod 16) <= 0 then 2 else 1))
1: ((if ((x + ~1) mod 3) <= 0 then 1 else x) * (~1 + (x mod 2)))
1: (3 * (if ((x + ~1) mod 3) <= 0 then (2 + (x div 4)) else 1))
1: ((x + 1) * (if ((x + ~1) mod 4) <= 0 then 1 else 2))
1: (2 * (if ((x + ~1) mod 4) <= 0 then 2 else 1))
1: ((if ((x + ~1) mod 4) <= 0 then 2 else 1) * (1 + (2 * (x mod 2))))
1: ((x + 1) * (if ((x + ~1) mod 4) <= 0 then 4x else 1))
1: ((if ((x + ~1) mod 5) <= 0 then 1 else x) * (x mod 2))
1: (2 * (if ((x + ~1) mod 5) <= 0 then 2 else 1))
1: (2 * (if ((x + ~1) mod 9) <= 0 then 1 else x))
1: (2 * (if ((x + ~2) mod 5) <= 0 then (x mod 2) else x))
1: ((x + 1) * (if ((x + ~2) mod (4 + (x mod 2))) <= 0 then 2 else 1))
1: (2 * (if ((x + ~2) mod 7) <= 0 then 1 else 2))
1: (3 * (if ((x + ~2) mod (2 + (x mod 2))) <= 0 then 1 else 2))
1: (2 * (if ((x + ~2) mod 8) <= 0 then x else 2))
1: (5 * (if ((x + ~2) mod 12) <= 0 then 2 else 1))
1: (5 * (if (8 mod (x + 1)) <= 0 then 2 else 1))
1: ((x + 1) * (if (8 mod (x + 1)) <= 0 then 2 else 1))
1: (3 * (if (8 mod (if x <= 0 then 1 else x)) <= 0 then x else 0))
1: (2 * (if ((x2 + x) mod 8) <= 0 then 2 else 0))
1: (3 * (if (~2x mod 5) <= 0 then 3x else 1))
1: (3 * (if ((2x + ~4) mod (2 + (x div 2))) <= 0 then 1 else 2))
1: (2 * (if (16 mod (x + 1)) <= 0 then 1 else 2))
1: (3 * (if (16 mod (x + 1)) <= 0 then 1 else 2))
1: ((if (16 mod (x + 1)) <= 0 then 1 else 2) * (x mod 2))
1: (2 * (if (16 mod (x + 1)) <= 0 then 2 else 0))
1: ((x + 1) * (if (16 mod (x + 1)) <= 0 then 2 else 0))
1: ((x + 1) * (if (16 mod (x + 1)) <= 0 then 2 else 1))
1: (3 * (if (4x mod (2 + (x div 2))) <= 0 then 1 else 2))
1: ((if ((x * (x div 2)) mod 4) <= 0 then 1 else 0) * (1 + (x mod 2)))
1: (9 * (if (2x mod (4 + (x div 4))) <= 0 then (x + 3) else 0))
1: (3 * (if (x2 mod (x + 4)) <= 0 then 2 else 1))
1: (7 * (if (((x + 1) div 3) mod 4) <= 0 then x else 1))
1: (2 * (if (((x2 + 2x) div 2) mod 3) <= 0 then 1 else 2))
1: ((if (((x * (x div 3)) div 2) mod 3) <= 0 then (if x <= 0 then 0 else 1) else 0) * (1 + ((x + 1) div 3)))
1: (3 * (if ((x div 2) mod 3) <= 0 then 1 else x))
1: ((if ((x div 2) mod 3) <= 0 then 2 else 0) * ((1 + (x div 2)) div 2))
1: (2 * (if ((x div 2) mod 3) <= 0 then 2 else 1))
1: ((if ((x div 2) mod 3) <= 0 then 2 else 1) * (2 - (x mod 2)))
1: (2 * (if ((x div 2) mod 5) <= 0 then 2 else 1))
1: (2 * (if ((x div 2) mod 6) <= 0 then x else 2))
1: ((2x + 1) * (if ((x div 3) mod 2) <= 0 then 1 else 2x))
1: (3 * (if ((x div 3) mod 3) <= 0 then 4 else 1))
1: (2 * (if ((x div 4) mod 2) <= 0 then ~2 else 2))
1: ((x + 1) * (if (((x + 1) mod (1 + (x div 3))) mod 2) <= 0 then (x + 1) else 0))
1: ((x + 1) * (if ((if x <= 0 then 1 else x) mod 2) <= 0 then (x + ~1) else 1))
1: ((if ((if x <= 0 then 1 else x) mod 3) <= 0 then 2 else 1) * (1 - (2 * (x mod 2))))
1: (2 * (if ((if x <= 0 then 1 else x) mod 6) <= 0 then 2 else 0))
1: (5 * (if ((if x <= 0 then 1 else x) mod 12) <= 0 then 1 else 6))
1: ((2x + ~1) * (if (x mod 2) <= 0 then 1 else 4))
1: ((if (x mod 2) <= 0 then 1 else (2 + (x div 4))) * ((x mod 3) div 2))
1: ((x + 2) * (if (x mod 2) <= 0 then 1 else (x + 2)))
1: (x * (if (x mod 2) <= 0 then 1 else (x + 2)))
1: ((x + 1) * (if (x mod 2) <= 0 then 1 else 6))
1: ((if (x mod 2) <= 0 then 1 else 10) * (1 + (x div 2)))
1: ((x + 1) * (if (x mod 2) <= 0 then 1 else (2 * (1 + (8 * (x mod 2))))))
1: (2 * (if (x mod 2) <= 0 then 1 else (2 * (1 + (x mod (2 * (1 + (x mod (2 * (1 + (x mod 4)))))))))))
1: (x * (if (x mod 2) <= 0 then 1 else (((x + 1) div (1 + (2 * (((~x + 2) mod (2 + (x div 4))) div 2)))) mod 2)))
1: (2 * (if (x mod 2) <= 0 then 1 else x))
1: ((if (x mod 2) <= 0 then 1 else x) * (i - (x mod 2)))
1: ((if (x mod 2) <= 0 then 1 else x) * (x div 2))
1: ((if (x mod 2) <= 0 then 1 else x) * (if x <= 0 then 1 else 2))
1: ((2x + ~1) * (if (x mod 2) <= 0 then 1 else i))
1: ((x + 1) * (if (x mod 2) <= 0 then 2 else 0))
1: ((if (x mod 2) <= 0 then 2 else 0) * (~1 + (2 * i)))
1: (3 * (if (x mod 2) <= 0 then 2 else (1 + (if (x mod 3) <= 0 then 2 else 0))))
1: ((x + 1) * (if (x mod 2) <= 0 then 2 else (~1 + ((x2 + 2x) div 2))))
1: (2 * (if (x mod 2) <= 0 then 2 else (2x2 + 2x)))
1: (x * (if (x mod 2) <= 0 then 2 else 3x2))
1: ((x + 1) * (if (x mod 2) <= 0 then 2 else (x mod ~4)))
1: (5 * (if (x mod 2) <= 0 then 2 else x))
1: ((2x + 1) * (if (x mod 2) <= 0 then 2 else x))
1: (x * (if (x mod 2) <= 0 then 3 else 2x3))
1: ((if (x mod 2) <= 0 then 3 else x3) * (2 + (x div 2)))
1: ((x + 2) * (if (x mod 2) <= 0 then 4 else 1))
1: ((if (x mod 2) <= 0 then 4 else 1) * (2x - (if x <= 0 then 0 else 1)))
1: (x * (if (x mod 2) <= 0 then 4 else ((x + 1) mod (2 + (x mod 2)))))
1: (2 * (if (x mod 2) <= 0 then 4 else (x mod 4)))
1: ((x + 1) * (if (x mod 2) <= 0 then (1 + (2 * ((~x + 2) mod (1 + (x div 4))))) else 1))
1: ((x + 1) * (if (x mod 2) <= 0 then (1 + ((1 + (x div 2)) div 2)) else 0))
1: ((if (x mod 2) <= 0 then (1 + (x div 2)) else (x + ~1)) * (x div 2))
1: (9 * (if (x mod 2) <= 0 then (2 + (x div 2)) else 1))
1: (5 * (if (x mod 2) <= 0 then (2 + (if x <= 0 then 0 else 2)) else 1))
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1: (x * (if (x mod 2) <= 0 then 6 else 1))
1: (x * (if (x mod 2) <= 0 then 8 else 1))
1: (x * (if (x mod 2) <= 0 then 12 else 1))
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1: (x * (if (x mod 2) <= 0 then x else 7))
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1: (2 * (if (x mod 2) <= 0 then x else (4x2 + 3x)))
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1: ((if (x mod 3) <= 0 then 19 else 1) * (if x <= 0 then 1 else 2))
1: ((if (x mod 3) <= 0 then 31 else 1) * (if x <= 0 then 1 else 2))
1: (3 * (if (x mod 3) <= 0 then 14 else 1))
1: (2 * (if (x mod 3) <= 0 then (13 * (if x <= 0 then 1 else 2)) else 1))
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1: (2 * (if (x mod 4) <= 0 then 2 else x))
1: (5 * (if (x mod 4) <= 0 then 4 else 1))
1: (2 * (if (x mod 4) <= 0 then 9 else 1))
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1: ((if (x mod 4) <= 0 then 19 else 1) * (if x <= 0 then 1 else 2))
1: ((if (x mod 4) <= 0 then 17 else 1) * (if x <= 0 then 1 else 2))
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1: ((if (x mod 4) <= 0 then 29 else 1) * (if x <= 0 then 1 else 2))
1: ((if (x mod 4) <= 0 then 23 else 1) * (if x <= 0 then 1 else 2))
1: ((if (x mod 4) <= 0 then 23 else 2) * (if x <= 0 then 1 else 2))
1: (5 * (if (x mod 4) <= 0 then 6 else 1))
1: (2 * (if (x mod 4) <= 0 then (5 * (if x <= 0 then 1 else 2)) else 1))
1: (5 * (if (x mod 4) <= 0 then (5 * (if x <= 0 then 1 else 2)) else 1))
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1: (2 * (if (x mod 5) <= 0 then 1 else (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))
1: (5 * (if (x mod 5) <= 0 then 2 else 1))
1: (x * (if (x mod 5) <= 0 then 2 else 1))
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1: (5 * (if (x mod 5) <= 0 then (~1 + (2 * (x mod 2))) else 0))
1: (2 * (if (x mod 5) <= 0 then 10 else 1))
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1: (3 * (if (x mod 7) <= 0 then 0 else 2))
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1: (2 * (if (x mod (1 + (2 * (x div (2 * (2 + (x mod 2))))))) <= 0 then 1 else 2))
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1: ((if (x mod (1 + (2 * (x div (2 * (2 + (x mod 2))))))) <= 0 then 1 else 2) * (1 + (x mod 10)))
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1: ((if (x mod (1 + (((x + 1) div 2) div 3))) <= 0 then 1 else 2) * (if x <= 0 then 1 else 2))
1: (3 * (if (x mod (2 + (4 mod (x + 2)))) <= 0 then 2 else 0))
1: (3 * (if (x mod (2 + (5 mod (1 + (x div 2))))) <= 0 then 2 else 1))
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1: (2 * (if (x mod (2 + ((x + ~1) mod 3))) <= 0 then 2 else x))
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1: (9 * (if (x mod (2 + (x mod 2))) <= 0 then x else 1))
1: ((x + 1) * (if (x mod (8 - ((x div 2) mod 2))) <= 0 then 2 else 1))
1: (5 * (if (x mod 11) <= 0 then 0 else 2))
1: (5 * (if (x mod 6) <= 0 then 0 else 2))
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1: ((x + 1) * (if (x mod 6) <= 0 then (if x <= 0 then 1 else 2) else 1))
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1: ((x + 1) * (if (x mod (3 * (1 + (x div 4)))) <= 0 then 2 else 1))
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1: (2 * (if (i mod 3) <= 0 then 2 else x))
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1: (2 * (if (if (x mod 8) <= 0 then x else 0) <= 0 then 1 else x))
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1: (3 * (if x <= 0 then 1 else 4))
1: ((if x <= 0 then 1 else 4) * (1 + (x mod 2)))
1: (2 * (if x <= 0 then 1 else ((x2 + 2) + loop(\(x,i).(2 * (x + (x div 2))),x,1))))
1: ((x + 1) * (if x <= 0 then 1 else ((x2 + 2) + loop(\(x,i).x2,2,x2))))
1: (2 * (if x <= 0 then 1 else ((3 * (1 + (x mod (2 + (x mod 2))))) + (x mod 2))))
1: (2 * (if x <= 0 then 1 else (8x + ((x + 1) div 3))))
1: (2 * (if x <= 0 then 1 else (2 + (3 * ((1 + loop(\(x,i).2x,x,(1 + loop(\(x,i).3x,x,1)))) div 3)))))
1: (2 * (if x <= 0 then 1 else (4x + (2 div (~2 + (x mod 2))))))
1: (2 * (if x <= 0 then 1 else (2 + ((6x + (x2 div 4)) div (x + 2)))))
1: (2 * (if x <= 0 then 1 else (2 + ((x - ((x div 2) mod 5)) div 2))))
1: (3 * (if x <= 0 then 1 else (2 + ((x - ((x div 3) mod 2)) div 2))))
1: (2 * (if x <= 0 then 1 else (4x + (x2 div 4))))
1: (2 * (if x <= 0 then 1 else (2 + ((1 + (4 * (if (x mod 2) <= 0 then (14x + 28) else 2))) mod (x + 1)))))
1: (7 * (if x <= 0 then 1 else (2 + ((~x + 1) mod (1 + (x div 2))))))
1: (2 * (if x <= 0 then 1 else (2 + (((x + ~1) mod (2 + (x div (2 + (x mod 2))))) mod 2))))
1: (3 * (if x <= 0 then 1 else (2 + (x mod 2))))
1: (2 * (if x <= 0 then 1 else (2 + (x mod (2 + (x div 4))))))
1: (2 * (if x <= 0 then 1 else (2 + (if (x mod 4) <= 0 then 1 else (((x + 1) div 2) div 2)))))
1: (2 * (if x <= 0 then 1 else (2 + loop(\(x,i).(2 * (2x - (x div (1 + i)))),x,2))))
1: ((x + 1) * (if x <= 0 then 1 else (x + 2)))
1: (2 * (if x <= 0 then 1 else (1 + compr(\x.(1 - (x mod (2 + ((2x + 1) mod 7)))),x))))
1: (2 * (if x <= 0 then 1 else (1 + compr(\x.(~1 + (x mod ((x + 1) - (loop(\(x,i).2x,x,1) mod (x + 1))))),(x + 1)))))
1: ((if x <= 0 then 1 else ~2) * (1 + (2 * i)))
1: ((x + 1) * (if x <= 0 then 1 else ((x + ~1) + ((1 + (x mod 5)) * (x mod 2)))))
1: (2 * (if x <= 0 then 1 else (~1 + (3 * (x - ((~x + 2) div 4))))))
1: (2 * (if x <= 0 then 1 else ((8x + 1) - loop(\(x,i).(x + (if (~2 + (x div 4)) <= 0 then 1 else 2)),2,x))))
1: (2 * (if x <= 0 then 1 else (8x - ((x + ((x div 3) mod 3)) div 3))))
1: (2 * (if x <= 0 then 1 else (8x - ((x + 1) div 3))))
1: (2 * (if x <= 0 then 1 else (8x - ((x + 2) div 5))))
1: (2 * (if x <= 0 then 1 else (6x - ((~x + ((x div 2) mod 2)) div 2))))
1: (2 * (if x <= 0 then 1 else (6x - ((~2x + 4) div (4 + ((x div 2) div 3))))))
1: (2 * (if x <= 0 then 1 else (x2 + ~1)))
1: (2 * (if x <= 0 then 1 else ((x mod 2) - ((x - (x mod 3)) div 2))))
1: ((x + 1) * (if x <= 0 then 1 else (x - ((~x + 2) div 4))))
1: (2 * (if x <= 0 then 1 else (x - (x2 mod 20))))
1: (2 * (if x <= 0 then 1 else (x - (x mod 3))))
1: (2 * (if x <= 0 then 1 else 8))
1: ((if x <= 0 then 1 else 8) * loop(\(x,i).(x2 + x),x,1))
1: (2 * (if x <= 0 then 1 else (2 * (3x + ((2x + ((x div 3) mod 3)) div 3)))))
1: (2 * (if x <= 0 then 1 else (2 * (3x + ((x - ((x + (x div 3)) div 3)) div 2)))))
1: (2 * (if x <= 0 then 1 else (2 * (3x + ((x - (if (~2 + (x div 4)) <= 0 then 0 else 2)) div 3)))))
1: (2 * (if x <= 0 then 1 else (2 * (3x + ((2 * (x - (2x div ~7))) div 3)))))
1: (2 * (if x <= 0 then 1 else (2 * (3x + ((2 * (x - ((x div 2) div 3))) div 3)))))
1: (2 * (if x <= 0 then 1 else (2 * ((x + 1) + (i mod 2)))))
1: (2 * (if x <= 0 then 1 else (2 * ((x + ~1) + loop(\(x,i).(x + (if (~2 + (x div 4)) <= 0 then 1 else 2)),2,x)))))
1: ((x2 + 1) * (if x <= 0 then 1 else (18x2 + 2)))
1: (2 * (if x <= 0 then 1 else (4x2 + 2)))
1: ((2x + 3) * (if x <= 0 then 1 else (6x2 + 2)))
1: ((if x <= 0 then 1 else (2 * (1 + (2 * (x mod 2))))) * (1 + (x2 div 2)))
1: (2 * (if x <= 0 then 1 else (x * (1 + (2 * (if (x + ~2) <= 0 then 1 else x))))))
1: (2 * (if x <= 0 then 1 else (2 * ((x + 1) + (2 div (~x + 16))))))
1: (2 * (if x <= 0 then 1 else (2 * (1 + ((2x + 1) div (3 + (x div 4)))))))
1: ((x + 1) * (if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + (loop(\(x,i).(2x + ~1),(x + ~1),loop(\(x,i).2x,x,1)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)))))
1: ((x + 1) * (if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + (((loop(\(x,i).x2,1,(1 + compr(\x.(loop(\(x,i).(~2x + 4),x,1) mod (x + 1)),x))) div 2) div 2) div 2)) div 2)) div 2)))))
1: ((x + 1) * (if x <= 0 then 1 else (2 * (1 + ((1 + (((1 + (((x + 1) * (x - loop(\(x,i).(1 + ((2x2 + ~x) div (x + 3))),2,x))) div 2)) div 2) div 2)) div 2)))))
1: ((x + 1) * (if x <= 0 then 1 else (2 * (1 + ((1 + ((loop(\(x,i).((3x + 1) - (i mod 2)),x,1) div 2) div 2)) div 2)))))
1: (2 * (if x <= 0 then 1 else (2 * (1 + ((1 + ((x mod (1 + (loop(\(x,i).(2x + 2),(loop(\(x,i).(~3x2 + x),2,2) mod (x + 1)),1) mod (x + 1)))) div 2)) div 2)))))
1: (2 * (if x <= 0 then 1 else (2 * (2x + ((x + ((1 - (x div 2)) mod 4)) div 4)))))
1: (2 * (if x <= 0 then 1 else (2 * (2x + ((x + (((x div 2) div 3) mod 2)) div 2)))))
1: (2 * (if x <= 0 then 1 else (2 * (2x + ((x + ((x div 3) mod 3)) div 3)))))
1: (2 * (if x <= 0 then 1 else (2 * (1 + ((1 + (x mod (1 + (x div 4)))) div (1 + ((x + 1) mod 4)))))))
1: (2 * (if x <= 0 then 1 else (2 * (2x + ((x - (x div ~7)) div 2)))))
1: (2 * (if x <= 0 then 1 else (2 * (2x + ((x - (x div 12)) div 2)))))
1: (2 * (if x <= 0 then 1 else (2 * (2x + ((2 * (x + (if (~2 + (x div 4)) <= 0 then 1 else 2))) div 3)))))
1: (2 * (if x <= 0 then 1 else (2 * (2x + ((((x + 1) - (x div 4)) div 2) div 2)))))
1: ((x + 1) * (if x <= 0 then 1 else (2 * (1 + (((x + 2) div (1 + ((x + 1) mod 3))) div 2)))))
1: (3 * (if x <= 0 then 1 else (3 * (x + ((x div 2) div 3)))))
1: ((if x <= 0 then 1 else (2 * (1 + (((~1 + loop(\(x,i).2x,x,(x - ((x div 2) mod 2)))) mod (x + 1)) div 2)))) * ((x + 1) div 2))
1: (2 * (if x <= 0 then 1 else (2 * (2x + (x div (4 + ((x div 2) div 5)))))))
1: ((x + 1) * (if x <= 0 then 1 else (2 * (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))))))
1: ((x + 1) * (if x <= 0 then 1 else (2 * (1 + (~x2 mod 6)))))
1: (2 * (if x <= 0 then 1 else (2 * (2x + (x mod 2)))))
1: ((if x <= 0 then 1 else (2 * (x + (x mod 2)))) * loop(\(x,i).x2,x,2))
1: (2 * (if x <= 0 then 1 else (2 * (4x + (if (~2 + (x div 2)) <= 0 then 0 else 1)))))
1: ((x + 1) * (if x <= 0 then 1 else (2 * ((if ((x + 1) mod (1 + (x div 4))) <= 0 then 1 else 2) + ((x mod 3) div 2)))))
1: ((x + 1) * (if x <= 0 then 1 else (2 * (2 + loop(\(x,i).loop(\(x,i).(x2 + 2),x,2),x,0)))))
1: (2 * (if x <= 0 then 1 else (x2 + 2x)))
1: (2 * (if x <= 0 then 1 else (2 * ((2x + 1) - ((x div 3) + (x div ~2))))))
1: (2 * (if x <= 0 then 1 else (2 * (4x - ((1 + ((x - ((x div 4) mod 2)) div 2)) div 2)))))
1: (2 * (if x <= 0 then 1 else (2 * (4x - ((x + ((1 - (x div 2)) mod 4)) div 4)))))
1: (2 * (if x <= 0 then 1 else (2 * (4x - ((x + ((x div 2) mod 2)) div 2)))))
1: (2 * (if x <= 0 then 1 else (2 * (4x - ((x + ((x div 2) mod 4)) div 4)))))
1: (2 * (if x <= 0 then 1 else (2 * (4x - ((x + ((x div 3) mod 3)) div 3)))))
1: (2 * (if x <= 0 then 1 else (2 * (4x - ((x + 1) div 3)))))
1: (2 * (if x <= 0 then 1 else (2 * (4x - ((~x + 2) div 5)))))
1: (2 * (if x <= 0 then 1 else (2 * (4x - ((x - (x div ~7)) div 2)))))
1: (2 * (if x <= 0 then 1 else (2 * (4x - ((x - (x div 12)) div 2)))))
1: (2 * (if x <= 0 then 1 else (2 * (4x - ((((x + 1) - (x div 4)) div 2) div 2)))))
1: (2 * (if x <= 0 then 1 else (2 * (4x - (x div (4 + ((x div 2) div 5)))))))
1: (2 * (if x <= 0 then 1 else (2 * (2x - ((~x + ((x div 2) mod 4)) div 4)))))
1: (2 * (if x <= 0 then 1 else (2 * (2x - ((~x + ((x div 3) mod 3)) div 3)))))
1: (2 * (if x <= 0 then 1 else (2 * (2x - ((x div 2) mod 2)))))
1: (2 * (if x <= 0 then 1 else (2 * (2x - (x mod 2)))))
1: (3 * (if x <= 0 then 1 else (9 * (~x + (x mod 9)))))
1: ((x + 1) * (if x <= 0 then 1 else (x * (~1 + loop(\(x,i).loop(\(x,i).(x * i),x,2),x,1)))))
1: (2 * (if x <= 0 then 1 else (2 * (x - ((~x + 2) div 2)))))
1: (2 * (if x <= 0 then 1 else (2 * (x - ((~1 + (x div 2)) div 3)))))
1: (x2 * (if x <= 0 then 1 else (x * (x - ((x - ((x * loop(\(x,i).(x3 + x),1,x4)) div 2)) div 2)))))
1: (2 * (if x <= 0 then 1 else 16))
1: (2 * (if x <= 0 then 1 else (4 * ((x + 1) + (3 * (x + (x mod 2)))))))
1: (5 * (if x <= 0 then 1 else (2x2 + 8x)))
1: (3 * (if x <= 0 then 1 else (3x6 + 3x)))
1: (2 * (if x <= 0 then 1 else (4x3 + 2x)))
1: (2 * (if x <= 0 then 1 else (2x3 + 4x)))
1: (2 * (if x <= 0 then 1 else (~2x3 + 2x)))
1: (3 * (if x <= 0 then 1 else (12x2 + 6x)))
1: ((2x2 + 1) * (if x <= 0 then 1 else 8x))
1: ((4x2 + 1) * (if x <= 0 then 1 else 8x))
1: (3 * (if x <= 0 then 1 else (4 * (x div 2))))
1: ((x + 1) * (if x <= 0 then 1 else 4x))
1: (2 * (if x <= 0 then 1 else (2 * ((2 * (4x - (x div 7))) div 3))))
1: (2 * (if x <= 0 then 1 else (2 * ((loop(\(x,i).2x,x,(if (x mod 4) <= 0 then 0 else 1)) mod (x + 1)) div 2))))
1: ((x + 1) * (if x <= 0 then 1 else (2 * ((x mod (1 + (x div 2))) div 2))))
1: (2 * (if x <= 0 then 1 else (2 * (x3 mod 13))))
1: (2 * (if x <= 0 then 1 else (2 * (x3 mod (1 + (3 * (2 - (x mod 2))))))))
1: (3 * (if x <= 0 then 1 else (2 * (x mod (1 + ((((1 + (8 mod (1 + (x div 2)))) div 2) - (x mod 2)) mod (x + 1)))))))
1: (2 * (if x <= 0 then 1 else (2 * (x mod (~1 + (2 * (x div 4)))))))
1: (2 * (if x <= 0 then 1 else (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (1 + (x div 5)))))
1: ((2x + 1) * (if x <= 0 then 1 else 2x))
1: ((if x <= 0 then 1 else x2) * (1 + (x mod 2)))
1: ((x + ~2) * (if x <= 0 then 1 else x2))
1: (3 * (if x <= 0 then 1 else ((loop(\(x,i).3x,x,1) - loop(\(x,i).3x,(x div 2),1)) div 2)))
1: ((if x <= 0 then 1 else (x div 3)) * ((x + ~1) mod 3))
1: ((x + 1) * (if x <= 0 then 1 else (x div 4)))
1: (3 * (if x <= 0 then 1 else (x div 7)))
1: (7 * (if x <= 0 then 1 else (x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2)))))))))
1: (2 * (if x <= 0 then 1 else ((~1 - (x div 4)) mod (1 + (x div 5)))))
1: (2 * (if x <= 0 then 1 else ((x2 div 3) mod (x + 1))))
1: (2 * (if x <= 0 then 1 else ((x mod (~1 + (x mod (~1 + ((~x + 1) div 2))))) mod 2)))
1: ((x + 1) * (if x <= 0 then 1 else ((x mod (~1 + (x mod (~1 + ((~x + 1) div 2))))) mod 2)))
1: (3 * (if x <= 0 then 1 else (x mod (1 + (((x + 1) div 2) div 3)))))
1: (2 * (if x <= 0 then 1 else (if (x mod 4) <= 0 then (x div 2) else x)))
1: ((2x + 1) * (if x <= 0 then 1 else (if (x mod 12) <= 0 then 2 else 0)))
1: ((x + 1) * (if x <= 0 then 1 else loop(\(x,i).(10x + 10),x,0)))
1: (3 * (if x <= 0 then 1 else loop(\(x,i).x3,x,2x)))
1: (2 * (if x <= 0 then 2 else 0))
1: (2 * (if x <= 0 then 2 else (1 + (19 * loop(\(x,i).10x,x,1)))))
1: (3 * (if x <= 0 then 2 else (1 + (2 * compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(3x + 1))),x)))))
1: (2 * (if x <= 0 then 2 else (1 + (x div (2 - ((x div 4) div ~2))))))
1: (2 * (if x <= 0 then 2 else (1 + (x mod (1 + (2 * (x div (3 - (x mod 2)))))))))
1: (2 * (if x <= 0 then 2 else (1 + (if (2x mod (4 + (x div 4))) <= 0 then ((x + 2) div 3) else 0))))
1: (2 * (if x <= 0 then 2 else ((2x + 4) - ((x - ((x div 2) mod 2)) div 2))))
1: (2 * (if x <= 0 then 2 else (2x3 + 2x2 + ~1)))
1: (2 * (if x <= 0 then 2 else (4x - (((x + ~1) mod (2 + (x div 2))) div 2))))
1: (2 * (if x <= 0 then 2 else (~1 + (2 * ((4 * (x + (if (~2 + (x div 2)) <= 0 then 1 else 2))) div 3)))))
1: (2 * (if x <= 0 then 2 else ((x + 1) - ((1 - (((x + 1) mod (1 + (2 * ((1 + (x div 4)) div 2)))) div 2)) mod 2))))
1: (2 * (if x <= 0 then 2 else ((x + 1) - (i mod 2))))
1: (2 * (if x <= 0 then 2 else (x - (2 * (~2x + ((x + (x div 2)) div 4))))))
1: (2 * (if x <= 0 then 2 else (x - (((x2 + ~2x) div (x + 2)) div 5))))
1: (2 * (if x <= 0 then 2 else (x - (loop(\(x,i).(x * i),x,2) mod (x + 1)))))
1: (2 * (if x <= 0 then 2 else (6 * (2x + ((2 * (2 + loop(\(x,i).loop(\(x,i).((x + 1) * i),x,2),x,1))) div 3)))))
1: ((x + 1) * (if x <= 0 then 2 else 2x2))
1: (2 * (if x <= 0 then 2 else x4))
1: ((x + ~1) * (if x <= 0 then 2 else (x * (x div 2))))
1: (2 * (if x <= 0 then 2 else (x * (x mod 3))))
1: (2 * (if x <= 0 then 2 else ((loop(\(x,i).x2,1,loop(\(x,i).x3,(x + ~1),4)) div 2) div 2)))
1: (3 * (if x <= 0 then 2 else ((if x <= 0 then 2 else (1 + ((1 + (x div (2 + (x mod 2)))) div 2))) div 2)))
1: (2 * (if x <= 0 then 2 else (loop(\(x,i).(2x + i),x,0) div (x + 1))))
1: ((x + 2) * (if x <= 0 then 2 else (x div 2)))
1: (2 * (if x <= 0 then 2 else ((x + 1) mod ((if ((x mod 7) mod 3) <= 0 then 1 else 2) + (x mod 2)))))
1: ((if x <= 0 then 2 else ((~x + 1) mod 3)) * (1 + ((x + 1) div 3)))
1: (9 * (if x <= 0 then 2 else (if (~4 + (x div 2)) <= 0 then 1 else 2)))
1: (2 * (if x <= 0 then 2 else (if (x mod 4) <= 0 then (2x mod 5) else 1)))
1: ((x + 1) * (if x <= 0 then 2 else loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then i else 0)),(x div 2),(x + 1))))
1: (2 * (if x <= 0 then 2 else loop(\(x,i).(4 * (x + (x div 2))),(x + ~1),1)))
1: (2 * (if x <= 0 then 2 else loop(\(x,i).(2x2 + 4x),(x + ~1),1)))
1: (2 * (if x <= 0 then 2 else loop(\(x,i).(if x <= 0 then 2 else (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2)),2,x)))
1: ((x + 1) * (if x <= 0 then 2 else x))
1: (2 * (if x <= 0 then 2 else compr(\x.(1 - loop(\(x,i).(0 - (if (x mod (1 + i)) <= 0 then 0 else x)),(x div 2),x)),x)))
1: (3 * (if x <= 0 then 4 else 1))
1: (3 * (if x <= 0 then 4 else (2 + ((1 + loop(\(x,i).11x,x,3)) div (x + 1)))))
1: (2 * (if x <= 0 then 8 else 2))
1: (2 * loop(\(x,i).((2x + 2) + loop(\(x,i).(x - (2 * (~x + i))),x,2)),x,1))
1: ((x + 1) * loop(\(x,i).((3x + 2) + i),6,3))
1: (2 * loop(\(x,i).((x + 2) + ((4 + i) * i)),x,1))
1: (2 * loop(\(x,i).((x2 + 2x + 1) + (2 * (x mod 2))),(x + ~1),(x + (x mod 2))))
1: (2 * loop(\(x,i).((x + 1) + (2 * (x + i))),x,1))
1: (3 * loop(\(x,i).(2 + ((2 * (x + i)) + i)),(x + 1),0))
1: (2 * loop(\(x,i).(2 + ((2 * (x + i)) + i)),x,2))
1: (3 * loop(\(x,i).((9x + 1) + ((x + 1) mod 3)),x,1))
1: (2 * loop(\(x,i).((10x + 1) + (x mod 2)),(~x + 2),1))
1: (x * loop(\(x,i).(3x2 + x + 1),2,2))
1: (x * loop(\(x,i).(3x2 + x + 1),2,2x))
1: (2 * loop(\(x,i).((x + 1) + (2 * (i * i))),x,1))
1: ((x + 1) * loop(\(x,i).((x + 1) + (4 * (i * i))),(x + 1),1))
1: (2 * loop(\(x,i).((x + 1) + (2 * (x div 4))),(((x + 1) div 2) div 2),1))
1: (2 * loop(\(x,i).(x + ((i * i) + (if x <= 0 then 1 else 2))),x,0))
1: (2 * loop(\(x,i).(3 + ((x * (1 + (x div 2))) div 2)),x,1))
1: (2 * loop(\(x,i).((x + 2) + ((x div 2) div 3)),(x + ~1),1))
1: ((x + 1) * loop(\(x,i).((x + 2) + ((x div 2) div 3)),x,1))
1: (2 * loop(\(x,i).(2x + ((if (x mod 2) <= 0 then (x div 2) else 1) div 3)),x,1))
1: (x * loop(\(x,i).((x + 1) + (x div 2)),(x + ~2),0))
1: (2 * loop(\(x,i).((x + 1) + (x div 2)),x,1))
1: (2 * loop(\(x,i).((x + 3) + (x div 4)),x,1))
1: (2 * loop(\(x,i).((x + 2) + (x div (6 + (x mod 2)))),x,0))
1: (2 * loop(\(x,i).((x + 1) + (x div (1 + ((x * i) mod 7)))),x,1))
1: (3 * loop(\(x,i).((x + 1) + (x div (1 + (i mod 3)))),x,1))
1: ((x + ~1) * loop(\(x,i).(3x + (i div 2)),x,0))
1: (2 * loop(\(x,i).((x + 2) + (((2x + ~1) div (2 + (x div 4))) mod 2)),x,1))
1: (2 * loop(\(x,i).((x + 2) + ((x div (3 + ((x div 2) div 3))) mod 2)),x,1))
1: (2 * loop(\(x,i).((x + 1) + ((x div (2 + (((x - (x div 4)) div 2) mod 2))) mod 2)),x,1))
1: (2 * loop(\(x,i).((x + 1) + ((x mod (1 + (3 * (x mod 7)))) mod 2)),x,1))
1: (2 * loop(\(x,i).(9x + (if (i mod 3) <= 0 then 2 else 0)),x,2))
1: (2 * loop(\(x,i).((x + 1) + (if (i mod (1 + (x mod 4))) <= 0 then 0 else 1)),x,0))
1: (2 * loop(\(x,i).(3x + loop(\(x,i).(7x + 6),i,1)),(x + 1),1))
1: (x * loop(\(x,i).(3x + loop(\(x,i).5x,(~2 + i),1)),x,0))
1: (x * loop(\(x,i).(7x + loop(\(x,i).10x,i,1)),1,i))
1: (x * loop(\(x,i).(2x + loop(\(x,i).4x,(~1 + i),1)),i,1))
1: (4 * loop(\(x,i).(x + 3),(~1 + ((x + ~1) div 2)),x))
1: (2 * loop(\(x,i).(x + 3),(~1 + (x div 3)),x))
1: (3 * loop(\(x,i).(x + 4),(x mod 3),2x))
1: (3 * loop(\(x,i).((x + 1) + i),compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),1))
1: (3 * loop(\(x,i).((x + 2) + i),x,2))
1: (5 * loop(\(x,i).((x + 2) + i),x,2))
1: ((x + 3) * loop(\(x,i).((x + 2) + i),x,2))
1: ((2x + 1) * loop(\(x,i).((x + 2) + i),x,2))
1: ((x + 3) * loop(\(x,i).((2x + 2) + i),x,0))
1: ((x2 + 2x + 1) * loop(\(x,i).((x2 + x) + i),2,2))
1: (x * loop(\(x,i).(2x + i),(x + 1),2))
1: ((x + 4) * loop(\(x,i).(2x + i),(x + 1),(x + 1)))
1: (2 * loop(\(x,i).(2x + i),(x + 2),2))
1: (x * loop(\(x,i).(2x + i),(x + ~2),0))
1: (3 * loop(\(x,i).(2x + i),x,1))
1: ((x + 1) * loop(\(x,i).(2x + i),x,2))
1: ((x + 1) * loop(\(x,i).(2x + i),x,(2x + 2)))
1: ((x + 1) * loop(\(x,i).((x + 2) + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i)),x,2))
1: ((x + 2) * loop(\(x,i).((x + 2) + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i)),x,2))
1: (2 * loop(\(x,i).(~x + 6),(x div 2),(x mod 2)))
1: (3 * loop(\(x,i).((2x2 + 1) - (x mod 2)),x,1))
1: (2 * loop(\(x,i).((2x + 1) - (x mod 2)),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1))
1: (2 * loop(\(x,i).((2x + ~1) + ((2 * ((2x + 2) + (((2x + 1) + (2 * ((x + 1) + (5 * (x + (x div 4)))))) div 3))) div 3)),x,1))
1: ((x + ~1) * loop(\(x,i).(1 + (x2 div 2) - (x mod 2)),1,(x + ~1)))
1: (2 * loop(\(x,i).(x + (i div 3) - (x div ~5)),x,1))
1: ((x + 1) * loop(\(x,i).(2 + i - ((x div 2) mod 2)),x,0))
1: (loop(\(x,i).(3x + 1),2x,1) * (~1 + loop(\(x,i).4x,x,2)))
1: (loop(\(x,i).(3x + 1),x,0) * loop(\(x,i).(2x + 1),(x + ~1),0))
1: ((x + 2) * loop(\(x,i).(3x + 1),x,1))
1: (loop(\(x,i).(3x + 1),x,1) * (~1 + loop(\(x,i).4x,x,2)))
1: (loop(\(x,i).(3x + 1),x,1) * (~1 + loop(\(x,i).2x,x,2)))
1: (loop(\(x,i).(3x + 1),x,4) * loop(\(x,i).(2x + 1),x,0))
1: (x * loop(\(x,i).(3x + 1),i,1))
1: (2 * loop(\(x,i).(3x + 2),4,x))
1: ((x + 1) * loop(\(x,i).(3x + 2),4,x))
1: (loop(\(x,i).(3x + 2),x,0) * (1 + loop(\(x,i).2x,x,1)))
1: (loop(\(x,i).(3x + 2),x,0) * loop(\(x,i).(2x + 1),x,0))
1: (loop(\(x,i).(5x + 1),x,0) * (~1 + loop(\(x,i).2x,x,2)))
1: (loop(\(x,i).(5x + 1),x,1) * (~1 + loop(\(x,i).2x,x,2)))
1: (x * loop(\(x,i).(5x + 1),i,1))
1: (5 * loop(\(x,i).(5x + 2),(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),2))
1: (2 * loop(\(x,i).(5x + 2),(x div 2),(1 + (x mod 2))))
1: (3 * loop(\(x,i).(5x + 2),x,2))
1: (x * loop(\(x,i).(x + (5 * i)),i,i))
1: (2 * loop(\(x,i).(x + (2 * ((x + 4) + i))),x,0))
1: ((x + 1) * loop(\(x,i).(2 + (x * ((x + 4) + i))),2,5))
1: ((x + 1) * loop(\(x,i).(x + ((3 + i) * i)),x,0))
1: (loop(\(x,i).(7x + 1),x,0) * (~1 + loop(\(x,i).2x,x,2)))
1: (x * loop(\(x,i).(7x + 1),i,1))
1: (2 * loop(\(x,i).(2x2 + 2x + 5),(x div 2),(x mod 2)))
1: (2 * loop(\(x,i).(10x + 17),x,2))
1: (x * loop(\(x,i).(4x2 + x + 1),2,2x))
1: (2 * loop(\(x,i).(x + ((1 + (4 * i)) * i)),x,x))
1: (2 * loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,x))
1: (2 * loop(\(x,i).(1 + (3 * (1 + (x div 2)))),(x div 2),(x mod 2)))
1: (loop(\(x,i).(1 + (x * (1 + (if (i mod 2) <= 0 then 4 else 1)))),x,1) * (1 + (x mod 2)))
1: (2 * loop(\(x,i).(1 + (3 * (loop(\(x,i).(3x + ~3),x,2) + loop(\(x,i).2x,x,2)))),1,(x + 1)))
1: ((x + 1) * loop(\(x,i).(x + ((x + loop(\(x,i).(x * i),i,1)) * (1 + i))),x,1))
1: (2 * loop(\(x,i).(2x + 3),x,(x2 + ~2x)))
1: (3 * loop(\(x,i).(x2 + x + 2),2,2))
1: ((x2 + 2x + 1) * loop(\(x,i).(x2 + x + 2),2,2))
1: (3 * loop(\(x,i).(2x + 5),x,2))
1: (9 * loop(\(x,i).(2x + 5),x,6))
1: (2 * loop(\(x,i).(3x + 4),x,2))
1: (2 * loop(\(x,i).(3x + 4),x,(x + 2)))
1: (9 * loop(\(x,i).(3x + 7),x,1))
1: ((x + 1) * loop(\(x,i).(x2 + 3x + 4),2,2))
1: ((3x + 2) * loop(\(x,i).(x2 + 2x + 1),2,2))
1: ((x + 2) * loop(\(x,i).(x2 + 2x + 1),2,2))
1: ((x + 1) * loop(\(x,i).(x2 + 2x + 1),2,5))
1: ((x + 1) * loop(\(x,i).(x2 + 2x + 1),2,7))
1: ((x + 1) * loop(\(x,i).(x2 + 2x + 1),2,6))
1: (2 * loop(\(x,i).(x2 + 2x + 1),2,2x))
1: (2 * loop(\(x,i).(x2 + 2x + 1),x,8))
1: (x * loop(\(x,i).(1 + (x * (1 + i))),(x + ~2),1))
1: ((x + 1) * loop(\(x,i).(1 + (x * (1 + i))),x,1))
1: (x * loop(\(x,i).(1 + (x * (1 + i))),x,1))
1: ((x + ~1) * loop(\(x,i).(1 + (x * (1 + i))),x,2))
1: (x * loop(\(x,i).(1 + (x * (1 + i))),i,1))
1: (x * loop(\(x,i).(2 + (x * (1 + i))),(x + ~2),1))
1: ((x + 1) * loop(\(x,i).(x + ((1 + i) * i)),(2x + 2),0))
1: (2 * loop(\(x,i).(x + ((2 + i) * (1 + i))),2x,2))
1: (x * loop(\(x,i).(1 + (x * (2 + i))),(x + ~2),0))
1: ((x + 3) * loop(\(x,i).((x + 2) + ((2 + i) * i)),x,2))
1: (5 * loop(\(x,i).(x + ((2 + i) * i)),x,1))
1: (2 * loop(\(x,i).(1 + (x * (x + i))),2,x))
1: (x * loop(\(x,i).(3x2 + ~2x + 1),2,2x))
1: (3 * loop(\(x,i).(1 + (2 * (~1 + ((3x + 3) * (3 + loop(\(x,i).(2x2 + x),3,x)))))),(x + 1),1))
1: (x * loop(\(x,i).(2x2 + ~x + 1),2,2x))
1: ((x + 1) * loop(\(x,i).(x3 + ~x + 1),2,2))
1: (x * loop(\(x,i).(x + ((~1 + (2 * i)) * (1 + i))),x,~1))
1: (2 * loop(\(x,i).(1 + (2 * (x - (i mod 2)))),x,2))
1: ((x + ~1) * loop(\(x,i).(2 + (x * (~1 + i))),x,1))
1: (x * loop(\(x,i).(x + ((~1 + i) * i)),(x + ~2),1))
1: (x * loop(\(x,i).(9x + 1),i,1))
1: (3 * loop(\(x,i).(9x + 2),(x + 1),2))
1: (x * loop(\(x,i).(10x + 1),3,1))
1: (x * loop(\(x,i).(10x + 1),4,1))
1: ((x + 1) * loop(\(x,i).(10x + 1),5,1))
1: (x * loop(\(x,i).(10x + 1),5,1))
1: ((x + 1) * loop(\(x,i).(10x + 1),8,1))
1: ((x + 1) * loop(\(x,i).(10x + 1),(x2 + 2x),1))
1: (loop(\(x,i).(10x + 1),2x,1) * (1 + (2 * (x mod 5))))
1: (loop(\(x,i).(10x + 1),2x,1) * loop(\(x,i).(10x + 1),x,1))
1: (loop(\(x,i).(10x + 1),(x div 2),1) * (1 + (2 * (x mod 2))))
1: (3 * loop(\(x,i).(10x + 1),(x div 2),(x mod 2)))
1: ((x + 9) * loop(\(x,i).(10x + 1),x,0))
1: ((x + 1) * loop(\(x,i).(10x + 1),x,1))
1: ((x + 2) * loop(\(x,i).(10x + 1),x,1))
1: ((4x + 7) * loop(\(x,i).(10x + 1),x,1))
1: (loop(\(x,i).(10x + 1),x,1) * ((if x <= 0 then 1 else x) mod 2))
1: (loop(\(x,i).(10x + 1),x,1) * (x mod 2))
1: (x * loop(\(x,i).(10x + 1),x,1))
1: (5 * loop(\(x,i).(10x + 1),x,loop(\(x,i).(10x + 19),x,1)))
1: (2 * loop(\(x,i).(10x + 1),x,loop(\(x,i).(10x + ~8),x,2)))
1: (3 * loop(\(x,i).(10x + 1),x,loop(\(x,i).(10x + ~8),x,2)))
1: (3 * loop(\(x,i).(10x + 1),x,loop(\(x,i).(10x + 10),x,0)))
1: (7 * loop(\(x,i).(10x + 1),x,loop(\(x,i).(10x + 10),x,0)))
1: (x * loop(\(x,i).(10x + 1),i,1))
1: (7 * loop(\(x,i).((10x + 1) + i),x,1))
1: (3 * loop(\(x,i).(10x + (i mod 2)),x,1))
1: (2 * loop(\(x,i).(x + (5 * (i * i))),x,x))
1: (2 * loop(\(x,i).(x + ((3 + i) * i * (~1 + i))),(x + ~1),0))
1: (2 * loop(\(x,i).(x + (7 * (i * i))),x,x))
1: ((x + 1) * loop(\(x,i).(10x + 81),(x + 1),0))
1: (2 * loop(\(x,i).(10x + 81),x,1))
1: (7 * loop(\(x,i).(10x + 81),x,1))
1: (5 * loop(\(x,i).(x + ((1 + (i * i)) * i * i)),(x + 1),0))
1: ((x + 1) * loop(\(x,i).(5x + 8),x,1))
1: (3 * loop(\(x,i).(10x + 21),(x + 1),0))
1: (3 * loop(\(x,i).(10x + 21),x,0))
1: (9 * loop(\(x,i).(10x + 21),x,1))
1: (15 * loop(\(x,i).(10x + 21),x,1))
1: (2 * loop(\(x,i).(10x + 22),x,2))
1: ((x + ~1) * loop(\(x,i).(2x2 + 4x + 1),2,4))
1: (x * loop(\(x,i).(1 + ((x2 + 2x) * i)),2,2))
1: (2 * loop(\(x,i).(x + (2 * ((2 + i) * (~1 + i)))),x,0))
1: (2 * loop(\(x,i).(27x + i),x,0))
1: ((x + 1) * loop(\(x,i).(4x2 + 12x + 9),2,1))
1: (2 * loop(\(x,i).(1 + (18 * (~2 + loop(\(x,i).x3,1,(10x + 5)) - loop(\(x,i).2x,(x + ~1),1)))),x,1))
1: (loop(\(x,i).(8x + 1),x,1) * (1 + loop(\(x,i).2x,x,2)))
1: (3 * loop(\(x,i).(20x + (x * (1 + i))),x,1))
1: (x * loop(\(x,i).(9x2 + 2),2,x))
1: (loop(\(x,i).(4x + 1),(x div 2),1) * loop(\(x,i).loop(\(x,i).2x,i,x),x,1))
1: (3 * loop(\(x,i).(4x + 1),x,2))
1: (x * loop(\(x,i).(4x + 1),i,1))
1: (5 * loop(\(x,i).(6x + 1),x,2))
1: (5 * loop(\(x,i).(6x + 2),(x div 2),(1 + (x mod 2))))
1: (5 * loop(\(x,i).(6x + 2),(x div 2),(x mod 2)))
1: (2 * loop(\(x,i).(2x2 + i),2x,2))
1: (x * loop(\(x,i).(3x2 + x),2,2x))
1: ((x + 1) * loop(\(x,i).(4x2 + 1),2,2))
1: (2 * loop(\(x,i).(x3 + 2),(2x + 2),(x + 1)))
1: ((2x + 1) * loop(\(x,i).(1 + (2x * i)),x,1))
1: ((x + 1) * loop(\(x,i).(x + (2 * (i * i))),(x + 1),0))
1: (2 * loop(\(x,i).(x + (2 * (i * i))),x,x))
1: ((x + 1) * loop(\(x,i).(x + ((x + 1) * (i * i))),3,x))
1: (x * loop(\(x,i).(x + (i * i * (1 + i))),(x + 1),0))
1: ((x + 1) * loop(\(x,i).(x + (i * i * (1 + i))),(x + 2),0))
1: (x * loop(\(x,i).(1 + (x * (i * i))),x,2))
1: (x * loop(\(x,i).(1 + ((x * (i * i)) + i)),x,1))
1: (2 * loop(\(x,i).(1 + (x * ((x * (1 + (2 * (i mod 2)))) div 2))),x,1))
1: ((x + 2) * loop(\(x,i).(x + (3 * (2x div (if i <= 0 then 1 else i)))),x,3))
1: ((x + 5) * loop(\(x,i).(x + (3 * (2x div (if i <= 0 then 1 else i)))),x,6))
1: (2 * loop(\(x,i).(2 + ((x div 2) * i)),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1))
1: (x * loop(\(x,i).(x + ((i div 2) * (i div 2))),x,0))
1: (2 * loop(\(x,i).(1 + (2 * (x mod (1 + i)))),x,1))
1: (3 * loop(\(x,i).(x + (3 * (if (~x + 2) <= 0 then x else 4))),x,1))
1: (x * loop(\(x,i).(1 + (x * (if (x + ~1) <= 0 then 1 else (x + ~1)))),i,1))
1: ((x + 1) * loop(\(x,i).(x + ((if (i mod 2) <= 0 then 2 else i) * i)),x,0))
1: (2 * loop(\(x,i).(x + ((x + 1) * loop(\(x,i).(x * (x - i)),2,2x))),x,2))
1: (2 * loop(\(x,i).(2x + 1),1,loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,x)))
1: (2 * loop(\(x,i).(2x + 1),(x + 4),6))
1: (3 * loop(\(x,i).(2x + 1),(x + 2),2))
1: (x * loop(\(x,i).(2x + 1),(x + ~1),2))
1: (loop(\(x,i).(2x + 1),((x div 2) div 3),2) * (x mod 2))
1: ((x2 + x + 2) * loop(\(x,i).(2x + 1),x,0))
1: (loop(\(x,i).(2x + 1),x,0) * (1 + (x mod 2)))
1: (3 * loop(\(x,i).(2x + 1),x,2))
1: (5 * loop(\(x,i).(2x + 1),x,4))
1: ((x + 2) * loop(\(x,i).(2x + 1),x,(x + 4)))
1: (2 * loop(\(x,i).(2x + 1),x,(1 + (2 * (x + (loop(\(x,i).4x,x,2) div (x + 1)))))))
1: (2 * loop(\(x,i).(2x + 1),x,(1 + (2 div (if x <= 0 then 1 else x)))))
1: (3 * loop(\(x,i).(2x + 1),x,8))
1: ((x + 1) * loop(\(x,i).(2x + 1),x,loop(\(x,i).2x,x,1)))
1: (3 * loop(\(x,i).(x2 + 1),1,loop(\(x,i).(2x + 2),x,0)))
1: ((x + 1) * loop(\(x,i).(x2 + 1),2,3))
1: ((x + 1) * loop(\(x,i).(x2 + 1),2,6))
1: ((x2 + 2x + 1) * loop(\(x,i).(x2 + 2),2,2))
1: ((x + 1) * loop(\(x,i).(x2 + 2),2,2))
1: ((x + 1) * loop(\(x,i).((x2 + 2) + i),2,2))
1: (3 * loop(\(x,i).(x2 + (x mod 2)),x,1))
1: (2 * loop(\(x,i).(1 + (x * i)),4,2))
1: (x * loop(\(x,i).(1 + (x * i)),4,2))
1: (x * loop(\(x,i).(1 + (x * i)),(2x + ~1),1))
1: (x * loop(\(x,i).(1 + (x * i)),x,0))
1: ((2x + ~1) * loop(\(x,i).(1 + (x * i)),x,1))
1: ((x + ~1) * loop(\(x,i).(1 + (x * i)),x,1))
1: (x2 * loop(\(x,i).(1 + (x * i)),x,1))
1: (x * loop(\(x,i).(1 + (x * i)),i,1))
1: (2 * loop(\(x,i).((x + 1) + (i * i)),x,1))
1: ((2x + 1) * loop(\(x,i).(x + (i * i)),(x + 1),0))
1: ((x + 1) * loop(\(x,i).(x + (i * i)),(x + 1),0))
1: ((x + 2) * loop(\(x,i).(x + (i * i)),(x + 1),0))
1: ((x + 2) * loop(\(x,i).(x + (i * i)),(x + 1),1))
1: ((3x + 1) * loop(\(x,i).(x + (i * i)),x,0))
1: ((2x + 1) * loop(\(x,i).(x + (i * i)),x,0))
1: ((x + 2) * loop(\(x,i).(x + (i * i)),x,0))
1: ((2x + 1) * loop(\(x,i).(x + (i * i)),x,x2))
1: (x * loop(\(x,i).(x + (i * i)),i,0))
1: (loop(\(x,i).(x + (i * i)),i,0) * i)
1: (3 * loop(\(x,i).(1 + ((~x + 2) div (2 + (x div 2)))),2,x))
1: ((x + 5) * loop(\(x,i).(x + (5x div (if i <= 0 then 1 else i))),x,(x + 2)))
1: ((x + 1) * loop(\(x,i).(x + (5x div (if i <= 0 then 1 else i))),x,(x + 2)))
1: ((x + 7) * loop(\(x,i).(x + (((4 + i) * (1 + i)) div 2)),x,2))
1: ((x + 1) * loop(\(x,i).(x + (7x div (if i <= 0 then 1 else i))),x,(x + 2)))
1: ((x + 1) * loop(\(x,i).(x + (37x div (1 + i))),x,2))
1: ((x + 1) * loop(\(x,i).(x + (73x div (1 + i))),x,2))
1: ((x + 1) * loop(\(x,i).(x + ((x3 + 2x) div 3)),1,(x2 + 2x + 1)))
1: (2 * loop(\(x,i).(((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3) + (if x <= 0 then 0 else 1)),1,(x - (if x <= 0 then 0 else 1))))
1: (x * loop(\(x,i).(((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3) + (if x <= 0 then 0 else 1)),(if x <= 0 then 0 else 1),(x + ~1)))
1: ((x + 1) * loop(\(x,i).(x + ((3x + 6) div (1 + i))),x,2))
1: (x * loop(\(x,i).(x + (((2 + i) * (1 + i)) div 2)),i,0))
1: (2 * loop(\(x,i).(2 + ((x2 + ~x) div 2)),x2,1))
1: (3 * loop(\(x,i).(2 + ((x2 + ~x) div (x + 2))),2,x))
1: ((x + 1) * loop(\(x,i).(x + (58x div (1 + i))),x,2))
1: (2 * loop(\(x,i).(2x + (10x div (1 + i))),2x,3))
1: (2 * loop(\(x,i).(2x + (14x div (1 + i))),2x,2))
1: ((x + 1) * loop(\(x,i).(x + (57x div (1 + i))),x,2))
1: ((x + 1) * loop(\(x,i).(x + (85x div (1 + i))),x,2))
1: (2 * loop(\(x,i).(x + ((4x + 8) div (1 + i))),x,3))
1: ((x + 1) * loop(\(x,i).(x + (93x div (1 + i))),x,2))
1: ((x + 1) * loop(\(x,i).(x + (96x div (1 + i))),x,1))
1: ((x + 3) * loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,(x + 4)))
1: ((x + 3) * loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,(x + 2)))
1: ((x + 1) * loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,(x + 2)))
1: ((x + 1) * loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,x))
1: ((x + ~1) * loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,x))
1: (3 * loop(\(x,i).(x + (6x div (if i <= 0 then 1 else i))),x,x))
1: ((x + 1) * loop(\(x,i).(x + ((i * i * (1 + i)) div 2)),(x + 1),0))
1: ((x + 1) * loop(\(x,i).(x + ((x * loop(\(x,i).x2,2,3)) div (1 + i))),x,2))
1: ((2x + 1) * loop(\(x,i).(1 + (x2 div 3)),2,x))
1: (2 * loop(\(x,i).(x + (loop(\(x,i).2x,(~1 + i),x) div 2)),x,2))
1: (2 * loop(\(x,i).(2 + (x div 2)),(x + ~8),1))
1: ((x + 4) * loop(\(x,i).(x + (x div 2)),(x + ~1),2))
1: (3 * loop(\(x,i).((x div 2) + i),4,x))
1: (2 * loop(\(x,i).(x + (x div 5)),x,5))
1: ((x + 1) * loop(\(x,i).(x + (x div 5)),x,5))
1: (2 * loop(\(x,i).(x + (x div (1 + (i mod 2)))),x,8))
1: (x * loop(\(x,i).(x + (x div (2 + (i mod 2)))),x,2))
1: ((x + 1) * loop(\(x,i).((x + 2) + (x div (if i <= 0 then 1 else i))),x,2))
1: (2 * loop(\(x,i).(2x + (((x div 2) + i) mod 2)),x,1))
1: (2 * loop(\(x,i).(x + ((x + ~2) mod 5)),x,1))
1: (2 * loop(\(x,i).(x + (x mod 5)),x,1))
1: (2 * loop(\(x,i).(1 + (x mod (1 + ((if (x mod 3) <= 0 then 0 else 2) * (1 + i))))),2,x))
1: ((x + 2) * loop(\(x,i).(2x + (i mod 2)),x,0))
1: (2 * loop(\(x,i).(2x + (i mod 2)),x,2x))
1: (2 * loop(\(x,i).(x + (if (~x + 2) <= 0 then x else 2)),x,~x))
1: (2 * loop(\(x,i).(x + (if (~x + 2) <= 0 then x else 2)),x,(~x + 1)))
1: (5 * loop(\(x,i).(x + (if (~x + 2) <= 0 then x else 2)),x,(~x + 1)))
1: (2x * loop(\(x,i).(2x + (if (2 - i) <= 0 then x else 1)),(x + ~1),x))
1: ((x + 1) * loop(\(x,i).(2x + (if (2 - i) <= 0 then x else 1)),x,(x + 1)))
1: ((2x + 1) * loop(\(x,i).(x + (if (~4 + (x div 2)) <= 0 then 1 else 2)),4,x))
1: (x * loop(\(x,i).(x + (if (x + ~2) <= 0 then 1 else x)),i,1))
1: (2 * loop(\(x,i).(x + (if (x + ~2) <= 0 then 3 else x)),x,(~2x + 1)))
1: (3 * loop(\(x,i).(x + (if (x - i) <= 0 then x else 0)),x,1))
1: (loop(\(x,i).(x + (if (x - i) <= 0 then x else 0)),x,1) * (x mod 2))
1: (loop(\(x,i).(2x + (if (~2 + i) <= 0 then 1 else x)),(x div 2),1) * (1 + (x mod 2)))
1: (x * loop(\(x,i).(2x + (if (~2 + i) <= 0 then 1 else x)),x,(x + ~1)))
1: (2 * loop(\(x,i).((if (~2 + i) <= 0 then 1 else x) + (x * i)),(x + 1),x))
1: ((x + 2) * loop(\(x,i).(2 + (if (~x + i) <= 0 then 0 else x)),x,1))
1: (2 * loop(\(x,i).(2x + (if ((~1 + i) mod 4) <= 0 then 2 else 0)),x,2))
1: (2 * loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then 1 else 0)),x,(x + 2)))
1: (x * loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then i else 0)),(x div 2),(x + 1)))
1: (2 * loop(\(x,i).(x + (if x <= 0 then (1 + i) else 0)),x,(~x + 1)))
1: (3 * loop(\(x,i).(x + (if x <= 0 then (1 + i) else 0)),x,(~x + 1)))
1: ((x + 1) * loop(\(x,i).(x + (if x <= 0 then (1 + i) else 0)),x,(~x + 1)))
1: (2 * loop(\(x,i).(4x + loop(\(x,i).(3x + 1),i,1)),(x + 2),1))
1: (x * loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),i,1))
1: (2 * loop(\(x,i).(loop(\(x,i).(1 + (x * i)),(1 + i),1) + (x * i)),x,2))
1: ((x + 1) * loop(\(x,i).(x + loop(\(x,i).(x + (i * i)),(~1 + i),i)),(x + ~1),1))
1: (x * loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),i,1)),i,1))
1: (2 * loop(\(x,i).(x + loop(\(x,i).(x + loop(\(x,i).3x,(1 + i),i)),i,1)),x,1))
1: (2 * loop(\(x,i).(2x + loop(\(x,i).(4x + loop(\(x,i).3x,i,1)),i,1)),x,2))
1: (2 * loop(\(x,i).(2x + loop(\(x,i).(4x + loop(\(x,i).3x,i,1)),i,1)),x,3))
1: (2 * loop(\(x,i).(4x + loop(\(x,i).(4x + loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),i,1)),i,1)),x,1))
1: (2 * loop(\(x,i).(x + loop(\(x,i).(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1,i)),x,x))
1: (2 * loop(\(x,i).(1 + loop(\(x,i).(x - (if x <= 0 then 1 else loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,x))),x,x)),x,1))
1: (x * loop(\(x,i).(x + loop(\(x,i).3x,(x + ~2),x)),1,(x + ~1)))
1: (5 * loop(\(x,i).(x + loop(\(x,i).3x,(~1 + i),x)),x,1))
1: (2 * loop(\(x,i).(8x + loop(\(x,i).3x,i,1)),x,2))
1: (x * loop(\(x,i).(4x + loop(\(x,i).3x,i,1)),i,1))
1: (x * loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1))
1: (x * loop(\(x,i).(4x + loop(\(x,i).5x,i,1)),i,1))
1: ((x + 1) * loop(\(x,i).(loop(\(x,i).(x * (2 + i)),(~1 + i),1) + (x * (2 + i))),x,1))
1: ((x + 1) * loop(\(x,i).(x + loop(\(x,i).(2 * (x + i)),(1 + i),1)),x,1))
1: (x * loop(\(x,i).(loop(\(x,i).~2x,i,1) + (x * i)),(x + ~1),1))
1: (x * loop(\(x,i).(x + loop(\(x,i).(x * (x - i)),2,(2 + i))),(x + 1),0))
1: ((x + 1) * loop(\(x,i).(1 + loop(\(x,i).10x,2,x)),x,1))
1: (x * loop(\(x,i).(4x + loop(\(x,i).6x,(~2 + i),1)),x,0))
1: (x * loop(\(x,i).(x + loop(\(x,i).x3,i,2)),(x + ~2),1))
1: (x * loop(\(x,i).(loop(\(x,i).(x * (i * i)),i,1) + (x * i)),(x + ~1),0))
1: (2 * loop(\(x,i).(x + loop(\(x,i).x2,1,(1 + ((1 + i) div 2)))),x,1))
1: (2 * loop(\(x,i).(x + loop(\(x,i).x2,1,loop(\(x,i).x3,1,(1 + (2 * i))))),x,1))
1: (2 * loop(\(x,i).(x + loop(\(x,i).x2,2,(1 + (2 * i)))),x,1))
1: ((x + 1) * loop(\(x,i).(loop(\(x,i).(x * i),(~1 + i),1) + (2x * i)),x,0))
1: (x * loop(\(x,i).(loop(\(x,i).(x * i),(~1 + i),2) + (x * i)),(x + ~2),0))
1: (x * loop(\(x,i).(loop(\(x,i).(x * i),i,1) + (x * (1 + i))),(x + ~1),0))
1: (x * loop(\(x,i).(loop(\(x,i).(x * i),i,1) + (x * (1 + i))),x,1))
1: (x * loop(\(x,i).(loop(\(x,i).(x * i),i,1) + (x * (1 + i))),i,1))
1: (x * loop(\(x,i).(x + loop(\(x,i).(x * i),i,1)),(x + ~1),0))
1: (x * loop(\(x,i).(x + loop(\(x,i).(x * i),i,1)),(x + ~1),1))
1: (2 * loop(\(x,i).(x + loop(\(x,i).(((3 * (x + (x div 4))) - (x mod 2)) div 2),1,i)),x,0))
1: (2 * loop(\(x,i).(x + loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),i,i)),(x + ~1),0))
1: (2 * loop(\(x,i).(x + loop(\(x,i).(loop(\(x,i).3x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1) div 3),1,i)),x,0))
1: (2 * loop(\(x,i).((x + 1) + loop(\(x,i).(5x mod 17),1,(2x + 2))),x,1))
1: (2 * loop(\(x,i).(x + 1),(~4 + (x div 2)),x))
1: ((x + 1) * loop(\(x,i).(x + 1),(if x <= 0 then 3 else x),3))
1: (2 * loop(\(x,i).(2 + i),loop(\(x,i).(x div (1 + (x mod 2))),x,x),1))
1: (2 * loop(\(x,i).(x + i),(x + 2),loop(\(x,i).2x,x,4)))
1: (2 * loop(\(x,i).(x + i),(((x + ~1) div 2) div 3),x))
1: (x * loop(\(x,i).((x + 1) + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)),x,1))
1: (2 * loop(\(x,i).(x + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)),(x + 2),x))
1: (x * loop(\(x,i).(x + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)),(x + ~1),x))
1: (x * loop(\(x,i).(x + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)),x,x))
1: (loop(\(x,i).~5x,x,1) * loop(\(x,i).(~2x + 2),x,1))
1: (loop(\(x,i).~8x,(x div 3),1) * (x mod 3))
1: (2 * (loop(\(x,i).~6x,(x + ~1),1) * (2 + (x mod 2))))
1: ((x + 1) * loop(\(x,i).(0 - (((4x * (~1 + (2 * i))) div (1 + i)) * (~1 + (2 * i)))),x,1))
1: (2 * loop(\(x,i).~x,(x + ~1),loop(\(x,i).(~2x + 4),x,1)))
1: (loop(\(x,i).~x,x,(~1 + (x mod 3))) * (x div 3))
1: ((x + 1) * loop(\(x,i).(11x + 7),2,x))
1: (loop(\(x,i).(11x + 1),x,0) * (~1 + loop(\(x,i).2x,x,2)))
1: (x * loop(\(x,i).(11x + 1),i,1))
1: (x * loop(\(x,i).(~9x + 1),i,1))
1: (x * loop(\(x,i).(~10x + 1),i,1))
1: (x * loop(\(x,i).(~8x + 1),i,1))
1: (x * loop(\(x,i).(~12x + 1),i,1))
1: (x * loop(\(x,i).(1 - (4x * ((x + ~1) div 2))),2,x))
1: (x * loop(\(x,i).(~4x + 1),i,1))
1: (x * loop(\(x,i).(~6x + 1),i,1))
1: (2 * loop(\(x,i).(~2x + 1),(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (1 + (if (x mod 3) <= 0 then 0 else 2))))),x,(x + 1))),1))
1: (x * loop(\(x,i).(~2x + 1),i,1))
1: (5 * loop(\(x,i).(~x + 7),(x div 2),(x mod 2)))
1: (x2 * loop(\(x,i).(~x3 + 2),2,2))
1: (2 * loop(\(x,i).(2 - loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,(x + 2))),1,(x + 2)))
1: (x * loop(\(x,i).(~x + 2),x,(x + 3)))
1: (x * loop(\(x,i).((~x + 3) + i),i,1))
1: (2 * loop(\(x,i).((x + ~1) + (4 * (i * i))),(x + 1),0))
1: (x * loop(\(x,i).(x + (i * i) - (i div 2)),x,0))
1: (2 * loop(\(x,i).((2x + ~1) + (x mod (2 + (x mod 2)))),x,1))
1: (x * loop(\(x,i).(~x + (loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),i,1) + (x * i))),x,1))
1: ((x + 1) * loop(\(x,i).((x + 1) - (if x <= 0 then 2 else (1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x)))),2,x))
1: (x * loop(\(x,i).(~13x + 1),i,1))
1: (x * loop(\(x,i).(~5x + 1),i,1))
1: (2 * loop(\(x,i).(~3x + 1),2x,3))
1: (x * loop(\(x,i).(~3x + 1),i,1))
1: (x * loop(\(x,i).(~3x + 2),i,1))
1: (2 * loop(\(x,i).(~x + loop(\(x,i).(1 + (x * i)),(~1 + i),1)),x,0))
1: (x * loop(\(x,i).(~3x2 + x + ~1),2,2x))
1: (x * loop(\(x,i).(3x + ~1),(x + 1),2))
1: (5 * loop(\(x,i).(3x + ~1),x,2))
1: (loop(\(x,i).(3x + ~1),x,2) * (1 + loop(\(x,i).2x,x,2)))
1: (x * loop(\(x,i).(3x + ~1),i,2))
1: (loop(\(x,i).(3x + ~2),(x + ~1),5) * loop(\(x,i).4x,x,2))
1: (2 * loop(\(x,i).(3x + ~2),(x + ~1),x))
1: (2 * loop(\(x,i).(~1 + (2 * (3x + (i mod 2)))),x,2))
1: (2 * loop(\(x,i).(~x + ((2 + (i * i)) * i)),(x + 1),0))
1: (x * loop(\(x,i).(~1 + (2 * (x + (i mod 2)))),x,0))
1: (loop(\(x,i).(~1 + (2 * (2x + loop(\(x,i).10x,i,1)))),x,1) * loop(\(x,i).6x,x,1))
1: (2 * loop(\(x,i).(3x + 5),x,2))
1: ((x + 1) * loop(\(x,i).(~1 + (x * (1 + i))),x,1))
1: ((x + 1) * loop(\(x,i).(1 + (x * (1 + i)) - (2 * (x mod 2))),x,0))
1: (x * loop(\(x,i).(1 + (x * (2 + i)) - (2 * (x mod 2))),i,1))
1: (x * loop(\(x,i).(~4x2 + 4x + ~3),2,x))
1: (2 * loop(\(x,i).(2x2 + ~5),x,2))
1: (x * loop(\(x,i).(x2 + ~x + ~1),(x + ~2),(x + ~1)))
1: (x * loop(\(x,i).(~6x2 + 2x + ~1),2,x))
1: (3 * loop(\(x,i).(10x + ~1),x,1))
1: (x * loop(\(x,i).(75x + 49),2,1))
1: (x * loop(\(x,i).(6x2 + 12x + ~7),2,x))
1: (2 * loop(\(x,i).(7x + 16),x,6))
1: (3 * loop(\(x,i).(8x - (if x <= 0 then 0 else 1)),2,x))
1: (3 * loop(\(x,i).(4x + ~1),x,4))
1: (loop(\(x,i).(4x - (x div (1 + (if (x mod 3) <= 0 then 2 else 0)))),(x div 2),1) * (1 + (x mod 2)))
1: (3 * loop(\(x,i).(2x2 + ~1),x,2))
1: (x * loop(\(x,i).(4x2 + ~1),2,2x))
1: (x * loop(\(x,i).(x3 + ~2),2,2))
1: (2 * loop(\(x,i).((4x * i) - (x mod 2)),x,1))
1: (x * loop(\(x,i).(~2 + (x2 * i)),2,2x))
1: (3 * loop(\(x,i).(2x + ~1),(x + ~1),loop(\(x,i).2x,x,1)))
1: (x * loop(\(x,i).(2x + ~1),(x + ~1),x))
1: (2 * loop(\(x,i).(2x + ~1),2x,8))
1: (2 * loop(\(x,i).(2x - (x mod 4)),2,2x))
1: ((x + ~1) * loop(\(x,i).(2x - (i mod 2)),x,1))
1: (2 * loop(\(x,i).(x2 + ~2),x,3))
1: (2 * loop(\(x,i).(x2 + ~2),x,(2x + 2)))
1: (x * loop(\(x,i).(x2 + ~2),i,3))
1: ((x + 1) * loop(\(x,i).((x2 + 1) - loop(\(x,i).2x,x,2)),2,x))
1: (x * loop(\(x,i).(~1 + (x * i)),x,1))
1: (3 * loop(\(x,i).(~1 + (x * i)),x,3))
1: (x * loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),x,1))
1: ((x + 1) * loop(\(x,i).((x * i) - loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),i,1)),x,x))
1: (2 * loop(\(x,i).(((2x + 1) div 3) - (((x2 + ~x) div 2) div (x + 3))),2,x))
1: ((x + 1) * loop(\(x,i).(~x3 + (x div 2)),2,2))
1: (2 * loop(\(x,i).(~1 + (x mod 3)),(x + ~2),(if ((x + 2) mod (1 + (2 * (2 + (x mod 2))))) <= 0 then 0 else 1)))
1: (2 * loop(\(x,i).(~x + (if (~x + i) <= 0 then i else 0)),2x,x))
1: (loop(\(x,i).(~x + (if x <= 0 then 5 else 0)),x,1) * ((x + 1) div 2))
1: (loop(\(x,i).(~x + (if x <= 0 then 7 else 0)),x,1) * ((x + 1) div 2))
1: ((x + 1) * loop(\(x,i).(~x + loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),(~1 + i),1)),x,1))
1: ((x + 1) * loop(\(x,i).(loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),i,1) - (x * i)),x,1))
1: ((x + 1) * loop(\(x,i).(~x + loop(\(x,i).(2x2 + ~2x + ~2),i,x)),x,1))
1: ((x + 1) * loop(\(x,i).(loop(\(x,i).10x,i,1) - (x * i)),x,1))
1: (5 * loop(\(x,i).(~2 + loop(\(x,i).x2,x,2)),x,1))
1: (5 * loop(\(x,i).(x + ~2),(x + ~5),x))
1: (3 * loop(\(x,i).(7x + ~1),x,2))
1: (2 * loop(\(x,i).((x + ~2) + ((x div 4) mod 2)),2,x))
1: (5 * loop(\(x,i).((3x + 1) - (i mod 2)),x,1))
1: (x * loop(\(x,i).(~7x + 1),i,1))
1: (x * loop(\(x,i).(~11x + 1),i,1))
1: (2 * loop(\(x,i).((x + 1) - ((~x + 1) div 3)),x,1))
1: (2 * loop(\(x,i).((x + 1) - ((~x + (i mod 2)) div 4)),x,1))
1: (2 * loop(\(x,i).((x + 1) - (if x <= 0 then 1 else (if (x mod (2 + ((x2 div 2) mod (x + 2)))) <= 0 then 2 else 0))),x,x))
1: (x * loop(\(x,i).((x + 1) - (if x <= 0 then 2 else (2 * i))),x,x))
1: (2 * loop(\(x,i).(x + (2 * (i * i)) - i),(x + ~1),x))
1: (x * loop(\(x,i).(x + (2 * (i * i)) - i),i,0))
1: (2 * loop(\(x,i).(3x - i),(x + ~1),x))
1: (3 * loop(\(x,i).(7x + ~3),2x,5))
1: (2 * loop(\(x,i).(5x + ~4),x,8))
1: (2 * loop(\(x,i).(x - (2 * (~x + (i mod 2)))),x,2))
1: (2 * loop(\(x,i).(x - (2 * (~x + i))),x,2))
1: (x * loop(\(x,i).(6x2 + ~5x),2,x))
1: (x * loop(\(x,i).(~2x2 + x),2,(x + ~2)))
1: (2 * loop(\(x,i).(x - (((~x + ~1) + (x div 3)) div 3)),x,1))
1: (2 * loop(\(x,i).(x - ((~x + (x mod 2)) div 3)),x,2))
1: (x * loop(\(x,i).(x - ((i * i) div ~2)),x,0))
1: (2 * loop(\(x,i).(x - ((((2 - (x div 2)) mod (x + 2)) div 2) div 2)),2,x))
1: (2 * loop(\(x,i).(x - ((if (~x + i) <= 0 then i else 0) div 2)),x,x))
1: (2 * loop(\(x,i).(x - (x div (4 + i))),2,x))
1: (2 * loop(\(x,i).(x - (x div (1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))),x,x))
1: (2 * loop(\(x,i).(x - (x div 8)),(x div 2),x))
1: (2 * loop(\(x,i).(x - (if (~x + i) <= 0 then (1 + i) else 0)),x,x))
1: (2 * loop(\(x,i).(x - (if (~x + i) <= 0 then (2 * i) else 0)),x,x))
1: (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (1 + ((x + 1) div 2)))
1: (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (1 + (((x + ~1) div 2) div 3)))
1: (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (2 + (x div 4)))
1: (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (1 + (x div 5)))
1: (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (2 + (x div 5)))
1: (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (1 + ((x + 1) mod 4)))
1: (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (~1 + (((x + 1) div 2) div 2)))
1: (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (~1 + (x mod 5)))
1: (2 * (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (1 + (((x + 1) div 2) div 2))))
1: (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (if (~2 + (x div 2)) <= 0 then 1 else 2))
1: (2 * loop(\(x,i).(x - (if (2x mod (1 + i)) <= 0 then 2 else 1)),x,2x))
1: (2 * loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,(x + 1)))
1: (2 * loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x))
1: (2 * loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,(2x + 1)))
1: (3 * loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x))
1: (5 * loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x))
1: ((x + 1) * loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x))
1: ((x + 2) * loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x))
1: (x * loop(\(x,i).(x - (if x <= 0 then 0 else (~x + i))),x,x))
1: (2 * loop(\(x,i).(x - (if x <= 0 then 1 else (if (x mod (1 + i)) <= 0 then 2 else 1))),x,x))
1: (3 * loop(\(x,i).(i - ((1 + i) mod (x + 1))),x,0))
1: (2 * loop(\(x,i).(i - (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),2,x))
1: (loop(\(x,i).(~x + i),(x + ~1),2) * (x div 2))
1: (2 * loop(\(x,i).(~x + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)),x,0))
1: (x * loop(\(x,i).3x,3,(x2 + x + 2)))
1: (2 * loop(\(x,i).3x,(2x + 1),2))
1: (loop(\(x,i).3x,(x + ((4 * (x div 3)) div 3)),1) * loop(\(x,i).3x,x,1))
1: ((x + 1) * loop(\(x,i).3x,(x + 1),(x2 + 2x + 2)))
1: ((x2 + 2x + 1) * loop(\(x,i).3x,(x + 1),(x + 2)))
1: (2 * loop(\(x,i).3x,(x + 1),(if x <= 0 then 1 else 4)))
1: ((x2 + 2x + 1) * loop(\(x,i).3x,(x + 1),x))
1: ((x2 + 3x + 2) * loop(\(x,i).3x,(x + 1),x))
1: (loop(\(x,i).3x,(2 - (x div 2)),1) * (1 + (x div 3)))
1: ((x + 1) * loop(\(x,i).3x,(~1 + (2 * (2x div 3))),1))
1: (2 * loop(\(x,i).3x,(2x + ~1),x))
1: (2 * loop(\(x,i).3x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),2))
1: (2 * loop(\(x,i).3x,(~1 + ((x * (~1 + (x mod 3))) div 2)),1))
1: (loop(\(x,i).3x,((x div 2) - ((3 * (x div 4)) div 2)),1) * (1 + (6 * (x mod 2))))
1: (loop(\(x,i).3x,((x div 2) - ((3 * (x div 4)) div 2)),1) * (1 + (x mod 2)))
1: ((2x + 1) * loop(\(x,i).3x,(x + ~1),4))
1: (2 * loop(\(x,i).3x,(x + ~1),(x + 2)))
1: (2 * loop(\(x,i).3x,(x + ~1),(x div 2)))
1: (4 * loop(\(x,i).3x,(x + ~1),x))
1: ((5x + 1) * loop(\(x,i).3x,(x + ~1),x))
1: ((x + 2) * loop(\(x,i).3x,(x + ~1),x))
1: (x2 * loop(\(x,i).3x,(x + ~1),x))
1: ((x + ~2) * loop(\(x,i).3x,(x + ~2),x))
1: ((x2 + 3x + 2) * loop(\(x,i).3x,(2x + 2),x))
1: ((x + ~1) * loop(\(x,i).3x,(2x + ~4),x))
1: (2 * loop(\(x,i).3x,(2 * (x div 2)),2))
1: (2 * loop(\(x,i).3x,2x,(2x + 4)))
1: ((x2 + 1) * loop(\(x,i).3x,2x,x))
1: ((x + 1) * loop(\(x,i).3x,2x,x))
1: ((x + ~1) * loop(\(x,i).3x,2x,x))
1: (x2 * loop(\(x,i).3x,2x,x))
1: (x * loop(\(x,i).3x,2x,x))
1: (loop(\(x,i).3x,((x2 + ~x) div 2),1) * loop(\(x,i).(3x + 1),x,1))
1: (2 * loop(\(x,i).3x,(x div 2),(1 + (3 * (1 + (x mod 2))))))
1: (2 * loop(\(x,i).3x,(x div 2),(x mod 2)))
1: (3 * loop(\(x,i).3x,(if x <= 0 then 1 else ((3 * (x div 4)) div 2)),1))
1: ((x + 1) * loop(\(x,i).3x,x,2))
1: (5 * loop(\(x,i).3x,x,4))
1: (4 * loop(\(x,i).3x,x,x))
1: ((x + 1) * loop(\(x,i).3x,x,x))
1: ((x + ~1) * loop(\(x,i).3x,x,x))
1: ((4x + 1) * loop(\(x,i).(4x + 4),(x + 1),2))
1: ((x + 1) * loop(\(x,i).5x,(x + 1),(x2 + 2x + 2)))
1: ((x2 + 2x + 1) * loop(\(x,i).5x,(x + 1),x))
1: ((x2 + 3x + 2) * loop(\(x,i).5x,(x + 1),x))
1: (3 * loop(\(x,i).5x,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),2))
1: ((x + 1) * loop(\(x,i).5x,(x + ~1),x))
1: (2 * loop(\(x,i).5x,(x div 2),2))
1: ((x + 4) * loop(\(x,i).5x,x,(x + 2)))
1: (2 * loop(\(x,i).5x,x,loop(\(x,i).2x,(x + ~3),2)))
1: ((x + 1) * loop(\(x,i).5x,x,x))
1: ((x + ~1) * loop(\(x,i).5x,x,x))
1: (x4 * loop(\(x,i).5x,x,x))
1: (x2 * loop(\(x,i).5x,x,x))
1: (2 * loop(\(x,i).(2x + 10),x,3))
1: (2 * loop(\(x,i).(2x + 12),(x + 2),0))
1: (3 * loop(\(x,i).(2x + 12),x,17))
1: ((x + 1) * loop(\(x,i).(x * (6 + i)),x,(x + 2)))
1: (2 * loop(\(x,i).(x * (10 + i)),x,3))
1: (x * loop(\(x,i).(2 * ((x + 1) + (x div 2))),x,1))
1: (2 * loop(\(x,i).(2x + 6),(x + 1),2))
1: (2 * loop(\(x,i).(2x + 6),(x + 2),5))
1: (3 * loop(\(x,i).(2x + 6),x,2))
1: ((x + 1) * loop(\(x,i).(x2 + 6x + 9),2,5))
1: (2 * loop(\(x,i).(x2 + 3x),1,loop(\(x,i).2x,x,2)))
1: (x * loop(\(x,i).(2x + 8),(x + ~2),1))
1: (2 * loop(\(x,i).(2x + 8),x,3))
1: ((x + 1) * loop(\(x,i).(x2 + 8x + 16),2,5))
1: ((3x + ~1) * loop(\(x,i).(x * (3 + i)),(x + ~1),x))
1: ((x + 2) * loop(\(x,i).(x * (3 + i)),x,(x + 3)))
1: ((x2 + 2x + 1) * loop(\(x,i).(x * (3 + i)),x,(x + 1)))
1: (x * loop(\(x,i).(x * (4 + i)),(x + ~1),x))
1: ((2x + 1) * loop(\(x,i).(x * (4 + i)),2x,(x + 1)))
1: ((x + 1) * loop(\(x,i).(x * (4 + i)),x,4))
1: ((x + 1) * loop(\(x,i).(x * (4 + i)),x,(x + 1)))
1: ((x + 2) * loop(\(x,i).(x * (4 + i)),x,(x + 2)))
1: ((x + 1) * loop(\(x,i).(x * (4 + i)),x,(2x + 4)))
1: (2 * loop(\(x,i).(2 * ((x + 1) + i)),x,2))
1: ((x + 1) * loop(\(x,i).((x + 2) * ((x + 2) + i)),2,4))
1: ((x2 + 2x + 2) * loop(\(x,i).7x,(x + 1),(x + 1)))
1: ((x2 + 2x + 1) * loop(\(x,i).7x,(x + 1),(x + 2)))
1: ((x2 + 2x + 1) * loop(\(x,i).7x,(x + 1),x))
1: ((x + 1) * loop(\(x,i).7x,(x + 1),x))
1: ((x2 + 3x + 2) * loop(\(x,i).7x,(x + 1),x))
1: (2 * loop(\(x,i).7x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),2))
1: ((x + ~1) * loop(\(x,i).7x,(x + ~2),x))
1: (11 * loop(\(x,i).7x,5x,1))
1: (13 * loop(\(x,i).7x,7x,1))
1: (3 * loop(\(x,i).7x,(x div 2),2))
1: (loop(\(x,i).7x,x,1) * (1 + (x div 5)))
1: ((x + 1) * loop(\(x,i).7x,x,2))
1: ((x + 1) * loop(\(x,i).7x,x,x))
1: (x2 * loop(\(x,i).7x,x,x))
1: (x * loop(\(x,i).(7 * i),(x + ~1),x))
1: ((2x + 1) * loop(\(x,i).(6x + 4),2,2x))
1: ((x + 1) * loop(\(x,i).(6x + 4),2,x))
1: (x * loop(\(x,i).(6x + 4),2x,1))
1: (3 * loop(\(x,i).(6x + 4),(x div 2),(x mod 2)))
1: (2 * loop(\(x,i).(2x + 16),(x + 1),1))
1: (2 * loop(\(x,i).(2x + 16),x,1))
1: (3 * loop(\(x,i).(2x + 16),x,13))
1: ((3x + 2) * loop(\(x,i).(13x + 13),2,(x mod 2)))
1: ((2x + 3) * loop(\(x,i).(13x + 13),2,x))
1: (7 * loop(\(x,i).13x,(x + 1),7))
1: (5 * loop(\(x,i).(10x + 2),(x div 2),(x mod 2)))
1: (9 * loop(\(x,i).(10x + 2),(x div 2),(x mod 2)))
1: (loop(\(x,i).(10x + 2),x,2) * (2 + loop(\(x,i).10x,x,2)))
1: (3 * loop(\(x,i).(10x + 2),x,(1 - loop(\(x,i).(10x + ~20),x,0))))
1: (2 * loop(\(x,i).(10x + 4),(x + 2),2))
1: (2 * loop(\(x,i).(10x + 4),(x div 2),(x mod 2)))
1: (3 * loop(\(x,i).(10x + 4),(x div 2),(x mod 2)))
1: (3 * loop(\(x,i).(10x + 4),x,loop(\(x,i).(10x + 1),x,1)))
1: (3 * loop(\(x,i).(10x + 4),x,loop(\(x,i).(10x + 10),x,0)))
1: (x * loop(\(x,i).(16x2 + 14x + 3),2,x))
1: (3 * loop(\(x,i).(7x2 + 3x),2,x))
1: (x * loop(\(x,i).(2 * (x + (2 * (2x + (x mod 2))))),x,1))
1: (loop(\(x,i).(x * (1 + (2 * (2 + (x mod 4))))),x,1) * (1 + (2 * (x mod 2))))
1: (x * loop(\(x,i).((x2 + x + 1) * (2 + i)),2,2))
1: (2 * loop(\(x,i).(3x2 + 16x + 16),2x,3))
1: ((x + 1) * loop(\(x,i).(x * (1 + (2 * (1 + i)))),5,2))
1: ((x + 1) * loop(\(x,i).(x * (1 + (2 * (1 + i)))),x,(x + 2)))
1: ((x + 1) * loop(\(x,i).(3 * (2 + (x * (2 + i)))),2,x))
1: (x * loop(\(x,i).(5 * (2 + (x * (x + i)))),2,x))
1: (x * loop(\(x,i).(6x2 + ~3x + 3),2,x))
1: (2 * loop(\(x,i).(5 * (1 + (2 * (x - i)))),x,x))
1: (x * loop(\(x,i).(9x2 + x),2,x))
1: (2 * loop(\(x,i).(2 * (x + (3 * (i * (1 + i))))),x,1))
1: (2 * loop(\(x,i).(2x + 32),x,3))
1: (2 * loop(\(x,i).(10x + 16),(2x + ~1),1))
1: (5 * loop(\(x,i).(10x + 16),x,2))
1: (x * loop(\(x,i).(x * (1 + (3x * (2 + i)))),2,x))
1: (3 * loop(\(x,i).(16x + 2),x,2))
1: (x * loop(\(x,i).(16x2 + 10x + 1),2,x))
1: (loop(\(x,i).(x * (1 + (4 * (i div 2)))),x,1) * ((2x + 1) + (x mod 2)))
1: (x * loop(\(x,i).(8x + 2),2,2x))
1: (7 * loop(\(x,i).(8x + 2),(x div 2),(1 + (x mod 2))))
1: (3 * loop(\(x,i).(8x + 2),(x div 2),(x mod 2)))
1: (2 * loop(\(x,i).(2 * (4x + (x div 2))),(x + 2),1))
1: (5 * loop(\(x,i).(6x2 + x),1,loop(\(x,i).10x,x,1)))
1: ((x + 1) * loop(\(x,i).(6x2 + x),((x + 1) div 2),1))
1: (x * loop(\(x,i).(4x2 + 2),2,3))
1: (x * loop(\(x,i).(6x2 + 3),2,x))
1: (x * loop(\(x,i).((2x2 + 1) * (2 + i)),2,x))
1: (x2 * loop(\(x,i).(x4 + x),1,x3))
1: (x * loop(\(x,i).(x4 + x),1,x3))
1: ((x + 1) * loop(\(x,i).(x * (1 + (6 * i))),3,x))
1: ((x + 1) * loop(\(x,i).(4x + 2),(if x <= 0 then 2 else ~1),4x))
1: (3 * loop(\(x,i).(10x + 5),(x + 1),2))
1: (loop(\(x,i).(2x2 + 3x + 1),2,1) * (if x <= 0 then 1 else 2))
1: (loop(\(x,i).(2x2 + x),1,loop(\(x,i).(2x + 1),x,0)) * loop(\(x,i).(3x + 1),x,0))
1: ((2x + 1) * loop(\(x,i).(2x2 + x),2,2))
1: ((x + 1) * loop(\(x,i).(2x2 + x),2,2))
1: (x * loop(\(x,i).(2x2 + x),2,2))
1: (x * loop(\(x,i).(2x2 + x),2,3x))
1: (x * loop(\(x,i).(2x2 + 2),2,3x))
1: ((x + 1) * loop(\(x,i).(3x2 + 3),2,1))
1: (x * loop(\(x,i).(3x2 + 3),2,1))
1: (x * loop(\(x,i).(3x2 + 3),2,2x))
1: (loop(\(x,i).(x3 + x2 + x + 1),1,loop(\(x,i).2x,x,1)) * (1 + loop(\(x,i).3x,x,1)))
1: (x2 * loop(\(x,i).(x3 + x),1,x5))
1: (x2 * loop(\(x,i).(x3 + x),1,x3))
1: (x * loop(\(x,i).(x3 + x),2,2))
1: ((x2 + 2x + 1) * loop(\(x,i).(2x2 + 4),2,1))
1: ((x + 1) * loop(\(x,i).(x3 + 2x),1,(2x + 3)))
1: (x * loop(\(x,i).(2x2 + 8),2,2x))
1: ((x + 1) * loop(\(x,i).(x * ((x2 + 1) + i)),2,2))
1: ((x + ~1) * loop(\(x,i).(x * (1 + (2 * i))),(x + ~2),x))
1: (x * loop(\(x,i).(x * (1 + (2 * i))),(x + ~2),x))
1: ((x + 3) * loop(\(x,i).(x * (1 + (2 * i))),x,(x + 1)))
1: (2 * loop(\(x,i).(x * (1 + (2 * i))),x,(1 mod loop(\(x,i).x2,(x + ~1),2))))
1: (2 * loop(\(x,i).(2 * (x + (2 * i))),(x + 1),1))
1: ((x + 1) * loop(\(x,i).((x + 1) * (1 + (x * i))),2,x))
1: ((x + 1) * loop(\(x,i).(x * (1 + (x * i))),x,1))
1: (2x * loop(\(x,i).(x * (2 + (x * i))),2,x))
1: (x2 * loop(\(x,i).(x * (2 + (x * i))),2,x))
1: ((x + 1) * loop(\(x,i).(2 * ((x * i) + (x div 2))),x,1))
1: (x * loop(\(x,i).(2 * (1 + ((loop(\(x,i).7x,x,1) - loop(\(x,i).(3x + 2),x,0)) div (x + 1)))),1,i))
1: ((x + 1) * loop(\(x,i).(2 * (2x + (3x div (if i <= 0 then 1 else i)))),x,1))
1: ((x + 1) * loop(\(x,i).(5 * (x + ((4x * i) div (1 + i)))),x,1))
1: (2 * loop(\(x,i).(x * (x + (x2 div (x + 2)))),x,2))
1: (2 * loop(\(x,i).(2 * (2 + ((if x <= 0 then 2 else (~2 + loop(\(x,i).4x,(x + 1),2))) div 2))),x,2))
1: (9 * loop(\(x,i).(2 * (1 + (x div 2))),x,7))
1: (5 * loop(\(x,i).(3 * (1 + (x div 2))),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1))
1: (2 * loop(\(x,i).(3 * (2 + (x div 2))),x,0))
1: (9 * loop(\(x,i).(2 * (2x + (x div 2))),x,1))
1: (2 * loop(\(x,i).(2 * (x + (x div 2))),x,1))
1: ((x + 1) * loop(\(x,i).(2 * (x + (x div 2))),x,1))
1: (x * loop(\(x,i).(2 * ((x + (x div 2)) * i)),(x + ~1),1))
1: ((x + 1) * loop(\(x,i).(2 * (x + (x div (4 + i)))),x,1))
1: (4 * loop(\(x,i).(2 * (2x + (x div (if i <= 0 then 1 else i)))),(2x + ~1),x))
1: ((x + 1) * loop(\(x,i).(2 * (2x + (x div (if i <= 0 then 1 else i)))),(x + ~1),x))
1: (3 * loop(\(x,i).(2 * (2x + (x div (if i <= 0 then 1 else i)))),x,2))
1: ((x + 3) * loop(\(x,i).(2 * (2x + (x div (if i <= 0 then 1 else i)))),x,4))
1: ((2x + 3) * loop(\(x,i).(2 * (2x + (x div (if i <= 0 then 1 else i)))),x,(x + 1)))
1: ((x + 3) * loop(\(x,i).(2 * (2x + (x div (if i <= 0 then 1 else i)))),x,(x + 2)))
1: (2 * loop(\(x,i).(x * (1 + ((~1 + loop(\(x,i).12x,(x + 1),1)) mod (x + 1)))),x,1))
1: ((2x2 + ~x) * loop(\(x,i).(x * (2 + ((x + ~1) mod 3))),x,1))
1: (3 * loop(\(x,i).(x * (2 + ((~1 + i) mod 3))),x,1))
1: (2 * loop(\(x,i).(2 * (x + ((i div 2) mod 2))),(x + 1),1))
1: (2 * loop(\(x,i).((2x + 1) * (1 + (x mod 2))),x,(2 * (x mod 2))))
1: (2 * loop(\(x,i).(2 * (2x + (x mod 2))),(x + ~1),1))
1: (2 * loop(\(x,i).((x + (x mod 2)) * (1 + i)),2x,x))
1: (2 * loop(\(x,i).(3 * (x + (i mod 2))),(x + 1),1))
1: ((x + 1) * loop(\(x,i).((x + 1) * (x + (i mod 2))),3,2))
1: (2 * loop(\(x,i).((x + (i mod 2)) * i),x,1))
1: (2 * loop(\(x,i).(2 * (x + loop(\(x,i).3x,i,1))),x,2))
1: (2 * loop(\(x,i).(2 * (1 + loop(\(x,i).(2x * (2 + i)),4x,1))),x,1))
1: ((x + 2) * loop(\(x,i).((x + loop(\(x,i).(x * i),(~1 + i),1)) * (1 + i)),x,0))
1: (x * loop(\(x,i).((x + 1) * (x + loop(\(x,i).(x * i),i,1))),x,1))
1: ((x + 1) * loop(\(x,i).((x + loop(\(x,i).(x * i),i,1)) * (2 + i)),x,2))
1: ((x + 1) * loop(\(x,i).(x * (x + loop(\(x,i).loop(\(x,i).loop(\(x,i).x2,1,loop(\(x,i).((2 * (x - (2x * i))) div (1 + i)),x,1)),1,(x + ~1)),1,i))),x,1))
1: ((x + 2) * loop(\(x,i).(2x + 2),3,(x + 1)))
1: (2 * loop(\(x,i).(2x + 2),(x + 2),2))
1: ((x + 1) * loop(\(x,i).(2x + 2),(2 - (loop(\(x,i).(2x + 2),x,0) mod (x + 1))),1))
1: (3 * loop(\(x,i).(2x + 2),(~1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)),1))
1: (loop(\(x,i).(2x + 2),(x + ~1),2) * loop(\(x,i).(2x + 2),x,2))
1: (2 * loop(\(x,i).(2x + 2),(x div 2),(x mod 2)))
1: (3 * loop(\(x,i).(2x + 2),(x div 2),(x mod 2)))
1: ((2x + 3) * loop(\(x,i).(2x + 2),x,0))
1: (x * loop(\(x,i).(2x + 2),x,0))
1: (3 * loop(\(x,i).(2x + 2),x,1))
1: (3 * loop(\(x,i).(2x + 2),x,2))
1: ((x + 6) * loop(\(x,i).(2x + 2),x,2))
1: ((x + 2) * loop(\(x,i).(2x + 2),x,2))
1: (loop(\(x,i).(2x + 2),x,2) * (if (x + ~1) <= 0 then 3 else 0))
1: (5 * loop(\(x,i).(2x + 2),x,4))
1: (7 * loop(\(x,i).(2x + 2),x,4))
1: (9 * loop(\(x,i).(2x + 2),x,4))
1: (3 * loop(\(x,i).(2x + 2),x,16))
1: (2 * loop(\(x,i).(2x + 2),x,((x + 1) * (if x <= 0 then 1 else 4))))
1: (2 * loop(\(x,i).(x2 + x),1,(4x2 + 16x + 14)))
1: (x * loop(\(x,i).(x2 + x),1,x7))
1: (x2 * loop(\(x,i).(x2 + x),1,x5))
1: (x * loop(\(x,i).(x2 + x),1,x5))
1: (3 * loop(\(x,i).(x2 + x),1,loop(\(x,i).3x,x,1)))
1: (3 * loop(\(x,i).(x2 + x),1,loop(\(x,i).10x,x2,1)))
1: (3 * loop(\(x,i).(x2 + x),1,loop(\(x,i).10x,x,1)))
1: (3 * loop(\(x,i).(x2 + x),1,loop(\(x,i).12x,x,2)))
1: (x * loop(\(x,i).(x2 + x),1,loop(\(x,i).x3,2,x)))
1: (x * loop(\(x,i).(x2 + x),1,loop(\(x,i).2x,(x + ~1),1)))
1: (x * loop(\(x,i).(x2 + x),1,loop(\(x,i).x2,2,5)))
1: (2 * loop(\(x,i).(x2 + x),1,loop(\(x,i).x2,x,2)))
1: ((x2 + 2x + 1) * loop(\(x,i).(x2 + x),2,2))
1: ((2x + 1) * loop(\(x,i).(x2 + x),2,4))
1: (x * loop(\(x,i).(x2 + x),2,4))
1: ((x2 + x + 1) * loop(\(x,i).(x2 + x),2,(x + 1)))
1: ((x + 1) * loop(\(x,i).(x2 + x),2,(x + 1)))
1: (x * loop(\(x,i).(x2 + x),2,5x))
1: (x * loop(\(x,i).(x2 + x),2,4x))
1: (5 * loop(\(x,i).(x2 + x),2,x))
1: (x * loop(\(x,i).(x2 + x),2,x))
1: (2 * loop(\(x,i).(x2 + x),(x + 1),2))
1: (2 * loop(\(x,i).(x2 + x),(x + ~1),x))
1: (loop(\(x,i).(x2 + x),(x + ~2),x) * (if (x + ~2) <= 0 then 2 else 1))
1: ((x + 1) * loop(\(x,i).(x2 + x),(x div 4),1))
1: (loop(\(x,i).(x2 + x),x,1) * (2 + (x mod 2)))
1: (loop(\(x,i).(x2 + x),x,1) * (if x <= 0 then 1 else 2))
1: (2 * loop(\(x,i).(x2 + x),x,3))
1: ((2x + 1) * loop(\(x,i).((x + 1) * i),x,0))
1: (x * loop(\(x,i).((x + 1) * i),x,0))
1: ((x + 1) * loop(\(x,i).((x + 1) * i),x,x))
1: (2 * loop(\(x,i).(2x + 4),(x + 3),2))
1: (3 * loop(\(x,i).(2x + 4),(x + 3),3))
1: (2 * loop(\(x,i).(2x + 4),(x + 8),0))
1: (2 * loop(\(x,i).(2x + 4),(x + 1),1))
1: (3 * loop(\(x,i).(2x + 4),(x + 1),3))
1: (2 * loop(\(x,i).(2x + 4),(x + ~1),1))
1: (2 * loop(\(x,i).(2x + 4),(x div 2),(2 + (x mod 2))))
1: (2 * loop(\(x,i).(2x + 4),x,2))
1: (2 * loop(\(x,i).(2x + 4),x,3))
1: (5 * loop(\(x,i).(2x + 4),x,3))
1: (2 * loop(\(x,i).(2x + 4),x,(x2 + ~x)))
1: (loop(\(x,i).(3x + 6),x,0) * (~1 + loop(\(x,i).2x,x,2)))
1: (2 * loop(\(x,i).(3x + 6),x,1))
1: ((2x + 1) * loop(\(x,i).(x2 + 3x + 2),2,2))
1: ((x + 1) * loop(\(x,i).(x2 + 4x + 4),2,4))
1: ((x + 1) * loop(\(x,i).(x2 + 4x + 4),2,5))
1: ((x + 1) * loop(\(x,i).(x2 + 4x + 4),2,7))
1: (x * loop(\(x,i).(x2 + 4x + 4),3,1))
1: (x * loop(\(x,i).(x2 + 2x),1,(~x + 3)))
1: (2 * loop(\(x,i).(x2 + 2x),1,loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)))
1: (x * loop(\(x,i).(x2 + 2x),1,compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)))
1: ((x2 + 2x + 1) * loop(\(x,i).(x2 + 2x),2,2))
1: ((x + 1) * loop(\(x,i).(x2 + 2x),2,2))
1: ((x + 1) * loop(\(x,i).(x2 + 2x),2,(2x + 1)))
1: ((x + 1) * loop(\(x,i).(x2 + 2x),3,x))
1: (2 * loop(\(x,i).(x2 + 2x),(2x + 1),10))
1: (x * loop(\(x,i).((x + 1) * (1 + i)),(x + ~2),0))
1: (3 * loop(\(x,i).(x * (1 + i)),2x,2))
1: (loop(\(x,i).(x * (1 + i)),x,(1 + (x div 2))) * (2 - (x div ~2)))
1: ((x2 + 2x + 1) * loop(\(x,i).(x * (1 + i)),x,(x + 1)))
1: ((x + 1) * loop(\(x,i).(x * (1 + i)),x,x))
1: ((2x + 5) * loop(\(x,i).(x * (2 + i)),4,1))
1: (x * loop(\(x,i).(x * (2 + i)),4,3))
1: (loop(\(x,i).(x * (2 + i)),(2x + 1),2) * (2 - (x mod 2)))
1: ((x + 1) * loop(\(x,i).(x * (2 + i)),(x + 1),(x + 2)))
1: ((x + 1) * loop(\(x,i).(x * (2 + i)),(x + 1),x))
1: ((x + 5) * loop(\(x,i).(x * (2 + i)),(x + ~1),1))
1: (2 * loop(\(x,i).(x * (2 + i)),loop(\(x,i).(1 + (5 * (1 + i))),x,1),1))
1: (2 * loop(\(x,i).(x * (2 + i)),loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1))
1: ((x + 5) * loop(\(x,i).(x * (2 + i)),x,x))
1: (2 * loop(\(x,i).(2 * (x + i)),(x + ~1),0))
1: (2 * loop(\(x,i).(2 * (x + i)),x,1))
1: (x * loop(\(x,i).((x + 1) * (x + i)),2,2))
1: (2 * loop(\(x,i).((x + 1) * (x + i)),2,x))
1: ((x + 1) * loop(\(x,i).((x + 1) * (x + i)),2,x))
1: (x * loop(\(x,i).((x + 2) * (x + i)),2,2))
1: ((x + 1) * loop(\(x,i).((x + 2) * (x + i)),2,5))
1: (2 * loop(\(x,i).(x * (x + i)),2,x))
1: (2 * loop(\(x,i).(x * (x + i)),2,i))
1: (loop(\(x,i).(x * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))),x,1) * (if (x + ~1) <= 0 then 2 else 1))
1: (2 * loop(\(x,i).(x * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))),x,(if x <= 0 then 1 else 2)))
1: ((x + 1) * loop(\(x,i).(x * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i))),6,2))
1: (2 * loop(\(x,i).~2x,(i mod 3),x))
1: (loop(\(x,i).~2x,i,i) * i)
1: (x * loop(\(x,i).~2x2,2,3x))
1: (loop(\(x,i).(x * (0 - i)),x,1) * loop(\(x,i).(~2x + 2),x,1))
1: (x * loop(\(x,i).(~10x2 + ~3x),2,x))
1: (2 * loop(\(x,i).(~8x + 2),2x,2))
1: (x * loop(\(x,i).(~6x2 + ~11x + 2),2,x))
1: (x * loop(\(x,i).(~12x2 + 3),2,x))
1: ((x + 1) * loop(\(x,i).(x * (1 - loop(\(x,i).3x,x,loop(\(x,i).(3x + ~6),x,0)))),x,1))
1: (x * loop(\(x,i).(11x2 + 2x),2,x))
1: (2 * loop(\(x,i).(x * (2 - (x div (2 + i)))),x,2))
1: (3 * loop(\(x,i).(x * (2 - (x div (2 + i)))),x,2))
1: (x * loop(\(x,i).(x * (2 - (x mod 2))),(x + ~2),x))
1: (3 * loop(\(x,i).(2 * (2 - (i mod 2))),x,1))
1: (2 * loop(\(x,i).(~2x + 4),x,2))
1: (x * loop(\(x,i).(~x2 + 4x + ~4),2,2x))
1: (2 * loop(\(x,i).(2 * ((x + ~1) + (2 * (x + (i mod 2))))),x,1))
1: (2 * loop(\(x,i).(x * (~1 + (loop(\(x,i).2x,i,1) + (i mod 2)))),(2x + 1),2))
1: (2 * loop(\(x,i).(2x + ~44),x,1))
1: ((x2 + ~1) * loop(\(x,i).(x * ((x + ~1) + i)),2,x3))
1: (x2 * loop(\(x,i).(x * ((x + ~1) + i)),2,x3))
1: (x * loop(\(x,i).(x * ((x + ~1) + i)),2,x2))
1: (2 * loop(\(x,i).(2 * ((x + ~2) + i)),x,1))
1: (loop(\(x,i).(~2x + ~4),x,1) * loop(\(x,i).(~2x + 1),x,1))
1: (x * loop(\(x,i).(3x2 + ~2x),2,2x))
1: (3 * loop(\(x,i).(x * (7 - i)),x,1))
1: ((x + ~1) * loop(\(x,i).11x,(x + ~2),x))
1: (31 * loop(\(x,i).11x,5x,1))
1: (x * loop(\(x,i).(10x2 + 2x + ~2),2,x))
1: (x * loop(\(x,i).(x * (~1 + (2 * (4x + i)))),2,x))
1: (x * loop(\(x,i).(5x2 + 10x + ~10),2,x))
1: (x * loop(\(x,i).(3 * (~1 + (x * (1 + i)))),2,x))
1: (x * loop(\(x,i).(4x2 + ~9x),2,x))
1: (x * loop(\(x,i).(16x2 + 56x + 46),2,x))
1: (x * loop(\(x,i).(x * (~1 + (4x * (1 + i)))),2,x))
1: (2 * loop(\(x,i).(8x + ~2),(x div 2),(1 + (x mod 2))))
1: (x * loop(\(x,i).(4x2 + ~x),1,loop(\(x,i).4x,(~1 + i),1)))
1: (2 * loop(\(x,i).(2 * (4x - (x div 2))),(x + 2),1))
1: (2 * loop(\(x,i).(2 * (4x - (x div 2))),x,1))
1: (x * loop(\(x,i).(2 * (4x - (x div 2))),x,1))
1: (2 * loop(\(x,i).(2 * (4x - (if (2 - i) <= 0 then x else 1))),x,(x + 1)))
1: (3 * loop(\(x,i).(2 * (6x - (x div 2))),(x + 2),1))
1: (x * loop(\(x,i).(6x2 + ~6x + ~3),2,x))
1: (x * loop(\(x,i).(6x2 + ~2x),2,x))
1: (x * loop(\(x,i).(8x2 + ~2),2,x))
1: ((~x + 1) * loop(\(x,i).(x * (~1 + (2 * (i div 2)))),2x,1))
1: (x * loop(\(x,i).(4x + ~2),i,2))
1: (5 * loop(\(x,i).(2x2 + ~x),1,loop(\(x,i).10x,x,1)))
1: ((x + 1) * loop(\(x,i).(2x2 + ~x),2,(1 + (2 * (x div 4)))))
1: (x * loop(\(x,i).(2x2 + ~x),2,(~x + 2)))
1: (x * loop(\(x,i).(2x2 + ~x),2,3x))
1: (x * loop(\(x,i).(2x2 + ~x),2,2x))
1: (x2 * loop(\(x,i).(2x2 + ~x),2,x))
1: ((x + 3) * loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),(x + 2),2))
1: ((8x + 1) * loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,1))
1: (loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,1) * loop(\(x,i).(4x + ~1),x,1))
1: ((x + 1) * loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,2))
1: (x * loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,2))
1: ((x + 1) * loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,x2))
1: (x2 * loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,x2))
1: ((x2 + x + 1) * loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,x))
1: ((x + 1) * loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,x))
1: ((2x + ~1) * loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,x))
1: (x2 * loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,x))
1: ((x + 1) * loop(\(x,i).(5 * (2x - ((x div 2) mod 3))),(x + 1),1))
1: (3 * loop(\(x,i).(2 * (2x - (x mod 2))),x,3))
1: (2 * loop(\(x,i).(2 * (2x - (x mod 8))),3,x))
1: ((x2 + 2x + 1) * loop(\(x,i).(2x2 + ~2),2,2))
1: (x * loop(\(x,i).(3x2 + ~3),2,2x))
1: (x * loop(\(x,i).(x3 + ~x),1,2x2))
1: (2 * loop(\(x,i).(x3 + ~x),1,loop(\(x,i).2x,x,2)))
1: (2 * loop(\(x,i).(x3 + ~x),(x2 + 1),2))
1: ((x + 1) * loop(\(x,i).(x * (~1 + (2 * i))),x,(x + 2)))
1: (x * loop(\(x,i).(x * (~1 + (x * i))),2,3x))
1: (loop(\(x,i).(2 * (~x + (i mod 2))),x,1) * (1 + (x mod 2)))
1: (loop(\(x,i).(x * ((if (i mod 2) <= 0 then 1 else (2 * i)) - i)),x,1) * (x mod 2))
1: (x * loop(\(x,i).(x * (~1 + loop(\(x,i).(i * i),(x + ~2),x))),2,x))
1: (x * loop(\(x,i).(2x + ~2),(x + ~1),x))
1: (loop(\(x,i).(3x + ~3),x,2) * (2 + loop(\(x,i).2x,x,1)))
1: (2 * loop(\(x,i).(3x + ~3),x,(loop(\(x,i).2x,x,1) div 2)))
1: (x * loop(\(x,i).(x2 + ~x),1,(2 + (5 * i))))
1: (x * loop(\(x,i).(x2 + ~x),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i))))
1: (x * loop(\(x,i).(x2 + ~x),1,(2 * (1 + (3 * i)))))
1: (3 * loop(\(x,i).(x2 + ~x),1,((3x2 + 5x + 2) div 2)))
1: (3 * loop(\(x,i).(x2 + ~x),1,((3x2 + 7x + 4) div 2)))
1: (x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).3x,(2 * i),1)))
1: (x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).3x,i,1)))
1: (x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).5x,i,1)))
1: (x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).7x,i,1)))
1: (x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).13x,i,1)))
1: (x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).19x,i,1)))
1: (x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).17x,i,1)))
1: (x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).11x,i,1)))
1: (x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).23x,i,1)))
1: (x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).15x,i,1)))
1: (x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).10x,i,1)))
1: (x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).14x,i,1)))
1: (x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).21x,i,1)))
1: (x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).22x,i,1)))
1: (x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).24x,i,1)))
1: (x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).8x,i,1)))
1: (3 * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).12x,x,2)))
1: (x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).12x,i,1)))
1: (x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).20x,i,1)))
1: (x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).18x,i,1)))
1: (x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).4x,(2 * i),1)))
1: (x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).6x,i,1)))
1: (2 * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).2x,x,2)))
1: (x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).x2,i,2)))
1: (2 * loop(\(x,i).(x2 + ~x),1,compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: (2 * loop(\(x,i).(x2 + ~x),2,(x + 2)))
1: (x * loop(\(x,i).(x2 + ~x),2,(x + 2)))
1: (loop(\(x,i).(x2 + ~x),2,2x) * (1 + i))
1: (2 * loop(\(x,i).(2x + ~4),(x + ~2),x))
1: (2 * loop(\(x,i).(2x + ~4),(x + ~5),x))
1: (2 * loop(\(x,i).(3x + ~6),x,0))
1: (x * loop(\(x,i).(x2 + ~2x),1,loop(\(x,i).2x,x,2)))
1: (loop(\(x,i).(x2 + ~2x),2,x) * i)
1: (x * loop(\(x,i).(7x2 + ~2x),2,x))
1: (2 * loop(\(x,i).(3 * ((x + 1) - (2 * (~x + (x mod 2))))),x,0))
1: (loop(\(x,i).(2 * ((x + 1) - (2 * (i mod 2)))),x,1) * (1 + (4 * (x mod 2))))
1: (2 * loop(\(x,i).(2 * ((x + 1) - i)),x,3))
1: ((x + 3) * loop(\(x,i).(x * ((x + 1) - i)),2,(x + 2)))
1: (9 * loop(\(x,i).(x * ((x + 1) - i)),2,(x + 2)))
1: ((x + 1) * loop(\(x,i).(x * ((x + 1) - i)),2,(x + 2)))
1: (2 * loop(\(x,i).(5x2 + ~2x),1,loop(\(x,i).10x,x,1)))
1: (x * loop(\(x,i).(7x2 + ~3x),2,x))
1: (x * loop(\(x,i).(5x2 + ~4x),2,x))
1: (2 * loop(\(x,i).(10x + ~16),x,2))
1: (5 * loop(\(x,i).(10x + ~16),x,2))
1: (x * loop(\(x,i).(5x2 + ~8x),2,x))
1: (2 * loop(\(x,i).(2 * (x - (4 * (~x + i)))),x,1))
1: (x * loop(\(x,i).~7x2,2,x))
1: (x * loop(\(x,i).(~8x2 + 2x),2,x))
1: (2 * loop(\(x,i).(3 * (x - (2 * i))),x,0))
1: (x * loop(\(x,i).(x * (x - (x div ~2))),(x + ~1),1))
1: (2 * loop(\(x,i).(2 * (x - ((x + i) mod 2))),x,1))
1: (2 * loop(\(x,i).(2 * (x - (i mod 2))),x,2))
1: (x * loop(\(x,i).((x - (i mod 2)) * i),x,1))
1: (2 * loop(\(x,i).(3 * (x - (if (i mod 2) <= 0 then 2 else ~2))),x,0))
1: (2 * loop(\(x,i).(2 * (x - i)),x,loop(\(x,i).(2x + 2),x,2)))
1: (3 * loop(\(x,i).((x + 2) * (x - i)),2,(x + 2)))
1: (2 * loop(\(x,i).(x * (x - i)),2,(x + ~1)))
1: ((x + ~1) * loop(\(x,i).(x * (x - i)),2,(x + ~1)))
1: (x * loop(\(x,i).(x * (x - i)),2,(x + ~3)))
1: (2 * loop(\(x,i).(x * (x - i)),(if x <= 0 then 1 else 2),(x + 2)))
1: (2 * loop(\(x,i).((x - i) * i),(x div 2),x))
1: (x * loop(\(x,i).((~1 + i) * i),(x + ~2),1))
1: (x * loop(\(x,i).(x * (~x + i)),2,4x))
1: (loop(\(x,i).15x,x,1) * ((x2 + 3x + 2) div 2))
1: (2 * loop(\(x,i).10x,1,((loop(\(x,i).x2,1,(~1 + loop(\(x,i).10x,x,1))) div 2) div 2)))
1: (19 * loop(\(x,i).10x,x,1))
1: (3 * loop(\(x,i).10x,x,(x + 1)))
1: (9 * loop(\(x,i).10x,x,(x + 1)))
1: (9 * loop(\(x,i).10x,x,(x + 2)))
1: (3 * loop(\(x,i).10x,x,loop(\(x,i).(10x + 21),x,1)))
1: (7 * loop(\(x,i).10x,x,loop(\(x,i).(10x + 10),x,0)))
1: ((x + 1) * loop(\(x,i).5x2,2,2x))
1: (x * loop(\(x,i).(2x2 + 14x + 12),2,2))
1: (x * loop(\(x,i).(5x2 + 20x),2,x))
1: (x * loop(\(x,i).((x2 + 4x) * (4 + i)),2,x))
1: (loop(\(x,i).14x,(x div 2),(1 + (x mod 2))) * (1 + (2 * (x mod 2))))
1: (2 * loop(\(x,i).(12x + 8),2,3))
1: (2 * loop(\(x,i).(12x + 8),x,1))
1: (x * loop(\(x,i).(15x2 + 10x),2,x))
1: (x * loop(\(x,i).(4x2 + ~4x + 4),2,x))
1: (x * loop(\(x,i).(x7 + x3),1,x2))
1: (2 * loop(\(x,i).((6x + 3) * (2 + i)),2,(2x + 1)))
1: (x * loop(\(x,i).(4x2 + 2x),2,2x))
1: (x * loop(\(x,i).(10x2 + 5x),2,x))
1: ((x + 1) * loop(\(x,i).(4x3 + 4x2 + x),2,1))
1: (x * loop(\(x,i).(6x2 + 6),2,x))
1: (x * loop(\(x,i).(x4 + x2),1,x4))
1: (2 * loop(\(x,i).(3x3 + 6x),(2x + 2),1))
1: (2 * loop(\(x,i).(4 * (2x + (x div 2))),x,1))
1: (x * loop(\(x,i).(10x + 10),5,0))
1: (x * loop(\(x,i).(5x2 + 5x),2,2x))
1: (x * loop(\(x,i).(2x2 + 8x + 8),2,0))
1: ((x + 1) * loop(\(x,i).(3x2 + 12x + 12),2,1))
1: ((x + 1) * loop(\(x,i).((x2 + 4x + 4) * (2 + i)),2,0))
1: (5 * loop(\(x,i).(2x2 + 4x),2,(2x + 1)))
1: (2 * loop(\(x,i).((x + 2) * ((2 + i) * i)),x,2))
1: (x * loop(\(x,i).~10x2,2,x))
1: (x * loop(\(x,i).(~8x + 4),2,x))
1: (x * loop(\(x,i).(x2 * ((x + ~1) + i)),2,x))
1: (x * loop(\(x,i).(12x2 + ~6),2,x))
1: ((x + 1) * loop(\(x,i).(2x4 + 2x3 + ~x2 + ~x),1,(2x + 3)))
1: ((2x2 + 2) * loop(\(x,i).(x * ((~1 + (4 * i)) * i)),x,1))
1: (x * loop(\(x,i).(9x2 + ~18),2,x))
1: (2 * loop(\(x,i).(5x2 + ~5x),1,loop(\(x,i).10x,x,1)))
1: (3 * loop(\(x,i).(2x3 + ~3x2 + x),1,loop(\(x,i).2x,x,1)))
1: (x * loop(\(x,i).(3x2 + ~12x),2,x))
1: (x * loop(\(x,i).(5x * (x - i)),2,x))
1: (2 * loop(\(x,i).(4x * (1 + (2 * (1 + i)))),x,(x + 1)))
1: (x * loop(\(x,i).~9x2,2,x))
1: (x * loop(\(x,i).(4x * ((~1 + (2 * i)) * (1 + (2 * i)))),i,1))
1: ((x + 1) * loop(\(x,i).(2x5 + 8x4 + 10x3 + 4x2),2,3))
1: (loop(\(x,i).8x,(~x + 3),1) * loop(\(x,i).5x,x,2))
1: ((x + 1) * loop(\(x,i).8x,(x + 1),(x2 + 2x + 2)))
1: ((x2 + 2x + 1) * loop(\(x,i).8x,(x + 1),(x + 2)))
1: ((x2 + 2x + 1) * loop(\(x,i).8x,(x + 1),x))
1: ((x2 + 3x + 2) * loop(\(x,i).8x,(x + 1),x))
1: (7 * loop(\(x,i).8x,x,(x + 1)))
1: (7 * loop(\(x,i).8x,x,(x + 2)))
1: ((x + 1) * loop(\(x,i).8x,x,x))
1: ((x + ~1) * loop(\(x,i).8x,x,x))
1: (x2 * loop(\(x,i).8x,x,x))
1: (3 * loop(\(x,i).12x,(x + ~1),1))
1: (x2 * loop(\(x,i).(4x2 + 4x),2,2x))
1: (x * loop(\(x,i).(4x2 + 4x),2,2x))
1: ((2x + 3) * loop(\(x,i).(4x * (1 + i)),x,2))
1: (x * loop(\(x,i).10x2,2,x))
1: (2 * loop(\(x,i).10x2,(3x + 1),1))
1: (2 * loop(\(x,i).(2x3 + ~2x2),(x + ~1),2))
1: (x * loop(\(x,i).8x2,2,x))
1: (x * loop(\(x,i).(8x3 + ~4x2),(x + ~1),1))
1: (2 * loop(\(x,i).(x4 + 2x3 + x2),1,loop(\(x,i).x2,x,2)))
1: ((x + 1) * loop(\(x,i).(x4 + 4x3 + 4x2),2,1))
1: (3 * loop(\(x,i).x6,2x,3))
1: ((x2 + x + 1) * loop(\(x,i).4x3,(x + ~1),1))
1: (x * loop(\(x,i).(x5 + x3),1,x3))
1: (x * loop(\(x,i).(x5 + x3),1,x2))
1: (x * loop(\(x,i).(x4 + x3),1,x3))
1: (x * loop(\(x,i).(x4 + ~x3),1,4x))
1: (x * loop(\(x,i).8x3,2,4x))
1: (x * loop(\(x,i).x5,1,3x))
1: (x * loop(\(x,i).x5,1,2x2))
1: (2 * loop(\(x,i).x5,1,loop(\(x,i).(14x + 1),(x + 2),1)))
1: (x * loop(\(x,i).x5,2,x))
1: (3 * loop(\(x,i).x5,2x,3))
1: (x * loop(\(x,i).(2 * (((2x * ((1 + (2 * i)) * (~1 + (2 * i)))) div (1 + i)) * i)),i,1))
1: ((x + 1) * loop(\(x,i).(8 * ((((2x * (1 + (2 * i))) div (2 + i)) * (~1 + (2 * i))) div (1 + i))),x,1))
1: (2 * loop(\(x,i).(4 * (if (x mod 2) <= 0 then 12 else 1)),x,1))
1: (2 * loop(\(x,i).(9 * (if x <= 0 then 1 else (2 + (x mod 2)))),(x div 2),(x mod 2)))
1: ((x + 1) * loop(\(x,i).4x,(x + 1),(x2 + 2x + 2)))
1: (2 * loop(\(x,i).4x,(x + 1),(1 + (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))))
1: ((x2 + 2x + 1) * loop(\(x,i).4x,(x + 1),(x + 2)))
1: ((x2 + 2x + 1) * loop(\(x,i).4x,(x + 1),x))
1: ((x2 + 3x + 2) * loop(\(x,i).4x,(x + 1),x))
1: (loop(\(x,i).4x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1) * (1 + (x mod 2)))
1: ((x + 2) * loop(\(x,i).4x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),2))
1: (loop(\(x,i).4x,((x div 2) - ((3 * (x div 4)) div 2)),1) * (1 + (8 * (x mod 2))))
1: (loop(\(x,i).4x,((x div 2) - ((3 * (x div 4)) div 2)),1) * (1 + (4 * (x mod 2))))
1: (3 * loop(\(x,i).4x,(x + ~1),x))
1: (5 * loop(\(x,i).4x,(x + ~1),x))
1: (x * loop(\(x,i).4x,(x + ~1),x))
1: (2 * loop(\(x,i).4x,(x + ~2),3))
1: ((3x + ~3) * loop(\(x,i).4x,(x + ~2),x))
1: (3 * loop(\(x,i).4x,(~1 + i),1))
1: (2 * loop(\(x,i).4x,2x,(1 + (2 * loop(\(x,i).3x,2x,2)))))
1: (x * loop(\(x,i).4x,2x,(2x + ~1)))
1: (2 * loop(\(x,i).4x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1))
1: (x * loop(\(x,i).4x,(x div (1 + i)),2))
1: ((3x + 2) * loop(\(x,i).4x,((1 + loop(\(x,i).34x,2,(2x + 1))) mod (x + 1)),x))
1: ((2x + 1) * loop(\(x,i).4x,x,2))
1: ((2x + 3) * loop(\(x,i).4x,x,3))
1: (2 * loop(\(x,i).4x,x,(1 + (2 * loop(\(x,i).(5x + ~4),x,8)))))
1: ((2x + 3) * loop(\(x,i).4x,x,(x + 1)))
1: ((2x + 1) * loop(\(x,i).4x,x,(x + 1)))
1: ((x + 5) * loop(\(x,i).4x,x,(x + 2)))
1: ((x2 + 4x + 3) * loop(\(x,i).4x,x,(x + 2)))
1: ((x + 1) * loop(\(x,i).4x,x,(~1 + (2 * loop(\(x,i).(12x + 8),x,1)))))
1: ((x + 1) * loop(\(x,i).4x,x,x))
1: ((x + ~1) * loop(\(x,i).4x,x,x))
1: (x2 * loop(\(x,i).4x,x,x))
1: ((x + 1) * loop(\(x,i).6x,(x + 1),(x2 + 2x + 2)))
1: ((x2 + 2x + 1) * loop(\(x,i).6x,(x + 1),(x + 2)))
1: ((x2 + 2x + 1) * loop(\(x,i).6x,(x + 1),x))
1: ((x2 + 3x + 2) * loop(\(x,i).6x,(x + 1),x))
1: (x * loop(\(x,i).6x,(2 * i),2))
1: ((2x + 1) * loop(\(x,i).6x,x,2))
1: ((4x + 3) * loop(\(x,i).6x,x,2))
1: (5 * loop(\(x,i).6x,x,(x + 1)))
1: (5 * loop(\(x,i).6x,x,(x + 2)))
1: ((2x + 3) * loop(\(x,i).6x,x,8))
1: ((x + 1) * loop(\(x,i).6x,x,x))
1: ((x + ~1) * loop(\(x,i).6x,x,x))
1: (x2 * loop(\(x,i).6x,x,x))
1: (x * loop(\(x,i).(2x2 + 2x),2,2))
1: (x * loop(\(x,i).(2x2 + 2x),(2x + ~1),x))
1: (3 * loop(\(x,i).2x2,1,loop(\(x,i).(7x + 1),x,1)))
1: ((3x + 2) * loop(\(x,i).2x2,2,2))
1: ((2x + 1) * loop(\(x,i).2x2,2,2))
1: (3 * loop(\(x,i).2x2,2,(1 + (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))))
1: (x * loop(\(x,i).2x2,2,8x))
1: (x * loop(\(x,i).2x2,2,2x))
1: (loop(\(x,i).2x2,(x div 2),2) * (1 + (2 * (x mod 2))))
1: ((2x + 1) * loop(\(x,i).2x2,x,1))
1: (loop(\(x,i).2x2,x,1) * (1 + loop(\(x,i).2x,x,1)))
1: (x * loop(\(x,i).2x2,i,2))
1: (2 * loop(\(x,i).3x2,2,(x2 + 2x + 1)))
1: (x * loop(\(x,i).4x2,i,4))
1: (x * loop(\(x,i).(x3 + x2),1,10))
1: (x * loop(\(x,i).(x3 + x2),1,x4))
1: (2 * loop(\(x,i).(x3 + x2),1,loop(\(x,i).~4x,x,2)))
1: ((x + 1) * loop(\(x,i).(x3 + 2x2),1,(2x + 1)))
1: ((x + 1) * loop(\(x,i).(x3 + 2x2),2,2))
1: (5 * loop(\(x,i).(x2 * (1 + i)),2,(x + 1)))
1: (x * loop(\(x,i).(x2 * (1 + i)),2,2x))
1: (x * loop(\(x,i).(x2 * (2 + i)),2,x))
1: (x * loop(\(x,i).2x3,2,4x))
1: ((x + 2) * loop(\(x,i).x3,1,(x + 3)))
1: (x * loop(\(x,i).x3,1,(x + 3)))
1: ((x + 1) * loop(\(x,i).x3,1,(1 + (x div 2))))
1: (loop(\(x,i).x3,1,(1 + (x div 2))) * ((x + 1) div 2))
1: (x * loop(\(x,i).x3,1,(1 + (x div 2))))
1: (2 * loop(\(x,i).x3,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (x * loop(\(x,i).x3,1,(~x + (x div (2 - (x mod 2))))))
1: (x * loop(\(x,i).x3,1,(2x + 2)))
1: ((2x + 3) * loop(\(x,i).x3,1,(x2 + 4x + 4)))
1: (loop(\(x,i).x3,1,((x + 1) div 2)) * (1 + (x div 2)))
1: ((x + 1) * loop(\(x,i).x3,1,((x + 1) div 2)))
1: (loop(\(x,i).x3,1,((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) * (1 + (x div 3)))
1: (loop(\(x,i).x3,1,loop(\(x,i).(10x + 1),x,1)) * loop(\(x,i).x3,x,x))
1: (3 * loop(\(x,i).x3,1,loop(\(x,i).(x + (((2 + i) * (1 + i)) div 2)),x,1)))
1: (x * loop(\(x,i).x3,1,loop(\(x,i).x3,2,(2x + 1))))
1: ((x2 + 2x + 1) * loop(\(x,i).x3,1,loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1)))
1: ((2x + 1) * loop(\(x,i).x3,2,2))
1: (x * loop(\(x,i).x3,2,2))
1: ((2x + 1) * loop(\(x,i).x3,2,(2x + 1)))
1: ((x2 + 2x + 1) * loop(\(x,i).x3,2,(x + 1)))
1: (x * loop(\(x,i).x3,2,3x))
1: (x * loop(\(x,i).x3,2,4x))
1: (x * loop(\(x,i).x3,2,x2))
1: ((x2 + 1) * loop(\(x,i).x3,2,x))
1: ((x + 1) * loop(\(x,i).x3,2,x))
1: ((x + ~1) * loop(\(x,i).x3,2,x))
1: (loop(\(x,i).x3,2,i) * i * i)
1: (loop(\(x,i).x3,2,i) * i)
1: ((x + 2) * loop(\(x,i).x3,3,(x2 + 2)))
1: (x2 * loop(\(x,i).x3,3,x))
1: (x * loop(\(x,i).x3,3,x))
1: (loop(\(x,i).x3,(x + 1),2) * (1 + (~x mod 4)))
1: (x * loop(\(x,i).x3,(x + 1),(x + 1)))
1: (2 * loop(\(x,i).x3,(2x + ~1),2))
1: (2 * loop(\(x,i).x3,x2,2))
1: (0 * loop(\(x,i).x3,x2,x))
1: ((x + ~1) * loop(\(x,i).x3,x,x))
1: (3 * loop(\(x,i).(2x * i),(x + ~1),x))
1: ((x + ~1) * loop(\(x,i).(4x * i),(x + ~2),x))
1: ((x2 + 2x + 1) * loop(\(x,i).((x2 + x) * i),2,2))
1: (2 * loop(\(x,i).(x * (i * (1 + i))),(x + 1),2))
1: ((2x + 3) * loop(\(x,i).(x * (i * (2 + i))),x,1))
1: (x * loop(\(x,i).(x2 * i),(x + ~1),1))
1: (x * loop(\(x,i).(x * (i * i)),4,x))
1: ((x + 1) * loop(\(x,i).(x * (i * i)),(2x + ~1),1))
1: (loop(\(x,i).(x * (i * i)),(x div 2),1) * (if (x mod 2) <= 0 then 1 else x))
1: ((2x + ~1) * loop(\(x,i).(x * (i * i)),x,2))
1: ((x + 2) * loop(\(x,i).(x * (i * i)),x,(x + 2)))
1: (x * loop(\(x,i).((x + 1) * ((x + 1) div 2)),i,(if x <= 0 then 1 else 2)))
1: ((x + 1) * loop(\(x,i).(3 * ((x * (~1 + (9 * i))) div (1 + i))),x,1))
1: (3 * loop(\(x,i).(2 * ((2x * ((~1 + (2 * i)) * (1 + (2 * (1 + i))))) div (1 + i))),x,1))
1: (loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(x + ~1),1) * (~1 + loop(\(x,i).4x,x,1)))
1: ((x2 + x + 1) * loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(x + ~1),x))
1: ((x + 2) * loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(x + ~1),x))
1: (2 * loop(\(x,i).(2 * (x2 div 2)),x,(2 + (x div 2))))
1: ((x2 + ~x) * loop(\(x,i).((x + ~1) * (x2 div 4)),2,x))
1: (3 * loop(\(x,i).(2 * (loop(\(x,i).(32x + 1),(x + 1),1) div 2)),1,1))
1: (2 * loop(\(x,i).(x * (if (~2 + (x div 3)) <= 0 then 2 else x)),x,1))
1: (x * loop(\(x,i).(x * (if (x + ~2) <= 0 then 0 else loop(\(x,i).loop(\(x,i).(x * i),(x + ~2),x),1,(x + ~1)))),1,(x + ~1)))
1: (2 * loop(\(x,i).((if (x mod 2) <= 0 then 2 else 0) * (~1 + (2 * i))),(x + ~1),1))
1: (2 * loop(\(x,i).(3 * loop(\(x,i).(x + 4),(x mod 3),2x)),x,x))
1: (x * loop(\(x,i).(x * loop(\(x,i).(2x + i),(x + ~2),0)),1,(x + ~1)))
1: (loop(\(x,i).(x * loop(\(x,i).(x + (if (x + ~2) <= 0 then 1 else x)),i,1)),x,1) * ((x2 + x) div 2))
1: (x * loop(\(x,i).((x + ~1) * loop(\(x,i).5x,(x + ~2),x)),1,(x + ~1)))
1: (3 * loop(\(x,i).((x + 6) * loop(\(x,i).(2x + 2),x,2)),x,4))
1: (2 * loop(\(x,i).(x * loop(\(x,i).(2x + 2),x,2)),1,(x2 + 2x)))
1: (x * loop(\(x,i).(x * loop(\(x,i).(x * (x - i)),2,(x + ~2))),1,(x + ~2)))
1: (2 * loop(\(x,i).2x,(x + 4),x))
1: (2 * loop(\(x,i).2x,(1 + (((x + 1) + (((x + 1) + ((3 * (1 + (if x <= 0 then 0 else (2 * (1 - (x div 2)))))) div 2)) div 2)) div 2)),1))
1: (2 * loop(\(x,i).2x,(((3 * (2x + (x div 4))) div 2) + (x div 2)),2))
1: (2 * loop(\(x,i).2x,(((~x + 1) mod (1 + ((x - ((x div 3) mod 3)) div 2))) + (if x <= 0 then 0 else 1)),1))
1: (2 * loop(\(x,i).2x,(x + 2),(2 + loop(\(x,i).2x,(x div 2),(2 + (x mod 2))))))
1: (3 * loop(\(x,i).2x,(x + 2),(x + 1)))
1: (2 * loop(\(x,i).2x,(x + 2),x))
1: ((x + 1) * loop(\(x,i).2x,(0 - ((~x + 2) div (2 - (x div ~4)))),1))
1: (2 * loop(\(x,i).2x,((3x + 6) - loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),x,x)),1))
1: (2 * loop(\(x,i).2x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),2))
1: (3 * loop(\(x,i).2x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),2))
1: (5 * loop(\(x,i).2x,(((x + ~1) div 2) - ((3 * (x div 4)) div 2)),1))
1: (3 * loop(\(x,i).2x,((x mod 2) - (x div ~2)),2))
1: (x * loop(\(x,i).2x,(x + ~1),(5 - (x mod 2))))
1: (3 * loop(\(x,i).2x,(x + ~1),(3x + 1)))
1: (3 * loop(\(x,i).2x,(x + ~1),(x + 2)))
1: ((x + 5) * loop(\(x,i).2x,(x + ~1),(x + 2)))
1: ((x + 1) * loop(\(x,i).2x,(x + ~1),(x + 2)))
1: (2 * loop(\(x,i).2x,(x + ~1),(~1 - ((x + loop(\(x,i).(3x + ~1),2x,1)) div 2))))
1: (x * loop(\(x,i).2x,(x + ~1),(5x + ~1)))
1: (x * loop(\(x,i).2x,(x + ~1),(3x + 5)))
1: ((x + 1) * loop(\(x,i).2x,(x + ~1),(~1 + (if x <= 0 then 2 else ((x2 + 5x) div 2)))))
1: ((x + 1) * loop(\(x,i).2x,(x + ~1),loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))
1: (5 * loop(\(x,i).2x,(x + ~1),x))
1: ((x + 5) * loop(\(x,i).2x,(x + ~1),x))
1: (7 * loop(\(x,i).2x,(x + ~1),x))
1: ((3x + 1) * loop(\(x,i).2x,(x + ~1),x))
1: (9 * loop(\(x,i).2x,(x + ~1),x))
1: ((3x + ~1) * loop(\(x,i).2x,(x + ~1),x))
1: ((2x + ~1) * loop(\(x,i).2x,(x + ~1),x))
1: ((x2 + ~1) * loop(\(x,i).2x,(x + ~1),x))
1: ((x + ~1) * loop(\(x,i).2x,(x + ~1),x))
1: ((x + ~3) * loop(\(x,i).2x,(x + ~1),x))
1: (x * loop(\(x,i).2x,(x + ~1),x))
1: (2 * loop(\(x,i).2x,(x + ~2),loop(\(x,i).5x,(x + 1),2)))
1: (2 * loop(\(x,i).2x,(x + ~2),loop(\(x,i).(2x * i),x,2)))
1: ((x + 2) * loop(\(x,i).2x,(x + ~2),x))
1: ((x + ~1) * loop(\(x,i).2x,(x + ~2),x))
1: ((x + 2) * loop(\(x,i).2x,((x + 1) + ((3 * (x div (4 - ((x * (x div 2)) mod 2)))) div 2) - (x div 2)),1))
1: (x * loop(\(x,i).2x,(~1 + i),x))
1: (loop(\(x,i).2x,(~1 + i),i) * i * i)
1: (x * loop(\(x,i).2x,(2 * (~2 + (x * (x mod 2)))),x))
1: (2 * loop(\(x,i).2x,((2x + 1) div (3 + (x div 4))),2))
1: (2 * loop(\(x,i).2x,((1 + ((x * (x div 5)) div 3)) div 2),1))
1: (loop(\(x,i).2x,((x + ~1) div 2),(x div 2)) * (1 + (x div 2)))
1: (loop(\(x,i).2x,((x2 + ~x) div 2),1) * (1 + loop(\(x,i).2x,x,1)))
1: (2 * loop(\(x,i).2x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),2))
1: (2 * loop(\(x,i).2x,(x div 2),2))
1: (loop(\(x,i).2x,(x div 2),3) * (1 + (2 * (x mod 2))))
1: (3 * loop(\(x,i).2x,(x div 2),(1 + (2 * (1 + (x mod 2))))))
1: (2 * loop(\(x,i).2x,(x div 2),(1 + (2 * (2 + (x mod 2))))))
1: (loop(\(x,i).2x,(x div 2),(2 + (x mod 2))) * (2 + (x * (x mod 2))))
1: (5 * loop(\(x,i).2x,(x div 2),(2 - (x mod 2))))
1: (loop(\(x,i).2x,(x div 3),1) * (x mod 2))
1: (3 * loop(\(x,i).2x,(x div 3),7))
1: (2 * loop(\(x,i).2x,(x div 4),1))
1: ((8x + 5) * loop(\(x,i).2x,(x mod 5),1))
1: ((x + 5) * loop(\(x,i).2x,loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1))
1: ((2x + 1) * loop(\(x,i).2x,x,2))
1: (loop(\(x,i).2x,x,2) * (2 + (if x <= 0 then 1 else 2)))
1: (7 * loop(\(x,i).2x,x,3))
1: (9 * loop(\(x,i).2x,x,3))
1: ((2x + 3) * loop(\(x,i).2x,x,(x + 6)))
1: ((x2 + 2x + 1) * loop(\(x,i).2x,x,(2 + loop(\(x,i).2x,x,2))))
1: (2 * loop(\(x,i).2x,x,(~1 + loop(\(x,i).(2 * (x + i)),x,2))))
1: (2 * loop(\(x,i).2x,x,(~1 + loop(\(x,i).(x2 + ~x),1,loop(\(x,i).(2x + 2),2x,2)))))
1: ((x2 + 2x + 1) * loop(\(x,i).2x,x,(2x + 4)))
1: ((x2 + 2x + 1) * loop(\(x,i).2x,x,2x))
1: ((x + 1) * loop(\(x,i).2x,x,(if x <= 0 then 1 else loop(\(x,i).((x2 + ~x) div 2),3,x))))
1: (3 * loop(\(x,i).2x,x,loop(\(x,i).(1 + (x * i)),4,2)))
1: (2 * loop(\(x,i).2x,x,loop(\(x,i).(2 * (2x - (x div (1 + i)))),(2x + 1),2)))
1: (x * loop(\(x,i).2x,x,loop(\(x,i).x2,(x + ~1),2)))
1: (2 * loop(\(x,i).2x,x,loop(\(x,i).(x div 2),x,loop(\(x,i).(3x + 1),x,1))))
1: (3 * loop(\(x,i).2x,x,x))
1: ((x + ~1) * loop(\(x,i).2x,x,x))
1: (x2 * loop(\(x,i).2x,x,x))
1: (loop(\(x,i).2x,i,i) * i)
1: ((4x + 1) * loop(\(x,i).x2,1,(x + 7)))
1: (2 * loop(\(x,i).x2,1,((x + 4) + (x div 2))))
1: (2 * loop(\(x,i).x2,1,(11x + 5)))
1: (2 * loop(\(x,i).x2,1,(1 + ((x + 1) * (1 + loop(\(x,i).(x * (x + i)),2,4))))))
1: (2 * loop(\(x,i).x2,1,(x2 + 2x + 4)))
1: (2 * loop(\(x,i).x2,1,(8x + 81)))
1: (2 * loop(\(x,i).x2,1,(9x + 4)))
1: (2 * loop(\(x,i).x2,1,(25x + 24)))
1: (2 * loop(\(x,i).x2,1,(200x + 151)))
1: (2 * loop(\(x,i).x2,1,(49x + 48)))
1: (2 * loop(\(x,i).x2,1,(1 + ((3x + 3) * loop(\(x,i).(x2 + 2x),2,6)))))
1: (2 * loop(\(x,i).x2,1,(1 + ((x + 1) * loop(\(x,i).(x2 + 4x + 4),2,1)))))
1: (2 * loop(\(x,i).x2,1,(x + ((x + 1) * loop(\(x,i).(x * (x + i)),2,4)))))
1: (2 * loop(\(x,i).x2,1,(1 + ((x + 1) * loop(\(x,i).(7x2 + x + ~6),2,2)))))
1: (2 * loop(\(x,i).x2,1,(x + ((x + 1) * loop(\(x,i).(x * (x - i)),2,2x)))))
1: (2 * loop(\(x,i).x2,1,(1 + ((x + 1) * loop(\(x,i).(2x2 + 8x + 8),2,0)))))
1: (2 * loop(\(x,i).x2,1,(1 + (((2x + 1) + (x2 div 4)) div (x + 2)))))
1: (2 * loop(\(x,i).x2,1,(1 + (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))))
1: (2 * loop(\(x,i).x2,1,(1 + (x mod (1 + ((4 + (x div 2)) mod (1 + (x div 3))))))))
1: (2 * loop(\(x,i).x2,1,(x + (if (x + ~1) <= 0 then 1 else ((x div 2) - (((x + ~1) div 5) mod 2))))))
1: (2 * loop(\(x,i).x2,1,(x + loop(\(x,i).(x * (1 + i)),4,(x + 1)))))
1: (2 * loop(\(x,i).x2,1,(2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))))
1: (2 * loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x))))
1: (3 * loop(\(x,i).x2,1,(1 + compr(\x.(loop(\(x,i).(x3 + 2x),2,2x) mod (x + 1)),x))))
1: (3 * loop(\(x,i).x2,1,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (3 * loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) * (2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)))
1: (2 * loop(\(x,i).x2,1,((2x + 4) - (2x div 3))))
1: (2 * loop(\(x,i).x2,1,(25x + ~7)))
1: (2 * loop(\(x,i).x2,1,(200x + 49)))
1: (2 * loop(\(x,i).x2,1,(50x + 49)))
1: (2 * loop(\(x,i).x2,1,(~1 + ((3x + 3) * loop(\(x,i).(x2 + 2x),2,6)))))
1: (2 * loop(\(x,i).x2,1,(~1 + ((x + 1) * loop(\(x,i).(7x2 + x + ~6),2,2)))))
1: (2 * loop(\(x,i).x2,1,(~1 + ((x + 1) * loop(\(x,i).(2x2 + 8x + 8),2,0)))))
1: (2 * loop(\(x,i).x2,1,(~1 + ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2))))
1: (5 * loop(\(x,i).x2,1,(~1 + ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2))))
1: (2 * loop(\(x,i).x2,1,(~1 + (((x div 2) div ~2) div 2))))
1: (3 * loop(\(x,i).x2,1,(~1 + loop(\(x,i).2x,x,2))))
1: (3 * loop(\(x,i).x2,1,(~1 + loop(\(x,i).(x * i),x,2))))
1: (x * loop(\(x,i).x2,1,(~1 + loop(\(x,i).(x * i),x,3))))
1: (2 * loop(\(x,i).x2,1,((x + 1) - (x div ~9))))
1: (2 * loop(\(x,i).x2,1,((x + 1) - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x))))
1: (2 * loop(\(x,i).x2,1,(~8x + ~87)))
1: (2 * loop(\(x,i).x2,1,(4x3 + ~3x)))
1: (2 * loop(\(x,i).x2,1,(25x + ~18)))
1: (2 * loop(\(x,i).x2,1,(x2 * (x2 + loop(\(x,i).x3,2,x)))))
1: (x * loop(\(x,i).x2,1,(x4 + x3)))
1: (3 * loop(\(x,i).x2,1,(3 * (if x <= 0 then 4 else (2 + ((1 + loop(\(x,i).11x,x,3)) div (x + 1)))))))
1: (5 * loop(\(x,i).x2,1,(3 * loop(\(x,i).(10x + 1),x,1))))
1: (7 * loop(\(x,i).x2,1,(3 * loop(\(x,i).(10x + 1),x,1))))
1: ((x + 1) * loop(\(x,i).x2,1,((x3 + 3x2 + 4x + 2) div 2)))
1: ((x + 1) * loop(\(x,i).x2,1,((x2 + 3x + 2) div 2)))
1: ((x + 2) * loop(\(x,i).x2,1,((x2 + 3x + 2) div 2)))
1: (x * loop(\(x,i).x2,1,((x2 + 3x + 2) div 2)))
1: ((x + ~1) * loop(\(x,i).x2,1,(((x3 + ~3x2 + 2x) div 2) div 3)))
1: (2 * loop(\(x,i).x2,1,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))
1: (2 * loop(\(x,i).x2,1,loop(\(x,i).(3x + 2),4,x)))
1: ((x + 4) * loop(\(x,i).x2,1,loop(\(x,i).(x + (((2 + i) * (1 + i)) div 2)),x,1)))
1: (2 * loop(\(x,i).x2,1,loop(\(x,i).(x - (x div (~4 + (x div 4)))),x,1)))
1: ((x + 1) * loop(\(x,i).x2,1,loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)))
1: ((x + 2) * loop(\(x,i).x2,1,loop(\(x,i).3x,(x + 1),(x + 1))))
1: (x * loop(\(x,i).x2,1,loop(\(x,i).3x,(x + 1),(x + 1))))
1: (loop(\(x,i).x2,1,loop(\(x,i).(x * (1 + (if (i mod 2) <= 0 then 4 else 1))),x,1)) * (1 + (x mod 2)))
1: (2 * loop(\(x,i).x2,1,loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,x)))
1: (x * loop(\(x,i).x2,1,loop(\(x,i).(2 * (x - ((x * (2 - i)) div (1 + i)))),x,1)))
1: (x * loop(\(x,i).x2,1,loop(\(x,i).(2x * (~1 + (2 * i))),i,1)))
1: ((4x + 1) * loop(\(x,i).x2,1,loop(\(x,i).((2 * (x - (2x * i))) div (1 + i)),x,1)))
1: ((4x + 3) * loop(\(x,i).x2,1,loop(\(x,i).((2 * (x - (2x * i))) div (1 + i)),x,1)))
1: (x * loop(\(x,i).x2,1,loop(\(x,i).((2 * (x - (2x * i))) div (1 + i)),x,1)))
1: ((x + 1) * loop(\(x,i).x2,1,loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,1)))
1: ((x + 2) * loop(\(x,i).x2,1,loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,1)))
1: (2 * loop(\(x,i).x2,1,loop(\(x,i).loop(\(x,i).(2x + i),x,(i * i * i)),x,1)))
1: (x * loop(\(x,i).x2,1,compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)))
1: (3 * loop(\(x,i).x2,2,3))
1: (loop(\(x,i).x2,2,3) * loop(\(x,i).(2x + 1),x,0))
1: ((2x + 1) * loop(\(x,i).x2,2,4))
1: (x * loop(\(x,i).x2,2,4))
1: ((4x2 + 4x + 1) * loop(\(x,i).x2,2,(4x + 1)))
1: (3 * loop(\(x,i).x2,2,(x + 1)))
1: (7 * loop(\(x,i).x2,2,(x + 1)))
1: ((3x + 4) * loop(\(x,i).x2,2,(x + 1)))
1: (2 * loop(\(x,i).x2,2,(x + 2)))
1: (x * loop(\(x,i).x2,2,(1 + i)))
1: (2 * loop(\(x,i).x2,2,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: ((x + 1) * loop(\(x,i).x2,2,(2x + ~1)))
1: (5 * loop(\(x,i).x2,2,(~1 + loop(\(x,i).2x,x,2))))
1: ((x + ~1) * loop(\(x,i).x2,2,(x + ~1)))
1: (x * loop(\(x,i).x2,2,(x + ~1)))
1: (x * loop(\(x,i).x2,2,(x + ~2)))
1: ((x + 1) * loop(\(x,i).x2,2,6))
1: ((x + 1) * loop(\(x,i).x2,2,10))
1: (x * loop(\(x,i).x2,2,10))
1: ((x2 + 2x + 1) * loop(\(x,i).x2,2,(5x + 5)))
1: ((x + 1) * loop(\(x,i).x2,2,(5x + 5)))
1: (x * loop(\(x,i).x2,2,(10x + 4)))
1: (x * loop(\(x,i).x2,2,(10x + ~16)))
1: (2 * loop(\(x,i).x2,2,(2x2 + 4x + 2)))
1: (x * loop(\(x,i).x2,2,8x))
1: (x * loop(\(x,i).x2,2,20x))
1: (x2 * loop(\(x,i).x2,2,x5))
1: ((x3 + 1) * loop(\(x,i).x2,2,x2))
1: ((x2 + 1) * loop(\(x,i).x2,2,x2))
1: ((x + 1) * loop(\(x,i).x2,2,x2))
1: ((x + ~1) * loop(\(x,i).x2,2,x2))
1: (x2 * loop(\(x,i).x2,2,((x2 + ~x) div 2)))
1: ((x + 1) * loop(\(x,i).x2,2,((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)))
1: ((x2 + 2x + 1) * loop(\(x,i).x2,2,loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1)))
1: ((x + 1) * loop(\(x,i).x2,3,3))
1: (2 * loop(\(x,i).x2,4,4))
1: (2 * loop(\(x,i).x2,(x + 2),2))
1: (x * loop(\(x,i).x2,(1 + i),x))
1: (2 * loop(\(x,i).x2,(2x + ~1),4))
1: ((x + 1) * loop(\(x,i).x2,(x2 + ~1),2))
1: (x * loop(\(x,i).x2,(x2 + ~2),2))
1: (4 * loop(\(x,i).x2,(x2 + ~2),x))
1: (2 * loop(\(x,i).x2,(x + ~1),x5))
1: (x * loop(\(x,i).x2,(x + ~2),(x2 + 1)))
1: (x * loop(\(x,i).x2,(x + ~2),x5))
1: (x * loop(\(x,i).x2,(x + ~2),((x3 + x2 + 2x + 2) div 2)))
1: (2 * loop(\(x,i).x2,(x + ~2),loop(\(x,i).2x,x2,2)))
1: (2 * loop(\(x,i).x2,(x - ((~x + 2) div 2)),2))
1: (2 * loop(\(x,i).x2,(~1 + i),2x))
1: (x * loop(\(x,i).x2,(x2 + ~2x),x))
1: (2 * loop(\(x,i).x2,4x,4))
1: (2 * loop(\(x,i).x2,2x2,2))
1: (2 * loop(\(x,i).x2,x2,2))
1: (2 * loop(\(x,i).x2,(x mod 2),7))
1: (x * loop(\(x,i).x2,i,(1 + (2 * i))))
1: (x * loop(\(x,i).x2,i,(1 + i)))
1: ((x + 1) * loop(\(x,i).(x * i),(x + ~1),(x + 1)))
1: ((x + ~1) * loop(\(x,i).(x * i),(x + ~1),(x + 1)))
1: (loop(\(x,i).(x * i),(x + ~1),(x + 1)) * (if x <= 0 then 2 else (x2 + 2x + 1)))
1: ((x + ~1) * loop(\(x,i).(x * i),(x + ~1),(x + 2)))
1: (4 * loop(\(x,i).(x * i),(x + ~1),x))
1: (5 * loop(\(x,i).(x * i),(x + ~1),x))
1: (9 * loop(\(x,i).(x * i),(x + ~1),x))
1: (loop(\(x,i).(x * i),(x + ~1),x) * (1 + (x mod 2)))
1: (x * loop(\(x,i).(x * i),(x + ~2),loop(\(x,i).(2x + 1),(x + ~1),0)))
1: (loop(\(x,i).(x * i),(x + ~2),x) * (1 + (x mod 2)))
1: (x * loop(\(x,i).(x * i),(x + ~2),x))
1: ((x + 1) * loop(\(x,i).(x * i),3x,1))
1: (2 * loop(\(x,i).(x * i),(2x + ~2),x))
1: (2 * loop(\(x,i).(x * i),2x,(1 + (x mod (1 + ((x2 + 2x) mod 8))))))
1: (2 * loop(\(x,i).(x * i),2x,x))
1: (2 * loop(\(x,i).(x * i),x2,2))
1: (5 * loop(\(x,i).(x * i),x,2))
1: ((x + 3) * loop(\(x,i).(x * i),x,(x + 2)))
1: (loop(\(x,i).(x * i),x,((x + ~1) div 2)) * ((x + 1) div 2))
1: (loop(\(x,i).(x * i),x,(x div 2)) * (1 + (x div 2)))
1: ((x + 1) * loop(\(x,i).(x * i),x,loop(\(x,i).(2 * (x - (2x * i))),2x,1)))
1: (4 * loop(\(x,i).(x * i),x,x))
1: ((x + 3) * loop(\(x,i).(x * i),x,x))
1: ((x + 2) * loop(\(x,i).(x * i),x,x))
1: (x2 * loop(\(x,i).(x * i),x,x))
1: (loop(\(x,i).(i * i),(x + ~1),1) * loop(\(x,i).(2x + 2),x,0))
1: (2 * loop(\(x,i).(i * i),(x + ~2),0))
1: (x * loop(\(x,i).((1 + (x2 div 8)) div 2),2,(x + ~1)))
1: (x * loop(\(x,i).((1 + (x2 div 8)) div 2),2,(x + ~2)))
1: (x * loop(\(x,i).((1 + (x2 div 8)) div 2),2,x))
1: (2 * loop(\(x,i).(8 div (x + 1)),2,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))
1: (2 * loop(\(x,i).(8 div (x + 1)),2,x))
1: (2 * loop(\(x,i).((x2 + 5x) div 2),2,x))
1: ((x + 2) * loop(\(x,i).((x * (4 + (i mod 2))) div 2),x,1))
1: ((x + 3) * loop(\(x,i).((x2 + x) div 2),2,(x + 1)))
1: ((2x + 3) * loop(\(x,i).((x2 + x) div 2),2,(x + 1)))
1: ((3x + 1) * loop(\(x,i).((x2 + x) div 2),x,2))
1: (2 * loop(\(x,i).((x2 + x) div 2),x,loop(\(x,i).x3,(x + 1),2)))
1: ((x + 1) * loop(\(x,i).((x2 + 2x) div 4),1,(x + 3)))
1: (2 * loop(\(x,i).((x2 + 2x) div 16),2,x))
1: (loop(\(x,i).((x * (2 + i)) div (1 + (i div 2))),x,1) * (1 + (x div 2)))
1: (3 * loop(\(x,i).((5x2 + ~x) div 2),1,loop(\(x,i).4x,x,1)))
1: (x * loop(\(x,i).((x2 + ~x) div 2),2,(x + 3)))
1: ((x + 3) * loop(\(x,i).((x2 + ~x) div 2),2,(x + 4)))
1: ((x + 4) * loop(\(x,i).((x2 + ~x) div 2),2,(x + 4)))
1: ((x + 1) * loop(\(x,i).((x2 + ~x) div 2),2,(x + 4)))
1: ((x + 2) * loop(\(x,i).((x2 + ~x) div 2),2,(x + 4)))
1: (2 * loop(\(x,i).((x2 + ~x) div 2),2,(x + ~1)))
1: (3 * loop(\(x,i).((x2 + ~x) div 2),2,(x + ~1)))
1: (5 * loop(\(x,i).((x2 + ~x) div 2),2,(x + ~1)))
1: ((x + 1) * loop(\(x,i).((x2 + ~x) div 2),2,(x + ~1)))
1: ((x + 2) * loop(\(x,i).((x2 + ~x) div 2),2,x))
1: (x * loop(\(x,i).((x2 + ~x) div 2),2,x))
1: (x * loop(\(x,i).((x2 + ~x) div 2),3,(x + ~2)))
1: (2 * loop(\(x,i).((x2 + ~x) div 2),(x + ~1),(1 + (x mod 3))))
1: ((x + 3) * loop(\(x,i).((x2 + ~x) div (1 + i)),2,(x + 3)))
1: ((x + 2) * loop(\(x,i).((x2 + ~x) div (1 + i)),2,(x + 3)))
1: (x * loop(\(x,i).((x2 + ~x) div (1 + i)),2,(x + 4)))
1: ((3x + 1) * loop(\(x,i).((2 * (x - (2x * i))) div (1 + i)),2x,1))
1: ((2x2 + 4x + 1) * loop(\(x,i).((2 * (x - (2x * i))) div (1 + i)),2x,1))
1: (loop(\(x,i).((2 * (x - (2x * i))) div (1 + i)),x,1) * loop(\(x,i).(~2x + 1),x,1))
1: (x * loop(\(x,i).((x3 + 7x2 + 14x + 8) div 2),1,(x + 3)))
1: (2 * loop(\(x,i).((2x * (4 + i)) div (1 + i)),2x,2))
1: (x * loop(\(x,i).((2x * (1 + (2 * i))) div (3 + i)),(x + 1),2))
1: ((x2 + 4x + 5) * loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x + 1),1))
1: ((x + 1) * loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x + 1),(x + 2)))
1: ((2x + 1) * loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),3x,1))
1: ((2x + 1) * loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),2x,1))
1: (loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x div 2),(1 + (x mod 2))) * (1 + (x div 2)))
1: ((x2 + 2x + 1) * loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,2))
1: ((x + 1) * loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + (i div 2))),2x,1))
1: ((x + 1) * loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),(2x + ~1),1))
1: (2 * loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),(x + ~1),~x))
1: (2 * loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),(x + ~1),(3x + ~1)))
1: (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),(x + ~2),x) * ((x + ~1) div 2))
1: (2 * loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),((x + ~1) div 2),1))
1: ((x + 1) * loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),((x + ~1) div 2),1))
1: ((7x + 3) * loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1))
1: (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) * (loop(\(x,i).(3x + ~1),x,2) div 2))
1: (3 * loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,x))
1: (4 * loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,x))
1: ((x2 + x + 1) * loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,x))
1: (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,x) * (~1 + (2 * (x mod 2))))
1: (x * loop(\(x,i).((2x * (~1 + (2 * i))) div (2 + i)),x,3x))
1: (x * loop(\(x,i).((x3 + ~3x2 + 2x) div 5),2,x))
1: ((x + 1) * loop(\(x,i).((4x * (~1 + (2 * i))) div (2 + i)),(x + 1),1))
1: ((x + 1) * loop(\(x,i).((x3 + x2) div 2),2,x))
1: (x * loop(\(x,i).((x * (i * (1 + i))) div 2),i,1))
1: (3 * loop(\(x,i).(x2 div (2 + (x mod 2))),2,(x + 1)))
1: (3 * loop(\(x,i).(((1 + loop(\(x,i).4x,x,2) - loop(\(x,i).3x,x,3)) div 2) div 2),1,3x))
1: (x * loop(\(x,i).(loop(\(x,i).(2x * (~1 + (2 * i))),(x + ~2),x) div 2),1,(x + ~1)))
1: (2 * loop(\(x,i).(loop(\(x,i).2x,x,3) div 2),x,0))
1: (10 * loop(\(x,i).(x div 3),(x div 2),(2 + (x mod 2))))
1: (9 * loop(\(x,i).(x div (1 + (x mod 2))),x,x))
1: (2 * loop(\(x,i).(x div (2 - (x mod 2))),2,x))
1: (loop(\(x,i).(x div (2 - (x mod 2))),2,x) * (x div 3))
1: (2 * loop(\(x,i).(x div (2 - (x mod 2))),3,(x + 1)))
1: (2 * loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))
1: (2 * loop(\(x,i).(x div (2 - (x mod 2))),x,loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),x,1)))
1: (8 * loop(\(x,i).(x div (2 - (x mod 2))),x,x))
1: (x * loop(\(x,i).(x div (2 - (x mod 2))),x,x))
1: (5 * loop(\(x,i).(i div 3),((2 - (2x mod (4 + (x div 4)))) mod (x + 1)),1))
1: (3 * loop(\(x,i).((x + 2) mod (1 + i)),x,0))
1: (2 * loop(\(x,i).(x5 mod 31),2,x))
1: (3 * loop(\(x,i).(x3 mod 47),2,x))
1: (2 * loop(\(x,i).(if (x + ~1) <= 0 then i else (x + ~1)),x,0))
1: (2 * loop(\(x,i).(if (~x + i) <= 0 then x else 2x),x,1))
1: (2 * loop(\(x,i).(if (x * (x - i)) <= 0 then (x + ~1) else 1),(x div 2),(x div 2)))
1: (2 * loop(\(x,i).(if (loop(\(x,i).x2,4,2) mod (x + 1)) <= 0 then x else (x + 1)),(x div 2),x))
1: (3 * loop(\(x,i).(if (x mod 4) <= 0 then (x div 2) else x),x,(x + 1)))
1: ((x + 1) * loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x + 2)))
1: (x * loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),(x + ~2),x2))
1: (x * loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),(x + ~2),x))
1: (2 * loop(\(x,i).(if x <= 0 then 1 else (x + (3 * (x + (i mod 2))))),x,0))
1: (x * loop(\(x,i).(if x <= 0 then 1 else (2 * (1 + ((1 + (((1 + loop(\(x,i).(x * i),(x + ~1),1)) div 2) div 2)) div 2)))),1,(x + ~1)))
1: (2 * loop(\(x,i).(if x <= 0 then 1 else (2 * (x - (if (~x + i) <= 0 then 1 else 0)))),x,0))
1: (2 * loop(\(x,i).(if x <= 0 then 1 else (2x * ((x + ~1) + (3 * (1 + loop(\(x,i).loop(\(x,i).5x,x,1),(i - (x mod 3)),loop(\(x,i).5x,x,1))))))),x,0))
1: (x * loop(\(x,i).(if x <= 0 then 1 else (x * ((1 + i) * (1 + (2 * i))))),x,0))
1: (x * loop(\(x,i).(if x <= 0 then 1 else (2 * ((1 + loop(\(x,i).(3x * i),x,1)) div 2))),1,(x + ~1)))
1: ((x + 1) * loop(\(x,i).(if x <= 0 then (x + 1) else (2 - loop(\(x,i).(x - (2 * (~2x + (i mod 2)))),x,0))),x,1))
1: (3 * loop(\(x,i).(if x <= 0 then i else (x + ~1)),x,0))
1: (2 * loop(\(x,i).(if x <= 0 then i else (x div 2)),x,0))
1: (3 * loop(\(x,i).(if x <= 0 then i else (x div 2)),x,0))
1: (2 * loop(\(x,i).(if x <= 0 then i else (x div 2)),x,1))
1: (2 * loop(\(x,i).loop(\(x,i).((2x + 2) + i),x,0),(x mod 2),(x div 2)))
1: (2 * loop(\(x,i).loop(\(x,i).(2 + (x * i)),x,2),x,1))
1: (2 * loop(\(x,i).loop(\(x,i).(2 + (x2 div (x + 4))),2,x),2,x))
1: (2 * loop(\(x,i).loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then 2 else 0)),x,(x + 2)),(x + 6),1))
1: (2 * loop(\(x,i).loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then 2 else 0)),x,(x + 2)),(x + 4),1))
1: (2 * loop(\(x,i).loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then 2 else 0)),x,(x + 2)),(x + ~1),1))
1: (3 * loop(\(x,i).loop(\(x,i).(3x + ~1),x,2),x,1))
1: (2 * loop(\(x,i).loop(\(x,i).3x,(x2 div 4),1),x,2))
1: (x * loop(\(x,i).loop(\(x,i).(x4 + x),1,(2x + 1)),1,3x))
1: (2 * loop(\(x,i).loop(\(x,i).(4x + 2),i,1),(x + ~2),x))
1: ((x + 1) * loop(\(x,i).loop(\(x,i).(x2 + x),x,x),(x + ~1),1))
1: (2 * loop(\(x,i).loop(\(x,i).2x2,1,(x3 + x)),2x,1))
1: (2 * loop(\(x,i).loop(\(x,i).x3,4,2),(x + ~2),loop(\(x,i).6x,x,1)))
1: ((x + 1) * loop(\(x,i).loop(\(x,i).2x,(x + ~2),(3 * i)),x,1))
1: ((x + 2) * loop(\(x,i).loop(\(x,i).2x,x,(2 + (i div 2))),x,0))
1: (2 * loop(\(x,i).loop(\(x,i).2x,x,(x + 2)),1,compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: ((x + 1) * loop(\(x,i).loop(\(x,i).x2,1,(3x + 2)),2,1))
1: (2 * loop(\(x,i).loop(\(x,i).x2,1,(x2 + x + 1)),1,loop(\(x,i).10x,x,1)))
1: (3 * loop(\(x,i).loop(\(x,i).x2,x,2),x,(~x + 1)))
1: ((x + 1) * loop(\(x,i).loop(\(x,i).(x * i),x,2),x,1))
1: (x * loop(\(x,i).loop(\(x,i).(x * i),x,(if (x + ~2) <= 0 then x else 1)),1,(x + ~1)))
1: (x * loop(\(x,i).loop(\(x,i).(if x <= 0 then 3 else (loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2)),2,x),2,x))
1: (2 * loop(\(x,i).i,(~4 + (x div 2)),1))
1: (2 * loop(\(x,i).i,(~2 + (x div 2)),1))
1: (2 * loop(\(x,i).i,(~2 + (x div 2)),x))
1: (9 * loop(\(x,i).i,(x + ~9),1))
1: (x * loop(\(x,i).i,(x + ~9),1))
1: (2 * loop(\(x,i).i,(x + ~9),x))
1: (2 * loop(\(x,i).i,(x + ~6),2))
1: (2 * loop(\(x,i).i,(x + ~8),1))
1: (3 * loop(\(x,i).i,(x + ~8),1))
1: (9 * loop(\(x,i).i,(x + ~8),1))
1: (x * loop(\(x,i).i,(x + ~8),1))
1: (x * loop(\(x,i).i,(x + ~10),1))
1: (3 * loop(\(x,i).i,(2 * ((2 * (1 + (2 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))) div 3)),1))
1: (2 * loop(\(x,i).i,((1 + (x div (1 + ((~1 + loop(\(x,i).2x,x,2)) mod (x + 2))))) div 2),1))
1: ((x + 1) * loop(\(x,i).i,((x + 1) div 5),1))
1: (9 * loop(\(x,i).i,(((x + ~1) div 2) div 2),1))
1: (loop(\(x,i).i,(x div 4),1) * ((~x + 2) mod 3))
1: (loop(\(x,i).i,(x div 4),1) * (x mod 4))
1: (2 * loop(\(x,i).i,(x div 5),1))
1: (5 * loop(\(x,i).i,((x2 + 2x) mod 6),1))
1: (loop(\(x,i).i,(x mod 4),1) * loop(\(x,i).i,(x div 4),1))
1: (2 * loop(\(x,i).compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x),1,((x2 + x) div 2)))
1: (2 * compr(\x.(1 + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then x else 3)),x,x)),x))
1: (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(5x + 4))),x))
1: (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(5x + 2))),(x + 1)))
1: (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x2 + 2x + 5))),x))
1: (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(8x + 1))),x))
1: (4 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(4x + 1))),x))
1: (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(6x + 1))),x))
1: (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(6x + 2))),x))
1: (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x2 + 1))),x))
1: (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(5x + ~1))),x))
1: (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(x2 + x + ~1))),x))
1: (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(9x + ~1))),x))
1: (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(8x + ~1))),x))
1: (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(7x + ~2))),x))
1: (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(6x + 4))),x))
1: (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,13x)),x))
1: (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x2 + 2x + 2))),x))
1: (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x2 + 2x + 4))),x))
1: (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x2 + 4))),x))
1: (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(8x + 4))),x))
1: (4 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,8x)),x))
1: (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,8x)),x))
1: (8 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,8x)),x))
1: (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,4x)),x))
1: (2 * compr(\x.(1 - ((x + 1) mod (1 + (x div (2 + ((x div 4) mod 3)))))),x))
1: (2 * compr(\x.(1 - ((~x + (x2 div 8)) mod 4)),x))
1: (2 * compr(\x.(1 - ((x + ~4) mod (2 - (x div ~4)))),(x + 1)))
1: (2 * compr(\x.(1 - ((2x + ~4) mod (2 + (2x div (2 + (x div 4)))))),x))
1: (2 * compr(\x.(1 - ((x * (x mod (2 + (x mod 2)))) mod 5)),x))
1: (2 * compr(\x.(1 - (2x mod (2 + ((x div 2) + (x mod 3))))),x))
1: (2 * compr(\x.(1 - (2x mod (1 + (x div 4)))),x))
1: (2 * compr(\x.(1 - ((((1 - (x mod 4)) mod (x + 1)) mod 3) mod 2)),x))
1: (2 * compr(\x.(1 - (x mod (1 + (2 * (1 + ((x div 2) mod 3)))))),(x + 1)))
1: (3 * compr(\x.(1 - (x mod (1 + (2 * (2 - ((~1 + (x mod 4)) div 2)))))),x))
1: (2 * compr(\x.(1 - (x mod (1 + (4 * (x mod 2))))),(x + 1)))
1: (2 * compr(\x.(1 - (x mod (2 + (3 * ((x div 2) mod 3))))),(x + 1)))
1: (3 * compr(\x.(1 - (x mod (1 + (2 * (x mod (2 + (x mod 2))))))),x))
1: (2 * compr(\x.(1 - (x mod (1 + ((x - (x div ~4)) mod 3)))),x))
1: (2 * compr(\x.(1 - (x mod (1 + (2x mod (1 + (x div 2)))))),x))
1: (2 * compr(\x.(1 - (x mod (1 + (x mod 4)))),x))
1: (2 * compr(\x.(1 - (x mod (1 + (if (x mod 2) <= 0 then 6 else 0)))),x))
1: (3 * compr(\x.(1 - (x mod (1 + (if (x mod 8) <= 0 then 2 else 1)))),x))
1: (2 * compr(\x.(1 - loop(\(x,i).(~2 + (loop(\(x,i).(1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),2,x) mod (x + 1))),2,x)),x))
1: (2 * compr(\x.(1 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,7x)),x))
1: (4 * compr(\x.(1 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(8x2 + 8x))),x))
1: (4 * compr(\x.(1 - loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,8x)),x))
1: (2 * compr(\x.(1 - loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,4x)),x))
1: (2 * compr(\x.(1 - loop(\(x,i).(loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2),2,x)),x))
1: (2 * compr(\x.(1 - loop(\(x,i).(x div (if (x mod 2) <= 0 then ~2 else 1)),x,x)),2x))
1: (2 * compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 4x))),(x + 1)))
1: (2 * compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(3x + 1))),x))
1: (3 * compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(3x + 1))),x))
1: (2 * compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(3x + 2))),x))
1: (2 * compr(\x.(2 - ((x + 1) mod (1 + (6 * (2x mod 3))))),x))
1: (2 * compr(\x.(2 - ((x + 1) mod (1 + (2 * (if ((x + 1) mod 8) <= 0 then 2 else 1))))),x))
1: (2 * compr(\x.(2 - ((x + 1) mod (1 + (2 * (if (((x + 1) div 2) mod 6) <= 0 then 2 else 0))))),x))
1: (3 * compr(\x.(2 - ((x2 - ((x div 4) mod 2)) mod 5)),x))
1: (5 * compr(\x.(2 - (3x mod 13)),x))
1: (3 * compr(\x.(2 - (x mod (3 + (x mod 8)))),x))
1: (3 * compr(\x.(2 - (x mod (1 + (2 * (1 + (4 * (x mod 2))))))),x))
1: (2 * compr(\x.(2 - (x mod (1 + (2 * (loop(\(x,i).(x2 + x),2,8) mod (x + 1)))))),x))
1: (3 * compr(\x.(2 - (x mod (3 * (2 + (if ((x + ~1) mod 4) <= 0 then 2 else 1))))),x))
1: (2 * compr(\x.(2 - (x mod loop(\(x,i).4x,(1 - loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x)),1))),x))
1: (2 * compr(\x.(2 - loop(\(x,i).(0 - (if (x mod (1 + i)) <= 0 then 0 else x)),(x div 2),x)),x))
1: (3 * compr(\x.(2 - loop(\(x,i).(0 - (if (x mod (1 + i)) <= 0 then 0 else x)),(x div 2),x)),x))
1: (2 * compr(\x.(2 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),28,x)),x))
1: (3 * compr(\x.(2 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(3x + 1))),x))
1: (2 * compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(~2 + (x div 2)),x)),x))
1: (4 * compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(4x + 1))),x))
1: (2 * compr(\x.((x + 2) - (3 * (~2 + ((x - (x div 4)) div 2)))),(x + 1)))
1: (3 * compr(\x.(2 - ((x mod 2) + (x mod (1 + (3 * (2x mod 7)))))),x))
1: (2 * compr(\x.(~1 + (x mod 4) - (x mod 5)),x))
1: (2 * compr(\x.((((x + ~1) div (2 + (x div 5))) mod 2) - (x mod 2)),x))
1: (3 * compr(\x.(~1 + (loop(\(x,i).4x,x,1) mod (2x + 1))),x))
1: (2 * compr(\x.(~1 + (loop(\(x,i).x2,2,x2) mod (2x + 1))),x))
1: (2 * compr(\x.((x mod 2) - (((x + ~1) mod (1 + ((1 + (x div 2)) div 2))) div 2)),(x + 1)))
1: (2 * compr(\x.(~1 + (x mod (1 + (2 * (if (x mod 2) <= 0 then (x div 4) else 1))))),x))
1: (2 * compr(\x.(~1 + loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),x,2x)),2,x)),(x + 1)))
1: (2 * compr(\x.(x - loop(\(x,i).loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),x,(2x + 1)),2,x)),x))
1: (5 * compr(\x.((x mod 4) * (x div 3)),(1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))))
1: (2 * compr(\x.((x mod 10) * (x mod 3)),(x + 1)))
1: (2 * compr(\x.(((0 - (x mod (1 + (2 * (if (x mod 3) <= 0 then 0 else 2))))) mod (x + 1)) div 2),(x + 1)))
1: (2 * compr(\x.((2 + (x mod (1 + (2 * (if (x mod 6) <= 0 then 2 else 1))))) mod 3),x))
1: (3 * compr(\x.((1 + (x mod (1 + (x mod 6)))) mod 3),x))
1: (2 * compr(\x.((1 + loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x + ~2),x)) mod 3),x))
1: (2 * compr(\x.((1 + loop(\(x,i).loop(\(x,i).(~x + i),x,x),x,x)) mod 2),x))
1: (2 * compr(\x.((x + 1) mod (1 + ((x + (2 * (x mod 2))) div 5))),x))
1: (2 * compr(\x.((x + 1) mod (1 + (x div (2 + (if (x mod 2) <= 0 then 1 else 8))))),x))
1: (2 * compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))
1: (2 * compr(\x.((x + ~1) mod (x - ((x + 1) mod 11))),x))
1: (2 * compr(\x.((x2 + x) mod loop(\(x,i).(x2 + 2x + 1),2,2)),x))
1: (2 * compr(\x.((x2 + x) mod loop(\(x,i).(10x + 4),2,1)),x))
1: (2 * compr(\x.(((x + 1) * (x mod 4)) mod 5),x))
1: (2 * compr(\x.(((1 + ((x + (3 * (x2 div 3))) div 2)) div 2) mod 2),(x + 1)))
1: (2 * compr(\x.((12 mod (x + 2)) mod 2),x))
1: (2 * compr(\x.(loop(\(x,i).(x * (1 + (i div 2))),x,1) mod (x + 1)),x))
1: (x * compr(\x.(loop(\(x,i).(x * (1 + (i div 2))),x,1) mod (x + 1)),i))
1: (2 * compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x))
1: (3 * compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x))
1: (3 * compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: ((2x + 5) * compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: (2 * compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i))
1: (x * compr(\x.(loop(\(x,i).(~2x + 2),x,0) mod (x + 1)),i))
1: (2 * compr(\x.(loop(\(x,i).(~2x + 2),x,2) mod (x + 2)),x))
1: (2 * compr(\x.(loop(\(x,i).4x2,2,3) mod (x + 1)),x))
1: (2 * compr(\x.(loop(\(x,i).2x,x,(~1 + (loop(\(x,i).2x,x,2) mod (x + 2)))) mod (x + 1)),x))
1: (2 * compr(\x.(x mod (1 + (4 * (x mod (2 + (x mod 2)))))),(x + 3)))
1: ((x + 1) * compr(\x.(x mod (1 + (4 * (x mod (2 + (x mod 2)))))),(x + 3)))
1: (2 * compr(\x.(if (x mod 2) <= 0 then (if x <= 0 then 1 else (x2 mod (x + 6))) else 0),x))
1: (2 * compr(\x.(if x <= 0 then 1 else (~2 + (loop(\(x,i).2x,x,(if (x mod 3) <= 0 then 0 else 2)) mod (x + 1)))),x))
1: (2 * compr(\x.loop(\(x,i).(2 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(4x + ~1))),1,(2x + 1)),x))
1: (2 * compr(\x.loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),2,x),x))
1: (2 * compr(\x.loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(3x + 1)),x))
1: (3 * compr(\x.loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(3x + 1)),x))
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1: (2 * compr(\x.loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,2x),(x + 1)))
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1: (2 * compr(\x.loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),2,x),x))
1: (2 * compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),(5x + 1)))
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1: (2 * compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),(7x + 1)))
1: (2 * compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),(8x + 1)))
1: (2 * compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),7x))
1: (2 * compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),8x))
1: (5 * compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,(x + 2)),x))
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1: (2 * compr(\x.loop(\(x,i).(if (x mod 4) <= 0 then x else (x div 2)),x,x),x))
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1: (2 div ((x2 + 2) mod (1 + (2 * (4 + (x div 4))))))
1: (2 div ((1 + ((loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) + loop(\(x,i).2x,x,2)) div 2)) mod 7))
1: (2 div ((2 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 8)) mod 5))
1: (2 div ((2 - (x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2))) mod 7))
1: (2 div ((x2 + ~2) mod (x + 5)))
1: (2 div ((x2 + ~2) mod (x + 8)))
1: (2 div ((x2 + ~2) mod (2x + 8)))
1: (2 div ((2x + 2) mod (8 + (x mod 2))))
1: (2 div ((2x + 2) mod (1 + (2 * (2 + (((x + 1) mod 7) mod 2))))))
1: (2 div ((if (((x + 1) div (2 + (x mod 4))) mod 2) <= 0 then 2 else x) mod 4))
1: (2 div (if (~1 + ((1 + (if ((x + ~2) mod 5) <= 0 then 1 else x)) mod 3)) <= 0 then 2 else x))
1: (2 div (if (~2 + (x mod 8)) <= 0 then 2 else (x + ~1)))
1: (2 div (if (x + ~2) <= 0 then 2 else (x + ~2)))
1: (2 div (if ((x + ~2) mod 5) <= 0 then x else 2))
1: (2 div (if ((x + ~2) mod 6) <= 0 then x else 2))
1: (2 div (if ((x + ~2) mod 8) <= 0 then x else 1))
1: (2 div (if ((x - (2 * (((x + 1) div 2) div 3))) mod 3) <= 0 then 2 else x))
1: (2 div (if ((x div 2) mod 4) <= 0 then 2 else x))
1: (2 div (if ((x div 2) mod (1 + (2 * (1 + (x mod 2))))) <= 0 then 2 else x))
1: (2 div (if ((x div 2) mod (1 + (2x mod 3))) <= 0 then 2 else x))
1: (2 div (if ((x div 4) mod 2) <= 0 then 2 else (x + ~2)))
1: (2 div (if (x mod 3) <= 0 then 2 else x))
1: (2 div (if x <= 0 then 2 else (1 + ((x + loop(\(x,i).((x + ~1) + (2x mod (2 - (x mod ~4)))),2,x)) mod 3))))
1: (2 div (if x <= 0 then 2 else (1 + (x mod (2 + ((~x2 mod (2 + (x div 2))) div 2))))))
1: (2 div (if x <= 0 then 2 else (1 + (x mod (1 + ((2 + (x div 3)) mod 6))))))
1: (2 div (if x <= 0 then 2 else (~1 + (2 * (x - (loop(\(x,i).3x,x,3) mod (x + 1)))))))
1: (2 div (if x <= 0 then 2 else (if (x mod 3) <= 0 then (x div 3) else 1)))
1: (2 div (if x <= 0 then 3 else x))
1: (2 div loop(\(x,i).(1 + ((2x + 1) mod (4 + (x div 4)))),2,x))
1: (2 div loop(\(x,i).(1 + ((~1 + (2 * (if (x + ~1) <= 0 then 2 else (2x + ~1)))) mod (x + 2))),2,x))
1: (2 div loop(\(x,i).(1 + loop(\(x,i).(x div (2 - ((x * (x div 2)) mod 2))),x,2x)),2,x))
1: (2 div loop(\(x,i).(if (~x + i) <= 0 then 1 else 2x),x,2))
1: (2 div loop(\(x,i).i,(~2 + ((x + ~2) div 3)),2))
1: (2 div loop(\(x,i).i,(~2 + (x div 2)),1))
1: (2 div loop(\(x,i).i,(x + ~10),2))
1: (3 div ((x + 2) + ((((~x + 2) * (x div 2)) div 2) div 3)))
1: (3 div (1 + (2 * ((2 + ((2x2 + ~1) mod (4 + (x div 4)))) div 3))))
1: (3 div (1 + (2 * loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x))))
1: (3 div (1 + (x div 4)))
1: (3 div (1 + ((2 + (x * (x div 2))) mod (x + 3))))
1: (3 div (1 + ((x + 2) mod 5)))
1: (3 div (1 + ((~1 + (2x2 mod (4 + (x div 4)))) mod (x + 3))))
1: (3 div (1 + ((x2 + x) mod ((x + 4) + (x div 4)))))
1: (3 div (1 + (x2 mod (3x + ~1))))
1: (3 div (3 + (x mod 2) - (x div 5)))
1: (3 div (8 - ((x + ~1) div 2)))
1: (3 div (8 - (x div 2)))
1: (3 div (~x + (3 * (2 + (((x + 1) div 2) div 2)))))
1: (3 div (~x + 16))
1: (3 div (2 * (1 + (2 * loop(\(x,i).(x2 + 2x),1,loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x))))))
1: (3 div ((2 * (2 + ((2x + 1) mod (4 + (x div 4))))) div 3))
1: (3 div (if (x + ~4) <= 0 then 2 else (x div 4)))
1: (3 div (if x <= 0 then 1 else x))
1: (4 div (4 + (x mod 3) - (x div 4)))
1: (4 div (2 + (x div 3)))
1: (4 div (1 + ((1 + (if x <= 0 then 1 else x)) mod 3)))
1: (4 div (2 + ((x + 1) mod 16)))
1: (4 div (1 + ((~x + 2) mod 3)))
1: (4 div (2 + ((3x + 3) mod 8)))
1: (4 div (2 + ((4 * (2 + (16 mod (x + 1)))) mod 7)))
1: (4 div (1 + (((x + 2) mod 5) mod 4)))
1: (4 div (1 + (x mod 3)))
1: (4 div (2 + (x mod 6)))
1: (4 div (5 + (x mod 2) - (x div 3)))
1: (4 div (~x + 16))
1: (4 div ((x + 2) div loop(\(x,i).(1 + (i div (x + 2))),x,1)))
1: (4 div ((x - (3 * (~3 + (x div 2)))) div 2))
1: (4 div (24 div (x + 4)))
1: (4 div ((1 - loop(\(x,i).(3 * ((x + ~1) div 2)),x,0)) mod 5))
1: (5 div (3 - ((2x + 1) mod (1 + (2x mod (2 + (x div 4)))))))
1: (((2x + 5) + (((3x + 4) - (x div 2)) * ((x + 1) div 2))) div 3)
1: (((3x + 3) + ((2 * (x - ((x - (x div 3)) div 3))) + (((x + 1) div 2) div 2))) div 2)
1: (((3x + 3) + (((1 + (loop(\(x,i).((x + 1) + (x div (1 + (x mod 4)))),x,0) div 2)) div 2) div 2)) div 3)
1: (((4x + 2) + (((3 * (1 + ((13x2 + 13x) div 2))) div 2) div 2)) div 3)
1: (((3x + 3) + (x div 3) - (x mod 10)) div 2)
1: (((2x + 3) + (2 * ((1 + (((2x + 2) * (1 + (((1 + (((x + 1) * (1 + ((x + (x mod 4)) * (1 + (x div 4))))) div 2)) div 2) div 2))) div 2)) div 2))) div 3)
1: (((3x + 2) + ((3x + (((3x + 2) - (loop(\(x,i).2x,x,1) mod 9)) div 2)) div 2)) div 2)
1: (((3x + 1) + ((((2x + ~1) * (x div 2)) div 2) mod 3)) div 2)
1: (((2x + 4) + (if x <= 0 then 1 else ((x + 4) + (x div (4 + (x div 2)))))) div 2)
1: (((2x + 5) + compr(\x.(1 - (x mod (1 + ((1 + (x mod (1 + (2 * (2 + ((2x + 2) mod 9)))))) mod (x + 1))))),x)) div 2)
1: (((2x + 1) + (compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x) + (2 * (x mod 2)))) div 2)
1: (((3x + 1) - (((x mod 2) - ((x - ((x2 + 2x) div 3)) div 2)) div 2)) div 2)
1: (((x + 2) + (x div 3) - ((x2 + 2x) mod 7)) div 2)
1: (((3x + 2) + ((x + 1) div 3) - (x mod 6)) div 2)
1: (((3x + 2) - (x2 div (6 + ((x2 + ~x) div 11)))) div 2)
1: (((2x + 4) - (3 mod (1 + (x div 3)))) div 3)
1: (((3x + 2) - (loop(\(x,i).2x,x,1) mod 9)) div 2)
1: (((2x + 1) + (2 * ((2x + 2) + (((5 * ((2x + 1) - ((~x + ((x + ~2) div 3)) div 3))) div 2) div 3)))) div 3)
1: (((2x + 1) + (2 * ((x + 1) + (5 * (x + (x div 4)))))) div 3)
1: (((2x + 1) + (2 * ((x + 1) + (((x + 1) + (((x + 1) + ((2 * (x3 div (x + 2))) div 3)) div 2)) div 2)))) div 3)
1: (((2x + 2) + (x * (3 + ((x - ((x div 2) mod 2)) div 2)))) div 3)
1: (((2x + 1) + (2 * ((x + 1) + ((2 * (1 + ((2 * (1 + (2 * (2x - (2x div 7))))) div 3))) div 3)))) div 3)
1: (((2x + 1) + (2 * ((x + 1) + ((2 * (1 + (6 mod (1 + (x div 2))))) div 3)))) div 3)
1: (((2x + 1) + (2 * ((x + 1) + (((3 * ((2x + 1) + (2 * ((3 * (x + ((x div 2) div 5))) div 2)))) div 2) div 2)))) div 3)
1: (((2x + 1) + (2 * (x + ((x4 + 2x3 + 2x2) div (x + 1))))) div 3)
1: (((x + 1) + ((2 * (x + ((x + (if (~2 + (x div 3)) <= 0 then 2 else 1)) div 2))) + (((x + 1) div 2) div 2))) div 2)
1: (((x + 1) + ((2 * (x + ((x - ((x + (x div 2)) div 5)) div 2))) + (x div 2))) div 2)
1: (((2x + 1) + (2 * (x + ((3 * ((1 + (x div 2)) div 2)) div 2)))) div 3)
1: (((2x + 1) + (2 * (1 + (((10x2 + 27x + 14) div 2) div 2)))) div 3)
1: (((2x + 1) + (2 * (1 - (x mod (1 + (((x + 1) - (2 * (x div (2 * (2 - (x mod 2)))))) mod (x + 1))))))) div 3)
1: (((2x + 1) + (2 * ((x + 1) - loop(\(x,i).(x + (if (~2 + (x div 4)) <= 0 then 1 else 2)),2,x)))) div 3)
1: (((2x + 1) + (4 * ((1 + (loop(\(x,i).(2x + 2),(x div 2),(x mod 2)) div 2)) div 2))) div 3)
1: (((2x + 1) + (2 * (((2x + 1) + (2 * (1 + (((10x2 + 27x + 14) div 2) div 2)))) div 3))) div 3)
1: (((2x + 1) + (2 * (((x + 1) + (2 * ((1 + (loop(\(x,i).((x + 1) + loop(\(x,i).2x,x,1) - (x mod 2)),x,1) div 2)) div 2))) div 2))) div 3)
1: (((2x + 1) + (2 * (((x + 1) + (2 * ((((x2 div 2) - (x div 3)) div 2) div 2))) div 2))) div 3)
1: (((2x + 1) + (2 * ((8x + 1) div (1 + (if x <= 0 then 0 else 2))))) div 3)
1: (((2x + 1) + (2 * ((1 + ((1 + ((x * (x + (if (~2 + (x div 2)) <= 0 then 2 else 1))) div 2)) div 2)) div 2))) div 3)
1: (((2x + 1) + (2 * ((1 + (((26x2 + 65x + 26) div 2) div 3)) div 2))) div 3)
1: (((2x + 1) + (2 * (19x div (x + 2)))) div 5)
1: (((2x + 1) + (2 * ((3 * (1 + ((4 * ((2x + 1) - ((x div 2) div 3))) div 3))) div 2))) div 3)
1: (((2x + 1) + (2 * ((3 * (x + loop(\(x,i).i,(x + ~5),1))) div 2))) div 3)
1: (((2x + 1) + (2 * ((x + ((~x + 1) mod 3)) mod 5))) div 5)
1: ((3x + (((3x + 2) - (loop(\(x,i).2x,x,1) mod 9)) div 2)) div 2)
1: (((2x + 1) + (((x + 1) + (4 * (2x - (2x div 7)))) div 3)) div 2)
1: (((x + 4) + ((2 + (((2x + 4) + (if x <= 0 then 1 else ((x + 4) + (x div (4 + (x div 2)))))) div 2)) div 2)) div 2)
1: (((2x + 2) + ((x + (if (x + ~1) <= 0 then 1 else (x - ((x + 1) mod 13)))) div 2)) div 2)
1: (((x + 4) + ((x + 1) div (1 + (x div (2 + (x mod (2 + (x mod 2)))))))) div 2)
1: (((2x + 2) + ((~1 + (6 * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))) div 5)) div 3)
1: (((2x + 1) + ((2 * ((4x + 1) + (((x + 1) + (((x + 1) + (((x2 + ~x) div 2) + (x div 3))) div 2)) div 2))) div 3)) div 2)
1: (((2x + 1) + ((3x2 + 6x + 3) div 5)) div 2)
1: (((x + 4) + ((2 * (2x - ((x div 2) div ~5))) div 5)) div 2)
1: (((x + 1) + (((x2 + ~x) div 2) + (x div 3))) div 2)
1: (((2x + 1) + ((2x2 + 8x + 8) div 3)) div 3)
1: (((2x + 1) + (x3 div (x + 32))) div 3)
1: (((x + 1) + ((((x + ~1) div 2) div 2) + (x mod 4))) div 2)
1: (((x2 + x + 2) + (loop(\(x,i).2x,x,1) div 8)) div 2)
1: ((5 + (x div 2)) div (3 + (x mod 2)))
1: ((5 + (x div (1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))) div 3)
1: (((2x + 1) + (((x2 + 2) mod 6) + (x div 2))) div 2)
1: (((x + 2) + (((x + ((x div 2) div 7)) mod 4) + (x div 2))) div 2)
1: (((x + 4) + ((2 * (1 + ((x + 1) div (1 + (x div (2 + (x mod (2 + (x mod 2))))))))) mod (x + 1))) div 3)
1: ((5 + ((x2 + 2x) mod 11)) div 5)
1: (((x + 3) + ((4 div (if x <= 0 then 1 else x)) mod 2)) div 2)
1: (((x + 3) + (if (x + ~1) <= 0 then 1 else (((1 + (8 mod (1 + (x div 2)))) div 2) - (x mod 2)))) div 2)
1: (((3x + 1) + (if (x + ~1) <= 0 then 1 else (2 * ((x + 1) - (((~x2 + x) div 2) div 5))))) div 2)
1: (((x + 2) + ((if (x + ~2) <= 0 then 1 else 2) + ((x div 4) mod 2))) div 2)
1: (((x + 2) + ((if ((x div 2) mod 3) <= 0 then 1 else 2) + ((x div ~2) mod 2))) div 2)
1: ((3x + ((if (x mod 4) <= 0 then 2 else 1) + (x div 3))) div 3)
1: (((3x + 1) + (if (x mod 7) <= 0 then 1 else (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))) div 2)
1: (((3x + 1) + (if x <= 0 then 1 else (x + ((x + 1) div 2) - (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))))) div 2)
1: (((2x + 2) + (if x <= 0 then 1 else (2 * (x + ((if (~2 + (x div 2)) <= 0 then 1 else 2) + (x mod 2)))))) div 3)
1: (((2x + 2) + (if x <= 0 then 1 else (2 * (x + (2 * (x2 div 8)))))) div 3)
1: (((2x + 2) + (if x <= 0 then 1 else (2 * (6x + ((2x + 1) div 9))))) div 3)
1: (((2x + 2) + (if x <= 0 then 1 else (2 * (2x + ((x + ((2x - ((x + 2) mod 4)) div 3)) div 2))))) div 3)
1: (((2x + 2) + (if x <= 0 then 2 else (1 + (2 * ((x + 1) div (~x + 17)))))) div 4)
1: ((2 + (loop(\(x,i).3x,(x + ~1),1) + loop(\(x,i).2x,x,1))) div 2)
1: ((x + 5) div (6 * (1 + (x mod 2))))
1: ((x + 6) div (1 + (x div 4)))
1: (((x + 2) + ((2 * (1 + ((1 + (x div (1 + (x mod (1 + ((1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x)) mod (x + 1))))))) div 2))) div 3) - (x mod 2)) div 2)
1: (((x + 2) + (((x + 1) div (2 * (1 + (x mod (2 + (x mod 2)))))) div 2) - (x mod 2)) div 2)
1: (((x2 + 2x + 1) - (x2 div (x + 24))) div 2)
1: (((x + 2) + (2 * (4x - ((2x + 1) div 7))) - (((x + 1) div 2) div 2)) div 2)
1: (((x + 1) + (2 * loop(\(x,i).(x - ((~x + (x mod 2)) div 3)),x,2))) div 3)
1: (((x + 1) + (x div 2) - ((x div 4) mod 2)) div 2)
1: (((4x + 2) + loop(\(x,i).2x,((x + 2) + (x div 4)),2)) div 2)
1: (((x + 1) + (x mod 2) - (3 * (2x div (8 + (x mod 2))))) div 2)
1: (((3x + 2) - (((x - (x div 4)) div 2) mod (~4x + 1))) div 2)
1: (((12x + 74) + (x div 3)) div 2)
1: ((1 + ((2 * ((x + 2) + ((x - ((x + (x div 3)) div 3)) div 2))) + ((x + 1) div 2))) div 2)
1: ((x + ((2 * ((x + 4) + (x div 8))) + (x div 7))) div 2)
1: (((x + 2) + (x * ((x + 2) + loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,(x + 3))))) div 2)
1: (((x + 1) + (2 * (2x - (((x + 1) + (x mod 2)) div 5)))) div 3)
1: (((x + 1) + (3 * ((4x + 4) + (x div 4)))) div 2)
1: ((1 + ((2 * (1 + (2 * ((x + 2) + ((x + (x mod 2)) div 3))))) + ((x + 1) div 3))) div 2)
1: ((1 + ((2 * (1 + (2 * (x + (2 * (x + ((x div 2) mod 2))))))) + (x div 2))) div 2)
1: ((4 + (x * (2 + (x * (2 + (loop(\(x,i).x2,4,2) mod (x + 1))))))) div 3)
1: ((1 + ((2 * (x + (2 * (x + (x mod 2))))) + (((x + 1) div 2) div 2))) div 2)
1: ((1 + ((2 * (1 + (2 * (2x - (x mod 8))))) + ((x + 1) div 2))) div 2)
1: (((x + 2) + (2 * (1 + (2 * ((x - (x div 12)) mod 2))))) div 5)
1: ((1 + ((2 * (x + ((x + ((x - (4 * (x + (x mod 2)))) div 2)) div 2))) + (x mod 3))) div 2)
1: (((x + 1) + (2 * (x + ((1 + (if (x mod 9) <= 0 then 0 else x)) div 2)))) div 2)
1: (((x + 1) + (4 * (x + (x div 2)))) div (2 + (x div 2)))
1: (((x2 + 1) + (2 * (2 + (((x div 2) div 3) mod 2)))) div 2)
1: (((x2 + 3x + 3) + (x div 3)) div 2)
1: (((x2 + 4x + 5) + (x div 3)) div 2)
1: (((x2 + 2x + 2) + (x div 5)) div 5)
1: (((x2 + 2x + 1) + (x div 4)) div 2)
1: (((x + 1) + (3 * ((4x + 2) - ((~2x + 2) div 9)))) div 2)
1: ((1 + ((2 * ((2x + 2) - (((1 + (x div 2)) div 2) div 2))) + (x div 3))) div 2)
1: (((x + 1) + (3 * (2x - ((x + 1) mod (1 + ((x div 2) div 3)))))) div 2)
1: (((x2 + ~x + 2) + (x div 4)) div 3)
1: (((x + 1) + (9 * ((x + 1) - (x mod 10)))) div 2)
1: (((x + 40) + (x div 9)) div 2)
1: (((x + 2) + (4 * ((x + 2) + ((x + (x div 12)) div 2)))) div 3)
1: (((x + 1) + (6 * (x + (((x + (x mod 2)) div 5) + (if x <= 0 then 1 else 2))))) div 2)
1: (((x + 1) + (4 * (2x - (2x div 7)))) div 3)
1: (((x + 1) + (4 * ((2 + ((1 + ((1 + ((x3 div 4) div 3)) div 2)) div 2)) div 2))) div 2)
1: (((x + 1) + (2 * (((2x + 1) + (2 * ((3 * (1 + ((4 * ((2x + 1) - ((x div 2) div 3))) div 3))) div 2))) div 3))) div 2)
1: (((x + 1) + (2 * (((x + 40) + (x div 9)) div 2))) div 2)
1: (((x + 1) + (2 * (((x + 1) + (2 * ((1 + (((x + 1) * (1 + ((2x mod (2 + (x div 3))) mod 2))) div 2)) div 2))) div 2))) div 2)
1: (((x + 1) + (2 * (((x + 1) + (x mod 2)) div 5))) div 3)
1: (((x + 2) + (2 * ((x + (2 * ((x + (x2 div 3)) div 3))) div 3))) div 3)
1: (((x + 1) + (2 * ((2 + ((1 + (((x + 1) * (1 + (if (x mod 2) <= 0 then (if x <= 0 then 0 else (2x + 1)) else 0))) div 2)) div 2)) div 2))) div 2)
1: (((x + 2) + (2 * ((1 + ((1 + ((32 mod (x + 1)) div 2)) div 2)) div 2))) div 3)
1: (((x + 1) + (2 * ((1 + (((x + 1) * (1 + ((2x mod (2 + (x div 3))) mod 2))) div 2)) div 2))) div 2)
1: (((x + 1) + (2 * ((1 + ((loop(\(x,i).x2,1,(5x + 1)) div 3) div 2)) div 2))) div 2)
1: (((x + 1) + (2 * ((1 + (loop(\(x,i).((x + 1) + loop(\(x,i).2x,x,1) - (x mod 2)),x,1) div 2)) div 2))) div 2)
1: (((x + 1) + (2 * ((x + (if (~2 + (x div 2)) <= 0 then 1 else 2)) div 3))) div 3)
1: (((x + 1) + (2 * ((1 + (if (~2 + (x div 2)) <= 0 then x else (x + 4))) div 3))) div 3)
1: (((x + 1) + (2 * ((1 + (if (x mod 3) <= 0 then 0 else x)) div 3))) div 3)
1: (((x + 1) + (2 * ((x - (x div 12)) div 2))) div 3)
1: ((1 + ((2 * ((3 * (x + ((5 * ((x2 + x) div 2)) div 3))) div 2)) + (x mod 2))) div 2)
1: (((x + 1) + (2 * ((3 * (2x - ((~x + 2) div 4))) div 2))) div 2)
1: (((x + 1) + (2 * (20x div (x + 3)))) div 2)
1: (((x + 1) + (2 * ((3 * (((5x + 5) + ((x div 2) div 3)) div 2)) div 2))) div 2)
1: (((x + 1) + (2 * ((((x2 div 2) - (x div 3)) div 2) div 2))) div 2)
1: (((x + 1) + (2 * ((((2 + (x div 4)) * ((x + 1) div 3)) div 2) div 2))) div 3)
1: (((x + 1) + (2 * ((((x + 2) * (x - (x div ~2))) div 2) div 2))) div 2)
1: (((x + 1) + (2 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))) div 2)
1: (((x + 1) + (3 * ((x mod (1 + (x div 2))) div 3))) div 2)
1: (((x + 1) + (2 * ((x mod (2 + (6 mod (1 + (x div 2))))) div 2))) div 3)
1: (((x + 1) + (2 * (loop(\(x,i).(~2 + (x div 2)),(x + ~1),(x + 4)) div 3))) div 2)
1: (((x + 2) + (3 * (x div 2))) div (1 + (x div 4)))
1: (((x + 1) + ((x div 2) * (x div 2))) div 2)
1: ((1 + ((x * (x div 2)) + (x div 3))) div 2)
1: (((x + 1) + (2 * ((1 + (2 * (((1 + (2 * ((x + 1) + (loop(\(x,i).(4 * (2x - (x mod 2))),x,1) div 3)))) mod (x + 1)) div 2))) mod (x + 1)))) div 2)
1: ((1 + ((3 * ((1 + (x mod 2)) mod (x + 1))) + (x mod 4))) div 2)
1: (((x + 1) + (3 * ((x + (if (x mod 2) <= 0 then x else 2)) mod 3))) div 2)
1: (((x + 1) + (2 * (20 mod (1 + (x div 2))))) div 2)
1: (((x + 2) + (3 * (x2 mod 7))) div 9)
1: (((x + 1) + (2 * ((x div 2) mod (1 + (x2 mod (2 * (2 + (x mod 2)))))))) div 2)
1: (((x + 1) + (((x div 4) mod 2) * (x div 3))) div 3)
1: (((x + 1) + (2 * (if (~4 + (x div 2)) <= 0 then 1 else (x div 3)))) div 3)
1: (((x + 1) + (2 * (if (x + ~2) <= 0 then 2 else (x div 2)))) div 3)
1: ((1 + ((2 * (if x <= 0 then 1 else x)) + ((x div 2) mod 2))) div 3)
1: ((2 + (((x + 1) * loop(\(x,i).(x3 + 1),2,2)) + (x div 2))) div 2)
1: (((x + 2) + (3 * loop(\(x,i).(if x <= 0 then i else (x div 2)),x,0))) div (x + 2))
1: (((x2 + 1) + (2 mod (x + 1))) div 2)
1: ((x2 + ((x mod 2) + (x mod 3))) div 2)
1: (((x + 2) + (((2x + 1) + (4 * ((1 + (loop(\(x,i).(2x + 2),(x div 2),(x mod 2)) div 2)) div 2))) div 3)) div 2)
1: (((x + 2) + (((2x + 1) + (2 * (((2x + 1) + (2 * (1 + (((10x2 + 27x + 14) div 2) div 2)))) div 3))) div 3)) div 3)
1: (((x + 1) + (((2x + 1) + (2 * (((x + 1) + (2 * ((1 + (loop(\(x,i).((x + 1) + loop(\(x,i).2x,x,1) - (x mod 2)),x,1) div 2)) div 2))) div 2))) div 3)) div 2)
1: (((x + 1) + (((x + 1) + (((x2 + ~x) div 2) + (x div 3))) div 2)) div 2)
1: (((x + 1) + (((2x + 1) + ((2x2 + 8x + 8) div 3)) div 3)) div 2)
1: (((x + 1) + (((3x + 1) + (if (x + ~1) <= 0 then 1 else (2 * ((x + 1) - (((~x2 + x) div 2) div 5))))) div 2)) div 2)
1: (((x + 1) + (((x + 1) + (((2x + 1) + ((2x2 + 8x + 8) div 3)) div 3)) div 2)) div 2)
1: (((x + 1) + (((x + 1) + (((3x + 1) + (if (x + ~1) <= 0 then 1 else (2 * ((x + 1) - (((~x2 + x) div 2) div 5))))) div 2)) div 2)) div 2)
1: (((x + 1) + (((x + 1) + ((4x + 1) div (2 + (x div 8)))) div 2)) div 2)
1: (((x + 1) + (((x + 1) + ((x + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * ((x + 1) div 2))) div 2)) div 2)) div 2)
1: (((x + 1) + (((x + 1) + ((x + loop(\(x,i).2x,(~1 + (((x + ~1) div 2) div 2)),x)) div 2)) div 2)) div 2)
1: (((x + 1) + (((x + 1) + (49x div (x + 2))) div 2)) div 2)
1: (((x + 1) + (((x + 1) + ((2 * (1 + ((2x + 1) mod 31))) div 3)) div 2)) div 2)
1: (((x + 1) + (((x + 1) + ((3 * (1 + (if x <= 0 then 0 else (2 * (1 - (x div 2)))))) div 2)) div 2)) div 2)
1: (((x + 1) + (((x + 1) + ((2 * (x3 div (x + 2))) div 3)) div 2)) div 2)
1: ((1 + ((((x + 1) + (((if (x mod 2) <= 0 then x else 0) * (1 + (x div 2))) div 2)) div 2) + (x mod 2))) div 2)
1: (((x + 1) + (((x + 1) + ((5 * compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,(x + 2)),x)) div 2)) div 2)) div 2)
1: (((x + 1) + (((x + 1) + (((1 + ((1 + ((x * (1 + (loop(\(x,i).3x,(x div 2),1) div 2))) div 2)) div 2)) div 2) div 2)) div 2)) div 2)
1: (((x + 1) + (((x + 1) + (((1 + ((((x + (x2 div 3)) * (2 + (x div 2))) div 2) div 2)) div 2) div 2)) div 2)) div 2)
1: (((x + 1) + (((x + 1) + (((3 * ((2x + 1) - (x mod 5))) div 2) div 2)) div 2)) div 2)
1: (((x + 1) + (((x + 1) + ((loop(\(x,i).(2x + (i mod 2)),x,(1 + (x mod 2))) div 2) div 2)) div 2)) div 2)
1: (((x + 1) + (((x + 1) + (loop(\(x,i).(x + ((x * (1 + i)) div (2 + (x div 4)))),x,1) div 2)) div 2)) div 2)
1: (((x + 1) + ((x + (((x + 1) mod 3) + (x div 2))) div 2)) div 2)
1: (((x + 2) + (((x + 1) + ((~x + 1) mod 9)) div 2)) div 2)
1: (((x + 1) + (((x + 1) + loop(\(x,i).(if x <= 0 then 1 else (2 * (x - ((3 * (x div 4)) div 2)))),x,0)) div 2)) div 2)
1: (((x + 1) + ((9x + (x div 3)) div (x + 4))) div 2)
1: (((x + 1) + ((56x + 1) div (x + 3))) div 3)
1: (((x + 1) + ((4x + 1) div (2 + (x div 8)))) div 2)
1: (((x + 1) + ((1 + (2 * ((x + ((x + loop(\(x,i).2x,x,1)) div (x + 1))) div 2))) div (2x + 1))) div 2)
1: (((x + 1) + ((x + (((x + 1) div 3) * (x div 2))) div 2)) div 2)
1: (((x + 1) + ((x + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * ((x + 1) div 2))) div 2)) div 2)
1: (((x + 2) + ((x + ((x + ((x + loop(\(x,i).2x,x,1)) div (x + 1))) div 2)) div 2)) div 3)
1: (((x + 1) + ((x + ((1 + (((x + 1) * (x + ((x + (x mod 2)) div 5))) div 2)) div 2)) div 2)) div 2)
1: (((x + 2) + ((x + ((2 + ((x * (2 + (((x2 + 3x + 2) div 2) div 2))) div 2)) div 3)) div 2)) div 2)
1: (((x + 2) + ((x + ((1 + ((((x + 1) * (x + ((x + ~1) mod 3))) div 2) div 2)) div 2)) div 2)) div 2)
1: (((x + 1) + ((x + ((1 + (((((x3 + ~3x2 + 2x) div 2) div 2) div 2) div 2)) div 2)) div 2)) div 2)
1: (((x + 1) + ((x + ((x + ((if x <= 0 then 2 else (1 + ((x + loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),(x + ~2),1)) div 3))) div 2)) div 2)) div 2)) div 2)
1: ((2 + ((1 + ((1 + loop(\(x,i).(x - (x div (~2 + (x mod ~2)))),x,1)) div 2)) div 2)) div (x + 1))
1: (((x + 1) + ((x + ((x + loop(\(x,i).2x,(~2 + (x div 3)),x)) div 2)) div 2)) div 2)
1: (((x + 2) + ((x + ((3 * (2 + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,(x + 2)),x))) div 2)) div 2)) div 2)
1: (((x + 1) + ((x + (((x + 1) * ((x2 + ~x) div 4)) div 8)) div 2)) div 2)
1: (((x + 1) + ((x + (x2 div (1 - ((~x + (x mod 2)) div 3)))) div 2)) div 2)
1: (((x + 2) + ((1 + (((1 + (((x + 1) * (1 + (((x3 + 3x2 + ~x + ~3) div 2) div 3))) div 3)) div 2) div 2)) div 2)) div 2)
1: (((x + 2) + ((x + (((x2 + (((x + ~2) * (x2 div 2)) div 3)) div 2) div 2)) div 2)) div 3)
1: (((x + 3) + ((x + ((((x + 1) * (2 + ((~1 + (x div 4)) * (x div 2)))) div 2) div 2)) div 2)) div 2)
1: (((x + 1) + ((x + ((x2 div 2) div 5)) div 2)) div 2)
1: (((x + 1) + ((x + (if (x mod 2) <= 0 then (x div 2) else 2)) div 4)) div 2)
1: (((x + 1) + ((x + loop(\(x,i).(x + (x div 3)),2,(x + ~1))) div 2)) div 2)
1: (((x + 1) + ((x + loop(\(x,i).(1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)),(x + ~1),1)) div 2)) div 2)
1: (((x + 1) + ((x + loop(\(x,i).2x,(~1 + (((x + ~1) div 2) div 2)),x)) div 2)) div 2)
1: (((x + 2) + ((x2 + ~2) div 11)) div 3)
1: (((x + 1) + ((x - ((~x3 + x) div 7)) div 2)) div 2)
1: (((x + 2) + ((x - (((1 + ((x2 + ~x) div 2)) div 2) div 2)) div 2)) div 2)
1: (((x + 1) + ((x - (x div 4)) div 2)) div 2)
1: (((x + 1) + ((x - (6 mod (1 + (x div 2)))) div 2)) div 2)
1: ((1 + (((x - ((x div 3) mod 2)) div 2) + (x div 4))) div 2)
1: ((1 + (((x - ((x div 3) mod 2)) div 2) + (x mod 2))) div 2)
1: (((x + 2) + ((x - ((x div 4) mod 2)) div 2)) div 2)
1: (((x + 1) + ((x - (x mod (4 + (x div 2)))) div 3)) div 2)
1: ((1 + (((x - (x mod 7)) div 2) + (x div 3))) div 2)
1: (((x + 1) + (6 div (if x <= 0 then 1 else x))) div 2)
1: (((x + 1) + ((2 * (4 + ((x mod 8) + (x mod 3)))) div 3)) div 4)
1: (((x + 2) + ((3 * ((x + 2) + (2x div 7))) div 2)) div 2)
1: (((x + 2) + (((x + 2) * ((x + 1) + (x div 3))) div 5)) div 2)
1: (((x + 2) + ((3 * ((x + 2) + (x div (9 - (x div 2))))) div 2)) div 2)
1: (((x + 1) + (49x div (x + 3))) div 2)
1: (((x + 1) + (49x div (x + 2))) div 2)
1: (((x + 1) + ((x3 + 2x) div 9)) div 3)
1: ((1 + (((2 * (1 + ((1 + ((x + loop(\(x,i).3x,x,3) - loop(\(x,i).2x,x,2)) div 2)) div 2))) div 3) + loop(\(x,i).2x,x,1))) div 2)
1: ((1 + (((2 * (1 + ((1 + ((1 + loop(\(x,i).((x + 1) + (2 * ((x + (x div 2)) div 4))),((x + 1) div 2),1)) div 2)) div 2))) div 3) + (x mod 2))) div 2)
1: (((x + 1) + ((2 * (1 + ((1 + ((x + loop(\(x,i).((x + 2) + (2x div 5)),x,2)) div 2)) div 2))) div 3)) div 3)
1: ((1 + (((2 * (1 + ((1 + ((1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,(2x + 1))) div 2)) div 2))) div 3) + (x mod 2))) div 2)
1: ((1 + (((2 * (1 + ((1 + ((x + 1) div (1 + ((6x + 1) mod (4 + (x div 4)))))) div 2))) div 3) + (x mod 2))) div 2)
1: ((1 + (((2 * (1 + (((loop(\(x,i).(2x + (i mod 2)),x,2) div 3) + loop(\(x,i).2x,x,1)) div 3))) div 3) + loop(\(x,i).2x,x,1))) div 2)
1: ((1 + (((2 * (1 + ((1 + (((x2 + 2x) div 2) mod 11)) div 2))) div 3) + (x mod 2))) div 2)
1: (((x + 2) + ((2 * (1 + (((x + 2) * (1 + (2 * (x - (x div ~2))))) div 2))) div 3)) div 3)
1: (((x + 1) + ((3 * (x + ((3 * ((x div 2) div 3)) div 2))) div 2)) div 2)
1: ((2 + (((2 * (1 + ((x * (x div 3)) div 2))) div 3) + (x div 2))) div 2)
1: (((x + 1) + ((3 * (x + ((((2 - (x div 2)) mod (x + 1)) div 2) div 2))) div 2)) div 2)
1: (((x + 1) + ((2 * (1 + ((2x + 1) mod 31))) div 3)) div 2)
1: (((x + 1) + ((3 * (1 + (if x <= 0 then 0 else (2 * (1 - (x div 2)))))) div 2)) div 2)
1: (((x + 1) + ((2 * (1 + (if x <= 0 then 0 else (if x <= 0 then 1 else (2 * compr(\x.(1 - (x mod (1 + (2x mod (1 + (x div 2)))))),x)))))) div 3)) div 2)
1: ((1 + (((x2 + x) div 4) + (x div 2))) div 2)
1: (((x + 1) + (((x + 1) * (4 - (2x mod (4 + (x div 4))))) div 3)) div 2)
1: (((x + 1) + ((3 * ((x + 1) - loop(\(x,i).(x + (if (~2 + (x div 4)) <= 0 then 1 else 2)),2,x))) div 2)) div 2)
1: (((x + 2) + ((5x3 + ~9x2) div 3)) div 3)
1: (((x + 1) + ((12x2 + 24x + 12) div 7)) div 2)
1: (((x + 1) + ((20x2 + ~10x) div 7)) div 2)
1: (((x + 2) + (x3 div 9)) div 3)
1: (((x + 1) + ((3 * ((x + (((((x + 2) * ((x + 2) + (x div 7))) div 2) div 2) div 2)) div 2)) div 2)) div 2)
1: (((x + 1) + (((x + 4) * ((x + ~1) div 3)) div 2)) div 2)
1: (((x + 1) + ((2 * (x3 div (x + 2))) div 3)) div 2)
1: (((x2 + x + 1) + ((x * (x div 2)) div 4)) div 2)
1: ((1 + (((x * (x div 3)) div 2) + (x div 2))) div 2)
1: (((x + 1) + (((x + 1) * (if ((x + ~1) mod 4) <= 0 then 4x else 1)) div (1 + (2 * (x mod 2))))) div 2)
1: (((x + 1) + (((if (x mod 2) <= 0 then x else 0) * (1 + (x div 2))) div 2)) div 2)
1: ((1 + ((x2 div 2) + (x div 4))) div 2)
1: ((4 + (x2 div 2)) div (x + 1))
1: ((3 + (x2 div 3)) div (x + 2))
1: ((x + ((x2 div 3) + (2 mod (x + 1)))) div 2)
1: (((x2 + x + 1) + (x2 div 4)) div 2)
1: (((2x + 1) + (x2 div 4)) div (x + 2))
1: (((x2 + 1) + (x2 div 4)) div 2)
1: (((x + 2) + (x2 div 4)) div 5)
1: ((x + ((x2 div 4) + (x div 3))) div 2)
1: ((1 + ((x2 div 8) + (x mod 2))) div 3)
1: (((x + 2) + (x2 div (4 * (3 - (x mod 2))))) div 4)
1: (((x + 1) + (x2 div (if (x + ~2) <= 0 then 1 else 2))) div 2)
1: (((x + 1) + ((5 * compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,(x + 2)),x)) div 2)) div 2)
1: (((x + 1) + ((((2x2 + 3x + 1) + (x div 2)) div 2) div 2)) div 2)
1: (((x + 1) + (((1 + ((1 + ((x * (1 + (loop(\(x,i).3x,(x div 2),1) div 2))) div 2)) div 2)) div 2) div 2)) div 2)
1: (((x + 1) + (((1 + (((x + 1) * (1 + ((x2 + ~2x + 1) div 5))) div 2)) div 2) div 2)) div 2)
1: (((x + 1) + (((1 + (((x + 2) * (x + ((x * (x div 2)) mod 2))) div 2)) div 2) div 2)) div 2)
1: (((x + 1) + (((((x2 + 2x) div 2) + (x mod 3)) div 2) div 2)) div 2)
1: (((x + 1) + (((1 + (((1 + (((x + 1) * ((2x + 1) - (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))) div 2)) div 2) div 2)) div 2) div 2)) div 2)
1: (((x + 1) + (((1 + (((1 + (((2x + 5) * compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) div 3)) div 2) div 2)) div 2) div 2)) div 2)
1: (((x + 1) + (((1 + (((1 + ((loop(\(x,i).x2,1,(1 + (x2 div 3))) div 2) div 2)) div 2) div 2)) div 2) div 2)) div 2)
1: (((x + 1) + (((1 + ((((x + (x2 div 3)) * (2 + (x div 2))) div 2) div 2)) div 2) div 2)) div 2)
1: (((x + 1) + (((x + (((~x + 1) mod (4 + (x div 2))) div 2)) div 2) div 2)) div 2)
1: (((x + 2) + (((2 + ((1 - (x mod (1 + ((2 - (x div 2)) mod 4)))) mod (x + 1))) div 2) div 2)) div 2)
1: ((1 + ((((x + 1) div (2 + (x div 8))) div 2) + (x mod 2))) div 2)
1: ((x + ((((x2 + ~1) div 2) div 5) + (((x + 1) div 2) div 2))) div 2)
1: (((x + 1) + (((3 * ((2x + 1) - (x mod 5))) div 2) div 2)) div 2)
1: (((3x2 + 12x + 13) + (((x3 + ~x) div 2) div 3)) div 2)
1: (((x + 3) + (((3x2 + 57x + 102) div 2) div 2)) div 3)
1: (((x + 2) + (((4x3 + 27x2 + 51x + 28) div 2) div 3)) div 3)
1: (((x + 1) + ((((x + 1) * ((1 + (x div 2)) div 3)) div 2) div 2)) div 2)
1: (((x + 2) + (((3 * ((3 * (1 + (((1 + (((2 * (1 + ((1 + ((1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,(2x + 1))) div 2)) div 2))) div 3) + (x mod 2))) div 2) div 2))) div 2)) div 2) div 2)) div 2)
1: (((x + 2) + ((((3x + 2) * (x div (~2 + ((~x + 2) div 4)))) div 2) div 2)) div 2)
1: (((x + 1) + (((x * loop(\(x,i).((x + 1) + (x div 2)),(x + ~2),0)) div 2) div 2)) div 2)
1: (((x + 1) + (((3 * compr(\x.(1 - (x mod (1 + (2 * (x mod (2 + (x mod 2))))))),x)) div 2) div 2)) div 2)
1: (((x + 2) + (((((x + ~1) * (x + (x div 5))) div 2) div 2) div 2)) div 2)
1: (((x + 1) + ((((x2 + 2x) div 2) div (2 + (x mod 2))) div 3)) div 2)
1: (((x + 2) + ((((((x + 1) * (x2 div 4)) div 2) div 2) div 2) div 3)) div 2)
1: (((x + 1) + ((((1 - (2 * (x mod 5))) mod (x + 3)) div 2) div 2)) div 2)
1: ((1 + (((((2 * (~2 + ((x div 2) mod 3))) mod (x + 1)) div 2) div 2) + (x mod 2))) div 2)
1: (((x + 2) + ((((if x <= 0 then 2 else (1 + loop(\(x,i).(x * (x + i)),2,3))) mod (x + 2)) div 2) div 2)) div 2)
1: (((x + 1) + ((loop(\(x,i).(2x + (i mod 2)),x,(1 + (x mod 2))) div 2) div 2)) div 2)
1: ((1 + (((loop(\(x,i).(x + (if x <= 0 then 1 else ((x * (x mod 2)) + (x div 2)))),x,1) div 2) div 2) + (x mod 2))) div 2)
1: (((x + 1) + ((loop(\(x,i).(x - (2 * (~x + (i mod 2)))),x,1) div 2) div 2)) div 2)
1: (((x + 1) + ((loop(\(x,i).(x - ((i * i) div ~2)),x,1) div 2) div 2)) div 2)
1: ((3 + ((loop(\(x,i).(2x + 2),(x div 2),(x mod 2)) div 2) div 2)) div (x + 1))
1: (((x + 2) + (((1 + (2 * ((1 + ((5 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 19)) div 2))) mod (x + 1)) div 2)) div 2)
1: ((1 + ((((1 + ((x + 1) div 2)) mod 5) div 2) + (x mod 2))) div 2)
1: (((x + 1) + (((2x + ~1) mod (4 + (x div 4))) div 2)) div 2)
1: (((x + 1) + ((32 mod (x + 1)) div 2)) div 2)
1: ((4 + ((x mod (2 + ((~1 + loop(\(x,i).2x,x,4)) mod (x + 1)))) div 2)) div 2)
1: ((1 + (((x mod (2 + ((x2 div 4) mod (x + 1)))) div 2) + (x div 5))) div 2)
1: ((1 + (((x mod ((x + 1) - (6 * (x div 7)))) div 2) + (x mod 3))) div 2)
1: ((1 + (((if x <= 0 then 2 else (1 + (x mod (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))) div 2) + (x mod 2))) div 2)
1: (((x + 2) + (loop(\(x,i).(x + i - ((~x + 2) div 4)),x,2) div 2)) div 3)
1: (((x + 1) + (loop(\(x,i).(x + ((x * (1 + i)) div (2 + (x div 4)))),x,1) div 2)) div 2)
1: (((x + 2) + (loop(\(x,i).(x + (if ((x div 3) mod 2) <= 0 then 3 else 2x)),x,1) div 2)) div 2)
1: (((x + 1) + (loop(\(x,i).(loop(\(x,i).(x * i),x,i) + i),x,0) div 2)) div 2)
1: (((x + 1) + (loop(\(x,i).((4x + 3) - ((~2x + 2) div 5)),2,x) div 2)) div 2)
1: (((x + 1) + (loop(\(x,i).(2x + 2),(2 * (x div 7)),1) div (x + 1))) div 2)
1: ((x + ((loop(\(x,i).(2x + 2),x,2) div (x + 2)) + (x div 2))) div 2)
1: ((1 + ((x div 2) + (x mod 3))) div 2)
1: ((2 + ((x div 2) + (x div 3))) div (2 + (x mod 2)))
1: (((x + 1) + (x div 2)) div (1 + (x div 5)))
1: (((x + 1) + (x div 2)) div (1 + (x mod 3)))
1: (((x + 2) + (x div 2)) div (2 + (2 mod (x + 1))))
1: ((4 + (x div 4)) div (1 + ((x + ~1) mod 4)))
1: (((x2 + 1) + (x div 4)) div 2)
1: (((x + 2) + (x div 4)) div 3)
1: (((x + 1) + (x div (2 + (((x + ~1) mod 3) + (x mod 2))))) div 2)
1: (((x + 1) + (x div (4 + (x mod 2)))) div 2)
1: (((x + 1) + (x div (1 + ((x + 2) div 7)))) div 2)
1: (((x + 1) + (x div (2 + (x div (2 + (x2 mod 5)))))) div 2)
1: ((1 + ((x div (2 + (x mod 3))) + (x div 4))) div 2)
1: ((1 + ((x div (1 + (x mod 4))) + (x mod 2))) div 2)
1: ((1 + ((x div (2 + (x mod (2 * (1 + (2 * (x mod 2))))))) + (x mod 2))) div 2)
1: (((x + 1) + (x div (1 - (2 * ((~x + 1) div (2 + (x div 2))))))) div 2)
1: (((x + 2) + (x div (2 - ((x mod 3) mod 2)))) div 2)
1: ((2 + ((3 mod (x + 1)) + (x div 2))) div 3)
1: (((x + 2) + ((1 + (2 * ((x + 1) + (x mod (1 + (loop(\(x,i).2x,x,(1 + (x mod 2))) mod (2x + 1))))))) mod (x + 1))) div 2)
1: (((x + 2) + ((1 + (2 * (2 + (if (x + ~6) <= 0 then 0 else 2)))) mod (1 + (x div 2)))) div 2)
1: (((x + 1) + ((13x + 6) mod 9)) div 2)
1: ((1 + (((2x + 1) mod (1 + ((x + 1) div 3))) + (x mod 2))) div 2)
1: (((x + 1) + (((x + 1) + (x2 div (x + (if x <= 0 then 1 else (x div 3))))) mod 3)) div 2)
1: ((1 + (((1 + (x div 2)) mod (4 * (2 - (x mod 2)))) + (x mod 3))) div 2)
1: ((1 + (((1 + ((2x + ~1) mod (4 + (x div 4)))) mod 3) + (((x + 1) div 2) div 2))) div 2)
1: (((x + 1) + ((2 + ((x div 3) mod 2)) mod (x + 1))) div 2)
1: (((x + 1) + ((x + ((x div 3) mod 2)) mod (1 + (x div 2)))) div 2)
1: (((x + 1) + ((2 + (x mod 5)) mod (x + 1))) div 2)
1: ((x + (((x + 1) mod 3) + (x div 2))) div 2)
1: ((((x + 1) mod 4) + (x div 4) + (x mod 3)) div 2)
1: (((x + 1) + ((~x + 1) mod 4)) div 3)
1: (((x + 1) + ((~x + 1) mod 9)) div 2)
1: (((x + 2) + ((~x + 1) mod (1 + (2 * (x div 3))))) div 2)
1: (((x + 2) + ((~x + 1) mod (2 - ((~x + 1) div 3)))) div 3)
1: ((3 + ((~x + 1) mod 8)) div 2)
1: ((x + (((~x + 2) mod 4) + (x div 2))) div 2)
1: (((2x + 1) + ((~x + 2) mod (2 + (x div 4)))) div 3)
1: ((3 + (((~x + 2) - (x div 2)) mod 8)) div 2)
1: ((2 + ((11 mod (2x + 1)) + (x div 2))) div 2)
1: (((x + 1) + ((2x + ~1) mod 7)) div 2)
1: (((x + 1) + ((x + ~1) mod (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))) div 2)
1: (((x + 2) + ((2 * (1 + ((x + (2 * (4 - ((~x + 1) div (2 + (x div 4)))))) div 3))) mod (x + 1))) div 2)
1: (((x + 1) + ((2 * (x + (x div 13))) mod 7)) div 2)
1: (((x + 2) + ((2 * (2 - ((x div 4) mod 2))) mod (x + 1))) div 2)
1: ((1 + (((2x + ~4) mod (2 + (x div 4))) + (x mod 2))) div 2)
1: ((1 + (((10 * (x + (2 * (x mod 2)))) mod 7) + (x mod 2))) div 2)
1: (((x + 1) + ((x * (x div 2)) mod 2)) div 3)
1: (((x + 2) + ((2 * ((x + 1) mod (1 + (2 * (1 + (x mod (1 + (8 * (x mod (2 + (x mod 2))))))))))) mod (x + 1))) div 2)
1: (((x + 2) + (((x + 1) * (loop(\(x,i).(2x + 2),x,0) mod (x + 1))) mod (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))) div 3)
1: ((3 + ((3 * (if (x mod 2) <= 0 then (9 * (if x <= 0 then 1 else 2)) else 1)) mod (1 + (x div 3)))) div 2)
1: (((x + 2) + ((2 * (if (x mod 2) <= 0 then x else 1)) mod (x + 1))) div 2)
1: ((1 + ((2x mod (1 + (x div 4))) + (((x + ~1) div 2) mod 2))) div 2)
1: (((x + 1) + (((x + (x div 2)) div 4) mod 2)) div 2)
1: (((x + 1) + (((x + 1) div 3) mod 4)) div 2)
1: ((2 + ((((~x + 2) div 2) mod 4) + (x mod 3))) div 3)
1: ((x + ((((~x + (2 mod (x + 1))) div 2) mod 2) + (x2 div 2))) div 2)
1: (((x + 1) + (((x - (x div 4)) div 2) mod 2)) div 2)
1: ((2 + (((x2 div 3) mod (x + 1)) + (x mod 3))) div 3)
1: (((x + 1) + ((x2 div (16 - (x div 3))) mod 3)) div 2)
1: ((1 + (((((x + 1) div 2) div 2) mod 4) + (x mod 2))) div 2)
1: ((1 + (((x div 2) mod 2) + (x div 3))) div 2)
1: (((x2 + 1) + ((x div 2) mod 2)) div 2)
1: (((x + 2) + ((x div 2) mod 2)) div 3)
1: ((2 + (((x div 2) mod 4) + (x div 2))) div 3)
1: ((x + (((x div 2) mod 4) + (x div 2))) div 3)
1: (((x + 1) + ((x div 2) mod (1 + ((x + ~1) mod 5)))) div 2)
1: ((1 + (((x div 4) mod 2) + (x div 2))) div 2)
1: (((x + 1) + ((x div 4) mod 2)) div 2)
1: (((x + 1) + (((x + ~2) mod ~4) mod (2x + 1))) div 2)
1: (((x + 2) + ((x mod 5) mod 2)) div 3)
1: (((x + 1) + ((x mod (1 + (2 * (16 mod (x + 1))))) mod 2)) div 2)
1: (((x + 1) + ((x mod ~4) mod (2x + 1))) div 2)
1: (((x + 2) + (loop(\(x,i).(2x + (if (i mod 3) <= 0 then 3 else 0)),x,0) mod (x + 1))) div 2)
1: (((x + 2) + (loop(\(x,i).(5x + 4),x,0) mod (x + 1))) div 2)
1: (((x + 3) + (loop(\(x,i).(x2 + x + 1),2,2) mod (1 + (x div 2)))) div 2)
1: (((x + 2) + (loop(\(x,i).(x * (1 + i)),(2 + (x div 4)),1) mod (x + 1))) div 2)
1: (((x + 2) + (loop(\(x,i).2x,x,(1 + (if (x mod 3) <= 0 then x else 0))) mod (x + 1))) div 2)
1: ((3 + (x mod 2)) div (1 + (x div (2 + (x div (1 + (((if (x mod 2) <= 0 then 1 else x) mod 4) + ((x mod 3) div 2))))))))
1: (((2x + 1) + (x mod 2)) div 5)
1: (((x + 1) + (x mod 2)) div 3)
1: (((x + 2) + (x mod 2)) div 3)
1: (((x + 2) + (x mod 2)) div 5)
1: ((1 + ((x mod 4) + (x mod 3))) div 2)
1: (((x + 1) + (x mod (1 + (x2 div (x + 5))))) div 2)
1: (((x + 2) + (x mod (2 + ((x div 2) div 5)))) div 3)
1: (((x + 2) + (x mod (2 + (x div (2 * (2 - (x mod 2))))))) div 2)
1: (((x + 1) + (x mod (1 + ((~x + 2) mod 4)))) div 2)
1: ((1 + ((x mod (2 + (x mod 2))) + (x div (1 + (x div 4))))) div 2)
1: (((x + 1) + (x mod (2 + (x mod 2)))) div 2)
1: (((x + 2) + (x mod (2 + (x mod 2)))) div 3)
1: (((x + 1) + (x mod (1 + (x mod (1 + (x div (1 + (2 * ((x + 1) mod (1 + (x div 4))))))))))) div 2)
1: (((x + 1) + (x mod (1 + (x mod (1 + (x div (1 + ((x mod (1 + ((~x + 2) mod 4))) div 2)))))))) div 2)
1: (((x + 1) + (x mod (~2 + ((~x + 2) div 4)))) div 2)
1: ((1 + ((x mod 6) + (if (~2 + (x div 2)) <= 0 then 0 else 2))) div 2)
1: (((x + 2) + (x mod (2 * (3 + ((x + 1) mod 8))))) div 2)
1: ((1 + ((x mod (2 * (2 - ((x div 4) mod 2)))) + (x div 4))) div 2)
1: (((x + 1) + (if (~x + 2) <= 0 then (x div 2) else 1)) div 2)
1: ((1 + ((if (~x + 2) <= 0 then x else 0) + (x * (x2 div 2)))) div 2)
1: (((x + 2) + (if (~4 + (x div 2)) <= 0 then 2 else 0)) div 3)
1: ((x + ((if (~2 + (x div 3)) <= 0 then 1 else 2) + ((x div 2) mod 2))) div 2)
1: ((1 + ((if (~1 + (x div 4)) <= 0 then x else 8) + (x div 3))) div 2)
1: ((1 + ((if (~1 + (x div 4)) <= 0 then x else 8) + (x div 5))) div 2)
1: ((2x + (if (x + ~1) <= 0 then 1 else (~1 + ((x2 + 2x) div 4)))) div 3)
1: ((2 + ((if (x + ~3) <= 0 then x else 0) + loop(\(x,i).2x,x,1))) div 3)
1: ((1 + ((if (x + ~3) <= 0 then x else 4) + (x div 3))) div 2)
1: ((1 + ((if (x mod 2) <= 0 then 2 else 0) + (x div 4))) div 3)
1: (((x + 1) + (if (x mod 2) <= 0 then 2 else 0)) div 5)
1: (((x + 1) + (if (x mod 2) <= 0 then (1 + (2 * (x - ((1 + (x mod 4)) div 2)))) else 2)) div 2)
1: ((1 + ((if (x mod 2) <= 0 then (x div 2) else 2) + (x div 5))) div 2)
1: (((x + 2) + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)) div 3)
1: ((2 + ((if (x mod 4) <= 0 then 2 else 0) + (x div 3))) div 3)
1: (((x + 1) + (if (x mod 4) <= 0 then (x mod 9) else 1)) div 2)
1: (((x + 2) + (if (x mod 8) <= 0 then 2 else (x mod 2))) div 3)
1: ((3 + (if x <= 0 then 0 else (1 + ((2 * (1 + ((1 + ((x * (1 + (if ((x + (x div 2)) mod 5) <= 0 then 2 else 1))) div 2)) div 2))) div 3)))) div 2)
1: (((x + 1) + (if x <= 0 then 0 else (1 - ((0 - ((~x + 1) mod 5)) div 2)))) div 3)
1: (((x + 2) + (if x <= 0 then 1 else (2 * (1 + (x div (3 * (2 + ((1 + (2x mod (1 + ((x div 2) div 3)))) mod (x + 1))))))))) div 2)
1: ((2x + (if x <= 0 then 2 else (x + ((x div (2 + ((x div 2) div 3))) mod 2)))) div 2)
1: (((x + 1) + loop(\(x,i).((x + 1) + (x div (2 + (x div (2 + (x mod (1 + ((~x + 2) mod 4)))))))),x,1)) div 2)
1: (((x + 1) + loop(\(x,i).(2 + (x * (1 + i))),(x + ~1),1)) div 2)
1: (((x + 2) + loop(\(x,i).(x + (2 * (if (2 - i) <= 0 then x else 1))),x,(x + 1))) div 2)
1: (((x + 1) + loop(\(x,i).(2x + ((x + 1) div 5)),2,x)) div 2)
1: (((x + 1) + loop(\(x,i).(2 + ((x - ((~x + 1) mod 3)) div 2)),x,x)) div 2)
1: (((x + 1) + loop(\(x,i).(1 + ((2x2 + ~x) div (x + 3))),2,x)) div 2)
1: (((x + 1) + loop(\(x,i).(x + ((x div 2) div 3)),(x + ~1),x)) div 2)
1: (((x + 1) + loop(\(x,i).(x + ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3)),2,x)) div 2)
1: (((x + 2) + loop(\(x,i).(x + (x div 4)),x,5)) div 3)
1: ((2x + loop(\(x,i).(x + i - (x div 7)),x,1)) div 2)
1: ((x + (loop(\(x,i).(x - (if x <= 0 then 1 else (x - ((if x <= 0 then 2 else loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 2)))),x,(x + 1)) + (x mod 2))) div (1 + (x mod 2)))
1: ((1 + (loop(\(x,i).3x,x,1) + loop(\(x,i).2x,x,1))) div 3)
1: ((2 + (loop(\(x,i).(x * (3 - (i mod 2))),x,1) + loop(\(x,i).2x,x,2))) div 3)
1: ((3 + loop(\(x,i).(7x + 7),(x div 2),(x mod 2))) div (2x + 1))
1: ((1 + (loop(\(x,i).(x * (1 + (i div 2))),x,1) + (x div 2))) div 2)
1: ((1 + (loop(\(x,i).(2x + 2),x,0) + (x2 div (x + 2)))) div 2)
1: ((1 + (loop(\(x,i).((x + 1) * (x + i)),2,x) + (if x <= 0 then 1 else 0))) div (x + 1))
1: ((1 + (loop(\(x,i).2x,(x div 2),1) + loop(\(x,i).2x,x,1))) div 3)
1: ((2 + (loop(\(x,i).2x,(x mod 4),1) + loop(\(x,i).2x,x,1))) div 3)
1: (((x + 1) + loop(\(x,i).x2,1,((1 + (8 mod (1 + (x div 2)))) div 2))) div 2)
1: (((x + 1) + loop(\(x,i).x2,1,loop(\(x,i).((x + ~1) - (x * i)),x,2))) div 2)
1: (((x + 1) + loop(\(x,i).(if x <= 0 then 1 else (2 * (x - ((3 * (x div 4)) div 2)))),x,0)) div 2)
1: ((x + 3) div (1 + ((((1 + (x div 2)) div 2) div 2) + (x mod 2))))
1: ((x + 3) div (3 + ((x mod 3) div 2)))
1: ((x + 3) div (2 + ((x + (2 * (x mod 2))) * (x div 4))))
1: ((x + 3) div (1 + (2 * (2 + ((((x + ~1) mod (1 + (x div 2))) div 2) mod 2)))))
1: ((x + 3) div (1 + ((2 + (x mod 3)) * (if x <= 0 then 1 else 2))))
1: ((x + 3) div (1 + (x div (2 + (((2 * (1 + (((1 + (x div (2 + (x mod (2 + (x mod (2 + (x mod 2)))))))) mod (x + 1)) div 2))) div 3) + (x mod 2))))))
1: ((x + 3) div (1 + (4 mod (x + 1))))
1: ((x + 3) div (1 + (x mod 3)))
1: ((x + 3) div (2 + (x mod (2 * (1 + (2 * (x mod 2)))))))
1: ((x + 3) div ((~x + 2) + (3 * (5 + (x mod 2)))))
1: ((x + 3) div (2 - (x mod 2)))
1: ((x + 3) div ((x + 3) - ((x + (x2 div (5 + (x div 2)))) div 2)))
1: ((x + 3) div (~1 + (3 * (2 + (x div 8)))))
1: ((x + 3) div ((3 + (if x <= 0 then 0 else 2)) * (1 + (x mod 3))))
1: ((x + 4) div (1 + (4 * (1 + (x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4)))))))) - (x mod 2)))
1: ((x + 4) div (1 + (3 * (8 - (x div 2)))))
1: ((x + 4) div (2 + (if (~x + 2) <= 0 then (4 * (1 + (x mod 2))) else 1)))
1: ((x + 4) div ~7)
1: ((x + 4) div (~x + 18))
1: ((x + 4) div (~1 + (7 * (2 - ((x div 2) mod 2)))))
1: ((x + 4) div (~12 + (x div 2)))
1: (((2x + 1) + compr(\x.(1 - (x mod (1 + (((x2 + 3x + 2) div 2) mod 9)))),(x + 1))) div 2)
1: (((x + 1) + compr(\x.(~1 + (x mod ((x + 1) - (x mod 9)))),x)) div 2)
1: (((x + 1) + compr(\x.((x mod (2 + ((2 * (x mod (~1 + (2 * (x mod 5))))) mod (x + 1)))) div 2),x)) div 2)
1: (((x + 1) + compr(\x.(((x2 + 3) div (1 + (x div 3))) mod 2),x)) div 2)
1: (((x + 1) + compr(\x.((x div (1 + (if (x mod 2) <= 0 then 6 else 1))) mod 2),x)) div 2)
1: ((1 + (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x))) div 2)
1: ((3 + (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x))) div 2)
1: ((1 + (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))) div 2)
1: ((1 + (compr(\x.(loop(\(x,i).(~2x + 2),x,2) mod (x + 2)),x) + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x))) div 2)
1: ((1 + (2 * (1 + (x div 5))) - ((3 * ((1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((3 * ((~x + 2) div 2)) div 2))) div 2)) div 2)) div 3)
1: (((x + 1) - ((((x + 1) + ((2x + ~1) mod 7)) div 2) div 2)) div 2)
1: (((x + 1) - (((x + 1) mod (2 + ((1 - (2x mod (4 + (x div 4)))) mod (x + 1)))) div 2)) div 2)
1: (((x + 1) - (loop(\(x,i).(x + ((i * i) div ~2)),x,1) div 2)) div 2)
1: ((1 + (x mod 2) - ((x - (x div 8)) mod 3)) div 2)
1: ((3 - (x mod ((~x + ~2) + (2x mod (4 + (x div 4)))))) div 3)
1: (((x + 2) - ((((x + 1) * (~4x + (x mod 2))) div 2) div 2)) div 2)
1: ((2 + (x mod 3) - ((x mod (4 - (x mod 2))) div 2)) div 2)
1: ((2 + (x div 3) - (x div 2)) div (x + 2))
1: (((x + 2) - ((x - (x div 5)) mod 8)) div 3)
1: (((x + 2) - (((x + (2 * (x mod 2))) * ((1 + (x div 2)) div 2)) mod 3)) div 2)
1: ((2 + (x div 4) - (((1 + (x div 2)) div (2 + (x mod 2))) mod 2)) div 2)
1: ((2 + (x div 3) - ((x div 2) mod 3)) div (2 + (x mod 3)))
1: (((x + 2) - (((2 - (x div 2)) mod (x + 1)) mod 3)) div 2)
1: ((2 + (x div 2) - ((if (x mod 2) <= 0 then 1 else x) mod 4)) div 3)
1: (((x + 2) - loop(\(x,i).((~2x + ~1) + (((x + 1) div 2) div 3)),3,x)) div 3)
1: ((~x + 3) div (3 + (x div 2)))
1: ((~x + 3) div (1 + ((2 + (x div 2)) div 3)))
1: ((~x + 3) div (2 + ((x div 2) div 3)))
1: ((~x + 3) div (2 + (x div 5)))
1: ((~x + 3) div (2 + (x div 8)))
1: ((~x + 3) div (1 + ((x + 2) mod 4)))
1: ((~x + 4) div (1 + (x div 2)))
1: ((~x + 4) div (2 + (x div 4)))
1: ((~x + 4) div (2 + (x mod 4)))
1: ((~x + 4) div (2 + i))
1: ((4 + ((x + (((x div 2) * (x div 2)) div 2)) div 2) - ((x mod 2) + (x div 2))) div 2)
1: ((2 + (((x + 1) div 5) * (1 + (x div 4))) - (x mod 2)) div 2)
1: ((1 + ((2 * (x mod (2 + (x mod (2 + (x mod 2)))))) + (x div 2)) - (x div 3)) div 2)
1: (((~x + 4) + (((x + 2) + (loop(\(x,i).(5x + 4),x,0) mod (x + 1))) div 2)) div 2)
1: ((2 + ((1 + (((x + (if (x mod 2) <= 0 then x else 1)) div 3) * (1 + (x div 5)))) div 3) - (x mod 2)) div 2)
1: ((2 + ((x + ((1 + (((x + 1) * (loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1))) div 2)) div 2)) div 2) - (x mod 2)) div 2)
1: ((2 + ((1 + (((x div 3) * (x div 2)) div 2)) div 2) - (x mod 2)) div 2)
1: ((2 + ((2 + ((x * (x div 5)) div 2)) div 3) - (x mod 2)) div 2)
1: ((2 + ((x + 1) div (2 + ((2x mod 3) + (x mod 2)))) - (x mod 2)) div 2)
1: ((2 + ((x - (((x + 1) div 2) mod 5)) div 3) - (x mod 2)) div 2)
1: ((2 + ((2 * (1 + ((2 + ((2 * (1 + ((2 + ((2 * (1 + ((1 + (x2 div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))) div 2))) div 3) - (x mod 2)) div 2))) div 3) - (x mod 2)) div 2))) div 3) - (x mod 2)) div 2)
1: ((2 + ((2 * (1 + ((2 + ((2 * (1 + ((1 + (x2 div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))) div 2))) div 3) - (x mod 2)) div 2))) div 3) - (x mod 2)) div 2)
1: ((2 + ((2 * (1 + ((1 + ((1 + (((1 + loop(\(x,i).2x,(1 + (x div 2) - (2 * (x mod 2))),2)) div 3) div 2)) div 2)) div 2))) div 3) - (x mod 2)) div 2)
1: ((2 + ((2 * (1 + ((1 + ((2 + (loop(\(x,i).(x - (x div (~2 + (x mod ~2)))),x,1) div 2)) div 3)) div 2))) div 3) - (x mod 2)) div 2)
1: ((2 + ((2 * (1 + ((1 + (x2 div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))) div 2))) div 3) - (x mod 2)) div 2)
1: ((2 + ((2 * (1 + ((1 + ((((x + 1) * (1 + (2x mod (1 + (x div 2))))) div 2) div 2)) div 2))) div 3) - (x mod 2)) div 2)
1: ((2 + ((2 * (1 + ((1 + (loop(\(x,i).((x + 1) + (2 * ((x div 2) div 3))),x,1) div 2)) div 2))) div 3) - (x mod 2)) div 2)
1: ((2 + ((2 * (1 + ((1 + (x2 mod (~1 + (4 * (2x div 3))))) div 2))) div 3) - (x mod 2)) div 2)
1: ((2 + ((2 * (1 + ((2 * (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + ((1 + (x div 2)) div 2))))) div 3))) div 3) - (x mod 2)) div 2)
1: ((2 + ((2 * (1 + ((2 * ((1 + ((x * ((x + (if (x mod 2) <= 0 then 2 else x)) div 2)) div 2)) div 3)) div 3))) div 3) - (x mod 2)) div 2)
1: ((2 + ((2 * (1 + (((x + 1) * (if x <= 0 then 1 else (2 * ((x mod (1 + (x div 2))) div 2)))) div 5))) div 3) - (x mod 2)) div 2)
1: ((2 + ((2 * (1 + ((if x <= 0 then 0 else ((2x + 1) - (if (x mod 4) <= 0 then (x div 4) else 0))) div 2))) div 3) - (x mod 2)) div 2)
1: ((2 + ((2 * (1 + (loop(\(x,i).((x + 1) + (3 * (x div 5))),x,1) div (x + 1)))) div 3) - (x mod 2)) div 2)
1: ((2 + ((2 * (1 + (loop(\(x,i).(x + (x div (2 + (x mod 2)))),x,2) div (x + 2)))) div 3) - (x mod 2)) div 2)
1: ((2 + ((2 * ((3 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 2)) div 3) - (x mod 2)) div 2)
1: ((2 + (((((1 + (x div 2)) div (1 + (x mod 2))) * (1 + (x div 2))) div 2) div 2) - (x mod 2)) div 2)
1: (((x + 1) + (x div 2) - ((x div 2) mod 3)) div 2)
1: ((2 + (x div (2 + ((2x mod 3) + (x mod 2)))) - (x mod 2)) div 2)
1: ((2 + (x div (2 + (x div (1 + (x mod (1 + ((2 - (x div 2)) mod 4))))))) - (x mod 2)) div 2)
1: (((x + 1) + ((x div 2) mod 2) - (x div 8)) div 2)
1: ((2 - ((x mod 2) + ((((~x + 1) div 3) * (x div 3)) div 2))) div 2)
1: ((2 - ((x mod 2) + ((((~x + 2) div 2) * (x div 3)) div 3))) div 2)
1: (((x + 2) - ((x mod 2) + (x mod (1 + (2 * (if (x mod 3) <= 0 then 0 else 2)))))) div 2)
1: ((0 + (2 * (1 + (x mod (2 + (x div (2 + (if ((x + 1) mod 5) <= 0 then 0 else 2))) - (x mod 2))))) - (x mod 2)) div 2)
1: (((x3 + 3x2 + 3x + 2) - ((x div 2) mod 2)) div 2)
1: ((~1 + ((x + 1) * (1 + (2 * loop(\(x,i).(12x + 8),2,3))))) div 4)
1: (((2x + ~1) + (2 * ((4 * (x + (if (~2 + (x div 2)) <= 0 then 1 else 2))) div 3))) div 3)
1: ((1 + (x * ((x div 2) mod 2)) - (x div 2)) div 2)
1: ((1 + (3 * (if (x mod 2) <= 0 then (3 * (if (x mod 4) <= 0 then (3 * (2 + (if x <= 0 then 0 else 2))) else 1)) else 1)) - (x mod 2)) div 2)
1: (((2x + 1) - (x div 4)) div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))
1: (((2x + 1) - ((x + 1) mod 4)) div 5)
1: (((2x + 1) - ((x * (x div 2)) mod 2)) div 3)
1: (((2x + 1) - (x mod 2)) div 3)
1: (((2x + 1) - (x mod 2)) div 5)
1: (((2x + 1) - (x mod 4)) div 3)
1: ((1 + ((x2 + 2x + 1) div 5) - ((x div 2) mod 2)) div 2)
1: ((~1 + (((2 * ((2x + 2) + (if x <= 0 then 1 else (2 * (x + ((x div 2) div 5)))))) div 3) + (x mod 2))) div 2)
1: (((x + ~1) + ((2 * ((x + 3) + compr(\x.(1 - (x mod (1 + (2 * (x div (2 + ((x div 2) div 3))))))),x))) div 3)) div 2)
1: (((x + ~1) + ((2 * ((x + 2) + ((2 * (1 + (2 * (x - ((~2x2 + 4x) div 5))))) div 3))) div 3)) div 2)
1: (((~x + 1) + (((1 + (x div 2)) * (x div 2)) div 2)) div (x + 1))
1: ((1 + (x div 2) - (x mod 2)) div 2)
1: ((2 + (x div 2) - (x mod 2)) div (2 + (x mod 3)))
1: ((1 + (x div ((if (x mod 3) <= 0 then 2 else 1) + (x mod 2))) - (x mod 2)) div 2)
1: ((1 + (x div 8) - (x mod 2)) div (1 + (2x mod 3)))
1: ((1 + (x div 8) - (x mod 2)) div (1 + (x mod 3)))
1: ((1 + ((x + 1) mod 4) - (x div 4)) div (x + 1))
1: ((~1 + (((~2x + 2) mod (4 + (x div 4))) + (if x <= 0 then 1 else (~1 + (x div (if (x mod 2) <= 0 then 4 else 1)))))) div (x + 2))
1: ((~1 + ((((1 + (x div 2)) div 2) mod 4) + (x div 2))) div 2)
1: ((1 + (x mod 2) - (((x + 1) div 3) mod 3)) div 2)
1: (((~x + 1) + (x mod 2)) div 3)
1: ((1 + (if (x mod 2) <= 0 then (1 + ((2 * (1 + ((1 + (((1 + (((x + 1) * (1 + (2 * (((x div 3) * (x div 2)) div 2)))) div 2)) div 2) div 2)) div 2))) div 3)) else 0) - (x mod 2)) div 2)
1: ((1 + (if x <= 0 then 1 else (2 * (1 + compr(\x.(~1 + (loop(\(x,i).(2x + 1),(x div (1 + (x mod 2))),1) mod (x + 1))),(x + 1))))) - (x mod 2)) div 2)
1: (((x + ~1) + loop(\(x,i).(x + ((if (x + ~4) <= 0 then 1 else 2) + (x div 4))),x,1)) div 2)
1: (((x + ~1) + loop(\(x,i).(x2 + 2x + 2),(x div 2),(x mod 2))) div 3)
1: (((x + ~1) + loop(\(x,i).((x + 1) - ((~2x + 2) div 7)),2x,1)) div 2)
1: (((loop(\(x,i).3x,x,1) + loop(\(x,i).5x,x,1)) - loop(\(x,i).(x2 + x),1,loop(\(x,i).2x,x,1))) div 2)
1: ((x + loop(\(x,i).3x,x,3) - loop(\(x,i).2x,x,2)) div 2)
1: (((loop(\(x,i).8x,x,1) + loop(\(x,i).2x,x,1)) - loop(\(x,i).(3x + 2),x,0)) div 2)
1: (((loop(\(x,i).4x,x,1) + loop(\(x,i).6x,x,1)) - (loop(\(x,i).5x,x,1) + loop(\(x,i).3x,x,1))) div 2)
1: ((1 + loop(\(x,i).4x,x,2) - loop(\(x,i).3x,x,3)) div 2)
1: ((1 + loop(\(x,i).2x,x,1) - (2 * ((1 - loop(\(x,i).((x2 + ~x) div (1 + i)),2,(x + ~1))) div 2))) div 2)
1: ((1 + loop(\(x,i).2x,x,1) - loop(\(x,i).2x,(x div 2),2)) div 2)
1: ((1 + loop(\(x,i).2x,x,1) - loop(\(x,i).2x,(x div 2),(x mod 2))) div 3)
1: ((1 + loop(\(x,i).2x,x,1) - loop(\(x,i).((x * (1 + i)) div (1 + (i div 2))),(x + ~1),1)) div 2)
1: ((1 + loop(\(x,i).2x,x,2) - loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),(x div 2),(1 + (x mod 2)))) div 2)
1: ((1 + loop(\(x,i).2x,x,2) - loop(\(x,i).2x,(x div 2),1)) div 2)
1: (((2x + ~1) + loop(\(x,i).x2,1,(3 * (x + (x div 4))))) div 2)
1: (((~x + 1) + loop(\(x,i).x2,1,loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x))) div 2)
1: ((~1 + loop(\(x,i).(x * i),(1 + (2 * (x - (x div ~2)))),1)) div 2)
1: (((x + ~1) + loop(\(x,i).((x2 + 3x + 2) div 2),2,9)) div 2)
1: (((x + 2) - (2 * ((~x + 2) div 8))) div 3)
1: (((x + 1) - (2 * (x mod (x - ((x + ~1) mod 8))))) div 3)
1: (((x + 2) - ((x + ((x - (x div 3)) mod 8)) div 2)) div 2)
1: ((x + (x div 2) - ((2 - (x div 4)) div 2)) div 2)
1: (((x + 1) - ((x2 + ~x) div 4)) div 3)
1: (((x + 2) - ((if x <= 0 then 1 else (loop(\(x,i).x5,1,11) mod (x + 1))) div 2)) div 3)
1: (((x + 2) - (x div (~2 + (x mod ~3)))) div 3)
1: ((x + (x div 3) - ((x div 2) mod 2)) div 3)
1: ((x + (x div 2) - (x mod 8)) div 2)
1: ((2x - loop(\(x,i).(x - (if x <= 0 then 1 else (1 - (((x2 + 1) div (1 + (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))) mod 3)))),x,x)) div 2)
1: (((compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x) + loop(\(x,i).2x,x,1)) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) div 2)
1: (7 div (2 - ((x + ~2) div 7)))
1: ((3x + 1) div (4 + (x div 4)))
1: ((3x + 1) div (1 + (2 * i)))
1: ((3x + 1) div (1 - (x div (~2 + (x mod ~4)))))
1: ((3x + 2) div (1 + (x div 3)))
1: ((3x + 2) div (2 - (x mod 2)))
1: (9 div (2 + (x div 2)))
1: (9 div (x + 1))
1: (9 div (1 - (8 mod (2 * (~8 + (x div 2))))))
1: ((x + 8) div (1 + ((x + 1) div 2)))
1: ((x + 8) div (~1 + ((~x + 1) div 2)))
1: (13 div (x + 1))
1: ((5x + 4) div (1 + (x div 2)))
1: (((x2 + 11x + 28) + (if x <= 0 then 1 else 2)) div 2)
1: ((1 + (x * ((2x + 1) + (((x + 1) + (x2 div 4)) div 2)))) div (x + 2))
1: ((3x + 20) div 2)
1: ((2x2 + 14x + 6) div (x + 1))
1: ((x2 + 8x + 13) div 2)
1: (((x2 + 10x) + (x mod 10)) div (x + 1))
1: ((2 + (5 * ((x + 2) + (2 * (x div 4))))) div 3)
1: ((x + (2 * ((x + 2) + ((2 * (x - (((x + 1) div 2) mod 3))) div 3)))) div 2)
1: ((2 + (2 * (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) + ((2x + 1) div (3 + (x div 4))))))) div 3)
1: ((x + (((x + 1) + (x div 2)) * (x + (x div 2)))) div 2)
1: ((2 + ((~x + 1) * (4 + (x div 4)))) div 5)
1: (((x * (4 + (x div 4))) + (x mod 3)) div (x + 2))
1: ((1 + (3 * ((x + 2) + (x div 4)))) div 2)
1: ((x + (3 * ((5x + 4) + (x div 4)))) div (x + 1))
1: ((1 + (((x + 2) + (x div 7)) * ((x + 1) div 2))) div 3)
1: ((1 + (x * (4 + (x mod 2)))) div (x + 4))
1: ((x + ((~x + 3) * (x div 3))) div 2)
1: ((x + ((~x + 4) * (x div 2))) div (x + 2))
1: ((1 + (2 * (2 + (2 * (x - (((x div 2) - ((~1 + (x div 4)) div 2)) mod 2))) - (x mod 2)))) div 3)
1: ((1 + (3 * ((2x + 2) - (x div (4 + ((x div 2) mod 4)))))) div 2)
1: (((3 * ((x + 2) - ((x div 2) div 5))) + (x mod 3)) div 2)
1: (((3 * ((x + 1) - (x div 4))) + (x mod 2)) div 2)
1: (((2 * ((4x + 4) + ((x + 1) div 3))) + (x div 2)) div 3)
1: ((x3 + 3x2 + 5x + 4) div 4)
1: ((x + ((x2 + 2x + 2) * (2 + (x mod 2)))) div 2)
1: ((8x3 + 12x2 + 14x + 6) div 5)
1: ((5x2 + 13x + 9) div 3)
1: (((2 * (1 + (6 * (x - (x div 8))))) + (x div 2)) div 2)
1: (67 div (x + 1))
1: ((x + (2 * (1 + (16 * (~1 + loop(\(x,i).(2 * (x + i)),x,2)))))) div 3)
1: ((1 + ((1 + (4 * ((3 * ((1 + (x div 2)) div 2)) div 2))) * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2))) div 2)
1: (((8x + 2) + (x2 div 3)) div (x + 2))
1: ((4x3 + 6x2 + 5x + 1) div 5)
1: ((x + (3 * (1 + (2 * ((((x + 2) + ((3 * ((x + 2) + (2x div 7))) div 2)) div 2) div 2))))) div 2)
1: ((2 + (3 * (2 + ((x div 2) * (x div 2))))) div 5)
1: ((2x2 + 3x + 2) div 7)
1: (((2x2 + 3x + 1) + (x div 2)) div 2)
1: ((x + ((2x + 1) * (x div 2))) div 2)
1: ((x3 + x + 2) div 7)
1: ((x3 + 2x + 1) div (3x + 19))
1: ((x3 + 4x + 2) div 3)
1: ((1 + (x * (x2 + (x mod 2)))) div 3)
1: ((1 + (2 * (x + (((2x + 1) + (2 * (x + ((x4 + 2x3 + 2x2) div (x + 1))))) div 3)))) div (x + 1))
1: ((x + (2 * ((2x + 2) + ((1 + (2 * (2 + (2 * (x - (((x div 2) - ((~1 + (x div 4)) div 2)) mod 2))) - (x mod 2)))) div 3)))) div 3)
1: ((x + (2 * (x + ((x + ((x + ((3 * ((3x2 + x) div 2)) div 2)) div 2)) div 2)))) div 2)
1: (((2 * (1 + ((1 + ((1 + (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) mod (2 * (2 + (x mod 4))))) div 2)) div 2))) + (x mod 3)) div 2)
1: ((1 + (2 * (x + ((1 + (((1 + ((((3x3 + 3x2 + ~2x) div 2) div 2) div 2)) div 2) div 2)) div 2)))) div 3)
1: ((x + (2 * ((2x + 2) + ((~x + 1) div (2 + (((x + 1) div 2) div 3)))))) div 3)
1: ((1 + (5 * (2 + ((x + ~2) div (2 + (x div 4)))))) div 3)
1: ((1 + (2 * (((x - (x div 12)) div 2) + (2 * (if x <= 0 then 1 else 4x))))) div 3)
1: ((1 + (3 * (1 + (((x + ~1) * (1 + (2 * (x - ((~x + 1) div 3))))) div 2)))) div (x + 1))
1: ((x + ((x + 1) * (1 + ((x * (~1 + ((x3 + 2x) div 2))) div 2)))) div 2)
1: ((1 + (2 * (1 + ((8 * ((4 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2)) div 3)) div 3)))) div 3)
1: ((1 + (2 * (1 + ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (~1 + (8 * ((1 + (x div 2)) div 2)))) div 2)))) div 3)
1: (((2 * (1 + (((~1 + (6 * (1 + ((2 + ((~3x + 5) mod (1 + (x div 2)))) div 3)))) div 2) div 2))) + (x mod 3)) div 2)
1: ((1 + ((1 + ((x div 2) div 3)) * ((x + 1) div 2))) div 2)
1: ((x + (2 * (2 + (((x + ~1) mod (2 + (x div 2))) div 2)))) div 3)
1: (((2 * (1 + ((((x + 2) div 3) mod 4) div 3))) + (x mod 3)) div 2)
1: ((x + (2 * (x + (((x div 2) mod 5) div 3)))) div 2)
1: ((x + (3 * (4x + ((x mod (1 + (x div 2))) div 2)))) div 2)
1: ((1 + (x * (1 + (x div 2)))) div 2)
1: ((1 + ((2 + (x div 2)) * (x div 3))) div (x + 1))
1: ((1 + (x * (2 + (x div 2)))) div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))
1: ((1 + (2 * (x + (x div 2)))) div (1 + (2 * i)))
1: ((1 + (2 * (x + (x div 2)))) div (1 + i))
1: ((2 + ((x + (x div 2)) * ((x + 1) div 2))) div 3)
1: ((1 + ((x + (x div 2)) * (x div 2))) div (x + 2))
1: ((2 + ((x + (x div 2)) * (x div 2))) div (x + 2))
1: (((x * (x + (x div 2))) + (x mod 3)) div 2)
1: ((2 + (x * (1 + (x div 3)))) div 3)
1: ((1 + (4 * (x + (x div 5)))) div 3)
1: (((2 * (1 + (x div (2 + (((x2 + x) div 4) mod (2x + 1)))))) + (x mod 3)) div 2)
1: ((x + (3 * ((x div 8) + (x div 2)))) div 2)
1: ((x + (14 * (x + (x div 8)))) div 2)
1: (((2 * (2 + ((2x + 1) mod (1 + (2x mod (2 + (x div 4))))))) + (x mod 3)) div 3)
1: ((1 + ((x + ((x + 1) mod 3)) * (1 + (x mod 2)))) div 5)
1: ((1 + ((x + 2) * (x + ((x + 1) mod 3)))) div 3)
1: ((x + (2 * (2 + ((x + 2) mod 7)))) div 3)
1: ((x + (5 * (2x + ((~x + 1) mod 4)))) div 2)
1: ((1 + (2 * (2 + (23 mod (x + 1))))) div (x + 1))
1: ((1 + (3 * (1 + ((19x + 19) mod 11)))) div 8)
1: ((2 + (x2 * (x + ((x * (x div 2)) mod 2)))) div 3)
1: ((x + (2 * (2 + (x2 mod 5)))) div 5)
1: (((x * (2 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))) + (x mod 2)) div (x + 3))
1: ((1 + ((1 + ((((x + 1) div 2) div 2) mod 4)) * (1 + (x div 3)))) div 5)
1: ((1 + (x * (x + ((x div 2) mod 2)))) div 5)
1: ((x + (2 * (1 + ((x div 2) mod (2 + (if (x mod 4) <= 0 then 2 else 0)))))) div 3)
1: ((2 + (3 * ((2x + 1) + ((x div 3) mod 2)))) div (x + 4))
1: ((x + (2 * (((x4 mod 31) mod 2) + (if x <= 0 then 0 else 1)))) div 3)
1: ((1 + (x * (1 + ((x mod 3) mod 2)))) div 3)
1: ((1 + (x * (2 + (loop(\(x,i).(1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),2,x) mod (x + 1))))) div (x + 1))
1: ((x + (2 * (2 + (x mod 2)))) div 3)
1: ((x + (2 * (2 + (x mod 2)))) div 9)
1: ((x + ((2 + (x mod 2)) * (x div 4))) div 5)
1: ((1 + (x * (2x + (x mod 2)))) div 3)
1: ((1 + (x * (2 + (x mod 4)))) div (x + 4))
1: ((1 + (4 * (x + (if (~2 + (x div 2)) <= 0 then 1 else 2)))) div 3)
1: ((1 + ((x + (if (~2 + (x div 3)) <= 0 then 1 else 2)) * ((x + 1) div 2))) div 2)
1: ((1 + (3 * (x + (if (x + ~4) <= 0 then 1 else 2)))) div 2)
1: ((x + (2 * (2 + (if (x + ~4) <= 0 then 1 else x)))) div 5)
1: ((x + (2 * (x + (if (x + ~4) <= 0 then 1 else x)))) div (x + 2))
1: ((1 + ((1 + (if (x mod 4) <= 0 then 2x else (x div 2))) * (1 + (4 * (x mod 2))))) div 3)
1: ((x + (2 * (1 + (if (x mod (2 * (2 - (x mod 2)))) <= 0 then (x mod 8) else 1)))) div 5)
1: ((1 + (3 * (x + loop(\(x,i).(x + (if (~2 + (x div 4)) <= 0 then 1 else 0)),2,x)))) div 2)
1: ((1 + (3 * (x + loop(\(x,i).(x - (if x <= 0 then 1 else (x - ((if x <= 0 then 2 else loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 2)))),x,(x + 2))))) div 2)
1: ((1 + (2 * (2x + loop(\(x,i).3x,(x + ~1),x)))) div (x + 1))
1: ((1 + ((x + 1) * (1 + loop(\(x,i).(x2 + x),1,loop(\(x,i).(2 * (2x - (x div (1 + i)))),x,1))))) div 2)
1: ((x2 + x + 1) div (x + 4))
1: ((x2 + x + 1) div (x + 8))
1: ((x2 + x + 1) div (2 + ((x - (x div ~4)) div 2)))
1: ((x2 + x + 1) div (2 + (x div 2)))
1: ((x2 + x + 1) div (if x <= 0 then 1 else (2 + (x div 2))))
1: (((x2 + x) + (x div 2)) div 2)
1: (((x2 + x) + (x mod 4)) div 3)
1: ((2x + 5) div (1 + (x mod (2 * (1 + (x mod 2))))))
1: ((2x + 5) div (3 * (2 + (x div 7))))
1: ((3x + 4) div (2 + i))
1: ((3x + 4) div (~1 + (2 * loop(\(x,i).(2 + (x mod (1 + i))),x,2))))
1: (((x2 + 3x + 2) + (x div 2)) div 2)
1: (((x2 + 3x + 2) + (x mod 3)) div 2)
1: ((x2 + 2x + 1) div ((x + 2) - (x div 3)))
1: ((x2 + 2x + 2) div (2 + ((x div 2) mod 2)))
1: ((x2 + 2x + 2) div ((x2 + 2) div (x + 1)))
1: ((x2 + 2x + 2) div (if (x mod 2) <= 0 then 1 else 4))
1: ((x + ((x + 2) * i)) div (1 + (2 * (2 + i))))
1: ((1 + ((2 + i) * i)) div (x + 1))
1: ((2 + (x * (x + i))) div (x + 2))
1: ((2 + ((0 - (x div (~2 + (x mod ~2)))) * (((x + ~1) div 2) div 2))) div 2)
1: ((1 + (2 * (1 - (x div 4)))) div 3)
1: ((1 + ((~x + 1) * (x div 2))) div 2)
1: ((1 + (5 * (2 - ((~x + 1) div (2 + (x div 4)))))) div 3)
1: (((2 * (2 - ((~x + (2 div (x + 1))) div 5))) + (x div 3)) div 2)
1: ((1 + (x2 * (2 - (x div 2)))) div (x + 2))
1: ((~3x + 7) div (1 + ((x + 1) div 2)))
1: ((~x2 + 2x + 1) div 17)
1: ((x4 + 2x3 + 2x2) div (x + 1))
1: ((x + (3 * ((4x + 2) - ((x - (x div 5)) div 3)))) div 2)
1: ((1 + (3 * ((20x + 8) - (x mod 2)))) div (x + 1))
1: ((4x3 + 15x2 + 18x + 9) div 9)
1: ((x2 + x + 94) div 2)
1: ((x + (2 * (4x - ((x + (x div 4)) div 3)))) div 3)
1: ((x + (2 * (4x - ((2x + 2) div 5)))) div 3)
1: ((1 + ((~1 + (2 * (x div 4))) * (x div 3))) div 2)
1: ((1 + (5 * ((3 * (if (x mod 2) <= 0 then (3 * (if (x mod 4) <= 0 then (2 + (if x <= 0 then 0 else 2)) else 1)) else 1)) - (if x <= 0 then 1 else 2)))) div 4)
1: ((1 + ((x + 1) * (~1 + (2 * loop(\(x,i).(x2 + 2),2,5))))) div 2)
1: ((2x2 + ~x + 1) div 7)
1: (((2x2 + ~x) + (x2 div 4)) div (x + 1))
1: ((1 + (5 * (2x - ((x div 3) mod 2)))) div 3)
1: ((1 + (x * (((x + 1) div 3) - (x mod 2)))) div (x + 1))
1: ((2 + (2 * ((x div 4) - (x mod 2)))) div (2 + (x mod 2)))
1: ((2 + (x * (~1 + ((x + 1) mod 3)))) div 3)
1: ((1 + (2 * (((x mod 2) + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) - compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)))) div 3)
1: ((1 + ((~1 + (x mod 4)) * (x mod 3))) div (x + 1))
1: ((1 + (2 * ((if x <= 0 then 1 else 6x) - ((x + ((~x + 1) mod 3)) div 4)))) div 3)
1: ((1 + ((x + ~1) * (~1 + loop(\(x,i).4x,x,2)))) div (x + 1))
1: ((1 + (2 * (loop(\(x,i).2x,x,2) - loop(\(x,i).2x,((x + 1) div 2),1)))) div 3)
1: ((x2 + ~x + 1) div (x + 4))
1: ((x2 + ~x + 2) div (1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))
1: ((x2 + ~2x + 1) div 2)
1: ((x2 + ~2x + 1) div 5)
1: ((x2 + ~2x + 1) div (x + 5))
1: ((x2 + ~2x + 1) div 7)
1: ((x2 + ~2x + 1) div (~6x + 108))
1: ((x2 + ~2x + 2) div (1 + (x div 5)))
1: (((x2 + ~2x) + (x mod 2)) div (x + 1))
1: ((1 + (2 * ((x + 2) - (2 * ((~2 + ((~2x + 2) mod (4 + (x div 4)))) div 2))))) div 7)
1: ((1 + (9 * ((5x + 4) - (x div 2)))) div 7)
1: (((~7x2 + ~7x) + (x div 2)) div 3)
1: ((1 + (2 * (x - (2 * ((~x + 1) div 3))))) div 3)
1: ((2 + (5 * (x - (2 * (x div ~4))))) div 3)
1: ((1 + (2 * (x - (2 div (~8 + (x div 2)))))) div 5)
1: ((1 + (2 * (x - ((2 - (x div 2)) div (x + 2))))) div 3)
1: ((1 + (2 * (x - ((~x + 2) div (2 - (x mod ~4)))))) div 3)
1: ((1 + (2 * (x - (((((x2 div 2) div 3) mod (x + 1)) div 2) div 2)))) div 3)
1: ((1 + (2 * (x - ((x mod (2 + (6 mod (1 + (x div 2))))) div 2)))) div 3)
1: ((1 + ((x + 1) * (x - (x div ~2)))) div 2)
1: ((1 + (2 * (x - ((x + 1) mod (1 + ((~x + 2) mod 4)))))) div 3)
1: ((1 + (3 * (x - (x mod 10)))) div (x + 1))
1: ((2 + ((x - (if (x + ~6) <= 0 then 0 else 2)) * (x div 2))) div (x + 2))
1: ((x + (3 * (~2x + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))) div (x + 1))
1: (19 div (x + 1))
1: ((9x + (x div 3)) div (x + 4))
1: (17 div (x + 1))
1: (25 div (x + 1))
1: (41 div (x + 1))
1: (((16x + 8) + (if (x + ~2) <= 0 then 2 else 1)) div 3)
1: (((8x + 8) + (x div 3)) div 3)
1: (61 div (x + 1))
1: (21 div (x + 1))
1: ((x + (4 * ((x + 1) + (5 * (x + (x mod 2)))))) div 2)
1: ((x + (4 * ((x + 1) + ((x + (x div 12)) div 2)))) div 3)
1: ((1 + (4 * (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) + ((2x + 1) div (3 + (x div 4))))))) div 3)
1: ((x + (3 * (((x + 1) + (x div 2)) * ((x + 1) div 2)))) div 2)
1: ((1 + (3 * (((x + 2) + (x div 2)) * ((x + 1) div 2)))) div 2)
1: ((x + (4 * ((x + 1) + (x div (2 - (x div (~1 + ((~x + 2) div 4)))))))) div 3)
1: ((1 + (4 * ((x + 4) + (if (~4 + (x div 2)) <= 0 then 1 else 2)))) div 3)
1: ((3x2 + 16x + 12) div 17)
1: ((3x2 + 19x + 24) div 2)
1: ((1 + ((9x + 3) * (2 + (if x <= 0 then 1 else x)))) div 2)
1: (69 div (x + 1))
1: ((x5 + 2x2 + 1) div 2)
1: (((x2 + x) + (6 * (1 + (2 * (x div 2))))) div (1 + (x div 2)))
1: ((1 + ((2x + 2) * (1 + (2 * (((x mod (~2 + ((~x + 2) div 4))) div 2) mod 2))))) div 3)
1: ((x + ((3x + 3) * (x + (2 * (x mod 2))))) div 2)
1: ((1 + (9 * (1 + (x div 2)))) div (x + 1))
1: ((1 + (2x * (1 + (2 mod (x + 1))))) div (x + 3))
1: ((1 + (2 * ((1 + ((x + ~1) mod 3)) * (x div 2)))) div (x + 1))
1: ((x + (14 * (x + (if (~2 + (x div 2)) <= 0 then 1 else 2)))) div 2)
1: ((7x + 6) div (1 + (if (x mod 3) <= 0 then 2 else 0)))
1: (((2x3 + 3x2 + x) + (x div 2)) div 2)
1: (((3x2 + 12x + 12) + (x2 div 2)) div 2)
1: ((2x3 + 9x2 + 13x + 4) div 3)
1: ((x4 + 4x3 + 5x2 + 5x + 4) div 3)
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1: ((1 + (2 * (if x <= 0 then 1 else (2 * (2x - ((x div 2) mod 2)))))) div 3)
1: ((1 + (2 * (if x <= 0 then 1 else (2 * (x - ((~1 + (x div 2)) div 3)))))) div 3)
1: ((1 + (2 * (if x <= 0 then 1 else (2 * ((2 * (4x - (x div 7))) div 3))))) div 3)
1: ((1 + ((x + 1) * (if x <= 0 then 1 else (x div 4)))) div 2)
1: ((1 + (2 * (if x <= 0 then 2 else (4x - (((x + ~1) mod (2 + (x div 2))) div 2))))) div 3)
1: ((1 + (2 * (if x <= 0 then 2 else x4))) div (if x <= 0 then 1 else x))
1: ((1 + (3 * loop(\(x,i).((9x + 1) + ((x + 1) mod 3)),x,1))) div 2)
1: ((1 + (2 * loop(\(x,i).((x + 2) + ((x div 2) div 3)),(x + ~1),1))) div 3)
1: ((x + (loop(\(x,i).(x + (if (x - i) <= 0 then x else 0)),x,1) * (x mod 2))) div 2)
1: ((2 + (loop(\(x,i).(3x + ~2),(x + ~1),5) * loop(\(x,i).4x,x,2))) div 4)
1: ((1 + (2 * loop(\(x,i).((x + 1) - ((~x + 1) div 3)),x,1))) div (x + 2))
1: ((1 + (x * loop(\(x,i).((x + 1) - (if x <= 0 then 2 else (2 * i))),x,x))) div (x + 1))
1: ((1 + (2 * loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x))) div 3)
1: ((1 + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (3 + (((x + 1) div 2) div 2)))) div 2)
1: ((1 + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (1 + (((x + ~1) div 2) div 3)))) div 2)
1: ((1 + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (2 + (x div 4)))) div 3)
1: ((1 + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (2 + (x div 5)))) div 3)
1: ((1 + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (1 + ((x + 1) mod 4)))) div 2)
1: ((1 + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * ((x + 1) div 2))) div 2)
1: ((x + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * ((x + 1) div 2))) div 2)
1: ((1 + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (if (~2 + (x div 2)) <= 0 then 1 else 2))) div 2)
1: ((1 + (2 * loop(\(x,i).3x,(~1 + ((x * (~1 + (x mod 3))) div 2)),1))) div 3)
1: ((1 + (loop(\(x,i).7x,x,1) * (1 + (x div 5)))) div 3)
1: ((1 + (2 * loop(\(x,i).(3 * (2 + (x div 2))),x,0))) div (x + 1))
1: ((1 + (9 * loop(\(x,i).(2 * (2x + (x div 2))),x,1))) div 2)
1: ((1 + (3 * loop(\(x,i).(2x + 2),(~1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)),1))) div 2)
1: ((1 + ((2x + 1) * loop(\(x,i).((x + 1) * i),x,0))) div (x + 1))
1: ((1 + (3 * loop(\(x,i).(x * (7 - i)),x,1))) div 2)
1: ((2 + (x * loop(\(x,i).x3,1,(x + 3)))) div 2)
1: ((1 + ((x + 1) * loop(\(x,i).x3,1,loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1)))) div 2)
1: ((1 + (5 * loop(\(x,i).2x,(((x + ~1) div 2) - ((3 * (x div 4)) div 2)),1))) div 3)
1: ((1 + ((x + 1) * loop(\(x,i).2x,x,(if x <= 0 then 1 else loop(\(x,i).((x2 + ~x) div 2),3,x))))) div 3)
1: ((1 + ((x + 1) * loop(\(x,i).x2,2,(x + 1)))) div 2)
1: ((x + (2 * loop(\(x,i).((x2 + 2x) div 16),2,x))) div 3)
1: ((x + (3 * loop(\(x,i).(if x <= 0 then i else (x + ~1)),x,0))) div 2)
1: ((x + (2 * loop(\(x,i).i,(x + ~6),2))) div 3)
1: ((2x + 1) div (5 + (x div 8)))
1: ((2x + 1) div (2 + ((x * (x div 3)) mod (1 + ((2 - (x div 2)) mod 4))) - (x mod 2)))
1: ((2x + 1) div (3 + ((x - (x div 3)) div 3)))
1: ((2x + 1) div (1 + (2 * (2 + ((((x + 1) div 2) div 3) mod 2)))))
1: ((2x + 1) div (1 + (4 * (1 + (x mod 3)))))
1: ((2x + 1) div (1 + (2 * ((x mod (1 + (if (x mod 4) <= 0 then 0 else 2))) div 2))))
1: ((2x + 1) div (1 + (2 * (x mod 2))))
1: ((2x + 1) div (2 + ((x - (x div ~2)) div 4)))
1: ((2x + 1) div (1 + ((2x + 4) div 5)))
1: ((2x + 1) div (1 + (x div 3)))
1: ((2x + 1) div (1 + (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))))
1: ((2x + 1) div (2 + (3 mod (x + 1))))
1: ((2x + 1) div (1 + (4 mod (x + 1))))
1: ((2x + 1) div (1 + (x mod 12)))
1: ((2x + 1) div (1 + (if ((x + ~2) mod 5) <= 0 then 4 else 0)))
1: ((2x + 1) div (1 + loop(\(x,i).(i - ((1 + i) mod (x + 1))),x,0)))
1: ((2x + 1) div (2 - (((x div 2) div ~2) div 2)))
1: ((2x + 1) div (~1 + (4 * (x div 3))))
1: ((2x + 1) div (if x <= 0 then 1 else (2 * (1 + ((1 + (loop(\(x,i).(2x + 2),(((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3) + (if x <= 0 then 0 else 1)),1) div 2)) div 2)))))
1: ((2x + 1) div (if x <= 0 then 1 else (2 * (1 + (((loop(\(x,i).2x,x,(1 + (x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4)))))))) - (x mod 2)) mod (x + 1)) div 2)))))
1: ((x2 + 1) div (x + 7))
1: ((x2 + 1) div (x + 18))
1: ((x2 + 1) div ((x + 1) + (2x div 5)))
1: ((x2 + 1) div (x + (2 * (2 + (if (x mod 3) <= 0 then 0 else 2)))))
1: ((x2 + 1) div (2x + 5))
1: ((x2 + 1) div (4x + 1))
1: ((x2 + 1) div (1 + ((x + (x2 div 5)) div 2)))
1: ((x2 + 1) div (1 + ((x + 1) div 2)))
1: ((x2 + 1) div (1 + ((x div 2) div 3)))
1: ((x2 + 1) div (1 + (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))))
1: ((x2 + 1) div ((2x + 4) - (x div 4)))
1: ((x2 + 1) div (2x + ~1))
1: ((x2 + 1) div (x - ((if x <= 0 then 1 else x) div ~3)))
1: ((x2 + 1) div (x - ((if x <= 0 then 1 else x) div ~4)))
1: ((x2 + 2) div (x + 10))
1: ((x2 + 2) div (x + 4))
1: ((x2 + 2) div 9)
1: ((x2 + 2) div (~2x + 9))
1: ((x2 + 2) div (x + (4 * (2 + (x mod 2)))))
1: ((x2 + 2) div (1 + (x div 2)))
1: ((x2 + 2) div (2 + (x mod 3)))
1: ((x2 + 2) div (2 + (x mod 4)))
1: ((x2 + 2) div (2 + (if x <= 0 then 1 else x)))
1: ((x2 + 2) div (x + 1))
1: ((x2 + 2) div (4 - (x div ~2)))
1: ((x2 + 2) div (if (x + ~4) <= 0 then 2 else 1))
1: ((x2 + 2) div loop(\(x,i).3x,2,(if (x mod 2) <= 0 then 4 else 1)))
1: ((x2 + 3) div 7)
1: ((x2 + 3) div (1 + (x div 3)))
1: ((x2 + 4) div (if (x mod 2) <= 0 then 4 else 1))
1: ((x2 + (x div 2)) div 15)
1: ((x2 + (x mod 2)) div 5)
1: ((x2 + (x mod 2)) div (1 + (if (~2 + (x div 2)) <= 0 then x else (x + 2))))
1: ((x2 + i) div 2)
1: ((x2 + i) div (3x + ~1))
1: ((1 + (x * i)) div 3)
1: (((x * i) + (x div 2)) div 2)
1: ((x + (i * i)) div (1 + (x div 2)))
1: ((1 + (2 * compr(\x.(1 - (x mod (1 + ((x - (x div ~4)) mod 3)))),x))) div (x + 2))
1: ((1 + (2 * compr(\x.((x + 1) mod (1 + ((x + (2 * (x mod 2))) div 5))),x))) div (x + 1))
1: ((x + (2 div (8 - (x div 2)))) div 2)
1: ((2 + (((2x + 4) + (if x <= 0 then 1 else ((x + 4) + (x div (4 + (x div 2)))))) div 2)) div 2)
1: ((1 + (((2x + 1) + (compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x) + (2 * (x mod 2)))) div 2)) div 2)
1: ((x + (((2x + 1) + (((x + 1) + (4 * (2x - (2x div 7)))) div 3)) div 2)) div 2)
1: ((2 + (((2x + 1) + (x3 div (x + 32))) div 3)) div 2)
1: ((2 + ((1 + ((2 * (1 + (2 * (2x - (x mod 8))))) + ((x + 1) div 2))) div 2)) div 2)
1: ((2 + (((x2 + 1) + (2 * (2 + (((x div 2) div 3) mod 2)))) div 2)) div 2)
1: ((2 + (((x + 1) + (2 * ((1 + (2 * (((1 + (2 * ((x + 1) + (loop(\(x,i).(4 * (2x - (x mod 2))),x,1) div 3)))) mod (x + 1)) div 2))) mod (x + 1)))) div 2)) div 2)
1: ((2 + (((x + 1) + (2 * ((x div 2) mod (1 + (x2 mod (2 * (2 + (x mod 2)))))))) div 2)) div 2)
1: ((1 + ((1 + ((((x + 1) + (((if (x mod 2) <= 0 then x else 0) * (1 + (x div 2))) div 2)) div 2) + (x mod 2))) div 2)) div 2)
1: ((1 + (((x + 2) + ((x + ((x + ((x + loop(\(x,i).2x,x,1)) div (x + 1))) div 2)) div 2)) div 3)) div 2)
1: ((1 + (((x + 1) + ((x + (((x + 1) * ((x2 + ~x) div 4)) div 8)) div 2)) div 2)) div 2)
1: ((x + (((x + 2) + ((1 + (((1 + (((x + 1) * (1 + (((x3 + 3x2 + ~x + ~3) div 2) div 3))) div 3)) div 2) div 2)) div 2)) div 2)) div 2)
1: ((x + (((x + 3) + ((x + ((((x + 1) * (2 + ((~1 + (x div 4)) * (x div 2)))) div 2) div 2)) div 2)) div 2)) div 2)
1: ((1 + ((1 + (((2 * (1 + ((1 + ((x + loop(\(x,i).3x,x,3) - loop(\(x,i).2x,x,2)) div 2)) div 2))) div 3) + loop(\(x,i).2x,x,1))) div 2)) div 2)
1: ((1 + ((1 + (((2 * (1 + (((loop(\(x,i).(2x + (i mod 2)),x,2) div 3) + loop(\(x,i).2x,x,1)) div 3))) div 3) + loop(\(x,i).2x,x,1))) div 2)) div 2)
1: ((1 + (((x + 2) + (x3 div 9)) div 3)) div 2)
1: ((x + ((x + ((x2 div 3) + (2 mod (x + 1)))) div 2)) div 2)
1: ((x + (((x + 2) + ((((3x + 2) * (x div (~2 + ((~x + 2) div 4)))) div 2) div 2)) div 2)) div 2)
1: ((1 + ((1 + (((1 + (x div 2)) mod (4 * (2 - (x mod 2)))) + (x mod 3))) div 2)) div 2)
1: ((2 + (((x + 2) + ((2 * (1 + ((x + (2 * (4 - ((~x + 1) div (2 + (x div 4)))))) div 3))) mod (x + 1))) div 2)) div 2)
1: ((1 + (((x + 1) + ((x div 2) mod (1 + ((x + ~1) mod 5)))) div 2)) div 2)
1: ((2 + (((x + 2) + (loop(\(x,i).2x,x,(1 + (if (x mod 3) <= 0 then x else 0))) mod (x + 1))) div 2)) div 2)
1: ((1 + (((x + 1) + loop(\(x,i).(x + ((x div 2) div 3)),(x + ~1),x)) div 2)) div 2)
1: ((x + (((x + 1) + loop(\(x,i).x2,1,loop(\(x,i).((x + ~1) - (x * i)),x,2))) div 2)) div 2)
1: ((1 + ((1 + (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x))) div 2)) div 2)
1: ((1 + (((x + 1) - (((x + 1) mod (2 + ((1 - (2x mod (4 + (x div 4)))) mod (x + 1)))) div 2)) div 2)) div 2)
1: ((1 + ((2 + (((x + 1) div 5) * (1 + (x div 4))) - (x mod 2)) div 2)) div 2)
1: ((x + (((~x + 4) + (((x + 2) + (loop(\(x,i).(5x + 4),x,0) mod (x + 1))) div 2)) div 2)) div 2)
1: ((1 + ((2 + ((x + ((1 + (((x + 1) * (loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1))) div 2)) div 2)) div 2) - (x mod 2)) div 2)) div 2)
1: ((1 + ((2 + ((1 + (((x div 3) * (x div 2)) div 2)) div 2) - (x mod 2)) div 2)) div 2)
1: ((1 + ((2 + ((2 * (1 + ((1 + ((1 + (((1 + loop(\(x,i).2x,(1 + (x div 2) - (2 * (x mod 2))),2)) div 3) div 2)) div 2)) div 2))) div 3) - (x mod 2)) div 2)) div 2)
1: ((1 + ((2 + ((2 * (1 + ((2 * ((1 + ((x * ((x + (if (x mod 2) <= 0 then 2 else x)) div 2)) div 2)) div 3)) div 3))) div 3) - (x mod 2)) div 2)) div 2)
1: ((1 + ((2 + ((2 * (1 + (((x + 1) * (if x <= 0 then 1 else (2 * ((x mod (1 + (x div 2))) div 2)))) div 5))) div 3) - (x mod 2)) div 2)) div 2)
1: ((2 + (((x + ~1) + loop(\(x,i).((x + 1) - ((~2x + 2) div 7)),2x,1)) div 2)) div 2)
1: ((1 + ((x + loop(\(x,i).3x,x,3) - loop(\(x,i).2x,x,2)) div 2)) div 2)
1: ((x + (((loop(\(x,i).8x,x,1) + loop(\(x,i).2x,x,1)) - loop(\(x,i).(3x + 2),x,0)) div 2)) div 2)
1: ((x + ((1 + loop(\(x,i).2x,x,1) - loop(\(x,i).2x,(x div 2),2)) div 2)) div 2)
1: ((2 + (((2x + ~1) + loop(\(x,i).x2,1,(3 * (x + (x div 4))))) div 2)) div 2)
1: ((1 + ((2 + (x2 * (x + ((x * (x div 2)) mod 2)))) div 3)) div 2)
1: ((1 + ((1 + ((x + (if (~2 + (x div 3)) <= 0 then 1 else 2)) * ((x + 1) div 2))) div 2)) div 5)
1: ((2 + ((1 + (((if (x mod 2) <= 0 then 2 else 0) + (x div 2)) * (1 + (x div 2)))) div 3)) div 3)
1: ((2 + ((1 + ((1 + (if (x mod 4) <= 0 then 2x else (x div 2))) * (1 + (4 * (x mod 2))))) div 3)) div 3)
1: ((2 + ((2 + ((0 - (x div (~2 + (x mod ~2)))) * (((x + ~1) div 2) div 2))) div 2)) div 2)
1: ((1 + ((x + (3 * (2 - ((~x + 2) div (2 - (x div ~4)))))) div 2)) div 2)
1: ((x + ((1 + (x * ((x + ~1) div 3))) div 3)) div 2)
1: ((2 + ((2 + ((x + 1) * ((2 * (x div 2)) div 5))) div 3)) div 2)
1: ((1 + ((1 + (((3 * (x div 4)) div 2) * (x div 2))) div 2)) div 2)
1: ((1 + ((x + (3 * (x2 div 3))) div 2)) div 2)
1: ((1 + ((1 + ((x + ~1) * (x2 div 4))) div 5)) div 2)
1: ((x + ((x + (2 * ((((x + 3) * ((x + 1) - ((~x + 1) div 3))) div 2) div 2))) div 2)) div 2)
1: ((2 + ((1 + (5 * (loop(\(x,i).2x,(x + ~1),1) div 3))) div 2)) div 2)
1: ((1 + ((1 + ((x + 1) * (x div (2 + (x mod 2))))) div 2)) div 2)
1: ((2 + ((1 + (3 * (x2 mod (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))) div (x + 2))) div 2)
1: ((2 + ((x + (3 * ((x mod 10) mod 9))) div 2)) div 2)
1: ((1 + ((x + (3 * ((if x <= 0 then 1 else x) mod 3))) div 2)) div 2)
1: ((x + (((2 * (if (~2 + (x div 3)) <= 0 then 0 else 2)) + (x mod 3)) div 2)) div 2)
1: ((2 + ((1 + (2 * loop(\(x,i).((x + 2) + ((x div 2) div 3)),(x + ~1),1))) div 3)) div 3)
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1: ((1 + ((1 + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (1 + (((x + ~1) div 2) div 3)))) div 2)) div 2)
1: ((x + ((2x + 1) div (2 - (((x div 2) div ~2) div 2)))) div 2)
1: (((8x + 1) + ((x2 + 2) div 3)) div (x + 2))
1: ((1 + ((x2 + (x div 2)) div 3)) div 3)
1: ((x + ((x2 + (x div 2)) div 3)) div 3)
1: ((1 + ((1 + ((1 + ((((x + 1) + (((if (x mod 2) <= 0 then x else 0) * (1 + (x div 2))) div 2)) div 2) + (x mod 2))) div 2)) div 2)) div 2)
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1: ((x + (((4x3 + 12x2 + 12x + 8) div 3) div 3)) div 2)
1: ((x + (((x4 + ~x3) div 2) div 3)) div 2)
1: ((1 + (((2 * (((x - ((x div 2) mod 2)) div 2) * ((x + 1) div 2))) div 2) div 2)) div 2)
1: ((1 + ((((x2 + 3x) * (if (x mod 2) <= 0 then x else 1)) div 2) div 2)) div 2)
1: ((1 + ((((x2 + 2x + 1) * loop(\(x,i).(5x + 8),x,1)) div 2) div 3)) div 3)
1: ((1 + (((x3 + x2) div 2) div (x + 5))) div 2)
1: ((x + (((x3 + x2) div 2) div 11)) div 2)
1: ((x2 + ((x4 div 2) div 3)) div 2)
1: (((x2 + x) + ((x3 div 2) div 3)) div 5)
1: ((x + ((x3 div 2) div 5)) div 2)
1: ((1 + ((x3 div 2) div 31)) div 2)
1: ((1 + ((x3 div 4) div 3)) div 2)
1: ((x + ((x3 div 4) div 7)) div 2)
1: ((1 + ((((x + ~2) * ((1 + (x div 2)) div 2)) div 2) div 2)) div 2)
1: ((1 + ((((x + 1) * ((1 + (x div 2)) div 3)) div 2) div 2)) div 2)
1: ((1 + ((((x + 1) * ((x + (x div 2)) div 4)) div 2) div 2)) div 2)
1: ((1 + (((x * ((x + (2 mod (x + 1))) div 3)) div 2) div 2)) div 2)
1: ((1 + ((((x + ~1) * ((x + 2) div 5)) div 2) div 2)) div 2)
1: ((1 + (((((~x + 1) div 3) * ((x + ~1) div 2)) div 2) div 2)) div 2)
1: ((1 + (((x * ((2 - (x div 4)) div 2)) div 2) div 2)) div 2)
1: ((1 + ((((x + 1) * ((~1 + (x2 div 2)) div 3)) div 2) div 2)) div 2)
1: ((x + ((((x + ~1) * ((x3 + x) div 2)) div 2) div 5)) div 2)
1: (((x + 1) + ((((x + 2) * ((x2 + 4x + 4) div 2)) div 2) div 3)) div 3)
1: ((1 + (((x * ((x2 + ~2x) div (x + 2))) div 2) div 2)) div 2)
1: ((1 + (((5 * (4x2 div (2 - (x mod 2)))) div 2) div 2)) div 2)
1: ((x + (((((x * (x div 2)) div 2) * (2 + (x div 2))) div 2) div 2)) div 2)
1: ((2 + ((((x + 1) * (2x div 3)) div 2) div 2)) div 3)
1: ((1 + ((((x2 div 4) * (1 + ((x + 1) div 2))) div 2) div 2)) div 2)
1: ((1 + ((((x + ~1) * (x2 div 4)) div 2) div 3)) div 2)
1: ((1 + ((((x + 1) * (((~2x + 4) mod (2 + (x div 2))) div 2)) div 2) div 2)) div 2)
1: ((1 + ((((x + 1) * (x div 3)) div 2) div 2)) div 2)
1: ((1 + (((x * ((1 + (x div (2 * (2 - (x mod 2))))) mod 2)) div 2) div 2)) div 2)
1: ((1 + (((3 * ((1 - loop(\(x,i).(x div (2 - ((x * (x div 2)) mod 2))),x,x)) mod (x + 1))) div 2) div 2)) div 2)
1: ((1 + ((((x + 1) * (loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1))) div 2) div 7)) div 2)
1: ((1 + (((3 * (x mod (1 + ((~1 + ((~2x + 2) mod (4 + (x div 4)))) mod (x + 1))))) div 2) div 2)) div 2)
1: ((1 + (((x * (if (~4 + (x div 2)) <= 0 then 1 else x)) div 3) div 2)) div 2)
1: ((1 + ((((2x + 3) * (if x <= 0 then 1 else (6x2 + 2))) div 2) div 2)) div 2)
1: ((1 + ((((x + 1) * (if x <= 0 then 1 else (2 * (1 + ((1 + (((1 + (((x + 1) * (x - loop(\(x,i).(1 + ((2x2 + ~x) div (x + 3))),2,x))) div 2)) div 2) div 2)) div 2))))) div 2) div 2)) div 2)
1: ((1 + ((((x + 2) * (if x <= 0 then 2 else (x div 2))) div 2) div 2)) div 2)
1: ((1 + ((((x + 1) * loop(\(x,i).((x + 2) + (x div 8)),x,1)) div 2) div 2)) div 3)
1: ((1 + ((((x + 1) * loop(\(x,i).(x + ((if (i mod 2) <= 0 then 2 else i) * i)),x,0)) div 2) div 3)) div 2)
1: ((1 + ((((x2 + 2x + 1) * loop(\(x,i).(x * (1 + i)),x,(x + 1))) div 2) div 2)) div 2)
1: ((1 + ((((x + 5) * loop(\(x,i).2x,loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1)) div 2) div 2)) div 2)
1: ((1 + (((5 * loop(\(x,i).x2,1,(~1 + ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)))) div 2) div 2)) div 2)
1: ((1 + (((7 * loop(\(x,i).x2,2,(x + 1))) div 2) div 2)) div 2)
1: ((1 + ((((x + 1) * loop(\(x,i).x2,2,((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2))) div 2) div 3)) div 3)
1: ((x + ((x2 div 2) div 15)) div 2)
1: ((1 + ((x2 div 4) div 5)) div 2)
1: ((1 + ((((2 + ((x3 + x2) div 2)) div 2) div 2) div 2)) div 2)
1: (((x2 + x) + ((((x + 1) div 2) div 2) div 2)) div 2)
1: ((x + ((((x2 - ((x div 4) mod 2)) div 2) div 2) div 2)) div 2)
1: ((1 + ((((~1 + (if (2 - (2x mod (4 + (x div 4)))) <= 0 then 0 else (x2 + ~x))) div 2) div 2) div 2)) div 2)
1: ((1 + (((((x + 1) * ((x + 1) + (2 * (((((x + 1) * (4 + (x div 2))) div 2) div 2) div 2)))) div 2) div 2) div 2)) div 2)
1: ((x + (((((x + 2) * ((x + 2) + (x div 7))) div 2) div 2) div 2)) div 2)
1: ((1 + (((((x + 1) * (1 + (2 mod (1 + (x mod 3))) - (x mod 7))) div 2) div 2) div 2)) div 2)
1: ((1 + (((((x + ~1) * (1 + (2 * (1 + (2 * (loop(\(x,i).(x * (2 + i)),x,1) div 3)))))) div 2) div 2) div 2)) div 2)
1: ((1 + (((((x + 1) * (2 + (3 * (x + (x div 4))))) div 2) div 2) div 2)) div 2)
1: ((1 + (((((x + 1) * (1 + (((x + 2) div 3) * ((x + ~1) div 2)))) div 2) div 2) div 2)) div 2)
1: ((1 + ((((x * (1 + ((x + ((x * (x div 2)) div 3)) div 2))) div 2) div 2) div 3)) div 2)
1: ((1 + (((((x + 6) * (1 + ((1 + (x2 div 2)) div 3))) div 2) div 2) div 2)) div 2)
1: ((1 + ((((x * (2 + ((x + (x2 div 3)) div 2))) div 2) div 2) div 2)) div 2)
1: ((1 + (((((x + 1) * (1 + ((x + (x2 div 7)) div 2))) div 2) div 2) div 2)) div 2)
1: ((1 + (((((x + 1) * (x + ((x2 + 2x) div 4))) div 2) div 2) div 2)) div 2)
1: ((1 + (((((x + 2) * (x + ((x2 + 2x) div 4))) div 2) div 3) div 2)) div 2)
1: ((1 + (((((x + ~1) * (x + ((x * (x div 2)) div 4))) div 2) div 2) div 2)) div 2)
1: ((x + (((((x + ~1) * (x + ((x * (x div 2)) div 4))) div 2) div 2) div 2)) div 2)
1: ((1 + (((((x + 2) * (2 + (x2 div 3))) div 2) div 2) div 2)) div 2)
1: ((1 + (((((2x + 3) * (1 + (x2 div 4))) div 2) div 2) div 2)) div 2)
1: ((1 + ((((x * (2 + (((x2 + ~x) div 2) div 3))) div 2) div 2) div 2)) div 2)
1: ((1 + ((((x * (1 + ((loop(\(x,i).((x + 1) - ((~x + 1) div 3)),x,1) div 2) div 2))) div 2) div 2) div 2)) div 2)
1: ((1 + (((((x + 1) * (2 + (loop(\(x,i).(x * ((1 + i) div 2)),x,1) div 3))) div 2) div 2) div 2)) div 2)
1: ((1 + (((((x + ~1) * (1 + (loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),x,(1 + (x div 2))) div 2))) div 2) div 2) div 2)) div 2)
1: ((1 + (((((x + ~1) * (1 + (x div 2))) div 2) div 2) div 2)) div 2)
1: ((1 + (((((x + 1) * (2 + (((~x + 3) div 3) mod (x + 1)))) div 2) div 2) div 2)) div 2)
1: ((1 + (((((x + 1) * (x + ((x div 2) mod 2))) div 2) div 2) div 2)) div 2)
1: ((2 + (((((x + 2) * (1 + loop(\(x,i).(x + (x div (2 + (x mod 2)))),x,2))) div 2) div 2) div 3)) div 2)
1: ((x + (((((x + 1) * (2 + compr(\x.(loop(\(x,i).(~2x + 2),x,2) mod (x + 2)),x))) div 2) div 2) div 2)) div 2)
1: ((1 + ((((3x2 + 17x) div 2) div 2) div 2)) div 2)
1: ((1 + ((((3x3 + 3x2 + ~2x) div 2) div 2) div 2)) div 2)
1: ((1 + ((((2x4 + 11x3 + 21x2 + 15x + 3) div 2) div 3) div 2)) div 2)
1: ((1 + (((((x + 1) * (~1 + ((0 - ((((x + ~1) div 2) * (x div 2)) div 2)) div 2))) div 2) div 2) div 2)) div 2)
1: ((1 + (((((x + 1) * (x - (x2 mod 3))) div 2) div 2) div 2)) div 2)
1: ((1 + ((((15x2 + 10x) div 2) div 3) div 2)) div 2)
1: ((2 + ((((x3 + 16x2 + 15x) div 2) div 3) div 2)) div 3)
1: ((1 + ((((5x3 + 2x2 + ~3x) div 2) div 3) div 2)) div 2)
1: ((x + (((x3 div 2) div 3) div 9)) div 2)
1: ((1 + (((((x + 1) * ((x - (2x2 mod 5)) div 2)) div 2) div 2) div 2)) div 2)
1: ((1 + ((((x * ((x2 + 4x + 4) div 2)) div 2) div 2) div 2)) div 2)
1: ((1 + (((((x + 1) * ((x * (~1 + ((x + ~1) div 2))) div 2)) div 2) div 2) div 2)) div 2)
1: ((1 + ((((x * (((x + 1) * (if x <= 0 then 2 else ((x + 1) div 2))) div 2)) div 2) div 3) div 3)) div 2)
1: ((x + (((((x + 1) * (x div 2)) div 2) div 2) div 2)) div 3)
1: ((1 + (((((x + 5) * ((~2x + 2) mod (4 + (x div 4)))) div 2) div 2) div 2)) div 2)
1: ((1 + (((((x + 1) * (if x <= 0 then 1 else (2 * (1 + (((x + 2) div (1 + ((x + 1) mod 3))) div 2))))) div 2) div 2) div 2)) div 2)
1: ((1 + (((((x + 1) * loop(\(x,i).((x + 2) + (x div 8)),x,1)) div 2) div 2) div 2)) div 2)
1: ((1 + (((((x + 4) * loop(\(x,i).(x + (x div 2)),(x + ~1),2)) div 2) div 2) div 2)) div 2)
1: ((1 + (((((x + 1) * loop(\(x,i).x2,1,loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x))) div 2) div 2) div 2)) div 2)
1: ((1 + (((((x * (2 + (x2 div 4))) div 2) div 2) div 2) div 2)) div 2)
1: ((1 + (((((x3 + ~3x2 + 2x) div 2) div 2) div 2) div 2)) div 2)
1: ((x + (((((x * ((~x2 + 2x) div 4)) div 2) div 2) div 2) div 2)) div 2)
1: ((1 + ((((((x + 1) * loop(\(x,i).((x2 + ~x) div 2),2,(x + 4))) div 3) div 2) div 2) div 2)) div 2)
1: ((1 + (((((loop(\(x,i).8x,x,49) div 2) div 2) div 2) div 2) div 2)) div 2)
1: ((1 + ((((loop(\(x,i).(x + (x2 div 4)),2,(x + ~2)) div 2) div 2) div 2) div 2)) div 2)
1: ((1 + ((((loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2) div 2) div 2) div 2)) div 2)
1: ((1 + (((loop(\(x,i).((x + 1) + (2 * (x div 5))),(x + 1),2) div 2) div 2) div 2)) div 2)
1: ((1 + (((loop(\(x,i).(5x + 2),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2) div 2) div 2)) div 2)
1: ((1 + (((loop(\(x,i).(x2 + 2x + ~2),1,loop(\(x,i).(2x + (i mod 2)),x,0)) div 2) div 2) div 2)) div 2)
1: ((1 + (((loop(\(x,i).3x,(x + ~1),loop(\(x,i).(x2 + x),1,loop(\(x,i).(x * i),x,1))) div 2) div 2) div 2)) div 2)
1: ((1 + (((loop(\(x,i).(2x + 2),x,(~x + 17)) div 2) div 2) div 2)) div 2)
1: ((1 + (((loop(\(x,i).(x2 + 2x),1,((if (x mod 2) <= 0 then 2 else 0) + (x div 2))) div 2) div 2) div 2)) div 2)
1: ((1 + (((loop(\(x,i).(x2 + 2x),1,loop(\(x,i).(2x + (i mod 2)),x,0)) div 2) div 2) div 2)) div 2)
1: ((1 + (((loop(\(x,i).(x * (2 + i)),(16x + 16),1) div 2) div 2) div 2)) div 2)
1: ((1 + (((loop(\(x,i).11x,x,(1 + (x mod 2))) div 2) div 2) div 2)) div 2)
1: ((1 + (((loop(\(x,i).(x3 + x2),1,loop(\(x,i).(2x + 2),x,0)) div 2) div 2) div 2)) div 2)
1: ((1 + (((loop(\(x,i).x3,1,loop(\(x,i).8x2,x,3)) div 2) div 2) div 2)) div 2)
1: ((1 + (((loop(\(x,i).x2,1,((x + 1) + (x div 3))) div 2) div 2) div 3)) div 2)
1: ((1 + (((loop(\(x,i).x2,1,((3 * (x div 2)) + (x div 3))) div 2) div 2) div 2)) div 2)
1: ((1 + (((loop(\(x,i).x2,1,(1 + loop(\(x,i).((~x + ~1) + i),x,2))) div 2) div 2) div 2)) div 2)
1: ((1 + (((loop(\(x,i).x2,1,(1 + compr(\x.(loop(\(x,i).(~2x + 4),x,1) mod (x + 1)),x))) div 2) div 2) div 2)) div 2)
1: ((1 + (((loop(\(x,i).x2,1,(~1 + (9 * (x mod 5)))) div 2) div 2) div 2)) div 2)
1: ((1 + (((loop(\(x,i).x2,1,(((x + 1) * (x3 div 2)) div 2)) div 2) div 2) div 2)) div 2)
1: ((1 + (((loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,(x + ~1)) div 2) div 2) div 2)) div loop(\(x,i).2x,x,2))
1: ((1 + (((loop(\(x,i).(x3 div 2),1,(x2 + 2x + 1)) div 2) div 2) div 3)) div 3)
1: ((1 + (((loop(\(x,i).((x * ((x + 1) div 2)) div 2),2,(x + ~1)) div 2) div 2) div 2)) div 2)
1: ((x + ((((2x + ~2) mod (2 + (x div 2))) div 2) div 2)) div 2)
1: ((1 + (((x3 mod (x - ((~x + 2) div 2))) div 2) div 2)) div 2)
1: (((x + 1) + ((((3 * ((x * (x mod 4)) div 2)) mod (x + 1)) div 2) div 2)) div 2)
1: ((x + (((x2 mod (x + 9)) div 2) div 2)) div 2)
1: ((x + (((x mod 5) div 2) div 2)) div 2)
1: ((1 + (((if ((x + 1) mod (2 + ((x div 2) mod 2))) <= 0 then x else 1) div 2) div 2)) div 2)
1: ((1 + ((loop(\(x,i).((x + 2) + ((x + (if (x + ~2) <= 0 then 1 else ((x + 1) div 7))) div 2)),x,1) div 2) div 2)) div 2)
1: ((1 + ((loop(\(x,i).((x + 2) + (x div (4 + ((x mod 3) div 2)))),x,1) div 2) div 2)) div 2)
1: ((x + ((loop(\(x,i).(5x + 2),x,2) div 3) div 3)) div 2)
1: ((1 + ((loop(\(x,i).(x + ((1 + i) * i)),(1 + (x div 2)),x) div 2) div 2)) div 2)
1: ((1 + ((loop(\(x,i).((~2x + 4) + (x div 2)),(x + 1),3) div 2) div 2)) div 2)
1: ((1 + ((loop(\(x,i).(x + (x div (2 + (x mod 2)))),x,2) div 2) div 2)) div 2)
1: ((1 + ((loop(\(x,i).(x + (if (~2 + (x div 2)) <= 0 then 1 else i)),x,1) div 2) div 2)) div 2)
1: ((x + ((loop(\(x,i).(x + loop(\(x,i).(loop(\(x,i).(x + (i * i)),x,0) mod (x + 1)),1,i)),x,0) div 2) div 2)) div 2)
1: ((1 + ((loop(\(x,i).(x + i),((if (x mod 2) <= 0 then 2 else 0) + (x div 2)),1) div 2) div 2)) div 2)
1: ((1 + ((loop(\(x,i).(~1 + (((x2 + ~x) div 2) + i)),x,(~x + 1)) div 2) div 3)) div 2)
1: ((1 + ((loop(\(x,i).(3x + ~1),(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1) div 2) div 2)) div 2)
1: ((1 + ((loop(\(x,i).(3x + 5),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2) div 2)) div 2)
1: ((1 + ((loop(\(x,i).(20x + ~21),x,1) div 2) div 2)) div 2)
1: ((1 + ((loop(\(x,i).((3x + 1) - (i mod 2)),x,1) div 2) div 2)) div 2)
1: ((1 + ((loop(\(x,i).(x - (2 * (~x + (x div 3)))),x,1) div 2) div 2)) div 2)
1: ((1 + ((loop(\(x,i).(x - ((~x + (x div (if i <= 0 then 1 else i))) div 2)),x,1) div 2) div 2)) div 2)
1: ((4x + ((loop(\(x,i).3x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),3) div 2) div 2)) div (x + 1))
1: ((1 + ((loop(\(x,i).3x,(x div 2),1) div (if (x mod 3) <= 0 then 1 else 2)) div 2)) div 2)
1: ((1 + ((loop(\(x,i).(x2 + x),1,((1 + ((x2 + ~x) div 2)) div 2)) div 2) div 3)) div 3)
1: ((x + ((loop(\(x,i).(x2 + x),2,x) div 2) div 3)) div 2)
1: ((1 + ((loop(\(x,i).(2x + 4),x,(4 + (x div 8))) div 2) div 2)) div 2)
1: ((x + ((loop(\(x,i).((x + 2) * (x + i)),2,x) div 2) div 3)) div 2)
1: ((1 + ((loop(\(x,i).~2x,x,(x + 4)) div 2) div 2)) div 2)
1: ((x + ((loop(\(x,i).23x,2,x) div 2) div 3)) div 2)
1: ((1 + ((loop(\(x,i).(2x2 + ~x),1,loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1)) div 2) div 2)) div 2)
1: ((1 + ((loop(\(x,i).(x2 + ~2x),2,(x + ~2)) div 2) div 2)) div 2)
1: ((1 + ((loop(\(x,i).7x2,1,loop(\(x,i).(~1 + (2 * (x + (i mod 2)))),x,0)) div 2) div 3)) div 2)
1: ((2 + ((loop(\(x,i).(2x4 + 6x3 + 5x2 + 3x + 2),1,(x + 1)) div 2) div 3)) div 3)
1: ((1 + ((loop(\(x,i).12x,(x + 1),1) div loop(\(x,i).3x,2x,1)) div 2)) div 2)
1: ((2 + ((loop(\(x,i).(x3 + ~2x2),1,(x2 + 2x)) div 2) div 2)) div 3)
1: ((1 + ((loop(\(x,i).x3,1,(1 + loop(\(x,i).(x * i),x,1))) div 3) div 3)) div 3)
1: ((1 + ((loop(\(x,i).(2 * ((2x * (1 + (2 * i))) div (2 + i))),(x + 1),(x + 1)) div 2) div 2)) div 2)
1: ((1 + ((loop(\(x,i).(x * (if (x mod 2) <= 0 then 1 else x)),1,(x + ~2)) div 2) div 2)) div 2)
1: ((1 + ((loop(\(x,i).2x,(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x - ((if x <= 0 then 2 else loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 2)))),x,(x + 1))),1) div 2) div 3)) div 2)
1: ((1 + ((loop(\(x,i).2x,((x2 + ~x) div 2),3) div 2) div (x + 1))) div 2)
1: ((1 + ((loop(\(x,i).2x,x,(1 + compr(\x.(loop(\(x,i).(2x2 + 12x + 16),2,(x2 + 2x)) mod (x + 1)),x))) div 2) div 2)) div 2)
1: ((1 + ((loop(\(x,i).2x,x,(7x + 16)) div 2) div 2)) div 2)
1: ((1 + ((loop(\(x,i).2x,x,(~2 + ((x2 + ~x) div 2))) div 2) div 2)) div 2)
1: ((1 + ((loop(\(x,i).2x,x,(~x3 + loop(\(x,i).5x,(x + 1),1))) div 2) div 2)) div 2)
1: ((1 + ((loop(\(x,i).2x,x,(loop(\(x,i).(2x + 2),x,1) div 2)) div loop(\(x,i).3x,x,1)) div 2)) div 2)
1: ((1 + ((loop(\(x,i).2x,x,(loop(\(x,i).((x2 + ~x) div 2),2,(x + 1)) div 3)) div 2) div 2)) div 2)
1: ((1 + ((loop(\(x,i).x2,1,((x + 4) + (x div 2))) div 2) div 2)) div 2)
1: ((1 + ((loop(\(x,i).x2,1,((x + 1) + ((x div 5) + (x div 2)))) div 2) div 2)) div 2)
1: ((1 + ((loop(\(x,i).x2,1,(5x + 1)) div 3) div 2)) div 2)
1: ((1 + ((loop(\(x,i).x2,1,(x7 + 3)) div 2) div 3)) div 2)
1: ((1 + ((loop(\(x,i).x2,1,(3 + (x2 * loop(\(x,i).x3,2,x)))) div 2) div 3)) div 2)
1: ((1 + ((loop(\(x,i).x2,1,(1 + (x2 div 3))) div 2) div 2)) div 2)
1: ((1 + ((loop(\(x,i).x2,1,(8 + loop(\(x,i).2x,x,1) - (x mod 2))) div 2) div 2)) div 3)
1: ((1 + ((loop(\(x,i).x2,1,((x div 2) - (x mod 2))) div 2) div 2)) div 2)
1: ((1 + ((loop(\(x,i).x2,1,((x + 1) - (2 * (x div 3)))) div 2) div 2)) div 2)
1: ((1 + ((loop(\(x,i).x2,1,((x * ((x + ~1) div 2)) div 3)) div 2) div 2)) div 2)
1: ((1 + ((loop(\(x,i).x2,2,(~1 + ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2))) div 2) div 3)) div 7)
1: ((1 + ((loop(\(x,i).(x * i),x,(3x + ~1)) div 2) div 2)) div 3)
1: ((1 + ((loop(\(x,i).((x2 + ~1) div 2),2,(x + ~2)) div 2) div 2)) div 2)
1: ((1 + ((loop(\(x,i).(x3 div 2),1,(x2 + 2x + 1)) div 2) div 3)) div 3)
1: ((1 + ((loop(\(x,i).((x * ((x + ~1) div 2)) div 2),2,x) div 2) div 3)) div 3)
1: ((1 + ((loop(\(x,i).(((x2 + x) div 2) div 3),2,(x + ~2)) div 2) div 2)) div 2)
1: ((1 + ((loop(\(x,i).(x div (2 - (x mod 2))),x,(1 + ((x2 + x) div 2))) div 2) div 3)) div 2)
1: ((2 + ((loop(\(x,i).loop(\(x,i).(8x + 4),(x + 1),0),1,(x3 + 3x2 + 4x + 2)) div 2) div 2)) div 2)
1: ((1 + ((x div 2) div 3)) div (1 + (x mod 4)))
1: ((2 + ((x div 2) div 3)) div (2 + (x mod 6)))
1: ((2 + ((x div 2) div 3)) div (2 - (x mod ~4)))
1: ((((x div 2) div 3) + ((x + ~1) mod 3)) div 2)
1: ((((x div 2) div 3) + (x mod 2)) div 2)
1: ((1 + ((x div 2) div (1 + (x div (1 + (2 * (4 - ((x div 2) mod 2)))))))) div 2)
1: ((1 + ((x div 2) div (1 + (x mod (1 + ((3x + ~6) mod (x + 1))))))) div 2)
1: ((1 + ((x div 2) div (1 + (x mod 10)))) div 2)
1: ((1 + ((x div 2) div (1 + (x mod (2 * (1 + (x mod 2))))))) div 3)
1: ((((x div 2) div (~1 - (x mod 4))) + (x div 3)) div 2)
1: ((x + ((x div 2) div (2 - (x div (1 + ((x div 2) mod 2)))))) div 3)
1: ((1 + ((x div 2) div (2 - ((x div 2) mod 2)))) div 2)
1: ((1 + (((1 + (2 * (1 + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) + (((x + 1) div 2) div 2))))) mod (x + 1)) div 2)) div 2)
1: (((((1 + (2 * (x2 div (1 + (3 * (2 + (x mod 2))))))) mod (x + 1)) div 2) + (x div 4)) div 2)
1: ((1 + (((2 + loop(\(x,i).(3x + ~3),x,2)) mod (x + 1)) div 2)) div 2)
1: ((1 + (((loop(\(x,i).2x,x,2) + (if (x + ~2) <= 0 then 0 else 1)) mod (x + 1)) div 2)) div 2)
1: ((1 + (((1 + loop(\(x,i).2x,x,(1 + (((1 + (x div 2)) div 2) div 2)))) mod (x + 1)) div 2)) div 2)
1: ((1 + (((x + 1) mod (1 + (3 * ((x2 + ~x) mod 5)))) div 2)) div 2)
1: ((1 + (((x + 1) mod (2 + ((6 * (1 + ((x div 2) div 3))) mod (x + 1)))) div 2)) div 2)
1: ((1 + (((x + 2) mod ((x + 3) - (2x mod (4 + (x div 4))))) div 2)) div 3)
1: ((1 + (((x + 2) mod (1 + ((x div 2) * (x div 2)))) div 2)) div 2)
1: ((1 + (((x + 2) mod (2 + ((x div 2) div (1 + (x mod 2))))) div 2)) div 2)
1: ((1 + (((1 - ((x + ~1) div 3)) mod (x + 1)) div 2)) div 2)
1: ((1 + (((~x + 1) mod (1 + ((x * (x div 2)) div 3))) div 2)) div 2)
1: ((1 + (((~x + 1) mod (2 - ((~x2 + 2x) div 3))) div 2)) div 2)
1: ((1 + (((2 - (2x mod (4 + (x div 3)))) mod (2x + 5)) div 2)) div 2)
1: (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) + ((2x + ~1) div (4 + (x div 4)))) div 2)
1: ((1 + (((2 - (2x mod (2 + (x div 2)))) mod (x + 1)) div 2)) div 2)
1: ((1 + (((~x + 2) mod (2 + ((x2 + (x div 2)) div 3))) div 2)) div 2)
1: (((((~x + 2) mod (2 + (x div 2))) div 2) + ((x + 1) div 2)) div 2)
1: ((x + (((~x + 2) mod (2 + (x div 2))) div 2)) div 3)
1: ((1 + (((loop(\(x,i).5x,x,1) - (loop(\(x,i).2x,x,2) + loop(\(x,i).3x,x,1))) mod (x + 1)) div 2)) div 2)
1: ((1 + (((~1 + (2 * (~1 + (6 * (1 + (((x + 1) mod (1 + (2 * ((1 + (x div 4)) div 2)))) div 2)))))) mod (x + 1)) div 2)) div 2)
1: ((1 + (((~1 + (2 * (((x div 4) - (x mod 4)) div 2))) mod (x + 2)) div 2)) div 3)
1: ((1 + (((~1 + ((1 + ((32 mod (x + 1)) div 2)) div 2)) mod (x + 1)) div 2)) div 2)
1: ((1 + (((~2 + (x div (1 + (x mod 4)))) mod (x + 1)) div 2)) div 2)
1: ((1 + (((~1 + loop(\(x,i).4x,(x div 2),2)) mod (x + 1)) div 2)) div 2)
1: ((1 + (((~1 + loop(\(x,i).2x,(2 - ((~x + 1) div 3)),2)) mod (x + 1)) div 2)) div 2)
1: ((1 + (((~1 + loop(\(x,i).2x,x,(1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))) mod (x + 1)) div 2)) div 2)
1: ((1 + (((~1 + loop(\(x,i).2x,x,(1 + (x mod (1 + ((x + 1) mod 3)))))) mod (x + 1)) div 2)) div 2)
1: ((1 + (((~1 + loop(\(x,i).2x,x,(1 + (if ((x mod 7) mod 3) <= 0 then 2 else 0)))) mod (x + 1)) div 2)) div 2)
1: ((1 + (((~1 + loop(\(x,i).2x,x,(2 - ((x div 2) mod 2)))) mod (x + 1)) div 2)) div 2)
1: ((1 + (((~1 + loop(\(x,i).2x,x,(1 + (if (x mod 3) <= 0 then 2 else 0) - (x mod 2)))) mod (x + 1)) div 2)) div 2)
1: ((1 + (((~1 + loop(\(x,i).2x,x,(if (x mod 2) <= 0 then 2 else 0))) mod (x + 1)) div 2)) div 2)
1: ((1 + (((~1 + loop(\(x,i).2x,x,(if (x mod 4) <= 0 then 2 else (x mod 2)))) mod (x + 1)) div 2)) div 2)
1: ((1 + (((~1 + loop(\(x,i).2x,x,(if x <= 0 then 1 else (2 * (if (~2 + (x div 3)) <= 0 then 0 else 2))))) mod (x + 1)) div 2)) div 2)
1: ((x + (((x + ~1) mod (1 + (x div 4))) div 2)) div 2)
1: ((2 + (((x - (5 * (2 - ((x div 2) mod 5)))) mod (x + 2)) div 2)) div 2)
1: ((1 + ((3x mod (2 + (x div 2))) div 2)) div 2)
1: ((1 + (((~4x + 12) mod (1 + (x div 2))) div 2)) div 2)
1: ((1 + (((2 * (1 + ((x div (2 - (x mod 2))) div 3))) mod (x + 1)) div 2)) div 2)
1: ((x + (((~x2 + 2x) mod (1 + (x div 2))) div 2)) div 2)
1: ((x + (((2 * (~1 + (x div 4))) mod (x + 1)) div 2)) div 2)
1: ((1 + (((2 * (~2 + (x mod ~4))) mod (x + 1)) div 2)) div 2)
1: ((1 + (((x2 + ~2x) mod 11) div 2)) div 2)
1: ((1 + ((40 mod (x + 1)) div 2)) div 2)
1: ((1 + ((20 mod (x + 1)) div 2)) div 2)
1: ((1 + ((x5 mod 17) div 2)) div 2)
1: ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) + ((2x + 1) mod (3 + (x div 4)))) div 2)
1: ((1 + (((2 * (x mod (~1 + ((~x + 1) div 5)))) mod (x + 1)) div 2)) div 2)
1: ((1 + (((3 * loop(\(x,i).3x,(if x <= 0 then 1 else ((3 * (x div 4)) div 2)),1)) mod (x + 1)) div 2)) div 2)
1: ((x + ((2x mod ~5) div 3)) div 2)
1: ((x + ((x2 mod ((x + 1) + (2 * (x div 4)))) div 2)) div 2)
1: ((1 + ((((~1 + ((~2x + 2) mod 9)) div 2) mod (x + 1)) div 2)) div 2)
1: ((2 + ((((x * (x div 2)) div 2) mod (x + 1)) div 2)) div 2)
1: ((1 + ((((2x + ~1) mod (4 + (x div 4))) mod (x + 1)) div 2)) div 2)
1: ((1 + (((if (x div 2) <= 0 then 2 else ((x + ~2) * (x div 3))) mod 7) div 2)) div 2)
1: ((1 + (((if x <= 0 then 1 else (2 * (1 + ((1 + ((x * (1 + (x mod 3))) div 2)) div 2)))) mod (x + 1)) div 2)) div 2)
1: ((1 + ((loop(\(x,i).(4x + (i div 2)),x,1) mod (x + 1)) div 2)) div 2)
1: ((1 + ((loop(\(x,i).(1 + (2 * (x mod (1 + i)))),x,1) mod (x + 1)) div 2)) div 2)
1: ((1 + ((loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x) mod (x + 2)) div 2)) div 2)
1: ((2 + ((loop(\(x,i).(2x + 8),x,1) mod (x + 1)) div 2)) div 3)
1: ((1 + ((loop(\(x,i).((2x + 1) * i),x,1) mod (x + 1)) div 2)) div 2)
1: ((2 + ((loop(\(x,i).(2x + 2),((1 + (x mod 8)) mod (x + 1)),1) mod (x + 1)) div 2)) div 3)
1: ((1 + ((loop(\(x,i).(2x + ~2),x,(1 + (2x mod (2 + (x div 4))))) mod (x + 1)) div 2)) div 2)
1: ((1 + ((loop(\(x,i).(2 * (x - (2 * (~2 + (x mod 4))))),(x + ~1),1) mod (x + 1)) div 2)) div 2)
1: ((1 + ((loop(\(x,i).~10x,(x + 1),1) mod (x + 1)) div 2)) div 2)
1: ((1 + ((loop(\(x,i).2x,(x + (2 * (x mod 2))),x) mod (x + 1)) div 2)) div 2)
1: ((1 + ((loop(\(x,i).2x,(x + ~1),(1 + ((x * (x div 2)) mod 2))) mod (x + 1)) div 2)) div 2)
1: ((1 + ((loop(\(x,i).2x,(x div 2),2) mod (x + 1)) div 2)) div 2)
1: ((1 + ((loop(\(x,i).2x,x,(1 + ((2 * (1 + ((1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2)) div 2))) div 3))) mod (x + 1)) div 2)) div 2)
1: ((1 + ((loop(\(x,i).2x,x,(1 + ((x mod (2 + ((x div 2) div (1 + (x mod 2))))) div 2))) mod (x + 1)) div 2)) div 2)
1: ((1 + ((loop(\(x,i).2x,x,(1 + (x div 4))) mod (x + 3)) div 2)) div 2)
1: ((1 + ((loop(\(x,i).2x,x,(1 + (x div 8))) mod (x + 1)) div 2)) div 2)
1: ((1 + ((loop(\(x,i).2x,x,(0 - (4 * (x mod 4)))) mod (x + 1)) div 2)) div 2)
1: ((1 + ((loop(\(x,i).2x,x,(~1 + ((if (x mod 4) <= 0 then 2 else (x mod 2)) * (1 + (x div 4))))) mod (x + 1)) div 2)) div 2)
1: ((1 + ((loop(\(x,i).2x,x,((~x2 + x) div 4)) mod (x + 1)) div 2)) div 2)
1: ((2 + ((x mod 5) div (1 + (((x + ~1) div 2) mod 4)))) div 2)
1: ((2 + ((x mod (4 + (x div (1 + (x mod (2 * (1 + (x mod 2)))))))) div 2)) div 3)
1: ((1 + ((x mod (2 + (x mod 3) - ((~x + 1) div (2 + (((x + 1) div 2) div 3))))) div 2)) div 2)
1: ((1 + ((x mod (1 + (2 * ((x - (2 * loop(\(x,i).(x div (2 - (x mod 2))),x,x))) mod 7)))) div 2)) div 2)
1: ((1 + ((x mod (1 + ((x - (x mod 3)) div 2))) div 2)) div 2)
1: ((1 + ((x mod (1 + (x div 2))) div 2)) div (1 + (x mod 4)))
1: ((x + ((x mod (2 + (x div 2))) div 2)) div 3)
1: ((x + ((x mod (2 + (x div 4))) div 2)) div (1 + (x div 2)))
1: ((1 + ((x mod (1 + (x div (if (x mod 2) <= 0 then 4 else 1)))) div 2)) div 2)
1: ((1 + ((x mod (2 + ((4 + (if (x mod 2) <= 0 then 1 else 8)) mod (x + 1)))) div 2)) div 2)
1: ((1 + ((x mod (2 + ((1 + (2 * (((if x <= 0 then 1 else (2 * (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))))) - (x mod 2)) div 2))) mod (x + 1)))) div 2)) div 2)
1: ((1 + ((x mod (2 + ((1 + (2 * ((x mod (~2 + ((~x + 1) div 3))) div 2))) mod (x + 1)))) div 2)) div 2)
1: ((1 + ((x mod (2 + ((1 + (2 * (((x2 + ~x) div 2) mod (1 + (x div 4))))) mod (x + 1)))) div 2)) div 2)
1: ((1 + ((x mod (2 + ((1 + (2 * (x mod (1 + (loop(\(x,i).(x2 + 2x),2,2) mod (x + 1)))))) mod (x + 1)))) div 2)) div 2)
1: ((1 + ((x mod (2 + ((1 + (x mod (2 + (x div (2 + (x mod 3)))))) mod (x + 1)))) div 2)) div 2)
1: ((1 + ((x mod (1 + ((1 - (2 * ((x + (x div 8)) mod 5))) mod (x + 1)))) div 2)) div 2)
1: ((1 + ((x mod (1 + ((1 - (x mod (1 + (x2 mod 14)))) mod (x + 1)))) div 2)) div 2)
1: ((1 + ((x mod (1 + ((2 - ((x + 1) mod (1 + (2 * (1 + (loop(\(x,i).(~x + 1),x,(x + 2)) mod 3)))))) mod (x + 1)))) div 2)) div 2)
1: ((1 + ((x mod (2 + ((2 - (2x mod (2 + (x div 2)))) mod (x + 1)))) div 2)) div 2)
1: ((1 + ((x mod (2 + ((~1 + (2 * (x mod 4))) mod (x + 1)))) div 2)) div 2)
1: ((1 + ((x mod (2 + ((~1 + (2 * (if (~2 + (((x + 1) div 2) mod 4)) <= 0 then 1 else 0))) mod (x + 1)))) div 2)) div 2)
1: ((1 + ((x mod (1 + ((~1 + loop(\(x,i).2x,(x div (2 + (x mod 2))),2)) mod (x + 1)))) div 2)) div 2)
1: ((1 + ((x mod (2 + ((5 * (2 + (x mod 6))) mod (x + 1)))) div 2)) div 2)
1: ((1 + ((x mod (2 + (loop(\(x,i).3x,x,3) mod (x + 1)))) div 2)) div 2)
1: ((1 + ((x mod (1 + (loop(\(x,i).(x2 + 2x),2,2) mod (x + 1)))) div 2)) div 2)
1: ((1 + ((x mod (2 + (loop(\(x,i).2x,((x + 1) mod 4),2) mod (x + 1)))) div 2)) div 2)
1: ((x + ((x mod (2 + (x mod 3))) div 2)) div 2)
1: ((2 + ((x mod (~4 + ((x + 1) mod ~7))) div 3)) div 2)
1: ((1 + ((x mod (~1 + (5 * (if (x mod 5) <= 0 then 2 else 1)))) div 2)) div 2)
1: ((2 + ((if (x + ~1) <= 0 then 2 else (((x + ~1) div 2) * (x div 2))) div 2)) div 3)
1: ((1 + ((if (x div 3) <= 0 then 2 else ((x * (x mod 2)) div 2)) div 2)) div 2)
1: ((1 + ((if ((x div 2) mod (2 + (x mod 2))) <= 0 then 2 else x) div 2)) div 2)
1: ((1 + ((if x <= 0 then 1 else (3 * ((x + 1) + (x div 8)))) div 2)) div 2)
1: ((1 + ((if x <= 0 then 1 else (2 * (1 + ((loop(\(x,i).(2 * (x - i)),x,2) mod (x + 1)) div 2)))) div (1 + (x mod 2)))) div 2)
1: ((1 + ((if x <= 0 then 1 else (3 * (if ((x + ~1) mod 3) <= 0 then (2 + (x div 4)) else 1))) div 2)) div 2)
1: ((1 + ((if x <= 0 then 2 else (1 + ((x + (x2 div 5)) div 2))) div 2)) div 2)
1: ((x + ((if x <= 0 then 2 else (1 + ((x + loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),(x + ~2),1)) div 3))) div 2)) div 2)
1: ((1 + ((if x <= 0 then 2 else (1 + ((2 * (1 + ((1 + (x div (1 + ((~1 + ((1 + (x div (2 - (x mod 2)))) mod 3)) mod (x + 1))))) div 2))) div 3))) div 2)) div 2)
1: ((1 + ((if x <= 0 then 2 else (x + (((x3 + ~3x2 + 2x) div 2) div 5))) div 2)) div 2)
1: ((1 + ((if x <= 0 then 2 else (1 + (((x2 mod (3x + 2)) div 2) div 2))) div 2)) div 2)
1: ((1 + ((if x <= 0 then 2 else (1 + (loop(\(x,i).(1 + ((1 + ((x2 + (x div 2)) div 3)) div 3)),2,x) div 3))) div 2)) div 2)
1: ((1 + ((if x <= 0 then 2 else (1 + ((1 + (x mod (~1 + (5 * (~x mod 4))))) mod (x + 1)))) div 2)) div 2)
1: ((1 + ((if x <= 0 then 2 else (1 + ((6x + 3) mod (1 + (x div 2))))) div 2)) div 2)
1: ((1 + ((if x <= 0 then 2 else (1 + ((2 * (1 + loop(\(x,i).(if x <= 0 then i else (x div 2)),x,0))) mod (x + 1)))) div 2)) div 2)
1: ((1 + ((if x <= 0 then 2 else (1 + ((~x2 + 2x + ~1) mod (1 + (x div 2))))) div 2)) div 2)
1: ((1 + ((if x <= 0 then 2 else (1 + (loop(\(x,i).(2x + ~1),x,0) mod (1 + (x div 2))))) div 2)) div 2)
1: ((1 + ((if x <= 0 then 2 else (1 + loop(\(x,i).(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) - (i div 3)),2,x))) div 2)) div 2)
1: ((1 + ((if x <= 0 then 2 else (x - (((x - (x3 div 16)) div 2) div 2))) div 2)) div 2)
1: ((1 + ((if x <= 0 then 2 else (x - (x div 4))) div 2)) div 2)
1: ((1 + ((if x <= 0 then 2 else (x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2))) div 2)) div 2)
1: ((2 + ((if x <= 0 then 2 else (x * (x div 3))) div 2)) div 3)
1: ((1 + ((if x <= 0 then 2 else (loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,x) div (2 + (x mod 2)))) div 2)) div 2)
1: ((1 + ((if x <= 0 then 2 else ((x + 1) mod (1 + (x div (2 + (x mod 3)))))) div 2)) div 2)
1: ((1 + ((if x <= 0 then 2 else ((x + 1) mod (1 + (if (x mod 2) <= 0 then 6 else 1)))) div 2)) div 2)
1: ((1 + ((if x <= 0 then 2 else loop(\(x,i).3x,(x div 2),(x div 3))) div 2)) div 2)
1: ((1 + (loop(\(x,i).((x + 1) + (((2x + 1) div 7) + (x div 3))),x,0) div 2)) div 2)
1: ((2 + (loop(\(x,i).((x + 1) + ((if x <= 0 then 0 else loop(\(x,i).2x,(~1 + loop(\(x,i).(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,x)),2,x)),1)) + ((x + 1) div 2))),x,1) div 2)) div 2)
1: ((1 + (loop(\(x,i).((x + 6) + (x div 3)),x,2) div 2)) div 2)
1: ((1 + (loop(\(x,i).((x + 1) + (3 * (((1 + (x div 2)) div 2) div 2))),x,1) div 2)) div 2)
1: ((1 + (loop(\(x,i).((x + 1) + (2 * ((x div 2) div 3))),x,1) div 2)) div 2)
1: ((1 + (loop(\(x,i).((x + 2) + (5 * (x div 3))),x,2) div (x + 1))) div 2)
1: ((1 + (loop(\(x,i).((x + 1) + (((x div 2) + i) div 4)),x,2) div 2)) div 2)
1: ((1 + (loop(\(x,i).((x + 1) + ((x + 2) div (2 + ((~x + 2) mod 8)))),x,1) div 2)) div 2)
1: ((1 + (loop(\(x,i).((x + 2) + ((4 * (x div 5)) div 3)),x,1) div 2)) div 2)
1: ((1 + (loop(\(x,i).((x + 2) + (2x div 5)),x,0) div (x + 1))) div 2)
1: ((4x + (loop(\(x,i).((x + 2) + (2x div (4 + (x div 4)))),x,1) div 3)) div 2)
1: ((1 + (loop(\(x,i).((x + 2) + (x div 2)),(x div 2),(1 + (x mod 2))) div 2)) div 2)
1: ((1 + (loop(\(x,i).((x + 2) + (x div 2)),x,0) div (2x + ~1))) div 2)
1: ((2 + (loop(\(x,i).((x + 1) + (x div 4)),x,15) div 2)) div 2)
1: ((2 + (loop(\(x,i).((x + 3) + (x div 5)),(x + 1),2) div 2)) div 3)
1: ((2 + (loop(\(x,i).(x + ((x div 5) + i)),x,2) div 3)) div 2)
1: ((x + (loop(\(x,i).((x + 2) + (x div (2 + ((x div 2) mod 3)))),2,x) div 2)) div 2)
1: ((x + (loop(\(x,i).((x + 2) + (x div (2 + (x mod 2)))),x,2) div (x + 2))) div 2)
1: ((1 + (loop(\(x,i).((x + 1) + (x div (1 + (x mod 4)))),x,0) div 2)) div 2)
1: ((2 + (loop(\(x,i).((x + 1) + (((~x + 2) mod 4) + i)),x,1) div 2)) div 2)
1: ((1 + (loop(\(x,i).((x + 1) + loop(\(x,i).(x - (loop(\(x,i).(~x2 + 1),2,4) mod (x + 1))),2,x)),x,1) div 2)) div 2)
1: ((1 + (loop(\(x,i).((x + 1) + loop(\(x,i).2x,x,1) - (x mod 2)),x,1) div 2)) div 2)
1: ((1 + (loop(\(x,i).(x + i - (x div ~4)),x,1) div 2)) div 2)
1: ((1 + (loop(\(x,i).(3x + 1),x,1) div (1 + (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))))) div 2)
1: ((x + (loop(\(x,i).(5x + 1),x,1) div (x + 1))) div 2)
1: ((x + (loop(\(x,i).(x2 + 4x + 1),2,x) div (x + 1))) div 2)
1: ((1 + (loop(\(x,i).(x + ((2 + (i div 3)) * (1 + i))),x,x) div 2)) div 2)
1: ((x + (loop(\(x,i).(x + (2 * (x + (i mod 2)))),x,0) div (x + 2))) div (x + 1))
1: ((1 + (loop(\(x,i).(1 + (x * (1 + (if (x mod 3) <= 0 then 2 else 0)))),2x,1) div 3)) div 2)
1: ((1 + (loop(\(x,i).(1 + (2 * ((x + 2) - (i mod 2)))),x,2) div 2)) div 2)
1: ((1 + (loop(\(x,i).(2x + ((1 + i) * i * (1 + i))),(x + ~2),1) div 2)) div 3)
1: ((1 + (loop(\(x,i).(1 + (2x * (~1 + (2 * i)))),x,1) div 2)) div 5)
1: ((1 + (loop(\(x,i).(12x + 1),x,1) div loop(\(x,i).(4x + ~1),x,1))) div 2)
1: ((1 + (loop(\(x,i).(1 + ((2x + 2) * (x mod 2))),(x div 2),x) div 2)) div 2)
1: ((1 + (loop(\(x,i).(2x + 1),x,(if (x + ~3) <= 0 then 2 else 1)) div 2)) div 2)
1: ((1 + (loop(\(x,i).(2x + 1),x,loop(\(x,i).3x,x,1)) div 3)) div 2)
1: ((x + (loop(\(x,i).(x + (i * i)),x,2) div 3)) div 2)
1: ((x + (loop(\(x,i).(1 + ((x + ((x2 div 2) div 3)) div 2)),2,x) div 3)) div 2)
1: ((1 + (loop(\(x,i).(x + ((x + i) div 2)),(x div 2),1) div 2)) div 2)
1: ((2 + (loop(\(x,i).(x + ((x + i) div 3)),x,2) div 2)) div 3)
1: ((1 + (loop(\(x,i).(1 + ((2x2 + 4x + 4) div 5)),2,x) div 3)) div 2)
1: ((1 + (loop(\(x,i).(1 + ((x2 + ~x) div 8)),2,x) div 2)) div 2)
1: ((1 + (loop(\(x,i).(1 + (loop(\(x,i).(x * i),x,(5x + 1)) div 2)),1,(x + 2)) div 2)) div 2)
1: ((1 + (loop(\(x,i).(x + (x div 2)),(x + ~2),2) div (x + 2))) div 2)
1: ((x + (loop(\(x,i).(x + (x div 2)),x,2) div (x + 1))) div 2)
1: ((x + (loop(\(x,i).(x + (x div 3)),x,5) div 2)) div 2)
1: ((1 + (loop(\(x,i).(2 + (x div (1 + (2 * (x mod 2))))),1,(1 + (if (~1 + (x mod 3)) <= 0 then x else 2))) div 2)) div 2)
1: (((loop(\(x,i).(2x + (i mod 2)),x,2) div 3) + loop(\(x,i).2x,x,1)) div 3)
1: ((1 + (loop(\(x,i).(x + loop(\(x,i).(x - ((x - (((x + 1) * (2 - ((x div 2) mod 2))) mod 3)) div 2)),2,x)),(x + 1),1) div 2)) div 2)
1: ((1 + (loop(\(x,i).(2x + loop(\(x,i).(2 * (x - (i mod 2))),i,1)),x,1) div 2)) div 2)
1: ((1 + (loop(\(x,i).(x + loop(\(x,i).2x,(x mod (1 + i)),2)),x,0) div 2)) div 2)
1: ((1 + (loop(\(x,i).(2 + loop(\(x,i).x2,1,(~2 + (x div 2)))),2,x) div 2)) div 2)
1: ((1 + (loop(\(x,i).(x + loop(\(x,i).loop(\(x,i).2x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),2),1,i)),x,1) div 2)) div 2)
1: ((1 + (loop(\(x,i).(x + i),((if (x mod 2) <= 0 then 2 else 0) + (x div 2)),0) div 2)) div 2)
1: ((1 + (loop(\(x,i).(x + i),(x + ~2),1) div 2)) div 2)
1: ((1 + (loop(\(x,i).(x + i),(x + ~8),1) div 2)) div 2)
1: ((1 + (loop(\(x,i).(~x + 1),(x div (2 + (x mod 2))),(x + 1)) div 2)) div 2)
1: ((1 + (loop(\(x,i).(1 + (8 * (x mod 2)) - (x div 2)),x,1) div 2)) div 2)
1: ((1 + (loop(\(x,i).((x + ~1) + ((x + (x div 2)) div 5)),x,1) div 2)) div 2)
1: ((1 + (loop(\(x,i).((x + 2) - ((~x + 1) div 3)),x,1) div 5)) div 2)
1: ((2 + (loop(\(x,i).((~2x + ~5) + loop(\(x,i).4x,x,1)),x,1) div 2)) div 2)
1: ((2 + (loop(\(x,i).(3x + ~1),x,1) div 2)) div 7)
1: ((2 + (loop(\(x,i).(~1 + (3 * (1 + (x div (1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))))),2,x) div 3)) div 2)
1: ((x + (loop(\(x,i).(2x2 + ~1),(x div 2),x) div 2)) div 2)
1: ((1 + (loop(\(x,i).(2x + ~1),(x + ~1),loop(\(x,i).2x,x,1)) div 2)) div 2)
1: ((1 + (loop(\(x,i).(2x - ((x div 2) div 3)),x,1) div 2)) div 2)
1: ((1 + (loop(\(x,i).(2x - ((if (i mod 2) <= 0 then 1 else 2x) div (1 + i))),(x + 2),2) div 2)) div 2)
1: ((1 + (loop(\(x,i).(2x - ((1 + i) mod (x + 1))),x,1) div 2)) div 2)
1: ((x + (loop(\(x,i).(x2 + ~1),(x div 2),x) div 2)) div 2)
1: ((1 + (loop(\(x,i).(~2x + (if (x mod (1 + i)) <= 0 then 0 else x)),x,x) div (x + 1))) div 2)
1: ((1 + (loop(\(x,i).(~3x + loop(\(x,i).2x,i,1)),x,2) div 2)) div 2)
1: ((x + (loop(\(x,i).(x - (2 * (~x + i))),x,x) div 3)) div 2)
1: ((2 + (loop(\(x,i).(x - (x div (~2 + (x mod ~2)))),x,1) div 2)) div 3)
1: ((1 + (loop(\(x,i).3x,(1 + ((x * (x div 3)) mod (1 + ((2 - (x div 2)) mod 4)))),1) div 3)) div 2)
1: ((1 + (loop(\(x,i).3x,2x,1) div (x5 + loop(\(x,i).7x,x,1)))) div 2)
1: ((1 + (loop(\(x,i).3x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 4)) div 2)
1: (((loop(\(x,i).3x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 5) + (x div 5)) div 2)
1: ((2 + (loop(\(x,i).(7x + 7),x,0) div 2)) div 5)
1: ((1 + (loop(\(x,i).(4x + 2),(x + ~2),1) div 3)) div 3)
1: ((1 + (loop(\(x,i).(4x + 2),x,1) div 2)) div (x2 + x + 1))
1: ((1 + (loop(\(x,i).((2x + 1) * i),(x + ~1),0) div 2)) div 2)
1: ((1 + (loop(\(x,i).(3 * (2 + (x div 2))),x,0) div 2)) div 2)
1: ((1 + (loop(\(x,i).(2 * (2x + (x div (if i <= 0 then 1 else i)))),x,x) div 2)) div 2)
1: ((1 + (loop(\(x,i).(x * (1 + ((1 - (2x mod (4 + (x div 4)))) mod (x + 1)))),(x + 1),1) div 3)) div 2)
1: ((1 + (loop(\(x,i).(2 * (x + (i mod 2))),(x + ~2),1) div 2)) div 2)
1: ((1 + (loop(\(x,i).(2 * (x + (if (i mod 2) <= 0 then 2 else 0))),x,1) div 3)) div 2)
1: ((1 + (loop(\(x,i).(2x + 2),(((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3) + (if x <= 0 then 0 else 1)),1) div 2)) div 2)
1: ((x + (loop(\(x,i).(2x + 2),(x + ~2),(1 + loop(\(x,i).2x,x,1))) div 2)) div 2)
1: ((1 + (loop(\(x,i).(2x + 2),(x div 2),(x mod 2)) div 2)) div 2)
1: ((1 + (loop(\(x,i).(2x + 2),(if x <= 0 then 1 else (2 * (1 + (x div (2 + (x div (1 + (x mod (2 * (1 + (x mod 2))))))))))),1) div 2)) div 3)
1: ((1 + (loop(\(x,i).(2x + 2),x,~x) div (x + 1))) div 2)
1: ((1 + (loop(\(x,i).(x2 + x),1,(1 + (loop(\(x,i).(x * i),x,1) div 3))) div 2)) div 2)
1: ((2 + (loop(\(x,i).(x2 + x),1,(x - (x2 div 8))) div 2)) div 3)
1: ((2 + (loop(\(x,i).(x2 + 2x),1,(x5 + 2)) div 2)) div 3)
1: ((1 + (loop(\(x,i).(x2 + 2x),1,loop(\(x,i).(1 + (x * (2 + i))),x,1)) div 2)) div 2)
1: ((1 + (loop(\(x,i).(x * (2 + i)),4,(x + 1)) div (x + 3))) div 2)
1: ((2 + (loop(\(x,i).(2x * (x + i)),x,4) div (x + 1))) div 2)
1: ((1 + (loop(\(x,i).~2x,x,1) div 5)) div 2)
1: ((1 + (loop(\(x,i).(~2x + 2),x,(2 * (x mod 2))) div (x + 1))) div 2)
1: ((1 + (loop(\(x,i).(2x + ~4),x,(x + 2)) div (x + 1))) div 2)
1: ((1 + (loop(\(x,i).(2 * (x - (2 * (x div 5)))),x,1) div 2)) div 2)
1: ((1 + (loop(\(x,i).(2 * (x - (x div 3))),x,1) div 2)) div 2)
1: ((2 + (loop(\(x,i).8x,((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2),1) div 2)) div 3)
1: ((2 + (loop(\(x,i).8x,x,1) div 2)) div 3)
1: ((1 + (loop(\(x,i).(3 * ((2x div (1 + i)) * (~1 + (2 * i)))),x,1) div 2)) div 2)
1: ((1 + (loop(\(x,i).4x,(x + ~2),x) div 2)) div 2)
1: ((2 + (loop(\(x,i).4x,x,1) div 13)) div 5)
1: ((2 + (loop(\(x,i).4x,x,(2 - ((2x + 2) mod 5))) div 3)) div 3)
1: ((1 + (loop(\(x,i).(2x * i),(x + ~1),1) div 2)) div 2)
1: ((1 + (loop(\(x,i).(2x * i),(x + ~1),1) div 3)) div 3)
1: ((1 + (loop(\(x,i).(2x * i),(x + ~2),1) div 2)) div 2)
1: ((1 + (loop(\(x,i).(2x * i),x,4) div 3)) div 3)
1: ((1 + (loop(\(x,i).(2 * ((1 + (((loop(\(x,i).4x,x,2) - loop(\(x,i).3x,x,1)) div 2) div 2)) div 2)),x,1) div 2)) div 2)
1: ((1 + (loop(\(x,i).(x * ((1 + i) div 2)),x,1) div (x + 3))) div 2)
1: ((1 + (loop(\(x,i).(2 * ((~1 + (((x2 + x) * (1 - (2 * (x mod 2)))) div 2)) div 2)),1,(x + 1)) div 2)) div 2)
1: ((x + (loop(\(x,i).(x * (x div 2)),(x + ~2),x) div 2)) div 2)
1: ((1 + (loop(\(x,i).2x,((if (x mod 2) <= 0 then 1 else x) - (x div 2)),1) div (x + 1))) div 2)
1: ((1 + (loop(\(x,i).2x,(x + ~1),(x + 3)) div 2)) div 2)
1: ((1 + (loop(\(x,i).2x,(x + ~1),(3x + 4)) div 2)) div 2)
1: ((1 + (loop(\(x,i).2x,(x + ~1),(x + 2)) div 3)) div 2)
1: ((1 + (loop(\(x,i).2x,(x + ~9),1) div 2)) div 2)
1: ((1 + (loop(\(x,i).2x,(x + ~6),1) div 2)) div 2)
1: ((1 + (loop(\(x,i).2x,((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3),1) div 2)) div 2)
1: (((loop(\(x,i).2x,(x div 2),1) div (x + 1)) + (x mod 2)) div 2)
1: ((1 + (loop(\(x,i).2x,x,1) div 2)) div (x + 2))
1: ((1 + (loop(\(x,i).2x,x,2) div 17)) div 2)
1: ((1 + (loop(\(x,i).2x,x,2) div (1 + (6 * (1 + (4 * (x mod 2))))))) div 2)
1: ((x + (loop(\(x,i).2x,x,2) div (x + 1))) div 3)
1: ((1 + (loop(\(x,i).2x,x,(3x + 4)) div 2)) div 2)
1: (((x + 1) + (loop(\(x,i).2x,x,(~1 + loop(\(x,i).2x,x,2))) div 3)) div 3)
1: ((1 + (loop(\(x,i).2x,x,(if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + ((loop(\(x,i).(2x2 + ~x),1,loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1)) div 2) div 2)) div 2)) div 2))))) div 2)) div 2)
1: ((1 + (loop(\(x,i).2x,x,(if x <= 0 then 1 else (2 * ((if x <= 0 then 2 else (loop(\(x,i).2x,(x + ~2),x) - ((x + ~1) * (if x <= 0 then 1 else x)))) div 2)))) div 2)) div 2)
1: ((1 + (loop(\(x,i).2x,x,loop(\(x,i).(x + (x div 2)),x,4)) div 2)) div 3)
1: ((1 + (loop(\(x,i).2x,x,loop(\(x,i).2x,(x div 2),(3 + (x mod 2)))) div (x + 1))) div 2)
1: ((2 + (loop(\(x,i).x2,1,(1 + (2 * compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + x + 1))),x)))) div 2)) div 2)
1: ((1 + (loop(\(x,i).x2,1,(2 - ((x2 + 3x) div 2))) div 3)) div 2)
1: (((x2 + ~x) + (loop(\(x,i).x2,1,(~2x2 + 2x + ~1)) div 3)) div 2)
1: ((x + (loop(\(x,i).x2,2,2x) div (2x + 1))) div 2)
1: ((1 + (loop(\(x,i).(x * i),(x + ~1),loop(\(x,i).loop(\(x,i).(~2 + i),((x + i) div 2),1),x,1)) div 2)) div 2)
1: ((1 + (loop(\(x,i).(x * i),x,1) div loop(\(x,i).(x * (i * i)),(x div 2),1))) div 2)
1: ((1 + (loop(\(x,i).(x * i),x,(4x + 1)) div 2)) div 3)
1: ((1 + (loop(\(x,i).(x * i),x,(loop(\(x,i).7x,x,1) + loop(\(x,i).3x,x,1))) div 2)) div 2)
1: ((1 + (loop(\(x,i).(x * i),x,(7x + ~3)) div 2)) div 2)
1: ((x + (loop(\(x,i).((x2 + x) div 4),2,x) div 3)) div (x + 1))
1: ((x + (loop(\(x,i).((x2 + ~2x) div 2),2,x) div (x + 1))) div 2)
1: ((2 + (loop(\(x,i).((x2 div 2) div 3),2,(x + ~2)) div 2)) div 3)
1: ((1 + (loop(\(x,i).(x div (1 + (2 * (x mod 2)))),2,x) div 2)) div 2)
1: ((1 + (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) div (if x <= 0 then 2 else (1 + (x mod 8))))) div 2)
1: ((1 + (loop(\(x,i).(x3 mod 30),x,x) div 2)) div 2)
1: ((1 + (loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else 2x),x,(2x + 12)) div 3)) div 2)
1: ((1 + (x div 2)) div (3 - ((x div 5) mod 2)))
1: ((1 + (x div 2)) div (1 + (2 * (if ((x div 2) mod 6) <= 0 then x else 2)) - (x mod 2)))
1: ((1 + (x div 2)) div (1 + (2 * (1 + (x mod (2 * (2 + (x mod 4))))))))
1: ((1 + (x div 2)) div (1 + (2 * ((1 + (3 * (2 - (x mod 2)))) mod (1 + (x div 2))))))
1: ((1 + (x div 2)) div (1 + (2 * (x mod 6))))
1: ((1 + (x div 2)) div (1 + ((1 + (x div 4)) div 2)))
1: ((1 + (x div 2)) div (2 + ((x + 1) div (2 * (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 8))))))
1: ((1 + (x div 2)) div (1 + (2 mod (x + 1))))
1: ((1 + (x div 2)) div (2 + ((x + 1) mod (2 + (x mod 2)))))
1: ((1 + (x div 2)) div (1 + ((x + ~1) mod 3)))
1: ((1 + (x div 2)) div (2 + ((x div 2) mod 2)))
1: ((1 + (x div 2)) div (2 + (x mod 3)))
1: ((1 + (x div 2)) div (1 + (x mod 5)))
1: ((1 + (x div 2)) div (2 + (x mod 5)))
1: ((1 + (x div 2)) div (1 + (x mod (1 + (x div 4)))))
1: ((1 + (x div 2)) div (1 + (x mod (1 + (x div 5)))))
1: ((1 + (x div 2)) div (1 + (x mod (1 + (x div (2 + (3 * (x mod 2))))))))
1: ((1 + (x div 2)) div (1 + (if (~2 + (x div 3)) <= 0 then x else 2)))
1: ((1 + (x div 2)) div (2 + (if (x mod 2) <= 0 then ((x * (x div 3)) mod 3) else 2)))
1: ((1 + (x div 2)) div (2 + (if (x mod 3) <= 0 then 2 else 1)))
1: ((1 + (x div 2)) div (2 + (if (x mod 5) <= 0 then 2 else 0)))
1: ((1 + (x div 2)) div (1 + (if x <= 0 then 0 else 2)))
1: ((1 + (x div 2)) div (1 + (if x <= 0 then 0 else (if (x mod (3 + ((x div 2) mod 3))) <= 0 then 2 else 1))))
1: ((1 + (x div 2)) div (1 - (x div (~1 + ((x div 2) div ~2)))))
1: ((1 + (x div 2)) div (2 - (x mod 2)))
1: ((1 + (x div 2)) div (2 - (x mod (1 - (2 * (x mod 4))))))
1: ((1 + (x div 2)) div (~4 + (if (x mod 2) <= 0 then 1 else x)))
1: ((1 + (x div 2)) div (x - ((x + 1) mod 6)))
1: ((1 + (x div 2)) div ((1 + ((x div 3) mod 2)) * (if x <= 0 then 1 else 4)))
1: ((1 + (x div 2)) div (2 * (1 + (x mod (1 - (x div ~4))))))
1: ((1 + (x div 2)) div (if ((x + 1) mod (2 + ((x div 2) mod 2))) <= 0 then 2 else 1))
1: ((1 + (x div 2)) div (if (x mod 4) <= 0 then 2 else x))
1: ((2 + (x div 2)) div (~x + 17))
1: ((2 + (x div 2)) div (1 + (2 * ((x + ~1) mod 3))))
1: ((2 + (x div 2)) div (2 + (x div (~1 + (3 * (2 + (x mod 2)))))))
1: ((2 + (x div 2)) div (1 + ((~x + 1) mod 3)))
1: ((2 + (x div 2)) div (2 + ((~x + 1) mod 4)))
1: ((2 + (x div 2)) div (1 + (((x + 1) div 2) mod 3)))
1: ((2 + (x div 2)) div (2 + ((x div 2) mod 2)))
1: ((2 + (x div 2)) div (1 + (x mod 2)))
1: ((2 + (x div 2)) div (2 + (x mod 2)))
1: ((2 + (x div 2)) div (1 + (x mod 4)))
1: ((2 + (x div 2)) div (2 + (if (x mod 2) <= 0 then x else 2)))
1: ((2 + (x div 2)) div (1 + (if x <= 0 then 1 else 2)))
1: ((2 + (x div 2)) div (1 + i))
1: ((2 + (x div 2)) div (2 - (x div 8)))
1: ((2 + (x div 2)) div (2 - (x div ~6)))
1: ((2 + (x div 2)) div (2 - ((x mod 3) mod 2)))
1: ((2 + (x div 2)) div (2 - (x mod 2)))
1: ((2 + (x div 2)) div (8 - (x div 2)))
1: ((2 + (x div 2)) div (~1 + ((~x + 1) div 5)))
1: ((2 + (x div 2)) div (if (x mod 3) <= 0 then 2 else 1))
1: ((2 + (x div 2)) div (if x <= 0 then 1 else x))
1: ((x + (x div 2)) div (4 + ((x div 2) div 3)))
1: ((x + (x div 2)) div (3 + (x div 4)))
1: ((x + (x div 2)) div (1 + (3 * (2 - (x mod 2)))))
1: ((x + (x div 2)) div (1 + ((1 + (x div 2)) div 3)))
1: ((x + (x div 2)) div (2 + (x div (2 + (x div 3)))))
1: ((x + (x div 2)) div (1 + i))
1: ((x + (x div 2)) div (2 + i))
1: ((x + (x div 2)) div (~1 + (2 * (x mod 2))))
1: ((x + (x div 2)) div (~2 + (x mod ~4)))
1: ((x + (x div 2)) div (2 * (2 + (x div 4))))
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1: ((1 + (x div 3)) div (1 + (x div (3 * (2 + ((x mod (2 + ((x - (x div 3)) mod 3))) div 2))))))
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1: ((1 + (x div 3)) div ((1 + (x div 3)) div (1 + ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2))))
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1: ((2 + (x div 3)) div (if (x + ~1) <= 0 then 1 else (2 + (x mod 8))))
1: ((2x + (x div 3)) div 3)
1: ((x2 + (x div 3)) div 7)
1: ((x + (x div 3)) div (1 + ((x + 1) div 3)))
1: ((x + (x div 3)) div (1 + (x mod (2 + (x mod 2)))))
1: ((x + (x div 3)) div (1 + i))
1: ((1 + (x div 4)) div (1 + (x div (2 + (x div (2 + (x mod 2)))))))
1: ((1 + (x div 4)) div (1 + (x2 mod 5)))
1: ((1 + (x div 4)) div (2 + (x2 mod (2 + (x div 2)))))
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1: ((1 + (x div 4)) div (1 + (if (x mod (1 + (if (x mod 2) <= 0 then 6 else 0))) <= 0 then x else 1)))
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1: ((1 + (x div 4)) div (2 - ((x mod 3) mod 2)))
1: ((1 + (x div 4)) div ((1 - (2x mod (4 + (x div 4)))) mod 7))
1: ((2 + (x div 4)) div (2 - (x mod 2)))
1: ((2 + (x div 4)) div (2 - (x mod ~6)))
1: ((x2 + (x div 4)) div 7)
1: ((x + (x div 4)) div (1 + (x div 3)))
1: ((x + (x div 4)) div (2 + i))
1: ((1 + (x div 5)) div (1 + (2 * (x mod 3))))
1: ((1 + (x div 5)) div (1 + (2 * (x mod (2 + (x mod 5))))))
1: ((1 + (x div 5)) div (1 + ((x div 2) div (1 + (x mod (2 * (1 + (x mod 2))))))))
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1: ((2 + (x div 5)) div (1 + ((x + (x div 2)) mod 4)))
1: ((2 + (x div 5)) div (2 + (x mod 5)))
1: ((x + (x div 5)) div (1 + (x div 2)))
1: (((x div 5) + i) div 2)
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1: (((x div (6 + (x mod 2))) + ((x + ~1) mod 3)) div 2)
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1: ((x + ((x + 1) mod 8)) div 3)
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1: ((1 + ((5 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 19)) div 2)
1: ((x + ((0 - ((x div 2) div 3)) mod 3)) div 2)
1: ((1 + (~x mod 4)) div 2)
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1: ((x + ((x * (x div 3)) mod (1 + ((2 - (x div 2)) mod 4)))) div 2)
1: ((1 + (((x + 1) * (x2 mod 11)) mod 9)) div 2)
1: ((2 + ((3 * (if (x mod 3) <= 0 then 14 else 1)) mod (x + 1))) div 2)
1: ((1 + ((x * loop(\(x,i).(2x + 2),x,0)) mod loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))) div 2)
1: ((1 + (2x mod (x + 10))) div 2)
1: ((1 + (2x mod (3 - (x div ~4)))) div 2)
1: ((x + (2x mod (2 + (x div 2)))) div 8)
1: ((1 + (2x mod (2 + (x div 3)))) div 2)
1: ((1 + (x2 mod 5)) div 2)
1: ((2 + (x2 mod (6 - (x mod (1 + ((x + ~1) mod 9)))))) div 2)
1: ((2 + (x2 mod ((x + 1) + (3 * ((x mod (1 + ((~x + 2) mod 4))) div 2))))) div 2)
1: ((1 + (x2 mod (1 + (2 * (1 + (((x * (x div 2)) div (x + 4)) mod 2)))))) div 2)
1: ((1 + (x2 mod (1 + (3 * (1 + (x mod 2)))))) div 2)
1: ((1 + (x2 mod (1 + (3 * (2 - ((x div 2) mod 2)))))) div 2)
1: ((1 + (x2 mod (2 + ((x2 div 2) mod (x + 1))))) div 2)
1: ((1 + (x2 mod (~1 + (4 * (2x div 3))))) div 2)
1: ((2 + (x2 mod (6 * (1 + (x div 8))))) div 3)
1: ((1 + (x2 mod (3 * (if (x + ~6) <= 0 then 1 else 2)))) div 2)
1: ((1 + (((x3 + 2) div (1 + (x div 2))) mod 3)) div 2)
1: (((((1 + ((1 + ((x * (1 + (((x + 1) div 2) div 2))) div 2)) div 2)) div 2) mod 3) + (x mod 3)) div 2)
1: ((x + (((1 + (x div 2)) div 2) mod 4)) div 2)
1: ((x + (((1 + (x div 2)) div 3) mod 2)) div 2)
1: ((x + (((1 + (x div 4)) div 2) mod 2)) div 2)
1: ((2 + (((x + (if (x mod 2) <= 0 then x else 1)) div 3) mod (1 + (x div 2)))) div 3)
1: (((x2 + x) + (((x + 1) div 3) mod 4)) div 2)
1: ((1 + (((x + 2) div (1 + (2 * (x mod 2)))) mod 4)) div 2)
1: (((((~x + 2) div 2) mod 3) + ((x + 1) div 3)) div 3)
1: ((x + (((~x + 2) div 2) mod 3)) div 3)
1: ((1 + (((~x + 2) div 3) mod (x + 2))) div 3)
1: ((x + (((2x + ~1) div (2 + (x div 2))) mod 2)) div 2)
1: ((x + (((~2 + (x div 2)) div 3) mod 2)) div 2)
1: ((1 + (((x + ~1) div 2) mod 4)) div 2)
1: ((x + (((x + ~2) div 5) mod 2)) div 2)
1: ((x + (((x2 + 4x + 4) div 5) mod 3)) div 2)
1: ((1 + (((x2 + 2x) div 2) mod 11)) div 2)
1: ((1 + (((x * ((~x + 2) div 4)) div 2) mod (1 + (x div 4)))) div 2)
1: ((1 + (((x * (2x div 3)) div 2) mod loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))) div 2)
1: ((x + (((x * (x div 3)) div 2) mod 2)) div 2)
1: ((x + ((2x div (1 + (x div 4))) mod 3)) div 2)
1: ((x + ((x2 div (x - ((~x + 2) div 2))) mod 2)) div 2)
1: ((2x + ((((x + 1) div 2) div 2) mod 2)) div 3)
1: ((1 + ((((x2 - (x div 2)) div 2) div 2) mod 3)) div 2)
1: ((1 + (((x div (1 + (if (x mod 3) <= 0 then 2 else 0))) div 2) mod 4)) div 2)
1: ((1 + ((((~2x + 2) mod (4 + (x div 4))) div 2) mod (2 + (x div 5)))) div 2)
1: ((1 + ((((3 * ((x + 2) mod 5)) mod (x + 1)) div 2) mod 5)) div 2)
1: ((1 + ((loop(\(x,i).(2x2 div (x + 1)),2,x) div 2) mod 9)) div 2)
1: ((1 + ((x div 2) mod 2)) div (1 + (x mod (2 + (3 * (x mod 3))))))
1: ((x + ((x div 2) mod 2)) div ~2)
1: ((((x div 2) mod 3) + loop(\(x,i).2x,x,1)) div 3)
1: ((((x div 2) mod 4) + (x mod 3)) div 3)
1: ((x + ((x div 2) mod (1 + (~x mod 4)))) div 3)
1: ((x + ((x div 2) mod (1 + (x mod 3)))) div 2)
1: ((1 + ((x div 2) mod (1 + (x mod (1 + (x div 3)))))) div 2)
1: ((x + ((x div 3) mod 2)) div 2)
1: ((1 + ((x div 4) mod 2)) div (1 + (x mod 4)))
1: ((x2 + ((x div 4) mod 2)) div 2)
1: ((((x div 4) mod 2) + (x div 3)) div 2)
1: ((1 + ((x div 4) mod (1 + (x mod 10)))) div 2)
1: ((1 + ((x div 5) mod 2)) div (1 + ((x + 1) mod 4)))
1: ((x + ((x div 5) mod 2)) div 2)
1: ((x + ((x div (2 + ((x div 2) div 3))) mod 2)) div 2)
1: ((x + ((x div (1 + (2 mod (x + 1)))) mod 2)) div 2)
1: (((x2 + 2x) + ((x div (1 + (~x mod 4))) mod 2)) div 2)
1: ((x + ((x div ~2) mod 2)) div 3)
1: ((((x div ~4) mod 2) + (x div 2)) div 3)
1: ((x + ((x div (~1 + (2 * (x div 4)))) mod 2)) div 2)
1: ((x + (((1 + (x div 2)) mod 4) mod 3)) div 2)
1: ((1 + (((x + 2) mod (2 + (x mod 4))) mod 4)) div 2)
1: ((1 + (((x + 2) mod 6) mod (if x <= 0 then 1 else x))) div 2)
1: ((1 + (((1 - (x div (1 + (x mod 4)))) mod (1 + (x div 2))) mod 4)) div 2)
1: ((1 + (((2 - ((x + ~1) div 2)) mod (x + 1)) mod 3)) div 2)
1: ((1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) mod 7)) div 2)
1: ((x + (((~x + 2) mod (2 + (x div 4))) mod 2)) div 2)
1: ((1 + (((3 * ((x + 2) - (x mod 8))) mod (x + 1)) mod 4)) div 2)
1: ((1 + (((2x2 + ~x) mod 9) mod (x + 1))) div 2)
1: ((1 + ((2x2 mod (4 + (x div 4))) mod (1 + (x div 2)))) div 2)
1: ((x + ((x2 mod 9) mod 2)) div 2)
1: (((((x div 2) mod 3) mod 2) + (x div 2)) div 2)
1: ((x + (((x div 2) mod 5) mod 2)) div 2)
1: ((((x mod 3) mod 2) + (x div 4)) div 2)
1: ((((x mod (1 + (x div 2))) mod 3) + (x div 4)) div 2)
1: ((x + ((x mod (~2 + (x div ~4))) mod 2)) div 2)
1: ((1 + ((if (x div 2) <= 0 then 1 else ((if (x mod 2) <= 0 then 2 else x) div 2)) mod 4)) div 2)
1: ((((if (x mod 2) <= 0 then (~x + 2) else x) mod 3) + ((x div 2) div 3)) div 2)
1: ((((if (x mod 2) <= 0 then (~x + 2) else x) mod 3) + (x div 5)) div 2)
1: ((1 + ((if (x mod 2) <= 0 then x else ~x) mod 5)) div 2)
1: ((1 + ((if (x mod 2) <= 0 then x else ~x) mod 10)) div 2)
1: ((1 + ((if (x mod (4 + (x div 2))) <= 0 then 1 else x) mod 4)) div 2)
1: ((1 + ((if x <= 0 then 2 else (x - (loop(\(x,i).(x * i),x,1) mod (x + 1)))) mod 4)) div 2)
1: ((1 + ((if x <= 0 then x else ((1 + (x mod (1 + (x div 5)))) * (1 + (x mod 2)))) mod 4)) div 2)
1: ((2 + (loop(\(x,i).(x2 + 2x + ~2),1,loop(\(x,i).4x,(x div 2),1)) mod (x + 1))) div 2)
1: ((1 + (loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x) mod 7)) div 3)
1: ((1 + (loop(\(x,i).(2x + 4),(x div 2),(x mod 2)) mod (2 + (x div 4)))) div 2)
1: ((1 + (loop(\(x,i).(x * (2 + i)),4,2) mod (x + 1))) div 2)
1: ((x + (loop(\(x,i).8x,(x + 1),1) mod (x + 1))) div 2)
1: ((1 + (loop(\(x,i).4x,x,1) mod (2x + 1))) div 3)
1: ((2 + (loop(\(x,i).(2 * ((~2x + 2) div 5)),x,~x) mod (x + 1))) div 3)
1: ((1 + (loop(\(x,i).2x,x,1) mod (2 + ((x + ((x div 2) mod 2)) div 2) - (x mod 2)))) div 2)
1: ((1 + (loop(\(x,i).2x,x,1) mod (x + 1))) div 2)
1: ((1 + (loop(\(x,i).2x,x,2) mod (x + 2))) div 3)
1: ((2 + (loop(\(x,i).2x,x,2) mod loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))) div 3)
1: ((x + (loop(\(x,i).2x,x,loop(\(x,i).2x,((((1 + (8 mod (1 + (x div 2)))) div 2) + (if x <= 0 then 0 else 1)) - (x mod 2)),1)) mod (x + 1))) div 2)
1: ((x + (loop(\(x,i).((x2 + x) div 2),1,(1 + (x mod (1 + (x mod (2 * (1 + (2 * (x mod 2))))))))) mod (x + 1))) div 2)
1: ((1 + (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) mod 13)) div 2)
1: ((1 + (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) mod (2x + 3))) div 2)
1: ((1 + (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) mod 11)) div 3)
1: ((1 + (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) mod (2 * (2 + (x mod 4))))) div 2)
1: ((1 + (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 2)) mod (x + 2))) div 2)
1: ((2 + (loop(\(x,i).loop(\(x,i).(x div (~2 + (x mod 2))),x,(x + 1)),2,x) mod (x + 1))) div 2)
1: ((1 + (x mod 2)) div (1 + ((((x + (x div 2)) * (1 + (x mod 2))) mod 5) div 2)))
1: ((1 + (x mod 2)) div (1 + (x mod (2 + ((((x + 2) mod 7) mod 2) + (x mod 2))))))
1: ((1 + (x mod 2)) div (1 + (if (~1 + (x mod 3)) <= 0 then (x div 2) else 1)))
1: ((2 + (x mod 2)) div (2 - (x mod ~7)))
1: ((2 + (x mod 2)) div (if ((x + ~1) mod 9) <= 0 then 1 else 2))
1: ((2x + (x mod 2)) div (2 + (x div 2)))
1: ((x + (x mod 2)) div (2 + (x div 4)))
1: ((x + (x mod 2)) div ~3)
1: ((1 + (x mod 3)) div (if (x mod 11) <= 0 then 1 else 2))
1: ((2 + (x mod 3)) div (if ((1 + (x div 3)) mod 3) <= 0 then 1 else 2))
1: ((x + (x mod 3)) div 5)
1: ((x + (x mod 3)) div (4 + (x mod 2)))
1: ((1 + (x mod 4)) div (1 + (x div 4)))
1: ((x2 + (x mod 4)) div 2)
1: ((x + (x mod 4)) div 3)
1: ((1 + (x mod 5)) div 2)
1: ((1 + (x mod 5)) div (1 + (x div 7)))
1: ((2 + (x mod 5)) div (1 + (((x + 1) div 2) mod 3)))
1: ((x2 + (x mod 5)) div 5)
1: ((1 + (x mod (1 + (((x * (x mod 2)) div 2) + (x div 5))))) div 2)
1: ((1 + (x mod (2 + (((1 + (x mod 5)) mod 4) + (x mod 2))))) div 2)
1: ((x + (x mod (3 + (x mod 2)))) div 2)
1: ((1 + (x mod (4 - (x mod 2)))) div 2)
1: ((1 + (x mod (7 - (x div 3)))) div 2)
1: ((x + (x mod 9)) div 2)
1: ((1 + (x mod (1 + (2 * ((4 * (x mod 2)) + (x mod 3)))))) div 3)
1: ((1 + (x mod (1 + (2 * (1 + (x mod 5)))))) div 3)
1: ((1 + (x mod (1 + (2 * (1 + (x mod (1 + (2 * (2 - ((x * (x div 2)) mod 2)))))))))) div 3)
1: ((1 + (x mod (1 + (2 * (1 + (x mod (1 + ((~x + 2) mod (2 + (x div 3)))))))))) div 3)
1: ((1 + (x mod (1 + (2 * (1 + (if (x mod 3) <= 0 then (2 * ((x div 4) mod 2)) else 1)))))) div 3)
1: ((1 + (x mod (1 + (2 * (2 - (x * (((x div 2) div 3) mod 2))))))) div (x + 1))
1: ((1 + (x mod (1 + (6 * (if (x mod 8) <= 0 then 1 else (x mod 2)))))) div 2)
1: ((1 + (x mod (1 + (3 * ((2x mod (2 + (x div 2))) div 2))))) div 2)
1: ((1 + (x mod (1 + (2 * ((x + 2) mod (2 * (1 + (x mod 2)))))))) div 3)
1: ((2 + (x mod (1 + (2 * (16 mod (x + 1)))))) div 3)
1: ((1 + (x mod (1 + (2 * ((x2 mod (x - ((~x + 2) div 2))) mod 3))))) div 2)
1: ((1 + (x mod (1 + (2 * (if (16 mod (x + 1)) <= 0 then 1 else 2))))) div 3)
1: ((1 + (x mod (1 + (2 * (if (x mod 5) <= 0 then 1 else (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))))) div 2)
1: ((1 + (x mod (1 + ((x + 1) div (2 * (1 + ((1 + (x mod (1 + ((2 - (x div 2)) mod 6)))) div 2))))))) div 2)
1: ((x + (x mod (1 + ((x + 2) div 3)))) div (2 + (x div 2)))
1: ((1 + (x mod (1 + ((x + 2) div 5)))) div 2)
1: ((1 + (x mod (1 + (((x mod 5) * (x div 4)) div 2)))) div 2)
1: ((2 + (x mod (1 + (2x div (2 + (2x div 5)))))) div 3)
1: ((1 + (x mod (2 + ((x mod 3) div 2)))) div (1 + (x div 2)))
1: ((2 + (x mod (1 + (x div 2)))) div (2 - (x mod ~4)))
1: ((x + (x mod (1 + (x div 2)))) div 2)
1: ((1 + (x mod (1 + (x div 3)))) div (1 + (x div 4)))
1: ((x + (x mod (1 + (x div 3)))) div 3)
1: ((1 + (x mod (1 + (x div (2 + (((x div (4 * (1 + (2 * (x mod 2))))) mod 2) + (x mod 2))))))) div 2)
1: ((1 + (x mod (1 + (x div (1 + ((if ((x * (x mod 3)) mod 5) <= 0 then 1 else 2) + (x mod 2))))))) div 2)
1: ((1 + (x mod (1 + (x div (2 + (loop(\(x,i).2x,x,3) mod (x + 1))))))) div 2)
1: ((1 + (x mod (1 + (x div (2 - (x mod ~8)))))) div 2)
1: ((2 + (x mod (1 + (x div (2 * (2 - (x mod 2))))))) div (2 - (x mod 2)))
1: ((1 + (x mod (1 + (4 mod (1 + (x div 3)))))) div 2)
1: ((1 + (x mod (2 + ((4 + loop(\(x,i).3x,x,1)) mod (x + 1))))) div 2)
1: ((1 + (x mod (2 + ((1 + (2 * (1 + (((1 + (x div 3)) div (2 * (1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + ((x - (x mod 5)) div 2)))))) + (x mod 2))))) mod (x + 1))))) div 2)
1: ((1 + (x mod (2 + ((1 + (2 * (1 + ((if x <= 0 then 0 else (1 + ((2x mod (2 + (x div 3))) mod 2))) + (x mod 2))))) mod (x + 1))))) div 2)
1: ((1 + (x mod (1 + ((18x + 1) mod (x + 5))))) div 4)
1: ((2 + (x mod (2 + ((1 + (4 * loop(\(x,i).2x,(x div 2),2))) mod (x + 1))))) div 2)
1: ((1 + (x mod (2 + ((1 + (2 * ((x + 1) div (2 * (2 + ((x div 2) mod 2)))))) mod (x + 1))))) div 2)
1: ((1 + (x mod (2 + ((1 + (2 * ((x + ~1) mod (1 + (x div (2 + (if (x mod 3) <= 0 then 2 else 0))))))) mod (x + 1))))) div 2)
1: ((1 + (x mod (2 + ((1 + (2 * ((x - ((x div 2) mod 2)) mod 5))) mod (x + 1))))) div 2)
1: ((1 + (x mod (1 + ((2 + ((x mod 3) div 2)) mod (1 + (x div 2)))))) div 2)
1: ((1 + (x mod (1 + ((1 + ((x + 1) mod (1 + ((1 + (if (x mod 3) <= 0 then 0 else x)) div 3)))) mod (x + 1))))) div 2)
1: ((2 + (x mod (1 + ((1 + ((x + 1) mod (2 * (2 + (x div (3 + ((x div 2) mod 5))))))) mod (x + 1))))) div 2)
1: ((1 + (x mod (1 + ((1 + (x mod (2 + (x div (1 + ((x * loop(\(x,i).(x2 div 3),2,x)) mod 3)))))) mod (x + 1))))) div 2)
1: ((2 + (x mod (1 + ((1 + (x mod (2 * (2 + (((x + 1) div 2) mod 3))))) mod (x + 1))))) div 2)
1: ((1 + (x mod (2 + ((x + (if (~4 + (x div 2)) <= 0 then 1 else x)) mod 5)))) div 2)
1: ((1 + (x mod (2 + ((~1 - (x2 div 3)) mod 4)))) div 2)
1: ((2 + (x mod (2 + ((~x + 1) mod (2 + (x div (2 + (x mod 2)))))))) div 3)
1: ((1 + (x mod (1 + ((2 - (x div 2)) mod 6)))) div 2)
1: ((1 + (x mod (2 + ((2 - (2x mod 5)) mod (x + 1))))) div 2)
1: ((1 + (x mod (1 + ((((1 + (8 mod (1 + (x div 2)))) div 2) - (x mod 2)) mod (1 + (x div 2)))))) div 2)
1: ((1 + (x mod (1 + ((x + ~1) mod (4 + (x div 3)))))) div 2)
1: ((1 + (x mod (2 + ((x + ~1) mod (2 - ((x div 4) div ~2)))))) div 2)
1: ((1 + (x mod (1 + ((x2 + ~x) mod (4 + (x div 4)))))) div 2)
1: ((1 + (x mod (2 + ((6 * (1 + (2 * (x mod 2)))) mod (x + 1))))) div 2)
1: ((1 + (x mod (2 + (((4x + 8) * (2 + (x mod ~7))) mod (x + 1))))) div 2)
1: ((1 + (x mod (1 + ((2 * (2x2 mod (2 + (x div 2)))) mod (x + 1))))) div 2)
1: (((x mod (2 + ((x div 4) mod 2))) + (x div 2)) div 2)
1: ((1 + (x mod (1 + ((x2 mod 6) mod (1 + (x div 2)))))) div 2)
1: ((1 + (x mod (1 + ((x mod (3 + (x mod 2))) mod (1 + (x div 2)))))) div 2)
1: ((1 + (x mod (1 + (loop(\(x,i).(2x + 1),3,(2 * (x mod 2))) mod (x + 1))))) div 2)
1: ((1 + (x mod (2 + (loop(\(x,i).(2x + 1),x,(4 * (x mod 2))) mod (x + 1))))) div 3)
1: ((1 + (x mod (1 + (loop(\(x,i).(x2 + 2x),2,2) mod (x + 1))))) div 3)
1: ((x + (x mod (2 + (x mod 2)))) div 2)
1: ((1 + (x mod (2 + (x mod 4)))) div (2 + (x mod 3)))
1: (((x mod (1 + (x mod (1 + (x div 3))))) + (x mod 2)) div 2)
1: ((1 + (x mod (1 + (x mod (1 + (x div (2 + ((x + 1) mod 3)))))))) div 2)
1: ((1 + (x mod (1 + (x mod (1 + (x div (2 + ((1 - (x div 4)) mod 3)))))))) div 2)
1: ((1 + (x mod (1 + (x mod (1 + (x div (2 + ((x div 2) mod (1 + (if (x mod 3) <= 0 then 0 else 2)))))))))) div 2)
1: ((1 + (x mod (1 + (x mod (1 + (x div (2 + (x mod 5)))))))) div 2)
1: ((1 + (x mod (2 + (x mod (2 + (x mod 2)))))) div 2)
1: ((1 + (x mod (1 + (x mod ((if ((x + 1) mod 5) <= 0 then 2 else 1) + (x div 3)))))) div 2)
1: ((1 + (x mod (2 + (x mod (5 * (1 + (2 * (x mod 3)))))))) div 2)
1: ((1 + (x mod (1 + (if (x mod 2) <= 0 then 6 else 1)))) div (2 + (((x + 1) div 2) div 2)))
1: ((1 + (x mod (1 - (2 * ((~x + 1) div 7))))) div 2)
1: ((2 + (x mod (1 - (2 * ((~x + 1) div (2 + (x div 2))))))) div 3)
1: ((1 + (x mod (1 - (2 * (x div (~2 + ((x div 2) div ~2))))))) div 3)
1: ((1 + (x mod (2 - (x div (~1 + ((~x + 2) div 4)))))) div 3)
1: ((1 + (x mod ~9)) div (x + 1))
1: ((1 + (x mod (~1 + (2 * ((x div (2 - (x mod 2))) div 3))))) div 2)
1: ((1 + (x mod (~1 + (loop(\(x,i).2x,x,x) mod (x + 1))))) div 2)
1: ((2 + (x mod ((x + ~2) - ((x + 1) mod 5)))) div 3)
1: ((x + (x mod ((x + ~1) - (x mod 12)))) div 2)
1: ((x + (x mod (x - ((x + 1) mod 3)))) div 2)
1: (((2x2 + 4x + 4) + (x mod (x - ((x + ~1) mod 8)))) div 3)
1: ((1 + (x mod 6)) div 3)
1: ((2 + (x mod 6)) div (1 + (x div 4)))
1: (((3x + 6) + (x mod 6)) div 5)
1: (((x mod 6) + (x div 4)) div 2)
1: (((x + 2) + (x mod 10)) div 5)
1: (((x mod 10) + (x div 4)) div 2)
1: ((x + (x mod 10)) div 2)
1: (((x mod 14) + (x mod 8)) div 8)
1: ((1 + (x mod (2 * (2 + ((x + 2) mod (2 * (2 + (x mod 2)))))))) div 2)
1: ((1 + (x mod (2 * (if (x mod 4) <= 0 then 4 else 1)))) div 2)
1: ((x + (x mod (if (x + ~10) <= 0 then 1 else 6))) div 3)
1: ((x + (i mod 2)) div 2)
1: ((1 + (if (1 - ((x2 + x) mod 5)) <= 0 then x else 1)) div 2)
1: ((1 + (if (1 - (x mod (1 + ((x + ~1) mod 7)))) <= 0 then x else 0)) div 2)
1: ((1 + (if (2 - (x mod (1 + ((~x + 2) mod 4)))) <= 0 then x else 1)) div 3)
1: ((1 + (if (2 - loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)) <= 0 then x else 2)) div 3)
1: ((1 + (if (~x + 2) <= 0 then 3x else 1)) div (2 + (x div 2)))
1: ((2x + (if (~x + 2) <= 0 then x else (x + 1))) div (1 + ((x + 1) div 2)))
1: ((x + (if (~4 + (x div 2)) <= 0 then 1 else 0)) div 2)
1: ((x + (if (~4 + (x div 2)) <= 0 then 1 else 4)) div 2)
1: ((x + (if (~4 + (x div 2)) <= 0 then 1 else x)) div (2 + (x div 2)))
1: ((2 + (if (~4 + (x div 2)) <= 0 then x else (x + 2))) div 3)
1: ((x + (if (~x + 8) <= 0 then x else 2)) div 3)
1: (((x2 + 2x) + (if (~2 + (x div 2)) <= 0 then 1 else 0)) div 5)
1: ((x + (if (~2 + (x div 2)) <= 0 then 1 else 2)) div 3)
1: ((x + (if (~2 + (x div 2)) <= 0 then 1 else 2)) div 4)
1: (((if (~2 + (x div 2)) <= 0 then 1 else 4) + (x div 3)) div 2)
1: ((x + (if (~2 + (x div 2)) <= 0 then 1 else 4)) div 2)
1: ((x + (if (~2 + (x div 2)) <= 0 then 1 else 4)) div 4)
1: (((if (~2 + (x div 2)) <= 0 then 1 else (x + ~2)) + (x div 2)) div 2)
1: ((x + (if (~2 + (x div 2)) <= 0 then 2 else 0)) div 2)
1: ((x + (if (~2 + (x div 2)) <= 0 then x else 1)) div 3)
1: ((x + (if (~2 + (x div 4)) <= 0 then 1 else 0)) div 2)
1: ((x + (if (~2 + (x div 4)) <= 0 then 2 else 1)) div 2)
1: ((1 + (if (~1 + (x mod 3)) <= 0 then 2 else 0)) div (2 - (x mod 2)))
1: (((if (~2 + (x mod 5)) <= 0 then 1 else 2) + (x div 2)) div 2)
1: (((if (~2 + (x mod 7)) <= 0 then 0 else 1) + (x div 2)) div 2)
1: ((1 + (if (x + ~1) <= 0 then 0 else (1 + (7 * ((x + 1) mod 3))))) div 2)
1: ((x + (if (x + ~1) <= 0 then 1 else ((2x + 1) - ((x + ~2) mod 5)))) div 2)
1: ((x + (if (x + ~1) <= 0 then 1 else (x - ((x + 1) mod 13)))) div 2)
1: (((if (x + ~1) <= 0 then 1 else ((1 + (((x + 1) * (2 + (x mod 2))) div 2)) div 2)) + (x mod 3)) div 2)
1: ((1 + (if (x + ~1) <= 0 then 1 else loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),x,1))) div 2)
1: ((1 + (if (x + ~1) <= 0 then x else (2 * (1 + ((1 + (if ((x + 1) mod (3 - (x mod 2))) <= 0 then x else 1)) div 2))))) div 2)
1: ((1 + (if (x + ~1) <= 0 then x else loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x + ~2),1))) div 2)
1: (((if (x + ~2) <= 0 then 1 else (2 + (x mod 2))) + (x mod 3)) div 2)
1: ((x + (if (x + ~2) <= 0 then 1 else (2 - ((~1 + (x div 2)) div 2)))) div 2)
1: ((x + (if (x + ~2) <= 0 then 1 else (7x + ~14))) div (x + 1))
1: ((x + (if (x + ~2) <= 0 then 1 else ((x + 1) div 7))) div 2)
1: (((if (x + ~2) <= 0 then 1 else (x2 div 2)) + loop(\(x,i).4x,x,1)) div 3)
1: ((2 + (if (x + ~2) <= 0 then x else (4x + ((x2 + ~x) div 4)))) div (x + 1))
1: ((1 + (if (x + ~2) <= 0 then x else (if ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) <= 0 then (2 * (1 + (x div 5))) else 1))) div 3)
1: ((2x + (if (x + ~3) <= 0 then x else 0)) div 3)
1: ((x + (if (x + ~4) <= 0 then 1 else ((~x + 1) div (2 + (x div 2))))) div 2)
1: (((x2 + x) + (if (x + ~4) <= 0 then 2 else 0)) div 2)
1: ((x + (if (x + ~4) <= 0 then 2 else 1)) div 2)
1: ((x + (if (x + ~4) <= 0 then 2 else (x + ~3))) div 3)
1: ((1 + (if ((x mod 3) div 2) <= 0 then (x mod 3) else x)) div 2)
1: (((if ((1 + (x div 2)) mod 2) <= 0 then (x mod 2) else (x div 2)) + (x mod 3)) div 2)
1: ((x + (if ((2 + (x div 2)) mod 4) <= 0 then 1 else 2)) div 2)
1: ((x + (if ((2 + (x div 2)) mod 4) <= 0 then 2 else 1)) div 2)
1: ((x + (if ((x + 1) mod (1 + (x div 3))) <= 0 then 1 else 0)) div 2)
1: (((if ((x + 1) mod (1 + (x div 4))) <= 0 then 0 else 2) + (x mod 3)) div 2)
1: ((x + (if ((x + ~1) mod 5) <= 0 then 1 else 0)) div 2)
1: (((if ((x + ~1) mod 8) <= 0 then x else 1) + (x div 9)) div 2)
1: ((2 + (if ((x2 + x) mod 8) <= 0 then x else 0)) div 3)
1: (((if ((x * (x div 2)) mod 4) <= 0 then 2 else 1) + (x div 3)) div 2)
1: (((if ((x * (x mod 3)) mod 5) <= 0 then 0 else 2) + ((x + 1) div 3)) div 2)
1: ((1 + (if (2x mod (4 + (x div 4))) <= 0 then 0 else (if (x + ~3) <= 0 then x else 2))) div 2)
1: ((1 + (if (2x mod (4 + (x div 4))) <= 0 then loop(\(x,i).(2x + 1),(x div 4),1) else 0)) div 2)
1: ((1 + (if (((x + 1) div (2 + (x mod 2))) mod 2) <= 0 then x else 1)) div 3)
1: ((2 + (if (((x + ~1) div 2) mod 3) <= 0 then 1 else x)) div (x + 1))
1: ((x2 + (if ((x div 2) mod 2) <= 0 then 1 else (2x + 2))) div 2)
1: ((1 + (if ((x div 2) mod 3) <= 0 then 0 else loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))) div 3)
1: ((x + (if ((x div 2) mod (1 + (2 * (x mod 2)))) <= 0 then 2 else 0)) div 2)
1: ((x + (if ((x div 3) mod 2) <= 0 then (x div 4) else 1)) div 2)
1: ((x + (if ((x div 3) mod 3) <= 0 then 1 else x)) div 3)
1: ((x + (if ((x div 3) mod 3) <= 0 then 2 else 0)) div 3)
1: ((x + (if ((x div 4) mod 3) <= 0 then 2 else 1)) div 2)
1: (((if ((if x <= 0 then 1 else x) mod 3) <= 0 then 2 else 1) + (x mod 5)) div 2)
1: ((1 + (if ((if x <= 0 then 2 else ((x + 1) div 2)) mod 3) <= 0 then (x div 2) else 1)) div 2)
1: ((x + (if ((if x <= 0 then 2 else ((x + 1) div 2)) mod 4) <= 0 then 0 else 2)) div 2)
1: (((if (x mod 2) <= 0 then 1 else (x2 + ~x)) + loop(\(x,i).2x,x,1)) div 2)
1: (((if (x mod 2) <= 0 then 1 else x) + (x div 2)) div 2)
1: ((x + (if (x mod 2) <= 0 then 1 else x)) div 3)
1: ((x + (if (x mod 2) <= 0 then 2 else 0)) div 3)
1: (((if (x mod 2) <= 0 then 2 else x) + (x div 2)) div 2)
1: (((if (x mod 2) <= 0 then 2 else x) + (x div 2)) div 3)
1: ((x + (if (x mod 2) <= 0 then 4 else (x mod ~2))) div 3)
1: ((x + (if (x mod 2) <= 0 then (1 + (2 * ((x + 1) - (x div ~5)))) else ~2)) div 2)
1: ((1 + (if (x mod 2) <= 0 then (1 + (x div 2)) else ((1 + (x mod 8)) mod (x + 1)))) div 2)
1: (((if (x mod 2) <= 0 then 6 else ~4) + loop(\(x,i).5x,x,3)) div 2)
1: ((2 + (if (x mod 2) <= 0 then (3 * (if (x mod 2) <= 0 then ((~1 + (9 * (2 - ((x div 2) mod 2)))) * (if x <= 0 then 1 else 2)) else 1)) else 1)) div 2)
1: (((if (x mod 2) <= 0 then (x2 div 2) else 1) + ((x div 2) mod 2)) div 2)
1: ((x + (if (x mod 2) <= 0 then (x div 2) else 2)) div 4)
1: ((x + (if (x mod 2) <= 0 then (x div 2) else (10x2 + 7x + 1))) div (x + 1))
1: ((1 + (if (x mod 2) <= 0 then ((1 + (x div 2)) mod 4) else 1)) div 2)
1: ((1 + (if (x mod 2) <= 0 then (((x + 2) div 3) mod 4) else 1)) div 2)
1: ((x + (if (x mod 2) <= 0 then (x mod 5) else 1)) div 2)
1: ((x + (if (x mod 2) <= 0 then (x mod 8) else 1)) div 2)
1: (((if (x mod 2) <= 0 then (if (x mod 3) <= 0 then 1 else x) else 3) + (x div 2)) div 2)
1: (((if (x mod 2) <= 0 then x else 0) + ((x div 2) mod 2)) div 3)
1: (((if (x mod 2) <= 0 then x else 1) + (if x <= 0 then 0 else 1)) div (1 + (if (~1 + (x mod 3)) <= 0 then x else 2)))
1: ((x + (if (x mod 2) <= 0 then x else 2)) div 9)
1: ((x + (if (x mod 2) <= 0 then x else 3x2)) div (x + 1))
1: ((x + (if (x mod 3) <= 0 then 2 else 1)) div 2)
1: ((x + (if (x mod 3) <= 0 then 7 else (x div 2))) div 3)
1: ((x + (if (x mod 3) <= 0 then (1 + ((x2 + ~1) mod 5)) else 0)) div 4)
1: ((x + (if (x mod 3) <= 0 then (2 + (((x + 1) * (x div 2)) mod 2)) else 1)) div 3)
1: ((x + (if (x mod 3) <= 0 then 2x else 1)) div 3)
1: ((2x + (if (x mod 4) <= 0 then 0 else 1)) div 3)
1: (((if (x mod 4) <= 0 then 0 else (x div 4)) + (x div 2)) div 2)
1: ((2x + (if (x mod 4) <= 0 then 0 else x)) div (x + 2))
1: (((if (x mod 4) <= 0 then 1 else 2) + (x div 5)) div 2)
1: (((if (x mod 4) <= 0 then 2 else (x mod 2)) + ((x div 2) div 3)) div 2)
1: ((2 + (if (x mod 4) <= 0 then x else (x div 2))) div 3)
1: ((x + (if (x mod 7) <= 0 then 1 else 2)) div 2)
1: ((x + (if (x mod 7) <= 0 then 2 else 1)) div 2)
1: (((if (x mod 9) <= 0 then 0 else 2) + (x div 3)) div 2)
1: ((1 + (if (x mod 9) <= 0 then 0 else x)) div 2)
1: ((x + (if (x mod (2 + (x div 2))) <= 0 then 2 else 1)) div 2)
1: ((1 + (if (x mod (2 + (x div 2))) <= 0 then 8 else 0)) div (x + 1))
1: ((1 + (if (x mod (2 + ((~x + 2) mod 5))) <= 0 then x else 0)) div 3)
1: ((1 + (if (x mod (2 + ((x + ~1) mod 3))) <= 0 then x else 0)) div 2)
1: ((x + (if (x mod (1 + (x mod 4))) <= 0 then 2 else 1)) div 2)
1: ((2 + (if (x mod (1 - (2 * ((~x + 1) div (2 + (x div 2)))))) <= 0 then 1 else x)) div 3)
1: ((x + (if (x mod 6) <= 0 then (2 + (x div 2)) else 1)) div 2)
1: ((1 + (if (x mod (2 * (2 - ((x div 4) mod 2)))) <= 0 then x else 0)) div 3)
1: ((x + (if (i mod 2) <= 0 then 2 else x)) div 2)
1: ((1 + (if (if ((x + 2) mod (1 + ((x + ~1) mod 3))) <= 0 then 1 else 0) <= 0 then x else 0)) div 3)
1: ((2 + (if x <= 0 then 0 else 2)) div (2 - (2x mod ~15)))
1: ((1 + (if x <= 0 then 0 else ((x + 2) + (((3 * ((3 * (1 + ((1 + (x div (1 + ((if (x mod 2) <= 0 then 3 else ~2) mod (x + 1))))) div 2))) div 2)) div 2) div 2)))) div 2)
1: ((1 + (if x <= 0 then 0 else (2 + (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x))))) div 2)
1: ((1 + (if x <= 0 then 0 else (1 + (x * ((1 + ((~x + 1) mod 21)) div 2))))) div 2)
1: ((2 + (if x <= 0 then 0 else (2 + ((x + ((~x + 1) mod (2 + (x div 2)))) div 2)))) div 2)
1: ((1 + (if x <= 0 then 0 else (1 + ((2 * (1 + ((1 + (x div (1 + ((1 + ((loop(\(x,i).(x + (x div 2)),x,2) div 2) div 2)) mod (x + 1))))) div 2))) div 3)))) div 2)
1: ((1 + (if x <= 0 then 0 else (1 + ((2 * (1 + ((1 + (x div (1 + ((~1 + (if (x mod (3 + ((x div 2) div 3))) <= 0 then 1 else 0)) mod (x + 1))))) div 2))) div 3)))) div 2)
1: ((1 + (if x <= 0 then 0 else (1 + ((2 * (1 + ((1 + (x div (1 + (x mod (1 + ((~1 + (2 * ((3 * (1 + (((1 + (x mod (1 + (x mod (2 * (2 + ((x div 2) mod 2))))))) mod (x + 1)) div 2))) div 2))) mod (x + 1))))))) div 2))) div 3)))) div 2)
1: ((1 + (if x <= 0 then 0 else (1 + ((loop(\(x,i).(x - ((~x + (i mod 2)) div 2)),x,1) div 2) div 2)))) div 2)
1: ((1 + (if x <= 0 then 0 else (1 + ((loop(\(x,i).2x,x,((~1 + loop(\(x,i).2x,(x + ~2),2)) div (x + 1))) mod (x + 1)) div 2)))) div 2)
1: ((1 + (if x <= 0 then 0 else (x + (loop(\(x,i).(x * i),x,1) div (x + 1))))) div 2)
1: ((1 + (if x <= 0 then 0 else (1 + ((x + 1) mod (2 * (1 + (4 * (x mod (2 + (x mod 2)))))))))) div 3)
1: ((1 + (if x <= 0 then 0 else (1 + ((x + ~1) mod (1 + (2 * (if (x mod 2) <= 0 then 2 else x))))))) div 2)
1: ((1 + (if x <= 0 then 0 else (loop(\(x,i).(x * i),(x div 2),1) div (1 + (x mod 2))))) div 2)
1: ((2 + (if x <= 0 then 0 else loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x + 2)))) div 3)
1: ((2 + (if x <= 0 then 1 else (3 + (31x2 div 2)))) div 2)
1: ((x + (if x <= 0 then 1 else (2 + compr(\x.((1 + ((x + ((x div 2) div 3)) div 2)) mod 2),x)))) div 2)
1: ((1 + (if x <= 0 then 1 else (x - ((x + 1) mod (3 - (x mod 2)))))) div 2)
1: ((x + (if x <= 0 then 1 else (x - ((x + 1) mod (2 * (1 + (if (x + ~4) <= 0 then 0 else 2))))))) div 2)
1: ((2x + (if x <= 0 then 1 else (x - loop(\(x,i).(x - (if x <= 0 then 2 else (~2 + i))),x,x)))) div 2)
1: ((1 + (if x <= 0 then 1 else (x3 + 2x))) div 2)
1: ((x + (if x <= 0 then 1 else (2 * (2x + ((x + (x2 div 3)) div 2))))) div (x + 1))
1: ((x + (if x <= 0 then 1 else (2 * ((1 + ((loop(\(x,i).2x,x,(1 + compr(\x.(loop(\(x,i).(2x2 + 12x + 16),2,(x2 + 2x)) mod (x + 1)),x))) div 2) div 2)) div 2)))) div (x + 1))
1: ((1 + (if x <= 0 then 1 else (2 * ((1 + (if (x mod 3) <= 0 then 0 else x)) div 3)))) div 2)
1: ((x + (if x <= 0 then 1 else (2 * (((~1 + ((x + 1) * loop(\(x,i).(2 * (x + (x div (4 + i)))),x,1))) div 2) div 2)))) div (x + 1))
1: ((2 + (if x <= 0 then 1 else (x * (if (x mod 2) <= 0 then x else ((x2 + ~x) div 4))))) div 3)
1: ((2 + (if x <= 0 then 1 else ((1 + (x2 div 7)) div 2))) div 3)
1: ((1 + (if x <= 0 then 1 else ((x2 + 2x) div 8))) div 2)
1: ((1 + (if x <= 0 then 1 else ((x * loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)) div 2))) div 2)
1: ((2 + (if x <= 0 then 1 else ((loop(\(x,i).(~2x + 6),x,1) mod (x + 1)) div 2))) div 3)
1: ((1 + (if x <= 0 then 1 else (x div (2 + (x div (1 + ((x div 2) mod (1 + (x mod 4))))))))) div 2)
1: ((1 + (if x <= 0 then 1 else (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))))) div 2)
1: ((1 + (if x <= 0 then 1 else (x div (3 * (1 + ((x2 + 2x) mod 7)))))) div 2)
1: ((2 + (if x <= 0 then 1 else ((1 + (x mod (2 + (x div (1 + ((x div 2) mod (1 + (x mod 4)))))))) mod (x + 1)))) div 3)
1: ((2 + (if x <= 0 then 1 else (x mod (1 + (x div 3))))) div 3)
1: ((1 + (if x <= 0 then 1 else (compr(\x.(loop(\(x,i).(~2x + 2),x,2) mod (x + 2)),x) mod (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x))))) div 2)
1: ((1 + (if x <= 0 then 1 else x)) div (2 + (3 mod (x + 1))))
1: ((1 + (if x <= 0 then 1 else x)) div (~1 + (2 * (x div 3))))
1: ((1 + (if x <= 0 then 1 else compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),(x + 2)))) div 2)
1: ((2 + (if x <= 0 then 1 else compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + (x div 2)))),x))) div 2)
1: ((x + (if x <= 0 then 2 else (~1 + ((~x2 + x) mod 5)))) div 4)
1: ((x + (if x <= 0 then 2 else (loop(\(x,i).(x * (~2 + (i mod 2))),x,1) - loop(\(x,i).2x,x,1)))) div 2)
1: ((1 + (if x <= 0 then 2 else (((x + 1) - ((x2 + ~x) div 4)) div 3))) div 2)
1: ((2 + (if x <= 0 then 2 else ((x + (x2 div 4)) div 2))) div 3)
1: (((if x <= 0 then 2 else ((1 + loop(\(x,i).2x,x,1)) div 5)) + (x div 2)) div 2)
1: ((1 + (if x <= 0 then 2 else loop(\(x,i).((4x2 + 2x) div 3),x,1))) div 3)
1: ((1 + loop(\(x,i).((2x + 2) + (3 * (2x + (x mod 2)))),(x div 2),(x mod 2))) div 2)
1: ((1 + loop(\(x,i).((x + 1) + ((2x div 7) + (x div 3))),x,1)) div 2)
1: ((1 + loop(\(x,i).((x + 1) + ((2 + (i div 2)) * (i div 2))),x,1)) div 2)
1: ((1 + loop(\(x,i).((x + 1) + (2 * (x - ((~1 + (2 * (x mod 2))) * (1 + i))))),x,0)) div 2)
1: ((1 + loop(\(x,i).((x + 1) + (2 * ((x + (x div 2)) div 4))),((x + 1) div 2),1)) div 2)
1: ((1 + loop(\(x,i).(4x + (((x + ((x div 2) mod 2)) div 2) + (if x <= 0 then 1 else 2x))),2,x)) div 2)
1: ((x + loop(\(x,i).((x + 2) + ((x - (x div 4)) div 2)),x,2)) div (2x + 2))
1: ((x + loop(\(x,i).((x + 1) + ((x * (4 + i)) div (x + 3))),x,1)) div 2)
1: ((x + loop(\(x,i).((x + 3) + (8x div (x + 2))),2,x)) div 2)
1: ((x + loop(\(x,i).((x + 2) + (2x div 5)),x,2)) div 2)
1: ((1 + loop(\(x,i).(2x + ((i * i) div (x + 2))),x,1)) div 2)
1: ((1 + loop(\(x,i).((x + 2) + (x div 2)),(x div 2),(x mod 2))) div 2)
1: ((x + loop(\(x,i).((x + 2) + (x div 2)),x,0)) div (x + 1))
1: ((x + loop(\(x,i).((x + 2) + (x div 3)),x,1)) div 2)
1: ((1 + loop(\(x,i).((x + 2) + (x div 4)),x,2)) div 3)
1: ((x + loop(\(x,i).((x + 1) + (x div 5)),(x + ~2),1)) div 3)
1: ((1 + loop(\(x,i).((x + 2) + (x div (1 + (x mod 2)))),(x div 2),(x mod 2))) div 2)
1: ((loop(\(x,i).((x + 2) + (x div (2 + (i mod 2)))),x,2) + loop(\(x,i).2x,x,1)) div 2)
1: ((1 + loop(\(x,i).((2x + 1) + (x div (1 + (if (x mod 2) <= 0 then 4 else 1)))),x,1)) div 2)
1: ((2 + loop(\(x,i).((x + 2) + (x div 8)),x,2)) div 3)
1: ((1 + loop(\(x,i).(x + ((i div 3) + (x div 2))),x,1)) div 2)
1: ((1 + loop(\(x,i).(x + ((x + 1) div 2) - (x div (~1 + (2 * i)))),x,1)) div 2)
1: ((2 + loop(\(x,i).(5x + 1),x,1)) div 2)
1: ((x + loop(\(x,i).(x + ((1 + (8 * (x mod 2))) * (1 + i))),x,1)) div 2)
1: ((1 + loop(\(x,i).(x + ((2 + (i div 3)) * (1 + (i div 3)))),x,1)) div 2)
1: ((loop(\(x,i).((x * (1 + (i mod 2))) + (x mod 2)),x,1) + loop(\(x,i).2x,x,1)) div 2)
1: ((x + loop(\(x,i).(x + ((2 + (i mod 2)) * i)),x,1)) div 2)
1: ((1 + loop(\(x,i).(x + (2 * (x + (i mod 2)))),(x + ~1),x)) div 2)
1: ((1 + loop(\(x,i).(2x + ((1 + i) * i)),x,1)) div 2)
1: ((loop(\(x,i).(10x + 1),(2x + 1),1) + loop(\(x,i).10x,x,4)) div 2)
1: ((loop(\(x,i).(10x + 1),(2x + 1),1) + loop(\(x,i).10x,x,8)) div 2)
1: ((2 + loop(\(x,i).(32x + (x mod 3)),x,1)) div 3)
1: ((x + loop(\(x,i).(1 + (x * (i * i))),(x + ~2),1)) div 3)
1: ((1 + loop(\(x,i).(1 + (2 * ((24x + 1) div (x + 1)))),x,0)) div 2)
1: ((x + loop(\(x,i).(2x + 1),x,2)) div 2)
1: ((loop(\(x,i).(2 + (x * i)),x,2) + (x div 2)) div (x + 2))
1: ((x + loop(\(x,i).(2x + (i * i)),x,2)) div 2)
1: ((1 + loop(\(x,i).(x + (i * i)),(x + ~1),x)) div 2)
1: ((x + loop(\(x,i).(x + ((x - (x div 4)) div 2)),2,x)) div 2)
1: ((x + loop(\(x,i).(5 + ((2x + 4) div 3)),x,1)) div 2)
1: ((x + loop(\(x,i).(1 + ((x * (x + i)) div 8)),2,x)) div 3)
1: ((x + loop(\(x,i).(x + ((2x2 + ~x) div (x + 4))),2,x)) div 3)
1: ((x + loop(\(x,i).(x + (6x div (if i <= 0 then 1 else i))),2x,1)) div (2x + 1))
1: ((x + loop(\(x,i).(2 + ((x * (((x + ~1) div 2) div 2)) div 2)),2,2x)) div 2)
1: ((1 + loop(\(x,i).(((3 * (x div 4)) div 2) + (x div 2)),2,x)) div 2)
1: ((1 + loop(\(x,i).(((3 * (x div 4)) div 2) + i),x,1)) div 2)
1: ((1 + loop(\(x,i).(x + (2x div 7)),2,(if x <= 0 then 1 else 4x))) div 2)
1: ((1 + loop(\(x,i).((x2 div 2) + i),x,0)) div 2)
1: ((x + loop(\(x,i).(x + ((i * i) div (x + 1))),x,2)) div 2)
1: ((x + loop(\(x,i).(1 + (((x2 + x) div 5) div 3)),2,x)) div 2)
1: ((x + loop(\(x,i).(x + (loop(\(x,i).2x,x,1) div (x + 1))),(x + ~2),1)) div 2)
1: ((x + loop(\(x,i).(x + (x div 2)),x,3)) div 2)
1: ((1 + loop(\(x,i).(x + (x div 2)),x,6)) div 2)
1: ((x + loop(\(x,i).(x + (x div 3)),2,(x + ~1))) div 2)
1: ((1 + loop(\(x,i).(x + (x mod (1 + i))),(x + ~1),1)) div (x + 2))
1: ((1 + loop(\(x,i).((x mod (1 + i)) + i),x,1)) div 2)
1: (((x2 + x) + loop(\(x,i).(2x + (i mod 2)),x,2)) div 2)
1: ((1 + loop(\(x,i).(x + (if (~2 + (x div 3)) <= 0 then 1 else 2)),(x + 2),x)) div 2)
1: ((1 + loop(\(x,i).(x + (if (~2 + (x div 4)) <= 0 then i else x)),x,1)) div 2)
1: ((1 + loop(\(x,i).(x + (if (x + ~2) <= 0 then 1 else ((x2 + ~x) * i))),x,0)) div 2)
1: ((1 + loop(\(x,i).(x + (if ((x + ~1) - i) <= 0 then (2x + 2) else ~2)),x,1)) div 2)
1: ((1 + loop(\(x,i).(x + ((if ((x + ~1) mod 3) <= 0 then 1 else x) + i)),x,1)) div 2)
1: ((1 + loop(\(x,i).(x + (if x <= 0 then 1 else ((x * (x mod 2)) + (x div 2)))),x,0)) div (x + 1))
1: ((2 + loop(\(x,i).(x + (if x <= 0 then 1 else (x - (3 * ((x + ~1) div 5))))),(x div 2),((x + 1) mod 2))) div 3)
1: ((1 + loop(\(x,i).(x + (if x <= 0 then 1 else loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,x))),2,x)) div 2)
1: ((1 + loop(\(x,i).(1 + loop(\(x,i).(1 + (x2 * i)),x,2)),x,0)) div 2)
1: ((1 + loop(\(x,i).(2x + loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),i,1)),x,1)) div 2)
1: ((1 + loop(\(x,i).(1 + loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)),2,x)) div 2)
1: ((1 + loop(\(x,i).(1 + loop(\(x,i).(x - (if x <= 0 then 1 else (1 + (2 * (1 + i))))),x,2x)),1,2x)) div 2)
1: ((x + loop(\(x,i).(loop(\(x,i).(x * (2 + i)),i,1) + (x * (i * i))),x,1)) div 2)
1: ((1 + loop(\(x,i).(2x + loop(\(x,i).2x,(~1 + i),x)),x,1)) div 2)
1: ((1 + loop(\(x,i).(x + loop(\(x,i).(x * i),(2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),i)),1)),x,2)) div 3)
1: ((x2 + loop(\(x,i).(x + i),x4,1)) div 2)
1: ((x + loop(\(x,i).(1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)),(x + ~1),1)) div 2)
1: ((1 + loop(\(x,i).(0 - (2x * (1 + (2 * i)))),x,1)) div 2)
1: ((2 + loop(\(x,i).~x,x,(x div (3 * (8 - (x div 2)))))) div 3)
1: ((x + loop(\(x,i).(1 - ((x * (x mod 2)) + (x div 2))),2,x)) div (x + 1))
1: ((x + loop(\(x,i).(1 - (x2 div (x - ((~x + 2) div 2)))),2,x)) div 2)
1: ((1 + loop(\(x,i).(1 - (x mod (1 + ((1 + (x mod ((1 + (x mod 5)) * (1 + (x mod 5))))) mod (x + 1))))),1,2x)) div 2)
1: ((x + loop(\(x,i).((~x + 2) + (3 * ((2 + (x div 2)) div 3))),2,x)) div 2)
1: ((x + loop(\(x,i).((x + 1) + (2 * i) - ((x + ~1) div 5)),x,1)) div 2)
1: ((x + loop(\(x,i).((3x + 1) - ((x + 1) div 5)),x,1)) div 2)
1: ((x + loop(\(x,i).(x + i - (2x div (2 + (x div 2)))),x,1)) div 2)
1: ((x + loop(\(x,i).(x + i - (x div 11)),x,1)) div 2)
1: ((x + loop(\(x,i).(x + i - (x div 8)),(x + ~1),1)) div 2)
1: ((x + loop(\(x,i).(3x + ~1),2x,1)) div 2)
1: ((loop(\(x,i).(3x + ~1),x,1) + loop(\(x,i).2x,(x + ~1),1)) div 3)
1: (((x2 + x) + loop(\(x,i).(3x + ~1),x,2)) div 2)
1: ((loop(\(x,i).(5x - loop(\(x,i).2x,i,1)),x,1) + loop(\(x,i).3x,x,1)) div 2)
1: ((1 + loop(\(x,i).(~x + (2 * (4x + i))),x,0)) div 3)
1: ((1 + loop(\(x,i).((2x + 2) - loop(\(x,i).2x,x,1)),1,(x div 2))) div 2)
1: ((1 + loop(\(x,i).((x2 + x) - (x div (2 div (~2 + (x mod 2))))),x,1)) div 2)
1: ((x + loop(\(x,i).(~1 + (x * (1 + i))),x,4)) div 2)
1: ((x2 + loop(\(x,i).(~1 + (x * (x + i))),(x + ~1),1)) div 2)
1: ((loop(\(x,i).(4x - (x div 2)),x,1) + loop(\(x,i).(2x + 2),x,1)) div (x2 + 2x + 2))
1: ((1 + loop(\(x,i).(4x - (if x <= 0 then 0 else 1)),3,x)) div 3)
1: ((1 + loop(\(x,i).(2x - ((1 - (2 * (i mod 2))) * i)),(x + ~1),0)) div 3)
1: ((loop(\(x,i).(2x - ((if (i mod 2) <= 0 then 1 else 2x) div (1 + i))),x,(x + 1)) + loop(\(x,i).2x,x,1)) div 2)
1: ((1 + loop(\(x,i).(2x - ((2x - (x div (if i <= 0 then 1 else i))) mod 2)),x,2)) div 2)
1: ((x + loop(\(x,i).(2x - (x mod (0 - (if i <= 0 then 1 else i)))),x,1)) div (x + 1))
1: ((loop(\(x,i).(2x - (i mod 2)),(x + ~2),x) + (x mod 2)) div 3)
1: ((x + loop(\(x,i).(x2 + ~1),2,(x + 2))) div 2)
1: ((x + loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),(x + ~2),1)) div 3)
1: ((x + loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),x,1)) div 2)
1: ((1 + loop(\(x,i).(~x + (i mod 2)),x,4)) div 3)
1: ((loop(\(x,i).(x + ~2),(x + ~8),x) + (x div 3)) div 3)
1: ((x + loop(\(x,i).((x + 1) - (2 * (~x - ((x div 4) mod 2)))),x,1)) div 2)
1: ((x + loop(\(x,i).((x + 1) - (2 * ((x div 2) - (2 * (x div 5))))),2,x)) div 2)
1: ((x + loop(\(x,i).((x + 1) - (((~x + ~1) + (2 * (x mod 2))) div 5)),x,1)) div 2)
1: ((1 + loop(\(x,i).((x + 1) - (((2x + 2) mod (2 + (x div 2))) div 2)),x,x)) div 2)
1: ((loop(\(x,i).((x + 1) - (x div (~2 + ((~x + 2) div 4)))),x,0) + (x div 3)) div 2)
1: ((loop(\(x,i).(11x + ~5),x,2) + loop(\(x,i).(3x + 1),x,0)) div 2)
1: ((1 + loop(\(x,i).(x - ((2 - (x mod 2)) * (x div 3))),2,x)) div 2)
1: ((loop(\(x,i).(x - (2 * (~x + (i mod 2)))),x,1) + loop(\(x,i).2x,x,1)) div 3)
1: ((loop(\(x,i).(13x + ~8),x,1) + loop(\(x,i).3x,x,1)) div 2)
1: ((1 + loop(\(x,i).(x - (3 * (x div 4))),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))) div 2)
1: ((2 + loop(\(x,i).(x - (3 * (x div (~2 + (x mod ~2))))),x,1)) div 2)
1: ((x + loop(\(x,i).(x - (((~x + ~1) + (x mod 2)) div 5)),x,1)) div 2)
1: ((1 + loop(\(x,i).(x - ((~x + (x div (if i <= 0 then 1 else i))) div 2)),x,1)) div (x + 2))
1: ((1 + loop(\(x,i).(x - ((~x + ((i mod 3) mod 2)) div 2)),x,1)) div 2)
1: ((1 + loop(\(x,i).(x - ((i - (x div 2)) div 2)),x,1)) div 2)
1: ((x + loop(\(x,i).(x - (((x - (x2 div 4)) div 2) div 5)),2,x)) div 2)
1: ((1 + loop(\(x,i).(x - ((if x <= 0 then (x + ~1) else i) div 3)),x,1)) div 2)
1: ((loop(\(x,i).(x - (x div ~2)),(x div 2),1) + (x div 3)) div 2)
1: ((1 + loop(\(x,i).(x - (x div ~3)),x,1)) div 2)
1: ((1 + loop(\(x,i).(x - (x div ~3)),x,1)) div 3)
1: ((x + loop(\(x,i).(x - (x div ~4)),x,2)) div 2)
1: ((loop(\(x,i).(x - (x div (~2 + (x mod 2)))),x,1) + loop(\(x,i).(3x + ~1),x,1)) div 2)
1: ((loop(\(x,i).(x - (x div (~2 + (x mod 2)))),x,2) + loop(\(x,i).2x,x,1)) div 2)
1: ((1 + loop(\(x,i).(x - (x div (~2 + (x mod ~2)))),x,1)) div 2)
1: ((1 + loop(\(x,i).(x - (4 mod (x + 2))),2,x)) div 2)
1: ((2 + loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)) div 3)
1: ((2 + loop(\(x,i).(x - loop(\(x,i).(x - (if x <= 0 then 1 else (2 * i))),x,x)),1,(3x + 2))) div 3)
1: ((loop(\(x,i).3x,(x + ~1),1) + loop(\(x,i).(~2x + 1),x,0)) div 2)
1: ((loop(\(x,i).3x,(x + ~1),2) + loop(\(x,i).2x,x,1)) div 2)
1: ((x + loop(\(x,i).3x,(x + ~1),x)) div 2)
1: ((x + loop(\(x,i).3x,(2x + 2),1)) div (x + 1))
1: ((loop(\(x,i).3x,((x + 1) div 2),1) + loop(\(x,i).3x,x,1)) div 2)
1: ((x + loop(\(x,i).3x,((x div ~4) div ~2),1)) div 2)
1: ((loop(\(x,i).3x,(x div 2),1) + loop(\(x,i).3x,x,1)) div 2)
1: ((loop(\(x,i).3x,x,2) + loop(\(x,i).2x,x,3)) div 5)
1: ((1 + loop(\(x,i).3x,x,3)) div (3x + 4))
1: ((1 + loop(\(x,i).3x,x,(x + 8))) div 9)
1: ((x + loop(\(x,i).3x,i,x)) div 2)
1: ((1 + loop(\(x,i).(4x + 4),x,((~x + 2) mod 3))) div 3)
1: ((loop(\(x,i).(4x + ~4),(x + ~1),2) + loop(\(x,i).2x,x,1)) div 2)
1: ((x + loop(\(x,i).5x,(x + 1),1)) div (x + 1))
1: ((2 + loop(\(x,i).5x,(x + ~1),x)) div (x + 2))
1: ((loop(\(x,i).5x,2x,1) + loop(\(x,i).3x,2x,1)) div 2)
1: ((loop(\(x,i).5x,((x + 1) div 2),1) + loop(\(x,i).5x,x,1)) div 2)
1: ((1 + loop(\(x,i).5x,((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2),1)) div (1 + ((x + 1) div 2)))
1: ((loop(\(x,i).5x,(x div 2),1) + loop(\(x,i).5x,x,1)) div 2)
1: ((loop(\(x,i).5x,x,1) + loop(\(x,i).3x,2x,1)) div 2)
1: ((loop(\(x,i).5x,x,1) + loop(\(x,i).3x,x,1)) div 2)
1: ((1 + loop(\(x,i).5x,x,2)) div 3)
1: ((loop(\(x,i).5x,x,2) + loop(\(x,i).2x,x,1)) div 3)
1: ((x + loop(\(x,i).(2 * ((x + 1) + (4 * (x + (x mod 2))))),2,x)) div 2)
1: ((1 + loop(\(x,i).(2 * ((x + 2) + (x div 2))),(x div 2),(1 + (2 * (x mod 2))))) div 2)
1: ((1 + loop(\(x,i).(2 * (3x + (if (~2 + i) <= 0 then 1 else 0))),x,1)) div 2)
1: ((x + loop(\(x,i).(x2 + 3x),(x + ~1),1)) div (x + 1))
1: ((x + loop(\(x,i).7x,(x + 1),1)) div (x + 1))
1: ((loop(\(x,i).7x,x,1) + loop(\(x,i).3x,2x,1)) div 2)
1: ((loop(\(x,i).7x,x,1) + loop(\(x,i).5x,x,1)) div 2)
1: ((loop(\(x,i).7x,x,1) + loop(\(x,i).~2x,x,2)) div 3)
1: ((loop(\(x,i).7x,x,1) + loop(\(x,i).6x,x,1)) div loop(\(x,i).5x,x,1))
1: ((x + loop(\(x,i).(6x2 + 8x + 4),2,x)) div 2)
1: ((1 + loop(\(x,i).(2 * (x + (5 * (2x + (x div 2))))),x,1)) div 2)
1: ((1 + loop(\(x,i).(2 * (x + (2 * (x - (x div ~4))))),x,1)) div 2)
1: ((1 + loop(\(x,i).(2 * (6x + (x mod 2))),x,1)) div 2)
1: ((1 + loop(\(x,i).(x * (1 + (i * i * i))),x,1)) div 2)
1: ((loop(\(x,i).(10x + 5),(2x + 1),1) + loop(\(x,i).10x,x,2)) div 2)
1: ((1 + loop(\(x,i).(2x2 + 4),2,1)) div (x + 1))
1: ((1 + loop(\(x,i).(2x2 + 4),(x + (x div 2)),1)) div 2)
1: ((1 + loop(\(x,i).(2 * (x + (3x div (if i <= 0 then 1 else i)))),x,1)) div 2)
1: ((1 + loop(\(x,i).(2 * (x + (5x div (if i <= 0 then 1 else i)))),x,1)) div 2)
1: ((1 + loop(\(x,i).(2 * (x + (7x div (if i <= 0 then 1 else i)))),x,1)) div 2)
1: ((1 + loop(\(x,i).(2 * (x + (6x div (if i <= 0 then 1 else i)))),x,1)) div 2)
1: ((1 + loop(\(x,i).(x * (x + (x div 2))),1,(1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))) div 2)
1: ((x + loop(\(x,i).(2 * (2 + (x div 3))),(~1 + (2x mod (4 + (x div 4)))),1)) div 2)
1: ((x + loop(\(x,i).(2 * (2x + (i mod 2))),(x + ~1),1)) div 3)
1: (((x2 + x) + loop(\(x,i).(2 * (x + (i mod 2))),x,1)) div 2)
1: ((1 + loop(\(x,i).(x * (1 + (if (i mod 2) <= 0 then 4 else 1))),x,1)) div 3)
1: ((1 + loop(\(x,i).(2x + 2),(x + ~1),(if x <= 0 then 1 else ((2 + (loop(\(x,i).3x,(x + ~1),1) + loop(\(x,i).2x,x,1))) div 2)))) div 2)
1: ((x + loop(\(x,i).(2x + 2),(((x + 1) div 2) div 3),1)) div 3)
1: ((1 + loop(\(x,i).(2x + 2),loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1)) div (x + 2))
1: ((1 + loop(\(x,i).(x2 + x),1,(1 + (x div 2) - (2 * (x mod 2))))) div 3)
1: ((1 + loop(\(x,i).(x2 + x),1,x7)) div (x2 + x + 1))
1: ((loop(\(x,i).(x2 + x),1,loop(\(x,i).2x,x,1)) + loop(\(x,i).3x,x,1)) div 2)
1: ((1 + loop(\(x,i).(x2 + x),2,2)) div (x + 1))
1: ((1 + loop(\(x,i).((x + 1) * i),(1 + ((x * (x div 3)) mod (1 + ((2 - (x div 2)) mod 4)))),1)) div 2)
1: ((1 + loop(\(x,i).(2x + 4),((x + 1) div 2),2)) div (2x + 3))
1: ((1 + loop(\(x,i).(2x + 4),(x div 2),(x mod 2))) div 3)
1: ((1 + loop(\(x,i).(2x + 4),x,1)) div 2)
1: ((1 + loop(\(x,i).(x * (1 + i)),(x div 2),(1 + (x mod 2)))) div 2)
1: ((x + loop(\(x,i).((1 + i) * i),(x div 2),2)) div 2)
1: ((1 + loop(\(x,i).(2 * (x + i)),x,(1 + (x mod 2)))) div 2)
1: ((1 + loop(\(x,i).((x + 1) * (x + i)),2,x)) div (x + 1))
1: ((loop(\(x,i).~3x,x,2) + loop(\(x,i).4x,x,1)) div 3)
1: ((1 + loop(\(x,i).(x * (0 - i)),x,1)) div 2)
1: ((1 + loop(\(x,i).(~2x + 2),x,0)) div 3)
1: ((loop(\(x,i).11x,x,1) + loop(\(x,i).3x,2x,1)) div 2)
1: ((loop(\(x,i).11x,x,1) + loop(\(x,i).5x,x,1)) div 2)
1: ((loop(\(x,i).11x,x,1) + loop(\(x,i).7x,x,1)) div 2)
1: ((1 + loop(\(x,i).11x,x,3)) div (x + 1))
1: ((loop(\(x,i).(4x + ~2),x,1) + loop(\(x,i).2x,x,1)) div 2)
1: ((loop(\(x,i).(2 * (2x - (3 * (i mod 2)))),x,2) + loop(\(x,i).2x,x,1)) div 3)
1: ((loop(\(x,i).(2 * (2x - (x div (1 + i)))),(x + ~1),2) + loop(\(x,i).2x,(2x + ~1),1)) div 2)
1: ((loop(\(x,i).(2 * (2x - (x div (1 + i)))),(x + ~1),2) + loop(\(x,i).2x,x,1)) div 2)
1: ((loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),(x div 2),1) + loop(\(x,i).2x,(x + ~1),1)) div 2)
1: ((loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,x) + loop(\(x,i).4x,x,x)) div 2)
1: ((1 + loop(\(x,i).(8 * (2x - (x div (if i <= 0 then 1 else i)))),x,1)) div 2)
1: ((1 + loop(\(x,i).(x * (~1 + (2 * i))),x,(x + 2))) div 3)
1: ((1 + loop(\(x,i).(2 * (~2x + (x div (if i <= 0 then 1 else i)))),x,1)) div 2)
1: ((loop(\(x,i).(3x + ~3),x,2) + loop(\(x,i).2x,x,1)) div 3)
1: ((x + loop(\(x,i).(x2 + ~x),1,(2 - ((~x + 2) div (2 + (x div 2)))))) div 3)
1: ((1 + loop(\(x,i).(x2 + ~x),1,loop(\(x,i).3x,(1 + i),1))) div 3)
1: ((x + loop(\(x,i).(3x + ~6),(x + ~1),x)) div 2)
1: ((1 + loop(\(x,i).(2 * ((x + 2) - (x * (i mod 2)))),x,1)) div 2)
1: ((1 + loop(\(x,i).(2 * (x - (2 * (~1 + (x mod 3))))),x,1)) div 3)
1: ((1 + loop(\(x,i).(2 * (x - (2 * (~1 + (x mod 3))))),x,2)) div 3)
1: ((1 + loop(\(x,i).(2 * (x - (~12x div (x + 2)))),x,1)) div 2)
1: ((x + loop(\(x,i).(3 * (x - (i div ~2))),x,0)) div 2)
1: ((1 + loop(\(x,i).(x * (x - (i mod 2))),2x,3)) div 2)
1: ((1 + loop(\(x,i).10x,(2x + 1),1)) div 3)
1: ((loop(\(x,i).10x,x,1) + loop(\(x,i).8x,x,1)) div 2)
1: ((loop(\(x,i).10x,x,1) + loop(\(x,i).4x,x,1)) div 2)
1: ((loop(\(x,i).10x,x,1) + loop(\(x,i).6x,x,1)) div 2)
1: ((loop(\(x,i).10x,x,2) + loop(\(x,i).4x,x,1)) div 3)
1: ((1 + loop(\(x,i).10x,x,9)) div 2)
1: ((1 + loop(\(x,i).10x,x,9)) div (x + 1))
1: ((1 + loop(\(x,i).10x,x,11)) div 2)
1: ((1 + loop(\(x,i).10x,x,x)) div (x + 1))
1: ((1 + loop(\(x,i).26x,x,9)) div 2)
1: ((1 + loop(\(x,i).(x * ((1 + (4 * i)) * i)),x,1)) div 2)
1: ((1 + loop(\(x,i).(2x * (1 + (2 * i))),x,1)) div (x + 2))
1: ((1 + loop(\(x,i).(4 * (2x + (x div (if i <= 0 then 1 else i)))),x,1)) div (x + 2))
1: ((1 + loop(\(x,i).((2x + 2) * (1 + (x mod 2))),(x div 2),(1 + (2 * (x mod 2))))) div 2)
1: ((1 + loop(\(x,i).((2x + ~1) * ((2 + i) * i)),x,1)) div 2)
1: ((1 + loop(\(x,i).(6 * (4x - (x mod 2))),x,1)) div 2)
1: ((1 + loop(\(x,i).(6 * (2x - (x div (if i <= 0 then 1 else i)))),x,1)) div 2)
1: ((1 + loop(\(x,i).(4 * ((2x - (x div (if i <= 0 then 1 else i))) * (~1 + (2 * i)))),x,1)) div 2)
1: ((2 + loop(\(x,i).(2x * (~1 + (2 * i))),x,x)) div (x + 2))
1: ((1 + loop(\(x,i).(x5 + 5x4 + 6x3),x,1)) div 2)
1: ((x + loop(\(x,i).8x,(x + 1),1)) div (x + 1))
1: ((1 + loop(\(x,i).8x,(x div 2),(1 + (2 * (x mod 2))))) div 3)
1: ((loop(\(x,i).8x,x,1) + loop(\(x,i).6x,x,1)) div 2)
1: ((loop(\(x,i).12x,x,1) + loop(\(x,i).8x,x,1)) div 2)
1: ((1 + loop(\(x,i).10x2,x,2)) div 3)
1: ((1 + loop(\(x,i).3x3,(x + ~1),2)) div 3)
1: ((1 + loop(\(x,i).4x,(x + ~1),(10x + 1))) div 2)
1: ((loop(\(x,i).4x,(x div 2),(2 - (x mod 2))) + (x mod 3)) div 3)
1: ((loop(\(x,i).4x,x,3) + loop(\(x,i).3x,x,2)) div 5)
1: ((x + loop(\(x,i).4x,x,4)) div (x + 1))
1: ((x + loop(\(x,i).6x,(x + 1),1)) div (x + 1))
1: ((loop(\(x,i).6x,((x + 1) div 2),1) + loop(\(x,i).6x,x,1)) div 2)
1: ((loop(\(x,i).6x,x,1) + loop(\(x,i).4x,x,1)) div 2)
1: ((loop(\(x,i).~4x,x,1) + loop(\(x,i).6x,x,1)) div 2)
1: ((1 + loop(\(x,i).3x2,(x + ~1),(x + 1))) div 3)
1: ((loop(\(x,i).3x2,x,1) + loop(\(x,i).2x,x,1)) div 2)
1: ((1 + loop(\(x,i).x3,2,(x + 1))) div 2)
1: ((x2 + loop(\(x,i).x3,2,x)) div 2)
1: ((1 + loop(\(x,i).x3,x,5)) div 3)
1: ((loop(\(x,i).(2x * i),x,1) + (if (x + ~2) <= 0 then x2 else 0)) div 2)
1: ((loop(\(x,i).(2x * i),x,1) + (if (x + ~2) <= 0 then x else 1)) div 2)
1: ((1 + loop(\(x,i).(3x * i),x,1)) div 2)
1: ((1 + loop(\(x,i).(x2 * i),x2,1)) div 2)
1: ((x + loop(\(x,i).((x + 1) * (i * i)),(x + ~1),1)) div 2)
1: ((1 + loop(\(x,i).((x + 1) * ((x2 + 3x + 2) div 2)),1,(x2 + 2x + 1))) div (x + 1))
1: ((1 + loop(\(x,i).((4x div (1 + i)) * (1 + (2 * i))),x,1)) div 2)
1: ((x + loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),x,1)) div (x + 1))
1: ((1 + loop(\(x,i).((2x div (if i <= 0 then 1 else i)) * (4 + i)),x,1)) div 2)
1: ((loop(\(x,i).(2 * (x div (~2 + (i mod 2)))),x,1) + loop(\(x,i).2x,x,1)) div 2)
1: ((1 + loop(\(x,i).((x + 1) * loop(\(x,i).(x2 + x),(x div 4),1)),x,1)) div 2)
1: ((1 + loop(\(x,i).2x,(1 + (x div 2) - (2 * (x mod 2))),2)) div 3)
1: ((1 + loop(\(x,i).2x,(1 + (2 * (2x mod 5))),(x div 2))) div 3)
1: ((1 + loop(\(x,i).2x,(x + (x div 2)),2)) div 3)
1: ((1 + loop(\(x,i).2x,((if (x mod 2) <= 0 then 2 else 0) + (x div 2)),2)) div 3)
1: ((2 + loop(\(x,i).2x,(0 - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)),1)) div 3)
1: ((1 + loop(\(x,i).2x,(~1 + (2 * (x - (3 * (if x <= 0 then 0 else 2))))),1)) div 3)
1: ((x + loop(\(x,i).2x,(~1 + (((x + ~1) div 2) div 2)),x)) div 2)
1: ((x + loop(\(x,i).2x,(~2 + (x div 3)),x)) div 2)
1: ((2 + loop(\(x,i).2x,(x + ~1),1)) div (x + 1))
1: ((2 + loop(\(x,i).2x,(x + ~1),(x + (loop(\(x,i).(x * i),x,2) div (x + 1))))) div 3)
1: ((x + loop(\(x,i).2x,(x + ~1),((x div 2) - ((x + ~1) div 3)))) div 3)
1: ((1 + loop(\(x,i).2x,(x + ~1),(loop(\(x,i).(3x + ~1),x,2) div 2))) div 2)
1: ((1 + loop(\(x,i).2x,(x + ~1),(x2 mod 3))) div 3)
1: ((1 + loop(\(x,i).2x,(x + ~1),(if (x mod 3) <= 0 then 1 else 2))) div 3)
1: ((2 + loop(\(x,i).2x,(x + ~1),(if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + (((x * (~1 + loop(\(x,i).(x2 + x),1,loop(\(x,i).(x * i),x,1)))) div 2) div 3)) div 2)) div 2)))))) div 3)
1: ((loop(\(x,i).2x,(x + ~2),x) + ((x + ~1) * (if x <= 0 then 1 else x))) div 2)
1: ((1 + loop(\(x,i).2x,(x2 + 2x),2)) div 3)
1: ((1 + loop(\(x,i).2x,x2,(if x <= 0 then 1 else (if (x + ~2) <= 0 then x else loop(\(x,i).x3,x,3))))) div 2)
1: ((2x + loop(\(x,i).2x,((x + (x div 3)) div 5),1)) div 2)
1: ((1 + loop(\(x,i).2x,((x + 1) div 2),(2 + (x mod 2)))) div 3)
1: ((2x + loop(\(x,i).2x,((x + ~1) div 2),1)) div 3)
1: ((loop(\(x,i).2x,((x + ~1) div 2),2) + loop(\(x,i).2x,x,1)) div 2)
1: ((1 + loop(\(x,i).2x,((x + ~1) div 2),x)) div 3)
1: ((2 + loop(\(x,i).2x,((x + ~1) div 2),x)) div 2)
1: ((2x + loop(\(x,i).2x,(((x + 1) div 2) div 2),1)) div 3)
1: ((loop(\(x,i).2x,(x div 2),1) + (x div 2)) div (x + 1))
1: ((loop(\(x,i).2x,(x div 2),(2 + (x mod 2))) + loop(\(x,i).2x,x,1)) div 2)
1: ((loop(\(x,i).2x,(x div 2),(~1 + (x mod 2))) + loop(\(x,i).2x,x,1)) div 2)
1: ((x + loop(\(x,i).2x,(x div 2),((x + ~1) div 2))) div 3)
1: ((1 + loop(\(x,i).2x,(if x <= 0 then 2 else (1 + (2 * (x mod 2)))),loop(\(x,i).6x,x,1))) div 5)
1: ((1 + loop(\(x,i).2x,x,1)) div 5)
1: ((1 + loop(\(x,i).2x,x,1)) div (2x + 1))
1: ((1 + loop(\(x,i).2x,x,1)) div (x + 2))
1: ((x + loop(\(x,i).2x,x,1)) div 5)
1: ((1 + loop(\(x,i).2x,x,2)) div (2x + 3))
1: ((x + loop(\(x,i).2x,x,2)) div 2)
1: ((x + loop(\(x,i).2x,x,4)) div (x + 1))
1: ((1 + loop(\(x,i).2x,x,(13 - (x mod 2)))) div 2)
1: ((1 + loop(\(x,i).2x,x,(1 + (x * (~1 + loop(\(x,i).(x * i),2x,1)))))) div 3)
1: ((1 + loop(\(x,i).2x,x,(1 + (if (x mod 3) <= 0 then 2 else 0)))) div 3)
1: ((1 + loop(\(x,i).2x,x,(1 + loop(\(x,i).3x,x,1)))) div 3)
1: ((1 + loop(\(x,i).2x,x,(x + 1))) div 3)
1: ((1 + loop(\(x,i).2x,x,(1 - (x div loop(\(x,i).(x * (0 - i)),x,1))))) div 2)
1: ((1 + loop(\(x,i).2x,x,(x2 mod 3))) div 3)
1: ((1 + loop(\(x,i).2x,x,(if ((x + 1) mod (2 + ((~x + 2) mod 5))) <= 0 then 2 else 0))) div 3)
1: ((1 + loop(\(x,i).2x,x,(if (x mod 3) <= 0 then 1 else 2))) div 3)
1: ((1 + loop(\(x,i).2x,x,(if x <= 0 then 1 else (x + (loop(\(x,i).2x,x,1) div (x + 2)))))) div 2)
1: ((1 + loop(\(x,i).2x,x,(if x <= 0 then 1 else (2 * (1 + ((1 + ((loop(\(x,i).2x,x,(~x3 + loop(\(x,i).5x,(x + 1),1))) div 2) div 2)) div 2)))))) div 3)
1: ((1 + loop(\(x,i).2x,x,(if x <= 0 then 1 else (x * i)))) div 3)
1: ((loop(\(x,i).2x,x,loop(\(x,i).(2x + 2),x,1)) + (if (x + ~1) <= 0 then 2 else 1)) div 2)
1: ((1 + loop(\(x,i).x2,1,(1 + ((~1 + loop(\(x,i).((x + 1) + (((1 + i) * i) div 2)),x,1)) div 2)))) div 2)
1: ((1 + loop(\(x,i).x2,1,(1 + ((2 * (1 + (((1 + (loop(\(x,i).2x,(x + ~8),1) div 2)) div 2) div 2))) div 3)))) div 2)
1: ((2 + loop(\(x,i).x2,1,((x + ((x div 2) mod 2)) div 2))) div 3)
1: ((1 + loop(\(x,i).x2,1,(if x <= 0 then 1 else (2 * (1 - (((x div 2) div ~2) div 2)))))) div 2)
1: ((1 + loop(\(x,i).x2,1,loop(\(x,i).(x + loop(\(x,i).loop(\(x,i).(x * (i * i)),i,x),i,1)),x,1))) div 2)
1: ((1 + loop(\(x,i).x2,2,3)) div (x + 1))
1: ((2 + loop(\(x,i).x2,2,3)) div (x + 1))
1: ((x2 + loop(\(x,i).x2,2,x3)) div 2)
1: ((x2 + loop(\(x,i).x2,2,x2)) div 2)
1: ((x + loop(\(x,i).x2,2,x2)) div 2)
1: ((x + loop(\(x,i).x2,x,2)) div 2)
1: ((2 + loop(\(x,i).x2,x,loop(\(x,i).2x,x,3))) div (4x + 4))
1: ((1 + loop(\(x,i).x2,x,loop(\(x,i).(x * i),x,1))) div 3)
1: ((1 + loop(\(x,i).(x * i),(x + ((x div 2) * (x div 2))),1)) div 2)
1: ((x + loop(\(x,i).(x * i),(x + ~1),1)) div 2)
1: ((x + loop(\(x,i).(x * i),(x div 2),x)) div 2)
1: ((x + loop(\(x,i).(x * i),x,1)) div (x + 1))
1: ((1 + loop(\(x,i).(x * i),x,2)) div (x + 2))
1: ((x2 + loop(\(x,i).(x * i),x,3)) div (x2 + 2))
1: ((1 + loop(\(x,i).(x * i),x,(3x + 1))) div 2)
1: ((x + loop(\(x,i).((4x + 1) div (1 + i)),x,1)) div 2)
1: ((x + loop(\(x,i).((x + (x2 div 3)) div 2),2,x)) div (x + 1))
1: ((1 + loop(\(x,i).((x + i) div (1 + (x div 2))),x,x)) div 2)
1: ((1 + loop(\(x,i).((5 * (3 + (x mod 2))) div (x + 1)),2,2x)) div 2)
1: ((x + loop(\(x,i).((x2 + ~x) div 4),2,(x + ~2))) div (x + 1))
1: ((1 + loop(\(x,i).(24 div (x + 1)),2,(x + 1))) div 2)
1: ((1 + loop(\(x,i).(28 div (x + 1)),2,2x)) div 2)
1: ((1 + loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1)) div 2)
1: ((1 + loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,(3x + 1))) div 2)
1: ((loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,(3x + 1)) + loop(\(x,i).4x,x,1)) div 2)
1: ((x + loop(\(x,i).((x2 * i) div (x + 1)),x,2)) div 2)
1: ((x + loop(\(x,i).(x2 div 2),(x + ~2),loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1))) div 3)
1: ((1 + loop(\(x,i).(x2 div (1 + i)),2,(2x + 2))) div (x + 1))
1: ((1 + loop(\(x,i).(loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2),2,(x + 1))) div 2)
1: ((1 + loop(\(x,i).(x div 2),(x + ~1),loop(\(x,i).(x * (~1 + (2 * i))),x,1))) div 2)
1: ((1 + loop(\(x,i).(x div 2),x,loop(\(x,i).(3x + 1),x,1))) div 2)
1: ((2 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 5)
1: ((1 + loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 6 else 0))),2,x)) div 2)
1: ((1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,(2x + 1))) div 2)
1: ((2 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,(2x + 1))) div 3)
1: ((1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),x,(2x + 1))) div 2)
1: ((1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),x,2x)) div 3)
1: ((1 + loop(\(x,i).(x div (2 - ((x - (x div 8)) mod 2))),x,x)) div 2)
1: ((1 + loop(\(x,i).(x div (2 - ((x * (x div 2)) mod 2))),x,x)) div 2)
1: ((loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) + (loop(\(x,i).(2x + 2),x,0) mod (x + 1))) div 2)
1: ((loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) + (if (x mod 8) <= 0 then x else 1)) div 2)
1: ((loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) + loop(\(x,i).2x,x,2)) div 2)
1: ((1 + loop(\(x,i).(x div (2 - (x mod 2))),x,((x + 1) div 2))) div 3)
1: ((1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)) div 3)
1: ((loop(\(x,i).(x div (~2 + (x mod 2))),x,(x + 1)) + (if x <= 0 then 1 else 4x)) div (x + 2))
1: ((2 + loop(\(x,i).(x div (~2 + (x mod 2))),x,x)) div 2)
1: ((1 + loop(\(x,i).((2x + 1) mod (2 * (2 + (i div 2)))),x,0)) div 2)
1: ((1 + loop(\(x,i).((2 - (2x mod (4 + (x div 4)))) mod (x + 1)),3,x)) div 3)
1: ((x + loop(\(x,i).((x + ~1) mod (1 + (2 * i))),(x + ~1),1)) div 2)
1: ((x + loop(\(x,i).(((x2 + x) div 2) mod 4),2,x)) div 2)
1: ((1 + loop(\(x,i).(if (x + ~2) <= 0 then i else 2x),x,1)) div 2)
1: ((1 + loop(\(x,i).(if (x mod 2) <= 0 then (~4x + 9) else (x div 2)),x,0)) div 2)
1: ((2 + loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),x)) div 3)
1: ((1 + loop(\(x,i).(if x <= 0 then 0 else (2x - ((if (i mod 2) <= 0 then 1 else 2x) div (1 + i)))),x,(x + ~1))) div 2)
1: ((1 + loop(\(x,i).(if x <= 0 then 1 else (x + ((2 * (x mod 2)) + (x div 3)))),x,0)) div 2)
1: ((x + loop(\(x,i).(if x <= 0 then 1 else (x - (if x <= 0 then 1 else (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))),2,x)) div 2)
1: ((1 + loop(\(x,i).(if x <= 0 then 1 else (2 * (~1 + ((x + 2) mod 5)))),2,x)) div 2)
1: ((1 + loop(\(x,i).(if x <= 0 then 1 else (2 * (x - ((x + (x div 3)) div 5)))),x,0)) div (x + 1))
1: ((1 + loop(\(x,i).loop(\(x,i).((x + 1) + (x2 div 3)),x,1),x,1)) div 2)
1: ((1 + loop(\(x,i).loop(\(x,i).(x + ~1),(x * (i div 2)),(x + 1)),x,1)) div 2)
1: ((1 + loop(\(x,i).loop(\(x,i).3x,((x + ~1) div 2),1),(x mod 2),(x div 2))) div 3)
1: ((1 + loop(\(x,i).loop(\(x,i).(x2 + x),(x + ~1),(2x + 1)),x,1)) div 2)
1: ((1 + loop(\(x,i).loop(\(x,i).2x,i,2x),x,2)) div 3)
1: ((loop(\(x,i).loop(\(x,i).2x,i,x),x,1) + loop(\(x,i).2x,x2,1)) div 2)
1: ((x + loop(\(x,i).i,(x + ~8),2)) div 2)
1: ((1 + loop(\(x,i).i,((x + 1) div 5),x)) div 2)
1: ((1 + loop(\(x,i).i,(x div (2 + ((x mod 3) div 2))),x)) div 2)
1: ((x + loop(\(x,i).i,((x div 2) mod 4),2)) div 2)
1: ((x + 1) div (2 + ((((1 + (((x + 1) * (1 + (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))) div 2)) div 2) div 2) + (x mod 2))))
1: ((x + 1) div (5 + ((~x + 1) mod 4)))
1: ((x + 1) div (2 + ((((x - ((x2 + (x div 2)) div 3)) div 2) mod 2) + (x mod 2))))
1: ((x + 1) div (5 + ((x div 2) mod 2)))
1: ((x + 1) div (2 + ((x * (x div 3)) mod (1 + ((2 - (x div 2)) mod 4))) - (x mod 2)))
1: ((x + 1) div (1 + ((4 * (x mod 2)) + (x mod 3))))
1: ((x + 1) div (1 + (((1 + (x div 2)) div 3) + (x mod 3))))
1: ((x + 1) div (4 + ((((x + 1) mod 10) + (x div 4)) div 2)))
1: ((x + 1) div (3 + (((x + 1) - (loop(\(x,i).2x,x,2) mod (x + 1))) div 2)))
1: ((x + 1) div (4 + ((loop(\(x,i).4x,x,1) mod 29) div 3)))
1: ((x + 1) div (3 + (x div 3)))
1: ((x + 1) div (3 + (x div 4)))
1: ((x + 1) div (1 + ((x div 5) + (x mod 3))))
1: ((x + 1) div (1 + ((x div 5) + (x mod 2))))
1: ((x + 1) div (3 + (x div (3 + (x mod 2)))))
1: ((x + 1) div (1 + ((x div (2 + ((x div 2) div (1 + (x mod (2 + ((x mod 3) div 2))))))) + (x mod 2))))
1: ((x + 1) div (1 + ((x div (2 + (x mod (1 + ((x + 1) div (1 + (((2x div (1 + (x div 4))) mod 2) + (x mod 2)))))))) + (x mod 2))))
1: ((x + 1) div (3 + (x div (2 + (x mod 6)))))
1: ((x + 1) div (4 + (x div (4 * (1 + (2 * (x mod 2)))))))
1: ((x + 1) div (3 + (x div (3 * ((1 + (x div 8)) * (1 + (x mod 2)))))))
1: ((x + 1) div (3 + (2 mod (1 + (x div 2)))))
1: ((x + 1) div (4 + ((2x + 1) mod (1 + (2 * (x div 5))))))
1: ((x + 1) div (4 + ((x + 2) mod (2 + (x div 4)))))
1: ((x + 1) div (4 + ((~x2 + 2) mod 5)))
1: ((x + 1) div (2 + (((~x + 2) mod 5) + (x div 3))))
1: ((x + 1) div (4 + ((~3x + 5) mod (1 + (x div 2)))))
1: ((x + 1) div (3 + ((x + ~1) mod 3)))
1: ((x + 1) div (4 + (((x + 4) * ((x + 1) div 2)) mod 7)))
1: ((x + 1) div (4 + ((2 * (1 + (x3 mod 11))) mod (x + 1))))
1: ((x + 1) div (2 + ((2x mod 3) + (x mod 2))))
1: ((x + 1) div (4 + (((x2 + x) div 2) mod 5)))
1: ((x + 1) div (1 + (((x div 2) mod 5) + (x div 3))))
1: ((x + 1) div (2 + (((x div 3) mod 4) + (x div 4))))
1: ((x + 1) div (2 + (((x div ~2) mod 2) + (x div 3))))
1: ((x + 1) div (4 + ((if (x mod 2) <= 0 then (x div 2) else (x2 + 2)) mod (x + 4))))
1: ((x + 1) div (3 + (x mod 3)))
1: ((x + 1) div (2 + (x mod (1 + (2x mod 3)))))
1: ((x + 1) div (2 + ((if (~1 + (x mod 5)) <= 0 then 1 else 2) + (x mod 2))))
1: ((x + 1) div (1 + ((if x <= 0 then 0 else (2 * ((1 + (4 * (x mod 2))) * (1 + (x mod 3))))) + (x mod 2))))
1: ((x + 1) div (2 + (loop(\(x,i).i,(x + ~8),1) + (x mod 2))))
1: ((x + 1) div (2 - (x div ~12)))
1: ((x + 1) div (11 - (x div 2)))
1: ((x + 1) div (4 - (x div 4)))
1: ((x + 1) div (3 - (x div ~7)))
1: ((x + 1) div (3 - ((x * (x div 2)) mod 2)))
1: ((x + 1) div (4 - ((x mod 5) mod 2)))
1: ((x + 1) div (9 - (x div 3)))
1: ((x + 1) div (~x + 17))
1: ((x + 1) div (2 + (x div 2) - (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))))
1: ((x + 1) div ((x + 2) - (3 * (2x div 7))))
1: ((x + 1) div (1 + (2 * (1 + (((((x + 1) div 2) div 2) div 2) + (x mod 2))))))
1: ((x + 1) div (1 + (2 * (1 + (((x div 3) mod 2) + (x div 7))))))
1: ((x + 1) div (1 + (2 * (3 - (x mod 2)))))
1: ((x + 1) div (1 + (2 * (1 + (((2x + 1) mod (2 + (x div (2 + (x mod 2))))) div 2)))))
1: ((x + 1) div (1 + (2 * (1 + ((x2 + 2x + 4) mod 9)))))
1: ((x + 1) div (1 + (2 * (1 + ((1 + ((1 + ((1 + ((1 + ((((x + 1) * (~1 + ((~2x + 2) mod (4 + (x div 4))))) div 2) div 2)) div 2)) div 2)) div 2)) mod 3)))))
1: ((x + 1) div (1 + (2 * (1 + ((x + 1) mod (1 + (x div (3 + (x mod 2)))))))))
1: ((x + 1) div (1 + (2 * (((x + ~1) mod 3) + (x div 4)))))
1: ((x + 1) div (1 + (2 * (1 + ((x + ~1) mod (1 + (x div 5)))))))
1: ((x + 1) div (1 + (2 * (2 + (((x + ~1) * (x div 4)) mod 3)))))
1: ((x + 1) div (1 + (2 * (2 + (2x mod (1 + (x mod 4)))))))
1: ((x + 1) div (1 + (2 * (1 + (x mod (1 + (2 * (x div 5))))))))
1: ((x + 1) div (1 + (2 * (1 + (x mod (2 + ((2x + 1) mod (3 + (x div 4)))))))))
1: ((x + 1) div (1 + ((1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)) * (1 + (x div 8)))))
1: ((x + 1) div (1 + (2 * (2 - ((x mod 3) div 2)))))
1: ((x + 1) div (1 + (2 * (2 - ((x mod (~2 - (x mod 4))) div 2)))))
1: ((x + 1) div (1 + (2 * (2 - ((x div 2) mod 2)))))
1: ((x + 1) div (1 + (2 * (2 - (x mod 2)))))
1: ((x + 1) div (1 + (2 * (4 - (x div 7)))))
1: ((x + 1) div (1 + (2 * ((x mod 2) - (x div (~2 + ((~x + 1) div 3)))))))
1: ((x + 1) div (1 + (2 * ((1 + (x div 4)) div 2))))
1: ((x + 1) div (1 + (2 * ((1 + (x div (2 + (loop(\(x,i).(x * i),x,2) mod (x + 1))))) div 2))))
1: ((x + 1) div (1 + (2 * ((x + 1) div (1 - (2 * ((x div 2) div (1 + (x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4))))))))))))))
1: ((x + 1) div (1 + (3 * (((x + 1) - ((1 + ((x * (x div 2)) div 4)) div 2)) div 2))))
1: ((x + 1) div (1 + (2 * ((2 * (1 + (x div 5))) div (1 + (if (2x mod (4 + (x div 4))) <= 0 then 2 else 0))))))
1: ((x + 1) div (1 + (2 * ((3 * (x div 5)) div 2))))
1: ((x + 1) div (1 + (2 * (((1 + (2 * (1 + (if x <= 0 then 0 else (1 + (((x + 1) div (2 + (x mod 2))) div 2)))))) mod (x + 1)) div 2))))
1: ((x + 1) div (1 + (2 * (((~x + 2) mod (2 + (x div 4))) div 2))))
1: ((x + 1) div (1 + (2 * ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 2))))
1: ((x + 1) div (1 + (2 * (x div (1 + ((x div 2) mod 3))))))
1: ((x + 1) div (1 + (2 * (2 mod (1 + (x div 2))))))
1: ((x + 1) div (1 + (2 * ((x + 1) mod (1 + ((1 + (x div 4)) div 2))))))
1: ((x + 1) div (1 + (3 * ((~x + 1) mod 5))))
1: ((x + 1) div (1 + (2 * (((~x + 1) + (if (~1 + (x mod 3)) <= 0 then x else 2)) mod (x + 1)))))
1: ((x + 1) div (1 + (2 * (((x + 1) * (x div 2)) mod 3))))
1: ((x + 1) div (1 + (2 * ((2 * (x div (~2 + (x mod ~2)))) mod (x + 2)))))
1: ((x + 1) div (1 + (2 * (((~x + 2) mod (3 + (x div 3))) mod 2))))
1: ((x + 1) div (1 + (3 * (x mod 3))))
1: ((x + 1) div (1 + (2 * (x mod 5))))
1: ((x + 1) div (1 + (3 * (x mod 5))))
1: ((x + 1) div (1 + (2 * (x mod (3 * (1 + (x mod 4)))))))
1: ((x + 1) div (1 + (3 * (if (~2 + (x div 2)) <= 0 then 0 else 2))))
1: ((x + 1) div (2 + (2 * (if (~2 + (x div 3)) <= 0 then 1 else 2))))
1: ((x + 1) div (1 + (2 * (if ((x + 1) mod 5) <= 0 then 0 else 2))))
1: ((x + 1) div (1 + (2 * (if ((x + ~1) mod 5) <= 0 then 2 else 1))))
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1: ((x + 1) div (~1 + (2 * ((x + (x div 8)) mod 5))))
1: ((x + 1) div (~1 + (2 * ((x + 2) mod (1 + (2 * (1 + (2 * (2 + ((x2 + 2x) mod 6))))))))))
1: ((x + 1) div (~1 + (2 * ((x2 + ~1) mod 6))))
1: ((x + 1) div (~1 + (2 * (if x <= 0 then 1 else ((3 * (1 + (x mod (2 + (x mod 2))))) + (x mod 2))))))
1: ((x + 1) div (~1 + (((~x + 2) div 2) div 3)))
1: ((x + 1) div (~12 + (x div 2)))
1: ((x + 1) div ((x + ~2) - ((x + ~1) mod 3)))
1: ((x + 1) div ((x + ~2) + (2x mod 5)))
1: ((x + 1) div ((x + 1) - (2 * (~1 + (x mod (3 - (x mod 2)))))))
1: ((x + 1) div ((x + 1) - (2 mod (x + 1))))
1: ((x + 1) div ~8)
1: ((x + 1) div (2 * (1 + ((2 + ((2 * ((3 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 2)) div 3) - (x mod 2)) div 2))))
1: ((x + 1) div (2 * (1 + ((1 + ((x + 1) div (1 + (if (x mod (1 + ((x2 + ~x) mod 8))) <= 0 then 2 else 0)))) div 2))))
1: ((x + 1) div (2 * (1 + ((1 + (loop(\(x,i).(2 + (x div (1 + (2 * (x mod 2))))),1,(1 + (if (~1 + (x mod 3)) <= 0 then x else 2))) div 2)) div 2))))
1: ((x + 1) div (2 * (1 + ((1 + (x div (2 + ((2 - (x div 5)) mod 5)))) div 2))))
1: ((x + 1) div (2 * (2 + ((2 + (x mod (1 + (2 * (16 mod (x + 1)))))) div 3))))
1: ((x + 1) div (2 * (1 + ((1 + (x mod (1 + ((2 - (x div 2)) mod 6)))) div 2))))
1: ((x + 1) div (2 * (1 + ((1 + (x mod (1 + (if x <= 0 then 0 else (1 + (x div (1 + (2 * (1 + (((x2 + ~x + 2) mod (x + 4)) div 2)))))))))) div 2))))
1: ((x + 1) div ((2 + ((x + ~2) div (2 + (x div 4)))) * (1 + (x mod 2))))
1: ((x + 1) div (2 * (2 + (x div (1 + (x mod 4))))))
1: ((x + 1) div (2 * (2 + (x div (3 * (2 + ((x2 + 4x + 4) mod 8)))))))
1: ((x + 1) div (2 * (1 + ((x + 3) mod (1 + (x div 4))))))
1: ((x + 1) div (3 * (2 + ((x + 3) mod 8))))
1: ((x + 1) div (2 * (((~1 + (x div 2)) mod 3) + (x div 2))))
1: ((x + 1) div (2 * (2 + ((2 * (2 - (x div (~1 + ((~x + 2) div 4))))) mod (x + 1)))))
1: ((x + 1) div (2 * (1 + (2x mod (1 + (2 * (2 - (x mod ~7))))))))
1: ((x + 1) div (2 * (1 + (x2 mod (2 * (1 + (x div 5)))))))
1: ((x + 1) div (2 * (2 + (((x2 + ~1) div 2) mod 4))))
1: ((x + 1) div (2 * (2 + ((x div 2) mod 2))))
1: ((x + 1) div (3 * (2 + ((x div 2) mod 5))))
1: ((x + 1) div (5 * (1 + (x mod 3))))
1: ((x + 1) div (2 * (1 + (x mod (4 + ((x div 2) div 3))))))
1: ((x + 1) div (2 * (1 + (x mod (1 + (x mod (3 + (x mod 2))))))))
1: ((x + 1) div (5 * (1 + (x mod (1 + (x mod (1 + (x mod 4))))))))
1: ((x + 1) div (2 * (2 + (x mod (2 + (x mod (2 - ((x div 4) div ~2))))))))
1: ((x + 1) div (3 * (1 + (x mod (3 * (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 8)))))))
1: ((x + 1) div (2 * (1 + (x mod (2 * (2 - (x mod 2)))))))
1: ((x + 1) div (2 * (2 - ((x div 4) mod 2))))
1: ((x + 1) div (3 * ((if (x mod 2) <= 0 then 2 else x) mod 4)))
1: ((x + 1) div (2 * (if (x mod (1 + (((x + 1) div 2) div 3))) <= 0 then 1 else 2)))
1: ((x + 1) div ((2x + 2) div (2 + (x div (1 + (if (x mod 2) <= 0 then 6 else 1))))))
1: ((x + 1) div (if (1 + ((x div (1 + (2x mod 3))) mod 2) - (x mod 2)) <= 0 then (3x + 3) else 1))
1: ((x + 1) div (if (2 - (x div 2)) <= 0 then (1 + (x mod (1 + (x mod (3 + (x mod 2)))))) else 1))
1: ((x + 1) div (if (~2 + (x div 3)) <= 0 then 1 else 2))
1: ((x + 1) div (if (x + ~2) <= 0 then 1 else 4))
1: ((x + 1) div (if (x + ~2) <= 0 then 1 else (2 + (if (x mod 8) <= 0 then 2 else 0))))
1: ((x + 1) div (if (x + ~2) <= 0 then 1 else (2 * (1 + (if (x + ~4) <= 0 then 0 else 2)))))
1: ((x + 1) div (if ((1 + (x div 3)) mod 3) <= 0 then ((x + ~1) mod 4) else 1))
1: ((x + 1) div (if ((x + 1) mod (4 + (if (x mod 2) <= 0 then 1 else 8))) <= 0 then 4 else 1))
1: ((x + 1) div (if ((x + 2) mod 5) <= 0 then ((x + ~1) div 2) else 1))
1: ((x + 1) div (if (10 mod (x + 1)) <= 0 then 2 else 1))
1: ((x + 1) div (if (x mod 2) <= 0 then 1 else (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) + (2 * (x div 4)))))
1: ((x + 1) div (if (x mod 4) <= 0 then 5 else (2 - ((x div 2) mod 2))))
1: ((x + 1) div (if (x mod 4) <= 0 then (1 + (x mod 10)) else x))
1: ((x + 1) div (if (x mod (3 * (1 + ((x div 2) div (1 + (x mod (2 * (1 + (x mod 2))))))))) <= 0 then 2 else 1))
1: ((x + 1) div (if x <= 0 then 1 else (2 + ((2 * ((~2x + 2) mod (4 + (x div 4)))) div 3))))
1: ((x + 1) div (if x <= 0 then 1 else (~1 + (6 * (1 + (((x + (if (~2 + (x div 4)) <= 0 then 1 else 2)) div 2) mod 2))))))
1: ((x + 1) div (if x <= 0 then 1 else (~1 + (6 * (if (x mod (1 + ((x + ~1) mod 4))) <= 0 then 1 else 2)))))
1: ((x + 1) div (if x <= 0 then 1 else (x - (2 * (x mod 6)))))
1: ((x + 1) div (if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + ((x5 mod 17) div 2)) div 2)) div 2)))))
1: ((x + 1) div (if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + (x div (1 + ((x + 1) mod (2 * (1 + (x mod (2 + (x mod 2))))))))) div 2)) div 2)))))
1: ((x + 1) div (if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + loop(\(x,i).(x div (2 - ((x - (x div 8)) mod 2))),x,x)) div 2)) div 2)))))
1: ((x + 1) div (if x <= 0 then 1 else (2 * (1 + ((1 + ((20 mod (x + 1)) div 2)) div 2)))))
1: ((x + 1) div (if x <= 0 then 1 else (2 * (1 + ((1 + ((loop(\(x,i).2x,x,(1 + (x div 8))) mod (x + 1)) div 2)) div 2)))))
1: ((x + 1) div (if x <= 0 then 1 else (2 * (1 + ((1 + (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) mod (2x + 3))) div 2)))))
1: ((x + 1) div (if x <= 0 then 1 else (2 * (1 + ((x + 1) div (4 + (((x2 + x) div 2) mod 5)))))))
1: ((x + 1) div (if x <= 0 then 1 else (2 * (2 + ((x mod (2 + (x mod 3))) div 2)))))
1: ((x + 1) div (if x <= 0 then 1 else (2 * (2 + (x div 8)))))
1: ((x + 1) div (if x <= 0 then 1 else (2 * (1 + ((x2 + ~x + 2) mod 10)))))
1: ((x + 1) div (if x <= 0 then 1 else (2 * (1 + ((1 - (2 * ((x div 2) mod 2))) mod (1 + (x div 2)))))))
1: ((x + 1) div (if x <= 0 then 1 else (2 * (2 + (((x - (x2 div 3)) div 2) mod 2)))))
1: ((x + 1) div (if x <= 0 then 1 else (2 * (2 + ((x div 4) mod (1 + (x mod 3)))))))
1: ((x + 1) div (if x <= 0 then 1 else (2 * (1 + ((if (x mod (2 + (x mod 2))) <= 0 then 1 else x) mod (1 + (x div 4)))))))
1: ((x + 1) div (if x <= 0 then 1 else (2 * (2 + (loop(\(x,i).x2,2,(x + 9)) mod 7)))))
1: ((x + 1) div (if x <= 0 then 1 else (4 * (1 + (~x mod 4)))))
1: ((x + 1) div (if i <= 0 then 1 else i))
1: ((x + 1) div loop(\(x,i).(2 + (x div 2)),(x + ~2),1))
1: ((x + 1) div loop(\(x,i).(x - loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),i,x)),x,2))
1: ((x + 1) div loop(\(x,i).(x * (2 - (x mod 4))),1,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))
1: ((x + 1) div loop(\(x,i).2x,((2 + loop(\(x,i).x2,2,3)) mod (x + 1)),1))
1: ((x + 1) div loop(\(x,i).(loop(\(x,i).(x * loop(\(x,i).(2x2 + ~1),2,2)),2,x) mod (x + 1)),2,(x + 1)))
1: ((x + 1) div loop(\(x,i).i,loop(\(x,i).(x div (1 + (x mod 2))),x,x),1))
1: ((x + 2) div (5 + ((x * (x div 2)) mod 2)))
1: ((x + 2) div (5 + ((x div 2) mod 2)))
1: ((x + 2) div (6 - (x div 4)))
1: ((x + 2) div (1 + ((2 * (1 + (x mod 2))) + (x mod 3))))
1: ((x + 2) div (4 + ((3 * ((1 + (x mod (2 * (if (x mod 4) <= 0 then 4 else 1)))) div 2)) div 2)))
1: ((x + 2) div (3 + ((x mod (1 + (x div 4))) div 2)))
1: ((x + 2) div (3 + (x div (2 + (x mod 2)))))
1: ((x + 2) div (3 + ((~x + 1) mod 4)))
1: ((x + 2) div (4 + ((x + ~1) mod 5)))
1: ((x + 2) div (1 + ((2x mod 3) + (if x <= 0 then 1 else 2))))
1: ((x + 2) div (2 + (((x div 2) mod 2) + (x mod 3))))
1: ((x + 2) div (4 + ((x div 3) mod 2)))
1: ((x + 2) div (2 + (((x div 4) mod 2) + (x mod 2))))
1: ((x + 2) div (3 + ((x mod (2 + (x mod 2))) mod 2)))
1: ((x + 2) div (4 + (x mod 3)))
1: ((x + 2) div (2 + ((if ((x + ~2) mod 5) <= 0 then 0 else 1) + (x mod 2))))
1: ((x + 2) div (1 + ((if x <= 0 then 1 else (2 * (1 + (4 * (x mod 3))))) + (x mod 2))))
1: ((x + 2) div (3 - (x div ~7)))
1: ((x + 2) div (4 - (((x + 3) mod 7) mod 2)))
1: ((x + 2) div (4 - ((x mod 3) mod 2)))
1: ((x + 2) div (3 - (x mod 2)))
1: ((x + 2) div (2 + (if x <= 0 then 0 else 1) - (x mod 2)))
1: ((x + 2) div (9 - (x div 3)))
1: ((x + 2) div (1 + loop(\(x,i).i,((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),1) - (x mod 2)))
1: ((x + 2) div ((x + 1) - (((~x + ~1) + (x2 div 4)) div 3)))
1: ((x + 2) div (1 + (2 * (3 - (x mod 2)))))
1: ((x + 2) div (1 + (2 * (1 + (x div (4 + (x mod 2)))))))
1: ((x + 2) div (1 + (2 * (2 + ((1 + ((x2 + (x div 2)) div 2)) mod 3)))))
1: ((x + 2) div (1 + (2 * (2 + ((x mod (2 + (x div 3))) mod 2)))))
1: ((x + 2) div (1 + (2 * ((2 + ((~1 + (2 * ((if (x mod 3) <= 0 then 1 else (((x + 1) div 2) - ((3 * (x div 4)) div 2))) + (x mod 2)))) mod (x + 1))) div 2))))
1: ((x + 2) div (1 + (2 * (x div 5))))
1: ((x + 2) div (2 + (3 * (x div (1 + (x div 3))))))
1: ((x + 2) div (1 + (2 * ((x + ~1) mod 5))))
1: ((x + 2) div (1 + (2 * ((x div 2) mod 2))))
1: ((x + 2) div (1 + (2 * (x mod 2))))
1: ((x + 2) div (1 + (2 * (if (~4 + (x div 2)) <= 0 then 2 else 1))))
1: ((x + 2) div (2 + (3 * (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1))))
1: ((x + 2) div (1 + ((1 + ((~2x + 2) mod (4 + (x div 4)))) div 3)))
1: ((x + 2) div (1 + ((x + 1) div (1 + (x div (2 + (x mod (2 * (1 + (2 * (x mod 2)))))))))))
1: ((x + 2) div (1 + ((x + 2) div (2 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2)))))
1: ((x + 2) div (1 + (3x div 5)))
1: ((x + 2) div (1 + ((2 * (1 + ((1 + (x div (1 + (x mod (1 + ((1 + (if ((x + ~1) mod 3) <= 0 then 1 else x) - (x mod 2)) mod (x + 1))))))) div 2))) div 3)))
1: ((x + 2) div (2 + ((2x + ~2) div (2 + (x div 2)))))
1: ((x + 2) div (2 + ((3 * (x div (3 + (x mod 2)))) div 2)))
1: ((x + 2) div (1 + (2x div 3)))
1: ((x + 2) div (1 + (x2 div 2)))
1: ((x + 2) div (1 + ((((x + 1) + (x div 2)) div 2) div 2)))
1: ((x + 2) div (1 + (((1 + (x div 2)) div 2) div 2)))
1: ((x + 2) div (2 + (((x + ~1) div 2) div 3)))
1: ((x + 2) div (2 + ((((x + 1) div 2) div 2) div 2)))
1: ((x + 2) div (2 + ((x div 2) div (1 + ((x mod 3) div 2)))))
1: ((x + 2) div (2 + ((x div 2) div (1 + (x mod 2)))))
1: ((x + 2) div (2 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))
1: ((x + 2) div (2 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2)))
1: ((x + 2) div (1 + ((loop(\(x,i).2x,x,(~x + 2)) mod (x + 2)) div 3)))
1: ((x + 2) div (2 + (x div (3 + (x mod (3 + (x mod 2)))))))
1: ((x + 2) div (2 + (x div (4 - ((x div 2) mod 2)))))
1: ((x + 2) div (2 + (x div (2 + (if (x mod 2) <= 0 then (x div 4) else 2)))))
1: ((x + 2) div (2 + (x div 8)))
1: ((x + 2) div (2 + (x div (2 * (2 + (x mod 2))))))
1: ((x + 2) div (2 + (x div (2 * (2 - (x mod 2))))))
1: ((x + 2) div (2 + ((1 + (2 * (1 + (2 * (x mod 2))))) mod (x + 1))))
1: ((x + 2) div (1 + ((x + ((x + 1) mod 3)) mod 4)))
1: ((x + 2) div (2 + ((1 + ((((~2 + (x div 2)) * (x div 2)) mod (x + 1)) mod 2)) mod (x + 1))))
1: ((x + 2) div (2 + ((1 + (x mod ~8)) mod (x + 1))))
1: ((x + 2) div (1 + ((1 + (if x <= 0 then 1 else x)) mod 3)))
1: ((x + 2) div (1 + ((x + 2) mod 4)))
1: ((x + 2) div (1 + ((x + 2) mod (1 + (x div (2 + ((x + 1) mod 3)))))))
1: ((x + 2) div (1 + ((1 - (x div 2)) mod 4)))
1: ((x + 2) div (2 + ((~x + 1) mod 3)))
1: ((x + 2) div (2 + ((~x + 2) mod 8)))
1: ((x + 2) div (2 + ((((3 * (x div 4)) div 2) - (x div 2)) mod 5)))
1: ((x + 2) div (1 + ((x2 + x) mod 3)))
1: ((x + 2) div (2 + (((~x + 2) div 2) mod 5)))
1: ((x + 2) div (2 + (((x + ~2) div 3) mod 2)))
1: ((x + 2) div (2 + ((x2 div 4) mod (3 + (x mod 2)))))
1: ((x + 2) div (2 + (((x mod (1 + (x div 2))) div 2) mod 2)))
1: ((x + 2) div (2 + ((x div 2) mod 6)))
1: ((x + 2) div (1 + (((1 + (x mod ~4)) mod (1 + (x div 3))) mod 2)))
1: ((x + 2) div (1 + ((if (x + ~2) <= 0 then 1 else x) mod 3)))
1: ((x + 2) div (2 + (loop(\(x,i).4x,(x + 3),1) mod (x + 1))))
1: ((x + 2) div (2 + (loop(\(x,i).2x,(2 - ((~x + 2) div 5)),1) mod (x + 1))))
1: ((x + 2) div (2 + (loop(\(x,i).2x,x,x) mod (x + 1))))
1: ((x + 2) div (2 + (x mod 3)))
1: ((x + 2) div (1 + (x mod 4)))
1: ((x + 2) div (1 + (x mod 5)))
1: ((x + 2) div (2 + (x mod 5)))
1: ((x + 2) div (2 + (x mod (3 - (x mod 2)))))
1: ((x + 2) div (2 + (x mod (2 + (x div 4)))))
1: ((x + 2) div (2 + (x mod (2 + (x div (2 * (2 + (x mod 2))))))))
1: ((x + 2) div (2 + (x mod (2 + ((x + 2) mod (2 + (x mod 2)))))))
1: ((x + 2) div (1 + (i mod 2)))
1: ((x + 2) div (2 + (if (~x + 2) <= 0 then 2 else 1)))
1: ((x + 2) div (2 + (if (~4 + (x div 2)) <= 0 then 2 else 1)))
1: ((x + 2) div (2 + (if (~2 + (x div 4)) <= 0 then 1 else 2)))
1: ((x + 2) div (1 + (if (~1 + (x mod 3)) <= 0 then x else 3)))
1: ((x + 2) div (2 + (if ((2 - (x div 5)) mod 4) <= 0 then 2 else 1)))
1: ((x + 2) div (2 + (if ((~x + 2) mod 4) <= 0 then 1 else (x div 4))))
1: ((x + 2) div (2 + (if ((x mod 3) mod 2) <= 0 then (x div 3) else 1)))
1: ((x + 2) div (2 + (if (x mod 2) <= 0 then 1 else 8)))
1: ((x + 2) div (1 + (if (x mod 2) <= 0 then ((x mod 3) div 2) else 2)))
1: ((x + 2) div (1 + (if (x mod 2) <= 0 then (x div 3) else 0)))
1: ((x + 2) div (2 + (if (x mod 2) <= 0 then (if (x mod 3) <= 0 then 1 else x) else 2)))
1: ((x + 2) div (1 + (if (x mod 3) <= 0 then 2 else 0)))
1: ((x + 2) div (1 + (if (x mod 6) <= 0 then 2 else (x mod 2))))
1: ((x + 2) div (1 + (if x <= 0 then 2 else loop(\(x,i).(x div (2 - (x mod 2))),x,x))))
1: ((x + 2) div (1 + loop(\(x,i).(1 + (if (x mod 2) <= 0 then 6 else 1)),(x div 2),(x mod 2))))
1: ((x + 2) div (1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 2 else 0)),x,x)))
1: ((x + 2) div (1 + loop(\(x,i).(if (x div 2) <= 0 then (1 + (2 * i)) else (x div 2)),x,1)))
1: ((x + 2) div (1 + i))
1: ((x + 2) div (~2 - (x div 4)))
1: ((x + 2) div (1 - (2 * (x mod 5))))
1: ((x + 2) div (2 + (if (~2 + (x div 3)) <= 0 then 1 else 2) - (x mod 2)))
1: ((x + 2) div (~x + 18))
1: ((x + 2) div (2 - (x * (x mod 2))))
1: ((x + 2) div (2 - ((1 - (x div 2)) div 3)))
1: ((x + 2) div (2 - (x div (~1 - (x2 mod 5)))))
1: ((x + 2) div (2 - ((x div 2) mod 2)))
1: ((x + 2) div (2 - (x mod ~5)))
1: ((x + 2) div (2 + (x div 2) - (x div 3)))
1: ((x + 2) div (~3 + (x div ~7)))
1: ((x + 2) div (8 - ((x + 1) div 3)))
1: ((x + 2) div (8 - (x div 3)))
1: ((x + 2) div (~1 + ((2 + (x div 8)) * (2 + (x mod 2)))))
1: ((x + 2) div (~1 + (3 * (8 - (x div 2)))))
1: ((x + 2) div (~x + (6 * (2 + (x div 8)))))
1: ((x + 2) div (~1 + (2 * (x mod 4))))
1: ((x + 2) div (~10 + ((x + 1) div 2)))
1: ((x + 2) div (~2 + ((~x + 1) div (x + 2))))
1: ((x + 2) div (~12 + ((x + ~1) div 2)))
1: ((x + 2) div (~1 + ((x div 2) div ~2)))
1: ((x + 2) div (~1 + (x div (~2 + ((~x + 1) div 2)))))
1: ((x + 2) div (~8 + (x mod 8)))
1: ((x + 2) div (~6 + (if (x mod 2) <= 0 then 1 else x)))
1: ((x + 2) div ((x + ~1) - (2 * (1 + ((x div 2) mod 2)))))
1: ((x + 2) div ((x + ~1) - (x mod 3)))
1: ((x + 2) div (x - (2 * (1 + ((x div 2) mod 2)))))
1: ((x + 2) div (x + ~16))
1: ((x + 2) div (x - ((x + ~1) mod 4)))
1: ((x + 2) div ((1 + (3 * (2x mod 3))) * (1 + (if x <= 0 then 1 else 2))))
1: ((x + 2) div (3 * (1 + (2 * (x mod (8 - (x mod 2)))))))
1: ((x + 2) div (2 * (1 + ((1 + ((1 + (((x + 1) * (1 + (2 * ((x + 2) mod (1 + (2 * (2x mod 3))))))) div 2)) div 2)) div 2))))
1: ((x + 2) div ((2 + (x div 5)) * (1 + (x mod 2))))
1: ((x + 2) div (3 * (2 + ((~x + 4) mod 6))))
1: ((x + 2) div (2 * (2 + (((x + 4) - ((~1 + (x div 2)) div 2)) mod (x + 1)))))
1: ((x + 2) div (2 * (2 + (x mod 4))))
1: ((x + 2) div (2 * (1 + (x mod (2 * ((~1 + (6 * (1 + ((1 + (x mod (1 + (2 * (if (16 mod (x + 1)) <= 0 then 1 else 2))))) div 3)))) div 2))))))
1: ((x + 2) div (4 * (2 + (x mod 2))))
1: ((x + 2) div (if (~x + 2) <= 0 then 2 else 1))
1: ((x + 2) div (if (~2 + (x div 2)) <= 0 then 1 else 2))
1: ((x + 2) div (if (x + ~2) <= 0 then 1 else (2 * (1 + (x div 8)))))
1: ((x + 2) div (if (x + ~2) <= 0 then 2 else 1))
1: ((x + 2) div (if ((x + 2) mod 16) <= 0 then 2 else 1))
1: ((x + 2) div (if ((~x + 1) mod 8) <= 0 then x else 2))
1: ((x + 2) div (if ((x div 2) mod 2) <= 0 then ~2 else 2))
1: ((x + 2) div (if ((x div 2) mod 5) <= 0 then 3 else x))
1: ((x + 2) div (if (((2x + ~4) mod (x + 2)) mod 4) <= 0 then 2 else 1))
1: ((x + 2) div (if (x mod 2) <= 0 then ~2 else 1))
1: ((x + 2) div (if (if (x mod 3) <= 0 then x else 0) <= 0 then 2 else 1))
1: ((x + 2) div (if x <= 0 then 1 else (2 + (((x div 3) mod 2) + (x mod 2)))))
1: ((x + 2) div (if x <= 0 then 1 else (x - loop(\(x,i).2x,((((1 + (8 mod (1 + (x div 2)))) div 2) + (if x <= 0 then 0 else 1)) - (x mod 2)),2))))
1: ((x + 2) div loop(\(x,i).(1 + (i div (x + 2))),x,1))
1: ((x + 2) div loop(\(x,i).2x,(1 + ((loop(\(x,i).2x,(x div 2),1) + (x div 2)) div (x + 1))),1))
1: ((x + i) div 5)
1: ((x + i) div (4 + (x div 4)))
1: ((x + i) div (1 + (x div 2)))
1: ((x + i) div (2 + (x mod 2)))
1: ((x + i) div ~2)
1: ((x + i) div (~2 + (((~x + 2) div 2) div 3)))
1: ((1 + compr(\x.(1 - (x mod (1 + (4 * (x mod (2 + ((~x + 2) mod 4))))))),x)) div 2)
1: ((2 + compr(\x.(1 - loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),(x div 2),(x2 + 4x))),(x + 1))) div 2)
1: ((2 + compr(\x.(~1 + ((3 * ((2x + 1) - ((x div 4) mod 2))) mod 5)),x)) div 3)
1: ((2 + compr(\x.((x2 + 2x + 2) mod (5 * (~1 + (2 * (6 + (x mod 2)))))),x)) div 2)
1: ((2 + compr(\x.((2x + 1) mod (1 + (2x mod (2 + (x div 4))))),x)) div 2)
1: ((1 + compr(\x.((1 + ((4 * (1 + ((x + 1) div (2 + (x div 8))))) div 3)) mod 3),x)) div 2)
1: ((1 + compr(\x.(((((1 + (x div 2)) div 2) * (x div 2)) div 2) mod 3),x)) div 2)
1: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) div (if (x + ~3) <= 0 then 1 else 10))
1: ((3 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) div 7)
1: ((x + (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + (((x + ~1) div 2) mod 2))) div 4)
1: ((compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + ((~1 + loop(\(x,i).2x,x,2)) div (x + 3))) div 2)
1: ((compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + loop(\(x,i).2x,x,1)) div 2)
1: ((1 + compr(\x.(loop(\(x,i).(x2 + 2x),3,2) mod (x + 1)),x)) div 2)
1: ((x + compr(\x.(x mod (1 + (x div 8))),x)) div 2)
1: ((1 + compr(\x.loop(\(x,i).((if x <= 0 then 2 else loop(\(x,i).(x div (2 - (x mod 2))),x,x)) div 2),2,x),(x + 1))) div 2)
1: ((1 + compr(\x.loop(\(x,i).(x div (if (x mod 2) <= 0 then 4 else 1)),x,2x),(x + 1))) div 2)
1: ((1 + compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(13x + 4)),x)) div 2)
1: ((~1 - (2 * (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))) div 5)
1: ((~x - ((x + (x2 div 4)) div 4)) div 2)
1: ((~x - (if (~4 + (x div 2)) <= 0 then 1 else x)) div 5)
1: ((~2 - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) div 2)
1: ((0 - (2 * (1 + (2 * (x + (x mod 2)))))) div 5)
1: ((0 - ((x + 1) * (x + (x div 2)))) div 2)
1: ((~x2 + ~x) div 5)
1: (~24x div (x + 1))
1: ((0 - (((x div 2) + i) div 2)) div 3)
1: ((0 - ((x - ((1 + (x div 2)) mod 4)) div 2)) div 2)
1: ((0 - ((x - ((1 + (x div 2)) mod 8)) div 2)) div 2)
1: ((0 - ((x - ((x div 2) mod ~4)) div 2)) div 2)
1: ((0 - ((5 * (x + (x div 7))) div 2)) div 2)
1: ((0 - ((x2 + 2x) div 4)) div 2)
1: ((0 - ((x2 + 2x) div 4)) div 5)
1: ((0 - ((x2 + ~2x) div 8)) div 3)
1: ((0 - ((x3 + 2x2) div 2)) div 2)
1: ((0 - ((((1 + (x div 2)) div 2) * (x div 2)) div 2)) div 2)
1: ((0 - ((((x + ~1) div 2) * (x div 2)) div 2)) div 2)
1: ((0 - (x2 div 3)) div 7)
1: ((0 - (x2 div 4)) div 7)
1: ((0 - (x2 div (x + 10))) div 2)
1: ((0 - (((x + (x2 div 4)) div 2) div 3)) div 2)
1: ((0 - (((x * (((x + ~1) div 2) div 2)) div 2) div 2)) div 3)
1: ((0 - (loop(\(x,i).(x * (~1 + (2 * i))),(x + ~2),1) div 2)) div 2)
1: ((0 - (x div (2 + (if (~2 + (x div 3)) <= 0 then 2 else 0)))) div 2)
1: ((0 - (x div (~x + 18))) div 2)
1: ((0 - (x div (if (x + ~2) <= 0 then 1 else 2))) div 2)
1: ((0 - ((2x + 1) mod (2 + (x div 4)))) div 2)
1: ((0 - ((1 + (x div 2)) mod 4)) div 2)
1: ((0 - ((2 + (x mod 8)) mod (x + 1))) div 2)
1: ((0 - ((~x + 1) mod 5)) div 2)
1: ((0 - (2x mod 5)) div 3)
1: ((0 - (2x mod (4 + (x div 4)))) div (1 + ((x2 div 2) mod (3x + 1))))
1: ((0 - (x2 mod (x + 4))) div (x + 1))
1: ((0 - (x2 mod (x - ((~x + 2) div 2)))) div 2)
1: ((0 - (((~x + 2) div 2) mod 4)) div 2)
1: ((0 - ((x2 div 4) mod (x + 1))) div 3)
1: ((0 - ((x div 2) mod (~1 + ((~x + 1) div 3)))) div 2)
1: ((0 - (loop(\(x,i).(2x + 2),x,0) mod (x + 1))) div 5)
1: ((0 - (x mod (~2 + ((~x + 2) div 4)))) div 2)
1: ((0 - (x mod ((x + ~2) - (x mod 11)))) div 2)
1: ((0 - (if (~x + 2) <= 0 then (x2 div 3) else 1)) div 3)
1: ((0 - (if (~2 + (x div 2)) <= 0 then x else 1)) div 2)
1: ((0 - (if (~2 + (x div 4)) <= 0 then 2 else x)) div 4)
1: ((0 - loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,1)) div 5)
1: ((0 - loop(\(x,i).(x * i),x,1)) div (x + 2))
1: ((0 - loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1)) div 2)
1: ((0 - compr(\x.(1 - (x mod (1 + ((~x2 + x) mod 8)))),x)) div 3)
1: (((~x + 1) - (6 * (x div 8))) div 3)
1: ((~1 - (4x2 div 5)) div 3)
1: (((~2x + 1) - (x2 div 3)) div 2)
1: (((~x + 1) - (x2 div 5)) div 3)
1: (((~x + 1) - (x2 div ~7)) div 2)
1: (((~x + 1) - ((x div 5) mod 3)) div 3)
1: (((~x + 1) - i) div 5)
1: (((~2x + ~1) + (x div 7)) div 3)
1: (((~2x + 1) + (x div (1 + i))) div 2)
1: (((~2x + 1) + (x mod 2)) div 3)
1: ((1 + (x mod 8) - (~x mod 5)) div (x + 1))
1: ((1 + ((2 + (((x div 3) * (x div 2)) div 2)) div 3) - (x mod 2)) div (1 + (2 * (x mod 2))))
1: (((~x + 1) + (3 * ((5x + 10) + (x div 2)))) div 2)
1: ((5x + 13) div 2)
1: ((19x + 1) div (x + 4))
1: (((~x + 1) + (2 * ((~2x + 1) div 3))) div 3)
1: (((~x + 1) + (2 * ((~x + 1) div 3))) div 3)
1: (((~x + 1) + (x div 3)) div 3)
1: ((1 - (2 * (2 + ((x - ((x div 2) div 3)) div 2)))) div 3)
1: ((1 - (2 * (x + (if (~4 + (x div 2)) <= 0 then 2 else 0)))) div 3)
1: ((1 - (2 * (x + (if (x + ~2) <= 0 then 1 else x)))) div (x + 1))
1: ((~x2 + ~x + 1) div 11)
1: ((~x2 + ~2x + 1) div (x + 16))
1: ((1 - (2 * (x - ((~x + 1) div 3)))) div 3)
1: ((1 - (2 * (x - ((~x + 2) div 5)))) div 3)
1: ((~10x + 1) div (1 + i))
1: ((1 - (2 * ((2x + 1) div 3))) div 3)
1: ((1 - (2 * ((x + (x mod 2)) div 3))) div 3)
1: ((1 - (x * (((x + 1) div 2) div 2))) div 5)
1: ((1 - (2 * (((x mod 13) mod 3) mod 2))) div (1 + (x mod 2)))
1: ((1 - (2 * (if x <= 0 then 1 else x))) div 5)
1: ((~2x + 1) div (4 + (x div 7)))
1: ((~2x + 1) div (1 + (2 * (2 + (x mod 2)))))
1: ((~2x + 1) div (2 + (x div 2)))
1: ((~2x + 1) div (12 - (x div 2)))
1: ((~x2 + 1) div 5)
1: ((~x2 + 1) div ((x + 2) + (x div 3)))
1: ((~x2 + 1) div (x + 8))
1: ((~x2 + 1) div 13)
1: ((~x2 + 1) div (5x + 1))
1: ((~x2 + 1) div (4x + 9))
1: ((~x2 + 1) div 49)
1: ((~x2 + 1) div (2 + (x2 div 3)))
1: ((~x2 + 1) div ((if x <= 0 then 1 else x) + (x div 2)))
1: ((~x2 + 1) div (x - ((~x + 2) div 2)))
1: ((~x2 + 1) div 32)
1: ((1 - ((x + ((2 + loop(\(x,i).2x,(x + ~1),1)) div (x + 1))) div 2)) div 2)
1: ((1 - ((1 + ((1 - (((x2 + ~x) div 3) mod 3)) mod (x + 1))) div 2)) div 2)
1: ((1 - ((~x + (x2 div 3)) div 2)) div 2)
1: ((1 - ((~x + ((x div 2) mod 3)) div 2)) div 2)
1: ((1 - (((x mod (3 + (x div 4))) - (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)) div 2)) div 2)
1: ((1 - ((x - (((x + ~1) * ((x + ~1) div 2)) div 2)) div 2)) div 2)
1: ((1 - ((x2 + x) div 4)) div 3)
1: ((1 - ((~x2 + 3x + ~2) div 5)) div 3)
1: ((1 - ((x2 + ~2x) div 2)) div 5)
1: ((1 - ((x3 + x2) div (~2x + 1))) div 2)
1: ((1 - ((~x * (x div (1 + (x mod 2)))) div 3)) div (x + 1))
1: ((1 - (2x div 3)) div (1 + (x div 5)))
1: ((1 - (x2 div 9)) div 3)
1: ((1 - ((((8 * ((2x + 1) div (3 + (x div 4)))) - (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)) div 2) div 2)) div 2)
1: ((1 - (((((x + ~2) div 3) * ((~x + 2) div 2)) div 2) div 2)) div 2)
1: ((1 - (((32 mod (~x + ~1)) div 2) div 2)) div 2)
1: ((1 - ((loop(\(x,i).~2x,x,x) div 2) div 2)) div 2)
1: ((1 - ((x div 2) div (~1 + (2 * (x mod 4))))) div (x + 1))
1: ((1 - (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) div 3)) div 3)
1: ((1 - (x div 2)) div (1 + (((1 + (x div 2)) div 2) div 2)))
1: ((1 - (x div 2)) div (1 + ((((x + 1) div 2) div 2) div 2)))
1: ((1 - (x div 2)) div (2 + (x mod 3)))
1: ((1 - (x div (x + ~17))) div 2)
1: ((1 - (x div (x + ~18))) div 2)
1: ((1 - (4 mod (~2x + 1))) div (x + 1))
1: ((1 - ((x + 1) mod (1 + (2 * ((x + ~1) div 5))))) div (x + 1))
1: ((1 - ((x + 1) mod ~7)) div 3)
1: ((1 - ((x + 1) mod (1 - (2 * (2 + (x div 8)))))) div 2)
1: ((1 - ((x + 1) mod (1 - (2 * (x div 3))))) div 2)
1: ((1 - ((x + 1) mod (2 - ((x - (x mod 3)) div 2)))) div 2)
1: ((1 - ((x + 1) mod (~1 + (x mod (1 - (2 * (x div 3))))))) div 2)
1: ((1 - ((x + 2) mod (2 + (x mod 6)))) div (x + 1))
1: ((1 - ((~1 + ((~2x + 2) mod (4 + (x div 4)))) mod 5)) div (x + 1))
1: ((1 - (4x mod ~19)) div 2)
1: ((1 - (x2 mod (3 + (x mod 6)))) div (x + 1))
1: ((1 - (x2 mod (3x + 2))) div 3)
1: ((1 - ((x div 2) mod (1 + (x2 mod 6)))) div (x + 1))
1: ((1 - ((2x mod 9) mod (x + 1))) div 3)
1: ((1 - ((x mod (2 + (x div 4))) mod 3)) div 2)
1: ((1 - (loop(\(x,i).(2x + 2),x,2) mod (x + 2))) div (x + 1))
1: ((1 - (loop(\(x,i).2x,x,1) mod (x + 1))) div (x + 1))
1: ((1 - (x mod 7)) div (x + 1))
1: ((1 - (x mod (1 + (x div (if (x mod 2) <= 0 then 4 else 1))))) div (x + 1))
1: ((1 - (x mod (2 + ((x2 + 4) mod (x + 3))))) div (x + 1))
1: ((1 - (x mod (2 + ((x div ~2) mod 2)))) div (x + 1))
1: ((1 - (x mod (2 + (x mod 2)))) div 2)
1: ((1 - (x mod (2 + (x mod 2)))) div (x + 1))
1: ((1 - (x mod (0 - ((2x + ~1) mod (4 * (2 - (x mod 2))))))) div 2)
1: ((1 - (x mod (1 - (2 * (x mod (1 + ((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)))))))) div 2)
1: ((1 - (x mod (1 - (2 * (x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4)))))))))) div 2)
1: ((1 - (x mod (1 - ((2 - (2x mod (4 + (x div 4)))) mod (x + 1))))) div 2)
1: ((1 - (x mod (2 - ((x + ~2) mod ((~x + ~1) + (x mod 2)))))) div (x + 1))
1: ((1 - (x mod (~1 + (2 * (~1 + (x div 3)))))) div (x + 1))
1: ((1 - (x mod (~1 + ((2 + (x div (~2 + (x mod 2)))) div 3)))) div 2)
1: ((1 - (x mod (~1 + (x div (~2 + (((~x + 2) div 2) div 3)))))) div 2)
1: ((1 - (if (~x + 2) <= 0 then x else 2)) div 5)
1: ((1 - (if (~4 + (x div 2)) <= 0 then 1 else x)) div 4)
1: ((1 - (if (~2 + (x div 2)) <= 0 then x else (x + 4))) div 5)
1: ((1 - (if (x mod 3) <= 0 then 0 else x)) div 3)
1: ((1 - (if x <= 0 then 2 else x)) div 2)
1: ((1 - loop(\(x,i).(2 + (x mod (1 + i))),x,2)) div 5)
1: ((1 - loop(\(x,i).(~1 + (x * (1 + i))),x,0)) div (x + 2))
1: ((1 - loop(\(x,i).(4x - (i mod 3)),x,0)) div 2)
1: ((1 - loop(\(x,i).(x2 + ~1),x,2)) div (x + 1))
1: ((1 - loop(\(x,i).((x + ~1) - (if x <= 0 then 0 else i)),x,x)) div (if x <= 0 then 1 else 2))
1: ((1 - loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x)) div (2 + (x mod 2)))
1: ((1 - loop(\(x,i).(x * (i * i)),x,1)) div (x + 1))
1: ((1 - loop(\(x,i).2x,x,2)) div 3)
1: ((1 - loop(\(x,i).((x2 + ~x) div (1 + i)),2,(x + ~1))) div 2)
1: ((1 - loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2)
1: ((~x + 1) div (6 + (x mod 2)))
1: ((~x + 1) div (1 + ((((3 * (x + ((~x + 1) mod 3))) div 2) div 2) + (x mod 2))))
1: ((~x + 1) div (3 + (x div 4)))
1: ((~x + 1) div (3 + ((x div 2) mod 3)))
1: ((~x + 1) div (4 - ((x mod 3) div 2)))
1: ((~x + 1) div (4 - (((1 + (x div 2)) div 2) mod 2)))
1: ((~x + 1) div (4 - (((x - (x div 4)) div 2) mod 2)))
1: ((~x + 1) div (4 - (x mod 2)))
1: ((~x + 1) div (1 + (2 * (3 - (x mod 2)))))
1: ((~x + 1) div (1 + (3 * (1 + (x mod 2)))))
1: ((~x + 1) div (1 + (2 * (2 + (x mod 6)))))
1: ((~x + 1) div (3 + (2 * (x - (x mod 8)))))
1: ((~x + 1) div (1 + (4 * (x mod 2))))
1: ((~x + 1) div (1 + (2 * ((~x + 2) mod 5))))
1: ((~x + 1) div (2 + (3 * (x mod 2))))
1: ((~x + 1) div (1 + ((2 + (x div 2)) div 3)))
1: ((~x + 1) div (1 + ((x + 1) div 5)))
1: ((~x + 1) div (1 + ((2 * (1 + (x div (2 * (2 - (x mod 2)))))) div 3)))
1: ((~x + 1) div (2 + ((((x + 1) div 2) * (x div 3)) div 2)))
1: ((~x + 1) div (1 + (((x + 1) div 2) div 2)))
1: ((~x + 1) div (1 + ((x div 2) div 3)))
1: ((~x + 1) div (1 + (((2x + 1) mod (2 + (x div 4))) div 2)))
1: ((~x + 1) div (2 + ((x mod 3) div 2)))
1: ((~x + 1) div (1 + ((x mod (1 + (x div 2))) div 2)))
1: ((~x + 1) div (2 + (x div (4 + (x mod 2)))))
1: ((~x + 1) div (1 + (x div (2 + (3 * (x mod 2))))))
1: ((~x + 1) div (2 + (x div (1 + (x mod (2 * (1 + (x mod 2))))))))
1: ((~x + 1) div (1 + (4 mod (x + 1))))
1: ((~x + 1) div (1 + ((x + 2) mod (1 + (((1 + (x * (x div 2))) div 3) mod 3)))))
1: ((~x + 1) div (1 + ((1 - (x div 3)) mod 3)))
1: ((~x + 1) div (1 + ((~x + 2) mod 4)))
1: ((~x + 1) div (1 + ((x + ~1) mod 6)))
1: ((~x + 1) div (1 + ((x - (((1 + (x div 2)) div 2) div 2)) mod 3)))
1: ((~x + 1) div (1 + ((x div 2) mod 4)))
1: ((~x + 1) div (2 + (x mod 2)))
1: ((~x + 1) div (2 + (x mod 4)))
1: ((~x + 1) div (2 + (x mod 5)))
1: ((~x + 1) div (1 + (x mod (1 + (x mod (1 + (x div (2 * (2 - (x mod 2))))))))))
1: ((~x + 1) div (1 + (if (~2 + (x div 2)) <= 0 then 2 else 0)))
1: ((~x + 1) div (2 + (if (~2 + (x div 2)) <= 0 then 2 else 1)))
1: ((~x + 1) div (2 + (if (~1 + (x mod 3)) <= 0 then x else 2)))
1: ((~x + 1) div (2 + (if ((x2 + 2x) mod 6) <= 0 then x else 1)))
1: ((~x + 1) div (2 + (if ((x div ~2) mod 3) <= 0 then 2 else 1)))
1: ((~x + 1) div (1 + (if (x mod (1 + (((x + 1) div 2) div 3))) <= 0 then x else 1)))
1: ((~x + 1) div (1 + loop(\(x,i).2x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),2)))
1: ((~x + 1) div (x + 2))
1: ((~x + 1) div (1 + i))
1: ((~x + 1) div (2 + i))
1: ((~x + 1) div (2 - ((x div 2) div ~2)))
1: ((~x + 1) div (2 - (x div ~2)))
1: ((~x + 1) div (2 - (x div ~4)))
1: ((~x + 1) div (2 - (x mod ~4)))
1: ((~x + 1) div (~1 + (3 * (x mod 3))))
1: ((~x + 1) div (x - (((x + ~1) div 2) div 3)))
1: ((~x + 1) div (3 * (2 + ((x + ~1) mod 5))))
1: ((~x + 1) div (2 * (2 - ((x * (x div 2)) mod 2))))
1: ((~x + 1) div (if ((x + ~2) mod 6) <= 0 then 2 else 1))
1: (((~x + 2) - ((x + (x div 3)) div 5)) div 2)
1: (((~x + 2) - (x2 div 3)) div 4)
1: (((~2x + 2) - (x div 2)) div (x + 2))
1: (((~x + 2) - (x div 4)) div 2)
1: (((~x + 2) - (if (x mod 2) <= 0 then (x2 div 2) else 2)) div 2)
1: (((~x + 2) - i) div 2)
1: ((6 - (x div 2)) div (x + 2))
1: ((2 + (x div 2) - (x * (x mod 2))) div (x + 1))
1: ((~x2 + 3) div (1 + (x div 4)))
1: ((3 - (x div (~2 + (x mod ~4)))) div 3)
1: ((3 - ((1 + ((~2x + 2) mod (4 + (x div 4)))) mod 5)) div 2)
1: (((~x + 2) + ((x - ((1 - (x div 2)) mod 5)) div 2)) div 2)
1: (((~x + 2) + (x2 div 4)) div 3)
1: (((~x + 2) + (x2 div 8)) div 3)
1: (((~x + 2) + ((x div 2) div 3)) div 2)
1: (((~x + 2) + ((x div ~2) mod 5)) div 3)
1: ((~x2 + ~4x + ~2) div 2)
1: ((~x3 + 2) div 12)
1: ((2 - (((x + (x div 2)) div 2) * (x div 2))) div (x + 2))
1: ((2 - (3 * ((x2 + x) div 2))) div 2)
1: ((2 - (3 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2))) div 2)
1: ((2 - (((((x + 1) div 2) div 2) div 2) * ((x + 1) div 2))) div 2)
1: ((2 - (((x div 2) div 3) * ((x + ~1) div 2))) div 2)
1: ((2 - (x * ((x div 2) div 3))) div 2)
1: ((2 - (x * (x div 2))) div 5)
1: ((2 - (x * (x div 2))) div (2 + (x div 4)))
1: ((2 - (x * (x div 2))) div 16)
1: ((2 - ((x div ~4) * (x div 2))) div 2)
1: ((2 - (x * ((x + ~1) mod 3))) div 2)
1: ((2 - ((x + 2) * (if (x mod 2) <= 0 then (x div 2) else 2))) div 2)
1: ((2 - ((x + 2) * (if (x mod 2) <= 0 then x else 1))) div 2)
1: ((~x2 + 2) div (4 + (x div 2)))
1: ((~x2 + 2) div (2 + ((((x + 1) div 2) div 2) div 2)))
1: ((~x2 + 2) div (1 + ((x div 2) div 3)))
1: ((2 - (((x + ~1) + loop(\(x,i).((x2 + 3x + 2) div 2),2,9)) div 2)) div 8)
1: ((2 - ((x + 1) div (2 * (2 - ((x div 4) mod 2))))) div 2)
1: ((2 - ((~x + 1) div (2 * (2 - ((x * (x div 2)) mod 2))))) div 3)
1: ((2 - ((~x + 2) div (1 + ((1 + (x div 2)) div 3)))) div 2)
1: ((2 - ((~x + 2) div (4 - (x mod 3)))) div 2)
1: ((2 - ((~x + (((~x + 1) * (x div 2)) div 2)) div 2)) div 2)
1: ((2 - ((~x + ((~x2 + x) div 4)) div 2)) div 2)
1: ((2 - ((~x + (2x mod (1 + (x div 3)))) div 2)) div 2)
1: ((2 - ((~x + (x2 mod 3)) div 2)) div 2)
1: ((2 - (((x mod 3) - (x div 2)) div 2)) div 2)
1: ((2 - ((~x + (x mod 5)) div 2)) div 2)
1: ((2 - ((~x + loop(\(x,i).(if x <= 0 then i else (x div 2)),x,0)) div 2)) div 2)
1: ((2 - (((x + 1) - (3 * (1 + ((x - (2 * ((x + (if (x mod 3) <= 0 then 1 else 2)) div 4))) * (x div 3))))) div 2)) div 2)
1: ((2 - ((x - ((~x + 2) div 4)) div 2)) div 2)
1: ((2 - ((x - (loop(\(x,i).2x,x,1) div (x + 1))) div 2)) div 2)
1: ((2 - ((x - ((x div 2) mod 4)) div 2)) div 2)
1: ((2 - ((~x2 + x) div 4)) div (1 + (x div 2)))
1: ((2 - ((~x2 + x) div 16)) div 2)
1: ((2 - (((2 - ((x + ~1) div 2)) * (x div 5)) div 2)) div 2)
1: ((2 - ((~x2 + 4x + ~4) div (x + 4))) div 2)
1: ((2 - ((~x2 + 2x) div 5)) div 2)
1: ((2 - ((~x2 + 2x) div (4 + (x div 2)))) div 3)
1: ((2 - ((x * ((x2 + ~1) - (((x3 + ~x) div 2) div 3))) div 2)) div 2)
1: ((2 - ((x * (~1 + ((x div 2) mod 2) - (x mod 2))) div 2)) div 2)
1: ((2 - ((3 * ((x div 2) - ((x mod 3) div 2))) div 2)) div 2)
1: ((2 - (((x + 2) * (~1 + ((if (x mod 2) <= 0 then 2 else x) mod 4))) div 2)) div 2)
1: ((2 - ((x3 + ~x2) div (x + 2))) div 2)
1: ((2 - ((((~x + 2) div 2) * (x div 3)) div 3)) div 2)
1: ((2 - ((x * (x div 2)) div 2)) div 2)
1: ((2 - ((x * (x div 2)) div ~7)) div 2)
1: ((2 - ((x * (x div 8)) div 3)) div 2)
1: ((2 - (2x div (~5 + (x mod 3)))) div 2)
1: ((2 - (2x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))) div 2)
1: ((2 - (x2 div 2)) div 3)
1: ((2 - (x2 div 3)) div 2)
1: ((2 - (x2 div (2 + (x mod 2)))) div (x + 1))
1: ((2 - (x2 div ~7)) div 2)
1: ((2 - (x2 div (x + ~26))) div 2)
1: ((2 - (x2 div (~16 + ((x + 1) div 2)))) div 2)
1: ((2 - (x2 div ~21)) div 2)
1: ((2 - (((x - ((x2 + (x div 2)) div 2)) div 2) div 2)) div 2)
1: ((2 - ((((x + 2) * (x + (x div 8))) div 2) div 2)) div 2)
1: ((2 - (((~x * (x div 2)) div 2) div 3)) div 2)
1: ((2 - ((((1 - (x div 2)) * (x div 3)) div 2) div 2)) div 2)
1: ((2 - (((x * (~1 + ((~x + 2) div 3))) div 2) div 2)) div 2)
1: ((2 - (((x * (~2 + (x div ~2))) div 2) div 2)) div 2)
1: ((2 - (((x * (~1 + (x div ~5))) div 2) div 2)) div 2)
1: ((2 - (((((~x + 1) div 3) * ((x + ~1) div 2)) div 2) div 2)) div 2)
1: ((2 - ((((~x3 + 3x2 + ~2x) div 2) div 2) div 2)) div 3)
1: ((2 - ((x div 2) div (1 + ((x + ~1) mod 3)))) div 2)
1: ((2 - ((x mod 7) div 2)) div (x + 2))
1: ((2 - ((if (~2 + (x div 4)) <= 0 then 2 else x) div 2)) div 2)
1: ((2 - ((if x <= 0 then 2 else x) div 2)) div 2)
1: ((2 - (loop(\(x,i).(~1 + (2x * i)),x,0) div 2)) div 2)
1: ((2 - (loop(\(x,i).x2,1,(2 + loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x))) div 2)) div 2)
1: ((2 - (x div 2)) div (1 + (2 mod (x + 1))))
1: ((2 - (x div 2)) div (2 + ((x + 1) mod 4)))
1: ((2 - (x div 3)) div (~2 + (x mod 2)))
1: ((2 - (x div 4)) div (x + 1))
1: ((2 - (x div (9 - (x div 2)))) div 2)
1: ((2 - (x div (2 + (x div (1 + (x mod 4)))))) div 2)
1: ((2 - (x div (2 + (10 mod (x + 1))))) div 2)
1: ((2 - (x div ~4)) div 2)
1: ((2 - (x div (~4 + (x div 7)))) div 2)
1: ((2 - (x div (~3 + ((x div 3) mod 2)))) div 2)
1: ((2 - (x div (~2 + (((~x + 2) div 2) div 3)))) div 2)
1: ((2 - (x div (~1 + ((x div 2) div ~2)))) div 2)
1: ((2 - (x div (~1 + ((x div 2) div ~2)))) div 3)
1: ((2 - (x div (x + ~16))) div 2)
1: ((2 - (x div (3 * (~3 + (x mod 3))))) div 2)
1: ((2 - (x div (2 * (~2 + ((x * (x div 2)) mod 2))))) div 3)
1: ((2 - (x div (2 * (~2 + (x mod 2))))) div 2)
1: ((2 - (x div (if ((x div 2) mod 3) <= 0 then 1 else 2))) div 2)
1: ((2 - (2 mod (~2x + 11))) div 2)
1: ((2 - (2 mod ((~x + 2) - (x div 2)))) div 2)
1: ((2 - (2 mod (~x + ((~x + 2) div 2)))) div 2)
1: ((2 - (((x + 5) + (x div 4)) mod (1 + (x div 3)))) div 2)
1: ((2 - ((2x + 1) mod (~1 + (2 * ((~x + 2) div 8))))) div 2)
1: ((2 - ((2x + 1) mod (~1 + loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)))) div 2)
1: ((2 - ((2 + (x div 2)) mod 6)) div 2)
1: ((2 - ((2 + ((x div 2) mod 2)) mod (1 + (x div 2)))) div 2)
1: ((2 - ((1 + (x mod (2 + (x div (1 + ((x div 2) mod (1 + (x mod (1 + ((~x + 2) mod 4)))))))))) mod (x + 1))) div 2)
1: ((2 - ((x + 1) mod (1 - (2 * (x mod 7))))) div 2)
1: ((2 - ((x + 1) mod (1 - (x mod ~7)))) div 2)
1: ((2 - ((x + 1) mod (~1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (2 - (2 * (1 + (x div (1 + (x mod 5)))))))))) div 2)
1: ((2 - ((x + 1) mod (~2 + (x div ~7)))) div 2)
1: ((2 - ((x + 1) mod (~1 + (x div ~4)))) div 2)
1: ((2 - ((~x + 1) mod (1 + (2 * (x mod 4))))) div 2)
1: ((2 - ((~x + 2) mod 7)) div 2)
1: ((2 - ((2x + ~1) mod (1 + ((x + 1) div 2)))) div 2)
1: ((2 - ((~1 + (x div 2)) mod 4)) div 2)
1: ((2 - ((x + ~1) mod (3 + ((x div 2) mod 3)))) div (x + 1))
1: ((2 - ((x + ~1) mod (1 + ((x + 2) div 3)))) div 2)
1: ((2 - ((x + ~1) mod (1 + (x mod 5)))) div 2)
1: ((2 - (8 mod (1 + (x div 2)))) div 2)
1: ((2 - ((2x + 2) mod (1 - (2 * (2 + (x div 8)))))) div 3)
1: ((2 - ((~3x + 3) mod (1 + (x div 2)))) div 2)
1: ((2 - (4x mod (~1 + (x div ~3)))) div 2)
1: ((2 - ((((x + 1) div 2) * (1 + (x div 2))) mod 7)) div (x + 2))
1: ((2 - (2x mod (4 + (x div 4)))) div 3)
1: ((2 - (2x mod (2 + (x div 2)))) div (x + 2))
1: ((2 - (2x mod (2 + (x div 3)))) div (x + 2))
1: ((2 - (2x mod ((x + 1) - (2 * (x div 3))))) div 2)
1: ((2 - ((x div 2) mod (1 + (x mod (1 + ((~x + 2) mod 4)))))) div 2)
1: ((2 - ((x div 2) mod (~1 + ((~x + 1) div 3)))) div 2)
1: ((2 - ((x div 4) mod ~15)) div 2)
1: ((2 - (((x + (if (~2 + (x div 2)) <= 0 then 1 else 2)) mod 4) mod (1 + (x div 2)))) div 2)
1: ((2 - (loop(\(x,i).2x,(if (x mod 3) <= 0 then x else 0),2) mod (x + 1))) div 2)
1: ((2 - (x mod 2)) div (2 + (x div 4) - (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))
1: ((2 - (x mod (4 + ((x div 2) mod 2)))) div (x + 2))
1: ((2 - (x mod (1 + (2 * (2 - (2x mod 5)))))) div 2)
1: ((2 - (x mod (2 + (x div (2 + (x mod 2)))))) div 2)
1: ((2 - (x mod (2 + ((2 - (x div 3)) mod 4)))) div 2)
1: ((2 - (x mod (2 + (2x mod (1 + (x div 3)))))) div (x + 1))
1: ((2 - (x mod (2 + (x mod 3)))) div (x + 1))
1: ((2 - (x mod (~2 - ((3x + ~6) mod (1 + (x div 2)))))) div 2)
1: ((2 - (x mod (~1 - loop(\(x,i).2x,((((1 + (8 mod (1 + (x div 2)))) div 2) + (if x <= 0 then 0 else 1)) - (x mod 2)),2)))) div 2)
1: ((2 - (x mod (1 - (2 * (((x + 1) div 2) div 2))))) div 2)
1: ((2 - (x mod (1 - (2 * (x mod 4))))) div 2)
1: ((2 - (x mod (4 - ((x2 div 2) + (2x mod (4 + (x div 4))))))) div 2)
1: ((2 - (x mod ((~x + 2) + (x2 mod 3)))) div 2)
1: ((2 - (x mod (2 - (x * (x div 3))))) div 2)
1: ((2 - (x mod (2 - (x mod ~3)))) div (x + 2))
1: ((2 - (x mod (~1 + (2 * (x div 5))))) div 2)
1: ((2 - (x mod (~2 + ((~x + 1) div 5)))) div 2)
1: ((2 - (x mod (~2 + ((x div 2) mod (~2 - (x div 4)))))) div 2)
1: ((2 - (x mod 8)) div 2)
1: ((2 - (x mod (2 * (1 + (4 * (x mod 2)))))) div (x + 1))
1: ((2 - (i mod 4)) div 2)
1: ((2 - (if ((x + 1) mod (2 + ((x div 2) mod 2))) <= 0 then x else 1)) div 2)
1: ((2 - (if (6 mod (x + 1)) <= 0 then x else 1)) div 2)
1: ((2 - (if (x mod 3) <= 0 then 1 else (x div 4))) div (x + 1))
1: ((2 - (if x <= 0 then 1 else (x div ~4))) div 2)
1: ((2 - (if x <= 0 then 1 else (x mod (~1 + (x div (~2 + (x mod ~2))))))) div 2)
1: ((2 - (if x <= 0 then 2 else (x + ((x + (x2 div 3)) div 4)))) div 2)
1: ((2 - loop(\(x,i).(x - (2 * (~2x + (i mod 2)))),x,0)) div 3)
1: ((~x + 2) div (5 + (x mod 2)))
1: ((~x + 2) div (2 + ((2x div 3) + (x mod 2))))
1: ((~x + 2) div (4 + ((x + 1) mod 8)))
1: ((~x + 2) div (4 + (x mod (2 + (x div 4)))))
1: ((~x + 2) div (1 + (2 * (2 + ((x2 div 2) mod 3)))))
1: ((~x + 2) div (1 + (2 * (2 + (x mod 2)))))
1: ((~x + 2) div (1 + (2 * (8 - (x div 2)))))
1: ((~x + 2) div (1 + (2 * (2 mod (1 + (x div 4))))))
1: ((~x + 2) div (2 + (x * (x mod 2))))
1: ((~x + 2) div (2 + (2 * (if (x mod 3) <= 0 then 0 else 2))))
1: ((~x + 2) div (1 + ((1 + (x div 2)) div 3)))
1: ((~x + 2) div (1 + ((x + 2) div (2 + (x mod 2)))))
1: ((~x + 2) div (2 + ((x div 2) div (1 + (x mod (1 + (if (x mod 2) <= 0 then 6 else 1)))))))
1: ((~x + 2) div (1 + ((x mod (2 + (x mod 2))) div 2)))
1: ((~x + 2) div (1 + (x div 2)))
1: ((~x + 2) div (2 + (x div 3)))
1: ((~x + 2) div (2 + (x div (1 + (3 * (2 - (x mod 2)))))))
1: ((~x + 2) div (2 + (x div (2 + (x mod 4)))))
1: ((~x + 2) div (2 + (x div 8)))
1: ((~x + 2) div (2 + (x div (2 * (if (x mod (1 + (((x + 1) div 2) div 3))) <= 0 then 1 else 2)))))
1: ((~x + 2) div (1 + ((x + 1) mod 8)))
1: ((~x + 2) div (2 + ((2 * (x div 2)) mod 3)))
1: ((~x + 2) div (2 + ((x div 2) mod 3)))
1: ((~x + 2) div (2 + ((x div 2) mod 4)))
1: ((~x + 2) div (2 + (x mod (3 - (x mod 2)))))
1: ((~x + 2) div (1 + (x mod 9)))
1: ((~x + 2) div (1 + (x mod 8)))
1: ((~x + 2) div (2 + (if (x + ~6) <= 0 then 0 else 2)))
1: ((~x + 2) div (2 + (if ((x div 2) mod 3) <= 0 then 2 else 1)))
1: ((~x + 2) div (1 + (if (x mod 8) <= 0 then 1 else 2)))
1: ((~x + 2) div (2 + (if (x mod 10) <= 0 then 2 else x)))
1: ((~x + 2) div (2 + (if x <= 0 then 2 else (((x + 1) div 2) div 2))))
1: ((~x + 2) div (1 - (x div ~4)))
1: ((~x + 2) div (1 - (x div ~5)))
1: ((~x + 2) div (2 - ((x div 2) div ~2)))
1: ((~x + 2) div (2 - (x div (~4 + ((x + 2) mod 4)))))
1: ((~x + 2) div (2 - (x div (~2 + (x mod ~3)))))
1: ((~x + 2) div (2 - (x mod ~3)))
1: ((~x + 2) div (4 - (x mod 3)))
1: ((~x + 2) div (~5 + (x mod 2)))
1: ((~x + 2) div ((x + 1) - (x div 3)))
1: ((~x + 2) div (2 * (2 + ((x div 2) mod 3))))
1: ((~x + 2) div (if (~2 + (x div 2)) <= 0 then 1 else 2))
1: ((~x + 2) div (if (x + ~1) <= 0 then 2 else (~1 + (2 * (x mod 2)))))
1: ((~x + 2) div (if x <= 0 then 1 else 8))
1: ((3 - ((x2 + ~x) div 2)) div 3)
1: ((~x2 + ~2x + 4) div (2x + 1))
1: ((~x2 + 4) div 11)
1: ((4 - (x div 3)) div (x + 1))
1: ((4 - (if (x + ~2) <= 0 then 1 else 2)) div (1 + (x mod 5)))
1: (((~x + 4) + ((x + (loop(\(x,i).((x + 2) + ((x - (x div 4)) div 2)),x,2) div 2)) div 2)) div 2)
1: ((2 + ((2 * (loop(\(x,i).5x,x,4) div 3)) div 3)) div 2)
1: ((2 + ((loop(\(x,i).2x,(x div 2),~2) mod (x + 1)) div 2)) div 2)
1: ((1 + (2 * ((x + 1) + (2 * (x + (x mod 2))))) - (((x + 1) div 2) div 3)) div 2)
1: ((1 + (2 * ((x + 1) - (4 * (~x + (x div 5))))) - (x div 2)) div 2)
1: ((2 + (3 * (x + (if (x + ~2) <= 0 then 1 else 2))) - (x mod 3)) div 2)
1: (((~x + 1) + (3 * ((2 * ((2 * (2x - (x mod 8))) - (x mod 4))) - (x mod 2)))) div 2)
1: (((31x + 32) + (((x + 1) div 2) div 2)) div 2)
1: (((~x + 1) + (2 * ((1 + (((1 + (loop(\(x,i).4x,(x + ~2),x) div 2)) div 2) div 2)) div 2))) div 2)
1: (((~x + 1) + (2 * ((x3 + ~3x2 + 2x) div 9))) div 2)
1: (((~x + 1) + (2 * ((if x <= 0 then 1 else (x - (loop(\(x,i).2x,x,1) mod 9))) mod (x + 1)))) div 2)
1: (((x2 + 2) - (2 * ((2 * (2x - (x mod 8))) - (x mod 4)))) div 2)
1: ((1 + ((x3 + ~x2) div 3) - (x2 div 2)) div 2)
1: (((x + ~1) + ((x * (x div 2)) div 3)) div 2)
1: (((2x + 2) + (x2 div 4) - (x div 3)) div 3)
1: ((2 + (((x2 div 3) mod (x + 1)) div 2) - (x mod 3)) div 2)
1: (((x + ~1) + (x div 2)) div 5)
1: ((2 + (x div 3) - (x mod 4)) div (2 + (x mod 2)))
1: (((x + ~1) + (x div 4)) div 3)
1: (((x + ~2) + (~x mod 4)) div 5)
1: ((x + ((x div 2) mod 2) - (((x + 1) div 2) div 2)) div 2)
1: (((x + ~1) + (x mod 2)) div (2 + (x div 4)))
1: ((2 + (x mod 4) - (x div 2)) div (x + 2))
1: (((~x + 2) + (x mod (2 + (x mod 2)))) div 2)
1: (((x + ~1) + (x mod 8)) div 3)
1: ((((if (x mod 5) <= 0 then 2 else 1) + (x div 4)) - (x mod 2)) div 2)
1: ((1 + (if x <= 0 then 0 else (1 + (x div (3 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))) - (x mod 2)) div 2)
1: (((loop(\(x,i).(4x + 1),x,2) + loop(\(x,i).3x,x,1)) - loop(\(x,i).2x,x,1)) div 2)
1: (((~x2 + 1) + loop(\(x,i).(x3 + x),x,1)) div 2)
1: (((x + ~1) + loop(\(x,i).(x2 + 3x + 2),2,2)) div (x + 2))
1: (((loop(\(x,i).6x,x,2) + loop(\(x,i).8x,x,1)) - loop(\(x,i).4x,x,3)) div 2)
1: (((x + 1) - (x div (1 + ((x div 2) mod (1 + (x mod (1 + ((~x + 2) mod 4)))))))) div 3)
1: (((x + 2) - ((~2x + 2) div 5)) div 2)
1: (((x + 2) - ((x mod ~4) div 2)) div 3)
1: (((x + ~1) + i) div (1 + i))
1: (((~x + 1) + compr(\x.(~1 + (2x mod (1 + (x div 4)))),x)) div 2)
1: ((~1 + (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))) div 2)
1: ((~x - (4 mod (x + 1))) div 5)
1: ((0 - ((x div 2) + (x mod 4))) div 2)
1: ((~x - ((x div 2) mod 2)) div 3)
1: ((~x - i) div (x + 4))
1: ((1 - ((x div 3) + (2 * (if x <= 0 then 1 else (2 * (3x + ((x + ((x div 3) mod 3)) div 3))))))) div 3)
1: (((~2x + 1) - (x2 div 4)) div (x + 2))
1: ((~5x + 1) div (1 + (x div 2)))
1: (((~x + 1) - (x2 div 3)) div 3)
1: (((~x + 1) - ((x2 div 2) div 3)) div 3)
1: (((~x + 1) - (x div 2)) div 5)
1: (((~x + 1) - (x mod 2)) div 5)
1: (((~x + 1) - loop(\(x,i).(2x - (i div 2)),x,0)) div 3)
1: ((2 - ((x div 5) + ((x div 2) mod 3))) div 2)
1: (((~x + 2) - (x div 2)) div 2)
1: (((~x + 2) - (x div 2)) div (2 + (x div 3)))
1: (((~x + 2) - (i div 2)) div 5)
1: (((~x + 2) - (((~x + 2) div 2) mod 4)) div 4)
1: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) - ((x div 7) + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x))) div 2)
1: ((loop(\(x,i).(6x + 1),x,0) - (loop(\(x,i).2x,x,1) + loop(\(x,i).2x,x,1) + loop(\(x,i).2x,x,1))) div 2)
1: (((~x + ~1) + (2 * ((x - ((x div (0 - (2 * (2 + (2x mod 5))))) mod 2)) mod 2))) div 2)
1: (((~x + ~1) + (2 * (x mod 2))) div 5)
1: (((x2 + ~1) - (2 * (2 - (((x + 1) + (if (x mod 2) <= 0 then (1 + (2 * (x - ((1 + (x mod 4)) div 2)))) else 2)) div 2)))) div 2)
1: ((~1 + ((2 * (3 + (2 * (x div 4)))) div 3) - (x mod 2)) div (1 + (x mod 2)))
1: ((~x + (x2 div 3) - (x div 2)) div 3)
1: (((~2x + ~1) + (x div 2)) div 5)
1: (((~x + ~1) + (x div 5)) div 3)
1: (((~x + ~2) + (x div ~3)) div 3)
1: (((~x + ~2) + (x div ~4)) div 3)
1: (((~x + ~1) + (x div 8)) div 2)
1: (((~x + ~2) + (x div 8)) div 3)
1: (((~x + ~1) + ((x + ((x div 2) div 3)) mod 3)) div 3)
1: (((~x + ~1) + ((x + 2) mod ~7)) div 3)
1: (((~x + ~2) + (((x + ~1) div 2) mod 2)) div 3)
1: (((~x + ~2) + ((x div 2) mod 2)) div 5)
1: (((~x + ~2) + ((x div 2) mod 4)) div 5)
1: (((~x + ~2) + ((x div 3) mod 3)) div 3)
1: (((~x + ~1) + ((x div 4) mod 2)) div 2)
1: (((~x + ~1) + ((x div 4) mod 2)) div 3)
1: (((~x + ~2) + ((x div 4) mod 2)) div 3)
1: (((~x + ~1) + (x mod 3)) div 5)
1: (((~x + ~2) + (x mod ~4)) div 3)
1: (((~x + ~1) + (x mod (~2 + ((x div 2) mod 2)))) div 3)
1: ((~x + (x mod 8) - (x div 4)) div 2)
1: (((~x + ~1) + (if (~2 + (x div 4)) <= 0 then 0 else 2)) div 3)
1: (((~x + ~1) + loop(\(x,i).(x + loop(\(x,i).(x - (x div (3 + i))),x,(x + 1))),x,2)) div 2)
1: ((~3 + loop(\(x,i).(2x + 40),(x + 1),1)) div 2)
1: ((~1 + loop(\(x,i).2x,(x div 2),2) - (x mod 2)) div (2x + 1))
1: ((~1 + loop(\(x,i).2x,x,1) - (if x <= 0 then 0 else (~1 + ((x * (~1 + (x mod 3))) div 2)))) div (x + 1))
1: (((x + ~2) - (x2 div 3)) div 3)
1: (((x + ~2) - (x2 div 3)) div (x + 3))
1: (((x + ~1) - (2 * ((~x + 2) div 8))) div 3)
1: ((x - (((x div 2) mod 2) + (if (~2 + (x div 2)) <= 0 then 0 else 1))) div 2)
1: ((3x + ~1) div 5)
1: ((3x + ~2) div (4 + (x div 4)))
1: (11 div (1 + (~x mod 4)))
1: (11 div (x + 1))
1: ((4x + 3) div (if (~x + 2) <= 0 then x else 2))
1: ((~1 + (2 * ((x + 1) + ((2 * (x + (loop(\(x,i).2x,x,2) mod (x + 1)))) div 3)))) div (x + 1))
1: ((~1 + (2 * ((x + 1) + ((2 * ((4 * (x + (if (~4 + (x div 2)) <= 0 then 1 else 2))) div 3)) div 3)))) div (2 - ((~x + 1) div 3)))
1: ((~1 + (x * ((x + 1) + (x div 2)))) div 5)
1: ((~1 + ((4 + (x mod 2)) * (if x <= 0 then 1 else x))) div 2)
1: (((3x + 12) - (x div 9)) div 2)
1: ((~1 + ((x + 4) * (if x <= 0 then 1 else x))) div 2)
1: (((x2 + 4x) - ((x + (x div 12)) div 2)) div 2)
1: (((7x + 7) - ((x + 2) div (1 + (x2 div 2)))) div 2)
1: ((13x2 + 26x + 12) div 5)
1: (((5x2 + 7x + 2) - (x mod 2)) div 2)
1: ((7x3 + 7x + 6) div (x2 + 1))
1: ((~x + ((x + (3 * (x + (x div 2)))) * (1 + (x div 2)))) div 2)
1: ((~x + ((x2 + 2x + 2) * (2 + (x mod 2)))) div 2)
1: (((3 * ((x2 + 2x) + (x mod 2))) - (x mod 3)) div 2)
1: ((41x2 + 82x + 40) div 15)
1: ((37x2 + 74x + 36) div 2)
1: ((8x2 + 18x + 15) div 11)
1: ((~1 + ((x + 1) * (2 + ((3x + ~3) * ((x2 + x) div 2))))) div 2)
1: ((30x + 9) div (x + 1))
1: (((3 * (1 + (2 * (((x + 1) + (x div 4)) div 2)))) - (x div 2)) div 2)
1: ((~1 + (2 * (1 + (2 * (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))))) div 5)
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1: ((~1 + (x * (1 + (2 * (if (~2 + (x div 2)) <= 0 then 2 else 0))))) div 2)
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1: ((5x2 + 9) div 2)
1: (((2 * (1 + ((1 + ((1 + ((1 + (((x + 1) * (1 + (((x + (if ((x div 2) mod (1 + (2 * (x mod 2)))) <= 0 then 2 else 0)) div 2) mod 2))) div 2)) div 2)) div 2)) div 2))) - (x mod 3)) div 2)
1: (((2 * (1 + ((1 + ((1 + ((x2 + 2x) mod (1 + (2 * (2 + (x div 8)))))) div 2)) div 2))) - (x div 7)) div 2)
1: (((2 * (1 + ((1 + ((2 + ((8 * (1 + (x mod 2))) mod (x + 1))) div 3)) div 2))) - (x mod 3)) div 2)
1: (((2 * (1 + ((x + 1) div (2 + (x div (2 + (((x div 2) mod 3) mod 2))))))) - (x mod 3)) div 2)
1: ((~1 + (2 * (1 + ((2 * (1 + (loop(\(x,i).x2,2,(x + 1)) div 3))) div 3)))) div (x + 1))
1: (((2 * (1 + (((1 + (x div 4)) mod (1 + (x div 3))) div 2))) - (x mod 3)) div 2)
1: (((2 * (1 + ((loop(\(x,i).2x,x,1) mod 9) div 2))) - (x mod 3)) div 2)
1: (((2 * (2 + ((x mod (~2 + (if (x mod 4) <= 0 then x else 0))) div 2))) - (x mod 3)) div 2)
1: (((2 * (1 + (x div (4 + (8 mod (1 + (x div 2))))))) - (x mod 3)) div 2)
1: ((~1 + (2 * (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))) div 5)
1: (((2 * (1 + (x div (2 * (2 + ((x + (if (~x + 2) <= 0 then x else 2)) mod 5)))))) - (x mod 3)) div 2)
1: (((2 * (1 + (x div (4 * (2 + (x mod 4)))))) - (x mod 3)) div 2)
1: (((2 * (1 + ((2 + (x mod 8)) mod (x + 1)))) - (x mod 3)) div 2)
1: (((2 * (1 + (~2 mod (1 - (2 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)))))) - (x div 3)) div 3)
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1: ((~2 + (5 * (1 + (((x + 1) * (1 + (x mod 2))) mod (1 + (x div 5)))))) div 2)
1: ((~1 + (x * (1 + (x mod (1 + ((~x + 2) mod 4)))))) div (x + 4))
1: (((4 * (x + (if (~4 + (x div 2)) <= 0 then 1 else 2))) - (x div 3)) div 3)
1: (((2 * (x + (if (x + ~2) <= 0 then 1 else x))) - (x div 3)) div 2)
1: ((~1 + (3 * (2 + (if (x + ~4) <= 0 then 0 else 2)))) div (x + 1))
1: (((x * (x + (if (x mod 4) <= 0 then 2 else 0))) - (x div 2)) div 3)
1: ((x2 + x + ~1) div 9)
1: (((x2 + x + 1) - ((x - ((x + 1) mod 6)) div 2)) div 2)
1: (((x2 + x + 1) - (x div 4)) div 2)
1: (((x2 + x) - ((~1 + ((x2 + (x div 2)) div 2)) div 2)) div 2)
1: (((x2 + x) - ((~x2 + x) div 4)) div 2)
1: (((x2 + x) - (x2 div 4)) div 5)
1: (((x2 + x) - ((x mod ~4) div 2)) div 2)
1: (((x2 + x) - ((x div 2) mod 2)) div 2)
1: (((x2 + x) - (x mod (2 * (~2 + (x mod 2))))) div 2)
1: ((x2 + 3x + 1) div 5)
1: (((x2 + 3x + 2) - (x2 div 4)) div 2)
1: ((x2 + 2x + ~1) div (4 + (x div 2)))
1: ((x2 + 2x + ~1) div (1 + (x div 2)))
1: ((x2 + 2x + ~2) div (1 + ((1 + (x div 2)) div 2)))
1: (((x2 + 2x + 1) - ((x mod (3 + (x div 8))) div 2)) div 2)
1: (((x2 + 2x) - ((x + (x div 12)) div 2)) div 2)
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1: (((x2 + 2x) - ((~x2 + 2x) div 4)) div 2)
1: (((x2 + 2x) - (2x2 div (1 + (x div 2)))) div 2)
1: (((x2 + 2x) - (x div 2)) div 2)
1: (((x2 + 2x) - (x div 2)) div 3)
1: (((x2 + 2x) - (x div 3)) div 2)
1: (((x2 + 2x) - (x div 3)) div 3)
1: (((x2 + 2x) - (x div 5)) div 2)
1: (((x2 + 2x) - (x mod 3)) div 3)
1: (((x2 + 2x) - (x mod 4)) div 2)
1: (((x2 + 2x) - (if (16 mod (x + 1)) <= 0 then 0 else 1)) div 3)
1: (((3 * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) - (x div 2)) div 2)
1: (((3 * (1 - ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2))) - (x div 5)) div 2)
1: ((~x2 + x + ~2) div (2x + 3))
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1: (((~x2 + x) - (((x2 + ~x) div 2) div 3)) div 3)
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1: ((~3x + 5) div (x + 4))
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1: ((~1 + (2 * (~1 + (2 * (~1 + ((x + 1) * (2 + (if (~2 + (x div 4)) <= 0 then 1 else 2)))))))) div 9)
1: ((~x + ((4x - (x div 2)) * (1 + (x div 2)))) div 2)
1: ((x3 + ~x + ~2) div (2 + (x div 2)))
1: (((2 * (~x + ((x + ~1) div 3))) - (x div 3)) div 3)
1: ((~x + ((~2 + (x div 2)) * (x div 2))) div (x + 1))
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1: ((~1 + (2 * (~x + ((x div 2) mod 5)))) div 5)
1: ((~1 + (2 * (~x + (x mod 2)))) div 5)
1: (((x2 + ~x) - ((x2 + 2x) div 8)) div 2)
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1: (((x2 + ~x) - (((x3 + ~x) div 2) div 3)) div 2)
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1: ((2x + ~5) div (x + 2))
1: ((x2 + ~2x + ~1) div (x + 7))
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1: ((~x + (2 * (x - (((x2 + ~x) div 2) div 7)))) div 3)
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1: (15 div (x + 1))
1: ((16 - (x mod (1 + i))) div (x + 2))
1: (23 div (x + 1))
1: (39 div (x + 1))
1: (35 div (x + 1))
1: (59 div (x + 1))
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1: ((~1 + (6 * (1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (2 * ((x div 2) mod 2))) * (x div 4))))) div 2)
1: ((~1 + (6 * (1 + (2 * ((3 * (1 + ((4 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2)) div 3))) div 2))))) div 5)
1: ((~1 + (6 * (1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + ((x + 1) div (2 + (x mod 5)))))))) div 5)
1: ((~1 + (6 * (1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div (1 + (x mod 5)))))))) div 2)
1: ((~1 + (6 * (1 + (2 * loop(\(x,i).((4x * i) - (x mod 2)),x,1))))) div 2)
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1: ((~1 + (6 * (1 + ((2 * (2 + ((1 + (2 * (loop(\(x,i).(x * (~1 + (2 * i))),x,~2) mod (x + 1)))) * (x mod 2)))) div 3)))) div 2)
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1: ((~1 + (3 * ((1 + ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3)) * (if x <= 0 then 1 else 2)))) div 2)
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1: ((6x + 5) div (x + 2))
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1: ((2x2 + 4x + ~1) div (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
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1: ((x4 + ~x2 + ~1) div 2)
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1: (31 div (2x2 + 1))
1: (47 div (x + 1))
1: (71 div (x + 1))
1: ((153x + 152) div 7)
1: ((6x2 + 18x + 11) div 5)
1: (63 div (x + 1))
1: (95 div (x + 1))
1: ((~1 + (24 * (x div 2))) div (x + 2))
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1: ((((x2 + 2x + 1) * (x div 2)) - (((~x3 + x) div 2) div 3)) div 2)
1: ((~1 + (6 * ((1 + (loop(\(x,i).3x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 3)) mod (x + 4)))) div 2)
1: ((4x - (x div 2)) div (x + 2))
1: ((6x - (x div 3)) div (x + 2))
1: ((2x2 + ~1) div 3)
1: ((2x2 - (((x2 + 2x) div 2) div 3)) div (x + 2))
1: ((2x2 - (x div 2)) div 3)
1: ((4x2 + ~1) div 7)
1: ((4x2 + ~1) div (x + 2))
1: ((x4 + ~1) div 2)
1: ((x4 + ~1) div (x + 2))
1: ((x4 + ~2) div (x + 4))
1: ((x4 - ((x2 + ~2x) div 2)) div 2)
1: ((x3 + ~1) div 2)
1: ((x3 + ~1) div (1 + (x div 2)))
1: ((x3 + ~2) div (x + 3))
1: ((~x + (3x * i)) div (1 + i))
1: (((2 * ((2x + 1) div (3 + (x div 4)))) - (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)) div 2)
1: ((~x + (3 * ((x + (x2 div 14)) div 2))) div 2)
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1: ((~1 + (2 * ((x + 1) div 3))) div 3)
1: (((2 * ((2 - (x div (~5 + (x div 4)))) div 2)) - (x mod 3)) div 2)
1: ((~x + (((x + ~1) div 2) * (x div 2))) div 5)
1: ((~1 + (2 * ((3 * (x + ((x - ((x div 2) mod 2)) div 2))) div 2))) div (x + 1))
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1: ((~x + (2 * (((x + ~1) div 2) div 2))) div 3)
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1: ((~1 + (x * (x div 2))) div (x + 3))
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1: ((~x + (2 * (x div 4))) div 3)
1: ((~2 + ((x + 2) * (x div 4))) div 5)
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1: ((~1 + (2 * ((1 + (x div (1 + (x div 5)))) mod 2))) div (1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))
1: ((~2 + (2 * ((2 - (2x mod (4 + (x div 4)))) mod (x + 1)))) div (x + 1))
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1: ((~1 + ((x + 2) * ((x div 2) mod 3))) div 2)
1: (((x * (x mod 2)) - (x div 2)) div 2)
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1: (((3 * (if (~4 + (x div 2)) <= 0 then 1 else (x div 4))) - (x mod 2)) div 2)
1: (((2 * (if (~2 + (x div 4)) <= 0 then 0 else 2)) - (x div 2)) div 3)
1: ((~1 + ((x + 1) * (if (x div 2) <= 0 then 1 else ((if (x mod 2) <= 0 then 2 else x) div 2)))) div 2)
1: ((~1 + (2 * (if x <= 0 then 1 else (4x + (x2 div 4))))) div (x + 1))
1: ((~1 + (2 * (if x <= 0 then 1 else (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (1 + (x div 5)))))) div 2)
1: ((~1 + ((x + 1) * loop(\(x,i).(2 * (x + (x div (4 + i)))),x,1))) div 2)
1: ((~1 + (3 * loop(\(x,i).10x,x,(x + 1)))) div 2)
1: ((~2 + (2 * loop(\(x,i).((x + 2) * ((2 + i) * i)),x,2))) div (x + 1))
1: ((~1 + (2 * loop(\(x,i).(if x <= 0 then i else (x div 2)),x,1))) div (x + 1))
1: ((2x + ~1) div (4 + (x div 5)))
1: ((2x + ~1) div (1 + (x mod 2) - (x div ~3)))
1: ((2x + ~1) div (1 + (2 * (2 + ((x div ~3) mod 2)))))
1: ((2x + ~1) div (1 + (2 * (x mod 3))))
1: ((2x + ~1) div (1 + ((1 + (x div 2)) div 2)))
1: ((2x + ~1) div (2 + (x div 5)))
1: ((2x + ~1) div (2 + (x div (2 + (x mod 3)))))
1: ((2x + ~1) div (1 + (4 mod (x + 1))))
1: ((2x + ~1) div (2 - ((x div 2) div ~3)))
1: ((2x + ~1) div (~1 + (3 * (~2 + (x mod 2)))))
1: ((2x - ((~x + ((1 + (x div 2)) mod 4)) div 2)) div 2)
1: ((2x - ((x - ((x2 + ~x) div 2)) div 5)) div 2)
1: ((2x - ((x + 2) mod 4)) div 3)
1: ((2x - ((x div 4) mod 2)) div 3)
1: ((2x - (x mod 2)) div 3)
1: ((2x - (x mod 4)) div 3)
1: ((2x - (x mod (3 - (x mod 2)))) div 3)
1: ((2x - (x mod 6)) div 3)
1: ((2x - (x mod 8)) div 5)
1: ((x2 + ~1) div (x + 7))
1: ((x2 + ~1) div (4 + (x mod 3)))
1: ((x2 + ~1) div (x + 3))
1: ((x2 + ~1) div (x + 4))
1: ((x2 + ~1) div 9)
1: ((x2 + ~1) div ((2x + 4) + (x mod 3)))
1: ((x2 + ~1) div (2 + (x div 2)))
1: ((x2 + ~1) div (2 + (x div 3)))
1: ((x2 + ~1) div (~1 + (2 * (x mod 2))))
1: ((x2 + ~2) div 7)
1: ((x2 + ~2) div (7 + (x div 2)))
1: ((x2 + ~2) div (x + 8))
1: ((x2 + ~2) div 13)
1: ((x2 + ~2) div (1 + (4 * (2 + (x mod 2)))))
1: ((x2 + ~2) div (4x + 9))
1: ((x2 + ~2) div ((if x <= 0 then 1 else x) + (x div 2)))
1: ((x2 + ~2) div (2 + i))
1: ((x2 + ~2) div 11)
1: ((x2 + ~2) div ((~2x + 4) - (x div 2)))
1: ((x2 + ~2) div (x - ((~x + 2) div 2)))
1: (((x2 + ~x + ~1) - ((x2 + 2x) div 5)) div 2)
1: (((x2 + ~1) - ((2 * (1 + ((1 + ((1 + loop(\(x,i).(x + (i * i)),(x + ~1),x)) div 2)) div 2))) div 3)) div 2)
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1: (((x2 + ~1) - ((((x3 + ~3x2 + 2x) div 2) div 2) div 3)) div 2)
1: (((x2 + 3) + ((x + ((x + 1) mod 6)) div 2)) div 2)
1: (((x2 + 1) - (3 * ((x div 2) mod 2))) div 2)
1: (((x2 + 1) - ((~x + ((x div 2) mod 2)) div 3)) div 3)
1: (((x2 + ~x) + (2 * (((x2 div 2) mod (x + 1)) div 2))) div 2)
1: ((x2 - ((~2x + (x div 2)) * (1 + (x div 2)))) div 2)
1: ((x2 - (2 * (~2 + (x mod 2)))) div (x + 4))
1: ((x2 - (3 * ((x2 + ~x) div 4))) div 2)
1: ((x2 - ((2 - (x div 2)) div 2)) div 3)
1: ((x2 - ((~x + 2) div 2)) div 2)
1: ((x2 - (((x mod 2) - (x div 2)) div 2)) div 2)
1: ((x2 - ((x + ~1) div 2)) div 2)
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1: ((x2 - ((~x2 + 2x) div 4)) div 3)
1: ((x2 - ((x3 + ~3x2 + 2x) div 9)) div 7)
1: ((x2 - ((x div 2) div ~2)) div 2)
1: ((x2 - (x div 2)) div 2)
1: ((x2 - (x div 4)) div (x + 1))
1: ((x2 - (x div (2 + (x div (2 + (x mod 3)))))) div 2)
1: ((x2 - ((1 + (x div 4)) mod 2)) div 2)
1: ((x2 - (2x mod 5)) div 2)
1: ((x2 - ((x div 4) mod 2)) div 2)
1: ((x2 - (x mod 3)) div 5)
1: ((x2 - (if (~2 + (x div 2)) <= 0 then 1 else 2)) div 2)
1: ((x2 - (if x <= 0 then 0 else 1)) div 3)
1: ((x2 - (if x <= 0 then 0 else 1)) div 5)
1: ((x2 - (if x <= 0 then 1 else (~1 + (3 * ((~x2 + 1) mod 8))))) div 2)
1: ((x2 - (if x <= 0 then 1 else (x + (((x + 1) div 3) mod 2) - (x div 2)))) div 2)
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1: ((x2 - loop(\(x,i).(x * i),x,1)) div 2)
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1: ((~x + (2 div (8 - (x div 2)))) div 2)
1: ((~x + (2 div (x + ~16))) div 2)
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1: ((~1 + ((x + ((2 - (x div 2)) mod 4)) div 2)) div 2)
1: ((~1 + ((x + ((x div 2) mod 2)) div 2)) div 3)
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1: ((((x + 1) div 2) - (((x + 2) div 3) mod 4)) div 2)
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1: ((~2 + ((~x + 1) div 3)) div 3)
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1: ((~x + ((~x + 1) div 3)) div 5)
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1: ((~x + ((~x + 2) div 4)) div 3)
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1: ((((~x + (x2 div 4)) div 2) - (x div 3)) div 2)
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1: ((((x + ~1) div 3) - (x2 div 3)) div 2)
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1: ((~1 + ((x + ~1) div (2 + (if (x mod 5) <= 0 then 2 else 0)))) div 2)
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1: ((~1 + ((x - ((x div 2) mod 4)) div 2)) div 2)
1: ((~1 + ((4x + 4) div (2 + (x div 3)))) div 2)
1: ((~1 + ((x * ((x + 2) + (3 * (x div 2)))) div 2)) div 2)
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1: ((~1 + ((x3 + 2x) div 2)) div 2)
1: ((~x + ((3 * (1 + ((x2 + ~2) div (x + 4)))) div 2)) div 2)
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1: ((~1 + ((x * (x + (x div 4))) div 2)) div 2)
1: ((~1 + ((x2 + x) div 3)) div 3)
1: ((~1 + ((x2 + x) div 8)) div 3)
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1: ((~1 + (((x2 + x) * (1 - (2 * (x mod 2)))) div 2)) div 2)
1: ((~1 + ((~2x2 + 2x) div 3)) div 3)
1: ((~x + (((~x + 1) * (x div 2)) div 2)) div 2)
1: ((~1 + ((~x2 + x) div 2)) div 3)
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1: ((~x + ((~x2 + x) div 4)) div 2)
1: ((~2 + (((~x + 2) * (x div 2)) div 2)) div 3)
1: ((~x + (((~x + 2) * (x div 2)) div 3)) div 3)
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1: ((~1 + ((x * (~1 + (x mod 3))) div 2)) div 3)
1: ((~1 + ((x2 + ~x) div 4)) div 2)
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1: ((~1 + ((14x3 + 21x2 + 14x + 7) div 2)) div 2)
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1: ((~x + (x3 div 5)) div 3)
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1: ((~x + (x3 div (x + 16))) div 3)
1: ((~1 + (((x + 1) * ((x2 + (x div 2)) div 2)) div 2)) div 2)
1: ((~1 + ((x * ((2 - (x div 2)) div 2)) div 3)) div 3)
1: ((~1 + (((x + 1) * ((~x + 2) div 2)) div 2)) div 3)
1: ((~x + ((((~x + 2) div 2) * (x div 4)) div 2)) div 2)
1: ((~1 + ((x * ((~1 + (x div 2)) div 2)) div 2)) div 2)
1: ((~1 + (((x + ~2) * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) div 3)) div 2)
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1: ((~1 + (((x + ~1) * (x div 2)) div 2)) div 2)
1: ((~x + ((x * (x div 2)) div 3)) div 8)
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1: ((~1 + (((~x + 1) * (x mod 3)) div 2)) div 2)
1: ((~1 + ((x * (x mod (2 + (x div 2)))) div 4)) div 2)
1: ((~x + (2x div (2 + (x div 2)))) div 3)
1: ((~x + (2x div (1 - (x div ~4)))) div 2)
1: ((~1 + (x2 div 2)) div 3)
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1: (((x2 div 2) - ((if x <= 0 then 1 else x) mod 2)) div 3)
1: (((x2 div 2) - (x mod 2)) div 5)
1: (((x2 div 2) - (if (x + ~2) <= 0 then 1 else (x + ~2))) div 2)
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1: ((~x + (x2 div 3)) div (x + 4))
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1: ((~2x + (x2 div 4)) div 5)
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1: ((~x + (x2 div 4)) div 2)
1: ((~x + (x2 div 4)) div 5)
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1: ((~1 + ((((~x + 1) * (x div 2)) div 2) div 3)) div 2)
1: ((~x + (((10x3 + 3x2 + ~4x) div 2) div 3)) div 2)
1: ((~1 + ((x2 div 2) div 3)) div 3)
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1: ((((x2 div 2) div 5) - (if x <= 0 then 0 else 1)) div 3)
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1: ((~x + (((~2x + 4) mod (2 + (x div 2))) div 2)) div 2)
1: ((~1 + ((loop(\(x,i).(2x + 2),x,0) mod (x + 1)) div 2)) div (1 + (2 * (x mod 2))))
1: ((~x + ((x mod 3) div 2)) div 4)
1: ((~x + ((x mod ~4) div 2)) div 3)
1: ((~x + (loop(\(x,i).(x + (i * i)),x,2) div 3)) div 4)
1: ((~1 + (loop(\(x,i).(x + loop(\(x,i).(x * i),(x + ~2),1)),x,0) div 2)) div 2)
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1: (((x div 2) - (x div (2 + ((x + 2) mod 4)))) div 2)
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1: (((x div 2) - (x mod ((x + ~1) - (x mod 12)))) div 2)
1: (((x div 2) - (x mod ((x + 1) - (x mod 10)))) div 2)
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1: ((~1 + ((2 + (if (~x + 2) <= 0 then x else 0)) mod 5)) div (x + 1))
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1: ((~x + ((x + 1) mod 8)) div 3)
1: ((~1 + ((x + 2) mod 5)) div 2)
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1: ((~x + ((0 - ((x div 2) div 3)) mod 3)) div 2)
1: ((~x + ((0 - (x div 5)) mod 3)) div 2)
1: ((~x + ((1 - (x div 2)) mod (1 + (x div 5)))) div 2)
1: ((((~x + 1) mod 4) - (x div 2)) div 3)
1: ((~x + ((~x + 1) mod 4)) div 3)
1: ((~1 + ((~x + 1) mod (2 + (x div 4)))) div 2)
1: ((~1 + ((~x + 2) mod 8)) div (2x + 1))
1: ((~1 + ((~1 + (9 * (if (~2 + (x div 4)) <= 0 then 1 else 2))) mod (x + 3))) div (x + 1))
1: ((~1 + ((2x2 + ~1) mod (4 + (x div 4)))) div 3)
1: ((~2 + ((x2 + ~1) mod (2 * (2 + ((x + ((x mod (1 + (x div 2))) div 2)) div 2))))) div (x + 1))
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1: ((~1 + ((x + ~1) mod 5)) div 2)
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1: ((~x + ((x + ~1) mod 7)) div 2)
1: ((~1 + ((x + ~1) mod (1 + (x div 3)))) div 2)
1: ((~x + ((x + ~1) mod (1 + (x div 3)))) div 3)
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1: ((~1 + ((~2x + 2) mod (4 + (x div 4)))) div (2 + (x mod (2 + (x mod 2)))))
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1: ((~2 + ((2 * ((x2 + x) mod 9)) mod (x + 1))) div 2)
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1: ((~1 + (2x mod (x + 10))) div 2)
1: (((2x mod (4 + (x div 4))) - ((2 + (x div 4)) mod 3)) div 2)
1: ((~x + (2x mod (1 + (x div 3)))) div 2)
1: ((~1 + (2x mod (2 - ((~x + 1) div 3)))) div 2)
1: ((~x + (x2 mod 3)) div 4)
1: ((~2 + (x2 mod ((x + 2) + (x div 3)))) div (x + 1))
1: ((~x + (((x + (x div 2)) div 2) mod 4)) div 3)
1: ((~x + (((x + (x div 2)) div 4) mod 2)) div 2)
1: ((~x + (((x + 2) div 3) mod 3)) div 2)
1: (((((~x + 2) div 2) mod 4) - (x mod 2)) div (x + 1))
1: ((~x + (((x + ~1) div 2) mod 2)) div 3)
1: ((~x + ((((x + 1) div 2) div 2) mod 2)) div 3)
1: (((~2x + ~2) + ((x div 2) mod 2)) div 3)
1: ((~x2 + ((x div 2) mod 2)) div 2)
1: ((((x div 2) mod 2) - ((x2 + 2x) mod 6)) div 2)
1: ((~x + ((x div 2) mod 4)) div 3)
1: ((~x + ((x div 2) mod 5)) div 2)
1: ((~x + ((x div 2) mod 5)) div 4)
1: ((~x + ((x div 2) mod ~3)) div 3)
1: ((~x + ((x div 2) mod 6)) div 5)
1: ((((x div 3) mod 2) - (if x <= 0 then 1 else x)) div 2)
1: ((~x + ((x div 3) mod 2)) div 4)
1: ((((x div 3) mod 3) - (x div 2)) div 3)
1: ((~x + ((x div 3) mod 3)) div 2)
1: ((((x div 4) mod 2) - (if x <= 0 then 1 else x)) div 2)
1: ((~x + ((x div (2 + ((x div 2) div 3))) mod 2)) div 2)
1: ((~x + ((x div ~4) mod 2)) div 3)
1: ((((x2 mod 15) mod 2) - (x div 2)) div 3)
1: ((~x + ((x mod 5) mod 2)) div 3)
1: ((~x + ((x mod (2 + (x div 3))) mod 2)) div 2)
1: ((((if x <= 0 then 1 else x) mod 2) - loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2)
1: ((~1 + (loop(\(x,i).10x,x,1) mod 31)) div 3)
1: ((~x2 + ((x mod 2) + (x div 8))) div 3)
1: ((1 + (x mod 2) - (((x - (((~x + 1) * (x div 3)) div 2)) div 2) div 2)) div 2)
1: ((1 + (x mod 2) - (x div 2)) div 5)
1: ((((x mod 2) + (x mod 3)) - (x div ~5)) div 2)
1: (((x mod 2) - (2 * (if x <= 0 then 1 else x))) div 3)
1: ((~2x + (x mod 2)) div 7)
1: (((x mod 2) - ((~1 + (x div 2)) div 2)) div 2)
1: (((x mod 2) - ((x + ~2) div 9)) div 2)
1: (((x mod 2) - ((x - ((x2 + 2x) div 3)) div 2)) div 2)
1: (((x mod 2) - ((x2 + 2x) div 7)) div 2)
1: (((x mod 2) - (((2 - (x div 2)) * (x div 4)) div 2)) div 2)
1: (((x mod 2) - (x2 div 3)) div 3)
1: (((x mod 2) - (x2 div 5)) div 3)
1: (((x mod 2) - (((~x2 + x) div 4) div 5)) div 2)
1: (((x mod 2) - ((x div 2) div ~3)) div 2)
1: (((x mod 2) - ((x div (1 + ((x div 2) mod 2))) div 3)) div 2)
1: (((x mod 2) - (x div 4)) div 2)
1: (((x mod 2) - (x div (4 + ((x div 2) mod 2)))) div 2)
1: (((x mod 2) - (x div ((if (x mod 3) <= 0 then 2 else 1) + (x mod 2)))) div 2)
1: (((x mod 2) - (x div ~5)) div 2)
1: (((x mod 2) - (2x mod (4 + (x div 4)))) div 3)
1: (((x mod 2) - (if (~x + 2) <= 0 then x else 2)) div 3)
1: ((~x + (x mod 2)) div (2 + (x div 4)))
1: ((~x + (x mod 3) - ((x2 + 2x) div 3)) div 2)
1: ((~2 + ((x mod 3) + (x div 4))) div 3)
1: ((1 + (x mod 3) - (x div (~2 - (x mod 4)))) div 2)
1: (((x mod 3) - (((((x + ~1) div 2) * (x div 2)) div 2) div 2)) div 2)
1: (((x mod 4) - (x div 4)) div 3)
1: (((x mod 5) - ((x2 + 2x) div 2)) div 2)
1: ((~x + (x mod 5)) div 2)
1: (((x mod (3 + (x div 4))) - (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)) div 2)
1: ((~1 + (x mod 9)) div (2x + ~1))
1: ((~1 + (x mod (1 + (((x + 1) div 2) div 2)))) div 2)
1: ((~1 + (x mod (2 + ((x2 + 2x) mod 6)))) div 2)
1: ((~2 + (x mod (~1 - (if (x mod 5) <= 0 then 2 else 0))) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) div 2)
1: ((~2 + (x mod (~x2 + 2))) div 2)
1: ((~x + (x mod 11)) div 2)
1: ((~x + (x mod (~2 + (3 * (8 - (x div 2)))))) div 2)
1: ((~x + (x mod (~2 + (x div ~4)))) div 2)
1: (((~2x + ~4) + (x mod 6)) div 3)
1: ((~1 + (x mod 12)) div 2)
1: ((~x + (x mod 12)) div 2)
1: ((~x + (x mod 10)) div 2)
1: ((~x + (i mod 2)) div 2)
1: ((~x + (i mod 2)) div 4)
1: ((~x + (if (~x + 4) <= 0 then 1 else 0)) div 2)
1: ((~1 + (if (2 - (2x mod (4 + (x div 4)))) <= 0 then 0 else (x2 + ~x))) div 2)
1: ((~1 + (if (~x + 2) <= 0 then x else 0)) div 5)
1: ((~x + (if (x + ~2) <= 0 then 0 else 1)) div 3)
1: ((~2 + (if (x + ~2) <= 0 then 0 else x)) div 3)
1: ((~2 + (if (x + ~2) <= 0 then 0 else x)) div 5)
1: (((if (x + ~2) <= 0 then 1 else (x div 3)) - (x mod 2)) div (1 + (x mod 2)))
1: (((if (x + ~2) <= 0 then 2 else 1) - ((x mod 3) div 2)) div (1 + (x mod 2)))
1: ((~x + (if (x + ~4) <= 0 then 2 else 0)) div 2)
1: (((if ((x + ~1) mod 8) <= 0 then x else 1) - (x div 4)) div 2)
1: ((~1 + (if ((x2 + x) mod 5) <= 0 then x else 0)) div 2)
1: (((if (x mod 2) <= 0 then 1 else x) - (x div 2)) div 3)
1: (((if (x mod 2) <= 0 then x else 2) - (x div 2)) div 4)
1: ((~x + (if (x mod 3) <= 0 then 2 else 1)) div 4)
1: ((~x + (if (x mod 4) <= 0 then 1 else 0)) div 3)
1: ((~1 + (if (x mod 4) <= 0 then x else 0)) div 3)
1: ((~1 + (if (x mod 4) <= 0 then x else (x div 2))) div 3)
1: ((~1 + (if (x mod (4 + (x div 2))) <= 0 then 1 else x)) div 2)
1: ((~1 + (if (x mod 6) <= 0 then x else 1)) div 2)
1: (((if (x mod 8) <= 0 then x else 0) - (x div 7)) div 2)
1: ((~x + (if (i mod 2) <= 0 then 2 else 0)) div 5)
1: ((~1 + (if (if (x mod (1 + (x mod 6))) <= 0 then 1 else 0) <= 0 then 1 else x)) div 3)
1: (((if x <= 0 then 1 else (x + ((x + ((x - ((x - ((x + (2 * ((1 + ((x * (x - ((1 + (((x * (x + (2 * (x mod 2)))) div 2) div 2)) div 2))) div 2)) div 2))) div 2)) div 2)) div 2)) div 2))) - (x mod 2)) div 2)
1: (((if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + (((3 * (x div 4)) div 2) * (x div 2))) div 2)) div 2)))) - (x mod 2)) div 2)
1: (((if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + ((1 + ((1 + (((1 + ((x * (1 + ((x * (x div 2)) div 3))) div 2)) div 2) div 2)) div 2)) div 2)) div 2)) div 2)))) - (x mod 2)) div 2)
1: (((if x <= 0 then 1 else (2 * (1 + ((1 + ((x mod (2 + ((1 + (2 * (((if x <= 0 then 1 else (2 * (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))))) - (x mod 2)) div 2))) mod (x + 1)))) div 2)) div 2)))) - (x mod 2)) div 2)
1: (((if x <= 0 then 1 else (2 * (1 + ((1 + (loop(\(x,i).2x,(x + ~7),1) div 2)) div 2)))) - (x mod 2)) div 2)
1: (((if x <= 0 then 1 else (2 * (1 + ((1 + ((~x + 2) mod (1 + ((((x + 1) + (x2 div 4)) div 2) div 2)))) div 2)))) - (x mod 2)) div 2)
1: (((if x <= 0 then 1 else (2 * (1 + ((loop(\(x,i).2x,x,2) mod loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2)))) - (x mod 2)) div 2)
1: (((if x <= 0 then 1 else (2 * (1 + ((loop(\(x,i).2x,x,loop(\(x,i).2x,((((1 + (8 mod (1 + (x div 2)))) div 2) + (if x <= 0 then 0 else 1)) - (x mod 2)),1)) mod (x + 1)) div 2)))) - (x mod 2)) div 2)
1: (((if x <= 0 then 1 else ((1 + (x div 4)) * (x div 3))) - (x mod 2)) div 2)
1: (((if x <= 0 then 1 else (2 * (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))))) - (x mod 2)) div 2)
1: ((~x + (if x <= 0 then 1 else (2 * (if x <= 0 then 1 else ((x2 + 2) + loop(\(x,i).(2 * (x + (x div 2))),x,1)))))) div 2)
1: ((1 + (if x <= 0 then 1 else x) - (x div 4)) div 2)
1: (((if x <= 0 then 1 else x) - ((~1 + ((x * (~1 + (x mod 3))) div 2)) div 3)) div 2)
1: (((if x <= 0 then 1 else x) - ((~2 + (x div 2)) div 3)) div 2)
1: ((~2 + (if x <= 0 then 2 else (x + (x mod (2 * (1 + (x mod 2))))))) div 3)
1: (((if x <= 0 then 2 else (x div 2)) - (x div 5)) div 2)
1: (((if x <= 0 then 2 else (x div (1 + (x mod 2)))) - (x div 3)) div 2)
1: ((loop(\(x,i).((4x + 1) + (x mod 2)),x,1) - loop(\(x,i).(3x + 1),x,1)) div 2)
1: ((~1 + loop(\(x,i).((x + 2) + ((x - ((x + (x div 2)) div 4)) div 2)),x,2)) div (x + 1))
1: ((~1 + loop(\(x,i).(3x + ((x2 + 2x) div 3)),x,1)) div 2)
1: ((~1 + loop(\(x,i).((x + 1) + (((1 + i) * i) div 2)),x,1)) div 2)
1: ((~x + loop(\(x,i).((x + 2) + (2x div 7)),x,1)) div 3)
1: ((~x + loop(\(x,i).((x + 2) + (x div 3)),x,1)) div (x + 2))
1: ((~x + loop(\(x,i).((x2 + x) + i),x,0)) div 2)
1: ((~x2 + loop(\(x,i).(2x + i),x,0)) div 2)
1: ((~x2 + loop(\(x,i).(2x + i),x,2)) div 2)
1: ((loop(\(x,i).(3x + 1),x,0) - loop(\(x,i).(5x + ~1),x,0)) div 2)
1: ((loop(\(x,i).(3x + 1),x,0) - loop(\(x,i).3x,(x div 2),1)) div 2)
1: ((loop(\(x,i).(3x + 1),x,1) - ((x div 2) mod 3)) div 2)
1: ((~x + loop(\(x,i).(7x + 3),x,0)) div 2)
1: ((loop(\(x,i).(1 + ((x + 1) * i)),(2 * (if (~2 + (x div 3)) <= 0 then 0 else 2)),1) - (x div 2)) div 2)
1: ((loop(\(x,i).(10x + 1),(2x + 1),1) - loop(\(x,i).10x,x,4)) div 2)
1: ((~1 + loop(\(x,i).(24x + 1),2,x2)) div (x + 1))
1: ((~2 + loop(\(x,i).(x3 + 2),2,2)) div (x + 1))
1: ((loop(\(x,i).(x2 + 1),x,2) - (x div 2)) div 2)
1: ((~x2 + loop(\(x,i).(1 + (x * i)),x,0)) div 2)
1: ((~x + loop(\(x,i).(1 + (x * i)),x,0)) div 2)
1: ((~1 + loop(\(x,i).(x + ((x + i) div 3)),x,2)) div (x + 1))
1: ((loop(\(x,i).(x + (x div 2)),x,3) - (x mod 2)) div 2)
1: ((~x + loop(\(x,i).(x + (x div 2)),x,x)) div 2)
1: ((~1 + loop(\(x,i).(x + loop(\(x,i).(1 + (x * i)),(i div 2),x)),x,0)) div 2)
1: ((~x + loop(\(x,i).(x + loop(\(x,i).(2 + (if (~x + i) <= 0 then 0 else x)),i,1)),x,0)) div 2)
1: ((~x + loop(\(x,i).(1 - loop(\(x,i).(x - (if x <= 0 then 1 else (2 * (1 + i)))),x,2x)),2,x)) div 2)
1: ((~x + loop(\(x,i).((x * (2 + i)) - (x div 2)),(x + ~1),1)) div 3)
1: ((~1 + loop(\(x,i).(4x - (i mod 4)),(x + 1),2)) div 2)
1: ((~1 + loop(\(x,i).(4x - (i mod 4)),x,4)) div 2)
1: ((loop(\(x,i).(2x - ((if (i mod 2) <= 0 then 1 else 2x) div (1 + i))),x,(x + 1)) - loop(\(x,i).2x,x,1)) div 2)
1: ((~1 + loop(\(x,i).(2x - ((x div 2) mod 2)),x,2)) div 3)
1: ((~1 + loop(\(x,i).(x2 + ~1),2,(x2 + 1))) div (x + 2))
1: ((~x + loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),x,1)) div 2)
1: ((loop(\(x,i).(5x + ~2),x,1) - loop(\(x,i).2x,x,1)) div 9)
1: ((~x + loop(\(x,i).(x - (2 * (if x <= 0 then 0 else i))),x,x)) div 2)
1: ((~1 + loop(\(x,i).(i - (2 * (~x + (x div 3)))),x,2)) div (x + 1))
1: ((loop(\(x,i).3x,(x + ~1),1) - loop(\(x,i).3x,((x + ~1) div 2),1)) div 2)
1: ((loop(\(x,i).3x,2x,1) - loop(\(x,i).7x,x,1)) div 2)
1: ((loop(\(x,i).3x,x,1) - ((x3 + ~x2 + ~x + 1) div 2)) div 2)
1: ((loop(\(x,i).3x,x,1) - loop(\(x,i).3x,(x div 2),((x + 1) mod 2))) div 3)
1: ((loop(\(x,i).3x,x,1) - loop(\(x,i).3x,(x div 2),(x mod 2))) div (x + 1))
1: (((~x2 + x) + loop(\(x,i).3x,x,2)) div 2)
1: ((loop(\(x,i).3x,x,2) - loop(\(x,i).(2x + 4),x,1)) div 2)
1: ((loop(\(x,i).3x,x,2) - loop(\(x,i).2x,x,(x + 2))) div 2)
1: ((loop(\(x,i).3x,x,3) - loop(\(x,i).2x,x,2)) div (x + 1))
1: ((~1 + loop(\(x,i).3x,x,(2 + (x div 4)))) div (2x + 1))
1: ((loop(\(x,i).3x,x,(1 + loop(\(x,i).2x,x,2))) - loop(\(x,i).5x,x,1)) div 2)
1: ((loop(\(x,i).5x,x,1) - loop(\(x,i).3x,x,1)) div 2)
1: ((loop(\(x,i).5x,x,2) - loop(\(x,i).(2x + 1),x,0)) div 9)
1: ((loop(\(x,i).(x2 + 3x),1,loop(\(x,i).2x,x,1)) - loop(\(x,i).3x,x,1)) div 2)
1: ((~1 + loop(\(x,i).(x * ((x + 1) + i)),2,2)) div (x + 1))
1: ((~2 + loop(\(x,i).7x,(x + 1),1)) div (x + 1))
1: ((loop(\(x,i).7x,x,1) - loop(\(x,i).(3x + 2),x,0)) div (x + 1))
1: ((loop(\(x,i).7x,x,1) - loop(\(x,i).5x,x,1)) div 2)
1: ((loop(\(x,i).(2 * (x + (x div 2))),x,3) - loop(\(x,i).2x,x,1)) div 2)
1: ((loop(\(x,i).(x2 + x),1,loop(\(x,i).2x,x,1)) - loop(\(x,i).3x,x,1)) div 2)
1: ((loop(\(x,i).(x2 + x),1,loop(\(x,i).(x * i),x,1)) - loop(\(x,i).3x,x,1)) div 2)
1: ((~1 + loop(\(x,i).(x2 + 2x),2,2)) div (x + 1))
1: ((~2 + loop(\(x,i).(x2 + 2x),2,2)) div (x + 1))
1: ((~1 + loop(\(x,i).(x * (2 + i)),x,2)) div 3)
1: ((loop(\(x,i).11x,x,3) - loop(\(x,i).7x,x,1)) div 2)
1: ((loop(\(x,i).(2 * (2x - (x div (1 + i)))),(x + ~1),2) - loop(\(x,i).4x,x,1)) div 2)
1: ((~1 + loop(\(x,i).(2 * (2x - (x div (1 + i)))),x,2)) div (x + 3))
1: ((~x + loop(\(x,i).(2 * (2x - (x div (1 + i)))),x,2)) div (x + 2))
1: ((loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,(x + 1)) - loop(\(x,i).4x,x,1)) div 2)
1: ((loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,(x + 1)) - loop(\(x,i).4x,x,1)) div (x + 1))
1: ((loop(\(x,i).10x,x,1) - loop(\(x,i).8x,x,1)) div 2)
1: ((loop(\(x,i).10x,x,3) - loop(\(x,i).6x,x,1)) div 2)
1: ((~1 + loop(\(x,i).10x,x,11)) div 2)
1: ((loop(\(x,i).(10x + 10),(2x + 1),0) - loop(\(x,i).10x,x,2)) div 2)
1: ((loop(\(x,i).8x,x,1) - loop(\(x,i).6x,x,1)) div 2)
1: ((loop(\(x,i).12x,x,3) - loop(\(x,i).8x,x,1)) div 2)
1: ((~1 + loop(\(x,i).4x,(x div 2),2)) div (1 + (2 * (x mod 2))))
1: ((loop(\(x,i).4x,x,1) - loop(\(x,i).~3x,x,1)) div 2)
1: ((loop(\(x,i).4x,x,2) - loop(\(x,i).3x,x,1)) div 2)
1: ((loop(\(x,i).4x,x,3) - loop(\(x,i).3x,x,2)) div 5)
1: ((loop(\(x,i).4x,x,3) - loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,1)) div 2)
1: ((~1 + loop(\(x,i).4x,x,4)) div (3x + 2))
1: ((~1 + loop(\(x,i).4x,x,4)) div (2x + 1))
1: ((loop(\(x,i).6x,x,1) - loop(\(x,i).4x,x,1)) div 2)
1: ((~1 + loop(\(x,i).(2x * i),x,1)) div loop(\(x,i).(1 + (x * i)),x,1))
1: ((loop(\(x,i).(x * ((1 + i) div 2)),(x div 2),1) - (x mod 2)) div 2)
1: ((~1 + loop(\(x,i).(3 * (x mod 7)),x,2)) div 2)
1: ((~1 + loop(\(x,i).(3 * (x mod 7)),x,8)) div 2)
1: ((~1 + loop(\(x,i).2x,1,loop(\(x,i).(x * i),(x + ~1),1))) div (x + 1))
1: ((~1 + loop(\(x,i).2x,(2 + (x mod 2)),(x div 2))) div (x + 2))
1: ((loop(\(x,i).2x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),2) - (x mod 3)) div 2)
1: ((loop(\(x,i).2x,(x + ~1),1) - (if (x mod 2) <= 0 then 1 else x)) div 3)
1: ((loop(\(x,i).2x,((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2),1) - (x mod 2)) div 3)
1: (((~x2 + ~x) + loop(\(x,i).2x,(x div 2),2)) div 2)
1: ((~2 + loop(\(x,i).2x,x,1)) div 5)
1: ((~1 + loop(\(x,i).2x,x,1) - (2 * ((x2 + 4x + 4) div (~x + 26)))) div 2)
1: (((loop(\(x,i).2x,x,1) + loop(\(x,i).3x,x,1)) - loop(\(x,i).3x,(x + ~2),1)) div loop(\(x,i).2x,x,2))
1: (((loop(\(x,i).2x,x,1) + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) - compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)) div 2)
1: ((loop(\(x,i).2x,x,1) - (3 * loop(\(x,i).(2 * (2 - (i mod 2))),x,1))) div 2)
1: ((loop(\(x,i).2x,x,1) - (x2 mod 6)) div 3)
1: ((loop(\(x,i).2x,x,1) - loop(\(x,i).(3x + 1),(x div 2),1)) div 3)
1: ((loop(\(x,i).2x,x,1) - loop(\(x,i).(x - loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,0)),3,x)) div 2)
1: ((loop(\(x,i).2x,x,1) - loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),((x + 1) div 2),1)) div 2)
1: ((loop(\(x,i).2x,x,1) - loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),(x div 2),((x + 1) mod 2))) div 2)
1: ((loop(\(x,i).2x,x,1) - loop(\(x,i).(3x * (i * i)),(x + ~1),1)) div 2)
1: ((loop(\(x,i).2x,x,1) - loop(\(x,i).(2 * (x div (~2 + (i mod 2)))),x,1)) div 2)
1: ((~1 + loop(\(x,i).2x,x,2)) div (x + 3))
1: ((~1 + loop(\(x,i).2x,x,2)) div (1 + (4 * ((x * (x div 2)) mod 2))))
1: ((~1 + loop(\(x,i).2x,x,2)) div (1 + (2 * (x mod 2))))
1: ((~1 + loop(\(x,i).2x,x,2)) div (1 + (2 mod (1 + (x mod (2 + (x mod 2)))))))
1: ((~1 + loop(\(x,i).2x,x,2)) div (x + 2))
1: ((loop(\(x,i).2x,x,2) - loop(\(x,i).(4x + 2),x,1)) div 2)
1: ((loop(\(x,i).2x,x,2) - loop(\(x,i).(x * i),(x div 2),1)) div 2)
1: ((~x + loop(\(x,i).2x,x,2)) div 2)
1: ((~x + loop(\(x,i).2x,x,2)) div 4)
1: ((loop(\(x,i).2x,x,3) - loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),((x + 1) div 2),1)) div 2)
1: ((loop(\(x,i).2x,x,3) - loop(\(x,i).2x,((x + 1) div 2),1)) div 2)
1: ((~1 + loop(\(x,i).2x,x,(1 + (2 * (1 + loop(\(x,i).(2x + 4),(x + ~1),0) - (x mod 2)))))) div 2)
1: ((loop(\(x,i).2x,x,(2 + (x mod 2))) - (x mod 2)) div 2)
1: ((~1 + loop(\(x,i).2x,x,(x + 2))) div 3)
1: ((~1 + loop(\(x,i).2x,x,(8 - ((x + 2) div 3)))) div (x + 1))
1: ((~1 + loop(\(x,i).2x,x,(if x <= 0 then 1 else x))) div 5)
1: ((~1 + loop(\(x,i).2x,x,loop(\(x,i).(2x + 1),x,2))) div 3)
1: ((loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) - (if (x + ~2) <= 0 then 2 else 1)) div 2)
1: (((~x + ~1) + loop(\(x,i).x2,2,4)) div 2)
1: ((~x + loop(\(x,i).x2,2,(x + 2))) div 2)
1: ((~x + loop(\(x,i).(x * i),x,2)) div (x + 2))
1: ((~1 + loop(\(x,i).(x * i),i,1)) div (x + 1))
1: ((~1 + loop(\(x,i).((x2 + 3x + 2) div 2),x,4)) div 3)
1: (((~x2 + x) + loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,2)) div 2)
1: ((~x + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,(x + 1))) div 2)
1: ((~1 + loop(\(x,i).(loop(\(x,i).2x,x,2) mod (x + 1)),1,(2x + 2))) div 5)
1: ((~x + loop(\(x,i).(if x <= 0 then (2 * i) else (x + ~1)),x,1)) div 2)
1: ((~x + loop(\(x,i).(if x <= 0 then i else (x div 2)),x,0)) div 2)
1: ((~1 + loop(\(x,i).loop(\(x,i).(x * i),i,x),x,1)) div (2x + 3))
1: ((~x + loop(\(x,i).i,(~2 + (x div 2)),1)) div 2)
1: ((~x + loop(\(x,i).i,(x div 4),2)) div 2)
1: ((x + ~1) div (4 + (x div 4)))
1: ((x + ~1) div (1 + ((x div 4) + (x mod 2))))
1: ((x + ~1) div (2 + ((x div 7) + (x mod 2))))
1: ((x + ~1) div (3 + ((~x + 1) mod (2 + (x div 2)))))
1: ((x + ~1) div (4 + (x mod 4)))
1: ((x + ~1) div (3 + (if (x mod 3) <= 0 then 0 else 2)))
1: ((x + ~1) div ((x + ~1) + (2 * ((x div 2) - (x mod 4)))))
1: ((x + ~1) div (1 + (3 * (2 + ((x div 2) mod 2)))))
1: ((x + ~1) div (1 + (2 * (2 + ((x mod 3) mod 2)))))
1: ((x + ~1) div (1 + (2 * ((x + ~1) div (1 + (x div 4))))))
1: ((x + ~1) div (1 + (2 * (~x mod 5))))
1: ((x + ~1) div (1 + (2 * (x mod 2))))
1: ((x + ~1) div (2 + ((x + 1) div 5)))
1: ((x + ~1) div (2 + ((x + 1) div 7)))
1: ((x + ~1) div (2 + ((x div 2) div 3)))
1: ((x + ~1) div (1 + ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)))
1: ((x + ~1) div (2 + ((if (x mod 2) <= 0 then 2 else x) div 2)))
1: ((x + ~1) div (1 + (x div 4)))
1: ((x + ~1) div (2 + (x div 4)))
1: ((x + ~1) div (2 + (x div 5)))
1: ((x + ~1) div (1 + (x div (2 + (x div (1 + (x mod (2 * (1 + (x mod 2))))))))))
1: ((x + ~1) div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2)))))))
1: ((x + ~1) div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))
1: ((x + ~1) div (2 + (x div 8)))
1: ((x + ~1) div (1 + ((x + 1) mod 4)))
1: ((x + ~1) div (2 + ((x + 2) mod 4)))
1: ((x + ~1) div (2 + ((x + ~1) mod 3)))
1: ((x + ~1) div (2 + ((x + ~2) mod 5)))
1: ((x + ~1) div (1 + ((x * (x div 2)) mod 5)))
1: ((x + ~1) div (2 + (x mod 2)))
1: ((x + ~1) div (2 + (x mod 3)))
1: ((x + ~1) div (1 + (x mod 5)))
1: ((x + ~1) div (1 + (x mod (1 + (((x + 1) div 2) div 3)))))
1: ((x + ~1) div (1 + (x mod (1 + (x div 3)))))
1: ((x + ~1) div (1 + (x mod (4 * (2 - (x mod 2))))))
1: ((x + ~1) div (1 + (if (~2 + (x div 2)) <= 0 then x else 2)))
1: ((x + ~1) div (2 + (if (~2 + (x div 3)) <= 0 then 2 else 1)))
1: ((x + ~1) div (1 + (if (x mod 4) <= 0 then 2 else 1)))
1: ((x + ~1) div (2 + (if (x mod 5) <= 0 then 2 else 0)))
1: ((x + ~1) div (~x + 18))
1: ((x + ~1) div (2 - ((1 - (x div 2)) div 3)))
1: ((x + ~1) div (2 - (x div (1 + ((x div 2) mod 2)))))
1: ((x + ~1) div (2 - (x div ~4)))
1: ((x + ~1) div (2 - (x mod (~1 + ((~x + 2) div 3)))))
1: ((x + ~1) div (~10 + (x div 2)))
1: ((x + ~1) div (6 - (x * (x mod 2))))
1: ((x + ~1) div (~1 + (2 * (x mod 4))))
1: ((x + ~1) div (~1 + (((~x + 2) div 2) div 5)))
1: ((x + ~1) div (x - ((x + ~1) mod 4)))
1: ((x + ~1) div (2 * (2 + ((x + 2) mod 4))))
1: ((x + ~1) div (3 * (1 + ((~x + 2) mod 4))))
1: ((x + ~1) div (2 * (2 + ((x div 3) mod 3))))
1: ((x + ~1) div (2 * ((x + 1) - (2 * ((x + 1) div (2 + (x mod 2)))))))
1: ((x + ~2) div (3 + (x div 4)))
1: ((x + ~2) div 9)
1: ((x + ~2) div 13)
1: ((x + ~2) div (2 + ((x div 3) * (x div 3))))
1: ((x + ~2) div (1 + (2 * (x div 4))))
1: ((x + ~2) div (1 + (2 * ((x + 1) mod 4))))
1: ((x + ~2) div (1 + (2 * (x mod 2))))
1: ((x + ~2) div (1 + (3 * (x mod 4))))
1: ((x + ~2) div (2 + ((x div 2) div 5)))
1: ((x + ~2) div (2 + ((x div 2) div (2 - ((x div 2) mod 2)))))
1: ((x + ~2) div (1 + (x div 2)))
1: ((x + ~2) div (1 + (x div 3)))
1: ((x + ~2) div (2 + (x div (2 + ((~x + 2) mod 4)))))
1: ((x + ~2) div (2 + (x div (1 + (x mod 2)))))
1: ((x + ~2) div (2 + (x div (2 - (x mod ~3)))))
1: ((x + ~2) div (2 + (x div 8)))
1: ((x + ~2) div (1 + ((x + 2) mod 4)))
1: ((x + ~2) div (1 + ((x + ~1) mod 4)))
1: ((x + ~2) div (2 + (x2 mod 5)))
1: ((x + ~2) div (1 + (x mod 3)))
1: ((x + ~2) div (2 + (x mod (2 + (x div 4)))))
1: ((x + ~2) div (2 + (if (x mod 3) <= 0 then 1 else 2)))
1: ((x + ~2) div (2 + (x div 2) - (x div 3)))
1: ((x + ~2) div (~2 + (x div (~2 + (x mod 2)))))
1: ((x + ~2) div ((x + ~2) + (2x mod (6 + (x mod 2)))))
1: ((x + ~2) div (x - (if (x mod 12) <= 0 then 2 else 0)))
1: ((x + ~2) div (if x <= 0 then 1 else 4))
1: ((x + ~3) div (x + ~18))
1: ((x + ~4) div (2 + (x div 2)))
1: (((x + ~2) - (((2x + 3) + (2 * ((1 + (((2x + 2) * (1 + (((1 + (((x + 1) * (1 + ((x + (x mod 4)) * (1 + (x div 4))))) div 2)) div 2) div 2))) div 2)) div 2))) div 3)) div 2)
1: ((0 - (if (x + ~1) <= 0 then 1 else loop(\(x,i).(x - (if x <= 0 then 1 else i)),x,x))) div 2)
1: (((x + ~1) + (5 * (1 + (x div 2)))) div 2)
1: (((x + ~1) + (2 div (1 + ((1 + (x div 2)) mod 4)))) div 2)
1: (((x + ~1) + ((~x + 1) div (1 + (((2x + 1) mod (2 + (x div 4))) div 2)))) div 2)
1: (((x + ~1) + ((2 * (3 + (((~1 + (6 * (1 + ((1 + (x div (1 + (x mod (1 + (x mod (1 + (x div (2 * (2 - (x mod 2))))))))))) div 2)))) div 2) div 2))) div 3)) div 2)
1: (((x + ~1) + (2x div 5)) div 2)
1: (((x + ~1) + (x div 3)) div 3)
1: (((x + ~1) + ((x + 1) mod (~1 + (2 * (x - (x mod 10)))))) div 2)
1: (((x + ~1) + ((~x + 1) mod 8)) div 3)
1: (((x + 1) - (3 * (1 + ((x - (2 * ((x + (if (x mod 3) <= 0 then 1 else 2)) div 4))) * (x div 3))))) div 2)
1: (((x + 1) - ((1 + (x mod 3)) * (x mod 3))) div 2)
1: (((x + 1) - ((~2x + (x div 2)) * (x div 2))) div 2)
1: (((x + 1) - (2 * (~1 + (x mod 4)))) div 2)
1: (((x + 1) - (2 * (~x + (x mod 10)))) div 2)
1: (((x + 1) - (2 * ((~2x + 1) div 3))) div 3)
1: (((x + 1) - (x * ((x div 2) div 5))) div 2)
1: (((x + 1) - (5 * (x div ~7))) div 2)
1: (((x + 1) - (2 * ((x - (2 * ((x div (2 * (~2 + ((x * (x div 2)) mod 2)))) div 3))) mod (x + 1)))) div 2)
1: (((x + 1) - (5 * loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x))) div 2)
1: (((~x2 + x + 1) - (((x + 1) * ((~x + 1) - loop(\(x,i).3x,(x div 2),2))) div 2)) div 2)
1: (((~x2 + x) + (((x3 + ~x) div 2) div 3)) div 2)
1: (((x + 1) - ((1 + ((x * (x div 2)) div 4)) div 2)) div 2)
1: (((x + 1) - ((1 + (x div (1 + (31 mod (2x + 1))))) div 2)) div 2)
1: (((x + 1) - ((x + 1) div (1 + (10 mod (x + 1))))) div 2)
1: (((x + 1) - ((~x + 2) div 4)) div 2)
1: (((x + 1) - ((~x + 2) div (3 + (x mod 2)))) div 2)
1: (((x + 1) - ((~x2 + (x div 2)) div 2)) div 2)
1: (((x + 1) - (((x div 2) - (x mod 2)) div 2)) div 2)
1: (((x + 1) - ((2 * (1 + ((1 + (((x + ~2) div 3) * (x div 2))) div 2))) div 3)) div 2)
1: ((3x - ((x2 + ~x) div 4)) div 4)
1: (((x + 1) - (((x + ~1) * ((~x + 1) div 3)) div 2)) div 3)
1: (((x + 1) - ((((~x + 2) div 2) * (x div 3)) div 2)) div 2)
1: (((x + 1) - (x2 div 4)) div 3)
1: (((x + 1) - (((1 + (((1 + (((x + 1) * (1 + (2 * (x - (x div (2 + (if (~2 + (x div 4)) <= 0 then 1 else 2))))))) div 2)) div 2) div 2)) div 2) div 2)) div 2)
1: (((x + 1) - (((2 + ((1 - (x mod (1 + ((2 - (x div 2)) mod 4)))) mod (x + 1))) div 2) div 2)) div 2)
1: (((x + 1) - (((x + 1) div 2) div (1 + (x mod 8)))) div 2)
1: (((x + 1) - (((3 * (1 + (2 * (2 + ((4x + (x2 div 4)) div (x + 2)))))) div 2) div 2)) div 2)
1: (((x + 2) - ((((x + 2) * ((~x + 2) div 2)) div 2) div 2)) div 2)
1: (((x + 1) - (((x * ((~x2 + 2x) div 4)) div 2) div 3)) div 2)
1: (((x + 1) - ((x div 4) div ~2)) div (1 + (x mod 2)))
1: (((x + 1) - (((x + ~1) mod (2 - (x div ~2))) div 2)) div 2)
1: (((x + 1) - (((2x2 + ~x) mod (x + 4)) div 2)) div 2)
1: (((x + 1) - ((x mod 3) div 2)) div 2)
1: (((x + 1) - ((x mod ((x + 2) - (x mod ((x + 1) - (x mod 10))))) div 2)) div 2)
1: (((x + 1) - ((x mod (x - ((x + ~1) mod 8))) div 2)) div 2)
1: ((x + (3 * (if (x mod 8) <= 0 then 1 else 2)) - (x div 2)) div 2)
1: ((x + (x mod 6) - (x div 2)) div 2)
1: (((x + 1) - (x div 3)) div 3)
1: ((x + (if (x mod 3) <= 0 then 2 else 1) - (x div 4)) div 2)
1: (((x + 1) - (x div (1 + (((x2 + 2x) div 2) mod (1 + (x div (2 + (x div 3)))))))) div 2)
1: (((x + 1) - (x div (1 + (loop(\(x,i).2x,(2x + ~1),1) mod (x + 1))))) div 2)
1: (((x + 1) - (x div 8)) div (1 + (((x + 1) div 2) div 2)))
1: (((x + 1) - ((1 + ((x - ((x div 2) mod 2)) div 2)) mod (1 + (x div 5)))) div 2)
1: (((x + 1) - ((1 + ((x * (1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x))) div 2)) mod 5)) div 2)
1: (((x + 1) - ((1 + ((x2 + 2x) div 4)) mod 5)) div 2)
1: (((x + 1) - ((4x + (x2 div 4)) mod (x + 5))) div (x + 1))
1: (((x + 1) - ((1 + (x div 2)) mod 3)) div 2)
1: (((x + 1) - ((1 + (x div (1 + (((2x + 1) mod (2 + (x div 4))) div 2)))) mod (x + 1))) div 2)
1: (((x + 1) - ((1 + (x div (1 + (x mod (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))) mod (x + 1))) div 2)
1: (((x + 1) - ((1 + (x mod (1 + (4 * (2x mod 7))))) mod (x + 1))) div 2)
1: (((x + 1) - ((1 + (x mod (1 + (11 mod (x + 1))))) mod (x + 1))) div 2)
1: (((x + 1) - ((x + 1) mod 3)) div 2)
1: (((x + 1) - ((1 - (2 * (x div 4))) mod (1 + (((x + 1) div 2) div 2)))) div 2)
1: (((x + 1) - ((~x + 1) mod 3)) div (2 + (x div 3)))
1: (((x + 1) - ((x3 + ~1) mod (1 + (x div 2)))) div 2)
1: (((x + 1) - ((x + ~2) mod (1 + (x div 3)))) div 2)
1: (((x + 1) - ((x - ((2 - (x * (x div 2))) div 5)) mod 3)) div 2)
1: (((x + 1) - ((x - (if (x + ~2) <= 0 then 0 else 1)) mod 3)) div 2)
1: (((x + 1) - ((2 * (1 + ((x mod 10) mod (1 + (x div 2))))) mod 3)) div 2)
1: (((x + 1) - ((~2x + 2) mod (1 + (x div 3)))) div 2)
1: (((x + 1) - ((2x + ~2) mod (1 + (x div 2)))) div 2)
1: (((x + 2) - ((x * (x div 2)) mod 2)) div 3)
1: (((x + 1) - (2x mod (4 + (x div 4)))) div 2)
1: (((x + 2) - (((1 + (x div 2)) div 2) mod 4)) div 2)
1: (((x + 1) - ((loop(\(x,i).(2x + i),(x + ~2),1) div 2) mod 2)) div 2)
1: (((x + 1) - ((x div 2) mod 3)) div 2)
1: (((x + 1) - ((x div 2) mod ~5)) div 2)
1: ((x + (if (x + ~2) <= 0 then 1 else 2) - ((x div 3) mod 2)) div 2)
1: (((x + 1) - ((x2 mod (2x + ~5)) mod 3)) div 2)
1: (((x + 1) - ((x mod 8) mod (1 + (x div 2)))) div 2)
1: (((x + 1) - (loop(\(x,i).2x,x,2) mod (x + 1))) div 2)
1: (((x + 2) - (loop(\(x,i).2x,x,(1 + (x mod 2))) mod (x + 1))) div 2)
1: (((x + 1) - (x mod (1 + (if (x mod 5) <= 0 then 0 else 2)))) div 2)
1: (((x + 1) - (x mod (3 * (2 + (x mod 8))))) div 2)
1: (((x + 1) - (x mod (2 * (4 - (x mod 3))))) div 2)
1: (((x + 1) - (x mod loop(\(x,i).2x,loop(\(x,i).(x div (1 + (x mod 2))),x,x),1))) div 2)
1: (((x + 1) - loop(\(x,i).((x + 1) + ((x + (x div 2)) div 4)),x,0)) div 2)
1: (((x + 1) - loop(\(x,i).(if x <= 0 then i else (x div 2)),x,2)) div 2)
1: ((x - (5 * (x + (x div 4)))) div 2)
1: ((x - (4 * (x + (x mod 2)))) div 2)
1: ((~x2 + ~3x + ~4) div 2)
1: ((7x2 + x + 7) div 2)
1: ((x - (3 * (1 - (((x + 1) div 2) mod 5)))) div 2)
1: ((x - ((2 - ((x div 2) mod 2)) * (x div 3))) div 2)
1: ((3x + ~4) div (2 + (x div 2)))
1: ((x - (3 * ((3x + 2) - ((2x + 1) div 7)))) div 2)
1: ((x - (3 * (~3 + (x div 2)))) div 2)
1: ((x - (3 * (~x + ((~x + 2) div 2)))) div 2)
1: ((x - ((~2 + (x div 2)) * (x div 2))) div (x + 2))
1: ((x - ((~2x + (x div 2)) * (1 + (x div 2)))) div 2)
1: ((x - (2 * (~1 + (x div 3) - ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)))) div 3)
1: ((x - (4 * (~x + (x div 5)))) div 3)
1: ((x - (3 * (~1 + loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)))) div 4)
1: ((x - (x * (x - (((x3 + ~x) div 2) div 3)))) div 2)
1: ((~4x2 + ~7x) div 3)
1: ((2x3 + ~3x2 + 2x) div 2)
1: ((x3 + ~6x2 + 13x + ~8) div 2)
1: ((x4 + ~2x3 + ~2x2 + 5x) div 2)
1: ((x3 + ~4x2 + 5x) div 2)
1: ((6x3 + ~7x2 + 3x) div 2)
1: ((15x2 + ~11x) div 2)
1: ((x - (4 * (~x + ((x + 1) div ~7)))) div 3)
1: ((x - (4 * (~6 + (x div 3)))) div (x + 2))
1: ((21x2 + x) div 2)
1: ((x + ~32) div 2)
1: ((~x7 + x) div 7)
1: (~7x div (1 + i))
1: (~11x div (1 + i))
1: ((x - (x * ((x div 2) * (x div 3)))) div 2)
1: ((x - (4 * (x div ~5))) div 3)
1: ((~3x2 + x) div 2)
1: ((~4x2 + x) div (x + 2))
1: ((~x3 + ~x2 + x) div 2)
1: ((x - (2 * ((1 + (x div 2)) div 3))) div 3)
1: ((x - (((1 - (x div 3)) div 3) * (2 + (x mod 2)))) div 3)
1: ((x - (3 * ((~x + 1) div 7))) div 2)
1: ((x - (2 * ((2 - (x div 3)) div 2))) div 3)
1: ((x - (2 * ((x + ~1) div 3))) div 3)
1: ((x - (2 * ((x + ~2) div (2 + ((x div 2) div 5))))) div 2)
1: ((x - (2 * (((x + 1) - ((x div 4) mod 2)) div 3))) div 3)
1: ((x - (3 * (3x div 7))) div 2)
1: ((x - (5 * ((x2 + 2x) div 12))) div 2)
1: ((x - (3 * ((~x * (x div 2)) div 2))) div 2)
1: ((x - (2 * (4x div (4 + (x div 2))))) div 3)
1: ((x - (2 * ((2 * (x div (1 + (2 * (2 - ((x mod 3) mod 2)))))) div 3))) div 2)
1: ((x - (3 * (x2 div 2))) div 2)
1: ((x - (2 * ((x div 2) div 3))) div 3)
1: ((x - (2 * (loop(\(x,i).(x + 2),(x + ~8),x) div 3))) div 2)
1: ((x - (3 * (x div 4))) div 2)
1: ((x - (3 * (x div 5))) div 2)
1: ((x - (3 * (x div (4 + ((x + 1) mod (1 + (2 * ((1 + (x div 4)) div 2)))))))) div 3)
1: ((x - (3 * (x div ~2))) div (2 + (x mod 2)))
1: ((x - (2 * ((x div 2) mod 2))) div 3)
1: ((x - (2 * ((x div 5) mod 3))) div 3)
1: ((x - (2 * (x mod 5))) div 5)
1: ((x - (2 * (if (x mod 4) <= 0 then 2 else (x mod 2)))) div 5)
1: ((x - (2 * loop(\(x,i).(x - (((~x + ~1) + (x div 3)) div 3)),x,1))) div 2)
1: ((x - (x * loop(\(x,i).((x2 + ~x) div 2),2,(x + ~2)))) div 2)
1: ((x - (1 div (~1 + (2 * (x mod 4))))) div 3)
1: ((x - (2 div (1 + (x mod 9)))) div 2)
1: ((x - (2 div (8 - (x div 2)))) div 2)
1: ((x - (3 div (1 + (x div 4)))) div 2)
1: ((x - (((x + 1) + ((x3 + 2x) div 9)) div 3)) div 2)
1: ((x - ((2x2 + 4x + 1) div 7)) div 2)
1: ((x - ((x + (2 * ((1 + ((x * (x - ((1 + (((x * (x + (2 * (x mod 2)))) div 2) div 2)) div 2))) div 2)) div 2))) div 2)) div 2)
1: ((x - ((x + (3 * (x mod 10))) div (x + 2))) div 2)
1: ((x - ((x2 + (x div 2)) div 2)) div 2)
1: ((x - ((((~x + 2) div 2) + (x mod 3)) div 3)) div 2)
1: ((x - ((x + ((x2 + 3x + 2) div 2)) div 7)) div 2)
1: ((x - ((x2 + (x2 div 4)) div 2)) div 2)
1: ((x - ((2 + (x2 div 5)) div 3)) div 2)
1: ((x - ((1 + ((loop(\(x,i).(x + (x div 2)),x,2) div 2) div 2)) div 2)) div 2)
1: ((x - ((x + (loop(\(x,i).(2x2 + ~1),(x div 2),x) div 2)) div 2)) div 2)
1: ((x - ((1 + (x div 2)) div 2)) div (1 + (x div 3)))
1: ((x - ((x + (x div 2)) div (1 + ((1 + (x div 2)) div 3)))) div 2)
1: ((x - ((x + (x div 2)) div ~4)) div 2)
1: ((x - ((1 + (8 mod (1 + (x div 2)))) div 2)) div 2)
1: ((x - ((1 + (((x2 + x) div 2) mod 7)) div 2)) div 2)
1: ((x - (((x mod 10) + (x div 4)) div 2)) div 2)
1: ((x - ((x + 2) div (2 + (x mod 2)))) div 2)
1: ((x - ((x + 2) div (~1 + ((x div 2) div ~2)))) div 2)
1: ((x - ((0 - ((2x + 1) mod (2 + (x div 4)))) div 2)) div 2)
1: ((x - ((0 - ((1 + (x div 2)) mod 4)) div 2)) div 2)
1: ((x - ((0 - (((~x + 2) div 2) mod 4)) div 2)) div 2)
1: ((x - ((0 - ((x div 2) mod 4)) div 2)) div 2)
1: ((x - ((0 - (x mod (~2 + ((~x + 2) div 4)))) div 2)) div 2)
1: ((x - ((~x + 1) div 3)) div (1 + i))
1: ((x - ((~x + 1) div (4 - (x mod 2)))) div 2)
1: ((x - ((~x + 1) div (2 + (x div 2)))) div 2)
1: ((x - ((~x + 1) div (2 + (x mod 4)))) div 2)
1: ((x - (((~x + 2) + ((x div 2) div 3)) div 2)) div 2)
1: ((x - ((2 - ((x + (x div 2)) div 2)) div 2)) div 2)
1: ((x - ((2 - ((x + 1) div (2 * (2 - ((x div 4) mod 2))))) div 2)) div 2)
1: ((x - ((2 - (x2 div 3)) div 2)) div 2)
1: ((x - ((2 - ((if x <= 0 then 2 else x) div 2)) div 2)) div 2)
1: ((x - ((2 - (x div 2)) div 2)) div 3)
1: ((x - ((2 - (x div 3)) div 2)) div 2)
1: ((x - ((2 - (x div (2 + (x div (1 + (x mod 4)))))) div 2)) div 2)
1: ((x - ((2 - ((x + 1) mod (1 - (x mod ~7)))) div 2)) div 2)
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1: ((x - (x mod ((7 * (if x <= 0 then 1 else 2)) - (x div 2)))) div 2)
1: ((x - (x mod (~x + ((x + ~1) mod 8)))) div 3)
1: ((x - (x mod (~2 + ((x div 2) mod ~2)))) div 2)
1: ((x - (x mod (x + ((x div 2) mod 2) - ((x + ~1) div 3)))) div 2)
1: ((x - (x mod (2 * (2 + (x mod 2))))) div 2)
1: ((x - (x mod (2 * (1 + (x mod 3))))) div 2)
1: ((x - (i mod 2)) div 2)
1: ((x - (i mod 4)) div 2)
1: ((x - (if (~2 + (x div 2)) <= 0 then 1 else 0)) div 2)
1: ((x - (if (~2 + (x div 2)) <= 0 then 1 else 2)) div 2)
1: ((x - (if (~2 + (x div 4)) <= 0 then 1 else 0)) div 2)
1: ((x - (if (~2 + (x div 4)) <= 0 then 2 else 1)) div 2)
1: ((x - (if (~2 + (x div 4)) <= 0 then 2 else 1)) div 3)
1: ((x - (if (x + ~3) <= 0 then 1 else 0)) div 3)
1: ((x - (if ((x2 div 2) mod 3) <= 0 then (x div 4) else 1)) div 2)
1: ((x - (if ((x mod 3) mod (1 + (x mod 4))) <= 0 then 1 else 0)) div 2)
1: ((x - (if (x mod 2) <= 0 then 2 else 0)) div 5)
1: ((x - (if (x mod 3) <= 0 then 1 else 2)) div 2)
1: ((x - (if (x mod 3) <= 0 then 1 else (2x + ~4))) div 3)
1: ((x - (if (x mod 4) <= 0 then 0 else 1)) div 3)
1: ((x - (if (x mod 4) <= 0 then x else 1)) div 3)
1: ((x - (if (x mod (1 + ((x + 2) div 5))) <= 0 then (if x <= 0 then 0 else 1) else 2)) div 4)
1: ((x - (if x <= 0 then 0 else 1)) div 3)
1: ((x - (if x <= 0 then 0 else 1)) div (1 + ((2 + (x div 2)) div 3)))
1: ((x - (if x <= 0 then 1 else (x div 3))) div 3)
1: ((x - (if x <= 0 then 1 else (loop(\(x,i).(x2 + ~x),2,4x) mod (x + 1)))) div 3)
1: ((x - loop(\(x,i).(1 + (x div 2) - (2 * (x mod 2))),((x + 1) div 2),1)) div 2)
1: ((x - loop(\(x,i).(x2 + 1),x,2)) div 2)
1: ((x - loop(\(x,i).(~x2 + (x div 2)),2,(x + 2))) div 2)
1: ((x - loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,0)) div (2 - (x mod 2)))
1: ((x - loop(\(x,i).(x - ((~2 + (x div 2)) div 3)),x,x)) div 2)
1: ((x - loop(\(x,i).(x - (if x <= 0 then 1 else (2 * i))),x,2x)) div 2)
1: ((x - loop(\(x,i).(x - (if x <= 0 then (2 - i) else 1)),x,2)) div 3)
1: ((x - loop(\(x,i).(i - (x * i)),x,0)) div 2)
1: ((x - loop(\(x,i).2x,((x - (x div 3)) div 3),1)) div 2)
1: ((x - loop(\(x,i).(2 * i),(x + ~8),1)) div 2)
1: ((x - loop(\(x,i).(if x <= 0 then i else (x + ~3)),x,0)) div 2)
1: ((x - i) div 3)
1: ((~1 + i) div 3)
1: ((~1 + i) div 4)
1: ((i - (x div 2)) div 2)
1: ((~x + compr(\x.(x mod (1 + (x div 8))),x)) div 2)
1: (6 div ((~2x + 4) + (x2 div 3)))
1: (6 div (1 + ((1 - (x mod 3)) mod (x + 1))))
1: (6 div (6 - (x div 3)))
1: (6 div ((2x + 4) div 3))
1: (6 div (if x <= 0 then 1 else x))
1: (6 div loop(\(x,i).~x,x,(1 + ((x + 1) mod 3))))
1: (3x div (5 + (x div 2)))
1: (3x div (4 + ((x div 2) div 5)))
1: (3x div ((x + 2) - (x div 4)))
1: (3x div (x2 + ~x + 1))
1: (3x div (2 + (4x div (x + 2))))
1: (3x div (2 + (x div 2)))
1: (3x div (2 + (x div 3)))
1: (3x div (1 + (x mod 2)))
1: (3x div (1 + (i mod 2)))
1: (3x div (x + 2))
1: (3x div (2 - ((~4x + 2) div (x + 3))))
1: (3x div (~1 - i))
1: (3x div (~2x + 31))
1: (3x div (~2 + (x div ~2)))
1: (3x div (~2 + (x div ~4)))
1: (3x div (~2 + (x div (~1 + ((1 - (x div 2)) div 3)))))
1: (8 div (x + 3))
1: (8 div (1 + (3 * ((8 * (2 - (x mod 2))) div (x + 1)))))
1: (8 div (1 + ((x + 1) div 2)))
1: (8 div (1 + (x div 2)))
1: (8 div (1 + (x mod 3)))
1: (8 div (1 + (x mod (1 + ((x2 + 2x) mod 8)))))
1: (8 div (x + 2))
1: (8 div (if x <= 0 then 1 else x))
1: (12 div (x + 2))
1: ((4x + 4) div (2 + (x div 2)))
1: ((4x + 4) div (2 + (x div 3)))
1: ((4x + 4) div (1 + i))
1: ((4x + 4) div ~11)
1: ((4x + ~4) div 3)
1: ((4x + ~4) div (4 + (x div 4)))
1: ((4x + ~4) div 7)
1: ((4x + ~4) div (x + 2))
1: (10 div (x + 2))
1: ((5x + 10) div (1 + (x div 3)))
1: (5x div (x + 2))
1: (5x div (~x + 24))
1: (5x div (~1 + (x div ~2)))
1: ((2 * ((5x + 6) + ((x + ((1 + ((((3x2 + 17x) div 2) div 2) div 2)) div 2)) div 2))) div 3)
1: (((x + 1) * ((5x + 6) + (((x + (x2 div 4)) div 2) div 3))) div 2)
1: ((3 * ((5x + 5) - ((((x div 2) mod 2) - (if (~x + 2) <= 0 then x else 0)) div 2))) div 2)
1: ((2 * ((4x + 3) + ((x - ((x - (3 * (1 - (((x + 1) div 2) mod 5)))) div 2)) div 2))) div 3)
1: ((2 * ((4x + 1) + (((x + 1) + (((x + 1) + (((x2 + ~x) div 2) + (x div 3))) div 2)) div 2))) div 3)
1: ((3 * ((4x + 6) + ((x - (x div 9)) div 2))) div 2)
1: (((x + 1) * ((x + 8) + ((x2 + 2x) div 8))) div 8)
1: ((2 * ((2x + 6) + (2x div (8 + (x mod 2))))) div 3)
1: ((2 * ((3x + 4) + ((~x + 1) mod (2 + (x div (2 + (x mod 2))))))) div 3)
1: ((((3x + 3) + ((x * (x div 2)) mod 2)) * (2 + (x div 2))) div 2)
1: ((2 * ((3x + 4) + loop(\(x,i).(x - ((~1 + (x div 4)) div 2)),2,(x + ~1)))) div 3)
1: ((2 * ((3x + 1) + (((2 * ((2x + 2) + (if x <= 0 then 1 else (2 * (2x + ((x + ((x div 2) mod 2)) div 2)))))) div 3) + ((x + 1) div 3)))) div 3)
1: ((2 * ((4x + 1) + ((2 * (2 + (if x <= 0 then 1 else (2 * (3x + ((x - (x div 12)) div 2)))))) div 3))) div 3)
1: ((2 * ((2x + 6) - ((~x + 1) div (1 + ((x + 1) div 5))))) div 3)
1: ((2 * ((3x + 2) + (((1 + (2 * (if x <= 0 then 1 else (2 * (4x - ((x + ((x div 2) mod 2)) div 2)))))) div 3) + ((x + 1) div 3)))) div 3)
1: ((2 * ((2x + 3) + ((2 * ((x + 2) + (((2x + 1) + (2 * ((x + 1) + ((2 * (1 + ((2 * (1 + (2 * (2x - (2x div 7))))) div 3))) div 3)))) div 3))) div 3))) div 3)
1: (((x + 1) * (8 + ((3 * (x - (x div 11))) div 2))) div 2)
1: ((2 * ((2x + 4) + ((2x * (2 + (2 div (x + 1)))) div 3))) div 3)
1: ((2 * ((2x + 4) + (x2 div ((x + 1) + (2 * (x div 5)))))) div 3)
1: (((x + 1) * (7 + ((((x + ~1) + (x div 2)) div 2) div 2))) div 2)
1: (((x + 1) * (7 + ((5 * (1 + (x div 4))) mod (x + 1)))) div 3)
1: ((2 * ((2x + 1) + ((((x div 2) div 3) mod 2) + (x div 3)))) div 3)
1: ((2 * ((x + 3) + ((x mod (4 - (x mod 2))) + (x div 3)))) div 3)
1: ((x * ((x + 4) + ((if (16 mod (x + 1)) <= 0 then 1 else 0) + (x mod 2)))) div 2)
1: ((2 * ((4x + 2) + (if x <= 0 then 1 else ((2 * (4x - (3x div 5))) div 3)))) div 3)
1: ((x * ((2x + 4) + loop(\(x,i).(2x - ((~1 + i) div 2)),x,1))) div 2)
1: ((2 * ((x + 5) + compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,7x)),x))) div 3)
1: ((2 * ((2x + 4) - (x mod (~1 + ((~x + 1) div 2))))) div 3)
1: ((3 * ((2x + 1) + ((2 * ((2x + 2) + (if x <= 0 then 1 else (2 * (4x + ((x + ((x div 2) mod 2)) div 2)))))) div 3))) div 2)
1: ((2 * ((4x + ~1) + ((2 * ((2x + 2) + (if x <= 0 then 1 else (2 * (2x + ((x - (x div 4)) div 2)))))) div 3))) div 3)
1: ((2 * (3x + (if x <= 0 then 1 else 5x) - ((~2x + 2) div 9))) div 3)
1: ((2 * ((2x + 2) + (15 * (x2 div 3)))) div 3)
1: ((3 * ((2x + 1) + (2 * (((2x + 1) + (2 * ((8x + 1) div (1 + (if x <= 0 then 0 else 2))))) div 3)))) div 2)
1: ((3 * ((2x + 1) + (2 * ((3 * (x + ((x div 2) div 5))) div 2)))) div 2)
1: ((3 * (1 + ((3 * (if (x mod 2) <= 0 then (3 * (if (x mod 4) <= 0 then (2 * (2 + (if x <= 0 then 0 else 2))) else 1)) else 1)) + (if x <= 0 then 1 else 2) + (x mod 2)))) div 4)
1: ((2 * ((2x + 2) + (((2x + 1) + (2 * ((x + 1) + (5 * (x + (x div 4)))))) div 3))) div 3)
1: (((x + 1) * ((2x + 1) + (((x + 1) + (((x + 1) + (((3x + 1) + (if (x + ~1) <= 0 then 1 else (2 * ((x + 1) - (((~x2 + x) div 2) div 5))))) div 2)) div 2)) div 2))) div 2)
1: ((2 * ((x + 3) + (((x + 1) + (((1 + (((1 + (((2x + 5) * compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) div 3)) div 2) div 2)) div 2) div 2)) div 2))) div 3)
1: ((3 * (6 + ((1 + (2 * (2 + (23 mod (x + 1))))) div (x + 1)))) div 2)
1: ((2 * ((x + 3) + ((1 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))) div 3))) div 3)
1: (((x + 1) * (6 + ((x + 1) div (5 * (1 + (x mod 3)))))) div 2)
1: ((2 * ((2x + 2) + ((x + 2) div (2 + (if (~2 + (x div 4)) <= 0 then 1 else 2))))) div 3)
1: ((2 * ((2x + 2) + ((~1 + loop(\(x,i).2x,x,(x + 2))) div 3))) div 3)
1: ((2 * ((2x + 2) + ((2 * ((x + 2) + (2 * ((x div 3) div (1 + (x div 4)))))) div 3))) div 3)
1: (((x + 1) * ((x + 3) + ((2 * (1 + (((x * ((x + 2) + (2 * (x mod 2)))) div 2) + (x mod 2)))) div 3))) div 2)
1: ((2 * ((2x + 2) + ((2 * ((x + 2) + ((3 * (x + (6x div (x + 1)))) div 2))) div 3))) div 3)
1: (((x + 1) * (6 + (((x + 1) * ((x + 1) + (x mod 2))) div (1 + (x div 3))))) div 2)
1: (((x + 1) * ((2x + 2) + ((2x2 + 9x + 10) div 3))) div 2)
1: ((2 * ((x + 3) + ((2 * (1 + ((x - ((((~x + 1) div 3) * (1 + (x div 2))) div 2)) div 2))) div 3))) div 3)
1: ((2 * ((x + 3) + ((4 * (x + ((x div 2) div 7))) div 3))) div 3)
1: (((x + 1) * (6 + ((3 * ((12x + 12) div 5)) div 2))) div 2)
1: ((x * (5 + (((x + 1) div 2) div 2))) div (x + 1))
1: (((x + 2) * ((2x + 4) + ((x * (x div 3)) mod 2))) div 2)
1: (((x + 1) * (6 + (((x2 + x) div 2) mod 5))) div 2)
1: ((2 * ((2x + 1) + (loop(\(x,i).2x,x,~1) mod (x + 2)))) div 3)
1: ((2 * (5 + (x mod 2))) div (1 + ((x + 1) div 2)))
1: (((x + 1) * ((2x + 1) + ((x mod 2) + (x mod ~3)))) div 2)
1: ((2 * (4 + ((x mod 8) + (x mod 3)))) div 3)
1: (((x + 1) * ((x + 3) + (if (~x + 2) <= 0 then 2 else 1))) div 2)
1: (((x + 1) * ((2x + 2) + (if (~2 + (x div 5)) <= 0 then 2 else 1))) div 2)
1: (((x + 1) * (5 + (if (6 mod (x + 1)) <= 0 then 1 else 2))) div 2)
1: (((x + 1) * (6 + (if x <= 0 then 1 else ((x + 1) + ((2 * (4 + (if x <= 0 then 2 else ((x + 2) + (2 * (2 - (x mod 2))))))) div 3))))) div 2)
1: ((2 * ((2x + 2) + (if x <= 0 then 1 else ((2x + ~1) + ((2 * (3x + (if x <= 0 then 1 else 5x) - ((~2x + 2) div 9))) div 3))))) div 3)
1: ((2 * ((2x + 2) + (if x <= 0 then 1 else ((2x + ~1) + ((2 * ((x + 2) + ((2 * ((x + 1) + (2 * (2x + (2x div 5))))) div 3))) div 3))))) div 3)
1: ((2 * ((2x + 2) + (if x <= 0 then 1 else (6x + (((x + 1) + (x mod 2)) div 5))))) div 3)
1: ((2 * ((2x + 2) + (if x <= 0 then 1 else (6x + (((~x + 1) - (x mod 2)) div 3))))) div 3)
1: ((2 * ((2x + 2) + (if x <= 0 then 1 else (6x + (((x + ~1) mod (2 + (x div 2))) div 2))))) div 3)
1: (((x + 1) * ((x + 4) + (if x <= 0 then 1 else (2 + loop(\(x,i).((x + ~1) - (if x <= 0 then 0 else i)),x,x))))) div 2)
1: ((2 * ((2x + 2) + (if x <= 0 then 1 else (2 * ((x + ~1) + ((2 * ((3x + 2) - ((x - ((x + (x div 3)) div 3)) div 2))) div 3)))))) div 3)
1: ((2 * ((2x + 2) + (if x <= 0 then 1 else (2 * (x + ((x + (((2x + 1) + (((x + 1) + (4 * (2x - (2x div 7)))) div 3)) div 2)) div 2)))))) div 3)
1: ((2 * ((2x + 2) + (if x <= 0 then 1 else (2 * (2x + ((x + (x div 3)) div 5)))))) div 3)
1: ((2 * ((2x + 2) + (if x <= 0 then 1 else (2 * (4x + ((x + ((x div 2) mod 2)) div 2)))))) div 3)
1: ((2 * ((2x + 2) + (if x <= 0 then 1 else (2 * (2x + ((x + ((x div 2) mod 2)) div 2)))))) div 3)
1: ((2 * ((2x + 2) + (if x <= 0 then 1 else (2 * (2x + ((x - (x div 4)) div 2)))))) div 3)
1: ((2 * ((2x + 2) + (if x <= 0 then 1 else (2 * (x + ((x div 2) div 5)))))) div 3)
1: ((2 * ((x + 4) + (if x <= 0 then 1 else (2 * (3x - ((x div 2) div 3)))))) div 3)
1: ((2 * ((2x + 2) + (if x <= 0 then 1 else (2 * ((4x + 1) - loop(\(x,i).(x + (if (~2 + (x div 4)) <= 0 then 1 else 2)),2,x)))))) div 3)
1: (((x + 1) * ((2x + 2) + (if x <= 0 then 1 else (3 * (((x + 1) - (2 * (~1 + (x mod 4)))) div 2))))) div 2)
1: (((x + 1) * (6 + loop(\(x,i).((x + 1) - (((~x + 2) div 2) div 3)),x,1))) div 2)
1: ((3 * ((x + 1) + (loop(\(x,i).3x,x,2) + loop(\(x,i).2x,x,1)))) div 2)
1: (((x + 1) * (6 + loop(\(x,i).(x * i),x,loop(\(x,i).(x + loop(\(x,i).(x * i),i,2)),x,1)))) div 2)
1: ((x2 + 7x + 10) div 3)
1: ((2x2 + 9x + ~5) div (x + 2))
1: (((x + 5) * (x div 3)) div 3)
1: (((x + 5) * (x div 5)) div 2)
1: (((6 + i) * (1 + i)) div 2)
1: ((2 * ((x + 3) + compr(\x.(1 - (x mod (1 + (2 * (x div (2 + ((x div 2) div 3))))))),x))) div 3)
1: (((x + 1) * ((x + 3) + ((1 + ((x * (x div 2)) div 4)) div 5) - (x mod 2))) div 2)
1: ((3 * ((4x + 5) - ((~x + 2) div (4 + (x mod 2))))) div 2)
1: ((2 * ((2x + 2) + (x div 5) - (x div 12))) div 3)
1: ((2 * ((2x + 1) - (x2 div (3x + 4)))) div 3)
1: (((x + 1) * ((x + 4) - (x div ~14))) div 2)
1: (((x + 1) * ((x + 1) + (2 * (1 + (x div 3) - (2 * (x mod 2)))))) div 2)
1: ((5 * (1 + ((2 * ((2x + 1) - (x mod 2))) + ((x div 2) mod 2)))) div 2)
1: ((x * ((14x + 9) + (x div 2))) div 2)
1: ((2x3 + 5x2 + 13x) div 2)
1: ((2x3 + 5x2 + 17x) div 2)
1: ((28x2 + 105x + 98) div 2)
1: ((2 * ((x + 2) + (2 * (x + ((x + (((3 * (x + (x div 7))) div 2) div 2)) div 2))))) div 3)
1: ((2 * ((x + 1) + (2 * (x + ((x + ((x div 2) mod 2)) div 2))))) div 3)
1: ((2 * ((x + 1) + (2 * ((3x + 3) + ((x - ((~2 + (x div 2)) div 3)) div 2))))) div 3)
1: ((2 * ((x + 1) + (2 * ((2x + 2) + ((x - (x div 3)) div 3))))) div 3)
1: ((2 * ((x + 1) + (2 * (2x + (2x div 5))))) div 3)
1: ((2 * ((x + 1) + (2 * (4x + ((x mod (1 + (x div 2))) div 2))))) div 3)
1: (((x + 1) * ((x + 1) + (2 * (2x + ((x mod (1 + (x div 2))) div 2))))) div 2)
1: ((3 * ((x + 1) + (2 * (x + (((x div 2) div 3) mod 2))))) div 2)
1: (((x + 1) * (4 + ((2 + (x mod 2)) * (x div 2)))) div 2)
1: ((9 * ((x + 1) + (2 * (2x + (x mod 2))))) div 2)
1: ((x * ((x + 1) + (2 * (x + (if (x mod 2) <= 0 then x else 1))))) div 2)
1: ((2 * ((x + 1) + (2 * ((3x + 2) - ((2x + 1) div 7))))) div 3)
1: ((2 * ((x + 1) + (2 * (x - ((~x2 + 1) div (x + 4)))))) div 3)
1: ((x2 + 25x) div 2)
1: ((2 * ((x + 1) + (4 * (x - ((2x + ~4) div 7))))) div 3)
1: ((x2 + 33x) div 2)
1: ((61x2 + ~59x) div 2)
1: ((3 * ((x + 1) + (2 * (((x + 1) + (x mod 2)) div 3)))) div 2)
1: ((x * ((x + 1) + (2 * ((1 + ((x * loop(\(x,i).(10x + 1),x,1)) div 2)) div 2)))) div 2)
1: ((x * ((x + 1) + (2 * ((x + (x div 2)) div 4)))) div 2)
1: ((2 * ((x + 1) + (2 * ((x + (x div 2)) div 8)))) div 3)
1: ((2 * ((x + 1) + (2 * ((x + ((x div 2) mod 2)) div 2)))) div 3)
1: ((2 * ((x + 1) + (((x + 1) div 3) * (x div 3)))) div 3)
1: (((x + 2) * ((x + 1) + (2 * ((x - ((~x + 2) div 4)) div 2)))) div 2)
1: ((2 * ((x + 1) + (2 * ((31x + 31) div 9)))) div 3)
1: (((x + 1) * ((x + 1) + (2 * (((((x + 1) * (4 + (x div 2))) div 2) div 2) div 2)))) div 2)
1: ((2 * ((x + 2) + (2 * ((x div 3) div (1 + (x div 4)))))) div 3)
1: ((((x + 1) + (3 * (x div 2))) * ((x + 1) div 2)) div 2)
1: ((x * ((x + 2) + (3 * (x div 2)))) div 2)
1: ((2 * (3 + (2 * (x div 4)))) div 3)
1: ((((x + 2) + (2 * (x mod 2))) * (if x <= 0 then 1 else x)) div 2)
1: ((x * ((x + 1) + (2 * loop(\(x,i).(x + (2 * ((2 + i) * (~1 + i)))),x,0)))) div 2)
1: ((x3 + 5x) div 2)
1: ((2 * ((x + 2) + (((2x + 1) + (2 * ((x + 1) + ((2 * (1 + ((2 * (1 + (2 * (2x - (2x div 7))))) div 3))) div 3)))) div 3))) div 3)
1: ((2 * ((x + 1) + (((2x + 1) + (2 * (x + ((3 * ((1 + (x div 2)) div 2)) div 2)))) div 3))) div 3)
1: (((x + 2) * (4 + (((x + 1) + ((((x + ~1) div 2) div 2) + (x mod 4))) div 2))) div 2)
1: ((2 * ((x + 1) + (((x + 1) + ((3 * (x + ((3 * ((x div 2) div 3)) div 2))) div 2)) div 2))) div 3)
1: ((3 * (3 + ((x2 + x + 94) div 2))) div 2)
1: ((2 * ((x + 2) + ((x + ((x + (x2 div 4)) div 3)) div 2))) div 3)
1: ((2 * ((x + 2) + ((x + ((x * ((x + 1) div 7)) div 2)) div 2))) div 3)
1: ((2 * ((x + 2) + ((x + ((2 * (x2 div 2)) div 5)) div 2))) div 3)
1: ((2 * ((x + 2) + ((x + ((x * (x div 2)) div 4)) div 3))) div 3)
1: ((2 * ((x + 2) + ((1 + ((x * (x div 7)) div 2)) div 2))) div 3)
1: ((3 * (2x + ((2 + (x2 div 2)) div (x + 2)))) div 2)
1: ((2 * ((x + 1) + ((x + (((1 + ((x2 + x) div 2)) div 2) div 2)) div 2))) div 3)
1: ((2 * ((x + 2) + ((1 + (((1 + (((x + 1) * ((x + 1) - ((~2x + 2) div 5))) div 2)) div 2) div 2)) div 2))) div 3)
1: ((2 * ((x + 1) + ((1 + loop(\(x,i).((x + 1) * ((x2 + 3x + 2) div 2)),1,(x2 + 2x + 1))) div (x + 1)))) div (x + 1))
1: (((x + 1) * ((2x + 3) + ((~x + (2 * (x - (((x2 + ~x) div 2) div 7)))) div 3))) div 2)
1: (((x + 1) * (4 + ((~1 + ((x3 + 2x) div 2)) div 2))) div 2)
1: ((3 * ((x + 1) + ((x - ((~x + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)) div 2)) div 2))) div 2)
1: ((2 * ((x + 2) + ((x - (((x div 2) - ((x2 + ~x) div 4)) div 2)) div 2))) div 3)
1: (((x + 1) * ((x + 1) + ((x - ((x mod 3) div 2)) div 2))) div 2)
1: ((2 * ((x + 2) + ((2 * ((x + 1) + (2 * (x + ((x + ((x div 2) mod 2)) div 2))))) div 3))) div 3)
1: ((2 * ((x + 2) + ((2 * ((x + 1) + (2 * (2x + (2x div 5))))) div 3))) div 3)
1: ((2 * ((x + 2) + ((2 * ((x + 1) + (2 * (4x + ((x mod (1 + (x div 2))) div 2))))) div 3))) div 3)
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1: ((16x3 + 33x2 + 20x + 3) div 3)
1: ((8x3 + 17x2 + 11x + 2) div 2)
1: ((8x3 + 9x2 + 3x) div 2)
1: ((8x2 + 19x + 6) div 2)
1: (((2x + 3) * ((8x + 2) + (x div 3))) div 2)
1: ((4x3 + 21x2 + 23x + 6) div 2)
1: ((4x3 + 9x2 + 7x + 2) div 2)
1: ((4x3 + 13x2 + 13x + 4) div 2)
1: ((13x2 + 17x + 4) div 2)
1: ((4x4 + 6x3 + 5x2 + x) div 2)
1: ((8x3 + 3x) div 2)
1: ((x5 + x2 + 2x) div 2)
1: (((x + ~1) * (1 + (2 * (1 + (2 * (loop(\(x,i).(x * (2 + i)),x,1) div 3)))))) div 2)
1: (((x + 2) * (1 + (2 * (x + (3 * (x div 2)))))) div 2)
1: (((x + 1) * (1 + (2 * (x + ((x + ~2) * (x div 2)))))) div 2)
1: ((x * (1 + ((1 + (x * (x div 2))) * (1 + (x div 2))))) div 2)
1: ((2 * (2 + ((1 + (2 * (loop(\(x,i).(x * (~1 + (2 * i))),x,~2) mod (x + 1)))) * (x mod 2)))) div 3)
1: (((x + 1) * (2 + (x * (1 + (2 * (x mod 2)))))) div 2)
1: ((14x2 + 27x + 9) div 2)
1: ((7x2 + 17x + 6) div 3)
1: ((2x3 + 7x2 + 8x + 4) div 2)
1: ((2x3 + 7x2 + 9x + 6) div 2)
1: ((2x3 + 7x2 + 9x + 4) div 2)
1: ((2x3 + x2 + x) div 2)
1: ((2x3 + 3x2 + 3x + 2) div 2)
1: ((x4 + x2 + 2x) div 4)
1: (((x + 1) * (x + (2 * (2 + (((x + 1) + (x div 4)) div 2))))) div 2)
1: ((3 * (1 + (2 * (2 + ((4x + (x2 div 4)) div (x + 2)))))) div 2)
1: (((x + 1) * (1 + (2 * (1 + ((1 + (x div (2 + (x mod 2)))) div 2))))) div 2)
1: ((2 * (1 + (2 * ((2x + 2) + ((x + (x div 12)) div 2))))) div 3)
1: ((2 * (1 + (2 * (x + ((x + 1) div 5))))) div 3)
1: (((x + 1) * (x + (2 * (x + ((x3 + 2x) div 3))))) div 2)
1: ((2 * (1 + ((((x2 + 3x + 2) div 2) + loop(\(x,i).2x,x,1)) * (2 + (x mod 2))))) div 3)
1: ((x * (1 + (3 * (1 + ((x2 + 2x) div 2))))) div 2)
1: (((x + 1) * (1 + (2 * (1 + ((x2 + 2x) div 4))))) div 3)
1: (((x + 1) * (3 + (2 * (1 + ((2 * ((2x + 4) - ((~x + 2) div (2 + (x div 4))))) div 3))))) div 2)
1: ((2 * (1 + (x * (1 + ((x * (x div 2)) div 3))))) div 3)
1: ((2 * (1 + (2 * (x + (((x - ((2 - (16 mod (x + 1))) div 2)) div 2) div 2))))) div 3)
1: ((x * (1 + (2 * ((2x + 2) + ((x div 2) div 5))))) div 20)
1: ((2 * (1 + ((x + 2) * (x + (x div 2))))) div 5)
1: ((2 * (x + (2 * (x + (x div 3))))) div (x + 2))
1: (((x + 1) * (2 + (3 * (x + (x div 4))))) div 2)
1: ((3 * (x + (3 * (x + (x div 4))))) div (x + 1))
1: ((3 * (1 + (2 * (1 + (x div 5))))) div 2)
1: ((2 * (1 + (2 * (x + (x div (4 + ((x div 4) mod 2))))))) div 3)
1: ((2 * (1 + (2 * (x + (x div (2 + ((x div 2) div 3))))))) div 3)
1: (((x + 1) * ((2 * (2 + (x div (1 + (x mod 4))))) + (x mod 2))) div 2)
1: (((1 + (2 * (x + (x div 15)))) * (x div 2)) div 2)
1: ((2 * (1 + (2 * (x + (x div 8))))) div 3)
1: ((2 * (1 + (x * (1 + ((1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),x,2x)) mod 3))))) div 3)
1: ((x * (1 + (2 * (2 + ((x + ~1) mod 3))))) div (1 + (x div 2)))
1: (((x + 1) * (1 + (2 * (2x + ((x * (x div 2)) mod 2))))) div 2)
1: (((x + 1) * (2 + ((1 + ((x * (x div 3)) mod (1 + ((2 - (x div 2)) mod 4)))) * (x mod 2)))) div 2)
1: ((3 * (1 + (x * (2 + (x mod 2))))) div 2)
1: ((3 * (x + (4 * (x + (x mod 2))))) div 2)
1: ((3 * (x + (8 * (x + (x mod 2))))) div 2)
1: (((x + 1) * (1 + ((x + (x mod 4)) * (1 + (x div 4))))) div 2)
1: ((2 * (1 + (2 * (1 + (x mod (2 + (35 mod (x + 1)))))))) div 3)
1: (((1 + (x * (2 + (x mod (2 + (x mod 2)))))) * (1 + (x div 2))) div 3)
1: (((1 + (2 * (1 + (if (~x + 2) <= 0 then x else 0)))) * (1 + (x div 2))) div 2)
1: ((3 * (1 + (5 * (x + (if (x + ~2) <= 0 then 1 else 2))))) div 2)
1: (((x + 1) * (1 + (x * (2x + (if (x mod 2) <= 0 then 1 else 4))))) div 2)
1: ((2 * (1 + (2 * (x + loop(\(x,i).(x - (x div 12)),2,x))))) div 3)
1: (((x + 1) * (2 + (x * (1 + loop(\(x,i).(x2 + x),2,2))))) div 2)
1: (((x + 1) * (2 + (x * (1 + loop(\(x,i).(2 * (~1 + (54 * loop(\(x,i).x2,1,(9x + 4))))),1,0))))) div 2)
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1: ((2x2 + 3x) div (~x + 26))
1: ((x * ((3x + 3) + (x div 2))) div 2)
1: ((3 * ((3x + 3) + (x div 4))) div 2)
1: (((x + 1) * ((3x + 3) + (if (x + ~2) <= 0 then 1 else 0))) div 2)
1: ((5x2 + 5x + 5) div 3)
1: ((2x3 + 5x2 + 5x + 3) div 2)
1: ((2x3 + 3x2 + 3x + 1) div 2)
1: ((x3 + 3x2 + 3x + 2) div 3)
1: ((x3 + 3x2 + 3x + 2) div 9)
1: ((x3 + x2 + x) div 2)
1: ((x3 + x2 + x) div (2 + (x div 2)))
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1: ((2x2 + 9x + 10) div 3)
1: ((2 * ((2x + 4) + (x div 2))) div 3)
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1: ((9x2 + 15x + 4) div 2)
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1: ((3x2 + 10x + 8) div 3)
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1: ((3x2 + 4x) div 8)
1: ((3x2 + 13x + 14) div 2)
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1: ((3x2 + 11x + 8) div 2)
1: ((2x2 + 6x + 8) div 7)
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1: ((2x3 + 9x2 + 14x + 5) div 2)
1: ((x3 + 4x2 + 5x) div 3)
1: ((x3 + 5x2 + 10x + 6) div 2)
1: ((x3 + 6x2 + 14x + 12) div 2)
1: ((x3 + 6x2 + 14x + 12) div 15)
1: ((x4 + 6x3 + 5x2 + 6x + 4) div 2)
1: ((x3 + 7x2 + 10x + 4) div 2)
1: ((2 * ((x2 + 4x + 4) + (if (~x + 2) <= 0 then 2 else 1))) div 3)
1: ((3x2 + 6x + 3) div 2)
1: ((3x2 + 6x + 3) div 5)
1: ((3x2 + 6x + 3) div (x + 17))
1: ((3x2 + 6x + 3) div 7)
1: ((5x2 + 10x + 5) div 2)
1: ((9x2 + 18x + 9) div 2)
1: ((2x4 + 4x3 + 3x2 + 2x + 1) div (2x + 1))
1: ((2x3 + 5x2 + 4x + 1) div 2)
1: ((2x3 + 5x2 + 4x + 1) div 3)
1: (((x2 + 2x + 1) * (1 + (if x <= 0 then 1 else x))) div 2)
1: ((x3 + 3x2 + 3x + 1) div 2)
1: ((2x2 + 4x + 4) div 5)
1: ((3x2 + 6x + 6) div 5)
1: ((x3 + 3x2 + 4x + 2) div 2)
1: ((x3 + 2x2 + 2x) div 4)
1: ((x3 + 2x2 + 2x) div 17)
1: ((x3 + 3x2 + 5x + 3) div 3)
1: ((x4 + 4x3 + 14x2 + 20x + 16) div 3)
1: ((x * ((x2 + 2x) + (x mod 3))) div 2)
1: ((x * (2 + ((1 + i) * i))) div 2)
1: (((2 + ((1 + i) * i)) * i) div 2)
1: ((x * (1 + ((x + 2) * (3 - (x div 2))))) div 2)
1: ((5 * (x + (2 * (2 - ((~2x + 1) div 5))))) div 2)
1: (((x + 1) * (1 + (2 * (2 - ((~x + 1) div 5))))) div 2)
1: (((x + ~1) * (1 + (2 * ((2x + ~1) - (x div 3))))) div 2)
1: ((x * (11x + (x div 7))) div 2)
1: ((4x3 + 7x2 + 4x + 1) div 2)
1: ((16x3 + 39x2 + 32x + 9) div 3)
1: ((4x3 + 15x2 + 20x + 9) div 3)
1: ((31x2 + x) div 2)
1: ((4x4 + 4x3 + ~x2 + 1) div 3)
1: ((2 * (1 + (2 * (2x - ((2x + 1) div 7))))) div 3)
1: ((2 * (1 + (2 * (2x - (2x div 7))))) div 3)
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1: ((x4 + ~x2 + 2x) div 2)
1: ((4x3 + ~7x) div 3)
1: (((2x + ((~2 + (x div 2)) * (x div 2))) * (1 + (x div 2))) div 2)
1: (((x + 1) * (2 + ((~1 + (x div 4)) * (x div 2)))) div 2)
1: ((2 * (1 + (2 * (loop(\(x,i).2x,x,1) - ((1 + (x div (~2 + (x mod 2)))) mod 3))))) div 3)
1: (((x + 1) * (1 + (x * (~1 + loop(\(x,i).loop(\(x,i).(x * i),i,x),x,~x))))) div 3)
1: ((3x2 + ~3x + 6) div (x + 6))
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1: ((2x3 + ~3x2 + 2x + 2) div 2)
1: ((x4 + ~2x3 + 3x2 + ~2x + 2) div 2)
1: (((x + 1) * (3 + (2 * ((x + 2) - ((~x + ((x div 2) mod 2)) div 2))))) div 2)
1: ((21x2 + ~17x) div 2)
1: ((7x3 + ~6x2 + 2x) div 3)
1: ((2 * (1 + (2 * (x - (2 * ((x + 2) div ~7)))))) div 3)
1: (((x + 1) * ((x + 2) + (2 * (x - (2 * ((x div 2) mod 2)))))) div 2)
1: (((x + ~1) * (1 + (2 * (x - ((~x + 1) div 3))))) div 2)
1: ((2 * (1 + (2 * (x - ((2x + ~1) div 7))))) div 5)
1: ((2 * (1 + (2 * (x - ((~2x2 + 4x) div 5))))) div 3)
1: ((3 * (x + (2 * (x - ((3 * (x div 4)) div 2))))) div 2)
1: (((x + 2) * (2 + (x * (x - (x div 3))))) div 2)
1: (((x + 1) * (1 + (2 * (x - (x div (2 + (if (~2 + (x div 4)) <= 0 then 1 else 2))))))) div 2)
1: (((x + 2) * (1 + (2 * (x - (x div ~2))))) div 2)
1: (((x + 1) * (1 + (2 * (x - (x mod 10))))) div 2)
1: ((3 * (1 + (3 * (x - loop(\(x,i).(x div (1 + (x mod 2))),x,x))))) div 2)
1: (((2 + ((~1 + i) * i)) * i) div 2)
1: (19x div (x + 2))
1: ((15x2 + 31x + 2) div 2)
1: ((15x2 + x) div 2)
1: ((x * (1 + (15 * i))) div (1 + i))
1: (34 div (x + 1))
1: (51 div (x + 1))
1: (85 div (x + 1))
1: ((17 * (1 + (x div 2))) div 2)
1: (17x div (x + 5))
1: ((x3 + 3x2 + 18x + 16) div 2)
1: ((x2 + 17x + 16) div 2)
1: ((x2 + 18x + 32) div (x + 1))
1: ((x2 + 16x) div (x2 + x + 2))
1: ((9x2 + 17x + 8) div 2)
1: ((9x2 + 26x + 16) div 2)
1: (37x div (1 + i))
1: (37x div (if i <= 0 then 1 else i))
1: ((25x2 + x) div 2)
1: ((45x2 + 47x + 2) div 2)
1: ((11x2 + 52x + 41) div 2)
1: ((2x3 + 12x2 + 19x + 9) div 3)
1: ((5x3 + 25x2 + 21x + 1) div 2)
1: ((3x4 + 2x3 + x) div 2)
1: ((21x2 + 58x + 32) div 2)
1: ((2x4 + 18x3 + 58x2 + 81x + 42) div 3)
1: ((4x3 + 18x2 + 27x + 13) div 2)
1: ((4x3 + 8x2 + 9x + 5) div 2)
1: ((4x3 + 9x2 + 8x) div 3)
1: ((9x3 + 18x2 + 19x) div 2)
1: ((33x + 480) div 2)
1: ((17x2 + 38x + 8) div 2)
1: ((17x2 + ~13x + ~4) div 2)
1: ((2 * ((8x + 4) + (x mod 5))) div 5)
1: ((6x3 + 21x2 + 23x + 8) div 2)
1: ((6x3 + 9x2 + 4x + 1) div 2)
1: ((6x3 + 3x2 + x) div 2)
1: ((4x3 + 5x) div 3)
1: (((x + 1) * (1 + (4 * (2 + ((1 + ((19x2 + 19x) div 2)) div 2))))) div 3)
1: ((x * (1 + (2x * (x + ((x3 + 2x) div 3))))) div 5)
1: ((3 * (1 + (6 * (1 + ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (x div (2 - ((x div 2) mod 2)))) div 2))))) div 2)
1: (((x + 1) * ((4 * (1 + (x div 2))) + (x div 3))) div 2)
1: (((x + (9 * (1 + (x div 2)))) * ((x + 1) div 2)) div 2)
1: ((3 * (1 + (2 * ((1 + ((x * (x div 3)) mod (1 + ((2 - (x div 2)) mod 4)))) * (x mod 2))))) div 2)
1: ((x * (1 + (2x * (1 + loop(\(x,i).(45x + 1),x,0))))) div 2)
1: ((11x2 + 21x + 10) div 2)
1: ((6x3 + 15x2 + 11x + 3) div 2)
1: ((6x2 + 6x + 4) div 5)
1: ((3x3 + 9x2 + 8x + 4) div 2)
1: ((5x3 + 18x2 + 31x + 24) div 2)
1: ((5x2 + 18x + 16) div 2)
1: ((14x2 + 45x + 36) div 2)
1: ((2x3 + 11x2 + 17x + 8) div 2)
1: ((3x3 + 6x2 + 2x) div 2)
1: ((5x3 + 15x2 + 12x + 2) div 2)
1: ((12x3 + 21x2 + 11x + 2) div 2)
1: ((27x2 + x) div 2)
1: (66 div (x + 1))
1: (99 div (x + 1))
1: ((66x + 33) div (x + 3))
1: (98 div (x + 1))
1: (49x div (x + 3))
1: (49x div (x + 2))
1: (49x div (if i <= 0 then 1 else i))
1: (73x div (1 + i))
1: ((122x + 80) div 5)
1: ((12x3 + 33x2 + 29x + 8) div 2)
1: ((15x3 + 30x2 + 16x + 1) div 3)
1: ((9x2 + 25x + 16) div 2)
1: ((9x2 + 25x + 16) div 5)
1: ((3 * (x + (24 * (x mod 2)))) div (x + 1))
1: ((48x + 3) div 7)
1: ((8x3 + 17x2 + 10x + 1) div 2)
1: ((8x3 + x) div 3)
1: ((x7 + x) div 2)
1: ((5x4 + x2) div 2)
1: ((2x5 + ~x4 + x2) div 2)
1: (((x5 + 1) * loop(\(x,i).x3,2,x)) div 2)
1: (((x5 + 1) * loop(\(x,i).x2,2,x2)) div 2)
1: ((x6 + x) div 2)
1: ((2 * (1 + (2x * (x2 div 3)))) div 3)
1: (((x + 2) * ((4 * (x mod 2)) + (x div 2))) div 2)
1: ((3 * (x + (4 * (x mod 2)))) div 2)
1: ((x * (x + ((4x + 2) * (x mod 2)))) div 2)
1: ((x * (1 + (2x * (x mod 2)))) div (1 + (x div 2)))
1: (((1 + (4 * (if (~2 + (x div 3)) <= 0 then 0 else 2))) * (1 + (x div 2))) div 2)
1: ((3 * (x + (4 * (if (~2 + (x div 4)) <= 0 then 0 else 2)))) div 2)
1: (((x + 2) * (1 + ((x2 + 2x + 1) * loop(\(x,i).(x + 1),(if x <= 0 then 3 else x),3)))) div (x + 1))
1: ((12x + 3) div (x + 2))
1: ((4x2 + 5x + 1) div 3)
1: ((4x2 + 9x + 2) div (x + 8))
1: ((6x2 + 13x + 2) div 2)
1: ((2x4 + 4x3 + x2 + 2x) div 2)
1: ((3x4 + 4x2 + 1) div 2)
1: ((3 * (3x2 + (if (x + ~1) <= 0 then 1 else 0))) div 2)
1: ((3x4 + x3) div 2)
1: ((x5 + ~x4 + x + ~1) div 2)
1: ((x5 + x) div 2)
1: ((x5 + 4x) div 5)
1: ((2x4 + ~x3 + 2x + ~1) div 2)
1: ((x4 + x) div 4)
1: (((x + 1) * (x3 + (2 * (x mod 2)))) div 2)
1: ((3 * (x + (3x * i))) div (2 + i))
1: ((3 * (x + (2 * ((1 + (x div 2) - ((x div 4) mod 2)) div 2)))) div 2)
1: (((x + 1) * (1 + (2 * (37 div (x + 1))))) div 2)
1: (((x + 1) * (1 + (2 * ((1 + ((x2 + x) div 2)) div 2)))) div 2)
1: ((2 * (1 + (2 * ((1 + ((x2 + x) div 4)) div 2)))) div 3)
1: ((2 * (1 + (2 * ((1 + (loop(\(x,i).(4x + ~2),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2)) div 3)))) div 3)
1: (((x + 1) * (1 + (2 * ((1 + (x div 4)) div 2)))) div 2)
1: (((x + 2) * (1 + (2 * ((1 + (x div 4)) div 2)))) div 2)
1: (((x + 1) * (1 + (x * ((x + 1) div 2)))) div 2)
1: (((x + 1) * (1 + (2 * ((x + 1) div (3 - (x mod 2)))))) div 3)
1: (((x + 1) * (1 + (2 * ((x + 1) div 7)))) div 2)
1: ((2 * (1 + (2 * ((x + 2) div 3)))) div 3)
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1: ((x * (2 + (x * ((~1 + (loop(\(x,i).(x + loop(\(x,i).(x * i),(x + ~2),1)),x,0) div 2)) div 2)))) div 2)
1: ((x * (2 + (x * ((~1 + loop(\(x,i).2x,1,loop(\(x,i).(x * i),(x + ~1),1))) div (x + 1))))) div 2)
1: ((3 * (x + (2 * ((x - (x div ~4)) div 2)))) div 2)
1: (((x + 1) * (1 + ((x + 1) * ((3x2 + 7x + 4) div 2)))) div 3)
1: (((x + 1) * (1 + (3 * ((5x2 + 13x + 8) div 2)))) div 2)
1: ((x * (x + (5 * ((x3 + x) div 2)))) div 2)
1: (((x + 1) * (1 + (3 * ((x2 + x) div 2)))) div 2)
1: (((x + 1) * (2 + (5 * ((x2 + x) div 2)))) div 2)
1: (((x + 1) * (x + (5 * ((x2 + x) div 2)))) div 3)
1: (((x + 2) * (1 + (3 * ((x2 + 2x) div 2)))) div 3)
1: ((3 * (1 + (((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2) * (((x + 1) div 2) div 2)))) div 2)
1: (((x + 1) * (1 + (2 * (((x div 3) * (x div 2)) div 2)))) div 2)
1: ((3 * (1 + (2 * ((((~x2 + 2) mod (~1 + ((~2x + 2) mod (4 + (x div 4))))) * (1 + (x div 2))) div 2)))) div 2)
1: ((3 * (1 + (2 * (2x div 5)))) div 2)
1: ((3 * (1 + (3 * (2x div 7)))) div 2)
1: ((2 * (x + (2 * (2x div (if i <= 0 then 1 else i))))) div (1 + i))
1: ((3 * (x2 + (3 * (x2 div 2)))) div 2)
1: ((3 * (x2 + (5 * (x2 div 2)))) div 2)
1: ((x * (1 + (x * (x2 div 3)))) div 2)
1: (((x + 1) * (1 + (2 * (x2 div (1 + (x mod 4)))))) div 2)
1: ((x * (1 + (2 * (((loop(\(x,i).(x2 + ~x),1,(loop(\(x,i).loop(\(x,i).2x,x,x),x,1) div 2)) div 2) div 2) div 2)))) div 2)
1: ((2 * (1 + (2 * (((1 + (2 * ((1 + (x mod (2 + ((2 - (2x mod 5)) mod (x + 1))))) div 2))) mod (x + 1)) div 2)))) div 3)
1: ((5 * (1 + (2 * (((0 - (x mod (1 + (2 * (x div (2 * (2 + (x mod 2)))))))) mod (x + 1)) div 3)))) div 2)
1: ((2 * (2 + (7 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))) div 3)
1: ((2 * (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + ((1 + (x div 2)) div 2))))) div 3)
1: ((2 * (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + ((x + 1) mod 4))))) div 3)
1: ((3 * (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * ((1 + (((x + 1) div 2) div 2)) div 2)))) div 2)
1: ((3 * (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * ((1 + (x div 2)) div 2)))) div 2)
1: ((3 * (2 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * ((x + 1) mod 4)))) div 2)
1: ((3 * (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (x mod (1 + (2 * ((1 + (((x + 1) div 2) div 2)) div 2))))))) div 2)
1: (((x + 1) * (1 + (2 * (((x - (2 * (2 + (x div 8)))) mod (x + 1)) div 2)))) div 2)
1: ((5 * (1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (2 * (x div 5)))))) div 3)
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1: ((3 * (1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + ((x - (x mod 5)) div 2))))) div 2)
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1: (((x + 2) * (1 + (x mod (2 * (1 + (x mod 2)))))) div 2)
1: (((x + 2) * (1 + (x mod (~2 * (1 + (x mod 2)))))) div 2)
1: ((x * (1 + (x mod (2 * (2 - (x mod 2)))))) div 2)
1: (((2 + (i mod 2)) * (1 + i)) div 2)
1: (((2 + (i mod 2)) * i) div 2)
1: ((2 * (x + (i mod 2))) div 3)
1: ((4 * (x + (if (~x + 4) <= 0 then x else 1))) div 3)
1: ((4 * (x + (if (~x + 4) <= 0 then x else 2))) div 3)
1: (((x + 2) * (2 + (if (~x + 2) <= 0 then x else 0))) div 3)
1: (((x + 1) * (2 + (if (~x + 2) <= 0 then x else 2))) div 2)
1: ((3 * (1 + (if (~4 + (x div 2)) <= 0 then x else (x + 2)))) div 2)
1: ((3 * (x + (if (~1 + (x div 2)) <= 0 then 1 else (1 - (x div ~4))))) div 2)
1: (((x + 1) * ((3x + 3) + (if (~2 + (x div 2)) <= 0 then 1 else 0))) div 2)
1: ((2 * (4x + (if (~2 + (x div 2)) <= 0 then 1 else 2))) div 3)
1: ((3 * (x + (if (~2 + (x div 2)) <= 0 then 1 else 2))) div 2)
1: ((5 * (x + (if (~2 + (x div 2)) <= 0 then 1 else 2))) div 2)
1: ((2x * (x + (if (~2 + (x div 2)) <= 0 then 1 else 2))) div (x + 2))
1: (((x + 2) * (x + (if (~2 + (x div 2)) <= 0 then 1 else x))) div 3)
1: ((x * (x + (if (~2 + (x div 2)) <= 0 then 2 else 1))) div 2)
1: ((x * (x + (if (~2 + (x div 2)) <= 0 then 2 else 1))) div 3)
1: ((2 * (1 + (if (~2 + (x div 2)) <= 0 then x else (x + 2)))) div 5)
1: (((x + 2) * (1 + (if (~2 + (x div 2)) <= 0 then x else (x + 2)))) div 2)
1: ((x * (2 + (if (~6 + (x div 2)) <= 0 then 0 else x))) div 2)
1: (((x + 1) * (2 + (if (~2 + (x div 3)) <= 0 then 1 else 2))) div 7)
1: ((3 * (x + (if (~2 + (x div 3)) <= 0 then 1 else 2))) div 2)
1: (((x + 1) * ((if (~2 + (x div 4)) <= 0 then 1 else 2) + (x div 3))) div 2)
1: ((4 * (x + (if (~2 + (x div 4)) <= 0 then 1 else 2))) div 3)
1: ((2 * (1 + (if (x + ~1) <= 0 then 0 else (1 + ((x div 2) div (1 + (x mod (2 + ((x mod 3) div 2))))))))) div 3)
1: ((2 * (2 + (if (x + ~1) <= 0 then 1 else (2 + (loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)))))) div 3)
1: (((x + 1) * (x + (if (x + ~1) <= 0 then x else 2))) div 2)
1: ((x * (1 + (if (x + ~2) <= 0 then 1 else x))) div 2)
1: (((x + 2) * (x + (if (x + ~2) <= 0 then 1 else x))) div 2)
1: ((x * (x + (if (x + ~2) <= 0 then 2 else 1))) div 2)
1: ((3 * (x + (if (x + ~2) <= 0 then 2 else (x2 * (x div 2))))) div 2)
1: (((2 + (if (x + ~4) <= 0 then 0 else 2)) * (x div 2)) div 5)
1: ((2 * (x + (if (x + ~4) <= 0 then 1 else 0))) div 3)
1: ((5 * (x + (if (x + ~4) <= 0 then 1 else 2))) div 2)
1: (((x + 2) * (x + (if (x + ~4) <= 0 then 1 else 2))) div 2)
1: ((~2 * (x + (if (x + ~4) <= 0 then 1 else 2))) div 3)
1: ((x * (2 + (if (x + ~4) <= 0 then 1 else x))) div 4)
1: ((x * (x + (if (x + ~4) <= 0 then 2 else 1))) div 2)
1: (((x + 1) * (x + (if (x + ~6) <= 0 then 1 else 0))) div 2)
1: ((3 * (x + (if (x + ~10) <= 0 then 1 else 2))) div 2)
1: ((2 * (x + (if ((x mod 3) div 2) <= 0 then 1 else x))) div 3)
1: ((2 * ((2x + 2) + (if ((1 + (x div 2)) mod 6) <= 0 then 2 else 0))) div 3)
1: ((x * (1 + (if ((x + (x div 2)) mod 5) <= 0 then 2 else 1))) div 2)
1: (((x + 1) * (1 + (if ((x + 1) mod (2 + (x mod 3))) <= 0 then 0 else 2))) div 2)
1: ((7 * (4x + (if ((x + 2) mod 4) <= 0 then 2 else 1))) div 2)
1: ((2 * (x + (if ((x + ~1) mod 3) <= 0 then 1 else x))) div 3)
1: ((5 * (1 + (if ((x + ~1) mod 3) <= 0 then 2x else 0))) div 2)
1: ((2 * (x + (if ((x + ~1) mod 7) <= 0 then 1 else 2))) div 3)
1: ((3 * (1 + (if (2x mod (4 + (x div 4))) <= 0 then (2 + (if x <= 0 then 0 else (x + 2))) else 0))) div 2)
1: ((x * (x + (if ((x div 2) mod 3) <= 0 then 1 else 2))) div 2)
1: (((x + 1) * (x + (if (x mod 2) <= 0 then 1 else (3 * (2x - (x mod 2)))))) div 2)
1: ((((if (x mod 2) <= 0 then 1 else x) + (x div 2)) * (x div 2)) div 2)
1: ((x * (2 + (if (x mod 2) <= 0 then 2 else (10x + 5)))) div (2x + 2))
1: (((x + 1) * (x + (if (x mod 2) <= 0 then 2 else ((x2 + 3x + 2) div 2)))) div 2)
1: ((3 * (x + (if (x mod 2) <= 0 then 4 else 0))) div 2)
1: ((3 * (x + (if (x mod 2) <= 0 then (1 - (2 * (x mod 4))) else x))) div 2)
1: (((x + 2) * (1 + (if (x mod 2) <= 0 then (1 - (if x <= 0 then 2 else 0)) else (x div 2)))) div 3)
1: (((x + 1) * (2 + (if (x mod 2) <= 0 then (2x + 4) else (x div 2)))) div 2)
1: (((x + 2) * (x + (if (x mod 2) <= 0 then (x2 + 2x) else 0))) div 2)
1: (((x + 1) * (1 + (if (x mod 2) <= 0 then (if x <= 0 then 0 else (2x + 1)) else 0))) div 2)
1: ((x * (2 + (if (x mod 2) <= 0 then x else 0))) div 2)
1: (((x + 1) * (1 + (if (x mod 2) <= 0 then x else ((1 + (x div 2)) mod 2)))) div 2)
1: (((x + 1) * (1 + (if (x mod 3) <= 0 then 0 else 2))) div (1 + (x mod 2)))
1: ((2 * (x + (if (x mod 3) <= 0 then 0 else 2))) div (x + 1))
1: ((3 * (x + (if (x mod 3) <= 0 then 1 else 2))) div 5)
1: ((x * (x + (if (x mod 3) <= 0 then 2 else 1))) div 2)
1: (((1 + (if (x mod 3) <= 0 then 6 else 0)) * (if x <= 0 then 1 else 2)) div (1 + (x mod 2)))
1: (((1 + (if (x mod 3) <= 0 then 10 else 1)) * (if x <= 0 then 1 else 2)) div (1 + (x mod 2)))
1: ((x * ((if (x mod 4) <= 0 then 1 else 2) + (x mod 2))) div 2)
1: ((2 * ((if (x mod 4) <= 0 then 2 else (x mod 2)) + (x div 7))) div 3)
1: (((x + 1) * (1 + (if (x mod 5) <= 0 then 0 else 2))) div 2)
1: ((x * ((if (x mod 5) <= 0 then 1 else 2) + (x mod 4))) div 2)
1: ((2 * (x + (if (x mod 5) <= 0 then 2 else 1))) div 3)
1: ((3 * (1 + (if (x mod 9) <= 0 then 0 else x))) div 2)
1: ((x * (1 + (if (x mod (2 + (x mod 2))) <= 0 then 2 else 1))) div (x + 4))
1: ((3 * (2 + (if (x mod (1 - (2 * ((~x + 1) div (2 + (x div 2)))))) <= 0 then 1 else x))) div 2)
1: ((x * (1 + (if (x mod 6) <= 0 then (~2 + (x div 2)) else 1))) div 2)
1: ((2 * ((1 + (if (x mod 8) <= 0 then 2 else 1)) * (x div 2))) div 5)
1: ((x * (2 + (if (x mod 10) <= 0 then 2 else 1))) div (x + 2))
1: (((x + 1) * (1 + (if (x mod 10) <= 0 then (x + 2) else 0))) div 2)
1: (((x + 1) * (1 + (if (if (x mod 2) <= 0 then x else 0) <= 0 then (x mod 4) else 2))) div 2)
1: ((3 * (1 + (if x <= 0 then 0 else ((x + 1) + ((x mod 3) div 2))))) div 2)
1: ((2 * (1 + (if x <= 0 then 0 else ((x + 5) + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2))))) div 3)
1: ((3 * (2 + (if x <= 0 then 0 else (x + 2)))) div 2)
1: (((x + 3) * (2 + (if x <= 0 then 0 else (x + 2)))) div 2)
1: ((3 * (1 + (if x <= 0 then 0 else (2 * (1 - (x div 2)))))) div 2)
1: (((1 + (if x <= 0 then 0 else (if (x mod (1 + (x mod 6))) <= 0 then 2 else 1))) * (1 + (((x + 1) div 2) div 2))) div 2)
1: ((2 * (1 + (if x <= 0 then 0 else (if x <= 0 then 1 else (2 * compr(\x.(1 - (x mod (1 + (2x mod (1 + (x div 2)))))),x)))))) div 3)
1: ((2 * (2 + (if x <= 0 then 1 else (6x + (((x + 1) + (x mod 2)) div 5))))) div 3)
1: (((x + 1) * (x + (if x <= 0 then 1 else (~1 + (2 * (12x + (x mod 2))))))) div 2)
1: ((2 * (2 + (if x <= 0 then 1 else (4x - (((~x + 1) - (x mod 2)) div 3))))) div 3)
1: ((2 * (2 + (if x <= 0 then 1 else (2 * (4x + ((~x + ((x div 2) mod 4)) div 4)))))) div 3)
1: ((2 * (2 + (if x <= 0 then 1 else (2 * (3x + ((x - (x div 12)) div 2)))))) div 3)
1: ((2 * (2 + (if x <= 0 then 1 else (2 * (3x - ((2 * (x - ((x div 2) div 3))) div 3)))))) div 3)
1: ((2 * (2 + (if x <= 0 then 1 else (2 * (2x + ((x - ((x div 2) mod ~4)) div 5)))))) div 3)
1: ((2 * (1 + (if x <= 0 then 1 else (2 * (x + ((3 * ((((x + 1) div 2) div 2) div 2)) div 2)))))) div 3)
1: ((2 * (1 + (if x <= 0 then 1 else (2 * (x + (x div 8)))))) div 3)
1: ((2 * (1 + (if x <= 0 then 1 else (2 * (x + (x div 12)))))) div 3)
1: ((2 * (2 + (if x <= 0 then 1 else (2 * (x + loop(\(x,i).(~x - (x div (4 + i))),2,x)))))) div 3)
1: ((2 * (2 + (if x <= 0 then 1 else (2 * (4x - ((~x + ((x div 2) mod 2)) div 3)))))) div 3)
1: ((2 * (2 + (if x <= 0 then 1 else (2 * (2x - ((~x + 3) div 7)))))) div 3)
1: ((2 * (2 + (if x <= 0 then 1 else loop(\(x,i).(x + i - ((x + 1) div 5)),x,0)))) div 3)
1: (((x + 1) * (x + (if x <= 0 then 1 else loop(\(x,i).(x - (if x <= 0 then 1 else (x - ((if x <= 0 then 2 else loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 2)))),x,x)))) div 2)
1: (((x + 1) * (x + (if x <= 0 then 2 else (~1 + (2 * (if x <= 0 then 1 else (4x + (2 div (~2 + (x mod 2)))))))))) div 2)
1: ((2 * (x + (if x <= 0 then 2 else (2 * (1 + (((x + ~1) * loop(\(x,i).(2x - (i mod 2)),x,1)) div 2)))))) div 3)
1: ((2 * (2 + loop(\(x,i).((x + 2) + (((1 + i) * i) div 2)),(x + 2),2))) div 5)
1: ((x * (2 + loop(\(x,i).(3x + (i mod 2)),x,1))) div 2)
1: (((x + 1) * (1 + loop(\(x,i).(x2 + x + 1),2,x))) div 3)
1: (((x + 2) * (1 + loop(\(x,i).(x + (x div (2 + (x mod 2)))),x,2))) div 2)
1: ((3 * (x + loop(\(x,i).(x + (if (~4 + (x div 2)) <= 0 then 1 else 0)),2,x))) div 2)
1: ((2 * (x + loop(\(x,i).(1 + (if (~2 + (x div 2)) <= 0 then x else (x + 2))),2,(x + ~1)))) div 3)
1: ((3 * (1 + loop(\(x,i).(x + (if (x - i) <= 0 then x else 0)),x,1))) div 2)
1: ((2 * (x + loop(\(x,i).(4 - (x div 2)),x,1))) div 3)
1: ((2 * (2 + loop(\(x,i).(x + i - (x div ~12)),x,1))) div 3)
1: ((2 * (2 + loop(\(x,i).(2x + ~1),(x mod 3),x))) div 3)
1: ((2 * (1 + loop(\(x,i).(x - (x div ~5)),x,10))) div 3)
1: ((3 * (1 + loop(\(x,i).(x - (if (~x + i) <= 0 then (2 * i) else 0)),x,x))) div 2)
1: ((3 * (2 + loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x))) div 2)
1: (((x + 1) * (1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x))) div 2)
1: ((3 * (x + loop(\(x,i).(x - (if x <= 0 then 1 else (x - ((if x <= 0 then 2 else loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 2)))),x,(x + 1)))) div 2)
1: ((3 * (x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 1)))) div 2)
1: ((x * (x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 1)))) div 2)
1: ((x * (1 + loop(\(x,i).(x * (2x + loop(\(x,i).x3,2,x))),x,1))) div 2)
1: ((2 * (1 + loop(\(x,i).(x * (1 + (2 * (2 + (2 mod (x + 1)))))),x,1))) div 3)
1: ((x * (1 + loop(\(x,i).(2x2 + x),2,2))) div 2)
1: ((x * (1 + loop(\(x,i).(x3 + x),1,(x2 + ~1)))) div 2)
1: ((x * (x + loop(\(x,i).(x * (1 + i)),(x div 2),1))) div 3)
1: ((2 * (x + loop(\(x,i).(4x + ~2),(x div 2),2))) div 3)
1: ((x * (loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),(x div 2),(1 + (x mod 2))) + loop(\(x,i).2x,x,1))) div 2)
1: (((x + 1) * (1 + loop(\(x,i).(x2 + ~2x),2,8))) div 2)
1: (((x + 1) * (x + loop(\(x,i).10x,x,2))) div 2)
1: ((x * (1 + loop(\(x,i).x3,2,x))) div 2)
1: ((x3 * (x2 + loop(\(x,i).x3,2,x))) div 2)
1: ((x2 * (x2 + loop(\(x,i).x3,2,x))) div 2)
1: ((x2 * (x + loop(\(x,i).x3,2,x))) div 2)
1: ((x * (x + loop(\(x,i).x3,2,x))) div 2)
1: ((2 * (x + loop(\(x,i).2x,((x + ~2) div 3),1))) div 3)
1: ((2 * (x + loop(\(x,i).2x,((x + ~2) div 5),1))) div 3)
1: (((x + 1) * (loop(\(x,i).2x,x,2) + (if (x + ~2) <= 0 then 1 else 2))) div 3)
1: (((x + 1) * (1 + loop(\(x,i).2x,x,3))) div 3)
1: (((x + 2) * (2 + loop(\(x,i).2x,x,3))) div 2)
1: (((x + 1) * (x + loop(\(x,i).x2,1,(2x + 4)))) div 2)
1: (((x + 1) * (2 + loop(\(x,i).x2,2,2x2))) div 3)
1: ((x2 * (x2 + loop(\(x,i).x2,2,x3))) div 2)
1: ((x * (x2 + loop(\(x,i).x2,2,x3))) div 2)
1: ((x2 * (x + loop(\(x,i).x2,2,x2))) div 2)
1: (((x + 1) * (1 + loop(\(x,i).x2,(x + ~1),2))) div 3)
1: ((3 * (x + loop(\(x,i).x2,(x + ~2),2))) div 2)
1: ((2 * (1 + loop(\(x,i).(x * i),2x,loop(\(x,i).(x * (1 + i)),x,(x + 1))))) div (x + 1))
1: ((2 * (2 + loop(\(x,i).(x * i),x,1))) div 3)
1: (((x + loop(\(x,i).(x * i),i,1)) * (2 + i)) div 2)
1: (((x + 1) * (1 + loop(\(x,i).(loop(\(x,i).(4x + ~1),x,2) div 3),1,(x + 1)))) div 2)
1: ((3 * (1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x))) div 2)
1: ((x * (1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x))) div 2)
1: ((2 * (2 + loop(\(x,i).(x div (2 - (x mod 2))),x,x))) div 7)
1: ((x * (1 + loop(\(x,i).(if (x + ~2) <= 0 then 0 else x2),(x div 2),x))) div 2)
1: ((2 * (x + loop(\(x,i).(if x <= 0 then (2 * i) else (x + ~1)),x,0))) div 3)
1: ((2 * (1 + loop(\(x,i).(if x <= 0 then i else (x div 2)),x,0))) div 5)
1: (((x + 1) * (1 + loop(\(x,i).loop(\(x,i).(3x + ((~1 + (2 * i)) * i)),x,1),x,0))) div 3)
1: ((2 * (2 + loop(\(x,i).loop(\(x,i).((x + 1) * i),x,2),x,1))) div 3)
1: ((7 * (x + loop(\(x,i).i,(~2 + (x div 3)),1))) div 2)
1: ((3 * (x + loop(\(x,i).i,(x + ~5),1))) div 2)
1: (((2 + loop(\(x,i).i,(x + ~8),1)) * (1 + (x div 5))) div 3)
1: ((3 * (x + loop(\(x,i).i,((x + ~1) div 3),1))) div 2)
1: ((2x + 2) div (4 + ((x div 2) div 3)))
1: ((2x + 2) div (4 + (x div 4)))
1: ((2x + 2) div (2 + ((x div (2 + (x mod 2))) + (if x <= 0 then 0 else 1))))
1: ((2x + 2) div (2 + (((x2 mod (x + 5)) div 2) mod 2)))
1: ((2x + 2) div (3 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))
1: ((2x + 2) div (3 - ((~x + 1) div 5)))
1: ((2x + 2) div (2 + (x mod 2) - (x div ~4)))
1: ((2x + 2) div (1 + (2 * (((x mod (~2 + ((~x + 2) div 4))) div 2) mod 2))))
1: ((2x + 2) div (2 + (x div (1 + (if (x mod 2) <= 0 then 6 else 1)))))
1: ((2x + 2) div (1 + (2 mod (1 + (x mod 3)))))
1: ((2x + 2) div (1 + (x mod 5)))
1: ((2x + 2) div (1 + (x mod 9)))
1: ((2x + 2) div (2 + (x mod 10)))
1: ((2x + 2) div (1 + (if (x mod 6) <= 0 then 2 else (x mod 2))))
1: ((2x + 2) div (2 + loop(\(x,i).(x div (2 - (x mod 2))),x,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))))
1: ((2x + 2) div (1 + i))
1: ((2x + 2) div (8 - (x mod 2)))
1: ((2x + 2) div (~1 + (6 * (1 + (4 * (x mod 2))))))
1: ((2x + 2) div (~6 + (x mod 2)))
1: ((2x + 2) div (3x + ~16))
1: ((2x + 2) div (x - ((x + 2) mod 5)))
1: ((2x + 2) div ((2x + 1) div (1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1))))
1: ((2x + 2) div loop(\(x,i).3x,(1 + (x mod 2)),(4 - (x mod 4))))
1: ((3x + 3) div 5)
1: ((3x + 3) div (~x + 21))
1: ((3x + 3) div (1 + (x mod (2 * (1 + (x mod 2))))))
1: ((x2 + x) div (x + 6))
1: ((x2 + x) div (x + 8))
1: ((x2 + x) div (2 + (x * (x div (2 + (x mod 2))))))
1: ((x2 + x) div (2 + (2x div 3)))
1: ((x2 + x) div (1 + (((x + 1) div 2) div 2)))
1: ((x2 + x) div (1 + (x div 2)))
1: ((x2 + x) div (1 + ((x div 2) mod 2)))
1: ((x2 + x) div (1 + (x mod (1 + (x div (2 * (2 - (x mod 2))))))))
1: ((x2 + x) div (~x + 25))
1: ((x2 + x) div ~7)
1: ((x2 + x) div (20 - (x div 2)))
1: ((x2 + x) div ((x + 1) - (x div 3)))
1: ((x2 + x) div (x - ((~x + 2) div 2)))
1: ((x2 + x) div 12)
1: ((x2 + x) div 40)
1: (((x + 1) * i) div 2)
1: (((x + 1) * i) div 3)
1: ((2x + 4) div (5 + ((x div 2) div 3)))
1: ((2x + 4) div (4 + (x div 4)))
1: ((2x + 4) div (4 + (x div 8)))
1: ((2x + 4) div (3 + (if x <= 0 then 0 else 2)))
1: ((2x + 4) div (1 + (2 * (2 + (x mod 2)))))
1: ((2x + 4) div (1 + (x * (2 + (x mod 2)))))
1: ((2x + 4) div (1 + (2 mod (1 + (x mod 3)))))
1: ((2x + 4) div (1 + (((x2 + ~1) div 2) mod 4)))
1: ((2x + 4) div (2 + (if (x + ~3) <= 0 then 2 else 1)))
1: ((2x + 4) div (2 + (if (x mod 7) <= 0 then 1 else 2)))
1: ((2x + 4) div (~1 + (3 * (2 + (x mod 2)))))
1: ((2x + 4) div ((2 * (2 + (if x <= 0 then 0 else 2))) - (x div 4)))
1: ((2x + 4) div (x + ~24))
1: ((x2 + 3x + 2) div 5)
1: ((x2 + 3x + 2) div 13)
1: ((x2 + 3x + 2) div (x + 16))
1: ((x2 + 3x + 2) div (1 + ((x2 + x) mod 3)))
1: ((x2 + 3x + 2) div ~23)
1: ((x2 + 3x + 2) div (~x + 26))
1: ((x2 + 3x + 2) div (2 - ((x div 2) mod 2)))
1: ((x2 + 3x + 2) div (~2x + 64))
1: ((x2 + 3x + 2) div 16)
1: ((x2 + 3x + 2) div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))
1: ((x2 + 4x + 4) div 3)
1: ((x2 + 4x + 4) div 5)
1: ((x2 + 4x + 4) div ~2)
1: ((x2 + 4x + 4) div (~x + 25))
1: ((x2 + 4x + 4) div 15)
1: ((x2 + 2x) div (x + 17))
1: ((x2 + 2x) div ((x + 4) + (x div 2)))
1: ((x2 + 2x) div (x + 4))
1: ((x2 + 2x) div (~x + 33))
1: ((x2 + 2x) div (7 + (x div 2)))
1: ((x2 + 2x) div (x + 12))
1: ((x2 + 2x) div (1 + (2 * (((4x2 + 8x + 4) mod 5) div 2))))
1: ((x2 + 2x) div (2 + ((x mod 3) div 2)))
1: ((x2 + 2x) div (2 + (x div 2)))
1: ((x2 + 2x) div (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))))
1: ((x2 + 2x) div (2 + ((~x + 1) mod 7)))
1: ((x2 + 2x) div (1 + ((x2 + 2x) mod 8)))
1: ((x2 + 2x) div (1 + (x mod (1 + ((3x mod (2 + (x div 2))) div 2)))))
1: ((x2 + 2x) div (2 + i))
1: ((x2 + 2x) div ~7)
1: ((x2 + 2x) div ~11)
1: ((x2 + 2x) div (2 - (x div ~4)))
1: ((x2 + 2x) div ~3)
1: ((x2 + 2x) div ((~2x + ~1) + (x div 2)))
1: ((x2 + 2x) div (x + ~25))
1: ((x2 + 2x) div (x + 11))
1: ((x2 + 2x) div (x + ~36))
1: ((x2 + 2x) div (x - ((x + 1) mod 3)))
1: ((x2 + 2x) div ~14)
1: ((x2 + 2x) div ~21)
1: ((x2 + 2x) div 24)
1: ((x2 + 2x) div 20)
1: ((x2 + 2x) div 48)
1: ((x2 + 2x) div (if (x mod 2) <= 0 then 4 else 1))
1: ((x2 + 2x) div (if (x mod 2) <= 0 then 8 else 1))
1: (((x + 1) * (1 + i)) div 5)
1: (((x + ~1) * (1 + i)) div 3)
1: ((x * (1 + i)) div (2 + (x div 4)))
1: (((x + 1) * (2 + i)) div 2)
1: ((x * (2 + i)) div (x + 8))
1: (((2 + i) * i) div (x + 6))
1: (((2 + i) * i) div (~x + ~1))
1: ((2 * (x + i)) div 3)
1: ((4 * (x + i)) div (x + 1))
1: (((x + 1) * (x + i)) div 3)
1: ((x * (x + i)) div 4)
1: ((x * (x + i)) div (x + 1))
1: ((x * (x + i)) div 8)
1: ((2 * (1 + compr(\x.(1 - (x mod (2 + ((1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)) mod (x + 1))))),(x + 1)))) div 3)
1: ((2 * (2 + compr(\x.(~1 + loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,18x)),x))) div 3)
1: ((3 * (1 + compr(\x.((x + 2) mod (1 + (8 * (x mod 2)))),(x + 1)))) div 2)
1: ((3 * (2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))) div 2)
1: (((1 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x)) * (1 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))) div 2)
1: (((2 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x)) * (1 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))) div 2)
1: (((2 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x)) * (2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))) div 2)
1: ((3 * (1 + compr(\x.(loop(\(x,i).(2x + 2),36,0) mod (x + 1)),x))) div 2)
1: ((x * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))) div 2)
1: ((3 * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2)
1: (((2x + 1) * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2)
1: ((2 * (4 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 3)
1: ((x * (4 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div (x + 3))
1: ((2 * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,(loop(\(x,i).(2 * (x - i)),x,2) mod (x + 1))) mod (x + 1)),x))) div 3)
1: (((x + 1) * (2 + compr(\x.(loop(\(x,i).(~2x + 2),x,2) mod (x + 2)),x))) div 2)
1: ((2 * (2 + compr(\x.(loop(\(x,i).((x + 2) * loop(\(x,i).x2,2,(x + 2))),2,1) mod (x + 1)),x))) div 3)
1: ((2 * (2 + compr(\x.(x mod (1 + (2 * (1 + (x mod 3))))),x))) div 3)
1: ((x * (1 + compr(\x.(x mod (1 + (8 * (x mod 2)))),x))) div 2)
1: ((3 * (1 + compr(\x.(x mod (1 + (2 * (x mod (2 + (x mod 2)))))),x))) div 2)
1: ((3 * (1 + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x))) div 2)
1: ((3 * (2 + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,(x + 2)),x))) div 2)
1: ((5 * (1 + compr(\x.loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,2x),x))) div 2)
1: (((x + 1) * (~1 - (x div 4))) div 2)
1: ((3 * (0 - (2x div (~3 + ((~x + 1) div 3))))) div 2)
1: (((0 - (((x + 1) div 2) div 3)) * (x div 3)) div 2)
1: (((x + ~1) * (0 - loop(\(x,i).(((x + 1) - (2 * (i mod 2))) * i),x,0))) div 2)
1: ((~x * (x div 2)) div (x + 3))
1: (~x2 div 8)
1: (((x + 1) * (0 + (2 * (x mod 2)) - (((x + 1) div 2) div 2))) div 2)
1: (((x + 1) * ((~x + 1) - (2 * (24 + (x div 2))))) div 2)
1: (((~x + 3) * (~1 - ((x div 2) div 3))) div 2)
1: ((x * ((~x + 1) - (if (x + ~4) <= 0 then 1 else x))) div 2)
1: (((x + 1) * ((~x + 1) - loop(\(x,i).3x,(x div 2),2))) div 2)
1: (((x + 1) * (1 + (x mod 2) - (((1 - (((x mod 2) - (x div 2)) div 2)) div 2) mod 2))) div 2)
1: (((x + 1) * (1 + (3 * ((x div 3) mod 2)) - (x mod 2))) div 2)
1: ((11x2 + 7x) div 2)
1: ((5x2 + 13x) div 2)
1: ((23x2 + x) div 2)
1: ((33x2 + 25x + 2) div 2)
1: ((11x2 + x) div 2)
1: ((19x2 + x) div 2)
1: ((x * (1 - (x * (1 + (2 * i))))) div 2)
1: ((~3x2 + ~8x + ~4) div 2)
1: ((~x4 + 2x3 + x + ~2) div 2)
1: ((5 * (1 - (((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2) * (x div 5)))) div 2)
1: ((3 * (1 - (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (x div (~1 - (x mod 5)))))) div 2)
1: (((x + ~1) * (1 - (2 * (x div 3)))) div 2)
1: (((1 - (2 * ((x mod (1 + (((x + 1) div 2) div 2))) mod 2))) * (1 + (x div 2))) div 2)
1: (((x + 4) * (1 - (2 * (x mod 2)))) div 5)
1: (((x + 2) * (1 - (2 * (x mod 2)))) div 2)
1: (((x2 + x) * (1 - (2 * (x mod 2)))) div 2)
1: ((~4x + 2) div (x + 1))
1: ((~6x + 3) div (x + 5))
1: ((~6x + 3) div (x + 1))
1: ((~x3 + x) div 7)
1: ((3 * (1 - ((1 + (x mod (1 + (2 * (if (x mod 2) <= 0 then 1 else (x div 4)))))) div 3))) div 2)
1: ((5 * (1 - ((~x + 1) div 7))) div 2)
1: (((x + 1) * (1 - ((~x + 1) div (2 + ((x div 2) div 3))))) div 2)
1: ((5 * (1 - ((~x + (x mod 3)) div 4))) div 2)
1: ((3 * (1 - (((x mod 4) - (x div 4)) div 3))) div 2)
1: (((x + 1) * (1 - ((x - (x2 div 3)) div 3))) div 2)
1: ((x * (1 - ((~x2 + 2x) div 3))) div 2)
1: ((3 * (1 - ((2 * (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2))) div 3))) div 2)
1: ((x * (1 - (x3 div 2))) div 2)
1: ((3 * (1 - ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (~1 + (x div ~2))) div 2))) div 2)
1: (((1 - (x2 div 2)) * ((x + 1) div 2)) div 2)
1: ((3 * (1 - (((1 + (x mod (1 + (31 mod (x + 1))))) div 2) div 2))) div 2)
1: ((3 * (1 - (((~1 + (6 * (1 + ((~2 + (x mod 2)) mod (~1 + ((~2x + 2) mod (4 + (x div 4)))))))) div 2) div 2))) div 2)
1: (((x + ~1) * (1 - (((x - ((x2 + ~x) div 4)) div 2) div 3))) div 2)
1: (((x + 1) * (1 - ((32 mod (x + 1)) div 2))) div 2)
1: ((3 * (1 - ((loop(\(x,i).(2x + 2),x,(12 * (x div 7))) mod 5) div 2))) div 2)
1: ((2 * (1 - (x div 2))) div (x + 1))
1: (((1 - (x div 2)) * (x div 3)) div 2)
1: ((x * (1 - (x div 2))) div 2)
1: ((x * (1 - (x div 2))) div 9)
1: ((x * (1 - (x div 2))) div 11)
1: ((x * (1 - (x div 3))) div 3)
1: (((1 - (x div 4)) * (1 + (x div 3))) div 3)
1: (((x + 2) * (1 - (x div 4))) div 3)
1: ((3 * (1 - (x div ~4))) div 2)
1: (((1 - (x div ~4)) * (x div 4)) div 2)
1: (((1 - (x div ~4)) * (x div 4)) div 3)
1: ((2 * (1 - (x div (~1 + ((~x + 1) div 9))))) div 3)
1: ((x * (1 - (x div (~2 + ((~x + 2) div 4))))) div 2)
1: ((2 * (1 - (x div (~1 + (x div ~8))))) div 3)
1: (((x + 1) * (1 - ((2x + ~1) mod (4 + (x div 4))))) div 2)
1: (((x + 1) * (1 - (((x div 2) - (if ((x + 1) mod 8) <= 0 then 0 else 1)) mod 2))) div 2)
1: ((x * (1 - ((x3 div 8) mod 2))) div (2 + (x div 4)))
1: (((x + 1) * (1 - (loop(\(x,i).x2,2,(1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1))) mod (x + 1)))) div 2)
1: (((1 - (x mod 3)) * (~1 + (x div 2))) div 2)
1: ((x * (1 - loop(\(x,i).i,(2 - (((x mod 4) + (x div 2)) div 2)),x))) div 2)
1: ((~2x + 2) div (6 + ((x div 2) mod 5)))
1: ((~2x + 2) div (4 + (x div 2)))
1: ((~2x + 2) div (3 - (x div ~7)))
1: ((~2x + 2) div 13)
1: ((~2x + 2) div (2 - ((~x + 1) div 3)))
1: ((~3x + 3) div (4 + (x div 4)))
1: ((~4x + 4) div (x + 5))
1: ((~4x + 4) div (4 + (x div 4)))
1: ((~x2 + ~x + 2) div (x + 8))
1: ((~x2 + ~x + 2) div 13)
1: ((~x2 + 2x + ~1) div 4)
1: ((~2x2 + 2x) div 3)
1: ((~2x2 + 2x) div 5)
1: ((~2x2 + 2x) div 7)
1: (((~x + 1) * (x div 2)) div 7)
1: (((~x + 1) * (x div 2)) div (x + 2))
1: ((~x2 + x) div 3)
1: ((~x2 + x) div 5)
1: ((~x2 + x) div (4 + (x div 2)))
1: ((~x2 + x) div (x + 8))
1: ((~x2 + x) div 19)
1: ((~x2 + x) div loop(\(x,i).2x,(x div 2),1))
1: (((x + 1) * (0 - ((x + ((~1 + (x div 2)) mod 3)) div 2))) div 2)
1: (((3 - (x div 2)) * (x div 5)) div 2)
1: (((x + 1) * (4 - (2x mod (4 + (x div 4))))) div 3)
1: ((4x3 + 11x2 + 9x + 2) div 2)
1: ((7x2 + 9x + 2) div 2)
1: ((((~x + 2) + ((x div 2) mod 2)) * (x div 2)) div 2)
1: (((x + 1) * ((~x + 2) + loop(\(x,i).(2 + ((x2 + ~2) div (x + 4))),2,x))) div 2)
1: ((x * (2 - (((x + ~1) div 2) * (x div 2)))) div 2)
1: ((x * (2 - (x * (x div 2)))) div 9)
1: ((3 * (2 - (2 * (x div 3)))) div (x + 2))
1: ((~2x2 + 4) div 25)
1: ((~4x2 + 8) div (x + 16))
1: ((~x3 + ~x2 + 2x + 2) div 2)
1: ((~x3 + 2x) div 12)
1: ((3 * (2 - ((~2x + 1) div 5))) div 2)
1: (((2 - ((~x + 1) div 3)) * (x div 3)) div 3)
1: ((x * (2 - ((~x + 1) div (1 + ((x div 2) div 3))))) div 2)
1: ((2 * (2 - ((~x + 1) div (1 + (x div (2 + (3 * (x mod 2)))))))) div 3)
1: (((x + 1) * (2 - ((~x + 1) div (1 + ((~x + 2) mod 4))))) div 2)
1: (((x + 1) * (2 - ((2 + (x div 2) - (x * (x mod 2))) div (x + 1)))) div 2)
1: ((3 * (2 - ((~x + 2) div 7))) div 2)
1: (((2 - ((~x + 2) div 8)) * (x div 5)) div 2)
1: ((3 * (2 - ((~x + ((x div 2) div 3)) div 2))) div 2)
1: (((2 - ((x + ~1) div 2)) * (2 + (x div 2))) div 3)
1: (((2 - ((x + ~1) div 2)) * (x div 5)) div 2)
1: ((3 * (2 - ((~2x + 2) div 9))) div 2)
1: (((2 - (((x + 1) div 2) div 2)) * (x div 4)) div 2)
1: ((x * (2 - (((x + 1) div 2) div 2))) div 2)
1: ((2 * (2 - (((~x2 + 2x) div 4) div 3))) div 3)
1: ((3 * (2 - ((x div 2) div 3))) div 2)
1: ((3 * (2 - ((x div 2) div (1 + (x mod 10))))) div 2)
1: ((3 * (2 - ((x div 3) div ~3))) div 2)
1: ((5 * (2 - (loop(\(x,i).((x + ~2) + (x div 2)),x,0) div 2))) div 2)
1: (((x + ~2) * (2 - (x div 2))) div 2)
1: ((x * (2 - (x div 2))) div (x + 2))
1: (((x + 2) * (2 - (x div 3))) div 3)
1: (((2x + ~1) * (2 - (x div 3))) div 2)
1: (((2 - (x div 3)) * (x div 4)) div 2)
1: ((x * (2 - (x div (2 + (x mod 4))))) div 2)
1: (((x + 1) * (2 - (x div ~2))) div 3)
1: ((x * (2 - (x div ~2))) div 3)
1: ((x * (2 - (x div ~2))) div 5)
1: ((x * (2 - (x div ~4))) div 2)
1: (((2 - (x div ~8)) * (x div 3)) div 2)
1: ((x * (2 - (i div ~4))) div 2)
1: ((2 * (2 - ((~x + 4) mod (~1 + ((~x + 2) div 4))))) div 3)
1: (((x + ~1) * (2 - (2x mod 9))) div 2)
1: (((2 - ((x div 2) mod 2)) * (1 + (x div 2))) div 3)
1: (((x + 1) * (2 - ((x div 2) mod 2))) div 2)
1: (((2 - ((x div 2) mod 2)) * (x div 2)) div 3)
1: ((x * (2 - ((x div 2) mod ~7))) div 2)
1: (((x + ~1) * (2 - ((x div 4) mod 2))) div 3)
1: (((2 - ((x div 4) mod 2)) * ((x + 1) div 2)) div 2)
1: ((x * (2 - ((x mod 3) mod 2))) div 3)
1: ((x * (2 - (x mod 2))) div 3)
1: ((2 * (2 - (x mod ~5))) div (x + 1))
1: (((x + 1) * (2 - (x mod (~1 + ((~x + 2) div 4))))) div 2)
1: ((~2x + 4) div (3 + (x div 5)))
1: ((~2x + 4) div (x + 3))
1: ((~2x + 4) div (1 + (2 * (1 + (x mod 3)))))
1: ((~2x + 4) div (2 + (if x <= 0 then 1 else (x div 3))))
1: ((~2x + 4) div (x + 1))
1: ((~2x + 4) div (2 - (x div ~4)))
1: ((~3x + 6) div (1 + (if x <= 0 then 1 else x)))
1: ((~x2 + 3x + ~2) div 5)
1: ((~x2 + 4x + ~4) div 2)
1: ((~x2 + 4x + ~4) div (x + 3))
1: ((~x2 + 4x + ~4) div (x + 4))
1: ((~2x2 + 4x) div 5)
1: ((~2x2 + 4x) div (x + 8))
1: (((~x + 2) * (x div 2)) div (4 + (x div 2)))
1: ((~x2 + 2x) div 5)
1: ((~x2 + 2x) div (x + 17))
1: ((~x2 + 2x) div (x + 4))
1: ((~x2 + 2x) div (4x + 5))
1: ((~x2 + 2x) div 19)
1: ((~x2 + 2x) div (2 + (x div 2)))
1: ((~x2 + 2x) div (2 - (x div ~2)))
1: ((~x2 + 2x) div 32)
1: (((x + 1) * (0 + (((2 * (1 + ((1 + (x div (1 + ((~1 + loop(\(x,i).2x,x,(1 + (x mod (2 * (1 + (x mod 2)))))) - (x mod 2)) mod (2x + 1))))) div 2))) div 3) + (x mod 2)))) div 2)
1: (((x + 1) * (0 + (((2 * (1 + ((1 + (x div (1 + (x mod (1 + (loop(\(x,i).2x,x,2) mod (2x + 1))))))) div 2))) div 3) + (x mod 2)))) div 2)
1: (((x + 2) * ((~x + 4) + (x div 4))) div 2)
1: ((3 * ((3x + 2) - (((x + 1) div 2) div 3))) div 2)
1: ((2x3 + 5x2 + 15x) div 2)
1: ((x * ((x + ~1) + (2 * (x + (x mod 2))))) div 2)
1: ((x2 + 17x + 30) div 2)
1: ((5x2 + 12x + 7) div 2)
1: ((x2 + 31x) div 2)
1: ((x * ((x + ~1) + (2 * ((x + ((loop(\(x,i).(x2 + x),2,x) div 2) div 3)) div 2)))) div 2)
1: ((2 * ((x + ~1) + (x div 2))) div 5)
1: ((x * ((x + ~1) + (x div 2))) div 2)
1: ((x * ((x + ~2) + (x div 2))) div 2)
1: ((2 * (x + (x div 8) - (x div 5))) div 3)
1: (((2x + 1) * ((x + ~1) + ((x * (x div 2)) mod 2))) div 2)
1: (((x + 2) * ((2x + ~1) + (if (~x + 2) <= 0 then x else 2))) div 2)
1: (((x + 1) * (~1 + (loop(\(x,i).(x * i),(x + ~1),1) + (x mod 2)))) div 2)
1: ((x * ((x + ~1) + loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x + ~2),x))) div 2)
1: ((3 * ((x + 2) - (2 div (1 + (x div 4))))) div 2)
1: ((5 * ((x + 2) - ((2 * (~x + ((x div 3) mod 2))) div 3))) div 2)
1: ((9 * ((x + 2) - ((x + 1) mod 10))) div (x + 1))
1: ((~3x + ~3) div 5)
1: ((~3x3 + ~x2 + x) div 2)
1: ((~5 * (1 + (x div 3))) div 3)
1: ((x * ((~x + 1) - ((x mod 3) + (x mod 2)))) div 2)
1: ((3 * (~2 + (2 * (x2 mod 19)))) div 2)
1: ((3 * (~1 + (2 * ((x2 div (x - ((~x + 2) div 2))) mod 2)) - (x mod 2))) div 2)
1: ((x * ((~x + ~1) + (2 * (x mod (x - ((x + ~1) mod 8)))))) div 2)
1: ((((2x + ~1) - (x div 3)) * (x div 3)) div 2)
1: ((x * ((x2 + ~1) - (((x3 + ~x) div 2) div 3))) div 2)
1: ((((x2 + ~1) - (x div 2)) * (1 + (x div 2))) div 2)
1: ((x * (~1 + ((x div 2) mod 2) - (x mod 2))) div 2)
1: ((x * (~3 + (x mod 2))) div 7)
1: ((2 * ((~x + ~1) + (x mod 2))) div 5)
1: ((((x + ~2) - (x div 3)) * (1 + (x div 3))) div 2)
1: ((((x + ~1) - (3 * (~x + (x mod 4)))) * (x div 2)) div 2)
1: ((29x2 + ~x) div 2)
1: ((((x + ~2) - ((~x + 2) div 2)) * (x div 2)) div 2)
1: ((((x + ~2) - ((~x + 2) div 4)) * (1 + (x div 2))) div 2)
1: (((x + 1) * (6 - (x mod 3))) div 2)
1: ((3x2 + ~5x + 2) div 2)
1: ((3x2 + ~2x) div 2)
1: ((3 * (3x - ((~x + 1) div (2 + (x div 4))))) div 2)
1: ((x * (~2 + (3 * i))) div (1 + i))
1: (22 div (x + 1))
1: ((11x + 11) div (x + 6))
1: ((11 * ((x + ~1) div 3)) div (x + 1))
1: (11x div (x + 2))
1: (((4x + 3) * (1 + (x div 5))) div 3)
1: ((2x3 + 11x2 + 3x + ~6) div 2)
1: (((x + 1) * (~1 + (2 * (4 + (((x + 1) div 2) div 2))))) div 2)
1: ((x3 + 3x2 + ~x) div 3)
1: ((x * ((2x + 8) - (x div 2))) div 3)
1: ((3x2 + 11x) div 2)
1: ((x4 + 4x3 + x2 + 2x) div 2)
1: ((2x3 + 11x2 + 11x + 3) div 2)
1: ((x * ((x2 + 5x + 4) - (x div 2))) div 2)
1: ((x3 + 3x2 + ~6x) div 2)
1: ((x3 + 12x2 + 35x + 30) div 2)
1: ((10x2 + 27x + 14) div 2)
1: ((20x3 + 36x2 + 19x + 3) div 3)
1: (((x + 1) * ((5x2 + 6x + 1) - (x div 2))) div 2)
1: ((2x3 + 11x2 + 7x + ~2) div 2)
1: ((3x4 + 13x3 + 21x2 + 14x + 3) div 2)
1: (((x + 1) * ((x3 + 4x2 + 6x + 4) - (((x3 + 3x2 + 2x) div 2) div 3))) div 2)
1: (((x + 1) * (~1 + (3 * (2 + ((x + 2) * (1 - (2 * (x mod 2)))))))) div 2)
1: ((17x2 + ~x) div 2)
1: ((9x4 + 4x3 + ~x) div 2)
1: ((9x4 + 18x3 + 23x2 + 14x + 5) div 2)
1: ((49x2 + ~x) div 2)
1: ((11x2 + 3x) div 2)
1: ((x5 + ~x4 + x2 + ~2x + 1) div 2)
1: ((2x3 + 9x2 + 11x + 2) div 2)
1: (((x + 1) * (~1 + (2 * (1 + ((1 + ((1 + ((1 + (loop(\(x,i).(3 * ((2x div (1 + i)) * (~1 + (2 * i)))),x,1) div 2)) div 2)) div 2)) div 2))))) div 2)
1: ((((2 * (1 + (x div 2))) - (x div 3)) * ((x + 1) div 2)) div 2)
1: ((3 * ((3 * (x + (x div 4))) - (x mod 2))) div 7)
1: ((x * (~1 + (2 * (1 + (x div (if (x mod 2) <= 0 then 3 else ~2)))))) div 2)
1: ((3 * (~1 + (3 * (1 + ((x div 2) mod (1 + (6 * (x mod 2)))))))) div 2)
1: ((2 * ((2x + 2) - ((x - (x div 5)) div 3))) div 3)
1: ((3 * ((2x + 2) - ((x div 2) div 3))) div 2)
1: ((((2x + 2) - (x div 3)) * (1 + (x div 3))) div 2)
1: ((x3 + x2 + ~x) div 3)
1: ((x3 + x2 + ~x) div 4)
1: ((2 * ((2x + 4) - ((~x + 1) div (3 + (2 * (x - (x mod 8))))))) div 3)
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1: ((x * (~2 + ((~x + 2) div 4))) div (x + 2))
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1: ((x * (~2 + ((~x2 + 2x) div 4))) div 2)
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1: ((2 * (~x + (x2 div 3))) div (x + 6))
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1: ((x * (~1 + (((x + 1) div 2) div 2))) div 2)
1: ((x * (~2 + (((x + ~1) div 2) div 2))) div 3)
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1: ((x * (~1 + (x div 2))) div 3)
1: ((x * (~1 + (x div 2))) div 9)
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1: ((x * (~2 + (x div 2))) div 19)
1: ((x * (~2 + (x div 2))) div 8)
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1: ((2 * (~x + (x div 5))) div 3)
1: ((3 * (~x + (x div 5))) div 2)
1: ((2 * (~x + (x div 7))) div 3)
1: (((~x + (x div (2 + (x mod 2)))) * (x div 4)) div 2)
1: ((3 * (~1 + (x div ~2))) div 2)
1: ((x * (~2 + (x div ~2))) div 2)
1: (((x + 1) * ((~x + ~1) + (x div ~3))) div 2)
1: ((x * (~1 + (x div ~5))) div 2)
1: (((2x + 1) * (~1 + ((x + 1) mod 3))) div 3)
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1: (((~1 + ((~2x + 2) mod (4 + (x div 4)))) * (1 + (4 * (x mod 2)))) div (x + 4))
1: (((~1 + ((~2x + 2) mod (4 + (x div 4)))) * ((x div 2) mod 2)) div 2)
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1: (((~2 + ((x div 2) mod 3)) * (x div 2)) div 2)
1: ((2 * (((x div 4) mod 2) - (x div 2))) div 3)
1: (((x + 2) * (~1 + ((if (x mod 2) <= 0 then 2 else x) mod 4))) div 2)
1: (((x + 1) * (~1 + (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) mod 9))) div 2)
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1: ((3 * (~2x + (x mod 2))) div (x + 1))
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1: ((4 * (~x + (x mod 2))) div 5)
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1: (((x + 1) * (~1 + (x mod 3))) div 2)
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1: ((5 * (~x + (x mod 9))) div 2)
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1: ((13 * (~x + (x mod 8))) div 2)
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1: ((2 * (~x + (if (~2 + (x div 2)) <= 0 then 2 else 1))) div 3)
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1: ((3 * (~1 + (if x <= 0 then 1 else 9x))) div 2)
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1: (((x + 2) * (~1 + loop(\(x,i).((2 * (x + i)) + i),x,2))) div 2)
1: ((2 * (loop(\(x,i).(6x + 2),x,1) - loop(\(x,i).3x,x,1))) div 3)
1: (((x + ~1) * (~1 + loop(\(x,i).(1 + (x * ((1 + i) div 2))),x,0))) div 2)
1: (((x + 1) * (~1 + loop(\(x,i).(x + (if x <= 0 then 1 else (2x * ((~1 + i) * (~2 + i))))),x,x))) div 2)
1: (((x + 1) * (~1 + loop(\(x,i).(x + loop(\(x,i).(x - (if x <= 0 then 1 else (if ((x mod 3) div 2) <= 0 then x else ((x + 1) div 2)))),x,(x + 1))),2,x))) div 3)
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1: (((x + 1) * (loop(\(x,i).3x,x,3) - loop(\(x,i).2x,x,2))) div loop(\(x,i).2x,x,1))
1: ((x * (~1 + loop(\(x,i).(x2 + x),1,loop(\(x,i).(x * i),x,1)))) div 2)
1: ((x * (~2 + loop(\(x,i).(x2 + 2x),2,2))) div (1 + i))
1: (((x + 1) * (~1 + loop(\(x,i).(2x2 + ~x),1,(5x + 5)))) div 2)
1: (((x + 1) * (~1 + loop(\(x,i).(8x + 4),(x + 1),0))) div 2)
1: ((x * (~1 + loop(\(x,i).2x2,2,2))) div 5)
1: ((x * ((~x + 1) + loop(\(x,i).2x,(x + 2),x))) div 2)
1: (((x + 1) * (~x + loop(\(x,i).2x,(x + 2),x))) div 2)
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1: (((x + 1) * (~x + loop(\(x,i).2x,x,2))) div 2)
1: (((x + 1) * (~1 + loop(\(x,i).2x,x,loop(\(x,i).(3x + (if (i mod 3) <= 0 then 1 else 2)),x,1)))) div 3)
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1: (((x + 2) * (~1 + loop(\(x,i).x2,2,(x + 2)))) div 2)
1: (((x + 1) * (~1 + loop(\(x,i).((3x2 + 7x + 4) div 2),1,(x2 + 2x + 1)))) div 2)
1: (((x + 1) * (~1 + loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1))) div 2)
1: (((x + 1) * (~1 + loop(\(x,i).i,(((x + ~2) * (x div 3)) mod (1 + (x div 2))),1))) div 2)
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1: ((2x + ~2) div (1 + ((x + 1) div 5)))
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1: ((2x + ~2) div (~2x + 35))
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1: ((x2 + ~x) div ((x + 3) + (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) div 3)))
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1: ((x2 + ~x) div (10 + (x div 2)))
1: ((x2 + ~x) div (4 + ((x div 4) mod 2)))
1: ((x2 + ~x) div (x + 4))
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1: ((x2 + ~x) div ((x + 3) - ((x div 2) div 3)))
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1: ((x2 + ~x) div (1 + (2 * (2 + (if (~2 + (x div 2)) <= 0 then x else 2)))))
1: ((x2 + ~x) div (3x + 4))
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1: ((x2 + ~x) div (2 + (x div 5)))
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1: ((x2 + ~x) div (1 + loop(\(x,i).2x,(x div 2),1)))
1: ((x2 + ~x) div (x + 15))
1: ((x2 + ~x) div (~x + 31))
1: ((x2 + ~x) div (6 - (x div 3)))
1: ((x2 + ~x) div (12 - ((x + 1) div 2)))
1: ((x2 + ~x) div (~3x + 53))
1: ((x2 + ~x) div 15)
1: ((x2 + ~x) div 23)
1: ((x2 + ~x) div (~6x + 107))
1: ((x2 + ~x) div 31)
1: ((x2 + ~x) div ((x + 1) - (x div 3)))
1: ((x2 + ~x) div (~2x + 34))
1: ((x2 + ~x) div (~2x + 48))
1: ((x2 + ~x) div 16)
1: ((x2 + ~x) div (8 * (1 + i)))
1: ((x2 + ~x) div (3 * (if ((x + ~2) mod (2 + (x mod 2))) <= 0 then 1 else 2)))
1: (((x + ~1) * i) div 2)
1: ((2x + ~4) div (4 + (x div 4)))
1: ((2x + ~4) div (x + 3))
1: ((2x + ~4) div (2 + (((x + 1) div 2) div 2)))
1: ((2x + ~4) div (2 + (x div 2)))
1: ((2x + ~4) div (1 + i))
1: ((2x + ~4) div (2 - ((~x + 1) div 3)))
1: ((3x + ~6) div (2 + (x div 4)))
1: ((x2 + ~3x + 2) div (x + 6))
1: ((x2 + ~3x + 2) div (x + 4))
1: ((x2 + ~2x) div 3)
1: ((x2 + ~2x) div (x + 6))
1: ((x2 + ~2x) div (4 + (x div 2)))
1: ((x2 + ~2x) div ((x + 2) + (x div 2)))
1: ((x2 + ~2x) div ((x + 4) + (x div 2)))
1: ((x2 + ~2x) div (2x + 3))
1: ((x2 + ~2x) div (1 + (x div 2)))
1: ((x2 + ~2x) div (1 + (x div 4)))
1: ((x2 + ~2x) div (8 - (x mod 2)))
1: ((x2 + ~2x) div (~3x + 4))
1: ((x2 + ~2x) div (2x + 12))
1: ((x2 + ~2x) div (3 * (1 + (x div 2))))
1: ((2x + ~6) div (4 + (x div 2)))
1: ((x2 + ~3x) div ((x + 1) - (x div ~2)))
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1: ((x2 + ~3x + ~4) div 2)
1: ((x2 + ~6x + 8) div (x + 1))
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1: ((19x2 + 11x) div 2)
1: ((7x6 + 5x5) div 2)
1: (((11x + 9) * loop(\(x,i).x3,2,x)) div 2)
1: ((11x2 + 9x) div 2)
1: ((13x2 + ~x) div 2)
1: ((19x2 + ~x) div 2)
1: ((x * ((x + ~1) + (2 * (i mod 2)))) div 2)
1: ((2 * ((x + ~1) + (2 div (1 + (x div 4))))) div 3)
1: ((x * ((x + ~1) + ((x div 2) div 3))) div 3)
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1: ((25x2 + 47x + 22) div 2)
1: ((x * ((3x + ~1) - (2x mod (2 + (x div 4))))) div 2)
1: ((5x2 + ~7x) div 2)
1: ((8x3 + ~3x2 + 3x) div 2)
1: ((3 * ((x + 1) - (2 * (~x + ((x div 4) mod 2))))) div 2)
1: ((x * ((x + 1) - (2 * (~x + (x mod 2))))) div 2)
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1: ((29x2 + x) div 2)
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1: (15x div (2x + 5))
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1: (90 div (x + 1))
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1: ((x4 + ~x3 + 2x2 + ~2x) div 2)
1: ((2x4 + 4x2) div 3)
1: ((x4 + 3x2) div 4)
1: ((2x * (1 + (2 * i))) div (3 + i))
1: (((1 + (i * i)) * i * i) div 2)
1: ((2x * (2 + (2 div (x + 1)))) div 3)
1: ((4 * ((2x + 2) + (((x + 1) + (x div 8)) div 2))) div 3)
1: ((2 * ((x + ((x + (4 * ((x + 1) + (5 * (x + (x mod 2)))))) div 2)) * ((x + 1) div 2))) div 2)
1: (((2x + 2) * (1 + ((1 + ((1 + ((1 + loop(\(x,i).((x + 2) + (x div 2)),(x div 2),(x mod 2))) div 2)) div 2)) div 2))) div 2)
1: ((4 * (1 + ((1 + ((x + ((2x * (x div 2)) div 5)) div 2)) div 2))) div 3)
1: ((4 * (1 + ((1 + ((loop(\(x,i).(x - (2 * (~x + (x div 3)))),x,1) div 2) div 2)) div 2))) div 3)
1: ((5 * ((1 + ((1 + (x div 2)) div 3)) * (if x <= 0 then 1 else 2))) div 3)
1: ((4 * (1 + ((x + (if (~2 + (x div 2)) <= 0 then 1 else 0)) div 2))) div 3)
1: ((4 * (1 + ((x + 1) div (2 + (x div 8))))) div 3)
1: ((x2 * (1 + ((x + 2) div 3))) div (x + 1))
1: ((4 * (2 + ((x - ((x div 2) div 3)) div 2))) div 3)
1: (((2x + 2) * (2 + ((4x + 2) div 5))) div 3)
1: ((x2 * (1 + ((x3 + 2x) div 3))) div 2)
1: ((4 * (1 + ((2 * (1 + ((2 * loop(\(x,i).(3x + 4),x,(x + 2))) div 3))) div 3))) div 3)
1: (((x2 + 3x + 2) * (2 + ((x2 + x) div 2))) div 2)
1: ((4 * (1 + ((x2 + 2x) div ((x + 4) + (x div 2))))) div 3)
1: (((x2 + ~x) * (2 + ((x2 + ~x) div 2))) div 3)
1: (((x2 + ~2x + 1) * (2 + ((x2 + ~x) div 5))) div 2)
1: ((4 * (1 + ((8 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2)) div 3))) div 3)
1: ((4 * (1 + ((2 * ((x + ((x div 2) mod 2)) div 2)) div 3))) div 3)
1: (((2x + 2) * (1 + (((1 + (((x + 1) * (1 + ((x + (x mod 4)) * (1 + (x div 4))))) div 2)) div 2) div 2))) div 2)
1: ((4 * (1 + (((1 + (((1 + (((x + 1) * (1 + (2 * (x - (x mod 10))))) div 2)) div 2) div 2)) div 2) div 2))) div 3)
1: ((4 * (1 + ((((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) * (1 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))) div 2) div 2))) div 3)
1: ((4 * (1 + ((((x + 1) * loop(\(x,i).(x + (if x <= 0 then (1 + i) else 0)),x,(~x + 1))) div 2) div 2))) div (x + 1))
1: ((4 * ((2x + 2) + ((x div 2) div 5))) div 3)
1: ((4 * (1 + ((x div 3) div (1 + (if (~2 + (x div 4)) <= 0 then 2 else 0))))) div 3)
1: ((4 * (1 + (((2x2 + 1) mod (2 + (x div 4))) div 2))) div 3)
1: ((4 * (1 + ((x mod (2 + (((x div 2) mod 2) + (x mod 3)))) div 2))) div 3)
1: ((4 * (4x + ((x mod (1 + (x div 2))) div 2))) div 3)
1: (((3x + 3) * (1 + (x div 2))) div 7)
1: (((x + 2) * ((2 + (x div 2)) * ((x + 1) div 2))) div 2)
1: (((2x2 + ~x + ~1) * (x + (x div 2))) div 2)
1: ((2 * ((1 + (x div 3)) * (1 + (x div 3)))) div 3)
1: ((4 * (1 + (x div (1 + (if ((x * (x div 2)) mod 2) <= 0 then x else (x mod 3)))))) div 3)
1: ((6 * ((3x + 3) + (x div 8))) div 5)
1: ((4 * ((2x + 2) + (x div 12))) div 3)
1: ((6 * ((2x + 2) + (x div 12))) div 5)
1: ((9 * ((2 mod (1 + (x mod 3))) + (x mod 2))) div 2)
1: ((4 * (1 + ((x + 1) mod (1 + (x div (2 * (2 + (x mod 4)))))))) div 3)
1: (((2x + 2) * (2 + ((~x + 1) mod 3))) div 3)
1: ((4 * (1 + ((~2 + loop(\(x,i).2x,(1 - ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)),1)) mod 9))) div 3)
1: ((6 * (2x + ((x + ~1) mod 3))) div (x + 2))
1: ((2 * ((1 + ((x div 2) mod 2)) * (x div 3))) div 2)
1: ((x * ((1 + ((x div 2) mod 2)) * (1 + (x div 2)))) div 2)
1: ((3x * (2 + (x mod 2))) div (x + 3))
1: ((x2 * (2x + (x mod 2))) div 2)
1: (((2x + 2) * (2 + (if (~2 + (x div 2)) <= 0 then 1 else 2))) div (x + 5))
1: ((6 * (x + (if (x + ~4) <= 0 then 1 else 2))) div 5)
1: ((3x * (x + (if (x mod 2) <= 0 then 2 else 0))) div 2)
1: (((x2 + 3x + 2) * (1 + (if (x mod 3) <= 0 then 2 else 0))) div 2)
1: ((6 * (x + (if x <= 0 then 1 else (x + (2 * ((x + 1) div 5)))))) div (x + 1))
1: ((4 * (2 + (if x <= 0 then 2 else 0))) div (x + 1))
1: (((x2 + 3x + 2) * (1 + loop(\(x,i).(x2 + ~1),2,4))) div 2)
1: ((x2 * (1 + loop(\(x,i).x3,2,x))) div 2)
1: ((x4 * (x2 + loop(\(x,i).x3,2,x))) div 2)
1: ((10x + 10) div (x + 2))
1: ((4x2 + 6x + 2) div 5)
1: ((2x2 + 4x + 2) div 3)
1: ((15x + 15) div (x + 9))
1: ((5x2 + 5x) div 3)
1: ((5x2 + 5x) div (x + 3))
1: ((2x3 + 3x2 + x) div 3)
1: (((x2 + x) * (1 + (x div 2))) div 3)
1: ((4x + 8) div (x + 1))
1: ((4x + 8) div ~7)
1: ((6x + 12) div (1 + i))
1: ((2x2 + 6x + 4) div 3)
1: ((2x2 + 6x + 4) div 9)
1: ((3x2 + 9x + 6) div 13)
1: ((2x2 + 8x + 8) div 13)
1: ((2x3 + 9x2 + 12x + 4) div 3)
1: ((x3 + 6x2 + 12x + 8) div 2)
1: ((2x2 + 4x) div 3)
1: ((2x2 + 4x) div 5)
1: ((2x2 + 4x) div 9)
1: ((3x2 + 6x) div 2)
1: ((3x2 + 6x) div 4)
1: ((3x2 + 6x) div 7)
1: ((4x2 + 8x) div 3)
1: ((x3 + 5x2 + 6x) div 2)
1: ((x3 + 3x2 + 2x) div 5)
1: ((x3 + 4x2 + 4x) div 2)
1: ((2x3 + 3x2 + ~2x) div 2)
1: ((2x3 + 3x2 + ~2x) div 3)
1: ((x4 + 2x3 + ~x2 + ~2x) div 3)
1: (((x2 + 2x) * (x div 3)) div 2)
1: ((x * ((1 + i) * (1 + i))) div 2)
1: ((3x * (2 + i)) div (1 + i))
1: ((x * ((2 + i) * (1 + i))) div 2)
1: ((x * ((x + i) * i)) div 2)
1: ((4 * (1 + compr(\x.(~1 + (((x + 1) * (1 + (x mod (2 * (2 + ((x2 + x) mod 8)))))) mod 3)),(x + 1)))) div 3)
1: ((4 * (1 + compr(\x.((x + 1) mod (1 + (x mod (2 + (loop(\(x,i).x3,2,2x) mod (x + 1)))))),x))) div 3)
1: (((x + 1) * ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) * (2 + (x mod 2)))) div 2)
1: (((x2 + 3x + 2) * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2)
1: ((~x2 * (2 + (x div 2))) div 5)
1: ((~8x3 + 8x) div 3)
1: ((~x3 + 3x2 + ~3x + 1) div 3)
1: ((7x3 + 9x2 + 2x) div 2)
1: (((2x + 2) * (2 - ((x div 4) mod 2))) div 5)
1: ((~9x + 18) div (x + 2))
1: ((~x4 + 4x2) div 3)
1: (((~x2 + 2x) * ((x + ~1) div 2)) div 2)
1: (((x2 + x) * (9 - ((~x2 + x) div 2))) div 2)
1: (((x2 + x) * ((x + ~1) + (2 * (2x + (x mod 2))))) div 2)
1: ((22x3 + 3x2 + ~19x) div 2)
1: ((x4 + 15x2) div 4)
1: ((x3 + 16x2 + 15x) div 2)
1: ((4 * ((x + 2) - (((x div 2) div ~2) div 2))) div 3)
1: ((3x3 + x2 + ~2x) div 2)
1: ((3x4 + ~2x3 + ~3x2 + 2x) div 2)
1: (((3x2 + ~2x) * ((x2 + 3x + 2) div 2)) div 3)
1: (44 div (x + 1))
1: ((11x3 + 33x2 + 33x + 11) div 2)
1: ((11x2 + 11x) div 9)
1: (11x2 div 5)
1: ((8x2 + 30x + 18) div 13)
1: ((4x3 + 7x2 + 3x) div 2)
1: ((5x3 + 9x2 + ~2x) div 2)
1: ((14x2 + 98x + 70) div (x + 1))
1: ((4x3 + 12x2 + ~4x) div 3)
1: ((10x2 + 48x + 38) div 5)
1: ((16x3 + 6x2 + 8x) div 3)
1: ((4x4 + x3 + ~2x2) div 3)
1: ((2x4 + 4x2 + ~2x) div 3)
1: ((6 * ((2x + 2) - ((x + 1) mod 10))) div 5)
1: ((15x2 + 40x + 25) div 11)
1: ((12x3 + 54x2 + 87x + 45) div 2)
1: ((x5 + ~x3 + ~x2) div 2)
1: ((14x3 + ~12x2 + ~2x) div 3)
1: (92 div (x + 1))
1: (46x div (if i <= 0 then 1 else i))
1: ((~23x2 + 23x) div 2)
1: ((4x4 + 8x3 + 11x2 + 7x) div 2)
1: ((16x3 + 48x2 + 38x + 12) div 3)
1: ((8x2 + 22x + 14) div 13)
1: ((4x3 + 27x2 + 51x + 28) div 2)
1: ((4x3 + 15x2 + 14x) div 2)
1: ((2x4 + 2x3 + ~5x2 + x) div 2)
1: ((~16x3 + 21x2 + ~5x) div 2)
1: ((19x3 + 3x2 + ~16x) div 2)
1: (62x div (1 + i))
1: (62x div (if i <= 0 then 1 else i))
1: (93x div (1 + i))
1: ((~31x2 + 31x) div 2)
1: (31x2 div 2)
1: ((47x2 + 47x) div 2)
1: ((16x3 + 15x2 + ~x) div 2)
1: ((32x3 + ~2x) div 3)
1: ((4x3 + 3x2 + ~x) div 3)
1: ((4 * (4x - ((2 * ((((x div 2) div 3) mod 2) - (if x <= 0 then 1 else x))) div 3))) div 3)
1: ((3x4 + ~x2) div 2)
1: ((8x3 + ~2x) div 3)
1: ((4x4 + ~x2) div 3)
1: ((x6 + ~x3) div 2)
1: (((x2 + 3x + 2) * (~1 + (7 * ((x2 + 3x + 2) div 2)))) div 2)
1: (((x2 + 3x + 2) * (~1 + (9 * ((x2 + 3x + 2) div 2)))) div 2)
1: ((4x2 + ~2x) div 17)
1: ((2x3 + 5x2 + ~3x) div 2)
1: ((2x3 + ~x2) div 2)
1: ((4 * ((2x - (x div (if i <= 0 then 1 else i))) * (1 + (2 * i)))) div (1 + i))
1: ((4 * (2x - (x mod 7))) div 3)
1: ((x4 + x3 + ~x2 + ~x) div 3)
1: ((x4 + ~x3 + ~x2 + x) div 2)
1: ((16x3 + ~16x) div 3)
1: ((x4 + ~x2) div 3)
1: ((x4 + ~x2) div 4)
1: ((2x * (~1 + (2 * i))) div 3)
1: ((2x * (~1 + (2 * i))) div (1 + (i div 2)))
1: ((2x * (~1 + (2 * i))) div (if i <= 0 then 2 else ((1 + i) div 2)))
1: (((x2 + ~x) * (~2 + ((x2 + x) div 2))) div 2)
1: ((4 * ((x div 2) - ((x + ~1) div 3))) div 3)
1: (((2x + 8) * ((if x <= 0 then 1 else 4x) - ((x + (x div 2)) div 4))) div 3)
1: ((x3 + ~2x2 + x) div (1 + ((x + 1) div 2)))
1: ((4x + ~8) div (x + 1))
1: ((2x2 + ~6x + 4) div 3)
1: ((2x2 + ~6x + 4) div 5)
1: ((x3 + ~3x2 + 4) div 2)
1: ((2x3 + ~3x2 + ~2x) div 3)
1: ((x3 + ~3x2 + 2x) div 7)
1: ((x3 + ~3x2 + 2x) div 13)
1: ((x3 + ~3x2 + 2x) div 19)
1: ((x3 + ~3x2 + 2x) div 17)
1: ((x3 + ~3x2 + 2x) div 25)
1: ((x3 + ~3x2 + 2x) div 11)
1: ((x3 + ~3x2 + 2x) div 29)
1: ((x3 + ~3x2 + 2x) div 15)
1: ((x3 + ~3x2 + 2x) div 23)
1: ((x3 + ~3x2 + 2x) div 31)
1: ((x3 + ~4x2 + 4x) div 2)
1: ((x4 + ~4x3 + 4x2) div 2)
1: (((x2 + ~2x) * ((x + ~1) div 2)) div 2)
1: ((5x3 + 2x2 + ~3x) div 2)
1: ((7x3 + ~5x2) div 2)
1: ((x3 + ~5x2 + ~22x + ~16) div 2)
1: ((x3 + 24x2 + 65x + 42) div 2)
1: ((10x3 + ~9x2 + 2x) div 3)
1: ((5x4 + ~2x3 + ~5x2 + 2x) div 2)
1: ((10x3 + ~3x2 + ~4x) div 2)
1: ((5x3 + x2 + ~4x) div 2)
1: ((7x3 + 3x2 + ~4x) div 2)
1: ((7x3 + x2 + ~6x) div 2)
1: ((9x3 + x2 + ~8x) div 2)
1: ((~6x3 + ~9x2 + 6x) div 2)
1: (((x2 + 3x + 2) * (x - (9 * ((~x2 + x) div 2)))) div 2)
1: ((4 * (x - ((~x + 2) div 5))) div 3)
1: ((4 * (x - ((x - ((x div 2) mod 4)) div 5))) div 3)
1: ((4 * (x - ((2 * (x div ~2)) div 5))) div 3)
1: ((4 * (x - (x2 div (3x + 4)))) div 3)
1: ((4 * (x - ((1 mod (~2x + 1)) div (x + 2)))) div 3)
1: ((4 * (x - (x div ~4))) div (x + 3))
1: ((4 * (x - (x div (~2 + (x div ~2))))) div 3)
1: ((x2 * (x - (x div (~2 + (x mod 2))))) div 2)
1: ((6 * (x - (x div ~14))) div 5)
1: ((15 * (x - (x div ~14))) div 2)
1: ((4x * ((~x + 1) + i)) div (1 + i))
1: (54 div (x + 1))
1: (63x div (if i <= 0 then 1 else i))
1: (48 div (x + 1))
1: ((32x + 16) div (2x + 9))
1: ((16x + 16) div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))
1: (72 div (x + 1))
1: ((12x2 + 24x + 12) div 7)
1: (50x div (if i <= 0 then 1 else i))
1: (90x div (1 + i))
1: ((x4 + 14x3 + 53x2 + 76x + 36) div 2)
1: ((4x3 + 30x2 + 68x + 48) div 3)
1: ((x4 + 8x3 + 19x2 + 12x) div 5)
1: ((8 * ((2x + 1) - ((x div 3) mod 3))) div 3)
1: (56 div (x + 1))
1: ((5x4 + 3x3) div 2)
1: ((4x3 + 24x2 + 8x) div 3)
1: ((3x5 + 10x4 + 13x3 + 8x2 + 2x) div 2)
1: (((17x2 + 34x + 17) * (x mod 7)) div 2)
1: ((24x5 + 60x4 + 50x3 + 15x2 + x) div 2)
1: ((x9 + x4) div 2)
1: ((x8 + x6 + x4 + x2) div 2)
1: ((24x + 12) div (x + 4))
1: ((6x3 + 3x2) div 2)
1: (((4x2 + 4) * (if x <= 0 then 1 else 2)) div 3)
1: ((2x * ((1 + (2 * i)) * (1 + (2 * i)))) div (1 + i))
1: ((2x * ((1 + (2 * i)) * (~1 + (2 * i)))) div (1 + i))
1: ((2x2 * (1 + (2 * i))) div (2 + i))
1: ((x3 * (x + ((x + loop(\(x,i).x3,2,x)) div 2))) div 2)
1: ((8 * (1 + ((12x + 116) div 7))) div 3)
1: ((12 * (1 + (x div 2))) div 5)
1: ((18 * (1 + (~2 mod (1 - (2 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)))))) div 2)
1: (((2x3 + 2x2 + 2x + 2) * (x + (x mod 2))) div 3)
1: ((18x + 18) div 5)
1: ((6x2 + 12x + 6) div (x + 9))
1: ((8x + 16) div 5)
1: ((4x3 + 12x2 + 12x + 8) div 3)
1: ((4x2 + 12x + 8) div 3)
1: ((4x2 + 12x + 8) div 5)
1: ((4x2 + 12x + 8) div 7)
1: ((2x3 + 8x2 + 10x + 4) div 3)
1: ((6x2 + 24x + 24) div 5)
1: ((x4 + 7x3 + 18x2 + 20x + 8) div 2)
1: ((2x3 + 12x2 + 16x) div 3)
1: ((x5 + 5x4 + 9x3 + 7x2 + 2x) div 3)
1: ((x4 + 5x3 + 8x2 + 4x) div 2)
1: ((8x3 + 24x2 + 16x) div 3)
1: (((x3 + 6x2 + 11x + 6) * (1 - (2 * (x mod 2)))) div 2)
1: (((2x2 + 4x + 2) * (2 - ((x * (x div 2)) mod 2))) div 2)
1: ((8 * (2 - (x mod 2))) div (x + 1))
1: ((16x3 + 30x2 + 14x) div 3)
1: ((20x2 + ~10x) div 7)
1: ((10x * (~1 + (2 * i))) div (1 + i))
1: ((2x * ((~1 + (2 * i)) * (1 + (2 * (1 + i))))) div (1 + i))
1: ((3x4 + ~11x3 + 12x2 + ~4x) div 2)
1: ((7x4 + 16x3 + ~x2 + ~10x) div 2)
1: (96 div (x + 1))
1: ((32x + 32) div 7)
1: ((32x3 + 192x2 + 352x + 192) div 3)
1: ((16x3 + 24x2 + 24x + 8) div 3)
1: ((4x3 + 24x2 + 44x + 24) div 3)
1: ((16x3 + 60x2 + 68x + 24) div 3)
1: (64x div (if i <= 0 then 1 else i))
1: (96x div (1 + i))
1: (32x div (1 + i))
1: (48x div (1 + i))
1: ((32x3 + 16x) div 3)
1: ((9x8 + 7x7) div 2)
1: ((x9 + x7) div 2)
1: (16x div 3)
1: (16x div (x + 4))
1: (16x div (1 + i))
1: (16x div (if i <= 0 then 1 else i))
1: (24x div (1 + i))
1: (40x div (1 + i))
1: (40x div (if i <= 0 then 1 else i))
1: (56x div (if i <= 0 then 1 else i))
1: (72x div (if i <= 0 then 1 else i))
1: ((8x2 + 8x) div 3)
1: ((8x2 + 8x) div (x + 32))
1: (36x div (1 + i))
1: (60x div (if i <= 0 then 1 else i))
1: ((8x3 + 12x2 + 4x) div 3)
1: ((10x4 + 20x3 + 20x2 + 10x) div 3)
1: (16x2 div 3)
1: ((x5 + 5x4 + 8x3 + 4x2) div 2)
1: ((x8 + x6) div 2)
1: ((x5 + 3x4 + 2x3) div 2)
1: ((x5 + ~2x4 + x3) div 2)
1: ((x8 + x5) div 2)
1: ((x7 + x5) div 2)
1: (x7 div loop(\(x,i).(x2 + x),2,2))
1: ((8 * ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3)) div 3)
1: ((2x * ((x div 2) * (1 + (x div 2)))) div (x + 1))
1: (((2x + ~4) * ((x div 3) * ((~x + 2) div 2))) div 3)
1: ((8 * (x div (~x + 19))) div 3)
1: ((12 * loop(\(x,i).(2x + 4),x,4)) div (x + 1))
1: (8x div (x + 6))
1: (8x div (x + 4))
1: (8x div (x2 + 1))
1: (8x div (1 + (x div 2)))
1: (12x div (x + 1))
1: (12x div (x + 2))
1: (12x div (1 + i))
1: (20x div (x + 3))
1: (20x div (1 + i))
1: ((4x * (1 + (2 * i))) div (2 + i))
1: ((4x2 + 4x) div 5)
1: ((4x2 + 4x) div (x + 5))
1: ((4x * (~1 + (2 * i))) div (3 + i))
1: (18x div (x + 2))
1: (30x div (1 + i))
1: (54x div (1 + i))
1: (54x div (if i <= 0 then 1 else i))
1: ((14x2 + 14x) div 5)
1: (~12x div (x + 2))
1: (10x2 div 3)
1: ((2x4 + ~2x2) div 3)
1: ((2x2 * (~1 + (2 * i))) div (1 + i))
1: (9x2 div 2)
1: (8x2 div (x + 10))
1: (12x2 div 7)
1: ((x4 + 3x3 + 2x2) div 2)
1: ((x4 + 4x3 + 4x2) div 2)
1: ((x4 + x3 + ~2x2) div 9)
1: ((x7 + x4) div 2)
1: ((x6 + x4) div 2)
1: ((x5 + x4) div 2)
1: ((x7 + x6) div 2)
1: (x6 div (5x + 1))
1: (((x3 + x2) * (x div 2)) div 3)
1: (5x3 div (x + 1))
1: ((x5 + x3) div 2)
1: ((x5 + ~x3) div 2)
1: ((x4 + ~x3) div 2)
1: ((x4 + ~x3) div (x + 4))
1: (x5 div 32)
1: (x5 div loop(\(x,i).x5,1,5))
1: ((x3 * ((x + 1) div 2)) div 3)
1: ((x3 * (x2 div 2)) div 2)
1: ((x3 * (x div 2)) div 3)
1: ((2x * (i * (~1 + (2 * i)))) div (1 + i))
1: ((i * i * (1 + i) * (1 + i)) div 2)
1: ((3x * (i * i)) div 2)
1: ((x * (i * i * (1 + i))) div 2)
1: ((i * i * i * (1 + i)) div 2)
1: ((4 * (((x * (1 - ((x3 div 8) mod 2))) + (x mod 2)) div 3)) div 3)
1: ((4 * ((1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + ~1) div 2))) div 2)) div 3)
1: ((21 * ((1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + ~1) div 2))) div 2)) div 2)
1: (((3x + 3) * ((1 + ((x + 1) * loop(\(x,i).x3,1,loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1)))) div 2)) div 2)
1: ((4 * ((2 + ((3 * (x + (4 * (if (~2 + (x div 4)) <= 0 then 0 else 2)))) div 2)) div 2)) div 3)
1: ((x2 * ((x + ((x5 + ~x3 + ~x2) div 2)) div 2)) div 2)
1: ((4 * ((1 + (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (x div (2 * (2 - (x mod 2)))))) div 2)) div 2)) div 3)
1: (((2x + 2) * ((1 + ((loop(\(x,i).(x + (x div (2 + (x mod 2)))),x,2) div 2) div 2)) div 2)) div 2)
1: (((2x + 2) * ((1 + (x div 4)) div 2)) div 3)
1: ((4 * (((if (x mod 2) <= 0 then 2 else x) + (x div 2)) div 3)) div 3)
1: (((x + 1) * (((x + 1) div 2) * (1 + (x div 2)))) div 2)
1: ((x * (((x + 1) div 2) * (1 + ((x + 1) div 2)))) div 2)
1: ((4 * ((x + 1) div (8 - ((x + 2) div 3)))) div 3)
1: ((4 * ((x + 2) div (1 + (if x <= 0 then 1 else 2)))) div 3)
1: ((4 * ((~x + 1) div 3)) div 5)
1: ((4 * ((2 - ((x + 1) mod (~1 + (2 * ((~x + 1) div (2 + (x div 2))))))) div 2)) div 3)
1: ((4 * ((2 - (x mod (~2 + ((x div 2) mod (~2 - (x div 4)))))) div 2)) div 3)
1: ((4 * ((2x - (x mod 4)) div 5)) div 3)
1: (((x + 3) * (((x + ~1) div 2) * (x div 2))) div 2)
1: (((x + 1) * (((x + ~1) div 2) * (x div 2))) div 2)
1: ((((x + ~1) div 2) * (x div 2) * (~1 + (x div 2))) div 2)
1: ((4 * ((x - (x div 3)) div 3)) div 3)
1: ((2 * (((x - ((x div 2) mod 2)) div 2) * ((x + 1) div 2))) div 2)
1: (((x2 + x) * ((2 * (4 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3)) div 2)
1: ((4 * ((3 * (1 + (x div 2) - ((x div 4) mod 2))) div 2)) div 3)
1: ((4 * ((3 * (1 + (x mod (1 + (2 * ((x + ~1) mod (1 + (x div (2 + ((x div 2) mod 3)))))))))) div 2)) div 3)
1: ((4 * ((2 * (2 + (if x <= 0 then 0 else (2 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))))) div 3)) div 3)
1: (((x2 + 3x + 2) * ((2 * (2 + (if x <= 0 then 0 else (2 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))))) div 3)) div 2)
1: ((4 * ((2x + 2) div 7)) div 3)
1: (((11x + 33) * ((x2 + 3x + 2) div 2)) div 3)
1: (((2x2 + 7x + 3) * ((x2 + 3x + 2) div 2)) div 3)
1: (((2x3 + 4x2 + 5x + 3) * ((x2 + 3x + 2) div 2)) div 3)
1: ((4 * ((8 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2)) div 3)) div 3)
1: ((4 * ((4 * (2x div 7)) div 3)) div 3)
1: (((2x + 2) * (((x + 3) * loop(\(x,i).((x2 + ~x) div 2),2,(x + 4))) div 3)) div 3)
1: ((4 * (2x div 7)) div 3)
1: (((5x + 5) * (x2 div 2)) div 2)
1: ((2x * (x2 div 2)) div 3)
1: (((3x + 3) * (x2 div 4)) div 2)
1: ((4 * (((x + 1) div 2) div 2)) div 3)
1: (((2x + 2) * ((x div 2) div (1 + (if (x mod 2) <= 0 then 6 else 1)))) div 3)
1: ((9 * ((x div (1 + (2 * (if (x mod 10) <= 0 then 0 else 2)))) div 2)) div 2)
1: ((4 * (((2x + 1) mod (x - ((x + 1) mod 4))) div 2)) div 3)
1: ((3 * ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (2 + (x div 4) - (x div 5)))) div 2)
1: ((3 * ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (2 * ((1 + (x div 2)) div 2))))) div 2)
1: ((2 * ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 - (2 * ((x div 2) mod 2))))) div 3)
1: ((3 * (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + ((x * (1 + ((x div 2) mod 2))) div 3)))) div 2)
1: ((3 * (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (~1 + (3 * (((x + 1) div 2) div 2))))) div 2)
1: ((3 * (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (~1 + (((2 - ((x div 2) mod 2)) * (x div 2)) div 3)))) div 2)
1: ((3 * (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (x - (2 * (((x + 1) div 2) div 2))))) div 2)
1: ((3x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) div 2)
1: ((4 * ((x mod (1 + (x div 2))) div 2)) div 3)
1: (((3x + ~3) * (loop(\(x,i).2x,(x + ~2),x) div 2)) div 2)
1: ((4 * (x div 2)) div 3)
1: ((4 * (x div 2)) div 7)
1: ((2x * (x div 2)) div 5)
1: ((5x * (x div 2)) div (x + 2))
1: (((2x2 + x) * (x div 2)) div (x + 5))
1: ((x * ((x div 2) * (1 + (x div 2)))) div 2)
1: (((x2 + x) * (x div 2)) div 5)
1: (((x2 + ~x) * (x div 2)) div (1 + (x div 2)))
1: (((x2 + ~2x) * (x div 2)) div (x + 3))
1: (((x2 + ~2x) * (x div 2)) div (x + 4))
1: ((x * ((x div 2) * (x div 2))) div 3)
1: (((~x2 + 4x + ~4) * (x div 3)) div 2)
1: (((x + ~2) * ((x div 3) * ((~x + 2) div 2))) div 2)
1: (((x2 + ~2x) * (x div 3)) div 2)
1: ((4 * (x div (1 + (2 * (3 - (x mod 2)))))) div 3)
1: ((4 * (x div (2 + (x mod (1 + ((x + 1) div (1 + (((2x div (1 + (x div 4))) mod 2) + (x mod 2))))))))) div 3)
1: ((2x * (x div (2 - ((x div 2) mod 2)))) div 3)
1: ((9 * ((x * (x div 2)) mod (1 + (if (x mod 8) <= 0 then 2 else 1)))) div 2)
1: ((2 * ((x mod 2) * (x div 3))) div 3)
1: ((2x * (x mod 2)) div 7)
1: (((x2 + 2x) * (x mod 2)) div 2)
1: ((x * ((x mod 2) * (x div 2))) div 7)
1: ((3x * (x mod 3)) div (x + 2))
1: ((4 * (x mod 4)) div 3)
1: ((4 * (x mod (x - ((x + ~1) mod 8)))) div 5)
1: ((6 * (if (~4 + (x div 2)) <= 0 then x else (x + 3))) div 5)
1: ((4 * (if ((2 + (loop(\(x,i).4x,x,(2 - ((2x + 2) mod 5))) div 3)) div 3) <= 0 then 1 else 2)) div (x + 1))
1: (((3x + 3) * (if (16 mod (x + 1)) <= 0 then 2 else 0)) div (x + 4))
1: (((x2 + x) * (if (x mod 2) <= 0 then 4 else 1)) div 2)
1: ((10 * (if (x mod 2) <= 0 then ((~1 + (5 * (2 - ((x div 2) mod 2)))) * (if x <= 0 then 1 else 2)) else 1)) div 3)
1: ((6 * (if (x mod 2) <= 0 then ((~1 + (9 * (2 - ((x div 2) mod 2)))) * (if x <= 0 then 1 else 2)) else 1)) div 5)
1: (((x2 + 3x) * (if (x mod 2) <= 0 then x else 1)) div 2)
1: ((6 * (if x <= 0 then 1 else (4x2 + 2))) div 5)
1: ((4 * (if x <= 0 then 1 else (4x3 + 2x))) div 3)
1: ((4 * (if x <= 0 then 1 else (2x3 + 4x))) div 3)
1: ((4 * (if x <= 0 then 1 else (~2x3 + 2x))) div 3)
1: ((8 * (if x <= 0 then 1 else x)) div (x + 6))
1: (((x3 + 3x2 + 3x + 1) * loop(\(x,i).((3x + 2) + i),6,3)) div 2)
1: ((4 * loop(\(x,i).((2x + ~1) + ((2 * ((2x + 2) + (((2x + 1) + (2 * ((x + 1) + (5 * (x + (x div 4)))))) div 3))) div 3)),x,1)) div 3)
1: ((3 * (loop(\(x,i).(10x + 1),(x div 2),1) * (1 + (2 * (x mod 2))))) div 2)
1: (((x2 + 3x + 2) * loop(\(x,i).(10x + 1),x,1)) div 2)
1: (((x2 + 2x + 1) * loop(\(x,i).(5x + 8),x,1)) div 2)
1: (((x2 + 3x + 2) * loop(\(x,i).(x + (i * i)),(x + 1),0)) div 2)
1: (((x2 + 3x + 2) * loop(\(x,i).(x + (i * i)),(x + 1),1)) div 2)
1: (((x2 + ~3x + 2) * loop(\(x,i).3x,(x + ~2),x)) div 3)
1: (((x2 + x) * loop(\(x,i).(x * (4 + i)),(x + ~1),x)) div 2)
1: (((x2 + 5x + 6) * loop(\(x,i).(x * (4 + i)),x,(x + 2))) div 2)
1: (((x2 + 4x + 3) * loop(\(x,i).(x * (1 + (2 * (2 + i)))),x,(x + 2))) div 2)
1: ((6 * loop(\(x,i).(2x + 4),x,4)) div (x + 1))
1: ((4 * loop(\(x,i).(~2x + 4),x,2)) div 7)
1: (((x2 + x) * loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),(x + ~1),x)) div 2)
1: (((x2 + 6x + 9) * loop(\(x,i).(x * ((x + 1) - i)),2,(x + 2))) div 2)
1: ((4 * loop(\(x,i).10x2,(3x + 1),1)) div 3)
1: (((2x2 + 7x + 3) * loop(\(x,i).4x,x,(x + 1))) div 3)
1: (((x3 + x) * loop(\(x,i).x3,2,x)) div 2)
1: (((x2 + x) * loop(\(x,i).x3,2,x)) div 2)
1: (((x2 + 3x) * loop(\(x,i).2x,(x + ~1),x)) div 2)
1: ((4 * loop(\(x,i).2x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),2)) div 3)
1: (((x2 + 4x + 3) * loop(\(x,i).x2,1,((x2 + 3x + 2) div 2))) div 3)
1: (((x2 + 5x + 6) * loop(\(x,i).x2,1,((x2 + 3x + 2) div 2))) div 2)
1: (((x2 + 2x) * loop(\(x,i).x2,2,(x + 1))) div 2)
1: (((x2 + 2x) * loop(\(x,i).x2,2,(x + 1))) div 3)
1: (((x2 + 2x) * loop(\(x,i).x2,2,(x + 1))) div 12)
1: (((x2 + 5x + 4) * loop(\(x,i).((x2 + ~x) div 2),2,(x + 4))) div 2)
1: (((x2 + 3x + 2) * loop(\(x,i).((x2 + ~x) div 2),2,(x + 4))) div 2)
1: (((x2 + x) * loop(\(x,i).((x2 + ~x) div 2),2,(x + 2))) div 2)
1: ((x2 * loop(\(x,i).((x2 + ~x) div 2),2,(x + 2))) div 3)
1: (((2x2 + ~x) * loop(\(x,i).((x2 + ~x) div 2),2,(x + ~2))) div 9)
1: (((x2 + 3x + 2) * loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x + 1),2)) div (x + 4))
1: ((9 * loop(\(x,i).(x3 mod 47),2,x)) div (x + 1))
1: ((4 * loop(\(x,i).i,(~2 + (x div 2)),1)) div 3)
1: (4x div (5 + (x div 2)))
1: (4x div (4 + (x div (5 + (((x + ~1) div 2) mod 2)))))
1: (4x div (3 + (2 mod (x + 1))))
1: (4x div ((x + 2) + loop(\(x,i).((1 + (x * loop(\(x,i).(8x + 2),2,2x))) mod (x + 1)),1,(x + 1))))
1: (4x div (1 + (x div 2)))
1: (4x div (2 + (x div 3)))
1: (4x div (1 + (x div (2 + (x mod 2)))))
1: (4x div (1 + (2 mod (1 + (x mod 3)))))
1: (4x div (2 + (if (~4 + (x div 2)) <= 0 then x else (x + 2))))
1: (4x div (1 + (if (x mod 7) <= 0 then 6 else 0)))
1: (4x div (x + 1))
1: (4x div ((x + 2) - ((~1 + (x div 2)) div 2)))
1: (4x div (~x + ~1))
1: (4x div (~x + ~3))
1: (4x div (~1 - i))
1: (4x div (8 - (x div ~2)))
1: (4x div (x3 + ~2))
1: (4x div (~7x + 112))
1: (4x div (if (x mod 2) <= 0 then (4 * (if (x mod 4) <= 0 then 4 else 1)) else 1))
1: ((2x2 + 2x) div 5)
1: ((2x2 + 2x) div (x + 4))
1: (~4x div (1 + (x div 2)))
1: ((2x2 + ~2x) div (x + 1))
1: (2x2 div 3)
1: (2x2 div (x + 7))
1: (2x2 div (x + 5))
1: (2x2 div (x + 9))
1: (2x2 div (3 + (x div 2)))
1: (2x2 div ((x + 2) + (x div 2)))
1: (2x2 div (x + 4))
1: (2x2 div 7)
1: (2x2 div (8 + (x div 2)))
1: (2x2 div 13)
1: (2x2 div (13 + (x div 2)))
1: (2x2 div (x + 16))
1: (2x2 div (1 + ((x + 1) div 2)))
1: (2x2 div (x + 15))
1: (2x2 div (~4 + (x * (x div 2))))
1: (2x2 div ((x + 1) - (x div 8)))
1: (2x2 div (((x + 2) * (2 + (x div 2))) div 2))
1: (3x2 div 2)
1: (3x2 div 5)
1: (3x2 div (x + 9))
1: (3x2 div 17)
1: (3x2 div (x + 16))
1: (3x2 div (1 + i))
1: (3x2 div 11)
1: (4x2 div (1 + (x div 2)))
1: (4x2 div (1 + (if (x mod 3) <= 0 then 2 else 0)))
1: (4x2 div (x + 2))
1: (4x2 div (2 - (x mod 2)))
1: ((x3 + x2) div (x + 6))
1: ((x3 + x2) div (x + 4))
1: ((x3 + x2) div (~2x + 1))
1: ((x3 + x2) div 8)
1: ((x3 + 2x2) div 65)
1: ((x3 + 2x2) div (1 + ((x div 2) div 3)))
1: ((x3 + 2x2) div (~1 + (5 * (if (x mod 4) <= 0 then 0 else 2))))
1: ((x3 + 2x2) div loop(\(x,i).(x2 + 1),2,4))
1: (~x3 div 2)
1: ((~x3 + x2) div 5)
1: ((~x3 + x2) div (1 + (x div 3)))
1: ((~x3 + 2x2) div 2)
1: ((~x3 + 2x2) div (4x + 3))
1: ((x3 + ~x2) div (x + 6))
1: ((x3 + ~x2) div (1 + (x div 4)))
1: ((x3 + ~x2) div (x + 2))
1: ((x3 + ~x2) div 8)
1: ((x3 + ~2x2) div 17)
1: ((x3 + ~2x2) div (2 + (x div 2)))
1: ((x3 + ~2x2) div (2 - (x div ~2)))
1: ((x3 + ~2x2) div 15)
1: (2x3 div 3)
1: (x4 div (1 + (2 * (x div 2))))
1: (x4 div (~1 + (x div ~2)))
1: (x4 div 8)
1: (x4 div (~2x + ~4))
1: (x4 div 16)
1: (x4 div 64)
1: ((x2 * (x div 2)) div (1 + (x mod 3)))
1: ((x2 * (x mod 2)) div 3)
1: (x3 div (x + 9))
1: (x3 div (x + 17))
1: (x3 div ((x + 1) + (x div 2)))
1: (x3 div (4 + (x div 3)))
1: (x3 div ((x + 2) + (x mod 2)))
1: (x3 div (x + 8))
1: (x3 div (12 + ((x + 1) div 2)))
1: (x3 div (x + 12))
1: (x3 div ((5x + 5) + (x2 div 2)))
1: (x3 div (5x + 1))
1: (x3 div 17)
1: (x3 div (x2 + 16))
1: (x3 div (x + 16))
1: (x3 div (x2 + 54))
1: (x3 div (x + 32))
1: (x3 div (2x + 1))
1: (x3 div (2 + (3 mod (x + 1))))
1: (x3 div (2 + (x mod (1 + (x div 3)))))
1: (x3 div (1 + loop(\(x,i).x2,2,(4 * (1 + (2 * (x mod 2)))))))
1: (x3 div (~x + ~35))
1: (x3 div (~6x + 2))
1: (x3 div (2 - ((x div 2) mod 2)))
1: (x3 div (~3x + 2))
1: (x3 div 11)
1: (x3 div (2x + 95))
1: (x3 div 31)
1: (x3 div (~1 + (2 * (loop(\(x,i).2x,x,1) div (x + 1)))))
1: (x3 div (2x - ((x + ~1) mod 4)))
1: (x3 div (~2 + (x mod ~2)))
1: (x3 div (x + ~49))
1: (x3 div (~5x + ~1))
1: (x3 div (x - ((~x + 2) div 2)))
1: (x3 div (3 * (1 + (2 * (x mod 3)))))
1: (x3 div (4x + 2))
1: (x3 div (~4x + 2))
1: (x3 div 32)
1: (x3 div loop(\(x,i).(~3x2 + x),2,2))
1: (x3 div loop(\(x,i).((3 * (x + (i * i))) div (1 + i)),x,1))
1: ((~x2 * i) div 2)
1: (((x2 + ~x) * i) div 2)
1: ((x2 * i) div (x + 1))
1: ((2 * (i * i)) div (x + 1))
1: ((3 * (i * i)) div (2x + 1))
1: ((4 * (i * i)) div 3)
1: ((i * i * i * i) div 2)
1: ((x * (i * i)) div (2 + i))
1: ((x * (i * i)) div ~4)
1: ((i * i * i) div 2)
1: ((i * i * i) div 3)
1: ((4 * compr(\x.(~1 + (x mod 4) - (x mod 5)),x)) div 3)
1: ((4 * compr(\x.(x - loop(\(x,i).loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),x,(2x + 1)),2,(x + ~1))),x)) div 3)
1: ((x * (((x + 1) + (x div 2)) div 2)) div 3)
1: ((x * (((x + 1) + ((x div 2) mod 2)) div 2)) div 2)
1: ((3 * (((x + 2) + (x mod (2 + (x div (2 * (2 - (x mod 2))))))) div 2)) div 2)
1: (((x + 1) * ((x2 + 8x + 13) div 2)) div 2)
1: ((2 * ((x + (2 * (2 + ((x + 2) mod 7)))) div 3)) div 3)
1: (((x + 1) * ((x2 + 4x + 5) div 2)) div 2)
1: ((3 * ((1 + (2 * (1 - (x div 4)))) div 3)) div 2)
1: ((3 * (((x * (1 - ((x3 div 8) mod 2))) + (x mod 2)) div 3)) div 2)
1: ((3 * ((1 + (2 * (1 - (x mod (1 - ((2 - (2x mod (4 + (x div 4)))) mod (x + 1))))))) div 3)) div 2)
1: ((3 * (((8x + 8) + (x div 5)) div 3)) div 2)
1: ((3 * ((3x2 + x) div 2)) div 2)
1: ((3 * ((1 + (2 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (~3 + (x div 2))) div 2))) div 3)) div 2)
1: ((x * ((x + ((x + ~1) * (x2 div 4))) div 2)) div 2)
1: ((3 * ((1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + ~1) div 2))) div 2)) div 2)
1: ((3 * ((1 + (2 * (loop(\(x,i).2x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2))) div 3)) div 2)
1: ((3 * ((1 + (x * (x div 2))) div 3)) div 2)
1: ((5 * ((1 + (2 * (if x <= 0 then 1 else (2 * (x - ((~1 + (x div 2)) div 3)))))) div 3)) div 2)
1: ((((2x + 1) div 3) * (1 + (x div 3))) div 2)
1: (((x + 2) * ((x2 + 1) div 2)) div 2)
1: (((x + ~1) * ((x2 + 1) div 2)) div 2)
1: ((((x2 + 1) div 2) * (x - (x div 3))) div 2)
1: ((x * ((x2 + 1) div 2)) div 2)
1: ((2 * ((x2 + 2) div (x + 2))) div 3)
1: (((x + 1) * ((x2 + (x div 2)) div 2)) div 2)
1: ((3 * ((1 + ((x + (x div 2)) div 4)) div 2)) div 2)
1: ((3 * ((1 + ((x + 2) div 5)) div 2)) div 2)
1: (((x + 1) * ((1 + ((x - ((x div 3) mod 2)) div 2)) div 2)) div 2)
1: (((x + 1) * ((1 + ((x2 + 10x + 16) div 2)) div 2)) div 2)
1: ((2 * ((2 + ((3 * (x + (2 * (x - ((3 * (x div 4)) div 2))))) div 2)) div 2)) div 3)
1: ((2 * ((x + (((2 + (x mod 2)) * (x div 2)) div 2)) div 2)) div 3)
1: ((x * ((1 + ((x * (1 + loop(\(x,i).(x3 + x),1,(x2 + ~1)))) div 2)) div 2)) div 2)
1: ((2 * ((x + ((x2 + x) div 5)) div 2)) div 3)
1: ((3 * ((2 + ((x2 + 2x) div 9)) div 3)) div 2)
1: ((2 * ((1 + ((x * ((x + (if (x mod 2) <= 0 then 2 else x)) div 2)) div 2)) div 3)) div 3)
1: ((3 * ((x + (((x div 4) * (x div 4)) div 2)) div 2)) div 2)
1: ((x * ((1 + (((x + 1) * (if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + (loop(\(x,i).(2x + ~1),(x + ~1),loop(\(x,i).2x,x,1)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2))))) div 2)) div 2)) div 2)
1: (((x + 2) * ((x + (x2 div 4)) div 7)) div 2)
1: ((3 * ((1 + (((1 + ((x * (x mod (2 + (x mod 4)))) div 2)) div 2) div 2)) div 2)) div 2)
1: ((2 * ((1 + (((x * (1 + ((x + 1) div 2))) div 2) div 2)) div 2)) div 3)
1: ((3 * ((1 + ((((x + 1) * ((1 + (x div 2)) div 3)) div 2) div 2)) div 2)) div 2)
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1: (((x + 1) * ((5x3 + 3x2 + ~2x) div 2)) div 2)
1: (((x + ~1) * ((x8 + x6 + x4 + x2) div 2)) div 3)
1: (((x + 3) * ((x4 + 7x3 + 18x2 + 20x + 8) div 2)) div 2)
1: ((2 * (16x div (x + 4))) div 3)
1: ((3 * ((8 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2)) div 3)) div 2)
1: ((2 * (12x div (x + 2))) div 3)
1: (((x + 1) * ((x4 + 3x3 + 2x2) div 2)) div 2)
1: ((5 * ((4 * ((1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + ~1) div 2))) div 2)) div 3)) div 2)
1: ((5 * ((4 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2)) div 3)) div 2)
1: ((3 * ((3 * ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (2 * ((1 + (x div 2)) div 2))))) div 2)) div 2)
1: ((5 * (4x2 div (2 - (x mod 2)))) div 2)
1: (((x + 5) * ((x3 + x2) div 2)) div 2)
1: (((3x + 1) * ((x3 + x2) div 2)) div 2)
1: (((x2 + 4x + 1) * ((x3 + x2) div 2)) div 3)
1: (((x2 + 2x + 1) * ((x3 + x2) div 2)) div 3)
1: (((~x + 1) * ((x3 + 2x2) div 2)) div 2)
1: (((x + 1) * (~x3 div 2)) div 3)
1: (((x + ~1) * ((x3 + ~x2) div 2)) div 2)
1: (((x + 1) * (x3 div 2)) div 2)
1: (((x + 2) * (x3 div 2)) div 2)
1: ((2 * (x3 div (x + 2))) div 3)
1: (((x + 1) * (x3 div 8)) div 2)
1: ((2 * ((((~x + 1) div 2) * (x div 2)) div 2)) div 3)
1: ((x * ((x * ((~x + 2) div 2)) div 2)) div 8)
1: ((3 * ((3 * ((3 * (1 + ((((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (4 * (1 + (x div 5))))) div 2) div 2))) div 2)) div 2)) div 2)
1: ((5 * ((2 * (2x div 3)) div 3)) div 2)
1: ((3 * ((3 * ((x div 2) div (2 + ((2x2 + x) mod 12)))) div 2)) div 2)
1: ((3 * (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + ((1 + (x div 2)) div 2))) div 3)) div 2)
1: ((7 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2)) div 3)
1: ((((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2) * (1 + (x div 3))) div 2)
1: ((((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2) * (1 + (x div 4))) div 2)
1: ((((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2) * (1 + (x mod 5))) div 2)
1: ((3 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + ~1) - ((x div 2) mod 2))) div 2)) div 2)
1: ((x * ((x * ((x mod (2 + (x mod 2))) div 2)) div 4)) div 2)
1: ((9 * ((2 * (x div 2)) div 5)) div 2)
1: (((((x div 2) * (x div 2)) div 2) * (((x + 1) div 2) div 2)) div 2)
1: ((((x * (x div 2)) div 2) * (2 + (x div 2))) div 2)
1: ((((2 * (x div 3)) div 3) * (1 + (x div 5))) div 2)
1: (((x + 1) * ((3 * (x div 4)) div 2)) div 2)
1: ((x * ((3 * ((2x + 1) mod (1 + (2x mod (2 + (x div 4)))))) div 2)) div 2)
1: ((3 * ((5 * ((2 + (x div 3)) mod (~1 + (2x mod (4 + (x div 4)))))) div 2)) div 2)
1: ((5 * ((x * ((~x2 + 2) mod (~1 + ((~2x + 2) mod (4 + (x div 4)))))) div 5)) div 2)
1: ((((x * ((x * (x div 2)) mod 2)) div 4) * (x div 2)) div 2)
1: ((3 * ((3 * ((x2 mod (4 + (((x + 1) div 2) div 2))) mod 3)) div 2)) div 2)
1: ((x * (((x + 1) * (if x <= 0 then 2 else ((x + 1) div 2))) div 2)) div 2)
1: (((x + 1) * (((x + 2) * loop(\(x,i).x3,1,(x + 3))) div 2)) div 2)
1: (((x + 1) * (((x + 2) * loop(\(x,i).2x,(x + ~2),x)) div 2)) div 2)
1: (((x + ~1) * ((x * loop(\(x,i).2x,x,loop(\(x,i).x2,(x + ~1),2))) div 2)) div 2)
1: ((x * ((x * loop(\(x,i).((x2 + ~x) div 2),2,(x + 2))) div (x + 1))) div 2)
1: (((x + 1) * (2x div 3)) div 2)
1: (((x + 2) * (2x div 3)) div 2)
1: ((x * (2x div 3)) div (x + 3))
1: ((3 * (2x div 5)) div 2)
1: ((x * (2x div 5)) div 3)
1: ((3 * (2x div (4 + (x div 3)))) div 2)
1: ((2 * (2x div (~x + 17))) div 3)
1: (((2x div 7) * (((x + ~1) div 2) div 2)) div 2)
1: (((2x div 7) * (x div 3)) div 2)
1: ((3 * (2x div 9)) div 2)
1: ((2 * (2x div ~7)) div 3)
1: ((3 * (2x div ~5)) div 2)
1: ((17 * (2x div 15)) div 2)
1: ((2 * (x2 div 2)) div 5)
1: ((2 * (x2 div 2)) div 9)
1: ((3 * (x2 div 2)) div (x + 7))
1: (((x + 1) * (x2 div 2)) div (2x + 1))
1: (((x + 2) * (x2 div 2)) div 2)
1: (((x + 2) * (x2 div 2)) div 3)
1: (((x + ~2) * (x2 div 2)) div 3)
1: (((x + ~2) * (x2 div 2)) div (2x + ~1))
1: ((x2 * (x2 div 2)) div 2)
1: ((x2 * (x2 div 2)) div 5)
1: (((x2 div 2) * ((~x + 2) div 2)) div (x + 1))
1: ((x * (x2 div 2)) div 4)
1: ((x * (x2 div 2)) div (x + 3))
1: ((x * (x2 div 2)) div (x + 4))
1: ((x * (x2 div 2)) div 73)
1: (((x + ~1) * (x2 div 3)) div 2)
1: (((x + ~1) * (x2 div 3)) div 33)
1: (((x2 div 3) * ((x + 1) div 2)) div 2)
1: ((x * (x2 div 3)) div 2)
1: ((x * (x2 div 3)) div 3)
1: ((3 * (x2 div 4)) div 2)
1: (((x2 div 4) * (1 + ((x + 1) div 2))) div 2)
1: (((x + 1) * (x2 div 4)) div 2)
1: (((x + 1) * (x2 div 4)) div (x + 4))
1: (((x2 div 4) * (~1 + (x div 2))) div 2)
1: ((x * (x2 div 4)) div 9)
1: ((x * (x2 div (x + 3))) div (x + 5))
1: (((x2 div (x + 4)) * (1 + (x div 2))) div 2)
1: ((2 * (x2 div (2x + 8))) div 3)
1: ((2 * (x2 div (3 * (2 + (x div 2))))) div 3)
1: ((((i * i) div 2) * i) div 2)
1: ((3 * ((((x + 1) + (x div 2)) div 2) div 2)) div 2)
1: (((((1 + (x div 2)) div 2) div 2) * (x div 2)) div 3)
1: (((((x + 1) div 2) div 2) * (x div 2)) div 5)
1: ((x * (((x + 1) div 2) div 2)) div 9)
1: ((x * (((x + 1) div 2) div 2)) div 15)
1: ((x * (((x + 1) div 2) div 2)) div 8)
1: ((9 * (((x + 1) div 2) div 3)) div 2)
1: (((((x + 1) div 2) div 3) * ((x + 2) div 3)) div 2)
1: ((x * (((x + 1) div 2) div 3)) div 2)
1: ((x * (((x + 1) div 2) div 3)) div 5)
1: ((x * (((2 - (x div 2)) div 2) div 2)) div 2)
1: ((x * (((~x + 2) div 2) div 3)) div 4)
1: (((((~x + 2) div 2) div 5) * (x div 2)) div 2)
1: (((x + 1) * ((((~x + 1) + (2 * ((x3 + ~3x2 + 2x) div 9))) div 2) div 2)) div 2)
1: ((x * (((x2 + ~1) div 2) div 2)) div 3)
1: (((x + 1) * (((x + ~1) div 2) div 2)) div 2)
1: (((x + 2) * (((x + ~1) div 2) div 2)) div 2)
1: (((((x + ~1) div 2) div 2) * (x div 4)) div 2)
1: (((((x + ~1) div 2) div 2) * (if x <= 0 then 1 else x)) div 2)
1: ((x * (((x + ~1) div 2) div 2)) div (x + 1))
1: ((3 * (((x - (x2 div 3)) div 2) div 3)) div 2)
1: ((2 * (((x2 + 4x) div 2) div 3)) div 3)
1: ((5 * (((3 * (1 + (loop(\(x,i).3x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 3))) div 2) div 2)) div 2)
1: (((5x + 2) * (((x3 + ~x) div 2) div 3)) div 2)
1: (((x3 + 2x2 + ~1) * (((x3 + 3x2 + 2x) div 2) div 3)) div 2)
1: ((2 * ((((x + ~1) * ((x div 2) div 3)) div 2) div 2)) div 3)
1: ((3 * ((x2 div 2) div 3)) div 2)
1: ((3 * ((x2 div 4) div (x + 3))) div 2)
1: ((((((x + 1) div 2) div 2) div 2) * (((x + 1) div 2) div 2)) div 2)
1: ((((((x + 1) div 2) div 2) div 2) * (x div 3)) div 2)
1: ((x * ((((x + 1) div 2) div 2) div 2)) div 7)
1: (((x + ~1) * ((((x + ~1) div 2) div 2) div 2)) div 2)
1: ((3 * ((((3 * (x2 mod 6)) mod (x + 1)) div 2) div 2)) div 2)
1: ((3 * ((loop(\(x,i).5x,(x + 1),2) div 3) div 3)) div 2)
1: (((x + 1) * ((x div 2) div 3)) div 2)
1: (((x + ~1) * ((x div 2) div 3)) div 2)
1: ((((x div 2) div 3) * (x div 2)) div 2)
1: ((3 * ((x div 2) div (1 + (2 * (1 + (x mod 2)))))) div 2)
1: ((3 * ((x div 2) div (2 + ((2x2 + x) mod 12)))) div 2)
1: ((((x div 2) div ~2) * (x div 2)) div 2)
1: ((3 * ((x div ~4) div ~2)) div 2)
1: ((3 * (((1 + (x mod (1 + (x mod (2 * (2 + ((x div 2) mod 2))))))) mod (x + 1)) div 2)) div 2)
1: ((5 * (((1 + (x mod (1 + (x mod (2 * (2 + ((x div 2) mod 2))))))) mod (x + 1)) div 2)) div 2)
1: ((3 * (((1 + (x mod ((1 + (x mod (1 + (x div 4)))) * (1 + (x mod 2))))) mod (x + 1)) div 2)) div 2)
1: ((5 * (((2 - (x div 2)) mod (x + 1)) div 2)) div 2)
1: ((9 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)) div 2)
1: ((13 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)) div 2)
1: (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (2 * (1 + (2 * ((((x + 1) div 2) div 2) mod 2)))))) div 2)
1: (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (2 * (2 + ((x + 1) mod 4))))) div 2)
1: (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (2 * (2 + ((x div 3) mod 2))))) div 2)
1: ((17 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)) div 2)
1: (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (4 * (1 + ((1 + (x div 2)) div 2))))) div 2)
1: (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (4 * (1 + (x div 5))))) div 2)
1: (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (4 * ((1 + (x div 3)) div 2)))) div 2)
1: (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (3 * ((1 + (x div 2)) div 2)))) div 2)
1: (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + ((1 + (x div 2)) div 2))) div 3)
1: (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + ((1 + ((4x + 2) mod (3 + (x div 4)))) div 2))) div 2)
1: (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (((1 + ((x + 2) div (1 + (2 * ((x div 2) mod 2))))) div 2) div 2))) div 2)
1: (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (((2x + 1) mod (3 + (x div 4))) div 2))) div 2)
1: (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (x div (3 + ((x div 2) mod 2))))) div 2)
1: (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (x div (1 + (2 * (1 + (2 * ((x div 2) mod 2)))))))) div 2)
1: (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (x div (2 * (2 + ((x div 2) mod 2)))))) div 2)
1: (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + ((x + 2) mod 4))) div 2)
1: (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + ((x + ~1) mod 4))) div 3)
1: (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 - (2 * ((1 + (x div 2)) div 2)))) div 2)
1: (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 - (2 * (x div 5)))) div 2)
1: (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * ((~x + 2) div 2)) div 2)
1: (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * ((~x + 2) div 4)) div 2)
1: ((x * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)) div (1 + (x div 2)))
1: (((((2x + ~1) mod (4 + (x div 4))) div 2) * (1 + (x div 4))) div 3)
1: (((((x + ~1) mod (2 + (x div 2))) div 2) * (1 + (x div 2))) div 2)
1: (((x + 1) * (((~2x + 4) mod (2 + (x div 2))) div 2)) div 2)
1: ((3 * (((2x2 + ~4x + 2) mod (4 + (x div 4))) div 2)) div 2)
1: ((5 * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) div 2)
1: ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (3 + (x div 2))) div 2)
1: ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (2 * (2 + ((x div 2) div 3))))) div 2)
1: ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (2 * (2 - (2 * (x div 5)))))) div 2)
1: ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (2 * (2 - ((x div 2) div ~2))))) div 2)
1: ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (4 * (1 - (x div 2))))) div 2)
1: ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (8 * ((1 + (x div 2)) div 2)))) div 2)
1: ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (4 * (x div 5)))) div 2)
1: ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (2 * ((x div 2) div (2 - ((x div 2) mod 2)))))) div 2)
1: ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (2 * (x div (~1 - (x mod 5)))))) div 2)
1: ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (((x * (2 - (x mod 5))) div 2) div 2))) div 2)
1: ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (x + (x div 4))) div 2)
1: ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (x + (x div (1 + (2 * (2 - ((x div 2) mod 2))))))) div 2)
1: ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (2 + (x div (2 * (2 - (x mod 2)))))) div 2)
1: ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 - (4 * ((1 + (x div 2)) div 2)))) div 2)
1: ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (2 - (x div 2))) div 2)
1: ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (~1 + (3 * ((1 - (x div 2)) div 3)))) div 2)
1: ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (~6 + ((~x + 2) div 2))) div 2)
1: ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (~1 + (x div (~1 - (x mod 5))))) div 2)
1: (((x + ~2) * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) div 3)
1: ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + ~1) - ((x div 2) mod 2))) div 2)
1: ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + ~1) - (if x <= 0 then 1 else (2 - (x mod 5))))) div 2)
1: ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + ~1) + ((x div 2) div 3))) div 2)
1: (((3x + ~6) * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) div 2)
1: ((5 * (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 4))) div 2)
1: ((x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) div 3)
1: ((x * (((x div 2) mod 3) div 2)) div 5)
1: ((3 * (((1 mod (1 - (2x mod (4 + (x div 4))))) mod (x + 1)) div 2)) div 2)
1: ((9 * ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3)) div 2)
1: (((x + 1) * ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3)) div 2)
1: ((2 * ((loop(\(x,i).5x,5,x) mod (x + 1)) div 2)) div 3)
1: ((3 * ((loop(\(x,i).2x,x,(1 + (4 * (x mod 2)))) mod (x + 1)) div 2)) div 2)
1: ((3 * ((loop(\(x,i).2x,x,(if ((x + (x div 2)) mod 4) <= 0 then 1 else 2)) mod (x + 1)) div 2)) div 2)
1: ((x * ((x mod 3) div 2)) div 2)
1: ((2 * ((x mod (4 + (x div 4))) div 2)) div 3)
1: ((5 * ((x mod (1 + (x div 2))) div 2)) div 2)
1: ((3 * ((x mod (1 + (x div 2))) div 3)) div 2)
1: ((((x mod (2 + (x div 2))) div 2) * (1 + (((x + 1) div 2) div 2))) div 2)
1: (((x + ~1) * ((x mod (2 + (x div 2))) div 2)) div 2)
1: ((x * ((x mod (~1 + (2 * ((x + ~1) div 3)))) div 2)) div 5)
1: ((3 * ((x mod (x - ((x + ~1) mod 8))) div 2)) div 2)
1: ((2 * ((if (~2 + (x div 3)) <= 0 then 0 else x) div 2)) div 3)
1: ((3 * ((if x <= 0 then 2 else (((x + 1) div 2) div 2)) div 2)) div 2)
1: ((2 * (loop(\(x,i).((x + 1) + (x div 5)),x,1) div 2)) div 3)
1: ((2 * (loop(\(x,i).((x + 2) - ((x div 2) div ~2)),x,2) div 3)) div 3)
1: ((3 * (loop(\(x,i).(2 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2)),2,x) div 2)) div 2)
1: ((2 * (loop(\(x,i).(x + (x div 4)),x,5) div 2)) div 3)
1: ((3 * (loop(\(x,i).(2x + (i mod 2)),x,0) div (x + 1))) div 2)
1: ((2 * (loop(\(x,i).5x,x,4) div 3)) div 3)
1: (((x + 1) * (loop(\(x,i).((x + ((~1 + (2 * (i mod 2))) * i)) * (1 + i)),x,0) div 2)) div 2)
1: (((x + 3) * (loop(\(x,i).(2 * (2x + (x div (if i <= 0 then 1 else i)))),x,(x + 2)) div 2)) div 3)
1: ((3 * (loop(\(x,i).(x2 + x),1,(1 + (((x * (1 - ((x3 div 8) mod 2))) + (x mod 2)) div 3))) div 2)) div 2)
1: (((x + 1) * (loop(\(x,i).(x * (x - i)),2,(x + ~1)) div 2)) div 15)
1: ((3 * (loop(\(x,i).4x,x,1) div (1 + (2 * (x mod 2))))) div 2)
1: ((3 * (loop(\(x,i).6x,(((x + ~1) div 2) - ((3 * (x div 4)) div 2)),1) div 9)) div 2)
1: (((x + 1) * (loop(\(x,i).(x3 + x2),1,(x + 4)) div 2)) div 2)
1: (((x + 1) * (loop(\(x,i).2x,(x + ~2),x) div 2)) div 2)
1: (((x + 1) * (loop(\(x,i).2x,(x + ~10),1) div 3)) div 2)
1: ((9 * (loop(\(x,i).2x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2)) div 2)
1: (((x + 1) * (loop(\(x,i).2x,x,1) div (x2 + 2x + 2))) div 2)
1: ((3 * (loop(\(x,i).2x,x,2) div (2 + (x mod 2)))) div 2)
1: ((5 * (loop(\(x,i).2x,x,3) div 5)) div 2)
1: (((x + 2) * (loop(\(x,i).2x,x,(x + 7)) div 2)) div 2)
1: ((x * (loop(\(x,i).2x,x,(2 + (x div 4))) div 3)) div 2)
1: ((3 * (loop(\(x,i).(x * i),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2)) div 2)
1: (((x + ~1) * (loop(\(x,i).(x * i),x,x) div 2)) div 2)
1: (((x + 1) * (loop(\(x,i).((x3 + 7x2 + 14x + 8) div 2),1,(x2 + 2x)) div 2)) div 2)
1: ((2 * (x div 2)) div 7)
1: ((2 * (x div 2)) div (1 + ((x + ~1) mod 3)))
1: ((2 * (x div 2)) div (~x + 18))
1: ((3 * (x div 2)) div 5)
1: ((3 * (x div 2)) div ~2)
1: (((x + 2) * (x div 2)) div (~x + 18))
1: (((x div 2) * (1 + i)) div 2)
1: (((x + ~1) * (x div 2)) div 5)
1: (((x + ~1) * (x div 2)) div (x + 2))
1: (((x + ~1) * (x div 2)) div (~x + 18))
1: (((x + ~2) * (x div 2)) div 2)
1: (((x + ~2) * (x div 2)) div 3)
1: (((x + ~2) * (x div 2)) div (x + 5))
1: (((x div 2) * (x div 2)) div 5)
1: (((x div 2) * (x div 2)) div (x + 2))
1: (((x div 2) * (x div 2)) div 8)
1: ((x * (x div 2)) div (3 + (x div (2 + (x mod 2)))))
1: ((x * (x div 2)) div ((x + 2) + ((~x + 1) mod 4)))
1: ((x * (x div 2)) div 13)
1: ((x * (x div 2)) div 19)
1: ((x * (x div 2)) div (~4x + 73))
1: ((x * (x div 2)) div (1 + (x div 4)))
1: ((x * (x div 2)) div (2 + (x div 4)))
1: ((x * (x div 2)) div (1 + (x2 mod 6)))
1: ((x * (x div 2)) div ~7)
1: ((x * (x div 2)) div 11)
1: ((x * (x div 2)) div (~1 + (x div ~2)))
1: (((x div 2) * i) div 2)
1: (((x + 1) * (x div 3)) div 9)
1: (((x + 1) * (x div 3)) div (2 + (x div 2)))
1: ((x2 * (x div 3)) div (x + 4))
1: (((x div 3) * (x div 3)) div 2)
1: ((x * (x div 3)) div 3)
1: ((x * (x div 3)) div 5)
1: ((x * (x div 3)) div (2 + (x div 2)))
1: (((x + 1) * (x div 4)) div 3)
1: (((x div 4) * (x div ~2)) div 2)
1: ((x * (x div 4)) div 3)
1: ((x * (x div 4)) div 4)
1: ((x * (x div 4)) div 7)
1: ((x * (x div 4)) div ~7)
1: ((x * (x div 4)) div ~4)
1: (((x + 1) * (x div 5)) div 2)
1: (((x div 5) * (x div 3)) div 3)
1: (((x div 5) * (x div 4)) div 2)
1: ((x * (x div 5)) div 2)
1: (((x div (6 + (x mod 2))) * (x div 2)) div 3)
1: ((3 * (x div (4 + (x div 4)))) div 2)
1: ((3 * (x div (3 + (x mod 2)))) div 2)
1: ((x * (x div 7)) div 2)
1: ((3 * (x div (2 + ((x + 1) div (1 + (x mod (2 + (x mod 4)))))))) div 2)
1: ((3 * (x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2)))))))) div 2)
1: ((3 * (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))) div 2)
1: (((x + 1) * (x div (1 + (x mod 2)))) div 2)
1: ((~x * (x div (1 + (x mod 2)))) div 3)
1: (((x + 1) * (x div (2 + (x mod 2)))) div 2)
1: ((3 * (x div ~2)) div 2)
1: (((2x + 1) * (x div ~2)) div 2)
1: (((x + 1) * (x div ~2)) div 2)
1: (((x div ~2) * (x div 3)) div 2)
1: ((x * (x div ~2)) div 2)
1: ((x * (x div ~2)) div 8)
1: ((3 * (x div (~x + 19))) div 2)
1: (((2x + 1) * (x div ~3)) div 2)
1: (((x div ~3) * (x div 3)) div 3)
1: (((x div ~4) * (x div 2)) div 2)
1: ((x * (x div (~1 - (x mod 3)))) div 2)
1: (((x + 2) * (x div ~5)) div 2)
1: (((3x + 2) * (x div (~2 + ((~x + 2) div 4)))) div 2)
1: (((~x + 1) * (x div 8)) div 2)
1: (((x + ~1) * (x div 8)) div 2)
1: ((x * (x div 8)) div 3)
1: ((3 * (x div (2 * (2 + (x mod 2))))) div 2)
1: ((3 * (x div (2 * (2 - (x mod 2))))) div 2)
1: ((3 * (x div (2 * (8 - (x div 2))))) div 2)
1: (((x + 1) * (x div (3 * (8 - (x div 2))))) div 3)
1: (((x + ~1) * (x div (3 * (8 - (x div 2))))) div 2)
1: (((x div (3 * (8 - (x div 2)))) * ((x + ~1) div 3)) div 2)
1: ((x * (x div (2 * (~2 + (x mod 2))))) div 2)
1: ((7 * (x div (4 * (8 - (x div 2))))) div 2)
1: ((3 * (x div (if ((x + ~1) mod 4) <= 0 then 2 else 1))) div 2)
1: ((2 * ((x + (2 * (2x div 3))) mod 14)) div 3)
1: ((3 * (((x * (x div 2)) + (if x <= 0 then 0 else 1)) mod 3)) div 2)
1: ((5 * ((2x + 1) mod (1 + (2x mod (2 + (x div 4)))))) div 2)
1: ((3 * ((1 + ((x + 1) div 3)) mod (1 + (x div 4)))) div 2)
1: ((x * ((1 + (x div 2)) mod 2)) div 5)
1: ((3 * ((1 + (x div 2)) mod (1 + (x div 5)))) div 2)
1: ((((1 + (x div 2)) mod (1 + (x div 5))) * (1 + (x div 3))) div 2)
1: ((3 * ((2 + (x div 3)) mod (~1 + (2x mod (4 + (x div 4)))))) div 2)
1: ((5 * ((2 + (x div 3)) mod (~1 + (2x mod (4 + (x div 4)))))) div 2)
1: ((((1 + (x div (~2 + (x mod 2)))) mod 3) * (1 + (x div 2))) div 2)
1: ((x * ((1 + (x div (2 * (2 - (x mod 2))))) mod 2)) div 2)
1: ((((1 + (x mod 8)) mod (x + 1)) * (1 + (x div 2))) div 2)
1: ((7 * ((x + 1) mod 3)) div 2)
1: ((((x + 1) mod 3) * (1 + (if x <= 0 then 1 else x))) div 2)
1: ((((x + 1) mod 3) * (~1 + (x div 2))) div 2)
1: ((x * ((x + 1) mod 3)) div 3)
1: (((x + 3) * ((x + 1) mod 7)) div 2)
1: (((~x + 1) * ((x + 2) mod 5)) div 2)
1: ((2 * ((x + 2) mod (~2 - (x div 4)))) div 3)
1: ((x * ((x + 2) mod 6)) div (x + 2))
1: ((3 * ((1 - loop(\(x,i).(x div (2 - ((x * (x div 2)) mod 2))),x,x)) mod (x + 1))) div 2)
1: ((x * ((~x + 1) mod (2 + (x div 2)))) div 2)
1: ((3 * ((~x + 1) mod (1 + ((4x + ~4) mod (1 + (x div 2)))))) div 2)
1: (((x + 1) * ((~x2 + 2) mod (~1 + ((~2x + 2) mod (4 + (x div 4)))))) div 2)
1: (((x + 1) * ((2 - (x div 2)) mod (x + 2))) div 2)
1: (((x + 1) * ((~x + 2) mod 3)) div 2)
1: ((3 * ((~1 + (x2 div 2)) mod (~1 + ((~2x + 2) mod (4 + (x div 4)))))) div 2)
1: ((x * ((~1 + (x div 2)) mod 3)) div 2)
1: ((3 * ((~2 + (x mod 2)) mod (~1 + ((~2x + 2) mod (4 + (x div 4)))))) div 2)
1: ((3x * ((x + ~1) mod 3)) div 2)
1: (((x + 1) * ((x + ~2) mod (x + 2))) div 2)
1: ((2 * ((~2x + 2) mod (4 + (x div 4)))) div 3)
1: (((x + 5) * ((~2x + 2) mod (4 + (x div 4)))) div 2)
1: ((((~2x + 2) mod (4 + (x div 4))) * (1 + (x div 3))) div 3)
1: ((3 * (x3 mod 17)) div (x + 1))
1: ((x * ((x * (x div 2)) mod 2)) div 2)
1: ((x * ((x * (x div 2)) mod 2)) div 3)
1: (((x + 1) * ((x * (x div 3)) mod (1 + ((2 - (x div 2)) mod 4)))) div 3)
1: (((((x + (x2 div 3)) div 2) mod 3) * (1 + (x div 3))) div 2)
1: ((2 * (((~x + 1) div 3) mod (x + 1))) div 3)
1: ((x * (((~x + 2) div 2) mod 3)) div 2)
1: (((x + 1) * ((x3 div 8) mod 2)) div 2)
1: (((x + 1) * (((x * ((1 + (x div 2)) div 2)) div 3) mod 2)) div 2)
1: ((((x2 div 2) mod (x + 2)) * (x div 2)) div 2)
1: (((x + 1) * ((((x + ~2) mod (2 + (x div 2))) div 2) mod 2)) div 2)
1: (((x + 1) * ((x div 2) mod 2)) div 2)
1: ((3 * ((x div 2) mod 3)) div 2)
1: ((x * ((x div 2) mod 3)) div 2)
1: ((x * ((x div 2) mod 4)) div (1 + (x div 2)))
1: ((x * ((x div ~2) mod 2)) div 2)
1: ((x * (((x * (x div 3)) mod 3) mod 2)) div 4)
1: ((x * ((2x mod (2 + (x div 2))) mod 2)) div 2)
1: (((x + 1) * ((x mod (2 - (x div (1 + ((x div 2) mod 2))))) mod 2)) div (1 + (x mod 4)))
1: (((x + 2) * ((x mod (2 - (x div (1 + ((x div 2) mod 2))))) mod 2)) div 2)
1: ((x * ((if (x + ~2) <= 0 then 1 else x) mod 3)) div 2)
1: ((3 * ((if ((x mod (~1 + (2 * (x div 4)))) mod 2) <= 0 then 1 else x) mod 7)) div 2)
1: ((3 * ((if (x mod 2) <= 0 then x else (~x + 2)) mod 3)) div 2)
1: ((x * (loop(\(x,i).(~2x + 2),x,2) mod (x + 2))) div 4)
1: ((3 * (loop(\(x,i).x3,2,6) mod (x + 1))) div 2)
1: ((2 * (loop(\(x,i).2x,x,(x mod 2)) mod (x + 1))) div 3)
1: ((2 * (loop(\(x,i).2x,x,(if (x mod 4) <= 0 then 0 else 1)) mod (x + 1))) div 3)
1: ((x * (loop(\(x,i).x2,2,(2 * (x mod 2))) mod (x + 1))) div 2)
1: (((x + 1) * (loop(\(x,i).(x * i),x,x) mod (x + 2))) div 2)
1: (((x + 2) * (x mod 2)) div (2 + (x mod 4)))
1: (((x + ~1) * (x mod 2)) div 7)
1: ((x * (x mod 2)) div (2 * (2 + (x mod 4))))
1: (((~x + 1) * (x mod 3)) div 2)
1: (((~x + 1) * (x mod 3)) div 5)
1: ((2 * (x mod 4)) div (1 + (x div 2)))
1: ((2 * (x mod 4)) div (2 + (x div 4)))
1: ((3 * (x mod 4)) div 2)
1: ((5 * (x mod 4)) div 2)
1: (((x mod 4) * (1 + (x div 2))) div 2)
1: ((x * (x mod 4)) div 2)
1: ((x * (x mod 4)) div (x + 3))
1: ((x * (x mod 4)) div 8)
1: ((x * (x mod 5)) div 4)
1: (((x mod (3 + (x mod 2))) * (x div 2)) div 2)
1: (((x + 1) * (x mod (4 + (x mod 2)))) div 2)
1: ((3 * (x mod 13)) div (x + 1))
1: ((2 * (x mod (2 + (x div 2)))) div 3)
1: ((x * (x mod (2 + (x div 2)))) div 3)
1: ((x * (x mod (2 + (x div 2)))) div 4)
1: (((x mod (1 + (x div 4))) * (1 + (x div 2))) div 2)
1: ((x * (x mod (1 + ((~x + 2) mod 4)))) div (x + 4))
1: ((3 * (x mod (1 + ((~1 + ((~2x + 2) mod (4 + (x div 4)))) mod (x + 1))))) div 2)
1: ((3 * (x mod (1 + ((x + ~1) mod 4)))) div 2)
1: ((x * (x mod (2 + (x mod 2)))) div 2)
1: ((x * (x mod (2 + (x mod 4)))) div 2)
1: ((2 * (x mod (2 + (if (x mod 2) <= 0 then 1 else (x div 3))))) div 3)
1: (((x mod ~3) * (1 + (x div 2))) div 2)
1: ((2 * (x mod (~1 + (2 * ((x + ~1) div 3))))) div 3)
1: (((x mod ((x + ~1) - (x mod 12))) * (1 + (x div 2))) div 2)
1: (((x mod ((x + ~1) - (x mod 12))) * (2 + (x div 2))) div 2)
1: (((x + ~1) * (x mod ((x + ~1) - (x mod 12)))) div 2)
1: (((x mod ((x + ~1) - (x mod 12))) * (x div 2)) div 2)
1: ((3 * (x mod (x - ((x + ~1) mod 8)))) div 2)
1: (((x mod (x - ((x + ~1) mod 8))) * (1 + (x div 4))) div 2)
1: (((x + 1) * (x mod (x - ((x + ~1) mod 8)))) div 2)
1: ((3 * ((x mod (x - ((x + ~1) mod 8))) * (2 + (x div 5)))) div 2)
1: (((x mod (x - ((x + ~1) mod 8))) * (x div 5)) div 2)
1: ((2 * (x mod 8)) div 3)
1: ((x * (x mod 8)) div (x + 1))
1: ((2 * (x mod 10)) div 9)
1: ((x * (x mod (2 * (1 + (x mod 2))))) div 5)
1: (((x + 1) * (if (~x + 2) <= 0 then (2 + ((2 * (x div 2)) div 3)) else 1)) div 2)
1: (((if (~x + 2) <= 0 then (2 - (x div ~2)) else 1) * (1 + ((x + 1) div 2))) div 2)
1: ((3 * (if (~x + 2) <= 0 then 2x else 1)) div (x + 2))
1: (((x + 4) * (if (~4 + (x div 2)) <= 0 then 1 else 2)) div 3)
1: (((if (~4 + (x div 2)) <= 0 then 1 else 2) * (1 + (x div 2))) div 3)
1: (((x + 1) * (if (~4 + (x div 2)) <= 0 then 1 else 2)) div 3)
1: (((x + 1) * (if (~4 + (x div 2)) <= 0 then 1 else 2)) div 5)
1: ((x * (if (~4 + (x div 2)) <= 0 then 1 else x)) div 3)
1: (((if (~2 + (x div 2)) <= 0 then 1 else 2) * (1 + (x mod 3))) div (1 + (x div 2)))
1: ((x * (if (~2 + (x div 2)) <= 0 then 1 else 2)) div 5)
1: ((2 * (if (~2 + (x div 3)) <= 0 then 1 else 2)) div (2 + (x mod 4)))
1: ((2 * (if (~2 + (x div 3)) <= 0 then 2 else (x div 2))) div 3)
1: ((5 * (if (~2 + (x div 3)) <= 0 then x else (x + 2))) div (x + 2))
1: ((2 * (if (~2 + (x div 5)) <= 0 then 2 else x)) div 3)
1: (((x + 1) * (if (~2 + (x div 5)) <= 0 then x else (x + 2))) div 2)
1: ((2 * (if (x + ~2) <= 0 then 0 else (2 - ((~x + 1) div 3)))) div 3)
1: ((x * (if (x + ~2) <= 0 then 1 else x)) div 2)
1: (((x2 + 2) * (if (x + ~2) <= 0 then 2 else x2)) div 2)
1: (((x + 2) * (if (x + ~2) <= 0 then x else (x + 5))) div 2)
1: ((2 * (if (x + ~2) <= 0 then x else (2 - ((~x + 1) div 3)))) div 3)
1: ((3 * (if (x + ~2) <= 0 then x else (2 - ((~x + 1) div 3)))) div 2)
1: ((2 * (if (x + ~2) <= 0 then x else (2 - (x div ~3)))) div 3)
1: (((x + 1) * (if (x + ~4) <= 0 then 1 else 2)) div 3)
1: (((if (x + ~4) <= 0 then 1 else x) * (x div 2)) div 2)
1: ((3 * (if (x + ~4) <= 0 then x else (x + 1))) div 2)
1: ((3 * (if ((x + 1) mod 4) <= 0 then ((x + 1) div 3) else 1)) div 2)
1: ((5 * (if ((x + 1) mod 4) <= 0 then (x div 3) else 1)) div 2)
1: (((if ((x + 2) mod (1 + (x mod 4))) <= 0 then 1 else 2) * (1 + (x div 2))) div 2)
1: (((x + 1) * (if ((x + 2) mod (2 - (x mod ~4))) <= 0 then (x + 2) else 1)) div 2)
1: (((if ((x + ~1) mod 3) <= 0 then 1 else x) * (~1 + (x mod 2))) div 3)
1: (((x + 1) * (if ((x + ~1) mod 4) <= 0 then 1 else 2)) div 3)
1: (((x + 1) * (if ((x + ~1) mod 4) <= 0 then 4x else 1)) div (1 + (2 * (x mod 2))))
1: ((3 * (if (8 mod (if x <= 0 then 1 else x)) <= 0 then x else 0)) div 2)
1: ((9 * (if (2x mod (4 + (x div 4))) <= 0 then (x + 3) else 0)) div 2)
1: ((3 * (if ((x div 2) mod 3) <= 0 then 1 else x)) div 2)
1: (((x + 2) * (if (x mod 2) <= 0 then 1 else (x + 2))) div 2)
1: (((x + 1) * (if (x mod 2) <= 0 then 1 else (2 * (1 + (8 * (x mod 2)))))) div 2)
1: (((x + 1) * (if (x mod 2) <= 0 then 2 else (x mod ~4))) div 2)
1: ((x * (if (x mod 2) <= 0 then 2 else x)) div 4)
1: ((x * (if (x mod 2) <= 0 then 2 else x)) div 8)
1: ((x * (if (x mod 2) <= 0 then 4 else ((x + 1) mod (2 + (x mod 2))))) div (x + 3))
1: (((x + 1) * (if (x mod 2) <= 0 then (1 + ((1 + (x div 2)) div 2)) else 0)) div 2)
1: (((if (x mod 2) <= 0 then (1 + (x div 2)) else (x + ~1)) * (x div 2)) div 2)
1: ((2 * (if (x mod 2) <= 0 then ((~1 + (5 * (2 - ((x div 2) mod 2)))) * (if x <= 0 then 1 else 2)) else 2)) div 3)
1: ((5 * (if (x mod 2) <= 0 then ((~1 + (9 * (2 - ((x div 2) mod 2)))) * (if x <= 0 then 1 else 2)) else 1)) div 4)
1: (((x + ~1) * (if (x mod 2) <= 0 then ((x mod 3) div 2) else 2)) div 2)
1: (((if (x mod 2) <= 0 then (x div 2) else (~x + 1)) * (1 + (x div 2))) div 2)
1: (((x + 3) * (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)) div (x + 1))
1: (((if (x mod 2) <= 0 then x else 0) * (1 + (x div 2))) div 2)
1: ((2 * (if (x mod 2) <= 0 then x else (3x2 + 2x))) div (x + 1))
1: ((2 * (if (x mod 2) <= 0 then x else (4x2 + 3x))) div (x + 1))
1: (((x + 2) * (if (x mod 3) <= 0 then 1 else (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))) div 2)
1: (((if (x mod 3) <= 0 then 2 else 1) * (1 + (x div 2))) div 2)
1: (((if (x mod 3) <= 0 then 13 else 1) * (if x <= 0 then 1 else 2)) div (1 + (x mod 2)))
1: (((if (x mod 3) <= 0 then 19 else 1) * (if x <= 0 then 1 else 2)) div (1 + (x mod 2)))
1: (((if (x mod 4) <= 0 then 0 else 1) * (1 + (x div 2))) div 2)
1: (((2x + 1) * (if (x mod 4) <= 0 then 1 else (x mod (2 + (x mod 2))))) div 3)
1: (((x + 1) * (if (x mod 4) <= 0 then 2 else (x mod 2))) div 3)
1: ((x * (if (x mod 5) <= 0 then 1 else 2)) div 2)
1: (((if (x mod 5) <= 0 then 23 else 1) * (if x <= 0 then 1 else 2)) div (1 + (x mod 2)))
1: (((x + ~1) * (if x <= 0 then 0 else 2)) div 3)
1: ((2 * (if x <= 0 then 0 else (1 + ((1 + loop(\(x,i).(2x + 4),(x + ~1),0)) mod (x + 1))))) div (x + 1))
1: ((2 * (if x <= 0 then 0 else (x + 2))) div 3)
1: (((x + 1) * (if x <= 0 then 0 else (x + 2))) div 2)
1: ((2 * (if x <= 0 then 0 else (1 - ((1 + (x mod (1 + (2 * (2 + (x2 mod 3)))))) mod (x + 1))))) div (x + 1))
1: ((3 * (if x <= 0 then 1 else (2 + ((x - ((x div 3) mod 2)) div 2)))) div 2)
1: ((2 * (if x <= 0 then 1 else (2 + (if (x mod 4) <= 0 then 1 else (((x + 1) div 2) div 2))))) div 3)
1: (((x + 1) * (if x <= 0 then 1 else (x - ((~x + 2) div 4)))) div 2)
1: (((2x + 3) * (if x <= 0 then 1 else (6x2 + 2))) div 2)
1: ((2 * (if x <= 0 then 1 else (2 * (1 + ((2x + 1) div (3 + (x div 4))))))) div 3)
1: (((x + 1) * (if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + (loop(\(x,i).(2x + ~1),(x + ~1),loop(\(x,i).2x,x,1)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2))))) div 2)
1: (((x + 1) * (if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + (((loop(\(x,i).x2,1,(1 + compr(\x.(loop(\(x,i).(~2x + 4),x,1) mod (x + 1)),x))) div 2) div 2) div 2)) div 2)) div 2))))) div 2)
1: (((x + 1) * (if x <= 0 then 1 else (2 * (1 + ((1 + (((1 + (((x + 1) * (x - loop(\(x,i).(1 + ((2x2 + ~x) div (x + 3))),2,x))) div 2)) div 2) div 2)) div 2))))) div 2)
1: ((2 * (if x <= 0 then 1 else (2 * (1 + ((1 + (x mod (1 + (x div 4)))) div (1 + ((x + 1) mod 4))))))) div 3)
1: (((x + 1) * (if x <= 0 then 1 else (2 * (1 + (((x + 2) div (1 + ((x + 1) mod 3))) div 2))))) div 2)
1: ((3 * (if x <= 0 then 1 else (3 * (x + ((x div 2) div 3))))) div (x + 1))
1: (((x + 1) * (if x <= 0 then 1 else (2 * (1 + (~x2 mod 6))))) div 3)
1: (((x + 1) * (if x <= 0 then 1 else (2 * ((if ((x + 1) mod (1 + (x div 4))) <= 0 then 1 else 2) + ((x mod 3) div 2))))) div 2)
1: ((3 * (if x <= 0 then 1 else (9 * (~x + (x mod 9))))) div 2)
1: (((x + 1) * (if x <= 0 then 1 else (2 * ((x mod (1 + (x div 2))) div 2)))) div 5)
1: ((3 * (if x <= 0 then 1 else (2 * (x mod (1 + ((((1 + (8 mod (1 + (x div 2)))) div 2) - (x mod 2)) mod (x + 1))))))) div (x + 2))
1: ((2 * (if x <= 0 then 1 else (2 * (x mod (~1 + (2 * (x div 4))))))) div 3)
1: ((2 * (if x <= 0 then 1 else 2x)) div (x + 2))
1: (((x + ~2) * (if x <= 0 then 1 else x2)) div 2)
1: (((if x <= 0 then 1 else (x div 3)) * ((x + ~1) mod 3)) div 2)
1: ((3 * (if x <= 0 then 1 else (x div 7))) div 2)
1: ((7 * (if x <= 0 then 1 else (x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))))) div 2)
1: ((2 * (if x <= 0 then 1 else x)) div (2 + (x div 2)))
1: ((2 * (if x <= 0 then 1 else x)) div ~7)
1: ((4 * (if x <= 0 then 1 else x)) div (x + 3))
1: ((4 * (if x <= 0 then 1 else x)) div (x + 4))
1: (((x + 2) * (if x <= 0 then 1 else x)) div 2)
1: ((2 * (if x <= 0 then 2 else (1 + (19 * loop(\(x,i).10x,x,1))))) div 5)
1: ((3 * (if x <= 0 then 2 else (1 + (2 * compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(3x + 1))),x))))) div 2)
1: ((2 * (if x <= 0 then 2 else (1 + (x mod (1 + (2 * (x div (3 - (x mod 2))))))))) div 3)
1: ((2 * (if x <= 0 then 2 else (1 + (if (2x mod (4 + (x div 4))) <= 0 then ((x + 2) div 3) else 0)))) div 3)
1: ((2 * (if x <= 0 then 2 else (x - (loop(\(x,i).(x * i),x,2) mod (x + 1))))) div 3)
1: (((x + ~1) * (if x <= 0 then 2 else (x * (x div 2)))) div 2)
1: (((x + 2) * (if x <= 0 then 2 else (x div 2))) div 2)
1: (((if x <= 0 then 2 else ((~x + 1) mod 3)) * (1 + ((x + 1) div 3))) div 2)
1: (((x + 1) * (if x <= 0 then 2 else x)) div 2)
1: (((x + 1) * loop(\(x,i).((x + 1) + (4 * (i * i))),(x + 1),1)) div 2)
1: (((x + 1) * loop(\(x,i).((x + 2) + ((x div 2) div 3)),x,1)) div 2)
1: ((x * loop(\(x,i).((x + 1) + (x div 2)),(x + ~2),0)) div 2)
1: ((3 * loop(\(x,i).((x + 1) + (x div (1 + (i mod 3)))),x,1)) div 2)
1: (((x + ~1) * loop(\(x,i).(3x + (i div 2)),x,0)) div 2)
1: ((2 * loop(\(x,i).((x + 2) + (((2x + ~1) div (2 + (x div 4))) mod 2)),x,1)) div 3)
1: ((2 * loop(\(x,i).(9x + (if (i mod 3) <= 0 then 2 else 0)),x,2)) div 3)
1: ((3 * loop(\(x,i).((x + 2) + i),x,2)) div 5)
1: (((x + ~1) * loop(\(x,i).(1 + (x2 div 2) - (x mod 2)),1,(x + ~1))) div 3)
1: (((x + 2) * loop(\(x,i).(3x + 1),x,1)) div 2)
1: (((x + 1) * loop(\(x,i).(x + ((3 + i) * i)),x,0)) div 2)
1: ((x * loop(\(x,i).(x2 + x + 2),2,2)) div (1 + i))
1: ((2 * loop(\(x,i).(3x + 4),x,(x + 2))) div 3)
1: (((x + 1) * loop(\(x,i).(x2 + 2x + 1),2,2)) div (x + 2))
1: (((x + 2) * loop(\(x,i).(x2 + 2x + 1),2,2)) div (x + 1))
1: (((x + ~1) * loop(\(x,i).(1 + (x * (1 + i))),x,2)) div 2)
1: ((5 * loop(\(x,i).(x + ((2 + i) * i)),x,1)) div 2)
1: ((2 * loop(\(x,i).(1 + (x * (x + i))),2,x)) div 3)
1: ((3 * loop(\(x,i).(9x + 2),(x + 1),2)) div 2)
1: ((x * loop(\(x,i).(10x + 1),8,1)) div 9)
1: ((x * loop(\(x,i).(10x + 1),x,1)) div 2)
1: ((5 * loop(\(x,i).(10x + 1),x,loop(\(x,i).(10x + 19),x,1))) div 2)
1: ((loop(\(x,i).(8x + 1),x,1) * (1 + loop(\(x,i).2x,x,2))) div 3)
1: (((2x + 1) * loop(\(x,i).(1 + (2x * i)),x,1)) div 2)
1: ((x * loop(\(x,i).(x + (i * i * (1 + i))),(x + 1),0)) div 2)
1: (((x + 1) * loop(\(x,i).(x + (i * i * (1 + i))),(x + 2),0)) div 2)
1: (((x + 5) * loop(\(x,i).(x + (3 * (2x div (if i <= 0 then 1 else i)))),x,6)) div 2)
1: (((x + 1) * loop(\(x,i).(x + ((if (i mod 2) <= 0 then 2 else i) * i)),x,0)) div 2)
1: ((2 * loop(\(x,i).(2x + 1),(x + 4),6)) div 3)
1: (((x + 1) * loop(\(x,i).(2x + 1),x,loop(\(x,i).2x,x,1))) div 3)
1: (((x + 1) * loop(\(x,i).((x2 + 2) + i),2,2)) div 5)
1: ((x2 * loop(\(x,i).(1 + (x * i)),x,1)) div loop(\(x,i).(x * i),x,1))
1: ((x * loop(\(x,i).(1 + (x * i)),x,1)) div 2)
1: (((x + 5) * loop(\(x,i).(x + (5x div (if i <= 0 then 1 else i))),x,(x + 2))) div (x + 2))
1: (((x + 1) * loop(\(x,i).(x + (5x div (if i <= 0 then 1 else i))),x,(x + 2))) div 2)
1: (((x + 1) * loop(\(x,i).(x + (7x div (if i <= 0 then 1 else i))),x,(x + 2))) div 2)
1: (((x + 1) * loop(\(x,i).(x + (37x div (1 + i))),x,2)) div 2)
1: (((x + 1) * loop(\(x,i).(x + (73x div (1 + i))),x,2)) div 2)
1: (((x + 1) * loop(\(x,i).(x + ((x3 + 2x) div 3)),1,(x2 + 2x + 1))) div 2)
1: ((3 * loop(\(x,i).(2 + ((x2 + ~x) div (x + 2))),2,x)) div 2)
1: (((x + 1) * loop(\(x,i).(x + (58x div (1 + i))),x,2)) div 2)
1: (((x + 1) * loop(\(x,i).(x + (57x div (1 + i))),x,2)) div 2)
1: (((x + 1) * loop(\(x,i).(x + (85x div (1 + i))),x,2)) div 2)
1: (((x + 1) * loop(\(x,i).(x + (93x div (1 + i))),x,2)) div 2)
1: (((x + 3) * loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,(x + 4))) div 2)
1: (((x + 3) * loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,(x + 2))) div 2)
1: (((x + 1) * loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,(x + 2))) div 2)
1: (((x + 1) * loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,x)) div 2)
1: (((x + ~1) * loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,x)) div 2)
1: (((x + 1) * loop(\(x,i).(x + ((x * loop(\(x,i).x2,2,3)) div (1 + i))),x,2)) div 2)
1: (((x + 4) * loop(\(x,i).(x + (x div 2)),(x + ~1),2)) div 2)
1: (((x + 1) * loop(\(x,i).(x + (x div 5)),x,5)) div 2)
1: (((x + 1) * loop(\(x,i).((x + 2) + (x div (if i <= 0 then 1 else i))),x,2)) div 2)
1: ((2 * loop(\(x,i).(2x + (i mod 2)),x,2x)) div 3)
1: ((3 * loop(\(x,i).(x + (if (x - i) <= 0 then x else 0)),x,1)) div 2)
1: ((3 * loop(\(x,i).(x + (if x <= 0 then (1 + i) else 0)),x,(~x + 1))) div 2)
1: (((x + 1) * loop(\(x,i).(x + (if x <= 0 then (1 + i) else 0)),x,(~x + 1))) div 2)
1: ((x * loop(\(x,i).(x + loop(\(x,i).3x,(x + ~2),x)),1,(x + ~1))) div 4)
1: ((5 * loop(\(x,i).(x + loop(\(x,i).3x,(~1 + i),x)),x,1)) div 2)
1: ((x * loop(\(x,i).(x + loop(\(x,i).(x * i),i,1)),(x + ~1),1)) div 2)
1: ((x * loop(\(x,i).(x + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)),x,x)) div 2)
1: ((x * loop(\(x,i).(1 - (4x * ((x + ~1) div 2))),2,x)) div 2)
1: ((x2 * loop(\(x,i).(~x3 + 2),2,2)) div 2)
1: ((x * loop(\(x,i).(3x + ~1),(x + 1),2)) div 2)
1: ((x * loop(\(x,i).(x3 + ~2),2,2)) div 2)
1: (((x + ~1) * loop(\(x,i).(2x - (i mod 2)),x,1)) div 2)
1: (((x + 1) * loop(\(x,i).(~x + loop(\(x,i).(2x2 + ~2x + ~2),i,x)),x,1)) div 2)
1: ((2 * loop(\(x,i).(x - (2 * (~x + (i mod 2)))),x,2)) div 3)
1: ((2 * loop(\(x,i).(x - (if (~x + i) <= 0 then (1 + i) else 0)),x,x)) div 3)
1: ((loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (1 + ((x + 1) div 2))) div 2)
1: (((x + 1) * loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)) div 2)
1: (((x + 2) * loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)) div 2)
1: (((2x + 1) * loop(\(x,i).3x,(x + ~1),4)) div 3)
1: ((2 * loop(\(x,i).3x,(x + ~1),(x + 2))) div 3)
1: (((5x + 1) * loop(\(x,i).3x,(x + ~1),x)) div 2)
1: (((x + ~1) * loop(\(x,i).3x,(2x + ~4),x)) div 2)
1: (((x + 1) * loop(\(x,i).5x,(x + ~1),x)) div 2)
1: (((x + 1) * loop(\(x,i).(x * (6 + i)),x,(x + 2))) div 2)
1: ((x * loop(\(x,i).(2 * ((x + 1) + (x div 2))),x,1)) div 2)
1: (((x + 3) * loop(\(x,i).(x * (4 + i)),x,(x + 2))) div 2)
1: (((x + ~1) * loop(\(x,i).7x,(x + ~2),x)) div 2)
1: ((x * loop(\(x,i).(6x + 4),2x,1)) div 2)
1: ((x * loop(\(x,i).(2 * (x + (2 * (2x + (x mod 2))))),x,1)) div 2)
1: (((x + 1) * loop(\(x,i).(x * (1 + (2 * (1 + i)))),5,2)) div 3)
1: (((x + 1) * loop(\(x,i).(x * (1 + (2 * (1 + i)))),x,(x + 2))) div 2)
1: (((x + 1) * loop(\(x,i).(x * (1 + (2 * (2 + i)))),x,(x + 2))) div 2)
1: (((x + 1) * loop(\(x,i).(6x2 + x),((x + 1) div 2),1)) div 2)
1: ((x2 * loop(\(x,i).(x4 + x),1,x3)) div 2)
1: ((x * loop(\(x,i).(x4 + x),1,x3)) div 2)
1: (((x + 1) * loop(\(x,i).(x * (1 + (6 * i))),3,x)) div 2)
1: ((x2 * loop(\(x,i).(x3 + x),1,x5)) div 2)
1: ((x2 * loop(\(x,i).(x3 + x),1,x3)) div 2)
1: (((x + 1) * loop(\(x,i).(x3 + 2x),1,(2x + 3))) div 3)
1: (((x + 3) * loop(\(x,i).(x * (1 + (2 * i))),x,(x + 1))) div 3)
1: (((x + 1) * loop(\(x,i).((x + 1) * (1 + (x * i))),2,x)) div 2)
1: ((5 * loop(\(x,i).(3 * (1 + (x div 2))),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)) div 2)
1: (((2x + 1) * loop(\(x,i).(2 * (x + (x div 2))),x,3)) div 3)
1: ((3 * loop(\(x,i).(2 * (2x + (x div (if i <= 0 then 1 else i)))),x,2)) div (x + 3))
1: (((x + 3) * loop(\(x,i).(2 * (2x + (x div (if i <= 0 then 1 else i)))),x,4)) div 3)
1: (((x + 3) * loop(\(x,i).(2 * (2x + (x div (if i <= 0 then 1 else i)))),x,(x + 2))) div 3)
1: ((x * loop(\(x,i).((x + 1) * (x + loop(\(x,i).(x * i),i,1))),x,1)) div 2)
1: (((x + 1) * loop(\(x,i).((x + loop(\(x,i).(x * i),i,1)) * (2 + i)),x,2)) div 2)
1: (((x + 1) * loop(\(x,i).(x * (x + loop(\(x,i).loop(\(x,i).loop(\(x,i).x2,1,loop(\(x,i).((2 * (x - (2x * i))) div (1 + i)),x,1)),1,(x + ~1)),1,i))),x,1)) div 2)
1: (((x + 2) * loop(\(x,i).(2x + 2),3,(x + 1))) div 17)
1: ((loop(\(x,i).(2x + 2),(x + ~1),2) * loop(\(x,i).(2x + 2),x,2)) div 3)
1: ((x * loop(\(x,i).(x2 + x),1,x7)) div 2)
1: ((x2 * loop(\(x,i).(x2 + x),1,x5)) div 2)
1: ((x * loop(\(x,i).(x2 + x),1,x5)) div 2)
1: ((x * loop(\(x,i).(x2 + x),1,loop(\(x,i).x3,2,x))) div 2)
1: ((x * loop(\(x,i).(x2 + x),1,loop(\(x,i).2x,(x + ~1),1))) div 2)
1: ((x * loop(\(x,i).((x + 1) * i),x,0)) div 3)
1: (((x + 1) * loop(\(x,i).((x + 1) * i),x,x)) div 2)
1: ((x * loop(\(x,i).(x2 + 2x),2,2)) div (1 + i))
1: ((x * loop(\(x,i).(x2 + 2x),2,2)) div (if i <= 0 then 1 else i))
1: (((x + 1) * loop(\(x,i).(x2 + 2x),2,(2x + 1))) div 15)
1: (((x + 1) * loop(\(x,i).(x2 + 2x),2,x)) div 2)
1: (((x + 1) * loop(\(x,i).(x2 + 2x),3,x)) div 2)
1: (((x2 + 2x + 1) * loop(\(x,i).(x * (1 + i)),x,(x + 1))) div 2)
1: (((x + 1) * loop(\(x,i).(x * (2 + i)),(x + 1),x)) div (x + 2))
1: (((x + 5) * loop(\(x,i).(x * (2 + i)),(x + ~1),1)) div 3)
1: (((x + 5) * loop(\(x,i).(x * (2 + i)),x,x)) div 2)
1: ((x2 * loop(\(x,i).(x * ((x + ~1) + i)),2,x3)) div 2)
1: ((x * loop(\(x,i).(x * ((x + ~1) + i)),2,x2)) div 2)
1: (((x + ~1) * loop(\(x,i).11x,(x + ~2),x)) div 2)
1: ((x * loop(\(x,i).(2x2 + ~2),2,2)) div (1 + i))
1: ((x * loop(\(x,i).(2x2 + ~2),2,2)) div (if i <= 0 then 1 else i))
1: ((x * loop(\(x,i).(x3 + ~x),1,2x2)) div 2)
1: (((x + 1) * loop(\(x,i).(x * (~1 + (2 * i))),x,(x + 2))) div 2)
1: ((x * loop(\(x,i).(2x + ~2),(x + ~1),x)) div 3)
1: ((loop(\(x,i).(3x + ~3),x,2) * (2 + loop(\(x,i).2x,x,1))) div 3)
1: ((x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).2x,i,2))) div 2)
1: ((loop(\(x,i).(x2 + ~2x),2,x) * i) div 2)
1: ((x * loop(\(x,i).(((x + 1) - (2 * (x mod 2))) * (1 + i)),x,1)) div 2)
1: ((x * loop(\(x,i).(((x + 1) - (2 * (x mod 2))) * (1 + i)),x,1)) div 3)
1: ((x * loop(\(x,i).((x - (i mod 2)) * i),x,1)) div 2)
1: ((x * loop(\(x,i).(x * (x - i)),2,(x + 3))) div 2)
1: (((x + ~1) * loop(\(x,i).(x * (x - i)),2,(x + ~1))) div 2)
1: ((x * loop(\(x,i).(x * (x - i)),2,(x + ~2))) div 2)
1: ((x * loop(\(x,i).(x7 + x3),1,x2)) div 2)
1: ((x * loop(\(x,i).(x4 + x2),1,x4)) div 2)
1: ((5 * loop(\(x,i).(2x2 + 4x),2,(2x + 1))) div (x + 1))
1: ((x * loop(\(x,i).(x2 * ((x + ~1) + i)),2,x)) div 2)
1: (((x2 + x + 1) * loop(\(x,i).4x3,(x + ~1),1)) div 2)
1: ((x * loop(\(x,i).(x5 + x3),1,x3)) div 2)
1: ((x * loop(\(x,i).(x5 + x3),1,x2)) div 2)
1: ((x * loop(\(x,i).(x4 + x3),1,x3)) div 2)
1: ((3 * loop(\(x,i).x5,2x,3)) div 2)
1: (((x + 2) * loop(\(x,i).4x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),2)) div 3)
1: (((x + ~1) * loop(\(x,i).4x,(x + ~2),x)) div 2)
1: ((x * loop(\(x,i).4x,2x,(2x + ~1))) div 2)
1: ((2 * loop(\(x,i).4x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)) div 3)
1: (((2x + 1) * loop(\(x,i).6x,x,2)) div 3)
1: ((loop(\(x,i).2x2,x,1) * (1 + loop(\(x,i).2x,x,1))) div 2)
1: ((x * loop(\(x,i).(x3 + x2),1,x4)) div 2)
1: (((x + 1) * loop(\(x,i).(x3 + 2x2),1,(2x + 1))) div 3)
1: (((x + 1) * loop(\(x,i).(x3 + 2x2),2,2)) div 2)
1: (((x + 2) * loop(\(x,i).x3,1,(x + 3))) div 2)
1: ((x * loop(\(x,i).x3,1,(1 + (x div 2)))) div 3)
1: ((x * loop(\(x,i).x3,1,(~x + (x div (2 - (x mod 2)))))) div 2)
1: ((loop(\(x,i).x3,1,((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) * (1 + (x div 3))) div 2)
1: (((x2 + 1) * loop(\(x,i).x3,2,x)) div 2)
1: (((x + 1) * loop(\(x,i).x3,2,x)) div 2)
1: ((x2 * loop(\(x,i).x3,2,x)) div (x + 1))
1: ((x * loop(\(x,i).x3,(x + 1),(x + 1))) div 2)
1: (((x + ~1) * loop(\(x,i).x3,x,x)) div 2)
1: (((2x + 3) * loop(\(x,i).(x * (i * (2 + i))),x,1)) div 3)
1: (((x + 1) * loop(\(x,i).(x * (i * i)),(2x + ~1),1)) div 2)
1: ((x * loop(\(x,i).(x * loop(\(x,i).(2x + i),(x + ~2),0)),1,(x + ~1))) div 2)
1: ((x * loop(\(x,i).((x + ~1) * loop(\(x,i).5x,(x + ~2),x)),1,(x + ~1))) div 2)
1: ((x * loop(\(x,i).(x * loop(\(x,i).((x2 + ~x) div 2),2,(x + ~2))),1,(x + ~1))) div 9)
1: ((2 * loop(\(x,i).2x,(((~x + 1) mod (1 + ((x - ((x div 3) mod 3)) div 2))) + (if x <= 0 then 0 else 1)),1)) div 3)
1: ((3 * loop(\(x,i).2x,(x + ~1),(3x + 1))) div 2)
1: ((3 * loop(\(x,i).2x,(x + ~1),(x + 1))) div 2)
1: ((3 * loop(\(x,i).2x,(x + ~1),(x + 2))) div 2)
1: (((x + 5) * loop(\(x,i).2x,(x + ~1),(x + 2))) div 2)
1: (((x + 1) * loop(\(x,i).2x,(x + ~1),(x + 2))) div 2)
1: ((x * loop(\(x,i).2x,(x + ~1),(5x + ~1))) div 2)
1: ((x * loop(\(x,i).2x,(x + ~1),(3x + 5))) div 2)
1: (((x + 1) * loop(\(x,i).2x,(x + ~1),(~1 + (if x <= 0 then 2 else ((x2 + 5x) div 2))))) div 2)
1: (((x + 1) * loop(\(x,i).2x,(x + ~1),loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))) div 3)
1: (((x + 5) * loop(\(x,i).2x,(x + ~1),x)) div 2)
1: (((3x + 1) * loop(\(x,i).2x,(x + ~1),x)) div 2)
1: (((3x + ~1) * loop(\(x,i).2x,(x + ~1),x)) div 2)
1: (((x2 + ~1) * loop(\(x,i).2x,(x + ~1),x)) div 3)
1: (((x + ~3) * loop(\(x,i).2x,(x + ~1),x)) div 2)
1: (((x + 2) * loop(\(x,i).2x,(x + ~2),x)) div 2)
1: (((x + 2) * loop(\(x,i).2x,((x + 1) + ((3 * (x div (4 - ((x * (x div 2)) mod 2)))) div 2) - (x div 2)),1)) div 2)
1: (((8x + 5) * loop(\(x,i).2x,(x mod 5),1)) div 2)
1: (((x + 5) * loop(\(x,i).2x,loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1)) div 2)
1: ((x * loop(\(x,i).2x,x,loop(\(x,i).x2,(x + ~1),2))) div 2)
1: ((2 * loop(\(x,i).x2,1,(1 + (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))))) div 3)
1: ((2 * loop(\(x,i).x2,1,(1 + (x mod (1 + ((4 + (x div 2)) mod (1 + (x div 3)))))))) div 3)
1: ((2 * loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x)))) div 3)
1: ((5 * loop(\(x,i).x2,1,(~1 + ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)))) div 2)
1: ((3 * loop(\(x,i).x2,1,(~1 + loop(\(x,i).(x * i),x,2)))) div 2)
1: ((x * loop(\(x,i).x2,1,(x4 + x3))) div 2)
1: ((x * loop(\(x,i).x2,1,((x2 + 3x + 2) div 2))) div 3)
1: (((x + ~1) * loop(\(x,i).x2,1,(((x3 + ~3x2 + 2x) div 2) div 3))) div 2)
1: (((x + 4) * loop(\(x,i).x2,1,loop(\(x,i).(x + (((2 + i) * (1 + i)) div 2)),x,1))) div 2)
1: (((x + 1) * loop(\(x,i).x2,1,loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x))) div 2)
1: ((x * loop(\(x,i).x2,1,loop(\(x,i).(2x * (~1 + (2 * i))),i,1))) div 2)
1: ((x * loop(\(x,i).x2,2,3)) div (1 + i))
1: ((x * loop(\(x,i).x2,2,3)) div (if i <= 0 then 1 else i))
1: ((7 * loop(\(x,i).x2,2,(x + 1))) div 2)
1: (((3x + 4) * loop(\(x,i).x2,2,(x + 1))) div 2)
1: (((x + 1) * loop(\(x,i).x2,2,(x + 1))) div 2)
1: (((x + 2) * loop(\(x,i).x2,2,(x + 2))) div 2)
1: ((x * loop(\(x,i).x2,2,(x + ~1))) div 2)
1: ((2 * loop(\(x,i).x2,2,(2x2 + 4x + 2))) div (x + 1))
1: ((x2 * loop(\(x,i).x2,2,x3)) div (x2 + 1))
1: ((x * loop(\(x,i).x2,2,x3)) div (x + 1))
1: (((x3 + 1) * loop(\(x,i).x2,2,x2)) div 2)
1: (((x2 + 1) * loop(\(x,i).x2,2,x2)) div 2)
1: (((x + 1) * loop(\(x,i).x2,2,x2)) div 2)
1: ((x2 * loop(\(x,i).x2,2,((x2 + ~x) div 2))) div 2)
1: (((x + 1) * loop(\(x,i).x2,2,((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2))) div 2)
1: ((2 * loop(\(x,i).x2,x,2)) div 3)
1: (((x + ~1) * loop(\(x,i).(x * i),(x + ~1),(x + 1))) div 2)
1: (((x + ~1) * loop(\(x,i).(x * i),(x + ~1),(x + 2))) div 2)
1: (((x + 3) * loop(\(x,i).(x * i),x,x)) div 2)
1: (((x + 2) * loop(\(x,i).((x * (4 + (i mod 2))) div 2),x,1)) div 2)
1: (((x + 3) * loop(\(x,i).((x2 + x) div 2),2,(x + 1))) div 3)
1: (((2x + 3) * loop(\(x,i).((x2 + x) div 2),2,(x + 1))) div 3)
1: (((x + 1) * loop(\(x,i).((x2 + 2x) div 4),1,(x + 3))) div 3)
1: (((x + 3) * loop(\(x,i).((x2 + ~x) div 2),2,(x + 4))) div 3)
1: (((x + 1) * loop(\(x,i).((x2 + ~x) div 2),2,(x + 4))) div 3)
1: ((x * loop(\(x,i).((x2 + ~x) div 2),2,(x + 2))) div (x + 1))
1: ((2 * loop(\(x,i).((x2 + ~x) div 2),2,(x + ~1))) div 5)
1: (((x + 1) * loop(\(x,i).((x2 + ~x) div 2),2,(x + ~1))) div 3)
1: ((x * loop(\(x,i).((x2 + ~x) div 2),2,(x + ~2))) div 2)
1: ((x * loop(\(x,i).((x2 + ~x) div 2),3,(x + ~2))) div (x + 3))
1: ((x * loop(\(x,i).((x2 + ~x) div (1 + i)),2,(x + 3))) div 5)
1: ((x * loop(\(x,i).((x2 + ~x) div (1 + i)),2,(x + 4))) div (x + 2))
1: ((x * loop(\(x,i).((x3 + 7x2 + 14x + 8) div 2),1,(x + 3))) div 2)
1: (((x2 + 4x + 5) * loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x + 1),1)) div 2)
1: (((x + 1) * loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x + 1),2)) div (x + 4))
1: (((x + 1) * loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x + 1),(x + 2))) div (x + 4))
1: (((x + 1) * loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),(2x + ~1),1)) div 2)
1: ((loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),(x + ~2),x) * ((x + ~1) div 2)) div 2)
1: (((x + 1) * loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),((x + ~1) div 2),1)) div (1 + (x mod 2)))
1: (((7x + 3) * loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1)) div 2)
1: (((x2 + x + 1) * loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,x)) div (x + 2))
1: ((x * loop(\(x,i).((2x * (~1 + (2 * i))) div (2 + i)),x,3x)) div 2)
1: ((x * loop(\(x,i).((x3 + ~3x2 + 2x) div 5),2,x)) div 2)
1: (((x + 1) * loop(\(x,i).((x3 + x2) div 2),2,x)) div 2)
1: ((x * loop(\(x,i).(x2 div 3),2,x)) div 3)
1: ((2 * loop(\(x,i).(x div (2 - (x mod 2))),2,x)) div 5)
1: ((2 * loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 5)
1: ((5 * loop(\(x,i).(i div 3),((2 - (2x mod (4 + (x div 4)))) mod (x + 1)),1)) div 2)
1: ((2 * loop(\(x,i).(if (~x + i) <= 0 then x else 2x),x,1)) div 3)
1: ((3 * loop(\(x,i).(if (x mod 4) <= 0 then (x div 2) else x),x,(x + 1))) div 2)
1: ((x * loop(\(x,i).(if x <= 0 then 1 else (2 * (1 + ((1 + (((1 + loop(\(x,i).(x * i),(x + ~1),1)) div 2) div 2)) div 2)))),1,(x + ~1))) div 5)
1: ((3 * loop(\(x,i).i,(2 * ((2 * (1 + (2 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))) div 3)),1)) div 2)
1: ((loop(\(x,i).i,(x div 4),1) * ((~x + 2) mod 3)) div 2)
1: (2x div (5 + (x div 2)))
1: (2x div (5 + (x div 4)))
1: (2x div (5 + ((x div 4) mod 2)))
1: (2x div (5 + ((if (x mod 2) <= 0 then (~x + 2) else x) mod 3)))
1: (2x div (5 + (x mod 5)))
1: (2x div (5 - (x mod 2)))
1: (2x div (4 + ((x div 2) div 3)))
1: (2x div (3 + (x div 5)))
1: (2x div (4 + (x div ((if (x mod 3) <= 0 then 1 else 2) + (x mod 2)))))
1: (2x div (4 + ((~x + 1) mod 3)))
1: (2x div (3 + i))
1: (2x div (~x + 17))
1: (2x div (~x + 21))
1: (2x div ((2x + 1) - (x2 mod 7)))
1: (2x div (~11 + (x div 2)))
1: (2x div (2 + (x div 2) - (x mod 2)))
1: (2x div (1 + (2 * (2 + (((x div 2) mod 2) + (x mod 3))))))
1: (2x div (1 + (2 * (2 + ((x div 2) div 5)))))
1: (2x div (1 + (2 * (2 + (x div 3)))))
1: (2x div (1 + (2 * (1 + (if (x + ~2) <= 0 then 0 else (2 + (x mod 2)))))))
1: (2x div (1 + (4 * (2 + ((x div 2) mod 2)))))
1: (2x div (1 + (2 * (x div (1 + (if (x mod 4) <= 0 then 2 else 1))))))
1: (2x div (1 + (2 * ((x - ((x div 2) mod 5)) mod 2))))
1: (2x div (1 + (2 * (2x mod 3))))
1: (2x div (1 + (2 * (x mod 2))))
1: (2x div (1 + (2 * (x mod 3))))
1: (2x div (2 + (x * (x mod 10))))
1: (2x div (2 + (3 * (if (~2 + (x div 2)) <= 0 then 1 else 2))))
1: (2x div (1 + (2 * (if (16 mod (x + 1)) <= 0 then 0 else 2))))
1: (2x div (1 + (2 * loop(\(x,i).(x - (x div (1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))),x,x))))
1: (2x div (1 + ((3x + 1) div (1 - (x div (~2 + (x mod ~4)))))))
1: (2x div (2 + ((x + ((x + 1) mod 8)) div 3)))
1: (2x div (1 + ((x + ((~1 + loop(\(x,i).8x,x,2)) mod (x + 1))) div 2)))
1: (2x div (1 + ((1 + loop(\(x,i).((x mod (1 + i)) + i),x,1)) div 2)))
1: (2x div (1 + ((x + 2) div (2 + (((x + ~1) div 2) div 3)))))
1: (2x div (1 + ((x + 2) div (2 + (x div 4)))))
1: (2x div (2 + ((x + 2) div (8 + (x div ~4)))))
1: (2x div (1 + (5x div (x + 2))))
1: (2x div (2 + (2x div 5)))
1: (2x div (2 + (((x + 1) div 2) div 3)))
1: (2x div (2 + ((x div 2) div 3)))
1: (2x div (1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))
1: (2x div (2 + (x div (1 + ((((~x + 1) div (2 - (x mod ~4))) mod 2) + (x mod 2))))))
1: (2x div (1 + (x div (1 + ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)))))
1: (2x div (1 + (x div (2 + (x mod 3)))))
1: (2x div (2 + (x div (1 + (if (x mod (2 + ((x + ~1) mod 3))) <= 0 then 1 else 2)))))
1: (2x div (2 + (x div 15)))
1: (2x div (1 + (2 mod (1 + (x mod 3)))))
1: (2x div (1 + ((1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),x,2x)) mod 3)))
1: (2x div (2 + ((x + 1) mod 4)))
1: (2x div (1 + ((~x + 2) mod 3)))
1: (2x div (1 + ((loop(\(x,i).2x,x,(1 + (x mod (2 * (1 + (x mod 2)))))) - (x mod 2)) mod (x + 1))))
1: (2x div (2 + ((x + ~1) mod 3)))
1: (2x div (1 + ((x + ~2) mod (1 + (x div 2)))))
1: (2x div (1 + ((x2 + x) mod 3)))
1: (2x div (2 + (x7 mod (10x + 1))))
1: (2x div (2 + (8x mod (x + 1))))
1: (2x div (1 + (2x mod 5)))
1: (2x div (1 + (x2 mod (2 * (2 + (x mod 2))))))
1: (2x div (2 + (x mod 2)))
1: (2x div (2 + (x mod (1 + (2 * (x mod (1 + (x div 8))))))))
1: (2x div (1 + (x mod 6)))
1: (2x div (1 + (x mod 8)))
1: (2x div (1 + (if (x mod 2) <= 0 then 2 else 0)))
1: (2x div (1 + (if (x mod 3) <= 0 then 2 else 0)))
1: (2x div (1 + (if (x mod 10) <= 0 then 2 else 0)))
1: (2x div (loop(\(x,i).2x,loop(\(x,i).(x div (1 + (x mod 2))),x,x),2) + (x div 3)))
1: (2x div (1 + loop(\(x,i).i,(x mod (1 + ((~x + 2) mod 4))),1)))
1: (2x div (~1 - (x div 4)))
1: (2x div ~11)
1: (2x div (1 - (x div ~4)))
1: (2x div (3 - (x div (~1 - ((x div 2) mod 3)))))
1: (2x div (2 - ((1 - (x div 2)) div 3)))
1: (2x div (2 - ((~x + 1) div 5)))
1: (2x div (2 - ((~x + 1) div (4 - ((x mod 3) div 2)))))
1: (2x div (2 - ((2 * ((~x + 1) div (2 + (x mod 2)))) div 3)))
1: (2x div (2 - (x mod ~4)))
1: (2x div (2 - (x mod ~12)))
1: (2x div (~5 + (x mod 3)))
1: (2x div (~1 - (x mod 3)))
1: (2x div (~2x + 23))
1: (2x div (~3 + (x mod 2)))
1: (2x div (8 - (x mod 2)))
1: (2x div (~1 + (3 * (2 + ((x div 2) div (1 + (x mod 2)))))))
1: (2x div (~1 + (2 * (2 - (x div 2)))))
1: (2x div ((5 * (8 - (x div 2))) - (x mod 2)))
1: (2x div (2x + ~17))
1: (2x div (~1 + (3 * ((~x + 2) mod 4))))
1: (2x div (~2 + (2x div ~7)))
1: (2x div (~1 + (x div ~2)))
1: (2x div (~4 + (x div ~2)))
1: (2x div (~1 + (x div ~3)))
1: (2x div (~2 + (x div ~6)))
1: (2x div (~1 + ((x div 2) mod ~4)))
1: (2x div ((x + 1) - ((x - (x2 mod (1 + (x div 2)))) div 2)))
1: (2x div ((x + 1) - ((loop(\(x,i).(2x - (i mod 2)),x,(x + 1)) mod (x + 1)) div 2)))
1: (2x div ((x + 2) - ((~x2 + 2x) mod (4 + (x div 4)))))
1: (2x div ((x + 1) + (2 * ((~x + 2) mod 7)) - (x mod 2)))
1: (2x div (x + ~24))
1: (2x div (x - (if (x mod 6) <= 0 then 2 else 0)))
1: (2x div (5 * loop(\(x,i).i,((x2 + 2x) mod 6),1)))
1: (2x div loop(\(x,i).~x,x,(~1 + (x div ((~x + 1) - (x mod 3))))))
1: (2x div loop(\(x,i).2x,(x3 mod 11),3))
1: (x2 div (6 + ((x2 + ~x) div 11)))
1: (x2 div (5 + (x2 div 4)))
1: (x2 div (5 + (x div 2)))
1: (x2 div (6 + (if x <= 0 then 1 else (2 - ((~x + (x mod 2)) div 3)))))
1: (x2 div (x + 18))
1: (x2 div (x + 19))
1: (x2 div ((x + 1) + (6 * (1 + (x div 8)))))
1: (x2 div (4 + (((x + 2) + (2 * ((1 + ((1 + ((32 mod (x + 1)) div 2)) div 2)) div 2))) div 3)))
1: (x2 div (5 + ((x + (if (x mod 3) <= 0 then 2 else 1)) div 2)))
1: (x2 div ((x + 1) + ((3 * ((x div 2) div 3)) div 2)))
1: (x2 div (4 + (((x + 1) div 2) div 2)))
1: (x2 div (1 + ((x div 3) + (x mod 2))))
1: (x2 div ((x + 1) + (x div 3)))
1: (x2 div ((x + 3) + (x div 3)))
1: (x2 div (3 + (x div 4)))
1: (x2 div (1 + ((x div 4) + (x div 3))))
1: (x2 div ((x + 1) + (x div 4)))
1: (x2 div ((x + 10) + (x div 4)))
1: (x2 div (3 + (x div (2 + (x mod 2)))))
1: (x2 div ((x + 2) + (((x * ((x + ~2) div 3)) div 2) mod 2)))
1: (x2 div ((x + 2) + ((x div 3) mod 2)))
1: (x2 div ((x + 2) + ((x div 5) mod 2)))
1: (x2 div ((x + 1) + (if (x mod 2) <= 0 then 7 else x)))
1: (x2 div ((x + 3) + (if (x mod 2) <= 0 then x else 2)))
1: (x2 div ((x + 2) + i))
1: (x2 div (3 - (x div ~2)))
1: (x2 div (3 - (x div (~2 + (x mod ~2)))))
1: (x2 div ((2x + 1) - (3 * ((x div 2) - ((x mod 3) div 2)))))
1: (x2 div ((~x + 4) + (x2 div 4)))
1: (x2 div ((x + 3) - ((x - (x div 5)) div 3)))
1: (x2 div ((x + 2) - (x div (3 * (8 - (x div 2))))))
1: (x2 div ((x + 2) - ((x div 5) mod 3)))
1: (x2 div (x + 12))
1: (x2 div ((4x + ~4) + (x mod 3)))
1: (x2 div (1 + (2 * ((x + 2) - ((x div 2) mod 4)))))
1: (x2 div (2x + 25))
1: (x2 div (x + (3 * (2 + (x div 4)))))
1: (x2 div (1 + (2 * (1 + ((~x + 1) mod 3)))))
1: (x2 div (1 + (2 * (2 + ((x div 2) mod 3)))))
1: (x2 div (1 + (3 * (2 + (x mod 2)))))
1: (x2 div (x + ((x + 2) * (2 + (x mod 2)))))
1: (x2 div ((2x + 2) + (x mod 3)))
1: (x2 div ((2x + 4) + (x mod 3)))
1: (x2 div ((2x + 4) + (x mod 4)))
1: (x2 div 25)
1: (x2 div (x + 20))
1: (x2 div (x + (4 * (2 + (x mod 2)))))
1: (x2 div (~8x + 145))
1: (x2 div (3 + (2 * (((x + 1) + (x div 2)) div 2))))
1: (x2 div (1 + (3 * (((x + 1) * (x div 2)) mod 2))))
1: (x2 div (1 + (2 * (if (x mod 5) <= 0 then 0 else 2))))
1: (x2 div (1 + ((x + ((x2 div 2) div 3)) div 2)))
1: (x2 div (1 + ((x + 1) div 2)))
1: (x2 div (1 + (((~x + 2) mod (1 + (x div 2))) div 2)))
1: (x2 div (1 + (loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2)))
1: (x2 div (2 + (x div 3)))
1: (x2 div (2 + ((x + 2) mod 5)))
1: (x2 div (1 + ((~x + 2) mod 8)))
1: (x2 div (1 + (x mod 4)))
1: (x2 div (1 + (x mod (1 + ((1 + (x div 2)) mod (1 + (x div 5)))))))
1: (x2 div (2 + (x mod (2 + (x mod 3)))))
1: (x2 div (2 + (if (~4 + (x div 2)) <= 0 then x else (x + 2))))
1: (x2 div (1 + (if (x mod 3) <= 0 then 2 else 0)))
1: (x2 div (x + loop(\(x,i).i,(~2 + (x div 2)),1)))
1: (x2 div (~3 - ((2x div (2 + (x div 3))) mod 2)))
1: (x2 div ((~x + ~3) - (x div 2)))
1: (x2 div (1 + (2 * (1 + ((1 + loop(\(x,i).(x - (x div ~3)),x,1)) div 3))) - (x div ~3)))
1: (x2 div ((~x + 1) + (3 * (16 - (x div 2)))))
1: (x2 div (~x + 25))
1: (x2 div ((~x + 1) + (9 * (x mod 10))))
1: (x2 div (1 - ((~x + (x mod 2)) div 3)))
1: (x2 div (2 - (x mod (1 + (x div 8)))))
1: (x2 div (2 - (i mod 2)))
1: (x2 div (x + 15))
1: (x2 div ((2x + ~1) + ((x div 4) mod 3)))
1: (x2 div ((~x + 1) + (x mod 4)))
1: (x2 div (4x + ~11))
1: (x2 div (~x + ~6))
1: (x2 div ~5)
1: (x2 div (~4 - (x mod 3)))
1: (x2 div ((~x + ~1) - (x div 3)))
1: (x2 div (15 - (x div 2)))
1: (x2 div ((2x + ~1) - ((~x + 2) div 2)))
1: (x2 div ((2x + ~1) - (x2 div 4)))
1: (x2 div ((~x + ~1) + (x div 3)))
1: (x2 div (x + ~26))
1: (x2 div (8 - (x div 3)))
1: (x2 div 11)
1: (x2 div ((2x + 12) - (x div 3)))
1: (x2 div (~1 + (2 * ((x + 1) + (x mod 11)))))
1: (x2 div ((2x + 8) - ((x + ~1) div 3)))
1: (x2 div ((2x + 8) - (x div 2)))
1: (x2 div ((2x + 8) - (x div 3)))
1: (x2 div ((2x + 1) + ((x + 2) mod 7)))
1: (x2 div ((2x + 1) + ((x2 + ~x) mod 9)))
1: (x2 div ((2x + 4) - (x div 2)))
1: (x2 div (~2x + ~5))
1: (x2 div (~1 + (2 * (x - ((1 - ((x + ((2 + loop(\(x,i).2x,(x + ~1),1)) div (x + 1))) div 2)) div 2)))))
1: (x2 div (~1 + (3 * (x - (2x div 5)))))
1: (x2 div (16 - (x div 3)))
1: (x2 div (24 - ((x + 2) mod 4)))
1: (x2 div (~x + 24))
1: (x2 div (~1 + (10 * (2 + (((x + 1) div 2) div 2)))))
1: (x2 div (~1 + (4 * (x div 2))))
1: (x2 div (~1 + (2 * (x div 2))))
1: (x2 div (~2 + (3 * (x div 2))))
1: (x2 div (~1 + (3 * (x div ~2))))
1: (x2 div (2x - ((~x + 2) div 2)))
1: (x2 div (~16 + ((x + 1) div 2)))
1: (x2 div (~2 + (x div ~2)))
1: (x2 div ((~x + ~1) + (x div ~3)))
1: (x2 div (x + 11))
1: (x2 div ((x + 2) - (3 * (((~x + 2) div 2) div 3))))
1: (x2 div ((x + 1) - (x div ~2)))
1: (x2 div ((x + 2) - (x div ~2)))
1: (x2 div ((x + 1) - (x div ~7)))
1: (x2 div (x - (3 * ((~x + 2) - (if (x mod 2) <= 0 then x else 1)))))
1: (x2 div (x - (2 * (~2 + (x div (~4 + (x mod ~2)))))))
1: (x2 div (x + ~32))
1: (x2 div (x - (3 * ((~x + 2) div 2))))
1: (x2 div (x - (2 * (((x + ~1) div 2) div 3))))
1: (x2 div (2x + 24))
1: (x2 div (2 * (1 + (2 * (2 + (x mod 4))))))
1: (x2 div (2 * (1 + (((x + 1) + (((x + 1) + (((1 + ((1 + ((x * (1 + (loop(\(x,i).3x,(x div 2),1) div 2))) div 2)) div 2)) div 2) div 2)) div 2)) div 2))))
1: (x2 div ~21)
1: (x2 div (2 * (2 - (x mod 2))))
1: (x2 div (3 * ((x + 1) - (2 * ((x + 2) div 5)))))
1: (x2 div 24)
1: (x2 div (4 * (3 - (x mod 2))))
1: (x2 div (4 * (2 + (if (~2 + (x div 2)) <= 0 then 1 else 2))))
1: (x2 div ~42)
1: (x2 div (8 * (~2 + (x mod 2))))
1: (x2 div ((2x + 4) div 3))
1: (x2 div (if (x mod 2) <= 0 then 4 else 1))
1: (x2 div (if (x mod 2) <= 0 then (2 + (x mod 4)) else 1))
1: (x2 div (if (x mod 3) <= 0 then 2 else (1 + (x div 2))))
1: (x2 div loop(\(x,i).(x2 + 2),2,2))
1: (x2 div loop(\(x,i).(x + 1),(2 + (2x div (4 + (x div 4)))),2))
1: (x2 div loop(\(x,i).3x,(2 * i),1))
1: (x2 div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))
1: ((2 * i) div 3)
1: ((2 * i) div (x + 2))
1: ((x * i) div (2 - (i mod 2)))
1: ((i * i) div 5)
1: ((i * i) div (2x + 1))
1: ((i * i) div ~7)
1: ((i * i) div ~4)
1: ((i * i) div 6)
1: ((3 * compr(\x.(1 - (x mod (1 + (2 * (2 - ((~1 + (x mod 4)) div 2)))))),x)) div 2)
1: ((3 * compr(\x.(1 - (x mod (1 + (2 * (x mod (2 + (x mod 2))))))),x)) div 2)
1: ((3 * compr(\x.(1 - (x mod (1 + (if (x mod 8) <= 0 then 2 else 1)))),x)) div 2)
1: ((2 * compr(\x.(1 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x2 + 2x))),x)) div 3)
1: ((5 * compr(\x.(2 - (3x mod 13)),x)) div 2)
1: ((3 * compr(\x.(2 - (x mod (3 + (x mod 8)))),x)) div 2)
1: ((3 * compr(\x.(2 - (x mod (1 + (2 * (1 + (4 * (x mod 2))))))),x)) div 2)
1: ((3 * compr(\x.(2 - (x mod (3 * (2 + (if ((x + ~1) mod 4) <= 0 then 2 else 1))))),x)) div 2)
1: ((2 * compr(\x.(x - loop(\(x,i).loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),x,(2x + 1)),2,(x + ~1))),x)) div 3)
1: ((5 * compr(\x.((x mod 4) * (x div 3)),(1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))) div 3)
1: (((2x + 5) * compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) div 3)
1: ((2 * compr(\x.(loop(\(x,i).(~2x + 2),x,2) mod (x + 2)),x)) div 3)
1: ((5 * compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,(x + 2)),x)) div 2)
1: ((3 * compr(\x.loop(\(x,i).(x div (1 + (2 * (x mod 2)))),x,x),x)) div 2)
1: ((3 * compr(\x.loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,2x),x)) div 2)
1: ((((3x + 3) + (x div 3) - (x mod 10)) div 2) div 2)
1: ((((3x + 1) - (((x mod 2) - ((x - ((x2 + 2x) div 3)) div 2)) div 2)) div 2) div 2)
1: ((((2x + 2) + (x * (3 + ((x - ((x div 2) mod 2)) div 2)))) div 3) div 2)
1: ((((x + 4) + ((2 * (1 + ((x + 1) div (1 + (x div (2 + (x mod (2 + (x mod 2))))))))) mod (x + 1))) div 3) div 2)
1: ((((4x + 2) + loop(\(x,i).2x,((x + 2) + (x div 4)),2)) div 2) div 2)
1: (((1 + ((2 * (1 + (2 * ((x + 2) + ((x + (x mod 2)) div 3))))) + ((x + 1) div 3))) div 2) div 2)
1: ((((x + 1) + (3 * (2x - ((x + 1) mod (1 + ((x div 2) div 3)))))) div 2) div 2)
1: ((((x + 1) + (4 * ((2 + ((1 + ((1 + ((x3 div 4) div 3)) div 2)) div 2)) div 2))) div 2) div 2)
1: ((((x + 1) + (2 * (((2x + 1) + (2 * ((3 * (1 + ((4 * ((2x + 1) - ((x div 2) div 3))) div 3))) div 2))) div 3))) div 2) div 2)
1: ((((x + 1) + (2 * (((x + 1) + (2 * ((1 + (((x + 1) * (1 + ((2x mod (2 + (x div 3))) mod 2))) div 2)) div 2))) div 2))) div 2) div 2)
1: (((1 + ((2 * ((3 * (x + ((5 * ((x2 + x) div 2)) div 3))) div 2)) + (x mod 2))) div 2) div 2)
1: ((((x + 1) + (2 * (20x div (x + 3)))) div 2) div 2)
1: ((((x + 1) + (2 * ((((x + 2) * (x - (x div ~2))) div 2) div 2))) div 2) div 2)
1: ((((x + 1) + (2 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))) div 2) div 2)
1: ((((x + 2) + (((2x + 1) + (4 * ((1 + (loop(\(x,i).(2x + 2),(x div 2),(x mod 2)) div 2)) div 2))) div 3)) div 2) div 2)
1: ((((x + 2) + (((x + 1) + ((~x + 1) mod 9)) div 2)) div 2) div 2)
1: ((((x + 1) + ((x + ((1 + (((((x3 + ~3x2 + 2x) div 2) div 2) div 2) div 2)) div 2)) div 2)) div 2) div 2)
1: ((((x + 2) + ((3 * ((x + 2) + (2x div 7))) div 2)) div 2) div 2)
1: (((1 + (((2 * (1 + ((1 + ((1 + loop(\(x,i).((x + 1) + (2 * ((x + (x div 2)) div 4))),((x + 1) div 2),1)) div 2)) div 2))) div 3) + (x mod 2))) div 2) div 2)
1: (((1 + (((2 * (1 + ((1 + ((1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,(2x + 1))) div 2)) div 2))) div 3) + (x mod 2))) div 2) div 2)
1: (((1 + (((x2 + x) div 4) + (x div 2))) div 2) div 2)
1: (((1 + (((x * (x div 3)) div 2) + (x div 2))) div 2) div 2)
1: (((x + ((loop(\(x,i).(2x + 2),x,2) div (x + 2)) + (x div 2))) div 2) div 2)
1: ((((x + 2) + (x div (2 - ((x mod 3) mod 2)))) div 2) div 2)
1: ((((x + 1) + ((13x + 6) mod 9)) div 2) div 2)
1: (((((x + 1) mod 4) + (x div 4) + (x mod 3)) div 2) div 2)
1: (((3 + ((~x + 1) mod 8)) div 2) div 2)
1: (((2 + ((11 mod (2x + 1)) + (x div 2))) div 2) div 2)
1: ((((x + 1) + ((2x + ~1) mod 7)) div 2) div 2)
1: ((((x + 1) + ((2 * (x + (x div 13))) mod 7)) div 2) div 2)
1: (((1 + (((10 * (x + (2 * (x mod 2)))) mod 7) + (x mod 2))) div 2) div 2)
1: ((((x + 2) + ((2 * ((x + 1) mod (1 + (2 * (1 + (x mod (1 + (8 * (x mod (2 + (x mod 2))))))))))) mod (x + 1))) div 2) div 2)
1: ((((x + 2) + (loop(\(x,i).(2x + (if (i mod 3) <= 0 then 3 else 0)),x,0) mod (x + 1))) div 2) div 2)
1: ((((x + 2) + (loop(\(x,i).(x * (1 + i)),(2 + (x div 4)),1) mod (x + 1))) div 2) div 2)
1: ((((x + 1) + (x mod (~2 + ((~x + 2) div 4)))) div 2) div 2)
1: ((((x + 2) + loop(\(x,i).(x + (x div 4)),x,5)) div 3) div 2)
1: (((3 + loop(\(x,i).(7x + 7),(x div 2),(x mod 2))) div (2x + 1)) div 2)
1: (((2 + (loop(\(x,i).2x,(x mod 4),1) + loop(\(x,i).2x,x,1))) div 3) div 2)
1: (((x + 3) div (1 + ((((1 + (x div 2)) div 2) div 2) + (x mod 2)))) div 2)
1: ((((x + 1) + (x div 2) - ((x div 2) mod 3)) div 2) div 2)
1: ((((x + 2) - ((x mod 2) + (x mod (1 + (2 * (if (x mod 3) <= 0 then 0 else 2)))))) div 2) div 2)
1: ((((x + ~1) + loop(\(x,i).(x + ((if (x + ~4) <= 0 then 1 else 2) + (x div 4))),x,1)) div 2) div 2)
1: (((1 + loop(\(x,i).4x,x,2) - loop(\(x,i).3x,x,3)) div 2) div 2)
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1: ((((~x + 1) + loop(\(x,i).x2,1,loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x))) div 2) div 2)
1: (((~1 + loop(\(x,i).(x * i),(1 + (2 * (x - (x div ~2)))),1)) div 2) div 3)
1: (((3x + 2) div ((~x2 + 2) mod 8)) div 2)
1: ((((x2 + 10x) + (x mod 10)) div (x + 1)) div 2)
1: (((1 + (((x + 2) + (x div 7)) * ((x + 1) div 2))) div 3) div 2)
1: (((x + ((~x + 3) * (x div 3))) div 2) div 2)
1: ((((3 * ((x + 2) - ((x div 2) div 5))) + (x mod 3)) div 2) div 2)
1: ((((2x2 + 3x + 1) + (x div 2)) div 2) div 2)
1: (((1 + ((1 + ((x div 2) div 3)) * ((x + 1) div 2))) div 2) div 2)
1: (((x + (3 * ((x div 8) + (x div 2)))) div 2) div 2)
1: (((x + (14 * (x + (x div 8)))) div 2) div 2)
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1: (((x + (14 * (x + (if (~2 + (x div 2)) <= 0 then 1 else 2)))) div 2) div 2)
1: (((5x3 + x) div 2) div 3)
1: (((x + (6 * ((1 + (x mod 5)) div 2))) div 2) div 2)
1: (((3x2 + x) div 2) div 5)
1: (((x3 + 2x2 + 1) div 2) div 2)
1: (((x + (2 * ((~x + (x2 div 3)) div 3))) div 3) div 2)
1: (((x + ((x2 div 2) * ((x + 1) div 2))) div 2) div 2)
1: ((((3 * (x2 div 3)) + (x div 2)) div 2) div 2)
1: (((((x + 1) * (x2 div (x + 2))) + (x div 3)) div 2) div 2)
1: ((((x * (x div 2)) + (x mod 3)) div 2) div 2)
1: (((x + ((x + 1) * (x div 5))) div 2) div 2)
1: (((1 + ((if (x + ~2) <= 0 then 1 else (x div 3)) * (1 + ((x + ~1) mod 4)))) div 2) div 2)
1: (((1 + ((if (x mod 2) <= 0 then 1 else x) * (x div 2))) div 2) div 2)
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1: (((1 + (3 * loop(\(x,i).(2x + 2),(~1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)),1))) div 2) div 2)
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1: (((1 + ((1 + ((x + 1) * (x div (2 + (x mod 2))))) div 2)) div 2) div 2)
1: (((1 + ((1 + ((x * (1 + ((2x + 4) div 3))) div 2)) div 2)) div 2) div 2)
1: (((1 + ((1 + ((x * (1 + (loop(\(x,i).3x,(x div 2),1) div 2))) div 2)) div 2)) div 2) div 2)
1: (((2 + ((1 + ((3 * (x + (if (~2 + (x div 4)) <= 0 then 1 else 2))) div 2)) div 2)) div 2) div 2)
1: (((1 + ((x + (x3 div 16)) div 2)) div 2) div 2)
1: (((1 + ((x + (x3 div 32)) div 2)) div 2) div 2)
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1: (((1 + ((x - (((~x2 + x) div 2) div 3)) div 2)) div 2) div 2)
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1: (((1 + (((x + 1) * ((2x + 1) + (((x + 1) + (((x + 1) + (((3x + 1) + (if (x + ~1) <= 0 then 1 else (2 * ((x + 1) - (((~x2 + x) div 2) div 5))))) div 2)) div 2)) div 2))) div 2)) div 2) div 2)
1: (((1 + (((x + 5) * (x div 5)) div 2)) div 2) div 2)
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1: (((1 + ((x * ((x + 1) + (2 * ((x + (x div 2)) div 4)))) div 2)) div 2) div 2)
1: (((1 + (((x + 2) * ((3x + 1) + (((x2 + 3x + 2) div 2) div 3))) div 2)) div 2) div 2)
1: (((1 + (((x + 1) * ((x + 1) + (x div 3))) div 2)) div 2) div 2)
1: (((1 + ((x * ((x + 2) + ((2 * loop(\(x,i).(x div (2 - (x mod 2))),x,x)) mod (x + 1)))) div 2)) div 2) div 2)
1: (((x + (((x + 2) * ((x + 2) + loop(\(x,i).i,(x + ~8),1))) div 2)) div 2) div 2)
1: (((1 + (((x + 1) * ((2x + 1) - (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))) div 2)) div 2) div 2)
1: (((1 + (((x + 1) * (1 + ((x2 + 4x + 4) div 2) - (x mod 2))) div 5)) div 2) div 2)
1: (((((5x2 + 11x + 2) div 2) + (x mod 2)) div 2) div 2)
1: (((1 + (((x + 1) * (1 + (2 * (1 + ((1 + (x div (2 + (x mod 2)))) div 2))))) div 2)) div 2) div 2)
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1: (((1 + (((x + 1) * (1 + (2 * (x - (x div (2 + (if (~2 + (x div 4)) <= 0 then 1 else 2))))))) div 2)) div 2) div 2)
1: (((1 + (((x + 1) * (1 + (2 * (x - (x mod 10))))) div 2)) div 2) div 2)
1: (((1 + ((21x2 + 58x + 32) div 2)) div 2) div 2)
1: (((1 + (((x + 1) * (1 + (4 * (2 + ((1 + ((19x2 + 19x) div 2)) div 2))))) div 3)) div 3) div (x + 1))
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1: (((1 + (((x + 1) * (1 + (2 * ((1 + ((x2 + x) div 2)) div 2)))) div 2)) div 2) div 2)
1: (((1 + (((x + 1) * (1 + (2 * ((1 + (x div 4)) div 2)))) div 2)) div 2) div 3)
1: (((1 + ((x * (2 + (x * ((~1 + (loop(\(x,i).(x + loop(\(x,i).(x * i),(x + ~2),1)),x,0) div 2)) div 2)))) div 2)) div 2) div 2)
1: (((1 + (((x + 1) * (1 + (2 * (((x div 3) * (x div 2)) div 2)))) div 2)) div 2) div 2)
1: (((1 + (((x + 1) * (1 + (2 * (((x - (2 * (2 + (x div 8)))) mod (x + 1)) div 2)))) div 2)) div 2) div 2)
1: (((1 + (((x + 1) * (1 + (2 * ((x - (x div 8)) mod 2)))) div 3)) div 2) div 2)
1: (((1 + ((x * ((2 * (x mod 2)) + (x div 3))) div 2)) div 2) div 2)
1: (((1 + (((x + 1) * (1 + (((x + 1) + (((x + 1) + loop(\(x,i).(if x <= 0 then 1 else (2 * (x - ((3 * (x div 4)) div 2)))),x,0)) div 2)) div 2))) div 2)) div 2) div 2)
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1: (((1 + (((x + 1) * (1 + (if (if (x mod 2) <= 0 then x else 0) <= 0 then (x mod 4) else 2))) div 2)) div 2) div 2)
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1: (((((5x2 + 12x + 7) div 2) + (4 * (1 + (x div 3)))) div 2) div 2)
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1: (((2 + (((if (x + ~4) <= 0 then 1 else x) * (x div 2)) div 2)) div 2) div 2)
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1: (((1 + (((x + ~1) * loop(\(x,i).(3x + (i div 2)),x,0)) div 2)) div 2) div 2)
1: (((1 + (((x + ~1) * loop(\(x,i).(1 + (x2 div 2) - (x mod 2)),1,(x + ~1))) div 3)) div 2) div 2)
1: (((1 + (((x + 1) * loop(\(x,i).(x * (x + loop(\(x,i).loop(\(x,i).loop(\(x,i).x2,1,loop(\(x,i).((2 * (x - (2x * i))) div (1 + i)),x,1)),1,(x + ~1)),1,i))),x,1)) div 2)) div 2) div 2)
1: (((1 + (((x + ~1) * loop(\(x,i).(x * i),(x + ~1),(x + 1))) div 2)) div 2) div 2)
1: (((1 + (2x div (1 + (x div 4)))) div 2) div 2)
1: ((((x2 + 3x + 2) + (x2 div 4)) div 2) div 2)
1: (((1 + (((2x + 5) * compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) div 3)) div 2) div 2)
1: (((1 + (((2 + (loop(\(x,i).2x,(x mod 4),1) + loop(\(x,i).2x,x,1))) div 3) div 2)) div 2) div 2)
1: (((1 + (((1 + loop(\(x,i).2x,x,1) - (2 * ((1 - loop(\(x,i).((x2 + ~x) div (1 + i)),2,(x + ~1))) div 2))) div 2) div 2)) div 2) div 2)
1: (((1 + (((1 + (((x + 1) * ((2x + 1) - (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))) div 2)) div 2) div 2)) div 2) div 2)
1: (((1 + (((1 + (((x + 1) * (1 + ((x2 + 4x + 4) div 2) - (x mod 2))) div 5)) div 2) div 2)) div 2) div 2)
1: (((1 + (((1 + (((x + 1) * (1 + (2 * (x - (x div (2 + (if (~2 + (x div 4)) <= 0 then 1 else 2))))))) div 2)) div 2) div 2)) div 2) div 2)
1: (((1 + (((1 + (((x + 1) * (1 + (2 * (x - (x mod 10))))) div 2)) div 2) div 2)) div 2) div 2)
1: (((1 + (((1 + (((x + 1) * (1 + ((x + 3) mod 9))) div 2)) div 2) div 2)) div 2) div 2)
1: (((1 + (((1 + (((x + 1) * (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))) div 3)) div 2) div 2)) div 2) div 2)
1: (((1 + (((1 + (((x + 1) * (1 - ((2x + ~1) mod (4 + (x div 4))))) div 2)) div 2) div 2)) div 2) div 2)
1: (((1 + (((1 + (((x + 1) * ((((~x + 1) + (2 * ((x3 + ~3x2 + 2x) div 9))) div 2) div 2)) div 2)) div 2) div 2)) div 2) div 2)
1: (((1 + (((1 + (((2x + 5) * compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) div 3)) div 2) div 2)) div 2) div 2)
1: (((1 + (((1 + ((loop(\(x,i).((~2x + 4) + (x div 2)),(x + 1),3) div 2) div 2)) div 2) div 2)) div 2) div 2)
1: (((1 + (((1 + ((loop(\(x,i).x2,1,(1 + (x2 div 3))) div 2) div 2)) div 2) div 2)) div 2) div 2)
1: (((1 + (((1 + ((loop(\(x,i).x2,1,((x * ((x + ~1) div 2)) div 3)) div 2) div 2)) div 2) div 2)) div 2) div 2)
1: (((1 + (((1 + loop(\(x,i).(x + (if (x + ~2) <= 0 then 1 else ((x2 + ~x) * i))),x,0)) div 2) div 2)) div 2) div 2)
1: (((1 + ((((x + 1) * (8 + ((3 * (x - (x div 11))) div 2))) div 2) div 2)) div 2) div 2)
1: (((1 + ((((x + 1) * ((x + 3) + ((1 + ((x * (x div 2)) div 4)) div 5) - (x mod 2))) div 2) div 2)) div 2) div 2)
1: (((1 + (((x * ((14x + 9) + (x div 2))) div 2) div 2)) div 2) div 2)
1: (((1 + ((((x + 1) * ((x + 1) + (2 * (2x + ((x mod (1 + (x div 2))) div 2))))) div 2) div 2)) div 2) div 2)
1: (((1 + ((((x + 1) * ((x + 1) + ((x - ((x mod 3) div 2)) div 2))) div 2) div 2)) div 2) div 2)
1: (((1 + ((((x + ~1) * ((x + 1) + (x2 div 4))) div 2) div 2)) div 2) div 2)
1: (((1 + ((((x + 1) * ((x + 1) - (((~x + ~1) + (x2 div 4)) div 3))) div 2) div 2)) div 2) div 2)
1: (((2 + (((14x2 + 27x + 9) div 2) div 3)) div 3) div 2)
1: (((1 + ((((x + 1) * (1 + (2 * (2x + ((x * (x div 2)) mod 2))))) div 2) div 2)) div 2) div 2)
1: (((x + ((((x + 1) * (2 + (5 * ((x2 + x) div 2)))) div 2) div 3)) div 2) div 2)
1: (((1 + ((((x + 1) * (2 + ((1 + ((x + (x2 div 3)) div 2)) div 2))) div 2) div 2)) div 2) div 2)
1: (((1 + ((((2 + ((x2 + 2x) div 9)) * ((x + 1) div 2)) div 2) div 2)) div 2) div 2)
1: (((1 + ((((x + 1) * (2 + ((4 * (2x div 3)) div 3))) div 2) div 2)) div 2) div 2)
1: (((1 + ((((x + (x2 div 3)) * (2 + (x div 2))) div 2) div 2)) div 2) div 2)
1: (((1 + (((x * ((x div (2 + (x mod 2))) + (x div 2))) div 2) div 2)) div 2) div 2)
1: (((1 + ((((x + 1) * (2 + ((2 + (x mod 8)) mod (x + 1)))) div 2) div 2)) div 2) div 2)
1: (((1 + ((((x + 1) * (x + (x mod 3))) div 2) div 2)) div 2) div 2)
1: (((1 + ((((x + 1) * ((if (~2 + (x div 4)) <= 0 then 1 else 2) + (x div 3))) div 2) div 2)) div 2) div 2)
1: (((1 + (((x * (x + (if (x mod 3) <= 0 then 2 else 1))) div 2) div 2)) div 2) div 2)
1: (((1 + ((((x + 1) * (1 + loop(\(x,i).(x2 + ~2x),2,8))) div 2) div 3)) div 2) div 9)
1: (((1 + ((((2x + 1) * ((x + ~1) + ((x * (x div 2)) mod 2))) div 2) div 2)) div 2) div 2)
1: (((1 + ((((x + 1) * (~1 + loop(\(x,i).(8x + 4),(x + 1),0))) div 2) div 2)) div 2) div 2)
1: (((1 + (((x * (x - (x div ~3))) div 2) div 2)) div 2) div 2)
1: (((2 + ((((x + 2) * (x - (2 mod (1 + (x div 4))))) div 2) div 2)) div 2) div 2)
1: (((x + (((10x3 + ~3x2 + ~4x) div 2) div 3)) div 2) div 2)
1: (((1 + (((2 * (((x - ((x div 2) mod 2)) div 2) * ((x + 1) div 2))) div 2) div 2)) div 2) div 2)
1: (((1 + (((x * ((x + (2 mod (x + 1))) div 3)) div 2) div 2)) div 2) div 2)
1: (((x + (((((x * (x div 2)) div 2) * (2 + (x div 2))) div 2) div 2)) div 2) div 2)
1: (((1 + ((((x2 div 4) * (1 + ((x + 1) div 2))) div 2) div 2)) div 2) div 2)
1: (((1 + (((x * (if (~4 + (x div 2)) <= 0 then 1 else x)) div 3) div 2)) div 2) div 2)
1: (((1 + ((((x + 1) * loop(\(x,i).(x + ((if (i mod 2) <= 0 then 2 else i) * i)),x,0)) div 2) div 3)) div 2) div 2)
1: (((1 + ((((2 + ((x3 + x2) div 2)) div 2) div 2) div 2)) div 2) div 2)
1: (((1 + (((((x + 1) * (1 + (((x + 2) div 3) * ((x + ~1) div 2)))) div 2) div 2) div 2)) div 2) div 2)
1: (((1 + ((((x * (1 + ((loop(\(x,i).((x + 1) - ((~x + 1) div 3)),x,1) div 2) div 2))) div 2) div 2) div 2)) div 2) div 2)
1: (((1 + (((((x + 1) * (x + ((x div 2) mod 2))) div 2) div 2) div 2)) div 2) div 2)
1: (((1 + ((((3x3 + 3x2 + ~2x) div 2) div 2) div 2)) div 2) div 2)
1: (((1 + ((((15x2 + 10x) div 2) div 3) div 2)) div 2) div 2)
1: (((1 + ((((x * ((x2 + 4x + 4) div 2)) div 2) div 2) div 2)) div 2) div 2)
1: (((1 + (((((x + 1) * ((x * (~1 + ((x + ~1) div 2))) div 2)) div 2) div 2) div 2)) div 2) div 2)
1: (((1 + (((((x + 1) * loop(\(x,i).((x + 2) + (x div 8)),x,1)) div 2) div 2) div 2)) div 2) div 2)
1: (((1 + (((((x + 1) * loop(\(x,i).x2,1,loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x))) div 2) div 2) div 2)) div 2) div 2)
1: (((1 + ((((loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2) div 2) div 2) div 2)) div 2) div 2)
1: (((1 + (((loop(\(x,i).(x * (2 + i)),(16x + 16),1) div 2) div 2) div 2)) div 2) div 16)
1: (((1 + (((loop(\(x,i).x2,1,(((x + 1) * (x3 div 2)) div 2)) div 2) div 2) div 2)) div 2) div 4)
1: ((((x + 1) + ((((3 * ((x * (x mod 4)) div 2)) mod (x + 1)) div 2) div 2)) div 2) div 3)
1: (((1 + ((loop(\(x,i).((~2x + 4) + (x div 2)),(x + 1),3) div 2) div 2)) div 2) div 2)
1: (((x + ((loop(\(x,i).((x + 2) * (x + i)),2,x) div 2) div 3)) div 2) div 2)
1: (((1 + ((loop(\(x,i).7x2,1,loop(\(x,i).(~1 + (2 * (x + (i mod 2)))),x,0)) div 2) div 3)) div 2) div 2)
1: (((1 + ((loop(\(x,i).(x * (if (x mod 2) <= 0 then 1 else x)),1,(x + ~2)) div 2) div 2)) div 2) div 2)
1: (((1 + ((loop(\(x,i).2x,x,(loop(\(x,i).((x2 + ~x) div 2),2,(x + 1)) div 3)) div 2) div 2)) div 2) div 2)
1: (((1 + ((loop(\(x,i).x2,1,((x + 1) + ((x div 5) + (x div 2)))) div 2) div 2)) div 2) div 2)
1: (((1 + ((loop(\(x,i).x2,1,(1 + (x2 div 3))) div 2) div 2)) div 2) div 2)
1: (((1 + ((loop(\(x,i).x2,1,((x * ((x + ~1) div 2)) div 3)) div 2) div 2)) div 2) div 2)
1: (((x + (loop(\(x,i).((x + 2) + ((x - (x div 4)) div 2)),x,2) div 2)) div 2) div 2)
1: (((1 + (loop(\(x,i).((x + 1) + (x div (1 + (x mod 4)))),x,0) div 2)) div 2) div 2)
1: (((1 + (loop(\(x,i).(x + ((2 + (i div 3)) * (1 + i))),x,x) div 2)) div 2) div 2)
1: (((1 + (loop(\(x,i).(2x + 1),x,loop(\(x,i).3x,x,1)) div 3)) div 2) div 2)
1: (((1 + (loop(\(x,i).(1 + (loop(\(x,i).(x * i),x,(5x + 1)) div 2)),1,(x + 2)) div 2)) div 2) div 3)
1: (((x + (loop(\(x,i).(x + (x div 2)),x,2) div (x + 1))) div 2) div 2)
1: (((1 + (loop(\(x,i).(2 * (2x + (x div (if i <= 0 then 1 else i)))),x,x) div 2)) div 2) div 3)
1: (((x + (loop(\(x,i).(2x + 2),(x + ~2),(1 + loop(\(x,i).2x,x,1))) div 2)) div 2) div 2)
1: (((2 + (loop(\(x,i).(x2 + x),1,(x - (x2 div 8))) div 2)) div 3) div 2)
1: (((2 + (loop(\(x,i).(x2 + 2x),1,(x5 + 2)) div 2)) div 3) div 2)
1: (((1 + (loop(\(x,i).(x2 + 2x),1,loop(\(x,i).(1 + (x * (2 + i))),x,1)) div 2)) div 2) div 2)
1: (((1 + (loop(\(x,i).4x,(x + ~2),x) div 2)) div 2) div 2)
1: (((1 + (loop(\(x,i).2x,(x + ~8),1) div 2)) div 2) div 2)
1: (((1 + (loop(\(x,i).x2,1,(2 - ((x2 + 3x) div 2))) div 3)) div 2) div 2)
1: (((x + (loop(\(x,i).((x2 + ~2x) div 2),2,x) div (x + 1))) div 2) div 2)
1: (((1 + (loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else 2x),x,(2x + 12)) div 3)) div 2) div 2)
1: (((1 + (x div 2)) div 2) div (1 + (2 * (x mod 6))))
1: (((1 + (x div 2)) div 2) div (1 + (x mod (1 + (x mod (1 + (x div (2 * (2 - (x mod 2))))))))))
1: (((1 + (x div 2)) div 2) div (if (x + ~4) <= 0 then 1 else 2))
1: (((1 + (x div 2)) div 3) div (1 + (x mod (1 + (x mod 4)))))
1: (((1 + (x div 2)) div (1 + (2 * ((1 + (3 * (2 - (x mod 2)))) mod (1 + (x div 2)))))) div 2)
1: (((1 + (x div 2)) div (2 - (x mod 2))) div 3)
1: (((1 + (x div 2)) div (2 - (x mod (1 - (2 * (x mod 4)))))) div 2)
1: (((2 + (x div 2)) div (2 - (x mod 2))) div 3)
1: (((2 + (x div 2)) div (8 - (x div 2))) div 2)
1: (((x + (x div 2)) div 2) div ~2)
1: (((1 + (x div 3)) div 2) div (1 + ((x * (x div 2)) mod 2)))
1: (((1 + (x div 3)) div 2) div (1 + ((x mod 7) mod 3)))
1: (((1 + (x div 3)) div (1 + ((~x + 2) mod (1 + (x div 3))))) div 2)
1: (((1 + (x div 3)) div (1 + ((x - (x div 12)) mod 3))) div 2)
1: (((1 + (x div 3)) div (1 + (if (x mod (4 - (x mod 2))) <= 0 then 2 else 0))) div 2)
1: (((1 + (x div 4)) div (1 + (~x mod 4))) div 2)
1: (((2 + (x div 5)) div (1 + ((x + (x div 2)) mod 4))) div 2)
1: (((1 + (x div (1 + (((2x + ~4) div (4 + (x div 4))) mod 2)))) div 2) div 2)
1: (((2 + (x div (1 + (loop(\(x,i).(2x + i),x,0) mod (x + 1))))) div 2) div 2)
1: (((x + (x div (2 + (x mod 5)))) div 2) div 2)
1: (((1 + (x div (2 - ((2 - (16 mod (x + 1))) div 2)))) div 2) div 2)
1: (((1 + (x div (2 - (x2 mod (1 + (x div 4)))))) div 2) div 2)
1: (((1 + (x div (2 - (((~x2 + 2x) div (x + 2)) mod 2)))) div 2) div 2)
1: (((1 + (x div (if (x + ~4) <= 0 then 1 else 2))) div 2) div 2)
1: ((((((x + 1) + (2 * (x div 3))) mod 4) + (x div 2)) div 2) div 2)
1: ((((x + 2) + ((x2 + 2x + 1) mod 5)) div 3) div 2)
1: (((x + ((x2 + 2x + 1) mod 10)) div 2) div 3)
1: (((2 + ((1 + (4 * (2 + (x mod (2 + (x mod 4)))))) mod (x + 1))) div 2) div 2)
1: (((2 + ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 12)) div 2) div 2)
1: (((2 + ((1 - (2 * ((if (x mod 3) <= 0 then 1 else x) mod 5))) mod (x + 1))) div 2) div 2)
1: (((x + ((~x2 + 1) mod 5)) div 2) div 2)
1: (((2 + ((1 - ((x2 + 2x) mod 7)) mod (x + 1))) div 2) div 2)
1: (((2 + ((1 - (loop(\(x,i).(2x + 1),x,0) mod (x + 1))) mod (x + 1))) div 2) div 2)
1: (((2 + ((1 - (x mod 9)) mod (x + 1))) div 2) div 2)
1: (((x + ((~x + 2) mod (1 + ((x + 1) div 2)))) div 2) div 2)
1: (((1 + ((~1 + (((x + 1) - ((x3 div 8) mod 2)) mod 3)) mod (x + 1))) div 2) div 2)
1: (((1 + ((~1 + (x mod 2) - ((1 + (8 mod (1 + (x div 2)))) div 2)) mod (x + 1))) div 2) div 2)
1: (((((x + ~1) mod 3) + (x div 2)) div 2) div (1 + (x mod 2)))
1: (((2 + (((x + ~1) + ((1 + (x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2))) mod 3)) mod (x + 1))) div 2) div 2)
1: (((2 + (((x + ~1) + ((x mod 2) + ((if x <= 0 then 1 else (~2 + ((x2 div 4) mod (x + 1)))) mod 3))) mod (x + 1))) div 2) div 2)
1: (((2 + ((x - (4 * (2 - (x mod (~2 + (x mod ~2)))))) mod (x + 1))) div 2) div 2)
1: (((2 + ((3 * (1 + ((if (x mod 3) <= 0 then 2 else 0) + (x mod 2)))) mod (x + 1))) div 2) div 2)
1: (((1 + ((7x + 7) mod 17)) div 2) div 2)
1: (((2 + ((2 * (1 + (8 * (x mod 2)))) mod (x + 1))) div 2) div 2)
1: (((2 + ((3 * (1 + (((x + 1) mod 13) div 2))) mod (x + 1))) div 2) div 2)
1: (((2 + ((2 * (2 - (x mod 4))) mod (x + 1))) div 2) div 2)
1: (((1 + ((x2 + ~x) mod ((x + 3) + (x div 4)))) div 2) div 2)
1: (((2 + ((9 * (1 + (x div 2))) mod (x + 1))) div 2) div 2)
1: (((2 + (x2 mod ((x + 1) + (3 * ((x mod (1 + ((~x + 2) mod 4))) div 2))))) div 2) div 2)
1: (((1 + (x2 mod (3 * (if (x + ~6) <= 0 then 1 else 2)))) div 2) div 2)
1: (((x + ((x div 4) mod 2)) div 2) div (1 + (x div 5)))
1: (((1 + (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) mod 13)) div 2) div 2)
1: (((2 + (loop(\(x,i).loop(\(x,i).(x div (~2 + (x mod 2))),x,(x + 1)),2,x) mod (x + 1))) div 2) div 2)
1: (((x + (x mod 3)) div 2) div ~2)
1: (((2 + (x mod 5)) div (1 + (((x + 1) div 2) mod 3))) div 2)
1: (((1 + (x mod (7 - (x div 3)))) div 2) div 2)
1: (((1 + (x mod (2 + ((4 + loop(\(x,i).3x,x,1)) mod (x + 1))))) div 2) div 2)
1: (((2 + (x mod (2 + ((1 + (4 * loop(\(x,i).2x,(x div 2),2))) mod (x + 1))))) div 2) div 2)
1: (((1 + (x mod (2 + ((6 * (1 + (2 * (x mod 2)))) mod (x + 1))))) div 2) div 2)
1: (((2 + (x mod 6)) div (1 + (x div 4))) div 2)
1: (((x + (x mod 8)) div 5) div 2)
1: (((1 + (x mod (2 * (2 + ((x + 2) mod (2 * (2 + (x mod 2)))))))) div 2) div 2)
1: ((((if (~2 + (x div 2)) <= 0 then 1 else (x + ~2)) + (x div 2)) div 2) div 2)
1: ((((if (x mod 2) <= 0 then 1 else x) + (x div 2)) div 2) div 2)
1: ((((if (x mod 2) <= 0 then 2 else x) + (x div 2)) div 2) div 2)
1: ((((if (x mod 2) <= 0 then (if (x mod 3) <= 0 then 1 else x) else 3) + (x div 2)) div 2) div 2)
1: (((1 + (if (x mod (2 + ((x + ~1) mod 3))) <= 0 then x else 0)) div 2) div 2)
1: (((x + (if (x mod 6) <= 0 then (2 + (x div 2)) else 1)) div 2) div 2)
1: (((1 + (if x <= 0 then 0 else ((x + 2) + (((3 * ((3 * (1 + ((1 + (x div (1 + ((if (x mod 2) <= 0 then 3 else ~2) mod (x + 1))))) div 2))) div 2)) div 2) div 2)))) div 2) div 2)
1: (((1 + loop(\(x,i).(4x + (((x + ((x div 2) mod 2)) div 2) + (if x <= 0 then 1 else 2x))),2,x)) div 2) div 2)
1: (((x + loop(\(x,i).((x + 2) + (x div 3)),x,1)) div 2) div 2)
1: (((1 + loop(\(x,i).(x + ((i div 3) + (x div 2))),x,1)) div 2) div 2)
1: (((x + loop(\(x,i).(2x + 1),x,2)) div 2) div 2)
1: (((x + loop(\(x,i).(x + (x div 2)),x,3)) div 2) div 2)
1: (((1 + loop(\(x,i).(x + (if (x + ~2) <= 0 then 1 else ((x2 + ~x) * i))),x,0)) div 2) div 2)
1: (((1 + loop(\(x,i).(x + ((if ((x + ~1) mod 3) <= 0 then 1 else x) + i)),x,1)) div 2) div 2)
1: (((x + loop(\(x,i).((3x + 1) - ((x + 1) div 5)),x,1)) div 2) div 2)
1: (((1 + loop(\(x,i).((2x + 2) - loop(\(x,i).2x,x,1)),1,(x div 2))) div 2) div 2)
1: (((1 + loop(\(x,i).(x - ((i - (x div 2)) div 2)),x,1)) div 2) div 2)
1: (((loop(\(x,i).7x,x,1) + loop(\(x,i).3x,x,1)) div 2) div 2)
1: ((((x2 + x) + loop(\(x,i).(2 * (x + (i mod 2))),x,1)) div 2) div 2)
1: (((1 + loop(\(x,i).(2x + 2),(x + ~1),(if x <= 0 then 1 else ((2 + (loop(\(x,i).3x,(x + ~1),1) + loop(\(x,i).2x,x,1))) div 2)))) div 2) div 2)
1: (((x + loop(\(x,i).(3x + ~6),(x + ~1),x)) div 2) div 2)
1: (((1 + loop(\(x,i).x3,x,5)) div 3) div 2)
1: (((1 + loop(\(x,i).2x,(1 + (x div 2) - (2 * (x mod 2))),2)) div 3) div 2)
1: (((2x + loop(\(x,i).2x,((x + ~1) div 2),1)) div 3) div 2)
1: (((2 + loop(\(x,i).2x,x,1)) div 5) div (1 + (x div 4)))
1: (((x + loop(\(x,i).2x,x,2)) div 2) div (x + 1))
1: (((1 + loop(\(x,i).x2,1,(1 + ((~1 + loop(\(x,i).((x + 1) + (((1 + i) * i) div 2)),x,1)) div 2)))) div 2) div 2)
1: (((1 + loop(\(x,i).x2,1,(1 + ((2 * (1 + (((1 + (loop(\(x,i).2x,(x + ~8),1) div 2)) div 2) div 2))) div 3)))) div 2) div 2)
1: (((2 + loop(\(x,i).x2,1,((x + ((x div 2) mod 2)) div 2))) div 3) div 2)
1: (((1 + loop(\(x,i).(x * i),(x + ~1),1)) div 2) div 2)
1: (((1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),x,(2x + 1))) div 2) div 2)
1: (((1 + loop(\(x,i).(x div (2 - ((x * (x div 2)) mod 2))),x,x)) div 2) div 2)
1: (((loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) + (loop(\(x,i).(2x + 2),x,0) mod (x + 1))) div 2) div 2)
1: (((loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) + (if (x mod 8) <= 0 then x else 1)) div 2) div 2)
1: (((x + 1) div 2) div (1 + ((2 + (x div 2)) div 3)))
1: (((x + 1) div 2) div (1 + (x div (4 + (x mod 4)))))
1: (((x + 1) div 2) div (2 + (((x + ~1) div 2) mod 2)))
1: (((x + 1) div 2) div (1 + (((x2 + 2x) div 2) mod 9)))
1: (((x + 1) div 2) div (1 + ((x div 2) mod (1 + (x mod (1 + ((~x + 2) mod 4)))))))
1: (((x + 1) div 2) div (1 + (x mod 3)))
1: (((x + 1) div 2) div (2 + (x mod (3 * (1 + (x mod 3))))))
1: (((x + 1) div 2) div (1 + i))
1: (((x + 1) div 2) div (2 - ((x mod 3) mod 2)))
1: (((x + 1) div 2) div ((x + 1) - (2 * ((2x + 2) div 5))))
1: (((x + 1) div 2) div (2 * ((2 - (x mod (~1 - loop(\(x,i).2x,((((1 + (8 mod (1 + (x div 2)))) div 2) + (if x <= 0 then 0 else 1)) - (x mod 2)),2)))) div 2)))
1: (((x + 1) div (2 + ((x * (x div 3)) mod (1 + ((2 - (x div 2)) mod 4))) - (x mod 2))) div 2)
1: (((x + 1) div (3 - ((x * (x div 2)) mod 2))) div 2)
1: (((x + 1) div (1 + ((loop(\(x,i).2x,x,x) mod (x + 1)) div 3))) div 2)
1: (((x + 1) div (1 + ((x mod (1 + (2 * (x mod 6)))) div 2))) div 2)
1: (((x + 1) div (2 + (x div 8))) div 2)
1: (((x + 1) div (2 + ((1 + ((x div 2) div 3)) mod 2))) div 2)
1: (((x + 1) div (2 + (((x - (x div 4)) div 2) mod 2))) div 2)
1: (((x + 1) div (2 + ((x2 div (2 - (x mod (1 + (x div 8))))) mod 3))) div 2)
1: (((x + 1) div (1 + (x mod (1 + ((x - ((2 + (x div 2)) div 3)) mod 3))))) div 3)
1: (((x + 1) div ((if (2 * ((2x + 1) mod (1 + (2x mod (2 + (x div 4)))))) <= 0 then (x + 1) else 0) + (x div 3))) div 2)
1: (((x + 1) div (2 - ((x div 2) mod 2))) div 2)
1: (((x + 1) div (2 * (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 8)))) div 2)
1: (((x + 1) div (2 * (1 + (x mod (2 * (2 - (x mod 2))))))) div 2)
1: (((x + 1) div (3 * ((if (x mod 2) <= 0 then 2 else x) mod 4))) div 2)
1: (((x + 1) div (if (x + ~2) <= 0 then 1 else 4)) div 2)
1: (((x + 1) div (if (x + ~2) <= 0 then 1 else (2 + (if (x mod 8) <= 0 then 2 else 0)))) div 3)
1: (((x + 1) div (if x <= 0 then 1 else (2 * (1 + ((1 + ((20 mod (x + 1)) div 2)) div 2))))) div 2)
1: (((x + 1) div (if x <= 0 then 1 else (2 * (2 + (x div 8))))) div (1 + (x mod 2)))
1: (((x + 2) div (2 + ((if ((x + ~2) mod 5) <= 0 then 0 else 1) + (x mod 2)))) div 2)
1: (((x + 2) div (1 + (2 * ((x + ~1) mod 5)))) div 3)
1: (((x + 2) div (1 + ((x + 1) mod 3))) div 2)
1: (((x + 2) div (2 + ((x div 2) mod 2))) div 3)
1: (((x + 2) div (1 + (x mod 3))) div 2)
1: (((x + 2) div (2 + (x mod (2 + (x div (2 * (2 + (x mod 2)))))))) div 2)
1: (((x + 2) div (1 + loop(\(x,i).(1 + (if (x mod 2) <= 0 then 6 else 1)),(x div 2),(x mod 2)))) div 2)
1: (((x + 2) div (2 - ((x div 2) mod 2))) div 2)
1: (((x + 2) div (2 - (x mod ~4))) div 3)
1: (((x + 2) div (2 - (x mod ~5))) div 3)
1: (((x + 2) div (if (~x + 2) <= 0 then 2 else 1)) div 3)
1: (((x + 2) div (if (~2 + (x div 2)) <= 0 then 1 else 2)) div 3)
1: (((x + 2) div (if ((x + 2) mod 16) <= 0 then 2 else 1)) div 2)
1: (((x + 2) div (if x <= 0 then 1 else (2 + (((x div 3) mod 2) + (x mod 2))))) div 2)
1: (((1 + compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),(x + 2))) div 3) div 2)
1: (((1 + compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),(x + 2))) div 3) div 3)
1: (((2 + compr(\x.(1 - loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),(x div 2),(x2 + 4x))),(x + 1))) div 3) div 2)
1: (((1 + compr(\x.((1 + ((4 * (1 + ((x + 1) div (2 + (x div 8))))) div 3)) mod 3),x)) div 2) div 2)
1: (((1 + compr(\x.(((((1 + (x div 2)) div 2) * (x div 2)) div 2) mod 3),x)) div 2) div 2)
1: (((0 - ((x + 1) * (x + (x div 2)))) div 2) div 2)
1: (((0 - (if (~2 + (x div 2)) <= 0 then x else 1)) div 2) div 2)
1: (((0 - loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1)) div 2) div 2)
1: (((1 - ((~x + (x2 div 3)) div 2)) div 2) div 2)
1: (((1 - (if x <= 0 then 2 else x)) div 2) div 3)
1: (((~x + 1) div (2 + (x div 3))) div 2)
1: ((((~x + 2) - i) div 2) div 3)
1: (((2 - (3 * ((x2 + x) div 2))) div 2) div 2)
1: (((2 - (((((x + 1) div 2) div 2) div 2) * ((x + 1) div 2))) div 2) div 2)
1: (((2 - (((x div 2) div 3) * ((x + ~1) div 2))) div 2) div 2)
1: (((2 - (x * ((x div 2) div 3))) div 2) div 2)
1: (((2 - ((x div ~4) * (x div 2))) div 2) div 2)
1: (((2 - ((x - (loop(\(x,i).2x,x,1) div (x + 1))) div 2)) div 2) div 2)
1: (((2 - ((~x2 + 2x) div 5)) div 2) div 2)
1: (((2 - ((x * (x div 2)) div 2)) div 2) div 2)
1: (((2 - (x div (x + ~16))) div 2) div 2)
1: (((2 - (x mod (4 - ((x2 div 2) + (2x mod (4 + (x div 4))))))) div 2) div 2)
1: (((2 - (if ((x + 1) mod (2 + ((x div 2) mod 2))) <= 0 then x else 1)) div 2) div 3)
1: (((~x + 2) div 2) div (1 + ((x div 2) mod 3)))
1: (((~x + 2) div 2) div (1 + (x mod 3)))
1: (((~x + 2) div 2) div (if (x mod 3) <= 0 then 1 else 2))
1: ((((~x + 4) + ((x + (loop(\(x,i).((x + 2) + ((x - (x div 4)) div 2)),x,2) div 2)) div 2)) div 2) div 2)
1: ((((~x + 1) + (2 * ((1 + (((1 + (loop(\(x,i).4x,(x + ~2),x) div 2)) div 2) div 2)) div 2))) div 2) div 2)
1: ((((~x + 1) + (2 * ((x3 + ~3x2 + 2x) div 9))) div 2) div 2)
1: ((((x2 + 2) - (2 * ((2 * (2x - (x mod 8))) - (x mod 4)))) div 2) div 2)
1: ((((x + ~1) + ((x * (x div 2)) div 3)) div 2) div 2)
1: (((~1 + (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))) div 2) div 2)
1: ((((3 * ((x2 + 2x) + (x mod 2))) - (x mod 3)) div 2) div 2)
1: (((37x2 + 74x + 36) div 2) div 2)
1: (((~1 + ((x + 1) * (2 + ((3x + ~3) * ((x2 + x) div 2))))) div 2) div 2)
1: (((~1 + (x * (1 + (2 * (if (~2 + (x div 2)) <= 0 then 2 else 0))))) div 2) div 2)
1: ((((3x2 + 3) - (x div 5)) div 2) div 2)
1: (((5x2 + 9) div 2) div (x + 5))
1: ((((2 * (1 + ((2 + (x mod 8)) mod (x + 1)))) - (x mod 3)) div 2) div 2)
1: ((((x2 + x) - ((~x2 + x) div 4)) div 2) div 2)
1: ((((x2 + 2x) - (x div 2)) div 2) div 2)
1: ((((x2 + 2x) - (x div 3)) div 2) div 2)
1: ((((x2 + 2x) - (x mod 4)) div 2) div 2)
1: ((((3 * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) - (x div 2)) div 2) div 2)
1: (((~2 + (7 * (~1 + (2 * (1 + ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (x + ((~x + 1) mod 4))) div 2)))))) div 2) div 2)
1: ((((x2 + ~x) - (x2 div 4)) div 2) div 2)
1: ((((x2 + ~x) - (((x3 + ~x) div 2) div 3)) div 2) div 2)
1: (((~x + (3 * (x - (2x div 5)))) div 2) div 2)
1: (((~1 + (6 * (3 + ((x + (x div 2)) div (4 + (x div 2)))))) div 2) div 2)
1: (((~1 + (6 * (1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (2 * ((x div 2) mod 2))) * (x div 4))))) div 2) div 2)
1: (((~1 + (6 * (1 + (2 * ((3 * (1 + ((4 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2)) div 3))) div 2))))) div 5) div 2)
1: (((~1 + (6 * (1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div (1 + (x mod 5)))))))) div 2) div 2)
1: (((~1 + (6 * (1 + (2 * loop(\(x,i).((4x * i) - (x mod 2)),x,1))))) div 2) div 2)
1: (((~1 + (6 * (1 + (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) + (if (x + ~2) <= 0 then 1 else 2) + (x div 5)) div 2)))) div 2) div 2)
1: (((~1 + (6 * (1 + ((1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (2 * (x mod (2 * (2 + (x div 5)))))))) div 2)))) div 2) div 2)
1: (((~1 + (6 * (1 + ((1 + ((1 + ((((x + 1) * (0 + (((2 * (1 + ((1 + (x div (1 + (x mod (1 + (loop(\(x,i).2x,x,2) mod (2x + 1))))))) div 2))) div 3) + (x mod 2)))) div 2) div 2)) div 2)) div 2)))) div 2) div 2)
1: (((~1 + (6 * (1 + ((1 + (((1 + (((x + 1) * (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))))) div 2)) div 2) div 2)) div 2)))) div 2) div 2)
1: (((~1 + (6 * (1 + ((1 + (((~1 + (6 * (1 + (((~1 + (6 * (1 + ((1 + (((1 + (((x + 1) * (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))))) div 2)) div 2) div 2)) div 2)))) div 2) div 2)))) div 2) div 2)) div 2)))) div 2) div 2)
1: (((~1 + (6 * (1 + ((1 + ((loop(\(x,i).2x,x,2) mod (x + 1)) div 2)) div 2)))) div 2) div 2)
1: (((~1 + (6 * (1 + ((1 + ((x mod (1 + (x div (if (x mod 2) <= 0 then 4 else 1)))) div 2)) div 2)))) div 2) div 2)
1: (((~1 + (6 * (1 + ((1 + (x div (3 + ((x mod (1 + (x div (2 + ((x + 1) mod 5))))) div 2)))) div (1 + (x div 4)))))) div 2) div 2)
1: (((~1 + (6 * (1 + ((1 + (x div (1 + (x mod (1 + (x mod (1 + (x div (2 * (2 - (x mod 2))))))))))) div 2)))) div 2) div 2)
1: (((~1 + (6 * (1 + ((2 + ((~3x + 5) mod (1 + (x div 2)))) div 3)))) div 2) div 2)
1: (((~1 + (6 * (1 + ((1 + (x mod (1 + (2 * ((x + 2) mod (2 * (1 + (x mod 2)))))))) div 3)))) div 2) div 2)
1: (((~1 + (6 * (1 + ((1 + (x mod (1 + (((x mod 5) * (x div 4)) div 2)))) div 2)))) div 2) div 2)
1: (((~1 + (6 * (1 + ((1 + (x mod (2 + ((1 + ((if ((x * (x mod 3)) mod 5) <= 0 then 1 else 2) * (1 + (x mod 2)))) mod (x + 1))))) div 3)))) div 2) div 2)
1: (((~1 + (6 * (1 + ((1 + (if ((x + 1) mod (3 - (x mod 2))) <= 0 then x else 1)) div 2)))) div 2) div 2)
1: (((~1 + (6 * (1 + ((2 * (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) + ((2x + 1) div (3 + (x div 4)))))) div 3)))) div 2) div 2)
1: (((~1 + (6 * (1 + ((2 * (2 + ((1 + (2 * (loop(\(x,i).(x * (~1 + (2 * i))),x,~2) mod (x + 1)))) * (x mod 2)))) div 3)))) div 2) div 2)
1: (((~1 + (6 * (2 + ((3 * ((x + 1) - ((x div 2) mod 2))) div 2)))) div 2) div 2)
1: (((~1 + (6 * (1 + (((3x + ~6) * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) div 2)))) div 2) div 2)
1: (((~1 + (6 * (1 + (((~1 + (6 * (1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div (1 + (x mod 5)))))))) div 2) div 2)))) div 2) div 2)
1: (((~1 + (6 * (1 + (((~1 + (6 * (1 + ((1 + (((1 + (((x + 1) * (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))))) div 2)) div 2) div 2)) div 2)))) div 2) div 2)))) div 2) div 2)
1: (((~1 + (6 * (1 + (((~1 + (6 * (1 + ((1 + ((loop(\(x,i).2x,x,2) mod (x + 1)) div 2)) div 2)))) div 2) div 2)))) div 2) div 2)
1: (((~1 + (6 * (1 + (((~1 + (6 * (1 + ((1 + (if ((x + 1) mod (3 - (x mod 2))) <= 0 then x else 1)) div 2)))) div 2) div 2)))) div 2) div 2)
1: (((~1 + (6 * (1 + (((3 * (1 + ((((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (4 * (1 + ((1 + (x div 2)) div 2))))) div 2) div 2))) div 2) div 2)))) div 2) div 2)
1: (((~1 + (6 * (1 + (((3 * ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (2 + (x div (1 + (2 * (1 + (2 * ((x div 2) mod 2))))))))) div 2) div 2)))) div 2) div 2)
1: (((~1 + (6 * (1 + ((loop(\(x,i).(8x + 10),x,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2) div 3)))) div 2) div 2)
1: (((~1 + (6 * (1 + ((x div 2) div (1 + (x mod (2 * (1 + (x mod (1 + ((2 - (x div 2)) mod 4))))))))))) div 2) div 2)
1: (((~1 + (6 * (1 + (((x + 1) mod (2 + ((((x + 1) div 2) div 3) + (if x <= 0 then 0 else 1)))) div 2)))) div 2) div 2)
1: (((~1 + (6 * (1 + ((if x <= 0 then 2 else (1 + ((x + 3) mod (1 + (x div 4))))) div 2)))) div 2) div 2)
1: (((~1 + (6 * (1 + (x div (4 + (x div (1 + ((x + ~1) mod 5)))))))) div 2) div 2)
1: (((~1 + (6 * (1 + (x div (3 + ((~1 + loop(\(x,i).(if x <= 0 then i else (x div 2)),x,2)) mod (x + 1))))))) div 2) div 2)
1: (((~1 + (6 * (1 + (x div (2 + (x div (2 + (((x + 2) mod 5) div 2)))))))) div 2) div 2)
1: (((~1 + (6 * (1 + (x div (2 + (x div (2 + ((x * (x div 2)) mod 2)))))))) div 2) div 2)
1: (((~1 + (6 * (1 + ((~2 + (x mod 2)) mod (~1 + ((~2x + 2) mod (4 + (x div 4)))))))) div 2) div 2)
1: (((~1 + (6 * (1 + ((x * (x div 2)) mod (1 - ((~x + 2) div 8)))))) div 2) div 2)
1: (((~1 + (6 * (1 + (if ((x mod 7) mod 3) <= 0 then (x mod 3) else 1)))) div 2) div 2)
1: (((~1 + (6 * (1 + (if x <= 0 then 0 else (1 + ((2 * (1 + ((1 + (x div (1 + (x mod ((x + 1) - (loop(\(x,i).2x,x,2) mod (x + 1))))))) div 2))) div 3)))))) div 2) div 2)
1: (((~1 + (6 * (1 + loop(\(x,i).(x + (if (i mod (2 + (x mod 2))) <= 0 then 1 else x)),x,0)))) div 2) div 2)
1: (((~1 + (6 * (1 + loop(\(x,i).(if x <= 0 then 2 else (2 * (2x - (x div (1 + i))))),x,0)))) div 2) div 2)
1: (((~1 + (6 * (~1 + (6 * (1 + (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(9x + 1))),x))))))) div 2) div 2)
1: (((x4 + ~x2 + ~1) div 2) div 3)
1: ((((8 * ((2x + 1) div (3 + (x div 4)))) - (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)) div 2) div 2)
1: (((~1 + (6 * ((1 + (loop(\(x,i).3x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 3)) mod (x + 4)))) div 2) div 2)
1: (((x4 + ~1) div 2) div 2)
1: (((x4 + ~1) div (x + 2)) div 2)
1: (((x4 - ((x2 + ~2x) div 2)) div 2) div 2)
1: (((~1 + (3 * (x2 div 2))) div 2) div 2)
1: (((~x + ((x + 2) * (x div 2))) div 2) div 2)
1: (((((x + ~2) * (x div 3)) - (x div 2)) div 2) div 2)
1: (((~1 + ((x + 1) * (if (x div 2) <= 0 then 1 else ((if (x mod 2) <= 0 then 2 else x) div 2)))) div 2) div 2)
1: (((~1 + (2 * (if x <= 0 then 1 else (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (1 + (x div 5)))))) div 2) div 2)
1: (((~1 + ((x + 1) * loop(\(x,i).(2 * (x + (x div (4 + i)))),x,1))) div 2) div 2)
1: (((~1 + (3 * loop(\(x,i).10x,x,(x + 1)))) div 2) div 2)
1: (((x2 + ~1) div 2) div (2x + 5))
1: (((x2 + ~1) div 2) div (if (x + ~2) <= 0 then 1 else 2))
1: (((x2 + ~2) div 3) div 3)
1: (((x2 + ~2) div (4 + (x div 2))) div 2)
1: ((((x2 + ~x + ~1) - ((x2 + 2x) div 5)) div 2) div 2)
1: ((((x2 + ~1) - ((2 * (1 + ((1 + ((1 + loop(\(x,i).(x + (i * i)),(x + ~1),x)) div 2)) div 2))) div 3)) div 2) div 2)
1: ((((x2 + ~1) - ((((x3 + ~3x2 + 2x) div 2) div 2) div 3)) div 2) div 2)
1: (((x2 - (3 * ((x2 + ~x) div 4))) div 2) div 2)
1: (((x2 - (((x mod 2) - (x div 2)) div 2)) div 2) div 2)
1: (((x2 - ((x + ~1) div 2)) div 2) div 2)
1: (((x2 - ((~x2 + 2x) div 4)) div 2) div 2)
1: (((x2 - ((x div 2) div ~2)) div 2) div 2)
1: (((x2 - (x div 2)) div 2) div 2)
1: (((x2 - ((1 + (x div 4)) mod 2)) div 2) div 2)
1: (((x2 - ((x div 4) mod 2)) div 2) div 2)
1: (((x2 - (if (~2 + (x div 2)) <= 0 then 1 else 2)) div 2) div 2)
1: (((x2 - (if x <= 0 then 0 else 1)) div 2) div 2)
1: (((x2 - (if x <= 0 then 0 else 1)) div 2) div 3)
1: (((x2 - (if x <= 0 then 1 else (~1 + (3 * ((~x2 + 1) mod 8))))) div 2) div 2)
1: (((x2 - loop(\(x,i).(x * i),x,1)) div 2) div 2)
1: (((~1 + (2 * compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(2x div 3)),(x + 1)))) div 2) div 2)
1: (((((x + ~1) div 2) - (x2 div 2)) div 2) div 2)
1: (((~1 + ((x * (x + (x div 2))) div 2)) div 2) div 2)
1: (((~1 + ((x2 + ~x) div 4)) div 2) div 2)
1: (((~1 + (((x + ~1) * (x div 2)) div 2)) div 2) div 3)
1: (((~1 + ((x * (x mod (2 + (x div 2)))) div 4)) div 2) div 2)
1: ((((x2 div 2) - (x div 3)) div 2) div 2)
1: ((((x2 div 2) - (x div 3)) div 2) div 3)
1: ((((x2 div 2) - (x mod 2)) div 2) div 3)
1: (((~x + (x2 div 3)) div 2) div 7)
1: (((~1 + ((((~x + 1) * (x div 2)) div 2) div 3)) div 2) div 2)
1: ((((~x2 + ~2x) + ((x2 div 2) div 3)) div 2) div 2)
1: (((~1 + (x div 2)) div 2) div 3)
1: (((~1 + (x div 2)) div 2) div (~1 + (2 * (x mod 8))))
1: ((((x div 2) - ((~x2 + x) div 5)) div 2) div 2)
1: (((~1 + (x div 3)) div 2) div 2)
1: ((((x div 3) - ((x div 2) mod 2)) div 2) div 2)
1: (((~1 + (16 mod (x + 1))) div 2) div 3)
1: (((~x + ((x div 4) mod 2)) div 2) div ~2)
1: (((((if x <= 0 then 1 else x) mod 2) - loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2) div 2)
1: (((~x + (x mod 3)) div 2) div ~2)
1: (((~2 + (x mod (~x2 + 2))) div 2) div 2)
1: (((~1 + (if (2 - (2x mod (4 + (x div 4)))) <= 0 then 0 else (x2 + ~x))) div 2) div 2)
1: (((~1 + (if (x mod (4 + (x div 2))) <= 0 then 1 else x)) div 2) div 2)
1: ((((if x <= 0 then 1 else (2 * (1 + ((1 + (loop(\(x,i).2x,(x + ~7),1) div 2)) div 2)))) - (x mod 2)) div 2) div 2)
1: (((~x + (if x <= 0 then 1 else (2 * (if x <= 0 then 1 else ((x2 + 2) + loop(\(x,i).(2 * (x + (x div 2))),x,1)))))) div 2) div 2)
1: (((~1 + loop(\(x,i).(3x + ((x2 + 2x) div 3)),x,1)) div 2) div 2)
1: (((~x + loop(\(x,i).((x2 + x) + i),x,0)) div 2) div 2)
1: (((loop(\(x,i).(x2 + x),1,loop(\(x,i).(x * i),x,1)) - loop(\(x,i).3x,x,1)) div 2) div 2)
1: (((loop(\(x,i).4x,x,1) - loop(\(x,i).~3x,x,1)) div 2) div 3)
1: (((loop(\(x,i).4x,x,2) - loop(\(x,i).3x,x,1)) div 2) div 2)
1: (((loop(\(x,i).2x,x,2) - loop(\(x,i).(x * i),(x div 2),1)) div 2) div 2)
1: (((x + ~1) div 2) div (1 + (2 * (2 + (x mod 2)))))
1: (((x + ~1) div 2) div (1 + ((x + ~1) mod 5)))
1: (((x + ~1) div 2) div (2 * (1 + (x div 8))))
1: (((x + ~1) div (2 * (2 + ((x div 3) mod 3)))) div 2)
1: ((((x + 1) - ((1 + (x mod 3)) * (x mod 3))) div 2) div 2)
1: ((((x + 1) - (2 * (~x + (x mod 10)))) div 2) div 2)
1: ((((x + 1) - (x * ((x div 2) div 5))) div 2) div 2)
1: ((((x + 1) - (5 * (x div ~7))) div 2) div 2)
1: ((((x + 1) - ((x + 1) div (1 + (10 mod (x + 1))))) div 2) div 2)
1: ((((x + 1) - ((((~x + 2) div 2) * (x div 3)) div 2)) div 2) div 2)
1: (((x + (3 * (if (x mod 8) <= 0 then 1 else 2)) - (x div 2)) div 2) div 2)
1: ((((x + 1) - ((x + 1) mod 3)) div 2) div 2)
1: ((((x + 2) - (((1 + (x div 2)) div 2) mod 4)) div 2) div 2)
1: ((((x + 1) - ((x div 2) mod 3)) div 2) div 2)
1: ((((x + 1) - ((x div 2) mod ~5)) div 2) div 2)
1: ((((x + 1) - (x mod (2 * (4 - (x mod 3))))) div 2) div 2)
1: ((((x + 1) - loop(\(x,i).((x + 1) + ((x + (x div 2)) div 4)),x,0)) div 2) div 2)
1: ((((x + 1) - loop(\(x,i).(if x <= 0 then i else (x div 2)),x,2)) div 2) div 2)
1: (((~x2 + ~3x + ~4) div 2) div 5)
1: (((x - ((2 - ((x div 2) mod 2)) * (x div 3))) div 2) div 2)
1: (((x - (5 * ((x2 + 2x) div 12))) div 2) div 2)
1: (((x - (2 * (loop(\(x,i).(x + 2),(x + ~8),x) div 3))) div 2) div 2)
1: (((x - (x * loop(\(x,i).((x2 + ~x) div 2),2,(x + ~2)))) div 2) div 3)
1: (((x - ((x2 + (x div 2)) div 2)) div 2) div 2)
1: (((x - ((x + 2) div (2 + (x mod 2)))) div 2) div 2)
1: (((x - ((2 - ((x + 1) div (2 * (2 - ((x div 4) mod 2))))) div 2)) div 2) div 2)
1: (((x - ((2 - (16 mod (x + 1))) div 2)) div 2) div 2)
1: (((x - ((x2 - (x div ~2)) div 2)) div 2) div 2)
1: (((x - ((x - (3 * ((~x * (x div 2)) div 2))) div 2)) div 2) div 2)
1: (((x - ((~x2 + x) div 8)) div 2) div 2)
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1: (((x - (((~x + 2) * (x div 2)) div 8)) div 2) div 2)
1: (((x - ((x2 + ~x) div 3)) div 2) div 5)
1: (((x - ((2x2 + 4x) div 9)) div 2) div 2)
1: (((x - (x3 div (x + 12))) div 2) div 2)
1: (((x - (x3 div (~2 + (x mod ~2)))) div 2) div 2)
1: (((x - (x3 div (x + ~49))) div 2) div 2)
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1: (((x - ((x div 3) mod 4)) div 2) div 2)
1: (((x - (loop(\(x,i).(3x + 3),x,2) mod (x + 1))) div 2) div 2)
1: (((x - (x mod (2 + (x div 4)))) div 2) div 2)
1: (((x - (x mod (~2 - (x div 3)))) div 2) div 2)
1: (((x - (x mod (2 * (1 + (x mod 3))))) div 2) div 2)
1: (((x - (if (~2 + (x div 2)) <= 0 then 1 else 0)) div 2) div 2)
1: (((x - loop(\(x,i).(x2 + 1),x,2)) div 2) div 2)
1: (((x - loop(\(x,i).(x - (if x <= 0 then 1 else (2 * (1 + i)))),x,2x)) div 2) div 2)
1: (((x - loop(\(x,i).(if x <= 0 then i else (x + ~3)),x,0)) div 2) div 2)
1: (((4x + ~4) div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2)
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1: (((3 * ((5x + 5) - ((((x div 2) mod 2) - (if (~x + 2) <= 0 then x else 0)) div 2))) div 2) div 2)
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1: ((((x + 1) * (7 + ((((x + ~1) + (x div 2)) div 2) div 2))) div 2) div 2)
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1: (((3 * ((2x + 1) + (2 * (((2x + 1) + (2 * ((8x + 1) div (1 + (if x <= 0 then 0 else 2))))) div 3)))) div 2) div 2)
1: (((3 * ((2x + 1) + (2 * ((3 * (x + ((x div 2) div 5))) div 2)))) div 2) div 2)
1: ((((x + 1) * (6 + ((x + 1) div (5 * (1 + (x mod 3)))))) div 2) div 2)
1: ((((x + 1) * (6 + (((x + 1) * ((x + 1) + (x mod 2))) div (1 + (x div 3))))) div 2) div 2)
1: ((((x + 1) * ((2x + 2) + ((2x2 + 9x + 10) div 3))) div 2) div 2)
1: ((((x + 1) * (6 + ((3 * ((12x + 12) div 5)) div 2))) div 2) div 2)
1: ((((x + 1) * ((2x + 1) + ((x mod 2) + (x mod ~3)))) div 2) div 3)
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1: ((((x + 1) * (5 + (if (6 mod (x + 1)) <= 0 then 1 else 2))) div 2) div 2)
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1: ((((x + 1) * ((x + 4) - (x div ~14))) div 2) div 2)
1: (((x * ((14x + 9) + (x div 2))) div 2) div 2)
1: (((28x2 + 105x + 98) div 2) div 2)
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1: (((3 * ((x + 1) + (2 * (x + (((x div 2) div 3) mod 2))))) div 2) div 2)
1: ((((x + 1) * (4 + ((2 + (x mod 2)) * (x div 2)))) div 2) div 2)
1: ((((x + 1) * ((x + 1) + (2 * (((((x + 1) * (4 + (x div 2))) div 2) div 2) div 2)))) div 2) div 2)
1: ((((x + 2) * (4 + (((x + 1) + ((((x + ~1) div 2) div 2) + (x mod 4))) div 2))) div 2) div 2)
1: (((3 * (2x + ((2 + (x2 div 2)) div (x + 2)))) div 2) div 2)
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1: (((3 * ((x + 2) + (x2 div 4))) div 2) div 2)
1: (((3 * ((x + 2) + (((3x2 + 16x + 16) div 2) div 3))) div 2) div 2)
1: (((3 * (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) + ((2x + 1) div (3 + (x div 4)))))) div 2) div 2)
1: ((((x + 1) * (4 + (loop(\(x,i).(2x - (i mod 2)),(x + ~1),1) div 2))) div 2) div 2)
1: ((((x + 1) * (1 + ((loop(\(x,i).2x,x,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2) + (x mod 2)))) div 2) div 2)
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1: ((((x + 4) * ((x + 1) + (x div 2))) div 2) div 2)
1: ((((x + 1) * ((x + 2) + (x div 4))) div 2) div 5)
1: ((((x + 1) * ((x + 2) + (x div 5))) div 2) div 2)
1: ((((x + 2) * ((x + 2) + (x div 7))) div 2) div 2)
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1: ((((x + 1) * (4 + (x div (3 * (if (x + ~6) <= 0 then 1 else 2))))) div 2) div 2)
1: ((((x + 2) * ((x + 2) + (2 mod (x + 1)))) div 2) div 2)
1: (((3 * (1 + (((1 + (x mod ((1 + (x mod (1 + (x div 4)))) * (1 + (x mod 2))))) mod (x + 1)) + (x mod 2)))) div 2) div 2)
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1: ((((x + 2) * (4 + (if x <= 0 then 1 else ((x + 2) + ((x + (x div 3)) div 3))))) div 2) div 2)
1: (((3 * ((x + 1) + loop(\(x,i).(x + (x div (~1 + (4 * (1 + i))))),2,x))) div 2) div 2)
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1: (((3x2 + 7x + 2) div 2) div 2)
1: (((3x2 + 8x + 4) div 2) div 3)
1: (((5x2 + 4x) div 2) div (x + 6))
1: (((5x2 + x) div 2) div (x + 4))
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1: (((x3 + 15x2 + 44x + 30) div 2) div 3)
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1: (((x6 + x3 + 2x2 + 2x) div 2) div 3)
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1: (((49x2 + 99x + 50) div 5) div 8)
1: (((19x2 + 51x + 32) div 2) div 7)
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1: ((((2x + 3) * ((8x + 2) + (x div 3))) div 2) div 3)
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1: (((3 * (1 + ((3 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)) div 2))) div 2) div 2)
1: ((((x + ~1) * (1 + ((x * (x div 2)) div 4))) div 2) div 2)
1: ((((2 + ((x * (x mod 2)) div 2)) * (2 + (x div 2))) div 2) div 2)
1: (((3 * (1 + (((x mod (x - ((x + ~1) mod 8))) * (1 + (x div 4))) div 2))) div 2) div 2)
1: (((3 * (1 + (2x div (1 + (x div 4))))) div 2) div 2)
1: ((((x + ~2) * (2 + (x2 div 2))) div 2) div 2)
1: ((((x + 2) * (2 + (x2 div 3))) div 2) div 2)
1: ((((x + (x2 div 3)) * (2 + (x div 2))) div 2) div 2)
1: ((((2x + 3) * (1 + (x2 div 4))) div 2) div 2)
1: (((x * (2 + (x2 div 4))) div 2) div 2)
1: (((x * (1 + (x2 div (x + 5)))) div 2) div 2)
1: (((3 * (x + (x2 div ((x + 2) + (x div 2))))) div 2) div 2)
1: (((5 * (x + (x2 div (4x + 5)))) div 2) div 2)
1: (((3 * (2 + (x2 div 24))) div 2) div 2)
1: (((3 * (2 + (x2 div 32))) div 2) div 2)
1: (((3 * (1 + (((1 + ((x * ((x + 1) + (2 * ((x + (x div 2)) div 4)))) div 2)) div 2) div 2))) div 2) div 2)
1: ((((x + 1) * (1 + (((1 + (x div 2)) div 2) div 2))) div 2) div 2)
1: (((x * (1 + (((x + 1) div 2) div 3))) div 2) div 5)
1: (((5 * ((2x + 2) + (((x + 1) div 2) div 3))) div 2) div 2)
1: (((3 * (1 + (((~1 + (6 * (1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (2 * ((x div 2) mod 2))) * (x div 4))))) div 2) div 2))) div 2) div 2)
1: (((3 * (1 + (((~1 + (6 * (1 + (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) + (if (x + ~2) <= 0 then 1 else 2) + (x div 5)) div 2)))) div 2) div 2))) div 2) div 2)
1: (((x * (1 + (((x + ~1) div 2) div 3))) div 2) div 2)
1: (((x * (2 + (((x2 + 2x) div 2) div 3))) div 2) div 3)
1: (((3 * (2 + ((((x + 1) * (~1 - (x div 4))) div 2) div 2))) div 2) div 2)
1: (((x * (2 + (((x2 + ~x) div 2) div 3))) div 2) div 2)
1: (((3 * (1 + (((x2 + ~4x + 4) div 2) div (x + 3)))) div 2) div 2)
1: (((3 * (1 + ((((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (4 * (1 + ((1 + (x div 2)) div 2))))) div 2) div 2))) div 2) div 2)
1: ((((x + 1) * (2 + ((((x + 1) div (2 - ((x * (x div 2)) mod 2))) div 2) div 2))) div 2) div 2)
1: (((9 * (1 + ((((((x + 1) * (~1 + ((~2x + 2) mod (4 + (x div 4))))) div 2) div 2) div 2) div 2))) div 2) div 2)
1: (((7 * (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) div (if ((x + 2) mod 5) <= 0 then 2 else 1)))) div 2) div 2)
1: (((x * (1 + ((loop(\(x,i).((x + 1) - ((~x + 1) div 3)),x,1) div 2) div 2))) div 2) div 2)
1: (((7 * (x + ((x div 2) div 3))) div 2) div 2)
1: ((((x + ((x div 2) div 3)) * (1 + (x div 2))) div 2) div 2)
1: (((3 * (1 + ((x div 2) div (1 + (x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4)))))))))) div 2) div 2)
1: (((3 * (1 + (((x + 1) mod ((x + 3) - (2x mod (4 + (x div 4))))) div 3))) div 2) div 2)
1: (((5 * (1 + (((1 mod (1 - (2x mod (4 + (x div 4))))) mod (x + 1)) div 2))) div 2) div 2)
1: (((3 * (2 + ((loop(\(x,i).2x,x,(if ((x + (x div 2)) mod 4) <= 0 then 1 else 2)) mod (x + 1)) div 2))) div 2) div 2)
1: (((5 * (1 + ((if ((if x <= 0 then 1 else (x div ((if (x mod 2) <= 0 then 2 else x) mod 4))) mod 2) <= 0 then x else 1) div 3))) div 2) div 2)
1: (((5 * (1 + (loop(\(x,i).3x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 3))) div 2) div 2)
1: (((5 * (1 + (loop(\(x,i).(3x + 3),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2))) div 2) div 2)
1: ((((x + 1) * (2 + (loop(\(x,i).(x * ((1 + i) div 2)),x,1) div 3))) div 2) div 2)
1: (((x * (x + (loop(\(x,i).(x * i),x,1) div (x + 2)))) div 2) div 3)
1: (((3 * (1 + (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,x2) div 3))) div 2) div 2)
1: (((5 * (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2))) div 2) div 3)
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1: ((((x + 1) * (2 + (x div 2))) div 2) div 2)
1: ((((2 + (x div 2)) * (x div 2)) div 2) div 2)
1: ((((2 + (x div 2)) * (x div 3)) div 2) div 2)
1: (((x * (2 + (x div 2))) div 4) div 5)
1: ((((x + ~1) * (x + (x div 2))) div 2) div (x + 3))
1: ((((x + ~1) * (x + (x div 2))) div (x + 2)) div 2)
1: (((x * (x + (x div 2))) div 2) div (x + 3))
1: (((x * (x + (x div 2))) div 2) div 9)
1: ((((x + 1) * (1 + (x div 3))) div 2) div 3)
1: ((((x + 2) * (1 + (x div 3))) div 2) div 2)
1: (((x * (1 + (x div 3))) div 2) div 2)
1: ((((1 + (x div 4)) * (1 + (x div 2))) div 2) div 2)
1: ((((x + 2) * (2 + (x div 4))) div 2) div 2)
1: ((((~x + 2) * (2 + (x div 4))) div 2) div 2)
1: ((((2 + (x div 4)) * ((x + 1) div 3)) div 2) div 2)
1: ((((x + ~1) * (1 + (x div 5))) div 2) div 2)
1: (((3 * ((x div 5) + (x div 3))) div 2) div 2)
1: (((9 * (x + (x div 5))) div 2) div 2)
1: ((((x + ~1) * (x + (x div 5))) div 2) div 2)
1: ((((x + 1) * (1 + (x div (4 + (x mod (2 + (x mod 2))))))) div 2) div 2)
1: (((3 * (x + (x div 7))) div 2) div 2)
1: ((((x + 1) * (2 + (x div (2 + ((x div 2) div 3))))) div 2) div 2)
1: (((3 * (1 + (x div (1 + ((~1 + loop(\(x,i).2x,x,(2 + (x mod 2)))) mod (x + 1)))))) div 2) div 2)
1: (((5 * (1 + (x div (2 + (loop(\(x,i).(2x + 2),x,1) mod (x + 1)))))) div 2) div 2)
1: (((x * ((x div (2 + (x mod 2))) + (x div 2))) div 2) div 2)
1: (((5 * (1 + (x div (1 + (x mod (2 + (x div (1 + (2 * ((x mod (~1 + (2 * (x div 3)))) mod 2)))))))))) div 2) div 2)
1: (((3 * (1 + (x div (1 + (x mod (1 + (loop(\(x,i).(x2 + 2x),1,(loop(\(x,i).(2x + 1),x,0) mod (x + 1))) mod (x + 1)))))))) div 2) div 2)
1: (((3 * (1 + (x div (1 + (x mod (1 + (x mod (2 + (x div (3 - (x mod 2))))))))))) div 2) div 2)
1: (((3 * (1 + (x div (1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1))))) div 2) div 2)
1: (((5 * (x + (x div 8))) div 2) div 2)
1: ((((x + 2) * (x + (x div 8))) div 2) div 2)
1: (((3 * (1 + (x div (if (x mod 4) <= 0 then (2 + ((x mod 3) div 2)) else 1)))) div 2) div 2)
1: (((3 * (1 + (((5 * (if x <= 0 then 1 else 2)) + (x div 7)) mod 9))) div 2) div 2)
1: (((3 * (1 + ((11x + 10) mod 15))) div 2) div 2)
1: ((((1 + ((2x + 1) mod (1 + (2x mod (2 + (x div 4)))))) * (1 + (x div 4))) div 2) div 2)
1: ((((x + 1) * (x + ((1 + (x mod 8)) mod (x + 1)))) div 2) div 2)
1: ((((x + 1) * (2 + ((2 + (x mod 8)) mod (x + 1)))) div 2) div 2)
1: (((x * (2 + ((2 + (x mod 8)) mod (x + 1)))) div 2) div 2)
1: (((3 * (x + ((~x + 1) mod 3))) div 2) div 2)
1: ((((x + 1) * (((x + ~1) mod 3) + (x div 3))) div 2) div 3)
1: ((((x + 1) * (x + ((x + ~1) mod 3))) div 2) div 2)
1: (((3 * (1 + ((19x + 19) mod 11))) div 2) div 2)
1: (((3 * (1 + ((x2 + x) mod 7))) div 2) div 2)
1: ((((2 + ((x * (x div 2)) mod 2)) * (x div 2)) div 2) div 2)
1: ((((x + 1) * (1 + (2x mod (1 + (x div 2))))) div 2) div 2)
1: ((((x + 1) * (2 + (((~x + 3) div 3) mod (x + 1)))) div 2) div 2)
1: ((((x + 1) * (x + ((x div 2) mod 2))) div 2) div 2)
1: (((x * (x + ((x div 2) mod 3))) div 2) div (x + 5))
1: (((3 * (2 + ((x div ~4) mod (x + 2)))) div 2) div 2)
1: ((((x + 1) * (1 + ((2x mod (2 + (x div 3))) mod 2))) div 2) div 2)
1: (((3 * (1 + ((if ((x div 4) mod 2) <= 0 then x else ~x) mod 8))) div 2) div 2)
1: ((((x + 1) * (2 + ((if (x mod 2) <= 0 then (x + 3) else x) mod (x + 1)))) div 2) div 2)
1: ((((x + 1) * (x + (x mod 3))) div 2) div 2)
1: ((((1 + (x mod 4)) * (1 + (x div 3))) div 2) div 2)
1: (((3 * (1 + (x mod (1 + (3 * ((x + 2) mod 5)))))) div 2) div 2)
1: ((((1 + (x mod (1 + (x div 3)))) * (x div 2)) div 2) div 2)
1: ((((1 + (x mod (2 + ((x + ~1) mod 3)))) * (1 + (x div 4))) div 2) div 2)
1: (((x * (1 + (x mod (2 + (x mod 2))))) div 2) div 3)
1: ((((x + 1) * (1 + (x mod (1 + (x mod 4))))) div 2) div 2)
1: (((x * (1 + (x mod (1 + (x mod (1 + ((~1 + (2 * ((1 + (((x2 + x) * (if (x mod 2) <= 0 then 4 else 1)) div 2)) div 3))) mod (x + 1)))))))) div 2) div 2)
1: (((x * (1 + (x mod ~3))) div 2) div 2)
1: ((((x + 1) * ((3x + 3) + (if (~2 + (x div 2)) <= 0 then 1 else 0))) div 2) div 2)
1: ((((x + 1) * ((if (~2 + (x div 4)) <= 0 then 1 else 2) + (x div 3))) div 2) div 2)
1: ((((x + 2) * (x + (if (x + ~2) <= 0 then 1 else x))) div 2) div 2)
1: (((5 * (x + (if (x + ~4) <= 0 then 1 else 2))) div 2) div 2)
1: ((((x + 1) * (x + (if (x + ~6) <= 0 then 1 else 0))) div 2) div 2)
1: (((3 * (1 + (if (2x mod (4 + (x div 4))) <= 0 then (2 + (if x <= 0 then 0 else (x + 2))) else 0))) div 2) div 2)
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1: (((3 * (x + (if (x mod 2) <= 0 then (1 - (2 * (x mod 4))) else x))) div 2) div 2)
1: ((((x + 1) * (1 + (if (x mod 2) <= 0 then x else ((1 + (x div 2)) mod 2)))) div 2) div 2)
1: (((x * (x + (if (x mod 3) <= 0 then 2 else 1))) div 2) div 2)
1: ((((x + 1) * (1 + (if (x mod 5) <= 0 then 0 else 2))) div 2) div 2)
1: (((3 * (1 + (if (x mod 9) <= 0 then 0 else x))) div 2) div 2)
1: (((3 * (2 + (if (x mod (1 - (2 * ((~x + 1) div (2 + (x div 2)))))) <= 0 then 1 else x))) div 2) div 2)
1: (((3 * (1 + (if x <= 0 then 0 else ((x + 1) + ((x mod 3) div 2))))) div 2) div 2)
1: ((((x + 1) * (x + (if x <= 0 then 1 else loop(\(x,i).(x - (if x <= 0 then 1 else (x - ((if x <= 0 then 2 else loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 2)))),x,x)))) div 2) div 2)
1: ((((x + 2) * (1 + loop(\(x,i).(x + (x div (2 + (x mod 2)))),x,2))) div 2) div 2)
1: (((3 * (1 + loop(\(x,i).(x - (if (~x + i) <= 0 then (2 * i) else 0)),x,x))) div 2) div 2)
1: (((3 * (x + loop(\(x,i).(x - (if x <= 0 then 1 else (x - ((if x <= 0 then 2 else loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 2)))),x,(x + 1)))) div 2) div 2)
1: ((((x + 1) * (1 + loop(\(x,i).(x2 + ~2x),2,8))) div 2) div 3)
1: ((((x + 1) * (x + loop(\(x,i).x2,1,(2x + 4)))) div 2) div 3)
1: ((((x + 1) * (1 + loop(\(x,i).(loop(\(x,i).(4x + ~1),x,2) div 3),1,(x + 1)))) div 2) div 3)
1: (((3 * (1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x))) div 2) div 2)
1: (((7 * (x + loop(\(x,i).i,(~2 + (x div 3)),1))) div 2) div 2)
1: (((x2 + x) div 2) div (~1 + (2 * i)))
1: (((x2 + x) div 5) div 3)
1: (((x2 + x) div ~2) div 3)
1: (((x2 + 3x + 2) div 2) div (1 + ((x div 2) mod 2)))
1: (((x2 + 3x + 2) div 2) div ~5)
1: (((x2 + 4x + 4) div 2) div (2 + (x mod 2)))
1: (((x2 + 4x + 4) div 2) div (~x + 26))
1: (((x2 + 4x + 4) div 2) div (~x + 23))
1: (((x2 + 2x) div 2) div 5)
1: (((x2 + 2x) div 2) div 7)
1: (((x2 + 2x) div 2) div (2 + (x mod 2)))
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1: (((3 * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2) div 5)
1: ((((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) * (1 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))) div 2) div 2)
1: ((((x + 1) * (2 + compr(\x.(loop(\(x,i).(~2x + 2),x,2) mod (x + 2)),x))) div 2) div 2)
1: (((x * (1 + compr(\x.(x mod (1 + (8 * (x mod 2)))),x))) div 2) div 2)
1: (((5 * (1 + compr(\x.loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,2x),x))) div 2) div 2)
1: ((((x + 1) * (~1 - (x div 4))) div 2) div 2)
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1: (((~x4 + 2x3 + x + ~2) div 2) div 2)
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1: ((((2x + ~1) * (2 - (x div 3))) div 2) div 2)
1: (((x * (2 - (x div ~4))) div 2) div 5)
1: ((((x + ~1) * (2 - (2x mod 9))) div 2) div 2)
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1: ((((x + 1) * (2 - (x mod (~1 + ((~x + 2) div 4))))) div 2) div 2)
1: (((~x2 + 3x + ~2) div 2) div 5)
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1: (((~x2 + 2x) div 4) div 3)
1: (((~x2 + 2x) div (4 + (x div 2))) div 3)
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1: (((((x + ~2) - (x div 3)) * (1 + (x div 3))) div 2) div 2)
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1: ((((x + 1) * (~1 + (2 * (4 + (((x + 1) div 2) div 2))))) div 2) div 5)
1: (((x3 + 12x2 + 35x + 30) div 2) div 3)
1: (((10x2 + 27x + 14) div 2) div 2)
1: ((((x + 1) * ((5x2 + 6x + 1) - (x div 2))) div 2) div 3)
1: (((3x4 + 13x3 + 21x2 + 14x + 3) div 2) div 3)
1: ((((x + 1) * (~1 + (3 * (2 + ((x + 2) * (1 - (2 * (x mod 2)))))))) div 2) div 2)
1: (((9x4 + 18x3 + 23x2 + 14x + 5) div 2) div 2)
1: (((49x2 + ~x) div 2) div 3)
1: (((x5 + ~x4 + x2 + ~2x + 1) div 2) div 3)
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1: (((3 * ((2x + 2) - ((x div 2) div 3))) div 2) div 2)
1: (((((2x + 4) - (x div 2)) * ((x + 1) + (x div 2))) div 2) div 2)
1: (((17x3 + 3x2 + ~14x) div 2) div 3)
1: (((31x2 + ~x) div 2) div 9)
1: (((5 * (~2 + (3 * (x - ((~x + 1) * (x div 2)))))) div 2) div 2)
1: ((((~1 + (6 * (1 + ((1 + (((loop(\(x,i).11x,x,(1 + (x mod 2))) div 2) div 2) div 2)) div 2)))) * (1 + (x mod 2))) div 3) div 5)
1: ((((2x + 3) * ((9x + 9) - (x mod 5))) div 2) div 3)
1: (((3x3 + 3x2 + ~2x) div 2) div 2)
1: (((2x4 + 11x3 + 21x2 + 15x + 3) div 2) div 3)
1: (((3x4 + ~2x3 + ~x) div 2) div 3)
1: (((16x3 + 48x2 + 47x + 15) div 2) div 7)
1: (((x7 + ~x) div 2) div 3)
1: (((x7 + ~x) div 2) div 7)
1: (((x5 + ~x) div 2) div 5)
1: ((((x + 1) * (~1 + (2 * (loop(\(x,i).(2x - (i mod 2)),(x + ~1),1) div 2)))) div 2) div 2)
1: (((x * (~1 + (x * (x div 2)))) div 2) div 3)
1: (((x * (~1 + ((2x + ~2) * (~x mod 4)))) div 2) div 3)
1: ((((x + 1) * (~1 + (2 * ((x - (x div 4)) mod 2)))) div 2) div 2)
1: ((((x + 1) * (~1 + (2 * ((x mod (3 + (x mod 2))) mod 2)))) div 2) div 2)
1: ((((x + 1) * (~1 + (2 * loop(\(x,i).(x2 + 2),2,5)))) div 2) div 2)
1: (((2x2 + 3x + ~2) div 2) div 3)
1: (((2x2 + ~x) div 2) div (x + 5))
1: (((x3 + x2 + ~x + ~1) div 2) div 3)
1: ((((x2 + ~2) * ((x + 1) div 2)) div 2) div 3)
1: (((x3 + ~2x) div 2) div 7)
1: (((x3 + 3x2 + ~4x + ~12) div 2) div 3)
1: (((x * (x2 - (x div 2))) div 2) div 3)
1: (((3 * (x2 - (x div ~4))) div 2) div 5)
1: (((x * (x2 - (if x <= 0 then 1 else ((x + 1) - loop(\(x,i).loop(\(x,i).(x + (i * i)),(x + ~1),1),2,x))))) div 2) div 3)
1: ((((((x + 1) div 2) - ((3 * (x div 4)) div 2)) * (~1 + (2 * (x div 4)))) div 2) div 2)
1: ((((x + 1) * (~1 + ((0 - ((((x + ~1) div 2) * (x div 2)) div 2)) div 2))) div 2) div 2)
1: ((((~x + ((~x + 2) div 2)) * (1 + (x div 2))) div 2) div 2)
1: (((x * (~1 + ((2 * ((x + ~1) + (2 * ((4 * (x + (if (~2 + (x div 2)) <= 0 then 1 else 2))) div 3)))) div 3))) div 2) div 2)
1: (((x * (~2 + ((~x2 + 2x) div 4))) div 2) div 2)
1: (((5 * (~1 + (x2 div 4))) div 2) div 2)
1: (((x * (~1 + (((x + 1) div 2) div 2))) div 2) div 2)
1: (((3 * (~1 + (x div 2))) div 2) div 2)
1: ((((x + 2) * (~2 + (x div 2))) div 2) div 2)
1: ((((x + 1) * ((x div 2) - (2 div (x + 1)))) div 2) div 2)
1: (((((x div 2) - (((1 + (x div 2)) div 2) div 2)) * (1 + (x div 2))) div 2) div 2)
1: (((((x div 2) - (x mod 2)) * (1 + (x div 2))) div 2) div 5)
1: ((((x + 1) * ((x div 2) - (x mod 2))) div 2) div 9)
1: (((x * (~2 + (x div 3))) div 2) div 7)
1: ((((x + 1) * (1 + (x div 4) - (2 * (x mod 2)))) div 2) div 2)
1: (((3 * (~x + (x div 5))) div 2) div 2)
1: ((((~x + (x div (2 + (x mod 2)))) * (x div 4)) div 2) div 2)
1: (((x * (~2 + (x div ~2))) div 2) div 2)
1: ((((x + 1) * ((~x + ~1) + (x div ~3))) div 2) div 3)
1: (((x * (~1 + (x div ~5))) div 2) div 2)
1: ((((~2 + ((x div 2) mod 3)) * (x div 2)) div 2) div 2)
1: ((((x + 1) * (~4x + (x mod 2))) div 2) div 2)
1: (((2 * (loop(\(x,i).(6x + 2),x,1) - loop(\(x,i).3x,x,1))) div 3) div 3)
1: (((x * (~1 + loop(\(x,i).(x2 + x),1,loop(\(x,i).(x * i),x,1)))) div 2) div 3)
1: ((((x + 1) * (~1 + loop(\(x,i).(8x + 4),(x + 1),0))) div 2) div 2)
1: ((((x + 1) * (~1 + loop(\(x,i).((3x2 + 7x + 4) div 2),1,(x2 + 2x + 1)))) div 2) div 3)
1: ((((x + 1) * (~1 + loop(\(x,i).i,(((x + ~2) * (x div 3)) mod (1 + (x div 2))),1))) div 2) div 3)
1: (((2x + ~2) div (2 + (x div 2))) div 3)
1: (((x2 + ~x) div 2) div 15)
1: (((x2 + ~x) div 4) div 5)
1: (((x2 + ~x) div (6 - (x div 3))) div 3)
1: (((x2 + ~x) div (12 - ((x + 1) div 2))) div 2)
1: (((x2 + ~x) div (~3x + 53)) div 2)
1: (((x2 + ~3x + 2) div 2) div 3)
1: (((x2 + ~3x + 2) div 2) div 5)
1: (((x2 + ~3x + 2) div 2) div (x + 3))
1: (((x2 + ~3x + 2) div 2) div (x + 1))
1: (((x2 + ~3x + 2) div (x + 4)) div 3)
1: (((x2 + ~4x + 4) div 2) div 7)
1: (((x2 + ~4x + 4) div (x + 1)) div 3)
1: (((x2 + ~2x) div 2) div (x + 4))
1: (((x2 + ~2x) div 2) div 7)
1: (((x2 + ~2x) div 3) div (x + 3))
1: (((x2 + ~2x) div (1 + (x div 4))) div (x + 1))
1: (((x2 + ~2x) div (x + 2)) div 3)
1: (((x2 + ~2x) div (x + 2)) div 5)
1: (((x2 + ~2x) div 8) div 2)
1: (((x2 + ~5x + 6) div 2) div 3)
1: (((3 * ((x + 1) - (2 * (~2 - (if x <= 0 then 1 else (2 * (2x + ((x + ((x div 2) mod 2)) div 2)))))))) div 2) div 2)
1: (((3 * ((x + 1) - (2 * ((3 * (x div (4 - ((x * (x div 2)) mod 2)))) div 2)))) div 2) div 2)
1: (((((x + 1) - ((x + 1) div 5)) * (1 + (x div 2))) div 2) div 2)
1: ((((x + 3) * ((x + 1) - ((~x + 1) div 3))) div 2) div 2)
1: (((5 * ((x + 1) - ((~x + ((~x + 2) div 4)) div 2))) div 2) div 2)
1: (((3 * ((x + 1) - ((x + 1) mod 3))) div 2) div 2)
1: (((28x3 + 3x2 + ~25x) div 2) div 3)
1: (((~20x3 + ~3x2 + 17x) div 2) div 3)
1: (((3 * (x - (2 * (x div (3 + ((x div 3) mod 3)))))) div 2) div 2)
1: (((3 * (x - ((x2 + x + 1) div (2 + (x div 2))))) div 2) div 2)
1: (((3 * (x - ((x + ((x + ~1) mod 3)) div 2))) div 2) div 2)
1: ((((x - ((~x + 2) div 2)) * (x - ((~x + 2) div 2))) div 2) div 2)
1: ((((x + 2) * (x - ((~1 + (x div 2)) div 2))) div 2) div 2)
1: (((2 * (x - ((2 * ((~2x + ~2) + ((2x + 1) div (1 + (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))))) div 3))) div 3) div 2)
1: (((3 * (x - ((2 * (~x + (x div 5))) div 3))) div 2) div 2)
1: (((3 * (x - ((x2 + ~x) div 4))) div 2) div 2)
1: (((3 * (x - ((x2 + ~2x) div (2x + 3)))) div 2) div 2)
1: (((7 * (x - (2x div 5))) div 2) div 2)
1: (((x * (x - (x div 3))) div 2) div 5)
1: ((((x + 2) * (x - (x div ~2))) div 2) div 2)
1: (((x * (x - (x div ~3))) div 2) div 2)
1: ((((x + 2) * (x - (2 mod (1 + (x div 4))))) div 2) div 2)
1: ((((x - ((x + ~1) mod 3)) * (x div 3)) div 2) div 3)
1: ((((x + 1) * (x - (x2 mod 3))) div 2) div 2)
1: (((x * (~1 + compr(\x.(1 - ((~x2 + x) mod 8)),(x + 1)))) div 2) div 3)
1: ((((x2 + x) * (3 + (((x2 + 2x) div 2) + (x div 2)))) div 2) div 2)
1: (((x3 + 15x2 + 74x + 120) div 2) div 3)
1: ((((x2 + 7x + 6) * (2 + (if x <= 0 then 1 else x))) div 2) div 3)
1: (((x3 + 15x2 + 50x) div 2) div 3)
1: (((3x2 + 57x + 102) div 2) div 2)
1: (((x3 + 21x2 + 56x + 36) div 2) div 3)
1: ((((x2 + 5x + 6) * ((x2 + 2x + 2) + ((5x2 + 19x + 12) div 2))) div 2) div 3)
1: (((x3 + 9x2 + 26x + 24) div 2) div 3)
1: (((x3 + 9x2 + 20x) div 2) div 3)
1: (((2x3 + 7x2 + ~4x) div 2) div 3)
1: (((~x3 + 3x2 + 16x + 12) div 2) div 3)
1: (((15x2 + 10x) div 2) div 3)
1: (((x3 + 15x2 + 68x + 96) div 2) div 3)
1: (((x3 + 15x2 + 56x) div 2) div 3)
1: (((26x2 + 65x + 26) div 2) div 3)
1: (((5x3 + 9x2 + 4x) div 2) div 3)
1: (((5x3 + 21x2 + 28x + 12) div 2) div 3)
1: (((2x3 + 27x2 + 91x) div 2) div 3)
1: (((11x4 + 64x3 + 136x2 + 125x + 42) div 2) div 3)
1: (((4x4 + 16x3 + 23x2 + 17x + 6) div 2) div 3)
1: (((2x4 + ~x3 + x2 + ~2x) div 2) div 3)
1: (((2x3 + 9x2 + 10x) div 2) div 2)
1: (((x4 + 5x3 + 11x2 + 7x) div 2) div 3)
1: (((12x4 + 68x3 + 135x2 + 109x + 30) div 2) div 3)
1: (((11x3 + 21x2 + 10x) div 2) div 3)
1: (((4x4 + 18x3 + 29x2 + 21x + 6) div 2) div 3)
1: (((6x4 + 15x3 + 14x2 + 6x + 1) div 2) div 3)
1: (((5x4 + 20x3 + 22x2 + 4x) div 2) div 3)
1: (((2x5 + x4 + ~x3 + 2x2 + 2x) div 2) div 3)
1: (((49x2 + 49x) div 2) div 3)
1: (((12x2 + 27x + 6) div 2) div 2)
1: ((((x2 + 3x + 2) * (1 + (5 * ((3x2 + 5x + 2) div 2)))) div 2) div 3)
1: ((((x3 + 4x2 + 5x + 2) * (1 + (5 * ((x2 + 3x + 2) div 2)))) div 2) div 3)
1: ((((x2 + 3x + 2) * (1 + (5 * ((x2 + 3x + 2) div 2)))) div 2) div 3)
1: (((6x2 + 9x + 3) div 5) div 5)
1: (((x5 + 3x3 + 2x) div 2) div 3)
1: (((x4 + ~x3 + 2x2 + ~2x) div 2) div 3)
1: ((((x + 2) * ((2 + (x div 2)) * ((x + 1) div 2))) div 2) div 3)
1: ((((x2 + 3x + 2) * (1 + (if (x mod 3) <= 0 then 2 else 0))) div 2) div 3)
1: (((x3 + 5x2 + 8x + 4) div 2) div 2)
1: (((2x3 + 5x2 + 2x) div 2) div 2)
1: (((2x3 + 5x2 + 2x) div 2) div 3)
1: (((x3 + 4x2 + 4x) div 2) div 3)
1: (((7x3 + 9x2 + 2x) div 2) div 3)
1: (((~x3 + 3x2 + ~2x) div 2) div 2)
1: (((~x3 + 3x2 + ~2x) div 2) div 7)
1: ((((x2 + x) * (9 - ((~x2 + x) div 2))) div 2) div 3)
1: ((((x2 + x) * ((x + ~1) + (2 * (2x + (x mod 2))))) div 2) div 3)
1: (((22x3 + 3x2 + ~19x) div 2) div 3)
1: (((x3 + 16x2 + 15x) div 2) div 3)
1: (((3x4 + ~2x3 + ~3x2 + 2x) div 2) div 2)
1: (((11x3 + 33x2 + 33x + 11) div 2) div 3)
1: (((11x2 + 11x) div 2) div 2)
1: (((12x3 + 54x2 + 87x + 45) div 2) div 2)
1: (((4x3 + 27x2 + 51x + 28) div 2) div 3)
1: (((4x3 + 15x2 + 14x) div 2) div 3)
1: (((2x4 + 2x3 + ~5x2 + x) div 2) div 3)
1: (((19x3 + 3x2 + ~16x) div 2) div 3)
1: (((16x3 + 15x2 + ~x) div 2) div 3)
1: ((((x2 + 3x + 2) * (~1 + (7 * ((x2 + 3x + 2) div 2)))) div 2) div 3)
1: ((((x2 + 3x + 2) * (~1 + (9 * ((x2 + 3x + 2) div 2)))) div 2) div 2)
1: (((2x3 + 5x2 + ~3x) div 2) div 3)
1: (((x4 + ~x3 + ~x2 + x) div 2) div 3)
1: (((x4 + ~x2) div 2) div 3)
1: (((x4 + ~x2) div 2) div (2x + ~1))
1: (((x3 + ~3x2 + 2x) div 2) div 7)
1: (((x3 + ~3x2 + 2x) div 2) div 9)
1: (((x3 + ~3x2 + 2x) div 2) div 13)
1: (((x3 + ~3x2 + 2x) div 2) div 11)
1: (((x3 + ~3x2 + 2x) div 3) div 7)
1: (((x3 + ~3x2 + 2x) div 3) div 9)
1: (((x3 + ~4x2 + 4x) div 2) div 2)
1: (((x4 + ~4x3 + 4x2) div 2) div 2)
1: (((5x3 + 2x2 + ~3x) div 2) div 3)
1: (((5x3 + ~3x2) div 2) div 9)
1: (((x3 + 24x2 + 65x + 42) div 2) div 3)
1: (((5x4 + ~2x3 + ~5x2 + 2x) div 2) div 3)
1: (((10x3 + ~3x2 + ~4x) div 2) div 3)
1: (((7x3 + 3x2 + ~4x) div 2) div 3)
1: ((((x2 + 3x + 2) * (x - (9 * ((~x2 + x) div 2)))) div 2) div 3)
1: (((15 * (x - (x div ~14))) div 2) div 2)
1: (((x4 + 14x3 + 53x2 + 76x + 36) div 2) div 3)
1: (((3x5 + 10x4 + 13x3 + 8x2 + 2x) div 2) div 3)
1: (((24x5 + 60x4 + 50x3 + 15x2 + x) div 2) div 3)
1: (((6x3 + 3x2) div 2) div 2)
1: (((18 * (1 + (~2 mod (1 - (2 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)))))) div 2) div 2)
1: (((4x3 + 12x2 + 12x + 8) div 3) div 3)
1: (((4x2 + 12x + 8) div 5) div 5)
1: (((x4 + 5x3 + 8x2 + 4x) div 2) div 3)
1: ((((x3 + 6x2 + 11x + 6) * (1 - (2 * (x mod 2)))) div 2) div 3)
1: (((3x4 + ~11x3 + 12x2 + ~4x) div 2) div 3)
1: (((7x4 + 16x3 + ~x2 + ~10x) div 2) div 3)
1: (((x5 + 5x4 + 8x3 + 4x2) div 2) div 3)
1: (((x5 + 3x4 + 2x3) div 2) div 3)
1: (((x4 + 4x3 + 4x2) div 2) div 2)
1: (((x4 + ~x3) div 2) div 3)
1: ((x5 div 2) div 3)
1: ((x5 div 2) div 5)
1: (((21 * ((1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + ~1) div 2))) div 2)) div 2) div 2)
1: (((2 * (((x - ((x div 2) mod 2)) div 2) * ((x + 1) div 2))) div 2) div 2)
1: ((((x2 + x) * ((2 * (4 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3)) div 2) div 2)
1: ((((3x + 3) * (x2 div 4)) div 2) div 2)
1: (((3 * ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (2 + (x div 4) - (x div 5)))) div 2) div 2)
1: (((3 * (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + ((x * (1 + ((x div 2) mod 2))) div 3)))) div 2) div 2)
1: (((3 * (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (x - (2 * (((x + 1) div 2) div 2))))) div 2) div 2)
1: ((((3x + ~3) * (loop(\(x,i).2x,(x + ~2),x) div 2)) div 2) div 2)
1: ((((~x2 + 4x + ~4) * (x div 3)) div 2) div 2)
1: ((((x2 + 3x) * (if (x mod 2) <= 0 then x else 1)) div 2) div 2)
1: ((((x2 + 2x + 1) * loop(\(x,i).(5x + 8),x,1)) div 2) div 3)
1: ((((x2 + 3x + 2) * loop(\(x,i).(x + (i * i)),(x + 1),1)) div 2) div 2)
1: ((((x2 + 4x + 3) * loop(\(x,i).(x * (1 + (2 * (2 + i)))),x,(x + 2))) div 2) div 3)
1: ((((x2 + 6x + 9) * loop(\(x,i).(x * ((x + 1) - i)),2,(x + 2))) div 2) div 3)
1: ((((x2 + 3x) * loop(\(x,i).2x,(x + ~1),x)) div 2) div 2)
1: ((((x2 + 5x + 6) * loop(\(x,i).x2,1,((x2 + 3x + 2) div 2))) div 2) div 3)
1: ((((x2 + 5x + 4) * loop(\(x,i).((x2 + ~x) div 2),2,(x + 4))) div 2) div 3)
1: ((((x2 + 3x + 2) * loop(\(x,i).((x2 + ~x) div 2),2,(x + 4))) div 2) div 3)
1: ((((x2 + x) * loop(\(x,i).((x2 + ~x) div 2),2,(x + 2))) div 2) div 3)
1: ((((x2 + 5x + 6) * loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x + 2),(x + 1))) div 2) div 3)
1: ((2x2 div (x + 2)) div 3)
1: ((4x2 div (x + 2)) div 3)
1: (((x3 + x2) div 2) div (x + 5))
1: (((x3 + x2) div 2) div (1 + ((x div 2) mod 2)))
1: (((x3 + x2) div 2) div 11)
1: (((x3 + x2) div 2) div (4x + ~1))
1: (((x3 + x2) div 8) div 7)
1: (((x3 + 2x2) div 2) div 2)
1: (((x3 + 2x2) div 2) div (2x + ~1))
1: (((x3 + ~2x2) div (x + 2)) div (x + 1))
1: ((x4 div 2) div 3)
1: (((x2 * (x div 2)) div 2) div 2)
1: ((x3 div 2) div 5)
1: ((x3 div 2) div (x + 3))
1: ((x3 div 2) div (3x + 1))
1: ((x3 div 2) div (1 + (x div 3)))
1: ((x3 div 2) div 31)
1: ((x3 div 4) div 3)
1: ((x3 div 4) div 7)
1: ((x3 div ((x + 1) + (x div 2))) div 2)
1: ((x3 div (x + 2)) div 2)
1: ((x3 div (2 - ((x div 2) mod 2))) div 2)
1: (((2x * i) div (1 + i)) div (1 + i))
1: (((x * (((x + 1) + ((x div 2) mod 2)) div 2)) div 2) div 3)
1: (((x * ((x + ((x + ~1) * (x2 div 4))) div 2)) div 2) div 2)
1: (((((2x + 1) div 3) * (1 + (x div 3))) div 2) div 2)
1: ((((x + 1) * ((1 + ((x - ((x div 3) mod 2)) div 2)) div 2)) div 2) div 2)
1: ((((x + ~2) * ((1 + (x div 2)) div 2)) div 2) div 2)
1: (((((1 + (x div 2)) div 2) * (x div 2)) div 2) div 2)
1: (((((1 + (x div 2)) div (1 + (x mod 2))) * (1 + (x div 2))) div 2) div 2)
1: (((3 * ((x + (x div 2)) div 4)) div 2) div 2)
1: ((((x + 1) * ((x + (x div 2)) div 4)) div 2) div 2)
1: (((x * ((x + (2 mod (x + 1))) div 3)) div 2) div 2)
1: (((3 * ((x + ((x div 2) mod 2)) div 3)) div 2) div 2)
1: (((((1 + loop(\(x,i).2x,x,2)) div 3) * (1 + loop(\(x,i).2x,x,1))) div 2) div 2)
1: ((((x + 3) * ((x + 1) div 2)) div 2) div 2)
1: (((5 * ((x + 1) div (1 + (((1 + (x mod ((1 + (x mod (1 + (x div 4)))) * (1 + (x mod 2))))) mod (x + 1)) + (x mod 2))))) div 2) div 2)
1: (((3 * ((x + 1) div (2 + (x mod 2)))) div 2) div 2)
1: (((((x + 2) div 3) * (1 + (x div 2))) div 2) div 2)
1: ((((x + ~1) * ((x + 2) div 5)) div 2) div 2)
1: ((((x + 1) * ((1 - ((x - (x2 div 4)) div 2)) div 2)) div 2) div 3)
1: ((((x + 2) * ((1 - (x div 2)) div 3)) div 2) div 2)
1: (((5 * ((~x + 1) div 3)) div 2) div 2)
1: (((((2 - (x div 2)) div 2) * (x div 2)) div 2) div 3)
1: (((x * ((2 - (x div 4)) div 2)) div 2) div 2)
1: ((((x + 1) * ((~x + 2) div 2)) div 2) div 2)
1: (((x * ((~x + 2) div 2)) div 2) div 5)
1: (((3 * ((2 + ((2 * (loop(\(x,i).5x,x,4) div 3)) div 3)) div 2)) div 2) div 2)
1: ((((x + 1) * ((x2 + 4x + 3) div 2)) div 2) div 2)
1: (((3 * ((~1 + (6 * (1 + ((1 + (((3 * (1 + (loop(\(x,i).3x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 3))) div 2) div 2)) div 2)))) div 2)) div 2) div 2)
1: (((3 * ((~1 + (6 * (1 + ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (3 + (x div (1 + (x mod 5))))) div 2)))) div 2)) div 2) div 2)
1: (((3 * ((~1 + (3 * ((1 + ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3)) * (if x <= 0 then 1 else 2)))) div 2)) div 2) div 2)
1: (((3 * ((~1 + (6 * (1 + (x div (3 + ((~1 + loop(\(x,i).(if x <= 0 then i else (x div 2)),x,2)) mod (x + 1))))))) div 2)) div 2) div 2)
1: (((3 * ((~1 + (6 * (1 + ((x + 2) mod (1 + (((1 + (x * (x div 2))) div 3) mod 3)))))) div 2)) div 2) div 2)
1: ((((x + 1) * ((~1 + (x2 div 2)) div 3)) div 2) div 2)
1: (((3 * ((~1 + (x div 2)) div 2)) div 2) div 2)
1: ((((x + 2) * ((x + ~1) div 2)) div 2) div 7)
1: (((((x + ~1) div 2) * (x div 3)) div 2) div 3)
1: (((((x + ~1) div 3) * (1 + (x div 2))) div 2) div 2)
1: (((((x + ~1) div 3) * (x div ~2)) div 2) div 2)
1: (((((x + ~2) div 3) * ((~x + 2) div 2)) div 2) div 2)
1: (((((x - (x div 4)) div 2) * (2 + (x div 2))) div 3) div 2)
1: ((((x + 1) * ((x - (2x2 mod 5)) div 2)) div 2) div 2)
1: (((5 * ((3x2 + 7x + 4) div 2)) div 3) div 3)
1: ((((x + 1) * ((3x2 + 7x + 4) div 2)) div 2) div (2x + 1))
1: (((3 * ((3 * (1 + (2 * ((((~x2 + 2) mod (~1 + ((~2x + 2) mod (4 + (x div 4))))) * (1 + (x div 2))) div 2)))) div 2)) div 2) div 2)
1: ((((x + ~1) * ((x3 + x) div 2)) div 2) div 5)
1: (((3 * ((3 * (1 + ((1 + (x div (1 + ((if (x mod 2) <= 0 then 3 else ~2) mod (x + 1))))) div 2))) div 2)) div 2) div 2)
1: (((3 * ((3 * (1 + ((2 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 3))) div 2)) div 2) div 2)
1: (((3 * ((3 * (1 + (((1 + (((2 * (1 + ((1 + ((1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,(2x + 1))) div 2)) div 2))) div 3) + (x mod 2))) div 2) div 2))) div 2)) div 2) div 2)
1: (((3 * ((3 * (1 + (((3 * (1 + ((2 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 3))) div 2) div 2))) div 2)) div 2) div 2)
1: (((5 * ((3 * (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) div (1 + ((x div 2) mod 2))))) div 2)) div 2) div 2)
1: (((5 * ((3 * (1 + (((1 + (x mod ((1 + (x mod (1 + (x div 4)))) * (1 + (x mod 2))))) mod (x + 1)) div 2))) div 2)) div 2) div 2)
1: ((((x + 3) * ((x2 + 3x + 2) div 2)) div (1 + (x mod 2))) div 3)
1: ((((x + 2) * ((x2 + 4x + 4) div 2)) div 2) div 3)
1: (((x * ((x2 + 4x + 4) div 2)) div 2) div 2)
1: (((((x2 + 2x) div 2) * ((x2 + 2x) div 2)) div 2) div 2)
1: (((3 * ((~x2 + 2x) div 4)) div 2) div 2)
1: (((x * ((~x2 + 2x) div 4)) div 2) div 2)
1: (((x * ((~x2 + 2x) div 4)) div 2) div 3)
1: (((3 * ((3 * (~2 + (2 * (x2 mod 19)))) div 2)) div 2) div 2)
1: ((((x + ~1) * ((x3 + 5x2 + ~2x) div 2)) div 2) div 3)
1: (((3 * ((7x2 + 18x + 8) div 2)) div 2) div 2)
1: ((((x + 1) * ((x * (~1 + ((x + ~1) div 2))) div 2)) div 2) div 2)
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1: (((3 * ((x2 + ~2x) div (x + 2))) div 2) div 2)
1: (((x * ((x2 + ~2x) div (x + 2))) div 2) div 2)
1: ((((x + 5) * ((x3 + 7x2 + 6x) div 2)) div 2) div 3)
1: ((((x + 3) * ((x3 + 13x2 + 44x + 32) div 2)) div 2) div 3)
1: ((((x + 3) * ((x3 + 9x2 + 8x) div 2)) div 2) div 3)
1: ((((x + 3) * ((x3 + 15x2 + 38x + 24) div 2)) div 2) div 3)
1: ((((x + 1) * ((5x3 + 21x2 + 28x + 12) div 2)) div 2) div 3)
1: ((((x + 3) * ((5x3 + 17x2 + 16x + 4) div 2)) div 2) div 3)
1: ((((x + 3) * ((x3 + 27x2 + 74x + 48) div 2)) div 2) div 3)
1: ((((x + 3) * (((x2 + 3x + 2) * (2 + ((x2 + x) div 2))) div 2)) div 2) div 3)
1: ((((x + 3) * ((x3 + 5x2 + 8x + 4) div 2)) div 2) div 3)
1: ((((x + 1) * ((x3 + 3x2 + 2x) div 2)) div 2) div 3)
1: ((((x2 + 2x + ~1) * ((x3 + 3x2 + 2x) div 2)) div 2) div 3)
1: ((((x + 1) * ((5x3 + 9x2 + ~2x) div 2)) div 2) div 3)
1: ((((x + 3) * ((x3 + ~5x2 + ~22x + ~16) div 2)) div 2) div 3)
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1: (((3 * ((3 * ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (2 * ((1 + (x div 2)) div 2))))) div 2)) div 2) div 2)
1: (((5 * (4x2 div (2 - (x mod 2)))) div 2) div 2)
1: ((((x + 5) * ((x3 + x2) div 2)) div 2) div 3)
1: ((((x + 2) * (x3 div 2)) div 2) div 2)
1: (((3 * ((3 * ((3 * (1 + ((((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (4 * (1 + (x div 5))))) div 2) div 2))) div 2)) div 2)) div 2) div 2)
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1: (((x * (((x + 1) * (if x <= 0 then 2 else ((x + 1) div 2))) div 2)) div 2) div 3)
1: ((((x + 1) * (((x + 2) * loop(\(x,i).x3,1,(x + 3))) div 2)) div 2) div 2)
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1: ((((2x div 7) * (x div 3)) div 2) div 2)
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1: (((x * (x2 div 3)) div 2) div (2x + 1))
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1: ((((x + 1) * ((x div 2) div 3)) div 2) div 2)
1: ((((x + ~1) * ((x div 2) div 3)) div 2) div 2)
1: (((9 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)) div 2) div 2)
1: (((13 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)) div 2) div 2)
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1: ((((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (2 * (2 + ((x div 3) mod 2))))) div 2) div 2)
1: (((17 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)) div 2) div 2)
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1: ((((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (4 * (1 + (x div 5))))) div 2) div 2)
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1: ((((x + 1) * (((~2x + 4) mod (2 + (x div 2))) div 2)) div 2) div 2)
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1: (((x * (x div 3)) div 2) div 5)
1: ((((x div 4) * (x div ~2)) div 2) div 2)
1: (((3 * (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))) div 2) div 2)
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1: ((((3x + 2) * (x div (~2 + ((~x + 2) div 4)))) div 2) div 2)
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1: ((((x + 1) * (x div (3 * (8 - (x div 2))))) div 3) div 2)
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1: (((3 * (x div (if ((x + ~1) mod 4) <= 0 then 2 else 1))) div 2) div 2)
1: (((((1 + (x div (~2 + (x mod 2)))) mod 3) * (1 + (x div 2))) div 2) div 2)
1: (((x * ((1 + (x div (2 * (2 - (x mod 2))))) mod 2)) div 2) div 2)
1: (((((1 + (x mod 8)) mod (x + 1)) * (1 + (x div 2))) div 2) div 2)
1: ((((x + 3) * ((x + 1) mod 7)) div 2) div 2)
1: (((3 * ((1 - loop(\(x,i).(x div (2 - ((x * (x div 2)) mod 2))),x,x)) mod (x + 1))) div 2) div 2)
1: ((((x + 1) * ((~x + 2) mod 3)) div 2) div 2)
1: (((3x * ((x + ~1) mod 3)) div 2) div 2)
1: ((((x + 5) * ((~2x + 2) mod (4 + (x div 4)))) div 2) div 2)
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1: ((((x + 2) * ((x mod (2 - (x div (1 + ((x div 2) mod 2))))) mod 2)) div 2) div 2)
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1: (((x * (loop(\(x,i).x2,2,(2 * (x mod 2))) mod (x + 1))) div 2) div 7)
1: ((((x + 2) * (x mod 2)) div (2 + (x mod 4))) div 2)
1: (((x * (x mod 2)) div 2) div 3)
1: (((x * (x mod 4)) div 8) div 2)
1: ((((x mod (3 + (x mod 2))) * (x div 2)) div 2) div 2)
1: (((3 * (x mod (1 + ((~1 + ((~2x + 2) mod (4 + (x div 4)))) mod (x + 1))))) div 2) div 2)
1: ((((x mod ((x + ~1) - (x mod 12))) * (1 + (x div 2))) div 2) div 2)
1: ((((x mod ((x + ~1) - (x mod 12))) * (2 + (x div 2))) div 2) div 2)
1: ((((x + ~1) * (x mod ((x + ~1) - (x mod 12)))) div 2) div 2)
1: (((3 * (x mod (x - ((x + ~1) mod 8)))) div 2) div 2)
1: (((3 * ((x mod (x - ((x + ~1) mod 8))) * (2 + (x div 5)))) div 2) div 2)
1: (((x * (if (~4 + (x div 2)) <= 0 then 1 else x)) div 3) div 2)
1: (((3 * (if (x + ~2) <= 0 then x else (2 - ((~x + 1) div 3)))) div 2) div 2)
1: (((5 * (if ((x + 1) mod 4) <= 0 then (x div 3) else 1)) div 2) div 2)
1: ((((if ((x + 2) mod (1 + (x mod 4))) <= 0 then 1 else 2) * (1 + (x div 2))) div 2) div 2)
1: (((9 * (if (2x mod (4 + (x div 4))) <= 0 then (x + 3) else 0)) div 2) div 2)
1: (((3 * (if ((x div 2) mod 3) <= 0 then 1 else x)) div 2) div 2)
1: ((((x + 1) * (if (x mod 2) <= 0 then 1 else (2 * (1 + (8 * (x mod 2)))))) div 2) div 2)
1: ((((x + ~1) * (if (x mod 2) <= 0 then ((x mod 3) div 2) else 2)) div 2) div 2)
1: ((((if (x mod 3) <= 0 then 2 else 1) * (1 + (x div 2))) div 2) div 2)
1: (((x * (if (x mod 5) <= 0 then 1 else 2)) div 2) div 3)
1: (((3 * (if x <= 0 then 1 else (2 + ((x - ((x div 3) mod 2)) div 2)))) div 2) div 2)
1: ((((x + 1) * (if x <= 0 then 1 else (x - ((~x + 2) div 4)))) div 2) div 2)
1: ((((2x + 3) * (if x <= 0 then 1 else (6x2 + 2))) div 2) div 2)
1: ((((x + 1) * (if x <= 0 then 1 else (2 * (1 + ((1 + (((1 + (((x + 1) * (x - loop(\(x,i).(1 + ((2x2 + ~x) div (x + 3))),2,x))) div 2)) div 2) div 2)) div 2))))) div 2) div 2)
1: ((((x + 1) * (if x <= 0 then 1 else (2 * (1 + (((x + 2) div (1 + ((x + 1) mod 3))) div 2))))) div 2) div 2)
1: (((3 * (if x <= 0 then 1 else (9 * (~x + (x mod 9))))) div 2) div 2)
1: (((7 * (if x <= 0 then 1 else (x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))))) div 2) div 2)
1: ((((x + 2) * (if x <= 0 then 2 else (x div 2))) div 2) div 2)
1: (((x * loop(\(x,i).((x + 1) + (x div 2)),(x + ~2),0)) div 2) div 2)
1: ((((x + 1) * loop(\(x,i).(x + ((3 + i) * i)),x,0)) div 2) div 3)
1: (((3 * loop(\(x,i).(9x + 2),(x + 1),2)) div 2) div 13)
1: ((((2x + 1) * loop(\(x,i).(1 + (2x * i)),x,1)) div 2) div 2)
1: ((((x + 1) * loop(\(x,i).(x + ((if (i mod 2) <= 0 then 2 else i) * i)),x,0)) div 2) div 3)
1: (((2 * loop(\(x,i).(2x + 1),(x + 4),6)) div 3) div 5)
1: (((3 * loop(\(x,i).(2 + ((x2 + ~x) div (x + 2))),2,x)) div 2) div 2)
1: ((((x + 3) * loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,(x + 2))) div 2) div 3)
1: ((((x + 4) * loop(\(x,i).(x + (x div 2)),(x + ~1),2)) div 2) div 2)
1: ((((x + 1) * loop(\(x,i).((x + 2) + (x div (if i <= 0 then 1 else i))),x,2)) div 2) div (x + 2))
1: ((((x + 1) * loop(\(x,i).(x + (if x <= 0 then (1 + i) else 0)),x,(~x + 1))) div 2) div 2)
1: ((((x + 1) * loop(\(x,i).(~x + loop(\(x,i).(2x2 + ~2x + ~2),i,x)),x,1)) div 2) div 2)
1: (((loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (1 + ((x + 1) div 2))) div 2) div 2)
1: ((((x + 2) * loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)) div 2) div 3)
1: ((((5x + 1) * loop(\(x,i).3x,(x + ~1),x)) div 2) div 3)
1: ((((x + ~1) * loop(\(x,i).3x,(x + ~1),x)) div 2) div 3)
1: ((((x + 3) * loop(\(x,i).(x * (4 + i)),x,(x + 2))) div 2) div 3)
1: ((((x + 1) * loop(\(x,i).(6x2 + x),((x + 1) div 2),1)) div 2) div 2)
1: ((((x + 1) * loop(\(x,i).((x + 1) * (1 + (x * i))),2,x)) div 2) div 3)
1: (((5 * loop(\(x,i).(3 * (1 + (x div 2))),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)) div 2) div 2)
1: ((((x + 1) * loop(\(x,i).((x + 1) * i),x,x)) div 2) div 3)
1: ((((x + 1) * loop(\(x,i).(x2 + 2x),2,x)) div 2) div 5)
1: ((((x + 1) * loop(\(x,i).(x2 + 2x),3,x)) div 2) div 5)
1: ((((x2 + 2x + 1) * loop(\(x,i).(x * (1 + i)),x,(x + 1))) div 2) div 2)
1: ((((x + 1) * loop(\(x,i).(x * (2 + i)),(x + 1),x)) div (x + 2)) div 2)
1: (((x * loop(\(x,i).((x - (i mod 2)) * i),x,1)) div 2) div 2)
1: ((((x + ~1) * loop(\(x,i).(x * (x - i)),2,(x + ~1))) div 2) div 3)
1: (((x * loop(\(x,i).(x * (x - i)),2,(x + ~2))) div 2) div 5)
1: (((3 * loop(\(x,i).x5,2x,3)) div 2) div 4)
1: (((2 * loop(\(x,i).4x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)) div 3) div (x + 1))
1: (((loop(\(x,i).x3,1,((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) * (1 + (x div 3))) div 2) div 2)
1: (((x * loop(\(x,i).((x + ~1) * loop(\(x,i).5x,(x + ~2),x)),1,(x + ~1))) div 2) div 3)
1: (((x * loop(\(x,i).(x * loop(\(x,i).((x2 + ~x) div 2),2,(x + ~2))),1,(x + ~1))) div 2) div 3)
1: (((x * loop(\(x,i).(x * loop(\(x,i).((x2 + ~x) div 2),2,(x + ~2))),1,(x + ~1))) div 2) div 9)
1: (((3 * loop(\(x,i).2x,(x + ~1),(x + 2))) div 2) div 2)
1: ((((x + 5) * loop(\(x,i).2x,(x + ~1),(x + 2))) div 2) div 2)
1: (((x * loop(\(x,i).2x,(x + ~1),(5x + ~1))) div 2) div 2)
1: (((x * loop(\(x,i).2x,(x + ~1),(3x + 5))) div 2) div 2)
1: ((((3x + 1) * loop(\(x,i).2x,(x + ~1),x)) div 2) div 2)
1: ((((8x + 5) * loop(\(x,i).2x,(x mod 5),1)) div 2) div 2)
1: ((((x + 5) * loop(\(x,i).2x,loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1)) div 2) div 2)
1: (((5 * loop(\(x,i).x2,1,(~1 + ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)))) div 2) div 2)
1: ((((x + 4) * loop(\(x,i).x2,1,loop(\(x,i).(x + (((2 + i) * (1 + i)) div 2)),x,1))) div 2) div 2)
1: ((((x + 1) * loop(\(x,i).x2,1,loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x))) div 2) div 2)
1: (((7 * loop(\(x,i).x2,2,(x + 1))) div 2) div 2)
1: ((((x + 2) * loop(\(x,i).x2,2,(x + 2))) div 2) div 15)
1: ((((x + 1) * loop(\(x,i).x2,2,((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2))) div 2) div 3)
1: ((((x + 3) * loop(\(x,i).(x * i),x,x)) div 2) div 2)
1: ((((x + 1) * loop(\(x,i).((x2 + ~x) div 2),2,(x + 4))) div 3) div 2)
1: ((((x + 1) * loop(\(x,i).((x2 + ~x) div 2),2,(x + ~1))) div 3) div 5)
1: (((x * loop(\(x,i).((x2 + ~x) div 2),2,(x + ~2))) div 2) div 3)
1: (((x * loop(\(x,i).((x2 + ~x) div 2),2,(x + ~2))) div 15) div 5)
1: (((x * loop(\(x,i).((x3 + 7x2 + 14x + 8) div 2),1,(x + 3))) div 2) div 3)
1: (((x * loop(\(x,i).((x3 + ~3x2 + 2x) div 5),2,x)) div 2) div 3)
1: (((5 * loop(\(x,i).(i div 3),((2 - (2x mod (4 + (x div 4)))) mod (x + 1)),1)) div 2) div 2)
1: (((3 * loop(\(x,i).(if (x mod 4) <= 0 then (x div 2) else x),x,(x + 1))) div 2) div 2)
1: ((2x div (2 + (x div 2))) div 3)
1: ((2x div (1 + i)) div (1 + (2 * i)))
1: ((x2 div 2) div (x + 5))
1: ((x2 div 2) div 9)
1: ((x2 div 2) div 13)
1: ((x2 div 2) div (2x + 5))
1: ((x2 div 2) div (2 + (3 * (8 - (x div 2)))))
1: ((x2 div 2) div (2 + (x div 2)))
1: ((x2 div 2) div ((x + ~2) + (x div 2)))
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1: ((x2 div 3) div (x + 5))
1: ((x2 div 4) div 5)
1: ((x2 div 4) div 13)
1: ((x2 div 4) div (1 + (2 * (2 + (x div 8)))))
1: ((x2 div 4) div (1 + (x mod 2)))
1: ((x2 div ((2x + 1) - (3 * ((x div 2) - ((x mod 3) div 2))))) div 2)
1: ((x2 div (x + 2)) div (~x + 17))
1: (((3 * compr(\x.(1 - (x mod (1 + (2 * (x mod (2 + (x mod 2))))))),x)) div 2) div 2)
1: (((5 * compr(\x.(2 - (3x mod 13)),x)) div 2) div 2)
1: ((((x + ((x + 1) * (x div 5))) div 2) div 2) div 2)
1: ((((x + (((x + 2) * ((x + 2) + loop(\(x,i).i,(x + ~8),1))) div 2)) div 2) div 2) div 2)
1: ((((2 + ((x3 + x2) div 2)) div 2) div 2) div 2)
1: ((((1 + (((x + ~1) * loop(\(x,i).(3x + (i div 2)),x,0)) div 2)) div 2) div 2) div loop(\(x,i).2x,x,1))
1: ((((2 + (((14x2 + 27x + 9) div 2) div 3)) div 3) div 2) div 2)
1: ((((x + (((((x * (x div 2)) div 2) * (2 + (x div 2))) div 2) div 2)) div 2) div 2) div 2)
1: (((((if (x mod 2) <= 0 then 1 else x) + (x div 2)) div 2) div 2) div 2)
1: ((((x + loop(\(x,i).3x,(x + ~2),x)) div 2) div 2) div 2)
1: ((((x + 1) div 2) div 2) div (1 + (x div 8)))
1: ((((x + 1) div 2) div 2) div (1 + ((x + 1) mod 3)))
1: ((((x + 1) div 2) div 2) div (1 + ((~x + 1) mod 4)))
1: ((((x + 1) div (2 - (x mod 2))) div 2) div 2)
1: ((((x + 2) div (2 - ((x div 2) mod 2))) div 2) div 2)
1: ((((2 - (x * ((x div 2) div 3))) div 2) div 2) div 2)
1: ((((2 - ((x * (x div 2)) div 2)) div 2) div 2) div 2)
1: ((((37x2 + 74x + 36) div 2) div 2) div 2)
1: (((((x2 + 2x) - (x div 2)) div 2) div 2) div 2)
1: (((((x2 + ~x) - (((x3 + ~x) div 2) div 3)) div 2) div 2) div 2)
1: ((((~1 + (6 * (1 + (((~1 + (6 * (1 + ((1 + (if ((x + 1) mod (3 - (x mod 2))) <= 0 then x else 1)) div 2)))) div 2) div 2)))) div 2) div 2) div 2)
1: ((((~1 + (3 * (x2 div 2))) div 2) div 2) div 2)
1: ((((~x + ((x + 2) * (x div 2))) div 2) div 2) div 2)
1: ((((~1 + (2 * (if x <= 0 then 1 else (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (1 + (x div 5)))))) div 2) div 2) div 2)
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1: ((((x2 + ~1) div 2) div 2) div 9)
1: (((((x2 + ~x + ~1) - ((x2 + 2x) div 5)) div 2) div 2) div 2)
1: ((((x2 - ((1 + (x div 4)) mod 2)) div 2) div 2) div 2)
1: ((((x2 - ((x div 4) mod 2)) div 2) div 2) div 2)
1: ((((x2 - (if x <= 0 then 0 else 1)) div 2) div 2) div 3)
1: ((((~1 + (if (2 - (2x mod (4 + (x div 4)))) <= 0 then 0 else (x2 + ~x))) div 2) div 2) div 2)
1: ((((x + ~1) div 2) div 2) div (1 + (2 * (x mod 2))))
1: ((((x - (x2 div 3)) div 2) div 2) div 2)
1: (((((x + 1) * (6 + ((3 * ((12x + 12) div 5)) div 2))) div 2) div 2) div 2)
1: ((((28x2 + 105x + 98) div 2) div 2) div 2)
1: (((((x + 1) * ((x + 1) + (2 * (((((x + 1) * (4 + (x div 2))) div 2) div 2) div 2)))) div 2) div 2) div 2)
1: (((((x + 1) * (4 + (x div 2))) div 2) div 2) div 2)
1: (((((x + 4) * ((x + 1) + (x div 2))) div 2) div 2) div 2)
1: (((((x + 2) * ((x + 2) + (x div 7))) div 2) div 2) div 2)
1: ((((3 * ((x + 2) + ((x + 1) mod (2 + ((x div 2) mod 2))))) div 2) div 2) div 2)
1: (((((x + 2) * (4 + (if x <= 0 then 1 else ((x + 2) + ((x + (x div 3)) div 3))))) div 2) div 2) div 2)
1: (((((x + 1) * (1 + (2 mod (1 + (x mod 3))) - (x mod 7))) div 2) div 2) div 2)
1: ((((((x + 1) - (2 * ((x - ((~1 + (x div 2)) div 2)) div 2))) * ((x + 1) div 2)) div 2) div 2) div 2)
1: (((((x + ~1) * (1 + (2 * (1 + (2 * (loop(\(x,i).(x * (2 + i)),x,1) div 3)))))) div 2) div 2) div 2)
1: ((((2x3 + 3x2 + 2x + 1) div 2) div 2) div 2)
1: (((((x + 1) * (2 + (3 * (x + (x div 4))))) div 2) div 2) div 2)
1: ((((2x3 + 9x2 + 14x + 5) div 2) div 2) div 2)
1: (((((x + 2) * (2 + (x * (x - (x div 3))))) div 2) div 2) div 2)
1: ((((33x + 480) div 2) div 2) div 2)
1: (((((x + (9 * (1 + (x div 2)))) * ((x + 1) div 2)) div 2) div 2) div 2)
1: ((((3x4 + 4x2 + 1) div 2) div 2) div 2)
1: ((((2x4 + ~x3 + 2x + ~1) div 2) div 2) div 2)
1: (((((x + 1) * (1 + (((x + 2) div 3) * ((x + ~1) div 2)))) div 2) div 2) div 2)
1: ((((x3 + 3x2 + 2x + 6) div 2) div 2) div 2)
1: (((((1 + ((2x + 1) div 5)) * (1 + (x div 2))) div 2) div 2) div 2)
1: ((((x * (1 + ((x + ((x * (x div 2)) div 3)) div 2))) div 2) div 2) div 3)
1: (((((x + 2) * (1 + ((2 + (((x div 3) * (x div 2)) div 2)) div 3))) div 2) div 2) div 2)
1: (((((x + 1) * (2 + ((2 + (((x div 3) * (x div 2)) div 2)) div 3))) div 2) div 2) div 2)
1: (((((x + 6) * (1 + ((1 + (x2 div 2)) div 3))) div 2) div 2) div 2)
1: ((((x * (2 + ((x + (x2 div 3)) div 2))) div 2) div 2) div 2)
1: (((((x + 1) * (1 + ((x + (x2 div 7)) div 2))) div 2) div 2) div 2)
1: (((((x + 1) * (x + ((x2 + 2x) div 4))) div 2) div 2) div 2)
1: (((((x + 2) * (x + ((x2 + 2x) div 4))) div 2) div 3) div 2)
1: (((((x + 1) * (2 + ((x2 + 2x) div 9))) div 2) div 2) div 2)
1: (((((x + 2) * (2 + (x2 div 3))) div 2) div 2) div 2)
1: (((((2x + 3) * (1 + (x2 div 4))) div 2) div 2) div 2)
1: ((((x * (2 + (x2 div 4))) div 2) div 2) div 2)
1: (((((x + 1) * (1 + (((1 + (x div 2)) div 2) div 2))) div 2) div 2) div 2)
1: ((((x * (1 + (((x + ~1) div 2) div 3))) div 2) div 2) div 2)
1: ((((x * (2 + (((x2 + ~x) div 2) div 3))) div 2) div 2) div 2)
1: ((((x * (1 + ((loop(\(x,i).((x + 1) - ((~x + 1) div 3)),x,1) div 2) div 2))) div 2) div 2) div 2)
1: ((((5 * (1 + (loop(\(x,i).3x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 3))) div 2) div 2) div 2)
1: (((((x + 1) * (2 + (loop(\(x,i).(x * ((1 + i) div 2)),x,1) div 3))) div 2) div 2) div 2)
1: (((((x + ~1) * (1 + (loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),x,(1 + (x div 2))) div 2))) div 2) div 2) div 2)
1: (((((x + ~1) * (1 + (x div 2))) div 2) div 2) div 2)
1: (((((x + ~1) * (x + (x div 5))) div 2) div 2) div 2)
1: (((((x + 1) * (1 + (x div (4 + (x mod (2 + (x mod 2))))))) div 2) div 2) div 2)
1: (((((x + 1) * (x + ((1 + (x mod 8)) mod (x + 1)))) div 2) div 2) div 2)
1: ((((x * (2 + ((2 + (x mod 8)) mod (x + 1)))) div 2) div 2) div 3)
1: (((((x + 1) * (((x + ~1) mod 3) + (x div 3))) div 2) div 3) div 2)
1: (((((x + 1) * (2 + (((~x + 3) div 3) mod (x + 1)))) div 2) div 2) div 2)
1: (((((x + 1) * (x + ((x div 2) mod 2))) div 2) div 2) div 2)
1: (((((x + 1) * (x + (if (x + ~6) <= 0 then 1 else 0))) div 2) div 2) div 2)
1: ((((3 * (1 + (if (x mod 9) <= 0 then 0 else x))) div 2) div 2) div 2)
1: (((((x + 2) * (1 + loop(\(x,i).(x + (x div (2 + (x mod 2)))),x,2))) div 2) div 2) div 3)
1: ((((x2 + 3x + 2) div 2) div 2) div 3)
1: ((((x2 + 2x) div 2) div 3) div (4 + (x div 4)))
1: ((((x2 + 2x) div 2) div (2 + (x mod 2))) div 3)
1: (((((x + 1) * (2 + compr(\x.(loop(\(x,i).(~2x + 2),x,2) mod (x + 2)),x))) div 2) div 2) div 2)
1: ((((x * (1 + compr(\x.(x mod (1 + (8 * (x mod 2)))),x))) div 2) div 2) div 2)
1: ((((x * (1 - ((~x2 + 2x) div 3))) div 2) div 3) div 2)
1: ((((~x2 + ~x + 2) div 2) div 2) div 3)
1: ((((((~x + 2) + ((x div 2) mod 2)) * (x div 2)) div 2) div 2) div 2)
1: (((((x + ~2) * (2 - (x div 2))) div 2) div 2) div 2)
1: ((((x * (2 - (x div 2))) div 2) div 2) div 2)
1: (((((x + 1) * (2 - (x mod (~1 + ((~x + 2) div 4))))) div 2) div 2) div 2)
1: (((((~x + 2) * (x div 2)) div 2) div 2) div 3)
1: ((((3x2 + 17x) div 2) div 2) div 2)
1: ((((x3 + 12x2 + 35x + 30) div 2) div 3) div 5)
1: ((((x5 + ~x4 + x2 + ~2x + 1) div 2) div 3) div (x + 1))
1: ((((31x2 + ~x) div 2) div 9) div 2)
1: ((((3x3 + 3x2 + ~2x) div 2) div 2) div 2)
1: ((((2x4 + 11x3 + 21x2 + 15x + 3) div 2) div 3) div 2)
1: (((((x + 1) * (~1 + (2 * ((x - (x div 4)) mod 2)))) div 2) div 2) div 2)
1: ((((x * (x2 - (x div 2))) div 2) div 3) div 7)
1: (((((x + 1) * (~1 + ((0 - ((((x + ~1) div 2) * (x div 2)) div 2)) div 2))) div 2) div 2) div 2)
1: ((((5 * (~1 + (x2 div 4))) div 2) div 2) div 2)
1: ((((x * (~1 + (((x + 1) div 2) div 2))) div 2) div 2) div 2)
1: (((((x + 2) * (~2 + (x div 2))) div 2) div 2) div 5)
1: (((((x + 1) * ((x div 2) - (2 div (x + 1)))) div 2) div 2) div 2)
1: (((((x + 1) * (1 + (x div 4) - (2 * (x mod 2)))) div 2) div 2) div 2)
1: (((((~x + (x div (2 + (x mod 2)))) * (x div 4)) div 2) div 2) div 2)
1: (((((x + 1) * (x - (x2 mod 3))) div 2) div 2) div 2)
1: ((((x3 + 15x2 + 74x + 120) div 2) div 3) div 5)
1: ((((15x2 + 10x) div 2) div 3) div 2)
1: ((((5x4 + 20x3 + 22x2 + 4x) div 2) div 3) div 2)
1: ((((12x2 + 27x + 6) div 2) div 2) div 2)
1: (((((x2 + 3x + 2) * (1 + (5 * ((3x2 + 5x + 2) div 2)))) div 2) div 3) div 2)
1: (((((x3 + 4x2 + 5x + 2) * (1 + (5 * ((x2 + 3x + 2) div 2)))) div 2) div 3) div 2)
1: (((((x2 + 3x + 2) * (1 + (5 * ((x2 + 3x + 2) div 2)))) div 2) div 3) div 2)
1: ((((2x3 + 5x2 + 2x) div 2) div 2) div 2)
1: ((((x3 + 4x2 + 4x) div 2) div 3) div 7)
1: ((((~x3 + 3x2 + ~2x) div 2) div 2) div 2)
1: (((((x2 + x) * ((x + ~1) + (2 * (2x + (x mod 2))))) div 2) div 3) div 2)
1: ((((x3 + 16x2 + 15x) div 2) div 3) div 2)
1: ((((3x4 + ~2x3 + ~3x2 + 2x) div 2) div 2) div 2)
1: ((((11x3 + 33x2 + 33x + 11) div 2) div 3) div 7)
1: (((((x2 + 3x + 2) * (~1 + (7 * ((x2 + 3x + 2) div 2)))) div 2) div 3) div 2)
1: ((((x3 + ~3x2 + 2x) div 2) div 2) div 5)
1: ((((x3 + ~3x2 + 2x) div 2) div 2) div 7)
1: ((((x3 + ~4x2 + 4x) div 2) div 2) div 2)
1: ((((5x3 + 2x2 + ~3x) div 2) div 3) div 2)
1: ((((5x4 + ~2x3 + ~5x2 + 2x) div 2) div 3) div 4)
1: ((((x4 + 14x3 + 53x2 + 76x + 36) div 2) div 3) div 2)
1: ((((3x5 + 10x4 + 13x3 + 8x2 + 2x) div 2) div 3) div 2)
1: ((((7x4 + 16x3 + ~x2 + ~10x) div 2) div 3) div 2)
1: ((((x4 + 4x3 + 4x2) div 2) div 2) div 2)
1: (((x5 div 2) div 3) div 5)
1: (((((x2 + 6x + 9) * loop(\(x,i).(x * ((x + 1) - i)),2,(x + 2))) div 2) div 3) div 2)
1: ((((x3 + 2x2) div 2) div 2) div 2)
1: ((((x2 * (x div 2)) div 2) div 2) div 3)
1: (((x3 div 2) div 3) div 9)
1: (((x3 div (2 - ((x div 2) mod 2))) div 2) div 3)
1: (((((x + 1) * ((1 + ((x - ((x div 3) mod 2)) div 2)) div 2)) div 2) div 2) div 2)
1: (((((x + 3) * ((x + 1) div 2)) div 2) div 2) div 3)
1: ((((((x + 2) div 3) * (1 + (x div 2))) div 2) div 2) div 2)
1: (((((x + 2) * ((1 - (x div 2)) div 3)) div 2) div 2) div 2)
1: ((((((x + ~1) div 2) * (x div 3)) div 2) div 2) div 2)
1: (((((x + 1) * ((x - (2x2 mod 5)) div 2)) div 2) div 2) div 2)
1: ((((x * ((x2 + 4x + 4) div 2)) div 2) div 2) div 2)
1: ((((((x2 + 2x) div 2) * ((x2 + 2x) div 2)) div 2) div 2) div 2)
1: ((((3 * ((~x2 + x) div 2)) div 2) div 2) div 2)
1: ((((x * ((~x2 + 2x) div 4)) div 2) div 2) div 2)
1: ((((3 * ((7x2 + 18x + 8) div 2)) div 2) div 2) div 2)
1: (((((x + 1) * ((x * (~1 + ((x + ~1) div 2))) div 2)) div 2) div 2) div 2)
1: (((((x + 3) * ((x3 + 15x2 + 38x + 24) div 2)) div 2) div 3) div 2)
1: (((((x + 3) * ((x3 + 19x2 + 50x + 32) div 2)) div 2) div 3) div 2)
1: (((((x + 3) * ((x3 + 27x2 + 74x + 48) div 2)) div 2) div 3) div 2)
1: (((((x + 7) * ((x3 + 3x2 + 2x) div 2)) div 2) div 2) div 3)
1: (((((x + 1) * ((5x3 + 9x2 + ~2x) div 2)) div 2) div 3) div 2)
1: (((((x + 3) * ((x3 + ~5x2 + ~22x + ~16) div 2)) div 2) div 3) div 2)
1: (((((x + 3) * ((x4 + 7x3 + 18x2 + 20x + 8) div 2)) div 2) div 2) div 3)
1: (((((x + 2) * (x3 div 2)) div 2) div 2) div 2)
1: ((((x * (((x + 1) * (if x <= 0 then 2 else ((x + 1) div 2))) div 2)) div 2) div 3) div 3)
1: (((((x + 1) * (((x + 2) * loop(\(x,i).x3,1,(x + 3))) div 2)) div 2) div 2) div 3)
1: (((((x + ~1) * ((x * loop(\(x,i).2x,x,loop(\(x,i).x2,(x + ~1),2))) div 2)) div 2) div 2) div 2)
1: (((((x + ~2) * (x2 div 2)) div 2) div 2) div 2)
1: (((((x + 1) * (x2 div 4)) div 2) div 2) div 2)
1: ((((x * (((x + ~1) div 2) div 2)) div 2) div 2) div 3)
1: (((((x + 1) * (x div 2)) div 2) div 2) div 2)
1: (((((x + 2) * (x div 2)) div (~x + 18)) div 2) div 2)
1: (((((x + ~1) * (x div (3 * (8 - (x div 2))))) div 2) div 2) div 2)
1: (((((x + 3) * ((x + 1) mod 7)) div 2) div 2) div 2)
1: (((((x + 1) * ((~x + 2) mod 3)) div 2) div 2) div 2)
1: (((((x + 5) * ((~2x + 2) mod (4 + (x div 4)))) div 2) div 2) div 2)
1: (((((x mod (3 + (x mod 2))) * (x div 2)) div 2) div 2) div 2)
1: ((((3 * ((x mod (x - ((x + ~1) mod 8))) * (2 + (x div 5)))) div 2) div 2) div 2)
1: (((((x + 1) * (if x <= 0 then 1 else (2 * (1 + (((x + 2) div (1 + ((x + 1) mod 3))) div 2))))) div 2) div 2) div 2)
1: (((((x + 1) * loop(\(x,i).((x + 2) + (x div 8)),x,1)) div 2) div 2) div 2)
1: (((((2x + 1) * loop(\(x,i).(1 + (2x * i)),x,1)) div 2) div 2) div 2)
1: (((((x + 4) * loop(\(x,i).(x + (x div 2)),(x + ~1),2)) div 2) div 2) div 2)
1: ((((loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (1 + ((x + 1) div 2))) div 2) div 2) div 2)
1: ((((x * loop(\(x,i).(x * loop(\(x,i).((x2 + ~x) div 2),2,(x + ~2))),1,(x + ~1))) div 2) div 3) div 15)
1: (((((x + 5) * loop(\(x,i).2x,(x + ~1),(x + 2))) div 2) div 2) div 2)
1: (((((8x + 5) * loop(\(x,i).2x,(x mod 5),1)) div 2) div 2) div 2)
1: (((((x + 1) * loop(\(x,i).x2,1,loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x))) div 2) div 2) div 2)
1: (((((x + 1) * loop(\(x,i).((x2 + ~x) div 2),2,(x + 4))) div 3) div 2) div 2)
1: ((((x * loop(\(x,i).((x2 + ~x) div 2),2,(x + ~2))) div 2) div 3) div 15)
1: (((x2 div 2) div (2 + (3 * (8 - (x div 2))))) div 2)
1: (((((x + loop(\(x,i).3x,(x + ~2),x)) div 2) div 2) div 2) div 2)
1: (((((37x2 + 74x + 36) div 2) div 2) div 2) div 2)
1: (((((x2 - ((1 + (x div 4)) mod 2)) div 2) div 2) div 2) div 2)
1: ((((((x + 4) * ((x + 1) + (x div 2))) div 2) div 2) div 2) div 2)
1: ((((((x + 1) * (2 + ((x2 + 2x) div 9))) div 2) div 2) div 2) div 2)
1: (((((x * (2 + (x2 div 4))) div 2) div 2) div 2) div 2)
1: ((((((x + 1) * (1 + (x div (4 + (x mod (2 + (x mod 2))))))) div 2) div 2) div 2) div 2)
1: (((((x * (2 - (x div 2))) div 2) div 2) div 2) div 2)
1: ((((((x + 1) * (2 - (x mod (~1 + ((~x + 2) div 4))))) div 2) div 2) div 2) div 2)
1: ((((((x + 1) * (1 + (x div 4) - (2 * (x mod 2)))) div 2) div 2) div 2) div 2)
1: (((((x3 + 15x2 + 74x + 120) div 2) div 3) div 5) div 4)
1: (((((x3 + ~3x2 + 2x) div 2) div 2) div 2) div 3)
1: (((((x3 + ~4x2 + 4x) div 2) div 2) div 2) div 2)
1: (((((x3 + 2x2) div 2) div 2) div 2) div 5)
1: (((((x * ((~x2 + 2x) div 4)) div 2) div 2) div 2) div 2)
1: ((((((x + ~2) * (x2 div 2)) div 2) div 2) div 2) div 3)
1: ((((((x + 1) * (x2 div 4)) div 2) div 2) div 2) div 3)
1: ((((((x + 3) * ((x + 1) mod 7)) div 2) div 2) div 2) div 2)
1: ((((((x + 1) * loop(\(x,i).((x2 + ~x) div 2),2,(x + 4))) div 3) div 2) div 2) div 2)
1: (((((((x + 1) * (~1 + ((~2x + 2) mod (4 + (x div 4))))) div 2) div 2) div 2) div 2) div 2)
1: ((((((x3 + ~3x2 + 2x) div 2) div 2) div 2) div 2) div 2)
1: ((((((((loop(\(x,i).x2,3,(2x + 1)) div (2x + 1)) div 2) div 2) div 2) div 2) div 2) div 2) div 2)
1: (((((((loop(\(x,i).x2,3,(2x + 1)) div (2x + 1)) div 2) div 2) div 2) div 2) div 2) div 2)
1: ((((((loop(\(x,i).(x + (x div 2)),(x + ~1),2) div 2) div 2) div 2) div 2) div 2) div 2)
1: ((((((loop(\(x,i).x3,1,(4x2 + 4x + 1)) div 2) div 2) div 2) div 2) div 2) div 2)
1: ((((((loop(\(x,i).x2,3,(2x + 1)) div (2x + 1)) div 2) div 2) div 2) div 2) div 2)
1: (((((loop(\(x,i).(x + (x div 2)),(x + ~1),2) div 2) div 2) div 2) div 2) div 2)
1: (((((loop(\(x,i).(x2 + ~2x),2,(x + 4)) div 2) div 2) div 2) div 2) div 3)
1: (((((loop(\(x,i).8x,x,49) div 2) div 2) div 2) div 2) div 2)
1: (((((loop(\(x,i).x3,1,(4x2 + 4x + 1)) div 2) div 2) div 2) div 2) div 2)
1: (((((loop(\(x,i).x2,3,(2x + 1)) div (2x + 1)) div 2) div 2) div 2) div 2)
1: ((((loop(\(x,i).((x + 1) + (x div (2 + (x mod 3)))),x,0) div 2) div 2) div 2) div 2)
1: ((((loop(\(x,i).(x2 + 1),2,(x + 3)) div 2) div 2) div 2) div 3)
1: ((((loop(\(x,i).(x + (x2 div 4)),2,(x + ~2)) div 2) div 2) div 2) div 2)
1: ((((loop(\(x,i).(x + (x div 2)),(x + ~1),2) div 2) div 2) div 2) div 2)
1: ((((loop(\(x,i).(x + (x div 2)),(x + ~2),2) div 2) div 2) div 2) div 2)
1: ((((loop(\(x,i).(x * (1 + (x div 5))),1,(13x + 13)) div 2) div 2) div 2) div 2)
1: ((((loop(\(x,i).(2x + 2),(x div 2),(x mod 2)) div 2) div 2) div 2) div 2)
1: ((((loop(\(x,i).(x3 + ~x),1,(x + 4)) div 2) div 2) div 3) div 5)
1: ((((loop(\(x,i).(x3 + ~x),1,(x2 + 4x + 4)) div 2) div 2) div 3) div 5)
1: ((((loop(\(x,i).(x3 + ~x),1,(x2 + 2x)) div 2) div 2) div 2) div 3)
1: ((((loop(\(x,i).(x2 + ~2x),2,(x + 4)) div 2) div 2) div 2) div 2)
1: ((((loop(\(x,i).(x * (x - i)),2,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2) div 2) div 2) div 3)
1: ((((loop(\(x,i).8x,x,(9x + 7)) div 2) div 2) div 2) div 2)
1: ((((loop(\(x,i).8x,x,49) div 2) div 2) div 2) div 2)
1: ((((loop(\(x,i).x3,1,(4x2 + 4x + 1)) div 2) div 2) div 2) div 2)
1: ((((loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x))) div 2) div 2) div 2) div 3)
1: ((((loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2) div 2) div 2) div 2)
1: ((((loop(\(x,i).x2,1,(x - ((x2 + 2x) div 8))) div 2) div 2) div 2) div 2)
1: ((((loop(\(x,i).x2,2,(10x + 3)) div 2) div 2) div 3) div 2)
1: ((((loop(\(x,i).x2,3,(2x + 1)) div (2x + 1)) div 2) div 2) div 2)
1: ((((24 mod (~x + ~1)) div 2) div 2) div 2)
1: (((loop(\(x,i).((x + 1) + (2 * (x div 5))),(x + 1),2) div 2) div 2) div 2)
1: (((loop(\(x,i).((x + 2) + ((((x + 1) + (x div 4)) div 2) div 2)),x,1) div 2) div 2) div 2)
1: (((loop(\(x,i).((x + 2) + (x div 5)),x,2) div 2) div 2) div 2)
1: (((loop(\(x,i).(x + ((x div 7) + ((x + 1) div 3))),x,2) div 2) div 2) div 2)
1: (((loop(\(x,i).((x + 1) + (x div (2 + (x mod 3)))),x,0) div 2) div 2) div 2)
1: (((loop(\(x,i).((2x + 1) - (x div 3)),x,0) div 2) div 2) div 2)
1: (((loop(\(x,i).(5x + 2),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2) div 2) div 2)
1: (((loop(\(x,i).(x2 + 1),2,(x + 3)) div 2) div 2) div 2)
1: (((loop(\(x,i).(x + ((i * i * i * i) div 2)),(x + 1),0) div 2) div 2) div 2)
1: (((loop(\(x,i).(x + (x2 div 4)),2,(x + ~2)) div 2) div 2) div 2)
1: (((loop(\(x,i).(x + (x div 2)),(x + ~1),2) div 2) div 2) div 2)
1: (((loop(\(x,i).(x + (x div 2)),(x + ~2),2) div 2) div 2) div 2)
1: (((loop(\(x,i).(x2 + 2x + ~2),1,loop(\(x,i).(2x + (i mod 2)),x,0)) div 2) div 2) div 2)
1: (((loop(\(x,i).3x,(x + ~1),loop(\(x,i).(x2 + x),1,loop(\(x,i).(x * i),x,1))) div 2) div 2) div 2)
1: (((loop(\(x,i).(x * (4 + (x div 4))),1,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2) div 2) div 3)
1: (((loop(\(x,i).(x3 + 2x2 + 2x),1,(x2 + 3x + 2)) div 2) div 5) div 2)
1: (((loop(\(x,i).(x * (1 + (x div 5))),1,(13x + 13)) div 2) div 2) div 2)
1: (((loop(\(x,i).(2x + 2),(x div 2),(x mod 2)) div 2) div 2) div 2)
1: (((loop(\(x,i).(2x + 2),x,(~x + 17)) div 2) div 2) div 2)
1: (((loop(\(x,i).(2x + 2),x,(3x + 6)) div 2) div 2) div 2)
1: (((loop(\(x,i).(x2 + x),1,(2 - (if (x mod 3) <= 0 then x else 0))) div 2) div 3) div 2)
1: (((loop(\(x,i).(x2 + x),1,(~2 + loop(\(x,i).10x,(x + 1),2))) div 2) div 15) div 2)
1: (((loop(\(x,i).(x2 + 2x),1,((if (x mod 2) <= 0 then 2 else 0) + (x div 2))) div 2) div 2) div 2)
1: (((loop(\(x,i).(x2 + 2x),1,loop(\(x,i).(2x + (i mod 2)),x,0)) div 2) div 2) div 2)
1: (((loop(\(x,i).(x2 + 2x),1,loop(\(x,i).(((x + 1) - (2 * (i mod 2))) * i),x,1)) div 2) div 2) div 2)
1: (((loop(\(x,i).(x * (2 + i)),(13x + 13),1) div 2) div 2) div 2)
1: (((loop(\(x,i).(x * (2 + i)),(16x + 16),1) div 2) div 2) div 2)
1: (((loop(\(x,i).11x,x,(1 + (x mod 2))) div 2) div 2) div 2)
1: (((loop(\(x,i).((2x + ~1) * (x div 2)),1,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2) div 2) div 2)
1: (((loop(\(x,i).(x3 + ~x),1,(x + 4)) div 2) div 2) div 3)
1: (((loop(\(x,i).(x3 + ~x),1,(x2 + 2x)) div 2) div 2) div 2)
1: (((loop(\(x,i).(x2 + ~x),1,(loop(\(x,i).loop(\(x,i).2x,x,x),x,1) div 2)) div 2) div 2) div 2)
1: (((loop(\(x,i).(x2 + ~2x),2,(x + 4)) div 2) div 2) div 2)
1: (((loop(\(x,i).(x * (x - i)),2,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2) div 2) div 2)
1: (((loop(\(x,i).(x * ((1 + (2 * i)) * (1 + (2 * i)))),x,1) div 2) div 2) div 2)
1: (((loop(\(x,i).8x,x,(9x + 7)) div 2) div 2) div 2)
1: (((loop(\(x,i).8x,x,49) div 2) div 2) div 2)
1: (((loop(\(x,i).(x6 + ~x4),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2) div 2) div 2)
1: (((loop(\(x,i).(x6 + ~x4),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2) div 2) div 3)
1: (((loop(\(x,i).(x4 * (x2 div 2)),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2) div 2) div 3)
1: (((loop(\(x,i).(x5 + ~x3),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2) div 2) div 2)
1: (((loop(\(x,i).(x3 * (x2 div 2)),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2) div 2) div 3)
1: (((loop(\(x,i).(x2 * (x4 div 2)),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2) div 3) div 5)
1: (((loop(\(x,i).4x,x,(5x + 3)) div 2) div 2) div 2)
1: (((loop(\(x,i).(2x2 + 2x),(x + 1),3) div 2) div 2) div loop(\(x,i).2x,x,1))
1: (((loop(\(x,i).(x3 + x2),1,loop(\(x,i).(2x + 2),x,0)) div 2) div 2) div 2)
1: (((loop(\(x,i).(x3 + x2),1,loop(\(x,i).(2x + 2),x,2)) div 2) div 2) div 3)
1: (((loop(\(x,i).x3,1,(4x2 + 4x + 1)) div 2) div 2) div 2)
1: (((loop(\(x,i).x3,1,loop(\(x,i).8x2,x,3)) div 2) div 2) div 2)
1: (((loop(\(x,i).(x * (x2 div 2)),1,(2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))) div 2) div 2) div 3)
1: (((loop(\(x,i).(x * (x2 div 2)),1,loop(\(x,i).(~2x + 1),x,3)) div 2) div 3) div 2)
1: (((loop(\(x,i).(x * (x div 2)),1,loop(\(x,i).(2x + i),x,0)) div 2) div 2) div 2)
1: (((loop(\(x,i).2x,x,(8 + (((x3 + ~3x2 + 2x) div 2) div 3))) div 2) div 2) div 2)
1: (((loop(\(x,i).2x,x,(x2 + 7x + 8)) div 2) div 2) div 2)
1: (((loop(\(x,i).x2,1,((x + 1) + (x div 3))) div 2) div 2) div 3)
1: (((loop(\(x,i).x2,1,(1 + (2 * (1 + ((2x + 1) mod (1 + (2x mod (3 + (x div 4))))))))) div 2) div 2) div 2)
1: (((loop(\(x,i).x2,1,((3 * (x div 2)) + (x div 3))) div 2) div 2) div 2)
1: (((loop(\(x,i).x2,1,(1 + ((if (x mod 2) <= 0 then 2 else 0) + (x div 2)))) div 2) div 2) div 2)
1: (((loop(\(x,i).x2,1,(1 + loop(\(x,i).(2 * ((5x + 1) + i)),x,2))) div 2) div 2) div 2)
1: (((loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x))) div 2) div 2) div 2)
1: (((loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2) div 2) div 2)
1: (((loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2) div 2) div 5)
1: (((loop(\(x,i).x2,1,(1 + compr(\x.(loop(\(x,i).(~2x + 4),x,1) mod (x + 1)),x))) div 2) div 2) div 2)
1: (((loop(\(x,i).x2,1,(1 - (2 * ((2x + 1) - (x mod (1 + ((x2 + ~x) mod 8))))))) div 2) div 2) div 3)
1: (((loop(\(x,i).x2,1,(~1 + (2 * ((x + 1) + ((2 * (1 + (((1 + (loop(\(x,i).(2x + 1),x,loop(\(x,i).3x,x,1)) div 3)) div 2) div 2))) div 3))))) div 2) div 2) div 2)
1: (((loop(\(x,i).x2,1,(~1 + (9 * (x mod 5)))) div 2) div 2) div 2)
1: (((loop(\(x,i).x2,1,(x - ((x2 + 2x) div 8))) div 2) div 2) div 2)
1: (((loop(\(x,i).x2,1,(((x + 1) * (x3 div 2)) div 2)) div 2) div 2) div 2)
1: (((loop(\(x,i).x2,2,(10x + 3)) div 2) div 2) div 3)
1: (((loop(\(x,i).x2,3,(2x + 1)) div (2x + 1)) div 2) div 2)
1: (((loop(\(x,i).(x * i),x,((x3 + ~3x2 + 2x) div 2)) div 2) div 3) div 3)
1: (((loop(\(x,i).(x * i),x,(if (x + ~1) <= 0 then ~1 else (x2 + 2x))) div 2) div 2) div 2)
1: (((loop(\(x,i).((x2 + ~x) div 2),2,(x + ~1)) div 2) div 2) div 3)
1: (((loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,(x + ~1)) div 2) div 2) div 2)
1: (((loop(\(x,i).(x3 div 2),1,(x2 + 2x + 1)) div 2) div 2) div 3)
1: (((loop(\(x,i).((x * ((x + 1) div 2)) div 2),2,(x + ~1)) div 2) div 2) div 2)
1: (((loop(\(x,i).(x4 mod 27),2,(2x + 1)) div 2) div 2) div 3)
1: (((loop(\(x,i).loop(\(x,i).x2,2,x3),1,(10x + 1)) div 2) div 2) div 3)
1: (((loop(\(x,i).loop(\(x,i).x2,2,x3),x,9) div 2) div 2) div 2)
1: (((x div 2) div 3) div (1 + ((x + 1) mod 5)))
1: (((x div 2) div 3) div (1 + ((x + ~1) mod 3)))
1: (((x div 2) div 3) div (1 + (x mod (1 + ((~x + 2) mod 4)))))
1: (((x div 2) div 3) div ((x2 + 2) mod 5))
1: (((x div 2) div (2 - ((x div 2) mod 2))) div 3)
1: (((x div (~2 + (x mod ~2))) div 2) div 2)
1: ((((1 + (2 * ((x + 1) + (((x + 2) + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)) div 3)))) mod (x + 1)) div 2) div 2)
1: ((((1 + (3 * ((1 - ((2x + ~1) mod (4 + (x div 4)))) mod (x + 3)))) mod (x + 1)) div 2) div 2)
1: ((((x2 + 1) mod (x + 4)) div 2) div 3)
1: ((((2 + (x div (2 + (x mod 2)))) mod 3) div 2) div (~1 + ((~2x + 2) mod (4 + (x div 4)))))
1: ((((x + (x mod 2)) mod 5) div 2) div 2)
1: ((((1 - (2 * (x mod 5))) mod (x + 3)) div 2) div 2)
1: ((((1 - ((x div 2) div (~1 + (2 * (x mod 4))))) mod (x + 1)) div 2) div 2)
1: ((((1 - (x div 4)) mod (x + 1)) div 2) div 2)
1: ((((1 - (x div (2 - (x mod ~7)))) mod (x + 1)) div 2) div 2)
1: ((((1 - ((x + 1) mod 8)) mod (2x + 1)) div 3) div 2)
1: ((((1 - ((2x + ~1) mod (4 + (x div 4)))) mod (2x + 1)) div 3) div 2)
1: ((((1 - (3x mod (2 + (x div 2)))) mod (x + 1)) div 2) div 2)
1: ((((2 - ((if (x mod 4) <= 0 then 0 else 2) + (x div 4))) mod (x + 1)) div 2) div 2)
1: ((((3 - (x div 2)) mod (x + 1)) div 2) div 2)
1: ((((2 - (((~1 + (x div 2)) * (x div 3)) div 2)) mod (x + 1)) div 2) div 2)
1: ((((2 - (x div 2)) mod (2x + 1)) div 2) div 2)
1: ((((2 - (x div 3)) mod (x + 3)) div 2) div 2)
1: ((((2 - ((x + 2) mod ~7)) mod (x + 1)) div 2) div 2)
1: ((((2 - (2x mod (6 + (x mod 2)))) mod (x + 1)) div 2) div 2)
1: ((((2 - (2x mod (2 + (x div 2)))) mod (x + 3)) div 2) div 2)
1: ((((2 - ((if (x mod 2) <= 0 then (~x + 2) else x) mod 7)) mod (x + 1)) div 2) div 2)
1: ((((2 - (x mod (6 + (x mod 3)))) mod (x + 1)) div 2) div 2)
1: ((((~x + 2) mod (2x + 1)) div 2) div 2)
1: ((((~1 + (2 * (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 8)))) mod (x + 1)) div 2) div 2)
1: ((((~1 + (x * (x mod 4))) mod (2 + (x div 2))) div 2) div 2)
1: ((((~1 + (2 * (x mod 5))) mod (x + 1)) div 2) div 2)
1: ((((~1 + (2 * (x mod 6))) mod (x + 1)) div 2) div 2)
1: ((((x2 + ~2) mod (2 + (x div 2))) div 2) div 2)
1: ((((~1 + loop(\(x,i).2x,x,((x mod 6) - (x mod 5)))) mod (x + 1)) div 2) div 2)
1: ((((x + ~2) mod (2 + (x div 2))) div 2) div 2)
1: ((((2 * (x + (2 * ((3 * (x3 mod 17)) div (x + 1))))) mod (x + 1)) div 2) div 2)
1: ((((5 * (2 + (2 * (if (x mod 3) <= 0 then 0 else 2)))) mod (x + 1)) div 2) div 2)
1: ((((2 * (1 + ((1 + (((loop(\(x,i).(x + (if x <= 0 then 1 else ((x * (x mod 2)) + (x div 2)))),x,1) div 2) div 2) + (x mod 2))) div 2))) mod (x + 1)) div 2) div 2)
1: ((((2 * (1 + ((1 + ((x2 + ~x) div (3 * (if ((x + ~2) mod (2 + (x mod 2))) <= 0 then 1 else 2)))) div 2))) mod (x + 1)) div 2) div 2)
1: ((((2 * (1 + ((1 + (((2x3 + 5x2 + ~3x) div 2) div 3)) div 2))) mod (x + 1)) div 2) div 2)
1: ((((2 * (x + (if x <= 0 then 1 else (x - loop(\(x,i).loop(\(x,i).((x + ~1) - (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)),x,x),1,2x))))) mod (x + 1)) div 2) div 2)
1: ((((5 * (2 + compr(\x.(1 - (x mod (1 + (if (x mod 8) <= 0 then 2 else 1)))),x))) mod (x + 2)) div 2) div 2)
1: ((((3 * ((x div 2) - (2 * (x mod 2)))) mod (x + 1)) div 2) div 2)
1: ((((2 * (~2 + ((x div 2) mod 3))) mod (x + 1)) div 2) div 2)
1: ((((2x + ~2) mod (2 + (x div 2))) div 2) div 2)
1: ((((x2 + ~x) mod (3 * (1 + (x div 3)))) div 2) div 2)
1: (((24 mod (~x + ~1)) div 2) div 2)
1: ((((6 * (1 + (2 * (1 + (x mod 2))))) mod (x + 1)) div 2) div 2)
1: ((((4 * (x - (x mod (3 + (x mod 2))))) mod (x + 1)) div 2) div 2)
1: (((32 mod (x + 1)) div 2) div 2)
1: (((32 mod (~x + ~1)) div 2) div 2)
1: ((((8 * (2 + (x mod 3))) mod (x + 1)) div 2) div 2)
1: (((4x mod 9) div 2) div 2)
1: (((x4 mod (2x + ~1)) div 2) div 2)
1: (((x3 mod (2x + 5)) div 2) div 2)
1: (((x3 mod (x - ((~x + 2) div 2))) div 2) div 2)
1: ((((3 * ((x * (x mod 4)) div 2)) mod (x + 1)) div 2) div 2)
1: ((((2 * (x2 div 2)) mod (2 + (x div 2))) div 2) div 2)
1: (((((x div 2) * (x div 2)) mod (if x <= 0 then 1 else x)) div 2) div 2)
1: ((((3 * ((x + ~1) mod 4)) mod (x + 1)) div 2) div 2)
1: ((((3 * ((x + ~1) mod 8)) mod (x + 1)) div 2) div 2)
1: ((((3 * ((x2 div 4) mod (2x + 1))) mod (x + 1)) div 2) div 2)
1: ((((2 * (x mod (~2 + (x div ~4)))) mod (x + 1)) div 2) div 2)
1: (((2x mod (1 + (x mod 8))) div 2) div 2)
1: (((x2 mod (x + 9)) div 2) div 2)
1: (((x2 mod (3x + 2)) div 2) div 2)
1: (((x2 mod (2 + (8 mod (x + 1)))) div 2) div 2)
1: (((x2 mod ((x + ~2) + (x div 2))) div 2) div 3)
1: (((x2 mod (~1 + (2 * ((x + ~1) div 2)))) div 2) div 2)
1: (((((x2 + (x div 2)) div 2) mod (2 + (x div 2))) div 2) div 2)
1: (((((2 - (x div 2)) div 2) mod (x + 2)) div 2) div 2)
1: (((((x3 + 2x2) div 2) mod (x + 5)) div 2) div 3)
1: ((((x2 div 2) mod (x + 3)) div 2) div 2)
1: ((((x2 div 3) mod (x + 1)) div 2) div 2)
1: ((((x2 div 4) mod (3 * (1 + (x div 4)))) div 2) div 2)
1: (((((x2 div 2) div 3) mod (x + 1)) div 2) div 2)
1: ((((if x <= 0 then 2 else (1 + loop(\(x,i).(x * (x + i)),2,3))) mod (x + 2)) div 2) div 2)
1: (((loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,1) mod (x + 2)) div 2) div 2)
1: (((loop(\(x,i).(~2x + 1),(x div 2),2) mod (x + 1)) div 2) div 2)
1: (((loop(\(x,i).((~2x + 1) - (x div 4)),x,3) mod (x + 1)) div 2) div 2)
1: (((loop(\(x,i).(~2x + 6),x,1) mod (x + 1)) div 2) div 2)
1: (((loop(\(x,i).(2x + 4),5,2) mod (x + 1)) div 2) div 2)
1: (((loop(\(x,i).(~2x + 4),(x mod 5),0) mod (x + 1)) div 2) div 2)
1: (((loop(\(x,i).2x,(x + 1),~2) mod (x + 1)) div 2) div 2)
1: (((loop(\(x,i).2x,x,x) mod (x + 1)) div 2) div 2)
1: (((x mod (5 + (x mod 2))) div 2) div 2)
1: (((x mod (2 + ((~x + 1) mod 8))) div 2) div 2)
1: (((x mod (1 + (x mod 6))) div 2) div 2)
1: (((if ((x div 3) - (x mod 4)) <= 0 then 0 else x) div 2) div 3)
1: (((if (x + ~2) <= 0 then 2 else ((x + 1) div 2)) div 2) div (1 + (2 * (x mod 2))))
1: (((if ((x + 1) mod (2 + ((x div 2) mod 2))) <= 0 then x else 1) div 2) div 2)
1: (((if ((~2x + 2) mod (4 + (x div 4))) <= 0 then x else 0) div 2) div 2)
1: (((if (2x mod (4 + (x div 4))) <= 0 then (x + 3) else 0) div (1 + (x div 5))) div 2)
1: (((if ((x div 2) mod 3) <= 0 then x else (x + 2)) div 2) div 2)
1: (((if x <= 0 then 1 else (2 * (1 + ((1 + (((~1 + (6 * (1 + loop(\(x,i).(if x <= 0 then 2 else (2 * (2x - (x div (1 + i))))),x,0)))) div 2) div 2)) div 2)))) div (x + 1)) div 2)
1: ((loop(\(x,i).((x + 2) + (((x div 2) div 3) + (x div 5))),x,0) div 2) div 3)
1: ((loop(\(x,i).((x + 4) + (x div 3)),x,2) div 2) div 2)
1: ((loop(\(x,i).((9x + 1) + ((x + 1) mod 3)),(x + 1),2) div 2) div 3)
1: ((loop(\(x,i).((x + 1) + (2 * (x div 5))),(x + 1),2) div 2) div 2)
1: ((loop(\(x,i).((x + 1) + ((x + (2 * (3x div 7))) div 3)),x,1) div 2) div 2)
1: ((loop(\(x,i).((x + 1) + ((1 + ((x + (x div 4)) div 2)) div 2)),x,1) div 2) div 2)
1: ((loop(\(x,i).((x + 2) + ((x + (if (x + ~2) <= 0 then 1 else ((x + 1) div 7))) div 2)),x,1) div 2) div 2)
1: ((loop(\(x,i).((x + 1) + ((x + i) div 5)),x,1) div 2) div 2)
1: ((loop(\(x,i).((x + 2) + ((2x + 4) div (4 + (x div 8)))),x,0) div 2) div 2)
1: ((loop(\(x,i).((x + 2) + (((2 + i) * i) div 2)),x,0) div 2) div 2)
1: ((loop(\(x,i).((x + 2) + ((2 * (x div 3)) div 3)),x,1) div 2) div 2)
1: ((loop(\(x,i).((2x + 1) + (x2 div 3)),(x + 1),x) div 2) div 2)
1: ((loop(\(x,i).((x + 2) + ((((x + 1) + (x div 4)) div 2) div 2)),x,1) div 2) div 2)
1: ((loop(\(x,i).((x + 2) + (((x + 1) div 2) div 3)),(x + 5),1) div 2) div 2)
1: ((loop(\(x,i).((x + 1) + ((x mod (2 + (6 mod (1 + (x div 2))))) div 2)),x,1) div 2) div 2)
1: ((loop(\(x,i).((x + 2) + (x div 3)),x,1) div 2) div (2x + ~1))
1: ((loop(\(x,i).((x + 2) + (x div 4)),x,1) div 2) div 2)
1: ((loop(\(x,i).((x + 1) + (x div 5)),x,1) div 2) div 2)
1: ((loop(\(x,i).((x + 2) + (x div 5)),x,2) div 2) div 2)
1: ((loop(\(x,i).((x + 2) + (x div (4 + ((x mod 3) div 2)))),x,1) div 2) div 2)
1: ((loop(\(x,i).(x + ((x div 7) + ((x + 1) div 3))),x,2) div 2) div 2)
1: ((loop(\(x,i).((x + 2) + (x div 9)),x,1) div 2) div 2)
1: ((loop(\(x,i).((x + 1) + (x div (2 + (x mod 3)))),x,0) div 2) div 2)
1: ((loop(\(x,i).((x + 1) + (x div (1 + (x mod 4)))),x,3) div 2) div 2)
1: ((loop(\(x,i).(x + ((x div 8) + (i div 2))),x,2) div 2) div 2)
1: ((loop(\(x,i).(7x + (((x + 1) div ~7) mod 2)),x,1) div 2) div 2)
1: ((loop(\(x,i).((5x + 1) - (x mod 3)),(x + 1),1) div 2) div 3)
1: ((loop(\(x,i).((2x + 1) - (x div 3)),x,0) div 2) div 2)
1: ((loop(\(x,i).((2x + 1) - (x div (2 + (if (x mod 2) <= 0 then 1 else 8)))),x,1) div 2) div 2)
1: ((loop(\(x,i).(5x + 2),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2) div 2)
1: ((loop(\(x,i).(5x + 2),x,2) div 3) div 3)
1: ((loop(\(x,i).(7x + 3),(x + 1),1) div 2) div 5)
1: ((loop(\(x,i).(x + ((2x + 1) * i)),x,0) div 2) div (x + 1))
1: ((loop(\(x,i).(((x + 1) * (1 + i)) + (x div 2)),x,2) div 2) div 2)
1: ((loop(\(x,i).(x + ((1 + i) * i)),(1 + (x div 2)),x) div 2) div 2)
1: ((loop(\(x,i).((~2x + 4) + (x div 2)),(x + 1),3) div 2) div 2)
1: ((loop(\(x,i).(x + ((~1 + (i * i)) * i * i)),x,0) div 2) div 2)
1: ((loop(\(x,i).(x + ((2 + i) * i * i * (1 + i))),(x + 1),0) div 2) div 3)
1: ((loop(\(x,i).(2 + (x2 * i)),(x + ~2),0) div 2) div 2)
1: ((loop(\(x,i).(2x + 1),(x + 1),(6x2 + 12x + 6)) div 3) div (2x + 2))
1: ((loop(\(x,i).(2x + 1),((x + 1) div 2),(1 + (x div 2))) div (2 + (x mod 2))) div 3)
1: ((loop(\(x,i).(x2 + 1),2,(x + 3)) div 2) div 2)
1: ((loop(\(x,i).(x + (i * i)),(x + 2),1) div 2) div 3)
1: ((loop(\(x,i).(1 + ((x + (x2 div 4)) div 3)),2,x) div 2) div 2)
1: ((loop(\(x,i).(x + (5x div (1 + i))),x,6) div 3) div (x + 2))
1: ((loop(\(x,i).(1 + ((2 * (1 + (if x <= 0 then 0 else ((x + 5) + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2))))) div 3)),2,x) div 2) div 2)
1: ((loop(\(x,i).(2 + ((x * (x + i)) div 2)),2,x) div 2) div 3)
1: ((loop(\(x,i).(x + ((i * i * i * i) div 2)),(x + 1),0) div 2) div 2)
1: ((loop(\(x,i).(x + (x2 div 4)),2,(x + ~2)) div 2) div 2)
1: ((loop(\(x,i).(x + ((i * i) div 3)),x,0) div 2) div 2)
1: ((loop(\(x,i).(x + (x div 2)),(x + ~1),2) div 2) div 2)
1: ((loop(\(x,i).(x + (x div 2)),(x + ~1),2) div (x + 2)) div 2)
1: ((loop(\(x,i).(x + (x div 2)),(x + ~2),2) div 2) div 2)
1: ((loop(\(x,i).(x + (x div 4)),(x + ~1),4) div 2) div 2)
1: ((loop(\(x,i).(x + (x div (2 + (x mod 2)))),x,2) div 2) div 2)
1: ((loop(\(x,i).(1 + ((1 + ((x + 1) mod (1 + (x div (2 + (x mod (2 + (x mod 2)))))))) mod (x + 1))),2,x) div 2) div 2)
1: ((loop(\(x,i).(x + ((2 - (x div 3)) mod 4)),2,x) div 2) div 2)
1: ((loop(\(x,i).(2x + (i mod 2)),x,(1 + (x mod 2))) div 2) div 2)
1: ((loop(\(x,i).(x + (if (~2 + (x div 2)) <= 0 then 1 else i)),x,1) div 2) div 2)
1: ((loop(\(x,i).(x + (if ((x + 1) mod 10) <= 0 then (x + 2) else 1)),x,x) div 2) div 2)
1: ((loop(\(x,i).(x + (if x <= 0 then 1 else ((x * (x mod 2)) + (x div 2)))),x,1) div 2) div 2)
1: ((loop(\(x,i).(x + loop(\(x,i).(x * (2 + i)),i,1)),(x + 1),1) div 2) div 2)
1: ((loop(\(x,i).(1 + loop(\(x,i).10x,(1 + i),x)),x,1) div 2) div 5)
1: ((loop(\(x,i).(x + loop(\(x,i).(loop(\(x,i).(x + (i * i)),x,0) mod (x + 1)),1,i)),x,0) div 2) div 2)
1: ((loop(\(x,i).(x + i),((if (x mod 2) <= 0 then 2 else 0) + (x div 2)),1) div 2) div 2)
1: ((loop(\(x,i).(x + i),((x - ((x div 2) mod 2)) div 2),1) div 2) div 2)
1: ((loop(\(x,i).(1 - loop(\(x,i).(~1 + (2 * loop(\(x,i).(x div (1 + (x mod 2))),x,x))),2x,x)),1,(x + 1)) div 2) div 2)
1: ((loop(\(x,i).(~x + 1),(x + ~2),(2 + (x div 2))) div 2) div 2)
1: ((loop(\(x,i).(~1 + (((x2 + ~x) div 2) + i)),x,(~x + 1)) div 2) div 3)
1: ((loop(\(x,i).(3x + ~1),(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1) div 2) div 2)
1: ((loop(\(x,i).((4x + 4) - ((~2x + 2) div 5)),2,x) div 2) div 2)
1: ((loop(\(x,i).(5x + ~1),(x + 1),(x + 1)) div 2) div 2)
1: ((loop(\(x,i).(5x + ~1),(x + 1),x) div 2) div 2)
1: ((loop(\(x,i).((6x + 4) - ((2x + 4) div 5)),x,3) div 2) div 3)
1: ((loop(\(x,i).(3x + 5),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2) div 2)
1: ((loop(\(x,i).(x2 + 2x + ~2),1,loop(\(x,i).(2x + (i mod 2)),x,0)) div 2) div 2)
1: ((loop(\(x,i).(~2 + (x * (x - i))),2,(x + 4)) div 2) div 2)
1: ((loop(\(x,i).(20x + ~21),x,1) div 2) div 2)
1: ((loop(\(x,i).((2x + 1) - ((x - ((3 * ((x div 2) div 3)) div 2)) div 2)),x,1) div 2) div 2)
1: ((loop(\(x,i).(2x - ((x - (2 * (x mod 2))) div 3)),x,2) div 2) div 2)
1: ((loop(\(x,i).(~x2 + loop(\(x,i).2x,x,1)),1,(2 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x))) div 3) div 2)
1: ((loop(\(x,i).((3x + 1) - (i mod 2)),x,1) div 2) div 2)
1: ((loop(\(x,i).((x + 1) - (2 * (~2x + i))),x,1) div 2) div 2)
1: ((loop(\(x,i).((x + 1) - ((~x + 1) div 3)),x,1) div 2) div 2)
1: ((loop(\(x,i).((x + 1) - ((~x + 2) div 5)),x,1) div 2) div 2)
1: ((loop(\(x,i).(7x + ~3),(x + 1),5) div 2) div 5)
1: ((loop(\(x,i).(x - (2 * (~x + (x div 3)))),x,1) div 2) div 2)
1: ((loop(\(x,i).(x - (2 * (~x + (i mod 2)))),x,1) div 2) div 2)
1: ((loop(\(x,i).(x - (2 * (~x + (i mod 2)))),x,1) div 2) div 7)
1: ((loop(\(x,i).(x - (((~x + 1) - i) div 5)),x,1) div 2) div 3)
1: ((loop(\(x,i).(x - ((1 - (x div 2)) div 3)),x,18) div 2) div 2)
1: ((loop(\(x,i).(x - ((~x + (x div (if i <= 0 then 1 else i))) div 2)),x,1) div 2) div 2)
1: ((loop(\(x,i).(x - ((~x + (i mod 2)) div 2)),x,1) div 2) div 2)
1: ((loop(\(x,i).(x - (x div ~8)),x,1) div 2) div 2)
1: ((loop(\(x,i).3x,(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 1))),1) div 2) div 3)
1: ((loop(\(x,i).3x,(2 - ((~x + 2) div (2 + (x div 2)))),1) div (x + 1)) div 2)
1: ((loop(\(x,i).3x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),3) div 2) div 2)
1: ((loop(\(x,i).3x,(x + ~1),loop(\(x,i).(x2 + x),1,loop(\(x,i).(x * i),x,1))) div 2) div 2)
1: ((loop(\(x,i).3x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 3) div (4 - ((x div 2) mod 2)))
1: ((loop(\(x,i).3x,(x div 2),1) div (if (x mod 3) <= 0 then 1 else 2)) div 2)
1: ((loop(\(x,i).3x,loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1) div 2) div 3)
1: ((loop(\(x,i).3x,x,3) div (x2 + 2x + 1)) div (x + 1))
1: ((loop(\(x,i).3x,x,(x2 + 7x + 6)) div 2) div 3)
1: ((loop(\(x,i).5x,(1 + (x div 2)),(if (x mod 2) <= 0 then 1 else 4)) div 2) div 2)
1: ((loop(\(x,i).5x,(x + 1),2) div 3) div 3)
1: ((loop(\(x,i).5x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2) div 7)
1: ((loop(\(x,i).5x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2) div 9)
1: ((loop(\(x,i).(x * (4 + (x div 4))),1,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2) div 2)
1: ((loop(\(x,i).(2 * ((x + 2) + (i mod 2))),x,(x + 2)) div 2) div 3)
1: ((loop(\(x,i).(2 * ((x + 2) + (i mod 2))),x,x) div 2) div 3)
1: ((loop(\(x,i).(x * (3 + i)),x,(3x + 4)) div 2) div 2)
1: ((loop(\(x,i).(2 * ((x + 3) - ((~x + 1) div 3))),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2) div 2)
1: ((loop(\(x,i).(8x + 10),x,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2) div 3)
1: ((loop(\(x,i).(x * (1 + (2 * (4 + (i mod 2))))),(x + 1),1) div 3) div 3)
1: ((loop(\(x,i).(x3 + 2x2 + 2x),1,(x2 + 3x + 2)) div 2) div 5)
1: ((loop(\(x,i).(4 * (4x + i)),(x + 1),0) div 2) div 2)
1: ((loop(\(x,i).(2x2 + x),1,loop(\(x,i).(4x + 2),x,2)) div 2) div 5)
1: ((loop(\(x,i).((1 + (x * i)) * (i div 2)),x,1) div 2) div 2)
1: ((loop(\(x,i).((x + 1) * (x + (i * i))),2,x) div 2) div 3)
1: ((loop(\(x,i).((x + (x div 2)) * (x div 2)),1,loop(\(x,i).3x,x,3)) div 2) div 2)
1: ((loop(\(x,i).(x * (1 + (x div 5))),1,(13x + 13)) div 2) div 2)
1: ((loop(\(x,i).(2x + 2),x,(~x + 17)) div 2) div 2)
1: ((loop(\(x,i).(2x + 2),x,(1 + ((2 * (1 + ((1 + ((compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + ((x + ~1) div 3)) div 2)) div 2))) div 3))) div 2) div 2)
1: ((loop(\(x,i).(2x + 2),x,(3x + 6)) div 2) div 2)
1: ((loop(\(x,i).(2x + 2),x,(if x <= 0 then 1 else (2 * (1 + ((1 + ((x + ((1 + (((loop(\(x,i).3x,(x + ~1),loop(\(x,i).(x2 + x),1,loop(\(x,i).(x * i),x,1))) div 2) div 2) div 2)) div 2)) div 2)) div 2))))) div 2) div 2)
1: ((loop(\(x,i).(x2 + x),1,(2 + (x div 2) - (x mod 2))) div 2) div 3)
1: ((loop(\(x,i).(x2 + x),1,((x3 + x2) + (x mod 2))) div 2) div 2)
1: ((loop(\(x,i).(x2 + x),1,(1 + ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3))) div 2) div 2)
1: ((loop(\(x,i).(x2 + x),1,(1 + loop(\(x,i).10x,(x + 1),1))) div 3) div 5)
1: ((loop(\(x,i).(x2 + x),1,(1 + loop(\(x,i).10x,x,2))) div 2) div 3)
1: ((loop(\(x,i).(x2 + x),1,(2 - (if (x mod 3) <= 0 then x else 0))) div 2) div 3)
1: ((loop(\(x,i).(x2 + x),1,(~2 + loop(\(x,i).10x,(x + 1),2))) div 2) div 15)
1: ((loop(\(x,i).(x2 + x),1,(~1 + loop(\(x,i).x2,1,(2x + 4)))) div 2) div 3)
1: ((loop(\(x,i).(x2 + x),1,(18x + 8)) div 2) div 3)
1: ((loop(\(x,i).(x2 + x),1,(x3 + 7x2 + 15x + 9)) div 2) div 3)
1: ((loop(\(x,i).(x2 + x),1,(~4x + ~44)) div 2) div 2)
1: ((loop(\(x,i).(x2 + x),1,(5 * ((x2 + x) div 2))) div 2) div 3)
1: ((loop(\(x,i).(x2 + x),1,((1 + ((x2 + ~x) div 2)) div 2)) div 2) div 3)
1: ((loop(\(x,i).(x2 + x),1,(loop(\(x,i).~2x,x,3) div 2)) div 2) div 3)
1: ((loop(\(x,i).(x2 + x),1,loop(\(x,i).(3x + ~1),x,2)) div 2) div 3)
1: ((loop(\(x,i).(x2 + x),1,loop(\(x,i).(~x + i),x,2)) div 2) div 3)
1: ((loop(\(x,i).(x2 + x),2,x) div 2) div 3)
1: ((loop(\(x,i).(2x + 4),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2) div 2)
1: ((loop(\(x,i).(2x + 4),x,(4 + (x div 8))) div 2) div 2)
1: ((loop(\(x,i).(2x + 4),x,(3 + (x mod 2))) div 2) div 2)
1: ((loop(\(x,i).(2x + 4),x,(1 + (loop(\(x,i).(2x + 4),x,1) div 2))) div 2) div 2)
1: ((loop(\(x,i).(2x + 4),x,((x2 + ~x) div 2)) div 2) div 2)
1: ((loop(\(x,i).(2x + 4),x,(x mod 2)) div 2) div 2)
1: ((loop(\(x,i).(x2 + 2x),1,((if (x mod 2) <= 0 then 2 else 0) + (x div 2))) div 2) div 2)
1: ((loop(\(x,i).(x2 + 2x),1,((x div 2) - (x mod 2))) div 2) div 3)
1: ((loop(\(x,i).(x2 + 2x),1,(x - (x div ~3))) div 2) div 2)
1: ((loop(\(x,i).(x2 + 2x),1,loop(\(x,i).(2x + (i mod 2)),x,0)) div 2) div 2)
1: ((loop(\(x,i).(x2 + 2x),1,loop(\(x,i).(((x + 1) - (2 * (i mod 2))) * i),x,1)) div 2) div 2)
1: ((loop(\(x,i).(x * (2 + i)),4,(x + 1)) div 2) div (x + 3))
1: ((loop(\(x,i).(x * (2 + i)),(3x + 2),1) div 2) div (3x + 2))
1: ((loop(\(x,i).(x * (2 + i)),(13x + 13),1) div 2) div 2)
1: ((loop(\(x,i).(x * (2 + i)),(16x + 16),1) div 2) div 2)
1: ((loop(\(x,i).((x + 2) * (x + i)),2,x) div 2) div 3)
1: ((loop(\(x,i).((x + ~1) * (x + i)),2,(x + 2)) div 2) div 3)
1: ((loop(\(x,i).~2x,x,(x + 4)) div 2) div 2)
1: ((loop(\(x,i).~2x,x,x) div 2) div 2)
1: ((loop(\(x,i).(x * (0 - i)),x,1) div 2) div 2)
1: ((loop(\(x,i).(~2x + 2),x,(x + 4)) div 2) div 3)
1: ((loop(\(x,i).(~x2 + x),2,x) div 2) div 3)
1: ((loop(\(x,i).11x,x,(1 + (x mod 2))) div 2) div 2)
1: ((loop(\(x,i).23x,2,x) div 2) div 3)
1: ((loop(\(x,i).((2x + ~1) * (x div 2)),1,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2) div 2)
1: ((loop(\(x,i).(2x2 + ~x),1,(1 + loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x))) div 2) div 2)
1: ((loop(\(x,i).(2x2 + ~x),1,(~1 + loop(\(x,i).10x,x,1))) div 2) div 3)
1: ((loop(\(x,i).(2x2 + ~x),1,loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1)) div 2) div 2)
1: ((loop(\(x,i).(2 * (2x - (x div (2 + (i mod 2))))),x,1) div 2) div 2)
1: ((loop(\(x,i).(x3 + ~x),1,(x + 4)) div 2) div 2)
1: ((loop(\(x,i).(x3 + ~x),1,(5x + 4)) div 2) div 3)
1: ((loop(\(x,i).(x3 + ~x),1,(5x + 6)) div 2) div 3)
1: ((loop(\(x,i).(x3 + ~x),1,(x3 + 1)) div 2) div 3)
1: ((loop(\(x,i).(x3 + ~x),1,(1 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))) div 2) div 3)
1: ((loop(\(x,i).(x3 + ~x),1,(x2 + 2x)) div 2) div 2)
1: ((loop(\(x,i).(x3 + ~x),1,(x2 + 2x)) div 2) div 3)
1: ((loop(\(x,i).(x3 + ~x),1,(x2 + ~x)) div 2) div 3)
1: ((loop(\(x,i).(x3 + ~x),1,(3x2 + 3x)) div 2) div 3)
1: ((loop(\(x,i).(x * (~1 + (2 * i))),x,(x + 2)) div 2) div 2)
1: ((loop(\(x,i).(x * (~1 + (x * i))),2,(x + 2)) div 2) div 3)
1: ((loop(\(x,i).(2x + ~2),x,x) div 2) div 3)
1: ((loop(\(x,i).(x2 + ~x),1,(~1 + loop(\(x,i).10x,(x + 1),1))) div 3) div 5)
1: ((loop(\(x,i).(x2 + ~x),1,(loop(\(x,i).loop(\(x,i).2x,x,x),x,1) div 2)) div 2) div 2)
1: ((loop(\(x,i).(x2 + ~x),1,loop(\(x,i).(~3x + 3),x,3)) div 2) div 3)
1: ((loop(\(x,i).(x2 + ~2x),1,loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)) div 2) div 2)
1: ((loop(\(x,i).(x2 + ~2x),2,(x + 4)) div 2) div 2)
1: ((loop(\(x,i).(x2 + ~2x),2,(x + ~2)) div 2) div 2)
1: ((loop(\(x,i).(x * ((x + ~1) - i)),2,(x + 4)) div 2) div 2)
1: ((loop(\(x,i).(x * ((x + 1) - i)),2,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2) div 2)
1: ((loop(\(x,i).(5x2 + ~8x),(2x + 3),1) div 2) div 2)
1: ((loop(\(x,i).(x * (x - i)),2,(x + 4)) div 2) div 2)
1: ((loop(\(x,i).(x * (x - i)),2,(x + 2)) div 2) div 2)
1: ((loop(\(x,i).(x * (x - i)),2,(x + 2)) div 2) div 3)
1: ((loop(\(x,i).(x * (x - i)),2,(x + 2)) div 2) div (2x + 3))
1: ((loop(\(x,i).(x * (x - i)),2,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2) div 2)
1: ((loop(\(x,i).(x * (x - i)),2,(x + ~1)) div 2) div 7)
1: ((loop(\(x,i).(x * (x - i)),2,(x + ~1)) div 2) div 9)
1: ((loop(\(x,i).(x * (x - i)),2,(x + ~1)) div 2) div 13)
1: ((loop(\(x,i).(x * (x - i)),2,(x + ~1)) div 2) div 11)
1: ((loop(\(x,i).(x * (x - i)),2,(x + ~1)) div 2) div 15)
1: ((loop(\(x,i).(x * (x - i)),2,(x + ~1)) div 3) div 7)
1: ((loop(\(x,i).(x * (x - i)),2,(x + ~1)) div 3) div 9)
1: ((loop(\(x,i).9x,x,(x + 9)) div 3) div 3)
1: ((loop(\(x,i).10x,(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 1))),1) div 3) div 3)
1: ((loop(\(x,i).10x,(2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)),1) div 3) div 3)
1: ((loop(\(x,i).10x,x,(x + 10)) div 2) div 5)
1: ((loop(\(x,i).7x2,1,loop(\(x,i).(~1 + (2 * (x + (i mod 2)))),x,0)) div 2) div 3)
1: ((loop(\(x,i).(2x4 + 6x3 + 5x2 + 3x + 2),1,(x + 1)) div 2) div 3)
1: ((loop(\(x,i).(x * ((1 + (2 * i)) * (1 + (2 * i)))),x,1) div 2) div 2)
1: ((loop(\(x,i).(2x3 + 3x2 + x),1,loop(\(x,i).10x,x,1)) div 2) div 3)
1: ((loop(\(x,i).(4x + 8),x,x) div 2) div 2)
1: ((loop(\(x,i).(x3 + 3x2 + 2x),1,((x2 + 3x + 2) div 2)) div 3) div 2)
1: ((loop(\(x,i).(x6 + ~x2),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2) div 2)
1: ((loop(\(x,i).8x,x,(9x + 7)) div 2) div 2)
1: ((loop(\(x,i).8x,x,49) div 2) div 2)
1: ((loop(\(x,i).12x,(x + 1),1) div loop(\(x,i).3x,2x,1)) div 2)
1: ((loop(\(x,i).(x4 + 3x3 + 2x2),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2) div 3)
1: ((loop(\(x,i).(x6 + ~x4),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2) div 3)
1: ((loop(\(x,i).(x4 * (x2 div 2)),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2) div 2)
1: ((loop(\(x,i).4x3,(x + 1),5) div 2) div 3)
1: ((loop(\(x,i).(x5 + ~x3),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2) div 3)
1: ((loop(\(x,i).x5,1,(2x + 1)) div 2) div 2)
1: ((loop(\(x,i).(x3 * (x2 div 2)),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2) div 2)
1: ((loop(\(x,i).(x3 * (x2 div 2)),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2) div 3)
1: ((loop(\(x,i).(x2 * (x4 div 2)),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2) div 5)
1: ((loop(\(x,i).(x2 * (x4 div 2)),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 3) div 5)
1: ((loop(\(x,i).4x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),5) div 2) div 2)
1: ((loop(\(x,i).4x,x,(x + 4)) div 2) div 2)
1: ((loop(\(x,i).4x,x,(5x + 3)) div 2) div 2)
1: ((loop(\(x,i).4x,x,(3x + 8)) div 2) div 2)
1: ((loop(\(x,i).(2x2 + 2x),(x + 1),3) div 2) div 2)
1: ((loop(\(x,i).2x2,3,(x + 1)) div 2) div (x + 1))
1: ((loop(\(x,i).(x3 + x2),1,loop(\(x,i).(2x + 2),x,0)) div 2) div 2)
1: ((loop(\(x,i).(x3 + x2),1,loop(\(x,i).(2x + 2),x,2)) div 2) div 2)
1: ((loop(\(x,i).(x3 + ~2x2),1,(x2 + 3x + 2)) div 2) div 3)
1: ((loop(\(x,i).(x3 + ~2x2),1,(x2 + 2x)) div 2) div 2)
1: ((loop(\(x,i).x3,1,(4x2 + 4x + 1)) div 2) div 2)
1: ((loop(\(x,i).x3,1,(2 + (x div 4))) div 3) div 2)
1: ((loop(\(x,i).x3,1,(1 + loop(\(x,i).(x * i),x,1))) div 3) div 3)
1: ((loop(\(x,i).x3,1,(loop(\(x,i).(x * i),(x div 2),1) - loop(\(x,i).(x * i),x,1))) div 3) div 2)
1: ((loop(\(x,i).x3,1,loop(\(x,i).(x + (3x * i)),x,1)) div 3) div 3)
1: ((loop(\(x,i).x3,1,loop(\(x,i).8x2,x,3)) div 2) div 2)
1: ((loop(\(x,i).x3,3,(x + 4)) div 2) div 2)
1: ((loop(\(x,i).x3,(x + 1),2) div 2) div (~x + 3))
1: ((loop(\(x,i).(2x * i),(x + ~2),(1 + (x mod 2))) div 2) div 3)
1: ((loop(\(x,i).(2x * i),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2) div 2)
1: ((loop(\(x,i).(2 * ((2x * (1 + (2 * i))) div (2 + i))),(x + 1),(x + 1)) div 2) div 2)
1: ((loop(\(x,i).(x2 * (x2 div 2)),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2) div 3)
1: ((loop(\(x,i).(x * (x2 div 2)),1,(2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))) div 2) div 2)
1: ((loop(\(x,i).(x * (x2 div 2)),1,(2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))) div 2) div 3)
1: ((loop(\(x,i).(x * (x2 div 2)),1,loop(\(x,i).(~2x + 1),x,3)) div 2) div 3)
1: ((loop(\(x,i).(x * (x div 2)),1,loop(\(x,i).(2x + i),x,0)) div 2) div 2)
1: ((loop(\(x,i).(x * (x div 2)),1,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2) div 2)
1: ((loop(\(x,i).(x * (if (x mod 2) <= 0 then 1 else x)),1,(x + ~2)) div 2) div 2)
1: ((loop(\(x,i).(x * loop(\(x,i).x2,2,x5)),1,x2) div 3) div 7)
1: ((loop(\(x,i).2x,((x div (2 + (x div (2 + ((x2 + 2x) mod 6))))) + (x mod 2)),1) div 2) div 2)
1: ((loop(\(x,i).2x,(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x - ((if x <= 0 then 2 else loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 2)))),x,(x + 1))),1) div 2) div 3)
1: ((loop(\(x,i).2x,(x + ~1),(2 + ((x2 + 5x + 6) div 2))) div 2) div 2)
1: ((loop(\(x,i).2x,(x + ~2),loop(\(x,i).((x2 + ~x) div 2),2,(x + ~1))) div 2) div 3)
1: ((loop(\(x,i).2x,((x + ~1) - (2 * (2 + (x div 8)))),1) div 2) div 2)
1: ((loop(\(x,i).2x,(x - ((~x + 2) div 2)),3) div 2) div 2)
1: ((loop(\(x,i).2x,((x2 + ~x) div 2),3) div 2) div (x + 1))
1: ((loop(\(x,i).2x,(x div 2),1) div (if x <= 0 then 1 else x)) div 2)
1: ((loop(\(x,i).2x,(if (x mod 2) <= 0 then (1 + ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2) - (x mod 2)) else 1),1) div 2) div 2)
1: ((loop(\(x,i).2x,loop(\(x,i).(loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2),2,x),2) div 2) div 2)
1: ((loop(\(x,i).2x,x,1) div (x2 + ~x + 1)) div (2x + 1))
1: ((loop(\(x,i).2x,x,(8 + (((x3 + ~3x2 + 2x) div 2) div 3))) div 2) div 2)
1: ((loop(\(x,i).2x,x,((2x + 4) + (loop(\(x,i).(2 * (x + i)),x,x) div 2))) div 2) div 2)
1: ((loop(\(x,i).2x,x,(3 + (loop(\(x,i).2x,x,1) + (x mod 2)))) div 2) div 2)
1: ((loop(\(x,i).2x,x,(1 + (loop(\(x,i).2x,(x div 2),(2 + (x mod 2))) + loop(\(x,i).2x,x,1)))) div 2) div 2)
1: ((loop(\(x,i).2x,x,((x + 1) + loop(\(x,i).2x,x,3))) div 2) div 2)
1: ((loop(\(x,i).2x,x,(x2 + 7x + 8)) div 2) div 2)
1: ((loop(\(x,i).2x,x,(1 + (3 * (1 + ((x2 + ~x) div 2))))) div 2) div 2)
1: ((loop(\(x,i).2x,x,(1 + (3 * ((x2 + 3x + 2) div 2)))) div 2) div 2)
1: ((loop(\(x,i).2x,x,(1 + (loop(\(x,i).6x,x,(x + 1)) mod (2x + 1)))) div 2) div 2)
1: ((loop(\(x,i).2x,x,(1 + (if (x + ~2) <= 0 then 2 else 0))) div 2) div 2)
1: ((loop(\(x,i).2x,x,(loop(\(x,i).(2x + 1),x,2) + (x mod 2))) div 2) div 2)
1: ((loop(\(x,i).2x,x,(x + 2)) div 2) div 2)
1: ((loop(\(x,i).2x,x,(1 + compr(\x.(loop(\(x,i).(2x2 + 12x + 16),2,(x2 + 2x)) mod (x + 1)),x))) div 2) div 2)
1: ((loop(\(x,i).2x,x,(3 + (2 * (2 + loop(\(x,i).4x,x,2))) - (x mod 2))) div 2) div 3)
1: ((loop(\(x,i).2x,x,(3x + 5)) div 2) div 2)
1: ((loop(\(x,i).2x,x,29) div 3) div 17)
1: ((loop(\(x,i).2x,x,(7x + 16)) div 2) div 2)
1: ((loop(\(x,i).2x,x,(~2 + ((x2 + ~x) div 2))) div 2) div 2)
1: ((loop(\(x,i).2x,x,(~x3 + loop(\(x,i).5x,(x + 1),1))) div 2) div 2)
1: ((loop(\(x,i).2x,x,(loop(\(x,i).(2x + 2),x,1) div 2)) div loop(\(x,i).3x,x,1)) div 2)
1: ((loop(\(x,i).2x,x,(loop(\(x,i).((x2 + ~x) div 2),2,(x + 1)) div 3)) div 2) div 2)
1: ((loop(\(x,i).2x,x,loop(\(x,i).((x + 1) + i),x,4)) div 2) div 2)
1: ((loop(\(x,i).2x,x,loop(\(x,i).(~1 + (x * i)),x,4)) div 2) div 2)
1: ((loop(\(x,i).2x,x,compr(\x.(x mod (1 + (4 * (x mod (2 + (x mod 2)))))),(x + 3))) div 2) div 2)
1: ((loop(\(x,i).x2,1,((x + 1) + ((if ((x div 2) mod 3) <= 0 then 0 else 1) + (x div 3)))) div 2) div 2)
1: ((loop(\(x,i).x2,1,(x + 17)) div 2) div 2)
1: ((loop(\(x,i).x2,1,(x + 19)) div 2) div 2)
1: ((loop(\(x,i).x2,1,(x + 25)) div 2) div 2)
1: ((loop(\(x,i).x2,1,((x + 4) + (x div 2))) div 2) div 2)
1: ((loop(\(x,i).x2,1,((x + 1) + (x div 3))) div 2) div 2)
1: ((loop(\(x,i).x2,1,((x + 1) + ((x div 5) + (x div 2)))) div 2) div 2)
1: ((loop(\(x,i).x2,1,(1 + ((x + 2) div 3) - ((2 * (x div 3)) div 3))) div 2) div 2)
1: ((loop(\(x,i).x2,1,(1 + ((x2 + 6x + 8) div 2) - (x mod 2))) div 2) div 3)
1: ((loop(\(x,i).x2,1,(5x + 1)) div 3) div 2)
1: ((loop(\(x,i).x2,1,(x + 27)) div 2) div 2)
1: ((loop(\(x,i).x2,1,(1 + (2 * (1 + ((2x + 1) mod (1 + (2x mod (3 + (x div 4))))))))) div 2) div 2)
1: ((loop(\(x,i).x2,1,(x7 + 3)) div 2) div 3)
1: ((loop(\(x,i).x2,1,((3 * (x div 2)) + (x div 3))) div 2) div 2)
1: ((loop(\(x,i).x2,1,(3 + (x2 * loop(\(x,i).x3,2,x)))) div 2) div 3)
1: ((loop(\(x,i).x2,1,(((2 * (4 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3) + (if x <= 0 then 0 else 1))) div 2) div 2)
1: ((loop(\(x,i).x2,1,(2 + ((x3 + x2) div 2))) div 2) div 2)
1: ((loop(\(x,i).x2,1,(1 + (x2 div 3))) div 2) div 2)
1: ((loop(\(x,i).x2,1,(2 + ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3))) div 2) div 2)
1: ((loop(\(x,i).x2,1,(1 + ((if (x mod 2) <= 0 then 2 else 0) + (x div 2)))) div 2) div 2)
1: ((loop(\(x,i).x2,1,((if (x mod 2) <= 0 then 2 else 0) + (x div 2))) div 2) div 2)
1: ((loop(\(x,i).x2,1,(1 + loop(\(x,i).(2 * ((5x + 1) + i)),x,2))) div 2) div 2)
1: ((loop(\(x,i).x2,1,(2 + loop(\(x,i).4x,x,2))) div 2) div 2)
1: ((loop(\(x,i).x2,1,(1 + loop(\(x,i).~4x,x,1))) div 2) div 2)
1: ((loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x))) div 2) div 2)
1: ((loop(\(x,i).x2,1,(1 + compr(\x.(loop(\(x,i).(~2x + 4),x,1) mod (x + 1)),x))) div 2) div 2)
1: ((loop(\(x,i).x2,1,(1 - (2 * ((2x + 1) - (x mod (1 + ((x2 + ~x) mod 8))))))) div 2) div 2)
1: ((loop(\(x,i).x2,1,(2 - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x))) div 2) div 2)
1: ((loop(\(x,i).x2,1,(8 + loop(\(x,i).2x,x,1) - (x mod 2))) div 2) div 2)
1: ((loop(\(x,i).x2,1,(~2 + (x mod 2) - (x div 2))) div 2) div 2)
1: ((loop(\(x,i).x2,1,(~3 + loop(\(x,i).10x,(x + 1),1))) div 2) div 5)
1: ((loop(\(x,i).x2,1,(~3 + loop(\(x,i).10x,(x + 1),1))) div 3) div 5)
1: ((loop(\(x,i).x2,1,((x + ~1) - (4 * (x div 5)))) div 3) div 2)
1: ((loop(\(x,i).x2,1,(~1 + (2 * ((x + 1) + ((2 * (1 + (((1 + (loop(\(x,i).(2x + 1),x,loop(\(x,i).3x,x,1)) div 3)) div 2) div 2))) div 3))))) div 2) div 2)
1: ((loop(\(x,i).x2,1,(4x + ~1)) div 5) div 3)
1: ((loop(\(x,i).x2,1,(~1 + (9 * (x mod 5)))) div 2) div 2)
1: ((loop(\(x,i).x2,1,((x div 2) - (x mod 2))) div 2) div 2)
1: ((loop(\(x,i).x2,1,(~1 + loop(\(x,i).10x,x,1))) div 2) div 2)
1: ((loop(\(x,i).x2,1,(x + 29)) div 2) div 2)
1: ((loop(\(x,i).x2,1,((x + 1) - (2 * (x div 3)))) div 2) div 2)
1: ((loop(\(x,i).x2,1,(x + 21)) div 2) div 2)
1: ((loop(\(x,i).x2,1,(x - ((x2 + 2x) div 8))) div 2) div 2)
1: ((loop(\(x,i).x2,1,(2 * (x div (1 - ((~x + 1) div (3 + (x mod 6))))))) div 2) div 2)
1: ((loop(\(x,i).x2,1,((2 * (2 + (if x <= 0 then 0 else (2 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))))) div 3)) div 2) div 2)
1: ((loop(\(x,i).x2,1,((x * ((x + ~1) div 2)) div 3)) div 2) div 2)
1: ((loop(\(x,i).x2,1,(((x + 1) * (x3 div 2)) div 2)) div 2) div 2)
1: ((loop(\(x,i).x2,1,(x2 div 32)) div 2) div 2)
1: ((loop(\(x,i).x2,1,loop(\(x,i).(~2x + (if x <= 0 then 1 else 2)),x,2)) div 2) div 2)
1: ((loop(\(x,i).x2,1,loop(\(x,i).(10x + 2),x,2)) div 2) div 2)
1: ((loop(\(x,i).x2,1,loop(\(x,i).x3,(x + ~1),4)) div 2) div 2)
1: ((loop(\(x,i).x2,1,compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),(x + 1))) div 2) div 2)
1: ((loop(\(x,i).x2,1,compr(\x.loop(\(x,i).(x - (if (x mod (2 + i)) <= 0 then 0 else 1)),x,x),x)) div 2) div 3)
1: ((loop(\(x,i).x2,2,(10x + 3)) div 2) div 2)
1: ((loop(\(x,i).x2,2,(x4 + 1)) div loop(\(x,i).2x,x,1)) div 2)
1: ((loop(\(x,i).x2,2,(~1 + ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2))) div 2) div 3)
1: ((loop(\(x,i).x2,2,loop(\(x,i).(x * (x + i)),2x,2)) div 2) div 3)
1: ((loop(\(x,i).x2,3,(2x + 1)) div (2x + 1)) div 2)
1: ((loop(\(x,i).x2,3,(x + 1)) div 2) div (x + 1))
1: ((loop(\(x,i).(x * i),(x2 + 2x + 1),1) div 2) div 2)
1: ((loop(\(x,i).(x * i),x,1) div (x + 1)) div 2)
1: ((loop(\(x,i).(x * i),x,1) div (x + 2)) div (x + 1))
1: ((loop(\(x,i).(x * i),x,(3x + ~1)) div 2) div 2)
1: ((loop(\(x,i).(x * i),x,((x3 + ~3x2 + 2x) div 2)) div 2) div 3)
1: ((loop(\(x,i).(x * i),x,(if (x + ~1) <= 0 then ~1 else (x2 + 2x))) div 2) div 2)
1: ((loop(\(x,i).((x2 + ~1) div 2),2,(x + ~2)) div 2) div 2)
1: ((loop(\(x,i).((x2 + 5x) div 2),2,(5x + 1)) div 5) div 3)
1: ((loop(\(x,i).((x * (x + (x mod 3))) div 2),1,loop(\(x,i).2x,x,1)) div 3) div 2)
1: ((loop(\(x,i).((x2 + x) div 2),2,2x) div (x + 1)) div 3)
1: ((loop(\(x,i).((x2 + ~x) div 2),1,loop(\(x,i).4x,x,1)) div 2) div 2)
1: ((loop(\(x,i).((x2 + ~x) div 2),2,(1 + ((x + 1) div 2))) div 3) div (x + 2))
1: ((loop(\(x,i).((x2 + ~x) div 2),2,(x + ~1)) div (1 + (x mod 7))) div 2)
1: ((loop(\(x,i).((x2 + ~x) div 2),2,(2x + 4)) div 3) div 5)
1: ((loop(\(x,i).((x2 + ~3x + 2) div 2),2,(x + 3)) div 3) div 3)
1: ((loop(\(x,i).((8x + 8) div 3),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2) div 2)
1: ((loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,(x + ~1)) div 2) div 2)
1: ((loop(\(x,i).(x3 div 2),1,(x2 + 2x + 1)) div 2) div 2)
1: ((loop(\(x,i).(x3 div 2),1,(x2 + 2x + 1)) div 2) div 3)
1: ((loop(\(x,i).((x * ((x + 1) div 2)) div 2),2,(x + ~1)) div 2) div 2)
1: ((loop(\(x,i).((x * ((x + ~1) div 2)) div 2),2,x) div 2) div 3)
1: ((loop(\(x,i).((x * ((x * loop(\(x,i).((x2 + ~x) div 2),2,(x + 2))) div (x + 1))) div 2),x,2) div 2) div 2)
1: ((loop(\(x,i).(((x + ~1) * (x2 div 3)) div 2),2,(x + ~1)) div 2) div 3)
1: ((loop(\(x,i).(((x2 + x) div 2) div 3),2,(x + ~2)) div 2) div 2)
1: ((loop(\(x,i).(x div (2 - (x mod 2))),x,(1 + ((x2 + x) div 2))) div 2) div 3)
1: ((loop(\(x,i).(x div (2 - (x mod 2))),x,(2x + 6)) div 2) div 3)
1: ((loop(\(x,i).(x4 mod 27),2,(2x + 1)) div 2) div 2)
1: ((loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (x + (i * i))),2,(x + 2)) div 2) div 2)
1: ((loop(\(x,i).loop(\(x,i).(8x + 4),(x + 1),0),1,(x3 + 3x2 + 4x + 2)) div 2) div 2)
1: ((loop(\(x,i).loop(\(x,i).x2,1,(~x + 5)),(2x + 2),1) div 2) div 2)
1: ((loop(\(x,i).loop(\(x,i).x2,2,x3),1,(10x + 1)) div 2) div 2)
1: ((loop(\(x,i).loop(\(x,i).x2,2,x3),x,7) div 2) div 3)
1: ((loop(\(x,i).loop(\(x,i).x2,2,x3),x,9) div 2) div 2)
1: ((loop(\(x,i).loop(\(x,i).x2,x,2),(x + ~2),1) div 2) div 2)
1: ((x div 2) div (5 + (x mod 4)))
1: ((x div 2) div (3 + ((x + 2) mod 4)))
1: ((x div 2) div (1 + (((x div 2) mod 2) + (x mod 3))))
1: ((x div 2) div (4 - (((x + ~1) div 2) div 2)))
1: ((x div 2) div (4 - (x mod (2 + (x mod 2)))))
1: ((x div 2) div (~x + 17))
1: ((x div 2) div (1 + (2 * (1 + ((x + 1) mod 4)))))
1: ((x div 2) div (1 + (2 * (1 + ((x + ~1) mod 3)))))
1: ((x div 2) div (1 + (3 * (1 + (x mod 2)))))
1: ((x div 2) div (1 + (2 * (2 - (x mod 2)))))
1: ((x div 2) div (1 + (6 * (x mod 2))))
1: ((x div 2) div (1 + (2 * ((x2 + ~2) mod 6))))
1: ((x div 2) div (1 + (2 * (2x mod 3))))
1: ((x div 2) div (1 + (3 * (2x mod 9))))
1: ((x div 2) div (1 + (2 * (((1 + (x div 2)) div 2) mod 3))))
1: ((x div 2) div (1 + (2 * ((x div 2) mod 2))))
1: ((x div 2) div (1 + (3 * ((x div 2) mod 5))))
1: ((x div 2) div (1 + (2 * (x mod (2 * (1 + (2 * (x mod 2))))))))
1: ((x div 2) div (2 + (3 * (if (x mod 12) <= 0 then 0 else 1))))
1: ((x div 2) div (1 + ((2 + (x div 2)) div (2 + (x mod 2)))))
1: ((x div 2) div (1 + ((x + 1) div 5)))
1: ((x div 2) div (1 + (((1 + (x div 2)) div 2) div 2)))
1: ((x div 2) div (2 + ((x div 2) div (2 + (x mod 5)))))
1: ((x div 2) div (1 + (((2x + 1) mod (2 + (x div 4))) div 2)))
1: ((x div 2) div (1 + ((x mod (1 + (x div 3))) div 2)))
1: ((x div 2) div (1 + ((x mod (2 + (x mod 2))) div 2)))
1: ((x div 2) div (1 + (x div (4 + (x mod 2)))))
1: ((x div 2) div (1 + (x div (1 + (2 * (4 - ((x div 2) mod 2)))))))
1: ((x div 2) div (2 + (x div (1 + ((x + 1) mod 4)))))
1: ((x div 2) div (1 + (x div (2 + ((x + 1) mod 4)))))
1: ((x div 2) div (1 + (x div ((if (x mod 2) <= 0 then 1 else x) mod 8))))
1: ((x div 2) div (2 + (5 mod (x + 1))))
1: ((x div 2) div (2 + ((2 + (x div 2)) mod (2 + (x mod 3)))))
1: ((x div 2) div (2 + ((x2 + (x div 4)) mod 3)))
1: ((x div 2) div (2 + ((1 + ((x2 + x) mod 8)) mod 3)))
1: ((x div 2) div (1 + (~x mod 4)))
1: ((x div 2) div (1 + ((~2x + 1) mod 9)))
1: ((x div 2) div (1 + ((~x + 1) mod 3)))
1: ((x div 2) div (2 + ((~x + 1) mod (1 + ((~x + 2) mod 4)))))
1: ((x div 2) div (1 + ((~x + 2) mod 4)))
1: ((x div 2) div (2 + ((x + ~1) mod (2 + (if (x mod 4) <= 0 then 2 else 1)))))
1: ((x div 2) div (2 + ((x + ~2) mod 12)))
1: ((x div 2) div (2 + (14 mod (x + 1))))
1: ((x div 2) div (1 + (2x mod 3)))
1: ((x div 2) div (2 + (x2 mod (1 + (x div 2)))))
1: ((x div 2) div (1 + (((x * (x div 2)) div 3) mod 3)))
1: ((x div 2) div (1 + ((x div 2) mod 3)))
1: ((x div 2) div (1 + ((x div ~2) mod 2)))
1: ((x div 2) div (1 + (((x + 1) mod 5) mod 2)))
1: ((x div 2) div (1 + (((x div 2) mod 3) mod 2)))
1: ((x div 2) div (1 + (loop(\(x,i).loop(\(x,i).((if x <= 0 then 2 else loop(\(x,i).(x div (2 - (x mod 2))),x,x)) div 2),2,x),1,(x + 1)) mod 3)))
1: ((x div 2) div (2 + (x mod 5)))
1: ((x div 2) div (1 + (x mod (3 - (x mod 2)))))
1: ((x div 2) div (1 + (x mod 7)))
1: ((x div 2) div (1 + (x mod 9)))
1: ((x div 2) div (1 + (x mod (2 + (x div 5)))))
1: ((x div 2) div (1 + (x mod (1 + (x div (2 + (x div 5)))))))
1: ((x div 2) div (1 + (x mod (2 + ((~2x + 1) mod (2 + (x div 4)))))))
1: ((x div 2) div (1 + (x mod (1 + ((3x + ~6) mod (x + 1))))))
1: ((x div 2) div (1 + (x mod (1 + (loop(\(x,i).2x,x,2) mod (2x + 1))))))
1: ((x div 2) div (1 + (x mod (1 + (x mod (3 - (x mod 2)))))))
1: ((x div 2) div (1 + (x mod (2 + (if (16 mod (x + 1)) <= 0 then 1 else x)))))
1: ((x div 2) div (1 + (x mod (1 + (if (x mod 2) <= 0 then 6 else 1)))))
1: ((x div 2) div (1 + (if (2 - (x mod 5)) <= 0 then x else 2)))
1: ((x div 2) div (2 + (if (~2 + (x div 3)) <= 0 then 2 else 0)))
1: ((x div 2) div (1 + (if ((x mod 3) mod 2) <= 0 then 2 else 0)))
1: ((x div 2) div (1 + (if (x mod 2) <= 0 then 6 else 0)))
1: ((x div 2) div (1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 0)))
1: ((x div 2) div (1 + (if (x mod (2 + (x mod 2))) <= 0 then 2 else 1)))
1: ((x div 2) div (~1 - (x mod 4)))
1: ((x div 2) div (2 - (x div (1 + ((x div 2) mod 2)))))
1: ((x div 2) div (2 - (x div ~3)))
1: ((x div 2) div (2 - ((x + 1) mod (~1 - (x div 5)))))
1: ((x div 2) div (2 - (x2 mod ~12)))
1: ((x div 2) div (2 - (((~x + 2) div (2 + (x div 2))) mod 2)))
1: ((x div 2) div (4 - (((x + 1) div 2) div 3)))
1: ((x div 2) div (~10 + (x div 2)))
1: ((x div 2) div (~4 + (x mod 2)))
1: ((x div 2) div (2x + ~5))
1: ((x div 2) div (~2 + ((x div 5) mod 2)))
1: ((x div 2) div (~2 + (x mod 2)))
1: ((x div 2) div (~2 + (x mod ~2)))
1: ((x div 2) div (2 * (1 + (x mod (2 * (2 + (if (x mod 4) <= 0 then 2 else 0)))))))
1: ((x div 3) div (1 + (4 * (x mod 2))))
1: ((x div 3) div (1 + (x div (2 * (2 + ((1 - (x div 3)) mod 3))))))
1: ((x div 3) div (1 + ((x + 1) mod 4)))
1: ((x div 3) div (1 + ((x + 2) mod 4)))
1: ((x div 3) div (1 + ((~2x + 1) mod 9)))
1: ((x div 3) div (1 + ((2 * ((x + 2) + (x div 2))) mod 9)))
1: ((x div 3) div (1 + (x mod (~1 + (3 * (2 + (x mod 2)))))))
1: ((x div 3) div (1 + (if (~2 + (x div 4)) <= 0 then 2 else 0)))
1: ((x div 3) div (1 + (if (x mod 10) <= 0 then 0 else 2)))
1: ((x div 3) div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))
1: ((x div 4) div (3 + (x mod 2)))
1: ((x div 4) div (3 + (x mod 3)))
1: ((x div 4) div (1 + (2 * ((~2x + 2) mod 5))))
1: ((x div 4) div (1 + ((2 + ((x + 2) * (x div 4))) mod 3)))
1: ((x div 4) div (1 + (2x mod 3)))
1: ((x div 4) div (1 + ((x div 2) mod 2)))
1: ((x div 4) div (1 + (x mod (1 + (x mod 4)))))
1: ((x div 4) div (1 + (if (x mod 10) <= 0 then 0 else 2)))
1: ((x div 4) div (~2 + ((x div 2) mod 2)))
1: ((x div 5) div (1 + ((x + 1) mod 6)))
1: ((x div 5) div (1 + ((~x2 + 2x + ~1) mod 5)))
1: ((x div 5) div (1 + (x2 mod 6)))
1: ((x div 5) div (1 + (x mod (2 + (x mod 3)))))
1: ((x div 5) div (1 + (if (x mod 2) <= 0 then (x mod 3) else 2)))
1: ((x div (3 + ((x + ((x div 2) mod 2)) mod 3))) div 2)
1: ((x div (2 + (2 * (x mod (1 + ((x div 2) mod 3)))))) div 2)
1: ((x div (1 + (2 * (if (x mod 10) <= 0 then 0 else 2)))) div 2)
1: ((x div (2 + (x div (1 + (x mod 4))))) div (2 - (x mod 2)))
1: ((x div (2 + (x div (1 + (x mod (2 * (2 + ((~x + 1) mod 4)))))))) div 2)
1: ((x div (1 + ((x2 + (x div 2)) mod 3))) div 2)
1: ((x div (2 + ((1 + (x mod ~5)) mod (x + 1)))) div 2)
1: ((x div (2 + ((~x + 2) mod 4))) div 2)
1: ((x div (1 + ((x div 2) mod 2))) div 2)
1: ((x div (1 + ((x div 2) mod 2))) div 3)
1: ((x div (1 + (if (x mod 3) <= 0 then 2 else 0))) div 2)
1: ((x div ~2) div (1 + ((x div 3) mod 2)))
1: ((x div ~2) div (1 + (x mod 2)))
1: ((x div ~2) div (~1 + (2 * (x mod 4))))
1: ((x div ~2) div (~1 + (x div ~6)))
1: ((x div ~4) div (1 + ((x + ~1) mod 3)))
1: ((x div (~4 + (x mod 2))) div ~2)
1: ((x div (~3 + (x mod (2 + (x mod 2))))) div 3)
1: ((x div (~2 + ((x div 2) mod 2))) div 3)
1: ((x div (~2 + (x mod 2))) div 7)
1: ((x div (~2 + (x mod ~2))) div 2)
1: ((x div (2 * (~2 + ((x mod 3) div 2)))) div 2)
1: ((2 mod (1 + loop(\(x,i).(~2x + 2),x,0))) div 2)
1: ((2 mod ((~x + 2) - ((x div 2) mod 2))) div 2)
1: ((2 mod (~x2 + ~2x + 2)) div 2)
1: ((2 mod (~x2 + 2)) div 2)
1: (((x + 5) mod (1 + (2 * ((x div 2) div (1 + (x mod 2)))))) div 2)
1: (((2 + (x mod 2) - (x mod (4 * (2 - (x mod 2))))) mod (1 + (x div 2))) div 2)
1: ((((x + 1) + (3 * (0 - (x mod 3)))) mod (1 + (x div 2))) div 2)
1: ((((x + 1) + (3 * ((x + 1) div 5))) mod (2 + (x div 2))) div 2)
1: ((((x + 1) + (2 * (x mod 9))) mod (1 + (x div 2))) div 2)
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1: ((((x + 1) + ((x + (x div 2)) div 4)) mod 5) div 2)
1: (((4 + (x div 4)) mod (x + 1)) div 2)
1: ((((x + 2) + (x div (2 + ((~x + 2) mod 4)))) mod 5) div 2)
1: ((((2x + 1) + (x mod 2)) mod (2 + (x div 3))) div 2)
1: ((((x + 2) + (x mod 2)) mod (1 + (x div 3))) div 2)
1: (((x + 3) mod (1 + (2 * (x mod 6)))) div 2)
1: (((x + 4) mod (1 + (x div 3))) div 2)
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1: (((~x + 4) mod (2x + 4)) div 7)
1: (((~x + 5) mod (1 + (x div 2))) div 3)
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1: ((((x2 + ~1) + (2 div (x + 1))) mod 7) div 2)
1: (((2 + (x mod 2) - (x div 2)) mod (x + 1)) div 2)
1: (((2x - (x3 div (x + 4))) mod (x + 1)) div 2)
1: (((1 + (2 * ((x + 1) + (((x + 2) + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)) div 3)))) mod (x + 1)) div 2)
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1: (((1 + (2 * (1 + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) + (((x + 1) div 2) div 2))))) mod (x + 1)) div 2)
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1: (((1 + (2 * (2 + (x2 div 19)))) mod (x + 1)) div 2)
1: (((1 + (2 * (1 + ((3x mod 7) mod 3)))) mod (x + 1)) div 2)
1: (((1 + (2 * (1 + (x mod 2)))) mod (1 + (x div 2))) div 2)
1: (((1 + (2 * (1 + (if x <= 0 then 0 else (1 + (((x + 1) div (2 + (x mod 2))) div 2)))))) mod (x + 1)) div 2)
1: (((2x + 3) mod (~1 + (4 * (1 + (((x2 mod (x + 5)) div 2) mod 2))))) div 2)
1: (((x2 + x + 1) mod 7) div 3)
1: (((~2x + 3) mod (1 + (x div 2))) div 2)
1: (((~4x + 5) mod (1 + (x div 3))) div 2)
1: (((1 + (6 * ((x + 1) - (x mod (1 - (2 * (2 + (x mod 3)))))))) mod (x + 1)) div 2)
1: (((4x + 1) mod ((x + 1) - (2 * (x div 3)))) div 2)
1: (((2x2 + 1) mod (2 + (x div 2))) div 2)
1: (((1 + (2 * ((((x + 1) div (1 + (x div 5))) + (x div 3)) div 2))) mod (x + 1)) div 2)
1: (((1 + (2 * ((1 + ((5 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 19)) div 2))) mod (x + 1)) div 2)
1: (((1 + (2 * ((1 + (x mod (2 + ((2 - (2x mod 5)) mod (x + 1))))) div 2))) mod (x + 1)) div 2)
1: (((1 + (2 * (x2 div (1 + (3 * (2 + (x mod 2))))))) mod (x + 1)) div 2)
1: (((1 + (2 * (((~1 + (6 * (1 + (x div (4 + (x div (1 + ((x + ~1) mod 5)))))))) div 2) div 2))) mod (x + 1)) div 2)
1: (((1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div (2 - ((x div 2) mod 2)))))) mod 9) div 2)
1: (((2 + (x * (x div 2))) mod (x + 3)) div 2)
1: (((1 + (3 * ((1 - ((2x + ~1) mod (4 + (x div 4)))) mod (x + 3)))) mod (x + 1)) div 2)
1: (((1 + (2 * ((~x + 1) mod 8))) mod (1 + (x div 2))) div 2)
1: (((1 + (2 * ((~x + 1) mod 10))) mod (1 + (x div 2))) div 2)
1: (((1 + (2 * ((~1 + (2 * ((1 + (x div 2)) div 2))) mod (x + 1)))) mod (x + 1)) div 2)
1: (((1 + (2 * ((3 * (2 + ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2))) mod 5))) mod (x + 1)) div 2)
1: (((1 + (2 * ((x3 + 2x2 + ~x + ~2) mod 5))) mod (x + 1)) div 2)
1: (((1 + (2 * ((x div 2) mod (2 - (x div ~4))))) mod (x + 1)) div 2)
1: (((1 + (2 * (((x2 div ~4) mod 5) mod 3))) mod (x + 1)) div 2)
1: (((1 + (2 * (x mod 11))) mod 5) div 2)
1: (((1 + (x * (if (x mod 2) <= 0 then 1 else x))) mod (1 + (x div 3))) div 2)
1: (((1 + (loop(\(x,i).(2 * ((x + 1) - (2 * (i mod 2)))),x,1) * (1 + (4 * (x mod 2))))) mod (x + 1)) div 2)
1: (((2x + 1) mod (3 + (x div 4))) div 2)
1: (((2x + 1) mod (3 + ((2x + 1) mod (3 + (x div 4))))) div 2)
1: (((2x + 1) mod 7) div 2)
1: (((2x + 1) mod (1 + (2 * ((1 + (x div 2)) div 2)))) div 2)
1: (((2x + 1) mod (2 + (x div (2 + ((~x + 2) mod 4))))) div 2)
1: (((2x + 1) mod (1 + (x div (2 + ((x div 2) mod 3))))) div 2)
1: (((2x + 1) mod (2 + (x div (2 + (x mod 2))))) div 2)
1: (((2x + 1) mod (1 + ((x + 1) mod 5))) div 2)
1: (((2x + 1) mod (2 + ((x div 2) mod 4))) div 2)
1: (((x2 + 1) mod (x + 5)) div (x + 1))
1: (((x2 + 1) mod (x + 4)) div 2)
1: (((x2 + 1) mod (1 + (x div 2))) div 2)
1: (((x2 + 1) mod (2 + (x div 2))) div 2)
1: (((x2 + 2) mod ~7) div 2)
1: (((1 + ((x + 1) div 2)) mod 5) div 2)
1: (((1 + ((x + 1) div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))) mod (x + 1)) div 2)
1: (((1 + ((2 * (1 + (((x + 1) mod (2 + ((~1 + (2 * (if (16 mod (x + 1)) <= 0 then 0 else 2))) mod (x + 1)))) div 2))) div 3)) mod (x + 1)) div 2)
1: (((x + (2x2 div (1 + (x div 2)))) mod 5) div 2)
1: (((1 + (x2 div 3)) mod (1 + ((x + 1) div 3))) div 2)
1: (((1 + (((1 + (((x + 1) * (1 + ((1 + (x div (2 * (2 - ((x * (x div 2)) mod 2))))) div 3))) div 2)) div 2) div 2)) mod 3) div 2)
1: (((x + (((x + ~1) div 2) div 2)) mod 3) div 2)
1: (((1 + (x div 2)) mod (~2 + (3 * (x mod 3)))) div 2)
1: (((1 + (x div 2)) mod (2 * (2 + (x mod 2)))) div 3)
1: (((x + (x div 2)) mod ((x + 1) + (x div 3))) div 2)
1: (((x + (x div 2)) mod (2 + ((x + (x mod 2)) div 3))) div 2)
1: (((1 + (x div 3)) mod (1 + (x mod (2 + (x mod (2 * (2 + (x mod 2)))))))) div 2)
1: (((1 + (x div 4)) mod (1 + (x div 3))) div 2)
1: (((1 + (x div 4)) mod (1 + ((~x + 1) mod 5))) div 2)
1: (((1 + (x div 4)) mod (1 + ((~x + 2) mod 5))) div 2)
1: (((1 + (x div (1 + (((2x + 1) mod (2 + (x div 4))) div 2)))) mod (x + 1)) div 2)
1: (((2 + (x div (2 + (x mod 2)))) mod 3) div 2)
1: (((1 + (x div (2 + (x mod (2 + (x mod (2 + (x mod 2)))))))) mod (x + 1)) div 2)
1: (((x + (x div 8)) mod 5) div 2)
1: (((x + (x div 12)) mod 3) div 2)
1: (((2 + ((x + 5) mod (1 + (x div 2)))) mod (x + 1)) div 2)
1: (((2 + ((2x + 1) mod (1 + (x div 3)))) mod (x + 1)) div 2)
1: (((2 + ((2x + 1) mod (1 - (x div (~2 + (x mod ~4)))))) mod (x + 1)) div 2)
1: (((1 + ((x + (x div 2)) mod 5)) mod (x + 1)) div 2)
1: (((1 + ((x + 2) mod 6)) mod (1 + (x div 2))) div 2)
1: (((2 + ((1 - (2x mod (1 + (3 * (2 - (x mod 2)))))) mod (x + 1))) mod (x + 1)) div 2)
1: (((x + ((~x + 2) mod 4)) mod 9) div 2)
1: (((1 + (2x mod (2 - ((~x + 1) div 3)))) mod (2 + (x mod 5))) div 2)
1: (((2 + ((x div (~2 + ((x div 4) mod 2))) mod 3)) mod (x + 1)) div 2)
1: (((x + (x mod 2)) mod 5) div 2)
1: (((1 + (x mod (1 + (2 * ((if (x mod 2) <= 0 then 1 else x) mod 3))))) mod (x + 1)) div 2)
1: (((1 + (x mod (2 + (x div (1 + ((x div 2) mod (1 + (x mod (1 + (2x mod 3)))))))))) mod (x + 1)) div 2)
1: (((1 + (x mod (2 + ((x + ~1) mod (4 + (((x + 1) div 2) div 2)))))) mod (x + 1)) div 2)
1: (((1 + (x mod (2 + (x mod (1 + (2 * (2 - (x mod 2)))))))) mod (x + 1)) div 2)
1: (((2 + (x mod (1 + (x mod 6)))) mod (1 + (x div 2))) div 2)
1: (((1 + (x mod (1 + (x mod (2 * (1 + ((1 + (x div 2)) div 3))))))) mod (x + 1)) div 2)
1: (((1 + (x mod (1 + (x mod (2 * (1 + (x mod (1 + (x div 3))))))))) mod (x + 1)) div 2)
1: (((1 + (x mod (2 + (if (x mod (2 + (x mod 2))) <= 0 then 2 else 0)))) mod (x + 1)) div 2)
1: (((2 + (x mod (~1 + (2 * ((x + ~1) mod 4))))) mod (x + 1)) div 2)
1: (((1 + (x mod (3 * (2 + ((x div 4) mod 2))))) mod (x + 1)) div 2)
1: (((x + (if (2 - (x div 4)) <= 0 then (x div 3) else 1)) mod 5) div 2)
1: ((((if (x mod 3) <= 0 then 1 else x) + (x div 3)) mod 5) div 2)
1: (((2 + loop(\(x,i).(3x + ~3),x,2)) mod (x + 1)) div 2)
1: (((x + loop(\(x,i).4x,(x mod 4),1)) mod (x + 1)) div 2)
1: (((loop(\(x,i).2x,x,2) + (if (x + ~2) <= 0 then 0 else 1)) mod (x + 1)) div 2)
1: (((1 + loop(\(x,i).2x,x,(1 + (((1 + (x div 2)) div 2) div 2)))) mod (x + 1)) div 2)
1: (((x + loop(\(x,i).((x2 + x) div 2),2,(1 + (x div 2)))) mod (x + 3)) div 2)
1: (((x + 1) mod 4) div (2 + (x mod 3)))
1: (((x + 1) mod 4) div ~2)
1: (((x + 1) mod (6 + (x mod 2))) div 2)
1: (((x + 1) mod (1 + ((3 * (x mod 2)) + (x div 4)))) div 2)
1: (((x + 1) mod (2 + ((((x + 1) div 2) div 3) + (if x <= 0 then 0 else 1)))) div 2)
1: (((x + 1) mod (4 + (x div 2))) div 2)
1: (((x + 1) mod (3 + ((x div 2) mod 3))) div 2)
1: (((x + 1) mod (3 + (x mod 2))) div 2)
1: (((x + 1) mod 7) div 2)
1: (((x + 1) mod 13) div 2)
1: (((x + 1) mod (~2x + 7)) div 2)
1: (((x + 1) mod (1 + (2 * (1 + ((x + ((1 - (x2 div 2)) mod 3)) mod 3))))) div 2)
1: (((x + 1) mod (1 + ((1 + ((1 + (if x <= 0 then 1 else x)) mod 3)) * (1 + (x mod 2))))) div 2)
1: (((x + 1) mod (1 + (8 * (x div (~2x + 32))))) div 2)
1: (((x + 1) mod (1 + (2 * ((1 + (((x + 1) div 2) div 2)) div 2)))) div 2)
1: (((x + 1) mod (1 + (((x + ~1) div 5) * (x div 3)))) div 2)
1: (((x + 1) mod (1 + (2 * ((x mod ~21) div 2)))) div 2)
1: (((x + 1) mod (1 + (2 * (x div (1 + (2 * (2 - (x mod 2)))))))) div 2)
1: (((x + 1) mod (1 + (2 * (x div (3 * (1 + ((x2 + 2x) mod 6))))))) div 2)
1: (((x + 1) mod (1 + (2 * ((1 + ((x2 + ~x) div 2)) mod (1 + (x div 3)))))) div 2)
1: (((x + 1) mod (1 + (2 * ((x + 1) mod (1 + (x div 4)))))) div 2)
1: (((x + 1) mod (1 + (3 * ((x2 + ~x) mod 5)))) div 2)
1: (((x + 1) mod (1 + (2 * (((x + ~1) div 2) mod 4)))) div 2)
1: (((x + 1) mod (1 + (x div 4))) div 2)
1: (((x + 1) mod (1 + (x div (2 + (((x div 2) mod 2) + (x mod 3)))))) div 2)
1: (((x + 1) mod (2 + ((1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)) mod (x + 1)))) div 2)
1: (((x + 1) mod (2 + ((1 - (2x mod (4 + (x div 4)))) mod (x + 1)))) div 2)
1: (((x + 1) mod (2 + ((~1 + (2 * (if (16 mod (x + 1)) <= 0 then 0 else 2))) mod (x + 1)))) div 2)
1: (((x + 1) mod (1 + (6 mod (1 + (x div 2))))) div 2)
1: (((x + 1) mod (2 + ((6 * (1 + ((x div 2) div 3))) mod (x + 1)))) div 2)
1: (((x + 1) mod (1 + ((4 * (if (x mod 2) <= 0 then (~x + 1) else x)) mod (x + 1)))) div 2)
1: (((x + 1) mod (1 + (x2 mod 6))) div 2)
1: (((x + 1) mod (2 + (if (x mod 2) <= 0 then 1 else (2 + (x mod 3))))) div 2)
1: (((x + 1) mod (1 - (2 * (((~x + 2) div 2) mod 4)))) div 2)
1: (((x + 1) mod (2 - ((~2x + 4) div (x + 1)))) div 2)
1: (((x + 1) mod (x - ((x + 1) mod 3))) div 2)
1: (((x + 1) mod 8) div 5)
1: (((x + 1) mod (3 * (1 + (x div (2 * (if (x mod 2) <= 0 then 4 else 1)))))) div 2)
1: (((x + 2) mod 4) div (2 + (x div 5)))
1: (((x + 2) mod 5) div 3)
1: (((x + 2) mod (2 + (((x div 2) div 3) + (if x <= 0 then 0 else 1)))) div 2)
1: (((x + 2) mod ((x + 3) - (2x mod (4 + (x div 4))))) div 2)
1: (((x + 2) mod (1 + ((x div 2) * (x div 2)))) div 2)
1: (((x + 2) mod (1 + (2 * ((((x + ~1) div 2) div 2) mod 3)))) div 2)
1: (((x + 2) mod (1 + (2 * (if (x + ~1) <= 0 then 1 else (((x + 1) div 2) div 3))))) div 2)
1: (((x + 2) mod (1 + ((1 + (x div 2)) div 2))) div 2)
1: (((x + 2) mod (2 + ((x - (x mod (2 * (2 + (x mod 2))))) div 2))) div 2)
1: (((x + 2) mod (2 + ((x div 2) div (1 + (x mod 2))))) div 2)
1: (((x + 2) mod (1 + (x div 4))) div 2)
1: (((x + 2) mod (2 + (x div 4))) div 2)
1: (((x + 2) mod (2 + (x div 4))) div 3)
1: (((x + 2) mod (2 + ((1 + (x div 2)) mod 4))) div 2)
1: (((x + 2) mod (2 + ((x + 1) mod 4))) div 2)
1: (((x + 2) mod (1 + (~x mod 4))) div 2)
1: (((x + 2) mod (1 + ((x + ~1) mod 5))) div 2)
1: (((x + 2) mod (1 + (((x + ~2) - (x mod 2)) mod 5))) div 2)
1: (((x + 2) mod (2 + (x mod (2 * (2 + (x mod 2)))))) div 2)
1: (((x + 2) mod (2 + (if (~2 + (x div 2)) <= 0 then 2 else 1))) div 2)
1: (((x + 2) mod (2 - ((x div 2) div ~3))) div 2)
1: (((x + 2) mod (~1 + (2 * ((x div 2) - (x mod 2))))) div 2)
1: (((x + 2) mod ((1 + (x mod (1 + (x div 3)))) * (1 + (x mod 2)))) div 2)
1: (((x + 2) mod (3 * ((if (x mod 2) <= 0 then 1 else x) mod 4))) div 2)
1: (((2 + compr(\x.(2 - (x mod (1 + (2 * (1 + (x mod 3)))))),x)) mod (x + 1)) div 2)
1: (((0 - (2 * (x div (1 + (x mod 12))))) mod (x + 1)) div 2)
1: (((0 - (x mod 4)) mod (1 + (x div 2))) div 3)
1: (((0 - (x mod (1 + (2 * (if (x mod 3) <= 0 then 0 else 2))))) mod (x + 1)) div 2)
1: ((~x mod (3 + ((x div 2) mod 3))) div 2)
1: ((~x mod (1 + ((x - (x mod 3)) div 2))) div 2)
1: ((~x mod (1 + (2x div 3))) div 2)
1: ((~x mod (2 + (x div 3))) div 3)
1: ((~x mod (1 + ((x + 1) mod 5))) div 2)
1: ((((~x + 1) - ((x2 + 1) div (x + 3))) mod 5) div 2)
1: (((1 + ((x div 4) mod 2) - (x div 2)) mod (x + 1)) div 2)
1: ((~7 mod (2 + (x div 2))) div 2)
1: ((~31 mod (1 + (x div 2))) div 2)
1: (((~2x2 + 1) mod (1 + (x div 3))) div 2)
1: (((1 - ((x div 2) * (x div 2))) mod (x + 2)) div 3)
1: (((1 - (2 * (x mod 5))) mod (x + 3)) div 2)
1: (((~2x + 1) mod (1 + (2 * (2 + (x div 8))))) div 3)
1: (((~x2 + 1) mod (x + 6)) div (x + 1))
1: (((1 - ((x + ~1) div 3)) mod (x + 1)) div 2)
1: (((1 - (2x div 3)) mod (1 + (x div 2))) div 2)
1: (((1 - ((x div 2) div (~1 + (2 * (x mod 4))))) mod (x + 1)) div 2)
1: (((1 - (x div 2)) mod (1 + (((x + 1) div 2) div 2))) div 2)
1: (((1 - (x div 3)) mod (x + 1)) div 2)
1: (((1 - (x div 4)) mod (1 + (x div 2))) div 2)
1: (((1 - (x div 4)) mod (x + 1)) div 2)
1: (((1 - (x div (1 + (x mod 4)))) mod (x + 2)) div 2)
1: (((1 - (x div (2 - (x mod ~7)))) mod (x + 1)) div 2)
1: (((1 - ((x + 1) mod 8)) mod (2x + 1)) div 3)
1: (((1 - ((x + 2) mod 8)) mod (x + 1)) div 2)
1: (((1 - ((2x + ~1) mod (4 + (x div 4)))) mod (2x + 1)) div 3)
1: (((1 - (3x mod (2 + (x div 2)))) mod (x + 1)) div 2)
1: (((1 - (2x mod (1 + (x div 4)))) mod (x + 1)) div 3)
1: (((1 - loop(\(x,i).(x - (if (~x + i) <= 0 then (1 + i) else 0)),x,x)) mod (x + 1)) div 2)
1: (((1 - loop(\(x,i).2x,((x * (x mod 2)) div 2),2)) mod (x + 1)) div 2)
1: (((1 - loop(\(x,i).2x,x,2)) mod (x + 1)) div 2)
1: (((~x + 1) mod (3 + ((x div 2) div 3))) div 2)
1: (((~x + 1) mod (2 + ((((x + ~1) div 2) mod 4) + (x div 3)))) div 2)
1: (((~x + 1) mod (1 + (x mod 2) - (x div ~4))) div 2)
1: (((~x + 1) mod (1 + (2 * ((if (~2 + (x mod 5)) <= 0 then 1 else 2) + (x mod 2))))) div 3)
1: (((~x + 1) mod (x2 + 1)) div 2)
1: (((~x + 1) mod (x2 + 2)) div 3)
1: (((~x + 1) mod (1 + ((x * (x div 2)) div 3))) div 2)
1: (((~x + 1) mod (1 + (((x2 + ~x) div 2) div 3))) div 2)
1: (((~x + 1) mod (2 + (x div (1 + ((x div 2) mod 2))))) div 2)
1: (((~x + 1) mod (2 + ((x + 1) mod (2 + (x div 4))))) div 2)
1: (((~x + 1) mod (2 - ((~x2 + 2x) div 3))) div 2)
1: (((~x + 1) mod (~1 + (2 * ((x + ~1) mod 4)))) div 2)
1: (((2 - ((if (x mod 4) <= 0 then 0 else 2) + (x div 4))) mod (x + 1)) div 2)
1: (((~x2 + 3) mod (2 + (x div 2))) div 3)
1: (((3 - (x div 2)) mod (x + 1)) div 2)
1: (((3 - (x mod (1 + ((x2 + 2x) mod 8)))) mod (x + 1)) div 2)
1: (((~x2 + 2) mod (x + 4)) div 2)
1: (((~x2 + 2) mod (3x + 2)) div 2)
1: (((~x2 + 2) mod (2 - (x div ~2))) div 2)
1: (((2 - ((~x + 2) div 8)) mod (1 + (x div 3))) div 2)
1: (((2 - (((~1 + (x div 2)) * (x div 3)) div 2)) mod (x + 1)) div 2)
1: (((2 - (x div 2)) mod (x + 4)) div 5)
1: (((2 - (x div 2)) mod (2x + 1)) div 2)
1: (((2 - (x div 3)) mod (x + 3)) div 2)
1: (((2 - (x div 3)) mod (1 + (x div (2 + (x mod 2))))) div 2)
1: (((2 - (x div (1 + ((x mod 3) div 2)))) mod (x + 1)) div 2)
1: (((2 - (x div (~2 + (((~x + 2) div 2) div 3)))) mod (x + 1)) div 2)
1: (((2 - ((x + 2) mod ~7)) mod (x + 1)) div 2)
1: (((2 - ((x + ~2) mod (~1 + (2 * (x mod 4))))) mod (x + 1)) div 2)
1: (((2 - ((2 * (1 + (4 * (if (x mod 3) <= 0 then 0 else 2)))) mod (x + 1))) mod 5) div 2)
1: (((2 - (2x mod (6 + (x mod 2)))) mod (x + 1)) div 2)
1: (((2 - (2x mod (4 + (x div 3)))) mod (2x + 5)) div 2)
1: (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 2)
1: (((2 - (2x mod (4 + (x div 4)))) mod (~x + ~1)) div 3)
1: (((2 - (2x mod (4 + (x div 4)))) mod (if x <= 0 then 1 else x)) div 3)
1: (((2 - (2x mod (2 + (x div 2)))) mod (x + 3)) div 2)
1: (((2 - (2x mod (2 + (x div 2)))) mod (x + 1)) div 2)
1: (((2 - ((if (x mod 2) <= 0 then (~x + 2) else x) mod 7)) mod (x + 1)) div 2)
1: (((2 - (x mod 5)) mod (x + 3)) div 2)
1: (((2 - (x mod (6 + (x mod 3)))) mod (x + 1)) div 2)
1: (((2 - (if (x mod 5) <= 0 then 1 else (x div 3))) mod (x + 1)) div 2)
1: (((2 - (if (x mod (4 - (x mod 2))) <= 0 then x else 0)) mod 5) div 2)
1: (((~x + 2) mod 4) div (2 + (x div 4)))
1: (((~x + 2) mod (1 + (4 * (x div 5)))) div 2)
1: (((~x + 2) mod (2x + 1)) div 2)
1: (((~x + 2) mod (1 + ((2x + 1) div 5))) div 2)
1: (((~x + 2) mod (2 + ((x2 + (x div 2)) div 3))) div 2)
1: (((~x + 2) mod (1 + ((x * (x div 2)) div 3))) div 2)
1: (((~x + 2) mod (1 + ((x * (x div 2)) div 4))) div 2)
1: (((~x + 2) mod (1 + (((x + 1) div 2) div 2))) div 2)
1: (((~x + 2) mod (1 + (x div 2))) div 2)
1: (((~x + 2) mod (1 + (x div 4))) div (1 + (2 * (x mod 2))))
1: (((~x + 2) mod (1 + ((~x + ~1) mod 5))) div 2)
1: (((~x + 2) mod (2 + (if x <= 0 then 1 else (x div 5)))) div 2)
1: (((~x + 2) mod (~1 + (2 * (x div 4)))) div 2)
1: (((3 - (if x <= 0 then 1 else x)) mod (1 - (2 * (x div (~2 + ((~x + 2) div 4)))))) div 2)
1: (((1 + (2 * ((1 + ((loop(\(x,i).x2,1,((x + 4) + (x div 2))) div 2) div 2)) div 2)) - (x mod 2)) mod (x + 1)) div 2)
1: (((~x + ~1) mod (3 + (if (~2 + (x div 2)) <= 0 then 0 else 2))) div 2)
1: (((~x + ~1) mod (1 - (2 * ((~x + 1) div (2 + (x div 2)))))) div 2)
1: (((~x + ~1) mod (2 - ((x div 2) div ~3))) div 2)
1: (((~4 + (x div 3)) mod (x + 2)) div 2)
1: (((~3 + (x mod 2)) mod (2x + ~1)) div 3)
1: (((loop(\(x,i).5x,x,1) - (loop(\(x,i).2x,x,2) + loop(\(x,i).3x,x,1))) mod (x + 1)) div 2)
1: (((3x + ~2) mod 7) div 3)
1: (((~x + 8) mod (1 + (x div 3))) div 2)
1: (((~2 + (2 * (1 + (x div (1 + (loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1))))))) mod (x + 1)) div 2)
1: (((~1 + (2 * (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 8)))) mod (x + 1)) div 2)
1: (((~1 + (2 * (~1 + (6 * (1 + (((x + 1) mod (1 + (2 * ((1 + (x div 4)) div 2)))) div 2)))))) mod (x + 1)) div 2)
1: (((2x + ~5) mod (1 + (x div 3))) div 2)
1: (((x3 + ~1) mod (x + 4)) div 2)
1: (((x3 + ~2) mod (1 + (x div 2))) div 3)
1: (((~1 + (2 * (((x div 4) - (x mod 4)) div 2))) mod (x + 2)) div 2)
1: (((~2 + (x * (x div 2))) mod (2 + (x div 4))) div 2)
1: ((((2 * (x mod 2)) - (x div 2)) mod (x + 1)) div 2)
1: (((~1 + (2 * (x mod 4))) mod (1 + (x div 2))) div 3)
1: (((~1 + (x * (x mod 4))) mod (2 + (x div 2))) div 2)
1: (((~1 + (2 * (x mod 6))) mod (x + 1)) div 2)
1: (((~x + (2 * (x mod 8))) mod (2x + 1)) div 2)
1: (((~1 + (2 * (if x <= 0 then 1 else (2 * (x3 mod 13))))) mod 7) div 2)
1: (((2x + ~1) mod (2 + (2x div (2 - ((~x + 1) div 3))))) div 2)
1: (((2x + ~1) mod (2 + (x div 2))) div 2)
1: (((2x + ~1) mod loop(\(x,i).(1 + ((2 * (x + (i mod 2))) div 3)),2,x)) div 2)
1: (((2x + (((~x + 2) div 2) mod 3)) mod (1 + (x div 2))) div 2)
1: (((2x - (x mod 5)) mod 8) div 3)
1: (((x2 + ~1) mod (1 + (2 * (if x <= 0 then 0 else 2)))) div 2)
1: (((x2 + ~2) mod (2x + 5)) div 3)
1: (((x2 + ~2) mod (2 + (x div 2))) div 2)
1: ((((x2 + ~2) - (x div 2)) mod (x + 4)) div 2)
1: (((x2 - (x div 2)) mod (x + 2)) div (x + 1))
1: (((~1 + ((1 + ((32 mod (x + 1)) div 2)) div 2)) mod (x + 1)) div 2)
1: (((~x + ((~x + 2) div 2)) mod 4) div 3)
1: (((~x + ((~x + 2) div 2)) mod (1 + (x div 3))) div 2)
1: (((~1 + (2x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))) mod (x + 1)) div 2)
1: (((~1 + (x2 div 2)) mod (4 + (x div 2))) div 2)
1: (((~2 + ((x div 2) div 3)) mod (x + 1)) div 2)
1: (((~1 + (x div 2)) mod 5) div 2)
1: (((~1 + (x div 2)) mod (1 + (x mod 7))) div 2)
1: (((~1 + (x div 2)) mod (~1 + (2 * (x mod 4)))) div 2)
1: (((~x + (x div 3)) mod (2 + (x div 2))) div 2)
1: (((~2 + (x div (1 + (x mod 4)))) mod (x + 1)) div 2)
1: (((~x + (x div 8)) mod (2 + (x div 2))) div 2)
1: (((~1 + (~x mod 5)) mod (x + 2)) div 2)
1: (((~x + (((x + ~1) div 2) mod 2)) mod 5) div 2)
1: (((((x div ~4) mod 2) - (x div 2)) mod (x + 1)) div 2)
1: (((~1 + (loop(\(x,i).(2x + 2),x,0) mod (2x + 1))) mod (x + 1)) div 2)
1: ((((loop(\(x,i).(2x + 2),x,0) mod (x + 1)) - loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) mod (x + 1)) div 2)
1: (((~1 + (loop(\(x,i).4x,x,5) mod (2x + 3))) mod (x + 1)) div 2)
1: (((~2x + (x mod 2)) mod (2 + (x div 3))) div 2)
1: ((((x mod 2) - (if (x mod 3) <= 0 then 0 else x)) mod 5) div 2)
1: (((~2 + (x mod 3)) mod (x + 2)) div 2)
1: ((((if (x mod 3) <= 0 then 0 else x) - (x mod 3)) mod 5) div 2)
1: (((~1 + loop(\(x,i).(x - (if (~x + i) <= 0 then (1 + i) else 0)),x,x)) mod (x + 2)) div 2)
1: (((~2 + loop(\(x,i).3x,x,1)) mod 19) div 3)
1: (((~1 + loop(\(x,i).4x,(x div 2),2)) mod (x + 1)) div 2)
1: (((~2 + loop(\(x,i).2x,(x + (if (~2 + (x div 2)) <= 0 then 1 else 2)),1)) mod (x + 1)) div 2)
1: (((~1 + loop(\(x,i).2x,(2 - ((~x + 1) div 3)),2)) mod (x + 1)) div 2)
1: (((loop(\(x,i).2x,x,1) - loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(x + ~1),1)) mod (x + 1)) div 2)
1: (((~1 + loop(\(x,i).2x,x,2)) mod (2 + (x div 2))) div 2)
1: (((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)) div 2)
1: (((~1 + loop(\(x,i).2x,x,(1 + (2 * (if (x mod 5) <= 0 then 0 else 2))))) mod (x + 1)) div 2)
1: (((~1 + loop(\(x,i).2x,x,(1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))) mod (x + 1)) div 2)
1: (((~1 + loop(\(x,i).2x,x,(1 + (x mod (1 + ((x + 1) mod 3)))))) mod (x + 1)) div 2)
1: (((loop(\(x,i).2x,x,(1 + (x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4)))))))) - (x mod 2)) mod (x + 1)) div 2)
1: (((~1 + loop(\(x,i).2x,x,(1 + (if ((x mod 7) mod 3) <= 0 then 2 else 0)))) mod (x + 1)) div 2)
1: (((~1 + loop(\(x,i).2x,x,(1 - (2 * ((x mod (2 + (x mod 5))) mod 2))))) mod (x + 1)) div 2)
1: (((~1 + loop(\(x,i).2x,x,(1 + (if (x mod 3) <= 0 then 2 else 0) - (x mod 2)))) mod (x + 1)) div 2)
1: (((~1 + loop(\(x,i).2x,x,((x mod 6) - (x mod 5)))) mod (x + 1)) div 2)
1: (((~1 + loop(\(x,i).2x,x,(if ((x + (x div 2)) mod 4) <= 0 then 2 else 1))) mod (x + 1)) div 2)
1: (((~1 + loop(\(x,i).2x,x,(if (x mod 2) <= 0 then 2 else 0))) mod (x + 1)) div 2)
1: (((~1 + loop(\(x,i).2x,x,(if (x mod 4) <= 0 then 2 else (x mod 2)))) mod (x + 1)) div 2)
1: (((~1 + loop(\(x,i).2x,x,(if x <= 0 then 1 else (2 * (if (~2 + (x div 3)) <= 0 then 0 else 2))))) mod (x + 1)) div 2)
1: (((~x + loop(\(x,i).(x div (1 + (x mod 2))),x,x)) mod 5) div 2)
1: (((x + ~1) mod 3) div (2 - (x div 8)))
1: (((x + ~1) mod 3) div (if (~4 + (x div 2)) <= 0 then 2 else 1))
1: (((x + ~1) mod 3) div (if (~2 + (x div 3)) <= 0 then 2 else 1))
1: (((x + ~1) mod 4) div (2 + ((x + 1) mod 3)))
1: (((x + ~1) mod (3 + (((x mod (1 + ((~x + 2) mod 4))) div 2) + (x mod 2)))) div 2)
1: (((x + ~1) mod (3 + ((1 + (x div 3)) div 3))) div 2)
1: (((x + ~1) mod (3 + (((1 + (x div 2)) div 2) div 2))) div 2)
1: (((x + ~1) mod (4 + ((x div 2) div 3))) div 2)
1: (((x + ~1) mod (3 + (x div 2))) div 2)
1: (((x + ~1) mod (4 - (x div 4))) div 2)
1: (((x + ~1) mod (4 - (x mod 4))) div 2)
1: (((x + ~1) mod (2 + (2 * (((~x + 1) mod 3) + (x mod 2))) - (x mod 2))) div 2)
1: (((x + ~1) mod (1 + (2 * (2 + (x mod 3))))) div 2)
1: (((x + ~1) mod (1 + (2 * (2 + (x mod 6))))) div 2)
1: (((x + ~1) mod (2 + (3 * ((((x + 1) div 2) div 2) div 2)))) div 2)
1: (((x + ~1) mod (1 + (2 * ((~x + 1) mod 3)))) div 2)
1: (((x + ~1) mod (1 + (2 * (((x * (2 - (x div 2))) div 3) mod 3)))) div 2)
1: (((x + ~1) mod (1 + (2 * ((x2 div 2) mod (x + 2))))) div 2)
1: (((x + ~1) mod (2 + ((x + (2 * (x mod 2))) div 5))) div 2)
1: (((x + ~1) mod (1 + ((1 + (x div 2)) div 2))) div 2)
1: (((x + ~1) mod (1 + (((x + 1) div 2) div 2))) div 2)
1: (((x + ~1) mod (2 + (x div (2 + (x div 4))))) div 2)
1: (((x + ~1) mod (1 + ((x + ~2) mod 5))) div 2)
1: (((x + ~1) mod (3 + ((x + ~2) mod (1 + (x div 2))))) div 2)
1: (((x + ~1) mod (1 + ((x + ~4) mod (2 + (x div 3))))) div 2)
1: (((x + ~1) mod (1 + ((3 * ((x + ~1) div 2)) mod (x + 1)))) div 2)
1: (((x + ~1) mod (1 - ((x + 1) mod (~1 + (2 * (((~x + 2) div 2) div 3)))))) div 2)
1: (((x + ~1) mod (1 - (x mod (~4 + ((~x + 1) div 2))))) div 2)
1: (((x + ~1) mod (2 - (((x div 2) div ~2) div 2))) div 2)
1: (((x + ~1) mod (2 - (x div ~2))) div 2)
1: (((x + ~1) mod (2 - (x div ~4))) div 2)
1: (((x + ~1) mod (~1 + (2 * ((~x + 2) mod 4)))) div 2)
1: (((x + ~1) mod (~1 + (5 * (if ((x + 1) mod 5) <= 0 then 2 else 0)))) div 2)
1: (((x + ~1) mod ((x + 1) div (1 + (x div 4)))) div 2)
1: (((x + ~1) mod loop(\(x,i).(2 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2)),2,x)) div 2)
1: (((x + ~2) mod (1 + ((1 + (x div 2)) div 2))) div 2)
1: (((x + ~2) mod (1 + ((x + 1) div 2))) div 3)
1: (((x + ~2) mod (2 + (x div (2 + (if (x mod 3) <= 0 then 2 else 1))))) div 2)
1: (((x + ~2) mod (1 + ((1 + (x div 2)) mod 4))) div 2)
1: (((x + ~2) mod (1 + ((x + ~1) mod 4))) div 2)
1: (((x + ~2) mod (2 - ((x div 4) div ~2))) div 2)
1: (((x + ~2) mod (~1 + (2 * (x mod 5)))) div 2)
1: (((x + ~4) mod (1 + (x div 4))) div 2)
1: ((((x + ~2) + ((x2 div 2) mod 3)) mod (x + 1)) div 2)
1: ((((x + ~1) + ((x mod 2) + ((2 * (2 + ((~1 + (x2 div (3 + (x div 4)))) div 2))) div 3))) mod (x + 1)) div 2)
1: ((((x + 1) - (3 * (if x <= 0 then 2 else ((if x <= 0 then 2 else (1 + ((1 + (x div (2 + (x mod 2)))) div 2))) div 2)))) mod (x + 1)) div 2)
1: (((x + ~8) mod (1 + (x div 2))) div 3)
1: (((x - (2 * (2 + (x div 8)))) mod (x + 1)) div 2)
1: (((x - (5 * (2 - ((x div 2) mod 5)))) mod (x + 2)) div 2)
1: (((~2x2 + x) mod (2 + (x div 2))) div 2)
1: (((x - ((1 - (x div 2)) div 3)) mod 3) div 2)
1: (((x - ((1 - (x div 2)) div 3)) mod (1 + (x div 3))) div 2)
1: (((x - (x div ~2)) mod (2 + (x div 3))) div 2)
1: (((x - (x div ~6)) mod 3) div 2)
1: (((x - ((1 + (x div 2)) mod 4)) mod 3) div 2)
1: (((x - (x2 mod (2x + 8))) mod 5) div 2)
1: ((3x mod (1 + (x mod 5))) div 2)
1: ((8 mod (x + 4)) div (x + 1))
1: ((8 mod (1 + ((x + 1) div 2))) div 2)
1: ((8 mod (x + 1)) div (if x <= 0 then 1 else x))
1: ((8 mod (2x + ~1)) div 3)
1: ((12 mod (x + 2)) div 5)
1: ((5x mod (1 + (x div 2))) div 2)
1: (((x * ((x + 2) + (x div 3))) mod 5) div 2)
1: (((2x + 6) mod (2 + (x div 3))) div 2)
1: (((~x2 + ~2x + 8) mod (1 + (x div 3))) div 2)
1: (((x2 + 4x) mod (1 + (x div 3))) div 2)
1: (((~4x + 12) mod (1 + (x div 2))) div 2)
1: (((~x2 + 3x) mod (x + 4)) div 2)
1: (((6x + 4) mod 11) div 5)
1: (((2 * (1 + (2 * (1 + (x mod 2))))) mod (1 + (x div 2))) div 2)
1: ((((x2 + 2x + 1) * (1 + (x mod 2))) mod 7) div 2)
1: (((2 * (x + (2 * ((3 * (x3 mod 17)) div (x + 1))))) mod (x + 1)) div 2)
1: (((5 * (2 + (2 * (if (x mod 3) <= 0 then 0 else 2)))) mod (x + 1)) div 2)
1: (((2x2 + 3x + 1) mod (1 + (x div 3))) div 2)
1: (((x3 + x) mod (2 + (x div 2))) div 3)
1: (((2 * (1 + ((1 + (((loop(\(x,i).(x + (if x <= 0 then 1 else ((x * (x mod 2)) + (x div 2)))),x,1) div 2) div 2) + (x mod 2))) div 2))) mod (x + 1)) div 2)
1: (((2 * (1 + ((1 + ((x + 1) div (2 + (x mod (2 * (2 - (x mod 2))))))) div 2))) mod 3) div 2)
1: (((2 * (1 + ((1 + ((x2 + ~x) div (3 * (if ((x + ~2) mod (2 + (x mod 2))) <= 0 then 1 else 2)))) div 2))) mod (x + 1)) div 2)
1: (((2 * (1 + ((1 + (((1 + (((x + 1) * (if x <= 0 then 1 else (2 * ((if ((x + 1) mod (1 + (x div 4))) <= 0 then 1 else 2) + ((x mod 3) div 2))))) div 2)) div 2) div 2)) div 2))) mod (x + 1)) div 2)
1: (((2 * (1 + ((1 + (((2x3 + 5x2 + ~3x) div 2) div 3)) div 2))) mod (x + 1)) div 2)
1: (((2 * (1 + ((1 + ((x mod (2 + (loop(\(x,i).3x,x,3) mod (x + 1)))) div 2)) div 2))) mod (x + 1)) div 2)
1: (((2 * (1 + ((1 + ((x + 1) mod (1 + (x div (2 + (x mod 5)))))) div 2))) mod (x + 1)) div 2)
1: (((2 * (1 + ((1 + ((1 - ((1 + ((1 + (x mod (2 * (1 + (x mod (2 * (1 + (x mod (1 + (x div 3)))))))))) mod (x + 1))) mod 3)) mod (x + 1))) div 2))) mod (x + 1)) div 2)
1: (((2 * (1 + ((1 + ((x div 2) mod (1 + (x mod (1 + (x div 3)))))) div 2))) mod (x + 1)) div 2)
1: (((2 * (1 + (((~1 + (6 * (1 + ((1 + ((x mod (1 + (x div (if (x mod 2) <= 0 then 4 else 1)))) div 2)) div 2)))) div 2) div 2))) mod (x + 1)) div 2)
1: (((2 * (1 + ((x div (2 - (x mod 2))) div 3))) mod (x + 1)) div 2)
1: (((2 * (1 + (((1 - (x mod (3 + (x mod 2)))) mod (x + 1)) div 5))) mod (x + 1)) div 2)
1: (((2 * (1 + ((x mod (1 + loop(\(x,i).(1 + (((x + ~1) + loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x)) mod (x + 1))),2,x))) div 2))) mod (x + 1)) div 2)
1: (((2 * (1 + ((if x <= 0 then 2 else (2 - ((x + 1) mod (1 + (2 * (if ((x + ~1) mod 4) <= 0 then 2 else 1)))))) div 2))) mod (x + 1)) div 2)
1: ((((x + (x div 2)) * (1 + (x mod 2))) mod 5) div 2)
1: (((x2 * (x + (x div 2))) mod 5) div 2)
1: (((3 * (x + (x div 4))) mod (1 + (x div 2))) div 2)
1: (((x * (2 + (x div 5))) mod (2 + (x div 2))) div 2)
1: (((2 * ((x div (4 + (8 mod (1 + (x div 2))))) + (x mod 2))) mod (x + 1)) div 2)
1: (((2 * (1 + (x div (2 + (((1 + ((x mod 3) div 2)) * (1 + (x mod 2))) mod (x + 1)))))) mod (x + 1)) div 2)
1: (((3 * (1 + ((2 - (x mod 2)) mod (1 + (if (~1 + (x mod 3)) <= 0 then 2 else 0))))) mod 5) div 2)
1: (((2 * (1 + ((x div (1 + (2 * (1 + (2 * (x mod 2)))))) mod 2))) mod (x + 1)) div 2)
1: ((((1 + (if (x mod 2) <= 0 then 2x else 1)) * (if x <= 0 then 1 else 2)) mod (1 + (x div 2))) div 2)
1: (((2 * (x + (if x <= 0 then 1 else (x - loop(\(x,i).loop(\(x,i).((x + ~1) - (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)),x,x),1,2x))))) mod (x + 1)) div 2)
1: (((2x + 2) mod (1 + (x div 3))) div 2)
1: (((2x + 2) mod (2 + (x div 4))) div 2)
1: (((2x + 2) mod (2 + (46 mod (x + 1)))) div 2)
1: (((2x + 2) mod (~1 + ((~x + 1) div 3))) div 2)
1: (((2x + 2) mod (~1 + ((~x + 2) div 3))) div 2)
1: (((3x + 3) mod (1 + (x div 3))) div 2)
1: (((3x + 3) mod (2 + (x div 3))) div 2)
1: (((3x + 3) mod (2 + (x div 4))) div 2)
1: (((2x + 4) mod (~2 - (x div 4))) div 2)
1: (((3x + 6) mod (2 + (9 * (if x <= 0 then 1 else 2)) - ((x mod 2) + (x mod 7)))) div 8)
1: (((x2 + 2x) mod (4 + (x div 2))) div 2)
1: (((x2 + 2x) mod ((x + 2) + (x div 2))) div 2)
1: (((x2 + 2x) mod (1 + ((x + 1) div 3))) div 2)
1: (((5 * (2 + compr(\x.(1 - (x mod (1 + (if (x mod 8) <= 0 then 2 else 1)))),x))) mod (x + 2)) div 2)
1: (((x * (~1 - (if (x mod 3) <= 0 then 2 else 0))) mod (1 + (x div 2))) div 2)
1: ((~2x mod (4 + (((x + 1) div 2) div 2))) div 2)
1: ((~2x mod (3 + (x div 4))) div 2)
1: ((~2x2 mod (2 + (x div 3))) div 2)
1: (((~4x + 2) mod (2 + (x div 2))) div 2)
1: (((~2x + 2) mod (2 + (x div 2))) div 2)
1: (((~3x + 3) mod (1 + (x div 2))) div 2)
1: (((~3x + 3) mod (2 + (x div 2))) div 2)
1: (((~3x + 3) mod (1 + (x div 3))) div 2)
1: (((~x2 + 2x + ~1) mod (1 + (x div 2))) div 2)
1: (((~x2 + 2x + ~1) mod (1 + (x div 2))) div 3)
1: (((~x2 + x) mod (1 + (x div 2))) div 2)
1: (((2 * (2 - (((1 + ((x2 div 2) + (x div 4))) div 2) mod 2))) mod (x + 1)) div 2)
1: ((((x + 1) * (2 - (x mod (2 + ((x div 2) mod 2))))) mod 5) div 2)
1: (((~x2 + 2x) mod (1 + (x div 2))) div 2)
1: ((22 mod (2 + (x div 2))) div 2)
1: (((x * (~1 + (2 * (x div 4)))) mod (2 + (x div 2))) div 2)
1: (((2x2 + ~x) mod (x + 4)) div 2)
1: (((2x2 + ~x) mod (1 + (x div 2))) div 2)
1: (((2 * (~2 + (x div 2))) mod (1 + (x div 2))) div 2)
1: (((2 * (~2 + (x div 2))) mod (x + 1)) div 3)
1: (((3 * ((x div 2) - (2 * (x mod 2)))) mod (x + 1)) div 2)
1: (((2 * (~1 + (x div 4))) mod (x + 1)) div 2)
1: (((2 * (~x + ((x div 2) mod 2))) mod (1 + (x div 2))) div 2)
1: (((2 * (~2 + ((x div 2) mod 3))) mod (x + 1)) div 2)
1: (((2 * (~1 + (x mod 3))) mod (x + 1)) div 2)
1: (((2 * (~2 + (x mod ~4))) mod (x + 1)) div 2)
1: (((2x + ~2) mod (2 + (((x div 2) div 3) + (if x <= 0 then 1 else 2)))) div 2)
1: (((2x + ~2) mod (1 + (((x + 1) div 2) div 2))) div 2)
1: (((x2 + ~x) mod (x + 5)) div (x + 1))
1: (((x2 + ~x) mod (x + 4)) div 3)
1: (((x2 + ~x) mod (x - ((~x + 2) div 2))) div (x + 1))
1: (((x2 + ~x) mod (3 * (1 + (x div 3)))) div 2)
1: (((2x + ~4) mod (x + 2)) div 5)
1: (((3x + ~6) mod (1 + (x div 2))) div 3)
1: (((x2 + ~2x) mod (x + 4)) div 3)
1: (((x2 + ~2x) mod 11) div 2)
1: (((x3 + ~3x2) mod (2 + (x div 2))) div 2)
1: (((2x + ~8) mod (x + 1)) div 2)
1: (((2 * (x - (2 * (x mod (1 + ((3 * ((x + 1) div 2)) mod (1 + (x div 3)))))))) mod (x + 1)) div 2)
1: (((3 * (x - ((x + ~1) mod 3))) mod (1 + (x div 2))) div 2)
1: (((x * (x - (x mod 3))) mod (1 + (x div 2))) div 2)
1: ((16 mod (1 + ((x + 1) div 2))) div 3)
1: ((16 mod (x + 1)) div 2)
1: ((24 mod (~x + ~1)) div 2)
1: ((40 mod (x + 1)) div 2)
1: (((16x + 8) mod 13) div 3)
1: (((4x2 + 8x + 4) mod 5) div 2)
1: ((~16 mod (x + 1)) div 2)
1: ((20 mod (x + 1)) div 2)
1: ((20 mod (x + 1)) div 5)
1: (((6 * (1 + (2 * (1 + (x mod 2))))) mod (x + 1)) div 2)
1: (((4 * (2 + (x mod 2))) mod (1 + (x div 2))) div 2)
1: ((((3x + 3) * (1 + (x mod (2 * (2 + (3 * (x mod 2))))))) mod 5) div 2)
1: (((6x + 6) mod (2 + (x div 4))) div 2)
1: (((4 * ((~x + 2) - (x div 3))) mod (x + 1)) div 2)
1: (((4 * (x - (x mod (3 + (x mod 2))))) mod (x + 1)) div 2)
1: ((32 mod (~x + ~1)) div 2)
1: (((16x2 + ~16x) mod (1 + (x div 2))) div 2)
1: (((8 * (2 + (x mod 3))) mod (x + 1)) div 2)
1: ((64 mod (x + 1)) div 3)
1: ((8x mod (1 + (x div 2))) div 2)
1: ((8x mod (1 + (x div 2))) div 3)
1: ((12x2 mod (1 + ((x + 1) div 2))) div 2)
1: ((x5 mod 17) div 2)
1: ((x5 mod 41) div 2)
1: ((((x2 + ~2x) * (x div 2)) mod 7) div 3)
1: ((4x mod 9) div 2)
1: ((6x mod (1 + compr(\x.((((x + 1) div (1 + (2 * (x mod (3 * (1 + (x mod 4))))))) mod 2) - (x mod 2)),x))) div 3)
1: ((2x2 mod (4 + (x div 2))) div 2)
1: ((3x2 mod 7) div 2)
1: ((3x2 mod (1 + ((x + 1) div 2))) div 3)
1: ((4x2 mod (2 + (x div 2))) div 3)
1: (((x3 + x2) mod 7) div 3)
1: (((x3 + 2x2) mod 7) div 3)
1: (((~x3 + 2x2) mod 7) div 3)
1: (((x3 + ~2x2) mod (2 + (x div 2))) div 2)
1: (((x3 + ~2x2) mod (2 + (x div 4))) div 2)
1: ((2x3 mod (x + 4)) div 2)
1: ((x4 mod (2x + ~1)) div 2)
1: ((x3 mod (x + 5)) div 2)
1: ((x3 mod (2x + 5)) div 2)
1: ((x3 mod (2 + (x div 2))) div 2)
1: ((x3 mod (x - ((~x + 2) div 2))) div 2)
1: (((2 * (((x + 4) + ((2 * (2x - ((x div 2) div ~5))) div 5)) div 2)) mod 3) div 2)
1: (((x * ((1 + (x div 2)) div 2)) mod 3) div 2)
1: (((x * ((x + (x div 2)) div 2)) mod 5) div 3)
1: (((5 * ((~x + 2) div 2)) mod (2 + (x div 3))) div 2)
1: (((2 * ((x + ~1) div (2 + (x div 4)))) mod (1 + (x div 2))) div 2)
1: (((3 * ((x * (x mod 4)) div 2)) mod (x + 1)) div 2)
1: (((2 * (x2 div 2)) mod (2 + (x div 2))) div 2)
1: (((x * (x2 div 3)) mod 8) div 3)
1: (((2 * (x2 div (x + 4))) mod (1 + (x div 2))) div 2)
1: ((((x div 2) * (x div 2)) mod (if x <= 0 then 1 else x)) div 2)
1: (((x * (x div 2)) mod 4) div 3)
1: ((((x + ~2) * (x div 3)) mod (x + 1)) div 2)
1: (((x * (x div 3)) mod 3) div 2)
1: ((((x + ~1) * (x div 4)) mod 3) div 2)
1: (((3 * ((x + 2) mod 5)) mod (x + 1)) div 2)
1: (((x * ((x + 2) mod (2 + (x div 4)))) mod 5) div 2)
1: ((((x + 1) * ((~x + 2) mod 3)) mod 5) div 2)
1: (((3 * ((x + ~1) mod 4)) mod (x + 1)) div 2)
1: (((3 * ((x + ~1) mod 8)) mod (x + 1)) div 2)
1: (((3 * ((x2 div 4) mod (2x + 1))) mod (x + 1)) div 2)
1: (((3 * (x mod 3)) mod (1 + (x div 2))) div 2)
1: (((3 * (x mod 4)) mod (x + 1)) div 2)
1: (((2 * (x mod (~3 + (x mod 2)))) mod (x + 1)) div 2)
1: (((2 * (x mod (~1 + ((~x + 1) div 5)))) mod (x + 1)) div 2)
1: (((2 * (x mod (~2 + (x div ~4)))) mod (x + 1)) div 2)
1: (((3 * (if (x2 mod (x + 4)) <= 0 then 2 else 1)) mod (x + 1)) div 2)
1: (((3 * loop(\(x,i).3x,(if x <= 0 then 1 else ((3 * (x div 4)) div 2)),1)) mod (x + 1)) div 2)
1: ((2x mod (3 + (x div 2))) div 2)
1: ((2x mod (4 + (x div 4))) div (1 + (x div 3)))
1: ((2x mod (1 + (2 * ((x div 2) - (x div 3))))) div 2)
1: ((2x mod (1 + (2 * (2x mod (1 + (2 * ((1 + (x div 4)) div 2))))))) div 2)
1: ((2x mod (2 + (4x div (x + 2)))) div 2)
1: ((2x mod (2 + (x div 3))) div 2)
1: ((2x mod (2 + (x div 3))) div 3)
1: ((2x mod (2 + (x div 3))) div (2 + (x mod 2)))
1: ((2x mod (2 + (x div 4))) div 2)
1: ((2x mod (2 + (x mod 6))) div 2)
1: ((2x mod (1 + (x mod 8))) div 2)
1: ((2x mod (2 - (x div (~1 - (if (x + ~4) <= 0 then 0 else 2))))) div 2)
1: ((2x mod (~1 + (2 * (x mod 7)))) div 2)
1: ((x2 mod (x + 9)) div 2)
1: ((x2 mod ((x + 1) + (2 * (x div 4)))) div 2)
1: ((x2 mod ((x + 2) + (x div 2))) div 2)
1: ((x2 mod (x + 3)) div (x + 1))
1: ((x2 mod (x + 4)) div 2)
1: ((x2 mod (x + 4)) div ~2)
1: ((x2 mod 7) div (2 + ((x div 3) mod 2)))
1: ((x2 mod (8 + (x div 2))) div 3)
1: ((x2 mod 13) div 2)
1: ((x2 mod (1 + (2 * (2 + (x mod 2))))) div 3)
1: ((x2 mod (~2x + 5)) div 3)
1: ((x2 mod 17) div 2)
1: ((x2 mod (1 + (2 * (3x div 5)))) div 2)
1: ((x2 mod (1 + (2 * ((x + ~1) mod ~4)))) div 2)
1: ((x2 mod (1 + ((x + (x div 2)) div 2))) div 2)
1: ((x2 mod (1 + (8x div 3))) div (x + 2))
1: ((x2 mod (2 + (2x div 3))) div 2)
1: ((x2 mod (1 + (x div 2))) div 2)
1: ((x2 mod (2 + (x div 4))) div 2)
1: ((x2 mod (2 + (8 mod (x + 1)))) div 2)
1: ((x2 mod ((x + ~2) + (x div 2))) div 2)
1: ((x2 mod (~3x + 2)) div 2)
1: ((x2 mod (~1 + (6 * (1 + (((x + (x div 8)) mod 5) div 2))))) div (x + 1))
1: ((x2 mod (~1 + (2 * ((x + ~1) div 2)))) div 2)
1: ((x2 mod (2x + ~1)) div 2)
1: ((x2 mod (2x + ~1)) div 5)
1: ((x2 mod ((x + ~3) - (x mod 2))) div 2)
1: (((((x + 1) + (x div 2)) div 2) mod 4) div 3)
1: ((((x + ((x + ~2) * (x div 3))) div 2) mod 5) div 2)
1: ((((x2 + (x div 2)) div 2) mod (1 + (x div 2))) div 2)
1: ((((x2 + (x div 2)) div 2) mod (2 + (x div 2))) div 2)
1: ((((x + (((x + ~1) div 2) div 2)) div 2) mod 3) div 2)
1: ((((1 + (x div 2)) div 2) mod 4) div 3)
1: ((((x + (if (x mod 2) <= 0 then x else 1)) div 3) mod (1 + (x div 2))) div 2)
1: ((((x + 1) div 2) mod 4) div 3)
1: ((((x + 1) div 2) mod 4) div (2 + (x mod 3)))
1: ((((x + 1) div 2) mod (2 + ((x div 2) mod 2))) div 2)
1: ((((x + 1) div 3) mod 3) div 2)
1: ((((x + 1) div (1 + (3 * ((~x + 1) mod 5)))) mod 5) div 2)
1: ((((x + 2) div (3 - (x mod 2))) mod (2 + (x div 4))) div 2)
1: ((((x + 2) div (1 + (x mod 3))) mod 3) div 2)
1: ((((~x + 1) div 2) mod (x + 2)) div 2)
1: ((((2 - (x div 2)) div 2) mod (x + 2)) div 2)
1: ((((2 - (x div 2)) div 2) mod (if x <= 0 then 1 else x)) div 2)
1: (((((~x + 2) - (x div 2)) div 2) mod (x + 2)) div 2)
1: ((((~x + ((2 - (x div 2)) div 2)) div 2) mod (x + 2)) div 2)
1: ((((~1 + ((~2x + 2) mod 9)) div 2) mod (x + 1)) div 2)
1: ((((x * (2 + (x div 2))) div 2) mod 3) div 2)
1: ((((x2 + x) div 4) mod (x + 2)) div 2)
1: (((((~x + 1) * (x div 2)) div 2) mod (x + 2)) div 2)
1: (((((x + 1) * (6 - (x mod 3))) div 2) mod 5) div 2)
1: ((((2x + ~2) div 3) mod 3) div 2)
1: ((((x2 + ~2x) div (x + 2)) mod 4) div 3)
1: ((((x3 + 2x2) div 2) mod (x + 5)) div 2)
1: (((x3 div 2) mod (x + 4)) div 2)
1: ((((((x + ~1) div 2) * (x div 2)) div 2) mod (x + 1)) div 2)
1: (((((x + 1) * (x div 2)) div 3) mod 3) div 2)
1: ((((x * (x div 2)) div 2) mod 4) div 3)
1: ((((x * (x div 2)) div 2) mod (x + 1)) div 2)
1: (((2x div (1 + (x div 2))) mod 3) div 2)
1: (((x2 div 2) mod 3) div 2)
1: (((x2 div 2) mod (x + 3)) div 2)
1: (((x2 div 2) mod (x + 4)) div 2)
1: (((x2 div 2) mod (1 + (2 * (((x + ~2) * (x div 3)) mod (1 + (x div 2)))))) div 2)
1: (((x2 div 2) mod (x + 1)) div 3)
1: (((x2 div 2) mod (x + 2)) div 2)
1: (((x2 div 3) mod 5) div 2)
1: (((x2 div 3) mod (x + 1)) div 3)
1: (((x2 div 4) mod (3 * (1 + (x div 4)))) div 2)
1: (((((x + ~1) div 2) div 2) mod 3) div 2)
1: (((((x3 + ~x) div 2) div 3) mod (1 + ((x + 1) div 3))) div 2)
1: ((((x div 2) div ~2) mod (x + 2)) div 2)
1: ((((x div 2) div ~5) mod (x + 2)) div 2)
1: (((x div 2) mod 3) div (1 + ((x * (x div 2)) mod 2)))
1: (((x div 2) mod 4) div (2 + (x mod 3)))
1: (((x div 2) mod (1 + ((x mod 4) + (x mod 3)))) div 2)
1: (((x div 2) mod 7) div 2)
1: (((x div 2) mod (1 + (x mod 5))) div 2)
1: (((x div 3) mod (2 + ((~x + 1) mod 3))) div 2)
1: (((x div 3) mod (~x + ~1)) div 3)
1: (((x div 4) mod (~1 + ((~x + 1) div 2))) div 2)
1: (((x div (1 + ((x div 2) div 3))) mod 3) div 2)
1: (((x div ~4) mod (x + 2)) div 2)
1: (((x div (~4 + ((x div 2) mod 2))) mod (x + 2)) div 2)
1: (((x div (~2 + ((x div 4) mod 2))) mod 3) div 2)
1: (((x div (~2 + (x mod ~2))) mod (2 + (x div 3))) div 2)
1: (((x div (2 * (~2 + (x mod 2)))) mod (2 + (x mod 3))) div 2)
1: (((1 mod (~2x + 1)) mod (x + 4)) div (x + 1))
1: (((1 mod (1 - (2x mod (4 + (x div 4))))) mod (x + 3)) div 2)
1: ((((x + (x div 2)) mod 4) mod (1 + (x div 2))) div 2)
1: ((((x + 1) mod (2 + (x mod 4))) mod (x + 1)) div 2)
1: ((((2 - (x div 2)) mod (x + 1)) mod 3) div 2)
1: ((((2 - (x div 2)) mod (if x <= 0 then 1 else x)) mod 3) div 2)
1: ((((2 - (x mod 4)) mod (x + 1)) mod 3) div 2)
1: ((((~x + 2) mod (3 + (x div 2))) mod 3) div 2)
1: ((((2x + ~1) mod (4 + (x div 4))) mod (x + 1)) div 2)
1: ((((~1 + ((~2x + 2) mod (4 + (x div 4)))) mod (1 + (x2 div 4))) mod (x + 1)) div 2)
1: (((2x mod (2 + (x div 2))) mod 3) div 2)
1: (((((x + ~1) div 2) mod (~4 - (x div 4))) mod 3) div 2)
1: (((x mod 3) mod (~x + ~1)) div 2)
1: (((x mod (2 + (x div 2))) mod 4) div 3)
1: (((x mod (2 + (x div 4))) mod 3) div 2)
1: (((x mod ~3) mod (x + 1)) div 2)
1: (((if (x div 2) <= 0 then 2 else ((x + ~2) * (x div 3))) mod 7) div 2)
1: (((if ((x + 1) mod 8) <= 0 then 3 else x) mod 5) div 2)
1: (((if ((x div 5) mod 2) <= 0 then 1 else x) mod 4) div (1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))
1: (((if (((x + ~1) mod (2 + (x mod 2))) mod 2) <= 0 then (x + ~1) else 2) mod 5) div 2)
1: (((if (x mod 2) <= 0 then (x div 2) else (2x + 1)) mod 5) div 2)
1: (((if (x mod 3) <= 0 then 1 else (~8 + (x div 2))) mod (1 + (x div 2))) div 2)
1: (((if (x mod 3) <= 0 then 2 else x) mod (2 + (x div 4))) div 2)
1: (((if (x mod 4) <= 0 then 2 else (x div 2)) mod 3) div 2)
1: (((if (x mod 6) <= 0 then (x div 2) else 2) mod (x + 1)) div 2)
1: (((if x <= 0 then 1 else (2 * (1 + ((1 + ((x * (1 + (x mod 3))) div 2)) div 2)))) mod (x + 1)) div 2)
1: (((if x <= 0 then 1 else x) mod 2) div (~1 + (2 * ((x div 5) mod 2))))
1: (((if x <= 0 then 1 else x) mod (~2 + ((~x + 2) div 4))) div 2)
1: (((if x <= 0 then 2 else (1 + loop(\(x,i).(x * (x + i)),2,3))) mod (x + 2)) div 2)
1: (((if x <= 0 then 2 else (x * (x div 4))) mod 3) div 2)
1: (((if x <= 0 then 2 else x) mod 3) div 2)
1: ((loop(\(x,i).(2 + (x * (x + i))),2,3) mod (x + 1)) div 3)
1: ((loop(\(x,i).(4x + (i div 2)),x,1) mod (x + 1)) div 2)
1: ((loop(\(x,i).(1 + (2 * (x mod (1 + i)))),x,1) mod (x + 1)) div 2)
1: ((loop(\(x,i).(1 + (x * loop(\(x,i).(2x2 + ~2),2,2))),2,x) mod (x + 1)) div 3)
1: ((loop(\(x,i).(2x + 1),x,0) mod (x + 1)) div 2)
1: ((loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,1) mod (x + 2)) div 2)
1: ((loop(\(x,i).~x,x,(x mod 5)) mod (x + 1)) div 2)
1: ((loop(\(x,i).(~2x + 1),(x div 2),2) mod (x + 1)) div 2)
1: ((loop(\(x,i).(~x + ~1),(x div 2),~4) mod (x + 1)) div 2)
1: ((loop(\(x,i).((~2x + 1) - (x div 4)),x,3) mod (x + 1)) div 2)
1: ((loop(\(x,i).(2x + ~1),x,0) mod (2x + 1)) div 3)
1: ((loop(\(x,i).(2x - (i mod 2)),x,(x + 1)) mod (x + 1)) div 2)
1: ((loop(\(x,i).(~1 + loop(\(x,i).(x div (2 - ((x * (x div 2)) mod 2))),x,x)),x,(x + 1)) mod (2x + 2)) div 2)
1: ((loop(\(x,i).(x - (2x * i)),x,1) mod (x + 1)) div 3)
1: ((loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x) mod (x + 2)) div 2)
1: ((loop(\(x,i).5x,5,x) mod (x + 1)) div 2)
1: ((loop(\(x,i).(2x + 8),x,1) mod (x + 1)) div 2)
1: ((loop(\(x,i).(3x + 12),(x + 1),0) mod (x + 1)) div 2)
1: ((loop(\(x,i).((2x + 1) * i),x,1) mod (x + 1)) div 2)
1: ((loop(\(x,i).(2x + 2),(x + ~2),2) mod (x + 1)) div 2)
1: ((loop(\(x,i).(2x + 2),((1 + (x mod 8)) mod (x + 1)),1) mod (x + 1)) div 2)
1: ((loop(\(x,i).(2x + 2),x,(1 - (2 * (x mod 2)))) mod (x + 1)) div 2)
1: ((loop(\(x,i).(2x + 2),x,(if (x mod (2 + (x mod 4))) <= 0 then 1 else 0)) mod (x + 1)) div 2)
1: ((loop(\(x,i).(2x + 4),5,2) mod (x + 1)) div 2)
1: ((loop(\(x,i).~2x,x,1) mod (x + 1)) div 2)
1: ((loop(\(x,i).~x2,4,3) mod (x + 1)) div 2)
1: ((loop(\(x,i).(~2x + 4),(x mod 5),0) mod (x + 1)) div 2)
1: ((loop(\(x,i).(~2x + 4),x,1) mod (x + 1)) div 3)
1: ((loop(\(x,i).(2x + ~2),x,(1 + (2x mod (2 + (x div 4))))) mod (x + 1)) div 2)
1: ((loop(\(x,i).(2x + ~4),x,1) mod loop(\(x,i).3x,x,1)) div 2)
1: ((loop(\(x,i).(2 * (x - (2 * (~2 + (x mod 4))))),(x + ~1),1) mod (x + 1)) div 2)
1: ((loop(\(x,i).10x,x,1) mod 29) div 3)
1: ((loop(\(x,i).10x,x,1) mod 32) div 3)
1: ((loop(\(x,i).~10x,(x + 1),1) mod (x + 1)) div 2)
1: ((loop(\(x,i).8x,x,(~1 + loop(\(x,i).2x,(x * (x mod 2)),2))) mod (x + 1)) div 2)
1: ((loop(\(x,i).x5,1,(x mod 3)) mod (x + 1)) div 2)
1: ((loop(\(x,i).4x,(x + ~1),1) mod 13) div 2)
1: ((loop(\(x,i).4x,(if (x mod 3) <= 0 then 1 else 0),3) mod (x + 1)) div 2)
1: ((loop(\(x,i).4x,x,1) mod 29) div 3)
1: ((loop(\(x,i).2x2,2,4) mod (x + 1)) div 3)
1: ((loop(\(x,i).2x,(x + (2 * (x mod 2))),x) mod (x + 1)) div 2)
1: ((loop(\(x,i).2x,(x + 1),~2) mod (x + 1)) div 2)
1: ((loop(\(x,i).2x,(x + ~1),(1 + ((x * (x div 2)) mod 2))) mod (x + 1)) div 2)
1: ((loop(\(x,i).2x,(x + ~1),(2x mod 3)) mod (x + 1)) div 2)
1: ((loop(\(x,i).2x,(x - (x div (1 + (x mod 2)))),1) mod (2x + 4)) div (x + 1))
1: ((loop(\(x,i).2x,(x - loop(\(x,i).(~1 + (if x <= 0 then (2 * i) else x)),x,0)),1) mod (x + 1)) div 2)
1: ((loop(\(x,i).2x,(x div 2),2) mod (x + 1)) div 2)
1: ((loop(\(x,i).2x,((x + 1) mod 4),x) mod (x + 1)) div 2)
1: ((loop(\(x,i).2x,((x - (x div 5)) mod 5),1) mod (x + 1)) div 2)
1: ((loop(\(x,i).2x,(16 mod (x + 1)),1) mod (x + 1)) div 2)
1: ((loop(\(x,i).2x,(if (x mod 2) <= 0 then x else 1),2) mod (x + 1)) div 2)
1: ((loop(\(x,i).2x,(if (x mod 3) <= 0 then x else 1),2) mod (x + 1)) div 2)
1: ((loop(\(x,i).2x,x,1) mod 9) div 2)
1: ((loop(\(x,i).2x,x,1) mod (1 + (x div 2))) div 2)
1: ((loop(\(x,i).2x,x,2) mod 19) div 2)
1: ((loop(\(x,i).2x,x,2) mod (2 + (x div 4))) div 2)
1: ((loop(\(x,i).2x,x,2) mod loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2)
1: ((loop(\(x,i).2x,x,(1 + (4 * (x mod 2)))) mod (x + 1)) div 2)
1: ((loop(\(x,i).2x,x,(2 + ((x - ((~x + 1) mod 3)) div 2))) mod (x + 1)) div 2)
1: ((loop(\(x,i).2x,x,(1 + ((2 * (1 + ((1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2)) div 2))) div 3))) mod (x + 1)) div 2)
1: ((loop(\(x,i).2x,x,(1 + ((x mod (2 + ((x div 2) div (1 + (x mod 2))))) div 2))) mod (x + 1)) div 2)
1: ((loop(\(x,i).2x,x,(1 + (x div 4))) mod (x + 3)) div 2)
1: ((loop(\(x,i).2x,x,(1 + (x div 4))) mod (x + 1)) div 2)
1: ((loop(\(x,i).2x,x,(1 + (x div 8))) mod (x + 1)) div 2)
1: ((loop(\(x,i).2x,x,(1 + (x mod (1 + (x mod (1 + (x mod 4))))))) mod (x + 1)) div 2)
1: ((loop(\(x,i).2x,x,(1 + (if ((x + 1) mod 3) <= 0 then 2x else 1))) mod (x + 1)) div 2)
1: ((loop(\(x,i).2x,x,(2 + (if (x mod 4) <= 0 then 2 else 0))) mod (x + 1)) div 2)
1: ((loop(\(x,i).2x,x,(0 - (4 * (x mod 4)))) mod (x + 1)) div 2)
1: ((loop(\(x,i).2x,x,(1 - ((1 + (((3 * (1 + (loop(\(x,i).3x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 3))) div 2) div 2)) div 2))) mod (x + 1)) div 2)
1: ((loop(\(x,i).2x,x,(2 - ((2x + 2) mod 5))) mod (x + 1)) div 2)
1: ((loop(\(x,i).2x,x,(2 - (((2 + loop(\(x,i).(x div (~2 + (x mod 2))),x,x)) div 2) mod 2))) mod (x + 1)) div 2)
1: ((loop(\(x,i).2x,x,(2 - ((x div 2) mod 2))) mod (x + 1)) div 2)
1: ((loop(\(x,i).2x,x,(~x + 2)) mod (x + 2)) div 3)
1: ((loop(\(x,i).2x,x,(~1 + ((if (x mod 4) <= 0 then 2 else (x mod 2)) * (1 + (x div 4))))) mod (x + 1)) div 2)
1: ((loop(\(x,i).2x,x,(~1 + ((2 * (1 + ((((x + 1) * (if (x mod 2) <= 0 then 1 else (2 * (1 + (8 * (x mod 2)))))) div 2) div 2))) mod 3))) mod (x + 1)) div 2)
1: ((loop(\(x,i).2x,x,(2 * (~1 + (2x mod 3)))) mod (x + 1)) div 2)
1: ((loop(\(x,i).2x,x,(2 * (if (x mod 3) <= 0 then 0 else 2))) mod (x + 1)) div 2)
1: ((loop(\(x,i).2x,x,((~1 + loop(\(x,i).2x,(x + ~2),2)) div (x + 1))) mod (x + 1)) div 2)
1: ((loop(\(x,i).2x,x,((~x2 + x) div 4)) mod (x + 1)) div 2)
1: ((loop(\(x,i).2x,x,(((x + ~1) div 2) mod 2)) mod (x + 1)) div 2)
1: ((loop(\(x,i).2x,x,(x mod 2)) mod (x + 1)) div 2)
1: ((loop(\(x,i).2x,x,(if (x mod 2) <= 0 then 3 else x)) mod (x + 1)) div 2)
1: ((loop(\(x,i).2x,x,(if (x mod 2) <= 0 then ((x div 2) mod 2) else x)) mod (x + 1)) div 2)
1: ((loop(\(x,i).2x,x,loop(\(x,i).(~3x + 3),x,1)) mod (x + 1)) div 2)
1: ((loop(\(x,i).2x,x,loop(\(x,i).2x,((((1 + (8 mod (1 + (x div 2)))) div 2) + (if x <= 0 then 0 else 1)) - (x mod 2)),1)) mod (x + 1)) div 2)
1: ((loop(\(x,i).2x,x,x) mod (x + 1)) div 3)
1: ((loop(\(x,i).x2,1,(x2 + ~x)) mod (x + 3)) div 2)
1: ((loop(\(x,i).x2,(x + ~1),2) mod (x + 1)) div 2)
1: ((loop(\(x,i).(x * i),x,2) mod (x + 1)) div 2)
1: ((loop(\(x,i).(x * i),x,2) mod (x2 + 3x + 2)) div 2)
1: ((loop(\(x,i).(x * i),x,(~2 + ((~x + 1) div 3))) mod (x + 1)) div 2)
1: ((loop(\(x,i).((x2 + x) div 2),1,(1 + (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))) mod (x + 1)) div 2)
1: ((x mod 3) div (1 + (((~x + 1) div 2) mod 4)))
1: ((x mod 3) div (1 + (x mod 5)))
1: ((x mod 3) div (~2 + ((x div 4) mod 2)))
1: ((x mod 3) div (if (x + ~2) <= 0 then 2 else 1))
1: ((x mod 3) div (if (x mod 4) <= 0 then 2 else x))
1: ((x mod 4) div (2 + (x div 8)))
1: ((x mod 4) div ~2)
1: ((x mod 5) div (1 + (((x + ~1) div 2) mod 4)))
1: ((x mod (5 + (x mod 2))) div 2)
1: ((x mod (3 + (((1 + (x div 4)) mod 2) * (x div 2)))) div 2)
1: ((x mod (1 + (((x - ((x div 3) mod 2)) div 2) + (x mod 2)))) div 2)
1: ((x mod (2 + ((x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) div 2))) div 2)
1: ((x mod (3 + ((2x mod (2 + (x div 3))) div 2))) div 2)
1: ((x mod (4 + (x div 4))) div 2)
1: ((x mod (3 + (x div 7))) div 2)
1: ((x mod (3 + (x div (1 + (x mod 4))))) div 2)
1: ((x mod (4 + (x div (1 + (x mod (2 * (1 + (x mod 2)))))))) div 2)
1: ((x mod (3 + (x div 8))) div 2)
1: ((x mod (3 + ((~x + 1) mod (2 + (x div 2))))) div 2)
1: ((x mod (3 + ((2x + ~1) mod (2 + (x div 3))))) div 2)
1: ((x mod (4 + ((x + ~1) mod 3))) div 3)
1: ((x mod (4 + ((x div 2) mod 2))) div 3)
1: ((x mod (4 + (x mod 2))) div 3)
1: ((x mod (3 + (if (~2 + (x div 2)) <= 0 then 0 else 2))) div 2)
1: ((x mod (1 + ((if (x mod 2) <= 0 then 2 else 0) + (x div 4)))) div 2)
1: ((x mod (4 - (x div 4))) div 2)
1: ((x mod (3 - (x div ~2))) div 3)
1: ((x mod (3 - (x mod 2))) div 2)
1: ((x mod (4 - (x mod 2))) div 2)
1: ((x mod (2 + (x div 2) - ((x mod 3) div 2))) div 2)
1: ((x mod (2 + (x mod 3) - ((~x + 1) div (2 + (((x + 1) div 2) div 3))))) div 2)
1: ((x mod ((x + 2) - (x mod ((x + 1) - (x mod 10))))) div 2)
1: ((x mod 7) div 3)
1: ((x mod 9) div (1 + (2x mod (1 + (x mod 9)))))
1: ((x mod (1 + (2 * (~2 + ((x mod 2) + (x mod 4)))))) div 2)
1: ((x mod (1 + (2 * (1 + (2 * (x mod 2)))))) div 2)
1: ((x mod (1 + (2 * (1 + (2 * (x mod 2)))))) div 3)
1: ((x mod (1 + (2 * (2 + ((x div 2) div 5))))) div 2)
1: ((x mod (1 + (2 * (1 + (((~1 + (x div (2 + (x mod 2)))) div 2) mod 2))))) div 2)
1: ((x mod (1 + (2 * (1 + (x mod 5))))) div 3)
1: ((x mod (1 + (2 * (1 - ((x div 2) mod (1 + ((~x + 2) mod 4))))))) div 2)
1: ((x mod (1 + (2 * (2 - (((x + ~1) div 2) mod 4))))) div 2)
1: ((x mod (1 + (4 * (x mod 4)))) div 2)
1: ((x mod (1 + (2 * ((x + 2) div 3)))) div 3)
1: ((x mod (2 + ((((x + 1) div 2) div 3) * (1 + (x mod 2))))) div 2)
1: ((x mod (1 + (2 * (x div (~1 + (4 * (~2 + (x mod 2)))))))) div 2)
1: ((x mod (1 + (2 * (x div (2 * (2 + ((x + ~1) mod 4))))))) div 2)
1: ((x mod (1 + (2 * ((8x2 + 1) mod (2 + (x div 2)))))) div 2)
1: ((x mod (1 + (2 * ((1 + (x div 2)) mod (2 + (x mod 2)))))) div 2)
1: ((x mod (1 + (2 * ((x + 2) mod (1 + (x div 4)))))) div 2)
1: ((x mod (1 + (2 * (~x mod 4)))) div 2)
1: ((x mod (1 + (2 * ((~1 + (x div 3)) mod 3)))) div 2)
1: ((x mod (1 + (2 * ((x + ~2) mod (2 * (1 + (((x + 1) mod 5) mod 2))))))) div 2)
1: ((x mod (1 + (2 * ((x - (2 * loop(\(x,i).(x div (2 - (x mod 2))),x,x))) mod 7)))) div 2)
1: ((x mod (1 + (2 * ((x3 div 4) mod 3)))) div 2)
1: ((x mod (1 + (2 * (x mod 3)))) div 3)
1: ((x mod (1 + (2 * (x mod 4)))) div 3)
1: ((x mod (1 + (2 * (x mod (3 - (x mod 2)))))) div 2)
1: ((x mod (1 + (2 * (x mod 6)))) div 2)
1: ((x mod (1 + (2 * (x mod (2 * (1 + (x mod 2))))))) div 2)
1: ((x mod (1 + (2 * (if ((x + 2) mod (2 + (x div 5))) <= 0 then 0 else 2)))) div 2)
1: ((x mod (1 + (2 * (if ((x + 2) mod (2 + ((x div 2) mod 2))) <= 0 then 2 else 0)))) div 2)
1: ((x mod (1 + (2 * (if (x mod 3) <= 0 then 0 else 2)))) div 2)
1: ((x mod (1 + (loop(\(x,i).2x,(x div 3),1) * (x mod 2)))) div 2)
1: ((x mod (2 + ((x + 1) div (2 + (x div 4))))) div 2)
1: ((x mod (2 + ((x + 2) div (2 + (((x div 4) mod 2) + (x mod 2)))))) div 2)
1: ((x mod (1 + ((x + 2) div (2 + (x div 4))))) div 2)
1: ((x mod (2 + ((x + 2) div (2 + (if (x mod 2) <= 0 then 1 else 8))))) div 2)
1: ((x mod (1 + ((x - (x div 4)) div 2))) div 2)
1: ((x mod (1 + ((x - (x mod 3)) div 2))) div 2)
1: ((x mod (2 + (((x div 5) * (x div 2)) div 2))) div 2)
1: ((x mod (2 + ((x * (x mod 2)) div 2))) div 2)
1: ((x mod (1 + (2x div 5))) div 2)
1: ((x mod (2 + ((x div 2) div (1 + (2x mod 3))))) div 2)
1: ((x mod (2 + ((x div 2) div (1 + (x mod 2))))) div 2)
1: ((x mod (2 + (((~x + 2) mod (2 + (x div 2))) div 2))) div 2)
1: ((x mod (1 + (x div 2))) div (2 + i))
1: ((x mod (6 + (x div 4))) div 2)
1: ((x mod (1 + (x div 5))) div 2)
1: ((x mod (1 + (x div (1 + (((x mod (~1 + (4 * (~2 + (x mod 2))))) mod 2) + (x mod 2)))))) div 3)
1: ((x mod (2 + (x div (3 + (x mod 4))))) div 2)
1: ((x mod (1 + (x div (1 + (((x + 1) div 2) div 2))))) div 2)
1: ((x mod (2 + (x div (2 + (((x div 2) mod 5) div 2))))) div 2)
1: ((x mod (1 + (x div (2 + (x div 8))))) div 2)
1: ((x mod (1 + (x div (2 + ((~x + 3) mod 5))))) div 2)
1: ((x mod (1 + (x div (2 + ((1 + (x div 4)) mod 4))))) div 2)
1: ((x mod (1 + (x div (2 + ((1 + ((x * (x div 2)) mod 5)) mod 2))))) div 2)
1: ((x mod (1 + (x div (2 + ((x + 1) mod 5))))) div 2)
1: ((x mod (2 + (x div (2 + ((x + 1) mod 5))))) div 2)
1: ((x mod (2 + (x div (2 + ((~2x + 1) mod (2 + (x div 4))))))) div 2)
1: ((x mod (2 + (x div (2 + ((x + ~1) mod 5))))) div 2)
1: ((x mod (1 + (x div (2 + (((((x + 1) * (x div 3)) div 2) div 2) mod 2))))) div 2)
1: ((x mod (1 + (x div (2 + ((x div 2) mod 2))))) div 2)
1: ((x mod (1 + (x div (2 + ((x mod 5) mod 3))))) div 2)
1: ((x mod (1 + (x div (1 + (x mod 3))))) div 2)
1: ((x mod (1 + (x div (2 + (x mod 5))))) div 2)
1: ((x mod (1 + (x div (1 + (if (((x + ~1) div 2) mod 4) <= 0 then 2 else 1))))) div 2)
1: ((x mod (1 + (x div (1 + (if (x mod 2) <= 0 then ((x div 2) mod 2) else 3))))) div 2)
1: ((x mod (2 + (x div (8 - (x div 2))))) div 2)
1: ((x mod (1 + (x div (if (x mod 2) <= 0 then 4 else 1)))) div 2)
1: ((x mod (2 + ((4 + (if (x mod 2) <= 0 then 1 else 8)) mod (x + 1)))) div 2)
1: ((x mod (2 + ((1 + (2 * ((2 * ((loop(\(x,i).2x,x,1) mod (x + 1)) div 2)) + (x mod 2)))) mod (x + 1)))) div 2)
1: ((x mod (2 + ((1 + (2 * (((if x <= 0 then 1 else (2 * (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))))) - (x mod 2)) div 2))) mod (x + 1)))) div 2)
1: ((x mod (2 + ((1 + (2 * ((x mod (1 + (2 * (1 + (2 * (x mod 2)))))) div 2))) mod (x + 1)))) div 2)
1: ((x mod (2 + ((1 + (2 * ((x mod (~2 + ((~x + 1) div 3))) div 2))) mod (x + 1)))) div 2)
1: ((x mod (2 + ((1 + (2 * ((1 + (x div 3)) mod (1 + (x mod (1 + (x div 3))))))) mod (x + 1)))) div 2)
1: ((x mod (2 + ((1 + (2 * ((1 + (x div (1 + (x mod (4 + (x div 2)))))) mod 2))) mod (x + 1)))) div 2)
1: ((x mod (2 + ((1 + (2 * ((1 - (x mod (4 * (2 - (x mod 2))))) mod (x + 1)))) mod (x + 1)))) div 2)
1: ((x mod (2 + ((1 + (2 * ((2 * (1 + (x mod (2 + (x mod 4))))) mod (1 + (x div 2))))) mod (x + 1)))) div 2)
1: ((x mod (2 + ((1 + (2 * (((x2 + ~x) div 2) mod (1 + (x div 4))))) mod (x + 1)))) div 2)
1: ((x mod (2 + ((1 + (2 * ((x div 2) mod (3 - (x mod 2))))) mod (x + 1)))) div 2)
1: ((x mod (2 + ((1 + (2 * (x mod (1 + (loop(\(x,i).(x2 + 2x),2,2) mod (x + 1)))))) mod (x + 1)))) div 2)
1: ((x mod (2 + ((1 + (2 * (if (~4 + (x div 2)) <= 0 then 1 else (x div 3)))) mod (x + 1)))) div 2)
1: ((x mod (2 + ((1 + (2 * (if x <= 0 then 0 else (1 + compr(\x.(~1 + ((1 + (x * loop(\(x,i).(~x2 + 1),2,4x))) mod (x + 1))),x))))) mod (x + 1)))) div 2)
1: ((x mod (2 + ((1 + (x mod (1 + (2 * (2 + (((x div 2) div 3) mod 2)))))) mod (x + 1)))) div 2)
1: ((x mod (2 + ((1 + (x mod (2 + (x div (2 + (x mod 3)))))) mod (x + 1)))) div 2)
1: ((x mod (2 + ((loop(\(x,i).2x,(x mod 8),1) + loop(\(x,i).2x,x,1)) mod (x + 1)))) div 2)
1: ((x mod (2 + ((x + 1) mod 4))) div 2)
1: ((x mod (1 + ((x + 1) mod (1 + (x div (2 + (x mod 2))))))) div 2)
1: ((x mod (1 + ((x + 1) mod 6))) div 3)
1: ((x mod (2 + ((0 - (3 * (1 + (x mod (1 + (x mod 4)))))) mod (x + 1)))) div 2)
1: ((x mod (2 + (~89 mod (x + 1)))) div 3)
1: ((x mod (1 + ((1 - (2 * ((x + (x div 8)) mod 5))) mod (x + 1)))) div 2)
1: ((x mod (1 + ((1 - (x mod (1 + (x2 mod 14)))) mod (x + 1)))) div 2)
1: ((x mod (2 + ((~x + 1) mod 4))) div 3)
1: ((x mod (1 + ((~x + 1) mod 9))) div 2)
1: ((x mod (1 + ((2 - (x div 2)) mod 4))) div 2)
1: ((x mod (2 + ((2 - (x div 3)) mod 4))) div 2)
1: ((x mod (1 + ((2 - ((x + 1) mod (1 + (2 * (1 + (loop(\(x,i).(~x + 1),x,(x + 2)) mod 3)))))) mod (x + 1)))) div 2)
1: ((x mod (2 + ((2 - (2x mod (2 + (x div 2)))) mod (x + 1)))) div 2)
1: ((x mod (1 + ((2 - (x mod 8)) mod (x + 1)))) div 3)
1: ((x mod (1 + ((~x + 2) mod 5))) div 2)
1: ((x mod (1 + (((x + ~1) + (x mod 2)) mod 5))) div 2)
1: ((x mod (1 + (11 mod (x + 1)))) div 3)
1: ((x mod (2 + ((~1 + (2 * (x mod 4))) mod (x + 1)))) div 2)
1: ((x mod (2 + ((~1 + (2 * (if (~2 + (((x + 1) div 2) mod 4)) <= 0 then 1 else 0))) mod (x + 1)))) div 2)
1: ((x mod (1 + ((~1 + (x2 div 2)) mod 5))) div 2)
1: ((x mod (1 + (((x div 2) - (2 * (x mod 2))) mod 6))) div 2)
1: ((x mod (1 + ((~1 + (x div ~2)) mod 4))) div 2)
1: ((x mod (2 + ((~1 + (((x + ~1) div 2) mod 4)) mod (x + 1)))) div 2)
1: ((x mod (2 + ((~1 + (x mod 5)) mod 3))) div 2)
1: ((x mod (2 + ((~x + (if (~2 + (x div 4)) <= 0 then 0 else 2)) mod 4))) div 2)
1: ((x mod (1 + ((~1 + loop(\(x,i).2x,(x div (2 + (x mod 2))),2)) mod (x + 1)))) div 2)
1: ((x mod (2 + ((~1 + loop(\(x,i).2x,x,4)) mod (x + 1)))) div 2)
1: ((x mod (1 + ((x + ~2) mod 5))) div 2)
1: ((x mod (2 + ((x + ~4) mod (1 + (x div 2))))) div 2)
1: ((x mod (2 + ((x - ((~x + 1) div 3)) mod 3))) div 2)
1: ((x mod (2 + ((x - (x div 3)) mod 3))) div 2)
1: ((x mod (2 + ((2 * (2 + ((x + ((x div 2) div 3)) div 2))) mod (x + 1)))) div 2)
1: ((x mod (2 + ((3 * (1 + (4x mod 13))) mod (x + 1)))) div 2)
1: ((x mod (2 + ((3 * (2 + (x2 mod (x + 5)))) mod (x + 1)))) div 2)
1: ((x mod (2 + (((1 + (x mod 4)) * (1 + (x mod 2))) mod (x + 1)))) div 2)
1: ((x mod (2 + ((5 * (2 + (x mod 6))) mod (x + 1)))) div 2)
1: ((x mod (2 + ((5 * (1 + (if (x + ~4) <= 0 then 0 else (1 + (x mod (1 + (x mod 4))))))) mod (x + 1)))) div 2)
1: ((x mod (2 + ((2x + ~8) mod (x + 1)))) div 3)
1: ((x mod (1 + (24 mod (x + 1)))) div 2)
1: ((x mod (1 + (((~4x + 8) * (x div 3)) mod (x + 1)))) div 2)
1: ((x mod (2 + (2x2 mod 30))) div 2)
1: ((x mod (2 + ((2 * (x mod (~1 + (2 * (x mod 5))))) mod (x + 1)))) div 2)
1: ((x mod (2 + ((3 * loop(\(x,i).2x,x,2)) mod (x + 1)))) div 3)
1: ((x mod (2 + (2x mod 5))) div 3)
1: ((x mod (1 + (2x mod 9))) div 2)
1: ((x mod (2 + (((~x + 2) div 2) mod 4))) div 2)
1: ((x mod (2 + (((x + ~1) div 2) mod 4))) div 2)
1: ((x mod (2 + (((x + ~1) div 3) mod 4))) div 2)
1: ((x mod (2 + ((x div 2) mod (2 + (5 * (x mod 2)))))) div 2)
1: ((x mod (2 + ((x div 4) mod 3))) div 2)
1: ((x mod (1 + (((~x + 1) mod 4) mod (x + 1)))) div 2)
1: ((x mod (2 + ((if (x + ~2) <= 0 then 1 else x) mod 2))) div 2)
1: ((x mod (2 + ((if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + (loop(\(x,i).(3 * (2 + (x div 2))),x,0) div 2)) div 2)) div 2)))) mod (x + 1)))) div 2)
1: ((x mod (2 + (loop(\(x,i).3x,x,3) mod (x + 1)))) div 2)
1: ((x mod (1 + (loop(\(x,i).(2x + 2),(loop(\(x,i).x2,4,2) mod (x + 1)),1) mod (x + 1)))) div 2)
1: ((x mod (1 + (loop(\(x,i).(x2 + 2x),2,2) mod (x + 1)))) div 2)
1: ((x mod (2 + (loop(\(x,i).2x,((x + 1) mod 4),2) mod (x + 1)))) div 2)
1: ((x mod (2 + (loop(\(x,i).2x,x,3) mod (x + 1)))) div 2)
1: ((x mod (2 + (x mod 2))) div (1 + (x mod 5)))
1: ((x mod (1 + (x mod 4))) div 2)
1: ((x mod (1 + (x mod (1 + (2 * ((x + 2) mod (1 + (x div 4)))))))) div 2)
1: ((x mod (1 + (x mod (2 + (x div 2))))) div 2)
1: ((x mod (1 + (x mod (1 + (x div 3))))) div 2)
1: ((x mod (2 + (x mod (1 + (x div 3))))) div 2)
1: ((x mod (1 + (x mod (1 + (x div (2 + ((x div 2) mod 2))))))) div 3)
1: ((x mod (1 + (x mod (~1 + (2 * (((~x + 2) div 2) mod 4)))))) div 2)
1: ((x mod (1 + (x mod ((x + 1) - (x mod 10))))) div 2)
1: ((x mod (1 + (x mod 6))) div 2)
1: ((x mod (2 + (x mod (2 * (1 + (2 * (x mod 2))))))) div 2)
1: ((x mod (1 + (x mod (2 * (1 + ((x + 2) div 5)))))) div 2)
1: ((x mod (2 + (if (~x + 4) <= 0 then (x mod 2) else 2))) div 2)
1: ((x mod (1 + (if (x + ~2) <= 0 then 2 else (x div 3)))) div 2)
1: ((x mod (2 + (if ((~x + 1) mod 3) <= 0 then 2 else x))) div 3)
1: ((x mod (1 + (if ((~x + 2) mod 4) <= 0 then 0 else 2))) div 2)
1: ((x mod (2 + (if ((x2 + 2x) mod 6) <= 0 then x else 1))) div 2)
1: ((x mod (2 + (if (x mod 2) <= 0 then 1 else (x div 3)))) div 2)
1: ((x mod (2 + (if (x mod 2) <= 0 then 1 else (x div 4)))) div 2)
1: ((x mod (2 + (if (x mod 2) <= 0 then (x div 2) else 1))) div 2)
1: ((x mod (1 + loop(\(x,i).(1 + (((x + ~1) + loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x)) mod (x + 1))),2,x))) div 2)
1: ((x mod (~1 - (x div (2 + (x mod 2))))) div 2)
1: ((x mod ~7) div 5)
1: ((x mod ~11) div 3)
1: ((x mod (1 - (x div (~3 + (x mod 2))))) div 2)
1: ((x mod (2 - (x * (x div 4)))) div 2)
1: ((x mod (2 - ((1 - (x div 2)) div 3))) div 2)
1: ((x mod (2 - ((x2 + ~1) div 2))) div 2)
1: ((x mod (2 - ((x2 + x) div 2))) div 2)
1: ((x mod (2 - ((x div 2) div ~2))) div 2)
1: ((x mod (2 - (x div ~5))) div 2)
1: ((x mod (2 - (x div (~4 + (x mod 2))))) div 3)
1: ((x mod (2 - (x mod (0 - (2 * (1 + (x mod (1 + ((~x + 2) mod 4))))))))) div 2)
1: ((x mod (2 - (x mod ~4))) div 3)
1: ((x mod (2 - (x mod ~5))) div 2)
1: ((x mod (2 - (x mod (~3 + (x mod 2))))) div 2)
1: ((x mod (2 - (x mod (~1 + (x mod (~1 + (x div ~3))))))) div 2)
1: ((x mod (~2 - (x mod 4))) div 2)
1: ((x mod ~5) div 3)
1: ((x mod (~4 + ((x + 1) mod ~7))) div 3)
1: ((x mod (~1 + (2 * (2 - (x div 2))))) div 2)
1: ((x mod 15) div 2)
1: ((x mod (~1 + (4 * (2 + ((1 + ((x - (x div 8)) div 2)) mod 2))))) div 2)
1: ((x mod (~1 + (((~1 + (x div 2)) div 2) * (x div 3)))) div 2)
1: ((x mod (~1 + (2 * (((x + 1) div 2) div 2)))) div 2)
1: ((x mod (~1 + (2 * (((~x + 2) div 2) div 3)))) div 3)
1: ((x mod (~1 + (2 * (x div 4)))) div 2)
1: ((x mod (~1 + (2 * (x div (3 + (x mod 2)))))) div 2)
1: ((x mod (~2 + ((x div 8) * (1 + (x div 2))))) div 2)
1: ((x mod (~1 + (5 * (if (x mod 5) <= 0 then 2 else 1)))) div 2)
1: ((x mod (~2 + ((1 - (2 * (x div 3))) div 3))) div 2)
1: ((x mod (~2 + ((~x + 1) div 3))) div 2)
1: ((x mod (~2 + ((~x + 1) div 5))) div 2)
1: ((x mod ((x div 2) - ((1 + (x div 2)) mod 3))) div 2)
1: ((x mod (~2 + (x div (1 + ((x div 2) mod 2))))) div 2)
1: ((x mod (~2 + (x2 mod (x + 5)))) div 3)
1: ((x mod (~2 + (x mod ~7))) div 3)
1: ((x mod ((x + ~1) - (x mod 3))) div 2)
1: ((x mod ((x + 1) - (6 * (x div 7)))) div 2)
1: ((x mod ((x + 1) - (2 * (x div 3)))) div 2)
1: ((x mod ((x + 1) - (x mod 10))) div 2)
1: ((x mod (x - ((x + 1) mod 4))) div 3)
1: ((x mod 8) div 3)
1: ((x mod 8) div (1 + i))
1: ((x mod 10) div (1 + (x mod 2)))
1: ((x mod (3 * (1 + (((2x + 1) mod (2 + (x div 4))) div 2)))) div 2)
1: ((x mod (3 * (1 + (if (x mod 2) <= 0 then (x div 7) else 0)))) div 2)
1: ((x mod ~21) div 2)
1: ((x mod ((if x <= 0 then 1 else x) div ~4)) div 2)
1: ((if (~x + 2) <= 0 then ((x2 + ~x) div 3) else 1) div (1 + (x div 2)))
1: ((if (~4 + (x div 2)) <= 0 then 1 else 2) div (1 + (x mod 3)))
1: ((if (~4 + (x div 2)) <= 0 then 1 else (x div 4)) div (1 + (x mod 2)))
1: ((if (~4 + (x div 2)) <= 0 then 1 else x) div 2)
1: ((if (~4 + (x div 2)) <= 0 then 1 else x) div 4)
1: ((if (~4 + (x div 2)) <= 0 then 2 else ((x + 1) div 2)) div 2)
1: ((if (~2 + (x div 2)) <= 0 then 1 else 2) div (1 + (x mod 4)))
1: ((if (~2 + (x div 2)) <= 0 then 1 else 2) div (if ((x + 1) mod 8) <= 0 then x else 1))
1: ((if (~2 + (x div 2)) <= 0 then 2 else (x + ~2)) div (2 + (x div 3)))
1: ((if (~2 + (x div 2)) <= 0 then 2 else x) div 2)
1: ((if (~2 + (x div 2)) <= 0 then (x + 2) else (x div 2)) div 3)
1: ((if (~2 + (x div 2)) <= 0 then x else (x + 1)) div 2)
1: ((if (~6 + (x div 2)) <= 0 then 2 else x) div 2)
1: ((if (~2 + (x div 3)) <= 0 then 0 else x) div 2)
1: ((if (~2 + (x div 3)) <= 0 then 0 else x) div 5)
1: ((if (~2 + (x div 3)) <= 0 then 1 else 2) div (1 + (~x mod 4)))
1: ((if (~2 + (x div 3)) <= 0 then 1 else 2) div (1 + (2x mod 5)))
1: ((if (~2 + (x div 3)) <= 0 then 1 else 2) div (1 + (x2 mod 8)))
1: ((if (~2 + (x div 3)) <= 0 then 1 else 2) div (1 + (x mod 4)))
1: ((if (~2 + (x div 3)) <= 0 then 1 else (x div 4)) div (1 + (x mod 2)))
1: ((if (~2 + (x div 3)) <= 0 then x else (x + 4)) div 3)
1: ((if (~2 + (x div 3)) <= 0 then x else (x + 2)) div 3)
1: ((if ((x div 3) - (x mod 4)) <= 0 then 0 else x) div 2)
1: ((if (~2 + (x div 4)) <= 0 then 2 else x) div 2)
1: ((if (~2 + (x div 5)) <= 0 then 0 else x) div 2)
1: ((if (~2 + ((x + 2) mod 8)) <= 0 then x else (x + 2)) div 2)
1: ((if (~1 + (2x mod (4 + (x div 2)))) <= 0 then (x + 1) else 0) div 3)
1: ((if (~2 + (2x mod (4 + (x div 4)))) <= 0 then 2 else (1 + (x div 2))) div 2)
1: ((if (~1 + (x mod (2 + (x mod 2)))) <= 0 then 1 else 2x) div 3)
1: ((if (~2 + (x mod (2 - (x mod ~4)))) <= 0 then 1 else x) div 2)
1: ((if (~1 + (x mod 15)) <= 0 then (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) else 0) div 2)
1: ((if (x + ~1) <= 0 then 0 else (1 + (x mod (2 + (x mod (2 + ((x div 2) mod 2))))))) div 2)
1: ((if (x + ~1) <= 0 then 1 else (2 * (1 + ((2 * (1 + (x mod (2 + (x mod 4))))) div (x + 1))))) div 2)
1: ((if (x + ~1) <= 0 then 2 else (1 + ((x + ~1) mod (1 + (x div 3))))) div 2)
1: ((if (x + ~1) <= 0 then 2 else (((x + ~1) div 2) * (x div 2))) div 2)
1: ((if (x + ~2) <= 0 then 1 else 2) div (if x <= 0 then 2 else (loop(\(x,i).2x,x,2) mod (2x + 1))))
1: ((if (x + ~2) <= 0 then 1 else (2x * (x div 2))) div (1 + (x div 2)))
1: ((if (x + ~2) <= 0 then 1 else (x div 3)) div (1 + (4 * (x mod 2))))
1: ((if (x + ~2) <= 0 then 1 else (x div 4)) div (1 + (x mod 2)))
1: ((if (x + ~2) <= 0 then 2 else (x + ~2)) div 2)
1: ((if (x + ~2) <= 0 then 2 else (((x + 1) div 2) div 2)) div 2)
1: ((if (x + ~2) <= 0 then 3 else x) div (1 + (2 * (1 + (x mod 2)))))
1: ((if (x + ~2) <= 0 then x2 else (x + 1)) div 2)
1: ((if (x + ~4) <= 0 then 1 else x) div 2)
1: ((if (x + ~4) <= 0 then x else (x + 1)) div 2)
1: ((if (x + ~10) <= 0 then 1 else x) div 4)
1: ((if 2x <= 0 then x else (~1 + loop(\(x,i).(x + (if (~2 + (x div 4)) <= 0 then 1 else 0)),x,x))) div 2)
1: ((if x2 <= 0 then 0 else (18x + 16)) div (x + 8))
1: ((if (x div 3) <= 0 then 2 else ((x * (x mod 2)) div 2)) div 2)
1: ((if ((x + (x div 3)) mod 3) <= 0 then 1 else x) div (1 + (x div 4)))
1: ((if ((x + 1) mod 4) <= 0 then 1 else (1 + (2 * (3 div (4 - (((~2x + 2) mod (4 + (x div 4))) div 2)))))) div 2)
1: ((if ((x + 1) mod (2 + (x div 4))) <= 0 then 2 else x) div 2)
1: ((if ((x + 1) mod (2 + ((x div 2) mod 2))) <= 0 then x else 1) div 2)
1: ((if ((x + 1) mod (2 + ((x div 2) mod 2))) <= 0 then x else 1) div (2 + ((x div 2) mod 2)))
1: ((if ((x + 2) mod (4 + (x mod 2))) <= 0 then x else 2) div 2)
1: ((if ((x + ~1) mod 3) <= 0 then 1 else x) div 2)
1: ((if ((x2 + 2x) mod 6) <= 0 then x else 2) div (2 + (x div 3)))
1: ((if ((~2x + 2) mod (4 + (x div 4))) <= 0 then x else 0) div 2)
1: ((if (16 mod (x + 2)) <= 0 then (x + 2) else 0) div 2)
1: ((if ((x * (x div 2)) mod 6) <= 0 then x else 2) div 5)
1: ((if (2x mod (4 + (x div 4))) <= 0 then (x + 3) else 0) div (1 + (x div 5)))
1: ((if (((if x <= 0 then 2 else x) div (2 + (x mod 2))) mod 2) <= 0 then x else 1) div 3)
1: ((if ((x div 2) mod 2) <= 0 then x else (~x + 1)) div 2)
1: ((if ((x div 2) mod 3) <= 0 then 2 else x) div 2)
1: ((if ((x div 2) mod 3) <= 0 then x else (x + 2)) div 2)
1: ((if ((x div 2) mod (2 + (x mod 2))) <= 0 then 2 else x) div 2)
1: ((if ((if x <= 0 then 1 else (x div ((if (x mod 2) <= 0 then 2 else x) mod 4))) mod 2) <= 0 then x else 1) div 3)
1: ((if (x mod 2) <= 0 then 1 else (x mod (x - ((x + ~1) mod 8)))) div (if x <= 0 then 1 else 2))
1: ((if (x mod 2) <= 0 then 1 else x) div (1 - (2 * ((x div 2) mod 2))))
1: ((if (x mod 2) <= 0 then (x + 20) else (x div 2)) div 2)
1: ((if (x mod 2) <= 0 then (~x + 1) else x) div (1 + i))
1: ((if (x mod 2) <= 0 then (~x + 2) else x) div 4)
1: ((if (x mod 2) <= 0 then (x2 + 4x + 4) else 2) div 11)
1: ((if (x mod 2) <= 0 then (3 * (if (~2 + (x div 3)) <= 0 then 1 else 2)) else 1) div (2 + (x mod 3)))
1: ((if (x mod 2) <= 0 then (7 * (if (x mod 4) <= 0 then (2 * (2 + (if x <= 0 then 0 else 2))) else 1)) else 2) div 2)
1: ((if (x mod 2) <= 0 then (x div 2) else 1) div 3)
1: ((if (x mod 2) <= 0 then ((~x2 + x) mod 5) else 0) div 2)
1: ((if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1) div (1 + ((1 + (x div 2)) div 2)))
1: ((if (x mod 2) <= 0 then (if x <= 0 then 1 else (2 * (1 + ((loop(\(x,i).2x,x,(1 + (x div 4))) mod (x + 1)) div 2)))) else 1) div 2)
1: ((if (x mod 2) <= 0 then loop(\(x,i).(2x + (x div 2)),x,2) else 0) div loop(\(x,i).2x,x,2))
1: ((if (x mod 2) <= 0 then x else 1) div (~1 + (2 * ((x div ~2) mod 2))))
1: ((if (x mod 2) <= 0 then x else (4x - (x div 2))) div 2)
1: ((if (x mod 2) <= 0 then x else (x mod ~4)) div 2)
1: ((if (x mod 3) <= 0 then 1 else 2) div loop(\(x,i).i,((x + 1) mod 7),1))
1: ((if (x mod 3) <= 0 then 1 else 30x) div (x + 1))
1: ((if (x mod 3) <= 0 then 1 else x) div ~2)
1: ((if (x mod 3) <= 0 then 2 else 1) div (if ((x div 3) mod 3) <= 0 then 2 else 1))
1: ((if (x mod 3) <= 0 then 2 else loop(\(x,i).3x,(x div 3),1)) div 2)
1: ((if (x mod 3) <= 0 then ((1 + (x div 5)) * (3 + (x mod 2))) else 1) div 2)
1: ((if (x mod 3) <= 0 then (25 * (if x <= 0 then 1 else 2)) else 2) div (1 + (x mod 2)))
1: ((if (x mod 4) <= 0 then 0 else (1 + (8 mod (1 + (x div 2))))) div 2)
1: ((if (x mod 4) <= 0 then 0 else (1 + (if (x mod 3) <= 0 then (x div 3) else 1))) div 2)
1: ((if (x mod 4) <= 0 then 2 else (1 + ((x div 2) div (1 + (if (x mod 2) <= 0 then 6 else 1))))) div 2)
1: ((if (x mod 4) <= 0 then 2 else ((x div 2) div (3 - (x mod 2)))) div 2)
1: ((if (x mod 4) <= 0 then 2 else (x mod 2)) div (2 - (x div 8)))
1: ((if (x mod 4) <= 0 then (x div 2) else (x + (if (x mod 2) <= 0 then x else 1))) div 2)
1: ((if (x mod 7) <= 0 then ((3 - (x mod 2)) * (if x <= 0 then 1 else x)) else 1) div 2)
1: ((if (x mod 9) <= 0 then x else (x + 1)) div 2)
1: ((if (x mod (1 + (((x + 1) div 2) div 3))) <= 0 then 2 else x) div 2)
1: ((if (x mod (1 + ((x + 2) mod 4))) <= 0 then 1 else x) div (1 + (x div 4)))
1: ((if (x mod (2 + (x mod 2))) <= 0 then 2 else x) div (1 + (x div 2)))
1: ((if (x mod (1 + (if (x mod 4) <= 0 then 0 else 2))) <= 0 then 2 else x) div 2)
1: ((if (x mod (1 - (((x mod 4) - (x div 2)) div 3))) <= 0 then x else 5) div 2)
1: ((if (x mod 6) <= 0 then 12 else 0) div (x + 1))
1: ((if (x mod 8) <= 0 then 0 else (x + (x mod 4))) div 6)
1: ((if x <= 0 then 0 else 1) div (1 - (2 * ((~2 + ((~2x + 2) mod (4 + (x div 4)))) div 2))))
1: ((if x <= 0 then 0 else 1) div (~1 + (2x mod (4 + (x div 4)))))
1: ((if x <= 0 then 0 else (7 + loop(\(x,i).((x2 + 2x) div 2),1,loop(\(x,i).2x,x,1)))) div 5)
1: ((if x <= 0 then 0 else ((2x + 1) - (if (x mod 4) <= 0 then (x div 4) else 0))) div 2)
1: ((if x <= 0 then 0 else (1 + (2 * ((x + 1) - (((~x2 + x) div 2) div 5))))) div (x + 1))
1: ((if x <= 0 then 0 else (2 + compr(\x.(~1 + (loop(\(x,i).2x,x,(1 + (if (x mod 2) <= 0 then 2x else 1))) mod (x + 2))),x))) div 2)
1: ((if x <= 0 then 0 else (4x + ~4)) div (x + 2))
1: ((if x <= 0 then 1 else 2) div (1 + (((x * (x mod 2)) - (x div 2)) mod 5)))
1: ((if x <= 0 then 1 else 2) div (1 + (x mod (2 * (2 + ((x + 2) mod 4))))))
1: ((if x <= 0 then 1 else 2) div (if (~1 + (x mod 8)) <= 0 then 1 else x))
1: ((if x <= 0 then 1 else (2 + (x div (2 + ((1 + ((~x + 2) mod 4)) mod (x + 1)))) - (x mod 2))) div 2)
1: ((if x <= 0 then 1 else (2 + ((1 + ((1 + (x div 3)) div 2)) * (x div 3)))) div 2)
1: ((if x <= 0 then 1 else ((8x + ~2) + (x div 2))) div (x + 1))
1: ((if x <= 0 then 1 else (2 + ((2 * ((1 + (x2 mod 5)) div 2)) mod (x + 1)))) div 2)
1: ((if x <= 0 then 1 else (2 + (if (x mod 3) <= 0 then 2 else 1))) div (1 + (x mod 2)))
1: ((if x <= 0 then 1 else (0 - loop(\(x,i).(2 * (x - (2x * i))),x,1))) div (x + 1))
1: ((if x <= 0 then 1 else (2 + ((((loop(\(x,i).(2x + 2),x,0) mod (x + 1)) - loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) mod (x + 1)) div 2) - (x mod 2))) div 2)
1: ((if x <= 0 then 1 else (2 - (((x2 + ~x) div 2) div 5))) div 2)
1: ((if x <= 0 then 1 else (2 - loop(\(x,i).(x - (if x <= 0 then 1 else (2 * i))),x,x))) div 2)
1: ((if x <= 0 then 1 else ((9x2 + ~1) + (x mod 2))) div (1 + (x mod 2)))
1: ((if x <= 0 then 1 else (~1 + ((loop(\(x,i).2x,(16 mod (x + 1)),1) mod (x + 1)) div 2))) div 2)
1: ((if x <= 0 then 1 else (2 * (2 + ((x + ~1) div 13)))) div 2)
1: ((if x <= 0 then 1 else (3 * ((x + 1) + (x div 8)))) div 2)
1: ((if x <= 0 then 1 else (3 * (x + ((if (x mod 4) <= 0 then 1 else 2) + (x div 2))))) div 2)
1: ((if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + ((1 + ((1 + ((1 + loop(\(x,i).(if (x + ~2) <= 0 then i else 2x),x,1)) div 2)) div 2)) div 2)) div 2)) div 2)))) div (2x + 2))
1: ((if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + (loop(\(x,i).(2 * ((~1 + (((x2 + x) * (1 - (2 * (x mod 2)))) div 2)) div 2)),1,(x + 1)) div 2)) div 2)) div 2)))) div (2x + 1))
1: ((if x <= 0 then 1 else (2 * (1 + ((1 + ((5x2 + 10x + 5) div 7)) div 2)))) div 2)
1: ((if x <= 0 then 1 else (2 * (1 + ((1 + (((~1 + (6 * (1 + loop(\(x,i).(if x <= 0 then 2 else (2 * (2x - (x div (1 + i))))),x,0)))) div 2) div 2)) div 2)))) div (x + 1))
1: ((if x <= 0 then 1 else (2 * (1 + ((1 + ((((x + 1) * (((~2x + 4) mod (2 + (x div 2))) div 2)) div 2) div 2)) div 2)))) div 2)
1: ((if x <= 0 then 1 else (2 * (1 + ((1 + ((loop(\(x,i).3x,(x div 2),1) div (if (x mod 3) <= 0 then 1 else 2)) div 2)) div 2)))) div (x + 1))
1: ((if x <= 0 then 1 else (2 * (1 + ((1 + ((loop(\(x,i).2x,x,(1 + ((2 * (1 + ((1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2)) div 2))) div 3))) mod (x + 1)) div 2)) div 2)))) div 2)
1: ((if x <= 0 then 1 else (2 * (2 + ((x + ((1 - (x div 3)) mod 3)) div 4)))) div 2)
1: ((if x <= 0 then 1 else (2 * (1 + (((1 + (x mod (2 + (x mod (1 + (2 * (2 - (x mod 2)))))))) mod (x + 1)) div 2)))) div 2)
1: ((if x <= 0 then 1 else (2 * (1 + (((1 + (x mod (2 + (if (x mod (2 + (x mod 2))) <= 0 then 2 else 0)))) mod (x + 1)) div 2)))) div 2)
1: ((if x <= 0 then 1 else (2 * (1 + (((~1 + loop(\(x,i).2x,x,(x - ((x div 2) mod 2)))) mod (x + 1)) div 2)))) div (1 + (x mod 2)))
1: ((if x <= 0 then 1 else (2 * (1 + ((loop(\(x,i).(2 * (x - i)),x,2) mod (x + 1)) div 2)))) div (1 + (x mod 2)))
1: ((if x <= 0 then 1 else (2 * (1 + (loop(\(x,i).x2,2,(x + 1)) div 3)))) div (x + 1))
1: ((if x <= 0 then 1 else (~2x + 4)) div (x + 1))
1: ((if x <= 0 then 1 else (10x + ~4)) div (x + 3))
1: ((if x <= 0 then 1 else (18x2 + ~9)) div 2)
1: ((if x <= 0 then 1 else 3x2) div ~2)
1: ((if x <= 0 then 1 else ((2x + ~1) * (if (((x + 1) div 2) div 2) <= 0 then 1 else (if x <= 0 then 1 else (if ((x + 1) mod 9) <= 0 then (x + 1) else 0))))) div (x + 1))
1: ((if x <= 0 then 1 else (3 * (if ((x + ~1) mod 3) <= 0 then (2 + (x div 4)) else 1))) div 2)
1: ((if x <= 0 then 1 else (2 * loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),((x + ~1) div 2),1))) div (1 + (x mod 2)))
1: ((if x <= 0 then 1 else 2x) div (~1 + ((~x + 1) div 3)))
1: ((if x <= 0 then 1 else x2) div ~2)
1: ((if x <= 0 then 1 else (x div 3)) div (1 + (2 * (x mod 3))))
1: ((if x <= 0 then 1 else (x div 4)) div (1 + (2 * (x mod 2))))
1: ((if x <= 0 then 1 else (loop(\(x,i).x5,1,11) mod (x + 1))) div 2)
1: ((if x <= 0 then 1 else x) div (1 + (((x + 2) + (x mod 2)) div 5)))
1: ((if x <= 0 then 1 else x) div (1 + (x div (4 - (x mod 2)))))
1: ((if x <= 0 then 1 else x) div (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1))))))))
1: ((if x <= 0 then 1 else x) div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))
1: ((if x <= 0 then 1 else x) div (1 + (loop(\(x,i).(2x + 2),x,(2 * (x mod 2))) mod (x + 1))))
1: ((if x <= 0 then 1 else x) div (1 + (x mod (1 + (x mod (1 + (x div (2 * (2 - (x mod 2))))))))))
1: ((if x <= 0 then 1 else x) div ~2)
1: ((if x <= 0 then 1 else x) div ~5)
1: ((if x <= 0 then 1 else x) div (~4 + (((x + ~1) div 3) mod 2)))
1: ((if x <= 0 then 1 else x) div (~1 + (2 * (x mod 4))))
1: ((if x <= 0 then 1 else x) div (~2 + (x mod ~2)))
1: ((if x <= 0 then 1 else x) div (~2 + (x mod ~4)))
1: ((if x <= 0 then 1 else x) div ~6)
1: ((if x <= 0 then 1 else x) div (((~1 + (6 * (1 + ((x div 2) div (1 + (x mod (2 * (1 + (x mod (1 + ((2 - (x div 2)) mod 4))))))))))) div 2) div 2))
1: ((if x <= 0 then 1 else compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + (x div 2)))),x)) div 2)
1: ((if x <= 0 then 2 else (1 + (x div 2) - ((x mod 3) mod 2))) div 2)
1: ((if x <= 0 then 2 else (1 + ((x + (x2 div 5)) div 2))) div 2)
1: ((if x <= 0 then 2 else (1 + ((1 + (x div (2 + (x mod 2)))) div 2))) div 2)
1: ((if x <= 0 then 2 else (1 + ((1 + (loop(\(x,i).4x,x,1) mod (2x + 1))) div 3))) div 2)
1: ((if x <= 0 then 2 else (1 + ((1 + (if (x + ~2) <= 0 then x else (if ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) <= 0 then (2 * (1 + (x div 5))) else 1))) div 3))) div 2)
1: ((if x <= 0 then 2 else (1 + ((x + loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),(x + ~2),1)) div 3))) div 2)
1: ((if x <= 0 then 2 else (1 + (((x + 1) - (((x + ~1) * ((~x + 1) div 3)) div 2)) div 3))) div 2)
1: ((if x <= 0 then 2 else (1 + ((x - (((1 + (~x mod 4)) * (1 + (x div 2))) div 2)) div 2))) div 2)
1: ((if x <= 0 then 2 else (1 + ((x - ((x * (x div 2)) mod 8)) div 3))) div 2)
1: ((if x <= 0 then 2 else (1 + ((2 * (1 + ((1 + ((loop(\(x,i).(x div (2 - (x mod 2))),x,(1 + ((x2 + x) div 2))) div 2) div 3)) div 2))) div 3))) div 2)
1: ((if x <= 0 then 2 else (1 + ((2 * (1 + ((1 + (x div (1 + ((~1 + ((1 + (x div (2 - (x mod 2)))) mod 3)) mod (x + 1))))) div 2))) div 3))) div 2)
1: ((if x <= 0 then 2 else (1 + ((2 * (1 + ((1 + (x div (1 + ((~1 + loop(\(x,i).(if x <= 0 then i else (x div 2)),x,2)) mod (x + 1))))) div 2))) div 3))) div 2)
1: ((if x <= 0 then 2 else (1 + ((2 * (1 + (x mod (1 + (x mod (1 + (x div (2 + ((x div 2) mod 3))))))))) div 3))) div 2)
1: ((if x <= 0 then 2 else (1 + ((2 * ((2 + ((if ((x + ~1) mod 3) <= 0 then 1 else x) + (x mod 2))) div 3)) div 3))) div 2)
1: ((if x <= 0 then 2 else (1 + ((2 * (if x <= 0 then 1 else (2 * (x mod (~1 + (2 * (x div 4))))))) div 3))) div 2)
1: ((if x <= 0 then 2 else (1 + (((1 + ((loop(\(x,i).(x * (if (x mod 2) <= 0 then 1 else x)),1,(x + ~2)) div 2) div 2)) div 2) div 2))) div 2)
1: ((if x <= 0 then 2 else (1 + ((((x + 1) - ((x + 1) div (1 + (10 mod (x + 1))))) div 2) div 2))) div 2)
1: ((if x <= 0 then 2 else (x + (((x3 + ~3x2 + 2x) div 2) div 5))) div 2)
1: ((if x <= 0 then 2 else (1 + ((((2 - ((if (x mod 4) <= 0 then 0 else 2) + (x div 4))) mod (x + 1)) div 2) div 2))) div 2)
1: ((if x <= 0 then 2 else (1 + (((x2 mod (3x + 2)) div 2) div 2))) div 2)
1: ((if x <= 0 then 2 else (1 + ((((x2 div 2) mod (x + 3)) div 2) div 2))) div 2)
1: ((if x <= 0 then 2 else (1 + ((loop(\(x,i).(x * i),(x2 + 2x + 1),1) div 2) div 2))) div 2)
1: ((if x <= 0 then 2 else (1 + ((x div 2) div (4 - (((x + ~1) div 2) div 2))))) div 2)
1: ((if x <= 0 then 2 else (1 + (((1 - (2x div 3)) mod (1 + (x div 2))) div 2))) div 2)
1: ((if x <= 0 then 2 else (1 + (((2 * (1 + (2 * (1 + (x mod 2))))) mod (1 + (x div 2))) div 2))) div 2)
1: ((if x <= 0 then 2 else (1 + ((x mod (1 + (x div (1 + (if (x mod 2) <= 0 then ((x div 2) mod 2) else 3))))) div 2))) div 2)
1: ((if x <= 0 then 2 else (1 + (loop(\(x,i).(1 + ((1 + ((x2 + (x div 2)) div 3)) div 3)),2,x) div 3))) div 2)
1: ((if x <= 0 then 2 else (1 + (x div (1 + (3 * ((if (x mod 3) <= 0 then 2 else 1) + (x mod 2))))))) div 2)
1: ((if x <= 0 then 2 else (1 + (x div (2 + (((~x + ((x + 1) * (x div 2))) div 4) mod 2))))) div 2)
1: ((if x <= 0 then 2 else (1 + (x div (2 * (2 + (~x2 mod 5)))))) div 2)
1: ((if x <= 0 then 2 else (1 + ((1 + ((x + 1) div 2)) mod ((1 + ((x mod 3) div 2)) * (1 + (x mod 2)))))) div 2)
1: ((if x <= 0 then 2 else (1 + ((1 + (x mod (~1 + (5 * (~x mod 4))))) mod (x + 1)))) div 2)
1: ((if x <= 0 then 2 else (1 + ((x + 1) mod (1 + ((1 + (x mod (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))) mod (x + 1)))))) div 2)
1: ((if x <= 0 then 2 else (1 + ((1 - ((x + 1) mod (5 * (1 + (x mod 5))))) mod (x + 1)))) div 2)
1: ((if x <= 0 then 2 else (1 + ((x - (2 * ((4 * (x div 3)) div 3))) mod (1 + (x div 3))))) div 2)
1: ((if x <= 0 then 2 else (1 + ((6x + 3) mod (1 + (x div 2))))) div 2)
1: ((if x <= 0 then 2 else (1 + ((2 * (1 + loop(\(x,i).(if x <= 0 then i else (x div 2)),x,0))) mod (x + 1)))) div 2)
1: ((if x <= 0 then 2 else (1 + ((~x2 + 2x + ~1) mod (1 + (x div 2))))) div 2)
1: ((if x <= 0 then 2 else (1 + ((2 * ((x div 2) - (x mod 2))) mod (1 + (x div 2))))) div 2)
1: ((if x <= 0 then 2 else (((x div 3) mod 2) + (x div 4))) div 2)
1: ((if x <= 0 then 2 else ((((x div 2) mod 3) mod 2) + (x div 2))) div 2)
1: ((if x <= 0 then 2 else (1 + (loop(\(x,i).(2x + ~1),x,0) mod (1 + (x div 2))))) div 2)
1: ((if x <= 0 then 2 else (1 + (loop(\(x,i).2x,(2x + ~1),1) mod (1 + (x div 3))))) div 2)
1: ((if x <= 0 then 2 else (1 + (loop(\(x,i).((x2 + 3x + 2) div 2),2,x) mod (x + 1)))) div 2)
1: ((if x <= 0 then 2 else (1 + (x mod (1 + ((x div 2) div (1 + (x mod (1 + (x div (2 + (x div 5))))))))))) div 2)
1: ((if x <= 0 then 2 else (1 + (x mod (1 + (x div (3 + (x mod (2 + ((x div 2) mod 2))))))))) div 2)
1: ((if x <= 0 then 2 else (1 + (x mod (1 + (x div (2 + (if (x mod 4) <= 0 then 1 else 2))))))) div 2)
1: ((if x <= 0 then 2 else (1 + (x mod (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))) div 2)
1: ((if x <= 0 then 2 else (1 + (if (x mod 2) <= 0 then 6 else x))) div (if x <= 0 then 1 else x))
1: ((if x <= 0 then 2 else (1 + loop(\(x,i).(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) - (i div 3)),2,x))) div 2)
1: ((if x <= 0 then 2 else (1 - ((((~x + 2) div 4) * (x div 2)) div 3))) div 2)
1: ((if x <= 0 then 2 else (1 - ((2x + 1) mod (~1 + loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x))))) div 2)
1: ((if x <= 0 then 2 else (1 - ((x + 1) mod (1 + (2 * ((x div 2) div 3)))))) div 2)
1: ((if x <= 0 then 2 else (1 - (x mod (~1 + (2 * ((~x + 1) div 7)))))) div 2)
1: ((if x <= 0 then 2 else (1 - loop(\(x,i).((x + ~2) + (x div (if i <= 0 then 1 else i))),x,0))) div 2)
1: ((if x <= 0 then 2 else (2 - ((x + 1) mod (1 + (2 * (if ((x + ~1) mod 4) <= 0 then 2 else 1)))))) div 2)
1: ((if x <= 0 then 2 else (1 + (x div 4) - ((x mod 5) mod 2))) div 2)
1: ((if x <= 0 then 2 else (x + (if (x mod 2) <= 0 then 1 else (~x + ~1)) - (x div 3))) div 2)
1: ((if x <= 0 then 2 else (~2 + ((x + 1) * (~1 + (2 * (x mod 2)))) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2)
1: ((if x <= 0 then 2 else (2x - (x mod (1 + (x div 5))))) div 2)
1: ((if x <= 0 then 2 else (~1 + ((1 + (x mod (1 + (2 * ((x + 1) mod 3))))) mod (x + 1)))) div 2)
1: ((if x <= 0 then 2 else (~1 + loop(\(x,i).(x + ((x - (x div 4)) div 2)),x,2))) div 2)
1: ((if x <= 0 then 2 else (~2 + loop(\(x,i).4x,(x + 1),2))) div 2)
1: ((if x <= 0 then 2 else (loop(\(x,i).2x,(x + ~2),x) - ((x + ~1) * (if x <= 0 then 1 else x)))) div 2)
1: ((if x <= 0 then 2 else ((x + 1) - ((1 - (x div 2)) * (x div 2)))) div 2)
1: ((if x <= 0 then 2 else ((x + 1) - ((x mod 6) mod (1 + (x div 2))))) div 2)
1: ((if x <= 0 then 2 else (x - ((1 + (x2 div 8)) div 2))) div 2)
1: ((if x <= 0 then 2 else (x - (((x mod 6) + (x div 4)) div 2))) div 2)
1: ((if x <= 0 then 2 else (x - ((~1 + (x2 div 2)) div 5))) div 2)
1: ((if x <= 0 then 2 else (x - (((x div 2) - (x mod 5)) div 2))) div 2)
1: ((if x <= 0 then 2 else (x - ((~x + (x div 4)) div 2))) div 2)
1: ((if x <= 0 then 2 else (x - (((x - (x3 div 16)) div 2) div 2))) div 2)
1: ((if x <= 0 then 2 else (x - (x div 4))) div 2)
1: ((if x <= 0 then 2 else (x - (x div (1 + ((1 + (x div 2)) div 2))))) div 2)
1: ((if x <= 0 then 2 else (x - (if (x mod 3) <= 0 then 1 else 0))) div 2)
1: ((if x <= 0 then 2 else (x2 + 5x)) div 2)
1: ((if x <= 0 then 2 else (x2 + 8x)) div (x + 1))
1: ((if x <= 0 then 2 else (3x2 + 16x + 16)) div (x + 1))
1: ((if x <= 0 then 2 else 17x) div (x + 2))
1: ((if x <= 0 then 2 else (~x2 * (2 + (x div 2)))) div 2)
1: ((if x <= 0 then 2 else x3) div (2 - (x mod 2)))
1: ((if x <= 0 then 2 else (x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2))) div 2)
1: ((if x <= 0 then 2 else ((x div 3) * (x div 2))) div 2)
1: ((if x <= 0 then 2 else (x * (x div 3))) div 2)
1: ((if x <= 0 then 2 else (x * (x div 4))) div 2)
1: ((if x <= 0 then 2 else ((if (~2 + (x div 4)) <= 0 then 1 else 2) * (1 + (x mod 4)))) div 2)
1: ((if x <= 0 then 2 else x2) div (2 + (x mod 3)))
1: ((if x <= 0 then 2 else x2) div (2 - (x div ~2)))
1: ((if x <= 0 then 2 else ((1 + ((x div (2 + (x mod (2 * (1 + (2 * (x mod 2))))))) + (x mod 2))) div 2)) div 2)
1: ((if x <= 0 then 2 else ((x2 + 1) div (2 + (x div 2)))) div 2)
1: ((if x <= 0 then 2 else ((1 + ((x + 1) div (1 + (x mod (2 + (x div (2 + (x mod 5)))))))) div 2)) div 2)
1: ((if x <= 0 then 2 else ((1 + ((x * (1 + (x mod 3))) div 2)) div 2)) div 2)
1: ((if x <= 0 then 2 else ((1 + (x div 2)) div 2)) div 2)
1: ((if x <= 0 then 2 else ((((~x + 1) mod 3) + (x div 2)) div 2)) div 2)
1: ((if x <= 0 then 2 else (((x + 2) - (loop(\(x,i).2x,x,(1 + (x mod 2))) mod (x + 1))) div 2)) div 2)
1: ((if x <= 0 then 2 else ((x - (3 * (x div 5))) div 2)) div 2)
1: ((if x <= 0 then 2 else ((x * (~1 + (x mod 3))) div 2)) div 2)
1: ((if x <= 0 then 2 else ((x * (x div 2)) div 4)) div 2)
1: ((if x <= 0 then 2 else (((x mod 5) * (x div 4)) div 2)) div 2)
1: ((if x <= 0 then 2 else ((((x + 1) * (1 + ((2x mod (2 + (x div 3))) mod 2))) div 2) div 2)) div 2)
1: ((if x <= 0 then 2 else (((~2x + 2) mod (2 + (x div 2))) div 2)) div 2)
1: ((if x <= 0 then 2 else ((((x2 div 2) div 3) mod (x + 1)) div 2)) div 2)
1: ((if x <= 0 then 2 else ((loop(\(x,i).2x,x,(if (x mod 2) <= 0 then 3 else x)) mod (x + 1)) div 2)) div 2)
1: ((if x <= 0 then 2 else (loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,x) div (2 + (x mod 2)))) div 2)
1: ((if x <= 0 then 2 else (x div (2 + (if (x mod 2) <= 0 then ((x mod 3) div 2) else x)))) div 2)
1: ((if x <= 0 then 2 else (x div (2 - (3 * (x mod ~4))))) div 2)
1: ((if x <= 0 then 2 else (x div (~10 + (x div 2)))) div 2)
1: ((if x <= 0 then 2 else (5 mod (x + 1))) div 2)
1: ((if x <= 0 then 2 else ((x2 + 2) mod (1 + (x div 2)))) div 2)
1: ((if x <= 0 then 2 else ((1 + (x div 4)) mod (1 + ((~x + 1) mod 5)))) div 2)
1: ((if x <= 0 then 2 else ((1 + ((x * (x mod 2)) mod 8)) mod (x + 1))) div 2)
1: ((if x <= 0 then 2 else ((1 + (x mod (1 + (x mod (2 * (2 + ((x div 2) mod 2))))))) mod (x + 1))) div 2)
1: ((if x <= 0 then 2 else ((x + 1) mod (1 + (2x div (2 + (x div 2)))))) div 2)
1: ((if x <= 0 then 2 else ((x + 1) mod (1 + (x div (2 + (x mod 3)))))) div 2)
1: ((if x <= 0 then 2 else ((x + 1) mod (1 + (if (x mod 2) <= 0 then 6 else 1)))) div 2)
1: ((if x <= 0 then 2 else (6 mod (1 + (x div 2)))) div 2)
1: ((if x <= 0 then 2 else (3x mod (1 + (x div 2)))) div 2)
1: ((if x <= 0 then 2 else (x5 mod 11)) div 2)
1: ((if x <= 0 then 2 else (4x mod (1 + (x div 2)))) div 2)
1: ((if x <= 0 then 2 else (2x mod (1 + (((x + 1) div 2) div 2)))) div 2)
1: ((if x <= 0 then 2 else (2x mod (1 + (x mod 4)))) div 2)
1: ((if x <= 0 then 2 else (2x mod (~1 + (2 * (((~x + 2) div 2) mod 4))))) div 2)
1: ((if x <= 0 then 2 else (x2 mod (2 + (x div 3)))) div 2)
1: ((if x <= 0 then 2 else ((x div 2) mod (1 + (~x mod 4)))) div 2)
1: ((if x <= 0 then 2 else ((if (x mod 2) <= 0 then x else (~x + 1)) mod 20)) div 2)
1: ((if x <= 0 then 2 else (x mod (2 + ((2 - (x div 3)) mod 4)))) div 2)
1: ((if x <= 0 then 2 else (x mod (2 + (x mod 2)))) div 2)
1: ((if x <= 0 then 2 else (x mod (2 + (x mod 3)))) div 2)
1: ((if x <= 0 then 2 else (x mod (1 + (x mod (1 + (x div 3)))))) div 2)
1: ((if x <= 0 then 2 else (x mod (2 + (x mod (1 + (x div 3)))))) div 2)
1: ((if x <= 0 then 2 else (x mod (2 + (if (x mod 2) <= 0 then 1 else (x div 3))))) div 2)
1: ((if x <= 0 then 2 else (x mod (1 - (x mod (~1 + (x div ~2)))))) div 2)
1: ((if x <= 0 then 2 else (if (x + ~4) <= 0 then (x + ~2) else 1)) div 2)
1: ((if x <= 0 then 2 else loop(\(x,i).((x + 1) + loop(\(x,i).loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,0),2,x)),x,1)) div 2)
1: ((if x <= 0 then 2 else loop(\(x,i).3x,(x div 2),(x div 3))) div 2)
1: ((if x <= 0 then 2 else loop(\(x,i).(2 * (x - loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(~2 + i),1))),x,0)) div 2)
1: ((if x <= 0 then 2 else loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(x + ~1),1)) div 2)
1: ((if x <= 0 then 3 else (if (x + ~1) <= 0 then x else (1 + (2 * (loop(\(x,i).(x - (((~x + ~1) + (x mod 2)) div 5)),x,1) div 2))))) div 2)
1: ((if x <= 0 then (x + ~1) else (x * i)) div 5)
1: ((if x <= 0 then (x + ~1) else i) div 3)
1: ((if x <= 0 then loop(\(x,i).(4x2 + ~x + 3),2,2) else 0) div 2)
1: (loop(\(x,i).(10x + loop(\(x,i).(x + ((1 + i) * i)),i,0)),x,0) div 2)
1: (loop(\(x,i).((x + 1) + (((2x + 1) div 7) + (x div 3))),x,1) div (x + 1))
1: (loop(\(x,i).((x + 2) + (((x div 2) div 3) + (x div 5))),x,0) div 2)
1: (loop(\(x,i).((x + 1) + ((if x <= 0 then 0 else loop(\(x,i).2x,(~1 + loop(\(x,i).(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,x)),2,x)),1)) + ((x + 1) div 2))),x,1) div 2)
1: (loop(\(x,i).(x + 5),(~1 + (x div 5)),1) div 2)
1: (loop(\(x,i).((x + 4) + (x div 3)),x,2) div 2)
1: (loop(\(x,i).((x + 6) + (x div 3)),x,2) div 2)
1: (loop(\(x,i).(1 + ((2 * (1 + (x div (1 + (loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)))))) + (x mod 2))),1,(x + 1)) div 2)
1: (loop(\(x,i).(2x + ((x + i) * (1 + i))),x,0) div 2)
1: (loop(\(x,i).((x + 1) + (2 * (6 - (x div 3)))),2,x) div 2)
1: (loop(\(x,i).((9x + 1) + ((x + 1) mod 3)),(x + 1),2) div 2)
1: (loop(\(x,i).((x + 2) + (4 * ((2x div (4 + (x div 4))) mod 2))),x,1) div 2)
1: (loop(\(x,i).(1 + ((10 * (x mod 2)) + (x div 2))),x,0) div 2)
1: (loop(\(x,i).((x + 2) + (2 * (2x div (3 + i)))),x,1) div (x + 1))
1: (loop(\(x,i).((x + 1) + (3 * (((1 + (x div 2)) div 2) div 2))),x,1) div 2)
1: (loop(\(x,i).((x + 1) + (2 * ((x div 2) div 3))),x,1) div 2)
1: (loop(\(x,i).((x + 1) + (2 * ((x div 2) div 3))),x,1) div (x + 1))
1: (loop(\(x,i).((x + 2) + (5 * (x div 3))),x,2) div (x + 1))
1: (loop(\(x,i).((x + 1) + (2 * (x div 5))),(x + 1),2) div 2)
1: (loop(\(x,i).((x + 1) + (3 * (x div 5))),x,1) div (x + 1))
1: (loop(\(x,i).((x + 1) + (3 * ((x2 div 4) mod 7))),(x + 1),1) div 2)
1: (loop(\(x,i).(1 + ((x * i) + (i div 2))),(x + ~1),0) div 2)
1: (loop(\(x,i).((x + 1) + ((x + (2 * (3x div 7))) div 3)),x,1) div 2)
1: (loop(\(x,i).((x + 2) + ((x + (2 * (x mod 2))) div 3)),x,2) div (x + 1))
1: (loop(\(x,i).((x + 1) + ((2x + 1) div (1 + (x mod 12)))),x,0) div 2)
1: (loop(\(x,i).((x + 1) + ((1 + ((x + (x div 4)) div 2)) div 2)),x,1) div 2)
1: (loop(\(x,i).((x + 1) + ((x + (x div 2)) div 4)),(x + ~1),1) div (x + 1))
1: (loop(\(x,i).((x + 2) + ((x + (x div 2)) div (1 + i))),x,0) div 2)
1: (loop(\(x,i).((x + 1) + (((x div 2) + i) div 4)),x,2) div 2)
1: (loop(\(x,i).((x + 1) + (((x div (4 + (x mod 2))) + (x div 2)) div 2)),x,1) div 2)
1: (loop(\(x,i).((x + 1) + ((x + (x mod (x - ((x + 1) mod 3)))) div 2)),x,1) div 2)
1: (loop(\(x,i).((x + 2) + ((x + (if (x + ~2) <= 0 then 1 else ((x + 1) div 7))) div 2)),x,1) div 2)
1: (loop(\(x,i).((x + 1) + ((x + 2) div (2 + ((~x + 2) mod 8)))),x,1) div 2)
1: (loop(\(x,i).((x + 3) + ((x + 2) div (1 + i))),x,2) div 2)
1: (loop(\(x,i).((x + 1) + ((x + i) div 5)),x,1) div 2)
1: (loop(\(x,i).((x + 1) + ((x - ((x + (x div 3)) div 3)) div 2)),x,1) div 5)
1: (loop(\(x,i).((x + 2) + ((x - (x div 3)) div 3)),x,2) div (x + 1))
1: (loop(\(x,i).((x + 2) + ((x - (x div 4)) div 2)),x,2) div (x + 4))
1: (loop(\(x,i).((x + 2) + ((x - ((x div 2) mod 2)) div 2)),x,1) div (2x + 1))
1: (loop(\(x,i).((4x + 1) + ((x2 + x) div 2)),x,1) div 2)
1: (loop(\(x,i).((x + 2) + ((2x + 4) div (4 + (x div 8)))),x,0) div 2)
1: (loop(\(x,i).((x + 2) + (((2 + i) * i) div 2)),x,0) div 2)
1: (loop(\(x,i).((x + 1) + ((4 * (x div 3)) div 3)),(x + ~1),1) div (x + 1))
1: (loop(\(x,i).((x + 2) + ((4 * (x div 5)) div 3)),x,1) div 2)
1: (loop(\(x,i).((x + 1) + (((x div 2) * i) div 2)),x,1) div (x + 1))
1: (loop(\(x,i).((x + 2) + ((2 * (x div 3)) div 3)),x,1) div 2)
1: (loop(\(x,i).((x + 2) + (2x div 5)),x,0) div (x + 1))
1: (loop(\(x,i).((x + 2) + (2x div 5)),x,2) div (x + 2))
1: (loop(\(x,i).((x + 2) + (2x div (4 + (x div 4)))),x,1) div 3)
1: (loop(\(x,i).((x + 2) + (2x div 7)),x,2) div (x + 1))
1: (loop(\(x,i).((2x + 1) + (x2 div 3)),(x + 1),x) div 2)
1: (loop(\(x,i).(x + (((x * i) div 5) + (x div 2))),x,2) div 2)
1: (loop(\(x,i).((x + 1) + ((i * i) div 2)),(x + 1),2) div 2)
1: (loop(\(x,i).((x + 2) + ((i * i) div 2)),(x + 1),2) div 2)
1: (loop(\(x,i).((x + 2) + ((((x + 1) + (x div 4)) div 2) div 2)),x,1) div 2)
1: (loop(\(x,i).((x + 2) + (((x + 1) div 2) div 3)),(x + 5),1) div 2)
1: (loop(\(x,i).((x + 1) + ((x div 2) div 3)),(x + ~2),1) div 2)
1: (loop(\(x,i).((x + 2) + ((x div 2) div 3)),x,1) div 2)
1: (loop(\(x,i).((x + 2) + ((x div 2) div 5)),x,2) div 2)
1: (loop(\(x,i).((x + 1) + ((x mod (2 + (6 mod (1 + (x div 2))))) div 2)),x,1) div 2)
1: (loop(\(x,i).((x + 2) + (x div 2)),(~2 + (x div 2)),1) div 3)
1: (loop(\(x,i).((x + 2) + (x div 2)),(x div 2),(1 + (x mod 2))) div 2)
1: (loop(\(x,i).((x + 2) + (x div 2)),x,0) div 2)
1: (loop(\(x,i).((x + 2) + (x div 2)),x,0) div (2x + ~1))
1: (loop(\(x,i).((x + 2) + (x div 3)),(x + 3),2) div 3)
1: (loop(\(x,i).((x + 2) + (x div 3)),x,1) div 2)
1: (loop(\(x,i).((x + 1) + (x div 4)),x,15) div 2)
1: (loop(\(x,i).((x + 2) + (x div 4)),x,1) div 2)
1: (loop(\(x,i).((x + 2) + (x div 4)),x,2) div (x + 1))
1: (loop(\(x,i).((x + 2) + (x div 5)),x,2) div 2)
1: (loop(\(x,i).((x + 3) + (x div 5)),(x + 1),2) div 2)
1: (loop(\(x,i).(x + ((x div 5) + i)),x,2) div 3)
1: (loop(\(x,i).((x + 2) + (x div (4 + ((x mod 3) div 2)))),x,1) div 2)
1: (loop(\(x,i).(x + ((x div 7) + ((x + 1) div 3))),x,2) div 2)
1: (loop(\(x,i).((x + 2) + (x div 7)),(x + ~1),0) div 2)
1: (loop(\(x,i).((x + 2) + (x div 9)),x,1) div 2)
1: (loop(\(x,i).((x + 2) + (x div 9)),x,1) div 3)
1: (loop(\(x,i).((x + 2) + (x div (2 + ((x div 2) mod 3)))),2,x) div 2)
1: (loop(\(x,i).((x + 2) + (x div (1 + ((x div 2) mod (2 + (x mod 2)))))),x,0) div 2)
1: (loop(\(x,i).((x + 2) + (x div (2 + (x mod 2)))),x,2) div (x + 2))
1: (loop(\(x,i).((x + 1) + (x div (1 + (x mod 3)))),x,2) div 3)
1: (loop(\(x,i).((x + 1) + (x div (2 + (x mod 3)))),x,0) div 2)
1: (loop(\(x,i).((x + 1) + (x div (1 + (x mod 4)))),x,0) div 2)
1: (loop(\(x,i).((x + 1) + (x div (1 + (x mod 4)))),x,0) div 5)
1: (loop(\(x,i).((x + 1) + (x div (1 + (x mod 4)))),x,3) div 2)
1: (loop(\(x,i).((x + 3) + (x div (1 + i))),x,0) div 2)
1: (loop(\(x,i).(x + ((x div (2 + i)) + i)),x,1) div 3)
1: (loop(\(x,i).(x + ((x div 8) + (i div 2))),x,2) div 2)
1: (loop(\(x,i).((4x + 1) + ((x + i) mod 2)),(x + 1),1) div 2)
1: (loop(\(x,i).((x + 1) + (((~x + 2) mod 4) + i)),x,1) div 2)
1: (loop(\(x,i).(7x + (((x + 1) div ~7) mod 2)),x,1) div 2)
1: (loop(\(x,i).((5x + 1) + ((x div 2) mod 2)),(x + 1),1) div 2)
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1: (loop(\(x,i).(x * (1 + (5 * i))),x,1) div 2)
1: (loop(\(x,i).(x * (1 + (2 * (4 + (i mod 2))))),(x + 1),1) div 3)
1: (loop(\(x,i).(2 * (x + (4 * (x + (2 * (x mod 2)))))),x,1) div 2)
1: (loop(\(x,i).(2x2 + 2x + 2),2,1) div (x + 1))
1: (loop(\(x,i).(x3 + 2x2 + 2x),1,(x2 + 3x + 2)) div 2)
1: (loop(\(x,i).(x3 + 2x2 + 2x),1,loop(\(x,i).10x,(x + 1),1)) div 3)
1: (loop(\(x,i).(2 * (x + ((x + i) * i))),(x + ~1),1) div 2)
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1: (loop(\(x,i).(8x + 2),(x + 1),2) div 13)
1: (loop(\(x,i).(4 * (4x + i)),(x + 1),0) div 2)
1: (loop(\(x,i).(x4 + x),1,x3) div 2)
1: (loop(\(x,i).(x * (1 + (6 * i))),(x + ~2),x) div 2)
1: (loop(\(x,i).(x * (1 + (x * (i * i)))),2,x) div 2)
1: (loop(\(x,i).(x * (1 + (i * i * i))),(x + 2),1) div 2)
1: (loop(\(x,i).((x + 1) * (1 + (2 * ((loop(\(x,i).6x,(x + 1),1) + loop(\(x,i).(2x + 2),x,2)) mod (x + 1))))),2,x) div 2)
1: (loop(\(x,i).((x + 2) * (1 + (x * (x mod 2)))),1,(x2 + 2x)) div 2)
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1: (loop(\(x,i).(2x2 + 3x + 1),2,1) div (x + 1))
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1: (loop(\(x,i).(x3 + x),1,x4) div 2)
1: (loop(\(x,i).(x3 + x),1,x3) div 2)
1: (loop(\(x,i).(2x2 + 4),2,1) div (x + 1))
1: (loop(\(x,i).(x3 + 2x),1,(4x + 2)) div 3)
1: (loop(\(x,i).(x3 + 2x),1,((x2 + ~x) div 2)) div 3)
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1: (loop(\(x,i).(x3 + 3x),x,2) div 2)
1: (loop(\(x,i).(x * (1 + (2 * i))),x,1) div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))
1: (loop(\(x,i).(2x * (1 + (x * i))),2,x) div 2)
1: (loop(\(x,i).((1 + (x * i)) * (i div 2)),x,1) div 2)
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1: (loop(\(x,i).(2 * (x + ((x - i) div 3))),x,1) div loop(\(x,i).2x,x,1))
1: (loop(\(x,i).(2 * (6x + (2x div (1 + i)))),x,1) div 2)
1: (loop(\(x,i).(3 * (2 + (x div 2))),x,0) div 2)
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1: (loop(\(x,i).(x * (1 + (x div 3))),1,((x + 2) - ((x mod 3) div 2))) div 2)
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1: (loop(\(x,i).(2 * (x + (x div (1 + (4 * i))))),x,1) div 2)
1: (loop(\(x,i).(2 * (4x + (x div (if i <= 0 then 1 else i)))),(x + 1),1) div 2)
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1: (loop(\(x,i).(x * (2 + (x mod 2))),x,(x + 1)) div (x + 1))
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1: (loop(\(x,i).(2x + 2),(x div (4 + (x mod 2))),2) div (x + 2))
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1: (loop(\(x,i).2x,(x + ~6),1) div 2)
1: (loop(\(x,i).2x,(x + ~10),1) div 3)
1: (loop(\(x,i).2x,(x - (3 * (2 + (x div 8)))),1) div 2)
1: (loop(\(x,i).2x,(x - (3 * (((x + 1) div 2) div 2))),1) div 5)
1: (loop(\(x,i).2x,(x - ((~x + 2) div 2)),3) div 2)
1: (loop(\(x,i).2x,(~1 + i),x) div 2)
1: (loop(\(x,i).2x,x2,(1 + loop(\(x,i).x2,1,(~1 + loop(\(x,i).2x,x,2))))) div 2)
1: (loop(\(x,i).2x,((1 + (((~1 + loop(\(x,i).2x,x,(if x <= 0 then 1 else (2 * (if (~2 + (x div 3)) <= 0 then 0 else 2))))) mod (x + 1)) div 2)) div 2),1) div 3)
1: (loop(\(x,i).2x,((x + 1) div 2),1) div (2 * (1 + (3 * (x div 2)))))
1: (loop(\(x,i).2x,((x + 1) div 2),((x + 2) + (x div 2))) div 2)
1: (loop(\(x,i).2x,((x + ~1) div 2),1) div (x + 2))
1: (loop(\(x,i).2x,((x + ~1) div 2),x) div (x2 + 1))
1: (loop(\(x,i).2x,((x2 + ~x) div 2),3) div 2)
1: (loop(\(x,i).2x,((((1 + (x mod 4)) * (1 + (x div 3))) div 2) div 2),1) div (x + 1))
1: (loop(\(x,i).2x,((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3),1) div 2)
1: (loop(\(x,i).2x,(x div 2),1) div (if x <= 0 then 1 else x))
1: (loop(\(x,i).2x,(x div 2),(3 - (x mod 2))) div 2)
1: (loop(\(x,i).2x,(x div 2),(2 + (if (x mod 2) <= 0 then ((if x <= 0 then 2 else x) div 2) else 2))) div 2)
1: (loop(\(x,i).2x,(x div 2),(x + 1)) div 2)
1: (loop(\(x,i).2x,(if (x + ~2) <= 0 then 1 else (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)),1) div 2)
1: (loop(\(x,i).2x,(if (8 mod (if x <= 0 then 1 else x)) <= 0 then x else 0),1) div (if x <= 0 then 1 else x))
1: (loop(\(x,i).2x,(if (x mod 2) <= 0 then (1 + ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2) - (x mod 2)) else 1),1) div 2)
1: (loop(\(x,i).2x,loop(\(x,i).(loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2),2,x),2) div 2)
1: (loop(\(x,i).2x,x,1) div (3 - (x mod 2)))
1: (loop(\(x,i).2x,x,1) div 7)
1: (loop(\(x,i).2x,x,1) div (x2 + 2x + 2))
1: (loop(\(x,i).2x,x,1) div (x2 + ~x + 1))
1: (loop(\(x,i).2x,x,1) div 33)
1: (loop(\(x,i).2x,x,1) div (x3 + ~x2 + 3))
1: (loop(\(x,i).2x,x,1) div (1 + (2 * (x div 2))))
1: (loop(\(x,i).2x,x,1) div (1 + (x * loop(\(x,i).(2x2 + 2x),2,2))))
1: (loop(\(x,i).2x,x,1) div (1 + ((2 * (1 + ((1 + (if (x + ~1) <= 0 then x else loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x + ~2),1))) div 2))) div 3)))
1: (loop(\(x,i).2x,x,1) div (1 + ((x * (2x div 3)) div 2)))
1: (loop(\(x,i).2x,x,1) div (1 + (((1 + (((2 + (loop(\(x,i).2x,(x mod 4),1) + loop(\(x,i).2x,x,1))) div 3) div 2)) div 2) div 2)))
1: (loop(\(x,i).2x,x,1) div 8)
1: (loop(\(x,i).2x,x,1) div (3 * (1 + ((2x + 1) * (x + (x mod 2))))))
1: (loop(\(x,i).2x,x,1) div ((x + 1) * (2 + ((x2 + ~x) div 2))))
1: (loop(\(x,i).2x,x,1) div (2 * (2 + loop(\(x,i).(x + (i * i)),(x + ~1),x))))
1: (loop(\(x,i).2x,x,1) div ((2x + 4) * ((4x + 3) - (x mod 2))))
1: (loop(\(x,i).2x,x,1) div ((x + 1) * (if (x + ~1) <= 0 then 2 else (x2 + ~x))))
1: (loop(\(x,i).2x,x,1) div (if (x mod 3) <= 0 then 1 else ~2))
1: (loop(\(x,i).2x,x,1) div loop(\(x,i).(x + (loop(\(x,i).((if x <= 0 then 2 else loop(\(x,i).(x div (2 - (x mod 2))),x,x)) div 2),2,x) + ((x + 1) div 2))),x,1))
1: (loop(\(x,i).2x,x,1) div loop(\(x,i).(1 + (i div (x + 2))),x,1))
1: (loop(\(x,i).2x,x,2) div 5)
1: (loop(\(x,i).2x,x,2) div (3x + 2))
1: (loop(\(x,i).2x,x,2) div (2x + 3))
1: (loop(\(x,i).2x,x,2) div (x2 + 2x + 1))
1: (loop(\(x,i).2x,x,2) div 17)
1: (loop(\(x,i).2x,x,2) div (1 + (6 * (1 + (4 * (x mod 2))))))
1: (loop(\(x,i).2x,x,2) div (x3 + 3x2 + 2x + 1))
1: (loop(\(x,i).2x,x,2) div (1 + (2 * (x mod 2))))
1: (loop(\(x,i).2x,x,2) div (2x + 1))
1: (loop(\(x,i).2x,x,2) div (1 + (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))))
1: (loop(\(x,i).2x,x,2) div (x + 2))
1: (loop(\(x,i).2x,x,2) div (x3 + 8x2 + 20x + 16))
1: (loop(\(x,i).2x,x,2) div (loop(\(x,i).3x,x,3) mod loop(\(x,i).2x,x,2)))
1: (loop(\(x,i).2x,x,3) div 5)
1: (loop(\(x,i).2x,x,4) div (x + 1))
1: (loop(\(x,i).2x,x,(8 + (((x3 + ~3x2 + 2x) div 2) div 3))) div 2)
1: (loop(\(x,i).2x,x,(5 + (loop(\(x,i).3x,x,2) + loop(\(x,i).2x,x,1)))) div 2)
1: (loop(\(x,i).2x,x,(x + 7)) div 2)
1: (loop(\(x,i).2x,x,((x + 3) + ((1 + ((x + 1) * (x - (x div ~2)))) div 2))) div (x + 3))
1: (loop(\(x,i).2x,x,((2x + 4) + (loop(\(x,i).(2 * (x + i)),x,x) div 2))) div 2)
1: (loop(\(x,i).2x,x,(3 + (loop(\(x,i).2x,x,1) + (x mod 2)))) div 2)
1: (loop(\(x,i).2x,x,(x + 6)) div 2)
1: (loop(\(x,i).2x,x,(x + 18)) div 2)
1: (loop(\(x,i).2x,x,((x + 2) + (x div 2))) div 2)
1: (loop(\(x,i).2x,x,(3 + (x mod 2))) div 2)
1: (loop(\(x,i).2x,x,(1 + (loop(\(x,i).(3x + ~1),x,2) + loop(\(x,i).2x,x,1)))) div 2)
1: (loop(\(x,i).2x,x,(2 + (loop(\(x,i).2x,(x + 2),2) + (x mod 2)))) div 2)
1: (loop(\(x,i).2x,x,(1 + (loop(\(x,i).2x,(x div 2),(2 + (x mod 2))) + loop(\(x,i).2x,x,1)))) div 2)
1: (loop(\(x,i).2x,x,((x + 1) + loop(\(x,i).2x,x,3))) div 2)
1: (loop(\(x,i).2x,x,(3 - (x mod 2))) div 2)
1: (loop(\(x,i).2x,x,(1 + (2 * (2 + (if x <= 0 then 0 else 2))) - (x mod 2))) div 2)
1: (loop(\(x,i).2x,x,(3x + 2)) div 2)
1: (loop(\(x,i).2x,x,(x + 8)) div 2)
1: (loop(\(x,i).2x,x,(x + 12)) div 2)
1: (loop(\(x,i).2x,x,(x2 + 7x + 8)) div 2)
1: (loop(\(x,i).2x,x,(1 + (3 * (1 + ((x2 + ~x) div 2))))) div 2)
1: (loop(\(x,i).2x,x,(2 + (3 * (2 + loop(\(x,i).(2x + (i mod 2)),x,2))))) div 2)
1: (loop(\(x,i).2x,x,(x2 + 2x + 2)) div 2)
1: (loop(\(x,i).2x,x,(x + 16)) div 2)
1: (loop(\(x,i).2x,x,(1 + (3 * ((x2 + 3x + 2) div 2)))) div 2)
1: (loop(\(x,i).2x,x,(1 + ((1 + ((loop(\(x,i).x3,1,(1 + loop(\(x,i).(x * i),x,1))) div 3) div 3)) div 3))) div 2)
1: (loop(\(x,i).2x,x,(2 + ((x2 + x) div 2))) div 2)
1: (loop(\(x,i).2x,x,(2 + ((x2 + ~x) div 2))) div 2)
1: (loop(\(x,i).2x,x,(1 + (2 mod (x + 1)))) div 2)
1: (loop(\(x,i).2x,x,(1 + (loop(\(x,i).6x,x,(x + 1)) mod (2x + 1)))) div 2)
1: (loop(\(x,i).2x,x,(2 + (x mod 2))) div (x + 1))
1: (loop(\(x,i).2x,x,(1 + (if (x + ~2) <= 0 then 2 else 0))) div 2)
1: (loop(\(x,i).2x,x,(loop(\(x,i).(2x + 1),x,2) + (x mod 2))) div 2)
1: (loop(\(x,i).2x,x,(1 + loop(\(x,i).(2x + 4),x,1))) div 2)
1: (loop(\(x,i).2x,x,(1 + loop(\(x,i).23x,x,1))) div 2)
1: (loop(\(x,i).2x,x,(1 + loop(\(x,i).4x,2x,1))) div 2)
1: (loop(\(x,i).2x,x,(1 + loop(\(x,i).2x,(x div 2),((x + 1) mod 2)))) div 2)
1: (loop(\(x,i).2x,x,(1 + loop(\(x,i).2x,x,2))) div 3)
1: (loop(\(x,i).2x,x,(x + 1)) div 2)
1: (loop(\(x,i).2x,x,(x + 1)) div (x + 2))
1: (loop(\(x,i).2x,x,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2)
1: (loop(\(x,i).2x,x,(1 + compr(\x.(loop(\(x,i).(2x2 + 12x + 16),2,(x2 + 2x)) mod (x + 1)),x))) div 2)
1: (loop(\(x,i).2x,x,(1 - ((~1 + loop(\(x,i).4x,x,2)) mod (x + 1)))) div (x + 1))
1: (loop(\(x,i).2x,x,(3 + (2 * (2 + loop(\(x,i).4x,x,2))) - (x mod 2))) div 2)
1: (loop(\(x,i).2x,x,(2 - ((x2 + x) div 2))) div 2)
1: (loop(\(x,i).2x,x,(2 - loop(\(x,i).(5x + ~2),x,0))) div 3)
1: (loop(\(x,i).2x,x,(14 + (x mod 2))) div 2)
1: (loop(\(x,i).2x,x,((x + 1) - loop(\(x,i).2x,(x + ~1),2))) div 2)
1: (loop(\(x,i).2x,x,((x + 2) - ((x2 div 2) div 3))) div 2)
1: (loop(\(x,i).2x,x,((~x + ~1) + loop(\(x,i).((x2 + 3x + 2) div 2),2,x))) div 2)
1: (loop(\(x,i).2x,x,(8 - (x mod 2))) div 2)
1: (loop(\(x,i).2x,x,(~2 + (3 * (x + (if (x + ~1) <= 0 then 2 else 1))))) div 2)
1: (loop(\(x,i).2x,x,(3x + 5)) div 2)
1: (loop(\(x,i).2x,x,29) div 3)
1: (loop(\(x,i).2x,x,(7x + 16)) div 2)
1: (loop(\(x,i).2x,x,(~2 + ((x2 + ~x) div 2))) div 2)
1: (loop(\(x,i).2x,x,(~1 + loop(\(x,i).(2x + (2x div (1 + (x div 2)))),x,1))) div 2)
1: (loop(\(x,i).2x,x,(~x3 + loop(\(x,i).5x,(x + 1),1))) div 2)
1: (loop(\(x,i).2x,x,(~1 + loop(\(x,i).(2 * (x + (x div 2))),x,7))) div 2)
1: (loop(\(x,i).2x,x,(~1 + loop(\(x,i).2x,x,2))) div 3)
1: (loop(\(x,i).2x,x,((x + ~1) + (if (x mod 5) <= 0 then 4 else 0))) div 2)
1: (loop(\(x,i).2x,x,(x + 14)) div 2)
1: (loop(\(x,i).2x,x,(3x + ~4)) div 2)
1: (loop(\(x,i).2x,x,(5x + ~8)) div 2)
1: (loop(\(x,i).2x,x,(2 * (2 + (x mod 2)))) div 5)
1: (loop(\(x,i).2x,x,2x) div (x + 1))
1: (loop(\(x,i).2x,x,((1 + loop(\(x,i).(2 * ((x + 2) - (x * (i mod 2)))),x,1)) div 2)) div 3)
1: (loop(\(x,i).2x,x,(((3x + 4) * loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,1)) div 2)) div 2)
1: (loop(\(x,i).2x,x,(loop(\(x,i).(2x + 2),x,1) div 2)) div loop(\(x,i).3x,x,1))
1: (loop(\(x,i).2x,x,(loop(\(x,i).((x2 + ~x) div 2),2,(x + 4)) div 3)) div 5)
1: (loop(\(x,i).2x,x,(loop(\(x,i).((x2 + ~x) div 2),2,(x + 1)) div 3)) div 2)
1: (loop(\(x,i).2x,x,(if (x mod 3) <= 0 then 1 else 2)) div 3)
1: (loop(\(x,i).2x,x,(if (x mod 4) <= 0 then x else (x div 2))) div 2)
1: (loop(\(x,i).2x,x,(if x <= 0 then 1 else (3 + loop(\(x,i).2x,x,2)))) div 2)
1: (loop(\(x,i).2x,x,(if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + ((loop(\(x,i).(2x2 + ~x),1,loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1)) div 2) div 2)) div 2)) div 2))))) div 2)
1: (loop(\(x,i).2x,x,(if x <= 0 then 1 else (2 * ((if x <= 0 then 2 else (loop(\(x,i).2x,(x + ~2),x) - ((x + ~1) * (if x <= 0 then 1 else x)))) div 2)))) div 2)
1: (loop(\(x,i).2x,x,loop(\(x,i).((x + 1) + i),x,2)) div 2)
1: (loop(\(x,i).2x,x,loop(\(x,i).((x + 1) + i),x,4)) div 2)
1: (loop(\(x,i).2x,x,loop(\(x,i).((x + 2) + i),x,2)) div 2)
1: (loop(\(x,i).2x,x,loop(\(x,i).((2x + 2) + i),x,2)) div 2)
1: (loop(\(x,i).2x,x,loop(\(x,i).(2x + i),x,2)) div 2)
1: (loop(\(x,i).2x,x,loop(\(x,i).(2x + 5),x,2)) div 2)
1: (loop(\(x,i).2x,x,loop(\(x,i).(1 + (2 * (x - (i mod 2)))),x,2)) div 2)
1: (loop(\(x,i).2x,x,loop(\(x,i).(10x + 1),x,2)) div 2)
1: (loop(\(x,i).2x,x,loop(\(x,i).(2x + 1),x,2)) div 2)
1: (loop(\(x,i).2x,x,loop(\(x,i).(2x + 1),x,8)) div 2)
1: (loop(\(x,i).2x,x,loop(\(x,i).(x + (((4 + i) * (1 + i)) div 2)),x,2)) div 2)
1: (loop(\(x,i).2x,x,loop(\(x,i).(x + (x div 2)),x,4)) div 2)
1: (loop(\(x,i).2x,x,loop(\(x,i).(x + (if x <= 0 then 1 else ((x + 3) + ((x2 + 3x + 2) div 2)))),1,(x + 1))) div 2)
1: (loop(\(x,i).2x,x,loop(\(x,i).(3x + ~1),x,2)) div 2)
1: (loop(\(x,i).2x,x,loop(\(x,i).(~1 + (x * i)),x,4)) div 2)
1: (loop(\(x,i).2x,x,loop(\(x,i).(3x + ~3),x,2)) div 2)
1: (loop(\(x,i).2x,x,loop(\(x,i).2x,((x + 1) div 7),1)) div 3)
1: (loop(\(x,i).2x,x,loop(\(x,i).2x,(x div 2),(3 + (x mod 2)))) div (x + 1))
1: (loop(\(x,i).2x,x,loop(\(x,i).x2,1,(x + ~4))) div 2)
1: (loop(\(x,i).2x,x,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2)
1: (loop(\(x,i).2x,x,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div (x + 1))
1: (loop(\(x,i).2x,x,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 2))) div (x + 2))
1: (loop(\(x,i).2x,x,loop(\(x,i).loop(\(x,i).2x,x,(if x <= 0 then 2 else (2x + ~1))),1,3x)) div 2)
1: (loop(\(x,i).2x,x,compr(\x.(x mod (1 + (4 * (x mod (2 + (x mod 2)))))),(x + 3))) div 2)
1: (loop(\(x,i).2x,i,1) div (1 + (x * i)))
1: (loop(\(x,i).2x,i,2) div (1 + i))
1: (loop(\(x,i).2x,compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i),1) div 2)
1: (loop(\(x,i).x2,1,((x + 1) + ((if ((x div 2) mod 3) <= 0 then 0 else 1) + (x div 3)))) div 2)
1: (loop(\(x,i).x2,1,(x + 17)) div 2)
1: (loop(\(x,i).x2,1,(x + 19)) div 2)
1: (loop(\(x,i).x2,1,(x + 25)) div 2)
1: (loop(\(x,i).x2,1,((x + 2) + (x div 2))) div 2)
1: (loop(\(x,i).x2,1,((x + 4) + (x div 2))) div 2)
1: (loop(\(x,i).x2,1,((x + 1) + (x div 3))) div 2)
1: (loop(\(x,i).x2,1,((x + 1) + ((x div 5) + (x div 2)))) div 2)
1: (loop(\(x,i).x2,1,(1 + ((x + 2) div 3) - ((2 * (x div 3)) div 3))) div 2)
1: (loop(\(x,i).x2,1,(1 + ((x2 + 6x + 8) div 2) - (x mod 2))) div 2)
1: (loop(\(x,i).x2,1,((x + 3) - (x div ~2))) div 2)
1: (loop(\(x,i).x2,1,(5x + 1)) div 3)
1: (loop(\(x,i).x2,1,(x + 27)) div 2)
1: (loop(\(x,i).x2,1,(1 + (2 * (1 + ((2x + 1) mod (1 + (2x mod (3 + (x div 4))))))))) div 2)
1: (loop(\(x,i).x2,1,(x7 + 3)) div 2)
1: (loop(\(x,i).x2,1,((3 * (x div 2)) + (x div 3))) div 2)
1: (loop(\(x,i).x2,1,(3 + (x2 * loop(\(x,i).x3,2,x)))) div 2)
1: (loop(\(x,i).x2,1,(x + (3 * loop(\(x,i).x3,x2,2)))) div 2)
1: (loop(\(x,i).x2,1,(((2 * (4 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3) + (if x <= 0 then 0 else 1))) div 2)
1: (loop(\(x,i).x2,1,(x + ((x2 + 3x + 2) div 2))) div 3)
1: (loop(\(x,i).x2,1,(2 + ((x3 + x2) div 2))) div 2)
1: (loop(\(x,i).x2,1,(1 + (x2 div 3))) div 2)
1: (loop(\(x,i).x2,1,(2 + ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3))) div 2)
1: (loop(\(x,i).x2,1,(1 + ((x mod (1 + (31 mod (x + 1)))) div 3))) div 3)
1: (loop(\(x,i).x2,1,(1 + (x mod (1 + ((4 + (x div 2)) mod (1 + (x div 3))))))) div 2)
1: (loop(\(x,i).x2,1,(1 + ((if (x mod 2) <= 0 then 2 else 0) + (x div 2)))) div 2)
1: (loop(\(x,i).x2,1,((if (x mod 2) <= 0 then 2 else 0) + (x div 2))) div 2)
1: (loop(\(x,i).x2,1,(1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x))) div (x + 1))
1: (loop(\(x,i).x2,1,(2 + loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x))) div 2)
1: (loop(\(x,i).x2,1,(1 + loop(\(x,i).(2 * ((5x + 1) + i)),x,2))) div 2)
1: (loop(\(x,i).x2,1,(1 + loop(\(x,i).(2x + 4),x,4))) div 3)
1: (loop(\(x,i).x2,1,(2 + loop(\(x,i).4x,x,2))) div 2)
1: (loop(\(x,i).x2,1,(1 + loop(\(x,i).~4x,x,1))) div 2)
1: (loop(\(x,i).x2,1,(1 + compr(\x.(loop(\(x,i).(~2x + 4),x,1) mod (x + 1)),x))) div 2)
1: (loop(\(x,i).x2,1,(1 - (2 * ((2x + 1) - (x mod (1 + ((x2 + ~x) mod 8))))))) div 2)
1: (loop(\(x,i).x2,1,(2 - ((x2 + 3x) div 2))) div 3)
1: (loop(\(x,i).x2,1,(2 - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x))) div 2)
1: (loop(\(x,i).x2,1,(8 + loop(\(x,i).2x,x,1) - (x mod 2))) div 2)
1: (loop(\(x,i).x2,1,(~2 + (x mod 2) - (x div 2))) div 2)
1: (loop(\(x,i).x2,1,(~3 + loop(\(x,i).10x,(x + 1),1))) div 2)
1: (loop(\(x,i).x2,1,(~3 + loop(\(x,i).10x,(x + 1),1))) div 3)
1: (loop(\(x,i).x2,1,((x + ~1) - (4 * (x div 5)))) div 3)
1: (loop(\(x,i).x2,1,(~1 + (2 * ((x + 1) + ((2 * (1 + (((1 + (loop(\(x,i).(2x + 1),x,loop(\(x,i).3x,x,1)) div 3)) div 2) div 2))) div 3))))) div 2)
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1: (loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,x) div 2)
1: (loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,x) div (2 + (x mod 2)))
1: (loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,x) div (2 - (x mod 2)))
1: (loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),x,(1 + (x div 2))) div 2)
1: (loop(\(x,i).(x div (2 - ((1 + (if (x + ~2) <= 0 then x else (if (x mod 4) <= 0 then 0 else 1))) mod 2))),x,x) div 2)
1: (loop(\(x,i).(x div (2 - ((x div ~2) mod 2))),x,(x + 1)) div 2)
1: (loop(\(x,i).(x div (2 - (x mod 2))),2,x) div 3)
1: (loop(\(x,i).(x div (2 - (x mod 2))),2,x) div (1 + (if (x mod 3) <= 0 then 2 else 0)))
1: (loop(\(x,i).(x div (2 - (x mod 2))),x,(1 + ((x2 + x) div 2))) div 2)
1: (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) div 3)
1: (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) div 5)
1: (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) div (if x <= 0 then 2 else (1 + (x mod 8))))
1: (loop(\(x,i).(x div (2 - (x mod 2))),x,(~x + 1)) div 2)
1: (loop(\(x,i).(x div (2 - (x mod 2))),x,(2x + 6)) div 2)
1: (loop(\(x,i).(x div (if (x mod (2 + (x mod 2))) <= 0 then 2 else 1)),x,x) div 2)
1: (loop(\(x,i).((x + 3) mod (1 + i)),x,0) div 3)
1: (loop(\(x,i).(x4 mod 27),2,(2x + 1)) div 2)
1: (loop(\(x,i).(x3 mod 30),x,x) div 2)
1: (loop(\(x,i).(if (x mod 2) <= 0 then (x + 2) else (x div 2)),x,x) div 2)
1: (loop(\(x,i).(if (x mod 2) <= 0 then (~x + 1) else 2x),x,2) div 2)
1: (loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (1 + (2 * loop(\(x,i).(2x - (x mod 4)),2,2x)))),x,x) div 2)
1: (loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (x + (i * i))),2,(x + 2)) div 2)
1: (loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else 2x),x,(2x + 12)) div 3)
1: (loop(\(x,i).(if (x mod 2) <= 0 then x else ((~x + 1) div 2)),x,(x + 1)) div 2)
1: (loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),x,(2x + 1)) div (x + 1))
1: (loop(\(x,i).(if x <= 0 then 2 else (x * (~1 + i))),2x,1) div (x + 1))
1: (loop(\(x,i).(if x <= 0 then i else (x div 2)),(x + ~1),0) div 2)
1: (loop(\(x,i).(if x <= 0 then i else (x div 2)),(x + ~1),1) div 2)
1: (loop(\(x,i).(if x <= 0 then i else (x div 2)),x,0) div 2)
1: (loop(\(x,i).loop(\(x,i).(x + (((2 + (i mod 2)) * i) + i)),i,x),x,1) div 2)
1: (loop(\(x,i).loop(\(x,i).(x + (loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),i,1) + (x * i))),x,1),x,1) div 2)
1: (loop(\(x,i).loop(\(x,i).(x + (loop(\(x,i).2x,i,i) * i)),i,x),x,1) div 2)
1: (loop(\(x,i).loop(\(x,i).(x + ((i * i) div 2)),i,x),x,1) div 2)
1: (loop(\(x,i).loop(\(x,i).(x * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i))),i,2x),x,1) div loop(\(x,i).2x,x,1))
1: (loop(\(x,i).loop(\(x,i).(x * ((x + ~1) + i)),2,x2),x,4) div 2)
1: (loop(\(x,i).loop(\(x,i).11x,x,1),2,1) div (x + 1))
1: (loop(\(x,i).loop(\(x,i).(x * (x - i)),2,(~1 + i)),x,1) div 31)
1: (loop(\(x,i).loop(\(x,i).10x,x,1),2,1) div (x + 1))
1: (loop(\(x,i).loop(\(x,i).(8x + 4),(x + 1),0),1,(x3 + 3x2 + 4x + 2)) div 2)
1: (loop(\(x,i).loop(\(x,i).12x,x,1),2,1) div (x + 1))
1: (loop(\(x,i).loop(\(x,i).2x,x,x),1,loop(\(x,i).(x + (if x <= 0 then (1 + i) else 0)),x,(~x + 1))) div 2)
1: (loop(\(x,i).loop(\(x,i).2x,x,x),x,1) div 2)
1: (loop(\(x,i).loop(\(x,i).x2,1,(~x + 5)),(2x + 2),1) div 2)
1: (loop(\(x,i).loop(\(x,i).x2,2,x3),1,(10x + 1)) div 2)
1: (loop(\(x,i).loop(\(x,i).x2,2,x3),1,loop(\(x,i).(x * i),(x + 2),2)) div (x + 1))
1: (loop(\(x,i).loop(\(x,i).x2,2,x3),x,7) div 2)
1: (loop(\(x,i).loop(\(x,i).x2,2,x3),x,9) div 2)
1: (loop(\(x,i).loop(\(x,i).x2,(x + ~1),(if x <= 0 then 1 else x5)),1,(x + 1)) div (x2 + 2x + 1))
1: (loop(\(x,i).loop(\(x,i).x2,x,2),(x + ~2),1) div 2)
1: (loop(\(x,i).loop(\(x,i).((x2 + ~x) div 2),i,(x + 2)),2,x) div 3)
1: (loop(\(x,i).loop(\(x,i).loop(\(x,i).(loop(\(x,i).(1 + (x * i)),i,1) - (x * i)),x,1),1,(x + 1)),1,(x + 1)) div 2)
1: (loop(\(x,i).i,((~1 + (x div 2)) div 2),1) div (1 + (x mod 2)))
1: (loop(\(x,i).i,((2x + ~2) mod (2 + (x div 2))),x) div 5)
1: (x div (5 + (x mod 2) - (((x + ~1) mod (4 + ((x div 2) div 3))) div 2)))
1: (x div (2 + (((2 * (1 + ((1 + ((1 + ((1 + ((((x + 1) * (1 + (3 * ((2x + 2) mod 5)))) div 2) div 2)) div 2)) div 2)) div 2))) div 3) + (x mod 2))))
1: (x div (2 + (((2 * (1 + ((1 + ((32 mod (x + 1)) div 2)) div 2))) div 3) + (x mod 2))))
1: (x div (2 + (((2 * (1 + ((1 + ((x mod (2 + ((~1 + (2 * (x mod 4))) mod (x + 1)))) div 2)) div 2))) div 3) + (x mod 2))))
1: (x div (2 + (((2 * (1 + (((1 + (x div (2 + (x mod (2 + (x mod (2 + (x mod 2)))))))) mod (x + 1)) div 2))) div 3) + (x mod 2))))
1: (x div (2 + (((3 * (((x + 1) div 2) div 3)) div 2) + (x mod 2))))
1: (x div (2 + ((((x + 1) div 2) div (1 + ((x div 2) mod (1 + (x mod (1 + ((~x + 2) mod 4))))))) + (x mod 2))))
1: (x div (1 + ((((x + ~1) div 2) div 2) + (if (x + ~2) <= 0 then 2 else 1) + (x mod 2))))
1: (x div (3 + (((2 + ((x * (2 + ((x + 1) mod 4))) div 2)) mod 3) + (x mod 2))))
1: (x div (3 + (((1 + (x div 2)) mod 3) + (x mod 4))))
1: (x div (5 + ((~x + 1) mod 4)))
1: (x div (5 + ((x + ~1) mod 3)))
1: (x div (5 + (4x mod 11)))
1: (x div (5 + (2x mod (2 + (x div 3)))))
1: (x div (5 + ((((x + ~1) div 2) div 2) mod 3)))
1: (x div (2 + (((x div ~4) mod 2) + (x mod 2))))
1: (x div (2 + (((x div (4 * (1 + (2 * (x mod 2))))) mod 2) + (x mod 2))))
1: (x div (5 + (x mod 2)))
1: (x div (4 + ((x mod 2) + (x mod 3))))
1: (x div (1 + ((if (~1 + (x mod 3)) <= 0 then 2 else 0) + (if (x + ~2) <= 0 then 1 else 2) + (x mod 2))))
1: (x div (3 + ((if (x mod 4) <= 0 then 0 else (if (x mod (2 + (x mod 2))) <= 0 then 1 else x)) + (x mod 2))))
1: (x div (5 - (((1 + (x div 2)) div 2) div 2)))
1: (x div (5 - (x mod 2)))
1: (x div ((~x + 13) + (x div 3) - (x mod 2)))
1: (x div (3 + ((x mod 3) div 2) - (x mod 2)))
1: (x div (4 + (((x + 2) div (1 + (x mod 3))) mod 2) - (x mod 2)))
1: (x div (1 + ((2 * (x mod 2)) + (x div 4))))
1: (x div (1 + ((2 * (x mod 5)) + (x mod 3))))
1: (x div (3 + ((2 + (x div 2)) div (1 + (x mod 4)))))
1: (x div (3 + (((x * (1 + (x mod (2 + (x mod 2))))) div 2) div 3)))
1: (x div (3 + ((((1 + (if (x mod 2) <= 0 then 2x else 1)) * (if x <= 0 then 1 else 2)) mod (1 + (x div 2))) div 2)))
1: (x div (3 + ((x2 mod (x + 5)) div 2)))
1: (x div (3 + ((x mod 3) div 2)))
1: (x div (4 + ((x mod 3) div 2)))
1: (x div (3 + ((x mod (1 + (x div (2 + ((x + 1) mod 5))))) div 2)))
1: (x div (4 + ((x mod ~4) div 2)))
1: (x div (2 + ((x div 3) + ((x div 2) mod 3))))
1: (x div (2 + ((x div 4) + ((x div ~2) mod 2))))
1: (x div (3 + (x div (4 - (x mod 2)))))
1: (x div (4 + (x div (4 - (x mod 2)))))
1: (x div (4 + (x div (1 + ((x2 + 2x) mod 6)))))
1: (x div (3 + (x div (1 + (x mod 4)))))
1: (x div (4 + ((1 + (9 * (x div 4))) mod (x + 1))))
1: (x div (3 + ((1 + ((x + 1) div 2)) mod 3)))
1: (x div (4 + ((x + ((4 * (x div 3)) div 3)) mod 3)))
1: (x div (3 + ((2 + ((x div 2) div 3)) mod 3)))
1: (x div (1 + (((1 + ((32 mod (x + 1)) div 2)) mod 2) + (x mod 2))))
1: (x div (1 + (((1 + (x div 2)) mod 3) + (x mod 2))))
1: (x div (1 + (((1 + ((x + 1) mod (1 + (x div (2 + ((x div 2) mod 2)))))) mod (x + 1)) + (x mod 2))))
1: (x div (3 + ((x + ((x div 2) mod 2)) mod 3)))
1: (x div (2 + (((x + (if (x mod 2) <= 0 then x else 2)) mod 3) + (x mod 2))))
1: (x div (4 + ((x + 1) mod (4 + ((6 + ((1 + ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 7)) div 2)) mod (x + 1))))))
1: (x div (4 + ((x + 1) mod (1 + (2 * ((1 + (x div 4)) div 2))))))
1: (x div (4 + ((x + 1) mod (2 + ((x div 2) mod 2)))))
1: (x div (3 + ((x + 1) mod (2 + (x mod 2)))))
1: (x div (3 + ((x + 2) mod 4)))
1: (x div (4 + ((x + 2) mod 4)))
1: (x div (3 + ((x + 2) mod (4 + ((x div 2) mod 2)))))
1: (x div (4 + ((x + 2) mod (2 + ((x + 1) mod 3)))))
1: (x div (4 + ((1 - (9 * (x mod 6))) mod (x + 1))))
1: (x div (4 + ((1 - loop(\(x,i).3x,x,3)) mod (x + 2))))
1: (x div (1 + (((~x + 1) mod 3) + (x div 3))))
1: (x div (4 + ((~x + 1) mod 4)))
1: (x div (4 + ((~x + 1) mod (1 + (((x + 1) div 2) div 2)))))
1: (x div (3 + ((~x + 1) mod (1 + (x div 2)))))
1: (x div (4 + ((~x + 1) mod (2 * (1 + (2 * (x mod 3)))))))
1: (x div (3 + (((~4x + ~1) + (x div 2)) mod (x + 3))))
1: (x div (4 + ((~1 + loop(\(x,i).~2x,x,4)) mod (x + 1))))
1: (x div (2 + (((~1 + loop(\(x,i).4x,(x div 2),2)) mod (x + 1)) + (x mod 2))))
1: (x div (4 + ((x + ~1) mod 3)))
1: (x div (4 + ((x + ~1) mod 4)))
1: (x div (4 + ((x + ~1) mod (3 + (x mod 2)))))
1: (x div (4 + ((x + ~1) mod (2 + ((~x + 2) mod 8)))))
1: (x div (1 + (((x + ~1) mod (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))) + (x mod 2))))
1: (x div (3 + ((x + ~2) mod (3 - (x mod 2)))))
1: (x div (4 + ((x + ~2) mod (2 + (x div 4)))))
1: (x div (4 + ((x - ((2 - (x div 2)) div 2)) mod 3)))
1: (x div (1 + (((x - (x div (4 + (x mod 2)))) mod 2) + (x mod 2))))
1: (x div (4 + ((2 * (1 + (4 * (x mod 6)))) mod (x + 1))))
1: (x div (4 + ((x * (x + (x div 2))) mod 6)))
1: (x div (4 + ((2 * (1 + (x mod 6))) mod (x + 1))))
1: (x div (4 + ((3x + 3) mod 8)))
1: (x div (4 + ((x2 + 2x) mod 12)))
1: (x div (3 + ((6 * (1 + ((x + 1) mod 4))) mod (x + 1))))
1: (x div (3 + ((4 * (2 - (x mod 2))) mod (x + 1))))
1: (x div (4 + ((2x2 + ~2x) mod (x + 4))))
1: (x div (4 + (x3 mod 14)))
1: (x div (4 + (((x + ~1) * (x div 2)) mod 3)))
1: (x div (4 + ((x * loop(\(x,i).(2x + 2),x,2)) mod 9)))
1: (x div (2 + ((2x mod 3) + (x mod 2))))
1: (x div (3 + (2x mod 5)))
1: (x div (3 + (2x mod 7)))
1: (x div (4 + (x2 mod (x + 4))))
1: (x div (1 + ((((1 + (x div 3)) div (1 + (x mod (2 + (x mod 2))))) mod 2) + (x mod 2))))
1: (x div (3 + (((x + (x div 4)) div 3) mod 2)))
1: (x div (4 + (((x + 1) div 3) mod 4)))
1: (x div (1 + ((((x + 1) div (~1 + (((~x + 2) div 2) div 3))) mod 2) + (x mod 2))))
1: (x div (1 + ((((~x + 1) div (2 - (x mod ~4))) mod 2) + (x mod 2))))
1: (x div (4 + (((~x + 2) div 4) mod 3)))
1: (x div (4 + (((x2 + ~1) div 2) mod 4)))
1: (x div (3 + (((x + ~1) div 2) mod 2)))
1: (x div (1 + ((((x + ~2) div 3) mod 2) + (x mod 2))))
1: (x div (4 + (((x2 + 2x) div 2) mod 3)))
1: (x div (3 + ((((x + 1) div 2) div 2) mod 2)))
1: (x div (4 + ((((x + 1) div 2) div 2) mod 4)))
1: (x div (3 + ((((x + ~2) mod (1 + (x div 2))) div 2) mod 2)))
1: (x div (2 + (((x div 2) mod 2) + (x mod 3))))
1: (x div (3 + ((x div 2) mod 3)))
1: (x div (3 + ((x div 2) mod 5)))
1: (x div (4 + ((x div 3) mod 2)))
1: (x div (3 + ((x div 4) mod 2)))
1: (x div (3 + ((x div 5) mod 2)))
1: (x div (4 + ((x div 5) mod 2)))
1: (x div (3 + ((x div (2 * (2 - (x mod 2)))) mod 2)))
1: (x div (1 + ((((x + ~2) mod (2 - (x div ~3))) mod 2) + (x mod 2))))
1: (x div (4 + ((x mod 3) mod 2)))
1: (x div (4 + ((x mod 5) mod 2)))
1: (x div (1 + (((x mod (~1 + (4 * (~2 + (x mod 2))))) mod 2) + (x mod 2))))
1: (x div (3 + ((x mod 6) mod 4)))
1: (x div (2 + ((x mod 2) + (x mod 3))))
1: (x div (3 + (x mod 4)))
1: (x div (3 + (x mod (3 + (x mod 2)))))
1: (x div (4 + (x mod (1 + ((2 - (x div 2)) mod 4)))))
1: (x div (4 + (x mod (2 + ((3 * ((x + 2) - (x2 div 4))) mod (x + 1))))))
1: (x div (4 + (x mod (2 + (x mod 2)))))
1: (x div (3 + (x mod 6)))
1: (x div (3 + (x mod (2 * (2 + (x mod 2))))))
1: (x div (3 + (if (~4 + (x div 2)) <= 0 then 2 else 1)))
1: (x div (3 + (if (~2 + (x div 3)) <= 0 then (x mod 2) else 2)))
1: (x div (3 + (if (~2 + (x div 4)) <= 0 then 0 else 2)))
1: (x div (1 + ((if (~2 + (x div 4)) <= 0 then 1 else 2) + (x mod 2))))
1: (x div (3 + (if (x + ~12) <= 0 then 2 else 0)))
1: (x div (3 + (if (x + ~10) <= 0 then 2 else 0)))
1: (x div (1 + ((if ((x + 2) mod (2 + (x mod 2))) <= 0 then 1 else 6) + (x mod 2))))
1: (x div (1 + ((if ((x * (x mod 3)) mod 5) <= 0 then 1 else 2) + (x mod 2))))
1: (x div (1 + ((if (((x + ~1) div 2) mod 4) <= 0 then 2 else 1) + (x mod 2))))
1: (x div (1 + ((if ((x div ~2) mod 4) <= 0 then 0 else 1) + (x mod 2))))
1: (x div (3 + (if (x mod 2) <= 0 then (x div 2) else 3)))
1: (x div (1 + ((if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1) + ((((x + 1) div 2) div 2) div 2))))
1: (x div (2 + (i + (x div 2))))
1: (x div (3 - (((~x + 2) div 2) div 3)))
1: (x div (4 - ((x div 2) div 3)))
1: (x div (4 - (((x div 2) mod 3) div 2)))
1: (x div (3 - (x div ~4)))
1: (x div (4 - (x2 mod ~10)))
1: (x div (5 - ((x div 2) mod (1 + (x mod 3)))))
1: (x div (4 - (x mod 4)))
1: (x div (4 - (x mod (1 - (2 * (x div 4))))))
1: (x div (4 - (if ((x + 1) mod 8) <= 0 then 2 else (x mod 2))))
1: (x div (2 + ((if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1) + (x div 7)) - (x mod 2)))
1: (x div (2 + ((2 * (1 + (((x + 1) div (2 + ((x * (x div 3)) mod (1 + ((2 - (x div 2)) mod 4))) - (x mod 2))) div 2))) div 3) - (x mod 2)))
1: (x div (2 + ((((x + 1) + (2 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))) div 2) div 2) - (x mod 2)))
1: (x div (3 + (x div (3 + (x mod 2))) - (x mod 2)))
1: (x div (3 + ((x + 1) mod (1 + (x div (2 + (x mod (2 + (x mod 2))))))) - (x mod 2)))
1: (x div (1 + (2 * (2 + ((x + 1) mod (2 + ((x div 2) mod 2))))) - (x mod 2)))
1: (x div (~x + 17))
1: (x div (~1 + ((2 * i) + i)))
1: (x div (2 + ((1 + (x div 2)) div 2) - ((((1 - (x div 2)) mod (x + 2)) div 2) div 2)))
1: (x div (2 + (x div 2) - ((2x + 1) mod (2 + (x div 4)))))
1: (x div (1 + (x div 3) - (x div (4 * (2 + ((x div 2) mod 2))))))
1: (x div (2 + (x mod 2) - ((x div 3) mod 2)))
1: (x div (2 + i - (x mod 2)))
1: (x div (6 + (x mod 3)))
1: (x div (1 + (5 * i)))
1: (x div (1 + (2 * (3 + (x mod 2)))))
1: (x div (1 + (2 * (1 + (2 * (x mod 2))))))
1: (x div (1 + (2 * (1 + ((3 * (((1 + (x2 mod (~1 + ((~2x + 2) mod (4 + (x div 4)))))) * (1 + (x div 3))) div 3)) div 2)))))
1: (x div (1 + ((1 + ((x mod 3) div 2)) * (x div 3))))
1: (x div (1 + (2 * (2 + ((x mod 3) div 2)))))
1: (x div (1 + (3 * (2 + ((1 + (x div 2)) mod 4)))))
1: (x div (1 + (2 * (1 + ((1 + (x div (2 + ((x2 div 3) mod (x + 1))))) mod 2)))))
1: (x div (1 + (2 * (1 + ((~x + 2) mod 4)))))
1: (x div (1 + (2 * (2 + ((~x + 2) mod 4)))))
1: (x div (1 + (3 * (1 + (((x div 2) - ((x + 1) mod 4)) mod 3)))))
1: (x div (1 + (2 * (1 + ((x + ~1) mod 3)))))
1: (x div (1 + (3 * (1 + ((x + ~1) mod 3)))))
1: (x div (2 + ((1 + ((x + ~1) mod 3)) * (x mod 2))))
1: (x div (1 + (2 * (1 + ((x + ~1) mod 5)))))
1: (x div (2 + (2 * (1 + ((x + ~2) mod (1 + (2x div (2 + (x div 2)))))))))
1: (x div (1 + (2 * (1 + ((x - ((~x + 2) div 2)) mod 5)))))
1: (x div (1 + (2 * (1 + ((2 * ((2x + 1) + (2 * (loop(\(x,i).10x,(x + 1),1) div (x + 1))))) mod 3)))))
1: (x div (1 + (2 * (2 + ((2x + ~2) mod (1 + (x div 2)))))))
1: (x div (1 + (2 * (2 + (((((x + 1) div 2) div 2) * (x div 2)) mod 2)))))
1: (x div (1 + (2 * (1 + ((2 * (x div 4)) mod 5)))))
1: (x div (1 + (2 * (1 + (((x + 1) * (x div 4)) mod 2)))))
1: (x div (1 + (2 * (1 + (2x mod 7)))))
1: (x div (1 + (2 * (2 + (((x + ~1) div 3) mod 2)))))
1: (x div (1 + (2 * (1 + (((x + ~1) div (2 - (x div ~4))) mod 2)))))
1: (x div (1 + (2 * (2 + ((x2 div 2) mod 6)))))
1: (x div (2 + ((1 + ((x div 2) mod 3)) * (x mod 2))))
1: (x div (1 + (2 * (1 + ((x div 4) mod 2)))))
1: (x div (1 + (2 * (2 + ((x div ~4) mod 2)))))
1: (x div (1 + (2 * (1 + (x mod 2)))))
1: (x div ((2 * (1 + (x mod 2))) + (x mod 3)))
1: (x div (1 + (2 * (2 + (x mod 3)))))
1: (x div (1 + (2 * (1 + (x mod 9)))))
1: (x div (1 + (2 * (2 + (x mod (2 + (x div 4)))))))
1: (x div (1 + (3 * (2 + (x mod (2 + (x mod 2)))))))
1: (x div (1 + (3 * ((if (x mod 3) <= 0 then 2 else 1) + (x mod 2)))))
1: (x div (1 + (2 * (1 + (if (x mod 3) <= 0 then (2 * (x div 4)) else 1)))))
1: (x div (1 + (2 * (2 + i))))
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1: (x div (2 + ((~x + 17) mod (1 + (x div 2)))))
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1: (x div (2 + ((1 + (4 * (2x + (x div 2)))) mod (1 + (x div 2)))))
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1: (x div (2 + ((1 + (4 * (2 - (x div (~1 + ((~x + 1) div 3)))))) mod (x + 1))))
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1: (x div (2 + ((1 + (2 * (if x <= 0 then 1 else (2 + (x mod (2 + (x div 4))))))) mod (x + 1))))
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1: (x div (2 + ((1 + (x div 4)) mod 4)))
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1: (x div (2 + ((x + 1) mod 4)))
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1: (x div (1 + (23 mod (2x + 1))))
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1: (x div (1 + ((~1 + loop(\(x,i).2x,x,(4 + ((x div 2) div 3)))) mod (x + 1))))
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1: (x div (2 + ((x + ~1) mod 5)))
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1: (x div (2 + ((2 * (1 + (2 * (x mod 2)))) mod (1 + (x div 2)))))
1: (x div (2 + ((5 * (1 + (2 * (x mod 2)))) mod (x + 1))))
1: (x div (2 + (((1 + ((x mod 3) div 2)) * (1 + (x mod 2))) mod (x + 1))))
1: (x div (2 + ((5 * (1 + (x div 2))) mod (x + 1))))
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1: (x div (2 + ((3 * (2 + ((1 + (x div 2)) mod 6))) mod (x + 1))))
1: (x div (2 + ((2 * (2 + (((x mod (~2 + ((~x + 2) div 4))) div 2) mod 2))) mod (x + 1))))
1: (x div (2 + ((5 * (1 + (x mod 5))) mod (x + 1))))
1: (x div (2 + ((3 * (1 + (x mod (2 + (x mod 3))))) mod (x + 1))))
1: (x div (2 + ((2 * ((if (x mod 3) <= 0 then 1 else 2) + (x mod 4))) mod (x + 1))))
1: (x div (1 + ((2x + 2) mod (1 + ((x mod 5) div 2)))))
1: (x div (1 + ((2x + 4) mod (1 + ((x + 1) mod 4)))))
1: (x div (1 + ((x2 + 2x) mod (1 + (x div (3 + ((x div 2) div 3)))))))
1: (x div (1 + ((x2 + 2x) mod (1 + (if (~2 + (x div 3)) <= 0 then x else 2)))))
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1: (x div (2 + (((x + 1) * (2 - ((x div 2) mod 2))) mod 3)))
1: (x div (1 + (((x + 1) * (~1 + ((~x + 1) div 2))) mod 3)))
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1: (x div (2 + ((6 * (1 + (x div 8))) mod (x + 1))))
1: (x div (2 + ((15 * (1 + ((x div 4) mod 2))) mod (x + 1))))
1: (x div (1 + (2x2 mod 19)))
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1: (x div (1 + ((x * (x div 2)) mod 2)))
1: (x div (2 + ((x * (x div 2)) mod 3)))
1: (x div (1 + ((x * loop(\(x,i).(x2 div 3),2,x)) mod 3)))
1: (x div (2 + (2x mod 9)))
1: (x div (2 + (2x mod (1 + (x mod 4)))))
1: (x div (2 + (x2 mod 3)))
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1: (x div (2 + (x2 mod (2 * (2 + (x mod 2))))))
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1: (x div (1 + ((x div 2) mod (1 + (x mod (1 + (x mod (3 + (x mod 2)))))))))
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1: (x div (2 + ((2x mod (1 + (x div 3))) mod 2)))
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1: (x div (1 + ((x mod 4) mod (1 + (x div 2)))))
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1: (x div (1 + ((if (x mod 2) <= 0 then 2 else x) mod 4)))
1: (x div (1 + ((if (x mod 2) <= 0 then 3 else ~2) mod (x + 1))))
1: (x div (2 + ((if (x mod 2) <= 0 then 7 else x) mod 12)))
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1: (x div (2 + (loop(\(x,i).((x + 4) + (x div 2)),x,0) mod (x + 1))))
1: (x div (1 + (loop(\(x,i).(2x + i),x,0) mod (x + 1))))
1: (x div (2 + (loop(\(x,i).(2 + (x * (1 + (4 * (i mod 2))))),x,1) mod (x + 1))))
1: (x div (1 + (loop(\(x,i).(x2 + x + 2),2,12) mod (x + 1))))
1: (x div (1 + (loop(\(x,i).(1 + (2 * (x - (x div ~2)))),x,0) mod (x + 1))))
1: (x div (1 + (loop(\(x,i).(2x + 1),(2x div 3),1) mod (x + 1))))
1: (x div (1 + (loop(\(x,i).(2x + 1),x,(x mod 2)) mod (x + 1))))
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1: (x div (1 + (loop(\(x,i).(5x + ~2),x,1) mod (x + 1))))
1: (x div (1 + (loop(\(x,i).3x,(((x + ~1) div 2) mod 4),1) mod (x + 1))))
1: (x div (1 + (loop(\(x,i).(2x + 2),x,2) mod (x + 3))))
1: (x div (1 + (loop(\(x,i).((x + 1) * i),(x div 2),2) mod (x + 1))))
1: (x div (2 + (loop(\(x,i).(x * (2 + i)),4,2) mod (x + 1))))
1: (x div (1 + (loop(\(x,i).(3 * (x + i)),x,0) mod (2x + 1))))
1: (x div (2 + (loop(\(x,i).(~2x + 2),x,3) mod (2x + 1))))
1: (x div (2 + (loop(\(x,i).2x,(1 + ((1 + (8 mod (1 + (x div 2)))) div 2) - (x mod 2)),1) mod (x + 1))))
1: (x div (2 + (loop(\(x,i).2x,(2 - ((~x + 2) div 5)),1) mod (x + 1))))
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1: (x div (2 + (loop(\(x,i).2x,(x + ~1),(1 + (~x mod 4))) mod (x + 1))))
1: (x div (2 + (loop(\(x,i).2x,(x + ~1),(if (x mod (2 + (x mod 2))) <= 0 then 1 else 0)) mod (x + 1))))
1: (x div (2 + (loop(\(x,i).2x,((x + 2) mod 4),3) mod (x + 1))))
1: (x div (2 + (loop(\(x,i).2x,x,3) mod (x + 1))))
1: (x div (1 + (loop(\(x,i).2x,x,(1 + (x mod 3))) mod (2x + 1))))
1: (x div (1 + (loop(\(x,i).2x,x,(1 + (x mod (2 + (x mod 2))))) mod (2x + 1))))
1: (x div (2 + (loop(\(x,i).2x,x,(~2 + (x mod 2))) mod (x + 1))))
1: (x div (2 + (loop(\(x,i).2x,x,(~1 + (x mod 2) - ((1 + loop(\(x,i).2x,((((1 + (8 mod (1 + (x div 2)))) div 2) + (if x <= 0 then 0 else 1)) - (x mod 2)),2)) div 3))) mod (x + 1))))
1: (x div (2 + (loop(\(x,i).(x * i),x,1) mod (x + 1))))
1: (x div (2 + (loop(\(x,i).(x * i),x,2) mod (x + 1))))
1: (x div (1 + (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) mod 9)))
1: (x div (1 + (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) mod (1 + (x mod 8)))))
1: (x div (1 + (x mod (5 + ((x + 2) mod 6)))))
1: (x div (1 + (x mod (4 + (x div 2)))))
1: (x div (1 + (x mod (4 + (x mod 2)))))
1: (x div (1 + (x mod (4 - (((x + ~1) mod (1 + ((x + 2) div 3))) div 2)))))
1: (x div (1 + (x mod (3 - (x div ~2)))))
1: (x div (2 + (x mod (3 - (x mod 2)))))
1: (x div (1 + (x mod 7)))
1: (x div (2 + (x mod 7)))
1: (x div (2 + (x mod (1 + ((x * (2 - (x mod 2))) div 3)))))
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1: (x div (if (x mod 2) <= 0 then (if (x mod 7) <= 0 then 2 else x) else 1))
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1: (x div (if (x mod 4) <= 0 then 1 else (2 * (2 - (x mod 2)))))
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1: (x div (if (x mod 11) <= 0 then 2 else 1))
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1: (x div loop(\(x,i).(1 + (i div (x + 2))),x,1))
1: (x div loop(\(x,i).(x + 1),loop(\(x,i).(x div (2 - ((x * (x div 2)) mod 2))),x,x),2))
1: (x div loop(\(x,i).(~1 + (2 * i) - (loop(\(x,i).(2x + 2),x,0) mod (x + 1))),x,1))
1: (x div loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,(2x + 1)))
1: (x div loop(\(x,i).(x2 + 2x),loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1))
1: (x div loop(\(x,i).(x * (0 - i)),x,1))
1: (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 2)))
1: (x div loop(\(x,i).(x div (~2 + (x mod 2))),x,(x + 1)))
1: (x div loop(\(x,i).i,(x + ~8),1))
1: (x div loop(\(x,i).i,(x div 4),2))
1: (i div (4 + (x mod 2)))
1: (i div (1 + (2 * (if (x mod 5) <= 0 then 0 else 2))))
1: (i div (1 + (x div 2)))
1: (i div (1 + ((x div 2) mod 3)))
1: (i div (1 + (x mod 2)))
1: (i div (1 + (i mod 2)))
1: (i div (1 + (if (x mod 3) <= 0 then 0 else 2)))
1: (i div (2 - (i mod 2)))
1: (i div (~2 + (x mod ~2)))
1: (i div (2 * (~2 + (x mod 2))))
1: (compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x2 + 1))),x) div 3)
1: (compr(\x.(0 - loop(\(x,i).loop(\(x,i).loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,2x),1,(x + 1)),2,x)),x) div 3)
1: (compr(\x.(1 - (x mod (5 + ((x div 2) mod 5)))),(x + 1)) div 3)
1: (compr(\x.(1 - loop(\(x,i).(x + loop(\(x,i).(x - (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else (2x + ~1)))),x,(x + 1))),1,(2x + ~1))),x) div 2)
1: (compr(\x.(1 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(8x2 + 8x))),x) div 3)
1: (compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),(x + 1)) div (x + 1))
1: (compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + 2x + ~1))),x) div 2)
1: (compr(\x.(1 - loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),(x + 1)) div 5)
1: (compr(\x.(1 - loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),x) div 2)
1: (compr(\x.(2 - (((2 * ((1 + (x div 3)) * (1 + (x div 3)))) div 3) mod 5)),x) div 3)
1: (compr(\x.(2 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(8x - (x div 2)))),x) div 2)
1: (compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + 1))),x) div 2)
1: (compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + 2x + ~2))),x) div 2)
1: (compr(\x.(((~1 + loop(\(x,i).2x,x,2)) mod (2 + (x div 2))) div 2),x) div 4)
1: (compr(\x.((1 + ((x div 2) mod (1 + (x div (1 + (2 * (2 + (x mod 2)))))))) mod 2),(x + 1)) div 2)
1: (compr(\x.((x + 1) mod (1 + (loop(\(x,i).2x,x,x) mod (x + 2)))),x) div 2)
1: (compr(\x.((x + 1) mod (1 + loop(\(x,i).(if x <= 0 then i else (x + ~1)),x,0))),x) div 2)
1: (compr(\x.((x + 1) mod (3 * (1 + (x mod 4)))),x) div 2)
1: (compr(\x.((loop(\(x,i).(~2x + 4),(x div 2),2) - (x mod 2)) mod (x + 2)),x) div 2)
1: (compr(\x.((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) mod 10),(x + 1)) div 2)
1: (compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x) div 2)
1: (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) div 3)
1: (compr(\x.(if x <= 0 then 0 else (1 - (x mod (1 + ((~x2 + 2x + ~1) mod 8))))),x) div 2)
1: (compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x) div 2)
1: (1 mod (~x2 + x + 3))
1: (1 mod ((~x + 1) + (x mod 2)))
1: (1 mod (~2x + 7))
1: (1 mod (~2x + 3))
1: (1 mod (~4x + 5))
1: (1 mod (~x2 + 4x + ~1))
1: (1 mod (2 + (x * (2 - (x div 2)))))
1: (1 mod (~2x + 5))
1: (1 mod (~3x + 7))
1: (1 mod (~x2 + 2x + 4))
1: (1 mod (x + (7 * ((~x2 + 4x + ~4) div 2))))
1: (1 mod (2 + ((~x2 + x) div 2)))
1: (1 mod (8 + ((~x2 + x) div 2)))
1: (1 mod (~4x + 1))
1: (1 mod (1 - (2 * (2x div 5))))
1: (1 mod (1 - (2 * (((x + 1) div 2) div 2))))
1: (1 mod (1 - (3 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))))
1: (1 mod (1 - (2 * (x div 5))))
1: (1 mod (1 - (x div (1 + (x mod (1 + ((1 + (x mod (1 + (x mod (~1 + (2 * (x mod 4))))))) mod (x + 1))))))))
1: (1 mod (2 - (4 * ((1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + ~1) div 2))) div 2))))
1: (1 mod (2 - (if (x mod 4) <= 0 then x else 0)))
1: (1 mod (3 - (2x * (x mod 2))))
1: (1 mod (3 - (((x3 + 3x2 + ~4x) div 2) div 3)))
1: (1 mod (5 - ((x2 + ~x) div 2)))
1: (1 mod ((~x + 4) + ((~x + 1) mod 4)))
1: (1 mod ((~x + 1) + (x mod 3)))
1: (1 mod ((~x + 1) + (x mod 9)))
1: (1 mod ((~x + 1) + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))
1: (1 mod ((2x + 3) - (x2 div 4)))
1: (1 mod (~2 + (3 * (1 + ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)))))
1: (1 mod (~x + (2 * (2 - (x div 4)))))
1: (1 mod (~1 + (2 * (((~x + 1) + (2 * (6 + (x mod 2)))) * (if x <= 0 then 1 else 2)))))
1: (1 mod (~2 + (x * (x div 3))))
1: (1 mod (~1 + (x * ((x + 1) mod 4))))
1: (1 mod (~1 + (x * ((x + 1) mod 6))))
1: (1 mod (~x + (2 * ((if x <= 0 then 1 else x) mod 10))))
1: (1 mod ((~2x + 1) + (x2 div 4)))
1: (1 mod (~x + ((x + 1) mod 3)))
1: (1 mod (~1 + ((x2 + ~1) mod 13)))
1: (1 mod (~x + ((x + ~2) mod 8)))
1: (1 mod (~1 + ((2x + ~4) mod (2 + (x div 2)))))
1: (1 mod (~1 + ((x3 + ~x2) mod 7)))
1: (1 mod ((~3x + 3) + (x mod 2)))
1: (1 mod ((x + 1) - ((2x + 1) * (~1 + ((x2 + ~x) div 4)))))
1: (1 mod (~4x + 18))
1: (1 mod (~4x + 30))
1: (1 mod (2 * ((~2x + 4) + (x div 2))))
1: (1 mod (~8x + 2))
1: (1 mod (2 div (x - ((x2 + ~x + ~1) div 3))))
1: (1 mod (3 div (1 + (2 * loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)))))
1: (1 mod ((~x + ((x + 2) mod 6)) div 2))
1: (1 mod ((1 + ((x + ~2) * (2 + (x div 2)))) mod 5))
1: (1 mod ((x2 + 2) mod 10))
1: (1 mod ((2 + ((x2 + 2x) div 2)) mod 5))
1: (1 mod ((~x2 + 2) mod 5))
1: (1 mod ((x2 + 2x + ~2) mod 9))
1: (1 mod ((x2 + ~x + ~1) mod 7))
1: (1 mod ((x2 + ~2x + ~2) mod 7))
1: (1 mod ((x2 + ~2x + ~2) mod 9))
1: (1 mod ((~1 + ((x + ~1) * ((~x + 2) div 2))) mod 5))
1: (1 mod ((2x + ~1) mod (4 + (x div 4))))
1: (1 mod ((~1 + (x2 div 2)) mod 5))
1: (1 mod (if (~x + 2) <= 0 then (x div 2) else 2))
1: (1 mod (if (x + ~2) <= 0 then 2 else (x + ~2)))
1: (1 mod (if ((x + ~1) mod (2 + (x div 3))) <= 0 then x else 1))
1: (1 mod (if (x mod 3) <= 0 then (x + ~2) else 1))
1: (1 mod (if (x mod (4 - (x mod 2))) <= 0 then 1 else x))
1: (1 mod (if (x mod (2 + (x mod 4))) <= 0 then 1 else x))
1: (1 mod (if (x mod 8) <= 0 then 1 else x))
1: (1 mod (if x <= 0 then 2 else (if ((x + 2) mod (2 + ((x div 2) mod 2))) <= 0 then 1 else x)))
1: (1 mod loop(\(x,i).(~2x + 1),x,~1))
1: (1 mod loop(\(x,i).(~2x + 4),x,(if x <= 0 then 1 else 0)))
1: (1 mod loop(\(x,i).(2x + ~4),x,1))
1: (1 mod loop(\(x,i).x3,x2,2))
1: (1 mod loop(\(x,i).x2,(x + ~3),2))
1: (1 mod loop(\(x,i).x2,x,2))
1: (2 mod ((x + 2) - (x2 div 4)))
1: (2 mod (~2x + 11))
1: (2 mod (~2x + 3))
1: (2 mod (~x2 + x + 1))
1: (2 mod (~3x + 7))
1: (2 mod (1 + (((x mod 4) * (x div 2)) div 2)))
1: (2 mod (1 + ((x mod (3 + (x div (1 + (x mod 4))))) div 2)))
1: (2 mod (1 + ((x + ~1) mod 5)))
1: (2 mod (1 + (x2 mod (4 + (x div 4)))))
1: (2 mod (1 + (x mod (1 + (4 * (x mod 2))))))
1: (2 mod (1 + (x mod (1 + ((~x + 2) mod 4)))))
1: (2 mod (1 + (x mod (2 + ((~x + 2) mod 4)))))
1: (2 mod (1 + (x mod (2 + (12 mod (x + 1))))))
1: (2 mod (1 + (x mod (2 + (x mod 3)))))
1: (2 mod (1 + loop(\(x,i).(~2x + 2),x,0)))
1: (2 mod (~1 - (x div 4)))
1: (2 mod (~2x2 + 1))
1: (2 mod (1 - (2 * ((x + ((x div 2) mod 2)) div 2))))
1: (2 mod (1 - (2 * (x div 3))))
1: (2 mod (1 - (x * (x div 3))))
1: (2 mod (1 - (2 * (x div 5))))
1: (2 mod (1 - (x mod (~1 + (x mod ~4)))))
1: (2 mod ((~x + 2) - (2x div 3)))
1: (2 mod ((~x + 2) - ((x div 2) mod 2)))
1: (2 mod (~x2 + ~2x + 2))
1: (2 mod (2 - (3 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))))
1: (2 mod (2 - (x * (x div 3))))
1: (2 mod (2 - ((x - (x mod 3)) div 2)))
1: (2 mod (2 - ((x2 + 4x) div 3)))
1: (2 mod ((~x + 2) - (x div 2)))
1: (2 mod (~x + (x div 3) - ((x + 1) mod (1 + ((x + ~1) mod 3)))))
1: (2 mod ((~x + ~1) + (x div 8)))
1: (2 mod (~1 + (2 * ((x + ~1) div 2))))
1: (2 mod (~1 + (2 * (((~x + 2) div 2) div 3))))
1: (2 mod (~1 + (x * ((x * (x div 2)) mod 2))))
1: (2 mod (x2 + ~5))
1: (2 mod (~x + ((~x + 3) div 3)))
1: (2 mod (~x + ((~x + 2) div 2)))
1: (2 mod (~1 + ((~x + 2) div 3)))
1: (2 mod (~x + ((x + ~1) div 3)))
1: (2 mod (~1 + (x div (~2 + (x mod 2)))))
1: (2 mod (~1 + (if (x mod 2) <= 0 then x else 0)))
1: (2 mod (~1 + loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x)))
1: (2 mod (~x2 + 3x + ~1))
1: (2 mod (x + ~16))
1: (2 mod (x - loop(\(x,i).2x,x,1)))
1: (2 mod (~4x + 2))
1: (2 mod ((2x + 1) div ~7))
1: (2 mod ((x + 2) div (if x <= 0 then 1 else (x - loop(\(x,i).2x,((((1 + (8 mod (1 + (x div 2)))) div 2) + (if x <= 0 then 0 else 1)) - (x mod 2)),2)))))
1: (2 mod (if ((x + ~2) mod 6) <= 0 then x else 1))
1: (2 mod (if (x mod (2 + (x mod 2))) <= 0 then 1 else x))
1: (2 mod loop(\(x,i).(2x + ~4),2x,2))
1: (3 mod (1 + (4 div (x + 1))))
1: (3 mod (1 + ((1 + ((x + 1) div (1 + ((1 + (x2 div 3)) mod (x + 1))))) div 2)))
1: (3 mod (2 + ((2 + loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)) div 3)))
1: (3 mod (1 + ((((if (x mod 3) <= 0 then 2 else 1) * (1 + (x div 2))) div 2) div 2)))
1: (3 mod (2 + ((2x mod (~1 + (2 * (((~x + 2) div 2) mod 4)))) div 2)))
1: (3 mod (2 + ((loop(\(x,i).(2 * (x - i)),x,2) mod (x + 1)) div 2)))
1: (3 mod (2 + (x div 4)))
1: (3 mod (1 + ((2 - ((x + 1) mod 11)) mod (x + 1))))
1: (3 mod (1 + ((x div 2) mod 4)))
1: (3 mod (1 + ((x div 2) mod (1 + (x div 5)))))
1: (3 mod (1 + (if ((1 + ((x - ((x div 2) mod 3)) mod 5)) mod 3) <= 0 then (x div 3) else 1)))
1: (3 mod (1 + (if (x mod 9) <= 0 then 0 else x)))
1: (3 mod (1 + (if x <= 0 then 0 else (1 + ((1 + ((2 * (2 + (x div (1 + ((x div 2) mod (1 + (if (x mod 2) <= 0 then 6 else 1))))))) div 3)) mod 3)))))
1: (3 mod (1 + (if x <= 0 then 1 else ((x * (x div 3)) mod (1 + ((2 - (x div 2)) mod 4))))))
1: (3 mod (1 - (2 * ((1 + (x div 2)) div 2))))
1: (3 mod (1 - (2 * ((2 * (x div 2)) div 3))))
1: (3 mod (~2x + 1))
1: (3 mod (1 + (x mod 2) - loop(\(x,i).2x,x,2)))
1: (3 mod (~1 + (if ((x + (if (~2 + (x div 4)) <= 0 then 1 else 2)) mod 4) <= 0 then x else 0)))
1: (3 mod (x - ((x + 1) mod 3)))
1: (3 mod (2 * (1 + (2 * ((1 + (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * ((~x + 2) div 2)) div 2)) div 2)))))
1: (3 mod ((2 + ((3 - ((2x + ~1) mod 5)) mod (x + 1))) div 2))
1: (3 mod ((2 - (x mod (1 - (2 * (((x + 1) div 2) div 2))))) div 2))
1: (3 mod (if (x mod (1 + (x mod 4))) <= 0 then 1 else x))
1: (4 mod (1 + (2 * ((x div 2) - ((x + 1) div 3)))))
1: (4 mod (1 + (x * (5 div (x + 1)))))
1: (4 mod (1 + (2 * ((1 + (x div 4)) div 2))))
1: (4 mod (1 + (2 * ((1 + ((~2x + 2) mod (4 + (x div 4)))) div 3))))
1: (4 mod (1 + (2 * ((x div 2) div 3))))
1: (4 mod (1 + (2 * (x div 7))))
1: (4 mod (2 + (((~2x + 2) mod (4 + (x div 4))) div 2)))
1: (4 mod (1 + (x div 5)))
1: (4 mod (1 + ((x + 1) mod (1 + ((x + 1) div 3)))))
1: (4 mod (1 + ((x + 2) mod 5)))
1: (4 mod (1 + (((x + 1) * ((x + 2) + (x div 4))) mod 5)))
1: (4 mod (1 + ((x * (1 + (x div 3))) mod 5)))
1: (4 mod (1 + ((~2x + 2) mod (4 + (x div 4)))))
1: (4 mod (2 + (2x mod (4 + (x div 4)))))
1: (4 mod (1 + (x mod (2 * (1 + ((x2 + x) mod 5))))))
1: (4 mod (1 + (if x <= 0 then 2 else (x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - ((x div 2) mod 2))))),x,(x + 1))))))
1: (4 mod (~2x + 1))
1: (4 mod (~x2 + 2))
1: (4 mod ((~x + 3) - (x div 3)))
1: (4 mod (~1 + (2 * ((x + 2) div 5))))
1: (5 mod (1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + ~1) div 2))))
1: (5 mod (1 + ((1 + ((x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) div 2)) div 2)))
1: (5 mod (1 + ((x + 1) div 3)))
1: (5 mod (1 + ((2 * (x div 2)) div 3)))
1: (5 mod (1 + (((x + 1) * (if (~4 + (x div 2)) <= 0 then 1 else 2)) div 3)))
1: (5 mod (2 + ((4x mod (4 + (x div 4))) div 2)))
1: (5 mod (1 + ((x mod (1 + ((2 - (x mod 4)) mod (x + 1)))) div 2)))
1: (5 mod (1 + (x div 5)))
1: (5 mod (1 + ((2x + (x div 2)) mod 4)))
1: (5 mod (1 + ((x + 1) mod 6)))
1: (5 mod (1 + ((2 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2)) mod (x + 1))))
1: (5 mod (1 + ((x * (((x + 1) div 2) div 2)) mod 5)))
1: (5 mod (1 + (((x + 1) mod 5) mod (1 + (x div 2)))))
1: (5 mod (1 - ((~x + 2) div (1 + (2 * (2 + (x mod 2)))))))
1: (5 mod (2 - (16 mod (~x + ~1))))
1: (5 mod (~x + 16))
1: (5 mod (x - ((x + 1) mod 5)))
1: (5 mod ((~1 + (3 * ((~2x + 2) mod (4 + (x div 4))))) div 2))
1: (5 mod (if ((x + ~1) mod 4) <= 0 then x else 1))
1: (5 mod (if ((x + ~1) mod (2 + (x mod 4))) <= 0 then x else 1))
1: (5 mod (if (x mod 2) <= 0 then 2 else x))
1: (((2x + 1) + (2 * (((x + 1) + (2 * (20 mod (1 + (x div 2))))) div 2))) mod 7)
1: (((2x + 1) + (2 * ((1 + (((x + 2) * (1 + (3 * ((x2 + 2x) div 2)))) div 3)) div 3))) mod 3)
1: (((2x + 1) + (2 * ((1 + (((x + 1) * loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),(2x + ~1),1)) div 2)) div 3))) mod 3)
1: (((2x + 1) + (2 * ((1 - (x mod (1 + ((if (x mod 2) <= 0 then (x div 2) else (6x + 6)) mod 7)))) mod (x + 1)))) mod 3)
1: ((6 + ((1 + ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 7)) div 2)) mod (x + 1))
1: (((x + 1) + (((x + (x mod 2)) div 5) + ((x + 1) div 3))) mod 3)
1: ((5x + (((~x + 1) div (2 + (x div 2))) + (x div 5))) mod (1 + (x div 2)))
1: (((x + 4) + (loop(\(x,i).2x,x,(2 + (x mod 2))) div (x + 1))) mod (x + 1))
1: (((2x + 1) + ((x mod (~2 - (x div 3))) mod 2)) mod 4)
1: ((4 + ((x mod (~1 + (x div ~2))) + (x div 3))) mod (x + 1))
1: (((2x + 2) + (if x <= 0 then 1 else (2 * (((x + 2) + (((x + 1) div (2 * (1 + (x mod (2 + (x mod 2)))))) div 2) - (x mod 2)) div 2)))) mod 3)
1: ((x + 5) mod (1 + (2 * ((x div 2) div (1 + (x mod 2))))))
1: ((x + 5) mod (1 + (2 * i)))
1: ((x + 5) mod (1 + (x div 3)))
1: ((x + 6) mod (1 + i))
1: (((x + 3) + compr(\x.(~1 + ((x div 2) mod (1 + (if (x mod 2) <= 0 then 6 else 1)))),x)) mod 3)
1: (((x + 3) - (((1 + (x2 mod (3 * (if (x + ~6) <= 0 then 1 else 2)))) div 2) div 2)) mod 3)
1: ((2 + (x mod 2) - (x mod (4 * (2 - (x mod 2))))) mod (1 + (x div 2)))
1: ((4 + ((x + 1) div 3) - ((~x + 2) div (2 - (x div ~4)))) mod 3)
1: ((2 + ((x div (1 + (2 * (2 + (x mod 2))))) + (if x <= 0 then 0 else 1)) - ((x div 2) mod 2)) mod (x + 1))
1: ((3 + loop(\(x,i).2x,x,1) - loop(\(x,i).3x,x,1)) mod (3x + 2))
1: ((x + 9) mod (1 + (x div 2)))
1: (((x + 1) + (3 * (0 - (x mod 3)))) mod (1 + (x div 2)))
1: (((x + 1) + (2 * (2 - (2x div (2 + ((x + ~1) mod 3)))))) mod 4)
1: (((x + 1) + (3 * ((1 + (2 * (x - (2 div (~8 + (x div 2)))))) div 5))) mod 2)
1: (((x + 1) + (3 * ((x + 1) div 5))) mod (2 + (x div 2)))
1: (((x + 1) + ((((x + ~1) div 2) div 2) * (x div 5))) mod 4)
1: (((x + 1) + (2 * (x div 3))) mod 4)
1: (((x + 1) + (2 * (x div 3))) mod 7)
1: (((x + 1) + (2 * (x mod 9))) mod (1 + (x div 2)))
1: (((x + 1) + (2 * (x mod ((x + ~1) - (x mod 12))))) mod (1 + (x div 2)))
1: (((x + 1) + ((if ((x + ~1) mod 3) <= 0 then 1 else x) * (x mod 2))) mod (2x + 1))
1: ((1 + ((2 * (if x <= 0 then 0 else (1 + ((x div (2 + (x div (1 + ((x mod (1 + ((2 - (x mod 4)) mod (x + 1)))) div 2))))) + (x mod 2))))) + (x mod 2))) mod 3)
1: (((x2 + 1) + (x div 2)) mod 5)
1: (((x + 1) + (((x + 1) + ((x + loop(\(x,i).(x + (x div 3)),2,(x + ~1))) div 2)) div 2)) mod 3)
1: (((x + 1) + (((x + 1) + (x div (1 - (2 * ((~x + 1) div (2 + (x div 2))))))) div 2)) mod 5)
1: (((x + 1) + (((x + ~1) + ((2 * ((x + 3) + compr(\x.(1 - (x mod (1 + (2 * (x div (2 + ((x div 2) div 3))))))),x))) div 3)) div 2)) mod 3)
1: (((x + 1) + ((x + (x div 2)) div 4)) mod 5)
1: (((x + 1) + ((x + (x div 12)) div 3)) mod 2)
1: (((x + 1) + (((x + 1) - (2 * ((~2x + 1) div 3))) div 3)) mod 5)
1: (((x + 2) + ((x - (if (x mod (1 + ((x + 2) div 5))) <= 0 then (if x <= 0 then 0 else 1) else 2)) div 4)) mod 3)
1: (((x + 1) + ((2 * (1 + ((x3 + 3x2 + 2x) div 5))) div 3)) mod 3)
1: ((3 + ((2x + 2) div 5)) mod (x + 1))
1: (((x + 1) + (15x div (x + 5))) mod (x + 2))
1: (((x + 1) + (((x div 2) * (x div 2)) div (x + 2))) mod 2)
1: (((x + 1) + (((x + 1) * (if ((x + ~1) mod 4) <= 0 then 1 else 2)) div 3)) mod 2)
1: ((3 + (x2 div 2)) mod (x + 4))
1: ((1 + ((((1 + (x mod (1 + (x mod (2 * (2 + ((x div 2) mod 2))))))) mod (x + 1)) div 2) + (x mod 2))) mod (x + 1))
1: ((1 + ((((1 + (x mod (2 * (1 + (x mod (2 * (1 + (x mod (1 + (x div 3)))))))))) mod (x + 1)) div 2) + (x mod 2))) mod (x + 1))
1: (((x + 2) + ((x mod (1 + (x div 4))) div 2)) mod (1 + (x div 2)))
1: (((x + 1) + (loop(\(x,i).2x,x,(x + 1)) div (x + 2))) mod 3)
1: ((1 + ((x div 2) + (x div 3))) mod 3)
1: (((2x + 2) + (x div 2)) mod 6)
1: (((x + 2) + (x div 3)) mod 5)
1: ((4 + (x div 4)) mod (x + 1))
1: (((x + 1) + (x div 4)) mod 3)
1: (((x + 5) + (x div 4)) mod (1 + (x div 3)))
1: (((x + 1) + (x div 5)) mod (1 + (x div 3)))
1: (((x + 1) + (x div (1 + ((2x + 1) mod 9)))) mod 2)
1: (((x + 2) + (x div (2 + ((~x + 2) mod 4)))) mod 5)
1: (((x + 1) + (x div (2 + ((x2 + 2x) mod 6)))) mod (1 + (x div 2)))
1: ((4 + (x div 8)) mod (1 + (2 * (x div 2))))
1: (((x + 1) + (x div 8)) mod 5)
1: ((1 + ((x div (2 * (~2 + (x mod 2)))) + (x div 3))) mod 2)
1: (((x + 1) + (2 mod (1 + (x div 4)))) mod 9)
1: ((1 + (((x + 1) mod 4) + (x mod 9))) mod (x + 1))
1: ((3 + (x3 mod 7)) mod (x + 1))
1: ((1 + ((((x + 1) div (1 + ((2x + ~1) mod 9))) mod 2) + (x mod 2))) mod (x + 1))
1: ((2 + ((((~x + 2) mod 11) mod 2) + (x div 5))) mod (x + 1))
1: ((1 + (((x mod (2 + (x mod 2))) mod 2) + (x mod 2))) mod (x + 1))
1: ((1 + (((x mod (~5 + ((x div 2) mod 2))) mod 2) + (x mod 2))) mod (x + 1))
1: ((3 + (x mod 2)) mod (x + 1))
1: (((2x + 1) + (x mod 2)) mod (2 + (x div 3)))
1: (((x + 2) + (x mod 2)) mod (1 + (x div 3)))
1: (((x + 1) + (if (x + ~3) <= 0 then x else 4)) mod 10)
1: ((1 + ((if ((x + ~2) mod 5) <= 0 then 2 else 0) + (x mod 2))) mod 4)
1: ((4 + (if (x mod 2) <= 0 then 1 else 8)) mod (x + 1))
1: (((x + 1) + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x)) mod 3)
1: ((4 + loop(\(x,i).3x,x,1)) mod (x + 1))
1: ((2 + (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) + (3 * loop(\(x,i).(2x + 2),x,2)))) mod (x + 1))
1: (((x + 1) + loop(\(x,i).loop(\(x,i).(2 - (x mod 2)),(x mod 2),(x div 2)),x,x)) mod 2)
1: ((x + 3) mod (4 + ((x div 4) + ((x + 1) mod 2))))
1: ((x + 3) mod (2 + ((if (~2 + (x div 2)) <= 0 then 1 else 2) + (x mod 2))))
1: ((x + 3) mod (1 + (2 * (2 + (if (x mod 3) <= 0 then 0 else 2)))))
1: ((x + 3) mod (1 + (2 * ((if (x mod 2) <= 0 then 1 else x) mod 3))))
1: ((x + 3) mod (1 + (2 * (x mod 6))))
1: ((x + 3) mod (1 + (((x + 2) + (x div (2 + (16 mod (1 + (x div 2)))))) div 3)))
1: ((x + 3) mod (1 + ((x + 2) div 5)))
1: ((x + 3) mod (1 + (2x div (2 + (x div 2)))))
1: ((x + 3) mod (2 + (x2 div (x + 2))))
1: ((x + 3) mod (1 + (x div 5)))
1: ((x + 3) mod (1 + ((1 + (loop(\(x,i).(~2x + 1),x,(x + 1)) div 3)) mod 3)))
1: ((x + 3) mod (2 + ((x + 1) mod (1 + (x div 4)))))
1: ((x + 3) mod (2 + ((~x + 1) mod 4)))
1: ((x + 3) mod (1 + i))
1: ((x + 3) mod (2x + ~5))
1: ((x + 3) mod 14)
1: ((x + 4) mod (3 + (x div 5)))
1: ((x + 4) mod 13)
1: ((x + 4) mod (1 + (2 * i)))
1: ((x + 4) mod (1 + ((2x - (x mod 2)) div 3)))
1: ((x + 4) mod (1 + (x div 3)))
1: ((x + 4) mod (1 + (x div 4)))
1: ((x + 4) mod (~1 + (2 * (x mod 4))))
1: ((x + 4) mod (~2 + ((~x + 2) div 5)))
1: ((1 + (compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x) + (x div 4))) mod (1 + (((x + 1) div 2) div 2)))
1: (((x + 1) - ((x3 div 8) mod 2)) mod 3)
1: (((x + 2) - (x div (~2 + (x mod ~2)))) mod (1 + (x div 3)))
1: (((x + 2) - ((x + 4) mod 13)) mod (x + 2))
1: ((3 - (((x + 2) div (2 - (x mod ~4))) mod 2)) mod (x + 1))
1: ((4 - (((x + ~1) div 3) mod 2)) mod (1 + (x div 2)))
1: (((x + 2) - ((x div 4) mod 2)) mod 3)
1: ((2 + (x mod 3) - (((x div ~3) mod 3) mod 2)) mod 3)
1: ((4 - (x mod (~2 - (if (~2 + (x div 2)) <= 0 then 2 else 1)))) mod 3)
1: ((~x + 3) mod 5)
1: ((~x + 3) mod (3 + (x div 4)))
1: ((~x + 3) mod 9)
1: ((~x + 3) mod (1 + (((x + 1) div 2) div 2)))
1: ((~x + 3) mod (1 + (x div 3)))
1: ((~x + 3) mod (2 - (x div ~2)))
1: ((~x + 3) mod (2x + ~17))
1: ((~x + 3) mod (2x2 + ~1))
1: ((~x + 3) mod 12)
1: ((~x + 3) mod loop(\(x,i).i,(x + ~6),1))
1: ((~x + 3) mod loop(\(x,i).i,(x div 4),1))
1: ((~x + 4) mod (4 + (x mod 2)))
1: ((~x + 4) mod (1 + (x div 2)))
1: ((~x + 4) mod (2 + (x div 2)))
1: ((~x + 4) mod (2 - (x div ~2)))
1: ((~x + 4) mod (~1 + ((~x + 2) div 4)))
1: ((~x + 4) mod 6)
1: ((~x + 4) mod 10)
1: ((~x + 4) mod (2x + 4))
1: ((~x + 5) mod (1 + (x div 2)))
1: ((2 + (2 * ((x mod (~2 - (x mod 7))) mod 2)) - (x mod 2)) mod (x + 1))
1: ((2 + ((2 * (1 + ((1 + ((x + 1) div (1 + (x div (1 + (2 * (1 + (x mod 3)))))))) div 2))) div 3) - (x mod 2)) mod 2)
1: ((2 + ((2 * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,(loop(\(x,i).(2 * (x - i)),x,2) mod (x + 1))) mod (x + 1)),x))) div 3) - (x mod 2)) mod (x + 1))
1: ((2 + (x mod (1 + ((~2x + 1) mod 5))) - (x mod 2)) mod (x + 1))
1: ((2 + (if ((x + 2) mod 6) <= 0 then (x div 4) else 0) - (x mod 2)) mod (x + 1))
1: (((x + 4) - ((~1 + (x div 2)) div 2)) mod (x + 1))
1: ((0 + (2 * (1 + ((loop(\(x,i).2x,x,2) mod (2 + (x div 4))) div 2))) - (x mod 2)) mod (x + 1))
1: ((1 + loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) - ((x div 2) + (x * (x mod 2)))) mod (x + 1))
1: ((~x + 17) mod (1 + (x div 2)))
1: ((~x + 17) mod (1 + (x div 3)))
1: (((x + ~1) + (2 * (loop(\(x,i).(11x + 10),x,4) div (x + 1)))) mod 3)
1: ((1 + (2 * (x mod 4)) - (x mod 2)) mod (1 + (x div 4)))
1: (((2x + 1) - ((x div 2) mod 2)) mod 5)
1: (((2x + 1) - (x mod 6)) mod (1 + ((x + 1) div 3)))
1: (((x2 + ~1) + (2 div (x + 1))) mod 7)
1: (((~x + 1) + ((~x + 2) div 2)) mod 4)
1: ((2 + (x2 div 2) - (x mod 2)) mod 9)
1: ((1 + (x div 2) - (x div 3)) mod 3)
1: ((2 + (x div 2) - (x mod 2)) mod (1 + (((1 + (x div 2)) div 2) div 2)))
1: ((1 + (x div 3) - (x div (~1 + ((~x + 1) div 3)))) mod 3)
1: ((1 + ((1 + (loop(\(x,i).2x,((x + ~1) div 2),1) mod (x + 2))) mod 2) - (x mod 2)) mod (x + 1))
1: ((1 + ((x * (x div 3)) mod (1 + ((2 - (x div 2)) mod 4))) - (x mod 2)) mod (2 + (x mod 2)))
1: ((1 + ((x div (1 + (2 * ((x div 2) mod 2)))) mod 2) - (x mod 2)) mod (x + 1))
1: ((2 + (x mod 2) - (x div 2)) mod (x + 1))
1: (((~x + 1) + (x mod 2)) mod (1 + ((1 + (x div 2)) div 3)))
1: ((1 + (if ((x + ~1) mod 3) <= 0 then 1 else x) - (x mod 2)) mod (x + 1))
1: (((x + 1) - (2 * ((1 + ((3 * ((x + 1) div 2)) div 2)) div 2))) mod (x + 1))
1: (((x + 1) - (2 * ((x + (x div 3)) div 5))) mod 3)
1: (((x + 2) - ((0 - (loop(\(x,i).(2x + 2),x,0) mod (x + 1))) div 5)) mod (x + 1))
1: (((x + 2) - (((~x + ~1) + (2 * ((x - ((x div (0 - (2 * (2 + (2x mod 5))))) mod 2)) mod 2))) div 2)) mod 3)
1: (((x + 2) - (((~x + ~1) + (x mod 2)) div 5)) mod (x + 1))
1: (((x + 2) - ((3x + ~3) div (2 + (x div 4)))) mod 3)
1: ((2x - (x3 div (x + 4))) mod (x + 1))
1: (((x + 1) - (x div 4)) mod 5)
1: (7 mod (1 + (2 * ((2x + ~2) mod 5))))
1: (7 mod (2 + ((1 + ((3 * ((3 * (1 + ((3 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)) div 2))) div 2)) div 2)) div 2)))
1: (7 mod (1 + (x div (1 + (2 * (1 + ((~x + 2) mod 4)))))))
1: (7 mod (1 - (((2 - (2x mod (4 + (x div 4)))) mod (~x + ~1)) div 3)))
1: (7 mod ((x + 1) - ((x div 2) mod 2)))
1: (7 mod (3 * (1 + (if (x mod 2) <= 0 then ((1 + (x div 2)) mod 6) else x))))
1: ((3x + 1) mod (2 + (x div 4)))
1: ((3x + 2) mod 7)
1: ((3x + 2) mod (1 + ((x + 1) div 2)))
1: ((3x + 2) mod 11)
1: (9 mod (2 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))
1: (9 mod (1 + compr(\x.(loop(\(x,i).x2,2,10) mod (x + 1)),x)))
1: (9 mod (1 - (2 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2))))
1: (9 mod (if ((x + 1) mod 8) <= 0 then x else 1))
1: ((x + 8) mod (1 + i))
1: (13 mod (1 + ((x + 1) div 3)))
1: ((5x + 4) mod 12)
1: ((5x + 4) mod 18)
1: ((5x + 6) mod 7)
1: (((5 * (if x <= 0 then 1 else 2)) + (x div 7)) mod 9)
1: ((5x + 1) mod 9)
1: ((5x + 1) mod 51)
1: ((5x + 2) mod ((x2 + 1) + (x div 2)))
1: ((1 + (2 * ((x + 1) + (((x + 1) + (((x + 1) + ((4x + 1) div (2 + (x div 8)))) div 2)) div 2)))) mod 3)
1: ((1 + (2 * ((x + 1) + (((x + 2) + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)) div 3)))) mod (x + 1))
1: ((1 + (2 * (1 + (((1 + (x div 3)) div (2 * (1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + ((x - (x mod 5)) div 2)))))) + (x mod 2))))) mod (x + 1))
1: ((1 + (2 * ((x + 1) + (loop(\(x,i).(4 * (2x - (x mod 2))),x,1) div 3)))) mod (x + 1))
1: ((1 + (2 * ((x + 1) + (x mod (1 + (loop(\(x,i).2x,x,(1 + (x mod 2))) mod (2x + 1))))))) mod (x + 1))
1: ((1 + (2 * (1 + ((if x <= 0 then 0 else (1 + ((2x mod (2 + (x div 3))) mod 2))) + (x mod 2))))) mod (x + 1))
1: ((1 + (2 * (1 + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) + (((x + 1) div 2) div 2))))) mod (x + 1))
1: ((1 + (2 * ((2x + 1) - ((x + (x mod 3)) div 7)))) mod 3)
1: (((7 * (if x <= 0 then 1 else 2)) + (x mod 3)) mod (x + 1))
1: ((1 + (9 * (x div 4))) mod (x + 1))
1: ((x + (2 * (1 + (2 * (x - ((x mod (2 + (6 mod (1 + (x div 2))))) div 2)))))) mod 3)
1: ((17x + (x div 2)) mod (1 + loop(\(x,i).loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)),2,x)))
1: ((1 + (2 * (1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 - (x div (~1 + ((~x + 1) div 3)))))))) mod 3)
1: ((1 + (2 * ((2 * ((loop(\(x,i).2x,x,1) mod (x + 1)) div 2)) + (x mod 2)))) mod (x + 1))
1: ((1 + (2 * (1 + (2 * (x mod 2))))) mod (x + 1))
1: ((2 + (x * (1 + (x * loop(\(x,i).(6x2 + 2),2,x))))) mod (x + 1))
1: ((x3 + 2x + 1) mod (1 + (x div 2)))
1: ((1 + (2 * (x2 + (x div 2)))) mod 5)
1: ((1 + (2 * (1 + (2 div (1 + (x mod (2 + (x mod 4)))))))) mod (x + 1))
1: ((1 + (2 * (x + ((x + (2x div (2 + (x div 2)))) div 2)))) mod 5)
1: ((1 + (2 * (1 + ((1 + (x mod (1 + (if x <= 0 then 0 else (1 + (x div (1 + (2 * (1 + (((x2 + ~x + 2) mod (x + 4)) div 2)))))))))) div 2)))) mod 3)
1: ((1 + (2 * (2 + (x2 div 19)))) mod (x + 1))
1: ((1 + (2 * (1 + ((((2x + 2) mod (2 + (x div 2))) div 2) div 2)))) mod (x + 1))
1: ((1 + (2 * (2 + ((x mod 15) div 2)))) mod (x + 2))
1: ((1 + (5 * (2 + (x div 2)))) mod (x + 1))
1: ((1 + ((x + ~2) * (2 + (x div 2)))) mod 5)
1: ((1 + (x * (1 + (x div 4)))) mod 4)
1: ((1 + (x * (1 + ((x div ~2) mod 2)))) mod 3)
1: ((1 + (2 * (1 + ((3x mod 7) mod 3)))) mod (x + 1))
1: ((1 + (2 * (1 + (x mod 2)))) mod (1 + (x div 2)))
1: ((1 + (2 * (2 + (x mod (2 + ((4 * (x div 3)) div 3)))))) mod (x + 1))
1: ((1 + (x * ((if (~2 + (x div 4)) <= 0 then 1 else 2) + (x div 3)))) mod 3)
1: ((1 + (2 * (2 + (if (x + ~6) <= 0 then 0 else 2)))) mod (1 + (x div 2)))
1: ((1 + (3 * (2 + (if (x mod 2) <= 0 then 1 else 8)))) mod (x + 1))
1: ((1 + (2 * (1 + (if x <= 0 then 0 else (1 + (((x + 1) div (2 + (x mod 2))) div 2)))))) mod (x + 1))
1: ((1 + (2 * (1 + (if x <= 0 then 0 else (1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))))) mod (x + 1))
1: ((1 + ((x + 2) * (x + (if x <= 0 then 1 else (x div 4))))) mod 3)
1: ((2x + 3) mod (~1 + (4 * (1 + (((x2 mod (x + 5)) div 2) mod 2)))))
1: ((2x + 3) mod loop(\(x,i).i,(2x mod (4 + (x div 4))),1))
1: ((x2 + x + 1) mod (1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))
1: ((x2 + x + 1) mod (1 + loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)))
1: ((x2 + x + 2) mod 9)
1: (((x2 + x) + (x mod 2)) mod 8)
1: ((3x + 7) mod (1 + (x div 3)))
1: ((x2 + 2x + 1) mod 5)
1: ((x2 + 2x + 1) mod (x2 + x + 10))
1: ((x2 + 2x + 1) mod (1 + (2 * (1 + (x div 8)))))
1: ((x2 + 2x + 1) mod (1 + (2 * ((x + ~1) mod 3))))
1: ((x2 + 2x + 1) mod (1 + ((x - ((x div 3) mod 3)) div 2)))
1: ((x2 + 2x + 1) mod (1 + ((2x + 2) div 5)))
1: ((x2 + 2x + 1) mod (2 + (x div 2)))
1: ((x2 + 2x + 1) mod (~1 + loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)))
1: ((x2 + 2x + 1) mod 10)
1: ((x2 + 2x + 1) mod (6 * (~2 + (x mod 2))))
1: ((x2 + 2x + 1) mod loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then 1 else 0)),x,(x + 2)))
1: ((x2 + 2x + 1) mod loop(\(x,i).(1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),2,x))
1: ((x2 + 2x + 2) mod (1 + ((x + (x2 mod 3)) div 4)))
1: ((x2 + 2x + 2) mod (1 + ((x + 2) mod 4)))
1: ((x2 + 2x + 2) mod 12)
1: ((x2 + 2x + 2) mod (5 * (~1 + (2 * (6 + (x mod 2))))))
1: ((x2 + 2x + 4) mod 9)
1: (((x2 + 2x + 1) + (x div 2)) mod 7)
1: ((x2 + 2x + 8) mod (1 + (x div 3)))
1: ((x2 + 2x + 8) mod (2 + (x div 3)))
1: ((1 + ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) * (x - (if (x mod 15) <= 0 then 2 else 0)))) mod (x + 1))
1: ((1 + ((1 - (x div 3)) * (x div 2))) mod 3)
1: ((~2x + 3) mod (1 + (x div 2)))
1: ((~4x + 5) mod (1 + (x div 3)))
1: ((2 + ((~x + 1) * (x div 2))) mod 4)
1: ((~x2 + x + 1) mod (2 + (x div 4)))
1: ((1 + (2 * (2 - (2 div (1 + (x div 4)))))) mod (x + 1))
1: ((1 + ((2 - (x div 2)) * (x mod 2))) mod (x + 2))
1: ((1 + (3 * (2 - (x mod 2)))) mod (1 + (x div 2)))
1: ((2 + ((x + 1) * (2 - (x mod 2)))) mod 10)
1: ((1 + (2 * (2 - (x mod ~7)))) mod (1 + (x div 2)))
1: ((~2x + 5) mod (1 + (2x mod (2 + (x div 4)))))
1: ((2 + ((~x + 2) * (x div 2))) mod 5)
1: ((1 + (3 * (((x div ~3) mod 2) - (x mod 2)))) mod (x + 1))
1: ((x2 + ~x + 2) mod 5)
1: ((x2 + ~x + 2) mod 10)
1: ((x2 + ~x + 4) mod (1 + (x div 4)))
1: ((x2 + ~2x + 1) mod 9)
1: ((1 + (2 * ((x + 1) - ((x mod (1 + ((x div 4) + (x mod 2)))) div 2)))) mod (x + 1))
1: ((1 + (2 * ((x + 1) - loop(\(x,i).(1 + (((2 + ((x2 div 2) div 5)) div 3) + (if x <= 0 then 0 else 1))),2,x)))) mod (x + 1))
1: ((3x2 + ~4x + 1) mod 9)
1: ((1 + ((x + 2) * (x - (32 div (x + 1))))) mod 3)
1: ((18 + (x div 3)) mod (x + 1))
1: ((9x + 1) mod (1 + (x div 2)))
1: (37 mod (x + 1))
1: (69 mod (x2 + 1))
1: (69 mod (x + 1))
1: ((13x + 6) mod 9)
1: ((1 + (4 * (2x + (x div 2)))) mod (1 + (x div 2)))
1: ((1 + (2 * ((1 + (x div 8)) * (x div 7)))) mod (x + 1))
1: ((1 + (3 * ((2 + (x mod 4)) * (x mod 2)))) mod (x + 1))
1: ((1 + (4 * (2 + (x mod (2 + (x mod 4)))))) mod (x + 1))
1: ((1 + (4 * (1 + (x mod (2 * (2 + (x mod 4))))))) mod (x + 1))
1: ((1 + (4 * (2x + (if (~2 + (x div 2)) <= 0 then 0 else 1)))) mod (1 + (x div 2)))
1: ((1 + (4 * (1 + loop(\(x,i).x3,2,4)))) mod (x + 1))
1: ((11x + 10) mod 15)
1: ((4x + 9) mod (1 + (x div 3)))
1: ((5x + 8) mod (1 + (x div 2)))
1: ((1 + (6 * (0 - (x mod 4)))) mod (x + 1))
1: ((1 + ((~x2 + x) * (x div 2))) mod 3)
1: ((1 + (4 * (2 - (x div (~1 + ((~x + 1) div 3)))))) mod (x + 1))
1: ((1 + (6 * ((x + 1) - (x mod (1 - (2 * (2 + (x mod 3)))))))) mod (x + 1))
1: ((32x + 1) mod (2x + 2))
1: ((1 + (16 * ((1 + ((((5x3 + 2x2 + ~3x) div 2) div 3) div 2)) div 2))) mod 3)
1: ((8x + 1) mod (1 + (x div 2)))
1: ((20x + 1) mod (1 + (x div 2)))
1: ((18x + 1) mod (x + 5))
1: ((8x2 + 1) mod (2 + (x div 2)))
1: ((x5 + 1) mod 11)
1: ((1 + (2x * (x div 2))) mod (1 + ((1 + (x div 2)) div 3)))
1: ((1 + (x * ((x div 3) * (x div 4)))) mod 3)
1: ((1 + (4 * ((x2 + x) mod 3))) mod (1 + (x div 2)))
1: ((1 + (4 * ((x * (x div 2)) mod 2))) mod (x + 1))
1: ((1 + (4 * ((x mod (1 + (2 * (if (x mod 4) <= 0 then 0 else 2)))) mod 2))) mod (x + 1))
1: ((1 + (4 * (if (x mod 2) <= 0 then (14x + 28) else 2))) mod (x + 1))
1: ((1 + (14 * (if (x mod 4) <= 0 then 0 else 2))) mod (x + 1))
1: ((x + (9 * (if x <= 0 then 1 else 2))) mod (1 + ((x + 1) div 3)))
1: ((1 + (4 * loop(\(x,i).2x,(x div 2),2))) mod (x + 1))
1: ((4x + 1) mod 13)
1: ((4x + 1) mod (1 + (x div 2)))
1: ((4x + 1) mod 11)
1: ((4x + 1) mod (~1 + loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)))
1: ((4x + 1) mod ((x + 1) - (2 * (x div 3))))
1: ((6x + 1) mod (4 + (x div 4)))
1: ((2x2 + 1) mod (x + 5))
1: ((2x2 + 1) mod (2 + (x div 2)))
1: ((2x2 + (x mod 2)) mod 9)
1: ((x3 + 1) mod (x + 4))
1: ((x3 + 1) mod (1 + (x div 2)))
1: ((x3 + 1) mod (2 + (x div 2)))
1: ((x3 + 2) mod 5)
1: ((1 + (2 * (((x + 1) + (2 * ((1 + ((loop(\(x,i).x2,1,(5x + 1)) div 3) div 2)) div 2))) div 2))) mod (x + 1))
1: ((x + (2 * (((x + 2) + (3 * (x div 2))) div (1 + (x div 4))))) mod 3)
1: ((1 + (2 * ((1 + ((x mod 4) + (x mod 3))) div 2))) mod (x + 1))
1: ((1 + (2 * ((((x + 1) div (1 + (x div 5))) + (x div 3)) div 2))) mod (x + 1))
1: ((x + (2 * ((x + ((x3 + 2x) div 3)) div (x + 2)))) mod 4)
1: ((1 + (2 * ((1 + ((x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) div 2)) div 2))) mod 7)
1: ((1 + (((x + (x div 2)) div 2) * (x div 2))) mod 2)
1: ((1 + (3 * ((1 + (x div 4)) div 2))) mod (x + 1))
1: ((1 + (2 * ((1 + ((5 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 19)) div 2))) mod (x + 1))
1: ((1 + (((1 + (2x mod (2 + (x div 3)))) div 2) * (loop(\(x,i).(2x + 2),x,0) mod (x + 1)))) mod (x + 1))
1: ((1 + (2 * ((1 + (x mod (2 + ((2 - (2x mod 5)) mod (x + 1))))) div 2))) mod (x + 1))
1: ((1 + (2 * ((1 + loop(\(x,i).(((3 * (x div 4)) div 2) + (x div 2)),2,x)) div 2))) mod (x + 1))
1: ((1 + (2 * ((x + 1) div (2 * (2 + ((x div 2) mod 2)))))) mod (x + 1))
1: ((1 + (((x + 2) div 3) * ((x + ~1) div 2))) mod 2)
1: ((1 + (2 * ((~x + (x mod 2)) div 3))) mod (x + 1))
1: ((1 + (2 * (((if x <= 0 then 1 else (2 * (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))))) - (x mod 2)) div 2))) mod (x + 1))
1: ((1 + (((x + ~2) div 3) * (x div 2))) mod 2)
1: ((1 + (x * ((x - ((x div 2) div 3)) div 2))) mod 2)
1: ((1 + (2 * ((x - (x div 3)) div 3))) mod 5)
1: ((1 + (2 * ((2 * (1 + ((1 + (x div (2 + ((5 * (1 + (x mod 5))) mod (x + 1))))) div 2))) div (1 + (x mod (1 + (x div 3))))))) mod (x + 1))
1: ((1 + (3 * ((x2 + x) div 2))) mod 10)
1: ((1 + (2 * ((3 * (x - (2 * ((if (x mod 3) <= 0 then (5 * (if x <= 0 then 1 else 2)) else 1) * (2 - (x mod 2)))))) div 2))) mod 7)
1: ((1 + (2 * ((8x + 8) div 5))) mod (x + 1))
1: ((1 + (2 * ((4 * ((2x + 1) div 9)) div 3))) mod (x + 1))
1: ((1 + (2 * ((4 * ((x - (x div 3)) div 3)) div 3))) mod (x + 1))
1: ((1 + (2 * ((4 * ((2x + 2) div 7)) div 3))) mod (x + 1))
1: ((x + (x * (x3 div (4x + 2)))) mod 3)
1: ((1 + (2 * (2x div 3))) mod (1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))
1: ((x + (2 * (2x div 3))) mod 14)
1: ((1 + (2 * (x2 div (1 + (3 * (2 + (x mod 2))))))) mod (x + 1))
1: ((1 + (2 * (((~1 + (6 * (1 + (x div (4 + (x div (1 + ((x + ~1) mod 5)))))))) div 2) div 2))) mod (x + 1))
1: ((1 + (2 * (((1 + (2 * ((x + 1) + (loop(\(x,i).(4 * (2x - (x mod 2))),x,1) div 3)))) mod (x + 1)) div 2))) mod (x + 1))
1: ((1 + (2 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))) mod (1 + (x div 2)))
1: ((1 + (2 * (((2 - (if (x mod 5) <= 0 then 1 else (x div 3))) mod (x + 1)) div 2))) mod 3)
1: ((1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (2 * ((((x + 1) div 2) div 2) div 2))))) mod 4)
1: ((1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div (2 - ((x div 2) mod 2)))))) mod 9)
1: ((1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 - (2 * ((((x + 1) div 2) div 2) div 2))))) mod 7)
1: ((1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (~1 + (2 * (x mod 7))))) mod 4)
1: ((1 + ((2x + ~4) * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2))) mod (2 + (((x + 1) div 2) div 2)))
1: ((1 + (x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2))) mod 3)
1: ((1 + (2 * ((2x mod (2 - (x div (~1 - (if (x + ~4) <= 0 then 0 else 2))))) div 2))) mod (x + 1))
1: ((1 + (2 * ((x2 mod 17) div 2))) mod 3)
1: ((1 + (9 * ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3))) mod (x + 1))
1: ((1 + (2 * ((x mod (1 + (2 * (1 + (2 * (x mod 2)))))) div 2))) mod (x + 1))
1: ((1 + ((x + 1) * ((x mod (1 + (x div 4))) div 2))) mod 6)
1: ((1 + (2 * ((x mod (~2 + ((~x + 1) div 3))) div 2))) mod (x + 1))
1: ((1 + (2 * (x div 2))) mod 5)
1: ((1 + ((x + 2) * (x div 2))) mod 3)
1: ((1 + (x * (x div 2))) mod 3)
1: ((2 + (x * (x div 2))) mod 4)
1: ((2 + (x * (x div 2))) mod (~1 + ((x2 + ~x) mod 8)))
1: ((1 + (2 * (x div 3))) mod (1 + (x div 4)))
1: ((1 + ((x div 3) * (x div 2))) mod 3)
1: ((1 + (2 * (x div 4))) mod (1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))
1: ((2 + ((x + 2) * (x div 4))) mod 3)
1: ((x + (2 * (x div (4 + (x mod 4))))) mod 5)
1: ((1 + (x * (x div (2 + (x mod 3))))) mod 2)
1: ((1 + (2 * ((1 + (x * ((1 + loop(\(x,i).((x * (x mod 2)) + (x div 2)),x,x)) mod 2))) mod (x + 1)))) mod (x + 1))
1: ((1 + (3 * ((2x + 1) mod 7))) mod (x + 1))
1: ((1 + (x * ((1 + (x div 2)) mod 2))) mod (1 + (x div 3)))
1: ((1 + (2 * ((1 + (x div 3)) mod (1 + (x mod (1 + (x div 3))))))) mod (x + 1))
1: ((1 + (2 * ((1 + (x div (1 + (x mod (4 + (x div 2)))))) mod 2))) mod (x + 1))
1: ((1 + (2 * ((1 + ((x * (1 - ((x3 div 8) mod 2))) mod 5)) mod 3))) mod (x + 1))
1: ((1 + (2 * ((1 + (if x <= 0 then 2 else (1 - ((4 * (x div 3)) div 3)))) mod (x + 1)))) mod (x + 1))
1: ((1 + (x * ((1 + loop(\(x,i).((x * (x mod 2)) + (x div 2)),x,x)) mod 2))) mod (x + 1))
1: ((1 + (2 * ((x + loop(\(x,i).2x,(2 - (x mod 2)),(x div 2))) mod 5))) mod (x + 1))
1: ((1 + (2 * ((x + 1) mod (1 + (2 * (((x div 2) - (x mod 3)) div 2)))))) mod 3)
1: ((1 + (2 * ((x + 1) mod (1 + (2 * ((3 * (x div 5)) div 2)))))) mod (x + 1))
1: ((1 + ((x + 1) * ((x + 2) mod 7))) mod 3)
1: ((1 + (3 * ((1 - ((2x + ~1) mod (4 + (x div 4)))) mod (x + 3)))) mod (x + 1))
1: ((1 + (2 * ((1 - (x mod (4 * (2 - (x mod 2))))) mod (x + 1)))) mod (x + 1))
1: ((1 + (7 * ((~x + 1) mod 4))) mod (x + 1))
1: ((1 + (2 * ((~x + 1) mod 8))) mod (1 + (x div 2)))
1: ((1 + (2 * ((~x + 1) mod 10))) mod (1 + (x div 2)))
1: ((1 + (2 * (((~x + 2) + ((if (x + ~2) <= 0 then 1 else ((x + 2) div 5)) mod 2)) mod (1 + (x div 3))))) mod (x + 1))
1: ((1 + (2 * ((~1 + (2 * ((1 + (x div 2)) div 2))) mod (x + 1)))) mod (x + 1))
1: ((1 + (2 * ((x + ~1) mod (1 + (x div (2 + (if (x mod 3) <= 0 then 2 else 0))))))) mod (x + 1))
1: ((1 + (2 * ((x + ~1) mod (if ((x2 + x) mod 8) <= 0 then 4 else 1)))) mod (x + 2))
1: ((1 + (2 * (((x + 2) - ((~x + 1) div (2 + (x div 4)))) mod 3))) mod (x + 1))
1: ((1 + (2 * ((x - ((x div 2) mod 2)) mod 5))) mod (x + 1))
1: ((1 + (2 * ((x - ((x div 3) mod 3)) mod 2))) mod (x + 1))
1: ((1 + (2 * ((3 * (2 + ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2))) mod 5))) mod (x + 1))
1: ((1 + (2 * ((2 * (1 + (x mod (2 + (x mod 4))))) mod (1 + (x div 2))))) mod (x + 1))
1: ((1 + (2 * ((2x + 2) mod (1 + (3 * (x mod 3)))))) mod (x + 1))
1: ((1 + (3 * ((~2x + 2) mod (4 + (x div 4))))) mod (x + 3))
1: ((1 + (2 * ((x3 + 2x2 + ~x + ~2) mod 5))) mod (x + 1))
1: ((x + (2 * (x3 mod (1 + (3 * (2 + (x mod 4))))))) mod 3)
1: ((1 + (2 * (((x2 + ~x) div 2) mod (1 + (x div 4))))) mod (x + 1))
1: ((1 + (2 * (((x mod (2 + (x div 4))) div 2) mod 2))) mod (x + 1))
1: ((1 + (2 * ((loop(\(x,i).(x2 div 3),2,x) div (x + 1)) mod 3))) mod 3)
1: ((1 + (2 * ((x div 2) mod (3 - (x mod 2))))) mod (x + 1))
1: ((1 + (2 * ((x div 2) mod (2 - (x div ~4))))) mod (x + 1))
1: ((1 + (2 * (((x2 + ~2x) mod (2 + (x div 2))) mod 2))) mod (x + 1))
1: ((1 + (2 * (((x2 div ~4) mod 5) mod 3))) mod (x + 1))
1: ((1 + (2 * ((x mod (1 + (4 * loop(\(x,i).i,(x + ~8),1)))) mod 3))) mod (x + 1))
1: ((1 + (5 * ((x mod (2 - (x div (1 + ((x div 2) mod 2))))) mod 2))) mod (x + 1))
1: ((1 + (2 * ((x mod (2 * (1 + (x mod 3)))) mod 3))) mod (x + 1))
1: ((1 + (x * ((if x <= 0 then 1 else (x div 3)) mod 2))) mod 5)
1: ((1 + (2 * (loop(\(x,i).2x,x,1) mod (1 + (3 * (4x mod 13)))))) mod 3)
1: ((1 + (2 * (x mod 2))) mod (1 + ((x div 2) div 3)))
1: ((x + (2 * (x mod 2))) mod (1 + (x div 2)))
1: ((x + (2 * (x mod 2))) mod (2 + (x div 4)))
1: (((x * (x mod 2)) + (x div 2)) mod 7)
1: ((1 + (2 * (x mod 4))) mod (2 + (x div 2)))
1: ((1 + (2 * (x mod (1 + (2 * (2 + (if (x mod 10) <= 0 then 0 else 2))))))) mod (x + 1))
1: ((1 + (2 * (x mod (1 + ((x + 1) mod (~1 + (2 * ((2x + 2) mod 5)))))))) mod 3)
1: ((1 + (2 * (x mod (1 + ((x + ~1) mod (1 + (2 * (2 + (x mod 3))))))))) mod (x + 1))
1: ((1 + (2 * (x mod (1 + (loop(\(x,i).(x2 + 2x),2,2) mod (x + 1)))))) mod (x + 1))
1: ((1 + (2 * (x mod 11))) mod 5)
1: ((1 + (2 * (if (~4 + (x div 2)) <= 0 then 1 else (x div 3)))) mod (x + 1))
1: ((1 + ((if (~1 + (2x mod (4 + (x div 2)))) <= 0 then 1 else 0) * (1 + (x div 2)))) mod 3)
1: ((1 + ((if (x + ~2) <= 0 then 1 else x) * (x div 2))) mod 2)
1: ((1 + ((if ((x + ~1) mod 3) <= 0 then 1 else x) * (x mod 2))) mod (x + 1))
1: ((1 + ((if ((x * (x div 2)) mod 4) <= 0 then 1 else 0) * (1 + (x mod 2)))) mod (x + 1))
1: ((1 + (x * (if (x mod 2) <= 0 then 1 else x))) mod (1 + (x div 3)))
1: ((1 + (x * (if (x mod 2) <= 0 then x else 7))) mod 9)
1: ((1 + (3 * (if (x mod (2 + (4 mod (x + 2)))) <= 0 then 2 else 0))) mod (x + 2))
1: ((1 + (2 * (if x <= 0 then 0 else (1 + compr(\x.(~1 + ((1 + (x * loop(\(x,i).(~x2 + 1),2,4x))) mod (x + 1))),x))))) mod (x + 1))
1: ((1 + (2 * (if x <= 0 then 1 else (2 + (x mod (2 + (x div 4))))))) mod (x + 1))
1: ((1 + (2 * (if x <= 0 then 1 else (2 * (x3 mod (1 + (3 * (2 - (x mod 2))))))))) mod 3)
1: ((1 + (2 * (if x <= 0 then 1 else x))) mod (4 + (x div 4)))
1: ((1 + (x * loop(\(x,i).(3x2 + x + 1),2,2x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(4x2 + x + 1),2,2x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(x + (2 * (2x + (x mod 2)))),(x + 1),x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(3x2 + ~2x + 1),2,2x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(2x2 + ~x + 1),2,2x))) mod (x + 1))
1: ((2 + (x * loop(\(x,i).(9x2 + 2),2,x))) mod (x + 1))
1: ((2 + (x * loop(\(x,i).(3x2 + x),2,2x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(~3x2 + x + ~1),2,2x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(~4x2 + 4x + ~3),2,x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(~6x2 + 2x + ~1),2,x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(6x2 + 12x + ~7),2,x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(4x2 + ~1),2,2x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(6x2 + ~5x),2,x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(~2x2 + x),2,(x + ~2)))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(16x2 + 14x + 3),2,x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(5 * (2 + (x * (x + i)))),2,x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(6x2 + ~3x + 3),2,x))) mod (x + 1))
1: ((2 + (x * loop(\(x,i).(9x2 + x),2,x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(x * (1 + (3x * (2 + i)))),2,x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(16x2 + 10x + 1),2,x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(8x + 2),2,2x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(6x2 + 3),2,x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).((2x2 + 1) * (2 + i)),2,x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(6x2 + 2),2,x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(2x2 + x),2,3x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(2x2 + 2),2,3x))) mod (x + 1))
1: ((2 + (x * loop(\(x,i).(3x2 + 3),2,2x))) mod (x + 1))
1: ((2 + (x * loop(\(x,i).(2x2 + 8),2,2x))) mod (x + 1))
1: ((2 + (x * loop(\(x,i).(x2 + x),1,loop(\(x,i).x2,2,5)))) mod (x + 1))
1: ((2 + (x * loop(\(x,i).(x2 + x),2,5x))) mod (x + 1))
1: ((2 + (x * loop(\(x,i).(x2 + x),2,4x))) mod (x + 1))
1: ((2 + (x * loop(\(x,i).~2x2,2,3x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(~10x2 + ~3x),2,x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(~6x2 + ~11x + 2),2,x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(~12x2 + 3),2,x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(11x2 + 2x),2,x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(~x2 + 4x + ~4),2,2x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(3x2 + ~2x),2,2x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(10x2 + 2x + ~2),2,x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(x * (~1 + (2 * (4x + i)))),2,x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(5x2 + 10x + ~10),2,x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(4x2 + ~9x),2,x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(16x2 + 56x + 46),2,x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(8x2 + ~x),2,x))) mod (x + 1))
1: ((2 + (x * loop(\(x,i).(8x2 + ~x),2,x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(x * (~1 + (4x * (1 + i)))),2,x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(6x2 + ~6x + ~3),2,x))) mod (x + 1))
1: ((2 + (x * loop(\(x,i).(6x2 + ~2x),2,x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(8x2 + ~2),2,x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(2x2 + ~3x + 1),2,2x))) mod (x + 1))
1: ((2 + (x * loop(\(x,i).(2x2 + ~3x + 1),2,2x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(2x2 + ~x),2,(~x + 2)))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(2x2 + ~x),2,3x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(2x2 + ~x),2,2x))) mod (x + 1))
1: ((2 + (x * loop(\(x,i).(3x2 + ~3),2,2x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(x * (~1 + (x * i))),2,3x))) mod (x + 1))
1: ((1 + (2 * loop(\(x,i).(x2 + ~x),1,compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))) mod 5)
1: ((1 + (x * loop(\(x,i).(7x2 + ~2x),2,x))) mod (x + 1))
1: ((1 + (loop(\(x,i).(2 * ((x + 1) - (2 * (i mod 2)))),x,1) * (1 + (4 * (x mod 2))))) mod (x + 1))
1: ((2 + (x * loop(\(x,i).(7x2 + ~3x),2,x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(5x2 + ~4x),2,x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(5x2 + ~8x),2,x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).~7x2,2,x))) mod (x + 1))
1: ((2 + (x * loop(\(x,i).(~8x2 + 2x),2,x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(x * (~x + i)),2,4x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(8x2 + ~4x + ~4),2,x))) mod (x + 1))
1: ((2 + (x * loop(\(x,i).(8x2 + ~4x + ~4),2,x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(5x2 + 20x),2,x))) mod (x + 1))
1: ((2 + (x * loop(\(x,i).((x2 + 4x) * (4 + i)),2,x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(15x2 + 10x),2,x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(4x2 + ~4x + 4),2,x))) mod (x + 1))
1: ((2 + (x * loop(\(x,i).(4x2 + 2x),2,2x))) mod (x + 1))
1: ((2 + (x * loop(\(x,i).(10x2 + 5x),2,x))) mod (x + 1))
1: ((2 + (x * loop(\(x,i).(6x2 + 6),2,x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(5x2 + 5x),2,2x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).~10x2,2,x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(12x2 + ~6),2,x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(9x2 + ~18),2,x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(3x2 + ~12x),2,x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(5x * (x - i)),2,x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).~9x2,2,x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(16x2 + ~8),2,x))) mod (x + 1))
1: ((2 + (x * loop(\(x,i).(16x2 + ~8),2,x))) mod (x + 1))
1: ((1 + ((x + 1) * loop(\(x,i).(2x5 + 8x4 + 10x3 + 4x2),2,3))) mod (x + 2))
1: ((2 + (x2 * loop(\(x,i).(4x2 + 4x),2,2x))) mod (x + 1))
1: ((2 + (x * loop(\(x,i).(4x2 + 4x),2,2x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).10x2,2,x))) mod (x + 1))
1: ((x + (x * loop(\(x,i).8x2,2,x))) mod (x + 1))
1: ((2 + (x * loop(\(x,i).(x4 + ~x3),1,4x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).x5,1,3x))) mod (x + 1))
1: ((1 + ((3x + 2) * loop(\(x,i).4x,((1 + loop(\(x,i).34x,2,(2x + 1))) mod (x + 1)),x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).4x2,2,2x))) mod (x + 1))
1: ((2 + (x * loop(\(x,i).4x2,2,2x))) mod (x + 1))
1: ((2 + (x * loop(\(x,i).(x2 * (1 + i)),2,2x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).(x2 * (2 + i)),2,2x))) mod (x + 1))
1: ((2 + (x * loop(\(x,i).(x2 * (2 + i)),2,2x))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).x2,2,(10x + ~16)))) mod (x + 1))
1: ((1 + (x * loop(\(x,i).x2,2,20x))) mod (x + 1))
1: ((1 + (2 * loop(\(x,i).x2,4,4))) mod (x + 1))
1: ((2 + (x * loop(\(x,i).(x div (2 - (x mod 2))),x,x))) mod 3)
1: ((1 + (2 * loop(\(x,i).loop(\(x,i).(2 + (x2 div (x + 4))),2,x),2,x))) mod (x + 1))
1: ((2 + (x * loop(\(x,i).loop(\(x,i).(x4 + x),1,(2x + 1)),1,3x))) mod (x + 1))
1: ((2x + 1) mod (x + 10))
1: ((2x + 1) mod (4 + ((x div 2) div 3)))
1: ((2x + 1) mod ((x + 5) + (x div 4)))
1: ((2x + 1) mod (3 + ((2x + 1) mod (3 + (x div 4)))))
1: ((2x + 1) mod (1 + (2 * (1 + ((x div 2) mod 2)))))
1: ((2x + 1) mod 19)
1: ((2x + 1) mod 21)
1: ((2x + 1) mod (1 + (8 * ((x div 2) mod 2))))
1: ((2x + 1) mod (1 + (2 * ((1 + (x div 2)) div 2))))
1: ((2x + 1) mod (1 + (2 * (x div 5))))
1: ((2x + 1) mod (1 + (2 * (x mod 4))))
1: ((2x + 1) mod (1 + (2 * loop(\(x,i).2x,(x div 4),1))))
1: ((2x + 1) mod (1 + ((x + 1) div 3)))
1: ((2x + 1) mod (2 + ((x + 1) div 5)))
1: ((2x + 1) mod (1 + (((x + 1) div (2 * (1 + (x mod (2 * (2 - (x mod 2))))))) div 2)))
1: ((2x + 1) mod (1 + (x div 2)))
1: ((2x + 1) mod (1 + (x div 3)))
1: ((2x + 1) mod (2 + (x div (2 + ((~x + 2) mod 4)))))
1: ((2x + 1) mod (1 + (x div (1 + ((~1 + loop(\(x,i).2x,(x + ~2),2)) mod (x + 1))))))
1: ((2x + 1) mod (1 + (x div (2 + ((x div 2) mod 3)))))
1: ((2x + 1) mod (2 + (x div (2 + (x mod 2)))))
1: ((2x + 1) mod (2 + (x div (~1 + (3 * (2 + (x mod 2)))))))
1: ((2x + 1) mod (1 + ((1 + (x mod (1 - loop(\(x,i).(x - (if x <= 0 then 1 else (2 * (1 + i)))),x,2x)))) mod (x + 1))))
1: ((2x + 1) mod (1 + ((x + 1) mod 5)))
1: ((2x + 1) mod (1 + ((2x - ((x div 2) mod 3)) mod (1 + (x div 2)))))
1: ((2x + 1) mod (1 + (~8 mod (1 + (x div 3)))))
1: ((2x + 1) mod (1 + ((~2x + 2) mod (4 + (x div 4)))))
1: ((2x + 1) mod (1 + ((4 * (x mod 2)) mod (x + 1))))
1: ((2x + 1) mod (2 + ((x div 2) mod 4)))
1: ((2x + 1) mod (~1 - ((1 + ((32 mod (x + 1)) div 2)) div 2)))
1: ((2x + 1) mod (2 - (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + ~1) div 2))))
1: ((2x + 1) mod (1 - (x div (~2 + (x mod ~4)))))
1: ((2x + 1) mod (2 - ((~x + 2) div 5)))
1: ((2x + 1) mod (2 - (x mod ~4)))
1: ((2x + 1) mod 29)
1: ((2x + 1) mod 31)
1: ((2x + 1) mod (~1 + (2 * ((~x + 2) div 8))))
1: ((2x + 1) mod (~1 + (2 * (x div (4 + (x mod 2))))))
1: ((2x + 1) mod (~1 + (2 * (x div ~7))))
1: ((2x + 1) mod (~1 + ((~x + 1) div 5)))
1: ((2x + 1) mod (~1 + (x div (~2 + (x mod ~2)))))
1: ((2x + 1) mod ((x + 1) - (loop(\(x,i).2x,x,1) mod (x + 1))))
1: ((2x + 1) mod (2 * (2 + (i div 2))))
1: ((2x + 1) mod (5 * (1 + (x mod 3))))
1: ((2x + 1) mod (if (x + ~1) <= 0 then 2 else ((x + 1) div 2)))
1: ((x2 + 1) mod (x + 5))
1: ((x2 + 1) mod (1 + (((x + 1) div 2) div 2)))
1: ((x2 + 1) mod (1 + (x div 4)))
1: ((x2 + 1) mod (1 + (2x mod (1 + (x div 3)))))
1: ((x2 + 1) mod (1 + (((x2 + x) div 2) mod 5)))
1: ((x2 + 1) mod (2 + (x mod 4)))
1: ((x2 + 1) mod (1 + loop(\(x,i).(x * (x + i)),2,3)))
1: ((x2 + 1) mod (1 + i))
1: ((x2 + 1) mod (2x + ~1))
1: ((x2 + 1) mod ((2x + 4) div 3))
1: ((x2 + 1) mod loop(\(x,i).(1 + (x * i)),4,2))
1: ((x2 + 2) mod (3 + (x div 2)))
1: ((x2 + 2) mod (7 + (x div 4)))
1: ((x2 + 2) mod (x + 4))
1: ((x2 + 2) mod 7)
1: ((x2 + 2) mod (3x + 1))
1: ((x2 + 2) mod (1 + (2 * (4 + (x div 4)))))
1: ((x2 + 2) mod (2x + 9))
1: ((x2 + 2) mod (4x + 1))
1: ((x2 + 2) mod (1 + ((x + 1) div 3)))
1: ((x2 + 2) mod (2 + (x div 2)))
1: ((x2 + 2) mod (2 + (x mod 4)))
1: ((x2 + 2) mod ~7)
1: ((x2 + 2) mod (2x + ~3))
1: ((x2 + 2) mod 10)
1: ((x2 + 2) mod loop(\(x,i).((x2 + 2) + i),2,2))
1: ((x2 + 2) mod loop(\(x,i).x2,2,3))
1: ((x2 + 4) mod (x + 3))
1: ((x2 + 4) mod (1 + (x div 2)))
1: ((x2 + (x div 2)) mod 3)
1: ((x2 + (x mod 2)) mod (2 + (x div 2)))
1: ((x2 + (x mod 2)) mod (1 + (x div 3)))
1: ((1 + (2 * compr(\x.loop(\(x,i).(if ((x + 1) mod (1 + i)) <= 0 then 0 else x),x,2x),x))) mod (2x + 1))
1: ((2 + (2 div (1 + ((loop(\(x,i).(2 * (x - i)),x,2) mod (x + 1)) div 2)))) mod 3)
1: ((2 + (((x + 4) + ((2 + (((2x + 4) + (if x <= 0 then 1 else ((x + 4) + (x div (4 + (x div 2)))))) div 2)) div 2)) div 2)) mod 3)
1: ((1 + (((x + 1) + (x div 2)) div 2)) mod 4)
1: ((1 + (((x + 1) + (x div (2 + (((x + ~1) mod 3) + (x mod 2))))) div 2)) mod (x + 1))
1: ((1 + ((x + 8) div (1 + ((x + 1) div 2)))) mod 2)
1: ((1 + ((x + (2 * (4 - ((~x + 1) div (2 + (x div 4)))))) div 3)) mod (x + 1))
1: ((1 + ((x + (3 * (1 + (2 * ((((x + 2) + ((3 * ((x + 2) + (2x div 7))) div 2)) div 2) div 2))))) div 2)) mod 2)
1: ((1 + ((2 + (x * (x + (x div 2)))) div (x + 1))) mod 2)
1: ((1 + (((x * (x + (x div 2))) + (x mod 3)) div 2)) mod 2)
1: ((1 + ((1 + (x * (x + ((x div 2) mod 2)))) div 5)) mod 2)
1: ((2 + ((x2 + 2x + 2) div (2 + ((x div 2) mod 2)))) mod 3)
1: ((x + ((1 + ((x + ~1) * (~1 + loop(\(x,i).4x,x,2)))) div (x + 1))) mod 3)
1: ((1 + ((2x2 + 1) div (x + 4))) mod 2)
1: ((1 + ((x3 + 2) div 3)) mod 7)
1: ((1 + ((2 + (x * (x div 3))) div 5)) mod (1 + (x div 2)))
1: ((1 + ((2 + (x * (x div (2 + (x mod 2))))) div (x + 1))) mod 2)
1: ((1 + (((x * (x mod 3)) + (x div 2)) div 2)) mod 2)
1: ((1 + ((2x + 1) div 5)) mod 4)
1: ((1 + ((2x + 1) div (3 + (x div 4)))) mod 3)
1: ((2 + ((2x + 1) div (3 + (x div 4)))) mod 4)
1: ((1 + ((x2 + 1) div 2)) mod (x + 2))
1: ((1 + ((x2 + 1) div (2 + (x div 2)))) mod 2)
1: ((1 + ((x2 + 2) div (x + 5))) mod 2)
1: ((1 + ((x2 + (x div 2)) div 2)) mod 3)
1: ((1 + ((x2 + (x div 2)) div 2)) mod 4)
1: ((1 + ((x2 + (x div 2)) div 3)) mod 3)
1: ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + (((((2x + 3) * (1 + (x2 div 4))) div 2) div 2) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) mod 2)
1: ((1 + ((1 + ((1 + ((1 + ((((x + 1) * (1 + (x mod (1 + (x mod 4))))) div 2) div 2)) div 2)) div 2)) div 2)) mod 3)
1: ((1 + ((1 + ((1 + ((1 + ((((x + 1) * (~1 + ((~2x + 2) mod (4 + (x div 4))))) div 2) div 2)) div 2)) div 2)) div 2)) mod 3)
1: ((1 + ((1 + ((1 + ((1 + (x div (1 + ((x div 2) mod (1 + (x mod (2 + (if (x mod 5) <= 0 then 2 else 0)))))))) div 2)) div 2)) div 2)) mod 3)
1: ((1 + ((1 + ((1 + ((1 + ((1 + (((x div (~2 + (x mod 2))) + (x mod 3)) div 2)) mod (x + 1))) div 2)) div 2)) div 2)) mod 3)
1: ((1 + ((1 + ((1 + (((((x + 1) * ((x + 1) + (2 * (((((x + 1) * (4 + (x div 2))) div 2) div 2) div 2)))) div 2) div 2) div 2)) div 2)) div 2)) mod 2)
1: ((x + ((2 + ((1 + ((((((x + 1) * loop(\(x,i).((x2 + ~x) div 2),2,(x + 4))) div 3) div 2) div 2) div 2)) div 2)) div 2)) mod 3)
1: ((1 + ((1 + ((1 + (x div (if (x mod 4) <= 0 then 4 else 1))) div 2)) div 2)) mod 2)
1: ((1 + ((x + (((~x + 1) * (x div 2)) div 2)) div 2)) mod 2)
1: ((1 + ((x + (2x div (2 + (x div 2)))) div 2)) mod 3)
1: ((1 + ((x + (x2 div (1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))) div 2)) mod (x + 1))
1: ((2 + ((x + (x2 div (1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))) div 2)) mod (x + 1))
1: ((1 + ((1 + (((1 + ((((x * ((x2 + 4x + 4) div 2)) div 2) div 2) div 2)) div 2) div 2)) div 2)) mod 3)
1: ((x + ((1 + (((x + loop(\(x,i).((3x + 1) - ((x + 1) div 5)),x,1)) div 2) div 2)) div 2)) mod 2)
1: ((2 + ((1 + ((((x + 1) * (6 + ((x + 1) div (5 * (1 + (x mod 3)))))) div 2) div 2)) div 2)) mod 5)
1: ((1 + ((1 + (((3 * (1 + (x mod (1 + (3 * ((x + 2) mod 5)))))) div 2) div 2)) div 2)) mod 3)
1: ((1 + ((x + ((x2 div 2) div 3)) div 2)) mod 2)
1: ((1 + ((1 + (((if ((x + 1) mod (2 + ((x div 2) mod 2))) <= 0 then x else 1) div 2) div 2)) div 2)) mod 3)
1: ((1 + ((x + ((x div 2) div 7)) div 2)) mod 2)
1: ((1 + ((1 + (loop(\(x,i).(2x + 2),x,~x) div (x + 1))) div 2)) mod 3)
1: ((1 + ((1 + (loop(\(x,i).(~2x + 2),x,(2 * (x mod 2))) div (x + 1))) div 2)) mod 3)
1: ((1 + ((1 + (x div 2)) div (1 + ((x + ~1) mod 3)))) mod 2)
1: ((1 + ((1 + (x div 2)) div (1 + (x mod 5)))) mod 2)
1: ((1 + ((1 + (x div (2 + ((2 * (1 + (2 * (x mod 2)))) mod (1 + (x div 2)))))) div 2)) mod (x + 1))
1: ((1 + (((x div (~2 + (x mod 2))) + (x mod 3)) div 2)) mod (x + 1))
1: ((1 + ((x + (x div 8)) div 2)) mod 2)
1: ((1 + ((x + (1 mod (8 - (x div 2)))) div 2)) mod (x + 1))
1: ((1 + ((1 + (3x mod (1 + ((2x + 4) div 9)))) div 2)) mod 2)
1: ((1 + ((x + (2x mod (2 + (x div 2)))) div 4)) mod 2)
1: ((x + ((x + (x2 mod 3)) div 4)) mod 3)
1: ((2 + ((1 + (((x + ~1) div 2) mod 4)) div 2)) mod (x + 2))
1: ((1 + ((x + (x mod 4)) div 3)) mod 2)
1: ((1 + (((x mod (2 + ((x div 4) mod 2))) + (x div 2)) div 2)) mod (x + 1))
1: ((1 + ((x + (if (~2 + (x div 2)) <= 0 then x else 1)) div 3)) mod 2)
1: ((1 + (((if (x + ~1) <= 0 then 1 else ((1 + (((x + 1) * (2 + (x mod 2))) div 2)) div 2)) + (x mod 3)) div 2)) mod 2)
1: ((1 + ((x + (if (x mod 4) <= 0 then 1 else 2)) div 3)) mod (x + 1))
1: ((1 + ((1 + loop(\(x,i).2x,x,(if ((x + 1) mod (2 + ((~x + 2) mod 5))) <= 0 then 2 else 0))) div 3)) mod 3)
1: ((1 + ((2 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 5)) mod 4)
1: ((1 + ((1 + loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 6 else 0))),2,x)) div 2)) mod 3)
1: ((1 + ((loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) + loop(\(x,i).2x,x,2)) div 2)) mod 7)
1: ((1 + ((1 + loop(\(x,i).((2 - (2x mod (4 + (x div 4)))) mod (x + 1)),3,x)) div 3)) mod 5)
1: ((1 + ((x + 1) div 2)) mod 4)
1: ((1 + ((x + 1) div 2)) mod (1 + (x div 3)))
1: ((1 + ((x + 1) div 2)) mod (1 + (x div (2 * (2 + ((x div 2) mod 2))))))
1: ((1 + ((x + 1) div 2)) mod (1 + ((1 + (6 mod (1 + (x div 2)))) mod 3)))
1: ((1 + ((x + 1) div 2)) mod (1 + (2x mod (1 + (x div 3)))))
1: ((1 + ((x + 1) div 2)) mod (1 + (((x * (2 - (x div 2))) div 2) mod 3)))
1: ((1 + ((x + 1) div 2)) mod (~1 + (2 * (x div 5))))
1: ((1 + ((x + 1) div 2)) mod 6)
1: ((1 + ((x + 1) div 3)) mod 4)
1: ((1 + ((x + 1) div 3)) mod (1 + (x div 4)))
1: ((1 + ((x + 1) div (2 + (((~x + 2) mod 5) + (x div 3))))) mod 3)
1: ((1 + ((x + 1) div (2 - (x div ~12)))) mod (x + 1))
1: ((1 + ((x + 1) div (4 - ((x mod 5) mod 2)))) mod 2)
1: ((1 + ((x + 1) div (2 + ((x + 1) div (1 + (if (x mod 5) <= 0 then 0 else 2)))))) mod 3)
1: ((1 + ((x + 1) div (2 + ((x div 2) div (1 + (x mod (1 + (x mod (3 + (x mod 2)))))))))) mod 3)
1: ((2 + ((x + 1) div (2 + (x div (2 + (3 * (x mod 2))))))) mod 3)
1: ((1 + ((x + 1) div (2 + (x div (2 + (x mod 4)))))) mod 2)
1: ((1 + ((x + 1) div (1 + (x div (2 + (x mod (2 + (x mod 2)))))))) mod (x + 2))
1: ((1 + ((x + 1) div (2 + ((2 + (x mod 8)) mod (x + 1))))) mod 3)
1: ((1 + ((x + 1) div (1 + ((~x + 2) mod 4)))) mod 2)
1: ((2 + ((x + 1) div (1 + ((x - (((((x + ~1) div 2) * (x div 3)) div 2) div 2)) mod 3)))) mod 3)
1: ((1 + ((x + 1) div (1 + ((x - (if (x mod 9) <= 0 then 0 else 1)) mod 2)))) mod 2)
1: ((1 + ((x + 1) div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))) mod (x + 1))
1: ((2 + ((x + 1) div (1 + (x mod (2 + ((x + 1) mod 3)))))) mod (x + 1))
1: ((1 + ((x + 1) div (1 + (x mod 6)))) mod 2)
1: ((1 + ((x + 1) div (~1 + (2 * (1 + ((x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))) + (x mod 2))))))) mod (x + 1))
1: ((1 + ((x + 1) div (~1 + (2 * ((x + (x div 8)) mod 5))))) mod 3)
1: ((1 + ((x + 1) div (~1 + (2 * ((x2 + ~1) mod 6))))) mod 3)
1: ((1 + ((x + 1) div (~1 + (2 * (((~1 + (2x mod (2 + (x div 2)))) div 2) mod 2))))) mod 3)
1: ((1 + ((x + 1) div (3 * (2 + ((x div 2) mod 5))))) mod 3)
1: ((1 + ((x + 2) div 5)) mod (2 + (x div 5)))
1: ((1 + ((x + 2) div (4 - ((x mod 3) mod 2)))) mod 2)
1: ((x + ((x + 2) div (2 + (x div 4)))) mod 5)
1: ((2 + ((x + 2) div (2 + (x mod 4)))) mod (x + 2))
1: ((1 + ((~2x + 1) div (4 + (x div 4)))) mod 3)
1: ((1 + ((1 - (2x mod (4 + (x div 4)))) div 3)) mod 5)
1: (((((~2x + 2) - (x div 2)) div (x + 2)) + (x div 3)) mod 2)
1: ((1 + ((~x2 + 2) div (x + 6))) mod 2)
1: ((1 + (((x * (x div 2)) - (x mod 3)) div 2)) mod 2)
1: ((1 + (((x * (x div 3)) - (x mod 4)) div 3)) mod 2)
1: ((x + ((2x + ~1) div 5)) mod 3)
1: ((1 + ((x2 + ~1) div 5)) mod 3)
1: ((1 + ((~x + ((~x + 2) div 4)) div 2)) mod 2)
1: ((1 + ((~x + (x3 div 5)) div 3)) mod 3)
1: ((1 + ((~x2 + (x div 2)) div (x + 2))) mod 2)
1: ((1 + ((~x + (x div 3)) div 3)) mod 2)
1: (((x2 + ~x) + ((x + ~1) div 3)) mod 5)
1: ((x + ((x + ~1) div 3)) mod 3)
1: ((x + ((x + ~1) div 3)) mod 5)
1: ((1 + (((x + 1) - ((x mod (x - ((x + ~1) mod 8))) div 2)) div 2)) mod (x + 1))
1: ((1 + ((x - ((2 + (x div 2)) * (x mod 3))) div 2)) mod 2)
1: ((1 + ((x - ((~x + 1) div (2 + (x mod 4)))) div 2)) mod 2)
1: ((1 + ((x - (((x + 2) - ((((x + 2) * ((~x + 2) div 2)) div 2) div 2)) div 2)) div 2)) mod (x + 1))
1: ((1 + ((x - ((3 * (2 - ((~x + 1) div (2 + (x div 4))))) div 2)) div 2)) mod (x + 1))
1: ((1 + ((x - ((x * (x div 2)) div 4)) div 2)) mod 2)
1: ((1 + ((x - (((x + ~1) * (x div 3)) div 2)) div 2)) mod 2)
1: ((x + ((x - (((x + ~1) mod (2 + (x div 2))) div 2)) div 2)) mod 3)
1: ((1 + ((x - (x div 4)) div 2)) mod 2)
1: ((1 + ((x - (x div (3 + ((x + 2) mod 4)))) div 2)) mod 2)
1: ((1 + ((x - (x div (4 - (x mod 2)))) div 2)) mod 2)
1: ((1 + ((x - (x div (1 + ((~x + 2) mod 4)))) div 2)) mod 2)
1: ((1 + ((x - (x div ~3)) div 3)) mod 2)
1: ((1 + ((x - ((~x + 2) mod (2 + (x div 2)))) div 2)) mod 2)
1: ((1 + ((x - ((~x + 2) mod (2 - (x div ~2)))) div 2)) mod 2)
1: ((1 + ((x - ((x div 2) mod 2)) div 2)) mod (1 + (x div 5)))
1: ((2 + ((x - ((x div 2) mod 2)) div 2)) mod (x + 1))
1: ((1 + ((x - ((x div 2) mod 2)) div (2 + (x mod 2)))) mod 2)
1: ((x + ((x - (x mod 4)) div 3)) mod 3)
1: ((1 + ((compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x) - compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)) div 2)) mod 3)
1: ((x + (8 div (x + 1))) mod 3)
1: ((1 + (8 div (x + 2))) mod 2)
1: ((1 + (8 div (if x <= 0 then 1 else x))) mod 2)
1: ((((2 * (4 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3) + (if x <= 0 then 0 else 1)) mod 3)
1: ((1 + ((2 * ((2x + 1) - ((~x + 1) div (2 + (x div 4))))) div 3)) mod 3)
1: ((3 + ((2 * ((2x + 1) - ((~x + 1) div (2 + (x div 4))))) div 3)) mod 9)
1: ((x + ((x * ((2x + 1) - (x mod 4))) div 4)) mod 3)
1: ((1 + ((2 * (1 + ((x + 2) * (x + (x div 2))))) div 5)) mod 3)
1: ((1 + ((x3 + x2 + x) div (2 + (x div 2)))) mod 2)
1: ((1 + ((2x2 + 4) div (x + 6))) mod 2)
1: ((2 + ((x3 + 3x2 + 2x + 6) div 3)) mod (1 + (x div 2)))
1: ((1 + ((2 * (1 + ((1 + (x2 div 7)) div 2))) div 3)) mod (x + 1))
1: ((1 + ((2 * (1 + ((1 + ((x + 1) mod (1 + (2 * ((x div 2) div (1 + ((((x + 1) div 2) div 2) div 2))))))) div 2))) div 3)) mod (x + 1))
1: ((1 + ((2 * (1 + ((1 + (x mod (1 + (x mod (1 + (x div (2 + (x mod 5)))))))) div 2))) div 3)) mod (x + 1))
1: ((1 + (((x + 1) * (1 + (((x + 1) * (x - (x div ~2))) div 2))) div 3)) mod 3)
1: ((1 + ((2 * (1 + (((8x2 + 19x + 6) div 2) div 3))) div 5)) mod (x + 2))
1: ((1 + ((2 * (1 + ((((x + 1) * (2 - ((x div 2) mod 2))) div 2) div 2))) div 3)) mod (x + 1))
1: ((1 + (((x + ((x div 2) div 3)) * ((x + ~1) div 2)) div 2)) mod 2)
1: ((1 + ((2 * (1 + (((x + 1) mod (2 + ((~1 + (2 * (if (16 mod (x + 1)) <= 0 then 0 else 2))) mod (x + 1)))) div 2))) div 3)) mod (x + 1))
1: ((1 + ((x * (1 + (x div 2))) div 3)) mod 2)
1: ((1 + ((x2 * (x + (x div 2))) div (x + 2))) mod 2)
1: ((1 + ((x * (2 + (x div 3))) div 4)) mod 2)
1: ((1 + ((x * (2 + (x div 3))) div 7)) mod 2)
1: ((1 + (((1 + (x div 4)) * (x div 2)) div 2)) mod 2)
1: ((2 + ((x * (2 + ((x + 1) mod 4))) div 2)) mod 3)
1: ((1 + (((x + ~1) * (x + (x mod 2))) div 3)) mod 3)
1: ((1 + ((x * (2 + (x mod 3))) div 7)) mod 2)
1: ((1 + (((x + 1) * (1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x))) div 2)) mod 3)
1: ((x + ((2 * (x + loop(\(x,i).2x,((x + ~2) div 5),1))) div 3)) mod (x + 1))
1: ((1 + ((x * (1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x))) div 2)) mod 5)
1: ((1 + ((2x + 2) div 7)) mod 2)
1: (((4x + 4) + ((2x + 2) div ~7)) mod 10)
1: ((2 + ((x2 + x) div 2)) mod 10)
1: ((1 + ((x2 + x) div (1 + (x mod (1 + (x div (2 * (2 - (x mod 2))))))))) mod (x + 1))
1: ((1 + ((x2 + 4x + 4) div (~x + 26))) mod 4)
1: ((1 + ((x2 + 2x) div 2)) mod 3)
1: ((2 + ((x2 + 2x) div 2)) mod 5)
1: ((1 + ((x2 + 2x) div 4)) mod 5)
1: ((x + ((x2 + 2x) div 4)) mod 9)
1: ((1 + ((x2 + 2x) div (2 - (x div ~4)))) mod 2)
1: ((1 + (((x + 2) * (1 - (x div 4))) div 3)) mod 2)
1: ((1 + (((~x + 1) * (x div 2)) div 2)) mod 2)
1: ((1 + ((~x2 + x) div 16)) mod 2)
1: ((1 + ((x * (2 - (((x + 1) div 2) div 2))) div 2)) mod 2)
1: ((1 + ((~x2 + 2x) div (x + 3))) mod 2)
1: ((1 + (((x + 1) * (~1 + (2 * (1 + ((1 + ((1 + ((1 + (loop(\(x,i).(3 * ((2x div (1 + i)) * (~1 + (2 * i)))),x,1) div 2)) div 2)) div 2)) div 2))))) div 2)) mod 3)
1: ((1 + (((x + 1) * (~1 + (2 * ((16x + 16) div 3)))) div 3)) mod 3)
1: ((((x * (~1 + (x div 2))) div 2) + (if (x + ~2) <= 0 then 1 else 0)) mod 2)
1: ((1 + ((x * (~2 + (x div 2))) div 8)) mod 2)
1: ((1 + ((x * (~x + (x div 3))) div 5)) mod 2)
1: ((1 + (((~1 + (x mod 3)) * ((x + ~1) div 2)) div 2)) mod 2)
1: ((1 + ((x * (~1 + (x mod (2 + (x mod 2))))) div 2)) mod 2)
1: ((1 + (((x + 1) * (~1 + loop(\(x,i).(~x5 + x2 + 2x),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))) div 3)) mod 3)
1: ((1 + (((x + 1) * (~1 + loop(\(x,i).2x,x,loop(\(x,i).(3x + (if (i mod 3) <= 0 then 1 else 2)),x,1)))) div 3)) mod 3)
1: ((1 + ((3x + ~3) div (2 + (x div 4)))) mod 2)
1: ((1 + ((x2 + ~x) div 2)) mod (1 + (x div 3)))
1: ((1 + ((x2 + ~x) div 2)) mod (x + 1))
1: ((2 + ((x2 + ~x) div 2)) mod 5)
1: ((1 + ((x2 + ~x) div 8)) mod 2)
1: ((((2x + ~4) div (x + 4)) + (x div 3)) mod 2)
1: ((1 + ((x2 + ~3x + 2) div 2)) mod (x + 2))
1: ((1 + ((x2 + ~4x + 4) div (x + 1))) mod 2)
1: ((1 + ((x2 + ~2x) div ((x + 2) + (x div 2)))) mod 2)
1: ((1 + ((x2 + ~2x) div (x + 2))) mod 4)
1: ((1 + ((x2 + ~2x) div (~3x + 4))) mod 2)
1: ((1 + ((x2 + ~6x + 8) div (x + 1))) mod 2)
1: ((2 + ((2 * ((x + 1) - (2 * (((x + ~1) div 2) mod 2)))) div 3)) mod 3)
1: ((1 + ((x * (x - ((~x + 2) div 2))) div 9)) mod 2)
1: ((1 + (20 div (x + 1))) mod 10)
1: ((1 + (((3x + 9) * ((x + 1) + loop(\(x,i).x3,1,(4x + 4)))) div 3)) mod 9)
1: ((1 + ((4 * ((2x + 1) - ((~x + ((~x + 2) div 4)) div 2))) div 3)) mod 3)
1: ((1 + ((4 * (1 + ((x + 1) div (2 + (x div 8))))) div 3)) mod 3)
1: ((1 + ((4x2 + 8x) div 3)) mod 3)
1: ((1 + (((2x + 2) * (2 - ((x div 4) mod 2))) div 5)) mod 2)
1: ((1 + ((4 * (2x - (x mod 7))) div 3)) mod 3)
1: ((1 + (8x div (1 + (x div 2)))) mod 2)
1: ((1 + ((x4 + ~x3) div (x + 4))) mod 2)
1: ((1 + (((2x + 2) * ((x div 2) div (1 + (if (x mod 2) <= 0 then 6 else 1)))) div 3)) mod 3)
1: ((1 + ((2x * (x div (2 - ((x div 2) mod 2)))) div 3)) mod 3)
1: ((1 + (4x div (1 + (x div 4)))) mod 3)
1: ((x + (2x2 div (1 + (x div 2)))) mod 5)
1: ((1 + (3x2 div 5)) mod (1 + (x div 3)))
1: ((1 + (4x2 div (x + 4))) mod 2)
1: ((1 + (x3 div (4 + (x div 3)))) mod 2)
1: ((1 + (x3 div (x + 3))) mod 3)
1: ((1 + (x3 div (3x + 1))) mod 2)
1: ((1 + (x3 div (~1 + (2 * (x div 2))))) mod 2)
1: ((1 + ((x * ((1 + (x div 2)) div 2)) div 3)) mod 2)
1: ((1 + (((x + 1) * ((2 + (x div 2)) div 3)) div 2)) mod 2)
1: ((x + ((x * ((1 + (x div 4)) div 2)) div 3)) mod 3)
1: ((1 + ((((x + 2) div 3) * (~1 + (x div ~2))) div 2)) mod 2)
1: ((1 + ((x * ((~x + 1) div 3)) div 2)) mod 2)
1: ((1 + ((((~x + 2) div 2) * (x mod 3)) div 2)) mod 2)
1: ((1 + ((x * ((~x + (x mod 3)) div 2)) div 2)) mod 2)
1: ((1 + ((((x + ~1) div 2) * (x mod 3)) div 2)) mod 2)
1: ((1 + ((x * ((x + ~2) div 3)) div 2)) mod 2)
1: ((1 + ((x * (x2 div 2)) div (x + 4))) mod 2)
1: ((1 + (((x2 div (x + 4)) * (1 + (x div 2))) div 2)) mod 2)
1: ((2 + ((3 * ((x div 2) div 3)) div 2)) mod (1 + (x div 2)))
1: ((1 + (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (3 * ((1 + (x div 2)) div 2)))) div 2)) mod 8)
1: ((1 + ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)) mod 4)
1: ((1 + ((x * (x div 2)) div 2)) mod 17)
1: ((1 + ((x * (x div 2)) div 4)) mod 2)
1: ((1 + ((x * (x div 2)) div 5)) mod 3)
1: ((1 + ((x * (x div 2)) div (1 + (x2 mod 6)))) mod 2)
1: ((1 + (((~x + 1) * (x div 3)) div 2)) mod 2)
1: ((1 + ((x * (x div 3)) div 2)) mod 3)
1: ((1 + (((x + 1) * (x div (2 + (x mod 2)))) div 2)) mod 2)
1: ((1 + (((x + 1) * (x div ~3)) div 2)) mod 2)
1: ((1 + ((x * (x div (~1 - (x mod 3)))) div 2)) mod 2)
1: ((x + (((x + 1) * ((2 - (x div 2)) mod (x + 2))) div 2)) mod 2)
1: ((1 + (((x + 2) * (x mod 3)) div 5)) mod 2)
1: ((1 + ((2 * (x mod 4)) div (1 + (x div 2)))) mod 2)
1: ((1 + ((x * (x mod 4)) div (x + 3))) mod 2)
1: ((1 + ((x * (x mod 5)) div 4)) mod 2)
1: ((1 + (((x + 1) * (x mod (4 + (x mod 2)))) div 2)) mod 3)
1: ((1 + ((x * (x mod (2 * (1 + (x mod 2))))) div 5)) mod 4)
1: ((1 + (((x + 1) * loop(\(x,i).2x,(x + ~1),loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))) div 3)) mod 3)
1: ((1 + (2x div 3)) mod 3)
1: ((1 + (2x div (3 + (x div 5)))) mod 2)
1: ((1 + (2x div 7)) mod 2)
1: ((1 + (2x div 9)) mod 2)
1: ((1 + (2x div (1 + (2 * (x mod 2))))) mod 5)
1: ((1 + (2x div (1 + ((x + 2) div (2 + (x div 4)))))) mod (1 + (x div 5)))
1: ((1 + (2x div (2 + (x div 3)))) mod 2)
1: ((1 + (2x div (~x + 22))) mod (x + 1))
1: ((1 + (2x div (2x + ~17))) mod 2)
1: ((1 + (x2 div 2)) mod (x + 4))
1: ((1 + (x2 div 2)) mod (2 + (x2 div 3)))
1: ((1 + (x2 div 2)) mod (x + 2))
1: ((1 + (x2 div 2)) mod (2x + 8))
1: ((2 + (x2 div 2)) mod (1 + (x div 3)))
1: ((2 + (x2 div 2)) mod (x + 1))
1: ((2 + (x2 div 2)) mod (x + 2))
1: ((1 + (x2 div 3)) mod (1 + ((x + 1) div 3)))
1: ((1 + (x2 div 3)) mod (x + 1))
1: ((1 + (x2 div 4)) mod (x + 1))
1: ((4x + (x2 div 4)) mod (x + 5))
1: ((2 + (x2 div (x + 18))) mod (x + 1))
1: ((x + (x2 div (3 + (x div 2)))) mod 3)
1: ((1 + (x2 div (1 + ((x div 3) + (x mod 2))))) mod 2)
1: ((1 + (x2 div (1 + ((x div 4) + (x div 3))))) mod 2)
1: ((1 + (x2 div (3 + (x div (2 + (x mod 2)))))) mod 2)
1: ((1 + (x2 div ((x + 3) + (if (x mod 2) <= 0 then x else 2)))) mod 2)
1: ((1 + (x2 div (x + 4))) mod 2)
1: ((1 + (x2 div (x + 4))) mod 9)
1: ((1 + (x2 div (3 - (x div (~2 + (x mod ~2)))))) mod 2)
1: ((1 + (x2 div (x + 16))) mod 3)
1: ((1 + (x2 div (1 + (x div 2)))) mod 2)
1: ((1 + (x2 div (2 + (x div 2)))) mod (x + 1))
1: ((x + (x2 div (2 + (x div 2)))) mod 4)
1: ((1 + (x2 div (2 + ((x + 2) mod 5)))) mod 2)
1: ((1 + (x2 div (2 + (6 mod (x + 1))))) mod 2)
1: (((x + 1) + (x2 div (x + (if x <= 0 then 1 else (x div 3))))) mod 3)
1: ((1 + (x2 div (2 - ((x div 2) * (x div 2))))) mod 2)
1: ((1 + (x2 div (~2 + (3 * (x div 2))))) mod 2)
1: ((1 + (x2 div ((2x + 4) div 3))) mod 2)
1: ((1 + ((((3x + 1) - (((x mod 2) - ((x - ((x2 + 2x) div 3)) div 2)) div 2)) div 2) div 2)) mod (x + 1))
1: ((1 + (((((x + 1) mod 4) + (x div 4) + (x mod 3)) div 2) div 2)) mod (x + 1))
1: (((((1 + (x * (x div 2))) div 2) div 2) + (if x <= 0 then 0 else 1)) mod 2)
1: ((2 + (((1 + ((x + 1) div (1 + (x mod (2 + (x div (2 + (x mod 5)))))))) div 2) div 2)) mod 3)
1: ((1 + (((1 + (((x + 1) * (1 + ((1 + (x div (2 * (2 - ((x * (x div 2)) mod 2))))) div 3))) div 2)) div 2) div 2)) mod 3)
1: ((1 + (((1 + (((x + ~1) * (x div 3)) div 2)) div 2) div 2)) mod 3)
1: ((1 + (((1 + (loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else 2x),x,(2x + 12)) div 3)) div 2) div 2)) mod 3)
1: ((2 + (((1 + (x div 2)) div 2) div 2)) mod (x + 1))
1: ((1 + (((x + 1) div 2) div 2)) mod 3)
1: ((1 + (((x + 1) div 2) div 2)) mod ((2x + ~1) mod (4 + (x div 4))))
1: (((((x + 1) div 2) div 2) + ((x + ~2) div 3)) mod 2)
1: (((((x + 1) div 2) div 3) + (if x <= 0 then 0 else 1)) mod 2)
1: ((1 + (((x + 1) div 2) div (1 + (x mod 8)))) mod 3)
1: ((1 + (((x + 1) div (1 + ((x mod (1 + (2 * (x mod 6)))) div 2))) div 2)) mod (x + 1))
1: ((1 + (((((x + ~2) * (x div 3)) - (x div 2)) div 2) div 2)) mod 2)
1: ((1 + (((~1 + (3 * loop(\(x,i).10x,x,(x + 1)))) div 2) div 2)) mod (4x + 4))
1: (((((~1 + (x div 2)) div 2) div 2) + (x div 3)) mod 2)
1: ((x + (((x + ~1) div 2) div 2)) mod 3)
1: ((x + (((x + ~1) div 2) div 2)) mod 7)
1: ((x + ((((x + 1) - (x * ((x div 2) div 5))) div 2) div 2)) mod 4)
1: ((2 + ((((x + 1) * ((2x + 2) + ((2x2 + 9x + 10) div 3))) div 2) div 2)) mod 3)
1: ((1 + (((3 * (1 + (((1 + (x mod ((1 + (x mod (1 + (x div 4)))) * (1 + (x mod 2))))) mod (x + 1)) + (x mod 2)))) div 2) div 2)) mod 4)
1: ((1 + (((3 * (1 + (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,x2) div 3))) div 2) div 2)) mod 3)
1: ((1 + (((x * (1 + (x mod ~3))) div 2) div 2)) mod 2)
1: ((1 + (((3 * (x + loop(\(x,i).(x - (if x <= 0 then 1 else (x - ((if x <= 0 then 2 else loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 2)))),x,(x + 1)))) div 2) div 2)) mod 3)
1: ((1 + ((((x + 1) * (1 + loop(\(x,i).(loop(\(x,i).(4x + ~1),x,2) div 3),1,(x + 1)))) div 2) div 3)) mod 3)
1: ((1 + ((((x + ~1) * (1 - (2 * (x div 3)))) div 2) div 2)) mod 2)
1: ((1 + ((((2 - ((x div 4) mod 2)) * ((x + 1) div 2)) div 2) div 2)) mod 2)
1: ((1 + (((x * (~1 + (x * (x div 2)))) div 2) div 3)) mod 2)
1: ((1 + (((3 * ((x + 1) - ((x + 1) mod 3))) div 2) div 2)) mod 5)
1: ((1 + (((6x4 + 15x3 + 14x2 + 6x + 1) div 2) div 3)) mod 9)
1: ((1 + ((x3 div ((x + 1) + (x div 2))) div 2)) mod 2)
1: ((1 + ((((x + 2) * ((x4 + 3x3 + 3x2 + 2x + 1) div 2)) div 2) div 3)) mod 3)
1: ((1 + (((3 * ((3 * (~2 + (2 * (x2 mod 19)))) div 2)) div 2) div 2)) mod 3)
1: ((2 + (((x * (((x + ~1) div 2) div 2)) div 2) div 3)) mod 3)
1: ((1 + ((((x + ~1) * (x div ~2)) div 2) div 2)) mod 2)
1: ((1 + ((((2x + 1) * (x div ~3)) div 2) div 2)) mod 2)
1: ((1 + ((((x + 1) * loop(\(x,i).((x + 1) * i),x,x)) div 2) div 3)) mod 3)
1: ((((((x + 1) div 2) div 2) div 2) + (x mod (2 + (x mod 3)))) mod 2)
1: ((x + ((((x + 1) div 2) div 2) div 2)) mod 8)
1: ((1 + ((((x + 1) div (2 - (x mod 2))) div 2) div 2)) mod 2)
1: ((1 + ((((x2 * (x div 2)) div 2) div 2) div 3)) mod 2)
1: ((1 + (((loop(\(x,i).((2x + ~1) * (x div 2)),1,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2) div 2) div 2)) mod 4)
1: ((1 + (((loop(\(x,i).x2,1,(1 - (2 * ((2x + 1) - (x mod (1 + ((x2 + ~x) mod 8))))))) div 2) div 2) div 3)) mod 3)
1: ((x + ((((1 - (x div 2)) mod (x + 2)) div 2) div 2)) mod 5)
1: ((1 + ((((~1 + (2 * (x mod 6))) mod (x + 1)) div 2) div 2)) mod 3)
1: ((1 + (((x4 mod (2x + ~1)) div 2) div 2)) mod 2)
1: ((1 + (((x2 mod (3x + ~1)) div 2) div 2)) mod 2)
1: ((1 + (((loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,1) mod (x + 2)) div 2) div 2)) mod (x + 1))
1: ((1 + (((loop(\(x,i).2x,(x + 1),~2) mod (x + 1)) div 2) div 2)) mod 3)
1: ((1 + ((loop(\(x,i).(x + (x div 2)),x,2) div 2) div 2)) mod (x + 1))
1: ((1 + ((loop(\(x,i).2x,loop(\(x,i).(loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2),2,x),2) div 2) div 2)) mod 3)
1: ((1 + ((loop(\(x,i).2x,x,(1 + (loop(\(x,i).6x,x,(x + 1)) mod (2x + 1)))) div 2) div 2)) mod 3)
1: ((1 + ((loop(\(x,i).x2,1,(4x + ~1)) div 5) div 3)) mod 3)
1: ((1 + ((loop(\(x,i).x2,2,(x4 + 1)) div loop(\(x,i).2x,x,1)) div 2)) mod (x + 1))
1: ((1 + ((x div 2) div 3)) mod 2)
1: ((2 + ((x div 2) div 3)) mod 3)
1: ((x + ((x div 2) div 3)) mod 6)
1: ((1 + ((x div 2) div (1 + ((~x + 1) mod 3)))) mod 2)
1: ((1 + ((x div 2) div (1 + (((x + 1) mod 5) mod 2)))) mod 2)
1: ((1 + ((x div 2) div (1 + (x mod (3 - (x mod 2)))))) mod 3)
1: ((1 + ((x div 2) div (1 + (x mod 9)))) mod 3)
1: ((2 + ((x div 2) div (1 + (x mod (2 + ((~2x + 1) mod (2 + (x div 4)))))))) mod (x + 1))
1: ((1 + ((x div 2) div (1 + (x mod (2 + (x mod 2)))))) mod 2)
1: ((1 + ((x div 2) div (1 + (x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4))))))))) mod 4)
1: ((1 + ((x div 3) div (1 + (x div (2 * (2 + ((1 - (x div 3)) mod 3))))))) mod 3)
1: ((1 + ((x div 3) div (1 + ((x + 1) mod 4)))) mod 2)
1: ((1 + ((x div (2 - (x mod 2))) div 3)) mod 3)
1: ((1 + ((x div (2 * (~2 + ((x mod 3) div 2)))) div 2)) mod 2)
1: ((1 + (((x + 3) mod (1 + (2 * (x mod 6)))) div 2)) mod 3)
1: ((1 + (((~2x + 3) mod (1 + (x div 2))) div 2)) mod 2)
1: ((2 + (((1 + (2 * ((~1 + (2 * ((1 + (x div 2)) div 2))) mod (x + 1)))) mod (x + 1)) div 2)) mod 4)
1: ((1 + (((2x + 1) mod (4 + (x div 4))) div 2)) mod 3)
1: ((1 + (((x + 1) mod (6 + (x mod 2))) div 2)) mod 2)
1: ((1 + (((x + 1) mod (1 + ((2 * (1 + (x mod 3))) mod (x + 1)))) div 2)) mod (2 + (x mod 4)))
1: ((2 + (((x + 1) mod (1 + (x mod 4))) div 2)) mod (x + 1))
1: ((1 + (((0 - ((~2x + 2) mod (4 + (x div 4)))) mod (x + 1)) div 3)) mod 3)
1: ((1 + (((~x + 1) mod (1 + (2 * ((if (~2 + (x mod 5)) <= 0 then 1 else 2) + (x mod 2))))) div 3)) mod (x + 1))
1: ((1 + (((~x2 + 2) mod (1 + (x div 3))) div 2)) mod 2)
1: ((1 + (((~2 + ((x div 2) div 3)) mod (x + 1)) div 2)) mod 2)
1: ((1 + (((~2 + (x mod 3)) mod (x + 2)) div 2)) mod 2)
1: ((1 + (((x + ~4) mod (1 + (x div 2))) div 2)) mod 2)
1: ((1 + ((8 mod (1 + ((x + 1) div 2))) div 2)) mod 2)
1: ((1 + (((~x2 + 3x) mod (x + 4)) div 2)) mod 2)
1: ((1 + (((2x + 2) mod (2 + (x div 4))) div 2)) mod (2 + ((x div 2) mod 2)))
1: ((1 + (((2x + ~2) mod (2 + (x div 2))) div 2)) mod 2)
1: ((1 + (((2x + ~4) mod (x + 2)) div 2)) mod 2)
1: ((1 + ((32 mod (x + 1)) div 2)) mod 2)
1: ((1 + ((2x3 mod (x + 4)) div 2)) mod 2)
1: ((1 + ((2x mod (8 + (x div 3))) div 2)) mod 2)
1: ((2 + ((2x mod (~1 + (2 * (((~x + 2) div 2) mod 4)))) div 2)) mod (1 + (x div 3)))
1: ((1 + ((x2 mod (x + 4)) div 2)) mod 2)
1: ((1 + ((x2 mod (~3x + 2)) div 2)) mod 2)
1: ((1 + ((((~x + 2) div 4) mod (x + 1)) div 2)) mod 2)
1: ((1 + (((1 mod (1 - (2x mod (4 + (x div 4))))) mod (x + 1)) div 2)) mod 4)
1: ((1 + (((x mod ~3) mod (x + 1)) div 2)) mod 2)
1: ((1 + (((if ((x + 1) mod 8) <= 0 then 3 else x) mod 5) div 2)) mod 2)
1: ((1 + ((loop(\(x,i).2x,(x - loop(\(x,i).(~1 + (if x <= 0 then (2 * i) else x)),x,0)),1) mod (x + 1)) div 2)) mod 3)
1: ((1 + ((loop(\(x,i).x2,1,(x2 + ~x)) mod (x + 3)) div 2)) mod 3)
1: ((((x mod 3) div 2) + (x div 2)) mod (1 + (x div 5)))
1: ((1 + ((x mod 5) div 2)) mod 3)
1: ((1 + ((x mod 9) div 2)) mod 2)
1: ((1 + ((x mod (1 + (x div 2))) div 2)) mod 3)
1: ((1 + ((x mod (1 + (4 mod (x + 1)))) div 2)) mod 2)
1: ((1 + ((x mod (2 + ((1 + (2 * ((2 * (1 + (x mod (2 + (x mod 4))))) mod (1 + (x div 2))))) mod (x + 1)))) div 2)) mod 3)
1: ((1 + ((x mod (2 + ((5 * (1 + (if (x + ~4) <= 0 then 0 else (1 + (x mod (1 + (x mod 4))))))) mod (x + 1)))) div 2)) mod 3)
1: ((1 + ((x mod ~7) div 2)) mod 2)
1: ((1 + ((x mod (2 - (x div ~5))) div 2)) mod 2)
1: ((x + ((x mod (~2 + ((~x + 1) div 5))) div 2)) mod 3)
1: ((1 + ((x mod (~2 + ((~x + 2) div 4))) div 2)) mod 2)
1: ((2 + ((x mod ((x div 2) - ((1 + (x div 2)) mod 3))) div 2)) mod 4)
1: ((1 + ((if (((if x <= 0 then 2 else x) div (2 + (x mod 2))) mod 2) <= 0 then x else 1) div 3)) mod 5)
1: ((1 + ((if x <= 0 then 1 else (2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2)))) div (2 + (x mod 2)))) mod 5)
1: ((1 + ((if x <= 0 then 2 else (1 + ((1 + ((x + 1) div 2)) mod ((1 + ((x mod 3) div 2)) * (1 + (x mod 2)))))) div 2)) mod 3)
1: ((1 + (loop(\(x,i).(5x + 2),x,1) div (x + 1))) mod 3)
1: ((1 + (loop(\(x,i).(~2x + 1),x,(x + 1)) div 3)) mod 3)
1: ((1 + (loop(\(x,i).3x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1) div 3)) mod 3)
1: ((1 + (loop(\(x,i).3x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 3)) mod (x + 4))
1: ((2 + (loop(\(x,i).((x + i) * i),x,2) div 2)) mod 3)
1: ((2 + (loop(\(x,i).21x,x,x) div 2)) mod 13)
1: ((1 + (loop(\(x,i).2x,(if (x + ~2) <= 0 then 1 else (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)),1) div 2)) mod 3)
1: ((x + (loop(\(x,i).2x,x,2) div (x + 1))) mod (1 + (x div 3)))
1: ((x + (loop(\(x,i).2x,x,(1 - ((~1 + loop(\(x,i).4x,x,2)) mod (x + 1)))) div (x + 1))) mod 3)
1: ((1 + (loop(\(x,i).x2,1,((2x + 8) div 5)) div 3)) mod 3)
1: ((1 + (loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2)) mod 7)
1: ((1 + (x div 2)) mod 7)
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1: ((x + (if (x + ~2) <= 0 then 1 else ((x + 2) div (2 + (x div 4))))) mod 2)
1: ((x + (if (x + ~2) <= 0 then x else 1)) mod (1 + (x mod 3)))
1: ((1 + (if (x + ~2) <= 0 then x else (if (x mod 4) <= 0 then 0 else 1))) mod 2)
1: ((x + (if (x + ~3) <= 0 then x else 1)) mod 3)
1: ((1 + (if (x + ~4) <= 0 then 1 else 2)) mod (x + 1))
1: (((if (x + ~4) <= 0 then 1 else (x div 2)) + (x div 3)) mod 2)
1: ((x + (if (x + ~10) <= 0 then 1 else 2)) mod 5)
1: ((1 + (if ((x + 3) mod (2 + (x div 5))) <= 0 then 2 else 0)) mod (1 + (x div 2)))
1: ((x + (if ((x + (x div 2)) mod 4) <= 0 then 1 else 2)) mod 5)
1: ((1 + (if ((x + loop(\(x,i).(x div (2 - (x mod 2))),x,x)) mod 3) <= 0 then 2 else 1)) mod (1 + (x div 2)))
1: ((1 + (if ((x + 1) mod 5) <= 0 then 2x else (x div 2))) mod (x + 1))
1: (((if ((x + 2) mod (1 + (x div 4))) <= 0 then 1 else 2) + (x div 2)) mod (x + 1))
1: ((1 + (if ((x + 2) mod (2 + ((x div 2) mod 2))) <= 0 then x else 0)) mod 5)
1: ((1 + (if ((x + ~1) mod 4) <= 0 then 2 else (x mod 2))) mod (x + 1))
1: (((if ((x + ~1) mod 7) <= 0 then 2 else 1) + (x mod 2)) mod (x + 1))
1: ((1 + (if ((x + ~2) mod 5) <= 0 then 1 else x)) mod 3)
1: ((x + (if ((x2 + ~x) mod (1 + (x div 2))) <= 0 then 0 else 1)) mod 3)
1: ((1 + (if (2x mod (4 + (x div 3))) <= 0 then 0 else 1)) mod (1 + (x div 3)))
1: ((x + (if (x2 mod (1 + (x div 2))) <= 0 then 1 else 2)) mod 4)
1: ((1 + (if (((x + (x div 2)) div 2) mod 2) <= 0 then x else 1)) mod (1 + (x div 3)))
1: ((1 + (if (((x + 2) div 3) mod 4) <= 0 then 2 else 0)) mod (1 + (x div 2)))
1: ((x + (if ((x div 3) mod 3) <= 0 then 1 else x)) mod 3)
1: ((x + (if ((x div ~2) mod 2) <= 0 then 2 else x)) mod 3)
1: ((x + (if ((x mod 5) mod 2) <= 0 then 1 else (x mod 3))) mod 2)
1: ((1 + (if ((x mod (~1 + (2 * (x div 3)))) mod 2) <= 0 then 1 else x)) mod 3)
1: ((x + (if (x mod 2) <= 0 then 1 else x)) mod 10)
1: (((2x + 1) + (if (x mod 2) <= 0 then 2 else x)) mod 5)
1: ((1 + (if (x mod 2) <= 0 then 6 else 1)) mod (x2 + 1))
1: ((x + (if (x mod 2) <= 0 then 6 else 1)) mod 9)
1: ((x + (if (x mod 2) <= 0 then x2 else (x + 1))) mod 9)
1: ((1 + (if (x mod 2) <= 0 then ((~x + 2) mod (1 + (x div 4))) else 0)) mod 3)
1: ((1 + (if (x mod 2) <= 0 then ((x div 3) mod 2) else 2)) mod (x + 1))
1: ((1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)) mod (1 + (if x <= 0 then 1 else x)))
1: ((2 + (if (x mod 2) <= 0 then (if (x mod 7) <= 0 then 2 else x) else 1)) mod (x + 1))
1: ((1 + (if (x mod 3) <= 0 then 0 else (if ((1 + (x div 3)) mod 5) <= 0 then 2 else 1))) mod 3)
1: (((if (x mod 3) <= 0 then 1 else x) + (x div 3)) mod 5)
1: ((x + (if (x mod 3) <= 0 then (if (~2 + (x div 4)) <= 0 then 1 else 2) else 0)) mod 4)
1: ((1 + (if (x mod 3) <= 0 then x else 0)) mod (1 + (x div 2)))
1: ((x + (if (x mod 4) <= 0 then 2 else 0)) mod 5)
1: ((2 + (if (x mod 4) <= 0 then 2 else (x mod 2))) mod (x + 1))
1: ((1 + (if (x mod 5) <= 0 then 0 else (x div 5))) mod (x + 1))
1: ((1 + (if (x mod 5) <= 0 then 0 else x)) mod 6)
1: ((1 + (if (x mod (4 + (x div 2))) <= 0 then x else 0)) mod 3)
1: ((1 + (if (x mod (4 + (x mod 4))) <= 0 then x else 0)) mod 3)
1: ((1 + (if (x mod 7) <= 0 then 0 else x)) mod (1 + (x div 3)))
1: ((1 + (if x <= 0 then 0 else (1 + (((3x + ~6) mod (1 + (x div 2))) div 3)))) mod 2)
1: ((1 + (if x <= 0 then 0 else (2 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2)))) mod 4)
1: ((2 + (if x <= 0 then 1 else 2)) mod (1 + (if (x mod 2) <= 0 then 4 else x)))
1: (((if x <= 0 then 1 else (x - ((x div ~4) div ~2))) + (x div 3)) mod 3)
1: ((2 + (if x <= 0 then 1 else (2 * (1 + (x div (2 + (x div (1 + ((loop(\(x,i).(x2 + x),1,loop(\(x,i).(if x <= 0 then i else (x div 2)),x,0)) mod (x + 1)) mod 3))))))))) mod 3)
1: ((2 + (if x <= 0 then 1 else (2 * (2x - ((x + ((x div 3) mod 3)) div 3))))) mod 3)
1: ((1 + (if x <= 0 then 1 else ((x * ((~x + 1) div 3)) div 2))) mod 2)
1: ((x + (if x <= 0 then 1 else (if (16 mod (x + 1)) <= 0 then 8 else 1))) mod 8)
1: ((1 + (if x <= 0 then 1 else x)) mod 5)
1: ((1 + (if x <= 0 then 1 else x)) mod (2 + ((x + (x mod 2)) div 3)))
1: ((1 + (if x <= 0 then 2 else (1 + (2 * (1 + (if (~x + 2) <= 0 then (1 - (2 * ((x mod (1 + (((x + 1) div 2) div 2))) mod 2))) else 0)))))) mod 5)
1: ((1 + (if x <= 0 then 2 else (1 - ((4 * (x div 3)) div 3)))) mod (x + 1))
1: ((1 + loop(\(x,i).((x * (x mod 2)) + (x div 2)),x,x)) mod 2)
1: ((1 + loop(\(x,i).(9 + ((x3 + x) div 2)),2,x)) mod (x + 1))
1: ((x + loop(\(x,i).(1 + ((2x + 4) div 3)),3,x)) mod 3)
1: (((x + ~2) + loop(\(x,i).(2 + (if (~x + i) <= 0 then 0 else x)),x,1)) mod (x + 1))
1: ((2 + loop(\(x,i).(2 + loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)),2,(x + 1))) mod 3)
1: ((loop(\(x,i).(3x + ~1),x,1) + (x mod 2)) mod (x + 1))
1: ((1 + loop(\(x,i).(x2 + 2x + ~4),3,x)) mod (x + 1))
1: ((1 + loop(\(x,i).(3x2 + ~1),2,3)) mod (x + 1))
1: ((1 + loop(\(x,i).(4x2 + ~1),2,2)) mod (x + 1))
1: ((1 + loop(\(x,i).(x4 + ~1),2,4)) mod (x + 1))
1: ((1 + loop(\(x,i).(~1 + (x2 * i)),2,4)) mod (x + 1))
1: ((x + loop(\(x,i).((x + ~1) + (2x mod (2 - (x mod ~4)))),2,x)) mod 3)
1: ((1 + loop(\(x,i).((x + 1) - ((1 + (2 * (x div 3))) div 3)),2,x)) mod (x + 1))
1: ((1 + loop(\(x,i).(x - (x div (~1 + (i mod ~2)))),x,1)) mod (x + 4))
1: ((1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x)) mod (x + 1))
1: ((x + loop(\(x,i).(x - (if x <= 0 then 1 else (x - ((if x <= 0 then 2 else loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 2)))),(x + ~1),x)) mod 3)
1: ((x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - ((x * (x div 2)) mod 2))))),x,x)) mod (x + 1))
1: ((x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 1))) mod 4)
1: ((x + loop(\(x,i).3x,x,1)) mod 7)
1: ((1 + loop(\(x,i).17x,(2 * (1 + (x mod 2))),x)) mod (x + 1))
1: ((1 + loop(\(x,i).(x * (1 + (4x * (1 + i)))),2,x)) mod (x + 1))
1: ((1 + loop(\(x,i).(x * (4x + (i mod 2))),2,2x)) mod (x + 1))
1: ((1 + loop(\(x,i).((x + ~1) * (2 + (i div 3))),x,1)) mod 3)
1: ((1 + loop(\(x,i).(x2 + x),2,6x)) mod (x + 1))
1: ((2 + loop(\(x,i).(x2 + x),2,6x)) mod (x + 1))
1: ((1 + loop(\(x,i).(2x + 4),(x + ~1),0)) mod (x + 1))
1: ((2 + loop(\(x,i).(3x + ~3),x,2)) mod (x + 1))
1: ((2 + loop(\(x,i).(x2 + ~x),2,5x)) mod (x + 1))
1: ((1 + loop(\(x,i).(5x2 + ~8x),2,x)) mod (x + 1))
1: (((x2 + x) + loop(\(x,i).(2 * (x - (x div ~4))),x,1)) mod 4)
1: ((1 + loop(\(x,i).10x,15,x)) mod (x + 1))
1: ((1 + loop(\(x,i).10x,6,x)) mod (x + 1))
1: ((1 + loop(\(x,i).10x,10,x)) mod (x + 1))
1: ((1 + loop(\(x,i).5x2,2,2x)) mod (x + 1))
1: ((1 + loop(\(x,i).34x,2,(2x + 1))) mod (x + 1))
1: ((1 + loop(\(x,i).(8x2 + 18x),2,x)) mod (x + 1))
1: ((1 + loop(\(x,i).(~6x + 12),x,1)) mod loop(\(x,i).2x,x,1))
1: ((1 + loop(\(x,i).(6x2 + 12x + ~6),2,x)) mod (x + 1))
1: ((1 + loop(\(x,i).(6x2 + ~12),2,(x + 1))) mod (x + 1))
1: ((1 + loop(\(x,i).(5x2 + ~10x),2,x)) mod (x + 1))
1: ((1 + loop(\(x,i).(20x2 + 30x),2,x)) mod (x + 1))
1: ((2 + loop(\(x,i).10x2,2,x)) mod (x + 1))
1: ((1 + loop(\(x,i).12x2,2,x)) mod (x + 1))
1: ((1 + loop(\(x,i).(x4 + 3x3 + 2x2),1,(x2 + 2))) mod (x + 1))
1: ((1 + loop(\(x,i).4x,22,x)) mod (x + 1))
1: ((x + loop(\(x,i).4x,(x mod 4),1)) mod (x + 1))
1: (((x + 1) + loop(\(x,i).4x,x,4)) mod (2x + 2))
1: ((loop(\(x,i).6x,(x + 1),1) + loop(\(x,i).(2x + 2),x,2)) mod (x + 1))
1: ((1 + loop(\(x,i).(x * (i * i)),((x + 1) div 2),1)) mod (x + 1))
1: ((x + loop(\(x,i).(((x + ~1) div 2) * i),x,1)) mod 4)
1: ((1 + loop(\(x,i).(x * (x div 2)),1,((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3))) mod (x + 1))
1: ((x + loop(\(x,i).((i div 2) * i),(x div 2),1)) mod 2)
1: ((1 + loop(\(x,i).2x,(1 + (loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2)),x)) mod 3)
1: ((x + loop(\(x,i).2x,(2 - (x mod 2)),(x div 2))) mod 5)
1: ((1 + loop(\(x,i).2x,(x div 2),1)) mod (x + 1))
1: ((1 + loop(\(x,i).2x,(x div 2),2)) mod (x + 2))
1: ((x + loop(\(x,i).2x,(x div (2 + (x mod (2 + (x mod 2))))),1)) mod (x + 1))
1: ((loop(\(x,i).2x,(x mod 8),1) + loop(\(x,i).2x,x,1)) mod (x + 1))
1: ((1 + loop(\(x,i).2x,x,1)) mod (3x + 1))
1: ((1 + loop(\(x,i).2x,x,1)) mod (2x + 1))
1: ((1 + loop(\(x,i).2x,x,2)) mod (x + 1))
1: ((loop(\(x,i).2x,x,2) + (if (x + ~2) <= 0 then 0 else 1)) mod (x + 1))
1: ((1 + loop(\(x,i).2x,x,(1 + (((1 + (x div 2)) div 2) div 2)))) mod (x + 1))
1: ((1 + loop(\(x,i).2x,x,(~1 + (loop(\(x,i).2x,x,1) mod (~1 + (2 * (((~x + 2) div 2) mod 4))))))) mod 3)
1: ((2 + loop(\(x,i).x2,2,3)) mod (x + 1))
1: ((1 + loop(\(x,i).x2,2,(x + 1))) mod (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: ((2 + loop(\(x,i).x2,2,5x)) mod (x + 1))
1: ((2 + loop(\(x,i).x2,2,4x)) mod (x + 1))
1: ((2 + loop(\(x,i).x2,4,2)) mod (x + 1))
1: ((1 + loop(\(x,i).x2,(2 - (x mod 2)),4)) mod (x + 1))
1: ((2 + loop(\(x,i).(2 * i),loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1)) mod 3)
1: ((1 + loop(\(x,i).(x * i),x,1)) mod (x2 + 2x + 1))
1: ((1 + loop(\(x,i).(x * i),x,1)) mod (x + 1))
1: ((2 + loop(\(x,i).(x * i),x,1)) mod (x + 2))
1: ((x2 + loop(\(x,i).(x * i),x,1)) mod (4x + 4))
1: ((1 + loop(\(x,i).((x * (1 + ((x div 2) div (1 + (x mod 2))))) div 2),3,x)) mod 3)
1: ((1 + loop(\(x,i).((x2 + x) div 2),2,7)) mod (x + 1))
1: ((x + loop(\(x,i).((x2 + x) div 2),2,(1 + (x div 2)))) mod (x + 3))
1: ((x + loop(\(x,i).((2 * i) div (x + 2)),x,1)) mod 2)
1: ((x + loop(\(x,i).((x * i) div 2),x,(x + 1))) mod 2)
1: ((1 + loop(\(x,i).(x div 2),(x div 3),(x + 2))) mod 2)
1: ((1 + loop(\(x,i).(x div 2),x,loop(\(x,i).3x,x,1))) mod 2)
1: ((1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),(1 + (2 * (x mod 2))),(x + ~1))) mod 3)
1: ((1 + loop(\(x,i).(x div (2 - (x mod 2))),x,(x div (1 + (if (x mod 3) <= 0 then 2 else 0))))) mod 3)
1: ((1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)) mod 3)
1: ((x + loop(\(x,i).(((x + 1) - (loop(\(x,i).2x,x,2) mod (x + 2))) mod (x + 1)),1,(x + 1))) mod 4)
1: ((1 + loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),(x div 2),x)) mod 3)
1: ((1 + loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),x,(x + 2))) mod 3)
1: ((1 + loop(\(x,i).(if x <= 0 then (2 * i) else (x - (i mod 2))),x,0)) mod (x + 1))
1: ((2 + loop(\(x,i).loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),(x + ~2),x),1,(x + 1))) mod 3)
1: ((1 + loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,3x)) mod 3)
1: ((1 + loop(\(x,i).loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)),1,(x - ((~x + 2) div 2)))) mod 3)
1: ((3 + loop(\(x,i).i,(x div 4),2)) mod (x + 2))
1: ((x + loop(\(x,i).i,(x div 5),1)) mod 2)
1: ((x + loop(\(x,i).i,((~x + 2) mod 7),1)) mod 4)
1: ((x + 1) mod (5 + ((x mod (2 + (x mod 2))) div 2)))
1: ((x + 1) mod (5 + ((((x + ~1) mod (1 + (x div 2))) div 2) mod 3)))
1: ((x + 1) mod (5 + ((if (x mod 2) <= 0 then x else (~x + 2)) mod 3)))
1: ((x + 1) mod (6 + (x mod 2)))
1: ((x + 1) mod (5 + (if (x mod 3) <= 0 then 1 else 2)))
1: ((x + 1) mod (1 + ((3 * (x mod 2)) + (x div 4))))
1: ((x + 1) mod (2 + ((((x + 1) div 2) div 3) + (if x <= 0 then 0 else 1))))
1: ((x + 1) mod (3 + (x div (2 + (x mod 2)))))
1: ((x + 1) mod (1 + ((x div (3 * (2 + ((x2 + x) mod 8)))) + (x mod 2))))
1: ((x + 1) mod (3 + (4 mod (x + 2))))
1: ((x + 1) mod (4 + ((6 + ((1 + ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 7)) div 2)) mod (x + 1))))
1: ((x + 1) mod (4 + ((6x + 84) mod 11)))
1: ((x + 1) mod (4 + (((((x + 1) div 2) div 2) * (x div 2)) mod 2)))
1: ((x + 1) mod (4 + ((x div 2) mod 2)))
1: ((x + 1) mod (3 + ((x div 2) mod 3)))
1: ((x + 1) mod (3 + (x mod 3)))
1: ((x + 1) mod (4 + (x mod (2 + (x mod 2)))))
1: ((x + 1) mod (4 + (if (x mod 2) <= 0 then 1 else 8)))
1: ((x + 1) mod (4 - (((x + ~1) div 2) div 2)))
1: ((x + 1) mod (4 - ((x mod 5) div 2)))
1: ((x + 1) mod (4 - (x div 4)))
1: ((x + 1) mod (4 - ((x div 2) mod 3)))
1: ((x + 1) mod (4 - (x mod 2)))
1: ((x + 1) mod (4 - (x mod 4)))
1: ((x + 1) mod (1 + (x div 2) - (2 * ((x div 2) div 3))))
1: ((x + 1) mod ((x + 2) - ((x * (x mod 2)) mod 8)))
1: ((x + 1) mod (1 + (2 * (3 - (x mod 2)))))
1: ((x + 1) mod (~2x + 7))
1: ((x + 1) mod (1 + (2 * (1 + (((2x2 + 1) mod (2 + (x div 4))) div 2)))))
1: ((x + 1) mod (1 + (2 * ((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)))))
1: ((x + 1) mod (1 + (2 * (((2x + 1) mod (1 + (2x mod (2 + (x div 4))))) + (if x <= 0 then 0 else 1)))))
1: ((x + 1) mod (1 + (2 * (1 + ((x + ((1 - (x2 div 2)) mod 3)) mod 3)))))
1: ((x + 1) mod (1 + ((1 + ((1 + (if x <= 0 then 1 else x)) mod 3)) * (1 + (x mod 2)))))
1: ((x + 1) mod (1 + (2 * (1 + ((x div (1 + (x mod 9))) mod 2)))))
1: ((x + 1) mod (1 + (2 * (1 + ((x mod (1 + (2 * (x mod 6)))) mod 2)))))
1: ((x + 1) mod (1 + (2 * (1 + (loop(\(x,i).(~x + 1),x,(x + 2)) mod 3)))))
1: ((x + 1) mod (1 + ((1 + (x mod 2)) * (if x <= 0 then 0 else 2))))
1: ((x + 1) mod (1 + (2 * (1 + (x mod (1 + (8 * (x mod (2 + (x mod 2))))))))))
1: ((x + 1) mod (1 + (2 * (1 + (x mod (1 + (2 * ((x div 2) div 3))))))))
1: ((x + 1) mod (1 + (2 * (1 + (x mod (1 + (2 * (((2x + ~4) mod (x + 2)) mod 2))))))))
1: ((x + 1) mod (1 + (2 * (2 + (x mod (2 * (2 + (x mod 2))))))))
1: ((x + 1) mod (1 + (3 * (2 - ((x mod (2 + (x mod 2))) div 2)))))
1: ((x + 1) mod (1 + (2 * (2 - (x mod ~4)))))
1: ((x + 1) mod (1 + (2 * (~2 + (x mod 2)))))
1: ((x + 1) mod (1 + (2 * ((x + ~1) - ((2 * ((2x + 1) - (x2 div (3x + 4)))) div 3)))))
1: ((x + 1) mod (1 + (6 * (2 + (x mod 2)))))
1: ((x + 1) mod (1 + (4 * (2 - ((x mod 3) div 2)))))
1: ((x + 1) mod (1 + (4 * (2 - ((x div 3) mod 2)))))
1: ((x + 1) mod (1 + (8 * (2 div (6 - (x div 3))))))
1: ((x + 1) mod (1 + (8 * (x div (~2x + 32)))))
1: ((x + 1) mod (1 + (4 * (4x mod 7))))
1: ((x + 1) mod (1 + (4 * ((x div 4) mod 2))))
1: ((x + 1) mod (1 + (4 * ((2x mod (2 + (x div 2))) mod 2))))
1: ((x + 1) mod (1 + (4 * (x mod (1 + (4 * (if (x mod 3) <= 0 then 0 else 2)))))))
1: ((x + 1) mod (1 + (4 * (x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4)))))))))
1: ((x + 1) mod (1 + (6 * (if (16 mod (x + 1)) <= 0 then 2 else 0))))
1: ((x + 1) mod (1 + (4 * (if (x mod 5) <= 0 then 10 else 1))))
1: ((x + 1) mod (1 + (2 * ((2x + 1) div (1 + (x div 3))))))
1: ((x + 1) mod (1 + (2 * ((1 + (((x + 1) div 2) div 2)) div 2))))
1: ((x + 1) mod (1 + (2 * ((2 + (x div 2)) div 3))))
1: ((x + 1) mod (1 + (2 * ((1 + (x div 4)) div (1 + (x mod 5))))))
1: ((x + 1) mod (1 + (2 * ((x + 2) div (1 + (2 * (3 - (x mod 2))))))))
1: ((x + 1) mod (1 + (2 * (((x div 2) - (x mod 3)) div 2))))
1: ((x + 1) mod (1 + (((x + ~1) div 5) * (x div 3))))
1: ((x + 1) mod (1 + (2 * ((3 * (2x div 9)) div 2))))
1: ((x + 1) mod (1 + (2 * ((3 * (x div 5)) div 2))))
1: ((x + 1) mod (1 + (2 * ((x div 2) div (1 + ((((x + 1) div 2) div 2) div 2))))))
1: ((x + 1) mod (1 + (2 * (((~x2 + 2) mod (2 - (x div ~2))) div 2))))
1: ((x + 1) mod (1 + (2 * ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3))))
1: ((x + 1) mod (1 + (2 * ((loop(\(x,i).(2x + 2),x,(if (x mod (2 + (x mod 4))) <= 0 then 1 else 0)) mod (x + 1)) div 2))))
1: ((x + 1) mod (1 + (2 * ((x mod ~21) div 2))))
1: ((x + 1) mod (1 + (2 * (x div (1 + (2 * (2 - (x mod 2))))))))
1: ((x + 1) mod (1 + (2 * (x div (3 * (1 + ((x2 + 2x) mod 6)))))))
1: ((x + 1) mod (1 + (2 * ((1 + ((x2 + ~x) div 2)) mod (1 + (x div 3))))))
1: ((x + 1) mod (1 + (2 * ((1 + (x2 div (x + 4))) mod 2))))
1: ((x + 1) mod (1 + (2 * ((x + 1) mod (1 + (x div 4))))))
1: ((x + 1) mod (1 + (2 * ((x + 2) mod 4))))
1: ((x + 1) mod (1 + (2 * ((1 - (((2x + ~2) mod (2 + (x div 4))) mod 3)) mod 3))))
1: ((x + 1) mod (1 + (2 * ((~x + 1) mod 3))))
1: ((x + 1) mod (1 + (2 * ((~x + 1) mod 4))))
1: ((x + 1) mod (1 + (2 * ((~x + 1) mod 5))))
1: ((x + 1) mod (1 + (2 * ((~x + 1) mod 8))))
1: ((x + 1) mod (1 + (3 * ((~x + 2) mod 3))))
1: ((x + 1) mod (1 + (2 * ((~x + 2) mod (2 + (x mod 2))))))
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1: ((x + 1) mod ((x + ~2) + (2x mod 5)))
1: ((x + 1) mod ((x + 1) - (loop(\(x,i).2x,x,1) mod (x + 1))))
1: ((x + 1) mod (x - ((x + 1) mod 3)))
1: ((x + 1) mod (2 * (1 + (4 * (x mod (2 + (x mod 2)))))))
1: ((x + 1) mod ((1 + ((x div 2) div 3)) * (1 + (x mod 3))))
1: ((x + 1) mod (2 * (2 + (x div (3 + ((x div 2) mod 5))))))
1: ((x + 1) mod (2 * (1 + (x div (3 * (2 + (x2 mod 3)))))))
1: ((x + 1) mod (2 * (1 + (x div (~2x + 32)))))
1: ((x + 1) mod (3 * (1 + (x div (2 * (if (x mod 2) <= 0 then 4 else 1))))))
1: ((x + 1) mod (2 * (1 + (2 mod (x + 1)))))
1: ((x + 1) mod (2 * (1 + ((1 + (x div 2)) mod 6))))
1: ((x + 1) mod (2 * (2 + ((2 * (2 - ((x * (x div 2)) mod 2))) mod (x + 1)))))
1: ((x + 1) mod ((1 + ((x div 2) mod 4)) * (1 + (x mod 3))))
1: ((x + 1) mod (2 * (2 + (x mod 2))))
1: ((x + 1) mod (3 * (1 + (x mod 4))))
1: ((x + 1) mod (5 * (1 + (x mod 5))))
1: ((x + 1) mod (2 * (1 + (x mod (3 - (x mod 2))))))
1: ((x + 1) mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4))))))
1: ((x + 1) mod (2 * (1 + (x mod (1 + ((x + ~1) mod 5))))))
1: ((x + 1) mod (3 * (1 + (x mod (1 + ((x2 + 2x) mod 8))))))
1: ((x + 1) mod (2 * (1 + (x mod (2 * (1 + (x mod 2)))))))
1: ((x + 1) mod (3 * (1 + (if (x + ~4) <= 0 then 0 else 2))))
1: ((x + 1) mod (2 * (1 + (if (x mod (2 + (x mod 2))) <= 0 then 0 else 2))))
1: ((x + 1) mod (2 * (~1 - (if (x + ~4) <= 0 then 0 else 2))))
1: ((x + 1) mod (4 * (1 + (x div (2 + (loop(\(x,i).(x * (2 + i)),4,2) mod (x + 1)))))))
1: ((x + 1) mod (2 * (if (~x + 2) <= 0 then ((x - (x div 4)) div 2) else 1)))
1: ((x + 1) mod ((2x2 + 1) div (1 + (2 * (x + (x div 2))))))
1: ((x + 1) mod ((2 + ((((x * (x div 2)) div 2) mod (x + 1)) div 2)) div 2))
1: ((x + 1) mod ((x + 1) div (1 + (x div 4))))
1: ((x + 1) mod ((if (x mod 2) <= 0 then 1 else x) mod 6))
1: ((x + 1) mod (loop(\(x,i).(2x + 2),x,1) mod (x + 2)))
1: ((x + 1) mod (loop(\(x,i).(~2x + 2),x,3) mod (x + 2)))
1: ((x + 1) mod (if ((x + ~2) mod 5) <= 0 then 1 else 2))
1: ((x + 1) mod (if (x mod 3) <= 0 then (2 - ((~x + ((x div 2) mod 2)) div 2)) else 1))
1: ((x + 1) mod (if (x mod 7) <= 0 then 1 else 2))
1: ((x + 1) mod (if (x mod 6) <= 0 then (x + ~2) else 2))
1: ((x + 1) mod (if x <= 0 then 1 else (x + (x mod 2) - (((x - ((~1 + (x div 2)) div 2)) div 2) mod 2))))
1: ((x + 1) mod (if x <= 0 then 1 else (2 * (1 + (2 * (x mod 2))))))
1: ((x + 1) mod (if x <= 0 then 1 else (2 * (2 + (x mod (x - ((x + ~1) mod 8)))))))
1: ((x + 1) mod (if x <= 0 then 2 else (2 - ((~x2 + 4x + ~4) mod 5))))
1: ((x + 1) mod loop(\(x,i).2x,((x div 2) - (2 * (x div 5))),1))
1: ((x + 1) mod loop(\(x,i).2x,((~1 + loop(\(x,i).x2,1,(1 + (x mod (1 + (x div (1 + (loop(\(x,i).2x,x,2) mod (2x + 1))))))))) mod (x + 1)),1))
1: ((x + 2) mod (5 + (x mod 2)))
1: ((x + 2) mod (2 + (((x div 2) div 3) + (if x <= 0 then 0 else 1))))
1: ((x + 2) mod (4 + (x div 3)))
1: ((x + 2) mod (3 + (x div 8)))
1: ((x + 2) mod (3 + (2 mod (x + 1))))
1: ((x + 2) mod (4 + (3 mod (x + 1))))
1: ((x + 2) mod (4 + ((x div 2) mod 2)))
1: ((x + 2) mod (4 + ((x div 4) mod 2)))
1: ((x + 2) mod (4 + (x mod 2)))
1: ((x + 2) mod (4 + (x mod (2 + (x mod 2)))))
1: ((x + 2) mod (5 - (x div 4)))
1: ((x + 2) mod ((x + 3) - (2x mod (4 + (x div 4)))))
1: ((x + 2) mod (3 - ((((x + 1) div 2) div 2) mod 2)))
1: ((x + 2) mod (3 - ((x div 4) mod 2)))
1: ((x + 2) mod (8 + (x mod 2)))
1: ((x + 2) mod (1 + (2 * (3 - (x mod 2)))))
1: ((x + 2) mod (1 + (2 * (1 + (2 * (2 + ((x2 + 2x) mod 6)))))))
1: ((x + 2) mod (1 + (2 * (2 + (x mod 2)))))
1: ((x + 2) mod (1 + (8 * (x mod 2))))
1: ((x + 2) mod (1 + (4 * (x mod 4))))
1: ((x + 2) mod (1 + (2 * ((1 + (((x + 1) div 2) div 2)) div 2))))
1: ((x + 2) mod (1 + (2 * ((2 + (x div 2)) div 3))))
1: ((x + 2) mod (1 + (2 * ((x + (4 mod (x + 1))) div 3))))
1: ((x + 2) mod (1 + (2 * ((x * (1 - ((x3 div 8) mod 2))) div 3))))
1: ((x + 2) mod (1 + ((x div 2) * (x div 2))))
1: ((x + 2) mod (1 + (2 * (x div (2 + (5 * (x mod 4)))))))
1: ((x + 2) mod (1 + (2 * (2x mod 3))))
1: ((x + 2) mod (1 + (2 * ((((x + ~1) div 2) div 2) mod 3))))
1: ((x + 2) mod (1 + (2 * (if (x + ~1) <= 0 then 1 else (((x + 1) div 2) div 3)))))
1: ((x + 2) mod (1 + (2 * (if (x mod 2) <= 0 then x else 2))))
1: ((x + 2) mod (1 + (3 * (if x <= 0 then 0 else 2))))
1: ((x + 2) mod (1 + (2 * i)))
1: ((x + 2) mod (1 + ((1 + (x div 2)) div 2)))
1: ((x + 2) mod (2 + ((x + (x mod 2)) div 3)))
1: ((x + 2) mod (1 + ((x + 1) div 3)))
1: ((x + 2) mod (1 + ((x + 2) div 5)))
1: ((x + 2) mod (1 + ((x + 2) div (2 + ((x div 2) div (1 + (x mod 2)))))))
1: ((x + 2) mod (1 + ((x + 2) div (2 + (x div 4)))))
1: ((x + 2) mod (1 + ((x - ((x div 3) mod 3)) div 2)))
1: ((x + 2) mod (2 + ((x - (x mod (2 * (2 + (x mod 2))))) div 2)))
1: ((x + 2) mod (1 + ((5 * (x + (x div 4))) div (x + 1))))
1: ((x + 2) mod (2 + ((3 * ((x div 2) mod 3)) div 2)))
1: ((x + 2) mod (1 + (2x div 5)))
1: ((x + 2) mod (1 + (2x div (2 - (x div ~2)))))
1: ((x + 2) mod (1 + (((x + 1) div (2 * (1 + (x mod (2 + (x mod 2)))))) div 2)))
1: ((x + 2) mod (2 + ((x div 2) div (1 + (x mod 2)))))
1: ((x + 2) mod (2 + (((x2 div 2) mod (x + 1)) div 2)))
1: ((x + 2) mod (1 + (x div (3 + (x div 4)))))
1: ((x + 2) mod (1 + (x div (4 + (x div 4)))))
1: ((x + 2) mod (1 + (x div (1 + (2 * (1 + (x mod 3)))))))
1: ((x + 2) mod (1 + (x div (~2x + 33))))
1: ((x + 2) mod (1 + (x div (2 + (x div 4)))))
1: ((x + 2) mod (1 + (x div (2 + ((x + 1) mod 3)))))
1: ((x + 2) mod (1 + (x div (2 - (x mod ~3)))))
1: ((x + 2) mod (2 + (x div 8)))
1: ((x + 2) mod (1 + (4 mod (x + 1))))
1: ((x + 2) mod (1 + ((4 + (x div 2)) mod (1 + (x div 3)))))
1: ((x + 2) mod (1 + ((1 + (2 * (2 + (if (~2 + (x div 2)) <= 0 then x else 2)))) mod (x + 1))))
1: ((x + 2) mod (1 + ((1 + ((x + (2x div (2 + (x div 2)))) div 2)) mod 3)))
1: ((x + 2) mod (2 + ((x + (x2 div 3)) mod 3)))
1: ((x + 2) mod (2 + ((1 + (x div 2)) mod 4)))
1: ((x + 2) mod (1 + ((1 + (((x + 1) div (if ((x + 1) mod 5) <= 0 then 4 else 1)) mod 3)) mod (x + 1))))
1: ((x + 2) mod (2 + ((x + 1) mod 3)))
1: ((x + 2) mod (2 + ((x + 1) mod 4)))
1: ((x + 2) mod (1 + ((x + 1) mod (2 + (x div (1 + (if (x mod 3) <= 0 then 2 else 1)))))))
1: ((x + 2) mod (1 + (~x mod 4)))
1: ((x + 2) mod (1 + ((~x + 1) mod (1 + (2x div (2 + (x div 2)))))))
1: ((x + 2) mod (2 + ((~x + 1) mod (1 + (x div 2)))))
1: ((x + 2) mod (1 + ((2 - (x div 2)) mod 4)))
1: ((x + 2) mod (2 + ((~1 + loop(\(x,i).2x,x,4)) mod (x + 1))))
1: ((x + 2) mod (1 + ((x + ~1) mod 3)))
1: ((x + 2) mod (1 + ((x + ~1) mod 5)))
1: ((x + 2) mod (1 + (((x + ~2) - (x mod 2)) mod 5)))
1: ((x + 2) mod (1 + ((x - (x div 4)) mod 6)))
1: ((x + 2) mod (2 + ((2 * (x + (if x2 <= 0 then 1 else (1 + (2 * loop(\(x,i).4x,(x + ~2),3)))))) mod (x + 1))))
1: ((x + 2) mod (2 + ((2 * (x div 2)) mod 3)))
1: ((x + 2) mod (2 + (((x + ~1) div 2) mod 2)))
1: ((x + 2) mod (2 + ((x div 2) mod 5)))
1: ((x + 2) mod (1 + ((x div 2) mod (2 * (2 - (x mod 2))))))
1: ((x + 2) mod (2 + ((x3 mod ((x + 1) + (x div 2))) mod 2)))
1: ((x + 2) mod (1 + ((x mod (~2 + (x mod (~2 + ((~x + 2) div 4))))) mod 3)))
1: ((x + 2) mod (1 + (loop(\(x,i).~2x,x,1) mod (1 + (x div 2)))))
1: ((x + 2) mod (2 + (x mod 9)))
1: ((x + 2) mod (2 + (x mod (1 + ((x + 1) div 5)))))
1: ((x + 2) mod (1 + (x mod (2 + (x div 2)))))
1: ((x + 2) mod (1 + (x mod (1 + (x div 4)))))
1: ((x + 2) mod (2 + (x mod (1 + (x div 4)))))
1: ((x + 2) mod (1 + (x mod (1 + (x div (2 + (if ((x + 1) mod 5) <= 0 then 2 else 1)))))))
1: ((x + 2) mod (2 + (x mod 11)))
1: ((x + 2) mod (1 + (x mod 6)))
1: ((x + 2) mod (2 + (x mod 6)))
1: ((x + 2) mod (2 + (x mod (2 * (2 + (x mod 2))))))
1: ((x + 2) mod (2 + (if (~2 + (x div 2)) <= 0 then 2 else 1)))
1: ((x + 2) mod (2 + (if (x + ~1) <= 0 then 0 else (3 * (x mod ~4)))))
1: ((x + 2) mod (1 + (if (x + ~1) <= 0 then 1 else (2 * ((x - (x div 3)) div 3)))))
1: ((x + 2) mod (2 + (if (x + ~2) <= 0 then 1 else 2)))
1: ((x + 2) mod (2 + (if (x + ~4) <= 0 then 1 else 2)))
1: ((x + 2) mod (~2 - (x div 4)))
1: ((x + 2) mod (1 - ((~x + (x mod 2)) div 3)))
1: ((x + 2) mod (2 - ((1 - (x div 2)) div (1 + (2 mod (x + 1))))))
1: ((x + 2) mod (2 - ((x div 2) div ~3)))
1: ((x + 2) mod (2 - (x div (~1 - (x mod 3)))))
1: ((x + 2) mod ((x + 2) - (loop(\(x,i).2x2,2,4) mod (x + 1))))
1: ((x + 2) mod ((x + 2) - (x mod 9)))
1: ((x + 2) mod ~9)
1: ((x + 2) mod (~1 + (2 * (0 - (x mod (2 + (x mod 2)))))))
1: ((x + 2) mod (~1 + (2 * ((x div 2) - (x mod 2)))))
1: ((x + 2) mod (2x + ~5))
1: ((x + 2) mod 15)
1: ((x + 2) mod (~1 + (4 * (x mod (2 + (x mod 2))))))
1: ((x + 2) mod (~1 + (2 * (((~x + 2) div 2) div 3))))
1: ((x + 2) mod (~1 + (2 * (x div 4))))
1: ((x + 2) mod (~1 + (2 * ((~2x + 4) mod (1 + (x div 2))))))
1: ((x + 2) mod (~1 + (2 * (x mod 8))))
1: ((x + 2) mod (~2 + (x mod ~2)))
1: ((x + 2) mod ((x + 1) - ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2)))
1: ((x + 2) mod ~8)
1: ((x + 2) mod 14)
1: ((x + 2) mod (2 * (1 + ((1 + (x div 2)) div 3))))
1: ((x + 2) mod (2 * (2 + ((1 - (2 * ((~x + 1) div 7))) mod (x + 1)))))
1: ((x + 2) mod (2 * (2 + ((x div 4) mod 2))))
1: ((x + 2) mod (2 * (1 + (x mod 2))))
1: ((x + 2) mod (2 * (2 + (x mod 2))))
1: ((x + 2) mod ((1 + (x mod (1 + (x div 3)))) * (1 + (x mod 2))))
1: ((x + 2) mod (3 * ((if (x mod 2) <= 0 then 1 else x) mod 4)))
1: ((x + 2) mod (2 * (if (x mod 2) <= 0 then 4 else 1)))
1: ((x + 2) mod ((x + ((~1 + (x div 2)) mod 3)) div 2))
1: ((x + 2) mod ((x + 2) div (1 + (x mod 4))))
1: ((x + 2) mod (((~x + ~1) + (x mod 2)) div 5))
1: ((1 + i) mod 2)
1: ((2 + i) mod (2 + (x mod 2)))
1: ((2 + compr(\x.(1 - ((~1 + loop(\(x,i).2x,x,2)) mod (x + 2))),x)) mod 10)
1: ((1 + compr(\x.(1 - (((x + 1) div (2 + ((x * (x div 2)) mod 2))) mod 3)),x)) mod (x + 1))
1: ((1 + compr(\x.(1 - (x mod (2 + (x mod 3)))),(x + 1))) mod (x + 1))
1: ((2 + compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),(x + 1))) mod 8)
1: ((2 + compr(\x.(2 - (x mod (1 + (2 * (1 + (x mod 3)))))),x)) mod (x + 1))
1: ((2 + compr(\x.(~1 + ((1 + (if (x mod 3) <= 0 then 0 else (if ((1 + (x div 3)) mod 5) <= 0 then 2 else 1))) mod 3)),x)) mod (x + 1))
1: ((2 + compr(\x.(loop(\(x,i).(2x + 1),x,0) mod (x + 1)),x)) mod (x + 1))
1: ((2 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x)) mod (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: ((1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 10)
1: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 13)
1: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod (2 + (x * (1 + (x mod 8)))))
1: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 19)
1: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 17)
1: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 25)
1: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 21)
1: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod (1 + (x mod 9)))
1: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod (1 + (x mod 12)))
1: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod (x + 1))
1: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod (x + 2))
1: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x)))
1: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 11)
1: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 29)
1: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 15)
1: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 23)
1: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 8)
1: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 14)
1: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 27)
1: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 26)
1: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod (2x + 2))
1: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 22)
1: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 18)
1: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 30)
1: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 16)
1: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 24)
1: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 20)
1: ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 28)
1: ((3 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 7)
1: ((5 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 19)
1: (((x + 2) + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 10)
1: ((compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)) mod 5)
1: ((2 + compr(\x.(loop(\(x,i).(~2x + 2),x,2) mod (x + 2)),x)) mod (x + 1))
1: ((1 + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x)) mod 5)
1: ((1 + compr(\x.loop(\(x,i).(x - (if (x mod (2 + i)) <= 0 then 0 else 1)),x,x),x)) mod 3)
1: (~1 mod (2 - ((2x + 1) mod (4 + (x div 4)))))
1: (~1 mod (x - ((x + 2) mod 7)))
1: (~1 mod (((x4 + ~x2 + ~1) div 2) div 3))
1: (~2 mod (1 + (4 * (x mod 3))))
1: (~2 mod (1 + (x * (x div 2))))
1: (~2 mod (1 + ((x * (x mod 2)) div 4)))
1: (~2 mod (1 + ((x div (2 - (x mod 2))) div 3)))
1: (~2 mod (1 + (x div 2)))
1: (~2 mod (1 + (x mod 4)))
1: (~2 mod (1 + (x mod 9)))
1: (~2 mod (x + loop(\(x,i).i,(x + ~5),1)))
1: (~2 mod (~1 + ((~2x + 2) mod (4 + (x div 4)))))
1: (~2 mod loop(\(x,i).(x - i),x,loop(\(x,i).2x,x,1)))
1: ((~1 - (x div 4)) mod (1 + (x div 5)))
1: ((~2 - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 10)
1: ((~2 - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 20)
1: ((0 - ((x + 1) * (1 + (x mod 4)))) mod 7)
1: ((0 - (3 * (1 + (x mod (1 + (x mod 4)))))) mod (x + 1))
1: ((~x2 + ~x) mod 5)
1: ((0 - (4 * (x mod 2))) mod (~1 + loop(\(x,i).2x,x,2)))
1: ((0 - (2 * (x div (1 + (x mod 12))))) mod (x + 1))
1: ((0 - (2 * (x mod 7))) mod (if x <= 0 then 1 else x))
1: ((0 - ((x + 1) div (1 + (x div 4)))) mod (1 + (x div 2)))
1: ((0 - ((x - (((x div 2) - (x mod 4)) div 2)) div 2)) mod (x + 1))
1: ((0 - ((x * (x mod 2)) div 3)) mod 5)
1: ((0 - ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 2)) mod 3)
1: ((0 - ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3)) mod 3)
1: ((0 - (x div 4)) mod 3)
1: ((0 - (x div 5)) mod 3)
1: ((0 - ((x + 1) mod 9)) mod (2x + 2))
1: ((0 - ((x + 1) mod 8)) mod (x + 1))
1: ((0 - ((x + 1) mod 10)) mod (2x + 2))
1: ((0 - ((2 - (2x mod (4 + (x div 4)))) mod (x + 1))) mod (1 + ((x + 1) div 3)))
1: ((0 - (x mod 3)) mod 9)
1: ((0 - (x mod 3)) mod (2 + (x div 3)))
1: ((0 - (x mod 3)) mod (1 + (x mod 6)))
1: ((0 - (x mod 4)) mod (1 + (x div 2)))
1: ((0 - (x mod 5)) mod (1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))
1: ((0 - (x mod (4 + (x div 2)))) mod (x + 1))
1: ((0 - (x mod (1 + (2 * (if (x mod 3) <= 0 then 0 else 2))))) mod (x + 1))
1: ((0 - (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)) mod (x + 1))
1: ((0 - (if (x mod 3) <= 0 then ((loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,x) div 2) mod 3) else 1)) mod 3)
1: ((0 - loop(\(x,i).((x + 1) + (2 * (2x + (x mod 2)))),x,1)) mod (x + 1))
1: ((0 - loop(\(x,i).(x + (i * i)),(x div 2),0)) mod (x + 1))
1: ((0 - loop(\(x,i).(x2 + ~x),2,loop(\(x,i).(2x + 1),x,0))) mod (x + 1))
1: ((0 - loop(\(x,i).10x,x,1)) mod (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: ((0 - loop(\(x,i).x2,1,(1 + (x mod (1 + (x div (1 + (loop(\(x,i).2x,x,2) mod (2x + 1))))))))) mod (x + 1))
1: (~x mod (3 + ((x div 2) mod 3)))
1: (~x mod (8 + i))
1: (~x mod (1 + (12 * ((((x + 1) div 2) div 2) div 2))))
1: (~x mod (30x + 1))
1: (~x mod (1 + (x * (x div 2))))
1: (~x mod (1 + (x * loop(\(x,i).(2x2 + 8x + 8),2,0))))
1: (~x mod (x2 + 1))
1: (~x mod (1 + ((x - (x mod 3)) div 2)))
1: (~x mod (1 + (2x div 3)))
1: (~x mod (2 + (x2 div 2)))
1: (~x mod (1 + (x div 3)))
1: (~x mod (1 + (x div 5)))
1: (~x mod (1 + ((x + 1) mod 5)))
1: (~x mod (1 + ((2x div 3) mod (1 + (x div 2)))))
1: (~x mod (2 + ((x div 2) mod 2)))
1: (~x mod (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))
1: (~x mod (1 + (x mod (~1 + (2 * (x div 4))))))
1: (~x mod (1 + loop(\(x,i).loop(\(x,i).2x,x,x),x,1)))
1: (~x mod ((~x2 + ~2) + loop(\(x,i).2x,x,1)))
1: (~x mod (48x + ~1))
1: (~x mod (~1 + loop(\(x,i).2x,x,2)))
1: (~x mod ((x + 1) - (x mod 10)))
1: (~x mod (x - ((x + ~1) mod 8)))
1: (~x mod 6)
1: (~x mod (5 * (1 + (x mod 4))))
1: (~x mod 16)
1: (~x mod (if (x + ~4) <= 0 then 1 else 6))
1: (~x mod loop(\(x,i).(2x + i),(x + ~1),2))
1: (~x mod loop(\(x,i).(~1 + ((x2 + x) div 2)),2,x))
1: ((0 - (2 * ((x + ~1) mod 4))) mod (2x + 1))
1: (((~x2 + 1) - (x mod 2)) mod (x + 3))
1: (((~x + 1) - ((x2 + 1) div (x + 3))) mod 5)
1: ((~1 - (x2 div 3)) mod 4)
1: (((~x + 1) - loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,x)) mod 3)
1: ((~7 + (x div 2)) mod (1 + (x div 2)))
1: ((1 + (x div 2) - (2 * (x + (x mod 2)))) mod 10)
1: ((1 + ((x div 4) mod 2) - (x div 2)) mod (x + 1))
1: ((1 + (x mod 3) - (x div 2)) mod (x + 2))
1: ((3 - ((2x + ~1) mod 5)) mod (x + 1))
1: (~7 mod (1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))
1: (~7 mod (2 + (x div 2)))
1: (~7 mod (1 + (x div 3)))
1: (~7 mod (2 + (x div 4)))
1: ((~x3 + ~2x2 + ~2x + ~3) mod (2 + (x div 5)))
1: ((1 - (2 * ((2x + 2) + ((x - (x div 4)) div 2)))) mod (x + 1))
1: ((~x2 + ~x + 1) mod 9)
1: ((~x2 + ~x + 1) mod 10)
1: ((1 - (2 * ((x div 2) - (x div 7)))) mod (x + 1))
1: (~89 mod (x + 1))
1: ((1 - (6 * (2 + ((1 + (((x + 1) * (1 + (2 * (37 div (x + 1))))) div 2)) div 2)))) mod 9)
1: (~31 mod (1 + (x div 2)))
1: ((~4x2 + ~4x + 1) mod (1 + (x div 3)))
1: ((~x5 + 1) mod 11)
1: ((~2x2 + ~2x + 1) mod 9)
1: ((~2x2 + 1) mod (1 + (x div 3)))
1: ((1 - (2 * ((1 + ((x + (x div 2)) div 2)) div 2))) mod (x + 1))
1: ((1 - (2 * ((~x + 1) div 7))) mod (x + 1))
1: ((1 - (2 * ((x - (x mod (2 + (x mod 2)))) div 2))) mod (x + 1))
1: ((1 - (2 * (((if (x mod 4) <= 0 then 0 else 1) * (1 + (x div 2))) div 2))) mod (x + 1))
1: ((1 - (2 * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2))) mod 5)
1: ((1 - (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + ((x - (x mod 5)) div 2)))) mod 5)
1: ((1 - ((x div 2) * (x div 2))) mod (x + 2))
1: ((1 - (x * (x div 2))) mod (1 + (if (x mod 8) <= 0 then 2 else 1)))
1: ((1 - (2 * (x div 4))) mod (1 + (((x + 1) div 2) div 2)))
1: ((1 - (2 * ((x + (x div 8)) mod 5))) mod (x + 1))
1: ((1 - (2 * ((x2 + x) mod 8))) mod (x + 1))
1: ((1 - (2 * ((x div 2) mod 2))) mod (1 + (x div 2)))
1: ((1 - (2 * ((x div 5) mod 2))) mod (1 + (2 * (1 + (x mod 5)))))
1: ((1 - (2 * ((if (x mod 3) <= 0 then 1 else x) mod 5))) mod (x + 1))
1: ((1 - (2 * (x mod 5))) mod (x + 3))
1: ((1 - (2 * (x mod 7))) mod (x + 1))
1: ((1 - (9 * (x mod 6))) mod (x + 1))
1: ((1 - (2 * (if x <= 0 then 2 else (loop(\(x,i).(2x + i),x,0) div (x + 1))))) mod (x + 1))
1: ((~2x + 1) mod (2 + ((x div 2) + (x mod 3))))
1: ((~2x + 1) mod (3 + (x div 4)))
1: ((~2x + 1) mod (2 + (x div 2) - (x mod 2)))
1: ((~2x + 1) mod (1 + (2 * (2 + (x div 8)))))
1: ((~2x + 1) mod (1 + (2 * ((x div 2) div (3 + (x mod 2))))))
1: ((~2x + 1) mod (1 + ((x + (x2 div 4)) div 2)))
1: ((~2x + 1) mod (1 + ((x * (1 - ((x3 div 8) mod 2))) div 3)))
1: ((~2x + 1) mod (1 + (x div 2)))
1: ((~2x + 1) mod (1 + (x div 4)))
1: ((~2x + 1) mod (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))
1: ((~2x + 1) mod (x + loop(\(x,i).(~x + (i * i)),(x + ~1),1)))
1: ((~2x + 1) mod ((~x + 2) + loop(\(x,i).(2 * (x + i)),x,0)))
1: ((~2x + 1) mod (x - ((x + 1) mod 4)))
1: ((~2x + 1) mod loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,1))
1: ((~2x + 1) mod loop(\(x,i).2x,x,1))
1: ((~x2 + 1) mod 5)
1: ((~x2 + 1) mod (x + 6))
1: ((~x2 + 1) mod (4 + (x div 2)))
1: ((~x2 + 1) mod (x + 4))
1: ((~x2 + 1) mod (3x + 2))
1: ((~x2 + 1) mod (x + 12))
1: ((~x2 + 1) mod (1 + ((x * (x mod 2)) div 3)))
1: ((~x2 + 1) mod (2 + (x div 2)))
1: ((~x2 + 1) mod (1 + (x div 5)))
1: ((~x2 + 1) mod (2 - (x div ~2)))
1: ((~x2 + 1) mod 11)
1: ((~x2 + 1) mod (~1 + ((x2 + ~x) mod 8)))
1: ((~x2 + 1) mod 8)
1: ((~x2 + 1) mod 10)
1: ((1 - ((x2 + 2x + 1) div 5)) mod (x + 1))
1: ((1 - ((2 + (((x div 3) * (x div 2)) div 2)) div 3)) mod 3)
1: ((1 - ((x + (x div 2)) div 4)) mod 4)
1: ((1 - ((1 + (x div (2 + ((~1 + loop(\(x,i).2x,x,(if (x + ~2) <= 0 then 1 else 2))) mod (x + 1))))) div 2)) mod 3)
1: ((1 - ((1 + (x div (2 * (2 - (x mod 2))))) div 2)) mod (1 + (x div 3)))
1: ((1 - ((1 + (((x + 1) * (1 + (if (~x + 2) <= 0 then x else 0))) mod 9)) div 2)) mod 3)
1: ((1 - ((1 + (((x + 1) * (1 - (2 * (x mod 2)))) mod 5)) div 2)) mod 3)
1: ((1 - ((1 + ((if (x mod 2) <= 0 then x else ~x) mod 5)) div 2)) mod 3)
1: ((1 - ((1 + (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) mod 11)) div 3)) mod 3)
1: ((1 - ((1 + (x mod (1 + (2 * (if (x mod 2) <= 0 then 1 else (x div 4)))))) div 3)) mod 7)
1: ((1 - ((1 + (x mod (1 + ((x2 + ~x) mod (4 + (x div 4)))))) div 2)) mod 4)
1: ((1 - ((1 + (x mod (2 + (x mod 4)))) div (2 + (x mod 3)))) mod 3)
1: ((1 - ((1 - ((1 + ((1 - (((x2 + ~x) div 3) mod 3)) mod (x + 1))) div 2)) div 2)) mod (x + 1))
1: ((1 - ((~x + 2) div (2 - (x div ~4)))) mod 3)
1: ((1 - ((~x + (x mod 2)) div 5)) mod 2)
1: ((1 - ((x + ~1) div 3)) mod (x + 1))
1: ((1 - ((x - (x2 div 4)) div 2)) mod 3)
1: ((1 - ((x - ((x div 2) div 3)) div 2)) mod 4)
1: ((1 - ((x - ((x div 2) mod 2)) div 2)) mod 3)
1: ((1 - ((~x2 + 2x) div 2)) mod 3)
1: ((1 - ((x3 + 3x2 + 2x) div 3)) mod (2x + 3))
1: ((1 - (4x div (1 + (x div 4)))) mod 3)
1: ((1 - (2x2 div (x + 7))) mod 3)
1: ((1 - ((~x3 + x2) div (1 + (x div 3)))) mod 2)
1: ((1 - ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)) mod 4)
1: ((1 - ((x * (x div 3)) div 3)) mod (x + 1))
1: ((1 - (2x div 3)) mod 3)
1: ((1 - (2x div 3)) mod (1 + (x div 2)))
1: ((1 - (x2 div 2)) mod (x + 3))
1: ((1 - (x2 div 3)) mod (x + 2))
1: ((1 - (((x + 1) div 5) div (1 + (x mod (1 + (x mod (3 + (x mod 2)))))))) mod 3)
1: ((1 - ((x div 2) div (1 + (x mod 2)))) mod (2x + 3))
1: ((1 - ((x div 2) div (~1 + (2 * (x mod 4))))) mod (x + 1))
1: ((1 - ((x div (~3 + (x mod (2 + (x mod 2))))) div 3)) mod 2)
1: ((1 - (((~x + 4) mod (2 - (x div ~4))) div 2)) mod 3)
1: ((1 - (((x + 1) mod (1 + (2 * ((1 + (x div 4)) div 2)))) div 2)) mod 2)
1: ((1 - (((x + 1) mod (~1 - (x div 4))) div 2)) mod 3)
1: ((1 - (((x + 2) mod (2 + (((x div 2) div 3) + (if x <= 0 then 0 else 1)))) div 2)) mod 3)
1: ((1 - ((2x2 mod (4 + (x div 2))) div 2)) mod 3)
1: ((1 - ((2x mod (1 + (2 * ((1 + (x div 4)) div 2)))) div 2)) mod 3)
1: ((1 - ((2x mod (~1 + (2 * (((~x + 2) div 2) mod 4)))) div 2)) mod 3)
1: ((1 - ((loop(\(x,i).2x,x,(2 + (if (x mod 4) <= 0 then 2 else 0))) mod (x + 1)) div 2)) mod 3)
1: ((1 - ((x mod (2 + ((1 + (2 * ((1 - (x mod (4 * (2 - (x mod 2))))) mod (x + 1)))) mod (x + 1)))) div 2)) mod 3)
1: ((1 - ((x mod (1 + (24 mod (x + 1)))) div 2)) mod 3)
1: ((1 - ((x mod ((if x <= 0 then 1 else x) div ~4)) div 2)) mod 3)
1: ((1 - (x div 2)) mod (x + 4))
1: ((1 - (x div 2)) mod (2x + 1))
1: ((1 - (x div 2)) mod (1 + ((1 + (x div 2)) div 3)))
1: ((1 - (x div 2)) mod (1 + (((x + 1) div 2) div 2)))
1: ((1 - (x div 2)) mod (1 + (x div 5)))
1: ((1 - (x div 2)) mod 10)
1: ((1 - (x div 3)) mod 4)
1: ((1 - (x div 3)) mod (1 + ((~x + 2) mod (2 + (x mod 2)))))
1: ((1 - (x div 3)) mod (x + 1))
1: ((1 - (x div 3)) mod (~1 + (2x mod (4 + (x div 4)))))
1: ((1 - (x div 4)) mod (1 + (x div 2)))
1: ((1 - (x div 4)) mod (x + 1))
1: ((1 - (x div 5)) mod 3)
1: ((1 - (x div 5)) mod 4)
1: ((1 - (x div (2 + (x div (2 * (2 - (x mod 2))))))) mod 3)
1: ((1 - (x div (1 + (x mod 4)))) mod (1 + (x div 2)))
1: ((1 - (x div (1 + (x mod 4)))) mod (x + 2))
1: ((1 - (x div (2 - (x mod ~7)))) mod (x + 1))
1: ((1 - (x div (3 * (1 + ((x + 1) mod 6))))) mod 3)
1: ((1 - (x div (3 * (1 + (x mod (2 * (1 + (x mod (3 + (x mod 2)))))))))) mod 3)
1: ((1 - ((2x + 1) mod (1 + (2x mod (2 + (x div 4)))))) mod 3)
1: ((1 - ((2 + (x div 2)) mod 4)) mod 3)
1: ((1 - ((1 + ((1 + (x mod (2 * (1 + (x mod (2 * (1 + (x mod (1 + (x div 3)))))))))) mod (x + 1))) mod 3)) mod (x + 1))
1: ((1 - ((x + 1) mod 7)) mod (x + 1))
1: ((1 - ((x + 1) mod (1 + (2 * (if (x mod 4) <= 0 then 0 else 2))))) mod (x + 1))
1: ((1 - ((x + 1) mod (1 + (x div (1 + (2 * (x mod 3))))))) mod 3)
1: ((1 - ((x + 1) mod (1 + (x div (1 + ((x + 2) mod 4)))))) mod 3)
1: ((1 - ((x + 1) mod (1 + (x div (2 + ((x div 2) mod (2 + (x mod 2)))))))) mod 3)
1: ((1 - ((x + 1) mod (1 + ((x + ~1) mod (1 + (x div 3)))))) mod 3)
1: ((1 - ((x + 1) mod (1 + (4x mod (2 - ((x div 2) div ~2)))))) mod 4)
1: ((1 - ((x + 1) mod (1 + (x mod 6)))) mod 3)
1: ((1 - ((x + 1) mod (1 - ((~x + 1) div (2 + (x div 3)))))) mod 3)
1: ((1 - ((x + 1) mod 11)) mod (x + 1))
1: ((1 - ((x + 1) mod (~1 + (2 * (x mod ~6))))) mod 3)
1: ((1 - ((x + 1) mod (~1 + (x div ~7)))) mod 2)
1: ((1 - ((x + 1) mod 8)) mod (2x + 1))
1: ((1 - ((x + 1) mod (5 * (1 + (x mod 5))))) mod (x + 1))
1: ((1 - ((x + 2) mod 13)) mod (x + 1))
1: ((1 - ((x + 2) mod 11)) mod (x + 1))
1: ((1 - ((x + 2) mod 15)) mod (x + 1))
1: ((1 - ((x + 2) mod 8)) mod (x + 1))
1: ((1 - ((x + 2) mod 12)) mod (x + 1))
1: ((1 - ((x + 2) mod 10)) mod (x + 1))
1: ((1 - ((x + 2) mod 14)) mod (x + 1))
1: ((1 - ((1 - ((x + 1) mod 7)) mod (x + 1))) mod 4)
1: ((1 - ((~x + 2) mod (~1 + (2 * (x mod 4))))) mod 3)
1: ((1 - ((2x + ~1) mod (4 + (x div 4)))) mod 3)
1: ((1 - ((2x + ~1) mod (4 + (x div 4)))) mod (x + 3))
1: ((1 - ((2x + ~1) mod (4 + (x div 4)))) mod (2x + 1))
1: ((1 - ((~1 + (2 * compr(\x.(1 - ((((1 - (x mod 4)) mod (x + 1)) mod 3) mod 2)),x))) mod (x + 1))) mod 3)
1: ((1 - ((x - (x mod (1 + (2 * ((x - (x div 3)) mod 3))))) mod 3)) mod 4)
1: ((1 - (6 mod (if x <= 0 then 1 else x))) mod 3)
1: ((1 - (3x mod (2 + (x div 2)))) mod (x + 1))
1: ((1 - (8 mod (1 + (x div 2)))) mod 3)
1: ((1 - ((2 * (1 + ((1 + (((2 - (2x mod (4 + (x div 3)))) mod (2x + 5)) div 2)) div 2))) mod 3)) mod 3)
1: ((1 - ((2 * (1 + (x div (3 * (1 + (x mod (2 * (1 + (x mod (3 + (x mod 2))))))))))) mod 3)) mod 3)
1: ((1 - ((x2 + 2x) mod 7)) mod (x + 1))
1: ((1 - ((2x + ~2) mod 7)) mod (x + 1))
1: ((1 - (x3 mod 5)) mod (x + 1))
1: ((1 - (2x mod (4 + (x div 4)))) mod 7)
1: ((1 - (2x mod 9)) mod (x + 1))
1: ((1 - (2x mod (1 + (3 * (2 - (x mod 2)))))) mod (x + 1))
1: ((1 - (2x mod (1 + ((x + 1) div 3)))) mod (x + 1))
1: ((1 - (2x mod (1 + (x div 4)))) mod (x + 1))
1: ((1 - (2x mod (1 + (2x mod (1 + (x div 3)))))) mod 3)
1: ((1 - (((x2 + 2x) div 2) mod (1 + (x div (2 + (x div 3)))))) mod 3)
1: ((1 - (((x2 + ~x) div 3) mod 3)) mod (x + 1))
1: ((1 - ((x div 2) mod 3)) mod 6)
1: ((1 - (((2x + ~2) mod (2 + (x div 4))) mod 3)) mod 3)
1: ((1 - ((x2 mod 7) mod 3)) mod 8)
1: ((1 - ((x mod 5) mod (1 + ((x + ~1) mod 4)))) mod 3)
1: ((1 - (loop(\(x,i).(2x + 1),x,0) mod (x + 1))) mod (x + 1))
1: ((1 - (loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 12)) mod (x + 1))
1: ((1 - (x mod 3)) mod 6)
1: ((1 - (x mod 9)) mod (x + 1))
1: ((1 - (x mod (1 + (2 * ((x + 1) mod (2 + ((x div 2) mod 2))))))) mod 3)
1: ((1 - (x mod (1 + (2 * ((x + ~1) mod (1 + (x div (2 + ((x div 2) mod 3))))))))) mod 5)
1: ((1 - (x mod (1 + (2 * (((x2 + 2x + 1) div 3) mod 3))))) mod 3)
1: ((1 - (x mod (1 + ((1 + (3 * (2 + (if (x mod 2) <= 0 then 1 else 8)))) mod (x + 1))))) mod 3)
1: ((1 - (x mod (1 + (x2 mod 14)))) mod (x + 1))
1: ((1 - (x mod (1 + ((if (x mod 2) <= 0 then (x div 2) else (6x + 6)) mod 7)))) mod (x + 1))
1: ((1 - (x mod (2 + (x mod 2)))) mod (2x + 1))
1: ((1 - (x mod (1 + (x mod 3)))) mod 3)
1: ((1 - (x mod (1 - (2 * ((x + 1) mod (1 + (2 * (if (x mod 5) <= 0 then 0 else 2)))))))) mod (x + 1))
1: ((1 - (x mod (2 - (x * (x mod 2))))) mod 4)
1: ((1 - (x mod (2 - ((~x + 2) div 5)))) mod 3)
1: ((1 - (x mod (~1 + (2 * ((x mod 2) - (x div 4)))))) mod 3)
1: ((1 - (x mod (~1 + (4 * (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 8)))))) mod (2x + 2))
1: ((1 - (x mod (x - ((x + ~1) mod 7)))) mod 3)
1: ((1 - (x mod (x - ((x + ~1) mod 8)))) mod (1 + (x div 3)))
1: ((1 - (x mod (4 * (2 - (x mod 2))))) mod (x + 1))
1: ((1 - (if (~x + 2) <= 0 then x else 0)) mod 4)
1: ((1 - (if (~x + 2) <= 0 then x else 0)) mod (4 + (x div 4)))
1: ((1 - (if (~x + 2) <= 0 then x else 0)) mod 9)
1: ((1 - (if (~x + 2) <= 0 then x else 0)) mod 8)
1: ((1 - (if ((x div 2) mod 3) <= 0 then (x div 2) else 0)) mod (x + 1))
1: ((1 - (if (x mod 2) <= 0 then x else 2)) mod 7)
1: ((1 - (if (x mod (2 + (x mod 4))) <= 0 then x else 0)) mod 5)
1: ((1 - (if (x mod (2 + (x mod 6))) <= 0 then x else 0)) mod 4)
1: ((1 - (if (if (2x mod (x + 5)) <= 0 then 2 else 0) <= 0 then x else 1)) mod 3)
1: ((1 - (if x <= 0 then 0 else (1 + ((x mod (1 + ((2 - (x mod 4)) mod (x + 1)))) div 2)))) mod 3)
1: ((1 - (if x <= 0 then 0 else (if (x mod 4) <= 0 then (2x2 + 3x + 1) else 0))) mod 10)
1: ((1 - loop(\(x,i).(1 + (2 * (2x - (x mod 4)))),x,0)) mod loop(\(x,i).2x,x,2))
1: ((1 - loop(\(x,i).(x - (if (~x + i) <= 0 then (1 + i) else 0)),x,x)) mod (x + 1))
1: ((1 - loop(\(x,i).3x,x,3)) mod (x + 2))
1: ((1 - loop(\(x,i).(2x + ~4),(x + ~2),0)) mod (2x + 1))
1: ((1 - loop(\(x,i).(2x + ~4),(x div 3),0)) mod (x + 1))
1: ((1 - loop(\(x,i).4x,x,2)) mod (x + 1))
1: ((1 - loop(\(x,i).(3 * ((x + ~1) div 2)),x,0)) mod 5)
1: ((1 - loop(\(x,i).2x,((x * (x mod 2)) div 2),2)) mod (x + 1))
1: ((1 - loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 0 else 2))),x,(2x + 2))) mod (x + 1))
1: ((1 - loop(\(x,i).(x div (2 - ((x * (x div 2)) mod 2))),x,x)) mod (x + 1))
1: ((1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),x)) mod 5)
1: ((~x + 1) mod (3 + ((x + 2) div (2 - (x mod 2)))))
1: ((~x + 1) mod (3 + ((x div 2) div 3)))
1: ((~x + 1) mod (3 + ((x + ~1) mod 3)))
1: ((~x + 1) mod (2 + ((((x + ~1) div 2) mod 4) + (x div 3))))
1: ((~x + 1) mod (~x + 21))
1: ((~x + 1) mod (1 + (x mod 2) - (x div ~4)))
1: ((~x + 1) mod 13)
1: ((~x + 1) mod (1 + (2 * ((if (~2 + (x mod 5)) <= 0 then 1 else 2) + (x mod 2)))))
1: ((~x + 1) mod (1 + (2 * (2 - (x mod 2)))))
1: ((~x + 1) mod (1 + (4 * ((x mod (1 + (x div 2))) div 2))))
1: ((~x + 1) mod (1 + (6 * ((x mod (~1 + (2 * (x div 3)))) mod 2))))
1: ((~x + 1) mod (x3 + ~x2 + 1))
1: ((~x + 1) mod (1 + (2 * (((~1 + (x div 2)) mod 5) div 2))))
1: ((~x + 1) mod (1 + (2 * (x div 3))))
1: ((~x + 1) mod (1 + (((x + (((x div 2) - (x div 5)) mod 3)) mod 2) * (x div 2))))
1: ((~x + 1) mod (1 + (2 * ((((~x + 2) mod (2 + (x div 2))) div 2) mod 2))))
1: ((~x + 1) mod (1 + (2 * ((x mod (4 + (x div 4))) mod 2))))
1: ((~x + 1) mod (1 + (2 * (x mod 4))))
1: ((~x + 1) mod (x2 + 1))
1: ((~x + 1) mod (x2 + 2))
1: ((~x + 1) mod (1 + ((x * (x div 2)) div 3)))
1: ((~x + 1) mod (1 + (2x div 3)))
1: ((~x + 1) mod (1 + (2x div (2 + (x div 2)))))
1: ((~x + 1) mod (1 + (x2 div (4 + (x div 2)))))
1: ((~x + 1) mod (1 + (((x2 + ~x) div 2) div 3)))
1: ((~x + 1) mod (1 + (x div (4 + (x mod 4)))))
1: ((~x + 1) mod (2 + (x div (1 + ((x div 2) mod 2)))))
1: ((~x + 1) mod (1 + (x div (2 + (x mod 2)))))
1: ((~x + 1) mod (2 + (4 mod (x + 1))))
1: ((~x + 1) mod (2 + ((x2 + 2) mod (1 + (x div 2)))))
1: ((~x + 1) mod (1 + ((1 + (((x + ~1) * (x + (x mod 2))) div 3)) mod 3)))
1: ((~x + 1) mod (1 + ((1 + ((4x2 + 8x) div 3)) mod 3)))
1: ((~x + 1) mod (1 + ((1 + (x div 2)) mod (2 * (1 + (x mod 2))))))
1: ((~x + 1) mod (1 + ((2 + (x div 2)) mod (1 + ((x + ~1) mod 5)))))
1: ((~x + 1) mod (1 + ((1 + ((x div 2) mod 7)) mod 3)))
1: ((~x + 1) mod (1 + ((x + 1) mod (1 + (2 * ((x div 2) div 3))))))
1: ((~x + 1) mod (2 + ((x + 1) mod (2 + (x div 4)))))
1: ((~x + 1) mod (1 + (~x mod (1 + (x div 4)))))
1: ((~x + 1) mod (1 + ((1 - ((x - ((x div 2) mod 2)) div 2)) mod 3)))
1: ((~x + 1) mod (1 + ((1 - loop(\(x,i).(2x + ~4),(x + ~2),0)) mod (2x + 1))))
1: ((~x + 1) mod (1 + ((x2 + ~1) mod 9)))
1: ((~x + 1) mod (1 + ((x + ~1) mod (1 + ((2x + 1) mod 17)))))
1: ((~x + 1) mod (1 + ((2 * (2 + (if x <= 0 then 0 else (2 - ((x + 1) mod (2 + (x div (4 + (x mod 2))))))))) mod 3)))
1: ((~x + 1) mod (1 + (x2 mod (x + 4))))
1: ((~x + 1) mod (1 + (x2 mod (1 - (x div ~4)))))
1: ((~x + 1) mod (1 + ((x div 2) mod (2 + (x mod 4)))))
1: ((~x + 1) mod (1 + ((x div 2) mod (2 + (if (x mod 5) <= 0 then 2 else 0)))))
1: ((~x + 1) mod (1 + (loop(\(x,i).2x,x,((x + 1) mod 2)) mod (x + 1))))
1: ((~x + 1) mod (2 + (x mod 2)))
1: ((~x + 1) mod (1 + (x mod (1 + ((2x + ~1) mod (1 + (x div 2)))))))
1: ((~x + 1) mod (1 + (if (2 - (x mod (3 + (x div 2)))) <= 0 then x else 2)))
1: ((~x + 1) mod (1 + (if ((x + ~2) mod 5) <= 0 then 2 else 0)))
1: ((~x + 1) mod (1 + (if (2x mod (2 + (x div 2))) <= 0 then 2 else 0)))
1: ((~x + 1) mod (1 + (if ((x div 3) mod 2) <= 0 then ((x + 1) div 2) else 1)))
1: ((~x + 1) mod (1 + (if (x mod 4) <= 0 then 2 else 1)))
1: ((~x + 1) mod (1 + (if (x mod 4) <= 0 then (2 * (x mod 3)) else 1)))
1: ((~x + 1) mod (1 + (if (x mod 6) <= 0 then x else 1)))
1: ((~x + 1) mod (1 + (if (x mod 8) <= 0 then 2 else 1)))
1: ((~x + 1) mod (x + loop(\(x,i).(4 * i),(x mod 3),1)))
1: ((~x + 1) mod (1 + loop(\(x,i).(x * i),x,1)))
1: ((~x + 1) mod (1 - (2 * (((~x + 2) div 2) div 5))))
1: ((~x + 1) mod (1 - (x div ~4)))
1: ((~x + 1) mod (2 - ((~x + 1) div 3)))
1: ((~x + 1) mod (2 - ((~x2 + 3x + ~2) div 2)))
1: ((~x + 1) mod (2 - ((~x2 + 2x) div 3)))
1: ((~x + 1) mod 11)
1: ((~x + 1) mod 15)
1: ((~x + 1) mod (~1 + (6 * (if (~2 + (x div 3)) <= 0 then 0 else 2))))
1: ((~x + 1) mod (~1 + (2 * ((x + ~1) mod 4))))
1: ((~x + 1) mod (~1 + (2 * (if (x mod 3) <= 0 then 2 else (x div 4)))))
1: ((~x + 1) mod (~3 + (if x <= 0 then 2 else 0)))
1: ((~x + 1) mod (x - ((x + 1) mod 13)))
1: ((~x + 1) mod 10)
1: ((~x + 1) mod 27)
1: ((~x + 1) mod (2 * (1 + (2 * (x mod 3)))))
1: ((~x + 1) mod (2 * (2 + ((x div 2) mod 2))))
1: ((~x + 1) mod (if x <= 0 then 1 else (2 + ((x mod (1 + (4 mod (x + 1)))) div 2))))
1: ((~x + 1) mod (if x <= 0 then 1 else (x - ((x - ((x mod 3) div 2)) div 2))))
1: ((~x + 1) mod loop(\(x,i).(1 + (x * i)),x,1))
1: ((~x + 1) mod loop(\(x,i).(compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x + 2)),x) + i),2,x))
1: ((~x + 1) mod loop(\(x,i).10x,(x + ~1),1))
1: ((~x + 1) mod loop(\(x,i).4x,(x + ~1),1))
1: ((~x + 1) mod loop(\(x,i).2x,(x + ~1),1))
1: ((2 - ((if (x mod 4) <= 0 then 0 else 2) + (x div 4))) mod (x + 1))
1: ((~x2 + 3) mod (2 + (x div 2)))
1: ((3 - (x div 2)) mod (2x + 1))
1: ((3 - (x div 2)) mod (x + 1))
1: ((2 + ((if x <= 0 then 1 else (((x + 1) div 2) div 2)) mod 2) - (x div 2)) mod 3)
1: ((3 - (((x * (2 + (x div 5))) div 4) mod 2)) mod (x + 1))
1: ((2 + loop(\(x,i).(4 * ((2 - (x mod 2)) * (if x <= 0 then 1 else 2))),(x mod 4),1) - (x mod 2)) mod (x + 1))
1: ((3 - (x mod (1 + ((x2 + 2x) mod 8)))) mod (x + 1))
1: ((2 + (x mod 2) - (if (x mod (2 + ((~x + 1) mod 3))) <= 0 then 1 else 0)) mod (x + 1))
1: (((~x + 2) + ((x div 2) div 3)) mod 3)
1: (((~x + 2) + (x div 4)) mod 4)
1: (((~x + 2) + (x div 4)) mod (1 + (x div 3)))
1: (((~x + 2) + ((if (x + ~2) <= 0 then 1 else ((x + 2) div 5)) mod 2)) mod (1 + (x div 3)))
1: ((2 - (3 * ((2 * (x div 2)) div 3))) mod (x + 1))
1: ((2 - (x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2))) mod 7)
1: ((~x2 + 2) mod (x + 4))
1: ((~x2 + 2) mod (3x + 2))
1: ((~x2 + 2) mod (2 - (x div ~2)))
1: ((2 - (2 div (1 + (x div 5)))) mod (2 + (x mod 2)))
1: ((2 - ((1 + (2 * (x - ((x + 1) mod (1 + ((~x + 2) mod 4)))))) div 3)) mod 3)
1: ((2 - ((x + 1) div 5)) mod 3)
1: ((2 - ((~x + 1) div 5)) mod (1 + (x mod 3)))
1: ((2 - ((~x + 2) div (1 + (2 * (2 mod (1 + (x div 4))))))) mod (1 + (x div 2)))
1: ((2 - ((~x + 2) div 8)) mod (1 + (x div 3)))
1: ((2 - ((~1 + (x div 2)) div 2)) mod (x + 1))
1: ((2 - ((x + ~1) div 2)) mod (x + 1))
1: ((2 - (((~1 + (x div 2)) * (x div 3)) div 2)) mod (x + 1))
1: ((2 - ((((x + 1) * ((~x + ~1) + (x div ~3))) div 2) div 3)) mod 3)
1: ((2 - ((x div 2) div ~2)) mod (1 + ((2x + ~4) mod (2 + (x div 4)))))
1: ((2 - (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)) mod 7)
1: ((2 - (x div 2)) mod (x + 4))
1: ((2 - (x div 2)) mod (2x + 1))
1: ((2 - (x div 2)) mod (1 + (if x <= 0 then 0 else 2)))
1: ((2 - (x div 2)) mod (if x <= 0 then 1 else x))
1: ((2 - (x div 3)) mod (x + 3))
1: ((2 - (x div 3)) mod (1 + (x div (2 + (x mod 2)))))
1: ((2 - (x div 4)) mod 4)
1: ((2 - (x div 4)) mod 5)
1: ((2 - (x div 4)) mod (if ((x + 1) mod 4) <= 0 then (x + ~1) else 1))
1: ((2 - (x div 5)) mod 5)
1: ((2 - (x div (3 + (x mod 2)))) mod (1 + (x mod 3)))
1: ((2 - (x div (1 + ((x mod 3) div 2)))) mod (x + 1))
1: ((2 - (x div ~2)) mod 8)
1: ((2 - (x div (~2 + (((~x + 2) div 2) div 3)))) mod (x + 1))
1: ((2 - (x div (2 * (~2 + (x mod 2))))) mod (x + 1))
1: ((2 - ((x + 3) mod 12)) mod (x + 1))
1: ((2 - ((1 + ((1 + loop(\(x,i).((2 - (2x mod (4 + (x div 4)))) mod (x + 1)),3,x)) div 3)) mod 5)) mod (x + 1))
1: ((2 - ((x + 1) mod (1 + (2 * (1 + (loop(\(x,i).(~x + 1),x,(x + 2)) mod 3)))))) mod (x + 1))
1: ((2 - ((x + 1) mod (1 + (2 * (if ((if x <= 0 then 1 else x) mod 6) <= 0 then 2 else 0))))) mod (x + 1))
1: ((2 - ((x + 1) mod 11)) mod (x + 1))
1: ((2 - ((x + 2) mod ~7)) mod (x + 1))
1: ((2 - ((~x + 1) mod 8)) mod (x + 2))
1: ((2 - ((x + ~1) mod 5)) mod (1 + (x div 3)))
1: ((2 - ((x + ~2) mod (~1 + (2 * (x mod 4))))) mod (x + 1))
1: ((2 - ((2 * (1 + (4 * (if (x mod 3) <= 0 then 0 else 2)))) mod (x + 1))) mod 5)
1: ((2 - (2x mod (6 + (x mod 2)))) mod (x + 1))
1: ((2 - (2x mod (4 + (x div 3)))) mod (2x + 5))
1: ((2 - (2x mod (4 + (x div 4)))) mod (~x + ~1))
1: ((2 - (2x mod (4 + (x div 4)))) mod (if x <= 0 then 1 else x))
1: ((2 - (2x mod (2 + (x div 2)))) mod (x + 3))
1: ((2 - (x2 mod (x + 4))) mod (x + 1))
1: ((2 - ((x div (2 + (x mod 3))) mod 2)) mod (1 + (x div 2)))
1: ((2 - ((if (x mod 2) <= 0 then (~x + 2) else x) mod 7)) mod (x + 1))
1: ((2 - (loop(\(x,i).(x * i),x,2) mod (x + 1))) mod 4)
1: ((2 - (x mod 2)) mod (1 + (if (~1 + (x mod 3)) <= 0 then 2 else 0)))
1: ((2 - (x mod 5)) mod (x + 3))
1: ((2 - (x mod (6 + (x mod 3)))) mod (x + 1))
1: ((2 - (x mod (1 + (2 * (1 + ((~x + 2) mod 4)))))) mod (x + 1))
1: ((2 - (x mod (1 + (2 * ((x mod 7) mod 3))))) mod (x + 1))
1: ((2 - (x mod (1 + (2 * (if (x mod 6) <= 0 then 2 else 1))))) mod (x + 1))
1: ((2 - (x mod (2 + ((x * (x div 2)) mod 2)))) mod (2 + (x mod 3)))
1: ((2 - (x mod (~3 - (x div 4)))) mod (x + 1))
1: ((2 - (x mod (~2 + (((2 - (x div 2)) div 2) div 2)))) mod (x + 1))
1: ((2 - (x mod 8)) mod 3)
1: ((2 - (x mod 8)) mod (x + 1))
1: ((2 - (x mod 8)) mod (x + 2))
1: ((2 - (x mod (if (x mod 2) <= 0 then (1 - ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 9)) else 1))) mod (x + 1))
1: ((2 - (if (x mod 5) <= 0 then 1 else (x div 3))) mod (x + 1))
1: ((2 - (if (x mod (4 - (x mod 2))) <= 0 then x else 0)) mod 5)
1: ((2 - (if x <= 0 then 1 else x)) mod 3)
1: ((2 - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + (2 * i)))),x,x)) mod (x + 3))
1: ((2 - loop(\(x,i).2x,(if (x mod 2) <= 0 then x else 1),2)) mod (x + 1))
1: ((~x + 2) mod (3 + (x div 2)))
1: ((~x + 2) mod (3 + (x div (1 + (x mod 4)))))
1: ((~x + 2) mod (1 + (2 * (1 + ((~x + 2) mod 4)))))
1: ((~x + 2) mod (1 + (2 * (1 + (x mod 2)))))
1: ((~x + 2) mod (1 + (4 * (x div 5))))
1: ((~x + 2) mod (2x + 1))
1: ((~x + 2) mod (1 + ((2x + 1) div 5)))
1: ((~x + 2) mod (2 + ((x2 + (x div 2)) div 3)))
1: ((~x + 2) mod (1 + ((x + 1) div 2)))
1: ((~x + 2) mod (1 + ((x * (x div 2)) div 3)))
1: ((~x + 2) mod (1 + ((x * (x div 2)) div 4)))
1: ((~x + 2) mod (1 + ((3 * (x div (2 * (2 + (x mod 2))))) div 2)))
1: ((~x + 2) mod (1 + (((x + 1) div 2) div 2)))
1: ((~x + 2) mod (1 + ((((((x + ~2) * (x2 div 2)) div 2) div 2) div 2) div 3)))
1: ((~x + 2) mod (1 + (x div 3)))
1: ((~x + 2) mod (1 + ((x + (((x div 2) * (x div 2)) div 2)) mod 3)))
1: ((~x + 2) mod (1 + ((x + 1) mod 4)))
1: ((~x + 2) mod (1 + ((~x + 1) mod (2 + (x div 3)))))
1: ((~x + 2) mod (1 + ((~x + ~1) mod 5)))
1: ((~x + 2) mod (1 + ((x2 div 3) mod 3)))
1: ((~x + 2) mod (2 + (x mod (2 + (x div 5)))))
1: ((~x + 2) mod (2 + (if (x mod 5) <= 0 then 2 else 0)))
1: ((~x + 2) mod (2 + (if x <= 0 then 0 else 2)))
1: ((~x + 2) mod (2 + (if x <= 0 then 1 else (x div 5))))
1: ((~x + 2) mod (1 - (2 * (((~x + 2) div 2) div 5))))
1: ((~x + 2) mod (2 - (x mod ~4)))
1: ((~x + 2) mod (~1 + (2 * (x div 4))))
1: ((~x + 2) mod (~1 + (2 * (x mod 4))))
1: ((~x + 2) mod ((x + 1) - (x mod 4)))
1: ((~x + 2) mod 10)
1: ((~x + 2) mod 14)
1: ((~x + 2) mod (3 * (1 + (2 * (2 + (x mod 2))))))
1: ((~x + 2) mod 28)
1: ((3 - (2 * (1 + ((((x + 2) * ((x mod (2 - (x div (1 + ((x div 2) mod 2))))) mod 2)) div 2) div 2)))) mod (x + 1))
1: ((3 - (if x <= 0 then 1 else x)) mod (1 - (2 * (x div (~2 + ((~x + 2) div 4))))))
1: ((3 - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 10)
1: (((~x + 4) + (x div 4)) mod (1 + (x div 2)))
1: ((1 + (x mod 2) - (loop(\(x,i).2x,x,1) + loop(\(x,i).2x,(x - (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))),1))) mod (x + 1))
1: ((3x2 + x + ~1) mod 9)
1: ((1 + (2 * ((1 + ((loop(\(x,i).x2,1,((x + 4) + (x div 2))) div 2) div 2)) div 2)) - (x mod 2)) mod (x + 1))
1: (((x + ~1) + (3 * (x mod 7))) mod (2 + (x mod 2)))
1: (((x + ~1) + (x div 2)) mod (x + 4))
1: (((x + ~2) + (x div 2)) mod 5)
1: (((x + ~2) + (x div 2)) mod (2 + (x div 4)))
1: (((x + ~2) + (x div 2)) mod 8)
1: ((1 + (x div (2 + ((if (x + ~2) <= 0 then 1 else x) mod 2))) - (x mod 2)) mod (x + 1))
1: (((x + ~2) + ((1 - (x div 4)) mod 3)) mod (2x + 1))
1: (((~x + 2) + ((~x + 1) mod 3)) mod (1 + (x div 2)))
1: ((1 + (((x2 + ~2x) div (4 + (x div 2))) mod 2) - (x mod 2)) mod (x + 1))
1: (((x + ~2) + ((x div 2) mod 4)) mod (1 + (x div 2)))
1: ((~2 + ((x mod 5) + (x mod 4))) mod (x + 1))
1: (((~x + 1) + (x mod (1 + (x mod (2 * (2 + ((x div 2) mod 2))))))) mod (x + 1))
1: (((~x + 1) + (if (~1 + (x mod 3)) <= 0 then x else 2)) mod (x + 1))
1: ((x + (if ((x + 1) mod 10) <= 0 then 2 else 1) - (x div 2)) mod 9)
1: ((1 + (if (((1 + (x div 2)) div 2) mod 3) <= 0 then 2 else 0) - (x mod 2)) mod (x + 1))
1: (((x + ~1) + ((if x <= 0 then 1 else x) mod 11)) mod 4)
1: (((x + 1) - loop(\(x,i).(x - ((x + (if (x mod 3) <= 0 then 2 else 1)) div 4)),2,x)) mod 3)
1: (~3 mod (2 + ((4x mod (4 + (x div 4))) div 2)))
1: (~3 mod (2 + ((x + 2) mod 5)))
1: (~3 mod (if x <= 0 then 1 else x))
1: (~3 mod loop(\(x,i).(2x + (i mod 2)),x,2))
1: (~3 mod loop(\(x,i).4x,x,2))
1: (~4 mod (1 + (x div 5)))
1: (((~x + ~2) - ((x div 2) div 7)) mod (1 + (x div 3)))
1: ((~x + ~1) mod (3 + (if (~2 + (x div 2)) <= 0 then 0 else 2)))
1: ((~x + ~1) mod (1 + (x div 2) - (2x div 5)))
1: ((~x + ~1) mod (2 + ((x + 1) div 5)))
1: ((~x + ~1) mod (1 + ((x - ((3 * (x div 4)) div 2)) mod 3)))
1: ((~x + ~1) mod (1 + (x mod (1 + (2 * (2 + (x div 4)))))))
1: ((~x + ~1) mod (1 - (2 * ((~x + 1) div (2 + (x div 2))))))
1: ((~x + ~1) mod (2 - ((x div 2) div ~3)))
1: ((~x + ~1) mod 8)
1: ((~x + ~2) mod (~x + loop(\(x,i).2x,x,1)))
1: ((~x + ~2) mod 8)
1: (((~x + ~2) - (x div 4)) mod 10)
1: ((~2 - (x2 div 3)) mod (x + 1))
1: (((~x + 1) - ((x - (x div 5)) div 3)) mod 3)
1: (((~x + 1) - (x div 7)) mod 3)
1: ((0 + (2 * (((2x2 + x) div 3) mod 3)) - (x mod 2)) mod 4)
1: ((0 + (((x + 1) - (2 * (x mod (x - ((x + ~1) mod 8))))) div 3) - (x mod 2)) mod (x + 1))
1: (((~x + ~2) - (x div 3)) mod 3)
1: (((~x + ~2) - (x div 5)) mod 5)
1: ((~2 + loop(\(x,i).2x,x,(1 + (x mod (2 * (1 + (x mod 2)))))) - (x mod 2)) mod (x + 1))
1: (((~x + ~1) + (2 * (x + (1 mod (8 - (x div 2)))))) mod 5)
1: (((6x + 5) - (x div 7)) mod 9)
1: (((~x + ~1) + (((2 + ((1 + ((3 * (x + (if (~2 + (x div 4)) <= 0 then 1 else 2))) div 2)) div 2)) div 2) div 2)) mod 3)
1: ((~4 + (x div 2)) mod (x + 1))
1: ((~3 + (x div 3)) mod (x + 2))
1: ((~4 + (x div 3)) mod (x + 2))
1: (((~x + ~1) + (x div 8)) mod 3)
1: ((~1 + ((~2x + 2) mod (4 + (x div 4))) - ((x div (2 + (x mod 2))) mod 3)) mod (x + 1))
1: ((~3 + (x mod 2)) mod (2x + ~1))
1: ((~1 + (if (~1 + (x mod 3)) <= 0 then x else 2) - (x mod 2)) mod (x + 1))
1: ((loop(\(x,i).5x,x,1) - (loop(\(x,i).2x,x,2) + loop(\(x,i).3x,x,1))) mod (x + 1))
1: ((3x + ~1) mod (x + 4))
1: ((3x + ~2) mod 7)
1: ((~x + 8) mod (1 + ((x + 1) div 2)))
1: ((~x + 8) mod (1 + (x div 3)))
1: ((4x + 3) mod 9)
1: ((~1 + (3 * (7 + ((x div 7) mod 2)))) mod (x + 1))
1: ((~2 + ((x + 1) * ((x + 3) + ((((x + 1) div 2) div 2) div 2)))) mod 5)
1: ((~1 + (2 * ((x + 1) + (2 div (1 + (3 div (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2)))))))) mod (x + 1))
1: ((~1 + (2 * ((x + 1) + ((1 + (x div (1 + (loop(\(x,i).2x,x,2) mod (2x + 1))))) div 2)))) mod (x + 1))
1: ((~1 + (2 * ((x + 1) + ((2 * (1 + ((1 + (x div (1 + ((~1 + (2 * ((x + 1) + (2 div (1 + (3 div (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2)))))))) mod (x + 1))))) div 2))) div 3)))) mod (x + 1))
1: ((~1 + (2 * (2 + ((2x mod (1 + (2 * (x mod 3)))) + (x mod 2))))) mod (x + 1))
1: ((~1 + (2 * ((2x + 2) - ((x mod ~4) div 2)))) mod 5)
1: ((14 - loop(\(x,i).(2x + 2),x,0)) mod (x + 1))
1: (((7x + 7) - (x div 9)) mod 10)
1: (((9 * (x div 4)) - (x mod 2)) mod (2x + 3))
1: ((5x2 + 10x + 4) mod (1 + (x div 5)))
1: ((2x + 31) mod (1 + (((x + 1) div 2) div 2)))
1: ((x3 + 3x2 + x + 2) mod (1 + (x div 4)))
1: ((~1 + (2 * (1 + ((1 + (((loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) + (loop(\(x,i).(2x + 2),x,0) mod (x + 1))) div 2) div 2)) div 2)))) mod (x + 1))
1: ((~1 + (2 * (1 + ((x - ((2x2 + 4x + 1) div 7)) div 2)))) mod (x + 2))
1: ((~1 + (2 * (1 + (((x + 1) * (if (x mod 4) <= 0 then 2 else (x mod 2))) div 3)))) mod (x + 1))
1: ((~2 + ((x + ~1) * (1 + (x div 2)))) mod (1 + (x div 3)))
1: (((2 * (x + (x div 3))) - (x div 7)) mod 3)
1: ((~2 + ((x + 1) * (2 + (x div 4)))) mod 9)
1: ((~2 + (2 * (1 + (x div (1 + (loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1))))))) mod (x + 1))
1: ((~1 + (2 * (1 + ((x + 2) mod (1 + (x div (4 + (x div 4)))))))) mod (x + 1))
1: ((~1 + (2 * (1 + ((~2x + 1) mod (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))) mod (x + 1))
1: ((~1 + (2 * (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 8)))) mod (x + 1))
1: ((~1 + (2 * (1 + (x mod (4 * (1 + (2 * (x mod 2)))))))) mod (x + 1))
1: (((2 * (1 + (if ((x div 3) mod 3) <= 0 then (x mod 2) else 0))) - (x mod 3)) mod (x + 1))
1: ((~1 + (2 * ((if (x mod 3) <= 0 then 1 else (((x + 1) div 2) - ((3 * (x div 4)) div 2))) + (x mod 2)))) mod (x + 1))
1: ((~1 + (2 * (2 + loop(\(x,i).2x,x,(3 + (loop(\(x,i).4x,x,2) + loop(\(x,i).2x,x,1))))))) mod (x + 1))
1: ((~1 + (2 * (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) + ((x + ~1) mod 4)))) mod (x + 1))
1: (((2x + 2) - ((2x + 2) div 5)) mod 5)
1: (((2x + 2) - (((x + 1) mod 8) mod 3)) mod 5)
1: ((x2 + x + ~1) mod 9)
1: ((x2 + 2x + ~1) mod 9)
1: ((x2 + 2x + ~2) mod 9)
1: (((x2 + 2x) - ((~x + 2) div 5)) mod 3)
1: ((~2x + ~1) mod 9)
1: ((~x2 + ~2x + ~1) mod (1 + (x div 5)))
1: ((~x2 + ~1) mod (1 + (x div 3)))
1: ((~1 + ((x + 1) * (1 - (2 * (x mod 2))))) mod 9)
1: ((~4 + ((x + 1) * (1 - (2 * (x mod 2))))) mod (1 + (x div 3)))
1: ((~1 + (2 * (1 - ((x mod (1 + ((2 - (x mod 4)) mod (x + 1)))) div 2)))) mod (x + 2))
1: ((~2 + (3 * (2 - (x div 2)))) mod (1 + (((x + 1) div 2) div 2)))
1: ((~1 + ((x + 1) * (2 - ((x div 2) mod 2)))) mod 5)
1: (((~x2 + 2x) - (x div 2)) mod (1 + (x div 2)))
1: (~13 mod loop(\(x,i).4x,x,2))
1: ((~1 + (2 * (~1 + (6 * (1 + (((x + 1) mod (1 + (2 * ((1 + (x div 4)) div 2)))) div 2)))))) mod (x + 1))
1: ((~1 + (2 * (~1 + (4 * (x mod 2))))) mod (2x + 1))
1: ((~2 + (9 * (~x + (x mod 9)))) mod (x + 1))
1: ((2x + ~5) mod (1 + (x div 2)))
1: ((2x + ~5) mod (1 + (x div 3)))
1: ((x2 + ~2x + ~2) mod 7)
1: ((x2 + ~2x + ~2) mod 9)
1: ((~1 + (2 * (x - (x mod 8)))) mod (x + 8))
1: (15 mod (if (~2 + (x mod 4)) <= 0 then 2 else (x + 1)))
1: (23 mod (2x + 1))
1: (35 mod (x + 1))
1: ((~1 + ((4x + 4) * (1 + (x div 2)))) mod 5)
1: ((4x2 + 8x + 3) mod 9)
1: ((~1 + (6 * (1 + ((x2 + x) mod 17)))) mod (x + 1))
1: ((~1 + (4 * ((2 * ((1 + (x mod (2 + (x div 4)))) mod 2)) - (x mod 3)))) mod (x + 1))
1: ((2x3 + ~3x2 + ~2x + ~1) mod 5)
1: (31 mod (2x + 1))
1: ((32 - loop(\(x,i).2x,x,1)) mod (x + 1))
1: ((~1 + ((6x + 6) * ((2 + (if x <= 0 then 0 else 2)) * (1 + (((x + 1) div 2) mod 3))))) mod 7)
1: ((~1 + (4 * (2x div 3))) mod (x + 2))
1: ((~1 + (6 * (x mod 10))) mod (x + 1))
1: ((~1 + (9 * (if (~2 + (x div 4)) <= 0 then 1 else 2))) mod (x + 3))
1: ((4x + ~1) mod 9)
1: ((4x + ~1) mod (1 + (2x mod (2 + (x div 4)))))
1: ((6x - (x div 7)) mod (1 + (x div 3)))
1: ((~4x + ~1) mod loop(\(x,i).(x + (if x <= 0 then (1 + i) else 0)),x,(~x + 1)))
1: ((2x2 + ~1) mod 5)
1: ((2x2 + ~1) mod (x + 4))
1: ((2x2 + ~1) mod (2 - (x div ~2)))
1: ((x4 + ~4) mod 10)
1: ((x3 + ~1) mod (x + 3))
1: ((x3 + ~1) mod (x + 4))
1: ((x3 + ~1) mod (2 + (x div 2)))
1: ((x3 + ~2) mod (x + 4))
1: ((x3 + ~2) mod (1 + (x div 2)))
1: ((~1 + (2 * (((x + 1) + ((loop(\(x,i).(x - (2 * (~x + (i mod 2)))),x,1) div 2) div 2)) div 2))) mod 3)
1: ((~1 + (2 * ((1 + (((x2 + x) * (if (x mod 2) <= 0 then 4 else 1)) div 2)) div 3))) mod (x + 1))
1: ((~1 + (2 * ((1 + (x div 2)) div 2))) mod (1 + (x div 4)))
1: ((~1 + ((x + ~1) * ((~x + 2) div 2))) mod 5)
1: ((~1 + (2 * (((x div 4) - (x mod 4)) div 2))) mod (x + 2))
1: ((~1 + (2 * ((3 * (1 + (((1 + (x mod (1 + (x mod (2 * (2 + ((x div 2) mod 2))))))) mod (x + 1)) div 2))) div 2))) mod (x + 1))
1: ((~2 + (3 * (x div 2))) mod (1 + (x div 4)))
1: ((~1 + ((x + 1) * (x div 2))) mod 5)
1: ((~2 + (x * (x div 2))) mod 5)
1: ((~2 + (x * (x div 2))) mod 7)
1: ((~2 + (x * (x div 2))) mod (1 + (x div 3)))
1: ((~2 + (x * (x div 2))) mod (2 + (x div 4)))
1: ((~3 + (x * (x div 2))) mod (1 + (x div 3)))
1: (((x * (x div 2)) - (2x div 5)) mod 2)
1: (((x * (x div 2)) - (x div (1 + (2 * (2 + (x mod 2)))))) mod 2)
1: (((x * (x div 2)) - (x div (~2 + ((~x + 2) div 4)))) mod 2)
1: (((x * (x div 2)) - ((x + 1) mod (2 + (x div 4)))) mod 2)
1: ((~1 + (2 * (x div (2 + ((x div 2) div 3))))) mod (x + 1))
1: ((~1 + (2 * ((x + 1) mod (~1 + ((~2x + 2) mod (4 + (x div 4))))))) mod (2x + 2))
1: ((~1 + (3 * ((x + ~1) mod (2 + (x div 4))))) mod (1 + (x div 3)))
1: (((2 * (x mod 2)) - (x div 2)) mod (x + 1))
1: ((((x + 1) * (x mod 2)) - (x div 2)) mod 5)
1: (((x * (x mod 2)) - (x div 2)) mod (x + 10))
1: ((~1 + (2 * (x mod 3))) mod (x + 3))
1: ((~2 + (x * (x mod 3))) mod 7)
1: ((~1 + (2 * (x mod 4))) mod (1 + (x div 2)))
1: ((~1 + (2 * (x mod 4))) mod (x + 1))
1: ((~1 + (x * (x mod 4))) mod (2 + (x div 2)))
1: ((~1 + (2 * (x mod 6))) mod (x + 1))
1: ((~x + (2 * (x mod 8))) mod (2x + 2))
1: ((~1 + (9 * (x mod 10))) mod (x + 1))
1: ((~1 + (2 * (if (~2 + (((x + 1) div 2) mod 4)) <= 0 then 1 else 0))) mod (x + 1))
1: ((~1 + (2 * (if (x + ~1) <= 0 then 2 else (2x + ~1)))) mod (x + 2))
1: ((~1 + (5 * (if (x + ~6) <= 0 then 1 else 2))) mod (x + 2))
1: ((~1 + (2 * (if (16 mod (x + 1)) <= 0 then 0 else 2))) mod (x + 1))
1: ((~1 + (3 * (if (x mod 2) <= 0 then (2 * (2 + (if x <= 0 then 0 else 2))) else 1))) mod (x + 1))
1: ((~1 + (2 * (if (x mod 4) <= 0 then 2 else ((1 - (2 * (x mod 2))) * (1 + (x div 3)))))) mod (x + 1))
1: ((~1 + (2 * (if x <= 0 then 1 else (2 * ((loop(\(x,i).2x,x,(if (x mod 4) <= 0 then 0 else 1)) mod (x + 1)) div 2))))) mod 3)
1: ((~1 + (2 * (if x <= 0 then 1 else (2 * (x3 mod 13))))) mod 7)
1: ((~1 + (3 * (if x <= 0 then 1 else (x mod (1 + (((x + 1) div 2) div 3)))))) mod (x + 1))
1: ((~1 + (2 * (if x <= 0 then 1 else (if (x mod 4) <= 0 then (x div 2) else x)))) mod (x + 1))
1: ((~1 + (loop(\(x,i).(2x + 1),x,0) * (1 + (x mod 2)))) mod (x + 1))
1: ((2x + ~1) mod (3 + (x div 2)))
1: ((2x + ~1) mod (x + 3))
1: ((2x + ~1) mod ((x + 2) - (x div 4)))
1: ((2x + ~1) mod (1 + ((x + 1) div 2)))
1: ((2x + ~1) mod (1 + ((x * (x mod 2)) div 3)))
1: ((2x + ~1) mod (2 + (2x div (2 - ((~x + 1) div 3)))))
1: ((2x + ~1) mod (2 + (x div 2)))
1: ((2x + ~1) mod (2 + (x div 3)))
1: ((2x + ~1) mod (1 + (x div 4)))
1: ((2x + ~1) mod (1 + (x div (1 + (2 * (2 + ((x div 2) mod 2)))))))
1: ((2x + ~1) mod (1 + ((1 + ((2 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 3)) mod 3)))
1: ((2x + ~1) mod (~1 + (2 * (1 + ((x2 + x) mod 5)))))
1: ((2x + ~1) mod (x - ((x + 1) mod 4)))
1: ((2x + ~1) mod (4 * (2 - (x mod 2))))
1: ((2x + ~1) mod loop(\(x,i).(1 + ((2 * (x + (i mod 2))) div 3)),2,x))
1: (((2x + ~1) - (x div 4)) mod 5)
1: ((2x + (((~x + 2) div 2) mod 3)) mod (1 + (x div 2)))
1: (((2x + 1) - ((x mod (~2 - (x div 3))) mod 2)) mod 3)
1: ((2x - (x div 3)) mod 3)
1: ((2x - (x div 5)) mod 7)
1: ((2x - (x div (if i <= 0 then 1 else i))) mod 2)
1: ((2x - ((x div 2) mod 3)) mod (1 + (x div 2)))
1: ((2x - (x mod 5)) mod 8)
1: ((2x - (x mod (2 + ((x div 2) mod 3)))) mod 3)
1: ((2x - (i mod 2)) mod (1 + i))
1: ((2x - (if (x + ~4) <= 0 then 0 else 1)) mod 4)
1: ((x2 + ~1) mod (x + 3))
1: ((x2 + ~1) mod 9)
1: ((x2 + ~1) mod (x + 8))
1: ((x2 + ~1) mod 13)
1: ((x2 + ~1) mod (2x + 5))
1: ((x2 + ~1) mod (1 + (4 * (x mod 2))))
1: ((x2 + ~1) mod (1 + (2 * (if x <= 0 then 0 else 2))))
1: ((x2 + ~1) mod (1 + (x div 3)))
1: ((x2 + ~1) mod (2 + (16 mod (x + 1))))
1: ((x2 + ~1) mod (1 + (if (x + ~2) <= 0 then 1 else (2 + (x mod 2)))))
1: ((x2 + ~1) mod (1 + loop(\(x,i).(x2 + ~1),2,4)))
1: ((x2 + ~1) mod (2 - (x div ~2)))
1: ((x2 + ~1) mod ((x + ~2) + (x div 2)))
1: ((x2 + ~1) mod (2x + ~5))
1: ((x2 + ~1) mod ((x + ~3) - (x mod 2)))
1: ((x2 + ~1) mod ((x + 1) - ((~x + (x mod 2)) div 5)))
1: ((x2 + ~1) mod 8)
1: ((x2 + ~1) mod (2 * (2 + ((x + ((x mod (1 + (x div 2))) div 2)) div 2))))
1: ((x2 + ~1) mod loop(\(x,i).(x2 + x),2,4))
1: ((x2 + ~2) mod (x + 5))
1: ((x2 + ~2) mod (x + 6))
1: ((x2 + ~2) mod (x + 9))
1: ((x2 + ~2) mod ((x + 1) + (x div 2)))
1: ((x2 + ~2) mod (x + 8))
1: ((x2 + ~2) mod 13)
1: ((x2 + ~2) mod 113)
1: ((x2 + ~2) mod 73)
1: ((x2 + ~2) mod (1 + ((x div 2) mod 3)))
1: ((x2 + ~2) mod (4x + ~1))
1: ((x2 + ~2) mod (~1 + loop(\(x,i).(x2 + 2x),2,2)))
1: ((x2 + ~2) mod (~1 + loop(\(x,i).(x * (x + i)),2,3)))
1: ((x2 + ~2) mod (~1 + loop(\(x,i).2x2,2,2)))
1: ((x2 + ~2) mod (2x + 8))
1: ((x2 + ~2) mod loop(\(x,i).(1 + (x * i)),4,2))
1: ((x2 + ~2) mod loop(\(x,i).(2x2 + ~1),2,2))
1: (((x2 + ~2) - (x div 2)) mod (x + 4))
1: ((x2 - ((1 - (x div 3)) div 3)) mod 3)
1: ((x2 - ((x div 3) div ~3)) mod 3)
1: ((x2 - (x div 2)) mod 5)
1: ((x2 - ((x mod (~2 + (((~x + 2) div 2) div 3))) mod 2)) mod 3)
1: ((~1 + (2 * compr(\x.(1 - ((x + 1) mod (1 + (x div (2 + ((x div 4) mod 3)))))),x))) mod (x + 1))
1: ((~1 + (2 * compr(\x.(1 - ((((1 - (x mod 4)) mod (x + 1)) mod 3) mod 2)),x))) mod (x + 1))
1: (((4 div (4 - ((x mod (1 + (x div 2))) div 2))) - (x mod 2)) mod (x + 1))
1: ((~1 + ((1 + ((32 mod (x + 1)) div 2)) div 2)) mod (x + 1))
1: ((~1 + ((x + (x div 2)) div 4)) mod 3)
1: ((~x + ((x + (x div 2)) div 4)) mod (4x + 1))
1: ((~1 + ((x + (x div 4)) div 2)) mod (x + 2))
1: ((((1 + (8 mod (1 + (x div 2)))) div 2) - (x mod 2)) mod (1 + (x div 2)))
1: ((((1 + (8 mod (1 + (x div 2)))) div 2) - (x mod 2)) mod (x + 1))
1: ((~1 + ((2 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 3)) mod (x + 1))
1: ((((x + 1) div 2) - ((3 * (x div 4)) div 2)) mod (1 + (2 * (x mod 7))))
1: ((((x + 1) div 3) - ((x + ~2) mod 5)) mod 2)
1: ((((x + 2) div 3) - (if (~2 + (x div 2)) <= 0 then 1 else 0)) mod 2)
1: ((~1 + ((~2x + 1) div (4 + (x div 4)))) mod 3)
1: ((~2 + ((1 - (x div 2)) div 3)) mod (x2 + 1))
1: ((~x + ((1 - (x div 2)) div 3)) mod 3)
1: ((~1 + ((~x + 1) div 2)) mod 4)
1: ((~1 + ((~x + 1) div 2)) mod 5)
1: ((((~x + 2) div 2) - (if (x + ~2) <= 0 then x else 0)) mod 3)
1: ((~x + ((~x + 2) div 2)) mod (1 + (x div 3)))
1: ((~1 + ((x2 + ~2) div (x - ((~x + 2) div 2)))) mod (x + 1))
1: ((~2 + ((x + ~1) div 2)) mod (x + 1))
1: ((((x + ~1) div 2) - (x mod 10)) mod (x + 1))
1: ((~1 + ((x + ~1) div 3)) mod 3)
1: ((~2 + ((x + ~1) div 3)) mod (2 + (x div 4)))
1: ((((x + ~1) div 3) - (if (x + ~4) <= 0 then 0 else 1)) mod 2)
1: ((~1 + ((x + ~2) div 3)) mod 5)
1: ((~x + ((x + ~2) div 3)) mod 3)
1: ((~x + ((x + ~2) div 3)) mod (2 + (x div 2)))
1: ((~2 + ((x + ~2) div 5)) mod (x + 2))
1: ((~1 + ((x - ((x2 * (x div 2)) div 2)) div 2)) mod (x + 2))
1: ((~1 + ((x - (x div 4)) div 2)) mod 3)
1: ((~2 + ((x - ((x div 2) mod 2)) div 2)) mod (1 + (x mod 3)))
1: ((~1 + ((2x2 + x) div 5)) mod (x + 2))
1: ((~1 + ((2 * (2 + (x div (1 + ((x div 2) mod (1 + (if (x mod 2) <= 0 then 6 else 1))))))) div 3)) mod 3)
1: ((~1 + ((x2 + x) div 2)) mod 9)
1: ((~1 + (((x + 1) * (~1 + ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 2))) div 2)) mod (x + 1))
1: ((~1 + (4x div (1 + (x div 4)))) mod 3)
1: ((~x + ((x * (x div 2)) div 4)) mod (1 + (x div 5)))
1: ((((3 * (x div 4)) div 2) - ((x + 1) div 2)) mod 4)
1: ((((3 * (x div 4)) div 2) - (x div 2)) mod 5)
1: ((~1 + ((x * (x mod 2)) div 2)) mod 4)
1: ((~1 + (2x div 3)) mod 5)
1: ((~1 + (2x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))) mod (x + 1))
1: ((~1 + (x2 div 2)) mod (4 + (x div 2)))
1: ((~2 + (x2 div 2)) mod 5)
1: ((~1 + ((x2 div 2) + (2x mod (1 + (x div 4))))) mod (x + 2))
1: ((~8 + (x2 div 2)) mod (1 + (x div 4)))
1: ((~x + (x2 div 8)) mod 4)
1: ((~1 + (((1 + (x * (x div 2))) div 2) div 2)) mod (x + 1))
1: ((~1 + ((loop(\(x,i).((x2 + ~x) div 2),1,loop(\(x,i).4x,x,1)) div 2) div 2)) mod loop(\(x,i).2x,x,2))
1: ((~2 + ((x div 2) div 3)) mod (x + 1))
1: ((~x + ((x div 2) div 3)) mod 3)
1: ((~1 + ((x div (1 + ((x div 2) mod 2))) div 2)) mod 3)
1: (((((x + 1) mod (1 + (2 * ((1 + (x div 4)) div 2)))) div 2) - (x mod 2)) mod 3)
1: ((~1 + ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 2)) mod 3)
1: ((~1 + ((loop(\(x,i).(2x + 2),x,(12 * (x div 7))) mod 5) div 2)) mod 3)
1: ((~1 + ((x mod 5) div 2)) mod 3)
1: ((~1 + (x div 2)) mod (2x + 1))
1: ((~1 + (x div 2)) mod (1 + ((1 + (x div 2)) div 3)))
1: ((~1 + (x div 2)) mod (2 + ((x div 2) mod 2)))
1: ((~1 + (x div 2)) mod (1 + (x mod 7)))
1: ((~1 + (x div 2)) mod (1 + (if (x mod 3) <= 0 then (x div 3) else 0)))
1: ((~1 + (x div 2)) mod (x + 2))
1: ((~1 + (x div 2)) mod (~1 + (2 * (x mod 4))))
1: ((~1 + (x div 2)) mod (~1 + (2x mod (4 + (x div 4)))))
1: ((~1 + (x div 2)) mod ((x + 1) div (1 + (x div 3))))
1: ((~1 + (x div 2)) mod (if x <= 0 then 2 else x))
1: ((~2 + (x div 2)) mod (1 + ((x + ~1) mod 5)))
1: ((~2 + (x div 2)) mod (1 + (x mod 5)))
1: ((~2 + (x div 2)) mod (1 + (if (x mod 2) <= 0 then (x div 4) else 1)))
1: ((~2 + (x div 2)) mod ((if (x + ~2) <= 0 then 2 else ((x + 1) div 2)) div 2))
1: (((~4x + ~1) + (x div 2)) mod (x + 3))
1: ((~8 + (x div 2)) mod (2 + (x div 5)))
1: (((x div 2) - (21 * (if x <= 0 then 1 else 2))) mod (x + 1))
1: (((x div 2) - (2 * (x mod 2))) mod 9)
1: (((x div 2) - (2 * (x mod 2))) mod 6)
1: ((~x2 + (x div 2)) mod 8)
1: (((x div 2) - ((x + 2) div (x + ~16))) mod 2)
1: (((x div 2) - ((x + ~1) div (2 + (x div 3)))) mod 2)
1: (((x div 2) - ((x - ((2x + 1) mod (2 + (x div 4)))) div 2)) mod 2)
1: (((x div 2) - ((4x + ~8) div (x + 1))) mod 2)
1: (((x div 2) - (x div 5)) mod 3)
1: (((x div 2) - (x div (1 + (2 * (1 + (x mod 2)))))) mod 2)
1: (((x div 2) - (x div ~8)) mod 2)
1: (((x div 2) - ((x + 1) mod 4)) mod 3)
1: (((x div 2) - ((x + 1) mod 8)) mod (x + 2))
1: (((x div 2) - (((~x + 2) div 2) mod 3)) mod (2 + (x div 3)))
1: (((x div 2) - ((((x + 1) div 2) div 2) mod 2)) mod 3)
1: (((x div 2) - ((x div 4) mod 2)) mod 3)
1: (((x div 2) - ((if (x + ~2) <= 0 then 1 else x) mod 3)) mod 2)
1: (((x div 2) - (x mod 2)) mod 7)
1: (((x div 2) - (x mod 2)) mod (1 + (x div 2)))
1: (((x div 2) - (x mod 2)) mod (1 + (x mod 3)))
1: (((x div 2) - (x mod 3)) mod 2)
1: (((x div 2) - (x mod (1 + ((x + 2) div 3)))) mod 2)
1: (((x div 2) - (x mod (2 - ((x div 2) mod 2)))) mod (x + 1))
1: (((x div 2) - (if ((x + 1) mod 8) <= 0 then 0 else 1)) mod 2)
1: (((x div 2) - (if (8 mod (x + 2)) <= 0 then 1 else 0)) mod 2)
1: (((x div 2) - (if (x mod 3) <= 0 then x else 1)) mod 2)
1: (((x div 2) - (if (x mod 7) <= 0 then 0 else 1)) mod (1 + (x div 3)))
1: ((~1 + (x div 3)) mod 3)
1: ((~1 + (x div 3)) mod ((if (x mod 2) <= 0 then 1 else x) mod 4))
1: (((~3x + ~3) + (x div 3)) mod 7)
1: (((x div 3) - (x div (~1 + (x mod (~1 + (x div ~2)))))) mod 2)
1: (((x div 3) - (if ((x * (x div 2)) mod 4) <= 0 then 2 else 1)) mod 2)
1: ((~x + (x div 3)) mod 3)
1: ((~x + (x div 3)) mod (2 + (x div 2)))
1: ((~x + (x div 3)) mod (1 + (x mod 3)))
1: ((~1 + (x div 4)) mod 4)
1: ((~1 + (x div 4)) mod (1 + ((((x + 1) div 2) div 2) div 2)))
1: (((x div 4) - ((1 + ((x mod 5) div 2)) mod 3)) mod 2)
1: (((x div 4) - ((if (x + ~2) <= 0 then 1 else x) mod 3)) mod 2)
1: ((~x + (x div 4)) mod 7)
1: ((~2 + (x div (1 + (x mod 4)))) mod (x + 1))
1: ((~1 + (x div ~2)) mod 4)
1: ((~1 + (x div ~2)) mod (1 + (x div 4)))
1: ((~2 + (x div ~4)) mod 5)
1: ((~1 + (x div (~3 + (x div 8)))) mod 2)
1: ((~2 + (x div (~2 + (x mod 2)))) mod (1 + (x div 3)))
1: ((~1 + (x div (~2 + (x mod ~8)))) mod 2)
1: ((~1 + (x div (~8 + (if (x mod 2) <= 0 then 2 else x)))) mod 2)
1: (((x div 8) - (x mod ~5)) mod 2)
1: ((~x + (x div 8)) mod (2 + (x div 2)))
1: ((~1 + (2 mod (~2x + 1))) mod (4 + (x div 4)))
1: ((~1 + (((x + 1) - ((x3 div 8) mod 2)) mod 3)) mod (x + 1))
1: ((~1 + ((2x + 1) mod (4 + (x div 4)))) mod 4)
1: ((~1 + ((1 + (x div (2 - (x mod 2)))) mod 3)) mod (x + 1))
1: ((~1 + ((1 + (x mod (2 + ((x mod (1 + ((~x + 2) mod 4))) div 2)))) mod 3)) mod (x + 1))
1: ((~1 + ((1 + (x mod (~1 + (3 * (((x + ~1) div 2) mod 3))))) mod 3)) mod (x + 1))
1: ((~1 + ((1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),(1 + (2 * (x mod 2))),(x + ~1))) mod 3)) mod (x + 1))
1: ((~1 + ((x + 1) mod 3)) mod (x + 2))
1: ((~1 + ((x + 1) mod 7)) mod 3)
1: ((~1 + ((x + 1) mod (1 + (x div (4 + (x mod 2)))))) mod (x + 1))
1: ((~1 + ((x + 1) mod 8)) mod 3)
1: ((~1 + ((x + 2) mod 5)) mod 3)
1: ((~1 + (~x mod 5)) mod (x + 2))
1: ((~1 + ((x + (if ((x + 1) mod 10) <= 0 then 2 else 1) - (x div 2)) mod 9)) mod (x + 1))
1: ((~1 + ((~2 + (x mod 2)) mod (~1 + ((~2x + 2) mod (4 + (x div 4)))))) mod 3)
1: ((~1 + ((x + ~2) mod 5)) mod 3)
1: ((~1 + ((x + ((x - (x div 4)) mod 2) - (x mod 2)) mod 3)) mod (x + 1))
1: ((((x - ((x * (2 + (x div 5))) div 4)) mod 2) - (x mod 2)) mod (x + 2))
1: ((((x - (x div (4 * (2 + (x mod 2))))) mod 2) - (x mod 2)) mod (1 + (x div 3)))
1: ((~1 + ((~2x + 2) mod (4 + (x div 4)))) mod 5)
1: ((~1 + ((~2x + 2) mod (4 + (x div 4)))) mod (1 + (x2 div 4)))
1: ((~1 + ((~2x + 2) mod (4 + (x div 4)))) mod (1 + (x div 2)))
1: ((~1 + ((2x + ~2) mod (4 + (x div 4)))) mod (2 + (x div 3)))
1: ((~1 + ((x2 + ~x) mod (3 + ((x div 2) div 3)))) mod (x + 1))
1: ((~1 + (((2x + 2) * (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 8))) mod 3)) mod (x + 1))
1: ((~1 + (2x2 mod (4 + (x div 4)))) mod (x + 3))
1: ((~1 + (2x mod (4 + (x div 4)))) mod (x + 1))
1: (((x2 mod 5) - (x div 2)) mod (x + 1))
1: ((~x + (((x + ~1) div 2) mod 2)) mod 5)
1: ((~1 + (((x + ~1) div 2) mod 4)) mod (x + 1))
1: ((((x div 2) mod 2) - (x div 5)) mod 3)
1: ((~x + ((x div 2) mod 2)) mod 3)
1: ((~1 + ((x div 2) mod 3)) mod (x + 1))
1: ((~2 + ((x div 2) mod 5)) mod 3)
1: ((((x div 2) mod 5) - (x div 3)) mod (1 + (x div 2)))
1: ((((x div ~4) mod 2) - (x div 2)) mod (x + 1))
1: ((~1 + ((x mod 5) mod 3)) mod (x + 1))
1: ((~1 + ((x mod 6) mod 4)) mod (x + 1))
1: ((~1 + ((x mod (2 * (1 + (if (x mod 2) <= 0 then 6 else 1)))) mod 3)) mod (x + 1))
1: ((~1 + (loop(\(x,i).13x,x,1) mod 31)) mod (x + 1))
1: ((~1 + (loop(\(x,i).(2x + 2),x,0) mod (2x + 1))) mod (x + 1))
1: (((loop(\(x,i).(2x + 2),x,0) mod (x + 1)) - loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) mod (x + 1))
1: ((~1 + (loop(\(x,i).4x,x,5) mod (2x + 3))) mod (x + 1))
1: ((~1 + (loop(\(x,i).(if (~x + i) <= 0 then 1 else (x + 2)),x,1) mod (x + 1))) mod (3x + 3))
1: ((~1 + (x mod 2)) mod loop(\(x,i).2x,(x div 2),2))
1: ((~1 + (x mod 2)) mod loop(\(x,i).2x,x,2))
1: ((~2 + (x mod 2)) mod (1 + ((x + (if (x mod 2) <= 0 then x else 1)) div 5)))
1: ((~2 + (x mod 2)) mod ((2x + 2) * (if (x mod 2) <= 0 then 8 else 1)))
1: ((~2 + (x mod 2)) mod ((x2 + 3x + 2) div 2))
1: ((~2 + (x mod 2)) mod (if (x mod 3) <= 0 then ((1 + (if (x mod 2) <= 0 then 16 else 1)) * (if x <= 0 then 1 else 2)) else 1))
1: ((~1 + (x mod 2) - ((1 + (8 mod (1 + (x div 2)))) div 2)) mod (x + 1))
1: ((1 + (x mod 2) - (loop(\(x,i).(2 * (6x + (2x div (1 + i)))),x,1) div 2)) mod 3)
1: (((x mod 2) - (2 * (1 + (x div 3)))) mod (x + 1))
1: (((x mod 2) - (2 * (if ((x div 2) mod 3) <= 0 then 2 else 1))) mod (x + 1))
1: ((~2x + (x mod 2)) mod (2 + (x div 3)))
1: (((x mod 2) - ((~x + ((x div 2) mod 2)) div 2)) mod (x + 1))
1: (((x mod 2) - ((x mod (2 - (x div (1 + ((x div 2) mod 2))))) mod 2)) mod 4)
1: (((x mod 2) - ((x mod (2 - (x div (1 + ((x div 2) mod 2))))) mod 2)) mod (x + 1))
1: (((x mod 2) - (if ((x + ~1) mod 5) <= 0 then 1 else x)) mod (x + 1))
1: (((x mod 2) - (if (x mod 3) <= 0 then 0 else x)) mod 5)
1: (((x mod 2) - (if (x mod (4 + (x div 2))) <= 0 then 1 else 0)) mod (x + 1))
1: ((~1 + (x mod 3)) mod 4)
1: ((~1 + (x mod 3)) mod (3 + (x mod 2)))
1: ((~1 + (x mod 3)) mod (1 + (4 * (if x <= 0 then 0 else 2))))
1: ((~1 + (x mod 3)) mod (1 + ((x mod (1 + ((2 - (x mod 4)) mod (x + 1)))) div 2)))
1: ((~1 + (x mod 3)) mod (1 + (x div 4)))
1: ((~1 + (x mod 3)) mod (2 + (x div 5)))
1: ((~1 + (x mod 3)) mod (1 + (x mod 4)))
1: ((~2 + (x mod 3)) mod (1 + ((x div 2) div 3)))
1: ((~2 + (x mod 3)) mod (2 + (if x <= 0 then 1 else 2)))
1: (((x mod 3) - ((x + ~1) div (2 + (x mod 3)))) mod 2)
1: (((x mod 3) - ((x + 1) mod (1 + ((x div 2) div 3)))) mod 2)
1: (((x mod 3) - (if x <= 0 then 0 else 1)) mod 6)
1: (((x mod 4) - ((x + ~1) div 2)) mod (1 + (x div 3)))
1: (((x mod 4) - (x div 2)) mod 3)
1: ((~1 + (x mod 5)) mod (x + 1))
1: ((~1 + (x mod 5)) mod (if x <= 0 then 1 else x))
1: ((~x + (x mod 9)) mod 20)
1: ((~1 + (x mod (1 + (((x + 1) div 2) div 3)))) mod (x + 1))
1: ((~x + (x mod (1 + ((x div 2) div 3)))) mod 3)
1: (((x mod 8) - ((~x + 1) div 5)) mod 3)
1: (((x mod 10) - (x div 2)) mod (x + 1))
1: ((~x + (x mod 10)) mod (2x + 1))
1: ((~1 + (i mod 3)) mod 2)
1: ((~x + (if (~2 + (x div 4)) <= 0 then 0 else 2)) mod 4)
1: ((~1 + (if (~2 + (x div 4)) <= 0 then 2 else (x mod 2))) mod 3)
1: (((if (~2 + (x mod 8)) <= 0 then 1 else 0) - (x mod 2)) mod 3)
1: (((if (x + ~1) <= 0 then 3 else 0) - (x mod 2)) mod loop(\(x,i).2x,x,2))
1: (((if (x + ~2) <= 0 then 1 else 2) - (if (x mod 3) <= 0 then x else 1)) mod 2)
1: ((~x + (if (x + ~12) <= 0 then 2 else 1)) mod 4)
1: ((~x + (if ((~1 + (x div 3)) mod 4) <= 0 then 1 else 0)) mod 3)
1: ((~1 + (if ((x2 + 2x) mod 6) <= 0 then 2x else 1)) mod (x + 2))
1: ((~x + (if (x mod 2) <= 0 then (if x <= 0 then 1 else 4) else x)) mod (2 + (x div 4)))
1: (((if (x mod 2) <= 0 then x else 0) - (x div 2)) mod 12)
1: (((if (x mod 3) <= 0 then 0 else x) - (x mod 3)) mod 5)
1: (((if (x mod 4) <= 0 then 2 else 0) - (x div 2)) mod 5)
1: (((if (x mod 4) <= 0 then x else 1) - (x mod 2)) mod 3)
1: ((~1 + (if (x mod (3 + ((x div 2) div 3))) <= 0 then 1 else 0)) mod (x + 1))
1: ((~1 + (if loop(\(x,i).((if x <= 0 then 2 else loop(\(x,i).(x div (2 - (x mod 2))),x,x)) div 2),2,x) <= 0 then 0 else x)) mod 3)
1: (((if x <= 0 then 1 else 0) - ((~x + 1) mod 3)) mod 6)
1: ((~1 + (if x <= 0 then 1 else (x * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))) mod 4)
1: ((~x + (if x <= 0 then 2 else 1)) mod 9)
1: ((~x + (if x <= 0 then 2 else 1)) mod 8)
1: ((~2 + (if x <= 0 then 2 else (1 + ((2 * (1 + ((2 * (2 + loop(\(x,i).(x * i),x,1))) div 3))) div 3)))) mod 3)
1: ((~1 + loop(\(x,i).(2x2 + 1),2,8)) mod (x + 1))
1: ((~1 + loop(\(x,i).(~2x + 1),x,6)) mod (x + 1))
1: ((loop(\(x,i).(3x + ~1),x,1) - loop(\(x,i).2x,x,1)) mod 10)
1: ((~1 + loop(\(x,i).(2x - ((i div 2) mod 2)),x,2)) mod 10)
1: ((~1 + loop(\(x,i).(x - (if (~x + i) <= 0 then (1 + i) else 0)),x,x)) mod (x + 2))
1: ((~1 + loop(\(x,i).(x - (if x <= 0 then 1 else (2 * i))),x,x)) mod (x + 1))
1: ((~2 + loop(\(x,i).3x,x,1)) mod 19)
1: ((~1 + loop(\(x,i).(2x2 + x),2,2)) mod (x + 1))
1: ((loop(\(x,i).(2x + 2),loop(\(x,i).(x div (1 + (x mod 2))),x,x),1) - (x mod 2)) mod (x + 1))
1: ((~2 + loop(\(x,i).(x2 + x),2,(12x + 6))) mod (x + 1))
1: ((~2 + loop(\(x,i).(x2 + 3x + 2),2,2)) mod (x + 1))
1: ((~1 + loop(\(x,i).(x * (2 + i)),x,2)) mod 5)
1: ((~1 + loop(\(x,i).~2x,x,4)) mod (x + 1))
1: ((loop(\(x,i).(~2x + 4),(x div 2),2) - (x mod 2)) mod (x + 2))
1: ((~1 + loop(\(x,i).(x3 + 2x2 + ~x),1,29)) mod (x + 1))
1: ((~1 + loop(\(x,i).(2 * (2x - (x div (1 + i)))),x,2)) mod 3)
1: ((~1 + loop(\(x,i).(2 * (2x - (x div (1 + i)))),x,2)) mod 9)
1: ((~1 + loop(\(x,i).(x * (~1 + (2 * i))),x,2)) mod (x + 1))
1: ((~1 + loop(\(x,i).(2x + ~2),(1 + ((x div 3) mod 2)),(1 + (x div 4)))) mod (x + 1))
1: ((~1 + loop(\(x,i).(x2 + ~x),1,(~1 + ((~2x + 2) mod (4 + (x div 4)))))) mod (x + 1))
1: ((~1 + loop(\(x,i).(2 * (x - (i mod 2))),x,(2x + 1))) mod (x + 1))
1: ((~1 + loop(\(x,i).10x,(x + 1),1)) mod (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: ((~2 + loop(\(x,i).(6x2 + 12),2,(x + 1))) mod (x + 1))
1: ((~1 + loop(\(x,i).8x,x,2)) mod (x + 1))
1: ((~1 + loop(\(x,i).12x,(x + 1),1)) mod (x + 1))
1: ((~1 + loop(\(x,i).4x,x,2)) mod 19)
1: ((~1 + loop(\(x,i).2x2,2,2)) mod (x + 1))
1: ((~1 + loop(\(x,i).2x3,3,2)) mod (x + 1))
1: ((loop(\(x,i).x3,1,25) - loop(\(x,i).(2x + 2),x,0)) mod loop(\(x,i).2x,x,1))
1: ((~1 + loop(\(x,i).x3,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))) mod 9)
1: ((~1 + loop(\(x,i).x3,1,loop(\(x,i).4x2,2,4))) mod (x + 1))
1: ((~1 + loop(\(x,i).x3,1,loop(\(x,i).x2,2,10))) mod (x + 1))
1: ((~2 + loop(\(x,i).x3,2,2)) mod (x + 1))
1: ((loop(\(x,i).x3,2,2) - loop(\(x,i).2x,x,1)) mod (x + 1))
1: ((~1 + loop(\(x,i).x3,2,4)) mod (x + 1))
1: ((~1 + loop(\(x,i).x3,2,16)) mod (x + 1))
1: ((~1 + loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),x,1)) mod (x2 + 2x + 1))
1: ((~1 + loop(\(x,i).2x,((x + 1) + (x div 2)),2)) mod (x + 1))
1: ((~1 + loop(\(x,i).2x,(x + ((x + (x div 2)) div 4)),2)) mod (x + 2))
1: ((~1 + loop(\(x,i).2x,(1 + (x div (2 + ((x div 2) div (1 + (x mod (1 + (x mod (3 + (x mod 2)))))))))),1)) mod (x + 1))
1: ((~1 + loop(\(x,i).2x,(1 + (x div (1 + (loop(\(x,i).2x,x,2) mod (2x + 1))))),1)) mod (x + 2))
1: ((~2 + loop(\(x,i).2x,(x + (if (~2 + (x div 2)) <= 0 then 1 else 2)),1)) mod (x + 1))
1: ((~1 + loop(\(x,i).2x,(2 - ((~x + 1) div 3)),2)) mod (x + 1))
1: ((~1 + loop(\(x,i).2x,(x div 2),2)) mod (x + 1))
1: ((1 + loop(\(x,i).2x,x,1) - ((if (x mod 2) <= 0 then 2 else x) mod 4)) mod (x + 1))
1: ((loop(\(x,i).2x,x,1) - (x mod 2)) mod loop(\(x,i).(x * i),x,2))
1: ((loop(\(x,i).2x,x,1) - loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(x + ~1),1)) mod (x + 1))
1: ((loop(\(x,i).2x,x,1) - loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x div 2),1)) mod (x + 1))
1: ((~1 + loop(\(x,i).2x,x,2)) mod 41)
1: ((~1 + loop(\(x,i).2x,x,2)) mod (2 + (x div 2)))
1: ((~1 + loop(\(x,i).2x,x,2)) mod (1 + (if (~1 + (x mod 3)) <= 0 then x else 2)))
1: ((~1 + loop(\(x,i).2x,x,2)) mod (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: ((loop(\(x,i).2x,x,2) - ((3 * (x mod 3)) div 2)) mod (x + 1))
1: ((loop(\(x,i).2x,x,2) - (if x <= 0 then 0 else 1)) mod (x + 2))
1: ((~1 + loop(\(x,i).2x,x,(4 + ((x div 2) div 3)))) mod (x + 1))
1: ((~1 + loop(\(x,i).2x,x,(1 + (2 * (if (x mod 5) <= 0 then 0 else 2))))) mod (x + 1))
1: ((~1 + loop(\(x,i).2x,x,(1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))) mod (x + 1))
1: ((loop(\(x,i).2x,x,(2 + (x mod 2))) - (x mod 2)) mod (x + 1))
1: ((~1 + loop(\(x,i).2x,x,(1 + (x mod (1 + ((x + 1) mod 3)))))) mod (x + 1))
1: ((loop(\(x,i).2x,x,(1 + (x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4)))))))) - (x mod 2)) mod (x + 1))
1: ((~1 + loop(\(x,i).2x,x,(1 + (if ((x mod 7) mod 3) <= 0 then 2 else 0)))) mod (x + 1))
1: ((~1 + loop(\(x,i).2x,x,(1 - (2 * ((x mod (2 + (x mod 5))) mod 2))))) mod (x + 1))
1: ((~1 + loop(\(x,i).2x,x,(1 - loop(\(x,i).(2 * (x - (i mod 2))),x,0)))) mod (x + 1))
1: ((~1 + loop(\(x,i).2x,x,(1 + (if (x mod 3) <= 0 then 2 else 0) - (x mod 2)))) mod (x + 1))
1: ((~1 + loop(\(x,i).2x,x,((x5 + ~1) + loop(\(x,i).8x,x,1)))) mod (x + 2))
1: ((~1 + loop(\(x,i).2x,x,23)) mod (x + 1))
1: ((~1 + loop(\(x,i).2x,x,(~1 + (x mod 4)))) mod (x + 1))
1: ((~1 + loop(\(x,i).2x,x,((x mod 6) - (x mod 5)))) mod (x + 1))
1: ((~1 + loop(\(x,i).2x,x,10)) mod (x + 2))
1: ((~1 + loop(\(x,i).2x,x,(3 * ((x div 3) mod 2)))) mod (x + 1))
1: ((~1 + loop(\(x,i).2x,x,(x div (2 - (x mod 2))))) mod (x + 1))
1: ((~1 + loop(\(x,i).2x,x,(if (x + ~2) <= 0 then 1 else 2))) mod (x + 1))
1: ((~1 + loop(\(x,i).2x,x,(if ((x + (x div 2)) mod 4) <= 0 then 2 else 1))) mod (x + 1))
1: ((~1 + loop(\(x,i).2x,x,(if (loop(\(x,i).2x,x,3) mod (x + 3)) <= 0 then 2 else 1))) mod (x + 2))
1: ((~1 + loop(\(x,i).2x,x,(if (x mod 2) <= 0 then 2 else 0))) mod (x + 1))
1: ((~1 + loop(\(x,i).2x,x,(if (x mod 3) <= 0 then 1 else 2))) mod (x + 1))
1: ((~1 + loop(\(x,i).2x,x,(if (x mod 7) <= 0 then 1 else 2))) mod (x + 2))
1: ((~1 + loop(\(x,i).2x,x,(if (x mod 13) <= 0 then 1 else 2))) mod (x + 2))
1: ((~1 + loop(\(x,i).2x,x,(if (x mod 11) <= 0 then 1 else 2))) mod (x + 2))
1: ((~1 + loop(\(x,i).2x,x,(if x <= 0 then 1 else (2 * (if (~2 + (x div 3)) <= 0 then 0 else 2))))) mod (x + 1))
1: ((~2 + loop(\(x,i).2x,x,loop(\(x,i).(1 + (x * i)),x,1))) mod (x + 1))
1: ((~1 + loop(\(x,i).x2,1,(1 + (x mod (1 + (loop(\(x,i).2x,x,(1 + (x mod 2))) mod (2x + 1))))))) mod (x + 1))
1: ((~1 + loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))) mod 9)
1: ((~1 + loop(\(x,i).x2,1,loop(\(x,i).2x2,3,2))) mod (x + 1))
1: ((~2 + loop(\(x,i).x2,2,23)) mod (x + 1))
1: ((~1 + loop(\(x,i).x2,2,8)) mod (x + 1))
1: ((loop(\(x,i).x2,2,8) - loop(\(x,i).2x,x,2)) mod (x + 1))
1: ((~1 + loop(\(x,i).x2,2,32)) mod (x + 1))
1: ((~1 + loop(\(x,i).x2,2,loop(\(x,i).2x2,2,2))) mod (x + 1))
1: ((~1 + loop(\(x,i).x2,3,8)) mod (x + 1))
1: ((~1 + loop(\(x,i).x2,3,10)) mod (x + 1))
1: ((~1 + loop(\(x,i).(x * i),x,1)) mod 9)
1: ((~1 + loop(\(x,i).(x * i),x,loop(\(x,i).(2 * (x + (i mod 2))),(x div 2),1))) mod (x + 1))
1: ((~1 + loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1)) mod 4)
1: ((~1 + loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1)) mod 9)
1: ((~x + loop(\(x,i).(x div (1 + (x mod 2))),x,x)) mod 5)
1: ((~1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 0 else 2))),x,x)) mod 4)
1: ((loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) - loop(\(x,i).4x,x,1)) mod (x + 1))
1: ((~1 + loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + 1))) mod 3)
1: ((x + ~1) mod (3 + (((x mod (1 + ((~x + 2) mod 4))) div 2) + (x mod 2))))
1: ((x + ~1) mod (5 + (x div 2)))
1: ((x + ~1) mod (3 + ((1 + (x div 3)) div 3)))
1: ((x + ~1) mod (3 + (((1 + (x div 2)) div 2) div 2)))
1: ((x + ~1) mod (4 + (((x + 1) div 2) div 2)))
1: ((x + ~1) mod (4 + ((x div 2) div 3)))
1: ((x + ~1) mod (4 + ((x div 2) div 5)))
1: ((x + ~1) mod (3 + (x div 5)))
1: ((x + ~1) mod (4 + (x div 5)))
1: ((x + ~1) mod (4 + (i div 3)))
1: ((x + ~1) mod (3 + ((x div 2) mod 3)))
1: ((x + ~1) mod (1 + ((((x + 3) mod 7) mod 2) + (x mod 2))))
1: ((x + ~1) mod (3 + (x mod 2)))
1: ((x + ~1) mod (4 + (x mod 2)))
1: ((x + ~1) mod (4 - (x div 4)))
1: ((x + ~1) mod (4 - (x mod 4)))
1: ((x + ~1) mod (2 + (2 * (((~x + 1) mod 3) + (x mod 2))) - (x mod 2)))
1: ((x + ~1) mod (1 + (if (x div 4) <= 0 then 1 else ((2 * (x div 2)) div 3)) - (x mod 2)))
1: ((x + ~1) mod (1 + (if x <= 0 then 0 else 2) - (x mod 2)))
1: ((x + ~1) mod (1 + (2 * (3 + (x mod 2)))))
1: ((x + ~1) mod (1 + (2 * (1 + ((x div 3) mod 2)))))
1: ((x + ~1) mod (1 + (2 * (2 + (x mod 2)))))
1: ((x + ~1) mod (1 + (2 * (2 + (x mod 6)))))
1: ((x + ~1) mod (1 + (4 * (x mod 2))))
1: ((x + ~1) mod (2 + (3 * ((((x + 1) div 2) div 2) div 2))))
1: ((x + ~1) mod (1 + (2 * ((~x + 1) mod 3))))
1: ((x + ~1) mod (1 + (4 * ((x + ~1) mod 3))))
1: ((x + ~1) mod (1 + (2 * (((x + 1) div 2) mod 4))))
1: ((x + ~1) mod (1 + (2 * (((x * (2 - (x div 2))) div 3) mod 3))))
1: ((x + ~1) mod (1 + (2 * ((x2 div 2) mod (x + 2)))))
1: ((x + ~1) mod (2 + (3 * (x mod 3))))
1: ((x + ~1) mod (1 + (2 * (x mod (1 + (x div 4))))))
1: ((x + ~1) mod (1 + (2 * (if (x mod 2) <= 0 then 2 else x))))
1: ((x + ~1) mod (1 + (2 * (if (x mod 4) <= 0 then 0 else 2))))
1: ((x + ~1) mod (1 + (9 * (if (x mod (2 + (x mod 2))) <= 0 then x else 1))))
1: ((x + ~1) mod (1 + (2 * i)))
1: ((x + ~1) mod (2 + ((x + (2 * (x mod 2))) div 5)))
1: ((x + ~1) mod (1 + ((1 + (x div 2)) div 2)))
1: ((x + ~1) mod (1 + ((x + 2) div (2 * (2 + (x mod 4))))))
1: ((x + ~1) mod (1 + ((2 * (x div 2)) div (1 + (x div 4)))))
1: ((x + ~1) mod (1 + (((x + 1) div 2) div 2)))
1: ((x + ~1) mod (1 + ((x mod (2 + (x div 3))) div 2)))
1: ((x + ~1) mod (1 + ((x mod (2 + ((~x + 1) mod 8))) div 2)))
1: ((x + ~1) mod (1 + ((x mod (1 + (2x mod 9))) div 2)))
1: ((x + ~1) mod (6 + (x div 4)))
1: ((x + ~1) mod (2 + (x div (2 + (x div 4)))))
1: ((x + ~1) mod (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))
1: ((x + ~1) mod (1 + (x div (2 + (if (x mod 3) <= 0 then 1 else 2)))))
1: ((x + ~1) mod (1 + (x div (2 + (if (x mod 3) <= 0 then 2 else 0)))))
1: ((x + ~1) mod (1 + ((2x + 1) mod 17)))
1: ((x + ~1) mod (1 + ((1 + (((x + 3) mod 7) mod 2)) mod (x + 1))))
1: ((x + ~1) mod (1 + ((~x + 2) mod 3)))
1: ((x + ~1) mod (1 + ((~x + 2) mod 6)))
1: ((x + ~1) mod (2 + ((~x + 2) mod 8)))
1: ((x + ~1) mod (1 + ((x + ~1) mod 4)))
1: ((x + ~1) mod (1 + ((x + ~2) mod 5)))
1: ((x + ~1) mod (3 + ((x + ~2) mod (1 + (x div 2)))))
1: ((x + ~1) mod (1 + ((x + ~4) mod (2 + (x div 3)))))
1: ((x + ~1) mod (1 + ((2x + ~4) mod (x + 2))))
1: ((x + ~1) mod (1 + ((3 * ((x + ~1) div 2)) mod (x + 1))))
1: ((x + ~1) mod (1 + (((x + ~2) * (x div 3)) mod (1 + (x div 2)))))
1: ((x + ~1) mod (1 + (((x2 + x) div 3) mod 3)))
1: ((x + ~1) mod (2 + (((x * (~1 + (x div 2))) div 2) mod 2)))
1: ((x + ~1) mod (1 + (((8x + 8) div 5) mod 3)))
1: ((x + ~1) mod (2 + ((x div 2) mod 2)))
1: ((x + ~1) mod (1 + ((x div 2) mod (3 + (x mod 2)))))
1: ((x + ~1) mod (1 + ((x div 2) mod (~1 + (2 * (x mod 5))))))
1: ((x + ~1) mod (2 + ((x div 3) mod 2)))
1: ((x + ~1) mod (3 + ((x div 3) mod 2)))
1: ((x + ~1) mod (2 + ((if (x mod 2) <= 0 then (1 + (x mod (2 + ((x + ~1) mod 3)))) else 0) mod (x + 1))))
1: ((x + ~1) mod (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))
1: ((x + ~1) mod (1 + (loop(\(x,i).(3x + 3),x,0) mod (x + 1))))
1: ((x + ~1) mod (2 + (x mod 3)))
1: ((x + ~1) mod (2 + (x mod 4)))
1: ((x + ~1) mod (1 + (x mod 5)))
1: ((x + ~1) mod (1 + (x mod 7)))
1: ((x + ~1) mod (1 + (x mod 9)))
1: ((x + ~1) mod (1 + (x mod (1 + (2 * (x div (3 - (x mod 2))))))))
1: ((x + ~1) mod (1 + (x mod (2 + ((1 + (2 * ((1 + (if x <= 0 then 2 else (1 - ((4 * (x div 3)) div 3)))) mod (x + 1)))) mod (x + 1))))))
1: ((x + ~1) mod (1 + (x mod (1 + ((3x + ~6) mod (x + 1))))))
1: ((x + ~1) mod (1 + (x mod (1 + (x mod (1 + ((x + 1) div 3)))))))
1: ((x + ~1) mod (1 + (x mod (~1 + (2 * ((x + ~1) div 3))))))
1: ((x + ~1) mod (1 + (x mod (~1 + (2 * ((2 * (x div 2)) div 3))))))
1: ((x + ~1) mod (1 + (if ((x div 2) mod 2) <= 0 then (x div 3) else 1)))
1: ((x + ~1) mod (1 + (if (((x + 1) mod 8) mod 3) <= 0 then 2 else 0)))
1: ((x + ~1) mod (1 + (if (x mod 2) <= 0 then ((x + 1) mod (1 + (x mod 4))) else 2)))
1: ((x + ~1) mod (2 + (if (x mod 3) <= 0 then 0 else 2)))
1: ((x + ~1) mod (2 + (if (x mod 4) <= 0 then 2 else 1)))
1: ((x + ~1) mod (2 + (if (x mod (2 + (x mod 2))) <= 0 then 2 else 0)))
1: ((x + ~1) mod (1 + (if (x mod (1 + (x mod 4))) <= 0 then x else 1)))
1: ((x + ~1) mod (1 + (if x <= 0 then 1 else (2 * ((x mod (1 + (x mod (2 + (x div 4))))) div 2)))))
1: ((x + ~1) mod (1 + (if x <= 0 then 1 else ((x + (x div 3)) div 5))))
1: ((x + ~1) mod (2 + i))
1: ((x + ~1) mod (1 - ((~x + 1) div (4 + (x mod 3)))))
1: ((x + ~1) mod (1 - (((x mod 2) - (x div 4)) div 2)))
1: ((x + ~1) mod (1 - ((x + 1) mod (~1 + (2 * (((~x + 2) div 2) div 3))))))
1: ((x + ~1) mod (1 - (x mod (~4 + ((~x + 1) div 2)))))
1: ((x + ~1) mod (2 - ((~x + (x mod 2)) div 3)))
1: ((x + ~1) mod (2 - (((x div 2) div ~2) div 2)))
1: ((x + ~1) mod (2 - ((x div 2) div ~2)))
1: ((x + ~1) mod (2 - ((x div 4) div ~2)))
1: ((x + ~1) mod (2 - ((if x <= 0 then 1 else x) div ~4)))
1: ((x + ~1) mod (2 - (x div ~4)))
1: ((x + ~1) mod (2 - (x mod ~3)))
1: ((x + ~1) mod ~4)
1: ((x + ~1) mod (6 - (x mod 3)))
1: ((x + ~1) mod 11)
1: ((x + ~1) mod (~1 + (2 * (~2 + (x mod 2)))))
1: ((x + ~1) mod (~1 + (4 * ((x + ~2) div 3))))
1: ((x + ~1) mod (~1 + (2 * (x div (2 * (2 - ((x * (x div 2)) mod 2)))))))
1: ((x + ~1) mod (~1 + (2 * ((~x + 1) mod (2 + (x div 3))))))
1: ((x + ~1) mod (~1 + (2 * ((~x + 2) mod 4))))
1: ((x + ~1) mod (~1 + (3 * (x mod 4))))
1: ((x + ~1) mod (~1 + (5 * (if ((x + 1) mod 5) <= 0 then 2 else 0))))
1: ((x + ~1) mod (~1 + (x div ~3)))
1: ((x + ~1) mod (~2 + (x div (~2 + (x mod 2)))))
1: ((x + ~1) mod (x - ((x + 1) mod 13)))
1: ((x + ~1) mod (x - ((x + 1) mod 15)))
1: ((x + ~1) mod (x - ((x + 1) mod 14)))
1: ((x + ~1) mod (x - ((x + 1) mod 16)))
1: ((x + ~1) mod (4 * (1 + i)))
1: ((x + ~1) mod (2 * (1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((x * (1 + (2 * loop(\(x,i).(1 + (2 * (x mod (1 + i)))),x,1)))) div 2)) div 2)) div 2)) div 2)) div 2)) div 2))))
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1: ((x + ~1) mod (2 * (1 + (x div 4))))
1: ((x + ~1) mod (2 * (2 + (if (x mod 2) <= 0 then x else 2))))
1: ((x + ~1) mod (2 * (if (x mod 4) <= 0 then 4 else 1)))
1: ((x + ~1) mod ((x + 1) div (1 + (x div 4))))
1: ((x + ~1) mod (if ((x2 + x) mod 8) <= 0 then 4 else 1))
1: ((x + ~1) mod (if (x mod 2) <= 0 then (1 + ((if (~1 + (x mod 3)) <= 0 then x else 2) + (if (~x + 2) <= 0 then 2 else 1))) else 1))
1: ((x + ~1) mod (if x <= 0 then 2 else (1 + (x div (1 + (2 * (2 + (x mod 3))))))))
1: ((x + ~1) mod loop(\(x,i).(2 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2)),2,x))
1: ((x + ~2) mod (5 + (x mod 3)))
1: ((x + ~2) mod (4 + (x mod 2)))
1: ((x + ~2) mod 13)
1: ((x + ~2) mod (1 + (2 * (2 + (x mod 2)))))
1: ((x + ~2) mod (1 + (2 * ((x div 2) div 3))))
1: ((x + ~2) mod (1 + (2 * ((x mod (2 + (6 mod (1 + (x div 2))))) div 2))))
1: ((x + ~2) mod (1 + (2 * ((x + 2) mod 4))))
1: ((x + ~2) mod (1 + (2 * (if x <= 0 then 0 else 2))))
1: ((x + ~2) mod (1 + ((1 + (x div 2)) div 2)))
1: ((x + ~2) mod (1 + ((x + 2) div 5)))
1: ((x + ~2) mod (1 + ((3 * (x div 4)) div 2)))
1: ((x + ~2) mod (1 + (2x div (2 + (x div 2)))))
1: ((x + ~2) mod (5 + (x div 3)))
1: ((x + ~2) mod (2 + (x div 5)))
1: ((x + ~2) mod (1 + (x div (4 - ((x div 2) mod 2)))))
1: ((x + ~2) mod (2 + (x div (2 + (if (x mod 3) <= 0 then 2 else 1)))))
1: ((x + ~2) mod (2 + (x div 8)))
1: ((x + ~2) mod (1 + ((1 + ((x div 2) + (x div 3))) mod 3)))
1: ((x + ~2) mod (1 + ((1 + (x div 2)) mod 4)))
1: ((x + ~2) mod (1 + ((1 - (if (~x + 2) <= 0 then x else 0)) mod 4)))
1: ((x + ~2) mod (1 + ((~x + 1) mod 5)))
1: ((x + ~2) mod (1 + ((~x + 2) mod 4)))
1: ((x + ~2) mod (2 + ((~x + 2) mod 4)))
1: ((x + ~2) mod (1 + ((x + ~1) mod 3)))
1: ((x + ~2) mod (1 + ((x + ~1) mod 4)))
1: ((x + ~2) mod (2 + ((2 * (x div 2)) mod 3)))
1: ((x + ~2) mod (2 + (((~x + 2) div 2) mod 4)))
1: ((x + ~2) mod (2 + (((x + ~1) div 2) mod 2)))
1: ((x + ~2) mod (1 + ((x div 2) mod 5)))
1: ((x + ~2) mod (2 + (x mod 4)))
1: ((x + ~2) mod (1 + (x mod (~1 + (2 * (x mod 4))))))
1: ((x + ~2) mod (1 + (if (x mod 2) <= 0 then (x div 4) else 1)))
1: ((x + ~2) mod (x + 2))
1: ((x + ~2) mod (2 - ((~x + 2) div 5)))
1: ((x + ~2) mod (2 - ((x div 4) div ~2)))
1: ((x + ~2) mod (2 - (x div ~2)))
1: ((x + ~2) mod (4 - (x div ~2)))
1: ((x + ~2) mod (4 - (x mod 3)))
1: ((x + ~2) mod (~1 + (2 * ((x * (x mod 2)) div 4))))
1: ((x + ~2) mod (~1 + (2 * (x div 4))))
1: ((x + ~2) mod (~1 + (2 * (x mod 5))))
1: ((x + ~2) mod (2 * (1 + (x div 4))))
1: ((x + ~2) mod (2 * (1 + (((x + 1) mod 5) mod 2))))
1: ((x + ~2) mod (3 * (2 + (x mod 2))))
1: ((x + ~3) mod (4 + (x div 2)))
1: ((x + ~3) mod (1 + (x div 3)))
1: ((x + ~3) mod (1 + (x mod 6)))
1: ((x + ~3) mod 8)
1: ((x + ~3) mod ((2 * (2 - ((~x + 1) div 3))) div 3))
1: ((x + ~4) mod (1 + (x mod (1 + (x div 5)))))
1: ((x + ~4) mod (1 - (2 * (x div (~2 + ((~x + 2) div 4))))))
1: ((x + ~5) mod (1 + (x div 2)))
1: ((x + ~5) mod (1 + (x div 4)))
1: ((~2 - (if (x + ~2) <= 0 then 1 else 8)) mod (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: ((x + ~9) mod 27)
1: (((x + ~2) - (x * (x div 3))) mod 5)
1: (((x + ~1) - ((1 + (if x <= 0 then 1 else (2 * ((1 + (if (x mod 3) <= 0 then 0 else x)) div 3)))) div 2)) mod 5)
1: (((x + ~1) - ((x + 2) div (2 + (x div 4)))) mod 2)
1: (((x + ~1) - ((~x + 2) div 8)) mod 2)
1: (((x + ~1) - (6 div (1 + (x div 2)))) mod 2)
1: (((x + ~1) - ((2 * (x div 2)) div (1 + (x div 4)))) mod 2)
1: (((x + ~1) - (2x div (1 + (x mod 6)))) mod 2)
1: (((x + ~1) - (x2 div (3 - (x div ~2)))) mod 2)
1: (((x + ~1) - (((x - (x mod 3)) div 2) div 2)) mod 2)
1: (((x + ~1) - (((3 * (x div 2)) div 2) div 2)) mod 2)
1: (((x + ~1) - ((((x + 1) div 2) div 2) div 2)) mod 2)
1: (((x + ~1) - (((((x2 + 2x) - (x div 2)) div 2) div 2) div 2)) mod 2)
1: (((x + ~1) - (((x div 2) mod (1 + (x mod 8))) div 2)) mod 2)
1: (((x + ~1) - (x div 4)) mod 2)
1: (((x + ~1) - (x div 4)) mod 4)
1: (((x + ~1) - (x div (3 + ((x div 2) mod 2)))) mod 2)
1: (((x + ~1) - (x div (2 + (3 mod (x + 1))))) mod 2)
1: (((x + ~1) - (x div (1 + ((x + 2) mod 4)))) mod 2)
1: (((x + ~1) - (x div (1 - ((~x + 1) div 5)))) mod 2)
1: (((x + ~1) - (x div (2 - ((~x + 1) div 3)))) mod 2)
1: (((x + ~1) - ((2x + 1) mod (2 + (x div 4)))) mod 2)
1: (((x + ~1) - ((x div 2) mod 5)) mod 2)
1: (((x + ~1) - (((1 - (x div 3)) mod 5) mod 2)) mod 3)
1: (((x + ~1) - ((x mod 3) mod 2)) mod (1 + (x div 5)))
1: (((x + ~2) - (x mod 2)) mod 5)
1: (((x + ~1) - (x mod (1 + (x div (2 * (2 + (x mod 2))))))) mod 2)
1: (((x + ~1) - (x mod (~1 - (x mod 5)))) mod 2)
1: (((x + ~6) - loop(\(x,i).2x,x,1)) mod (if x <= 0 then 1 else x))
1: ((11x + 9) mod 30)
1: (((x + ~1) + ((1 + (x mod (1 + (2 * (1 + (x mod 5)))))) div 3)) mod 3)
1: (((x + ~1) + (x div (1 + (x div 5)))) mod 3)
1: (((x + ~1) + ((1 + (x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2))) mod 3)) mod (x + 1))
1: (((x + ~1) + (2x2 mod 5)) mod 3)
1: (((x + ~1) + (x mod (1 + (x div (1 + (if (x mod 2) <= 0 then 6 else 1)))))) mod 8)
1: (((x + ~2) + ((x2 div 2) mod 3)) mod (x + 1))
1: (((x + ~1) + ((x mod 2) + ((2 * (2 + ((~1 + (x2 div (3 + (x div 4)))) div 2))) div 3))) mod (x + 1))
1: (((x + ~1) + ((x mod 2) + ((if x <= 0 then 1 else (~2 + ((x2 div 4) mod (x + 1)))) mod 3))) mod (x + 1))
1: (((x + 1) - (3 * (~x + (x mod 9)))) mod (2x + 2))
1: (((x + 1) - (2 * ((x div 2) div (1 + (x mod 4))))) mod (x + 1))
1: (((x + 1) - (2 * (x div (2 * (2 - (x mod 2)))))) mod (x + 1))
1: (((x + 1) - (2 * ((((~x + 2) div 2) div 3) mod 2))) mod 3)
1: (((x + 1) - (2 * (x mod 2))) mod (2 + (x div 2)))
1: (((x + 1) - (3 * (if x <= 0 then 2 else ((if x <= 0 then 2 else (1 + ((1 + (x div (2 + (x mod 2)))) div 2))) div 2)))) mod (x + 1))
1: (((x + 1) - (2 div (1 + (x div 5)))) mod 2)
1: (((x + 1) - ((~x + 1) div (1 + (2 * (2 + (((x div 2) div 3) mod 2)))))) mod 3)
1: (((x + 2) - ((~x + 1) div (2 + (x div 4)))) mod 3)
1: (((x + 1) - ((~x + (((x + ~1) div 2) * (x div 2))) div 5)) mod 3)
1: (((x + 1) - ((((x div 4) mod 2) - (x div 2)) div 2)) mod 3)
1: (((x + 1) - (((x2 + 2x) mod (4 + (x div 2))) div 2)) mod 2)
1: (((x + 1) - ((((x + 1) div 3) mod 3) div 2)) mod 3)
1: (((x + 1) - ((loop(\(x,i).2x,(if (x mod 3) <= 0 then x else 1),2) mod (x + 1)) div 2)) mod 3)
1: (((x + 1) - ((x mod (2 - ((~x + 1) div 3))) div 3)) mod 3)
1: (((x + 1) - (loop(\(x,i).x2,2,(x + 1)) div 5)) mod (x + 1))
1: ((x + (if (x + ~4) <= 0 then 1 else 2) - (x div 4)) mod 2)
1: (((x + 1) - (x div (~3 - (x div 4)))) mod 5)
1: (((x + 1) - (x div (~2 + (x mod ~6)))) mod 2)
1: (((x + 1) - ((1 + (x div 3)) mod 4)) mod 3)
1: (((x + 1) - ((1 + (x div 5)) mod (1 + (((x + 1) div 2) div 2)))) mod 2)
1: (((x + 1) - ((2 - (x div 5)) mod 4)) mod 3)
1: (((x + 1) - ((x + ~1) mod (1 + (x div (2 + ((x div 2) mod 3)))))) mod 2)
1: (((x + 1) - (((((x + ~1) div 2) div 2) mod 3) mod 2)) mod 3)
1: (((x + 1) - ((x mod (~1 - (x div 5))) mod 2)) mod 3)
1: ((x + ((x - (x div 4)) mod 2) - (x mod 2)) mod 3)
1: (((x + 1) - (x mod (2 - (x div ~3)))) mod 2)
1: (((x + 1) - (x mod (~1 + (x mod (~1 + ((~x + 1) div 2)))))) mod 2)
1: (((x + 1) - (x mod ((x + ~2) + ((2x + 4) mod 7)))) mod 3)
1: ((x + ~6) mod (1 + (x div 3)))
1: ((x + ~8) mod (1 + (x div 2)))
1: ((x + ~8) mod (2 - ((~x + 1) div 5)))
1: ((x + ~8) mod 16)
1: ((x + ~10) mod 20)
1: ((x - (2 * (2 + (x div 8)))) mod (x + 1))
1: ((x - (5 * (2 - ((x div 2) mod 5)))) mod (x + 2))
1: ((x - (3 * (3 - (2 * ((x + (x div 2)) div 2))))) mod (1 + (x div 2)))
1: ((x - (2 * (((x + 1) div 3) - ((1 - (x div 3)) div 3)))) mod 3)
1: ((x - (3 * (((x div 3) mod 2) - (x mod 3)))) mod (x + 1))
1: ((x - (2 * (~x + (x mod 2)))) mod 10)
1: ((x - (3 * (~x + (x mod 2)))) mod (1 + ((1 + (x div 2)) div 2)))
1: ((x - (3 * (~x + (x mod 10)))) mod (2x + 1))
1: (~9x mod loop(\(x,i).10x,x,1))
1: ((x - (4 * (2 - (x mod (~2 + (x mod ~2)))))) mod (x + 1))
1: ((x - (6 * (x - ((x - (x div 3)) div 3)))) mod (x + 1))
1: (~11x mod 30)
1: ((x - (2x * (x div 4))) mod 4)
1: ((~2x2 + ~x) mod 9)
1: ((~2x2 + x) mod (2 + (x div 2)))
1: ((x - (2 * ((1 - (x div 2)) div 5))) mod 6)
1: ((x - (2 * ((~1 + (((x + ~1) div 2) div 2)) div 2))) mod 3)
1: ((x - (((x + ~1) div 3) * (x div 2))) mod 3)
1: ((x - (2 * ((x - ((~1 + (x div 2)) div (1 + (2 * (x mod 2))))) div 2))) mod (x + 1))
1: ((x - (2 * ((2 * (~8 + (x div 2))) div 3))) mod (x + 1))
1: ((x - (2 * ((4 * (x div 3)) div 3))) mod (1 + (x div 3)))
1: ((x - (2 * (((x + 1) div 2) div 3))) mod 3)
1: ((x - (2 * (((3 * (if ((x div 2) mod 3) <= 0 then 1 else x)) div 2) div 2))) mod 3)
1: ((x - (2 * (((2 - ((~x + 2) div 8)) mod (1 + (x div 3))) div 2))) mod 3)
1: ((x - (2 * ((x mod (3 + ((~x + 1) mod (2 + (x div 2))))) div 2))) mod 3)
1: ((x - (2 * ((x div 3) mod 3))) mod 4)
1: ((x - (2 * (if (~2 + (x div 3)) <= 0 then 2 else (x + ~2)))) mod (x + 1))
1: ((x - (2 * loop(\(x,i).(x div (2 - (x mod 2))),x,x))) mod 7)
1: ((x - (1 div (~1 + (2 * (x mod 10))))) mod 3)
1: ((x - (2 div (1 + ((x + 1) div 5)))) mod 2)
1: ((x - (2 div (x + 1))) mod 7)
1: ((x - (((x + 1) + (x div 2)) div (1 + (x mod 3)))) mod 2)
1: ((x - ((~x + 4) div (1 + (x div 2)))) mod 2)
1: ((x - ((1 + (x * (x + (x div 2)))) div 5)) mod 2)
1: ((x - ((2 + (x * (x div 3))) div (x + 1))) mod 2)
1: ((x - ((x2 + 2) div (2 + (x mod 3)))) mod 2)
1: ((x - ((1 + (x div 2)) div 3)) mod 2)
1: ((x - ((2 + (x div 2)) div 3)) mod 3)
1: ((x - ((2 + (x div 2)) div (1 + (2 * ((x + ~1) mod 3))))) mod 2)
1: ((x - ((x + ((~x + 1) mod 3)) div 4)) mod 2)
1: ((x - ((x + (2x mod (2 + (x div 2)))) div 4)) mod 2)
1: ((x - ((x + (x mod 2)) div 3)) mod 4)
1: ((x - ((x + (x mod 2)) div 5)) mod 2)
1: ((x - ((x + 1) div (1 + (~x mod 4)))) mod 2)
1: ((x - ((x + 2) div (4 + (x mod 3)))) mod 2)
1: ((x - ((x + 2) div 7)) mod (1 + (x div 4)))
1: ((x - ((1 - (2x div 3)) div (1 + (x div 5)))) mod 2)
1: ((x - ((1 - (x div 2)) div 3)) mod (1 + (x div 3)))
1: ((x - ((1 - (x div 2)) div 5)) mod 5)
1: ((x - ((1 - (x div 3)) div 3)) mod 16)
1: ((x - ((1 - (x mod 7)) div (x + 1))) mod 2)
1: ((x - ((~x + 1) div (1 + ((x + ~1) mod 6)))) mod 2)
1: ((x - ((~x + 1) div (1 + ((x div 2) mod 3)))) mod 2)
1: ((x - ((~x + 1) div (1 + (x mod 4)))) mod 2)
1: ((x - ((~x + 1) div (2 + (x mod 5)))) mod 2)
1: ((x - ((~x + 1) div (2 - (x div (1 + ((x div 2) mod 2)))))) mod 2)
1: ((x - ((3 - ((1 + ((~2x + 2) mod (4 + (x div 4)))) mod 5)) div 2)) mod 2)
1: ((x - ((2 - (x * (x div 2))) div 5)) mod 3)
1: ((x - ((2 - (x div 2)) div 2)) mod 3)
1: ((x - ((2 - (x div 2)) div 2)) mod 4)
1: ((x - ((2 - (x div 2)) div (x + 2))) mod 4)
1: ((x - ((2 - (x div 4)) div 2)) mod 3)
1: ((x - ((~x + 2) div 2)) mod 5)
1: ((x - ((~x + 2) div (4 + (x mod 2)))) mod 2)
1: ((x - ((~x + 2) div (1 + (x mod 8)))) mod 2)
1: ((x - ((~x + 2) div (2 - (x div ~4)))) mod 2)
1: ((x - ((~x + 2) div (2 - (x mod ~3)))) mod 2)
1: ((x - (((~x + ~1) + (x div 3)) div 3)) mod 3)
1: ((x - (((~x + ~1) + (x mod 2)) div 3)) mod 3)
1: ((x - ((x4 + ~2) div (x + 4))) mod 2)
1: ((x - ((x3 + ~2) div (x + 3))) mod 2)
1: ((x - ((x2 + ~2) div (x + 6))) mod 3)
1: ((x - ((~1 + ((x2 + (x div 2)) div 2)) div 2)) mod 2)
1: ((x - ((((3 * (x div 4)) div 2) - ((x + ~1) div 2)) div 2)) mod 2)
1: ((x - (((x div 2) - (x div 3)) div 2)) mod 2)
1: ((x - ((~x + (x div 3)) div 3)) mod 2)
1: ((x - ((~1 + (x div 4)) div (1 + ((x + ~1) mod 4)))) mod 2)
1: ((x - ((~1 + (x div (2 + (x mod 3)))) div 2)) mod 2)
1: ((x - ((~1 + (x div ~2)) div 3)) mod 5)
1: ((x - (((x mod 4) - (x div 2)) div 3)) mod 3)
1: ((x - ((~1 + (if (x mod 4) <= 0 then x else 0)) div 3)) mod 3)
1: ((x - ((x + ~1) div 5)) mod 3)
1: ((x - ((x + ~1) div (2 + (x div 3)))) mod 2)
1: ((x - ((x + ~1) div (1 + ((x + 1) mod 4)))) mod 2)
1: ((x - ((x + ~1) div (1 + (x mod (1 + (x div 3)))))) mod 2)
1: ((x - ((x + ~1) div (2 - (x div (1 + ((x div 2) mod 2)))))) mod 2)
1: ((x - ((x - ((x + 1) mod (4 - (x div 4)))) div 2)) mod 2)
1: ((x - ((x - ((x div 5) mod 2)) div 3)) mod 3)
1: ((x - ((x - (x mod 3)) div 2)) mod 2)
1: ((x - (6 div (x + 1))) mod 4)
1: ((x - ((x * (2 + (x div 5))) div 4)) mod 2)
1: ((x - ((2x + 2) div 7)) mod 3)
1: ((x - ((2x + 4) div 7)) mod 2)
1: ((x - ((2x + 4) div (1 + (2 * (2 + (x mod 2)))))) mod 2)
1: ((x - ((~2x + 2) div 5)) mod 10)
1: ((x - ((~2x + 4) div (2 - (x div ~4)))) mod 2)
1: ((x - ((x2 + ~x) div 8)) mod 2)
1: ((x - (x3 div (~4x + 2))) mod 2)
1: ((x - ((((x + 1) div 2) * (x div 3)) div 2)) mod 2)
1: ((x - ((((x + 1) div 3) * (1 + (x div 2))) div 2)) mod 2)
1: ((x - ((2 * (2x div 5)) div 3)) mod 3)
1: ((x - ((2 * (x div 2)) div (1 + (x div 4)))) mod 2)
1: ((x - (((x div 2) * (x div 2)) div 3)) mod 3)
1: ((x - ((3 * (x div 4)) div 2)) mod 3)
1: ((x - ((x * (x div ~2)) div 2)) mod 3)
1: ((x - ((x * (x div ~2)) div 8)) mod 2)
1: ((x - (((x div ~4) * (x div 2)) div 2)) mod 2)
1: ((x - (2x div (2 + (x div 3)))) mod 2)
1: ((x - (2x div (2 + (x div 4)))) mod 2)
1: ((x - (2x div 15)) mod 2)
1: ((x - (x2 div 3)) mod 3)
1: ((x - (x2 div (x + 5))) mod 2)
1: ((x - (x2 div (x + 6))) mod 2)
1: ((x - (x2 div (3 + (x * (x mod 2))))) mod 2)
1: ((x - (((2 + (x * (x + (x div 2)))) div (x + 2)) div 2)) mod 2)
1: ((x - (((2 + (x * (x + (x div 2)))) div (x + 2)) div 2)) mod 4)
1: ((x - (((1 + (x div 2)) div 2) div 2)) mod 3)
1: ((x - (((x + 1) div 2) div 3)) mod 3)
1: ((x - (((~x + 2) div 2) div 3)) mod 4)
1: ((x - (((x + ~1) div 2) div 3)) mod 3)
1: ((x - (((x + ~1) div 2) div 5)) mod 2)
1: ((x - (((((x + ~1) div 2) * (x div 3)) div 2) div 2)) mod 3)
1: ((x - (((3 * ((~x2 + x) div 2)) div 2) div 2)) mod 2)
1: ((x - ((x2 div 2) div 5)) mod 3)
1: ((x - ((((x + 1) div 2) div 2) div 2)) mod 2)
1: ((x - ((((x + 1) div 2) div 2) div 2)) mod 3)
1: ((x - ((((x + ~1) div 2) div 2) div 2)) mod 2)
1: ((x - (((((x + ~2) * (2 - (x div 2))) div 2) div 2) div 2)) mod 2)
1: ((x - ((x div 2) div 3)) mod 2)
1: ((x - ((x div 2) div 3)) mod 3)
1: ((x - ((x div 2) div 5)) mod 8)
1: ((x - ((x div 2) div ~2)) mod 2)
1: ((x - ((x div 4) div ~2)) mod 3)
1: ((x - ((x div 4) div ~2)) mod 4)
1: ((x - (((~4x + 2) mod (2 + (x div 2))) div 2)) mod 2)
1: ((x - ((x2 mod (8 + (x div 2))) div 3)) mod 3)
1: ((x - ((x2 mod (x - ((~x + 2) div 2))) div (x + 1))) mod 2)
1: ((x - (((x div 2) mod (1 + (x mod 8))) div 2)) mod 2)
1: ((x - ((x mod 7) div 2)) mod 2)
1: ((x - ((x mod (6 + (x div 4))) div 2)) mod 2)
1: ((x - ((x mod ~11) div 3)) mod 4)
1: ((x - ((x mod ((x + 1) - (2 * (x div 3)))) div 2)) mod 2)
1: ((x - ((if x <= 0 then 1 else (2 * (1 + (((1 + (x mod (2 + (if (x mod (2 + (x mod 2))) <= 0 then 2 else 0)))) mod (x + 1)) div 2)))) div 2)) mod 3)
1: ((x - ((if x <= 0 then 1 else x) div (~2 + ((~x + 2) div 4)))) mod 2)
1: ((x - (x div 3)) mod 8)
1: ((x - (x div 4)) mod 4)
1: ((x - (x div 4)) mod (1 + (((x div 2) mod 3) mod 2)))
1: ((x - (x div 4)) mod 6)
1: ((x - (x div 5)) mod 5)
1: ((x - (x div 5)) mod 8)
1: ((x - (x div (4 + ((x + 2) mod 4)))) mod 2)
1: ((x - (x div (4 + (x mod 2)))) mod 2)
1: ((x - (x div (11 - (x div 2)))) mod 3)
1: ((x - (x div 7)) mod 7)
1: ((x - (x div 9)) mod 9)
1: ((x - (x div (1 + ((1 + (x div 2)) div 2)))) mod 2)
1: ((x - (x div (2 + ((x + ~2) div (2 + (x div 2)))))) mod 2)
1: ((x - (x div (1 + ((x + 1) mod 3)))) mod 2)
1: ((x - (x div (1 + ((x + 2) mod 4)))) mod 2)
1: ((x - (x div (1 + ((1 - (x div 2)) mod 4)))) mod 2)
1: ((x - (x div (2 + ((~x + 1) mod 3)))) mod 2)
1: ((x - (x div (1 + ((x + ~1) mod 4)))) mod 2)
1: ((x - (x div (2 + (x mod (3 - (x mod 2)))))) mod 2)
1: ((x - (x div ~2)) mod (2 + (x div 3)))
1: ((x - (x div (~4 - ((x div 4) mod 2)))) mod 2)
1: ((x - (x div (~1 - (x div 4)))) mod 3)
1: ((x - (x div (0 - (2 * (2 + ((x + 1) mod 4)))))) mod 2)
1: ((x - (x div (2 - ((~x + 1) div 3)))) mod 2)
1: ((x - (x div ~4)) mod 3)
1: ((x - (x div (~5 + (x mod ~4)))) mod 2)
1: ((x - (x div (8 - (x div 4)))) mod 2)
1: ((x - (x div (~2 + (if (x mod 3) <= 0 then x else 0)))) mod 2)
1: ((x - (x div 8)) mod 4)
1: ((x - (x div 12)) mod 5)
1: ((x - (x div ~6)) mod 3)
1: ((x - (x div ~14)) mod 4)
1: ((x - (x div ~12)) mod 2)
1: ((x - (x div (4 * (2 + (x mod 2))))) mod 2)
1: ((x - (2 mod (x + 1))) mod 5)
1: ((x - (2 mod (if (x mod (2 + (x mod 2))) <= 0 then 1 else x))) mod 4)
1: ((x - (4 mod (1 + (x div 3)))) mod 2)
1: ((x - (5 mod (if x <= 0 then 1 else x))) mod 2)
1: ((x - ((4x + 1) mod 11)) mod 2)
1: ((x - ((1 + (2 * (x div 2))) mod 5)) mod 2)
1: ((x - ((1 + ((x * (x div 2)) div 5)) mod 3)) mod 2)
1: ((x - ((1 + ((x * (x div 3)) div 2)) mod 3)) mod 2)
1: ((x - ((1 + (2x div 3)) mod 3)) mod 2)
1: ((x - ((1 + (((x + 1) div 2) div 2)) mod 3)) mod 2)
1: ((x - ((x + 1) mod 3)) mod (1 + (x div 2)))
1: ((x - ((x + 1) mod 9)) mod (1 + (x div 2)))
1: ((x - ((x + 1) mod 9)) mod (1 + (x div 3)))
1: ((x - ((x + 1) mod (2 - (x div (~3 + (x mod 2)))))) mod 2)
1: ((x - (~2 mod (1 + (x * (x div 2))))) mod 2)
1: ((x - (~x mod (1 + (x div 4)))) mod 3)
1: ((x - ((~x + 1) mod 4)) mod 5)
1: ((x - ((~x + 1) mod 7)) mod (1 + (x div 3)))
1: ((x - ((~x + 1) mod (2 + (x div 2)))) mod 2)
1: ((x - ((2 - (x div 4)) mod 5)) mod 3)
1: ((x - ((~2 + (x * (x div 2))) mod 5)) mod 2)
1: ((x - ((~1 + (x div 2)) mod (1 + (x div 4)))) mod 2)
1: ((x - ((x + ~1) mod 4)) mod (x + 1))
1: ((x - ((x + ~1) mod (1 + ((x + 2) div 3)))) mod 2)
1: ((x - ((x + ~2) mod (2 - (x div ~2)))) mod 2)
1: ((x - (3x mod (x - ((x + 1) mod 3)))) mod 2)
1: ((x - ((2x + 2) mod 21)) mod 10)
1: ((x - (x2 mod (1 + (3 * (x div 2))))) mod 2)
1: ((x - (x2 mod (1 + (x div 2)))) mod 2)
1: ((x - (x2 mod (~x + ~15))) mod 3)
1: ((x - (x2 mod (x + 14))) mod 3)
1: ((x - (x2 mod (x - ((~x + 2) div 2)))) mod 2)
1: ((x - (x2 mod (2x + 8))) mod 5)
1: ((x - (((x + (if (x mod 2) <= 0 then x else 2)) div 3) mod 3)) mod 2)
1: ((x - (((x + 2) div (2 + (x mod 2))) mod 4)) mod 3)
1: ((x - (((x + ~1) div 2) mod 2)) mod 3)
1: ((x - (((x + ~1) div 2) mod 5)) mod (1 + (x div 3)))
1: ((x - (((2 * (x div 2)) div 3) mod 3)) mod 2)
1: ((x - (((if x <= 0 then 2 else x) div 2) mod 5)) mod 2)
1: ((x - ((x div 2) mod 2)) mod 5)
1: ((x - ((x div 2) mod 2)) mod (2 + (x div 2)))
1: ((x - ((x div 2) mod 2)) mod 6)
1: ((x - ((x div 2) mod 3)) mod (1 + (x div 5)))
1: ((x - ((x div 2) mod 4)) mod 7)
1: ((x - ((x div 3) mod 2)) mod 3)
1: ((x - ((x div 3) mod 5)) mod 2)
1: ((x - ((x div 4) mod (1 + (x mod 4)))) mod 3)
1: ((x - ((x div (0 - (2 * (2 + (2x mod 5))))) mod 2)) mod 2)
1: ((x - (((x + ~2) mod (1 + (x div 2))) mod 3)) mod 2)
1: ((x - ((if (x + ~1) <= 0 then 1 else (((x + 1) div 2) div 3)) mod 2)) mod 3)
1: ((x - ((if (x div 4) <= 0 then 1 else ((~x + 2) div 2)) mod 3)) mod 2)
1: ((x - (x mod (3 + (x div 3)))) mod 2)
1: ((x - (x mod (3 + (x div 4)))) mod 2)
1: ((x - (x mod 9)) mod (2 + (x * (x mod 2))))
1: ((x - (x mod (1 + (((x + 1) div 2) div 2)))) mod 2)
1: ((x - (x mod (1 + (x div 5)))) mod 2)
1: ((x - (x mod (1 + (x mod (2 + (x mod 4)))))) mod 2)
1: ((x - (x mod ((x + ~5) + (x div 2)))) mod 2)
1: ((x - (x mod (~1 + (x div ~4)))) mod 2)
1: ((x - (if (~x + 2) <= 0 then 1 else 0)) mod 2)
1: ((x - (if (~2 + (x div 2)) <= 0 then 0 else 1)) mod 3)
1: ((x - (if (~2 + (x div 2)) <= 0 then 1 else 2)) mod 8)
1: ((x - (if (~1 + (x div 4)) <= 0 then 2 else 0)) mod 3)
1: ((x - (if (~2 + (x div 4)) <= 0 then 1 else 0)) mod 2)
1: ((x - (if (~2 + (x div 4)) <= 0 then 1 else 0)) mod 4)
1: ((x - (if (~2 + (x mod 10)) <= 0 then 0 else 1)) mod 2)
1: ((x - (if (x + ~1) <= 0 then 1 else 0)) mod 2)
1: ((x - (if (x + ~2) <= 0 then 0 else 1)) mod 3)
1: ((x - (if (x + ~2) <= 0 then 0 else 2)) mod 4)
1: ((x - (if (x + ~2) <= 0 then 1 else 0)) mod 2)
1: ((x - (if (x + ~2) <= 0 then 1 else (x * (x div 4)))) mod 2)
1: ((x - (if (x + ~2) <= 0 then 1 else (x mod (1 + (x div 4))))) mod 2)
1: ((x - (if (x + ~2) <= 0 then 1 else (if (x mod 3) <= 0 then x else 0))) mod 2)
1: ((x - (if (x + ~2) <= 0 then 2 else 0)) mod 4)
1: ((x - (if (x + ~3) <= 0 then 1 else 0)) mod 2)
1: ((x - (if (x + ~4) <= 0 then 0 else 1)) mod 2)
1: ((x - (if (x + ~4) <= 0 then 1 else 0)) mod 2)
1: ((x - (if (x + ~6) <= 0 then 1 else 0)) mod 2)
1: ((x - (if (x + ~6) <= 0 then 1 else 0)) mod 6)
1: ((x - (if (x - (x2 mod (x + 4))) <= 0 then 0 else 1)) mod 2)
1: ((x - (if ((~1 + (x div 3)) mod 4) <= 0 then 2 else 1)) mod 3)
1: ((x - (if ((x + ~2) mod 5) <= 0 then 1 else 0)) mod 2)
1: ((x - (if (8 mod (x + 1)) <= 0 then 1 else 0)) mod 2)
1: ((x - (if (10 mod (x + 1)) <= 0 then 0 else 1)) mod 2)
1: ((x - (if ((4x + 2) mod (2 + (x div 2))) <= 0 then 1 else 0)) mod 2)
1: ((x - (if ((x3 + 2x) mod (1 + (x div 2))) <= 0 then 0 else 1)) mod 2)
1: ((x - (if ((x2 + ~x) mod (1 + (x div 2))) <= 0 then 1 else 0)) mod 2)
1: ((x - (if ((((2x + ~1) * (x div 2)) div 2) mod 3) <= 0 then 1 else 0)) mod 2)
1: ((x - (if ((x div 2) mod 5) <= 0 then 0 else 1)) mod 2)
1: ((x - (if ((x div 2) mod (4 + (x mod 2))) <= 0 then 0 else 1)) mod 2)
1: ((x - (if ((x div 3) mod 4) <= 0 then 1 else 0)) mod 2)
1: ((x - (if ((x div 3) mod 5) <= 0 then 0 else 1)) mod 2)
1: ((x - (if ((x div ~2) mod 4) <= 0 then 1 else 0)) mod 2)
1: ((x - (if ((x mod (1 + (x div 2))) mod 4) <= 0 then 0 else 1)) mod 2)
1: ((x - (if (x mod 3) <= 0 then 1 else (x * (x div 2)))) mod 2)
1: ((x - (if (x mod 3) <= 0 then ((((x + 1) div 2) div 2) mod 2) else 1)) mod 3)
1: ((x - (if (x mod 9) <= 0 then 0 else 1)) mod 2)
1: ((x - (if (x mod (1 + (2 * ((~x + 1) mod 4)))) <= 0 then 0 else 1)) mod 2)
1: ((x - (if (x mod (2 + (2x mod (2 + (x div 2))))) <= 0 then 1 else 0)) mod 2)
1: ((x - (if (x mod (1 - (2 * ((~x + 1) div (2 + (x div 2)))))) <= 0 then 1 else 0)) mod 2)
1: ((x - (if (i mod 4) <= 0 then x else 1)) mod 2)
1: ((x - (if x <= 0 then 0 else 1)) mod 2)
1: ((x - (if x <= 0 then 0 else 1)) mod 8)
1: ((x - (if x <= 0 then 1 else (((x div 5) * (x div 2)) div 2))) mod 2)
1: ((x - (if x <= 0 then 1 else (x div (1 + ((x + ~1) mod 5))))) mod 2)
1: ((x - (if x <= 0 then 1 else (x div 8))) mod 2)
1: ((x - (if x <= 0 then 1 else (x mod (~2 + (3 * (x div 4)))))) mod 2)
1: ((x - (if x <= 0 then 2 else (x div 3))) mod 3)
1: ((x - (if x <= 0 then 2 else (if (6 mod (1 + (x div 2))) <= 0 then 1 else 0))) mod 3)
1: ((x - loop(\(x,i).(3x + 2),(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1)) mod (x + 1))
1: ((x - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x + 1))) mod 2)
1: ((x - loop(\(x,i).(x - (x2 div (x + 16))),2,(if x <= 0 then 1 else x))) mod (x + 1))
1: ((x - i) mod 6)
1: ((~1 + i) mod 13)
1: ((~x + i) mod 3)
1: ((~1 + compr(\x.(1 - (x mod (1 + (x mod (1 + ((x + 2) div 3)))))),x)) mod (x + 1))
1: ((~2 + compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),(x + 1))) mod 5)
1: ((~1 + compr(\x.((1 + ((1 + ((1 + ((1 + ((((x + 1) * (1 + (x mod (1 + (x mod 4))))) div 2) div 2)) div 2)) div 2)) div 2)) mod 3),x)) mod 3)
1: ((compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 3)
1: ((compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 6)
1: (6 mod (2 - (if (x mod 4) <= 0 then x else 0)))
1: (3x mod ((x + 1) + (x div 7)))
1: (3x mod (x + 3))
1: (3x mod 13)
1: (3x mod 19)
1: (3x mod (1 + ((2 + ((x2 div 2) div 5)) div 3)))
1: (3x mod (1 + ((2x + 4) div 9)))
1: (3x mod (1 + (2x div 3)))
1: (3x mod (1 + (x div 4)))
1: (3x mod (1 + ((~x + 1) mod (2 + (x div 3)))))
1: (3x mod (1 + (x mod 5)))
1: (3x mod (1 + (x mod (1 + (if (x mod 2) <= 0 then 6 else 0)))))
1: (3x mod (1 - ((x mod (~2 + (x mod ~7))) div 3)))
1: (3x mod 11)
1: (3x mod (~1 + (2 * (x div 3))))
1: (3x mod (x - (((~x + ~1) + ((x div 2) mod 3)) div 3)))
1: (3x mod (x - ((x + 1) mod 3)))
1: (3x mod 10)
1: (3x mod 14)
1: (3x mod 34)
1: (3x mod (2 * (1 + (x mod 6))))
1: (3x mod 22)
1: (3x mod 28)
1: (3x mod 44)
1: (3x mod 32)
1: (3x mod (if (x + ~2) <= 0 then 1 else (x div 3)))
1: (3x mod loop(\(x,i).2x,i,2))
1: (8 mod (x + 4))
1: (8 mod (2x + 1))
1: (8 mod (1 + ((x + 1) div 2)))
1: (8 mod (1 + (((2x + 1) * (if (x mod 4) <= 0 then 1 else (x mod (2 + (x mod 2))))) div 3)))
1: (8 mod (1 + ((x2 + x) mod 8)))
1: (8 mod (1 + (2x mod 5)))
1: (8 mod (1 + (x mod 15)))
1: (8 mod (2 - (x div ~2)))
1: (8 mod (2x + ~1))
1: (8 mod (~1 + (x div ~2)))
1: (8 mod (~1 + ((~x2 + x) mod 15)))
1: (8 mod (2 * (~8 + (x div 2))))
1: (8 mod loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))
1: (12 mod (1 + i))
1: (12 mod (if x <= 0 then 1 else x))
1: ((4x + 4) mod (2 - (x div ~2)))
1: (~8 mod (1 + (x div 3)))
1: ((4x + ~4) mod (x + 3))
1: (10 mod (x + (3 * (if (x mod 4) <= 0 then 1 else x))))
1: (10 mod (1 + ((x + 1) div 2)))
1: (10 mod (1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 2)))
1: ((5x + 5) mod 9)
1: ((~5x + 5) mod (1 + (x div 2)))
1: ((5 * (x div 2)) mod (1 + (x div 5)))
1: ((5 * (x mod 2)) mod (x + 1))
1: (5x mod 17)
1: (5x mod 49)
1: (5x mod 12)
1: (5x mod 34)
1: (5x mod 22)
1: (5x mod 46)
1: (5x mod 24)
1: (5x mod 44)
1: (5x mod loop(\(x,i).i,(loop(\(x,i).(x2 + 2x),2,2) mod (x + 1)),1))
1: ((2 * ((3x + 4) + (if x <= 0 then 1 else ((2x + ~1) + ((2 * ((4x + ~1) + ((2 * ((2x + 2) + (if x <= 0 then 1 else (2 * (2x + ((x - (x div 4)) div 2)))))) div 3))) div 3))))) mod 3)
1: ((2 * ((3x + 2) + ((2 * (2x + (if x <= 0 then 1 else (2 * (x + ((x + (2 * ((x2 div 8) mod 2))) div 2)))))) div 3))) mod 3)
1: ((2 * ((x + 5) + ((1 + (20 div (x + 1))) mod 10))) mod 3)
1: ((2 * ((2x + 1) + (2 * (loop(\(x,i).10x,(x + 1),1) div (x + 1))))) mod 3)
1: ((2 * ((2x + 1) + ((2 * ((2x + 2) + ((~1 + loop(\(x,i).2x,x,(x + 2))) div 3))) div 3))) mod 3)
1: ((2 * ((x + 3) + ((2 * (1 + ((1 + (x div (1 + (x mod (1 + (x div (1 + (loop(\(x,i).2x,x,2) mod (2x + 1))))))))) div 2))) div 3))) mod 3)
1: ((2 * ((2x + 2) + (if x <= 0 then 1 else (4x + ((x - ((~x + 1) div 3)) div 3))))) mod 3)
1: (((x + 6) * (2 + (x mod 2))) mod 10)
1: (((x + 1) * ((x + 1) + (2 * (x div 5)))) mod 9)
1: ((2 * ((x + 2) + ((x + ((3 * ((3 * (x + (x div 4))) - (x mod 2))) div 7)) div 2))) mod 3)
1: ((2 * ((x + 2) + ((x + (((2 * (~1 + (x div 4))) mod (x + 1)) div 2)) div 2))) mod 3)
1: ((2 * ((x + 2) + ((x - (((~x + 2) div 2) mod 4)) div 3))) mod 3)
1: ((2 * ((x + 1) + ((2 * ((x + 2) + (if ((x + ~2) mod 5) <= 0 then 1 else 2))) div 3))) mod 3)
1: ((2 * ((x + 2) + ((loop(\(x,i).((6x + 4) - ((2x + 4) div 5)),x,3) div 2) div 3))) mod 3)
1: ((2 * ((x + 2) + (x div 2))) mod 9)
1: ((x * ((x + 2) + (x div 2))) mod (1 + (x div 5)))
1: ((x * ((x + 2) + (x div 3))) mod 5)
1: (((2x + ~3) * (4 + (x div 4))) mod (x + 1))
1: ((x * (4 + (x div 4))) mod (1 + (x div 2)))
1: (((x + 1) * ((x + 2) + (x div 4))) mod 5)
1: (((x + 1) * (1 + (((1 + (x mod ((1 + (x mod (1 + (x div 4)))) * (1 + (x mod 2))))) mod (x + 1)) + (x mod 2)))) mod 3)
1: ((2 * (4 + (x mod 2))) mod (1 + (x div 3)))
1: ((3 * (1 + ((if (x mod 3) <= 0 then 2 else 0) + (x mod 2)))) mod (x + 1))
1: ((2 * ((x + 2) + (if x <= 0 then 1 else (4x + ((x + (2 * (x mod 2))) div 5))))) mod 3)
1: ((2x + 6) mod (2 + (x div 3)))
1: ((3x + 9) mod (1 + (x div 2)))
1: ((x2 + 3x) mod 9)
1: ((2x + 8) mod (1 + (x div 2)))
1: ((~x2 + ~2x + 8) mod (1 + (x div 3)))
1: ((x2 + 3x + ~4) mod 9)
1: ((x3 + 4x2) mod 9)
1: (((x + 4) * ((x + 1) div 2)) mod 7)
1: ((x2 + 4x) mod (1 + (x div 3)))
1: (((x + 1) * (3 - (x mod 2))) mod 9)
1: ((2 * (4 - (x mod ~3))) mod (1 + (x div 2)))
1: ((~2x + 6) mod (1 + (x div 2)))
1: ((~4x + 12) mod (1 + (x div 2)))
1: ((~x2 + 3x) mod (x + 4))
1: ((~x2 + 4x) mod (2 + (x div 2)))
1: ((2 * ((~x + 2) + ((2 * (1 + ((15x3 + 30x2 + 16x + 1) div 3))) div 3))) mod 3)
1: ((2 * ((2x + 1) - ((x + (x div 2)) div 4))) mod 3)
1: ((3 * ((2x + 1) - ((x div 4) mod 2))) mod 5)
1: ((3 * ((x + 2) - (x2 div 4))) mod (x + 1))
1: ((7x + 7) mod 17)
1: (7x mod 17)
1: (7x mod 12)
1: (7x mod 26)
1: (7x mod 22)
1: (7x mod 44)
1: (((3x + 1) * (1 + (x mod 2))) mod 9)
1: ((6x + 4) mod 11)
1: (((3x + 2) * (2 - (x mod 2))) mod 9)
1: ((3x2 + 2x) mod 9)
1: ((3x2 + 2x) mod (1 + (x div 3)))
1: ((x * (1 + (2 * (2 + (2 * (((x + 1) mod (1 + (2 * (x mod 5)))) mod 2)))))) mod 5)
1: ((2 * (1 + (2 * (1 + ((if ((x + ~1) mod 4) <= 0 then 2 else 1) * (1 + (2 * (x mod 2)))))))) mod (x + 1))
1: (((x + 1) * (1 + (2 * (1 + ((x + 1) div (2 + (x div (2 + ((~x + 2) mod 4))))))))) mod 3)
1: (((x + 1) * (1 + (2 * ((((x div 2) * (x div 2)) div 2) + (x div 3))))) mod 3)
1: ((2 * (1 + (2 * (1 + (x mod 2))))) mod (1 + (x div 2)))
1: (((x + (3 * (x + (x mod 2)))) * (2 + (x mod 2))) mod 10)
1: ((2x2 + 3x) mod (1 + ((1 + (x div 4)) div 2)))
1: ((3x2 + 4x) mod 9)
1: (((x2 + 2x + 1) * (1 + (x mod 2))) mod 7)
1: (((x2 + 2x + 1) * (1 + (x mod 2))) mod 12)
1: ((x3 + 3x2 + 3x + 1) mod (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: ((x3 + 3x2 + 3x + 1) mod loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: ((x3 + 2x2 + 2x) mod 9)
1: (((1 + (2 * (2 - (x mod 2)))) * (1 + (x div 2))) mod (1 + (x div 5)))
1: ((x3 + 4x2 + ~3x + 10) mod 9)
1: ((2 * (1 + (8 * (x mod 2)))) mod (x + 1))
1: ((2 * (1 + (4 * (if (x mod 3) <= 0 then 0 else 2)))) mod (x + 1))
1: ((2x3 + ~2x2 + x + ~1) mod 5)
1: ((2 * (1 + (2 * ((x + (x mod 2)) div 3)))) mod (x + 1))
1: (((x + 1) * (1 + (2 * ((2x + (if (x + ~3) <= 0 then x else 0)) div 3)))) mod 3)
1: (((2x + 1) * (1 + (2 * ((~1 + loop(\(x,i).(24x + 1),2,x2)) div (x + 1))))) mod 3)
1: ((2 * (x + (2 * ((3 * (x3 mod 17)) div (x + 1))))) mod (x + 1))
1: (((2x + 1) * (1 + (x * (x div 2)))) mod 16)
1: (((x + 1) * (1 + (2 * (2x2 mod 17)))) mod 3)
1: ((2 * (1 + (2 * (x mod 2)))) mod (1 + (x div 2)))
1: ((5 * (1 + (2 * (x mod 2)))) mod (x + 1))
1: (((~x + 1) * (1 + (2 * (x mod 2)))) mod 9)
1: (((x + (2 * (x mod 2))) * ((1 + (x div 2)) div 2)) mod 3)
1: ((2 * (2 + (3 * (x mod 2)))) mod (1 + (x div 2)))
1: (((x + 2) * (2 + (x * (x mod 2)))) mod 3)
1: ((x * (2 + (x * (x mod 2)))) mod 9)
1: ((x * (1 + (2 * (x mod 3)))) mod 9)
1: ((2 * (1 + (4 * (x mod 6)))) mod (x + 1))
1: ((5 * (2 + (2 * (if (x mod 3) <= 0 then 0 else 2)))) mod (x + 1))
1: (((x + 1) * (1 + (2 * loop(\(x,i).((x + 2) + (x div (6 + (x mod 2)))),x,0)))) mod 3)
1: ((4x + 2) mod (3 + (x div 4)))
1: ((4x + 2) mod 9)
1: ((4x + 2) mod loop(\(x,i).i,(x + ~8),1))
1: ((6x + 3) mod (1 + (x div 2)))
1: ((2x2 + 3x + 1) mod (1 + (x div 3)))
1: ((2x2 + 3x + 1) mod 10)
1: ((2x2 + 5x + 2) mod (1 + (2x mod (2 + (x div 4)))))
1: ((x3 + x2 + x + 1) mod 5)
1: ((x3 + ~2x2 + x + ~2) mod 5)
1: ((x3 + x) mod 9)
1: ((x3 + x) mod (x + 8))
1: ((x3 + x) mod (2 + (x div 2)))
1: ((2x2 + 4) mod (x + 3))
1: ((2x2 + 4) mod (2x + 3))
1: ((x3 + 2x) mod (2x + 3))
1: ((x3 + 2x) mod (1 + (x div 2)))
1: ((2 * (1 + ((1 + (((loop(\(x,i).(x + (if x <= 0 then 1 else ((x * (x mod 2)) + (x div 2)))),x,1) div 2) div 2) + (x mod 2))) div 2))) mod (x + 1))
1: ((2 * (1 + ((2 + ((2 * (1 + ((2 * (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + ((1 + (x div 2)) div 2))))) div 3))) div 3) - (x mod 2)) div 2))) mod 3)
1: ((2 * (1 + ((x + (2 * (4 - ((~x + 1) div (2 + (x div 4)))))) div 3))) mod (x + 1))
1: ((2 * (1 + (((2 * (2 + ((2x + 1) mod (1 + (2x mod (2 + (x div 4))))))) + (x mod 3)) div 3))) mod 3)
1: ((2 * (1 + ((1 + (2 * ((x + 2) div ((2 + (x div 5)) * (1 + (x mod 2)))))) div 3))) mod 3)
1: ((2 * (1 + ((1 + ((x + ((x + ((1 + ((loop(\(x,i).(3x + 1),x,0) - loop(\(x,i).3x,(x div 2),1)) div 2)) div 2)) div 2)) div 2)) div 2))) mod 3)
1: ((2 * (2 + ((1 + ((1 + (((x + 1) * loop(\(x,i).(2x + 1),x,loop(\(x,i).2x,x,1))) div 3)) div 3)) div 2))) mod 3)
1: ((2 * (1 + ((1 + ((x + (((~1 + ((x + 1) * (if (x div 2) <= 0 then 1 else ((if (x mod 2) <= 0 then 2 else x) div 2)))) div 2) div 2)) div 2)) div 2))) mod 3)
1: ((2 * (2 + ((2 + ((2 + loop(\(x,i).(x - (3 * (x div (~2 + (x mod ~2))))),x,1)) div 2)) div 3))) mod 3)
1: ((2 * (1 + ((1 + ((1 + loop(\(x,i).2x,x,1)) div (x + 2))) div 2))) mod 3)
1: ((2 * (1 + ((1 + ((x + 1) div (1 + ((1 + ((x2 mod (2 + (x mod 8))) mod 2)) mod (x + 1))))) div 2))) mod 3)
1: ((2 * (1 + ((1 + ((x + 1) div (2 + (x mod (2 * (2 - (x mod 2))))))) div 2))) mod 3)
1: ((2 * (1 + ((1 + ((x2 + ~x) div (3 * (if ((x + ~2) mod (2 + (x mod 2))) <= 0 then 1 else 2)))) div 2))) mod (x + 1))
1: ((2 * (1 + ((1 + (x3 div (3 * (1 + (2 * (x mod 3)))))) div 2))) mod 3)
1: ((2 * (1 + ((1 + (x2 div (1 + (loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2)))) div 2))) mod 3)
1: ((2 * (x + ((1 + (((1 + (((x + 1) * (1 + (2 * ((1 + ((x2 + x) div 2)) div 2)))) div 2)) div 2) div 2)) div 2))) mod 3)
1: ((2 * (1 + ((1 + (((1 + (((x + 1) * (if x <= 0 then 1 else (2 * ((if ((x + 1) mod (1 + (x div 4))) <= 0 then 1 else 2) + ((x mod 3) div 2))))) div 2)) div 2) div 2)) div 2))) mod (x + 1))
1: ((2 * (2 + ((1 + ((((x + ~1) * (3 + (x div (1 + (x mod 4))))) div 2) div 2)) div 2))) mod 3)
1: ((2 * (1 + ((1 + (((5 * (2 + ((1 + loop(\(x,i).2x,((((1 + (8 mod (1 + (x div 2)))) div 2) + (if x <= 0 then 0 else 1)) - (x mod 2)),2)) div 3) - (x mod 2))) div 2) div 2)) div 2))) mod 3)
1: ((2 * (1 + ((1 + ((((2x + 3) * ((8x + 2) + (x div 3))) div 2) div 3)) div 2))) mod 3)
1: ((2 * (1 + ((1 + (((2x3 + 5x2 + ~3x) div 2) div 3)) div 2))) mod (x + 1))
1: ((2 * (2 + ((1 + ((((x2 + 2x + 1) * loop(\(x,i).(5x + 8),x,1)) div 2) div 3)) div 3))) mod 3)
1: ((2 * (2 + ((x + ((x div 2) div 3)) div 2))) mod (x + 1))
1: ((2 * (1 + ((1 + (((2 - (2x mod (4 + (x div 3)))) mod (2x + 5)) div 2)) div 2))) mod 3)
1: ((2 * (1 + ((1 + (((~1 + loop(\(x,i).2x,x,(1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))) mod (x + 1)) div 2)) div 2))) mod 3)
1: ((2 * (1 + ((1 + ((x mod (2 + (loop(\(x,i).3x,x,3) mod (x + 1)))) div 2)) div 2))) mod (x + 1))
1: ((2 * (1 + ((1 + (loop(\(x,i).(2x + ~4),x,(x + 2)) div (x + 1))) div 2))) mod 3)
1: ((2 * (((x + (x div 4)) div 2) + (x div 9))) mod 3)
1: ((2 * (1 + ((1 + (x div (1 + ((x + 2) mod 4)))) div 2))) mod 3)
1: ((2 * (1 + ((1 + (x div (1 + ((~1 + (2 * ((x + 1) + ((2 * (1 + ((1 + (x div (1 + ((~1 + (2 * ((x + 1) + (2 div (1 + (3 div (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2)))))))) mod (x + 1))))) div 2))) div 3)))) mod (x + 1))))) div 2))) mod 3)
1: ((2 * (1 + ((1 + (x div (1 + (loop(\(x,i).3x,(((x + ~1) div 2) mod 4),1) mod (x + 1))))) div 2))) mod 3)
1: ((2 * (1 + ((1 + (x div (1 + (x mod (1 + ((1 - ((2x + ~1) mod (4 + (x div 4)))) mod 3)))))) div 2))) mod 3)
1: ((2 * (1 + ((1 + ((x + 1) mod (1 + (x div (2 + (x mod 5)))))) div 2))) mod (x + 1))
1: (((1 + ((x + ((1 - (x div 3)) mod 3)) div 3)) * (if x <= 0 then 1 else 2)) mod 3)
1: ((2 * (1 + ((1 + ((1 - ((1 + ((1 + (x mod (2 * (1 + (x mod (2 * (1 + (x mod (1 + (x div 3)))))))))) mod (x + 1))) mod 3)) mod (x + 1))) div 2))) mod (x + 1))
1: ((2 * (x + ((x + ((x * (x div 2)) mod 2)) div 3))) mod 3)
1: ((2 * (1 + ((1 + ((x div 2) mod (1 + (x mod (1 + (x div 3)))))) div 2))) mod (x + 1))
1: ((2 * (1 + ((1 + (if (((x + 1) div (2 + (x mod 2))) mod 2) <= 0 then x else 1)) div 3))) mod 3)
1: ((2 * (1 + ((x + 1) div (1 + (x div (2 + (x mod (2 + (x mod 2))))))))) mod (x + 1))
1: ((2 * (1 + ((2 * ((x + 1) + (2 * ((x + ((x div 2) mod 2)) div 2)))) div 3))) mod 3)
1: (((2x + 1) * (1 + ((2 * (1 + ((1 + (loop(\(x,i).2x,(x + ~1),x) div (x + 1))) div 2))) div 3))) mod 3)
1: ((2 * (2 + (((x + 1) * (1 + ((~1 + (loop(\(x,i).13x,x,1) mod 31)) mod (x + 1)))) div 2))) mod 3)
1: ((2 * (1 + ((2 * (2 + ((~3x + 3) mod (1 + (x div 2))))) div 3))) mod 3)
1: ((2 * (x + (((1 + (((x + 1) div 2) mod 3)) * ((~1 + (x div 2)) div 2)) div 2))) mod 3)
1: ((2 * (1 + ((2 * (2 + (loop(\(x,i).2x2,3,6) mod (x + 1)))) div 3))) mod 3)
1: ((2 * (1 + (((2x + 8) * ((if x <= 0 then 1 else 4x) - ((x + (x div 2)) div 4))) div 3))) mod 3)
1: ((2 * (2 + ((3x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) div 2))) mod 7)
1: ((2 * (x + ((((x + ~1) div 2) * (x div 2)) div 2))) mod 3)
1: ((3 * (2 + ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2))) mod 5)
1: (((x + 1) * (1 + (((x div 2) * (x div 2)) div 2))) mod 3)
1: ((2 * (2 + (2x div (1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))))) mod (x + 1))
1: (((~x + 1) * (1 + (x2 div 3))) mod 3)
1: ((2 * (1 + (((2 + ((1 - (x mod 9)) mod (x + 1))) div 2) div 2))) mod 3)
1: ((2 * (1 + (((2 + ((9 * (1 + (x div 2))) mod (x + 1))) div 2) div 2))) mod 3)
1: ((2 * (1 + (((~1 + (6 * (1 + ((1 + ((x mod (1 + (x div (if (x mod 2) <= 0 then 4 else 1)))) div 2)) div 2)))) div 2) div 2))) mod (x + 1))
1: ((2 * (1 + (((((if x <= 0 then 1 else x) mod 2) - loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2) div 2))) mod 3)
1: ((2 * (1 + (((5 * ((3x2 + 7x + 4) div 2)) div 3) div 3))) mod 3)
1: ((2 * (2 + ((((x + 2) * ((x4 + 3x3 + 3x2 + 2x + 1) div 2)) div 2) div 3))) mod 3)
1: ((2 * (1 + ((((x + 1) * (if (x mod 2) <= 0 then 1 else (2 * (1 + (8 * (x mod 2)))))) div 2) div 2))) mod 3)
1: ((2 * (2 + ((((x + 1) * loop(\(x,i).(x + ((3 + i) * i)),x,0)) div 2) div 3))) mod 3)
1: (((x + 2) * (2 + ((x2 div 2) div 9))) mod 3)
1: ((2 * (1 + (((((8x + 5) * loop(\(x,i).2x,(x mod 5),1)) div 2) div 2) div 2))) mod 3)
1: ((2 * (2 + (((((x + loop(\(x,i).3x,(x + ~2),x)) div 2) div 2) div 2) div 2))) mod 3)
1: ((2 * (2 + ((x div 2) div 5))) mod (1 + (x div 3)))
1: ((2 * (1 + ((x div (2 - (x mod 2))) div 3))) mod (x + 1))
1: ((3 * (1 + (((x + 1) mod 13) div 2))) mod (x + 1))
1: ((3 * (1 + ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2))) mod 5)
1: ((2 * (2 + ((loop(\(x,i).(3x + 12),(x + 1),0) mod (x + 1)) div 2))) mod 3)
1: ((2 * (2 + ((loop(\(x,i).~x2,4,3) mod (x + 1)) div 2))) mod 3)
1: (((1 + ((x mod 3) div 2)) * (1 + (x mod 2))) mod (x + 1))
1: (((1 + ((x mod 3) div 2)) * (1 + (x mod 3))) mod (x2 + 1))
1: ((2 * (1 + ((x mod (1 + loop(\(x,i).(1 + (((x + ~1) + loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x)) mod (x + 1))),2,x))) div 2))) mod (x + 1))
1: ((2 * (1 + ((if x <= 0 then 2 else (2 - ((x + 1) mod (1 + (2 * (if ((x + ~1) mod 4) <= 0 then 2 else 1)))))) div 2))) mod (x + 1))
1: ((2 * (1 + (loop(\(x,i).(7x + 1),x,1) div (x + 1)))) mod 3)
1: ((2 * (1 + (loop(\(x,i).2x,x,1) div loop(\(x,i).(1 + (i div (x + 2))),x,1)))) mod 3)
1: ((5 * (1 + (x div 2))) mod (x + 1))
1: (((x + ~1) * (1 + (x div 2))) mod (1 + (x div 3)))
1: (((x + 1) * (2 + (x div 2))) mod 4)
1: ((x * (2 + (x div 2))) mod 8)
1: ((2 * (2x + (x div 2))) mod 9)
1: (((x + (x div 2)) * (1 + (x mod 2))) mod 5)
1: ((x2 * (x + (x div 2))) mod 5)
1: ((x * (x + (x div 2))) mod (1 + (x div 3)))
1: ((2 * (1 + (x div 3))) mod (1 + (((x + 1) div 2) mod 3)))
1: ((x * (1 + (x div 3))) mod 5)
1: ((5 * (1 + (x div 4))) mod (x + 1))
1: (((1 + (x div 4)) * (1 + (x mod 2))) mod 5)
1: (((x + 1) * (1 + (x div 4))) mod 2)
1: (((1 + (x div 4)) * (x div 3)) mod 2)
1: (((x + 1) * (2 + (x div 4))) mod 4)
1: ((3 * (x + (x div 4))) mod (1 + (x div 2)))
1: (((x + (x div 4)) * (x div ~4)) mod 2)
1: ((x * (x + (x div 4))) mod 4)
1: ((2 * (1 + (x div 5))) mod (1 + (x div 2)))
1: ((2 * (1 + (x div 5))) mod (x + 1))
1: (((x + 1) * (1 + (x div 5))) mod 5)
1: ((x * (2 + (x div 5))) mod (2 + (x div 2)))
1: ((2 * ((x div (4 + (8 mod (1 + (x div 2))))) + (x mod 2))) mod (x + 1))
1: (((x + 1) * (1 + (x div 7))) mod 7)
1: ((2 * (x + (x div 13))) mod 7)
1: ((x * (1 + (x div (2 + (x div 12))))) mod 3)
1: ((2 * (1 + (x div (2 + (((1 + ((x mod 3) div 2)) * (1 + (x mod 2))) mod (x + 1)))))) mod (x + 1))
1: ((2 * (1 + (x div (1 + (if (x mod 2) <= 0 then ((x div 2) mod 2) else 3))))) mod 3)
1: ((2 * (1 + (x div (2 - ((x * (x div 2)) mod 2))))) mod (1 + ((x + 1) div 2)))
1: (((x + ~1) * (2 + (x div (2 - ((x div 2) mod 2))))) mod 3)
1: ((2 * ((x div (3 * (2 + ((x + 1) mod 8)))) + (x mod 2))) mod 3)
1: ((2 * (1 + (x div (3 * (1 + (x mod (2 * (1 + (x mod (3 + (x mod 2))))))))))) mod 3)
1: ((3 * (2 + ((1 + (x div 2)) mod 6))) mod (x + 1))
1: (((x + 1) * (1 + ((1 + (if ((x + 1) mod 5) <= 0 then 2x else (x div 2))) mod (x + 1)))) mod 3)
1: ((2 * (2 + ((x + 1) mod (1 + (2 * ((3 * (2x div 9)) div 2)))))) mod 3)
1: ((2 * (2 + ((x + 1) mod (1 + (2 * ((x + 2) mod 4)))))) mod 3)
1: (((2x + 1) * (1 + (~x mod 4))) mod 9)
1: (((x + 1) * (1 + ((1 - ((~x + (x mod 2)) div 5)) mod 2))) mod 3)
1: ((3 * (1 + ((2 - (x mod 2)) mod (1 + (if (~1 + (x mod 3)) <= 0 then 2 else 0))))) mod 5)
1: ((2 * (2 + ((~1 + (2 * (1 + (x mod (4 * (1 + (2 * (x mod 2)))))))) mod (x + 1)))) mod 3)
1: ((2 * (1 + ((x + ~1) mod 3))) mod (1 + (x div 2)))
1: (((2x + ~1) * (2 + (14 mod (x + 1)))) mod 3)
1: ((2 * (1 + ((2 * (1 + (x mod (1 + (2 * (x div 4)))))) mod (1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))))) mod (x + 1))
1: ((x * (1 + ((~2x + 2) mod (4 + (x div 4))))) mod 3)
1: ((3 * (1 + (4x mod 13))) mod (x + 1))
1: ((2 * (1 + (x3 mod 11))) mod (x + 1))
1: (((1 + ((x * (x div 2)) mod 2)) * (x div 4)) mod 3)
1: ((3 * (2 + (x2 mod (x + 5)))) mod (x + 1))
1: (((x + 1) * (1 + (((x + ~1) div 2) mod 4))) mod 3)
1: ((2 * (2 + (((x mod (~2 + ((~x + 2) div 4))) div 2) mod 2))) mod (x + 1))
1: ((2 * (1 + ((x div (1 + (2 * (1 + (2 * (x mod 2)))))) mod 2))) mod (x + 1))
1: (((x + 2) * (1 + ((x mod 3) mod 2))) mod (2 + (x div 2)))
1: ((2 * (1 + ((x mod 10) mod (1 + (x div 2))))) mod 3)
1: ((2 * (x + (loop(\(x,i).(~2x + 2),x,3) mod (x + 2)))) mod 3)
1: ((2 * (2 + (loop(\(x,i).2x,x,(1 + (x mod (2 + (x mod 4))))) mod (x + 1)))) mod 3)
1: ((2 * (2 + (loop(\(x,i).((3 * ((x2 + x) div 2)) div 2),3,x) mod (x + 1)))) mod 3)
1: ((2 * (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 8))) mod 3)
1: ((x * (1 + (x mod 2))) mod 9)
1: ((2 * (2 + (x mod 2))) mod (x + 1))
1: (((~x + 2) * (2 + (x mod 2))) mod 5)
1: ((5 * (1 + (x mod 3))) mod (x + 1))
1: ((x * (2 + (x mod 3))) mod 7)
1: (((1 + (x mod 4)) * (1 + (x mod 2))) mod (x + 1))
1: ((3 * (2 + (x mod 4))) mod (x + 1))
1: ((5 * (1 + (x mod 5))) mod (x + 1))
1: ((2 * (1 + (x mod (4 - (x mod 4))))) mod (x + 1))
1: ((11 * (1 + (x mod 9))) mod (x + 1))
1: ((2 * (1 + (x mod (1 + (2 * (x div 4)))))) mod (1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))
1: ((2 * (1 + (x mod (8 + (2x div (2 + (x div 2))))))) mod (x + 2))
1: ((2 * (1 + (x mod (2 + (x mod 2))))) mod (1 + (x div 2)))
1: ((3 * (1 + (x mod (2 + (x mod 3))))) mod (x + 1))
1: ((2 * (1 + (x mod (2 + (x mod 4))))) mod (1 + (x div 2)))
1: ((9 * (1 + (x mod 11))) mod (x + 1))
1: ((2 * (1 + (x mod 6))) mod (x + 1))
1: ((5 * (2 + (x mod 6))) mod (x + 1))
1: (((x + 1) * (1 + (x mod 8))) mod 5)
1: ((2 * (1 + (x mod 12))) mod (x + 2))
1: (((1 + (x mod 12)) * (1 + (x div 2))) mod (x + 1))
1: (((x + 1) * (1 + (x mod (2 * (2 + (x div 3)))))) mod 3)
1: (((x + 1) * (1 + (x mod (2 * (2 + ((x2 + x) mod 8)))))) mod 3)
1: (((1 + (x mod (2 * (~2 + (x mod 2))))) * (1 + ((1 + (x div 3)) div 2))) mod 3)
1: (((x + 1) * (1 + (if (~x + 2) <= 0 then x else 0))) mod 9)
1: (((x + (if (~4 + (x div 2)) <= 0 then 1 else 2)) * ((x + 1) mod 4)) mod 3)
1: ((5 * (1 + (if (x + ~4) <= 0 then 0 else (1 + (x mod (1 + (x mod 4))))))) mod (x + 1))
1: ((2 * (x + (if x2 <= 0 then 1 else (1 + (2 * loop(\(x,i).4x,(x + ~2),3)))))) mod (x + 1))
1: ((2 * (x + (if ((x2 + ~x) mod 5) <= 0 then (x mod 8) else 1))) mod 3)
1: (((1 + (if (x mod 2) <= 0 then 2x else 1)) * (if x <= 0 then 1 else 2)) mod (1 + (x div 2)))
1: ((2 * (1 + (if (x mod 2) <= 0 then x else 0))) mod (1 + (x div 4)))
1: (((x + 1) * (2 + (if (x mod 3) <= 0 then 0 else 2))) mod 5)
1: ((2 * ((if (x mod 3) <= 0 then 1 else 2) + (x mod 4))) mod (x + 1))
1: ((2 * (1 + (if (x mod 3) <= 0 then (x mod 2) else 2))) mod (x + 1))
1: ((2 * (2 + (if x <= 0 then 0 else (2 - ((x + 1) mod (2 + (x div (4 + (x mod 2))))))))) mod 3)
1: (((2x + 1) * (1 + (if x <= 0 then 1 else 2))) mod 7)
1: ((2 * (x + (if x <= 0 then 1 else (x - loop(\(x,i).loop(\(x,i).((x + ~1) - (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)),x,x),1,2x))))) mod (x + 1))
1: ((2 * (2 + (if x <= 0 then 1 else (2 * (1 + ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 2)))))) mod 3)
1: ((2 * (1 + (if x <= 0 then 1 else loop(\(x,i).((2x * (~1 + (2 * i))) div 3),(x + ~2),x)))) mod 3)
1: ((2 * (1 + loop(\(x,i).(x + (x2 div (x + 16))),2,x))) mod 3)
1: ((2 * (x + loop(\(x,i).(x - ((x - ((x mod 3) div 2)) div 2)),2,x))) mod 3)
1: (((2x + 1) * (1 + loop(\(x,i).(x - (x div 8)),2,x))) mod 3)
1: ((2 * (1 + loop(\(x,i).(if x <= 0 then i else (x div 2)),x,0))) mod (x + 1))
1: ((2 * (1 + loop(\(x,i).loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1,(3x + 3)))) mod 3)
1: (((x + 1) * (1 + loop(\(x,i).loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,2x),1,(x + 1)))) mod 3)
1: ((2x + 2) mod (4 + (((x + 1) div 2) div 2)))
1: ((2x + 2) mod (4 + (x div 4)))
1: ((2x + 2) mod (8 + (x mod 2)))
1: ((2x + 2) mod (1 + (2 * (2 + (((x + 1) mod 7) mod 2)))))
1: ((2x + 2) mod 19)
1: ((2x + 2) mod 21)
1: ((2x + 2) mod (1 + (3 * (x mod 3))))
1: ((2x + 2) mod (1 + (2 * (x mod (1 + (2 * ((x + 2) mod (2 + (x mod 2)))))))))
1: ((2x + 2) mod (1 + (2 * (if x <= 0 then 0 else 2))))
1: ((2x + 2) mod (1 + ((x div 2) div (1 + (x mod 3)))))
1: ((2x + 2) mod (2 + ((~2x + 1) mod (2 + (x div 4)))))
1: ((2x + 2) mod (1 + ((2x + ~1) mod (4 + (x div 4)))))
1: ((2x + 2) mod (1 + ((4x + 4) mod (2 + (x div 3)))))
1: ((2x + 2) mod (1 + (((x + 1) * (1 + (((1 + (x mod ((1 + (x mod (1 + (x div 4)))) * (1 + (x mod 2))))) mod (x + 1)) + (x mod 2)))) mod 3)))
1: ((2x + 2) mod (2 + (46 mod (x + 1))))
1: ((2x + 2) mod ~7)
1: ((2x + 2) mod (1 - (2 * (2 + (x div 8)))))
1: ((2x + 2) mod (1 - (x mod (1 - (2 * (x div 3))))))
1: ((2x + 2) mod (2 - ((~x + 2) div 5)))
1: ((2x + 2) mod (2 - (x div ~2)))
1: ((2x + 2) mod (2 - (x div ~4)))
1: ((2x + 2) mod (~1 + ((~x + 1) div 3)))
1: ((2x + 2) mod (~1 + ((~x + 2) div 3)))
1: ((2x + 2) mod (~1 + (x div ~4)))
1: ((2x + 2) mod ((~x + 1) + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: ((2x + 2) mod loop(\(x,i).i,(2x mod (4 + (x div 4))),1))
1: ((3x + 3) mod 7)
1: ((3x + 3) mod (1 + (x div 3)))
1: ((3x + 3) mod (2 + (x div 3)))
1: ((3x + 3) mod (2 + (x div 4)))
1: ((3x + 3) mod loop(\(x,i).(x * (2 - (x div (2 + i)))),x,2))
1: ((x2 + x) mod ((x + 4) + (x div 4)))
1: ((x2 + x) mod 13)
1: ((x2 + x) mod (1 + (2 * (x mod (2 + (((x + 1) div 2) div 3))))))
1: ((x2 + x) mod (1 + ((x + 2) div 3)))
1: ((x2 + x) mod (2 + (x div 2)))
1: ((x2 + x) mod (1 + ((x + ~1) mod 5)))
1: ((x2 + x) mod 11)
1: ((x2 + x) mod (~1 + (3 * (x div 5))))
1: ((x2 + x) mod (~1 + ((~x + 2) div 4)))
1: ((x2 + x) mod ((x + 1) - (x mod 9)))
1: ((x2 + x) mod (x - ((x + ~2) div 5)))
1: ((x2 + x) mod 10)
1: ((x2 + x) mod 22)
1: ((x2 + x) mod 16)
1: ((x2 + x) mod loop(\(x,i).(10x + 4),2,1))
1: ((2x + 4) mod (4 + (x div 4)))
1: ((2x + 4) mod (1 + (2 * (x div 4))))
1: ((2x + 4) mod (1 + ((~x + (x div 5)) mod 3)))
1: ((2x + 4) mod (1 + (if (x + ~1) <= 0 then 6 else 4)))
1: ((2x + 4) mod (~2 - (x div 4)))
1: ((2x + 4) mod ((2 - (x div (2 * (~2 + (x mod 2))))) div 2))
1: ((3x + 6) mod (1 + (2 * (x mod (1 + ((~x + 2) mod 4))))))
1: ((3x + 6) mod (2 + (9 * (if x <= 0 then 1 else 2)) - ((x mod 2) + (x mod 7))))
1: ((x2 + 3x + 2) mod 7)
1: ((x2 + 4x + 4) mod (~x + 26))
1: ((x2 + 4x + 4) mod 8)
1: ((x2 + 2x) mod 5)
1: ((x2 + 2x) mod ((x + 2) + (x div 2)))
1: ((x2 + 2x) mod 13)
1: ((x2 + 2x) mod ((4x + 4) + (x div 4)))
1: ((x2 + 2x) mod (1 + (2 * (2 + (x div 8)))))
1: ((x2 + 2x) mod (1 + (8 * (x mod 2))))
1: ((x2 + 2x) mod (1 + (2 * (x div (2 * (2 + ((x div 2) mod 2)))))))
1: ((x2 + 2x) mod (1 + (2 * ((~x + 1) mod 4))))
1: ((x2 + 2x) mod (1 + (3 * (x mod 4))))
1: ((x2 + 2x) mod (1 + ((x + 1) div 3)))
1: ((x2 + 2x) mod (1 + ((1 - loop(\(x,i).2x,x,2)) mod (x + 1))))
1: ((x2 + 2x) mod (1 + ((~x + 1) mod 8)))
1: ((x2 + 2x) mod (1 + (2x mod (~1 + (2 * (x div 4))))))
1: ((x2 + 2x) mod (2 + (x mod (1 + (x div (2 + (x div 5)))))))
1: ((x2 + 2x) mod (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: ((x2 + 2x) mod 11)
1: ((x2 + 2x) mod 12)
1: ((x2 + 2x) mod (2 * (3 + (x mod 2))))
1: ((x2 + 2x) mod (7 * (if (x + ~2) <= 0 then 2 else 1)))
1: ((x2 + 2x) mod (2 * (1 + ((x div 2) div 3))))
1: ((x2 + 2x) mod 16)
1: ((x2 + 2x) mod (3 * (if (16 mod (x + 1)) <= 0 then 1 else 2)))
1: ((x2 + 2x) mod ((2 * (4 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3))
1: ((x2 + 2x) mod (if (x + ~2) <= 0 then 1 else 6))
1: ((x * (1 + i)) mod 5)
1: ((2 * (1 + compr(\x.(1 - ((x + 1) mod (1 + ((x - ((x div 3) mod 3)) div 2)))),x))) mod 3)
1: ((5 * (2 + compr(\x.(1 - (x mod (1 + (if (x mod 8) <= 0 then 2 else 1)))),x))) mod (x + 2))
1: ((2 * (2 + compr(\x.((x + 1) mod (1 + (x mod (2 * (2 + (loop(\(x,i).(3x + 2),x,0) mod (x + 1))))))),x))) mod 3)
1: (((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) * (2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))) mod 10)
1: ((x * (~1 - (if (x mod 3) <= 0 then 2 else 0))) mod (1 + (x div 2)))
1: (~2x mod (4 + (((x + 1) div 2) div 2)))
1: (~2x mod (3 + (x div 4)))
1: (~2x mod ((x + 1) + (if (x mod 2) <= 0 then 2 else 0)))
1: (~2x mod (2 + (x div 2)))
1: (~3x mod 10)
1: (~2x2 mod (2 + (x div 3)))
1: (~2x2 mod (3x + 6))
1: ((~x * (x div 2)) mod 7)
1: (~x2 mod (3 + (x mod 2)))
1: (~x2 mod 9)
1: (~x2 mod 6)
1: (((1 - (2 * ((x div 2) mod 2))) * ((x + 1) + (x div 2))) mod 9)
1: (((3x + 1) * (1 - (2 * ((x div 3) mod 2)))) mod 9)
1: (((2x + 1) * (1 - (2 * ((x div 5) mod 2)))) mod 10)
1: ((3 * (1 - (2 * (x mod 2)))) mod (2x + ~1))
1: (((2x + 1) * (1 - (2 * (x mod 2)))) mod 9)
1: (((x + 1) * (1 - (2 * (x mod 2)))) mod 5)
1: ((~4x + 2) mod (4 + (x div 4)))
1: ((~4x + 2) mod (2 + (x div 2)))
1: ((~2x2 + ~x + 1) mod 10)
1: ((~2x2 + ~3x + 2) mod 10)
1: (((x + 1) * (1 - ((x - (x div 12)) mod 5))) mod 3)
1: (((x + 1) * (1 - ((x3 div 8) mod 2))) mod 9)
1: ((x * (1 - ((x3 div 8) mod 2))) mod 5)
1: ((x * (1 - ((x3 div 8) mod 2))) mod (1 + (2 * (x div 4))))
1: (((2x + 1) * (1 - (x mod (2 + (if (x mod 2) <= 0 then 1 else 8))))) mod 3)
1: (((x + 1) * (1 - (x mod (~1 + (3 * (16 div (x + 1))))))) mod 3)
1: ((x * (1 - (x mod 10))) mod 3)
1: ((~2x + 2) mod 7)
1: ((~2x + 2) mod (1 + (2 * ((x mod (~1 + (2 * ((x + ~1) div 3)))) div 2))))
1: ((~2x + 2) mod (1 + ((1 + (((x + 1) div 2) * (1 + (x div 2)))) div 3)))
1: ((~2x + 2) mod (2 + (x div 2)))
1: ((~2x + 2) mod (1 + (x div 3)))
1: ((~2x + 2) mod (1 + loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)))
1: ((~2x + 2) mod (2 - (x div ~4)))
1: ((~3x + 3) mod (2 + (x div 2)))
1: ((~3x + 3) mod (1 + (x div 3)))
1: ((~x2 + 2x + ~1) mod 5)
1: ((~x2 + 2x + ~1) mod 6)
1: ((~x2 + 2x + ~1) mod 8)
1: ((~2x2 + 2x) mod (4 + (x div 4)))
1: ((~2x2 + 2x) mod 7)
1: ((~2x2 + 2x) mod 9)
1: ((~2x2 + 2x) mod (1 + (x div 2)))
1: ((~x2 + x) mod (1 + ((x + 1) div 5)))
1: ((~x2 + x) mod (1 + (x div 4)))
1: ((~x2 + x) mod 15)
1: ((~2x + 36) mod (1 + (x div 2)))
1: ((~x4 + 2x2) mod 18)
1: ((6 * (2 - (x div 2))) mod (x + 1))
1: ((x * (2 - (x div 2))) mod (1 + ((x + ~1) mod 5)))
1: ((2 * (2 - (x div (~1 + ((~x + 2) div 4))))) mod (x + 1))
1: ((2 * (2 - ((x * (x div 2)) mod 2))) mod (x + 1))
1: ((2 * (2 - (((1 + ((x2 div 2) + (x div 4))) div 2) mod 2))) mod (x + 1))
1: ((2 * (2 - ((x div 2) mod 2))) mod (~1 + ((~2x + 2) mod (4 + (x div 4)))))
1: (((x + 1) * (2 - ((x div 2) mod 2))) mod 9)
1: ((x * (2 - ((x div 2) mod 2))) mod 4)
1: ((x * (2 - ((x div 2) mod 2))) mod (~1 + ((~2x + 2) mod (4 + (x div 4)))))
1: ((2 * (2 - ((x div 4) mod 2))) mod (x + 1))
1: ((3 * (2 - ((x3 mod (2 + (x div 2))) mod 2))) mod (x + 1))
1: ((2 * (2 - (x mod 4))) mod (x + 1))
1: (((x + 1) * (2 - (x mod (2 + ((x div 2) mod 2))))) mod 5)
1: ((~2x + 4) mod (4 + (x div 4)))
1: ((~2x + 4) mod 9)
1: ((~2x + 4) mod 13)
1: ((~2x + 4) mod (1 + ((x div 2) div 3)))
1: ((~2x + 4) mod (2 + (x div 4)))
1: ((~2x + 4) mod (1 + (x div (1 + (2 * (2 + (x mod 2)))))))
1: ((~x2 + 3x + ~2) mod (1 + (x div 3)))
1: ((~x2 + 4x + ~4) mod 5)
1: ((~2x2 + 4x) mod (1 + (x div 2)))
1: (((~x + 2) * (x div 2)) mod (x + 1))
1: ((~x2 + 2x) mod (4 + (x div 4)))
1: ((~x2 + 2x) mod (x + 4))
1: ((~x2 + 2x) mod 6)
1: ((~x2 + 2x) mod 8)
1: ((~x2 + 2x) mod (2 * (1 + (x mod 3))))
1: ((~x2 + 2x) mod (2x + 4))
1: ((x * ((~x + 3) - (x mod 2))) mod 5)
1: (((2x + 1) * (1 + (x div 4) - (x mod 10))) mod 3)
1: ((3 * ((x + 2) - (x mod 8))) mod (x + 1))
1: ((~4x + ~4) mod 17)
1: ((~5x + ~5) mod (1 + (x mod 5)))
1: (((2x + 1) * (~5 + (x mod 2))) mod (x2 + 2x + 2))
1: (22 mod (2 + (x div 2)))
1: ((33x + 11) mod (x + 1))
1: (11x mod 30)
1: ((~3x2 + 4x) mod 9)
1: (((x2 + ~x + ~1) * (2 - (x div 3))) mod 3)
1: (46 mod (x + 1))
1: (177 mod (1 + (x div 2)))
1: ((2 * (~1 + (24 * (2 + loop(\(x,i).x2,1,((23x + 23) + (x div 9))))))) mod 5)
1: ((8x + ~2) mod (2 + (x div 2)))
1: ((8x + ~2) mod (1 + (x div 3)))
1: ((x4 + ~x) mod (~2 + loop(\(x,i).2x2,2,2)))
1: (((2x + 1) * (~1 + (2 * (loop(\(x,i).x3,1,(10x + 2)) div (x + 1))))) mod 3)
1: (((~1 + (x * (x div 2))) * ((x + ~1) div 3)) mod 2)
1: ((x * (~1 + (2 * (x div 4)))) mod (2 + (x div 2)))
1: ((2x2 + ~x) mod (x + 3))
1: ((2x2 + ~x) mod (x + 4))
1: ((2x2 + ~x) mod 7)
1: ((2x2 + ~x) mod 9)
1: ((2x2 + ~x) mod 13)
1: ((2x2 + ~x) mod (1 + (x div 2)))
1: ((2x2 + ~x) mod 8)
1: (((2x - (x mod 2)) * (1 + (x div 2))) mod 7)
1: ((x3 + x2 + ~x + ~1) mod 7)
1: ((x3 + 2x2 + ~x + ~2) mod 5)
1: ((x3 + 2x2 + ~x + ~2) mod (1 + (x div 4)))
1: ((x3 + ~x) mod 5)
1: ((x3 + ~x) mod (1 + (x div 2)))
1: ((x3 + ~x) mod loop(\(x,i).(x2 + 2x + 1),2,2))
1: ((x3 + ~2x) mod 9)
1: (((x + 1) * (~1 + ((~x + 1) div 2))) mod 3)
1: ((x * (~2 + ((x + ~1) div 2))) mod (x + 7))
1: ((x * (((3 * (x div 4)) div 2) - ((x + 1) div 2))) mod 3)
1: ((2 * (~x + (x2 div 3))) mod 5)
1: ((x * (~1 + (x2 div (x + 5)))) mod 3)
1: ((x * (~1 + (x div 2))) mod 4)
1: ((2 * (~2 + (x div 2))) mod (1 + (x div 2)))
1: ((2 * (~2 + (x div 2))) mod (1 + (x div 4)))
1: ((2 * (~2 + (x div 2))) mod (x + 1))
1: (((x + 2) * (~2 + (x div 2))) mod (1 + (((x + 1) div 2) div 2)))
1: ((3 * ((x div 2) - (2 * (x mod 2)))) mod (x + 1))
1: ((2 * ((x div 2) - (x mod 2))) mod (1 + (x div 2)))
1: ((3 * ((x div 2) - (x mod 2))) mod (x + 1))
1: ((2 * (~1 + (x div 4))) mod (x + 1))
1: ((3 * (~1 + ((2x + 1) mod (4 + (x div 4))))) mod 7)
1: ((2 * (~x + ((x div 2) mod 2))) mod (1 + (x div 2)))
1: ((2 * (~x + ((x div 2) mod 2))) mod (x + 2))
1: ((2 * (~2 + ((x div 2) mod 3))) mod (x + 1))
1: ((3 * ((x mod 2) - (x div 2))) mod (x + 2))
1: ((2 * ((x mod 2) - ((x mod (2 - (x div (1 + ((x div 2) mod 2))))) mod 2))) mod (x + 2))
1: ((2 * (~1 + (x mod 3))) mod (x + 1))
1: ((2 * (~2 + (x mod ~4))) mod (x + 1))
1: ((x * (~x2 + (if (x + ~1) <= 0 then 1 else 0))) mod 9)
1: ((x * (~x + (if (x + ~4) <= 0 then 1 else 2))) mod 3)
1: ((3 * ((if (x mod (3 + ((x div 2) div 3))) <= 0 then 1 else 0) - (x mod 2))) mod (x + 1))
1: ((2 * (~1 + (if x <= 0 then 2 else x))) mod 5)
1: (((x + 1) * (loop(\(x,i).4x,x,1) - loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1))) mod loop(\(x,i).4x,(x + ~1),1))
1: ((2x + ~2) mod (2 + (((x div 2) div 3) + (if x <= 0 then 1 else 2))))
1: ((2x + ~2) mod (x + 3))
1: ((2x + ~2) mod (2 + (x div 2) - (x mod 2)))
1: ((2x + ~2) mod 7)
1: ((2x + ~2) mod (1 + ((x * (x mod 2)) div 4)))
1: ((2x + ~2) mod (1 + (((x + 1) div 2) div 2)))
1: ((2x + ~2) mod (~1 + (2 * ((~x + 2) mod 5))))
1: ((3x + ~3) mod (1 + (x div 2)))
1: ((3x + ~3) mod (1 + (x mod (1 + (x div 3)))))
1: ((x2 + ~x) mod (x + 5))
1: ((x2 + ~x) mod (3 + ((x div 2) div 3)))
1: ((x2 + ~x) mod (4 + (x div 4)))
1: ((x2 + ~x) mod ((x + 3) + (x div 4)))
1: ((x2 + ~x) mod (1 + ((x + 2) div 3)))
1: ((x2 + ~x) mod (1 + (x div (2 + (x mod 2)))))
1: ((x2 + ~x) mod (2 + (if ((x div 2) mod 3) <= 0 then 2 else 1)))
1: ((x2 + ~x) mod (~1 + (2 * ((2 * (x div 2)) div 3))))
1: ((x2 + ~x) mod (~1 + ((x2 + ~x) mod 9)))
1: ((x2 + ~x) mod ((x + 1) - ((~x + 1) div (2 + (x div 4)))))
1: ((x2 + ~x) mod (x - ((~x + 2) div 2)))
1: ((x2 + ~x) mod (2x + 8))
1: ((x2 + ~x) mod (3 * (1 + (x div 3))))
1: ((x2 + ~x) mod (3 * (2 + ((1 - (x div 3)) mod 3))))
1: ((x2 + ~x) mod 16)
1: ((x2 + ~x) mod loop(\(x,i).(x2 + 2x + 1),2,2))
1: ((2x + ~4) mod (x + 3))
1: ((2x + ~4) mod (x + 4))
1: ((2x + ~4) mod (2 + (2x div (2 + (x div 4)))))
1: ((2x + ~4) mod (1 + (x div 4)))
1: ((2x + ~4) mod (x + 1))
1: ((2x + ~4) mod (2 - ((~x + 1) div 3)))
1: ((2x + ~4) mod (2 - (x div ~4)))
1: ((2x + ~4) mod loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))
1: ((x2 + ~2x) mod (x + 5))
1: ((x2 + ~2x) mod (3 - (x mod 2)))
1: ((x2 + ~2x) mod (1 + (x div 2)))
1: ((x2 + ~2x) mod (1 + (x div 3)))
1: ((x2 + ~2x) mod 11)
1: ((x2 + ~2x) mod (~1 + (x div ~2)))
1: ((x2 + ~2x) mod 8)
1: ((x3 + ~3x2) mod (2 + (x div 2)))
1: ((x2 + ~4x) mod 9)
1: (((x + 1) * ((x + 1) - ((x * (~2 + (((x + ~1) div 2) div 2))) div 3))) mod 3)
1: (((x + 1) * ((x + 1) - (loop(\(x,i).2x,x,2) mod (x + 1)))) mod 3)
1: ((2 * (x - (2 * ((4 * (x div 3)) div 3)))) mod 3)
1: (((x + 1) * (x - (2 * ((((x2 div 4) mod (x + 1)) mod 3) mod 2)))) mod 3)
1: ((2 * (x - (2 * (x mod (1 + ((3 * ((x + 1) div 2)) mod (1 + (x div 3)))))))) mod (x + 1))
1: ((2 * (x - ((x + (x div 2)) div 4))) mod (x + 1))
1: (((x - ((~x + 1) div (2 + (x div 2)))) * (~1 + (x mod 3))) mod 2)
1: ((2 * (x - (((x * (~1 + compr(\x.(1 - ((~x2 + x) mod 8)),(x + 1)))) div 2) div 3))) mod 3)
1: (((2x + 1) * (x - (x div (~x + 16)))) mod 3)
1: ((2 * (x - (4 mod (1 + (x div 4))))) mod 3)
1: ((3 * (x - ((x + ~1) mod 3))) mod (1 + (x div 2)))
1: ((2 * (x - ((x div 2) mod 2))) mod 7)
1: ((x * (x - ((x div 4) mod 2))) mod 3)
1: (((x - (x mod 3)) * (x div 3)) mod 9)
1: ((x * (x - (x mod 3))) mod (1 + (x div 2)))
1: (9x mod 19)
1: (9x mod loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))
1: (16 mod (2x + 1))
1: (16 mod (1 + ((x + 1) div 2)))
1: (24 mod (1 + ((x + 1) div 3)))
1: (24 mod (x + 1))
1: (24 mod (~x + ~1))
1: (40 mod (x + 1))
1: ((16x + 8) mod 13)
1: ((16x + 8) mod 17)
1: ((8x + 8) mod 13)
1: ((8x + 8) mod (1 + (x div 2)))
1: ((4x2 + 8x + 4) mod 5)
1: (~16 mod (x + 1))
1: ((4x2 + ~8x + 4) mod (1 + (x div 2)))
1: (20 mod (x + 3))
1: (20 mod (1 + (x div 2)))
1: (((5x + 5) * (x div 2)) mod (2 + (x div 4)))
1: ((2 * ((x + (((x div (~4 - (x mod 4))) mod 2) + (x div 2))) * (1 + (x2 div 2)))) mod 3)
1: ((6x + 24) mod loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))
1: ((4 * (3 - (x mod 2))) mod (x + 1))
1: (52 mod (x + 1))
1: ((6 * (1 + (2 * (1 + (x mod 2))))) mod (x + 1))
1: ((2x3 + 7x2 + 6x) mod 11)
1: ((6 * (1 + (2 * (x mod 2)))) mod (x + 1))
1: ((10 * (1 + (2 * (x mod 2)))) mod (x + 1))
1: ((10 * (x + (2 * (x mod 2)))) mod 7)
1: ((8x + 4) mod (1 + ((x + 1) div 3)))
1: ((2x * (1 + (2 * i))) mod (2 + i))
1: ((6 * (1 + ((x div 2) div 3))) mod (x + 1))
1: ((6 * (1 + ((x mod (1 + (loop(\(x,i).(2x + 2),(loop(\(x,i).x2,4,2) mod (x + 1)),1) mod (x + 1)))) div 2))) mod (x + 1))
1: ((9 * (1 + (x div 2))) mod (x + 1))
1: (((4x + 6) * (x + (x div 4))) mod 9)
1: ((6 * (1 + (x div 8))) mod (x + 1))
1: ((6 * (1 + ((x + 1) mod 4))) mod (x + 1))
1: (((2x + 2) * (2 + ((~1 + (2 * (if x <= 0 then 1 else (if (x mod 4) <= 0 then (x div 2) else x)))) mod (x + 1)))) mod 3)
1: ((4 * (2 + (16 mod (x + 1)))) mod 7)
1: ((15 * (1 + ((x div 4) mod 2))) mod (x + 1))
1: (((2x + 2) * (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 8))) mod 3)
1: ((4 * (2 + (x mod 2))) mod (1 + (x div 2)))
1: (((3x + 3) * (1 + (x mod (2 * (2 + (3 * (x mod 2))))))) mod 5)
1: ((6x + 6) mod (2 + (x div 4)))
1: ((6x + 6) mod (3 * (1 + ((6 * (2 + (if x <= 0 then 0 else 2))) + (x mod 2)))))
1: ((2x2 + 4x + 2) mod 5)
1: ((3x2 + 3x) mod (x + 16))
1: ((2x2 + 8x + 8) mod (3x2 + 1))
1: ((2x2 + 4x) mod 9)
1: (((x + 1) * ((1 - (x div ~4)) * (1 + (x div 3)))) mod 3)
1: ((4 * ((~x + 2) - (x div 3))) mod (x + 1))
1: ((4 * (2 - (x mod 2))) mod (x + 1))
1: (((6x + 3) * (2 - (x mod 2))) mod 7)
1: ((3 * ((2 - (x mod 2)) * (x mod 4))) mod (x + 1))
1: ((3 * ((2 - (x mod 2)) * (if x <= 0 then 1 else 2))) mod (~1 + (2 * (((x + 1) div 2) div 2))))
1: ((2x4 + ~x2) mod 36)
1: ((3x * (2x - (x mod 4))) mod 9)
1: ((x2 * (~1 + (x div 2))) mod (1 + ((1 + (x div 2)) div 3)))
1: ((x3 + ~2x2 + x) mod (4 + (x div 4)))
1: ((4x2 + ~6x + ~4) mod 9)
1: ((4x2 + ~8x) mod (1 + (x div 2)))
1: ((2x2 + ~6x) mod 9)
1: ((4 * ((x + 1) - (2 * (x mod 2)))) mod (2x + 1))
1: ((6x + 84) mod 11)
1: ((4 * (x - (x mod (3 + (x mod 2))))) mod (x + 1))
1: (54 mod (x + 1))
1: (32 mod (~x + ~1))
1: ((16x2 + ~16x) mod (1 + (x div 2)))
1: (((4x + 4) * (2 + (x mod 2))) mod (x + 5))
1: ((8 * (2 + (x mod 3))) mod (x + 1))
1: (((4x + 8) * (2 + (x mod ~7))) mod (x + 1))
1: (64 mod (x + 1))
1: (x7 mod 13)
1: (x7 mod 19)
1: (x7 mod 17)
1: (x7 mod 25)
1: (x7 mod 41)
1: (x7 mod (17x + 8))
1: (x7 mod 37)
1: (x7 mod (10x + 1))
1: (x7 mod 33)
1: (x7 mod (1 + loop(\(x,i).(x2 + x),2,2)))
1: (x7 mod 11)
1: (x7 mod 29)
1: (x7 mod 23)
1: (x7 mod 39)
1: (x7 mod 35)
1: (x7 mod 31)
1: (x7 mod 47)
1: (x7 mod 27)
1: (x7 mod 45)
1: (x7 mod 26)
1: (x7 mod 34)
1: (x7 mod 22)
1: (x7 mod 46)
1: (x7 mod 36)
1: (x7 mod 28)
1: (x7 mod 44)
1: (x7 mod 32)
1: (x7 mod 48)
1: (x7 mod loop(\(x,i).(x2 + 2),2,2))
1: (((~4x + 8) * (x div 3)) mod (x + 1))
1: ((18 * ((2x mod (~1 + (2 * (x div 4)))) mod 2)) mod (x + 1))
1: ((8 * (x mod 4)) mod (1 + (x div 2)))
1: (8x mod 13)
1: (8x mod (x + 1))
1: (8x mod 35)
1: (8x mod (loop(\(x,i).(1 + (loop(\(x,i).(3x + 1),x,1) mod (2x + 1))),2,x) div 2))
1: (12x mod (~1 + loop(\(x,i).(10x + 4),2,1)))
1: ((4x2 + 4x) mod 9)
1: (12x2 mod (1 + ((x + 1) div 2)))
1: (4x4 mod 7)
1: (x6 mod 19)
1: (x6 mod 17)
1: (x6 mod 25)
1: (x6 mod 41)
1: (x6 mod 37)
1: (x6 mod 21)
1: (x6 mod 33)
1: (x6 mod (1 + loop(\(x,i).(x2 + x),2,2)))
1: (x6 mod 11)
1: (x6 mod 29)
1: (x6 mod 23)
1: (x6 mod 39)
1: (x6 mod 35)
1: (x6 mod 31)
1: (x6 mod 47)
1: (x6 mod 14)
1: (x6 mod 27)
1: (x6 mod 45)
1: (x6 mod 26)
1: (x6 mod 34)
1: (x6 mod 22)
1: (x6 mod 46)
1: (x6 mod 40)
1: (x6 mod 28)
1: (x6 mod 44)
1: (x6 mod 32)
1: (x6 mod 48)
1: (x6 mod loop(\(x,i).(x2 + 2),2,2))
1: (x6 mod loop(\(x,i).(2x2 + 3x + 1),2,1))
1: (x6 mod loop(\(x,i).(x2 + x),2,2))
1: (x5 mod 7)
1: (x5 mod 13)
1: (x5 mod 19)
1: (x5 mod 25)
1: (x5 mod 37)
1: (x5 mod 21)
1: (x5 mod 33)
1: (x5 mod 49)
1: (x5 mod (1 + loop(\(x,i).(x2 + x),2,2)))
1: (x5 mod 29)
1: (x5 mod 23)
1: (x5 mod 39)
1: (x5 mod 35)
1: (x5 mod 47)
1: (x5 mod (2x + ~1))
1: (x5 mod 14)
1: (x5 mod 27)
1: (x5 mod 45)
1: (x5 mod 34)
1: (x5 mod 22)
1: (x5 mod 46)
1: (x5 mod 18)
1: (x5 mod 40)
1: (x5 mod 36)
1: (x5 mod 20)
1: (x5 mod 50)
1: (x5 mod 28)
1: (x5 mod 44)
1: (x5 mod 32)
1: (x5 mod 48)
1: (x5 mod loop(\(x,i).(x2 + 2),2,2))
1: (x5 mod loop(\(x,i).(x2 + x),2,2))
1: ((2x * (((x + 1) * (2 + (x div 4))) div 2)) mod 3)
1: ((6 * ((2 * (x div 2)) div 3)) mod (x + 1))
1: (((2x + 2) * ((x div 2) div (3 - (x mod 2)))) mod 3)
1: (((x2 + ~2x) * (x div 2)) mod 7)
1: ((x * ((x div 2) * (x div 3))) mod 2)
1: ((x * ((x div 2) * (x div 3))) mod 3)
1: ((2x * (x div 7)) mod 7)
1: ((6 * (2 mod (1 + (x div 4)))) mod (x + 1))
1: ((4 * (x mod 2)) mod (x + 1))
1: ((6 * (x mod 2)) mod (x + 1))
1: (((2x + 2) * (x mod 2)) mod 7)
1: (((x + 1) * ((if (x + ~4) <= 0 then 1 else 2) * (1 + (x div 3)))) mod 3)
1: ((4 * (if (x mod 2) <= 0 then 4 else 1)) mod (x2 + 2))
1: ((4 * (if (x mod 2) <= 0 then (~x + 1) else x)) mod (x + 1))
1: (((2x + 2) * (if (x mod 4) <= 0 then 2 else 2x)) mod (2 + (((x + 1) div 2) div 2)))
1: ((6 * loop(\(x,i).(x2 + 1),1,loop(\(x,i).(2x + 2),x,0))) mod (x + 1))
1: (4x mod (x + 3))
1: (4x mod (1 + ((1 + (x div 4)) div 2)))
1: (4x mod (2 + (x div 2)))
1: (4x mod (1 + (x div 4)))
1: (4x mod ~19)
1: (4x mod (8 - (x mod 2)))
1: (4x mod 39)
1: (4x mod (~1 + (x div ~3)))
1: (4x mod loop(\(x,i).3x,(1 + i),1))
1: (6x mod (1 + (x div 2)))
1: (6x mod (2 + (x div (2 + (x mod 4)))))
1: (6x mod (1 + compr(\x.((((x + 1) div (1 + (2 * (x mod (3 * (1 + (x mod 4))))))) mod 2) - (x mod 2)),x)))
1: (6x mod (1 + (if x <= 0 then 2 else (loop(\(x,i).x3,2,11) mod (x + 1)))))
1: ((2x2 + 2x) mod 9)
1: ((2x2 + 2x) mod (2 + (x div 2)))
1: (~4x mod 9)
1: ((2x2 + ~2x) mod (x + 4))
1: (2x2 mod (4 + (x div 2)))
1: (2x2 mod 9)
1: (2x2 mod 19)
1: (2x2 mod (2 + ((x * (x mod 2)) div 2)))
1: (2x2 mod (1 + ((2x2 + ~x) mod 7)))
1: (2x2 mod (1 + (2x mod (1 + (x div 3)))))
1: (2x2 mod (2 - (x div ~2)))
1: (2x2 mod (~1 + (x div ~2)))
1: (2x2 mod (x + 60))
1: (2x2 mod 30)
1: (3x2 mod 7)
1: (3x2 mod (1 + ((x + 1) div 2)))
1: (3x2 mod 11)
1: ((x3 + x2) mod 7)
1: ((x3 + x2) mod (2x2 + 2x + 1))
1: ((x3 + 2x2) mod 5)
1: ((x3 + 2x2) mod 7)
1: ((~x3 + 2x2) mod 7)
1: ((x3 + ~x2) mod 7)
1: ((x3 + ~x2) mod (2x + 5))
1: ((x3 + ~2x2) mod 9)
1: ((x3 + ~2x2) mod (2x + 3))
1: ((x3 + ~2x2) mod (2 + (x div 4)))
1: (2x3 mod (x + 4))
1: (2x3 mod 9)
1: (x4 mod 7)
1: (x4 mod 9)
1: (x4 mod 13)
1: (x4 mod 19)
1: (x4 mod 17)
1: (x4 mod 25)
1: (x4 mod 41)
1: (x4 mod 37)
1: (x4 mod 21)
1: (x4 mod 33)
1: (x4 mod (1 + (x div 2)))
1: (x4 mod (1 + loop(\(x,i).(x2 + x),2,2)))
1: (x4 mod 11)
1: (x4 mod 29)
1: (x4 mod 15)
1: (x4 mod 23)
1: (x4 mod 39)
1: (x4 mod 35)
1: (x4 mod 47)
1: (x4 mod (2x + ~1))
1: (x4 mod (5x + 5))
1: (x4 mod 14)
1: (x4 mod 45)
1: (x4 mod 26)
1: (x4 mod 34)
1: (x4 mod 22)
1: (x4 mod 46)
1: (x4 mod 18)
1: (x4 mod 30)
1: (x4 mod 24)
1: (x4 mod 40)
1: (x4 mod 36)
1: (x4 mod 20)
1: (x4 mod 28)
1: (x4 mod 44)
1: (x4 mod 32)
1: (x4 mod 48)
1: (x4 mod loop(\(x,i).(x2 + 2),2,2))
1: (x4 mod loop(\(x,i).(x2 + x),2,2))
1: ((x2 * (x mod 2)) mod 16)
1: (x3 mod (x + 5))
1: (x3 mod (x + 13))
1: (x3 mod ((x + 1) + (x div 2)))
1: (x3 mod 9)
1: (x3 mod (x + 8))
1: (x3 mod (1 + (3 * (2 + (x mod 4)))))
1: (x3 mod (2x + 5))
1: (x3 mod (1 + (3 * (2 - (x mod 2)))))
1: (x3 mod 19)
1: (x3 mod 41)
1: (x3 mod 21)
1: (x3 mod (1 + (6 * (1 + (4 * (x mod 2))))))
1: (x3 mod 33)
1: (x3 mod (1 + (2 * (x mod 4))))
1: (x3 mod (2 + (3 * (x mod 4))))
1: (x3 mod (1 + ((x * (x mod 2)) div 3)))
1: (x3 mod (2 + (x div 4)))
1: (x3 mod (1 + (x div (2 - (x mod 2)))))
1: (x3 mod (2 + (x mod (2 + ((~x + 2) mod 4)))))
1: (x3 mod (1 + loop(\(x,i).(x2 + x),2,2)))
1: (x3 mod (2 - (x div ~8)))
1: (x3 mod 29)
1: (x3 mod 15)
1: (x3 mod 23)
1: (x3 mod 39)
1: (x3 mod 35)
1: (x3 mod 31)
1: (x3 mod (~4x + ~1))
1: (x3 mod (~1 + ((~x + 2) div 3)))
1: (x3 mod 12)
1: (x3 mod 10)
1: (x3 mod 27)
1: (x3 mod 45)
1: (x3 mod 26)
1: (x3 mod 34)
1: (x3 mod 85)
1: (x3 mod (3x + 3))
1: (x3 mod 22)
1: (x3 mod (11 * (1 + (x mod 3))))
1: (x3 mod 46)
1: (x3 mod 18)
1: (x3 mod 16)
1: (x3 mod 24)
1: (x3 mod 40)
1: (x3 mod (8 * (1 + (x mod 2))))
1: (x3 mod 36)
1: (x3 mod 28)
1: (x3 mod 44)
1: (x3 mod 32)
1: (x3 mod 48)
1: (x3 mod ((2 * (4 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3))
1: (x3 mod loop(\(x,i).(x2 + 2x + 1),2,2))
1: (x3 mod loop(\(x,i).(x2 + 2),2,2))
1: (x3 mod loop(\(x,i).(x2 + x),2,2))
1: ((2 * (((x + 4) + ((2 * (2x - ((x div 2) div ~5))) div 5)) div 2)) mod 3)
1: (((((x + 1) + (x div 2)) div 2) * (x div 3)) mod 2)
1: ((x * ((x2 + (x div 2)) div 7)) mod (x + 2))
1: ((2 * ((1 + ((x * ((x + 1) + (2 * ((1 + ((x * loop(\(x,i).(10x + 1),x,1)) div 2)) div 2)))) div 2)) div 2)) mod 3)
1: ((2 * ((1 + (((x + 2) * (x + (x mod (2 + (x mod 2))))) div 2)) div 2)) mod (x + 1))
1: (((x + 1) * ((2 + ((x * (x div 2)) div 2)) div 3)) mod 3)
1: ((2 * ((1 + (loop(\(x,i).2x,((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3),1) div 2)) div 2)) mod (x + 1))
1: ((x * ((1 + (x div 2)) div 2)) mod 3)
1: ((x * ((x + (x div 2)) div 2)) mod 5)
1: ((x * ((x + (x div 2)) div 2)) mod 9)
1: ((2 * ((1 + (x2 mod 5)) div 2)) mod (x + 1))
1: ((2 * ((1 + (x mod (1 + ((x + ~1) mod (4 + (x div 3)))))) div 2)) mod 3)
1: ((((x + (if (x mod 2) <= 0 then 2 else x)) div 2) * (1 + (x div 5))) mod 3)
1: ((2 * ((1 + loop(\(x,i).2x,x,(if x <= 0 then 1 else (x + (loop(\(x,i).2x,x,1) div (x + 2)))))) div 2)) mod 3)
1: ((((x + 1) div 2) * (1 + (x div 2))) mod 7)
1: (((x + 1) * ((x + 1) div 2)) mod 4)
1: ((x * ((x + 1) div 2)) mod (1 + ((x div 2) div 3)))
1: ((x * ((x + 1) div 2)) mod (2 + ((x div 2) mod 2)))
1: ((x * ((x + 1) div 2)) mod 6)
1: ((3 * ((~x + 2) div 2)) mod (1 + (x div 5)))
1: ((5 * ((~x + 2) div 2)) mod (2 + (x div 3)))
1: ((2 * ((x2 + ~1) div 2)) mod 3)
1: (((x + 1) * ((x2 + ~1) div 3)) mod 3)
1: ((2 * ((x2 - (x div 2)) div 3)) mod (x + 1))
1: ((2 * ((~1 + loop(\(x,i).(x2 + ~1),2,(x2 + 1))) div (x + 2))) mod 3)
1: ((2 * ((~2 + loop(\(x,i).7x,(x + 1),1)) div (x + 1))) mod 3)
1: ((3 * ((x + ~1) div 2)) mod (x + 1))
1: ((((x + ~1) div 3) * (x div ~2)) mod 2)
1: ((2 * ((x + ~1) div (2 + (x div 4)))) mod (1 + (x div 2)))
1: ((((x + ~2) div 3) * (x div 2)) mod 3)
1: ((2 * ((x - ((~x + ((x div 4) mod 2)) div 2)) div 2)) mod 3)
1: ((x * ((x - (x div 3)) div 3)) mod 8)
1: ((2 * ((x - ((x div 2) mod 2)) div 2)) mod 3)
1: ((2 * ((3 * (3 + (((~1 + (6 * (1 + (((~1 + (6 * (1 + ((1 + ((loop(\(x,i).2x,x,2) mod (x + 1)) div 2)) div 2)))) div 2) div 2)))) div 2) div 2))) div 2)) mod 3)
1: ((((x2 + x) div 3) * (2 + (x mod 2))) mod 3)
1: ((3 * ((x2 + 3x + 2) div 2)) mod (1 + (x div 4)))
1: ((2 * ((~2x + 2) div 5)) mod (x + 1))
1: ((2 * ((((x + ~2) - ((~x + 2) div 4)) * (1 + (x div 2))) div 2)) mod 3)
1: (((x + ~1) * ((x2 + ~x) div 2)) mod 18)
1: (((x + 1) * (((x + 1) * ((3 * (x div 4)) div 2)) div 2)) mod 3)
1: ((2 * (((x div 3) * (x div 2)) div 2)) mod 3)
1: ((x * ((3 * ((2x + 1) mod (1 + (2x mod (2 + (x div 4)))))) div 2)) mod 8)
1: ((3 * ((x * (x mod 4)) div 2)) mod (x + 1))
1: ((2 * (2x div 3)) mod 3)
1: ((3 * (2x div 3)) mod (1 + (x div 4)))
1: (((x + ~1) * (2x div 3)) mod 3)
1: (((x + 1) * (2x div 15)) mod 9)
1: ((2 * (x2 div 2)) mod (2 + (x div 2)))
1: (((x2 div 2) * (1 + (x div 2))) mod (x + 1))
1: ((x * (x2 div 2)) mod (2 - ((~x + 1) div 3)))
1: (((x + 1) * (x2 div 3)) mod (1 + (x div 2)))
1: ((x * (x2 div 3)) mod (2x + 1))
1: ((x * (x2 div 3)) mod 8)
1: ((x * (x2 div 5)) mod 3)
1: ((2 * (x2 div (x + 4))) mod (1 + (x div 2)))
1: (((x2 div (2 + (x div 2))) * ((x + 1) div 2)) mod 2)
1: (((x + 1) * (((1 + (x div 2)) div 2) div 2)) mod 2)
1: ((x * (((x + 1) div 2) div 2)) mod 5)
1: ((2 * ((x div 2) div ~2)) mod (x + 1))
1: ((((x div 2) div ~2) * (x mod 3)) mod 2)
1: (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 - (2 * (x div 7)))) mod 5)
1: ((3 * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) mod (1 + ((1 + (x div 2)) div 2)))
1: ((3 * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) mod (1 + (x div 3)))
1: ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + ((2x2 + 4) div 3))) mod 3)
1: ((x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) mod (1 + (x div 2)))
1: ((x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) mod 8)
1: ((((loop(\(x,i).2x,x,x) mod (x + 1)) div 2) * (x div 2)) mod 3)
1: (((x + 1) * ((x mod (1 + (4 * (x mod 4)))) div 2)) mod 3)
1: (((x + 1) * ((x mod (1 + (x div 2))) div 2)) mod 2)
1: ((2 * (x div 2)) mod (1 + (x2 mod 5)))
1: ((2 * (x div 2)) mod ((x2 + 2) div (x + 2)))
1: (((x + 1) * (x div 2)) mod 5)
1: (((x + ~2) * (x div 2)) mod 8)
1: (((x div 2) * (x div 2)) mod (x + 1))
1: ((x * (x div 2)) mod (x + 3))
1: ((x * (x div 2)) mod (6x + 1))
1: ((x * (x div 2)) mod (1 + ((x mod (1 + (x div 2))) div 2)))
1: ((x * (x div 2)) mod (1 + (x mod 3)))
1: ((x * (x div 2)) mod (1 + (x mod (1 + ((~x + 2) mod 4)))))
1: ((x * (x div 2)) mod 6)
1: ((2 * (x div 3)) mod 5)
1: ((2 * (x div 3)) mod (1 + (x div 4)))
1: (((x + ~2) * (x div 3)) mod (x + 1))
1: (((x + ~2) * (x div 3)) mod (x + 2))
1: (((x div 3) * (x div 3)) mod 5)
1: ((x * (x div 3)) mod (1 + (x div (2 + (x div 3)))))
1: ((2 * (x div 4)) mod 5)
1: (((x + ~1) * (x div 4)) mod 8)
1: (((x div 4) * (x mod 3)) mod 2)
1: ((3 * (x div 5)) mod (1 + (x div 2)))
1: (((x + 1) * (x div 5)) mod 3)
1: (((x div 5) * (x div 2)) mod 2)
1: ((x * (x div 5)) mod 5)
1: (((x + 1) * (x div (3 + (x mod 2)))) mod 5)
1: ((2 * (x div (2 + (x div (1 + ((x mod (1 + ((2 - (x mod 4)) mod (x + 1)))) div 2)))))) mod 3)
1: (((2x + 3) * (x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2)))))))) mod 4)
1: ((2 * (x div (1 + (x mod 12)))) mod 7)
1: ((2 * (x div ~2)) mod 9)
1: ((x * (x div ~2)) mod 3)
1: ((x * (x div ~2)) mod 4)
1: ((2 * (x div ~7)) mod (x + 2))
1: ((x * (x div (2 - ((x div 2) mod 2)))) mod 3)
1: ((2 * (x div (~2 + (x mod ~2)))) mod (x + 2))
1: ((2 * (x div (~2 + (x mod ~2)))) mod (if x <= 0 then 1 else x))
1: ((2 * ((2x + 1) mod 7)) mod 3)
1: ((((x + 1) mod (3 - (x mod 2))) * (1 + (x div 2))) mod 4)
1: ((2 * ((x + 1) mod (1 + (2 * (1 + (x mod (1 + (8 * (x mod (2 + (x mod 2))))))))))) mod (x + 1))
1: ((x * ((x + 1) mod (1 + (x div 4)))) mod 3)
1: ((2 * ((x + 2) mod 5)) mod 3)
1: ((3 * ((x + 2) mod 5)) mod (x + 1))
1: ((x * ((x + 2) mod (1 + (x div 4)))) mod 5)
1: ((x * ((x + 2) mod (2 + (x div 4)))) mod 5)
1: (((x + 1) * ((~x + 2) mod 3)) mod 5)
1: ((2 * ((~x + 2) mod 5)) mod (x + 1))
1: ((2 * ((~x + 2) mod 6)) mod (x + 1))
1: ((2 * ((~1 + loop(\(x,i).2x,x,2)) mod 41)) mod 3)
1: ((3 * ((x + ~1) mod 4)) mod (x + 1))
1: ((3 * ((x + ~1) mod 8)) mod (x + 1))
1: ((2 * ((x2 + x) mod 9)) mod (x + 1))
1: ((((x2 + ~x) mod 5) * (x div 2)) mod 4)
1: ((x * ((3x + ~6) mod (x + 1))) mod 3)
1: ((2 * ((6x + 6) mod (3 * (1 + ((6 * (2 + (if x <= 0 then 0 else 2))) + (x mod 2)))))) mod (x + 1))
1: ((2 * (2x2 mod (2 + (x div 2)))) mod (x + 1))
1: (((x + 1) * (x2 mod 11)) mod 9)
1: ((3 * ((x2 div 4) mod (2x + 1))) mod (x + 1))
1: ((((x div 2) mod 3) * ((x + ~1) div 2)) mod 2)
1: ((x * ((x div 2) mod 5)) mod 2)
1: ((2 * ((x mod 5) mod 2)) mod (x + 1))
1: (((x + 1) * (loop(\(x,i).(2x + 2),x,0) mod (x + 1))) mod (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: ((2 * (loop(\(x,i).2x,((loop(\(x,i).(x * i),x,2) mod (x + 1)) div 2),2) mod (x + 1))) mod 3)
1: ((3 * (x mod 3)) mod (1 + (x div 2)))
1: ((x * (x mod 3)) mod (2 + ((x div 2) mod 2)))
1: ((3 * (x mod 4)) mod (x + 1))
1: (((x + 1) * (x mod 4)) mod 5)
1: (((x + ~1) * (x mod 4)) mod 3)
1: ((x * (x mod 4)) mod 15)
1: ((x * (x mod (4 + (x div 2)))) mod 2)
1: ((2 * (x mod (2 + ((~x + 2) mod 4)))) mod (x + 1))
1: ((x * (x mod (1 + ((x + ~1) mod 4)))) mod 4)
1: (((x mod ~7) * (x div 2)) mod 2)
1: ((2 * (x mod ~3)) mod (2x + 3))
1: ((2 * (x mod ~3)) mod (1 + (x div 3)))
1: (((x mod ~4) * (x div 2)) mod 3)
1: ((2 * (x mod (~3 + (x mod 2)))) mod (x + 1))
1: ((9 * (x mod 11)) mod (if x <= 0 then 1 else x))
1: ((2 * (x mod (~1 + (2 * (x mod 5))))) mod (x + 1))
1: ((2 * (x mod (~1 + ((~x + 1) div 5)))) mod (x + 1))
1: (((x + 1) * (x mod (~2 + ((~x + 2) div 4)))) mod 3)
1: ((2 * (x mod (~2 + (x div ~4)))) mod (x + 1))
1: ((x * (x mod 8)) mod 3)
1: ((x * (if (~4 + (x div 2)) <= 0 then 1 else x)) mod 10)
1: (((x + 1) * (if (x + ~1) <= 0 then 3 else ((x + 2) div (2 + (x mod 2))))) mod 3)
1: ((3 * (if (x2 mod (x + 4)) <= 0 then 2 else 1)) mod (x + 1))
1: ((2 * (if (((x2 + 2x) div 2) mod 3) <= 0 then 1 else 2)) mod (1 + (x div 3)))
1: ((3 * (if (x mod 2) <= 0 then (9 * (if x <= 0 then 1 else 2)) else 1)) mod (1 + (x div 3)))
1: ((3 * (if (x mod 2) <= 0 then (if x <= 0 then 1 else 2) else ~1)) mod (1 + (x div 3)))
1: ((2 * (if (x mod 2) <= 0 then x else 1)) mod (x + 1))
1: ((3 * (if (x mod 3) <= 0 then 14 else 1)) mod (x + 1))
1: ((x * (if (x mod 5) <= 0 then 1 else 2)) mod 4)
1: (((x + 1) * (if x <= 0 then 1 else 2)) mod 7)
1: (((x + 1) * (if x <= 0 then 1 else ((x + ~1) + ((1 + (x mod 5)) * (x mod 2))))) mod 3)
1: ((2 * (if x <= 0 then 1 else (x2 + ~1))) mod 5)
1: (((x + 1) * (if x <= 0 then 1 else (2 * (1 + ((1 + ((loop(\(x,i).((3x + 1) - (i mod 2)),x,1) div 2) div 2)) div 2))))) mod 3)
1: ((3 * (if x <= 0 then 1 else (4 * (x div 2)))) mod (x + 4))
1: ((2 * (if x <= 0 then 1 else x)) mod loop(\(x,i).x2,2,(2 + (x mod 2))))
1: ((2 * (if x <= 0 then 2 else loop(\(x,i).(if x <= 0 then 2 else (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2)),2,x))) mod 3)
1: (((x + 1) * loop(\(x,i).(2 + i - ((x div 2) mod 2)),x,0)) mod 3)
1: ((x * loop(\(x,i).(x + (2 * (2x + (x mod 2)))),(x + 1),x)) mod (x + 1))
1: ((2 * loop(\(x,i).(2x + 1),x,(1 + (2 * (x + (loop(\(x,i).4x,x,2) div (x + 1))))))) mod 3)
1: (((2x + 1) * loop(\(x,i).(1 + (x2 div 3)),2,x)) mod 3)
1: (((2x + 1) * loop(\(x,i).(x + (if (~4 + (x div 2)) <= 0 then 1 else 2)),4,x)) mod 3)
1: (((x + 2) * loop(\(x,i).(2 + (if (~x + i) <= 0 then 0 else x)),x,1)) mod 3)
1: ((2 * loop(\(x,i).((x + ~2) + ((x div 4) mod 2)),2,x)) mod 3)
1: ((2 * loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)) mod 3)
1: ((3 * loop(\(x,i).3x,(if x <= 0 then 1 else ((3 * (x div 4)) div 2)),1)) mod (x + 1))
1: (((4x + 1) * loop(\(x,i).(4x + 4),(x + 1),2)) mod 7)
1: ((x * loop(\(x,i).(2x + 2),x,0)) mod loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))
1: ((x * loop(\(x,i).(2x + 2),x,2)) mod 9)
1: ((x2 * loop(\(x,i).x3,2,x)) mod 13)
1: ((3 * loop(\(x,i).2x,x,2)) mod (x + 1))
1: ((3 * loop(\(x,i).2x,x,loop(\(x,i).(1 + (x * i)),4,2))) mod (x + 1))
1: ((2 * loop(\(x,i).x2,1,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))) mod 7)
1: ((x * loop(\(x,i).(x2 div 3),2,x)) mod 3)
1: ((3 * loop(\(x,i).(x2 div (2 + (x mod 2))),2,(x + 1))) mod (x + 1))
1: ((2 * loop(\(x,i).(x div (2 - (x mod 2))),x,x)) mod (x + 1))
1: (2x mod (5 + (x div 2)))
1: (2x mod (3 + (x div 2) - (x mod 2)))
1: (2x mod ((x + 1) + (2 * ((if (~2 + (x div 2)) <= 0 then 2 else 1) + (x mod 2)))))
1: (2x mod (4 + ((x + (x div 3)) div 3)))
1: (2x mod (3 + ((x + ((x div 2) mod 2)) div 2)))
1: (2x mod (2 + ((x div 2) + (x mod 3))))
1: (2x mod (4 + (x div 8)))
1: (2x mod (4 + ((x + 1) mod 4)))
1: (2x mod (4 + (x2 mod 3)))
1: (2x mod (1 + (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) + ((x div ~2) mod 2))))
1: (2x mod (4 - ((x div 2) div 3)))
1: (2x mod (2 + (x div 2) - (x mod 2)))
1: (2x mod (2 + (if (x + ~2) <= 0 then 1 else 2) - (x div ~4)))
1: (2x mod (1 + (3 * (2 - (x mod 2)))))
1: (2x mod (1 + (2 * (2 - (x mod ~7)))))
1: (2x mod (1 + (2 * ((x div 2) - (x div 3)))))
1: (2x mod 25)
1: (2x mod (1 + (2 * ((5x mod (1 + (x div 2))) div 2))))
1: (2x mod (1 + (2 * (2x mod (1 + (2 * ((1 + (x div 4)) div 2)))))))
1: (2x mod (3 + (x * ((x div 2) mod 2))))
1: (2x mod (1 + (2 * ((if x <= 0 then 1 else x2) mod 9))))
1: (2x mod (1 + (2 * (x mod 3))))
1: (2x mod (1 + (2 * i)))
1: (2x mod (3 + ((x + 2) div 3)))
1: (2x mod (2 + (4x div (x + 2))))
1: (2x mod (1 + ((x * (x mod 2)) div 4)))
1: (2x mod (1 + (((x + 1) div 2) div 2)))
1: (2x mod (2 + ((x div 2) div 3)))
1: (2x mod (1 + (((x2 + ~2x) mod (x + 4)) div 3)))
1: (2x mod (1 + (((x2 div 2) mod (x + 1)) div 2)))
1: (2x mod (1 + ((x mod 5) div 2)))
1: (2x mod (2 + ((x mod (1 + ((~x + 2) mod 4))) div 2)))
1: (2x mod (1 + (x div (1 + (2 * (2 + (x mod 2)))))))
1: (2x mod (2 + (x div (2 + (x mod 2)))))
1: (2x mod (2 + ((x + (x2 div 3)) mod 3)))
1: (2x mod (1 + (((x div 3) + (x div 2)) mod 4)))
1: (2x mod (2 + ((x + 1) mod 5)))
1: (2x mod (2 + ((x + 1) mod 8)))
1: (2x mod (1 + ((~x + 2) mod (2 - (x mod ~4)))))
1: (2x mod (1 + ((x + ~1) mod 4)))
1: (2x mod (3 + ((x + ~1) mod 4)))
1: (2x mod (1 + ((2x + ~2) mod (1 + (x div 2)))))
1: (2x mod (1 + ((2x + ~2) mod (2 + (x div 2)))))
1: (2x mod (1 + (2x mod (1 + (x div 3)))))
1: (2x mod (1 + (x2 mod (3 + (x div 4)))))
1: (2x mod (2 + ((x div 2) mod 3)))
1: (2x mod (1 + ((x div 2) mod 5)))
1: (2x mod (1 + ((x div 2) mod (1 + (x div (2 * (2 - (x mod 2))))))))
1: (2x mod (1 + ((x div 2) mod (1 + ((x + ~1) mod 4)))))
1: (2x mod (2 + ((x div 4) mod 2)))
1: (2x mod (2 + (x mod 2)))
1: (2x mod (1 + (x mod 9)))
1: (2x mod (2 + (x mod (1 + (2 * ((~x + 1) mod 3))))))
1: (2x mod (1 + (x mod (~1 + (2 * ((x + ~1) div 3))))))
1: (2x mod (1 + (if (x mod 2) <= 0 then (x + ~4) else 0)))
1: (2x mod (1 + (if (x mod 2) <= 0 then 12 else 0)))
1: (2x mod (1 + (if (x mod 4) <= 0 then 0 else 2)))
1: (2x mod (1 + compr(\x.(((((1 - (2 * ((x mod (1 + (((x + 1) div 2) div 2))) mod 2))) * (1 + (x div 2))) div 2) mod 2) - (x mod 2)),x)))
1: (2x mod (~2 - (x div 4)))
1: (2x mod ~7)
1: (2x mod ~15)
1: (2x mod (1 - (2 * ((~x + 1) div 7))))
1: (2x mod (1 - (x div (~2 + (x mod ~4)))))
1: (2x mod (1 - (x mod ~7)))
1: (2x mod (2 - ((~x + (x * (x mod 2))) div 3)))
1: (2x mod (2 - (x div (~1 - (if (x + ~4) <= 0 then 0 else 2)))))
1: (2x mod (2 - (x mod (~1 - (x div 5)))))
1: (2x mod (2 - (x mod ~4)))
1: (2x mod (~2 - (x div 3)))
1: (2x mod (~5 + (x mod 2)))
1: (2x mod (~3x + 11))
1: (2x mod (~2x2 + 4x + ~1))
1: (2x mod (~1 + (2 * ((1 + (x div 2)) div 2))))
1: (2x mod (~1 + (3 * (x div 2))))
1: (2x mod (~1 + (2 * (((1 + (x div 2)) div 2) mod 4))))
1: (2x mod (~1 + (9 * (x mod 5))))
1: (2x mod (~1 + (2 * (x mod 7))))
1: (2x mod (~1 + ((~x + 1) div 3)))
1: (2x mod ((x div 2) - (if ((x div 3) mod 2) <= 0 then 2 else 0)))
1: (2x mod (~1 + (x div ~4)))
1: (2x mod ((x + 1) - (2 * (x div 3))))
1: (2x mod (x - ((x + 1) mod (3 - (x mod 2)))))
1: (2x mod (x - ((x + ~1) mod (3 + (x div 2)))))
1: (2x mod (x - loop(\(x,i).(x - (if x <= 0 then 1 else (11 * i))),2,(x + 1))))
1: (2x mod (3 * (1 + (8 * (x mod 2)))))
1: (2x mod ((2x + 4) div 3))
1: (2x mod (if (~x + 2) <= 0 then (x div 2) else 1))
1: (2x mod loop(\(x,i).((x + 1) + (((1 - (((x mod 2) - (x div 2)) div 2)) div 2) mod 2)),x,1))
1: (2x mod loop(\(x,i).(x + (if (~x + i) <= 0 then 0 else i)),x,1))
1: (x2 mod (6 - (x mod (1 + ((x + ~1) mod 9)))))
1: (x2 mod ((x + 4) - (x div 4)))
1: (x2 mod (9 + (x mod 2)))
1: (x2 mod (x + 9))
1: (x2 mod ((x + 1) + (3 * ((x mod (1 + ((~x + 2) mod 4))) div 2))))
1: (x2 mod ((x + 1) + (2 * (x div 4))))
1: (x2 mod (3 + ((x div 2) div 3)))
1: (x2 mod ((x + 3) + ((x div 2) div 3)))
1: (x2 mod (3 + ((x mod 5) div 2)))
1: (x2 mod ((2x + 1) + (x div 2)))
1: (x2 mod ((x + 2) + (x div 2)))
1: (x2 mod ((x + 2) + (x div 3)))
1: (x2 mod (4 + (x div 4)))
1: (x2 mod ((x + 1) + (x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2)))))))))
1: (x2 mod ((x + 1) + ((x mod (2 - (x div (1 + ((x div 2) mod 2))))) mod 2)))
1: (x2 mod (2 + ((x mod 2) + (x mod 3))))
1: (x2 mod (3 + (x mod 6)))
1: (x2 mod ((x + 1) + (if (~4 + (x div 2)) <= 0 then x else 1)))
1: (x2 mod ((x + 1) - (x div ((if (x mod 2) <= 0 then 1 else x) mod 4))))
1: (x2 mod (3 - ((x div 2) mod (2 + (x mod 2)))))
1: (x2 mod ((2x + 1) - (x mod 3)))
1: (x2 mod (1 + ((1 + (2 * (x mod 4))) * ((x div 2) mod 2))))
1: (x2 mod (1 + (2 * (2 + (x div 2)))))
1: (x2 mod (1 + (2 * (2 + (x div 3)))))
1: (x2 mod (1 + (2 * (x + (x div 3)))))
1: (x2 mod (1 + (2 * (x + (x div 4)))))
1: (x2 mod (2 + ((1 + ((~x + 2) mod 4)) * (x div 4))))
1: (x2 mod (1 + (2 * (1 + (((x * (x div 2)) div (x + 4)) mod 2)))))
1: (x2 mod (1 + (3 * (1 + (x mod 2)))))
1: (x2 mod (1 + (2 * (2 + (x mod 2)))))
1: (x2 mod (x + ((x + 2) * (2 + (x mod 2)))))
1: (x2 mod (1 + (2 * (1 + (x mod 4)))))
1: (x2 mod ((3x + 3) + (x div 2)))
1: (x2 mod (1 + (3 * (2 - ((x div 2) mod 2)))))
1: (x2 mod (~3x + 7))
1: (x2 mod (1 + (9 * ((x + 1) - (x mod 10)))))
1: (x2 mod (9x + 1))
1: (x2 mod 25)
1: (x2 mod 41)
1: (x2 mod 37)
1: (x2 mod (x + 36))
1: (x2 mod 21)
1: (x2 mod (1 + (4 * (2 + (x mod 2)))))
1: (x2 mod 33)
1: (x2 mod (1 + (4x * (x mod 2))))
1: (x2 mod (2 + (3x * (x mod 2))))
1: (x2 mod (~x3 + x2 + 1))
1: (x2 mod (1 + (3 * ((x + 1) div 2))))
1: (x2 mod (1 + (2 * (3x div 5))))
1: (x2 mod (1 + (3 * (x div 2))))
1: (x2 mod (1 + (2 * (x div 4))))
1: (x2 mod (1 + (2 * (x div (2 + (x mod 2))))))
1: (x2 mod (1 + (2 * ((x + 1) mod (1 + (x div 5))))))
1: (x2 mod (1 + (2 * ((4x + ~1) mod (1 + (2x mod (2 + (x div 4))))))))
1: (x2 mod (1 + (2 * ((x + ~1) mod ~4))))
1: (x2 mod (1 + (2 * (x mod 4))))
1: (x2 mod (1 + ((1 + (x div 2)) div 3)))
1: (x2 mod (1 + ((x + (x div 2)) div 2)))
1: (x2 mod (1 + ((x + 1) div 3)))
1: (x2 mod (1 + ((x + 1) div 5)))
1: (x2 mod (1 + ((2 * (1 + (((((1 + (x mod 8)) mod (x + 1)) * (1 + (x div 2))) div 2) div 2))) div 3)))
1: (x2 mod (1 + (8x div 3)))
1: (x2 mod (2 + (2x div 3)))
1: (x2 mod (2 + (((x + 1) div 2) div 2)))
1: (x2 mod (1 + (((x + 1) div 2) div 3)))
1: (x2 mod (2 + ((x div 2) div 3)))
1: (x2 mod (1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))
1: (x2 mod (1 + (x div 4)))
1: (x2 mod (2 + (x div (2 + (x mod 2)))))
1: (x2 mod (1 + (x div (1 + (x mod 4)))))
1: (x2 mod (1 + ((x + 5) mod (1 + (x div 2)))))
1: (x2 mod (2 + ((x + 2) mod 5)))
1: (x2 mod (1 + ((x + ~1) mod 4)))
1: (x2 mod (1 + ((x + ~1) mod 5)))
1: (x2 mod (2 + (8 mod (x + 1))))
1: (x2 mod (1 + ((x2 + ~x) mod (x + 4))))
1: (x2 mod (1 + ((x2 + ~x) mod 10)))
1: (x2 mod (1 + ((2 * (2x div 3)) mod 3)))
1: (x2 mod (1 + ((x * (x mod 4)) mod 15)))
1: (x2 mod (1 + (2x mod 17)))
1: (x2 mod (2 + ((x2 div 2) mod (x + 1))))
1: (x2 mod (2 + (x mod 2)))
1: (x2 mod (1 + (x mod 4)))
1: (x2 mod (1 + (x mod (4 + (x div 2)))))
1: (x2 mod (1 + (x mod (1 + (2 * ((x + 1) mod 4))))))
1: (x2 mod (2 + (x mod 8)))
1: (x2 mod (1 + (x mod (2 * (1 + (((x + 1) div 2) div 2))))))
1: (x2 mod (2 + (if (x mod 2) <= 0 then (x div 2) else 1)))
1: (x2 mod (1 + (if (x mod 4) <= 0 then x else 2)))
1: (x2 mod (1 + loop(\(x,i).(x2 + x),2,2)))
1: (x2 mod (1 + i))
1: (x2 mod (2 + i))
1: (x2 mod (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: (x2 mod (~2 - (x div 4)))
1: (x2 mod (~x + ~15))
1: (x2 mod ~11)
1: (x2 mod (1 - (3 * (x mod 9))))
1: (x2 mod (~2x + 1))
1: (x2 mod (1 - (x div ~4)))
1: (x2 mod (1 - (x div (~1 + (2 * (x mod ~2))))))
1: (x2 mod (1 - (if ((x div 2) mod 2) <= 0 then (x div 2) else 0)))
1: (x2 mod ((~x + 2) + (2 * ((x div 2) mod 2))))
1: (x2 mod ~10)
1: (x2 mod ((x + ~1) + (9 * (x + (x mod 10)))))
1: (x2 mod ((x + ~2) + (2x div 3)))
1: (x2 mod ((x + ~2) + (x div 2)))
1: (x2 mod (~3x + 2))
1: (x2 mod ((x + ~1) - (x div ~7)))
1: (x2 mod (~1 + (2 * (x + (3 * (x div 2))))))
1: (x2 mod (~3x + 5))
1: (x2 mod (3x + ~8))
1: (x2 mod (x2 + ~2x + 20))
1: (x2 mod 29)
1: (x2 mod 23)
1: (x2 mod 39)
1: (x2 mod 35)
1: (x2 mod (11x + 12))
1: (x2 mod (~1 + (6 * (1 + (((x + (x div 8)) mod 5) div 2)))))
1: (x2 mod (4x + 7))
1: (x2 mod 31)
1: (x2 mod 47)
1: (x2 mod (~1 + (4 * (2x div 3))))
1: (x2 mod (~1 + (6 * (if (~2 + (x div 3)) <= 0 then 0 else 2))))
1: (x2 mod (~1 + (2 * ((x + ~1) div 2))))
1: (x2 mod (~1 + (2 * ((x + ~2) div 3))))
1: (x2 mod (~1 + (2 * ((x div 2) div 3))))
1: (x2 mod (~1 + (2 * (x div 2))))
1: (x2 mod (~1 + (2 * (x div 5))))
1: (x2 mod (~1 + (2 * (((x + 1) div 2) mod 5))))
1: (x2 mod (~1 + (2 * (x mod 4))))
1: (x2 mod (x2 + ~x + 10))
1: (x2 mod (~1 + ((~x + 2) div 3)))
1: (x2 mod (~1 + ((~x + (x mod 3)) div 2)))
1: (x2 mod ((x + ~3) - (x mod 2)))
1: (x2 mod ((x + ~1) + (x mod 5)))
1: (x2 mod ((x + 1) - ((~2x + 1) div (4 + (x div 4)))))
1: (x2 mod ((x + 1) - (x mod 3)))
1: (x2 mod (x + 14))
1: (x2 mod (x + 60))
1: (x2 mod (x - ((x + ~1) div 5)))
1: (x2 mod (x - ((x + 1) mod 6)))
1: (x2 mod (x - ((x + ~1) mod 8)))
1: (x2 mod (5x + 10))
1: (x2 mod (7 * (1 + (x div 2))))
1: (x2 mod 27)
1: (x2 mod 45)
1: (x2 mod (2x + 16))
1: (x2 mod 26)
1: (x2 mod 34)
1: (x2 mod 99)
1: (x2 mod (3 * (1 + (x div 2))))
1: (x2 mod (2 * (2 + (x div 4))))
1: (x2 mod (2 * (1 + (x div 5))))
1: (x2 mod (2 * (1 + (((x + ~1) div 2) mod 4))))
1: (x2 mod ~12)
1: (x2 mod 22)
1: (x2 mod 46)
1: (x2 mod 18)
1: (x2 mod 30)
1: (x2 mod 24)
1: (x2 mod 40)
1: (x2 mod 36)
1: (x2 mod 60)
1: (x2 mod 28)
1: (x2 mod (6 * (1 + (x div 8))))
1: (x2 mod (4 * (2 + (x mod 2))))
1: (x2 mod (9x + 9))
1: (x2 mod 44)
1: (x2 mod 32)
1: (x2 mod 48)
1: (x2 mod (4 * (if (~2 + (x div 2)) <= 0 then 1 else 4)))
1: (x2 mod (3 * (if (x + ~6) <= 0 then 1 else 2)))
1: (x2 mod loop(\(x,i).(x2 + 2x + 1),2,2))
1: (x2 mod loop(\(x,i).(x2 + 2),2,2))
1: (x2 mod loop(\(x,i).(x2 + x),2,2))
1: ((2 * i) mod 3)
1: ((x * i) mod 3)
1: ((x * i) mod 4)
1: ((x * i) mod 7)
1: ((2 * compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 3)
1: ((1 div (~x + (4 * (4 - (x mod 2))))) mod 4)
1: ((2 div (1 + (x div 5))) mod 2)
1: ((2 div (1 + ((x2 + 2) mod (1 + (x div 2))))) mod 2)
1: ((2 div ((x + ~2) + (x div 2))) mod 2)
1: ((2 div (8 - (x div 2))) mod 2)
1: ((2 div (2x + ~5)) mod (2x + 2))
1: ((2 div (~2 + ((3 * (x div 2)) div 2))) mod 2)
1: ((2 div (~1 + ((~2x + 2) mod (4 + (x div 4))))) mod 3)
1: ((2 div (~2 + (if (x mod 4) <= 0 then x else 0))) mod 2)
1: ((2 div (if (x mod 3) <= 0 then 2 else x)) mod 2)
1: ((2 div (if x <= 0 then 2 else x)) mod 2)
1: ((((2x + 1) + (2 * ((x + 1) + (((3 * ((2x + 1) + (2 * ((3 * (x + ((x div 2) div 5))) div 2)))) div 2) div 2)))) div 3) mod 3)
1: (((1 + ((x * (x div 2)) + (x div 3))) div 2) mod 2)
1: ((((x + 1) + (6 div (if x <= 0 then 1 else x))) div 2) mod 2)
1: (((1 + (((2 * (1 + ((1 + ((x + 1) div (1 + ((6x + 1) mod (4 + (x div 4)))))) div 2))) div 3) + (x mod 2))) div 2) mod 4)
1: (((1 + ((x2 div 2) + (x div 4))) div 2) mod 2)
1: ((((x + 1) + (x div 2)) div 2) mod 4)
1: ((((x + 1) + (x div 2)) div (1 + (x div 5))) mod 2)
1: ((((x + 1) + (x div 8)) div 2) mod 2)
1: ((((x + 2) + ((x div 2) mod 2)) div 3) mod 4)
1: (((x + 3) div (1 + (4 mod (x + 1)))) mod 2)
1: (((2 + (x div 2) - ((if (x mod 2) <= 0 then 1 else x) mod 4)) div 3) mod 2)
1: (((~x + 3) div 3) mod (x + 1))
1: (((~x + 3) div (1 + ((2 + (x div 2)) div 3))) mod 2)
1: (((~x + 3) div (1 + ((x + 2) mod 4))) mod 2)
1: (((~x + 4) div (2 + (x mod 4))) mod 2)
1: (((3x + 2) div (1 + (x div 3))) mod 2)
1: (((5x + 4) div (1 + (x div 2))) mod 3)
1: (((2x2 + x + 1) div 7) mod 2)
1: (((2 + ((x + (x div 2)) * (x div 2))) div (x + 2)) mod 2)
1: (((2 + (x * (x + (x div 2)))) div (x + 1)) mod 2)
1: (((2 + (x * (1 + (x div 3)))) div 3) mod 2)
1: (((1 + (x * (2 + (loop(\(x,i).(1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),2,x) mod (x + 1))))) div (x + 1)) mod 3)
1: (((1 + (x * (2 + (x mod 4)))) div (x + 4)) mod 2)
1: (((x2 + x + 1) div ((x + 1) + (x div 3))) mod 2)
1: (((x2 + x + 1) div (if x <= 0 then 1 else (2 + (x div 2)))) mod 2)
1: (((1 + (x2 * (2 - (x div 2)))) div (x + 2)) mod 2)
1: (((~3x + 7) div (1 + ((x + 1) div 2))) mod 2)
1: (((x2 + ~2x + 2) div (1 + (x div 5))) mod 2)
1: (((x + (24 * (1 + (x div 2)))) div (x + 1)) mod 3)
1: (((8x + 1) div (1 + (x div 2))) mod 2)
1: (((2x2 + 1) div 3) mod (x + 2))
1: (((3x2 + 1) div (x + 3)) mod 2)
1: (((3x2 + x) div 2) mod 9)
1: (((x3 + 2) div (1 + (x div 2))) mod 3)
1: (((x3 + 2) div (2 + (x div 2))) mod 2)
1: (((x3 + 2) div (2x + ~1)) mod (x2 + 1))
1: (((1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div (2 - ((x div 2) mod 2)))))) div 2) mod 4)
1: (((2 + (x * (x div 2))) div 3) mod 3)
1: (((2 + (x * (x div 2))) div 5) mod 2)
1: (((x + (2 * (x div 3))) div 3) mod 2)
1: (((x2 + ((x + ~2) * (x div 3))) div 3) mod 2)
1: (((x + ((x + ~2) * (x div 3))) div 2) mod 5)
1: (((2 + (x * (x div 4))) div 3) mod 2)
1: (((2 + (x * (x div (2 + (x mod 2))))) div (x + 1)) mod 2)
1: (((x + ((x mod 3) * (x div 2))) div 2) mod 2)
1: (((1 + ((x + 1) * (if x <= 0 then 1 else (x div 4)))) div 2) mod 2)
1: (((1 + (loop(\(x,i).7x,x,1) * (1 + (x div 5)))) div 3) mod 3)
1: (((2x + 1) div 3) mod 3)
1: (((2x + 1) div 5) mod 3)
1: (((2x + 1) div (2 + ((x * (x div 3)) mod (1 + ((2 - (x div 2)) mod 4))) - (x mod 2))) mod (x + 1))
1: (((2x + 1) div (3 + (x div 4))) mod 3)
1: (((2x + 1) div 9) mod 3)
1: (((2x + 1) div (1 + (2 * (x mod 2)))) mod (1 + (x div 5)))
1: (((2x + 1) div (2 + (3 mod (x + 1)))) mod 2)
1: (((2x + 1) div (1 + (4 mod (x + 1)))) mod 2)
1: (((2x + 1) div (~1 + (4 * (x div 3)))) mod 2)
1: (((x2 + 1) div 2) mod (x + 1))
1: (((x2 + 1) div (1 + ((x + 1) div 2))) mod 2)
1: (((x2 + 1) div (1 + ((x div 2) div 3))) mod 2)
1: (((x2 + 1) div (1 + (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))) mod 3)
1: (((x2 + 1) div (2x + ~1)) mod 2)
1: (((x2 + 2) div (2 + (x mod 4))) mod 2)
1: (((x2 + 2) div (x + 2)) mod 2)
1: (((x2 + 2) div (x + 2)) mod (2 + (x div 2)))
1: (((x2 + 2) div (4 - (x div ~2))) mod 2)
1: (((x2 + 3) div (1 + (x div 3))) mod 2)
1: (((x2 + (x div 2)) div 2) mod (1 + (x div 2)))
1: (((x2 + (x div 2)) div 2) mod (2 + (x div 2)))
1: (((1 + ((x + (3 * (x2 div 3))) div 2)) div 2) mod 2)
1: (((1 + ((1 + ((x * (1 + (((x + 1) div 2) div 2))) div 2)) div 2)) div 2) mod 3)
1: (((x + ((x + loop(\(x,i).((~x + 2) + (3 * ((2 + (x div 2)) div 3))),2,x)) div 2)) div 3) mod 2)
1: (((((x + 1) div 2) + (x mod 3)) div 2) mod 2)
1: (((2 + ((x + 1) div (1 + (if (x mod (2 + (x mod 4))) <= 0 then 2 else 1)))) div 3) mod 3)
1: (((((x + 2) div 3) + (x div 5)) div 2) mod 2)
1: (((2 + ((5 * (x + ((x + (x div 8)) div 2))) div 2)) div 2) mod 2)
1: (((1 + ((x2 + 2x) div 2)) div 5) mod 2)
1: (((1 + ((2 * (2 + compr(\x.(loop(\(x,i).((x + 2) * loop(\(x,i).x2,2,(x + 2))),2,1) mod (x + 1)),x))) div 3)) div 2) mod 8)
1: (((1 + (((x + 1) * (1 - ((32 mod (x + 1)) div 2))) div 2)) div 2) mod 3)
1: (((1 + ((~x2 + x) div 2)) div 2) mod (1 + (x div 3)))
1: (((1 + ((x * ((3x + ~1) - (2x mod (2 + (x div 4))))) div 2)) div 2) mod 2)
1: (((x + (4x div (x + 4))) div 2) mod 2)
1: (((1 + (((x + 2) * (2x div 3)) div 2)) div 2) mod 2)
1: (((1 + (x2 div 2)) div 5) mod 2)
1: (((x + (x2 div 3)) div 2) mod 3)
1: (((4x + (x2 div 4)) div (x + 2)) mod 4)
1: (((x + (x2 div (2 + (x div 2)))) div 2) mod (x + 1))
1: (((x + (x2 div ((~x + 1) + (x mod 4)))) div 2) mod 2)
1: (((1 + (x2 div (2 * (2 - (x mod 2))))) div 2) mod 4)
1: (((1 + (((1 + ((x * ((x + 2) + ((2 * loop(\(x,i).(x div (2 - (x mod 2))),x,x)) mod (x + 1)))) div 2)) div 2) div 2)) div 2) mod 3)
1: (((1 + (((1 + ((((x + 1) * (~1 + loop(\(x,i).(8x + 4),(x + 1),0))) div 2) div 2)) div 2) div 2)) div 2) mod 3)
1: (((1 + (((1 + ((loop(\(x,i).2x,x,(loop(\(x,i).((x2 + ~x) div 2),2,(x + 1)) div 3)) div 2) div 2)) div 2) div 2)) div 2) mod 3)
1: (((1 + (((x + 2) div (1 + (x mod 3))) div 2)) div 2) mod 2)
1: (((x + (((x + ~1) div 2) div 2)) div 2) mod 3)
1: (((1 + (((3 * ((2x + 1) + (2 * (((2x + 1) + (2 * ((8x + 1) div (1 + (if x <= 0 then 0 else 2))))) div 3)))) div 2) div 2)) div 2) mod 2)
1: (((1 + ((((x + 1) * (2 + ((if (x mod 2) <= 0 then (x + 3) else x) mod (x + 1)))) div 2) div 2)) div 2) mod 3)
1: (((1 + (((3 * (1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x))) div 2) div 2)) div 2) mod 4)
1: (((x + ((((2x + ~2) mod (2 + (x div 2))) div 2) div 2)) div 2) mod 2)
1: (((1 + ((loop(\(x,i).2x,(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x - ((if x <= 0 then 2 else loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 2)))),x,(x + 1))),1) div 2) div 3)) div 2) mod 3)
1: (((1 + ((x div 2) div 3)) div (1 + (x mod 4))) mod 2)
1: (((x + ((x div 2) div 7)) div 2) mod 2)
1: (((1 + ((if x <= 0 then 1 else (3 * ((x + 1) + (x div 8)))) div 2)) div 2) mod 2)
1: (((1 + (loop(\(x,i).2x,x,(if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + ((loop(\(x,i).(2x2 + ~x),1,loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1)) div 2) div 2)) div 2)) div 2))))) div 2)) div 2) mod 3)
1: (((1 + (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) div (if x <= 0 then 2 else (1 + (x mod 8))))) div 2) mod 3)
1: (((1 + (x div 2)) div (1 + (2 * (x mod 6)))) mod 2)
1: (((1 + (x div 2)) div (2 + ((x + 1) mod (2 + (x mod 2))))) mod 3)
1: (((1 + (x div 2)) div (2 + ((x div 2) mod 2))) mod 2)
1: (((1 + (x div 2)) div (2 + (x mod 2))) mod 2)
1: (((1 + (x div 2)) div (2 + (x mod 3))) mod 2)
1: (((1 + (x div 2)) div (1 + (if x <= 0 then 0 else 2))) mod 2)
1: (((1 + (x div 2)) div (~4 + (if (x mod 2) <= 0 then 1 else x))) mod 2)
1: (((1 + (x div 2)) div (x - ((x + 1) mod 6))) mod 2)
1: (((1 + (x div 2)) div (if (x mod 4) <= 0 then 2 else x)) mod 2)
1: (((2 + (x div 2)) div (1 + ((~x + 1) mod 3))) mod 2)
1: (((2 + (x div 2)) div (1 + (((x + 1) div 2) mod 3))) mod 2)
1: (((2 + (x div 2)) div (2 + (if (x mod 2) <= 0 then x else 2))) mod 2)
1: (((2 + (x div 2)) div (2 - ((x mod 3) mod 2))) mod 2)
1: (((2 + (x div 2)) div (if (x mod 3) <= 0 then 2 else 1)) mod 2)
1: (((x + (x div 2)) div 2) mod 4)
1: (((x + (x div 2)) div (4 + (x div 2))) mod 2)
1: (((x + (x div 2)) div ~2) mod 2)
1: (((x + (x div 2)) div (~2 + (x mod ~4))) mod 2)
1: (((1 + (x div 3)) div (1 + (2 * (x mod 4)))) mod 2)
1: (((1 + (x div 3)) div (1 + (x mod (2 - (x mod ~3))))) mod 2)
1: (((1 + (x div 3)) div (2 + (x mod (2 - (x mod ~4))))) mod 3)
1: (((x2 + (x div 3)) div 7) mod 2)
1: (((1 + (x div 4)) div 2) mod 2)
1: (((1 + (x div 4)) div (1 + (x2 mod 5))) mod 2)
1: (((2 + (x div 4)) div (2 - (x mod 2))) mod 2)
1: (((x + (x div 4)) div 3) mod 2)
1: (((x + (x div 4)) div 3) mod 3)
1: (((x + (x div 4)) div ~2) mod 2)
1: (((1 + (x div 5)) div (1 + ((x + ~1) mod 3))) mod 3)
1: (((1 + (x div (3 - (x mod 2)))) div 3) mod 2)
1: (((2 + (x div (1 + ((x + ~1) mod (2 + (x div 4)))))) div 2) mod 2)
1: (((x + (x div (2 - (x mod ~4)))) div 2) mod 2)
1: (((x + (x div 8)) div 2) mod 2)
1: (((x + ((x + 3) mod 8)) div 3) mod 2)
1: (((x + ((3 + ((x div 3) mod 2)) mod (x + 1))) div 2) mod 2)
1: (((x + ((x + 1) mod 3)) div 2) mod 5)
1: (((1 + ((x + 1) mod ~7)) div (x + 1)) mod 2)
1: (((2 + ((x + 2) mod (2 * (2 + ((x div 4) mod 2))))) div 3) mod 2)
1: (((((~x + 1) mod 3) + ((x div 2) div 3)) div 2) mod 2)
1: (((x + ((~x + 1) mod 3)) div 4) mod 2)
1: (((2 + ((~1 + ((x div 2) mod 3)) mod (x + 1))) div 3) mod 3)
1: (((((x + ~2) mod (2 + (x div 3))) + (x div 2)) div 2) mod 2)
1: (((2 + ((5 * (1 + (x mod 3))) mod (x + 1))) div 2) mod 3)
1: (((1 + (((x + 1) * (2 - ((x div 2) mod 2))) mod 9)) div 2) mod 3)
1: (((2 + ((~4x + ~4) mod 17)) div 3) mod 2)
1: (((1 + (2x mod (3 - (x div ~4)))) div 2) mod 3)
1: (((1 + (((x + 2) div (1 + (2 * (x mod 2)))) mod 4)) div 2) mod (x + 1))
1: (((x + ((2x div (1 + (x div 4))) mod 3)) div 2) mod 2)
1: (((1 + (loop(\(x,i).2x,x,1) mod (x + 1))) div 2) mod 4)
1: (((1 + (x mod 4)) div (1 + (x div 4))) mod 2)
1: (((x + (x mod (1 + (x div 3)))) div 3) mod 2)
1: (((1 + (x mod ~9)) div (x + 1)) mod 2)
1: (((1 + (if (1 - (x mod (1 + ((x + ~1) mod 7)))) <= 0 then x else 0)) div 2) mod 4)
1: (((x + (if (~x + 8) <= 0 then x else 2)) div 3) mod 2)
1: (((x + (if ((x div 2) mod (1 + (2 * (x mod 2)))) <= 0 then 2 else 0)) div 2) mod 2)
1: (((x + (if (x mod 2) <= 0 then x else 1)) div 3) mod 3)
1: (((x + (if (x mod 3) <= 0 then 7 else (x div 2))) div 3) mod 3)
1: (((x + (if (x mod 3) <= 0 then x else 1)) div 3) mod 3)
1: (((1 + (if x <= 0 then 1 else x)) div (~1 + (2 * (x div 3)))) mod 2)
1: (((1 + loop(\(x,i).8x,(x div 2),(1 + (2 * (x mod 2))))) div 3) mod 9)
1: (((2 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 3) mod 5)
1: (((2 + loop(\(x,i).(x div (~2 + (x mod 2))),x,x)) div 2) mod 2)
1: (((x + 1) div 2) mod (3 + (x mod 3)))
1: (((x + 1) div 2) mod 7)
1: (((x + 1) div 2) mod (1 + (2 * ((x div 5) mod 3))))
1: (((x + 1) div 2) mod (1 + (x div 8)))
1: (((x + 1) div 2) mod (1 + (((~x + 2) + (x div 5)) mod 3)))
1: (((x + 1) div 2) mod (2 + ((x div 2) mod 2)))
1: (((x + 1) div 2) mod (1 + ((x div 2) mod (2 + ((x + ~1) mod 3)))))
1: (((x + 1) div 2) mod (1 + (if (x mod 2) <= 0 then x else 1)))
1: (((x + 1) div 5) mod 3)
1: (((x + 1) div (1 + ((x div 5) + (x mod 2)))) mod 2)
1: (((x + 1) div (3 + (2 mod (1 + (x div 2))))) mod 2)
1: (((x + 1) div 7) mod 2)
1: (((x + 1) div (1 + (2 * ((1 + (x div 4)) div 2)))) mod 2)
1: (((x + 1) div (1 + (2 * (((~x + 2) mod (2 + (x div 4))) div 2)))) mod 2)
1: (((x + 1) div (1 + (2 * (x div (1 + ((x div 2) mod 3)))))) mod 2)
1: (((x + 1) div (1 + (3 * ((~x + 1) mod 5)))) mod 5)
1: (((x + 1) div (1 + (2 * (((~x + 2) mod (3 + (x div 3))) mod 2)))) mod 2)
1: (((x + 1) div (1 + (3 * (x mod 3)))) mod 2)
1: (((x + 1) div (1 + (3 * (x mod 5)))) mod 2)
1: (((x + 1) div (1 + (2 * (x mod (3 * (1 + (x mod 4))))))) mod 2)
1: (((x + 1) div (2 + (2 * (if (~2 + (x div 3)) <= 0 then 1 else 2)))) mod 2)
1: (((x + 1) div (1 + (2 * (if x <= 0 then 0 else 2)))) mod 2)
1: (((x + 1) div (1 + ((1 + (x div (2 + (x mod 2)))) div 2))) mod 2)
1: (((x + 1) div (1 + (x div (3 + (x mod 2))))) mod 2)
1: (((x + 1) div (1 + (x div 7))) mod 2)
1: (((x + 1) div (2 + (x div 8))) mod 2)
1: (((x + 1) div (2 + (x div 8))) mod 3)
1: (((x + 1) div (2 + (2 mod (1 + (x mod 5))))) mod 2)
1: (((x + 1) div (1 + ((2x + 1) mod 9))) mod 2)
1: (((x + 1) div (1 + ((x + 1) mod 4))) mod 2)
1: (((x + 1) div (2 + ((x + 2) mod 4))) mod 2)
1: (((x + 1) div (1 + ((~x + 2) mod 4))) mod 2)
1: (((x + 1) div (2 + ((~x + 2) mod 8))) mod 2)
1: (((x + 1) div (1 + ((2x + ~1) mod 9))) mod 2)
1: (((x + 1) div (1 + ((x + ~1) mod 4))) mod 2)
1: (((x + 1) div (1 + ((x + ~2) mod (2 + (x div 2))))) mod 2)
1: (((x + 1) div (1 + (3x mod (x + 3)))) mod 2)
1: (((x + 1) div (1 + ((2 * (x div 2)) mod 3))) mod 2)
1: (((x + 1) div (2 + ((x * (x div 2)) mod 2))) mod 3)
1: (((x + 1) div (1 + (2x mod 3))) mod 2)
1: (((x + 1) div (2 + (x2 mod (~1 + (2 * (x div 2)))))) mod 2)
1: (((x + 1) div (2 + ((x div 2) mod 2))) mod 3)
1: (((x + 1) div (2 + ((x div 2) mod 5))) mod 2)
1: (((x + 1) div (1 + ((x div 4) mod 2))) mod 2)
1: (((x + 1) div (2 + (x mod 4))) mod 2)
1: (((x + 1) div (1 + (x mod 5))) mod 2)
1: (((x + 1) div (2 + (x mod 5))) mod 2)
1: (((x + 1) div (1 + (x mod (x - ((x + 1) mod 4))))) mod 2)
1: (((x + 1) div (1 + (x mod 6))) mod 3)
1: (((x + 1) div (1 + (if (~x + 2) <= 0 then (x mod 4) else 0))) mod 2)
1: (((x + 1) div (2 + (if (~2 + (x div 4)) <= 0 then 1 else 2))) mod 2)
1: (((x + 1) div (1 - (((x mod 2) - (x div 2)) div 2))) mod 2)
1: (((x + 1) div ((~x + 2) + (x mod 3))) mod 2)
1: (((x + 1) div (~2 + (x * (x mod 2)) - (x div 4))) mod 2)
1: (((x + 1) div (~1 + (6 * (~1 + (x mod 4))))) mod 2)
1: (((x + 1) div (~1 + (((~x + 2) div 2) div 3))) mod 2)
1: (((x + 1) div ((x + ~2) - ((x + ~1) mod 3))) mod 2)
1: (((x + 1) div ((x + ~2) + (2x mod 5))) mod 2)
1: (((x + 1) div (if ((x + 1) mod 5) <= 0 then 4 else 1)) mod 3)
1: (((x + 1) div (if x <= 0 then 1 else (x - (2 * (x mod 6))))) mod 2)
1: (((x + 2) div 3) mod (1 + (((1 + ((if (x mod 2) <= 0 then 1 else x) * (x div 2))) div 2) div 2)))
1: (((x + 2) div (5 + ((x div 2) mod 2))) mod 2)
1: (((x + 2) div (3 + ((~x + 1) mod 4))) mod 2)
1: (((x + 2) div (4 + ((x + ~1) mod 5))) mod 3)
1: (((x + 2) div (2 + (((x div 2) mod 2) + (x mod 3)))) mod 2)
1: (((x + 2) div (3 - (x mod 2))) mod (2 + (x div 4)))
1: (((x + 2) div (1 + (2 * (x mod 2)))) mod 4)
1: (((x + 2) div (1 + (x div 3))) mod (x + 1))
1: (((x + 2) div (1 + ((x + ((x + 1) mod 3)) mod 4))) mod 2)
1: (((x + 2) div (1 + ((1 + (if x <= 0 then 1 else x)) mod 3))) mod 3)
1: (((x + 2) div (1 + ((x + 1) mod 3))) mod 2)
1: (((x + 2) div (1 + ((x + 2) mod 4))) mod 2)
1: (((x + 2) div (1 + ((1 - (x div 2)) mod 4))) mod 2)
1: (((x + 2) div (2 + ((~x + 1) mod 3))) mod 2)
1: (((x + 2) div (2 + (((~x + 2) div 2) mod 5))) mod 2)
1: (((x + 2) div (2 + (((x + ~2) div 3) mod 2))) mod 2)
1: (((x + 2) div (2 + (((x mod (1 + (x div 2))) div 2) mod 2))) mod 2)
1: (((x + 2) div (1 + ((if (x + ~2) <= 0 then 1 else x) mod 3))) mod 2)
1: (((x + 2) div (2 + (x mod 2))) mod 4)
1: (((x + 2) div (1 + (x mod 3))) mod 2)
1: (((x + 2) div (1 + (x mod 3))) mod 3)
1: (((x + 2) div (2 + (x mod 3))) mod 2)
1: (((x + 2) div (2 + (x mod 4))) mod 2)
1: (((x + 2) div (~2 - (x div 4))) mod 2)
1: (((x + 2) div ~7) mod 2)
1: (((x + 2) div (1 - (2 * (x mod 5)))) mod 2)
1: (((x + 2) div (2 - (x * (x mod 2)))) mod 3)
1: (((x + 2) div (2 - (x mod 2))) mod 8)
1: (((x + 2) div (~3 + (x div ~7))) mod 2)
1: (((x + 2) div (~1 + (2 * (x mod 4)))) mod 3)
1: (((x + 2) div (~6 + (if (x mod 2) <= 0 then 1 else x))) mod 2)
1: (((x + 2) div ((x + ~1) - (2 * (1 + ((x div 2) mod 2))))) mod 2)
1: (((x + 2) div ((x + ~1) - (x mod 3))) mod 2)
1: (((x + 2) div (x - (2 * (1 + ((x div 2) mod 2))))) mod 2)
1: (((x + 2) div (x - ((x + ~1) mod 4))) mod 2)
1: (((x + 2) div (if (if (x mod 3) <= 0 then x else 0) <= 0 then 2 else 1)) mod 2)
1: (((x + i) div (4 + (x div 4))) mod 2)
1: (((1 + compr(\x.(loop(\(x,i).(x2 + 2x),3,2) mod (x + 1)),x)) div 2) mod 3)
1: (((~x2 + ~x) div 5) mod (if x <= 0 then 1 else x))
1: (((~x2 + ~x + 1) div 11) mod 2)
1: (((~x2 + ~2x + 1) div (x + 16)) mod (x + 2))
1: (((1 - (x * (((x + 1) div 2) div 2))) div 5) mod 2)
1: (((~2x + 1) div (4 + (x div 4))) mod 3)
1: (((~x2 + 1) div (5x + 1)) mod 2)
1: (((~x2 + 1) div ((if x <= 0 then 1 else x) + (x div 2))) mod 2)
1: (((~x2 + 1) div (x - ((~x + 2) div 2))) mod (x + 1))
1: (((1 - (x2 div 4)) div (x + 1)) mod 2)
1: (((1 - (x div 2)) div 3) mod 3)
1: (((1 - (x div 2)) div 5) mod 2)
1: (((1 - (x div 2)) div (2 + (x mod 3))) mod 2)
1: (((1 - ((x + 1) mod (1 - (2 * (x div 3))))) div 2) mod 3)
1: (((1 - loop(\(x,i).(~1 + (x * (1 + i))),x,0)) div (x + 2)) mod 2)
1: (((1 - loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2) mod (x + 1))
1: (((~x + 1) div 2) mod 5)
1: (((~x + 1) div 2) mod (x + 2))
1: (((~x + 1) div 3) mod (x + 1))
1: (((~x + 1) div 5) mod 2)
1: (((~x + 1) div 5) mod (1 + ((~x + 2) mod 5)))
1: (((~x + 1) div 5) mod (x + 2))
1: (((~x + 1) div 9) mod 2)
1: (((~x + 1) div (2 + (((x + 1) div 2) div 3))) mod 2)
1: (((~x + 1) div (1 + ((x mod (1 + (x div 2))) div 2))) mod 2)
1: (((~x + 1) div (2 + (x div 4))) mod 2)
1: (((~x + 1) div ((x div 4) + (if x <= 0 then 1 else 2))) mod 2)
1: (((~x + 1) div (1 + ((1 - (x div 3)) mod 3))) mod 2)
1: (((~x + 1) div (1 + ((x div 2) mod 3))) mod 2)
1: (((~x + 1) div (1 + ((x div 2) mod 4))) mod 2)
1: (((~x + 1) div (2 + (if (~1 + (x mod 3)) <= 0 then x else 2))) mod 2)
1: (((~x + 1) div (2 - (x div (1 + ((x div 2) mod 2))))) mod 2)
1: (((~x + 1) div (2 - (x mod ~4))) mod 2)
1: (((~x + 1) div (~1 + (3 * (x mod 3)))) mod 2)
1: (((~x + 1) div ((x + 1) div (1 + (x div 3)))) mod 2)
1: ((((~x + 2) - ((x + (x div 3)) div 5)) div 2) mod 2)
1: (((6 - (x div 2)) div (x + 2)) mod 2)
1: (((~x2 + 3) div (1 + (x div 4))) mod 2)
1: (((2 - (x * (x div 2))) div (2 + (x div 4))) mod 2)
1: (((~x2 + 2) div 2) mod 7)
1: (((~x2 + 2) div 2) mod 17)
1: (((~x2 + 2) div (4 + (x div 2))) mod 2)
1: (((~x2 + 2) div (2 + ((((x + 1) div 2) div 2) div 2))) mod 2)
1: (((~x2 + 2) div (1 + ((x div 2) div 3))) mod 2)
1: (((2 - ((x + (x div 2)) div 2)) div 2) mod (x + 2))
1: (((2 - ((x - ((~x + 2) div 4)) div 2)) div 2) mod 2)
1: (((2 - ((~x2 + x) div 4)) div (1 + (x div 2))) mod 2)
1: (((2 - ((x3 + ~x2) div (x + 2))) div 2) mod 2)
1: (((2 - (x2 div 2)) div 3) mod (~1 + ((~2x + 2) mod (4 + (x div 4)))))
1: (((2 - (x2 div 4)) div (x + 2)) mod 2)
1: (((2 - (x2 div (2 + (x mod 2)))) div (x + 1)) mod 2)
1: (((2 - (((~2x + 2) mod (4 + (x div 4))) div 2)) div 2) mod (x + 1))
1: (((2 - (x div 2)) div 2) mod (x + 2))
1: (((2 - (x div 2)) div 2) mod (if x <= 0 then 1 else x))
1: (((2 - (x div 2)) div (2 + ((x + 1) mod 4))) mod 2)
1: (((2 - (x div 3)) div (~2 + (x mod 2))) mod 2)
1: (((2 - (x div (2 + (10 mod (x + 1))))) div 2) mod 4)
1: (((2 - (x div (if ((x div 2) mod 3) <= 0 then 1 else 2))) div 2) mod 2)
1: (((2 - ((~x + 1) mod (1 + (2 * (x mod 4))))) div 2) mod 2)
1: (((2 - ((x + ~1) mod (1 + ((x + 2) div 3)))) div 2) mod 2)
1: (((2 - ((x + ~1) mod (1 + (x mod 5)))) div 2) mod 2)
1: (((2 - ((~3x + 3) mod (1 + (x div 2)))) div 2) mod 2)
1: (((2 - (2x mod ((x + 1) - (2 * (x div 3))))) div 2) mod 2)
1: (((2 - (x mod (2 + ((2 - (x div 3)) mod 4)))) div 2) mod 3)
1: (((2 - (x mod (2 - (x * (x div 3))))) div 2) mod 2)
1: (((~x + 2) div 2) mod (2 + ((x div 2) mod 2)))
1: (((~x + 2) div 2) mod (x + 1))
1: (((~x + 2) div 2) mod (x + 2))
1: (((~x + 2) div 3) mod (x + 2))
1: (((~x + 2) div 4) mod 3)
1: (((~x + 2) div 4) mod (2 + (x mod 3)))
1: (((~x + 2) div 5) mod (x + 1))
1: (((~x + 2) div (4 + (x mod 2))) mod 2)
1: (((~x + 2) div 7) mod 2)
1: (((~x + 2) div (2 + (x * (x mod 2)))) mod 2)
1: (((~x + 2) div (1 + ((x + 2) div (2 + (x mod 2))))) mod 2)
1: (((~x + 2) div (2 + (2x div 3))) mod 2)
1: (((~x + 2) div (2 + (x div 2))) mod 2)
1: (((~x + 2) div (2 + (x div (2 + (x mod 4))))) mod 2)
1: (((~x + 2) div (2 + (x div 8))) mod 2)
1: (((~x + 2) div (1 + ((x + 1) mod 8))) mod 2)
1: (((~x + 2) div (2 + ((2 * (x div 2)) mod 3))) mod 2)
1: (((~x + 2) div (2 + ((x div 2) mod 3))) mod 2)
1: (((~x + 2) div (2 + ((x div 2) mod 4))) mod 2)
1: (((~x + 2) div (2 + (x mod (3 - (x mod 2))))) mod 2)
1: (((~x + 2) div (1 + (x mod 9))) mod 2)
1: (((~x + 2) div (x + 2)) mod 2)
1: (((~x + 2) div (2 - (x div ~4))) mod 2)
1: (((~x + 2) div (2 - (x mod ~4))) mod 2)
1: (((~x + 2) div (~5 + (x mod 2))) mod 2)
1: (((~x + 2) div (if (~2 + (x div 2)) <= 0 then 1 else 2)) mod 2)
1: (((~x2 + ~2x + 4) div (2x + 1)) mod 2)
1: (((4 - (x div 3)) div (x + 1)) mod 2)
1: ((((~x + 2) + (x mod (2 + (x mod 2)))) div 2) mod 5)
1: ((((x + ~1) + (x mod 8)) div 3) mod 3)
1: (((~5x + 1) div (1 + (x div 2))) mod 2)
1: ((((~x + 2) - (x div 2)) div 2) mod (x + 2))
1: ((((~x + 2) - (x div 2)) div (2 + (x div 3))) mod 2)
1: ((((x + ~1) - (2 * ((~x + 2) div 8))) div 3) mod 2)
1: (((~1 + (x * ((x + 1) + (x div 2)))) div 5) mod 2)
1: (((~2 + (x * (1 + (2 * (x mod 2))))) div 5) mod 2)
1: (((x2 + x + ~1) div 9) mod 2)
1: (((x2 + 2x + ~2) div (1 + ((1 + (x div 2)) div 2))) mod 2)
1: ((((x2 + 2x) - (x div 3)) div 3) mod 2)
1: (((x3 + ~x + ~2) div (2 + (x div 2))) mod 2)
1: (((x2 + ~2x + ~1) div 2) mod 5)
1: (((~1 + (6 * (1 + (x div (3 * (1 + (x mod (2 * (1 + (x mod (3 + (x mod 2)))))))))))) div 3) mod 8)
1: (((6x + 5) div (x + 2)) mod 2)
1: (((3x2 + 3x + ~2) div (2 + (x div 2))) mod 2)
1: (((~1 + (24 * (x div 2))) div (x + 2)) mod 2)
1: (((2x2 + ~1) div 3) mod (x + 2))
1: (((x3 + ~1) div 2) mod (2x + 1))
1: (((x3 + ~1) div (1 + (x div 2))) mod 2)
1: (((~2 + (x * (((x + 1) div 2) div 2))) div 5) mod 2)
1: (((~x + (2 * (x div 4))) div 3) mod (x + 2))
1: (((~2 + ((x + 2) * (x div 4))) div 5) mod 2)
1: (((~1 + ((x div 4) * (x div 2))) div 2) mod 2)
1: (((~1 + (x * (x div 4))) div 2) mod 2)
1: (((~1 + (x * (x div (2 + (x mod 2))))) div 5) mod 2)
1: (((~1 + ((x + 2) * ((x div 2) mod 3))) div 2) mod 2)
1: (((2x + ~1) div 5) mod 3)
1: (((2x + ~1) div (4 + (x div 4))) mod 2)
1: (((2x + ~1) div (1 + (2 * (x mod 3)))) mod 2)
1: (((2x + ~1) div (2 + (x div 2))) mod 2)
1: (((2x + ~1) div (2 + (x div (2 + (x mod 3))))) mod 2)
1: (((2x + ~1) div (1 + (4 mod (x + 1)))) mod 2)
1: (((2x + ~1) div (~1 + (3 * (~2 + (x mod 2))))) mod 2)
1: (((2x - (x div 4)) div 3) mod 2)
1: (((2x - ((x div 4) mod 2)) div 3) mod 2)
1: (((x2 + ~1) div 2) mod 3)
1: (((x2 + ~1) div 2) mod (1 + ((x div 2) div 3)))
1: (((x2 + ~1) div 2) mod (1 + (x div 3)))
1: (((x2 + ~1) div 5) mod 2)
1: (((x2 + ~1) div (4 + (x mod 3))) mod 2)
1: (((x2 + ~1) div (x + 4)) mod (1 + (x div 4)))
1: (((x2 + ~1) div (2 + (x div 3))) mod 2)
1: (((x2 + ~2) div (4 + (x div 2))) mod 2)
1: (((x2 + ~2) div (x + 4)) mod 2)
1: (((x2 + ~2) div (1 + (4 * (2 + (x mod 2))))) mod 2)
1: (((x2 + ~2) div ((if x <= 0 then 1 else x) + (x div 2))) mod 2)
1: (((x2 - ((2 - (x div 2)) div 2)) div 3) mod 2)
1: (((x2 - ((x + ~1) div 3)) div 3) mod 2)
1: (((x2 - (x div (2 + (x div (2 + (x mod 3)))))) div 2) mod 3)
1: (((x2 - (2x mod 5)) div 2) mod 7)
1: (((x2 - (x mod 3)) div 5) mod 2)
1: (((x2 - (if x <= 0 then 0 else 1)) div 5) mod 3)
1: (((~x + ((2 - (x div 2)) div 2)) div 2) mod (x + 2))
1: (((~x + ((~x + 2) div 4)) div 2) mod 4)
1: (((((x + ~1) div 2) - (x div 3)) div 2) mod 2)
1: (((~1 + ((x * (x + (x div 4))) div 2)) div 2) mod 2)
1: (((~1 + ((x2 + x) div 3)) div 3) mod 2)
1: (((~x + (((~x + 2) * (x div 2)) div 3)) div 3) mod 2)
1: (((~x + (2x2 div (x + 4))) div 2) mod 2)
1: (((~1 + ((x3 + ~x2) div 2)) div 7) mod 2)
1: (((~1 + (((x + 1) * ((x2 + (x div 2)) div 2)) div 2)) div 2) mod 2)
1: (((~1 + ((x * ((~1 + (x div 2)) div 2)) div 2)) div 2) mod 2)
1: (((~1 + (((~x + 1) * (x mod 3)) div 2)) div 2) mod 2)
1: (((~x + (x2 div 3)) div 2) mod 5)
1: (((~x + (((~x + 2) div 2) div 3)) div 2) mod (3x + 2))
1: (((~1 + ((((x + 1) * (2 + (x div 2))) div 2) div 2)) div 2) mod 2)
1: (((~1 + ((x2 div 2) div 3)) div 3) mod 2)
1: (((~x + ((x mod 3) div 2)) div 2) mod 2)
1: (((~1 + (x div 2)) div 2) mod 3)
1: (((~1 + (x div 2)) div 3) mod (if x <= 0 then 2 else x))
1: (((~2 + (x div 2)) div 3) mod 2)
1: (((~x2 + (x div 2)) div (x + 2)) mod 2)
1: ((((x div 2) - ((x + 1) mod 3)) div 2) mod 2)
1: ((((x div 2) - ((if x <= 0 then 1 else x) mod 3)) div 2) mod 2)
1: ((((x div 2) - (x mod (2 + (x mod 2)))) div 2) mod 2)
1: ((((x div 2) - (if (x + ~2) <= 0 then x else 1)) div 2) mod 2)
1: ((((x div 2) - (if x <= 0 then 0 else 2)) div 3) mod 2)
1: (((~1 + (x div 3)) div 3) mod 2)
1: (((~1 + (x div 3)) div (1 + ((~x + 2) mod 4))) mod 2)
1: (((~2x + (x div 3)) div 3) mod 2)
1: ((((x div 4) - ((x + 1) mod 3)) div 2) mod 2)
1: (((~x + (x div 4)) div 2) mod (x + 1))
1: (((~1 + (x div (1 + ((~x + 2) mod 4)))) div 2) mod 2)
1: (((~1 + (x div (2 + (x2 mod 3)))) div 2) mod 2)
1: (((~1 + (x div (2 + (x mod 2)))) div 2) mod 2)
1: (((~1 + (x div (1 + (x mod 4)))) div 2) mod 2)
1: (((~1 + (x div (if (x mod 3) <= 0 then 1 else 2))) div 2) mod 2)
1: (((~x + ((~x + 1) mod 4)) div 3) mod 2)
1: (((~1 + ((~x + 1) mod (2 + (x div 4)))) div 2) mod 2)
1: (((~1 + ((x + ~1) mod (1 + (x div 3)))) div 2) mod 2)
1: (((~1 + ((~2x + 2) mod 9)) div 2) mod (x + 1))
1: (((~1 + ((2x + ~2) mod (2 + (x div 2) - (x mod 2)))) div 2) mod 2)
1: (((~x + ((x div 2) mod 2)) div 2) mod 3)
1: (((~x + ((x div 2) mod 2)) div 2) mod (2x + 3))
1: (((~x + ((x div 2) mod 2)) div 2) mod (2x + 2))
1: (((~x + ((x div 2) mod 5)) div 5) mod (2x + 2))
1: (((~x + ((x div 4) mod 2)) div 2) mod (x + 1))
1: (((~x + (x mod 2)) div 3) mod (x + 2))
1: (((~x + (x mod 2)) div 3) mod (if x <= 0 then 1 else x))
1: (((~1 + (x mod (1 + (((x + 1) div 2) div 2)))) div 2) mod 2)
1: (((~x + (x mod (~2 + (x div ~4)))) div 2) mod 2)
1: (((~x + (if (~2 + (x div 2)) <= 0 then 0 else 2)) div 2) mod 2)
1: (((~x + (if (x + ~4) <= 0 then 2 else 0)) div 2) mod 2)
1: (((~1 + (if (x mod 4) <= 0 then x else (x div 2))) div 3) mod 2)
1: ((((if x <= 0 then 1 else (2 * (1 + ((1 + ((x mod (2 + ((1 + (2 * (((if x <= 0 then 1 else (2 * (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))))) - (x mod 2)) div 2))) mod (x + 1)))) div 2)) div 2)))) - (x mod 2)) div 2) mod 2)
1: (((~1 + loop(\(x,i).(x * (2 + i)),x,2)) div 3) mod 7)
1: (((~1 + loop(\(x,i).2x,x,2)) div (x + 1)) mod (2 + (x mod 2)))
1: (((~1 + loop(\(x,i).2x,x,(if x <= 0 then 1 else x))) div 5) mod 3)
1: (((x + ~1) div 2) mod 5)
1: (((x + ~1) div 2) mod (1 + ((2x + ~1) mod (1 + (x div 4)))))
1: (((x + ~1) div 2) mod (1 + ((x - ((~x + 1) div (2 + (x div 2)))) mod 3)))
1: (((x + ~1) div 2) mod (1 + (((x + 1) mod 5) mod 3)))
1: (((x + ~1) div 2) mod (1 + (if ((1 + (x div 2)) mod 6) <= 0 then 2 else 1)))
1: (((x + ~1) div 2) mod (1 + (if x <= 0 then 1 else 4)))
1: (((x + ~1) div 2) mod (~4 - (x div 4)))
1: (((x + ~1) div 2) mod (2 - ((x2 + 2x) mod 5)))
1: (((x + ~1) div 2) mod (2 - (x mod ~4)))
1: (((x + ~1) div 2) mod 6)
1: (((x + ~1) div 2) mod (if (~2 + (x div 4)) <= 0 then 1 else 4))
1: (((x + ~1) div 3) mod 3)
1: (((x + ~1) div (4 + (x div 4))) mod 2)
1: (((x + ~1) div (2 + ((x div 7) + (x mod 2)))) mod (x + 1))
1: (((x + ~1) div 7) mod 2)
1: (((x + ~1) div (1 + (2 * (2 + ((x mod 3) mod 2))))) mod 2)
1: (((x + ~1) div (1 + (2 * (~x mod 5)))) mod 2)
1: (((x + ~1) div (1 + (2 * (x mod 2)))) mod 3)
1: (((x + ~1) div (2 + ((x div 2) div 3))) mod 2)
1: (((x + ~1) div (2 + ((if (x mod 2) <= 0 then 2 else x) div 2))) mod 2)
1: (((x + ~1) div (2 + (x div 5))) mod 2)
1: (((x + ~1) div (2 + ((x + 2) mod 4))) mod 2)
1: (((x + ~1) div (2 + ((x + ~1) mod 3))) mod 2)
1: (((x + ~1) div (2 + ((x + ~2) mod 5))) mod 2)
1: (((x + ~1) div (1 + ((x * (x div 2)) mod 5))) mod 2)
1: (((x + ~1) div (1 + (x mod 5))) mod 2)
1: (((x + ~1) div (1 + (x mod (1 + (((x + 1) div 2) div 3))))) mod 2)
1: (((x + ~1) div (1 + (x mod (4 * (2 - (x mod 2)))))) mod 2)
1: (((x + ~1) div (1 + (if (~2 + (x div 2)) <= 0 then x else 2))) mod 2)
1: (((x + ~1) div (1 + (if (x mod 4) <= 0 then 2 else 1))) mod 2)
1: (((x + ~1) div (2 - (x div ~4))) mod 2)
1: (((x + ~1) div (6 - (x * (x mod 2)))) mod 2)
1: (((x + ~1) div (x - ((x + ~1) mod 4))) mod 2)
1: (((x + ~1) div (2 * (2 + ((x + 2) mod 4)))) mod 2)
1: (((x + ~1) div (3 * (1 + ((~x + 2) mod 4)))) mod 2)
1: (((x + ~2) div 3) mod 3)
1: (((x + ~2) div 3) mod (1 + (x mod 4)))
1: (((x + ~2) div 5) mod 2)
1: (((x + ~2) div 5) mod (4x + 2))
1: (((x + ~2) div 13) mod 2)
1: (((x + ~2) div (1 + (2 * ((x + 1) mod 4)))) mod 2)
1: (((x + ~2) div (1 + (3 * (x mod 4)))) mod 2)
1: (((x + ~2) div (1 + (x div 3))) mod 2)
1: (((x + ~2) div (2 + (x div 4))) mod 2)
1: (((x + ~2) div (2 + (x div (2 + ((~x + 2) mod 4))))) mod 2)
1: (((x + ~2) div (1 + ((x + 2) mod 4))) mod 2)
1: (((x + ~2) div (1 + ((x + ~1) mod 4))) mod 2)
1: (((x + ~2) div (2 + (x2 mod 5))) mod 2)
1: (((x + ~2) div (1 + (x mod 3))) mod 2)
1: (((x + ~2) div (2 + (x mod (2 + (x div 4))))) mod 2)
1: (((x + ~2) div (2 + (if (x mod 3) <= 0 then 1 else 2))) mod 2)
1: (((x + ~2) div (~2 + (x div (~2 + (x mod 2))))) mod 2)
1: ((((x + ~1) + (x div 3)) div 3) mod 2)
1: ((((x + 1) - ((x div 4) div ~2)) div (1 + (x mod 2))) mod 2)
1: (((x + (x mod 6) - (x div 2)) div 2) mod 2)
1: ((((x + 1) - (2x mod (4 + (x div 4)))) div 2) mod 3)
1: (((x - (x * ((x div 2) * (x div 3)))) div 2) mod 2)
1: (((x - (2 * ((2 - (x div 3)) div 2))) div 3) mod 2)
1: (((x - (2 * ((x div 2) mod 2))) div 3) mod 3)
1: (((x - (3 div (1 + (x div 4)))) div 2) mod 2)
1: (((x - (((~x + 2) + ((x div 2) div 3)) div 2)) div 2) mod 3)
1: (((x - ((2 - ((x + (x div 2)) div 2)) div 2)) div 2) mod 2)
1: (((x - ((2 - (x div 4)) div 2)) div 2) mod 2)
1: (((x - ((~x + 2) div 4)) div 2) mod 2)
1: (((x - ((x - (((x div 3) * (x div 2)) div 2)) div 2)) div 2) mod 2)
1: (((x - ((x - (x mod 3)) div 2)) div 2) mod 2)
1: (((x - (3x div ~7)) div 2) mod 4)
1: (((x - (4x div (1 + (x div 2)))) div 2) mod 2)
1: (((x - (x2 div 3)) div 2) mod 2)
1: (((x - (((x * (x div 3)) div 2) div 3)) div 2) mod 2)
1: (((x - ((x div 2) div ~2)) div 2) mod 2)
1: (((x - ((x div 2) div ~2)) div 2) mod 3)
1: (((x - (x div 3)) div 3) mod 2)
1: (((x - (x div 4)) div 2) mod 3)
1: (((x - (x div 4)) div 2) mod (~4x + 1))
1: (((x - (x div (0 - (2 * (2 + (x mod 4)))))) div 2) mod 2)
1: (((x - (2 mod (if (x mod 3) <= 0 then 1 else x))) div 2) mod 2)
1: (((x - ((x2 + 1) mod 5)) div 3) mod 2)
1: (((x - ((x2 + 2) mod (3 + (x div 2)))) div 2) mod 2)
1: (((x - ((x + (x mod 4)) mod 3)) div 2) mod 2)
1: (((x - ((1 - (x div 2)) mod (x + 4))) div 2) mod 2)
1: (((x - ((~x + 1) mod (1 + (x div 5)))) div 2) mod 2)
1: (((x - ((~x + 2) mod (2 + (x div 2)))) div 2) mod 2)
1: (((x - ((x + ~2) mod (2 + (x div 3)))) div 2) mod 2)
1: (((x - ((x - i) mod 6)) div 2) mod 2)
1: (((x - ((~2x + 2) mod 5)) div 2) mod 2)
1: (((x - (x2 mod (2 + (x div 2)))) div 2) mod 2)
1: (((x - (x2 mod (~2 - (x div 4)))) div 2) mod 2)
1: (((x - ((x div 2) mod 2)) div 3) mod 2)
1: (((x - ((x div 2) mod 5)) div 2) mod 4)
1: (((x - (if (~2 + (x div 4)) <= 0 then 1 else 0)) div 2) mod 2)
1: (((x - (if (x + ~3) <= 0 then 1 else 0)) div 3) mod 2)
1: (((x - (if (x mod 4) <= 0 then x else 1)) div 3) mod 2)
1: ((6 div ((2x + 4) div 3)) mod 2)
1: (((5x + 10) div (1 + (x div 3))) mod 2)
1: (((2 * ((2x + 1) + ((((x div 2) div 3) mod 2) + (x div 3)))) div 3) mod (x + 1))
1: (((x * ((x + 2) + (x div 2))) div 7) mod 2)
1: (((x * (3 + (x mod 3))) div (1 + (x div 2))) mod 2)
1: (((x2 + 3x) div (x + 8)) mod 2)
1: (((~2x + 6) div (2 + (x div 4))) mod 2)
1: (((x * ((2x + 1) - (x mod 4))) div 4) mod 3)
1: ((((x + 4) * ((x + 2) - (((~x + ~1) + (x mod 2)) div 5))) div 2) mod 3)
1: (((3x2 + 5x + 2) div 2) mod 10)
1: ((((1 + (2 * (1 + (if (~x + 2) <= 0 then x else 0)))) * (1 + (x div 2))) div 2) mod 3)
1: (((x2 + 18x + 32) div (x + 1)) mod 2)
1: (((x4 + x) div 4) mod (x + 1))
1: ((((x + 1) * (1 + (3 * ((5x2 + 13x + 8) div 2)))) div 2) mod 8)
1: (((x * (1 + (2 * (x div 2)))) div 5) mod 2)
1: ((((1 + (x * (x mod 2))) * (1 + (x div 2))) div 2) mod (x + 1))
1: (((x * (2 + (x * (x mod 2)))) div 9) mod 2)
1: (((4x + 2) div (x - (((x + ~1) div 2) div 3))) mod 3)
1: (((2x2 + x) div 3) mod 3)
1: (((2x2 + 2) div (2 + (x div 2))) mod 2)
1: (((x3 + 2x2 + x + 2) div (2 + (x div 2))) mod 2)
1: (((x3 + x) div 9) mod 2)
1: (((2x2 + 4) div (2x + ~5)) mod 2)
1: (((x * (1 + ((x + 1) div 2))) div 2) mod 4)
1: ((((~x + 2) * (1 + ((x div 2) div 3))) div 2) mod 2)
1: (((x * (1 + (loop(\(x,i).(~6x2 + 3x),2,x) div (x + 1)))) div 2) mod 3)
1: (((x * (1 + (x div 2))) div 2) mod (x + 1))
1: ((((2 + (x div 2)) * (1 + (x div 2))) div 2) mod 4)
1: ((((~x + 2) * (2 + (x div 2))) div 2) mod 3)
1: (((x * (2 + (x div 2))) div 2) mod 3)
1: ((((x + (x div 2)) * (~1 + (x div 2))) div (x + 1)) mod 2)
1: (((x * (x + (x div 2))) div (4 + (x mod 2))) mod 2)
1: (((x * (x + (x div 2))) div 7) mod 2)
1: (((x * (x + (x div 2))) div (1 + (2 * (2 - (x mod 2))))) mod 2)
1: (((x * (2 + (x div 3))) div 2) mod 3)
1: ((((1 + (x div 4)) * ((x + ~1) div 2)) div 2) mod 2)
1: (((x * (x + (x div (2 + (x mod 2))))) div 2) mod 3)
1: ((((x + 1) * (1 + ((~1 + (x div 2)) mod 3))) div 2) mod 2)
1: ((((2x + 1) * (1 + ((x + ~1) mod 9))) div 2) mod 3)
1: (((3 * (x + ((2x mod (2 + (x div 2))) mod 2))) div 2) mod 2)
1: (((x * (1 + (x mod 2))) div 3) mod 3)
1: ((((~x + 1) * (2 + (x mod 2))) div (x + 2)) mod 2)
1: ((((~x + 1) * (1 + (x mod 3))) div (x + 1)) mod 2)
1: (((x * (1 + (x mod (5 + (x mod 2))))) div 2) mod 3)
1: (((x * (1 + (x mod (1 + (4 * (if (x mod 2) <= 0 then 2 else x)))))) div 2) mod (x + 1))
1: (((x * (1 + (x mod ~4))) div 3) mod 2)
1: (((x * (2 + (if (x + ~4) <= 0 then 1 else x))) div 4) mod 2)
1: (((2 * (2 + (if x <= 0 then 0 else (2 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))))) div 3) mod 6)
1: (((3 * (2 + loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x))) div 2) mod 4)
1: (((2x + 2) div (2 + (x div 2))) mod 2)
1: (((2x + 2) div (1 + (x mod 5))) mod 2)
1: (((2x + 2) div (~6 + (x mod 2))) mod 2)
1: (((2x + 2) div (x - ((x + 2) mod 5))) mod 2)
1: (((x2 + x) div 2) mod 9)
1: (((x2 + x) div 2) mod (1 + (2 * (loop(\(x,i).2x,(x + ~2),1) div (x + 1)))))
1: (((x2 + x) div 2) mod (1 + (x mod (1 + (x div 3)))))
1: (((x2 + x) div 2) mod (x + 2))
1: (((x2 + x) div 2) mod 6)
1: (((x2 + x) div 2) mod 8)
1: (((x2 + x) div 2) mod (2 * (1 + (x mod 2))))
1: (((x2 + x) div 2) mod 30)
1: (((x2 + x) div 2) mod 32)
1: (((x2 + x) div 2) mod 64)
1: (((x2 + x) div 3) mod 3)
1: (((x2 + x) div 3) mod (1 + (x div 5)))
1: (((x2 + x) div 4) mod 5)
1: (((x2 + x) div 4) mod (2x + 1))
1: (((x2 + x) div 4) mod (x + 2))
1: (((x2 + x) div 5) mod 3)
1: (((x2 + x) div 5) mod (1 + (x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4))))))))
1: (((x2 + x) div (1 + (((x + 1) div 2) div 2))) mod 2)
1: (((x2 + x) div ~2) mod 4)
1: (((x2 + x) div ~7) mod 2)
1: (((x2 + 3x + 2) div 2) mod 4)
1: (((x2 + 3x + 2) div 2) mod 7)
1: (((x2 + 3x + 2) div 2) mod 9)
1: (((x2 + 3x + 2) div 2) mod (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: (((x2 + 3x + 2) div 2) mod 11)
1: (((x2 + 3x + 2) div (1 + (if (x mod 3) <= 0 then 2 else 0))) mod 9)
1: (((x2 + 4x + 4) div 2) mod 9)
1: (((x2 + 4x + 4) div 2) mod (1 + ((x + (x div 2)) div 2)))
1: (((x2 + 4x + 4) div 5) mod 3)
1: (((x2 + 2x) div 2) mod 9)
1: (((x2 + 2x) div 2) mod 37)
1: (((x2 + 2x) div 2) mod (1 + (2 * (((x + ~1) div 2) mod 2))))
1: (((x2 + 2x) div 2) mod (1 + (x div 4)))
1: (((x2 + 2x) div 2) mod (1 + (x mod (1 + (((x + 1) div 2) div 3)))))
1: (((x2 + 2x) div 2) mod 11)
1: (((x2 + 2x) div (2 + (x div 2))) mod 3)
1: (((x2 + 2x) div (x - ((x + 1) mod 3))) mod 2)
1: ((((x + 1) * (1 + i)) div 5) mod 2)
1: (((3 * (1 + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x))) div 2) mod 2)
1: (((~x * (x div 2)) div 2) mod 3)
1: (((~x * (x div 2)) div 2) mod (if (x mod 3) <= 0 then 1 else 2))
1: (((~x * (x div 2)) div (x + 3)) mod 2)
1: ((((1 - (2 * ((x mod (1 + (((x + 1) div 2) div 2))) mod 2))) * (1 + (x div 2))) div 2) mod 2)
1: (((x * (1 - (x div 3))) div 3) mod 2)
1: ((((1 - (x mod 3)) * (~1 + (x div 2))) div 2) mod 2)
1: ((((~x + 1) * (x div 2)) div 2) mod (x + 2))
1: ((((~x + 1) * (x div 2)) div 7) mod 2)
1: (((~x2 + x) div 2) mod 5)
1: (((~x2 + x) div 7) mod 2)
1: (((7x2 + 9x + 2) div 2) mod 10)
1: (((x * (2 - (x * (x div 2)))) div 9) mod 2)
1: (((3 * (2 - (2 * (x div 3)))) div (x + 2)) mod 2)
1: (((x * (2 - (x div 2))) div 2) mod 3)
1: ((((x + 2) * (2 - (x div 3))) div 3) mod 2)
1: (((x * (2 - (x div (2 + (x mod 4))))) div 2) mod 2)
1: (((x * (2 - (x div ~2))) div 5) mod 2)
1: ((((x + ~1) * (2 - ((x div 4) mod 2))) div 3) mod 2)
1: (((2 * (2 - (x mod ~5))) div (x + 1)) mod 2)
1: (((~2x + 4) div (1 + (2 * (1 + (x mod 3))))) mod 2)
1: (((~3x + 6) div (1 + (if x <= 0 then 1 else x))) mod 2)
1: (((~x2 + 4x + ~4) div (x + 3)) mod 2)
1: (((~x2 + 4x + ~4) div (x + 2)) mod 2)
1: (((~x2 + 4x + ~4) div (x + 2)) mod 3)
1: (((~2x2 + 4x) div 7) mod (x + 1))
1: (((~x2 + 2x) div 2) mod (x + 3))
1: (((~x2 + 2x) div 3) mod 3)
1: (((~x2 + 2x) div (x + 3)) mod 2)
1: (((~x2 + 2x) div (x + 4)) mod (x + 1))
1: (((x * ((x + ~1) + (2 * ((x + ((loop(\(x,i).(x2 + x),2,x) div 2) div 3)) div 2)))) div 2) mod 3)
1: (((x * ((x + ~1) + loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x + ~2),x))) div 2) mod 3)
1: (((x * (~3 + (x mod 2))) div 7) mod 2)
1: ((((x + 1) * (6 - (x mod 3))) div 2) mod 5)
1: (((x * (~1 + (2 * (1 + (x div (if (x mod 2) <= 0 then 3 else ~2)))))) div 2) mod 4)
1: (((~3x2 + 4x) div (1 + (x div 2))) mod 2)
1: (((2x2 + ~5x) div (x + 3)) mod 2)
1: (((x3 + ~2x2 + ~x) div 7) mod 2)
1: (((8x + ~2) div (1 + ((x + 1) div 2))) mod 2)
1: (((4x + ~2) div (2 + (x div 4))) mod 2)
1: (((x3 + 2x2 + ~x + ~2) div 7) mod 2)
1: (((x3 + 2x2 + ~x + ~2) div (2 + (x div 2))) mod 2)
1: ((((~1 + (x div 2)) * (x div 3)) div 2) mod 3)
1: (((x * (~1 + (x div 2))) div 2) mod 2)
1: (((x * (~1 + (x div 2))) div 2) mod 3)
1: (((x * (~1 + (x div 2))) div 2) mod (2x + 1))
1: (((x * (~1 + (x div 2))) div 3) mod (x + 1))
1: ((((x + 2) * (~1 + (x div 3))) div 2) mod 2)
1: (((x * (~1 + (x div 3))) div 5) mod 2)
1: (((x * (~x + (x div 3))) div 5) mod 2)
1: ((((x + 1) * (~1 + (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) mod 9))) div 2) mod 3)
1: ((((x + 1) * (~1 + (x mod 3))) div 2) mod 2)
1: ((((x + 2) * (~1 + (x mod 3))) div 2) mod 2)
1: (((x * (~1 + (x mod 3))) div 2) mod 2)
1: ((((~1 + (if (~x + 2) <= 0 then x else 0)) * (1 + (x div 4))) div 2) mod 2)
1: ((((x + 1) * (~1 + loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1))) div 2) mod 3)
1: (((2x + ~2) div 3) mod 3)
1: (((2x + ~2) div (3 + (x div 5))) mod 2)
1: (((2x + ~2) div (1 + ((x + 1) div 5))) mod 2)
1: (((2x + ~2) div (2 + (x div 3))) mod (1 + (x div 4)))
1: (((2x + ~2) div (2 - ((~x + 2) div (2 + (x div 2))))) mod 2)
1: (((x2 + ~x) div 2) mod 4)
1: (((x2 + ~x) div 2) mod 9)
1: (((x2 + ~x) div 2) mod (x + 2))
1: (((x2 + ~x) div 2) mod 6)
1: (((x2 + ~x) div (5 + (x div 2))) mod 3)
1: (((x2 + ~x) div (3 + (x div 2))) mod 2)
1: (((x2 + ~x) div (1 + (2x div 3))) mod 2)
1: (((x2 + ~x) div (2 + (x div 5))) mod 3)
1: (((x2 + ~x) div (2 + ((~x + 1) mod 3))) mod 2)
1: (((x2 + ~x) div ((x + 1) - (x div 3))) mod 2)
1: (((x2 + ~x) div 8) mod 3)
1: (((2x + ~4) div (4 + (x div 4))) mod 2)
1: (((2x + ~4) div (2 + (((x + 1) div 2) div 2))) mod 2)
1: (((2x + ~4) div (2 + (x div 2))) mod 2)
1: (((3x + ~6) div (2 + (x div 4))) mod 2)
1: (((x2 + ~2x) div 2) mod 3)
1: (((x2 + ~2x) div (x + 6)) mod 2)
1: (((x2 + ~2x) div (4 + (x div 2))) mod 2)
1: (((x2 + ~2x) div 7) mod 2)
1: (((x2 + ~2x) div (x + 16)) mod (x + 1))
1: (((x2 + ~2x) div (x + 2)) mod 2)
1: (((x2 + ~2x) div (x + 2)) mod 4)
1: (((x2 + ~2x) div (3 * (1 + (x div 2)))) mod 2)
1: (((x2 + ~3x) div 8) mod 2)
1: (((((x + 1) - (x div 8)) * (2 + (x div 2))) div 2) mod 2)
1: (((x * ((x + 1) - ((x div 2) mod 2))) div 5) mod 2)
1: (((3x2 + ~4x) div (2 + (x div 2))) mod 2)
1: (((x * (x - (((~x3 + x) div 4) div 3))) div 2) mod 3)
1: (((x * (x - (x div 3))) div (x + 2)) mod 2)
1: ((((x - (x div ~2)) * (x div 3)) div 2) mod 2)
1: (((x * (x - ((x div 2) mod 2))) div 2) mod 3)
1: (((8x + 8) div 5) mod 3)
1: (((6x2 + 12) div (x + 4)) mod 2)
1: (((2 * ((1 + (x div 3)) * (1 + (x div 3)))) div 3) mod 5)
1: (((x * ((1 + ((x div 2) mod 2)) * (1 + (x div 2)))) div 2) mod 3)
1: ((((x2 + 2x) * (x div 3)) div 2) mod (1 + (x div 3)))
1: (((~x2 * (2 + (x div 2))) div 5) mod 2)
1: (((~9x + 18) div (x + 2)) mod 2)
1: (((x3 + ~2x2 + x) div (1 + ((x + 1) div 2))) mod 2)
1: ((((17x2 + 34x + 17) * (x mod 7)) div 2) mod 3)
1: ((((2x2 + 4x + 2) * (2 - ((x * (x div 2)) mod 2))) div 2) mod 3)
1: (((x4 + x3 + ~2x2) div 9) mod 3)
1: (((5x * (x div 2)) div (x + 2)) mod 2)
1: ((((2x2 + x) * (x div 2)) div (x + 5)) mod 2)
1: ((((x2 + ~2x) * (x div 2)) div (x + 3)) mod 2)
1: ((((x2 + ~2x) * (x div 3)) div 2) mod 3)
1: (((x * ((x mod 2) * (x div 2))) div 7) mod 3)
1: ((4x div (x + 4)) mod 2)
1: ((4x div (1 + (x div 4))) mod 2)
1: ((4x div (1 + (x div 4))) mod 3)
1: ((2x2 div (x + 5)) mod 2)
1: ((2x2 div (x + 9)) mod 2)
1: ((2x2 div (3 + (x div 2))) mod 2)
1: ((2x2 div ((x + 2) + (x div 2))) mod 2)
1: ((2x2 div (1 + ((x + 1) div 2))) mod 3)
1: ((2x2 div (~4 + (x * (x div 2)))) mod 2)
1: ((4x2 div (1 + (x div 2))) mod 2)
1: (((x3 + x2) div (x + 6)) mod 2)
1: (((x3 + x2) div (x + 4)) mod 2)
1: (((x3 + 2x2) div 2) mod (x + 5))
1: (((x3 + 2x2) div (1 + ((x div 2) div 3))) mod 3)
1: (((x3 + ~x2) div (1 + (x div 4))) mod 2)
1: (((x3 + ~2x2) div (2 + (x div 2))) mod 3)
1: (((x3 + ~2x2) div (2 - (x div ~2))) mod 2)
1: (((x3 + ~2x2) div 15) mod 2)
1: ((x4 div (~2x + ~4)) mod 2)
1: (((x2 * (x div 2)) div (1 + (x mod 3))) mod 2)
1: (((x2 * (x mod 2)) div 8) mod (x + 1))
1: ((x3 div 2) mod 7)
1: ((x3 div 3) mod 6)
1: ((x3 div 4) mod 3)
1: ((x3 div 5) mod 2)
1: ((x3 div ((x + 2) + (x mod 2))) mod 2)
1: ((x3 div (3x + 1)) mod 2)
1: ((x3 div (2 + (3 mod (x + 1)))) mod 2)
1: ((x3 div (2 + (x mod (1 + (x div 3))))) mod 2)
1: ((x3 div (~1 + (2 * (x div 2)))) mod 2)
1: ((x3 div (x - ((~x + 2) div 2))) mod 2)
1: (((x * (((x + 1) + (x div 2)) div 2)) div 3) mod 2)
1: (((((1 + (x div 2)) div 2) * (x div 2)) div 2) mod 3)
1: ((((x + ~1) * ((x + 1) div 2)) div 5) mod 2)
1: (((x * ((x + 1) div 2)) div 2) mod (1 + (x div 4)))
1: (((3 * ((~x + 2) div 2)) div 5) mod 2)
1: (((((~x + 2) div 2) * (x mod 3)) div 2) mod 2)
1: (((x * ((~x + 2) div 2)) div 2) mod 5)
1: (((x * ((~x + 2) div 4)) div 2) mod (1 + (x div 4)))
1: (((((~1 + (x div 2)) div 2) * ((~x + 2) mod 3)) div 2) mod 2)
1: (((x * ((~1 + (x div 4)) div 2)) div 2) mod 2)
1: ((((x + 1) * ((x + ~1) div 2)) div 2) mod 2)
1: (((((x + ~1) div 2) * (x div 2)) div 2) mod (x + 1))
1: ((((x + ~2) * ((x + ~1) div 3)) div (x + 2)) mod 2)
1: (((x * ((x + ~2) div 3)) div 2) mod 2)
1: (((x * ((x + ~2) div 5)) div 4) mod 2)
1: (((((x2 + 3x + 2) div 2) * (2 + ((x div 2) mod 2))) div 5) mod 3)
1: (((x * ((x * (x - (x4 div (~1 + (x div ~2))))) div 2)) div 2) mod 3)
1: (((3 * ((x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) div 5)) div 2) mod 4)
1: (((x * (2x div 3)) div 2) mod loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))
1: (((2 * (x2 div 2)) div 9) mod 2)
1: ((((x + 2) * (x2 div 2)) div 3) mod 3)
1: ((((x + ~2) * (x2 div 2)) div (2x + ~1)) mod 2)
1: (((x * (x2 div 2)) div (x + 3)) mod 2)
1: ((((x2 div 3) * ((x + 1) div 2)) div 2) mod 2)
1: ((((x + 2) * (((x + ~1) div 2) div 2)) div 2) mod 2)
1: ((((x + ~1) * ((((x + ~1) div 2) div 2) div 2)) div 2) mod 2)
1: (((((x div 2) div ~2) * (x div 2)) div 2) mod 2)
1: (((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (2 - (x div 2))) div 2) mod 3)
1: (((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2) mod 4)
1: ((((x + ~1) * ((x mod (2 + (x div 2))) div 2)) div 2) mod 3)
1: (((2 * (x div 2)) div 3) mod 3)
1: (((2 * (x div 2)) div (1 + ((x + ~1) mod 3))) mod 3)
1: ((((x + 1) * (x div 2)) div 3) mod 3)
1: ((((x + ~1) * (x div 2)) div 5) mod 2)
1: (((x * (x div 2)) div 2) mod 2)
1: (((x * (x div 2)) div 2) mod 4)
1: (((x * (x div 2)) div 2) mod (x + 1))
1: (((x * (x div 2)) div 3) mod 3)
1: (((x * (x div 2)) div (x + 3)) mod 2)
1: (((x * (x div 2)) div (x + 4)) mod 2)
1: (((x * (x div 2)) div (1 + (x div 4))) mod 2)
1: (((x * (x div 2)) div (~1 + (x div ~2))) mod 2)
1: ((((x + 1) * (x div 3)) div (2 + (x div 2))) mod 2)
1: ((((x div 3) * (x div 2)) div 2) mod 2)
1: (((x * (x div 3)) div 2) mod 2)
1: (((x * (x div 3)) div 2) mod 5)
1: (((x * (x div 3)) div 5) mod 2)
1: ((((x + 1) * (x div 4)) div 3) mod 2)
1: (((x * (x div 4)) div 2) mod 2)
1: (((x * (x div 4)) div ~4) mod 2)
1: ((((x + 1) * (x div 5)) div 2) mod 2)
1: ((((x div ~2) * (x div 3)) div 2) mod 2)
1: ((((x + 1) * (x div ~3)) div 2) mod 2)
1: (((x * (x div ~4)) div 2) mod 3)
1: (((((x + 1) mod 3) * (1 + (if x <= 0 then 1 else x))) div 2) mod 2)
1: (((((x + 1) mod 3) * (~1 + (x div 2))) div 2) mod 2)
1: ((((~x + 1) * ((x + 2) mod 5)) div 2) mod 2)
1: (((x * ((x + 2) mod 6)) div (x + 2)) mod 2)
1: (((x * ((~x + 1) mod (2 + (x div 2)))) div 2) mod 2)
1: (((x * ((~1 + (x div 2)) mod 3)) div 2) mod 2)
1: (((x * (((~x + 2) div 2) mod 3)) div 2) mod 2)
1: (((x * ((x div 2) mod 3)) div 2) mod 2)
1: (((x * ((x div 2) mod 4)) div (1 + (x div 2))) mod 2)
1: (((3 * (loop(\(x,i).x3,2,6) mod (x + 1))) div 2) mod 4)
1: (((x * (x mod 2)) div 2) mod 4)
1: (((x * (x mod 2)) div 2) mod 6)
1: ((((x + 2) * (x mod 3)) div 5) mod 2)
1: ((((~x + 1) * (x mod 3)) div 5) mod 2)
1: (((2 * (x mod 4)) div (2 + (x div 4))) mod 2)
1: (((x * (x mod (2 + (x div 2)))) div 3) mod 2)
1: ((((x mod (1 + (x div 4))) * (1 + (x div 2))) div 2) mod 2)
1: (((x * (x mod (2 + (x mod 2)))) div 2) mod 2)
1: ((((x mod ~3) * (1 + (x div 2))) div 2) mod 2)
1: (((x * (if (~2 + (x div 2)) <= 0 then 1 else 2)) div 5) mod 2)
1: (((x * loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)) div 2) mod (1 + (x div 2)))
1: (((x * loop(\(x,i).x3,1,(1 + (x div 2)))) div 3) mod 4)
1: (((x * loop(\(x,i).(x2 div 3),2,x)) div 3) mod 3)
1: ((2x div 3) mod 3)
1: ((2x div 3) mod (1 + (x div 2)))
1: ((2x div 3) mod (1 + (x mod (3 - (x mod 2)))))
1: ((2x div 7) mod 2)
1: ((2x div 7) mod 3)
1: ((2x div (1 + (2 * ((x - ((x div 2) mod 5)) mod 2)))) mod 3)
1: ((2x div (1 + (2 * (2x mod 3)))) mod 2)
1: ((2x div (1 + (x div 2))) mod 3)
1: ((2x div (1 + (x div 4))) mod 3)
1: ((2x div (1 + (x div 4))) mod (x + 1))
1: ((2x div (2 + (x div 4))) mod 2)
1: ((2x div (1 + (x div (2 + (x mod 3))))) mod 3)
1: ((2x div (1 + ((~x + 2) mod 3))) mod 3)
1: ((2x div (1 + ((x + ~2) mod (1 + (x div 2))))) mod 2)
1: ((2x div (2 + (8x mod (x + 1)))) mod 2)
1: ((2x div (2 + (x mod 2))) mod 3)
1: ((2x div (1 + (x mod 8))) mod 2)
1: ((2x div (~1 - (x div 4))) mod 2)
1: ((2x div (~2 - (x div 4))) mod 2)
1: ((2x div ~7) mod (2x + 1))
1: ((2x div ~7) mod (x + 1))
1: ((2x div (2 - ((1 - (x div 2)) div 3))) mod 2)
1: ((2x div (2 - (x div ~2))) mod 3)
1: ((2x div (2 - (x mod ~4))) mod 2)
1: ((2x div (~1 - (x mod 3))) mod 3)
1: ((2x div ~5) mod (4x + 1))
1: ((2x div (~3 + (x mod 2))) mod (x + 1))
1: ((2x div (~1 + (2 * (2 - (x div 2))))) mod 2)
1: ((2x div (~1 + (3 * ((~x + 2) mod 4)))) mod 2)
1: ((2x div (~1 + ((~x + 2) div 3))) mod 2)
1: ((2x div (~1 + (x div ~3))) mod 2)
1: ((2x div (~1 + ((x div 2) mod ~4))) mod 2)
1: ((x2 div 2) mod 5)
1: ((x2 div 2) mod (3x + 1))
1: ((x2 div 2) mod (1 + (2 * (((x + ~2) * (x div 3)) mod (1 + (x div 2))))))
1: ((x2 div 2) mod (1 + ((1 + (x div 2)) div 3)))
1: ((x2 div 2) mod (1 + ((x div 2) div 3)))
1: ((x2 div 2) mod (1 + (x div 5)))
1: ((x2 div 2) mod (4x + ~9))
1: ((x2 div 2) mod (3 * (1 + (if (x mod 2) <= 0 then 6 else 0))))
1: ((x2 div 3) mod 5)
1: ((x2 div 3) mod (2x + 1))
1: ((x2 div 4) mod 3)
1: ((x2 div 4) mod (3 + (x mod 2)))
1: ((x2 div 4) mod (x + 4))
1: ((x2 div 4) mod 7)
1: ((x2 div 4) mod (2x + 1))
1: ((x2 div 4) mod (x + 2))
1: ((x2 div 4) mod (3 * (1 + (x div 4))))
1: ((x2 div 4) mod (3x + 3))
1: ((x2 div (4 + (x div 2))) mod 2)
1: ((x2 div ((x + 2) + (x div 2))) mod 2)
1: ((x2 div 7) mod 2)
1: ((x2 div 7) mod 3)
1: ((x2 div (1 + (2 * (1 + ((~x + 1) mod 3))))) mod 2)
1: ((x2 div (1 + (2 * (2 + ((x div 2) mod 3))))) mod 2)
1: ((x2 div (3 + (x * (x mod 2)))) mod (x + 1))
1: ((x2 div (1 + (((~x + 2) mod (1 + (x div 2))) div 2))) mod 2)
1: ((x2 div (1 + ((~x + 2) mod 8))) mod 2)
1: ((x2 div (2 + (6 mod (x + 1)))) mod 2)
1: ((x2 div (1 + (x mod (1 + ((1 + (x div 2)) mod (1 + (x div 5))))))) mod 3)
1: ((x2 div (x + 2)) mod 4)
1: ((x2 div (x + 2)) mod 5)
1: ((x2 div ~2) mod 5)
1: ((x2 div ((~x + ~3) - (x div 2))) mod (x + 1))
1: ((x2 div ~7) mod 2)
1: ((x2 div ~11) mod 2)
1: ((x2 div (2 - (x mod 2))) mod 9)
1: ((x2 div (2 - (x mod (1 + (x div 8))))) mod 3)
1: ((x2 div (4x + ~11)) mod 2)
1: ((x2 div ~4) mod 5)
1: ((x2 div ~4) mod (x + 1))
1: ((x2 div ~5) mod 2)
1: ((x2 div (~4 - (x mod 3))) mod 2)
1: ((x2 div ((~x + ~1) - (x div 3))) mod 3)
1: ((x2 div ((2x + ~1) - (x2 div 4))) mod 2)
1: ((x2 div (8 - (x div 3))) mod 2)
1: ((x2 div (16 - (x div 3))) mod 3)
1: ((x2 div (~x + 32)) mod 2)
1: ((x2 div (~1 + (2 * (x div 2)))) mod 3)
1: ((x2 div (x - (3 * ((~x + 2) div 2)))) mod 2)
1: ((x2 div (2x + 8)) mod 2)
1: ((x2 div (8 * (~2 + (x mod 2)))) mod 2)
1: ((x2 div (if (x + ~2) <= 0 then 1 else 2)) mod 4)
1: ((x2 div (if (x mod 3) <= 0 then 2 else (1 + (x div 2)))) mod 4)
1: (((x * i) div 2) mod 2)
1: (((3 * compr(\x.(2 - (x mod (1 + (2 * (1 + (4 * (x mod 2))))))),x)) div 2) mod 2)
1: ((((1 + ((~x + 1) * (x div 2))) div 2) div 5) mod 2)
1: (((((x * (x div 2)) + (x mod 3)) div 2) div 2) mod 2)
1: ((((x2 + (x div 2)) div 2) div 3) mod 2)
1: ((((1 + (x div (if (x + ~4) <= 0 then 1 else 2))) div 2) div 2) mod 2)
1: ((((x + (x mod 3)) div 2) div ~2) mod 2)
1: ((((1 + loop(\(x,i).(x div (2 - ((x * (x div 2)) mod 2))),x,x)) div 2) div 2) mod 2)
1: ((((x + 1) div 2) div 2) mod 3)
1: ((((x + 1) div 2) div 2) mod (1 + ((x - (((~x + ~1) + (x mod 2)) div 3)) mod 3)))
1: ((((x + 1) div 2) div (1 + ((2 + (x div 2)) div 3))) mod 2)
1: ((((x + 1) div 2) div (1 + (x div (4 + (x mod 4))))) mod 2)
1: ((((x + 1) div 2) div (1 + (x mod 3))) mod 3)
1: ((((x + 1) div (if (x + ~2) <= 0 then 1 else 4)) div 2) mod 2)
1: ((((0 - ((x2 + (x div 2)) div 2)) div 2) div 3) mod 2)
1: ((((~x + 1) div (2 + (x div 3))) div 2) mod (x + 1))
1: ((((~x + 2) div 2) div 3) mod 2)
1: ((((~x + 2) div 2) div (1 + ((x div 2) mod 3))) mod 2)
1: ((((~x + 2) div 2) div (1 + (x mod 3))) mod 2)
1: ((((~x + 2) div 2) div (if (x mod 3) <= 0 then 1 else 2)) mod 2)
1: (((((x + ~1) + ((x * (x div 2)) div 3)) div 2) div 2) mod 2)
1: ((((x4 + ~1) div (x + 2)) div 2) mod 2)
1: ((((x2 + ~2) div 3) div 3) mod 3)
1: ((((x2 + ~2) div (4 + (x div 2))) div 2) mod 2)
1: ((((x2 - (x div 2)) div 2) div 2) mod 3)
1: ((((((x + ~1) div 2) - (x2 div 2)) div 2) div 2) mod 2)
1: ((((~1 + ((x * (x + (x div 2))) div 2)) div 2) div 2) mod 2)
1: ((((~1 + (((x + 1) * (x div 2)) div 2)) div 2) div 2) mod 2)
1: (((((x div 2) - (x mod 4)) div 2) div 2) mod 2)
1: ((((~x + (x mod 3)) div 2) div ~2) mod 2)
1: ((((x + ~1) div 2) div 2) mod (1 + (x mod 3)))
1: ((((x + ~1) div 2) div (1 + ((x + ~1) mod 5))) mod 2)
1: ((((x - (x div ~4)) div 2) div 2) mod 2)
1: ((((x - (x2 mod 3)) div 2) div 2) mod 2)
1: ((((4x + ~4) div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2) mod 3)
1: (((((~x + 3) * (x div 3)) div 2) div 2) mod 2)
1: ((((x3 + x) div (x + 2)) div 7) mod (x + 1))
1: (((((x + ~1) * (1 + (x div 2))) div 2) div 2) mod 2)
1: (((((~x + 2) * (2 + (x div 4))) div 2) div 2) mod 2)
1: ((((x2 + 2x) div 2) div 5) mod 2)
1: (((((x + ~1) * (1 - (((x - ((x2 + ~x) div 4)) div 2) div 3))) div 2) div 2) mod 2)
1: (((((x + 1) * (2 - (x div 2))) div 2) div 2) mod 2)
1: (((((2x + ~1) * (2 - (x div 3))) div 2) div 2) mod 2)
1: (((((~x + 2) * (x div 2)) div 2) div 3) mod 2)
1: ((((x3 + ~x) div 2) div 3) mod (1 + ((x + 1) div 3)))
1: (((((x2 + ~2) * ((x + 1) div 2)) div 2) div 3) mod 3)
1: ((((x * (x2 - (if x <= 0 then 1 else ((x + 1) - loop(\(x,i).loop(\(x,i).(x + (i * i)),(x + ~1),1),2,x))))) div 2) div 3) mod 2)
1: ((((x * (~1 + ((~x + 2) div 3))) div 2) div 2) mod 2)
1: ((((x2 + ~4x + 4) div (x + 1)) div 3) mod 2)
1: ((((x2 + ~2x) div 8) div 2) mod 2)
1: ((((x3 + 3x2 + 2x) div 2) div 3) mod 9)
1: (((3x2 div (x + 2)) div 2) mod 2)
1: ((((x3 + 2x2) div 2) div (2x + ~1)) mod 2)
1: (((x3 div 2) div (1 + (x div 3))) mod 2)
1: (((((x + 1) * ((~x + 2) div 2)) div 2) div 2) mod 2)
1: ((((x2 * (x2 div 2)) div 2) div 3) mod (1 + (x div 4)))
1: (((((x + 1) * (((x + ~1) div 2) div 2)) div 2) div 2) mod 2)
1: (((((x + 1) * ((x div 2) div 3)) div 2) div 2) mod 2)
1: (((((x + ~1) * (x div 2)) div 2) div 2) mod 3)
1: ((((x * (x div 2)) div 2) div 5) mod 2)
1: (((((x + 1) * (x div 3)) div 2) div 2) mod 2)
1: (((((~x + 1) * (x div 3)) div 2) div 2) mod 2)
1: (((((x + ~1) * (x div 3)) div 2) div 2) mod 2)
1: ((((x * (x div 3)) div 2) div 3) mod 2)
1: ((((x * (x div 3)) div 2) div 5) mod 2)
1: (((((x + ~1) * (x div ~2)) div 2) div 2) mod 2)
1: (((((x + 2) * (x div ~5)) div 2) div 2) mod 2)
1: (((((x + 1) * (if x <= 0 then 1 else (x - ((~x + 2) div 4)))) div 2) div 2) mod 3)
1: (((x2 div 2) div 5) mod 2)
1: (((x2 div 2) div ((x + ~2) + (x div 2))) mod 2)
1: (((x2 div 2) div (~1 + ((~x + 2) div 4))) mod 2)
1: (((((x + 1) div 2) div 2) div 2) mod 2)
1: (((((x + 1) div 2) div 2) div (1 + ((x + 1) mod 3))) mod 2)
1: (((((x + 1) div (2 - ((x * (x div 2)) mod 2))) div 2) div 2) mod 3)
1: (((((x + ~1) div 2) div 2) div (1 + (2 * (x mod 2)))) mod 2)
1: ((((loop(\(x,i).(x * (4 + (x div 4))),1,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2) div 2) div 3) mod 3)
1: ((((loop(\(x,i).(x * (x div 2)),1,loop(\(x,i).(2x + i),x,0)) div 2) div 2) div 2) mod 3)
1: ((((x2 mod (3x + ~1)) div 2) div 2) mod 2)
1: (((loop(\(x,i).(x * (x div 2)),1,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2) div 2) mod 3)
1: (((loop(\(x,i).x2,1,(2 + ((x3 + x2) div 2))) div 2) div 2) mod (x + 1))
1: (((x div 2) div 3) mod (2 + (x mod 2)))
1: (((x div 2) div 3) mod ~4)
1: (((x div 2) div (1 + (((x div 2) mod 2) + (x mod 3)))) mod 2)
1: (((x div 2) div (1 + (~x mod 4))) mod 2)
1: (((x div 2) div (1 + (((x * (x div 2)) div 3) mod 3))) mod 2)
1: (((x div 2) div (1 + ((x div ~2) mod 2))) mod 2)
1: (((x div 2) div (1 + (x mod 7))) mod 2)
1: (((x div 2) div (1 + (x mod (2 + (x div 5))))) mod 2)
1: (((x div 2) div (1 + (x mod (2 + (x mod 2))))) mod 2)
1: (((x div 2) div ~2) mod (x + 2))
1: (((x div 2) div ~3) mod (1 + (x div 2)))
1: (((x div 2) div ~5) mod (x + 2))
1: (((x div 2) div (~2 + ((x div 5) mod 2))) mod 2)
1: (((x div 3) div (1 + (4 * (x mod 2)))) mod 2)
1: (((x div 3) div (1 + ((x + 2) mod 4))) mod 2)
1: (((x div 3) div (1 + (x mod 4))) mod 2)
1: (((x div 4) div (1 + ((~x + 1) mod 3))) mod 3)
1: (((x div 4) div (1 + ((x div 2) mod 2))) mod 2)
1: (((x div 5) div ~2) mod 2)
1: (((x div (2 + (2 * (x mod (1 + ((x div 2) mod 3)))))) div 2) mod 3)
1: (((x div (1 + (if (x mod 3) <= 0 then 2 else 0))) div 2) mod 4)
1: (((x div ~2) div (1 + ((x div 3) mod 2))) mod 2)
1: (((x div (2 - ((x div 2) mod 2))) div ~2) mod 2)
1: (((x div ~4) div (1 + ((x + ~1) mod 3))) mod 2)
1: ((((2 + (x * (x div 2))) mod (x + 3)) div 2) mod 2)
1: ((((2x + 1) mod (2 + (x div 2))) div 2) mod 2)
1: ((((x + 1) mod (~2x + 7)) div 2) mod 2)
1: ((((x + 2) mod (2 + (x div 4))) div 2) mod 2)
1: ((((1 - ((x div 2) * (x div 2))) mod (x + 2)) div 3) mod 2)
1: ((((1 - (x div 3)) mod (x + 1)) div 2) mod 2)
1: ((((1 - (x div (1 + (x mod 4)))) mod (x + 2)) div 2) mod 2)
1: ((((3 - (x mod (1 + ((x2 + 2x) mod 8)))) mod (x + 1)) div 2) mod 3)
1: ((((~x2 + 2) mod (x + 4)) div 2) mod 2)
1: ((((~x2 + 2) mod (3x + 2)) div 2) mod 2)
1: ((((2 - ((x + ~2) mod (~1 + (2 * (x mod 4))))) mod (x + 1)) div 2) mod 3)
1: ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) mod (1 + (x mod (1 + (x mod 8)))))
1: ((((2 - (x mod 5)) mod (x + 3)) div 2) mod 2)
1: ((((~x + 2) mod (2 + (x div 2))) div 2) mod 2)
1: ((((~4 + (x div 3)) mod (x + 2)) div 2) mod 2)
1: ((((x3 + ~1) mod (x + 4)) div 2) mod 2)
1: (((((2 * (x mod 2)) - (x div 2)) mod (x + 1)) div 2) mod 2)
1: ((((~1 + (2 * (x mod 5))) mod (x + 1)) div 2) mod 2)
1: ((((2x + ~1) mod (2 + (x div 2))) div 2) mod 2)
1: ((((x2 + ~2) mod (2x + 5)) div 3) mod 2)
1: (((((x2 + ~2) - (x div 2)) mod (x + 4)) div 2) mod 2)
1: ((((~1 + (x2 div 2)) mod (4 + (x div 2))) div 2) mod 2)
1: ((((~1 + (~x mod 5)) mod (x + 2)) div 2) mod 2)
1: ((((x + ~1) mod (1 + (2 * ((~x + 1) mod 3)))) div 2) mod 2)
1: ((((x + ~1) mod (1 + (x div 2))) div 2) mod 2)
1: ((((x + ~1) mod (1 + (x div 2))) div 2) mod 3)
1: ((((x + ~1) mod (2 + (x div 2))) div 2) mod 2)
1: ((((x + ~2) mod (1 + (x div 2))) div 2) mod 2)
1: ((((x + ~4) mod (1 + (x div 2))) div 2) mod 2)
1: ((((~2x2 + x) mod (2 + (x div 2))) div 2) mod 2)
1: ((((2 * (1 + (((~1 + (6 * (1 + ((1 + ((x mod (1 + (x div (if (x mod 2) <= 0 then 4 else 1)))) div 2)) div 2)))) div 2) div 2))) mod (x + 1)) div 2) mod 2)
1: ((((2 * ((x div (4 + (8 mod (1 + (x div 2))))) + (x mod 2))) mod (x + 1)) div 2) mod 2)
1: ((((2x + 2) mod (~1 + ((~x + 1) div 3))) div 2) mod 2)
1: ((((~2x + 2) mod (4 + (x div 4))) div 2) mod 3)
1: ((((~2x + 2) mod (4 + (x div 4))) div 2) mod (2 + (x div 5)))
1: ((((~x2 + 2x + ~1) mod (1 + (x div 2))) div 2) mod 2)
1: ((((2 * (~1 + (x mod 3))) mod (x + 1)) div 2) mod 2)
1: ((((x2 + ~x) mod (x + 4)) div 3) mod 2)
1: ((((16x + 8) mod 13) div 3) mod 3)
1: (((64 mod (x + 1)) div 3) mod 3)
1: (((x5 mod 41) div 2) mod 2)
1: (((x3 mod (x + 5)) div 2) mod 2)
1: ((((3 * ((x + 2) mod 5)) mod (x + 1)) div 2) mod 5)
1: (((2x mod (3 + (x div 2))) div 2) mod 2)
1: (((2x mod (8 + (x div 3))) div 2) mod 2)
1: (((2x mod (2 + (x div 4))) div 2) mod 2)
1: (((x2 mod (x + 4)) div ~2) mod 2)
1: (((x2 mod (3x + 2)) div 2) mod 2)
1: (((x2 mod 13) div 2) mod 2)
1: (((x2 mod (~2x + 5)) div 3) mod 2)
1: (((x2 mod ((x + ~3) - (x mod 2))) div 2) mod 2)
1: (((((~x + 1) div 2) mod (x + 1)) div 2) mod 2)
1: (((((x2 + x) div 4) mod (x + 2)) div 2) mod 2)
1: ((((x3 div 2) mod (x + 4)) div 2) mod 2)
1: ((((x2 div 2) mod (x + 4)) div 2) mod 2)
1: ((((x2 div 2) mod (x + 2)) div 2) mod 3)
1: (((((~1 + ((~2x + 2) mod (4 + (x div 4)))) mod (1 + (x2 div 4))) mod (x + 1)) div 2) mod 3)
1: ((((x mod 3) mod (~x + ~1)) div 2) mod 2)
1: ((((if x <= 0 then 1 else x) mod (~2 + ((~x + 2) div 4))) div 2) mod 2)
1: (((loop(\(x,i).(~x + ~1),(x div 2),~4) mod (x + 1)) div 2) mod 3)
1: (((loop(\(x,i).2x,(x div 2),~2) mod (x + 1)) div 2) mod 4)
1: (((loop(\(x,i).2x,((x + 1) mod 4),x) mod (x + 1)) div 2) mod 3)
1: (((x mod 3) div (~2 + ((x div 4) mod 2))) mod 2)
1: (((x mod (1 + (x div 2))) div 2) mod 2)
1: (((x mod (1 + (x div 2))) div 2) mod 3)
1: (((x mod (2 + (x div 2))) div 3) mod 2)
1: (((x mod (2 + (x div 4))) div 2) mod 2)
1: (((x mod (1 + (if (x + ~2) <= 0 then 2 else (x div 3)))) div 2) mod 2)
1: (((x mod (2 + (if (x mod 2) <= 0 then (x div 2) else 1))) div 2) mod 2)
1: (((x mod ~7) div 2) mod 2)
1: (((x mod (2 - (x * (x div 4)))) div 2) mod 2)
1: (((x mod (2 - ((x2 + ~1) div 2))) div 2) mod 2)
1: (((x mod (~1 + (2 * (x div 4)))) div 2) mod 2)
1: (((if (~2 + (x div 2)) <= 0 then 2 else x) div 2) mod 2)
1: (((if (x + ~2) <= 0 then 1 else (2x * (x div 2))) div (1 + (x div 2))) mod 3)
1: (((if ((x div 2) mod 3) <= 0 then 2 else x) div 2) mod 2)
1: (((if (x mod 3) <= 0 then 1 else x) div ~2) mod 2)
1: (((if (x mod (1 + ((x + 2) mod 4))) <= 0 then 1 else x) div (1 + (x div 4))) mod 2)
1: (((if x <= 0 then 1 else 2x) div (~1 + ((~x + 1) div 3))) mod 2)
1: (((if x <= 0 then 1 else x) div (1 + (x div 5))) mod 2)
1: (((if x <= 0 then 1 else x) div ~3) mod 2)
1: (((if x <= 0 then 1 else x) div (~1 + (2 * (x mod 4)))) mod 2)
1: (((if x <= 0 then 2 else (x - (x div (1 + ((1 + (x div 2)) div 2))))) div 2) mod 2)
1: (((if x <= 0 then 2 else ((x div 3) * (x div 2))) div 2) mod 2)
1: (((if x <= 0 then 2 else x2) div (2 + (x mod 3))) mod 2)
1: (((if x <= 0 then 2 else x2) div (2 - (x div ~2))) mod 2)
1: (((if x <= 0 then 2 else ((x2 + 1) div (2 + (x div 2)))) div 2) mod 2)
1: (((if x <= 0 then 2 else ((x * (~1 + (x mod 3))) div 2)) div 2) mod 2)
1: (((if x <= 0 then 2 else ((x2 + 2) mod (1 + (x div 2)))) div 2) mod 2)
1: (((if x <= 0 then 2 else (3x mod (1 + (x div 2)))) div 2) mod 2)
1: (((if x <= 0 then 2 else (x5 mod 11)) div 2) mod 3)
1: (((if x <= 0 then 2 else (4x mod (1 + (x div 2)))) div 2) mod 3)
1: (((if x <= 0 then 2 else loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(x + ~1),1)) div 2) mod 2)
1: (((if x <= 0 then 2 else x) div 2) mod 5)
1: ((loop(\(x,i).(2x + i),(x + ~2),1) div 2) mod 2)
1: ((loop(\(x,i).((2x + 1) - ((1 - (x div 2)) div 3)),x,1) div 2) mod 3)
1: ((loop(\(x,i).(x + (x div 2)),(x + ~1),2) div 9) mod 6)
1: ((loop(\(x,i).(1 + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x)),1,(x + ~2)) div 2) mod 2)
1: ((loop(\(x,i).(x - (x div ~3)),x,1) div 2) mod 2)
1: ((loop(\(x,i).3x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2) mod 21)
1: ((loop(\(x,i).3x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 3) mod (x + 4))
1: ((loop(\(x,i).5x,(x + ~1),1) div 3) mod 7)
1: ((loop(\(x,i).(3x + 3),x,1) div 2) mod (x + 1))
1: ((loop(\(x,i).(x * (2 - (x div 4))),1,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2) mod 3)
1: ((loop(\(x,i).(2 * (x - (i mod 2))),x,2) div 3) mod 10)
1: ((loop(\(x,i).(2 * (~x + i)),x,1) div (x + 1)) mod 2)
1: ((loop(\(x,i).10x,(x + 1),1) div (x + 1)) mod 10)
1: ((loop(\(x,i).4x,x,4) div (x + 1)) mod 4)
1: ((loop(\(x,i).6x,(x + 1),1) div (x + 1)) mod 6)
1: ((loop(\(x,i).2x,1,(1 + ((1 - (x2 mod (3x + 2))) div 3))) div 3) mod 3)
1: ((loop(\(x,i).2x,x,loop(\(x,i).2x,((x + 1) div 7),1)) div 3) mod 3)
1: ((loop(\(x,i).x2,1,(1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x))) div (x + 1)) mod (x + 1))
1: ((loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x))) div 2) mod 11)
1: ((loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x))) div 3) mod 7)
1: ((loop(\(x,i).x2,2,(2 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x))) div 3) mod 3)
1: ((loop(\(x,i).(x * i),x,3) div (x + 3)) mod 8)
1: ((loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),(x + ~1),(x2 div 2)) div 5) mod 2)
1: ((loop(\(x,i).(2x2 div (x + 1)),2,x) div 2) mod 9)
1: ((loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,x) div 2) mod 3)
1: ((loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) div 5) mod 3)
1: ((loop(\(x,i).(x div (2 - (x mod 2))),x,(~x + 1)) div 2) mod 2)
1: ((loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2) mod 3)
1: ((loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2) mod 4)
1: ((x div 2) mod (5 + (x mod 2)))
1: ((x div 2) mod (4 + ((x div 2) mod 3)))
1: ((x div 2) mod (4 + ((x div 2) mod 4)))
1: ((x div 2) mod (3 + (x mod 3)))
1: ((x div 2) mod (1 + ((x mod 4) + (x mod 3))))
1: ((x div 2) mod (3 + (x mod 4)))
1: ((x div 2) mod (4 + (x mod 4)))
1: ((x div 2) mod (2 + (5 * (x mod 2))))
1: ((x div 2) mod (1 + (2 * (3 - (x mod 2)))))
1: ((x div 2) mod (1 + ((2 + ((x div 2) mod 2)) * ((x mod 3) div 2))))
1: ((x div 2) mod (1 + (2 * (1 + (x mod 2)))))
1: ((x div 2) mod (1 + (2 * ((((x + 1) div 2) div 2) div 2))))
1: ((x div 2) mod (1 + (2 * ((x * (x div 4)) mod 2))))
1: ((x div 2) mod (1 + (2 * (((x + 2) div (~2 - (x div 4))) mod 2))))
1: ((x div 2) mod (1 + (2 * ((x mod 5) mod 2))))
1: ((x div 2) mod (1 + (2 * (x mod (1 + (x div 3))))))
1: ((x div 2) mod (1 + ((x - ((x div 5) mod 2)) div 3)))
1: ((x div 2) mod (2 + (((1 + (x div 2)) div 2) div 2)))
1: ((x div 2) mod (2 + ((x div 2) div 5)))
1: ((x div 2) mod (1 + ((x div (2 - (x mod 2))) div 3)))
1: ((x div 2) mod (1 + (((~x + 2) mod (2 + (x div 4))) div 2)))
1: ((x div 2) mod (1 + (x div (1 + (2 * (2 + (x mod 2)))))))
1: ((x div 2) mod (1 + (x div (2 * (2 - (x mod 2))))))
1: ((x div 2) mod (1 + (2 mod (1 + (x div 2)))))
1: ((x div 2) mod (1 + (4 mod (1 + (x div 3)))))
1: ((x div 2) mod (1 + ((x + (x2 mod 3)) mod 4)))
1: ((x div 2) mod (1 + ((1 + (x mod 3)) mod (1 + (x mod 4)))))
1: ((x div 2) mod (1 + ((~x + 1) mod (1 + ((~x + 2) mod 4)))))
1: ((x div 2) mod (1 + ((~x + 2) mod 4)))
1: ((x div 2) mod (1 + ((x + ~1) mod 3)))
1: ((x div 2) mod (2 + ((x + ~1) mod 3)))
1: ((x div 2) mod (1 + ((x + ~1) mod 4)))
1: ((x div 2) mod (1 + ((x + ~1) mod 5)))
1: ((x div 2) mod (1 + ((x2 + 2x) mod 6)))
1: ((x div 2) mod (1 + (((x - (x mod 3)) * (x div 3)) mod 9)))
1: ((x div 2) mod (1 + ((x * (x div 3)) mod 3)))
1: ((x div 2) mod (1 + (2x mod 3)))
1: ((x div 2) mod (1 + (x2 mod (1 + ((x + 1) div 3)))))
1: ((x div 2) mod (1 + (x2 mod (2 + (x div 4)))))
1: ((x div 2) mod (1 + (x2 mod 6)))
1: ((x div 2) mod (1 + ((x div 5) mod 3)))
1: ((x div 2) mod (1 + ((~x mod 8) mod 3)))
1: ((x div 2) mod (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 6)))
1: ((x div 2) mod (2 + (x mod 3)))
1: ((x div 2) mod (1 + (x mod (3 - (x mod 2)))))
1: ((x div 2) mod (1 + (x mod 7)))
1: ((x div 2) mod (1 + (x mod (1 + (((x + 1) div 2) div 3)))))
1: ((x div 2) mod (1 + (x mod (2 + (x div 5)))))
1: ((x div 2) mod (1 + (x mod (2 + ((~1 + (x div 2)) mod 5)))))
1: ((x div 2) mod (1 + (x mod (1 + (2x mod 3)))))
1: ((x div 2) mod (1 + (x mod (1 + (x mod (3 + (x mod 2)))))))
1: ((x div 2) mod (1 + (x mod (1 + (x mod (1 + (x div 4)))))))
1: ((x div 2) mod (1 + (x mod (1 + (x mod (1 + (x div (2 + (x div 5)))))))))
1: ((x div 2) mod (1 + (x mod (1 + (x mod (2 + (x div 8)))))))
1: ((x div 2) mod (1 + (x mod (2 + (if (x mod 5) <= 0 then 2 else 0)))))
1: ((x div 2) mod (1 + (if (~2 + (x div 2)) <= 0 then 2 else 1)))
1: ((x div 2) mod (2 + (if (((x + ~1) div 2) mod 6) <= 0 then 2 else 0)))
1: ((x div 2) mod (2 + (if (x mod 2) <= 0 then 4 else 0)))
1: ((x div 2) mod (1 + (if (x mod 2) <= 0 then ((x + 2) div 5) else 1)))
1: ((x div 2) mod (1 + (if (x mod 2) <= 0 then ((x + ~1) mod (1 + (x div 4))) else 1)))
1: ((x div 2) mod (1 + (if (x mod 3) <= 0 then 0 else 2)))
1: ((x div 2) mod (2 + (if (x mod 4) <= 0 then 2 else 0)))
1: ((x div 2) mod (2 + (if (x mod 5) <= 0 then 2 else 0)))
1: ((x div 2) mod (~2 - (x div 4)))
1: ((x div 2) mod (~1 - (x mod (2 + (x mod (2 + (x mod 2)))))))
1: ((x div 2) mod ~7)
1: ((x div 2) mod (1 - ((2 - (2x mod (4 + (x div 4)))) mod (x + 1))))
1: ((x div 2) mod (1 - (2x mod (~1 + ((~x + 2) div 3)))))
1: ((x div 2) mod (2 - (x div ~4)))
1: ((x div 2) mod (2 - (2x mod (~1 + ((~x + 2) div 3)))))
1: ((x div 2) mod ~5)
1: ((x div 2) mod (~1 + (2 * (x div 3))))
1: ((x div 2) mod (~1 + (2 * (x mod 5))))
1: ((x div 2) mod (2 * (1 - (2 * (((x2 + ~2x) div (x + 2)) mod 2)))))
1: ((x div 2) mod (2 * (2 - (x mod 2))))
1: ((x div 2) mod (if ((x div 2) mod 3) <= 0 then ~2 else 2))
1: ((x div 3) mod (1 + (2 * (x mod (2 + (x mod (2 + (x mod 2))))))))
1: ((x div 3) mod (1 + (2 div (1 + (x mod 5)))))
1: ((x div 3) mod (1 + (((3 * (x mod 4)) mod (x + 1)) div 2)))
1: ((x div 3) mod (2 + ((~x + 1) mod 3)))
1: ((x div 3) mod (1 + ((~x + 2) mod (2 + (x mod 2)))))
1: ((x div 3) mod (1 + (x2 mod (~1 + (2 * (x mod 4))))))
1: ((x div 3) mod (1 + ((x2 div 2) mod 4)))
1: ((x div 3) mod (1 + ((x mod 4) mod 3)))
1: ((x div 3) mod (1 + (x mod (2 + ((~x + 1) mod 3)))))
1: ((x div 3) mod (~x + ~1))
1: ((x div 3) mod (~1 + (2 * (x mod 3))))
1: ((x div 3) mod ((~1 + ((4x + 4) * (1 + (x div 2)))) mod 5))
1: ((x div 4) mod (1 + (2 * (x mod 2))))
1: ((x div 4) mod (1 + ((x + 1) mod (2 + (x div 4)))))
1: ((x div 4) mod (2 + (x mod 2)))
1: ((x div 4) mod (1 + (x mod 3)))
1: ((x div 4) mod (1 + (x mod 4)))
1: ((x div 4) mod (1 + (x mod 10)))
1: ((x div 4) mod ~15)
1: ((x div 4) mod (~1 + ((~x + 1) div 2)))
1: ((x div 4) mod (if (~2 + (x div 2)) <= 0 then 1 else 2))
1: ((x div (5 + ((x + ~1) mod 3))) mod 2)
1: ((x div (4 + ((x mod 2) + (x mod 3)))) mod 2)
1: ((x div (5 - (((1 + (x div 2)) div 2) div 2))) mod 3)
1: ((x div (4 + ((x mod ~4) div 2))) mod 2)
1: ((x div (3 + (x div 3))) mod 2)
1: ((x div (3 + (x div 4))) mod (1 + (x mod (2 + (x2 mod 3)))))
1: ((x div (4 + (x div 4))) mod 2)
1: ((x div (1 + (((1 + ((x + (x div 2)) div 4)) mod 2) + (x mod 2)))) mod 2)
1: ((x div (1 + (((1 + ((32 mod (x + 1)) div 2)) mod 2) + (x mod 2)))) mod 3)
1: ((x div (3 + ((x + 1) mod (2 + (x mod 2))))) mod 2)
1: ((x div (4 + ((x + ~1) mod 3))) mod 2)
1: ((x div (2 + (((x + ~1) mod 3) + (x mod 2)))) mod 2)
1: ((x div (4 + ((x + ~1) mod 4))) mod 2)
1: ((x div (1 + (((x - (x div (4 + (x mod 2)))) mod 2) + (x mod 2)))) mod 2)
1: ((x div (4 + (((x + 1) div 3) mod 4))) mod 3)
1: ((x div (3 + ((((x + 1) div 2) div 2) mod 2))) mod 2)
1: ((x div (3 + ((x div 2) mod 3))) mod 2)
1: ((x div (4 + ((x div 3) mod 2))) mod 2)
1: ((x div (1 + ((if (((x + ~1) div 2) mod 4) <= 0 then 2 else 1) + (x mod 2)))) mod 2)
1: ((x div 7) mod (2 + (x mod 2)))
1: ((x div (1 + (2 * (1 + (2 * (x mod 2)))))) mod 2)
1: ((x div (1 + (3 * (2 - (x div 2))))) mod 2)
1: ((x div (1 + (2 * (2 - (x mod 8))))) mod 2)
1: ((x div (1 + (2 * ((x + ~1) div 5)))) mod 2)
1: ((x div (1 + (2 * ((x div 2) div 3)))) mod 2)
1: ((x div (1 + (2 * ((x div 2) mod 2)))) mod 2)
1: ((x div (1 + ((x div 2) div 3))) mod 2)
1: ((x div (1 + ((x div 2) div 3))) mod 3)
1: ((x div (1 + ((x div 2) div (1 + (2 * (x mod 2)))))) mod 2)
1: ((x div (1 + ((x div 2) div (1 + ((x mod (1 + (x div 3))) div 2))))) mod 3)
1: ((x div (2 + ((x div 2) div (1 + (x mod 4))))) mod 2)
1: ((x div (1 + (x div 7))) mod 3)
1: ((x div (2 + (x div 7))) mod 2)
1: ((x div (1 + (x div (2 + (x div 3))))) mod 2)
1: ((x div (1 + (x div (2 + ((x + 2) mod 6))))) mod 2)
1: ((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) mod 3)
1: ((x div (1 + (x div (2 + (x mod 2))))) mod 2)
1: ((x div (1 + (x div 8))) mod 2)
1: ((x div (1 + (x div 8))) mod 4)
1: ((x div (1 + (2 mod (x + 1)))) mod 2)
1: ((x div (1 + ((x + 2) mod 4))) mod 2)
1: ((x div (1 + ((x + 2) mod (1 + (x div 3))))) mod 3)
1: ((x div (1 + (~x mod 4))) mod 2)
1: ((x div (1 + ((~2x + 1) mod (1 + (x div 2))))) mod 2)
1: ((x div (1 + ((~x + 1) mod (1 + (x div 4))))) mod 2)
1: ((x div (1 + ((~x + 2) mod 9))) mod 2)
1: ((x div (1 + ((x + ~1) mod (2 - (x mod ~3))))) mod 2)
1: ((x div (1 + ((x2 + ~x) mod 8))) mod 2)
1: ((x div (1 + (16 mod (x + 1)))) mod 2)
1: ((x div (2 + ((x * (x div 2)) mod 2))) mod 2)
1: ((x div (2 + (2x mod 9))) mod 2)
1: ((x div (1 + (x2 mod (x + 3)))) mod 2)
1: ((x div (1 + (((x + 1) div 3) mod 4))) mod 2)
1: ((x div (2 + (((x - (x div 4)) div 2) mod 2))) mod 2)
1: ((x div (2 + ((x2 div 3) mod (x + 1)))) mod 2)
1: ((x div (2 + ((x div 2) mod 2))) mod 2)
1: ((x div (2 + ((x div 3) mod 2))) mod 3)
1: ((x div (1 + ((x div 3) mod 3))) mod 2)
1: ((x div (2 + ((x div ~3) mod 2))) mod 2)
1: ((x div (1 + ((x mod 4) mod (1 + (x div 2))))) mod 2)
1: ((x div (1 + (loop(\(x,i).(2x + 2),x,2) mod (x + 3)))) mod 3)
1: ((x div (2 + (x mod 2))) mod 3)
1: ((x div (2 + (x mod 2))) mod 4)
1: ((x div (2 + (x mod 2))) mod (1 + (x div 5)))
1: ((x div (1 + (x mod 3))) mod (1 + ((x + 1) mod 4)))
1: ((x div (2 + (x mod 3))) mod 2)
1: ((x div (1 + (x mod 4))) mod 3)
1: ((x div (1 + (x mod 5))) mod 2)
1: ((x div (2 + (x mod 5))) mod 2)
1: ((x div (1 + (x mod (3 - (x div ~2))))) mod 2)
1: ((x div (2 + (x mod 7))) mod 2)
1: ((x div (1 + (x mod (1 + (x div 3))))) mod 2)
1: ((x div (2 + (x mod (2 + ((~x + 1) mod 3))))) mod 2)
1: ((x div (1 + (x mod (2 + (x mod 2))))) mod 2)
1: ((x div (2 + (x mod (2 + (x mod 2))))) mod 2)
1: ((x div (2 + (x mod 6))) mod 2)
1: ((x div (2 + (x mod 8))) mod 2)
1: ((x div (1 + (x mod 12))) mod 12)
1: ((x div (2 + (if (x mod 2) <= 0 then 1 else 8))) mod 2)
1: ((x div (1 + (if (x mod 2) <= 0 then 6 else 1))) mod 2)
1: ((x div (1 + (if (x mod 2) <= 0 then 6 else 1))) mod 3)
1: ((x div (1 + (if (x mod 4) <= 0 then 0 else 2))) mod 2)
1: ((x div ~2) mod 8)
1: ((x div (~1 - (x mod 4))) mod (1 + (x div 3)))
1: ((x div ~7) mod 2)
1: ((x div (2 - ((x + 2) mod ~8))) mod 2)
1: ((x div (2 - (x mod 2))) mod 3)
1: ((x div (2 - (x mod 2))) mod (1 + (if (x mod (4 + (x div 2))) <= 0 then 0 else 2)))
1: ((x div (2 - (if (~x + 2) <= 0 then (~2 + (x mod 3)) else 1))) mod 2)
1: ((x div ((x + ~5) + (x div 2))) mod 2)
1: ((x div ~3) mod 3)
1: ((x div ~3) mod (2x + 1))
1: ((x div ~3) mod (x + (if (~2 + (x div 4)) <= 0 then 2 else 1)))
1: ((x div ~4) mod 4)
1: ((x div ~4) mod (2x + 1))
1: ((x div ~4) mod (1 + (x div 5)))
1: ((x div ~4) mod (x + 1))
1: ((x div (~2 - (x div 3))) mod (x + 1))
1: ((x div (~2 - (x2 mod 3))) mod (1 + (x div 2)))
1: ((x div (~2 - ((x2 + ~x) mod 5))) mod 2)
1: ((x div (~2 - (x mod (3 - (x mod 2))))) mod 2)
1: ((x div ~5) mod (2x + 1))
1: ((x div ~5) mod (x + 1))
1: ((x div (~4 - (x mod 4))) mod 2)
1: ((x div (~1 + ((x + ~2) div 3) - (x div 2))) mod 2)
1: ((x div (~3 + (x div ~4))) mod 2)
1: ((x div (~3 + (((~1 + (x div 2)) div 2) mod 2))) mod 2)
1: ((x div (~4 + ((x div 2) mod 2))) mod (x + 2))
1: ((x div (8 - (x div 4))) mod 2)
1: ((x div ~9) mod 2)
1: ((x div (~1 + (2 * ((x div 2) - (x mod 4))))) mod 2)
1: ((x div (~x + (2 * (~2 + (x mod 4))))) mod 2)
1: ((x div (~x + 16)) mod 2)
1: ((x div (~1 + (3 * (((x + ~1) div 2) div 2)))) mod 2)
1: ((x div (~1 + (2 * (x div 4)))) mod 2)
1: ((x div (~1 + (2 * ((2x + ~4) mod (x + 2))))) mod 2)
1: ((x div (~1 + (2 * (x mod 3)))) mod 4)
1: ((x div (~1 + (3 * (x mod 4)))) mod 2)
1: ((x div (~2 + (x * (x mod (2 + (x mod 2)))))) mod 2)
1: ((x div (~1 + (x div (~1 + (2 * (~1 + (x div 3))))))) mod 2)
1: ((x div (~1 + (x div (~2 + (x mod (~1 + (x div ~2))))))) mod 2)
1: ((x div (~1 + (x div (x + ~18)))) mod 2)
1: ((x div (~1 + ((x2 + x) mod 16))) mod 2)
1: ((x div (~2 + ((x div 4) mod 2))) mod 2)
1: ((x div (~2 + ((i div 2) mod 2))) mod 2)
1: ((x div (~2 + (x mod ~2))) mod (2 + (x div 3)))
1: ((x div (~1 + (x mod ~4))) mod 3)
1: ((x div (~1 + (x mod (~1 + (x div ~2))))) mod (1 + (x div 3)))
1: ((x div (~2 + (x mod (~1 + (x div ~3))))) mod 2)
1: ((x div ((x + ~2) - (x mod 3))) mod 2)
1: ((x div (x - (8 * (2 - (x mod 2))))) mod 2)
1: ((x div ~8) mod 2)
1: ((x div ~8) mod (x + 2))
1: ((x div (3 * (1 + ((1 + (x mod 4)) div 2)))) mod 2)
1: ((x div (2 * (2 + ((x + 1) mod 4)))) mod 2)
1: ((x div (3 * (2 + ((x + ~1) mod 4)))) mod 2)
1: ((x div (3 * (1 + (x mod 2)))) mod 3)
1: ((x div (5 * (1 + (x mod 3)))) mod 2)
1: ((x div (2 * (2 + (x mod 4)))) mod 2)
1: ((x div ~6) mod 2)
1: ((x div ~6) mod (x + 2))
1: ((x div ~14) mod (2 + (x div 2)))
1: ((x div (2 * (2 - ((x * (x div 2)) mod 2)))) mod (1 + (x div 3)))
1: ((x div (~2x + 32)) mod 2)
1: ((x div (3 * (~1 + ((~x + 2) div 4)))) mod 2)
1: ((x div (2 * (~2 + ((x * (x div 2)) mod 2)))) mod 2)
1: ((x div (2 * (~2 + (x mod 2)))) mod 2)
1: ((x div (2 * (~2 + (x mod 2)))) mod (2 + (x mod 3)))
1: ((x div (2 * (x - ((x + 1) mod 4)))) mod 2)
1: ((x div (4 * (1 + (2 * (~2 + (x mod 2)))))) mod 2)
1: ((x div (4 * (1 + (2 * (x mod 2))))) mod 2)
1: ((x div (4 * (2 - (x mod 2)))) mod 2)
1: ((x div (8 * (~2 + (x mod 2)))) mod 2)
1: ((x div (3 * (if (x mod 2) <= 0 then 4 else 1))) mod 2)
1: ((x div (2 * (if (x mod 2) <= 0 then 4 else (x mod 4)))) mod 2)
1: ((x div (2 * (if (x mod 3) <= 0 then 1 else 4))) mod 2)
1: ((x div (if (~x + 2) <= 0 then (2 * (2 + (x mod 2))) else 1)) mod 2)
1: ((x div (if (x mod 2) <= 0 then 4 else 1)) mod 3)
1: ((x div (if (x mod 2) <= 0 then 4 else ~3)) mod 2)
1: ((x div (if (x mod (2 + (x mod 2))) <= 0 then 1 else 2)) mod 2)
1: ((x div loop(\(x,i).i,(x div 4),2)) mod 2)
1: ((i div (1 + ((x div 2) mod 3))) mod 2)
1: ((i div ~2) mod 2)
1: ((i div ~4) mod 2)
1: ((i div (2 * (~2 + (x mod 2)))) mod 2)
1: ((compr(\x.(1 - loop(\(x,i).(x + loop(\(x,i).(x - (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else (2x + ~1)))),x,(x + 1))),1,(2x + ~1))),x) div 2) mod 3)
1: ((compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x) div 2) mod 2)
1: ((1 mod (2 + (x * (2 - (x div 2))))) mod 2)
1: ((1 mod (~x2 + 2x + 4)) mod (x + 2))
1: ((1 mod (~2x + 1)) mod (4 + (x div 4)))
1: ((1 mod (~2x + 1)) mod (x + 4))
1: ((1 mod (1 - (2x mod (4 + (x div 4))))) mod (x + 3))
1: ((1 mod (2 - (if (x mod 4) <= 0 then x else 0))) mod 3)
1: ((1 mod (if (x mod 3) <= 0 then (x + ~2) else 1)) mod 2)
1: ((2 mod ((x + 2) - (x2 div 4))) mod 2)
1: ((2 mod (1 - (x * (x div 3)))) mod 2)
1: ((2 mod (2 - (x * (x div 3)))) mod 2)
1: ((2 mod (~1 + (x div (~2 + (x mod 2))))) mod 3)
1: ((3 mod (1 + (x div 3))) mod 2)
1: ((3 mod (if x <= 0 then 2 else x)) mod 2)
1: ((4 mod (x + 1)) mod (2 + (x mod 4)))
1: ((4 mod ((~x + 3) - (x div 3))) mod 2)
1: ((5 mod (x + 1)) mod 4)
1: ((5 mod (~x + 16)) mod 4)
1: (((5x + (((~x + 1) div (2 + (x div 2))) + (x div 5))) mod (1 + (x div 2))) mod 2)
1: ((((x2 + 1) + (x div 2)) mod 5) mod 2)
1: (((x + 3) mod (1 + (2 * (2 + (if (x mod 3) <= 0 then 0 else 2))))) mod 2)
1: (((x + 3) mod (1 + ((x + 2) div 5))) mod 2)
1: (((x + 4) mod (3 + (x div 5))) mod 2)
1: (((x + 4) mod 9) mod 2)
1: (((~x + 3) mod 9) mod 2)
1: (((~x + 3) mod (1 + (((x + 1) div 2) div 2))) mod 2)
1: (((~x + 3) mod (1 + (x div 3))) mod 2)
1: (((~x + 3) mod (2 - (x div ~2))) mod 2)
1: (((~x + 3) mod (2x + ~17)) mod 2)
1: (((~x + 4) mod (2 + (x div 2))) mod 2)
1: ((7 mod ((x + 1) - ((x div 2) mod 2))) mod 3)
1: (((x3 + 2x + 1) mod (1 + (x div 2))) mod 2)
1: (((3x + 7) mod (1 + (x div 3))) mod 2)
1: ((((x2 + 2x + 1) + (x div 2)) mod 7) mod 3)
1: (((1 + ((1 - (x div 3)) * (x div 2))) mod 3) mod 2)
1: (((~x2 + x + 1) mod (2 + (x div 4))) mod 2)
1: (((1 + ((2 - (x div 2)) * (x mod 2))) mod (x + 2)) mod 2)
1: (((2 + ((~x + 2) * (x div 2))) mod 5) mod 2)
1: (((x2 + ~2x + 1) mod 9) mod 2)
1: ((69 mod (x2 + 1)) mod 3)
1: (((20x + 1) mod (1 + (x div 2))) mod 3)
1: (((1 + (2 * ((4 * ((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3)) div 3))) mod (x + 1)) mod 3)
1: (((1 + (3 * ((2x + 1) mod 7))) mod (x + 1)) mod 3)
1: (((1 + (x * ((if x <= 0 then 1 else (x div 3)) mod 2))) mod 5) mod 3)
1: (((1 + (2 * (x mod 4))) mod (2 + (x div 2))) mod 2)
1: (((2x + 1) mod (1 + (2 * (1 + ((x div 2) mod 2))))) mod 2)
1: (((2x + 1) mod (1 + (2 * (x mod 4)))) mod 2)
1: (((2x + 1) mod 29) mod 5)
1: (((2x + 1) mod (~1 + ((~x + 1) div 5))) mod 2)
1: (((2x + 1) mod (~1 + (x div (~2 + (x mod ~2))))) mod 2)
1: (((x2 + 1) mod (1 + (x div 2))) mod 2)
1: (((x2 + 1) mod ((2x + 4) div 3)) mod 2)
1: (((x2 + 2) mod (3x + 1)) mod 2)
1: (((x2 + 2) mod (2x + 9)) mod 2)
1: (((x2 + 2) mod (1 + ((x + 1) div 3))) mod 2)
1: (((x2 + 2) mod (1 + (x div 2))) mod 3)
1: (((x2 + 2) mod (2 + (x mod 4))) mod 2)
1: (((x2 + 2) mod (2x + ~3)) mod 2)
1: (((x2 + 2) mod 6) mod (1 + (x div 2)))
1: (((x2 + 4) mod (1 + (x div 2))) mod 2)
1: (((1 + ((x2 + 1) div 2)) mod (x + 2)) mod 2)
1: (((2 + ((1 + ((((x + 1) * (6 + ((x + 1) div (5 * (1 + (x mod 3)))))) div 2) div 2)) div 2)) mod 5) mod 3)
1: (((1 + ((x + 1) div 2)) mod 5) mod 2)
1: (((1 + ((x + 1) div 3)) mod 5) mod 2)
1: (((2 + ((x + 2) div (2 + (x mod 4)))) mod (x + 2)) mod 2)
1: ((((x2 + ~x) + ((x + ~1) div 3)) mod 5) mod 2)
1: (((1 + ((x - (((x + 2) - ((((x + 2) * ((~x + 2) div 2)) div 2) div 2)) div 2)) div 2)) mod (x + 1)) mod 5)
1: (((x + ((4 * (x div 3)) div 3)) mod 3) mod 2)
1: (((x + (((x div 2) * (x div 2)) div 2)) mod 3) mod 2)
1: (((1 + ((x * (x div 2)) div 2)) mod 17) mod 2)
1: (((1 + ((x * (x mod 2)) div 2)) mod 5) mod 2)
1: (((1 + (2x div (1 + (2 * (x mod 2))))) mod 5) mod 2)
1: (((1 + (x2 div 2)) mod (x + 4)) mod 2)
1: (((2 + (x2 div 2)) mod (x + 1)) mod 2)
1: (((x + (x2 div 3)) mod 3) mod 2)
1: (((1 + (x2 div (2 + (x div 2)))) mod (x + 1)) mod 2)
1: (((1 + (((loop(\(x,i).2x,(x + 1),~2) mod (x + 1)) div 2) div 2)) mod 3) mod (x + 1))
1: (((1 + ((x div 2) div (1 + (x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4))))))))) mod 4) mod 3)
1: (((1 + (x div 2)) mod 4) mod 3)
1: (((1 + (x div 2)) mod (1 + (2 * (2 - (x mod 2))))) mod 2)
1: (((2 + (x div 2)) mod (~1 + (((~x + 2) div 2) div 3))) mod 2)
1: (((x + (x div 2)) mod 4) mod (1 + (x div 2)))
1: (((x + (x div 2)) mod (1 + (x div 5))) mod 2)
1: ((((x div 3) + (x div 2)) mod 3) mod 2)
1: (((x + (x div 3)) mod 5) mod 2)
1: (((2 + (x div (2 + (x mod 2)))) mod 5) mod 2)
1: (((1 + (x div (1 - (2 * (x div 3))))) mod 3) mod 2)
1: (((x + (4 mod (x + 1))) mod 3) mod 2)
1: (((1 + (((x div 2) - ((((x + 1) div 2) div 2) mod 2)) mod 3)) mod (x + 1)) mod 3)
1: (((x + ((x + ~1) mod 3)) mod 5) mod 2)
1: (((1 + (16 mod (x + 1))) mod 5) mod 2)
1: (((1 + (2x mod 7)) mod (1 + (x div 3))) mod 3)
1: (((x2 + (x mod 3)) mod 5) mod 2)
1: (((1 + (x mod 5)) mod (1 + (x div 3))) mod 2)
1: (((1 + (x mod 7)) mod (x + 1)) mod 2)
1: (((2 + (x mod 7)) mod (x + 1)) mod 2)
1: (((1 + (x mod (1 + (3 * ((loop(\(x,i).(2x + 2),x,0) mod (x + 1)) div 2))))) mod (x + 1)) mod 3)
1: (((2 + (x mod (2 + (x div 2)))) mod 5) mod 2)
1: (((2 + (x mod (2 + (x mod 3)))) mod (1 + (x div 3))) mod 2)
1: (((1 + (x mod (~1 + ((~x + 2) div 3)))) mod (1 + (x div 2))) mod 3)
1: (((x + (if (~2 + (x div 2)) <= 0 then 1 else 0)) mod 5) mod 2)
1: (((x + (if (~2 + (x div 2)) <= 0 then 1 else 2)) mod 4) mod (1 + (x div 2)))
1: (((x + (if (~2 + (x div 2)) <= 0 then 3 else x)) mod 5) mod 2)
1: (((x + (if (x + ~10) <= 0 then 1 else 2)) mod 5) mod 2)
1: (((x + (if x <= 0 then 1 else (if (16 mod (x + 1)) <= 0 then 8 else 1))) mod 8) mod 3)
1: (((1 + loop(\(x,i).2x,x,1)) mod (3x + 1)) mod 2)
1: (((x + 1) mod 3) mod (2 - ((~x2 + x) mod 5)))
1: (((x + 1) mod 4) mod (x + 1))
1: (((x + 1) mod 4) mod (2 - ((x div 4) div ~2)))
1: (((x + 1) mod 4) mod (if x <= 0 then 1 else x))
1: (((x + 1) mod 5) mod 3)
1: (((x + 1) mod 5) mod (1 + (x div 2)))
1: (((x + 1) mod 5) mod (x + 1))
1: (((x + 1) mod (4 + (x div 2))) mod 3)
1: (((x + 1) mod (3 + (4 mod (x + 2)))) mod 2)
1: (((x + 1) mod (3 + (x mod 4))) mod 2)
1: (((x + 1) mod (1 + (2 * (3 - (x mod 2))))) mod 2)
1: (((x + 1) mod (1 + (4 * ((x div 4) mod 2)))) mod 2)
1: (((x + 1) mod (1 + (2 * ((1 - (((2x + ~2) mod (2 + (x div 4))) mod 3)) mod 3)))) mod 2)
1: (((x + 1) mod (1 + (2 * ((~x + 1) mod 8)))) mod 2)
1: (((x + 1) mod (1 + (3 * ((~x + 2) mod 3)))) mod 2)
1: (((x + 1) mod (1 + (2 * (2x mod (2 + (x div 3)))))) mod 2)
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1: (((x + 1) mod (1 + (2 * (x mod 5)))) mod 2)
1: (((x + 1) mod (1 + (2 * (if (x mod 4) <= 0 then 2 else x)))) mod 2)
1: (((x + 1) mod (1 + (2 * (if x <= 0 then 0 else 2)))) mod 2)
1: (((x + 1) mod (1 + (3 * (if x <= 0 then 0 else 2)))) mod 2)
1: (((x + 1) mod (1 + ((x + 1) div 5))) mod 2)
1: (((x + 1) mod (2 + (((x2 div 2) mod (x + 1)) div 2))) mod 3)
1: (((x + 1) mod (2 + ((x mod (1 + (4 mod (x + 1)))) div 2))) mod 3)
1: (((x + 1) mod (1 + (x div 4))) mod 2)
1: (((x + 1) mod (2 + (x div 4))) mod 3)
1: (((x + 1) mod (1 + ((x2 + ~x) mod 9))) mod 2)
1: (((x + 1) mod (1 + ((x2 + ~x) mod 9))) mod 3)
1: (((x + 1) mod (2 + (x mod 4))) mod 2)
1: (((x + 1) mod (2 + (x mod 4))) mod (x + 1))
1: (((x + 1) mod (~1 - (x div 4))) mod 2)
1: (((x + 1) mod ~7) mod (x + 2))
1: (((x + 1) mod (2 - (3 * (x div 2)))) mod 2)
1: (((x + 1) mod ((~x + 2) - (x div 2))) mod 2)
1: (((x + 1) mod (~1 + (3 * (x div 2)))) mod 2)
1: (((x + 1) mod (~2 + ((~x + 1) div 3))) mod 2)
1: (((x + 1) mod (~2 + ((~x + 2) div 4))) mod 2)
1: (((x + 1) mod ((x + ~2) + (2x mod 5))) mod 2)
1: (((x + 1) mod (2 * (1 + (x mod (2 * (1 + (x mod 2))))))) mod (x + 1))
1: (((x + 1) mod 16) mod 3)
1: (((x + 2) mod 4) mod (1 + (x div 3)))
1: (((x + 2) mod 5) mod 2)
1: (((x + 2) mod 5) mod 4)
1: (((x + 2) mod 5) mod (1 + (x div 4)))
1: (((x + 2) mod (1 + (2 * ((2 + (x div 2)) div 3)))) mod 2)
1: (((x + 2) mod (1 + (3 * (if x <= 0 then 0 else 2)))) mod 3)
1: (((x + 2) mod (2 + (x div 4))) mod 2)
1: (((x + 2) mod (1 + (4 mod (x + 1)))) mod 2)
1: (((x + 2) mod (2 + ((x div 2) mod 5))) mod 2)
1: (((x + 2) mod (2 + (x mod 4))) mod 4)
1: (((x + 2) mod (~1 + (2 * (((~x + 2) div 2) div 3)))) mod 2)
1: (((x + 2) mod (~1 + (2 * (x mod 8)))) mod 2)
1: (((x + 2) mod 6) mod (if x <= 0 then 1 else x))
1: (((x + 2) mod 12) mod (x + 1))
1: (((x + 2) mod 10) mod 9)
1: (((1 + i) mod (x + 1)) mod 2)
1: (((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 5) mod 3)
1: (((compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)) mod 5) mod (1 + (x div 4)))
1: (((0 - ((x * (x mod 2)) div 3)) mod 5) mod 3)
1: ((~x mod 5) mod 3)
1: ((~x mod 5) mod (x + 2))
1: ((~x mod 8) mod 3)
1: ((~x mod (5 * (1 + (x mod 4)))) mod 4)
1: (((1 + (x mod 3) - (x div 2)) mod (x + 2)) mod 2)
1: (((1 - (2 * ((2x + 2) + ((x - (x div 4)) div 2)))) mod (x + 1)) mod 3)
1: (((~2x + 1) mod (2 + ((x div 2) + (x mod 3)))) mod 2)
1: (((~2x + 1) mod (2 + (x div 2) - (x mod 2))) mod 2)
1: (((~x2 + 1) mod (x + 4)) mod 5)
1: (((~x2 + 1) mod (3x + 2)) mod 2)
1: (((~x2 + 1) mod (x + 12)) mod 3)
1: (((~x2 + 1) mod (2 + (x div 2))) mod 2)
1: (((~x2 + 1) mod (2 - (x div ~2))) mod 2)
1: (((~x2 + 1) mod 11) mod 3)
1: (((1 - ((x * (x div 3)) div 3)) mod (x + 1)) mod 2)
1: (((1 - (x2 div 2)) mod (x + 3)) mod 2)
1: (((1 - ((x div 2) div (1 + (x mod 2)))) mod (2x + 3)) mod 2)
1: (((1 - (x div 2)) mod (~1 + (2 * (x mod 4)))) mod 3)
1: (((1 - (x div 2)) mod (~1 + (2 * (x mod 4)))) mod (1 + (x div 3)))
1: (((1 - (x div (1 + (x mod 4)))) mod (1 + (x div 2))) mod 4)
1: (((1 - (2x mod (1 + ((x + 1) div 3)))) mod (x + 1)) mod 3)
1: (((1 - (x mod (~1 + (4 * (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 8)))))) mod (2x + 2)) mod 4)
1: (((1 - (if ((x div 2) mod 3) <= 0 then (x div 2) else 0)) mod (x + 1)) mod 3)
1: (((1 - loop(\(x,i).(2x + ~4),(x div 3),0)) mod (x + 1)) mod 3)
1: (((~x + 1) mod 4) mod (x + 1))
1: (((~x + 1) mod (3 + ((x + 2) div (2 - (x mod 2))))) mod 3)
1: (((~x + 1) mod (3 + ((x + ~1) mod 3))) mod 2)
1: (((~x + 1) mod (1 + (4 * ((x mod (1 + (x div 2))) div 2)))) mod 3)
1: (((~x + 1) mod (2 + (x div 2))) mod 2)
1: (((~x + 1) mod (1 + (x div 3))) mod 2)
1: (((~x + 1) mod (2 + ((x2 + 2) mod (1 + (x div 2))))) mod 2)
1: (((~x + 1) mod (1 + ((x2 + ~1) mod 9))) mod 2)
1: (((~x + 1) mod (1 + (x2 mod (x + 4)))) mod 2)
1: (((~x + 1) mod (~3 + (if x <= 0 then 2 else 0))) mod 6)
1: (((3 - (x div 2)) mod (2x + 1)) mod 2)
1: (((2 + loop(\(x,i).(4 * ((2 - (x mod 2)) * (if x <= 0 then 1 else 2))),(x mod 4),1) - (x mod 2)) mod (x + 1)) mod 3)
1: (((2 - ((x + ~1) div 2)) mod (x + 1)) mod 3)
1: (((2 - (x div 2)) mod (x + 2)) mod 3)
1: (((2 - (x div 2)) mod (if x <= 0 then 1 else x)) mod 3)
1: (((2 - (x div 3)) mod 3) mod (x + 1))
1: (((2 - (x div (2 * (~2 + (x mod 2))))) mod (x + 1)) mod 2)
1: (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) mod 7)
1: (((2 - (x mod 4)) mod (1 + (x div 3))) mod 2)
1: (((2 - (x mod 4)) mod (x + 1)) mod 3)
1: (((~x + 2) mod (3 + (x div 2))) mod 3)
1: (((~x + 2) mod (3 + (x div (1 + (x mod 4))))) mod 2)
1: (((~x + 2) mod 9) mod 2)
1: (((~x + 2) mod (1 + (2 * (1 + ((~x + 2) mod 4))))) mod 2)
1: (((~x + 2) mod (2 + (x div 4))) mod 2)
1: (((~x + 2) mod 11) mod 2)
1: (((~x + 2) mod 8) mod 3)
1: ((((~x + 4) + (x div 4)) mod (1 + (x div 2))) mod 2)
1: ((((x + ~1) + (x div 2)) mod (x + 4)) mod 2)
1: ((((x + ~2) + (x div 2)) mod (2 + (x div 4))) mod 2)
1: (((~3 + (x div 3)) mod (x + 2)) mod 2)
1: (((~x + 8) mod (1 + ((x + 1) div 2))) mod 2)
1: (((~1 + (2 * (1 + ((1 + (((loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) + (loop(\(x,i).(2x + 2),x,0) mod (x + 1))) div 2) div 2)) div 2)))) mod (x + 1)) mod 3)
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1: (((2x2 + ~1) mod (2 - (x div ~2))) mod 2)
1: (((x3 + ~1) mod (x + 3)) mod 2)
1: (((~2 + (x * (x div 2))) mod 7) mod 2)
1: (((~2 + (x * (x div 2))) mod (1 + (x div 3))) mod 2)
1: (((~2 + (x * (x mod 3))) mod 7) mod 2)
1: (((2x + ~1) mod (4 + (x div 4))) mod (x + 1))
1: (((2x + ~1) mod ((x + 2) - (x div 4))) mod 2)
1: (((2x + ~1) mod (x - ((x + 1) mod 4))) mod 2)
1: (((x2 + ~1) mod (1 + (x div 3))) mod 2)
1: (((x2 + ~1) mod (2 - (x div ~2))) mod 3)
1: (((x2 + ~1) mod ((x + ~2) + (x div 2))) mod 2)
1: (((x2 + ~1) mod (2x + ~5)) mod 2)
1: (((x2 + ~1) mod ((x + ~3) - (x mod 2))) mod 2)
1: (((x2 + ~2) mod (x + 6)) mod 3)
1: (((x2 + ~2) mod (x + 9)) mod 2)
1: (((x2 + ~2) mod (2x + 5)) mod 2)
1: (((x2 + ~2) mod (4x + ~1)) mod 2)
1: (((~1 + ((x + (x div 4)) div 2)) mod (x + 2)) mod 2)
1: (((~1 + ((x + ~2) div 3)) mod 5) mod 2)
1: (((~x + ((x + ~2) div 3)) mod (2 + (x div 2))) mod 2)
1: (((~2 + ((x + ~2) div 5)) mod (x + 2)) mod 2)
1: (((~1 + (((1 + (x * (x div 2))) div 2) div 2)) mod (x + 1)) mod 2)
1: (((~1 + (x div 2)) mod (2 + ((x div 2) mod 2))) mod 2)
1: (((~1 + (x div 2)) mod (x + 2)) mod 2)
1: (((~2 + (x div 2)) mod (1 + ((x + ~1) mod 5))) mod 2)
1: ((((x div 2) - (x mod 2)) mod 7) mod 2)
1: (((~x + (x div 3)) mod (1 + (x mod 3))) mod 2)
1: (((~1 + (x div ~2)) mod (1 + (x div 4))) mod 2)
1: (((~2 + (x div (~2 + (x mod 2)))) mod (1 + (x div 3))) mod 3)
1: (((~x + ((~x + 1) mod 3)) mod 5) mod 2)
1: (((~1 + ((x + ((x - (x div 4)) mod 2) - (x mod 2)) mod 3)) mod (x + 1)) mod 3)
1: (((~1 + ((~2x + 2) mod (4 + (x div 4)))) mod (1 + (x2 div 4))) mod (x + 1))
1: (((~1 + ((~2x + 2) mod (4 + (x div 4)))) mod (1 + (x div 2))) mod 3)
1: (((~1 + (x mod 3)) mod (1 + (x div 4))) mod 2)
1: (((~1 + (x mod 3)) mod (2 + (x div 5))) mod 2)
1: (((~1 + (x mod 5)) mod (if x <= 0 then 1 else x)) mod 2)
1: (((~1 + loop(\(x,i).4x,x,2)) mod 19) mod 2)
1: (((~1 + loop(\(x,i).2x,(1 + (x div (1 + (loop(\(x,i).2x,x,2) mod (2x + 1))))),1)) mod (x + 2)) mod (x + 1))
1: (((x + ~1) mod (1 + (2 * (((x + 1) div 2) mod 4)))) mod 2)
1: (((x + ~1) mod (1 + ((x + 1) div 5))) mod 2)
1: (((x + ~1) mod (1 + (x div 3))) mod 2)
1: (((x + ~1) mod (2 + (x div 4))) mod 3)
1: (((x + ~1) mod (1 + (x div 5))) mod 2)
1: (((x + ~1) mod (1 + ((x + ~1) mod 4))) mod 2)
1: (((x + ~1) mod (2 + ((x div 2) mod 2))) mod 2)
1: (((x + ~1) mod (1 + (x mod 9))) mod 2)
1: (((x + ~1) mod (2 - ((~x + (x mod 2)) div 3))) mod 2)
1: (((x + ~1) mod (2 - ((if x <= 0 then 1 else x) div ~4))) mod 2)
1: (((x + ~1) mod (2 - (x div ~2))) mod 3)
1: (((x + ~1) mod (~1 + (2 * (~2 + (x mod 2))))) mod 2)
1: (((x + ~1) mod (~1 + (4 * ((x + ~2) div 3)))) mod 2)
1: (((x + ~1) mod (~1 + (x div ~3))) mod 2)
1: (((x + ~1) mod (~2 + (x div (~2 + (x mod 2))))) mod 2)
1: (((x + ~1) mod 6) mod (1 + (x div 2)))
1: (((x + ~1) mod 8) mod 3)
1: (((x + ~2) mod 5) mod 3)
1: (((x + ~2) mod (5 + (x mod 3))) mod 2)
1: (((x + ~2) mod (4 + (x div 2))) mod 2)
1: (((x + ~2) mod 7) mod 2)
1: (((x + ~2) mod (1 + (2 * ((x + 2) mod 4)))) mod 2)
1: (((x + ~2) mod (1 + (2 * (if x <= 0 then 0 else 2)))) mod 2)
1: (((x + ~2) mod (1 + ((x + 1) div 2))) mod 2)
1: (((x + ~2) mod (5 + (x div 3))) mod 2)
1: (((x + ~2) mod (2 + (((~x + 2) div 2) mod 4))) mod 2)
1: (((x + ~2) mod ~4) mod (2x + 1))
1: (((x + ~2) mod (~1 + (2 * (x div 4)))) mod 2)
1: (((x + ~2) mod 8) mod (x + 1))
1: (((x + ~3) mod (2 + (x div 2))) mod 3)
1: ((((x + ~2) - (x * (x div 3))) mod 5) mod 2)
1: (((x - (2 div (x + 1))) mod 7) mod 2)
1: (((x - ((~x + 1) div (2 + (x div 2)))) mod 3) mod 2)
1: (((x - (2 mod (x + 1))) mod 5) mod 2)
1: (((x - ((x div 5) mod 2)) mod 3) mod ~2)
1: (((x - (if (~2 + (x div 2)) <= 0 then 1 else 2)) mod 8) mod 3)
1: (((x - (if x <= 0 then 2 else (x div 3))) mod 3) mod 2)
1: ((6 mod (1 + (x div 2))) mod 2)
1: ((6 mod (x + 2)) mod (x + 1))
1: ((6 mod (if x <= 0 then 1 else x)) mod 2)
1: ((3x mod 7) mod 3)
1: ((3x mod (1 + (2x div 3))) mod 2)
1: ((3x mod (1 + (x div 2))) mod 2)
1: ((8 mod (2x + 1)) mod (1 + (x div 2)))
1: ((8 mod (2 - (x div ~2))) mod 2)
1: ((8 mod (~1 + (x div ~2))) mod 2)
1: ((12 mod (x + 2)) mod 2)
1: (((4x + ~4) mod (x + 3)) mod 2)
1: ((10 mod (1 + ((x + 1) div 2))) mod 2)
1: (((~5x + 5) mod (1 + (x div 2))) mod 2)
1: (((3x + 9) mod (1 + (x div 2))) mod 3)
1: (((2x + 8) mod (1 + (x div 2))) mod 3)
1: (((~2x + 6) mod (1 + (x div 2))) mod 2)
1: ((7x mod 17) mod 2)
1: (((2x2 + 4) mod (x + 3)) mod 2)
1: (((x3 + 2x) mod (2x + 3)) mod 2)
1: (((x * (2 + (x mod 3))) mod 7) mod 2)
1: (((x2 + x) mod 7) mod 5)
1: (((x2 + x) mod 22) mod 3)
1: (((x * (1 + i)) mod 5) mod 2)
1: (((~x2 + x) mod (1 + (x div 2))) mod 2)
1: (((~2x + 4) mod (1 + (x div 2))) mod 2)
1: (((3 * ((x + 2) - (x mod 8))) mod (x + 1)) mod 4)
1: (((2x2 + ~x) mod 9) mod (x + 1))
1: (((2x + ~2) mod (x + 3)) mod 5)
1: (((2x + ~2) mod (2 + (x div 2))) mod 2)
1: (((2x + ~2) mod (2 + (x div 4))) mod 3)
1: (((2x + ~4) mod (x + 1)) mod 2)
1: (((2x + ~4) mod (2 - ((~x + 1) div 3))) mod 2)
1: (((x2 + ~2x) mod (x + 5)) mod 3)
1: (((x2 + ~2x) mod 9) mod 2)
1: (((x2 + ~2x) mod (1 + (x div 2))) mod 2)
1: (((x2 + ~2x) mod (2 + (x div 2))) mod 3)
1: (((x2 + ~2x) mod (~1 + (x div ~2))) mod 2)
1: (((x2 + ~4x) mod 9) mod 2)
1: ((16 mod (x + 1)) mod 2)
1: (((10 * (1 + (2 * (x mod 2)))) mod (x + 1)) mod 3)
1: (((3 * ((2 - (x mod 2)) * (x mod 4))) mod (x + 1)) mod 3)
1: ((8x mod 13) mod 2)
1: ((x5 mod (2x + ~1)) mod 2)
1: ((x5 mod 32) mod (x + 1))
1: (((6 * (x div (1 + (loop(\(x,i).2x,x,2) mod (2x + 1))))) mod (x + 1)) mod 5)
1: ((4x mod (1 + (x div 2))) mod 2)
1: ((6x mod (1 + (x div 2))) mod 2)
1: ((2x2 mod (4 + (x div 4))) mod (1 + (x div 2)))
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1: ((2x2 mod (2 - (x div ~2))) mod 2)
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1: (((x3 + ~x2) mod (2x + 5)) mod 3)
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1: ((x4 mod (5x + 5)) mod 3)
1: ((x3 mod ((x + 1) + (x div 2))) mod 2)
1: ((x3 mod (x + 4)) mod 3)
1: ((x3 mod (1 + (2 * (x mod 4)))) mod 2)
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1: ((x3 mod (x - ((~x + 2) div 2))) mod 3)
1: ((x3 mod (11 * (1 + (x mod 3)))) mod 10)
1: (((x * (x div 2)) mod (6x + 1)) mod 2)
1: ((((x + ~2) * (x div 3)) mod (x + 2)) mod 2)
1: (((x * (x div 3)) mod (1 + ((2 - (x div 2)) mod 4))) mod 3)
1: (((x * (x div 5)) mod 5) mod 2)
1: ((((x + 1) * (x div (3 + (x mod 2)))) mod 5) mod 3)
1: (((2 * (if (((x2 + 2x) div 2) mod 3) <= 0 then 1 else 2)) mod (1 + (x div 3))) mod 4)
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1: ((((x + 1) * (if x <= 0 then 1 else 2)) mod 7) mod 2)
1: ((2x mod 3) mod (if (x mod 2) <= 0 then 2 else x))
1: ((2x mod 5) mod 3)
1: ((2x mod (x + 5)) mod (x + 1))
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1: ((2x mod (4 + (x div 3))) mod 2)
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1: ((2x mod (3 + (x * ((x div 2) mod 2)))) mod 2)
1: ((2x mod (5 + ((x + 1) div 2))) mod 2)
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1: ((2x mod (~1 + (3 * (x div 2)))) mod 2)
1: ((2x mod (~1 + (2 * (x div 4)))) mod 2)
1: ((2x mod (~1 + ((~x + 1) div 3))) mod 4)
1: ((2x mod (~1 + ((~x + (x mod 2)) div 3))) mod 2)
1: ((2x mod (~1 + (x div ~2))) mod 2)
1: ((x2 mod (x + 3)) mod 2)
1: ((x2 mod (x + 4)) mod 2)
1: ((x2 mod (x + 4)) mod 3)
1: ((x2 mod ((2x + 1) - (x mod 3))) mod 2)
1: ((x2 mod 7) mod 3)
1: ((x2 mod 9) mod 2)
1: ((x2 mod (1 + (2 * (2 + (x div 2))))) mod 2)
1: ((x2 mod (1 + (2 * (x + (x div 3))))) mod 2)
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1: ((x2 mod (1 + (8 * (~2 + (x mod 2))))) mod 2)
1: ((x2 mod (4x + 1)) mod 2)
1: ((x2 mod (1 + (2 * (x mod 4)))) mod 2)
1: ((x2 mod (2 + (((x + 1) div 2) div 2))) mod 2)
1: ((x2 mod (1 + ((x2 + ~x) mod (x + 4)))) mod 2)
1: ((x2 mod (2 + (x mod 8))) mod 2)
1: ((x2 mod (2 + (if (x mod 2) <= 0 then (x div 2) else 1))) mod 2)
1: ((x2 mod ~11) mod 2)
1: ((x2 mod ((x + ~2) + (2x div 3))) mod 2)
1: ((x2 mod (~1 + (2 * (x + (3 * (x div 2)))))) mod 3)
1: ((x2 mod ~13) mod 2)
1: ((x2 mod (2x + ~5)) mod 3)
1: ((x2 mod (2x + ~5)) mod 5)
1: ((x2 mod (3x + ~8)) mod 2)
1: ((x2 mod 15) mod 2)
1: ((x2 mod (4x + 7)) mod 3)
1: ((x2 mod (~1 + (6 * (if (~2 + (x div 3)) <= 0 then 0 else 2)))) mod 2)
1: ((x2 mod (4x + ~1)) mod 4)
1: ((x2 mod (~1 + (2 * ((x + ~2) div 3)))) mod 2)
1: ((x2 mod (~1 + ((~x + 2) div 3))) mod 2)
1: ((x2 mod (~1 + ((~x + (x mod 3)) div 2))) mod 2)
1: ((x2 mod ((x + ~1) + (x mod 5))) mod 2)
1: ((x2 mod (x - ((~x + 2) div 2))) mod 3)
1: ((x2 mod (x - ((x + 1) mod 6))) mod 2)
1: ((x2 mod 6) mod (1 + (x div 2)))
1: ((x2 mod 10) mod (1 + (((x + 1) div 2) div 2)))
1: ((((2x2 + 1) div 3) mod (x + 2)) mod 2)
1: ((((2x + 1) div 5) mod 3) mod 2)
1: ((((x2 + 1) div 2) mod (x + 2)) mod 2)
1: ((((x2 + 2) div (x + 2)) mod (2 + (x div 2))) mod 2)
1: ((((x + (x2 div (2 + (x div 2)))) div 2) mod (x + 1)) mod 2)
1: ((((x + ((x + 1) mod 3)) div 2) mod 5) mod 2)
1: ((((2 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 3) mod 5) mod 3)
1: ((((x + 1) div 2) mod (3 + (x mod 3))) mod 2)
1: ((((x + 1) div (2 + ((x div 2) mod 2))) mod 3) mod 2)
1: ((((x + 2) div 3) mod 4) mod 3)
1: ((((x + 2) div (2 - (x * (x mod 2)))) mod 3) mod 2)
1: ((((x + 2) div (~1 + (2 * (x mod 4)))) mod 3) mod 2)
1: ((((~x + 1) div 2) mod (x + 1)) mod 4)
1: ((((~x + 1) div 5) mod (x + 2)) mod 2)
1: ((((~x2 + 2) div 2) mod 7) mod 2)
1: ((((~x2 + 2) div 2) mod 17) mod 2)
1: ((((2 - ((x + (x div 2)) div 2)) div 2) mod (x + 2)) mod 2)
1: ((((~x + 2) div 2) mod (2 + ((x div 2) mod 2))) mod 2)
1: ((((~x + 2) div 2) mod (x + 1)) mod 2)
1: ((((~x + 2) div 4) mod (2 + (x mod 3))) mod 2)
1: ((((~x + 2) div 5) mod (x + 1)) mod 2)
1: (((((~x + 2) + (x mod (2 + (x mod 2)))) div 2) mod 5) mod 3)
1: ((((2x2 + ~1) div 3) mod (x + 2)) mod 2)
1: ((((x3 + ~1) div 2) mod (2x + 1)) mod 2)
1: ((((~x + (x mod 2)) div 3) mod (x + 2)) mod 2)
1: ((((x + ~1) div 2) mod (1 + (if x <= 0 then 1 else 4))) mod 2)
1: ((((x + ~1) div 2) mod (~4 - (x div 4))) mod 3)
1: ((((x + ~1) div 2) mod (2 - (x mod ~4))) mod 2)
1: ((((x * (1 + (x mod 2))) div 3) mod 3) mod 2)
1: ((((x2 + 2x) div 2) mod (1 + (x div (2 + (x div 4))))) mod 3)
1: ((((x2 + 2x) div (2 + (x div 2))) mod 3) mod 2)
1: ((((x * (~1 + (x div 2))) div 2) mod (2x + 1)) mod 2)
1: ((((x * (~1 + (x div 2))) div 3) mod (x + 1)) mod 2)
1: (((x3 div 2) mod 7) mod 2)
1: (((x3 div 3) mod 6) mod 4)
1: (((x3 div (x + 4)) mod 3) mod 2)
1: (((2x div (1 + (x div 4))) mod (x + 1)) mod 2)
1: (((2x div ~7) mod (x + 1)) mod 4)
1: (((x2 div 2) mod (x + 4)) mod 2)
1: (((x2 div 2) mod (x + 2)) mod 4)
1: (((x2 div 3) mod 3) mod 2)
1: (((x2 div 3) mod (2x + 1)) mod 2)
1: (((x2 div 4) mod (x + 1)) mod 2)
1: (((x2 div 4) mod (x + 1)) mod 3)
1: (((x2 div 4) mod (3x + 3)) mod 2)
1: (((x2 div 7) mod 3) mod 2)
1: (((x2 div (3 + (x * (x mod 2)))) mod (x + 1)) mod 2)
1: (((x2 div ~4) mod 5) mod 3)
1: (((x2 div (~1 + (2 * (x div 2)))) mod 3) mod 2)
1: (((((x + 1) div 2) div 2) mod 3) mod 2)
1: (((((x + ~1) div 2) div 2) mod 3) mod 2)
1: (((((x + ~1) div 2) div 2) mod (1 + (x mod 3))) mod 2)
1: (((((x2 div 2) mod (x + 2)) div 2) mod 3) mod 2)
1: (((x div 2) mod 5) mod (1 + (x div 4)))
1: (((x div 2) mod (3 + (x mod 4))) mod 2)
1: (((x div 2) mod (4 + (x mod 4))) mod 2)
1: (((x div 2) mod (1 + (x div 5))) mod 2)
1: (((x div 2) mod (1 + (2 mod (1 + (x div 2))))) mod 2)
1: (((x div 2) mod (~1 + (2 * (x div 3)))) mod 2)
1: (((x div 3) mod 3) mod 2)
1: (((x div (1 + (x div 7))) mod 3) mod 2)
1: (((x div ~2) mod 2) mod (if (x mod 3) <= 0 then 1 else x))
1: (((x div (~1 - (x mod 4))) mod (1 + (x div 3))) mod 3)
1: (((x div ~3) mod 3) mod 2)
1: (((x div (~2 - (x div 3))) mod (x + 1)) mod 2)
1: (((x div (~2 + ((x div 2) mod 2))) mod 3) mod 2)
1: ((((x + 1) mod (4 + (x div 2))) mod 3) mod 2)
1: ((((x + 1) mod (2 + (x div 4))) mod 3) mod 2)
1: ((((~x2 + 1) mod (x + 4)) mod 5) mod 2)
1: ((((1 - (x div 2)) mod (x + 2)) mod 3) mod 2)
1: ((((2 - (x div 2)) mod (x + 2)) mod 3) mod 2)
1: ((((x + ~1) mod 8) mod 3) mod 2)
1: ((((x + ~3) mod (2 + (x div 2))) mod 3) mod 2)
1: (((8 mod (~x + ~1)) mod 3) mod 2)
1: ((((2x + ~2) mod (x + 3)) mod 5) mod 2)
1: (((x2 mod (4 + (((x + 1) div 2) div 2))) mod 3) mod (1 + (x div 3)))
1: (((x2 mod (2x + ~5)) mod 5) mod 2)
1: ((((x2 div 4) mod (x + 1)) mod 3) mod 2)
1: (((x mod (6 + (x div 2))) mod 3) mod 2)
1: (((x mod (4 + (x div 4))) mod 3) mod 2)
1: (((x mod 7) mod 3) mod 2)
1: (((x mod (2 + (3 * (x mod 3)))) mod 3) mod 2)
1: (((x mod 8) mod 3) mod 2)
1: (((x mod 8) mod 5) mod 2)
1: (((if (~2 + (x div 2)) <= 0 then x else (x + 1)) mod 5) mod 2)
1: (((if (x + ~1) <= 0 then 1 else (x * (1 + (x mod 2)))) mod 5) mod 2)
1: (((if ((2 + (x div 2)) mod 4) <= 0 then 1 else x) mod 3) mod 2)
1: (((if (2x mod (2 + (x div 2))) <= 0 then 1 else x) mod 3) mod 2)
1: (((if (((x + ~1) div 2) mod 3) <= 0 then 1 else (x + ~1)) mod (1 + (x div 2))) mod 2)
1: (((if (x mod 2) <= 0 then (~x + 1) else x) mod (2 + (x div 2))) mod 2)
1: (((if (x mod 2) <= 0 then ((~x + 1) div 3) else 1) mod (x + 1)) mod 3)
1: (((if (x mod 3) <= 0 then 1 else (2 - (x div 2))) mod (x + 2)) mod 2)
1: (((if (x mod 3) <= 0 then 1 else x) mod (2 + (x div 2))) mod 2)
1: (((if (x mod 3) <= 0 then 1 else x) mod (2 - (x div ~2))) mod 2)
1: (((if x <= 0 then 1 else (2 + (x div 2))) mod 5) mod 2)
1: (((if x <= 0 then 1 else 2x) mod (2 + (x div 2) - (x mod 2))) mod 2)
1: (((if x <= 0 then 1 else x2) mod 9) mod 2)
1: (((if x <= 0 then 1 else ((~x2 + 2x) div 3)) mod 3) mod 2)
1: (((if x <= 0 then 1 else (x div 3)) mod 5) mod 2)
1: (((if x <= 0 then 1 else x) mod (3 + ((x div 2) mod 2))) mod 2)
1: (((if x <= 0 then 1 else x) mod (3 + (if (((x + 2) mod 8) mod 3) <= 0 then 0 else 2))) mod 3)
1: (((if x <= 0 then 1 else x) mod (1 + (2 * (3 - (x mod 2))))) mod 2)
1: (((if x <= 0 then 1 else x) mod (2 + (x div 4))) mod 2)
1: (((if x <= 0 then 1 else x) mod (2 + (((x + ~1) div 2) mod 2))) mod 2)
1: (((if x <= 0 then 1 else x) mod (2 + (x mod 2))) mod 2)
1: ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) mod 8)
1: ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) mod 10)
1: ((loop(\(x,i).(2x + 2),1,(x div (2 + (x div (1 + (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) mod 9)))))) mod (x + 1)) mod 3)
1: ((loop(\(x,i).(2x + 2),x,1) mod (30x + 10)) mod 3)
1: ((loop(\(x,i).(x2 + x),1,loop(\(x,i).(if x <= 0 then i else (x div 2)),x,0)) mod (x + 1)) mod 3)
1: ((loop(\(x,i).(~6x2 + ~3),2,x) mod (x + 1)) mod 3)
1: ((loop(\(x,i).2x,3,(~1 + (if x <= 0 then 2 else (x mod 2)))) mod (x + 1)) mod 4)
1: ((loop(\(x,i).2x,x,1) mod (1 + (4 * (x mod 4)))) mod 3)
1: ((loop(\(x,i).2x,x,(1 + (if (2x mod (4 + ((x + 1) mod 4))) <= 0 then 4 else 0))) mod (x + 1)) mod 3)
1: ((loop(\(x,i).2x,x,(loop(\(x,i).2x,x,3) mod (x + 2))) mod (x + 4)) mod 3)
1: ((loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) mod 13) mod 4)
1: ((loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) mod (4 * (2 + (x mod 4)))) mod 3)
1: ((x mod 2) mod (if (x mod 3) <= 0 then 1 else x))
1: ((x mod 3) mod (1 + (x div 3)))
1: ((x mod 3) mod (1 + (x mod 4)))
1: ((x mod 3) mod (~x + ~1))
1: ((x mod 4) mod (1 + (x div 2)))
1: ((x mod 4) mod (1 + (x mod 5)))
1: ((x mod 5) mod (1 + (x div 3)))
1: ((x mod 5) mod (1 + (x div 4)))
1: ((x mod 5) mod (1 + (x div 5)))
1: ((x mod 5) mod (~1 + (2 * (x div 2))))
1: ((x mod (6 + (x mod 2))) mod 2)
1: ((x mod (4 + (x div 2))) mod 2)
1: ((x mod (6 + (x div 2))) mod 3)
1: ((x mod (4 + (x div 4))) mod 2)
1: ((x mod (4 + (x div 4))) mod 3)
1: ((x mod (3 + ((x + 1) mod 3))) mod 2)
1: ((x mod (4 + ((x div 2) mod 2))) mod 2)
1: ((x mod (4 + ((x div 4) mod 2))) mod 2)
1: ((x mod (4 + (x mod 2))) mod 2)
1: ((x mod (3 + (x mod 4))) mod 3)
1: ((x mod ((x + 1) - (x3 div (5x + 1)))) mod 2)
1: ((x mod 7) mod (1 + (x div 2)))
1: ((x mod 7) mod (1 + (x div 4)))
1: ((x mod 9) mod (1 + (x div 4)))
1: ((x mod 9) mod 8)
1: ((x mod 13) mod 9)
1: ((x mod (1 + (2 * (1 + ((x div 2) mod 4))))) mod 2)
1: ((x mod (1 + (2 * ((if (x mod 3) <= 0 then 2 else 1) + (x mod 2))))) mod 2)
1: ((x mod (1 + (2 * (1 - (x div 4))))) mod 2)
1: ((x mod (1 + (2 * (2 - ((x div 2) div 3))))) mod 2)
1: ((x mod (1 + (2 * (2 - (x div 3))))) mod 2)
1: ((x mod (1 + (2 * (2 - (x mod 2))))) mod 2)
1: ((x mod (1 + (2 * (2 - (x mod 9))))) mod 2)
1: ((x mod (1 + (8 * (x mod 2)))) mod 2)
1: ((x mod (1 + (4 * (if (x mod 3) <= 0 then 0 else 2)))) mod 2)
1: ((x mod (1 + (4 * loop(\(x,i).i,(x + ~8),1)))) mod 3)
1: ((x mod (1 + (2 * (((~x + 2) mod (2 + (x div 2))) div 2)))) mod 3)
1: ((x mod (1 + (2 * (x div 4)))) mod 2)
1: ((x mod (1 + (2 * (x div 5)))) mod 2)
1: ((x mod (1 + (2 * ((2 + (x div 2)) mod 4)))) mod 2)
1: ((x mod (1 + (2 * ((1 - (x div 2)) mod 5)))) mod 2)
1: ((x mod (1 + (2 * ((x - ((~x + 1) div 3)) mod 3)))) mod 2)
1: ((x mod (1 + (2 * (16 mod (x + 1))))) mod 2)
1: ((x mod (1 + (2 * (((~x + 2) div 2) mod 4)))) mod 2)
1: ((x mod (1 + (2 * (x mod 3)))) mod 2)
1: ((x mod (2 + (3 * (x mod 3)))) mod 3)
1: ((x mod (1 + (2 * (x mod 4)))) mod 2)
1: ((x mod (1 + (3 * (x mod 7)))) mod 2)
1: ((x mod (1 + (2 * (x mod (2 + (x mod 3)))))) mod 3)
1: ((x mod (1 + (2 * (if (x mod 4) <= 0 then 0 else 2)))) mod 2)
1: ((x mod (1 + (((x + 1) + (x div 2)) div 2))) mod 3)
1: ((x mod (1 + (((x + 1) + (x div 4)) div 2))) mod 5)
1: ((x mod (6 + ((1 + (x div 2)) div 2))) mod 2)
1: ((x mod (1 + ((x + 2) div 3))) mod 2)
1: ((x mod (2 + ((x + 2) div (2 + (x mod 4))))) mod 2)
1: ((x mod (1 + ((2 * (x + ((x * (x div 2)) mod 2))) div 3))) mod 2)
1: ((x mod (2 + ((x2 mod (2x + ~1)) div 2))) mod 2)
1: ((x mod (1 + ((x mod 5) div 2))) mod 2)
1: ((x mod (1 + (x div 2))) mod 3)
1: ((x mod (1 + (x div 2))) mod 4)
1: ((x mod (2 + (x div 2))) mod 2)
1: ((x mod (2 + (x div 5))) mod 3)
1: ((x mod (2 + (x div (2 + (x mod 2))))) mod 2)
1: ((x mod (2 + (x div 8))) mod 2)
1: ((x mod (1 + (4 mod (x + 1)))) mod 2)
1: ((x mod (2 + ((2x + 1) mod (2 + (x div 2))))) mod 2)
1: ((x mod (1 + ((x + 1) mod 4))) mod 2)
1: ((x mod (1 + ((x + 1) mod 7))) mod 2)
1: ((x mod (6 + ((~x + 1) mod 4))) mod 3)
1: ((x mod (2 + ((2 - (x div 2)) mod (x + 2)))) mod 3)
1: ((x mod (1 + ((~x + 2) mod 4))) mod 2)
1: ((x mod (1 + ((~x + 2) mod (2 - (x div ~2))))) mod 2)
1: ((x mod (2 + (11 mod (2x + 1)))) mod 3)
1: ((x mod (1 + (6 mod (x + 1)))) mod 2)
1: ((x mod (1 + (10 mod (x + 1)))) mod 2)
1: ((x mod (1 + ((2 * (2 + (x mod 2))) mod (x + 1)))) mod 2)
1: ((x mod (1 + ((x2 + 2x) mod 8))) mod (1 + (x div 2)))
1: ((x mod (1 + ((~2x + 2) mod (1 + (x div 2))))) mod 2)
1: ((x mod (1 + ((~2x2 + 2x) mod (1 + (x div 2))))) mod 3)
1: ((x mod (1 + (2x mod (4 + (x div 2))))) mod 2)
1: ((x mod (1 + (x2 mod (x + 4)))) mod 2)
1: ((x mod (1 + (((x + (if (x mod 2) <= 0 then x else 1)) div 3) mod 3))) mod 2)
1: ((x mod (2 + (((x + ~1) div 2) mod 2))) mod 2)
1: ((x mod (1 + (((x + ~2) div 3) mod 3))) mod 2)
1: ((x mod (2 + ((x div 2) mod 3))) mod 3)
1: ((x mod (1 + ((x div 4) mod 3))) mod 2)
1: ((x mod (1 + ((6 mod (x + 2)) mod (x + 1)))) mod 2)
1: ((x mod (1 + ((2x mod 9) mod (x + 1)))) mod 2)
1: ((x mod (1 + ((x mod 6) mod (1 + (x div 2))))) mod 5)
1: ((x mod (1 + (x mod (1 + (2 * (2 + (x mod 2))))))) mod 2)
1: ((x mod (1 + (x mod (1 + (x div (2 + ((x div 2) mod 2))))))) mod 3)
1: ((x mod (2 + (x mod 8))) mod 2)
1: ((x mod (1 + (if (x mod 2) <= 0 then 12 else 1))) mod 4)
1: ((x mod (~1 - (4 * (x mod 4)))) mod 2)
1: ((x mod (~1 - (x div 5))) mod 2)
1: ((x mod (0 - ((x2 + 2) mod 5))) mod 2)
1: ((x mod ~7) mod (x + 1))
1: ((x mod ~11) mod 2)
1: ((x mod (1 - (2 * (2 + (x mod 6))))) mod 2)
1: ((x mod (1 - (2 * (((x + 1) div 2) div 2)))) mod 2)
1: ((x mod (1 - (2 * (x div 4)))) mod 2)
1: ((x mod (1 - (2 * (x mod 4)))) mod 2)
1: ((x mod (1 - (x div (~2 - (x mod 3))))) mod 2)
1: ((x mod (3 - (2x div ~5))) mod 2)
1: ((x mod (2 - (3 * (2 + (x div 4))))) mod 2)
1: ((x mod (2 - (x * (x div 3)))) mod 2)
1: ((x mod (2 - (x mod ~8))) mod 2)
1: ((x mod (4 - (x * (x div 2)))) mod 3)
1: ((x mod (4 - ((x2 + x) div 2))) mod 3)
1: ((x mod (5 - (if (x mod 2) <= 0 then x else 0))) mod 2)
1: ((x mod ((~x + 1) + (x mod 4))) mod 2)
1: ((x mod ~3) mod 9)
1: ((x mod ~4) mod (2x + 1))
1: ((x mod (~1 - (2 * (x div 5)))) mod 2)
1: ((x mod (~1 - ((x mod 5) div 2))) mod 2)
1: ((x mod (~1 - (4 mod (x + 1)))) mod 2)
1: ((x mod (~5 + ((x + 2) mod (2 + (x mod 2))))) mod 2)
1: ((x mod (~5 + ((x2 div 2) mod 3))) mod 2)
1: ((x mod (~5 + ((x div 2) mod 2))) mod 2)
1: ((x mod (~3 + (x mod ~4))) mod 3)
1: ((x mod (~3 + (if (x mod 4) <= 0 then x else 0))) mod 2)
1: ((x mod 11) mod 2)
1: ((x mod 11) mod 9)
1: ((x mod (~1 + (3 * (2 + (x mod 2) - (x div 2))))) mod 3)
1: ((x mod (~1 + (2 * (~2 - (x mod 3))))) mod 2)
1: ((x mod (~1 + (2 * (~2 + (x mod 2))))) mod 2)
1: ((x mod (~1 + (2 * (~1 + (x mod 4))))) mod 2)
1: ((x mod (~x + (3 * (~1 + (x mod 4))))) mod 2)
1: ((x mod (~1 + (2 * (x - (2 * (x mod 4)))))) mod 2)
1: ((x mod (~1 + (4 * (~2 + (x mod 2))))) mod 2)
1: ((x mod (~1 + (4 * (x mod 5)))) mod 2)
1: ((x mod (~1 + (2 * (2x div 3)))) mod 2)
1: ((x mod (~2 + (3 * (x div 2)))) mod 2)
1: ((x mod (~1 + ((x div 4) * (x div 2)))) mod 2)
1: ((x mod (~1 + (2 * (x div (x + ~16))))) mod 2)
1: ((x mod (~1 + (2 * (x div ~8)))) mod 2)
1: ((x mod (~1 + (2 * ((x + ~1) mod 5)))) mod 2)
1: ((x mod (~9 + (x * (x mod 3)))) mod 2)
1: ((x mod (~2 + ((~x + 1) div 3))) mod 3)
1: ((x mod (~1 + ((~x + 1) div 7))) mod 2)
1: ((x mod (~1 + ((~x + 2) div 4))) mod 2)
1: ((x mod (~2 + ((~x + 2) div 4))) mod 2)
1: ((x mod (~2 + ((~x + 2) div 4))) mod 4)
1: ((x mod (~1 + ((~x + 2) div 5))) mod 2)
1: ((x mod (~2 + ((x + ~1) div (~1 + (x mod ~4))))) mod 2)
1: ((x mod (~1 + ((~x2 + x) div 7))) mod 2)
1: ((x mod (~1 + (((x div 2) div ~2) div 2))) mod 2)
1: ((x mod (~2 + (((x div 2) div ~2) div 2))) mod 2)
1: ((x mod (~12 + (x div 2))) mod 2)
1: ((x mod (~6 + (x div 3))) mod 2)
1: ((x mod (~1 + (x div ~4))) mod 4)
1: ((x mod (~2 + (x div ~4))) mod 2)
1: ((x mod (~1 + (x div (~1 + (x div ~2))))) mod 2)
1: ((x mod (~2 + (x div ~8))) mod 2)
1: ((x mod (((x + 1) mod 2) - (x div ~3))) mod 3)
1: ((x mod (~2 + (x mod ~7))) mod 2)
1: ((x mod (~1 + (x mod (~1 + ((~x + 2) div 3))))) mod 3)
1: ((x mod (~2 + (x mod (~2 + ((~x + 2) div 4))))) mod 3)
1: ((x mod (~5 + (if (x mod 2) <= 0 then x else 0))) mod 2)
1: ((x mod ((x + 1) - ((x * (x div 2)) mod 3))) mod 2)
1: ((x mod ((x + 1) - (x mod 6))) mod 2)
1: ((x mod (x - ((x - ((~x + 1) mod 3)) div 2))) mod 2)
1: ((x mod (x - (((x + 1) * (~2 + (x div 2))) div 2))) mod 2)
1: ((x mod (x - ((x + 1) mod 7))) mod 5)
1: ((x mod (x - ((x + 1) mod 8))) mod 2)
1: ((x mod (x - ((x + 1) mod 8))) mod 6)
1: ((x mod (x - ((x + ~1) mod 5))) mod 2)
1: ((x mod 8) mod (1 + (x div 2)))
1: ((x mod 8) mod (if (x mod (2 + (x mod 2))) <= 0 then 1 else x))
1: ((x mod 8) mod (if x <= 0 then 2 else (loop(\(x,i).x3,2,19) mod (x + 1))))
1: ((x mod 10) mod 3)
1: ((x mod 10) mod (1 + (x div 2)))
1: ((x mod 10) mod 8)
1: ((x mod 10) mod (if ((x + 1) mod 4) <= 0 then x else 1))
1: ((x mod (2 * (1 + (x mod 3)))) mod 3)
1: ((x mod (3 * (1 + (x mod 4)))) mod 2)
1: ((x mod (4 * (1 + (x mod 5)))) mod 3)
1: ((x mod (2 * (1 + (if (x mod 2) <= 0 then 6 else 1)))) mod 3)
1: ((if (2 - (2x mod (4 + (x div 3)))) <= 0 then (x + 2) else 1) mod (2 + (x mod 2)))
1: ((if (2 - (x mod (1 + (2 * (2 + (x mod 3)))))) <= 0 then 1 else x) mod 4)
1: ((if (2 - (x mod (1 + (x div (2 * (2 - (x mod 2))))))) <= 0 then (x2 + x) else 1) mod 4)
1: ((if (~x + 2) <= 0 then ((x2 - (x div 2)) div 3) else 1) mod 2)
1: ((if (~x + 2) <= 0 then (((~x * (x div 2)) div 2) mod 3) else 1) mod (2 + (x mod 2)))
1: ((if (~x + 2) <= 0 then (x mod ~2) else 1) mod loop(\(x,i).2x,x,2))
1: ((if (~4 + (x div 2)) <= 0 then (1 + (x div 3)) else x) mod 2)
1: ((if (~x + (2 * (2 + ((x + 2) mod 4)))) <= 0 then 2 else 1) mod (x + 1))
1: ((if (~2 + (x div 2)) <= 0 then 1 else (2x + ~4)) mod (x + 1))
1: ((if (~2 + (x div 3)) <= 0 then 1 else x) mod 2)
1: ((if (~2 + (x div 3)) <= 0 then x else (x + 3)) mod 9)
1: ((if (~2 + (x div 3)) <= 0 then x else (2x + 1)) mod 9)
1: ((if (~2 + (x div 4)) <= 0 then 1 else 2) mod (if x <= 0 then 2 else x))
1: ((if (~2 + (x div 5)) <= 0 then x else 2) mod 7)
1: ((if (~2 + (x mod 5)) <= 0 then 1 else x) mod 2)
1: ((if (x + ~1) <= 0 then 1 else (~x + ~1)) mod 7)
1: ((if (x + ~1) <= 0 then 1 else (2 * ((x + 1) + (((x + 1) * ((x mod (2 - (x div (1 + ((x div 2) mod 2))))) mod 2)) div 3)))) mod (x + 2))
1: ((if (x + ~1) <= 0 then 1 else (x * (1 + (x mod 2)))) mod 5)
1: ((if (x + ~1) <= 0 then 1 else (2 * (x - ((3 * (x div 4)) div 2)))) mod (x + 1))
1: ((if (x + ~1) <= 0 then 1 else (((x + 1) div 2) div 3)) mod 2)
1: ((if (x + ~1) <= 0 then 2 else (x2 + ~1)) mod 6)
1: ((if (x + ~1) <= 0 then 2 else ((x + 1) div 2)) mod 3)
1: ((if (x + ~2) <= 0 then 1 else (2 + (x div 2))) mod (1 + (((x + 1) div 2) mod 4)))
1: ((if (x + ~2) <= 0 then 1 else ((x + 2) div 5)) mod 2)
1: ((if (x + ~2) <= 0 then 1 else (((x + ~1) * (x div 3)) div 2)) mod 2)
1: ((if (x + ~2) <= 0 then 1 else (x2 div (2x + 5))) mod 2)
1: ((if (x + ~2) <= 0 then 1 else (x div 3)) mod 3)
1: ((if (x + ~2) <= 0 then 1 else (x div 7)) mod 2)
1: ((if (x + ~2) <= 0 then 2 else (x + ~2)) mod 4)
1: ((if (x + ~2) <= 0 then x else (x + 4)) mod 7)
1: ((if (x + ~3) <= 0 then 2 else 1) mod (x + 1))
1: ((if (x + ~6) <= 0 then 1 else 2) mod (2 + (x mod 8)))
1: ((if ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) <= 0 then (if x <= 0 then 1 else 0) else 2x) mod 7)
1: ((if ((x mod (2 + (x mod 3))) div 2) <= 0 then 1 else 4) mod (x + 1))
1: ((if (x div 2) <= 0 then 1 else ((if (x mod 2) <= 0 then 2 else x) div 2)) mod 4)
1: ((if (x div 2) <= 0 then 2 else ((x + ~2) * (x div 3))) mod 7)
1: ((if (x div 4) <= 0 then 1 else ((~x + 2) div 2)) mod 3)
1: ((if (x div 8) <= 0 then x else 3) mod 4)
1: ((if ((1 + (x div 2)) mod 5) <= 0 then (x div 3) else 1) mod (x + 1))
1: ((if ((2 + (x div 2)) mod 4) <= 0 then 1 else x) mod 3)
1: ((if ((2 + (x div 2)) mod 4) <= 0 then x else 2) mod 3)
1: ((if ((2 + (x div 2)) mod 8) <= 0 then (x + ~1) else 1) mod 3)
1: ((if ((x + (x div 2)) mod 4) <= 0 then x else 2) mod 5)
1: ((if ((1 + (x div 4)) mod 4) <= 0 then loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) else x) mod 10)
1: ((if ((x + (if (x mod 2) <= 0 then 2 else x)) mod 3) <= 0 then 1 else x) mod (1 + (x div 2)))
1: ((if ((x + 1) mod 5) <= 0 then 5 else 0) mod (x + 1))
1: ((if ((x + 1) mod 5) <= 0 then 6 else 1) mod (x + 1))
1: ((if ((x + 1) mod (1 + (x div 4))) <= 0 then 1 else 2) mod (2 + (x mod 5)))
1: ((if ((x + 1) mod (1 + (x div 5))) <= 0 then 1 else (x div 2)) mod 3)
1: ((if ((x + 1) mod 8) <= 0 then 3 else x) mod 5)
1: ((if ((x + 1) mod 8) <= 0 then x else 2) mod 3)
1: ((if ((x + 2) mod 4) <= 0 then (x + ~1) else 0) mod (2 + (x div 4)))
1: ((if ((x + 2) mod 4) <= 0 then (x div 2) else 2x) mod (x + 4))
1: ((if ((~1 + (x div 3)) mod 4) <= 0 then x else (x + 1)) mod 3)
1: ((if ((x + ~1) mod 3) <= 0 then (2 + (x div 4)) else 1) mod 3)
1: ((if ((x + ~2) mod (1 + (x div 4))) <= 0 then 1 else x) mod 2)
1: ((if ((x + ~2) mod 6) <= 0 then (x + 2) else 1) mod 4)
1: ((if (8 mod (1 + (x div 2))) <= 0 then 1 else 2) mod (2 + (x mod 2)))
1: ((if (8 mod (1 + (x div 2))) <= 0 then 1 else x) mod 2)
1: ((if ((2x + ~2) mod (4 + (x div 4))) <= 0 then 2 else 1) mod (x + 1))
1: ((if (16 mod (x + 1)) <= 0 then (x + ~1) else 1) mod 3)
1: ((if ((x * (x div 2)) mod 2) <= 0 then (x div 3) else 1) mod 3)
1: ((if (2x mod (2 + (x div 2))) <= 0 then 1 else x) mod 3)
1: ((if (x2 mod (x + 4)) <= 0 then 1 else x) mod 2)
1: ((if (((x + 1) div (2 + (x mod 4))) mod 2) <= 0 then 2 else x) mod 4)
1: ((if (((x + 2) div (2 + (x mod 3))) mod 2) <= 0 then 1 else x) mod 3)
1: ((if (((x + ~1) div 2) mod 3) <= 0 then 1 else (x + ~1)) mod (1 + (x div 2)))
1: ((if (((x + ~1) div 2) mod 3) <= 0 then 1 else x) mod 6)
1: ((if (((x div 2) div 3) mod 2) <= 0 then x else ~x) mod 6)
1: ((if (((x div 2) div 3) mod 2) <= 0 then x else ~x) mod 12)
1: ((if (((2x mod (2 + (x div 2))) div 2) mod 2) <= 0 then 1 else x) mod 3)
1: ((if (((2x mod (2 + (x div 2))) div 2) mod 2) <= 0 then 1 else x) mod 4)
1: ((if ((x div 2) mod 2) <= 0 then 1 else (x div 3)) mod 2)
1: ((if ((x div 2) mod 2) <= 0 then (~x + 2) else x) mod 3)
1: ((if ((x div 2) mod 2) <= 0 then 8 else 1) mod (1 + (x div 2)))
1: ((if ((x div 2) mod 2) <= 0 then x else (~x + 1)) mod 4)
1: ((if ((x div 2) mod 3) <= 0 then 2 else 1) mod loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))
1: ((if ((x div 2) mod 3) <= 0 then ((x + ~1) div 2) else 1) mod 2)
1: ((if ((x div 2) mod (2 + ((x div 2) mod 2))) <= 0 then 2 else 1) mod (2 + (x mod 2)))
1: ((if ((x div 3) mod 2) <= 0 then 1 else (x div 4)) mod 2)
1: ((if ((x div 5) mod 2) <= 0 then 1 else x) mod 4)
1: ((if ((x div 5) mod 2) <= 0 then x else ~x) mod 5)
1: ((if ((x div 5) mod 2) <= 0 then x else ~x) mod 9)
1: ((if ((x div (1 + (x div (2 + (x mod 2))))) mod 2) <= 0 then (x + ~1) else 1) mod 3)
1: ((if ((x div (2 + (x mod 2))) mod 4) <= 0 then 2 else 1) mod (x + 1))
1: ((if (((x + ~1) mod (2 + (x mod 2))) mod 2) <= 0 then (x + ~1) else 2) mod 5)
1: ((if ((x mod 3) mod 2) <= 0 then 2 else x) mod 4)
1: ((if ((x mod (4 + (x div 2))) mod 2) <= 0 then 1 else x) mod 4)
1: ((if ((x mod (2 + (x mod 2))) mod 2) <= 0 then 1 else x) mod (2 + (x div 2)))
1: ((if ((x mod (1 - (2 * (x mod 4)))) mod 2) <= 0 then 1 else x) mod 5)
1: ((if ((x mod (~1 + (2 * (x div 4)))) mod 2) <= 0 then 1 else x) mod 7)
1: ((if (x mod 2) <= 0 then 1 else (2 * (1 + (x mod (2 * (1 + (x mod (2 * (1 + (x mod 4)))))))))) mod 5)
1: ((if (x mod 2) <= 0 then 1 else (x div 4)) mod 2)
1: ((if (x mod 2) <= 0 then 1 else x) mod (1 + (x mod (1 + (x div 5)))))
1: ((if (x mod 2) <= 0 then 1 else x) mod 6)
1: ((if (x mod 2) <= 0 then 1 else x) mod 8)
1: ((if (x mod 2) <= 0 then 2 else (1 + (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))) mod 3)
1: ((if (x mod 2) <= 0 then 3 else ~2) mod (1 + (x div 2)))
1: ((if (x mod 2) <= 0 then 3 else ~2) mod (x + 1))
1: ((if (x mod 2) <= 0 then (x + 3) else x) mod (x + 1))
1: ((if (x mod 2) <= 0 then 7 else x) mod 12)
1: ((if (x mod 2) <= 0 then (1 + (x mod (2 + ((x + ~1) mod 3)))) else 0) mod (x + 1))
1: ((if (x mod 2) <= 0 then (~x + 1) else (x + 2)) mod 10)
1: ((if (x mod 2) <= 0 then (~x + 1) else x) mod 5)
1: ((if (x mod 2) <= 0 then (~x + 1) else x) mod (2 + (x div 2)))
1: ((if (x mod 2) <= 0 then (~x + 2) else x) mod 7)
1: ((if (x mod 2) <= 0 then (~1 + ((~x + 2) div 4)) else x) mod 4)
1: ((if (x mod 2) <= 0 then (~1 + ((16 mod (x + 1)) div 2)) else 0) mod 3)
1: ((if (x mod 2) <= 0 then 10 else 1) mod (3 + (x * (x div 2))))
1: ((if (x mod 2) <= 0 then ((~1 + (9 * (x mod 6))) * (if x <= 0 then 1 else 2)) else 1) mod (x + 2))
1: ((if (x mod 2) <= 0 then ((~x + 1) div 3) else 1) mod (x + 1))
1: ((if (x mod 2) <= 0 then (x div 2) else (2x + 1)) mod 5)
1: ((if (x mod 2) <= 0 then (x div 2) else (x2 + 2)) mod (x + 4))
1: ((if (x mod 2) <= 0 then (x div 2) else 6) mod (1 + (x div 4)))
1: ((if (x mod 2) <= 0 then (x div 2) else (6x + 6)) mod 7)
1: ((if (x mod 2) <= 0 then (x div 5) else 2) mod (1 + (x div 3)))
1: ((if (x mod 2) <= 0 then ((~x + 1) mod 5) else 1) mod 3)
1: ((if (x mod 2) <= 0 then (if (x mod 3) <= 0 then 1 else x) else (x mod 3)) mod 4)
1: ((if (x mod 2) <= 0 then (if x <= 0 then 1 else ((x - (if ((x mod 3) mod (1 + (x mod 4))) <= 0 then 1 else 0)) div 2)) else 0) mod 3)
1: ((if (x mod 2) <= 0 then loop(\(x,i).(3x + 4),x,1) else x) mod (x + 1))
1: ((if (x mod 2) <= 0 then loop(\(x,i).2x,x,1) else x) mod 8)
1: ((if (x mod 2) <= 0 then loop(\(x,i).(x * i),x,1) else 3) mod (x + 1))
1: ((if (x mod 2) <= 0 then x else ~x) mod 5)
1: ((if (x mod 2) <= 0 then x else ~x) mod (1 + (if (x mod (4 + (x div 2))) <= 0 then 0 else 2)))
1: ((if (x mod 2) <= 0 then x else (~x + 1)) mod 20)
1: ((if (x mod 3) <= 0 then 1 else (2 - (x div 2))) mod (x + 2))
1: ((if (x mod 3) <= 0 then 1 else (~8 + (x div 2))) mod (1 + (x div 2)))
1: ((if (x mod 3) <= 0 then 1 else (((x mod 4) * (x div 2)) div 2)) mod 3)
1: ((if (x mod 3) <= 0 then 1 else (x2 div (x + 2))) mod 2)
1: ((if (x mod 3) <= 0 then 1 else (loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2)) mod 2)
1: ((if (x mod 3) <= 0 then 1 else (x div 5)) mod 2)
1: ((if (x mod 3) <= 0 then 1 else x) mod 4)
1: ((if (x mod 3) <= 0 then 1 else x) mod 5)
1: ((if (x mod 3) <= 0 then 1 else x) mod (1 + ((x div 2) div 3)))
1: ((if (x mod 3) <= 0 then 1 else x) mod (2 + (x div 2)))
1: ((if (x mod 3) <= 0 then 1 else x) mod (2 - (x div ~2)))
1: ((if (x mod 3) <= 0 then 1 else x) mod 6)
1: ((if (x mod 3) <= 0 then 1 else x) mod (if (~2 + (x div 2)) <= 0 then 1 else 2))
1: ((if (x mod 3) <= 0 then 2 else 1) mod (1 + (2 * (((x + 2) mod 9) mod 2))))
1: ((if (x mod 3) <= 0 then 2 else x) mod (2 + (x div 4)))
1: ((if (x mod 3) <= 0 then x else (((x + ~1) div 2) div 2)) mod 2)
1: ((if (x mod 4) <= 0 then 1 else (x div 3)) mod 2)
1: ((if (x mod 4) <= 0 then 2 else (x div 2)) mod 3)
1: ((if (x mod 4) <= 0 then (2x + ~5) else 1) mod (x + 2))
1: ((if (x mod 4) <= 0 then (x + ~2) else 1) mod (1 + (x div 2)))
1: ((if (x mod 5) <= 0 then 1 else (x2 div (x + 2))) mod 2)
1: ((if (x mod (4 + (x div 2))) <= 0 then 1 else x) mod 4)
1: ((if (x mod 7) <= 0 then loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) else 17) mod 10)
1: ((if (x mod 9) <= 0 then 0 else (x + 1)) mod 10)
1: ((if (x mod (1 + (x div 4))) <= 0 then 1 else x) mod 2)
1: ((if (x mod (2 + ((x div 4) mod 2))) <= 0 then 1 else x) mod 3)
1: ((if (x mod (2 + (x mod 2))) <= 0 then 1 else x) mod (1 + (x div 4)))
1: ((if (x mod (1 + (x mod 6))) <= 0 then 1 else x) mod 2)
1: ((if (x mod 6) <= 0 then (x div 2) else 2) mod (x + 1))
1: ((if (x mod 8) <= 0 then 1 else x) mod 9)
1: ((if x <= 0 then 0 else (1 + ((2 * (1 + ((1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),x,2x)) div 3))) div 3))) mod 2)
1: ((if x <= 0 then 0 else (1 + (x div (4 - (if (x mod 2) <= 0 then 1 else x))))) mod 2)
1: ((if x <= 0 then 0 else (1 + (((1 + (x div 2)) div (2 + ((x div 2) mod 2))) mod 2))) mod 2)
1: ((if x <= 0 then 0 else (1 + ((loop(\(x,i).2x,loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1) div 2) mod 5))) mod 3)
1: ((if x <= 0 then 0 else ((x + 2) - (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) mod (2x + ~1)))) mod 3)
1: ((if x <= 0 then 0 else ((2 - (2x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))) div 2)) mod (4x + 2))
1: ((if x <= 0 then 1 else 2) mod ((x + 2) div (1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 2 else 0)),x,x))))
1: ((if x <= 0 then 1 else ((x + 2) - ((x mod 2) + (2 * ((2 - (x mod (~1 + (2 * (x div 5))))) div 2))))) mod 4)
1: ((if x <= 0 then 1 else (2 + ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3))) mod 3)
1: ((if x <= 0 then 1 else (2 + (x div 2))) mod 5)
1: ((if x <= 0 then 1 else (x + 2)) mod 5)
1: ((if x <= 0 then 1 else (2 - (loop(\(x,i).(2x + 2),x,0) mod (x + 1)))) mod 3)
1: ((if x <= 0 then 1 else (2 - (x mod (4 + ((1 - (2 * (x mod 7))) mod (x + 1)))))) mod 3)
1: ((if x <= 0 then 1 else (~2 + (2 * ((x + ~1) mod (6 + (x div 4)))))) mod 3)
1: ((if x <= 0 then 1 else (~1 + (2 * (~1 + (x mod (2 * (1 + (if (x mod 2) <= 0 then 6 else 1)))))))) mod 3)
1: ((if x <= 0 then 1 else ((x div 5) - (x div (~2 + (x mod ~2))))) mod 3)
1: ((if x <= 0 then 1 else (~2 + ((x2 div 4) mod (x + 1)))) mod 3)
1: ((if x <= 0 then 1 else (~1 + (x mod (2 + ((x + 1) mod 4))))) mod 3)
1: ((if x <= 0 then 1 else (x - (2 * ((if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + (((loop(\(x,i).x2,1,(~1 + (9 * (x mod 5)))) div 2) div 2) div 2)) div 2)) div 2)))) mod (x + 1))))) mod 3)
1: ((if x <= 0 then 1 else (x - (((~2x + 1) + (x mod 2)) div 3))) mod (1 + (((x + 1) div 2) div 2)))
1: ((if x <= 0 then 1 else (x - (loop(\(x,i).2x,x,1) mod 9))) mod (x + 1))
1: ((if x <= 0 then 1 else 8) mod (if ((x + 1) mod 8) <= 0 then x else 2))
1: ((if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + (((x + 1) * (1 + ((x + 1) mod (1 + ((x + (if (x mod 2) <= 0 then x else 2)) mod 3))))) div 2)) div 2)) div 2)))) mod 3)
1: ((if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + (((loop(\(x,i).x2,1,(~1 + (9 * (x mod 5)))) div 2) div 2) div 2)) div 2)) div 2)))) mod (x + 1))
1: ((if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + (loop(\(x,i).(3 * (2 + (x div 2))),x,0) div 2)) div 2)) div 2)))) mod (x + 1))
1: ((if x <= 0 then 1 else (2 * (1 + ((1 + (((loop(\(x,i).2x,x,1) + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) - compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)) div 2)) div 2)))) mod 3)
1: ((if x <= 0 then 1 else (2 * (1 + ((1 + ((x * (1 + (x mod 3))) div 2)) div 2)))) mod (x + 1))
1: ((if x <= 0 then 1 else (2 * (1 + ((1 + ((loop(\(x,i).2x,x,2) mod (x + 1)) div 2)) div 2)))) mod (x + 1))
1: ((if x <= 0 then 1 else (2 * (1 + ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 2)))) mod 3)
1: ((if x <= 0 then 1 else (2 * (1 + ((loop(\(x,i).2x,x,1) mod (x + 1)) div 2)))) mod 3)
1: ((if x <= 0 then 1 else ((1 + (x div 3)) * (x div 2))) mod 2)
1: ((if x <= 0 then 1 else 4x) mod (4 + (x div 4)))
1: ((if x <= 0 then 1 else (((x + ~1) div 3) * (x div 2))) mod 2)
1: ((if x <= 0 then 1 else (3 * (x2 div 4))) mod 9)
1: ((if x <= 0 then 1 else (x * (if (x mod 2) <= 0 then x else 1))) mod 3)
1: ((if x <= 0 then 1 else (x * (if (x mod 2) <= 0 then x else 1))) mod 6)
1: ((if x <= 0 then 1 else 2x) mod (2 + (x div 2) - (x mod 2)))
1: ((if x <= 0 then 1 else x2) mod (1 + ((x + ~1) mod 4)))
1: ((if x <= 0 then 1 else x2) mod 10)
1: ((if x <= 0 then 1 else ((2x2 + 1) div (x + 4))) mod 2)
1: ((if x <= 0 then 1 else ((x + ((x + 1) * (x mod 2))) div 5)) mod 2)
1: ((if x <= 0 then 1 else ((x + ((x mod (2 + (x div 2))) div 2)) div 2)) mod 2)
1: ((if x <= 0 then 1 else (((1 + ((x + 1) div 2)) * (x mod 3)) div 2)) mod 2)
1: ((if x <= 0 then 1 else ((~x2 + 2x) div 3)) mod 3)
1: ((if x <= 0 then 1 else (4x2 div (x + 4))) mod 2)
1: ((if x <= 0 then 1 else ((x3 + x2) div (x + 3))) mod 2)
1: ((if x <= 0 then 1 else ((x * ((~x + 1) div 3)) div 2)) mod 2)
1: ((if x <= 0 then 1 else ((x * (x div 2)) div (2 + (x div 4)))) mod 2)
1: ((if x <= 0 then 1 else (x2 div (x - ((~x + 2) div 2)))) mod 2)
1: ((if x <= 0 then 1 else (x2 div 8)) mod 2)
1: ((if x <= 0 then 1 else (((1 + ((x * ((x + 1) div 2)) div 2)) div 2) div 2)) mod 2)
1: ((if x <= 0 then 1 else (((x + 1) div 2) div 3)) mod 2)
1: ((if x <= 0 then 1 else (((x - ((x mod 3) div 2)) div 2) div 2)) mod 2)
1: ((if x <= 0 then 1 else ((x2 div 2) div (x + 3))) mod 2)
1: ((if x <= 0 then 1 else (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)) mod 3)
1: ((if x <= 0 then 1 else (x div 3)) mod 2)
1: ((if x <= 0 then 1 else (x div 3)) mod 5)
1: ((if x <= 0 then 1 else (x div (2 + ((x div 2) div 3)))) mod 2)
1: ((if x <= 0 then 1 else (x div (1 + ((x + 2) mod 4)))) mod 2)
1: ((if x <= 0 then 1 else (x div (2 - (x div (1 + ((x div 2) mod 2)))))) mod 2)
1: ((if x <= 0 then 1 else ((x2 + 2) mod (1 + (x div 2)))) mod 2)
1: ((if x <= 0 then 1 else ((x + 1) mod (1 + (x div (2 + ((1 + (x div 2)) mod 3)))))) mod 2)
1: ((if x <= 0 then 1 else ((x + 2) mod (1 + (x div 3)))) mod 2)
1: ((if x <= 0 then 1 else (8 mod (if x <= 0 then 1 else x))) mod 2)
1: ((if x <= 0 then 1 else (2x mod (1 + ((x div 2) mod 5)))) mod 2)
1: ((if x <= 0 then 1 else (x2 mod (4 + (((x + 1) div 2) div 2)))) mod 3)
1: ((if x <= 0 then 1 else (x2 mod ((2x + 1) + (x div 2)))) mod 2)
1: ((if x <= 0 then 1 else (x2 mod (1 + (x div 3)))) mod 2)
1: ((if x <= 0 then 1 else (loop(\(x,i).~2x,x,6) mod (x + 1))) mod 6)
1: ((if x <= 0 then 1 else (loop(\(x,i).2x,(x div 2),(x mod 2)) mod (x + 1))) mod 3)
1: ((if x <= 0 then 1 else (x mod (1 + ((1 + (x div 2)) div 2)))) mod 2)
1: ((if x <= 0 then 1 else (x mod (1 + (x mod 7)))) mod 2)
1: ((if x <= 0 then 1 else (x mod (~3 + ((x * (x div 2)) mod 2)))) mod 2)
1: ((if x <= 0 then 1 else (x mod (~1 + ((~x + 2) div 4)))) mod 2)
1: ((if x <= 0 then 1 else (x mod ((x + ~1) - (x mod 6)))) mod 2)
1: ((if x <= 0 then 1 else (if ((x div 2) mod 2) <= 0 then (x mod 5) else 0)) mod 3)
1: ((if x <= 0 then 1 else loop(\(x,i).(x5 mod 9),x,x)) mod 2)
1: ((if x <= 0 then 1 else x) mod (3 + ((x div 2) mod 2)))
1: ((if x <= 0 then 1 else x) mod (3 + (if (((x + 2) mod 8) mod 3) <= 0 then 0 else 2)))
1: ((if x <= 0 then 1 else x) mod (1 + (2 * (3 - (x mod 2)))))
1: ((if x <= 0 then 1 else x) mod (2 + (((x + 2) + ((x - ((x div 4) mod 2)) div 2)) div 2)))
1: ((if x <= 0 then 1 else x) mod (2 + (x div 4)))
1: ((if x <= 0 then 1 else x) mod (2 + (((x + ~1) div 2) mod 2)))
1: ((if x <= 0 then 1 else x) mod (2 + (x mod 2)))
1: ((if x <= 0 then 1 else x) mod 11)
1: ((if x <= 0 then 1 else x) mod (~2 + ((~x + 2) div 4)))
1: ((if x <= 0 then 1 else x) mod 10)
1: ((if x <= 0 then 1 else x) mod (2 * (1 + (x mod 2))))
1: ((if x <= 0 then 1 else x) mod (if ((2 + (x div 2)) mod 4) <= 0 then 1 else 2))
1: ((if x <= 0 then 1 else x) mod (if ((x div 4) mod 2) <= 0 then 2 else ~2))
1: ((if x <= 0 then 2 else (1 + ((((x + 1) + (2 * (x mod ((x + ~1) - (x mod 12))))) mod (1 + (x div 2))) div 2))) mod (x + 1))
1: ((if x <= 0 then 2 else (1 + (~2x mod (2 + (x div 2))))) mod 2)
1: ((if x <= 0 then 2 else (1 + loop(\(x,i).(x * (x + i)),2,3))) mod (x + 2))
1: ((if x <= 0 then 2 else (x - (loop(\(x,i).(x * i),x,1) mod (x + 1)))) mod 4)
1: ((if x <= 0 then 2 else ((x + 1) * (x div 2))) mod 3)
1: ((if x <= 0 then 2 else (x * (x div 4))) mod 3)
1: ((if x <= 0 then 2 else ((x + 1) div 2)) mod 4)
1: ((if x <= 0 then 2 else x) mod 3)
1: ((if x <= 0 then x else ((1 + (x mod (1 + (x div 5)))) * (1 + (x mod 2)))) mod 4)
1: (loop(\(x,i).((x + 1) + (2 * (x div 4))),(x div 4),2) mod 3)
1: (loop(\(x,i).((x + 4) + (x div 2)),x,0) mod (x + 1))
1: (loop(\(x,i).((x + 1) + (x div 8)),(x + 1),1) mod 3)
1: (loop(\(x,i).((x + 4) + (x div 8)),x,1) mod 2)
1: (loop(\(x,i).((x + 1) + (((x + ((x + ~1) mod 3)) mod 5) mod 2)),x,1) mod 2)
1: (loop(\(x,i).(2x + (if (i mod 3) <= 0 then 3 else 0)),x,0) mod (x + 1))
1: (loop(\(x,i).((x + 2) + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i)),x,2) mod 10)
1: (loop(\(x,i).((x + 2) - (((x2 div 3) mod (2x + 1)) mod 2)),x,1) mod 4)
1: (loop(\(x,i).(3x + 1),(x + ~1),16) mod 7)
1: (loop(\(x,i).(3x + 1),x,1) mod (2x + 1))
1: (loop(\(x,i).(3x + 1),x,3) mod (2 + (x div 5)))
1: (loop(\(x,i).((4x + 4) + (x div 4)),x,0) mod (2 + (x mod 2)))
1: (loop(\(x,i).(5x + 4),x,0) mod (x + 1))
1: (loop(\(x,i).(5x + 2),x,0) mod (x + 1))
1: (loop(\(x,i).(5x + 2),x,2) mod (1 + (if (~x + 2) <= 0 then 6 else 1)))
1: (loop(\(x,i).(x2 + 4x + 2),2,3) mod (x + 1))
1: (loop(\(x,i).(2x + 17),x,0) mod (x + 1))
1: (loop(\(x,i).(2 + (x * (1 + (4 * (i mod 2))))),x,1) mod (x + 1))
1: (loop(\(x,i).(4x2 + x + 1),2,6) mod (x + 1))
1: (loop(\(x,i).(4x2 + x + 1),2,2x) mod (x + 1))
1: (loop(\(x,i).(2x2 + 3),2,3x) mod (x + 1))
1: (loop(\(x,i).(5x2 + x + 10),2,x) mod (x + 1))
1: (loop(\(x,i).(1 + ((x + 2) * (x + (x div 2)))),2,3) mod (x + 1))
1: (loop(\(x,i).(1 + (2 * (x + (i mod 2)))),x,0) mod (x + 1))
1: (loop(\(x,i).(x2 + x + 1),2,2) mod (1 + (x div 2)))
1: (loop(\(x,i).(x2 + x + 2),2,12) mod (x + 1))
1: (loop(\(x,i).(x2 + 2x + 1),2,2) mod (x + 1))
1: (loop(\(x,i).(x2 + 2x + 1),2,16x) mod (x + 1))
1: (loop(\(x,i).(x + (2 * (x + i))),x,0) mod (x + 1))
1: (loop(\(x,i).(x + (4 * (x + i))),x,0) mod (x + 1))
1: (loop(\(x,i).(2 + (x * (x + i))),2,3) mod (x + 1))
1: (loop(\(x,i).(2 + (x * (x + i))),3,1) mod (x + 1))
1: (loop(\(x,i).(3x2 + ~2x + 1),2,2x) mod (x + 1))
1: (loop(\(x,i).(3x2 + ~2x + 2),2,2x) mod (x + 1))
1: (loop(\(x,i).(1 + (2 * (x - (x div ~2)))),x,0) mod (x + 1))
1: (loop(\(x,i).(10x + 1),5,1) mod (x + 1))
1: (loop(\(x,i).(10x + 1),x,1) mod (x + 1))
1: (loop(\(x,i).(2 + ((2x2 + x) * (4 + i))),2,x) mod (x + 1))
1: (loop(\(x,i).(8x + 5),(x + 1),0) mod loop(\(x,i).(2x + 2),x,2))
1: (loop(\(x,i).(4x + 9),x,1) mod (x + 1))
1: (loop(\(x,i).(x + (6 * (x + i))),x,0) mod (x + 1))
1: (loop(\(x,i).(5x2 + ~5x + 2),2,x) mod (x + 1))
1: (loop(\(x,i).(8x + 1),x,1) mod (x + 1))
1: (loop(\(x,i).(10x2 + x),2,4) mod (x + 1))
1: (loop(\(x,i).(10x2 + x),2,x) mod (x + 1))
1: (loop(\(x,i).(4x + 1),x,1) mod (2x + 1))
1: (loop(\(x,i).(4x + 1),x,1) mod (x + 1))
1: (loop(\(x,i).(4x + (i div 2)),x,1) mod (x + 1))
1: (loop(\(x,i).(6x + 1),x,1) mod (x + 1))
1: (loop(\(x,i).(2x2 + 1),2,3x) mod (x + 1))
1: (loop(\(x,i).(3x2 + 1),2,2x) mod (x + 1))
1: (loop(\(x,i).(3x2 + 2),2,2x) mod (x + 1))
1: (loop(\(x,i).(3x2 + x),2,2x) mod (x + 1))
1: (loop(\(x,i).(x + (i * i * i * i)),x,1) mod (x + 1))
1: (loop(\(x,i).(1 + (2 * (x mod (1 + i)))),x,1) mod (x + 1))
1: (loop(\(x,i).(1 + (x * loop(\(x,i).(2x2 + ~2),2,2))),2,x) mod (x + 1))
1: (loop(\(x,i).(2x + 1),3,(2 * (x mod 2))) mod (x + 1))
1: (loop(\(x,i).(2x + 1),2x,2) mod (x + 1))
1: (loop(\(x,i).(2x + 1),(2x div 3),1) mod (x + 1))
1: (loop(\(x,i).(2x + 1),(((x2 + 2x) div 2) mod (1 + (x div (2 + (x div 4))))),1) mod (x + 1))
1: (loop(\(x,i).(2x + 1),(if (x mod 2) <= 0 then (1 + (x div 2)) else 0),1) mod (x + 2))
1: (loop(\(x,i).(2x + 1),loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),2,x),1) mod (x + 2))
1: (loop(\(x,i).(2x + 1),x,0) mod loop(\(x,i).(~1 + (2 * (~1 + (2 * loop(\(x,i).x2,1,(11x + 5)))))),1,1))
1: (loop(\(x,i).(2x + 1),x,(4 - (x mod 2))) mod (x + 1))
1: (loop(\(x,i).(2x + 1),x,6) mod 5)
1: (loop(\(x,i).(2x + 1),x,54) mod (x + 1))
1: (loop(\(x,i).(2x + 1),x,(4 * (x mod 2))) mod (x + 1))
1: (loop(\(x,i).(2x + 1),x,(x div 4)) mod 5)
1: (loop(\(x,i).(2x + 1),x,((x div 4) mod 2)) mod (x + 1))
1: (loop(\(x,i).(2x + 1),x,(x mod 2)) mod (x + 1))
1: (loop(\(x,i).(2x + 1),x,(if ((x + 1) mod 3) <= 0 then x else 2)) mod (x + 1))
1: (loop(\(x,i).(x2 + 1),2,4) mod (x + 2))
1: (loop(\(x,i).(x2 + (x div 2)),3,6) mod (x + 1))
1: (loop(\(x,i).(1 + (x * i)),x,1) mod (x + 1))
1: (loop(\(x,i).(x + (i * i)),(x div 2),1) mod (x + 1))
1: (loop(\(x,i).(x + ((x + loop(\(x,i).4x,i,1)) div (2x + 1))),(x + 1),1) mod 2)
1: (loop(\(x,i).(x + (5x div (1 + i))),x,6) mod (x + 1))
1: (loop(\(x,i).(x + (((2 + i) * (1 + i)) div 2)),x,1) mod 9)
1: (loop(\(x,i).(x + (((2 + i) * (1 + i)) div 2)),x,1) mod 10)
1: (loop(\(x,i).(x + (10x div (if i <= 0 then 1 else i))),(x + 1),1) mod (x + 1))
1: (loop(\(x,i).(x + (8x div (if i <= 0 then 1 else i))),x,1) mod 8)
1: (loop(\(x,i).(1 + (4x div (1 + i))),x,1) mod 3)
1: (loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,1) mod (x + 2))
1: (loop(\(x,i).(1 + (x2 div loop(\(x,i).3x,(2 * i),1))),2,x) mod (x + 1))
1: (loop(\(x,i).(1 + ((2 * i) div (x + 1))),x,2) mod 2)
1: (loop(\(x,i).(x + (x div 2)),x,2) mod 2)
1: (loop(\(x,i).(x + (x div 2)),x,2) mod 3)
1: (loop(\(x,i).(x + (x div 2)),x,~1) mod 3)
1: (loop(\(x,i).(2 + (x mod (1 + i))),x,2) mod 3)
1: (loop(\(x,i).(1 + (if (~2 + (x div 2)) <= 0 then x else (x + 2))),2,x) mod (x + 1))
1: (loop(\(x,i).(x + (if (x + ~4) <= 0 then 3 else x)),x,1) mod (x + 1))
1: (loop(\(x,i).(x + (if (x mod 2) <= 0 then 1 else i)),(x + ~2),0) mod 3)
1: (loop(\(x,i).(x + (loop(\(x,i).(1 + (2x * i)),i,1) + i)),x,1) mod (x + 1))
1: (loop(\(x,i).(1 + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,2x)),2,x) mod (x + 2))
1: (loop(\(x,i).(1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x)),2,2x) mod (x + 1))
1: (loop(\(x,i).(1 + loop(\(x,i).(x - (if (x mod (2 + i)) <= 0 then 2 else 1)),x,2x)),2,x) mod (x + 2))
1: (loop(\(x,i).(loop(\(x,i).(2x * i),i,1) + (x * (1 + i))),x,1) mod (x + 2))
1: (loop(\(x,i).(x + 1),(x div (~1 + (4 * i))),(x + 1)) mod 2)
1: (loop(\(x,i).(2 + i),(x mod 10),1) mod (x + 1))
1: (loop(\(x,i).(x + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)),x,x) mod 9)
1: (loop(\(x,i).(x + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i)),x,0) mod (x + 1))
1: (loop(\(x,i).(compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x + 2)),x) + i),2,x) mod (x + 1))
1: (loop(\(x,i).(x + compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x + 2)),i)),x,2) mod (x + 1))
1: (loop(\(x,i).(~x3 + ~1),2,2) mod (x + 1))
1: (loop(\(x,i).(~x3 + ~1),2,4) mod (x + 1))
1: (loop(\(x,i).(~2x + ~32),(x + 1),0) mod (x + 1))
1: (loop(\(x,i).(~6x2 + 2x + ~4),2,x) mod (x + 1))
1: (loop(\(x,i).(0 - ((x + 1) * (if x <= 0 then 1 else 2))),x,1) mod loop(\(x,i).2x,x,2))
1: (loop(\(x,i).~x,x,(x mod 5)) mod (x + 1))
1: (loop(\(x,i).(1 - (2 * (2 + (x mod (1 + i))))),x,6) mod 3)
1: (loop(\(x,i).(~2x + 1),(x div 2),2) mod (x + 1))
1: (loop(\(x,i).(~2x + 1),x,3) mod (x + 2))
1: (loop(\(x,i).(~x2 + 1),2,4) mod (x + 1))
1: (loop(\(x,i).(1 - (x * i)),(x + ~1),1) mod (x + 1))
1: (loop(\(x,i).(1 - ((~1 + (x mod 3)) mod (1 + (x mod 4)))),1,(x + 1)) mod 3)
1: (loop(\(x,i).(~x + 1),x,(x + 2)) mod 3)
1: (loop(\(x,i).(~x + 1),x,(if ((x + 2) mod (1 + (x mod 4))) <= 0 then 1 else 2)) mod (x + 1))
1: (loop(\(x,i).(3x2 + ~x + 2),2,2x) mod (x + 1))
1: (loop(\(x,i).(~x + ~1),(x div 2),~4) mod (x + 1))
1: (loop(\(x,i).(~x + ~1),x,3) mod loop(\(x,i).4x,x,2))
1: (loop(\(x,i).((~2x + 1) - (x div 4)),x,3) mod (x + 1))
1: (loop(\(x,i).(3x + ~1),x,2) mod (x + 1))
1: (loop(\(x,i).(4x2 + x + ~1),2,2x) mod (x + 1))
1: (loop(\(x,i).(x3 + x + ~2),2,x) mod (x + 1))
1: (loop(\(x,i).((2x + 4) - (x div 2)),x,0) mod 9)
1: (loop(\(x,i).(x2 + 2x + ~2),1,loop(\(x,i).4x,(x div 2),1)) mod (x + 1))
1: (loop(\(x,i).(3x2 + ~2x + ~1),2,2x) mod (x + 1))
1: (loop(\(x,i).(~1 + (x * (~2 + (i mod 2)))),x,1) mod loop(\(x,i).2x,x,2))
1: (loop(\(x,i).(x2 + ~2x + ~2),2,4x) mod (x + 1))
1: (loop(\(x,i).(10x + ~1),x,1) mod loop(\(x,i).2x,(x + ~1),2))
1: (loop(\(x,i).(2x2 - (x div 2)),2,3) mod (x + 1))
1: (loop(\(x,i).(3x2 + ~1),2,5) mod (x + 1))
1: (loop(\(x,i).(~1 + ((x + 1) * loop(\(x,i).(x2 + 1),2,3))),2,1) mod (x + 1))
1: (loop(\(x,i).(2x + ~1),x,0) mod (2x + 1))
1: (loop(\(x,i).(2x + ~1),x,0) mod (1 + (x div 2)))
1: (loop(\(x,i).(2x + ~1),x,x) mod (x + 3))
1: (loop(\(x,i).(2x - (i mod 2)),x,(x + 1)) mod (x + 1))
1: (loop(\(x,i).(x2 + ~1),2,4x) mod (x + 1))
1: (loop(\(x,i).(x2 - (x div 2)),2,4x) mod (x + 1))
1: (loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),x,1) mod (x + 1))
1: (loop(\(x,i).(~3 + (x div ~2)),x,1) mod loop(\(x,i).2x,x,2))
1: (loop(\(x,i).(~2 + ((~2x + 2) mod (4 + (x div 4)))),2,(x + 1)) mod 3)
1: (loop(\(x,i).((x mod 2) - ((x2 + 6x + 9) div 2)),3,x) mod (x + 1))
1: (loop(\(x,i).(~1 + (x mod (1 + (4 * (x mod 2))))),x,1) mod (x + 2))
1: (loop(\(x,i).(~1 + (if x <= 0 then i else x)),x2,1) mod 3)
1: (loop(\(x,i).(~x + loop(\(x,i).(1 - (x * i)),i,1)),x,1) mod (x + 1))
1: (loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),3,x) mod 3)
1: (loop(\(x,i).(~1 + loop(\(x,i).(x div (2 - ((x * (x div 2)) mod 2))),x,x)),x,(x + 1)) mod (2x + 2))
1: (loop(\(x,i).((x + 1) - ((~2x + 1) div 5)),2,x) mod 5)
1: (loop(\(x,i).(5x + ~2),x,1) mod (x + 1))
1: (loop(\(x,i).(x - ((~2x + 2) * i)),x,0) mod (x + 1))
1: (loop(\(x,i).(2x2 + ~3x),2,2x) mod (x + 1))
1: (loop(\(x,i).(~11x2 + x),2,6x) mod (x + 1))
1: (loop(\(x,i).(8x2 + ~3x),2,x) mod (x + 1))
1: (loop(\(x,i).(~2x2 + x),2,3x) mod (x + 1))
1: (loop(\(x,i).(~3x2 + x),2,2x) mod (x + 1))
1: (loop(\(x,i).(~4x2 + x),2,2) mod (x + 1))
1: (loop(\(x,i).(~x4 + x),2,2) mod (x + 1))
1: (loop(\(x,i).(x - (2x * i)),(x div 2),1) mod (x + 1))
1: (loop(\(x,i).(x - (2x * i)),x,1) mod (x + 1))
1: (loop(\(x,i).(x - (i * i)),x,1) mod (x + 1))
1: (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) mod 4)
1: (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) mod (2 + (x mod 9)))
1: (loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 2 else 1)),(x + 1),x) mod 3)
1: (loop(\(x,i).(~2 + i),((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2),1) mod 7)
1: (loop(\(x,i).(i - (x * i)),6,x) mod (x + 1))
1: (loop(\(x,i).((~x + 1) + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)),x,0) mod 3)
1: (loop(\(x,i).3x,(2x + 2),1) mod loop(\(x,i).x3,2,(x + 1)))
1: (loop(\(x,i).3x,2x,1) mod loop(\(x,i).(x2 + 2x + 1),2,2))
1: (loop(\(x,i).3x,2x,1) mod loop(\(x,i).5x,x,1))
1: (loop(\(x,i).3x,2x,1) mod loop(\(x,i).7x,x,1))
1: (loop(\(x,i).3x,2x,1) mod loop(\(x,i).8x,x,1))
1: (loop(\(x,i).3x,2x,1) mod loop(\(x,i).4x,x,1))
1: (loop(\(x,i).3x,2x,1) mod loop(\(x,i).6x,x,1))
1: (loop(\(x,i).3x,2x,1) mod loop(\(x,i).2x,x,1))
1: (loop(\(x,i).3x,((1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + ~1) div 2))) div 2),1) mod 7)
1: (loop(\(x,i).3x,((x * (x mod 2)) div 2),1) mod (~1 + (2 * (((x + 1) div 2) div 2))))
1: (loop(\(x,i).3x,(x2 mod 7),1) mod 15)
1: (loop(\(x,i).3x,(((x + ~1) div 2) mod 4),1) mod (x + 1))
1: (loop(\(x,i).3x,x,1) mod 7)
1: (loop(\(x,i).3x,x,1) mod 19)
1: (loop(\(x,i).3x,x,1) mod 17)
1: (loop(\(x,i).3x,x,1) mod 25)
1: (loop(\(x,i).3x,x,1) mod 41)
1: (loop(\(x,i).3x,x,1) mod 37)
1: (loop(\(x,i).3x,x,1) mod 113)
1: (loop(\(x,i).3x,x,1) mod (1 + (3 * loop(\(x,i).(x2 + x + 2),2,2))))
1: (loop(\(x,i).3x,x,1) mod (1 + loop(\(x,i).(2x2 + x),2,2)))
1: (loop(\(x,i).3x,x,1) mod (1 + loop(\(x,i).(x2 + x),2,2)))
1: (loop(\(x,i).3x,x,1) mod (2 + loop(\(x,i).x2,2,3)))
1: (loop(\(x,i).3x,x,1) mod (x + 1))
1: (loop(\(x,i).3x,x,1) mod 11)
1: (loop(\(x,i).3x,x,1) mod 29)
1: (loop(\(x,i).3x,x,1) mod 23)
1: (loop(\(x,i).3x,x,1) mod 35)
1: (loop(\(x,i).3x,x,1) mod 31)
1: (loop(\(x,i).3x,x,1) mod 47)
1: (loop(\(x,i).3x,x,1) mod (~2 + loop(\(x,i).(x3 + 2),2,2)))
1: (loop(\(x,i).3x,x,1) mod (~1 + loop(\(x,i).(x2 + 2x),2,2)))
1: (loop(\(x,i).3x,x,1) mod (~1 + loop(\(x,i).(x2 + ~x),2,4)))
1: (loop(\(x,i).3x,x,1) mod (~1 + loop(\(x,i).2x2,2,2)))
1: (loop(\(x,i).3x,x,1) mod 46)
1: (loop(\(x,i).3x,x,1) mod loop(\(x,i).(x2 + 2x + 1),2,2))
1: (loop(\(x,i).3x,x,1) mod loop(\(x,i).(1 + ((x2 + 2x) * i)),2,2))
1: (loop(\(x,i).3x,x,1) mod loop(\(x,i).(8x + 1),2,2))
1: (loop(\(x,i).3x,x,1) mod loop(\(x,i).(x2 + 2),2,2))
1: (loop(\(x,i).3x,x,1) mod loop(\(x,i).(1 + (x * i)),4,2))
1: (loop(\(x,i).3x,x,1) mod loop(\(x,i).(2x2 + x),2,2))
1: (loop(\(x,i).3x,x,1) mod loop(\(x,i).2x,x,1))
1: (loop(\(x,i).3x,x,1) mod loop(\(x,i).x2,2,10))
1: (loop(\(x,i).3x,x,3) mod (x2 + 2x + 1))
1: (loop(\(x,i).3x,x,3) mod (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: (loop(\(x,i).3x,x,3) mod (x3 + 3x2 + 3x + 1))
1: (loop(\(x,i).3x,x,3) mod (2x + 2))
1: (loop(\(x,i).3x,x,3) mod loop(\(x,i).2x,x,2))
1: (loop(\(x,i).5x,5,x) mod (x + 1))
1: (loop(\(x,i).5x,(x + 1),1) mod (x + 1))
1: (loop(\(x,i).5x,(x + 1),1) mod (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: (loop(\(x,i).5x,(x + 1),1) mod (2x + 2))
1: (loop(\(x,i).5x,(x + 1),1) mod (3x + 3))
1: (loop(\(x,i).5x,x,1) mod 13)
1: (loop(\(x,i).5x,x,1) mod 17)
1: (loop(\(x,i).5x,x,1) mod 41)
1: (loop(\(x,i).5x,x,1) mod 37)
1: (loop(\(x,i).5x,x,1) mod 21)
1: (loop(\(x,i).5x,x,1) mod 103)
1: (loop(\(x,i).5x,x,1) mod 33)
1: (loop(\(x,i).5x,x,1) mod 73)
1: (loop(\(x,i).5x,x,1) mod (1 + loop(\(x,i).(x2 + x),2,2)))
1: (loop(\(x,i).5x,x,1) mod (1 + loop(\(x,i).(x2 + x),2,3)))
1: (loop(\(x,i).5x,x,1) mod (x + 1))
1: (loop(\(x,i).5x,x,1) mod 29)
1: (loop(\(x,i).5x,x,1) mod 23)
1: (loop(\(x,i).5x,x,1) mod 39)
1: (loop(\(x,i).5x,x,1) mod 47)
1: (loop(\(x,i).5x,x,1) mod (~2 + loop(\(x,i).(x3 + 2),2,2)))
1: (loop(\(x,i).5x,x,1) mod 27)
1: (loop(\(x,i).5x,x,1) mod loop(\(x,i).(2x2 + 1),2,2))
1: (loop(\(x,i).5x,x,1) mod loop(\(x,i).(x2 + 1),2,3))
1: (loop(\(x,i).5x,x,1) mod loop(\(x,i).(x2 + 2),2,2))
1: (loop(\(x,i).5x,x,1) mod loop(\(x,i).(~1 + (2 * (~3 + loop(\(x,i).10x,(x + 1),1)))),1,1))
1: (loop(\(x,i).5x,x,1) mod loop(\(x,i).(2x2 + ~1),2,2))
1: (loop(\(x,i).5x,x,1) mod loop(\(x,i).3x,x,1))
1: (loop(\(x,i).5x,x,1) mod loop(\(x,i).(x2 + x),2,2))
1: (loop(\(x,i).5x,x,1) mod loop(\(x,i).4x,x,1))
1: (loop(\(x,i).5x,x,1) mod loop(\(x,i).2x,x,1))
1: (loop(\(x,i).5x,x,2) mod (3x + 2))
1: (loop(\(x,i).(x2 + 5x),2,3) mod (x + 1))
1: (loop(\(x,i).(x2 + 7x + 6),2,2) mod (x + 1))
1: (loop(\(x,i).(x3 + 9x2),2,1) mod (x + 1))
1: (loop(\(x,i).(x2 + 10x),2,2) mod (x + 1))
1: (loop(\(x,i).(x * ((x + 1) + (2 * i))),3,2) mod (x + 1))
1: (loop(\(x,i).(((x + 1) + (x div 2)) * i),x,1) mod 2)
1: (loop(\(x,i).(2 * ((x + 2) + (if (x + ~1) <= 0 then 1 else (2 * loop(\(x,i).x2,1,loop(\(x,i).((2 * (x - (2x * i))) div (1 + i)),x,1)))))),1,(x + ~1)) mod (x + 1))
1: (loop(\(x,i).(x2 + 5x + 6),3,3) mod (x + 1))
1: (loop(\(x,i).(x2 + 3x),2,3) mod (x + 1))
1: (loop(\(x,i).(2x + 8),x,0) mod (1 + (x div 3)))
1: (loop(\(x,i).(3x + 12),(x + 1),0) mod (x + 1))
1: (loop(\(x,i).(x * ((x + 1) + i)),2,3) mod (x + 1))
1: (loop(\(x,i).((x + 1) * ((x + 2) + i)),2,3) mod (x + 1))
1: (loop(\(x,i).(x * (3x + i)),2,2) mod (x + 1))
1: (loop(\(x,i).(x * (2x + i)),2,3) mod (x + 1))
1: (loop(\(x,i).(x * (2x + i)),3,2) mod (x + 1))
1: (loop(\(x,i).(x * (2x + i)),4,2) mod (x + 1))
1: (loop(\(x,i).(~x2 + x + 6),3,0) mod (x + 1))
1: (loop(\(x,i).(~x2 + 3x),2,16) mod (x + 1))
1: (loop(\(x,i).(~x2 + 4x),2,3x) mod (x + 1))
1: (loop(\(x,i).7x,(x + 1),1) mod (x + 1))
1: (loop(\(x,i).7x,(x + 1),1) mod (2x + 2))
1: (loop(\(x,i).7x,(x + 1),1) mod (3x + 3))
1: (loop(\(x,i).7x,(4x + 3),1) mod (~2 + loop(\(x,i).x2,(3x + 2),3)))
1: (loop(\(x,i).7x,x,1) mod 17)
1: (loop(\(x,i).7x,x,1) mod 25)
1: (loop(\(x,i).7x,x,1) mod 41)
1: (loop(\(x,i).7x,x,1) mod 37)
1: (loop(\(x,i).7x,x,1) mod 33)
1: (loop(\(x,i).7x,x,1) mod (1 + loop(\(x,i).(x2 + x),2,2)))
1: (loop(\(x,i).7x,x,1) mod 29)
1: (loop(\(x,i).7x,x,1) mod 23)
1: (loop(\(x,i).7x,x,1) mod 31)
1: (loop(\(x,i).7x,x,1) mod 47)
1: (loop(\(x,i).7x,x,1) mod 71)
1: (loop(\(x,i).7x,x,1) mod (~2 + loop(\(x,i).(x3 + 2),2,2)))
1: (loop(\(x,i).7x,x,1) mod 45)
1: (loop(\(x,i).7x,x,1) mod loop(\(x,i).(x2 + 2x + 1),2,2))
1: (loop(\(x,i).7x,x,1) mod loop(\(x,i).3x,x,1))
1: (loop(\(x,i).7x,x,1) mod loop(\(x,i).5x,x,1))
1: (loop(\(x,i).7x,x,1) mod loop(\(x,i).4x,x,1))
1: (loop(\(x,i).7x,x,1) mod loop(\(x,i).6x,x,1))
1: (loop(\(x,i).7x,x,1) mod loop(\(x,i).2x,x,1))
1: (loop(\(x,i).(2x + 16),x,0) mod (x + 1))
1: (loop(\(x,i).(x2 + 10x + 16),2,9) mod (x + 1))
1: (loop(\(x,i).13x,(x + 1),1) mod (x + 1))
1: (loop(\(x,i).13x,x,1) mod 31)
1: (loop(\(x,i).(5x2 + 6x + 1),3,2) mod (x + 1))
1: (loop(\(x,i).(~5x2 + 9x + 2),2,x) mod (x + 1))
1: (loop(\(x,i).(x * (1 + (2 * (5x + (x div 2))))),2,x) mod (x + 1))
1: (loop(\(x,i).(7x2 + 28x + 7),2,x) mod (x + 1))
1: (loop(\(x,i).(15x2 + 33x + 9),2,x) mod (x + 1))
1: (loop(\(x,i).(14x2 + 6x + 4),2,x) mod (x + 1))
1: (loop(\(x,i).(8x2 + 2x + 2),2,x) mod (x + 1))
1: (loop(\(x,i).(4x2 + 2x + 2),2,2x) mod (x + 1))
1: (loop(\(x,i).(2x2 + 5x + 3),2,2) mod (x + 1))
1: (loop(\(x,i).(2x2 + 5x),2,12) mod (x + 1))
1: (loop(\(x,i).(2x2 + 5x),4,2) mod (x + 1))
1: (loop(\(x,i).(3x2 + 7x + 4),2,1) mod (x + 1))
1: (loop(\(x,i).(5x2 + 20x + 30),2,0) mod (x + 1))
1: (loop(\(x,i).(5x2 + 10x + 5),2,2) mod (x + 1))
1: (loop(\(x,i).(2x2 + 4x + 4),2,4x) mod (x + 1))
1: (loop(\(x,i).(x3 + 2x2 + 2x),2,3) mod (x + 1))
1: (loop(\(x,i).(x * (1 + (x * (2 + i)))),2,2x) mod (x + 1))
1: (loop(\(x,i).((x + 1) * (1 + (x * (x + i)))),2,2) mod (x + 1))
1: (loop(\(x,i).(5 * (2 + (x * (x + i)))),2,x) mod (x + 1))
1: (loop(\(x,i).(5 * (2 + (x * (x - i)))),2,x) mod (x + 1))
1: (loop(\(x,i).(9x2 + 2x),2,x) mod (x + 1))
1: (loop(\(x,i).(2x + 32),(x + 1),0) mod (x + 1))
1: (loop(\(x,i).(4x3 + 6x2 + 3x + 1),2,2) mod (x + 1))
1: (loop(\(x,i).(8x2 + 18),2,3) mod (x + 1))
1: (loop(\(x,i).(12x2 + 24x + 3),2,x) mod (x + 1))
1: (loop(\(x,i).(24x2 + 20x + 2),2,x) mod (x + 1))
1: (loop(\(x,i).(8x2 + 17x),2,x) mod (x + 1))
1: (loop(\(x,i).(96x2 + x),2,x) mod (x + 1))
1: (loop(\(x,i).(16x2 + 10x + 1),2,x) mod (x + 1))
1: (loop(\(x,i).(x * (8x + i)),2,x) mod (x + 1))
1: (loop(\(x,i).(x * (1 + (4x * (1 + i)))),2,x) mod (x + 1))
1: (loop(\(x,i).(6x2 + 14x + 4),2,8x) mod (x + 1))
1: (loop(\(x,i).(4x2 + 4x + 2),2,2x) mod (x + 1))
1: (loop(\(x,i).(x * (2x2 + i)),2,x) mod (x + 1))
1: (loop(\(x,i).(6x2 + 4),2,x) mod (x + 1))
1: (loop(\(x,i).(2 * ((3x2 + 1) + i)),2,x) mod (x + 1))
1: (loop(\(x,i).(4x3 + x),2,4) mod (x + 1))
1: (loop(\(x,i).(2 * (4x2 + i)),2,x) mod (x + 1))
1: (loop(\(x,i).(x * (1 + (x2 * (1 + i)))),2,x) mod (x + 1))
1: (loop(\(x,i).(x5 + x),1,3x) mod (x + 1))
1: (loop(\(x,i).(x6 + 2x2),1,(~x + 2)) mod (x + 1))
1: (loop(\(x,i).(3x3 + 3),2,10) mod (x + 1))
1: (loop(\(x,i).(2x3 + 4),2,3) mod (x + 1))
1: (loop(\(x,i).(x * (2 + ((x2 + x) * i))),2,2) mod (x + 1))
1: (loop(\(x,i).(2 * (2 + (x2 * i))),2,2x) mod (x + 1))
1: (loop(\(x,i).(x * (1 + (2 * (i div 2)))),x,1) mod (2x + 2))
1: (loop(\(x,i).((x + 1) * (2 + ((x + 1) * loop(\(x,i).(2x2 + x),2,2)))),2,3) mod (x + 1))
1: (loop(\(x,i).(x * (2 + (x * loop(\(x,i).(2x2 + x),2,2)))),2,x) mod (x + 1))
1: (loop(\(x,i).(2x2 + 3x + 1),2,4x) mod (x + 1))
1: (loop(\(x,i).(~2x2 + 3x + 2),2,2x) mod (x + 1))
1: (loop(\(x,i).(2x2 + x),1,(loop(\(x,i).(2x + 2),x,0) mod (x + 1))) mod (x + 1))
1: (loop(\(x,i).(2x2 + x),2,2) mod (x + 1))
1: (loop(\(x,i).(2x2 + x),2,3x) mod (x + 1))
1: (loop(\(x,i).((2x + 1) * i),x,1) mod (x + 1))
1: (loop(\(x,i).(3x2 + 3),2,2x) mod (x + 1))
1: (loop(\(x,i).(x3 + x),1,(~x2 + 3x + ~2)) mod (x + 1))
1: (loop(\(x,i).(x3 + x),2,3) mod loop(\(x,i).2x,x,1))
1: (loop(\(x,i).(x3 + x),2,20) mod (x + 1))
1: (loop(\(x,i).(3x2 + 6),2,2x) mod (x + 1))
1: (loop(\(x,i).(x3 + 2x),2,2x) mod (x + 1))
1: (loop(\(x,i).(x3 + 2x2 + 3x + 6),2,x) mod (x + 1))
1: (loop(\(x,i).(x3 + 3x),2,(x + ~2)) mod (x + 1))
1: (loop(\(x,i).(2x2 + 8),2,2) mod (x + 1))
1: (loop(\(x,i).(x * ((x2 + 2) + i)),2,x) mod (x + 1))
1: (loop(\(x,i).(x * (x2 + i)),2,2) mod (x + 1))
1: (loop(\(x,i).(x * (1 + (2 * i))),4,1) mod (x + 1))
1: (loop(\(x,i).(x * (1 + (x * i))),2,3) mod (x + 1))
1: (loop(\(x,i).(x * (2 + (x * i))),4,2) mod (x + 1))
1: (loop(\(x,i).(x * (x + (i * i))),4,2) mod (x + 1))
1: (loop(\(x,i).(2 * (x + ((x * i) div (1 + i)))),(x + 1),x) mod 3)
1: (loop(\(x,i).((x + 2) * (x + (x div 2))),2,2) mod (x + 1))
1: (loop(\(x,i).((x + 2) * (x + (x div 2))),2,3) mod (x + 1))
1: (loop(\(x,i).(2 * (2x + (x div (if i <= 0 then 1 else i)))),x,1) mod (2 * (if x <= 0 then 1 else x)))
1: (loop(\(x,i).(x * (1 + (i div 3))),x,1) mod (x + 2))
1: (loop(\(x,i).((x + 1) * (1 + ((~x + 2) mod 4))),x,5) mod (x + 1))
1: (loop(\(x,i).(x * (2 + ((~1 + i) mod 4))),x,1) mod (x + 1))
1: (loop(\(x,i).(x * (2x + (i mod 2))),2,3) mod (x + 1))
1: (loop(\(x,i).(x * (1 + (if (x mod (1 + i)) <= 0 then 0 else i))),(x div 2),1) mod (x + 1))
1: (loop(\(x,i).(x * (1 + loop(\(x,i).10x,(1 + i),x))),2,x) mod (x + 1))
1: (loop(\(x,i).(2x + 2),1,(x div (2 + (x div (1 + (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) mod 9)))))) mod (x + 1))
1: (loop(\(x,i).(2x + 2),(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),(x + ~1),x)),1) mod 5)
1: (loop(\(x,i).(2x + 2),(x + ~2),2) mod (x + 1))
1: (loop(\(x,i).(2x + 2),36,0) mod (x + 1))
1: (loop(\(x,i).(2x + 2),((5x + 13) div 2),1) mod (x + 2))
1: (loop(\(x,i).(2x + 2),(x div 2),(x mod 2)) mod 5)
1: (loop(\(x,i).(2x + 2),((1 + (x mod 8)) mod (x + 1)),1) mod (x + 1))
1: (loop(\(x,i).(2x + 2),(loop(\(x,i).x2,4,2) mod (x + 1)),1) mod (x + 1))
1: (loop(\(x,i).(2x + 2),x,0) mod (2x + 1))
1: (loop(\(x,i).(2x + 2),x,1) mod (1 + (x div (1 + (x mod 2)))))
1: (loop(\(x,i).(2x + 2),x,1) mod (x + 2))
1: (loop(\(x,i).(2x + 2),x,1) mod (30x + 10))
1: (loop(\(x,i).(2x + 2),x,2) mod (x + 3))
1: (loop(\(x,i).(2x + 2),x,2) mod (x + 4))
1: (loop(\(x,i).(2x + 2),x,2) mod (1 + (x div 2)))
1: (loop(\(x,i).(2x + 2),x,2) mod (2 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)))
1: (loop(\(x,i).(2x + 2),x,8) mod (x + 1))
1: (loop(\(x,i).(2x + 2),x,(4 * (x mod 2))) mod (x + 1))
1: (loop(\(x,i).(2x + 2),x,(2 * (x mod 2))) mod (x + 1))
1: (loop(\(x,i).(2x + 2),x,(x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))) mod (x + 1))
1: (loop(\(x,i).(2x + 2),x,(if ((x + 2) mod 5) <= 0 then 1 else 0)) mod (x + 1))
1: (loop(\(x,i).(2x + 2),x,(if (x mod 7) <= 0 then 1 else 0)) mod (x + 1))
1: (loop(\(x,i).(2x + 2),x,(if (x mod 9) <= 0 then 1 else 0)) mod (x + 1))
1: (loop(\(x,i).(2x + 2),x,(if (x mod (2 + (x mod 4))) <= 0 then 1 else 0)) mod (x + 1))
1: (loop(\(x,i).(2x + 2),x,(if (x mod 8) <= 0 then 1 else 0)) mod (x + 1))
1: (loop(\(x,i).(3x + 3),x,2) mod (x + 1))
1: (loop(\(x,i).(x2 + x),1,(1 - (loop(\(x,i).(2x + 1),2x,2) mod (x + 1)))) mod (x + 1))
1: (loop(\(x,i).(x2 + x),1,(~1 + (loop(\(x,i).(2x + 2),x,2) mod loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))) mod (x + 1))
1: (loop(\(x,i).(x2 + x),2,4) mod (x + 1))
1: (loop(\(x,i).(x2 + x),2,5) mod (x + 1))
1: (loop(\(x,i).(x2 + x),2,17) mod (x + 1))
1: (loop(\(x,i).((x + 1) * i),(x div 2),2) mod (x + 1))
1: (loop(\(x,i).((x + 1) * i),x,0) mod (x + 1))
1: (loop(\(x,i).(2x + 4),5,2) mod (x + 1))
1: (loop(\(x,i).(2x + 4),(x div 2),(x mod 2)) mod (2 + (x div 4)))
1: (loop(\(x,i).(2x + 4),((x + 1) mod 8),0) mod (x + 1))
1: (loop(\(x,i).(2x + 4),x,(2 * (x mod 2))) mod (x + 1))
1: (loop(\(x,i).(x2 + 3x + 2),2,3) mod (x + 1))
1: (loop(\(x,i).(x2 + 2x),1,(loop(\(x,i).(2x + 1),x,0) mod (x + 1))) mod (x + 1))
1: (loop(\(x,i).(x2 + 2x),2,3) mod (x + 1))
1: (loop(\(x,i).(x2 + 2x),2,4) mod (x + 1))
1: (loop(\(x,i).(x2 + 2x),2,(~1 + (x mod (9 + (x mod 2))))) mod (x + 1))
1: (loop(\(x,i).(x2 + 2x),2,6) mod (x + 1))
1: (loop(\(x,i).(x2 + 2x),2,(~3x + 6)) mod (x + 1))
1: (loop(\(x,i).(x2 + 2x),2,(6 * (1 + (2 * (x mod 2))))) mod (x + 1))
1: (loop(\(x,i).(x2 + 2x),2,x) mod 9)
1: (loop(\(x,i).(x2 + 2x),3,2) mod (x + 1))
1: (loop(\(x,i).(x2 + 2x),3,(6 * (x div 5))) mod (x + 1))
1: (loop(\(x,i).((x + 2) * i),8,1) mod (x + 1))
1: (loop(\(x,i).(x * (1 + i)),4,2) mod (x + 1))
1: (loop(\(x,i).(x * (1 + i)),(2 + (x div 4)),1) mod (x + 1))
1: (loop(\(x,i).(x * (1 + i)),(2 - (x div ~4)),1) mod (x + 1))
1: (loop(\(x,i).(x * (2 + i)),8,1) mod (x + 1))
1: (loop(\(x,i).(x * (2 + i)),x,2) mod (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: (loop(\(x,i).(2 * (x + i)),x,0) mod (2x + 3))
1: (loop(\(x,i).(2 * (x + i)),x,0) mod (x + 1))
1: (loop(\(x,i).(3 * (x + i)),x,0) mod (2x + 1))
1: (loop(\(x,i).((x + 1) * (x + i)),2,4) mod (x + 1))
1: (loop(\(x,i).(2x * (x + i)),2,2) mod (x + 1))
1: (loop(\(x,i).(2x * (x + i)),2,4) mod (x + 1))
1: (loop(\(x,i).(x * (x + i)),2,3) mod (x + 1))
1: (loop(\(x,i).(x * (x + i)),2,4) mod (x + 1))
1: (loop(\(x,i).(x * (x + i)),3,3) mod (x + 1))
1: (loop(\(x,i).(x * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))),x,1) mod loop(\(x,i).(x * i),x,1))
1: (loop(\(x,i).(~x3 + ~6x2 + ~8x),2,x) mod (x + 1))
1: (loop(\(x,i).(~2x3 + ~2x2 + ~2x + ~2),2,1) mod (x + 1))
1: (loop(\(x,i).~2x,(x + ~1),x) mod 5)
1: (loop(\(x,i).~2x,x,1) mod (1 + (x div 2)))
1: (loop(\(x,i).~2x,x,1) mod (x + 2))
1: (loop(\(x,i).~2x,x,1) mod 11)
1: (loop(\(x,i).~2x,x,2) mod (x + 1))
1: (loop(\(x,i).~2x,x,4) mod (x + 2))
1: (loop(\(x,i).~2x,x,(x + ~1)) mod (x + 1))
1: (loop(\(x,i).~2x,x,6) mod (x + 1))
1: (loop(\(x,i).~2x,x,x) mod (x + 2))
1: (loop(\(x,i).~3x,x,1) mod 11)
1: (loop(\(x,i).~x2,2,6) mod (x + 1))
1: (loop(\(x,i).~x2,4,3) mod (x + 1))
1: (loop(\(x,i).(x * (1 - (x * (1 + (2 * i))))),2,2x) mod (x + 1))
1: (loop(\(x,i).(~8x2 + x),2,x) mod (x + 1))
1: (loop(\(x,i).(x * (1 - (4x * (1 + i)))),2,x) mod (x + 1))
1: (loop(\(x,i).(~4x2 + ~3x + 1),2,2x) mod (x + 1))
1: (loop(\(x,i).(~x3 + ~x2 + x + 1),2,2) mod (x + 1))
1: (loop(\(x,i).(~2x + 2),x,1) mod (if x <= 0 then 1 else 2x))
1: (loop(\(x,i).(~2x + 2),x,3) mod (2x + 1))
1: (loop(\(x,i).(~3x + 3),x,1) mod 13)
1: (loop(\(x,i).((~x + 1) * (x div 2)),x,x) mod 2)
1: (loop(\(x,i).(~x2 + x),3,(x + ~2)) mod (x + 1))
1: (loop(\(x,i).((x + 1) * (1 - i)),x,0) mod (x + 1))
1: (loop(\(x,i).(11x2 + 2x),2,x) mod (x + 1))
1: (loop(\(x,i).(6x2 + ~2x + 4),2,x) mod (x + 1))
1: (loop(\(x,i).(x * (2 - (x * (1 + (2 * (1 + i)))))),2,x) mod (x + 1))
1: (loop(\(x,i).(~2x + 4),(1 + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x)),1) mod (x + 1))
1: (loop(\(x,i).(~2x + 4),(x mod 5),0) mod (x + 1))
1: (loop(\(x,i).(~2x + 4),x,2) mod (x + 1))
1: (loop(\(x,i).(~2x + 4),x,2) mod (if x <= 0 then 1 else x))
1: (loop(\(x,i).(~x2 + 3x + ~2),2,4x) mod (x + 1))
1: (loop(\(x,i).((~x + 2) * i),6,2) mod (x + 1))
1: (loop(\(x,i).(x * (4 - (x * (4 + i)))),2,x) mod (x + 1))
1: (loop(\(x,i).(~6x2 + 5x + ~1),2,x) mod (x + 1))
1: (loop(\(x,i).(~11x2 + ~2x),2,x) mod (x + 1))
1: (loop(\(x,i).(3x2 + 4x + ~4),2,2) mod (x + 1))
1: (loop(\(x,i).(3x2 + ~2x),2,2x) mod (x + 1))
1: (loop(\(x,i).(3x2 + ~2x),(2 + (x mod 2)),2) mod (x + 1))
1: (loop(\(x,i).11x,(x + 1),1) mod (x + 1))
1: (loop(\(x,i).11x,x,1) mod (~2 + loop(\(x,i).(x3 + 2),2,2)))
1: (loop(\(x,i).11x,x,1) mod loop(\(x,i).10x,x,1))
1: (loop(\(x,i).(5x2 + ~x),2,x) mod (x + 1))
1: (loop(\(x,i).(x * (~1 + (x * (2 + (3 * i))))),2,x) mod (x + 1))
1: (loop(\(x,i).(x * (~2 + (x * (2 + (5 * i))))),2,x) mod (x + 1))
1: (loop(\(x,i).(2 * ((2x + 2) - (x div (1 + i)))),x,0) mod (x2 + 2x + 1))
1: (loop(\(x,i).(2 * ((2x + 2) - (x div (1 + i)))),x,0) mod (x + 1))
1: (loop(\(x,i).(x * (~1 + (x * (2 + i)))),2,2) mod (x + 1))
1: (loop(\(x,i).(~6x2 + ~3),2,x) mod (x + 1))
1: (loop(\(x,i).(~x4 + x3 + ~x2),2,2) mod (x + 1))
1: (loop(\(x,i).(9x2 + ~x),2,x) mod (x + 1))
1: (loop(\(x,i).(8x2 + 15x + 7),2,2x) mod (x + 1))
1: (loop(\(x,i).(x * (~1 + (5x * i))),2,x) mod (x + 1))
1: (loop(\(x,i).(x * (~1 + (2x * (1 + (2 * i))))),2,x) mod (x + 1))
1: (loop(\(x,i).(6x2 + 6x + ~2),2,2x) mod (x + 1))
1: (loop(\(x,i).(8x2 + ~x),2,x) mod (x + 1))
1: (loop(\(x,i).(x * (~1 + (4x * (1 + i)))),2,x) mod (x + 1))
1: (loop(\(x,i).(2 * (~1 + (4 * (x div 2)))),2,x) mod (x + 1))
1: (loop(\(x,i).(4x2 + ~x),2,2) mod (x + 1))
1: (loop(\(x,i).(4x2 + ~2),2,2x) mod (x + 1))
1: (loop(\(x,i).(6x2 + ~2x),2,4) mod (x + 1))
1: (loop(\(x,i).(12x2 + ~3),2,x) mod (x + 1))
1: (loop(\(x,i).(4x3 + ~x),2,6) mod (x + 1))
1: (loop(\(x,i).(2x2 + 3x + ~2),3,2) mod (x + 1))
1: (loop(\(x,i).(~2x2 + 5x + ~2),2,2x) mod (x + 1))
1: (loop(\(x,i).(2x2 + ~x),1,(1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1))) mod (x + 1))
1: (loop(\(x,i).(2x2 + ~x),2,(~2x + 1)) mod (x + 1))
1: (loop(\(x,i).(2x2 + ~x),2,3x) mod (x + 1))
1: (loop(\(x,i).(2 * (2x - (x div (1 + i)))),x,1) mod (x + 1))
1: (loop(\(x,i).(2 * (2x - (x div (1 + i)))),x,2) mod (x + 3))
1: (loop(\(x,i).(2 * (2x - (x div (1 + i)))),x,2) mod (2x + 3))
1: (loop(\(x,i).(2 * (2x - (x div (1 + i)))),x,2) mod (x2 + 4x + 4))
1: (loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,1) mod 10)
1: (loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,2) mod (2x + 1))
1: (loop(\(x,i).(2x2 + ~4),2,3x) mod (x + 1))
1: (loop(\(x,i).(x3 + ~2x),2,2x) mod (x + 1))
1: (loop(\(x,i).(x * (~1 + (2 * i))),x,~2) mod (x + 1))
1: (loop(\(x,i).(x * (~1 + (x * i))),3,x) mod (x + 1))
1: (loop(\(x,i).(x * (~2 + (x div 2))),x,x) mod 2)
1: (loop(\(x,i).(x * (~2 + (i mod 2))),x,1) mod (1 + (x div 4)))
1: (loop(\(x,i).(2x + ~2),x,(1 + (2x mod (2 + (x div 4))))) mod (x + 1))
1: (loop(\(x,i).(2x + ~2),x,(if (x mod (2 + (x mod 2))) <= 0 then 1 else 0)) mod 5)
1: (loop(\(x,i).(x2 + ~x),1,compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 5)
1: (loop(\(x,i).(x2 + ~x),2,6) mod (x + 1))
1: (loop(\(x,i).(x2 + ~x),2,(~x2 + 2x)) mod (x + 1))
1: (loop(\(x,i).(x2 + ~x),2,loop(\(x,i).(2x + 1),x,0)) mod (x + 1))
1: (loop(\(x,i).((x + ~1) * i),8,2) mod (x + 1))
1: (loop(\(x,i).(2x + ~4),loop(\(x,i).(x div (1 + (x mod 2))),x,x),1) mod (x + 1))
1: (loop(\(x,i).(x2 + ~3x + 2),2,4x) mod (x + 1))
1: (loop(\(x,i).(x2 + ~2x),2,6) mod (x + 1))
1: (loop(\(x,i).(x2 + ~2x),2,(~x2 + 2x)) mod (x + 1))
1: (loop(\(x,i).(x3 + ~3x2),2,x) mod (x + 1))
1: (loop(\(x,i).(x * ((x + 2) - i)),3,2) mod (x + 1))
1: (loop(\(x,i).(3x2 + ~4x),2,5) mod (x + 1))
1: (loop(\(x,i).(3x2 + ~4x),2,(~2x + 1)) mod (x + 1))
1: (loop(\(x,i).(5x2 + ~8x),2,x) mod (x + 1))
1: (loop(\(x,i).(~7x2 + 2x),2,x) mod (x + 1))
1: (loop(\(x,i).(2 * (x - (2 * (~2 + (x mod 4))))),(x + ~1),1) mod (x + 1))
1: (loop(\(x,i).(~4x2 + 2x),2,2) mod (x + 1))
1: (loop(\(x,i).(~4x3 + 4x2 + ~x),2,2) mod (x + 1))
1: (loop(\(x,i).(~8x2 + 2x),2,x) mod (x + 1))
1: (loop(\(x,i).(2 * (x - (i mod 2))),x,1) mod (x + 1))
1: (loop(\(x,i).((x + 2) * (x - i)),2,5) mod (x + 1))
1: (loop(\(x,i).(x * (x - i)),2,4) mod (x + 1))
1: (loop(\(x,i).(x * (x - i)),2,6) mod (x + 1))
1: (loop(\(x,i).(x * (x - i)),3,3) mod (x + 1))
1: (loop(\(x,i).(x * (x - i)),3,8) mod (x + 1))
1: (loop(\(x,i).(x * (x - i)),4,3) mod (x + 1))
1: (loop(\(x,i).(x * ((6x + ~6) + i)),2,x) mod (x + 1))
1: (loop(\(x,i).15x,x,1) mod loop(\(x,i).10x,x,1))
1: (loop(\(x,i).(4x2 + 8x + 4),2,8x) mod (x + 1))
1: (loop(\(x,i).(8x2 + ~4x + ~4),2,x) mod (x + 1))
1: (loop(\(x,i).10x,(x + 1),1) mod (x + 1))
1: (loop(\(x,i).10x,x,1) mod (x + 1))
1: (loop(\(x,i).10x,x,1) mod 29)
1: (loop(\(x,i).10x,x,1) mod 31)
1: (loop(\(x,i).10x,x,1) mod 32)
1: (loop(\(x,i).10x,x,1) mod loop(\(x,i).(2x2 + ~1),2,2))
1: (loop(\(x,i).10x,x,1) mod loop(\(x,i).3x,2x,1))
1: (loop(\(x,i).10x,x,1) mod loop(\(x,i).3x,x,1))
1: (loop(\(x,i).10x,x,1) mod loop(\(x,i).7x,x,1))
1: (loop(\(x,i).10x,x,1) mod loop(\(x,i).8x,x,1))
1: (loop(\(x,i).10x,x,1) mod loop(\(x,i).4x,x,1))
1: (loop(\(x,i).10x,x,1) mod loop(\(x,i).6x,x,1))
1: (loop(\(x,i).10x,x,x) mod (x + 1))
1: (loop(\(x,i).(2x2 + 10x),2,1) mod (x + 1))
1: (loop(\(x,i).((3x + 3) * ((x + 2) + (x div 2))),2,2) mod (x + 1))
1: (loop(\(x,i).(2x2 + 6x),2,2) mod (x + 1))
1: (loop(\(x,i).(3x2 + 9x),2,1) mod (x + 1))
1: (loop(\(x,i).(2x2 + 12x + 16),2,(x2 + 2x)) mod (x + 1))
1: (loop(\(x,i).(2x2 + 8x),2,1) mod (x + 1))
1: (loop(\(x,i).(5x2 + 20x),2,x) mod (x + 1))
1: (loop(\(x,i).(10x2 + 2x),2,x) mod (x + 1))
1: (loop(\(x,i).(x2 * (1 + (2 * (3 + i)))),2,x) mod (x + 1))
1: (loop(\(x,i).(80x2 + 8x + 4),2,x) mod (x + 1))
1: (loop(\(x,i).(120x2 + 12x + 6),2,x) mod (x + 1))
1: (loop(\(x,i).(14x2 + 6x),2,x) mod (x + 1))
1: (loop(\(x,i).(6x2 + 6x + 12),2,x) mod (x + 1))
1: (loop(\(x,i).(x2 * ((2 * (2 + i)) + i)),2,x) mod (x + 1))
1: (loop(\(x,i).(12x2 + ~20),2,x) mod (x + 1))
1: (loop(\(x,i).(18x2 + 18x + 6),2,x) mod (x + 1))
1: (loop(\(x,i).(10x2 + 36x + 32),2,x) mod (x + 1))
1: (loop(\(x,i).(4 * (1 + ((x2 + 2x) * (2 + i)))),2,x) mod (x + 1))
1: (loop(\(x,i).(4 * (1 + ((3x + 6) * (x + i)))),2,x) mod (x + 1))
1: (loop(\(x,i).(48x2 + 96x + 4),2,x) mod (x + 1))
1: (loop(\(x,i).(40x2 + 5x),2,x) mod (x + 1))
1: (loop(\(x,i).(6 * (8x2 + (x mod 3))),2,x) mod (x + 1))
1: (loop(\(x,i).(2x7 + x6 + 2x2 + x),1,2x) mod (x + 1))
1: (loop(\(x,i).(24x2 + 16x + 2),2,2x) mod (x + 1))
1: (loop(\(x,i).(x7 + x5 + x3 + x),1,2x) mod (x + 1))
1: (loop(\(x,i).(2x5 + 4x),1,3x) mod (x + 1))
1: (loop(\(x,i).(6x3 + 6),2,2) mod (x + 1))
1: (loop(\(x,i).(4 * (1 + (x2 * i))),2,x) mod (x + 1))
1: (loop(\(x,i).(10x2 + 10),2,(x + 1)) mod (x + 1))
1: (loop(\(x,i).(x4 + 2x3 + 2x2 + 2x + 1),2,2) mod (x + 1))
1: (loop(\(x,i).(2x3 + 2x),2,6) mod (x + 1))
1: (loop(\(x,i).(2x3 + 2x),2,2x) mod (x + 1))
1: (loop(\(x,i).(x4 + x2),2,2) mod (x + 1))
1: (loop(\(x,i).(4x2 + 8),2,0) mod (x + 1))
1: (loop(\(x,i).(4x2 + 8),2,(2x + 1)) mod (x + 1))
1: (loop(\(x,i).(2x3 + 4x),2,1) mod (x + 1))
1: (loop(\(x,i).(x4 + 3x2),2,2) mod (x + 1))
1: (loop(\(x,i).(2x3 + 2x2 + 8x + 8),2,2) mod (x + 1))
1: (loop(\(x,i).(6 * (x2 + i)),2,x) mod (x + 1))
1: (loop(\(x,i).((2x2 + ~x) * (1 + (2 * i))),2,x) mod (x + 1))
1: (loop(\(x,i).(4 * (1 + ((32 mod (x + 1)) div 2))),3,x) mod 3)
1: (loop(\(x,i).(20 * (x + (x div 2))),2,x) mod (x + 1))
1: (loop(\(x,i).(12 * (x + (x div 4))),2,x) mod (x + 1))
1: (loop(\(x,i).(2x * (2 + ((x + ~1) mod 3))),3,x) mod (x + 1))
1: (loop(\(x,i).(2x * (2 + (i mod 3))),x,1) mod 5)
1: (loop(\(x,i).(9x + 9),2,loop(\(x,i).(10x + 1),x,1)) mod (x + 1))
1: (loop(\(x,i).(x3 + 4x2 + 3x),2,1) mod (x + 1))
1: (loop(\(x,i).(2x3 + 3x2 + x),2,1) mod (x + 1))
1: (loop(\(x,i).(x3 + 2x2 + x),2,2) mod (x + 1))
1: (loop(\(x,i).(4x + 8),4,0) mod (x + 1))
1: (loop(\(x,i).(4x + 8),4,1) mod (x + 1))
1: (loop(\(x,i).(2x2 + 8x + 8),2,1) mod (x + 1))
1: (loop(\(x,i).(3x2 + 12x + 12),2,0) mod (x + 1))
1: (loop(\(x,i).((x2 + 4x + 4) * (1 + i)),2,2) mod (x + 1))
1: (loop(\(x,i).(2x2 + 4x),2,2) mod (x + 1))
1: (loop(\(x,i).(2x2 + 4x),5,1) mod (x + 1))
1: (loop(\(x,i).(4x2 + 8x),2,1) mod (x + 1))
1: (loop(\(x,i).((x2 + 2x) * (2 + i)),2,1) mod (x + 1))
1: (loop(\(x,i).(x3 + x2 + ~2x),2,2) mod (x + 1))
1: (loop(\(x,i).(x3 + x2 + ~2x),3,2) mod (x + 1))
1: (loop(\(x,i).((x2 + x) * (1 + i)),2,2) mod (x + 1))
1: (loop(\(x,i).((x2 + x) * (1 + i)),2,3) mod (x + 1))
1: (loop(\(x,i).((2x + 2) * (x + i)),2,2) mod (x + 1))
1: (loop(\(x,i).((x2 + 2x + 1) * (x + i)),2,1) mod (x + 1))
1: (loop(\(x,i).((3x + 6) * (x + i)),2,2) mod (x + 1))
1: (loop(\(x,i).((5x + 10) * (x + i)),2,2) mod (x + 1))
1: (loop(\(x,i).(x2 * (x + i)),2,2) mod (x + 1))
1: (loop(\(x,i).((x + 1) * ((x + i) * i)),2,3) mod (x + 1))
1: (loop(\(x,i).~10x,(x + 1),1) mod (x + 1))
1: (loop(\(x,i).(~6x2 + ~9x + 6),2,x) mod (x + 1))
1: (loop(\(x,i).(~4x2 + ~4x + 8),2,2) mod (x + 1))
1: (loop(\(x,i).(~2x3 + ~2x2 + 4x),2,3) mod (x + 1))
1: (loop(\(x,i).(~5x2 + 5x),2,x) mod (x + 1))
1: (loop(\(x,i).(~x3 + 2x2 + ~x),2,x) mod (x + 1))
1: (loop(\(x,i).(~10x2 + 20),2,1) mod (x + 1))
1: (loop(\(x,i).((x2 + x) * (2 - (x mod 2))),2,(1 + (x div 2))) mod (x + 1))
1: (loop(\(x,i).(~2x2 + 2x + 4),2,3x) mod (x + 1))
1: (loop(\(x,i).(~4x2 + 16),2,0) mod (x + 1))
1: (loop(\(x,i).(~x3 + 4x2 + ~5x + 2),2,x) mod (x + 1))
1: (loop(\(x,i).(2x * ((x + ~1) + i)),2,3) mod (x + 1))
1: (loop(\(x,i).(x2 * (~1 + (4 * (1 + i)))),2,x) mod (x + 1))
1: (loop(\(x,i).(4x2 + 20x + ~8),2,x) mod (x + 1))
1: (loop(\(x,i).(18x2 + 306x + 282),2,x) mod (x + 1))
1: (loop(\(x,i).(18x2 + 18x + ~6),2,x) mod (x + 1))
1: (loop(\(x,i).(12x2 + 12x + ~8),2,x) mod (x + 1))
1: (loop(\(x,i).(30x2 + 30x + ~6),2,x) mod (x + 1))
1: (loop(\(x,i).(8x2 + 16x + ~4),2,x) mod (x + 1))
1: (loop(\(x,i).(4x3 + 3x2 + ~x),2,1) mod (x + 1))
1: (loop(\(x,i).(12x2 + ~6),2,x) mod (x + 1))
1: (loop(\(x,i).(2x5 + ~x3),1,3x) mod (x + 1))
1: (loop(\(x,i).(12x2 + ~4),2,x) mod (x + 1))
1: (loop(\(x,i).(18x2 + ~12),2,x) mod (x + 1))
1: (loop(\(x,i).(4x2 + ~2x),2,2) mod (x + 1))
1: (loop(\(x,i).(4x2 + ~4),2,2x) mod (x + 1))
1: (loop(\(x,i).(9x2 + ~18),2,x) mod (x + 1))
1: (loop(\(x,i).(6x2 + ~18),2,x) mod (x + 1))
1: (loop(\(x,i).(5x * (~1 + (x * i))),2,x) mod (x + 1))
1: (loop(\(x,i).(3x2 + ~3x),2,3) mod (x + 1))
1: (loop(\(x,i).(2x3 + ~3x2 + x),2,2) mod (x + 1))
1: (loop(\(x,i).(2x2 + ~6x + 4),2,2x) mod (x + 1))
1: (loop(\(x,i).(5x2 + ~10x),2,x) mod (x + 1))
1: (loop(\(x,i).(x4 + ~2x3),1,5x) mod (x + 1))
1: (loop(\(x,i).(~8x2 + ~28x + ~32),2,x) mod (x + 1))
1: (loop(\(x,i).((2x + ~2) * (x - i)),2,2x) mod (x + 1))
1: (loop(\(x,i).(x2 * (x - i)),2,5) mod (x + 1))
1: (loop(\(x,i).((x2 + ~2x) * (~x + i)),2,x) mod (x + 1))
1: (loop(\(x,i).(12x2 + ~24x + 12),2,x) mod (x + 1))
1: (loop(\(x,i).(4x2 + 16x + 12),2,1) mod (x + 1))
1: (loop(\(x,i).(8 * (1 + ((x + 2) * (x + i)))),2,x) mod (x + 1))
1: (loop(\(x,i).(x5 + 4x3),1,3x) mod (x + 1))
1: (loop(\(x,i).(4x * (2x + (x div 2))),2,x) mod (x + 1))
1: (loop(\(x,i).(12x + 24),2,3) mod (x + 1))
1: (loop(\(x,i).(9x2 + 18x),2,x) mod (x + 1))
1: (loop(\(x,i).(~24x2 + 24x + ~6),2,x) mod (x + 1))
1: (loop(\(x,i).(18 * (~1 + ((x + 1) * loop(\(x,i).x2,2,4)))),2,5) mod (x + 1))
1: (loop(\(x,i).(24x2 + ~24x + 6),2,x) mod (x + 1))
1: (loop(\(x,i).(12 * (2x - (x mod 4))),2,x) mod (x + 1))
1: (loop(\(x,i).(24 * (1 + (((x + 1) * (1 + ((x + 1) * loop(\(x,i).x2,2,3)))) div 3))),2,x) mod (x + 1))
1: (loop(\(x,i).(2x5 + ~x4),1,3x) mod (x + 1))
1: (loop(\(x,i).8x,x,1) mod loop(\(x,i).3x,x,1))
1: (loop(\(x,i).8x,x,1) mod loop(\(x,i).5x,x,1))
1: (loop(\(x,i).8x,x,1) mod loop(\(x,i).7x,x,1))
1: (loop(\(x,i).8x,x,1) mod loop(\(x,i).6x,x,1))
1: (loop(\(x,i).8x,x,(~1 + loop(\(x,i).2x,(x * (x mod 2)),2))) mod (x + 1))
1: (loop(\(x,i).12x,(x + 1),1) mod (x + 1))
1: (loop(\(x,i).12x,x,1) mod loop(\(x,i).11x,x,1))
1: (loop(\(x,i).(4x2 + 4x),2,1) mod (x + 1))
1: (loop(\(x,i).(4x3 + 2x2),2,3) mod (x + 1))
1: (loop(\(x,i).(2x3 + ~2x2),2,2) mod (x + 1))
1: (loop(\(x,i).(8x3 + 12x2),2,3) mod (x + 1))
1: (loop(\(x,i).(2x3 + 4x2),2,5) mod (x + 1))
1: (loop(\(x,i).(3x3 + 6x2),2,5) mod (x + 1))
1: (loop(\(x,i).(x5 + 2x3),2,3) mod (x + 1))
1: (loop(\(x,i).x5,1,5) mod (x + 1))
1: (loop(\(x,i).x5,1,11) mod (x + 1))
1: (loop(\(x,i).x5,1,(x mod 3)) mod (x + 1))
1: (loop(\(x,i).x5,2,~4) mod (x + 1))
1: (loop(\(x,i).((x3 + ~2x2) * i),2,x) mod (x + 1))
1: (loop(\(x,i).4x,1,(~1 + loop(\(x,i).~4x,x,1))) mod (x + 1))
1: (loop(\(x,i).4x,(x + 3),1) mod (x + 1))
1: (loop(\(x,i).4x,(x + ~1),1) mod 13)
1: (loop(\(x,i).4x,(x + ~1),2) mod 13)
1: (loop(\(x,i).4x,((x - (x div 4)) div 2),2) mod (2x + 1))
1: (loop(\(x,i).4x,(x div 2),1) mod (x + 1))
1: (loop(\(x,i).4x,(if (x mod 3) <= 0 then 1 else 0),3) mod (x + 1))
1: (loop(\(x,i).4x,x,1) mod 19)
1: (loop(\(x,i).4x,x,1) mod 17)
1: (loop(\(x,i).4x,x,1) mod 11)
1: (loop(\(x,i).4x,x,1) mod 29)
1: (loop(\(x,i).4x,x,1) mod loop(\(x,i).(x2 + 2x + 1),2,2))
1: (loop(\(x,i).4x,x,1) mod loop(\(x,i).3x,x,1))
1: (loop(\(x,i).4x,x,2) mod (2x + 3))
1: (loop(\(x,i).4x,x,2) mod (2x + 1))
1: (loop(\(x,i).4x,x,2) mod (x + 2))
1: (loop(\(x,i).4x,x,4) mod (2x + 3))
1: (loop(\(x,i).4x,x,4) mod (x + 1))
1: (loop(\(x,i).4x,x,4) mod loop(\(x,i).x2,2,(x + 1)))
1: (loop(\(x,i).4x,x,5) mod (2x + 3))
1: (loop(\(x,i).6x,(x + 1),1) mod (x + 1))
1: (loop(\(x,i).6x,(x + 1),1) mod loop(\(x,i).x2,2,10))
1: (loop(\(x,i).6x,x,1) mod 13)
1: (loop(\(x,i).6x,x,1) mod 19)
1: (loop(\(x,i).6x,x,1) mod 17)
1: (loop(\(x,i).6x,x,1) mod 41)
1: (loop(\(x,i).6x,x,1) mod 151)
1: (loop(\(x,i).6x,x,1) mod 29)
1: (loop(\(x,i).6x,x,1) mod 229)
1: (loop(\(x,i).6x,x,1) mod 31)
1: (loop(\(x,i).6x,x,1) mod 47)
1: (loop(\(x,i).6x,x,1) mod (~2 + loop(\(x,i).(x3 + 2),2,2)))
1: (loop(\(x,i).6x,x,1) mod (~1 + loop(\(x,i).((x + 1) * (x + i)),2,2)))
1: (loop(\(x,i).6x,x,1) mod loop(\(x,i).(x2 + 2x + 1),2,2))
1: (loop(\(x,i).6x,x,1) mod loop(\(x,i).5x,x,1))
1: (loop(\(x,i).6x,x,1) mod loop(\(x,i).4x,x,1))
1: (loop(\(x,i).6x,x,(x + 1)) mod (2x + 1))
1: (loop(\(x,i).6x,x,x2) mod 7)
1: (loop(\(x,i).(2x2 + 2x),2,2) mod (x + 1))
1: (loop(\(x,i).~4x,(x + ~1),x) mod 9)
1: (loop(\(x,i).~4x,x,1) mod 11)
1: (loop(\(x,i).2x2,2,3) mod (x + 1))
1: (loop(\(x,i).2x2,3,6) mod (x + 1))
1: (loop(\(x,i).2x2,(1 + (x mod 2)),5) mod (x + 1))
1: (loop(\(x,i).(x3 + x2),2,48) mod (x + 2))
1: (loop(\(x,i).(x3 + x2),2,2x) mod (x + 1))
1: (loop(\(x,i).(x3 + x2),3,2) mod (x + 1))
1: (loop(\(x,i).(x3 + 2x2),3,2) mod (x + 1))
1: (loop(\(x,i).(x3 + ~x2),2,x) mod (x + 1))
1: (loop(\(x,i).(x3 + ~2x2),2,7) mod (x + 1))
1: (loop(\(x,i).x3,1,6) mod (x + 1))
1: (loop(\(x,i).x3,2,(3 + (x mod 2))) mod (x + 1))
1: (loop(\(x,i).x3,2,9) mod (x + 1))
1: (loop(\(x,i).x3,2,19) mod (x + 1))
1: (loop(\(x,i).x3,2,55) mod (x + 1))
1: (loop(\(x,i).x3,2,65) mod (x + 1))
1: (loop(\(x,i).x3,2,11) mod (x + 1))
1: (loop(\(x,i).x3,2,39) mod (x + 1))
1: (loop(\(x,i).x3,2,6) mod (x + 1))
1: (loop(\(x,i).x3,3,3) mod (x + 1))
1: (loop(\(x,i).(2x * i),4,1) mod (x + 1))
1: (loop(\(x,i).(2x * i),x,x) mod (x + 2))
1: (loop(\(x,i).(x * (i * i)),(x div 2),1) mod (x + 2))
1: (loop(\(x,i).(((x - i) div 2) * i),x,1) mod 2)
1: (loop(\(x,i).(2 * ((~2x + 2) div 5)),x,~x) mod (x + 1))
1: (loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),x,1) mod 3)
1: (loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),x,1) mod (x2 + 2x + 1))
1: (loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),x,1) mod (x + 1))
1: (loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),x,1) mod (x3 + 3x2 + 3x + 1))
1: (loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),x,1) mod loop(\(x,i).x2,2,(x + 1)))
1: (loop(\(x,i).(3 * (x2 div 2)),2,(~x + 3)) mod (x + 1))
1: (loop(\(x,i).((x + ~2) * (x2 div 2)),2,x) mod (x + 1))
1: (loop(\(x,i).(x * (x2 div 2)),2,(x + ~8)) mod (x + 1))
1: (loop(\(x,i).(x * (x div 2)),1,compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 5)
1: (loop(\(x,i).((x + 1) * (if ((x + 1) mod 8) <= 0 then 2 else 1)),x,1) mod (2x + 2))
1: (loop(\(x,i).(x * loop(\(x,i).(2x2 + ~1),2,2)),2,x) mod (x + 1))
1: (loop(\(x,i).(x * loop(\(x,i).3x,3,(x2 + x + 2))),2,1) mod (x + 1))
1: (loop(\(x,i).2x,3,(~1 + (if x <= 0 then 2 else (x mod 2)))) mod (x + 1))
1: (loop(\(x,i).2x,(1 + ((1 + (8 mod (1 + (x div 2)))) div 2) - (x mod 2)),1) mod (x + 1))
1: (loop(\(x,i).2x,(x + 16),1) mod (x + 1))
1: (loop(\(x,i).2x,(x + (2 * (x mod 2))),x) mod (x + 1))
1: (loop(\(x,i).2x,(2 + (3 * (x mod 2))),1) mod (x + 1))
1: (loop(\(x,i).2x,(x + ((x + ((x div 4) mod 2)) div 2)),1) mod 5)
1: (loop(\(x,i).2x,(x + (loop(\(x,i).(3x + ~1),x,2) mod (x + 1))),1) mod (x + 1))
1: (loop(\(x,i).2x,(x + 1),~2) mod (x + 1))
1: (loop(\(x,i).2x,(x + 2),2) mod (x + 1))
1: (loop(\(x,i).2x,(2x + ~1),1) mod (1 + (x div 3)))
1: (loop(\(x,i).2x,(2x + ~1),1) mod (x + 1))
1: (loop(\(x,i).2x,(x + ~1),(1 + (~x mod 4))) mod (x + 1))
1: (loop(\(x,i).2x,(x + ~1),(1 + ((x * (x div 2)) mod 2))) mod (x + 1))
1: (loop(\(x,i).2x,(x + ~1),(2x mod 3)) mod (x + 1))
1: (loop(\(x,i).2x,(x + ~1),(if (x mod (2 + (x mod 2))) <= 0 then 1 else 0)) mod (x + 1))
1: (loop(\(x,i).2x,(x - (2 * (x div 5))),1) mod 5)
1: (loop(\(x,i).2x,(x - (x div (1 + (x mod 2)))),1) mod (2x + 4))
1: (loop(\(x,i).2x,(x - loop(\(x,i).(~1 + (if x <= 0 then (2 * i) else x)),x,0)),1) mod (x + 1))
1: (loop(\(x,i).2x,((x + ~1) div 2),1) mod (x + 2))
1: (loop(\(x,i).2x,(2x div 3),1) mod (x + 2))
1: (loop(\(x,i).2x,((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3),1) mod 11)
1: (loop(\(x,i).2x,((loop(\(x,i).(x * i),x,2) mod (x + 1)) div 2),2) mod (x + 1))
1: (loop(\(x,i).2x,(x div 2),(~1 + (x mod 2))) mod loop(\(x,i).2x,x,2))
1: (loop(\(x,i).2x,(x div 2),(x mod 2)) mod (x + 1))
1: (loop(\(x,i).2x,(x div 2),(x mod 4)) mod (x + 1))
1: (loop(\(x,i).2x,(x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))),1) mod 4)
1: (loop(\(x,i).2x,(x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))),1) mod 5)
1: (loop(\(x,i).2x,((x + 1) mod 4),2) mod (x + 1))
1: (loop(\(x,i).2x,((x + 1) mod 4),x) mod (x + 1))
1: (loop(\(x,i).2x,((x + 2) mod 4),3) mod (x + 1))
1: (loop(\(x,i).2x,((x - (x div 5)) mod 5),1) mod (x + 1))
1: (loop(\(x,i).2x,(16 mod (x + 1)),1) mod (x + 1))
1: (loop(\(x,i).2x,(loop(\(x,i).2x,x,2) mod (x + 1)),1) mod (x + 1))
1: (loop(\(x,i).2x,(if (x mod 2) <= 0 then x else 1),2) mod (x + 1))
1: (loop(\(x,i).2x,(if (x mod 3) <= 0 then x else 0),2) mod (x + 1))
1: (loop(\(x,i).2x,(if (x mod 3) <= 0 then x else 1),2) mod (x + 1))
1: (loop(\(x,i).2x,loop(\(x,i).(x div (1 + (x mod 2))),x,x),1) mod ((x + 1) * (2 - (x mod 2))))
1: (loop(\(x,i).2x,x,1) mod (x + 3))
1: (loop(\(x,i).2x,x,1) mod (x + 4))
1: (loop(\(x,i).2x,x,1) mod (2 + ((x + ((x div 2) mod 2)) div 2) - (x mod 2)))
1: (loop(\(x,i).2x,x,1) mod 13)
1: (loop(\(x,i).2x,x,1) mod 67)
1: (loop(\(x,i).2x,x,1) mod (x2 + 2x + 1))
1: (loop(\(x,i).2x,x,1) mod 19)
1: (loop(\(x,i).2x,x,1) mod 17)
1: (loop(\(x,i).2x,x,1) mod 25)
1: (loop(\(x,i).2x,x,1) mod 41)
1: (loop(\(x,i).2x,x,1) mod 37)
1: (loop(\(x,i).2x,x,1) mod 61)
1: (loop(\(x,i).2x,x,1) mod 21)
1: (loop(\(x,i).2x,x,1) mod 33)
1: (loop(\(x,i).2x,x,1) mod (1 + (4 * (x mod 4))))
1: (loop(\(x,i).2x,x,1) mod (1 + (3 * (4x mod 13))))
1: (loop(\(x,i).2x,x,1) mod (1 + (2 * loop(\(x,i).(1 + (x * i)),4,2))))
1: (loop(\(x,i).2x,x,1) mod (1 + (x div 2)))
1: (loop(\(x,i).2x,x,1) mod (1 + (2x mod (2 + (x div 4)))))
1: (loop(\(x,i).2x,x,1) mod (1 + (x mod (1 + (6 * (x mod 2))))))
1: (loop(\(x,i).2x,x,1) mod (1 + (x mod 12)))
1: (loop(\(x,i).2x,x,1) mod (1 + loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,2)))
1: (loop(\(x,i).2x,x,1) mod (1 + loop(\(x,i).(4x + 2),2,8)))
1: (loop(\(x,i).2x,x,1) mod (1 + loop(\(x,i).(2x2 + x),2,2)))
1: (loop(\(x,i).2x,x,1) mod (1 + loop(\(x,i).(x2 + x),2,2)))
1: (loop(\(x,i).2x,x,1) mod (1 + loop(\(x,i).((x + 2) * (x + i)),2,2)))
1: (loop(\(x,i).2x,x,1) mod (2 + loop(\(x,i).x2,2,3)))
1: (loop(\(x,i).2x,x,1) mod (1 + i))
1: (loop(\(x,i).2x,x,1) mod (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: (loop(\(x,i).2x,x,1) mod (1 - ((~x2 + x) mod 5)))
1: (loop(\(x,i).2x,x,1) mod (2 - loop(\(x,i).((x3 + ~1) - (2 * ((2x + 1) mod 5))),2,1)))
1: (loop(\(x,i).2x,x,1) mod 11)
1: (loop(\(x,i).2x,x,1) mod (~1 + (2 * (1 + ((1 + ((1 + ((x + loop(\(x,i).(x * i),(x + ~1),1)) div 2)) div (x + 1))) div 2)))))
1: (loop(\(x,i).2x,x,1) mod 29)
1: (loop(\(x,i).2x,x,1) mod 23)
1: (loop(\(x,i).2x,x,1) mod 39)
1: (loop(\(x,i).2x,x,1) mod 35)
1: (loop(\(x,i).2x,x,1) mod 59)
1: (loop(\(x,i).2x,x,1) mod 47)
1: (loop(\(x,i).2x,x,1) mod (~1 + (2 * (((~x + 2) div 2) mod 4))))
1: (loop(\(x,i).2x,x,1) mod (~2 + loop(\(x,i).(x3 + 2),2,2)))
1: (loop(\(x,i).2x,x,1) mod (~1 + loop(\(x,i).(x * (x2 + i)),2,2)))
1: (loop(\(x,i).2x,x,1) mod (~1 + loop(\(x,i).(x2 + 3x + 2),2,2)))
1: (loop(\(x,i).2x,x,1) mod (~1 + loop(\(x,i).(x2 + ~x),2,4)))
1: (loop(\(x,i).2x,x,1) mod 27)
1: (loop(\(x,i).2x,x,1) mod 45)
1: (loop(\(x,i).2x,x,1) mod (loop(\(x,i).2x,(x + ~1),2) div (x2 + ~x + 1)))
1: (loop(\(x,i).2x,x,1) mod (if (x mod 3) <= 0 then 2 else x))
1: (loop(\(x,i).2x,x,1) mod loop(\(x,i).(x2 + 2x + 1),2,2))
1: (loop(\(x,i).2x,x,1) mod loop(\(x,i).(4x + 1),3,2))
1: (loop(\(x,i).2x,x,1) mod loop(\(x,i).(4x + 1),4,1))
1: (loop(\(x,i).2x,x,1) mod loop(\(x,i).(2x2 + 1),2,2))
1: (loop(\(x,i).2x,x,1) mod loop(\(x,i).(x2 + 1),2,3))
1: (loop(\(x,i).2x,x,1) mod loop(\(x,i).(x2 + 4),2,3))
1: (loop(\(x,i).2x,x,1) mod loop(\(x,i).((x2 + 2) + i),2,2))
1: (loop(\(x,i).2x,x,1) mod loop(\(x,i).(x2 + 3x + ~1),2,2))
1: (loop(\(x,i).2x,x,1) mod loop(\(x,i).x3,1,5))
1: (loop(\(x,i).2x,x,1) mod loop(\(x,i).x2,2,10))
1: (loop(\(x,i).2x,x,1) mod compr(\x.(x mod (1 + (4 * (x mod (2 + (x mod 2)))))),(x + 3)))
1: (loop(\(x,i).2x,x,2) mod (x2 + 2x + 1))
1: (loop(\(x,i).2x,x,2) mod 19)
1: (loop(\(x,i).2x,x,2) mod 17)
1: (loop(\(x,i).2x,x,2) mod (2 + (x div 4)))
1: (loop(\(x,i).2x,x,2) mod (1 + (if (~1 + (x mod 3)) <= 0 then x else 2)))
1: (loop(\(x,i).2x,x,2) mod (1 + i))
1: (loop(\(x,i).2x,x,2) mod (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: (loop(\(x,i).2x,x,2) mod (x3 + 3x2 + 3x + 1))
1: (loop(\(x,i).2x,x,2) mod (3x + 3))
1: (loop(\(x,i).2x,x,2) mod ((x2 + 3x + 2) div 2))
1: (loop(\(x,i).2x,x,2) mod compr(\x.(x mod (1 + (4 * (x mod (2 + (x mod 2)))))),(x + 3)))
1: (loop(\(x,i).2x,x,3) mod (x + 3))
1: (loop(\(x,i).2x,x,3) mod (x + 2))
1: (loop(\(x,i).2x,x,4) mod 9)
1: (loop(\(x,i).2x,x,4) mod (x + 1))
1: (loop(\(x,i).2x,x,(x3 + 2x + 1)) mod 9)
1: (loop(\(x,i).2x,x,(1 + (4 * (x mod 2)))) mod (x + 1))
1: (loop(\(x,i).2x,x,(2 + ((x - ((~x + 1) mod 3)) div 2))) mod (x + 1))
1: (loop(\(x,i).2x,x,(1 + ((2 * (1 + ((1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2)) div 2))) div 3))) mod (x + 1))
1: (loop(\(x,i).2x,x,(1 + ((x mod (2 + ((x div 2) div (1 + (x mod 2))))) div 2))) mod (x + 1))
1: (loop(\(x,i).2x,x,(1 + (x div 4))) mod (x + 3))
1: (loop(\(x,i).2x,x,(1 + (x div 4))) mod (x + 1))
1: (loop(\(x,i).2x,x,(1 + (x div 8))) mod (x + 1))
1: (loop(\(x,i).2x,x,(1 + (3x mod (2 * (1 + (x mod 6)))))) mod (x + 1))
1: (loop(\(x,i).2x,x,(1 + (x mod 2))) mod (x + 1))
1: (loop(\(x,i).2x,x,(1 + (x mod 3))) mod (2x + 1))
1: (loop(\(x,i).2x,x,(1 + (x mod (2 + (x mod 2))))) mod (2x + 1))
1: (loop(\(x,i).2x,x,(1 + (x mod (2 + (x mod 4))))) mod (x + 1))
1: (loop(\(x,i).2x,x,(1 + (x mod (1 + (x mod (1 + (x mod 4))))))) mod (x + 1))
1: (loop(\(x,i).2x,x,(1 + (if ((x + 1) mod 3) <= 0 then 2x else 1))) mod (x + 1))
1: (loop(\(x,i).2x,x,(1 + (if (2x mod (4 + ((x + 1) mod 4))) <= 0 then 4 else 0))) mod (x + 1))
1: (loop(\(x,i).2x,x,(1 + (if (x mod 2) <= 0 then 2x else 1))) mod (x + 2))
1: (loop(\(x,i).2x,x,(1 + (if (x mod 3) <= 0 then x else 0))) mod (x + 1))
1: (loop(\(x,i).2x,x,(2 + (if (x mod 4) <= 0 then 2 else 0))) mod (x + 1))
1: (loop(\(x,i).2x,x,(1 + (if (x mod (2 + (x mod 2))) <= 0 then 1 else x))) mod (x + 1))
1: (loop(\(x,i).2x,x,~1) mod (x + 2))
1: (loop(\(x,i).2x,x,(0 - (4 * (x mod 4)))) mod (x + 1))
1: (loop(\(x,i).2x,x,(1 - ((1 + (((3 * (1 + (loop(\(x,i).3x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 3))) div 2) div 2)) div 2))) mod (x + 1))
1: (loop(\(x,i).2x,x,(1 - loop(\(x,i).((x + 4) * i),x,0))) mod (x + 1))
1: (loop(\(x,i).2x,x,(2 - ((2x + 2) mod 5))) mod (x + 1))
1: (loop(\(x,i).2x,x,(2 - (((2 + loop(\(x,i).(x div (~2 + (x mod 2))),x,x)) div 2) mod 2))) mod (x + 1))
1: (loop(\(x,i).2x,x,(2 - ((x div 2) mod 2))) mod (x + 1))
1: (loop(\(x,i).2x,x,(~x + 2)) mod (1 + (x div 2)))
1: (loop(\(x,i).2x,x,(~x + 2)) mod (x + 2))
1: (loop(\(x,i).2x,x,(~1 + ((if (x mod 4) <= 0 then 2 else (x mod 2)) * (1 + (x div 4))))) mod (x + 1))
1: (loop(\(x,i).2x,x,(~1 + (~x mod 4))) mod (x + 1))
1: (loop(\(x,i).2x,x,(~1 + ((2 * (1 + ((((x + 1) * (if (x mod 2) <= 0 then 1 else (2 * (1 + (8 * (x mod 2)))))) div 2) div 2))) mod 3))) mod (x + 1))
1: (loop(\(x,i).2x,x,(~2 + (x mod 2))) mod (x + 1))
1: (loop(\(x,i).2x,x,(~1 + (x mod 2) - ((1 + loop(\(x,i).2x,((((1 + (8 mod (1 + (x div 2)))) div 2) + (if x <= 0 then 0 else 1)) - (x mod 2)),2)) div 3))) mod (x + 1))
1: (loop(\(x,i).2x,x,(~1 + (if ((x + 1) mod (3 - (x mod 2))) <= 0 then x else 1))) mod (x + 1))
1: (loop(\(x,i).2x,x,(2 * (~1 + (2x mod 3)))) mod (x + 1))
1: (loop(\(x,i).2x,x,(2 * (if (x mod 2) <= 0 then 10 else 1))) mod (x + 1))
1: (loop(\(x,i).2x,x,(2 * (if (x mod 3) <= 0 then 0 else 2))) mod (x + 1))
1: (loop(\(x,i).2x,x,((~1 + loop(\(x,i).2x,(x + ~2),2)) div (x + 1))) mod (x + 1))
1: (loop(\(x,i).2x,x,((~x2 + x) div 4)) mod (x + 1))
1: (loop(\(x,i).2x,x,((x + 1) mod 2)) mod (x + 1))
1: (loop(\(x,i).2x,x,(((x + ~1) div 2) mod 2)) mod (x + 1))
1: (loop(\(x,i).2x,x,(loop(\(x,i).2x,x,3) mod (x + 2))) mod (x + 4))
1: (loop(\(x,i).2x,x,(if (~2 + (x div 3)) <= 0 then 2 else 1)) mod (x + 1))
1: (loop(\(x,i).2x,x,(if (x + ~4) <= 0 then 1 else 2)) mod (2x + 1))
1: (loop(\(x,i).2x,x,(if (~2 + i) <= 0 then 1 else x)) mod 10)
1: (loop(\(x,i).2x,x,(if (x mod 2) <= 0 then 3 else x)) mod (x + 1))
1: (loop(\(x,i).2x,x,(if (x mod 2) <= 0 then ((x div 2) mod 2) else x)) mod (x + 1))
1: (loop(\(x,i).2x,x,(if (x mod 3) <= 0 then 0 else 2)) mod (x + 1))
1: (loop(\(x,i).2x,x,(if (x mod 7) <= 0 then 2 else 1)) mod (1 + (x div 3)))
1: (loop(\(x,i).2x,x,(if x <= 0 then 1 else ~2)) mod 9)
1: (loop(\(x,i).2x,x,(if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + ((compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + ((~1 + loop(\(x,i).2x,x,2)) div (x + 3))) div 2)) div 2)) div 2))))) mod 3)
1: (loop(\(x,i).2x,x,(if x <= 0 then 1 else (if (x mod 2) <= 0 then (~1 + (2 * (x mod 2))) else x))) mod (x + 2))
1: (loop(\(x,i).2x,x,loop(\(x,i).(x + (i * i)),x,1)) mod (x + 1))
1: (loop(\(x,i).2x,x,loop(\(x,i).(x * (1 + (2 * i))),(x div 2),1)) mod (x2 + 2x + 1))
1: (loop(\(x,i).2x,x,loop(\(x,i).(~3x + 3),x,1)) mod (x + 1))
1: (loop(\(x,i).x2,1,(1 + loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x))) mod 5)
1: (loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x))) mod (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: (loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) mod (x2 + 2x + 1))
1: (loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) mod (x + 1))
1: (loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) mod (2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)))
1: (loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) mod 10)
1: (loop(\(x,i).x2,1,((2x + ~1) + (x div 3))) mod 5)
1: (loop(\(x,i).x2,1,(loop(\(x,i).2x,x,2) - (x mod 2))) mod (x + 2))
1: (loop(\(x,i).x2,1,(x2 + ~x)) mod (x + 3))
1: (loop(\(x,i).x2,1,((x2 + ~x + ~1) div 3)) mod (x + 1))
1: (loop(\(x,i).x2,1,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)) mod (x + 3))
1: (loop(\(x,i).x2,1,loop(\(x,i).(x2 + ~x),1,loop(\(x,i).2x,(x mod 4),x))) mod (x + 1))
1: (loop(\(x,i).x2,2,4) mod (x + 1))
1: (loop(\(x,i).x2,2,(x + 6)) mod (1 + (x div 3)))
1: (loop(\(x,i).x2,2,(x + 9)) mod 7)
1: (loop(\(x,i).x2,2,(1 + loop(\(x,i).(2x * i),4,1))) mod (x + 2))
1: (loop(\(x,i).x2,2,23) mod (x + 1))
1: (loop(\(x,i).x2,2,35) mod (x + 1))
1: (loop(\(x,i).x2,2,((4 * (x mod 2)) - (x mod 3))) mod (x + 1))
1: (loop(\(x,i).x2,2,(~2 + loop(\(x,i).(1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),2,x))) mod (x + 1))
1: (loop(\(x,i).x2,2,6) mod (x + 1))
1: (loop(\(x,i).x2,2,(3 * (1 + (x div 2)))) mod (x + 2))
1: (loop(\(x,i).x2,2,(2 * (2 + (x2 mod 3)))) mod (x + 1))
1: (loop(\(x,i).x2,2,(3 * (x div (~2 + (x mod ~2))))) mod (x + 1))
1: (loop(\(x,i).x2,2,(2 * (x mod 2))) mod (x + 1))
1: (loop(\(x,i).x2,2,(3 * (if (x mod (2 + (x mod 2))) <= 0 then 2 else 0))) mod (x + 1))
1: (loop(\(x,i).x2,2,x2) mod 17)
1: (loop(\(x,i).x2,2,x2) mod (2x + 1))
1: (loop(\(x,i).x2,3,(2 + (x mod 2))) mod (x + 1))
1: (loop(\(x,i).x2,4,4) mod (x + 1))
1: (loop(\(x,i).x2,4,8) mod (x + 1))
1: (loop(\(x,i).x2,(1 + (x mod 2)),3) mod (x + 1))
1: (loop(\(x,i).x2,(2 - (x mod 2)),4) mod (x + 1))
1: (loop(\(x,i).x2,(x + ~1),2) mod (x + 1))
1: (loop(\(x,i).(2 * i),((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3),1) mod (x + 1))
1: (loop(\(x,i).(2 * i),((x + 1) mod 12),1) mod (x + 1))
1: (loop(\(x,i).(x * i),(6 + (x mod 2)),1) mod (x + 1))
1: (loop(\(x,i).(x * i),(4 + (x div 3)),1) mod (x + 1))
1: (loop(\(x,i).(x * i),(1 + (x div (3 + ((x div 2) div 3)))),1) mod (x + 1))
1: (loop(\(x,i).(x * i),(1 + (x mod (1 + (x div 3)))),1) mod (x + 1))
1: (loop(\(x,i).(x * i),((if (x mod 2) <= 0 then 2 else 0) + (x div 2)),1) mod (x + 1))
1: (loop(\(x,i).(x * i),(x + ~1),(x2 + 1)) mod 5)
1: (loop(\(x,i).(x * i),(x + ~2),(2 - (x mod 2))) mod (x + 1))
1: (loop(\(x,i).(x * i),(x - (x div 3)),1) mod (2x + 1))
1: (loop(\(x,i).(x * i),((x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) div 5),1) mod (x + 3))
1: (loop(\(x,i).(x * i),((x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) div 5),1) mod (x + 2))
1: (loop(\(x,i).(x * i),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) mod (x + 2))
1: (loop(\(x,i).(x * i),x,1) mod (x + 3))
1: (loop(\(x,i).(x * i),x,1) mod (x + 2))
1: (loop(\(x,i).(x * i),x,1) mod loop(\(x,i).3x,x,1))
1: (loop(\(x,i).(x * i),x,1) mod loop(\(x,i).4x,x,1))
1: (loop(\(x,i).(x * i),x,1) mod loop(\(x,i).2x2,4,2))
1: (loop(\(x,i).(x * i),x,2) mod (x2 + 3x + 2))
1: (loop(\(x,i).(x * i),x,(x + 1)) mod (x2 + 2x + 2))
1: (loop(\(x,i).(x * i),x,(x + 1)) mod (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: (loop(\(x,i).(x * i),x,(x + 1)) mod loop(\(x,i).2x,x,2))
1: (loop(\(x,i).(x * i),x,(~2 + (x mod 2) - (x div 3))) mod (x + 1))
1: (loop(\(x,i).(x * i),x,(~2 + ((~x + 1) div 3))) mod (x + 1))
1: (loop(\(x,i).(x * i),x,(~1 + ((~x + 1) div (2 + (x div 2))))) mod (x + 1))
1: (loop(\(x,i).(x * i),x,(~1 + ((~x + 2) div 5))) mod (x + 1))
1: (loop(\(x,i).(x * i),x,x) mod (x + 2))
1: (loop(\(x,i).((x3 + x) div 2),2,(x + ~1)) mod (x + 1))
1: (loop(\(x,i).((x2 + x) div 2),1,(1 + (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))) mod (x + 1))
1: (loop(\(x,i).((x2 + x) div 2),1,(1 + (x mod (1 + (x mod (2 * (1 + (2 * (x mod 2))))))))) mod (x + 1))
1: (loop(\(x,i).((x2 + x) div 2),2,3x) mod (x + 1))
1: (loop(\(x,i).((x2 + x) div 2),5,2) mod (x + 1))
1: (loop(\(x,i).((x2 + 3x + 2) div 2),2,x) mod (x + 1))
1: (loop(\(x,i).((x * (1 + i)) div (1 + (i div 2))),x,1) mod (x + 1))
1: (loop(\(x,i).((~x3 + x) div 2),2,3) mod (x + 1))
1: (loop(\(x,i).((x2 + ~x) div 2),2,3x) mod (x + 1))
1: (loop(\(x,i).(((x + ~1) * i) div 2),x,1) mod 2)
1: (loop(\(x,i).((2 * (x - (2x * i))) div (1 + i)),x,1) mod 3)
1: (loop(\(x,i).((x * (~x + i)) div 2),x,x) mod 2)
1: (loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,1) mod 9)
1: (loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,1) mod (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) mod 4)
1: (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) mod 5)
1: (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) mod 7)
1: (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) mod 13)
1: (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) mod (2x + 3))
1: (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) mod (x + 2))
1: (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) mod 11)
1: (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) mod (2x + ~1))
1: (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) mod 6)
1: (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) mod 8)
1: (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) mod 12)
1: (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) mod 10)
1: (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) mod 16)
1: (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,x2) mod 4)
1: (loop(\(x,i).((x3 + ~x2) div 2),2,(x + ~1)) mod (x + 1))
1: (loop(\(x,i).((3 * ((x2 + x) div 2)) div 2),3,x) mod (x + 1))
1: (loop(\(x,i).(((x + ~2) * ((x2 + 2x) div 2)) div 2),2,x) mod (x + 1))
1: (loop(\(x,i).(x2 div 2),2,x) mod (x + 1))
1: (loop(\(x,i).(x div 2),x,loop(\(x,i).(3x + 2),x,0)) mod 2)
1: (loop(\(x,i).(x div 2),x,loop(\(x,i).7x,x,1)) mod loop(\(x,i).2x,x,1))
1: (loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 5)
1: (loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 7)
1: (loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 12)
1: (loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 10)
1: (loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,(x + 1)) mod 5)
1: (loop(\(x,i).(x div ~2),(~2 + (2x mod (4 + (x div 4)))),1) mod 5)
1: (loop(\(x,i).(x div (2 - ((1 + ((x + ((x2 div 2) div 3)) div 2)) mod 2))),x,(x + 1)) mod 3)
1: (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) mod 7)
1: (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) mod 13)
1: (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) mod (1 + (x mod 8)))
1: (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) mod 11)
1: (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) mod (2 * (2 + (x mod 4))))
1: (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) mod (4 * (2 + (x mod 4))))
1: (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 2)) mod (x + 2))
1: (loop(\(x,i).(x div (~3 + (x mod 2))),2,(x + 1)) mod 3)
1: (loop(\(x,i).(if (~x + i) <= 0 then 1 else (x + 2)),x,1) mod 3)
1: (loop(\(x,i).(if (~x + i) <= 0 then 1 else (x + 2)),x,1) mod (x + 1))
1: (loop(\(x,i).(if (x div 2) <= 0 then (x + 2) else ~1),x,0) mod (x + 2))
1: (loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (3x + ~1)),3,x) mod 3)
1: (loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x + 2)) mod 7)
1: (loop(\(x,i).(if x <= 0 then 1 else ((x mod 5) + (x div 3))),(1 + (x mod 3)),(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) mod 3)
1: (loop(\(x,i).(if x <= 0 then 1 else ((2x * (~1 + (2 * i))) div (1 + i))),(x + ~1),0) mod 4)
1: (loop(\(x,i).loop(\(x,i).(10x + 1),x,1),2,1) mod (x + 1))
1: (loop(\(x,i).loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then 2 else 0)),x,(x + 2)),(x + 4),1) mod 10)
1: (loop(\(x,i).loop(\(x,i).(x * (x + i)),2,(x + 2)),2,0) mod (x + 1))
1: (loop(\(x,i).loop(\(x,i).(2x * (1 + (2 * i))),(i * i),x),2,x) mod (x + 1))
1: (loop(\(x,i).loop(\(x,i).x2,1,(~3x + 3)),2,x) mod (x + 1))
1: (loop(\(x,i).loop(\(x,i).x2,2,(7x + ~6)),2,0) mod (x + 1))
1: (loop(\(x,i).loop(\(x,i).((if x <= 0 then 2 else loop(\(x,i).(x div (2 - (x mod 2))),x,x)) div 2),2,x),1,(x + 1)) mod 3)
1: (loop(\(x,i).loop(\(x,i).(x div (~2 + (x mod 2))),x,(x + 1)),2,x) mod (x + 1))
1: (loop(\(x,i).i,(~3 + ((x + ~1) div 2)),1) mod 3)
1: (loop(\(x,i).i,((~1 + (x div 2)) div 2),1) mod 2)
1: (loop(\(x,i).i,(loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2),1) mod 2)
1: (loop(\(x,i).i,((2x + 1) mod 19),1) mod (x + 1))
1: (loop(\(x,i).i,((~x + 2) mod (1 + (x div 2))),1) mod (x + 1))
1: (loop(\(x,i).i,((x + ~2) mod (2 + (x div 5))),1) mod (x + 1))
1: (loop(\(x,i).i,(x mod 7),x) mod (1 + (((x + 1) div 2) div 2)))
1: (x mod (7 - (x div 4)))
1: (x mod (5 + (2x div (2 + (((x + 1) div 2) div 3))) - (x mod 2)))
1: (x mod (2 + ((2 * ((1 + (x mod (1 + (x mod (3 - (x mod 2)))))) mod (x + 1))) + (x mod 2))))
1: (x mod (5 + (x div 2)))
1: (x mod (5 + ((x + 2) mod 6)))
1: (x mod (5 + ((x div 2) mod 5)))
1: (x mod (2 + ((((x + 2) mod 7) mod 2) + (x mod 2))))
1: (x mod (6 + (if ((x + 1) mod 8) <= 0 then 1 else 2)))
1: (x mod (5 - ((~x + (x2 mod 3)) div 2)))
1: (x mod (5 - ((~x + ((x mod 3) div 2)) div 2)))
1: (x mod (6 - ((x mod (2 + (x mod 2))) div 2)))
1: (x mod (6 - ((x div 2) mod 2)))
1: (x mod (3 + (x mod 3) - (x mod 2)))
1: (x mod (3 + (((1 + (x div 4)) mod 2) * (x div 2))))
1: (x mod (1 + ((2 * (2x mod (3 * (1 + (8 * (x mod 2)))))) + (x mod 2))))
1: (x mod (1 + ((2 * ((x div 5) mod 2)) + (x mod 2))))
1: (x mod (1 + ((2 * (if (x mod 3) <= 0 then 2 else (x mod 2))) + (x mod 2))))
1: (x mod (4 + (((2x + 1) + (2 * (1 - (x mod (1 + (((x + 1) - (2 * (x div (2 * (2 - (x mod 2)))))) mod (x + 1))))))) div 3)))
1: (x mod (4 + ((1 + (9 * (1 + (x div 2)))) div (x + 1))))
1: (x mod (4 + ((x + ((3 * (1 + (x mod (2 + (x mod 10))))) div 2)) div 2)))
1: (x mod (3 + ((x + (if (x mod 2) <= 0 then (x mod 8) else 1)) div 2)))
1: (x mod (1 + (((x - ((x div 3) mod 2)) div 2) + (x mod 2))))
1: (x mod (1 + (((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3) + (x div 2))))
1: (x mod (4 + (4x div (2 + (x div 2)))))
1: (x mod (2 + ((x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) div 2)))
1: (x mod (1 + (((x * (x mod 2)) div 2) + (x div 5))))
1: (x mod (4 + ((x div 2) div 3)))
1: (x mod (1 + (((x div 2) div 3) + (x mod 4))))
1: (x mod (1 + ((((2x + 1) mod (2 + (x div 2))) div 2) + (x mod 2))))
1: (x mod (3 + ((2x mod (2 + (x div 3))) div 2)))
1: (x mod (1 + (((loop(\(x,i).2x,x,(2 - ((x div 2) mod 2))) mod (x + 1)) div 2) + (x mod 2))))
1: (x mod (4 + ((x mod 9) div 2)))
1: (x mod (4 + ((x mod (2 + ((x + 1) mod 4))) div 2)))
1: (x mod (1 + (((x mod (~1 + (2 * ((x + ~1) div 3)))) div 2) + (x mod 2))))
1: (x mod (9 + (x div 4)))
1: (x mod (3 + (x div 7)))
1: (x mod ((x + 2) + (x div (1 + (2 * (4 - (x div 2)))))))
1: (x mod (4 + (x div (1 + (x mod 3)))))
1: (x mod (3 + (x div (1 + (x mod 4)))))
1: (x mod (4 + (x div (1 + (x mod (2 * (1 + (x mod 2))))))))
1: (x mod (3 + (x div 8)))
1: (x mod (3 + (2 mod (1 + (x div 2)))))
1: (x mod (3 + ((5x + 1) mod 9)))
1: (x mod (4 + ((2x + 1) mod (4 + ((x div 2) div 3)))))
1: (x mod (2 + (((1 + (x mod 5)) mod 4) + (x mod 2))))
1: (x mod (3 + ((x + 1) mod 3)))
1: (x mod (4 + ((x + 1) mod (1 + (((2 * (1 + ((1 + ((x + 1) div (2 + (x mod (2 * (2 - (x mod 2))))))) div 2))) mod 3) div 2)))))
1: (x mod (4 + ((1 - (2 * (x mod 7))) mod (x + 1))))
1: (x mod (3 + ((~x + 1) mod 3)))
1: (x mod (3 + ((~x + 1) mod (2 + (x div 2)))))
1: (x mod (3 + ((2x + ~1) mod (2 + (x div 3)))))
1: (x mod (3 + ((x + ~1) mod 3)))
1: (x mod (4 + ((x + ~1) mod 3)))
1: (x mod (4 + ((~x2 + 2x) mod 6)))
1: (x mod (4 + (~4x mod 9)))
1: (x mod (4 + (x2 mod 3)))
1: (x mod (3 + (x2 mod 5)))
1: (x mod (3 + (((~x + 1) div 2) mod 4)))
1: (x mod (3 + ((x2 div 2) mod 6)))
1: (x mod (3 + ((x div 2) mod 3)))
1: (x mod (4 + ((x div 2) mod 5)))
1: (x mod (3 + (x mod 3)))
1: (x mod (4 + (x mod 4)))
1: (x mod (3 + (x mod 8)))
1: (x mod (1 + ((if (~4 + (x div 2)) <= 0 then 2 else 1) + (x mod 2))))
1: (x mod (1 + ((if (x mod 2) <= 0 then 2 else 0) + (x div 4))))
1: (x mod (4 - ((x div 2) div 3)))
1: (x mod (3 - ((x mod 5) div 2)))
1: (x mod (4 - (x div 4)))
1: (x mod (4 - ((x * (x div 2)) mod 2)))
1: (x mod (4 - (x mod ~4)))
1: (x mod (2 + (((((x + 1) * ((~x + 2) mod 3)) div 2) div 2) div 2) - (x mod 2)))
1: (x mod (2 + (x div (2 + (if ((x + 1) mod 5) <= 0 then 0 else 2))) - (x mod 2)))
1: (x mod (7 - (x div 3)))
1: (x mod ((~x2 + 2x + 1) - (x mod 2)))
1: (x mod (2 + (x div 2) - ((x mod 3) div 2)))
1: (x mod (1 + (x div 2) - ((2x + 1) mod (1 + (2x mod (2 + (x div 4)))))))
1: (x mod (2 + (x div 4) - ((2x div (1 + (x div 3))) mod 2)))
1: (x mod (2 + (x mod 3) - ((~x + 1) div (2 + (((x + 1) div 2) div 3)))))
1: (x mod ((x + 1) - (x3 div (5x + 1))))
1: (x mod ((x + 3) - (x div 3)))
1: (x mod ((x + 2) - (x div 4)))
1: (x mod ((x + 2) - ((5x + 8) mod (1 + (x div 2)))))
1: (x mod ((x + 2) - (x mod ((x + 1) - (x mod 10)))))
1: (x mod ((x + 1) - (compr(\x.(loop(\(x,i).(2x + 1),x,0) mod (x + 1)),x) mod (x + 1))))
1: (x mod (6 + (x div 3)))
1: (x mod (6 + (x mod 3)))
1: (x mod (1 + (2 * (4 + (x mod 2)))))
1: (x mod (1 + (2 * (~2 + ((x mod 2) + (x mod 4))))))
1: (x mod (1 + (2 * (1 + (4 * (x mod 2))))))
1: (x mod (1 + (2 * ((4 * (x mod 2)) + (x mod 3)))))
1: (x mod (1 + (2 * (1 + ((x + 1) div (1 + (x div 5)))))))
1: (x mod (1 + (2 * (1 + ((x + 2) div (2 + (((x + 1) div 2) div 2)))))))
1: (x mod (1 + (2 * (2 + (2x div (2 + (x div 2)))))))
1: (x mod (1 + (2 * (2 + ((x div 2) div 5)))))
1: (x mod (1 + ((2 + (x div 4)) * ((x + ~1) mod 3))))
1: (x mod (1 + (2 * (1 + (x div 5)))))
1: (x mod (1 + (2 * (2 + (x div 8)))))
1: (x mod (1 + (2 * (1 + ((~x + 2) mod 4)))))
1: (x mod (1 + (2 * (2 + ((x + ~1) mod 3)))))
1: (x mod (1 + (2 * (1 + ((x + ~1) mod (1 + (x mod 3)))))))
1: (x mod (1 + (2 * (2 + ((2x + 2) mod 9)))))
1: (x mod (1 + (2 * (1 + (2x mod 3)))))
1: (x mod (1 + (2 * (2 + (x2 mod 3)))))
1: (x mod (1 + (2 * (1 + (((~1 + (x div (2 + (x mod 2)))) div 2) mod 2)))))
1: (x mod (1 + (2 * (1 + (((x - ((~1 + (x div 2)) div 2)) div 2) mod 2)))))
1: (x mod (1 + (2 * (2 + (((x div 2) div 3) mod 2)))))
1: (x mod (1 + (2 * (1 + ((x div 2) mod 4)))))
1: (x mod (1 + (2 * (2 + ((x div 3) mod 2)))))
1: (x mod (1 + (3 * (1 + ((x div ~2) mod 2)))))
1: (x mod (1 + (2 * (1 + ((x3 mod (x + 4)) mod 3)))))
1: (x mod (1 + (2 * (1 + (x mod 4)))))
1: (x mod (1 + (2 * (1 + (x mod (1 + (2 * (2 - ((x * (x div 2)) mod 2)))))))))
1: (x mod (1 + (2 * (1 + (x mod (2 + (x div (2 + (3 * (x mod 2))))))))))
1: (x mod (1 + (2 * (1 + (x mod (1 + ((~x + 2) mod (2 + (x div 3)))))))))
1: (x mod (1 + (2 * (2 + (if ((x + 1) mod 8) <= 0 then 1 else 2)))))
1: (x mod (1 + (2 * ((if (x mod 3) <= 0 then 2 else 1) + (x mod 2)))))
1: (x mod (1 + (2 * (1 + (if (x mod 3) <= 0 then (2 * ((x div 4) mod 2)) else 1)))))
1: (x mod (1 + (2 * (2 + (if (x mod 10) <= 0 then 0 else 2)))))
1: (x mod (1 + (2 * (1 - (x div 4)))))
1: (x mod (1 + (2 * (1 - ((x div 2) mod (1 + ((~x + 2) mod 4)))))))
1: (x mod (~2x + 3))
1: (x mod (~4x + 5))
1: (x mod (1 + (2 * (3 - ((x div 2) mod (1 + (if (x mod 2) <= 0 then 6 else 1)))))))
1: (x mod (1 + (2 * (2 - (x * (((x div 2) div 3) mod 2))))))
1: (x mod (1 + (2 * (2 - ((~1 + (x mod 4)) div 2)))))
1: (x mod (1 + (2 * (2 - ((x div 2) div 3)))))
1: (x mod (1 + (2 * (2 - (x div 3)))))
1: (x mod (1 + (2 * (2 - ((x * (x div 2)) mod 2)))))
1: (x mod (1 + (2 * (2 - (2x mod 5)))))
1: (x mod (1 + (2 * (2 - (((x + ~1) div 2) mod 4)))))
1: (x mod (1 + (2 * (2 - (x mod 9)))))
1: (x mod (1 + (2 * (2 - (x mod (2 + (x mod 2)))))))
1: (x mod (1 + (2 * (6 - (x div 5)))))
1: (x mod (1 + (2 * (8 - (x div 4)))))
1: (x mod (1 + (2 * (~1 + ((if (~2 + (x div 3)) <= 0 then 2 else ((x + 1) div 2)) div 2)))))
1: (x mod (1 + (2 * ((x div 4) - (x mod 2)))))
1: (x mod (1 + (2 * (~x + (x mod 8)))))
1: (x mod (1 + (2 * (~x + (x mod 10)))))
1: (x mod (1 + (2 * ((if (~2 + (x div 3)) <= 0 then 2 else 1) - (x mod 2)))))
1: (x mod (1 + (2 * (x - (2 * (x div 3))))))
1: (x mod (1 + (4 * (2 + ((x2 + 2x) mod 6)))))
1: (x mod (1 + (4 * (2 + (x mod (2 - ((x div 4) mod 2)))))))
1: (x mod (1 + (8 * ((x div 2) mod 2))))
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1: (x mod ((x + 1) - (((x - (x mod (2 + (x mod 4)))) div 2) mod 2)))
1: (x mod ((x + 1) - (loop(\(x,i).2x,(x + 16),1) mod (x + 1))))
1: (x mod ((x + 1) - (loop(\(x,i).2x,x,2) mod (x + 1))))
1: (x mod (x - ((x - ((~x + 1) mod 3)) div 2)))
1: (x mod (x - ((11 * ((x + ~1) div 3)) div (x + 1))))
1: (x mod (x - (((x + 1) * (~2 + (x div 2))) div 2)))
1: (x mod (x - (64 div (x + 1))))
1: (x mod (x - ((x2 + 2) mod 5)))
1: (x mod (x - ((x + 1) mod (3 - (x mod 2)))))
1: (x mod (x - ((x + 1) mod 7)))
1: (x mod (x - ((x + ~1) mod 5)))
1: (x mod (x - (if (2x mod (2 - (x div ~2))) <= 0 then 2 else 0)))
1: (x mod (x - (if (x mod 2) <= 0 then ((x + ~1) mod 8) else 0)))
1: (x mod (x - (if (x mod 4) <= 0 then 2 else 0)))
1: (x mod (x - (if x <= 0 then 1 else (1 + (if (x mod 5) <= 0 then 1 else ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) - (x mod 2)))))
1: (x mod (2 * (4 + ((x div 2) div 7))))
1: (x mod (2 * (3 + (x div 3))))
1: (x mod (2 * (4 + (x mod 6))))
1: (x mod (2 * (1 + (2 * (1 - (x mod ~7))))))
1: (x mod (2 * (1 + (4 * (x mod 2)))))
1: (x mod (2 * (2 + (3 * (x mod 2)))))
1: (x mod (5 * (1 + (2 * (x mod 3)))))
1: (x mod (2 * (1 + ((1 + ((1 + ((x * ((if (x mod 5) <= 0 then 1 else 2) + (x mod 4))) div 2)) div 2)) div 2))))
1: (x mod (2 * (1 + ((1 + (x div 2)) div 3))))
1: (x mod (2 * (1 + ((x + 2) div 5))))
1: (x mod (2 * (1 + ((2 * (2x div 3)) div 3))))
1: (x mod (2 * (1 + (((x + 1) div 2) div 2))))
1: (x mod (2 * (2 + (((x + 1) div 2) div 3))))
1: (x mod (3 * (1 + ((x div 2) div (1 + (x mod (2 * (1 + (x mod 2)))))))))
1: (x mod (3 * (1 + (((2x + 1) mod (2 + (x div 4))) div 2))))
1: (x mod (2 * (2 + (((x2 + 2x) mod ((x + 2) + (x div 2))) div 2))))
1: (x mod (5 * (2 + ((x mod 3) div 2))))
1: (x mod (2 * (2 + ((if ((x + 1) mod (2 + (x div 4))) <= 0 then 2 else x) div 2))))
1: (x mod (2 * (2 + (x div 3))))
1: (x mod (2 * (1 + (x div 4))))
1: (x mod (2 * (1 + (x div 5))))
1: (x mod (3 * (1 + (x div 5))))
1: (x mod (2 * (2 + (x div 5))))
1: (x mod (3 * (1 + ((x + 1) mod 4))))
1: (x mod (2 * (1 + ((x + 1) mod 6))))
1: (x mod (2 * (2 + ((x + 2) mod 4))))
1: (x mod (2 * (2 + ((x + 2) mod (2 * (2 + (x mod 2)))))))
1: (x mod (2 * (1 + ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 10))))
1: (x mod (3 * (1 + ((~x + 1) mod 3))))
1: (x mod (2 * (2 + ((~x + 1) mod 4))))
1: (x mod (2 * (1 + ((2 - (x mod 8)) mod 3))))
1: (x mod (2 * (2 + ((~1 + ((x mod 6) mod 4)) mod (x + 1)))))
1: (x mod (2 * (1 + ((x2 + x) mod 5))))
1: (x mod (2 * (2 + ((x2 + x) mod 8))))
1: (x mod (3 * (2 + ((x2 + x) mod 8))))
1: (x mod (3 * (1 + ((x2 + 2x) mod 13))))
1: (x mod (2 * (2 + ((x2 + 2x) mod 6))))
1: (x mod (2 * (2 + ((x2 + ~x) mod 16))))
1: (x mod (2 * (2 + (x3 mod 25))))
1: (x mod (2 * (2 + (((x + ~1) * (x div 2)) mod 3))))
1: (x mod (2 * (2 + (((x + 1) div 2) mod 3))))
1: (x mod (2 * (2 + (((x + ~1) div 2) mod 4))))
1: (x mod (2 * (2 + ((x2 div 2) mod 6))))
1: (x mod (2 * (2 + ((x2 div 4) mod (x + 4)))))
1: (x mod (3 * (1 + ((x div 2) mod 3))))
1: (x mod ((1 + ((x div 3) mod 2)) * (1 + (x div 4))))
1: (x mod (3 * (2 + ((x div 4) mod 2))))
1: (x mod (2 * (1 + ((x mod (3 + (x mod 4))) mod 3))))
1: (x mod (2 * (2 + (loop(\(x,i).(3x + 2),x,0) mod (x + 1)))))
1: (x mod (3 * (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 8))))
1: (x mod (3 * (2 + (x mod 2))))
1: (x mod (4 * (1 + (x mod 5))))
1: (x mod ((1 + (x mod 5)) * (1 + (x mod 5))))
1: (x mod (2 * (1 + (x mod (1 + (7 mod (1 + (x div 2))))))))
1: (x mod (2 * (1 + (x mod (1 + ((x + 1) mod 3))))))
1: (x mod (2 * (1 + (x mod (1 + ((x - (x2 div 4)) mod 8))))))
1: (x mod (4 * (1 + (x mod (2 + (x mod 2))))))
1: (x mod (5 * (1 + (x mod (2 + (x mod 2))))))
1: (x mod (2 * (1 + (x mod 6))))
1: (x mod (3 * (2 + (x mod 8))))
1: (x mod (2 * (1 + (x mod 12))))
1: (x mod (2 * (1 + (x mod (2 * (1 + ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 10)))))))
1: (x mod (2 * (1 + (x mod (2 * (1 + ((~1 + (x div 2)) mod 4)))))))
1: (x mod (2 * (1 + (x mod (2 * (2 + ((x + ~1) mod 3)))))))
1: (x mod (2 * (1 + (x mod (2 * (1 + (x mod (1 + ((2 - (x div 2)) mod 4)))))))))
1: (x mod (3 * (2 + (if ((x + ~1) mod 4) <= 0 then 2 else 1))))
1: (x mod (3 * (1 + (if (x mod 2) <= 0 then (x div 7) else 0))))
1: (x mod (2 * (2 + (if (x mod 4) <= 0 then 2 else 0))))
1: (x mod (5 * (2 + (if (x mod 12) <= 0 then (x div 2) else 0))))
1: (x mod ~21)
1: (x mod (2 * (1 - (2 * ((x div 2) mod 5)))))
1: (x mod (3 * (1 - (2 * ((x div 3) mod 2)))))
1: (x mod (2 * (2 - (x div (~4 + (x mod 3))))))
1: (x mod (2 * (2 - (x div (~1 + ((~x + 2) div 4))))))
1: (x mod (2 * (4 - (x mod 3))))
1: (x mod (2 * (8 - (x div 2))))
1: (x mod (~2x2 + 2x + ~2))
1: (x mod (2 * (~4 + (if (x mod 2) <= 0 then 1 else x))))
1: (x mod (2 * (~x + (if (x mod 4) <= 0 then 2 else 0))))
1: (x mod (2 * (x - loop(\(x,i).2x,x,1))))
1: (x mod (4 * (4 - ((x div 2) mod 2))))
1: (x mod (4 * (1 + (2 * (x mod 2)))))
1: (x mod (4 * (2 + ((x div 2) div 7))))
1: (x mod (4 * (1 + (x mod 2))))
1: (x mod (6 * (1 + (x mod 4))))
1: (x mod (4 * (2 + (x mod 4))))
1: (x mod (4 * (1 + (x mod (1 + (x div 4))))))
1: (x mod (3 * ((1 - (2 * (x mod 2))) * (2 - ((x div ~2) mod 2)))))
1: (x mod (2 * ((~1 + (6 * (1 + ((1 + (x mod (1 + (2 * (if (16 mod (x + 1)) <= 0 then 1 else 2))))) div 3)))) div 2)))
1: (x mod (3 * (if (~2 + (x div 2)) <= 0 then 1 else 2)))
1: (x mod (3 * (if (~2 + (x div 4)) <= 0 then 2 else x)))
1: (x mod (2 * (if (x div 2) <= 0 then 2 else ~2)))
1: (x mod (5 * (if (x mod 2) <= 0 then 2 else x)))
1: (x mod (2 * (if (x mod 4) <= 0 then 4 else 1)))
1: (x mod ((4 + (x2 div 2)) div (x + 1)))
1: (x mod ((x + ((3 * (((~1 + (x div 2)) mod 3) + (x div 2))) div 2)) div 2))
1: (x mod ((2 + (x div 2)) div (2 - (x div 8))))
1: (x mod ((x + 1) div (1 + (x div 4))))
1: (x mod ((x + 1) div (if (x + ~4) <= 0 then 1 else 6)))
1: (x mod ((2 + compr(\x.(~1 + ((3 * ((2x + 1) - ((x div 4) mod 2))) mod 5)),x)) div 3))
1: (x mod ((2 - ((x + 1) mod (1 - (2 * (x mod 7))))) div 2))
1: (x mod (31 div (x + 1)))
1: (x mod ((~1 + (if ((x2 + x) mod 5) <= 0 then x else 0)) div 2))
1: (x mod ((3 * (6 + ((1 + (2 * (2 + (23 mod (x + 1))))) div (x + 1)))) div 2))
1: (x mod ((4x + 16) div (1 + (x div 2))))
1: (x mod (((~1 + (x * (1 + (2 * (if (~2 + (x div 2)) <= 0 then 2 else 0))))) div 2) div 2))
1: (x mod ((if x <= 0 then 1 else x) div ~4))
1: (x mod (if (~6 + (x div 2)) <= 0 then 1 else 4))
1: (x mod (if (~1 + (x mod 3)) <= 0 then 2 else ~2))
1: (x mod (if (~1 + (x mod 3)) <= 0 then 2 else (x + ~1)))
1: (x mod (if (x + ~1) <= 0 then 1 else (2 * (1 + ((x mod 6) mod (1 + (x div 3)))))))
1: (x mod (if (x + ~10) <= 0 then 1 else 6))
1: (x mod (if ((x + (x div 2)) mod 5) <= 0 then 6 else 1))
1: (x mod (if ((x + 1) mod 6) <= 0 then 8 else 2))
1: (x mod (if ((x + 2) mod 4) <= 0 then (~2 + (x div 2)) else 1))
1: (x mod (if ((x + 2) mod 5) <= 0 then 1 else 2))
1: (x mod (if ((x + ~1) mod 8) <= 0 then (x + ~2) else 2))
1: (x mod (if ((x div 2) mod 5) <= 0 then 1 else 10))
1: (x mod (if ((x div 4) mod 2) <= 0 then 2 else ~2))
1: (x mod (if (((x + 1) mod 5) mod 2) <= 0 then ((x + 2) div 3) else 1))
1: (x mod (if (x mod 2) <= 0 then 1 else (1 - (x div (~2 + ((~x + 2) div 4))))))
1: (x mod (if (x mod 2) <= 0 then (1 - ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 9)) else 1))
1: (x mod (if (x mod 3) <= 0 then ((x + ~1) div 2) else 1))
1: (x mod (if (x mod 3) <= 0 then ((x + 2) mod ~9) else 1))
1: (x mod (if (x mod 5) <= 0 then ~2 else 2))
1: (x mod (if (x mod 9) <= 0 then 1 else 2))
1: (x mod (if (x mod (1 + (2 * (x mod 3)))) <= 0 then 2 else 1))
1: (x mod (if (x mod (2 + (x mod 4))) <= 0 then 2 else ~2))
1: (x mod (if (x mod 6) <= 0 then (x + ~2) else 2))
1: (x mod loop(\(x,i).(~4 + (x * i)),x,1))
1: (x mod loop(\(x,i).(x - (((x - ((x + 2) div (2 + (x mod 2)))) div 2) div 2)),2,x))
1: (x mod loop(\(x,i).(2x + ~4),x,1))
1: (x mod loop(\(x,i).4x,(1 - loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x)),1))
1: (x mod loop(\(x,i).x3,(x div 2),2))
1: (x mod loop(\(x,i).2x,loop(\(x,i).(x div (1 + (x mod 2))),x,x),1))
1: (x mod loop(\(x,i).(if (x mod (1 + i)) <= 0 then 2 else x),x,(2x + 1)))
1: (x mod loop(\(x,i).(if x <= 0 then 1 else (x - ((x div (2 * (2 - (x mod 2)))) mod 2))),2,x))
1: (x mod loop(\(x,i).i,(16 mod (x + 1)),1))
1: (x mod loop(\(x,i).i,(loop(\(x,i).4x,(x div 2),1) mod (x + 1)),1))
1: (i mod (1 + (x mod 4)))
1: (i mod (2 - (x mod 2)))
1: (i mod (2 * (1 + (x mod 2))))
1: (i mod (2 * (2 - (i mod 2))))
1: (compr(\x.(1 - ((2 * ((2x + 1) - ((x + (x div 2)) div 4))) mod 3)),x) mod (x + 1))
1: (compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),x)),2x) mod (x + 1))
1: (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) mod (2 * (if (~x + 4) <= 0 then x else 1)))
1: (compr(\x.(x mod (1 + (4 * (x mod (2 + (x mod 2)))))),(x + 3)) mod 10)
1: (compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x) mod 3)
1: (if 1 <= 0 then (x * (loop(\(x,i).2x2,x2,2) div 2)) else (~1 + loop(\(x,i).10x,(x + 1),1)))
1: (if (4 + (x div (2 * (~2 + (x mod 2))))) <= 0 then 2 else 1)
1: (if (~x + 4) <= 0 then 3 else (x div 2))
1: (if (~x + 4) <= 0 then 4 else (if x <= 0 then 0 else 1))
1: (if (~x + 4) <= 0 then (2 + ((x div 2) div 3)) else 1)
1: (if (~x + 4) <= 0 then (2 + ((x mod 3) div 2)) else 1)
1: (if (~x + 4) <= 0 then (x2 + ~2) else 0)
1: (if (~x + 4) <= 0 then (x + ~2) else 0)
1: (if (~x + 4) <= 0 then 26 else 1)
1: (if (~x + 4) <= 0 then (x3 + 2x) else 1)
1: (if (~x + 4) <= 0 then (2x + ~4) else 1)
1: (if (~x + 4) <= 0 then 18 else 1)
1: (if (~x + 4) <= 0 then (2 * (x mod 2)) else (2x + 1))
1: (if (~x + 4) <= 0 then ((x2 + x) div 2) else 1)
1: (if (~x + 4) <= 0 then (x div 2) else 2)
1: (if (~x + 4) <= 0 then (x mod 2) else 0)
1: (if (~x + 4) <= 0 then (x mod 2) else 2)
1: (if (~x + 4) <= 0 then (x mod 3) else 1)
1: (if (~x + 4) <= 0 then loop(\(x,i).i,(x + ~8),1) else 0)
1: (if (~x + 4) <= 0 then x else 4)
1: (if (1 + (x div 2) - (2 * (x mod 2))) <= 0 then (x2 + 2x + 2) else 1)
1: (if (1 + ((x div (1 + (2x mod 3))) mod 2) - (x mod 2)) <= 0 then (3x + 3) else 1)
1: (if (~2 + ((x mod 2) + (x div 3))) <= 0 then 1 else 0)
1: (if (~2 + ((x mod 2) + (x div 3))) <= 0 then 1 else 2)
1: (if (2 + (x mod 2) - (x div 2)) <= 0 then 2 else 1)
1: (if (1 + ((x + 1) * loop(\(x,i).(x * (1 - loop(\(x,i).3x,x,loop(\(x,i).(3x + ~6),x,0)))),x,1))) <= 0 then x else 2)
1: (if (1 + ((1 + ((1 + loop(\(x,i).(x * ((1 + (4 * i)) * i)),x,1)) div 2)) div 2)) <= 0 then 1 else (x * i))
1: (if (2 + ((x + 2) mod ~7)) <= 0 then 1 else 0)
1: (if (2 + ((2x + 2) mod ~7)) <= 0 then 2 else 1)
1: (if (2 + (2x mod ~7)) <= 0 then 1 else 0)
1: (if (1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 2 else 1)),x,x)) <= 0 then 1 else x)
1: (if (1 - (2 * (x mod 2))) <= 0 then (2 + (x div 2)) else loop(\(x,i).(x * (1 + (if (i mod 2) <= 0 then 4 else 1))),x,1))
1: (if (1 - ((x - (if (~2 + (x div 2)) <= 0 then 0 else 1)) mod 3)) <= 0 then 1 else (x + 2))
1: (if (1 - ((x2 + x) mod 5)) <= 0 then x else 1)
1: (if (1 - (loop(\(x,i).(2x + 2),x,0) mod (x + 1))) <= 0 then 1 else i)
1: (if (1 - (x mod (1 + ((x + ~1) mod 7)))) <= 0 then x else 0)
1: (if (2 - (x * (x mod 2))) <= 0 then (x div 2) else (if x <= 0 then 1 else 2))
1: (if (2 - ((x + 1) div (1 + (2 * (((x + 1) * (x div 2)) mod 3))))) <= 0 then (2 + (x div 4)) else x)
1: (if (2 - ((x div 2) div (~1 + (2 * (x mod 4))))) <= 0 then x else 0)
1: (if (2 - ((x mod 7) div 2)) <= 0 then (x div 4) else 1)
1: (if (2 - (x div 2)) <= 0 then (4 + (x div 4)) else 1)
1: (if (2 - (x div 4)) <= 0 then 12 else x)
1: (if (2 - (x div 4)) <= 0 then 2x else 1)
1: (if (2 - (x div 4)) <= 0 then (x div 2) else 4)
1: (if (2 - (x div 4)) <= 0 then (x div 3) else 1)
1: (if (2 - (x div 4)) <= 0 then (x div (1 + (x div 4))) else 1)
1: (if (2 - (x div 4)) <= 0 then (x mod 2) else 1)
1: (if (2 - (x div 4)) <= 0 then (if (x mod 4) <= 0 then 2 else (x mod 2)) else 1)
1: (if (2 - (i div 2)) <= 0 then x else 2)
1: (if (2 - (5 mod (1 + (x div 2)))) <= 0 then 2 else 1)
1: (if (2 - ((x + 1) mod (1 + (2 * (x mod 3))))) <= 0 then 1 else (2 + (x mod 2)))
1: (if (2 - ((x + 1) mod (1 + (2 * (x mod 3))))) <= 0 then 2 else 1)
1: (if (2 - ((x + 2) mod 7)) <= 0 then 2 else 1)
1: (if (2 - ((x + ~1) mod (4 + (x div 3)))) <= 0 then 1 else 0)
1: (if (2 - ((x + ~2) mod (1 + (x div 2)))) <= 0 then 1 else 0)
1: (if (2 - ((~4x + 2) mod (4 + (x div 4)))) <= 0 then 1 else 0)
1: (if (2 - ((2x + ~2) mod (2 + (x div 2)))) <= 0 then 2 else 1)
1: (if (2 - ((2x + ~6) mod (1 + (x div 2)))) <= 0 then 2 else 1)
1: (if (2 - (16 mod (x + 1))) <= 0 then 1 else 0)
1: (if (2 - (2x mod (4 + (x div 3)))) <= 0 then (x + 2) else 1)
1: (if (2 - (2x mod (4 + (x div 4)))) <= 0 then 0 else (x2 + ~x))
1: (if (2 - (2x mod (4 + (x div 4)))) <= 0 then ((x div 2) div ~2) else 1)
1: (if (2 - (2x mod 7)) <= 0 then 1 else 0)
1: (if (2 - (2x mod 9)) <= 0 then x else 1)
1: (if (2 - ((x div 2) mod 5)) <= 0 then 1 else 0)
1: (if (2 - ((x div 2) mod (1 + (x mod 5)))) <= 0 then 2 else 1)
1: (if (2 - (x mod 5)) <= 0 then (x mod 2) else 1)
1: (if (2 - (x mod 5)) <= 0 then x else 2)
1: (if (2 - (x mod (3 + (x div 2)))) <= 0 then x else 2)
1: (if (2 - (x mod (3 + (if (~2 + (x div 2)) <= 0 then 0 else 2)))) <= 0 then 1 else 0)
1: (if (2 - (x mod 7)) <= 0 then (x mod 2) else 1)
1: (if (2 - (x mod 13)) <= 0 then 1 else 0)
1: (if (2 - (x mod (1 + (2 * (2 + (x mod 3)))))) <= 0 then 1 else x)
1: (if (2 - (x mod (1 + (2 * ((x + ~1) mod 3))))) <= 0 then 2 else 1)
1: (if (2 - (x mod (1 + (x div (2 * (2 - (x mod 2))))))) <= 0 then (x2 + x) else 1)
1: (if (2 - (x mod (1 + ((~x + 2) mod 4)))) <= 0 then x else 1)
1: (if (2 - (x mod (2 + ((~x + 2) mod 4)))) <= 0 then (x div 2) else 1)
1: (if (2 - (x mod (1 + (x2 mod (x + 4))))) <= 0 then 2 else 0)
1: (if (2 - (x mod (~1 + (2 * ((x + ~1) mod 4))))) <= 0 then 2 else 1)
1: (if (2 - loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)) <= 0 then x else 2)
1: (if (~x + 2) <= 0 then 1 else 13)
1: (if (~x + 2) <= 0 then (5 + ((x + ~1) mod 3)) else 0)
1: (if (~x + 2) <= 0 then (1 + (2 * ((x + 1) + (if (x + ~2) <= 0 then 1 else 2)))) else 1)
1: (if (~x + 2) <= 0 then (1 + (2 * (3 - (x mod 2)))) else 0)
1: (if (~x + 2) <= 0 then (2x + 5) else x)
1: (if (~x + 2) <= 0 then (1 + (4 * (2 + loop(\(x,i).2x,x,3)))) else x)
1: (if (~x + 2) <= 0 then (x + (2 * (x mod 2))) else 1)
1: (if (~x + 2) <= 0 then (2 + (3 * (x mod 2))) else 0)
1: (if (~x + 2) <= 0 then (1 + (3 * (if (x mod 10) <= 0 then 0 else 2))) else 1)
1: (if (~x + 2) <= 0 then (2 + ((x + ((x2 + 2x) div 8)) div 2)) else 1)
1: (if (~x + 2) <= 0 then (2 + ((x + (x div 2)) div 4)) else 1)
1: (if (~x + 2) <= 0 then (2 + ((x - (((x div 2) div 3) mod 2)) div 2)) else 1)
1: (if (~x + 2) <= 0 then (1 + ((x - ((x div 2) mod 3)) div 3)) else 0)
1: (if (~x + 2) <= 0 then (2 + ((x2 + ~x) div 5)) else 1)
1: (if (~x + 2) <= 0 then (2 + ((2 * (x div 2)) div 3)) else 1)
1: (if (~x + 2) <= 0 then (2 + (x2 div 15)) else 1)
1: (if (~x + 2) <= 0 then (2 + (((x2 + ~x) div 2) div 3)) else 1)
1: (if (~x + 2) <= 0 then (x + (x div 2)) else 0)
1: (if (~x + 2) <= 0 then (1 + (x div 3)) else 0)
1: (if (~x + 2) <= 0 then (2 + ((x + ~1) mod 9)) else 1)
1: (if (~x + 2) <= 0 then (1 + ((x + ~1) mod (1 + ((x + 1) div 5)))) else 0)
1: (if (~x + 2) <= 0 then (x + (x mod 2)) else 1)
1: (if (~x + 2) <= 0 then (1 + (if (x mod 8) <= 0 then 2 else (x mod 2))) else 1)
1: (if (~x + 2) <= 0 then (1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x)) else 1)
1: (if (~x + 2) <= 0 then (2 + i) else 0)
1: (if (~x + 2) <= 0 then (2 + i) else 1)
1: (if (~x + 2) <= 0 then ~7 else 0)
1: (if (~x + 2) <= 0 then (1 - (x mod (1 + (4 * (x mod 2))))) else 1)
1: (if (~x + 2) <= 0 then (1 - (compr(\x.(if (x mod 2) <= 0 then ((x div 3) mod 3) else 0),x) mod 3)) else 1)
1: (if (~x + 2) <= 0 then (2 + ((x mod 3) mod 2) - (x mod 2)) else 1)
1: (if (~x + 2) <= 0 then (2 - ((~x + 2) div 11)) else 1)
1: (if (~x + 2) <= 0 then (2 - ((~x + 2) div 8)) else 1)
1: (if (~x + 2) <= 0 then (2 - ((~x2 + x) div 3)) else 1)
1: (if (~x + 2) <= 0 then (2 - ((x div 2) div ~3)) else 1)
1: (if (~x + 2) <= 0 then (2 - (x div ~2)) else 1)
1: (if (~x + 2) <= 0 then (2 - ((x div 2) mod 2)) else 1)
1: (if (~x + 2) <= 0 then (2 + (x div 2) - ((x div 4) mod 2)) else 1)
1: (if (~x + 2) <= 0 then ((x + ~1) + (x div 2)) else 1)
1: (if (~x + 2) <= 0 then ((2x + ~1) - ((x + ~2) mod 8)) else 0)
1: (if (~x + 2) <= 0 then ((x div 2) - ((x + 1) div 3)) else 1)
1: (if (~x + 2) <= 0 then (~2 + (x mod 3)) else 1)
1: (if (~x + 2) <= 0 then (x + ~1) else 2)
1: (if (~x + 2) <= 0 then ((x + ~2) + (((x2 + 2x) div 2) mod 3)) else 1)
1: (if (~x + 2) <= 0 then (x - ((2 - (x div 3)) div 2)) else 1)
1: (if (~x + 2) <= 0 then (x - (x div ~4)) else 1)
1: (if (~x + 2) <= 0 then (4x + 4) else 1)
1: (if (~x + 2) <= 0 then (4x + ~4) else 1)
1: (if (~x + 2) <= 0 then 10 else 1)
1: (if (~x + 2) <= 0 then (2 * (1 + (((x + ~1) div 2) div 2))) else 1)
1: (if (~x + 2) <= 0 then (2 * (1 + (x div (4 * (2 + (x mod 4)))))) else 1)
1: (if (~x + 2) <= 0 then (2 * (2 + (x mod 2))) else 1)
1: (if (~x + 2) <= 0 then (2 * (1 + (if (~2 + (x div 3)) <= 0 then 0 else 2))) else 1)
1: (if (~x + 2) <= 0 then (x2 + 2x) else (x + 1))
1: (if (~x + 2) <= 0 then (2 * (~1 + ((x + (if (x mod 2) <= 0 then 2 else x)) mod 3))) else 1)
1: (if (~x + 2) <= 0 then (x2 + ~x) else 1)
1: (if (~x + 2) <= 0 then (4 * (1 + (x mod 2))) else 1)
1: (if (~x + 2) <= 0 then (2x * (x mod 2)) else 1)
1: (if (~x + 2) <= 0 then (x3 + ~x2) else 1)
1: (if (~x + 2) <= 0 then (x * (x3 div 3)) else 1)
1: (if (~x + 2) <= 0 then (2 * (loop(\(x,i).2x,x,1) div (x + 2))) else 1)
1: (if (~x + 2) <= 0 then (2 * (x mod 2)) else 1)
1: (if (~x + 2) <= 0 then 2x else 1)
1: (if (~x + 2) <= 0 then (((x + 1) + ((x div 2) mod 2)) div 3) else 1)
1: (if (~x + 2) <= 0 then ((x2 + 1) div (x + 2)) else 1)
1: (if (~x + 2) <= 0 then ((2 + (x div 2)) div 3) else 1)
1: (if (~x + 2) <= 0 then ((x + ((x div 2) mod 2)) div 3) else 1)
1: (if (~x + 2) <= 0 then ((x + ((x div 4) mod 2)) div 3) else 1)
1: (if (~x + 2) <= 0 then ((x + 1) div 3) else 1)
1: (if (~x + 2) <= 0 then ((~x + 2) div 2) else 1)
1: (if (~x + 2) <= 0 then ((x2 - (x div 2)) div 3) else 1)
1: (if (~x + 2) <= 0 then ((x - (x div 4)) div 2) else 1)
1: (if (~x + 2) <= 0 then ((2x + 2) div 7) else 1)
1: (if (~x + 2) <= 0 then ((x2 + x) div 2) else 0)
1: (if (~x + 2) <= 0 then ((x2 + ~x) div 3) else 1)
1: (if (~x + 2) <= 0 then (x2 div 3) else 1)
1: (if (~x + 2) <= 0 then ((x mod 3) div 2) else 1)
1: (if (~x + 2) <= 0 then (x div 2) else 2)
1: (if (~x + 2) <= 0 then (x div (3 + ((x2 + 2x) mod 6))) else 1)
1: (if (~x + 2) <= 0 then ((x + ~1) mod 3) else 1)
1: (if (~x + 2) <= 0 then ((x2 + 2x) mod 6) else 1)
1: (if (~x + 2) <= 0 then (((~x + 2) div (2 + (x div 8))) mod 2) else 1)
1: (if (~x + 2) <= 0 then ((((x mod 3) - (x div 2)) div 2) mod 2) else 1)
1: (if (~x + 2) <= 0 then (((~x * (x div 2)) div 2) mod 3) else 1)
1: (if (~x + 2) <= 0 then ((x div 7) mod 2) else 1)
1: (if (~x + 2) <= 0 then ((x div (2 + ((~x + 1) mod 3))) mod 2) else 1)
1: (if (~x + 2) <= 0 then ((x div (2 + (x mod 2))) mod 2) else 1)
1: (if (~x + 2) <= 0 then ((x div (2 + (x mod (2 + ((x div 2) mod 2))))) mod 2) else 1)
1: (if (~x + 2) <= 0 then ((x div (1 + (x mod (2 + (x mod 2))))) mod 2) else 1)
1: (if (~x + 2) <= 0 then (x mod 4) else 0)
1: (if (~x + 2) <= 0 then (x mod ~2) else 1)
1: (if (~x + 2) <= 0 then (if (x - (x2 mod (x + 8))) <= 0 then 1 else 2) else 0)
1: (if (~x + 2) <= 0 then (if ((x + 1) mod (1 + (x div 5))) <= 0 then 1 else 2) else 0)
1: (if (~x + 2) <= 0 then (if ((x * (x div 2)) mod 4) <= 0 then 2 else 1) else 1)
1: (if (~x + 2) <= 0 then (if ((x div 2) mod 3) <= 0 then 2 else 1) else 1)
1: (if (~x + 2) <= 0 then (if ((x div ~2) mod 4) <= 0 then 2 else 1) else 0)
1: (if (~x + 2) <= 0 then (if (x mod 2) <= 0 then 1 else 8) else 0)
1: (if (~x + 2) <= 0 then (if (x mod 2) <= 0 then 4 else 1) else 0)
1: (if (~x + 2) <= 0 then (if (x mod 3) <= 0 then 2 else (((x + 1) div 2) - ((3 * (x div 4)) div 2))) else 0)
1: (if (~x + 2) <= 0 then (if (x mod (2 + (x mod 3))) <= 0 then 2 else 1) else 0)
1: (if (~x + 2) <= 0 then loop(\(x,i).(10x + 1),2x,1) else (9x + 1))
1: (if (~x + 2) <= 0 then loop(\(x,i).(10x + 1),2x,1) else (10x + 1))
1: (if (~x + 2) <= 0 then x else (~x + 1))
1: (if (~x + 2) <= 0 then x else (2x + 4))
1: (if (2 - i) <= 0 then x else 2)
1: (if ((~x + 2) + i) <= 0 then x else 2)
1: (if ((~x + 2) + i) <= 0 then i else 1)
1: (if (~4 + ((x * (x mod 2)) div 2)) <= 0 then 1 else 0)
1: (if (~4 + (x div 2)) <= 0 then 0 else 3)
1: (if (~4 + (x div 2)) <= 0 then 0 else (1 + (x div 4)))
1: (if (~4 + (x div 2)) <= 0 then 1 else 6)
1: (if (~4 + (x div 2)) <= 0 then 1 else 8)
1: (if (~4 + (x div 2)) <= 0 then 1 else (2 * (x div 4)))
1: (if (~4 + (x div 2)) <= 0 then 2 else ((x + 1) div 2))
1: (if (~4 + (x div 2)) <= 0 then (1 + (x div 3)) else x)
1: (if (~4 + (x div 2)) <= 0 then (2 * (x mod 2)) else 1)
1: (if (~4 + (x div 2)) <= 0 then (((x + 1) div 2) div 2) else 1)
1: (if (~4 + (x div 2)) <= 0 then ((x + 1) mod 2) else 1)
1: (if (~4 + (x div 2)) <= 0 then x else 0)
1: (if (~4 + (x div 2)) <= 0 then x else 2)
1: (if (~4 + (x div 2)) <= 0 then x else 5)
1: (if (~4 + (x div 2)) <= 0 then x else (x + 6))
1: (if (~4 + (x div 2)) <= 0 then x else ((x + 1) - (2 * (x mod 2))))
1: (if (~4 + (x div 2)) <= 0 then x else (2x + ~8))
1: (if (~2 + (x div 2) - (x div 3)) <= 0 then 1 else 0)
1: (if (~2 + (x div 2) - (x mod 3)) <= 0 then 0 else 1)
1: (if (~2 + (x div 2) - (x mod 4)) <= 0 then 0 else 1)
1: (if (~4 + (x div 3)) <= 0 then x else (x2 + 3x + 2))
1: (if (~4 + (x div (2 + (x mod 2)))) <= 0 then 1 else 2)
1: (if ((~x + ~1) + i) <= 0 then i else 0)
1: (if (~x + 8) <= 0 then x else 2)
1: (if (~x + (2 * (2 + ((x + 2) mod 4)))) <= 0 then 1 else 0)
1: (if (~1 + (x * (x mod (2 + (x mod 2))))) <= 0 then (x div 2) else 1)
1: (if (((x + ~1) div 2) - ((3 * (x div 4)) div 2)) <= 0 then (2x + 1) else 0)
1: (if (~2 + ((x * (x mod 2)) div 2)) <= 0 then 1 else 0)
1: (if (~2 + (2x div (2 + (x div 2)))) <= 0 then 0 else (x + 1))
1: (if (~2 + (2x div (2 + (x div 2)))) <= 0 then 0 else x)
1: (if (~2 + (((x + 1) div 2) div 2)) <= 0 then (x + (if (~4 + (x div 2)) <= 0 then 1 else 2)) else 1)
1: (if ((((x + ~1) div 2) div 2) - (x mod 4)) <= 0 then 1 else 2)
1: (if (~2 + ((x div 2) div (1 + ((~x + 2) mod 4)))) <= 0 then 1 else 2)
1: (if ((((x + 2) mod 5) div 2) - (x mod 2)) <= 0 then 1 else 0)
1: (if (~1 + (x div 2)) <= 0 then 1 else (1 - (x div ~4)))
1: (if (~1 + (x div 2)) <= 0 then 1 else (3x2 + 6))
1: (if (~1 + (x div 2)) <= 0 then 1 else ((x + 1) div 2))
1: (if (~1 + (x div 2)) <= 0 then 1 else (if (~1 + (x mod (2 + (x mod 2)))) <= 0 then 2 else 0))
1: (if (~1 + (x div 2)) <= 0 then (1 + (3 * ((~x + 2) div 2))) else 1)
1: (if (~1 + (x div 2)) <= 0 then (1 + (2 * (if x <= 0 then 0 else 2))) else 0)
1: (if (~1 + (x div 2)) <= 0 then loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) else (4x + ~2))
1: (if (~2 + (x div 2)) <= 0 then 1 else (1 + (8 * (x mod 2))))
1: (if (~2 + (x div 2)) <= 0 then 1 else (2 + (if (x mod 5) <= 0 then 2 else 0)))
1: (if (~2 + (x div 2)) <= 0 then 1 else (x + ~2))
1: (if (~2 + (x div 2)) <= 0 then 1 else 12)
1: (if (~2 + (x div 2)) <= 0 then 1 else (2x + ~4))
1: (if (~2 + (x div 2)) <= 0 then 1 else 2x2)
1: (if (~2 + (x div 2)) <= 0 then 1 else (x * (x div 2)))
1: (if (~2 + (x div 2)) <= 0 then 1 else (x * (x div 4)))
1: (if (~2 + (x div 2)) <= 0 then 1 else ((x + (x mod 2)) div 3))
1: (if (~2 + (x div 2)) <= 0 then 1 else (if x <= 0 then 1 else 7x))
1: (if (~2 + (x div 2)) <= 0 then 1 else x)
1: (if (~2 + (x div 2)) <= 0 then 1 else i)
1: (if (~2 + (x div 2)) <= 0 then 2 else (x div 3))
1: (if (~2 + (x div 2)) <= 0 then 2 else x)
1: (if (~2 + (x div 2)) <= 0 then 3 else (x div 2))
1: (if (~2 + (x div 2)) <= 0 then (1 + ((x mod 3) div 2)) else 1)
1: (if (~2 + (x div 2)) <= 0 then (1 + (if x <= 0 then 1 else 2)) else (x div 2))
1: (if (~2 + (x div 2)) <= 0 then (x + 2) else (x div 2))
1: (if (~2 + (x div 2)) <= 0 then (~1 + (x div 2)) else 2)
1: (if (~2 + (x div 2)) <= 0 then (x + ~2) else 2)
1: (if (~2 + (x div 2)) <= 0 then 6 else x)
1: (if (~2 + (x div 2)) <= 0 then (if (x mod 3) <= 0 then 1 else 2) else 1)
1: (if (~2 + (x div 2)) <= 0 then x else (x2 + 2))
1: (if (~2 + (x div 2)) <= 0 then x else (2x + ~6))
1: (if (~2 + (x div 2)) <= 0 then x else (x2 div 3))
1: (if (~1 + (x div 2) - (x mod 2)) <= 0 then 4 else 1)
1: (if (~6 + (x div 2)) <= 0 then 2 else 1)
1: (if (~6 + (x div 2)) <= 0 then 2 else x)
1: (if (~6 + (x div 2)) <= 0 then x else 3)
1: (if (~6 + (x div 2)) <= 0 then x else 4)
1: (if (~6 + (x div 2)) <= 0 then x else (x + 3))
1: (if ((x div 2) - (2 * (2 + (x mod 2)))) <= 0 then 1 else 0)
1: (if ((x div 2) - ((x + 2) mod 5)) <= 0 then 0 else 1)
1: (if ((x div 2) - (x mod 8)) <= 0 then 0 else 1)
1: (if ((x div 2) - (x mod 8)) <= 0 then 0 else 2)
1: (if ((x div 2) - (x mod 8)) <= 0 then 1 else 2)
1: (if (~2 + (x div 3)) <= 0 then 0 else 3)
1: (if (~2 + (x div 3)) <= 0 then 0 else (x + 1))
1: (if (~2 + (x div 3)) <= 0 then 1 else (2 + ((x mod 3) div 2)))
1: (if (~2 + (x div 3)) <= 0 then 1 else 8)
1: (if (~2 + (x div 3)) <= 0 then 1 else 12)
1: (if (~2 + (x div 3)) <= 0 then 1 else (2 * ((x div 2) div 3)))
1: (if (~2 + (x div 3)) <= 0 then 1 else (2 * (x mod 2)))
1: (if (~2 + (x div 3)) <= 0 then 1 else 2x)
1: (if (~2 + (x div 3)) <= 0 then 1 else ((x + ~1) div 3))
1: (if (~2 + (x div 3)) <= 0 then 1 else x)
1: (if (~2 + (x div 3)) <= 0 then 2 else ((~1 + (x div 2)) div 2))
1: (if (~2 + (x div 3)) <= 0 then 3 else ~2)
1: (if (~2 + (x div 3)) <= 0 then (1 + (x mod (2 * (~2 + (x mod 2))))) else 0)
1: (if (~2 + (x div 3)) <= 0 then 10 else 0)
1: (if (~2 + (x div 3)) <= 0 then (x div 4) else 0)
1: (if (~2 + (x div 3)) <= 0 then (x div 8) else 2)
1: (if (~2 + (x div 3)) <= 0 then (x mod 2) else 2)
1: (if (~2 + (x div 3)) <= 0 then (if x <= 0 then 1 else 8) else 1)
1: (if (~2 + (x div 3)) <= 0 then x else (2x + 1))
1: (if (~2 + (x div 3)) <= 0 then x else (10x + 10))
1: (if ((x div 3) - (x2 mod 6)) <= 0 then 0 else 1)
1: (if ((x div 3) - (x mod 3)) <= 0 then 2 else 1)
1: (if ((x div 3) - (x mod 4)) <= 0 then 0 else x)
1: (if (~1 + (x div 4)) <= 0 then 1 else 4)
1: (if (~1 + (x div 4)) <= 0 then 1 else (2x + ~2))
1: (if (~1 + (x div 4)) <= 0 then 2 else 0)
1: (if (~1 + (x div 4)) <= 0 then 2 else (x div 5))
1: (if (~1 + (x div 4)) <= 0 then (1 - (2 * (x mod 2))) else 0)
1: (if (~1 + (x div 4)) <= 0 then (x mod 2) else 8)
1: (if (~1 + (x div 4)) <= 0 then x else compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: (if (~2 + (x div 4)) <= 0 then 0 else 5)
1: (if (~2 + (x div 4)) <= 0 then 0 else x)
1: (if (~2 + (x div 4)) <= 0 then 1 else ~2)
1: (if (~2 + (x div 4)) <= 0 then 1 else 6)
1: (if (~2 + (x div 4)) <= 0 then 1 else ((x + 2) div 5))
1: (if (~2 + (x div 4)) <= 0 then 1 else (x div (4 + (x mod 2))))
1: (if (~2 + (x div 4)) <= 0 then 2 else (x mod 2))
1: (if (~2 + (x div 4)) <= 0 then 3 else x)
1: (if (~2 + (x div 4)) <= 0 then ((x mod 3) div 2) else 1)
1: (if (~2 + (x div 4)) <= 0 then x else 0)
1: (if (~2 + (x div 4)) <= 0 then x else (x + 4))
1: (if (~2 + (x div 4)) <= 0 then i else 1)
1: (if (~2 + (x div 4)) <= 0 then i else x)
1: (if ((x div 4) - ((~x + 1) mod 3)) <= 0 then 1 else 0)
1: (if ((x div 4) - ((~x + 2) mod 4)) <= 0 then 1 else 0)
1: (if ((x div 4) - (x mod 5)) <= 0 then 1 else 2)
1: (if ((x div 4) - (x mod 5)) <= 0 then 1 else (x mod 5))
1: (if ((x div 4) - (x mod (2 + (x mod 4)))) <= 0 then 1 else 0)
1: (if ((x div 4) - (x mod 6)) <= 0 then 0 else 1)
1: (if ((x div 4) - i) <= 0 then 1 else 2)
1: (if (~1 + (x div 5)) <= 0 then x else (74x + 37))
1: (if (~2 + (x div 5)) <= 0 then 0 else 5)
1: (if (~2 + (x div 5)) <= 0 then 1 else 6)
1: (if (~2 + (x div 5)) <= 0 then 2 else 0)
1: (if (~2 + (x div 5)) <= 0 then 2 else (x + ~1))
1: (if (~2 + (x div 5)) <= 0 then 2 else (x div 2))
1: (if (~2 + (x div 5)) <= 0 then 10 else x)
1: (if (~2 + (x div 5)) <= 0 then x else 3)
1: (if (~2 + (x div 5)) <= 0 then x else 4)
1: (if (~2 + (x div 5)) <= 0 then x else (2x + ~2))
1: (if (~2 + (x div 5)) <= 0 then x else (2x + ~4))
1: (if ((x div 5) - (x mod 6)) <= 0 then 1 else 0)
1: (if (~2 + (x div (3 + (x mod 2)))) <= 0 then 1 else 0)
1: (if (~2 + (x div (3 + (x mod 2)))) <= 0 then 1 else 2)
1: (if (~2 + (x div (3 + (x mod 2)))) <= 0 then 1 else 4)
1: (if (~2 + (x div (1 + (x2 mod (2 + (x div 2)))))) <= 0 then 1 else 0)
1: (if (~2 + (x div (1 + (x mod 4)))) <= 0 then 2 else 1)
1: (if (~2 + (x div (2 * (2 + (x mod 2))))) <= 0 then 1 else 2)
1: (if (~2 + (x div (2 * (2 - (x mod 2))))) <= 0 then 1 else 0)
1: (if (~1 + (i div 2)) <= 0 then 1 else 0)
1: (if (((x + (x div 2)) mod 4) - (x div 4)) <= 0 then 1 else 0)
1: (if (~2 + ((x + (x div 2)) mod 8)) <= 0 then 1 else 0)
1: (if (~1 + ((1 + (if ((x + ~2) mod 5) <= 0 then 1 else x)) mod 3)) <= 0 then 2 else x)
1: (if (((x + 1) mod 3) - (x mod 2)) <= 0 then 1 else (x div 3))
1: (if (~2 + ((x + 1) mod 8)) <= 0 then 0 else 1)
1: (if (~2 + ((x + 2) mod (2 + (x div 4)))) <= 0 then 1 else 2)
1: (if (~2 + ((x + 2) mod 8)) <= 0 then x else (x + 2))
1: (if (~2 + ((x + 2) mod 10)) <= 0 then 1 else 0)
1: (if (~2 + ((~x2 + 1) mod (4 + (x div 2)))) <= 0 then 1 else 2)
1: (if (~2 + ((~x + ((~x + 2) div 2)) mod 4)) <= 0 then 1 else 0)
1: (if (~1 + ((x + ~1) mod 5)) <= 0 then (x mod 2) else 1)
1: (if (~2 + (3x mod (2 + (x div 2)))) <= 0 then 1 else 2)
1: (if (~x + ((x2 + 2x) mod 16)) <= 0 then 0 else 1)
1: (if (~1 + ((~x2 + x) mod (2 + (x div 2)))) <= 0 then 0 else 1)
1: (if (~1 + ((2x + ~2) mod (2 + (x div 2)))) <= 0 then 1 else 0)
1: (if (~x + ((2x + ~4) mod (x + 4))) <= 0 then 1 else 2)
1: (if (~2 + ((2x + ~4) mod (x + 2))) <= 0 then 0 else 1)
1: (if (~2 + ((2x + ~4) mod (x + 2))) <= 0 then x else 0)
1: (if (~x + ((2x + ~4) mod (x + 2))) <= 0 then 1 else 0)
1: (if (~1 + ((3x + ~6) mod (x + 1))) <= 0 then 1 else 0)
1: (if (((x * (x div 3)) mod 3) - (x mod 2)) <= 0 then 1 else 2)
1: (if (~2 + ((2 * ((~x + 2) mod 5)) mod (x + 1))) <= 0 then 1 else 2)
1: (if ((2x mod 3) - (x mod 4)) <= 0 then 0 else 1)
1: (if ((2x mod 3) - (x mod 4)) <= 0 then 1 else 0)
1: (if ((2x mod 3) - (x mod 4)) <= 0 then 1 else 2)
1: (if ((2x mod 5) - (x mod 3)) <= 0 then 1 else 0)
1: (if (~1 + (2x mod (5 + (x div 2)))) <= 0 then 1 else 0)
1: (if (~1 + (2x mod (4 + (x div 2)))) <= 0 then (x + 1) else 0)
1: (if (~2 + (2x mod (4 + (x div 4)))) <= 0 then 1 else 4)
1: (if (~2 + (2x mod (4 + (x div 4)))) <= 0 then 1 else (if (x mod 8) <= 0 then 2 else 0))
1: (if (~2 + (2x mod (4 + (x div 4)))) <= 0 then 2 else (1 + (x div 2)))
1: (if ((2x mod 7) - (x div 2)) <= 0 then 1 else 0)
1: (if (~1 + (2x mod (1 + ((x div 2) * (x div 2))))) <= 0 then 1 else 2)
1: (if (~1 + (2x mod (1 + (x div 2)))) <= 0 then 1 else 0)
1: (if (~1 + (2x mod (1 + (x div 2)))) <= 0 then 2 else 1)
1: (if (~2 + (2x mod (1 + (x div 2)))) <= 0 then 1 else 2)
1: (if (~2 + (2x mod (2 + (x div 2)))) <= 0 then 2 else 1)
1: (if (~2 + (2x mod (2 + (x div 3)))) <= 0 then 1 else 0)
1: (if (~2 + (2x mod (2 + (x div 3)))) <= 0 then 1 else 2)
1: (if ((x2 mod 5) - (x mod 2)) <= 0 then 1 else 2)
1: (if (~1 + (x2 mod (x + 3))) <= 0 then 1 else 0)
1: (if (~2 + (x2 mod 7)) <= 0 then 1 else 0)
1: (if (~2 + (x2 mod 7)) <= 0 then 1 else 2)
1: (if (~2 + (x2 mod 7)) <= 0 then 2 else 1)
1: (if (~1 + (x2 mod (1 + (x div 3)))) <= 0 then 1 else 2)
1: (if (~x + (x2 mod (x - ((~x + 2) div 2)))) <= 0 then 1 else 0)
1: (if (~2 + ((x2 div 2) mod (4 + (x div 2)))) <= 0 then 1 else 0)
1: (if (~2 + ((x2 div 2) mod (4 + (x div 2)))) <= 0 then 1 else 2)
1: (if (~1 + ((x div 2) mod 5)) <= 0 then 2 else 1)
1: (if (~2 + ((x div 2) mod 5)) <= 0 then 1 else 0)
1: (if (~2 + ((x div 2) mod 5)) <= 0 then 1 else (x div 3))
1: (if (~1 + ((x div 3) mod 3)) <= 0 then 3 else (x div 2))
1: (if (~1 + ((x mod 2) + (x mod 5))) <= 0 then 1 else 0)
1: (if ((x mod 2) - ((~1 + ((x + 2) mod 5)) div 2)) <= 0 then 1 else 0)
1: (if (~1 + (x mod 3)) <= 0 then 1 else (2 + ((x * (x div 2)) mod 2)))
1: (if (~1 + (x mod 3)) <= 0 then 1 else (3 * (1 + ((x * (x div 2)) mod 2))))
1: (if (~1 + (x mod 3)) <= 0 then 2 else ~2)
1: (if (~1 + (x mod 3)) <= 0 then 2 else (x + ~1))
1: (if (~1 + (x mod 3)) <= 0 then 2 else ((x + 1) mod 2))
1: (if (~1 + (x mod 3)) <= 0 then ~2 else 1)
1: (if (~1 + (x mod 3)) <= 0 then (1 - (2 * (x mod 2))) else 2)
1: (if (~1 + (x mod 3)) <= 0 then ((x + 1) - (x div 3)) else 0)
1: (if (~1 + (x mod 3)) <= 0 then (x - (x div 3)) else 1)
1: (if (~1 + (x mod 3)) <= 0 then (x div 2) else 1)
1: (if (~1 + (x mod 3)) <= 0 then (if x <= 0 then 1 else 2) else ~1)
1: (if (~1 + (x mod 3)) <= 0 then loop(\(x,i).10x,x,1) else 0)
1: (if (~1 + (x mod 3)) <= 0 then x else 3)
1: (if (~1 + ((x mod 3) + ((x mod 5) div 2))) <= 0 then 1 else 0)
1: (if ((x mod 3) - ((((x + 1) div 2) div 2) mod 2)) <= 0 then 0 else 1)
1: (if ((x mod 3) - ((((x + 1) div 2) div 2) mod 2)) <= 0 then 1 else 0)
1: (if ((x mod 3) - ((((x + 1) div 2) div 2) mod 2)) <= 0 then 2 else 1)
1: (if ((x mod 3) - ((x div 2) mod 2)) <= 0 then 1 else x)
1: (if ((x mod 3) - ((x div ~2) mod 2)) <= 0 then 1 else 0)
1: (if (~2 + (x mod 4)) <= 0 then 2 else (x + 1))
1: (if ((x mod 4) - (x div 4)) <= 0 then 1 else 0)
1: (if ((x mod 4) - (2x mod 3)) <= 0 then 1 else 0)
1: (if (~1 + (x mod 5)) <= 0 then 2 else 0)
1: (if (~1 + (x mod 5)) <= 0 then (1 + ((3 * ((x div 2) div 3)) div 2)) else 1)
1: (if (~1 + (x mod 5)) <= 0 then (1 + ((x div 2) div 3)) else 1)
1: (if (~2 + (x mod 5)) <= 0 then 1 else 0)
1: (if (~2 + (x mod 5)) <= 0 then 1 else x)
1: (if (~2 + (x mod 5)) <= 0 then 2 else 1)
1: (if (~1 + (x mod (3 + (x div 3)))) <= 0 then 1 else 0)
1: (if (~2 + (x mod (3 + (x div 4)))) <= 0 then 1 else 2)
1: (if (~1 + (x mod (4 + (x div 4)))) <= 0 then 1 else 0)
1: (if (~2 + (x mod (4 + (x mod 2)))) <= 0 then 1 else 2)
1: (if (~2 + (x mod (4 + (x mod 2)))) <= 0 then (x mod 2) else 2)
1: (if (~1 + (x mod (3 + (if (~2 + (x div 2)) <= 0 then 0 else 2)))) <= 0 then 1 else 0)
1: (if (~2 + (x mod (3 - (x div ~2)))) <= 0 then 1 else 2)
1: (if (~1 + (x mod 9)) <= 0 then 1 else 0)
1: (if ((x mod 9) - (x div 3)) <= 0 then 1 else 0)
1: (if (~1 + (x mod (1 + (2 * (2 + (x mod 3)))))) <= 0 then 1 else 0)
1: (if (~1 + (x mod (1 + (2 * (x div 5))))) <= 0 then 1 else 0)
1: (if (~2 + (x mod (1 + (2 * (x mod 3))))) <= 0 then 1 else (x + 2))
1: (if (~2 + (x mod (2 + (x div 4)))) <= 0 then 1 else 0)
1: (if (~2 + (x mod (2 + ((~x + 2) mod 8)))) <= 0 then 1 else 2)
1: (if (~2 + (x mod (2 + (2x mod 5)))) <= 0 then 1 else 2)
1: (if (~2 + (x mod (2 + (((x + 1) div 2) mod 8)))) <= 0 then 1 else 2)
1: (if (~1 + (x mod (2 + (x mod 2)))) <= 0 then 1 else 2x)
1: (if (~2 + (x mod (2 + (x mod 3)))) <= 0 then 2 else 0)
1: (if (~2 + (x mod (2 + (x mod 3)))) <= 0 then 2 else 1)
1: (if (~2 + (x mod (2 + (x mod 3)))) <= 0 then x else 1)
1: (if (~2 + (x mod (2 + (x mod 3)))) <= 0 then x else (x + 2))
1: (if (~2 + (x mod (2 + (x mod 3)))) <= 0 then x else ~1)
1: (if (~2 + (x mod (2 - ((x div 2) div ~2)))) <= 0 then 1 else 2)
1: (if (~2 + (x mod (2 - (x mod ~4)))) <= 0 then 1 else 0)
1: (if (~2 + (x mod (2 - (x mod ~4)))) <= 0 then 1 else x)
1: (if (~1 + (x mod 11)) <= 0 then 1 else 0)
1: (if (~1 + (x mod 15)) <= 0 then (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) else 0)
1: (if (~2 + (x mod (x - ((x + 1) mod 4)))) <= 0 then 1 else 0)
1: (if (~2 + (x mod (x - ((x + 1) mod 4)))) <= 0 then 1 else 2)
1: (if (~1 + (x mod 8)) <= 0 then 1 else x)
1: (if (~2 + (x mod 8)) <= 0 then 0 else 1)
1: (if (~2 + (x mod 8)) <= 0 then 1 else 0)
1: (if (~2 + (x mod 8)) <= 0 then 1 else 2)
1: (if (~2 + (x mod 8)) <= 0 then 2 else (x + ~1))
1: (if ((x mod 8) - (x div 3)) <= 0 then 1 else 0)
1: (if (~1 + (i mod 3)) <= 0 then x else 2)
1: (if (x + ~1) <= 0 then 0 else (1 + ((x2 + 1) div 2) - (x div 3)))
1: (if (x + ~1) <= 0 then 0 else (1 + (2 * (2 + (((x div 2) - (x div 3)) div 2)))))
1: (if (x + ~1) <= 0 then 0 else (1 + (7 * ((x + 1) mod 3))))
1: (if (x + ~1) <= 0 then 0 else (2 + (3 * ((x mod 3) mod 2))))
1: (if (x + ~1) <= 0 then 0 else (1 + ((x div 2) div (1 + (x mod (2 + ((x mod 3) div 2)))))))
1: (if (x + ~1) <= 0 then 0 else (1 + (x div (3 + ((x2 + 2x) mod 6)))))
1: (if (x + ~1) <= 0 then 0 else (1 + ((x + ~1) mod (1 + (x mod (2 + (x div 5)))))))
1: (if (x + ~1) <= 0 then 0 else (1 + ((((2 * (1 + (((~1 + (6 * (1 + ((1 + ((x mod (1 + (x div (if (x mod 2) <= 0 then 4 else 1)))) div 2)) div 2)))) div 2) div 2))) mod (x + 1)) div 2) mod 2)))
1: (if (x + ~1) <= 0 then 0 else (1 + ((x div (1 + ((if (((x + ~1) div 2) mod 4) <= 0 then 2 else 1) + (x mod 2)))) mod 2)))
1: (if (x + ~1) <= 0 then 0 else (1 + (x mod (2 + (x mod (2 + ((x div 2) mod 2)))))))
1: (if (x + ~1) <= 0 then 0 else (1 + (if ((x div 2) mod 2) <= 0 then 4 else 0)))
1: (if (x + ~1) <= 0 then 0 else (2 * (1 + i)))
1: (if (x + ~1) <= 0 then 0 else (3 * (x mod ~4)))
1: (if (x + ~1) <= 0 then 0 else ((1 + (x div (2 * (2 - (x mod 2))))) mod 2))
1: (if (x + ~1) <= 0 then 1 else ((2x + 1) + ((x2 + (x2 div 4)) div 3)))
1: (if (x + ~1) <= 0 then 1 else (1 + (((x mod ((x + ~1) - (x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4)))))))) div 2) + (x mod 2))))
1: (if (x + ~1) <= 0 then 1 else ((x + 1) + loop(\(x,i).2x,x,1)))
1: (if (x + ~1) <= 0 then 1 else (3 + i))
1: (if (x + ~1) <= 0 then 1 else ((2x + 1) - ((x + ~2) mod 5)))
1: (if (x + ~1) <= 0 then 1 else (1 + (2 * (x - ((1 + (x div 2)) div 2)))))
1: (if (x + ~1) <= 0 then 1 else (24 + ((x + 1) div 2)))
1: (if (x + ~1) <= 0 then 1 else (2 + (x div (2 + (if (x mod 4) <= 0 then 2 else 1)))))
1: (if (x + ~1) <= 0 then 1 else (2 + (loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1))))
1: (if (x + ~1) <= 0 then 1 else (2 + (x mod 8)))
1: (if (x + ~1) <= 0 then 1 else (1 + compr(\x.(loop(\(x,i).(x * (x - i)),2,(x div 2)) mod (x + 1)),x)))
1: (if (x + ~1) <= 0 then 1 else ~1)
1: (if (x + ~1) <= 0 then 1 else (0 - (3 * (x div 7))))
1: (if (x + ~1) <= 0 then 1 else (2 - (((~x + 1) - (6 * (x div 8))) div 3)))
1: (if (x + ~1) <= 0 then 1 else (2 - (((~x + 2) div 2) div 5)))
1: (if (x + ~1) <= 0 then 1 else ((x + ~1) + ((x mod 3) div 2)))
1: (if (x + ~1) <= 0 then 1 else (~x + ~1))
1: (if (x + ~1) <= 0 then 1 else ((2x + ~4) - (x div ~4)))
1: (if (x + ~1) <= 0 then 1 else (x4 + ~1))
1: (if (x + ~1) <= 0 then 1 else (~1 + (3 * ((~x2 + 2) mod (~1 + ((~2x + 2) mod (4 + (x div 4))))))))
1: (if (x + ~1) <= 0 then 1 else (2x - ((x + 1) div 5)))
1: (if (x + ~1) <= 0 then 1 else (((1 + (8 mod (1 + (x div 2)))) div 2) - (x mod 2)))
1: (if (x + ~1) <= 0 then 1 else (~1 + ((x2 + 2x) div 4)))
1: (if (x + ~1) <= 0 then 1 else (~1 + (loop(\(x,i).2x,x,((1 + loop(\(x,i).(2 * ((x + 2) - (x * (i mod 2)))),x,1)) div 2)) div 3)))
1: (if (x + ~1) <= 0 then 1 else (x + ~1))
1: (if (x + ~1) <= 0 then 1 else ((x + ~1) - (2 * (x div 7))))
1: (if (x + ~1) <= 0 then 1 else ((x + ~1) + (((x - (x2 div 3)) div 2) div 3)))
1: (if (x + ~1) <= 0 then 1 else (x - ((3 - ((x2 + ~x) div 2)) div 3)))
1: (if (x + ~1) <= 0 then 1 else (x - ((x + 1) mod 13)))
1: (if (x + ~1) <= 0 then 1 else (2 * ((x + 1) + (((x + 1) * ((x mod (2 - (x div (1 + ((x div 2) mod 2))))) mod 2)) div 3))))
1: (if (x + ~1) <= 0 then 1 else (x * (4 - (x mod 2))))
1: (if (x + ~1) <= 0 then 1 else (3 * (1 + ((x3 + ~x2) * (~1 + (x div 2))))))
1: (if (x + ~1) <= 0 then 1 else (2 * (1 + (2 * ((1 + (x div 4)) div 2)))))
1: (if (x + ~1) <= 0 then 1 else (x3 + 4x2 + 2x + 8))
1: (if (x + ~1) <= 0 then 1 else (2 * (1 + ((2 * (1 + (x mod (2 + (x mod 4))))) div (x + 1)))))
1: (if (x + ~1) <= 0 then 1 else (2 * (1 + (((x + 1) mod (1 + (2 * (x div (3 * (1 + ((x2 + 2x) mod 6))))))) div 2))))
1: (if (x + ~1) <= 0 then 1 else (2 * (1 + ((x mod (1 + (x div (2 + (x div 8))))) div 2))))
1: (if (x + ~1) <= 0 then 1 else (2 * (1 + (x div (2 + ((if x <= 0 then 1 else (2 * (1 + ((1 + ((loop(\(x,i).2x,x,2) mod (x + 1)) div 2)) div 2)))) mod (x + 1)))))))
1: (if (x + ~1) <= 0 then 1 else (2 * (1 + ((x mod 6) mod (1 + (x div 3))))))
1: (if (x + ~1) <= 0 then 1 else (x * (1 + (x mod 2))))
1: (if (x + ~1) <= 0 then 1 else ((~x + 1) * (x mod 2)))
1: (if (x + ~1) <= 0 then 1 else (6x + ~4))
1: (if (x + ~1) <= 0 then 1 else (2 * ((x + 1) - (((~x2 + x) div 2) div 5))))
1: (if (x + ~1) <= 0 then 1 else (2 * ((x + 1) - (((x + 1) mod (1 + (2 * ((1 + (x div 4)) div 2)))) div 2))))
1: (if (x + ~1) <= 0 then 1 else (2 * (x - ((3 * (x div 4)) div 2))))
1: (if (x + ~1) <= 0 then 1 else (6x2 + 3x))
1: (if (x + ~1) <= 0 then 1 else (2 * ((1 + (loop(\(x,i).2x,(x + ~1),(x + 2)) div 3)) div 2)))
1: (if (x + ~1) <= 0 then 1 else (2 * ((x + 1) div (2 * (if (x mod (1 + (((x + 1) div 2) div 3))) <= 0 then 1 else 2)))))
1: (if (x + ~1) <= 0 then 1 else (2 * ((x - (x div 3)) div 3)))
1: (if (x + ~1) <= 0 then 1 else (2 * ((x - (x div 4)) div 2)))
1: (if (x + ~1) <= 0 then 1 else (2 * (((x + 1) div 2) div (1 + (x mod 2)))))
1: (if (x + ~1) <= 0 then 1 else (2 * (x div (2 + ((x div 2) div 3)))))
1: (if (x + ~1) <= 0 then 1 else (2 * (if (~2 + (x div 3)) <= 0 then 0 else 2)))
1: (if (x + ~1) <= 0 then 1 else (2 * (if (x + ~2) <= 0 then x else 1)))
1: (if (x + ~1) <= 0 then 1 else ((if ((x div 2) mod 3) <= 0 then 2 else 1) * (2 - (x mod 2))))
1: (if (x + ~1) <= 0 then 1 else (loop(\(x,i).(10x + 1),x,1) * (x mod 2)))
1: (if (x + ~1) <= 0 then 1 else (2 * loop(\(x,i).x2,1,loop(\(x,i).((2 * (x - (2x * i))) div (1 + i)),x,1))))
1: (if (x + ~1) <= 0 then 1 else ((1 + (((x + 1) * (2 + (x mod 2))) div 2)) div 2))
1: (if (x + ~1) <= 0 then 1 else ((4x + ~4) div 3))
1: (if (x + ~1) <= 0 then 1 else ((~x2 + 2x) div 3))
1: (if (x + ~1) <= 0 then 1 else (((x + ~1) * loop(\(x,i).x3,x,x)) div 2))
1: (if (x + ~1) <= 0 then 1 else (((x + ~1) * loop(\(x,i).(x * i),(x + ~1),(x + 2))) div 2))
1: (if (x + ~1) <= 0 then 1 else (x2 div 4))
1: (if (x + ~1) <= 0 then 1 else (loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2))
1: (if (x + ~1) <= 0 then 1 else (if ((x + 1) mod 7) <= 0 then 2 else 0))
1: (if (x + ~1) <= 0 then 1 else (if ((x + 2) mod (2 + (x mod 2))) <= 0 then (x + 2) else 1))
1: (if (x + ~1) <= 0 then 1 else (if (16 mod (x + 1)) <= 0 then (x div 3) else 0))
1: (if (x + ~1) <= 0 then 1 else (if ((x div 2) mod 2) <= 0 then 2 else ~2))
1: (if (x + ~1) <= 0 then 1 else (if (x mod 2) <= 0 then loop(\(x,i).(10x + 1),x,1) else 0))
1: (if (x + ~1) <= 0 then 1 else (if (x mod 5) <= 0 then 1 else loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x)))
1: (if (x + ~1) <= 0 then 1 else (if (x mod 5) <= 0 then (2x + 2) else 0))
1: (if (x + ~1) <= 0 then 1 else (if (x mod 5) <= 0 then (x mod 2) else 0))
1: (if (x + ~1) <= 0 then 1 else (if (x mod (1 + ((x + 2) div 5))) <= 0 then 0 else 2))
1: (if (x + ~1) <= 0 then 1 else (if (x mod 8) <= 0 then 1 else 2))
1: (if (x + ~1) <= 0 then 1 else (if (x mod 10) <= 0 then 2 else 0))
1: (if (x + ~1) <= 0 then 1 else loop(\(x,i).((x + 1) + (x div (2 - (i div ~4)))),x,0))
1: (if (x + ~1) <= 0 then 1 else loop(\(x,i).((2x + 2) + i),x,0))
1: (if (x + ~1) <= 0 then 1 else loop(\(x,i).(10x + 1),x,loop(\(x,i).(10x + 10),x,0)))
1: (if (x + ~1) <= 0 then 1 else loop(\(x,i).(2x + 1),x,loop(\(x,i).(2x + 2),x,0)))
1: (if (x + ~1) <= 0 then 1 else loop(\(x,i).(x - (if x <= 0 then 1 else (if (x div 3) <= 0 then x else (if (x mod (2 + (x mod 2))) <= 0 then 1 else x)))),x,x))
1: (if (x + ~1) <= 0 then 1 else loop(\(x,i).(x - (if x <= 0 then 1 else i)),x,x))
1: (if (x + ~1) <= 0 then 1 else loop(\(x,i).(x2 + 2x),(x + ~2),9))
1: (if (x + ~1) <= 0 then 1 else loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),x,1))
1: (if (x + ~1) <= 0 then 1 else loop(\(x,i).(x * i),(x + ~1),(1 + ((x2 + x) div 2))))
1: (if (x + ~1) <= 0 then 1 else loop(\(x,i).(if x <= 0 then 1 else (loop(\(x,i).(x * i),i,(1 + i)) + (x * i))),(x + ~1),0))
1: (if (x + ~1) <= 0 then 2 else 0)
1: (if (x + ~1) <= 0 then 2 else (x + (2 * ((x + 1) div 7))))
1: (if (x + ~1) <= 0 then 2 else (x + ((x + ((x div 2) mod 2)) div 2)))
1: (if (x + ~1) <= 0 then 2 else (1 + (((x2 + 4x + 4) div 2) div 5)))
1: (if (x + ~1) <= 0 then 2 else (1 + ((x + ~1) mod (1 + (x div 3)))))
1: (if (x + ~1) <= 0 then 2 else (~1 + (2 * (x mod 2))))
1: (if (x + ~1) <= 0 then 2 else (x2 + ~1))
1: (if (x + ~1) <= 0 then 2 else (3x + ~3))
1: (if (x + ~1) <= 0 then 2 else (x2 + ~x))
1: (if (x + ~1) <= 0 then 2 else 4x)
1: (if (x + ~1) <= 0 then 2 else (((x + ~1) div 2) * (x div 2)))
1: (if (x + ~1) <= 0 then 2 else (x div (2 - (x mod 2))))
1: (if (x + ~1) <= 0 then 2 else (((x + 1) mod (1 + (x div 4))) mod 2))
1: (if (x + ~1) <= 0 then 3 else ((x + 2) div (2 + (x mod 2))))
1: (if (x + ~1) <= 0 then 5 else 3x)
1: (if (x + ~1) <= 0 then (3x + 2) else 0)
1: (if (x + ~1) <= 0 then (~2x + 7) else 0)
1: (if (x + ~1) <= 0 then (2x + 3) else 0)
1: (if (x + ~1) <= 0 then (3x + 4) else 4x2)
1: (if (x + ~1) <= 0 then (4x + 1) else 0)
1: (if (x + ~1) <= 0 then (2x + 1) else 0)
1: (if (x + ~1) <= 0 then (x + 1) else 0)
1: (if (x + ~1) <= 0 then (x + 1) else (1 + (2 * ((x mod (1 + (((x + 1) div 2) div 2))) mod 2))))
1: (if (x + ~1) <= 0 then (x + 1) else (~2 + loop(\(x,i).4x,x,2)))
1: (if (x + ~1) <= 0 then (x + 1) else (((~x + 2) div ((x + 2) - (x div 3))) mod 2))
1: (if (x + ~1) <= 0 then (x + 2) else (~1 + (2 * (x + (x div 2)))))
1: (if (x + ~1) <= 0 then (x + 2) else ((x + 1) mod 2))
1: (if (x + ~1) <= 0 then (x + 2) else loop(\(x,i).10x,(x + ~1),1))
1: (if (x + ~1) <= 0 then (x + 2) else loop(\(x,i).4x,x,1))
1: (if (x + ~1) <= 0 then ~1 else (x + (x mod 2)))
1: (if (x + ~1) <= 0 then ~1 else (x2 + 2x))
1: (if (x + ~1) <= 0 then ~x else 0)
1: (if (x + ~1) <= 0 then (~x + 1) else loop(\(x,i).(4x + 2),x,0))
1: (if (x + ~1) <= 0 then (x + ~5) else 0)
1: (if (x + ~1) <= 0 then 6 else 4)
1: (if (x + ~1) <= 0 then 3x else loop(\(x,i).(x * i),x,(x2 + 1)))
1: (if (x + ~1) <= 0 then 8 else x)
1: (if (x + ~1) <= 0 then 10 else 0)
1: (if (x + ~1) <= 0 then (3x + 3) else 1)
1: (if (x + ~1) <= 0 then (~2x + 4) else 1)
1: (if (x + ~1) <= 0 then (22x + 11) else (x + 2))
1: (if (x + ~1) <= 0 then 10x else 0)
1: (if (x + ~1) <= 0 then 8x else 3)
1: (if (x + ~1) <= 0 then 8x else 23)
1: (if (x + ~1) <= 0 then 4x else (if (x + ~2) <= 0 then 1 else 6))
1: (if (x + ~1) <= 0 then 2x else 1)
1: (if (x + ~1) <= 0 then 2x else 7)
1: (if (x + ~1) <= 0 then 2x else (1 + (2 * (if (~2 + (x div 3)) <= 0 then 1 else 2))))
1: (if (x + ~1) <= 0 then 2x else (1 + (loop(\(x,i).(x * i),(x + ~2),1) div (x + 1))))
1: (if (x + ~1) <= 0 then 2x else ((2 - (2x mod (4 + (x div 4)))) div 3))
1: (if (x + ~1) <= 0 then 2x else ((x mod (2 - (x div (1 + ((x div 2) mod 2))))) mod 2))
1: (if (x + ~1) <= 0 then 2x else (if ((4 * (1 + (x mod 2))) mod (1 + (x div 2))) <= 0 then 1 else 2))
1: (if (x + ~1) <= 0 then 2x else loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x + ~2),1))
1: (if (x + ~1) <= 0 then (x * i) else x5)
1: (if (x + ~1) <= 0 then x else 4)
1: (if (x + ~1) <= 0 then x else ((2x2 + 3) - (x mod 2)))
1: (if (x + ~1) <= 0 then x else (1 + ((((1 + (x mod (1 + (x mod (2 * (2 + ((x div 2) mod 2))))))) mod (x + 1)) div 2) + (x mod 2))))
1: (if (x + ~1) <= 0 then x else (1 + ((((1 + (x mod (2 * (1 + (x mod (2 * (1 + (x mod (1 + (x div 3)))))))))) mod (x + 1)) div 2) + (x mod 2))))
1: (if (x + ~1) <= 0 then x else (1 + (((x2 mod (x - ((~x + 2) div 2))) div (x + 1)) + (x mod 2))))
1: (if (x + ~1) <= 0 then x else (1 + (((2x + 1) mod (1 + (2x mod (2 + (x div 4))))) + (x mod 2))))
1: (if (x + ~1) <= 0 then x else (3 + (if (x mod 3) <= 0 then 0 else 2)))
1: (if (x + ~1) <= 0 then x else 7)
1: (if (x + ~1) <= 0 then x else (1 + (2 * (1 + (3 * ((x2 + 2x) div 2))))))
1: (if (x + ~1) <= 0 then x else (1 + (x * (2 + (x mod 2)))))
1: (if (x + ~1) <= 0 then x else (1 + (2 * (loop(\(x,i).(x - (((~x + ~1) + (x mod 2)) div 5)),x,1) div 2))))
1: (if (x + ~1) <= 0 then x else (1 + (3 * (x mod 3))))
1: (if (x + ~1) <= 0 then x else (2 + ((x + ((x div 4) mod 2)) div 4)))
1: (if (x + ~1) <= 0 then x else (2 + ((x - ((x div 2) mod 3)) div 3)))
1: (if (x + ~1) <= 0 then x else (1 + ((2x + 4) div 5)))
1: (if (x + ~1) <= 0 then x else (2 + ((3 * ((1 + (x div 4)) div 2)) div 2)))
1: (if (x + ~1) <= 0 then x else (2 + ((x * (x mod 2)) div 2)))
1: (if (x + ~1) <= 0 then x else (2 + (2x div 5)))
1: (if (x + ~1) <= 0 then x else (2 + (((x3 + ~x) div 2) div 3)))
1: (if (x + ~1) <= 0 then x else (2 + ((x div 2) div 3)))
1: (if (x + ~1) <= 0 then x else (2x + (x div 2)))
1: (if (x + ~1) <= 0 then x else (2 + (x div 5)))
1: (if (x + ~1) <= 0 then x else (1 + ((1 + (8 mod (if x <= 0 then 1 else x))) mod 2)))
1: (if (x + ~1) <= 0 then x else (1 + ((x mod (2 + (x mod 2))) mod 2)))
1: (if (x + ~1) <= 0 then x else (2 + (if (x mod 2) <= 0 then 4 else 0)))
1: (if (x + ~1) <= 0 then x else (1 + compr(\x.(1 - (x mod (2 - (x mod ~3)))),x)))
1: (if (x + ~1) <= 0 then x else (1 + compr(\x.(loop(\(x,i).(x * (x - i)),2,(x div 2)) mod (x + 1)),x)))
1: (if (x + ~1) <= 0 then x else (2 - ((~2x + 2) div 9)))
1: (if (x + ~1) <= 0 then x else (2 - ((~x2 + 2x) div 3)))
1: (if (x + ~1) <= 0 then x else (~1 + ((1 + ((1 + (x mod (2 * (1 + (x mod (2 * (1 + (x mod (1 + (x div 3)))))))))) mod (x + 1))) mod 3)))
1: (if (x + ~1) <= 0 then x else (~2 + loop(\(x,i).4x,x,2)))
1: (if (x + ~1) <= 0 then x else 8)
1: (if (x + ~1) <= 0 then x else (5x + 10))
1: (if (x + ~1) <= 0 then x else (2 * (1 + ((1 + (if ((x + 1) mod (3 - (x mod 2))) <= 0 then x else 1)) div 2))))
1: (if (x + ~1) <= 0 then x else ((1 + ((x mod (1 + (x div 4))) div 2)) * (1 + (x mod 2))))
1: (if (x + ~1) <= 0 then x else (4x2 + ~8x + 4))
1: (if (x + ~1) <= 0 then x else ((x + 1) * (x mod 2)))
1: (if (x + ~1) <= 0 then x else (2 * (if (x mod 2) <= 0 then 8 else 1)))
1: (if (x + ~1) <= 0 then x else ((x - ((x * (x div 2)) div 3)) div 2))
1: (if (x + ~1) <= 0 then x else ((2 * (4 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3))
1: (if (x + ~1) <= 0 then x else ((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3))
1: (if (x + ~1) <= 0 then x else ((x2 + 2x) div 4))
1: (if (x + ~1) <= 0 then x else (((x6 + ~2x4 + x2) div 2) div 3))
1: (if (x + ~1) <= 0 then x else ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2))
1: (if (x + ~1) <= 0 then x else (((x div 2) mod 3) div 2))
1: (if (x + ~1) <= 0 then x else (((x div 3) mod 3) div 2))
1: (if (x + ~1) <= 0 then x else (((x2 + ~1) div 2) mod 3))
1: (if (x + ~1) <= 0 then x else ((((x mod 3) - (x div 2)) div 2) mod 2))
1: (if (x + ~1) <= 0 then x else (((x + ~1) div (2 + ((x div 2) div 3))) mod 2))
1: (if (x + ~1) <= 0 then x else ((((x2 + (x div 2)) div 2) div 3) mod 2))
1: (if (x + ~1) <= 0 then x else ((x div 2) mod (1 + (2 * (x mod 2)))))
1: (if (x + ~1) <= 0 then x else (((x + 1) mod 8) mod 3))
1: (if (x + ~1) <= 0 then x else (if (10 mod (x + 1)) <= 0 then 2 else 1))
1: (if (x + ~1) <= 0 then x else (if ((x * (x div 2)) mod 4) <= 0 then 2 else 1))
1: (if (x + ~1) <= 0 then x else (if (x mod 2) <= 0 then 1 else (if ((x + 1) mod 8) <= 0 then 2 else 0)))
1: (if (x + ~1) <= 0 then x else (if (x mod 2) <= 0 then 2 else 0))
1: (if (x + ~1) <= 0 then x else (if (x mod 2) <= 0 then (2x + 1) else 0))
1: (if (x + ~1) <= 0 then x else (if (x mod 2) <= 0 then (2x + ~1) else 2))
1: (if (x + ~1) <= 0 then x else (if (x mod (2 + ((x * (x div 2)) mod 2))) <= 0 then 1 else 2))
1: (if (x + ~1) <= 0 then x else loop(\(x,i).(x + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)),x,x))
1: (if (x + ~1) <= 0 then x else loop(\(x,i).(~x + i),x,2))
1: (if (x + ~1) <= 0 then x else loop(\(x,i).(2x * (~1 + (2 * i))),(x + ~1),2))
1: (if (x + ~1) <= 0 then x else loop(\(x,i).x2,1,(2x + 4)))
1: (if (x + ~1) <= 0 then x else loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x + ~2),1))
1: (if (x + ~1) <= 0 then x else compr(\x.(loop(\(x,i).(~2x + 2),x,2) mod (x + 2)),x))
1: (if (x + ~1) <= 0 then i else 4)
1: (if (x + ~1) <= 0 then i else x2)
1: (if (x + ~1) <= 0 then i else x)
1: (if (x + ~2) <= 0 then 0 else ((x + 1) - (((~x + ~1) + (x mod 2)) * (x div 2))))
1: (if (x + ~2) <= 0 then 0 else (x + (x2 div 4)))
1: (if (x + ~2) <= 0 then 0 else (2 + (x mod 2)))
1: (if (x + ~2) <= 0 then 0 else (1 - ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)))
1: (if (x + ~2) <= 0 then 0 else (2 - ((~x + 1) div 3)))
1: (if (x + ~2) <= 0 then 0 else ((x div ~3) mod 2))
1: (if (x + ~2) <= 0 then 0 else ((x div (~2 + (x mod ~2))) mod 2))
1: (if (x + ~2) <= 0 then 0 else (x mod 10))
1: (if (x + ~2) <= 0 then 0 else loop(\(x,i).(x + (x div 2)),(x + ~1),2))
1: (if (x + ~2) <= 0 then 0 else loop(\(x,i).(2x * (~1 + (2 * i))),(x + ~2),x))
1: (if (x + ~2) <= 0 then 0 else loop(\(x,i).(x * i),x,3))
1: (if (x + ~2) <= 0 then 0 else compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x))
1: (if (x + ~2) <= 0 then 1 else (4 + ((x div 2) div 3)))
1: (if (x + ~2) <= 0 then 1 else (x2 + ~2x + 2))
1: (if (x + ~2) <= 0 then 1 else (2 + (3 * (if (~2 + (x div 3)) <= 0 then 0 else 2))))
1: (if (x + ~2) <= 0 then 1 else (2x + 1))
1: (if (x + ~2) <= 0 then 1 else (2 + ((x + 1) div 5)))
1: (if (x + ~2) <= 0 then 1 else (2 + (2x div 9)))
1: (if (x + ~2) <= 0 then 1 else (2 + (x2 div 17)))
1: (if (x + ~2) <= 0 then 1 else (2 + ((x div 2) div 3)))
1: (if (x + ~2) <= 0 then 1 else (2 + (x div 2)))
1: (if (x + ~2) <= 0 then 1 else (2 + ((x div 2) mod 2)))
1: (if (x + ~2) <= 0 then 1 else (1 + (if (~2 + (x mod 4)) <= 0 then x else 3)))
1: (if (x + ~2) <= 0 then 1 else (x + (if (x mod (1 + i)) <= 0 then 2 else 0)))
1: (if (x + ~2) <= 0 then 1 else (2 + (if (x mod 8) <= 0 then 2 else 0)))
1: (if (x + ~2) <= 0 then 1 else ~x)
1: (if (x + ~2) <= 0 then 1 else (2 - ((~1 + (x div 2)) div 2)))
1: (if (x + ~2) <= 0 then 1 else ((x + ~2) + ((x mod 3) div 2)))
1: (if (x + ~2) <= 0 then 1 else (x2 + ~1))
1: (if (x + ~2) <= 0 then 1 else (~1 + loop(\(x,i).(6x * (~1 + (2 * i))),x,1)))
1: (if (x + ~2) <= 0 then 1 else (~2 + loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1)))
1: (if (x + ~2) <= 0 then 1 else ((x + ~2) - (x div 4)))
1: (if (x + ~2) <= 0 then 1 else ((x + 1) - (((~x3 + x) div 2) div 3)))
1: (if (x + ~2) <= 0 then 1 else (4x + 4))
1: (if (x + ~2) <= 0 then 1 else (7x + ~14))
1: (if (x + ~2) <= 0 then 1 else (10x2 + 5))
1: (if (x + ~2) <= 0 then 1 else (3 * (1 + (2 * (if (~2 + (x div 3)) <= 0 then 0 else 2)))))
1: (if (x + ~2) <= 0 then 1 else (5 * (1 + (x div 8))))
1: (if (x + ~2) <= 0 then 1 else (2 * (1 + (if (x + ~4) <= 0 then 0 else 2))))
1: (if (x + ~2) <= 0 then 1 else (3x + 6))
1: (if (x + ~2) <= 0 then 1 else (2 * (1 - ((x3 div 8) mod 2))))
1: (if (x + ~2) <= 0 then 1 else (~3x + 6))
1: (if (x + ~2) <= 0 then 1 else (8x + 6))
1: (if (x + ~2) <= 0 then 1 else (x4 + x3 + ~x + ~1))
1: (if (x + ~2) <= 0 then 1 else (2x + ~2))
1: (if (x + ~2) <= 0 then 1 else (3 * (x - (if (x + ~3) <= 0 then 2 else 1))))
1: (if (x + ~2) <= 0 then 1 else 16)
1: (if (x + ~2) <= 0 then 1 else (4 * (1 + (2 * (x div 2)))))
1: (if (x + ~2) <= 0 then 1 else (4x2 + 2x))
1: (if (x + ~2) <= 0 then 1 else (x5 + x3))
1: (if (x + ~2) <= 0 then 1 else (2x * (x div 2)))
1: (if (x + ~2) <= 0 then 1 else (4 * (x mod 2)))
1: (if (x + ~2) <= 0 then 1 else ((x2 + ~x) * i))
1: (if (x + ~2) <= 0 then 1 else (x * (x div 4)))
1: (if (x + ~2) <= 0 then 1 else (2 * (x mod 2)))
1: (if (x + ~2) <= 0 then 1 else ((x + (x mod 2)) div 3))
1: (if (x + ~2) <= 0 then 1 else ((x + 1) div 7))
1: (if (x + ~2) <= 0 then 1 else ((x + 2) div (2 + (x div 4))))
1: (if (x + ~2) <= 0 then 1 else ((x - ((x div 2) mod 2)) div 2))
1: (if (x + ~2) <= 0 then 1 else ((x2 + ~x) div (x + 3)))
1: (if (x + ~2) <= 0 then 1 else (((x + ~1) * (x div 3)) div 2))
1: (if (x + ~2) <= 0 then 1 else (x2 div (2x + 5)))
1: (if (x + ~2) <= 0 then 1 else ((x div 2) div 5))
1: (if (x + ~2) <= 0 then 1 else (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))
1: (if (x + ~2) <= 0 then 1 else ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2))
1: (if (x + ~2) <= 0 then 1 else ((x mod (2 + (x mod 2))) div 2))
1: (if (x + ~2) <= 0 then 1 else (loop(\(x,i).(x * (~x + i)),2,x) div 2))
1: (if (x + ~2) <= 0 then 1 else (loop(\(x,i).4x,((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2),1) div 3))
1: (if (x + ~2) <= 0 then 1 else (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) div (x + 1)))
1: (if (x + ~2) <= 0 then 1 else (x div 4))
1: (if (x + ~2) <= 0 then 1 else (x div (3 + (x div 3))))
1: (if (x + ~2) <= 0 then 1 else (x div 7))
1: (if (x + ~2) <= 0 then 1 else (x div 9))
1: (if (x + ~2) <= 0 then 1 else (x div 8))
1: (if (x + ~2) <= 0 then 1 else (x div (2 * (2 - (x mod 2)))))
1: (if (x + ~2) <= 0 then 1 else ((x + (if (x mod 2) <= 0 then x else 2)) mod 3))
1: (if (x + ~2) <= 0 then 1 else ((2x div (2 + (x div 4))) mod 2))
1: (if (x + ~2) <= 0 then 1 else ((x div (1 + ((~x + 1) mod 3))) mod 2))
1: (if (x + ~2) <= 0 then 1 else ((x div (2 + ((~x + 1) mod 3))) mod 2))
1: (if (x + ~2) <= 0 then 1 else (x mod (1 + (x div 4))))
1: (if (x + ~2) <= 0 then 1 else (if (x mod 3) <= 0 then x else 0))
1: (if (x + ~2) <= 0 then 1 else (if (x mod (2 + (x mod 4))) <= 0 then 1 else 0))
1: (if (x + ~2) <= 0 then 1 else loop(\(x,i).x2,(x + ~2),loop(\(x,i).(x * i),x,(x + 1))))
1: (if (x + ~2) <= 0 then 1 else i)
1: (if (x + ~2) <= 0 then 2 else (1 + (4 * ((x + ~1) div 2))))
1: (if (x + ~2) <= 0 then 2 else (x + (x div 2)))
1: (if (x + ~2) <= 0 then 2 else (x2 + ~1))
1: (if (x + ~2) <= 0 then 2 else 8)
1: (if (x + ~2) <= 0 then 2 else (x2 + 2x))
1: (if (x + ~2) <= 0 then 2 else (8x2 + 8x))
1: (if (x + ~2) <= 0 then 2 else (x2 * (x div 2)))
1: (if (x + ~2) <= 0 then 2 else x3)
1: (if (x + ~2) <= 0 then 2 else ((x + ((x div 2) mod 2)) div 2))
1: (if (x + ~2) <= 0 then 2 else (2x div 3))
1: (if (x + ~2) <= 0 then 2 else (2x div (2 + (x div 2))))
1: (if (x + ~2) <= 0 then 2 else (x2 div 2))
1: (if (x + ~2) <= 0 then 2 else (((x + 1) div 2) div 2))
1: (if (x + ~2) <= 0 then 2 else ((x div 2) div 3))
1: (if (x + ~2) <= 0 then 2 else (x div 2))
1: (if (x + ~2) <= 0 then 2 else (x div 3))
1: (if (x + ~2) <= 0 then 2 else (if (x mod 2) <= 0 then x else (2x + ~4)))
1: (if (x + ~2) <= 0 then 3 else 2x)
1: (if (x + ~2) <= 0 then (3x + 1) else 8)
1: (if (x + ~2) <= 0 then (x + (3 * (1 + (x mod 2)))) else 0)
1: (if (x + ~2) <= 0 then (4x2 + ~4x + 1) else 0)
1: (if (x + ~2) <= 0 then (x2 + 1) else 0)
1: (if (x + ~2) <= 0 then (x2 + 1) else x)
1: (if (x + ~2) <= 0 then (2 + (x div 2)) else 0)
1: (if (x + ~2) <= 0 then (x + (x div 2)) else loop(\(x,i).x3,x,3))
1: (if (x + ~2) <= 0 then (2 + (if x <= 0 then 1 else 2)) else x)
1: (if (x + ~2) <= 0 then (2x + (if x <= 0 then 1 else x)) else 1)
1: (if (x + ~2) <= 0 then (x + 1) else (x2 + 2x))
1: (if (x + ~2) <= 0 then (x + 1) else (x3 + ~3x2 + 2x))
1: (if (x + ~2) <= 0 then ~7 else 0)
1: (if (x + ~2) <= 0 then (~x + 1) else (if (x mod 8) <= 0 then 1 else 0))
1: (if (x + ~2) <= 0 then (20 - (x div 2)) else 1)
1: (if (x + ~2) <= 0 then (2x2 + ~1) else 1)
1: (if (x + ~2) <= 0 then (x2 + ~1) else x)
1: (if (x + ~2) <= 0 then (~x + (x mod 2)) else 0)
1: (if (x + ~2) <= 0 then (x + ~2) else (2 + ((2 * (x div 2)) div 3)))
1: (if (x + ~2) <= 0 then ((x + 1) - (2 * (x mod 2))) else loop(\(x,i).(2x + (i mod 2)),x,0))
1: (if (x + ~2) <= 0 then (3x + 3) else (x div 3))
1: (if (x + ~2) <= 0 then (2x2 + ~x) else 0)
1: (if (x + ~2) <= 0 then 8x else (x + ~1))
1: (if (x + ~2) <= 0 then 3x2 else 0)
1: (if (x + ~2) <= 0 then 2x else 5)
1: (if (x + ~2) <= 0 then 2x else (2x3 + 1))
1: (if (x + ~2) <= 0 then 2x else loop(\(x,i).(2x + 2),x,0))
1: (if (x + ~2) <= 0 then x2 else 0)
1: (if (x + ~2) <= 0 then x2 else (x + 1))
1: (if (x + ~2) <= 0 then x2 else 16)
1: (if (x + ~2) <= 0 then x2 else loop(\(x,i).x2,1,loop(\(x,i).(x + (i * i)),(2x + 1),0)))
1: (if (x + ~2) <= 0 then (x div 2) else 2)
1: (if (x + ~2) <= 0 then (x div 2) else (x + 2))
1: (if (x + ~2) <= 0 then (x div 2) else (3x + ~6))
1: (if (x + ~2) <= 0 then (x div 2) else ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2))
1: (if (x + ~2) <= 0 then ((x + 1) mod 2) else (if (x mod 6) <= 0 then (1 + (x div 4)) else 0))
1: (if (x + ~2) <= 0 then (x mod 2) else 2)
1: (if (x + ~2) <= 0 then (x mod 2) else ((2 * (x mod 2)) + ((x + 1) div 2)))
1: (if (x + ~2) <= 0 then (if (x mod 2) <= 0 then (x + 3) else x) else 0)
1: (if (x + ~2) <= 0 then (if x <= 0 then 1 else 2) else 0)
1: (if (x + ~2) <= 0 then (if x <= 0 then 1 else 4) else 0)
1: (if (x + ~2) <= 0 then (if x <= 0 then 1 else 8x) else 2)
1: (if (x + ~2) <= 0 then (if x <= 0 then 1 else 4x) else (((x + 1) div 2) div 2))
1: (if (x + ~2) <= 0 then (if x <= 0 then 1 else 2x) else 0)
1: (if (x + ~2) <= 0 then (if x <= 0 then 1 else x) else 0)
1: (if (x + ~2) <= 0 then (if x <= 0 then 1 else x) else (x mod 2))
1: (if (x + ~2) <= 0 then loop(\(x,i).(x * (2 + (i mod 2))),x,1) else 0)
1: (if (x + ~2) <= 0 then loop(\(x,i).2x,x,2) else loop(\(x,i).x2,2,(2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))))
1: (if (x + ~2) <= 0 then x else 4)
1: (if (x + ~2) <= 0 then x else 5)
1: (if (x + ~2) <= 0 then x else (x + 7))
1: (if (x + ~2) <= 0 then x else (x + 5))
1: (if (x + ~2) <= 0 then x else (4 + ((2 * (x div 2)) div 3)))
1: (if (x + ~2) <= 0 then x else (2 + (((((x + 1) div 2) div 2) div 2) + (x div 4))))
1: (if (x + ~2) <= 0 then x else (3 + ((x div 2) div 3)))
1: (if (x + ~2) <= 0 then x else (x + 4))
1: (if (x + ~2) <= 0 then x else (4 - ((x - (x div 4)) mod 2)))
1: (if (x + ~2) <= 0 then x else (1 + (2 * (1 + (x div 8)))))
1: (if (x + ~2) <= 0 then x else (x2 + 2x + 1))
1: (if (x + ~2) <= 0 then x else (1 + ((x + (x div 4)) div 3)))
1: (if (x + ~2) <= 0 then x else (2 + ((x - ((x div 3) mod 2)) div 2)))
1: (if (x + ~2) <= 0 then x else (4x + ((x2 + ~x) div 4)))
1: (if (x + ~2) <= 0 then x else (2 + (x div 2)))
1: (if (x + ~2) <= 0 then x else (2 + (((x + 1) * (x div 2)) mod 2)))
1: (if (x + ~2) <= 0 then x else (1 + (if (x mod 12) <= 0 then 0 else x)))
1: (if (x + ~2) <= 0 then x else (x + 2))
1: (if (x + ~2) <= 0 then x else (2 - ((~x + ((x div 2) mod 2)) div 2)))
1: (if (x + ~2) <= 0 then x else (~3 + (2 * (x + (x div 2)))))
1: (if (x + ~2) <= 0 then x else (2x4 + 4x + ~1))
1: (if (x + ~2) <= 0 then x else (2x + ~1))
1: (if (x + ~2) <= 0 then x else (~1 + loop(\(x,i).(x + (x2 div 3)),x,2)))
1: (if (x + ~2) <= 0 then x else ((x + 2) - ((~x + 2) div 5)))
1: (if (x + ~2) <= 0 then x else (x - ((x + 2) div ~5)))
1: (if (x + ~2) <= 0 then x else (x - (x div ~4)))
1: (if (x + ~2) <= 0 then x else (x - (x div ~5)))
1: (if (x + ~2) <= 0 then x else (x3 + 3x2 + 4x + 2))
1: (if (x + ~2) <= 0 then x else (2 * (2x - (x mod 4))))
1: (if (x + ~2) <= 0 then x else (4x3 + 8x2 + 8x + 4))
1: (if (x + ~2) <= 0 then x else (2x2 + 4x))
1: (if (x + ~2) <= 0 then x else (6x + ~12))
1: (if (x + ~2) <= 0 then x else ((x + ((x div 2) mod 2)) div 2))
1: (if (x + ~2) <= 0 then x else ((x + 2) div 3))
1: (if (x + ~2) <= 0 then x else (x2 div 3))
1: (if (x + ~2) <= 0 then x else (x mod 2))
1: (if (x + ~2) <= 0 then x else (if ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) <= 0 then (2 * (1 + (x div 5))) else 1))
1: (if (x + ~2) <= 0 then x else (if ((x + 2) mod 8) <= 0 then 2 else 1))
1: (if (x + ~2) <= 0 then x else (if (x mod 2) <= 0 then 4 else 1))
1: (if (x + ~2) <= 0 then x else (if (x mod 2) <= 0 then (((x + ~1) div 2) mod 4) else 1))
1: (if (x + ~2) <= 0 then x else (if (x mod 4) <= 0 then 0 else 1))
1: (if (x + ~2) <= 0 then x else loop(\(x,i).3x,x,loop(\(x,i).10x,x,2)))
1: (if (x + ~2) <= 0 then x else loop(\(x,i).(x * (1 + (2 * i))),(x div 2),2))
1: (if (x + ~2) <= 0 then x else loop(\(x,i).(2x + 4),(x + ~2),1))
1: (if (x + ~2) <= 0 then x else loop(\(x,i).(x * (i - (2 * (i * i)))),2x,1))
1: (if (x + ~2) <= 0 then x else loop(\(x,i).x3,x,3))
1: (if (x + ~2) <= 0 then i else 4)
1: (if (x + ~3) <= 0 then 1 else 6)
1: (if (x + ~3) <= 0 then 1 else 8)
1: (if (x + ~3) <= 0 then 1 else 10)
1: (if (x + ~3) <= 0 then 2 else 0)
1: (if (x + ~3) <= 0 then 2 else (x2 + 2x))
1: (if (x + ~3) <= 0 then (x + 3) else (2x2 + 2x))
1: (if (x + ~3) <= 0 then (x + 1) else (1 + ((x + ~1) mod 3)))
1: (if (x + ~3) <= 0 then (x + 1) else ((x + 2) * loop(\(x,i).(2x + 2),x,2)))
1: (if (x + ~3) <= 0 then (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) else (x + 16))
1: (if (x + ~3) <= 0 then 2x else 0)
1: (if (x + ~3) <= 0 then x else (4 + (x div 7)))
1: (if (x + ~3) <= 0 then x else (1 + (x mod (2 + (x mod 2)))))
1: (if (x + ~3) <= 0 then x else (x + 1))
1: (if (x + ~3) <= 0 then x else (x + ~3))
1: (if (x + ~3) <= 0 then x else (4x + 10))
1: (if (x + ~3) <= 0 then x else 2x)
1: (if (x + ~4) <= 0 then 0 else (1 + (x mod (1 + (x mod 4)))))
1: (if (x + ~4) <= 0 then 0 else loop(\(x,i).(x * (x - i)),2,(x + ~1)))
1: (if (x + ~4) <= 0 then 1 else (x + ~2))
1: (if (x + ~4) <= 0 then 1 else (x + ~4))
1: (if (x + ~4) <= 0 then 1 else ((~x + 1) div (2 + (x div 2))))
1: (if (x + ~4) <= 0 then 1 else (x div 2))
1: (if (x + ~4) <= 0 then 1 else (x mod (2 * (2 - (x mod 2)))))
1: (if (x + ~4) <= 0 then 1 else (if ((x - (x div 4)) mod 5) <= 0 then 0 else 2))
1: (if (x + ~4) <= 0 then 2 else (x + ~3))
1: (if (x + ~4) <= 0 then 2 else (x div 4))
1: (if (x + ~4) <= 0 then 3 else ((x + 1) div 2))
1: (if (x + ~4) <= 0 then 3 else x)
1: (if (x + ~4) <= 0 then 9 else 2x)
1: (if (x + ~4) <= 0 then (x + 1) else (1 + ((x + ~1) mod 4)))
1: (if (x + ~4) <= 0 then (x + 1) else (2x2 + ~1))
1: (if (x + ~4) <= 0 then (x + 1) else (2x + ~4))
1: (if (x + ~4) <= 0 then (1 - (2 * (x mod 2))) else 0)
1: (if (x + ~4) <= 0 then (~2 + (((x + ~1) + (5 * (1 + (x div 2)))) div 2)) else 2)
1: (if (x + ~4) <= 0 then (x + ~2) else 1)
1: (if (x + ~4) <= 0 then x2 else (2x2 + ~1))
1: (if (x + ~4) <= 0 then (if x <= 0 then 0 else 1) else 8)
1: (if (x + ~4) <= 0 then x else (x + 5))
1: (if (x + ~4) <= 0 then x else (x + 4))
1: (if (x + ~4) <= 0 then x else (x + 8))
1: (if (x + ~4) <= 0 then x else (x2 + 1))
1: (if (x + ~4) <= 0 then x else (2 - ((~x + 1) div 3)))
1: (if (x + ~7) <= 0 then (2 + i) else 1)
1: (if (x - ((if (x mod 2) <= 0 then 1 else i) + i)) <= 0 then 1 else 0)
1: (if ((x + ~1) - i) <= 0 then (2x + 2) else ~2)
1: (if (x + ~6) <= 0 then 1 else 4)
1: (if (x + ~6) <= 0 then 2 else 1)
1: (if (x + ~6) <= 0 then (1 - (2 * (x mod 2))) else 0)
1: (if (x + ~8) <= 0 then 1 else (~2 + (x div 2)))
1: (if (x + ~8) <= 0 then 9 else x)
1: (if (x + ~8) <= 0 then x else (x + 21))
1: (if (x + ~12) <= 0 then 0 else (1 + (x mod 2)))
1: (if (x + ~12) <= 0 then 1 else ((x + ~2) div 3))
1: (if (x + ~12) <= 0 then 1 else (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))
1: (if (x + ~12) <= 0 then 2 else 0)
1: (if (x + ~12) <= 0 then (2 * (x mod 2)) else 1)
1: (if (x + ~12) <= 0 then x else 3)
1: (if (x + ~12) <= 0 then x else 4)
1: (if (x + ~12) <= 0 then x else (x + 9))
1: (if (x + ~12) <= 0 then x else (x + 3))
1: (if (x + ~12) <= 0 then x else (x + 2))
1: (if (x + ~10) <= 0 then 0 else 2)
1: (if (x + ~10) <= 0 then 0 else (x + 1))
1: (if (x + ~10) <= 0 then 1 else x)
1: (if (x + ~10) <= 0 then 2 else 0)
1: (if (x + ~10) <= 0 then x else 0)
1: (if (x + ~10) <= 0 then x else (x + 3))
1: (if (x - (2 * (2 + (x div (1 + (x mod 4)))))) <= 0 then x else 1)
1: (if (x - (3 * (~2 + (x div 2)))) <= 0 then 2 else 1)
1: (if (x - (4 * (~1 + (x div 3)))) <= 0 then 2 else 1)
1: (if (x - (5 * (((x + ~1) div 2) div 2))) <= 0 then 1 else (x + 1))
1: (if (x - (2 * ((~x + 2) mod 5))) <= 0 then 0 else 1)
1: (if (x - (2 * i)) <= 0 then 0 else 1)
1: (if (x - (((x div 2) * (x div 2)) div 3)) <= 0 then 1 else 0)
1: (if (x - (4 mod (x + 2))) <= 0 then 2 else 1)
1: (if (x - ((2x2 + ~1) mod (x + 4))) <= 0 then 0 else 1)
1: (if (x - ((x3 + x) mod (x + 8))) <= 0 then 0 else 1)
1: (if (x - (x3 mod (x + 8))) <= 0 then 1 else 2)
1: (if (x - (x2 mod (x + 5))) <= 0 then 0 else 2)
1: (if (x - (x2 mod (x + 5))) <= 0 then 1 else 0)
1: (if (x - (x2 mod (x + 5))) <= 0 then 2 else 0)
1: (if (x - (x2 mod (x + 5))) <= 0 then (x mod 2) else 2)
1: (if (x - (x2 mod (x + 4))) <= 0 then 0 else 1)
1: (if (x - (x2 mod (x + 8))) <= 0 then 0 else 2)
1: (if (x - (x2 mod (x + 8))) <= 0 then 1 else 0)
1: (if (x - (((x2 + ~x) div 2) mod (x + 2))) <= 0 then 1 else 2)
1: (if (x - i) <= 0 then 0 else 2)
1: (if (x - i) <= 0 then 2x else 0)
1: (if (x - i) <= 0 then 2x else (x + ~1))
1: (if (~1 + i) <= 0 then 1 else (2x * (~1 + (2 * i))))
1: (if (~1 + i) <= 0 then 2 else (x2 div 2))
1: (if (~1 + i) <= 0 then x else i)
1: (if (~2 + i) <= 0 then 1 else 3x)
1: (if (~2 + i) <= 0 then 1 else i)
1: (if (~2 + i) <= 0 then 2 else 1)
1: (if (~2 + i) <= 0 then x else 2)
1: (if (~x + i) <= 0 then 0 else 1)
1: (if (~x + i) <= 0 then 1 else 0)
1: (if (~x + i) <= 0 then 1 else 2x)
1: (if (~x + i) <= 0 then 10 else 1)
1: (if (~x + i) <= 0 then i else x)
1: (if (~x2 + 4x) <= 0 then 1 else 2)
1: (if (~x2 + 4x) <= 0 then (x + ~1) else 1)
1: (if (x * (4 - (x div 2))) <= 0 then (x mod 2) else 1)
1: (if (~x2 + 2x) <= 0 then (x mod 2) else 2)
1: (if (~x2 + 2x) <= 0 then x else 3)
1: (if ((x + ~2) * (~1 + (x mod 3))) <= 0 then 0 else 1)
1: (if (2x + ~4) <= 0 then x else (~1 + ((x mod 2) + loop(\(x,i).(2x - (i mod 2)),(x div 2),2))))
1: (if (x2 + ~6x + 8) <= 0 then 1 else 0)
1: (if ((x + ~4) * (x mod 3)) <= 0 then 1 else 2)
1: (if (x2 + ~12x + 32) <= 0 then 0 else 1)
1: (if (x2 + ~12x + 32) <= 0 then 2 else 1)
1: (if (x * (x - i)) <= 0 then (x + ~1) else 1)
1: (if (x * (~2 + i)) <= 0 then x else 0)
1: (if (x * ((x + 3) mod 8)) <= 0 then 1 else 0)
1: (if (2 * ((2x + 1) mod (1 + (2x mod (2 + (x div 4)))))) <= 0 then (x + 1) else 0)
1: (if (x * ((x + 1) mod 4)) <= 0 then (x div 3) else 1)
1: (if (x * ((x + 1) mod 5)) <= 0 then 0 else 1)
1: (if (x * ((x + 1) mod 8)) <= 0 then 0 else 1)
1: (if (x * ((x + 1) mod 8)) <= 0 then 1 else 0)
1: (if (x * ((x + 2) mod 4)) <= 0 then 0 else 1)
1: (if (((x + 2) mod 6) * (x div 2)) <= 0 then 0 else 1)
1: (if (((x + 2) mod 6) * (x div 2)) <= 0 then 1 else 0)
1: (if (x * ((x + ~1) mod 8)) <= 0 then 1 else 0)
1: (if (x * (((~1 + (x div 2)) div 3) mod 2)) <= 0 then 2 else 0)
1: (if ((x + ~2) * (x mod 4)) <= 0 then 0 else 1)
1: (if ((x + ~2) * (x mod 4)) <= 0 then 1 else 0)
1: (if ((x mod 10) * (x div 2)) <= 0 then (x + 1) else 0)
1: (if (x * loop(\(x,i).x2,(x + ~2),x5)) <= 0 then x else 2)
1: (if 2x <= 0 then 1 else (1 + ((2 * (1 + ((1 + (if (1 - ((x2 + x) mod 5)) <= 0 then x else 1)) div 2))) div 3)))
1: (if 2x <= 0 then 1 else (~1 + ((2 * ((x + 2) + ((2 * ((x + 1) + (2 * (4x + ((x mod (1 + (x div 2))) div 2))))) div 3))) div 3)))
1: (if 2x <= 0 then 1 else (((~x + (if x <= 0 then 1 else (2 * (if x <= 0 then 1 else ((x2 + 2) + loop(\(x,i).(2 * (x + (x div 2))),x,1)))))) div 2) div 2))
1: (if 2x <= 0 then 2 else ((((5 * ((x2 + 3x + 2) div 2)) + (x div 5)) div 2) div 2))
1: (if 2x <= 0 then 2 else loop(\(x,i).(x * (7 - i)),x,1))
1: (if 2x <= 0 then x else (1 + loop(\(x,i).(x * i),((((x div 2) * (x div 2)) div 2) + (if x <= 0 then 1 else 2x)),1)))
1: (if 2x <= 0 then x else (~1 + loop(\(x,i).(x + (if (~2 + (x div 4)) <= 0 then 1 else 0)),x,x)))
1: (if 2x <= 0 then x else (if x <= 0 then 1 else (2 * (1 + ((1 + (((1 + ((x * ((2x + 4) + loop(\(x,i).(2x - ((~1 + i) div 2)),x,1))) div 2)) div 2) div 2)) div 2)))))
1: (if x2 <= 0 then 0 else (18x + 16))
1: (if x2 <= 0 then 1 else (1 + (2 * loop(\(x,i).4x,(x + ~2),3))))
1: (if x2 <= 0 then 1 else (x * (loop(\(x,i).x6,(x + ~1),(x * (1 + loop(\(x,i).2x,x,2)))) div 2)))
1: (if x2 <= 0 then 1 else ((x + ((x + ((1 + (((x + 1) * (x - (((~x2 + x) div 2) div 3))) div 2)) div 2)) div 2)) div 2))
1: (if x2 <= 0 then 1 else ((1 + ((loop(\(x,i).2x,x,(loop(\(x,i).(2x + 2),x,1) div 2)) div loop(\(x,i).3x,x,1)) div 2)) div 2))
1: (if x2 <= 0 then 1 else loop(\(x,i).x3,1,(12x + 16)))
1: (if x2 <= 0 then 2 else loop(\(x,i).x2,x,(1 - (2 * loop(\(x,i).(x * i),x2,2)))))
1: (if (x * i) <= 0 then 1 else (x + ~1))
1: (if (x * i) <= 0 then x else 0)
1: (if (2 div (x2 + ~2)) <= 0 then 1 else 0)
1: (if (2 div (x2 + ~2)) <= 0 then (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) else 1)
1: (if ((2 + (loop(\(x,i).4x,x,(2 - ((2x + 2) mod 5))) div 3)) div 3) <= 0 then 1 else 2)
1: (if ((1 + loop(\(x,i).x2,x,loop(\(x,i).(x * i),x,1))) div 3) <= 0 then 1 else 2x)
1: (if ((~1 + (x div 2)) div (~1 + (2 * (x mod 4)))) <= 0 then 0 else 1)
1: (if ((x + ~1) div (~1 + (2 * (x mod 4)))) <= 0 then 2 else 1)
1: (if ((x * (2 - (x mod 5))) div 2) <= 0 then 1 else 2)
1: (if ((x * (x mod 2)) div 2) <= 0 then (1 + (if (~1 + (x mod 3)) <= 0 then x else 2)) else 1)
1: (if ((x * (x mod 2)) div 2) <= 0 then x else 2)
1: (if (x2 div (1 + i)) <= 0 then 2x else 0)
1: (if (((x + 1) div 2) div 2) <= 0 then 1 else (if x <= 0 then 1 else (if ((x + 1) mod 9) <= 0 then (x + 1) else 0)))
1: (if (((2x * i) div (1 + i)) div (1 + i)) <= 0 then i else 0)
1: (if (((x2 + 1) mod (2 + (x div 2))) div 2) <= 0 then 1 else 2)
1: (if (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) <= 0 then 1 else (if ((x div 2) mod 2) <= 0 then (x div 2) else 2))
1: (if (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) <= 0 then (1 + (3 * ((2x + 1) div (3 + (x div 4))))) else 1)
1: (if (((~x + (((x + ~1) div 2) mod 2)) mod 5) div 2) <= 0 then 1 else 0)
1: (if (((x + ~1) mod (3 + (x div 2))) div 2) <= 0 then 1 else 0)
1: (if (((~3x + 3) mod (1 + (x div 2))) div 2) <= 0 then 0 else 1)
1: (if (((2x + ~8) mod (x + 1)) div 2) <= 0 then 1 else 0)
1: (if (((4 * (2 + (x mod 2))) mod (1 + (x div 2))) div 2) <= 0 then 1 else 0)
1: (if ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) <= 0 then 1 else (2 + (x div (2 + (x mod 5)))))
1: (if ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) <= 0 then 1 else ((x div 2) - (2 * ((x div 2) mod 2))))
1: (if ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) <= 0 then 1 else ((x + ~2) - (x div (1 + (x mod 5)))))
1: (if ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) <= 0 then 1 else (2 * (2 + (x div 5))))
1: (if ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) <= 0 then 1 else (2 * ((1 + (x div 2)) div 2)))
1: (if ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) <= 0 then 1 else (((2 - ((x div 2) mod 2)) * (1 + (x div 2))) div 3))
1: (if ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) <= 0 then 1 else (if (x mod 3) <= 0 then 8 else (1 + (x div 2))))
1: (if ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) <= 0 then (1 + ((2x + 1) div (3 + (x div 4)))) else 0)
1: (if ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) <= 0 then (2 * (1 + (x div 5))) else 1)
1: (if ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) <= 0 then (2 * ((2x + 1) div (3 + (x div 4)))) else 0)
1: (if ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) <= 0 then (if x <= 0 then 1 else 0) else 2x)
1: (if ((x2 mod ((x + 2) + (x div 2))) div 2) <= 0 then 1 else 0)
1: (if ((x mod 3) div 2) <= 0 then 1 else (x - (x div 3)))
1: (if ((x mod 3) div 2) <= 0 then 1 else x)
1: (if ((x mod 3) div 2) <= 0 then (1 + (if (x mod 3) <= 0 then 0 else x)) else (2x + ~2))
1: (if ((x mod 3) div 2) <= 0 then (x mod 3) else x)
1: (if ((x mod 3) div 2) <= 0 then x else ((x + 1) div 2))
1: (if ((x mod 3) div 2) <= 0 then x else ((x + 1) div 3))
1: (if ((x mod (1 + ((~x + 2) mod 4))) div 2) <= 0 then 1 else (4 - (x mod 2)))
1: (if ((x mod (2 + (x mod 2))) div 2) <= 0 then 6 else 1)
1: (if ((x mod (2 + (x mod 2))) div 2) <= 0 then (x mod 2) else 4)
1: (if ((x mod (2 + (x mod 3))) div 2) <= 0 then 1 else 4)
1: (if ((if ((x + ~1) mod 3) <= 0 then 1 else x) div 2) <= 0 then (x2 + ~1) else 1)
1: (if (loop(\(x,i).2x2,2x,2) div 2) <= 0 then 1 else (4x + 1))
1: (if (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2) <= 0 then x else 1)
1: (if (x div 2) <= 0 then 0 else (x2 mod (3 + ((x div 2) div 3))))
1: (if (x div 2) <= 0 then 1 else (2 + (x div (2 + i))))
1: (if (x div 2) <= 0 then 1 else ((x + ~1) - ((x div 3) mod 3)))
1: (if (x div 2) <= 0 then 1 else ((4 * (2 + (x mod 2))) - ((if x <= 0 then 2 else x) div 2)))
1: (if (x div 2) <= 0 then 1 else (~5 + ((x2 + ~x) div 2)))
1: (if (x div 2) <= 0 then 1 else ((2 * (1 + (if (x mod 3) <= 0 then (x mod 2) else 2))) mod (x + 1)))
1: (if (x div 2) <= 0 then 2 else ~2)
1: (if (x div 2) <= 0 then 2 else 5x)
1: (if (x div 2) <= 0 then 2 else ((x + ~2) * (x div 3)))
1: (if (x div 2) <= 0 then 4 else 2)
1: (if (x div 2) <= 0 then (1 + (8 * (x mod 2))) else 1)
1: (if (x div 2) <= 0 then (2x + 1) else 8)
1: (if (x div 2) <= 0 then (x + 2) else ~1)
1: (if (x div 2) <= 0 then 2x else (if (x mod 12) <= 0 then 1 else 0))
1: (if (x div 2) <= 0 then ((x + 1) mod 2) else (x - (x2 div (x + 7))))
1: (if (x div 2) <= 0 then x else (1 + (3 * (x + loop(\(x,i).2x,(x + ~5),1)))))
1: (if (x div 2) <= 0 then x else ((2x + 4) + (2x mod 3)))
1: (if (x div 2) <= 0 then x else (2 + (if (x mod 3) <= 0 then 2 else 0)))
1: (if (x div 3) <= 0 then 1 else (2 * (1 + ((x + 2) div (8 + (x div ~4))))))
1: (if (x div 3) <= 0 then 1 else (((x + 1) + ((~x + 1) mod 4)) div 3))
1: (if (x div 3) <= 0 then 2 else ((x * (x mod 2)) div 2))
1: (if (x div 3) <= 0 then ~8x else 1)
1: (if (x div 3) <= 0 then x else (if (x mod (2 + (x mod 2))) <= 0 then 1 else x))
1: (if (x div 4) <= 0 then 0 else ((x - (x div 4)) mod 4))
1: (if (x div 4) <= 0 then 1 else (x - ((x - ((x div 2) div 3)) div 2)))
1: (if (x div 4) <= 0 then 1 else ((~x + 2) div 2))
1: (if (x div 4) <= 0 then 1 else ((~x + 2) div 5))
1: (if (x div 4) <= 0 then 1 else ((2 * (x div 2)) div 3))
1: (if (x div 4) <= 0 then 1 else (if (x mod (2 + (x mod 2))) <= 0 then x else 1))
1: (if (x div 4) <= 0 then 2 else ~2)
1: (if (x div 4) <= 0 then (x + 3) else (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x)))
1: (if (x div 4) <= 0 then (x + 1) else (x2 div 3))
1: (if (x div 4) <= 0 then (1 + i) else 2x)
1: (if (x div 4) <= 0 then (x + ~3) else 1)
1: (if (x div 4) <= 0 then ((x + 1) mod (4 - (x mod 4))) else (x div 2))
1: (if (x div 4) <= 0 then x else (2x + ~2))
1: (if (x div 5) <= 0 then 0 else ~7)
1: (if (x div 5) <= 0 then 1 else (2x2 + ~x))
1: (if (x div 5) <= 0 then (x + 1) else (4x + 8))
1: (if (x div 5) <= 0 then (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) else (36 + (x div 2)))
1: (if (x div 5) <= 0 then x else (3x + ~9))
1: (if (x div 7) <= 0 then 1 else (3x + 3))
1: (if (x div 7) <= 0 then (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) else (x + 12))
1: (if (x div 9) <= 0 then (11x + 11) else (2x + 3))
1: (if (x div (2x + ~5)) <= 0 then 1 else 0)
1: (if (x div 8) <= 0 then 1 else (x div (~2 + ((~x + 2) div 4))))
1: (if (x div 8) <= 0 then x else 3)
1: (if (x div (4 * (2 + (x mod 4)))) <= 0 then 1 else (~1 + (x div 2)))
1: (if (3 mod (1 + (x div 2))) <= 0 then 1 else 0)
1: (if (3 mod (1 + (x div 2))) <= 0 then 3 else 0)
1: (if (3 mod (if x <= 0 then 2 else x)) <= 0 then 2 else 0)
1: (if (4 mod (1 + (x div 2))) <= 0 then 1 else 2)
1: (if (4 mod (x + 1)) <= 0 then 0 else 1)
1: (if (4 mod (x + 1)) <= 0 then 0 else 2)
1: (if (4 mod (x + 1)) <= 0 then 1 else 0)
1: (if (4 mod (x + 1)) <= 0 then 1 else (x div 4))
1: (if (4 mod (x + 1)) <= 0 then (2x + 1) else 6)
1: (if (4 mod (x + 1)) <= 0 then x else (x + 1))
1: (if (4 mod (x + 2)) <= 0 then (x + 2) else 0)
1: (if (4 mod (if x <= 0 then 1 else x)) <= 0 then 0 else (x + 1))
1: (if (4 mod (if x <= 0 then 1 else x)) <= 0 then 1 else 2)
1: (if (4 mod (if x <= 0 then 1 else x)) <= 0 then 2 else 1)
1: (if (5 mod (x + 1)) <= 0 then 0 else 1)
1: (if (5 mod (x + 1)) <= 0 then 1 else 0)
1: (if (5 mod (x + 1)) <= 0 then 2 else 0)
1: (if (5 mod (x + 1)) <= 0 then 2 else 1)
1: (if (5 mod (x + 1)) <= 0 then (x + 2) else 1)
1: (if (5 mod (x + 2)) <= 0 then 2 else 0)
1: (if (5 mod (if (x mod 2) <= 0 then 2 else x)) <= 0 then 2 else 0)
1: (if (5 mod (if x <= 0 then 1 else x)) <= 0 then 1 else 0)
1: (if ((x + 5) mod (1 + (2 * i))) <= 0 then 0 else 1)
1: (if (((x + 1) + (x div 2)) mod 5) <= 0 then 0 else 1)
1: (if ((x + 3) mod 7) <= 0 then 0 else 1)
1: (if ((x + 3) mod 7) <= 0 then 2 else 1)
1: (if ((x + 3) mod 9) <= 0 then 2 else 1)
1: (if ((x + 3) mod (2 + ((~x + 1) mod 4))) <= 0 then 1 else 2)
1: (if ((x + 3) mod (2x + ~5)) <= 0 then 2 else 1)
1: (if ((x + 3) mod 8) <= 0 then 0 else 1)
1: (if ((x + 3) mod 8) <= 0 then x else (x div 2))
1: (if ((x + 4) mod (1 + (2 * i))) <= 0 then 0 else 1)
1: (if (((x + 2) - ((x div 4) mod 2)) mod 3) <= 0 then 1 else 2)
1: (if ((~x + 3) mod (3 + (x div 4))) <= 0 then 0 else 1)
1: (if ((~x + 4) mod (4 + (x mod 2))) <= 0 then x else 0)
1: (if ((~x + 4) mod (2 - (x div ~2))) <= 0 then 1 else 0)
1: (if (((x + 1) - (x div 4)) mod 5) <= 0 then 0 else 1)
1: (if ((3x + 2) mod (1 + ((x + 1) div 2))) <= 0 then 1 else 2)
1: (if (9 mod (x + 1)) <= 0 then 0 else 1)
1: (if (9 mod (x + 1)) <= 0 then 0 else 2)
1: (if (9 mod (x + 1)) <= 0 then 1 else 0)
1: (if (9 mod (x + 1)) <= 0 then 1 else 2)
1: (if ((x2 + x + 1) mod 7) <= 0 then 0 else 1)
1: (if ((x2 + x + 1) mod 7) <= 0 then 2 else 1)
1: (if ((x2 + 2x + 1) mod (2 + (x div 2))) <= 0 then 1 else 0)
1: (if ((2 + ((~x + 1) * (x div 2))) mod 4) <= 0 then 2 else 1)
1: (if ((8x + 1) mod (1 + (x div 2))) <= 0 then 1 else 0)
1: (if ((4x + 1) mod (1 + (x div 2))) <= 0 then 1 else 0)
1: (if ((x3 + 2) mod (1 + (x div 3))) <= 0 then 0 else 1)
1: (if ((x3 + 2) mod (1 + (x div 3))) <= 0 then 1 else 0)
1: (if ((x3 + 2) mod (1 + (x div 3))) <= 0 then 1 else 2)
1: (if ((2 + (x * (x div 2))) mod 4) <= 0 then 1 else 0)
1: (if ((x + (2 * (x mod 2))) mod (2 + (x div 4))) <= 0 then 1 else 0)
1: (if ((x2 + 1) mod (x + 4)) <= 0 then 0 else 1)
1: (if ((x2 + 1) mod (x + 4)) <= 0 then 1 else 0)
1: (if ((x2 + 1) mod (x + 4)) <= 0 then 4 else 0)
1: (if ((x2 + 1) mod (x + 4)) <= 0 then 8 else 1)
1: (if ((x2 + 1) mod (1 + (x div 2))) <= 0 then 0 else 1)
1: (if ((x2 + 1) mod (1 + (x div 2))) <= 0 then 1 else 2)
1: (if ((x2 + 1) mod (2 + (x div 2))) <= 0 then 2 else 1)
1: (if ((x2 + 1) mod (2 + (x mod 4))) <= 0 then 2 else 1)
1: (if ((x2 + 2) mod (2 + (x div 2))) <= 0 then 1 else 0)
1: (if ((x2 + (x mod 2)) mod (2 + (x div 2))) <= 0 then 1 else 0)
1: (if ((1 + (((x + 1) + (x div 2)) div 2)) mod 4) <= 0 then 2 else 1)
1: (if ((1 + ((x2 + (x div 2)) div 2)) mod 4) <= 0 then 2 else 1)
1: (if ((1 + ((x + (x div 2)) div 2)) mod 5) <= 0 then 2 else 0)
1: (if ((1 + ((x + 1) div 2)) mod 4) <= 0 then 2 else 0)
1: (if ((1 + ((x + 1) div 2)) mod 6) <= 0 then 2 else 1)
1: (if ((1 + ((x + 1) div 2)) mod 8) <= 0 then 2 else 1)
1: (if ((1 + ((x + 1) div 2)) mod 8) <= 0 then 4 else 1)
1: (if ((1 + ((x + 1) div 2)) mod 8) <= 0 then 6 else 1)
1: (if ((1 + ((x + 1) div 3)) mod 4) <= 0 then 2 else 1)
1: (if ((1 + ((x + 1) div 3)) mod 5) <= 0 then 4 else 1)
1: (if ((1 + ((x + 1) div 3)) mod 5) <= 0 then 6 else 1)
1: (if ((x + ((x + ~2) div (2 + (x div 2)))) mod 3) <= 0 then 0 else 1)
1: (if ((x + ((x + ~2) div (2 + (x div 2)))) mod 3) <= 0 then 1 else 2)
1: (if ((1 + ((x2 + ~2x) div (x + 2))) mod 4) <= 0 then 0 else 1)
1: (if ((x + ((4 * (x div 3)) div 3)) mod 3) <= 0 then 2 else 1)
1: (if ((1 + ((x * (x div 2)) div 2)) mod 4) <= 0 then 2 else 1)
1: (if ((1 + ((x * (x div 2)) div 4)) mod 2) <= 0 then (~1 + (x div 2)) else 1)
1: (if ((2 + (x2 div 2)) mod (x + 2)) <= 0 then 1 else 2)
1: (if ((x + (x2 div (2 + (x div 2)))) mod 4) <= 0 then 0 else 1)
1: (if ((1 + (x div 2)) mod 2) <= 0 then (x mod 2) else (x div 2))
1: (if ((1 + (x div 2)) mod 5) <= 0 then 0 else 2)
1: (if ((1 + (x div 2)) mod 5) <= 0 then 1 else 2)
1: (if ((1 + (x div 2)) mod 5) <= 0 then 2 else 1)
1: (if ((1 + (x div 2)) mod 5) <= 0 then (2 * (x mod 2)) else 1)
1: (if ((1 + (x div 2)) mod (1 + (x div 5))) <= 0 then 1 else (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))
1: (if ((1 + (x div 2)) mod 6) <= 0 then 0 else 1)
1: (if ((1 + (x div 2)) mod 6) <= 0 then (1 + (x div 2)) else 0)
1: (if ((1 + (x div 2)) mod 6) <= 0 then 12 else 0)
1: (if ((2 + (x div 2)) mod 4) <= 0 then 1 else x)
1: (if ((2 + (x div 2)) mod 4) <= 0 then x else 2)
1: (if ((2 + (x div 2)) mod 5) <= 0 then 1 else 2)
1: (if ((2 + (x div 2)) mod 5) <= 0 then 2 else 1)
1: (if ((2 + (x div 2)) mod 8) <= 0 then 0 else 1)
1: (if ((2 + (x div 2)) mod 8) <= 0 then 2 else 1)
1: (if ((2 + (x div 2)) mod 8) <= 0 then (x + ~1) else 1)
1: (if ((2 + (x div 2)) mod (2 * (2 + (x mod 2)))) <= 0 then 2 else 1)
1: (if ((x + (x div 2)) mod 4) <= 0 then 0 else 1)
1: (if ((x + (x div 2)) mod 4) <= 0 then 1 else 0)
1: (if ((x + (x div 2)) mod 4) <= 0 then 1 else (x div 5))
1: (if ((x + (x div 2)) mod 4) <= 0 then (if x <= 0 then 1 else 2) else 1)
1: (if ((x + (x div 2)) mod 4) <= 0 then x else 2)
1: (if ((x + (x div 2)) mod 4) <= 0 then x else (x div 2))
1: (if ((x + (x div 2)) mod 5) <= 0 then 2 else 1)
1: (if ((x + (x div 2)) mod 5) <= 0 then 6 else 1)
1: (if ((1 + (x div 3)) mod 3) <= 0 then 1 else 2)
1: (if ((1 + (x div 3)) mod 3) <= 0 then 2 else 1)
1: (if ((1 + (x div 3)) mod 3) <= 0 then ((x + ~1) mod 4) else 1)
1: (if ((1 + (x div 3)) mod 3) <= 0 then (if (x div 4) <= 0 then 2 else ~2) else 1)
1: (if ((1 + (x div 3)) mod 4) <= 0 then 1 else 0)
1: (if ((1 + (x div 3)) mod 4) <= 0 then 2 else 1)
1: (if ((1 + (x div 3)) mod 4) <= 0 then (x mod 2) else 2)
1: (if ((1 + (x div 3)) mod 4) <= 0 then (x mod 3) else 1)
1: (if ((x + (x div 3)) mod 3) <= 0 then 1 else x)
1: (if ((x + (x div 3)) mod 3) <= 0 then (x div 4) else 1)
1: (if ((1 + (x div 4)) mod 4) <= 0 then loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) else x)
1: (if ((1 + (x div 4)) mod (4 - (x mod 4))) <= 0 then 2 else 1)
1: (if ((1 + (x div 4)) mod (2 + (x mod 3))) <= 0 then 2 else 1)
1: (if ((1 + (x div 4)) mod (2 + (x mod 4))) <= 0 then 0 else 2)
1: (if ((1 + (x div 4)) mod (2 + (x mod 4))) <= 0 then 2 else 1)
1: (if ((x + (x div 4)) mod 3) <= 0 then 1 else 2)
1: (if ((x + (x div (2 + (x div 4)))) mod 3) <= 0 then 2 else 1)
1: (if ((x + (x div 8)) mod 4) <= 0 then 1 else 0)
1: (if ((x + ((~x + 1) mod 3)) mod 5) <= 0 then 2 else 0)
1: (if ((1 + ((x - ((x div 2) mod 3)) mod 5)) mod 3) <= 0 then (x div 3) else 1)
1: (if ((x + (x2 mod 5)) mod 3) <= 0 then 1 else 2)
1: (if ((x + (x mod 2)) mod (1 + (x div 4))) <= 0 then 0 else 1)
1: (if (((x mod 5) + (x mod 2)) mod 3) <= 0 then 2 else 1)
1: (if ((x + (if (~2 + (x div 4)) <= 0 then 1 else 2)) mod 4) <= 0 then x else 0)
1: (if ((x + (if ((x div 3) mod 3) <= 0 then 1 else x)) mod 3) <= 0 then 1 else 2)
1: (if ((x + (if (x mod 2) <= 0 then 2 else x)) mod 3) <= 0 then 1 else x)
1: (if ((x + loop(\(x,i).(x div (2 - (x mod 2))),x,x)) mod 3) <= 0 then 2 else 1)
1: (if ((x + 1) mod 3) <= 0 then ~2 else 1)
1: (if ((x + 1) mod 3) <= 0 then (2 * (2 - ((x div 2) mod 2))) else 1)
1: (if ((x + 1) mod 3) <= 0 then 2x else 1)
1: (if ((x + 1) mod 3) <= 0 then i else 2)
1: (if ((x + 1) mod 4) <= 0 then 0 else (1 + (x div (1 + (x mod (2 * (1 + (x mod (2 * (1 + (x mod (1 + (x div 3)))))))))))))
1: (if ((x + 1) mod 4) <= 0 then 0 else (1 + ((x div ~4) mod 2)))
1: (if ((x + 1) mod 4) <= 0 then 1 else (1 + (2 * (3 div (4 - (((~2x + 2) mod (4 + (x div 4))) div 2))))))
1: (if ((x + 1) mod 4) <= 0 then 1 else 6)
1: (if ((x + 1) mod 4) <= 0 then (x + 4) else 1)
1: (if ((x + 1) mod 4) <= 0 then (2 + (x div 4)) else 1)
1: (if ((x + 1) mod 4) <= 0 then (2 + (x mod 8)) else 1)
1: (if ((x + 1) mod 4) <= 0 then (x + ~1) else 1)
1: (if ((x + 1) mod 4) <= 0 then (x + ~2) else 1)
1: (if ((x + 1) mod 4) <= 0 then ((x + 1) div 3) else 1)
1: (if ((x + 1) mod 4) <= 0 then ((x + 2) div 5) else 1)
1: (if ((x + 1) mod 4) <= 0 then (x div 3) else 1)
1: (if ((x + 1) mod 4) <= 0 then x else 1)
1: (if ((x + 1) mod 4) <= 0 then x else 2x)
1: (if ((x + 1) mod 5) <= 0 then 0 else (1 - (2 * ((x div 5) mod 2))))
1: (if ((x + 1) mod 5) <= 0 then 1 else 10)
1: (if ((x + 1) mod 5) <= 0 then 1 else (x div 5))
1: (if ((x + 1) mod 5) <= 0 then 4 else x)
1: (if ((x + 1) mod 5) <= 0 then (2 + ((x div 2) mod 2)) else 1)
1: (if ((x + 1) mod 5) <= 0 then ~2 else 1)
1: (if ((x + 1) mod 5) <= 0 then (x + ~2) else 2)
1: (if ((x + 1) mod 5) <= 0 then (2x + ~4) else x)
1: (if ((x + 1) mod 5) <= 0 then 2x else (x div 2))
1: (if ((x + 1) mod 5) <= 0 then (x div 3) else 1)
1: (if ((x + 1) mod 5) <= 0 then (x div 4) else 0)
1: (if ((x + 1) mod 5) <= 0 then (x div 4) else 1)
1: (if ((x + 1) mod 5) <= 0 then ((x div 2) mod 2) else 1)
1: (if ((x + 1) mod 5) <= 0 then (x mod 10) else 0)
1: (if ((x + 1) mod (3 + ((x div 2) div 3))) <= 0 then 2 else 1)
1: (if ((x + 1) mod (4 + (x div 2))) <= 0 then 2 else 0)
1: (if ((x + 1) mod (3 + (x mod 4))) <= 0 then 4 else 1)
1: (if ((x + 1) mod (4 + (x mod (2 + (x mod 2))))) <= 0 then 2 else 1)
1: (if ((x + 1) mod (4 + (if (x mod 2) <= 0 then 1 else 8))) <= 0 then 4 else 1)
1: (if ((x + 1) mod (4 - (((x + ~1) div 2) div 2))) <= 0 then 0 else 1)
1: (if ((x + 1) mod (4 - ((x mod 5) div 2))) <= 0 then 0 else 1)
1: (if ((x + 1) mod (4 - ((x div 2) mod 3))) <= 0 then 1 else x)
1: (if ((x + 1) mod 7) <= 0 then 1 else 0)
1: (if ((x + 1) mod 7) <= 0 then 2 else 0)
1: (if ((x + 1) mod 7) <= 0 then ~7 else 0)
1: (if ((x + 1) mod 7) <= 0 then (x mod 2) else x)
1: (if ((x + 1) mod 9) <= 0 then (x + 1) else 0)
1: (if ((x + 1) mod (1 + (2 * ((~x + 1) mod 3)))) <= 0 then 2 else 0)
1: (if ((x + 1) mod (1 + (2 * ((~x + 1) mod 4)))) <= 0 then 0 else 1)
1: (if ((x + 1) mod (1 + (2 * ((~x + 1) mod 5)))) <= 0 then 2 else 0)
1: (if ((x + 1) mod (1 + (2 * ((~x + 2) mod 3)))) <= 0 then 2 else 0)
1: (if ((x + 1) mod (1 + (2 * ((~x + 2) mod 3)))) <= 0 then 2 else 1)
1: (if ((x + 1) mod (1 + (2 * (x mod 5)))) <= 0 then 2 else 0)
1: (if ((x + 1) mod (1 + ((2 + (x div 2)) div 3))) <= 0 then 1 else 0)
1: (if ((x + 1) mod (1 + ((1 + (x div 3)) div 2))) <= 0 then 0 else 1)
1: (if ((x + 1) mod (1 + ((x - (x mod 3)) div 2))) <= 0 then 1 else 2)
1: (if ((x + 1) mod (1 + ((3 * (x div 4)) div 2))) <= 0 then 0 else 1)
1: (if ((x + 1) mod (1 + ((x div 2) div (1 + (x mod 2))))) <= 0 then 0 else 2)
1: (if ((x + 1) mod (1 + ((x div 2) div (1 + (x mod 2))))) <= 0 then 1 else 0)
1: (if ((x + 1) mod (1 + ((x mod 5) div 2))) <= 0 then 1 else 0)
1: (if ((x + 1) mod (1 + (x div 3))) <= 0 then 1 else 0)
1: (if ((x + 1) mod (2 + (x div 3))) <= 0 then 2 else 1)
1: (if ((x + 1) mod (1 + (x div 4))) <= 0 then 0 else 1)
1: (if ((x + 1) mod (1 + (x div 4))) <= 0 then 0 else 2)
1: (if ((x + 1) mod (1 + (x div 4))) <= 0 then 1 else 0)
1: (if ((x + 1) mod (1 + (x div 4))) <= 0 then (x + 1) else 0)
1: (if ((x + 1) mod (1 + (x div 5))) <= 0 then 0 else 1)
1: (if ((x + 1) mod (1 + (x div 5))) <= 0 then 1 else 0)
1: (if ((x + 1) mod (1 + (x div 5))) <= 0 then 1 else (x div 2))
1: (if ((x + 1) mod (1 + (x div 5))) <= 0 then (if x <= 0 then 0 else 1) else 2)
1: (if ((x + 1) mod (1 + (x div (2 + ((x div 2) mod 2))))) <= 0 then 1 else 2)
1: (if ((x + 1) mod (1 + (x div (2 + (x mod 2))))) <= 0 then 0 else 2)
1: (if ((x + 1) mod (1 + (x div (2 + (x mod 2))))) <= 0 then 1 else 0)
1: (if ((x + 1) mod (1 + (x div (2 * (2 + ((x div 2) mod 2)))))) <= 0 then 1 else 2)
1: (if ((x + 1) mod (2 + (3 mod (x + 2)))) <= 0 then 1 else 0)
1: (if ((x + 1) mod (1 + (4 mod (x + 2)))) <= 0 then 1 else 2)
1: (if ((x + 1) mod (2 + ((~x + 1) mod 4))) <= 0 then 0 else 1)
1: (if ((x + 1) mod (2 + ((~x + 2) mod 5))) <= 0 then 2 else 0)
1: (if ((x + 1) mod (1 + (~2x mod 5))) <= 0 then 2 else 0)
1: (if ((x + 1) mod (1 + (4x mod (1 + (x div 2))))) <= 0 then 1 else 2)
1: (if ((x + 1) mod (2 + (x2 mod 5))) <= 0 then 2 else 0)
1: (if ((x + 1) mod (2 + (((x + ~1) div 2) mod 2))) <= 0 then 0 else 2)
1: (if ((x + 1) mod (2 + ((x div 2) mod 2))) <= 0 then 2 else 1)
1: (if ((x + 1) mod (2 + ((x div 2) mod 2))) <= 0 then 2 else x)
1: (if ((x + 1) mod (2 + ((x div 2) mod 2))) <= 0 then x else 0)
1: (if ((x + 1) mod (1 + ((x div 2) mod 4))) <= 0 then 1 else 0)
1: (if ((x + 1) mod (2 + ((((~x + 2) div 2) mod (x + 1)) mod 2))) <= 0 then 2 else 0)
1: (if ((x + 1) mod (2 + (x mod 3))) <= 0 then 0 else 2)
1: (if ((x + 1) mod (1 + (x mod 4))) <= 0 then 0 else 1)
1: (if ((x + 1) mod (1 + (x mod 4))) <= 0 then 1 else 0)
1: (if ((x + 1) mod (2 + (x mod 5))) <= 0 then 2 else 0)
1: (if ((x + 1) mod (2 + (x mod (4 + (x div 2))))) <= 0 then 2 else 0)
1: (if ((x + 1) mod (1 + (x mod (1 + (2 * (2 + (x mod 2))))))) <= 0 then 1 else 2)
1: (if ((x + 1) mod (1 + (x mod 6))) <= 0 then 1 else 0)
1: (if ((x + 1) mod (2 + i)) <= 0 then 0 else x)
1: (if ((x + 1) mod (1 - (x div ~5))) <= 0 then 1 else 2)
1: (if ((x + 1) mod (1 - (x div ~5))) <= 0 then 2 else 1)
1: (if ((x + 1) mod (2 - (x div ~4))) <= 0 then (x mod 5) else 1)
1: (if ((x + 1) mod (~1 + (2 * ((x + ~1) div 3)))) <= 0 then 1 else 2)
1: (if ((x + 1) mod (~1 + (2 * (x div 4)))) <= 0 then 0 else x)
1: (if ((x + 1) mod 6) <= 0 then (x + ~3) else 1)
1: (if ((x + 1) mod 6) <= 0 then 6 else 1)
1: (if ((x + 1) mod 6) <= 0 then 8 else 2)
1: (if ((x + 1) mod 6) <= 0 then (2x + ~4) else (x + 1))
1: (if ((x + 1) mod 6) <= 0 then ((x div 2) mod 2) else x)
1: (if ((x + 1) mod 6) <= 0 then x else (2 + (x mod 2)))
1: (if ((x + 1) mod 8) <= 0 then 1 else 0)
1: (if ((x + 1) mod 8) <= 0 then 2 else (if x <= 0 then 0 else 1))
1: (if ((x + 1) mod 8) <= 0 then 4 else 1)
1: (if ((x + 1) mod 8) <= 0 then (0 - (x mod 3)) else 1)
1: (if ((x + 1) mod 8) <= 0 then (~1 + (x div 2)) else 0)
1: (if ((x + 1) mod 8) <= 0 then (~2 + (x div 2)) else 0)
1: (if ((x + 1) mod 8) <= 0 then (x + ~8) else 1)
1: (if ((x + 1) mod 8) <= 0 then 8 else 2)
1: (if ((x + 1) mod 8) <= 0 then (x div 4) else 0)
1: (if ((x + 1) mod 12) <= 0 then 1 else (x + (if (~4 + (x div 2)) <= 0 then 1 else 2)))
1: (if ((x + 1) mod 12) <= 0 then 2 else (if x <= 0 then 1 else 0))
1: (if ((x + 1) mod 12) <= 0 then 4 else 0)
1: (if ((x + 1) mod 12) <= 0 then (x + 6) else 1)
1: (if ((x + 1) mod 12) <= 0 then (x + 1) else 0)
1: (if ((x + 1) mod 12) <= 0 then (2x + ~2) else 0)
1: (if ((x + 1) mod 12) <= 0 then x else ~1)
1: (if ((x + 1) mod 10) <= 0 then (x + 3) else 0)
1: (if ((x + 1) mod 10) <= 0 then (x + 1) else 0)
1: (if ((x + 1) mod (2 * (1 + (2 mod (x + 1))))) <= 0 then 2 else 1)
1: (if ((x + 2) mod 4) <= 0 then 1 else loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x))
1: (if ((x + 2) mod 4) <= 0 then 1 else loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x))
1: (if ((x + 2) mod 4) <= 0 then 2 else x)
1: (if ((x + 2) mod 4) <= 0 then (~2 + (x div 2)) else 1)
1: (if ((x + 2) mod 4) <= 0 then (x + ~1) else 0)
1: (if ((x + 2) mod 4) <= 0 then ((x + 1) div 3) else 1)
1: (if ((x + 2) mod 4) <= 0 then (x div 2) else 1)
1: (if ((x + 2) mod 4) <= 0 then (x div 2) else 4x)
1: (if ((x + 2) mod 5) <= 0 then 0 else 1)
1: (if ((x + 2) mod 5) <= 0 then 1 else 2)
1: (if ((x + 2) mod 5) <= 0 then 2 else 0)
1: (if ((x + 2) mod 5) <= 0 then 4 else 0)
1: (if ((x + 2) mod 5) <= 0 then (~1 + (x div 3)) else 0)
1: (if ((x + 2) mod 5) <= 0 then ((1 + (x div 2)) div 2) else 1)
1: (if ((x + 2) mod 5) <= 0 then ((x + 1) div 2) else 2)
1: (if ((x + 2) mod 5) <= 0 then ((x + ~1) div 2) else 1)
1: (if ((x + 2) mod 5) <= 0 then ((x div 2) mod 2) else 1)
1: (if ((x + 2) mod 5) <= 0 then (x mod 2) else 3)
1: (if ((x + 2) mod (4 + (x div 3))) <= 0 then 2 else 0)
1: (if ((x + 2) mod (3 + (x div 8))) <= 0 then 1 else 2)
1: (if ((x + 2) mod (3 + (2 mod (x + 1)))) <= 0 then 0 else 1)
1: (if ((x + 2) mod (4 + (3 mod (x + 1)))) <= 0 then 2 else 1)
1: (if ((x + 2) mod (4 + ((x div 4) mod 2))) <= 0 then 2 else 1)
1: (if ((x + 2) mod (4 + (x mod 2))) <= 0 then x else 2)
1: (if ((x + 2) mod (4 + (x mod (2 + (x mod 2))))) <= 0 then 2 else 1)
1: (if ((x + 2) mod (5 - (x div 4))) <= 0 then 0 else 1)
1: (if ((x + 2) mod (3 - ((((x + 1) div 2) div 2) mod 2))) <= 0 then 0 else 1)
1: (if ((x + 2) mod 7) <= 0 then 0 else 1)
1: (if ((x + 2) mod 7) <= 0 then 2 else 1)
1: (if ((x + 2) mod 7) <= 0 then (2 + (x mod 2)) else 1)
1: (if ((x + 2) mod 9) <= 0 then 0 else 1)
1: (if ((x + 2) mod 9) <= 0 then 1 else 2)
1: (if ((x + 2) mod 9) <= 0 then 1 else (2x + 2))
1: (if ((x + 2) mod 9) <= 0 then 2 else x)
1: (if ((x + 2) mod 9) <= 0 then 3 else 0)
1: (if ((x + 2) mod 9) <= 0 then (x + 2) else 0)
1: (if ((x + 2) mod 9) <= 0 then (x + ~1) else 0)
1: (if ((x + 2) mod 9) <= 0 then (x + ~2) else 1)
1: (if ((x + 2) mod 9) <= 0 then (2x + 2) else 1)
1: (if ((x + 2) mod (8 + (x mod 2))) <= 0 then 2 else 1)
1: (if ((x + 2) mod (1 + (2 * (3 - (x mod 2))))) <= 0 then 2 else 1)
1: (if ((x + 2) mod (1 + (2 * (2 + (x mod 2))))) <= 0 then 0 else 1)
1: (if ((x + 2) mod (1 + (4 * (x mod 4)))) <= 0 then 2 else 1)
1: (if ((x + 2) mod (1 + (2 * (if (x mod 2) <= 0 then x else 2)))) <= 0 then 0 else 1)
1: (if ((x + 2) mod (1 + (2 * i))) <= 0 then 0 else 1)
1: (if ((x + 2) mod (1 + (2x div 5))) <= 0 then 1 else 2)
1: (if ((x + 2) mod (1 + (x div 4))) <= 0 then 1 else 2)
1: (if ((x + 2) mod (2 + (x div 4))) <= 0 then 1 else 2)
1: (if ((x + 2) mod (2 + (x div 5))) <= 0 then 0 else 2)
1: (if ((x + 2) mod (2 + (x div 5))) <= 0 then 1 else 0)
1: (if ((x + 2) mod (2 + (x div 5))) <= 0 then 2 else 0)
1: (if ((x + 2) mod (1 + ((x + ~1) mod 3))) <= 0 then 1 else 0)
1: (if ((x + 2) mod (2 + ((x div 2) mod 2))) <= 0 then 1 else x)
1: (if ((x + 2) mod (2 + (x mod 2))) <= 0 then 1 else (x + 2))
1: (if ((x + 2) mod (2 + (x mod 2))) <= 0 then 1 else 6)
1: (if ((x + 2) mod (2 + (x mod 2))) <= 0 then (x + 2) else 1)
1: (if ((x + 2) mod (2 + (x mod 2))) <= 0 then (2 * (x div 2)) else 0)
1: (if ((x + 2) mod (2 + (x mod 2))) <= 0 then (x div 2) else 0)
1: (if ((x + 2) mod (1 + (x mod 4))) <= 0 then 2 else 1)
1: (if ((x + 2) mod (2 + (x mod 4))) <= 0 then 1 else (x div 4))
1: (if ((x + 2) mod (1 + (x mod (2 + (x div 2))))) <= 0 then 1 else 0)
1: (if ((x + 2) mod (2 + (x mod (1 + (x div 4))))) <= 0 then 1 else 2)
1: (if ((x + 2) mod (2 + (if (x + ~2) <= 0 then 1 else 2))) <= 0 then 0 else 1)
1: (if ((x + 2) mod (2 + (if (x + ~4) <= 0 then 1 else 2))) <= 0 then 0 else 1)
1: (if ((x + 2) mod (2 + i)) <= 0 then 0 else 1)
1: (if ((x + 2) mod (2 - (x mod ~4))) <= 0 then 1 else (x + 2))
1: (if ((x + 2) mod (2 - (x mod ~4))) <= 0 then 2 else 1)
1: (if ((x + 2) mod (2x + ~5)) <= 0 then 0 else 1)
1: (if ((x + 2) mod 6) <= 0 then 0 else 1)
1: (if ((x + 2) mod 6) <= 0 then 1 else (((x + 1) div 2) - ((3 * (x div 4)) div 2)))
1: (if ((x + 2) mod 6) <= 0 then 1 else 6)
1: (if ((x + 2) mod 6) <= 0 then (1 + (2 * (x div 3))) else 0)
1: (if ((x + 2) mod 6) <= 0 then (~1 + (x div 2)) else 1)
1: (if ((x + 2) mod 6) <= 0 then ((x div 2) mod 4) else 0)
1: (if ((x + 2) mod 8) <= 0 then 0 else (x mod 3))
1: (if ((x + 2) mod 8) <= 0 then 1 else 0)
1: (if ((x + 2) mod 8) <= 0 then 2 else (if x <= 0 then 0 else 1))
1: (if ((x + 2) mod 8) <= 0 then (x + 2) else 1)
1: (if ((x + 2) mod 8) <= 0 then (~2 + (x div 2)) else 1)
1: (if ((x + 2) mod 8) <= 0 then (x + ~2) else 4)
1: (if ((x + 2) mod 8) <= 0 then (x + ~5) else 1)
1: (if ((x + 2) mod 8) <= 0 then 6 else 0)
1: (if ((x + 2) mod 8) <= 0 then x else (x div 2))
1: (if ((x + 2) mod 12) <= 0 then 0 else 1)
1: (if ((x + 2) mod 12) <= 0 then (x2 + 2x + 1) else 0)
1: (if ((2 + i) mod (2 + (x mod 2))) <= 0 then x else 1)
1: (if ((~x + 1) mod 3) <= 0 then (2 * (x + (x div 3))) else 0)
1: (if ((~x + 1) mod 8) <= 0 then x else 2)
1: (if ((2 - ((~1 + (x div 2)) div 2)) mod (x + 1)) <= 0 then 1 else 0)
1: (if ((2 - (x div 3)) mod 4) <= 0 then 0 else 1)
1: (if ((2 - (x div 3)) mod 4) <= 0 then 2 else 1)
1: (if ((2 - (x div 4)) mod 4) <= 0 then 2 else 1)
1: (if ((2 - (x div 5)) mod 4) <= 0 then 2 else 1)
1: (if ((2 - (x div ~2)) mod 8) <= 0 then 2 else 1)
1: (if ((~x + 2) mod 3) <= 0 then (2 + (if (x mod 4) <= 0 then 2 else 0)) else 1)
1: (if ((~x + 2) mod 3) <= 0 then ((1 + (x div 2)) div (2 + (x mod 2))) else 1)
1: (if ((~x + 2) mod 4) <= 0 then 1 else (x div 4))
1: (if ((~x + 2) mod 4) <= 0 then 1 else x)
1: (if ((~x + 2) mod (1 + ((x + 1) mod 4))) <= 0 then x else 1)
1: (if (((x + ~2) + (x div 2)) mod 5) <= 0 then 1 else 0)
1: (if (((x + ~2) + (x div 2)) mod 8) <= 0 then 2 else 1)
1: (if ((~4 + (x div 2)) mod (x + 1)) <= 0 then 2 else 0)
1: (if ((2x + ~5) mod (1 + (x div 2))) <= 0 then 1 else 0)
1: (if ((x3 + ~1) mod (2 + (x div 2))) <= 0 then 0 else 1)
1: (if ((2x + ~1) mod (x + 3)) <= 0 then x else 2)
1: (if ((2x + ~1) mod (1 + (x div 2))) <= 0 then 1 else 0)
1: (if ((x2 + ~1) mod (x + 3)) <= 0 then x else 1)
1: (if ((x2 + ~2) mod (x + 4)) <= 0 then 1 else 0)
1: (if ((x2 + ~2) mod (x + 4)) <= 0 then 1 else 2)
1: (if ((x2 + ~2) mod (x + 4)) <= 0 then 2 else 1)
1: (if ((x2 + ~2) mod (x + 4)) <= 0 then (x div 3) else 0)
1: (if ((x2 + ~2) mod (2 + (x div 2))) <= 0 then 1 else 0)
1: (if ((~2 + (x2 div 2)) mod 5) <= 0 then 2 else 1)
1: (if ((~1 + (x div 3)) mod 4) <= 0 then 0 else 1)
1: (if ((~1 + (x div 3)) mod 4) <= 0 then 2 else 1)
1: (if ((~1 + (x div 3)) mod 4) <= 0 then x else (x + 1))
1: (if ((x + ~1) mod 3) <= 0 then 1 else ((x + 2) div (2 + (loop(\(x,i).x3,2,2x) mod (x + 1)))))
1: (if ((x + ~1) mod 3) <= 0 then 4 else 1)
1: (if ((x + ~1) mod 3) <= 0 then (x + (x div 3)) else 1)
1: (if ((x + ~1) mod 3) <= 0 then 2x else 0)
1: (if ((x + ~1) mod 3) <= 0 then (2x div 3) else 1)
1: (if ((x + ~1) mod 3) <= 0 then ((if (x mod 2) <= 0 then 1 else x) mod 4) else (1 - (2 * (x mod 2))))
1: (if ((x + ~1) mod 3) <= 0 then (x mod (2 + (x div 4))) else 1)
1: (if ((x + ~1) mod 3) <= 0 then loop(\(x,i).4x,x,2) else 1)
1: (if ((x + ~1) mod 3) <= 0 then x else 1)
1: (if ((x + ~1) mod 4) <= 0 then 1 else (1 + ((x + (x div 2)) div 4)))
1: (if ((x + ~1) mod 4) <= 0 then 4 else 0)
1: (if ((x + ~1) mod 4) <= 0 then (2 + ((x mod 3) div 2)) else 1)
1: (if ((x + ~1) mod 4) <= 0 then (1 + (x div 2)) else 0)
1: (if ((x + ~1) mod 4) <= 0 then 4x else 1)
1: (if ((x + ~1) mod 4) <= 0 then x else 0)
1: (if ((x + ~1) mod 4) <= 0 then x else 1)
1: (if ((x + ~1) mod 4) <= 0 then x else (x div 4))
1: (if ((x + ~1) mod 5) <= 0 then 1 else 0)
1: (if ((x + ~1) mod 5) <= 0 then 1 else 2)
1: (if ((x + ~1) mod 5) <= 0 then 2 else 1)
1: (if ((x + ~1) mod 5) <= 0 then (x mod 2) else 1)
1: (if ((x + ~1) mod 5) <= 0 then (x mod 4) else 1)
1: (if ((x + ~1) mod 5) <= 0 then x else 0)
1: (if ((x + ~1) mod (5 + (x div 2))) <= 0 then 0 else 1)
1: (if ((x + ~1) mod (4 + (x div 2))) <= 0 then 1 else 0)
1: (if ((x + ~1) mod (3 + (x div 5))) <= 0 then 0 else 1)
1: (if ((x + ~1) mod (4 + (x div 5))) <= 0 then 0 else 1)
1: (if ((x + ~1) mod 7) <= 0 then x else 0)
1: (if ((x + ~1) mod 9) <= 0 then 1 else 2)
1: (if ((x + ~1) mod 9) <= 0 then (x + ~1) else 0)
1: (if ((x + ~1) mod 9) <= 0 then x2 else 1)
1: (if ((x + ~1) mod 13) <= 0 then 0 else 1)
1: (if ((x + ~1) mod 13) <= 0 then 1 else 2)
1: (if ((x + ~1) mod (1 + (2 * (2 + (x mod 2))))) <= 0 then 1 else 0)
1: (if ((x + ~1) mod (1 + (4 * (x mod 2)))) <= 0 then x else 1)
1: (if ((x + ~1) mod (1 + (x div 2))) <= 0 then 1 else 0)
1: (if ((x + ~1) mod (2 + (x div 3))) <= 0 then x else 1)
1: (if ((x + ~1) mod (1 + (x div 4))) <= 0 then 1 else 2)
1: (if ((x + ~1) mod (1 + (4 mod (x + 1)))) <= 0 then 1 else 0)
1: (if ((x + ~1) mod (1 + ((~x + 2) mod 6))) <= 0 then 0 else 1)
1: (if ((x + ~1) mod (1 + ((2x + ~4) mod (x + 2)))) <= 0 then 1 else 0)
1: (if ((x + ~1) mod (2 + (x mod 4))) <= 0 then x else 1)
1: (if ((x + ~1) mod (1 + (x mod 7))) <= 0 then 2 else 0)
1: (if ((x + ~1) mod (2 + (x mod (2 + (x mod 2))))) <= 0 then ((x + 1) div 2) else 1)
1: (if ((x + ~1) mod (2 + (if (x mod 3) <= 0 then 0 else 2))) <= 0 then x else 1)
1: (if ((x + ~1) mod (2 - ((x div 2) div ~2))) <= 0 then 1 else 0)
1: (if ((x + ~1) mod 11) <= 0 then 2 else 1)
1: (if ((x + ~1) mod 6) <= 0 then (x div 3) else 0)
1: (if ((x + ~1) mod 8) <= 0 then 1 else 0)
1: (if ((x + ~1) mod 8) <= 0 then 1 else (((x + 1) div 2) - ((3 * (x div 4)) div 2)))
1: (if ((x + ~1) mod 8) <= 0 then 2 else 0)
1: (if ((x + ~1) mod 8) <= 0 then 2 else 1)
1: (if ((x + ~1) mod 8) <= 0 then (x + ~2) else 1)
1: (if ((x + ~1) mod 8) <= 0 then (x + ~2) else 2)
1: (if ((x + ~1) mod 8) <= 0 then (x2 div (x + 2)) else 1)
1: (if ((x + ~1) mod 12) <= 0 then 2 else 1)
1: (if ((x + ~1) mod 10) <= 0 then 0 else x)
1: (if ((x + ~1) mod 10) <= 0 then (1 + (x div 2)) else 0)
1: (if ((x + ~2) mod 5) <= 0 then 1 else 0)
1: (if ((x + ~2) mod 5) <= 0 then 1 else x)
1: (if ((x + ~2) mod 5) <= 0 then 2 else 1)
1: (if ((x + ~2) mod 5) <= 0 then 4 else 0)
1: (if ((x + ~2) mod 5) <= 0 then (~1 + (x mod 3)) else 1)
1: (if ((x + ~2) mod 5) <= 0 then ((1 + (x div 2)) div 2) else 1)
1: (if ((x + ~2) mod 5) <= 0 then (x div 3) else 0)
1: (if ((x + ~2) mod 5) <= 0 then ((x + ~1) mod 3) else 0)
1: (if ((x + ~2) mod 5) <= 0 then (x mod 2) else x)
1: (if ((x + ~2) mod 5) <= 0 then x else 2)
1: (if ((x + ~2) mod (4 + (x div 2))) <= 0 then 1 else 0)
1: (if ((x + ~2) mod (4 + (x mod 2))) <= 0 then 2 else 1)
1: (if ((x + ~2) mod 7) <= 0 then 0 else 1)
1: (if ((x + ~2) mod 7) <= 0 then 1 else 0)
1: (if ((x + ~2) mod 7) <= 0 then 1 else 2)
1: (if ((x + ~2) mod 9) <= 0 then 1 else 0)
1: (if ((x + ~2) mod 9) <= 0 then 2 else 1)
1: (if ((x + ~2) mod 9) <= 0 then (x div 2) else 1)
1: (if ((x + ~2) mod 13) <= 0 then 0 else 1)
1: (if ((x + ~2) mod (1 + (2 * (2 + (x mod 2))))) <= 0 then 1 else 0)
1: (if ((x + ~2) mod (1 + ((x + 2) div 5))) <= 0 then 2 else 1)
1: (if ((x + ~2) mod (1 + (x div 3))) <= 0 then 1 else 0)
1: (if ((x + ~2) mod (1 + (x div 3))) <= 0 then 1 else x)
1: (if ((x + ~2) mod (1 + (x div 3))) <= 0 then (if x <= 0 then 0 else 1) else 0)
1: (if ((x + ~2) mod (1 + (x div 4))) <= 0 then 1 else x)
1: (if ((x + ~2) mod (1 + (x div 4))) <= 0 then (if x <= 0 then 0 else 1) else 2)
1: (if ((x + ~2) mod (1 + ((~x + 1) mod 5))) <= 0 then 1 else 2)
1: (if ((x + ~2) mod (1 + ((~x + 2) mod 4))) <= 0 then 2 else 0)
1: (if ((x + ~2) mod (2 + ((~x + 2) mod 4))) <= 0 then 0 else 1)
1: (if ((x + ~2) mod (2 + ((2 * (x div 2)) mod 3))) <= 0 then 0 else 1)
1: (if ((x + ~2) mod (2 + (((x + ~1) div 2) mod 2))) <= 0 then 2 else 0)
1: (if ((x + ~2) mod (2 + (x mod 4))) <= 0 then 1 else 2)
1: (if ((x + ~2) mod (2 - ((~x + 2) div 5))) <= 0 then 1 else 0)
1: (if ((x + ~2) mod (4 - (x div ~2))) <= 0 then 1 else 0)
1: (if ((x + ~2) mod (4 - (x mod 3))) <= 0 then 0 else 1)
1: (if ((x + ~2) mod (~1 + (2 * (x mod 4)))) <= 0 then 1 else 0)
1: (if ((x + ~2) mod 6) <= 0 then 0 else 1)
1: (if ((x + ~2) mod 6) <= 0 then (x + 2) else 1)
1: (if ((x + ~2) mod 6) <= 0 then x else 1)
1: (if ((x + ~2) mod 8) <= 0 then 2 else 0)
1: (if ((x + ~2) mod 8) <= 0 then 2 else x)
1: (if ((x + ~2) mod 8) <= 0 then (x div 2) else 1)
1: (if ((x + ~2) mod 8) <= 0 then x else 1)
1: (if ((x + ~2) mod 8) <= 0 then x else 2)
1: (if ((x + ~2) mod 12) <= 0 then 2 else 1)
1: (if ((x + ~2) mod 12) <= 0 then (x + ~2) else 0)
1: (if ((x + ~2) mod 12) <= 0 then (x div 2) else 1)
1: (if ((x + ~2) mod 10) <= 0 then 1 else 0)
1: (if ((x + ~2) mod 10) <= 0 then 2 else 1)
1: (if ((x + ~2) mod 10) <= 0 then 2 else x)
1: (if ((x + ~2) mod 10) <= 0 then (x div 2) else 1)
1: (if ((x + ~2) mod (2 * (1 + (x div 4)))) <= 0 then 1 else 0)
1: (if ((x + ~2) mod (3 * (2 + (x mod 2)))) <= 0 then 2 else 1)
1: (if ((x + ~3) mod (4 + (x div 2))) <= 0 then 1 else 0)
1: (if ((x + ~3) mod (1 + (x mod 6))) <= 0 then 1 else 0)
1: (if ((x + ~3) mod 8) <= 0 then (2x + 2) else 0)
1: (if ((x + ~4) mod (1 + (x div 2))) <= 0 then 1 else 0)
1: (if ((x + ~4) mod (1 + (x div 4))) <= 0 then 1 else 2)
1: (if ((x + ~4) mod 8) <= 0 then 0 else 1)
1: (if ((x + ~4) mod 8) <= 0 then 2 else 0)
1: (if ((x + ~4) mod 8) <= 0 then 2 else 1)
1: (if ((x + ~4) mod 8) <= 0 then x else 4)
1: (if ((x + ~5) mod (1 + (x div 2))) <= 0 then 1 else 0)
1: (if (((x + ~1) - (x div 4)) mod 4) <= 0 then 0 else 1)
1: (if (((x + ~2) - (x div 4)) mod 4) <= 0 then 2 else 1)
1: (if (((x + ~2) - (x div 4)) mod 4) <= 0 then 4 else 1)
1: (if (((x + ~2) + ((x div 2) mod 2)) mod 5) <= 0 then 0 else 1)
1: (if (((x + ~2) + ((x div 2) mod 2)) mod 5) <= 0 then 2 else 1)
1: (if ((x - (2 * (((x + 1) div 2) div 3))) mod 3) <= 0 then 2 else x)
1: (if ((x - ((2 - (x div 2)) div 2)) mod 4) <= 0 then 0 else 1)
1: (if ((x - ((2 - (x div 2)) div (x + 2))) mod 4) <= 0 then 2 else 1)
1: (if ((x - ((((3 * (x div 4)) div 2) - ((x + ~1) div 2)) div 2)) mod 2) <= 0 then x else 0)
1: (if ((x - ((~1 + (x div 2)) div 2)) mod 5) <= 0 then 2 else 0)
1: (if ((x - ((~1 + (x div 2)) div 2)) mod 5) <= 0 then 2 else 1)
1: (if ((x - (6 div (x + 1))) mod 4) <= 0 then 0 else 1)
1: (if ((x - ((2x + 4) div 7)) mod 2) <= 0 then 1 else (x + 2))
1: (if ((x - (x2 div 3)) mod 3) <= 0 then 0 else 1)
1: (if ((x - (((x + 1) div 2) div 3)) mod 3) <= 0 then 1 else 0)
1: (if ((x - ((x2 div 2) div 5)) mod 3) <= 0 then 1 else 0)
1: (if ((x - ((x div 2) div 3)) mod 3) <= 0 then 1 else 2)
1: (if ((x - ((x div 4) div ~2)) mod 3) <= 0 then 1 else 2)
1: (if ((x - ((x div 4) div ~2)) mod 4) <= 0 then 1 else 0)
1: (if ((x - (x div 3)) mod 3) <= 0 then 0 else 1)
1: (if ((x - (x div 4)) mod 5) <= 0 then 0 else 2)
1: (if ((x - (x div 4)) mod 5) <= 0 then 1 else 0)
1: (if ((x - (x div 4)) mod 5) <= 0 then 1 else 2)
1: (if ((x - (x div (1 + (x mod 4)))) mod 2) <= 0 then x else 2)
1: (if ((x - (x div ~2)) mod 5) <= 0 then 0 else 1)
1: (if ((x - (x div ~2)) mod 5) <= 0 then 1 else 0)
1: (if ((x - (x div 8)) mod 3) <= 0 then 0 else 1)
1: (if ((x - (x div 8)) mod 3) <= 0 then 1 else 2)
1: (if ((x - (x div 8)) mod 4) <= 0 then 1 else 0)
1: (if ((x - (x div 12)) mod 3) <= 0 then 0 else 1)
1: (if ((x - (2 mod (1 + (x div 2)))) mod 3) <= 0 then 1 else 0)
1: (if ((x - ((1 + (x div 2)) mod 4)) mod 3) <= 0 then 1 else 0)
1: (if ((x - (~x mod (1 + (x div 4)))) mod 3) <= 0 then 0 else 1)
1: (if ((x - (((x + ~1) div 2) mod 2)) mod 3) <= 0 then 0 else 1)
1: (if ((x - ((x div 2) mod 2)) mod 6) <= 0 then 1 else 0)
1: (if ((x - ((x div 5) mod 2)) mod 3) <= 0 then 0 else 1)
1: (if ((x - (if (~2 + (x div 4)) <= 0 then 1 else 0)) mod 4) <= 0 then 1 else 2)
1: (if ((x - (if (~2 + (x div 4)) <= 0 then 1 else 2)) mod 4) <= 0 then 1 else 2)
1: (if ((x - (if (~2 + (x div 4)) <= 0 then 1 else 2)) mod 4) <= 0 then 2 else 1)
1: (if ((x - (if (x + ~2) <= 0 then 0 else 2)) mod 4) <= 0 then 0 else 1)
1: (if ((x - (if (x + ~2) <= 0 then 2 else 0)) mod 4) <= 0 then 2 else 0)
1: (if ((~1 + i) mod 3) <= 0 then 1 else 2)
1: (if ((~1 + i) mod 4) <= 0 then 2 else 0)
1: (if (6 mod (1 + (x div 2))) <= 0 then 1 else 0)
1: (if (6 mod (1 + (x div 2))) <= 0 then 2 else 1)
1: (if (6 mod (x + 1)) <= 0 then 1 else 2)
1: (if (6 mod (x + 1)) <= 0 then x else 1)
1: (if (6 mod (x + 2)) <= 0 then 1 else 0)
1: (if (3x mod (~1 + (2 * (x div 3)))) <= 0 then 1 else 2)
1: (if (8 mod (1 + (x div 2))) <= 0 then 1 else 2)
1: (if (8 mod (1 + (x div 2))) <= 0 then 1 else x)
1: (if (8 mod (x + 1)) <= 0 then 1 else 0)
1: (if (8 mod (x + 1)) <= 0 then (x + 1) else 16)
1: (if (8 mod (if x <= 0 then 1 else x)) <= 0 then 1 else 0)
1: (if (12 mod (x + 1)) <= 0 then 0 else 2)
1: (if (12 mod (x + 1)) <= 0 then 1 else 2)
1: (if (12 mod (x + 2)) <= 0 then 1 else 2)
1: (if (12 mod (if x <= 0 then 1 else x)) <= 0 then 1 else 2)
1: (if ((4x + 4) mod (2 - (x div ~2))) <= 0 then 1 else 0)
1: (if (10 mod (x + 1)) <= 0 then 0 else 1)
1: (if (10 mod (x + 1)) <= 0 then 1 else 0)
1: (if (10 mod (x + 1)) <= 0 then 1 else 2)
1: (if (10 mod (x + 1)) <= 0 then 2 else 0)
1: (if (10 mod (x + 1)) <= 0 then ((x + 2) div 3) else 0)
1: (if (10 mod (x + 1)) <= 0 then ((x + 2) div 3) else 1)
1: (if (10 mod (x + 1)) <= 0 then (x div 2) else 0)
1: (if (10 mod (x + 2)) <= 0 then 0 else 1)
1: (if (10 mod (x + 2)) <= 0 then 1 else 0)
1: (if (10 mod (x + 2)) <= 0 then x else 0)
1: (if ((x3 + 2x) mod (1 + (x div 2))) <= 0 then 0 else 1)
1: (if ((x * (1 + (x div 2))) mod 4) <= 0 then 1 else 2)
1: (if (((x + 1) * (2 + (x div 2))) mod 4) <= 0 then 0 else 1)
1: (if ((x * (2 + (x div 2))) mod 8) <= 0 then 1 else 0)
1: (if (((x + 1) * (2 + (x div 4))) mod 4) <= 0 then 0 else 1)
1: (if ((x * (x + (x div 4))) mod 4) <= 0 then 2 else 1)
1: (if ((2x + 2) mod (4 + (((x + 1) div 2) div 2))) <= 0 then 2 else 0)
1: (if ((2x + 2) mod (4 + (x div 4))) <= 0 then 0 else 1)
1: (if ((2x + 2) mod (2 + (x div 3))) <= 0 then 0 else 1)
1: (if ((2x + 2) mod (2 + (x div 3))) <= 0 then 1 else 0)
1: (if ((2x + 2) mod (2 - ((~x + 2) div 5))) <= 0 then 1 else 0)
1: (if ((2x + 2) mod (2 - (x div ~4))) <= 0 then 1 else 0)
1: (if ((x2 + x) mod 5) <= 0 then x else 0)
1: (if ((x2 + x) mod (1 + ((x + 2) div 3))) <= 0 then 1 else 2)
1: (if ((x2 + x) mod (2 + (x div 2))) <= 0 then 1 else 2)
1: (if ((x2 + x) mod 8) <= 0 then 2 else 0)
1: (if ((x2 + x) mod 8) <= 0 then 4 else 1)
1: (if ((x2 + x) mod 8) <= 0 then x else 0)
1: (if ((x2 + x) mod 12) <= 0 then 1 else 2)
1: (if ((x2 + x) mod 12) <= 0 then 2 else 1)
1: (if ((2x + 4) mod (4 + (x div 4))) <= 0 then 2 else 0)
1: (if ((x2 + 2x) mod (4 + (x div 2))) <= 0 then 2 else 1)
1: (if ((x2 + 2x) mod (1 + (8 * (x mod 2)))) <= 0 then (x + 1) else 0)
1: (if ((x2 + 2x) mod (1 + (2 * ((~x + 1) mod 4)))) <= 0 then 1 else 0)
1: (if ((x2 + 2x) mod 6) <= 0 then (x + ~2) else 0)
1: (if ((x2 + 2x) mod 6) <= 0 then 2x else 1)
1: (if ((x2 + 2x) mod 6) <= 0 then x else 2)
1: (if (~2x mod 5) <= 0 then 3x else 1)
1: (if ((~2x + 2) mod (4 + (x div 4))) <= 0 then x else 0)
1: (if ((x * (~1 + (x div 2))) mod 4) <= 0 then 1 else 0)
1: (if (((x + 1) * (~1 + (x mod 4))) mod 3) <= 0 then 0 else 1)
1: (if ((2x + ~2) mod (4 + (x div 4))) <= 0 then 2 else 1)
1: (if ((x2 + ~x) mod 5) <= 0 then (x mod 8) else 1)
1: (if ((x2 + ~x) mod (1 + (x div 2))) <= 0 then 0 else 1)
1: (if ((x2 + ~x) mod (1 + (x div 2))) <= 0 then 1 else 0)
1: (if ((2x + ~4) mod (2 + (x div 2))) <= 0 then 1 else 2)
1: (if ((x2 + ~2x) mod 9) <= 0 then 1 else 0)
1: (if ((2x + ~6) mod (1 + (x div 2))) <= 0 then 1 else 2)
1: (if (16 mod (x + 1)) <= 0 then 0 else 5)
1: (if (16 mod (x + 1)) <= 0 then 1 else x)
1: (if (16 mod (x + 1)) <= 0 then 3 else 0)
1: (if (16 mod (x + 1)) <= 0 then (x + 1) else 0)
1: (if (16 mod (x + 1)) <= 0 then (x + ~1) else 1)
1: (if (16 mod (x + 1)) <= 0 then 8 else 1)
1: (if (16 mod (x + 1)) <= 0 then (x div 3) else 0)
1: (if (16 mod (x + 2)) <= 0 then 0 else 2)
1: (if (16 mod (x + 2)) <= 0 then 1 else 0)
1: (if (16 mod (x + 2)) <= 0 then (x + 2) else 0)
1: (if (20 mod (x + 3)) <= 0 then 0 else 1)
1: (if (20 mod (x + 1)) <= 0 then 0 else 1)
1: (if ((2x * (1 + (2 * i))) mod (2 + i)) <= 0 then x else 0)
1: (if (4x mod (x + 3)) <= 0 then 2 else 0)
1: (if (4x mod (2 + (x div 2))) <= 0 then 1 else 2)
1: (if (4x mod (1 + (x div 4))) <= 0 then 1 else 2)
1: (if ((x3 + ~2x2) mod 9) <= 0 then 1 else 2)
1: (if (x3 mod (2x + 3)) <= 0 then 2 else 0)
1: (if (((x + 1) * ((x + 1) div 2)) mod 4) <= 0 then 0 else 1)
1: (if ((x * ((x + 1) div 2)) mod 6) <= 0 then 2 else 0)
1: (if ((((x + ~1) div 2) * (x mod 3)) mod 4) <= 0 then 1 else 2)
1: (if ((((x + ~1) div 2) * (x mod 3)) mod 4) <= 0 then 2 else 0)
1: (if (((x + 1) * (x div 2)) mod 4) <= 0 then 0 else 1)
1: (if (((x + 1) * (x div 2)) mod 4) <= 0 then 0 else x)
1: (if (((x + 1) * (x div 2)) mod 5) <= 0 then 1 else 0)
1: (if ((x * (x div 2)) mod 2) <= 0 then (x div 2) else 1)
1: (if ((x * (x div 2)) mod 2) <= 0 then (x div 3) else 1)
1: (if ((x * (x div 2)) mod 3) <= 0 then ((x div 2) mod 2) else 1)
1: (if ((x * (x div 2)) mod 4) <= 0 then (x + ~1) else 0)
1: (if ((x * (x div 2)) mod 4) <= 0 then (if x <= 0 then 0 else 1) else 0)
1: (if ((x * (x div 2)) mod (x + 3)) <= 0 then 1 else 0)
1: (if ((x * (x div 2)) mod (1 + (x mod 3))) <= 0 then 1 else 0)
1: (if ((x * (x div 2)) mod 6) <= 0 then x else 2)
1: (if (((x + 1) * (x div 5)) mod 3) <= 0 then 1 else 2)
1: (if ((x * (x div ~2)) mod 3) <= 0 then 1 else 2)
1: (if ((x * (x div ~2)) mod 4) <= 0 then 0 else 1)
1: (if (((x mod 3) * (x div 2)) mod 2) <= 0 then 2 else (x mod 2))
1: (if ((x * (x mod 3)) mod 5) <= 0 then 0 else (1 + (x div 2)))
1: (if ((x * (x mod 3)) mod 5) <= 0 then 0 else (x + 1))
1: (if ((x * (x mod 3)) mod 5) <= 0 then 0 else x)
1: (if ((x * (x mod 3)) mod 5) <= 0 then 2 else 1)
1: (if ((x * (x mod 3)) mod 5) <= 0 then (1 + (x div 2)) else 0)
1: (if ((x * (x mod 3)) mod 5) <= 0 then (x + 1) else 0)
1: (if ((x * (x mod 3)) mod 5) <= 0 then x else 0)
1: (if ((x * (x mod 3)) mod 7) <= 0 then 0 else 1)
1: (if ((x * (x mod 3)) mod 7) <= 0 then 1 else 0)
1: (if (((x + ~1) * (x mod 4)) mod 3) <= 0 then 1 else 0)
1: (if ((x * (x mod (2 + (x div 2)))) mod 5) <= 0 then 0 else 1)
1: (if ((x * (x mod (2 + (x div 2)))) mod 5) <= 0 then 1 else 2)
1: (if ((x * (x mod 8)) mod 3) <= 0 then 1 else 2)
1: (if (2x mod (x + 7)) <= 0 then 0 else 2)
1: (if (2x mod (x + 7)) <= 0 then 1 else 0)
1: (if (2x mod (x + 5)) <= 0 then 0 else 1)
1: (if (2x mod (x + 5)) <= 0 then 2 else 1)
1: (if (2x mod (3 + ((x + ((x div 2) mod 2)) div 2))) <= 0 then 1 else 2)
1: (if (2x mod (4 + (x div 3))) <= 0 then 0 else 1)
1: (if (2x mod (4 + (x div 4))) <= 0 then 0 else 1)
1: (if (2x mod (4 + (x div 4))) <= 0 then 0 else (if (x + ~3) <= 0 then x else 2))
1: (if (2x mod (4 + (x div 4))) <= 0 then 1 else 0)
1: (if (2x mod (4 + (x div 4))) <= 0 then 1 else ~2)
1: (if (2x mod (4 + (x div 4))) <= 0 then (1 + (x div 4)) else 0)
1: (if (2x mod (4 + (x div 4))) <= 0 then (2 + (x div 4)) else 1)
1: (if (2x mod (4 + (x div 4))) <= 0 then ((x div 4) + (if x <= 0 then 1 else 2)) else 0)
1: (if (2x mod (4 + (x div 4))) <= 0 then (1 + (x div 5)) else 0)
1: (if (2x mod (4 + (x div 4))) <= 0 then (2 + (if x <= 0 then 0 else (x + 2))) else 0)
1: (if (2x mod (4 + (x div 4))) <= 0 then (x + 1) else 0)
1: (if (2x mod (4 + (x div 4))) <= 0 then (2 - (x div ~2)) else 0)
1: (if (2x mod (4 + (x div 4))) <= 0 then ((2x + 8) div 5) else 0)
1: (if (2x mod (4 + (x div 4))) <= 0 then (if x <= 0 then 1 else 2) else 0)
1: (if (2x mod (4 + (x div 4))) <= 0 then loop(\(x,i).(2x + 1),(x div 4),1) else 0)
1: (if (2x mod (4 + ((x + 1) mod 4))) <= 0 then 4 else 0)
1: (if (2x mod (4 - ((x div 2) div 3))) <= 0 then 1 else 0)
1: (if (2x mod (3 - (x div ~4))) <= 0 then 1 else 0)
1: (if (2x mod (3 + ((x + 2) div 3))) <= 0 then 1 else 2)
1: (if (2x mod (2 + ((x div 2) div 3))) <= 0 then 0 else 1)
1: (if (2x mod (1 + (x div 2))) <= 0 then 0 else 1)
1: (if (2x mod (2 + (x div 2))) <= 0 then 1 else 0)
1: (if (2x mod (2 + (x div 2))) <= 0 then 1 else x)
1: (if (2x mod (2 + (x div 2))) <= 0 then 2 else 0)
1: (if (2x mod (2 + ((x + 1) mod 5))) <= 0 then 1 else 2)
1: (if (2x mod (2 + ((x + 1) mod 8))) <= 0 then 1 else 0)
1: (if (2x mod (3 + ((x + ~1) mod 4))) <= 0 then 1 else 0)
1: (if (2x mod (1 + ((2x + ~2) mod (2 + (x div 2))))) <= 0 then 1 else 0)
1: (if (2x mod (2 + (x mod 6))) <= 0 then 1 else 0)
1: (if (2x mod (2 + (x mod 6))) <= 0 then 2 else 1)
1: (if (2x mod (2 - (x div ~2))) <= 0 then 2 else 0)
1: (if (x2 mod (x + 3)) <= 0 then 0 else x)
1: (if (x2 mod (x + 3)) <= 0 then 1 else 0)
1: (if (x2 mod (x + 4)) <= 0 then 0 else 1)
1: (if (x2 mod (x + 4)) <= 0 then 1 else 0)
1: (if (x2 mod (x + 4)) <= 0 then 1 else 2)
1: (if (x2 mod (x + 4)) <= 0 then 1 else x)
1: (if (x2 mod (x + 4)) <= 0 then (2 + (x div 4)) else 1)
1: (if (x2 mod (x + 4)) <= 0 then (x div 4) else 0)
1: (if (x2 mod 7) <= 0 then (if x <= 0 then 0 else 3) else 0)
1: (if (x2 mod (8 + (x div 2))) <= 0 then 1 else 0)
1: (if (x2 mod (1 + (2 * (2 + (x div 3))))) <= 0 then 1 else 0)
1: (if (x2 mod (1 + (4 * (2 + (x mod 2))))) <= 0 then 1 else 0)
1: (if (x2 mod (1 + (3 * ((x + 1) div 2)))) <= 0 then 1 else 0)
1: (if (x2 mod (1 + (x div 2))) <= 0 then 0 else 1)
1: (if (x2 mod (1 + (x div 2))) <= 0 then 1 else 2)
1: (if (x2 mod (1 + (x div 3))) <= 0 then 1 else 0)
1: (if (x2 mod (2 + (x mod 5))) <= 0 then 1 else 0)
1: (if (x2 mod (2 + (x mod 5))) <= 0 then 1 else 2)
1: (if (x2 mod (2 + i)) <= 0 then 2 else 0)
1: (if (x2 mod (2x + ~5)) <= 0 then 1 else 0)
1: (if (((2 + (x * (x div 2))) div 3) mod 3) <= 0 then 1 else 2)
1: (if (((2x + 1) div 3) mod 3) <= 0 then 1 else x)
1: (if (((x + ((x div 2) div 3)) div 2) mod 2) <= 0 then x else 1)
1: (if (((1 + (x div 2)) div 2) mod 3) <= 0 then 2 else 0)
1: (if (((x + (x div 2)) div 2) mod 2) <= 0 then x else 1)
1: (if (((x + (if (x mod 2) <= 0 then x else 2)) div 3) mod 3) <= 0 then 1 else 0)
1: (if (((x + 1) div 2) mod 4) <= 0 then ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) else x)
1: (if (((x + 1) div 2) mod 4) <= 0 then x else (x div 2))
1: (if (((x + 1) div 2) mod 6) <= 0 then 2 else 1)
1: (if (((x + 1) div 3) mod 4) <= 0 then x else 1)
1: (if (((x + 1) div (2 + (x mod 2))) mod 2) <= 0 then x else 1)
1: (if (((x + 1) div (1 + (x mod 4))) mod 2) <= 0 then (x div 3) else 1)
1: (if (((x + 1) div (2 + (x mod 4))) mod 2) <= 0 then 2 else x)
1: (if (((x + 2) div 3) mod 4) <= 0 then 1 else 0)
1: (if (((x + 2) div 3) mod 4) <= 0 then 2 else 0)
1: (if (((x + 2) div 3) mod 4) <= 0 then 2 else 1)
1: (if (((x + 2) div 3) mod 4) <= 0 then (x + 2) else 1)
1: (if (((x + 2) div 3) mod 4) <= 0 then x else 0)
1: (if (((x + 2) div (2 + (x mod 3))) mod 2) <= 0 then 1 else x)
1: (if (((~1 + (2x mod (2 + (x div 2)))) div 2) mod 2) <= 0 then 3 else 1)
1: (if (((~1 + (2x mod (2 + (x div 2)))) div 2) mod 2) <= 0 then ~2 else 1)
1: (if (((x + ~1) div 2) mod 2) <= 0 then ~2 else 1)
1: (if (((x + ~1) div 2) mod 3) <= 0 then 1 else (x + ~1))
1: (if (((x + ~1) div 2) mod 6) <= 0 then 2 else 0)
1: (if (((x + ~1) div 3) mod 2) <= 0 then 4 else 1)
1: (if (((x + ~1) div (1 + (2 * (x mod 2)))) mod 3) <= 0 then 0 else 1)
1: (if (((x + ~2) div (1 + ((x + ~1) mod 4))) mod 2) <= 0 then x else 1)
1: (if (((x - (((x + 1) mod 5) mod 2)) div 2) mod 2) <= 0 then x else 1)
1: (if (((x * (1 + ((x + 1) div 2))) div 2) mod 4) <= 0 then 1 else 0)
1: (if ((((~x + 2) * (2 + (x div 2))) div 2) mod 3) <= 0 then 0 else 1)
1: (if (((x2 + 2x) div 2) mod 3) <= 0 then 1 else 2)
1: (if (((~x2 + x) div 8) mod 3) <= 0 then 1 else 0)
1: (if (((x * (2 - (x div 2))) div 3) mod 3) <= 0 then 1 else 0)
1: (if (((x * (2 - (x div 2))) div 3) mod 3) <= 0 then 1 else 2)
1: (if (((~x2 + 4x + ~4) div 3) mod 3) <= 0 then 0 else 1)
1: (if (((~x2 + 4x + ~4) div 3) mod 3) <= 0 then 2 else 0)
1: (if (((~x2 + 4x + ~4) div 3) mod 3) <= 0 then 2 else (if x <= 0 then 0 else 1))
1: (if (((~x2 + 4x + ~4) div (x + 2)) mod 3) <= 0 then 2 else 1)
1: (if (((x * (~1 + (x div 2))) div 2) mod 3) <= 0 then 1 else 0)
1: (if (((x * (~1 + (x mod 3))) div 2) mod 2) <= 0 then 1 else (x div 4))
1: (if ((x3 div (x + 4)) mod 3) <= 0 then 1 else 0)
1: (if ((x3 div (x + 2)) mod 3) <= 0 then 1 else 2)
1: (if ((((x + 2) * (x2 div 2)) div 3) mod 3) <= 0 then 1 else 0)
1: (if ((2x div 3) mod 3) <= 0 then (x mod 2) else 0)
1: (if ((2x div (2 + (x mod 2))) mod 3) <= 0 then (if x <= 0 then 1 else 2) else 1)
1: (if ((x2 div 2) mod 3) <= 0 then 1 else ~2)
1: (if ((x2 div 2) mod 3) <= 0 then 4 else 1)
1: (if ((x2 div 2) mod 3) <= 0 then (0 - (x mod 3)) else 1)
1: (if ((x2 div 2) mod 3) <= 0 then (x div 4) else 1)
1: (if ((x2 div 2) mod 3) <= 0 then (x div 5) else 1)
1: (if ((x2 div 2) mod (x + 3)) <= 0 then 1 else 0)
1: (if ((x2 div 2) mod (x + 3)) <= 0 then 2 else 1)
1: (if ((x2 div (x + 2)) mod 5) <= 0 then 0 else 1)
1: (if ((x2 div ~2) mod 5) <= 0 then 0 else 1)
1: (if ((((x + 1) div 2) div 2) mod 2) <= 0 then (x div 8) else 0)
1: (if ((((x2 + ~2) div 3) div 3) mod 3) <= 0 then 0 else 1)
1: (if ((((~1 + (x div 2)) div 2) div 2) mod 2) <= 0 then 1 else (x div 4))
1: (if ((((x + ~1) div 2) div 2) mod 2) <= 0 then 4 else 1)
1: (if ((((x2 + 2x) div 2) div 5) mod 2) <= 0 then (x + 1) else 0)
1: (if (((if x <= 0 then 2 else x) div (2 + (x mod 2))) mod 2) <= 0 then x else 1)
1: (if ((x div 2) mod 2) <= 0 then 1 else (1 + (if ((x div 2) mod 3) <= 0 then 2 else 1) - (x mod 2)))
1: (if ((x div 2) mod 2) <= 0 then 1 else ((x + ~1) - loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x)))
1: (if ((x div 2) mod 2) <= 0 then 1 else (2x + 2))
1: (if ((x div 2) mod 2) <= 0 then 1 else (x div 3))
1: (if ((x div 2) mod 2) <= 0 then 1 else (x mod ~2))
1: (if ((x div 2) mod 2) <= 0 then 2 else 0)
1: (if ((x div 2) mod 2) <= 0 then 2 else ~2)
1: (if ((x div 2) mod 2) <= 0 then 2 else (~1 + (2 * (x mod 2))))
1: (if ((x div 2) mod 2) <= 0 then 2 else ((x + 1) mod 2))
1: (if ((x div 2) mod 2) <= 0 then 2 else (x mod 2))
1: (if ((x div 2) mod 2) <= 0 then (1 + ((x div 5) mod 2)) else 0)
1: (if ((x div 2) mod 2) <= 0 then (~x + 2) else x)
1: (if ((x div 2) mod 2) <= 0 then 8 else 1)
1: (if ((x div 2) mod 2) <= 0 then (2x + 2) else x)
1: (if ((x div 2) mod 2) <= 0 then 28 else 1)
1: (if ((x div 2) mod 2) <= 0 then (x div 2) else 0)
1: (if ((x div 2) mod 2) <= 0 then (x div 3) else 1)
1: (if ((x div 2) mod 2) <= 0 then (x mod 2) else 2)
1: (if ((x div 2) mod 2) <= 0 then (x mod 2) else 3)
1: (if ((x div 2) mod 2) <= 0 then (x mod 2) else ~1)
1: (if ((x div 2) mod 2) <= 0 then (x mod 5) else 0)
1: (if ((x div 2) mod 2) <= 0 then (if (~x + 2) <= 0 then 2 else 1) else 0)
1: (if ((x div 2) mod 2) <= 0 then (if (~2 + (x div 3)) <= 0 then 1 else 2) else 0)
1: (if ((x div 2) mod 3) <= 0 then 0 else 2)
1: (if ((x div 2) mod 3) <= 0 then 0 else loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))
1: (if ((x div 2) mod 3) <= 0 then 1 else x)
1: (if ((x div 2) mod 3) <= 0 then 2 else x)
1: (if ((x div 2) mod 3) <= 0 then ~2 else 2)
1: (if ((x div 2) mod 3) <= 0 then ((x + ~1) div 2) else 1)
1: (if ((x div 2) mod 3) <= 0 then x else 1)
1: (if ((x div 2) mod 3) <= 0 then x else (x + 2))
1: (if ((x div 2) mod 4) <= 0 then 1 else 0)
1: (if ((x div 2) mod 4) <= 0 then 1 else 2)
1: (if ((x div 2) mod 4) <= 0 then 2 else x)
1: (if ((x div 2) mod 4) <= 0 then (if x <= 0 then 1 else 2) else 1)
1: (if ((x div 2) mod 5) <= 0 then 1 else 10)
1: (if ((x div 2) mod 5) <= 0 then 3 else x)
1: (if ((x div 2) mod 5) <= 0 then (x mod 3) else 1)
1: (if ((x div 2) mod (5 + (x mod 2))) <= 0 then 1 else 0)
1: (if ((x div 2) mod (3 + (x mod 2))) <= 0 then 1 else 2)
1: (if ((x div 2) mod (4 + (x mod 2))) <= 0 then 0 else 1)
1: (if ((x div 2) mod (4 + (x mod 2))) <= 0 then 1 else 0)
1: (if ((x div 2) mod (1 + (2 * (3 - (x mod 2))))) <= 0 then 1 else 0)
1: (if ((x div 2) mod (1 + (2 * (1 + (x mod 2))))) <= 0 then 2 else x)
1: (if ((x div 2) mod (1 + (2 * (x mod 2)))) <= 0 then 2 else 0)
1: (if ((x div 2) mod (1 + (2 * (x mod (1 + (x div 3)))))) <= 0 then 1 else 2)
1: (if ((x div 2) mod (1 + (2x mod 3))) <= 0 then 2 else x)
1: (if ((x div 2) mod (2 + ((x div 2) mod 2))) <= 0 then 1 else 0)
1: (if ((x div 2) mod (2 + ((x div 2) mod 2))) <= 0 then 2 else 1)
1: (if ((x div 2) mod (2 + (x mod 2))) <= 0 then 2 else x)
1: (if ((x div 2) mod 6) <= 0 then x else 2)
1: (if ((x div 3) mod 2) <= 0 then 1 else 2x)
1: (if ((x div 3) mod 2) <= 0 then 1 else (x div 4))
1: (if ((x div 3) mod 2) <= 0 then 2 else 0)
1: (if ((x div 3) mod 2) <= 0 then 3 else 2x)
1: (if ((x div 3) mod 2) <= 0 then 2x else 1)
1: (if ((x div 3) mod 2) <= 0 then ((x + 1) div 2) else 1)
1: (if ((x div 3) mod 2) <= 0 then (x div 4) else 1)
1: (if ((x div 3) mod 2) <= 0 then (x div 5) else 1)
1: (if ((x div 3) mod 2) <= 0 then (if x <= 0 then 1 else 2) else ~1)
1: (if ((x div 3) mod 3) <= 0 then 2 else 0)
1: (if ((x div 3) mod 3) <= 0 then 2 else 1)
1: (if ((x div 3) mod 3) <= 0 then 4 else 1)
1: (if ((x div 3) mod 3) <= 0 then (x mod 2) else 0)
1: (if ((x div 3) mod 4) <= 0 then 1 else 0)
1: (if ((x div 3) mod 5) <= 0 then 0 else 1)
1: (if ((x div 4) mod 2) <= 0 then 2 else (x + ~2))
1: (if ((x div 4) mod 2) <= 0 then 4 else 0)
1: (if ((x div 4) mod 2) <= 0 then ~2 else 2)
1: (if ((x div 4) mod 3) <= 0 then 2 else 1)
1: (if ((x div 5) mod 2) <= 0 then 1 else x)
1: (if ((x div (2 + ((x div 2) div 3))) mod 2) <= 0 then 1 else x)
1: (if ((x div (1 + (x div (2 + (x mod 2))))) mod 2) <= 0 then (x + ~1) else 1)
1: (if ((x div (1 + (x div 8))) mod 4) <= 0 then 1 else 0)
1: (if ((x div (2 + (x mod 2))) mod 4) <= 0 then 2 else 1)
1: (if ((x div ~2) mod 2) <= 0 then 2 else x)
1: (if ((x div ~2) mod 2) <= 0 then (1 - ((2 * (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 8))) mod 3)) else 0)
1: (if ((x div ~2) mod 2) <= 0 then (x mod 2) else 2)
1: (if ((x div ~2) mod 4) <= 0 then 0 else 1)
1: (if ((x div ~2) mod 4) <= 0 then 1 else 0)
1: (if ((x div ~2) mod 4) <= 0 then 2 else 1)
1: (if ((x div ~2) mod 4) <= 0 then (if x <= 0 then 1 else 2) else 1)
1: (if ((x div ~2) mod 5) <= 0 then 0 else x)
1: (if ((x div ~2) mod 5) <= 0 then 1 else 0)
1: (if ((x div ~4) mod 4) <= 0 then 1 else 2)
1: (if ((x div (~3 + (x mod 2))) mod 2) <= 0 then 1 else x)
1: (if ((x div (~1 + (x mod ~4))) mod 3) <= 0 then 1 else 0)
1: (if ((x div (3 * (1 + (x mod 2)))) mod 3) <= 0 then 0 else 1)
1: (if (((x2 + 2) mod (1 + (x div 2))) mod 3) <= 0 then 1 else 2)
1: (if (((x2 + 2) mod 6) mod (1 + (x div 2))) <= 0 then 1 else 0)
1: (if (((x + 1) mod 5) mod 2) <= 0 then ((x + 2) div 3) else 1)
1: (if (((x + 1) mod (1 + (x div 3))) mod 2) <= 0 then (x + 1) else 0)
1: (if (((x + 1) mod ~7) mod (x + 2)) <= 0 then 1 else 0)
1: (if (((x + 1) mod 8) mod 3) <= 0 then 0 else 1)
1: (if (((x + 1) mod 8) mod 3) <= 0 then 1 else 2)
1: (if (((x + 1) mod 8) mod 3) <= 0 then 2 else 0)
1: (if (((x + 1) mod 16) mod 3) <= 0 then 2 else 1)
1: (if (((x + 2) mod (2x + ~1)) mod 3) <= 0 then 2 else 1)
1: (if (((x + 2) mod 8) mod 3) <= 0 then 0 else 1)
1: (if (((x + 2) mod 8) mod 3) <= 0 then 2 else 0)
1: (if (((~x + 1) mod 8) mod 3) <= 0 then 0 else 1)
1: (if (((~x + 1) mod 8) mod 3) <= 0 then 1 else 2)
1: (if (((~x + 2) mod 8) mod 3) <= 0 then 1 else 2)
1: (if (((~1 + loop(\(x,i).4x,x,2)) mod 19) mod 2) <= 0 then 2 else (x mod 2))
1: (if (((x + ~1) mod (2 + (x mod 2))) mod 2) <= 0 then (x + ~1) else 2)
1: (if (((x + ~1) mod (2 - (x div ~2))) mod 3) <= 0 then 0 else 1)
1: (if (((x + ~3) mod (1 + (x div 2))) mod 4) <= 0 then 1 else 0)
1: (if (((x + ~3) mod (1 + (x div 2))) mod 4) <= 0 then 1 else 2)
1: (if ((5x mod 33) mod 2) <= 0 then 1 else (x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 1))))
1: (if (((x2 + ~2x) mod (x + 5)) mod 3) <= 0 then 1 else 0)
1: (if (((x2 + ~2x) mod (2 + (x div 2))) mod 2) <= 0 then 1 else x)
1: (if ((2x2 mod (2 + (x div 2))) mod 3) <= 0 then 0 else 1)
1: (if ((2x mod 5) mod 3) <= 0 then 2 else 0)
1: (if ((2x mod (3 + (x div 2))) mod 3) <= 0 then 1 else 2)
1: (if ((2x mod (2 - (x div ~2))) mod 3) <= 0 then 0 else 1)
1: (if ((x2 mod (x + 4)) mod 3) <= 0 then 1 else 2)
1: (if ((x2 mod (~2x + 5)) mod 3) <= 0 then 0 else 1)
1: (if ((((~x + 1) div 2) mod (x + 1)) mod 4) <= 0 then 1 else 0)
1: (if (((x2 div 2) mod (x + 2)) mod 4) <= 0 then 1 else 0)
1: (if ((x mod 3) mod 2) <= 0 then 2 else x)
1: (if ((x mod 3) mod 2) <= 0 then 4 else 1)
1: (if ((x mod 3) mod 2) <= 0 then (x - (x div 3)) else 1)
1: (if ((x mod 3) mod 2) <= 0 then 2x else 2)
1: (if ((x mod 3) mod (1 + (x mod 4))) <= 0 then 1 else 0)
1: (if ((x mod 5) mod 2) <= 0 then 1 else (x mod 3))
1: (if ((x mod 5) mod 2) <= 0 then 4 else 1)
1: (if ((x mod 5) mod (1 + (x div 3))) <= 0 then 1 else 0)
1: (if ((x mod 5) mod (if x <= 0 then 1 else x)) <= 0 then 1 else 2)
1: (if ((x mod (4 + (x div 2))) mod 2) <= 0 then 1 else x)
1: (if ((x mod (4 + (x mod 2))) mod 3) <= 0 then 0 else 1)
1: (if ((x mod (4 + (x mod 2))) mod 3) <= 0 then 1 else 2)
1: (if ((x mod (4 + (x mod 2))) mod 3) <= 0 then 2 else 0)
1: (if ((x mod 7) mod 3) <= 0 then 2 else 0)
1: (if ((x mod 7) mod 3) <= 0 then (x mod 3) else 1)
1: (if ((x mod (1 + (2 * (2 - (x mod 2))))) mod 2) <= 0 then 1 else x)
1: (if ((x mod (1 + (2 * (x mod 3)))) mod 2) <= 0 then 1 else x)
1: (if ((x mod (1 + ((1 + (x div 2)) div 2))) mod 2) <= 0 then 1 else (2 + (x div 3)))
1: (if ((x mod (1 + ((1 + (x div 2)) div 2))) mod 2) <= 0 then (if x <= 0 then 1 else 2) else 0)
1: (if ((x mod (1 + (x div 2))) mod 4) <= 0 then 0 else 1)
1: (if ((x mod (2 + (x div 5))) mod 3) <= 0 then 2 else 0)
1: (if ((x mod (6 + ((~x + 1) mod 4))) mod 3) <= 0 then 0 else 1)
1: (if ((x mod (2 + ((2 - (x div 2)) mod (x + 2)))) mod 3) <= 0 then 1 else 2)
1: (if ((x mod (1 + ((x + ~1) mod 4))) mod 2) <= 0 then x2 else 1)
1: (if ((x mod (2 + ((x div 2) mod 3))) mod 3) <= 0 then 1 else 2)
1: (if ((x mod (2 + (x mod 2))) mod 2) <= 0 then 1 else x)
1: (if ((x mod ~7) mod (x + 1)) <= 0 then 1 else 2)
1: (if ((x mod ~11) mod 4) <= 0 then 0 else 1)
1: (if ((x mod (1 - (2 * (x mod 4)))) mod 2) <= 0 then 1 else x)
1: (if ((x mod (2 - (x div (1 + ((x div 2) mod 2))))) mod 2) <= 0 then 1 else (x mod 4))
1: (if ((x mod 11) mod 3) <= 0 then 0 else 2)
1: (if ((x mod (~1 + (2 * (x div 3)))) mod 2) <= 0 then 1 else x)
1: (if ((x mod (~1 + (2 * (x div 4)))) mod 2) <= 0 then 1 else x)
1: (if ((x mod (~2 + ((~x + 1) div 3))) mod 3) <= 0 then 0 else 1)
1: (if ((x mod (~2 + ((~x + 2) div 4))) mod 4) <= 0 then 1 else 0)
1: (if ((x mod 6) mod (1 + (x div 3))) <= 0 then (x mod 2) else 2)
1: (if ((x mod 8) mod 3) <= 0 then 0 else 1)
1: (if ((x mod 8) mod 3) <= 0 then 1 else 0)
1: (if ((x mod 8) mod 3) <= 0 then x else 0)
1: (if ((x mod ~8) mod 3) <= 0 then 0 else 1)
1: (if ((x mod ~8) mod 3) <= 0 then 2 else 1)
1: (if ((x mod 10) mod 3) <= 0 then 1 else 0)
1: (if ((if x <= 0 then 1 else (x div ((if (x mod 2) <= 0 then 2 else x) mod 4))) mod 2) <= 0 then x else 1)
1: (if ((if x <= 0 then 1 else x) mod 2) <= 0 then 1 else 4)
1: (if ((if x <= 0 then 1 else x) mod 2) <= 0 then 2 else x2)
1: (if ((if x <= 0 then 1 else x) mod 2) <= 0 then (x + ~1) else 1)
1: (if ((if x <= 0 then 1 else x) mod 2) <= 0 then 2x else 1)
1: (if ((if x <= 0 then 1 else x) mod 5) <= 0 then (x div 3) else 1)
1: (if ((if x <= 0 then 1 else x) mod 6) <= 0 then 2 else 0)
1: (if ((if x <= 0 then 1 else x) mod 6) <= 0 then (x + ~1) else 1)
1: (if ((if x <= 0 then 1 else x) mod 8) <= 0 then (x + ~1) else 1)
1: (if ((if x <= 0 then 1 else x) mod 8) <= 0 then (x + ~2) else 0)
1: (if ((if x <= 0 then 1 else x) mod 8) <= 0 then (x + ~2) else loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))
1: (if ((if x <= 0 then 1 else x) mod 12) <= 0 then 1 else 6)
1: (if ((if x <= 0 then 1 else x) mod 12) <= 0 then 2 else 1)
1: (if ((if x <= 0 then 1 else x) mod 12) <= 0 then 4 else 1)
1: (if ((if x <= 0 then 2 else ((x + 1) div 2)) mod 3) <= 0 then 0 else 2)
1: (if ((if x <= 0 then 2 else ((x + 1) div 2)) mod 3) <= 0 then (x div 2) else 1)
1: (if ((if x <= 0 then 2 else ((x + 1) div 2)) mod 3) <= 0 then (x div 3) else 1)
1: (if ((if x <= 0 then 2 else ((x + 1) div 2)) mod 4) <= 0 then 0 else 2)
1: (if (loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) <= 0 then 2 else 1)
1: (if (loop(\(x,i).(x2 + 2x),2,2) mod (x + 1)) <= 0 then 0 else 1)
1: (if (loop(\(x,i).2x,x,3) mod (x + 3)) <= 0 then 2 else 1)
1: (if (loop(\(x,i).2x,x,(2 * (if (x mod 2) <= 0 then 10 else 1))) mod (x + 1)) <= 0 then 0 else 5)
1: (if (loop(\(x,i).x2,4,2) mod (x + 1)) <= 0 then x else (x + 1))
1: (if (loop(\(x,i).(x * i),x,1) mod (x + 1)) <= 0 then loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) else 1)
1: (if (x mod 2) <= 0 then 1 else (4 + (x div 2)))
1: (if (x mod 2) <= 0 then 1 else (1 + ((x div (2 + (x div (1 + ((2 - (x div 2)) mod 4))))) + (x mod 2))))
1: (if (x mod 2) <= 0 then 1 else (4 + (x div (2 + (x div (1 + ((x div 2) mod (1 + (x mod 4)))))))))
1: (if (x mod 2) <= 0 then 1 else (3 + (if (x mod 3) <= 0 then 0 else 2)))
1: (if (x mod 2) <= 0 then 1 else (2 + ((x mod (2 + ((x2 div 4) mod (x + 1)))) div 2)))
1: (if (x mod 2) <= 0 then 1 else (2 + (x div 4)))
1: (if (x mod 2) <= 0 then 1 else (2 + (x div (2 + (x div (1 + (x mod 4)))))))
1: (if (x mod 2) <= 0 then 1 else (2 + ((x div 2) mod 2)))
1: (if (x mod 2) <= 0 then 1 else (2 + (x mod 3)))
1: (if (x mod 2) <= 0 then 1 else (loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) + (2 * (x div 4))))
1: (if (x mod 2) <= 0 then 1 else (0 - ((x div (1 + (x mod 3))) mod 2)))
1: (if (x mod 2) <= 0 then 1 else (1 - (x div (~2 + ((~x + 2) div 4)))))
1: (if (x mod 2) <= 0 then 1 else (1 - (x mod (1 + (4 * (x mod (1 + (2 * (if (x mod 3) <= 0 then 0 else 2)))))))))
1: (if (x mod 2) <= 0 then 1 else (2 - ((1 + (((1 + loop(\(x,i).((x * (x mod 2)) + (x div 2)),x,x)) div 2) div 2)) div 2)))
1: (if (x mod 2) <= 0 then 1 else ((x + 2) - ((x + 1) mod 10)))
1: (if (x mod 2) <= 0 then 1 else (~2 + loop(\(x,i).4x,x,2)))
1: (if (x mod 2) <= 0 then 1 else 14)
1: (if (x mod 2) <= 0 then 1 else 27)
1: (if (x mod 2) <= 0 then 1 else (2 * (1 + (8 * (x mod 2)))))
1: (if (x mod 2) <= 0 then 1 else (2 * (1 + ((x mod 3) div 2))))
1: (if (x mod 2) <= 0 then 1 else 62)
1: (if (x mod 2) <= 0 then 1 else (3 * (2x - (x mod 2))))
1: (if (x mod 2) <= 0 then 1 else (2x + ~2))
1: (if (x mod 2) <= 0 then 1 else (x2 + ~x))
1: (if (x mod 2) <= 0 then 1 else 20)
1: (if (x mod 2) <= 0 then 1 else 64)
1: (if (x mod 2) <= 0 then 1 else 2x2)
1: (if (x mod 2) <= 0 then 1 else ((x div 2) * (x div 2)))
1: (if (x mod 2) <= 0 then 1 else (2 * (((~1 + (x div 2)) div 2) mod 2)))
1: (if (x mod 2) <= 0 then 1 else (2 * ((2x div (1 + (x div 3))) mod 2)))
1: (if (x mod 2) <= 0 then 1 else (2 * (if ((x + 1) mod 8) <= 0 then 8 else 2)))
1: (if (x mod 2) <= 0 then 1 else ((x + 2) div 5))
1: (if (x mod 2) <= 0 then 1 else ((x2 + 3x + 2) div 2))
1: (if (x mod 2) <= 0 then 1 else (x div (2 - (x div ~3))))
1: (if (x mod 2) <= 0 then 1 else (x div 12))
1: (if (x mod 2) <= 0 then 1 else ((x2 + 1) mod (1 + (x div 4))))
1: (if (x mod 2) <= 0 then 1 else ((1 + (x mod 8)) mod (x + 1)))
1: (if (x mod 2) <= 0 then 1 else ((x * (x mod 3)) mod 5))
1: (if (x mod 2) <= 0 then 1 else (2x mod (1 + (x div 4))))
1: (if (x mod 2) <= 0 then 1 else (((x + 1) div (1 + (2 * (((~x + 2) mod (2 + (x div 4))) div 2)))) mod 2))
1: (if (x mod 2) <= 0 then 1 else (x mod (x - ((x + ~1) mod 8))))
1: (if (x mod 2) <= 0 then 1 else (if (~1 + (x mod 5)) <= 0 then 2 else 0))
1: (if (x mod 2) <= 0 then 1 else (if (x div 2) <= 0 then x else (2 + (if (x mod 3) <= 0 then 2 else 0))))
1: (if (x mod 2) <= 0 then 1 else (if ((x + 1) mod 8) <= 0 then 2 else 0))
1: (if (x mod 2) <= 0 then 1 else (if ((~x + 1) mod 3) <= 0 then 2 else x))
1: (if (x mod 2) <= 0 then 1 else (if ((x div 2) mod 2) <= 0 then (2x + 2) else x))
1: (if (x mod 2) <= 0 then 1 else (if (x mod 3) <= 0 then 2 else (1 + ((x + (x div 2)) div 2))))
1: (if (x mod 2) <= 0 then 1 else (if (x mod 3) <= 0 then (4 - ((x div 2) mod 2)) else 1))
1: (if (x mod 2) <= 0 then 1 else loop(\(x,i).(2 * (2x + (x div (if i <= 0 then 1 else i)))),(x div 2),1))
1: (if (x mod 2) <= 0 then 1 else loop(\(x,i).(2x + 4),(x + ~1),0))
1: (if (x mod 2) <= 0 then 1 else loop(\(x,i).(10x + 10),x,0))
1: (if (x mod 2) <= 0 then 2 else (1 + (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))))
1: (if (x mod 2) <= 0 then 2 else (1 + (if (x mod 3) <= 0 then 2 else 0)))
1: (if (x mod 2) <= 0 then 2 else ~1)
1: (if (x mod 2) <= 0 then 2 else (~1 + ((x2 + 2x) div 2)))
1: (if (x mod 2) <= 0 then 2 else (10x + 5))
1: (if (x mod 2) <= 0 then 2 else (3 * (2 - (x mod 4))))
1: (if (x mod 2) <= 0 then 2 else (6 * ((if (x mod 3) <= 0 then 1 else x) mod 6)))
1: (if (x mod 2) <= 0 then 2 else 3x2)
1: (if (x mod 2) <= 0 then 2 else ((~x + 1) div 2))
1: (if (x mod 2) <= 0 then 2 else ((x2 + 3x + 2) div 2))
1: (if (x mod 2) <= 0 then 2 else (x div 4))
1: (if (x mod 2) <= 0 then 2 else (x div (2 * loop(\(x,i).(x div (~2 + (x mod 2))),x,(x + 1)))))
1: (if (x mod 2) <= 0 then 2 else ((x + ~2) mod (1 + (x div 4))))
1: (if (x mod 2) <= 0 then 2 else (((2 - (x div 2)) mod (x + 2)) mod 2))
1: (if (x mod 2) <= 0 then 2 else (((x + ~1) mod (3 + (x div (1 + (x mod 4))))) mod 2))
1: (if (x mod 2) <= 0 then 2 else ((x mod (1 + ((1 + (x div 2)) div 2))) mod 2))
1: (if (x mod 2) <= 0 then 2 else (x mod ~4))
1: (if (x mod 2) <= 0 then 2 else (x mod 10))
1: (if (x mod 2) <= 0 then 2 else (if (~x + 2) <= 0 then ((x2 + 2x) mod 6) else 1))
1: (if (x mod 2) <= 0 then 2 else loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),x,x))
1: (if (x mod 2) <= 0 then 2 else i)
1: (if (x mod 2) <= 0 then 3 else (x + ((x + (x mod 2)) div 3)))
1: (if (x mod 2) <= 0 then 3 else 2x3)
1: (if (x mod 2) <= 0 then 3 else x3)
1: (if (x mod 2) <= 0 then 3 else ((1 + (x div 2)) mod 2))
1: (if (x mod 2) <= 0 then 4 else (2 div (x + 1)))
1: (if (x mod 2) <= 0 then 4 else ((x + 1) mod (2 + (x mod 2))))
1: (if (x mod 2) <= 0 then 4 else (x mod 4))
1: (if (x mod 2) <= 0 then 4 else (x mod ~2))
1: (if (x mod 2) <= 0 then 4 else x)
1: (if (x mod 2) <= 0 then 5 else 0)
1: (if (x mod 2) <= 0 then (1 + ((if (~1 + (x mod 3)) <= 0 then x else 2) + (if (~x + 2) <= 0 then 2 else 1))) else 1)
1: (if (x mod 2) <= 0 then (1 + ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2) - (x mod 2)) else 1)
1: (if (x mod 2) <= 0 then (8 + (x div 2)) else (x div 2))
1: (if (x mod 2) <= 0 then (2x + 5) else 0)
1: (if (x mod 2) <= 0 then (3x + 4) else loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))
1: (if (x mod 2) <= 0 then (~4x + 9) else (x div 2))
1: (if (x mod 2) <= 0 then (1 + (2 * ((x + 1) - (x div ~5)))) else ~2)
1: (if (x mod 2) <= 0 then (1 + (2 * (x - ((1 + (x mod 4)) div 2)))) else 2)
1: (if (x mod 2) <= 0 then (x + 20) else (x div 2))
1: (if (x mod 2) <= 0 then (8x + (x div 2)) else 0)
1: (if (x mod 2) <= 0 then (8x + (x div 2)) else x)
1: (if (x mod 2) <= 0 then (6x + (x div 2)) else x)
1: (if (x mod 2) <= 0 then (1 + (2 * (((~x2 + 1) - (x mod 2)) mod (x + 3)))) else 2)
1: (if (x mod 2) <= 0 then (1 + (2 * ((8 mod (~x + ~1)) mod 3))) else 1)
1: (if (x mod 2) <= 0 then ((5 * (if (x mod 4) <= 0 then (5 * (if x <= 0 then 1 else 2)) else 1)) + (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then ((3 * (if (x mod 4) <= 0 then (2 * (2 + (if x <= 0 then 0 else 2))) else 1)) + (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then (2x + 1) else 0)
1: (if (x mod 2) <= 0 then (1 + ((1 + ((x + (((~1 + (2 * (x mod 4))) * (x div 2)) div 2)) div 2)) div 2)) else 0)
1: (if (x mod 2) <= 0 then (1 + ((1 + ((x * (x div 2)) div 4)) div 3)) else 0)
1: (if (x mod 2) <= 0 then (1 + ((1 + (x div 2)) div 2)) else 0)
1: (if (x mod 2) <= 0 then (1 + ((2 * (1 + ((1 + (((1 + (((x + 1) * (1 + (2 * (((x div 3) * (x div 2)) div 2)))) div 2)) div 2) div 2)) div 2))) div 3)) else 0)
1: (if (x mod 2) <= 0 then (1 + ((2 * (1 + ((1 + (loop(\(x,i).(x + i),(x + ~2),1) div 2)) div 2))) div 3)) else 0)
1: (if (x mod 2) <= 0 then (1 + ((x2 + 2x) div 2)) else x2)
1: (if (x mod 2) <= 0 then (1 + (((~x + 2) div 2) div 5)) else 0)
1: (if (x mod 2) <= 0 then (1 + ((x mod (1 + (x div 4))) div 2)) else 0)
1: (if (x mod 2) <= 0 then (1 + ((x mod (2 + (((~x + 2) div 2) mod 4))) div 2)) else 0)
1: (if (x mod 2) <= 0 then (1 + (x div 2)) else (x + ~1))
1: (if (x mod 2) <= 0 then (2 + (x div 2)) else 1)
1: (if (x mod 2) <= 0 then (2 + (x div 2)) else ~8)
1: (if (x mod 2) <= 0 then (2x + (x div 2)) else 0)
1: (if (x mod 2) <= 0 then (x + (x div 2)) else 0)
1: (if (x mod 2) <= 0 then (1 + (x div (1 + (2 * (2 + ((~x + 2) mod 4)))))) else 0)
1: (if (x mod 2) <= 0 then (1 + ((1 + ((x + 1) mod 4)) mod (1 + (x mod 3)))) else 0)
1: (if (x mod 2) <= 0 then (1 + ((1 + (if (x mod 5) <= 0 then 0 else (x div 5))) mod (x + 1))) else 1)
1: (if (x mod 2) <= 0 then (2 + (4x mod (4 + (x div 4)))) else 1)
1: (if (x mod 2) <= 0 then (1 + ((x div 2) mod 2)) else 8)
1: (if (x mod 2) <= 0 then (2 + ((x div 2) mod 2)) else 1)
1: (if (x mod 2) <= 0 then (1 + ((x div 3) mod 2)) else 0)
1: (if (x mod 2) <= 0 then (2 + ((if (x + ~2) <= 0 then 1 else x) mod 2)) else 1)
1: (if (x mod 2) <= 0 then (2 + (x mod 4)) else ~3)
1: (if (x mod 2) <= 0 then (1 + (x mod (2 + ((x + ~1) mod 3)))) else 0)
1: (if (x mod 2) <= 0 then (2 + (if (~1 + (x mod 3)) <= 0 then x else 2)) else 1)
1: (if (x mod 2) <= 0 then (1 + (if (x mod 3) <= 0 then 2 else 0)) else 0)
1: (if (x mod 2) <= 0 then ((if (x mod 4) <= 0 then (14 * (2 + (if x <= 0 then 0 else 2))) else 1) + (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then ((if (x mod 4) <= 0 then (9 * (2 + (if x <= 0 then 0 else 2))) else 1) + (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then ((if (x mod 4) <= 0 then (9 * (if x <= 0 then 1 else 2)) else 1) + (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then (1 + (if (x mod 5) <= 0 then 0 else (1 + (x div 5)))) else 1)
1: (if (x mod 2) <= 0 then (1 + (if x <= 0 then 0 else 2)) else 2x)
1: (if (x mod 2) <= 0 then (2x + (if x <= 0 then 1 else x)) else (x div 2))
1: (if (x mod 2) <= 0 then ((if x <= 0 then 1 else x) + (x div 2)) else ~x)
1: (if (x mod 2) <= 0 then (1 + loop(\(x,i).((x + 1) - (if x <= 0 then 1 else (if (x mod (1 + ((x + ~1) mod 9))) <= 0 then 2 else 0))),x,x)) else 1)
1: (if (x mod 2) <= 0 then (x + 1) else ~x)
1: (if (x mod 2) <= 0 then (x + 1) else 8)
1: (if (x mod 2) <= 0 then (x + 1) else (2x + 4))
1: (if (x mod 2) <= 0 then (x + 1) else x2)
1: (if (x mod 2) <= 0 then (x + 1) else (x div 2))
1: (if (x mod 2) <= 0 then (x + 2) else 1)
1: (if (x mod 2) <= 0 then (x + 2) else (3 * ((x + 2) + (x div 2))))
1: (if (x mod 2) <= 0 then (x + 2) else (x div 2))
1: (if (x mod 2) <= 0 then ~1 else 2)
1: (if (x mod 2) <= 0 then ~2 else (if (~x + 2) <= 0 then 2 else 1))
1: (if (x mod 2) <= 0 then (1 - (2 * (x mod 4))) else x)
1: (if (x mod 2) <= 0 then (1 - ((x + ((x - (x mod 4)) div 3)) mod 3)) else 0)
1: (if (x mod 2) <= 0 then (1 - ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 9)) else 1)
1: (if (x mod 2) <= 0 then (1 - (if x <= 0 then 2 else 0)) else (x div 2))
1: (if (x mod 2) <= 0 then (1 - loop(\(x,i).(10 * (x - (i mod 2))),x,0)) else 0)
1: (if (x mod 2) <= 0 then (~x + 1) else (x + 3))
1: (if (x mod 2) <= 0 then (~x + 1) else (x + 2))
1: (if (x mod 2) <= 0 then (~x + 1) else 2x)
1: (if (x mod 2) <= 0 then (2 - ((x2 + x) mod 8)) else 1)
1: (if (x mod 2) <= 0 then (2 - (((if x <= 0 then 2 else x) div 2) mod 2)) else ~1)
1: (if (x mod 2) <= 0 then (2 - (if x <= 0 then 1 else x)) else (x + ~2))
1: (if (x mod 2) <= 0 then (~x + 2) else (x + 5))
1: (if (x mod 2) <= 0 then (~x + 2) else (x div 2))
1: (if (x mod 2) <= 0 then (~3x + 1) else 3x)
1: (if (x mod 2) <= 0 then (~x + 8) else 2)
1: (if (x mod 2) <= 0 then 23 else 1)
1: (if (x mod 2) <= 0 then 31 else 1)
1: (if (x mod 2) <= 0 then (12x - (x div 2)) else x)
1: (if (x mod 2) <= 0 then (~1 + (2 * (((~1 + (x div 2)) div 2) mod 2))) else 0)
1: (if (x mod 2) <= 0 then (~1 + (2 * (x mod 2))) else x)
1: (if (x mod 2) <= 0 then (2x + ~1) else 2)
1: (if (x mod 2) <= 0 then (2x - ((x div 2) mod 2)) else 1)
1: (if (x mod 2) <= 0 then (2x - (if x <= 0 then 0 else 1)) else 2)
1: (if (x mod 2) <= 0 then (~1 + ((~x + 2) div 4)) else x)
1: (if (x mod 2) <= 0 then (~2 + ((x + ~1) div 2)) else 0)
1: (if (x mod 2) <= 0 then (~1 + ((16 mod (x + 1)) div 2)) else 0)
1: (if (x mod 2) <= 0 then (~2 + ((x mod 3) div 2)) else 0)
1: (if (x mod 2) <= 0 then (~1 + (2x mod (4 + (x div 2)))) else 0)
1: (if (x mod 2) <= 0 then (~1 + ((x div 2) mod 5)) else 0)
1: (if (x mod 2) <= 0 then (~2 + (if x <= 0 then 2 else 0)) else 3)
1: (if (x mod 2) <= 0 then (~2 + (if x <= 0 then 2 else x)) else (~x + 2))
1: (if (x mod 2) <= 0 then (~1 + loop(\(x,i).2x,x,2)) else 2)
1: (if (x mod 2) <= 0 then (x + ~4) else 0)
1: (if (x mod 2) <= 0 then 6 else (1 + i))
1: (if (x mod 2) <= 0 then 6 else x)
1: (if (x mod 2) <= 0 then 3x else 0)
1: (if (x mod 2) <= 0 then 3x else 1)
1: (if (x mod 2) <= 0 then 12 else x)
1: (if (x mod 2) <= 0 then 5x else (1 + (x div 2)))
1: (if (x mod 2) <= 0 then (3 * (3x + (x div 2))) else x)
1: (if (x mod 2) <= 0 then 14 else 1)
1: (if (x mod 2) <= 0 then 27 else 1)
1: (if (x mod 2) <= 0 then 45 else 1)
1: (if (x mod 2) <= 0 then 26 else 1)
1: (if (x mod 2) <= 0 then ((1 + (12 * (2 - (x mod 4)))) * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then (19 * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then 51 else 1)
1: (if (x mod 2) <= 0 then (17 * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then ((1 + (4 * ((~x + 2) mod 4))) * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then ((1 + (6 * ((~x + 2) mod 4))) * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then ((1 + (10 * ((~x + 2) mod 4))) * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then ((1 + (14 * ((~x + 2) mod 4))) * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then ((1 + (4 * (if (x mod 4) <= 0 then 4 else 1))) * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then ((1 + (3 * ((~x + 2) mod 4))) * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then ((1 + (9 * ((~x + 2) mod 4))) * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then ((1 + (2 * ((x + ~1) mod 4))) * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then ((2 + (3 * ((x + ~1) mod 4))) * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then ((1 + (2 * (if (x mod 2) <= 0 then (if (x mod 4) <= 0 then 13 else 2) else (x div 2)))) * (if x <= 0 then 1 else 2)) else 2)
1: (if (x mod 2) <= 0 then ((1 + (2 * (if (x mod 4) <= 0 then 9 else 1))) * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then (6x + 3) else x)
1: (if (x mod 2) <= 0 then (5 * (2x + (x div 2))) else x)
1: (if (x mod 2) <= 0 then (3 * (x + (x div 2))) else 0)
1: (if (x mod 2) <= 0 then (3 * (x + (x div 2))) else x)
1: (if (x mod 2) <= 0 then (5 * (x + (x div 2))) else x)
1: (if (x mod 2) <= 0 then (2 * (1 + ((x div 3) mod 2))) else 1)
1: (if (x mod 2) <= 0 then (2 * (2 + (x mod 4))) else 1)
1: (if (x mod 2) <= 0 then ((1 + (if ((x div 2) mod 2) <= 0 then 28 else 1)) * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then ((1 + (if (x mod 4) <= 0 then 4 else 1)) * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then (2x + 2) else (x div 2))
1: (if (x mod 2) <= 0 then (2x + 4) else (x div 2))
1: (if (x mod 2) <= 0 then (x2 + 4x + 4) else 2)
1: (if (x mod 2) <= 0 then (x2 + 2x) else 0)
1: (if (x mod 2) <= 0 then (2 * (2 - ((x mod 3) div 2))) else 1)
1: (if (x mod 2) <= 0 then (5 * (2 - (x mod 4))) else 1)
1: (if (x mod 2) <= 0 then (9 * (2 - (x mod 4))) else 1)
1: (if (x mod 2) <= 0 then 22 else 1)
1: (if (x mod 2) <= 0 then ((~1 + (5 * (2 + ((~x + 2) mod 4)))) * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then ((~1 + (7 * (1 + ((x + ~1) mod 4)))) * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then ((~1 + (5 * (2 - ((x div 2) mod 2)))) * (if x <= 0 then 1 else 2)) else 2)
1: (if (x mod 2) <= 0 then ((~1 + (7 * (2 - ((x div 2) mod 2)))) * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then (29 * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then (23 * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then ((~1 + (6 * (1 + (2 * ((~x + 2) mod 4))))) * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then ((~1 + (4 * (2 + ((~x + 2) mod 4)))) * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then ((~1 + (6 * (2 + ((~x + 2) mod 4)))) * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then ((~1 + (6 * (if (x mod 4) <= 0 then 4 else 1))) * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then ((~1 + (2 * ((x + ~1) mod 4))) * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then ((~1 + (4 * ((x + ~1) mod 4))) * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then ((~1 + (5 * ((x + ~1) mod 4))) * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then ((~1 + (7 * ((x + ~1) mod 4))) * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then ((~1 + (9 * ((x + ~1) mod 4))) * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then ((~1 + (8 * ((x + ~1) mod 4))) * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then ((~1 + (9 * (x mod 6))) * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then ((~1 + (5 * (if (x mod 4) <= 0 then 2 else 1))) * (if x <= 0 then 1 else 2)) else 0)
1: (if (x mod 2) <= 0 then ((~1 + (5 * (if (x mod 4) <= 0 then 4 else 1))) * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then ((~1 + (5 * (if (x mod 4) <= 0 then 6 else 1))) * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then (3x + ~6) else 1)
1: (if (x mod 2) <= 0 then 18 else 0)
1: (if (x mod 2) <= 0 then 16 else 0)
1: (if (x mod 2) <= 0 then 40 else 1)
1: (if (x mod 2) <= 0 then 36 else 1)
1: (if (x mod 2) <= 0 then (25 * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then 28 else 0)
1: (if (x mod 2) <= 0 then (14x + 28) else 2)
1: (if (x mod 2) <= 0 then (26 * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then (2 * ((1 + (3 * (2 - (x mod 4)))) * (if x <= 0 then 1 else 2))) else 1)
1: (if (x mod 2) <= 0 then (3 * ((1 + (2 * ((~x + 2) mod 4))) * (if x <= 0 then 1 else 2))) else 1)
1: (if (x mod 2) <= 0 then (3 * ((1 + (if (x mod 4) <= 0 then 8 else 1)) * (if x <= 0 then 1 else 2))) else 1)
1: (if (x mod 2) <= 0 then (10 * (2 + (if x <= 0 then 0 else 2))) else 1)
1: (if (x mod 2) <= 0 then (14 * (2 + (if x <= 0 then 0 else 2))) else 1)
1: (if (x mod 2) <= 0 then (9 * (2 + (if x <= 0 then 0 else 2))) else 1)
1: (if (x mod 2) <= 0 then (5 * ((2 - ((x div 2) mod 2)) * (if x <= 0 then 1 else 2))) else 1)
1: (if (x mod 2) <= 0 then (22 * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then (16 * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then (24 * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then 8x else 0)
1: (if (x mod 2) <= 0 then 12x else 0)
1: (if (x mod 2) <= 0 then (4 * (if (x mod 4) <= 0 then 4 else 1)) else 1)
1: (if (x mod 2) <= 0 then (2 * ((if (x mod 4) <= 0 then 4 else 1) * (if x <= 0 then 1 else 2))) else 1)
1: (if (x mod 2) <= 0 then (2 * ((if (x mod 4) <= 0 then 13 else 1) * (if x <= 0 then 1 else 2))) else 1)
1: (if (x mod 2) <= 0 then (4 * (if (x mod 4) <= 0 then (5 * (if x <= 0 then 1 else 2)) else 1)) else 1)
1: (if (x mod 2) <= 0 then (4 * (if x <= 0 then 0 else 2)) else 1)
1: (if (x mod 2) <= 0 then (9 * (if x <= 0 then 1 else 2)) else 0)
1: (if (x mod 2) <= 0 then (15 * (if x <= 0 then 1 else 2)) else 2)
1: (if (x mod 2) <= 0 then (21 * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then (21 * (if x <= 0 then 1 else 2)) else 2)
1: (if (x mod 2) <= 0 then (27 * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then (27 * (if x <= 0 then 1 else 2)) else 2)
1: (if (x mod 2) <= 0 then 4x else 0)
1: (if (x mod 2) <= 0 then 6x else 0)
1: (if (x mod 2) <= 0 then (2 * (x div 4)) else 0)
1: (if (x mod 2) <= 0 then (2 * (((x + (x div 4)) div 2) mod 2)) else 1)
1: (if (x mod 2) <= 0 then (2 * (((x - (x div 4)) div 2) mod 2)) else 1)
1: (if (x mod 2) <= 0 then (2 * ((((~1 + (x div 2)) div 2) div 2) mod 2)) else 1)
1: (if (x mod 2) <= 0 then (2 * (((x div 2) div 3) mod 2)) else 1)
1: (if (x mod 2) <= 0 then (3 * ((x div 3) mod 2)) else 2)
1: (if (x mod 2) <= 0 then (2 * ((x div 5) mod 2)) else 1)
1: (if (x mod 2) <= 0 then (3 * (if (~2 + (x div 3)) <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then (3 * (if (x mod 2) <= 0 then ((~1 + (9 * (2 - ((x div 2) mod 2)))) * (if x <= 0 then 1 else 2)) else 1)) else 1)
1: (if (x mod 2) <= 0 then (2 * (if (x mod 3) <= 0 then (8 * (if x <= 0 then 1 else 2)) else 1)) else 1)
1: (if (x mod 2) <= 0 then ((if (x mod 4) <= 0 then 17 else 2) * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then (5 * (if (x mod 4) <= 0 then (2 + (if x <= 0 then 0 else 2)) else 1)) else 1)
1: (if (x mod 2) <= 0 then ((if (x mod 4) <= 0 then 23 else 2) * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then (2 * (if (x mod 4) <= 0 then 8 else 1)) else 0)
1: (if (x mod 2) <= 0 then (3 * (if (x mod 4) <= 0 then (2 * (2 + (if x <= 0 then 0 else 2))) else 1)) else 1)
1: (if (x mod 2) <= 0 then (5 * (if (x mod 4) <= 0 then (2 * (2 + (if x <= 0 then 0 else 2))) else 1)) else 1)
1: (if (x mod 2) <= 0 then (7 * (if (x mod 4) <= 0 then (2 * (2 + (if x <= 0 then 0 else 2))) else 1)) else 2)
1: (if (x mod 2) <= 0 then (3 * (if (x mod 4) <= 0 then (3 * (2 + (if x <= 0 then 0 else 2))) else 1)) else 1)
1: (if (x mod 2) <= 0 then (3 * (if (x mod 4) <= 0 then (8 * (if x <= 0 then 1 else 2)) else 1)) else 1)
1: (if (x mod 2) <= 0 then (3 * (if (x mod 4) <= 0 then (9 * (if x <= 0 then 1 else 2)) else 2)) else 1)
1: (if (x mod 2) <= 0 then (3 * (if (x mod 4) <= 0 then (3 * (if x <= 0 then 1 else 2)) else 1)) else 1)
1: (if (x mod 2) <= 0 then (8 * (if (x mod 4) <= 0 then (3 * (if x <= 0 then 1 else 2)) else 1)) else 1)
1: (if (x mod 2) <= 0 then (3 * (if (if (x mod (2 + (x mod 4))) <= 0 then x else 0) <= 0 then 1 else 2)) else 1)
1: (if (x mod 2) <= 0 then (2 * (if x <= 0 then 0 else 2)) else 1)
1: (if (x mod 2) <= 0 then (3 * (if x <= 0 then 0 else 2)) else 0)
1: (if (x mod 2) <= 0 then ((x + ~1) * (if x <= 0 then 0 else 2)) else 1)
1: (if (x mod 2) <= 0 then (loop(\(x,i).(2x2 + 3x + 1),2,1) * (if x <= 0 then 1 else 2)) else 0)
1: (if (x mod 2) <= 0 then 2x else 3)
1: (if (x mod 2) <= 0 then 2x else (x div 2))
1: (if (x mod 2) <= 0 then 2x else compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: (if (x mod 2) <= 0 then x2 else 0)
1: (if (x mod 2) <= 0 then x2 else 2)
1: (if (x mod 2) <= 0 then x2 else loop(\(x,i).x3,x,x))
1: (if (x mod 2) <= 0 then (i * i) else 1)
1: (if (x mod 2) <= 0 then ((x + 2) div 5) else 1)
1: (if (x mod 2) <= 0 then ((x + 2) div (2 + (x div 4))) else 2)
1: (if (x mod 2) <= 0 then ((~x + 1) div 3) else 1)
1: (if (x mod 2) <= 0 then ((~x + 1) div 3) else x)
1: (if (x mod 2) <= 0 then ((2 - (x div 3)) div 2) else 0)
1: (if (x mod 2) <= 0 then ((x2 + 2x) div 8) else x)
1: (if (x mod 2) <= 0 then (x2 div 2) else 1)
1: (if (x mod 2) <= 0 then (x2 div 2) else 2)
1: (if (x mod 2) <= 0 then ((x mod 3) div 2) else x)
1: (if (x mod 2) <= 0 then ((if (x mod (1 + (if (x mod 4) <= 0 then 0 else 2))) <= 0 then 2 else x) div 2) else x)
1: (if (x mod 2) <= 0 then ((if x <= 0 then 2 else x) div 2) else 2)
1: (if (x mod 2) <= 0 then (x div 2) else 3)
1: (if (x mod 2) <= 0 then (x div 2) else (x + 9))
1: (if (x mod 2) <= 0 then (x div 2) else ((x + 1) + i))
1: (if (x mod 2) <= 0 then (x div 2) else (3x + i))
1: (if (x mod 2) <= 0 then (x div 2) else ((2x + 1) - (x div ~2)))
1: (if (x mod 2) <= 0 then (x div 2) else (x + 8))
1: (if (x mod 2) <= 0 then (x div 2) else (31x + 1))
1: (if (x mod 2) <= 0 then (x div 2) else 19)
1: (if (x mod 2) <= 0 then (x div 2) else (15x + 1))
1: (if (x mod 2) <= 0 then (x div 2) else (1 + (9 * (~1 + (5 * loop(\(x,i).7x,x,2))))))
1: (if (x mod 2) <= 0 then (x div 2) else (1 + ((if ((x + ~1) mod 3) <= 0 then 1 else x) * (x mod 2))))
1: (if (x mod 2) <= 0 then (x div 2) else (1 + (2 * loop(\(x,i).(2x - (x mod 4)),2,2x))))
1: (if (x mod 2) <= 0 then (x div 2) else (1 + (9 * loop(\(x,i).(x div (1 + (x mod 2))),x,x))))
1: (if (x mod 2) <= 0 then (x div 2) else (2x + 1))
1: (if (x mod 2) <= 0 then (x div 2) else (x2 + 2))
1: (if (x mod 2) <= 0 then (x div 2) else (x + (i * i)))
1: (if (x mod 2) <= 0 then (x div 2) else (1 + (8x div 5)))
1: (if (x mod 2) <= 0 then (x div 2) else (2 + (if (~x + 2) <= 0 then x else 0)))
1: (if (x mod 2) <= 0 then (x div 2) else (x + i))
1: (if (x mod 2) <= 0 then (x div 2) else ~2)
1: (if (x mod 2) <= 0 then (x div 2) else (1 - (2 * ((x div 4) mod 2))))
1: (if (x mod 2) <= 0 then (x div 2) else (~x + 1))
1: (if (x mod 2) <= 0 then (x div 2) else ((x + ~1) + loop(\(x,i).x2,2,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))))
1: (if (x mod 2) <= 0 then (x div 2) else (3x + 5))
1: (if (x mod 2) <= 0 then (x div 2) else (9x2 + 6x + ~1))
1: (if (x mod 2) <= 0 then (x div 2) else (x + ~2))
1: (if (x mod 2) <= 0 then (x div 2) else (7x + ~1))
1: (if (x mod 2) <= 0 then (x div 2) else ((~x + 1) + i))
1: (if (x mod 2) <= 0 then (x div 2) else 6)
1: (if (x mod 2) <= 0 then (x div 2) else 5x)
1: (if (x mod 2) <= 0 then (x div 2) else (10x2 + 7x + 1))
1: (if (x mod 2) <= 0 then (x div 2) else (2x + 2))
1: (if (x mod 2) <= 0 then (x div 2) else (x * (1 + i)))
1: (if (x mod 2) <= 0 then (x div 2) else (2x + ~2))
1: (if (x mod 2) <= 0 then (x div 2) else (6x + 6))
1: (if (x mod 2) <= 0 then (x div 2) else 4x)
1: (if (x mod 2) <= 0 then (x div 2) else (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))
1: (if (x mod 2) <= 0 then (x div 2) else (if (~x + 2) <= 0 then (2 + (x div 2)) else 1))
1: (if (x mod 2) <= 0 then (x div 2) else (if ((x + ~1) mod 3) <= 0 then 1 else x))
1: (if (x mod 2) <= 0 then (x div 2) else loop(\(x,i).i,((~1 + (x div 2)) div 2),1))
1: (if (x mod 2) <= 0 then (x div 3) else 0)
1: (if (x mod 2) <= 0 then (x div 4) else 0)
1: (if (x mod 2) <= 0 then (x div 4) else 2)
1: (if (x mod 2) <= 0 then (x div 4) else (x + ~1))
1: (if (x mod 2) <= 0 then (x div 5) else 2)
1: (if (x mod 2) <= 0 then (x div 7) else 0)
1: (if (x mod 2) <= 0 then (x div (2 + (x div (2 + (x mod 3))))) else 0)
1: (if (x mod 2) <= 0 then (x div 8) else ~1)
1: (if (x mod 2) <= 0 then (x div (2 * (2 + ((x + ~1) mod 3)))) else 1)
1: (if (x mod 2) <= 0 then (x div (2 * (2 + ((x div 2) mod 5)))) else 1)
1: (if (x mod 2) <= 0 then (2 mod (1 + (x div 4))) else 1)
1: (if (x mod 2) <= 0 then (2 mod (if (x mod 3) <= 0 then 1 else x)) else 1)
1: (if (x mod 2) <= 0 then ((1 + ((x2 + (x div 2)) div 3)) mod 3) else 0)
1: (if (x mod 2) <= 0 then ((1 + (x div 2)) mod 4) else 1)
1: (if (x mod 2) <= 0 then ((1 + (x div 2)) mod 6) else x)
1: (if (x mod 2) <= 0 then ((1 + (x div 3)) mod (1 + (2 * (x mod 3)))) else 0)
1: (if (x mod 2) <= 0 then ((1 + (x div 4)) mod 2) else 2)
1: (if (x mod 2) <= 0 then ((2 + (x div 4)) mod 4) else 0)
1: (if (x mod 2) <= 0 then ((1 + (x mod 8)) mod (x + 1)) else 0)
1: (if (x mod 2) <= 0 then ((1 + (x mod 8)) mod (x + 1)) else 1)
1: (if (x mod 2) <= 0 then ((x + 1) mod (2 + (x div 4))) else 0)
1: (if (x mod 2) <= 0 then ((x + 1) mod (1 + (x mod 4))) else 2)
1: (if (x mod 2) <= 0 then ((~x + 1) mod 5) else 1)
1: (if (x mod 2) <= 0 then ((x + ~1) mod (1 + (x div 4))) else 1)
1: (if (x mod 2) <= 0 then ((x + ~1) mod 8) else 0)
1: (if (x mod 2) <= 0 then ((2x + 2) mod (2 + (x div 4))) else 1)
1: (if (x mod 2) <= 0 then ((~x2 + x) mod 5) else 0)
1: (if (x mod 2) <= 0 then (x3 mod 30) else x)
1: (if (x mod 2) <= 0 then ((x * (x div 3)) mod 3) else 2)
1: (if (x mod 2) <= 0 then (2x mod (4 + (x div 2))) else 0)
1: (if (x mod 2) <= 0 then (((x + (x div 4)) div 2) mod 2) else 1)
1: (if (x mod 2) <= 0 then (((x + 1) div 5) mod 3) else 0)
1: (if (x mod 2) <= 0 then (((x + 2) div 3) mod 4) else 1)
1: (if (x mod 2) <= 0 then (((x + ~1) div 2) mod 4) else 1)
1: (if (x mod 2) <= 0 then (((x + ~1) div 3) mod 2) else 2)
1: (if (x mod 2) <= 0 then (((x + ~1) div 5) mod 2) else 1)
1: (if (x mod 2) <= 0 then (((x - (x div 4)) div 2) mod 2) else 2)
1: (if (x mod 2) <= 0 then ((x2 div 3) mod 3) else 0)
1: (if (x mod 2) <= 0 then ((x div 2) mod 2) else 2)
1: (if (x mod 2) <= 0 then ((x div 2) mod 2) else (x + ~1))
1: (if (x mod 2) <= 0 then ((x div 2) mod 2) else x)
1: (if (x mod 2) <= 0 then ((x div 2) mod 5) else 0)
1: (if (x mod 2) <= 0 then ((x div 2) mod ~2) else 1)
1: (if (x mod 2) <= 0 then ((x div (1 + (x mod 4))) mod 3) else 1)
1: (if (x mod 2) <= 0 then (x mod 3) else 2)
1: (if (x mod 2) <= 0 then (x mod 4) else ~1)
1: (if (x mod 2) <= 0 then (x mod 5) else 1)
1: (if (x mod 2) <= 0 then (x mod 6) else 1)
1: (if (x mod 2) <= 0 then (x mod 8) else 1)
1: (if (x mod 2) <= 0 then (x mod 14) else 0)
1: (if (x mod 2) <= 0 then (if (~2 + (x div 3)) <= 0 then 1 else 2) else 0)
1: (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 0)
1: (if (x mod 2) <= 0 then (if (x + ~2) <= 0 then 1 else 2) else 6)
1: (if (x mod 2) <= 0 then (if (x + ~2) <= 0 then 1 else x3) else x)
1: (if (x mod 2) <= 0 then (if (4 mod (1 + (x div 2))) <= 0 then 1 else 2) else 0)
1: (if (x mod 2) <= 0 then (if ((x + 2) mod (2 + ((x div 2) mod 2))) <= 0 then 2 else 0) else 1)
1: (if (x mod 2) <= 0 then (if ((x + ~2) mod 8) <= 0 then 2 else x) else 1)
1: (if (x mod 2) <= 0 then (if ((if x <= 0 then 1 else x) mod 3) <= 0 then 2 else 1) else 0)
1: (if (x mod 2) <= 0 then (if (x mod 3) <= 0 then 1 else x) else 2)
1: (if (x mod 2) <= 0 then (if (x mod 3) <= 0 then 1 else x) else 3)
1: (if (x mod 2) <= 0 then (if (x mod 3) <= 0 then 1 else x) else (x mod 3))
1: (if (x mod 2) <= 0 then (if (x mod 3) <= 0 then (23 * (if x <= 0 then 1 else 2)) else 1) else 2)
1: (if (x mod 2) <= 0 then (if (x mod 3) <= 0 then (8 * (if x <= 0 then 1 else 2)) else 1) else 2)
1: (if (x mod 2) <= 0 then (if (x mod 4) <= 0 then 13 else 2) else (x div 2))
1: (if (x mod 2) <= 0 then (if (x mod 4) <= 0 then (23 * (if x <= 0 then 1 else 2)) else 6) else 1)
1: (if (x mod 2) <= 0 then (if (x mod 4) <= 0 then (x div 4) else 0) else 2x)
1: (if (x mod 2) <= 0 then (if (x mod 4) <= 0 then (x div 4) else 1) else 4)
1: (if (x mod 2) <= 0 then (if (x mod 8) <= 0 then x else 2x) else (x div 2))
1: (if (x mod 2) <= 0 then (if x <= 0 then 1 else 2) else (2x + ~1))
1: (if (x mod 2) <= 0 then (if x <= 0 then 1 else 2) else x)
1: (if (x mod 2) <= 0 then (if x <= 0 then 1 else 4) else 0)
1: (if (x mod 2) <= 0 then (if x <= 0 then 1 else 4) else x)
1: (if (x mod 2) <= 0 then (if x <= 0 then 1 else (2 + (if (x mod 5) <= 0 then 2 else 0))) else 1)
1: (if (x mod 2) <= 0 then (if x <= 0 then 1 else (x2 + ~2)) else x)
1: (if (x mod 2) <= 0 then (if x <= 0 then 1 else (2 * (1 + (((~1 + loop(\(x,i).2x,x,(2 - ((x div 2) mod 2)))) mod (x + 1)) div 2)))) else 1)
1: (if (x mod 2) <= 0 then (if x <= 0 then 1 else (2 * (1 + ((loop(\(x,i).2x,x,(1 + (x div 4))) mod (x + 1)) div 2)))) else 1)
1: (if (x mod 2) <= 0 then (if x <= 0 then 1 else 2x) else ~x)
1: (if (x mod 2) <= 0 then (if x <= 0 then 1 else ((1 + (x div 4)) div 2)) else 0)
1: (if (x mod 2) <= 0 then (if x <= 0 then 1 else ((x - (if ((x mod 3) mod (1 + (x mod 4))) <= 0 then 1 else 0)) div 2)) else 0)
1: (if (x mod 2) <= 0 then (if x <= 0 then 1 else ((x div 2) div 3)) else 0)
1: (if (x mod 2) <= 0 then (if x <= 0 then 1 else (x div 7)) else 0)
1: (if (x mod 2) <= 0 then (if x <= 0 then 1 else (x2 mod (x + 6))) else 0)
1: (if (x mod 2) <= 0 then (if x <= 0 then 1 else x) else 2)
1: (if (x mod 2) <= 0 then (if x <= 0 then 1 else x) else ~x)
1: (if (x mod 2) <= 0 then (if x <= 0 then 2 else ~1) else (1 + (x div 2)))
1: (if (x mod 2) <= 0 then (if x <= 0 then 3 else (x div 2)) else 1)
1: (if (x mod 2) <= 0 then (if x <= 0 then 6 else 1) else 2x)
1: (if (x mod 2) <= 0 then loop(\(x,i).(3x + 4),x,1) else x)
1: (if (x mod 2) <= 0 then loop(\(x,i).(1 + (2 * (2x - (x div (if i <= 0 then 1 else i))))),(x div 2),1) else 1)
1: (if (x mod 2) <= 0 then loop(\(x,i).(10x + 1),(x div 2),1) else 0)
1: (if (x mod 2) <= 0 then loop(\(x,i).(2x + (x div 2)),x,2) else 0)
1: (if (x mod 2) <= 0 then loop(\(x,i).(x * (~1 + ((i mod 2) + i))),x,1) else 0)
1: (if (x mod 2) <= 0 then loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),(x div 2),1) else 2)
1: (if (x mod 2) <= 0 then loop(\(x,i).(2 * (x - (2x * i))),(x div 2),1) else 0)
1: (if (x mod 2) <= 0 then loop(\(x,i).10x,x,1) else loop(\(x,i).(10x + 1),x,1))
1: (if (x mod 2) <= 0 then loop(\(x,i).2x,x,1) else x)
1: (if (x mod 2) <= 0 then loop(\(x,i).(x * i),x,1) else 3)
1: (if (x mod 2) <= 0 then x else 4)
1: (if (x mod 2) <= 0 then x else (~x + 4))
1: (if (x mod 2) <= 0 then x else 7)
1: (if (x mod 2) <= 0 then x else 9)
1: (if (x mod 2) <= 0 then x else (1 + (2 * (x div 4))))
1: (if (x mod 2) <= 0 then x else (2 + (x mod 2)))
1: (if (x mod 2) <= 0 then x else (4x - (x div 2)))
1: (if (x mod 2) <= 0 then x else (x - (x div (~2 + ((x div 2) mod 2)))))
1: (if (x mod 2) <= 0 then x else (3x2 + 2x))
1: (if (x mod 2) <= 0 then x else (4x2 + 3x))
1: (if (x mod 2) <= 0 then x else (2x + ~4))
1: (if (x mod 2) <= 0 then x else 3x2)
1: (if (x mod 2) <= 0 then x else ((~x + 1) div 2))
1: (if (x mod 2) <= 0 then x else ((x2 + ~x) div 4))
1: (if (x mod 2) <= 0 then x else (x3 mod 20))
1: (if (x mod 2) <= 0 then x else (x mod 4))
1: (if (x mod 2) <= 0 then x else (x mod ~4))
1: (if (x mod 2) <= 0 then x else (if ((x div 2) mod 3) <= 0 then (x div 2) else 0))
1: (if (x mod 2) <= 0 then x else loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),x,x))
1: (if (x mod 2) <= 0 then i else 1)
1: (if (x mod 3) <= 0 then 0 else (1 + (2 * (x div 3))))
1: (if (x mod 3) <= 0 then 0 else (1 + (2 * (x mod 2))))
1: (if (x mod 3) <= 0 then 0 else (1 + ((1 + ((x div 4) mod (1 + (x mod 10)))) div 2)))
1: (if (x mod 3) <= 0 then 0 else (1 + (x div 3)))
1: (if (x mod 3) <= 0 then 0 else (1 - (2 * ((x div 5) mod 2))))
1: (if (x mod 3) <= 0 then 0 else (if ((1 + (x div 3)) mod 5) <= 0 then 2 else 1))
1: (if (x mod 3) <= 0 then 0 else (if ((x + 1) mod 5) <= 0 then 2 else 1))
1: (if (x mod 3) <= 0 then 0 else (if (x mod 2) <= 0 then x else 1))
1: (if (x mod 3) <= 0 then 0 else (if (x mod 5) <= 0 then 2 else 1))
1: (if (x mod 3) <= 0 then 0 else (if (x mod (2 + (x mod 2))) <= 0 then 1 else x))
1: (if (x mod 3) <= 0 then 0 else loop(\(x,i).5x,(x div 3),1))
1: (if (x mod 3) <= 0 then 1 else 4)
1: (if (x mod 3) <= 0 then 1 else (6x + 2))
1: (if (x mod 3) <= 0 then 1 else (2 + (((1 + (x mod (1 + (2 * ((if (x mod 2) <= 0 then 1 else x) mod 3))))) mod (x + 1)) div 2)))
1: (if (x mod 3) <= 0 then 1 else (1 + ((loop(\(x,i).2x,(if (x mod 2) <= 0 then x else 1),2) mod (x + 1)) div 2)))
1: (if (x mod 3) <= 0 then 1 else (0 - (x mod 3)))
1: (if (x mod 3) <= 0 then 1 else (2 - (x div 2)))
1: (if (x mod 3) <= 0 then 1 else 59)
1: (if (x mod 3) <= 0 then 1 else (((x + 1) div 2) - ((3 * (x div 4)) div 2)))
1: (if (x mod 3) <= 0 then 1 else (~8 + (x div 2)))
1: (if (x mod 3) <= 0 then 1 else (~1 + loop(\(x,i).2x,x,2) - (x div 2)))
1: (if (x mod 3) <= 0 then 1 else (x + ~4))
1: (if (x mod 3) <= 0 then 1 else (2x + ~4))
1: (if (x mod 3) <= 0 then 1 else 30x)
1: (if (x mod 3) <= 0 then 1 else x3)
1: (if (x mod 3) <= 0 then 1 else (x * (x div 2)))
1: (if (x mod 3) <= 0 then 1 else (2 * (x div ~3)))
1: (if (x mod 3) <= 0 then 1 else (2 * ((x div 2) mod 2)))
1: (if (x mod 3) <= 0 then 1 else (2 * ((x div 4) mod 2)))
1: (if (x mod 3) <= 0 then 1 else (((x mod 4) * (x div 2)) div 2))
1: (if (x mod 3) <= 0 then 1 else (x2 div (x + 2)))
1: (if (x mod 3) <= 0 then 1 else (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))
1: (if (x mod 3) <= 0 then 1 else ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2))
1: (if (x mod 3) <= 0 then 1 else ((x mod (2 + ((~x + 1) mod (1 + (x div 4))))) div 2))
1: (if (x mod 3) <= 0 then 1 else (loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2))
1: (if (x mod 3) <= 0 then 1 else (x div 4))
1: (if (x mod 3) <= 0 then 1 else (x div 5))
1: (if (x mod 3) <= 0 then 1 else (x div 9))
1: (if (x mod 3) <= 0 then 1 else (x div (1 + (2 * (4 - ((x div 2) mod 2))))))
1: (if (x mod 3) <= 0 then 1 else (x div 8))
1: (if (x mod 3) <= 0 then 1 else (2 mod (1 + (x div 4))))
1: (if (x mod 3) <= 0 then 1 else ((x + 3) mod (1 + (x div 5))))
1: (if (x mod 3) <= 0 then 1 else ((~x + 1) mod (1 + (x div 5))))
1: (if (x mod 3) <= 0 then 1 else ((2x + ~4) mod (1 + (x div 4))))
1: (if (x mod 3) <= 0 then 1 else ((x * (x div 2)) mod (1 + ((x mod (1 + (x div 2))) div 2))))
1: (if (x mod 3) <= 0 then 1 else ((2x mod (1 + (x div 3))) mod 2))
1: (if (x mod 3) <= 0 then 1 else ((x mod (4 + (x mod 2))) mod 2))
1: (if (x mod 3) <= 0 then 1 else ((x mod (~3 - (x div 4))) mod 2))
1: (if (x mod 3) <= 0 then 1 else (if ((x + 1) mod 5) <= 0 then 0 else 2))
1: (if (x mod 3) <= 0 then 1 else (if (x mod 5) <= 0 then (x + ~3) else 1))
1: (if (x mod 3) <= 0 then 2 else (1 + ((x + (x div 2)) div 2)))
1: (if (x mod 3) <= 0 then 2 else (1 + (x div 2)))
1: (if (x mod 3) <= 0 then 2 else (((x + 1) div 2) - ((3 * (x div 4)) div 2)))
1: (if (x mod 3) <= 0 then 2 else (x - ((~x + 1) mod 3)))
1: (if (x mod 3) <= 0 then 2 else (x - ((~x + 2) mod 3)))
1: (if (x mod 3) <= 0 then 2 else (x div 4))
1: (if (x mod 3) <= 0 then 2 else (x div (1 + (x div 4))))
1: (if (x mod 3) <= 0 then 2 else ((x - ((x div 2) div 3)) mod 2))
1: (if (x mod 3) <= 0 then 2 else loop(\(x,i).3x,(x div 3),1))
1: (if (x mod 3) <= 0 then 3 else 0)
1: (if (x mod 3) <= 0 then (4 - ((x div 2) mod 2)) else 1)
1: (if (x mod 3) <= 0 then 7 else (x div 2))
1: (if (x mod 3) <= 0 then 13 else 1)
1: (if (x mod 3) <= 0 then 19 else 1)
1: (if (x mod 3) <= 0 then (1 + (x div 8)) else 0)
1: (if (x mod 3) <= 0 then (1 + ((x2 + ~1) mod 5)) else 0)
1: (if (x mod 3) <= 0 then (2 + ((if x <= 0 then 1 else (((x + 1) div 2) div 2)) mod 2)) else 1)
1: (if (x mod 3) <= 0 then (x + 1) else ~x)
1: (if (x mod 3) <= 0 then ~2 else 1)
1: (if (x mod 3) <= 0 then (1 - (x div 7)) else 0)
1: (if (x mod 3) <= 0 then (1 - (x div (~2 + ((~x + 2) div 4)))) else 1)
1: (if (x mod 3) <= 0 then (2 - (2 div (1 + (x div 4)))) else 1)
1: (if (x mod 3) <= 0 then (2 - ((~x + ((x div 2) mod 2)) div 2)) else 1)
1: (if (x mod 3) <= 0 then (2 - (((if x <= 0 then 2 else x) div 2) mod 2)) else 0)
1: (if (x mod 3) <= 0 then (2 - (x mod 2)) else 2)
1: (if (x mod 3) <= 0 then ((x + 2) - (x div 3)) else 1)
1: (if (x mod 3) <= 0 then 31 else 1)
1: (if (x mod 3) <= 0 then (~x + ((x + ~1) div 3)) else 1)
1: (if (x mod 3) <= 0 then (~x + (x div 3)) else 0)
1: (if (x mod 3) <= 0 then (~1 + ((1 + ((x div (2 - (x mod 2))) div 3)) mod 3)) else 0)
1: (if (x mod 3) <= 0 then (~1 + ((~1 + ((x - (x div 4)) div 2)) mod 3)) else 0)
1: (if (x mod 3) <= 0 then ((((~1 + (x div 2)) div 2) mod 2) - (x mod 2)) else 0)
1: (if (x mod 3) <= 0 then (~2 + (x mod 2)) else 0)
1: (if (x mod 3) <= 0 then ((if (x mod (1 + (4 * (x mod 2)))) <= 0 then 1 else 0) - (x mod 2)) else 1)
1: (if (x mod 3) <= 0 then (x + ~2) else 1)
1: (if (x mod 3) <= 0 then 6 else 0)
1: (if (x mod 3) <= 0 then 8 else (1 + (x div 2)))
1: (if (x mod 3) <= 0 then 8 else (~x + (x mod 2)))
1: (if (x mod 3) <= 0 then 10 else 0)
1: (if (x mod 3) <= 0 then 10 else 1)
1: (if (x mod 3) <= 0 then 14 else 1)
1: (if (x mod 3) <= 0 then (13 * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 3) <= 0 then ((1 + (3 * (1 + (if (x mod 2) <= 0 then 6 else 1)))) * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 3) <= 0 then ((1 + (3 * (2 + (if (x mod 2) <= 0 then 8 else 1)))) * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 3) <= 0 then ((1 + (3 * (if (x mod 2) <= 0 then 4 else 1))) * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 3) <= 0 then ((1 + (3 * (if (x mod 2) <= 0 then 10 else 1))) * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 3) <= 0 then (2 * (2 + (x div 2))) else 1)
1: (if (x mod 3) <= 0 then ((1 + (x div 5)) * (3 + (x mod 2))) else 1)
1: (if (x mod 3) <= 0 then (3 * (1 + (if (2x mod (4 + (x div 4))) <= 0 then 2 else 0))) else 1)
1: (if (x mod 3) <= 0 then ((1 + (if (x mod 2) <= 0 then 4 else 0)) * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 3) <= 0 then ((1 + (if (x mod 2) <= 0 then 6 else 0)) * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 3) <= 0 then ((2 + (if (x mod 2) <= 0 then 8 else 1)) * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 3) <= 0 then ((1 + (if (x mod 2) <= 0 then 26 else 1)) * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 3) <= 0 then ((1 + (if (x mod 2) <= 0 then 22 else 1)) * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 3) <= 0 then (11 * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 3) <= 0 then (23 * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 3) <= 0 then 18 else 1)
1: (if (x mod 3) <= 0 then (25 * (if x <= 0 then 1 else 2)) else 2)
1: (if (x mod 3) <= 0 then (14 * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 3) <= 0 then (4 * ((x div 5) mod 2)) else 0)
1: (if (x mod 3) <= 0 then (9 * (x mod 2)) else x)
1: (if (x mod 3) <= 0 then (2 * ((if (x mod 2) <= 0 then 12 else 1) * (if x <= 0 then 1 else 2))) else (2 + (x mod 2)))
1: (if (x mod 3) <= 0 then (6 * (if (x mod 2) <= 0 then (2 * (2 + (if x <= 0 then 0 else 2))) else 1)) else 1)
1: (if (x mod 3) <= 0 then (21 * (if x <= 0 then 1 else 2)) else 2)
1: (if (x mod 3) <= 0 then (2 * (x div 2)) else 1)
1: (if (x mod 3) <= 0 then (2 * (x div 4)) else 1)
1: (if (x mod 3) <= 0 then (3 * (if (x mod 2) <= 0 then (2 + (if x <= 0 then 0 else 2)) else 1)) else 2)
1: (if (x mod 3) <= 0 then (2 * (if (x mod 2) <= 0 then (5 * (if x <= 0 then 1 else 2)) else 1)) else 1)
1: (if (x mod 3) <= 0 then (5 * (if (x mod 2) <= 0 then (5 * (if x <= 0 then 1 else 2)) else 1)) else 2)
1: (if (x mod 3) <= 0 then (3 * (if (x mod 2) <= 0 then (7 * (if x <= 0 then 1 else 2)) else 1)) else 1)
1: (if (x mod 3) <= 0 then (3 * (if (x mod 2) <= 0 then (3 * (2 + (if x <= 0 then 0 else 2))) else 1)) else 2)
1: (if (x mod 3) <= 0 then (3 * (if (x mod 2) <= 0 then (5 * (2 + (if x <= 0 then 0 else 2))) else 1)) else 2)
1: (if (x mod 3) <= 0 then (2 * (if (x mod 2) <= 0 then (11 * (if x <= 0 then 1 else 2)) else 1)) else 1)
1: (if (x mod 3) <= 0 then (2 * (if (x mod 2) <= 0 then (8 * (if x <= 0 then 1 else 2)) else 1)) else 1)
1: (if (x mod 3) <= 0 then (5 * (if (x mod 2) <= 0 then (3 * (if x <= 0 then 1 else 2)) else 1)) else 1)
1: (if (x mod 3) <= 0 then (3 * (if x <= 0 then 0 else 2)) else 0)
1: (if (x mod 3) <= 0 then ((2 - (x mod (2 + (x div (2 + (x mod 2)))))) div 2) else 0)
1: (if (x mod 3) <= 0 then ((x + ~1) div 2) else 1)
1: (if (x mod 3) <= 0 then (x2 div (2x + 3)) else 1)
1: (if (x mod 3) <= 0 then (x div 3) else (x + ~1))
1: (if (x mod 3) <= 0 then (x div 3) else 3x)
1: (if (x mod 3) <= 0 then (x div (2 + (x div 3))) else 1)
1: (if (x mod 3) <= 0 then ((x2 + 2) mod 5) else 3)
1: (if (x mod 3) <= 0 then ((1 + (x div (2 * (2 - (x mod 2))))) mod 4) else 0)
1: (if (x mod 3) <= 0 then ((x + 1) mod 2) else 2)
1: (if (x mod 3) <= 0 then ((x + 2) mod ~9) else 1)
1: (if (x mod 3) <= 0 then ((~2 + ((x div 2) mod 5)) mod 3) else 0)
1: (if (x mod 3) <= 0 then (((x * (x mod 2)) div 2) mod 4) else 0)
1: (if (x mod 3) <= 0 then ((((x + 1) div 2) div 2) mod 2) else 1)
1: (if (x mod 3) <= 0 then ((loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,x) div 2) mod 3) else 1)
1: (if (x mod 3) <= 0 then ((x div ~2) mod 2) else 0)
1: (if (x mod 3) <= 0 then ((x div ~4) mod 2) else 0)
1: (if (x mod 3) <= 0 then (x mod 2) else 2)
1: (if (x mod 3) <= 0 then (if ((x + 2) mod 4) <= 0 then 2 else 1) else 0)
1: (if (x mod 3) <= 0 then (if ((x + ~1) mod 4) <= 0 then 2 else 1) else 0)
1: (if (x mod 3) <= 0 then (if (x mod 2) <= 0 then 1 else ((x2 + 3x + 2) div 2)) else 5)
1: (if (x mod 3) <= 0 then (if (x mod 2) <= 0 then 15 else 1) else 2)
1: (if (x mod 3) <= 0 then (if (x mod 2) <= 0 then (14 * (if x <= 0 then 1 else 2)) else 1) else 2)
1: (if (x mod 3) <= 0 then (if (x mod 2) <= 0 then (14 * (2 + (if x <= 0 then 0 else 2))) else 2) else 1)
1: (if (x mod 3) <= 0 then (if (x mod 2) <= 0 then (9 * (if x <= 0 then 1 else 2)) else 0) else 1)
1: (if (x mod 3) <= 0 then (if x <= 0 then 1 else 2) else ~1)
1: (if (x mod 3) <= 0 then (if x <= 0 then 1 else loop(\(x,i).(if (x mod 2) <= 0 then x else (2 + (x mod 2))),(x mod 2),(x div 2))) else 0)
1: (if (x mod 3) <= 0 then loop(\(x,i).~2x,(x div 3),1) else 0)
1: (if (x mod 3) <= 0 then loop(\(x,i).4x,(x div 3),1) else 0)
1: (if (x mod 3) <= 0 then loop(\(x,i).2x,(x div 3),1) else 0)
1: (if (x mod 3) <= 0 then x else (((x + ~1) div 2) div 2))
1: (if (x mod 3) <= 0 then x else (x mod 2))
1: (if (x mod 4) <= 0 then 0 else (1 + ((1 + (x mod (~1 + (loop(\(x,i).2x,x,x) mod (x + 1))))) div 2)))
1: (if (x mod 4) <= 0 then 0 else (1 + (8 mod (1 + (x div 2)))))
1: (if (x mod 4) <= 0 then 0 else (1 + ((((x + 1) div 2) div 2) mod 2)))
1: (if (x mod 4) <= 0 then 0 else (1 + (x mod (2 + (x mod 2)))))
1: (if (x mod 4) <= 0 then 0 else (1 + (if (x mod 3) <= 0 then (x div 3) else 1)))
1: (if (x mod 4) <= 0 then 0 else (1 - (2 * (((x + (x div 2)) div 2) mod 2))))
1: (if (x mod 4) <= 0 then 0 else (x div 4))
1: (if (x mod 4) <= 0 then 0 else ((x + 1) mod (2 + (if ((x + 1) mod 5) <= 0 then 2 else 0))))
1: (if (x mod 4) <= 0 then 0 else (if (~x + 4) <= 0 then 2 else 1))
1: (if (x mod 4) <= 0 then 0 else (if (x mod (1 + (2 * (2x mod 3)))) <= 0 then 2 else 0))
1: (if (x mod 4) <= 0 then 1 else (1 + ((2 + (((x div 3) * (x div 2)) div 2)) div 3)))
1: (if (x mod 4) <= 0 then 1 else 8)
1: (if (x mod 4) <= 0 then 1 else ((2x + 2) * (2 - (x mod 2))))
1: (if (x mod 4) <= 0 then 1 else (4 * (if (x mod 2) <= 0 then 1 else 4)))
1: (if (x mod 4) <= 0 then 1 else (((x + 1) div 2) div 2))
1: (if (x mod 4) <= 0 then 1 else (((x + ~1) div 2) div 3))
1: (if (x mod 4) <= 0 then 1 else ((((2 - ((x + 2) mod ~7)) mod (x + 1)) div 2) div 2))
1: (if (x mod 4) <= 0 then 1 else (x div 8))
1: (if (x mod 4) <= 0 then 1 else ((((x2 + (x div 2)) div 2) div 2) mod 2))
1: (if (x mod 4) <= 0 then 1 else (x mod (2 + (x mod 2))))
1: (if (x mod 4) <= 0 then 1 else (if x <= 0 then 0 else (1 + (x div (1 + (2 * (1 + (((x2 + ~x + 2) mod (x + 4)) div 2))))))))
1: (if (x mod 4) <= 0 then 1 else loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x))
1: (if (x mod 4) <= 0 then 1 else loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x))
1: (if (x mod 4) <= 0 then 2 else (1 + ((x div 2) div (1 + (if (x mod 2) <= 0 then 6 else 1)))))
1: (if (x mod 4) <= 0 then 2 else ((1 - (2 * (x mod 2))) * (1 + (x div 3))))
1: (if (x mod 4) <= 0 then 2 else 2x)
1: (if (x mod 4) <= 0 then 2 else ((x div 2) div (3 - (x mod 2))))
1: (if (x mod 4) <= 0 then 2 else (x div 2))
1: (if (x mod 4) <= 0 then 2 else (x div (1 + (if (x mod 3) <= 0 then 2 else 0))))
1: (if (x mod 4) <= 0 then 3 else (x mod 2))
1: (if (x mod 4) <= 0 then 5 else (2 - ((x div 2) mod 2)))
1: (if (x mod 4) <= 0 then 9 else 1)
1: (if (x mod 4) <= 0 then 19 else 1)
1: (if (x mod 4) <= 0 then 17 else 1)
1: (if (x mod 4) <= 0 then 17 else 2)
1: (if (x mod 4) <= 0 then (2x2 + 1) else x)
1: (if (x mod 4) <= 0 then (2 + ((x mod 3) div 2)) else 1)
1: (if (x mod 4) <= 0 then (1 + (x div 2)) else x)
1: (if (x mod 4) <= 0 then (1 + (((~x2 + x) div 2) mod 5)) else 2)
1: (if (x mod 4) <= 0 then (1 + ((x div 3) mod 2)) else 0)
1: (if (x mod 4) <= 0 then (1 + ((x div 4) mod 2)) else 0)
1: (if (x mod 4) <= 0 then (1 + (x mod 10)) else x)
1: (if (x mod 4) <= 0 then (1 - (x div 5)) else 0)
1: (if (x mod 4) <= 0 then (~1 + (2 * (2 + (if x <= 0 then 0 else 2)))) else 2)
1: (if (x mod 4) <= 0 then (2x + ~5) else 1)
1: (if (x mod 4) <= 0 then 29 else 1)
1: (if (x mod 4) <= 0 then 23 else 1)
1: (if (x mod 4) <= 0 then 23 else 2)
1: (if (x mod 4) <= 0 then (((~x + 1) mod 3) - (if x <= 0 then 0 else 1)) else 0)
1: (if (x mod 4) <= 0 then 6 else 0)
1: (if (x mod 4) <= 0 then 6 else 1)
1: (if (x mod 4) <= 0 then (5 * (if x <= 0 then 1 else 2)) else (2 + (x mod 2)))
1: (if (x mod 4) <= 0 then (7 * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 4) <= 0 then (13 * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 4) <= 0 then (3x2 + 6x + 3) else x)
1: (if (x mod 4) <= 0 then (17 * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 4) <= 0 then (17 * (if x <= 0 then 1 else 2)) else (2 + (x mod 2)))
1: (if (x mod 4) <= 0 then (6x + 3) else x)
1: (if (x mod 4) <= 0 then (2x2 + 3x + 1) else 0)
1: (if (x mod 4) <= 0 then (x3 + x2 + x + 1) else x)
1: (if (x mod 4) <= 0 then ((x + 1) * i) else 0)
1: (if (x mod 4) <= 0 then (x2 + 2x) else 2)
1: (if (x mod 4) <= 0 then (11 * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 4) <= 0 then (29 * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 4) <= 0 then (29 * (if x <= 0 then 1 else 2)) else (2 + (x mod 2)))
1: (if (x mod 4) <= 0 then (23 * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 4) <= 0 then (23 * (if x <= 0 then 1 else 2)) else 6)
1: (if (x mod 4) <= 0 then (25 * (if x <= 0 then 1 else 2)) else 2)
1: (if (x mod 4) <= 0 then (25 * (if x <= 0 then 1 else 2)) else 6)
1: (if (x mod 4) <= 0 then (14 * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 4) <= 0 then (26 * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 4) <= 0 then (9x2 + 9) else x)
1: (if (x mod 4) <= 0 then (10 * (2 + (if x <= 0 then 0 else 2))) else 1)
1: (if (x mod 4) <= 0 then (14 * (2 + (if x <= 0 then 0 else 2))) else 1)
1: (if (x mod 4) <= 0 then (14 * (2 + (if x <= 0 then 0 else 2))) else (1 + (2 * (x mod 2))))
1: (if (x mod 4) <= 0 then (9 * (2 + (if x <= 0 then 0 else 2))) else 1)
1: (if (x mod 4) <= 0 then (9 * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 4) <= 0 then (9 * (if x <= 0 then 1 else 2)) else 2)
1: (if (x mod 4) <= 0 then (15 * (if x <= 0 then 1 else 2)) else 2)
1: (if (x mod 4) <= 0 then (2 * ((x div 3) mod 3)) else 1)
1: (if (x mod 4) <= 0 then (2 * (x mod 3)) else 1)
1: (if (x mod 4) <= 0 then 2x else 0)
1: (if (x mod 4) <= 0 then ((x + 2) div 5) else 1)
1: (if (x mod 4) <= 0 then ((2 - (x div 2)) div (x + 2)) else 0)
1: (if (x mod 4) <= 0 then (x div 2) else 0)
1: (if (x mod 4) <= 0 then (x div 2) else (x + (if (x mod 2) <= 0 then x else 1)))
1: (if (x mod 4) <= 0 then (x div 4) else 1)
1: (if (x mod 4) <= 0 then (x div 4) else (x * (x mod 2)))
1: (if (x mod 4) <= 0 then (x div 5) else 0)
1: (if (x mod 4) <= 0 then (x div (1 + ((x div 2) mod 3))) else 0)
1: (if (x mod 4) <= 0 then (x div (1 + (if (x mod 3) <= 0 then 2 else 0))) else 0)
1: (if (x mod 4) <= 0 then ((1 + (x div 2)) mod 7) else 0)
1: (if (x mod 4) <= 0 then ((2 - (if x <= 0 then 1 else x)) mod 3) else 0)
1: (if (x mod 4) <= 0 then ((x2 + ~x) mod 5) else 0)
1: (if (x mod 4) <= 0 then ((x div 3) mod 3) else 0)
1: (if (x mod 4) <= 0 then (loop(\(x,i).2x,x,2) mod 17) else 1)
1: (if (x mod 4) <= 0 then (x mod 3) else 0)
1: (if (x mod 4) <= 0 then (x mod 9) else 1)
1: (if (x mod 4) <= 0 then (if (~2 + (x div 3)) <= 0 then 1 else 2) else 0)
1: (if (x mod 4) <= 0 then (if (x mod 3) <= 0 then 1 else 2) else 1)
1: (if (x mod 4) <= 0 then (if x <= 0 then 1 else 2) else (x mod 2))
1: (if (x mod 4) <= 0 then (if x <= 0 then 1 else 2) else (x mod ~2))
1: (if (x mod 4) <= 0 then (if x <= 0 then 1 else (x div 4)) else 0)
1: (if (x mod 4) <= 0 then (if x <= 0 then 1 else (x div 4)) else 1)
1: (if (x mod 4) <= 0 then (if x <= 0 then 1 else (x div 5)) else 1)
1: (if (x mod 4) <= 0 then (if x <= 0 then 1 else (x2 mod 6)) else 0)
1: (if (x mod 4) <= 0 then x else (x + 2))
1: (if (x mod 4) <= 0 then x else (if (x mod 2) <= 0 then (x div 2) else 4x))
1: (if (x mod 4) <= 0 then x else i)
1: (if (x mod 5) <= 0 then 0 else 1)
1: (if (x mod 5) <= 0 then 0 else (1 + (x div 5)))
1: (if (x mod 5) <= 0 then 0 else (x div 5))
1: (if (x mod 5) <= 0 then 0 else (if (x + ~4) <= 0 then 1 else 2))
1: (if (x mod 5) <= 0 then 0 else (if (x mod 3) <= 0 then 2 else 1))
1: (if (x mod 5) <= 0 then 1 else 0)
1: (if (x mod 5) <= 0 then 1 else (2 * (2 + (2 mod (x + 1)))))
1: (if (x mod 5) <= 0 then 1 else (2 * ((x + ~1) div 2)))
1: (if (x mod 5) <= 0 then 1 else (x2 div (x + 2)))
1: (if (x mod 5) <= 0 then 1 else (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))
1: (if (x mod 5) <= 0 then 1 else ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2))
1: (if (x mod 5) <= 0 then 1 else (x div 3))
1: (if (x mod 5) <= 0 then 1 else ((1 + (x mod 4)) mod (1 + (x mod 3))))
1: (if (x mod 5) <= 0 then 1 else (x mod 5))
1: (if (x mod 5) <= 0 then 1 else loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x))
1: (if (x mod 5) <= 0 then (1 + ((x div 2) div (1 + (x mod 3)))) else 0)
1: (if (x mod 5) <= 0 then (1 + (x div (2 + (if (x mod 2) <= 0 then 1 else 8)))) else 2)
1: (if (x mod 5) <= 0 then (1 + ((x * (x div 2)) mod 2)) else 0)
1: (if (x mod 5) <= 0 then (1 + ((x div 2) mod 2)) else 0)
1: (if (x mod 5) <= 0 then (1 + ((x div ~2) mod 4)) else 1)
1: (if (x mod 5) <= 0 then ~2 else 2)
1: (if (x mod 5) <= 0 then (1 - (2 * (x mod 2))) else 0)
1: (if (x mod 5) <= 0 then (1 - ((x div 2) div 3)) else 0)
1: (if (x mod 5) <= 0 then (1 - (x mod 3)) else 0)
1: (if (x mod 5) <= 0 then 23 else 1)
1: (if (x mod 5) <= 0 then (~1 + (2 * (x mod 2))) else 0)
1: (if (x mod 5) <= 0 then (~x + (x div 4)) else 0)
1: (if (x mod 5) <= 0 then (((x + 1) mod 3) - (if x <= 0 then 0 else 1)) else 0)
1: (if (x mod 5) <= 0 then (~1 + (x mod 3)) else 0)
1: (if (x mod 5) <= 0 then (x + ~3) else 1)
1: (if (x mod 5) <= 0 then 10 else 1)
1: (if (x mod 5) <= 0 then (13 * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 5) <= 0 then (3 * (2 + (if x <= 0 then 0 else 2))) else 1)
1: (if (x mod 5) <= 0 then (2x + 2) else 0)
1: (if (x mod 5) <= 0 then (5 * (1 - (2 * (x mod 2)))) else 0)
1: (if (x mod 5) <= 0 then (23 * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 5) <= 0 then (8 * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 5) <= 0 then (14 * (2 + (if x <= 0 then 0 else 2))) else 1)
1: (if (x mod 5) <= 0 then (9 * (2 + (if x <= 0 then 0 else 2))) else 1)
1: (if (x mod 5) <= 0 then (15 * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 5) <= 0 then (2 * (x mod 2)) else 0)
1: (if (x mod 5) <= 0 then (3 * (if (x mod 2) <= 0 then (2 * (2 + (if x <= 0 then 0 else 2))) else 1)) else 1)
1: (if (x mod 5) <= 0 then (3 * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 5) <= 0 then (x div 5) else 5x)
1: (if (x mod 5) <= 0 then ((x2 div 2) mod 3) else 1)
1: (if (x mod 5) <= 0 then (x mod 3) else 0)
1: (if (x mod 5) <= 0 then (if (x mod 2) <= 0 then 1 else ~2) else 0)
1: (if (x mod 5) <= 0 then (if (x mod 2) <= 0 then (25 * (if x <= 0 then 1 else 2)) else 2) else 1)
1: (if (x mod 5) <= 0 then x else 0)
1: (if (x mod (6 + (x mod 2))) <= 0 then 1 else 0)
1: (if (x mod (6 - ((x div 2) mod 2))) <= 0 then 2 else 1)
1: (if (x mod (3 + ((x div 2) div 3))) <= 0 then 0 else 2)
1: (if (x mod (3 + ((x div 2) div 3))) <= 0 then 1 else 2)
1: (if (x mod (3 + ((x div 2) div 3))) <= 0 then 2 else 1)
1: (if (x mod (4 + (x div 2))) <= 0 then 2 else 0)
1: (if (x mod (4 + (x div 2))) <= 0 then 8 else 0)
1: (if (x mod (4 + (x div 2))) <= 0 then (if x <= 0 then 1 else 2) else 1)
1: (if (x mod (4 + (x div 2))) <= 0 then x else 0)
1: (if (x mod (4 + (x div 4))) <= 0 then 1 else 0)
1: (if (x mod (4 + (x div 4))) <= 0 then 1 else x)
1: (if (x mod (4 + (x div 4))) <= 0 then 2 else 0)
1: (if (x mod (3 + (2 mod (1 + (x div 2))))) <= 0 then 0 else 1)
1: (if (x mod (3 + ((~x + 1) mod 3))) <= 0 then 1 else 0)
1: (if (x mod (3 + ((x + ~1) mod 3))) <= 0 then 1 else 0)
1: (if (x mod (4 + (x2 mod 3))) <= 0 then x else 0)
1: (if (x mod (3 + (x2 mod 5))) <= 0 then 0 else 1)
1: (if (x mod (3 + (((~x + 1) div 2) mod 4))) <= 0 then 2 else 1)
1: (if (x mod (3 + ((x div 2) mod 3))) <= 0 then 2 else 1)
1: (if (x mod (4 + (x mod 2))) <= 0 then 1 else x)
1: (if (x mod (3 + (x mod 3))) <= 0 then 0 else 1)
1: (if (x mod (3 + (x mod 4))) <= 0 then 0 else x)
1: (if (x mod (3 + (x mod 4))) <= 0 then 1 else loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))
1: (if (x mod (3 + (x mod 4))) <= 0 then (x div 2) else 0)
1: (if (x mod (3 + (x mod 4))) <= 0 then x else 0)
1: (if (x mod (4 + (x mod 4))) <= 0 then x else 0)
1: (if (x mod (3 + i)) <= 0 then 0 else x)
1: (if (x mod (3 + i)) <= 0 then 2 else 1)
1: (if (x mod (3 + i)) <= 0 then 3 else x)
1: (if (x mod (3 + i)) <= 0 then x else 3)
1: (if (x mod (3 + i)) <= 0 then i else 0)
1: (if (x mod (4 - ((x div 2) div 3))) <= 0 then 0 else 1)
1: (if (x mod (3 - (x div ~2))) <= 0 then 1 else 2)
1: (if (x mod (3 - ((x div 2) mod 2))) <= 0 then 1 else 0)
1: (if (x mod (4 - (x mod 2))) <= 0 then 1 else 0)
1: (if (x mod (4 - (x mod 2))) <= 0 then 1 else x)
1: (if (x mod (4 - (x mod 2))) <= 0 then 2 else 0)
1: (if (x mod (4 - (x mod 2))) <= 0 then x else 0)
1: (if (x mod ((x + 1) - ((~1 + (x div 2)) div 2))) <= 0 then 0 else 1)
1: (if (x mod ((x + 3) - (x div 3))) <= 0 then 1 else 0)
1: (if (x mod ((x + 2) - (x div 4))) <= 0 then 1 else 0)
1: (if (x mod ((x + 2) - (x div 5))) <= 0 then 0 else 1)
1: (if (x mod ((x + 2) - (x div 5))) <= 0 then 1 else 0)
1: (if (x mod 7) <= 0 then 0 else 2)
1: (if (x mod 7) <= 0 then 0 else x)
1: (if (x mod 7) <= 0 then 1 else (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))
1: (if (x mod 7) <= 0 then 1 else (x mod (x - ((x + 1) mod 3))))
1: (if (x mod 7) <= 0 then 2 else 0)
1: (if (x mod 7) <= 0 then (5x + 2) else 1)
1: (if (x mod 7) <= 0 then (1 + ((x + 2) div 3)) else 0)
1: (if (x mod 7) <= 0 then (1 - (2 * (x mod 2))) else 0)
1: (if (x mod 7) <= 0 then ((x + 1) - (2 * (x mod 2))) else 0)
1: (if (x mod 7) <= 0 then ((3 - (x mod 2)) * (if x <= 0 then 1 else x)) else 1)
1: (if (x mod 7) <= 0 then (7 * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 7) <= 0 then (10 * (2 + (if x <= 0 then 0 else 2))) else 1)
1: (if (x mod 7) <= 0 then (x div 2) else 0)
1: (if (x mod 7) <= 0 then (x mod 3) else 1)
1: (if (x mod 7) <= 0 then loop(\(x,i).(2x + 2),x,(if x <= 0 then 1 else 0)) else 0)
1: (if (x mod 7) <= 0 then loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) else 17)
1: (if (x mod 9) <= 0 then 0 else (x + 1))
1: (if (x mod 9) <= 0 then 1 else 2)
1: (if (x mod 9) <= 0 then 1 else (x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 1))))
1: (if (x mod 9) <= 0 then 2 else 0)
1: (if (x mod 9) <= 0 then 4 else 0)
1: (if (x mod 9) <= 0 then (4x + 2) else 0)
1: (if (x mod 9) <= 0 then (2x + 2) else 0)
1: (if (x mod 9) <= 0 then (9x + 9) else 1)
1: (if (x mod 9) <= 0 then loop(\(x,i).(x * (~1 + (2 * i))),x,1) else 0)
1: (if (x mod 13) <= 0 then 1 else 0)
1: (if (x mod 13) <= 0 then 2 else 0)
1: (if (x mod 13) <= 0 then (2x + 2) else 0)
1: (if (x mod (1 + (2 * (2 + (x div 4))))) <= 0 then 2 else 1)
1: (if (x mod (1 + (2 * (1 + (x div 5))))) <= 0 then 1 else 0)
1: (if (x mod (1 + (2 * (2 + (x mod 2))))) <= 0 then 1 else x)
1: (if (x mod (1 + (2 * (2 - (x mod (2 + (x mod 2))))))) <= 0 then 1 else 0)
1: (if (x mod (1 + (2 * ((x div 4) - (x mod 2))))) <= 0 then 1 else 0)
1: (if (x mod (1 + (2 * (x - (2 * (x div 3)))))) <= 0 then 0 else 1)
1: (if (x mod (1 + (8 * (x mod 2)))) <= 0 then 2 else 1)
1: (if (x mod (1 + (8 * (x mod 2)))) <= 0 then x else 1)
1: (if (x mod (1 + (4 * (x mod 2)))) <= 0 then 0 else 2)
1: (if (x mod (1 + (4 * (x mod 2)))) <= 0 then 1 else 0)
1: (if (x mod (1 + (10 * (x mod 2)))) <= 0 then 0 else 2)
1: (if (x mod (1 + (4 * (x mod 5)))) <= 0 then 1 else 0)
1: (if (x mod (1 + (4 * (x mod 5)))) <= 0 then 1 else 2)
1: (if (x mod (1 + (4 * (x mod 5)))) <= 0 then 2 else 0)
1: (if (x mod (1 + (2 * (((~x + 2) mod (2 + (x div 2))) div 2)))) <= 0 then 1 else 2)
1: (if (x mod (2 + (3 * ((x mod 3) div 2)))) <= 0 then 0 else 2)
1: (if (x mod (1 + ((x div 4) * (x div 3)))) <= 0 then 1 else 2)
1: (if (x mod (1 + (2 * (x div (2 * (2 + (x mod 2))))))) <= 0 then 0 else 2)
1: (if (x mod (1 + (2 * (x div (2 * (2 + (x mod 2))))))) <= 0 then 1 else 0)
1: (if (x mod (1 + (2 * (x div (2 * (2 + (x mod 2))))))) <= 0 then 1 else (x div 3))
1: (if (x mod (1 + (3 * (4 mod (x + 2))))) <= 0 then 1 else 0)
1: (if (x mod (1 + (2 * ((x + 1) mod 8)))) <= 0 then 1 else 0)
1: (if (x mod (1 + (2 * ((x + 2) mod 8)))) <= 0 then 0 else 1)
1: (if (x mod (1 + (2 * ((~x + 1) mod 4)))) <= 0 then 0 else 1)
1: (if (x mod (1 + (2 * ((~x + 2) mod (1 + (2 * (1 + (x mod 2)))))))) <= 0 then 1 else 2)
1: (if (x mod (1 + (2 * ((x - (x div 3)) mod 3)))) <= 0 then 1 else 0)
1: (if (x mod (1 + (2 * (2x mod 3)))) <= 0 then 1 else 0)
1: (if (x mod (1 + (2 * (2x mod 3)))) <= 0 then 2 else 0)
1: (if (x mod (1 + (2 * (2x mod 3)))) <= 0 then (x div 3) else 1)
1: (if (x mod (1 + (2 * (((x + ~1) div 2) mod 4)))) <= 0 then 1 else 2)
1: (if (x mod (1 + (2 * ((x div 2) mod 3)))) <= 0 then 1 else 0)
1: (if (x mod (1 + (2 * (x mod 3)))) <= 0 then 2 else 1)
1: (if (x mod (1 + (3 * (x mod 4)))) <= 0 then 0 else 1)
1: (if (x mod (1 + (3 * (x mod 4)))) <= 0 then 2 else 0)
1: (if (x mod (1 + (2 * (x mod 7)))) <= 0 then 0 else 1)
1: (if (x mod (1 + (2 * (x mod 6)))) <= 0 then 1 else 0)
1: (if (x mod (1 + (3 * (if (x mod (2 + (x mod 2))) <= 0 then 0 else 2)))) <= 0 then 0 else 2)
1: (if (x mod (1 + (2 * i))) <= 0 then 1 else x)
1: (if (x mod (1 + (2 * i))) <= 0 then 2 else 0)
1: (if (x mod (1 + (2 * i))) <= 0 then i else 0)
1: (if (x mod (1 + ((1 + (x div 2)) div 3))) <= 0 then 1 else 2)
1: (if (x mod (1 + ((1 + (x div 2)) div (1 + (x mod 2))))) <= 0 then 1 else 0)
1: (if (x mod (1 + ((1 + (x div 2)) div (1 + (x mod 2))))) <= 0 then 2 else 0)
1: (if (x mod (1 + ((x + 1) div 5))) <= 0 then 2 else 0)
1: (if (x mod (1 + ((x + 2) div 5))) <= 0 then 0 else 2)
1: (if (x mod (1 + ((x + 2) div 5))) <= 0 then 1 else 0)
1: (if (x mod (1 + ((x + 2) div 5))) <= 0 then 1 else 2)
1: (if (x mod (1 + ((x + 2) div 5))) <= 0 then 1 else (x + 2))
1: (if (x mod (1 + ((x + 2) div 5))) <= 0 then 2 else 1)
1: (if (x mod (2 + ((x - (x div 3)) div 3))) <= 0 then 1 else 2)
1: (if (x mod (1 + (((x + 1) div 2) div 3))) <= 0 then 0 else x)
1: (if (x mod (1 + (((x + 1) div 2) div 3))) <= 0 then 1 else 0)
1: (if (x mod (1 + (((x + 1) div 2) div 3))) <= 0 then 2 else x)
1: (if (x mod (1 + (((x + 1) div 2) div 3))) <= 0 then (if x <= 0 then 0 else 1) else 0)
1: (if (x mod (1 + (((x + 1) div 2) div 3))) <= 0 then (if x <= 0 then 0 else 1) else 2)
1: (if (x mod (2 + ((x div 2) div 3))) <= 0 then 0 else 1)
1: (if (x mod (1 + ((x div 2) div (1 + (x mod 4))))) <= 0 then 0 else 1)
1: (if (x mod (1 + ((x mod (2 + (x div 4))) div 2))) <= 0 then 1 else 2)
1: (if (x mod (2 + (x div 2))) <= 0 then 1 else 0)
1: (if (x mod (2 + (x div 2))) <= 0 then 2 else 1)
1: (if (x mod (2 + (x div 2))) <= 0 then 8 else 0)
1: (if (x mod (1 + (x div 4))) <= 0 then 1 else x)
1: (if (x mod (1 + (x div (3 + (x mod 2))))) <= 0 then 1 else 2)
1: (if (x mod (2 + (x div 12))) <= 0 then 2 else 0)
1: (if (x mod (1 + (x div (2 * (2 + (x mod 2)))))) <= 0 then 0 else 1)
1: (if (x mod (1 + (2 mod (1 + (x div 4))))) <= 0 then 1 else 0)
1: (if (x mod (1 + (3 mod (2 + (x div 4))))) <= 0 then 1 else 0)
1: (if (x mod (1 + (4 mod (1 + (x div 3))))) <= 0 then 1 else 2)
1: (if (x mod (1 + (4 mod (x + 1)))) <= 0 then 1 else 2)
1: (if (x mod (2 + (4 mod (x + 2)))) <= 0 then 0 else 2)
1: (if (x mod (2 + (4 mod (x + 2)))) <= 0 then 1 else 2)
1: (if (x mod (2 + (5 mod (1 + (x div 4))))) <= 0 then 1 else 0)
1: (if (x mod (1 + ((3 + (x mod 2)) mod (x + 1)))) <= 0 then 1 else 0)
1: (if (x mod (2 + (13 mod (x + 1)))) <= 0 then 2 else 0)
1: (if (x mod (2 + ((1 + (2 * (1 + ((((2x + 2) mod (2 + (x div 2))) div 2) div 2)))) mod (x + 1)))) <= 0 then 2 else 1)
1: (if (x mod (2 + ((1 + (2 * ((x + loop(\(x,i).2x,(2 - (x mod 2)),(x div 2))) mod 5))) mod (x + 1)))) <= 0 then 2 else 0)
1: (if (x mod (1 + ((x2 + 1) mod (2 + (x div 2))))) <= 0 then 1 else 0)
1: (if (x mod (1 + ((x2 + 2) mod (x + 3)))) <= 0 then 2 else 0)
1: (if (x mod (2 + ((1 + (6 mod (1 + (x div 2)))) mod 2))) <= 0 then 2 else 1)
1: (if (x mod (2 + ((x + 1) mod 5))) <= 0 then 1 else 0)
1: (if (x mod (1 + ((x + 1) mod (2 + (x div 4))))) <= 0 then 1 else 2)
1: (if (x mod (1 + ((x + 2) mod 4))) <= 0 then 1 else 2)
1: (if (x mod (1 + ((x + 2) mod 4))) <= 0 then 1 else x)
1: (if (x mod (2 + ((x + 2) mod (1 + (x div 4))))) <= 0 then 1 else 0)
1: (if (x mod (2 + ((x + 2) mod 8))) <= 0 then 1 else 0)
1: (if (x mod (1 + ((1 - (x div 3)) mod 3))) <= 0 then 1 else 0)
1: (if (x mod (1 + ((~x + 1) mod (4 + (x div 2))))) <= 0 then 1 else 0)
1: (if (x mod (2 + ((~x + 1) mod (2 + (x div 4))))) <= 0 then 1 else 2)
1: (if (x mod (2 + ((~x + 1) mod (2 + (x div 4))))) <= 0 then 2 else 1)
1: (if (x mod (2 + ((~x + 2) mod 4))) <= 0 then 1 else 0)
1: (if (x mod (2 + ((~x + 2) mod 4))) <= 0 then 1 else 2)
1: (if (x mod (2 + ((~x + 2) mod 4))) <= 0 then x else 1)
1: (if (x mod (2 + ((~x + 2) mod 5))) <= 0 then x else 0)
1: (if (x mod (2 + ((~x + 2) mod 8))) <= 0 then 2 else 0)
1: (if (x mod (2 + ((x + ~1) mod 3))) <= 0 then 0 else x)
1: (if (x mod (2 + ((x + ~1) mod 3))) <= 0 then 2 else 1)
1: (if (x mod (2 + ((x + ~1) mod 3))) <= 0 then 2 else x)
1: (if (x mod (1 + ((x + ~1) mod 4))) <= 0 then 1 else 0)
1: (if (x mod (1 + ((x + ~1) mod 4))) <= 0 then 1 else 4)
1: (if (x mod (1 + ((x + ~1) mod 4))) <= 0 then (if x <= 0 then 0 else 1) else 2)
1: (if (x mod (1 + ((x + ~1) mod 5))) <= 0 then 0 else 1)
1: (if (x mod (1 + ((x + ~1) mod 9))) <= 0 then 2 else 0)
1: (if (x mod (1 + ((x + ~4) mod (1 + (x div 2))))) <= 0 then 1 else 0)
1: (if (x mod (2 + (6 mod (1 + (x div 2))))) <= 0 then 2 else 0)
1: (if (x mod (1 + (6 mod (x + 1)))) <= 0 then 1 else 2)
1: (if (x mod (1 + (3x mod (1 + (x div 2))))) <= 0 then 1 else 0)
1: (if (x mod (1 + ((~2x + 2) mod (1 + (x div 2))))) <= 0 then 0 else 2)
1: (if (x mod (1 + ((~2x + 2) mod (1 + (x div 2))))) <= 0 then (if x <= 0 then 0 else 1) else 2)
1: (if (x mod (2 + ((~x2 + 2x) mod (1 + (x div 2))))) <= 0 then 1 else 0)
1: (if (x mod (1 + ((2x + ~2) mod (1 + (x div 2))))) <= 0 then 1 else 2)
1: (if (x mod (1 + ((x2 + ~x) mod 8))) <= 0 then 2 else 0)
1: (if (x mod (1 + ((2x + ~4) mod (x + 3)))) <= 0 then 1 else 0)
1: (if (x mod (2 + ((x2 + ~2x) mod (x + 4)))) <= 0 then 1 else 0)
1: (if (x mod (1 + (16 mod (x + 1)))) <= 0 then 1 else 2)
1: (if (x mod (2 + ((x * (x div 2)) mod 2))) <= 0 then 1 else 2)
1: (if (x mod (1 + ((x * (x div 3)) mod 3))) <= 0 then 1 else 2)
1: (if (x mod (2 + (2x mod 7))) <= 0 then 1 else 0)
1: (if (x mod (2 + (2x mod (2 + (x div 2))))) <= 0 then 1 else 0)
1: (if (x mod (2 + (x2 mod (x + 4)))) <= 0 then 0 else 1)
1: (if (x mod (2 + (x2 mod (x + 4)))) <= 0 then 1 else 0)
1: (if (x mod (2 + ((x * i) mod 2))) <= 0 then 1 else 0)
1: (if (x mod (2 + (((x2 + 2) div (x + 2)) mod 2))) <= 0 then 1 else 0)
1: (if (x mod (2 + (((1 + (x div 2)) div 2) mod 4))) <= 0 then 1 else 0)
1: (if (x mod (1 + (((x + 1) div 2) mod 4))) <= 0 then 0 else 1)
1: (if (x mod (2 + ((x2 div 2) mod (x + 2)))) <= 0 then 2 else 0)
1: (if (x mod (2 + ((((x + 1) div 2) div 2) mod 2))) <= 0 then 1 else 2)
1: (if (x mod (2 + ((((x + ~1) div 2) div 2) mod 2))) <= 0 then 1 else x)
1: (if (x mod (2 + ((x div 2) mod 2))) <= 0 then (x mod 3) else 1)
1: (if (x mod (2 + ((x div 2) mod 4))) <= 0 then (if x <= 0 then 1 else 2) else 1)
1: (if (x mod (2 + ((x div 2) mod 4))) <= 0 then x else 0)
1: (if (x mod (2 + ((x div 4) mod 2))) <= 0 then 1 else x)
1: (if (x mod (2 + ((x mod 8) mod 3))) <= 0 then 1 else 0)
1: (if (x mod (2 + (x mod 2))) <= 0 then 0 else x)
1: (if (x mod (2 + (x mod 2))) <= 0 then 2 else x)
1: (if (x mod (2 + (x mod 2))) <= 0 then (x div (1 + (if (x mod 3) <= 0 then 2 else 0))) else ((x + 1) div 2))
1: (if (x mod (1 + (x mod 3))) <= 0 then 1 else 2)
1: (if (x mod (1 + (x mod 3))) <= 0 then (1 + (x mod (1 + (x mod (1 + (x div 3)))))) else 1)
1: (if (x mod (2 + (x mod 3))) <= 0 then 2 else 1)
1: (if (x mod (2 + (x mod 3))) <= 0 then (if x <= 0 then 1 else 2) else 0)
1: (if (x mod (1 + (x mod 4))) <= 0 then 1 else 0)
1: (if (x mod (1 + (x mod 4))) <= 0 then 1 else x)
1: (if (x mod (1 + (x mod 4))) <= 0 then 2 else 0)
1: (if (x mod (1 + (x mod 4))) <= 0 then 2 else 1)
1: (if (x mod (1 + (x mod 4))) <= 0 then x else 1)
1: (if (x mod (2 + (x mod 4))) <= 0 then 2 else 1)
1: (if (x mod (2 + (x mod 4))) <= 0 then 2 else ~2)
1: (if (x mod (2 + (x mod 4))) <= 0 then (if x <= 0 then 0 else 1) else 0)
1: (if (x mod (1 + (x mod 9))) <= 0 then 1 else 0)
1: (if (x mod (1 + (x mod (1 + (x div 3))))) <= 0 then (x + 1) else 0)
1: (if (x mod (1 + (x mod 6))) <= 0 then 1 else x)
1: (if (x mod (2 + (x mod 6))) <= 0 then x else 0)
1: (if (x mod (1 + (x mod 8))) <= 0 then 2 else 0)
1: (if (x mod (2 + (x mod 8))) <= 0 then 1 else 0)
1: (if (x mod (2 + (x mod 8))) <= 0 then (x div 4) else 1)
1: (if (x mod (2 + (x mod (2 * (2 + (x mod 2)))))) <= 0 then 1 else 0)
1: (if (x mod (2 + (x mod (2 * (2 + (x mod 2)))))) <= 0 then 2 else 0)
1: (if (x mod (1 + (if (x mod 2) <= 0 then 6 else 0))) <= 0 then x else 1)
1: (if (x mod (1 + (if (x mod 4) <= 0 then 0 else 2))) <= 0 then 2 else x)
1: (if (x mod (1 + i)) <= 0 then 2 else x)
1: (if (x mod (1 + i)) <= 0 then ((2x2 + 4x + 1) + (x mod 2)) else x)
1: (if (x mod (1 + i)) <= 0 then (9x + 1) else x)
1: (if (x mod (1 + i)) <= 0 then (4x + loop(\(x,i).3x,i,1)) else x)
1: (if (x mod (1 + i)) <= 0 then x else 5)
1: (if (x mod (2 + i)) <= 0 then 2 else 0)
1: (if (x mod (1 - (2 * ((~x + 1) div (2 + (x div 2)))))) <= 0 then 0 else 1)
1: (if (x mod (1 - (2 * ((~x + 1) div (2 + (x div 2)))))) <= 0 then 2 else 0)
1: (if (x mod (1 - (2 * ((~x + 1) div (2 + (x div 2)))))) <= 0 then 2 else 1)
1: (if (x mod (1 - (((x mod 4) - (x div 2)) div 3))) <= 0 then x else 5)
1: (if (x mod (1 - (x div ~4))) <= 0 then 2 else 1)
1: (if (x mod (2 - ((x div 2) div ~2))) <= 0 then 1 else 0)
1: (if (x mod (2 - ((x div 2) div (~2 + (x mod ~2))))) <= 0 then 1 else 0)
1: (if (x mod (2 - (x mod ~4))) <= 0 then 1 else 2)
1: (if (x mod (2 - (x mod ~4))) <= 0 then x else 0)
1: (if (x mod (2 - (x mod ~5))) <= 0 then 1 else 0)
1: (if (x mod (2 - (x mod (~1 + ((~x + 2) div 3))))) <= 0 then 2 else 1)
1: (if (x mod (2 - (x mod ~12))) <= 0 then 1 else 0)
1: (if (x mod (4 - ((x + 1) div 5))) <= 0 then 1 else 0)
1: (if (x mod (4 - (x div ~2))) <= 0 then 1 else 0)
1: (if (x mod (6 - ((x + ~1) div 3))) <= 0 then 1 else 0)
1: (if (x mod (8 - (x div 2))) <= 0 then 1 else 0)
1: (if (x mod (8 - (x div 2))) <= 0 then 2 else 1)
1: (if (x mod (8 - (x div 3))) <= 0 then 0 else 1)
1: (if (x mod (8 - (x div 3))) <= 0 then 1 else 0)
1: (if (x mod (8 - (x div 3))) <= 0 then 2 else 1)
1: (if (x mod (8 - ((x div 2) mod 2))) <= 0 then 2 else 1)
1: (if (x mod 11) <= 0 then 0 else 1)
1: (if (x mod 11) <= 0 then 0 else 2)
1: (if (x mod 11) <= 0 then 2 else 1)
1: (if (x mod 11) <= 0 then 10 else 0)
1: (if (x mod 11) <= 0 then (8x + 2) else 1)
1: (if (x mod 11) <= 0 then (4x + 2) else 0)
1: (if (x mod 11) <= 0 then (2x + 2) else 0)
1: (if (x mod 11) <= 0 then x else 0)
1: (if (x mod (2x + ~5)) <= 0 then 1 else 0)
1: (if (x mod 15) <= 0 then 1 else 0)
1: (if (x mod 15) <= 0 then 2 else 0)
1: (if (x mod 15) <= 0 then 2 else 1)
1: (if (x mod (~1 + (2 * (x div 4)))) <= 0 then 1 else 2)
1: (if (x mod (~1 + (2 * (x div 5)))) <= 0 then 1 else 2)
1: (if (x mod (~1 + (2 * (~x mod 4)))) <= 0 then 1 else 0)
1: (if (x mod (~1 + (2 * ((x2 div 2) mod 5)))) <= 0 then 1 else 0)
1: (if (x mod (~1 + (2 * i))) <= 0 then 2x else 1)
1: (if (x mod (~2 + ((x * ((x div 2) mod 2)) div 2))) <= 0 then 1 else 2)
1: (if (x mod ((x + 1) - ((x + 2) mod 8))) <= 0 then 1 else 2)
1: (if (x mod ((x + 1) - (x mod 6))) <= 0 then 1 else 2)
1: (if (x mod (x - ((x + ~1) mod 8))) <= 0 then 5 else x)
1: (if (x mod 6) <= 0 then 0 else 1)
1: (if (x mod 6) <= 0 then 0 else 2)
1: (if (x mod 6) <= 0 then 1 else 0)
1: (if (x mod 6) <= 0 then 1 else (4 * (if (x + ~1) <= 0 then x else 2)))
1: (if (x mod 6) <= 0 then 1 else (x mod ((x + ~1) - (x mod 12))))
1: (if (x mod 6) <= 0 then 2 else 0)
1: (if (x mod 6) <= 0 then 4 else 0)
1: (if (x mod 6) <= 0 then (2 + (x div 2)) else 1)
1: (if (x mod 6) <= 0 then (1 + (x div 4)) else 0)
1: (if (x mod 6) <= 0 then (x + ~3) else 1)
1: (if (x mod 6) <= 0 then 12 else 0)
1: (if (x mod 6) <= 0 then (x div 2) else 2)
1: (if (x mod 6) <= 0 then (x div 3) else x)
1: (if (x mod 6) <= 0 then (x div 5) else 0)
1: (if (x mod 6) <= 0 then (x mod 4) else 1)
1: (if (x mod 6) <= 0 then (if x <= 0 then 0 else 1) else 0)
1: (if (x mod 6) <= 0 then x else 0)
1: (if (x mod 6) <= 0 then x else 6)
1: (if (x mod 8) <= 0 then 0 else (x + (x mod 4)))
1: (if (x mod 8) <= 0 then 0 else (x div 3))
1: (if (x mod 8) <= 0 then 0 else x)
1: (if (x mod 8) <= 0 then 1 else (2 mod (1 + (x div 4))))
1: (if (x mod 8) <= 0 then 1 else (x mod 2))
1: (if (x mod 8) <= 0 then 1 else loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x))
1: (if (x mod 8) <= 0 then 29 else 1)
1: (if (x mod 8) <= 0 then (x + ~2) else 2)
1: (if (x mod 8) <= 0 then (11 * (if x <= 0 then 1 else 2)) else 1)
1: (if (x mod 8) <= 0 then (x div 2) else (x mod 4))
1: (if (x mod 8) <= 0 then (if x <= 0 then 0 else 2) else 1)
1: (if (x mod 8) <= 0 then (if x <= 0 then 0 else 3) else 0)
1: (if (x mod 8) <= 0 then (if x <= 0 then 0 else (x + 2)) else 0)
1: (if (x mod 8) <= 0 then (if x <= 0 then 1 else 4) else 0)
1: (if (x mod 8) <= 0 then (if x <= 0 then 1 else 4) else 1)
1: (if (x mod 8) <= 0 then (if x <= 0 then 1 else (x + 2)) else 1)
1: (if (x mod 8) <= 0 then (if x <= 0 then 1 else x) else 4)
1: (if (x mod 8) <= 0 then loop(\(x,i).(x * (~1 + (2 * i))),x,1) else 0)
1: (if (x mod 8) <= 0 then x else 2x)
1: (if (x mod 12) <= 0 then 0 else x)
1: (if (x mod 12) <= 0 then 1 else x)
1: (if (x mod 12) <= 0 then (x + (x div 3)) else 0)
1: (if (x mod 12) <= 0 then (x + 2) else 0)
1: (if (x mod 12) <= 0 then (x div 3) else 0)
1: (if (x mod 12) <= 0 then (if x <= 0 then 0 else 2) else 1)
1: (if (x mod 10) <= 0 then 0 else 1)
1: (if (x mod 10) <= 0 then 0 else (x2 + 2x + 1))
1: (if (x mod 10) <= 0 then 0 else x)
1: (if (x mod 10) <= 0 then 1 else 0)
1: (if (x mod 10) <= 0 then 1 else loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,(x + 1)))
1: (if (x mod 10) <= 0 then 1 else i)
1: (if (x mod 10) <= 0 then 2 else x)
1: (if (x mod 10) <= 0 then 3 else 0)
1: (if (x mod 10) <= 0 then (x2 + 2x + 1) else 0)
1: (if (x mod 10) <= 0 then (2 + (if x <= 0 then 0 else 2)) else 1)
1: (if (x mod 10) <= 0 then (x + 2) else 0)
1: (if (x mod 10) <= 0 then ~1 else 0)
1: (if (x mod 10) <= 0 then ~x else i)
1: (if (x mod 10) <= 0 then (~x + 2) else x)
1: (if (x mod 10) <= 0 then (4x + 2) else 0)
1: (if (x mod 10) <= 0 then (14 * (2 + (if x <= 0 then 0 else 2))) else 1)
1: (if (x mod 10) <= 0 then (x div 3) else 1)
1: (if (x mod 10) <= 0 then (if x <= 0 then 0 else 2) else 1)
1: (if (x mod 10) <= 0 then (if x <= 0 then 1 else 2) else 0)
1: (if (x mod 10) <= 0 then (if x <= 0 then 1 else 4) else 0)
1: (if (x mod 10) <= 0 then (if x <= 0 then 3 else ~1) else 0)
1: (if (x mod 10) <= 0 then loop(\(x,i).(x * (~1 + (2 * i))),x,1) else 0)
1: (if (x mod 14) <= 0 then 1 else 0)
1: (if (x mod 14) <= 0 then 2 else 1)
1: (if (x mod 14) <= 0 then 2 else (x mod 2))
1: (if (x mod 14) <= 0 then x else 0)
1: (if (x mod (3 * (1 + ((x div 2) div (1 + (x mod (2 * (1 + (x mod 2))))))))) <= 0 then 2 else 1)
1: (if (x mod (3 * (1 + (x div 4)))) <= 0 then 1 else 0)
1: (if (x mod (3 * (1 + (x div 5)))) <= 0 then 2 else 0)
1: (if (x mod (3 * (2 + (x mod 2)))) <= 0 then 2 else 1)
1: (if (x mod (2 * (2 + (x mod 3)))) <= 0 then 1 else 0)
1: (if (x mod (2 * (2 + (x mod 3)))) <= 0 then 1 else 2)
1: (if (x mod (3 * (2 - ((x div 2) mod 2)))) <= 0 then 0 else 1)
1: (if (x mod (3 * (2 - ((x div 2) mod 2)))) <= 0 then 1 else 0)
1: (if (x mod (2 * (2 - ((x div 4) mod 2)))) <= 0 then x else 0)
1: (if (x mod (2 * (2 - (x mod 2)))) <= 0 then (x mod 8) else 1)
1: (if (x mod (2 * (8 - (x div 2)))) <= 0 then 1 else 0)
1: (if (x mod ((x + 1) div (1 + (x div 4)))) <= 0 then 1 else 0)
1: (if (x mod (31 div (x + 1))) <= 0 then 1 else 0)
1: (if (i mod 2) <= 0 then 1 else (2 * i))
1: (if (i mod 2) <= 0 then 4 else 0)
1: (if (i mod 2) <= 0 then 4 else ~1)
1: (if (i mod 2) <= 0 then ~1 else 4)
1: (if (i mod 2) <= 0 then (~1 + i) else x)
1: (if (i mod 2) <= 0 then 2x else 0)
1: (if (i mod 2) <= 0 then 2x else 1)
1: (if (i mod 2) <= 0 then 2x else 3)
1: (if (i mod 2) <= 0 then x else 2)
1: (if (i mod 2) <= 0 then x else 3)
1: (if (i mod 2) <= 0 then x else 4)
1: (if (i mod 3) <= 0 then 0 else i)
1: (if (i mod 3) <= 0 then 2 else x)
1: (if (i mod 3) <= 0 then (5x + 4) else x)
1: (if (i mod 3) <= 0 then (x2 + 2x + 1) else x)
1: (if (i mod 3) <= 0 then (2x + 1) else x)
1: (if (i mod 3) <= 0 then (1 + (x * i)) else x)
1: (if (i mod 3) <= 0 then ~1 else x)
1: (if (i mod 3) <= 0 then (x2 + ~1) else x)
1: (if (i mod 3) <= 0 then (x div 2) else 0)
1: (if (i mod 4) <= 0 then 1 else x)
1: (if (i mod 4) <= 0 then 1 else i)
1: (if (i mod 4) <= 0 then 2 else x)
1: (if (i mod 4) <= 0 then 3 else x)
1: (if (i mod 4) <= 0 then 4 else 1)
1: (if (i mod 4) <= 0 then (x2 + 2x + 1) else x)
1: (if (i mod 4) <= 0 then 21 else x)
1: (if (i mod 4) <= 0 then (4x + 1) else x)
1: (if (i mod 4) <= 0 then (1 + i) else x)
1: (if (i mod 4) <= 0 then i else 1)
1: (if (i mod (1 + (x mod 4))) <= 0 then 0 else 1)
1: (if (if (x + ~2) <= 0 then x else (x mod 2)) <= 0 then 1 else 0)
1: (if (if ((x + 2) mod 5) <= 0 then (x mod 2) else 0) <= 0 then x else (x mod 3))
1: (if (if ((x + 2) mod (1 + ((x + ~1) mod 3))) <= 0 then 1 else 0) <= 0 then x else 0)
1: (if (if (10 mod (x + 2)) <= 0 then x else 0) <= 0 then 1 else 0)
1: (if (if ((x * (x div 2)) mod 4) <= 0 then (x + ~1) else 0) <= 0 then 1 else 0)
1: (if (if (2x mod (x + 5)) <= 0 then 2 else 0) <= 0 then x else 1)
1: (if (if ((x mod 8) mod 3) <= 0 then x else 0) <= 0 then 1 else 0)
1: (if (if (x mod 2) <= 0 then x else 0) <= 0 then (x mod 4) else 2)
1: (if (if (x mod 2) <= 0 then x else (~x + 4)) <= 0 then 2 else 1)
1: (if (if (x mod 2) <= 0 then x else (~x + 2)) <= 0 then 0 else (x + 1))
1: (if (if (x mod 3) <= 0 then x else 0) <= 0 then 2 else 1)
1: (if (if (x mod 3) <= 0 then x else (x mod 2)) <= 0 then 2 else 1)
1: (if (if (x mod 4) <= 0 then x else 0) <= 0 then 1 else 0)
1: (if (if (x mod 5) <= 0 then (x mod 2) else 0) <= 0 then 1 else (x mod 3))
1: (if (if (x mod 5) <= 0 then x else 0) <= 0 then 1 else 0)
1: (if (if (x mod (2 + ((x + ~1) mod 3))) <= 0 then x else 0) <= 0 then (x mod 2) else 2)
1: (if (if (x mod (2 + ((x div 2) mod 4))) <= 0 then x else 0) <= 0 then 1 else 0)
1: (if (if (x mod (2 + (x mod 4))) <= 0 then x else 0) <= 0 then 1 else 2)
1: (if (if (x mod (1 + (x mod 6))) <= 0 then 1 else 0) <= 0 then 1 else x)
1: (if (if (x mod (1 + i)) <= 0 then x else 0) <= 0 then 1 else (~1 + i))
1: (if (if (x mod (2 - (x mod ~4))) <= 0 then x else 0) <= 0 then 1 else 0)
1: (if (if (x mod 6) <= 0 then x else 0) <= 0 then 1 else 0)
1: (if (if (x mod 8) <= 0 then x else 0) <= 0 then 1 else 0)
1: (if (if (x mod 8) <= 0 then x else 0) <= 0 then 1 else x)
1: (if (if (x mod 8) <= 0 then x else 0) <= 0 then (1 + (x mod 2)) else 0)
1: (if (if (x mod 8) <= 0 then x else 0) <= 0 then loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) else (x + 4))
1: (if (if (x mod 8) <= 0 then x else 0) <= 0 then x else 1)
1: (if (if (x mod 8) <= 0 then x else 0) <= 0 then x else (2x + 1))
1: (if (if (x mod 12) <= 0 then x else 0) <= 0 then 1 else 0)
1: (if (if (x mod 12) <= 0 then x else 0) <= 0 then x else 1)
1: (if (if x <= 0 then 1 else (x * loop(\(x,i).((~1 + i) * i),(x + ~2),1))) <= 0 then x else 0)
1: (if (if x <= 0 then 1 else (loop(\(x,i).(2x + 2),x,0) mod (x + 1))) <= 0 then 1 else (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: (if (if x <= 0 then 1 else (loop(\(x,i).(2x + 2),x,0) mod (x + 1))) <= 0 then (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) else 1)
1: (if (if x <= 0 then 1 else (loop(\(x,i).(2x + 2),x,0) mod (x + 1))) <= 0 then x else (1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: (if (if x <= 0 then 1 else (x mod (1 + (((x + 1) div 2) div 3)))) <= 0 then 2 else 0)
1: (if (if x <= 0 then 1 else (x mod (1 + (x mod 6)))) <= 0 then 2 else 1)
1: (if (if x <= 0 then 1 else loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x + ~2),x)) <= 0 then (x + 1) else x)
1: (if (if x <= 0 then 2 else loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + 1))) <= 0 then x else 1)
1: (if loop(\(x,i).(12x + 1),2x,1) <= 0 then 1 else loop(\(x,i).(10x + 1),x,1))
1: (if loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) <= 0 then 1 else (x mod (1 + ((x + ~1) mod 4))))
1: (if loop(\(x,i).(~x + i),x,2) <= 0 then 1 else 2)
1: (if loop(\(x,i).(~x + i),x,2) <= 0 then 2 else 1)
1: (if loop(\(x,i).x3,2,x) <= 0 then 1 else (8x + 2))
1: (if loop(\(x,i).x3,x,x) <= 0 then 1 else loop(\(x,i).2x,x,2))
1: (if loop(\(x,i).x2,x2,x) <= 0 then 1 else x)
1: (if loop(\(x,i).x2,x,x) <= 0 then 2 else (1 + loop(\(x,i).x2,x,2)))
1: (if loop(\(x,i).((if x <= 0 then 2 else loop(\(x,i).(x div (2 - (x mod 2))),x,x)) div 2),2,x) <= 0 then 0 else x)
1: (if loop(\(x,i).((if x <= 0 then 2 else loop(\(x,i).(x div (2 - (x mod 2))),x,x)) div 2),2,x) <= 0 then x else 0)
1: (if loop(\(x,i).(x div (1 + (x mod 2))),x,i) <= 0 then 1 else 0)
1: (if loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 0 else 2))),x,x) <= 0 then 2 else 1)
1: (if x <= 0 then 0 else 5)
1: (if x <= 0 then 0 else (7 + (loop(\(x,i).((x2 + x) div 2),1,loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1)) div 3)))
1: (if x <= 0 then 0 else (7 + loop(\(x,i).((x2 + 2x) div 2),1,loop(\(x,i).2x,x,1))))
1: (if x <= 0 then 0 else ((x + 5) - (x div ~14)))
1: (if x <= 0 then 0 else ((x + 1) + (((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3) + (x mod 2))))
1: (if x <= 0 then 0 else (6 + (x mod 2)))
1: (if x <= 0 then 0 else ((2x + 1) + (if x <= 0 then 1 else (2 * ((x + ~2) - ((~2x3 + 6x2 + ~4x) div 3))))))
1: (if x <= 0 then 0 else (5 - (x mod 2)))
1: (if x <= 0 then 0 else ((2x + 3) - (x mod 2)))
1: (if x <= 0 then 0 else ((3x + 1) + (x div 3)))
1: (if x <= 0 then 0 else (x + 9))
1: (if x <= 0 then 0 else ((x + 1) + (9 * ((x + 1) - (x mod 10)))))
1: (if x <= 0 then 0 else ((x + 1) + (9 * loop(\(x,i).i,(x + ~9),1))))
1: (if x <= 0 then 0 else (1 + (((x - ((x div 2) div ~2)) div 2) + (x mod 2))))
1: (if x <= 0 then 0 else ((x + 2) + (((3 * ((3 * (1 + ((1 + (x div (1 + ((if (x mod 2) <= 0 then 3 else ~2) mod (x + 1))))) div 2))) div 2)) div 2) div 2)))
1: (if x <= 0 then 0 else ((x + 1) + ((x mod 3) div 2)))
1: (if x <= 0 then 0 else ((x + 5) + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2)))
1: (if x <= 0 then 0 else (1 + ((x div (2 + ((x div 2) div (1 + (x mod (2 + ((x mod 3) div 2))))))) + (x mod 2))))
1: (if x <= 0 then 0 else (1 + ((x div (2 + (x div (1 + ((x mod (1 + ((2 - (x mod 4)) mod (x + 1)))) div 2))))) + (x mod 2))))
1: (if x <= 0 then 0 else (3 + (x div (1 + (x mod 4)))))
1: (if x <= 0 then 0 else ((x + 9) + (x div 11)))
1: (if x <= 0 then 0 else ((x + 1) + (((~x + 2) div 8) mod 2)))
1: (if x <= 0 then 0 else ((x + 3) + loop(\(x,i).(x - (x div 12)),2,x)))
1: (if x <= 0 then 0 else ((5x + 2) + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,x)))
1: (if x <= 0 then 0 else ((x + 1) + (loop(\(x,i).(x * i),x,2) + (x mod 2))))
1: (if x <= 0 then 0 else ((x + 2) + loop(\(x,i).(x * i),x,2)))
1: (if x <= 0 then 0 else (x + 3))
1: (if x <= 0 then 0 else (2 + (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x))))
1: (if x <= 0 then 0 else (7 + ((x + ((x mod (1 + (x div 2))) div 2)) div 2)))
1: (if x <= 0 then 0 else (2 + (x div (1 + (if (x mod 2) <= 0 then (2 * (1 + ((x mod 3) div 2))) else 1))) - (x mod 2)))
1: (if x <= 0 then 0 else ((2x + 1) - (if (x mod 4) <= 0 then (x div 4) else 0)))
1: (if x <= 0 then 0 else (1 + (((2x + ~2) mod (2 + (x div 2))) div 5) - (x mod 2)))
1: (if x <= 0 then 0 else (1 + ((x div (1 + (2 * ((x div 2) div 3)))) mod 2) - (x mod 2)))
1: (if x <= 0 then 0 else (x + (if ((1 + ((x + (x div 2)) div 2)) mod 5) <= 0 then 2 else 1) - (x mod 2)))
1: (if x <= 0 then 0 else (1 + (if ((1 + (x div 2)) mod 5) <= 0 then 0 else 2) - (x mod 2)))
1: (if x <= 0 then 0 else ((x + 1) - ((x * ((x mod (1 + ((~x + 2) mod 4))) div 2)) div 3)))
1: (if x <= 0 then 0 else (1 + (x * ((x + 1) + loop(\(x,i).(2x2 + ~x),2,x)))))
1: (if x <= 0 then 0 else (1 + (x * (1 + loop(\(x,i).(2x2 + 8),2,2)))))
1: (if x <= 0 then 0 else (1 + (x * (2 + loop(\(x,i).x2,(x + ~1),2)))))
1: (if x <= 0 then 0 else (2x + 3))
1: (if x <= 0 then 0 else (1 + (2 * ((x + 1) - (((~x2 + x) div 2) div 5)))))
1: (if x <= 0 then 0 else (1 + (3 * (i * (1 + i)))))
1: (if x <= 0 then 0 else (1 + (2x * loop(\(x,i).(x2 + 2),2,2))))
1: (if x <= 0 then 0 else (1 + (2x * loop(\(x,i).(4x + 2),4,2))))
1: (if x <= 0 then 0 else (1 + (2 * (2 div (1 + (~x mod 4))))))
1: (if x <= 0 then 0 else (1 + (x * ((1 + ((~x + 1) mod 21)) div 2))))
1: (if x <= 0 then 0 else (1 + (5 * ((x2 + ~x) div 2))))
1: (if x <= 0 then 0 else (1 + (2 * ((x + ~1) mod 3))))
1: (if x <= 0 then 0 else (1 + (2 * (((2x + 2) * (x mod 2)) mod 7))))
1: (if x <= 0 then 0 else (2 + (3 * ((x mod (2 - (x div (1 + ((x div 2) mod 2))))) mod 2))))
1: (if x <= 0 then 0 else (1 + (2 * loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x))))
1: (if x <= 0 then 0 else (1 + (x * loop(\(x,i).((x2 + ~x) div 2),2,x))))
1: (if x <= 0 then 0 else (x2 + 1))
1: (if x <= 0 then 0 else (1 + (((x + 1) + (((x + 1) + ((loop(\(x,i).(2x + (i mod 2)),x,(1 + (x mod 2))) div 2) div 2)) div 2)) div 2)))
1: (if x <= 0 then 0 else (2 + ((x + (((x - (x div 3)) mod 3) div 2)) div 2)))
1: (if x <= 0 then 0 else (1 + ((x + ((1 - (x div 2)) mod (1 + ((1 + (x div 2)) div 3)))) div 2)))
1: (if x <= 0 then 0 else (2 + ((x + ((~x + 1) mod (2 + (x div 2)))) div 2)))
1: (if x <= 0 then 0 else (2 + ((x + (((x div 2) div 3) mod 2)) div 2)))
1: (if x <= 0 then 0 else (1 + ((1 + loop(\(x,i).(2x + 4),(x div 2),(x mod 2))) div 3)))
1: (if x <= 0 then 0 else (1 + ((1 + loop(\(x,i).(x div (2 - (x mod 2))),x,((x + 1) div 2))) div 3)))
1: (if x <= 0 then 0 else (1 + ((x + 1) div (2 * (1 + ((1 + ((x + 1) div (2 + (x div (4 + (x mod 2)))))) div 2))))))
1: (if x <= 0 then 0 else (1 + ((1 - (((x * (x div 3)) div ~2) div 2)) div 3)))
1: (if x <= 0 then 0 else (2 + ((~x + (x2 div 4)) div 5)))
1: (if x <= 0 then 0 else (1 + (((x div 2) - (x div (4 + ((~x + 1) mod 4)))) div 2)))
1: (if x <= 0 then 0 else (1 + (((x + ~1) + ((~x + 1) div (1 + (((2x + 1) mod (2 + (x div 4))) div 2)))) div 2)))
1: (if x <= 0 then 0 else (1 + (((x + 1) - ((1 + (x div (1 + (x mod (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))) mod (x + 1))) div 2)))
1: (if x <= 0 then 0 else (1 + (((x + 1) - (x mod (1 + (if (x mod 5) <= 0 then 0 else 2)))) div 2)))
1: (if x <= 0 then 0 else (1 + ((x - ((x mod (2 - (x mod ~5))) div 2)) div 2)))
1: (if x <= 0 then 0 else (1 + (3x div (4 + ((x div 2) div 5)))))
1: (if x <= 0 then 0 else (1 + ((2 * (1 + ((2 + ((2 * (1 + ((2 + ((2 * (1 + ((2 + ((2 * (1 + ((1 + (x2 div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))) div 2))) div 3) - (x mod 2)) div 2))) div 3) - (x mod 2)) div 2))) div 3) - (x mod 2)) div 2))) div 3)))
1: (if x <= 0 then 0 else (1 + ((2 * (1 + ((1 + ((x + 1) div (if x <= 0 then 1 else (2 * (1 + ((1 + ((loop(\(x,i).2x,x,(1 + (x div 8))) mod (x + 1)) div 2)) div 2)))))) div 2))) div 3)))
1: (if x <= 0 then 0 else (1 + ((2 * (1 + ((1 + ((x * (1 + (if ((x + (x div 2)) mod 5) <= 0 then 2 else 1))) div 2)) div 2))) div 3)))
1: (if x <= 0 then 0 else (1 + ((2 * (1 + ((1 + ((9 * ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3)) div 2)) div 2))) div 3)))
1: (if x <= 0 then 0 else (1 + ((2 * (1 + ((1 + (((1 + (((x + 1) * (1 + (3 * ((x div 3) mod 2)) - (x mod 2))) div 2)) div 2) div 2)) div 2))) div 3)))
1: (if x <= 0 then 0 else (1 + ((2 * (1 + ((1 + ((loop(\(x,i).(1 + (2 * (x mod (1 + i)))),x,1) mod (x + 1)) div 2)) div 2))) div 3)))
1: (if x <= 0 then 0 else (1 + ((2 * (1 + ((1 + ((loop(\(x,i).2x,(x div 2),2) mod (x + 1)) div 2)) div 2))) div 3)))
1: (if x <= 0 then 0 else (1 + ((2 * (1 + ((1 + ((x mod (1 + ((~1 + loop(\(x,i).2x,(x div (2 + (x mod 2))),2)) mod (x + 1)))) div 2)) div 2))) div 3)))
1: (if x <= 0 then 0 else (1 + ((2 * (1 + ((1 + (x div (1 + ((1 + ((loop(\(x,i).(x + (x div 2)),x,2) div 2) div 2)) mod (x + 1))))) div 2))) div 3)))
1: (if x <= 0 then 0 else (1 + ((2 * (1 + ((1 + (x div (1 + ((~1 + (if (x mod (3 + ((x div 2) div 3))) <= 0 then 1 else 0)) mod (x + 1))))) div 2))) div 3)))
1: (if x <= 0 then 0 else (1 + ((2 * (1 + ((1 + (x div (1 + ((loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) - loop(\(x,i).4x,x,1)) mod (x + 1))))) div 2))) div 3)))
1: (if x <= 0 then 0 else (1 + ((2 * (1 + ((1 + (x div (2 + (loop(\(x,i).2x,(1 + (((1 + (x div 2)) div 2) div 2)),2) mod (x + 1))))) div 2))) div 3)))
1: (if x <= 0 then 0 else (1 + ((2 * (1 + ((1 + (x div (2 + (loop(\(x,i).2x,(2 - ((~x + 2) div 5)),1) mod (x + 1))))) div 2))) div 3)))
1: (if x <= 0 then 0 else (1 + ((2 * (1 + ((1 + (x div (1 + (x mod (1 + ((~1 + (2 * ((3 * (1 + (((1 + (x mod (1 + (x mod (2 * (2 + ((x div 2) mod 2))))))) mod (x + 1)) div 2))) div 2))) mod (x + 1))))))) div 2))) div 3)))
1: (if x <= 0 then 0 else (1 + ((2 * (1 + ((1 + (x div (1 + (x mod (1 + ((~1 + loop(\(x,i).2x,((x + 1) + (x div 2)),2)) mod (x + 1))))))) div 2))) div 3)))
1: (if x <= 0 then 0 else (1 + ((2 * (1 + ((1 + (x div (1 + (x mod (1 + (x mod (2 + (x div (2 * (2 - (x mod 2))))))))))) div 2))) div 3)))
1: (if x <= 0 then 0 else (1 + ((2 * (1 + ((1 + (x div (1 + (x mod ((x + 1) - (loop(\(x,i).2x,x,2) mod (x + 1))))))) div 2))) div 3)))
1: (if x <= 0 then 0 else (1 + ((2 * (1 + ((1 + (x div (2 + (x mod (x - ((x + 1) mod 4)))))) div 2))) div 3)))
1: (if x <= 0 then 0 else (1 + ((2 * (1 + ((((x + 1) mod 6) + (x div 2)) div 3))) div 3)))
1: (if x <= 0 then 0 else (1 + ((2 * (1 + ((1 + ((x * loop(\(x,i).(2x + 2),x,0)) mod loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))) div 2))) div 3)))
1: (if x <= 0 then 0 else (1 + ((2 * (1 + ((1 + (x mod (1 + (x mod (1 + (x div (2 + ((x div 2) mod (1 + (if (x mod 3) <= 0 then 0 else 2)))))))))) div 2))) div 3)))
1: (if x <= 0 then 0 else (1 + ((2 * (1 + ((1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),x,2x)) div 3))) div 3)))
1: (if x <= 0 then 0 else (1 + ((2 * (1 + (((21 * ((1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + ~1) div 2))) div 2)) div 2) div 2))) div 3)))
1: (if x <= 0 then 0 else (1 + ((2 * (1 + ((((x mod ((x + ~1) - (x mod 12))) * (1 + (x div 2))) div 2) div 2))) div 3)))
1: (if x <= 0 then 0 else (1 + ((2 * (1 + ((((~1 + (2 * (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 8)))) mod (x + 1)) div 2) div 2))) div 3)))
1: (if x <= 0 then 0 else (1 + ((2 * (1 + (((loop(\(x,i).2x,x,x) mod (x + 1)) div 2) div 2))) div 3)))
1: (if x <= 0 then 0 else (1 + ((2 * (1 + ((x div 4) div (1 + (x mod (2 * (1 + (x mod 2)))))))) div 3)))
1: (if x <= 0 then 0 else (1 + ((2 * (1 + (((2 + (x mod (2 * (1 + (x mod (2 * (1 + (x mod (1 + (x div 3)))))))))) mod (x + 1)) div 2))) div 3)))
1: (if x <= 0 then 0 else (1 + ((2 * (1 + (loop(\(x,i).2x,((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3),1) div 2))) div 3)))
1: (if x <= 0 then 0 else (1 + ((2 * (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))) div 5)))
1: (if x <= 0 then 0 else (1 + ((x * (x + (x mod 3))) div 3)))
1: (if x <= 0 then 0 else (1 + ((2 * (1 + loop(\(x,i).(x * (1 + (2 * (2 + (2 mod (x + 1)))))),x,1))) div 3)))
1: (if x <= 0 then 0 else (2 + ((x2 + 2x) div 5)))
1: (if x <= 0 then 0 else (1 + ((x2 + ~x) div (~x + 24))))
1: (if x <= 0 then 0 else (2 + ((x3 + ~x2) div 3)))
1: (if x <= 0 then 0 else (1 + ((2 * ((1 + (3x mod (2 + (x div 2)))) div 2)) div 3)))
1: (if x <= 0 then 0 else (1 + ((2 * ((x mod (4 + (x div 4))) div 2)) div 3)))
1: (if x <= 0 then 0 else (1 + (2x div (4 + (x div 4)))))
1: (if x <= 0 then 0 else (1 + (((1 + (((x + 1) * (1 + ((x + ~1) div 5))) div 2)) div 2) div 2)))
1: (if x <= 0 then 0 else (1 + (((2 + ((2 * (1 + (8 * (x mod 2)))) mod (x + 1))) div 2) div 2)))
1: (if x <= 0 then 0 else (1 + (((1 + (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) mod 13)) div 2) div 2)))
1: (if x <= 0 then 0 else ((((x + 1) div 2) div (1 + i)) + i))
1: (if x <= 0 then 0 else (1 + (((x + 1) div (3 - ((x * (x div 2)) mod 2))) div 2)))
1: (if x <= 0 then 0 else (1 + (((x + 1) div (2 + (x mod 2))) div 2)))
1: (if x <= 0 then 0 else (1 + (((x - (x mod (2 * (1 + (x mod 3))))) div 2) div 2)))
1: (if x <= 0 then 0 else (1 + ((((1 + ((2x + 1) mod (1 + (2x mod (2 + (x div 4)))))) * (1 + (x div 4))) div 2) div 2)))
1: (if x <= 0 then 0 else (1 + ((loop(\(x,i).(x - ((~x + (i mod 2)) div 2)),x,1) div 2) div 2)))
1: (if x <= 0 then 0 else (1 + ((x div 2) div (1 + (x div (2 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))))
1: (if x <= 0 then 0 else (1 + ((x div (2 + (x div (1 + ((~x + 2) mod 4))))) div (2 - (x mod 2)))))
1: (if x <= 0 then 0 else (1 + ((x div (1 + ((x2 + (x div 2)) mod 3))) div 2)))
1: (if x <= 0 then 0 else (1 + (((~x + 5) mod (1 + (x div 3))) div 2)))
1: (if x <= 0 then 0 else (1 + (((x + 2) mod (2 + (x mod (2 * (2 + (x mod 2)))))) div 2)))
1: (if x <= 0 then 0 else (1 + ((~x mod (1 + (2x div 3))) div 2)))
1: (if x <= 0 then 0 else (1 + (((1 - ((x mod 3) + (2 * (x mod 2)))) mod (2x + ~1)) div 3)))
1: (if x <= 0 then 0 else (1 + (((~x + 8) mod (1 + (x div 3))) div 2)))
1: (if x <= 0 then 0 else (1 + (((~1 + loop(\(x,i).2x,x,(1 + (2 * (((2x + 1) mod (2 + (x div 4))) div 2))))) mod (x + 1)) div 2)))
1: (if x <= 0 then 0 else (1 + (((x + ~4) mod (1 + (x div 4))) div 2)))
1: (if x <= 0 then 0 else (1 + (((3x + ~6) mod (1 + (x div 2))) div 3)))
1: (if x <= 0 then 0 else (1 + ((loop(\(x,i).2x,x,((~1 + loop(\(x,i).2x,(x + ~2),2)) div (x + 1))) mod (x + 1)) div 2)))
1: (if x <= 0 then 0 else (1 + ((x mod (2 + (x div (3 + (x mod 4))))) div 2)))
1: (if x <= 0 then 0 else (1 + ((x mod (2 + (x div (2 + ((x + 1) mod 5))))) div 2)))
1: (if x <= 0 then 0 else (1 + ((x mod (1 + ((2 - (x mod 4)) mod (x + 1)))) div 2)))
1: (if x <= 0 then 0 else (1 + ((x mod (2 + (6 mod (1 + (x div 2))))) div 2)))
1: (if x <= 0 then 0 else (1 + ((x mod (1 + (x mod (1 + (x div (2 + ((x div 2) mod 2))))))) div 3)))
1: (if x <= 0 then 0 else (1 + ((if (x mod 2) <= 0 then (if x <= 0 then 1 else (2 * (1 + ((loop(\(x,i).2x,x,(1 + (x div 4))) mod (x + 1)) div 2)))) else 1) div 2)))
1: (if x <= 0 then 0 else (x + (loop(\(x,i).(x * i),x,1) div (x + 1))))
1: (if x <= 0 then 0 else (1 + (x div (5 + (x mod 2) - (((x + ~1) mod (4 + ((x div 2) div 3))) div 2)))))
1: (if x <= 0 then 0 else (1 + (x div (2 + (((2 * (1 + ((1 + ((32 mod (x + 1)) div 2)) div 2))) div 3) + (x mod 2))))))
1: (if x <= 0 then 0 else (1 + (x div (2 + (((3 * (((x + 1) div 2) div 3)) div 2) + (x mod 2))))))
1: (if x <= 0 then 0 else (1 + (x div (4 + ((1 - (9 * (x mod 6))) mod (x + 1))))))
1: (if x <= 0 then 0 else (1 + (x div (4 + ((x div 2) mod 2)))))
1: (if x <= 0 then 0 else (1 + (x div (1 + (2 * (1 + ((x div 2) mod 2)))))))
1: (if x <= 0 then 0 else (1 + (x div (2 + ((x + 1) div (4 + ((x + 1) mod 3)))))))
1: (if x <= 0 then 0 else (1 + (x div (2 + (x div (1 + (((x + ~1) mod (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))) + (x mod 2))))))))
1: (if x <= 0 then 0 else (2 + (x div (2 + (if ((x div 3) mod 3) <= 0 then 1 else 2)))))
1: (if x <= 0 then 0 else (1 + (x div (1 - (x div (~3 + (x mod ~3)))))))
1: (if x <= 0 then 0 else (1 + (x div (4 - (if (x mod 2) <= 0 then 1 else x)))))
1: (if x <= 0 then 0 else (1 + (x div (2 * (2 + ((2x + ~4) mod 9))))))
1: (if x <= 0 then 0 else (1 + (x div ((x + 2) div (2 + (loop(\(x,i).x3,2,2x) mod (x + 1)))))))
1: (if x <= 0 then 0 else (1 + (i div 3)))
1: (if x <= 0 then 0 else (1 + (2 mod (1 + (((x + ~2) mod (2 + (x div 2))) div 2)))))
1: (if x <= 0 then 0 else (1 + (3 mod (1 + ((x div 2) mod (1 + (x mod (1 + (x div 3)))))))))
1: (if x <= 0 then 0 else (1 + ((5x + 6) mod 7)))
1: (if x <= 0 then 0 else (1 + ((1 + loop(\(x,i).(2x + 4),(x + ~1),0)) mod (x + 1))))
1: (if x <= 0 then 0 else (1 + ((x + 1) mod (1 + ((x + ((x + ~2) div (2 + (x div 2)))) mod 3)))))
1: (if x <= 0 then 0 else (1 + ((x + 1) mod (2 * (1 + (4 * (x mod (2 + (x mod 2)))))))))
1: (if x <= 0 then 0 else (1 + ((x + 2) mod (1 + ((2 - (x div 2)) mod 4)))))
1: (if x <= 0 then 0 else (1 + (~2 mod (1 - (2 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2))))))
1: (if x <= 0 then 0 else (1 + ((~x + 2) mod 3)))
1: (if x <= 0 then 0 else (1 + ((~x + ~1) mod 9)))
1: (if x <= 0 then 0 else (1 + ((x2 + x + ~1) mod 9)))
1: (if x <= 0 then 0 else (1 + ((~2x + ~1) mod 9)))
1: (if x <= 0 then 0 else (1 + ((4x + ~1) mod 9)))
1: (if x <= 0 then 0 else (1 + ((2x + ~1) mod 9)))
1: (if x <= 0 then 0 else (1 + ((~1 + ((x2 + x) div 2)) mod 9)))
1: (if x <= 0 then 0 else (1 + ((x + ~1) mod (1 + (2 * (if (x mod 2) <= 0 then 2 else x))))))
1: (if x <= 0 then 0 else (1 + ((2 * (x + ((((x + ~1) div 2) * (x div 2)) div 2))) mod 3)))
1: (if x <= 0 then 0 else (1 + ((2 * (((2x + 1) mod (2 + (x div 4))) div 2)) mod 3)))
1: (if x <= 0 then 0 else (1 + (x2 mod (1 + (x div (1 + (x mod 4)))))))
1: (if x <= 0 then 0 else (1 + (((1 + (x div 2)) div (2 + ((x div 2) mod 2))) mod 2)))
1: (if x <= 0 then 0 else (1 + (((2 + ((x + 2) mod (2 * (2 + ((x div 4) mod 2))))) div 3) mod 2)))
1: (if x <= 0 then 0 else ((((x + 1) div (1 + (x mod 9))) mod 2) + (x div 3)))
1: (if x <= 0 then 0 else (1 + (((x + ~1) div 3) mod 3)))
1: (if x <= 0 then 0 else (1 + (((x + ~4) div (1 + (x div 2))) mod 2)))
1: (if x <= 0 then 0 else (1 + (((x2 + 2x) div 2) mod (1 + (x mod (1 + (((x + 1) div 2) div 3)))))))
1: (if x <= 0 then 0 else (2 + ((((x + 1) * ((x + ~1) div 2)) div 2) mod 2)))
1: (if x <= 0 then 0 else (1 + (((x * (x2 div 2)) div (x + 3)) mod 2)))
1: (if x <= 0 then 0 else (1 + (((((2x + ~1) * ((~x + 2) div 2)) div 2) div 2) mod 2)))
1: (if x <= 0 then 0 else (1 + ((((~x + 2) mod 7) div 2) mod 2)))
1: (if x <= 0 then 0 else (1 + ((((2 * ((x div (4 + (8 mod (1 + (x div 2))))) + (x mod 2))) mod (x + 1)) div 2) mod 2)))
1: (if x <= 0 then 0 else (1 + ((loop(\(x,i).2x,loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1) div 2) mod 5)))
1: (if x <= 0 then 0 else (1 + ((loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) div 5) mod 3)))
1: (if x <= 0 then 0 else (1 + ((x div 2) mod (1 - ((x + 2) mod (~1 + ((~x + 2) div 4)))))))
1: (if x <= 0 then 0 else (1 + ((x div (3 * (1 + ((1 + (x mod 4)) div 2)))) mod 2)))
1: (if x <= 0 then 0 else (1 + ((x div (2 * (2 - ((x * (x div 2)) mod 2)))) mod (1 + (x div 3)))))
1: (if x <= 0 then 0 else (1 + (((x + ~1) mod (1 + (2 * (((x + 1) div 2) mod 4)))) mod 2)))
1: (if x <= 0 then 0 else (1 + ((8 mod (x + 1)) mod 2)))
1: (if x <= 0 then 0 else (1 + (((x3 + ~2x2) mod (2 + (x div 2))) mod 2)))
1: (if x <= 0 then 0 else (1 + ((2x mod (2 + (x div 3))) mod 2)))
1: (if x <= 0 then 0 else (1 + ((x mod (1 + (2 * (2 - ((x div 2) div 3))))) mod 2)))
1: (if x <= 0 then 0 else (2 + (x mod 2)))
1: (if x <= 0 then 0 else (2 + (x mod (2 + ((x - ((x div 2) mod 2)) div 2)))))
1: (if x <= 0 then 0 else (1 + (x mod (1 + (x div (3 + (x div 3)))))))
1: (if x <= 0 then 0 else (1 + (x mod (1 + ((x + ~1) mod (4 + (x div 2)))))))
1: (if x <= 0 then 0 else (1 + (x mod ~3)))
1: (if x <= 0 then 0 else (1 + (x mod (~1 + (2 * ((x + (x mod (2 + (x mod 2)))) div 2))))))
1: (if x <= 0 then 0 else (1 + (if (x + ~1) <= 0 then 2x else loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x + ~2),1))))
1: (if x <= 0 then 0 else (2 + (if (x + ~2) <= 0 then x else 5)))
1: (if x <= 0 then 0 else (1 + (if ((x + 1) mod 8) <= 0 then 2 else 0)))
1: (if x <= 0 then 0 else (1 + (if ((x + ~1) mod 10) <= 0 then 0 else x)))
1: (if x <= 0 then 0 else (1 + (if (x mod 2) <= 0 then 1 else (if (x div 2) <= 0 then x else (2 + (if (x mod 3) <= 0 then 2 else 0))))))
1: (if x <= 0 then 0 else (1 + (if (x mod 2) <= 0 then 1 else x)))
1: (if x <= 0 then 0 else (1 + (if (x mod 2) <= 0 then 4 else 0)))
1: (if x <= 0 then 0 else (x + (if (x mod 2) <= 0 then (1 + (if (x mod 3) <= 0 then 2 else 0)) else 0)))
1: (if x <= 0 then 0 else (1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))
1: (if x <= 0 then 0 else (1 + (if (x mod 3) <= 0 then (((x * (x mod 2)) div 2) mod 4) else 0)))
1: (if x <= 0 then 0 else (1 + (if (x mod (4 + (x div 2))) <= 0 then 2 else 0)))
1: (if x <= 0 then 0 else (1 + (if (x mod (1 + (3 * (x mod 4)))) <= 0 then 2 else 0)))
1: (if x <= 0 then 0 else ((if (x mod 6) <= 0 then 2 else 1) + (((x + 1) div 2) div 2)))
1: (if x <= 0 then 0 else (x + loop(\(x,i).(x + (if (x mod (2 + i)) <= 0 then x else 0)),x,3)))
1: (if x <= 0 then 0 else (x + loop(\(x,i).(~2x + 1),loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1)))
1: (if x <= 0 then 0 else (loop(\(x,i).(x * (~1 + (2 * i))),i,1) + (x * (~1 + (2 * i)))))
1: (if x <= 0 then 0 else (loop(\(x,i).6x,(x + ~1),1) + loop(\(x,i).3x,x,1)))
1: (if x <= 0 then 0 else (1 + loop(\(x,i).2x,(loop(\(x,i).2x,x,2) mod (x + 1)),1)))
1: (if x <= 0 then 0 else (1 + loop(\(x,i).((x2 + ~x) div 2),2,(x + 2))))
1: (if x <= 0 then 0 else (1 + loop(\(x,i).(if x <= 0 then i else (x div 2)),x,0)))
1: (if x <= 0 then 0 else (2 + i))
1: (if x <= 0 then 0 else (1 + compr(\x.(1 - (x mod (1 - (x div (~1 + ((~x + 2) div 4)))))),x)))
1: (if x <= 0 then 0 else (1 + compr(\x.(~1 + ((1 + (x * loop(\(x,i).(~x2 + 1),2,4x))) mod (x + 1))),x)))
1: (if x <= 0 then 0 else (1 + compr(\x.(~1 + ((2 * ((x + 2) + (if x <= 0 then 1 else (4x + ((x + (2 * (x mod 2))) div 5))))) mod 3)),x)))
1: (if x <= 0 then 0 else (2 + compr(\x.(~1 + (loop(\(x,i).2x,x,(1 + (if (x mod 2) <= 0 then 2x else 1))) mod (x + 2))),x)))
1: (if x <= 0 then 0 else (1 + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),(x + 5))))
1: (if x <= 0 then 0 else (1 + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),(x + 6))))
1: (if x <= 0 then 0 else (1 + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),(x + 4))))
1: (if x <= 0 then 0 else (1 + compr(\x.loop(\(x,i).(if ((x + 1) mod (1 + i)) <= 0 then 0 else x),x,2x),x)))
1: (if x <= 0 then 0 else (~1 - loop(\(x,i).(x - (if x <= 0 then 1 else (1 + (i * i)))),x,x)))
1: (if x <= 0 then 0 else (1 - (2 * (x - (2 * (x div 3))))))
1: (if x <= 0 then 0 else (1 - (2 * ((~x + (x mod 3)) div 4))))
1: (if x <= 0 then 0 else (1 - (2 * (((((x + ~1) * (1 + (x div 2))) div 2) div 2) mod 2))))
1: (if x <= 0 then 0 else (1 - (2 * (if (x mod 2) <= 0 then x else (~x + 1)))))
1: (if x <= 0 then 0 else (1 - ((0 - ((~x + 1) mod 5)) div 2)))
1: (if x <= 0 then 0 else (1 - ((0 - ((x2 div 4) mod (x + 1))) div 3)))
1: (if x <= 0 then 0 else (1 - (((x + 1) mod (~1 - (x div 4))) div 2)))
1: (if x <= 0 then 0 else (1 - ((1 + (x mod (1 + (2 * (2 + (x2 mod 3)))))) mod (x + 1))))
1: (if x <= 0 then 0 else (1 - (x mod (2 + ((2 * (1 + (x mod (2 + (x mod 2))))) mod (1 + (x div 2)))))))
1: (if x <= 0 then 0 else (1 - (x mod (1 + ((~x2 + 2x + ~1) mod 8)))))
1: (if x <= 0 then 0 else (1 - (x mod (1 + (if ((x + ~2) mod 8) <= 0 then 2 else 0)))))
1: (if x <= 0 then 0 else (1 - (if (x mod 3) <= 0 then (~2 + (x mod 2)) else 0)))
1: (if x <= 0 then 0 else (1 - (if (x mod (1 + (4 * (x mod 5)))) <= 0 then 2 else 0)))
1: (if x <= 0 then 0 else (~x + 1))
1: (if x <= 0 then 0 else (3x2 + ~3x + 2))
1: (if x <= 0 then 0 else (2 - ((~8x + 1) div (x + 3))))
1: (if x <= 0 then 0 else (2 - ((1 - (x div 2)) div (1 + ((((x + 1) div 2) div 2) div 2)))))
1: (if x <= 0 then 0 else (2 - ((1 + ((2 + ((2x mod (~1 + (2 * (((~x + 2) div 2) mod 4)))) div 2)) mod (1 + (x div 3)))) mod 3)))
1: (if x <= 0 then 0 else (2 - ((x div (1 + (2 * ((x + ~1) mod 3)))) mod 2)))
1: (if x <= 0 then 0 else (2 - ((x div (2 + (2x mod 9))) mod 2)))
1: (if x <= 0 then 0 else (2 - (((x mod (2 + (3 * (x mod 3)))) mod 3) mod 2)))
1: (if x <= 0 then 0 else (2 - (x mod (2 - ((x + 1) * (x div 2))))))
1: (if x <= 0 then 0 else (~1 + (x * (~2 + loop(\(x,i).(x2 + 4x + 4),2,2)))))
1: (if x <= 0 then 0 else (~1 + (2 * (x2 div 2))))
1: (if x <= 0 then 0 else (~1 + (2 * (((1 + (x div 2)) div 2) mod 2))))
1: (if x <= 0 then 0 else (~1 + (2 * (((x + ~2) div (1 + (x div 3))) mod 2))))
1: (if x <= 0 then 0 else (~1 + (2 * ((x div ~3) mod 2))))
1: (if x <= 0 then 0 else (~1 + (2 * (((x + ~1) mod (2 + (x div (2 + (x mod 2))))) mod 2))))
1: (if x <= 0 then 0 else (~1 + (2 * ((x2 mod (1 + (2 * (2 + (x div 2))))) mod 2))))
1: (if x <= 0 then 0 else (~1 + ((x * (~1 + (x mod 3))) div 2)))
1: (if x <= 0 then 0 else (~1 + ((2 * ((x + 1) div 3)) div 3)))
1: (if x <= 0 then 0 else (((x div 3) + (((x + 1) div (1 + (x mod 9))) mod 2)) - (x mod 2)))
1: (if x <= 0 then 0 else (~1 + ((x mod 2) + (x mod (1 + (((x div 2) - (x mod 2)) mod (1 + (x div 2))))))))
1: (if x <= 0 then 0 else (~1 + (x mod (2 + loop(\(x,i).2x,loop(\(x,i).(x div (1 + (x mod 2))),x,x),2)))))
1: (if x <= 0 then 0 else (~1 + loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)))
1: (if x <= 0 then 0 else (~1 + loop(\(x,i).(2 * ((x * i) + (i div 2))),x,0)))
1: (if x <= 0 then 0 else ((x + 1) - (((x + 1) * (1 + (x div 8))) div 7)))
1: (if x <= 0 then 0 else ((x + 1) - ((x + 1) mod (1 + ((x div (3 * (2 + ((x2 + x) mod 8)))) + (x mod 2))))))
1: (if x <= 0 then 0 else ((x + 2) - (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) mod (2x + ~1))))
1: (if x <= 0 then 0 else (7x + ~3))
1: (if x <= 0 then 0 else (x - ((x + 1) mod (2 * (~1 - (if (x + ~4) <= 0 then 0 else 2))))))
1: (if x <= 0 then 0 else (x - loop(\(x,i).(x - loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,0)),x,(x + ~1))))
1: (if x <= 0 then 0 else (i - ((~1 + i) mod 6)))
1: (if x <= 0 then 0 else (~x + i))
1: (if x <= 0 then 0 else (4x + ~4))
1: (if x <= 0 then 0 else (6x + 8))
1: (if x <= 0 then 0 else (4x + 2))
1: (if x <= 0 then 0 else (2 * (1 + (x div 2))))
1: (if x <= 0 then 0 else (3 * (1 + (x div 2))))
1: (if x <= 0 then 0 else ((x + 4) * (2 + (if (~x + 2) <= 0 then 2 else 1))))
1: (if x <= 0 then 0 else ((2x + ~1) * (1 + (if (x mod 2) <= 0 then 8 else 0))))
1: (if x <= 0 then 0 else (2 * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: (if x <= 0 then 0 else (2 * (1 - (x div 2))))
1: (if x <= 0 then 0 else (2 * ((1 + (4 * (x mod 2))) * (1 + (x mod 3)))))
1: (if x <= 0 then 0 else (2 * (if (~4 + (x div 2)) <= 0 then 2 else 0)))
1: (if x <= 0 then 0 else (i * i))
1: (if x <= 0 then 0 else ((2 + loop(\(x,i).2x,((x + ~1) div 2),x)) div 2))
1: (if x <= 0 then 0 else ((2 - (2x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))) div 2))
1: (if x <= 0 then 0 else (loop(\(x,i).(2 + (x div (2 + (3 * (x mod 2))))),2,x) div 2))
1: (if x <= 0 then 0 else (loop(\(x,i).2x,(x + ~2),loop(\(x,i).x2,(x + ~1),2)) div 2))
1: (if x <= 0 then 0 else (loop(\(x,i).(x * i),(x div 2),1) div (1 + (x mod 2))))
1: (if x <= 0 then 0 else (loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x + ~2),(x + ~2)) div 2))
1: (if x <= 0 then 0 else ((1 + (((1 + (loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else 2x),x,(2x + 12)) div 3)) div 2) div 2)) mod 3))
1: (if x <= 0 then 0 else ((1 + ((2x mod (4 + (x div 4))) mod 4)) mod 3))
1: (if x <= 0 then 0 else ((x + 1) mod (2 * (1 + (x mod (1 + ((x + ~1) mod 5)))))))
1: (if x <= 0 then 0 else ((if (x mod (2 + (x mod 2))) <= 0 then 1 else x) mod 4))
1: (if x <= 0 then 0 else (loop(\(x,i).2x,(x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))),1) mod 4))
1: (if x <= 0 then 0 else (if ((x div 4) - (x mod 6)) <= 0 then 1 else 2))
1: (if x <= 0 then 0 else (if (~2 + (3x mod (2 + (x div 2)))) <= 0 then 1 else 2))
1: (if x <= 0 then 0 else (if (x + ~1) <= 0 then 1 else (x * (4 - (x mod 2)))))
1: (if x <= 0 then 0 else (if (x + ~2) <= 0 then 1 else (2x + ~4)))
1: (if x <= 0 then 0 else (if ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) <= 0 then 1 else (2 * (2 + (x div 5)))))
1: (if x <= 0 then 0 else (if (5 mod (x + 1)) <= 0 then (x + 2) else 1))
1: (if x <= 0 then 0 else (if ((x + (x div 4)) mod 3) <= 0 then 1 else 2))
1: (if x <= 0 then 0 else (if ((x + 1) mod (2 + (x2 mod 5))) <= 0 then 2 else 1))
1: (if x <= 0 then 0 else (if ((x + 2) mod (1 + (4 * (x mod 4)))) <= 0 then 2 else 1))
1: (if x <= 0 then 0 else (if (2x mod (4 + (x div 4))) <= 0 then (2 + (x div 4)) else 1))
1: (if x <= 0 then 0 else (if (x2 mod (x + 4)) <= 0 then 2 else 1))
1: (if x <= 0 then 0 else (if ((x2 div 2) mod (x + 3)) <= 0 then 2 else 1))
1: (if x <= 0 then 0 else (if ((x mod 5) mod (if x <= 0 then 1 else x)) <= 0 then 1 else 2))
1: (if x <= 0 then 0 else (if (x mod 2) <= 0 then 2 else ((x mod (1 + ((1 + (x div 2)) div 2))) mod 2)))
1: (if x <= 0 then 0 else (if (x mod 3) <= 0 then 1 else (2 * ((x div 4) mod 2))))
1: (if x <= 0 then 0 else (if (x mod 3) <= 0 then 1 else ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)))
1: (if x <= 0 then 0 else (if (x mod 4) <= 0 then (2x2 + 3x + 1) else 0))
1: (if x <= 0 then 0 else (if (x mod (3 + ((x div 2) div 3))) <= 0 then 2 else 1))
1: (if x <= 0 then 0 else (if (x mod (3 + ((x div 2) mod 3))) <= 0 then 2 else 1))
1: (if x <= 0 then 0 else (if (x mod (1 + (2 * (((~x + 2) mod (2 + (x div 2))) div 2)))) <= 0 then 1 else 2))
1: (if x <= 0 then 0 else (if (x mod (2 + ((1 + (2 * (1 + ((((2x + 2) mod (2 + (x div 2))) div 2) div 2)))) mod (x + 1)))) <= 0 then 2 else 1))
1: (if x <= 0 then 0 else (if (x mod (2 + ((1 + (6 mod (1 + (x div 2)))) mod 2))) <= 0 then 2 else 1))
1: (if x <= 0 then 0 else (if (x mod (2 + ((~x + 2) mod 4))) <= 0 then 1 else 2))
1: (if x <= 0 then 0 else (if (x mod (2 + ((~x + 2) mod 8))) <= 0 then 2 else 0))
1: (if x <= 0 then 0 else (if (x mod (2 + ((x + ~1) mod 3))) <= 0 then 2 else 1))
1: (if x <= 0 then 0 else (if (x mod (1 + ((x + ~1) mod 4))) <= 0 then 1 else 4))
1: (if x <= 0 then 0 else (if (x mod (1 + ((2x + ~2) mod (1 + (x div 2))))) <= 0 then 1 else 2))
1: (if x <= 0 then 0 else (if (x mod (1 + (16 mod (x + 1)))) <= 0 then 1 else 2))
1: (if x <= 0 then 0 else (if (x mod (1 + (x mod (1 + (x div 3))))) <= 0 then (x + 1) else 0))
1: (if x <= 0 then 0 else (if (x mod (1 + (x mod 8))) <= 0 then 2 else 1))
1: (if x <= 0 then 0 else (if (x mod (1 - (2 * ((~x + 1) div (2 + (x div 2)))))) <= 0 then 1 else 2))
1: (if x <= 0 then 0 else (if (x mod (8 - (x div 2))) <= 0 then 2 else 1))
1: (if x <= 0 then 0 else (if (x mod (8 - (x div 3))) <= 0 then 2 else 1))
1: (if x <= 0 then 0 else (if (x mod (~1 + (2 * (x div 4)))) <= 0 then 1 else 2))
1: (if x <= 0 then 0 else (if (x mod (x - ((x + ~1) mod 8))) <= 0 then 5 else x))
1: (if x <= 0 then 0 else (if x <= 0 then 1 else (2 + ((x + 2) div 7))))
1: (if x <= 0 then 0 else (if x <= 0 then 1 else (2 * compr(\x.(1 - (x mod (1 + (2x mod (1 + (x div 2)))))),x))))
1: (if x <= 0 then 0 else loop(\(x,i).((x + 2) + ((x + (x div 2)) div 4)),x,2))
1: (if x <= 0 then 0 else loop(\(x,i).((x + 1) + ((x + (x mod 2)) div 3)),i,1))
1: (if x <= 0 then 0 else loop(\(x,i).(1 + (2x * (i * (~1 + (2 * i))))),(x + ~1),1))
1: (if x <= 0 then 0 else loop(\(x,i).(x + ((3 * ((x div 2) div 3)) div 2)),2,(x + ~1)))
1: (if x <= 0 then 0 else loop(\(x,i).(2x + (x div 2)),x,2))
1: (if x <= 0 then 0 else loop(\(x,i).(2 + (i div 3)),loop(\(x,i).(x div (1 + (x mod 2))),x,x),1))
1: (if x <= 0 then 0 else loop(\(x,i).(loop(\(x,i).(x * i),(~1 + i),1) + loop(\(x,i).(x * i),x,1)),(x + ~1),1))
1: (if x <= 0 then 0 else loop(\(x,i).(0 - ((2x * (~1 + (2 * i))) div (1 + i))),(x div 2),1))
1: (if x <= 0 then 0 else loop(\(x,i).(10x + ~6),x,2))
1: (if x <= 0 then 0 else loop(\(x,i).(~x + (10x div (if i <= 0 then 1 else i))),x,1))
1: (if x <= 0 then 0 else loop(\(x,i).(~x + loop(\(x,i).((x + ~2) * i),i,0)),x,1))
1: (if x <= 0 then 0 else loop(\(x,i).(~1 + loop(\(x,i).(x div (2 - ((x * (x div 2)) mod 2))),x,x)),x,(x + 1)))
1: (if x <= 0 then 0 else loop(\(x,i).(~2 + i),(x mod 6),1))
1: (if x <= 0 then 0 else loop(\(x,i).(2x + 2),loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1))
1: (if x <= 0 then 0 else loop(\(x,i).(3 * (~x + (if x <= 0 then 1 else (~1 + loop(\(x,i).(x3 + x),x,1))))),x,1))
1: (if x <= 0 then 0 else loop(\(x,i).(2x + ~4),x,1))
1: (if x <= 0 then 0 else loop(\(x,i).10x,(3x + ~3),1))
1: (if x <= 0 then 0 else loop(\(x,i).10x,x,9))
1: (if x <= 0 then 0 else loop(\(x,i).(x * ((2 + i) * (1 + i))),x,2))
1: (if x <= 0 then 0 else loop(\(x,i).(4x * (~1 + (2 * i))),(x + ~1),2))
1: (if x <= 0 then 0 else loop(\(x,i).(x * (i div ~2)),(x + ~1),1))
1: (if x <= 0 then 0 else loop(\(x,i).((x + ~1) * loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,x)),1,(x + ~1)))
1: (if x <= 0 then 0 else loop(\(x,i).2x,(~1 + loop(\(x,i).(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,x)),2,x)),1))
1: (if x <= 0 then 0 else loop(\(x,i).2x,((1 + (x div 3)) div 2),2))
1: (if x <= 0 then 0 else loop(\(x,i).x2,1,loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(x + ~1),1)))
1: (if x <= 0 then 0 else loop(\(x,i).(2 * i),(((x + ~1) div 2) - ((3 * (x div 4)) div 2)),1))
1: (if x <= 0 then 0 else loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),(x div 2),((x + 1) mod 2)))
1: (if x <= 0 then 0 else loop(\(x,i).((8x * (~1 + (2 * i))) div (1 + i)),(x + ~1),1))
1: (if x <= 0 then 0 else loop(\(x,i).((8x * (~1 + (2 * i))) div (1 + i)),(x + ~1),2))
1: (if x <= 0 then 0 else loop(\(x,i).(loop(\(x,i).(2 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),2,x) div (1 + i)),2,x))
1: (if x <= 0 then 0 else loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x + 2)))
1: (if x <= 0 then 0 else loop(\(x,i).loop(\(x,i).(x * i),i,x),(x + ~2),1))
1: (if x <= 0 then 0 else loop(\(x,i).i,((2x + 1) mod (1 - (x div ~4))),1))
1: (if x <= 0 then 0 else compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),x))
1: (if x <= 0 then 1 else (7 + (((x + 1) * (1 + loop(\(x,i).2x,x,3))) div 3)))
1: (if x <= 0 then 1 else ((x + 2) + ((if (x + ~4) <= 0 then 1 else 2) + (x div 5))))
1: (if x <= 0 then 1 else (2x + (loop(\(x,i).(x - (x div 8)),2,(x + ~1)) + ((x + 1) div 3))))
1: (if x <= 0 then 1 else (x + 5))
1: (if x <= 0 then 1 else ((x + 1) + ((2 * (4 + (if x <= 0 then 2 else ((x + 2) + (2 * (2 - (x mod 2))))))) div 3)))
1: (if x <= 0 then 1 else ((2x + 4) + (7 * (1 + (x div 2)))))
1: (if x <= 0 then 1 else (x + ((2 * (x mod 2)) + (x div 3))))
1: (if x <= 0 then 1 else (4 + (x * (if (x + ~2) <= 0 then 1 else x3))))
1: (if x <= 0 then 1 else ((x + 2) + ((x + (x div 3)) div 3)))
1: (if x <= 0 then 1 else ((x + 2) + ((x + ((~1 + (x div 2)) mod (1 + ((1 + (x div 2)) div 3)))) div 2)))
1: (if x <= 0 then 1 else ((x + 2) + ((x + (((x mod 3) * (x div 2)) mod 2)) div 2)))
1: (if x <= 0 then 1 else ((x + 2) + ((x - (2 div (8 - (x div 2)))) div 2)))
1: (if x <= 0 then 1 else ((x + 2) + ((x - ((x div 4) mod 2)) div 3)))
1: (if x <= 0 then 1 else ((2x + 3) + ((10x + 8) div (x + 3))))
1: (if x <= 0 then 1 else (1 + (((x2 + x) div 2) + (if (x mod 2) <= 0 then 1 else x))))
1: (if x <= 0 then 1 else ((x + 2) + ((x2 + x) div (x + 8))))
1: (if x <= 0 then 1 else ((x + 3) + ((x2 + 3x + 2) div 2)))
1: (if x <= 0 then 1 else (3 + (31x2 div 2)))
1: (if x <= 0 then 1 else (x + ((4x div (x + 2)) + (x div 4))))
1: (if x <= 0 then 1 else ((x + 3) + (6x div (x + 1))))
1: (if x <= 0 then 1 else ((x + 2) + ((x2 * (x mod 2)) div 3)))
1: (if x <= 0 then 1 else ((x + 2) + ((3 * ((1 + (x div 2)) div 3)) div 2)))
1: (if x <= 0 then 1 else ((x + 2) + ((((1 + (x div 2)) div 3) * (1 + (((x + 1) div 2) div 2))) div 2)))
1: (if x <= 0 then 1 else ((x + 2) + ((x * (x div 8)) div 5)))
1: (if x <= 0 then 1 else ((x + 2) + (2x div 9)))
1: (if x <= 0 then 1 else ((x + 2) + (x2 div ((x + 1) + (x div 3)))))
1: (if x <= 0 then 1 else ((x + 4) + ((((5 * ((x2 + 3x + 2) div 2)) + (x div 5)) div 2) div 2)))
1: (if x <= 0 then 1 else ((x + 4) + (((x + 1) div 2) div 3)))
1: (if x <= 0 then 1 else ((x + 2) + (((((2 - (x div 2)) div 2) * (x div 3)) div 2) div 2)))
1: (if x <= 0 then 1 else ((x + 2) + ((((x div 2) div ~2) mod (x + 1)) div 2)))
1: (if x <= 0 then 1 else (4 + (loop(\(x,i).x2,1,loop(\(x,i).(2x + ~4),x,1)) div 3)))
1: (if x <= 0 then 1 else ((x + 4) + (x div (4 + (x div 2)))))
1: (if x <= 0 then 1 else ((x + 2) + (x div (2 * (2 + (((1 + (x div 2)) div 2) mod 4))))))
1: (if x <= 0 then 1 else ((x + 2) + (x div (if ((x + 1) mod 8) <= 0 then 2 else 1))))
1: (if x <= 0 then 1 else ((x + 2) + ((~x + 1) mod (1 + ((x - ((x div 3) mod 3)) div 2)))))
1: (if x <= 0 then 1 else ((x + 2) + ((x + ~1) mod 9)))
1: (if x <= 0 then 1 else (2 + (((x div 3) mod 2) + (x mod 2))))
1: (if x <= 0 then 1 else ((x + 4) + (if (~2 + (x div 2)) <= 0 then 1 else 4)))
1: (if x <= 0 then 1 else ((x + 1) + (if (x + ~2) <= 0 then 1 else (2 + ((x + 1) div 5)))))
1: (if x <= 0 then 1 else ((x + 2) + (if (x + ~2) <= 0 then x else 1)))
1: (if x <= 0 then 1 else ((x2 + 2) + (if (x mod 2) <= 0 then 1 else x)))
1: (if x <= 0 then 1 else ((x2 + 2) + loop(\(x,i).(2 * (x + (x div 2))),x,1)))
1: (if x <= 0 then 1 else ((x + 1) + loop(\(x,i).(2x + 2),(2x div (4 + (x div 2))),1)))
1: (if x <= 0 then 1 else (3 + loop(\(x,i).(x2 + x),1,loop(\(x,i).(x * i),x,1))))
1: (if x <= 0 then 1 else (3 + loop(\(x,i).2x,x,2)))
1: (if x <= 0 then 1 else ((x2 + 2) + loop(\(x,i).x2,2,x2)))
1: (if x <= 0 then 1 else (4 + loop(\(x,i).(if x <= 0 then 3 else (x2 + ~1)),x,1)))
1: (if x <= 0 then 1 else ((x + 2) + loop(\(x,i).i,(~2 + (x div 3)),1)))
1: (if x <= 0 then 1 else ((x + 1) - ((x + 1) mod (2 + ((x + 1) mod 4)))))
1: (if x <= 0 then 1 else ((4x + 1) - ((x + ~2) mod (3 - (x mod 2)))))
1: (if x <= 0 then 1 else ((4x + 2) - (2 div (1 + (x div 5)))))
1: (if x <= 0 then 1 else (4 - (x mod 2)))
1: (if x <= 0 then 1 else ((x + 2) - ((x mod 2) + (2 * ((2 - (x mod (~1 + (2 * (x div 5))))) div 2)))))
1: (if x <= 0 then 1 else (2 + ((2 * (1 + ((1 + (((~1 + loop(\(x,i).2x,x,(1 + (x mod (1 + ((x + 1) mod 3)))))) mod (x + 1)) div 2)) div 2))) div 3) - (x mod 2)))
1: (if x <= 0 then 1 else (2 + (((1 + (x div 3)) div (1 + (if (x mod (4 - (x mod 2))) <= 0 then 2 else 0))) div 2) - (x mod 2)))
1: (if x <= 0 then 1 else (2 + (x div (2 + ((1 + ((~x + 2) mod 4)) mod (x + 1)))) - (x mod 2)))
1: (if x <= 0 then 1 else (2 + ((2x + 2) mod (1 + (((x + 1) * (1 + (((1 + (x mod ((1 + (x mod (1 + (x div 4)))) * (1 + (x mod 2))))) mod (x + 1)) + (x mod 2)))) mod 3))) - (x mod 2)))
1: (if x <= 0 then 1 else (2 + ((x mod (((~x + ~1) + (x mod 2)) div 3)) mod 2) - (x mod 2)))
1: (if x <= 0 then 1 else ((x + 3) - ((~x + (x div 3)) div 3)))
1: (if x <= 0 then 1 else ((2x + 3) - ((~1 - (4x2 div 5)) div 3)))
1: (if x <= 0 then 1 else ((3x + 5) - ((x + (x div 2)) div 4)))
1: (if x <= 0 then 1 else (1 + (2 * ((x + ~1) mod 4)) - (x mod 2)))
1: (if x <= 0 then 1 else ((2x + 2) - (x div (4 + ((x div 2) mod 4)))))
1: (if x <= 0 then 1 else ((2x + ~1) + ((2 * ((4x + ~1) + ((2 * ((2x + 2) + (if x <= 0 then 1 else (2 * (2x + ((x - (x div 4)) div 2)))))) div 3))) div 3)))
1: (if x <= 0 then 1 else ((2x + ~1) + ((2 * (3x + (if x <= 0 then 1 else 5x) - ((~2x + 2) div 9))) div 3)))
1: (if x <= 0 then 1 else ((2x + ~1) + ((2 * ((x + 2) + ((2 * ((x + 1) + (2 * (2x + (2x div 5))))) div 3))) div 3)))
1: (if x <= 0 then 1 else ((2x + ~1) + ((2 * (3 + ((4 * (1 + ((((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) * (1 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))) div 2) div 2))) div 3))) div 3)))
1: (if x <= 0 then 1 else ((2x + ~1) + ((2 * (2x + loop(\(x,i).((x + 1) + (((2x + ~4) div (2 + (x div 2))) mod 2)),x,1))) div 3)))
1: (if x <= 0 then 1 else (6x + (x div ~7) - (x div 7)))
1: (if x <= 0 then 1 else (1 + (if (x mod 5) <= 0 then 1 else ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) - (x mod 2)))
1: (if x <= 0 then 1 else ((x + 2) - ((1 + (x2 div 2)) div (x + 3))))
1: (if x <= 0 then 1 else ((x + 2) - ((~x + 1) div (4 + ((x div 4) mod 2)))))
1: (if x <= 0 then 1 else ((x + 2) - ((~x + ((x div 2) div ~2)) div 2)))
1: (if x <= 0 then 1 else ((x + 3) - (((~x + 1) * (x div 2)) div (x + 2))))
1: (if x <= 0 then 1 else ((x + 2) - (x2 div (x + 16))))
1: (if x <= 0 then 1 else ((x + 2) - ((((2 + (x div 4)) * (x div 2)) div 2) div 2)))
1: (if x <= 0 then 1 else ((x + 2) - ((((x + 1) div 2) div 2) div 2)))
1: (if x <= 0 then 1 else (x + ((x + 1) div 2) - (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))))
1: (if x <= 0 then 1 else (2x2 + ~4x + 7))
1: (if x <= 0 then 1 else ((5 * ((x + 2) + (x mod 2))) + (x div 2)))
1: (if x <= 0 then 1 else (x3 + 4x2 + 3))
1: (if x <= 0 then 1 else (2 + ((1 + ((1 + (x div 3)) div 2)) * (x div 3))))
1: (if x <= 0 then 1 else (x + (3 * (x + (i mod 2)))))
1: (if x <= 0 then 1 else (1 + (2 * (1 + loop(\(x,i).(x + (2 * ((2 + i) * (~1 + i)))),x,1)))))
1: (if x <= 0 then 1 else (1 + (2 * (1 + i))))
1: (if x <= 0 then 1 else (1 + (11 * i)))
1: (if x <= 0 then 1 else (1 + (2 * ((x + 1) - (((~x + ~1) + (x mod 2)) div 5)))))
1: (if x <= 0 then 1 else (1 + (2 * ((x + 1) - ((x mod (2 + (((x + 1) div 2) div 3))) div 2)))))
1: (if x <= 0 then 1 else (41x2 + 2))
1: (if x <= 0 then 1 else (10x + 21))
1: (if x <= 0 then 1 else (25x2 + 2))
1: (if x <= 0 then 1 else (30x3 + 30x + 2))
1: (if x <= 0 then 1 else ((8x + ~2) + (x div 2)))
1: (if x <= 0 then 1 else (8x + ((x + 1) div 3)))
1: (if x <= 0 then 1 else (8x + (if (2 - i) <= 0 then x else 1)))
1: (if x <= 0 then 1 else (9x2 + 2))
1: (if x <= 0 then 1 else (15x2 + 2))
1: (if x <= 0 then 1 else (27x2 + 2))
1: (if x <= 0 then 1 else (28x2 + 2))
1: (if x <= 0 then 1 else (2 + (x2 * loop(\(x,i).(x2 + x),2,2))))
1: (if x <= 0 then 1 else (3x2 + 2))
1: (if x <= 0 then 1 else (x3 + ~x2 + 2))
1: (if x <= 0 then 1 else (x + (2 * (i * (1 + i)))))
1: (if x <= 0 then 1 else (2 + (3 * ((1 + loop(\(x,i).2x,x,(1 + loop(\(x,i).3x,x,1)))) div 3))))
1: (if x <= 0 then 1 else (1 + (9 * ((1 + loop(\(x,i).loop(\(x,i).((x + 1) + (x2 div 3)),x,1),x,1)) div 2))))
1: (if x <= 0 then 1 else (x + (2 * ((x + 1) div 5))))
1: (if x <= 0 then 1 else (2 + ((x + ~1) * (x2 div 2))))
1: (if x <= 0 then 1 else (x + (2 * ((x mod (3 + (((1 + (x div 4)) mod 2) * (x div 2)))) div 2))))
1: (if x <= 0 then 1 else (1 + (2 * (loop(\(x,i).(1 + loop(\(x,i).(x2 + ~2),(x mod 3),x)),x,2) div 2))))
1: (if x <= 0 then 1 else (x + (2 * (x div (~1 + (4 * (1 + i)))))))
1: (if x <= 0 then 1 else (1 + (2 * (i div 2))))
1: (if x <= 0 then 1 else (1 + (2 * (((~1 + (2x mod (2 + (x div 2)))) div 2) mod 2))))
1: (if x <= 0 then 1 else (x + (2 * (if (x + ~1) <= 0 then 1 else ((x + 1) + loop(\(x,i).2x,x,1))))))
1: (if x <= 0 then 1 else (1 + (2 * (if (x mod 2) <= 0 then 2 else (2x2 + 2x)))))
1: (if x <= 0 then 1 else (1 + (5 * loop(\(x,i).(10x + ~16),x,2))))
1: (if x <= 0 then 1 else (x2 + 2))
1: (if x <= 0 then 1 else (2 + (x * i)))
1: (if x <= 0 then 1 else (1 + (i * i)))
1: (if x <= 0 then 1 else (2 + (3 * compr(\x.(~1 + (loop(\(x,i).4x,x,1) mod (2x + 1))),x))))
1: (if x <= 0 then 1 else (4x + (2 div (~2 + (x mod 2)))))
1: (if x <= 0 then 1 else (2 + (2 div (16 div (x + 1)))))
1: (if x <= 0 then 1 else (4x + (((x + 1) + (2 * ((x + (if (~2 + (x div 2)) <= 0 then 1 else 2)) div 3))) div 3)))
1: (if x <= 0 then 1 else (4x + (((x + 1) + (2 * ((1 + (if (x mod 3) <= 0 then 0 else x)) div 3))) div 3)))
1: (if x <= 0 then 1 else (4x + ((1 + (2 * (x + ((2x + ~1) div (4 + (x div 4)))))) div 3)))
1: (if x <= 0 then 1 else (4x + ((1 + (2 * (x - (2 * ((~x + 1) div 3))))) div 3)))
1: (if x <= 0 then 1 else (4x + ((x + (2 * (x mod 2))) div 5)))
1: (if x <= 0 then 1 else (2 + ((x2 + 2) div 9)))
1: (if x <= 0 then 1 else (2x + ((x2 + 2) div 11)))
1: (if x <= 0 then 1 else (x + ((x + ((x - ((x - ((x + (2 * ((1 + ((x * (x - ((1 + (((x * (x + (2 * (x mod 2)))) div 2) div 2)) div 2))) div 2)) div 2))) div 2)) div 2)) div 2)) div 2)))
1: (if x <= 0 then 1 else (2 + ((x + ((3 * (2 - ((~x + 1) div (2 + (x div 4))))) div 2)) div 2)))
1: (if x <= 0 then 1 else (2 + ((6x + (x2 div 4)) div (x + 2))))
1: (if x <= 0 then 1 else (2 + ((1 + ((x div 2) div (1 + (x mod (2 * (1 + (x mod 2))))))) div 3)))
1: (if x <= 0 then 1 else (2 + ((1 + ((3x mod (2 + (x div 2))) div 2)) div 2)))
1: (if x <= 0 then 1 else ((4x + 2) + ((x + (x div 4)) div 2)))
1: (if x <= 0 then 1 else (2 + ((2 + (x div (1 + (x mod (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))) div 3)))
1: (if x <= 0 then 1 else (2 + ((x + (((x mod 3) * (x div 2)) mod 2)) div 2)))
1: (if x <= 0 then 1 else (2 + ((x + ((x div 2) mod (1 + (x mod 3)))) div 2)))
1: (if x <= 0 then 1 else (2 + ((x + ((x mod (~2 + (x div ~4))) mod 2)) div 2)))
1: (if x <= 0 then 1 else (2 + ((x + (x mod 3)) div 5)))
1: (if x <= 0 then 1 else (2 + (((x + 2) + (x mod 10)) div 5)))
1: (if x <= 0 then 1 else (2 + ((1 + (if (2 - (x mod (1 + ((~x + 2) mod 4)))) <= 0 then x else 1)) div 3)))
1: (if x <= 0 then 1 else (2 + (((if (~2 + (x mod 7)) <= 0 then 0 else 1) + (x div 2)) div 2)))
1: (if x <= 0 then 1 else (2x + ((x + (if (x mod 3) <= 0 then 2x else 1)) div 3)))
1: (if x <= 0 then 1 else (2 + ((x + loop(\(x,i).(2x + 2),(((x + 1) div 2) div 3),1)) div 3)))
1: (if x <= 0 then 1 else (2 + ((x + 1) div 5)))
1: (if x <= 0 then 1 else (2 + ((x + 1) div (2 + (if ((x + ~1) mod 5) <= 0 then 1 else 2)))))
1: (if x <= 0 then 1 else (2 + ((x + 1) div (2 + (if (6 mod (1 + (x div 2))) <= 0 then 2 else 1)))))
1: (if x <= 0 then 1 else (2 + ((x + 1) div (2 * (1 + ((1 + ((x + 1) div (2 + (x div (4 + (x mod 2)))))) div 2))))))
1: (if x <= 0 then 1 else (4x + ((x + 2) div (1 + (2 * (2 + (((x div 2) div 3) mod 2)))))))
1: (if x <= 0 then 1 else (2 + ((2 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x)) div 3)))
1: (if x <= 0 then 1 else (6x + (((~x + 1) - (x mod 2)) div 3)))
1: (if x <= 0 then 1 else (2 + (((2x2 + 4x) - (x mod 2)) div 3)))
1: (if x <= 0 then 1 else (2 + (((x2 div 2) - (x mod 2)) div 5)))
1: (if x <= 0 then 1 else (6x + ((~x + ((x + 1) mod 3)) div 5)))
1: (if x <= 0 then 1 else (2 + ((x - ((0 - (((~x + 2) div 2) mod 4)) div 2)) div 2)))
1: (if x <= 0 then 1 else (4x + ((x - ((~x + 1) div 3)) div 3)))
1: (if x <= 0 then 1 else (2 + ((x - ((x mod (2 + (x mod 3))) div 2)) div 2)))
1: (if x <= 0 then 1 else (4x + ((x - (x div 5)) div 3)))
1: (if x <= 0 then 1 else (2 + ((x - ((x * (x div 2)) mod 2)) div 3)))
1: (if x <= 0 then 1 else (2 + ((x - ((x div 2) mod 5)) div 2)))
1: (if x <= 0 then 1 else (4x + ((x - ((x div 2) mod ~4)) div 5)))
1: (if x <= 0 then 1 else (2 + ((x - ((x div 3) mod 2)) div 2)))
1: (if x <= 0 then 1 else (2 + (3x div (3 + (x div 2)))))
1: (if x <= 0 then 1 else (x + (3x div (3 + (x div 2)))))
1: (if x <= 0 then 1 else (1 + (((x + 1) * (4 + (x div 2))) div 3)))
1: (if x <= 0 then 1 else (2 + ((2x3 + x) div 3)))
1: (if x <= 0 then 1 else (4x + ((2 * (x + ((x + ((1 - (x div 2)) mod 4)) div 2))) div 3)))
1: (if x <= 0 then 1 else (4x + ((2 * (x + ((x + ((x div 2) mod 4)) div 2))) div 3)))
1: (if x <= 0 then 1 else (2 + ((2 * (1 + (x div 2))) div 5)))
1: (if x <= 0 then 1 else (2 + ((2 * (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))) div 5)))
1: (if x <= 0 then 1 else (2 + ((x2 + x) div 5)))
1: (if x <= 0 then 1 else (6x + ((2 * (~x + ((x div 2) mod 2))) div 3)))
1: (if x <= 0 then 1 else (4x + ((2 * (x - ((((x + 1) div 2) div 2) div 2))) div 3)))
1: (if x <= 0 then 1 else (2 + (13x2 div 2)))
1: (if x <= 0 then 1 else (2 + ((5x2 + 5x) div (x + 3))))
1: (if x <= 0 then 1 else (2 + (11x2 div 5)))
1: (if x <= 0 then 1 else (((2x3 + 6x2 + 4x) div 3) + (x mod 2)))
1: (if x <= 0 then 1 else (2 + (16x2 div 3)))
1: (if x <= 0 then 1 else (2 + (8x div 5)))
1: (if x <= 0 then 1 else (1 + ((4 * ((3 * (1 + (x mod (1 + (2 * ((x + ~1) mod (1 + (x div (2 + ((x div 2) mod 3)))))))))) div 2)) div 3)))
1: (if x <= 0 then 1 else (x + (4x div (3 + (x div 2)))))
1: (if x <= 0 then 1 else (2 + ((2x2 + 2x) div (x + 4))))
1: (if x <= 0 then 1 else (2x + (2x2 div 13)))
1: (if x <= 0 then 1 else (2 + (4x2 div 3)))
1: (if x <= 0 then 1 else (x + ((((x + ~1) div 3) * i) div 2)))
1: (if x <= 0 then 1 else (2 + ((3 * ((x2 + x) div 2)) div 5)))
1: (if x <= 0 then 1 else (2 + ((2 * (2x div (4 + (x div 8)))) div 3)))
1: (if x <= 0 then 1 else (2 + ((2 * ((loop(\(x,i).(2 * (x - i)),x,2) mod (x + 1)) div 2)) div 3)))
1: (if x <= 0 then 1 else (2 + ((2 * ((~2x + 2) mod (4 + (x div 4)))) div 3)))
1: (if x <= 0 then 1 else (2 + (2x div 3)))
1: (if x <= 0 then 1 else (2 + (2x div (5 + ((x div 4) mod 2)))))
1: (if x <= 0 then 1 else (4x + (2x div (5 - (x mod 2)))))
1: (if x <= 0 then 1 else ((2x + 2) + (2x div 9)))
1: (if x <= 0 then 1 else (2 + (2x div (2 + (if ((x2 + 2x) mod 6) <= 0 then x else 1)))))
1: (if x <= 0 then 1 else (2 + (x2 div 3)))
1: (if x <= 0 then 1 else (4x + (x2 div 4)))
1: (if x <= 0 then 1 else (2 + (((3x2 + x) div 2) div 5)))
1: (if x <= 0 then 1 else (2 + (((1 + (x div 3)) div 2) div (1 + (x mod (1 + (x mod 4)))))))
1: (if x <= 0 then 1 else (2 + (((x + 1) div 2) div 3)))
1: (if x <= 0 then 1 else (2 + ((((x2 div 2) - (x mod 2)) div 2) div 3)))
1: (if x <= 0 then 1 else (x + (((x - (((x mod 6) - (x div 2)) div 2)) div 2) div 2)))
1: (if x <= 0 then 1 else (2 + ((((1 + (x mod 5)) * (x div 5)) div 2) div 2)))
1: (if x <= 0 then 1 else (x + (((((x + ~1) div 2) * (x div 3)) div 2) div 3)))
1: (if x <= 0 then 1 else (1 + (((5 * ((3 * (1 + (((1 + (x mod ((1 + (x mod (1 + (x div 4)))) * (1 + (x mod 2))))) mod (x + 1)) div 2))) div 2)) div 2) div 2)))
1: (if x <= 0 then 1 else (2 + ((((2 - (2x mod (2 + (x div 2)))) mod (x + 3)) div 2) div 2)))
1: (if x <= 0 then 1 else (2 + (((2 + (x mod 2) - (x div 2)) mod (x + 1)) div 2)))
1: (if x <= 0 then 1 else (2 + (((2x + 1) mod (4 + (x div 4))) div 2)))
1: (if x <= 0 then 1 else ((((2x + 1) mod (2 + (x div 4))) div 2) + (if (x mod 2) <= 0 then 2 else 0)))
1: (if x <= 0 then 1 else (2 + (((2x + 1) mod (x - ((x + 1) mod 4))) div 2)))
1: (if x <= 0 then 1 else (2 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))
1: (if x <= 0 then 1 else (4x + (((x + ~1) mod (2 + (x div 2))) div 2)))
1: (if x <= 0 then 1 else (6x + (((x + ~1) mod (2 + (x div 2))) div 2)))
1: (if x <= 0 then 1 else (2 + (((x + ~2) mod (1 + (2 * ((~x + 1) mod 3)))) div 2)))
1: (if x <= 0 then 1 else (2 + ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3)))
1: (if x <= 0 then 1 else (2x + ((x mod (2 + (((x + 1) div 2) div 3))) div 2)))
1: (if x <= 0 then 1 else (2 + ((x mod (1 + (4 mod (x + 1)))) div 2)))
1: (if x <= 0 then 1 else (2 + ((x mod (~2 + ((1 - (2 * (x div 3))) div 3))) div 2)))
1: (if x <= 0 then 1 else (2 + (loop(\(x,i).(x * (1 + (5 * i))),x,1) div 2)))
1: (if x <= 0 then 1 else (x + (loop(\(x,i).2x,x,1) div (x + 2))))
1: (if x <= 0 then 1 else (2 + (x div 3)))
1: (if x <= 0 then 1 else (2 + (x div (2 + (x div (1 + (((1 + ((x * (x mod 2)) div 2)) mod 5) mod 2)))))))
1: (if x <= 0 then 1 else (6x + (x div ~7)))
1: (if x <= 0 then 1 else (12 + (x div ~11)))
1: (if x <= 0 then 1 else (2 + (x div (2 - ((~x + 1) div 3)))))
1: (if x <= 0 then 1 else (1 + (i div 2)))
1: (if x <= 0 then 1 else (2 + (2 mod (1 + (x div 2)))))
1: (if x <= 0 then 1 else (1 + ((~x + 3) mod 12)))
1: (if x <= 0 then 1 else (2 + ((1 + (4 * (if (x mod 2) <= 0 then (14x + 28) else 2))) mod (x + 1))))
1: (if x <= 0 then 1 else (2 + ((1 + (2 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))) mod (1 + (x div 2)))))
1: (if x <= 0 then 1 else (2 + ((2x + 1) mod (1 + (2x mod (2 + (x div 4)))))))
1: (if x <= 0 then 1 else (1 + ((x + 1) mod (2 * (1 + (x div (~2x + 32)))))))
1: (if x <= 0 then 1 else (2 + ((x + 2) mod (1 + (((x + 1) mod 7) mod 3)))))
1: (if x <= 0 then 1 else (2x + (~2 mod (1 + (x div 4)))))
1: (if x <= 0 then 1 else (2 + ((~x + 1) mod (1 + (x div 2)))))
1: (if x <= 0 then 1 else (2 + ((~1 + (x div 2)) mod (1 + ((2 + (x div 2)) div 3)))))
1: (if x <= 0 then 1 else (2 + ((x + ~1) mod 9)))
1: (if x <= 0 then 1 else (x + ((x + ~1) mod 9)))
1: (if x <= 0 then 1 else (2 + ((x + ~1) mod 8)))
1: (if x <= 0 then 1 else (x + ((x - ((x2 mod (x - ((~x + 2) div 2))) div (x + 1))) mod 2)))
1: (if x <= 0 then 1 else (2 + ((3 * (1 - (2 * (x mod 2)))) mod (2x + ~1))))
1: (if x <= 0 then 1 else (2 + ((((x + (x div 2)) div 2) * (x div 2)) mod 2)))
1: (if x <= 0 then 1 else (2 + ((2 * ((1 + (x2 mod 5)) div 2)) mod (x + 1))))
1: (if x <= 0 then 1 else (2 + ((2 * (((2x + 1) mod (2 + (x div 4))) div 2)) mod 3)))
1: (if x <= 0 then 1 else (2 + ((x * (x div 3)) mod (1 + ((2 - (x div 2)) mod 4)))))
1: (if x <= 0 then 1 else (2 + (((x mod ~7) * (x div 2)) mod 2)))
1: (if x <= 0 then 1 else (2 + (x2 mod 3)))
1: (if x <= 0 then 1 else (2 + (((x + 1) div (1 + (3 * (x mod 3)))) mod 2)))
1: (if x <= 0 then 1 else (2 + ((((x + ~1) + ((x div 2) div 3)) div 2) mod 2)))
1: (if x <= 0 then 1 else (2 + (((x - ((~1 + (x div 2)) div 2)) div 2) mod 2)))
1: (if x <= 0 then 1 else (2x + (((x2 + x) div ~8) mod 2)))
1: (if x <= 0 then 1 else (2 + (((x2 + ~x) div (4 + (x * (x mod 2)))) mod 2)))
1: (if x <= 0 then 1 else (2 + ((((x + 2) * (((x + ~1) div 2) div 2)) div 2) mod 2)))
1: (if x <= 0 then 1 else (2 + (((((x + 1) * ((x div 2) div 3)) div 2) div 2) mod 2)))
1: (if x <= 0 then 1 else (2x + ((x div (5 * (1 + (x mod 3)))) mod 2)))
1: (if x <= 0 then 1 else (2x + ((x div (4 * (2 - (x mod 2)))) mod 2)))
1: (if x <= 0 then 1 else (4x + ((x div (if (x mod 4) <= 0 then 4 else 1)) mod 2)))
1: (if x <= 0 then 1 else (2 + (((x + 1) mod 5) mod 2)))
1: (if x <= 0 then 1 else (2 + (((x + ~1) mod (2 + (x div (2 + (x mod 2))))) mod 2)))
1: (if x <= 0 then 1 else (2 + ((2x mod (4 + (x div 8))) mod 2)))
1: (if x <= 0 then 1 else (2 + ((x mod (3 + (if (x + ~4) <= 0 then 0 else 2))) mod 2)))
1: (if x <= 0 then 1 else (2 + ((x mod (~3 + (x mod 2))) mod 2)))
1: (if x <= 0 then 1 else ((x mod 5) + (x div 3)))
1: (if x <= 0 then 1 else (x + (x mod 7)))
1: (if x <= 0 then 1 else (2 + (x mod (2 + (x div 4)))))
1: (if x <= 0 then 1 else (2x + (if (2 - i) <= 0 then x else 1)))
1: (if x <= 0 then 1 else ((x + ~1) + (if (~4 + (x div 2)) <= 0 then 10 else x)))
1: (if x <= 0 then 1 else (2 + (if (~4 + (x div 2)) <= 0 then x else (x + 2))))
1: (if x <= 0 then 1 else (x + (if (~2 + (x div 3)) <= 0 then 3 else ~2)))
1: (if x <= 0 then 1 else (x + (if (x + ~2) <= 0 then 2 else (x2 div (x - ((~x + 2) div 2))))))
1: (if x <= 0 then 1 else (2 + (if (x + ~2) <= 0 then x else 3)))
1: (if x <= 0 then 1 else (3 + (if (x + ~4) <= 0 then x else (x + 8))))
1: (if x <= 0 then 1 else (2x + (if (x div 4) <= 0 then (x + ~3) else 1)))
1: (if x <= 0 then 1 else (x + (if (8 mod (if x <= 0 then 1 else x)) <= 0 then x else 0)))
1: (if x <= 0 then 1 else (2 + (if (x mod 2) <= 0 then (~x + 2) else x)))
1: (if x <= 0 then 1 else (2 + (if (x mod 2) <= 0 then 8 else 1)))
1: (if x <= 0 then 1 else (x + (if (x mod 2) <= 0 then x else 1)))
1: (if x <= 0 then 1 else (2 + (if (x mod 3) <= 0 then 1 else ((2x mod (1 + (x div 3))) mod 2))))
1: (if x <= 0 then 1 else (2 + (if (x mod 3) <= 0 then 2 else 1)))
1: (if x <= 0 then 1 else (2 + (if (x mod 4) <= 0 then 1 else (((x + 1) div 2) div 2))))
1: (if x <= 0 then 1 else (2 + (if (x mod 10) <= 0 then 2 else 0)))
1: (if x <= 0 then 1 else (loop(\(x,i).(x + (x div (2 + (i mod 2)))),x,2) + loop(\(x,i).2x,x,1)))
1: (if x <= 0 then 1 else (2 + loop(\(x,i).(2x - (i mod 2)),x,1)))
1: (if x <= 0 then 1 else (2 + loop(\(x,i).((x + ~1) - (if x <= 0 then 0 else i)),x,x)))
1: (if x <= 0 then 1 else (x + loop(\(x,i).(x + (x div 12) - i),x,0)))
1: (if x <= 0 then 1 else (1 + loop(\(x,i).(x - (if (x mod (2 * (1 + i))) <= 0 then 1 else 0)),x,i)))
1: (if x <= 0 then 1 else (2 + loop(\(x,i).(2 * (2x - (x div (1 + i)))),x,2)))
1: (if x <= 0 then 1 else (2 + loop(\(x,i).(2 * (2x - (x mod 2))),x,3)))
1: (if x <= 0 then 1 else (2 + loop(\(x,i).2x,x,2)))
1: (if x <= 0 then 1 else (loop(\(x,i).(x * i),i,(1 + i)) + (x * i)))
1: (if x <= 0 then 1 else (2 + compr(\x.(1 - (loop(\(x,i).(x * (i * i)),(x div 2),1) mod (x + 2))),x)))
1: (if x <= 0 then 1 else (2 + compr(\x.(1 - (x mod (1 + (3 * (x mod (3 + (x mod 2))))))),x)))
1: (if x <= 0 then 1 else (2 + compr(\x.(1 - (x mod (2 + (13 mod (x + 1))))),x)))
1: (if x <= 0 then 1 else (1 + compr(\x.(1 - (x mod (2 + ((2x + 1) mod 7)))),x)))
1: (if x <= 0 then 1 else (1 + compr(\x.(1 - (x mod (1 + (loop(\(x,i).(3x + 2),x,0) mod (x + 1))))),x)))
1: (if x <= 0 then 1 else (1 + compr(\x.(1 - (x mod (1 + (x mod (2 + (4x mod (4 + (x div 4)))))))),x)))
1: (if x <= 0 then 1 else (2 + compr(\x.(1 - (x mod (1 - (x div (~1 + ((~x + 2) div 4)))))),x)))
1: (if x <= 0 then 1 else (2 + compr(\x.(~1 + ((2 * (((x div 3) * (x div 2)) div 2)) mod 3)),x)))
1: (if x <= 0 then 1 else (1 + compr(\x.(~1 + (loop(\(x,i).(2x + 2),(if (x mod 2) <= 0 then x else 1),1) mod (x + 1))),(x + 1))))
1: (if x <= 0 then 1 else (1 + compr(\x.(~1 + (x mod (~1 + (loop(\(x,i).2x,x,x) mod (x + 1))))),(x + 1))))
1: (if x <= 0 then 1 else (2 + compr(\x.(~1 + (x mod (~1 + (loop(\(x,i).2x,x,x) mod (x + 1))))),x)))
1: (if x <= 0 then 1 else (1 + compr(\x.(~1 + (x mod ((x + 1) - (loop(\(x,i).2x,x,1) mod (x + 1))))),(x + 1))))
1: (if x <= 0 then 1 else (2 + compr(\x.((1 + ((x + ((x div 2) div 3)) div 2)) mod 2),x)))
1: (if x <= 0 then 1 else (2 + compr(\x.(loop(\(x,i).((x + ~2) * (x2 div 2)),2,x) mod (x + 1)),x)))
1: (if x <= 0 then 1 else (9 + compr(\x.(x mod ((x + 1) - (x mod 10))),x)))
1: (if x <= 0 then 1 else (0 - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + (if (x + ~1) <= 0 then x else i)))),x,x)))
1: (if x <= 0 then 1 else (0 - loop(\(x,i).(2 * (x - (2x * i))),x,1)))
1: (if x <= 0 then 1 else (71x + ~23))
1: (if x <= 0 then 1 else (1 - ((1 + (loop(\(x,i).2x,(if (x + ~2) <= 0 then 1 else (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)),1) div 2)) mod 3)))
1: (if x <= 0 then 1 else (1 - ((2 * (2 + ((~1 + (2 * (1 + (x mod (4 * (1 + (2 * (x mod 2)))))))) mod (x + 1)))) mod 3)))
1: (if x <= 0 then 1 else (1 - (((x2 + 1) div (1 + (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))) mod 3)))
1: (if x <= 0 then 1 else (2 + ((((loop(\(x,i).(2x + 2),x,0) mod (x + 1)) - loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) mod (x + 1)) div 2) - (x mod 2)))
1: (if x <= 0 then 1 else (2 + ((x2 mod (x - ((~x + 2) div 2))) div (x + 2)) - (x mod 2)))
1: (if x <= 0 then 1 else (2 - ((~8x + 1) div (x + 3))))
1: (if x <= 0 then 1 else (2 - (((x mod 2) - ((~1 + (x div 2)) div 2)) div 2)))
1: (if x <= 0 then 1 else (2 - (((x mod 2) - (x div 2)) div 2)))
1: (if x <= 0 then 1 else (2 - ((~x + (x mod 2)) div 3)))
1: (if x <= 0 then 1 else (2 - (((x2 + ~x) div 2) div 5)))
1: (if x <= 0 then 1 else (2 - (loop(\(x,i).(2x + 2),x,0) mod (x + 1))))
1: (if x <= 0 then 1 else (2 - (x mod 5)))
1: (if x <= 0 then 1 else (2 - (x mod (4 + ((1 - (2 * (x mod 7))) mod (x + 1))))))
1: (if x <= 0 then 1 else (2 - loop(\(x,i).(x - (if x <= 0 then 1 else (2 * i))),x,x)))
1: (if x <= 0 then 1 else (5 - ((x div 2) div ~5)))
1: (if x <= 0 then 1 else (3x + ((x + (((3 * (x + (2 * ((x - (x div ~4)) div 2)))) div 2) div 2)) div 2)))
1: (if x <= 0 then 1 else (x + (2 * loop(\(x,i).(x + (i * i)),x,x))))
1: (if x <= 0 then 1 else ((x + ~1) + (((x div 2) mod 2) + (4 * (x mod 2)))))
1: (if x <= 0 then 1 else ((x + ~1) + ((1 + (x mod 5)) * (x mod 2))))
1: (if x <= 0 then 1 else ((~x + 1) + (4 * (1 + ((3x2 + ~2x) div 2)))))
1: (if x <= 0 then 1 else ((9x2 + ~1) + (x mod 2)))
1: (if x <= 0 then 1 else ((x + ~1) + ((x + 2) div (2 - (((x div 2) div ~2) div 2)))))
1: (if x <= 0 then 1 else ((x + ~1) + ((x - (x mod ~7)) div 3)))
1: (if x <= 0 then 1 else ((3x2 + 6x + ~1) + (((x3 + ~x) div 2) div 3)))
1: (if x <= 0 then 1 else ((x + ~1) + loop(\(x,i).(x - (x div 12)),2,x)))
1: (if x <= 0 then 1 else ((2x + ~1) + loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,(3x + 1))))
1: (if x <= 0 then 1 else ((x + 2) - (((~x + 1) - ((x * (x div 2)) mod 2)) div 3)))
1: (if x <= 0 then 1 else ((x + 2) - (((~x + ~1) + (x div 3)) div 3)))
1: (if x <= 0 then 1 else (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) - compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x)))
1: (if x <= 0 then 1 else ((2x + 1) - loop(\(x,i).2x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),2)))
1: (if x <= 0 then 1 else (~2 + (2 * ((x + ~1) mod (6 + (x div 4))))))
1: (if x <= 0 then 1 else (~1 + (3 * (((x + ~2) div 3) mod 2)) - (x mod 2)))
1: (if x <= 0 then 1 else (~3 + loop(\(x,i).(x2 + ~2x),1,loop(\(x,i).2x,x,2))))
1: (if x <= 0 then 1 else (~4 + loop(\(x,i).(x2 + ~2x),1,loop(\(x,i).2x,x,2))))
1: (if x <= 0 then 1 else ((x + ~1) - (3 * (~x + ((x + ~1) mod 3)))))
1: (if x <= 0 then 1 else ((x + ~1) - (2 * ((~x + ((x div 4) mod 2)) div 2))))
1: (if x <= 0 then 1 else (3x - ((~x + 1) div 5)))
1: (if x <= 0 then 1 else (3x - (x div ~3)))
1: (if x <= 0 then 1 else (12 - (if (x + ~2) <= 0 then x else 1)))
1: (if x <= 0 then 1 else (5x - ((x + 2) div 5)))
1: (if x <= 0 then 1 else (5x - ((~x + 2) div 5)))
1: (if x <= 0 then 1 else ((3 * ((x + 2) + (x mod 2))) - (x div 2)))
1: (if x <= 0 then 1 else (~1 + (2 * (12x + (x mod 2)))))
1: (if x <= 0 then 1 else ((2x + 3) - ((x div (1 + (2 * ((x + ~1) mod 3)))) mod 2)))
1: (if x <= 0 then 1 else ((2x + 2) - ((x mod (2 + (((x + 1) div 2) div 3))) div 2)))
1: (if x <= 0 then 1 else ((3x + 3) - ((x - (x div 3)) div 3)))
1: (if x <= 0 then 1 else ((2x + 4) - ((1 + (x div (~2 + (x mod 2)))) mod 3)))
1: (if x <= 0 then 1 else (~1 + (2 * (~1 + (x mod (2 * (1 + (if (x mod 2) <= 0 then 6 else 1))))))))
1: (if x <= 0 then 1 else (~1 + (3 * (~2 + loop(\(x,i).4x,x,1)))))
1: (if x <= 0 then 1 else ((2x2 + 6x) - (((~x3 + x) div 2) div 3)))
1: (if x <= 0 then 1 else (~1 + (6 * (1 + (((x + (if (~2 + (x div 4)) <= 0 then 1 else 2)) div 2) mod 2)))))
1: (if x <= 0 then 1 else (~x + ((16x + ~8) * (1 + (x mod 2)))))
1: (if x <= 0 then 1 else ((8x + 1) - loop(\(x,i).(x + (if (~2 + (x div 4)) <= 0 then 1 else 2)),2,x)))
1: (if x <= 0 then 1 else (8x - ((x + ((~x + 1) mod 3)) div 4)))
1: (if x <= 0 then 1 else (8x - ((x + ((x div 3) mod 3)) div 3)))
1: (if x <= 0 then 1 else (8x - ((x + 1) div 3)))
1: (if x <= 0 then 1 else (8x - ((x + 2) div 5)))
1: (if x <= 0 then 1 else (8x - ((x - ((x + (x div 3)) div 3)) div 2)))
1: (if x <= 0 then 1 else (20x + ~2))
1: (if x <= 0 then 1 else (~1 + (6 * (if (x mod (1 + ((x + ~1) mod 4))) <= 0 then 1 else 2))))
1: (if x <= 0 then 1 else ((4x + ~1) + ((x + ~2) mod (3 - (x mod 2)))))
1: (if x <= 0 then 1 else (4x - ((1 - (x2 div 2)) div (2x + 1))))
1: (if x <= 0 then 1 else (4x - ((~x2 + 2) div (3x + 2))))
1: (if x <= 0 then 1 else (4x - (((~x + 1) - (x mod 2)) div 3)))
1: (if x <= 0 then 1 else (4x - (((1 + (x div 2)) div 2) div 2)))
1: (if x <= 0 then 1 else (4x - (2 mod (~2x + 1))))
1: (if x <= 0 then 1 else (6x - (((x + 1) + (x mod 2)) div 5)))
1: (if x <= 0 then 1 else (6x - ((x + 2) div 5)))
1: (if x <= 0 then 1 else (6x - ((~x + ((x div 2) mod 2)) div 2)))
1: (if x <= 0 then 1 else (6x - ((~2x + 4) div (4 + ((x div 2) div 3)))))
1: (if x <= 0 then 1 else (6x - (if (~2 + (x div 2)) <= 0 then 0 else 2)))
1: (if x <= 0 then 1 else (6x - (if x <= 0 then 1 else (2 * (((2x + 1) + (2 * ((x + 1) - loop(\(x,i).(x + (if (~2 + (x div 4)) <= 0 then 1 else 2)),2,x)))) div 3)))))
1: (if x <= 0 then 1 else (~1 + (2 * ((x + 1) div (3 - (x mod 2))))))
1: (if x <= 0 then 1 else (~2 + (((x + ~1) div 2) * (x div 2))))
1: (if x <= 0 then 1 else (~1 + (3 * ((~x2 + 1) mod 8))))
1: (if x <= 0 then 1 else (~1 + (2 * ((x * (1 + (x div 2))) mod (1 + (x div 5))))))
1: (if x <= 0 then 1 else (2x - ((1 - ((x2 + ~2x) div 2)) div 5)))
1: (if x <= 0 then 1 else (2x - ((x mod (1 + ((~x + 2) mod 4))) mod 2)))
1: (if x <= 0 then 1 else (2x - (x mod (1 + ((x div 2) mod 3)))))
1: (if x <= 0 then 1 else (2x - (if (x - i) <= 0 then 0 else 2)))
1: (if x <= 0 then 1 else (2x - (if (x mod (3 + i)) <= 0 then 1 else x)))
1: (if x <= 0 then 1 else (x2 + ~1))
1: (if x <= 0 then 1 else (x2 + ~2))
1: (if x <= 0 then 1 else (~4 + ((2x + 1) div 7)))
1: (if x <= 0 then 1 else (((1 + (x div 2)) div 2) - ((x div (1 + (x mod 3))) mod 2)))
1: (if x <= 0 then 1 else (((x + 1) div 2) - ((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3)))
1: (if x <= 0 then 1 else (~1 + ((2 * (2 + (((2 - (((~2x + 2) mod (4 + (x div 4))) div 2)) div 2) mod (x + 1)))) div 3)))
1: (if x <= 0 then 1 else (~3 + ((4x3 + 12x2 + 8x) div 3)))
1: (if x <= 0 then 1 else (~2 + (((2 - (x div 2)) div 2) div 2)))
1: (if x <= 0 then 1 else (~1 + ((loop(\(x,i).2x,(16 mod (x + 1)),1) mod (x + 1)) div 2)))
1: (if x <= 0 then 1 else ((loop(\(x,i).(2x + ~1),x,0) div 2) - (3 * (1 - (2 * (x mod 2))))))
1: (if x <= 0 then 1 else ((~6x + ~3) + (x div 2)))
1: (if x <= 0 then 1 else ((x div 2) - (((1 - (x div 2)) div 5) mod 2)))
1: (if x <= 0 then 1 else ((x div 5) - (x div (~2 + (x mod ~2)))))
1: (if x <= 0 then 1 else (~1 + (x div (2 + ((x div 2) div 3)))))
1: (if x <= 0 then 1 else (~1 + (x div (if (x mod 2) <= 0 then 4 else 1))))
1: (if x <= 0 then 1 else (~1 + ((2x + 1) mod (2 - ((~x + 2) div 5)))))
1: (if x <= 0 then 1 else (~1 + ((1 + (loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x) mod 7)) mod 3)))
1: (if x <= 0 then 1 else (~1 + ((1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)) mod 3)))
1: (if x <= 0 then 1 else (~1 + ((x + 2) mod (2 + ((2 * (x div 2)) div 3)))))
1: (if x <= 0 then 1 else (~1 + ((0 - ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3)) mod 3)))
1: (if x <= 0 then 1 else (~1 + ((1 - ((x + 1) mod (1 + (x div (1 + ((x + 2) mod 4)))))) mod 3)))
1: (if x <= 0 then 1 else (~1 + ((~1 + (2 * compr(\x.(1 - ((x + 1) mod (1 + (x div (2 + ((x div 4) mod 3)))))),x))) mod (x + 1))))
1: (if x <= 0 then 1 else (~1 + ((x + ~2) mod (2 + ((x2 div 2) mod 3)))))
1: (if x <= 0 then 1 else (~1 + ((2 * ((x + 2) mod 8)) mod 3)))
1: (if x <= 0 then 1 else (~1 + (2x mod (~1 + (2 * (((~x + 2) div 2) mod 4))))))
1: (if x <= 0 then 1 else (~2 + ((x2 div 4) mod (x + 1))))
1: (if x <= 0 then 1 else (~2 + (loop(\(x,i).2x,x,(if (x mod 3) <= 0 then 0 else 2)) mod (x + 1))))
1: (if x <= 0 then 1 else ((x mod 2) - ((x - (x mod 3)) div 2)))
1: (if x <= 0 then 1 else ((x mod 2) - ((x div 2) div ~2)))
1: (if x <= 0 then 1 else ((x mod 2) - ((x mod (x - ((x + 1) mod 3))) div 2)))
1: (if x <= 0 then 1 else ((x mod 2) - (((~x + 2) div (1 + (x mod 9))) mod 2)))
1: (if x <= 0 then 1 else ((x mod 2) - ((x mod (4 + ((x div 2) mod 2))) mod 2)))
1: (if x <= 0 then 1 else ((x mod 2) - (if (x mod 7) <= 0 then 1 else 0)))
1: (if x <= 0 then 1 else (~1 + (x mod (4 + (x div 3)))))
1: (if x <= 0 then 1 else (~1 + (x mod (2 + ((x + 1) mod 4)))))
1: (if x <= 0 then 1 else (~1 + (if (x + ~1) <= 0 then (x * i) else x5)))
1: (if x <= 0 then 1 else (~1 + loop(\(x,i).((x + 1) + (x div (3 + ((x div 2) div 3)))),x,1)))
1: (if x <= 0 then 1 else (loop(\(x,i).(10x + 1),2x,1) - (2 div (x + 1))))
1: (if x <= 0 then 1 else (loop(\(x,i).(10x + 1),2x,1) - loop(\(x,i).10x,(x + 1),1)))
1: (if x <= 0 then 1 else (~1 + loop(\(x,i).(x3 + x),x,1)))
1: (if x <= 0 then 1 else (~1 + loop(\(x,i).(x2 + x),1,(1 + loop(\(x,i).3x,x,(2 * (1 + loop(\(x,i).(x2 + ~x),1,loop(\(x,i).x2,x,2)))))))))
1: (if x <= 0 then 1 else (~2 + loop(\(x,i).(2x + 4),x,0)))
1: (if x <= 0 then 1 else (~1 + loop(\(x,i).(x * (if (x mod 5) <= 0 then 2 else 1)),(x + 1),(x + 1))))
1: (if x <= 0 then 1 else ((x + ~1) - (2 * ((x + 1) div 3))))
1: (if x <= 0 then 1 else ((x + ~1) - (2 * (x mod ~3))))
1: (if x <= 0 then 1 else (7x + ~1))
1: (if x <= 0 then 1 else ((x + ~2) + (((x2 + ~x) div 2) + (x mod 3))))
1: (if x <= 0 then 1 else ((x + 1) - ((~x + ((~1 + (x mod 8)) div 2)) div 3)))
1: (if x <= 0 then 1 else ((5x + 2) - ((x - (x div 3)) div 3)))
1: (if x <= 0 then 1 else ((5x + ~1) - ((2 * (x + (((x div 2) div 3) mod 2))) div 3)))
1: (if x <= 0 then 1 else ((7x + 6) - (x div 2)))
1: (if x <= 0 then 1 else (x + (((x + 1) div 3) mod 2) - (x div 2)))
1: (if x <= 0 then 1 else (x + (x mod 2) - (((x - ((~1 + (x div 2)) div 2)) div 2) mod 2)))
1: (if x <= 0 then 1 else (x + (x mod 2) - ((x div (~2 + (x mod ~2))) mod 2)))
1: (if x <= 0 then 1 else ((11x + 5) - (if (x + ~2) <= 0 then 1 else x)))
1: (if x <= 0 then 1 else ((x + 1) - loop(\(x,i).(x + (if (~2 + (x div 4)) <= 0 then 1 else 2)),2,x)))
1: (if x <= 0 then 1 else ((x + 1) - loop(\(x,i).loop(\(x,i).(x + (i * i)),(x + ~1),1),2,x)))
1: (if x <= 0 then 1 else (x - (2 * (~2x + ((x2 mod (x - ((~x + 2) div 2))) div (x + 1))))))
1: (if x <= 0 then 1 else (36x2 + ~8x))
1: (if x <= 0 then 1 else (x - (2 * ((2 + (x3 div (x + 2))) div 3))))
1: (if x <= 0 then 1 else (x - (3 * ((x + ~1) div 5))))
1: (if x <= 0 then 1 else (x - (2 * ((3 * ((1 + (x div 2)) div 3)) div 2))))
1: (if x <= 0 then 1 else (x - (2 * ((x div 5) div ~2))))
1: (if x <= 0 then 1 else (x - ((x div ~2) * (1 + (x div 2)))))
1: (if x <= 0 then 1 else (x - (2 * (x div (~3 + (2 * (~1 + (x mod 3))))))))
1: (if x <= 0 then 1 else (x - (2 * ((if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + (((loop(\(x,i).x2,1,(~1 + (9 * (x mod 5)))) div 2) div 2) div 2)) div 2)) div 2)))) mod (x + 1)))))
1: (if x <= 0 then 1 else (x - (2 * (x mod 6))))
1: (if x <= 0 then 1 else (x - ((1 + (x * i)) div 3)))
1: (if x <= 0 then 1 else (x - ((0 - ((x2 + ~2x) div 8)) div 3)))
1: (if x <= 0 then 1 else (x - ((0 - (x2 div 3)) div 7)))
1: (if x <= 0 then 1 else (x - (((~x + 1) - (x2 div 5)) div 3)))
1: (if x <= 0 then 1 else (x - (((~2x + 1) + (x mod 2)) div 3)))
1: (if x <= 0 then 1 else (x - ((~2x + 1) div (4 + (x div 4)))))
1: (if x <= 0 then 1 else (x - ((1 - (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) div 3)) div 3)))
1: (if x <= 0 then 1 else (x - ((1 - (if (~2 + (x div 2)) <= 0 then x else (x + 2))) div 3)))
1: (if x <= 0 then 1 else (x - ((~x + 1) div 3)))
1: (if x <= 0 then 1 else (x - ((~x + 2) div 2)))
1: (if x <= 0 then 1 else (x - ((~x + 2) div 4)))
1: (if x <= 0 then 1 else (x - ((~x + ((x mod (2 + (x div 2))) div 2)) div 2)))
1: (if x <= 0 then 1 else (x - ((~x + ((x + ~1) mod 7)) div 2)))
1: (if x <= 0 then 1 else (x - ((~x + (((x + (x div 2)) div 2) mod 4)) div 3)))
1: (if x <= 0 then 1 else (x - ((~x + loop(\(x,i).(x - (2 * (if x <= 0 then 0 else i))),x,x)) div 2)))
1: (if x <= 0 then 1 else (x - ((x - ((x mod 3) div 2)) div 2)))
1: (if x <= 0 then 1 else (x - ((x - (((1 - (x div 2)) div 3) mod 3)) div 2)))
1: (if x <= 0 then 1 else (x - ((x2 + 2x) div ~3)))
1: (if x <= 0 then 1 else (x - ((~4x + 2) div (x + 1))))
1: (if x <= 0 then 1 else (x - ((~6x + 3) div (x + 1))))
1: (if x <= 0 then 1 else (x - ((~x2 + x) div 19)))
1: (if x <= 0 then 1 else (x - (~3x2 div 5)))
1: (if x <= 0 then 1 else (x - (x2 div (2x + 8))))
1: (if x <= 0 then 1 else (x - (((x - (x2 div 4)) div 2) div 2)))
1: (if x <= 0 then 1 else (x - (((x - loop(\(x,i).(x - (if x <= 0 then 1 else (2 * (1 + i)))),x,2x)) div 2) div 2)))
1: (if x <= 0 then 1 else (x - (((x2 + ~2x) div 2) div (x + 4))))
1: (if x <= 0 then 1 else (x - ((x div ~4) div ~2)))
1: (if x <= 0 then 1 else (x - (((2x + ~1) mod (1 + (x div 3))) div 2)))
1: (if x <= 0 then 1 else (x - ((if (x mod 2) <= 0 then (~x + 1) else x) div (1 + i))))
1: (if x <= 0 then 1 else (x - (x div (11 - (x div 2)))))
1: (if x <= 0 then 1 else (x - (x div (~2 + (x div ~4)))))
1: (if x <= 0 then 1 else (x - (1 mod (2 + ((~x2 + x) div 2)))))
1: (if x <= 0 then 1 else (x - ((x + 1) mod (3 - (x mod 2)))))
1: (if x <= 0 then 1 else (x - ((x + 1) mod (2 * (1 + (if (x + ~4) <= 0 then 0 else 2))))))
1: (if x <= 0 then 1 else (x - ((x + ~1) mod 9)))
1: (if x <= 0 then 1 else (x - ((x * (1 + (x div 2))) mod 3)))
1: (if x <= 0 then 1 else (x - (x2 mod 20)))
1: (if x <= 0 then 1 else (x - (((x + (x div 2)) div (4 + (x div 2))) mod 2)))
1: (if x <= 0 then 1 else (x - ((4x div (x + 4)) mod 2)))
1: (if x <= 0 then 1 else (x - ((2x2 div (x + 5)) mod 2)))
1: (if x <= 0 then 1 else (x - ((x div (1 + (x mod 3))) mod 2)))
1: (if x <= 0 then 1 else (x - ((x div (2 * (2 - (x mod 2)))) mod 2)))
1: (if x <= 0 then 1 else (x - (loop(\(x,i).2x,x,1) mod 9)))
1: (if x <= 0 then 1 else (x - (x mod 3)))
1: (if x <= 0 then 1 else (x - (x mod (1 + (2 * (2x mod (1 + (if (x mod 2) <= 0 then 12 else 0))))))))
1: (if x <= 0 then 1 else (x - (if (x + ~2) <= 0 then ~7 else 0)))
1: (if x <= 0 then 1 else (x - (if (20 mod (x + 3)) <= 0 then 0 else 1)))
1: (if x <= 0 then 1 else (x - (if x <= 0 then 1 else ((2x * (~1 + (2 * i))) div (2 + i)))))
1: (if x <= 0 then 1 else (x - (if x <= 0 then 1 else (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))
1: (if x <= 0 then 1 else (x - (if x <= 0 then 1 else loop(\(x,i).(if (x * i) <= 0 then 1 else (x + ~1)),i,x))))
1: (if x <= 0 then 1 else (x - loop(\(x,i).(x - ((1 + (x mod (1 + (2 * (if (x mod 2) <= 0 then 1 else (x div 4)))))) div 3)),2,x)))
1: (if x <= 0 then 1 else (x - loop(\(x,i).(x - (if x <= 0 then 0 else i)),i,x)))
1: (if x <= 0 then 1 else (x - loop(\(x,i).(x - (if x <= 0 then 2 else (~2 + i))),x,x)))
1: (if x <= 0 then 1 else (x - loop(\(x,i).2x,((((1 + (8 mod (1 + (x div 2)))) div 2) + (if x <= 0 then 0 else 1)) - (x mod 2)),2)))
1: (if x <= 0 then 1 else (x - loop(\(x,i).(if x <= 0 then 1 else loop(\(x,i).(x - (if x <= 0 then 1 else (x - (if x <= 0 then 1 else ((2x * (~1 + (2 * i))) div (2 + i)))))),1,x)),2,x)))
1: (if x <= 0 then 1 else (x - loop(\(x,i).loop(\(x,i).((x + ~1) - (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)),x,x),1,2x)))
1: (if x <= 0 then 1 else (i - ((x + (x div 3)) div 5)))
1: (if x <= 0 then 1 else (i - ((x2 mod (x - ((~x + 2) div 2))) div (x + 1))))
1: (if x <= 0 then 1 else (2 * ((5x + 1) + ((x div 2) + (x div 3)))))
1: (if x <= 0 then 1 else (2 * (2x + (((2 * (2x div (4 + (x div 8)))) div 3) + ((x + 1) div 3)))))
1: (if x <= 0 then 1 else (2 * ((x + 1) + ((x div 2) + (x div 3)))))
1: (if x <= 0 then 1 else (2 * ((x + 1) + (4 * ((x + 1) + (x div 2))))))
1: (if x <= 0 then 1 else (2 * (3x + ((2x + ((x div 3) mod 3)) div 3))))
1: (if x <= 0 then 1 else (2 * (4x + ((~x + ((x div 2) mod 4)) div 4))))
1: (if x <= 0 then 1 else (2 * (3x + ((~x + ((x div 2) mod 5)) div 5))))
1: (if x <= 0 then 1 else (2 * (2 + ((x + ~1) div 13))))
1: (if x <= 0 then 1 else (2 * (x + ((((x + 1) - ((x div 2) mod 2)) div 2) + ((x + 1) div 3)))))
1: (if x <= 0 then 1 else (2 * (3x + ((x - ((x + (x div 3)) div 3)) div 2))))
1: (if x <= 0 then 1 else (2 * (3x + ((x - (x div 12)) div 2))))
1: (if x <= 0 then 1 else (2 * (3x + ((x - (if (~2 + (x div 4)) <= 0 then 0 else 2)) div 3))))
1: (if x <= 0 then 1 else (2 * ((x + 1) + ((3 * (x + ((x3 + x) div 5))) div 2))))
1: (if x <= 0 then 1 else (2 * (3x + ((2 * (x - (2x div ~7))) div 3))))
1: (if x <= 0 then 1 else (2 * (3x + ((2 * (x - ((x div 2) div 3))) div 3))))
1: (if x <= 0 then 1 else (2 * (x + ((x2 div 4) + (2 * (2 + (x div 2)))))))
1: (if x <= 0 then 1 else (2 * (1 + ((x div 2) + (x div 3)))))
1: (if x <= 0 then 1 else ((3 + (x div 2)) * ((x + 1) div 2)))
1: (if x <= 0 then 1 else (2 * (2x + ((x div (4 + (x mod 2))) + ((x + 1) div 2)))))
1: (if x <= 0 then 1 else (3 * ((x + 1) + (x div 8))))
1: (if x <= 0 then 1 else (((x + 1) + (x mod 2)) * ((x + 1) div 2)))
1: (if x <= 0 then 1 else (2 * ((x + 1) + (i mod 2))))
1: (if x <= 0 then 1 else (2 * ((x + 1) + (if (~2 + (x div 2)) <= 0 then 1 else 2))))
1: (if x <= 0 then 1 else (2 * (x + ((if (~2 + (x div 2)) <= 0 then 1 else 2) + (x mod 2)))))
1: (if x <= 0 then 1 else (3 * (x + ((if (x mod 4) <= 0 then 1 else 2) + (x div 2)))))
1: (if x <= 0 then 1 else (2 * ((x + 1) + loop(\(x,i).(x + (x div ((2 + i) * (1 + i)))),2,x))))
1: (if x <= 0 then 1 else (2 * (2x + loop(\(x,i).(x - (x div 8)),2,(x + ~1)))))
1: (if x <= 0 then 1 else (x2 + 3x))
1: (if x <= 0 then 1 else (2x + 8))
1: (if x <= 0 then 1 else (x3 + 4x2))
1: (if x <= 0 then 1 else (2 * (3 - (x mod 2))))
1: (if x <= 0 then 1 else (2 * ((6x2 + 1) - (x mod 2))))
1: (if x <= 0 then 1 else (2 * ((2x + 1) - ((~x2 + 1) div (x + 4)))))
1: (if x <= 0 then 1 else (2 * ((2x + 1) - ((2 * ((2x + 2) + (x div (1 + (2 * (if (~4 + (x div 2)) <= 0 then 2 else 1)))))) div 3))))
1: (if x <= 0 then 1 else ((x + 2) * (2 + (x div 2) - (x mod 2))))
1: (if x <= 0 then 1 else (2 * (3x - ((2 * (2x div (4 + (x div 8)))) div 3))))
1: (if x <= 0 then 1 else (2x4 + x2 + x))
1: (if x <= 0 then 1 else (2x3 + 3x))
1: (if x <= 0 then 1 else (2 * (x + ((2 + (x div 2)) * (x div 4)))))
1: (if x <= 0 then 1 else (2 * (3 + (x * (x + (x mod 2))))))
1: (if x <= 0 then 1 else (2 * ((2x + 4) + (x div 2))))
1: (if x <= 0 then 1 else (x3 + 3x2 + 3x))
1: (if x <= 0 then 1 else 19x)
1: (if x <= 0 then 1 else 17x)
1: (if x <= 0 then 1 else (10x + 48))
1: (if x <= 0 then 1 else (2 * (1 + (2x * (x + ((x3 + 2x) div 3))))))
1: (if x <= 0 then 1 else (20x2 + ~4x + 2))
1: (if x <= 0 then 1 else 99)
1: (if x <= 0 then 1 else (32x2 + 2))
1: (if x <= 0 then 1 else (12x2 + 2))
1: (if x <= 0 then 1 else (20x2 + 2))
1: (if x <= 0 then 1 else (30x2 + 2))
1: (if x <= 0 then 1 else (16x2 + 2))
1: (if x <= 0 then 1 else (24x2 + 2))
1: (if x <= 0 then 1 else (40x2 + 2))
1: (if x <= 0 then 1 else (2x4 + 4x3 + x))
1: (if x <= 0 then 1 else (2 * (1 + (4 * (x mod 3)))))
1: (if x <= 0 then 1 else (8x2 + 2))
1: (if x <= 0 then 1 else (2 * (x + (2 * ((x - (x div ~7)) div 2)))))
1: (if x <= 0 then 1 else (2 * (x + (2 * (x2 div 8)))))
1: (if x <= 0 then 1 else (2 * (1 + (2 * (((2x + 1) mod (2 + (x div 4))) div 2)))))
1: (if x <= 0 then 1 else (2 * (1 + (2 * (x div 2)))))
1: (if x <= 0 then 1 else (2 * (x + ((x + ~2) * (x div 3)))))
1: (if x <= 0 then 1 else (5 * (1 + (2 * (2 mod (if ((x + 1) mod (2 + ((x div 2) mod 2))) <= 0 then x else 1))))))
1: (if x <= 0 then 1 else (x * (1 + (2 * (if (x + ~2) <= 0 then 1 else x)))))
1: (if x <= 0 then 1 else (4x + 2))
1: (if x <= 0 then 1 else (x3 + 2x))
1: (if x <= 0 then 1 else (x3 + 3x))
1: (if x <= 0 then 1 else (2 * ((x + 1) + (2 div (~x + 16)))))
1: (if x <= 0 then 1 else (2 * (x + (((x + 1) + (2 * (2x - (((x + 1) + (x mod 2)) div 5)))) div 3))))
1: (if x <= 0 then 1 else (2 * (x + (((x + 1) + (2 * (((x + 1) + (x mod 2)) div 5))) div 3))))
1: (if x <= 0 then 1 else (2 * (2x + (((x + 1) + (2 * ((1 + (if (~2 + (x div 2)) <= 0 then x else (x + 4))) div 3))) div 3))))
1: (if x <= 0 then 1 else (2 * (2x + (((x + 1) + (2 * ((x - (x div 12)) div 2))) div 3))))
1: (if x <= 0 then 1 else (2 * (x + (((x + 1) + (((x + 1) + (((3 * ((2x + 1) - (x mod 5))) div 2) div 2)) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (x + (((x + 1) + ((3 * ((x + 1) - loop(\(x,i).(x + (if (~2 + (x div 4)) <= 0 then 1 else 2)),2,x))) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (x + (((x + 1) - ((((x + 1) + ((2x + ~1) mod 7)) div 2) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (2x + ((1 + (2 * ((2x + 1) div 3))) div 3))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + (5 * ((x2 + 3x) div 2))) div 2))))
1: (if x <= 0 then 1 else (2 * (x + ((x + (2 * ((x2 div 8) mod 2))) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((2x + 1) div (3 + (x div 4))))))
1: (if x <= 0 then 1 else (2 * (6x + ((2x + 1) div 9))))
1: (if x <= 0 then 1 else (2 * (x + ((x + (((2x + 1) + (((x + 1) + (4 * (2x - (2x div 7)))) div 3)) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (x + ((x + (((loop(\(x,i).8x,x,1) + loop(\(x,i).2x,x,1)) - loop(\(x,i).(3x + 2),x,0)) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + (((3 * (x div 4)) div 2) * (x div 2))) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + (loop(\(x,i).(2x + ~1),(x + ~1),loop(\(x,i).2x,x,1)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + ((1 + ((1 + ((1 + loop(\(x,i).(if (x + ~2) <= 0 then i else 2x),x,1)) div 2)) div 2)) div 2)) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + ((1 + ((1 + (((1 + ((x * (1 + ((x * (x div 2)) div 3))) div 2)) div 2) div 2)) div 2)) div 2)) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + ((x + ((1 + (((loop(\(x,i).3x,(x + ~1),loop(\(x,i).(x2 + x),1,loop(\(x,i).(x * i),x,1))) div 2) div 2) div 2)) div 2)) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + ((compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + ((~1 + loop(\(x,i).2x,x,2)) div (x + 3))) div 2)) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + (((x + 1) * (1 + ((x + 1) mod (1 + ((x + (if (x mod 2) <= 0 then x else 2)) mod 3))))) div 2)) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (x + ((x + ((x + ((5 * (x + ((x div 3) mod 2))) div 2)) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + (((x * (~1 + loop(\(x,i).(x2 + x),1,loop(\(x,i).(x * i),x,1)))) div 2) div 3)) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + (((loop(\(x,i).x2,1,(1 + compr(\x.(loop(\(x,i).(~2x + 4),x,1) mod (x + 1)),x))) div 2) div 2) div 2)) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + (((loop(\(x,i).x2,1,(~1 + (9 * (x mod 5)))) div 2) div 2) div 2)) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + ((loop(\(x,i).(2x2 + ~x),1,loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1)) div 2) div 2)) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + ((x5 mod 17) div 2)) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + (loop(\(x,i).(3 * (2 + (x div 2))),x,0) div 2)) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + (loop(\(x,i).(2 * (x + (if (i mod 2) <= 0 then 2 else 0))),x,1) div 3)) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + (loop(\(x,i).(2 * ((~1 + (((x2 + x) * (1 - (2 * (x mod 2)))) div 2)) div 2)),1,(x + 1)) div 2)) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + (x div (1 + ((x + 1) mod (2 * (1 + (x mod (2 + (x mod 2))))))))) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (2x + ((x + ((x + ((x div 2) mod 4)) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + loop(\(x,i).(1 + loop(\(x,i).(1 + (x2 * i)),x,2)),x,0)) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + ((x + loop(\(x,i).((x + 1) * (i * i)),(x + ~1),1)) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + loop(\(x,i).(loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2),2,(x + 1))) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + loop(\(x,i).(x div (2 - ((x - (x div 8)) mod 2))),x,x)) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (2x + ((x + ((2x - ((x + 2) mod 4)) div 3)) div 2))))
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1: (if x <= 0 then 1 else (2 * (2x + ((1 + ((x - ((x div 4) mod 2)) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + ((5x2 + 10x + 5) div 7)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + ((x * (1 + (x mod 3))) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (x + ((x + ((3 * ((3 * (x + (if (~2 + (x div 4)) <= 0 then 1 else 2))) div 2)) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (2x + ((x + (x2 div 3)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + (((1 + ((x + 1) * (1 + loop(\(x,i).(x2 + x),1,loop(\(x,i).(2 * (2x - (x div (1 + i)))),x,1))))) div 2) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + (((1 + ((x * ((2x + 4) + loop(\(x,i).(2x - ((~1 + i) div 2)),x,1))) div 2)) div 2) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + (((1 + (((x + 1) * (x - loop(\(x,i).(1 + ((2x2 + ~x) div (x + 3))),2,x))) div 2)) div 2) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + (((1 + (((x + ~1) * loop(\(x,i).(x * i),(x + ~1),(x + 1))) div 2)) div 2) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + (((1 + loop(\(x,i).(x * i),(x + ~1),1)) div 2) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + (((~1 + (6 * (1 + loop(\(x,i).(if x <= 0 then 2 else (2 * (2x - (x div (1 + i))))),x,0)))) div 2) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + (((5 * (4x2 div (2 - (x mod 2)))) div 2) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + ((((x + 1) * (((~2x + 4) mod (2 + (x div 2))) div 2)) div 2) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + ((loop(\(x,i).(20x + ~21),x,1) div 2) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + ((loop(\(x,i).((3x + 1) - (i mod 2)),x,1) div 2) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + ((loop(\(x,i).3x,(x div 2),1) div (if (x mod 3) <= 0 then 1 else 2)) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + ((loop(\(x,i).2x,x,(~x3 + loop(\(x,i).5x,(x + 1),1))) div 2) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + ((20 mod (x + 1)) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + ((loop(\(x,i).2x,x,2) mod (x + 1)) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + ((loop(\(x,i).2x,x,(1 + ((2 * (1 + ((1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2)) div 2))) div 3))) mod (x + 1)) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + ((loop(\(x,i).2x,x,(1 + (x div 8))) mod (x + 1)) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + ((x mod (2 + ((1 + (2 * (((if x <= 0 then 1 else (2 * (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))))) - (x mod 2)) div 2))) mod (x + 1)))) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + (loop(\(x,i).(~2x + (if (x mod (1 + i)) <= 0 then 0 else x)),x,x) div (x + 1))) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + (loop(\(x,i).(2x + 2),(((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3) + (if x <= 0 then 0 else 1)),1) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + (loop(\(x,i).(2 * ((1 + (((loop(\(x,i).4x,x,2) - loop(\(x,i).3x,x,1)) div 2) div 2)) div 2)),x,1) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + (loop(\(x,i).2x,(x + ~7),1) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + (loop(\(x,i).(x * i),x,(7x + ~3)) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (2x + ((x + (x div 3)) div 5))))
1: (if x <= 0 then 1 else (2 * (x + ((x + (5 mod (1 + (x div 4)))) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + ((~7 + (x div 2)) mod (1 + (x div 2)))) div 2))))
1: (if x <= 0 then 1 else (2 * (2 + ((x + ((1 - (x div 3)) mod 3)) div 4))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + ((~x + 2) mod (1 + ((((x + 1) + (x2 div 4)) div 2) div 2)))) div 2))))
1: (if x <= 0 then 1 else (2 * (x + ((x + ((x - ((((~x + 1) * (x div 2)) div 2) div 3)) mod 3)) div 2))))
1: (if x <= 0 then 1 else (2 * (2x + ((x + (((x div 2) div 3) mod 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (4x + ((x + ((x div 2) mod 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (2x + ((x + ((x div 2) mod 4)) div 4))))
1: (if x <= 0 then 1 else (2 * (2x + ((x + ((x div 2) mod 5)) div 5))))
1: (if x <= 0 then 1 else (2 * (2x + ((x + ((x div 4) mod 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) mod (2x + 3))) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((1 + (x mod (1 + (x div 4)))) div (1 + ((x + 1) mod 4))))))
1: (if x <= 0 then 1 else (2 * (2x + ((2 + (if (~4 + (x div 2)) <= 0 then x else (x + 2))) div 3))))
1: (if x <= 0 then 1 else (2 * (2x + ((1 + (if (~2 + (x div 2)) <= 0 then x else (x + 4))) div 3))))
1: (if x <= 0 then 1 else (2 * (2x + ((x + (if (~2 + (x div 4)) <= 0 then 1 else 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (x + ((x + (if (~2 + (x div 4)) <= 0 then 1 else 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((x + 1) div (4 + (((x2 + x) div 2) mod 5))))))
1: (if x <= 0 then 1 else (2 * (2 + ((x + 2) div 7))))
1: (if x <= 0 then 1 else (2 * (2x + ((x + 2) div (1 + (2 * (2 + (((x div 2) div 3) mod 2))))))))
1: (if x <= 0 then 1 else (2 * (1 + (((x + 1) - ((loop(\(x,i).(2x + i),(x + ~2),1) div 2) mod 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (x + ((x - (2 * ((2x div (4 + (x div 4))) mod 2))) div 3))))
1: (if x <= 0 then 1 else (2 * (2x + ((x - ((x + (x div 3)) div 3)) div 2))))
1: (if x <= 0 then 1 else (2 * (2x + ((x - (2x div ~7)) div 2))))
1: (if x <= 0 then 1 else (2 * (2x + ((x - (x div 4)) div 2))))
1: (if x <= 0 then 1 else (2 * (2x + ((x - (x div 7)) div 2))))
1: (if x <= 0 then 1 else (2 * (2x + ((x - (x div 9)) div 2))))
1: (if x <= 0 then 1 else (2 * (2x + ((x - (x div ~8)) div 2))))
1: (if x <= 0 then 1 else (2 * (2x + ((x - (x mod (4 + (x div 3)))) div 3))))
1: (if x <= 0 then 1 else (2 * (2x + ((x - (if (~2 + (x div 4)) <= 0 then 0 else 2)) div 3))))
1: (if x <= 0 then 1 else (2 * (x + ((2 * ((x + 1) + (((x + 1) + ((3 * (x + ((3 * ((x div 2) div 3)) div 2))) div 2)) div 2))) div 3))))
1: (if x <= 0 then 1 else (2 * (x + ((x3 + 2x) div 3))))
1: (if x <= 0 then 1 else (2 * (x + ((2 * ((2x + 2) + (x div (1 + (2 * (if (~4 + (x div 2)) <= 0 then 2 else 1)))))) div 3))))
1: (if x <= 0 then 1 else (2 * (2x + ((2 * (x + ((x div 3) mod 2))) div 3))))
1: (if x <= 0 then 1 else (2 * (x + ((3 * (x + ((x mod ((x + 1) - (x mod 4))) mod 2))) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((x2 + 4x + 4) div (~x + 26)))))
1: (if x <= 0 then 1 else (2 * (x + ((2 * (2x - (2x div 7))) div 3))))
1: (if x <= 0 then 1 else (2 * (x + ((2 * (2x - (x div ~7))) div 3))))
1: (if x <= 0 then 1 else (2 * (1 + (((2x2 + ~x + ~1) * (x + (x div 2))) div 2))))
1: (if x <= 0 then 1 else (3 * (1 + ((x3 + ~x2) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((3 * ((1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (2x + ((2 * (2x div (4 + (x div 8)))) div 3))))
1: (if x <= 0 then 1 else (2 * (1 + (((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + (((2x + 1) mod (3 + (x div 4))) div 2))) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (~1 + (8 * ((1 + (x div 2)) div 2)))) div 2))))
1: (if x <= 0 then 1 else (2 * (2 + ((2 * (x div 2)) div 3))))
1: (if x <= 0 then 1 else (2 * (2x + ((x * (x div 2)) div 3))))
1: (if x <= 0 then 1 else (2 * (2x + (2x div (2 + (4x div (x + 2)))))))
1: (if x <= 0 then 1 else (x * (2 + (x2 div 2))))
1: (if x <= 0 then 1 else (2 * (1 + (x2 div 3))))
1: (if x <= 0 then 1 else (2 * (1 + (x2 div (2 + (x mod (2 + (x mod 3))))))))
1: (if x <= 0 then 1 else (2 * (1 + ((((x + 1) + (x div 2) - ((x div 2) mod 3)) div 2) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + (((x + 1) div 2) div 3))))
1: (if x <= 0 then 1 else (2 * (2 + (((x + 1) div 2) div 3))))
1: (if x <= 0 then 1 else (2 * (1 + (((x + 2) div (1 + ((x + 1) mod 3))) div 2))))
1: (if x <= 0 then 1 else (2 * (2x + (((~x + (3 * (x - (2x div 5)))) div 2) div 2))))
1: (if x <= 0 then 1 else (2 * (x + (((x - ((x div 2) mod 6)) div 2) div 2))))
1: (if x <= 0 then 1 else (2 * (2x + (((3 * (x - (x div 5))) div 2) div 2))))
1: (if x <= 0 then 1 else (2 * (x + ((((3x + ~3) * (loop(\(x,i).2x,(x + ~2),x) div 2)) div 2) div 2))))
1: (if x <= 0 then 1 else (2 * (x + ((x div 2) div 7))))
1: (if x <= 0 then 1 else (2 * (1 + (((~x + 5) mod (1 + (x div 3))) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + (((1 + (x mod (2 + (x div (1 + ((x div 2) mod (1 + (x mod (1 + (2x mod 3)))))))))) mod (x + 1)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + (((1 + (x mod (2 + (x mod (1 + (2 * (2 - (x mod 2)))))))) mod (x + 1)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + (((1 + (x mod (1 + (x mod (2 * (1 + ((1 + (x div 2)) div 3))))))) mod (x + 1)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + (((1 + (x mod (2 + (if (x mod (2 + (x mod 2))) <= 0 then 2 else 0)))) mod (x + 1)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + (((x + 1) mod (1 + (2 * ((1 + (x div 4)) div 2)))) div 2))))
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1: (if x <= 0 then 1 else (2 * (1 + (((~1 + loop(\(x,i).2x,x,(2 - ((x div 2) mod 2)))) mod (x + 1)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((8 mod (2x + ~1)) div 3))))
1: (if x <= 0 then 1 else (2 * (1 + (((x2 + 4x) mod (1 + (x div 3))) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((((x + ~2) * (x div 3)) mod (x + 1)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((x2 mod (2 + (x div 3))) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((loop(\(x,i).(2 * (x - i)),x,2) mod (x + 1)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((loop(\(x,i).2x,x,1) mod (x + 1)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((loop(\(x,i).2x,x,2) mod loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((loop(\(x,i).2x,x,(1 + (x div 4))) mod (x + 1)) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((loop(\(x,i).2x,x,(if (x mod 2) <= 0 then ((x div 2) mod 2) else x)) mod (x + 1)) div 2))))
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1: (if x <= 0 then 1 else (2 * (1 + ((x mod (1 + ((2 - (x mod 4)) mod (x + 1)))) div 2))))
1: (if x <= 0 then 1 else (2 * (2x + ((x mod (2 + ((x - ((~x + 1) div 3)) mod 3))) div 2))))
1: (if x <= 0 then 1 else (2 * (2 + ((x mod (2 + (x mod 3))) div 2))))
1: (if x <= 0 then 1 else (2 * (x + ((if (x + ~4) <= 0 then 1 else x) div 2))))
1: (if x <= 0 then 1 else (2 * (x + ((if (x + ~4) <= 0 then 1 else x) div 3))))
1: (if x <= 0 then 1 else (3 * (2 + (loop(\(x,i).(2 * (x - (x div ~7))),x,1) div 2))))
1: (if x <= 0 then 1 else (2 * (1 + (loop(\(x,i).x2,2,(x + 1)) div 3))))
1: (if x <= 0 then 1 else ((2 + (x div 2)) * ((x + 1) div 2)))
1: (if x <= 0 then 1 else ((1 + (x div 3)) * (x div 2)))
1: (if x <= 0 then 1 else ((1 + (x div 4)) * (x div 3)))
1: (if x <= 0 then 1 else (2 * (2x + (x div (4 + (x div 2))))))
1: (if x <= 0 then 1 else (2 * (2x + (x div (4 + (x div 4))))))
1: (if x <= 0 then 1 else (2 * (1 + (x div (2 + (x div (1 + ((loop(\(x,i).(x2 + x),1,loop(\(x,i).(if x <= 0 then i else (x div 2)),x,0)) mod (x + 1)) mod 3))))))))
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1: (if x <= 0 then 1 else (2 * (1 + (x div (2 + ((1 + (2 * (if x <= 0 then 1 else (2 + (x mod (2 + (x div 4))))))) mod (x + 1)))))))
1: (if x <= 0 then 1 else (2 * (1 + (x div (2 + (x mod (1 + ((x + 1) div (1 + (((2x div (1 + (x div 4))) mod 2) + (x mod 2)))))))))))
1: (if x <= 0 then 1 else (2 * (1 + (x div (2 + (if (((x + 1) div 2) mod 5) <= 0 then 1 else 2))))))
1: (if x <= 0 then 1 else (2 * (1 + (x div (2 + (if (x mod 10) <= 0 then 1 else 2))))))
1: (if x <= 0 then 1 else (2 * (1 + (x div (2 - ((x div 2) div ~2))))))
1: (if x <= 0 then 1 else (2 * (2 + (x div 8))))
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1: (if x <= 0 then 1 else (2 * (x + (x div 12))))
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1: (if x <= 0 then 1 else (2 * (x + (x div (3 * (8 - (x div 2)))))))
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1: (if x <= 0 then 1 else (2 * (1 + (~x2 mod 6))))
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1: (if x <= 0 then 1 else (2 * (1 + (((x2 + 2x) div 2) mod (1 + ((1 + (x div 2)) div 3))))))
1: (if x <= 0 then 1 else (2 * (2x + (((((x + 1) div 2) div 2) div 2) mod 2))))
1: (if x <= 0 then 1 else (2 * (1 + (((x2 mod (x + 5)) div 2) mod 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((x div 2) mod (1 + (((~x + 2) mod (2 + (x div 4))) div 2))))))
1: (if x <= 0 then 1 else (2 * (2 + ((x div 4) mod (1 + (x mod 3))))))
1: (if x <= 0 then 1 else (2 * (1 + ((x div (1 + (2 * (4 - (x div 2))))) mod 2))))
1: (if x <= 0 then 1 else (2 * (1 + ((x div (3 * (2 + ((x + ~1) mod 4)))) mod 2))))
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1: (if x <= 0 then 1 else (2 * (1 + ((x mod (1 + ((1 + (x div 2)) div 2))) mod 2))))
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1: (if x <= 0 then 1 else (2 * (2 + ((if (x + ~3) <= 0 then 2 else 1) mod (x + 1)))))
1: (if x <= 0 then 1 else (2 * (1 + ((if (x mod (2 + (x mod 2))) <= 0 then 1 else x) mod (1 + (x div 4))))))
1: (if x <= 0 then 1 else (2 * (2x + (loop(\(x,i).(x * (~2 + (i mod 2))),x,1) mod (1 + (x div 4))))))
1: (if x <= 0 then 1 else (2 * (2 + (loop(\(x,i).x2,2,(x + 9)) mod 7))))
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1: (if x <= 0 then 1 else (2 * (2 + (x mod (x - ((x + ~1) mod 8))))))
1: (if x <= 0 then 1 else (2 * (1 + (x mod (2 * (2 - (x mod 2)))))))
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1: (if x <= 0 then 1 else (2 * (4x + (if (~2 + (x div 2)) <= 0 then 0 else 1))))
1: (if x <= 0 then 1 else (2 * (2x + (if (~2 + (x div 2)) <= 0 then 0 else 1))))
1: (if x <= 0 then 1 else (2 * (1 + (if (x + ~1) <= 0 then x else ((x2 + 2x) div 4)))))
1: (if x <= 0 then 1 else (2 * (1 + (if (x + ~4) <= 0 then 0 else 2))))
1: (if x <= 0 then 1 else (3 * (1 + (if (x + ~4) <= 0 then 0 else 2))))
1: (if x <= 0 then 1 else (2 * ((if ((x + 1) mod (1 + (x div 4))) <= 0 then 1 else 2) + ((x mod 3) div 2))))
1: (if x <= 0 then 1 else (5 * (x + (if (x mod 2) <= 0 then (3x + ~6) else 1))))
1: (if x <= 0 then 1 else (2 * (x + (if (x mod 2) <= 0 then 2x else 0))))
1: (if x <= 0 then 1 else (2 * (x + (if (x mod 3) <= 0 then 0 else (if (x mod (2 + (x mod 2))) <= 0 then 1 else x)))))
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1: (if x <= 0 then 1 else (2 * (6x - ((x div 3) + (x div 2)))))
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1: (if x <= 0 then 1 else (2 * ((x + ~2) - ((~2x3 + 6x2 + ~4x) div 3))))
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1: (if x <= 0 then 1 else (9x + ~3))
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1: (if x <= 0 then 1 else (16x + ~6))
1: (if x <= 0 then 1 else 23x)
1: (if x <= 0 then 1 else (72x + ~9))
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1: (if x <= 0 then 1 else (2 * (2x - ((~x + ((x div 2) mod 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (2x - ((~x + ((x div 2) mod 3)) div 3))))
1: (if x <= 0 then 1 else (2 * (2x - ((~x + ((x div 2) mod 5)) div 5))))
1: (if x <= 0 then 1 else (2 * (2x - ((~x + ((x div 4) mod 2)) div 2))))
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1: (if x <= 0 then 1 else (2 * (2x - ((~2x + 4) div 9))))
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1: (if x <= 0 then 1 else (2 * (2x - (2x div (2 + (4x div (x + 2)))))))
1: (if x <= 0 then 1 else (2 * (2x - ((((x + 1) - (x div 4)) div 2) div 2))))
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1: (if x <= 0 then 1 else (3 * (2x - (2 mod (~2x + 1)))))
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1: (if x <= 0 then 1 else (2 * (~2 + loop(\(x,i).(2x + 4),x,1))))
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1: (if x <= 0 then 1 else (2 * ((x + 1) - ((~4x + 2) div (x + 3)))))
1: (if x <= 0 then 1 else (2 * (x + loop(\(x,i).(x * (2 + (i mod 2))),x,1) - (if (x + ~2) <= 0 then 1 else 0))))
1: (if x <= 0 then 1 else (10x + ~4))
1: (if x <= 0 then 1 else (10x + ~8))
1: (if x <= 0 then 1 else (98x + ~12))
1: (if x <= 0 then 1 else (2 * (x - (2 * (~x + ((x + 2) div 5))))))
1: (if x <= 0 then 1 else (2 * (x - (6 * (~x + (x mod 2))))))
1: (if x <= 0 then 1 else (2 * (x - (2 * ((x + ((x2 div 2) div 15)) div 2)))))
1: (if x <= 0 then 1 else (2 * (x - (2 * ((~2x + 1) div 3)))))
1: (if x <= 0 then 1 else (2 * (x - (2 * ((~3x + 2) div 5)))))
1: (if x <= 0 then 1 else (2 * (x - (1 div (x2 + ~3)))))
1: (if x <= 0 then 1 else (2 * (x - ((x + (x div 3)) div 5))))
1: (if x <= 0 then 1 else (2 * (x - ((0 - ((x - (((x + 1) div 2) mod 6)) div 2)) div 2))))
1: (if x <= 0 then 1 else (3 * (x - ((~x + 1) div 3))))
1: (if x <= 0 then 1 else (2 * (x - ((~x + 2) div 2))))
1: (if x <= 0 then 1 else (2 * (x - (((~x + ~1) + ((x div 4) mod 2)) div 3))))
1: (if x <= 0 then 1 else (2 * (x - ((~1 + (x div 2)) div 3))))
1: (if x <= 0 then 1 else (x * (x - ((x - ((x * loop(\(x,i).(x3 + x),1,x4)) div 2)) div 2))))
1: (if x <= 0 then 1 else (2 * (x - ((3 * (x div 4)) div 2))))
1: (if x <= 0 then 1 else (2 * (x - (((2 + (x * (x + (x div 2)))) div (x + 2)) div 2))))
1: (if x <= 0 then 1 else (5 * (x - (((~x3 + x) div 2) div 3))))
1: (if x <= 0 then 1 else (5 * (x - ((x div 2) div 3))))
1: (if x <= 0 then 1 else (2 * (x - (((2x + ~1) mod (1 + (x div 3))) div 2))))
1: (if x <= 0 then 1 else (2 * (x - (x div 3))))
1: (if x <= 0 then 1 else (7 * (x - (x div 8))))
1: (if x <= 0 then 1 else (11 * (x - (x div 12))))
1: (if x <= 0 then 1 else (3 * (x - (1 mod (~2x + 3)))))
1: (if x <= 0 then 1 else (2 * (x - (2 mod (~2x + 3)))))
1: (if x <= 0 then 1 else (2 * (x - (((x mod 3) * (x div 2)) mod 2))))
1: (if x <= 0 then 1 else (2 * (x - (if (~x + i) <= 0 then 1 else 0))))
1: (if x <= 0 then 1 else (3 * (x - loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,0))))
1: (if x <= 0 then 1 else (x * (1 + i - (2 * (i mod 2)))))
1: (if x <= 0 then 1 else (x * (~2 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))))
1: (if x <= 0 then 1 else 9x)
1: (if x <= 0 then 1 else (8x + ~8))
1: (if x <= 0 then 1 else 20)
1: (if x <= 0 then 1 else (4 * ((x + 1) + (3 * (x + (x mod 2))))))
1: (if x <= 0 then 1 else (2x * ((x + 1) + (2 * loop(\(x,i).(2 * (1 + loop(\(x,i).(2x * (2 + i)),4x,1))),x,1)))))
1: (if x <= 0 then 1 else (2x2 + 8x))
1: (if x <= 0 then 1 else (2x * ((x + ~1) + (3 * (1 + loop(\(x,i).loop(\(x,i).5x,x,1),(i - (x mod 3)),loop(\(x,i).5x,x,1)))))))
1: (if x <= 0 then 1 else (4x3 + 6x))
1: (if x <= 0 then 1 else (3x6 + 3x))
1: (if x <= 0 then 1 else (4x3 + 2x))
1: (if x <= 0 then 1 else (5x3 + 5x))
1: (if x <= 0 then 1 else (2x3 + 4x))
1: (if x <= 0 then 1 else (2 * ((1 + ((x + (2 * (x mod 2))) div 5)) * (x mod 2))))
1: (if x <= 0 then 1 else (6 * (x + (x3 div 8))))
1: (if x <= 0 then 1 else (x2 * (1 + ((loop(\(x,i).loop(\(x,i).x2,x,2),(x + ~2),1) div 2) div 2))))
1: (if x <= 0 then 1 else (3x * (x + (x div 2))))
1: (if x <= 0 then 1 else (2x * (2 + (2 mod (x + 1)))))
1: (if x <= 0 then 1 else (4 * (1 + (~x mod 4))))
1: (if x <= 0 then 1 else (4 * (4x + ((~x + 1) mod 3))))
1: (if x <= 0 then 1 else (3x * (1 + (x mod 2))))
1: (if x <= 0 then 1 else (6 * (1 + loop(\(x,i).x3,1,(2x2 + 2x)))))
1: (if x <= 0 then 1 else (4x + 8))
1: (if x <= 0 then 1 else (4x2 + 8x))
1: (if x <= 0 then 1 else (x * ((1 + i) * (1 + (2 * i)))))
1: (if x <= 0 then 1 else (~2x3 + 2x))
1: (if x <= 0 then 1 else (4 * (1 - ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2))))
1: (if x <= 0 then 1 else (~3x2 + 3x))
1: (if x <= 0 then 1 else (3x * (2 - (x mod 2))))
1: (if x <= 0 then 1 else (4 * (3x - (x div 3))))
1: (if x <= 0 then 1 else (4 * (5x - (x div 3))))
1: (if x <= 0 then 1 else (4 * (4x - (x div 2))))
1: (if x <= 0 then 1 else (4 * (4x - (x div ~2))))
1: (if x <= 0 then 1 else (18x2 + ~9))
1: (if x <= 0 then 1 else (8x3 + ~2x))
1: (if x <= 0 then 1 else (8x2 + ~8x + 2))
1: (if x <= 0 then 1 else (4x2 + ~2x))
1: (if x <= 0 then 1 else (x3 + ~3x2 + 2x))
1: (if x <= 0 then 1 else ~21x2)
1: (if x <= 0 then 1 else (6 * (x - ((1 + (if (x mod 3) <= 0 then 0 else x)) div 3))))
1: (if x <= 0 then 1 else (4 * (x - ((~x + 1) div 3))))
1: (if x <= 0 then 1 else (6 * (x - ((~x + 2) div 2))))
1: (if x <= 0 then 1 else (4 * (x - (x div ~2))))
1: (if x <= 0 then 1 else (4 * (x - loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,0))))
1: (if x <= 0 then 1 else (20x3 + 10x))
1: (if x <= 0 then 1 else (12x2 + 6x))
1: (if x <= 0 then 1 else (6x3 + 6x))
1: (if x <= 0 then 1 else (6x * (1 + (x mod 2))))
1: (if x <= 0 then 1 else (6x * (2 - (x mod 2))))
1: (if x <= 0 then 1 else 16x)
1: (if x <= 0 then 1 else (16x2 + ~8x))
1: (if x <= 0 then 1 else (8x * (x - (x mod 3))))
1: (if x <= 0 then 1 else (2x5 + 2x3))
1: (if x <= 0 then 1 else 12x)
1: (if x <= 0 then 1 else (2x * ((~1 + i) * (~2 + i))))
1: (if x <= 0 then 1 else (2x3 * (1 + (x mod 2))))
1: (if x <= 0 then 1 else x5)
1: (if x <= 0 then 1 else (4 * ((x2 + 2) div (x + 2))))
1: (if x <= 0 then 1 else (8 * ((~x + 2) div 2)))
1: (if x <= 0 then 1 else (4 * (x div 2)))
1: (if x <= 0 then 1 else (15 * (if (~2 + (x div 4)) <= 0 then 0 else 2)))
1: (if x <= 0 then 1 else (4 * (if (x + ~4) <= 0 then 1 else 4)))
1: (if x <= 0 then 1 else (4 * loop(\(x,i).(10x + 2),(x div 2),(x mod 2))))
1: (if x <= 0 then 1 else (4 * loop(\(x,i).(x2 + x),x,1)))
1: (if x <= 0 then 1 else 3x2)
1: (if x <= 0 then 1 else (x3 + 2x2))
1: (if x <= 0 then 1 else (2 * (2 div (if x <= 0 then 1 else x))))
1: (if x <= 0 then 1 else (3 * (2 div (if x <= 0 then 1 else x))))
1: (if x <= 0 then 1 else (2 * (((2x + 1) + (2 * ((x + 1) - loop(\(x,i).(x + (if (~2 + (x div 4)) <= 0 then 1 else 2)),2,x)))) div 3)))
1: (if x <= 0 then 1 else (2 * (((x + 2) + (((x + 1) div (2 * (1 + (x mod (2 + (x mod 2)))))) div 2) - (x mod 2)) div 2)))
1: (if x <= 0 then 1 else (2 * ((x + (2 * (4x - ((x + (x div 4)) div 3)))) div 3)))
1: (if x <= 0 then 1 else (2 * ((x + (2 * (4x - ((2x + 2) div 5)))) div 3)))
1: (if x <= 0 then 1 else (2 * ((8x + 1) div 3)))
1: (if x <= 0 then 1 else (2 * ((1 + (2 * (if x <= 0 then 2 else (4x - (((x + ~1) mod (2 + (x div 2))) div 2))))) div 3)))
1: (if x <= 0 then 1 else (2 * ((1 + ((loop(\(x,i).2x,x,(1 + compr(\x.(loop(\(x,i).(2x2 + 12x + 16),2,(x2 + 2x)) mod (x + 1)),x))) div 2) div 2)) div 2)))
1: (if x <= 0 then 1 else (2 * ((1 + (loop(\(x,i).~2x,x,1) div 5)) div 2)))
1: (if x <= 0 then 1 else (2 * ((1 + (if (x mod 3) <= 0 then 0 else x)) div 3)))
1: (if x <= 0 then 1 else (2 * ((loop(\(x,i).(2x * i),x,1) + (if (x + ~2) <= 0 then x else 1)) div 2)))
1: (if x <= 0 then 1 else (2 * ((1 + loop(\(x,i).(3x * i),x,1)) div 2)))
1: (if x <= 0 then 1 else (2 * ((1 + loop(\(x,i).2x,(x + ~1),(if (x mod 3) <= 0 then 1 else 2))) div 3)))
1: (if x <= 0 then 1 else (2 * ((1 - ((~x + ((x div 2) mod 3)) div 2)) div 2)))
1: (if x <= 0 then 1 else (9 * ((~1 + (3 * (2 + (if (x + ~4) <= 0 then 0 else 2)))) div (x + 1))))
1: (if x <= 0 then 1 else (2 * ((x2 + 2x + ~1) div (1 + (x div 2)))))
1: (if x <= 0 then 1 else (2 * ((~1 + (2 * (if x <= 0 then 1 else (2 * (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))))))) div 2)))
1: (if x <= 0 then 1 else (2 * ((~1 + loop(\(x,i).2x,x,loop(\(x,i).(2x + 1),x,2))) div 3)))
1: (if x <= 0 then 1 else (((x + ~1) div 3) * (x div 2)))
1: (if x <= 0 then 1 else (3 * (((x + 1) - (2 * (~1 + (x mod 4)))) div 2)))
1: (if x <= 0 then 1 else (2 * ((x - (((x + 2) div 3) mod 3)) div 2)))
1: (if x <= 0 then 1 else (2 * ((2 * (4 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3)))
1: (if x <= 0 then 1 else (((3x3 + 6x2 + 2x) div 2) * (1 + (x mod 2))))
1: (if x <= 0 then 1 else (3 * ((8x + 2) div 5)))
1: (if x <= 0 then 1 else (9 * ((x3 + x) div 2)))
1: (if x <= 0 then 1 else (2 * ((3 * (x + (x div 12))) div 2)))
1: (if x <= 0 then 1 else (3 * ((x2 + x) div 2)))
1: (if x <= 0 then 1 else (3 * ((~x2 + x) div 2)))
1: (if x <= 0 then 1 else (2 * ((2 * (4x - ((x div 2) div 3))) div 3)))
1: (if x <= 0 then 1 else (2 * ((2 * (4x - ((x div 2) div 5))) div 3)))
1: (if x <= 0 then 1 else (x * (((~1 + i) * i) div 2)))
1: (if x <= 0 then 1 else (2 * ((32x + 4) div 3)))
1: (if x <= 0 then 1 else (2 * ((32x3 + 16x) div 3)))
1: (if x <= 0 then 1 else (2 * (((((x + 1) div 2) div 2) * (x div 2)) div 5)))
1: (if x <= 0 then 1 else (3 * (x2 div 4)))
1: (if x <= 0 then 1 else (2 * (((~1 + ((x + 1) * loop(\(x,i).(2 * (x + (x div (4 + i)))),x,1))) div 2) div 2)))
1: (if x <= 0 then 1 else (2 * (((x3 + 9x2 + 14x) div 2) div 3)))
1: (if x <= 0 then 1 else (5 * (((x3 + 3x2 + 2x) div 2) div 3)))
1: (if x <= 0 then 1 else (x * ((loop(\(x,i).((x * ((x * loop(\(x,i).((x2 + ~x) div 2),2,(x + 2))) div (x + 1))) div 2),x,2) div 2) div 2)))
1: (if x <= 0 then 1 else (2 * (((x + 1) mod (1 + (2 * ((x + 1) mod (1 + (x div 4)))))) div 2)))
1: (if x <= 0 then 1 else (2 * (((x div 2) mod (1 + (~x mod 4))) div 2)))
1: (if x <= 0 then 1 else (2 * ((loop(\(x,i).2x,x,(if (x mod 4) <= 0 then 0 else 1)) mod (x + 1)) div 2)))
1: (if x <= 0 then 1 else (2 * ((x mod (1 + (x div 2))) div 2)))
1: (if x <= 0 then 1 else (2 * ((x mod (1 + (x mod (2 + (x div 4))))) div 2)))
1: (if x <= 0 then 1 else (2 * ((if x <= 0 then 2 else (1 + (((1 - (2x div 3)) mod (1 + (x div 2))) div 2))) div 2)))
1: (if x <= 0 then 1 else (2 * ((if x <= 0 then 2 else (loop(\(x,i).2x,(x + ~2),x) - ((x + ~1) * (if x <= 0 then 1 else x)))) div 2)))
1: (if x <= 0 then 1 else (2 * (x div (1 + ((x - (x div 4)) div 2)))))
1: (if x <= 0 then 1 else (2 * (x div (2 + (if (x mod 3) <= 0 then 2 else 1)))))
1: (if x <= 0 then 1 else (2 * ((x + (2 * (x mod 2))) mod (1 + (x div 2)))))
1: (if x <= 0 then 1 else (3 * (~x mod (2 + (x div 2)))))
1: (if x <= 0 then 1 else (2 * (x3 mod 13)))
1: (if x <= 0 then 1 else (2 * (x3 mod (1 + (3 * (2 - (x mod 2)))))))
1: (if x <= 0 then 1 else (2 * (((x2 + ~x) div (x + 2)) mod 2)))
1: (if x <= 0 then 1 else (2 * (((x3 + x2) div (x + 3)) mod 2)))
1: (if x <= 0 then 1 else (2 * (((2 + (x mod (2 + (x mod 3)))) mod (1 + (x div 3))) mod 2)))
1: (if x <= 0 then 1 else (2 * ((x mod (1 + ((1 + (x div 2)) div 2))) mod 2)))
1: (if x <= 0 then 1 else (3 * ((x mod (2 - (x div (1 + ((x div 2) mod 2))))) mod 2)))
1: (if x <= 0 then 1 else (2 * (x mod (1 + (2 * ((2x mod (4 + (x div 3))) mod 2))))))
1: (if x <= 0 then 1 else (2 * (x mod (1 + (x div (1 + (2 * (1 + (2x mod 7)))))))))
1: (if x <= 0 then 1 else (2 * (x mod (1 + ((((1 + (8 mod (1 + (x div 2)))) div 2) - (x mod 2)) mod (x + 1))))))
1: (if x <= 0 then 1 else (2 * (x mod (1 + (if (x mod (2 + (x mod 2))) <= 0 then 1 else (x div 4))))))
1: (if x <= 0 then 1 else (2 * (x mod (~1 + (2 * (x div 4))))))
1: (if x <= 0 then 1 else (2 * (if (~2 + (x div 3)) <= 0 then 0 else 2)))
1: (if x <= 0 then 1 else (2 * (if (~2 + (x div 5)) <= 0 then 0 else 2)))
1: (if x <= 0 then 1 else (2 * (if (x + ~1) <= 0 then (x + 2) else ((x + 1) mod 2))))
1: (if x <= 0 then 1 else (2 * (if (x + ~1) <= 0 then x else ((x div 2) mod (1 + (2 * (x mod 2)))))))
1: (if x <= 0 then 1 else (x * (if (x + ~2) <= 0 then 2 else x2)))
1: (if x <= 0 then 1 else (2 * (if (x + ~2) <= 0 then 2x else 3)))
1: (if x <= 0 then 1 else (2 * (if (x + ~2) <= 0 then 2x else 5)))
1: (if x <= 0 then 1 else (2 * (if (x + ~2) <= 0 then x else 1)))
1: (if x <= 0 then 1 else (2 * (if (~x + i) <= 0 then i else x)))
1: (if x <= 0 then 1 else ((2x + ~1) * (if (((x + 1) div 2) div 2) <= 0 then 1 else (if x <= 0 then 1 else (if ((x + 1) mod 9) <= 0 then (x + 1) else 0)))))
1: (if x <= 0 then 1 else (x * (if (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2) <= 0 then x else 1)))
1: (if x <= 0 then 1 else (3 * (if ((x + 2) mod 9) <= 0 then x else 0)))
1: (if x <= 0 then 1 else (3 * (if ((x + ~1) mod 3) <= 0 then (2 + (x div 4)) else 1)))
1: (if x <= 0 then 1 else (x * (if (x mod 2) <= 0 then 10 else 1)))
1: (if x <= 0 then 1 else (x * (if (x mod 2) <= 0 then x else ((x2 + ~x) div 4))))
1: (if x <= 0 then 1 else (2 * (if (x mod 3) <= 0 then 1 else ((x mod (4 + (x mod 2))) mod 2))))
1: (if x <= 0 then 1 else (x * (if (x mod 4) <= 0 then (x2 + 2x) else 2)))
1: (if x <= 0 then 1 else (2 * (if (x mod 5) <= 0 then 0 else (1 - (2 * ((x div 5) mod 2))))))
1: (if x <= 0 then 1 else (3 * (if (x mod (1 + (2 * (x div (2 * (2 + (x mod 2))))))) <= 0 then 1 else 2)))
1: (if x <= 0 then 1 else (x * (if (x mod 6) <= 0 then (~2 + (x div 2)) else 1)))
1: (if x <= 0 then 1 else (2 * (if x <= 0 then 1 else ((x2 + 2) + loop(\(x,i).(2 * (x + (x div 2))),x,1)))))
1: (if x <= 0 then 1 else ((if x <= 0 then 1 else ~2) * (1 + (2 * i))))
1: (if x <= 0 then 1 else (2 * loop(\(x,i).((x + 1) + (2 * (x div 4))),(((x + 1) div 2) div 2),1)))
1: (if x <= 0 then 1 else (2 * loop(\(x,i).((x + 2) + ((x div (3 + ((x div 2) div 3))) mod 2)),x,1)))
1: (if x <= 0 then 1 else (2 * loop(\(x,i).(1 + (2 * (x - (i mod 2)))),x,2)))
1: (if x <= 0 then 1 else (x * loop(\(x,i).(10x + 1),8,1)))
1: (if x <= 0 then 1 else (2 * loop(\(x,i).(2 + (x div 2)),(x + ~8),1)))
1: (if x <= 0 then 1 else ((x + 2) * loop(\(x,i).(2x + (i mod 2)),x,0)))
1: (if x <= 0 then 1 else (2 * loop(\(x,i).(x + 1),(~4 + (x div 2)),x)))
1: (if x <= 0 then 1 else (2 * (loop(\(x,i).~6x,(x + ~1),1) * (2 + (x mod 2)))))
1: (if x <= 0 then 1 else (2 * loop(\(x,i).(~x + loop(\(x,i).(1 + (x * i)),(~1 + i),1)),x,0)))
1: (if x <= 0 then 1 else (x * loop(\(x,i).(2x + ~1),(x + ~2),x)))
1: (if x <= 0 then 1 else (x * loop(\(x,i).(x2 + ~2),3,3)))
1: (if x <= 0 then 1 else (2 * loop(\(x,i).((x + 1) - ((~x + (i mod 2)) div 4)),x,1)))
1: (if x <= 0 then 1 else (loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (1 + (x div 5))))
1: (if x <= 0 then 1 else (4 * loop(\(x,i).3x,x,x)))
1: (if x <= 0 then 1 else (5 * loop(\(x,i).(10x + 2),(x div 2),(x mod 2))))
1: (if x <= 0 then 1 else (2 * loop(\(x,i).(10x + 4),(x div 2),(x mod 2))))
1: (if x <= 0 then 1 else (3 * loop(\(x,i).(2x + 2),(x div 2),(x mod 2))))
1: (if x <= 0 then 1 else (2 * loop(\(x,i).(2x + 4),(x + ~1),1)))
1: (if x <= 0 then 1 else ((2x + ~1) * loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,x)))
1: (if x <= 0 then 1 else (3 * loop(\(x,i).(2 * (2x - (x mod 2))),x,3)))
1: (if x <= 0 then 1 else (2 * loop(\(x,i).(3x + ~6),x,0)))
1: (if x <= 0 then 1 else (x * loop(\(x,i).(x * (x - i)),2,(2 + i))))
1: (if x <= 0 then 1 else (2 * loop(\(x,i).((x - i) * i),(x div 2),x)))
1: (if x <= 0 then 1 else (x * loop(\(x,i).((~1 + i) * i),(x + ~2),1)))
1: (if x <= 0 then 1 else ((2x + ~1) * loop(\(x,i).(x * (i * i)),x,2)))
1: (if x <= 0 then 1 else (3 * loop(\(x,i).2x,(x + ~1),x)))
1: (if x <= 0 then 1 else (loop(\(x,i).2x,((x2 + ~x) div 2),1) * (1 + loop(\(x,i).2x,x,1))))
1: (if x <= 0 then 1 else (3 * loop(\(x,i).2x,x,2)))
1: (if x <= 0 then 1 else (x * loop(\(x,i).x2,(x + ~2),((x3 + x2 + 2x + 2) div 2))))
1: (if x <= 0 then 1 else (2 * loop(\(x,i).x2,x2,2)))
1: (if x <= 0 then 1 else (loop(\(x,i).(x * i),(x + ~2),x) * (1 + (x mod 2))))
1: (if x <= 0 then 1 else (2 * loop(\(x,i).(x * i),(2x + ~2),x)))
1: (if x <= 0 then 1 else (5 * loop(\(x,i).(x * i),x,2)))
1: (if x <= 0 then 1 else (2 * loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),(x + ~1),~x)))
1: (if x <= 0 then 1 else (2 * loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),(x + ~1),(3x + ~1))))
1: (if x <= 0 then 1 else (2 * loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),((x + ~1) div 2),1)))
1: (if x <= 0 then 1 else (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,x) * (~1 + (2 * (x mod 2)))))
1: (if x <= 0 then 1 else (x * loop(\(x,i).i,(x + ~9),1)))
1: (if x <= 0 then 1 else (x * loop(\(x,i).i,(x + ~8),1)))
1: (if x <= 0 then 1 else (x * loop(\(x,i).i,(x + ~10),1)))
1: (if x <= 0 then 1 else (x * i))
1: (if x <= 0 then 1 else (2 * compr(\x.(1 - (x mod (1 + (2x mod (1 + (x div 2)))))),x)))
1: (if x <= 0 then 1 else (2 * compr(\x.((x + 1) mod (1 + loop(\(x,i).(if x <= 0 then i else (x + ~1)),x,0))),x)))
1: (if x <= 0 then 1 else (2 * compr(\x.((12 mod (x + 2)) mod 2),x)))
1: (if x <= 0 then 1 else (((2x + 1) + ((3x2 + 6x + 3) div 5)) div 2))
1: (if x <= 0 then 1 else ((2 + (loop(\(x,i).3x,(x + ~1),1) + loop(\(x,i).2x,x,1))) div 2))
1: (if x <= 0 then 1 else (((2x + ~1) + (2 * ((4 * (x + (if (~2 + (x div 2)) <= 0 then 1 else 2))) div 3))) div 3))
1: (if x <= 0 then 1 else ((1 + (2 * (x + (x mod 2)))) div 5))
1: (if x <= 0 then 1 else ((2x2 + 1) div (x + 4)))
1: (if x <= 0 then 1 else ((x + (2 * ((x div 2) mod 2))) div 5))
1: (if x <= 0 then 1 else ((x + ((x + 1) * (x mod 2))) div 5))
1: (if x <= 0 then 1 else ((2x + 1) div (1 + (4 * (1 + (x mod 3))))))
1: (if x <= 0 then 1 else ((1 + (x2 div 7)) div 2))
1: (if x <= 0 then 1 else ((x + ((x mod (2 + (x div 2))) div 2)) div 2))
1: (if x <= 0 then 1 else ((x + (x div 3)) div 5))
1: (if x <= 0 then 1 else ((1 + (x div 4)) div 2))
1: (if x <= 0 then 1 else ((x + (((~x + 2) div 2) mod 4)) div 5))
1: (if x <= 0 then 1 else ((x + ((x div 2) mod 5)) div 5))
1: (if x <= 0 then 1 else ((2x + ((x div 3) mod 3)) div 3))
1: (if x <= 0 then 1 else ((x + ((x div 4) mod 3)) div 3))
1: (if x <= 0 then 1 else ((x + (x mod 2)) div 5))
1: (if x <= 0 then 1 else ((x + (i mod 2)) div 2))
1: (if x <= 0 then 1 else (((if (x mod 2) <= 0 then x else 0) + ((x div 2) mod 2)) div 3))
1: (if x <= 0 then 1 else ((x + loop(\(x,i).(6x2 + 8x + 4),2,x)) div 2))
1: (if x <= 0 then 1 else ((x + 2) div (1 + (2x div 3))))
1: (if x <= 0 then 1 else ((1 - (x div 2)) div 3))
1: (if x <= 0 then 1 else ((~x + 1) div (1 + (2 * (2 + (((x div 2) div 3) mod 2))))))
1: (if x <= 0 then 1 else (11 div (1 + (~x mod 4))))
1: (if x <= 0 then 1 else ((x2 + 3x + 1) div 5))
1: (if x <= 0 then 1 else ((~x + ((x div 2) mod 2)) div 2))
1: (if x <= 0 then 1 else ((~x + ((x div 2) mod 3)) div 3))
1: (if x <= 0 then 1 else ((~x + ((x div 2) mod 5)) div 5))
1: (if x <= 0 then 1 else ((~x + (x mod 2)) div 3))
1: (if x <= 0 then 1 else ((~x + (x mod 4)) div 3))
1: (if x <= 0 then 1 else ((loop(\(x,i).3x,x,1) - loop(\(x,i).3x,(x div 2),1)) div 2))
1: (if x <= 0 then 1 else ((loop(\(x,i).2x,(x + ~1),1) - (if (x mod 2) <= 0 then 1 else x)) div 3))
1: (if x <= 0 then 1 else ((x + ~1) div 3))
1: (if x <= 0 then 1 else (((x + 1) - ((2x + ~2) mod (1 + (x div 2)))) div 2))
1: (if x <= 0 then 1 else ((x - (3 * (~x + ((~x + 2) div 2)))) div 2))
1: (if x <= 0 then 1 else ((x - (3 * (x2 div 2))) div 2))
1: (if x <= 0 then 1 else ((x - ((x * (x div 2)) div 3)) div 3))
1: (if x <= 0 then 1 else ((x - ((1 + (x div 2)) mod 4)) div 5))
1: (if x <= 0 then 1 else ((x - (x mod (4 + (x div 3)))) div 3))
1: (if x <= 0 then 1 else ((x - (if ((x mod 3) mod (1 + (x mod 4))) <= 0 then 1 else 0)) div 2))
1: (if x <= 0 then 1 else ((2x2 + 9x + ~5) div (x + 2)))
1: (if x <= 0 then 1 else ((x2 + 3x) div 2))
1: (if x <= 0 then 1 else (((1 + ((x + 1) div 2)) * (x mod 3)) div 2))
1: (if x <= 0 then 1 else ((2 * (1 + ((((~1 + (2 * (x mod 5))) mod (x + 1)) div 2) div 2))) div 3))
1: (if x <= 0 then 1 else ((2 * (x + ((x div 3) mod 2))) div 3))
1: (if x <= 0 then 1 else ((2x + 2) div (~1 + (6 * (1 + (4 * (x mod 2)))))))
1: (if x <= 0 then 1 else ((2x + 2) div ((2x + 1) div (1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))))
1: (if x <= 0 then 1 else ((x2 + 2x) div 8))
1: (if x <= 0 then 1 else ((~x2 + 2x) div 3))
1: (if x <= 0 then 1 else ((2 * (4x - (3x div 5))) div 3))
1: (if x <= 0 then 1 else ((x3 + ~x) div 2))
1: (if x <= 0 then 1 else ((2 * (~x + ((x div 3) mod 2))) div 3))
1: (if x <= 0 then 1 else ((2x + ~2) div 5))
1: (if x <= 0 then 1 else ((2 * (x - ((x div 2) div 3))) div 3))
1: (if x <= 0 then 1 else ((2 * (x - ((x div 2) div 5))) div 3))
1: (if x <= 0 then 1 else ((2 * (x - (x div 13))) div 3))
1: (if x <= 0 then 1 else ((2x * (~1 + (2 * i))) div (2 + i)))
1: (if x <= 0 then 1 else ((4x3 + 12x2 + 8x) div 3))
1: (if x <= 0 then 1 else (4x2 div (x + 4)))
1: (if x <= 0 then 1 else ((x3 + x2) div (x + 3)))
1: (if x <= 0 then 1 else ((3 * ((x + (x mod 2)) div 5)) div 2))
1: (if x <= 0 then 1 else ((2 * ((x + (if (~2 + (x div 2)) <= 0 then 1 else 0)) div 2)) div 3))
1: (if x <= 0 then 1 else ((2 * ((x + 1) div 3)) div 3))
1: (if x <= 0 then 1 else ((2 * ((x - (x div 4)) div 2)) div 3))
1: (if x <= 0 then 1 else ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2))
1: (if x <= 0 then 1 else ((x * (x div 2)) div (2 + (x div 4))))
1: (if x <= 0 then 1 else ((3 * (x div 4)) div 2))
1: (if x <= 0 then 1 else (((x div 5) * (x div 2)) div 2))
1: (if x <= 0 then 1 else ((x * loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)) div 2))
1: (if x <= 0 then 1 else (2x div 7))
1: (if x <= 0 then 1 else (x2 div (3x + 4)))
1: (if x <= 0 then 1 else (x2 div 19))
1: (if x <= 0 then 1 else (x2 div ~2))
1: (if x <= 0 then 1 else (x2 div (x - ((~x + 2) div 2))))
1: (if x <= 0 then 1 else (x2 div 8))
1: (if x <= 0 then 1 else (((1 + ((x * ((x + 1) div 2)) div 2)) div 2) div 2))
1: (if x <= 0 then 1 else (((x + 1) div (3 * ((if (x mod 2) <= 0 then 2 else x) mod 4))) div 2))
1: (if x <= 0 then 1 else (((x - ((x mod 3) div 2)) div 2) div 2))
1: (if x <= 0 then 1 else (((x2 + ~5x + 6) div 2) div 7))
1: (if x <= 0 then 1 else (((x3 + 3x2 + 2x) div 2) div 3))
1: (if x <= 0 then 1 else ((x2 div 2) div (x + 3)))
1: (if x <= 0 then 1 else (((((x + 1) * (((~1 + (x div 2)) div 2) mod 2)) div 2) div 2) div 2))
1: (if x <= 0 then 1 else ((((x2 - (x div 2)) mod (x + 2)) div 2) div 3))
1: (if x <= 0 then 1 else ((x div 2) div 5))
1: (if x <= 0 then 1 else ((x div 2) div 7))
1: (if x <= 0 then 1 else (((2 - (x div 2)) mod (x + 4)) div 5))
1: (if x <= 0 then 1 else (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))
1: (if x <= 0 then 1 else (((x2 + 2x) mod (1 + ((x + 1) div 3))) div 2))
1: (if x <= 0 then 1 else (((x2 div 3) mod (x + 1)) div 3))
1: (if x <= 0 then 1 else ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3))
1: (if x <= 0 then 1 else ((loop(\(x,i).(~2x + 6),x,1) mod (x + 1)) div 2))
1: (if x <= 0 then 1 else ((x mod (4 + ((x + ~1) mod 3))) div 3))
1: (if x <= 0 then 1 else ((x mod (1 + ((2 - (x mod 4)) mod (x + 1)))) div 2))
1: (if x <= 0 then 1 else (loop(\(x,i).(1 + (x * i) - (x div 2)),x,0) div 2))
1: (if x <= 0 then 1 else (loop(\(x,i).(3x + 1),(1 + (x div 2)),(1 + (x mod 2))) div 2))
1: (if x <= 0 then 1 else (loop(\(x,i).loop(\(x,i).(x + (loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),i,1) + (x * i))),x,1),x,1) div 2))
1: (if x <= 0 then 1 else (loop(\(x,i).loop(\(x,i).((x + 2) mod (1 + i)),x,0),x,x) div 2))
1: (if x <= 0 then 1 else (x div (5 + ((~1 + (x div 2)) mod 3))))
1: (if x <= 0 then 1 else (x div (4 + (x div 2))))
1: (if x <= 0 then 1 else (x div (4 + (x div (1 + ((x + ~1) mod 5))))))
1: (if x <= 0 then 1 else (x div (4 + (16 mod (1 + (x div 2))))))
1: (if x <= 0 then 1 else (x div (3 + (if (x + ~4) <= 0 then 0 else 2))))
1: (if x <= 0 then 1 else (x div (3 - (x div ~4))))
1: (if x <= 0 then 1 else (x div (1 + (2 * (2 + ((x2 div 2) mod 6))))))
1: (if x <= 0 then 1 else (x div (2 + ((x + 1) div (1 + ((x - ((x div 3) mod 2)) mod 3))))))
1: (if x <= 0 then 1 else (x div (2 + ((x div 2) div 3))))
1: (if x <= 0 then 1 else (x div (2 + (x div (1 + ((x div 2) mod (1 + (x mod 4))))))))
1: (if x <= 0 then 1 else (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))))
1: (if x <= 0 then 1 else (x div (1 + ((~x + 4) mod (2x + 1)))))
1: (if x <= 0 then 1 else (x div (1 + ((x + 2) mod 4))))
1: (if x <= 0 then 1 else (x div (1 + ((x + ~1) mod 5))))
1: (if x <= 0 then 1 else (x div (2 + (x mod 4))))
1: (if x <= 0 then 1 else (x div ~2))
1: (if x <= 0 then 1 else (x div (2 - (x div (1 + ((x div 2) mod 2))))))
1: (if x <= 0 then 1 else (x div (2 - (x div (~1 + ((~x + 2) div 4))))))
1: (if x <= 0 then 1 else (x div (2 - ((x * (x div 2)) mod 2))))
1: (if x <= 0 then 1 else (x div (2 - (i mod 2))))
1: (if x <= 0 then 1 else (x div ~4))
1: (if x <= 0 then 1 else (x div ~5))
1: (if x <= 0 then 1 else (x div (x2 + ~2)))
1: (if x <= 0 then 1 else (x div (~2 + ((1 - (x div 2)) div 3))))
1: (if x <= 0 then 1 else (x div ((2 + (x div 4)) * (1 + (x mod 3)))))
1: (if x <= 0 then 1 else (x div (3 * (2 + ((x + 1) mod (3 + (x mod 2)))))))
1: (if x <= 0 then 1 else (x div (3 * (1 + ((x2 + 2x) mod 7)))))
1: (if x <= 0 then 1 else (x div (3 * (2 + (x mod (2 + (x mod 5)))))))
1: (if x <= 0 then 1 else (x div ~12))
1: (if x <= 0 then 1 else (x div (3 * (8 - (x div 2)))))
1: (if x <= 0 then 1 else ((x2 + 2) mod (1 + (x div 2))))
1: (if x <= 0 then 1 else ((1 + (x mod (2 + (x div (1 + ((x div 2) mod (1 + (x mod 4)))))))) mod (x + 1)))
1: (if x <= 0 then 1 else ((x + 1) mod (1 + (x div (2 + ((1 + (x div 2)) mod 3))))))
1: (if x <= 0 then 1 else ((x + 2) mod (1 + (x div 3))))
1: (if x <= 0 then 1 else ((x + 2) mod (1 + (((1 + (x * (x div 2))) div 3) mod 3))))
1: (if x <= 0 then 1 else ((~1 - (x div 4)) mod (1 + (x div 5))))
1: (if x <= 0 then 1 else (~x mod 4))
1: (if x <= 0 then 1 else ((~x2 + 2) mod (~1 + ((~2x + 2) mod (4 + (x div 4))))))
1: (if x <= 0 then 1 else ((x - ((x2 + ~x) div 8)) mod 2))
1: (if x <= 0 then 1 else (8 mod (if x <= 0 then 1 else x)))
1: (if x <= 0 then 1 else ((5x + 5) mod 9))
1: (if x <= 0 then 1 else ((16x + 8) mod 17))
1: (if x <= 0 then 1 else ((2x * (x div 7)) mod 7))
1: (if x <= 0 then 1 else (((x + 1) * (x div 2)) mod 4))
1: (if x <= 0 then 1 else ((x * (x div 3)) mod (1 + ((2 - (x div 2)) mod 4))))
1: (if x <= 0 then 1 else (2x mod (1 + ((x div 2) mod 5))))
1: (if x <= 0 then 1 else (x2 mod (x + 6)))
1: (if x <= 0 then 1 else (x2 mod (4 + (((x + 1) div 2) div 2))))
1: (if x <= 0 then 1 else (x2 mod ((2x + 1) + (x div 2))))
1: (if x <= 0 then 1 else (x2 mod (1 + (4x * (x mod 2)))))
1: (if x <= 0 then 1 else (x2 mod (2x + 1)))
1: (if x <= 0 then 1 else (x2 mod (1 + ((1 + (x div 2)) div 3))))
1: (if x <= 0 then 1 else (x2 mod (1 + (x div 3))))
1: (if x <= 0 then 1 else (x2 mod (1 + (x div (2 + (x div 4))))))
1: (if x <= 0 then 1 else (x2 mod 6))
1: (if x <= 0 then 1 else (x2 mod (5x + 10)))
1: (if x <= 0 then 1 else (((x2 + ~1) div 5) mod 3))
1: (if x <= 0 then 1 else (((x2 + 2x) div 2) mod (1 + (x div (2 + (x div 4))))))
1: (if x <= 0 then 1 else (((x2 * (x div 2)) div (1 + (x mod 3))) mod 2))
1: (if x <= 0 then 1 else ((x2 div (2 - ((x div 2) * (x div 2)))) mod 2))
1: (if x <= 0 then 1 else ((((x * (~1 + ((~x + 2) div 3))) div 2) div 2) mod 2))
1: (if x <= 0 then 1 else (((2x mod (2 + (x div 2))) div ~2) mod 2))
1: (if x <= 0 then 1 else ((loop(\(x,i).(x2 div 3),2,x) div (x + 1)) mod 3))
1: (if x <= 0 then 1 else ((x div 2) mod (1 + (x mod (3 - (x mod 2))))))
1: (if x <= 0 then 1 else ((x div (1 + (((1 + ((32 mod (x + 1)) div 2)) mod 2) + (x mod 2)))) mod 3))
1: (if x <= 0 then 1 else ((x div (3 + ((x + 1) mod (2 + (x mod 2))))) mod 2))
1: (if x <= 0 then 1 else ((x div (2 + (x div 7))) mod 2))
1: (if x <= 0 then 1 else (((~1 + ((~2x + 2) mod (4 + (x div 4)))) mod (1 + (x div 2))) mod 3))
1: (if x <= 0 then 1 else (((x div 2) mod 5) mod (1 + (x div 4))))
1: (if x <= 0 then 1 else ((x mod 5) mod (1 + (x div 5))))
1: (if x <= 0 then 1 else ((x mod (~3 - (x div 4))) mod 2))
1: (if x <= 0 then 1 else ((x mod ~7) mod 2))
1: (if x <= 0 then 1 else ((x mod 8) mod (if x <= 0 then 1 else x)))
1: (if x <= 0 then 1 else ((if ((x + (x div 2)) mod 4) <= 0 then x else 2) mod 5))
1: (if x <= 0 then 1 else (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))
1: (if x <= 0 then 1 else (loop(\(x,i).~2x,x,6) mod (x + 1)))
1: (if x <= 0 then 1 else (loop(\(x,i).(x2 + ~x),2,4x) mod (x + 1)))
1: (if x <= 0 then 1 else (loop(\(x,i).x5,1,11) mod (x + 1)))
1: (if x <= 0 then 1 else (loop(\(x,i).2x,(x div 2),(x mod 2)) mod (x + 1)))
1: (if x <= 0 then 1 else (loop(\(x,i).2x,x,(if (x mod 7) <= 0 then 2 else 1)) mod (1 + (x div 3))))
1: (if x <= 0 then 1 else (loop(\(x,i).x2,2,23) mod (x + 1)))
1: (if x <= 0 then 1 else (x mod (1 + ((1 + (x div 2)) div 2))))
1: (if x <= 0 then 1 else (x mod (1 + ((1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)) div 3))))
1: (if x <= 0 then 1 else (x mod (1 + (x div 3))))
1: (if x <= 0 then 1 else (x mod (1 + (x div (1 + (2 * (x mod (2 * (1 + (2 * (x mod 2)))))))))))
1: (if x <= 0 then 1 else (x mod (1 + (x mod 7))))
1: (if x <= 0 then 1 else (x mod (1 + (x mod 6))))
1: (if x <= 0 then 1 else (x mod (2 + (if ((x + 1) mod 5) <= 0 then 4 else x))))
1: (if x <= 0 then 1 else (x mod (~3 + ((x * (x div 2)) mod 2))))
1: (if x <= 0 then 1 else (x mod (~2 + (3 * (x div 4)))))
1: (if x <= 0 then 1 else (x mod (~1 + (2 * ((x div 3) mod 3)))))
1: (if x <= 0 then 1 else (x mod (~1 + ((~x + 2) div 4))))
1: (if x <= 0 then 1 else (x mod (~1 + (x div (~2 + (x mod ~2))))))
1: (if x <= 0 then 1 else (x mod ((x + ~1) - (x mod 6))))
1: (if x <= 0 then 1 else (x mod ((x + ~1) - (x mod 12))))
1: (if x <= 0 then 1 else (if (~x + 2) <= 0 then (1 - (2 * ((x mod (1 + (((x + 1) div 2) div 2))) mod 2))) else 0))
1: (if x <= 0 then 1 else (if (~1 + ((x div 3) mod 3)) <= 0 then 3 else (x div 2)))
1: (if x <= 0 then 1 else (if (x + ~1) <= 0 then 4 else 0))
1: (if x <= 0 then 1 else (if (x + ~1) <= 0 then 10 else 0))
1: (if x <= 0 then 1 else (if (x + ~2) <= 0 then 2 else (x + (x div 2))))
1: (if x <= 0 then 1 else (if (x + ~2) <= 0 then x else (x2 + 2x)))
1: (if x <= 0 then 1 else (if (x + ~2) <= 0 then x else loop(\(x,i).(x * (i - (2 * (i * i)))),2x,1)))
1: (if x <= 0 then 1 else (if (x + ~2) <= 0 then x else loop(\(x,i).x3,x,3)))
1: (if x <= 0 then 1 else (if (x + ~3) <= 0 then 2x else 0))
1: (if x <= 0 then 1 else (if (x + ~3) <= 0 then x else 2x))
1: (if x <= 0 then 1 else (if (x - (x2 mod (x + 5))) <= 0 then 2 else 0))
1: (if x <= 0 then 1 else (if ((x mod 3) div 2) <= 0 then x else ((x + 1) div 2)))
1: (if x <= 0 then 1 else (if (x div 3) <= 0 then x else (if (x mod (2 + (x mod 2))) <= 0 then 1 else x)))
1: (if x <= 0 then 1 else (if (x div 4) <= 0 then x else (2x + ~2)))
1: (if x <= 0 then 1 else (if (x div 5) <= 0 then 0 else ~7))
1: (if x <= 0 then 1 else (if (5 mod (x + 1)) <= 0 then 2 else 0))
1: (if x <= 0 then 1 else (if ((x3 + 1) mod 7) <= 0 then 2 else 0))
1: (if x <= 0 then 1 else (if ((x + 1) mod 9) <= 0 then (x + 1) else 0))
1: (if x <= 0 then 1 else (if ((x + 1) mod (1 + (2 * ((~x + 1) mod 3)))) <= 0 then 2 else 0))
1: (if x <= 0 then 1 else (if ((x + 1) mod (1 + (2 * ((~x + 1) mod 5)))) <= 0 then 2 else 0))
1: (if x <= 0 then 1 else (if ((x + 1) mod (1 + (2 * ((~x + 2) mod 3)))) <= 0 then 2 else 0))
1: (if x <= 0 then 1 else (if ((x + 1) mod (1 + (2 * (x mod 5)))) <= 0 then 2 else 0))
1: (if x <= 0 then 1 else (if ((x + 1) mod (1 + (~2x mod 5))) <= 0 then 2 else 0))
1: (if x <= 0 then 1 else (if ((x + 1) mod (2 + (((x + ~1) div 2) mod 2))) <= 0 then 0 else 2))
1: (if x <= 0 then 1 else (if ((x + 1) mod (2 + ((((~x + 2) div 2) mod (x + 1)) mod 2))) <= 0 then 2 else 0))
1: (if x <= 0 then 1 else (if ((x + 1) mod (2 + (x mod (4 + (x div 2))))) <= 0 then 2 else 0))
1: (if x <= 0 then 1 else (if ((x + 2) mod 6) <= 0 then (x div 4) else 0))
1: (if x <= 0 then 1 else (if ((~4 + (x div 2)) mod (x + 1)) <= 0 then 2 else 0))
1: (if x <= 0 then 1 else (if ((x + ~1) mod (1 + (x mod 7))) <= 0 then 2 else 0))
1: (if x <= 0 then 1 else (if ((x + ~2) mod (1 + ((~x + 2) mod 4))) <= 0 then 2 else 0))
1: (if x <= 0 then 1 else (if ((x + ~2) mod (2 + (((x + ~1) div 2) mod 2))) <= 0 then 2 else 0))
1: (if x <= 0 then 1 else (if ((x + ~2) mod (2 + (x mod 2))) <= 0 then 0 else 2))
1: (if x <= 0 then 1 else (if ((x - ((((3 * (x div 4)) div 2) - ((x + ~1) div 2)) div 2)) mod 2) <= 0 then x else 0))
1: (if x <= 0 then 1 else (if (10 mod (x + 1)) <= 0 then 2 else 0))
1: (if x <= 0 then 1 else (if (10 mod (x + 1)) <= 0 then (x div 2) else 0))
1: (if x <= 0 then 1 else (if ((x2 + 2x) mod 6) <= 0 then (x + ~2) else 0))
1: (if x <= 0 then 1 else (if (16 mod (x + 1)) <= 0 then 2 else 0))
1: (if x <= 0 then 1 else (if (16 mod (x + 1)) <= 0 then 3 else 0))
1: (if x <= 0 then 1 else (if (16 mod (x + 1)) <= 0 then 8 else 1))
1: (if x <= 0 then 1 else (if (4x mod (x + 3)) <= 0 then 2 else 0))
1: (if x <= 0 then 1 else (if (x3 mod (2x + 3)) <= 0 then 2 else 0))
1: (if x <= 0 then 1 else (if ((x * ((x + 1) div 2)) mod 6) <= 0 then 2 else 0))
1: (if x <= 0 then 1 else (if (2x mod (4 + (x div 4))) <= 0 then (2 - (x div ~2)) else 0))
1: (if x <= 0 then 1 else (if (2x mod (4 + (x div 4))) <= 0 then ((x + 2) div 3) else 0))
1: (if x <= 0 then 1 else (if (((x + 2) div 3) mod 4) <= 0 then (x + 2) else 1))
1: (if x <= 0 then 1 else (if ((x div 2) mod 2) <= 0 then (x mod 5) else 0))
1: (if x <= 0 then 1 else (if (x mod 2) <= 0 then (~1 + (2 * (x mod 2))) else x))
1: (if x <= 0 then 1 else (if (x mod 2) <= 0 then x2 else loop(\(x,i).x3,x,x)))
1: (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else 19))
1: (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else (1 + ((if ((x + ~1) mod 3) <= 0 then 1 else x) * (x mod 2)))))
1: (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else (1 + (9 * loop(\(x,i).(x div (1 + (x mod 2))),x,x)))))
1: (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else (2 + (if (~x + 2) <= 0 then x else 0))))
1: (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else ((x + ~1) + loop(\(x,i).x2,2,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))))
1: (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else (x + ~2)))
1: (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else (if (~x + 2) <= 0 then (2 + (x div 2)) else 1)))
1: (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else loop(\(x,i).i,((~1 + (x div 2)) div 2),1)))
1: (if x <= 0 then 1 else (if (x mod 2) <= 0 then (if x <= 0 then 2 else ~1) else (1 + (x div 2))))
1: (if x <= 0 then 1 else (if (x mod 2) <= 0 then x else loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),x,x)))
1: (if x <= 0 then 1 else (if (x mod 3) <= 0 then (x div 3) else 0))
1: (if x <= 0 then 1 else (if (x mod 3) <= 0 then ((x2 + 2) mod 5) else 3))
1: (if x <= 0 then 1 else (if (x mod 4) <= 0 then 4 else 0))
1: (if x <= 0 then 1 else (if (x mod 4) <= 0 then 2x else 0))
1: (if x <= 0 then 1 else (if (x mod 4) <= 0 then (x div 2) else x))
1: (if x <= 0 then 1 else (if (x mod 4) <= 0 then (x div (1 + ((x div 2) mod 3))) else 0))
1: (if x <= 0 then 1 else (if (x mod 4) <= 0 then (2x mod 5) else 1))
1: (if x <= 0 then 1 else (if (x mod 5) <= 0 then 0 else (1 - (2 * ((x div 5) mod 2)))))
1: (if x <= 0 then 1 else (if (x mod (4 + (x div 2))) <= 0 then 8 else 0))
1: (if x <= 0 then 1 else (if (x mod 9) <= 0 then 4 else 0))
1: (if x <= 0 then 1 else (if (x mod 9) <= 0 then (4x + 2) else 0))
1: (if x <= 0 then 1 else (if (x mod 9) <= 0 then (2x + 2) else 0))
1: (if x <= 0 then 1 else (if (x mod 13) <= 0 then 2 else 0))
1: (if x <= 0 then 1 else (if (x mod 13) <= 0 then (2x + 2) else 0))
1: (if x <= 0 then 1 else (if (x mod (1 + (2 * (3 - ((x div 3) mod 2))))) <= 0 then 2 else 0))
1: (if x <= 0 then 1 else (if (x mod (1 + (2 * (2x mod 3)))) <= 0 then (x div 3) else 1))
1: (if x <= 0 then 1 else (if (x mod (1 + (2 * i))) <= 0 then x else 0))
1: (if x <= 0 then 1 else (if (x mod (1 + ((1 + (x div 2)) div (1 + (x mod 2))))) <= 0 then 2 else 0))
1: (if x <= 0 then 1 else (if (x mod (1 + ((x + 1) div 5))) <= 0 then 2 else 0))
1: (if x <= 0 then 1 else (if (x mod (2 + (13 mod (x + 1)))) <= 0 then 2 else 0))
1: (if x <= 0 then 1 else (if (x mod (1 + ((x + ~1) mod 9))) <= 0 then 2 else 0))
1: (if x <= 0 then 1 else (if (x mod (2 + ((x2 div 2) mod (x + 2)))) <= 0 then 2 else 0))
1: (if x <= 0 then 1 else (if (x mod (2 + (x mod 2))) <= 0 then (x div (1 + (if (x mod 3) <= 0 then 2 else 0))) else ((x + 1) div 2)))
1: (if x <= 0 then 1 else (if (x mod (2 + (x mod (2 * (2 + (x mod 2)))))) <= 0 then 2 else 0))
1: (if x <= 0 then 1 else (if (x mod 11) <= 0 then (4x + 2) else 0))
1: (if x <= 0 then 1 else (if (x mod 11) <= 0 then (2x + 2) else 0))
1: (if x <= 0 then 1 else (if (x mod 6) <= 0 then (x div 3) else x))
1: (if x <= 0 then 1 else (if (x mod 8) <= 0 then (x + ~2) else 2))
1: (if x <= 0 then 1 else (if (x mod 12) <= 0 then (x div 2) else 0))
1: (if x <= 0 then 1 else (if (x mod 10) <= 0 then 3 else 0))
1: (if x <= 0 then 1 else (if (x mod 10) <= 0 then (4x + 2) else 0))
1: (if x <= 0 then 1 else (if (x mod (3 * (1 + (x div 5)))) <= 0 then 2 else 0))
1: (if x <= 0 then 1 else (if (x mod (3 * (2 + (x mod 2)))) <= 0 then 2 else 1))
1: (if x <= 0 then 1 else (if (i mod 2) <= 0 then 1 else 2x))
1: (if x <= 0 then 1 else loop(\(x,i).(2x + (if (~2 + i) <= 0 then 1 else 3x)),x,2))
1: (if x <= 0 then 1 else loop(\(x,i).(x + (2 * (1 + (if (x + ~4) <= 0 then 0 else 2)))),2,x))
1: (if x <= 0 then 1 else loop(\(x,i).(1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)),(if x <= 0 then 0 else 1),(x + ~1)))
1: (if x <= 0 then 1 else loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then 1 else 0)),x,(x + 2)))
1: (if x <= 0 then 1 else loop(\(x,i).(x + loop(\(x,i).(1 + (x * i)),i,1)),(x + ~1),0))
1: (if x <= 0 then 1 else loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),x,0))
1: (if x <= 0 then 1 else loop(\(x,i).(x + loop(\(x,i).(x * (2 + i)),(1 + i),2)),x,0))
1: (if x <= 0 then 1 else loop(\(x,i).(x + loop(\(x,i).(x * (2 + i)),i,2)),x,0))
1: (if x <= 0 then 1 else loop(\(x,i).(x + loop(\(x,i).(2 * (2x - (x div (1 + i)))),i,2)),x,2))
1: (if x <= 0 then 1 else loop(\(x,i).(loop(\(x,i).(x * i),i,x) + i),(x + ~2),x))
1: (if x <= 0 then 1 else loop(\(x,i).(~x - (x div (4 + i))),2,x))
1: (if x <= 0 then 1 else loop(\(x,i).(2 - ((if x <= 0 then 1 else x) mod 2)),(x mod 2),(x div 2)))
1: (if x <= 0 then 1 else loop(\(x,i).(1 + (x * i) - (2 * (i mod 2))),x,4))
1: (if x <= 0 then 1 else loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,x))
1: (if x <= 0 then 1 else loop(\(x,i).(~1 + (if x <= 0 then ((1 + ((1 + i) * i)) * i) else x)),x,0))
1: (if x <= 0 then 1 else loop(\(x,i).(x - ((if x <= 0 then 1 else (2 * (2 + ((x + ~1) div 13)))) div 2)),1,(x + ~1)))
1: (if x <= 0 then 1 else loop(\(x,i).(x - (x div (1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))),2,x))
1: (if x <= 0 then 1 else loop(\(x,i).(x - (x div ~12)),2,x))
1: (if x <= 0 then 1 else loop(\(x,i).(x - (if ((~x + 2) + i) <= 0 then i else 1)),x,x))
1: (if x <= 0 then 1 else loop(\(x,i).(x - (if (x mod 2) <= 0 then ((if x <= 0 then 2 else x) div 2) else 1)),x,x))
1: (if x <= 0 then 1 else loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,2x))
1: (if x <= 0 then 1 else loop(\(x,i).(x - (if x <= 0 then 1 else (~1 + ((2x + 1) mod (2 - ((~x + 2) div 5)))))),x,x))
1: (if x <= 0 then 1 else loop(\(x,i).(x - (if x <= 0 then 1 else (x - (if x <= 0 then 1 else ((2x * (~1 + (2 * i))) div (2 + i)))))),1,x))
1: (if x <= 0 then 1 else loop(\(x,i).(x - (if x <= 0 then 1 else (x - loop(\(x,i).(if x <= 0 then 1 else loop(\(x,i).(x - (if x <= 0 then 1 else (x - (if x <= 0 then 1 else ((2x * (~1 + (2 * i))) div (2 + i)))))),1,x)),2,x)))),x,x))
1: (if x <= 0 then 1 else loop(\(x,i).(x - (if x <= 0 then 1 else (2 * i))),x,x))
1: (if x <= 0 then 1 else loop(\(x,i).(x - (if x <= 0 then 1 else (x2 mod (1 + (4x * (x mod 2)))))),x,x))
1: (if x <= 0 then 1 else loop(\(x,i).(2 * (2x + (x div 2))),x,5))
1: (if x <= 0 then 1 else loop(\(x,i).(2 * (x + (x div 2))),x,3))
1: (if x <= 0 then 1 else loop(\(x,i).(2 * (2x + (x div (if i <= 0 then 1 else i)))),(2x + ~1),2))
1: (if x <= 0 then 1 else loop(\(x,i).(x * (2 + i)),(x + 1),2))
1: (if x <= 0 then 1 else loop(\(x,i).(x * (~2 + (3 * i))),(x + ~1),4))
1: (if x <= 0 then 1 else loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,3))
1: (if x <= 0 then 1 else loop(\(x,i).(x2 + ~x),1,(2 - (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1))))
1: (if x <= 0 then 1 else loop(\(x,i).(x2 + ~x),(x + ~1),4))
1: (if x <= 0 then 1 else loop(\(x,i).(x2 + ~2x),1,loop(\(x,i).2x,x,2)))
1: (if x <= 0 then 1 else loop(\(x,i).((x + ~2) * (x - i)),2,2x))
1: (if x <= 0 then 1 else loop(\(x,i).(10x + 10),x,0))
1: (if x <= 0 then 1 else loop(\(x,i).8x,(x + ~1),3))
1: (if x <= 0 then 1 else loop(\(x,i).x6,1,(11x + 5)))
1: (if x <= 0 then 1 else loop(\(x,i).x3,1,((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)))
1: (if x <= 0 then 1 else loop(\(x,i).x3,1,loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),i,1)))
1: (if x <= 0 then 1 else loop(\(x,i).x3,(x + ~1),4))
1: (if x <= 0 then 1 else loop(\(x,i).x3,x,2x))
1: (if x <= 0 then 1 else loop(\(x,i).(2 * (i * i * i)),(x + ~2),x))
1: (if x <= 0 then 1 else loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(x + ~1),5))
1: (if x <= 0 then 1 else loop(\(x,i).2x,(1 + ((1 + (8 mod (1 + (x div 2)))) div 2) - (x mod 2)),2))
1: (if x <= 0 then 1 else loop(\(x,i).2x,(x + (if x <= 0 then 1 else loop(\(x,i).(x - (if (x mod 2) <= 0 then ((if x <= 0 then 2 else x) div 2) else 1)),x,x))),2))
1: (if x <= 0 then 1 else loop(\(x,i).2x,(x + 2),x))
1: (if x <= 0 then 1 else loop(\(x,i).2x,(x + ~1),(4 + (x mod 2))))
1: (if x <= 0 then 1 else loop(\(x,i).2x,((1 + (x div 2)) div 3),2))
1: (if x <= 0 then 1 else loop(\(x,i).2x,(2x div 3),2))
1: (if x <= 0 then 1 else loop(\(x,i).2x,(x div 2),loop(\(x,i).x3,x,2)))
1: (if x <= 0 then 1 else loop(\(x,i).x2,1,((x * i) div 3)))
1: (if x <= 0 then 1 else loop(\(x,i).x2,1,loop(\(x,i).(~2x + 3),x,0)))
1: (if x <= 0 then 1 else loop(\(x,i).x2,1,loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),(x + ~1),2)))
1: (if x <= 0 then 1 else loop(\(x,i).x2,(x + ~1),6))
1: (if x <= 0 then 1 else loop(\(x,i).(x * i),(x + ~2),(x2 + ~1)))
1: (if x <= 0 then 1 else loop(\(x,i).(x * i),(2x + ~2),x))
1: (if x <= 0 then 1 else loop(\(x,i).(x * i),i,x))
1: (if x <= 0 then 1 else loop(\(x,i).((x * (1 + loop(\(x,i).(x * i),x,1) - (x mod 2))) div 2),1,(x + ~1)))
1: (if x <= 0 then 1 else loop(\(x,i).((x * (x + i)) div 2),x,x))
1: (if x <= 0 then 1 else loop(\(x,i).((x2 + ~x) div 2),3,x))
1: (if x <= 0 then 1 else loop(\(x,i).((2x * (1 + (2 * i))) div (1 + i)),(x + ~1),7))
1: (if x <= 0 then 1 else loop(\(x,i).((2x * (~1 + (2 * i))) div 3),(x + ~2),x))
1: (if x <= 0 then 1 else loop(\(x,i).((4x * (~1 + (2 * i))) div (1 + i)),(x + ~1),2))
1: (if x <= 0 then 1 else loop(\(x,i).((if x <= 0 then 2 else loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 2),x,x))
1: (if x <= 0 then 1 else loop(\(x,i).((if x <= 0 then 2 else loop(\(x,i).(x div (2 - (x mod 2))),x,x)) div 2),2,x))
1: (if x <= 0 then 1 else loop(\(x,i).(loop(\(x,i).2x,x,(if (x mod 4) <= 0 then x else (x div 2))) div 2),1,(x + ~1)))
1: (if x <= 0 then 1 else loop(\(x,i).(x div (2 - (x mod 2))),x,x))
1: (if x <= 0 then 1 else loop(\(x,i).((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),(x div 3),x))
1: (if x <= 0 then 1 else loop(\(x,i).(x5 mod 9),x,x))
1: (if x <= 0 then 1 else loop(\(x,i).(x mod 2),(x mod 2),(x div 2)))
1: (if x <= 0 then 1 else loop(\(x,i).(if (x * i) <= 0 then 1 else (x + ~1)),i,x))
1: (if x <= 0 then 1 else loop(\(x,i).(if ((x + 1) mod 8) <= 0 then x else (x div 2)),x,x))
1: (if x <= 0 then 1 else loop(\(x,i).(if (x mod 2) <= 0 then 2 else loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),x,x)),2,x))
1: (if x <= 0 then 1 else loop(\(x,i).(if (x mod 2) <= 0 then x else (2 + (x mod 2))),(x mod 2),(x div 2)))
1: (if x <= 0 then 1 else loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x + ~2),x))
1: (if x <= 0 then 1 else loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),(x div 2),(2x + ~1)))
1: (if x <= 0 then 1 else loop(\(x,i).(if (i mod 2) <= 0 then 1 else 2x),(x + ~2),x))
1: (if x <= 0 then 1 else loop(\(x,i).(if x <= 0 then 0 else (1 + (5 * ((x2 + ~x) div 2)))),1,(x + ~1)))
1: (if x <= 0 then 1 else loop(\(x,i).loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then 2 else 0)),x,(x + 2)),(x + 4),1))
1: (if x <= 0 then 1 else loop(\(x,i).loop(\(x,i).(x * (1 + (2 * (1 + i)))),(x + ~2),x),1,(x + ~1)))
1: (if x <= 0 then 1 else loop(\(x,i).loop(\(x,i).2x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),2),1,(x + ~1)))
1: (if x <= 0 then 1 else loop(\(x,i).loop(\(x,i).x2,1,(2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))),1,(x + 2)))
1: (if x <= 0 then 1 else compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),(x + 2)))
1: (if x <= 0 then 1 else compr(\x.(~1 + ((1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,x)) mod 3)),x))
1: (if x <= 0 then 1 else compr(\x.(~2 + ((x mod 2) + (x mod (4 + (x mod (2 + (x mod 2))))))),(x + 2)))
1: (if x <= 0 then 1 else compr(\x.((1 + (x mod (4 - (x mod 2)))) div 2),2x))
1: (if x <= 0 then 1 else compr(\x.((x * ((x div 2) div 3)) mod 2),x))
1: (if x <= 0 then 1 else compr(\x.((x * (x mod 3)) mod 5),x))
1: (if x <= 0 then 1 else compr(\x.((x mod (1 + (x mod (1 + (2 * (2 + (x mod 2))))))) mod 2),x))
1: (if x <= 0 then 1 else compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x))
1: (if x <= 0 then 1 else compr(\x.(loop(\(x,i).(~2x + 2),x,0) mod (x + 1)),x))
1: (if x <= 0 then 1 else compr(\x.(x mod (1 + (6 * (x mod 2)))),x))
1: (if x <= 0 then 1 else compr(\x.(x mod (1 + (2 * (x mod loop(\(x,i).(1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),2,x))))),x))
1: (if x <= 0 then 1 else compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),x),2x))
1: (if x <= 0 then 2 else (x + 7))
1: (if x <= 0 then 2 else ((x + 1) + ((2 + i) * i)))
1: (if x <= 0 then 2 else ((x + 2) + (2 * (2 - (x mod 2)))))
1: (if x <= 0 then 2 else ((x + 2) + (2 * (if (x + ~4) <= 0 then 1 else 4))))
1: (if x <= 0 then 2 else ((x + 1) + ((x + (((x + ~1) mod (1 + (x div 4))) div 2)) div 2)))
1: (if x <= 0 then 2 else (1 + (x div 2) - ((x mod 3) mod 2)))
1: (if x <= 0 then 2 else (1 + (2 * (4 + loop(\(x,i).loop(\(x,i).(2x + 1),x,2),(x + ~1),1)))))
1: (if x <= 0 then 2 else (1 + (2 * (x + loop(\(x,i).loop(\(x,i).x2,x,2),x,0)))))
1: (if x <= 0 then 2 else (x2 + 2x + 1))
1: (if x <= 0 then 2 else (4 + (x * (x - ((~x + 2) div 2)))))
1: (if x <= 0 then 2 else (1 + (6 * (x + loop(\(x,i).(x * (2 + i)),(x + ~2),1)))))
1: (if x <= 0 then 2 else (1 + (x2 * (2 + loop(\(x,i).x2,x,3)))))
1: (if x <= 0 then 2 else ((10x + ~10) + ((x + 1) div 3)))
1: (if x <= 0 then 2 else (2x4 + 1))
1: (if x <= 0 then 2 else (1 + (2x * (if ((1 + loop(\(x,i).x2,x,loop(\(x,i).(x * i),x,1))) div 3) <= 0 then 1 else 2x))))
1: (if x <= 0 then 2 else (1 + (2 * ((x + 1) div (~x + 17)))))
1: (if x <= 0 then 2 else (1 + (2 * ((x - (((3 * (x div 2)) div 2) div 2)) mod 2))))
1: (if x <= 0 then 2 else (1 + (2 * (x mod 2))))
1: (if x <= 0 then 2 else (1 + (x * loop(\(x,i).(x2 + 4x + 6),2,3))))
1: (if x <= 0 then 2 else (1 + (19 * loop(\(x,i).10x,x,1))))
1: (if x <= 0 then 2 else (1 + (2 * compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(3x + 1))),x))))
1: (if x <= 0 then 2 else (1 + (2 * compr(\x.(x - loop(\(x,i).loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),x,(2x + 1)),2,x)),x))))
1: (if x <= 0 then 2 else (x + ((x + (x2 div 3)) div 4)))
1: (if x <= 0 then 2 else (1 + ((x + (x2 div 5)) div 2)))
1: (if x <= 0 then 2 else (1 + ((1 + (x div (2 + (x mod 2)))) div 2)))
1: (if x <= 0 then 2 else (1 + ((1 + (loop(\(x,i).4x,x,1) mod (2x + 1))) div 3)))
1: (if x <= 0 then 2 else (1 + ((1 + (if (x + ~2) <= 0 then x else (if ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) <= 0 then (2 * (1 + (x div 5))) else 1))) div 3)))
1: (if x <= 0 then 2 else (1 + ((x + loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),(x + ~2),1)) div 3)))
1: (if x <= 0 then 2 else (6x + ((~x2 + 1) div (x + 4))))
1: (if x <= 0 then 2 else (1 + (((x + 1) - (((x + ~1) * ((~x + 1) div 3)) div 2)) div 3)))
1: (if x <= 0 then 2 else (1 + ((x - (((1 + (~x mod 4)) * (1 + (x div 2))) div 2)) div 2)))
1: (if x <= 0 then 2 else (1 + ((x - (4 mod (1 + (x div 4)))) div 2)))
1: (if x <= 0 then 2 else (1 + ((x - ((x * (x div 2)) mod 8)) div 3)))
1: (if x <= 0 then 2 else (1 + ((2x2 + 8) div (x + 3))))
1: (if x <= 0 then 2 else (1 + ((2 * (1 + ((1 + ((2 + ((3 * (2 + (x mod 4))) mod (x + 1))) div 3)) div 2))) div 3)))
1: (if x <= 0 then 2 else (1 + ((2 * (1 + ((1 + ((loop(\(x,i).(x div (2 - (x mod 2))),x,(1 + ((x2 + x) div 2))) div 2) div 3)) div 2))) div 3)))
1: (if x <= 0 then 2 else (1 + ((2 * (1 + ((1 + (x div (1 + ((~1 + ((1 + (x div (2 - (x mod 2)))) mod 3)) mod (x + 1))))) div 2))) div 3)))
1: (if x <= 0 then 2 else (1 + ((2 * (1 + ((1 + (x div (1 + ((~1 + loop(\(x,i).(if x <= 0 then i else (x div 2)),x,2)) mod (x + 1))))) div 2))) div 3)))
1: (if x <= 0 then 2 else (1 + ((2 * (1 + ((2 * (2 + loop(\(x,i).(x * i),x,1))) div 3))) div 3)))
1: (if x <= 0 then 2 else (2 + ((2 * ((2x + 2) + ((x div 4) mod 2))) div 3)))
1: (if x <= 0 then 2 else (1 + ((2 * (1 + (x mod (1 + (x mod (1 + (x div (2 + ((x div 2) mod 3))))))))) div 3)))
1: (if x <= 0 then 2 else (4x + ((x2 + x) div 2)))
1: (if x <= 0 then 2 else (x + ((i * i * (1 + i)) div 2)))
1: (if x <= 0 then 2 else (1 + ((2 * ((2 + ((if ((x + ~1) mod 3) <= 0 then 1 else x) + (x mod 2))) div 3)) div 3)))
1: (if x <= 0 then 2 else (1 + ((3 * ((4 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2)) div 3)) div 2)))
1: (if x <= 0 then 2 else (1 + ((2 * (if x <= 0 then 1 else (2 * (x mod (~1 + (2 * (x div 4))))))) div 3)))
1: (if x <= 0 then 2 else (1 + (((1 + ((loop(\(x,i).(x * (if (x mod 2) <= 0 then 1 else x)),1,(x + ~2)) div 2) div 2)) div 2) div 2)))
1: (if x <= 0 then 2 else (1 + ((((x + 1) - ((x + 1) div (1 + (10 mod (x + 1))))) div 2) div 2)))
1: (if x <= 0 then 2 else (1 + (((x2 + ~x) div 3) div 7)))
1: (if x <= 0 then 2 else (x + (((x3 + ~3x2 + 2x) div 2) div 5)))
1: (if x <= 0 then 2 else (1 + ((((2 - ((if (x mod 4) <= 0 then 0 else 2) + (x div 4))) mod (x + 1)) div 2) div 2)))
1: (if x <= 0 then 2 else (1 + ((((3 * ((x + ~1) mod 4)) mod (x + 1)) div 2) div 2)))
1: (if x <= 0 then 2 else (1 + (((x2 mod (3x + 2)) div 2) div 2)))
1: (if x <= 0 then 2 else (1 + ((((x2 div 2) mod (x + 3)) div 2) div 2)))
1: (if x <= 0 then 2 else (1 + ((loop(\(x,i).(x * i),(x2 + 2x + 1),1) div 2) div 2)))
1: (if x <= 0 then 2 else (1 + ((x div 2) div (4 - (((x + ~1) div 2) div 2)))))
1: (if x <= 0 then 2 else (1 + ((((x + 1) + (2 * (x mod ((x + ~1) - (x mod 12))))) mod (1 + (x div 2))) div 2)))
1: (if x <= 0 then 2 else (1 + (((1 - (2x div 3)) mod (1 + (x div 2))) div 2)))
1: (if x <= 0 then 2 else (1 + (((2 * (1 + (2 * (1 + (x mod 2))))) mod (1 + (x div 2))) div 2)))
1: (if x <= 0 then 2 else (1 + ((x mod (1 + (2 * (1 + (2 * (x mod 2)))))) div 3)))
1: (if x <= 0 then 2 else (1 + ((x mod (2 + (x div (2 + ((x + ~1) mod 5))))) div 2)))
1: (if x <= 0 then 2 else (1 + ((x mod (1 + (x div (1 + (if (x mod 2) <= 0 then ((x div 2) mod 2) else 3))))) div 2)))
1: (if x <= 0 then 2 else (1 + (loop(\(x,i).(4x + 1),(x + ~2),x) div (x + 1))))
1: (if x <= 0 then 2 else (1 + (loop(\(x,i).(1 + ((1 + ((x2 + (x div 2)) div 3)) div 3)),2,x) div 3)))
1: (if x <= 0 then 2 else (x + (loop(\(x,i).(x2 + ~2x),3,x) div (x + 1))))
1: (if x <= 0 then 2 else (1 + (x div (1 + (2 * (2 + (x mod 3)))))))
1: (if x <= 0 then 2 else (1 + (x div (1 + (3 * ((if (x mod 3) <= 0 then 2 else 1) + (x mod 2)))))))
1: (if x <= 0 then 2 else (1 + (x div (2 + (((~x + ((x + 1) * (x div 2))) div 4) mod 2)))))
1: (if x <= 0 then 2 else (1 + (x div (2 - ((x div 4) div ~2)))))
1: (if x <= 0 then 2 else (1 + (x div ((x + 1) - (x mod (2 + (x mod 3)))))))
1: (if x <= 0 then 2 else (1 + (x div (2 * (2 + (~x2 mod 5))))))
1: (if x <= 0 then 2 else (1 + ((1 + ((x + 1) div 2)) mod ((1 + ((x mod 3) div 2)) * (1 + (x mod 2))))))
1: (if x <= 0 then 2 else (1 + ((1 + (x mod (~1 + (5 * (~x mod 4))))) mod (x + 1))))
1: (if x <= 0 then 2 else (1 + ((x + loop(\(x,i).((x + ~1) + (2x mod (2 - (x mod ~4)))),2,x)) mod 3)))
1: (if x <= 0 then 2 else (1 + ((x + 1) mod (1 + ((1 + (x mod (1 + (2 * (x div (1 + (2 * (x mod (2 + (x mod (2 + (x mod 2)))))))))))) mod (x + 1))))))
1: (if x <= 0 then 2 else (1 + ((x + 1) mod (1 + ((1 + (x mod (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))) mod (x + 1))))))
1: (if x <= 0 then 2 else (4x + ((x + 1) mod (2 + (x mod 2)))))
1: (if x <= 0 then 2 else (1 + ((1 - ((x + 1) mod (5 * (1 + (x mod 5))))) mod (x + 1))))
1: (if x <= 0 then 2 else (1 + ((x - (2 * ((4 * (x div 3)) div 3))) mod (1 + (x div 3)))))
1: (if x <= 0 then 2 else (1 + ((x - (x div (1 + ((1 + (x div 2)) div 2)))) mod 2)))
1: (if x <= 0 then 2 else (1 + ((6x + 3) mod (1 + (x div 2)))))
1: (if x <= 0 then 2 else (1 + ((2 * (1 + loop(\(x,i).(if x <= 0 then i else (x div 2)),x,0))) mod (x + 1))))
1: (if x <= 0 then 2 else (1 + (~2x mod (2 + (x div 2)))))
1: (if x <= 0 then 2 else (1 + ((~x2 + 2x + ~1) mod (1 + (x div 2)))))
1: (if x <= 0 then 2 else (1 + ((2 * ((x div 2) - (x mod 2))) mod (1 + (x div 2)))))
1: (if x <= 0 then 2 else (1 + (2x mod (if (~x + 2) <= 0 then (x div (2 + (x mod 2))) else 1))))
1: (if x <= 0 then 2 else (((x div 3) mod 2) + (x div 4)))
1: (if x <= 0 then 2 else (x + ((x div (2 + ((x div 2) div 3))) mod 2)))
1: (if x <= 0 then 2 else (1 + (((x + (x2 div 3)) mod 3) mod 2)))
1: (if x <= 0 then 2 else ((((x div 2) mod 3) mod 2) + (x div 2)))
1: (if x <= 0 then 2 else (x + ((loop(\(x,i).(x * i),x,x) mod (x + 1)) mod 2)))
1: (if x <= 0 then 2 else (1 + (loop(\(x,i).(2x + ~1),x,0) mod (1 + (x div 2)))))
1: (if x <= 0 then 2 else (1 + (loop(\(x,i).2x,(2x + ~1),1) mod (1 + (x div 3)))))
1: (if x <= 0 then 2 else (1 + (loop(\(x,i).((x2 + 3x + 2) div 2),2,x) mod (x + 1))))
1: (if x <= 0 then 2 else (x + (x mod 2)))
1: (if x <= 0 then 2 else (1 + (x mod (1 + (2 * (x div (3 - (x mod 2))))))))
1: (if x <= 0 then 2 else (1 + (x mod (1 + ((x div 2) div (1 + (x mod (1 + (x div (2 + (x div 5)))))))))))
1: (if x <= 0 then 2 else (1 + (x mod (2 + ((~x2 mod (2 + (x div 2))) div 2)))))
1: (if x <= 0 then 2 else (1 + (x mod (1 + (x div (3 + (x mod (2 + ((x div 2) mod 2)))))))))
1: (if x <= 0 then 2 else (1 + (x mod (1 + (x div (2 + (if (x mod 4) <= 0 then 1 else 2)))))))
1: (if x <= 0 then 2 else (1 + (x mod (1 + ((2 + (x div 3)) mod 6)))))
1: (if x <= 0 then 2 else (1 + (x mod (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))
1: (if x <= 0 then 2 else (1 + (x mod 8)))
1: (if x <= 0 then 2 else (x + (x mod (2 * (1 + (x mod 2))))))
1: (if x <= 0 then 2 else (x + (if (~2 + (x div 5)) <= 0 then 1 else 4)))
1: (if x <= 0 then 2 else (1 + (if ((x - ((x div 5) mod 2)) mod 3) <= 0 then 2 else 1)))
1: (if x <= 0 then 2 else (1 + (if (2x mod (4 + (x div 4))) <= 0 then ((x + 2) div 3) else 0)))
1: (if x <= 0 then 2 else ((if ((x div 2) mod 3) <= 0 then 1 else 2) + ((x + 2) div 3)))
1: (if x <= 0 then 2 else (1 + (if (x mod 2) <= 0 then 6 else x)))
1: (if x <= 0 then 2 else (x + (if x <= 0 then 1 else (loop(\(x,i).(x * i),(x + ~2),x) * (1 + (x mod 2))))))
1: (if x <= 0 then 2 else (x + loop(\(x,i).(6 + (x div 2)),x,1)))
1: (if x <= 0 then 2 else (1 + loop(\(x,i).(x + (x div 9)),x,9)))
1: (if x <= 0 then 2 else (1 + loop(\(x,i).(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) - (i div 3)),2,x)))
1: (if x <= 0 then 2 else (1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x)))
1: (if x <= 0 then 2 else (x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (1 + (x mod 2))))),x,(x + 1))))
1: (if x <= 0 then 2 else (x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - ((x div 2) mod 2))))),x,(x + 1))))
1: (if x <= 0 then 2 else (x + loop(\(x,i).(x - (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else (1 + (if (~x + 2) <= 0 then x else 0))))),x,(x + 1))))
1: (if x <= 0 then 2 else (1 + loop(\(x,i).3x,(2 * i),1)))
1: (if x <= 0 then 2 else (1 + loop(\(x,i).(x * (x + i)),2,3)))
1: (if x <= 0 then 2 else (1 + compr(\x.(loop(\(x,i).x2,2,(~1 + (loop(\(x,i).2x,x,1) mod (x + 1)))) mod (x + 1)),x)))
1: (if x <= 0 then 2 else (1 - ((4 * (x div 3)) div 3)))
1: (if x <= 0 then 2 else (1 - ((((~x + 2) div 4) * (x div 2)) div 3)))
1: (if x <= 0 then 2 else (1 - ((((x2 + ~x) div 3) mod 3) div 2)))
1: (if x <= 0 then 2 else (1 - ((2x + 1) mod (~1 + loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)))))
1: (if x <= 0 then 2 else (1 - ((x + 1) mod (1 + (2 * ((x div 2) div 3))))))
1: (if x <= 0 then 2 else (1 - (x mod (~1 + (2 * ((~x + 1) div 7))))))
1: (if x <= 0 then 2 else (1 - loop(\(x,i).((x + ~2) + (x div (if i <= 0 then 1 else i))),x,0)))
1: (if x <= 0 then 2 else (2 - ((x + 1) mod (1 + (2 * (if ((x + ~1) mod 4) <= 0 then 2 else 1))))))
1: (if x <= 0 then 2 else (2 - ((~x2 + 4x + ~4) mod 5)))
1: (if x <= 0 then 2 else (2 - (if x <= 0 then 2 else (1 + (if ((x - ((x div 5) mod 2)) mod 3) <= 0 then 2 else 1)))))
1: (if x <= 0 then 2 else (2 - loop(\(x,i).((~x2 + ~1) + ((x + ~1) div 2)),x,2)))
1: (if x <= 0 then 2 else ((x + ~1) + (4 * (x mod 2))))
1: (if x <= 0 then 2 else ((x + ~1) + (5 * (if (x + ~4) <= 0 then 1 else 2))))
1: (if x <= 0 then 2 else (1 + (x div 4) - ((x mod 5) mod 2)))
1: (if x <= 0 then 2 else (x + (if (x mod 2) <= 0 then 1 else (~x + ~1)) - (x div 3)))
1: (if x <= 0 then 2 else (~1 + ((x + 2) * (x + (x mod 2)))))
1: (if x <= 0 then 2 else (~1 + ((x + 2) * (x + (if (x + ~4) <= 0 then 1 else x)))))
1: (if x <= 0 then 2 else ((3x + 3) - (x div 3)))
1: (if x <= 0 then 2 else ((2x + 4) - ((x - ((x div 2) mod 2)) div 2)))
1: (if x <= 0 then 2 else (~2 + ((x + 1) * (~1 + (2 * (x mod 2)))) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: (if x <= 0 then 2 else (~1 + (2 * (x - (loop(\(x,i).3x,x,3) mod (x + 1))))))
1: (if x <= 0 then 2 else (~1 + (2x * (1 + (x mod 3)))))
1: (if x <= 0 then 2 else (2x3 + 2x2 + ~1))
1: (if x <= 0 then 2 else ((4x + ~4) - (x div 4)))
1: (if x <= 0 then 2 else (4x - (((x + ~1) mod (2 + (x div 2))) div 2)))
1: (if x <= 0 then 2 else (~1 + (2 * ((2 * (1 + (2 * ((x + 2) div 3)))) div 3))))
1: (if x <= 0 then 2 else (~1 + (2 * ((4 * (x + (if (~2 + (x div 2)) <= 0 then 1 else 2))) div 3))))
1: (if x <= 0 then 2 else (~1 + (2 * (if x <= 0 then 1 else (4x + (2 div (~2 + (x mod 2))))))))
1: (if x <= 0 then 2 else (2x + ~1))
1: (if x <= 0 then 2 else ((2x + ~1) - i))
1: (if x <= 0 then 2 else (2x - (x mod (1 + (x div 5)))))
1: (if x <= 0 then 2 else (~1 + ((1 + (x mod (1 + (2 * ((x + 1) mod 3))))) mod (x + 1))))
1: (if x <= 0 then 2 else (~1 + ((~x2 + x) mod 5)))
1: (if x <= 0 then 2 else (~1 + loop(\(x,i).(x + ((x - (x div 4)) div 2)),x,2)))
1: (if x <= 0 then 2 else (loop(\(x,i).(x * (~2 + (i mod 2))),x,1) - loop(\(x,i).2x,x,1)))
1: (if x <= 0 then 2 else (~2 + loop(\(x,i).4x,(x + 1),2)))
1: (if x <= 0 then 2 else (loop(\(x,i).2x,(x + ~2),x) - ((x + ~1) * (if x <= 0 then 1 else x))))
1: (if x <= 0 then 2 else (loop(\(x,i).2x,x,1) - loop(\(x,i).2x,(x div 2),1)))
1: (if x <= 0 then 2 else (~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)))
1: (if x <= 0 then 2 else (loop(\(x,i).(x div (1 + (x mod 2))),x,x) - i))
1: (if x <= 0 then 2 else ((x + 1) - ((1 - (x div 2)) * (x div 2))))
1: (if x <= 0 then 2 else ((x + 1) - ((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3)))
1: (if x <= 0 then 2 else ((x + 1) - ((1 - (((x + 1) mod (1 + (2 * ((1 + (x div 4)) div 2)))) div 2)) mod 2)))
1: (if x <= 0 then 2 else ((x + 1) - ((x mod 6) mod (1 + (x div 2)))))
1: (if x <= 0 then 2 else ((x + 1) - (i mod 2)))
1: (if x <= 0 then 2 else (13x + ~12))
1: (if x <= 0 then 2 else (x - (2 * ((x + (x mod 2)) div 5))))
1: (if x <= 0 then 2 else (x - ((x2 + 2) div (x + 5))))
1: (if x <= 0 then 2 else (x - ((1 + (x2 div 8)) div 2)))
1: (if x <= 0 then 2 else (x - ((x + (((x + (x div 2)) div 4) mod 2)) div 2)))
1: (if x <= 0 then 2 else (x - (((x mod 6) + (x div 4)) div 2)))
1: (if x <= 0 then 2 else (x - ((((~1 + (x div 2)) div 2) - ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) div 2)))
1: (if x <= 0 then 2 else (x - ((~1 + (x2 div 2)) div 5)))
1: (if x <= 0 then 2 else (x - (((x div 2) - (x mod 5)) div 2)))
1: (if x <= 0 then 2 else (x - ((~x + (x div 4)) div 2)))
1: (if x <= 0 then 2 else (x - (((x - (x3 div 16)) div 2) div 2)))
1: (if x <= 0 then 2 else (x - (((x2 + ~2x) div (x + 2)) div 5)))
1: (if x <= 0 then 2 else (x - (x div 4)))
1: (if x <= 0 then 2 else (x - (x div (1 + ((1 + (x div 2)) div 2)))))
1: (if x <= 0 then 2 else (x - (x div (1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))))
1: (if x <= 0 then 2 else (x - (loop(\(x,i).(x * i),x,1) mod (x + 1))))
1: (if x <= 0 then 2 else (x - (loop(\(x,i).(x * i),x,2) mod (x + 1))))
1: (if x <= 0 then 2 else (x - (if (x mod 3) <= 0 then 1 else 0)))
1: (if x <= 0 then 2 else (x - (if x <= 0 then 1 else (x div (2 - (i mod 2))))))
1: (if x <= 0 then 2 else (x2 + 5x))
1: (if x <= 0 then 2 else (x2 + 8x))
1: (if x <= 0 then 2 else (4x2 + 5x))
1: (if x <= 0 then 2 else (3x2 + 16x + 16))
1: (if x <= 0 then 2 else 17x)
1: (if x <= 0 then 2 else (x * (x + (2 * loop(\(x,i).2x,(x + ~2),loop(\(x,i).(2x * i),x,2))))))
1: (if x <= 0 then 2 else (2 * (1 + (((x + ~1) * loop(\(x,i).(2x - (i mod 2)),x,1)) div 2))))
1: (if x <= 0 then 2 else (4 * (x + ((x div 2) div 5))))
1: (if x <= 0 then 2 else (4 * (x + (x div 9))))
1: (if x <= 0 then 2 else (2 * (2x - (x div (1 + i)))))
1: (if x <= 0 then 2 else (3x + ~3))
1: (if x <= 0 then 2 else (x * (~1 + i)))
1: (if x <= 0 then 2 else (6 * (2x + ((2 * (2 + loop(\(x,i).loop(\(x,i).((x + 1) * i),x,2),x,1))) div 3))))
1: (if x <= 0 then 2 else (10x + 120))
1: (if x <= 0 then 2 else (6 * (x + (x div 9))))
1: (if x <= 0 then 2 else (~x2 * (2 + (x div 2))))
1: (if x <= 0 then 2 else 6x)
1: (if x <= 0 then 2 else 2x2)
1: (if x <= 0 then 2 else x4)
1: (if x <= 0 then 2 else x3)
1: (if x <= 0 then 2 else (x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)))
1: (if x <= 0 then 2 else ((x + 1) * (x div 2)))
1: (if x <= 0 then 2 else (x * (x div 2)))
1: (if x <= 0 then 2 else ((x div 3) * (x div 2)))
1: (if x <= 0 then 2 else (x * (x div 3)))
1: (if x <= 0 then 2 else (x * (x mod 3)))
1: (if x <= 0 then 2 else (3 * (if (~x + 2) <= 0 then x2 else 2)))
1: (if x <= 0 then 2 else ((if (~2 + (x div 4)) <= 0 then 1 else 2) * (1 + (x mod 4))))
1: (if x <= 0 then 2 else (x * compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i)))
1: (if x <= 0 then 2 else (1 div ((2x + ~1) mod (4 + (x div 4)))))
1: (if x <= 0 then 2 else ((1 + ((x div (2 + (x mod (2 * (1 + (2 * (x mod 2))))))) + (x mod 2))) div 2))
1: (if x <= 0 then 2 else (((x + 1) - ((x2 + ~x) div 4)) div 3))
1: (if x <= 0 then 2 else ((x2 + 1) div (2 + (x div 2))))
1: (if x <= 0 then 2 else ((1 + ((x + 1) div (1 + (x mod (2 + (x div (2 + (x mod 5)))))))) div 2))
1: (if x <= 0 then 2 else ((1 + ((x * (1 + (x mod 3))) div 2)) div 2))
1: (if x <= 0 then 2 else ((x + (x2 div 4)) div 2))
1: (if x <= 0 then 2 else ((1 + (x div 2)) div 2))
1: (if x <= 0 then 2 else ((x + (x div 2)) div (4 + (x div 2))))
1: (if x <= 0 then 2 else ((((~x + 1) mod 3) + (x div 2)) div 2))
1: (if x <= 0 then 2 else ((1 + loop(\(x,i).2x,x,1)) div 5))
1: (if x <= 0 then 2 else ((2 - (x mod (~4 + (x mod 3)))) div 2))
1: (if x <= 0 then 2 else ((~x + 2) div 2))
1: (if x <= 0 then 2 else (((x + 2) - (loop(\(x,i).2x,x,(1 + (x mod 2))) mod (x + 1))) div 2))
1: (if x <= 0 then 2 else ((x - (3 * (x div 5))) div 2))
1: (if x <= 0 then 2 else ((x - ((~1 + (x2 div 2)) div 5)) div 2))
1: (if x <= 0 then 2 else ((x2 + 5x) div 2))
1: (if x <= 0 then 2 else ((3x2 + 6x + 3) div 2))
1: (if x <= 0 then 2 else ((x * ((x2 + 2x) + (x mod 3))) div 2))
1: (if x <= 0 then 2 else ((x * (~1 + (x mod 3))) div 2))
1: (if x <= 0 then 2 else ((2x * (~1 + (2 * i))) div (1 + i)))
1: (if x <= 0 then 2 else ((x * (x div 2)) div 4))
1: (if x <= 0 then 2 else (((x mod 5) * (x div 4)) div 2))
1: (if x <= 0 then 2 else (((2 + ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 12)) div 2) div 2))
1: (if x <= 0 then 2 else ((((x + 1) * (1 + ((2x mod (2 + (x div 3))) mod 2))) div 2) div 2))
1: (if x <= 0 then 2 else ((loop(\(x,i).x2,1,loop(\(x,i).x3,(x + ~1),4)) div 2) div 2))
1: (if x <= 0 then 2 else (((1 + (x mod (1 + (x mod (2 * (2 + ((x div 2) mod 2))))))) mod (x + 1)) div 2))
1: (if x <= 0 then 2 else (((x + 2) mod 5) div 3))
1: (if x <= 0 then 2 else (((~2x + 2) mod (2 + (x div 2))) div 2))
1: (if x <= 0 then 2 else ((((x2 div 2) div 3) mod (x + 1)) div 2))
1: (if x <= 0 then 2 else ((loop(\(x,i).2x,x,(if (x mod 2) <= 0 then 3 else x)) mod (x + 1)) div 2))
1: (if x <= 0 then 2 else ((loop(\(x,i).2x,x,loop(\(x,i).(~3x + 3),x,1)) mod (x + 1)) div 2))
1: (if x <= 0 then 2 else ((if x <= 0 then 2 else (1 + ((1 + (x div (2 + (x mod 2)))) div 2))) div 2))
1: (if x <= 0 then 2 else (loop(\(x,i).(2x + i),x,0) div (x + 1)))
1: (if x <= 0 then 2 else (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2))
1: (if x <= 0 then 2 else (loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,x) div (2 + (x mod 2))))
1: (if x <= 0 then 2 else (x div (1 + (x div (2 + ((x div 2) mod (2 + (x mod 2))))))))
1: (if x <= 0 then 2 else (x div (1 + (x mod 2))))
1: (if x <= 0 then 2 else (x div (2 + (x mod 2))))
1: (if x <= 0 then 2 else (x div (2 + (if (x mod 2) <= 0 then ((x mod 3) div 2) else x))))
1: (if x <= 0 then 2 else (x div (2 - (3 * (x mod ~4)))))
1: (if x <= 0 then 2 else (x div (~10 + (x div 2))))
1: (if x <= 0 then 2 else (5 mod (x + 1)))
1: (if x <= 0 then 2 else ((x2 + 2) mod (1 + (x div 2))))
1: (if x <= 0 then 2 else ((1 + (x3 div (x + 3))) mod 3))
1: (if x <= 0 then 2 else ((1 + (x div 4)) mod (1 + ((~x + 1) mod 5))))
1: (if x <= 0 then 2 else ((1 + ((x * (x mod 2)) mod 8)) mod (x + 1)))
1: (if x <= 0 then 2 else ((1 + (x mod (1 + (x mod (2 * (2 + ((x div 2) mod 2))))))) mod (x + 1)))
1: (if x <= 0 then 2 else ((x + 1) mod (1 + (2x div (2 + (x div 2))))))
1: (if x <= 0 then 2 else ((x + 1) mod (1 + (x div (2 + (x mod 3))))))
1: (if x <= 0 then 2 else ((x + 1) mod ((if ((x mod 7) mod 3) <= 0 then 1 else 2) + (x mod 2))))
1: (if x <= 0 then 2 else ((x + 1) mod (1 + (if (x mod 2) <= 0 then 6 else 1))))
1: (if x <= 0 then 2 else ((~x + 1) mod 3))
1: (if x <= 0 then 2 else (6 mod (1 + (x div 2))))
1: (if x <= 0 then 2 else (3x mod (1 + (x div 2))))
1: (if x <= 0 then 2 else (x5 mod 11))
1: (if x <= 0 then 2 else (4x mod (1 + (x div 2))))
1: (if x <= 0 then 2 else (2x mod (1 + (((x + 1) div 2) div 2))))
1: (if x <= 0 then 2 else (2x mod (1 + (x mod 4))))
1: (if x <= 0 then 2 else (2x mod (~1 + (2 * (((~x + 2) div 2) mod 4)))))
1: (if x <= 0 then 2 else (x2 mod ((x + 3) + ((x div 2) div 3))))
1: (if x <= 0 then 2 else (x2 mod (2 + (x div 3))))
1: (if x <= 0 then 2 else (((x2 + 2x) div 2) mod (1 + (x div (2 + (x div 3))))))
1: (if x <= 0 then 2 else ((x div 2) mod (1 + (~x mod 4))))
1: (if x <= 0 then 2 else (((1 + ((x + 1) div 3)) mod 5) mod 2))
1: (if x <= 0 then 2 else (((x * (x div 3)) mod 3) mod 2))
1: (if x <= 0 then 2 else ((x mod (2 - (x div (1 + ((x div 2) mod 2))))) mod 2))
1: (if x <= 0 then 2 else ((if (x mod 2) <= 0 then x else (~x + 1)) mod 20))
1: (if x <= 0 then 2 else (loop(\(x,i).(2 * (~1 + (4 * (x div 2)))),2,x) mod (x + 1)))
1: (if x <= 0 then 2 else (loop(\(x,i).x3,2,19) mod (x + 1)))
1: (if x <= 0 then 2 else (loop(\(x,i).x3,2,11) mod (x + 1)))
1: (if x <= 0 then 2 else (loop(\(x,i).2x,x,2) mod (2x + 1)))
1: (if x <= 0 then 2 else (x mod (2 + ((2 - (x div 3)) mod 4))))
1: (if x <= 0 then 2 else (x mod (2 + (x mod 2))))
1: (if x <= 0 then 2 else (x mod (2 + (x mod 3))))
1: (if x <= 0 then 2 else (x mod (1 + (x mod (1 + (x div 3))))))
1: (if x <= 0 then 2 else (x mod (2 + (x mod (1 + (x div 3))))))
1: (if x <= 0 then 2 else (x mod (2 + (if (x mod 2) <= 0 then 1 else (x div 3)))))
1: (if x <= 0 then 2 else (x mod (1 - (x mod (~1 + (x div ~2))))))
1: (if x <= 0 then 2 else (x mod (~2 + ((x div 2) mod 2))))
1: (if x <= 0 then 2 else (if (~x + 4) <= 0 then 18 else 1))
1: (if x <= 0 then 2 else (if (~4 + (x div 2)) <= 0 then 1 else 2))
1: (if x <= 0 then 2 else (if (x + ~2) <= 0 then (2x2 + ~1) else 1))
1: (if x <= 0 then 2 else (if (x + ~2) <= 0 then x else 1))
1: (if x <= 0 then 2 else (if (x + ~3) <= 0 then x else (x + ~3)))
1: (if x <= 0 then 2 else (if (x + ~4) <= 0 then (x + ~2) else 1))
1: (if x <= 0 then 2 else (if ((x mod 3) div 2) <= 0 then 1 else (x - (x div 3))))
1: (if x <= 0 then 2 else (if ((x + 2) mod 7) <= 0 then 1 else 0))
1: (if x <= 0 then 2 else (if ((x + 2) mod (2 + ((x div 2) mod 2))) <= 0 then 1 else x))
1: (if x <= 0 then 2 else (if ((x + ~1) mod (1 + (4 mod (x + 1)))) <= 0 then 0 else 1))
1: (if x <= 0 then 2 else (if ((x + ~2) mod 9) <= 0 then 1 else 0))
1: (if x <= 0 then 2 else (if (6 mod (1 + (x div 2))) <= 0 then 1 else 0))
1: (if x <= 0 then 2 else (if (10 mod (x + 2)) <= 0 then 0 else 1))
1: (if x <= 0 then 2 else (if ((x div 2) mod (3 + (x mod 2))) <= 0 then 1 else 2))
1: (if x <= 0 then 2 else (if (((x + 2) mod 8) mod 3) <= 0 then 1 else 0))
1: (if x <= 0 then 2 else (if ((x mod (2 - (x div (1 + ((x div 2) mod 2))))) mod 2) <= 0 then 1 else (x mod 4)))
1: (if x <= 0 then 2 else (if (x mod 2) <= 0 then 4 else ~3))
1: (if x <= 0 then 2 else (if (x mod 3) <= 0 then 1 else (if ((x + 1) mod 5) <= 0 then 0 else 2)))
1: (if x <= 0 then 2 else (if (x mod 3) <= 0 then (x div 3) else 1))
1: (if x <= 0 then 2 else (if (x mod 4) <= 0 then (2x mod 5) else 1))
1: (if x <= 0 then 2 else (if (x mod 10) <= 0 then ~1 else 0))
1: (if x <= 0 then 2 else (if x <= 0 then 1 else (3 * (~x mod (2 + (x div 2))))))
1: (if x <= 0 then 2 else (if x <= 0 then 1 else (x * (if (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2) <= 0 then x else 1))))
1: (if x <= 0 then 2 else loop(\(x,i).((x + 1) + ((2 + (i div 2)) * (i div 2))),x,1))
1: (if x <= 0 then 2 else loop(\(x,i).(x + (if (x mod (1 + (2 * i))) <= 0 then 2 else 0)),x,(4x + 1)))
1: (if x <= 0 then 2 else loop(\(x,i).(x + loop(\(x,i).(if x <= 0 then i else (x + ~1)),x,1)),1,(x + ~1)))
1: (if x <= 0 then 2 else loop(\(x,i).((x + 1) + loop(\(x,i).loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,0),2,x)),x,1))
1: (if x <= 0 then 2 else loop(\(x,i).(x - (x div 4)),4,(x + 1)))
1: (if x <= 0 then 2 else loop(\(x,i).(x - (x div 12)),2,x))
1: (if x <= 0 then 2 else loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x))
1: (if x <= 0 then 2 else loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 2 else 0)),x,(2x + 1)))
1: (if x <= 0 then 2 else loop(\(x,i).3x,(x div 2),(x div 3)))
1: (if x <= 0 then 2 else loop(\(x,i).(4 * (x + (x div 2))),(x + ~1),1))
1: (if x <= 0 then 2 else loop(\(x,i).(2 * (2x - (i mod 2))),(x div 2),1))
1: (if x <= 0 then 2 else loop(\(x,i).(2x2 + ~2),2x,(x + ~1)))
1: (if x <= 0 then 2 else loop(\(x,i).(x3 + ~3x),(x + ~1),4))
1: (if x <= 0 then 2 else loop(\(x,i).(2 * (x - loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(~2 + i),1))),x,0))
1: (if x <= 0 then 2 else loop(\(x,i).(2x2 + 4x),(x + ~1),1))
1: (if x <= 0 then 2 else loop(\(x,i).x3,1,14))
1: (if x <= 0 then 2 else loop(\(x,i).x3,(x2 + ~x),10))
1: (if x <= 0 then 2 else loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(x + ~1),1))
1: (if x <= 0 then 2 else loop(\(x,i).(((x + 1) - ((x div 2) mod 2)) div 2),2,x))
1: (if x <= 0 then 2 else loop(\(x,i).((4x2 + 2x) div 3),x,1))
1: (if x <= 0 then 2 else loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + 1)))
1: (if x <= 0 then 2 else loop(\(x,i).(if x <= 0 then 2 else (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2)),2,x))
1: (if x <= 0 then 2 else loop(\(x,i).loop(\(x,i).(x * (1 + i)),i,x),2x,1))
1: (if x <= 0 then 2 else compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 4x))),x))
1: (if x <= 0 then 2 else compr(\x.(loop(\(x,i).(1 + (2 * (x + (i mod 2)))),x,0) mod (x + 1)),x))
1: (if x <= 0 then 2 else compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: (if x <= 0 then 2 else compr(\x.(loop(\(x,i).(~2x + 2),x,2) mod (x + 2)),x))
1: (if x <= 0 then 2 else compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),(x div 2),~x),x))
1: (if x <= 0 then 3 else 0)
1: (if x <= 0 then 3 else (1 + ((if (~1 + (x mod (2 + (x mod 2)))) <= 0 then 1 else 2x) div 3)))
1: (if x <= 0 then 3 else ~1)
1: (if x <= 0 then 3 else (2x - (~x mod 4)))
1: (if x <= 0 then 3 else (x2 + ~1))
1: (if x <= 0 then 3 else (2 * (1 + ((1 + ((1 + ((loop(\(x,i).(3x + ~1),(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1) div 2) div 2)) div 2)) div 2))))
1: (if x <= 0 then 3 else (2 * (2x - (x mod 2))))
1: (if x <= 0 then 3 else (x2 + ~x))
1: (if x <= 0 then 3 else (4x4 + 20x3 + 33x2 + 20x + 4))
1: (if x <= 0 then 3 else (4x2 + 4x))
1: (if x <= 0 then 3 else (2 * (if (~x + 2) <= 0 then 1 else 13)))
1: (if x <= 0 then 3 else (x div 2))
1: (if x <= 0 then 3 else ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x))))
1: (if x <= 0 then 3 else (if (x + ~1) <= 0 then x else (1 + (2 * (loop(\(x,i).(x - (((~x + ~1) + (x mod 2)) div 5)),x,1) div 2)))))
1: (if x <= 0 then 3 else (if (2x mod (x + 5)) <= 0 then 2 else 0))
1: (if x <= 0 then 3 else loop(\(x,i).(2 * (~2x + (x div (if i <= 0 then 1 else i)))),x,2))
1: (if x <= 0 then 3 else compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),(x + 2)))
1: (if x <= 0 then 4 else 1)
1: (if x <= 0 then 4 else (2 + ((1 + loop(\(x,i).11x,x,3)) div (x + 1))))
1: (if x <= 0 then 4 else (1 + ((2x + ~2) div 5)))
1: (if x <= 0 then 4 else (x + 1))
1: (if x <= 0 then 4 else (0 - loop(\(x,i).2x,(x + ~1),1)))
1: (if x <= 0 then 4 else (x - (x div ~4)))
1: (if x <= 0 then 4 else (x2 + ~2x))
1: (if x <= 0 then 4 else x4)
1: (if x <= 0 then 4 else x)
1: (if x <= 0 then 5 else (x + (if (x + ~2) <= 0 then 1 else x)))
1: (if x <= 0 then 5 else 8)
1: (if x <= 0 then 5 else (x * (if (x + ~2) <= 0 then 1 else (4 * (x mod 2)))))
1: (if x <= 0 then 7 else 0)
1: (if x <= 0 then (3x + 7) else 1)
1: (if x <= 0 then 19 else 0)
1: (if x <= 0 then 17 else (x * loop(\(x,i).x3,1,loop(\(x,i).x3,2,(2x + 1)))))
1: (if x <= 0 then (x + (i * i)) else x)
1: (if x <= 0 then (1 + (i div 3)) else 0)
1: (if x <= 0 then (loop(\(x,i).(x * i),(~1 + i),1) + (x * i)) else 0)
1: (if x <= 0 then (x + 1) else (2 - loop(\(x,i).(x - (2 * (~2x + (i mod 2)))),x,0)))
1: (if x <= 0 then (x + 1) else ((2x + ~2) + (2 * (((x + 1) + (3 * ((x mod (1 + (x div 2))) div 3))) div 2))))
1: (if x <= 0 then ~1 else 0)
1: (if x <= 0 then (2 - i) else 1)
1: (if x <= 0 then ((x + ~1) + (2 * i)) else 0)
1: (if x <= 0 then ~4 else 0)
1: (if x <= 0 then ~4 else 1)
1: (if x <= 0 then (~1 + (i div 2)) else ((2x * (1 + (2 * i))) div (2 + i)))
1: (if x <= 0 then (x + ~1) else (2 + loop(\(x,i).(i * i),(x + ~2),0)))
1: (if x <= 0 then (x + ~1) else (x * i))
1: (if x <= 0 then (x + ~1) else loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x))
1: (if x <= 0 then (x + ~1) else loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),(2x + ~1),2))
1: (if x <= 0 then (x + ~1) else i)
1: (if x <= 0 then (x - ((i div 2) + i)) else 1)
1: (if x <= 0 then 6 else ((2x + 4) div 5))
1: (if x <= 0 then 8 else 2)
1: (if x <= 0 then 8 else ((2x + 4) div 5))
1: (if x <= 0 then 10 else loop(\(x,i).2x,(x + ~1),1))
1: (if x <= 0 then 10 else x)
1: (if x <= 0 then ((1 + ((1 + i) * i)) * i) else x)
1: (if x <= 0 then 28 else 0)
1: (if x <= 0 then 2x else (1 - (2 * (((((x + ~1) * (x div ~2)) div 2) div 2) mod 2))))
1: (if x <= 0 then 2x else (loop(\(x,i).(4x + ~4),x,2) - loop(\(x,i).(3x + 2),x,0)))
1: (if x <= 0 then 2x else (~1 + loop(\(x,i).2x,(1 + (loop(\(x,i).(2 * (x - (i mod 2))),x,2) div 3)),1)))
1: (if x <= 0 then 2x else loop(\(x,i).(49x + ~2),x,1))
1: (if x <= 0 then (2 * i) else (x - (i mod 2)))
1: (if x <= 0 then (x div 3) else loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + x + 1)))
1: (if x <= 0 then (i div (2 - (i mod 2))) else x)
1: (if x <= 0 then (x mod 2) else ((x + ~1) + (if (8 mod (if x <= 0 then 1 else x)) <= 0 then x else 0)))
1: (if x <= 0 then (x mod 2) else (~1 + (2 * ((x2 mod (2 + (if (x mod 2) <= 0 then 1 else (x + 2)))) mod 2))))
1: (if x <= 0 then loop(\(x,i).(4x2 + ~x + 3),2,2) else 0)
1: (if x <= 0 then x else (1 + (((x + 1) div 2) div (1 + (x mod 2)))))
1: (if x <= 0 then x else (2 - ((~x + 2) div 5)))
1: (if x <= 0 then x else (~2 + ((x + 2) mod (2 + ((2 * (x div 2)) div 3)))))
1: (if x <= 0 then x else (x - (if x <= 0 then 1 else (~1 + (x div (2 + ((x div 2) div 3)))))))
1: (if x <= 0 then x else ((1 + (x mod (1 + (x div 5)))) * (1 + (x mod 2))))
1: (if x <= 0 then i else 2)
1: (if x <= 0 then i else (x + ~3))
1: (if i <= 0 then 1 else (0 - i))
1: (if i <= 0 then 2 else ((1 + i) div 2))
1: (if i <= 0 then 2 else i)
1: loop(\(x,i).(10x + loop(\(x,i).(x + ((1 + i) * i)),i,0)),x,0)
1: loop(\(x,i).(3x + (loop(\(x,i).4x,(~1 + i),1) + (x mod 2))),x,1)
1: loop(\(x,i).((10x + ~1) + (if ((x + 2) mod 6) <= 0 then 0 else 1)),x,1)
1: loop(\(x,i).((x + 10) + (if x <= 0 then 0 else 1)),(x div 3),(x mod 3))
1: loop(\(x,i).((2x + 2) + (3 * (2x + (x mod 2)))),(x div 2),(x mod 2))
1: loop(\(x,i).((x + 1) + (((2x + 1) div 7) + (x div 3))),x,1)
1: loop(\(x,i).((x + 1) + ((2x div 7) + (x div 3))),x,1)
1: loop(\(x,i).((x + 1) + (((x div 2) div 3) + (x div 4))),(x + ~1),1)
1: loop(\(x,i).((x + 2) + (((x div 2) div 3) + (x div 5))),x,0)
1: loop(\(x,i).((7x + 1) + ((i mod 3) div 2)),x,1)
1: loop(\(x,i).((4x + 1) + ((i div 3) + i)),x,1)
1: loop(\(x,i).((9x + 1) + ((x div 2) mod 2)),x,1)
1: loop(\(x,i).((5x + 1) + (i mod 2)),x,1)
1: loop(\(x,i).((9x + 1) + (if (~2 + (x div 5)) <= 0 then 1 else x)),x,1)
1: loop(\(x,i).(10x + (if (i mod 3) <= 0 then 2 else 1)),x,2)
1: loop(\(x,i).((x + 1) + ((if x <= 0 then 0 else loop(\(x,i).2x,(~1 + loop(\(x,i).(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,x)),2,x)),1)) + ((x + 1) div 2))),x,1)
1: loop(\(x,i).(3x + loop(\(x,i).(7x + loop(\(x,i).(5x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(3x + loop(\(x,i).(7x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(3x + loop(\(x,i).(9x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(3x + loop(\(x,i).(7x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(3x + loop(\(x,i).(9x + loop(\(x,i).(12x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(10x + loop(\(x,i).(5x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).((2x + 1) + (loop(\(x,i).(1 + (4 * (x + (x mod 2)))),x,0) + (x mod 2))),(x + ~1),(x mod 2))
1: loop(\(x,i).((2x + 2) + loop(\(x,i).(x - (2 * (~x + i))),x,2)),x,1)
1: loop(\(x,i).(3x + loop(\(x,i).~4x,(~1 + i),1)),x,1)
1: loop(\(x,i).(x + 5),(~3 + (x div 2)),x)
1: loop(\(x,i).(x + 5),(~2 + (x div 3)),x)
1: loop(\(x,i).(x + 5),(~1 + (x div 5)),1)
1: loop(\(x,i).(x + 6),(~2 + ((x + ~1) div 3)),x)
1: loop(\(x,i).(x + 6),(x + ~5),x)
1: loop(\(x,i).((x + 4) + (x div 3)),x,2)
1: loop(\(x,i).((3x + 1) + i),x,1)
1: loop(\(x,i).((3x + 1) + i),i,1)
1: loop(\(x,i).((3x + 2) + i),6,3)
1: loop(\(x,i).((10x + 4) - ((2x + 2) mod 5)),x,1)
1: loop(\(x,i).((5x + 1) - ((i mod 3) div 2)),x,1)
1: loop(\(x,i).((10x + 1) - ((i mod 3) mod 2)),x,1)
1: loop(\(x,i).((7x + 1) - ((i mod 3) mod 2)),x,1)
1: loop(\(x,i).((3x + 2) - ((i mod 3) mod 2)),x,2)
1: loop(\(x,i).((x + 1) + (if ((x div 2) mod 3) <= 0 then 2 else 1) - (x mod 2)),((x + 1) div 3),1)
1: loop(\(x,i).((x + 2) + i - ((~x + 1) div (2 + (x div 3)))),x,1)
1: loop(\(x,i).((x + 6) + (x div 3)),x,2)
1: loop(\(x,i).((3x + 1) + (x mod 3)),x,0)
1: loop(\(x,i).(x + 9),(x + ~8),x)
1: loop(\(x,i).(x + 10),(x + ~8),x)
1: loop(\(x,i).((5x + 1) + ((1 + i) mod 3)),x,2)
1: loop(\(x,i).((5x + 1) + (2x mod 3)),x,1)
1: loop(\(x,i).((5x + 1) + ((x div ~2) mod 2)),x,1)
1: loop(\(x,i).((5x + 1) + (i mod 3)),x,1)
1: loop(\(x,i).((x + 1) + (5 * i)),i,1)
1: loop(\(x,i).((x + 2) + ((4 + i) * i)),x,1)
1: loop(\(x,i).((7x + 1) + ((1 + i) mod 3)),x,2)
1: loop(\(x,i).(7x + (((1 + i) mod 3) + (x mod 2))),x,1)
1: loop(\(x,i).((x + 2) + ((1 + (4 * (1 + i))) * i)),x,2)
1: loop(\(x,i).((x + 1) + ((1 + ((~1 + (2 * i)) * i)) * i)),x,1)
1: loop(\(x,i).((x + 1) + (2 * (4x + (x mod 2)))),x,1)
1: loop(\(x,i).((x + 1) + (2 * (4x + (i mod 2)))),(x + 1),0)
1: loop(\(x,i).(1 + ((x * (2 + (x * (x mod 2)))) + (x div 2))),x,1)
1: loop(\(x,i).((x + 1) + (4 * (x + (x div 2)))),x,0)
1: loop(\(x,i).(1 + ((2 * (1 + (x div (1 + (loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)))))) + (x mod 2))),1,(x + 1))
1: loop(\(x,i).((x + 1) + ((2 + (i div 2)) * (i div 2))),i,1)
1: loop(\(x,i).(1 + ((3 * (2x + (x mod 3))) + (x mod 2))),x,1)
1: loop(\(x,i).(x + (((2 + (i mod 2)) * i) + i)),(~1 + i),1)
1: loop(\(x,i).(x + (((2 + (i mod 2)) * i) + i)),i,x)
1: loop(\(x,i).((x + 1) + (2 * (x + loop(\(x,i).2x,(~2 + i),1)))),x,0)
1: loop(\(x,i).(2x + ((x + loop(\(x,i).(x * i),i,1)) * i)),(x + 1),0)
1: loop(\(x,i).((x2 + 2x + 1) + (2 * (x mod 2))),(x + ~1),(x + (x mod 2)))
1: loop(\(x,i).((x + 1) + (2 * (x + i))),x,5)
1: loop(\(x,i).(2 + ((2 * (x + i)) + i)),(x + 1),0)
1: loop(\(x,i).(2 + ((2 * (x + i)) + i)),x,1)
1: loop(\(x,i).(2x + ((x + i) * (1 + i))),x,0)
1: loop(\(x,i).((x + 1) + (2 * (6 - (x div 3)))),2,x)
1: loop(\(x,i).(x + (((~1 + (2 * (i mod 2))) * i) + (x * (1 + i)))),x,0)
1: loop(\(x,i).(3x + ((~1 + (2 * i)) * i)),x,1)
1: loop(\(x,i).((x + 1) + (2 * (x - ((~1 + (2 * (x mod 2))) * (1 + i))))),x,0)
1: loop(\(x,i).((x + 2) + (2 * (x - loop(\(x,i).7x,i,2)))),x,1)
1: loop(\(x,i).(2x + ((~1 + i) * i)),(x + ~2),0)
1: loop(\(x,i).((9x + 1) + ((x + 1) mod 3)),(x + 1),2)
1: loop(\(x,i).((9x + 1) + ((x + 1) mod 3)),x,2)
1: loop(\(x,i).((9x + 1) + ((x div ~2) mod 2)),x,1)
1: loop(\(x,i).((9x + 1) + (x mod 3)),x,1)
1: loop(\(x,i).((9x + 1) + (x mod 3)),x,2)
1: loop(\(x,i).((9x + 1) + (i mod 2)),x,1)
1: loop(\(x,i).((15x + 1) + i),x,1)
1: loop(\(x,i).((10x + 1) + (i div 2)),2x,1)
1: loop(\(x,i).((10x + 1) + (i div 2)),x,1)
1: loop(\(x,i).((10x + 1) + (i div 2)),x,2)
1: loop(\(x,i).((10x + 1) + ((1 + i) mod 3)),x,2)
1: loop(\(x,i).((10x + 1) + ((1 - i) mod 3)),x,2)
1: loop(\(x,i).((10x + 1) + ((2 * i) mod 3)),x,1)
1: loop(\(x,i).((10x + 1) + ((x div 2) mod 2)),x,1)
1: loop(\(x,i).((10x + 1) + (x mod 2)),(2x + 1),2)
1: loop(\(x,i).((10x + 1) + (x mod 2)),(~x + 2),1)
1: loop(\(x,i).((10x + 1) + (x mod 2)),2x,1)
1: loop(\(x,i).((10x + 1) + (x mod 2)),x,1)
1: loop(\(x,i).((10x + 1) + (x mod 2)),x,2)
1: loop(\(x,i).((10x + 1) + (i mod 3)),x,1)
1: loop(\(x,i).((x + 2) + (7 * (i * i))),x,1)
1: loop(\(x,i).((26x + 1) + i),x,1)
1: loop(\(x,i).((x + 2) + (13 * (i * i))),x,1)
1: loop(\(x,i).((x + 1) + (4 * (2x + (x div 2)))),x,0)
1: loop(\(x,i).((x + 1) + (2 * ((x + (x mod 2)) * (~1 + i)))),x,1)
1: loop(\(x,i).((x + 2) + (11 * (i * i))),x,1)
1: loop(\(x,i).((17x + 1) + i),x,1)
1: loop(\(x,i).((25x + 1) + i),x,1)
1: loop(\(x,i).((24x + 1) + i),x,1)
1: loop(\(x,i).((9x + 1) + i),x,1)
1: loop(\(x,i).((8x + 1) + ((1 + i) mod 3)),x,2)
1: loop(\(x,i).((8x + 1) + ((1 - i) mod 3)),x,2)
1: loop(\(x,i).((8x + 1) + (x mod 2)),x,1)
1: loop(\(x,i).((8x + 1) + (x mod 2)),x,2)
1: loop(\(x,i).(8x + ((x mod 2) + (x mod 3))),x,1)
1: loop(\(x,i).((8x + 1) + (i mod 3)),x,1)
1: loop(\(x,i).((8x + 1) + i),x,1)
1: loop(\(x,i).((13x + 1) + i),x,1)
1: loop(\(x,i).((12x + 1) + i),x,1)
1: loop(\(x,i).((20x + 1) + i),x,1)
1: loop(\(x,i).((18x + 1) + i),x,1)
1: loop(\(x,i).((x + 2) + (4 * ((2x div (4 + (x div 4))) mod 2))),x,1)
1: loop(\(x,i).(1 + ((10 * (x mod 2)) + (x div 2))),x,0)
1: loop(\(x,i).((4x + 1) + (x mod 2)),x,0)
1: loop(\(x,i).((4x + 1) + (x mod 2)),x,1)
1: loop(\(x,i).((4x + 1) + (x mod 2)),x,2)
1: loop(\(x,i).((4x + 1) + (i mod 3)),x,1)
1: loop(\(x,i).((4x + 1) + i),x,1)
1: loop(\(x,i).((6x + 1) + ((x + 1) mod 3)),x,1)
1: loop(\(x,i).((6x + 1) + ((x + 1) mod 3)),x,2)
1: loop(\(x,i).(6x + (((x + 1) mod 3) + (x mod 2))),x,1)
1: loop(\(x,i).(6x + (((x + 1) mod 3) + (x mod 2))),x,2)
1: loop(\(x,i).((6x + 1) + ((x div 2) mod 2)),x,1)
1: loop(\(x,i).((6x + 1) + (x mod 2)),x,1)
1: loop(\(x,i).((6x + 1) + (x mod 3)),x,1)
1: loop(\(x,i).((6x + 1) + (x mod 3)),x,2)
1: loop(\(x,i).((6x + 1) + i),x,1)
1: loop(\(x,i).((7x + 1) + i),x,1)
1: loop(\(x,i).(3x2 + x + 1),2,2)
1: loop(\(x,i).(3x2 + x + 1),2,2x)
1: loop(\(x,i).((x + 1) + (2 * (i * i))),(x + 1),0)
1: loop(\(x,i).((x + 1) + (2 * (i * i))),x,1)
1: loop(\(x,i).((x + 2) + (2 * (i * i))),2x,1)
1: loop(\(x,i).(3x + (i * i * i)),(x + 1),0)
1: loop(\(x,i).((x + 1) + (2 * ((x + (x div 2)) div 4))),((x + 1) div 2),1)
1: loop(\(x,i).((x + 1) + (2 * ((x + (if (x mod 2) <= 0 then x else 1)) div 5))),x,1)
1: loop(\(x,i).((x + 3) + (2 * ((x - ((x + 1) mod 5)) div 2))),x,1)
1: loop(\(x,i).((x + 1) + (3 * ((2x + 2) div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))),x,0)
1: loop(\(x,i).((x + 2) + (2 * (2x div (3 + i)))),x,1)
1: loop(\(x,i).((x + 1) + (3 * (((1 + (x div 2)) div 2) div 2))),x,1)
1: loop(\(x,i).((x + 1) + (2 * ((x div 2) div (1 + ((x mod 3) div 2))))),x,1)
1: loop(\(x,i).((x + 2) + (5 * (x div 3))),x,2)
1: loop(\(x,i).((x + 1) + (2 * (x div 4))),(((x + 1) div 2) div 2),1)
1: loop(\(x,i).((x + 1) + (2 * (x div 4))),(x div 4),2)
1: loop(\(x,i).(1 + (((x + 1) * (x div 4)) + i)),x,1)
1: loop(\(x,i).((x + 1) + (2 * (x div 5))),(x + 1),2)
1: loop(\(x,i).((x + 1) + (3 * (x div 5))),x,1)
1: loop(\(x,i).((x + 2) + ((i div 2) * i)),x,2)
1: loop(\(x,i).((x + 1) + (3 * ((x2 div 4) mod 7))),(x + 1),1)
1: loop(\(x,i).((x + 1) + (3 * (x mod 8))),x,0)
1: loop(\(x,i).(x2 + 10),x,0)
1: loop(\(x,i).(1 + ((x * i) + (i div 2))),(x + ~1),0)
1: loop(\(x,i).((3x + ~1) + (i * i)),x,0)
1: loop(\(x,i).(x + ((i * i) + (i mod 2))),x,0)
1: loop(\(x,i).(x + ((i * i) + (if x <= 0 then 1 else 2))),x,0)
1: loop(\(x,i).((x + 1) + ((3x + 1) div (1 + (2 * i)))),x,1)
1: loop(\(x,i).((x + 1) + ((1 + (2 * (x + (x div 2)))) div (1 + (2 * i)))),x,1)
1: loop(\(x,i).((x + 1) + ((x + (2 * (3x div 7))) div 3)),x,1)
1: loop(\(x,i).((x + 1) + ((1 + (2 * (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))) div 3)),x,1)
1: loop(\(x,i).((x + 2) + ((x + (2 * (x mod 2))) div 3)),x,2)
1: loop(\(x,i).((x + 1) + ((2x + 1) div (1 + (x mod 12)))),x,0)
1: loop(\(x,i).((x + 1) + ((1 + ((x + ((x * i) div (1 + i))) div 3)) div 2)),x,1)
1: loop(\(x,i).((x + 1) + ((1 + ((x + (x div 4)) div 2)) div 2)),x,1)
1: loop(\(x,i).(1 + (((2 + ((x2 div 2) div 5)) div 3) + (if x <= 0 then 0 else 1))),2,x)
1: loop(\(x,i).((x + 1) + ((x + (x div 2)) div 4)),(x + ~1),1)
1: loop(\(x,i).((x + 1) + ((x + (x div 2)) div 4)),x,0)
1: loop(\(x,i).((x + 2) + ((x + (x div 2)) div 4)),x,2)
1: loop(\(x,i).((x + 2) + ((x + (x div 2)) div (1 + i))),x,0)
1: loop(\(x,i).((x + 1) + (((x div 2) + i) div 2)),((x + 1) div 2),1)
1: loop(\(x,i).((x + 1) + (((x div 2) + i) div 4)),x,2)
1: loop(\(x,i).((x + 2) + ((x + (x div 3)) div (1 + i))),x,1)
1: loop(\(x,i).(2x + (((x + (x div 4)) div 2) + (if x <= 0 then 1 else 2))),1,x2)
1: loop(\(x,i).((x + 1) + ((x + (x div 4)) div 2)),(x div 2),0)
1: loop(\(x,i).((x + 2) + ((x + (x div 4)) div (2 + i))),x,1)
1: loop(\(x,i).((x + 1) + (((x div 5) + i) div 2)),x,1)
1: loop(\(x,i).((x + 1) + (((x div (4 + (x mod 2))) + (x div 2)) div 2)),x,1)
1: loop(\(x,i).((x + 1) + ((x + (x div (2 + i))) div 4)),x,1)
1: loop(\(x,i).(4x + (((x + ((x div 2) mod 2)) div 2) + (if x <= 0 then 1 else 2x))),2,x)
1: loop(\(x,i).((x + 1) + ((x + ((x div (2 + ((x div 2) div 3))) mod 2)) div 2)),x,1)
1: loop(\(x,i).((x + 1) + ((x + (x mod 2)) div 3)),i,1)
1: loop(\(x,i).((x + 1) + ((x + (x mod (x - ((x + 1) mod 3)))) div 2)),x,1)
1: loop(\(x,i).((x + 2) + ((x + (if (x + ~2) <= 0 then 1 else ((x + 1) div 7))) div 2)),x,1)
1: loop(\(x,i).((x + 1) + ((x + (if (i mod 2) <= 0 then 2 else 0)) div 3)),(x div 2),(x mod 2))
1: loop(\(x,i).((x + 1) + ((x + loop(\(x,i).(x2 div 2),(x + ~2),loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1))) div 3)),x,1)
1: loop(\(x,i).((x + 2) + ((x + 1) div 5)),(x + 2),2)
1: loop(\(x,i).((x + 2) + ((x + 2) div (2 + (x div (4 - ((x div 2) mod 2)))))),x,1)
1: loop(\(x,i).((x + 1) + ((x + 2) div (2 + ((~x + 2) mod 8)))),x,1)
1: loop(\(x,i).((x + 3) + ((x + 2) div (1 + i))),x,2)
1: loop(\(x,i).((x + 1) + ((x + i) div 5)),x,1)
1: loop(\(x,i).((x + 2) + ((~x + ((x * (x div 2)) mod 2)) div 3)),2,x)
1: loop(\(x,i).((2x + 1) + ((~1 + loop(\(x,i).2x,(2 + (x mod 2)),(x div 2))) div (x + 2))),x,1)
1: loop(\(x,i).((x + 2) + ((x - ((x + (x div 2)) div 4)) div 2)),x,2)
1: loop(\(x,i).((x + 1) + ((x - ((x + (x div 3)) div 3)) div 2)),2,2x)
1: loop(\(x,i).((x + 1) + ((x - ((x + (x div 3)) div 3)) div 2)),x,1)
1: loop(\(x,i).((x + 2) + ((x - ((~x + 1) div 3)) div (1 + i))),x,0)
1: loop(\(x,i).((x + 3) + ((x - ((x div 2) div 3)) div 2)),2,x)
1: loop(\(x,i).((x + 1) + ((x - ((x mod 3) div 2)) div 2)),x,0)
1: loop(\(x,i).((x + 2) + ((x - (x div 3)) div 3)),x,2)
1: loop(\(x,i).((x + 2) + ((x - ((x div 2) mod 2)) div 2)),x,1)
1: loop(\(x,i).((x + 1) + ((x - (i mod 4)) div 2)),x,2)
1: loop(\(x,i).((x + 1) + ((x * (4 + i)) div (x + 3))),x,1)
1: loop(\(x,i).((x + 2) + (((x + ((x div 2) div 3)) * (1 + i)) div (x + 1))),x,1)
1: loop(\(x,i).(3 + ((x * (1 + (x div 2))) div 2)),x,1)
1: loop(\(x,i).((x + 1) + (((2 + (i mod 2)) * i) div 2)),x,1)
1: loop(\(x,i).(4 + ((x2 + x) div 2)),x,4)
1: loop(\(x,i).((4x + 1) + ((x2 + x) div 2)),x,1)
1: loop(\(x,i).((x + 2) + ((2x + 4) div (4 + (x div 8)))),x,0)
1: loop(\(x,i).(3x + ((x2 + 2x) div 3)),x,1)
1: loop(\(x,i).((x + 1) + (((1 + i) * i) div 2)),x,1)
1: loop(\(x,i).((x + 2) + (((1 + i) * i) div 2)),(x + 2),0)
1: loop(\(x,i).((x + 2) + (((1 + i) * i) div 2)),x,2)
1: loop(\(x,i).((x + 2) + (((2 + i) * (1 + i)) div 2)),(x + 1),0)
1: loop(\(x,i).(5x + (((2 + i) * (1 + i)) div 2)),x,1)
1: loop(\(x,i).(3x + (((2 + i) * (1 + i)) div 2)),x,1)
1: loop(\(x,i).(x + ((((2 + i) * (1 + i)) div 2) + i)),x,1)
1: loop(\(x,i).(x + ((((2 + i) * (1 + i)) div 2) + i)),x,2)
1: loop(\(x,i).((x + 2) + ((x * (2 + i)) div (x + 8))),2,x)
1: loop(\(x,i).((x + 1) + (((2 + i) * i) div 2)),x,2)
1: loop(\(x,i).((x + 2) + (((2 + i) * i) div 2)),x,0)
1: loop(\(x,i).((x + 2) + (((2 + i) * i) div 2)),x,1)
1: loop(\(x,i).((x + 2) + (((2 + i) * i) div 2)),x,3)
1: loop(\(x,i).((x + 2) + (((x + i) * i) div (x + 1))),x,2)
1: loop(\(x,i).(4 + ((x2 + ~x) div 2)),x,4)
1: loop(\(x,i).((x + 2) + ((5 * (i * i)) div 2)),x,1)
1: loop(\(x,i).((x + 3) + (8x div (x + 2))),2,x)
1: loop(\(x,i).((x + 1) + ((4 * (x div 3)) div 3)),(x + ~1),1)
1: loop(\(x,i).((x + 2) + ((4 * (x div 5)) div 3)),x,1)
1: loop(\(x,i).(x + ((4x div (2 + i)) + (x div 3))),x,1)
1: loop(\(x,i).((x + 1) + ((i * i * (1 + i)) div 2)),x,1)
1: loop(\(x,i).((x + 1) + (((x div 2) * i) div 2)),x,1)
1: loop(\(x,i).((x + 2) + ((2 * (x div 3)) div 3)),x,1)
1: loop(\(x,i).((x + 2) + ((2 * (x mod (2 + (x div 2)))) div 3)),x,1)
1: loop(\(x,i).((x + 2) + (2x div 5)),x,0)
1: loop(\(x,i).((x + 2) + (2x div (4 + (x div 4)))),x,1)
1: loop(\(x,i).((x + 2) + (2x div 7)),x,1)
1: loop(\(x,i).((x + 1) + (2x div (1 + (2 * (x mod 3))))),x,0)
1: loop(\(x,i).((x + 2) + (2x div (2 + (3 * (if (~2 + (x div 2)) <= 0 then 1 else 2))))),x,1)
1: loop(\(x,i).((2x + 1) + (x2 div 3)),(x + 1),x)
1: loop(\(x,i).((x + 1) + (x2 div 3)),x,1)
1: loop(\(x,i).((x2 + 2x + 1) + (x2 div 4)),1,i)
1: loop(\(x,i).((x + 3) + ((x * i) div 3)),x,1)
1: loop(\(x,i).(x + (((x * i) div 5) + (x div 2))),x,2)
1: loop(\(x,i).((x + 1) + ((i * i) div 2)),(x + 1),2)
1: loop(\(x,i).((x + 2) + ((i * i) div 2)),(x + 1),2)
1: loop(\(x,i).((x + 1) + ((i * i) div 3)),x,1)
1: loop(\(x,i).(x + (((i * i) div 4) + i)),x,0)
1: loop(\(x,i).((x + 2) + ((i * i) div (x + 1))),x,1)
1: loop(\(x,i).(2x + ((i * i) div (x + 2))),x,1)
1: loop(\(x,i).((x + 2) + ((((x + 1) + (x div 4)) div 2) div 2)),x,1)
1: loop(\(x,i).((x + 2) + (((x + 1) div 2) div 3)),(x + 5),1)
1: loop(\(x,i).((x + 3) + (((2x * (1 + (2 * i))) div (2 + i)) div (1 + i))),x,1)
1: loop(\(x,i).((x + 1) + ((x2 div 3) div (x + 3))),x,0)
1: loop(\(x,i).((x + 1) + ((x div 2) div 3)),(x + ~2),1)
1: loop(\(x,i).((x + 1) + ((x div 2) div 3)),x,0)
1: loop(\(x,i).((x + 2) + ((x div 2) div 3)),(x + ~1),1)
1: loop(\(x,i).(x + (((x div 2) div 3) + (i div 2))),x,1)
1: loop(\(x,i).((x + 2) + ((x div 2) div 5)),x,2)
1: loop(\(x,i).((x + 1) + (((x + 2) mod (2 + ((x + ~1) mod 4))) div 2)),x,1)
1: loop(\(x,i).((x + 1) + (((x + 2) mod (2 + ((x + ~1) mod 4))) div 2)),x,2)
1: loop(\(x,i).((x + 1) + ((x mod (2 + (6 mod (1 + (x div 2))))) div 2)),x,1)
1: loop(\(x,i).((8x + 1) + ((i mod 3) div 2)),x,1)
1: loop(\(x,i).((4x + 1) + ((i mod 3) div 2)),x,1)
1: loop(\(x,i).((x + 1) + ((if (x + ~4) <= 0 then 1 else x) div 4)),x,0)
1: loop(\(x,i).(2x + ((if (x mod 2) <= 0 then (x div 2) else 1) div 3)),x,1)
1: loop(\(x,i).(6 + (x div 2)),x,1)
1: loop(\(x,i).(2 + ((x div 2) + (x div 4))),(~2 + (x div 2)),x)
1: loop(\(x,i).((x + 1) + (x div 2)),(x + ~2),0)
1: loop(\(x,i).((x + 1) + (x div 2)),x,0)
1: loop(\(x,i).((x + 1) + (x div 2)),x,1)
1: loop(\(x,i).((x + 1) + (x div 2)),x,6)
1: loop(\(x,i).((x + 2) + (x div 2)),(~2 + (x div 2)),1)
1: loop(\(x,i).((x + 2) + (x div 2)),(x div 2),(1 + (x mod 2)))
1: loop(\(x,i).((x + 2) + (x div 2)),(x div 2),(x mod 2))
1: loop(\(x,i).((x + 4) + (x div 2)),x,0)
1: loop(\(x,i).((x + 1) + (x div 3)),x,1)
1: loop(\(x,i).((x + 2) + (x div 3)),(x + 3),2)
1: loop(\(x,i).((x + 1) + (x div 4)),2,x)
1: loop(\(x,i).((x + 1) + (x div 4)),x,0)
1: loop(\(x,i).((x + 1) + (x div 4)),x,15)
1: loop(\(x,i).((x + 2) + (x div 4)),2,(x + 1))
1: loop(\(x,i).((x + 2) + (x div 4)),x,1)
1: loop(\(x,i).((x + 3) + (x div 4)),x,1)
1: loop(\(x,i).(x + ((x div 4) + i)),4,x)
1: loop(\(x,i).((x + 1) + (x div 5)),(x + ~2),1)
1: loop(\(x,i).((x + 1) + (x div 5)),x,0)
1: loop(\(x,i).((x + 2) + (x div 5)),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).((x + 2) + (x div 5)),x,2)
1: loop(\(x,i).((x + 3) + (x div 5)),(x + 1),2)
1: loop(\(x,i).((3x + 2) + (x div 5)),7,4)
1: loop(\(x,i).(x + ((x div 5) + (i div 2))),x,2)
1: loop(\(x,i).(x + ((x div 5) + i)),x,2)
1: loop(\(x,i).((x + 2) + (x div (6 + (x mod 2)))),x,0)
1: loop(\(x,i).((x + 1) + (x div (3 + ((x div 2) div 3)))),x,1)
1: loop(\(x,i).((x + 2) + (x div (4 + ((x mod 3) div 2)))),x,1)
1: loop(\(x,i).((x + 2) + (x div (4 + (x div 2)))),(x + ~1),2)
1: loop(\(x,i).((x + 2) + (x div (4 + (x div (4 - (x mod 2)))))),x,1)
1: loop(\(x,i).((x + 1) + (x div (4 + (x2 mod (x + 4))))),x,1)
1: loop(\(x,i).((x + 2) + (x div (4 + i))),2,x)
1: loop(\(x,i).((x + 2) + (x div (4 + i))),(x + 1),1)
1: loop(\(x,i).((x + 2) + (x div (4 + i))),x,1)
1: loop(\(x,i).((x + 2) + (x div (4 + i))),x,2)
1: loop(\(x,i).((x + 2) + (x div (2 + i - (x mod 2)))),x,0)
1: loop(\(x,i).(x + ((x div 7) + ((x + 1) div 3))),x,2)
1: loop(\(x,i).((x + 1) + (x div 7)),x,0)
1: loop(\(x,i).((x + 2) + (x div 7)),2,(x + 3))
1: loop(\(x,i).((x + 2) + (x div 7)),(x + ~1),0)
1: loop(\(x,i).((3x + 2) + (x div 7)),2,x)
1: loop(\(x,i).(x + ((x div (1 + (4 * i))) + i)),x,1)
1: loop(\(x,i).((x + 2) + (x div (1 + (2 * (i div 2))))),x,0)
1: loop(\(x,i).((x + 1) + (x div (2 + (x div 7)))),x,0)
1: loop(\(x,i).((x + 1) + (x div (2 + (x div (2 + (x mod (1 + ((~x + 2) mod 4)))))))),x,1)
1: loop(\(x,i).((x + 1) + (x div (2 + (5 mod (1 + (x div 2)))))),x,1)
1: loop(\(x,i).((x + 1) + (x div (1 + ((x * i) mod 7)))),x,1)
1: loop(\(x,i).((x + 2) + (x div (2 + ((x div 2) mod 3)))),2,x)
1: loop(\(x,i).((x + 2) + (x div (1 + ((x div 2) mod (2 + (x mod 2)))))),x,0)
1: loop(\(x,i).((x + 2) + (x div (1 + (x mod 2)))),(x div 2),(x mod 2))
1: loop(\(x,i).((x + 2) + (x div (2 + (x mod 2)))),x,2)
1: loop(\(x,i).((x + 1) + (x div (1 + (x mod 3)))),x,0)
1: loop(\(x,i).((x + 1) + (x div (1 + (x mod 3)))),x,2)
1: loop(\(x,i).((x + 1) + (x div (2 + (x mod 3)))),x,0)
1: loop(\(x,i).((x + 1) + (x div (1 + (x mod 4)))),x,3)
1: loop(\(x,i).((x + 1) + (x div (1 + (x mod 5)))),x,0)
1: loop(\(x,i).((x + 1) + (x div (1 + (x mod 7)))),x,0)
1: loop(\(x,i).((x + 1) + (x div (1 + (x mod 6)))),x,0)
1: loop(\(x,i).((x + 1) + (x div (1 + (x mod 10)))),(x + 1),x)
1: loop(\(x,i).((x + 1) + (x div (1 + (x mod (2 * (1 + (2 * (x mod 2)))))))),x,0)
1: loop(\(x,i).((x + 1) + (x div (1 + (i mod 2)))),x,(1 + (x mod 2)))
1: loop(\(x,i).((x + 1) + (x div (1 + (i mod 2)))),x,(x mod 2))
1: loop(\(x,i).((x + 1) + (x div (2 + (i mod 2)))),i,1)
1: loop(\(x,i).((x + 2) + (x div (2 + (i mod 2)))),x,2)
1: loop(\(x,i).((x + 1) + (x div (1 + (i mod 3)))),x,1)
1: loop(\(x,i).((2x + 1) + (x div (1 + (if (x mod 2) <= 0 then 4 else 1)))),x,1)
1: loop(\(x,i).((x + 1) + ((x div (1 + i)) + i)),x,1)
1: loop(\(x,i).((x + 2) + (x div (1 + i))),x,0)
1: loop(\(x,i).((x + 3) + (x div (1 + i))),x,0)
1: loop(\(x,i).(x + ((x div (2 + i)) + i)),x,1)
1: loop(\(x,i).((x + 1) + (x div (2 - (i div ~4)))),x,0)
1: loop(\(x,i).((x + 1) + (x div 8)),(x + 1),1)
1: loop(\(x,i).((x + 1) + (x div 8)),(x + ~2),0)
1: loop(\(x,i).((x + 1) + (x div 8)),x,0)
1: loop(\(x,i).((x + 2) + (x div 8)),x,2)
1: loop(\(x,i).((x + 4) + (x div 8)),x,1)
1: loop(\(x,i).((x + 2) + ((x div 8) + (x div 5))),x,1)
1: loop(\(x,i).((x + 2) + ((x div 8) + (x div 5))),x,3)
1: loop(\(x,i).(x + ((x div 8) + (i div 2))),x,2)
1: loop(\(x,i).(x + ((x div 12) + (i div 2))),x,1)
1: loop(\(x,i).((x + 2) + (x div (4 * (1 + i)))),2,x)
1: loop(\(x,i).((x + 1) + (x div (3 * (2 + (x mod 5))))),x,1)
1: loop(\(x,i).((x + 1) + (x div (4 * (2 + (x mod 2))))),x,1)
1: loop(\(x,i).((x + 1) + (x div (if (i mod 3) <= 0 then 4 else 1))),x,0)
1: loop(\(x,i).((x + 1) + (i div 2)),(x div 3),1)
1: loop(\(x,i).(2x + ((i div 2) + (x mod 2))),x,0)
1: loop(\(x,i).(5x + (i div 2)),x,0)
1: loop(\(x,i).(3x + (i div 2)),2x,0)
1: loop(\(x,i).(x + ((i div 2) + i)),(1 + i),2)
1: loop(\(x,i).(x + ((i div 3) + (x div 2))),x,1)
1: loop(\(x,i).(x + ((i div 3) + (x div 3))),(x + ~1),1)
1: loop(\(x,i).((x + 4) + ((1 + ((x + (3 * (1 + (2 * ((((x + 2) + ((3 * ((x + 2) + (2x div 7))) div 2)) div 2) div 2))))) div 2)) mod 2)),x,1)
1: loop(\(x,i).((x + 1) + ((1 + ((1 + ((1 + (((((x + 1) * ((x + 1) + (2 * (((((x + 1) * (4 + (x div 2))) div 2) div 2) div 2)))) div 2) div 2) div 2)) div 2)) div 2)) mod 2)),x,1)
1: loop(\(x,i).((x + 1) + ((x + (if ((x mod 5) mod 2) <= 0 then 1 else (x mod 3))) mod 2)),x,1)
1: loop(\(x,i).(3x + ((x + 1) mod 3)),x,1)
1: loop(\(x,i).(3x + ((x + 1) mod 3)),x,2)
1: loop(\(x,i).((x + 1) + ((x + 1) mod (1 + ((x + (x div 3)) div 3)))),x,1)
1: loop(\(x,i).((4x + 1) + ((x + i) mod 2)),(x + 1),1)
1: loop(\(x,i).(3x + ((x + i) mod 3)),x,1)
1: loop(\(x,i).(9x + ((~x + 1) mod 5)),x,1)
1: loop(\(x,i).((x + 1) + (((~x + 2) mod 4) + i)),x,1)
1: loop(\(x,i).(3x + ((x + ~1) mod 3)),(x div 2),(x mod 2))
1: loop(\(x,i).(3x + ((x + ~1) mod 3)),x,1)
1: loop(\(x,i).(5x + ((~1 + i) mod 4)),x,3)
1: loop(\(x,i).(10x + ((i * i) mod 3)),x,1)
1: loop(\(x,i).((x + 1) + (((1 + ((x div 2) div 3)) div (1 + (x mod 4))) mod 2)),x,1)
1: loop(\(x,i).((x + 1) + (((x + i) div (4 + (x div 4))) mod 2)),x,1)
1: loop(\(x,i).((x + 1) + (((1 - (((x mod 2) - (x div 2)) div 2)) div 2) mod 2)),x,1)
1: loop(\(x,i).((x + 2) + (((2x + ~1) div (2 + (x div 4))) mod 2)),x,1)
1: loop(\(x,i).(3x + (((x + ~1) div 2) mod 2)),x,0)
1: loop(\(x,i).((x + 1) + ((((x + 1) * (1 + i)) div 5) mod 2)),x,1)
1: loop(\(x,i).((x + 1) + (((2x + ~4) div (2 + (x div 2))) mod 2)),x,1)
1: loop(\(x,i).((x + 1) + (((2x + ~4) div (2 + (x div 4))) mod 2)),x,1)
1: loop(\(x,i).((x + 1) + (((2x + ~4) div (2 + (x div 4))) mod 2)),x,2)
1: loop(\(x,i).((x + 1) + ((x3 div (x - ((~x + 2) div 2))) mod 2)),x,1)
1: loop(\(x,i).((x + 1) + (((((x + 1) * (2 - (x div 2))) div 2) div 2) mod 2)),x,1)
1: loop(\(x,i).((x + 1) + (((((~x + 2) * (x div 2)) div 2) div 3) mod 2)),x,0)
1: loop(\(x,i).((x + 1) + ((((x * (x2 - (if x <= 0 then 1 else ((x + 1) - loop(\(x,i).loop(\(x,i).(x + (i * i)),(x + ~1),1),2,x))))) div 2) div 3) mod 2)),x,1)
1: loop(\(x,i).((x + 1) + ((((x2 + ~2x) div 8) div 2) mod 2)),x,1)
1: loop(\(x,i).((5x + 1) + ((x div 2) mod 2)),(x + 1),1)
1: loop(\(x,i).((5x + 1) + ((x div 2) mod 2)),x,1)
1: loop(\(x,i).(3x + ((x div 3) mod 2)),x,1)
1: loop(\(x,i).(5x + ((x div 5) mod 2)),(x + 1),1)
1: loop(\(x,i).(5x + ((x div 5) mod 2)),x,1)
1: loop(\(x,i).((x + 1) + ((x div (1 + (((1 + ((x + (x div 2)) div 4)) mod 2) + (x mod 2)))) mod 2)),x,1)
1: loop(\(x,i).((x + 1) + ((x div (2 + (((x - (x div 4)) div 2) mod 2))) mod 2)),x,1)
1: loop(\(x,i).((x + 1) + ((x div (~2 + ((i div 2) mod 2))) mod 2)),x,1)
1: loop(\(x,i).((x + 1) + ((x div (2 * (2 + (x mod 4)))) mod 2)),x,2)
1: loop(\(x,i).((x + 1) + ((i div (1 + ((x div 2) mod 3))) mod 2)),x,2)
1: loop(\(x,i).((x + 1) + (((x + ((x + ~1) mod 3)) mod 5) mod 2)),x,1)
1: loop(\(x,i).((x + 2) + (((1 + loop(\(x,i).2x,x,1)) mod (3x + 1)) mod 2)),x,1)
1: loop(\(x,i).((x + 1) + (((x * (1 + i)) mod 5) mod 2)),x,1)
1: loop(\(x,i).((x + 2) + ((x mod (1 + ((x div 4) + (x div 3)))) mod 2)),x,1)
1: loop(\(x,i).((x + 1) + ((x mod (1 + (3 * (x mod 7)))) mod 2)),x,1)
1: loop(\(x,i).((4x + 1) + ((i mod 3) mod 2)),x,1)
1: loop(\(x,i).((2x + 1) + (x mod 2)),(x div 2),(2 + (x mod 2)))
1: loop(\(x,i).((x + 1) + (x mod 10)),x,0)
1: loop(\(x,i).((3x + 1) + (i mod 2)),x,1)
1: loop(\(x,i).((3x + ~1) + (i mod 2)),x,1)
1: loop(\(x,i).(x + ((i mod 2) + (2 * (x div 2)))),(x + ~1),1)
1: loop(\(x,i).(3x + (i mod 2)),x,1)
1: loop(\(x,i).(x + ((i mod 2) + (x div 3))),x,3)
1: loop(\(x,i).((x + 1) + (if (~x + 2) <= 0 then x else 2)),(x div 2),(x mod 2))
1: loop(\(x,i).(9x + (if (2 - i) <= 0 then x else 1)),x,(x + 1))
1: loop(\(x,i).(7x + (if (2 - i) <= 0 then x else 1)),x,(x + 1))
1: loop(\(x,i).(3x + (if (2 - i) <= 0 then x else 1)),x,(x + 1))
1: loop(\(x,i).((x + 1) + (if (~2 + (x div 2)) <= 0 then 1 else 2)),(if x <= 0 then 1 else 2),x)
1: loop(\(x,i).(3x + (if (~2 + (x div 2)) <= 0 then 1 else (if x <= 0 then 1 else 7x))),x,1)
1: loop(\(x,i).(9x + (if (~1 + (i mod 3)) <= 0 then 2 else 1)),(x + 1),0)
1: loop(\(x,i).(9x + (if (~1 + (i mod 3)) <= 0 then 2 else 1)),x,2)
1: loop(\(x,i).(5x + (if (~1 + (i mod 3)) <= 0 then 2 else 1)),(x + 1),0)
1: loop(\(x,i).(5x + (if (~1 + (i mod 3)) <= 0 then 2 else 1)),x,2)
1: loop(\(x,i).(7x + (if (~1 + (i mod 3)) <= 0 then 2 else 1)),x,2)
1: loop(\(x,i).(3x + (if (~1 + (i mod 3)) <= 0 then 2 else 1)),x,2)
1: loop(\(x,i).((x + 2) + (if (x + ~2) <= 0 then x else 4)),2,x)
1: loop(\(x,i).(x + ((if (x + ~4) <= 0 then 1 else 2) + (x div 4))),x,1)
1: loop(\(x,i).(2x + (if (~2 + i) <= 0 then 1 else 3x)),x,2)
1: loop(\(x,i).((3x + 1) + (if (~2 + i) <= 0 then 1 else x)),x,1)
1: loop(\(x,i).((x + 1) + (if (~2 + i) <= 0 then i else x)),x,1)
1: loop(\(x,i).(6x + ((if (x div 2) <= 0 then 2 else 5x) + (x mod 2))),x,1)
1: loop(\(x,i).((x + 1) + (if ((x + 1) mod 5) <= 0 then (x div 4) else 0)),x,1)
1: loop(\(x,i).((x + 1) + (if (x mod 2) <= 0 then 2 else ((x + ~2) mod (1 + (x div 4))))),x,0)
1: loop(\(x,i).((x + 2) + (if (x mod (2 + (x div 4))) <= 0 then 1 else 2)),x,0)
1: loop(\(x,i).(9x + (if (i mod 3) <= 0 then 1 else 0)),x,1)
1: loop(\(x,i).(5x + (if (i mod 3) <= 0 then 1 else 0)),x,1)
1: loop(\(x,i).(7x + (if (i mod 3) <= 0 then 1 else 0)),x,1)
1: loop(\(x,i).(3x + (if (i mod 3) <= 0 then 1 else 0)),(2x + 1),1)
1: loop(\(x,i).(3x + (if (i mod 3) <= 0 then 1 else 0)),2x,1)
1: loop(\(x,i).(3x + (if (i mod 3) <= 0 then 1 else 0)),x,1)
1: loop(\(x,i).(x + ((if (i mod 3) <= 0 then 1 else 0) + ((1 + (x div 2)) div 2))),x,1)
1: loop(\(x,i).(9x + (if (i mod 3) <= 0 then 1 else 2)),x,1)
1: loop(\(x,i).(5x + (if (i mod 3) <= 0 then 1 else 2)),x,1)
1: loop(\(x,i).(7x + (if (i mod 3) <= 0 then 1 else 2)),x,1)
1: loop(\(x,i).(9x + (if (i mod 3) <= 0 then 2 else 0)),x,2)
1: loop(\(x,i).(3x + (if (i mod 3) <= 0 then 2 else 0)),x,2)
1: loop(\(x,i).(7x + (if (i mod 3) <= 0 then 2 else 1)),x,2)
1: loop(\(x,i).(3x + (if (i mod 3) <= 0 then 2 else 1)),x,2)
1: loop(\(x,i).(2x + (if (i mod 3) <= 0 then x3 else 1)),x,1)
1: loop(\(x,i).(2x + (if (i mod 4) <= 0 then i else 1)),x,0)
1: loop(\(x,i).((x + 1) + (if (i mod (1 + (x mod 4))) <= 0 then 0 else 1)),x,0)
1: loop(\(x,i).((x + 1) + (if x <= 0 then 0 else ((((x + 1) div 2) div (1 + i)) + i))),x,1)
1: loop(\(x,i).((x + 2) + (if x <= 0 then 0 else ((if (x mod (2 + (x mod 2))) <= 0 then 1 else x) mod 4))),x,0)
1: loop(\(x,i).((x + 2) + (if x <= 0 then 1 else (2 * loop(\(x,i).(3x + ~6),x,0)))),x,0)
1: loop(\(x,i).(3x + (if x <= 0 then 1 else loop(\(x,i).x3,1,loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),i,1)))),x,1)
1: loop(\(x,i).((2x + 1) + (if x <= 0 then 1 else x)),x,0)
1: loop(\(x,i).(3x + loop(\(x,i).(5x + loop(\(x,i).(7x + loop(\(x,i).10x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(9x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(9x + loop(\(x,i).(5x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(5x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(5x + loop(\(x,i).(9x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(9x + loop(\(x,i).(5x + loop(\(x,i).(10x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(5x + loop(\(x,i).(10x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(5x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(5x + loop(\(x,i).(3x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(3x + loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(5x + loop(\(x,i).(12x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(3x + loop(\(x,i).(5x + loop(\(x,i).(12x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(3x + loop(\(x,i).(7x + loop(\(x,i).(12x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(3x + loop(\(x,i).(7x + loop(\(x,i).(6x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(9x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(9x + loop(\(x,i).(5x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(5x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(5x + loop(\(x,i).(3x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(9x + loop(\(x,i).(3x + loop(\(x,i).(8x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(5x + loop(\(x,i).(3x + loop(\(x,i).(8x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(3x + loop(\(x,i).(8x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(9x + loop(\(x,i).(12x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(9x + loop(\(x,i).(5x + loop(\(x,i).(12x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(5x + loop(\(x,i).(12x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(3x + loop(\(x,i).(5x + loop(\(x,i).(12x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(3x + loop(\(x,i).(7x + loop(\(x,i).(12x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(9x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(3x + loop(\(x,i).(7x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(9x + loop(\(x,i).(3x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(9x + loop(\(x,i).(6x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(3x + loop(\(x,i).(9x + loop(\(x,i).(6x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(9x + loop(\(x,i).(5x + loop(\(x,i).(6x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(5x + loop(\(x,i).(6x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(3x + loop(\(x,i).(5x + loop(\(x,i).(6x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(3x + loop(\(x,i).(6x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(3x + loop(\(x,i).(8x + loop(\(x,i).10x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).10x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(9x + loop(\(x,i).(11x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(9x + loop(\(x,i).(5x + loop(\(x,i).(11x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(5x + loop(\(x,i).(11x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(9x + loop(\(x,i).(3x + loop(\(x,i).(11x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(5x + loop(\(x,i).(3x + loop(\(x,i).(11x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(3x + loop(\(x,i).(11x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(9x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(3x + loop(\(x,i).(9x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(5x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(3x + loop(\(x,i).(5x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(3x + loop(\(x,i).(7x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(11x + loop(\(x,i).(5x + loop(\(x,i).3x,(2 * i),1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(5x + loop(\(x,i).3x,(2 * i),1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(5x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)
1: loop(\(x,i).(11x + loop(\(x,i).(7x + loop(\(x,i).3x,(2 * i),1)),i,1)),x,1)
1: loop(\(x,i).(5x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(5x + loop(\(x,i).11x,i,1)),i,1)),x,1)
1: loop(\(x,i).(9x + loop(\(x,i).(3x + loop(\(x,i).11x,i,1)),i,1)),x,1)
1: loop(\(x,i).(5x + loop(\(x,i).(3x + loop(\(x,i).11x,i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(3x + loop(\(x,i).11x,i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(5x + loop(\(x,i).10x,i,1)),i,1)),x,1)
1: loop(\(x,i).(5x + loop(\(x,i).(3x + loop(\(x,i).10x,i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(3x + loop(\(x,i).10x,i,1)),i,1)),x,1)
1: loop(\(x,i).((x + 1) + loop(\(x,i).(2 + (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x))),1,i)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(3x + 1),i,1)),x,1)
1: loop(\(x,i).(9x + loop(\(x,i).(5x + 1),i,1)),x,1)
1: loop(\(x,i).(5x + loop(\(x,i).(5x + 1),i,1)),i,1)
1: loop(\(x,i).(7x + loop(\(x,i).(5x + 1),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(5x + loop(\(x,i).2x,i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(49x + 1),i,1)),x,1)
1: loop(\(x,i).(3x + loop(\(x,i).(2x + ((~1 + (2 * i)) * i)),i,0)),x,0)
1: loop(\(x,i).(5x + loop(\(x,i).(1 + (2 * (x - (x div ~2)))),i,2)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(9x + 1),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(10x + 1),i,1)),x,1)
1: loop(\(x,i).(9x + loop(\(x,i).(25x + 1),i,1)),x,1)
1: loop(\(x,i).(5x + loop(\(x,i).(25x + 1),i,1)),x,1)
1: loop(\(x,i).(3x + loop(\(x,i).(7x + 6),i,1)),(x + 1),1)
1: loop(\(x,i).(7x + loop(\(x,i).(8x + 1),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(4x + 1),i,1)),x,1)
1: loop(\(x,i).(9x + loop(\(x,i).(1 + (x * loop(\(x,i).x2,2,3))),i,1)),x,1)
1: loop(\(x,i).(x + (loop(\(x,i).(1 + (x * i)),(~1 + i),1) + i)),x,2)
1: loop(\(x,i).(5x + loop(\(x,i).(x + (((2 + i) * (1 + i)) div 2)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(6x + loop(\(x,i).(5x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(3x + loop(\(x,i).(6x + loop(\(x,i).(5x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(5x + loop(\(x,i).(8x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(5x + loop(\(x,i).(4x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(4x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(2x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(12x + loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(6x + loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).(9x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(9x + loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(9x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(3x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).10x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(3x + loop(\(x,i).(12x + loop(\(x,i).(5x + loop(\(x,i).10x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).10x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(3x + loop(\(x,i).(6x + loop(\(x,i).(5x + loop(\(x,i).10x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(9x + loop(\(x,i).(10x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(5x + loop(\(x,i).(10x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(10x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(9x + loop(\(x,i).(4x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(4x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(11x + loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(9x + loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).(5x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(9x + loop(\(x,i).(4x + loop(\(x,i).(5x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(4x + loop(\(x,i).(5x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(9x + loop(\(x,i).(2x + loop(\(x,i).(5x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(2x + loop(\(x,i).(5x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).2x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).2x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).(9x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(9x + loop(\(x,i).(10x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).(10x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(9x + loop(\(x,i).(4x + loop(\(x,i).(10x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(4x + loop(\(x,i).(10x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(9x + loop(\(x,i).(2x + loop(\(x,i).(10x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).(10x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(2x + loop(\(x,i).(10x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(9x + loop(\(x,i).(4x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).(4x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(4x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(2x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(3x + loop(\(x,i).(2x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(12x + loop(\(x,i).(4x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(6x + loop(\(x,i).(4x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(12x + loop(\(x,i).(6x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(10x + loop(\(x,i).(4x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(5x + loop(\(x,i).(10x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(10x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).5x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(9x + loop(\(x,i).(4x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(4x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(9x + loop(\(x,i).(2x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(2x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(3x + loop(\(x,i).(2x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).10x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(3x + loop(\(x,i).(12x + loop(\(x,i).(6x + loop(\(x,i).10x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).(2x + loop(\(x,i).10x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).10x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).8x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(9x + loop(\(x,i).(10x + loop(\(x,i).(11x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(5x + loop(\(x,i).(10x + loop(\(x,i).(11x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(10x + loop(\(x,i).(11x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(3x + loop(\(x,i).(10x + loop(\(x,i).(11x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).(11x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(9x + loop(\(x,i).(4x + loop(\(x,i).(11x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(4x + loop(\(x,i).(11x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(9x + loop(\(x,i).(6x + loop(\(x,i).(11x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(9x + loop(\(x,i).(2x + loop(\(x,i).(11x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).(11x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(2x + loop(\(x,i).(11x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).(~2x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(9x + loop(\(x,i).(4x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(4x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(2x + loop(\(x,i).(4x + loop(\(x,i).3x,(1 + i),1)),i,2)),x,2)
1: loop(\(x,i).(11x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),x,1)
1: loop(\(x,i).(5x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).3x,(2 * i),1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(12x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)
1: loop(\(x,i).(11x + loop(\(x,i).(4x + loop(\(x,i).3x,(2 * i),1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(4x + loop(\(x,i).3x,(2 * i),1)),i,1)),x,1)
1: loop(\(x,i).(11x + loop(\(x,i).(6x + loop(\(x,i).3x,(2 * i),1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(6x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)
1: loop(\(x,i).(11x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)),x,1)
1: loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)),x,1)
1: loop(\(x,i).(2x + loop(\(x,i).((4x + ~2) + loop(\(x,i).3x,i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).3x,i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(4x + loop(\(x,i).3x,i,1)),i,1)),x,1)
1: loop(\(x,i).(11x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),x,1)
1: loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).5x,i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(4x + loop(\(x,i).5x,i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(6x + loop(\(x,i).5x,i,1)),i,1)),i,1)
1: loop(\(x,i).(5x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),x,1)
1: loop(\(x,i).(3x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).11x,i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(12x + loop(\(x,i).11x,i,1)),i,1)),i,1)
1: loop(\(x,i).(7x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(6x + loop(\(x,i).11x,i,1)),i,1)),i,1)
1: loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).10x,i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(4x + loop(\(x,i).10x,i,1)),i,1)),x,1)
1: loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).10x,i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(2x + loop(\(x,i).10x,i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(2x + loop(\(x,i).8x,i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).4x,i,1)),i,1)),x,1)
1: loop(\(x,i).(2x + loop(\(x,i).(loop(\(x,i).2x,i,1) + (x * (~1 + i))),i,1)),x,0)
1: loop(\(x,i).(7x + loop(\(x,i).(4x + loop(\(x,i).2x,i,1)),i,1)),x,1)
1: loop(\(x,i).((x + 2) + loop(\(x,i).(0 - (loop(\(x,i).2x,x,2) mod (x + 1))),2,x)),x,1)
1: loop(\(x,i).(9x + loop(\(x,i).(11x + 1),i,1)),x,1)
1: loop(\(x,i).(5x + loop(\(x,i).(11x + 1),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(11x + 1),i,1)),x,1)
1: loop(\(x,i).(3x + loop(\(x,i).(1 - (2 * (x + (i mod 2)))),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).((9x + ~1) + loop(\(x,i).2x,i,2)),i,1)),x,1)
1: loop(\(x,i).(3x + loop(\(x,i).(~1 + (2 * (x + (i mod 2)))),i,0)),x,0)
1: loop(\(x,i).(7x + loop(\(x,i).(~1 + (2 * (4x + loop(\(x,i).2x,i,1)))),i,1)),x,1)
1: loop(\(x,i).(9x + loop(\(x,i).(~1 + (2 * (2x + loop(\(x,i).2x,i,1)))),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(~1 + (2 * (2x + loop(\(x,i).2x,i,1)))),i,1)),x,1)
1: loop(\(x,i).(x + (loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),i,1) + (x * i))),x,1)
1: loop(\(x,i).(5x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),x,1)
1: loop(\(x,i).(3x + loop(\(x,i).((x + 1) - (2 * (~2x + (x mod 2)))),i,1)),x,1)
1: loop(\(x,i).((x + 1) + loop(\(x,i).(x - (loop(\(x,i).(~x2 + 1),2,4) mod (x + 1))),2,x)),x,1)
1: loop(\(x,i).((4x + 3) + loop(\(x,i).3x,(2 * i),1)),x,1)
1: loop(\(x,i).((10x + 1) + loop(\(x,i).3x,(2 * i),1)),x,2)
1: loop(\(x,i).(11x + loop(\(x,i).3x,(2 * i),1)),x,1)
1: loop(\(x,i).(5x + loop(\(x,i).3x,(2 * i),1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).3x,(2 * i),1)),x,1)
1: loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),x,0)
1: loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).3x,i,1)),x,1)
1: loop(\(x,i).(3x + loop(\(x,i).5x,(~2 + i),1)),x,0)
1: loop(\(x,i).(7x + loop(\(x,i).5x,i,1)),x,1)
1: loop(\(x,i).(5x + loop(\(x,i).13x,i,1)),i,1)
1: loop(\(x,i).(5x + loop(\(x,i).(2 * (4x + loop(\(x,i).4x,i,1))),i,1)),x,1)
1: loop(\(x,i).(1 + (loop(\(x,i).(x2 + x),1,loop(\(x,i).2x,x,1)) + loop(\(x,i).3x,x,1))),1,(2x + 2))
1: loop(\(x,i).(5x + loop(\(x,i).~2x,i,2)),x,1)
1: loop(\(x,i).(x + (loop(\(x,i).(x * (0 - i)),i,1) + (x * i))),x,1)
1: loop(\(x,i).(3x + loop(\(x,i).(~2x + 2),i,1)),x,0)
1: loop(\(x,i).(7x + loop(\(x,i).11x,i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(2 * (4x - (x div ~2))),i,1)),x,1)
1: loop(\(x,i).(5x + loop(\(x,i).(2 * (2x - (x div (1 + i)))),(~1 + i),2)),x,1)
1: loop(\(x,i).(3x + loop(\(x,i).(2 * (2x - (x div (1 + i)))),(~1 + i),2)),x,1)
1: loop(\(x,i).(2x + loop(\(x,i).(3x + ~3),i,0)),x,2)
1: loop(\(x,i).(5x + loop(\(x,i).(3x + ~3),i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).(3x + ~3),i,1)),x,1)
1: loop(\(x,i).((x + 1) + loop(\(x,i).(x * (x - i)),2,(2 + i))),x,2)
1: loop(\(x,i).(9x + loop(\(x,i).10x,i,1)),(x + 1),1)
1: loop(\(x,i).(9x + loop(\(x,i).10x,i,1)),x,1)
1: loop(\(x,i).(7x + loop(\(x,i).10x,i,1)),1,i)
1: loop(\(x,i).(7x + loop(\(x,i).10x,i,1)),x,1)
1: loop(\(x,i).(x + (loop(\(x,i).(2x * (~1 + (2 * i))),i,1) + (2x * (1 + (2 * i))))),x,1)
1: loop(\(x,i).(3x + loop(\(x,i).8x,i,1)),(x + 1),0)
1: loop(\(x,i).(2x + loop(\(x,i).4x,(~1 + i),1)),i,1)
1: loop(\(x,i).(7x + loop(\(x,i).4x,i,1)),x,1)
1: loop(\(x,i).(x + (loop(\(x,i).(2x * i),i,1) + (x * (1 + (2 * i))))),x,1)
1: loop(\(x,i).(3x + loop(\(x,i).2x,(~2 + i),1)),x,2)
1: loop(\(x,i).(7x + loop(\(x,i).2x,i,1)),x,1)
1: loop(\(x,i).(3x + loop(\(x,i).2x,i,2)),x,1)
1: loop(\(x,i).((x + 2) + loop(\(x,i).(x * i),(x + ~2),1)),x,0)
1: loop(\(x,i).(1 + (loop(\(x,i).(x * i),x,1) + (x div 3))),(x + ~1),1)
1: loop(\(x,i).((x + 2) + loop(\(x,i).(x * i),x,2)),x,0)
1: loop(\(x,i).((x + 1) + loop(\(x,i).(x * i),i,1)),x,1)
1: loop(\(x,i).(x + (loop(\(x,i).(x * i),i,1) + (x * (1 + (2 * i))))),x,1)
1: loop(\(x,i).(2x + loop(\(x,i).(x * i),i,i)),x,1)
1: loop(\(x,i).((x + 1) + loop(\(x,i).((2 * (2 + (if x <= 0 then 0 else (2 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))))) div 3),1,i)),x,0)
1: loop(\(x,i).(x + (loop(\(x,i).((if x <= 0 then 2 else loop(\(x,i).(x div (2 - (x mod 2))),x,x)) div 2),2,x) + ((x + 1) div 2))),x,1)
1: loop(\(x,i).((x + 1) + loop(\(x,i).(x mod 2),(x mod 2),(x div 7))),x,0)
1: loop(\(x,i).((x + 1) + loop(\(x,i).(if x <= 0 then i else (x + ~1)),i,0)),x,1)
1: loop(\(x,i).((x + 2) + loop(\(x,i).loop(\(x,i).(if x <= 0 then i else (x + ~1)),x,0),2,(x + 1))),x,1)
1: loop(\(x,i).(x + 3),(~1 + ((x + ~1) div 2)),x)
1: loop(\(x,i).(x + 3),(~1 + (x div 3)),x)
1: loop(\(x,i).(x + 3),(x + ~4),x)
1: loop(\(x,i).(x + 4),(~1 + ((x + ~2) div 3)),x)
1: loop(\(x,i).(x + 4),(~1 + (x div 5)),x)
1: loop(\(x,i).(x + 4),(x mod 3),2x)
1: loop(\(x,i).(4 + i),((x div 2) div 3),x)
1: loop(\(x,i).((x + 1) + i),(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1)
1: loop(\(x,i).((x + 1) + i),x,4)
1: loop(\(x,i).((x + 1) + i),compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x),1)
1: loop(\(x,i).((x + 1) + i),compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),2)
1: loop(\(x,i).((x + 1) + i),compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x),1)
1: loop(\(x,i).((x + 2) + i),(1 + (x div 2)),x)
1: loop(\(x,i).((x + 2) + i),i,x)
1: loop(\(x,i).((2x + 1) + i),x,0)
1: loop(\(x,i).((2x + 1) + i),i,1)
1: loop(\(x,i).((2x + 2) + i),x,1)
1: loop(\(x,i).((2x + 2) + i),x,2)
1: loop(\(x,i).((2x + ~1) + i),x,2x)
1: loop(\(x,i).((2x + ~1) + i),x,x)
1: loop(\(x,i).(3x + i),4,x)
1: loop(\(x,i).(3x + i),x,1)
1: loop(\(x,i).((x2 + x) + i),x,0)
1: loop(\(x,i).(2x + i),(2x + 1),2)
1: loop(\(x,i).(2x + i),(x + 1),2)
1: loop(\(x,i).(2x + i),(x + 1),(x + 1))
1: loop(\(x,i).(2x + i),(x + ~1),2)
1: loop(\(x,i).(2x + i),(x + ~1),(x + 1))
1: loop(\(x,i).(2x + i),(x + ~2),1)
1: loop(\(x,i).(2x + i),(x + ~2),(if x <= 0 then 1 else 2))
1: loop(\(x,i).(2x + i),(~1 + i),i)
1: loop(\(x,i).(2x + i),(2 * (x div 2)),2)
1: loop(\(x,i).(2x + i),2x,2)
1: loop(\(x,i).(2x + i),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).(2x + i),x,(x + 1))
1: loop(\(x,i).(2x + i),x,(2x + 2))
1: loop(\(x,i).(2x + i),x,(i * i * i))
1: loop(\(x,i).(2x + i),compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),2)
1: loop(\(x,i).((x + 2) + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),i)),x,2)
1: loop(\(x,i).((x + 3) + compr(\x.((x div 4) mod 2),i)),x,1)
1: loop(\(x,i).((x + 2) + compr(\x.(loop(\(x,i).(2x + 1),x,0) mod (x + 1)),i)),x,2)
1: loop(\(x,i).(2 + (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x))),1,i)
1: loop(\(x,i).((2x + 2) + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i)),x,2)
1: loop(\(x,i).((x + 2) + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i)),x,1)
1: loop(\(x,i).((x + 2) + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i)),i,2)
1: loop(\(x,i).((x + 1) - ((1 + loop(\(x,i).2x,x,(if x <= 0 then 1 else (x * i)))) div 3)),x,1)
1: loop(\(x,i).((2x + 3) - (((2x + 1) * (1 + (if x <= 0 then 1 else 2))) mod 7)),x,1)
1: loop(\(x,i).((x + 1) - (((~x2 + x) mod (3 + (x div 2))) mod 2)),x,x)
1: loop(\(x,i).((2x + 2) - ((4x + 4) mod 7)),x,1)
1: loop(\(x,i).((x + 2) - (((x + 2) div (2 - (x mod ~4))) mod 2)),x,0)
1: loop(\(x,i).((6x + 2) - ((x div 2) mod 2)),x,1)
1: loop(\(x,i).((6x + 2) - ((x div 2) mod 2)),x,2)
1: loop(\(x,i).((x + 2) - (((x2 div 3) mod (2x + 1)) mod 2)),x,1)
1: loop(\(x,i).(~x + 4),(~2 + ((x + ~2) div 3)),1)
1: loop(\(x,i).(~x + 6),(x div 2),(x mod 2))
1: loop(\(x,i).((5x + 2) + (x mod 2) - (x mod 3)),x,2)
1: loop(\(x,i).((x + 2) + (x div 4) - (x div (1 + (2 * i)))),x,2)
1: loop(\(x,i).((x + 1) + loop(\(x,i).2x,x,1) - (x mod 2)),x,1)
1: loop(\(x,i).((x + 1) + loop(\(x,i).((if x <= 0 then 2 else loop(\(x,i).(x div (2 - (x mod 2))),x,x)) div 2),2,x) - (x mod 2)),x,1)
1: loop(\(x,i).((x + 1) + i - (x div 4)),(x div 2),1)
1: loop(\(x,i).((x + ~1) + i - ((1 + (x div 4)) div 2)),x,2)
1: loop(\(x,i).((5x + 1) - (x mod 3)),(x + 1),2)
1: loop(\(x,i).((5x + 1) - (x mod 3)),x,2)
1: loop(\(x,i).(1 + (2 * (2x + (x mod 2))) - ((x div 2) mod 2)),x,1)
1: loop(\(x,i).(1 + (2 * (2x + (x mod 2))) - ((x div 2) mod 2)),x,2)
1: loop(\(x,i).((x + 1) + (x * (2 + i)) - (2 * (x mod 2))),x,0)
1: loop(\(x,i).((9x + 2) - ((x div 2) mod 2)),x,2)
1: loop(\(x,i).((9x + 1) - ((x div 3) mod 2)),x,1)
1: loop(\(x,i).(~x + 17),x,(x + 2))
1: loop(\(x,i).((10x + 1) - (((x + 1) div 3) mod 2)),x,1)
1: loop(\(x,i).((10x + 1) - ((x div 2) mod 2)),(2x + 1),1)
1: loop(\(x,i).((10x + 1) - ((x div 2) mod 2)),x,1)
1: loop(\(x,i).((10x + 2) - ((x div 2) mod 2)),x,1)
1: loop(\(x,i).((10x + 2) - ((x div 2) mod 2)),x,2)
1: loop(\(x,i).((10x + 1) - (x mod 2)),(x div 2),1)
1: loop(\(x,i).((10x + 1) - (if (x + ~1) <= 0 then x else 0)),2x,1)
1: loop(\(x,i).((10x + 21) - (x mod 2)),(x div 2),(x mod 2))
1: loop(\(x,i).(1 + (8 * (x mod 2)) - (x div 5)),(x + ~1),0)
1: loop(\(x,i).((8x + 1) - ((x div 2) mod 3)),x,1)
1: loop(\(x,i).((8x + 1) - (x mod 2)),x,1)
1: loop(\(x,i).((8x + 1) - (x mod ~3)),x,1)
1: loop(\(x,i).((4x + 1) - (((~1 + i) * i) div 2)),x,1)
1: loop(\(x,i).((4x + 1) - ((i mod 3) div 2)),x,1)
1: loop(\(x,i).((4x + 1) - ((i mod 3) mod 2)),x,1)
1: loop(\(x,i).((4x + 1) - (x mod 2)),x,1)
1: loop(\(x,i).((4x + 1) - loop(\(x,i).(2 * (x - (i mod 2))),i,1)),x,0)
1: loop(\(x,i).((4x + 1) - i),x,1)
1: loop(\(x,i).((2x2 + 1) - (x mod 2)),x,1)
1: loop(\(x,i).(3x - (4 div (1 + i))),x,2)
1: loop(\(x,i).((2x + 1) - ((1 - (x div 2)) div 3)),x,1)
1: loop(\(x,i).((2x + 1) - ((~x + ((x + ~2) * (x div 3))) div 3)),x,1)
1: loop(\(x,i).((2x + 1) - (((32 mod (x + 1)) div 2) div 2)),x,1)
1: loop(\(x,i).((2x + 1) - (x div 3)),x,0)
1: loop(\(x,i).((2x + 2) - (x div 4)),(x div 2),(x mod 2))
1: loop(\(x,i).((2x + 2) - (x div 4)),x,1)
1: loop(\(x,i).((2x + 1) - (x div (2 + (if (x mod 2) <= 0 then 1 else 8)))),x,1)
1: loop(\(x,i).((2x + 1) - ((x * (x div 2)) mod 2)),(1 + (x div 2)),(1 + (x mod 2)))
1: loop(\(x,i).((2x + 1) - ((x * i) mod 2)),x,2)
1: loop(\(x,i).((2x + 1) - (x mod 3)),x,0)
1: loop(\(x,i).((2x + 1) - (x mod 3)),x,1)
1: loop(\(x,i).((2x + 1) - (i mod (2 * (1 + (x mod 2))))),x,0)
1: loop(\(x,i).(2 + (2 * i) - (x div 4)),x2,1)
1: loop(\(x,i).(1 + (x * i) - (x div 2)),x,0)
1: loop(\(x,i).(1 + (x * i) - (i div 2)),x,0)
1: loop(\(x,i).(2 + (x * i) - (i div 2)),x,1)
1: loop(\(x,i).(2 + ((x + 1) div 2) - ((~x + 3) div 9)),2,x)
1: loop(\(x,i).(x + ((x + 1) div 2) - (x div (~1 + (2 * i)))),x,1)
1: loop(\(x,i).((2x + ~1) + ((2 * ((4x + 1) + ((2 * (2 + (if x <= 0 then 1 else (2 * (3x + ((x - (x div 12)) div 2)))))) div 3))) div 3)),x,1)
1: loop(\(x,i).((2x + ~1) + ((2 * ((2x + 2) + (((2x + 1) + (2 * ((x + 1) + (5 * (x + (x div 4)))))) div 3))) div 3)),x,1)
1: loop(\(x,i).(1 + ((2x * (1 + (2 * i))) div (2 + i)) - (x mod 2)),x,1)
1: loop(\(x,i).(1 + ((2 * ((x + ((x div 2) mod 2)) div 2)) div 3) - (x mod 2)),2,2x)
1: loop(\(x,i).(1 + (x2 div 2) - (x mod 2)),1,(x + ~1))
1: loop(\(x,i).(1 + (x2 div 2) - (x mod 2)),2,loop(\(x,i).2x,x,1))
1: loop(\(x,i).(1 + (x2 div 2) - (x mod 2)),2,x)
1: loop(\(x,i).(1 + (loop(\(x,i).2x,x,1) div 3) - ((x div 3) mod 2)),1,(x + 1))
1: loop(\(x,i).(1 + (x div 2) - (2 * (x mod 2))),3,(x + 3))
1: loop(\(x,i).(1 + (x div 2) - (2 * (x mod 2))),((x + 1) div 2),1)
1: loop(\(x,i).(x + (x div 2) - ((x + 1) div 5)),2,x)
1: loop(\(x,i).(1 + (x mod 2) - (2 * ((x div 5) mod 2))),1,(~1 + (x div 2)))
1: loop(\(x,i).(x + loop(\(x,i).(1 + (x * i)),(~1 + i),1) - i),x,0)
1: loop(\(x,i).((x + ~1) + loop(\(x,i).(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 1))),2,x)),x,x)
1: loop(\(x,i).(11x + loop(\(x,i).(~1 + (2 * (4x + loop(\(x,i).2x,i,1)))),i,1)),x,1)
1: loop(\(x,i).(11x + loop(\(x,i).4x,i,1)),x,1)
1: loop(\(x,i).((x + 2) - ((~x + 4) div (2 + i))),x,1)
1: loop(\(x,i).((x + 3) - ((~x + 1) div 3)),x,2)
1: loop(\(x,i).((x + 2) - ((x div 2) div ~2)),x,2)
1: loop(\(x,i).(2x - (x div (1 + (x mod 2)))),x,x)
1: loop(\(x,i).(7x - (i div ~2)),x,0)
1: loop(\(x,i).(x + (x div 3) - (i div ~2)),x,1)
1: loop(\(x,i).((x + 1) - (i div (~2 + (x mod ~2)))),x,2)
1: loop(\(x,i).((x + 2) - (((x + 1) div (1 + (x mod 9))) mod 2)),x,2)
1: loop(\(x,i).((x + 2) - (((x - ((x - i) mod 6)) div 2) mod 2)),x,2)
1: loop(\(x,i).((x + 3) - ((x div 3) mod 3)),x,0)
1: loop(\(x,i).((x + 2) - ((x div 5) mod 2)),x,0)
1: loop(\(x,i).((x + 2) - ((x div (2 + ((x div 2) div 3))) mod 2)),x,2)
1: loop(\(x,i).((x + 1) - ((x div (1 + (x div 5))) mod 2)),2,x)
1: loop(\(x,i).((x + 2) - ((x div (8 * (~2 + (x mod 2)))) mod 2)),x,1)
1: loop(\(x,i).(3x - (x mod (1 + (2 * i)))),x,4)
1: loop(\(x,i).((x + ~1) + i - (((x + 1) div 2) div 3)),x,1)
1: loop(\(x,i).(x + i - (2 * (~x + (x mod 2)))),x,0)
1: loop(\(x,i).((21x + 1) + i),x,1)
1: loop(\(x,i).(x + i - (2 * ((x div (1 + i)) * i))),x,1)
1: loop(\(x,i).(x + i - ((~x + 2) div 4)),x,2)
1: loop(\(x,i).(2x + i - ((x * (x - i)) div (x + 4))),2,x)
1: loop(\(x,i).(x + i - (x div (3 + i))),x,2)
1: loop(\(x,i).(x + i - (x div (1 + (6 * i)))),x,1)
1: loop(\(x,i).(x + i - (x div ~4)),x,1)
1: loop(\(x,i).(2 + i - ((x div 2) mod 2)),x,0)
1: loop(\(x,i).(x + i - (x mod 13)),x,0)
1: loop(\(x,i).(x + i - (if (x + ~1) <= 0 then 0 else (2 * (1 + i)))),x,0)
1: loop(\(x,i).(x + i - (if (~x + i) <= 0 then (2 * i) else 0)),x,0)
1: loop(\(x,i).(x + i - (if (~x + i) <= 0 then (2 * i) else 0)),x,1)
1: loop(\(x,i).(3x + 1),(1 + (x div 2)),(1 + (x mod 2)))
1: loop(\(x,i).(3x + 1),(x + 1),x)
1: loop(\(x,i).(3x + 1),(x + ~1),16)
1: loop(\(x,i).(3x + 1),2x,0)
1: loop(\(x,i).(3x + 1),(x div 2),2)
1: loop(\(x,i).(3x + 1),(x div (4 + (x div 4))),1)
1: loop(\(x,i).(3x + 1),x,(2 + (x mod 2)))
1: loop(\(x,i).(3x + 1),x,(1 + loop(\(x,i).2x,x,1)))
1: loop(\(x,i).(3x + 1),x,6)
1: loop(\(x,i).(3x + 1),x,8)
1: loop(\(x,i).(3x + 1),x,(if (x + ~2) <= 0 then 1 else 4))
1: loop(\(x,i).(3x + 2),(2x + 1),1)
1: loop(\(x,i).(3x + 2),(x + 1),x)
1: loop(\(x,i).(3x + 2),(x + 2),1)
1: loop(\(x,i).(3x + 2),(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1)
1: loop(\(x,i).(3x + 2),(~5 + (x div 2)),1)
1: loop(\(x,i).(3x + 2),(2x + 2),x)
1: loop(\(x,i).(3x + 2),((x + ~1) div 3),x)
1: loop(\(x,i).(3x + 2),(x div 2),(x mod 2))
1: loop(\(x,i).(3x + 2),(x div (2 + (x div (1 + (((if (x mod 2) <= 0 then 1 else x) mod 4) + ((x mod 3) div 2)))))),1)
1: loop(\(x,i).(3x + 2),x,4)
1: loop(\(x,i).(3x + 2),x,10)
1: loop(\(x,i).(3x + 2),x,(2x + 4))
1: loop(\(x,i).(3x + 2),x,(if x <= 0 then 1 else 0))
1: loop(\(x,i).(3x + 2),x,loop(\(x,i).2x,x,1))
1: loop(\(x,i).(3x + 2),i,x)
1: loop(\(x,i).(3x + (x div 3)),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).(3x + ((i div 2) mod 2)),x,0)
1: loop(\(x,i).(x + (3 * i)),(x div 2),1)
1: loop(\(x,i).(x + 8),(x + ~10),x)
1: loop(\(x,i).((4x + 4) + (x div 4)),x,0)
1: loop(\(x,i).(5x + 4),4,x)
1: loop(\(x,i).(5x + 4),(x + 1),x)
1: loop(\(x,i).(5x + 4),6,x)
1: loop(\(x,i).(5x + 4),(x div 3),(x mod 3))
1: loop(\(x,i).(5x + 4),x,2)
1: loop(\(x,i).(5x + 4),x,4)
1: loop(\(x,i).(5x + 4),x,6)
1: loop(\(x,i).(5x + 4),x,8)
1: loop(\(x,i).(5x + 4),x,10)
1: loop(\(x,i).(5x + 4),x,(if x <= 0 then 1 else 0))
1: loop(\(x,i).(5x + 4),x,loop(\(x,i).2x,x,1))
1: loop(\(x,i).(1 + (5 * (1 + i))),x,1)
1: loop(\(x,i).(5x + 1),(x + 1),(8x + 6))
1: loop(\(x,i).(5x + 1),(2x + 4),0)
1: loop(\(x,i).(5x + 2),2,loop(\(x,i).(2x + 2),x,1))
1: loop(\(x,i).(5x + 2),(1 + (x div 2)),(1 + (x mod 2)))
1: loop(\(x,i).(5x + 2),(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),2)
1: loop(\(x,i).(5x + 2),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).(5x + 2),(x div 2),(x mod 2))
1: loop(\(x,i).(5x + 2),x,3)
1: loop(\(x,i).(5x + 2),x,5)
1: loop(\(x,i).(5x + 3),(x div 2),(1 + (2 * (x mod 2))))
1: loop(\(x,i).(5x + 3),x,0)
1: loop(\(x,i).((5x + 1) + i),x,1)
1: loop(\(x,i).(5x + (x div 5)),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).(5x + ((1 + i) mod 3)),x,1)
1: loop(\(x,i).(5x + ((1 + i) mod 4)),x,1)
1: loop(\(x,i).(5x + ((2 + i) mod 4)),x,2)
1: loop(\(x,i).(5x + ((~x + 1) mod 3)),x,1)
1: loop(\(x,i).(5x + ((1 - i) mod 4)),x,1)
1: loop(\(x,i).(5x + ((~1 + i) mod 3)),x,2)
1: loop(\(x,i).(5x + ((i * i) mod 3)),(x + 1),1)
1: loop(\(x,i).(5x + (if (2 - i) <= 0 then x else 1)),x,(x + 1))
1: loop(\(x,i).(5x + loop(\(x,i).2x,i,1)),x,1)
1: loop(\(x,i).(2 + (5 * i)),(x + ~7),1)
1: loop(\(x,i).(x + (5 * i)),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).(x + (5 * i)),i,i)
1: loop(\(x,i).(x2 + 5x + 1),2,x)
1: loop(\(x,i).((2x + 12) + (if x <= 0 then ~4 else 1)),4,x)
1: loop(\(x,i).(x + ((5 + i) * i)),(x + 1),0)
1: loop(\(x,i).((x + 1) + ((6 + i) * i)),x,1)
1: loop(\(x,i).(x + (2 * ((x + 4) + i))),x,0)
1: loop(\(x,i).(2 + (x * ((x + 4) + i))),2,5)
1: loop(\(x,i).(1 + (2 * (5x + (i mod 2)))),(2x + 1),1)
1: loop(\(x,i).(1 + (2 * (5x + (i mod 2)))),(x + 1),0)
1: loop(\(x,i).(1 + (2 * (5x + (i mod 2)))),x,1)
1: loop(\(x,i).(1 + (2 * (3x + (i mod 2)))),(x + 1),0)
1: loop(\(x,i).(1 + (2 * (3x + (i mod 2)))),x,1)
1: loop(\(x,i).(1 + ((x + 3) * i)),4,x)
1: loop(\(x,i).((2x + 8) + i),x,2)
1: loop(\(x,i).(x2 + 4x + 1),2,x)
1: loop(\(x,i).(x2 + 4x + 2),2,3)
1: loop(\(x,i).(x + ((x + 4) * i)),(x + 1),x)
1: loop(\(x,i).(x + ((3 + i) * (2 + i))),x,0)
1: loop(\(x,i).(1 + (x * (3 + i))),(x + ~1),1)
1: loop(\(x,i).(1 + (x * (3 + i))),x,0)
1: loop(\(x,i).(1 + (x * (4 + i))),2,x)
1: loop(\(x,i).(4 + (x * (4 + i))),3,x)
1: loop(\(x,i).(1 + (2 * ((x + 1) + i))),x,0)
1: loop(\(x,i).((2 * ((x + 2) + i)) + i),x,4)
1: loop(\(x,i).(x + (3 * (3x + i))),(x + 1),0)
1: loop(\(x,i).(x + (2 * (2x + i))),(x + ~1),0)
1: loop(\(x,i).(x + (4 * (2x + i))),(x + ~1),0)
1: loop(\(x,i).(x + ((4 - (i mod 2)) * i)),i,1)
1: loop(\(x,i).(1 + (5 * ((2x + 2) - (x mod 2)))),(2x + 1),1)
1: loop(\(x,i).(1 + (2 * ((2x + 2) - (x mod 5)))),(x + 1),1)
1: loop(\(x,i).(x + (3 * ((3x + ~4) + i))),x,1)
1: loop(\(x,i).(x + (7 * (if (~2 + i) <= 0 then 1 else x))),2x,1)
1: loop(\(x,i).(7x + 1),(2x2 + 6x + 4),1)
1: loop(\(x,i).((7x + 1) + (i mod 2)),x,1)
1: loop(\(x,i).((7x + 1) + (i mod 3)),x,1)
1: loop(\(x,i).(7x + ((1 + i) mod 3)),x,1)
1: loop(\(x,i).(7x + ((1 + i) mod 4)),(x + 1),0)
1: loop(\(x,i).(7x + ((1 + i) mod 4)),x,1)
1: loop(\(x,i).(7x + ((1 - i) mod 3)),x,1)
1: loop(\(x,i).(7x + ((1 - i) mod 4)),x,1)
1: loop(\(x,i).(7x + ((~1 + i) mod 3)),x,2)
1: loop(\(x,i).(7x + (x mod 4)),(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1)
1: loop(\(x,i).(x + ((3x + 1) * (1 + i))),x,1)
1: loop(\(x,i).(27x + 19),2,x)
1: loop(\(x,i).(3x2 + 2x + 2),1,loop(\(x,i).10x,x,1))
1: loop(\(x,i).(2x + 17),x,0)
1: loop(\(x,i).(13x + 1),2,x2)
1: loop(\(x,i).(13x + 1),x,0)
1: loop(\(x,i).(13x + 1),x,1)
1: loop(\(x,i).(1 + (x * ((4x + 3) + i))),2,x)
1: loop(\(x,i).(1 + (2 * (1 + (5 * (if x <= 0 then 1 else x))))),x,0)
1: loop(\(x,i).(10x + 3),(x + 1),2)
1: loop(\(x,i).(10x + 3),2x,1)
1: loop(\(x,i).(10x + 3),2x,2)
1: loop(\(x,i).(10x + 3),x,2)
1: loop(\(x,i).(1 + (2 * (5x + i))),x,1)
1: loop(\(x,i).(x + ((1 + (5 * i)) * (1 + i))),x,2)
1: loop(\(x,i).((x + 1) + ((2 + (5 * i)) * i)),x,1)
1: loop(\(x,i).(x + ((1 + ((4 + i) * i)) * i)),x,0)
1: loop(\(x,i).(x + (4 * (2 + ((4 + i) * i)))),x,1)
1: loop(\(x,i).((x5 + x2 + 2x) + (x div 2)),x,1)
1: loop(\(x,i).(x + ((1 + (2 * (1 + (4 * i)))) * i)),x,1)
1: loop(\(x,i).(2x2 + 2x + 5),(x div 2),(x mod 2))
1: loop(\(x,i).(x + ((1 + ((1 + i) * i)) * i)),x,0)
1: loop(\(x,i).(x + ((2 + ((1 + i) * i)) * i)),(x + ~1),1)
1: loop(\(x,i).(x + ((1 + (2 * (2 + i))) * (~1 + i))),x,0)
1: loop(\(x,i).(x + ((1 + (2 * (2 + i))) * (x div 2))),2,x)
1: loop(\(x,i).(x + (3 * (x + (2 * (x + i))))),(x + 1),0)
1: loop(\(x,i).(x + (2 * (1 + (2 * (2x - (i mod 2)))))),x,1)
1: loop(\(x,i).(x + ((1 + ((~1 + (2 * i)) * i)) * i)),(x + 1),0)
1: loop(\(x,i).(1 + ((x3 + ~x2 + x) * i)),x,1)
1: loop(\(x,i).(x + ((2 + ((~2 + i) * i)) * i)),x,1)
1: loop(\(x,i).(27x + 7),2,x)
1: loop(\(x,i).(1 + (x * (1 + (9 * i)))),2,x)
1: loop(\(x,i).(17x + 1),2,x2)
1: loop(\(x,i).(17x + 1),x,0)
1: loop(\(x,i).(17x + 1),x,1)
1: loop(\(x,i).(41x + 1),x,0)
1: loop(\(x,i).(x + ((1 + (8 * (~1 + i))) * i)),x,0)
1: loop(\(x,i).(37x + 1),2,x2)
1: loop(\(x,i).(37x + 1),x,0)
1: loop(\(x,i).(10x + 17),x,2)
1: loop(\(x,i).(x + (((6 * (1 + i)) + i) * i)),x,1)
1: loop(\(x,i).(33x + 1),2,x2)
1: loop(\(x,i).(33x + 1),x,0)
1: loop(\(x,i).(49x + 1),x,0)
1: loop(\(x,i).(49x + 1),i,1)
1: loop(\(x,i).(x + ((1 + (8 * (x mod 2))) * (1 + i))),x,1)
1: loop(\(x,i).(1 + (x * (1 + (8 * i)))),2,x)
1: loop(\(x,i).(2 + (x * (1 + (4 * (i mod 2))))),x,1)
1: loop(\(x,i).(8x + 3),x,0)
1: loop(\(x,i).(4x2 + x + 1),2,6)
1: loop(\(x,i).(1 + (2 * (4x + (i mod 2)))),(x + 1),0)
1: loop(\(x,i).(1 + (2 * (4x + (i mod 2)))),x,1)
1: loop(\(x,i).(x + (2 * (4x + i))),2,x)
1: loop(\(x,i).(x4 + 2x3 + x + 1),3,2x)
1: loop(\(x,i).(x + ((1 + (4 * i)) * i)),x,0)
1: loop(\(x,i).(1 + (x * (1 + (6 * i)))),2,x)
1: loop(\(x,i).(1 + (x * (2 + (x * (i * i))))),x,0)
1: loop(\(x,i).(1 + (3 * (1 + (2 * ((1 + (x div 2)) div 2))))),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).(x + (5 * (x + (2 * (i mod 2))))),x,0)
1: loop(\(x,i).(x + (((2 * (i mod 2)) + i) * i)),i,x)
1: loop(\(x,i).(x + ((1 + ((i mod 2) * i)) * (1 + i))),x,1)
1: loop(\(x,i).((4x + 2) + (if (x + ~2) <= 0 then 2 else 1)),x,2)
1: loop(\(x,i).(7x + 3),(x + 1),1)
1: loop(\(x,i).(7x + 3),x,1)
1: loop(\(x,i).(10x + 6),x,(if x <= 0 then 1 else 0))
1: loop(\(x,i).(11x + 5),x,1)
1: loop(\(x,i).(11x + 5),x,2)
1: loop(\(x,i).(11x + 5),x,3)
1: loop(\(x,i).(11x + 5),x,4)
1: loop(\(x,i).(2x2 + 3),2,3x)
1: loop(\(x,i).(3x2 + x + 3),1,loop(\(x,i).10x,x,1))
1: loop(\(x,i).(5x2 + x + 10),2,x)
1: loop(\(x,i).(x3 + 2x + 1),(2x + 2),(x + 1))
1: loop(\(x,i).((x + 1) + ((1 + (2 * i)) * i)),x,1)
1: loop(\(x,i).(x + ((1 + (2 * i)) * i)),(2x + 1),x)
1: loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,(1 + (x div 2)))
1: loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,x)
1: loop(\(x,i).((2 * (x + (2 * i))) + i),x,0)
1: loop(\(x,i).((2 * (x + (2 * i))) + i),x,2)
1: loop(\(x,i).((2 * (x + (2 * i))) + i),x,(2x + 1))
1: loop(\(x,i).(x + (2 * (2 + (i * i)))),x,0)
1: loop(\(x,i).(x + ((2 + (i * i)) * i)),x,x)
1: loop(\(x,i).(1 + (x * ((i * i) + (x div 2)))),(x + ~1),1)
1: loop(\(x,i).(x + ((1 + (((1 + i) * i) div 2)) * (1 + i))),x,1)
1: loop(\(x,i).(x + ((1 + (((2 + i) * i) div 2)) * (1 + i))),x,1)
1: loop(\(x,i).(1 + (x * (1 + (x2 div 2)))),x,0)
1: loop(\(x,i).(1 + (2 * (2 + (loop(\(x,i).2x,x,2) div (x + 1))))),x,0)
1: loop(\(x,i).(1 + (3 * (1 + (x div 2)))),(x div 2),(x mod 2))
1: loop(\(x,i).(1 + ((1 + (x div 2)) * i)),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).(((1 + (x div 2)) * i) + ((1 + (x div 2)) div 2)),x,1)
1: loop(\(x,i).(1 + (2 * (x + (x div 2)))),x,2)
1: loop(\(x,i).(2 + ((4 * (x + (x div 2))) + ((x div 2) mod 3))),(x + 1),0)
1: loop(\(x,i).(1 + ((x + 2) * (x + (x div 2)))),2,3)
1: loop(\(x,i).(2 + ((x + 2) * (x + (x div 2)))),x,2)
1: loop(\(x,i).(1 + (x * (x + (x div 2)))),(x2 + 2),x)
1: loop(\(x,i).(1 + (x * (2 + (x div 3)))),x,0)
1: loop(\(x,i).((x + 1) + ((2 + (x div 3)) * i)),x,1)
1: loop(\(x,i).(1 + (x * (2 + (x div 4)))),x,1)
1: loop(\(x,i).(1 + (2 * (x + (x div (if (i mod 3) <= 0 then 1 else 2))))),x,1)
1: loop(\(x,i).(x + ((1 + (i div 2)) * (1 + i))),x,1)
1: loop(\(x,i).(x + ((2 + (i div 2)) * (i div 2))),x,1)
1: loop(\(x,i).(x + ((x + (i div 2)) * (2 + i))),x,0)
1: loop(\(x,i).(x + ((x + (i div 2)) * (2 + i))),x,1)
1: loop(\(x,i).(x + ((x + (i div 2)) * i)),(x + 1),0)
1: loop(\(x,i).(x + ((x + (i div 2)) * i)),(x + ~1),1)
1: loop(\(x,i).(x + ((2 + (i div 3)) * (1 + i))),x,x)
1: loop(\(x,i).((x * (2 + (3 mod (x + 2)))) + (x mod 2)),x,1)
1: loop(\(x,i).(1 + ((x + 1) * (1 + (4 mod (x + 1))))),2x,2)
1: loop(\(x,i).(x + (2 * (4x + ((2 + i) mod 4)))),(x + 1),0)
1: loop(\(x,i).(x + (2 * (x + ((x div (2 + i)) mod 2)))),x,1)
1: loop(\(x,i).(1 + (2 * (x + ((if x <= 0 then 1 else x2) mod 3)))),1,(x div 2))
1: loop(\(x,i).(2 + (x * (2 + (x mod 2)))),(x div 2),(x mod 2))
1: loop(\(x,i).(1 + (2 * (x + (x mod 2)))),x,0)
1: loop(\(x,i).(1 + (4 * (x + (x mod 2)))),x,0)
1: loop(\(x,i).((3 * (2x + (x mod 3))) + ((x div 2) mod 2)),x,1)
1: loop(\(x,i).(x + (5 * (x + (x mod 3)))),x,1)
1: loop(\(x,i).((x * (1 + (i mod 2))) + (x mod 2)),x,1)
1: loop(\(x,i).(x + ((2 + (i mod 2)) * i)),i,x)
1: loop(\(x,i).(1 + (2 * (2x + (i mod 2)))),x,1)
1: loop(\(x,i).(1 + (2 * (x + (i mod 2)))),x,x)
1: loop(\(x,i).(x + (2 * (x + (i mod 2)))),(x + ~1),x)
1: loop(\(x,i).(x + (2 * (x + (i mod 2)))),i,0)
1: loop(\(x,i).(1 + (3 * (x + (i mod 2)))),x,1)
1: loop(\(x,i).(x + (3 * (x + (i mod 2)))),(x + 1),0)
1: loop(\(x,i).(x + (3 * (x + (i mod 2)))),x,1)
1: loop(\(x,i).(x + ((x + (i mod 2)) * i)),x,0)
1: loop(\(x,i).(x + (2 * (x + (if (2 - i) <= 0 then x else 1)))),x,x)
1: loop(\(x,i).(x + (3 * (x + (if (2 - i) <= 0 then x else 1)))),x,x)
1: loop(\(x,i).(x + (4 * (x + (if (2 - i) <= 0 then x else 1)))),x,x)
1: loop(\(x,i).(2x + (3 * (x + (if (x + ~1) <= 0 then 2 else 1)))),x,1)
1: loop(\(x,i).(x + (2 * (1 + (if (x + ~4) <= 0 then 0 else 2)))),2,x)
1: loop(\(x,i).(x + (2 * (x + (if (~2 + i) <= 0 then 1 else x)))),2x,1)
1: loop(\(x,i).(1 + (3 * (x + (if (x mod 3) <= 0 then 1 else 2)))),2,(x mod 3))
1: loop(\(x,i).(1 + (x * (1 + (if (x mod 3) <= 0 then 2 else 0)))),2x,1)
1: loop(\(x,i).(1 + (x * (1 + (if (x mod (~1 + (2 * i))) <= 0 then 2x else 1)))),x,0)
1: loop(\(x,i).(1 + (x * (1 + (if (x mod 10) <= 0 then x else 0)))),x,2)
1: loop(\(x,i).(1 + (x * (1 + (if (i mod 2) <= 0 then 4 else 1)))),x,1)
1: loop(\(x,i).(x + (2 * (x + (if (i mod 3) <= 0 then 2 else 0)))),x,1)
1: loop(\(x,i).(x + (2 * (1 + (if x <= 0 then 2 else x)))),(x div 2),(x mod 2))
1: loop(\(x,i).(1 + (2 * (1 + loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)))),2,x)
1: loop(\(x,i).(1 + (x * (1 + loop(\(x,i).(x2 + x),2,2)))),x,0)
1: loop(\(x,i).(1 + (3 * (loop(\(x,i).(3x + ~3),x,2) + loop(\(x,i).2x,x,2)))),1,(x + 1))
1: loop(\(x,i).(1 + (3 * (2 + loop(\(x,i).2x2,x,3)))),x,2)
1: loop(\(x,i).((x + 1) + ((1 + loop(\(x,i).2x,i,2)) * i)),x,1)
1: loop(\(x,i).(1 + (x * (1 + loop(\(x,i).x2,(~1 + i),2)))),x,1)
1: loop(\(x,i).(x + ((x + loop(\(x,i).(x * i),i,1)) * (1 + i))),(x + 2),0)
1: loop(\(x,i).(x + ((x + loop(\(x,i).(x * i),i,1)) * (1 + i))),x,0)
1: loop(\(x,i).(x + ((x + loop(\(x,i).(x * i),i,1)) * (1 + i))),x,1)
1: loop(\(x,i).(x + ((x + loop(\(x,i).(x * i),i,1)) * i)),x,0)
1: loop(\(x,i).(x + ((x + loop(\(x,i).(x * i),i,1)) * i)),x,1)
1: loop(\(x,i).(x + ((x + loop(\(x,i).(x * i),i,i)) * (1 + i))),x,0)
1: loop(\(x,i).(2x + 3),(~1 + (x * (x mod 2))),1)
1: loop(\(x,i).(2x + 3),(~1 + ((3 * (x div 4)) div 2)),1)
1: loop(\(x,i).(2x + 3),x,8)
1: loop(\(x,i).(2x + 3),x,(if x <= 0 then 1 else 0))
1: loop(\(x,i).(2x + 3),x,x)
1: loop(\(x,i).((2x + 2) + (2 mod (x + 1))),(x div 2),(x mod 2))
1: loop(\(x,i).((2x + 2) + (x mod 3)),x,1)
1: loop(\(x,i).(x2 + x + 1),1,loop(\(x,i).(x2 + 1),x,0))
1: loop(\(x,i).(x2 + x + 1),1,loop(\(x,i).(7x + ~6),x,0))
1: loop(\(x,i).(x2 + x + 1),(1 - (x mod 4)),2x)
1: loop(\(x,i).(x2 + x + 1),(if (x mod 2) <= 0 then 2 else 0),2)
1: loop(\(x,i).(x2 + x + 1),(if x <= 0 then 0 else 1),loop(\(x,i).2x,x,1))
1: loop(\(x,i).(x2 + x + 1),x,2)
1: loop(\(x,i).(x2 + x + 2),1,loop(\(x,i).2x,x,1))
1: loop(\(x,i).(x2 + x + 2),2,12)
1: loop(\(x,i).(x2 + x + 2),(4x + 4),x)
1: loop(\(x,i).(x2 + x + 2),(x2 + 3x + 2),1)
1: loop(\(x,i).((x2 + x + ~1) + (x mod 2)),x,1)
1: loop(\(x,i).((x2 + x) + (x div 2)),1,loop(\(x,i).2x,x,1))
1: loop(\(x,i).((x2 + x) + (i mod 2)),x,1)
1: loop(\(x,i).(1 + ((x + 1) * i)),(2 * (if (~2 + (x div 3)) <= 0 then 0 else 2)),1)
1: loop(\(x,i).(x + ((x + 1) * i)),(1 + (x div 2)),(x mod 2))
1: loop(\(x,i).(2x + 5),(x + 3),4)
1: loop(\(x,i).(2x + 5),(x div 2),(2 + (3 * (x mod 2))))
1: loop(\(x,i).(2x + 5),x,6)
1: loop(\(x,i).(3x + 4),(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),2)
1: loop(\(x,i).(3x + 4),x,2)
1: loop(\(x,i).(3x + 4),x,(x + 2))
1: loop(\(x,i).(3x + 4),x,18)
1: loop(\(x,i).(3x + 4),x,(4 * (2 - (x mod 2))))
1: loop(\(x,i).(3x + 4),i,0)
1: loop(\(x,i).((2x + 4) + i),(x + ~1),1)
1: loop(\(x,i).((2x + 4) + i),(x + ~2),0)
1: loop(\(x,i).((2x + 4) + i),x,4)
1: loop(\(x,i).(3x + 7),i,1)
1: loop(\(x,i).(3x + 8),(2x + 2),0)
1: loop(\(x,i).(x2 + 3x + 4),2,2)
1: loop(\(x,i).(x2 + 4x + 6),2,2)
1: loop(\(x,i).(x2 + 2x + 1),2,5)
1: loop(\(x,i).(x2 + 2x + 1),2,7)
1: loop(\(x,i).(x2 + 2x + 1),2,6)
1: loop(\(x,i).(x2 + 2x + 1),2,16x)
1: loop(\(x,i).(x2 + 2x + 1),2,2x)
1: loop(\(x,i).(x2 + 2x + 1),x,0)
1: loop(\(x,i).(x2 + 2x + 1),x,8)
1: loop(\(x,i).(x2 + 2x + 2),(x div 2),(x mod 2))
1: loop(\(x,i).(((x + 1) * (1 + i)) + (x div 2)),x,2)
1: loop(\(x,i).(1 + (x * (1 + i))),(x + ~2),1)
1: loop(\(x,i).(1 + (x * (1 + i))),2x,2)
1: loop(\(x,i).(1 + (x * (1 + i))),x,0)
1: loop(\(x,i).(1 + (x * (1 + i))),i,1)
1: loop(\(x,i).(2 + (x * (1 + i))),(x + ~1),1)
1: loop(\(x,i).(2 + (x * (1 + i))),(x + ~2),1)
1: loop(\(x,i).((x * (1 + i)) + (i mod 2)),x,1)
1: loop(\(x,i).((x + 1) + ((1 + i) * i)),2x,1)
1: loop(\(x,i).(2x + ((1 + i) * i)),x,1)
1: loop(\(x,i).(x + ((1 + i) * i)),(2x + 2),0)
1: loop(\(x,i).(x + ((1 + i) * i)),i,0)
1: loop(\(x,i).(x + (2 * (2 + i))),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).(x + ((x + 1) * (2 + i))),x,0)
1: loop(\(x,i).((2x + 1) + ((2 + i) * (1 + i))),x,2)
1: loop(\(x,i).(2x + ((2 + i) * (1 + i))),x,1)
1: loop(\(x,i).(x + ((2 + i) * (1 + i))),2x,2)
1: loop(\(x,i).(x + ((2 + i) * (1 + i))),x,2)
1: loop(\(x,i).(1 + (x * (2 + i))),(x + ~2),0)
1: loop(\(x,i).(1 + (x * (2 + i))),x,0)
1: loop(\(x,i).(1 + (x * (2 + i))),x,1)
1: loop(\(x,i).(1 + (x * (2 + i))),x,2)
1: loop(\(x,i).(2 + (x * (2 + i))),2,loop(\(x,i).2x,x,2))
1: loop(\(x,i).(x + ((2 + i) * i)),(2x + 1),0)
1: loop(\(x,i).(x + ((2 + i) * i)),(x + 1),0)
1: loop(\(x,i).(x + ((2 + i) * i)),(x + 2),x)
1: loop(\(x,i).(x + ((2 + i) * i)),(1 + i),x)
1: loop(\(x,i).(x + ((2 + i) * i)),x,(1 + (x div 2)))
1: loop(\(x,i).(x + ((2 + i) * i)),x,(x div 2))
1: loop(\(x,i).(x + ((2 + i) * i)),x,x)
1: loop(\(x,i).(x + ((2 + i) * i)),i,1)
1: loop(\(x,i).(1 + (2 * (x + i))),x,4)
1: loop(\(x,i).((2 * (x + i)) + (i mod 2)),x,0)
1: loop(\(x,i).((2 * (x + i)) + (i mod 2)),x,1)
1: loop(\(x,i).((2 * (x + i)) + (if x <= 0 then 0 else 1)),x,0)
1: loop(\(x,i).(x + (2 * (x + i))),2,loop(\(x,i).2x,x,2))
1: loop(\(x,i).(x + (2 * (x + i))),(x + ~1),1)
1: loop(\(x,i).(x + (2 * (x + i))),(x + ~1),x)
1: loop(\(x,i).(x + (2 * (x + i))),x,0)
1: loop(\(x,i).(x + (2 * (x + i))),x,1)
1: loop(\(x,i).((2 * (x + i)) + i),x,1)
1: loop(\(x,i).((2 * (x + i)) + i),x,2x)
1: loop(\(x,i).(x + (3 * (x + i))),x,0)
1: loop(\(x,i).(x + (4 * (x + i))),x,0)
1: loop(\(x,i).(x + ((x + i) * (1 + i))),x,0)
1: loop(\(x,i).(x + ((x + i) * (2 + i))),2,(x2 + 2x))
1: loop(\(x,i).(x + ((x + i) * (2 + i))),x,1)
1: loop(\(x,i).(2 + ((x + ~1) * (x + i))),x,1)
1: loop(\(x,i).(1 + (x * (x + i))),2,x)
1: loop(\(x,i).(2 + (x * (x + i))),2,3)
1: loop(\(x,i).(2 + (x * (x + i))),2,8)
1: loop(\(x,i).(2 + (x * (x + i))),3,1)
1: loop(\(x,i).(2 + ((x + i) * i)),x,2)
1: loop(\(x,i).(x2 + ((x + i) * i)),x,1)
1: loop(\(x,i).(x + ((x + i) * i)),x,0)
1: loop(\(x,i).(x + ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i)) * (1 + (2 * i)))),x,2)
1: loop(\(x,i).(x + ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i)) * (1 + (2 * i)))),x,3)
1: loop(\(x,i).(x + ((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i)) * (1 + i))),x,2)
1: loop(\(x,i).(10x + ((1 - (2 * (i mod 2))) * (1 + i))),x,1)
1: loop(\(x,i).(~2x + 3),x,0)
1: loop(\(x,i).(~x2 + x + 1),(x + 1),x)
1: loop(\(x,i).(~2x + 5),(x + ~1),(if x <= 0 then 1 else 0))
1: loop(\(x,i).((~2x + 4) + (x div 2)),(x + 1),3)
1: loop(\(x,i).(~x2 + 2x + 3),((x + ~1) div 2),1)
1: loop(\(x,i).(x + ((2 - i) * (1 + i))),x,2)
1: loop(\(x,i).((x + 1) + ((2 - i) * i)),x,1)
1: loop(\(x,i).(2 + (x * ((x + ~1) + i))),x,0)
1: loop(\(x,i).(3x2 + ~2x + 2),2,2x)
1: loop(\(x,i).(11x + loop(\(x,i).(3x + 1),i,1)),x,1)
1: loop(\(x,i).(x + ((~2 + (7 * i)) * i)),x,0)
1: loop(\(x,i).(1 + (2 * ((x2 + x) - (x mod 3)))),x,1)
1: loop(\(x,i).(x + ((~1 + ((2 + i) * i)) * (2 + i))),x,0)
1: loop(\(x,i).(1 + (2 * (~1 + ((3x + 3) * (3 + loop(\(x,i).(2x2 + x),3,x)))))),(x + 1),1)
1: loop(\(x,i).(2x3 + 4x2 + ~x + 1),(2x + 2),1)
1: loop(\(x,i).(31x + 1),x,0)
1: loop(\(x,i).(2x3 + ~x + 2),x,2)
1: loop(\(x,i).(x + ((~1 + (4 * (i * i))) * (1 + i))),x,1)
1: loop(\(x,i).(x + ((~1 + (i * i * i)) * (2 + i))),x,0)
1: loop(\(x,i).(2x + ((~1 + (2 * (x mod 2))) * i)),x,2)
1: loop(\(x,i).(2x2 + ~x + 1),2,2x)
1: loop(\(x,i).(2x2 + ~x + 2),x,2)
1: loop(\(x,i).(1 + (2 * (2x - (x div (if i <= 0 then 1 else i))))),(x div 2),1)
1: loop(\(x,i).(1 + (2 * (2x - (x div (if i <= 0 then 1 else i))))),x,2)
1: loop(\(x,i).(1 + (2 * (2x - (x div (if i <= 0 then 1 else i))))),i,1)
1: loop(\(x,i).(1 + (3 * (2x - ((x div 2) mod 2)))),(x + 1),1)
1: loop(\(x,i).(1 + (2 * (2x - (x mod 4)))),x,0)
1: loop(\(x,i).(x3 + ~x + 1),x,2)
1: loop(\(x,i).(x3 + ~x + 1),x,3)
1: loop(\(x,i).(x + ((~1 + (2 * i)) * (1 + i))),x,~1)
1: loop(\(x,i).(1 + (x * (~1 + (2 * i)))),x,0)
1: loop(\(x,i).(1 + (x * (~1 + (2 * i)))),x,1)
1: loop(\(x,i).((x * (~1 + (2 * i))) + loop(\(x,i).2x,i,1)),x,1)
1: loop(\(x,i).(2x + ((~1 + (2 * i)) * i)),i,0)
1: loop(\(x,i).(x + ((~1 + (i * i)) * (2 + i))),x,0)
1: loop(\(x,i).(x + ((~1 + (i * i)) * (~2 + i))),x,0)
1: loop(\(x,i).(1 + (2 * (~2x + (x div 2)))),(x div 2),(x mod 2))
1: loop(\(x,i).(1 + (x * (~2 + loop(\(x,i).(x3 + 2),2,2)))),x,1)
1: loop(\(x,i).(x2 + ~x + 1),1,loop(\(x,i).(x2 + 1),x,0))
1: loop(\(x,i).(x2 + ~x + 1),x,8)
1: loop(\(x,i).(x2 + ~x + 1),x,12)
1: loop(\(x,i).(x2 + ~x + 1),x,16)
1: loop(\(x,i).(x2 + ~x + 2),1,loop(\(x,i).2x,x,1))
1: loop(\(x,i).(x2 + ~x + 2),x,1)
1: loop(\(x,i).(x2 + ~x + 2),x,2)
1: loop(\(x,i).(x + ((x + ~1) * i)),x,x)
1: loop(\(x,i).(x + ((x + ~2) * i)),x,x)
1: loop(\(x,i).(x + (((x + ~1) + (2 * (i mod 2))) * i)),x,0)
1: loop(\(x,i).(x + (((x + 1) - (2 * (i mod 2))) * i)),(x + ~1),1)
1: loop(\(x,i).(1 + (2 * ((x + 1) - (i mod 2)))),x,0)
1: loop(\(x,i).(x + (((x + 1) - (i mod 2)) * i)),x,0)
1: loop(\(x,i).(1 + (2 * ((x + 2) - (i mod 2)))),x,2)
1: loop(\(x,i).(1 + (2 * ((x + 2) - i))),x,0)
1: loop(\(x,i).(1 + (2 * (2x - i))),x,0)
1: loop(\(x,i).(1 + (2 * (2x - i))),x,1)
1: loop(\(x,i).(10x + ~7),x,0)
1: loop(\(x,i).(10x + ~15),x,2)
1: loop(\(x,i).(1 + (2 * (x - (2 * (~2x + (x mod 2)))))),x,0)
1: loop(\(x,i).(1 + (2 * (x - (4 * (~x + (x mod 2)))))),x,(2 + (x mod 2)))
1: loop(\(x,i).(1 + (2 * (x - (2 * (~x + i))))),x,1)
1: loop(\(x,i).(~14x + 1),x,1)
1: loop(\(x,i).(1 + (3 * (x - (2 * ((~2x + 1) div 3))))),x,2)
1: loop(\(x,i).(1 + (2 * (x - (2 * (i mod 2))))),x,2)
1: loop(\(x,i).(1 + (2 * (x - ((x + (x div 2)) div 4)))),(x + ~1),1)
1: loop(\(x,i).(1 + (2 * (x - (x div (2 + (i mod 2)))))),x,1)
1: loop(\(x,i).(1 + (2 * (x - (x div ~2)))),x,0)
1: loop(\(x,i).(1 + (2 * (x - (x div ~2)))),i,2)
1: loop(\(x,i).(1 + (5 * (x - ((x div 2) mod 2)))),x,0)
1: loop(\(x,i).(1 + (3 * (x - ((i mod 3) mod 2)))),x,1)
1: loop(\(x,i).(1 + (3 * (x - (i mod 2)))),x,1)
1: loop(\(x,i).(x + ((x - (i mod 2)) * i)),(x + ~1),1)
1: loop(\(x,i).(1 + (2 * (x - (if (i mod 4) <= 0 then 2 else 0)))),x,0)
1: loop(\(x,i).(x + (2 * (x - loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(~2 + i),1)))),x,1)
1: loop(\(x,i).((x * (x - i)) + i),x,2)
1: loop(\(x,i).(2 + ((x * (~1 + i)) + (x mod 2))),x,1)
1: loop(\(x,i).(x + ((~1 + i) * i)),(x + ~2),1)
1: loop(\(x,i).(x + ((~2 + i) * i)),(x + ~1),0)
1: loop(\(x,i).(x + ((i - (4 * (1 - i))) * i)),x,0)
1: loop(\(x,i).(x2 + ((~x + i) * i)),x,1)
1: loop(\(x,i).(9x + 1),(1 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)),1)
1: loop(\(x,i).(9x + 1),(2x + 2),1)
1: loop(\(x,i).(9x + 1),10x,1)
1: loop(\(x,i).(9x + 1),x,0)
1: loop(\(x,i).(9x + 1),x,1)
1: loop(\(x,i).(9x + 2),(x + 1),2)
1: loop(\(x,i).(9x + 2),x,1)
1: loop(\(x,i).(9x + ((x + 1) mod 3)),x,1)
1: loop(\(x,i).(9x + ((x + 1) mod 3)),x,2)
1: loop(\(x,i).(9x + ((1 + i) mod 4)),(x + 1),0)
1: loop(\(x,i).(9x + ((1 + i) mod 4)),x,1)
1: loop(\(x,i).(9x + ((x + ~1) mod 3)),x,1)
1: loop(\(x,i).(9x + ((x + ~1) mod 3)),x,2)
1: loop(\(x,i).(9x + ((x div 3) mod 2)),x,1)
1: loop(\(x,i).(15x + 1),2,x2)
1: loop(\(x,i).(15x + 1),x,0)
1: loop(\(x,i).(15x + 1),x,1)
1: loop(\(x,i).(2x + (3 * (i * (1 + i)))),x,2)
1: loop(\(x,i).(10x + 1),2,(x2 + x))
1: loop(\(x,i).(10x + 1),3,1)
1: loop(\(x,i).(10x + 1),4,1)
1: loop(\(x,i).(10x + 1),(x + 3),loop(\(x,i).(10x + 10),x,0))
1: loop(\(x,i).(10x + 1),(17x + 1),1)
1: loop(\(x,i).(10x + 1),(8x + 9),x)
1: loop(\(x,i).(10x + 1),(x + 2),loop(\(x,i).10x,x,1))
1: loop(\(x,i).(10x + 1),(1 + compr(\x.((~1 + loop(\(x,i).(x * i),x,1)) mod (x + 2)),x)),1)
1: loop(\(x,i).(10x + 1),(x + ~2),0)
1: loop(\(x,i).(10x + 1),(x2 + 2x),1)
1: loop(\(x,i).(10x + 1),(2 * ((x + ~1) div 2)),1)
1: loop(\(x,i).(10x + 1),(x * (x mod 2)),1)
1: loop(\(x,i).(10x + 1),2x,0)
1: loop(\(x,i).(10x + 1),(x div 2),(x mod 2))
1: loop(\(x,i).(10x + 1),(x div (1 + (x mod 2))),1)
1: loop(\(x,i).(10x + 1),(x div (2 - (x mod 2))),1)
1: loop(\(x,i).(10x + 1),(if (x mod 2) <= 0 then 1 else x),1)
1: loop(\(x,i).(10x + 1),(if (x mod 2) <= 0 then x else 1),1)
1: loop(\(x,i).(10x + 1),(if x <= 0 then 0 else (x + 1)),1)
1: loop(\(x,i).(10x + 1),loop(\(x,i).~x,(x + 1),2x),1)
1: loop(\(x,i).(10x + 1),x,2)
1: loop(\(x,i).(10x + 1),x,loop(\(x,i).(x2 + 2),2,2))
1: loop(\(x,i).(10x + 1),x,loop(\(x,i).(10x + 19),x,1))
1: loop(\(x,i).(10x + 1),x,loop(\(x,i).(10x + 8),x,0))
1: loop(\(x,i).(10x + 1),x,loop(\(x,i).10x,x,1))
1: loop(\(x,i).(10x + 1),i,0)
1: loop(\(x,i).((10x + 1) + i),2x,1)
1: loop(\(x,i).((10x + 1) + i),x,1)
1: loop(\(x,i).(10x + (i * i)),x,0)
1: loop(\(x,i).(10x + (2 div (x + 1))),2x,1)
1: loop(\(x,i).(10x + (2 div (x + 1))),x,1)
1: loop(\(x,i).(10x + ((1 + i) mod 3)),x,1)
1: loop(\(x,i).(10x + ((1 + i) mod 4)),x,1)
1: loop(\(x,i).(10x + ((2 + i) mod 4)),x,2)
1: loop(\(x,i).(10x + ((x + i) mod 2)),x,1)
1: loop(\(x,i).(10x + ((~x + 1) mod 4)),x,1)
1: loop(\(x,i).(10x + ((1 - i) mod 3)),x,1)
1: loop(\(x,i).(10x + ((~1 + i) mod 3)),x,2)
1: loop(\(x,i).(10x + (((x + ~1) div 2) mod 2)),x,1)
1: loop(\(x,i).(10x + ((x div ~2) mod 2)),x,1)
1: loop(\(x,i).(10x + (i mod 2)),(2x + 2),0)
1: loop(\(x,i).(10x + (i mod 2)),2x,0)
1: loop(\(x,i).(10x + (i mod 2)),x,0)
1: loop(\(x,i).(10x + (i mod (2 - (x mod 2)))),x,1)
1: loop(\(x,i).(10x + (if (~x + 2) <= 0 then 1 else 0)),x,1)
1: loop(\(x,i).(10x + (if (~2 + i) <= 0 then 0 else 2)),2x,2)
1: loop(\(x,i).(10x + (if (~2 + i) <= 0 then 0 else 2)),x,2)
1: loop(\(x,i).(10x + loop(\(x,i).3x,i,1)),x,1)
1: loop(\(x,i).(10x + loop(\(x,i).4x,i,1)),x,1)
1: loop(\(x,i).(10x + i),x,0)
1: loop(\(x,i).(25x + 1),x,0)
1: loop(\(x,i).(35x + 1),2,x2)
1: loop(\(x,i).(35x + 1),x,0)
1: loop(\(x,i).(1 + (5x * i)),x,1)
1: loop(\(x,i).((5x * i) + loop(\(x,i).2x,i,1)),x,1)
1: loop(\(x,i).((x + 2) + (5 * (i * i))),x,1)
1: loop(\(x,i).(2x + (5 * (i * i))),x,0)
1: loop(\(x,i).(x + (5 * (i * i))),x,x)
1: loop(\(x,i).(7x + 36),x,1)
1: loop(\(x,i).(10x + 61),x,1)
1: loop(\(x,i).(15x + 84),1,x5)
1: loop(\(x,i).((x + 1) + (4 * (3x + (x div 2)))),x,0)
1: loop(\(x,i).(10x + 27),(x + 1),0)
1: loop(\(x,i).(10x + 27),x,0)
1: loop(\(x,i).(10x + 27),x,2)
1: loop(\(x,i).(5x + 16),x,1)
1: loop(\(x,i).(6x + 25),x,1)
1: loop(\(x,i).(x + (2 * ((3 + i) * i))),(2x + 1),1)
1: loop(\(x,i).(x + ((3 + i) * i * (~1 + i))),(x + ~1),0)
1: loop(\(x,i).(2 + ((2x2 + x) * (4 + i))),2,x)
1: loop(\(x,i).(14x + 1),(x + 2),1)
1: loop(\(x,i).(14x + 1),x,0)
1: loop(\(x,i).(14x + 1),x,1)
1: loop(\(x,i).(21x + 1),x,0)
1: loop(\(x,i).(28x + 1),x,0)
1: loop(\(x,i).(7x3 + 14x2 + 7x + 1),1,(x2 + x))
1: loop(\(x,i).(x + (7 * (i * i))),(x + ~1),x)
1: loop(\(x,i).(x + (7 * (i * i))),x,0)
1: loop(\(x,i).(x + (7 * (i * i))),x,x)
1: loop(\(x,i).(10x + 81),(x + 1),0)
1: loop(\(x,i).(10x + 81),(2x + 2),2)
1: loop(\(x,i).(10x + 81),x,0)
1: loop(\(x,i).(26x + 1),2,x2)
1: loop(\(x,i).(26x + 1),x,0)
1: loop(\(x,i).(39x + 1),x,0)
1: loop(\(x,i).(1 + (2x * ((1 + (2 * (1 + i))) * i))),x,1)
1: loop(\(x,i).(34x + 1),2,x2)
1: loop(\(x,i).(34x + 1),x,0)
1: loop(\(x,i).(34x + (2 div (x + 1))),x,1)
1: loop(\(x,i).(x + ((1 + (8 * (~1 + i))) * i * i)),x,0)
1: loop(\(x,i).(x + (2 * ((1 + (8 * i)) * i))),x,1)
1: loop(\(x,i).(8x + 5),(x + 1),0)
1: loop(\(x,i).(8x + 5),x,0)
1: loop(\(x,i).(x + ((4x + 2) * i)),(x + 2),1)
1: loop(\(x,i).(x4 + x3 + x2 + x + 2),(x + 1),2)
1: loop(\(x,i).(x4 + x2 + 1),(x + 1),x)
1: loop(\(x,i).(x4 + x2 + 1),x,0)
1: loop(\(x,i).(2x + (5x * (1 + (2 * i)))),x,1)
1: loop(\(x,i).((x * ((1 + (2 * i)) * (x div 2))) + i),x,1)
1: loop(\(x,i).(x + (2 * ((1 + (2 * i)) * i))),x,1)
1: loop(\(x,i).(x + (5 * ((1 + (2 * i)) * i))),x,1)
1: loop(\(x,i).(x + ((1 + (2 * i)) * i * i)),(x + 1),0)
1: loop(\(x,i).(x + (5 * ((1 + (i * i)) * i))),x,1)
1: loop(\(x,i).(x + (7 * ((1 + (i * i)) * i))),x,1)
1: loop(\(x,i).(x + ((1 + (i * i)) * i * i)),(x + 1),0)
1: loop(\(x,i).(x + ((2 + (i * i)) * i * i)),x,0)
1: loop(\(x,i).(1 + (x2 * ((x + ~1) + (i * i)))),x,1)
1: loop(\(x,i).(x + ((x + ((x * i) div (1 + i))) * i * (~1 + i))),x,1)
1: loop(\(x,i).(1 + (12 * (x + (x mod 2)))),x,0)
1: loop(\(x,i).(1 + (6 * (2 + (if x <= 0 then 0 else (1 + (x * loop(\(x,i).((x2 + ~x) div 2),2,x))))))),x,1)
1: loop(\(x,i).(6x + 7),(x + 1),0)
1: loop(\(x,i).(7x + 6),(x + 1),x)
1: loop(\(x,i).(7x + 6),(x + 2),2)
1: loop(\(x,i).(7x + 6),x,2)
1: loop(\(x,i).(7x + 6),x,4)
1: loop(\(x,i).(7x + 6),x,8)
1: loop(\(x,i).(7x + 6),x,10)
1: loop(\(x,i).(7x + 6),i,1)
1: loop(\(x,i).(10x + 11),(2x + 1),1)
1: loop(\(x,i).(10x + 11),(x + 1),0)
1: loop(\(x,i).(10x + 11),(x div 2),(x mod 2))
1: loop(\(x,i).(10x + 12),(x + 1),0)
1: loop(\(x,i).(10x + 12),(x + ~2),x)
1: loop(\(x,i).(10x + 12),2x,2)
1: loop(\(x,i).(10x + 12),x,(if x <= 0 then 2 else 0))
1: loop(\(x,i).(11x + 10),(x + 1),x)
1: loop(\(x,i).(11x + 10),x,0)
1: loop(\(x,i).(11x + 10),x,2)
1: loop(\(x,i).(11x + 10),x,6)
1: loop(\(x,i).(11x + 10),x,8)
1: loop(\(x,i).(3x2 + 3x + 1),1,loop(\(x,i).(2x + 2),x,0))
1: loop(\(x,i).(3x2 + 3x + 1),x,1)
1: loop(\(x,i).(3x2 + 3x + 1),x,2)
1: loop(\(x,i).(3x2 + 3x + 1),x,3)
1: loop(\(x,i).(4x + 9),(x2 + 2x),1)
1: loop(\(x,i).(5x + 8),2,(x2 + x))
1: loop(\(x,i).(5x + 8),(~2 + (x div 2)),x)
1: loop(\(x,i).(5x + 8),x,1)
1: loop(\(x,i).(10x + 21),(x + 1),0)
1: loop(\(x,i).(10x + 21),2x,1)
1: loop(\(x,i).(10x + 21),x,0)
1: loop(\(x,i).(10x + 22),2x,2)
1: loop(\(x,i).(10x + 22),x,2)
1: loop(\(x,i).(2x2 + 4x + 1),2,4)
1: loop(\(x,i).(1 + ((x2 + 5x + 6) * i)),2,x)
1: loop(\(x,i).(1 + ((x2 + 2x) * i)),(x + 2),0)
1: loop(\(x,i).(x + (2 * ((1 + i) * (1 + (2 * i))))),(x + 1),0)
1: loop(\(x,i).(1 + (3x * (1 + i))),x,1)
1: loop(\(x,i).(1 + (x * ((1 + i) * (1 + i)))),x,0)
1: loop(\(x,i).(2x + ((1 + i) * i * (1 + i))),(x + ~2),1)
1: loop(\(x,i).(x + ((1 + i) * i * (1 + i))),x,0)
1: loop(\(x,i).(x + ((1 + i) * i * (1 + i))),x,2)
1: loop(\(x,i).(x + (2 * ((2 + i) * (~1 + i)))),x,0)
1: loop(\(x,i).(x + (2 * ((2 + i) * (~1 + i)))),x,1)
1: loop(\(x,i).(x + (6 * (x + i))),x,0)
1: loop(\(x,i).(x + (9 * (x + i))),(x + 1),0)
1: loop(\(x,i).(1 + ((x2 + 2x) * (x + i))),x,1)
1: loop(\(x,i).(2x + ((1 - (2 * (i mod 2))) * i * i * i)),x,0)
1: loop(\(x,i).(x + ((1 - (2 * (i mod 2))) * i * i * i)),x,0)
1: loop(\(x,i).(x + ((~2 + (3 * i)) * i * i)),x,0)
1: loop(\(x,i).(22x + 1),x,0)
1: loop(\(x,i).((22x + 1) + i),x,1)
1: loop(\(x,i).(44x + 1),x,0)
1: loop(\(x,i).(46x + 1),x,0)
1: loop(\(x,i).(2x4 + ~x2 + 2),(x + ~2),1)
1: loop(\(x,i).(1 + (4 * (~1 + (2 * loop(\(x,i).4x,x,(1 + (2 * loop(\(x,i).(5x + ~4),x,8)))))))),x,2)
1: loop(\(x,i).(1 + (2x * (~1 + (2 * i)))),x,1)
1: loop(\(x,i).((x + ~1) + ((~1 + (2 * i)) * i * i)),x,1)
1: loop(\(x,i).(x + ((~1 + (2 * i)) * i * i)),x,0)
1: loop(\(x,i).(x + ((~1 + (i * i)) * (2 + i) * i)),(x + 1),0)
1: loop(\(x,i).(5x2 + ~5x + 2),2,x)
1: loop(\(x,i).(1 + (6 * ((x + 2) - (i mod 2)))),x,2)
1: loop(\(x,i).(x + ((i - (4 * (1 - i))) * i * i)),x,0)
1: loop(\(x,i).(27x + 1),2,x2)
1: loop(\(x,i).(27x + 1),x,0)
1: loop(\(x,i).(27x + i),x,0)
1: loop(\(x,i).(50x + 1),x,0)
1: loop(\(x,i).(4x2 + 12x + 9),2,1)
1: loop(\(x,i).(x + ((2 + i) * i * i * (1 + i))),(x + 1),0)
1: loop(\(x,i).(1 + (18 * (~2 + loop(\(x,i).x3,1,(10x + 5)) - loop(\(x,i).2x,(x + ~1),1)))),x,1)
1: loop(\(x,i).(4x4 + ~2x2 + 1),x,0)
1: loop(\(x,i).(64x + 1),x,0)
1: loop(\(x,i).(64x + 1),i,1)
1: loop(\(x,i).(64x + loop(\(x,i).(8x + 1),i,1)),x,1)
1: loop(\(x,i).(32x + 1),2,x2)
1: loop(\(x,i).(32x + 1),(x + 1),1)
1: loop(\(x,i).(32x + 1),x,0)
1: loop(\(x,i).(48x + 1),x,0)
1: loop(\(x,i).(48x + (2 div (x + 1))),x,1)
1: loop(\(x,i).(16x + 1),x,0)
1: loop(\(x,i).(16x + 1),x,1)
1: loop(\(x,i).(16x + 1),i,1)
1: loop(\(x,i).(16x + (2 div (x + 1))),x,1)
1: loop(\(x,i).(16x + i),x,0)
1: loop(\(x,i).(24x + 1),loop(\(x,i).x2,x3,2),1)
1: loop(\(x,i).(24x + 1),x,0)
1: loop(\(x,i).(24x + 1),i,1)
1: loop(\(x,i).(24x + (2 div (x + 1))),x,1)
1: loop(\(x,i).(40x + 1),x,0)
1: loop(\(x,i).(40x + (2 div (x + 1))),x,1)
1: loop(\(x,i).(36x + 1),2,x2)
1: loop(\(x,i).(36x + 1),x,0)
1: loop(\(x,i).(36x + (2 div (x + 1))),x,1)
1: loop(\(x,i).(36x + loop(\(x,i).(6x + 1),i,1)),x,1)
1: loop(\(x,i).(60x + 1),x,0)
1: loop(\(x,i).(60x + 1),x,1)
1: loop(\(x,i).(24x2 + 1),(2x + 2),1)
1: loop(\(x,i).(24x2 + 1),2x,1)
1: loop(\(x,i).(x + (2 * (i * i * i * i * i * i))),x,0)
1: loop(\(x,i).(x + (i * i * i * i * i * i * i)),(1 + i),x)
1: loop(\(x,i).(x + (i * i * i * i * i * i * i)),x,0)
1: loop(\(x,i).((12 * (x mod 2)) + (x div 2)),2x,1)
1: loop(\(x,i).(8x + 1),2,2)
1: loop(\(x,i).(8x + 1),(10x + 1),x)
1: loop(\(x,i).(8x + 1),12x,1)
1: loop(\(x,i).(8x + 1),x,0)
1: loop(\(x,i).(8x + 1),x,2)
1: loop(\(x,i).(8x + ((1 + i) mod 3)),x,1)
1: loop(\(x,i).(8x + ((~x + 1) mod 3)),x,1)
1: loop(\(x,i).(8x + ((~1 + i) mod 3)),x,2)
1: loop(\(x,i).(8x + (x mod 3)),x,1)
1: loop(\(x,i).(12x + 1),2,(x2 + x))
1: loop(\(x,i).(12x + 1),2x,1)
1: loop(\(x,i).(12x + 1),x,0)
1: loop(\(x,i).(12x + (2 div (x + 1))),x,1)
1: loop(\(x,i).(20x + 1),2,x2)
1: loop(\(x,i).(20x + 1),x,0)
1: loop(\(x,i).(20x + (x * (1 + i))),x,1)
1: loop(\(x,i).(20x + (x mod 3)),x,1)
1: loop(\(x,i).(4x2 + ~4x + 1),2,x2)
1: loop(\(x,i).(18x + 1),2,x2)
1: loop(\(x,i).(18x + 1),x,0)
1: loop(\(x,i).(18x + (2 div (x + 1))),x,1)
1: loop(\(x,i).(30x + 1),2,x2)
1: loop(\(x,i).(30x + 1),x,0)
1: loop(\(x,i).(30x + (2 div (x + 1))),x,1)
1: loop(\(x,i).(10x2 + x),1,loop(\(x,i).(10x + 1),x,1))
1: loop(\(x,i).(10x2 + x),2,4)
1: loop(\(x,i).(10x2 + x),2,x)
1: loop(\(x,i).(9x2 + 2),2,x)
1: loop(\(x,i).(9x2 + 2),(2x + 2),3)
1: loop(\(x,i).(x4 + ~x3 + 2),x,x)
1: loop(\(x,i).(1 + (6x * i)),x,1)
1: loop(\(x,i).(x + (10x * i)),(x + ~1),1)
1: loop(\(x,i).(x + (10x * i)),x,1)
1: loop(\(x,i).(1 + (2x * (i * (~1 + (2 * i))))),(x + ~1),1)
1: loop(\(x,i).(x + ((x3 + x2) * i)),(2x + 2),1)
1: loop(\(x,i).(x + (2 * (i * i * (~1 + i)))),x,0)
1: loop(\(x,i).(x + (20 * (i * i))),x,1)
1: loop(\(x,i).(1 + (3x * (i * i))),x,1)
1: loop(\(x,i).(1 + (4x * (i * i))),x,1)
1: loop(\(x,i).(1 + (5x * (i * i))),x,1)
1: loop(\(x,i).(x + (i * i * i * (1 + (i * i)))),x,0)
1: loop(\(x,i).(x + (i * i * i * i * i * i)),(1 + i),x)
1: loop(\(x,i).(x + (i * i * i * i * i * i)),x,0)
1: loop(\(x,i).(x + (2 * (i * i * i * i))),x,0)
1: loop(\(x,i).(x + (i * i * i * i * i)),(x + ~1),1)
1: loop(\(x,i).(x + (i * i * i * i * i)),x,0)
1: loop(\(x,i).(1 + (4 * ((x * (i * i)) div 2))),x,1)
1: loop(\(x,i).(1 + (4 * (x2 div 2))),x,2)
1: loop(\(x,i).(x + (((i * i) div 2) * i * i)),(x + 1),0)
1: loop(\(x,i).(x + (4 * (x div 3))),x,3)
1: loop(\(x,i).(1 + (4 * ((~x + 2) mod 9))),x,1)
1: loop(\(x,i).((4 * (x mod 2)) + ((x + 1) div 2)),x,1)
1: loop(\(x,i).((6 * (x mod 2)) + (x div 2)),x,1)
1: loop(\(x,i).((10 * (x mod 2)) + (x div 2)),x,1)
1: loop(\(x,i).(1 + ((2x + 2) * (x mod 2))),(x div 2),x)
1: loop(\(x,i).(2x + (3 * ((x mod 2) * i))),x,1)
1: loop(\(x,i).(x + ((i mod 2) * i * (2 + i))),x,1)
1: loop(\(x,i).(x + (4 * (if (~x + 2) <= 0 then x else 2))),x,1)
1: loop(\(x,i).(x + (6 * (if (~2 + i) <= 0 then 1 else x))),2x,1)
1: loop(\(x,i).(x + ((if (i mod 2) <= 0 then 1 else i) * i * i)),(x + 1),0)
1: loop(\(x,i).(x + (9 * (if x <= 0 then 3 else x))),x,0)
1: loop(\(x,i).(x + (loop(\(x,i).2x,i,i) * i * i * i)),x,1)
1: loop(\(x,i).(4x + 1),3,2)
1: loop(\(x,i).(4x + 1),3,2x)
1: loop(\(x,i).(4x + 1),4,1)
1: loop(\(x,i).(4x + 1),(x + 3),1)
1: loop(\(x,i).(4x + 1),(x + 1),1)
1: loop(\(x,i).(4x + 1),(x + 1),2)
1: loop(\(x,i).(4x + 1),(x + 1),(1 + (x mod 2)))
1: loop(\(x,i).(4x + 1),(x + 2),1)
1: loop(\(x,i).(4x + 1),(1 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x)),1)
1: loop(\(x,i).(4x + 1),(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1)
1: loop(\(x,i).(4x + 1),((x + 1) - (x div ~2)),1)
1: loop(\(x,i).(4x + 1),3x,3)
1: loop(\(x,i).(4x + 1),2x,0)
1: loop(\(x,i).(4x + 1),2x,1)
1: loop(\(x,i).(4x + 1),((x + ~1) div 2),1)
1: loop(\(x,i).(4x + 1),(if (x + ~1) <= 0 then 1 else 0),1)
1: loop(\(x,i).(4x + 1),x,3)
1: loop(\(x,i).(4x + 1),x,4)
1: loop(\(x,i).(4x + 1),x,7)
1: loop(\(x,i).(4x + 1),x,11)
1: loop(\(x,i).(4x + 1),x,15)
1: loop(\(x,i).(4x + 1),x,(~1 + loop(\(x,i).2x,(x * (x mod 2)),2)))
1: loop(\(x,i).(4x + 1),x,6)
1: loop(\(x,i).(4x + 1),x,(2x + 12))
1: loop(\(x,i).(4x + 1),x,(2x + 6))
1: loop(\(x,i).(4x + 1),x,(2x + ~6))
1: loop(\(x,i).(4x + 1),x,2x)
1: loop(\(x,i).(4x + (2 div (x + 1))),x,1)
1: loop(\(x,i).(4x + (i div 2)),x,0)
1: loop(\(x,i).(4x + (i div 2)),x,1)
1: loop(\(x,i).(4x + i),x,0)
1: loop(\(x,i).(4x + i),i,0)
1: loop(\(x,i).(6x + 1),(1 + compr(\x.(loop(\(x,i).(2x + 2),x,8) mod (x + 1)),x)),1)
1: loop(\(x,i).(6x + 1),12x,1)
1: loop(\(x,i).(6x + 2),(1 + (x div 2)),(1 + (x mod 2)))
1: loop(\(x,i).(6x + 2),2x,0)
1: loop(\(x,i).(6x + 2),(x div 2),(1 + (x mod 2)))
1: loop(\(x,i).(6x + 2),(x div 2),(x mod 2))
1: loop(\(x,i).(6x + ((i mod 2) * i)),x,0)
1: loop(\(x,i).(6x + (2 div (x + 1))),x,1)
1: loop(\(x,i).(6x + (2 div (1 + i))),i,1)
1: loop(\(x,i).(6x + (i div 2)),x,0)
1: loop(\(x,i).(6x + ((x + 1) mod 3)),x,1)
1: loop(\(x,i).(6x + ((x + 1) mod 3)),x,2)
1: loop(\(x,i).(6x + ((x + ~1) mod 3)),(x + 1),1)
1: loop(\(x,i).(6x + ((x + ~1) mod 3)),x,1)
1: loop(\(x,i).(2x2 + 1),2,3x)
1: loop(\(x,i).(2x2 + 1),2,8)
1: loop(\(x,i).(2x2 + 1),(2x + 1),1)
1: loop(\(x,i).(2x2 + 1),(x + ~1),1)
1: loop(\(x,i).(2x2 + 1),(2x + 4),x)
1: loop(\(x,i).(2x2 + i),2x,2)
1: loop(\(x,i).(3x2 + 1),2,2x)
1: loop(\(x,i).(3x2 + 2),2,2x)
1: loop(\(x,i).(3x2 + x),1,(1 + loop(\(x,i).10x,x,1)))
1: loop(\(x,i).(3x2 + x),1,((x2 + 3x + 2) div 2))
1: loop(\(x,i).(4x2 + 1),2,2)
1: loop(\(x,i).(x3 + x2 + 1),2x,2)
1: loop(\(x,i).(x3 + ~x2 + 1),(x + 1),2)
1: loop(\(x,i).(2x3 + 1),(x + 1),x2)
1: loop(\(x,i).(x4 + 1),(x + 1),x)
1: loop(\(x,i).(x4 + 1),(x + ~1),2)
1: loop(\(x,i).(x4 + 1),x,(~x + 1))
1: loop(\(x,i).(x4 + 1),x,(if (x + ~1) <= 0 then 1 else 0))
1: loop(\(x,i).(x4 + 3),x2,2)
1: loop(\(x,i).(x3 + 1),2,(x + ~1))
1: loop(\(x,i).(x3 + 1),(2x + 2),(x + 1))
1: loop(\(x,i).(x3 + 1),2x,2)
1: loop(\(x,i).(x3 + 1),2x,x)
1: loop(\(x,i).(x3 + 1),x,0)
1: loop(\(x,i).(x3 + 2),(2x + 2),(x + 1))
1: loop(\(x,i).(x3 + 4),2x,1)
1: loop(\(x,i).(x + (2 * (i * (1 + i)))),(x + 1),0)
1: loop(\(x,i).(1 + (2x * i)),x,0)
1: loop(\(x,i).(1 + (3x * i)),x,1)
1: loop(\(x,i).((3x * i) + loop(\(x,i).2x,i,1)),x,1)
1: loop(\(x,i).(x + (3x * i)),x,1)
1: loop(\(x,i).(1 + (4x * i)),x,1)
1: loop(\(x,i).((4x * i) + (x div 2)),x,1)
1: loop(\(x,i).(1 + (x * (i * (1 + i)))),x,1)
1: loop(\(x,i).(1 + (x2 * i)),x,2)
1: loop(\(x,i).(2 + (x2 * i)),(x + ~2),0)
1: loop(\(x,i).(2 + (x2 * i)),(x + ~2),2)
1: loop(\(x,i).(2 + (x2 * i)),x,2)
1: loop(\(x,i).(x + (2 * (i * i))),(x + 1),0)
1: loop(\(x,i).(x + (2 * (i * i))),x,1)
1: loop(\(x,i).(x + (2 * (i * i))),x,x)
1: loop(\(x,i).(x + (4 * (i * i))),x,1)
1: loop(\(x,i).(x + (4 * (i * i))),x,x)
1: loop(\(x,i).(x + (i * i * (1 + i))),(x + 1),0)
1: loop(\(x,i).(x + (i * i * (1 + i))),(x + 2),0)
1: loop(\(x,i).(x + (i * i * (1 + i))),x,0)
1: loop(\(x,i).(1 + (2x * (i * i))),x,1)
1: loop(\(x,i).(1 + (x * (i * i * i))),x,1)
1: loop(\(x,i).(4x + (i * i * i * i)),(x + 1),0)
1: loop(\(x,i).(x + (i * i * i * i)),(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),0)
1: loop(\(x,i).(x + (i * i * i * i)),(x + ~1),1)
1: loop(\(x,i).(x + (i * i * i * i)),x,0)
1: loop(\(x,i).(x + (i * i * i * i)),x,1)
1: loop(\(x,i).(x + (i * i * (i div 2))),(x + 1),0)
1: loop(\(x,i).(4x + (i * i * (x mod 2))),x,1)
1: loop(\(x,i).(1 + (x * (i * i))),(x + 3),2)
1: loop(\(x,i).(1 + (x * (i * i))),(x + ~2),1)
1: loop(\(x,i).(1 + (x * (i * i))),x,0)
1: loop(\(x,i).(1 + (x * (i * i))),x,1)
1: loop(\(x,i).(1 + (x * (i * i))),x,2)
1: loop(\(x,i).(1 + (x * (i * i))),i,1)
1: loop(\(x,i).(2 + (x * (i * i))),x,1)
1: loop(\(x,i).(1 + ((x * (i * i)) + i)),x,1)
1: loop(\(x,i).(2x + (i * i * i)),(x + 1),0)
1: loop(\(x,i).(x + (i * i * i)),(x + 3),0)
1: loop(\(x,i).(x + (i * i * i)),(1 + i),0)
1: loop(\(x,i).(x + (i * i * i)),(1 + i),x)
1: loop(\(x,i).(x + (i * i * i)),x,1)
1: loop(\(x,i).(x + (i * i * i)),x,2)
1: loop(\(x,i).(x + (i * i * i)),x,x2)
1: loop(\(x,i).(x + (i * i * i)),i,x)
1: loop(\(x,i).(1 + (2 * ((24x + 1) div (x + 1)))),x,0)
1: loop(\(x,i).(1 + (((x + 1) div 2) * (x + i))),x,0)
1: loop(\(x,i).(1 + (x * ((1 + i) div 2))),x,1)
1: loop(\(x,i).(x + (((1 + i) div 2) * i)),(2x + 1),0)
1: loop(\(x,i).(x + (((1 + i) div 2) * i)),(1 + i),0)
1: loop(\(x,i).(x + (((1 + i) div 2) * i)),(1 + i),x)
1: loop(\(x,i).(x + (2 * ((x + i) div 2))),x,1)
1: loop(\(x,i).(2 + (3 * ((~1 + (6 * (~1 + loop(\(x,i).11x,x,4)))) div 2))),x,1)
1: loop(\(x,i).(1 + (x * ((x + ~1) div 3))),2,x)
1: loop(\(x,i).(x + ((((3 + i) * i) div 2) * (1 + i))),x,0)
1: loop(\(x,i).(1 + (x * ((x * (1 + (2 * (i mod 2)))) div 2))),x,1)
1: loop(\(x,i).(1 + (2 * ((x2 + 2x) div 4))),2,x)
1: loop(\(x,i).(x + ((((2 + i) * (1 + i)) div 2) * (1 + (2 * i)))),x,1)
1: loop(\(x,i).(x + (2 * (8x div (if i <= 0 then 1 else i)))),x,1)
1: loop(\(x,i).(x + ((4x div (1 + i)) * (~1 + (2 * i)))),(x + ~1),1)
1: loop(\(x,i).(1 + ((2x div (1 + i)) * (1 + (2 * i)))),x,1)
1: loop(\(x,i).(1 + (2 * (x2 div (1 + (x div 2))))),x,0)
1: loop(\(x,i).(1 + (2 * ((x * i) div 2))),i,1)
1: loop(\(x,i).(1 + (2 * ((x * i) div 5))),(x div 2),1)
1: loop(\(x,i).(x + (((i * i) div 2) * i)),(x + 2),0)
1: loop(\(x,i).((2 * (((x + ~1) div 2) div 2)) + i),(x + ~1),1)
1: loop(\(x,i).(1 + (2 * ((x div 2) div (1 + (x mod (1 + (x mod (3 + (x mod 2))))))))),2,x)
1: loop(\(x,i).(2 + (3 * (x div 2))),x,2)
1: loop(\(x,i).(2 + ((x + 1) * (x div 2))),x,x)
1: loop(\(x,i).(x + (2 * (x div 3))),x,(x + 1))
1: loop(\(x,i).((2x + 2) + ((x div 3) * (1 + i))),x,1)
1: loop(\(x,i).(x + ((x div (if i <= 0 then 1 else i)) * (1 + i))),x,1)
1: loop(\(x,i).(x + ((i div 2) * (i div 2))),x,0)
1: loop(\(x,i).((x * (i div 2)) + (i mod 2)),(x + 2),0)
1: loop(\(x,i).(x + ((i div 2) * i)),(x + 2),0)
1: loop(\(x,i).(1 + (2 * ((x + 1) mod 3))),(x + ~1),2x)
1: loop(\(x,i).(1 + (2 * (((x + ~2) + ((1 - (x div 4)) mod 3)) mod (2x + 1)))),x,2)
1: loop(\(x,i).(1 + (3 * ((~2x + 4) mod 13))),x,1)
1: loop(\(x,i).(1 + (2 * (x mod 2))),(x div 5),0)
1: loop(\(x,i).((x * (x mod 2)) + (x div 2)),(x + ~1),(x + 2))
1: loop(\(x,i).(2x + ((x mod 2) * i)),x,1)
1: loop(\(x,i).((5 * (x mod 4)) + (x div 4)),x,1)
1: loop(\(x,i).(x + ((x mod 4) * i)),(x div 2),1)
1: loop(\(x,i).(1 + (2 * (x mod 5))),x,0)
1: loop(\(x,i).(2 + (3 * (x mod 7))),(x + ~1),2)
1: loop(\(x,i).(x + (2 * (x mod (1 + ((3 * ((x + 1) div 2)) mod (1 + (x div 3))))))),2,x)
1: loop(\(x,i).((2 * (i mod 2)) + (x * i)),x,0)
1: loop(\(x,i).(2x + ((x + 1) * (i mod 2))),(x + ~1),0)
1: loop(\(x,i).(x + ((i mod 2) * (1 + i))),i,1)
1: loop(\(x,i).(1 + (x * (if (1 + ((1 + ((1 + loop(\(x,i).(x * ((1 + (4 * i)) * i)),x,1)) div 2)) div 2)) <= 0 then 1 else (x * i)))),x,1)
1: loop(\(x,i).(x + (2 * (if (~x + 2) <= 0 then x else 3))),x,1)
1: loop(\(x,i).(x + (3 * (if (~x + 2) <= 0 then x else 4))),x,1)
1: loop(\(x,i).(x + (5 * (if (2 - i) <= 0 then x else 1))),x,(x + 1))
1: loop(\(x,i).(1 + (x * (if (x + ~1) <= 0 then 1 else (x + ~1)))),i,1)
1: loop(\(x,i).(x + (2 * (if (~2 + i) <= 0 then 1 else 2x))),x,1)
1: loop(\(x,i).(x + (5 * (if (~2 + i) <= 0 then 1 else x))),2x,1)
1: loop(\(x,i).(x + (8 * (if (~2 + i) <= 0 then 1 else x))),2x,1)
1: loop(\(x,i).(x + (3 * (if (~2x mod 5) <= 0 then 3x else 1))),x,1)
1: loop(\(x,i).(x + ((if (x mod 2) <= 0 then 1 else x) * (i - (x mod 2)))),x,0)
1: loop(\(x,i).(x + ((2x + ~1) * (if (x mod 2) <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(1 + (x * (if (x mod 2) <= 0 then 10 else 1))),x,0)
1: loop(\(x,i).(x + ((if (i mod 2) <= 0 then 1 else x) * (1 + (2 * i)))),x,2)
1: loop(\(x,i).(x + ((if (i mod 2) <= 0 then 1 else i) * i)),(x + 1),0)
1: loop(\(x,i).(x + ((if (i mod 2) <= 0 then 1 else i) * i)),x,(1 + (x div 2)))
1: loop(\(x,i).(x + ((if (i mod 2) <= 0 then 2 else 2x) * (i div 2))),x,0)
1: loop(\(x,i).(x + ((if (i mod 2) <= 0 then 2 else 2x) * (i div 2))),x,1)
1: loop(\(x,i).(x + ((if (i mod 2) <= 0 then 2 else i) * i)),x,0)
1: loop(\(x,i).(x + (2 * (if (i mod 2) <= 0 then (x + ~2) else 1))),x,1)
1: loop(\(x,i).(x + (2 * (if (i mod 2) <= 0 then x else 1))),x,1)
1: loop(\(x,i).(x + ((if (i mod 2) <= 0 then i else 1) * i * i)),(x + 1),0)
1: loop(\(x,i).(x + ((if (i mod 2) <= 0 then i else 1) * i)),x,1)
1: loop(\(x,i).(x + (2 * (if (i mod 3) <= 0 then 1 else x))),x,1)
1: loop(\(x,i).(x + (4 * (if (i mod 3) <= 0 then 1 else x))),x,1)
1: loop(\(x,i).(x + (2 * (if (i mod 3) <= 0 then 2 else x))),x,1)
1: loop(\(x,i).(x + (2 * (if (i mod 3) <= 0 then (2x + 1) else x))),x,1)
1: loop(\(x,i).(x + (2 * (if (i mod 4) <= 0 then 1 else x))),x,1)
1: loop(\(x,i).(x + (2 * (if (i mod 4) <= 0 then 2 else x))),x,1)
1: loop(\(x,i).(1 + (2 * (if x <= 0 then 2 else ((x + 1) - ((1 - (((x + 1) mod (1 + (2 * ((1 + (x div 4)) div 2)))) div 2)) mod 2))))),1,((x + 1) div 2))
1: loop(\(x,i).(1 + (x * loop(\(x,i).(1 + (x * (1 + i))),i,1))),x,1)
1: loop(\(x,i).(x + (x * loop(\(x,i).(8x + 1),i,1))),(x + ~1),1)
1: loop(\(x,i).(x + (x * loop(\(x,i).(6x + 1),i,1))),(x + ~1),1)
1: loop(\(x,i).(1 + (x * loop(\(x,i).(1 + (x * (if (x + ~1) <= 0 then 1 else (x + ~1)))),i,1))),x,1)
1: loop(\(x,i).(1 + (x * loop(\(x,i).(x2 + 2),2,2))),2,x2)
1: loop(\(x,i).(1 + (x * loop(\(x,i).(x2 + 2),2,2))),x,0)
1: loop(\(x,i).(1 + (4 * loop(\(x,i).(x + (i * i)),(x + ~1),x))),1,2x)
1: loop(\(x,i).(x + (loop(\(x,i).(x + (i * i)),i,0) * i)),x,0)
1: loop(\(x,i).(1 + (x * loop(\(x,i).(x3 + x),2,2))),x,1)
1: loop(\(x,i).(1 + (x * loop(\(x,i).(x2 + x),2,2))),x,0)
1: loop(\(x,i).((x * loop(\(x,i).(x2 + x),2,2)) + (2 div (x + 1))),x,1)
1: loop(\(x,i).(1 + (x * loop(\(x,i).(x2 + 2x),2,2))),x,1)
1: loop(\(x,i).(1 + (x * loop(\(x,i).((x + 1) * (x + i)),2,2))),x,1)
1: loop(\(x,i).(x + (2 * loop(\(x,i).(x * (x + i)),2,i))),x,1)
1: loop(\(x,i).(x + (loop(\(x,i).~2x,i,i) * i)),x,0)
1: loop(\(x,i).(1 + (x * loop(\(x,i).(2x2 + ~2),2,2))),2,x)
1: loop(\(x,i).(x + (x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).x2,i,2)))),x,1)
1: loop(\(x,i).(x + ((x + 1) * loop(\(x,i).(x * (x - i)),2,2x))),x,2)
1: loop(\(x,i).(1 + (x * loop(\(x,i).(x3 + x2),1,10))),x,1)
1: loop(\(x,i).(x + (loop(\(x,i).x3,2,i) * i * i)),x,0)
1: loop(\(x,i).(x + (loop(\(x,i).x3,2,i) * i)),x,0)
1: loop(\(x,i).(1 + (x * loop(\(x,i).((x + 1) * ((x + 1) div 2)),i,(if x <= 0 then 1 else 2)))),x,1)
1: loop(\(x,i).(x + (loop(\(x,i).2x,(~1 + i),i) * i * i)),x,0)
1: loop(\(x,i).(x + (loop(\(x,i).2x,i,i) * i * i)),x,0)
1: loop(\(x,i).(x + (loop(\(x,i).2x,i,i) * i)),i,x)
1: loop(\(x,i).(x + (x * loop(\(x,i).x2,1,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))))),(x + 1),1)
1: loop(\(x,i).(1 + (x * loop(\(x,i).x2,2,3))),x,1)
1: loop(\(x,i).(1 + (x * loop(\(x,i).x2,2,3))),i,1)
1: loop(\(x,i).(1 + (x * loop(\(x,i).x2,2,4))),x,0)
1: loop(\(x,i).(x + (x * loop(\(x,i).x2,2,(1 + i)))),(x + ~1),1)
1: loop(\(x,i).(1 + (x * loop(\(x,i).x2,2,10))),x,1)
1: loop(\(x,i).(1 + (x * loop(\(x,i).x2,(~1 + i),2))),x,1)
1: loop(\(x,i).(2 + (x * loop(\(x,i).x2,i,x))),x,1)
1: loop(\(x,i).(2x + 1),1,loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,x))
1: loop(\(x,i).(2x + 1),3,(2 * (x mod 2)))
1: loop(\(x,i).(2x + 1),(x + 4),6)
1: loop(\(x,i).(2x + 1),(2x + 1),2)
1: loop(\(x,i).(2x + 1),(2x + 1),6)
1: loop(\(x,i).(2x + 1),(2x + 1),2x)
1: loop(\(x,i).(2x + 1),(1 + (if (x mod 2) <= 0 then x else (~x + 1))),0)
1: loop(\(x,i).(2x + 1),(x + 1),(x2 + 6x + 5))
1: loop(\(x,i).(2x + 1),(x + 1),(6x2 + 12x + 6))
1: loop(\(x,i).(2x + 1),(x + 1),x)
1: loop(\(x,i).(2x + 1),(x + 2),2)
1: loop(\(x,i).(2x + 1),(x + 2),loop(\(x,i).2x,(x + 2),2))
1: loop(\(x,i).(2x + 1),(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),2)
1: loop(\(x,i).(2x + 1),(0 - (x div (~2 + (x div ~4)))),1)
1: loop(\(x,i).(2x + 1),(~3 + (x div 2)),1)
1: loop(\(x,i).(2x + 1),(2x + ~1),1)
1: loop(\(x,i).(2x + 1),(((x + ~1) div 2) - ((3 * (x div 4)) div 2)),0)
1: loop(\(x,i).(2x + 1),((x div 2) - ((x + ~1) div 3)),0)
1: loop(\(x,i).(2x + 1),((x div 2) - ((3 * (x div 4)) div 2)),0)
1: loop(\(x,i).(2x + 1),(x + ~1),1)
1: loop(\(x,i).(2x + 1),(x + ~1),(1 + (x div (x2 + ~2))))
1: loop(\(x,i).(2x + 1),(x + ~1),(x mod 2))
1: loop(\(x,i).(2x + 1),(x + ~1),(if (x + ~1) <= 0 then 1 else (if (x mod 2) <= 0 then 2 else 0)))
1: loop(\(x,i).(2x + 1),(x + ~1),(if x <= 0 then 1 else (2 * (1 + ((1 + (((1 + (((x + ~1) * loop(\(x,i).(x * i),(x + ~1),(x + 1))) div 2)) div 2) div 2)) div 2)))))
1: loop(\(x,i).(2x + 1),(x + ~3),0)
1: loop(\(x,i).(2x + 1),(2 * (1 + (2 * (2 + (3 * (x + (x div 2))))))),1)
1: loop(\(x,i).(2x + 1),2x,4)
1: loop(\(x,i).(2x + 1),2x,8)
1: loop(\(x,i).(2x + 1),2x,10)
1: loop(\(x,i).(2x + 1),2x,loop(\(x,i).2x,x,1))
1: loop(\(x,i).(2x + 1),((1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + ~1) div 2))) div 2),1)
1: loop(\(x,i).(2x + 1),((x + 1) div 2),(1 + (x div 2)))
1: loop(\(x,i).(2x + 1),((x + 1) div 2),loop(\(x,i).2x,(x div 2),1))
1: loop(\(x,i).(2x + 1),((x2 + 4x + 4) div 2),(1 + (x mod 2)))
1: loop(\(x,i).(2x + 1),(2x div 3),1)
1: loop(\(x,i).(2x + 1),((x div 2) div 3),2)
1: loop(\(x,i).(2x + 1),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).(2x + 1),((x mod (~1 + (2 * ((x + ~1) div 3)))) div 2),1)
1: loop(\(x,i).(2x + 1),(x div 2),2)
1: loop(\(x,i).(2x + 1),(x div 2),(2 - (x mod 2)))
1: loop(\(x,i).(2x + 1),(x div 2),((x mod 2) - (x div ~2)))
1: loop(\(x,i).(2x + 1),(x div 2),(2 * (2 + (x mod 2))))
1: loop(\(x,i).(2x + 1),(x div 3),1)
1: loop(\(x,i).(2x + 1),(x div 4),1)
1: loop(\(x,i).(2x + 1),(((x2 + 2x) div 2) mod (1 + (x div (2 + (x div 4))))),1)
1: loop(\(x,i).(2x + 1),(if (x mod 2) <= 0 then (1 + (x div 2)) else 0),1)
1: loop(\(x,i).(2x + 1),(if (x mod 2) <= 0 then x else 0),1)
1: loop(\(x,i).(2x + 1),(if (x mod 2) <= 0 then x else 1),0)
1: loop(\(x,i).(2x + 1),(if (x mod (1 + i)) <= 0 then x else 0),x)
1: loop(\(x,i).(2x + 1),(if (i mod 4) <= 0 then 2 else 0),2x)
1: loop(\(x,i).(2x + 1),loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),2,x),1)
1: loop(\(x,i).(2x + 1),x,(x + 4))
1: loop(\(x,i).(2x + 1),x,(4 - (x mod 2)))
1: loop(\(x,i).(2x + 1),x,(1 + (2 * (x + (loop(\(x,i).4x,x,2) div (x + 1))))))
1: loop(\(x,i).(2x + 1),x,(1 + (2 div (if x <= 0 then 1 else x))))
1: loop(\(x,i).(2x + 1),x,(2 + (x mod 2)))
1: loop(\(x,i).(2x + 1),x,(2 + loop(\(x,i).2x,x,2)))
1: loop(\(x,i).(2x + 1),x,12)
1: loop(\(x,i).(2x + 1),x,10)
1: loop(\(x,i).(2x + 1),x,18)
1: loop(\(x,i).(2x + 1),x,36)
1: loop(\(x,i).(2x + 1),x,20)
1: loop(\(x,i).(2x + 1),x,(4 * (2 - (x mod 2))))
1: loop(\(x,i).(2x + 1),x,54)
1: loop(\(x,i).(2x + 1),x,(4 * (x mod 2)))
1: loop(\(x,i).(2x + 1),x,(2 div (x + 1)))
1: loop(\(x,i).(2x + 1),x,(x div 4))
1: loop(\(x,i).(2x + 1),x,((x div 4) mod 2))
1: loop(\(x,i).(2x + 1),x,(x mod 2))
1: loop(\(x,i).(2x + 1),x,(if (x + ~3) <= 0 then 2 else 1))
1: loop(\(x,i).(2x + 1),x,(if ((x + 1) mod 3) <= 0 then x else 2))
1: loop(\(x,i).(2x + 1),x,(if (x mod 2) <= 0 then (2 + ((if (x + ~2) <= 0 then 1 else x) mod 2)) else 1))
1: loop(\(x,i).(2x + 1),x,(if x <= 0 then 1 else 2))
1: loop(\(x,i).(2x + 1),x,loop(\(x,i).(4x + 1),((x + ~1) div 2),1))
1: loop(\(x,i).(2x + 1),x,loop(\(x,i).5x,x,1))
1: loop(\(x,i).(2x + 1),x,loop(\(x,i).(2x + 6),x,2))
1: loop(\(x,i).(2x + 1),x,loop(\(x,i).4x,x,1))
1: loop(\(x,i).(2x + 1),x,x)
1: loop(\(x,i).(2x + 1),i,2x)
1: loop(\(x,i).(2x + 1),i,loop(\(x,i).2x,i,x))
1: loop(\(x,i).(2x + 1),compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),0)
1: loop(\(x,i).(x2 + 1),1,loop(\(x,i).(x2 + x + 1),x,0))
1: loop(\(x,i).(x2 + 1),2,(x + 3))
1: loop(\(x,i).(x2 + 1),2,(2x + 1))
1: loop(\(x,i).(x2 + 1),2,(x + ~1))
1: loop(\(x,i).(x2 + 1),2,6)
1: loop(\(x,i).(x2 + 1),(x + 1),2)
1: loop(\(x,i).(x2 + 1),(4x + 4),x)
1: loop(\(x,i).(x2 + 1),(x div 2),(2 + (x mod 2)))
1: loop(\(x,i).(x2 + 1),x,3)
1: loop(\(x,i).(x2 + 1),i,0)
1: loop(\(x,i).(x2 + 1),i,2)
1: loop(\(x,i).(x2 + 2),1,(~1 + loop(\(x,i).10x,x,1)))
1: loop(\(x,i).(x2 + 2),1,(~1 + loop(\(x,i).2x,x,2)))
1: loop(\(x,i).(x2 + 2),1,(compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(x2 + 2),(x div 2),(x mod 2))
1: loop(\(x,i).(x2 + 2),x,0)
1: loop(\(x,i).(x2 + 2),x,2)
1: loop(\(x,i).(x2 + 3),x,(if (x + ~2) <= 0 then 1 else 0))
1: loop(\(x,i).(x2 + 3),x,(if x <= 0 then 1 else 0))
1: loop(\(x,i).(x2 + 4),2,3)
1: loop(\(x,i).((x2 + 1) + i),x,0)
1: loop(\(x,i).(x2 + (2 * i)),x,1)
1: loop(\(x,i).(x2 + (x div 2)),1,loop(\(x,i).2x,x,2))
1: loop(\(x,i).(x2 + (x div 2)),2,3)
1: loop(\(x,i).(x2 + (x div 2)),3,6)
1: loop(\(x,i).(x2 + (x mod 2)),x,(1 + (x div 4)))
1: loop(\(x,i).(x2 + i),x,0)
1: loop(\(x,i).(x2 + i),x,1)
1: loop(\(x,i).(x2 + i),x,4)
1: loop(\(x,i).((x + 2) + (2 * i)),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).((x + 2) + (2 * i)),compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),1)
1: loop(\(x,i).(x + (2 * i)),(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1)
1: loop(\(x,i).(x + (2 * i)),(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1)
1: loop(\(x,i).(x + (2 * i)),((~1 + (x div 2)) div 3),x)
1: loop(\(x,i).(x + (2 * i)),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).(x + (2 * i)),compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x),1)
1: loop(\(x,i).(1 + (x * i)),4,2x)
1: loop(\(x,i).(1 + (x * i)),(2x + ~1),1)
1: loop(\(x,i).(1 + (x * i)),(x + ~5),1)
1: loop(\(x,i).(1 + (x * i)),x2,1)
1: loop(\(x,i).(1 + (x * i)),((x2 + ~x) div 2),1)
1: loop(\(x,i).(1 + (x * i)),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),0)
1: loop(\(x,i).(1 + (x * i)),(i div 2),x)
1: loop(\(x,i).(1 + (x * i)),x,2)
1: loop(\(x,i).(1 + (x * i)),x,(x + 1))
1: loop(\(x,i).(2 + (x * i)),(x + 1),1)
1: loop(\(x,i).(2 + (x * i)),(x mod 3),1)
1: loop(\(x,i).(2 + (x * i)),x,0)
1: loop(\(x,i).(2 + (x * i)),i,1)
1: loop(\(x,i).((x * i) + (x div 2)),x,(x + 1))
1: loop(\(x,i).((x * i) + (i mod 2)),(2x + ~1),0)
1: loop(\(x,i).((x * i) + (i mod 2)),x,0)
1: loop(\(x,i).((x * i) + (i mod 2)),i,0)
1: loop(\(x,i).((x + 2) + (i * i)),x,0)
1: loop(\(x,i).((x + 2) + (i * i)),x,1)
1: loop(\(x,i).((x + ~1) + (i * i)),x,0)
1: loop(\(x,i).((x + ~2) + (i * i)),x,0)
1: loop(\(x,i).(2x + (i * i)),(x + ~2),1)
1: loop(\(x,i).(2x + (i * i)),x,2)
1: loop(\(x,i).(x2 + (i * i)),x,1)
1: loop(\(x,i).(x + (i * i)),(x2 + 2x + 1),0)
1: loop(\(x,i).(x + (i * i)),(2x + 1),x)
1: loop(\(x,i).(x + (i * i)),(1 + (x div 2)),(x mod 2))
1: loop(\(x,i).(x + (i * i)),(x + 1),1)
1: loop(\(x,i).(x + (i * i)),(x + 1),x)
1: loop(\(x,i).(x + (i * i)),(x + 2),1)
1: loop(\(x,i).(x + (i * i)),(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),0)
1: loop(\(x,i).(x + (i * i)),(2x + ~1),x)
1: loop(\(x,i).(x + (i * i)),(x + ~1),1)
1: loop(\(x,i).(x + (i * i)),(x + ~2),x)
1: loop(\(x,i).(x + (i * i)),(~1 + i),i)
1: loop(\(x,i).(x + (i * i)),(x2 + 2x),0)
1: loop(\(x,i).(x + (i * i)),2x,0)
1: loop(\(x,i).(x + (i * i)),2x,x)
1: loop(\(x,i).(x + (i * i)),((x + 1) div 2),1)
1: loop(\(x,i).(x + (i * i)),(x div 2),0)
1: loop(\(x,i).(x + (i * i)),(x div 2),1)
1: loop(\(x,i).(x + (i * i)),x,3)
1: loop(\(x,i).(x + (i * i)),x,4)
1: loop(\(x,i).(x + (i * i)),x,(~1 + loop(\(x,i).2x,x,2)))
1: loop(\(x,i).(x + (i * i)),x,(5x + 5))
1: loop(\(x,i).(x + (i * i)),x,(x3 + 3x2 + 4x + 2))
1: loop(\(x,i).(x + (i * i)),x,(x3 + ~x))
1: loop(\(x,i).(x + (i * i)),x,(if x <= 0 then 1 else 2))
1: loop(\(x,i).(2x + (2 div (1 + i))),x,(x + 1))
1: loop(\(x,i).(4x + (2 div (x2 + ~2))),x,1)
1: loop(\(x,i).(x + (((x + 2) + ((x - (((1 + ((x2 + ~x) div 2)) div 2) div 2)) div 2)) div 2)),(x + ~1),x)
1: loop(\(x,i).(2x + (((x + 1) + (x div 4)) div 2)),2,(x + 1))
1: loop(\(x,i).(1 + (((x + 1) + (if (~x + 2) <= 0 then (x div 2) else 1)) div 2)),i,2x)
1: loop(\(x,i).(x + ((1 + (2 * (x + (x div 2)))) div (1 + i))),x,1)
1: loop(\(x,i).(x + ((3x + 4) div (2 + i))),x,1)
1: loop(\(x,i).(x + ((x + ((x + 2) * i)) div (1 + (2 * (2 + i))))),2,x)
1: loop(\(x,i).(x + ((1 + ((2 + i) * i)) div (x + 1))),x,0)
1: loop(\(x,i).(((x2 + 1) div 2) + (x mod 2)),2,x)
1: loop(\(x,i).(x + ((x2 + 2) div (1 + (x div 2)))),x,1)
1: loop(\(x,i).(2 + ((x2 + i) div 2)),x,1)
1: loop(\(x,i).(x + ((x2 + i) div (3x + ~1))),x,1)
1: loop(\(x,i).(x + ((x + (i * i)) div (1 + (x div 2)))),x,1)
1: loop(\(x,i).(1 + ((1 + ((x2 + (x div 2)) div 3)) div 3)),2,x)
1: loop(\(x,i).(1 + ((x + ((1 + ((((x + 1) * (x + (if x <= 0 then 1 else loop(\(x,i).(x - (if x <= 0 then 1 else (x - ((if x <= 0 then 2 else loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 2)))),x,x)))) div 2) div 2)) div 2)) div 2)),1,(x + 1))
1: loop(\(x,i).(1 + ((1 + ((x * ((x + 1) div 2)) div 2)) div 5)),2,x)
1: loop(\(x,i).(2 + ((x + (2x div (2 - ((~x + 1) div 3)))) div 2)),2,x)
1: loop(\(x,i).(2 + (((x2 div 2) + (x div 3)) div 2)),1,(x div 2))
1: loop(\(x,i).(2x + ((x + (x2 div 3)) div 2)),x,2)
1: loop(\(x,i).(1 + ((x + (x2 div 4)) div 3)),2,x)
1: loop(\(x,i).(1 + ((x + ((x2 div 2) div 3)) div 2)),1,x3)
1: loop(\(x,i).(1 + ((x + ((x2 div 2) div 3)) div 2)),2,x)
1: loop(\(x,i).(x + ((2 + (x div 2)) div (1 + i))),2,x)
1: loop(\(x,i).(1 + ((x + (x div 2)) div 2)),2,(x div 2))
1: loop(\(x,i).(x + ((x + (x div 2)) div 2)),2,(2 + (x div 2)))
1: loop(\(x,i).(((x + (x div 2)) div 2) + i),x,(x + 2))
1: loop(\(x,i).(x + (((x div 2) + i) div 4)),x,0)
1: loop(\(x,i).(x + (((x div 2) + i) div 4)),x,2)
1: loop(\(x,i).(2x + ((x + ((x div 2) mod 2)) div 2)),x,1)
1: loop(\(x,i).(2 + ((x + ((x div 5) mod 2)) div 2)),2,x)
1: loop(\(x,i).(x + ((x + (((x div 2) mod 5) mod 2)) div 2)),x,2)
1: loop(\(x,i).(1 + ((x + (if (x mod 2) <= 0 then 4 else (x mod ~2))) div 3)),2,x)
1: loop(\(x,i).(x + ((x + (if (i mod 2) <= 0 then 2 else 0)) div 3)),x,2)
1: loop(\(x,i).(x + ((x + (if (i mod 2) <= 0 then 2 else x)) div 2)),x,1)
1: loop(\(x,i).(x + ((x + loop(\(x,i).4x,i,1)) div (2x + 1))),(x + 1),1)
1: loop(\(x,i).(x + ((x + loop(\(x,i).4x,i,1)) div (2x + 1))),x,1)
1: loop(\(x,i).(((x + 1) div 2) + i),loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1)
1: loop(\(x,i).(2x + ((x + 1) div 5)),2,x)
1: loop(\(x,i).(2 + ((x + 2) div (2 + (x mod (2 + (x div 4)))))),2,x)
1: loop(\(x,i).(x + ((x + 2) div (1 + (i mod 2)))),x,2)
1: loop(\(x,i).(8 + ((x + i) div 2)),x,0)
1: loop(\(x,i).(x + ((x + i) div 2)),2,x)
1: loop(\(x,i).(x + ((x + i) div 2)),(x div 2),1)
1: loop(\(x,i).((x + 1) + ((x + i) div (2 + (x mod 2)))),x,1)
1: loop(\(x,i).(1 + ((19x + 1) div (x + 4))),x,1)
1: loop(\(x,i).(1 + ((~x + 2) div (2 + (x div 2)))),2,x)
1: loop(\(x,i).(2 + ((x2 + ~2) div (x + 4))),2,x)
1: loop(\(x,i).(2 + ((x2 + ~2) div (2 + i))),x,x)
1: loop(\(x,i).((((x div 2) - loop(\(x,i).~x,x,2)) div 2) + loop(\(x,i).2x,i,1)),x,2)
1: loop(\(x,i).(x + ((~x + ((x div 2) mod 5)) div 5)),2,x)
1: loop(\(x,i).(2 + ((x - ((2 - ((x + 1) mod (1 - (x mod ~7)))) div 2)) div 2)),2,x)
1: loop(\(x,i).(x + ((x - ((x div 2) div 3)) div 2)),x,5)
1: loop(\(x,i).(x + ((x - (x div 3)) div 3)),2,x)
1: loop(\(x,i).(x + ((x - (x div 4)) div 2)),2,x)
1: loop(\(x,i).(x + ((x - (x div 4)) div 2)),x,2)
1: loop(\(x,i).(2 + ((x - (x div (~4 + ((x div 2) mod 2)))) div 2)),2,x)
1: loop(\(x,i).(1 + ((x - (x mod (2 + (x div 5)))) div 2)),2,x)
1: loop(\(x,i).(2x + ((~1 + i) div 2)),x,1)
1: loop(\(x,i).(x + (6 div (1 + (x div 2)))),x,1)
1: loop(\(x,i).(x + (3x div (1 + (i mod 2)))),x,1)
1: loop(\(x,i).(x + (3x div (if i <= 0 then 1 else i))),i,x)
1: loop(\(x,i).(2x + (8 div (1 + i))),(x div 2),x)
1: loop(\(x,i).(x + ((4x + 4) div (1 + i))),x,4)
1: loop(\(x,i).(x + (5x div (if i <= 0 then 1 else i))),2x,1)
1: loop(\(x,i).(x + (5x div (if i <= 0 then 1 else i))),(x div 2),1)
1: loop(\(x,i).(x + (5x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(x + (5x div (if i <= 0 then 1 else i))),x,3)
1: loop(\(x,i).(x + (5x div (if i <= 0 then 1 else i))),x,(x + 1))
1: loop(\(x,i).(x + (5x div (if i <= 0 then 1 else i))),x,6)
1: loop(\(x,i).(x + (((6 + i) * (1 + i)) div 2)),x,1)
1: loop(\(x,i).(x + (((4 + i) * (1 + i)) div 2)),x,1)
1: loop(\(x,i).(x + (((4 + i) * i) div 2)),(x + 2),(x + ~1))
1: loop(\(x,i).(1 + ((3 * (2x + i)) div 2)),x,1)
1: loop(\(x,i).(x + (7x div (1 + i))),2x,8)
1: loop(\(x,i).(x + (7x div (if i <= 0 then 1 else i))),2x,1)
1: loop(\(x,i).(x + (7x div (if i <= 0 then 1 else i))),x,3)
1: loop(\(x,i).(x + (7x div (if i <= 0 then 1 else i))),x,(x + 1))
1: loop(\(x,i).(x + (7x div (if i <= 0 then 1 else i))),x,6)
1: loop(\(x,i).(x + ((3x2 + 2x) div (2 + i))),x,2)
1: loop(\(x,i).(x + (13x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(x + (((1 + (5 * i)) * (1 + i)) div 2)),x,1)
1: loop(\(x,i).(1 + ((2x2 + 4x + 4) div 5)),2,x)
1: loop(\(x,i).(x + (((2 + ((1 + i) * i)) * i) div 2)),x,1)
1: loop(\(x,i).(x + (((2 + ((~1 + i) * i)) * i) div 2)),x,1)
1: loop(\(x,i).(x + ((x * (1 + (15 * i))) div (1 + i))),x,1)
1: loop(\(x,i).(x + (37x div (1 + i))),x,2)
1: loop(\(x,i).(x + (33x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(x + (49x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(x + (73x div (1 + i))),x,2)
1: loop(\(x,i).(9 + ((x3 + x) div 2)),2,x)
1: loop(\(x,i).(2 + ((x3 + 2x) div 3)),2,x)
1: loop(\(x,i).(x + ((x3 + 2x) div 3)),1,(x2 + 2x + 1))
1: loop(\(x,i).(x + (((1 + (2 * i)) * i) div 2)),(1 + i),x)
1: loop(\(x,i).(x + (((2 + (i * i)) * (1 + i)) div 2)),(x + 1),0)
1: loop(\(x,i).(1 + ((2 * (1 + (((x + 1) * (1 + (2 * ((x + 1) div (3 - (x mod 2)))))) div 3))) div 3)),x,1)
1: loop(\(x,i).(((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3) + (if x <= 0 then 0 else 1)),(if x <= 0 then 0 else 1),(x + ~1))
1: loop(\(x,i).(x + (((2 + (i mod 2)) * (1 + i)) div 2)),x,1)
1: loop(\(x,i).(1 + ((2 * (x + (i mod 2))) div 3)),2,x)
1: loop(\(x,i).(1 + ((2 * (1 + (if x <= 0 then 0 else ((x + 5) + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2))))) div 3)),2,x)
1: loop(\(x,i).(1 + ((x2 + x) div 2)),1,loop(\(x,i).(10x + 1),x,0))
1: loop(\(x,i).(1 + ((x2 + x) div 2)),x,1)
1: loop(\(x,i).(1 + ((x2 + x) div 2)),i,1)
1: loop(\(x,i).(2 + ((x2 + x) div 2)),2,(x + ~2))
1: loop(\(x,i).(2 + ((x2 + x) div 2)),x,2)
1: loop(\(x,i).(1 + ((2x + 4) div 3)),3,x)
1: loop(\(x,i).(1 + ((2x + 4) div 3)),(x + ~8),x)
1: loop(\(x,i).(5 + ((2x + 4) div 3)),x,1)
1: loop(\(x,i).(((x2 + 3x + 2) div 2) + (if x <= 0 then 0 else 1)),x,0)
1: loop(\(x,i).(1 + ((x2 + 2x) div 2)),1,loop(\(x,i).(2x + (i mod 2)),x,0))
1: loop(\(x,i).(((x2 + 2x) div 3) + loop(\(x,i).2x,x,1)),x,1)
1: loop(\(x,i).(((x2 + 2x) div (x + 4)) + i),x,0)
1: loop(\(x,i).(1 + ((x2 + 2x) div (2 + i))),2,x)
1: loop(\(x,i).(2 + ((x2 + 2x) div 20)),2,(x + 1))
1: loop(\(x,i).(x + ((x * (1 + i)) div (2 + (x div 4)))),x,1)
1: loop(\(x,i).(x + (((1 + i) * i) div 2)),(x + 1),x)
1: loop(\(x,i).(x + (((1 + i) * i) div 2)),(x + 2),2)
1: loop(\(x,i).(x + (((1 + i) * i) div 2)),(x + 2),2x)
1: loop(\(x,i).(x + (((1 + i) * i) div 2)),(x div 2),x)
1: loop(\(x,i).(x + (((1 + i) * i) div 2)),i,1)
1: loop(\(x,i).(4x + (((2 + i) * (1 + i)) div 2)),x,1)
1: loop(\(x,i).(x + (((2 + i) * (1 + i)) div 2)),(x + 1),0)
1: loop(\(x,i).(x + (((2 + i) * (1 + i)) div 2)),(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1)
1: loop(\(x,i).(x + (((2 + i) * (1 + i)) div 2)),(x div 2),1)
1: loop(\(x,i).(x + (((2 + i) * (1 + i)) div 2)),(x div 3),1)
1: loop(\(x,i).(x + (((2 + i) * (1 + i)) div 2)),i,0)
1: loop(\(x,i).(x + (((2 + i) * (1 + i)) div 2)),i,2x)
1: loop(\(x,i).(x + (((2 + i) * i) div (x + 6))),x,0)
1: loop(\(x,i).(1 + (((x + 1) * (x + i)) div 3)),x,1)
1: loop(\(x,i).(2 + ((x * (x + i)) div 2)),2,x)
1: loop(\(x,i).(x2 + ((x * (x + i)) div 4)),x,1)
1: loop(\(x,i).(1 + ((x * (x + i)) div 8)),2,x)
1: loop(\(x,i).(2x + (((1 - (2 * (i mod 2))) * i) div 2)),x,1)
1: loop(\(x,i).(x + (11x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(x + (23x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(x + (31x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(x + (47x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(x + ((2x2 + ~x) div (x + 4))),2,x)
1: loop(\(x,i).(x + ((2x2 + ~x) div (x + 2))),x,8)
1: loop(\(x,i).(x + ((x * (~2 + loop(\(x,i).(x2 + 2x),2,2))) div (1 + i))),x,(x + 1))
1: loop(\(x,i).(2 + ((x2 + ~x) div 2)),x2,1)
1: loop(\(x,i).(2 + ((x2 + ~x) div 2)),x,0)
1: loop(\(x,i).(4x + ((x2 + ~x) div 2)),1,loop(\(x,i).2x,x,1))
1: loop(\(x,i).(6x + ((x2 + ~x) div 2)),1,loop(\(x,i).2x,x,1))
1: loop(\(x,i).(((x2 + ~x) div 2) + (if x <= 0 then 0 else 1)),2,x)
1: loop(\(x,i).(2 + ((x2 + ~x) div (x + 2))),2,x)
1: loop(\(x,i).(1 + ((x2 + ~x) div 8)),2,x)
1: loop(\(x,i).(1 + ((x2 + ~2x) div 2)),2,x)
1: loop(\(x,i).(3 + ((x2 + ~2x) div (x + 2))),2,x)
1: loop(\(x,i).(x + (58x div (1 + i))),x,2)
1: loop(\(x,i).(2 + ((x * (x - i)) div (x + 2))),2,x)
1: loop(\(x,i).(2x + (((~1 + i) * i) div 2)),x,1)
1: loop(\(x,i).(x + (9x div (if i <= 0 then 1 else i))),2x,1)
1: loop(\(x,i).(x + (9x div (if i <= 0 then 1 else i))),x,(x + 1))
1: loop(\(x,i).(x + (15x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(x + (((3x + 3) * i) div (2 + i))),x,x)
1: loop(\(x,i).(2x + (10x div (1 + i))),x,3)
1: loop(\(x,i).(4x + (10x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(x + (10x div (if i <= 0 then 1 else i))),(2x + 1),1)
1: loop(\(x,i).(x + (10x div (if i <= 0 then 1 else i))),(x + 1),1)
1: loop(\(x,i).(x + (10x div (if i <= 0 then 1 else i))),2x,1)
1: loop(\(x,i).(x + (25x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(x + (35x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(x + (45x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(x + ((5 * (i * i)) div 2)),x,0)
1: loop(\(x,i).(x + (((4 + i) * i * (1 + i)) div 2)),x,0)
1: loop(\(x,i).(2x + (14x div (1 + i))),(2x + 1),(x + 1))
1: loop(\(x,i).(2x + (14x div (1 + i))),2x,1)
1: loop(\(x,i).(2x + (14x div (1 + i))),2x,2)
1: loop(\(x,i).(4x + (14x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(x + (14x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(x + (21x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(x + (28x div (1 + i))),x,(x + 1))
1: loop(\(x,i).(x + (26x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(x + (39x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(x + (52x div (1 + i))),x,(x + 1))
1: loop(\(x,i).(x + (65x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(x + (57x div (1 + i))),x,2)
1: loop(\(x,i).(4x + (34x div (1 + i))),x,(x + 1))
1: loop(\(x,i).(x + (34x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(4x + (34x div (if i <= 0 then 2 else i))),x,1)
1: loop(\(x,i).(x + (51x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(x + (68x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(x + (85x div (1 + i))),x,2)
1: loop(\(x,i).(x + (66x div (1 + i))),x,(x + 1))
1: loop(\(x,i).(x + (66x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(x + (99x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(x + (((1 + (i * i)) * i * i) div 2)),x,0)
1: loop(\(x,i).(x + ((6x + 12) div (1 + i))),x,5)
1: loop(\(x,i).(x + (22x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(x + (55x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(x + (46x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(x + (62x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(x + (93x div (1 + i))),x,2)
1: loop(\(x,i).(1 + ((2x * (~1 + (2 * i))) div (1 + i))),((x + ~1) div 2),1)
1: loop(\(x,i).(x + (27x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(x + (63x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(x + (50x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(16x + ((10x * (~1 + (2 * i))) div (1 + i))),x,1)
1: loop(\(x,i).(x + (64x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(x + (96x div (1 + i))),x,1)
1: loop(\(x,i).(x + (32x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(x + (48x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(x + (16x div (1 + i))),x,(x + 1))
1: loop(\(x,i).(x + (24x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(x + (40x div (1 + i))),x,(x + 1))
1: loop(\(x,i).(x + (40x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(x + (56x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(x + (72x div (1 + i))),x,(x + 1))
1: loop(\(x,i).(x + (72x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(x + (36x div (1 + i))),x,(x + 1))
1: loop(\(x,i).(x + (36x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(x + (60x div (1 + i))),x,(x + 1))
1: loop(\(x,i).(x + (60x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(1 + ((x5 + ~2x4 + x3) div 2)),x,x)
1: loop(\(x,i).(x + (8x div (x2 + 1))),2,x)
1: loop(\(x,i).(x + (8x div (if i <= 0 then 1 else i))),(2x + 1),1)
1: loop(\(x,i).(x + (8x div (if i <= 0 then 1 else i))),(x + 1),1)
1: loop(\(x,i).(x + (8x div (if i <= 0 then 1 else i))),x,(x + 1))
1: loop(\(x,i).(x + (12x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(x + (20x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(x + ((4x * (1 + (2 * i))) div (2 + i))),x,1)
1: loop(\(x,i).(2x + (18x div (1 + i))),x,5)
1: loop(\(x,i).(x + (18x div (1 + i))),x,(x + 1))
1: loop(\(x,i).(x + (18x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(x + (30x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(x + (54x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(x + ((i * i * (1 + i) * (1 + i)) div 2)),(x + 1),0)
1: loop(\(x,i).(x + ((i * i * i * (1 + i)) div 2)),(x + 1),0)
1: loop(\(x,i).(x + ((4 * (((x + 1) div 2) div 2)) div 3)),2,x)
1: loop(\(x,i).(1 + ((4 * loop(\(x,i).2x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),2)) div 3)),2,x)
1: loop(\(x,i).(1 + (4x div (1 + i))),x,1)
1: loop(\(x,i).((4x div (1 + i)) + i),x,1)
1: loop(\(x,i).(x + (4x div (2 + i))),((x + 1) div 2),1)
1: loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),(x div 2),1)
1: loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,5)
1: loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,(2x + 1))
1: loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,(x + 1))
1: loop(\(x,i).(x + (6x div (if i <= 0 then 1 else i))),(2x + 1),1)
1: loop(\(x,i).(x + (6x div (if i <= 0 then 1 else i))),(x div 2),1)
1: loop(\(x,i).(x + (6x div (if i <= 0 then 1 else i))),x,(x + 1))
1: loop(\(x,i).(x + (6x div (if i <= 0 then 1 else i))),x,x)
1: loop(\(x,i).(x + (6x div (if i <= 0 then 1 else i))),i,1)
1: loop(\(x,i).(2 + (3x2 div (1 + i))),x,1)
1: loop(\(x,i).(1 + ((x3 + x2) div 2)),x,1)
1: loop(\(x,i).((x3 div 8) + (if x <= 0 then 1 else 2)),2,x)
1: loop(\(x,i).(1 + ((x * (i * (1 + i))) div 2)),x,1)
1: loop(\(x,i).(x + ((2 * (i * i)) div (x + 1))),x,2)
1: loop(\(x,i).(x + ((3 * (i * i)) div (2x + 1))),x,1)
1: loop(\(x,i).(x + ((4 * (i * i)) div 3)),x,(x + 1))
1: loop(\(x,i).(x + ((i * i * (1 + i)) div 2)),(x + 1),0)
1: loop(\(x,i).(x + ((i * i * (1 + i)) div 2)),i,~x)
1: loop(\(x,i).(x + ((i * i * (1 + i)) div 2)),i,x)
1: loop(\(x,i).(x + ((i * i * i * i) div 2)),(x + 1),0)
1: loop(\(x,i).(((x * (i * i)) div (2 + i)) + i),x,0)
1: loop(\(x,i).(x + ((i * i * i) div 2)),x,0)
1: loop(\(x,i).(x + ((i * i * i) div 3)),x,0)
1: loop(\(x,i).(x + (((((2 + i) * i) div 2) * (1 + i)) div 2)),(x + 1),0)
1: loop(\(x,i).(x + ((((i * i) div 2) * i) div 2)),(x + 2),0)
1: loop(\(x,i).(2 + ((x * (((x + ~1) div 2) div 2)) div 2)),2,2x)
1: loop(\(x,i).(x + ((3 * ((x div 2) div 3)) div 2)),2,(x + ~1))
1: loop(\(x,i).(1 + ((3 * (x div 2)) div 2)),2,x)
1: loop(\(x,i).(2 + (((x div 2) * (1 + i)) div 2)),x,1)
1: loop(\(x,i).(((3 * (x div 4)) div 2) + ((x + ~1) div 3)),1,2x)
1: loop(\(x,i).(((3 * (x div 4)) div 2) + (x div 2)),2,x)
1: loop(\(x,i).(((3 * (x div 4)) div 2) + i),x,1)
1: loop(\(x,i).(x + ((x * loop(\(x,i).(x2 + x),2,2)) div (1 + i))),x,(x + 1))
1: loop(\(x,i).(x + ((x * loop(\(x,i).(x2 + 2x),2,2)) div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(x + ((x * loop(\(x,i).(2x2 + ~2),2,2)) div (1 + i))),x,(x + 1))
1: loop(\(x,i).(x + ((x * loop(\(x,i).(2x2 + ~2),2,2)) div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(x + ((x * loop(\(x,i).x2,2,3)) div (1 + i))),x,2)
1: loop(\(x,i).(x + ((x * loop(\(x,i).x2,2,3)) div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(x + (2x div 7)),2,(2x + 2))
1: loop(\(x,i).(x + (2x div 7)),2,(if x <= 0 then 1 else 4x))
1: loop(\(x,i).(x + (2x div (1 + (2 * (i mod 2))))),x,3)
1: loop(\(x,i).(x + (2x div (1 + (2 * (i mod 2))))),x,3x)
1: loop(\(x,i).(2x + (2x div (1 + (x div 2)))),x,1)
1: loop(\(x,i).(x + (2x div (2 + (x div 3)))),(x + ~1),2)
1: loop(\(x,i).(x + (2x div (1 + (x div 5)))),(x + ~1),1)
1: loop(\(x,i).(1 + (x2 div 2)),(x + ~2),x)
1: loop(\(x,i).(1 + (x2 div 2)),x,2)
1: loop(\(x,i).(1 + (x2 div 2)),x,(x2 + 2))
1: loop(\(x,i).(1 + (x2 div 2)),x,(1 + ((x2 + 1) div 2)))
1: loop(\(x,i).(1 + ((x2 div 2) + (2 * i))),x,2)
1: loop(\(x,i).(2 + ((x2 div 2) + (x div 2))),x,2)
1: loop(\(x,i).((x2 div 2) + i),x,0)
1: loop(\(x,i).(1 + (x2 div 3)),2,x)
1: loop(\(x,i).(x + (x2 div 3)),1,loop(\(x,i).2x,x,1))
1: loop(\(x,i).(x + (x2 div 3)),x,2)
1: loop(\(x,i).(x2 + (x2 div 4)),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(x + (x2 div 4)),2,(x + ~2))
1: loop(\(x,i).(1 + (x2 div (x + 10))),2,x)
1: loop(\(x,i).(x + (x2 div (x + 3))),x,(2x + 1))
1: loop(\(x,i).(1 + (x2 div (x + 4))),2,(2x + 2))
1: loop(\(x,i).(1 + (x2 div (x + 4))),2,x)
1: loop(\(x,i).(2 + (x2 div (x + 4))),2,x)
1: loop(\(x,i).(1 + (x2 div (x + 8))),2,(x + 1))
1: loop(\(x,i).(2 + (x2 div 13)),3,x)
1: loop(\(x,i).(x + (x2 div (x + 16))),2,x)
1: loop(\(x,i).(x + (x2 div (1 + i))),(x + 2),2)
1: loop(\(x,i).(x + (x2 div (1 + i))),x,2)
1: loop(\(x,i).(x + (x2 div (if i <= 0 then 1 else (i * i)))),3,x)
1: loop(\(x,i).(x + (x2 div (if i <= 0 then 1 else (i * i)))),4,x)
1: loop(\(x,i).(x + (x2 div (if i <= 0 then 1 else (i * i)))),x,2)
1: loop(\(x,i).(1 + (x2 div loop(\(x,i).3x,(2 * i),1))),2,x)
1: loop(\(x,i).(1 + ((2 * i) div (x + 1))),x,2)
1: loop(\(x,i).(2 + ((x * i) div 2)),x,(~x + 1))
1: loop(\(x,i).(x + ((i * i) div 2)),(x + ~1),0)
1: loop(\(x,i).(x + ((i * i) div 2)),i,x)
1: loop(\(x,i).(x + ((i * i) div 3)),x,1)
1: loop(\(x,i).(x + ((i * i) div 3)),x,(1 + (x div 2)))
1: loop(\(x,i).(2x + ((i * i) div 4)),x,0)
1: loop(\(x,i).(x + ((i * i) div 4)),(x + 2),0)
1: loop(\(x,i).(x + ((i * i) div 4)),(x + ~1),x)
1: loop(\(x,i).(x + ((i * i) div 4)),x,0)
1: loop(\(x,i).(x + ((i * i) div 5)),x,0)
1: loop(\(x,i).(x + ((i * i) div (2x + 1))),x,0)
1: loop(\(x,i).(x + ((i * i) div (x + 1))),x,2)
1: loop(\(x,i).(x + ((i * i) div (x + 2))),x,1)
1: loop(\(x,i).(x + ((i * i) div ~2)),x,1)
1: loop(\(x,i).(x + ((i * i) div 6)),x,0)
1: loop(\(x,i).(1 + (((3 * ((x + ~1) + (2 * (x mod 4)))) div 2) div 2)),x,1)
1: loop(\(x,i).(1 + (((3 * (1 + ((((x + 2) div 3) * (x div 4)) div 2))) div 2) div 2)),2,2x)
1: loop(\(x,i).(x + (((x2 + x) div 2) div (~1 + (2 * i)))),2,x)
1: loop(\(x,i).(1 + (((x2 + x) div 4) div 5)),2,x)
1: loop(\(x,i).(1 + (((x2 + x) div 5) div 3)),2,x)
1: loop(\(x,i).(6x + (((x3 + 9x2 + 26x + 24) div 2) div 3)),1,(x + 1))
1: loop(\(x,i).(1 + ((((x + ~1) * (x div 3)) div 2) div 3)),2,x)
1: loop(\(x,i).(x + ((2x div (1 + i)) div (1 + (2 * i)))),x,x)
1: loop(\(x,i).(x + ((((x + 1) div 2) div 2) div 2)),2,(4x + 4))
1: loop(\(x,i).(1 + ((loop(\(x,i).(x - (x div ~8)),x,1) div 2) div 2)),1,2x)
1: loop(\(x,i).(x + ((x div 2) div 3)),2,x)
1: loop(\(x,i).(x + ((x div 2) div 3)),(x + ~1),x)
1: loop(\(x,i).(x + ((x div 2) div 3)),x,6)
1: loop(\(x,i).(x + ((x div 2) div 5)),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(x + ((x div 2) div (3 + i))),2,x)
1: loop(\(x,i).(x + ((x div 2) div (3 + i))),x,(x + 1))
1: loop(\(x,i).(x + ((x div 2) div 7)),2,3x)
1: loop(\(x,i).(x + ((x div 2) div 7)),2,4x)
1: loop(\(x,i).(2 + ((x div 2) div (1 + (x mod 3)))),2,x)
1: loop(\(x,i).(x + ((x div 2) div (1 + i))),3,x)
1: loop(\(x,i).(x + (((~x2 + 1) mod (1 + (x div 2))) div 2)),2,x)
1: loop(\(x,i).(1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)),(if x <= 0 then 0 else 1),(x + ~1))
1: loop(\(x,i).(1 + ((~16 mod (x + 1)) div 2)),2,x)
1: loop(\(x,i).(2 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) + (x mod 5))),(x + ~1),0)
1: loop(\(x,i).(x + ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3)),2,x)
1: loop(\(x,i).(x + ((x mod (1 + (x div 2))) div (2 + i))),2,x)
1: loop(\(x,i).(x + ((x mod (1 + ((~x + 2) mod 4))) div 2)),2,x)
1: loop(\(x,i).(x + (loop(\(x,i).(2 + ((x2 + x) div 2)),2,x) div 3)),1,i)
1: loop(\(x,i).(2x + (loop(\(x,i).4x,x,(if (x mod (4 - (x mod 2))) <= 0 then 1 else 0)) div (x + 1))),x,1)
1: loop(\(x,i).(x + (loop(\(x,i).4x,i,x) div 2)),x,1)
1: loop(\(x,i).(x + (loop(\(x,i).2x,(~1 + i),x) div 2)),x,2)
1: loop(\(x,i).(x + (loop(\(x,i).2x,x,1) div (x + 1))),(x + ~2),1)
1: loop(\(x,i).(x + (loop(\(x,i).2x,i,1) div (1 + (x * i)))),x,1)
1: loop(\(x,i).(x + (loop(\(x,i).2x,i,2) div (1 + i))),x,2)
1: loop(\(x,i).(x + (loop(\(x,i).2x,compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i),1) div 2)),x,0)
1: loop(\(x,i).((loop(\(x,i).(x * i),x,2) div (x + 1)) + (x * i)),x,1)
1: loop(\(x,i).(x + (loop(\(x,i).(x * i),x,2) div (x + 1))),(x + ~1),2)
1: loop(\(x,i).(x + (loop(\(x,i).(x * i),x,2) div (x + 1))),x,1)
1: loop(\(x,i).(1 + (loop(\(x,i).(x * i),x,(5x + 1)) div 2)),1,(x + 2))
1: loop(\(x,i).(x + (loop(\(x,i).(x div (1 + (x mod 2))),x,i) div 2)),x,1)
1: loop(\(x,i).(2 + (loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2)),2,x)
1: loop(\(x,i).(1 + (x div 2)),(x div 2),(2 * ((1 + (x mod (2 + ((x mod (2 + (x div 2))) div 2)))) mod 2)))
1: loop(\(x,i).(1 + (x div 2)),(x mod (1 + (x mod (3 - (x mod 2))))),x)
1: loop(\(x,i).(2 + (x div 2)),(~3 + (x div 2)),1)
1: loop(\(x,i).(2 + (x div 2)),(x + ~2),1)
1: loop(\(x,i).(2 + (x div 2)),((x + ~1) div 2),0)
1: loop(\(x,i).(2 + (x div 2)),(x div 4),(x div 2))
1: loop(\(x,i).(2x + (x div 2)),2,x)
1: loop(\(x,i).(2x + (x div 2)),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).(2x + (x div 2)),x,1)
1: loop(\(x,i).(2x + (x div 2)),x,x)
1: loop(\(x,i).(x + (x div 2)),2,(x2 + x + 1))
1: loop(\(x,i).(x + (x div 2)),2,(1 + (x div 2)))
1: loop(\(x,i).(x + (x div 2)),2,(x + 1))
1: loop(\(x,i).(x + (x div 2)),2,(x2 + x))
1: loop(\(x,i).(x + (x div 2)),2,x2)
1: loop(\(x,i).(x + (x div 2)),(x + 1),loop(\(x,i).x3,x,2))
1: loop(\(x,i).(x + (x div 2)),(~2 + (x div 2)),2)
1: loop(\(x,i).(x + (x div 2)),(2 * (x div 2)),x)
1: loop(\(x,i).(x + (x div 2)),x,4)
1: loop(\(x,i).(x + (x div 2)),x,5)
1: loop(\(x,i).(x + (x div 2)),x,(3x + 2))
1: loop(\(x,i).(x + (x div 2)),x,17)
1: loop(\(x,i).(x + (x div 2)),x,41)
1: loop(\(x,i).(x + (x div 2)),x,~1)
1: loop(\(x,i).(x + (x div 2)),x,29)
1: loop(\(x,i).(x + (x div 2)),x,23)
1: loop(\(x,i).(x + (x div 2)),x,35)
1: loop(\(x,i).(x + (x div 2)),x,47)
1: loop(\(x,i).(x + (x div 2)),x,6)
1: loop(\(x,i).(x + (x div 2)),x,8)
1: loop(\(x,i).(x + (x div 2)),x,14)
1: loop(\(x,i).(x + (x div 2)),x,26)
1: loop(\(x,i).(x + (x div 2)),x,16)
1: loop(\(x,i).(x + (x div 2)),x,20)
1: loop(\(x,i).(x + (x div 2)),x,50)
1: loop(\(x,i).(x + (x div 2)),x,44)
1: loop(\(x,i).(x + (x div 2)),x,32)
1: loop(\(x,i).(x + (x div 2)),x,loop(\(x,i).(x2 + 2),2,2))
1: loop(\(x,i).(x + (x div 2)),x,x)
1: loop(\(x,i).((x div 2) + i),4,x)
1: loop(\(x,i).(x + (x div 3)),2,(1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))
1: loop(\(x,i).(x + (x div 3)),2,(x + ~1))
1: loop(\(x,i).(x + (x div 3)),x,3)
1: loop(\(x,i).(x + (x div 3)),x,5)
1: loop(\(x,i).(x + (x div 3)),x,36)
1: loop(\(x,i).((2x + 2) + (x div 4)),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).((2x + 2) + (x div 4)),loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1)
1: loop(\(x,i).(x + (x div 4)),2,(x + (if (~4 + (x div 2)) <= 0 then 1 else 2)))
1: loop(\(x,i).(x + (x div 4)),2,x)
1: loop(\(x,i).(x + (x div 4)),(x + ~1),4)
1: loop(\(x,i).(x + (x div 4)),x,4)
1: loop(\(x,i).(x + (x div 4)),x,~1)
1: loop(\(x,i).(2x + (x div 5)),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).((x div 5) + (x mod 2)),2,2x)
1: loop(\(x,i).(3x + (x div (3 + i))),x,2)
1: loop(\(x,i).(x + (x div (2 + (i + (x div 2))))),2,x)
1: loop(\(x,i).(x + (x div (~1 + ((2 * i) + i)))),x,x)
1: loop(\(x,i).(x + (x div 7)),2,x)
1: loop(\(x,i).(x + (x div 7)),(~4 + (x div 2)),x)
1: loop(\(x,i).(x + (x div 7)),((~1 + (x div 2)) div 2),x)
1: loop(\(x,i).(x + (x div 7)),x,7)
1: loop(\(x,i).(x + (x div 9)),2,(x2 + 1))
1: loop(\(x,i).(x + (x div 9)),10,x)
1: loop(\(x,i).(x + (x div 9)),x,~2)
1: loop(\(x,i).(4x + (x div (1 + (2 * (2 + i))))),x,1)
1: loop(\(x,i).(2 + (x div (1 + (2 * (x mod 2))))),1,(1 + (if (~1 + (x mod 3)) <= 0 then x else 2)))
1: loop(\(x,i).(1 + (x div (2 + (x div (1 + ((x div 2) mod (1 + (x mod (1 + (x mod (3 + (x mod 2)))))))))))),1,(x + 1))
1: loop(\(x,i).(1 + (x div (2 + ((~x + 2) mod 4)))),2,(x + 1))
1: loop(\(x,i).(x + (x div (1 + ((x + ~1) mod 4)))),x,1)
1: loop(\(x,i).(x + (x div (2 + ((~1 + i) mod 4)))),x,2)
1: loop(\(x,i).(1 + (x div (1 + ((x div 2) mod (1 + (x mod (1 + ((~x + 2) mod 4)))))))),1,(x + ~1))
1: loop(\(x,i).(1 + (x div (1 + (loop(\(x,i).2x,x,2) mod (2x + 1))))),1,(x + 1))
1: loop(\(x,i).(x + (x div (2 + (x mod 2)))),x,4)
1: loop(\(x,i).(2 + (x div (2 + (x mod 3)))),3,2x)
1: loop(\(x,i).(1 + (x div (2 + (x mod (1 + (x div (1 + (((2x mod (1 + (x mod 4))) div 2) + (x mod 2))))))))),1,(x + 1))
1: loop(\(x,i).(1 + (x div (1 + (x mod (1 + (loop(\(x,i).2x,x,2) mod (2x + 1))))))),1,i)
1: loop(\(x,i).(x + (x div (1 + (i mod 2)))),x,1)
1: loop(\(x,i).(x + (x div (1 + (i mod 2)))),x,3)
1: loop(\(x,i).(x + (x div (1 + (i mod 2)))),x,8)
1: loop(\(x,i).(x + (x div (1 + (i mod 2)))),x,2x)
1: loop(\(x,i).(x + (x div (2 + (i mod 2)))),5,(x + 1))
1: loop(\(x,i).(x + (x div (2 + (i mod 2)))),(x div 2),2)
1: loop(\(x,i).(2 + (x div (1 + (if (x mod 2) <= 0 then 6 else 1)))),3,x)
1: loop(\(x,i).((x div (1 + (if (x mod 3) <= 0 then 2 else 0))) + (if (x + ~2) <= 0 then 1 else 2)),1,(x + 1))
1: loop(\(x,i).(2x + (x div (1 + (if (i mod 2) <= 0 then 2 else 0)))),x,1)
1: loop(\(x,i).(1 + (x div (2 - (x mod 2)))),x,(x div 3))
1: loop(\(x,i).(2 + (x div (2 - (x mod 2)))),2,x)
1: loop(\(x,i).(1 + (x div (4 - (x mod (2 + (x mod 3)))))),2,x)
1: loop(\(x,i).(x + (x div 15)),2,(4x + 1))
1: loop(\(x,i).(x + (x div 15)),2,4x)
1: loop(\(x,i).(x + (x div 8)),2,x)
1: loop(\(x,i).(x + (x div 8)),(~1 + (x div 5)),(x + 2))
1: loop(\(x,i).(x + (x div 8)),x,8)
1: loop(\(x,i).(x + (x div (4 * (1 + i)))),2,(x + 1))
1: loop(\(x,i).(x + (x div (if (x mod (2 + i)) <= 0 then 2 else 1))),x,2)
1: loop(\(x,i).(x + (x div (if (i mod 3) <= 0 then 4 else 1))),x,1)
1: loop(\(x,i).(x + (x div (if (i mod 4) <= 0 then 4 else 1))),x,1)
1: loop(\(x,i).(x + (x div (if i <= 0 then 1 else (2 * i)))),x,(2 * i))
1: loop(\(x,i).((x + 2) + (x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).((x + 2) + (x div (if i <= 0 then 1 else i))),x,2)
1: loop(\(x,i).(2 + (i div 2)),(loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2),1)
1: loop(\(x,i).(2x + (i div 2)),(x + 1),x)
1: loop(\(x,i).(2x + (i div 2)),x,2)
1: loop(\(x,i).(2x + (i div 2)),x,2x)
1: loop(\(x,i).(x + (i div 2)),(2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)),1)
1: loop(\(x,i).(x + (i div 2)),(2 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x)),1)
1: loop(\(x,i).(x + (i div 2)),((x + 2) div 3),1)
1: loop(\(x,i).(2x + (i div 3)),x,0)
1: loop(\(x,i).(2x + (i div 3)),x,1)
1: loop(\(x,i).(1 + (i div (2x + 1))),(x + ~1),x)
1: loop(\(x,i).((i div (1 + (x div 2))) + (x div 2)),x,1)
1: loop(\(x,i).(1 + ((x + 6) mod (1 + i))),x,1)
1: loop(\(x,i).(1 + ((x + 4) mod (1 + i))),x,1)
1: loop(\(x,i).(5x + ((2x + 1) mod 5)),x,1)
1: loop(\(x,i).(10x + ((2x + 1) mod 5)),x,1)
1: loop(\(x,i).(10x + ((2x + 1) mod 5)),x,2)
1: loop(\(x,i).(10x + ((2x + 1) mod 5)),x,3)
1: loop(\(x,i).(1 + ((2x + 1) mod (4 + (x div 4)))),2,x)
1: loop(\(x,i).(x + ((2x + 1) mod (1 + (2x mod (2 + (x div 4)))))),2,x)
1: loop(\(x,i).(x + ((2x + 1) mod (1 + (2x mod (2 + (x div 4)))))),x,x)
1: loop(\(x,i).(2x + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + (((((2x + 3) * (1 + (x2 div 4))) div 2) div 2) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) div 2)) mod 2)),x,1)
1: loop(\(x,i).(4x + ((x + (x div 2)) mod 4)),x,2)
1: loop(\(x,i).(4x + ((x + (x div 2)) mod 4)),x,3)
1: loop(\(x,i).(1 + ((1 + ((x + 1) mod (1 + (x div (2 + (x mod (2 + (x mod 2)))))))) mod (x + 1))),2,x)
1: loop(\(x,i).(6x + ((x + ((x div 2) mod 3)) mod 4)),x,2)
1: loop(\(x,i).(8x + ((x + 1) mod 4)),x,1)
1: loop(\(x,i).(8x + ((x + 1) mod 4)),x,2)
1: loop(\(x,i).(8x + ((x + 1) mod 4)),x,3)
1: loop(\(x,i).(4x + ((x + 1) mod 4)),(x + 1),1)
1: loop(\(x,i).(4x + ((x + 1) mod 4)),x,2)
1: loop(\(x,i).(4x + ((x + 1) mod 4)),x,4)
1: loop(\(x,i).(1 + ((x + 1) mod (1 - (x div (~2 + (((~x + 2) div 2) div 5)))))),2,x)
1: loop(\(x,i).(1 + ((x + 2) mod (1 + i))),x,1)
1: loop(\(x,i).(4x + ((1 + i) mod 3)),x,1)
1: loop(\(x,i).(6x + ((1 + i) mod 4)),x,1)
1: loop(\(x,i).(6x + ((2 + i) mod 4)),x,2)
1: loop(\(x,i).(2x + ((x + i) mod 2)),x,1)
1: loop(\(x,i).(6x + ((x + i) mod 3)),x,1)
1: loop(\(x,i).(4x + ((~x + 1) mod 4)),(x div 2),(1 + (2 * (x mod 2))))
1: loop(\(x,i).(4x + ((~x + 1) mod 4)),(x div 2),(1 + (x mod 2)))
1: loop(\(x,i).(6x + ((~x + 1) mod 4)),x,1)
1: loop(\(x,i).(6x + ((~x + 1) mod 4)),x,3)
1: loop(\(x,i).(4x + ((~x + 1) mod 5)),x,1)
1: loop(\(x,i).(4x + ((1 - i) mod 3)),x,1)
1: loop(\(x,i).(x + ((~x2 + 2) mod (~1 + ((~2x + 2) mod (4 + (x div 4)))))),2,x)
1: loop(\(x,i).(x + ((2 - (x div 3)) mod 4)),2,x)
1: loop(\(x,i).(8x + ((~x + 2) mod 5)),x,2)
1: loop(\(x,i).(1 + ((~1 + (2 * (if (x + ~1) <= 0 then 2 else (2x + ~1)))) mod (x + 2))),2,x)
1: loop(\(x,i).(2 + ((~2 + ((x + ~1) div 2)) mod (x + 1))),2,x)
1: loop(\(x,i).(1 + (((x div 2) - (2 * (x mod 2))) mod 9)),x,0)
1: loop(\(x,i).(8x + ((~1 + (i mod 3)) mod 2)),x,1)
1: loop(\(x,i).(8x + ((x + ~1) mod 4)),x,1)
1: loop(\(x,i).(8x + ((x + ~1) mod 4)),x,2)
1: loop(\(x,i).(8x + ((x + ~1) mod 4)),x,3)
1: loop(\(x,i).(4x + ((x + ~1) mod 4)),x,1)
1: loop(\(x,i).(4x + ((x + ~1) mod 4)),x,2)
1: loop(\(x,i).(4x + ((x + ~1) mod 4)),x,4)
1: loop(\(x,i).(2 + ((x + ~1) mod 9)),x,20)
1: loop(\(x,i).(x + ((x + ~2) mod 5)),x,1)
1: loop(\(x,i).(1 + (((x + ~1) + loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x)) mod (x + 1))),2,x)
1: loop(\(x,i).(1 + ((~3x2 + ~2x) mod 9)),x,0)
1: loop(\(x,i).(x + ((x - (if (~2 + (x div 2)) <= 0 then 0 else 1)) mod 2)),2,x)
1: loop(\(x,i).(2x + ((x - (if (i mod 4) <= 0 then x else 1)) mod 2)),x,1)
1: loop(\(x,i).(6x + ((x - i) mod 3)),x,1)
1: loop(\(x,i).(4x + ((~1 + i) mod 3)),x,2)
1: loop(\(x,i).(6x + ((~1 + i) mod 4)),x,3)
1: loop(\(x,i).(x + ((~1 + i) mod 9)),(x + 1),0)
1: loop(\(x,i).(x + ((~1 + i) mod 9)),x,x)
1: loop(\(x,i).(x + ((~1 + i) mod 6)),(x + 1),0)
1: loop(\(x,i).(x + ((~1 + i) mod 8)),(x + 1),0)
1: loop(\(x,i).(x + ((~1 + i) mod 8)),x,x)
1: loop(\(x,i).(x + ((~1 + i) mod 12)),(x + 1),0)
1: loop(\(x,i).(x + ((~1 + i) mod 10)),(x + 1),0)
1: loop(\(x,i).(x + ((~1 + i) mod 10)),(x + 1),1)
1: loop(\(x,i).(x + ((~1 + i) mod 10)),(x + 2),0)
1: loop(\(x,i).(2x + ((~x + i) mod 3)),x,0)
1: loop(\(x,i).(x + (12 mod (1 + i))),x,1)
1: loop(\(x,i).(2 + (2x mod 7)),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).(1 + (x2 mod (1 + i))),(x + ~1),1)
1: loop(\(x,i).(1 + ((x * i) mod 4)),(x + ~1),(~x + 2))
1: loop(\(x,i).(2x + ((i * i) mod 3)),2x,2)
1: loop(\(x,i).(2x + ((i * i) mod 3)),x,1)
1: loop(\(x,i).(2x + (((1 + (((3 * ((2x + 1) + (2 * (((2x + 1) + (2 * ((8x + 1) div (1 + (if x <= 0 then 0 else 2))))) div 3)))) div 2) div 2)) div 2) mod 2)),x,1)
1: loop(\(x,i).(2x + (((1 + ((if x <= 0 then 1 else (3 * ((x + 1) + (x div 8)))) div 2)) div 2) mod 2)),x,1)
1: loop(\(x,i).(1 + (((x + 1) div 2) mod 3)),x,x)
1: loop(\(x,i).(2x + (((x + 1) div (2 + (x div 8))) mod 2)),x,1)
1: loop(\(x,i).(2x + (((~x + 1) div (1 + (x mod 4))) mod 2)),x,1)
1: loop(\(x,i).(x + (((~1 + (x div 2)) div 3) mod 2)),x,x)
1: loop(\(x,i).(6x + (((x + ~1) div 2) mod 2)),x,1)
1: loop(\(x,i).(8x + (((x + ~1) div 2) mod 4)),(x + 1),0)
1: loop(\(x,i).(8x + (((x + ~1) div 2) mod 4)),x,1)
1: loop(\(x,i).(2x + (((x - ((2 - (x div 4)) div 2)) div 2) mod 2)),x,1)
1: loop(\(x,i).(2x + ((2x div (2 + (x div 2))) mod 2)),x,1)
1: loop(\(x,i).(2x + (((((x + ~1) div 2) div 2) div 2) mod 2)),x,1)
1: loop(\(x,i).(2x + ((x div 2) mod 2)),2,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(2x + ((x div 5) mod 2)),2,x)
1: loop(\(x,i).(x + ((x div 7) mod 2)),2,x)
1: loop(\(x,i).(6x + ((x div ~2) mod 2)),x,1)
1: loop(\(x,i).(x + ((x div (~3 + (x mod 2))) mod 2)),2,x)
1: loop(\(x,i).(2x + ((i div ~2) mod 2)),x,1)
1: loop(\(x,i).(2x + ((i div ~4) mod 2)),x,0)
1: loop(\(x,i).(2x + ((i div (2 * (~2 + (x mod 2)))) mod 2)),x,1)
1: loop(\(x,i).(2x + (((1 + i) mod (x + 1)) mod 2)),x,1)
1: loop(\(x,i).(x + ((((~2 + (x div 2)) * (x div 2)) mod (x + 1)) mod 2)),2,x)
1: loop(\(x,i).(2x + ((x mod ~7) mod 2)),x,1)
1: loop(\(x,i).(1 + (loop(\(x,i).(3x + 1),x,1) mod (2x + 1))),2,x)
1: loop(\(x,i).((x + 1) + (loop(\(x,i).(x2 + 4x + 2),2,3) mod (x + 1))),x,1)
1: loop(\(x,i).(2x + (loop(\(x,i).(x + 1),(x div (~1 + (4 * i))),(x + 1)) mod 2)),x,0)
1: loop(\(x,i).(2 + (loop(\(x,i).2x,x,3) mod (x + 1))),2,x)
1: loop(\(x,i).(x + (loop(\(x,i).2x,x,(if (~2 + i) <= 0 then 1 else x)) mod 10)),x,0)
1: loop(\(x,i).(2 + (x mod 2)),(x mod 2),(x div 2))
1: loop(\(x,i).((x mod 2) + i),(~2 + (x div 2)),1)
1: loop(\(x,i).(x + (x mod 5)),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).(x + (x mod 9)),(x + ~1),1)
1: loop(\(x,i).(x + (x mod 9)),x,1)
1: loop(\(x,i).(x + (x mod 9)),x,5)
1: loop(\(x,i).(1 + (x mod (1 + ((if (x mod 3) <= 0 then 0 else 2) * (1 + i))))),2,x)
1: loop(\(x,i).(1 + (x mod (2 + ((1 + i) div 3)))),x,1)
1: loop(\(x,i).(1 + (x mod (1 + (i div 2)))),x,1)
1: loop(\(x,i).(1 + (x mod (1 + (i div 3)))),(x + ~1),1)
1: loop(\(x,i).(1 + (x mod (1 + (i div 3)))),x,1)
1: loop(\(x,i).(1 + (x mod (1 + (i div (1 + (x mod 2)))))),x,1)
1: loop(\(x,i).(1 + (x mod (2 + (i div (1 + (if (x mod 3) <= 0 then 0 else 2)))))),x,1)
1: loop(\(x,i).(1 + (x mod (1 + ((1 + (x div 3)) mod (1 + ((x + 1) mod 4)))))),1,(x + ~1))
1: loop(\(x,i).(1 + (x mod (1 + (loop(\(x,i).2x,(2 + (3 * (x mod 2))),1) mod (x + 1))))),2,x)
1: loop(\(x,i).(1 + (x mod (1 + (x mod (2 + ((x + 1) div (1 + (2 * (x mod 5))))))))),2,x)
1: loop(\(x,i).(1 + (x mod (1 + (x mod (1 + (x div (2 + (x div 5)))))))),1,i)
1: loop(\(x,i).(1 + (x mod (1 + (i mod (x + 1))))),x,2)
1: loop(\(x,i).((x mod (1 + i)) + i),x,1)
1: loop(\(x,i).(2 + (x mod (2 + i))),compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),2)
1: loop(\(x,i).((x mod (~1 + (2 * i))) + i),x,0)
1: loop(\(x,i).(x + (x mod 6)),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(x + (x mod 8)),x,3)
1: loop(\(x,i).(x + (x mod 10)),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(x + (x mod 10)),x,1)
1: loop(\(x,i).(x + (x mod 10)),x,3)
1: loop(\(x,i).(x + (x mod 10)),x,7)
1: loop(\(x,i).(x + (x mod 10)),x,9)
1: loop(\(x,i).(1 + ((x mod (2 * (2 + (x mod 2)))) + (x div 3))),x,2)
1: loop(\(x,i).(2x + (i mod 2)),x,3)
1: loop(\(x,i).(2x + (i mod 2)),x,(1 + (x mod 2)))
1: loop(\(x,i).(2x + (i mod 2)),x,(x + 1))
1: loop(\(x,i).(2x + (i mod 2)),x,2x)
1: loop(\(x,i).(x + (if (1 - (loop(\(x,i).(2x + 2),x,0) mod (x + 1))) <= 0 then 1 else i)),x,0)
1: loop(\(x,i).(x + (if (2 - (i div 2)) <= 0 then x else 2)),x,2)
1: loop(\(x,i).(10x + (if (2 - ((~4x + 2) mod (4 + (x div 4)))) <= 0 then 1 else 0)),x,1)
1: loop(\(x,i).(x + (if (~x + 2) <= 0 then x else 2)),x,~x)
1: loop(\(x,i).(x + (if (~x + 2) <= 0 then x else 2)),x,(2 - (x div 2)))
1: loop(\(x,i).(x + (if (~x + 2) <= 0 then x else 4)),x,1)
1: loop(\(x,i).(x + (if (~x + 2) <= 0 then x else (2x + 4))),x,1)
1: loop(\(x,i).(4x + (if (2 - i) <= 0 then x else 1)),x,(x + 1))
1: loop(\(x,i).(2x + (if (2 - i) <= 0 then x else 1)),(x + ~1),x)
1: loop(\(x,i).(2x + (if (2 - i) <= 0 then x else 1)),x,2)
1: loop(\(x,i).(2x + (if (2 - i) <= 0 then x else 1)),x,x)
1: loop(\(x,i).(x + (if (2 - i) <= 0 then x else 1)),x,2)
1: loop(\(x,i).(x + (if (2 - i) <= 0 then x else 1)),x,loop(\(x,i).2x,x,3))
1: loop(\(x,i).(x + (if (2 - i) <= 0 then x else 2)),x,x)
1: loop(\(x,i).(x + (if (~4 + (x div 2)) <= 0 then 1 else 0)),2,x)
1: loop(\(x,i).(x + (if (~4 + (x div 2)) <= 0 then 1 else 0)),(x + ~2),1)
1: loop(\(x,i).(x + (if (~4 + (x div 2)) <= 0 then 1 else 2)),4,x)
1: loop(\(x,i).(x + (if (~4 + (x div 2)) <= 0 then 1 else (x div 4))),2,(x + ~1))
1: loop(\(x,i).((if (~2 + (x div 2)) <= 0 then 1 else 2) + (x * i)),x,(x + 1))
1: loop(\(x,i).(x + (if (~2 + (x div 2)) <= 0 then 1 else i)),x,1)
1: loop(\(x,i).(1 + (if (~2 + (x div 2)) <= 0 then x else (x + 2))),2,(x + ~1))
1: loop(\(x,i).(1 + (if (~2 + (x div 2)) <= 0 then x else (x + 2))),2,x)
1: loop(\(x,i).(1 + (if (~2 + (x div 2)) <= 0 then x else (x + 2))),(x + ~2),2)
1: loop(\(x,i).(x + (if (~2 + (x div 3)) <= 0 then 1 else 2)),(x + 2),x)
1: loop(\(x,i).(x + (if (~2 + (x div 4)) <= 0 then 1 else 0)),2,x)
1: loop(\(x,i).(x + (if (~2 + (x div 4)) <= 0 then 1 else 0)),x,x)
1: loop(\(x,i).(x + (if (~2 + (x div 4)) <= 0 then 1 else 2)),2,(x + 1))
1: loop(\(x,i).(x + (if (~2 + (x div 4)) <= 0 then i else 1)),x,1)
1: loop(\(x,i).(x + (if (~2 + (x div 4)) <= 0 then i else x)),x,1)
1: loop(\(x,i).(x + (if ((x div 4) - i) <= 0 then 1 else 2)),2,x)
1: loop(\(x,i).(2x + (if (~1 + (i div 2)) <= 0 then 1 else 0)),x,2)
1: loop(\(x,i).(10x + (if (~1 + (i mod 3)) <= 0 then 2 else 1)),x,2)
1: loop(\(x,i).(8x + (if (~1 + (i mod 3)) <= 0 then 2 else 1)),x,2)
1: loop(\(x,i).(4x + (if (~1 + (i mod 3)) <= 0 then 2 else 1)),x,2)
1: loop(\(x,i).(6x + (if (~1 + (i mod 3)) <= 0 then 2 else 1)),x,2)
1: loop(\(x,i).(x + (if (x + ~1) <= 0 then 1 else (3 + i))),(x + 1),x)
1: loop(\(x,i).(x + (if (x + ~1) <= 0 then 1 else (x4 + ~1))),(x + ~1),1)
1: loop(\(x,i).(x + (if (x + ~1) <= 0 then 2 else (2x + ~1))),x,(~x + 1))
1: loop(\(x,i).(8x + (if (x + ~1) <= 0 then ~1 else (x + (x mod 2)))),x,1)
1: loop(\(x,i).(2 + (if (x + ~1) <= 0 then x else 2x)),x,(~x + 1))
1: loop(\(x,i).(1 + (if (x + ~1) <= 0 then x else i)),(x + ~1),0)
1: loop(\(x,i).(x + (if (x + ~1) <= 0 then i else 4)),2,x)
1: loop(\(x,i).(x + (if (x + ~1) <= 0 then i else x)),x,0)
1: loop(\(x,i).(1 + (if (x + ~2) <= 0 then 0 else loop(\(x,i).(x + (x div 2)),(x + ~1),2))),2,x)
1: loop(\(x,i).(2x + (if (x + ~2) <= 0 then 0 else x)),x,1)
1: loop(\(x,i).(x + (if (x + ~2) <= 0 then 1 else 2)),3,(x + ~2))
1: loop(\(x,i).(x + (if (x + ~2) <= 0 then 1 else 2)),(x div 2),(x div 4))
1: loop(\(x,i).(2x + (if (x + ~2) <= 0 then 1 else 4)),x,1)
1: loop(\(x,i).(x + (if (x + ~2) <= 0 then 1 else (x + (if (x mod (1 + i)) <= 0 then 2 else 0)))),x,1)
1: loop(\(x,i).(x + (if (x + ~2) <= 0 then 1 else ((x2 + ~x) * i))),x,0)
1: loop(\(x,i).(x + (if (x + ~2) <= 0 then 1 else (x div 3))),x,1)
1: loop(\(x,i).(x + (if (x + ~2) <= 0 then 1 else x)),x,0)
1: loop(\(x,i).(x + (if (x + ~2) <= 0 then 3 else x)),(x div 3),1)
1: loop(\(x,i).(x + (if (x + ~2) <= 0 then x else (x2 + 2x))),x,1)
1: loop(\(x,i).(2x + (if (x + ~3) <= 0 then x else 0)),x,(1 + (x mod 2)))
1: loop(\(x,i).(x + (if (x + ~4) <= 0 then 3 else x)),x,1)
1: loop(\(x,i).(1 + (if (x + ~4) <= 0 then x else (x + 2))),2,x)
1: loop(\(x,i).(x + (if ((x + ~1) - i) <= 0 then (2x + 2) else ~2)),x,1)
1: loop(\(x,i).(x + (if (x - (x2 mod (x + 6))) <= 0 then 1 else 2)),x,1)
1: loop(\(x,i).(x + (if (x - i) <= 0 then 2x else 0)),x,1)
1: loop(\(x,i).(x + (if (x - i) <= 0 then x else 0)),x,2)
1: loop(\(x,i).(2x + (if (~2 + i) <= 0 then 1 else 0)),x,1)
1: loop(\(x,i).(2x + (if (~2 + i) <= 0 then 1 else 2x)),2x,1)
1: loop(\(x,i).(2x + (if (~2 + i) <= 0 then 1 else x)),(x div 2),1)
1: loop(\(x,i).(2x + (if (~2 + i) <= 0 then 1 else x)),x,1)
1: loop(\(x,i).(2x + (if (~2 + i) <= 0 then 1 else x)),x,(x + ~1))
1: loop(\(x,i).(x + (if (~2 + i) <= 0 then 1 else x)),x,2)
1: loop(\(x,i).(2x + (if (~2 + i) <= 0 then 1 else i)),(x + ~1),1)
1: loop(\(x,i).(2x + (if (~2 + i) <= 0 then 2 else 1)),x,2)
1: loop(\(x,i).(4x + (if (~2 + i) <= 0 then 2 else x)),2x,1)
1: loop(\(x,i).(x + (if (~2 + i) <= 0 then 2 else x)),x,(x + 2))
1: loop(\(x,i).(x + (if (~2 + i) <= 0 then 2 else x)),x,(~x + 1))
1: loop(\(x,i).(x + (if (~2 + i) <= 0 then 2 else x)),x,((x + 1) mod 2))
1: loop(\(x,i).(2x + (if (~2 + i) <= 0 then i else 1)),x,1)
1: loop(\(x,i).(2x + (if (~2 + i) <= 0 then i else x)),x,1)
1: loop(\(x,i).(x + (if (~2 + i) <= 0 then i else x)),x,2)
1: loop(\(x,i).(x + (if (~2 + i) <= 0 then i else x)),x,(x + 1))
1: loop(\(x,i).(2 + (if (~x + i) <= 0 then 0 else x)),(x div 2),1)
1: loop(\(x,i).(x + (if (~x + i) <= 0 then 0 else i)),(x + ~1),0)
1: loop(\(x,i).(x + (if (~x + i) <= 0 then 0 else i)),x,0)
1: loop(\(x,i).(x + (if (~x + i) <= 0 then 0 else i)),x,1)
1: loop(\(x,i).(x + (if (x2 div (1 + i)) <= 0 then 2x else 0)),x,1)
1: loop(\(x,i).(x + (if (((2x * i) div (1 + i)) div (1 + i)) <= 0 then i else 0)),x,1)
1: loop(\(x,i).(x + (if (x div 2) <= 0 then 1 else (2 + (x div (2 + i))))),x,0)
1: loop(\(x,i).(10x + (if ((x + 1) mod 8) <= 0 then 0 else 1)),2x,1)
1: loop(\(x,i).(1 + (if ((2 + i) mod (2 + (x mod 2))) <= 0 then x else 1)),x,2)
1: loop(\(x,i).(x + ((if ((x + ~1) mod 3) <= 0 then 1 else x) + i)),x,1)
1: loop(\(x,i).(2x + (if ((x + ~2) mod 13) <= 0 then 0 else 1)),x,1)
1: loop(\(x,i).(8x + (if ((~1 + i) mod 3) <= 0 then 1 else 2)),x,2)
1: loop(\(x,i).(2x + (if ((~1 + i) mod 4) <= 0 then 2 else 0)),x,2)
1: loop(\(x,i).(x + (if ((x2 + 2x) mod (1 + (8 * (x mod 2)))) <= 0 then (x + 1) else 0)),2,x)
1: loop(\(x,i).(x + (if ((2x * (1 + (2 * i))) mod (2 + i)) <= 0 then x else 0)),2x,1)
1: loop(\(x,i).(x + (if (x2 mod (2 + i)) <= 0 then 2 else 0)),x,2)
1: loop(\(x,i).(8x + (if ((x div 2) mod 2) <= 0 then (1 + (2 * (x mod 2))) else 0)),x,1)
1: loop(\(x,i).(4x + (if ((x div 2) mod 3) <= 0 then 2 else 1)),(x + 1),1)
1: loop(\(x,i).(x + (if ((x div 3) mod 2) <= 0 then 3 else 2x)),x,1)
1: loop(\(x,i).(x + (if (loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) <= 0 then 2 else 1)),(x + 1),(x + 2))
1: loop(\(x,i).(5x + (if (x mod 2) <= 0 then 1 else (3 + (if (x mod 3) <= 0 then 0 else 2)))),(x + 1),1)
1: loop(\(x,i).(x + (if (x mod 2) <= 0 then 1 else x)),x,1)
1: loop(\(x,i).((if (x mod 2) <= 0 then 1 else i) + (x * i)),x,1)
1: loop(\(x,i).(x + (if (x mod 2) <= 0 then 1 else i)),(x + ~2),0)
1: loop(\(x,i).((if (x mod 2) <= 0 then 2 else 0) + (x div 2)),x,x)
1: loop(\(x,i).(x + (if (x mod 2) <= 0 then 3 else (x + ((x + (x mod 2)) div 3)))),x,1)
1: loop(\(x,i).(x + (if (x mod 2) <= 0 then 3 else x)),x,1)
1: loop(\(x,i).((if (x mod 2) <= 0 then ~x else x) + i),x,0)
1: loop(\(x,i).(1 + (if (x mod 2) <= 0 then 6 else 1)),(x div 2),(x mod 2))
1: loop(\(x,i).(2 + (if (x mod 2) <= 0 then 2x else 1)),x,((x + 1) mod 2))
1: loop(\(x,i).(x + (if (x mod 2) <= 0 then (i * i) else 1)),(x + 1),0)
1: loop(\(x,i).(x + (if (x mod 2) <= 0 then (x div 2) else 1)),(x + ~1),1)
1: loop(\(x,i).(1 + (if (x mod 2) <= 0 then (x div 2) else 5x)),x,1)
1: loop(\(x,i).(4x + (if (x mod 2) <= 0 then (x div 4) else 0)),x,1)
1: loop(\(x,i).(x + (if (x mod 2) <= 0 then (if x <= 0 then 1 else ~2) else 2)),2,x)
1: loop(\(x,i).(x + (if (x mod 2) <= 0 then (if x <= 0 then 1 else ~2) else 2)),3,x)
1: loop(\(x,i).(x + (if (x mod 4) <= 0 then (2x2 + 1) else x)),x,1)
1: loop(\(x,i).(x + (if (x mod 4) <= 0 then (3x2 + 6x + 3) else x)),x,1)
1: loop(\(x,i).(x + (if (x mod 4) <= 0 then (6x + 3) else x)),x,1)
1: loop(\(x,i).(x + (if (x mod 4) <= 0 then (x3 + x2 + x + 1) else x)),x,1)
1: loop(\(x,i).(2x + (if (x mod 4) <= 0 then ((x + 1) * i) else 0)),x,1)
1: loop(\(x,i).(x + (if (x mod 4) <= 0 then (9x2 + 9) else x)),x,1)
1: loop(\(x,i).(x + (if (x mod (3 + i)) <= 0 then 1 else x)),x,1)
1: loop(\(x,i).(x + (if (x mod (3 + i)) <= 0 then 3 else x)),x,1)
1: loop(\(x,i).(2x + (if (x mod (3 + i)) <= 0 then i else 0)),x,1)
1: loop(\(x,i).(x + (if (x mod 9) <= 0 then (9x + 9) else 1)),x,1)
1: loop(\(x,i).(x + (if (x mod (1 + (2 * i))) <= 0 then 2 else 0)),x,(4x + 1))
1: loop(\(x,i).(x + (if (x mod (1 + (2 * i))) <= 0 then i else 0)),2,x)
1: loop(\(x,i).(2x + (if (x mod (2 + ((x * i) mod 2))) <= 0 then 1 else 0)),x,1)
1: loop(\(x,i).(2x + (if (x mod (2 + ((((x + 1) div 2) div 2) mod 2))) <= 0 then 1 else 2)),x,0)
1: loop(\(x,i).(2x + (if (x mod (1 + (x mod 4))) <= 0 then 2 else 0)),x,0)
1: loop(\(x,i).(1 + ((if (x mod (1 + i)) <= 0 then 0 else x) + i)),x,1)
1: loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then 1 else 0)),(x + ~2),(x + 2))
1: loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then 1 else 0)),x,2x)
1: loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then 2 else 0)),x,(2x + 5))
1: loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then 2 else 1)),x,(~x + 2))
1: loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then ((2x2 + 4x + 1) + (x mod 2)) else x)),x,1)
1: loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then (9x + 1) else x)),x,1)
1: loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then (4x + loop(\(x,i).3x,i,1)) else x)),x,1)
1: loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then i else 0)),x,(x + 1))
1: loop(\(x,i).(x + (if (x mod (2 + i)) <= 0 then 2 else 0)),x,(6x + 3))
1: loop(\(x,i).(x + (if (x mod (2 + i)) <= 0 then x else 0)),x,3)
1: loop(\(x,i).(x + (if (x mod (2 + i)) <= 0 then x else 0)),x,4)
1: loop(\(x,i).((x + 1) + (if (x mod (2 - (x mod ~4))) <= 0 then 1 else 2)),x,1)
1: loop(\(x,i).(x + (if (x mod 11) <= 0 then (8x + 2) else 1)),x,1)
1: loop(\(x,i).(x + (if (x mod 6) <= 0 then (x + ~3) else 1)),x,1)
1: loop(\(x,i).(x + (if (i mod 2) <= 0 then 1 else 2x)),x,1)
1: loop(\(x,i).(2x + (if (i mod 2) <= 0 then 1 else x)),x,0)
1: loop(\(x,i).((if (i mod 2) <= 0 then 1 else i) + (x * i)),x,0)
1: loop(\(x,i).((if (i mod 2) <= 0 then 2 else 0) + (x * i)),x,0)
1: loop(\(x,i).(x + (if (i mod 2) <= 0 then 2 else x)),x,1)
1: loop(\(x,i).(x + (if (i mod 2) <= 0 then (x + ~2) else 1)),(x + ~1),1)
1: loop(\(x,i).(x + (if (i mod 2) <= 0 then (~1 + i) else x)),x,1)
1: loop(\(x,i).(x + (if (i mod 2) <= 0 then 2x else 1)),x,1)
1: loop(\(x,i).(x + (if (i mod 2) <= 0 then 2x else 3)),x,1)
1: loop(\(x,i).(x + (if (i mod 2) <= 0 then x else 1)),x,1)
1: loop(\(x,i).(x + (if (i mod 2) <= 0 then x else 1)),x,2)
1: loop(\(x,i).(x + (if (i mod 2) <= 0 then x else 2)),x,1)
1: loop(\(x,i).(x + (if (i mod 2) <= 0 then x else 3)),x,1)
1: loop(\(x,i).(x + (if (i mod 2) <= 0 then x else 4)),x,1)
1: loop(\(x,i).(x + (if (i mod 2) <= 0 then x else (1 + (x div 2)))),x,0)
1: loop(\(x,i).(x + (if (i mod 2) <= 0 then x else (1 + (x div 2)))),x,1)
1: loop(\(x,i).(2x + (if (i mod 2) <= 0 then i else 1)),x,2)
1: loop(\(x,i).((if (i mod 2) <= 0 then i else 1) + (x * i)),x,0)
1: loop(\(x,i).((if (i mod 2) <= 0 then i else 1) + (x * i)),x,1)
1: loop(\(x,i).(x + (if (i mod 2) <= 0 then i else 2)),i,1)
1: loop(\(x,i).(8x + (if (i mod 3) <= 0 then 1 else 0)),x,1)
1: loop(\(x,i).(4x + (if (i mod 3) <= 0 then 1 else 0)),x,1)
1: loop(\(x,i).(8x + (if (i mod 3) <= 0 then 1 else 2)),x,1)
1: loop(\(x,i).(4x + (if (i mod 3) <= 0 then 1 else 2)),(x + 1),1)
1: loop(\(x,i).(4x + (if (i mod 3) <= 0 then 1 else 2)),x,1)
1: loop(\(x,i).(2x + (if (i mod 3) <= 0 then 1 else x)),x,1)
1: loop(\(x,i).(x + (if (i mod 3) <= 0 then 1 else x)),x,1)
1: loop(\(x,i).((if (i mod 3) <= 0 then 1 else i) + (x * i)),x,1)
1: loop(\(x,i).(8x + (if (i mod 3) <= 0 then 2 else 1)),x,2)
1: loop(\(x,i).(6x + (if (i mod 3) <= 0 then 2 else 1)),x,2)
1: loop(\(x,i).(2x + (if (i mod 3) <= 0 then (5x + 4) else x)),x,1)
1: loop(\(x,i).(x + (if (i mod 3) <= 0 then (x2 + 2x + 1) else x)),x,1)
1: loop(\(x,i).(x + (if (i mod 3) <= 0 then (1 + (x * i)) else x)),x,1)
1: loop(\(x,i).(2x + (if (i mod 3) <= 0 then ~1 else x)),x,1)
1: loop(\(x,i).(x + (if (i mod 3) <= 0 then (x2 + ~1) else x)),x,1)
1: loop(\(x,i).(2x + (if (i mod 3) <= 0 then (x div 2) else 0)),x,1)
1: loop(\(x,i).(4x + (if (i mod 4) <= 0 then 1 else 0)),x,1)
1: loop(\(x,i).(2x + (if (i mod 4) <= 0 then 1 else 0)),x,1)
1: loop(\(x,i).((if (i mod 4) <= 0 then 1 else i) + (x * i)),x,1)
1: loop(\(x,i).(x + (if (i mod 4) <= 0 then 3 else x)),x,1)
1: loop(\(x,i).(x + (if (i mod 4) <= 0 then (x2 + 2x + 1) else x)),x,1)
1: loop(\(x,i).(x + (if (i mod 4) <= 0 then 21 else x)),x,1)
1: loop(\(x,i).(x + (if (i mod 4) <= 0 then (4x + 1) else x)),x,1)
1: loop(\(x,i).(x + (if (i mod 4) <= 0 then (1 + i) else x)),x,1)
1: loop(\(x,i).(x + (if (if x <= 0 then 1 else loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x + ~2),x)) <= 0 then (x + 1) else x)),x,1)
1: loop(\(x,i).(x + (if (if x <= 0 then 2 else loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + 1))) <= 0 then x else 1)),x,1)
1: loop(\(x,i).(2x + (if loop(\(x,i).(x div (1 + (x mod 2))),x,i) <= 0 then 1 else 0)),x,1)
1: loop(\(x,i).(x + (if x <= 0 then 0 else (loop(\(x,i).(x * (~1 + (2 * i))),i,1) + (x * (~1 + (2 * i)))))),x,3)
1: loop(\(x,i).(x + (if x <= 0 then 1 else ((x + 3) + ((x2 + 3x + 2) div 2)))),1,(x + 1))
1: loop(\(x,i).(x + (if x <= 0 then 1 else (1 + (11 * i)))),i,1)
1: loop(\(x,i).(1 + (if x <= 0 then 1 else (10x + 21))),(x div 2),(x mod 2))
1: loop(\(x,i).(x + (if x <= 0 then 1 else ((x * (x mod 2)) + (x div 2)))),x,0)
1: loop(\(x,i).(x + (if x <= 0 then 1 else ((x * (x mod 2)) + (x div 2)))),x,1)
1: loop(\(x,i).(4x + (if x <= 0 then 1 else (2x + (if (2 - i) <= 0 then x else 1)))),x,(x + 1))
1: loop(\(x,i).((if x <= 0 then 1 else (x + 2)) + (x div (1 + i))),x,0)
1: loop(\(x,i).(x + (if x <= 0 then 1 else (2x - (if (x mod (3 + i)) <= 0 then 1 else x)))),x,1)
1: loop(\(x,i).(x + (if x <= 0 then 1 else (~1 + (if (x + ~1) <= 0 then (x * i) else x5)))),x,1)
1: loop(\(x,i).(x + (if x <= 0 then 1 else (~1 + loop(\(x,i).(x * (if (x mod 5) <= 0 then 2 else 1)),(x + 1),(x + 1))))),x,1)
1: loop(\(x,i).(x + (if x <= 0 then 1 else (x - (3 * ((x + ~1) div 5))))),(x div 2),((x + 1) mod 2))
1: loop(\(x,i).(x + (if x <= 0 then 1 else (x - ((1 + (x * i)) div 3)))),2,2x)
1: loop(\(x,i).(x + (if x <= 0 then 1 else (x - ((if (x mod 2) <= 0 then (~x + 1) else x) div (1 + i))))),x,0)
1: loop(\(x,i).(x + (if x <= 0 then 1 else (i - ((x2 mod (x - ((~x + 2) div 2))) div (x + 1))))),x,0)
1: loop(\(x,i).(x + (if x <= 0 then 1 else (x * (1 + i - (2 * (i mod 2)))))),i,1)
1: loop(\(x,i).(x + (if x <= 0 then 1 else (2x * ((~1 + i) * (~2 + i))))),x,x)
1: loop(\(x,i).(x + (if x <= 0 then 1 else x3)),x,loop(\(x,i).40x,x,1))
1: loop(\(x,i).(x + (if x <= 0 then 1 else (i * i))),2x,~x)
1: loop(\(x,i).(x + (if x <= 0 then 1 else ((x + (i mod 2)) div 2))),x,0)
1: loop(\(x,i).(x + (if x <= 0 then 1 else ((x mod (~3 - (x div 4))) mod 2))),2,x)
1: loop(\(x,i).(x + (if x <= 0 then 1 else (if (x mod 2) <= 0 then x else loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),x,x)))),2,x)
1: loop(\(x,i).(x + (if x <= 0 then 1 else (if (i mod 2) <= 0 then 1 else 2x))),(x + ~1),(x mod 2))
1: loop(\(x,i).(x + (if x <= 0 then 1 else loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,x))),2,x)
1: loop(\(x,i).(x + (if x <= 0 then 1 else loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,2x))),x,1)
1: loop(\(x,i).(x + (if x <= 0 then 1 else loop(\(x,i).(x - (if x <= 0 then 1 else (x - ((if x <= 0 then 2 else loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 2)))),x,x))),1,(x + ~1))
1: loop(\(x,i).(x + (if x <= 0 then 1 else loop(\(x,i).(x - (if x <= 0 then 1 else (2 * i))),x,x))),1,i)
1: loop(\(x,i).(x + (if x <= 0 then 2 else ((x + 1) + ((2 + i) * i)))),x,0)
1: loop(\(x,i).(x + (if x <= 0 then 2 else (x div (2 + (x mod 2))))),x,0)
1: loop(\(x,i).(2x + (if x <= 0 then 2 else x)),x,0)
1: loop(\(x,i).(x + (if x <= 0 then 3 else (2x - (~x mod 4)))),x,1)
1: loop(\(x,i).((if x <= 0 then (1 + (i div 3)) else 0) + (x div 2)),x,0)
1: loop(\(x,i).(x + (if x <= 0 then (1 + i) else 0)),(x + 1),~2x)
1: loop(\(x,i).(x + (if x <= 0 then (1 + i) else 0)),x,(~2x + 1))
1: loop(\(x,i).(x + (if x <= 0 then (1 + i) else 0)),x,(~x + 2))
1: loop(\(x,i).(1 + (if x <= 0 then x else (x - (if x <= 0 then 1 else (~1 + (x div (2 + ((x div 2) div 3)))))))),2,x)
1: loop(\(x,i).(2x + loop(\(x,i).((3x + 1) + i),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).((x + 1) + (5 * i)),i,1)),4x,1)
1: loop(\(x,i).(x + loop(\(x,i).((x + 1) + ((2 + (i div 2)) * (i div 2))),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x + (((2 + (i mod 2)) * i) + i)),(~1 + i),1)),x,0)
1: loop(\(x,i).(x + loop(\(x,i).((x2 + 2x + 1) + (x2 div 4)),1,i)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).((x + 1) + (x div (2 + (i mod 2)))),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x + ((i div 2) + i)),(1 + i),2)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(3x + loop(\(x,i).(5x + loop(\(x,i).10x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).(3x + loop(\(x,i).(5x + loop(\(x,i).10x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(5x + loop(\(x,i).(7x + loop(\(x,i).10x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(5x + loop(\(x,i).(7x + loop(\(x,i).10x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(3x + loop(\(x,i).(7x + loop(\(x,i).10x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(3x + loop(\(x,i).(7x + loop(\(x,i).10x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(5x + loop(\(x,i).(7x + loop(\(x,i).2x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(5x + loop(\(x,i).(7x + loop(\(x,i).2x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(9x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(9x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(9x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(5x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(7x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(7x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).(5x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(7x + loop(\(x,i).(5x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(7x + loop(\(x,i).(5x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).(9x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(5x + loop(\(x,i).(9x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(5x + loop(\(x,i).(9x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(7x + loop(\(x,i).(9x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(7x + loop(\(x,i).(9x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).(10x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(5x + loop(\(x,i).(10x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).(10x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(5x + loop(\(x,i).(10x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(7x + loop(\(x,i).(10x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(7x + loop(\(x,i).(10x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(7x + loop(\(x,i).(4x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(7x + loop(\(x,i).(4x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(5x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(5x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(7x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(7x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(3x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(3x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).(3x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(3x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(7x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(7x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(7x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(7x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).5x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).5x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(7x + loop(\(x,i).(4x + loop(\(x,i).5x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(7x + loop(\(x,i).(4x + loop(\(x,i).5x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(7x + loop(\(x,i).(6x + loop(\(x,i).5x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(9x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(9x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(9x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(5x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(5x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(7x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(7x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(3x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(3x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).(3x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(3x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(3x + loop(\(x,i).(8x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(3x + loop(\(x,i).(8x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(9x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(9x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(9x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(7x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(7x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(3x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(3x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(3x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(9x + loop(\(x,i).(6x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(5x + loop(\(x,i).(6x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(7x + loop(\(x,i).(6x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(3x + loop(\(x,i).(6x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).10x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(7x + loop(\(x,i).(8x + loop(\(x,i).10x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(3x + loop(\(x,i).(8x + loop(\(x,i).10x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(3x + loop(\(x,i).(8x + loop(\(x,i).10x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(7x + loop(\(x,i).(4x + loop(\(x,i).10x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(7x + loop(\(x,i).(4x + loop(\(x,i).10x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).10x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).10x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).10x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).10x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(7x + loop(\(x,i).(2x + loop(\(x,i).10x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(7x + loop(\(x,i).(2x + loop(\(x,i).10x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(9x + loop(\(x,i).(11x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(9x + loop(\(x,i).(11x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).(11x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(5x + loop(\(x,i).(11x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).(11x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(5x + loop(\(x,i).(11x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(7x + loop(\(x,i).(11x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(7x + loop(\(x,i).(11x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(3x + loop(\(x,i).(11x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(3x + loop(\(x,i).(11x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).(3x + loop(\(x,i).(11x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(3x + loop(\(x,i).(11x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(9x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(9x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(9x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(5x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(5x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(7x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(7x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(3x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(3x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).(3x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(3x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).3x,(2 * i),1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(5x + loop(\(x,i).3x,(2 * i),1)),i,1)),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).3x,(2 * i),1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(5x + loop(\(x,i).3x,(2 * i),1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(7x + loop(\(x,i).3x,(2 * i),1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(7x + loop(\(x,i).3x,(2 * i),1)),i,1)),x,1)
1: loop(\(x,i).(10x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1)),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1)),x,1)
1: loop(\(x,i).(2x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),i,1)),i,1)
1: loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(7x + loop(\(x,i).3x,i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(7x + loop(\(x,i).3x,i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(7x + loop(\(x,i).3x,i,1)),i,1)),i,1)
1: loop(\(x,i).(12x + loop(\(x,i).(7x + loop(\(x,i).5x,i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(7x + loop(\(x,i).5x,i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(5x + loop(\(x,i).13x,i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(9x + loop(\(x,i).11x,i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).11x,i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(5x + loop(\(x,i).11x,i,1)),i,1)),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).11x,i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(5x + loop(\(x,i).11x,i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(7x + loop(\(x,i).11x,i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(7x + loop(\(x,i).11x,i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(3x + loop(\(x,i).11x,i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(3x + loop(\(x,i).11x,i,1)),i,1)),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).(3x + loop(\(x,i).11x,i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(3x + loop(\(x,i).11x,i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).10x,i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(5x + loop(\(x,i).10x,i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(5x + loop(\(x,i).10x,i,1)),i,1)),i,1)
1: loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).10x,i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(5x + loop(\(x,i).10x,i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(7x + loop(\(x,i).10x,i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(7x + loop(\(x,i).10x,i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(7x + loop(\(x,i).10x,i,1)),i,1)),i,1)
1: loop(\(x,i).(8x + loop(\(x,i).(3x + loop(\(x,i).10x,i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(3x + loop(\(x,i).10x,i,1)),i,1)),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).(3x + loop(\(x,i).10x,i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(3x + loop(\(x,i).10x,i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(7x + loop(\(x,i).4x,i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(7x + loop(\(x,i).4x,i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(7x + loop(\(x,i).4x,i,1)),i,1)),i,1)
1: loop(\(x,i).(12x + loop(\(x,i).(7x + loop(\(x,i).2x,i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(7x + loop(\(x,i).2x,i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(7x + loop(\(x,i).2x,i,1)),i,1)),i,1)
1: loop(\(x,i).(4x + loop(\(x,i).((2x + 1) + i),i,1)),x,1)
1: loop(\(x,i).(2x + loop(\(x,i).(2x + i),(~1 + i),i)),x,0)
1: loop(\(x,i).(x + loop(\(x,i).((x + 2) + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i)),i,2)),x,2)
1: loop(\(x,i).(10x + loop(\(x,i).(3x + 1),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(3x + 1),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(3x + 1),i,1)),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).(3x + 1),i,1)),(x + 2),1)
1: loop(\(x,i).(6x + loop(\(x,i).(3x + 1),i,1)),i,1)
1: loop(\(x,i).(8x + loop(\(x,i).(5x + 1),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(5x + 1),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(5x + 1),i,1)),i,1)
1: loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).2x,i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(5x + loop(\(x,i).2x,i,1)),i,1)),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).2x,i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(5x + loop(\(x,i).2x,i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(5x + loop(\(x,i).2x,i,1)),i,1)),i,1)
1: loop(\(x,i).(x + loop(\(x,i).(x + ((4 - (i mod 2)) * i)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(7x + 1),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(7x + 1),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(7x + 1),i,1)),i,1)
1: loop(\(x,i).(2x + loop(\(x,i).(x + (2 * (x + (i mod 2)))),i,0)),x,0)
1: loop(\(x,i).(2x + loop(\(x,i).(3x + 4),i,0)),x,0)
1: loop(\(x,i).(2x + loop(\(x,i).(3x + 7),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x + ((2 + i) * i)),i,1)),x,2)
1: loop(\(x,i).(x + loop(\(x,i).(1 + (2 * (2x - (x div (if i <= 0 then 1 else i))))),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(9x + 1),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(9x + 1),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(9x + 1),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(9x + 1),i,1)),i,1)
1: loop(\(x,i).(9x + loop(\(x,i).(10x + 1),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(10x + 1),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(10x + 1),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(10x + 1),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(10x + 1),i,1)),i,1)
1: loop(\(x,i).(2x + loop(\(x,i).(24x + 1),i,1)),i,1)
1: loop(\(x,i).(12x + loop(\(x,i).(8x + 1),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(8x + 1),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(8x + 1),i,1)),i,1)
1: loop(\(x,i).(10x + loop(\(x,i).(8x + (x mod 3)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(8x + (x mod 3)),i,1)),x,1)
1: loop(\(x,i).(9x + loop(\(x,i).(4x + 1),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(4x + 1),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(4x + 1),i,1)),i,1)
1: loop(\(x,i).(12x + loop(\(x,i).(6x + 1),i,1)),x,1)
1: loop(\(x,i).(2x + loop(\(x,i).(6x + 1),i,1)),i,1)
1: loop(\(x,i).(4x + loop(\(x,i).(6x + (2 div (1 + i))),i,1)),x,1)
1: loop(\(x,i).(x + (loop(\(x,i).(1 + (2x * i)),i,1) + i)),x,1)
1: loop(\(x,i).(1 + loop(\(x,i).(1 + (x2 * i)),x,2)),x,0)
1: loop(\(x,i).(loop(\(x,i).(1 + (x * (i * i))),i,1) + (x * (i * i))),x,1)
1: loop(\(x,i).(loop(\(x,i).(1 + (2 * ((x * i) div 2))),i,1) + (x * i)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x + ((i mod 2) * (1 + i))),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(2x + 1),(if (x mod (1 + i)) <= 0 then x else 0),x)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x2 + 1),i,0)),x,0)
1: loop(\(x,i).(2x + loop(\(x,i).(x2 + 1),i,2)),x,0)
1: loop(\(x,i).(loop(\(x,i).(1 + (x * i)),(~1 + i),1) + (x * i)),x,0)
1: loop(\(x,i).(loop(\(x,i).(1 + (x * i)),(~1 + i),1) + (x * i)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(1 + (x * i)),(i div 2),x)),x,0)
1: loop(\(x,i).(2 + loop(\(x,i).(1 + (x * i)),x,1)),(x + ~2),1)
1: loop(\(x,i).(loop(\(x,i).(1 + (x * i)),i,1) + (2x * i)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(1 + (x * i)),i,1)),(x + ~1),0)
1: loop(\(x,i).(loop(\(x,i).(2 + (x * i)),i,1) + (x * i)),x,1)
1: loop(\(x,i).(loop(\(x,i).((x * i) + (i mod 2)),i,0) + (x * i)),x,0)
1: loop(\(x,i).(2x + loop(\(x,i).(x + (i * i)),(1 + i),x)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x + (i * i)),(1 + i),x)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x + (i * i)),(~1 + i),i)),(x + ~1),1)
1: loop(\(x,i).(x + loop(\(x,i).(1 + ((x2 + x) div 2)),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x + (((1 + i) * i) div 2)),i,1)),i,1)
1: loop(\(x,i).(4x + loop(\(x,i).(x + (((2 + i) * (1 + i)) div 2)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(x + (((2 + i) * (1 + i)) div 2)),i,1)),x,1)
1: loop(\(x,i).((x + 1) + loop(\(x,i).(x + (((2 + i) * (1 + i)) div 2)),i,2x)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x + (loop(\(x,i).(2 + ((x2 + x) div 2)),2,x) div 3)),1,i)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(1 + (x div (1 + (x mod (1 + (loop(\(x,i).2x,x,2) mod (2x + 1))))))),1,i)),x,1)
1: loop(\(x,i).(1 + loop(\(x,i).(x + (x div (~1 + (2 * i)))),x,i)),2x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x + (x div (~1 + (2 * i)))),x,i)),x,1)
1: loop(\(x,i).(1 + loop(\(x,i).(x + (x div (2 * (2 + i)))),2,x)),x,2)
1: loop(\(x,i).(1 + loop(\(x,i).(x + (x div (if i <= 0 then 1 else (2 * i)))),x,(2 * i))),x,1)
1: loop(\(x,i).(loop(\(x,i).(2x + (i div 3)),x,1) + i),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(1 + (x mod (1 + (x mod (1 + (x div (2 + (x div 5)))))))),1,i)),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).(x + (if (x + ~2) <= 0 then 1 else x)),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x + (if (x2 div (1 + i)) <= 0 then 2x else 0)),x,1)),x,1)
1: loop(\(x,i).(1 + loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then 1 else 0)),(x div 2),x)),x,0)
1: loop(\(x,i).(1 + loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then 1 else 0)),(x div 2),x)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x + (if (i mod 2) <= 0 then i else 2)),i,1)),(x + 1),~x)
1: loop(\(x,i).(x + loop(\(x,i).(x + (if x <= 0 then 1 else (1 + (11 * i)))),i,1)),i,1)
1: loop(\(x,i).(x + loop(\(x,i).(x + (if x <= 0 then 1 else loop(\(x,i).(x - (if x <= 0 then 1 else (2 * i))),x,x))),1,i)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(6x + loop(\(x,i).(5x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(8x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(8x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(4x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(4x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(2x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(2x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(2x + loop(\(x,i).(3x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(6x + loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(4x + loop(\(x,i).(7x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(4x + loop(\(x,i).(7x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(6x + loop(\(x,i).(7x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(8x + loop(\(x,i).(9x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(8x + loop(\(x,i).(9x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).10x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).10x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).10x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).10x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).10x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(6x + loop(\(x,i).(5x + loop(\(x,i).10x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(6x + loop(\(x,i).(7x + loop(\(x,i).10x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(8x + loop(\(x,i).(7x + loop(\(x,i).4x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(8x + loop(\(x,i).(7x + loop(\(x,i).4x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(6x + loop(\(x,i).(7x + loop(\(x,i).4x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(8x + loop(\(x,i).(7x + loop(\(x,i).2x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(8x + loop(\(x,i).(7x + loop(\(x,i).2x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(4x + loop(\(x,i).(7x + loop(\(x,i).2x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(4x + loop(\(x,i).(7x + loop(\(x,i).2x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(6x + loop(\(x,i).(7x + loop(\(x,i).2x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(10x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(10x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).(10x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(8x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(8x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(4x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(6x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(10x + loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(2x + loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),i,1)),i,1)
1: loop(\(x,i).(12x + loop(\(x,i).(8x + loop(\(x,i).(5x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(8x + loop(\(x,i).(5x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).(5x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(4x + loop(\(x,i).(5x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(6x + loop(\(x,i).(5x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(2x + loop(\(x,i).(5x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(2x + loop(\(x,i).(5x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).2x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).2x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).2x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).2x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(6x + loop(\(x,i).(5x + loop(\(x,i).2x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(8x + loop(\(x,i).(7x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(8x + loop(\(x,i).(7x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(6x + loop(\(x,i).(7x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(2x + loop(\(x,i).(7x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(2x + loop(\(x,i).(7x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(8x + loop(\(x,i).(9x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(8x + loop(\(x,i).(9x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(6x + loop(\(x,i).(9x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(9x + loop(\(x,i).(10x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(9x + loop(\(x,i).(10x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(9x + loop(\(x,i).(10x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(8x + loop(\(x,i).(10x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(8x + loop(\(x,i).(10x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).(10x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(4x + loop(\(x,i).(10x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(20x + loop(\(x,i).(4x + loop(\(x,i).(10x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(4x + loop(\(x,i).(10x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(6x + loop(\(x,i).(10x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(2x + loop(\(x,i).(10x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(2x + loop(\(x,i).(10x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).(10x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(2x + loop(\(x,i).(10x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(2x + loop(\(x,i).(24x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(6x + loop(\(x,i).(8x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(9x + loop(\(x,i).(4x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(9x + loop(\(x,i).(4x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(9x + loop(\(x,i).(4x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(8x + loop(\(x,i).(4x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(8x + loop(\(x,i).(4x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(6x + loop(\(x,i).(4x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(2x + loop(\(x,i).(6x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x + loop(\(x,i).(x + (((1 + i) * i) div 2)),i,1)),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x + loop(\(x,i).(x + (if x <= 0 then 1 else (1 + (11 * i)))),i,1)),i,1)),i,1)
1: loop(\(x,i).(4x + loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(2x + loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),i,1)),i,1)),(x + 1),1)
1: loop(\(x,i).(x + loop(\(x,i).(x + loop(\(x,i).(x + loop(\(x,i).(x + (if x <= 0 then 1 else (1 + (11 * i)))),i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(8x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(8x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(4x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(4x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(6x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(2x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(2x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(2x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(6x + loop(\(x,i).(8x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(6x + loop(\(x,i).(4x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(6x + loop(\(x,i).(4x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(8x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(8x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(6x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(6x + loop(\(x,i).(8x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(10x + loop(\(x,i).(4x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(10x + loop(\(x,i).(4x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(10x + loop(\(x,i).(4x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(10x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(10x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).(10x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(10x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(8x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(8x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(6x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(6x + loop(\(x,i).(8x + loop(\(x,i).5x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).5x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).5x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(6x + loop(\(x,i).(4x + loop(\(x,i).5x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(6x + loop(\(x,i).(8x + loop(\(x,i).7x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(8x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(8x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(4x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(4x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(6x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(2x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(2x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(2x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(6x + loop(\(x,i).(8x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(6x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).(4x + loop(\(x,i).(4x + loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(loop(\(x,i).(loop(\(x,i).(loop(\(x,i).2x,i,1) + (x * i)),i,1) + (x * i)),i,1) + (x * i)),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).(4x + loop(\(x,i).(4x + loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(10x + loop(\(x,i).(11x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(10x + loop(\(x,i).(11x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).(10x + loop(\(x,i).(11x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(10x + loop(\(x,i).(11x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(8x + loop(\(x,i).(11x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(8x + loop(\(x,i).(11x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).(11x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(4x + loop(\(x,i).(11x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(4x + loop(\(x,i).(11x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(6x + loop(\(x,i).(11x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(10x + loop(\(x,i).(2x + loop(\(x,i).(11x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(2x + loop(\(x,i).(11x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).(11x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(2x + loop(\(x,i).(11x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(8x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(8x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(4x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(4x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(6x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x + loop(\(x,i).3x,(1 + i),i)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)
1: loop(\(x,i).(12x + loop(\(x,i).(8x + loop(\(x,i).3x,(2 * i),1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(8x + loop(\(x,i).3x,(2 * i),1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(8x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)
1: loop(\(x,i).(36x + loop(\(x,i).(4x + loop(\(x,i).3x,(2 * i),1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).3x,(2 * i),1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(4x + loop(\(x,i).3x,(2 * i),1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(4x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)
1: loop(\(x,i).(6x + loop(\(x,i).(4x + loop(\(x,i).3x,(2 * i),1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(6x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)
1: loop(\(x,i).(10x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)
1: loop(\(x,i).(12x + loop(\(x,i).(8x + loop(\(x,i).3x,i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(8x + loop(\(x,i).3x,i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(8x + loop(\(x,i).3x,i,1)),i,1)),i,1)
1: loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).3x,i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(4x + loop(\(x,i).3x,i,1)),i,1)),x,1)
1: loop(\(x,i).(2x + loop(\(x,i).(4x + loop(\(x,i).3x,i,1)),i,1)),x,2)
1: loop(\(x,i).(2x + loop(\(x,i).(4x + loop(\(x,i).3x,i,1)),i,1)),x,3)
1: loop(\(x,i).(10x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1)
1: loop(\(x,i).(x + loop(\(x,i).(loop(\(x,i).3x,i,1) + (x * i)),(~1 + i),1)),x,0)
1: loop(\(x,i).(loop(\(x,i).(loop(\(x,i).3x,i,1) + (x * i)),i,1) + (x * i)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x + loop(\(x,i).3x,i,(1 + i))),i,(x + 1))),x,1)
1: loop(\(x,i).(1 + loop(\(x,i).(loop(\(x,i).5x,x,1) + loop(\(x,i).3x,x,1)),1,12x)),1,x2)
1: loop(\(x,i).(12x + loop(\(x,i).(8x + loop(\(x,i).5x,i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(8x + loop(\(x,i).5x,i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(8x + loop(\(x,i).5x,i,1)),i,1)),i,1)
1: loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).5x,i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(4x + loop(\(x,i).5x,i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(4x + loop(\(x,i).5x,i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(4x + loop(\(x,i).5x,i,1)),i,1)),i,1)
1: loop(\(x,i).(12x + loop(\(x,i).(6x + loop(\(x,i).5x,i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(8x + loop(\(x,i).7x,i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(8x + loop(\(x,i).7x,i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(8x + loop(\(x,i).7x,i,1)),i,1)),i,1)
1: loop(\(x,i).(12x + loop(\(x,i).(6x + loop(\(x,i).7x,i,1)),i,1)),x,1)
1: loop(\(x,i).(loop(\(x,i).(loop(\(x,i).~2x,i,1) + (x * i)),i,1) + (x * i)),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).~3x,i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(10x + loop(\(x,i).11x,i,1)),i,1)),i,1)
1: loop(\(x,i).(12x + loop(\(x,i).(8x + loop(\(x,i).11x,i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(8x + loop(\(x,i).11x,i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(8x + loop(\(x,i).11x,i,1)),i,1)),i,1)
1: loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(4x + loop(\(x,i).11x,i,1)),i,1)),i,1)
1: loop(\(x,i).(12x + loop(\(x,i).(6x + loop(\(x,i).11x,i,1)),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x + loop(\(x,i).11x,i,(1 + i))),i,1)),(x + 1),1)
1: loop(\(x,i).(x + loop(\(x,i).(x + loop(\(x,i).(2 * (2x - (x div (1 + i)))),i,2)),i,2)),x,2)
1: loop(\(x,i).(12x + loop(\(x,i).(8x + loop(\(x,i).10x,i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(8x + loop(\(x,i).10x,i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).10x,i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(4x + loop(\(x,i).10x,i,1)),i,1)),i,1)
1: loop(\(x,i).(12x + loop(\(x,i).(4x + loop(\(x,i).10x,i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(4x + loop(\(x,i).10x,i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(6x + loop(\(x,i).10x,i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(6x + loop(\(x,i).10x,i,1)),i,1)),i,1)
1: loop(\(x,i).(8x + loop(\(x,i).(2x + loop(\(x,i).10x,i,1)),i,1)),i,1)
1: loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).10x,i,1)),i,1)),i,1)
1: loop(\(x,i).(x + loop(\(x,i).(x + loop(\(x,i).10x,i,(1 + i))),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(6x + loop(\(x,i).8x,i,1)),i,1)),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).8x,i,1)),i,1)),i,1)
1: loop(\(x,i).(6x + loop(\(x,i).(8x + loop(\(x,i).4x,i,1)),i,1)),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).(4x + loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),i,1)),i,1)),i,1)
1: loop(\(x,i).(x + loop(\(x,i).(loop(\(x,i).2x,i,1) + (x * i)),(~1 + i),1)),x,0)
1: loop(\(x,i).(loop(\(x,i).(loop(\(x,i).2x,i,1) + (x * i)),i,1) + (x * i)),x,1)
1: loop(\(x,i).(loop(\(x,i).(loop(\(x,i).2x,i,1) + (x * i)),i,1) + (x * i)),i,1)
1: loop(\(x,i).(x + loop(\(x,i).(x + loop(\(x,i).x2,1,loop(\(x,i).x2,2,(1 + i)))),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(loop(\(x,i).(x * i),(~1 + i),1) + (x * i)),i,0)),x,0)
1: loop(\(x,i).(loop(\(x,i).(loop(\(x,i).(x * i),(~1 + i),1) + (x * i)),i,1) + (x * (1 + i))),x,0)
1: loop(\(x,i).(x + loop(\(x,i).(x + loop(\(x,i).(x * i),i,1)),(i div 2),1)),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).(4x + loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),i,1)),i,1)),i,1)
1: loop(\(x,i).(1 + loop(\(x,i).(x + loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),i,1)),i,x)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x + loop(\(x,i).loop(\(x,i).(x + (i * i)),(1 + i),x),i,1)),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x + i),i,(11 * (1 + i)))),x,1)
1: loop(\(x,i).(x + loop(\(x,i).((x + 1) + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)),i,1)),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).(0 - (2 * (x + (x div 2)))),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(0 - (x * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)))),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).~x,(x + ((2 * i) div (x + 1))),1)),x,1)
1: loop(\(x,i).(loop(\(x,i).~x,(~2 + i),1) + (x * i)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).~x,(i mod 3),i)),x,2)
1: loop(\(x,i).(x + loop(\(x,i).~x,x,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i)))),x,2)
1: loop(\(x,i).(10x + loop(\(x,i).(11x + 1),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(11x + 1),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(11x + 1),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(11x + 1),i,1)),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).(1 - (2 * (x + (i mod 2)))),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(~2x + 1),(i div 2),1)),x,1)
1: loop(\(x,i).(2x + loop(\(x,i).(~2x + 1),i,1)),i,1)
1: loop(\(x,i).(x + loop(\(x,i).(1 - ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)),1,i)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).((9x + ~1) + loop(\(x,i).2x,i,2)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).((9x + ~1) + loop(\(x,i).2x,i,2)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).((9x + ~1) + loop(\(x,i).2x,i,2)),i,1)),x,1)
1: loop(\(x,i).(1 + loop(\(x,i).(1 + loop(\(x,i).2x,x,2) - loop(\(x,i).(4x + ~8),x,0)),1,2x)),1,(x + 2))
1: loop(\(x,i).(x + loop(\(x,i).((11x + 1) + i),i,1)),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).(~3x + 1),i,1)),x,1)
1: loop(\(x,i).(2x + loop(\(x,i).(5x + ~1),i,2)),x,0)
1: loop(\(x,i).(12x + loop(\(x,i).(~1 + (2 * (4x + loop(\(x,i).2x,i,1)))),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(~1 + (2 * (4x + loop(\(x,i).2x,i,1)))),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(~1 + (2 * (2x + loop(\(x,i).2x,i,1)))),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).((x * (1 + i)) - (x mod 2)),i,1)),x,0)
1: loop(\(x,i).(x + loop(\(x,i).(1 + (x * (2 + i)) - (2 * (x mod 2))),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(10x + ~1),i,i)),x,0)
1: loop(\(x,i).(x + loop(\(x,i).(4x - ((x - (x div 5)) div 3)),1,i)),x,1)
1: loop(\(x,i).(1 + loop(\(x,i).(2x + ~1),x,2x)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(2x - ((if (i mod 2) <= 0 then 1 else 2x) div (1 + i))),(~1 + i),1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(2x - ((if (i mod 2) <= 0 then 1 else 2x) div (1 + i))),i,1)),(2x + 1),1)
1: loop(\(x,i).(x + loop(\(x,i).(2x - ((if (i mod 2) <= 0 then 1 else 2x) div (1 + i))),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(2x - (x div (~2 + ((~x + 2) div 4)))),1,i)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(2x - (x mod 2)),(~1 + i),i)),x,0)
1: loop(\(x,i).(2 + loop(\(x,i).(x2 + ~1),i,x)),(x + 1),2)
1: loop(\(x,i).(1 + loop(\(x,i).(x2 + ~2),(x mod 3),x)),x,2)
1: loop(\(x,i).(2x + loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(((1 + (8 mod (1 + (x div 2)))) div 2) - (x mod 2)),1,i)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(((1 + (8 mod (1 + (x div 2)))) div 2) - (x mod 2)),1,i)),x,x)
1: loop(\(x,i).((x + 1) + loop(\(x,i).(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1,i)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1,i)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1,i)),x,x)
1: loop(\(x,i).(x + loop(\(x,i).(~x + (if (~x + i) <= 0 then i else 0)),2x,x)),x,2)
1: loop(\(x,i).(x + loop(\(x,i).(~1 + (if x <= 0 then i else x)),i,0)),x,0)
1: loop(\(x,i).(4x + loop(\(x,i).(~2x + loop(\(x,i).3x,i,1)),i,1)),x,1)
1: loop(\(x,i).(10x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),i,1)),i,1)
1: loop(\(x,i).(loop(\(x,i).(loop(\(x,i).2x,i,1) - (x div (if i <= 0 then 1 else i))),i,1) + (x * i)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(~1 + loop(\(x,i).(x div (~2 + (x mod 2))),x,x)),x,x)),1,(x2 + x))
1: loop(\(x,i).(x + loop(\(x,i).((x + ~1) - (2 * ((((x + ~1) div 2) div 2) div 2))),1,i)),x,1)
1: loop(\(x,i).(2x + loop(\(x,i).((3x + 1) - (i mod 2)),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).((2x + 1) - loop(\(x,i).3x,i,1)),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).((x + 2) - ((~x + 1) div (2 + (x div 4)))),1,i)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x + (2 * (i * i)) - i),(1 + i),x)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(2x - i),i,i)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).~9x,(~1 + i),1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x - (2x * i)),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x - ((x + 1) div 7)),2,x)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x - ((x - (((x + 1) * (2 - ((x div 2) mod 2))) mod 3)) div 2)),2,x)),(x + 1),1)
1: loop(\(x,i).(x + loop(\(x,i).(x - (x div (3 + i))),x,(x + 1))),x,2)
1: loop(\(x,i).(1 + loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)),1,(x + (x div 8)))
1: loop(\(x,i).(2 + loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)),2,(x + 1))
1: loop(\(x,i).(x + loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,i)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),i,i)),x,0)
1: loop(\(x,i).(x + loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),i,i)),x,x)
1: loop(\(x,i).(1 + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x)),1,(x + ~2))
1: loop(\(x,i).(x + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x)),1,(3x + 3))
1: loop(\(x,i).(1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x)),2,(3x + 2))
1: loop(\(x,i).(1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x)),2,(2x + 5))
1: loop(\(x,i).(1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x)),2,(3x + 3))
1: loop(\(x,i).(1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x)),2,2x)
1: loop(\(x,i).(1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 2 else 1)),x,x)),2,2x)
1: loop(\(x,i).(1 + loop(\(x,i).(x - (if (x mod (2 + i)) <= 0 then 2 else 1)),x,2x)),2,x)
1: loop(\(x,i).(1 + loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)),2,x)
1: loop(\(x,i).(2 + loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x)),2,x)
1: loop(\(x,i).(1 + loop(\(x,i).(x - (if x <= 0 then 1 else (1 + (2 * (1 + i))))),x,2x)),1,2x)
1: loop(\(x,i).(x + loop(\(x,i).(x - (if x <= 0 then 1 else (i - ((x + (x div 3)) div 5)))),x,x)),2,x)
1: loop(\(x,i).(x + loop(\(x,i).(x - (if x <= 0 then 1 else (2 * (1 + (i div 2))))),x,x)),1,2x)
1: loop(\(x,i).(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (1 + (if (x mod 3) <= 0 then 0 else 2))))),x,(x + 1))),1,(x + 2))
1: loop(\(x,i).(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 1))),1,(3x + 3))
1: loop(\(x,i).(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 2))),1,(3x + 3))
1: loop(\(x,i).(x + loop(\(x,i).(x - (if x <= 0 then 1 else (if ((x mod 3) div 2) <= 0 then x else ((x + 1) div 2)))),x,(x + 1))),2,x)
1: loop(\(x,i).(x + loop(\(x,i).(x - (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else 19))),x,(x + 1))),2,x)
1: loop(\(x,i).(x + loop(\(x,i).(x - (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else (2x + ~1)))),x,(x + 1))),1,(2x + ~1))
1: loop(\(x,i).(x + loop(\(x,i).(x - (if x <= 0 then 1 else (if (x mod (1 + (2 * i))) <= 0 then x else 0))),x,x)),1,(2x + 1))
1: loop(\(x,i).(x + loop(\(x,i).(x - (if x <= 0 then 1 else loop(\(x,i).(x mod 2),(x mod 2),(x div 2)))),x,x)),x,(1 + (x mod 2)))
1: loop(\(x,i).(x + loop(\(x,i).(x - (if x <= 0 then 1 else i)),x,x)),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(x + loop(\(x,i).(x - (if x <= 0 then 1 else i)),x,x)),1,loop(\(x,i).2x,x,1))
1: loop(\(x,i).(x + loop(\(x,i).(i - (x * (1 - i))),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(i - ((1 + i) mod (x + 1))),i,0)),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).3x,(1 + i),1)),i,2)
1: loop(\(x,i).(x + loop(\(x,i).3x,(1 + i),i)),i,1)
1: loop(\(x,i).(1 + loop(\(x,i).3x,(2 + i),x)),x,1)
1: loop(\(x,i).(2x + loop(\(x,i).3x,(~1 + (2 * i)),2)),(x + 1),1)
1: loop(\(x,i).(x + loop(\(x,i).3x,(~1 + (2 * i)),x)),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).3x,(~2 + (2 * i)),1)),x,0)
1: loop(\(x,i).(2x + loop(\(x,i).3x,(~2 + (2 * i)),1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).3x,(x + ~2),x)),1,(x + ~1))
1: loop(\(x,i).(16x + loop(\(x,i).3x,(~1 + i),1)),x,0)
1: loop(\(x,i).(1 + loop(\(x,i).3x,(~1 + i),x)),x,1)
1: loop(\(x,i).(2x + loop(\(x,i).3x,(~1 + i),x)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).3x,(~1 + i),x)),x,1)
1: loop(\(x,i).(10x + loop(\(x,i).3x,(2 * i),1)),x,0)
1: loop(\(x,i).(12x + loop(\(x,i).3x,(2 * i),1)),x,1)
1: loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).3x,(2 * i),(1 + i))),x,1)
1: loop(\(x,i).(2x + loop(\(x,i).3x,((1 + i) div 2),1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).3x,(x div 2),2)),(x + ~1),1)
1: loop(\(x,i).(x + loop(\(x,i).3x,(x div 2),2)),x,1)
1: loop(\(x,i).(x2 + loop(\(x,i).3x,(x div 2),i)),x,2)
1: loop(\(x,i).(x3 + loop(\(x,i).3x,x,1)),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(loop(\(x,i).3x,x,1) + loop(\(x,i).2x,x,1)),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).((4x + ~2) + loop(\(x,i).3x,i,1)),i,1)
1: loop(\(x,i).(8x + loop(\(x,i).3x,i,1)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).3x,i,1)),x,2)
1: loop(\(x,i).(4x + loop(\(x,i).3x,i,1)),(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1)
1: loop(\(x,i).(loop(\(x,i).3x,i,1) + (4x * i)),x,1)
1: loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),x,0)
1: loop(\(x,i).(loop(\(x,i).3x,i,1) + (x * i)),(~1 + i),1)
1: loop(\(x,i).(loop(\(x,i).3x,i,1) + (x * i)),x,1)
1: loop(\(x,i).(loop(\(x,i).3x,i,1) + (x * i)),i,1)
1: loop(\(x,i).(x + loop(\(x,i).3x,i,(i * i * i))),x,1)
1: loop(\(x,i).(x + loop(\(x,i).3x,i,x)),(x + ~1),1)
1: loop(\(x,i).(x + loop(\(x,i).3x,i,x)),(x + ~1),2)
1: loop(\(x,i).(x + loop(\(x,i).3x,i,x)),x,2)
1: loop(\(x,i).(1 + loop(\(x,i).5x,(2 + i),x)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).5x,(2 * i),(1 + i))),x,1)
1: loop(\(x,i).(loop(\(x,i).5x,x,1) + loop(\(x,i).3x,x,1)),1,(x2 + x + 2))
1: loop(\(x,i).(loop(\(x,i).5x,x,1) + loop(\(x,i).3x,x,1)),1,12x)
1: loop(\(x,i).(loop(\(x,i).5x,i,1) + (x * (~1 + i))),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).5x,i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).5x,i,1)),x,1)
1: loop(\(x,i).(loop(\(x,i).5x,i,1) + (x * i)),x,1)
1: loop(\(x,i).(8x + loop(\(x,i).(2 * (3x + (x div 2))),i,1)),x,1)
1: loop(\(x,i).(2x + loop(\(x,i).(2x + 6),(~1 + i),1)),x,0)
1: loop(\(x,i).(2x + loop(\(x,i).(2x + 8),(~1 + i),1)),x,0)
1: loop(\(x,i).(4x + loop(\(x,i).(2x + 8),i,1)),x,2)
1: loop(\(x,i).(1 + loop(\(x,i).7x,(2 + i),x)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).7x,i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).7x,i,1)),i,1)
1: loop(\(x,i).(x + loop(\(x,i).7x,i,(1 + i))),x,1)
1: loop(\(x,i).(2x + loop(\(x,i).(2 * (x + (3 * i))),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).13x,i,(1 + i))),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(10x + 2),2,x)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).19x,i,(1 + i))),x,1)
1: loop(\(x,i).(x + loop(\(x,i).17x,i,(1 + i))),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(2 * (x + (2 * (2x div (if i <= 0 then 1 else i))))),i,1)),x,1)
1: loop(\(x,i).(loop(\(x,i).(x * (1 + (2 * i))),(~2 + i),1) + (x * (~1 + (2 * i)))),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x * (1 + (2 * i))),(~2 + i),1)),x,0)
1: loop(\(x,i).(x + loop(\(x,i).(2 * (1 + (((1 + (x mod ((1 + (x mod (1 + (x div 4)))) * (1 + (x mod 2))))) mod (x + 1)) div 2))),1,i)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(2 * (2x + (x div (if i <= 0 then 1 else i)))),(~1 + i),1)),x,0)
1: loop(\(x,i).(x + loop(\(x,i).(x * (1 + (if (x mod 2) <= 0 then 16 else 1))),1,i)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).((x + loop(\(x,i).(x * i),i,1)) * i),i,1)),x,1)
1: loop(\(x,i).(loop(\(x,i).(x2 + x),1,loop(\(x,i).2x,x,1)) + loop(\(x,i).3x,x,1)),1,loop(\(x,i).2x,x,1))
1: loop(\(x,i).(1 + loop(\(x,i).(x * (1 + i)),4,x)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x * (1 + i)),(i - (x mod 2)),1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x * (1 + i)),(2 * i),1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x * (2 + i)),(1 + i),2)),x,0)
1: loop(\(x,i).(loop(\(x,i).(x * (2 + i)),(~1 + i),1) + (x * (2 + i))),(x + 1),0)
1: loop(\(x,i).(x + loop(\(x,i).(x * (2 + i)),(~2 + i),1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x * (2 + i)),(2 * i),2)),x,2)
1: loop(\(x,i).(loop(\(x,i).(x * (2 + i)),i,1) + (x * (i * i))),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x * (2 + i)),i,1)),(x + 1),1)
1: loop(\(x,i).(x + loop(\(x,i).(x * (2 + i)),i,1)),(x + ~1),1)
1: loop(\(x,i).(x + loop(\(x,i).(x * (2 + i)),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x * (2 + i)),i,2)),x,0)
1: loop(\(x,i).(x + loop(\(x,i).(x * (2 + i)),compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i),2)),x,2)
1: loop(\(x,i).(x + loop(\(x,i).(2 * (x + i)),(1 + i),1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))),(~1 + i),1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i))),i,2)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i))),i,2)),x,2)
1: loop(\(x,i).(loop(\(x,i).~2x,(~1 + i),1) + (x * i)),x,0)
1: loop(\(x,i).(loop(\(x,i).~2x,i,1) + (x * i)),(x + ~1),1)
1: loop(\(x,i).(loop(\(x,i).~2x,i,1) + (x * i)),x,1)
1: loop(\(x,i).(loop(\(x,i).~2x,i,1) + (x * i)),i,1)
1: loop(\(x,i).(2x + loop(\(x,i).~3x,i,1)),i,1)
1: loop(\(x,i).(loop(\(x,i).~3x,i,1) + (x * i)),x,1)
1: loop(\(x,i).(loop(\(x,i).(x * (0 - i)),i,1) + (x * (2 + i))),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x * (0 - i)),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(~2x + 2),i,1)),x,0)
1: loop(\(x,i).(x + loop(\(x,i).11x,i,(1 + i))),x,1)
1: loop(\(x,i).(x + loop(\(x,i).11x,i,(1 + i))),i,1)
1: loop(\(x,i).(x + loop(\(x,i).23x,i,(1 + i))),x,1)
1: loop(\(x,i).(2x + loop(\(x,i).(2 * (2x - (x div (1 + i)))),(~1 + i),2)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(2 * (2x - (x div (1 + i)))),(~1 + i),2)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(2 * (2x - (x div (1 + i)))),i,2)),i,2)
1: loop(\(x,i).(16x + loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),i,1)),i,1)
1: loop(\(x,i).(x + loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),i,2)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),i,x)),x,1)
1: loop(\(x,i).(loop(\(x,i).(x * (~1 + (2 * i))),i,1) + (x * (1 + (2 * i)))),x,0)
1: loop(\(x,i).(loop(\(x,i).(x * (~1 + (2 * i))),i,1) + (x * (1 + (2 * i)))),x,1)
1: loop(\(x,i).(loop(\(x,i).(x * (~1 + (2 * i))),i,1) + (2x * i)),(x + 1),2)
1: loop(\(x,i).(loop(\(x,i).(x * (~1 + (2 * i))),i,1) + (2x * i)),x,0)
1: loop(\(x,i).(loop(\(x,i).(x * (~1 + (2 * i))),i,1) + (4x * i)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x * (~1 + (2 * i))),i,1)),x,0)
1: loop(\(x,i).(4x + loop(\(x,i).(2 * (~2x + (x div (if i <= 0 then 1 else i)))),i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).(2 * (~2x + (x mod 2))),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(((x + 1) - (2 * (x mod 2))) * (1 + i)),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(13x2 + ~12x),1,i)),x,0)
1: loop(\(x,i).(x + loop(\(x,i).(6x3 + ~5x2),1,i)),x,0)
1: loop(\(x,i).(2x + loop(\(x,i).(2 * (x - (i mod 2))),i,1)),x,1)
1: loop(\(x,i).(1 + loop(\(x,i).(2 * (x - i)),(x div 2),x)),1,(x + 1))
1: loop(\(x,i).(x + loop(\(x,i).(x * (x - i)),2,(1 + (2 * i)))),x,0)
1: loop(\(x,i).(x + loop(\(x,i).(x * (x - i)),2,(2 + i))),(x + 1),0)
1: loop(\(x,i).(x + loop(\(x,i).(x * (i - (x div (if i <= 0 then 1 else i)))),2,i)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).15x,i,(1 + i))),x,1)
1: loop(\(x,i).(1 + loop(\(x,i).10x,2,x)),(2x + 1),1)
1: loop(\(x,i).(1 + loop(\(x,i).10x,2,x)),2x,1)
1: loop(\(x,i).(1 + loop(\(x,i).10x,2,x)),(x div 2),1)
1: loop(\(x,i).(1 + (loop(\(x,i).10x,2,x) + i)),x,1)
1: loop(\(x,i).(1 + loop(\(x,i).10x,(1 + (x div 3)),x)),x,1)
1: loop(\(x,i).(1 + loop(\(x,i).10x,(1 + i),x)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).10x,(2 + i),1)),(x + 1),0)
1: loop(\(x,i).(x + loop(\(x,i).10x,(2 + i),1)),(2x + ~2),1)
1: loop(\(x,i).(x + loop(\(x,i).10x,((1 + i) * i),x)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).10x,x,1)),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(8x + loop(\(x,i).10x,i,1)),x,1)
1: loop(\(x,i).(12x + loop(\(x,i).10x,i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).10x,i,1)),x,1)
1: loop(\(x,i).(loop(\(x,i).10x,i,1) + (if (~2 + i) <= 0 then 1 else x)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).10x,i,(1 + i))),x,1)
1: loop(\(x,i).(x + loop(\(x,i).10x,i,(1 + i))),i,1)
1: loop(\(x,i).(1 + loop(\(x,i).10x,i,x)),x,0)
1: loop(\(x,i).(x + loop(\(x,i).10x,i,i)),x,0)
1: loop(\(x,i).(loop(\(x,i).14x,x,1) + loop(\(x,i).3x,x,1)),1,(2x + 1))
1: loop(\(x,i).(x + loop(\(x,i).14x,i,(1 + i))),x,1)
1: loop(\(x,i).(x + loop(\(x,i).21x,i,(1 + i))),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(2x * (1 + (2 * i))),i,2)),x,2)
1: loop(\(x,i).(x + loop(\(x,i).(4 * ((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1))),1,i)),x,0)
1: loop(\(x,i).(x + loop(\(x,i).22x,i,(1 + i))),x,1)
1: loop(\(x,i).(loop(\(x,i).(2x * (~1 + (2 * i))),i,1) + (2x * i)),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).27x,(~1 + i),1)),x,0)
1: loop(\(x,i).(2x + loop(\(x,i).27x,(~1 + i),1)),x,0)
1: loop(\(x,i).(x + loop(\(x,i).24x,i,(1 + i))),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x * (i * i * i * i * i * i)),i,1)),(x + 1),0)
1: loop(\(x,i).(6x + loop(\(x,i).8x,i,1)),x,1)
1: loop(\(x,i).(6x + loop(\(x,i).8x,i,1)),i,1)
1: loop(\(x,i).(x + loop(\(x,i).8x,i,(1 + i))),x,1)
1: loop(\(x,i).(x + loop(\(x,i).12x,i,(1 + i))),x,1)
1: loop(\(x,i).(x + loop(\(x,i).20x,i,(1 + i))),x,1)
1: loop(\(x,i).(loop(\(x,i).(4x * (~1 + (2 * i))),i,1) + (2x * i)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).18x,i,(1 + i))),x,1)
1: loop(\(x,i).(x + loop(\(x,i).10x2,i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).10x3,i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).x5,1,(1 + (2 * i)))),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x * (i * i * i * i)),(1 + i),1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x * (i * i * i * i)),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(3 * ((2x div (1 + i)) * (~1 + (2 * i)))),i,1)),x,1)
1: loop(\(x,i).(1 + loop(\(x,i).4x,(1 + i),x)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).4x,(~1 + (2 * i)),x)),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).4x,(~1 + i),i)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).4x,(2 * i),(1 + i))),x,1)
1: loop(\(x,i).(loop(\(x,i).4x,i,1) + (x * (~1 + i))),x,1)
1: loop(\(x,i).(loop(\(x,i).4x,i,1) + (x * i)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).4x,i,x)),(x + 1),1)
1: loop(\(x,i).(x + loop(\(x,i).4x,i,x)),(x + ~1),1)
1: loop(\(x,i).(4x + loop(\(x,i).6x,(~2 + i),1)),x,0)
1: loop(\(x,i).(loop(\(x,i).6x,i,1) + (x * i)),x,1)
1: loop(\(x,i).(x2 + loop(\(x,i).2x2,(~1 + i),1)),x,0)
1: loop(\(x,i).(x2 + loop(\(x,i).2x2,(~1 + i),1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).2x2,(~1 + i),1)),x,0)
1: loop(\(x,i).(x2 + loop(\(x,i).4x2,(~1 + i),1)),x,0)
1: loop(\(x,i).(x + loop(\(x,i).x3,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i)))),(x + 1),0)
1: loop(\(x,i).(x + loop(\(x,i).x3,1,(((2 + i) * (1 + i)) div 2))),x,1)
1: loop(\(x,i).(x + loop(\(x,i).x3,1,loop(\(x,i).(2 * (2x - (x div (1 + i)))),(~1 + i),2))),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).x3,1,loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),i,1))),x,1)
1: loop(\(x,i).(2x + loop(\(x,i).x3,1,loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),i,1))),x,1)
1: loop(\(x,i).(x + loop(\(x,i).x3,1,loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),i,1))),x,1)
1: loop(\(x,i).(x + loop(\(x,i).x3,2,i)),(1 + i),x)
1: loop(\(x,i).(x + loop(\(x,i).x3,2,i)),x,0)
1: loop(\(x,i).(x + loop(\(x,i).x3,2,i)),i,0)
1: loop(\(x,i).(x + loop(\(x,i).x3,i,2)),(x + ~2),1)
1: loop(\(x,i).(loop(\(x,i).(2x * i),(~1 + i),1) + (x * i)),x,0)
1: loop(\(x,i).(x + loop(\(x,i).(2x * i),(~1 + i),1)),x,1)
1: loop(\(x,i).(loop(\(x,i).(2x * i),i,1) + (x * (1 + (2 * i)))),x,1)
1: loop(\(x,i).(loop(\(x,i).(2x * i),i,1) + (x * (1 + i))),x,1)
1: loop(\(x,i).(loop(\(x,i).(2x * i),i,1) + (x * (~1 + (2 * i)))),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(2x * i),i,1)),x,0)
1: loop(\(x,i).(x + loop(\(x,i).(2x * i),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(3x * i),i,1)),x,1)
1: loop(\(x,i).(loop(\(x,i).(x * (i * (1 + i))),(~1 + i),1) + (x * (i * i))),x,0)
1: loop(\(x,i).(x + loop(\(x,i).(x * (i * (1 + i))),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x * (i * i * i)),(1 + i),1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x * (i * i * i)),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x * (i * i)),(1 + i),1)),x,1)
1: loop(\(x,i).(loop(\(x,i).(x * (i * i)),i,1) + (x * i)),(x + ~1),0)
1: loop(\(x,i).(loop(\(x,i).(x * (i * i)),i,1) + (x * i)),x,0)
1: loop(\(x,i).(loop(\(x,i).(x * (i * i)),i,1) + (x * i)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x * (i * i)),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x * (i * i)),i,x)),x,2)
1: loop(\(x,i).(1 + loop(\(x,i).(x * ((x + 1) div 2)),i,x)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(5 * ((2x * (~1 + (2 * i))) div (1 + i))),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(7 * ((2x * (~1 + (2 * i))) div (1 + i))),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(9 * ((2x * (~1 + (2 * i))) div (1 + i))),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(2 * ((8x * (~1 + (2 * i))) div (1 + i))),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(3 * ((4x * (~1 + (2 * i))) div (1 + i))),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(5 * ((4x * (~1 + (2 * i))) div (1 + i))),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).((4x div (1 + i)) * (1 + (2 * i))),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).((((4x div (1 + i)) * (~1 + (2 * i))) div (1 + i)) * (1 + (2 * i))),i,(1 + i))),x,1)
1: loop(\(x,i).(x + loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(1 + (2 * i)),1)),x,2)
1: loop(\(x,i).(x + loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(1 + i),1)),x,2)
1: loop(\(x,i).(loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(~1 + i),1) + (x * i)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(~1 + i),1)),(~1 + i),x)
1: loop(\(x,i).(x + loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(~1 + i),1)),i,1)
1: loop(\(x,i).(4x + loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(~2 + i),1)),x,0)
1: loop(\(x,i).(2x + loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),i,1)),x,2)
1: loop(\(x,i).(x + loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x * (if (x mod 2) <= 0 then 1 else x)),2,(1 + i))),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x * loop(\(x,i).(2x + ~1),(x + ~2),x)),1,i)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x * loop(\(x,i).(x * (x - i)),2,(x + ~2))),1,(x + ~1))),x,0)
1: loop(\(x,i).(1 + loop(\(x,i).2x,(1 + (i * i)),x)),(x + 1),1)
1: loop(\(x,i).(1 + loop(\(x,i).2x,(2 + i),x)),x,1)
1: loop(\(x,i).(loop(\(x,i).2x,(x + ~1),1) + i),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).2x,(~1 + i),1)),2x,2)
1: loop(\(x,i).(x + loop(\(x,i).2x,(~1 + i),3x)),x,1)
1: loop(\(x,i).(loop(\(x,i).2x,(~1 + i),(i mod 2)) + (x * i)),x,0)
1: loop(\(x,i).(1 + loop(\(x,i).2x,(~1 + i),x)),x,1)
1: loop(\(x,i).(loop(\(x,i).2x,(~1 + i),x) + (if (~2 + i) <= 0 then 1 else x)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).2x,(~1 + i),x)),(4x + ~1),1)
1: loop(\(x,i).(x + loop(\(x,i).2x,(~1 + i),x)),x,1)
1: loop(\(x,i).(loop(\(x,i).2x,(~1 + i),i) + (x * i)),x,0)
1: loop(\(x,i).(loop(\(x,i).2x,(~2 + i),1) + (x * i)),x,0)
1: loop(\(x,i).(x + loop(\(x,i).2x,(i - (2x div (1 + i))),1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).2x,(i - (x mod 2)),x)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).2x,(4 div (1 + i)),x)),x,1)
1: loop(\(x,i).(2x + loop(\(x,i).2x,((1 + i) div 2),1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).2x,(((~1 + i) * i) div 2),1)),x,0)
1: loop(\(x,i).(x + loop(\(x,i).2x,(x mod (1 + i)),2)),x,0)
1: loop(\(x,i).(x + loop(\(x,i).2x,loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,i),1)),x,1)
1: loop(\(x,i).(1 + loop(\(x,i).2x,x,1)),(x mod 5),0)
1: loop(\(x,i).(x2 + loop(\(x,i).2x,x,1)),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(x + loop(\(x,i).2x,x,1)),x,0)
1: loop(\(x,i).(1 + loop(\(x,i).2x,x,loop(\(x,i).x2,x,3))),1,(2x + 1))
1: loop(\(x,i).(loop(\(x,i).2x,i,1) + (x * (~1 + i))),x,1)
1: loop(\(x,i).(loop(\(x,i).2x,i,1) + (x * (~1 + i))),i,1)
1: loop(\(x,i).(4x + loop(\(x,i).2x,i,1)),i,1)
1: loop(\(x,i).(loop(\(x,i).2x,i,1) + (x * (i * i))),x,1)
1: loop(\(x,i).(x2 + loop(\(x,i).2x,i,1)),x,1)
1: loop(\(x,i).(loop(\(x,i).2x,i,1) + (x * i)),(~1 + i),1)
1: loop(\(x,i).(loop(\(x,i).2x,i,1) + (x * i)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).2x,i,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)))),x,1)
1: loop(\(x,i).(x + loop(\(x,i).2x,i,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i)))),x,2)
1: loop(\(x,i).(x + loop(\(x,i).2x,i,2x2)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).2x,i,2x)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).2x,i,x2)),x,1)
1: loop(\(x,i).(1 + loop(\(x,i).2x,i,x)),x,0)
1: loop(\(x,i).(1 + loop(\(x,i).2x,i,x)),x,1)
1: loop(\(x,i).(2x + loop(\(x,i).2x,i,x)),(x + ~1),1)
1: loop(\(x,i).(2x + loop(\(x,i).2x,i,x)),x,1)
1: loop(\(x,i).(loop(\(x,i).2x,i,x) + (x * i)),x,1)
1: loop(\(x,i).(loop(\(x,i).2x,i,x) + i),x,1)
1: loop(\(x,i).(x + loop(\(x,i).2x,compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i),1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).2x,compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i),2)),x,0)
1: loop(\(x,i).(x + loop(\(x,i).2x,compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i),2)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).x2,1,(1 + ((1 + i) div 2)))),x,1)
1: loop(\(x,i).(x + loop(\(x,i).x2,1,(1 + (i div 3)))),x,1)
1: loop(\(x,i).(x + loop(\(x,i).x2,1,(1 + ((~1 + i) mod 8)))),x,0)
1: loop(\(x,i).(x + loop(\(x,i).x2,1,(1 + loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,i)))),x,1)
1: loop(\(x,i).(x + loop(\(x,i).x2,1,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)))),x,1)
1: loop(\(x,i).(x + loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i)))),(x + 1),0)
1: loop(\(x,i).(x + loop(\(x,i).x2,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i)))),x,4)
1: loop(\(x,i).(2 + loop(\(x,i).x2,1,(~2 + (x div 2)))),2,x)
1: loop(\(x,i).(x + loop(\(x,i).x2,1,loop(\(x,i).(x + (i * i * i)),(1 + i),0))),x,1)
1: loop(\(x,i).(x + loop(\(x,i).x2,1,loop(\(x,i).(x + (((2 + i) * (1 + i)) div 2)),i,1))),x,1)
1: loop(\(x,i).(x + loop(\(x,i).x2,1,loop(\(x,i).(~2x + 1),i,0))),x,0)
1: loop(\(x,i).(x + loop(\(x,i).x2,1,loop(\(x,i).(~x + i),i,1))),x,1)
1: loop(\(x,i).(x + loop(\(x,i).x2,1,loop(\(x,i).(x * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))),i,1))),x,1)
1: loop(\(x,i).(x + loop(\(x,i).x2,1,loop(\(x,i).(2 * (2x - (x div (1 + i)))),(~1 + i),2))),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).x2,1,loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),i,1))),x,1)
1: loop(\(x,i).(x + loop(\(x,i).x2,1,loop(\(x,i).x2,2,(1 + i)))),i,1)
1: loop(\(x,i).(x + loop(\(x,i).x2,1,loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),i,1))),x,1)
1: loop(\(x,i).(x + loop(\(x,i).x2,2,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)))),(x + 1),0)
1: loop(\(x,i).(x + loop(\(x,i).x2,2,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i)))),(x + 1),0)
1: loop(\(x,i).(x + loop(\(x,i).x2,2,(i * i * i))),x,0)
1: loop(\(x,i).(x + loop(\(x,i).x2,2,(2 * i))),x,0)
1: loop(\(x,i).(x + loop(\(x,i).x2,2,(i * i))),x,0)
1: loop(\(x,i).(x + loop(\(x,i).x2,3,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)))),(x + 1),0)
1: loop(\(x,i).(x + loop(\(x,i).x2,i,2)),x,2)
1: loop(\(x,i).(x + loop(\(x,i).x2,i,3)),x,3)
1: loop(\(x,i).(x + loop(\(x,i).(2 * i),(~2 + i),x)),(x + ~1),1)
1: loop(\(x,i).(x + loop(\(x,i).(x * i),(2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),i)),1)),x,2)
1: loop(\(x,i).(x + loop(\(x,i).(x * i),(x + ~2),1)),x,0)
1: loop(\(x,i).(x + loop(\(x,i).(x * i),(x + ~2),1)),x,1)
1: loop(\(x,i).(1 + loop(\(x,i).(x * i),(x + ~2),3)),x,1)
1: loop(\(x,i).(loop(\(x,i).(x * i),(~1 + i),1) + (x * (~1 + (2 * i)))),x,0)
1: loop(\(x,i).(loop(\(x,i).(x * i),(~1 + i),1) + (2x * i)),x,0)
1: loop(\(x,i).(loop(\(x,i).(x * i),(~1 + i),1) + (3x * i)),(x + 1),0)
1: loop(\(x,i).(loop(\(x,i).(x * i),(~1 + i),1) + (x * (i * i))),(x + 1),0)
1: loop(\(x,i).(loop(\(x,i).(x * i),(~1 + i),1) + (x * i)),x,0)
1: loop(\(x,i).(loop(\(x,i).(x * i),(~1 + i),1) + (x * i)),i,1)
1: loop(\(x,i).(x + loop(\(x,i).(x * i),(~1 + i),1)),x,0)
1: loop(\(x,i).(x + loop(\(x,i).(x * i),(~1 + i),1)),x,1)
1: loop(\(x,i).(loop(\(x,i).(x * i),(~1 + i),2) + (x * i)),(x + ~1),0)
1: loop(\(x,i).(loop(\(x,i).(x * i),(~1 + i),2) + (x * i)),(x + ~2),0)
1: loop(\(x,i).(loop(\(x,i).(x * i),(~1 + i),2) + (x * i)),x,1)
1: loop(\(x,i).(loop(\(x,i).(x * i),(~1 + i),2) + (x * i)),x,(x + 1))
1: loop(\(x,i).(x + loop(\(x,i).(x * i),(~1 + i),(1 - (2 * i)))),x,0)
1: loop(\(x,i).(x + loop(\(x,i).(x * i),(~1 + i),(~2 + i))),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x * i),(2 * i),1)),x,1)
1: loop(\(x,i).(4x + loop(\(x,i).(x * i),x,1)),(x + ~2),1)
1: loop(\(x,i).(loop(\(x,i).(x * i),x,1) + loop(\(x,i).2x,x,1)),1,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x)))
1: loop(\(x,i).(x + loop(\(x,i).(x * i),x,1)),1,(1 + compr(\x.((~1 + loop(\(x,i).(x * i),x,1)) mod (x + 2)),x)))
1: loop(\(x,i).(x + loop(\(x,i).(x * i),x,1)),1,(2 + compr(\x.((~1 + loop(\(x,i).(x * i),x,1)) mod (x + 2)),x)))
1: loop(\(x,i).(x + loop(\(x,i).(x * i),x,1)),x,1)
1: loop(\(x,i).(loop(\(x,i).(x * i),x,1) + i),x,1)
1: loop(\(x,i).(loop(\(x,i).(x * i),x,i) + i),x,0)
1: loop(\(x,i).(loop(\(x,i).(x * i),i,1) + (x * (1 + i))),(x + ~1),0)
1: loop(\(x,i).(loop(\(x,i).(x * i),i,1) + (x * (1 + i))),(x + ~1),x)
1: loop(\(x,i).(loop(\(x,i).(x * i),i,1) + (x * (1 + i))),i,1)
1: loop(\(x,i).(2x + loop(\(x,i).(x * i),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x * i),i,1)),(x + 3),2)
1: loop(\(x,i).(x + loop(\(x,i).(x * i),i,1)),(1 + i),1)
1: loop(\(x,i).(x + loop(\(x,i).(x * i),i,1)),(1 + compr(\x.((~1 + loop(\(x,i).(x * i),x,1)) mod (x + 2)),x)),1)
1: loop(\(x,i).(x + loop(\(x,i).(x * i),i,1)),(x + ~1),0)
1: loop(\(x,i).(x + loop(\(x,i).(x * i),i,1)),(i div 2),1)
1: loop(\(x,i).(x + loop(\(x,i).(x * i),i,1)),x,0)
1: loop(\(x,i).(x + loop(\(x,i).(x * i),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x * i),i,1)),x,x)
1: loop(\(x,i).(x + loop(\(x,i).(x * i),i,1)),i,~x)
1: loop(\(x,i).(x + loop(\(x,i).(x * i),i,1)),i,(~x + 1))
1: loop(\(x,i).(x + loop(\(x,i).(x * i),i,1)),i,x)
1: loop(\(x,i).(x + loop(\(x,i).(x * i),i,2)),(x + 2),0)
1: loop(\(x,i).(x + loop(\(x,i).(x * i),i,(1 + i))),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x * i),i,(~1 + i))),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x * i),i,(i * i))),(x + 1),0)
1: loop(\(x,i).(x + loop(\(x,i).(x * i),i,x)),x,2)
1: loop(\(x,i).(loop(\(x,i).(x * i),i,x) + i),(x + ~2),x)
1: loop(\(x,i).(x + loop(\(x,i).((1 + (4 * (x + (if (x + ~4) <= 0 then 1 else 2)))) div 3),1,i)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).((loop(\(x,i).3x,x,1) - loop(\(x,i).3x,(x div 2),1)) div 2),1,i)),x,0)
1: loop(\(x,i).(x + loop(\(x,i).(8 div (x + 1)),2,i)),x,2)
1: loop(\(x,i).(x + loop(\(x,i).((2 * (4 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3),1,i)),x,0)
1: loop(\(x,i).(x + loop(\(x,i).((x * (x + i)) div (1 + i)),2,i)),x,0)
1: loop(\(x,i).(x + loop(\(x,i).((x2 + ~x) div 2),2,(1 + i))),x,1)
1: loop(\(x,i).(x + loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(~2 + i),1)),((x + 1) div 2),1)
1: loop(\(x,i).(4x + loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),i,1)),i,1)
1: loop(\(x,i).(x + loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),i,1)),2x,2)
1: loop(\(x,i).(x + loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),i,1)),((x + 1) div 2),1)
1: loop(\(x,i).(x + loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),i,1)),i,x)
1: loop(\(x,i).(4x + loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),i,(1 + i))),x,1)
1: loop(\(x,i).(x + loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),i,(1 + i))),x,1)
1: loop(\(x,i).(x + loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),(x div 2),x)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),i,i)),(x + ~1),0)
1: loop(\(x,i).(x + loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),i,i)),(x + ~1),1)
1: loop(\(x,i).(x + loop(\(x,i).((8x * (~1 + (2 * i))) div (1 + i)),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).((4x * (~1 + (2 * i))) div (1 + i)),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x2 div 2),2,i)),x,0)
1: loop(\(x,i).(x + loop(\(x,i).(loop(\(x,i).(2 + ((x2 + x) div 2)),2,x) div 3),1,i)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(x div (1 + (x mod 2))),i,i)),x,(x + 1))
1: loop(\(x,i).(1 + loop(\(x,i).(x div (2 - ((x * (x div 2)) mod 2))),x,2x)),2,x)
1: loop(\(x,i).(2 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),2,x)
1: loop(\(x,i).(x + loop(\(x,i).((x + 2) mod (1 + i)),i,1)),x,1)
1: loop(\(x,i).((x + 1) + loop(\(x,i).(5x mod 17),1,(2x + 2))),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(loop(\(x,i).(x + (i * i)),x,0) mod (x + 1)),1,i)),x,0)
1: loop(\(x,i).(x + loop(\(x,i).(if (~x + i) <= 0 then x else 2x),i,1)),x,0)
1: loop(\(x,i).(x + loop(\(x,i).(if (x mod 2) <= 0 then 1 else (4x2 + 4x)),1,i)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),(x + ~2),x)),x,1)
1: loop(\(x,i).(1 + loop(\(x,i).(if x <= 0 then 1 else (~1 + loop(\(x,i).(x2 + x),1,(1 + loop(\(x,i).3x,x,(2 * (1 + loop(\(x,i).(x2 + ~x),1,loop(\(x,i).x2,x,2))))))))),x,0)),x,0)
1: loop(\(x,i).(1 + loop(\(x,i).(if x <= 0 then 1 else (x * (if (x mod 2) <= 0 then 10 else 1))),2,x)),x,0)
1: loop(\(x,i).(loop(\(x,i).(if x <= 0 then (loop(\(x,i).(x * i),(~1 + i),1) + (x * i)) else 0),i,1) + (x * i)),x,0)
1: loop(\(x,i).(1 + loop(\(x,i).(if x <= 0 then i else (x + ~1)),x,0)),x,x)
1: loop(\(x,i).(x + loop(\(x,i).(if x <= 0 then i else (x + ~1)),x,1)),1,(x + ~1))
1: loop(\(x,i).(x + loop(\(x,i).loop(\(x,i).((x + 2) + i),i,x),i,1)),x,2)
1: loop(\(x,i).(x + loop(\(x,i).loop(\(x,i).(x + ((2 + i) * i)),i,x),i,1)),x,0)
1: loop(\(x,i).(x + loop(\(x,i).loop(\(x,i).(x + (i * i * i * i * i)),(1 + i),x),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).loop(\(x,i).(x + (i * i * i * i)),(1 + i),x),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).loop(\(x,i).(x + (i * i * i)),(1 + i),x),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).loop(\(x,i).(x + (i * i)),(1 + i),x),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).loop(\(x,i).(x + (i * i)),(1 + i),x),i,1)),i,1)
1: loop(\(x,i).(x + loop(\(x,i).loop(\(x,i).(x + loop(\(x,i).3x,i,(1 + i))),i,(x + 1)),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,0),2,x)),2,x)
1: loop(\(x,i).(x + loop(\(x,i).loop(\(x,i).3x,(1 + i),x),i,1)),(x + 1),0)
1: loop(\(x,i).(x + loop(\(x,i).loop(\(x,i).3x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1),1,i)),x,0)
1: loop(\(x,i).(x + loop(\(x,i).loop(\(x,i).5x,(1 + i),x),i,1)),(x + 1),0)
1: loop(\(x,i).(x + loop(\(x,i).loop(\(x,i).7x,(1 + i),x),i,1)),(x + 1),0)
1: loop(\(x,i).(x + loop(\(x,i).loop(\(x,i).10x,x,loop(\(x,i).(10x + 1),x,1)),1,i)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).loop(\(x,i).(x * (i * i)),i,x),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).loop(\(x,i).2x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),2),1,i)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).loop(\(x,i).2x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),3),1,i)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).loop(\(x,i).2x,(compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1),1,i)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).loop(\(x,i).2x,i,2x),i,1)),(x + 1),0)
1: loop(\(x,i).(x + loop(\(x,i).loop(\(x,i).2x,i,x),i,1)),x,0)
1: loop(\(x,i).(x + loop(\(x,i).loop(\(x,i).(2 * i),(if (i mod 2) <= 0 then 2 else 2x),x),(~1 + i),1)),x,0)
1: loop(\(x,i).(x + loop(\(x,i).loop(\(x,i).(x * i),i,x),i,1)),x,1)
1: loop(\(x,i).(x + loop(\(x,i).loop(\(x,i).i,(x div 4),x),1,i)),x,0)
1: loop(\(x,i).(x + loop(\(x,i).i,(x div 4),1)),(x + ~1),2)
1: loop(\(x,i).(x + loop(\(x,i).i,(x div (2 + (x div 5))),1)),2x,1)
1: loop(\(x,i).(x + loop(\(x,i).compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),(x + 1)),1,i)),x,1)
1: loop(\(x,i).(x + 1),(2 + (2x div (4 + (x div 4)))),2)
1: loop(\(x,i).(x + 1),((x + ~8) + ((x div 2) div 5)),1)
1: loop(\(x,i).(x + 1),(~4 + (x div 2)),x)
1: loop(\(x,i).(x + 1),(~1 + ((x div 9) + (x div 7)) - (x div ~7)),1)
1: loop(\(x,i).(x + 1),(~2 + ((2x + 1) mod (4 + (x div 4)))),0)
1: loop(\(x,i).(x + 1),(x + ~8),2)
1: loop(\(x,i).(x + 1),(x2 + ~6x + ~16),1)
1: loop(\(x,i).(x + 1),(x div (~1 + (4 * i))),(x + 1))
1: loop(\(x,i).(x + 1),(if x <= 0 then 1 else ((2x + 1) - loop(\(x,i).2x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),2))),0)
1: loop(\(x,i).(x + 1),(if x <= 0 then 3 else x),3)
1: loop(\(x,i).(x + 1),loop(\(x,i).(x div (2 - ((x * (x div 2)) mod 2))),x,x),2)
1: loop(\(x,i).(x + 2),(~x + 2),(if ((x + 2) mod 6) <= 0 then 2 else 1))
1: loop(\(x,i).(x + 2),(~4 + (x div 2)),(x div 2))
1: loop(\(x,i).(x + 2),(~3 + ((x + ~1) div 2)),1)
1: loop(\(x,i).(x + 2),(~2 + ((x + ~2) div 3)),(x div 3))
1: loop(\(x,i).(x + 2),(x + ~1),~3)
1: loop(\(x,i).(x + 2),(x + ~1),(loop(\(x,i).x3,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))) div 2))
1: loop(\(x,i).(x + 2),(x + ~6),x)
1: loop(\(x,i).(x + 2),(x + ~12),1)
1: loop(\(x,i).(x + 2),(x + ~10),1)
1: loop(\(x,i).(2 + i),((x + ~2) div 3),1)
1: loop(\(x,i).(2 + i),(x mod 10),1)
1: loop(\(x,i).(2 + i),loop(\(x,i).(x div (1 + (x mod 2))),x,x),1)
1: loop(\(x,i).(x + i),(((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3) + (if x <= 0 then 0 else 1)),0)
1: loop(\(x,i).(x + i),(1 + ((x * (x mod 2)) div 4)),0)
1: loop(\(x,i).(x + i),(2 + (x mod 3)),1)
1: loop(\(x,i).(x + i),(x + (if (x + ~2) <= 0 then 1 else (x + ~2))),0)
1: loop(\(x,i).(x + i),((if (x mod 2) <= 0 then 2 else 0) + (x div 2)),1)
1: loop(\(x,i).(x + i),(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 1))),0)
1: loop(\(x,i).(x + i),(x + 1),loop(\(x,i).(2x + 2),x,2))
1: loop(\(x,i).(x + i),(x + 2),loop(\(x,i).2x,x,4))
1: loop(\(x,i).(x + i),(2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)),0)
1: loop(\(x,i).(x + i),(1 + compr(\x.(loop(\(x,i).(x * (1 + (i div 2))),x,1) mod (x + 1)),x)),0)
1: loop(\(x,i).(x + i),(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i)),x)
1: loop(\(x,i).(x + i),(1 - ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)),0)
1: loop(\(x,i).(x + i),(1 - ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)),1)
1: loop(\(x,i).(x + i),(~1 + ((x + ~2) div 3)),1)
1: loop(\(x,i).(x + i),(~1 + ((x - ((x div 2) mod 2)) div 2)),x)
1: loop(\(x,i).(x + i),(~2 + (x div 2)),1)
1: loop(\(x,i).(x + i),((x div 2) - ((x + ~1) div 3)),0)
1: loop(\(x,i).(x + i),(x + ~2),1)
1: loop(\(x,i).(x + i),(x + ~5),x)
1: loop(\(x,i).(x + i),(x + ~9),1)
1: loop(\(x,i).(x + i),(x + ~11),x)
1: loop(\(x,i).(x + i),(x + ~10),1)
1: loop(\(x,i).(x + i),x4,1)
1: loop(\(x,i).(x + i),(2 * (x mod 4)),x)
1: loop(\(x,i).(x + i),((1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + ~1) div 2))) div 2),1)
1: loop(\(x,i).(x + i),((x + ~1) div 2),x)
1: loop(\(x,i).(x + i),((x - ((x div 2) mod 2)) div 2),1)
1: loop(\(x,i).(x + i),((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3),0)
1: loop(\(x,i).(x + i),((2 * (2 + (if x <= 0 then 0 else (2 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))))) div 3),2)
1: loop(\(x,i).(x + i),((2x + ~4) div 7),1)
1: loop(\(x,i).(x + i),(x div 3),x)
1: loop(\(x,i).(x + i),(x div 4),0)
1: loop(\(x,i).(x + i),(x div 4),1)
1: loop(\(x,i).(x + i),(x div 4),x)
1: loop(\(x,i).(x + i),(x div 5),0)
1: loop(\(x,i).(x + i),(x mod 10),0)
1: loop(\(x,i).(x + i),loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),0)
1: loop(\(x,i).(x + i),x,(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 1))))
1: loop(\(x,i).(x + i),x,(~1 + loop(\(x,i).2x,x,2)))
1: loop(\(x,i).(x + i),x,loop(\(x,i).(2x + 1),x,0))
1: loop(\(x,i).(x + i),x,loop(\(x,i).2x,x,1))
1: loop(\(x,i).(x + i),x,loop(\(x,i).(x * i),x,1))
1: loop(\(x,i).(x + i),i,(11 * (1 + i)))
1: loop(\(x,i).(x + i),i,10x)
1: loop(\(x,i).(x + i),compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x),0)
1: loop(\(x,i).(1 + compr(\x.(1 - ((x + 1) mod (1 + ((2 + (x div 2)) div 3)))),x)),2,x)
1: loop(\(x,i).(1 + compr(\x.(1 - (x mod (2 + ((1 + (3 * ((1 + (x div 4)) div 2))) mod (x + 1))))),x)),x,1)
1: loop(\(x,i).(x + compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),i)),(x + 1),0)
1: loop(\(x,i).(x + compr(\x.(~1 + (loop(\(x,i).4x,x,1) mod (2x + 1))),i)),x,1)
1: loop(\(x,i).(2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)),1,(x + ((x div 2) div 7)))
1: loop(\(x,i).(x + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),i)),x,0)
1: loop(\(x,i).(x + compr(\x.(loop(\(x,i).(2x + 1),x,0) mod (x + 1)),i)),x,1)
1: loop(\(x,i).(1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x)),1,(loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2))
1: loop(\(x,i).(1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)),(x + ~1),1)
1: loop(\(x,i).((x2 + 1) + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)),x,1)
1: loop(\(x,i).((x + 1) + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)),x,2)
1: loop(\(x,i).((x + 1) + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)),x,3)
1: loop(\(x,i).((x + 1) + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)),x,4)
1: loop(\(x,i).((x + 2) + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)),x,1)
1: loop(\(x,i).(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),(x mod 2),(x div 2))
1: loop(\(x,i).(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1,(x + ((2 * (x div 2)) div 5)))
1: loop(\(x,i).(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1,(x + (((x + 1) div 2) div 3)))
1: loop(\(x,i).(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1,(x + ((x div 2) div 5)))
1: loop(\(x,i).(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1,(x + ((x div 2) div 7)))
1: loop(\(x,i).(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1,(x + ((x mod (1 + (x div 2))) div 3)))
1: loop(\(x,i).(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1,(x + ((x mod (2 + (x div 2))) div 3)))
1: loop(\(x,i).(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1,(x + (x div 4)))
1: loop(\(x,i).(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1,(x + (x div (4 + (x div 2)))))
1: loop(\(x,i).(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1,(x + (2 mod (1 + (x div 2)))))
1: loop(\(x,i).(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1,(x + (if (x + ~4) <= 0 then 1 else 2)))
1: loop(\(x,i).(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1,(x - ((1 - (x div 2)) div 5)))
1: loop(\(x,i).(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1,(x - ((x * (x div 2)) div (x + 3))))
1: loop(\(x,i).(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1,(x - (x2 div (x + 6))))
1: loop(\(x,i).(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1,(x - (x2 div ((2x + ~1) + (x div 2)))))
1: loop(\(x,i).(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1,(x - (x div (~1 + ((~x + 1) div 2)))))
1: loop(\(x,i).(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1,(x - (2 mod (~1 - (x div 5)))))
1: loop(\(x,i).(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1,((2x + 1) div (3 + (x div 4))))
1: loop(\(x,i).(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1,((1 + (x2 div (x - ((~x + 2) div 2)))) div 2))
1: loop(\(x,i).(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1,((2 * (1 + (x div 2))) div 3))
1: loop(\(x,i).(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1,(if (~2 + (x div 2)) <= 0 then x else (x + 1)))
1: loop(\(x,i).(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1,(if (~2 + (x div 2)) <= 0 then x else (x + 2)))
1: loop(\(x,i).(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1,(if (x + ~3) <= 0 then x else (x + 1)))
1: loop(\(x,i).(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1,(if (x + ~10) <= 0 then x else (x + 2)))
1: loop(\(x,i).(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1,(if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1))
1: loop(\(x,i).(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1,loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x))
1: loop(\(x,i).(x + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i)),x,1)
1: loop(\(x,i).(compr(\x.(x mod ((x + 1) - (x mod 10))),x) + (x mod 10)),1,(x + 1))
1: loop(\(x,i).(x + compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x + ~2),x),i)),x,0)
1: loop(\(x,i).(x + compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x + 2)),i)),x,2)
1: loop(\(x,i).(~x - ((x + loop(\(x,i).(x * i),i,1)) * (1 + i))),2x,1)
1: loop(\(x,i).(~x3 + ~1),2,2)
1: loop(\(x,i).(~x3 + ~1),2,4)
1: loop(\(x,i).(~2x - (if (~2 + i) <= 0 then 1 else x)),x,0)
1: loop(\(x,i).~5x,x,1)
1: loop(\(x,i).(~2x + ~32),(x + 1),0)
1: loop(\(x,i).(0 - (2 * (x + (x div 2)))),i,1)
1: loop(\(x,i).(~2x + ~2),x,0)
1: loop(\(x,i).(~2x + ~2),x,2)
1: loop(\(x,i).(0 - (x * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)))),i,1)
1: loop(\(x,i).(~6x2 + 2x + ~4),2,x)
1: loop(\(x,i).(0 - (2x * (1 + (2 * i)))),x,1)
1: loop(\(x,i).(0 - (2x * (1 + (2 * i)))),x,(x + 2))
1: loop(\(x,i).~8x,(x div 3),1)
1: loop(\(x,i).~x6,1,(x2 + 1))
1: loop(\(x,i).~6x,(x + ~1),1)
1: loop(\(x,i).(0 - (((4x * (~1 + (2 * i))) div (1 + i)) * (~1 + (2 * i)))),x,1)
1: loop(\(x,i).(0 - ((x + 1) * (if x <= 0 then 1 else 2))),x,1)
1: loop(\(x,i).(0 - ((x + 1) * loop(\(x,i).(x2 + 2),2,2))),2,(x2 + 2x))
1: loop(\(x,i).(0 - ((2x * (1 + (2 * i))) div (2 + i))),(x div 2),(x mod 2))
1: loop(\(x,i).(0 - ((2x * (~1 + (2 * i))) div (1 + i))),(x div 2),1)
1: loop(\(x,i).(0 - (loop(\(x,i).2x,x,2) mod (x + 1))),2,x)
1: loop(\(x,i).(0 - (if ((x + 1) mod (1 + i)) <= 0 then 0 else x)),x,2x)
1: loop(\(x,i).(0 - (if (x mod (1 + i)) <= 0 then 1 else x)),(x + ~2),x)
1: loop(\(x,i).(0 - loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),x,x)),1,(x2 + 2x))
1: loop(\(x,i).(0 - loop(\(x,i).(x - (if (~x + i) <= 0 then (1 + i) else 0)),x,x)),2,x)
1: loop(\(x,i).(0 - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)),1,(x2 + 2x))
1: loop(\(x,i).(0 - loop(\(x,i).(x * (0 - i)),i,2x)),x,1)
1: loop(\(x,i).~x,(x + ((2 * i) div (x + 1))),1)
1: loop(\(x,i).~x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),(if ((x + 1) mod 8) <= 0 then 2 else 1))
1: loop(\(x,i).~x,(x + 1),2x)
1: loop(\(x,i).~x,(x + ~1),loop(\(x,i).(~2x + 4),x,1))
1: loop(\(x,i).~x,(~2 + i),1)
1: loop(\(x,i).~x,3x,((~x + ~1) + i))
1: loop(\(x,i).~x,(x div 2),(1 + (2 * (x + (if (x mod 2) <= 0 then x else 1)))))
1: loop(\(x,i).~x,(x div 2),(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))))
1: loop(\(x,i).~x,(i mod 3),i)
1: loop(\(x,i).~x,x,4)
1: loop(\(x,i).~x,x,(1 + (((~x + 2) div 2) div 5)))
1: loop(\(x,i).~x,x,(1 + (loop(\(x,i).(((x + ~1) + i) * i),x,0) div 2)))
1: loop(\(x,i).~x,x,(1 + ((x + 1) mod 3)))
1: loop(\(x,i).~x,x,(1 + loop(\(x,i).(~2x + 4),x,2)))
1: loop(\(x,i).~x,x,(1 + loop(\(x,i).2x,x,1)))
1: loop(\(x,i).~x,x,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i)))
1: loop(\(x,i).~x,x,(1 - ((2 * (((x + 1) div 2) div 2)) div 3)))
1: loop(\(x,i).~x,x,(1 - ((x mod (1 + (x div 2))) div 3)))
1: loop(\(x,i).~x,x,(1 - ((1 + (x mod 8)) mod (x + 1))))
1: loop(\(x,i).~x,x,(1 - (compr(\x.(if (x mod 2) <= 0 then ((x div 3) mod 3) else 0),x) mod 3)))
1: loop(\(x,i).~x,x,(1 - loop(\(x,i).(~2x + i),x,0)))
1: loop(\(x,i).~x,x,(2 - ((x3 + 2) mod 5)))
1: loop(\(x,i).~x,x,(~1 + (x div ((~x + 1) - (x mod 3)))))
1: loop(\(x,i).~x,x,(loop(\(x,i).2x,x,1) - loop(\(x,i).(3x + 2),x,0)))
1: loop(\(x,i).~x,x,(i * i))
1: loop(\(x,i).~x,x,((2 - (((x + ~1) div 2) div 2)) div 2))
1: loop(\(x,i).~x,x,(x div (3 * (8 - (x div 2)))))
1: loop(\(x,i).~x,x,(x mod 5))
1: loop(\(x,i).~x,x,(if ((if x <= 0 then 1 else x) mod 5) <= 0 then 2 else 1))
1: loop(\(x,i).~x,x,loop(\(x,i).((2x + 1) - (x mod 3)),x,1))
1: loop(\(x,i).~x,x,loop(\(x,i).(1 + (2 * (x + (x mod 2)))),x,0))
1: loop(\(x,i).~x,x,loop(\(x,i).(loop(\(x,i).(x * i),(~1 + i),1) + (x * i)),x,1))
1: loop(\(x,i).~x,x,loop(\(x,i).((~2x + 1) - i),x,1))
1: loop(\(x,i).~x,x,loop(\(x,i).((x * i) - loop(\(x,i).(x * i),(~1 + i),1)),x,0))
1: loop(\(x,i).~x,x,loop(\(x,i).(~2x + (i * i)),x,0))
1: loop(\(x,i).~x,x,loop(\(x,i).(~4x + loop(\(x,i).(3x + 1),i,1)),x,1))
1: loop(\(x,i).~x,x,loop(\(x,i).((x + 1) - (i * i)),x,1))
1: loop(\(x,i).~x,x,loop(\(x,i).(3x + ~4),x,1))
1: loop(\(x,i).~x,x,loop(\(x,i).(5x + ~8),x,1))
1: loop(\(x,i).~x,x,loop(\(x,i).(x - loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(~2 + i),1)),x,1))
1: loop(\(x,i).~x,x,loop(\(x,i).((~2x + 1) + i),x,1))
1: loop(\(x,i).~x,x,loop(\(x,i).(~2x + i),x,1))
1: loop(\(x,i).~x,x,loop(\(x,i).(2x * (1 + (2 * i))),2x,2))
1: loop(\(x,i).(1 - ((x * (x mod 2)) + (x div 2))),2,x)
1: loop(\(x,i).(0 - (((loop(\(x,i).loop(\(x,i).x2,2,x3),1,(10x + 1)) div 2) div 2) div 3)),x2,1)
1: loop(\(x,i).(0 - (x div (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))))),1,(x + 1))
1: loop(\(x,i).((~x + 1) - (if (x mod (1 + (2 * i))) <= 0 then x else 0)),2,x)
1: loop(\(x,i).((~x + 1) - i),(x div 3),1)
1: loop(\(x,i).((~2x + ~1) + (((x + 1) div 2) div 3)),3,x)
1: loop(\(x,i).((6x + 1) - (x mod 2)),x,1)
1: loop(\(x,i).(11x + 7),2,x)
1: loop(\(x,i).(47x + 1),x,0)
1: loop(\(x,i).(23x + 1),x,0)
1: loop(\(x,i).(11x + 1),x,1)
1: loop(\(x,i).(19x + 1),x,0)
1: loop(\(x,i).((~x + 1) + (x * loop(\(x,i).x2,(~1 + i),2))),x,1)
1: loop(\(x,i).((~x + 1) + (x * loop(\(x,i).x2,(~1 + i),2))),x,2)
1: loop(\(x,i).((~x + 1) + (x div (4 * (1 + i)))),2,(x + 1))
1: loop(\(x,i).(~10x + ~4),2,x)
1: loop(\(x,i).(1 - (2 * (x + ((i div 2) mod 2)))),2x,1)
1: loop(\(x,i).(1 - (2 * (2 + (x mod (1 + i))))),x,6)
1: loop(\(x,i).(~x2 + ~x + 1),x,2)
1: loop(\(x,i).(~3x + ~5),2x,1)
1: loop(\(x,i).(1 - (2 * (x + i))),x,0)
1: loop(\(x,i).(1 - (2 * (2x - (x mod 8)))),2,x)
1: loop(\(x,i).(1 - (2 * (x - (x2 div (x - ((~x + 2) div 2)))))),2,x)
1: loop(\(x,i).(~9x + 1),11x,1)
1: loop(\(x,i).(~9x + 1),10x,1)
1: loop(\(x,i).(~9x + 1),12x,1)
1: loop(\(x,i).(~9x + 1),x,1)
1: loop(\(x,i).(~9x + 1),i,1)
1: loop(\(x,i).(~10x + 1),(10x + 1),x)
1: loop(\(x,i).(~10x + 1),10x,1)
1: loop(\(x,i).(~10x + 1),12x,1)
1: loop(\(x,i).(~10x + 1),2x,1)
1: loop(\(x,i).(~10x + 1),x,1)
1: loop(\(x,i).(~10x + 1),i,1)
1: loop(\(x,i).(~2x2 + 4x + 1),2x,x)
1: loop(\(x,i).(~8x + 1),(10x + 1),x)
1: loop(\(x,i).(~8x + 1),12x,1)
1: loop(\(x,i).(~8x + 1),x,1)
1: loop(\(x,i).(~8x + 1),i,1)
1: loop(\(x,i).(~12x + 1),(10x + 1),x)
1: loop(\(x,i).(~12x + 1),9x,1)
1: loop(\(x,i).(~12x + 1),10x,1)
1: loop(\(x,i).(~12x + 1),12x,1)
1: loop(\(x,i).(~12x + 1),x,1)
1: loop(\(x,i).(~12x + 1),i,1)
1: loop(\(x,i).(1 - (4x * ((x + ~1) div 2))),2,x)
1: loop(\(x,i).(~4x + 1),2x,1)
1: loop(\(x,i).(~4x + 1),2x,5)
1: loop(\(x,i).(~4x + 1),x,0)
1: loop(\(x,i).(~4x + 1),x,(1 - (2 * (x mod 2))))
1: loop(\(x,i).(~4x + 1),i,1)
1: loop(\(x,i).(~6x + 1),x,1)
1: loop(\(x,i).(~6x + 1),i,1)
1: loop(\(x,i).(1 - (2 * (((~x + 2) div (2 + (x div 5))) mod 2))),x,2x)
1: loop(\(x,i).(~2x + 1),(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (1 + (if (x mod 3) <= 0 then 0 else 2))))),x,(x + 1))),1)
1: loop(\(x,i).(~2x + 1),(x div 2),2)
1: loop(\(x,i).(~2x + 1),(x div 3),1)
1: loop(\(x,i).(~2x + 1),(i div 2),1)
1: loop(\(x,i).(~2x + 1),(if (x mod 2) <= 0 then x else 0),1)
1: loop(\(x,i).(~2x + 1),loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1)
1: loop(\(x,i).(~2x + 1),x,(2x + 1))
1: loop(\(x,i).(~2x + 1),x,(x + 1))
1: loop(\(x,i).(~2x + 1),x,~1)
1: loop(\(x,i).(~2x + 1),x,6)
1: loop(\(x,i).(~2x + 1),x,(2 * (x mod 2)))
1: loop(\(x,i).(~2x + 1),x,((x mod 3) div 2))
1: loop(\(x,i).(~2x + 1),x,(if (x mod 2) <= 0 then 2 else 0))
1: loop(\(x,i).(~2x + 1),x,(if x <= 0 then 2 else 0))
1: loop(\(x,i).(~2x + 1),x,loop(\(x,i).(x mod 2),(x div 2),(1 - (2 * (x mod 2)))))
1: loop(\(x,i).(~2x + 1),compr(\x.(loop(\(x,i).(~2x + 2),x,2) mod (x + 2)),x),0)
1: loop(\(x,i).(~x2 + 1),2x2,3)
1: loop(\(x,i).(1 - (x * i)),(x + ~1),1)
1: loop(\(x,i).(1 - (x * i)),2x,1)
1: loop(\(x,i).(1 - (x * i)),i,1)
1: loop(\(x,i).(1 - ((x - ((x mod 3) div 2)) div 2)),2,x)
1: loop(\(x,i).(1 - (((x + 2) * (1 + ((x2 + 4x + 4) div 2) - (x mod 2))) div 3)),1,(x + 2))
1: loop(\(x,i).(1 - ((x * (x + i)) div (1 + i))),2,x)
1: loop(\(x,i).(1 - ((x * (~x + i)) div (x + 4))),2,x)
1: loop(\(x,i).(1 - (((x + 2) * (x2 div 2)) div 2)),2,x)
1: loop(\(x,i).(1 - ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)),1,(x + 1))
1: loop(\(x,i).(1 - ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)),1,i)
1: loop(\(x,i).(1 - (x2 div (x - ((~x + 2) div 2)))),2,x)
1: loop(\(x,i).(1 - ((x div 2) div 3)),2,(x2 + 2x))
1: loop(\(x,i).(1 - ((x mod (2 + (loop(\(x,i).2x,x,3) mod (x + 1)))) div 2)),1,(x + 1))
1: loop(\(x,i).(1 - ((x2 + 2x + 1) mod (~1 + loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)))),2,x)
1: loop(\(x,i).(1 - ((~1 + (x mod 3)) mod (1 + (x mod 4)))),1,(x + 1))
1: loop(\(x,i).(1 - (((x + 1) * (if (~2 + (x div 4)) <= 0 then 1 else 2)) mod 3)),(x + ~1),x)
1: loop(\(x,i).(1 - (((x + 1) * (if (~2 + (x div 4)) <= 0 then 1 else 2)) mod 3)),x,(x + 1))
1: loop(\(x,i).(1 - (x2 mod 7)),2,x)
1: loop(\(x,i).(1 - (x mod (1 + ((1 + (x mod ((1 + (x mod 5)) * (1 + (x mod 5))))) mod (x + 1))))),1,2x)
1: loop(\(x,i).(1 - (x mod (1 + ((x * (x mod 3)) mod 5)))),2,x)
1: loop(\(x,i).(1 - (x mod (~1 + (2 * ((x mod 2) - (if (x mod 4) <= 0 then x else 1)))))),2,x)
1: loop(\(x,i).(1 - (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),2,2x)
1: loop(\(x,i).(1 - (if (x mod (2 + i)) <= 0 then 0 else x)),(x div 2),x)
1: loop(\(x,i).(1 - (if (x mod 8) <= 0 then 0 else (x div 3))),2,(x + 1))
1: loop(\(x,i).(1 - loop(\(x,i).(~1 + (2 * loop(\(x,i).(x div (1 + (x mod 2))),x,x))),2x,x)),1,(x + 1))
1: loop(\(x,i).(1 - loop(\(x,i).(x - (if x <= 0 then 0 else (~1 + loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)))),x,x)),2,(x + 1))
1: loop(\(x,i).(1 - loop(\(x,i).(x - (if x <= 0 then 0 else (i - (i div 3)))),x,x)),1,(x + 1))
1: loop(\(x,i).(1 - loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x)),1,loop(\(x,i).2x,x,1))
1: loop(\(x,i).(1 - loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x)),2,(x + 1))
1: loop(\(x,i).(1 - loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x)),x,x)
1: loop(\(x,i).(1 - loop(\(x,i).loop(\(x,i).(x - (if (x mod (2 + i)) <= 0 then 1 else 2)),x,x),1,2x)),x,1)
1: loop(\(x,i).(~x + 1),(x + ~1),(x + loop(\(x,i).(1 + (x * i)),x,1)))
1: loop(\(x,i).(~x + 1),(x + ~1),(x - (3 mod (x + 1))))
1: loop(\(x,i).(~x + 1),(x + ~1),(3 * (x mod 3)))
1: loop(\(x,i).(~x + 1),(x + ~2),(2 + (x div 2)))
1: loop(\(x,i).(~x + 1),(x div 2),(~x * (x mod 2)))
1: loop(\(x,i).(~x + 1),(x div 2),(if (x mod 2) <= 0 then 1 else (x + 2)))
1: loop(\(x,i).(~x + 1),(x div 2),(if (x mod 2) <= 0 then (1 + (x div 2)) else 0))
1: loop(\(x,i).(~x + 1),(x div (2 + (x mod 2))),(x + 1))
1: loop(\(x,i).(~x + 1),x,((x + 1) + (9 * (x2 div 2))))
1: loop(\(x,i).(~x + 1),x,(1 + ((x * (x div 3)) mod (1 + ((2 - (x div 2)) mod 4)))))
1: loop(\(x,i).(~x + 1),x,((~x + 2) + ((x div 2) mod 2)))
1: loop(\(x,i).(~x + 1),x,((x + ~1) - ((x div 2) mod 2)))
1: loop(\(x,i).(~x + 1),x,(2 * (((1 + (x * (x + (x div 2)))) div 5) mod 2)))
1: loop(\(x,i).(~x + 1),x,(x div (2 + (x div (1 + (((if (x mod 2) <= 0 then 1 else x) mod 4) + ((x mod 3) div 2)))))))
1: loop(\(x,i).(~x + 1),x,(x div (~2 + ((~x + 2) div 4))))
1: loop(\(x,i).(~x + 1),x,(if ((x + 2) mod (1 + (x mod 4))) <= 0 then 1 else 2))
1: loop(\(x,i).(~x + 1),x,(if x <= 0 then 1 else (~2 + (if x <= 0 then 2 else (loop(\(x,i).(1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),2,x) mod (x + 1))))))
1: loop(\(x,i).(~x + 1),x,loop(\(x,i).(2x - ((x div 2) mod 2)),x,2))
1: loop(\(x,i).(1 - i),(x + ~8),x)
1: loop(\(x,i).((~x + 2) - (x div 8)),2,(x + 1))
1: loop(\(x,i).(4 - (x div 2)),((x + ~1) div 3),1)
1: loop(\(x,i).(4 - (x div 2)),x,1)
1: loop(\(x,i).((9x + 2) - (i mod 2)),x,2)
1: loop(\(x,i).((6x + 2) - (i mod 2)),x,2)
1: loop(\(x,i).(~x + 7),(x div 2),(x mod 2))
1: loop(\(x,i).(7x + 2),(1 + (x div 2)),(1 + (x mod 2)))
1: loop(\(x,i).(7x + 2),x,1)
1: loop(\(x,i).(11x + 2),x,1)
1: loop(\(x,i).(3x2 + ~x + 2),2,2x)
1: loop(\(x,i).((~x + 2) + (3 * ((2 + (x div 2)) div 3))),2,x)
1: loop(\(x,i).((~x + 2) + (5 * (x div 7))),2,(2x + 2))
1: loop(\(x,i).((~x + 2) + (x div 5)),2,x)
1: loop(\(x,i).(~x3 + ~x + 2),4,(x + 1))
1: loop(\(x,i).(2 - ((x + 1) * (1 - i))),x,1)
1: loop(\(x,i).(~10x + 2),(2x + 1),1)
1: loop(\(x,i).(2 - ((x + ~2) div (1 + (2 * (x mod 2))))),2,x)
1: loop(\(x,i).(2 - (x div (1 + (x mod 4)))),2,x)
1: loop(\(x,i).(2 - (4x mod 7)),x,1)
1: loop(\(x,i).(2 - ((if x <= 0 then 1 else x) mod 2)),(x mod 2),(x div 2))
1: loop(\(x,i).(2 - (loop(\(x,i).~2x2,2,2) mod (x + 1))),2,x)
1: loop(\(x,i).(2 - (x mod 2)),(x mod 2),(x div 2))
1: loop(\(x,i).(2 - loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,(x + 2))),1,(x + 2))
1: loop(\(x,i).(2 - loop(\(x,i).(2 * (x - i)),x,0)),x,0)
1: loop(\(x,i).(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(4x + 1))),1,6x)
1: loop(\(x,i).(~x + 2),(1 + (x div 2)),((x + 1) * (if (x mod 2) <= 0 then 2 else 0)))
1: loop(\(x,i).(~x + 2),(x + ~1),(2 + ((x div 2) mod 2)))
1: loop(\(x,i).(~x + 2),x,3)
1: loop(\(x,i).(~x + 2),x,(x + 3))
1: loop(\(x,i).(~x + 2),x,(1 + (if ((x div 3) mod 2) <= 0 then 2x else 1)))
1: loop(\(x,i).(~x + 2),x,((5x2 + x) div 2))
1: loop(\(x,i).(~x + 2),x,loop(\(x,i).(~2x + 1),x,1))
1: loop(\(x,i).(~x + 2),x,loop(\(x,i).((~2x + 1) + i),x,1))
1: loop(\(x,i).(2 - i),(x + ~9),x)
1: loop(\(x,i).((~x + 4) + ((x div 4) + (x * i))),x,2)
1: loop(\(x,i).((7x + 2) + ((x div 2) mod 2) - (x mod 3)),x,2)
1: loop(\(x,i).((x + 1) + (2 * i) - ((x + ~1) div 5)),x,1)
1: loop(\(x,i).((2x + ~1) + (if (i mod 3) <= 0 then x3 else 1)),x,1)
1: loop(\(x,i).((9x + ~1) + loop(\(x,i).10x,i,1)),x,0)
1: loop(\(x,i).((9x + ~1) + loop(\(x,i).2x,i,2)),x,1)
1: loop(\(x,i).((7x + ~1) + loop(\(x,i).2x,i,2)),x,1)
1: loop(\(x,i).((~x + 3) + i),i,1)
1: loop(\(x,i).((3x + ~1) + i),x,1)
1: loop(\(x,i).(2x + i - (x div 3)),x,1)
1: loop(\(x,i).((~x + 1) + (3 * loop(\(x,i).4x,(~1 + i),1)) - (x mod 2)),x,1)
1: loop(\(x,i).((2x + ~1) + (x mod 2) - (i mod 2)),x,1)
1: loop(\(x,i).((3x + 1) - ((x + 1) div 5)),x,1)
1: loop(\(x,i).((3x + 2) - (i mod 3)),x,2)
1: loop(\(x,i).((3x + ~1) + (x mod 3)),x,0)
1: loop(\(x,i).(13 - (if (~x + i) <= 0 then 0 else 1)),x,1)
1: loop(\(x,i).((5x + 2) - (x mod 3)),(x + 1),1)
1: loop(\(x,i).((5x + 2) - (x mod 3)),(x + 1),2)
1: loop(\(x,i).((5x + 2) - (i mod 3)),x,2)
1: loop(\(x,i).(4x2 + ~x + 3),2,2)
1: loop(\(x,i).((7x + 3) - ((~1 + i) mod 3)),x,1)
1: loop(\(x,i).(1 + (x * (2x + (x div 2))) - (x mod 2)),x,1)
1: loop(\(x,i).((x + ~1) + (2 * (2x + (x mod 2)))),x,1)
1: loop(\(x,i).((x + ~1) + (3 * (x + (x mod 2)))),x,(1 + (x mod 2)))
1: loop(\(x,i).((x + ~1) + ((x + 1) * (2 + i))),x,0)
1: loop(\(x,i).((x + ~1) + ((2 + i) * i)),x,4)
1: loop(\(x,i).((x + ~1) + (2 * (x + i))),x,1)
1: loop(\(x,i).(~1 + ((2 * (x + i)) + i)),x,0)
1: loop(\(x,i).(~1 + ((x * (~1 + (2 * i))) + (x div 2))),x,2)
1: loop(\(x,i).((10x + 1) - i),(x + 1),1)
1: loop(\(x,i).((x + ~1) + (4 * ((x + 1) + (x div 2)))),x,3)
1: loop(\(x,i).(5x + 7),x,1)
1: loop(\(x,i).(1 + (6 * (x - ((~x + 2) div 4))) - (x div 2)),x,1)
1: loop(\(x,i).((x + ~1) + (20 * (1 + (x div 2)))),2,x)
1: loop(\(x,i).(1 + (8 * (x mod 2)) - (x div 2)),x,1)
1: loop(\(x,i).((4x + ~1) + (x mod 2)),x,1)
1: loop(\(x,i).((4x + ~1) + (x mod 2)),x,(2 - (x mod 2)))
1: loop(\(x,i).((4x + ~1) + i),x,1)
1: loop(\(x,i).((x + ~1) + (2 * (i * i))),(2x + 1),x)
1: loop(\(x,i).((x2 + ~1) + (2 * (x mod 2))),x,1)
1: loop(\(x,i).(~1 + ((2 * (x mod 2)) + (x * i))),x,1)
1: loop(\(x,i).((2x + 1) - (7 * ((x div 4) mod 2))),x,1)
1: loop(\(x,i).((x2 + ~1) + (x mod 2)),2,(x + 2))
1: loop(\(x,i).(x + (2 * i) - (((x + ~1) div 2) div 2)),x,0)
1: loop(\(x,i).(x + (i * i) - (i div 2)),x,0)
1: loop(\(x,i).((x + ~1) + ((x + (x div 2)) div 5)),x,1)
1: loop(\(x,i).((x + ~1) + ((x + (x div 2)) div (2 + i))),x,0)
1: loop(\(x,i).(~1 + (((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3) + (if x <= 0 then 0 else 1))),1,i)
1: loop(\(x,i).(~1 + (((x2 + ~x) div 2) + i)),x,(~x + 1))
1: loop(\(x,i).((x + ~1) + ((i * i) div 2)),(x + 2),1)
1: loop(\(x,i).(~1 + ((x div 2) + i)),x,2)
1: loop(\(x,i).((x + ~2) + (x div 3)),x,1)
1: loop(\(x,i).((x + ~1) + (x div 4)),(x div 2),x)
1: loop(\(x,i).((x + ~2) + (x div 4)),x,0)
1: loop(\(x,i).((x + ~1) + (x div 5)),x,1)
1: loop(\(x,i).((x + ~2) + (x div (4 + i))),x,0)
1: loop(\(x,i).((x + ~2) + (x div (4 + i))),x,1)
1: loop(\(x,i).((x + ~1) + (x div (1 + i))),(x + ~2),1)
1: loop(\(x,i).((x + ~1) + (x div (1 + i))),x,0)
1: loop(\(x,i).((x + ~2) + (x div (if i <= 0 then 1 else i))),x,0)
1: loop(\(x,i).((x + ~1) + (((x - (x div ~2)) div 5) mod 2)),2,x)
1: loop(\(x,i).(~x + (((x div 2) mod 2) + i)),x,1)
1: loop(\(x,i).((2x + ~1) + (x mod (2 + (x mod 2)))),x,1)
1: loop(\(x,i).((2x + ~1) + (i mod 2)),((x + 1) div 2),1)
1: loop(\(x,i).((3x + ~1) + (if (x mod (1 + i)) <= 0 then 0 else x)),x,1)
1: loop(\(x,i).((2x + ~1) + (if (i mod 4) <= 0 then x else 1)),x,1)
1: loop(\(x,i).((~x + 2) + (if x <= 0 then 1 else 2)),8,x)
1: loop(\(x,i).(11x + loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).3x,(2 * i),1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(11x + loop(\(x,i).(8x + loop(\(x,i).3x,(2 * i),1)),i,1)),x,1)
1: loop(\(x,i).(~x + (loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),i,1) + (x * i))),x,1)
1: loop(\(x,i).(~x + (loop(\(x,i).3x,i,1) + (x * i))),x,1)
1: loop(\(x,i).(~7x + loop(\(x,i).3x,i,1)),x,1)
1: loop(\(x,i).(~3x + loop(\(x,i).5x,(~1 + i),1)),x,0)
1: loop(\(x,i).(~7x + loop(\(x,i).6x,(~1 + i),1)),x,1)
1: loop(\(x,i).(~1 + (loop(\(x,i).2x,(~2 + i),1) + (x * i))),x,0)
1: loop(\(x,i).(~3x + loop(\(x,i).2x,(~2 + i),1)),x,0)
1: loop(\(x,i).(1 + loop(\(x,i).2x,x,2) - loop(\(x,i).(4x + ~8),x,0)),1,2x)
1: loop(\(x,i).((~x + 1) + loop(\(x,i).2x,i,2x)),x,1)
1: loop(\(x,i).((loop(\(x,i).(x * i),(~1 + i),1) + (x * i)) - (if x <= 0 then 0 else 1)),x,0)
1: loop(\(x,i).(~1 + (loop(\(x,i).(x * i),i,1) + (x * (1 + i)))),x,0)
1: loop(\(x,i).((x + ~1) + loop(\(x,i).(x * i),i,1)),x,1)
1: loop(\(x,i).((x + ~1) + loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),i,1)),x,0)
1: loop(\(x,i).((x + ~1) + ((x + 1) div (1 + ((x div 2) div 3)))),x,1)
1: loop(\(x,i).((x + 1) - (2 * (if x <= 0 then 0 else i))),(x + ~1),1)
1: loop(\(x,i).((x + 1) - (if x <= 0 then 2 else (1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x)))),2,x)
1: loop(\(x,i).((x + 2) - (4 * (~x + (i mod 2)))),(x div 2),2)
1: loop(\(x,i).((x + 2) - (2 div (1 + (x div 2)))),3,x)
1: loop(\(x,i).((x + 2) - ((~x + 1) div 3)),x,1)
1: loop(\(x,i).((x + 2) - ((~x + 1) div (1 + loop(\(x,i).2x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),2)))),x,1)
1: loop(\(x,i).((x + 2) - ((~x + 2) div (2 - (x div ~2)))),2,x)
1: loop(\(x,i).((x + 2) - ((~2x + 2) div 5)),x,1)
1: loop(\(x,i).((x + 2) - (x div (~1 - i))),x,0)
1: loop(\(x,i).((23x + 1) + i),x,1)
1: loop(\(x,i).((11x + 1) + i),x,1)
1: loop(\(x,i).((11x + 1) + i),i,1)
1: loop(\(x,i).((19x + 1) + i),x,1)
1: loop(\(x,i).(1 + i - (x * i)),x,0)
1: loop(\(x,i).((x + 1) + i - ((x div 2) div 3)),x,1)
1: loop(\(x,i).(x + i - ((2x + 1) div 7)),x,1)
1: loop(\(x,i).(x + i - ((1 + (x div 2)) div 2)),x,0)
1: loop(\(x,i).(x + i - ((1 + (x div 3)) div 3)),x,2)
1: loop(\(x,i).(x + i - ((~x + 2) div 5)),x,1)
1: loop(\(x,i).(x + i - (((x + ~1) + (x mod 2)) div 5)),x,1)
1: loop(\(x,i).(x + i - ((x - (x div 3)) div 3)),x,2)
1: loop(\(x,i).(x + i - (((~x + 2) * (x div 3)) div 2)),x,1)
1: loop(\(x,i).(x + i - (2x div (2 + (x div 2)))),x,1)
1: loop(\(x,i).(x + i - ((x div 2) div 3)),x,1)
1: loop(\(x,i).(x + i - ((x mod (1 + (x div 2))) div 2)),x,0)
1: loop(\(x,i).(x + i - (x div 3)),x,1)
1: loop(\(x,i).(x + i - (x div 4)),x,2)
1: loop(\(x,i).(x + i - (x div 5)),(x + ~1),1)
1: loop(\(x,i).(x + i - (x div 5)),x,1)
1: loop(\(x,i).(x + i - (x div 7)),x,1)
1: loop(\(x,i).(x + i - (x div 11)),x,1)
1: loop(\(x,i).(x + i - (x div 8)),(x + ~1),1)
1: loop(\(x,i).(x + i - (x div 12)),2,x)
1: loop(\(x,i).(x + i - (x div (4 * (1 + i)))),x,1)
1: loop(\(x,i).(x + i - (x div (4 * (1 + i)))),x,2)
1: loop(\(x,i).(x + i - (x div (2 * (2 + i)))),2,x)
1: loop(\(x,i).(x + i - (x div (2 * (2 + i)))),x,1)
1: loop(\(x,i).(x + i - (x div ~12)),x,1)
1: loop(\(x,i).(x + i - (x div ~12)),x,2)
1: loop(\(x,i).(x + i - ((~1 + i) mod 12)),x,1)
1: loop(\(x,i).(x + i - ((2x div (2 + (x div 2))) mod 2)),x,0)
1: loop(\(x,i).(x + i - (x mod 11)),x,0)
1: loop(\(x,i).(x + i - (if (x - (2 * i)) <= 0 then 0 else 1)),x,1)
1: loop(\(x,i).(x + i - (if x <= 0 then 1 else 0)),x,0)
1: loop(\(x,i).(1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i) - (x div 2)),x,1)
1: loop(\(x,i).(~x + ~1),(x div 2),~4)
1: loop(\(x,i).(~x + ~1),(x div 2),(x * (x mod 2)))
1: loop(\(x,i).(~x + ~1),(x div 2),(x mod 2))
1: loop(\(x,i).(~x + ~1),x,3)
1: loop(\(x,i).(0 - (3 * ((~x + ((~x + 2) div 4)) div 2))),2,x)
1: loop(\(x,i).((~2x + 1) - (x div 4)),x,3)
1: loop(\(x,i).((~2x + 1) - ((x div 2) mod 2)),x,1)
1: loop(\(x,i).((~2x + 1) - (if (~2 + i) <= 0 then i else 1)),x,1)
1: loop(\(x,i).((~x + 1) - (2 * (x + (i mod 2)))),x,0)
1: loop(\(x,i).(~13x + 1),11x,1)
1: loop(\(x,i).(~13x + 1),10x,1)
1: loop(\(x,i).(~13x + 1),12x,1)
1: loop(\(x,i).(~13x + 1),x,1)
1: loop(\(x,i).(~13x + 1),i,1)
1: loop(\(x,i).(~5x + 1),x,0)
1: loop(\(x,i).(~5x + 1),x,1)
1: loop(\(x,i).(~5x + 1),i,1)
1: loop(\(x,i).(~3x + 1),2x,1)
1: loop(\(x,i).(~3x + 1),2x,2)
1: loop(\(x,i).(~3x + 1),x,1)
1: loop(\(x,i).((~2x + 1) - i),x,1)
1: loop(\(x,i).((7x + 2) - (i mod 3)),x,2)
1: loop(\(x,i).((~x + 2) - (2x mod 5)),x,0)
1: loop(\(x,i).(~3x + 2),i,1)
1: loop(\(x,i).(~x + loop(\(x,i).(1 + (x * i)),(~1 + i),1)),x,0)
1: loop(\(x,i).((~2x + ~5) + loop(\(x,i).4x,x,1)),x,1)
1: loop(\(x,i).((4x + 3) - ((~2x + 2) div 5)),2,x)
1: loop(\(x,i).((4x + ~1) - loop(\(x,i).3x,(~2 + i),1)),x,1)
1: loop(\(x,i).(~1 + (2 * i) - (loop(\(x,i).(2x + 2),x,0) mod (x + 1))),x,1)
1: loop(\(x,i).((~x2 + ~1) + ((x + ~1) div 2)),x,2)
1: loop(\(x,i).(~3 + ((2 * ((1 + ((x div 2) mod 2)) * (x div 3))) div 2)),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).(~2x + (i mod 2) - (x mod 3)),x,1)
1: loop(\(x,i).(~5x + loop(\(x,i).3x,(2 * i),1)),x,1)
1: loop(\(x,i).((~x + ~1) + loop(\(x,i).32x,i,2)),(x + 1),1)
1: loop(\(x,i).(~5x + loop(\(x,i).4x,(~1 + i),1)),x,1)
1: loop(\(x,i).(~3x + loop(\(x,i).4x,i,1)),x,1)
1: loop(\(x,i).((x + ~1) - (2 * (~x + ((2 * (~2 + (x div 2))) div 5)))),2,x)
1: loop(\(x,i).((x + ~1) - (9 * ((~x + ~2) + (x mod 2)))),2,x)
1: loop(\(x,i).((x + ~1) - (4 * (~2x + (x div 2)))),x,1)
1: loop(\(x,i).(~3x2 + x + ~1),2,2x)
1: loop(\(x,i).((x + ~1) - (3 * ((~2x + 1) div 5))),x,2)
1: loop(\(x,i).((x + ~1) - ((x * (1 - (x * (1 + (2 * i))))) div 2)),x,1)
1: loop(\(x,i).((x + ~1) - (if x <= 0 then 1 else i)),x,x)
1: loop(\(x,i).((~x + ~1) + i),((x + 1) div 5),1)
1: loop(\(x,i).(3x + ~1),(x + 1),2)
1: loop(\(x,i).(3x + ~1),(x + 1),x)
1: loop(\(x,i).(3x + ~1),(x + 2),2)
1: loop(\(x,i).(3x + ~1),(((x + ~1) div 2) - ((3 * (x div 4)) div 2)),1)
1: loop(\(x,i).(3x + ~1),(~1 + i),1)
1: loop(\(x,i).(3x + ~1),2x,2)
1: loop(\(x,i).(3x + ~1),x,3)
1: loop(\(x,i).(3x + ~1),x,4)
1: loop(\(x,i).(3x + ~1),x,6)
1: loop(\(x,i).(3x + ~1),x,x)
1: loop(\(x,i).(3x + ~1),i,2)
1: loop(\(x,i).(3x + ~2),(x + ~1),5)
1: loop(\(x,i).(3x + ~2),(x + ~1),x)
1: loop(\(x,i).(3x + ~2),2x,12)
1: loop(\(x,i).(3x + ~2),(x div 2),0)
1: loop(\(x,i).(3x + ~2),x,8)
1: loop(\(x,i).(3x + ~2),x,12)
1: loop(\(x,i).(3x + ~2),x,loop(\(x,i).2x,x,1))
1: loop(\(x,i).((3x + ~1) - i),x,2)
1: loop(\(x,i).((3x + ~1) - i),x,3)
1: loop(\(x,i).((3x + 1) - ((x div 3) mod 2)),x,1)
1: loop(\(x,i).(3x - (x div (if (x mod 4) <= 0 then 4 else 1))),x,1)
1: loop(\(x,i).(3x - (1 mod loop(\(x,i).x2,x,2))),x,1)
1: loop(\(x,i).(3x - (x mod (~3 + (x mod 2)))),x,1)
1: loop(\(x,i).(4x + 3),2,(x + ((x div 2) div 7)))
1: loop(\(x,i).((4x + 4) - ((~2x + 2) div 5)),2,x)
1: loop(\(x,i).((5 * (x mod 2)) - (x div 2)),x,1)
1: loop(\(x,i).(5x + ~1),(x + 1),(x + 1))
1: loop(\(x,i).(5x + ~1),(x + 1),x)
1: loop(\(x,i).(5x + ~1),x,3)
1: loop(\(x,i).(5x + ~1),i,2)
1: loop(\(x,i).(5x - (2x mod 5)),x,2)
1: loop(\(x,i).(~1 + (2 * (5x + (i mod 2)))),x,0)
1: loop(\(x,i).(~1 + (2 * (3x + (i mod 2)))),x,0)
1: loop(\(x,i).(~1 + (2 * (3x + (i mod 2)))),x,1)
1: loop(\(x,i).(~1 + (2 * (3x + (i mod 2)))),x,2)
1: loop(\(x,i).(x2 + 3x + ~1),2,2)
1: loop(\(x,i).((2x + 8) - (x div 2)),2,(x mod 3))
1: loop(\(x,i).(~1 + (2 * (2x + i))),x,0)
1: loop(\(x,i).((6x + 4) - ((2x + 4) div 5)),x,3)
1: loop(\(x,i).(9x + 5),x,0)
1: loop(\(x,i).(3x2 + 2x + ~1),2,(x + 1))
1: loop(\(x,i).(10x + 7),x,0)
1: loop(\(x,i).((10x + 2) - (i mod 3)),x,2)
1: loop(\(x,i).(~1 + (2 * (5x + loop(\(x,i).2x,i,1)))),x,1)
1: loop(\(x,i).(~1 + (2 * (1 + (2 * (x - (2 * (x mod ~3))))))),x,0)
1: loop(\(x,i).(49x + ~2),x,5)
1: loop(\(x,i).((8x + 2) - (i mod 3)),x,2)
1: loop(\(x,i).(4x2 + x + ~1),2,2x)
1: loop(\(x,i).(~1 + (2 * (4x + (i mod 2)))),x,0)
1: loop(\(x,i).(~x + (2 * (4x + i))),x,0)
1: loop(\(x,i).(~1 + (2 * (6x + (i mod 2)))),x,0)
1: loop(\(x,i).(~1 + (2 * (6x + loop(\(x,i).2x,i,1)))),x,1)
1: loop(\(x,i).((4x + 2) - ((x - (x div 5)) div 3)),2,x)
1: loop(\(x,i).((4x + 2) - (i mod 3)),x,2)
1: loop(\(x,i).(x3 + x + ~2),2,x)
1: loop(\(x,i).(~2 + (x * (1 + (2 * i)))),x,(x + 2))
1: loop(\(x,i).((x * (1 + (2 * i))) - loop(\(x,i).(x * i),(~1 + i),1)),x,2)
1: loop(\(x,i).(~x + ((2 + (i * i)) * i)),(x + 1),0)
1: loop(\(x,i).(~1 + (2 * ((2x div (1 + i)) + i))),x,0)
1: loop(\(x,i).(~1 + (2 * (x + (x div 2)))),x,2)
1: loop(\(x,i).(~1 + (3 * (1 + (x div (1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))))),2,x)
1: loop(\(x,i).((x * (2 + (x mod 2))) - (x div 2)),x,1)
1: loop(\(x,i).(~1 + (2 * (2x + (i mod 2)))),x,0)
1: loop(\(x,i).(~1 + (2 * (2x + (i mod 2)))),x,1)
1: loop(\(x,i).(~1 + (2 * (x + (i mod 2)))),(x + ~1),(x mod 2))
1: loop(\(x,i).(~x + (8 * (x + (i mod 2)))),x,0)
1: loop(\(x,i).(~1 + (x * (x + (if (2 - i) <= 0 then x else 1)))),x,2)
1: loop(\(x,i).(~1 + (2 * (2x + loop(\(x,i).10x,i,1)))),x,1)
1: loop(\(x,i).(~1 + (2 * (4x + loop(\(x,i).2x,i,1)))),x,1)
1: loop(\(x,i).((2x + 3) - (((2x + ~4) div (2 + (x div 4))) mod 2)),2,x)
1: loop(\(x,i).((2x + 2) - (if ((x + 1) mod (4 + (x mod (2 + (x mod 2))))) <= 0 then 2 else 1)),x,1)
1: loop(\(x,i).((2x + 2) - loop(\(x,i).2x,x,1)),1,(x div 2))
1: loop(\(x,i).((x2 + x) - (x div (2 div (~2 + (x mod 2))))),x,1)
1: loop(\(x,i).((x2 + x) - (i mod 2)),x,1)
1: loop(\(x,i).((x2 + x) - i),(2x + ~1),2)
1: loop(\(x,i).((2x + 4) - (i mod 2)),x,2)
1: loop(\(x,i).((2x + 4) - (if x <= 0 then 1 else 0)),x,0)
1: loop(\(x,i).(3x + 5),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).(3x + 5),x,2)
1: loop(\(x,i).((x2 + 4x + 4) - i),x,0)
1: loop(\(x,i).(~1 + ((x + 2) * (1 + i))),x,0)
1: loop(\(x,i).(x2 + 2x + ~2),1,loop(\(x,i).(2x + (i mod 2)),x,0))
1: loop(\(x,i).(x2 + 2x + ~2),1,loop(\(x,i).4x,(x div 2),1))
1: loop(\(x,i).(x2 + 2x + ~2),(x + 1),2)
1: loop(\(x,i).(x2 + 2x + ~2),x,2)
1: loop(\(x,i).(x2 + 2x + ~2),x,4)
1: loop(\(x,i).(x2 + 2x + ~2),x,8)
1: loop(\(x,i).(x2 + 2x + ~2),x,10)
1: loop(\(x,i).(x2 + 2x + ~4),3,x)
1: loop(\(x,i).(~x5 + x2 + 2x),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(~1 + ((x + 2) * i)),x,0)
1: loop(\(x,i).(~1 + (x * (1 + i))),(x + ~1),x)
1: loop(\(x,i).(~1 + (x * (1 + i))),x,4)
1: loop(\(x,i).(~1 + ((x * (1 + i)) + (2 * (i mod 2)))),(x + ~1),1)
1: loop(\(x,i).(1 + (x * (1 + i)) - (2 * (x mod 2))),x,0)
1: loop(\(x,i).((x * (1 + i)) - ((x + 1) div (1 + i))),x,1)
1: loop(\(x,i).((x * (1 + i)) - (((x + ~1) + i) div (1 + i))),x,1)
1: loop(\(x,i).((x * (1 + i)) - ((x div 2) mod 2)),x,2)
1: loop(\(x,i).((x * (1 + i)) - (x mod 2)),i,1)
1: loop(\(x,i).(~1 + (x * (2 + i))),x,2)
1: loop(\(x,i).(~1 + ((x * (2 + i)) + (2 * (i mod 2)))),x,0)
1: loop(\(x,i).((x * (2 + i)) - (4 div (1 + i))),x,2)
1: loop(\(x,i).((x * (2 + i)) - (x div 2)),(x + ~1),1)
1: loop(\(x,i).(~1 + (2 * (x + i))),x,0)
1: loop(\(x,i).((2 * (x + i)) - (i mod 2)),(x + ~1),0)
1: loop(\(x,i).(~x + (4 * (x + i))),(x + ~1),0)
1: loop(\(x,i).(~1 + (x * (x + i))),(x + ~1),1)
1: loop(\(x,i).(~2 + ((x + 2) * (2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),i)))),x,1)
1: loop(\(x,i).(~1 + (x * (0 - i))),2x,0)
1: loop(\(x,i).(~5x + 4),x,1)
1: loop(\(x,i).(~x2 + x + ~1),(x div 4),1)
1: loop(\(x,i).(~1 + (x * (2 - (i mod 2)))),(x + ~1),x)
1: loop(\(x,i).(~3x + 4),x,0)
1: loop(\(x,i).(~2 + ((~x + 2) * (x div 2))),x,0)
1: loop(\(x,i).(~2 + ((~x + 2) * (x div 2))),x,x)
1: loop(\(x,i).(~1 + (2 * (~3 + loop(\(x,i).10x,(x + 1),1)))),1,1)
1: loop(\(x,i).(3x2 + ~2x + ~1),2,2x)
1: loop(\(x,i).(11x + ~1),x,0)
1: loop(\(x,i).(11x + ~1),x,1)
1: loop(\(x,i).(11x + ~2),x,1)
1: loop(\(x,i).(11x + ~2),x,2)
1: loop(\(x,i).(10x + ~3),(x + 1),1)
1: loop(\(x,i).(10x + ~3),x,2)
1: loop(\(x,i).(10x + ~3),x,4)
1: loop(\(x,i).(~4x2 + 4x + ~3),2,x)
1: loop(\(x,i).(~1 + (2 * (~1 + (2 * loop(\(x,i).x2,1,(11x + 5)))))),1,1)
1: loop(\(x,i).(2x2 + ~x + ~1),(x + ~1),x)
1: loop(\(x,i).(2x2 + ~5),x,2)
1: loop(\(x,i).(~1 + (x * (~2 + (i mod 2)))),x,1)
1: loop(\(x,i).(~1 + (2 * (~2x + (i mod 2)))),x,0)
1: loop(\(x,i).(~1 + (2 * (~x + (i mod 2)))),x,0)
1: loop(\(x,i).((2 * (~x + (i mod 2))) - (x mod 3)),x,1)
1: loop(\(x,i).(~1 + (2 * (~1 + loop(\(x,i).(x2 + ~x + ~1),x,8)))),(x + 1),2)
1: loop(\(x,i).(2x + ~3),(x + ~1),0)
1: loop(\(x,i).(x2 + ~x + ~1),(x + ~2),(x + ~1))
1: loop(\(x,i).(x2 + ~x + ~1),x,3)
1: loop(\(x,i).(x2 + ~x + ~1),x,4)
1: loop(\(x,i).(x2 + ~x + ~1),x,7)
1: loop(\(x,i).(x2 + ~x + ~1),x,9)
1: loop(\(x,i).(x2 + ~x + ~1),x,6)
1: loop(\(x,i).((2x + ~4) - i),x,0)
1: loop(\(x,i).((x2 + ~4x + 4) - i),x,0)
1: loop(\(x,i).(x2 + ~2x + ~1),(x + ~1),2x)
1: loop(\(x,i).(x2 + ~2x + ~2),2,4x)
1: loop(\(x,i).(~14x + ~1),2,x2)
1: loop(\(x,i).(~21x + ~1),2,x2)
1: loop(\(x,i).(~22x + ~1),2,x2)
1: loop(\(x,i).(~6x2 + 2x + ~1),2,x)
1: loop(\(x,i).((2 * (x - i)) - i),x,0)
1: loop(\(x,i).(~2 + (x * (x - i))),2,(x + 4))
1: loop(\(x,i).((~x + 1) + (2 * (~x + i))),2x,1)
1: loop(\(x,i).(9x + ~1),2,(x + 1))
1: loop(\(x,i).(9x + ~1),x,0)
1: loop(\(x,i).(9x + ~1),x,1)
1: loop(\(x,i).(9x - loop(\(x,i).4x,(~1 + i),1)),x,1)
1: loop(\(x,i).(7x + 8),(x + 1),0)
1: loop(\(x,i).(7x + 8),(x div 2),(x mod 2))
1: loop(\(x,i).(7x + 8),x,1)
1: loop(\(x,i).(20x + ~21),x,1)
1: loop(\(x,i).(10x + ~1),x,0)
1: loop(\(x,i).(10x + ~1),x,10)
1: loop(\(x,i).(10x + ~1),x,loop(\(x,i).(10x + 10),x,0))
1: loop(\(x,i).(10x + ~1),i,i)
1: loop(\(x,i).((10x + ~1) - i),x,4)
1: loop(\(x,i).((10x + 3) - (x mod 4)),x,3)
1: loop(\(x,i).(10x - loop(\(x,i).(10x + 1),i,0)),x,1)
1: loop(\(x,i).(~x + (6 * ((x + 1) + (x div 2)))),(x div 2),(x mod 2))
1: loop(\(x,i).(3x + 16),2x,1)
1: loop(\(x,i).(75x + 49),2,1)
1: loop(\(x,i).((8x + 4) - (i mod 2)),x,0)
1: loop(\(x,i).(7x + 4),x,0)
1: loop(\(x,i).((2x * (1 + (2 * i))) - i),x,1)
1: loop(\(x,i).((10x + 10) - i),(x + 1),0)
1: loop(\(x,i).(10x + 19),x,1)
1: loop(\(x,i).(~x + (5x * (2 + i))),x,1)
1: loop(\(x,i).(~1 + (x * ((1 - (2 * (i mod 2))) * i))),x,0)
1: loop(\(x,i).(~9x + 8),x,1)
1: loop(\(x,i).(((2x + 2) * (2 - (x mod 2))) - (x mod 2)),(x div 2),(x mod 2))
1: loop(\(x,i).(6x2 + 12x + ~7),2,x)
1: loop(\(x,i).(~1 + (4 * (~1 + (2 * i)))),((x + ~1) div 2),1)
1: loop(\(x,i).(~28x + ~1),2,x2)
1: loop(\(x,i).(7x + 16),x,6)
1: loop(\(x,i).(7x + 16),x,8)
1: loop(\(x,i).(~1 + (2x * ((~1 + (2 * i)) * (1 + i)))),x,1)
1: loop(\(x,i).(~x + (i * i * i * i * i * i * i)),x,0)
1: loop(\(x,i).(8x + ~1),2,(x + 1))
1: loop(\(x,i).(8x + ~1),x,0)
1: loop(\(x,i).(8x + ~1),x,1)
1: loop(\(x,i).(8x - (2 div (x + 1))),x,1)
1: loop(\(x,i).(8x - ((if (i mod 2) <= 0 then 1 else 2x) div (1 + i))),2x,1)
1: loop(\(x,i).(8x - (i div ~2)),x,0)
1: loop(\(x,i).(8x - (if x <= 0 then 0 else 1)),2,x)
1: loop(\(x,i).(12x + ~1),x,0)
1: loop(\(x,i).(12x - (2 div (x + 1))),x,1)
1: loop(\(x,i).(x4 + x3 + ~1),x2,2)
1: loop(\(x,i).(~x + (10x * i)),x,1)
1: loop(\(x,i).(~x + (i * i * i * i * i * i)),x,1)
1: loop(\(x,i).(~x + (i * i * i * i * i)),x,0)
1: loop(\(x,i).((6 * (x mod 2)) - (x div 2)),2x,1)
1: loop(\(x,i).((2x * (x mod 2)) - (x div ~2)),x,1)
1: loop(\(x,i).((2x * (x mod 2)) - (x div ~2)),x,5)
1: loop(\(x,i).((2x * (x mod 2)) - (x div ~2)),x,7)
1: loop(\(x,i).((4 * (if (~x + 2) <= 0 then x else 2)) - (x mod 3)),(x + ~1),1)
1: loop(\(x,i).(~1 + (10 * loop(\(x,i).(5x + 2),(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),2))),1,(x2 + 1))
1: loop(\(x,i).(~1 + (6 * loop(\(x,i).(x2 + 2x + 1),x,8))),x,2)
1: loop(\(x,i).(4x + ~1),(x + 1),x)
1: loop(\(x,i).(4x + ~1),2x,1)
1: loop(\(x,i).(4x + ~1),x,5)
1: loop(\(x,i).(4x + ~1),x,loop(\(x,i).(4x + 1),x,1))
1: loop(\(x,i).((4x + ~1) - i),x,1)
1: loop(\(x,i).(4x - ((x + 1) div (1 + i))),x,1)
1: loop(\(x,i).(4x - ((x - (x div 5)) div 3)),1,i)
1: loop(\(x,i).(4x - (8 div (x + 1))),x,1)
1: loop(\(x,i).(4x - (((~1 + i) * i) div 2)),x,0)
1: loop(\(x,i).(4x - ((2 * i) div (x + 1))),2x,1)
1: loop(\(x,i).(4x - (x div 2)),2,x2)
1: loop(\(x,i).(4x - (x div 2)),x,1)
1: loop(\(x,i).(4x - (x div (1 + (if (x mod 3) <= 0 then 2 else 0)))),(x div 2),1)
1: loop(\(x,i).(4x - (x div (1 + (if (i mod 2) <= 0 then 2 else 0)))),x,1)
1: loop(\(x,i).(4x - ((~1 + i) mod 3)),x,2)
1: loop(\(x,i).(4x - (i mod 3)),(x + 1),1)
1: loop(\(x,i).(4x - (i mod 3)),x,0)
1: loop(\(x,i).(4x - (i mod 4)),(x + 1),2)
1: loop(\(x,i).(4x - (if x <= 0 then 0 else 1)),3,x)
1: loop(\(x,i).(4x - loop(\(x,i).(~2x + 1),i,0)),x,2)
1: loop(\(x,i).(4x - loop(\(x,i).(~2x + 2),i,0)),x,1)
1: loop(\(x,i).(4x - loop(\(x,i).(2 * (~2x + (x div (if i <= 0 then 1 else i)))),i,1)),x,1)
1: loop(\(x,i).(4x - loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),i,1)),x,x)
1: loop(\(x,i).(4x - i),x,1)
1: loop(\(x,i).(6x + ~1),2,x)
1: loop(\(x,i).(6x + ~1),x,1)
1: loop(\(x,i).(6x + ~2),x,1)
1: loop(\(x,i).((6x + 1) + ((~x + 1) mod 3) - (x mod 2)),x,1)
1: loop(\(x,i).((6x + 1) - ((2 * (2 + (if x <= 0 then 1 else (6x + (((x + 1) + (x mod 2)) div 5))))) div 3)),x,1)
1: loop(\(x,i).(6x - loop(\(x,i).(~2x + 1),i,1)),x,0)
1: loop(\(x,i).(~4x + ~1),2x,0)
1: loop(\(x,i).(~4x + ~1),x,(1 - (2 * (x mod 2))))
1: loop(\(x,i).(2x2 + ~1),2,loop(\(x,i).2x,x,1))
1: loop(\(x,i).(2x2 + ~1),3,x)
1: loop(\(x,i).(2x2 + ~1),(2x + 4),2)
1: loop(\(x,i).(2x2 + ~1),(x div 2),x)
1: loop(\(x,i).(2x2 + ~1),x,3)
1: loop(\(x,i).(2x2 + ~1),x,4)
1: loop(\(x,i).(2x2 + ~1),x,6)
1: loop(\(x,i).(2x2 - (x div 2)),2,3)
1: loop(\(x,i).(3x2 + ~1),2,3)
1: loop(\(x,i).(3x2 + ~1),2,5)
1: loop(\(x,i).(3x2 + ~x),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(3x2 + ~x),1,loop(\(x,i).5x,x,2))
1: loop(\(x,i).(3x2 + ~x),x,1)
1: loop(\(x,i).(4x2 + ~1),2,2x)
1: loop(\(x,i).(x3 + x2 + ~1),(2x + 2),2)
1: loop(\(x,i).(x3 + x2 + ~1),x,3)
1: loop(\(x,i).(x4 + ~1),2,4)
1: loop(\(x,i).(x3 + ~1),2,2)
1: loop(\(x,i).(x3 + ~1),2,(x + 1))
1: loop(\(x,i).(x3 + ~1),2,x)
1: loop(\(x,i).(x3 + ~1),4,(x + 1))
1: loop(\(x,i).(x3 + ~2),1,(1 + loop(\(x,i).2x,x,1)))
1: loop(\(x,i).(x3 + ~2),1,loop(\(x,i).(2x + 1),x,0))
1: loop(\(x,i).(x3 + ~2),2,2)
1: loop(\(x,i).(x3 + ~3),(2x + 2),2)
1: loop(\(x,i).((x3 + ~1) - (2 * ((2x + 1) mod 5))),2,1)
1: loop(\(x,i).(~x + ((2x + 2) * i)),x,0)
1: loop(\(x,i).(~1 + (2x * i)),x,0)
1: loop(\(x,i).(~1 + (2x * i)),x,1)
1: loop(\(x,i).((2x * i) - (x div 2)),(x + ~1),1)
1: loop(\(x,i).((2x * i) - loop(\(x,i).(x * (~1 + (2 * i))),i,1)),x,x)
1: loop(\(x,i).(1 + (3x * i) - (2 * (x mod 2))),x,1)
1: loop(\(x,i).(~x + (3x * i)),x,1)
1: loop(\(x,i).(~x + (3x * i)),i,x)
1: loop(\(x,i).((4x * i) - (x mod 2)),x,1)
1: loop(\(x,i).(~1 + (x2 * i)),2,4)
1: loop(\(x,i).(~2 + (x2 * i)),2,2x)
1: loop(\(x,i).(~x + (i * i * (1 + i))),(x + 1),0)
1: loop(\(x,i).(~x + (2 * (i * i * i))),(x + 1),1)
1: loop(\(x,i).(~1 + ((x * (i * i)) + (2 * (i mod 2)))),x,0)
1: loop(\(x,i).(1 + (x * (i * i)) - (2 * (x mod 2))),x,1)
1: loop(\(x,i).(~x + (i * i * i)),(x + 1),1)
1: loop(\(x,i).(~1 + (2 * ((x * (x + i)) div 2))),x,1)
1: loop(\(x,i).(~1 + (2 * (x2 div 2))),2x,2)
1: loop(\(x,i).(~x + (2 * (x div 3))),2,(x + 1))
1: loop(\(x,i).(~x + ((i div 2) * (~1 + i))),x,0)
1: loop(\(x,i).(~1 + (2 * ((~x + 2) mod (2 + (x mod (2 + (x div 5))))))),2,x2)
1: loop(\(x,i).((2 * (x mod 3)) - (x div 3)),2,(x + 1))
1: loop(\(x,i).(~1 + ((x + 1) * loop(\(x,i).(x2 + 1),2,3))),2,1)
1: loop(\(x,i).(~1 + (x * loop(\(x,i).(x2 + ~2),i,3))),x,2)
1: loop(\(x,i).(2x + ~1),(x + (if (x + ~1) <= 0 then x else 2)),loop(\(x,i).2x,x,1))
1: loop(\(x,i).(2x + ~1),(x + 1),12)
1: loop(\(x,i).(2x + ~1),(x + 1),16)
1: loop(\(x,i).(2x + ~1),(x + ~1),(3x2 + 2x))
1: loop(\(x,i).(2x + ~1),(x + ~1),loop(\(x,i).3x,x,1))
1: loop(\(x,i).(2x + ~1),(x + ~1),loop(\(x,i).(2x + 6),x,1))
1: loop(\(x,i).(2x + ~1),(x + ~3),x)
1: loop(\(x,i).(2x + ~1),(x2 + ~x),loop(\(x,i).(2x + 1),x,0))
1: loop(\(x,i).(2x + ~1),2x,loop(\(x,i).2x,x,1))
1: loop(\(x,i).(2x + ~1),((x + 1) div 2),(3 * (x mod 2)))
1: loop(\(x,i).(2x + ~1),(x div 2),x)
1: loop(\(x,i).(2x + ~1),(x mod 3),x)
1: loop(\(x,i).(2x + ~1),x,(3x + 3))
1: loop(\(x,i).(2x + ~1),x,32)
1: loop(\(x,i).(2x + ~1),x,56)
1: loop(\(x,i).(2x + ~1),x,loop(\(x,i).3x,x,1))
1: loop(\(x,i).(2x + ~1),x,loop(\(x,i).5x,x,1))
1: loop(\(x,i).(2x + ~1),x,loop(\(x,i).(2x + 16),x,0))
1: loop(\(x,i).(2x + ~1),x,loop(\(x,i).(2x + 2),x,1))
1: loop(\(x,i).(2x + ~1),x,loop(\(x,i).4x,x,1))
1: loop(\(x,i).(2x + ~1),x,loop(\(x,i).2x,x,1))
1: loop(\(x,i).((2x + ~2) - (4 mod (x + 1))),x,1)
1: loop(\(x,i).((2x + ~2) + (2 div (1 + (x div 2)))),x,x)
1: loop(\(x,i).((2x + ~2) + ((1 + (((2x + 2) * (2 - ((x div 4) mod 2))) div 5)) mod 2)),x,0)
1: loop(\(x,i).((2x + ~2) + ((x + 2) mod 5)),x,1)
1: loop(\(x,i).(3x - ((~1 + (2 * (i mod 2))) * (2 + i))),x,1)
1: loop(\(x,i).((2x + 1) - ((x - ((3 * ((x div 2) div 3)) div 2)) div 2)),x,1)
1: loop(\(x,i).((2x + 1) - (4 mod (1 + (x div 2)))),x,1)
1: loop(\(x,i).((2x + 1) - (loop(\(x,i).(2x + 2),x,2) mod (x + 4))),x,1)
1: loop(\(x,i).((2x + 1) - i),(x + 2),x)
1: loop(\(x,i).(2x - ((1 - (2 * (i mod 2))) * (1 + i))),x,0)
1: loop(\(x,i).(2x - ((1 - (2 * (i mod 2))) * i)),(x + ~1),0)
1: loop(\(x,i).(2x - ((~1 + (2 * (i mod 2))) * (~1 + (2 * i)))),x,1)
1: loop(\(x,i).(2x - ((i mod 2) * i)),x,1)
1: loop(\(x,i).(2x - ((x + (x div 3)) div 5)),1,x2)
1: loop(\(x,i).(2x - ((1 + i) div 3)),x,1)
1: loop(\(x,i).(2x - ((~x + ((x div 2) div 3)) div 2)),x,1)
1: loop(\(x,i).(2x - ((x - (2 * (x mod 2))) div 3)),x,2)
1: loop(\(x,i).(2x - ((~1 + i) div 4)),x,2)
1: loop(\(x,i).(2x - (((1 - (2 * (i mod 2))) * i) div 2)),x,1)
1: loop(\(x,i).(2x - (18 div (x + 1))),2x,2)
1: loop(\(x,i).(2x - ((x div 2) div 3)),x,1)
1: loop(\(x,i).(2x - ((if (i mod 2) <= 0 then 1 else 2x) div (1 + i))),(3x + 1),1)
1: loop(\(x,i).(2x - ((if (i mod 2) <= 0 then 1 else 2x) div (1 + i))),(x + 2),2)
1: loop(\(x,i).(2x - ((if (i mod 2) <= 0 then 1 else 2x) div (1 + i))),(x + ~2),(if x <= 0 then 1 else 2))
1: loop(\(x,i).(2x - ((if (i mod 2) <= 0 then 1 else 2x) div (1 + i))),(~1 + i),1)
1: loop(\(x,i).(2x - ((if (i mod 2) <= 0 then 1 else 2x) div (1 + i))),3x,1)
1: loop(\(x,i).(2x - ((if (i mod 2) <= 0 then 1 else 2x) div (1 + i))),x2,1)
1: loop(\(x,i).(2x - ((if (i mod 2) <= 0 then 1 else 2x) div (1 + i))),loop(\(x,i).2x,x,1),1)
1: loop(\(x,i).(2x - ((if (i mod 2) <= 0 then 1 else 2x) div (1 + i))),x,(x + 2))
1: loop(\(x,i).(2x - (loop(\(x,i).(x - (x div 8)),2,(x + ~1)) div 2)),x,1)
1: loop(\(x,i).(2x - (x div 4)),3,x)
1: loop(\(x,i).(2x - (x div (~1 + (3 * (x div 2))))),x,1)
1: loop(\(x,i).(2x - (x div (~2 + ((~x + 2) div 4)))),1,i)
1: loop(\(x,i).(2x - (i div ~2)),x,0)
1: loop(\(x,i).(2x - ((1 + (x div 2)) mod 4)),x,0)
1: loop(\(x,i).(2x - ((1 + i) mod (x + 1))),x,1)
1: loop(\(x,i).(2x - ((x + i) mod 2)),x,2)
1: loop(\(x,i).(2x - ((2x - (x div (if i <= 0 then 1 else i))) mod 2)),x,2)
1: loop(\(x,i).(2x - ((x - (((3 * ((~x2 + x) div 2)) div 2) div 2)) mod 2)),x,2)
1: loop(\(x,i).(2x - ((x - i) mod 3)),x,1)
1: loop(\(x,i).(2x - (((x - (((x * (x div 3)) div 2) div 3)) div 2) mod 2)),x,2)
1: loop(\(x,i).(2x - (((x * i) div 2) mod 2)),x,2)
1: loop(\(x,i).(2x - ((((x + 1) div 2) div 3) mod 2)),x,2)
1: loop(\(x,i).(2x - ((x div 2) mod 2)),2x,1)
1: loop(\(x,i).(2x - ((x div 2) mod 2)),x,1)
1: loop(\(x,i).(2x - ((i mod 3) mod 2)),x,2)
1: loop(\(x,i).(2x - (x mod 2)),2,(x + (x div 2)))
1: loop(\(x,i).(2x - (x mod 2)),(x + ~1),x)
1: loop(\(x,i).(2x - (x mod 2)),(~1 + i),i)
1: loop(\(x,i).(2x - (x mod 4)),2,2x)
1: loop(\(x,i).(2x - (x mod (1 + i))),x,2)
1: loop(\(x,i).(2x - (x mod (0 - (if i <= 0 then 1 else i)))),x,1)
1: loop(\(x,i).(2x - (i mod 2)),(x + ~1),x)
1: loop(\(x,i).(2x - (i mod 2)),(x + ~2),1)
1: loop(\(x,i).(2x - (i mod 2)),(x + ~2),x2)
1: loop(\(x,i).(2x - (i mod 2)),(x + ~2),x)
1: loop(\(x,i).(2x - (i mod 2)),x,(x + 2))
1: loop(\(x,i).(2x - (i mod 2)),x,x)
1: loop(\(x,i).(2x - (if (x mod 4) <= 0 then (x div 4) else 0)),x,1)
1: loop(\(x,i).(2x - (if (x mod (1 + i)) <= 0 then 1 else x)),x,(x + 2))
1: loop(\(x,i).(2x - (if (x mod (1 + i)) <= 0 then i else 0)),(x + ~2),x)
1: loop(\(x,i).(2x - (if (x mod 10) <= 0 then 1 else i)),x,2)
1: loop(\(x,i).(2x - (if (x mod (2 * (1 + i))) <= 0 then 1 else 0)),x,1)
1: loop(\(x,i).(2x - (if x <= 0 then 0 else 1)),(x + ~1),(x + ~2))
1: loop(\(x,i).(2x - loop(\(x,i).(x * i),i,1)),(x + ~1),1)
1: loop(\(x,i).(2x - loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(~2 + i),1)),x,1)
1: loop(\(x,i).(x2 + ~1),2,(x2 + 1))
1: loop(\(x,i).(x2 + ~1),2,(1 + loop(\(x,i).x2,x,2)))
1: loop(\(x,i).(x2 + ~1),2,4x)
1: loop(\(x,i).(x2 + ~1),2,x2)
1: loop(\(x,i).(x2 + ~1),4,2)
1: loop(\(x,i).(x2 + ~1),(x + ~1),x)
1: loop(\(x,i).(x2 + ~1),(3x + 3),(x + 2))
1: loop(\(x,i).(x2 + ~1),(x div 2),x)
1: loop(\(x,i).(x2 + ~1),i,x)
1: loop(\(x,i).(x2 + ~2),1,(10x + 5))
1: loop(\(x,i).(x2 + ~2),2,(x2 + 2))
1: loop(\(x,i).(x2 + ~2),2,(x + 2))
1: loop(\(x,i).(x2 + ~2),2x,3)
1: loop(\(x,i).(x2 + ~2),2x,4)
1: loop(\(x,i).(x2 + ~2),2x,5)
1: loop(\(x,i).(x2 + ~2),2x,6)
1: loop(\(x,i).(x2 + ~2),(x mod 3),x)
1: loop(\(x,i).(x2 + ~2),x,5)
1: loop(\(x,i).(x2 + ~2),x,8)
1: loop(\(x,i).(x2 + ~2),x,(2x + 2))
1: loop(\(x,i).(x2 + ~2),i,3)
1: loop(\(x,i).(x2 + ~3),x,3)
1: loop(\(x,i).(x2 + ~4),x,3)
1: loop(\(x,i).((x2 + 1) - loop(\(x,i).2x,x,2)),2,x)
1: loop(\(x,i).(x2 - (x div 2)),1,loop(\(x,i).2x,x,1))
1: loop(\(x,i).(x2 - (x div 2)),1,loop(\(x,i).2x,x,2))
1: loop(\(x,i).(x2 - (x div 2)),2,4x)
1: loop(\(x,i).(x2 - (x div 2)),4,2)
1: loop(\(x,i).(x2 - (x div 2)),x,2)
1: loop(\(x,i).(x2 - loop(\(x,i).(4x + 1),i,1)),2,x)
1: loop(\(x,i).(x2 - loop(\(x,i).(x * (2 + i)),i,2)),2,2x)
1: loop(\(x,i).(x2 - i),(x + ~1),1)
1: loop(\(x,i).(x2 - i),x,0)
1: loop(\(x,i).(x2 - i),x,2)
1: loop(\(x,i).(x2 - i),x,4)
1: loop(\(x,i).((2 * i) - (x * (1 + i))),x,1)
1: loop(\(x,i).((2 * i) - (2x div 3)),x,1)
1: loop(\(x,i).(~1 + (x * i)),x,0)
1: loop(\(x,i).(~1 + (x * i)),x,3)
1: loop(\(x,i).(~1 + (x * i)),x,4)
1: loop(\(x,i).(~1 + (x * i)),i,0)
1: loop(\(x,i).(~2 + (x * i)),x,0)
1: loop(\(x,i).(~4 + (x * i)),x,1)
1: loop(\(x,i).((~x + ~1) + (x * i)),(x + ~1),0)
1: loop(\(x,i).(~1 + ((x * i) + (2 * (i mod 2)))),x,0)
1: loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1)
1: loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),(x + ~2),1)
1: loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),(x + ~2),x)
1: loop(\(x,i).(1 + (x * i) - (2 * (i mod 2))),x,2)
1: loop(\(x,i).(1 + (x * i) - (2 * (i mod 2))),x,4)
1: loop(\(x,i).(1 + (x * i) - (2 * (i mod 2))),x,(x + 1))
1: loop(\(x,i).(2 + (x * i) - (x div 2)),x,1)
1: loop(\(x,i).(1 + (x * i) - (x mod 4)),x,0)
1: loop(\(x,i).(1 + (x * i) - (i mod 2)),x,0)
1: loop(\(x,i).(~6 + (x * i)),x,7x)
1: loop(\(x,i).((x * i) - (x div 8)),2,x)
1: loop(\(x,i).((x * i) - loop(\(x,i).(~1 + (x * i)),i,0)),x,0)
1: loop(\(x,i).((x * i) - loop(\(x,i).~2x,(~1 + i),1)),x,1)
1: loop(\(x,i).((x * i) - loop(\(x,i).(x * i),(~1 + i),1)),x,0)
1: loop(\(x,i).((x * i) - loop(\(x,i).(x * i),(~1 + i),1)),x,1)
1: loop(\(x,i).((i * i) - ((~x + 2) div 2)),x,0)
1: loop(\(x,i).(~x + (i * i)),(x + ~1),1)
1: loop(\(x,i).(~x + (i * i)),x,1)
1: loop(\(x,i).(~x + (2 * compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i))),x,0)
1: loop(\(x,i).(28x + (2 div (1 + i))),x,1)
1: loop(\(x,i).(~2x + (2 div (1 + i))),x,0)
1: loop(\(x,i).(((x + 1) div 2) - ((1 + (x div 3)) div 3)),2,x)
1: loop(\(x,i).(~1 + ((~x + ((~x + 2) div 4)) div 2)),2,x)
1: loop(\(x,i).(((~1 + (x div 2)) div 2) - ((~x + 1) div 3)),2,x)
1: loop(\(x,i).((~3x + ~3) + ((x - (x div 4)) div 2)),2,x)
1: loop(\(x,i).(((~1 + i) div 3) - (x mod 2)),x,0)
1: loop(\(x,i).(~1 + ((2 * ((x + 3) + ((4 * (x + ((x div 2) div 7))) div 3))) div 3)),x,0)
1: loop(\(x,i).(~x + (37x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(~x + (33x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(~1 + ((x2 + x) div 2)),2,x)
1: loop(\(x,i).(~2 + ((x2 + x) div 2)),2,x)
1: loop(\(x,i).((((x + 1) * i) div 2) - ((3 * (x div 4)) div 2)),2,x)
1: loop(\(x,i).(~x + (15x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(~x + (25x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(~x + (14x div (1 + i))),x,(x + 1))
1: loop(\(x,i).(~x + (14x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(~x + (21x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(~x + (34x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(~x + (68x div (1 + i))),x,(x + 1))
1: loop(\(x,i).(~x + (98x div (1 + i))),x,(x + 1))
1: loop(\(x,i).(~x + (22x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(~x + (55x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(~x + (62x div (1 + i))),x,(x + 1))
1: loop(\(x,i).(~x + (27x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(~x + (90x div (1 + i))),x,(x + 1))
1: loop(\(x,i).(~x + (32x div (1 + i))),x,(x + 1))
1: loop(\(x,i).(~x + (32x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(~x + (48x div (1 + i))),x,(x + 1))
1: loop(\(x,i).(~x + (48x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(~x + (16x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(~x + (24x div (1 + i))),x,(x + 1))
1: loop(\(x,i).(~x + (24x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(~x + (72x div (1 + i))),x,(x + 1))
1: loop(\(x,i).(~x + (36x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(~x + (60x div (1 + i))),x,(x + 1))
1: loop(\(x,i).(~x + (8x div (1 + i))),x,(x + 1))
1: loop(\(x,i).(~x + (12x div (1 + i))),x,(x + 1))
1: loop(\(x,i).(~x + (12x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(~x + (20x div (1 + i))),x,(x + 1))
1: loop(\(x,i).(~x + (20x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(~x + (18x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(~x + (30x div (1 + i))),x,(x + 1))
1: loop(\(x,i).(~x + (30x div (if i <= 0 then 1 else i))),x,1)
1: loop(\(x,i).(~x + (54x div (1 + i))),x,(x + 1))
1: loop(\(x,i).(~1 + (6x div (1 + i))),x,2)
1: loop(\(x,i).((~x2 + ~x) + (x3 div 2)),x,1)
1: loop(\(x,i).(~x + ((x * loop(\(x,i).(x2 + x + 2),2,2)) div (1 + i))),x,(x + 1))
1: loop(\(x,i).(~x + ((x * loop(\(x,i).(x2 + x),2,2)) div (1 + i))),x,(x + 1))
1: loop(\(x,i).(~x + ((x * loop(\(x,i).(x2 + 2x),2,2)) div (1 + i))),x,(x + 1))
1: loop(\(x,i).((2x div (1 + i)) - (x * (2 + i))),x,3)
1: loop(\(x,i).(~2 + (x div 2)),(x + ~1),(x + 4))
1: loop(\(x,i).(~2 + (x div 2)),x,2)
1: loop(\(x,i).(~1 + ((x div 2) + ((x div 2) mod (1 + (x mod 4))))),x,2x)
1: loop(\(x,i).(1 + (x div 2) - ((x div 4) div ~2)),2,x)
1: loop(\(x,i).(~x3 + (x div 2)),2,2)
1: loop(\(x,i).(~2x + (x div 2)),x,~2)
1: loop(\(x,i).(~x2 + (x div 2)),2,(x + 2))
1: loop(\(x,i).(~x2 + (x div 2)),x2,1)
1: loop(\(x,i).((x div 2) - ((x + ~1) div 3)),2,(x2 + 1))
1: loop(\(x,i).((x div (2 + (x div (1 + (x mod 4))))) - (if x <= 0 then 0 else 1)),x,(x + 1))
1: loop(\(x,i).(~3 + (x div ~2)),x,1)
1: loop(\(x,i).(~2 + (x div (~2 + (x mod 2)))),2,x)
1: loop(\(x,i).(~x + ((i div 2) + ((x + (x div 2)) div 4))),x,0)
1: loop(\(x,i).(~1 + ((i div 3) + (x div 2))),(x div 2),x)
1: loop(\(x,i).(~x + (i div (1 + (i mod 2)))),x,0)
1: loop(\(x,i).(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) - (i div 3)),2,x)
1: loop(\(x,i).(~1 + ((~2x + 2) mod (4 + (x div 4)))),2,x)
1: loop(\(x,i).(~2 + ((~2x + 2) mod (4 + (x div 4)))),2,(x + 1))
1: loop(\(x,i).(~x + (4x mod 9)),2,(x + 1))
1: loop(\(x,i).(~2x + ((x div 2) mod 3)),x,3)
1: loop(\(x,i).(~x + ((x div 3) mod 2)),3,x)
1: loop(\(x,i).((x mod 2) - ((x2 + 6x + 9) div 2)),3,x)
1: loop(\(x,i).(~1 + (x mod 3)),(x + ~2),(if ((x + 2) mod (1 + (2 * (2 + (x mod 2))))) <= 0 then 0 else 1))
1: loop(\(x,i).(~1 + (x mod 9)),(((x + 1) div 2) - ((3 * (x div 4)) div 2)),x)
1: loop(\(x,i).(~1 + (x mod (1 + (4 * (x mod 2))))),x,1)
1: loop(\(x,i).(~1 + (x mod (1 + i))),compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),1)
1: loop(\(x,i).(~2x + (i mod 2)),(x + ~1),(x mod 2))
1: loop(\(x,i).(~2x + (i mod 2)),x,0)
1: loop(\(x,i).(~2x + (i mod 2)),x,2)
1: loop(\(x,i).((i mod 2) - (x * i)),x,0)
1: loop(\(x,i).(~x + (i mod 2)),(x div 3),0)
1: loop(\(x,i).(~x + (i mod 2)),x,4)
1: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),2,x)
1: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),3,x)
1: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),28,x)
1: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(3x + 2))
1: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x2 + 2x + 5))
1: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(7x + 6))
1: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(12x + 1))
1: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(10x + ~1))
1: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(16x + ~1))
1: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(8x - (x div 2)))
1: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(6x + ~2))
1: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x2 + ~1))
1: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,13x)
1: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x2 + 2x + 2))
1: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x2 + 2x + 4))
1: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(12x + 2))
1: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(4x + 2))
1: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x2 + 4))
1: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(8x + ~2))
1: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(12x + ~2))
1: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(8x + 4))
1: loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,2x2)
1: loop(\(x,i).(~x + (if (x mod (1 + (2 * i))) <= 0 then x else 0)),(2 + (x mod 2)),x)
1: loop(\(x,i).(~1 + (if (x mod (1 + i)) <= 0 then 0 else x)),x,(x2 + 2x))
1: loop(\(x,i).(~2x + (if (x mod (1 + i)) <= 0 then 0 else x)),x,x)
1: loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),(x div 2),(x + (x mod 2)))
1: loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,(3x + 1))
1: loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,(x2 + x + 2))
1: loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,(6x + 2))
1: loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,(4x + 4))
1: loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,(2x + 12))
1: loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,(2 * ((x + 1) + (x div 2))))
1: loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,(x2 + x))
1: loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,2x2)
1: loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,x2)
1: loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,x)
1: loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),i,x)
1: loop(\(x,i).(~2 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,(2x + 1))
1: loop(\(x,i).((if x <= 0 then 0 else 1) - loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)),2,(x + 1))
1: loop(\(x,i).(~2x2 + (if x <= 0 then 1 else 0)),x,1)
1: loop(\(x,i).((if x <= 0 then 1 else 0) - (x * i)),x,1)
1: loop(\(x,i).(~2x + (if x <= 0 then 1 else 2)),x,2)
1: loop(\(x,i).(~x + (if x <= 0 then 1 else ((if x <= 0 then 1 else ~2) * (1 + (2 * i))))),x,1)
1: loop(\(x,i).(1 + (if x <= 0 then 1 else 2x) - ((1 + ((32 mod (x + 1)) div 2)) div 2)),2x,1)
1: loop(\(x,i).(~x + (if x <= 0 then 1 else (i * i))),(x + 1),1)
1: loop(\(x,i).(~9 + (if x <= 0 then 1 else x)),2,x)
1: loop(\(x,i).(~10x + (if x <= 0 then 1 else x)),2x,1)
1: loop(\(x,i).((if x <= 0 then 1 else x) - (x div 7)),4,x)
1: loop(\(x,i).((if x <= 0 then 1 else x) - ((((x2 div 5) mod (x + 1)) div 2) mod 2)),2,x)
1: loop(\(x,i).(~x + (if x <= 0 then 2 else 1)),x,3)
1: loop(\(x,i).(~x + (if x <= 0 then 2 else (loop(\(x,i).(x div (1 + (x mod 2))),x,x) - i))),x,1)
1: loop(\(x,i).(~x + (if x <= 0 then 5 else 0)),x,1)
1: loop(\(x,i).(~x + (if x <= 0 then 5 else 8)),x,x)
1: loop(\(x,i).(~x + (if x <= 0 then 7 else 0)),x,1)
1: loop(\(x,i).(~1 + (if x <= 0 then ((1 + ((1 + i) * i)) * i) else x)),x,0)
1: loop(\(x,i).(~1 + (if x <= 0 then (2 * i) else x)),x,1)
1: loop(\(x,i).(~1 + (if x <= 0 then (i div (2 - (i mod 2))) else x)),x,0)
1: loop(\(x,i).(~1 + (if x <= 0 then x else (1 + (((x + 1) div 2) div (1 + (x mod 2)))))),x,x)
1: loop(\(x,i).(~x + (if x <= 0 then i else 2)),x,x)
1: loop(\(x,i).(~1 + (if x <= 0 then i else x)),2x,0)
1: loop(\(x,i).(~1 + (if x <= 0 then i else x)),2x,1)
1: loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,1)
1: loop(\(x,i).(~1 + (if x <= 0 then i else x)),i,0)
1: loop(\(x,i).(~4x + loop(\(x,i).(3x + 1),i,1)),x,1)
1: loop(\(x,i).(~8x + loop(\(x,i).(64x + 1),i,1)),x,1)
1: loop(\(x,i).(~4x + loop(\(x,i).(16x + 1),i,1)),x,1)
1: loop(\(x,i).(11x + loop(\(x,i).(4x + 1),i,1)),x,1)
1: loop(\(x,i).(~2x + loop(\(x,i).(4x + i),i,0)),x,0)
1: loop(\(x,i).(loop(\(x,i).(1 + (2x * i)),i,1) - (x * i)),x,1)
1: loop(\(x,i).(~x + loop(\(x,i).(x + (((1 + i) div 2) * i)),(1 + i),0)),x,1)
1: loop(\(x,i).(11x + loop(\(x,i).(2x + 1),i,1)),x,1)
1: loop(\(x,i).(~x + loop(\(x,i).(x + (6x div (if i <= 0 then 1 else i))),i,1)),x,1)
1: loop(\(x,i).(~x + loop(\(x,i).(x + (x div (~1 + (2 * i)))),x,i)),x,1)
1: loop(\(x,i).(~x + loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then 2 else 0)),x,(2x + 1))),(x + ~1),1)
1: loop(\(x,i).(~x + loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then 2 else 0)),x,(2x + 1))),x,2)
1: loop(\(x,i).(~x + loop(\(x,i).(x + (if x <= 0 then 1 else (x * (1 + i - (2 * (i mod 2)))))),i,1)),x,0)
1: loop(\(x,i).(~x + loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(~x + loop(\(x,i).(x + loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),i,1)),i,1)),x,1)
1: loop(\(x,i).(~x + loop(\(x,i).(x + loop(\(x,i).x3,2,i)),i,0)),x,0)
1: loop(\(x,i).(~x + loop(\(x,i).(x + loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(~1 + i),1)),i,1)),x,1)
1: loop(\(x,i).(loop(\(x,i).(loop(\(x,i).(x * i),(~1 + i),1) + (x * i)),i,0) - (x * i)),x,0)
1: loop(\(x,i).(~x + loop(\(x,i).(loop(\(x,i).(x * i),(~1 + i),1) + (x * i)),i,0)),x,0)
1: loop(\(x,i).(~x + loop(\(x,i).(x + loop(\(x,i).(x * i),i,1)),(1 + i),1)),x,1)
1: loop(\(x,i).(~x + loop(\(x,i).((x + 1) + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)),i,1)),x,1)
1: loop(\(x,i).(~x + loop(\(x,i).(1 - (x * i)),i,1)),x,1)
1: loop(\(x,i).(~2x + loop(\(x,i).(3x + ~1),(~1 + i),1)),x,0)
1: loop(\(x,i).(~1 + loop(\(x,i).(x2 + ~1),2,x2)),x,2)
1: loop(\(x,i).(~x + loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),(~1 + i),1)),x,0)
1: loop(\(x,i).(loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),i,1) - (x * i)),x,1)
1: loop(\(x,i).((~x2 + ~x) + loop(\(x,i).(~x + (if x <= 0 then 2 else 1)),x,3)),x,1)
1: loop(\(x,i).(~1 + loop(\(x,i).(x - (x div (1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))),x,x)),x,x)
1: loop(\(x,i).(~4x + loop(\(x,i).3x,(~1 + i),1)),x,1)
1: loop(\(x,i).(~2x + loop(\(x,i).3x,(~1 + i),1)),x,0)
1: loop(\(x,i).(~2x + loop(\(x,i).3x,(~1 + i),1)),x,1)
1: loop(\(x,i).(~x + loop(\(x,i).3x,6,i)),x,1)
1: loop(\(x,i).(~4x + loop(\(x,i).3x,(2 * i),1)),2x,1)
1: loop(\(x,i).(~x + loop(\(x,i).3x,(2 * i),x)),x,1)
1: loop(\(x,i).(11x + loop(\(x,i).3x,i,1)),x,1)
1: loop(\(x,i).(loop(\(x,i).3x,i,1) - (2x * i)),x,1)
1: loop(\(x,i).(~2x + loop(\(x,i).3x,i,1)),2x,1)
1: loop(\(x,i).(~2x + loop(\(x,i).3x,i,1)),i,1)
1: loop(\(x,i).(~x + loop(\(x,i).3x,i,1)),(x + ~1),(~x + 1))
1: loop(\(x,i).(~5x + loop(\(x,i).3x,i,2)),x,1)
1: loop(\(x,i).(~x + loop(\(x,i).3x,i,(1 + i))),x,1)
1: loop(\(x,i).(~x + loop(\(x,i).3x,i,x)),x,1)
1: loop(\(x,i).(~6x + loop(\(x,i).5x,(~1 + i),1)),x,1)
1: loop(\(x,i).(~2x + loop(\(x,i).5x,(~1 + i),1)),x,0)
1: loop(\(x,i).(~x + loop(\(x,i).5x,(2 * i),x)),x,1)
1: loop(\(x,i).(11x + loop(\(x,i).5x,i,1)),x,1)
1: loop(\(x,i).(~4x + loop(\(x,i).5x,i,1)),x,1)
1: loop(\(x,i).(~x + loop(\(x,i).5x,i,x)),x,1)
1: loop(\(x,i).(~x + loop(\(x,i).(x * (3 + i)),4,x)),x,1)
1: loop(\(x,i).(~8x + loop(\(x,i).7x,(~1 + i),1)),x,1)
1: loop(\(x,i).(~6x + loop(\(x,i).7x,i,1)),x,1)
1: loop(\(x,i).(~2x + loop(\(x,i).7x,i,1)),x,1)
1: loop(\(x,i).(~x + loop(\(x,i).7x,i,x)),x,1)
1: loop(\(x,i).(~x + loop(\(x,i).(2x2 + 2),x,1)),x,1)
1: loop(\(x,i).(~x + loop(\(x,i).(x * (1 + (i div 2))),i,1)),x,0)
1: loop(\(x,i).(~1 + loop(\(x,i).(3 * (x + loop(\(x,i).2x,i,1))),(x + 1),1)),1,(x + 2))
1: loop(\(x,i).(~x + loop(\(x,i).(x2 + x),1,loop(\(x,i).2x,i,1))),x,1)
1: loop(\(x,i).(~x + loop(\(x,i).~2x,i,x)),x,1)
1: loop(\(x,i).(~x + loop(\(x,i).11x,i,x)),x,1)
1: loop(\(x,i).(~1 + loop(\(x,i).(2x2 + 4x + ~4),2,x)),(x + 1),1)
1: loop(\(x,i).(~x + loop(\(x,i).(2x2 + ~2x + ~2),i,x)),x,1)
1: loop(\(x,i).(~x + loop(\(x,i).23x,i,x)),x,1)
1: loop(\(x,i).(~2x + loop(\(x,i).(2 * (2x - (x div (1 + i)))),(~1 + i),2)),x,1)
1: loop(\(x,i).(~x + loop(\(x,i).(2 * (2x - (x div (1 + i)))),i,2)),x,1)
1: loop(\(x,i).(~1 + loop(\(x,i).(x * (~1 + (2 * i))),x,i)),x,2)
1: loop(\(x,i).(loop(\(x,i).(x * (~1 + (2 * i))),i,1) - (x * i)),x,1)
1: loop(\(x,i).((~x2 + x) + loop(\(x,i).(x2 + ~x),3,x)),1,(x + ~1))
1: loop(\(x,i).(~x + loop(\(x,i).((x + ~2) * i),i,0)),x,1)
1: loop(\(x,i).(~x + loop(\(x,i).10x,x,1)),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(loop(\(x,i).10x,i,1) - (x * i)),x,1)
1: loop(\(x,i).(~x + loop(\(x,i).10x,i,x)),x,1)
1: loop(\(x,i).(~1 + loop(\(x,i).(2x * (1 + (2 * i))),(2x + 1),2)),1,(x2 + x))
1: loop(\(x,i).(~x + loop(\(x,i).24x,i,x)),x,1)
1: loop(\(x,i).(~9x + loop(\(x,i).8x,(~1 + i),1)),x,1)
1: loop(\(x,i).(~6x + loop(\(x,i).8x,(~1 + i),1)),x,0)
1: loop(\(x,i).(11x + loop(\(x,i).8x,i,1)),x,1)
1: loop(\(x,i).(~x + loop(\(x,i).8x,i,x)),x,1)
1: loop(\(x,i).(~x + loop(\(x,i).12x,i,x)),x,1)
1: loop(\(x,i).(~x + loop(\(x,i).4x,(~1 + i),1)),(x + 2),2)
1: loop(\(x,i).(~x + loop(\(x,i).4x,(2 * i),2)),(x + 1),1)
1: loop(\(x,i).(~1 + loop(\(x,i).4x,i,2)),(x + ~2),loop(\(x,i).2x,x,1))
1: loop(\(x,i).(~6x + loop(\(x,i).4x,i,2)),x,1)
1: loop(\(x,i).(~x + loop(\(x,i).4x,i,(1 + i))),x,1)
1: loop(\(x,i).(~x + loop(\(x,i).4x,i,x)),x,1)
1: loop(\(x,i).(~4x + loop(\(x,i).6x,(~1 + i),1)),x,0)
1: loop(\(x,i).(loop(\(x,i).6x,x,1) - loop(\(x,i).7x,x,1)),x,8x)
1: loop(\(x,i).(11x + loop(\(x,i).6x,i,1)),x,1)
1: loop(\(x,i).(~5x + loop(\(x,i).6x,i,1)),x,1)
1: loop(\(x,i).(~x + loop(\(x,i).6x,i,x)),x,1)
1: loop(\(x,i).(~x + loop(\(x,i).x3,1,loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),i,1))),x,1)
1: loop(\(x,i).(~x + loop(\(x,i).(2x * i),i,1)),x,1)
1: loop(\(x,i).(~x + loop(\(x,i).(x * (i * i)),(1 + i),1)),x,1)
1: loop(\(x,i).(~x + loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),i,1)),x,1)
1: loop(\(x,i).(~x + loop(\(x,i).((2x div (if i <= 0 then 1 else i)) * (2 + i)),i,1)),x,1)
1: loop(\(x,i).(~x + loop(\(x,i).2x,(~1 + i),1)),(x div 2),(x mod 2))
1: loop(\(x,i).(~x + loop(\(x,i).2x,(~1 + i),1)),x,3)
1: loop(\(x,i).(~x2 + loop(\(x,i).2x,x,1)),1,(2 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x)))
1: loop(\(x,i).(~x2 + loop(\(x,i).2x,x,1)),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(loop(\(x,i).2x,x,1) - loop(\(x,i).((x * (1 + i)) div (1 + (i div 2))),(x + ~1),1)),1,loop(\(x,i).2x,x,1))
1: loop(\(x,i).(loop(\(x,i).2x,x,loop(\(x,i).(3x + 2),x,0)) - loop(\(x,i).3x,x,1)),1,loop(\(x,i).2x,x,1))
1: loop(\(x,i).(11x + loop(\(x,i).2x,i,1)),x,1)
1: loop(\(x,i).(~3x + loop(\(x,i).2x,i,1)),x,2)
1: loop(\(x,i).(~x2 + loop(\(x,i).2x,i,1)),x,1)
1: loop(\(x,i).(loop(\(x,i).2x,i,1) - (x div (if i <= 0 then 1 else i))),i,1)
1: loop(\(x,i).(~1 + loop(\(x,i).2x,i,2x)),x,1)
1: loop(\(x,i).(~1 + loop(\(x,i).2x,i,x2)),x,1)
1: loop(\(x,i).(~x + loop(\(x,i).2x,i,x)),x,1)
1: loop(\(x,i).(~1 + loop(\(x,i).x2,1,(if x <= 0 then 1 else (2 * (1 + ((1 + ((loop(\(x,i).(20x + ~21),x,1) div 2) div 2)) div 2)))))),x,1)
1: loop(\(x,i).(~x + loop(\(x,i).x2,1,loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),i,1))),x,1)
1: loop(\(x,i).(~2 + loop(\(x,i).x2,2,4)),(x mod 2),1)
1: loop(\(x,i).(~2 + loop(\(x,i).x2,x,2)),x,1)
1: loop(\(x,i).(~x + loop(\(x,i).x2,i,2)),x,2)
1: loop(\(x,i).(~x + loop(\(x,i).(x * i),(~1 + i),1)),x,0)
1: loop(\(x,i).(~x + loop(\(x,i).(x * i),x,1)),1,(2 + compr(\x.((~1 + loop(\(x,i).(x * i),x,1)) mod (x + 2)),x)))
1: loop(\(x,i).(~x + loop(\(x,i).(x * i),i,1)),x,0)
1: loop(\(x,i).(~x + loop(\(x,i).(x * i),i,3)),x,1)
1: loop(\(x,i).(~x + loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),i,1)),x,1)
1: loop(\(x,i).(~x + loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),i,(1 + i))),x,1)
1: loop(\(x,i).(~x + loop(\(x,i).((4x * (~1 + (2 * i))) div (1 + i)),(~1 + i),2)),x,1)
1: loop(\(x,i).(~x + loop(\(x,i).((4x * (~1 + (2 * i))) div (1 + i)),i,1)),x,1)
1: loop(\(x,i).(~x + loop(\(x,i).((4x * (~1 + (2 * i))) div (1 + i)),i,2)),x,1)
1: loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),3,x)
1: loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),x,2x)),2,(x + 1))
1: loop(\(x,i).(~1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),x,x2)
1: loop(\(x,i).(~1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),x,x)
1: loop(\(x,i).(~1 + loop(\(x,i).(x div (~2 + (x mod 2))),x,x)),(x mod 2),(x div 2))
1: loop(\(x,i).(~1 + loop(\(x,i).(x div (~2 + (x mod 2))),x,x)),x,x)
1: loop(\(x,i).(~1 + loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),(x div 2),(2x + ~1))),1,(x2 div 2))
1: loop(\(x,i).(~x + loop(\(x,i).loop(\(x,i).2x,x,(1 + (x div 2))),1,i)),x,1)
1: loop(\(x,i).(x + ~1),(1 - (((x * loop(\(x,i).(x2 div 3),2,x)) div 3) mod 3)),1)
1: loop(\(x,i).(x + ~1),(x * (i div 2)),(x + 1))
1: loop(\(x,i).(x + ~2),(~3 + (x div 2)),x)
1: loop(\(x,i).(x + ~2),(x + ~5),x)
1: loop(\(x,i).(x + ~2),(x + ~10),x)
1: loop(\(x,i).((x + ~1) + (2 * (x mod 2)) - (x div 2)),3,x)
1: loop(\(x,i).((x + ~2) - ((1 + i) * i)),x,0)
1: loop(\(x,i).(~31x + ~1),2,x2)
1: loop(\(x,i).(~23x + ~1),2,x2)
1: loop(\(x,i).(~39x + ~1),2,x2)
1: loop(\(x,i).(~7x + ~1),2,(x2 + x))
1: loop(\(x,i).(~11x + ~1),2,(x2 + x))
1: loop(\(x,i).(~11x + ~1),2,x2)
1: loop(\(x,i).(~19x + ~1),2,x2)
1: loop(\(x,i).(~29x + ~1),2,x2)
1: loop(\(x,i).((x + ~1) - (2 * ((((x + ~1) div 2) div 2) div 2))),1,i)
1: loop(\(x,i).((x + ~1) - (x * i)),x,2)
1: loop(\(x,i).(x - ((x div 4) + i)),(x + ~1),1)
1: loop(\(x,i).(x - ((x div 4) + i)),x,0)
1: loop(\(x,i).((x + ~1) - (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)),x,x)
1: loop(\(x,i).((x + ~2) - (if x <= 0 then 0 else i)),x,x)
1: loop(\(x,i).((x + ~2) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i)),x,2)
1: loop(\(x,i).((x + ~1) + (6 * ((x + 1) + (x div 2)))),x,2)
1: loop(\(x,i).(7x + 5),x,0)
1: loop(\(x,i).(11x + 9),(x + 1),0)
1: loop(\(x,i).(7x + ~1),x,0)
1: loop(\(x,i).(7x + ~1),x,1)
1: loop(\(x,i).((x + ~1) + (2x mod (2 - (x mod ~4)))),2,x)
1: loop(\(x,i).((x + ~1) + (x mod (1 + (6 * (x mod 2))))),2,x)
1: loop(\(x,i).(13x + ~2),x,1)
1: loop(\(x,i).(7x + ~2),x,1)
1: loop(\(x,i).(7x + ~2),x,2)
1: loop(\(x,i).(7x + ~2),x,3)
1: loop(\(x,i).(7x + ~2),x,4)
1: loop(\(x,i).((x + ~2) + ((x div 4) mod 2)),2,x)
1: loop(\(x,i).((9x + 1) - (i mod 2)),x,1)
1: loop(\(x,i).((5x + 1) - (i mod 2)),x,1)
1: loop(\(x,i).((7x + 1) - (i mod 2)),x,1)
1: loop(\(x,i).((3x + 1) - (i mod 2)),i,1)
1: loop(\(x,i).((2x + 1) - loop(\(x,i).3x,i,1)),i,1)
1: loop(\(x,i).(2x + loop(\(x,i).3x,i,1) - i),x,1)
1: loop(\(x,i).((x + 1) - (2 * (~x - ((x div 4) mod 2)))),x,1)
1: loop(\(x,i).((x + 1) - (2 * ((x div 2) - (2 * (x div 5))))),2,x)
1: loop(\(x,i).((x + 1) - (2 * (~4x + (x mod 2)))),x,0)
1: loop(\(x,i).((x + 1) - (2 * (~2x + (x mod 2)))),x,1)
1: loop(\(x,i).((x + 1) - (2 * (~2x + (x mod 2)))),i,1)
1: loop(\(x,i).((x + 1) - (2 * (~2x + i))),x,1)
1: loop(\(x,i).((x + 1) - (4 * (~2x + (x div 2)))),x,1)
1: loop(\(x,i).(29x + 1),x,0)
1: loop(\(x,i).(~7x + 1),12x,1)
1: loop(\(x,i).(~7x + 1),x,1)
1: loop(\(x,i).(~7x + 1),i,1)
1: loop(\(x,i).(~7x + loop(\(x,i).3x,(2 * i),1)),x,1)
1: loop(\(x,i).(~11x + 1),9x,1)
1: loop(\(x,i).(~11x + 1),10x,1)
1: loop(\(x,i).(~11x + 1),12x,1)
1: loop(\(x,i).(~11x + 1),x,1)
1: loop(\(x,i).(~11x + 1),i,1)
1: loop(\(x,i).((x + 1) - (2 * ((4 * (x + (if (~2 + (x div 2)) <= 0 then 1 else 2))) div 3))),1,(x div 2))
1: loop(\(x,i).(x + (x mod 3) - (2 * (x mod 2))),2,x)
1: loop(\(x,i).((x + 1) - (i * i)),x,1)
1: loop(\(x,i).((x + 2) - (i * i)),x,2)
1: loop(\(x,i).(2x - (i * i)),x,0)
1: loop(\(x,i).((x + 1) - ((1 + (2 * (x div 3))) div 3)),2,x)
1: loop(\(x,i).((x + 1) - ((((x - ((x mod 3) div 2)) div 2) + (x mod 2)) div 2)),2,x)
1: loop(\(x,i).((x + 1) + (2x div 3) - ((1 + (x div 2)) div 2)),x,0)
1: loop(\(x,i).((x + 1) - ((x + 1) div 5)),2,2x)
1: loop(\(x,i).(x + (x mod 8) - ((x + 1) div 5)),x,2)
1: loop(\(x,i).((x + 1) - ((~2x + 1) div 5)),2,x)
1: loop(\(x,i).((x + 1) - ((1 - (x div 2)) div 3)),(x + ~1),1)
1: loop(\(x,i).((x + 1) - ((~x + 1) div (6 + (x mod 2)))),x,1)
1: loop(\(x,i).((x + 1) - ((~x + 1) div (2 + (x div 2)))),2,x)
1: loop(\(x,i).((x + 1) - ((~x + 1) div (2 + (x div 2)))),5,x)
1: loop(\(x,i).((x + 1) - ((~x + 1) div (2 + (x div 4)))),x,0)
1: loop(\(x,i).((x + 2) - ((~x + 1) div (2 + (x div 4)))),1,i)
1: loop(\(x,i).((x + 1) - ((~x + 1) div (1 + i))),x,0)
1: loop(\(x,i).((x + 1) - ((~x + 1) div (2 + i))),x,0)
1: loop(\(x,i).((x + 1) - ((~x + 1) div (2 - (x div ~4)))),x,1)
1: loop(\(x,i).((x + 1) - ((~x + 2) div 5)),x,1)
1: loop(\(x,i).((x + 1) - ((~x + 2) div (4 + (x mod 2)))),x,0)
1: loop(\(x,i).((x + 2) - ((~x + 2) div (2 + i))),(x + 1),1)
1: loop(\(x,i).((x + 2) - ((~x + 2) div (2 + i))),x,1)
1: loop(\(x,i).((x + 1) - ((~x + 2) div 8)),x,2)
1: loop(\(x,i).((x + 1) - (((~x + ~1) + (2 * (x mod 2))) div 5)),x,1)
1: loop(\(x,i).((x + 1) - ((~x + (i mod 2)) div 4)),x,1)
1: loop(\(x,i).((x + 1) - ((~x + (if (i mod 2) <= 0 then 2 else 0)) div 5)),x,1)
1: loop(\(x,i).((x + 1) - ((x - (x div (1 + ((x div 2) div 3)))) div 2)),2,x)
1: loop(\(x,i).((x + 1) - (~x2 div 8)),2,x)
1: loop(\(x,i).((x + 1) - ((~4x + 2) div (x + 3))),2,x)
1: loop(\(x,i).((x + 1) - ((~2x + 2) div 7)),2x,1)
1: loop(\(x,i).((x + 1) - ((~2x + 4) div 9)),(x + ~2),1)
1: loop(\(x,i).((x + 1) - ((2x + ~2) div (2 + (x div 2)))),2,x)
1: loop(\(x,i).((x + 1) - ((((~x + 2) div 2) * i) div 5)),2,x)
1: loop(\(x,i).((x + 1) - (((~x + 2) div 2) div 3)),x,1)
1: loop(\(x,i).((x + 1) - (((x - ((x mod 3) div 2)) div 2) div 2)),2,x)
1: loop(\(x,i).((x + 1) - (((x div 2) div ~2) div 2)),x,1)
1: loop(\(x,i).((x + 1) - ((x div 4) div ~2)),2,x)
1: loop(\(x,i).((x + 1) - (((2x + 2) mod (2 + (x div 2))) div 2)),x,x)
1: loop(\(x,i).((x + 1) - ((if (x + ~4) <= 0 then 1 else x) div 3)),2,x)
1: loop(\(x,i).(x + (6 * (x mod 2)) - (x div 2)),x,1)
1: loop(\(x,i).((x + 1) - (x div (6 - (x mod 2)))),2,x)
1: loop(\(x,i).(x + (2 * i) - (x div (1 + (2 * i)))),x,1)
1: loop(\(x,i).(x + (2 * i) - (x div (1 + (2 * i)))),x,2)
1: loop(\(x,i).(x + (4x div (2 + i)) - (x div (1 + i))),x,1)
1: loop(\(x,i).((x + 1) - (x div (~1 - i))),x,0)
1: loop(\(x,i).((x + 1) - (x div (~3 - i))),x,0)
1: loop(\(x,i).((x + 2) - (x div ~5)),4,(x + ~1))
1: loop(\(x,i).((x + 1) - (x div (~1 + ((1 - (2 * (x div 3))) div 3)))),x,2)
1: loop(\(x,i).((x + 1) - (x div (~2 + ((~x + 2) div 4)))),x,0)
1: loop(\(x,i).((x + 1) - (x div (~2 + (((~x + 2) div 2) div 3)))),x,2)
1: loop(\(x,i).((x + 1) - (x div (~1 + (i div ~2)))),x,2)
1: loop(\(x,i).((x + 1) - (~2 mod (1 + (x div 4)))),2,x)
1: loop(\(x,i).((x + 1) - ((x - (x div 4)) mod 2)),2,x)
1: loop(\(x,i).((x + 1) - (((2x + ~4) div (2 + (x div 4))) mod 2)),x,x)
1: loop(\(x,i).((x + 1) - (((x + 1) mod (1 - (x mod ~7))) mod 2)),2,x)
1: loop(\(x,i).((x + 2) - ((x mod (2 + (x mod 5))) mod 2)),x,0)
1: loop(\(x,i).((x + 1) - (x mod (1 + (2 * (2 + (x mod 2)))))),x,x)
1: loop(\(x,i).((x + 1) - (x mod (2 + (x div 8)))),x,x)
1: loop(\(x,i).((7x + 2) - (i mod 2)),x,2)
1: loop(\(x,i).((5x + 2) - (i mod 2)),x,2)
1: loop(\(x,i).((3x + 2) - (i mod 2)),x,2)
1: loop(\(x,i).(3x - (i mod 2)),x,0)
1: loop(\(x,i).(3x - (i mod 2)),x,1)
1: loop(\(x,i).(x + (x * i) - (if (i mod 2) <= 0 then ~2 else 2)),x,1)
1: loop(\(x,i).((x + 1) - (if x <= 0 then 0 else (i * i))),x,x)
1: loop(\(x,i).((x + 1) - (if x <= 0 then 1 else (if (x mod (1 + ((x + ~1) mod 9))) <= 0 then 2 else 0))),x,x)
1: loop(\(x,i).((x + 1) - (if x <= 0 then 1 else (if (x mod (2 + ((x2 div 2) mod (x + 2)))) <= 0 then 2 else 0))),x,x)
1: loop(\(x,i).((x + 2) - loop(\(x,i).(x + 2),(x + ~1),~3)),2x,x)
1: loop(\(x,i).((x + 1) - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + (i div 3)))),x,x)),2,x)
1: loop(\(x,i).((x + 1) - loop(\(x,i).3x,i,x)),x,0)
1: loop(\(x,i).(7x - loop(\(x,i).2x,(~1 + i),1)),x,1)
1: loop(\(x,i).((x + 1) - loop(\(x,i).2x,i,x)),x,0)
1: loop(\(x,i).(5x - i),x,0)
1: loop(\(x,i).(5x - i),x,1)
1: loop(\(x,i).(7x - i),x,1)
1: loop(\(x,i).(x + (2x * i) - i),x,1)
1: loop(\(x,i).(x + (2 * (i * i)) - i),(x + 2),0)
1: loop(\(x,i).(x + (2 * (i * i)) - i),(1 + i),x)
1: loop(\(x,i).(x + (2 * (i * i)) - i),(x + ~1),x)
1: loop(\(x,i).(x + (2 * (i * i)) - i),i,0)
1: loop(\(x,i).(x + (4 * (i * i)) - i),x,0)
1: loop(\(x,i).(3x - i),(x + ~1),x)
1: loop(\(x,i).(3x - i),x,1)
1: loop(\(x,i).(3x - i),x,2)
1: loop(\(x,i).(x + (x div 4) - i),x,(x + 1))
1: loop(\(x,i).(x + (x div 12) - i),x,0)
1: loop(\(x,i).(x + (x mod 4) - i),x,1)
1: loop(\(x,i).(x + loop(\(x,i).2x,i,1) - i),i,x)
1: loop(\(x,i).(x + loop(\(x,i).(x * i),i,1) - i),x,1)
1: loop(\(x,i).(2x - i),(x + ~1),x)
1: loop(\(x,i).(2x - i),x,2x)
1: loop(\(x,i).(2x - i),i,i)
1: loop(\(x,i).(x + compr(\x.(loop(\(x,i).(2x + 1),x,0) mod (x + 1)),i) - i),x,1)
1: loop(\(x,i).(x - (2 * (4x + i))),2,(x2 + x))
1: loop(\(x,i).(x - (2 * (x + loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(~2 + i),1)))),x,1)
1: loop(\(x,i).(x - (2 * (1 - (2 * (x + (i mod 2)))))),x,0)
1: loop(\(x,i).(5x + ~2),x,2)
1: loop(\(x,i).(5x + ~2),x,4)
1: loop(\(x,i).(5x + ~2),x,6)
1: loop(\(x,i).(7x + ~3),(x + 1),5)
1: loop(\(x,i).(7x + ~3),2x,1)
1: loop(\(x,i).(7x + ~3),2x,5)
1: loop(\(x,i).(7x + ~3),x,1)
1: loop(\(x,i).(7x + ~3),x,3)
1: loop(\(x,i).(7x + ~3),x,5)
1: loop(\(x,i).(11x + ~5),x,1)
1: loop(\(x,i).(11x + ~5),x,3)
1: loop(\(x,i).(11x + ~5),x,4)
1: loop(\(x,i).(11x + ~5),x,5)
1: loop(\(x,i).(5x + ~4),x,12)
1: loop(\(x,i).(5x + ~4),x,loop(\(x,i).2x,x,1))
1: loop(\(x,i).(x - ((~2x + 2) * i)),x,0)
1: loop(\(x,i).(2x3 + ~3x),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(x - ((2 - (x mod 2)) * (x div 3))),2,x)
1: loop(\(x,i).(5x + ~8),x,1)
1: loop(\(x,i).(2x2 + ~3x),2,2x)
1: loop(\(x,i).(11x + ~4),x,2)
1: loop(\(x,i).(7x + ~4),x,1)
1: loop(\(x,i).(x - (2 * ((~x + ~1) + i))),2x,2)
1: loop(\(x,i).(3x + ~64),x,0)
1: loop(\(x,i).(~6x2 + 3x),2,x)
1: loop(\(x,i).(x - ((~1 + (2 * (x div (2 + i)))) * i)),x,1)
1: loop(\(x,i).(x - (3 * (~2 + (x div 2)))),x,(x + 1))
1: loop(\(x,i).(x - (2 * (~x + (i div 2)))),x,1)
1: loop(\(x,i).(x - (3 * (~2x + (x mod 2)))),x,1)
1: loop(\(x,i).(x - (3 * (~2x + (i mod 2)))),x,0)
1: loop(\(x,i).(x - (2 * (~x + (i mod 2)))),x,2)
1: loop(\(x,i).(x - (2 * (~x + (i mod 2)))),x,3)
1: loop(\(x,i).(x - (4 * (~x + (i mod 2)))),x,1)
1: loop(\(x,i).(x - (2 * (~x + (if (i mod 3) <= 0 then 2 else 0)))),x,1)
1: loop(\(x,i).(x - (2 * (~4x + loop(\(x,i).2x,i,1)))),x,1)
1: loop(\(x,i).(x - (x * (i - (8 * (1 + i))))),x,1)
1: loop(\(x,i).(x - (2 * (~2x + i))),x,1)
1: loop(\(x,i).(x - (2 * (~x + i))),x,x)
1: loop(\(x,i).(x - (2 * (~x + i))),i,1)
1: loop(\(x,i).~9x,(~1 + i),1)
1: loop(\(x,i).(30x2 + x),x,1)
1: loop(\(x,i).(13x + ~6),x,1)
1: loop(\(x,i).(21x + ~10),x,5)
1: loop(\(x,i).(7x + ~6),x,12)
1: loop(\(x,i).(11x + ~10),x,8)
1: loop(\(x,i).(6x2 + ~5x),2,x)
1: loop(\(x,i).(4x2 + ~3x),2,x)
1: loop(\(x,i).(x - (3x * (2 - (3 * i)))),x,1)
1: loop(\(x,i).(13x + ~8),x,1)
1: loop(\(x,i).(~11x2 + x),2,6x)
1: loop(\(x,i).(x - (2x * (~2 + (i mod 2)))),x,1)
1: loop(\(x,i).29x,(2x + 1),1)
1: loop(\(x,i).29x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),1)
1: loop(\(x,i).29x,x,1)
1: loop(\(x,i).(8x2 + ~3x),2,x)
1: loop(\(x,i).(x - (4 * (x - (2x * i)))),x,1)
1: loop(\(x,i).~7x,2x,2)
1: loop(\(x,i).~11x,(2x + 4),1)
1: loop(\(x,i).~11x,2x,3)
1: loop(\(x,i).~29x,2x,1)
1: loop(\(x,i).(x - (9 * (x div ~2))),2,x)
1: loop(\(x,i).(~2x2 + x),2,(x + ~2))
1: loop(\(x,i).(~2x2 + x),2,3x)
1: loop(\(x,i).(~3x2 + x),2,2x)
1: loop(\(x,i).(~4x2 + x),2,2)
1: loop(\(x,i).(x3 + ~x2 + x),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(x3 + ~x2 + x),1,loop(\(x,i).10x,(2x + 2),1))
1: loop(\(x,i).(~x4 + x),2,2)
1: loop(\(x,i).(x - (2x * i)),(x + ~1),1)
1: loop(\(x,i).(x - (2x * i)),(2 * i),x)
1: loop(\(x,i).(x - (2x * i)),(x div 2),1)
1: loop(\(x,i).(x - (2x * i)),x,1)
1: loop(\(x,i).(x - (2x * i)),i,1)
1: loop(\(x,i).(x - (3x * i)),x,1)
1: loop(\(x,i).(x - (x * (i * (~1 + i)))),x,1)
1: loop(\(x,i).(x - (5 * ((~x2 + x) div 2))),2,x)
1: loop(\(x,i).(x - (5 * ((~x2 + x) div 2))),x,(if x <= 0 then 1 else 2))
1: loop(\(x,i).(x - (7 * ((~x2 + x) div 2))),2,x)
1: loop(\(x,i).(x - (2 * (x div 3))),2,(x + ~1))
1: loop(\(x,i).(x - (3 * (x div 4))),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(x - (2 * (x div (4 + ((x div 2) mod 5))))),2,(x + ~1))
1: loop(\(x,i).(x - ((x div (1 + i)) * i)),2,x)
1: loop(\(x,i).(x - (3 * (x div (~2 + (x mod ~2))))),x,1)
1: loop(\(x,i).(x - (2 * (x mod 10))),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(x - (2 * (if (x + ~1) <= 0 then x else 2))),(1 + (x div 2)),(x + ~2))
1: loop(\(x,i).(x - (2 * (if (x + ~1) <= 0 then x else 2))),(x div 2),(x + ~2))
1: loop(\(x,i).(x - (i * i)),x,(~1 + loop(\(x,i).2x,x,2)))
1: loop(\(x,i).(x - (((4x div (1 + i)) + i) div ~3)),x,1)
1: loop(\(x,i).(x - ((1 + ((x * (x div 2)) div 4)) div 2)),2,x)
1: loop(\(x,i).(x - (((x div 2) + i) div 4)),x,0)
1: loop(\(x,i).(x - ((1 + (x mod (1 + (2 * (if (x mod 2) <= 0 then 1 else (x div 4)))))) div 3)),2,x)
1: loop(\(x,i).(x - ((x + (if (x mod 3) <= 0 then 2 else 1)) div 4)),2,x)
1: loop(\(x,i).(x - ((x + 1) div 7)),2,x)
1: loop(\(x,i).(x - ((x + 2) div (~2 + (x mod 2)))),x,1)
1: loop(\(x,i).(x - ((x + i) div (~2 + (((~x + 2) div 2) div 3)))),2,x)
1: loop(\(x,i).(x - ((~1 - (2 * (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))) div 5)),x,0)
1: loop(\(x,i).(x - ((0 - (((x div 2) + i) div 2)) div 3)),x,1)
1: loop(\(x,i).(x - (((~x + 1) - i) div 5)),x,1)
1: loop(\(x,i).(x - (((~2x + ~1) + (x div 7)) div 3)),x,1)
1: loop(\(x,i).(x - ((~10x + 1) div (1 + i))),x,1)
1: loop(\(x,i).(x - ((1 - (x div 2)) div 3)),x,9)
1: loop(\(x,i).(x - ((1 - (x div 2)) div 3)),x,8)
1: loop(\(x,i).(x - ((1 - (x div 2)) div 3)),x,18)
1: loop(\(x,i).(x - ((1 - loop(\(x,i).(2 + (x mod (1 + i))),x,2)) div 5)),x,1)
1: loop(\(x,i).(x - ((2 - (x * ((x + ~1) mod 3))) div 2)),x,1)
1: loop(\(x,i).(x - ((2 - ((x div 2) div (1 + ((x + ~1) mod 3)))) div 2)),x,1)
1: loop(\(x,i).(x - ((~x + 2) div 5)),x,x)
1: loop(\(x,i).(x - ((~x + 2) div 7)),x,8)
1: loop(\(x,i).(x - (((~x + 2) - (i div 2)) div 5)),x,1)
1: loop(\(x,i).(x - (((~x + ~1) + (x div 3)) div 3)),(x + ~1),0)
1: loop(\(x,i).(x - (((~x + ~1) + (x div 3)) div 3)),x,1)
1: loop(\(x,i).(x - ((~x + ((~x + 1) div 3)) div 5)),x,1)
1: loop(\(x,i).(x - ((~x + ((~x + 2) div 2)) div 4)),x,1)
1: loop(\(x,i).(x - ((~1 + ((~x + ((x div 4) mod 2)) div 2)) div 2)),x,1)
1: loop(\(x,i).(x - ((~x + ((x div 2) div 7)) div 2)),x,1)
1: loop(\(x,i).(x - ((~2 + (x div 2)) div 3)),x,x)
1: loop(\(x,i).(x - (((x div 3) - i) div 2)),x,1)
1: loop(\(x,i).(x - ((~1 + (x div ~2)) div 3)),(x + ~2),1)
1: loop(\(x,i).(x - ((~1 + (x div (~3 + (x mod ~2)))) div 2)),x,1)
1: loop(\(x,i).(x - ((~x + ((x div 2) mod 2)) div 2)),x,1)
1: loop(\(x,i).(x - ((~x + ((x div 2) mod 2)) div 2)),x,3)
1: loop(\(x,i).(x - ((((x div 3) mod 2) - (if x <= 0 then 1 else x)) div 2)),x,0)
1: loop(\(x,i).(x - ((~x + (x mod 2)) div 3)),x,2)
1: loop(\(x,i).(x - ((~x + (i mod 2)) div 2)),x,1)
1: loop(\(x,i).(x - ((x + ~1) div (3 + (x div 2)))),2,x)
1: loop(\(x,i).(x - ((x + ~2) div (2 + (x div 2)))),2,x)
1: loop(\(x,i).(x - (~7x div (1 + i))),x,1)
1: loop(\(x,i).(x - (~11x div (1 + i))),x,1)
1: loop(\(x,i).(x - ((x - ((x mod 3) div 2)) div 2)),2,x)
1: loop(\(x,i).(x - ((x - (((x + 1) * (2 - ((x div 2) mod 2))) mod 3)) div 2)),2,x)
1: loop(\(x,i).(x - ((i - (x div 2)) div 2)),x,1)
1: loop(\(x,i).(x - (3x div (~1 - i))),x,1)
1: loop(\(x,i).(x - (5x div (~1 - i))),(x + 1),1)
1: loop(\(x,i).(x - (5x div (~1 - i))),x,1)
1: loop(\(x,i).(x - ((2x + 4) div ~7)),x,4)
1: loop(\(x,i).(x - (((2 + i) * i) div (~x + ~1))),x,1)
1: loop(\(x,i).(x - ((~2x + 4) div 7)),x,8)
1: loop(\(x,i).(x - ((2x + ~4) div (x + 4))),2,x)
1: loop(\(x,i).(x - (4x div (~1 - i))),(x + 1),1)
1: loop(\(x,i).(x - ((~x2 * i) div 2)),2,x)
1: loop(\(x,i).(x - ((2 * (2x div 3)) div 3)),2,x)
1: loop(\(x,i).(x - (2x div 7)),2,x)
1: loop(\(x,i).(x - (x2 div (x + 16))),2,(if x <= 0 then 1 else x))
1: loop(\(x,i).(x - ((i * i) div ~7)),x,0)
1: loop(\(x,i).(x - ((i * i) div ~4)),x,0)
1: loop(\(x,i).(x - (((0 - ((x + 1) * (x + (x div 2)))) div 2) div 2)),x,1)
1: loop(\(x,i).(x - ((((~x + 2) - i) div 2) div 3)),x,1)
1: loop(\(x,i).(x - (((x - ((x + 2) div (2 + (x mod 2)))) div 2) div 2)),2,x)
1: loop(\(x,i).(x - (((x - ((~1 + (x div 2)) div 2)) div 2) div 2)),2,x)
1: loop(\(x,i).(x - (((x - ((x2 + ~x) div 8)) div 2) div 2)),2,x)
1: loop(\(x,i).(x - (((x - (x2 div 4)) div 2) div 5)),2,x)
1: loop(\(x,i).(x - (((~x2 + x) div 2) div 3)),1,(2x2 + ~x))
1: loop(\(x,i).(x - (((x2 + ~x) div 2) div (x + 3))),3,(x + ~1))
1: loop(\(x,i).(x - (((3 * (x div ~4)) div 2) div 2)),x,1)
1: loop(\(x,i).(x - (((x div (~2 + (x mod ~2))) div 2) div 2)),x,1)
1: loop(\(x,i).(x - ((((2 - (x div 2)) mod (x + 2)) div 2) div 2)),2,x)
1: loop(\(x,i).(x - ((x div 2) div (1 + i))),2,(x + 1))
1: loop(\(x,i).(x - ((x mod (1 + (x div 3))) div 2)),x,x)
1: loop(\(x,i).(x - ((if (x mod 3) <= 0 then x else (~x + 1)) div 3)),2,x)
1: loop(\(x,i).(x - ((if x <= 0 then 1 else (2 * (2 + ((x + ~1) div 13)))) div 2)),1,(x + ~1))
1: loop(\(x,i).(x - ((if x <= 0 then 1 else x) div (~2 + (x mod ~2)))),x,0)
1: loop(\(x,i).(x - ((if x <= 0 then (x + ~1) else (x * i)) div 5)),(x + ~2),x)
1: loop(\(x,i).(x - ((if x <= 0 then (x + ~1) else i) div 3)),x,1)
1: loop(\(x,i).(x - (loop(\(x,i).4x,i,x) div 2)),x,1)
1: loop(\(x,i).(x - (x div 4)),2,(x + 1))
1: loop(\(x,i).(x - (x div 4)),4,(x + 1))
1: loop(\(x,i).(x - (x div 5)),2,(1 + (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))))
1: loop(\(x,i).(x - (x div (3 + i))),x,(x + 1))
1: loop(\(x,i).(x - (x div (4 + i))),2,x)
1: loop(\(x,i).(x - (x div 7)),(x div 3),x)
1: loop(\(x,i).(x - (x div 9)),6,x)
1: loop(\(x,i).(x - (x div (1 + (5 * i)))),2,x)
1: loop(\(x,i).(x - (x div (1 + ((2 + i) * i)))),2,(x + 1))
1: loop(\(x,i).(x - (x div (1 + (2 * i)))),2,(x + 1))
1: loop(\(x,i).(x - (x div (1 + (2 * i)))),x,x)
1: loop(\(x,i).(x - (x div (2 + (if (x mod 2) <= 0 then 2 else i)))),x,x)
1: loop(\(x,i).(x - (x div (1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))),2,x)
1: loop(\(x,i).(x - (x div (1 + i))),3,x)
1: loop(\(x,i).(x - (x div (2 + i))),2,(x div 2))
1: loop(\(x,i).(x - (x div ~2)),(x div 2),1)
1: loop(\(x,i).(x - (x div (1 - (2 * (2 + (x mod 5)))))),x,1)
1: loop(\(x,i).(x - (x div ~4)),x,2)
1: loop(\(x,i).(x - (x div (~2 - (i mod 4)))),x,1)
1: loop(\(x,i).(x - (x div ~5)),x,3)
1: loop(\(x,i).(x - (x div ~5)),x,10)
1: loop(\(x,i).(x - (x div (~x + 16))),x,x)
1: loop(\(x,i).(x - (x div (~2 + ((x div 2) div ~2)))),x,1)
1: loop(\(x,i).(x - (x div (~2 + ((x div 2) mod ~2)))),x,1)
1: loop(\(x,i).(x - (x div (~2 + (x mod 2)))),x,(if x <= 0 then 1 else 2))
1: loop(\(x,i).(x - (x div (~2 + (x mod ~2)))),(x + ~1),1)
1: loop(\(x,i).(x - (x div (~2 + (i mod 2)))),x,2)
1: loop(\(x,i).(x - (x div (~2 + (i mod 2)))),x,(1 + (x mod 2)))
1: loop(\(x,i).(x - (x div 8)),2,x)
1: loop(\(x,i).(x - (x div 8)),3,(x + ~2))
1: loop(\(x,i).(x - (x div 8)),6,x)
1: loop(\(x,i).(x - (x div 8)),(x div 2),x)
1: loop(\(x,i).(x - (x div 12)),3,(x + 1))
1: loop(\(x,i).(x - (x div 12)),x,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))
1: loop(\(x,i).(x - (x div ~8)),x,1)
1: loop(\(x,i).(x - (x div ~6)),(x + ~1),2)
1: loop(\(x,i).(x - (x div ~12)),2,x)
1: loop(\(x,i).(x - (x div (if i <= 0 then 1 else (2 * i)))),x,x)
1: loop(\(x,i).(x - (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))),1,(x2 + 2x))
1: loop(\(x,i).(x - (4 mod (x + 2))),2,x)
1: loop(\(x,i).(x - ((1 + (loop(\(x,i).2x,x,2) mod (x + 2))) mod 2)),2,x)
1: loop(\(x,i).(x - ((x + 1) mod (1 + (x div (2 + (3 * (x mod 2))))))),x,x)
1: loop(\(x,i).(x - ((x - ((~1 + (x div 4)) div 2)) mod 2)),2,x)
1: loop(\(x,i).(x - ((~1 + i) mod 13)),(x + 1),2)
1: loop(\(x,i).(x - ((x2 div (x - ((~x + 2) div 2))) mod 2)),2,x)
1: loop(\(x,i).(x - ((loop(\(x,i).(x * i),x,x) mod (x + 1)) mod 2)),2,x)
1: loop(\(x,i).(x - ((x mod 6) mod (1 + (x div 2)))),2,x)
1: loop(\(x,i).(x - (loop(\(x,i).(~x2 + 1),2,4) mod (x + 1))),2,x)
1: loop(\(x,i).(x - (loop(\(x,i).2x,(x div 2),2) mod (x + 1))),x,x)
1: loop(\(x,i).(x - (loop(\(x,i).((x2 + x) div 2),2,3x) mod (x + 1))),x,x)
1: loop(\(x,i).(x - (x mod (3 + i))),2,x)
1: loop(\(x,i).(x - (x mod 9)),1,loop(\(x,i).2x,x,1))
1: loop(\(x,i).(x - (x mod (1 + (2 * i)))),3,(x + 1))
1: loop(\(x,i).(x - (x mod (1 + ((x2 + ~x + 2) div (x + 3))))),2,x)
1: loop(\(x,i).(x - (x mod (1 + (x div 5)))),2,(x + 1))
1: loop(\(x,i).(x - (x mod (1 + (x div (1 + i))))),2,x)
1: loop(\(x,i).(x - (if (~x + 2) <= 0 then (2 + i) else 0)),x,x)
1: loop(\(x,i).(x - (if (~x + 2) <= 0 then (2 + i) else 1)),x,x)
1: loop(\(x,i).(x - (if ((~x + 2) + i) <= 0 then i else 1)),x,x)
1: loop(\(x,i).(x - (if ((~x + ~1) + i) <= 0 then i else 0)),x,x)
1: loop(\(x,i).(x - (if (~2 + (x div 2)) <= 0 then 0 else 1)),2,((x + 1) div 2))
1: loop(\(x,i).(x - (if (~2 + (x div 2)) <= 0 then 0 else 1)),4,x)
1: loop(\(x,i).(x - (if (~2 + (x div 2)) <= 0 then 0 else 1)),8,x)
1: loop(\(x,i).(x - (if (~2 + (x div 2)) <= 0 then 0 else 1)),((x + 1) div 2),x)
1: loop(\(x,i).(x - (if (x + ~1) <= 0 then 2 else (x div (2 - (x mod 2))))),x,(x + 1))
1: loop(\(x,i).(x - (if (x + ~7) <= 0 then (2 + i) else 1)),x,x)
1: loop(\(x,i).(x - (if (x - ((if (x mod 2) <= 0 then 1 else i) + i)) <= 0 then 1 else 0)),x,x)
1: loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),4,x)
1: loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),2x,x2)
1: loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,(x + 2))
1: loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,2x)
1: loop(\(x,i).(x - (if (x div 3) <= 0 then ~8x else 1)),x,1)
1: loop(\(x,i).(x - (if ((x + 5) mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x)
1: loop(\(x,i).(x - (if ((x + 4) mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x)
1: loop(\(x,i).(x - (if ((x + 2) mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x)
1: loop(\(x,i).(x - (if ((x + 2) mod (2 + i)) <= 0 then 0 else 1)),x,x)
1: loop(\(x,i).(x - (if (16 mod (x + 1)) <= 0 then 0 else 2)),x,x)
1: loop(\(x,i).(x - (if (x mod 2) <= 0 then ((if x <= 0 then 2 else x) div 2) else 1)),x,(x + 1))
1: loop(\(x,i).(x - (if (x mod 2) <= 0 then ((if x <= 0 then 2 else x) div 2) else 1)),x,x)
1: loop(\(x,i).(x - (if (x mod 2) <= 0 then ((x div 4) mod 2) else 1)),3,x)
1: loop(\(x,i).(x - (if (x mod 2) <= 0 then i else 1)),(x div 4),x)
1: loop(\(x,i).(x - (if (x mod 5) <= 0 then (5 * (1 - (2 * (x mod 2)))) else 0)),1,(x + 1))
1: loop(\(x,i).(x - (if (x mod (3 + i)) <= 0 then 2 else 1)),x,(x + 2))
1: loop(\(x,i).(x - (if (x mod (3 + i)) <= 0 then x else 3)),x,(x + 2))
1: loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,(x + 1))
1: loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,3x)
1: loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,(x + ~1))
1: loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else x)),x,(x + 2))
1: loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else x)),x,2x)
1: loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 2 else 0)),x,(2x + 1))
1: loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 2 else 0)),x,x)
1: loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 2 else 1)),x,(x + 2))
1: loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then x else 5)),x,x)
1: loop(\(x,i).(x - (if (x mod (2 + i)) <= 0 then 2 else 1)),x,2x)
1: loop(\(x,i).(x - (if (x mod (2 * (1 + i))) <= 0 then 1 else 0)),x,i)
1: loop(\(x,i).(x - (if (if ((x + (x div 2)) mod 4) <= 0 then x else 0) <= 0 then 1 else 0)),x,x)
1: loop(\(x,i).(x - (if (if (x mod (1 + i)) <= 0 then x else 0) <= 0 then 1 else (~1 + i))),x,x)
1: loop(\(x,i).(x - (if x <= 0 then 0 else (1 + (3 * (i * (1 + i)))))),x,x)
1: loop(\(x,i).(x - (if x <= 0 then 0 else (1 + (i div 3)))),x,x)
1: loop(\(x,i).(x - (if x <= 0 then 0 else (1 + (if (x + ~1) <= 0 then x else i)))),x,(x + ~1))
1: loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),2x,x2)
1: loop(\(x,i).(x - (if x <= 0 then 0 else (2 + i))),x,(x + ~1))
1: loop(\(x,i).(x - (if x <= 0 then 0 else (~1 + (2 * (((1 + (x div 2)) div 2) mod 2))))),2,x)
1: loop(\(x,i).(x - (if x <= 0 then 0 else (~1 + loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)))),x,x)
1: loop(\(x,i).(x - (if x <= 0 then 0 else (i - ((~1 + i) mod 6)))),x,x)
1: loop(\(x,i).(x - (if x <= 0 then 0 else (~x + i))),x,x)
1: loop(\(x,i).(x - (if x <= 0 then 0 else (if (x mod 3) <= 0 then 1 else ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)))),2,x)
1: loop(\(x,i).(x - (if x <= 0 then 0 else loop(\(x,i).((x + 1) + ((x + (x mod 2)) div 3)),i,1))),x,x)
1: loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,(x + 1))
1: loop(\(x,i).(x - (if x <= 0 then 0 else i)),i,x)
1: loop(\(x,i).(x - (if x <= 0 then 1 else (1 + (2 * (1 + i))))),x,2x)
1: loop(\(x,i).(x - (if x <= 0 then 1 else (1 + (2 * (i div 2))))),x,x)
1: loop(\(x,i).(x - (if x <= 0 then 1 else (1 + (i * i)))),x,x)
1: loop(\(x,i).(x - (if x <= 0 then 1 else (1 + (i div 2)))),x,x)
1: loop(\(x,i).(x - (if x <= 0 then 1 else (1 + loop(\(x,i).(x - (if (x mod (2 * (1 + i))) <= 0 then 1 else 0)),x,i)))),x,x)
1: loop(\(x,i).(x - (if x <= 0 then 1 else (1 - (((x2 + 1) div (1 + (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))) mod 3)))),x,x)
1: loop(\(x,i).(x - (if x <= 0 then 1 else (~1 + ((2x + 1) mod (2 - ((~x + 2) div 5)))))),x,x)
1: loop(\(x,i).(x - (if x <= 0 then 1 else (~1 + ((1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)) mod 3)))),x,(x + 1))
1: loop(\(x,i).(x - (if x <= 0 then 1 else (x - ((if x <= 0 then 2 else loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 2)))),(x + ~1),x)
1: loop(\(x,i).(x - (if x <= 0 then 1 else (x - (if x <= 0 then 1 else ((2x * (~1 + (2 * i))) div (2 + i)))))),1,x)
1: loop(\(x,i).(x - (if x <= 0 then 1 else (x - (if x <= 0 then 1 else loop(\(x,i).(if (x * i) <= 0 then 1 else (x + ~1)),i,x))))),x,x)
1: loop(\(x,i).(x - (if x <= 0 then 1 else (x - loop(\(x,i).(x - (if x <= 0 then 0 else i)),i,x)))),x,(x + 1))
1: loop(\(x,i).(x - (if x <= 0 then 1 else (x - loop(\(x,i).(if x <= 0 then 1 else loop(\(x,i).(x - (if x <= 0 then 1 else (x - (if x <= 0 then 1 else ((2x * (~1 + (2 * i))) div (2 + i)))))),1,x)),2,x)))),x,x)
1: loop(\(x,i).(x - (if x <= 0 then 1 else (i - ((x + (x div 3)) div 5)))),x,x)
1: loop(\(x,i).(x - (if x <= 0 then 1 else (2 * (1 + (i div 2))))),x,x)
1: loop(\(x,i).(x - (if x <= 0 then 1 else (11 * i))),2,(x + 1))
1: loop(\(x,i).(x - (if x <= 0 then 1 else (2 * (if (~x + i) <= 0 then i else x)))),x,x)
1: loop(\(x,i).(x - (if x <= 0 then 1 else (2 * i))),x,(x + ~2))
1: loop(\(x,i).(x - (if x <= 0 then 1 else (i * i))),x,(x + ~1))
1: loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - ((x * (x div 2)) mod 2))))),x,x)
1: loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(x - (if x <= 0 then 1 else (x2 mod (1 + (4x * (x mod 2)))))),x,x)
1: loop(\(x,i).(x - (if x <= 0 then 1 else (if ((x mod 3) div 2) <= 0 then x else ((x + 1) div 2)))),x,(x + 1))
1: loop(\(x,i).(x - (if x <= 0 then 1 else (if (x div 3) <= 0 then x else (if (x mod (2 + (x mod 2))) <= 0 then 1 else x)))),x,x)
1: loop(\(x,i).(x - (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else 19))),x,(x + 1))
1: loop(\(x,i).(x - (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else (1 + ((if ((x + ~1) mod 3) <= 0 then 1 else x) * (x mod 2)))))),x,x)
1: loop(\(x,i).(x - (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else (1 + (9 * loop(\(x,i).(x div (1 + (x mod 2))),x,x)))))),x,x)
1: loop(\(x,i).(x - (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else (2 + (if (~x + 2) <= 0 then x else 0))))),x,x)
1: loop(\(x,i).(x - (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else ((x + ~1) + loop(\(x,i).x2,2,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))))),x,x)
1: loop(\(x,i).(x - (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else (if (~x + 2) <= 0 then (2 + (x div 2)) else 1)))),x,x)
1: loop(\(x,i).(x - (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else loop(\(x,i).i,((~1 + (x div 2)) div 2),1)))),(x + 1),(x + 1))
1: loop(\(x,i).(x - (if x <= 0 then 1 else (if (x mod 2) <= 0 then (if x <= 0 then 2 else ~1) else (1 + (x div 2))))),x,x)
1: loop(\(x,i).(x - (if x <= 0 then 1 else (if (x mod (1 + (2 * i))) <= 0 then x else 0))),x,x)
1: loop(\(x,i).(x - (if x <= 0 then 1 else loop(\(x,i).(2 - ((if x <= 0 then 1 else x) mod 2)),(x mod 2),(x div 2)))),x,(x + 1))
1: loop(\(x,i).(x - (if x <= 0 then 1 else loop(\(x,i).(x - (x div (1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))),2,x))),x,x)
1: loop(\(x,i).(x - (if x <= 0 then 1 else loop(\(x,i).(x - (if x <= 0 then 1 else (~1 + ((2x + 1) mod (2 - ((~x + 2) div 5)))))),x,x))),2,x)
1: loop(\(x,i).(x - (if x <= 0 then 1 else loop(\(x,i).(x mod 2),(x mod 2),(x div 2)))),x,x)
1: loop(\(x,i).(x - (if x <= 0 then 2 else (1 + loop(\(x,i).3x,(2 * i),1)))),x,x)
1: loop(\(x,i).(x - (if x <= 0 then (2 - i) else 1)),x,2)
1: loop(\(x,i).(x - (if x <= 0 then (x - ((i div 2) + i)) else 1)),x,0)
1: loop(\(x,i).(x - loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then i else 0)),x,(x + 1))),1,2x)
1: loop(\(x,i).(x - loop(\(x,i).(~1 + (((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3) + (if x <= 0 then 0 else 1))),1,i)),x,1)
1: loop(\(x,i).(x - loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),i,x)),x,2)
1: loop(\(x,i).(x - loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,0)),x,3x)
1: loop(\(x,i).(x - loop(\(x,i).((x + ~1) - (if x <= 0 then 0 else i)),x,x)),x,1)
1: loop(\(x,i).(x - loop(\(x,i).(x - (x div (1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))),x,x)),2,x)
1: loop(\(x,i).(x - loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,(x + 1))),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(x - loop(\(x,i).(x - (if x <= 0 then 1 else (2 * i))),x,x)),1,(3x + 2))
1: loop(\(x,i).(x - loop(\(x,i).(x - (if x <= 0 then 1 else (2 * i))),x,x)),1,(2x + 2))
1: loop(\(x,i).(x - loop(\(x,i).((x + ~1) * i),i,0)),(x + ~1),x)
1: loop(\(x,i).(x - loop(\(x,i).((x + ~1) * i),i,0)),x,0)
1: loop(\(x,i).(x - loop(\(x,i).((x + ~1) * i),i,0)),x,1)
1: loop(\(x,i).(x - loop(\(x,i).(((x + 1) - i) * i),i,0)),x,0)
1: loop(\(x,i).(x - loop(\(x,i).2x,(1 + ((x + ~2) div (2 + (x div 2)))),1)),2,(x + 1))
1: loop(\(x,i).(x - loop(\(x,i).2x,(~1 + (if x <= 0 then 0 else i)),1)),x,x)
1: loop(\(x,i).(x - loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(~2 + i),1)),x,1)
1: loop(\(x,i).(x - loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(~2 + i),2)),x,1)
1: loop(\(x,i).(x - loop(\(x,i).i,(~4 + (x div 2)),x)),2,x)
1: loop(\(x,i).(x - i),(1 + (x div 2) - (2 * (x mod 2))),1)
1: loop(\(x,i).(x - i),(x + 1),loop(\(x,i).2x,x,1))
1: loop(\(x,i).(x - i),(x div 4),x)
1: loop(\(x,i).(x - i),(x div 5),x)
1: loop(\(x,i).(x - i),(x mod 10),x)
1: loop(\(x,i).(x - i),x,loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,1))
1: loop(\(x,i).(x - i),x,loop(\(x,i).(x + i),(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),0))
1: loop(\(x,i).(x - i),x,loop(\(x,i).3x,x,1))
1: loop(\(x,i).(x - i),x,loop(\(x,i).2x,x,(if x <= 0 then 1 else 2)))
1: loop(\(x,i).(~1 + i),(x - i),x)
1: loop(\(x,i).(~2 + i),(x + ~9),1)
1: loop(\(x,i).(~2 + i),((x + i) div 2),1)
1: loop(\(x,i).(~2 + i),((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2),1)
1: loop(\(x,i).(~2 + i),(x mod 6),1)
1: loop(\(x,i).(~x + i - ((x div 2) mod 2)),x,1)
1: loop(\(x,i).((14x + 1) + i),x,1)
1: loop(\(x,i).((3x + ~3) + i),x,1)
1: loop(\(x,i).((x2 + ~x) + i),x2,1)
1: loop(\(x,i).(i - (x * (1 - i))),x,1)
1: loop(\(x,i).(i - (x * (1 - i))),i,1)
1: loop(\(x,i).((2x + ~4) + i),(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1)
1: loop(\(x,i).((2x + ~4) + i),x,(x + 1))
1: loop(\(x,i).(i - (2 * (~x + (x div 3)))),x,2)
1: loop(\(x,i).(~2x + i),x,0)
1: loop(\(x,i).(~2x + i),x,1)
1: loop(\(x,i).(~2x + i),x,((x + 1) mod 2))
1: loop(\(x,i).(i - (x * i)),6,x)
1: loop(\(x,i).(i - (~24x div (x + 1))),x,1)
1: loop(\(x,i).(i - ((x + ~1) div 2)),(x + ~1),x)
1: loop(\(x,i).(i - (x div (~2 + (x mod 2)))),x,0)
1: loop(\(x,i).(i - ((1 + (x div (2 + (x mod (2 + (x mod 2)))))) mod (x + 1))),x,1)
1: loop(\(x,i).(i - ((1 + i) mod (x + 1))),(x + ~2),0)
1: loop(\(x,i).(i - ((1 + i) mod (x + 1))),i,0)
1: loop(\(x,i).(i - (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),2,2x)
1: loop(\(x,i).(i - loop(\(x,i).(~2 + (x * i)),x,0)),x,0)
1: loop(\(x,i).(~x + i),((x + 1) + (x div 4)),1)
1: loop(\(x,i).(~x + i),(1 + ((x2 + 2x) div 4)),1)
1: loop(\(x,i).(~x + i),(x + ~1),2)
1: loop(\(x,i).(~x + i),(x mod 3),2)
1: loop(\(x,i).(~x + i),x,(x + 1))
1: loop(\(x,i).(~x + i),x,~2)
1: loop(\(x,i).(~x + i),x,~22)
1: loop(\(x,i).(~x + i),x,~3)
1: loop(\(x,i).(~x + i),i,1)
1: loop(\(x,i).(~x + compr(\x.(loop(\(x,i).(2x + 1),x,0) mod (x + 1)),i)),x,0)
1: loop(\(x,i).((~x + 1) + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)),x,1)
1: loop(\(x,i).((~x + 1) + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)),x,2)
1: loop(\(x,i).3x,2,(if (x mod 2) <= 0 then 4 else 1))
1: loop(\(x,i).3x,3,(x2 + x + 2))
1: loop(\(x,i).3x,5,2)
1: loop(\(x,i).3x,5,(x + 1))
1: loop(\(x,i).3x,((((1 + (8 mod (1 + (x div 2)))) div 2) + (if x <= 0 then 0 else 1)) - (x mod 2)),1)
1: loop(\(x,i).3x,(3x + 2),1)
1: loop(\(x,i).3x,(5x + 4),1)
1: loop(\(x,i).3x,(5x + 2),1)
1: loop(\(x,i).3x,(5x + 2),3)
1: loop(\(x,i).3x,(6x + 2),1)
1: loop(\(x,i).3x,(2x + 1),(2x + 1))
1: loop(\(x,i).3x,(1 + (3x div (x + 4))),1)
1: loop(\(x,i).3x,(x + (x div 2)),3)
1: loop(\(x,i).3x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),1)
1: loop(\(x,i).3x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),(x + 1))
1: loop(\(x,i).3x,(2x + (x div 11)),1)
1: loop(\(x,i).3x,(1 + ((x * (x div 3)) mod (1 + ((2 - (x div 2)) mod 4)))),1)
1: loop(\(x,i).3x,(1 + (x mod 2)),(4 - (x mod 4)))
1: loop(\(x,i).3x,(x + (x mod 2)),(x + 1))
1: loop(\(x,i).3x,(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 1))),1)
1: loop(\(x,i).3x,(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,x)),1)
1: loop(\(x,i).3x,(x + 1),(x + 5))
1: loop(\(x,i).3x,(x + 1),(x2 + x + 1))
1: loop(\(x,i).3x,(x + 1),(x2 + 2x + 2))
1: loop(\(x,i).3x,(x + 1),(x + 2))
1: loop(\(x,i).3x,(x + 1),((x3 + 9x2 + 20x + 12) div 2))
1: loop(\(x,i).3x,(x + 1),(if x <= 0 then 1 else 4))
1: loop(\(x,i).3x,(x + 1),loop(\(x,i).((x + 2) + i),x,2))
1: loop(\(x,i).3x,(x + 1),loop(\(x,i).(2x + (i mod 2)),x,2))
1: loop(\(x,i).3x,(1 + i),i)
1: loop(\(x,i).3x,(2 + i),x)
1: loop(\(x,i).3x,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1)
1: loop(\(x,i).3x,(0 - ((~x + 2) div (2 + (x div 2)))),1)
1: loop(\(x,i).3x,(0 - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)),1)
1: loop(\(x,i).3x,(1 - ((~x + 2) div (2 - (x div ~4)))),1)
1: loop(\(x,i).3x,(2 - ((~x + 2) div (2 + (x div 2)))),1)
1: loop(\(x,i).3x,(2 - (x div 2)),1)
1: loop(\(x,i).3x,(2 - ((x + 1) mod (1 + (2 * (2 - (x mod ~4)))))),1)
1: loop(\(x,i).3x,(~x + 2),(3 + (if x <= 0 then 0 else 2)))
1: loop(\(x,i).3x,((x + ~1) + (x2 div 4)),1)
1: loop(\(x,i).3x,(~4 + (x div 2)),1)
1: loop(\(x,i).3x,(~1 + (2 * (2x div 3))),1)
1: loop(\(x,i).3x,(2x + ~1),1)
1: loop(\(x,i).3x,(2x + ~1),x)
1: loop(\(x,i).3x,(~1 + (2 * i)),2)
1: loop(\(x,i).3x,(~1 + (2 * i)),x)
1: loop(\(x,i).3x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),2)
1: loop(\(x,i).3x,(~1 + ((x * (~1 + (x mod 3))) div 2)),1)
1: loop(\(x,i).3x,(~5 + (x div 2)),1)
1: loop(\(x,i).3x,((x div 2) - ((3 * (x div (4 - ((x * (x div 2)) mod 2)))) div 2)),1)
1: loop(\(x,i).3x,((x div 2) - (x mod 2)),2)
1: loop(\(x,i).3x,(~1 + (if x <= 0 then 2 else x)),1)
1: loop(\(x,i).3x,(x + ~1),2)
1: loop(\(x,i).3x,(x + ~1),4)
1: loop(\(x,i).3x,(x + ~1),(x + 2))
1: loop(\(x,i).3x,(x + ~1),(~1 + ((1 + (x div (2 - (x mod 2)))) mod 3)))
1: loop(\(x,i).3x,(x + ~1),(loop(\(x,i).4x,x,1) - loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,1)))
1: loop(\(x,i).3x,(x + ~1),5x)
1: loop(\(x,i).3x,(x + ~1),(x div 2))
1: loop(\(x,i).3x,(x + ~1),loop(\(x,i).((x + 1) - (2 * (~2x + (x mod 2)))),x,0))
1: loop(\(x,i).3x,(x + ~1),loop(\(x,i).(2x + 2),x,0))
1: loop(\(x,i).3x,(x + ~1),loop(\(x,i).(x2 + x),1,loop(\(x,i).(x * i),x,1)))
1: loop(\(x,i).3x,(x + ~1),loop(\(x,i).x2,1,(3 * loop(\(x,i).12x,(x + ~1),1))))
1: loop(\(x,i).3x,(x + ~2),1)
1: loop(\(x,i).3x,(x + ~2),(3 * (2 + (if x <= 0 then 1 else 2))))
1: loop(\(x,i).3x,(x + ~4),2)
1: loop(\(x,i).3x,(x - ((4 * (x div 3)) div 3)),1)
1: loop(\(x,i).3x,(x - ((~x3 + x2) div 5)),1)
1: loop(\(x,i).3x,(x - (((~x3 + 3x2 + ~2x) div 2) div 3)),1)
1: loop(\(x,i).3x,(~1 + i),2x)
1: loop(\(x,i).3x,(~2 + i),1)
1: loop(\(x,i).3x,6,(x + 1))
1: loop(\(x,i).3x,6,i)
1: loop(\(x,i).3x,3x,3)
1: loop(\(x,i).3x,3x,(1 + (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))))
1: loop(\(x,i).3x,5x,3)
1: loop(\(x,i).3x,(6x + 4),1)
1: loop(\(x,i).3x,(10x + 8),1)
1: loop(\(x,i).3x,(10x + 2),1)
1: loop(\(x,i).3x,(10x + 4),1)
1: loop(\(x,i).3x,(2 * (1 + (x * (x + (if (x mod 2) <= 0 then 2 else 0))))),1)
1: loop(\(x,i).3x,(8x + 2),1)
1: loop(\(x,i).3x,(4x + 2),1)
1: loop(\(x,i).3x,(10x + 5),3)
1: loop(\(x,i).3x,(x3 + 2x),1)
1: loop(\(x,i).3x,(2 * ((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1))),1)
1: loop(\(x,i).3x,(x2 * (1 + (x mod (1 + ((~x + 2) mod 4))))),1)
1: loop(\(x,i).3x,(2x + 2),3)
1: loop(\(x,i).3x,(2x + 2),loop(\(x,i).(10x + 5),(x + 1),0))
1: loop(\(x,i).3x,(2x + 2),x)
1: loop(\(x,i).3x,(x2 + x),1)
1: loop(\(x,i).3x,(x2 + 3x + 2),1)
1: loop(\(x,i).3x,(2 * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))),3)
1: loop(\(x,i).3x,(8x + 6),1)
1: loop(\(x,i).3x,(x2 + ~x),1)
1: loop(\(x,i).3x,(2x + ~4),x)
1: loop(\(x,i).3x,4x,3)
1: loop(\(x,i).3x,2x2,1)
1: loop(\(x,i).3x,2x2,loop(\(x,i).10x,x,1))
1: loop(\(x,i).3x,2x2,loop(\(x,i).8x,x,1))
1: loop(\(x,i).3x,x3,1)
1: loop(\(x,i).3x,(2 * (x div 2)),2)
1: loop(\(x,i).3x,2x,5)
1: loop(\(x,i).3x,2x,(2x + 1))
1: loop(\(x,i).3x,2x,(1 + (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))))
1: loop(\(x,i).3x,2x,(x + 1))
1: loop(\(x,i).3x,2x,(~1 + loop(\(x,i).4x,x,2)))
1: loop(\(x,i).3x,2x,(~1 + loop(\(x,i).2x,x,2)))
1: loop(\(x,i).3x,2x,(2x + 4))
1: loop(\(x,i).3x,2x,loop(\(x,i).(6x + 2),2x,0))
1: loop(\(x,i).3x,2x,loop(\(x,i).(x + (10x div (if i <= 0 then 1 else i))),x,1))
1: loop(\(x,i).3x,2x,loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,1))
1: loop(\(x,i).3x,2x,loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),x,1))
1: loop(\(x,i).3x,2x,loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1))
1: loop(\(x,i).3x,2x,loop(\(x,i).(x2 + 4x + 4),2,1))
1: loop(\(x,i).3x,2x,loop(\(x,i).10x,x2,1))
1: loop(\(x,i).3x,2x,loop(\(x,i).8x,x2,1))
1: loop(\(x,i).3x,2x,loop(\(x,i).x3,2,x))
1: loop(\(x,i).3x,x2,loop(\(x,i).(3x + 1),x,1))
1: loop(\(x,i).3x,x2,loop(\(x,i).4x,x,1))
1: loop(\(x,i).3x,(2 * i),2)
1: loop(\(x,i).3x,(2 * i),(1 + i))
1: loop(\(x,i).3x,(2 * i),x)
1: loop(\(x,i).3x,((1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + ~1) div 2))) div 2),1)
1: loop(\(x,i).3x,((2x + 1) div (3 + (x div 4))),1)
1: loop(\(x,i).3x,((x + (x div 4)) div 2),1)
1: loop(\(x,i).3x,((1 + i) div 2),1)
1: loop(\(x,i).3x,((~1 + i) div 2),1)
1: loop(\(x,i).3x,((x3 + 8x2 + x + 8) div 2),1)
1: loop(\(x,i).3x,((4x2 + 2x) div 3),1)
1: loop(\(x,i).3x,((4 * (x div 3)) div 3),1)
1: loop(\(x,i).3x,(x2 div 2),1)
1: loop(\(x,i).3x,(x2 div 3),1)
1: loop(\(x,i).3x,((x div ~4) div ~2),1)
1: loop(\(x,i).3x,(x div 2),((2x + 1) + (x mod 2)))
1: loop(\(x,i).3x,(x div 2),(1 + (2 * (2 - (x mod 2)))))
1: loop(\(x,i).3x,(x div 2),(1 + (4 * (x mod 2))))
1: loop(\(x,i).3x,(x div 2),(1 + (6 * (x mod 2))))
1: loop(\(x,i).3x,(x div 2),(x div 3))
1: loop(\(x,i).3x,(x div 2),loop(\(x,i).(~x + 2),x,3))
1: loop(\(x,i).3x,(x div 2),loop(\(x,i).(2x - ((if (i mod 2) <= 0 then 1 else 2x) div (1 + i))),x,2))
1: loop(\(x,i).3x,(x div 2),i)
1: loop(\(x,i).3x,(x div 4),1)
1: loop(\(x,i).3x,(x2 mod 7),1)
1: loop(\(x,i).3x,(((x + ~1) div 2) mod 4),1)
1: loop(\(x,i).3x,(if x <= 0 then 1 else ((3 * (x div 4)) div 2)),1)
1: loop(\(x,i).3x,loop(\(x,i).(3x + 2),((x + ~1) div 3),x),1)
1: loop(\(x,i).3x,loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1)
1: loop(\(x,i).3x,x,5)
1: loop(\(x,i).3x,x,(1 + (loop(\(x,i).3x,x,1) + loop(\(x,i).2x,x,1))))
1: loop(\(x,i).3x,x,(1 + (loop(\(x,i).(x2 + x),1,loop(\(x,i).2x,x,1)) + loop(\(x,i).3x,x,1))))
1: loop(\(x,i).3x,x,(1 + loop(\(x,i).(4x + 2),x,2) - loop(\(x,i).2x,x,2)))
1: loop(\(x,i).3x,x,7)
1: loop(\(x,i).3x,x,(x + 8))
1: loop(\(x,i).3x,x,13)
1: loop(\(x,i).3x,x,(x2 + 2x + 1))
1: loop(\(x,i).3x,x,19)
1: loop(\(x,i).3x,x,17)
1: loop(\(x,i).3x,x,(2x + 1))
1: loop(\(x,i).3x,x,(x2 + 1))
1: loop(\(x,i).3x,x,(2 + (x div 4)))
1: loop(\(x,i).3x,x,(1 + (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))))
1: loop(\(x,i).3x,x,(1 + (if (x + ~1) <= 0 then x else 2)))
1: loop(\(x,i).3x,x,(loop(\(x,i).3x,x,1) + loop(\(x,i).(2x + 1),x,0)))
1: loop(\(x,i).3x,x,(3 + loop(\(x,i).5x,(x + 1),2)))
1: loop(\(x,i).3x,x,(1 + loop(\(x,i).2x,x,2)))
1: loop(\(x,i).3x,x,(x + 1))
1: loop(\(x,i).3x,x,(x + 2))
1: loop(\(x,i).3x,x,(1 - (2 * (2x div 3))))
1: loop(\(x,i).3x,x,11)
1: loop(\(x,i).3x,x,(loop(\(x,i).(3x + ~1),x,1) - loop(\(x,i).2x,x,1)))
1: loop(\(x,i).3x,x,(loop(\(x,i).(3x + ~3),x,2) - loop(\(x,i).2x,x,1)))
1: loop(\(x,i).3x,x,(~1 + loop(\(x,i).2x,x,2)))
1: loop(\(x,i).3x,x,(~1 + loop(\(x,i).2x,x,(if (x mod 2) <= 0 then 1 else loop(\(x,i).(2x + 2),x,0)))))
1: loop(\(x,i).3x,x,(x2 + 7x + 6))
1: loop(\(x,i).3x,x,(2 * (1 + loop(\(x,i).(x2 + ~x),1,loop(\(x,i).x2,x,2)))))
1: loop(\(x,i).3x,x,(2x + 4))
1: loop(\(x,i).3x,x,(x2 + 3x + 2))
1: loop(\(x,i).3x,x,x2)
1: loop(\(x,i).3x,x,((1 + loop(\(x,i).(x * i),(x + ~1),1)) div 2))
1: loop(\(x,i).3x,x,((x2 + 3x + 2) div 2))
1: loop(\(x,i).3x,x,(loop(\(x,i).(x + ((5 + i) * i)),(x + 1),0) div 2))
1: loop(\(x,i).3x,x,(loop(\(x,i).((x + (x div 2)) * (x div 2)),1,loop(\(x,i).3x,x,3)) div 2))
1: loop(\(x,i).3x,x,(if (~x + 2) <= 0 then 2 else 1))
1: loop(\(x,i).3x,x,(if (x + ~2) <= 0 then loop(\(x,i).(x * (2 + (i mod 2))),x,1) else 0))
1: loop(\(x,i).3x,x,(if x <= 0 then 1 else 2))
1: loop(\(x,i).3x,x,(if x <= 0 then 2 else 1))
1: loop(\(x,i).3x,x,loop(\(x,i).(4x + 1),x,1))
1: loop(\(x,i).3x,x,loop(\(x,i).(2x + 1),x,0))
1: loop(\(x,i).3x,x,loop(\(x,i).(1 + (x * i)),x,1))
1: loop(\(x,i).3x,x,loop(\(x,i).(4x + loop(\(x,i).(3x + 1),i,1)),x,1))
1: loop(\(x,i).3x,x,loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),x,1))
1: loop(\(x,i).3x,x,loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1))
1: loop(\(x,i).3x,x,loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),x,1))
1: loop(\(x,i).3x,x,loop(\(x,i).(3x + ~1),x,2))
1: loop(\(x,i).3x,x,loop(\(x,i).7x,x,(1 + (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))))
1: loop(\(x,i).3x,x,loop(\(x,i).(2x + 2),x,1))
1: loop(\(x,i).3x,x,loop(\(x,i).10x,x,2))
1: loop(\(x,i).3x,x,loop(\(x,i).4x,x2,1))
1: loop(\(x,i).3x,x,loop(\(x,i).x3,x,10))
1: loop(\(x,i).3x,i,2)
1: loop(\(x,i).3x,i,(i * i * i))
1: loop(\(x,i).3x,compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),3)
1: loop(\(x,i).(3 * i),(x + ~2),1)
1: loop(\(x,i).(3 * i),(x + ~8),1)
1: loop(\(x,i).(3 * i),((1 + ((x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) div 2)) div 2),1)
1: loop(\(x,i).(4x + 4),(x + 1),(4x + 4))
1: loop(\(x,i).(4x + 4),((x + 1) div 2),((x + 1) mod 2))
1: loop(\(x,i).(4x + 4),(x div 2),1)
1: loop(\(x,i).(4x + 4),(x div 2),(1 + (x mod 2)))
1: loop(\(x,i).(4x + 4),x,0)
1: loop(\(x,i).(4x + 4),x,1)
1: loop(\(x,i).(4x + 4),x,((~x + 2) mod 3))
1: loop(\(x,i).(4x + ~4),(x + ~1),2)
1: loop(\(x,i).(4x + ~4),(x div 2),0)
1: loop(\(x,i).(4x + ~4),x,1)
1: loop(\(x,i).(4x + ~4),x,3)
1: loop(\(x,i).(5x + 5),2,(x2 + 2x))
1: loop(\(x,i).(5x + 5),(x div 2),(1 + (4 * (x mod 2))))
1: loop(\(x,i).(5x + 5),x,0)
1: loop(\(x,i).(5x + 10),(x div 2),(1 + (4 * (x mod 2))))
1: loop(\(x,i).(~5x + 10),x,1)
1: loop(\(x,i).(5x + ~10),x,1)
1: loop(\(x,i).(5 * (if x <= 0 then 2 else x)),x,0)
1: loop(\(x,i).5x,2,loop(\(x,i).(2x + 4),x,0))
1: loop(\(x,i).5x,5,x)
1: loop(\(x,i).5x,(3x + 1),1)
1: loop(\(x,i).5x,(3x + 2),1)
1: loop(\(x,i).5x,(5x + 4),1)
1: loop(\(x,i).5x,(5x + 1),1)
1: loop(\(x,i).5x,(5x + 2),1)
1: loop(\(x,i).5x,(5x + 3),1)
1: loop(\(x,i).5x,(4x + 1),1)
1: loop(\(x,i).5x,(2x + 1),1)
1: loop(\(x,i).5x,(2x + 1),(2x + 1))
1: loop(\(x,i).5x,(1 + (x div 2)),(if (x mod 2) <= 0 then 1 else 4))
1: loop(\(x,i).5x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),1)
1: loop(\(x,i).5x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),(x + 1))
1: loop(\(x,i).5x,(x + 1),(x2 + 2x + 2))
1: loop(\(x,i).5x,(x + 2),loop(\(x,i).(10x + 1),x,1))
1: loop(\(x,i).5x,(1 + i),x)
1: loop(\(x,i).5x,(2 + i),x)
1: loop(\(x,i).5x,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),2)
1: loop(\(x,i).5x,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1)
1: loop(\(x,i).5x,(2 - ((~x + 2) div (2 - (x div ~4)))),1)
1: loop(\(x,i).5x,(2 - (x mod 2)),(if x <= 0 then 1 else 2))
1: loop(\(x,i).5x,(4x + 3),1)
1: loop(\(x,i).5x,(2x + ~1),1)
1: loop(\(x,i).5x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1)
1: loop(\(x,i).5x,(~5 + (x div 2)),1)
1: loop(\(x,i).5x,((x div 2) - ((3 * (x div (4 - ((x * (x div 2)) mod 2)))) div 2)),1)
1: loop(\(x,i).5x,(x + ~1),1)
1: loop(\(x,i).5x,(x + ~1),(if x <= 0 then 1 else (x + 5)))
1: loop(\(x,i).5x,(x + ~1),loop(\(x,i).(3x + 1),x,0))
1: loop(\(x,i).5x,(x + ~1),loop(\(x,i).(~1 + (2 * (x + (i mod 2)))),x,0))
1: loop(\(x,i).5x,(x + ~1),loop(\(x,i).2x,x,(1 + loop(\(x,i).10x,x,1))))
1: loop(\(x,i).5x,(~2 + i),1)
1: loop(\(x,i).5x,(8x + 2),1)
1: loop(\(x,i).5x,(2 * ((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1))),1)
1: loop(\(x,i).5x,(x2 + 3x + 2),1)
1: loop(\(x,i).5x,(8x + 6),1)
1: loop(\(x,i).5x,(4x + ~2),1)
1: loop(\(x,i).5x,(x2 + ~x),1)
1: loop(\(x,i).5x,(2 * (x div 2)),(1 + (2 * (x mod 2))))
1: loop(\(x,i).5x,2x,(2x + 1))
1: loop(\(x,i).5x,2x,(1 + (x mod (1 + ((x2 + 2x) mod 8)))))
1: loop(\(x,i).5x,x2,loop(\(x,i).(5x + 1),x,1))
1: loop(\(x,i).5x,(2 * i),(1 + i))
1: loop(\(x,i).5x,(2 * i),x)
1: loop(\(x,i).5x,((x2 + ~x) div 2),1)
1: loop(\(x,i).5x,(x div 2),2)
1: loop(\(x,i).5x,(x div 2),(4 + (x mod 2)))
1: loop(\(x,i).5x,(x div 2),(1 + (2 * (x mod 2))))
1: loop(\(x,i).5x,(x div 2),(1 + (x mod 2)))
1: loop(\(x,i).5x,(x div 2),((x + 2) div (2 - (x mod 2))))
1: loop(\(x,i).5x,(x div 2),(if (x mod 2) <= 0 then 1 else 4))
1: loop(\(x,i).5x,(x div 3),1)
1: loop(\(x,i).5x,(x div 5),1)
1: loop(\(x,i).5x,(x mod 3),1)
1: loop(\(x,i).5x,x,(x + 6))
1: loop(\(x,i).5x,x,7)
1: loop(\(x,i).5x,x,9)
1: loop(\(x,i).5x,x,(2x + 1))
1: loop(\(x,i).5x,x,(1 + (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))))
1: loop(\(x,i).5x,x,(x + 2))
1: loop(\(x,i).5x,x,(~1 + loop(\(x,i).2x,x,2)))
1: loop(\(x,i).5x,x,12)
1: loop(\(x,i).5x,x,(4x + 4))
1: loop(\(x,i).5x,x,(4x + 8))
1: loop(\(x,i).5x,x,(x3 + x2))
1: loop(\(x,i).5x,x,x2)
1: loop(\(x,i).5x,x,(loop(\(x,i).(3x + ~1),x,2) div 2))
1: loop(\(x,i).5x,x,loop(\(x,i).(2x + 1),x,0))
1: loop(\(x,i).5x,x,loop(\(x,i).(1 + (x * i)),x,1))
1: loop(\(x,i).5x,x,loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),x,1))
1: loop(\(x,i).5x,x,loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1))
1: loop(\(x,i).5x,x,loop(\(x,i).6x,x2,1))
1: loop(\(x,i).5x,x,loop(\(x,i).2x,(x + ~3),2))
1: loop(\(x,i).5x,i,2x)
1: loop(\(x,i).5x,i,x)
1: loop(\(x,i).5x,compr(\x.(~1 + (loop(\(x,i).4x,x,1) mod (2x + 1))),x),1)
1: loop(\(x,i).(5 * i),(x mod (x - ((x + ~1) mod 8))),x)
1: loop(\(x,i).(2x + 14),x,1)
1: loop(\(x,i).(7x + 49),x,0)
1: loop(\(x,i).(x2 + 7x),1,loop(\(x,i).10x,x,1))
1: loop(\(x,i).(x * (7 + i)),x,1)
1: loop(\(x,i).(x * (6 + (4 mod (x + 2)))),x,1)
1: loop(\(x,i).(x * (5 + (x mod 2))),(2x + ~4),1)
1: loop(\(x,i).(3 * (3x + loop(\(x,i).4x,(~1 + i),1))),x,1)
1: loop(\(x,i).(2x + 10),x,1)
1: loop(\(x,i).(2x + 10),x,3)
1: loop(\(x,i).(5x + 25),x,0)
1: loop(\(x,i).(x2 + 5x),1,loop(\(x,i).10x,x,1))
1: loop(\(x,i).(x2 + 5x),2,3)
1: loop(\(x,i).(2x + 12),(x + 1),1)
1: loop(\(x,i).(2x + 12),x,1)
1: loop(\(x,i).(2x + 12),x,17)
1: loop(\(x,i).(2x + 12),x,(x + 2))
1: loop(\(x,i).(2x + 12),x,x)
1: loop(\(x,i).(x2 + 7x + 6),2,2)
1: loop(\(x,i).(x2 + 6x),1,loop(\(x,i).10x,x,1))
1: loop(\(x,i).(x2 + 6x),1,loop(\(x,i).2x,x,1))
1: loop(\(x,i).(x * (5 + i)),x,1)
1: loop(\(x,i).(x * (5 + i)),x,(x + 1))
1: loop(\(x,i).(x * (6 + i)),x,1)
1: loop(\(x,i).(x * (6 + i)),x,(x + 1))
1: loop(\(x,i).(x * (6 + i)),x,(x + 2))
1: loop(\(x,i).(9x + 81),x,0)
1: loop(\(x,i).(x3 + 9x2),2,1)
1: loop(\(x,i).(x2 + 9x),1,loop(\(x,i).10x,x,1))
1: loop(\(x,i).(2x + 20),(x + 1),1)
1: loop(\(x,i).(2x + 20),x,x)
1: loop(\(x,i).(3x + 30),x,1)
1: loop(\(x,i).(x2 + 10x),2,2)
1: loop(\(x,i).(x * (10 + i)),x,1)
1: loop(\(x,i).(x * (10 + i)),x,3)
1: loop(\(x,i).(2 * ((x + 1) + (4 * (x + (x mod 2))))),2,x)
1: loop(\(x,i).(2x + 100),x,1)
1: loop(\(x,i).(3 * ((18x + 1) + i)),x,1)
1: loop(\(x,i).(2 * ((x + 1) + (2 * i))),x,1)
1: loop(\(x,i).(x * ((x + 1) + (2 * i))),3,2)
1: loop(\(x,i).(2 * (2x + (11x div (if i <= 0 then 1 else i)))),x,1)
1: loop(\(x,i).(x * ((x + 1) + (x div 2))),1,loop(\(x,i).(3x + 2),x,0))
1: loop(\(x,i).(x * ((x + 1) + (x div 2))),1,loop(\(x,i).(4x + ~1),x,1))
1: loop(\(x,i).(((x + 1) + (x div 2)) * i),x,1)
1: loop(\(x,i).(2 * ((x + 2) + (x div 2))),(x div 2),(1 + (2 * (x mod 2))))
1: loop(\(x,i).(x * ((x + 2) + (x div 2))),x,2)
1: loop(\(x,i).(2 * (5x + (x div 2))),x,1)
1: loop(\(x,i).(2 * (3x + (x div 2))),x,1)
1: loop(\(x,i).(2 * (3x + (x div 2))),i,1)
1: loop(\(x,i).(x * (4 + (x div 4))),1,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))
1: loop(\(x,i).(3 * (3x + (x div (if i <= 0 then 1 else i)))),x,1)
1: loop(\(x,i).(x * (4 + (4 mod (x + 2)))),x,1)
1: loop(\(x,i).(x * (3 + (i mod 2))),x,1)
1: loop(\(x,i).(x * (3 + (i mod 2))),x,(1 + (x mod 2)))
1: loop(\(x,i).(2 * ((x + 2) + (i mod 2))),x,(x + 2))
1: loop(\(x,i).(2 * ((x + 2) + (i mod 2))),x,x)
1: loop(\(x,i).(((x + 2) + (i mod 2)) * i),x,1)
1: loop(\(x,i).(x * (4 + (if (~x + 2) <= 0 then 2 else 1))),x,1)
1: loop(\(x,i).(2 * ((x + 2) + (if (x + ~1) <= 0 then 1 else (2 * loop(\(x,i).x2,1,loop(\(x,i).((2 * (x - (2x * i))) div (1 + i)),x,1)))))),1,(x + ~1))
1: loop(\(x,i).(2 * (3x + (if (~2 + i) <= 0 then 1 else 0))),x,1)
1: loop(\(x,i).(x * (2x + loop(\(x,i).x3,2,x))),x,1)
1: loop(\(x,i).(2x + 6),(x + 1),2)
1: loop(\(x,i).(2x + 6),(x + 2),5)
1: loop(\(x,i).(2x + 6),(~1 + i),1)
1: loop(\(x,i).(2x + 6),(x div 2),(if (x mod 2) <= 0 then 1 else 4))
1: loop(\(x,i).(2x + 6),x,0)
1: loop(\(x,i).(2x + 6),x,17)
1: loop(\(x,i).(2x + 6),x,64)
1: loop(\(x,i).(2x + 6),x,(if x <= 0 then 1 else 0))
1: loop(\(x,i).(3x + 9),x,0)
1: loop(\(x,i).(x2 + 6x + 9),2,5)
1: loop(\(x,i).(x2 + 5x + 6),3,3)
1: loop(\(x,i).(x2 + 3x),1,loop(\(x,i).2x,x,1))
1: loop(\(x,i).(x2 + 3x),1,loop(\(x,i).2x,x,2))
1: loop(\(x,i).(x2 + 3x),1,compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x))
1: loop(\(x,i).(x2 + 3x),2,3)
1: loop(\(x,i).(x2 + 3x),(x + ~1),1)
1: loop(\(x,i).(x2 + 3x),(x div 2),(1 + (x mod 2)))
1: loop(\(x,i).((x + 3) * i),x,1)
1: loop(\(x,i).(2x + 8),(x + 3),3)
1: loop(\(x,i).(2x + 8),(x + 4),1)
1: loop(\(x,i).(2x + 8),(x + 1),1)
1: loop(\(x,i).(2x + 8),(x + ~2),1)
1: loop(\(x,i).(2x + 8),(~1 + i),1)
1: loop(\(x,i).(2x + 8),6,(x + 3))
1: loop(\(x,i).(2x + 8),x,3)
1: loop(\(x,i).(2x + 8),x,(x + 2))
1: loop(\(x,i).(2x + 8),i,1)
1: loop(\(x,i).(3x + 12),(x + 1),0)
1: loop(\(x,i).(3x + 12),x,0)
1: loop(\(x,i).(x2 + 8x + 16),2,5)
1: loop(\(x,i).(x2 + 4x),1,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))
1: loop(\(x,i).(x2 + 4x),1,loop(\(x,i).10x,x,1))
1: loop(\(x,i).(x2 + 4x),1,compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: loop(\(x,i).((x + 4) * i),x,0)
1: loop(\(x,i).((x + 4) * i),x,1)
1: loop(\(x,i).((x + 1) * (3 + i)),x,0)
1: loop(\(x,i).(x * (3 + i)),4,(2x + 1))
1: loop(\(x,i).(x * (3 + i)),(x + 1),2)
1: loop(\(x,i).(x * (3 + i)),(x + ~2),x)
1: loop(\(x,i).(x * (3 + i)),3x,1)
1: loop(\(x,i).(x * (3 + i)),x,(x + 3))
1: loop(\(x,i).(x * (3 + i)),x,(3x + 4))
1: loop(\(x,i).(x * (3 + i)),x,(x + 1))
1: loop(\(x,i).(x * (4 + i)),(x + ~1),x)
1: loop(\(x,i).(x * (4 + i)),3x,1)
1: loop(\(x,i).(x * (4 + i)),x,1)
1: loop(\(x,i).(x * (4 + i)),x,4)
1: loop(\(x,i).(x * (4 + i)),x,(2x + 4))
1: loop(\(x,i).(x * (4 + i)),x,((x2 + 3x + 2) div 2))
1: loop(\(x,i).(x * (4 + i)),x,loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,1))
1: loop(\(x,i).(2 * ((x + 1) + i)),(x + ~2),1)
1: loop(\(x,i).(2 * ((x + 1) + i)),x,2)
1: loop(\(x,i).(x * ((x + 1) + i)),2,3)
1: loop(\(x,i).(2 * ((x + 2) + i)),x,1)
1: loop(\(x,i).((x + 1) * ((x + 2) + i)),2,3)
1: loop(\(x,i).((x + 2) * ((x + 2) + i)),2,4)
1: loop(\(x,i).(((x + 2) + i) * (1 + i)),x,2)
1: loop(\(x,i).(x * ((x + 2) + i)),2,x)
1: loop(\(x,i).(x * ((2x + 1) + i)),2,x)
1: loop(\(x,i).(x * (3x + i)),2,2)
1: loop(\(x,i).(2 * (2x + i)),3,x)
1: loop(\(x,i).(2 * (2x + i)),x,0)
1: loop(\(x,i).(4 * (2x + i)),x,0)
1: loop(\(x,i).(5 * (2x + i)),(x + 1),0)
1: loop(\(x,i).(x * (2x + i)),2,2)
1: loop(\(x,i).(x * (2x + i)),2,3)
1: loop(\(x,i).(x * (2x + i)),3,2)
1: loop(\(x,i).(x * (2x + i)),4,2)
1: loop(\(x,i).(x * (3 - (i mod 2))),x,(1 + (x mod 2)))
1: loop(\(x,i).(x * (3 - (i mod 2))),x,(x + 1))
1: loop(\(x,i).(x * (4 - (i mod 2))),x,1)
1: loop(\(x,i).(~x2 + x + 6),3,0)
1: loop(\(x,i).(~x2 + 3x),2,16)
1: loop(\(x,i).(~2x + 8),x,1)
1: loop(\(x,i).(~x2 + 4x),2,3x)
1: loop(\(x,i).(3 * (3x - (x div (if i <= 0 then 1 else i)))),x,1)
1: loop(\(x,i).(2 * ((2x + 2) - (i mod 2))),x,0)
1: loop(\(x,i).(x * (1 + (2 * i) - (i div 3))),x,1)
1: loop(\(x,i).(x * ((~x + 2) + (2 * i))),2,(x + 1))
1: loop(\(x,i).(x * ((~x2 + 1) + loop(\(x,i).(x * i),x,(x + 1)))),x,1)
1: loop(\(x,i).(2 * ((x + 3) - ((~x + 1) div 3))),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).(7x + 7),2,(x2 + 2x))
1: loop(\(x,i).(7x + 7),(x div 2),(x mod 2))
1: loop(\(x,i).(7x + ~14),x,1)
1: loop(\(x,i).7x,(3x + 1),1)
1: loop(\(x,i).7x,(3x + 2),1)
1: loop(\(x,i).7x,(5x + 4),1)
1: loop(\(x,i).7x,(5x + 1),1)
1: loop(\(x,i).7x,(5x + 2),1)
1: loop(\(x,i).7x,(5x + 3),1)
1: loop(\(x,i).7x,(4x + 1),1)
1: loop(\(x,i).7x,(2x + 1),1)
1: loop(\(x,i).7x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),1)
1: loop(\(x,i).7x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),(x + 1))
1: loop(\(x,i).7x,(x + 1),(x + 1))
1: loop(\(x,i).7x,(x + 1),(x + 2))
1: loop(\(x,i).7x,(x + 2),1)
1: loop(\(x,i).7x,(1 + i),x)
1: loop(\(x,i).7x,(2 + i),x)
1: loop(\(x,i).7x,(2 + compr(\x.((~1 + loop(\(x,i).(x * i),x,1)) mod (x + 2)),x)),1)
1: loop(\(x,i).7x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1)
1: loop(\(x,i).7x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),2)
1: loop(\(x,i).7x,((x div 2) - ((3 * (x div (4 - ((x * (x div 2)) mod 2)))) div 2)),1)
1: loop(\(x,i).7x,(x + ~1),x)
1: loop(\(x,i).7x,(x + ~2),x)
1: loop(\(x,i).7x,(~1 + i),1)
1: loop(\(x,i).7x,3x,5)
1: loop(\(x,i).7x,5x,1)
1: loop(\(x,i).7x,7x,1)
1: loop(\(x,i).7x,(2 * ((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1))),1)
1: loop(\(x,i).7x,x2,loop(\(x,i).8x,x,1))
1: loop(\(x,i).7x,((x2 + ~x) div 2),1)
1: loop(\(x,i).7x,(x div 2),2)
1: loop(\(x,i).7x,(x div 2),(1 + (4 * (x mod 2))))
1: loop(\(x,i).7x,(x div 2),(1 + (x mod 2)))
1: loop(\(x,i).7x,x,9)
1: loop(\(x,i).7x,x,(2x + 1))
1: loop(\(x,i).7x,x,(x + 1))
1: loop(\(x,i).7x,x,(~1 + loop(\(x,i).2x2,x,2)))
1: loop(\(x,i).7x,x,(~1 + loop(\(x,i).2x,x,2)))
1: loop(\(x,i).7x,x,(6x + 12))
1: loop(\(x,i).7x,x,x7)
1: loop(\(x,i).7x,x,x2)
1: loop(\(x,i).7x,x,((x2 + 3x + 2) div 2))
1: loop(\(x,i).7x,x,loop(\(x,i).(x + (10x div (if i <= 0 then 1 else i))),x,1))
1: loop(\(x,i).7x,x,loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,1))
1: loop(\(x,i).7x,x,loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),x,1))
1: loop(\(x,i).7x,x,loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1))
1: loop(\(x,i).7x,x,loop(\(x,i).8x,x2,1))
1: loop(\(x,i).7x,x,loop(\(x,i).6x,x2,1))
1: loop(\(x,i).7x,i,2)
1: loop(\(x,i).7x,i,(1 + i))
1: loop(\(x,i).7x,i,x2)
1: loop(\(x,i).7x,i,x)
1: loop(\(x,i).(7 * i),(x + ~1),x)
1: loop(\(x,i).(x * (6 + (2 div (x + 1)))),(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1)
1: loop(\(x,i).(x * (6 + (2 div (1 + i)))),x,x)
1: loop(\(x,i).(6x + 4),2,(x2 + 2x))
1: loop(\(x,i).(6x + 4),2,2x)
1: loop(\(x,i).(6x + 4),2,loop(\(x,i).2x,x,3))
1: loop(\(x,i).(6x + 4),(x + 1),x)
1: loop(\(x,i).(6x + 4),2x,1)
1: loop(\(x,i).(6x + 4),(x div 2),(x mod 2))
1: loop(\(x,i).(6x + 4),x,4)
1: loop(\(x,i).(9x + 6),x,0)
1: loop(\(x,i).(9x + 6),x,1)
1: loop(\(x,i).(3x2 + 5x + 2),1,loop(\(x,i).10x,x,1))
1: loop(\(x,i).(3x2 + 8x + 4),1,loop(\(x,i).10x,x,1))
1: loop(\(x,i).(3x2 + 2x),1,loop(\(x,i).(10x + 1),x,1))
1: loop(\(x,i).(3x2 + 2x),1,loop(\(x,i).3x,x,1))
1: loop(\(x,i).(x * (2 + (3 * i))),x,1)
1: loop(\(x,i).(2 * (x + (3 * i))),i,1)
1: loop(\(x,i).(x * (9 + i)),x,1)
1: loop(\(x,i).(x * (9 + i)),x,loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,1))
1: loop(\(x,i).(2x + 16),x,(x + 2))
1: loop(\(x,i).(2x + 16),x,x)
1: loop(\(x,i).(x2 + 10x + 16),2,9)
1: loop(\(x,i).(8x + 64),x,0)
1: loop(\(x,i).(x2 + 8x),1,loop(\(x,i).10x,x,1))
1: loop(\(x,i).(x * (8 + i)),x,1)
1: loop(\(x,i).(13x + 13),2,(x mod 2))
1: loop(\(x,i).(13x + 13),2,x)
1: loop(\(x,i).(~13x + ~13),2,(x2 + 2x))
1: loop(\(x,i).13x,(3x + 1),1)
1: loop(\(x,i).13x,(3x + 2),1)
1: loop(\(x,i).13x,(5x + 4),1)
1: loop(\(x,i).13x,(5x + 1),1)
1: loop(\(x,i).13x,(5x + 2),1)
1: loop(\(x,i).13x,(5x + 3),1)
1: loop(\(x,i).13x,(4x + 1),1)
1: loop(\(x,i).13x,(2x + 1),1)
1: loop(\(x,i).13x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),1)
1: loop(\(x,i).13x,(x + 1),1)
1: loop(\(x,i).13x,(x + 1),7)
1: loop(\(x,i).13x,(4x + 3),1)
1: loop(\(x,i).13x,2x,2)
1: loop(\(x,i).13x,x2,1)
1: loop(\(x,i).13x,(x div 2),(1 + (4 * (x mod 2))))
1: loop(\(x,i).13x,(x div 2),(1 + (2 * (x mod 2))))
1: loop(\(x,i).13x,(x div 2),(1 + (x mod 2)))
1: loop(\(x,i).13x,x,4)
1: loop(\(x,i).13x,i,(1 + i))
1: loop(\(x,i).(x * (12 + (if (x + ~2) <= 0 then 1 else 2))),x,1)
1: loop(\(x,i).(2x + 24),x,1)
1: loop(\(x,i).(2x + 24),x,17)
1: loop(\(x,i).(8x + 10),x,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))
1: loop(\(x,i).(10x + 8),2,(x2 + 2x))
1: loop(\(x,i).(10x + 8),(x + 2),0)
1: loop(\(x,i).(10x + 8),(x + 2),1)
1: loop(\(x,i).(10x + 8),x,1)
1: loop(\(x,i).(x * (1 + (4 * (1 + i)))),x,1)
1: loop(\(x,i).(2x * ((4 * (1 + i)) + i)),x,1)
1: loop(\(x,i).(x * ((4 * (1 + i)) + i)),x,1)
1: loop(\(x,i).(x * (1 + (5 * (1 + i)))),x,1)
1: loop(\(x,i).(10x + 2),2,x)
1: loop(\(x,i).(10x + 2),(x + 1),2)
1: loop(\(x,i).(10x + 2),2x,1)
1: loop(\(x,i).(10x + 2),(x div 2),1)
1: loop(\(x,i).(10x + 2),x,1)
1: loop(\(x,i).(5x2 + 6x + 1),3,2)
1: loop(\(x,i).(~5x2 + 9x + 2),2,x)
1: loop(\(x,i).(10x + 4),2,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(10x + 4),(x + 1),1)
1: loop(\(x,i).(10x + 4),(x + 2),2)
1: loop(\(x,i).(10x + 4),(x div 2),(1 + (2 * (x mod 2))))
1: loop(\(x,i).(10x + 4),(x div 2),(2 + (x mod 2)))
1: loop(\(x,i).(10x + 4),x,1)
1: loop(\(x,i).(10x + 4),x,4)
1: loop(\(x,i).(10x + 4),x,loop(\(x,i).(10x + 1),x,1))
1: loop(\(x,i).(10x + 4),x,loop(\(x,i).(10x + 10),x,0))
1: loop(\(x,i).(2 * (5x + i)),4,x)
1: loop(\(x,i).(x * (1 + (5 * i))),x,1)
1: loop(\(x,i).(x * (2 + (5 * i))),x,1)
1: loop(\(x,i).(x * (3 + (5 * i))),x,1)
1: loop(\(x,i).((2x + 3) * (1 + (2 * ((4x + 1) + i)))),2,2)
1: loop(\(x,i).(x * (1 + (2 * (5x + (x div 2))))),2,x)
1: loop(\(x,i).(x * (1 + (2 * (4 + (2 mod (x + 1)))))),x,1)
1: loop(\(x,i).(x * (1 + (3 * (4 + (2 mod (x + 1)))))),x,1)
1: loop(\(x,i).(x * (1 + (2 * (4 + (i mod 2))))),(x + 1),1)
1: loop(\(x,i).(x * (1 + (2 * (4 + (i mod 2))))),2x,1)
1: loop(\(x,i).(x * (1 + (2 * (4 + (i mod 2))))),x,1)
1: loop(\(x,i).(10x + 45),x,0)
1: loop(\(x,i).(7x2 + 28x + 7),2,x)
1: loop(\(x,i).(2x3 + 9x2 + 6x + 1),1,(x2 + x))
1: loop(\(x,i).(x * (1 + (2 * (3 + i)))),x,1)
1: loop(\(x,i).(x * (x + ((3 + i) * i))),x,1)
1: loop(\(x,i).(x * (1 + (2 * (4 + i)))),x,1)
1: loop(\(x,i).(2 * (x + (2 * (2x + i)))),(x + 1),0)
1: loop(\(x,i).(x * (2 + (7 * i))),x,1)
1: loop(\(x,i).(x * (1 + (3 * (2 + (3 * i))))),x,1)
1: loop(\(x,i).(15x2 + 33x + 9),2,x)
1: loop(\(x,i).(x * (1 + (2 * (1 + (5 * i))))),x,1)
1: loop(\(x,i).(28x + 6),(x + 1),2)
1: loop(\(x,i).(14x2 + 6x + 4),2,x)
1: loop(\(x,i).(6x2 + 8x + 4),2,x)
1: loop(\(x,i).(2 * (1 + (2 * (x + (2 * (x + i)))))),2,x)
1: loop(\(x,i).(16x2 + 14x + 3),2,x)
1: loop(\(x,i).(8x2 + 2x + 2),2,x)
1: loop(\(x,i).(x * (1 + (2 * (1 + (4 * i))))),x,1)
1: loop(\(x,i).(2 * (x + (4 * (x + (2 * (x mod 2)))))),x,1)
1: loop(\(x,i).(2 * (1 + (2 * (1 + (loop(\(x,i).(3x + ~1),x,2) * loop(\(x,i).(2x + 2),x,0)))))),1,(x + 1))
1: loop(\(x,i).(7x2 + 3x),2,x)
1: loop(\(x,i).(4x2 + 2x + 2),2,2x)
1: loop(\(x,i).(2x3 + 3x),x,1)
1: loop(\(x,i).(x * ((3 * (1 + (2 * i))) + i)),x,1)
1: loop(\(x,i).(2 * (x + (5 * (2x + (x div 2))))),x,1)
1: loop(\(x,i).(2 * (x + (2 * (x + (2 mod (x + 1)))))),(x + ~1),1)
1: loop(\(x,i).((1 + (2 * (2 + (x mod 2)))) * (if x <= 0 then 1 else x)),x,(~x + 1))
1: loop(\(x,i).(2 * (1 + (2 * (2x + (x mod 2))))),x,5)
1: loop(\(x,i).(2 * (x + (2 * (2x + (x mod 2))))),x,1)
1: loop(\(x,i).(x * (1 + (2 * (1 + (x mod 3))))),x,1)
1: loop(\(x,i).(x * (1 + (2 * (2 + (x mod 4))))),x,1)
1: loop(\(x,i).(x * (1 + (2 * (1 + (i mod 2))))),x,1)
1: loop(\(x,i).(x * (1 + (2 * (1 + (i mod 2))))),x,(2 * (x mod 2)))
1: loop(\(x,i).(x * (1 + (2 * (2 + (i mod 2))))),2x,1)
1: loop(\(x,i).(x * (1 + (2 * (2 + (i mod 2))))),x,(1 + (x mod 2)))
1: loop(\(x,i).(x * (1 + (7 * (1 + (if (~x + 2) <= 0 then 2 else 1))))),x,1)
1: loop(\(x,i).(10x + 15),(x + 1),0)
1: loop(\(x,i).(2x2 + 5x + 3),2,2)
1: loop(\(x,i).(2 * ((2x + 3) + i)),(x + 1),1)
1: loop(\(x,i).(2x2 + 2x + 2),2,1)
1: loop(\(x,i).(x3 + 4x2 + 4x + 3),(x2 + x + 2),1)
1: loop(\(x,i).((x2 + x + 1) * (2 + i)),2,2)
1: loop(\(x,i).(x3 + x2 + x),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(x3 + x2 + x),1,loop(\(x,i).2x,x,1))
1: loop(\(x,i).(x3 + x2 + x),x,1)
1: loop(\(x,i).(x4 + x3 + 3x2),x,1)
1: loop(\(x,i).(4x + 10),x,(if x <= 0 then 1 else 0))
1: loop(\(x,i).(2x2 + 5x),2,12)
1: loop(\(x,i).(2x2 + 5x),4,2)
1: loop(\(x,i).(6x + 8),2,x)
1: loop(\(x,i).(3x2 + 16x + 16),2x,3)
1: loop(\(x,i).(3x2 + 7x + 4),2,1)
1: loop(\(x,i).(5x2 + 20x + 30),2,0)
1: loop(\(x,i).(5x2 + 10x + 5),2,2)
1: loop(\(x,i).(5x2 + 10x + 5),(x + ~1),10)
1: loop(\(x,i).(2x2 + 4x + 4),2,4x)
1: loop(\(x,i).(x3 + 2x2 + 2x),1,loop(\(x,i).10x,(x + 1),1))
1: loop(\(x,i).(x3 + 2x2 + 2x),2,3)
1: loop(\(x,i).(x * (1 + (2 * (1 + i)))),5,2)
1: loop(\(x,i).(x * (1 + (2 * (1 + i)))),(x + ~1),1)
1: loop(\(x,i).(x * (1 + (2 * (1 + i)))),(x + ~2),x)
1: loop(\(x,i).(x * (1 + (2 * (1 + i)))),x,1)
1: loop(\(x,i).(x * (1 + (2 * (1 + i)))),x,(x + 1))
1: loop(\(x,i).(x * (1 + (2 * (1 + i)))),x,(x + 2))
1: loop(\(x,i).(x * (1 + (2 * (1 + i)))),x,(2x + 2))
1: loop(\(x,i).(2 * (x + ((1 + i) * i))),x,2)
1: loop(\(x,i).(x * (1 + (2 * (2 + i)))),x,1)
1: loop(\(x,i).(x * (x + (2 * (2 + i)))),2,(x + 1))
1: loop(\(x,i).(2x * ((2 * (2 + i)) + i)),x,1)
1: loop(\(x,i).(x * ((2 * (2 + i)) + i)),x,1)
1: loop(\(x,i).(x * (1 + (3 * (2 + i)))),x,1)
1: loop(\(x,i).(x * (2 + (3 * (2 + i)))),x,1)
1: loop(\(x,i).(x * (1 + (x * (2 + i)))),2,2x)
1: loop(\(x,i).(3 * (2 + (x * (2 + i)))),2,x)
1: loop(\(x,i).(x * (2 + ((2 + i) * i))),(x + ~1),1)
1: loop(\(x,i).((1 + (2 * (x + i))) * (1 + i)),x,1)
1: loop(\(x,i).(2 * (x + (2 * (x + i)))),3,x)
1: loop(\(x,i).(2 * (x + (4 * (x + i)))),(x + 1),0)
1: loop(\(x,i).((x + 1) * (1 + (x * (x + i)))),2,2)
1: loop(\(x,i).(2 * (x + ((x + i) * i))),(x + ~1),1)
1: loop(\(x,i).(x * (1 + (3 * (1 - (i mod 3))))),x,1)
1: loop(\(x,i).(6x2 + ~3x + 3),2,x)
1: loop(\(x,i).(2 * (1 + (2 * (2x - (i mod 2))))),x,1)
1: loop(\(x,i).(2 * (2 + (x * (~1 + (2 * i))))),x,2)
1: loop(\(x,i).(3x2 + ~3x + 3),(x + ~1),1)
1: loop(\(x,i).(2 * ((x2 + ~x) + (x mod 2))),x,1)
1: loop(\(x,i).(2 * ((2 * ((x + 1) - (2 * (i mod 2)))) + (x div 2))),x,1)
1: loop(\(x,i).(2 * (x + (2 * (x - (x div ~4))))),x,1)
1: loop(\(x,i).(2 * (1 + (2 * (x - (i mod 2))))),x,1)
1: loop(\(x,i).(2 * (1 + (2 * (x - i)))),x,2)
1: loop(\(x,i).(5 * (1 + (2 * (x - i)))),x,x)
1: loop(\(x,i).(5 * (2 + (x * (x - i)))),2,x)
1: loop(\(x,i).(2 * (1 + (x * (~1 + i)))),x,1)
1: loop(\(x,i).((1 + (x * (~1 + i))) * (1 + i)),x,0)
1: loop(\(x,i).(x * (1 + ((~1 + i) * i))),x,1)
1: loop(\(x,i).(x * (1 + ((~1 + i) * i))),x,(x + 1))
1: loop(\(x,i).19x,(3x + 1),1)
1: loop(\(x,i).19x,(3x + 2),1)
1: loop(\(x,i).19x,(5x + 4),1)
1: loop(\(x,i).19x,(5x + 1),1)
1: loop(\(x,i).19x,(5x + 2),1)
1: loop(\(x,i).19x,(5x + 3),1)
1: loop(\(x,i).19x,(4x + 1),1)
1: loop(\(x,i).19x,(2x + 1),1)
1: loop(\(x,i).19x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),1)
1: loop(\(x,i).19x,(4x + 3),1)
1: loop(\(x,i).19x,x2,1)
1: loop(\(x,i).19x,(x div 2),(1 + (x mod 2)))
1: loop(\(x,i).19x,x,1)
1: loop(\(x,i).19x,i,1)
1: loop(\(x,i).19x,i,(1 + i))
1: loop(\(x,i).(x * (1 + ((6 * (~1 + i)) + i))),x,1)
1: loop(\(x,i).(9x2 + x),2,x)
1: loop(\(x,i).(9x2 + 2x),2,x)
1: loop(\(x,i).(9x2 + 2x),x,1)
1: loop(\(x,i).(x * (2 + (9 * i))),x,1)
1: loop(\(x,i).(2 * (x + (3 * (i * (1 + i))))),x,1)
1: loop(\(x,i).(~17x + ~17),2,(x2 + 2x))
1: loop(\(x,i).17x,(3x + 1),1)
1: loop(\(x,i).17x,(3x + 2),1)
1: loop(\(x,i).17x,(5x + 4),1)
1: loop(\(x,i).17x,(5x + 1),1)
1: loop(\(x,i).17x,(5x + 2),1)
1: loop(\(x,i).17x,(5x + 3),1)
1: loop(\(x,i).17x,(4x + 1),1)
1: loop(\(x,i).17x,(2x + 1),1)
1: loop(\(x,i).17x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),1)
1: loop(\(x,i).17x,(4x + 3),1)
1: loop(\(x,i).17x,(2 * (1 + (x mod 2))),x)
1: loop(\(x,i).17x,x2,1)
1: loop(\(x,i).17x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).17x,(x div 2),(1 + (2 * (x mod 2))))
1: loop(\(x,i).17x,(x div 2),(1 + (x mod 2)))
1: loop(\(x,i).17x,x,2)
1: loop(\(x,i).17x,x,(1 + (x mod (1 + ((x2 + 2x) mod 8)))))
1: loop(\(x,i).17x,i,1)
1: loop(\(x,i).17x,i,(1 + i))
1: loop(\(x,i).(2x + 32),(x + 1),0)
1: loop(\(x,i).(2x + 32),x,0)
1: loop(\(x,i).(2x + 32),x,3)
1: loop(\(x,i).(2x + 32),x,9)
1: loop(\(x,i).41x,(2x + 1),1)
1: loop(\(x,i).41x,x,1)
1: loop(\(x,i).(18x + 16),2,(x2 + 2x))
1: loop(\(x,i).(x * (1 + (8 * (1 + i)))),x,1)
1: loop(\(x,i).(x * ((8 * (1 + i)) + i)),x,1)
1: loop(\(x,i).(~37x + ~37),2,(x2 + 2x))
1: loop(\(x,i).37x,(2x + 1),1)
1: loop(\(x,i).37x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),1)
1: loop(\(x,i).37x,x,1)
1: loop(\(x,i).(26x + 24),2,(x2 + 2x))
1: loop(\(x,i).(2x + 40),x,1)
1: loop(\(x,i).(10x2 + 11x + 1),1,loop(\(x,i).10x,x,1))
1: loop(\(x,i).(2 * (1 + ((2x + ~2) * ((x + 2) + (loop(\(x,i).2x,x,1) mod 9))))),x,1)
1: loop(\(x,i).(13x2 + 8x),1,(x + 3))
1: loop(\(x,i).(4x3 + 6x2 + 3x + 1),2,2)
1: loop(\(x,i).(10x3 + 10x + 2),x,2)
1: loop(\(x,i).(x5 + x4 + x3 + x2 + x),1,loop(\(x,i).2x,x,2))
1: loop(\(x,i).(x5 + x4 + x3 + x2 + x + 1),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(x5 + x4 + x3 + x2 + x + 1),1,loop(\(x,i).2x,x,1))
1: loop(\(x,i).(8x2 + 18),2,3)
1: loop(\(x,i).(x * (1 + (4 * (1 + (2 * i))))),x,1)
1: loop(\(x,i).(x * ((4 * (1 + (2 * i))) + i)),x,1)
1: loop(\(x,i).(4x2 + 17x + 18),1,(x + 8))
1: loop(\(x,i).(10x + 16),(2x + ~1),1)
1: loop(\(x,i).(10x + 16),x,2)
1: loop(\(x,i).(2x3 + 4x2 + x),(x + ~2),1)
1: loop(\(x,i).(12x2 + 24x + 3),2,x)
1: loop(\(x,i).(x * (1 + (6 * (1 + i)))),x,1)
1: loop(\(x,i).(x * ((6 * (1 + i)) + i)),x,1)
1: loop(\(x,i).(x * (1 + (9 * (1 + i)))),x,1)
1: loop(\(x,i).(x * (1 + (4 * (2 + i)))),x,1)
1: loop(\(x,i).(x * (~1 + ((4 * (2 + i)) + i))),x,1)
1: loop(\(x,i).(x * ((4 * (2 + i)) + i)),x,1)
1: loop(\(x,i).(x * (((2 + i) * i * (1 + i)) + i)),(x + 1),1)
1: loop(\(x,i).(24x2 + 20x + 2),2,x)
1: loop(\(x,i).(2 * (1 + (6 * (~1 + (6 * (~2 + loop(\(x,i).10x,(x + 1),(x + 1)))))))),x,1)
1: loop(\(x,i).(200x3 + ~3x),x,1)
1: loop(\(x,i).(x * (2 + (9 * (i * (1 + i))))),x,1)
1: loop(\(x,i).33x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),1)
1: loop(\(x,i).33x,x,1)
1: loop(\(x,i).(2x + 64),x,0)
1: loop(\(x,i).(3x + 96),x,0)
1: loop(\(x,i).(34x + 32),2,(x2 + 2x))
1: loop(\(x,i).(8x2 + 17x),2,x)
1: loop(\(x,i).(96x2 + x),2,x)
1: loop(\(x,i).(16x2 + 17x + 1),1,loop(\(x,i).2x,x,1))
1: loop(\(x,i).((8x + 1) * (1 + (x mod 2))),1,((x2 + x) div 2))
1: loop(\(x,i).(x * (8x + i)),2,x)
1: loop(\(x,i).(20x2 + x),x,1)
1: loop(\(x,i).(x * (1 + (8 * i))),(x + ~1),1)
1: loop(\(x,i).(2 * (x + (12 * i))),x,1)
1: loop(\(x,i).(x * (1 + (4 * (i * i * i * i)))),x,1)
1: loop(\(x,i).(x * (1 + (i * i * i * i * i))),x,1)
1: loop(\(x,i).((1 + (4 * (x div 2))) * (1 + i)),x,1)
1: loop(\(x,i).(x * (1 + (4 * (i div 2)))),x,1)
1: loop(\(x,i).(2 * (x + (4 * (if (x + ~1) <= 0 then 8 else x)))),x,0)
1: loop(\(x,i).(8x + 2),2,2x)
1: loop(\(x,i).(8x + 2),(1 + (x div 2)),(1 + (x mod 2)))
1: loop(\(x,i).(8x + 2),(x + 1),2)
1: loop(\(x,i).(8x + 2),(x div 2),(1 + (x mod 2)))
1: loop(\(x,i).(8x + 2),(x div 2),(x mod 2))
1: loop(\(x,i).(8x + 2),x,0)
1: loop(\(x,i).(8x + 2),x,1)
1: loop(\(x,i).(8x + 2),x,2)
1: loop(\(x,i).(4x2 + 5x + 1),1,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(4x2 + ~3x + ~1),1,loop(\(x,i).2x,x,2))
1: loop(\(x,i).(x * ((4x + 2) + i)),2,x)
1: loop(\(x,i).(2 * (4x + (x div 2))),(x + 2),1)
1: loop(\(x,i).(2 * (4x + (x div 2))),x,1)
1: loop(\(x,i).(x * (4x + (i mod 2))),2,2x)
1: loop(\(x,i).(4 * (4x + i)),(x + 1),0)
1: loop(\(x,i).(6x2 + x),1,loop(\(x,i).10x,x,1))
1: loop(\(x,i).(6x2 + x),((x + 1) div 2),1)
1: loop(\(x,i).(6x2 + 14x + 4),2,8x)
1: loop(\(x,i).(2 * (6x + (x mod 2))),x,1)
1: loop(\(x,i).(4x2 + 4x + 2),2,2x)
1: loop(\(x,i).(4x2 + 2),2,3)
1: loop(\(x,i).(6x2 + 3),2,x)
1: loop(\(x,i).((2x2 + 1) * (2 + i)),2,x)
1: loop(\(x,i).(2 * (2x2 + (i mod 2))),x,2)
1: loop(\(x,i).(x * (2x2 + i)),2,x)
1: loop(\(x,i).(6x2 + 4),2,x)
1: loop(\(x,i).(2 * ((3x2 + 1) + i)),2,x)
1: loop(\(x,i).(6x2 + 2x),2,2)
1: loop(\(x,i).(4x3 + x),2,4)
1: loop(\(x,i).(2 * (4x2 + i)),2,x)
1: loop(\(x,i).(x4 + 2x3 + x),2x,1)
1: loop(\(x,i).(x4 + 2x3 + 2x),x2,3)
1: loop(\(x,i).(x * (1 + (x2 * (1 + i)))),2,x)
1: loop(\(x,i).(x5 + x),1,3x)
1: loop(\(x,i).(x6 + 2x2),1,(~x + 2))
1: loop(\(x,i).(x5 + 4x),1,(2x + 1))
1: loop(\(x,i).(3x3 + 3),2,10)
1: loop(\(x,i).(x4 + x3 + x + 1),(x + 1),x)
1: loop(\(x,i).(x4 + x),1,(2x + 1))
1: loop(\(x,i).(2x3 + 4),2,3)
1: loop(\(x,i).(2 * (x3 + (if x <= 0 then 1 else 2))),x,1)
1: loop(\(x,i).(x * (1 + (4 * i))),(x + ~1),1)
1: loop(\(x,i).(x * (1 + (4 * i))),x,1)
1: loop(\(x,i).(x * (1 + (4 * i))),i,x)
1: loop(\(x,i).(x * (1 + (6 * i))),(x + ~1),1)
1: loop(\(x,i).(x * (1 + (6 * i))),(x + ~2),x)
1: loop(\(x,i).(x * (1 + (2 * (i * (1 + i))))),x,1)
1: loop(\(x,i).(2 * (x + (3x * i))),x,1)
1: loop(\(x,i).(3 * (x + (3x * i))),x,1)
1: loop(\(x,i).(x * (2 + ((x2 + x) * i))),2,2)
1: loop(\(x,i).(2 * (2 + (x2 * i))),2,2x)
1: loop(\(x,i).(x * (1 + (2 * (i * i)))),x,1)
1: loop(\(x,i).(x * (1 + (3 * (i * i)))),x,1)
1: loop(\(x,i).(x * (1 + (4 * (i * i)))),x,1)
1: loop(\(x,i).(x * (1 + (i * i * i * i))),x,1)
1: loop(\(x,i).(x * (1 + (x * (i * i)))),2,x)
1: loop(\(x,i).(x * (1 + (i * i * i))),(x + 2),1)
1: loop(\(x,i).((x + (i * i * i)) * i),x,0)
1: loop(\(x,i).(x * (1 + (3 * (((1 + i) * i) div 2)))),x,1)
1: loop(\(x,i).(x * ((3 * (((1 + i) * i) div 2)) + i)),x,1)
1: loop(\(x,i).(3 * (x + ((4x div (1 + i)) * (~1 + (2 * i))))),x,1)
1: loop(\(x,i).(2 * (x + (2 * (2x div (if i <= 0 then 1 else i))))),i,1)
1: loop(\(x,i).(4 * (x + (2 * (2x div (if i <= 0 then 1 else i))))),x,1)
1: loop(\(x,i).(8 * (x + (2 * (2x div (if i <= 0 then 1 else i))))),x,1)
1: loop(\(x,i).(3 * (x + (3 * (2x div (if i <= 0 then 1 else i))))),x,1)
1: loop(\(x,i).(9 * (x + (3 * (2x div (if i <= 0 then 1 else i))))),x,1)
1: loop(\(x,i).(3 * (x + ((2x div (if i <= 0 then 1 else i)) * (1 + i)))),x,1)
1: loop(\(x,i).(2 * (x + (3 * (x div 2)))),x,1)
1: loop(\(x,i).(4 * (x + (3 * (x div 2)))),x,1)
1: loop(\(x,i).(x * (1 + (2 * (x div 4)))),1,(1 - ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)))
1: loop(\(x,i).(2 * (x + (4 * (x div (if i <= 0 then 1 else i))))),x,3)
1: loop(\(x,i).(2 * (x + (8 * (x div (if i <= 0 then 1 else i))))),x,1)
1: loop(\(x,i).(x * (1 + (2 * (i div 2)))),x,1)
1: loop(\(x,i).(x * (1 + (2 * (i div 2)))),x,(x + 1))
1: loop(\(x,i).(2 * (x + (2 * (i div 2)))),(x + ~1),0)
1: loop(\(x,i).((x + 1) * (1 + (2 * ((loop(\(x,i).6x,(x + 1),1) + loop(\(x,i).(2x + 2),x,2)) mod (x + 1))))),2,x)
1: loop(\(x,i).(2 * (x + (3 * ((x + i) mod 2)))),x,1)
1: loop(\(x,i).(x * (1 + (2 * (~x mod 4)))),(x div 2),(1 + (2 * (x mod 2))))
1: loop(\(x,i).((x + 2) * (1 + (x * (x mod 2)))),1,(x2 + 2x))
1: loop(\(x,i).(x * (1 + (2 * (i mod 2)))),x,(1 + (x mod 2)))
1: loop(\(x,i).(2 * (x + (2 * (i mod 2)))),(x + ~2),0)
1: loop(\(x,i).(2 * (x + (2 * (i mod 2)))),x,1)
1: loop(\(x,i).(x * (2 + (3 * (i mod 2)))),(x + 1),1)
1: loop(\(x,i).(x * (2 + (3 * (i mod 2)))),x,1)
1: loop(\(x,i).(x * (x + ((x + 2) * (i mod 2)))),(x + ~1),1)
1: loop(\(x,i).(3 * (x + ((i mod 2) * i))),x,2)
1: loop(\(x,i).(x * (x + ((i mod 2) * i))),(x + 1),1)
1: loop(\(x,i).((x + 1) * (2 + ((x + 1) * loop(\(x,i).(2x2 + x),2,2)))),2,3)
1: loop(\(x,i).(x * (2 + (x * loop(\(x,i).(2x2 + x),2,2)))),2,x)
1: loop(\(x,i).(x * (1 + (3 * loop(\(x,i).(2 * (loop(\(x,i).(32x + 1),(x + 1),1) div 2)),1,1)))),(2x + 1),1)
1: loop(\(x,i).(4x + 2),2,8)
1: loop(\(x,i).(4x + 2),(2x + 1),2)
1: loop(\(x,i).(4x + 2),(x + 1),1)
1: loop(\(x,i).(4x + 2),(x + 1),2)
1: loop(\(x,i).(4x + 2),(x + 1),x)
1: loop(\(x,i).(4x + 2),(x + ~2),1)
1: loop(\(x,i).(4x + 2),2x,2)
1: loop(\(x,i).(4x + 2),(x div 2),2)
1: loop(\(x,i).(4x + 2),(x div 2),(1 + (2 * (x mod 2))))
1: loop(\(x,i).(4x + 2),(x div 2),((x + 1) mod 2))
1: loop(\(x,i).(4x + 2),(x div 2),(x mod 2))
1: loop(\(x,i).(4x + 2),((2x + 1) mod (1 + (2x mod (2 + (x div 4))))),0)
1: loop(\(x,i).(4x + 2),(if x <= 0 then 2 else ~1),4x)
1: loop(\(x,i).(4x + 2),x,loop(\(x,i).(4x + 1),x,1))
1: loop(\(x,i).(4x + 2),i,1)
1: loop(\(x,i).(6x + 3),x,3)
1: loop(\(x,i).(10x + 5),(2x + 1),1)
1: loop(\(x,i).(10x + 5),(x + 1),0)
1: loop(\(x,i).(10x + 5),(x + 1),1)
1: loop(\(x,i).(10x + 5),(x + 1),2)
1: loop(\(x,i).(10x + 5),(x + 2),9)
1: loop(\(x,i).(10x + 5),x,1)
1: loop(\(x,i).(2x2 + 3x + 1),2,4x)
1: loop(\(x,i).((2x + 1) * (1 + i)),x,1)
1: loop(\(x,i).(~2x2 + 3x + 2),2,2x)
1: loop(\(x,i).(2x2 + x),1,(2 + (loop(\(x,i).2x,x,1) div 2)))
1: loop(\(x,i).(2x2 + x),1,(~1 + loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)))
1: loop(\(x,i).(2x2 + x),1,(~1 + loop(\(x,i).4x,x,4)))
1: loop(\(x,i).(2x2 + x),1,(3 * loop(\(x,i).(10x + 1),x,1)))
1: loop(\(x,i).(2x2 + x),1,(loop(\(x,i).(2x + 2),x,0) mod (x + 1)))
1: loop(\(x,i).(2x2 + x),1,loop(\(x,i).(4x + 2),x,2))
1: loop(\(x,i).(2x2 + x),1,loop(\(x,i).4x,x,2))
1: loop(\(x,i).(2x2 + x),3,x)
1: loop(\(x,i).(2x2 + x),(x2 + 3x + 2),1)
1: loop(\(x,i).(2x2 + x),x,3)
1: loop(\(x,i).((2x + 1) * i),(x + ~1),0)
1: loop(\(x,i).((2x + 1) * i),x,0)
1: loop(\(x,i).((2x + 1) * i),x,1)
1: loop(\(x,i).(2x2 + 2),2,3x)
1: loop(\(x,i).(2x2 + 2),2,x2)
1: loop(\(x,i).(2x2 + 2),(x + ~2),1)
1: loop(\(x,i).(2x2 + 2),x,1)
1: loop(\(x,i).(x3 + x2 + x + 1),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(x3 + x2 + x + 1),x,0)
1: loop(\(x,i).(x3 + ~x2 + x + ~1),1,loop(\(x,i).2x,x,2))
1: loop(\(x,i).(x3 + x),1,(x2 + ~1))
1: loop(\(x,i).(x3 + x),1,(~x2 + 3x + ~2))
1: loop(\(x,i).(x3 + x),2,2)
1: loop(\(x,i).(x3 + x),2,3)
1: loop(\(x,i).(x3 + x),2,20)
1: loop(\(x,i).(x3 + x),(2x + 2),2)
1: loop(\(x,i).(2x2 + 4),(x + (x div 2)),1)
1: loop(\(x,i).(2x2 + 4),(x2 + 3x + 2),1)
1: loop(\(x,i).(3x2 + 6),2,2x)
1: loop(\(x,i).((x2 + 2) * (~1 + i)),2x,1)
1: loop(\(x,i).(x3 + 2x),1,(2x + 3))
1: loop(\(x,i).(x3 + 2x),1,(4x + 2))
1: loop(\(x,i).(x3 + 2x),1,((x2 + 3x + 2) div 2))
1: loop(\(x,i).(x3 + 2x),1,((x2 + ~x) div 2))
1: loop(\(x,i).(x3 + 2x),1,loop(\(x,i).2x,x,1))
1: loop(\(x,i).(x3 + 2x),1,loop(\(x,i).(x * i),x,1))
1: loop(\(x,i).(x3 + 2x),2,2x)
1: loop(\(x,i).(x3 + 2x),2x,2)
1: loop(\(x,i).(x3 + 2x),x,x)
1: loop(\(x,i).(x3 + 2x2 + 3x + 6),2,x)
1: loop(\(x,i).(x3 + 3x),2,(x + ~2))
1: loop(\(x,i).(x3 + 3x),2,(x div 4))
1: loop(\(x,i).(x3 + 3x),2,x)
1: loop(\(x,i).(x3 + 3x),(x + 1),2)
1: loop(\(x,i).(x3 + 3x),x,1)
1: loop(\(x,i).(x3 + 3x),x,3)
1: loop(\(x,i).(x3 + 3x),x,5)
1: loop(\(x,i).(x3 + 3x),x,7)
1: loop(\(x,i).(x3 + 3x),x,9)
1: loop(\(x,i).(x3 + 3x),x,13)
1: loop(\(x,i).(x3 + 3x),x,11)
1: loop(\(x,i).(x3 + 3x),x,15)
1: loop(\(x,i).(x3 + 3x),x,6)
1: loop(\(x,i).(x3 + 3x),x,8)
1: loop(\(x,i).(x3 + 3x),x,12)
1: loop(\(x,i).(x3 + 3x),x,10)
1: loop(\(x,i).(2x2 + 8),2,2x)
1: loop(\(x,i).(x * ((x2 + 1) + i)),2,2)
1: loop(\(x,i).(x * ((x2 + 2) + i)),2,x)
1: loop(\(x,i).(x * (1 + (2 * i))),4,1)
1: loop(\(x,i).(x * (1 + (2 * i))),(1 + (if x <= 0 then 1 else 2)),(x + 1))
1: loop(\(x,i).(x * (1 + (2 * i))),(x + 1),(x + 1))
1: loop(\(x,i).(x * (1 + (2 * i))),2x,1)
1: loop(\(x,i).(x * (1 + (2 * i))),2x,loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),x,1))
1: loop(\(x,i).(x * (1 + (2 * i))),(x2 div (x - ((~x + 2) div 2))),1)
1: loop(\(x,i).(x * (1 + (2 * i))),(x div 2),1)
1: loop(\(x,i).(x * (1 + (2 * i))),(x div 2),2)
1: loop(\(x,i).(x * (1 + (2 * i))),x,1)
1: loop(\(x,i).(x * (1 + (2 * i))),x,(1 mod loop(\(x,i).x2,(x + ~1),2)))
1: loop(\(x,i).(x * (1 + (2 * i))),i,x)
1: loop(\(x,i).(2 * (x + (2 * i))),(x + 1),1)
1: loop(\(x,i).(2 * (x + (2 * i))),(x + 2),0)
1: loop(\(x,i).(2 * (x + (2 * i))),x,1)
1: loop(\(x,i).(x * (x + (2 * i))),2,(2x + 1))
1: loop(\(x,i).(x * (x + (2 * i))),x,1)
1: loop(\(x,i).(2 * (1 + (x * i))),x,2)
1: loop(\(x,i).((x + 1) * (1 + (x * i))),2,x)
1: loop(\(x,i).(2x * (1 + (x * i))),2,x)
1: loop(\(x,i).((1 + (x * i)) * (i div 2)),x,1)
1: loop(\(x,i).(x * (1 + (x * i))),2,3)
1: loop(\(x,i).(x * (1 + (x * i))),2,x)
1: loop(\(x,i).(x * (1 + (x * i))),3x,1)
1: loop(\(x,i).((1 + (x * i)) * i),x,0)
1: loop(\(x,i).((1 + (x * i)) * i),x,1)
1: loop(\(x,i).(x * (2 + (x * i))),4,2)
1: loop(\(x,i).(2 * ((x * i) + (x div 2))),(x + ~1),1)
1: loop(\(x,i).(2 * ((x * i) + (x div 2))),x,1)
1: loop(\(x,i).(2 * ((x * i) + (i div 2))),x,0)
1: loop(\(x,i).(x * (1 + (i * i))),x,1)
1: loop(\(x,i).(((x + ~2) + (i * i)) * (1 + i)),x,0)
1: loop(\(x,i).((x + 1) * (x + (i * i))),2,x)
1: loop(\(x,i).(x * (x + (i * i))),2,x)
1: loop(\(x,i).(x * (x + (i * i))),4,2)
1: loop(\(x,i).((x + (i * i)) * i),x,0)
1: loop(\(x,i).((x + (i * i)) * i),x,(x + 1))
1: loop(\(x,i).(2 * (2 + (((x + 1) + ((x mod (1 + (2 * (16 mod (x + 1))))) mod 2)) div 2))),x,1)
1: loop(\(x,i).(2 * (1 + ((1 + ((1 + ((1 + ((1 + ((1 + ((1 + loop(\(x,i).2x,(1 + (2 * (2x mod 5))),(x div 2))) div 3)) div 2)) div 2)) div 2)) div 2)) div 2))),x,1)
1: loop(\(x,i).(2 * (1 + ((1 + ((1 + ((1 + (((x + 1) * ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3)) div 2)) div 2)) div 2)) div 2))),1,(x + 1))
1: loop(\(x,i).(2 * (1 + ((x + (x6 div (5x + 1))) div 2))),x,1)
1: loop(\(x,i).(2 * (x + ((1 + (((1 + (((x + 1) * (x3 div 8)) div 2)) div 2) div 2)) div 2))),x,1)
1: loop(\(x,i).((1 + ((1 + (x div 2)) div 2)) * i),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).(2 * (1 + ((x + (x div 2)) div 4))),3,x)
1: loop(\(x,i).(x * (1 + ((1 + i) div 2))),x,1)
1: loop(\(x,i).(x * (1 + ((1 + i) div 2))),x,2)
1: loop(\(x,i).(2 * (1 + ((loop(\(x,i).7x,x,1) - loop(\(x,i).(3x + 2),x,0)) div (x + 1)))),1,i)
1: loop(\(x,i).(2 * (x + ((x - (i mod 2)) div 2))),x,1)
1: loop(\(x,i).(x * (2 + ((x - i) div 2))),x,1)
1: loop(\(x,i).(2 * (x + ((x - i) div 3))),x,1)
1: loop(\(x,i).(2 * (4x + (3x div (if i <= 0 then 1 else i)))),x,1)
1: loop(\(x,i).(4 * (x + (3x div (if i <= 0 then 1 else i)))),x,1)
1: loop(\(x,i).(7 * (x + (3x div (if i <= 0 then 1 else i)))),x,1)
1: loop(\(x,i).(8 * (x + (3x div (if i <= 0 then 1 else i)))),x,1)
1: loop(\(x,i).(3 * (x + (5x div (if i <= 0 then 1 else i)))),x,1)
1: loop(\(x,i).(7 * (x + (5x div (if i <= 0 then 1 else i)))),x,1)
1: loop(\(x,i).(9 * (x + (5x div (if i <= 0 then 1 else i)))),x,1)
1: loop(\(x,i).(3 * (x + (7x div (if i <= 0 then 1 else i)))),x,1)
1: loop(\(x,i).(5 * (x + (7x div (if i <= 0 then 1 else i)))),x,1)
1: loop(\(x,i).(9 * (x + (7x div (if i <= 0 then 1 else i)))),x,1)
1: loop(\(x,i).(2 * (x + (9x div (if i <= 0 then 1 else i)))),x,1)
1: loop(\(x,i).(5 * (x + (9x div (if i <= 0 then 1 else i)))),x,1)
1: loop(\(x,i).(3 * (2x + (10x div (1 + i)))),x,1)
1: loop(\(x,i).(2 * (x + (10x div (if i <= 0 then 1 else i)))),x,1)
1: loop(\(x,i).(3 * (x + (10x div (if i <= 0 then 1 else i)))),x,1)
1: loop(\(x,i).(4 * (x + (10x div (if i <= 0 then 1 else i)))),x,1)
1: loop(\(x,i).(5 * (x + (10x div (if i <= 0 then 1 else i)))),x,1)
1: loop(\(x,i).(8 * (x + (10x div (if i <= 0 then 1 else i)))),x,1)
1: loop(\(x,i).(5 * (x + ((2x * (~1 + (2 * i))) div (1 + i)))),(x + ~1),1)
1: loop(\(x,i).(5 * (x + ((2x * (~1 + (2 * i))) div (1 + i)))),x,(x + 1))
1: loop(\(x,i).(3 * (x + (8x div (1 + i)))),x,(x + 1))
1: loop(\(x,i).(9 * (x + (8x div (1 + i)))),x,1)
1: loop(\(x,i).(9 * (x + (8x div (1 + i)))),x,(x + 1))
1: loop(\(x,i).(3 * (x + (8x div (if i <= 0 then 1 else i)))),x,1)
1: loop(\(x,i).(4 * (x + (8x div (if i <= 0 then 1 else i)))),x,1)
1: loop(\(x,i).(5 * (x + (8x div (if i <= 0 then 1 else i)))),x,1)
1: loop(\(x,i).(7 * (x + (8x div (if i <= 0 then 1 else i)))),x,1)
1: loop(\(x,i).(9 * (x + (8x div (if i <= 0 then 1 else i)))),x,1)
1: loop(\(x,i).(5 * (2x + (18x div (1 + i)))),x,1)
1: loop(\(x,i).(5 * (x + (4x div (1 + i)))),x,1)
1: loop(\(x,i).(5 * (x + (4x div (1 + i)))),x,(x + 1))
1: loop(\(x,i).((x + (4x div (1 + i))) * (2 + i)),x,(x + 1))
1: loop(\(x,i).(3 * (x + (4x div (if i <= 0 then 1 else i)))),x,1)
1: loop(\(x,i).(5 * (x + (4x div (if i <= 0 then 1 else i)))),x,1)
1: loop(\(x,i).(7 * (x + (6x div (1 + i)))),x,1)
1: loop(\(x,i).(7 * (x + (6x div (1 + i)))),x,(x + 1))
1: loop(\(x,i).((x + (6x div (1 + i))) * (2 + i)),x,(x + 1))
1: loop(\(x,i).(5 * (x + (6x div (if i <= 0 then 1 else i)))),x,1)
1: loop(\(x,i).(3 * (x + ((2x * i) div (1 + i)))),x,1)
1: loop(\(x,i).(3 * (1 + ((2 * (x div 2)) div 3))),(x div 2),x)
1: loop(\(x,i).(2 * (6x + (2x div (1 + i)))),x,1)
1: loop(\(x,i).(2 * (x + (2x div (1 + i)))),x,3)
1: loop(\(x,i).(3 * (x + (2x div (1 + i)))),x,1)
1: loop(\(x,i).(3 * (x + (2x div (1 + i)))),x,(x + 1))
1: loop(\(x,i).(9 * (x + (2x div (1 + i)))),x,(x + 1))
1: loop(\(x,i).(3 * (1 + (x2 div 2))),x,0)
1: loop(\(x,i).((2 + (x2 div 2)) * i),(x + ~1),1)
1: loop(\(x,i).(x * (x + (x2 div (x + 2)))),x,2)
1: loop(\(x,i).(x * (1 + ((2 * i) div 3))),(x + ~1),1)
1: loop(\(x,i).((x + 1) * (1 + ((x * i) div 2))),x,1)
1: loop(\(x,i).(2 * (x + ((x * i) div (1 + i)))),(x + 1),x)
1: loop(\(x,i).(2 * (1 + (((1 + (x mod ((1 + (x mod (1 + (x div 4)))) * (1 + (x mod 2))))) mod (x + 1)) div 2))),1,i)
1: loop(\(x,i).(2 * (x + ((x mod 3) div 2))),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).(2 * (x + ((x mod (2 + (2x2 mod 30))) div 2))),x,1)
1: loop(\(x,i).(2 * (2 + ((if x <= 0 then 2 else (~2 + loop(\(x,i).4x,(x + 1),2))) div 2))),x,2)
1: loop(\(x,i).(2 * (1 + (x div 2))),x,7)
1: loop(\(x,i).(3 * (1 + (x div 2))),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).(2 * (2x + (x div 2))),x,5)
1: loop(\(x,i).(2 * ((2x + (x div 2)) * i)),x,1)
1: loop(\(x,i).(2 * (x + (x div 2))),(2x + ~1),1)
1: loop(\(x,i).(2 * (x + (x div 2))),(x + ~1),1)
1: loop(\(x,i).(2 * (x + (x div 2))),2x,1)
1: loop(\(x,i).(2 * (x + (x div 2))),x,7)
1: loop(\(x,i).(2 * (x + (x div 2))),x,(2 + (x mod 2)))
1: loop(\(x,i).(4 * (x + (x div 2))),(x + ~1),1)
1: loop(\(x,i).(4 * (x + (x div 2))),x,1)
1: loop(\(x,i).((x + (x div 2)) * (1 + (x mod 2))),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).((x + 2) * (x + (x div 2))),2,2)
1: loop(\(x,i).((x + 2) * (x + (x div 2))),2,3)
1: loop(\(x,i).(2 * ((x + (x div 2)) * i)),(x + ~1),1)
1: loop(\(x,i).(2 * ((x + (x div 2)) * i)),x,1)
1: loop(\(x,i).(x * (x + (x div 2))),1,(1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))
1: loop(\(x,i).(x * (x + (x div 2))),1,(1 + loop(\(x,i).3x,x,2)))
1: loop(\(x,i).(x * (x + (x div 2))),1,loop(\(x,i).(3x + 4),x,0))
1: loop(\(x,i).(x * (x + (x div 2))),1,loop(\(x,i).3x,x,1))
1: loop(\(x,i).(x * (x + (x div 2))),(x + ~1),x)
1: loop(\(x,i).(x * (1 + (x div 3))),1,((x + 2) - ((x mod 3) div 2)))
1: loop(\(x,i).(2 * (2 + (x div 3))),(~1 + (2x mod (4 + (x div 4)))),1)
1: loop(\(x,i).(x * (1 + (x div 5))),1,(13x + 13))
1: loop(\(x,i).(x * (1 + (x div 5))),x,6)
1: loop(\(x,i).(x * (2 + (x div 5))),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).(2 * (x + (x div (4 + i)))),x,1)
1: loop(\(x,i).(2 * (x + (x div (1 + (4 * i))))),x,1)
1: loop(\(x,i).(3 * (x + (x div (1 + i)))),x,1)
1: loop(\(x,i).(2 * (4x + (x div (if i <= 0 then 1 else i)))),(x + 1),1)
1: loop(\(x,i).(2 * (2x + (x div (if i <= 0 then 1 else i)))),(x + 1),(x + 1))
1: loop(\(x,i).(2 * (2x + (x div (if i <= 0 then 1 else i)))),(2x + ~1),2)
1: loop(\(x,i).(2 * (2x + (x div (if i <= 0 then 1 else i)))),(2x + ~1),x)
1: loop(\(x,i).(2 * (2x + (x div (if i <= 0 then 1 else i)))),(x + ~1),x)
1: loop(\(x,i).(2 * (2x + (x div (if i <= 0 then 1 else i)))),(~1 + i),1)
1: loop(\(x,i).(2 * (2x + (x div (if i <= 0 then 1 else i)))),(x div 2),1)
1: loop(\(x,i).(2 * (2x + (x div (if i <= 0 then 1 else i)))),x,2)
1: loop(\(x,i).(2 * (2x + (x div (if i <= 0 then 1 else i)))),x,3)
1: loop(\(x,i).(2 * (2x + (x div (if i <= 0 then 1 else i)))),x,(2x + 1))
1: loop(\(x,i).(x * (1 + (i div 2))),x,2x)
1: loop(\(x,i).(x * (1 + (i div 2))),i,1)
1: loop(\(x,i).(x * (1 + ((i div 2) + i))),2x,1)
1: loop(\(x,i).(x * (1 + ((i div 2) + i))),x,1)
1: loop(\(x,i).(x * ((i div 2) + (2 * i))),(x + 1),1)
1: loop(\(x,i).(2 * (x + (i div 2))),x,0)
1: loop(\(x,i).(x * ((i div 2) + i)),(2x + 1),1)
1: loop(\(x,i).(x * ((i div 2) + i)),(x + 1),1)
1: loop(\(x,i).((x + ~1) * (2 + (i div 3))),x,1)
1: loop(\(x,i).(x * ((i div 3) + i)),(x + 1),1)
1: loop(\(x,i).(x * (1 + (i div (1 + (2 * (if (x mod 5) <= 0 then 0 else 2)))))),x,1)
1: loop(\(x,i).(2 * (x + (2 mod (1 + (x div 4))))),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).(x * (2 + (4 mod (x + 2)))),x,1)
1: loop(\(x,i).(x * (1 + ((1 + loop(\(x,i).((x2 + x) div 2),2,7)) mod (x + 1)))),x,1)
1: loop(\(x,i).(x * (2 + ((1 + i) mod 3))),x,2)
1: loop(\(x,i).(2 * (x + ((1 + i) mod 4))),x,1)
1: loop(\(x,i).(2 * (x + ((x + i) mod 2))),x,1)
1: loop(\(x,i).(x * (1 + ((1 - (2x mod (4 + (x div 4)))) mod (x + 1)))),(x + 1),1)
1: loop(\(x,i).((x + 1) * (1 + ((~x + 2) mod 4))),x,5)
1: loop(\(x,i).(x * (1 + ((~1 + loop(\(x,i).12x,(x + 1),1)) mod (x + 1)))),x,1)
1: loop(\(x,i).(x * (2 + ((x + ~1) mod 3))),x,1)
1: loop(\(x,i).(2 * (x + ((x + ~1) mod 3))),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).(x * (2 + ((~1 + i) mod 3))),x,1)
1: loop(\(x,i).(x * (2 + ((~1 + i) mod 4))),x,1)
1: loop(\(x,i).(2 * (2 + ((2x + 2) mod (2 - (x div ~2))))),x,1)
1: loop(\(x,i).(2 * (3 + (x3 mod (1 + (6 * (1 + (4 * (x mod 2)))))))),(x div 2),(x mod 2))
1: loop(\(x,i).(x * (2 + (((1 + (x div 2)) div 2) mod 2))),x,1)
1: loop(\(x,i).(x * (2 + (((x div 2) div 3) mod 2))),x,1)
1: loop(\(x,i).(2 * (x + ((i div 2) mod 2))),(x + 1),1)
1: loop(\(x,i).((2x + 1) * (1 + (x mod 2))),x,(1 + (x mod 2)))
1: loop(\(x,i).((1 + (x mod 2)) * (x div 2)),1,((x2 + x) div 2))
1: loop(\(x,i).((x + 1) * (2 + (x mod 2))),(x div 2),(1 + (2 * (x mod 2))))
1: loop(\(x,i).(x * (2 + (x mod 2))),1,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))
1: loop(\(x,i).(x * (2 + (x mod 2))),(x div 2),(1 + (x mod 2)))
1: loop(\(x,i).(x * (2 + (x mod 2))),x,(x + 1))
1: loop(\(x,i).(2 * (2x + (x mod 2))),(x + ~1),1)
1: loop(\(x,i).(2 * (2x + (x mod 2))),x,1)
1: loop(\(x,i).(2 * (x + (x mod 2))),(x + ~1),1)
1: loop(\(x,i).((x + (x mod 2)) * (1 + i)),2x,x)
1: loop(\(x,i).(x * (6 + (x mod 4))),x,1)
1: loop(\(x,i).(x * (2 + (x mod (2 + (x div 5))))),x,1)
1: loop(\(x,i).(x * (2 + (i mod 2))),(x + 1),1)
1: loop(\(x,i).(x * (2 + (i mod 2))),(x + 1),(x + 1))
1: loop(\(x,i).(x * (2 + (i mod 2))),(x2 + ~x),1)
1: loop(\(x,i).(x * (2 + (i mod 2))),x,2)
1: loop(\(x,i).(x * (2 + (i mod 2))),x,(x + 1))
1: loop(\(x,i).(x * (~1 + ((i mod 2) + i))),2x,1)
1: loop(\(x,i).(2 * (2x + (i mod 2))),(x + ~1),1)
1: loop(\(x,i).(2 * (2x + (i mod 2))),x,0)
1: loop(\(x,i).(2 * (2x + (i mod 2))),x,1)
1: loop(\(x,i).((2x + (i mod 2)) * (if x <= 0 then 1 else 2)),x,0)
1: loop(\(x,i).(x * (2x + (i mod 2))),2,3)
1: loop(\(x,i).(2 * (x + (i mod 2))),(x + 1),x)
1: loop(\(x,i).(2 * (x + (i mod 2))),(x + ~1),0)
1: loop(\(x,i).(2 * (x + (i mod 2))),(x + ~2),1)
1: loop(\(x,i).(2 * (x + (i mod 2))),(x div 2),1)
1: loop(\(x,i).(2 * (x + (i mod 2))),x,(x + 2))
1: loop(\(x,i).(2 * (x + (i mod 2))),x,~1)
1: loop(\(x,i).(2 * (x + (i mod 2))),x,x)
1: loop(\(x,i).(3 * (x + (i mod 2))),(x + 1),1)
1: loop(\(x,i).((x + (i mod 2)) * (1 + (2 * i))),x,(1 + (2 * (x mod 2))))
1: loop(\(x,i).((x + 1) * (x + (i mod 2))),3,2)
1: loop(\(x,i).(x * (x + (i mod 2))),(x2 + ~2x),1)
1: loop(\(x,i).(x * (x + (i mod 2))),x,1)
1: loop(\(x,i).((x + (i mod 2)) * i),x,1)
1: loop(\(x,i).(x * ((i mod 2) + i)),(x + 1),2)
1: loop(\(x,i).(x * ((i mod 2) + i)),x,1)
1: loop(\(x,i).(x * ((i mod 2) + i)),x,((x + 1) div 2))
1: loop(\(x,i).(x * (2 + (i mod 3))),x,1)
1: loop(\(x,i).(x * (2 + (if (~x + 4) <= 0 then x else 1))),x,1)
1: loop(\(x,i).(x * (2 + (if (~x + 2) <= 0 then 2 else 1))),x,1)
1: loop(\(x,i).(x * (2 + (if (~x + 2) <= 0 then 8 else 1))),x,1)
1: loop(\(x,i).(2 * (4x + (if (x + ~2) <= 0 then 1 else x))),x,0)
1: loop(\(x,i).((x + (if (x + ~2) <= 0 then 1 else x)) * (x div 2)),x,2)
1: loop(\(x,i).(x * (1 + (if (x + ~2) <= 0 then 2 else i))),(x + ~1),x)
1: loop(\(x,i).(x * (1 + (if (x + ~2) <= 0 then x else 1))),x,1)
1: loop(\(x,i).(x * (2 + (if (x + ~4) <= 0 then 1 else 2))),2x,1)
1: loop(\(x,i).(x * (2 + (if (~2 + i) <= 0 then x else 2))),2x,1)
1: loop(\(x,i).(x * (2 + (if (~2 + i) <= 0 then i else 1))),x,1)
1: loop(\(x,i).(x * (1 + (if (~x + i) <= 0 then 0 else i))),(x div 2),1)
1: loop(\(x,i).(x * ((if (x mod 2) <= 0 then 2 else 0) + (x div 2))),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(x * (1 + (if (x mod 2) <= 0 then 6 else (1 + i)))),x,1)
1: loop(\(x,i).(x * (1 + (if (x mod 2) <= 0 then 16 else 1))),1,i)
1: loop(\(x,i).(3 * (2x + (if (x mod 4) <= 0 then 1 else 0))),(x + 1),1)
1: loop(\(x,i).(x * (1 + (if (x mod 9) <= 0 then 0 else 2))),2,x)
1: loop(\(x,i).(x * (1 + (if (x mod (1 + i)) <= 0 then 0 else i))),(x div 2),1)
1: loop(\(x,i).((x + 1) * (2x + (if (i mod 2) <= 0 then 1 else x))),2,x)
1: loop(\(x,i).((x + (if (i mod 2) <= 0 then 1 else i)) * i),x,1)
1: loop(\(x,i).(2 * (x + (if (i mod 2) <= 0 then 2 else 0))),x,~1)
1: loop(\(x,i).(x * ((if (i mod 2) <= 0 then 2 else i) + i)),2x,1)
1: loop(\(x,i).(x * (1 + (if (i mod 2) <= 0 then 4 else 1))),x,3)
1: loop(\(x,i).(2 * (x + (if (i mod 2) <= 0 then 2x else 0))),x,1)
1: loop(\(x,i).((x + (if (i mod 2) <= 0 then i else 1)) * i),x,0)
1: loop(\(x,i).(x * (1 + (if (i mod 3) <= 0 then 0 else i))),x,1)
1: loop(\(x,i).((x + 1) * (1 + (if x <= 0 then 0 else i))),x,0)
1: loop(\(x,i).((x + 1) * (2 + (if x <= 0 then 1 else 2))),(x div 2),(x mod 2))
1: loop(\(x,i).(2 * (x + (if x <= 0 then 1 else (if (x mod (1 + (2 * (2x mod 3)))) <= 0 then (x div 3) else 1)))),x,1)
1: loop(\(x,i).((2x + 1) * (2 + (if x <= 0 then 1 else x))),(x + ~1),(x mod 2))
1: loop(\(x,i).(2 * ((if x <= 0 then 1 else x) + (i div 2))),x,0)
1: loop(\(x,i).((x + 1) * (2 + (if x <= 0 then 2 else 1))),x,0)
1: loop(\(x,i).(x * (2 + (if x <= 0 then 2 else (x - (if x <= 0 then 1 else (x div (2 - (i mod 2)))))))),x,1)
1: loop(\(x,i).(x * (1 + loop(\(x,i).(5x + 1),i,1))),(x + ~1),1)
1: loop(\(x,i).(x * (1 + loop(\(x,i).(7x + 1),i,1))),(x + ~1),1)
1: loop(\(x,i).(x * (1 + loop(\(x,i).(9x + 1),i,1))),(x + ~1),1)
1: loop(\(x,i).(x * (1 + loop(\(x,i).(10x + 1),i,1))),(x + ~1),1)
1: loop(\(x,i).(x * (loop(\(x,i).(2x + 1),i,1) + (i mod 2))),x,1)
1: loop(\(x,i).(2 * (2x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1))),x,2)
1: loop(\(x,i).(2 * (2x + loop(\(x,i).(~1 + (2 * (x + (i mod 2)))),i,0))),x,1)
1: loop(\(x,i).((x + 1) * (1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x))),1,(x + 2))
1: loop(\(x,i).(2 * (2x + loop(\(x,i).3x,(~2 + (2 * i)),1))),x,1)
1: loop(\(x,i).(2 * (2x + loop(\(x,i).3x,(2 * i),2))),x,0)
1: loop(\(x,i).(3 * (x + loop(\(x,i).3x,((~1 + i) div 2),1))),x,1)
1: loop(\(x,i).(2 * (2x + loop(\(x,i).3x,i,1))),x,0)
1: loop(\(x,i).(x * (loop(\(x,i).3x,i,1) + loop(\(x,i).2x,i,1))),x,2)
1: loop(\(x,i).((x + loop(\(x,i).(x * (1 + (2 * i))),(~2 + i),1)) * i),x,0)
1: loop(\(x,i).(x * (1 + loop(\(x,i).(x2 + x),2,2))),(2x + 1),1)
1: loop(\(x,i).(x * (1 + loop(\(x,i).(x2 + x),2,2))),x,1)
1: loop(\(x,i).(3 * (x + loop(\(x,i).(x2 + x),2,2))),x,1)
1: loop(\(x,i).(3 * (x + loop(\(x,i).(2x + 4),i,0))),(x + 1),0)
1: loop(\(x,i).(x * (1 + loop(\(x,i).(~2x + 2),(~1 + i),1))),x,1)
1: loop(\(x,i).(2 * (loop(\(x,i).(x * (~1 + (2 * i))),i,1) + (x * i))),x,1)
1: loop(\(x,i).(x * (1 + loop(\(x,i).10x,(1 + i),x))),2,x)
1: loop(\(x,i).(2 * (1 + loop(\(x,i).(2x * (2 + i)),4x,1))),x,1)
1: loop(\(x,i).(x * (1 + loop(\(x,i).4x,(1 + i),x))),x,3)
1: loop(\(x,i).(2 * (4x + loop(\(x,i).4x,i,1))),i,1)
1: loop(\(x,i).(x * (1 + loop(\(x,i).6x,(x + ~2),x))),x,1)
1: loop(\(x,i).(x * (1 + loop(\(x,i).6x,(x + ~2),x))),x,2)
1: loop(\(x,i).(5 * (x + loop(\(x,i).6x,(~1 + i),1))),x,1)
1: loop(\(x,i).(x * (1 + loop(\(x,i).(2x2 + 2x),(1 + i),3))),x,1)
1: loop(\(x,i).(x * (1 + loop(\(x,i).(2x2 + 2x),i,2))),x,1)
1: loop(\(x,i).(x * (1 + loop(\(x,i).(2x2 + 2x),i,5))),x,1)
1: loop(\(x,i).((x + loop(\(x,i).(x * (i * i)),(~1 + i),1)) * i),x,0)
1: loop(\(x,i).(5 * (x + loop(\(x,i).2x,(~1 + i),1))),x,1)
1: loop(\(x,i).(3 * (x + loop(\(x,i).2x,i,1))),(x + 1),1)
1: loop(\(x,i).(3 * (x + loop(\(x,i).2x,i,1))),x,3)
1: loop(\(x,i).((x + loop(\(x,i).2x,i,1)) * (1 + (2 * i))),x,1)
1: loop(\(x,i).(x * (2 + loop(\(x,i).x2,i,2))),x,2)
1: loop(\(x,i).((x + loop(\(x,i).(x * i),(~1 + i),1)) * (1 + i)),(x + ~1),0)
1: loop(\(x,i).((x + loop(\(x,i).(x * i),(~1 + i),1)) * (1 + i)),(x + ~1),1)
1: loop(\(x,i).((x + loop(\(x,i).(x * i),(~1 + i),1)) * (1 + i)),x,0)
1: loop(\(x,i).((x + 1) * (x + loop(\(x,i).(x * i),i,1))),x,1)
1: loop(\(x,i).((x + loop(\(x,i).(x * i),i,1)) * (2 + i)),(x + 1),0)
1: loop(\(x,i).((x + loop(\(x,i).(x * i),i,1)) * (2 + i)),x,2)
1: loop(\(x,i).((x + loop(\(x,i).(x * i),i,1)) * i),i,1)
1: loop(\(x,i).(x * (1 + loop(\(x,i).(if x <= 0 then 1 else x3),(~1 + i),4))),x,1)
1: loop(\(x,i).(x * (x + loop(\(x,i).loop(\(x,i).loop(\(x,i).x2,1,loop(\(x,i).((2 * (x - (2x * i))) div (1 + i)),x,1)),1,(x + ~1)),1,i))),x,1)
1: loop(\(x,i).(2x + 2),1,(1 - (x mod (2 * (1 + (x mod (2 * (2 + ((x + ~1) mod 3)))))))))
1: loop(\(x,i).(2x + 2),1,(x div (2 + (x div (1 + (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) mod 9))))))
1: loop(\(x,i).(2x + 2),3,(x + 1))
1: loop(\(x,i).(2x + 2),4,x)
1: loop(\(x,i).(2x + 2),(((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3) + (if x <= 0 then 0 else 1)),1)
1: loop(\(x,i).(2x + 2),(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),(x + ~1),x)),1)
1: loop(\(x,i).(2x + 2),(x + 2),2)
1: loop(\(x,i).(2x + 2),(2 - (loop(\(x,i).(2x + 2),x,0) mod (x + 1))),1)
1: loop(\(x,i).(2x + 2),(~3 + (x div 3)),1)
1: loop(\(x,i).(2x + 2),(~1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)),1)
1: loop(\(x,i).(2x + 2),((x div 2) - (x mod 2)),2)
1: loop(\(x,i).(2x + 2),(x + ~1),1)
1: loop(\(x,i).(2x + 2),(x + ~1),(if x <= 0 then 1 else ((2 + (loop(\(x,i).3x,(x + ~1),1) + loop(\(x,i).2x,x,1))) div 2)))
1: loop(\(x,i).(2x + 2),(x + ~2),2)
1: loop(\(x,i).(2x + 2),(x + ~2),(1 + loop(\(x,i).2x,x,1)))
1: loop(\(x,i).(2x + 2),6,4x)
1: loop(\(x,i).(2x + 2),36,0)
1: loop(\(x,i).(2x + 2),(2 * (x div 7)),1)
1: loop(\(x,i).(2x + 2),2x,1)
1: loop(\(x,i).(2x + 2),((x + 1) div 2),0)
1: loop(\(x,i).(2x + 2),((5x + 13) div 2),1)
1: loop(\(x,i).(2x + 2),(2x div (4 + (x div 2))),1)
1: loop(\(x,i).(2x + 2),(((x + 1) div 2) div 3),1)
1: loop(\(x,i).(2x + 2),(x div 2),0)
1: loop(\(x,i).(2x + 2),(x div 2),(2 * (1 + (x mod 2))))
1: loop(\(x,i).(2x + 2),(x div (4 + (x mod 2))),2)
1: loop(\(x,i).(2x + 2),((1 + (x mod 8)) mod (x + 1)),1)
1: loop(\(x,i).(2x + 2),(loop(\(x,i).x2,4,2) mod (x + 1)),1)
1: loop(\(x,i).(2x + 2),(if ((x + 2) mod 4) <= 0 then 0 else 1),(x div (2 - (x mod 2))))
1: loop(\(x,i).(2x + 2),(if x <= 0 then 1 else (2 * (1 + (x div (2 + (x div (1 + (x mod (2 * (1 + (x mod 2))))))))))),1)
1: loop(\(x,i).(2x + 2),loop(\(x,i).(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1,(x + (x div 4))),x)
1: loop(\(x,i).(2x + 2),loop(\(x,i).(x div (1 + (x mod 2))),x,x),1)
1: loop(\(x,i).(2x + 2),x,3)
1: loop(\(x,i).(2x + 2),x,5)
1: loop(\(x,i).(2x + 2),x,(x + 4))
1: loop(\(x,i).(2x + 2),x,(3 - (x mod 2)))
1: loop(\(x,i).(2x + 2),x,(~x + 17))
1: loop(\(x,i).(2x + 2),x,(1 + ((2 * (1 + ((1 + ((compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + ((x + ~1) div 3)) div 2)) div 2))) div 3)))
1: loop(\(x,i).(2x + 2),x,(1 + (x mod 2)))
1: loop(\(x,i).(2x + 2),x,(1 + (if x <= 0 then 0 else 2)))
1: loop(\(x,i).(2x + 2),x,(2 + loop(\(x,i).2x,x,1)))
1: loop(\(x,i).(2x + 2),x,(x + 1))
1: loop(\(x,i).(2x + 2),x,~x)
1: loop(\(x,i).(2x + 2),x,(2 - (x mod 2)))
1: loop(\(x,i).(2x + 2),x,(~1 + (if x <= 0 then 2 else x)))
1: loop(\(x,i).(2x + 2),x,8)
1: loop(\(x,i).(2x + 2),x,(3x + 6))
1: loop(\(x,i).(2x + 2),x,16)
1: loop(\(x,i).(2x + 2),x,(4 * (x mod 2)))
1: loop(\(x,i).(2x + 2),x,(2 * (x mod 2)))
1: loop(\(x,i).(2x + 2),x,((x + 1) * (if x <= 0 then 1 else 4)))
1: loop(\(x,i).(2x + 2),x,(2 * loop(\(x,i).(2 * (x + i)),(x + ~1),0)))
1: loop(\(x,i).(2x + 2),x,(2 div (x + 1)))
1: loop(\(x,i).(2x + 2),x,((x2 + ~3x + 2) div 2))
1: loop(\(x,i).(2x + 2),x,(x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))))
1: loop(\(x,i).(2x + 2),x,(((x + ~1) mod (1 + (x mod 6))) mod 2))
1: loop(\(x,i).(2x + 2),x,(x mod 2))
1: loop(\(x,i).(2x + 2),x,(if ((x + 2) mod 5) <= 0 then 1 else 0))
1: loop(\(x,i).(2x + 2),x,(if (x mod 7) <= 0 then 1 else 0))
1: loop(\(x,i).(2x + 2),x,(if (x mod 9) <= 0 then 1 else 0))
1: loop(\(x,i).(2x + 2),x,(if (x mod (2 + (x mod 4))) <= 0 then 1 else 0))
1: loop(\(x,i).(2x + 2),x,(if (x mod 8) <= 0 then 1 else 0))
1: loop(\(x,i).(2x + 2),x,(if x <= 0 then 1 else 2))
1: loop(\(x,i).(2x + 2),x,(if x <= 0 then 1 else (2 * (1 + ((1 + ((x + ((1 + (((loop(\(x,i).3x,(x + ~1),loop(\(x,i).(x2 + x),1,loop(\(x,i).(x * i),x,1))) div 2) div 2) div 2)) div 2)) div 2)) div 2)))))
1: loop(\(x,i).(2x + 2),x,loop(\(x,i).(2x + ~6),x,0))
1: loop(\(x,i).(2x + 2),x,loop(\(x,i).2x,x,2))
1: loop(\(x,i).(2x + 2),x,x)
1: loop(\(x,i).(3x + 3),(1 + (x div 2)),(1 + (x mod 2)))
1: loop(\(x,i).(3x + 3),(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 1))),0)
1: loop(\(x,i).(3x + 3),(x + 1),x)
1: loop(\(x,i).(3x + 3),(x + 2),((x + 1) mod 2))
1: loop(\(x,i).(3x + 3),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).(3x + 3),(x div 2),(1 + (2 * (x mod 2))))
1: loop(\(x,i).(3x + 3),(if x <= 0 then 1 else x),(x mod 2))
1: loop(\(x,i).(3x + 3),x,3)
1: loop(\(x,i).(3x + 3),x,2x)
1: loop(\(x,i).(3x + 3),x,(if x <= 0 then 1 else 0))
1: loop(\(x,i).(x2 + x),1,(1 + (x div 2) - (2 * (x mod 2))))
1: loop(\(x,i).(x2 + x),1,(2 + (x div 2) - (x mod 2)))
1: loop(\(x,i).(x2 + x),1,(9x + 4))
1: loop(\(x,i).(x2 + x),1,((x3 + x2) + (x mod 2)))
1: loop(\(x,i).(x2 + x),1,(1 + ((if ((x + ~1) mod 3) <= 0 then 1 else x) * (x mod 2))))
1: loop(\(x,i).(x2 + x),1,(1 + (((x * (1 - ((x3 div 8) mod 2))) + (x mod 2)) div 3)))
1: loop(\(x,i).(x2 + x),1,(((2 * (4 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3) + (if x <= 0 then 0 else 1)))
1: loop(\(x,i).(x2 + x),1,(((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3) + (if x <= 0 then 0 else 1)))
1: loop(\(x,i).(x2 + x),1,(1 + ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3)))
1: loop(\(x,i).(x2 + x),1,(1 + (loop(\(x,i).(x * i),x,1) div 3)))
1: loop(\(x,i).(x2 + x),1,((x + 2) + loop(\(x,i).(~1 + loop(\(x,i).(x div (2 - ((x * (x div 2)) mod 2))),x,x)),(x + 1),(x + 1))))
1: loop(\(x,i).(x2 + x),1,(1 + loop(\(x,i).3x,x,(2 * (1 + loop(\(x,i).(x2 + ~x),1,loop(\(x,i).x2,x,2)))))))
1: loop(\(x,i).(x2 + x),1,(2 + loop(\(x,i).(x2 + x),1,(1 + loop(\(x,i).x3,x2,2x)))))
1: loop(\(x,i).(x2 + x),1,(1 + loop(\(x,i).10x,(x + 1),1)))
1: loop(\(x,i).(x2 + x),1,(1 + loop(\(x,i).10x,x,1)))
1: loop(\(x,i).(x2 + x),1,(1 + loop(\(x,i).10x,x,2)))
1: loop(\(x,i).(x2 + x),1,(1 + loop(\(x,i).4x,x,1)))
1: loop(\(x,i).(x2 + x),1,(1 + loop(\(x,i).x3,x2,2x)))
1: loop(\(x,i).(x2 + x),1,(1 + loop(\(x,i).(x * (i * i)),x,1)))
1: loop(\(x,i).(x2 + x),1,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(x2 + x),1,(1 + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x)))
1: loop(\(x,i).(x2 + x),1,(1 - ((2 + ((2 * (1 + ((if x <= 0 then 0 else ((2x + 1) - (if (x mod 4) <= 0 then (x div 4) else 0))) div 2))) div 3) - (x mod 2)) div 2)))
1: loop(\(x,i).(x2 + x),1,(1 - (loop(\(x,i).(2x + 1),2x,2) mod (x + 1))))
1: loop(\(x,i).(x2 + x),1,(2 - (3 * ((1 + (((1 + loop(\(x,i).((x * (x mod 2)) + (x div 2)),x,x)) div 2) div 2)) div 2))))
1: loop(\(x,i).(x2 + x),1,(2 - (if (x mod 3) <= 0 then x else 0)))
1: loop(\(x,i).(x2 + x),1,(2 - (if x <= 0 then 1 else ((x mod 2) - (((2x + 1) mod (1 - (x div ~4))) div 2)))))
1: loop(\(x,i).(x2 + x),1,(~1 + (loop(\(x,i).(2x + 2),x,2) mod loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))))
1: loop(\(x,i).(x2 + x),1,(~1 + (x mod (x - ((x + ~1) mod 8)))))
1: loop(\(x,i).(x2 + x),1,(~2 + loop(\(x,i).10x,(x + 1),2)))
1: loop(\(x,i).(x2 + x),1,(~1 + loop(\(x,i).x2,1,(2x + 4))))
1: loop(\(x,i).(x2 + x),1,((x + 1) - ((~x + ((x div 2) mod 2)) div 2)))
1: loop(\(x,i).(x2 + x),1,(~7x + ~4))
1: loop(\(x,i).(x2 + x),1,(x - (x2 div 8)))
1: loop(\(x,i).(x2 + x),1,(2 * (x + ((((x + 1) div (1 + (x mod 4))) mod 2) + (x div 3)))))
1: loop(\(x,i).(x2 + x),1,(18x + 8))
1: loop(\(x,i).(x2 + x),1,(2 * (1 + (compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) div 2))))
1: loop(\(x,i).(x2 + x),1,(x3 + 3x2 + x))
1: loop(\(x,i).(x2 + x),1,(x3 + 7x2 + 15x + 9))
1: loop(\(x,i).(x2 + x),1,(4x2 + 16x + 14))
1: loop(\(x,i).(x2 + x),1,(~4x + ~44))
1: loop(\(x,i).(x2 + x),1,(5 * ((x2 + x) div 2)))
1: loop(\(x,i).(x2 + x),1,((1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + ~1) div 2))) div 2))
1: loop(\(x,i).(x2 + x),1,((1 + ((x2 + ~x) div 2)) div 2))
1: loop(\(x,i).(x2 + x),1,((3x2 + 11x + 8) div 2))
1: loop(\(x,i).(x2 + x),1,(loop(\(x,i).(1 + ((x3 + x2) div 2)),x,1) div 2))
1: loop(\(x,i).(x2 + x),1,(loop(\(x,i).~2x,x,3) div 2))
1: loop(\(x,i).(x2 + x),1,((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) mod 10))
1: loop(\(x,i).(x2 + x),1,(if (~4 + (x div 2)) <= 0 then x else (x + 2)))
1: loop(\(x,i).(x2 + x),1,(if x <= 0 then 1 else (2 + (2 mod (if ((x + 1) mod (2 + ((x div 2) mod 2))) <= 0 then x else 1)))))
1: loop(\(x,i).(x2 + x),1,loop(\(x,i).(2x + i),x,0))
1: loop(\(x,i).(x2 + x),1,loop(\(x,i).(10x + 3),x,0))
1: loop(\(x,i).(x2 + x),1,loop(\(x,i).(2x + 5),x,2))
1: loop(\(x,i).(x2 + x),1,loop(\(x,i).(10x + 1),x,0))
1: loop(\(x,i).(x2 + x),1,loop(\(x,i).(2x2 + 1),(2x + 1),1))
1: loop(\(x,i).(x2 + x),1,loop(\(x,i).(x + (if x <= 0 then (1 + i) else 0)),x,(~x + 1)))
1: loop(\(x,i).(x2 + x),1,loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x))
1: loop(\(x,i).(x2 + x),1,loop(\(x,i).(~x + i),x,2))
1: loop(\(x,i).(x2 + x),1,loop(\(x,i).(4x + 4),x,4))
1: loop(\(x,i).(x2 + x),1,loop(\(x,i).(2x + 2),2x,2))
1: loop(\(x,i).(x2 + x),1,loop(\(x,i).(2x + 2),(x div 2),(1 + (x mod 2))))
1: loop(\(x,i).(x2 + x),1,loop(\(x,i).(2 * (2x - (x div (1 + i)))),x,1))
1: loop(\(x,i).(x2 + x),1,loop(\(x,i).10x,(x + 1),1))
1: loop(\(x,i).(x2 + x),1,loop(\(x,i).10x,x2,1))
1: loop(\(x,i).(x2 + x),1,loop(\(x,i).8x,x,1))
1: loop(\(x,i).(x2 + x),1,loop(\(x,i).12x,x,2))
1: loop(\(x,i).(x2 + x),1,loop(\(x,i).(10 * (if x <= 0 then 1 else x)),x,0))
1: loop(\(x,i).(x2 + x),1,loop(\(x,i).2x2,x,1))
1: loop(\(x,i).(x2 + x),1,loop(\(x,i).x3,x,2))
1: loop(\(x,i).(x2 + x),1,loop(\(x,i).(x * (i * i * i)),x,1))
1: loop(\(x,i).(x2 + x),1,loop(\(x,i).2x,(x + ~1),1))
1: loop(\(x,i).(x2 + x),1,loop(\(x,i).2x,i,1))
1: loop(\(x,i).(x2 + x),1,loop(\(x,i).x2,2,5))
1: loop(\(x,i).(x2 + x),1,loop(\(x,i).(x * i),(1 + compr(\x.(loop(\(x,i).(x3 + ~x2),2,x) mod (x + 1)),x)),1))
1: loop(\(x,i).(x2 + x),1,compr(\x.(1 + loop(\(x,i).(0 - (if (x mod (1 + i)) <= 0 then 0 else x)),(x div 2),x)),x))
1: loop(\(x,i).(x2 + x),2,3)
1: loop(\(x,i).(x2 + x),2,5)
1: loop(\(x,i).(x2 + x),2,17)
1: loop(\(x,i).(x2 + x),2,5x)
1: loop(\(x,i).(x2 + x),2,(12x + 6))
1: loop(\(x,i).(x2 + x),2,4x)
1: loop(\(x,i).(x2 + x),(x + 1),2)
1: loop(\(x,i).(x2 + x),(2 - ((2x + 1) mod ((x + 5) + (x div 4)))),1)
1: loop(\(x,i).(x2 + x),(2 - ((x + 2) mod 9)),1)
1: loop(\(x,i).(x2 + x),(((1 + (8 mod (1 + (x div 2)))) div 2) - (x mod 2)),1)
1: loop(\(x,i).(x2 + x),(x + ~1),1)
1: loop(\(x,i).(x2 + x),(x + ~1),(2x + 1))
1: loop(\(x,i).(x2 + x),(x + ~1),x)
1: loop(\(x,i).(x2 + x),(x + ~2),x)
1: loop(\(x,i).(x2 + x),(x - (4 * (1 + (x div 5)))),1)
1: loop(\(x,i).(x2 + x),2x2,1)
1: loop(\(x,i).(x2 + x),2x,1)
1: loop(\(x,i).(x2 + x),(4x div (x + 3)),1)
1: loop(\(x,i).(x2 + x),((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2),1)
1: loop(\(x,i).(x2 + x),(x div 2),1)
1: loop(\(x,i).(x2 + x),(x div 4),1)
1: loop(\(x,i).(x2 + x),x,2)
1: loop(\(x,i).(x2 + x),x,4)
1: loop(\(x,i).(x2 + x),x,5)
1: loop(\(x,i).(x2 + x),x,9)
1: loop(\(x,i).(x2 + x),x,13)
1: loop(\(x,i).(x2 + x),x,17)
1: loop(\(x,i).(x2 + x),x,(1 + (x div 4)))
1: loop(\(x,i).(x2 + x),x,8)
1: loop(\(x,i).(x2 + x),x,10)
1: loop(\(x,i).(x2 + x),x,14)
1: loop(\(x,i).(x2 + x),x,16)
1: loop(\(x,i).(x2 + x),x,x)
1: loop(\(x,i).((x + 1) * i),(1 + ((x * (x div 3)) mod (1 + ((2 - (x div 2)) mod 4)))),1)
1: loop(\(x,i).((x + 1) * i),(x + ~5),(x + 1))
1: loop(\(x,i).((x + 1) * i),(x div 2),2)
1: loop(\(x,i).((x + 1) * i),x,1)
1: loop(\(x,i).((x + 1) * i),x,(x + 1))
1: loop(\(x,i).((x + 1) * i),x,x)
1: loop(\(x,i).(2x + 4),5,2)
1: loop(\(x,i).(2x + 4),(x + 3),2)
1: loop(\(x,i).(2x + 4),(x + 3),3)
1: loop(\(x,i).(2x + 4),(x + 8),0)
1: loop(\(x,i).(2x + 4),(2x + 1),2)
1: loop(\(x,i).(2x + 4),(x + 1),3)
1: loop(\(x,i).(2x + 4),(x + 2),0)
1: loop(\(x,i).(2x + 4),(x + 2),2)
1: loop(\(x,i).(2x + 4),(2x + ~1),(1 + (x mod 2)))
1: loop(\(x,i).(2x + 4),(x + ~1),1)
1: loop(\(x,i).(2x + 4),(x + ~1),x)
1: loop(\(x,i).(2x + 4),(x + ~2),0)
1: loop(\(x,i).(2x + 4),(x + ~2),1)
1: loop(\(x,i).(2x + 4),((((x2 + 2x) mod 6) + (x div 2)) div 2),1)
1: loop(\(x,i).(2x + 4),((x + 1) div 2),2)
1: loop(\(x,i).(2x + 4),((x + 1) div 2),(2 - (x mod 2)))
1: loop(\(x,i).(2x + 4),(((x + 1) div 2) div 2),((x + 1) mod 4))
1: loop(\(x,i).(2x + 4),(x div 2),(1 + (4 * (x mod 2))))
1: loop(\(x,i).(2x + 4),(x div 2),(1 + (x mod 2)))
1: loop(\(x,i).(2x + 4),(x div 2),(2 + (x mod 2)))
1: loop(\(x,i).(2x + 4),(x div 3),(x mod 3))
1: loop(\(x,i).(2x + 4),((x + 1) mod 8),0)
1: loop(\(x,i).(2x + 4),x,(x + 5))
1: loop(\(x,i).(2x + 4),x,(4 + (x div 8)))
1: loop(\(x,i).(2x + 4),x,(3 + (x mod 2)))
1: loop(\(x,i).(2x + 4),x,9)
1: loop(\(x,i).(2x + 4),x,(1 + (loop(\(x,i).(2x + 4),x,1) div 2)))
1: loop(\(x,i).(2x + 4),x,(1 + (x mod 2)))
1: loop(\(x,i).(2x + 4),x,(x + 2))
1: loop(\(x,i).(2x + 4),x,(3x + 6))
1: loop(\(x,i).(2x + 4),x,(2x2 + ~2x))
1: loop(\(x,i).(2x + 4),x,(2 * (x mod 2)))
1: loop(\(x,i).(2x + 4),x,((x2 + ~x) div 2))
1: loop(\(x,i).(2x + 4),x,(x mod 2))
1: loop(\(x,i).(2x + 4),x,(if x <= 0 then 1 else 0))
1: loop(\(x,i).(2x + 4),x,loop(\(x,i).2x,(x div 2),(2 + (x mod 2))))
1: loop(\(x,i).(3x + 6),(x + ~1),0)
1: loop(\(x,i).(3x + 6),(x + ~1),(x + 2))
1: loop(\(x,i).(3x + 6),2x,2)
1: loop(\(x,i).(3x + 6),x,0)
1: loop(\(x,i).(x2 + 3x + 2),2,3)
1: loop(\(x,i).(x2 + 4x + 4),2,4)
1: loop(\(x,i).(x2 + 4x + 4),2,5)
1: loop(\(x,i).(x2 + 4x + 4),2,7)
1: loop(\(x,i).(x2 + 4x + 4),3,1)
1: loop(\(x,i).(x2 + 4x + 4),(x + 2),1)
1: loop(\(x,i).(x2 + x + ~2),x,2)
1: loop(\(x,i).(x2 + 2x),1,(~x + 3))
1: loop(\(x,i).(x2 + 2x),1,(x5 + 2))
1: loop(\(x,i).(x2 + 2x),1,(1 + ((x + 1) * loop(\(x,i).(x2 + 2x + 1),2,2))))
1: loop(\(x,i).(x2 + 2x),1,(((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3) + (if x <= 0 then 0 else 1)))
1: loop(\(x,i).(x2 + 2x),1,(x + (if (x + ~4) <= 0 then 1 else 2)))
1: loop(\(x,i).(x2 + 2x),1,((if (x mod 2) <= 0 then 2 else 0) + (x div 2)))
1: loop(\(x,i).(x2 + 2x),1,(~49x + ~40))
1: loop(\(x,i).(x2 + 2x),1,(x - (x div ~3)))
1: loop(\(x,i).(x2 + 2x),1,((x + 1) div (1 + (x div (2 + (x mod 2))))))
1: loop(\(x,i).(x2 + 2x),1,((x2 + 7x + 6) div 2))
1: loop(\(x,i).(x2 + 2x),1,(x div (~2 + ((~x + 2) div 4))))
1: loop(\(x,i).(x2 + 2x),1,(loop(\(x,i).(2x + 1),x,0) mod (x + 1)))
1: loop(\(x,i).(x2 + 2x),1,loop(\(x,i).(10x + 3),x,0))
1: loop(\(x,i).(x2 + 2x),1,loop(\(x,i).(10x + 6),x,0))
1: loop(\(x,i).(x2 + 2x),1,loop(\(x,i).(1 + (x * (2 + i))),x,1))
1: loop(\(x,i).(x2 + 2x),1,loop(\(x,i).(2x + (i mod 2)),x,0))
1: loop(\(x,i).(x2 + 2x),1,loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x))
1: loop(\(x,i).(x2 + 2x),1,loop(\(x,i).(((x + 1) - (2 * (i mod 2))) * i),x,1))
1: loop(\(x,i).(x2 + 2x),1,loop(\(x,i).10x,x,1))
1: loop(\(x,i).(x2 + 2x),1,loop(\(x,i).2x,x,2))
1: loop(\(x,i).(x2 + 2x),1,compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))
1: loop(\(x,i).(x2 + 2x),2,3)
1: loop(\(x,i).(x2 + 2x),2,4)
1: loop(\(x,i).(x2 + 2x),2,(2x + 1))
1: loop(\(x,i).(x2 + 2x),2,(~1 + (x mod (9 + (x mod 2)))))
1: loop(\(x,i).(x2 + 2x),2,(~3x + 6))
1: loop(\(x,i).(x2 + 2x),2,(6 * (1 + (2 * (x mod 2)))))
1: loop(\(x,i).(x2 + 2x),2,loop(\(x,i).2x,x,1))
1: loop(\(x,i).(x2 + 2x),3,2)
1: loop(\(x,i).(x2 + 2x),3,(6 * (x div 5)))
1: loop(\(x,i).(x2 + 2x),(2x + 1),10)
1: loop(\(x,i).(x2 + 2x),(2 - ((5x + 4) mod 18)),1)
1: loop(\(x,i).(x2 + 2x),(x + ~2),9)
1: loop(\(x,i).(x2 + 2x),(x2 + 3x + 2),2)
1: loop(\(x,i).(x2 + 2x),(x2 + ~x),(x + 1))
1: loop(\(x,i).(x2 + 2x),loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1)
1: loop(\(x,i).((x + 2) * i),4,loop(\(x,i).(2x + 2),x,2))
1: loop(\(x,i).((x + 2) * i),(x + ~1),(x + 3))
1: loop(\(x,i).((x + 2) * i),(x + ~1),(1 + (x2 div 2)))
1: loop(\(x,i).((x + 2) * i),8,1)
1: loop(\(x,i).((x + 2) * i),x,1)
1: loop(\(x,i).(2 * (1 + i)),((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2),1)
1: loop(\(x,i).((x + 1) * (1 + i)),(x + 1),1)
1: loop(\(x,i).((x + 1) * (1 + i)),(x + ~1),0)
1: loop(\(x,i).((x + 1) * (1 + i)),(x + ~2),0)
1: loop(\(x,i).((x + 1) * (1 + i)),x,~1)
1: loop(\(x,i).(x * (1 + i)),4,(x + 3))
1: loop(\(x,i).(x * (1 + i)),4,x)
1: loop(\(x,i).(x * (1 + i)),(x + ((x + (x div 2)) div 2)),1)
1: loop(\(x,i).(x * (1 + i)),(2 + (x div 4)),1)
1: loop(\(x,i).(x * (1 + i)),(x + ((x * (x div 2)) mod 2)),1)
1: loop(\(x,i).(x * (1 + i)),(2 + (if x <= 0 then 1 else 2)),(x + 1))
1: loop(\(x,i).(x * (1 + i)),(2 - (x div ~4)),1)
1: loop(\(x,i).(x * (1 + i)),(i - (x mod 2)),1)
1: loop(\(x,i).(x * (1 + i)),3x,1)
1: loop(\(x,i).(x * (1 + i)),(3 * i),x)
1: loop(\(x,i).(x * (1 + i)),(5 * i),x)
1: loop(\(x,i).(x * (1 + i)),(2 * (1 + ((x2 + 2x) div 2))),1)
1: loop(\(x,i).(x * (1 + i)),(x2 + x),1)
1: loop(\(x,i).(x * (1 + i)),16x,1)
1: loop(\(x,i).(x * (1 + i)),12x,1)
1: loop(\(x,i).(x * (1 + i)),18x,1)
1: loop(\(x,i).(x * (1 + i)),4x,2)
1: loop(\(x,i).(x * (1 + i)),(4 * i),x)
1: loop(\(x,i).(x * (1 + i)),2x,2)
1: loop(\(x,i).(x * (1 + i)),(2 * i),1)
1: loop(\(x,i).(x * (1 + i)),((2x + 1) div (3 + (x div 4))),1)
1: loop(\(x,i).(x * (1 + i)),((x + 1) div 2),1)
1: loop(\(x,i).(x * (1 + i)),(x div 2),1)
1: loop(\(x,i).(x * (1 + i)),(x div 2),(1 + (x mod 2)))
1: loop(\(x,i).(x * (1 + i)),(x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))),1)
1: loop(\(x,i).(x * (1 + i)),loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1)
1: loop(\(x,i).(x * (1 + i)),loop(\(x,i).2x,x,2),1)
1: loop(\(x,i).(x * (1 + i)),x,3)
1: loop(\(x,i).(x * (1 + i)),x,(x + 4))
1: loop(\(x,i).(x * (1 + i)),x,7)
1: loop(\(x,i).(x * (1 + i)),x,(x2 + x + 1))
1: loop(\(x,i).(x * (1 + i)),x,(2x + 1))
1: loop(\(x,i).(x * (1 + i)),x,(2 + ((x2 + x) div 2)))
1: loop(\(x,i).(x * (1 + i)),x,8)
1: loop(\(x,i).(x * (1 + i)),x,(x div 2))
1: loop(\(x,i).(x * (1 + i)),x,loop(\(x,i).((x + 1) + i),x,2))
1: loop(\(x,i).(x * (1 + i)),x,loop(\(x,i).(1 + (x * (1 + i))),x,1))
1: loop(\(x,i).(x * (1 + i)),i,x)
1: loop(\(x,i).(x * (1 + i)),compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x),1)
1: loop(\(x,i).((1 + i) * i),(x div 2),2)
1: loop(\(x,i).(x * (2 + i)),4,3)
1: loop(\(x,i).(x * (2 + i)),4,(2x + 1))
1: loop(\(x,i).(x * (2 + i)),5,2)
1: loop(\(x,i).(x * (2 + i)),5,(x + 1))
1: loop(\(x,i).(x * (2 + i)),(3x + 2),1)
1: loop(\(x,i).(x * (2 + i)),(2x + 1),2)
1: loop(\(x,i).(x * (2 + i)),(x + 1),4)
1: loop(\(x,i).(x * (2 + i)),(x + 1),(2x + 1))
1: loop(\(x,i).(x * (2 + i)),(x + 1),(1 + (x mod 2)))
1: loop(\(x,i).(x * (2 + i)),(x + 2),2)
1: loop(\(x,i).(x * (2 + i)),(x + 2),x)
1: loop(\(x,i).(x * (2 + i)),(1 + i),2)
1: loop(\(x,i).(x * (2 + i)),(x2 + 2x + ~1),1)
1: loop(\(x,i).(x * (2 + i)),(x + ~1),1)
1: loop(\(x,i).(x * (2 + i)),(x + ~1),(x + 1))
1: loop(\(x,i).(x * (2 + i)),(x + ~1),(x2 div 2))
1: loop(\(x,i).(x * (2 + i)),(x + ~2),3)
1: loop(\(x,i).(x * (2 + i)),(x + ~2),(2x + 1))
1: loop(\(x,i).(x * (2 + i)),(x + ~2),(x + 1))
1: loop(\(x,i).(x * (2 + i)),(~2 + i),1)
1: loop(\(x,i).(x * (2 + i)),3x,2)
1: loop(\(x,i).(x * (2 + i)),8,1)
1: loop(\(x,i).(x * (2 + i)),(13x + 13),1)
1: loop(\(x,i).(x * (2 + i)),(x4 + ~x),1)
1: loop(\(x,i).(x * (2 + i)),(16x + 16),1)
1: loop(\(x,i).(x * (2 + i)),(2 * i),2)
1: loop(\(x,i).(x * (2 + i)),(2 * i),x)
1: loop(\(x,i).(x * (2 + i)),(x div 2),1)
1: loop(\(x,i).(x * (2 + i)),(x div 2),2)
1: loop(\(x,i).(x * (2 + i)),(x mod 5),1)
1: loop(\(x,i).(x * (2 + i)),loop(\(x,i).(1 + (5 * (1 + i))),x,1),1)
1: loop(\(x,i).(x * (2 + i)),loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1)
1: loop(\(x,i).(x * (2 + i)),x,(x + 4))
1: loop(\(x,i).(x * (2 + i)),x,(x2 + 2x + 1))
1: loop(\(x,i).(x * (2 + i)),x,(4x + 3))
1: loop(\(x,i).(x * (2 + i)),x,(x2 + 3x + 2))
1: loop(\(x,i).(x * (2 + i)),compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x),1)
1: loop(\(x,i).(x * (2 + i)),compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i),2)
1: loop(\(x,i).(2 * (x + i)),(x + 1),(x + 3))
1: loop(\(x,i).(2 * (x + i)),(1 + i),1)
1: loop(\(x,i).(2 * (x + i)),(x + ~1),0)
1: loop(\(x,i).(2 * (x + i)),(x + ~1),(x + 2))
1: loop(\(x,i).(2 * (x + i)),(x div 2),2)
1: loop(\(x,i).(2 * (x + i)),x,3)
1: loop(\(x,i).(2 * (x + i)),x,(x + 6))
1: loop(\(x,i).(2 * (x + i)),x,(1 + (x mod 2)))
1: loop(\(x,i).(2 * (x + i)),x,(x + 1))
1: loop(\(x,i).(2 * (x + i)),x,(x + 2))
1: loop(\(x,i).(2 * (x + i)),x,2x)
1: loop(\(x,i).(2 * (x + i)),x,x)
1: loop(\(x,i).(3 * (x + i)),(x + 1),0)
1: loop(\(x,i).(3 * (x + i)),x,0)
1: loop(\(x,i).(4 * (x + i)),(x + 1),0)
1: loop(\(x,i).(4 * (x + i)),(x + ~1),0)
1: loop(\(x,i).((x + 1) * (x + i)),2,4)
1: loop(\(x,i).((x + 1) * (x + i)),2,2x)
1: loop(\(x,i).((x + 1) * (x + i)),x,2)
1: loop(\(x,i).((x + 2) * (x + i)),2,5)
1: loop(\(x,i).((x + 2) * (x + i)),2,x)
1: loop(\(x,i).((x + i) * (x + i)),x,1)
1: loop(\(x,i).((x + ~1) * (x + i)),2,(x + 2))
1: loop(\(x,i).(2x * (x + i)),2,2)
1: loop(\(x,i).(2x * (x + i)),2,4)
1: loop(\(x,i).(2x * (x + i)),x,4)
1: loop(\(x,i).(2x * (x + i)),x,x)
1: loop(\(x,i).(x * (x + i)),2,(x + 1))
1: loop(\(x,i).(x * (x + i)),2,(x + 2))
1: loop(\(x,i).(x * (x + i)),2,8)
1: loop(\(x,i).(x * (x + i)),2,i)
1: loop(\(x,i).(x * (x + i)),3,3)
1: loop(\(x,i).(x * (x + i)),3,(x div ~11))
1: loop(\(x,i).(x * (x + i)),(x + ~1),1)
1: loop(\(x,i).(x * (x + i)),2x,2)
1: loop(\(x,i).(x * (x + i)),(x div 2),2)
1: loop(\(x,i).(x * (x + i)),x,1)
1: loop(\(x,i).((x + i) * i),x,0)
1: loop(\(x,i).((x + i) * i),x,1)
1: loop(\(x,i).((x + i) * i),x,2)
1: loop(\(x,i).((1 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),i)) * (x div 2)),x,2)
1: loop(\(x,i).(x * (2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),i))),(x + 1),1)
1: loop(\(x,i).(x * (2 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),i))),(x + 1),1)
1: loop(\(x,i).(x * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))),(~1 + i),1)
1: loop(\(x,i).(x * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))),8,(x + 1))
1: loop(\(x,i).(x * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))),2x,1)
1: loop(\(x,i).(x * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))),x,2)
1: loop(\(x,i).(x * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))),x,12)
1: loop(\(x,i).(x * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))),x,1)
1: loop(\(x,i).(x * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i))),6,2)
1: loop(\(x,i).(x * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i))),8x,1)
1: loop(\(x,i).(x * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i))),2x,2)
1: loop(\(x,i).(x * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i))),x,1)
1: loop(\(x,i).(x * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i))),x,4)
1: loop(\(x,i).(x * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i))),x,8)
1: loop(\(x,i).(x * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i))),x,(2x + 2))
1: loop(\(x,i).(x * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i))),x,(if x <= 0 then 1 else 2))
1: loop(\(x,i).(~x3 + ~6x2 + ~8x),2,x)
1: loop(\(x,i).(~2x3 + ~2x2 + ~2x + ~2),2,1)
1: loop(\(x,i).(x * (0 - loop(\(x,i).~2x,i,x))),x,1)
1: loop(\(x,i).~2x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),1)
1: loop(\(x,i).~2x,((2x + ~1) + (x mod 2)),1)
1: loop(\(x,i).~2x,(x + ~1),1)
1: loop(\(x,i).~2x,(x + ~1),loop(\(x,i).(~2x + 1),x,0))
1: loop(\(x,i).~2x,(x + ~1),x)
1: loop(\(x,i).~2x,(x + ~2),1)
1: loop(\(x,i).~2x,(i * i),x)
1: loop(\(x,i).~2x,((x2 + x) div 4),1)
1: loop(\(x,i).~2x,(x div 2),((x + 1) mod 2))
1: loop(\(x,i).~2x,(x div 3),1)
1: loop(\(x,i).~2x,(x mod 3),(1 - (2 * (x mod 2))))
1: loop(\(x,i).~2x,x,(x + 4))
1: loop(\(x,i).~2x,x,(1 + (2 * (1 + (if x <= 0 then 2 else 0)))))
1: loop(\(x,i).~2x,x,(1 - (x mod 3)))
1: loop(\(x,i).~2x,x,~3)
1: loop(\(x,i).~2x,x,(~1 + loop(\(x,i).(~2x + 1),x,2)))
1: loop(\(x,i).~2x,x,(~1 + loop(\(x,i).~2x,x,8)))
1: loop(\(x,i).~2x,x,(x + ~1))
1: loop(\(x,i).~2x,x,6)
1: loop(\(x,i).~2x,x,8)
1: loop(\(x,i).~2x,x,loop(\(x,i).(~2x + ~2),x,2))
1: loop(\(x,i).~2x,x,loop(\(x,i).(~4x + 1),x,1))
1: loop(\(x,i).~2x,i,2)
1: loop(\(x,i).~2x,i,2x)
1: loop(\(x,i).~2x,i,i)
1: loop(\(x,i).~3x,(x + ~1),(1 + (2 * (if x <= 0 then 0 else 2))))
1: loop(\(x,i).~3x,(x + ~1),loop(\(x,i).(~2x + 1),x,0))
1: loop(\(x,i).~3x,((x + 1) div 2),1)
1: loop(\(x,i).~3x,(x div 2),1)
1: loop(\(x,i).~3x,x,2)
1: loop(\(x,i).~3x,x,(2 + (if x <= 0 then 2 else 1)))
1: loop(\(x,i).~3x,x,loop(\(x,i).(~3x + 1),x,1))
1: loop(\(x,i).~3x,x,loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,1))
1: loop(\(x,i).~3x,i,2x)
1: loop(\(x,i).~2x2,2,3x)
1: loop(\(x,i).~x2,2,6)
1: loop(\(x,i).~x2,4,3)
1: loop(\(x,i).(x * (0 - i)),(x + 1),1)
1: loop(\(x,i).(x * (0 - i)),(x + ~1),~1)
1: loop(\(x,i).(x * (0 - i)),x,loop(\(x,i).(~2x + 1),x,1))
1: loop(\(x,i).(x * (0 - i)),i,2x)
1: loop(\(x,i).(~7x + ~7),2,(x2 + 2x))
1: loop(\(x,i).(~7x + 14),x,1)
1: loop(\(x,i).(~11x + ~11),2,(x2 + 2x))
1: loop(\(x,i).(~10x2 + ~3x),2,x)
1: loop(\(x,i).(x * (1 - (x * (1 + (2 * i))))),2,2x)
1: loop(\(x,i).(4x * (1 - (2 * (2 + i)))),x,1)
1: loop(\(x,i).(~15x + ~15),2,(x2 + 2x))
1: loop(\(x,i).(~23x + ~23),2,(x2 + 2x))
1: loop(\(x,i).(~39x + ~39),2,(x2 + 2x))
1: loop(\(x,i).(~19x + ~19),2,(x2 + 2x))
1: loop(\(x,i).(~31x + ~31),2,(x2 + 2x))
1: loop(\(x,i).(~8x2 + x),2,x)
1: loop(\(x,i).(x * (1 - (4x * (1 + i)))),2,x)
1: loop(\(x,i).(~8x + 2),2x,2)
1: loop(\(x,i).(~4x2 + ~3x + 1),2,2x)
1: loop(\(x,i).(~6x2 + ~11x + 2),2,x)
1: loop(\(x,i).(~12x2 + 3),2,x)
1: loop(\(x,i).(x * (1 - (2 * (((1 - (2 * (i mod 2))) * i) div 2)))),x,1)
1: loop(\(x,i).(~4x + 2),2x,1)
1: loop(\(x,i).(~4x + 2),x,(x mod 2))
1: loop(\(x,i).(~x3 + ~x2 + x + 1),2,2)
1: loop(\(x,i).(x * (1 - ((x3 div 8) mod 2))),1,(x + ~1))
1: loop(\(x,i).(x * (1 - loop(\(x,i).3x,x,loop(\(x,i).(3x + ~6),x,0)))),x,1)
1: loop(\(x,i).(~2x + 2),(~1 + i),1)
1: loop(\(x,i).(~2x + 2),(x div 2),1)
1: loop(\(x,i).(~2x + 2),x,(x + 4))
1: loop(\(x,i).(~2x + 2),x,(x mod 2))
1: loop(\(x,i).(~2x + 2),compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x),2)
1: loop(\(x,i).(~3x + 3),2x,1)
1: loop(\(x,i).(~3x + 3),2x,2)
1: loop(\(x,i).(~3x + 3),x,3)
1: loop(\(x,i).(~4x + 4),2x,2)
1: loop(\(x,i).(~4x + 4),x,1)
1: loop(\(x,i).(~x2 + ~x + 2),(2x + 3),x)
1: loop(\(x,i).((~x + 1) * (x div 2)),1,loop(\(x,i).2x,x,1))
1: loop(\(x,i).((~x + 1) * (x div 2)),x,x)
1: loop(\(x,i).(~x2 + x),1,(7x + 6))
1: loop(\(x,i).(~x2 + x),1,(2 - (x div (~2 + ((~x + 2) div 4)))))
1: loop(\(x,i).(~x2 + x),1,(10x + 8))
1: loop(\(x,i).(~x2 + x),1,(x mod 10))
1: loop(\(x,i).(~x2 + x),1,loop(\(x,i).2x,x,1))
1: loop(\(x,i).(~x2 + x),2,(2x + 2))
1: loop(\(x,i).(~x2 + x),2,x)
1: loop(\(x,i).(~x2 + x),3,(x + ~2))
1: loop(\(x,i).((x + 1) * (1 - i)),x,0)
1: loop(\(x,i).(6x2 + ~2x + 4),2,x)
1: loop(\(x,i).(x * (26 - i)),x,1)
1: loop(\(x,i).(x * (2 - (x * (1 + (2 * (1 + i)))))),2,x)
1: loop(\(x,i).(~22x + ~22),2,(x2 + 2x))
1: loop(\(x,i).(x * (2 - (x * (x mod 2)))),((x * (x div 2)) mod 2),loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))
1: loop(\(x,i).(x * (2 - (3 * (i mod 2)))),(x + ~1),1)
1: loop(\(x,i).(x * (2 - (x div 4))),1,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))
1: loop(\(x,i).((x + 1) * (2 - (x div (1 + (2 * i))))),x,2)
1: loop(\(x,i).(x * (2 - (x mod 2))),(x + ~2),x)
1: loop(\(x,i).(x * (2 - (x mod 4))),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(x * (2 - (x mod 4))),1,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))
1: loop(\(x,i).(x * (2 - (x mod ~4))),x,x)
1: loop(\(x,i).(~2x + 4),(1 + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x)),1)
1: loop(\(x,i).(~2x + 4),(2x + ~1),1)
1: loop(\(x,i).(~2x + 4),(x + ~1),1)
1: loop(\(x,i).(~2x + 4),(x + ~1),2)
1: loop(\(x,i).(~2x + 4),(x div 2),2)
1: loop(\(x,i).(~2x + 4),(x mod 5),0)
1: loop(\(x,i).(~2x + 4),x,0)
1: loop(\(x,i).(~2x + 4),x,((~x + 1) mod 3))
1: loop(\(x,i).(~2x + 4),x,(if x <= 0 then 1 else 0))
1: loop(\(x,i).(~2x + 4),x,loop(\(x,i).(~2x + 2),x,2))
1: loop(\(x,i).(~3x + 6),x,0)
1: loop(\(x,i).(~3x + 6),x,1)
1: loop(\(x,i).(~4x + 8),(x div 2),2)
1: loop(\(x,i).(~4x + 8),x,1)
1: loop(\(x,i).(~x2 + 3x + ~2),2,4x)
1: loop(\(x,i).(~x2 + 4x + ~4),2,2x)
1: loop(\(x,i).((~x + 2) * i),6,2)
1: loop(\(x,i).((2 - i) * i),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).(x * (4 - (x * (4 + i)))),2,x)
1: loop(\(x,i).(x * (4 - (i mod 3))),x,1)
1: loop(\(x,i).(2 * ((x + ~1) + (2 * (x + (i mod 2))))),x,1)
1: loop(\(x,i).(9x + 135),(x div 2),(x mod 2))
1: loop(\(x,i).(((x + ~1) + (2 * (x mod 2))) * (1 + i)),x,1)
1: loop(\(x,i).(2 * ((x + ~1) + (2 * i))),x,0)
1: loop(\(x,i).(3 * ((x + ~1) + (2 * i))),(x + ~1),x)
1: loop(\(x,i).(2 * ((x + ~2) + (2 * i))),x,1)
1: loop(\(x,i).(2 * ((x + ~1) + (i div 2))),(x + ~1),1)
1: loop(\(x,i).(2 * ((x + ~1) + (i mod 2))),x,1)
1: loop(\(x,i).(x * (~1 + (loop(\(x,i).2x,i,1) + (i mod 2)))),(2x + 1),1)
1: loop(\(x,i).(x * (~1 + (loop(\(x,i).2x,i,1) + (i mod 2)))),2x,1)
1: loop(\(x,i).(x * (~1 + (loop(\(x,i).2x,i,1) + (i mod 2)))),x,1)
1: loop(\(x,i).(2x + ~44),x,1)
1: loop(\(x,i).(2 * ((x + ~1) + i)),x,1)
1: loop(\(x,i).(x * ((x + ~1) + i)),2,10)
1: loop(\(x,i).(((x + ~1) + i) * i),x,1)
1: loop(\(x,i).(((x + ~1) + i) * i),x,2)
1: loop(\(x,i).(2 * ((x + ~2) + i)),2x,1)
1: loop(\(x,i).(~4x + ~4),2x,0)
1: loop(\(x,i).(~2x + ~4),x,1)
1: loop(\(x,i).(x * (~1 - i)),i,2x)
1: loop(\(x,i).(2 * ((~x + 1) - (i mod 3))),x,1)
1: loop(\(x,i).(~6x2 + 5x + ~1),2,x)
1: loop(\(x,i).(~3x2 + 2x),1,(1 + loop(\(x,i).10x,x,1)))
1: loop(\(x,i).(4 * ((~x + ~1) + (2 * (i mod 2)))),x,1)
1: loop(\(x,i).(~11x2 + ~2x),2,x)
1: loop(\(x,i).(2 * ((x + ~1) - (if (i mod 2) <= 0 then 2 else ~2))),(x + ~1),1)
1: loop(\(x,i).(x * ((~x + ~1) + i)),2,4)
1: loop(\(x,i).(x * (~1 + i - (2 * (1 - (2 * i))))),x,1)
1: loop(\(x,i).(x * (6 - i)),x,3)
1: loop(\(x,i).(9x + ~3),x,0)
1: loop(\(x,i).(6x + ~4),x,1)
1: loop(\(x,i).(3x2 + 4x + ~4),2,2)
1: loop(\(x,i).(3x2 + ~2x),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(3x2 + ~2x),2,x)
1: loop(\(x,i).(3x2 + ~2x),(2 + (x mod 2)),2)
1: loop(\(x,i).(3x2 + ~2x),x,(if x <= 0 then 1 else 2))
1: loop(\(x,i).(x * (~2 + (3 * i))),(x + ~1),4)
1: loop(\(x,i).(x * (~2 + (3 * i))),i,x)
1: loop(\(x,i).(x * (8 - i)),x,3)
1: loop(\(x,i).(11x + 11),x,0)
1: loop(\(x,i).11x,2,(1 + (x mod 8)))
1: loop(\(x,i).11x,(3x + 1),1)
1: loop(\(x,i).11x,(3x + 2),1)
1: loop(\(x,i).11x,(5x + 4),1)
1: loop(\(x,i).11x,(5x + 1),1)
1: loop(\(x,i).11x,(5x + 2),1)
1: loop(\(x,i).11x,(5x + 3),1)
1: loop(\(x,i).11x,(4x + 1),1)
1: loop(\(x,i).11x,(2x + 1),1)
1: loop(\(x,i).11x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),1)
1: loop(\(x,i).11x,(4x + 3),1)
1: loop(\(x,i).11x,(x + ~1),x)
1: loop(\(x,i).11x,(x + ~2),x)
1: loop(\(x,i).11x,5x,1)
1: loop(\(x,i).11x,x2,1)
1: loop(\(x,i).11x,((x2 + ~x) div 2),1)
1: loop(\(x,i).11x,(x div 2),(1 + (4 * (x mod 2))))
1: loop(\(x,i).11x,(x div 2),(1 + (6 * (x mod 2))))
1: loop(\(x,i).11x,(x div 2),(1 + (x mod 2)))
1: loop(\(x,i).11x,x,5)
1: loop(\(x,i).11x,x,9)
1: loop(\(x,i).11x,x,(1 + (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))))
1: loop(\(x,i).11x,x,(1 + (x mod 2)))
1: loop(\(x,i).11x,x,(x2 * loop(\(x,i).x3,2,x)))
1: loop(\(x,i).11x,x,x)
1: loop(\(x,i).11x,i,x)
1: loop(\(x,i).(x * (11 - i)),x,1)
1: loop(\(x,i).(8x + 6),x,0)
1: loop(\(x,i).(x * (~1 + (4 * (1 + i)))),x,1)
1: loop(\(x,i).(10x + ~2),(x + 1),1)
1: loop(\(x,i).(10x + ~2),x,0)
1: loop(\(x,i).(5x2 + ~x),2,x)
1: loop(\(x,i).(2 * (5x - (i * i))),2,x)
1: loop(\(x,i).(x * (~1 + (5 * i))),x,1)
1: loop(\(x,i).(x * (~1 + (7 * i))),x,1)
1: loop(\(x,i).(x * (~2 + (7 * i))),x,1)
1: loop(\(x,i).(x * (~1 + (3 * (2 + (3 * i))))),x,1)
1: loop(\(x,i).(x * (~1 + (x * (2 + (3 * i))))),2,x)
1: loop(\(x,i).(x * (27 - i)),x,1)
1: loop(\(x,i).(3 * (13x - (x div 3))),x,1)
1: loop(\(x,i).(10x2 + 2x + ~2),2,x)
1: loop(\(x,i).(x * (~2 + (x * (2 + (5 * i))))),2,x)
1: loop(\(x,i).(x * (~1 + (x * (1 + (2 * (1 + i)))))),x,2)
1: loop(\(x,i).(x * (~1 + (2 * (4x + i)))),2,x)
1: loop(\(x,i).(2 * (~x + ((x + 1) * (x + (x2 div (x + 2)))))),x,1)
1: loop(\(x,i).(2 * ((2x + 2) - (x div (1 + i)))),x,(if x <= 0 then 1 else 0))
1: loop(\(x,i).(2 * ((x2 + x) - (x div 3))),x,1)
1: loop(\(x,i).(x3 + 2x2 + ~x),1,29)
1: loop(\(x,i).(2x2 + 4x + ~4),2,x)
1: loop(\(x,i).(5x2 + 10x + ~10),2,x)
1: loop(\(x,i).(3 * (~1 + (x * (1 + i)))),2,x)
1: loop(\(x,i).(2 * ((x * (1 + i)) - (x div 3))),x,1)
1: loop(\(x,i).(x * (~1 + (3 * (2 + i)))),x,1)
1: loop(\(x,i).(x * (~1 + (x * (2 + i)))),2,2)
1: loop(\(x,i).(x * (~2 + (x * (2 + i)))),2,x2)
1: loop(\(x,i).(~6x2 + ~3),2,x)
1: loop(\(x,i).(2 * (~1 + (~7 * (x div 2)))),2,x)
1: loop(\(x,i).(x * (~1 + ((1 - (2 * i)) * (~1 + (2 * i))))),x,1)
1: loop(\(x,i).(~x4 + x3 + ~x2),2,2)
1: loop(\(x,i).(2 * (~1 + (5 * ((x + ~1) + (x mod 2))))),x,1)
1: loop(\(x,i).(x * (~1 + (3 * (~2 + (3 * i))))),x,1)
1: loop(\(x,i).(x * (~1 + (11 * i))),x,1)
1: loop(\(x,i).(2 * (23x - (x div 2))),x,1)
1: loop(\(x,i).(3 * (~x + (2 * (2x - (x div (if i <= 0 then 1 else i)))))),x,2)
1: loop(\(x,i).(2x2 + ~2x + ~2),x,3)
1: loop(\(x,i).(2x2 + ~2x + ~2),i,x)
1: loop(\(x,i).(9x2 + ~x),2,x)
1: loop(\(x,i).(3 * (9x - (x div 3))),x,1)
1: loop(\(x,i).(2 * (15x - (x div 2))),x,1)
1: loop(\(x,i).(3 * (15x - (x div 3))),x,1)
1: loop(\(x,i).(x * (~1 + (9 * i))),x,1)
1: loop(\(x,i).(x * (~2 + (9 * i))),x,1)
1: loop(\(x,i).(x * (16 - (if (x + ~2) <= 0 then 1 else 2))),x,1)
1: loop(\(x,i).23x,2,x)
1: loop(\(x,i).23x,(3x + 1),1)
1: loop(\(x,i).23x,(3x + 2),1)
1: loop(\(x,i).23x,(5x + 1),1)
1: loop(\(x,i).23x,(5x + 2),1)
1: loop(\(x,i).23x,(5x + 3),1)
1: loop(\(x,i).23x,(4x + 1),1)
1: loop(\(x,i).23x,(2x + 1),1)
1: loop(\(x,i).23x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),1)
1: loop(\(x,i).23x,(x + (if (x + ~2) <= 0 then 1 else 2)),1)
1: loop(\(x,i).23x,(4x + 3),1)
1: loop(\(x,i).23x,(x2 + 4x + 4),1)
1: loop(\(x,i).23x,x,(1 + (x mod (1 + ((x2 + 2x) mod 8)))))
1: loop(\(x,i).23x,i,1)
1: loop(\(x,i).23x,i,(1 + i))
1: loop(\(x,i).23x,i,x)
1: loop(\(x,i).(x * (24 - (x mod 3))),x,1)
1: loop(\(x,i).(8x2 + 15x + 7),2,2x)
1: loop(\(x,i).(x * (~1 + (8 * (1 + i)))),x,1)
1: loop(\(x,i).(x * ((8 * (1 + i)) - i)),x,1)
1: loop(\(x,i).59x,2,(x + 1))
1: loop(\(x,i).(x * (~1 + (4 * ((~1 + i) * (1 - i))))),x,1)
1: loop(\(x,i).(2 * (10x - (x div 2))),x,1)
1: loop(\(x,i).(2 * (10x - (x div ~2))),x,1)
1: loop(\(x,i).(5x3 + ~3x),2x,1)
1: loop(\(x,i).(5x3 + ~3x),x,1)
1: loop(\(x,i).(x * (~1 + (5x * i))),2,x)
1: loop(\(x,i).(2 * (14x - (x div 2))),x,1)
1: loop(\(x,i).(50x2 + 129x + 79),x,8)
1: loop(\(x,i).(x * (1 + (4 * (1 + (2 * i))) - i)),x,1)
1: loop(\(x,i).(x * ((4 * (1 + (2 * i))) - i)),x,1)
1: loop(\(x,i).(x * (~1 + (2x * (1 + (2 * i))))),2,x)
1: loop(\(x,i).(x * (~1 + (4 * (2 + (2 mod (x + 1)))))),x,1)
1: loop(\(x,i).(6x2 + 6x + ~2),2,2x)
1: loop(\(x,i).(2x3 + 4x2 + ~x),1,(x2 + 3x + 2))
1: loop(\(x,i).(x * (~1 + (6 * (1 + i)))),x,1)
1: loop(\(x,i).(x * (~1 + (10 * (1 + i)))),x,1)
1: loop(\(x,i).(x * (~1 + (4 * (2 + i)))),x,1)
1: loop(\(x,i).(~29x + ~29),2,(x2 + 2x))
1: loop(\(x,i).(2 * (22x - (x div 2))),x,1)
1: loop(\(x,i).(2 * ((6 * (2x - (x mod 2))) - (x mod 2))),x,1)
1: loop(\(x,i).(x * (~1 + (4 * (~1 + (2 * i))))),x,1)
1: loop(\(x,i).(4x2 + ~9x),2,x)
1: loop(\(x,i).31x,(2x + 1),1)
1: loop(\(x,i).31x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),1)
1: loop(\(x,i).31x,x,1)
1: loop(\(x,i).31x,x,(1 + (x mod (1 + ((x2 + 2x) mod 8)))))
1: loop(\(x,i).31x,x,6)
1: loop(\(x,i).47x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),1)
1: loop(\(x,i).47x,x,1)
1: loop(\(x,i).47x,x,2)
1: loop(\(x,i).(x * (48 - (x mod 3))),x,1)
1: loop(\(x,i).(16x2 + 56x + 46),2,x)
1: loop(\(x,i).95x,2,(x + 1))
1: loop(\(x,i).(2 * (~1 + (54 * loop(\(x,i).x2,1,(9x + 4))))),1,0)
1: loop(\(x,i).(2 * (16x - (x div 2))),x,1)
1: loop(\(x,i).(2 * (16x - (x div ~2))),x,1)
1: loop(\(x,i).(2 * (24x - (x div 2))),x,1)
1: loop(\(x,i).(2 * (8x - (x div 2))),x,1)
1: loop(\(x,i).(2 * (8x - (x div ~2))),x,1)
1: loop(\(x,i).(2 * (12x - (x div 2))),x,1)
1: loop(\(x,i).(2 * (20x - (x div 2))),x,1)
1: loop(\(x,i).(2 * (18x - (x div 2))),x,1)
1: loop(\(x,i).(x * (~1 + (8 * i))),x,1)
1: loop(\(x,i).(2 * (~1 + (4 * (x div 2)))),2,x)
1: loop(\(x,i).(8x + ~2),(x div 2),(1 + (x mod 2)))
1: loop(\(x,i).(4x2 + ~x),1,loop(\(x,i).3x,2x,3))
1: loop(\(x,i).(4x2 + ~x),1,loop(\(x,i).3x,x,1))
1: loop(\(x,i).(4x2 + ~x),1,loop(\(x,i).4x,(~1 + i),1))
1: loop(\(x,i).(4x2 + ~x),1,loop(\(x,i).4x,x,1))
1: loop(\(x,i).(4x2 + ~x),2,2)
1: loop(\(x,i).(4x2 + ~x),x,1)
1: loop(\(x,i).(2 * (4x - (x div 2))),(x + 2),1)
1: loop(\(x,i).(2 * (4x - (x div ~2))),x,1)
1: loop(\(x,i).(2 * (4x - (x div ~2))),i,1)
1: loop(\(x,i).(4 * (4x - (x div (if i <= 0 then 1 else i)))),x,1)
1: loop(\(x,i).(2 * (4x - (x mod 2))),x,1)
1: loop(\(x,i).(2 * (4x - (if (2 - i) <= 0 then x else 1))),x,(x + 1))
1: loop(\(x,i).(2 * (6x - (x div 2))),(x + 2),1)
1: loop(\(x,i).(2 * (6x - (x div 2))),x,1)
1: loop(\(x,i).(6x2 + ~6x + ~3),2,x)
1: loop(\(x,i).(4x2 + ~2),2,2x)
1: loop(\(x,i).(2x3 + ~x),x,2)
1: loop(\(x,i).(6x2 + ~2x),2,4)
1: loop(\(x,i).(6x2 + ~2x),2,x)
1: loop(\(x,i).(8x2 + ~2),2,x)
1: loop(\(x,i).(12x2 + ~3),2,x)
1: loop(\(x,i).(4x3 + ~x),2,6)
1: loop(\(x,i).(x * (~1 + (4 * i))),x,1)
1: loop(\(x,i).(x * (~1 + (6 * i))),x,1)
1: loop(\(x,i).(2 * ((2x * i) - (x mod 2))),x,1)
1: loop(\(x,i).(2 * (~x + (3x * i))),x,1)
1: loop(\(x,i).(3 * (~x + (3x * i))),x,1)
1: loop(\(x,i).(x * (~1 + (4 * (i * i)))),x,1)
1: loop(\(x,i).(x * (~1 + (4 * (i * i)))),x,(x + 1))
1: loop(\(x,i).(x * (~1 + (4 * (i * i)))),i,x)
1: loop(\(x,i).(2 * (~x + (4 * (x div (if i <= 0 then 1 else i))))),x,1)
1: loop(\(x,i).(x * (~1 + (2 * (i div 2)))),2x,1)
1: loop(\(x,i).(x * (~1 + (loop(\(x,i).(x2 + ~x),2,2x) * (1 + i)))),x,1)
1: loop(\(x,i).(4x + ~2),(x + 1),2)
1: loop(\(x,i).(4x + ~2),(x + ~1),1)
1: loop(\(x,i).(4x + ~2),(2 * (x div 2)),(2 + (x mod 2)))
1: loop(\(x,i).(4x + ~2),2x,1)
1: loop(\(x,i).(4x + ~2),(x div 2),2)
1: loop(\(x,i).(4x + ~2),x,3)
1: loop(\(x,i).(4x + ~2),i,2)
1: loop(\(x,i).(6x + ~3),x,1)
1: loop(\(x,i).(10x + ~5),(2x + 1),1)
1: loop(\(x,i).(10x + ~5),(x + 1),1)
1: loop(\(x,i).(10x + ~5),x,0)
1: loop(\(x,i).(10x + ~5),x,1)
1: loop(\(x,i).(2x2 + 3x + ~2),3,2)
1: loop(\(x,i).(~2x2 + 5x + ~2),2,2x)
1: loop(\(x,i).((2x + ~1) * (x div 2)),1,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))
1: loop(\(x,i).(2x2 + ~x),1,(1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))
1: loop(\(x,i).(2x2 + ~x),1,(1 + loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x)))
1: loop(\(x,i).(2x2 + ~x),1,(1 + loop(\(x,i).3x,x,1)))
1: loop(\(x,i).(2x2 + ~x),1,(1 + loop(\(x,i).2x,x,2)))
1: loop(\(x,i).(2x2 + ~x),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(2x2 + ~x),1,(~1 + loop(\(x,i).10x,x,1)))
1: loop(\(x,i).(2x2 + ~x),1,(5x + 5))
1: loop(\(x,i).(2x2 + ~x),1,loop(\(x,i).(~2x + 1),x,1))
1: loop(\(x,i).(2x2 + ~x),1,loop(\(x,i).3x,x,1))
1: loop(\(x,i).(2x2 + ~x),1,loop(\(x,i).10x,x,1))
1: loop(\(x,i).(2x2 + ~x),1,loop(\(x,i).4x,(if x <= 0 then 1 else (loop(\(x,i).2x,x,2) - (x mod 2))),1))
1: loop(\(x,i).(2x2 + ~x),1,loop(\(x,i).4x,x,1))
1: loop(\(x,i).(2x2 + ~x),1,loop(\(x,i).~4x,x,1))
1: loop(\(x,i).(2x2 + ~x),1,loop(\(x,i).2x,(2x + ~1),2))
1: loop(\(x,i).(2x2 + ~x),1,loop(\(x,i).2x,x,2))
1: loop(\(x,i).(2x2 + ~x),1,loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1))
1: loop(\(x,i).(2x2 + ~x),2,(1 + (2 * (x div 4))))
1: loop(\(x,i).(2x2 + ~x),2,(~2x + 1))
1: loop(\(x,i).(2x2 + ~x),2,(~x + 2))
1: loop(\(x,i).(2x2 + ~x),2,2x)
1: loop(\(x,i).(2x2 + ~x),x,2)
1: loop(\(x,i).(2x2 + ~x),x,(if x <= 0 then 1 else 2))
1: loop(\(x,i).((2x + ~1) * i),x,0)
1: loop(\(x,i).(2 * ((2x + ~1) - i)),x,(if x <= 0 then 1 else 2))
1: loop(\(x,i).(2 * (2x - (2x * (x div 2)))),x,1)
1: loop(\(x,i).(2 * (2x - (3 * (i mod 2)))),x,2)
1: loop(\(x,i).(2 * (2x - ((x + 1) div (if i <= 0 then 1 else i)))),x,0)
1: loop(\(x,i).((2x - ((if (i mod 2) <= 0 then 1 else 2x) div (1 + i))) * (1 + ((x div 2) mod 2))),x,1)
1: loop(\(x,i).(2 * (2x - (x div (2 + (i mod 2))))),x,1)
1: loop(\(x,i).(2 * (2x - (x div (1 + i)))),(2x + 1),2)
1: loop(\(x,i).(2 * (2x - (x div (1 + i)))),(x + 1),2)
1: loop(\(x,i).(2 * (2x - (x div (1 + i)))),(x + ~1),(x2 + x))
1: loop(\(x,i).(2 * (2x - (x div (1 + i)))),2x,2)
1: loop(\(x,i).(2 * (2x - (x div ~2))),(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1)
1: loop(\(x,i).(2 * (2x - (x div ~2))),x,1)
1: loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),(x + 2),2)
1: loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),3x,1)
1: loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x2,1)
1: loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),((x + 1) div 2),2)
1: loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),((x2 + x) div 2),1)
1: loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,3)
1: loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,4)
1: loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,(x2 + 1))
1: loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,(x + ~1))
1: loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,(if x <= 0 then 1 else 4))
1: loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),i,2)
1: loop(\(x,i).(4 * (2x - (x div (if i <= 0 then 1 else i)))),i,x)
1: loop(\(x,i).(2 * (2x - (i mod 2))),(x div 2),1)
1: loop(\(x,i).(2 * (2x - (i mod 2))),x,0)
1: loop(\(x,i).(2 * (2x - (i mod 2))),x,4)
1: loop(\(x,i).(3 * (2x - loop(\(x,i).(~2x + 2),i,0))),x,1)
1: loop(\(x,i).(2x2 + ~2),2x,(x + ~1))
1: loop(\(x,i).(3x2 + ~3),2,2x)
1: loop(\(x,i).(5x2 + ~5),(x2 + ~2x),1)
1: loop(\(x,i).(x3 + 3x2 + ~x + ~3),1,(4x + 4))
1: loop(\(x,i).(x3 + 2x2 + ~x + ~2),1,(7x + 4))
1: loop(\(x,i).(x3 + ~x),1,(x + 4))
1: loop(\(x,i).(x3 + ~x),1,(5x + 4))
1: loop(\(x,i).(x3 + ~x),1,(5x + 6))
1: loop(\(x,i).(x3 + ~x),1,(5x + 2))
1: loop(\(x,i).(x3 + ~x),1,(3x + 4))
1: loop(\(x,i).(x3 + ~x),1,(x3 + 1))
1: loop(\(x,i).(x3 + ~x),1,(1 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)))
1: loop(\(x,i).(x3 + ~x),1,(3x + ~1))
1: loop(\(x,i).(x3 + ~x),1,(4x + 2))
1: loop(\(x,i).(x3 + ~x),1,(2x + 2))
1: loop(\(x,i).(x3 + ~x),1,(3x + 3))
1: loop(\(x,i).(x3 + ~x),1,(x2 + x))
1: loop(\(x,i).(x3 + ~x),1,(x2 + ~x))
1: loop(\(x,i).(x3 + ~x),1,(3x2 + 3x))
1: loop(\(x,i).(x3 + ~x),1,4x)
1: loop(\(x,i).(x3 + ~x),1,2x2)
1: loop(\(x,i).(x3 + ~x),1,loop(\(x,i).x3,x,3))
1: loop(\(x,i).(x3 + ~x),1,loop(\(x,i).2x,x,1))
1: loop(\(x,i).(x3 + ~x),1,loop(\(x,i).2x,x,2))
1: loop(\(x,i).(x3 + ~x),(x2 + 1),2)
1: loop(\(x,i).(2x2 + ~4),2,3x)
1: loop(\(x,i).(x3 + ~2x),1,loop(\(x,i).2x,x,2))
1: loop(\(x,i).(x3 + ~2x),2,2x)
1: loop(\(x,i).(x3 + ~2x),x,(x2 + 4x + 4))
1: loop(\(x,i).(x3 + ~3x),2,2x)
1: loop(\(x,i).(x3 + ~3x),(x + 1),6)
1: loop(\(x,i).(x3 + ~3x),(x + ~1),4)
1: loop(\(x,i).(x3 + ~3x),x,5)
1: loop(\(x,i).(x3 + ~3x),x,7)
1: loop(\(x,i).(x3 + ~3x),x,9)
1: loop(\(x,i).(x3 + ~3x),x,6)
1: loop(\(x,i).(x3 + ~3x),x,8)
1: loop(\(x,i).(x3 + ~3x),x,10)
1: loop(\(x,i).((x + ~1) * (x2 - (x div 2))),1,loop(\(x,i).2x,x,1))
1: loop(\(x,i).(x * (~1 + (2 * i))),(x + ~2),1)
1: loop(\(x,i).(x * (~1 + (2 * i))),2x,loop(\(x,i).(x * (~1 + (2 * i))),x,1))
1: loop(\(x,i).(x * (~1 + (2 * i))),(x div 2),((x + 1) mod 2))
1: loop(\(x,i).(x * (~1 + (2 * i))),x,(4x + 1))
1: loop(\(x,i).(x * (~1 + (2 * i))),x,(x + 1))
1: loop(\(x,i).(x * (~1 + (2 * i))),x,~2)
1: loop(\(x,i).(x * (~1 + (2 * i))),x,(2x + ~1))
1: loop(\(x,i).(x * (~1 + (2 * i))),x,x2)
1: loop(\(x,i).(x * (~1 + (2 * i))),x,i)
1: loop(\(x,i).(x * (~1 + (2 * i))),i,x)
1: loop(\(x,i).(x * ((2 * i) - ((1 + i) mod 2))),x,1)
1: loop(\(x,i).((~1 + (x * i)) * (1 + i)),x,2)
1: loop(\(x,i).(x * (~1 + (x * i))),2,(x + 2))
1: loop(\(x,i).(x * (~1 + (x * i))),2,3x)
1: loop(\(x,i).(x * (~1 + (x * i))),3,x)
1: loop(\(x,i).(3 * ((x * i) - (x div 2))),(x + ~1),1)
1: loop(\(x,i).(3 * ((x * i) - (i div 2))),x,0)
1: loop(\(x,i).(x * (~2 + (i * i))),x,1)
1: loop(\(x,i).((~x + (i * i)) * (i div 2)),x,1)
1: loop(\(x,i).(x * (~1 + ((~1 + (((x + 1) div 2) div 2)) div 2))),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).(x * (~2 + (x div 2))),x,x)
1: loop(\(x,i).(2 * (~2x + (x div (if i <= 0 then 1 else i)))),(x div 2),1)
1: loop(\(x,i).(2 * (~2x + (x div (if i <= 0 then 1 else i)))),x,2)
1: loop(\(x,i).(2 * (~2x + (x mod 2))),x,1)
1: loop(\(x,i).(2 * (~2x + (x mod 2))),i,1)
1: loop(\(x,i).(2 * (1 + (x mod 5) - (2 * (i mod 2)))),x,1)
1: loop(\(x,i).(2 * (~x + (if (~2 + i) <= 0 then 1 else 0))),x,1)
1: loop(\(x,i).(x * (~1 + (if (x * (~2 + i)) <= 0 then x else 0))),x,(if x <= 0 then 1 else 2))
1: loop(\(x,i).(x * (~1 + (if (x * i) <= 0 then x else 0))),x,2)
1: loop(\(x,i).(x * ((if (i mod 2) <= 0 then 1 else (2 * i)) - i)),x,1)
1: loop(\(x,i).(x * (~1 + (if (i mod 2) <= 0 then 4 else 0))),x,1)
1: loop(\(x,i).(3 * (~x + (if x <= 0 then 1 else (~1 + loop(\(x,i).(x3 + x),x,1))))),x,1)
1: loop(\(x,i).(2 * ((if x <= 0 then 1 else x) - ((x * i) mod 3))),x,1)
1: loop(\(x,i).(x * (~1 + loop(\(x,i).(x3 + 2),2,2))),x,1)
1: loop(\(x,i).(x * (~1 + loop(\(x,i).~x,x,(i * i)))),x,1)
1: loop(\(x,i).(2 * (~x + loop(\(x,i).3x,(~1 + i),1))),x,1)
1: loop(\(x,i).(x * (~3 + loop(\(x,i).(2x2 + x),2,2))),4x,x)
1: loop(\(x,i).(x * (~1 + loop(\(x,i).(x2 + 2x),2,2))),2,(x + 1))
1: loop(\(x,i).(x * (~1 + loop(\(x,i).(x * (x + i)),2,3))),x,1)
1: loop(\(x,i).(x * (~1 + loop(\(x,i).(2 * (x - (i mod 2))),i,2))),x,1)
1: loop(\(x,i).(x * (~1 + loop(\(x,i).(x3 + 7x2 + 14x + 8),1,x2))),(x + 1),1)
1: loop(\(x,i).(x * (~1 + loop(\(x,i).4x,i,1) - (2 * i))),(x + 1),1)
1: loop(\(x,i).(5 * (~x + loop(\(x,i).4x,i,1))),x,2)
1: loop(\(x,i).(x * (~1 + loop(\(x,i).2x2,2,2))),x,1)
1: loop(\(x,i).(3 * (~x + loop(\(x,i).2x,(~2 + i),1))),x,1)
1: loop(\(x,i).(3 * (~x + loop(\(x,i).2x,i,1))),x,1)
1: loop(\(x,i).((x + 1) * (~1 + loop(\(x,i).x2,1,(2 * (2x + i))))),1,x2)
1: loop(\(x,i).(x * (~x + loop(\(x,i).x2,i,2))),(x + ~1),1)
1: loop(\(x,i).(x * (~x + loop(\(x,i).x2,i,3))),x,1)
1: loop(\(x,i).(x * (~1 + loop(\(x,i).(i * i),(x + ~2),x))),2,x)
1: loop(\(x,i).(2x + ~2),(1 + ((x div 3) mod 2)),(1 + (x div 4)))
1: loop(\(x,i).(2x + ~2),(x + ~1),1)
1: loop(\(x,i).(2x + ~2),(x + ~1),x)
1: loop(\(x,i).(2x + ~2),(x div 2),1)
1: loop(\(x,i).(2x + ~2),x,0)
1: loop(\(x,i).(2x + ~2),x,(3x + 1))
1: loop(\(x,i).(2x + ~2),x,(1 + (2x mod (2 + (x div 4)))))
1: loop(\(x,i).(2x + ~2),x,(x + 1))
1: loop(\(x,i).(2x + ~2),x,(~1 + loop(\(x,i).4x,x,1)))
1: loop(\(x,i).(2x + ~2),x,4x)
1: loop(\(x,i).(2x + ~2),x,(if (x mod (2 + (x mod 2))) <= 0 then 1 else 0))
1: loop(\(x,i).(2x + ~2),x,loop(\(x,i).(3x + 1),x,0))
1: loop(\(x,i).(3x + ~3),2x,2)
1: loop(\(x,i).(3x + ~3),x,0)
1: loop(\(x,i).(3x + ~3),x,1)
1: loop(\(x,i).(3x + ~3),x,3)
1: loop(\(x,i).(3x + ~3),x,(loop(\(x,i).2x,x,1) div 2))
1: loop(\(x,i).(3x + ~3),i,0)
1: loop(\(x,i).(x2 + ~x),1,(2 + (5 * i)))
1: loop(\(x,i).(x2 + ~x),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i)))
1: loop(\(x,i).(x2 + ~x),1,(2 - ((~x + 2) div (2 + (x div 2)))))
1: loop(\(x,i).(x2 + ~x),1,(2 - (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))
1: loop(\(x,i).(x2 + ~x),1,(~1 + ((~2x + 2) mod (4 + (x div 4)))))
1: loop(\(x,i).(x2 + ~x),1,(~1 + loop(\(x,i).10x,(x + 1),1)))
1: loop(\(x,i).(x2 + ~x),1,(5x + 10))
1: loop(\(x,i).(x2 + ~x),1,(2 * (1 + (3 * i))))
1: loop(\(x,i).(x2 + ~x),1,(2 * (x + (3 * (x div 2)))))
1: loop(\(x,i).(x2 + ~x),1,(~9x + 3))
1: loop(\(x,i).(x2 + ~x),1,9x)
1: loop(\(x,i).(x2 + ~x),1,(6x + 6))
1: loop(\(x,i).(x2 + ~x),1,((3x2 + x) div 2))
1: loop(\(x,i).(x2 + ~x),1,((3x2 + 5x + 2) div 2))
1: loop(\(x,i).(x2 + ~x),1,((3x2 + 7x + 4) div 2))
1: loop(\(x,i).(x2 + ~x),1,(loop(\(x,i).loop(\(x,i).2x,x,x),x,1) div 2))
1: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x))
1: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).3x,(1 + i),1))
1: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).3x,(2 * i),1))
1: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).3x,i,1))
1: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).5x,i,1))
1: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).7x,i,1))
1: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).13x,i,1))
1: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).19x,i,1))
1: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).17x,i,1))
1: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).~2x,x,1))
1: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).(~3x + 3),x,3))
1: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).11x,i,1))
1: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).23x,i,1))
1: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).(x * (~1 + (if (x * i) <= 0 then x else 0))),x,2))
1: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).15x,i,1))
1: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).10x,(x + 1),1))
1: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).10x,(2x + 2),1))
1: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).10x,i,1))
1: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).14x,i,1))
1: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).21x,i,1))
1: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).22x,i,1))
1: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).24x,i,1))
1: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).8x,i,1))
1: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).12x,x,2))
1: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).12x,i,1))
1: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).20x,i,1))
1: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).18x,i,1))
1: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).4x,(2 * i),1))
1: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).4x,x,1))
1: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).4x,x,2))
1: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).6x,i,1))
1: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).2x2,x,1))
1: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).x3,x,2))
1: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).x3,x,3))
1: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).2x,(x mod 4),x))
1: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).2x,compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),2))
1: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).x2,i,2))
1: loop(\(x,i).(x2 + ~x),1,loop(\(x,i).((x2 + x) div 2),x,2))
1: loop(\(x,i).(x2 + ~x),1,compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x))
1: loop(\(x,i).(x2 + ~x),2,6)
1: loop(\(x,i).(x2 + ~x),2,5x)
1: loop(\(x,i).(x2 + ~x),2,(~x2 + 2x))
1: loop(\(x,i).(x2 + ~x),2,2x)
1: loop(\(x,i).(x2 + ~x),2,loop(\(x,i).2x,x,1))
1: loop(\(x,i).(x2 + ~x),3,x)
1: loop(\(x,i).(x2 + ~x),(x + ~1),3)
1: loop(\(x,i).(x2 + ~x),x,3)
1: loop(\(x,i).(x2 + ~x),x,4)
1: loop(\(x,i).(x2 + ~x),x,loop(\(x,i).x3,2,2x))
1: loop(\(x,i).((x + ~1) * i),8,2)
1: loop(\(x,i).((x + ~1) * i),x,0)
1: loop(\(x,i).((x + ~1) * i),x,3)
1: loop(\(x,i).(2x + ~4),(x + ~1),0)
1: loop(\(x,i).(2x + ~4),(x + ~2),x)
1: loop(\(x,i).(2x + ~4),(x + ~5),x)
1: loop(\(x,i).(2x + ~4),(x + ~8),(x + 1))
1: loop(\(x,i).(2x + ~4),2x,2)
1: loop(\(x,i).(2x + ~4),(x div 3),0)
1: loop(\(x,i).(2x + ~4),(if x <= 0 then 0 else 3),loop(\(x,i).(2x + 2),x,2))
1: loop(\(x,i).(2x + ~4),loop(\(x,i).(x div (1 + (x mod 2))),x,x),1)
1: loop(\(x,i).(2x + ~4),x,(6x + 1))
1: loop(\(x,i).(2x + ~4),x,(2x + 1))
1: loop(\(x,i).(2x + ~4),x,3x)
1: loop(\(x,i).(2x + ~4),x,2x)
1: loop(\(x,i).(2x + ~4),compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),0)
1: loop(\(x,i).(2x + ~4),compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),2)
1: loop(\(x,i).(3x + ~6),(x + ~1),x)
1: loop(\(x,i).(3x + ~6),(x + ~2),x)
1: loop(\(x,i).(3x + ~6),x,2)
1: loop(\(x,i).(x2 + ~3x + 2),2,4x)
1: loop(\(x,i).(x2 + ~2x),1,(12x + 12))
1: loop(\(x,i).(x2 + ~2x),1,loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x))
1: loop(\(x,i).(x2 + ~2x),1,loop(\(x,i).2x,(x + ~1),2))
1: loop(\(x,i).(x2 + ~2x),2,(x + 4))
1: loop(\(x,i).(x2 + ~2x),2,(x + ~2))
1: loop(\(x,i).(x2 + ~2x),2,6)
1: loop(\(x,i).(x2 + ~2x),2,(~x2 + 2x))
1: loop(\(x,i).(x2 + ~2x),2,x)
1: loop(\(x,i).((x + ~2) * i),x,1)
1: loop(\(x,i).((x + ~2) * i),i,0)
1: loop(\(x,i).(2x + ~6),x,(3x + 1))
1: loop(\(x,i).(x3 + ~3x2),2,x)
1: loop(\(x,i).((x + ~3) * i),x,1)
1: loop(\(x,i).(2x + ~8),2x,0)
1: loop(\(x,i).(2x + ~8),x,0)
1: loop(\(x,i).(2x + ~8),x,(4x + 1))
1: loop(\(x,i).((x + ~4) * i),x,1)
1: loop(\(x,i).(x2 + ~5x),x,7)
1: loop(\(x,i).(x2 + ~7x),x,9)
1: loop(\(x,i).(x * ((x + ~1) - i)),2,(x + 4))
1: loop(\(x,i).(x * ((x + ~1) - i)),2,(2x + 4))
1: loop(\(x,i).(26x + ~2),x,1)
1: loop(\(x,i).(2 * ((x + ~1) + (2 * (i mod 2)))),(x + ~1),1)
1: loop(\(x,i).(2 * ((x + ~1) + (2 * (i mod 2)))),x,0)
1: loop(\(x,i).((x + 2) * ((x + ~1) + (2 * (i mod 2)))),x,1)
1: loop(\(x,i).(2 * ((x + ~1) + (i mod 3))),x,0)
1: loop(\(x,i).(3 * ((x + ~1) + (i mod 3))),x,0)
1: loop(\(x,i).(7x2 + ~2x),2,x)
1: loop(\(x,i).(3 * ((x + 1) - (2 * (~x + (x mod 2))))),x,0)
1: loop(\(x,i).(2 * ((x + 1) - (2 * (~x + (i mod 2))))),x,2)
1: loop(\(x,i).(2x + ~30),x,0)
1: loop(\(x,i).(3 * ((x + 1) - (2 * (x mod 2)))),x,1)
1: loop(\(x,i).(5 * ((x + 1) - (2 * (x mod 2)))),x,1)
1: loop(\(x,i).(7 * ((x + 1) - (2 * (x mod 2)))),x,0)
1: loop(\(x,i).(((x + 1) - (2 * (x mod 2))) * (1 + i)),i,1)
1: loop(\(x,i).(2 * ((x + 1) - (2 * (i mod 2)))),((x + 1) div 2),1)
1: loop(\(x,i).(3 * ((x + 1) - (2 * (i mod 2)))),x,2)
1: loop(\(x,i).(((x + 1) - (2 * (i mod 2))) * i),x,0)
1: loop(\(x,i).(((x + 1) - (2 * (i mod 2))) * i),x,1)
1: loop(\(x,i).(2 * ((x + 2) - (x * (i mod 2)))),x,1)
1: loop(\(x,i).(2 * ((x + 1) - (2 * i))),x,0)
1: loop(\(x,i).(2 * (25x - (x div 2))),x,1)
1: loop(\(x,i).(2 * (21x - (x div 2))),x,1)
1: loop(\(x,i).(2 * (19x - (x div 2))),x,1)
1: loop(\(x,i).(2 * (7x - (x div 2))),x,1)
1: loop(\(x,i).(2 * ((x + 2) - (x div ~2))),x,1)
1: loop(\(x,i).(2 * ((x + 1) - ((x div (1 + (if (x mod 2) <= 0 then 6 else 1))) mod 3))),x,1)
1: loop(\(x,i).(2 * ((x + 1) - (i mod 2))),x,1)
1: loop(\(x,i).(2 * ((5x + 2) - (i mod 2))),x,0)
1: loop(\(x,i).(2 * ((x + 1) - (i mod (2 * (2 - (i mod 2)))))),x,1)
1: loop(\(x,i).(2 * ((x + 1) - i)),x,3)
1: loop(\(x,i).(x * ((x + 1) - i)),2,x3)
1: loop(\(x,i).(((x + 1) - i) * i),i,0)
1: loop(\(x,i).(2 * ((x + 2) - i)),2x,1)
1: loop(\(x,i).(x * ((x + 2) - i)),3,2)
1: loop(\(x,i).(x * ((x + 7) - i)),2,(2x + 1))
1: loop(\(x,i).(2 * (2x - i)),x,0)
1: loop(\(x,i).(2 * (2x - i)),x,1)
1: loop(\(x,i).(2x + ~12),x,0)
1: loop(\(x,i).(x2 + ~6x),x,8)
1: loop(\(x,i).(2 * (x - (3 * i))),x,0)
1: loop(\(x,i).(x2 + ~8x),x,10)
1: loop(\(x,i).(2 * (x - (2 * (x + (if (i mod 2) <= 0 then 2 else 0))))),x,1)
1: loop(\(x,i).((2x + 1) * (x - ((1 + i) * i))),(x2 + 2x),1)
1: loop(\(x,i).(2 * (x - ((2 + i) * i))),x,0)
1: loop(\(x,i).(5x2 + ~2x),1,((x2 + x) div 2))
1: loop(\(x,i).(5x2 + ~2x),1,loop(\(x,i).10x,x,1))
1: loop(\(x,i).(7x2 + ~3x),2,x)
1: loop(\(x,i).(10x + ~8),x,0)
1: loop(\(x,i).(5x2 + ~4x),2,x)
1: loop(\(x,i).(2 * (x - (3 * (1 - i)))),x,1)
1: loop(\(x,i).(6x + ~8),x,4)
1: loop(\(x,i).(3x2 + ~4x),2,5)
1: loop(\(x,i).(3x2 + ~4x),2,(~2x + 1))
1: loop(\(x,i).(10x + ~16),x,0)
1: loop(\(x,i).(5x2 + ~8x),(2x + 3),1)
1: loop(\(x,i).(~7x2 + 2x),2,x)
1: loop(\(x,i).(2 * (x - (2 * (~2x + (x mod 2))))),x,1)
1: loop(\(x,i).(2 * (x - (3 * (~2x + (x mod 2))))),x,1)
1: loop(\(x,i).(2 * (x - (2 * (~x + (x mod 2))))),2x,1)
1: loop(\(x,i).(2 * (x - (2 * (~x + (x mod 2))))),x,1)
1: loop(\(x,i).(2 * (x - (4 * (~x + (x mod 2))))),x,1)
1: loop(\(x,i).(2 * (x - (2 * (~1 + (x mod 3))))),x,1)
1: loop(\(x,i).(2 * (x - (2 * (~1 + (x mod 3))))),x,2)
1: loop(\(x,i).(2 * (x - (2 * (~2 + (x mod 4))))),(x + ~1),1)
1: loop(\(x,i).(2 * (x - (4 * (~x + i)))),x,1)
1: loop(\(x,i).(13x2 + ~12x),1,i)
1: loop(\(x,i).(6x3 + ~5x2),1,i)
1: loop(\(x,i).(2 * (x - (4x * (1 - i)))),x,1)
1: loop(\(x,i).(2 * (x - (4 * (~2x + (x mod 2))))),x,1)
1: loop(\(x,i).(2 * (x - (4 * (x - (2x * i))))),(x + 1),1)
1: loop(\(x,i).~7x2,2,x)
1: loop(\(x,i).(~4x2 + 2x),2,2)
1: loop(\(x,i).(~4x3 + 4x2 + ~x),2,2)
1: loop(\(x,i).(2 * (x - (2x * i))),(x div 2),1)
1: loop(\(x,i).(2 * (x - (2 * ((x mod (2 + (6 mod (1 + (x div 2))))) div 2)))),x,1)
1: loop(\(x,i).(2 * (x - (2 * (x div 5)))),x,1)
1: loop(\(x,i).(2 * (x - (3 * (x div ~2)))),x,1)
1: loop(\(x,i).(2 * (x - (2 * ((((x + ~1) div 2) div 2) mod 2)))),x,1)
1: loop(\(x,i).(2 * (x - (5 * ((x div 5) mod 2)))),2,x)
1: loop(\(x,i).(2 * (x - (5 * ((x div 5) mod 2)))),3,x)
1: loop(\(x,i).(2 * (x - (2 * (i mod 2)))),(x + ~1),0)
1: loop(\(x,i).(3 * (x - (3 * (i mod 2)))),x,0)
1: loop(\(x,i).(2 * (x - (2 * i))),x,0)
1: loop(\(x,i).(3 * (x - (2 * i))),x,0)
1: loop(\(x,i).((x - (2 * i)) * (1 + (2 * i))),(x + ~1),1)
1: loop(\(x,i).(2 * (x - (1 div (~1 + (2 * (i mod 4)))))),x,1)
1: loop(\(x,i).(2 * (x - ((x + (x div 2)) div 4))),(x + ~1),1)
1: loop(\(x,i).(2 * (x - ((x + (x div 3)) div 5))),(x + ~1),1)
1: loop(\(x,i).(2 * (x - ((x + (x div 3)) div 5))),(x + ~1),2)
1: loop(\(x,i).(2 * (x - ((x + i) div ~2))),x,0)
1: loop(\(x,i).(2 * (x - ((1 - loop(\(x,i).(x2 + ~1),x,2)) div (x + 1)))),x,1)
1: loop(\(x,i).(2 * (x - ((2 - (i mod 4)) div 2))),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).(2 * (x - ((~x + 2) div 2))),x,1)
1: loop(\(x,i).((x - ((~x + 2) div 2)) * (x div 2)),2,(x + 1))
1: loop(\(x,i).(2 * (x - ((2 - i) div 2))),x,2)
1: loop(\(x,i).(2 * (x - ((~1 + i) div 2))),x,1)
1: loop(\(x,i).(2 * (x - ((~x + i) div 2))),x,0)
1: loop(\(x,i).(2 * (x - ((3x + ~3) div (1 + i)))),x,2)
1: loop(\(x,i).(2 * (x - (~12x div (x + 2)))),x,1)
1: loop(\(x,i).(9 * (x - ((3 * (x div 4)) div 2))),x,1)
1: loop(\(x,i).(2 * (x - ((x mod 8) div (1 + i)))),x,1)
1: loop(\(x,i).(2 * (x - (x div 3))),((x + 1) div 3),1)
1: loop(\(x,i).(2 * (x - (x div ~2))),(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1)
1: loop(\(x,i).(2 * (x - (x div ~2))),(x + ~1),1)
1: loop(\(x,i).(2 * (x - (x div ~2))),(x div 2),(2 + (x mod 2)))
1: loop(\(x,i).(2 * (x - (x div ~2))),x,1)
1: loop(\(x,i).(x * (x - (x div ~2))),(x + ~1),1)
1: loop(\(x,i).(x * (x - (x div ~2))),(x + ~2),1)
1: loop(\(x,i).(2 * (x - (x div ~7))),x,1)
1: loop(\(x,i).(2 * (x - (x div ~4))),x,1)
1: loop(\(x,i).(2 * (x - (i div 2))),(x + ~2),1)
1: loop(\(x,i).(3 * (x - (i div ~2))),x,0)
1: loop(\(x,i).(2 * (x - ((x2 div (4 + (x div 2))) mod 2))),x,1)
1: loop(\(x,i).(2 * (x - ((x div (2 + i)) mod 2))),x,1)
1: loop(\(x,i).(2 * (x - ((x div (~x + 16)) mod 2))),x,1)
1: loop(\(x,i).(2 * (x - ((i div 2) mod 2))),(x + ~1),0)
1: loop(\(x,i).(2 * (x - ((i mod 3) mod 2))),x,1)
1: loop(\(x,i).(x * (x - (x mod 3))),1,loop(\(x,i).2x,x,2))
1: loop(\(x,i).(2 * (x - (i mod 2))),(x + ~1),2)
1: loop(\(x,i).(2 * (x - (i mod 2))),(x + ~1),(x mod 2))
1: loop(\(x,i).(2 * (x - (i mod 2))),((x + ~2) div 3),1)
1: loop(\(x,i).(2 * (x - (i mod 2))),(x div 2),2)
1: loop(\(x,i).(2 * (x - (i mod 2))),x,(if x <= 0 then 2 else 1))
1: loop(\(x,i).(2 * (x - (i mod 2))),i,2)
1: loop(\(x,i).(3 * (x - (i mod 2))),x,2)
1: loop(\(x,i).(x * (x - (i mod 2))),2x,3)
1: loop(\(x,i).((x - (i mod 2)) * i),x,1)
1: loop(\(x,i).(2 * (x - (if (i mod 2) <= 0 then 2 else ~2))),x,1)
1: loop(\(x,i).(2 * (x - (if (i mod 2) <= 0 then 2 else ~2))),x,2)
1: loop(\(x,i).(3 * (x - (if (i mod 2) <= 0 then 2 else ~2))),x,1)
1: loop(\(x,i).(2 * (x - (if (i mod 4) <= 0 then 2 else 0))),x,2)
1: loop(\(x,i).(3 * (x - loop(\(x,i).(~2x + 1),i,0))),x,1)
1: loop(\(x,i).(2 * (x - loop(\(x,i).(x - (2 * (~x + i))),i,1))),x,1)
1: loop(\(x,i).(3 * (x - loop(\(x,i).(2x + 4),i,0))),x,0)
1: loop(\(x,i).(2 * (x - loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(~2 + i),1))),x,0)
1: loop(\(x,i).(2 * (x - loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(~2 + i),1))),x,1)
1: loop(\(x,i).(2 * (x - i)),(x + ~1),0)
1: loop(\(x,i).(2 * (x - i)),(x + ~1),5)
1: loop(\(x,i).(2 * (x - i)),2x,0)
1: loop(\(x,i).(2 * (x - i)),((x + ~1) div 2),1)
1: loop(\(x,i).(2 * (x - i)),(x div 2),x)
1: loop(\(x,i).(2 * (x - i)),(x div 3),x)
1: loop(\(x,i).(2 * (x - i)),x,0)
1: loop(\(x,i).(2 * (x - i)),x,loop(\(x,i).(2x + 2),x,2))
1: loop(\(x,i).(2 * (x - i)),x,x)
1: loop(\(x,i).(4 * (x - i)),x,2)
1: loop(\(x,i).((x + 1) * (x - i)),2,2x)
1: loop(\(x,i).((x + 2) * (x - i)),2,5)
1: loop(\(x,i).((x + 2) * (x - i)),2,(x + 2))
1: loop(\(x,i).((x - i) * (x + i)),x,0)
1: loop(\(x,i).((x - i) * (x + i)),x,1)
1: loop(\(x,i).((x - i) * (x + i)),x,3)
1: loop(\(x,i).((x + ~2) * (x - i)),2,2x)
1: loop(\(x,i).(x * (x - i)),2,4)
1: loop(\(x,i).(x * (x - i)),2,(x + 4))
1: loop(\(x,i).(x * (x - i)),2,(5x + 3))
1: loop(\(x,i).(x * (x - i)),2,(1 + (2 * i)))
1: loop(\(x,i).(x * (x - i)),2,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(x * (x - i)),2,11)
1: loop(\(x,i).(x * (x - i)),2,(4x + 3))
1: loop(\(x,i).(x * (x - i)),2,(4x + ~1))
1: loop(\(x,i).(x * (x - i)),2,(x2 + ~1))
1: loop(\(x,i).(x * (x - i)),2,(x + ~3))
1: loop(\(x,i).(x * (x - i)),2,(~1 + i))
1: loop(\(x,i).(x * (x - i)),3,3)
1: loop(\(x,i).(x * (x - i)),3,8)
1: loop(\(x,i).(x * (x - i)),4,3)
1: loop(\(x,i).(x * (x - i)),(x + ~1),(x + 1))
1: loop(\(x,i).(x * (x - i)),(if x <= 0 then 1 else 2),(x + 2))
1: loop(\(x,i).((x - i) * i),(x div 2),x)
1: loop(\(x,i).((x - i) * i),x,6)
1: loop(\(x,i).((~1 + i) * i),(x + ~2),1)
1: loop(\(x,i).(x * ((~x2 + ~1) + i)),2,x)
1: loop(\(x,i).(x * (~1 + (i + (2 * (i mod 2))))),x,(1 + (x div 2)))
1: loop(\(x,i).(x * (1 + i - (x mod 3))),x,1)
1: loop(\(x,i).(x * ((4x + ~2) + i)),2,(x + 1))
1: loop(\(x,i).(x * (i - (2 * (1 - (2 * i))))),x,1)
1: loop(\(x,i).(x * (i - (3 * (1 - (2 * i))))),x,1)
1: loop(\(x,i).(x * (i - (4 * (1 - i)))),x,1)
1: loop(\(x,i).(x * (i - (2 * (2 - (3 * i))))),x,1)
1: loop(\(x,i).(x * (i - (3 * (2 - (2 * i))))),x,1)
1: loop(\(x,i).(x * (i - (4 * (1 - (2 * i))))),x,1)
1: loop(\(x,i).(x * ((6x + ~6) + i)),2,x)
1: loop(\(x,i).(x * (i - (8 * (1 - i)))),x,1)
1: loop(\(x,i).(x * (i - (2 * (i * i)))),(x2 + ~x),1)
1: loop(\(x,i).(x * (i - ((2 - i) div 2))),2x,1)
1: loop(\(x,i).(x * (i - ((((x + (x mod 2)) mod 5) div 2) div 2))),x,1)
1: loop(\(x,i).(x * (i - (x div 2))),(x2 + ~x),1)
1: loop(\(x,i).(x * (i - (x div (3 + i)))),x,1)
1: loop(\(x,i).(x * (i - (x div (if i <= 0 then 1 else i)))),2,i)
1: loop(\(x,i).(x * (i - (i div 3))),x,1)
1: loop(\(x,i).(x * (i - (i div ~2))),2x,1)
1: loop(\(x,i).(x * (i - (i div ~2))),x,1)
1: loop(\(x,i).(2 * (~x + i)),x,1)
1: loop(\(x,i).(2 * (~x + i)),x,((x + 1) mod 2))
1: loop(\(x,i).((~x + i) * (~x + i)),x,1)
1: loop(\(x,i).(x * (~x + i)),2,4x)
1: loop(\(x,i).(x * (~x + i)),3x,2)
1: loop(\(x,i).(x * (~2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),i))),(x + ~1),1)
1: loop(\(x,i).9x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),(x + 1))
1: loop(\(x,i).9x,x,(x + 9))
1: loop(\(x,i).15x,(3x + 1),1)
1: loop(\(x,i).15x,(3x + 2),1)
1: loop(\(x,i).15x,(5x + 4),1)
1: loop(\(x,i).15x,(5x + 1),1)
1: loop(\(x,i).15x,(5x + 2),1)
1: loop(\(x,i).15x,(5x + 3),1)
1: loop(\(x,i).15x,(4x + 1),1)
1: loop(\(x,i).15x,(2x + 1),1)
1: loop(\(x,i).15x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),1)
1: loop(\(x,i).15x,(4x + 3),1)
1: loop(\(x,i).15x,x2,1)
1: loop(\(x,i).15x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).15x,x,(1 + (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))))
1: loop(\(x,i).15x,x,(x + 1))
1: loop(\(x,i).15x,i,1)
1: loop(\(x,i).15x,i,(1 + i))
1: loop(\(x,i).(9 * i),(x + ~7),x)
1: loop(\(x,i).(3x2 * i),x,1)
1: loop(\(x,i).(8x + 24),2,(x mod 2))
1: loop(\(x,i).(8x + 24),(x + 1),0)
1: loop(\(x,i).(8x + 8),2,(x2 + 2x))
1: loop(\(x,i).(8x + 8),2,x)
1: loop(\(x,i).(8x + 8),(x + 1),0)
1: loop(\(x,i).(8x + 8),(x + 1),1)
1: loop(\(x,i).(16x + ~8),x,0)
1: loop(\(x,i).(4x2 + 8x + 4),2,8x)
1: loop(\(x,i).(12x + ~12),2,(x2 + 2x + 2))
1: loop(\(x,i).(12x + ~12),2,loop(\(x,i).2x,x,2))
1: loop(\(x,i).(20x + ~20),2,(x2 + 2x + 2))
1: loop(\(x,i).(36x + ~36),2,(x2 + 2x + 2))
1: loop(\(x,i).(25x + 25),2,(x2 + 2x))
1: loop(\(x,i).10x,1,((loop(\(x,i).x2,1,(~1 + loop(\(x,i).10x,x,1))) div 2) div 2))
1: loop(\(x,i).10x,2,(if x <= 0 then 0 else 1))
1: loop(\(x,i).10x,5,(x + 1))
1: loop(\(x,i).10x,(3x + 1),1)
1: loop(\(x,i).10x,(3x + 2),1)
1: loop(\(x,i).10x,(5x + 4),1)
1: loop(\(x,i).10x,(5x + 1),1)
1: loop(\(x,i).10x,(5x + 2),1)
1: loop(\(x,i).10x,(5x + 3),1)
1: loop(\(x,i).10x,(4x + 1),1)
1: loop(\(x,i).10x,(1 + (x div 2)),(2 + (x mod 2)))
1: loop(\(x,i).10x,(1 + (x div 3)),x)
1: loop(\(x,i).10x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),1)
1: loop(\(x,i).10x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),(x + 1))
1: loop(\(x,i).10x,(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 1))),1)
1: loop(\(x,i).10x,(x + 1),(if x <= 0 then 2 else 1))
1: loop(\(x,i).10x,(2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)),1)
1: loop(\(x,i).10x,(1 - ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)),1)
1: loop(\(x,i).10x,(11x + 2),1)
1: loop(\(x,i).10x,(4x + 3),1)
1: loop(\(x,i).10x,15,x)
1: loop(\(x,i).10x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1)
1: loop(\(x,i).10x,(x + ~1),x)
1: loop(\(x,i).10x,(x + ~2),x)
1: loop(\(x,i).10x,6,x)
1: loop(\(x,i).10x,(3x + 3),1)
1: loop(\(x,i).10x,((1 + i) * i),x)
1: loop(\(x,i).10x,(3x + ~3),1)
1: loop(\(x,i).10x,10x,1)
1: loop(\(x,i).10x,(6x + 6),1)
1: loop(\(x,i).10x,2x,11)
1: loop(\(x,i).10x,2x,loop(\(x,i).(10x + 1),x,1))
1: loop(\(x,i).10x,2x,loop(\(x,i).(10x + 10),(x + 1),0))
1: loop(\(x,i).10x,((x + ~1) div 2),1)
1: loop(\(x,i).10x,((x2 + ~x) div 2),1)
1: loop(\(x,i).10x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).10x,(x div 2),9)
1: loop(\(x,i).10x,(x div 2),(1 + (2 * (x mod 2))))
1: loop(\(x,i).10x,(x mod 3),1)
1: loop(\(x,i).10x,(i mod 2),(x + ~2))
1: loop(\(x,i).10x,x,(x + 10))
1: loop(\(x,i).10x,x,(1 + loop(\(x,i).10x,(x + 2),1)))
1: loop(\(x,i).10x,x,(x + 2))
1: loop(\(x,i).10x,x,(1 - loop(\(x,i).(10x + ~60),x,0)))
1: loop(\(x,i).10x,x,~4)
1: loop(\(x,i).10x,x,(~3 + loop(\(x,i).10x,(x + 1),1)))
1: loop(\(x,i).10x,x,(~2 + loop(\(x,i).10x,(x + 1),1)))
1: loop(\(x,i).10x,x,(x * loop(\(x,i).x3,2,x)))
1: loop(\(x,i).10x,x,((x + 1) * loop(\(x,i).x2,2,3)))
1: loop(\(x,i).10x,x,loop(\(x,i).(10x + 1),2x,1))
1: loop(\(x,i).10x,x,loop(\(x,i).(10x + 21),x,1))
1: loop(\(x,i).10x,x,loop(\(x,i).(10x + 10),(2x + 1),0))
1: loop(\(x,i).10x,i,i)
1: loop(\(x,i).35x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),1)
1: loop(\(x,i).45x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),1)
1: loop(\(x,i).45x,x,1)
1: loop(\(x,i).5x2,3,x)
1: loop(\(x,i).(5x * i),x,1)
1: loop(\(x,i).(6x + 30),x,0)
1: loop(\(x,i).(2x2 + 10x),2,1)
1: loop(\(x,i).(6x + 36),x,0)
1: loop(\(x,i).(2x2 + 14x + 12),2,2)
1: loop(\(x,i).(x * ((5 + i) * i)),x,1)
1: loop(\(x,i).(x * ((6 + i) * i)),x,1)
1: loop(\(x,i).(10x + 90),(2x + 1),1)
1: loop(\(x,i).(10x + 90),(x + 2),1)
1: loop(\(x,i).(10x + 90),x,0)
1: loop(\(x,i).(10x + 100),x,0)
1: loop(\(x,i).((3x + 3) * ((x + 2) + (x div 2))),2,2)
1: loop(\(x,i).(6 * (3x + (x div 2))),x,1)
1: loop(\(x,i).(2x2 + 6x),2,2)
1: loop(\(x,i).(3x2 + 9x),2,1)
1: loop(\(x,i).(x3 + 3x2),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(4x + 16),x,0)
1: loop(\(x,i).(2x2 + 12x + 16),2,(x2 + 2x))
1: loop(\(x,i).(x3 + 7x2 + 14x + 8),1,7x)
1: loop(\(x,i).(2x2 + 8x),1,((1 + (x mod 8)) mod (x + 1)))
1: loop(\(x,i).(2x2 + 8x),2,1)
1: loop(\(x,i).(2x * (3 + i)),(x + ~1),x)
1: loop(\(x,i).(2x * (3 + i)),x,1)
1: loop(\(x,i).(3x * (3 + i)),x,1)
1: loop(\(x,i).(x * ((3 + i) * i)),x,1)
1: loop(\(x,i).(2x * (4 + i)),x,1)
1: loop(\(x,i).((x2 + 4x) * (4 + i)),2,x)
1: loop(\(x,i).(x * ((4 + i) * i)),x,1)
1: loop(\(x,i).14x,(3x + 1),1)
1: loop(\(x,i).14x,(3x + 2),1)
1: loop(\(x,i).14x,(5x + 4),1)
1: loop(\(x,i).14x,(5x + 1),1)
1: loop(\(x,i).14x,(5x + 2),1)
1: loop(\(x,i).14x,(5x + 3),1)
1: loop(\(x,i).14x,(4x + 1),1)
1: loop(\(x,i).14x,(2x + 1),1)
1: loop(\(x,i).14x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),1)
1: loop(\(x,i).14x,(4x + 3),1)
1: loop(\(x,i).14x,x2,1)
1: loop(\(x,i).14x,(x div 2),(1 + (x mod 2)))
1: loop(\(x,i).14x,i,1)
1: loop(\(x,i).14x,i,(1 + i))
1: loop(\(x,i).21x,(3x + 1),1)
1: loop(\(x,i).21x,(3x + 2),1)
1: loop(\(x,i).21x,(5x + 4),1)
1: loop(\(x,i).21x,(5x + 1),1)
1: loop(\(x,i).21x,(5x + 2),1)
1: loop(\(x,i).21x,(5x + 3),1)
1: loop(\(x,i).21x,(4x + 1),1)
1: loop(\(x,i).21x,(2x + 1),1)
1: loop(\(x,i).21x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),1)
1: loop(\(x,i).21x,(4x + 3),1)
1: loop(\(x,i).21x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).21x,x,1)
1: loop(\(x,i).21x,x,x)
1: loop(\(x,i).21x,i,1)
1: loop(\(x,i).21x,i,(1 + i))
1: loop(\(x,i).28x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),1)
1: loop(\(x,i).28x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).28x,x,1)
1: loop(\(x,i).(7x * (1 + i)),x,1)
1: loop(\(x,i).7x3,(2x + 1),1)
1: loop(\(x,i).7x2,1,loop(\(x,i).(~1 + (2 * (x + (i mod 2)))),x,0))
1: loop(\(x,i).7x2,3,1)
1: loop(\(x,i).(7x * i),x,1)
1: loop(\(x,i).(12x + 8),2,3)
1: loop(\(x,i).(12x + 8),2,3x)
1: loop(\(x,i).(12x + 8),x,1)
1: loop(\(x,i).(15x2 + 10x),2,x)
1: loop(\(x,i).(2x * (2 + (3 * i))),x,1)
1: loop(\(x,i).(3x * (2 + (3 * i))),x,1)
1: loop(\(x,i).26x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),1)
1: loop(\(x,i).26x,x,1)
1: loop(\(x,i).26x,x,9)
1: loop(\(x,i).39x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),1)
1: loop(\(x,i).39x,x,1)
1: loop(\(x,i).39x,x,17)
1: loop(\(x,i).(2x * (1 + (4 * (1 + i)))),x,1)
1: loop(\(x,i).(x * ((1 + (4 * (1 + i))) * i)),x,1)
1: loop(\(x,i).(x * ((1 + (4 * (~1 + i))) * i)),x,1)
1: loop(\(x,i).(10x2 + 2x),2,x)
1: loop(\(x,i).(2x * (1 + (5 * i))),x,1)
1: loop(\(x,i).(2x * (2 + (5 * i))),x,1)
1: loop(\(x,i).(2x * (3 + (5 * i))),x,1)
1: loop(\(x,i).(x2 * (1 + (2 * (3 + i)))),2,x)
1: loop(\(x,i).(80x2 + 8x + 4),2,x)
1: loop(\(x,i).(120x2 + 12x + 6),2,x)
1: loop(\(x,i).(14x2 + 6x),2,x)
1: loop(\(x,i).(x5 + x3 + x2),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(2x * (1 + (2 * (1 + (i mod 2))))),x,1)
1: loop(\(x,i).(6x2 + 6x + 12),2,x)
1: loop(\(x,i).(2x * (1 + (2 * (1 + i)))),x,1)
1: loop(\(x,i).(3x * (1 + (2 * (1 + i)))),x,1)
1: loop(\(x,i).(x * ((1 + (2 * (1 + i))) * (~1 + (2 * i)))),x,(x + 1))
1: loop(\(x,i).(2x * ((1 + (2 * (1 + i))) * i)),x,1)
1: loop(\(x,i).(x * ((1 + (2 * (1 + i))) * i)),x,1)
1: loop(\(x,i).(x * ((1 + (2 * (1 + i))) * i)),x,(x + 1))
1: loop(\(x,i).(6 * (2 + (x * (1 + i)))),2,x)
1: loop(\(x,i).(2x * (1 + (2 * (2 + i)))),x,1)
1: loop(\(x,i).(x2 * ((2 * (2 + i)) + i)),2,x)
1: loop(\(x,i).(x * (((2 * (2 + i)) + i) * i)),x,1)
1: loop(\(x,i).(x5 + ~x3 + x2),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(12x2 + ~20),2,x)
1: loop(\(x,i).(4x2 + ~4x + 4),2,x)
1: loop(\(x,i).(17 * ((if x <= 0 then 1 else 2) * (1 + (x mod 2)))),1,(x mod 3))
1: loop(\(x,i).34x,2,(2x + 1))
1: loop(\(x,i).34x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),1)
1: loop(\(x,i).34x,x,1)
1: loop(\(x,i).(6x + 120),x,1)
1: loop(\(x,i).(18x2 + 18x + 6),2,x)
1: loop(\(x,i).(8x2 + 18x),2,x)
1: loop(\(x,i).(10x2 + 36x + 32),2,x)
1: loop(\(x,i).(4 * (1 + ((x2 + 2x) * (2 + i)))),2,x)
1: loop(\(x,i).(4 * (1 + ((3x + 6) * (x + i)))),2,x)
1: loop(\(x,i).(x10 + x9 + x8 + x7 + x6 + x5 + x4 + x3 + x2 + x),1,loop(\(x,i).2x,x,1))
1: loop(\(x,i).(48x2 + 96x + 4),2,x)
1: loop(\(x,i).(32x2 + 4x),x,1)
1: loop(\(x,i).(40x2 + 5x),2,x)
1: loop(\(x,i).(6 * (8x2 + (x mod 3))),2,x)
1: loop(\(x,i).(2x7 + x6 + 2x2 + x),1,2x)
1: loop(\(x,i).(16x + 4),x,0)
1: loop(\(x,i).(24x2 + 16x + 2),2,2x)
1: loop(\(x,i).(2x4 + 6x3 + 5x2 + 3x + 2),1,(x + 1))
1: loop(\(x,i).(x7 + x6 + x5 + x4 + x3 + x2 + x + 1),1,loop(\(x,i).2x,x,1))
1: loop(\(x,i).(x7 + x5 + x3 + x),1,(x + 1))
1: loop(\(x,i).(x7 + x5 + x3 + x),1,2x)
1: loop(\(x,i).(2x5 + 4x),1,3x)
1: loop(\(x,i).(6x3 + 6),2,2)
1: loop(\(x,i).(x6 + x5 + x4 + x3 + x2 + x),1,loop(\(x,i).2x,x,1))
1: loop(\(x,i).(x5 + x2),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(x5 + x2),1,x2)
1: loop(\(x,i).(2x * (1 + (4 * i))),x,1)
1: loop(\(x,i).(x * ((1 + (4 * i)) * i)),x,1)
1: loop(\(x,i).(4 * (1 + (x2 * i))),2,x)
1: loop(\(x,i).(6 * (x + (3 * (2x div (if i <= 0 then 1 else i))))),x,1)
1: loop(\(x,i).(4 * (1 + (2 * (x div 4)))),(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1)
1: loop(\(x,i).(6 * (x + (4 * (x div (if i <= 0 then 1 else i))))),x,1)
1: loop(\(x,i).(2x * (1 + (2 * (i div 2)))),(2x + ~1),1)
1: loop(\(x,i).(3x * (1 + (2 * (x mod 6)))),x,1)
1: loop(\(x,i).(2x * (2 + (3 * (x mod 6)))),x,1)
1: loop(\(x,i).(2x * (1 + (2 * (i mod 2)))),x,1)
1: loop(\(x,i).(8x + 4),x,0)
1: loop(\(x,i).((6x + 3) * (2 + i)),2,(2x + 1))
1: loop(\(x,i).(4x2 + 2x),2,2x)
1: loop(\(x,i).(10x2 + 5x),2,x)
1: loop(\(x,i).(4x3 + 4x2 + x),2,1)
1: loop(\(x,i).(2x3 + x2),((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2),1)
1: loop(\(x,i).(6x2 + 6),2,x)
1: loop(\(x,i).(10x2 + 10),2,(x + 1))
1: loop(\(x,i).(x4 + 2x3 + 2x2 + 2x + 1),2,2)
1: loop(\(x,i).(2x3 + 2x),2,6)
1: loop(\(x,i).(2x3 + 2x),2,2x)
1: loop(\(x,i).(2x3 + 2x),x,(~x + 1))
1: loop(\(x,i).(x4 + x3 + x2 + x),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(x4 + x3 + x2 + x),1,x5)
1: loop(\(x,i).(x4 + x3 + x2 + x),1,loop(\(x,i).2x,x,2))
1: loop(\(x,i).(x4 + x3 + x2 + x),1,loop(\(x,i).(x * i),x,1))
1: loop(\(x,i).(x4 + ~x3 + x2 + ~x),1,loop(\(x,i).2x,x,1))
1: loop(\(x,i).(x4 + ~x3 + x2 + ~x),1,loop(\(x,i).(x * i),x,1))
1: loop(\(x,i).(x4 + x2),1,x5)
1: loop(\(x,i).(x4 + x2),2,2)
1: loop(\(x,i).(4x2 + 8),2,0)
1: loop(\(x,i).(4x2 + 8),2,(2x + 1))
1: loop(\(x,i).(6x2 + 12),2,(x + 1))
1: loop(\(x,i).(2x3 + 4x),1,((x2 + ~x) div 2))
1: loop(\(x,i).(2x3 + 4x),2,1)
1: loop(\(x,i).(3x3 + 6x),(2x + 2),1)
1: loop(\(x,i).(x5 + 3x3 + 2x),1,(2x + 2))
1: loop(\(x,i).(x4 + 3x2),2,2)
1: loop(\(x,i).(6x2 + 24),2,3)
1: loop(\(x,i).(2x3 + 2x2 + 8x + 8),2,2)
1: loop(\(x,i).((x3 + x) * ((x2 + 2) + i)),1,loop(\(x,i).2x,x,1))
1: loop(\(x,i).(6 * (x2 + i)),2,x)
1: loop(\(x,i).(2x * (1 + (2 * i))),(2x + 1),2)
1: loop(\(x,i).(2x * (1 + (2 * i))),(x + 1),1)
1: loop(\(x,i).(2x * (1 + (2 * i))),(x + 2),1)
1: loop(\(x,i).(2x * (1 + (2 * i))),(1 + compr(\x.((~1 + loop(\(x,i).(x * i),x,1)) mod (x + 2)),x)),1)
1: loop(\(x,i).(2x * (1 + (2 * i))),(1 + compr(\x.((~1 + loop(\(x,i).(x * i),x,1)) mod (x + 2)),x)),2)
1: loop(\(x,i).(2x * (1 + (2 * i))),(x + ~1),1)
1: loop(\(x,i).(2x * (1 + (2 * i))),2x,2)
1: loop(\(x,i).(2x * (1 + (2 * i))),2x,(1 - (2 * (x mod 2))))
1: loop(\(x,i).(2x * (1 + (2 * i))),x2,2)
1: loop(\(x,i).(2x * (1 + (2 * i))),(i * i),x)
1: loop(\(x,i).(2x * (1 + (2 * i))),x,(x + 1))
1: loop(\(x,i).(2x * (1 + (2 * i))),x,(x + 2))
1: loop(\(x,i).(2x * (1 + (2 * i))),x,(2x + 2))
1: loop(\(x,i).(2x * (1 + (2 * i))),i,2)
1: loop(\(x,i).(2x * (1 + (2 * i))),i,x)
1: loop(\(x,i).(3x * (1 + (2 * i))),x,1)
1: loop(\(x,i).(5x * (1 + (2 * i))),x,1)
1: loop(\(x,i).(x * ((1 + (2 * i)) * (3 + i))),x,1)
1: loop(\(x,i).(x * ((1 + (2 * i)) * (1 + (2 * i)))),x,1)
1: loop(\(x,i).(x * ((1 + (2 * i)) * (1 + (2 * i)))),x,(2x + 4))
1: loop(\(x,i).((2x2 + ~x) * (1 + (2 * i))),2,x)
1: loop(\(x,i).(x2 * (1 + (2 * i))),x,2)
1: loop(\(x,i).(x * ((1 + (2 * i)) * i)),(2x + 1),2)
1: loop(\(x,i).(x * ((1 + (2 * i)) * i)),(x + ~1),1)
1: loop(\(x,i).(x * ((1 + (2 * i)) * i)),x,1)
1: loop(\(x,i).(6 * (x + (5x div (if i <= 0 then 1 else i)))),x,1)
1: loop(\(x,i).(6 * (x + (7x div (if i <= 0 then 1 else i)))),x,1)
1: loop(\(x,i).(6 * (x + (10x div (if i <= 0 then 1 else i)))),x,1)
1: loop(\(x,i).(4 * (2x + (14x div (1 + i)))),x,1)
1: loop(\(x,i).(4 * (2x + (14x div (1 + i)))),x,(x + 1))
1: loop(\(x,i).(6 * (x + (8x div (1 + i)))),x,(x + 1))
1: loop(\(x,i).(6 * (x + (8x div (if i <= 0 then 1 else i)))),x,1)
1: loop(\(x,i).(4 * (1 + ((32 mod (x + 1)) div 2))),3,x)
1: loop(\(x,i).(4 * (1 + ((32 mod (x + 1)) div 2))),x,3)
1: loop(\(x,i).(20 * (x + (x div 2))),2,x)
1: loop(\(x,i).(12 * (x + (x div 4))),2,x)
1: loop(\(x,i).(4 * ((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1))),1,i)
1: loop(\(x,i).(6 * (6x + (x div (if i <= 0 then 1 else (0 - i))))),x,1)
1: loop(\(x,i).(4 * (4x + (x div (if i <= 0 then 1 else i)))),x,1)
1: loop(\(x,i).(6 * (2x + (x div (if i <= 0 then 1 else i)))),x,1)
1: loop(\(x,i).(5x * (1 + (2 mod (x + 1)))),x,1)
1: loop(\(x,i).(2x * (2 + ((x + ~1) mod 3))),3,x)
1: loop(\(x,i).((2x + 2) * (1 + (x mod 2))),(x div 2),(1 + (2 * (x mod 2))))
1: loop(\(x,i).(4 * (2x + (x mod 2))),x,1)
1: loop(\(x,i).(2x * (1 + (i mod 2))),x,(1 + (2 * (x mod 2))))
1: loop(\(x,i).(x * ((1 + (i mod 2)) * i)),2x,1)
1: loop(\(x,i).(x * ((1 + (i mod 2)) * i)),x,1)
1: loop(\(x,i).(2x * (~1 + ((i mod 2) + i))),x,1)
1: loop(\(x,i).(2x * ((i mod 2) + i)),2x,2)
1: loop(\(x,i).(2x * (2 + (i mod 3))),x,1)
1: loop(\(x,i).(x * ((2 + (if (~x + 2) <= 0 then 2 else 1)) * i)),x,1)
1: loop(\(x,i).(x * ((1 + (if (x mod 2) <= 0 then 3x else 0)) * i)),x,1)
1: loop(\(x,i).(2x * (1 + (if (x mod (1 + i)) <= 0 then 0 else i))),x,2)
1: loop(\(x,i).(x * ((1 + (if (x mod (1 + i)) <= 0 then 0 else i)) * (1 + i))),x,1)
1: loop(\(x,i).(x * ((1 + (if (i mod 2) <= 0 then 2 else 0)) * i)),x,1)
1: loop(\(x,i).((2x + 2) * (2 + (if x <= 0 then 0 else 2))),(x div 2),(x mod 2))
1: loop(\(x,i).(6x + 6),2,(x2 + 2x))
1: loop(\(x,i).(6x + 6),x,0)
1: loop(\(x,i).(10x + 10),5,0)
1: loop(\(x,i).(10x + 10),(x + 1),x)
1: loop(\(x,i).(10x + 10),2x,(if x <= 0 then 1 else 0))
1: loop(\(x,i).(10x + 10),(x div 2),0)
1: loop(\(x,i).(9x + 9),2,(x2 + 2x))
1: loop(\(x,i).(9x + 9),2,loop(\(x,i).(10x + 1),x,1))
1: loop(\(x,i).(3x2 + 3x),(2 * (x mod 2)),1)
1: loop(\(x,i).(5x2 + 5x),2,2x)
1: loop(\(x,i).(x3 + 4x2 + 3x),2,1)
1: loop(\(x,i).(2x3 + 3x2 + x),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(2x3 + 3x2 + x),1,loop(\(x,i).10x,x,1))
1: loop(\(x,i).(2x3 + 3x2 + x),2,1)
1: loop(\(x,i).(x3 + 2x2 + x),2,2)
1: loop(\(x,i).(4x + 8),4,0)
1: loop(\(x,i).(4x + 8),4,1)
1: loop(\(x,i).(4x + 8),x,0)
1: loop(\(x,i).(4x + 8),x,1)
1: loop(\(x,i).(4x + 8),x,4)
1: loop(\(x,i).(4x + 8),x,x)
1: loop(\(x,i).(10x + 20),(x + 1),0)
1: loop(\(x,i).(10x + 20),x,0)
1: loop(\(x,i).(2x2 + 8x + 8),2,1)
1: loop(\(x,i).(3x2 + 12x + 12),2,0)
1: loop(\(x,i).(3x2 + 12x + 12),2,1)
1: loop(\(x,i).((x2 + 4x + 4) * (1 + i)),2,2)
1: loop(\(x,i).((x2 + 4x + 4) * (2 + i)),2,0)
1: loop(\(x,i).(2x2 + 4x),2,2)
1: loop(\(x,i).(2x2 + 4x),2,(2x + 1))
1: loop(\(x,i).(2x2 + 4x),2,(x + 1))
1: loop(\(x,i).(2x2 + 4x),5,1)
1: loop(\(x,i).(2x2 + 4x),(x + (x div 3)),1)
1: loop(\(x,i).(2x2 + 4x),(x + ~1),1)
1: loop(\(x,i).(2x2 + 4x),x,2)
1: loop(\(x,i).(4x2 + 8x),2,1)
1: loop(\(x,i).(x3 + 5x2 + 6x),1,loop(\(x,i).4x,x,1))
1: loop(\(x,i).(x3 + 6x2 + 8x),1,(5x + 1))
1: loop(\(x,i).(x3 + 6x2 + 8x),1,(6x + 1))
1: loop(\(x,i).(2x3 + 5x2 + 2x),2x,(x + 1))
1: loop(\(x,i).(x3 + 3x2 + 2x),1,((x2 + 3x + 2) div 2))
1: loop(\(x,i).(x3 + 4x2 + 4x),1,(x2 + 2x + 1))
1: loop(\(x,i).(x3 + 4x2 + 4x),1,(x2 + 2x))
1: loop(\(x,i).((x2 + 2x) * (2 + i)),2,1)
1: loop(\(x,i).(x3 + x2 + ~2x),2,2)
1: loop(\(x,i).(x3 + x2 + ~2x),3,2)
1: loop(\(x,i).(x3 + ~4x),1,(4x + 3))
1: loop(\(x,i).(3x * (1 + i)),(x + ~2),x)
1: loop(\(x,i).(3x * (1 + i)),7x,1)
1: loop(\(x,i).(3x * (1 + i)),(3x2 + 3x),1)
1: loop(\(x,i).(3x * (1 + i)),x,1)
1: loop(\(x,i).(5x * (1 + i)),x,1)
1: loop(\(x,i).(x * ((1 + i) * (1 + (2 * i)))),2x,1)
1: loop(\(x,i).(x * ((1 + i) * (1 + (i mod 2)))),x,1)
1: loop(\(x,i).((x2 + x) * (1 + i)),2,2)
1: loop(\(x,i).((x2 + x) * (1 + i)),2,3)
1: loop(\(x,i).(x * ((1 + i) * (~1 + (2 * i)))),x,1)
1: loop(\(x,i).(2x * (2 + i)),4x,1)
1: loop(\(x,i).(2x * (2 + i)),x,1)
1: loop(\(x,i).(2x * (2 + i)),x,2)
1: loop(\(x,i).(2x * (2 + i)),x,(2x + 4))
1: loop(\(x,i).(2x * (2 + i)),x,((x2 + 3x + 2) div 2))
1: loop(\(x,i).(3x * (2 + i)),x,1)
1: loop(\(x,i).(3x * (2 + i)),x,2)
1: loop(\(x,i).(4x * (2 + i)),x,1)
1: loop(\(x,i).(5x * (2 + i)),x,1)
1: loop(\(x,i).(x * ((2 + i) * (3 + i))),x,(x + 1))
1: loop(\(x,i).(x * ((2 + i) * (1 + i))),x,1)
1: loop(\(x,i).(x * ((2 + i) * (1 + i))),x,2)
1: loop(\(x,i).(x * ((2 + i) * (2 + i))),(x + 1),1)
1: loop(\(x,i).(x * ((2 + i) * (2 + i))),x,2)
1: loop(\(x,i).(x * ((2 + i) * (~1 + (2 * i)))),x,1)
1: loop(\(x,i).((x + 2) * ((2 + i) * i)),x,2)
1: loop(\(x,i).((2x + ~1) * ((2 + i) * i)),x,1)
1: loop(\(x,i).(8 * (x + i)),2,(x2 + 2x))
1: loop(\(x,i).(8 * (x + i)),x,0)
1: loop(\(x,i).((2x + 2) * (x + i)),2,2)
1: loop(\(x,i).((x2 + 2x + 1) * (x + i)),2,1)
1: loop(\(x,i).((3x + 6) * (x + i)),2,2)
1: loop(\(x,i).((5x + 10) * (x + i)),2,2)
1: loop(\(x,i).(x2 * (x + i)),2,2)
1: loop(\(x,i).((x + 1) * ((x + i) * i)),2,3)
1: loop(\(x,i).(x * ((1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)) * (2 - (x mod 2)))),x,1)
1: loop(\(x,i).(x2 * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))),x,1)
1: loop(\(x,i).~10x,(x + 1),1)
1: loop(\(x,i).~10x,x,1)
1: loop(\(x,i).~10x2,2,x)
1: loop(\(x,i).(~14x + ~14),2,(x2 + 2x))
1: loop(\(x,i).(~21x + ~21),2,(x2 + 2x))
1: loop(\(x,i).(~35x + ~35),2,(x2 + 2x))
1: loop(\(x,i).(~33x + ~33),2,(x2 + 2x))
1: loop(\(x,i).(~30x + ~30),2,(x2 + 2x))
1: loop(\(x,i).(~8x + 4),2,x)
1: loop(\(x,i).(~6x2 + ~9x + 6),2,x)
1: loop(\(x,i).(~4x2 + ~4x + 8),2,2)
1: loop(\(x,i).(~2x3 + ~2x2 + 4x),2,3)
1: loop(\(x,i).(~5x2 + 5x),2,x)
1: loop(\(x,i).(~x3 + 2x2 + ~x),2,x)
1: loop(\(x,i).(~10x2 + 20),2,1)
1: loop(\(x,i).((5x + 5) * (2 - (x mod 2))),(x div 2),1)
1: loop(\(x,i).((x2 + x) * (2 - (x mod 2))),2,(1 + (x div 2)))
1: loop(\(x,i).(3x * (2 - (i mod 2))),x,1)
1: loop(\(x,i).(x * ((2 - (i mod 2)) * i)),x,1)
1: loop(\(x,i).(~10x + 20),x,1)
1: loop(\(x,i).(~2x2 + 2x + 4),2,3x)
1: loop(\(x,i).(~9x + 18),x,1)
1: loop(\(x,i).(~8x + 16),x,1)
1: loop(\(x,i).(~4x2 + 16),2,0)
1: loop(\(x,i).(~x3 + 4x2 + ~5x + 2),2,x)
1: loop(\(x,i).((x2 + x) * (2 - i)),x,2)
1: loop(\(x,i).(2 * (((x + ~1) + (2 * i)) * i)),x,0)
1: loop(\(x,i).(2x * ((x + ~1) + i)),2,3)
1: loop(\(x,i).(~27x + ~27),2,(x2 + 2x))
1: loop(\(x,i).(~25x + ~25),2,(x2 + 2x))
1: loop(\(x,i).(2x * (~2 + (3 * i))),x,1)
1: loop(\(x,i).(3x * (~2 + (3 * i))),x,1)
1: loop(\(x,i).(x * ((~2 + (3 * i)) * i)),x,1)
1: loop(\(x,i).22x,(3x + 1),1)
1: loop(\(x,i).22x,(3x + 2),1)
1: loop(\(x,i).22x,(5x + 1),1)
1: loop(\(x,i).22x,(5x + 2),1)
1: loop(\(x,i).22x,(5x + 3),1)
1: loop(\(x,i).22x,(4x + 1),1)
1: loop(\(x,i).22x,(2x + 1),1)
1: loop(\(x,i).22x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),1)
1: loop(\(x,i).22x,(4x + 3),1)
1: loop(\(x,i).22x,(x2 + 4x + 4),1)
1: loop(\(x,i).22x,i,1)
1: loop(\(x,i).22x,i,(1 + i))
1: loop(\(x,i).44x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),1)
1: loop(\(x,i).44x,x,1)
1: loop(\(x,i).(11x * i),x,1)
1: loop(\(x,i).(2x * (~1 + (4 * (1 + i)))),x,1)
1: loop(\(x,i).(x2 * (~1 + (4 * (1 + i)))),2,x)
1: loop(\(x,i).(4x2 + 20x + ~8),2,x)
1: loop(\(x,i).(x5 + x3 + ~x2),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(6x2 + 12x + ~6),2,x)
1: loop(\(x,i).(x4 + 2x3 + ~x2),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(2x * (~1 + (3 * (2 + i)))),x,1)
1: loop(\(x,i).(x5 + ~x3 + ~x2),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(x4 + ~x3 + ~x2),x,9)
1: loop(\(x,i).46x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),1)
1: loop(\(x,i).46x,x,1)
1: loop(\(x,i).(18x2 + 306x + 282),2,x)
1: loop(\(x,i).(18x2 + 18x + ~6),2,x)
1: loop(\(x,i).(12x2 + 12x + ~8),2,x)
1: loop(\(x,i).(30x2 + 30x + ~6),2,x)
1: loop(\(x,i).(8x2 + 16x + ~4),2,x)
1: loop(\(x,i).93x,2,(x + 1))
1: loop(\(x,i).(4x3 + 3x2 + ~x),2,1)
1: loop(\(x,i).(4 * (4x - (x div (if i <= 0 then 1 else (i * i))))),x,1)
1: loop(\(x,i).(6 * (4x - (x mod 2))),x,1)
1: loop(\(x,i).(2x4 + 2x3 + ~x2 + ~x),1,(2x + 3))
1: loop(\(x,i).(2x5 + ~x3),1,3x)
1: loop(\(x,i).(12x2 + ~4),2,x)
1: loop(\(x,i).(18x2 + ~12),2,x)
1: loop(\(x,i).(x6 + ~x2),(x + ~2),x)
1: loop(\(x,i).(2x * (~1 + (4 * i))),x,1)
1: loop(\(x,i).(x * ((~1 + (4 * i)) * (~1 + (2 * i)))),x,1)
1: loop(\(x,i).(x * ((~1 + (4 * i)) * i)),x,1)
1: loop(\(x,i).(x * ((~1 + (2 * (i mod 2))) * i)),x,1)
1: loop(\(x,i).(8x + ~4),x,0)
1: loop(\(x,i).(8x + ~4),x,2)
1: loop(\(x,i).(12x + ~6),x,1)
1: loop(\(x,i).(4x2 + ~2x),2,2)
1: loop(\(x,i).(2 * ((2x - (x div (if i <= 0 then 1 else i))) * (~1 + (2 * i)))),x,1)
1: loop(\(x,i).(12 * (2x - (x div (if i <= 0 then 1 else i)))),x,1)
1: loop(\(x,i).(4 * ((2x - (x div (if i <= 0 then 1 else i))) * (~1 + (2 * i)))),x,1)
1: loop(\(x,i).(6 * (2x - (x mod 2))),x,1)
1: loop(\(x,i).(4x2 + ~4),2,2x)
1: loop(\(x,i).(6x2 + ~12),2,(x + 1))
1: loop(\(x,i).(2x3 + ~4x),2,2)
1: loop(\(x,i).(6x2 + ~18),2,x)
1: loop(\(x,i).(2x * (~1 + (2 * i))),(x + ~1),2)
1: loop(\(x,i).(2x * (~1 + (2 * i))),(x2 + x),1)
1: loop(\(x,i).(2x * (~1 + (2 * i))),x,2)
1: loop(\(x,i).(2x * (~1 + (2 * i))),x,3)
1: loop(\(x,i).(2x * (~1 + (2 * i))),x,(3x + 2))
1: loop(\(x,i).(2x * (~1 + (2 * i))),x,(x + 1))
1: loop(\(x,i).(2x * (~1 + (2 * i))),x,(~x + 1))
1: loop(\(x,i).(2x * (~1 + (2 * i))),x,x)
1: loop(\(x,i).(3x * (~1 + (2 * i))),x,1)
1: loop(\(x,i).(x * ((~1 + (2 * i)) * i)),4x,1)
1: loop(\(x,i).(5x * (~1 + (x * i))),2,x)
1: loop(\(x,i).(4 * (~2x + (x div (if i <= 0 then 1 else i)))),x,1)
1: loop(\(x,i).(2x * (~2 + (i mod 2))),x,1)
1: loop(\(x,i).(10x + ~10),x,0)
1: loop(\(x,i).(10x + ~10),x,(x + 1))
1: loop(\(x,i).(3x2 + ~3x),2,3)
1: loop(\(x,i).(5x2 + ~5x),1,loop(\(x,i).10x,x,1))
1: loop(\(x,i).(2x3 + ~3x2 + x),1,loop(\(x,i).2x,x,1))
1: loop(\(x,i).(2x3 + ~3x2 + x),2,2)
1: loop(\(x,i).(4x + ~8),x,1)
1: loop(\(x,i).(4x + ~8),x,3)
1: loop(\(x,i).(6x + ~12),x,0)
1: loop(\(x,i).(6x + ~12),x,1)
1: loop(\(x,i).(2x2 + ~6x + 4),2,2x)
1: loop(\(x,i).(x4 + ~2x3),1,5x)
1: loop(\(x,i).((x2 + ~2x) * i),(2x + 4),1)
1: loop(\(x,i).((x2 + ~2x) * i),4x,1)
1: loop(\(x,i).(10x + ~40),x,0)
1: loop(\(x,i).(3x2 + ~12x),2,x)
1: loop(\(x,i).(4 * ((x + 1) - (2 * (i mod 2)))),x,1)
1: loop(\(x,i).(6 * ((x + 1) - (2 * (i mod 2)))),x,1)
1: loop(\(x,i).(2 * (((x + 1) - (2 * i)) * i)),x,0)
1: loop(\(x,i).(10x + ~80),x,0)
1: loop(\(x,i).(~8x2 + ~28x + ~32),2,x)
1: loop(\(x,i).(2 * ((x - (2x * i)) * (~1 + (2 * i)))),x,1)
1: loop(\(x,i).(4 * (x - (x div ~2))),x,1)
1: loop(\(x,i).(4 * (x - (x div (if i <= 0 then 1 else (2 * i))))),x,1)
1: loop(\(x,i).(4 * (x - (i mod 2))),x,2)
1: loop(\(x,i).((2x + ~2) * (x - i)),2,2x)
1: loop(\(x,i).(4 * ((x - i) * i)),x,2)
1: loop(\(x,i).(x * ((x - i) * (x + i))),x,2)
1: loop(\(x,i).(5x * (x - i)),2,x)
1: loop(\(x,i).(x2 * (x - i)),2,5)
1: loop(\(x,i).(x * ((i - (4 * (1 - i))) * i)),x,1)
1: loop(\(x,i).((x2 + ~2x) * (~x + i)),2,x)
1: loop(\(x,i).27x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),1)
1: loop(\(x,i).(16 * (1 + (x * i))),2,x)
1: loop(\(x,i).(~16x + ~16),2,(x2 + 2x))
1: loop(\(x,i).(16 * (~1 + (x * i))),2,(x + 2))
1: loop(\(x,i).(24x + 24),2,(3x + 2))
1: loop(\(x,i).(40x + 40),2,(5x + 4))
1: loop(\(x,i).(40x + 40),2,(x2 + 2x))
1: loop(\(x,i).(~24x + ~24),2,(x2 + 2x))
1: loop(\(x,i).(~40x + ~40),2,(x2 + 2x))
1: loop(\(x,i).(12x2 + ~24x + 12),2,x)
1: loop(\(x,i).50x,x,1)
1: loop(\(x,i).(20x2 + 30x),2,x)
1: loop(\(x,i).(8x + 72),2,x)
1: loop(\(x,i).(4x2 + 16x + 12),2,1)
1: loop(\(x,i).(4x * (1 + (2 * (1 + i)))),x,(x + 1))
1: loop(\(x,i).(8 * (1 + ((x + 2) * (x + i)))),2,x)
1: loop(\(x,i).(x * ((1 + (i * i * i)) * i * (1 + i))),x,1)
1: loop(\(x,i).(x5 + ~x4 + x3 + ~x2),1,x2)
1: loop(\(x,i).(x5 + 4x3),1,3x)
1: loop(\(x,i).(6x * (1 + (2 * i))),x,1)
1: loop(\(x,i).(18x * (1 + (2 * i))),x,1)
1: loop(\(x,i).(2x * ((1 + (2 * i)) * (1 + (4 * i)))),x,1)
1: loop(\(x,i).(4x * (2x + (x div 2))),2,x)
1: loop(\(x,i).(3x3 + 6x2 + 3x),1,(x2 + x))
1: loop(\(x,i).(12x + 24),2,3)
1: loop(\(x,i).(9x2 + 18x),2,x)
1: loop(\(x,i).(9x * (1 + i)),x,1)
1: loop(\(x,i).(x * ((1 + i) * (1 + (i div 2)) * (1 + i))),x,1)
1: loop(\(x,i).(3x * ((1 + i) * (1 + i))),x,1)
1: loop(\(x,i).(x * ((2 + i) * (1 + i) * (3 + i))),x,1)
1: loop(\(x,i).(x * ((1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)) * i * i)),x,1)
1: loop(\(x,i).~9x2,2,x)
1: loop(\(x,i).(~28x + ~28),2,(x2 + 2x))
1: loop(\(x,i).(~24x2 + 24x + ~6),2,x)
1: loop(\(x,i).(4 * ((2 - (x mod 2)) * (if x <= 0 then 1 else 2))),(x mod 4),1)
1: loop(\(x,i).(x7 + ~x6 + ~x4 + x3),1,x2)
1: loop(\(x,i).(18 * (~1 + ((x + 1) * loop(\(x,i).x2,2,4)))),2,5)
1: loop(\(x,i).(24x2 + ~24x + 6),2,x)
1: loop(\(x,i).(2 * ((2x - (x div (if i <= 0 then 1 else i))) * (~1 + (2 * i)) * (~1 + (2 * i)))),x,1)
1: loop(\(x,i).(12 * (2x - (x mod 4))),2,x)
1: loop(\(x,i).(10x * (~1 + (2 * i))),x,1)
1: loop(\(x,i).(8x + ~16),x,0)
1: loop(\(x,i).(8x + ~16),x,1)
1: loop(\(x,i).(8 * ((x + 1) - (2 * (i mod 2)))),x,1)
1: loop(\(x,i).(8 * (x - (x div ~2))),x,1)
1: loop(\(x,i).(~32x + ~32),2,(x2 + 2x))
1: loop(\(x,i).(24 * (1 + (((x + 1) * (1 + ((x + 1) * loop(\(x,i).x2,2,3)))) div 3))),2,x)
1: loop(\(x,i).(2x4 + 10x3 + 14x2 + 6x),(x + 2),1)
1: loop(\(x,i).(4x5 + 12x4 + 8x3),(x + 2),1)
1: loop(\(x,i).32x,(2x + 1),1)
1: loop(\(x,i).32x,(2x + 1),2)
1: loop(\(x,i).32x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),1)
1: loop(\(x,i).32x,(4x + 2),4)
1: loop(\(x,i).32x,2x,1)
1: loop(\(x,i).32x,2x,4)
1: loop(\(x,i).32x,(((3 * (x + (x div 4))) - (x mod 2)) div 2),1)
1: loop(\(x,i).32x,x,1)
1: loop(\(x,i).32x,x,4)
1: loop(\(x,i).32x,x,8)
1: loop(\(x,i).32x,x,loop(\(x,i).((2x * (~1 + (4 * i))) div (1 + i)),x,1))
1: loop(\(x,i).32x,i,2)
1: loop(\(x,i).48x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),1)
1: loop(\(x,i).48x,x,1)
1: loop(\(x,i).(4x * ((~1 + (2 * i)) * i * (1 + (2 * i)))),x,1)
1: loop(\(x,i).(4x4 + 12x3 + 8x2),1,(x + 3))
1: loop(\(x,i).24x,(3x + 1),1)
1: loop(\(x,i).24x,(3x + 2),1)
1: loop(\(x,i).24x,(5x + 1),1)
1: loop(\(x,i).24x,(5x + 2),1)
1: loop(\(x,i).24x,(5x + 3),1)
1: loop(\(x,i).24x,(4x + 1),1)
1: loop(\(x,i).24x,(2x + 1),1)
1: loop(\(x,i).24x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),1)
1: loop(\(x,i).24x,(4x + 3),1)
1: loop(\(x,i).24x,(x2 + 4x + 4),1)
1: loop(\(x,i).24x,x,1)
1: loop(\(x,i).24x,x,loop(\(x,i).(5x + 1),x,1))
1: loop(\(x,i).24x,i,1)
1: loop(\(x,i).24x,i,(1 + i))
1: loop(\(x,i).24x,i,x)
1: loop(\(x,i).40x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),1)
1: loop(\(x,i).40x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).(8x * (1 + (2 * i))),x,1)
1: loop(\(x,i).60x,x,1)
1: loop(\(x,i).(12x * (~1 + (2 * i))),x,1)
1: loop(\(x,i).(4x * ((~1 + (2 * i)) * (1 + (2 * i)))),i,1)
1: loop(\(x,i).16x2,4,(x + 1))
1: loop(\(x,i).(2x5 + 8x4 + 10x3 + 4x2),2,3)
1: loop(\(x,i).(2x7 + ~x6),x,(~x + 1))
1: loop(\(x,i).(3x4 + 3x3),(x2 + 1),1)
1: loop(\(x,i).(x5 + 5x4 + 6x3),x,1)
1: loop(\(x,i).(2x5 + ~x4),1,3x)
1: loop(\(x,i).(3x3 * (~1 + (2 * i))),x,1)
1: loop(\(x,i).9x5,2x,2)
1: loop(\(x,i).(x7 + x5),1,x2)
1: loop(\(x,i).x7,1,(3x + 1))
1: loop(\(x,i).x7,1,(3x + 2))
1: loop(\(x,i).x7,1,(5x + 4))
1: loop(\(x,i).x7,1,(5x + 1))
1: loop(\(x,i).x7,1,(5x + 2))
1: loop(\(x,i).x7,1,(5x + 3))
1: loop(\(x,i).x7,1,(7x + 1))
1: loop(\(x,i).x7,1,(9x + 7))
1: loop(\(x,i).x7,1,(10x + 3))
1: loop(\(x,i).x7,1,(8x + 3))
1: loop(\(x,i).x7,1,(7x + 3))
1: loop(\(x,i).x7,1,(10x + 6))
1: loop(\(x,i).x7,1,(11x + 5))
1: loop(\(x,i).x7,1,(9x + 1))
1: loop(\(x,i).x7,1,(9x + 2))
1: loop(\(x,i).x7,1,(9x + 8))
1: loop(\(x,i).x7,1,(10x + 1))
1: loop(\(x,i).x7,1,(12x + 9))
1: loop(\(x,i).x7,1,(8x + 5))
1: loop(\(x,i).x7,1,(9x + 4))
1: loop(\(x,i).x7,1,(12x + 7))
1: loop(\(x,i).x7,1,(7x + 6))
1: loop(\(x,i).x7,1,(11x + 10))
1: loop(\(x,i).x7,1,(8x + 1))
1: loop(\(x,i).x7,1,(12x + 1))
1: loop(\(x,i).x7,1,(4x + 1))
1: loop(\(x,i).x7,1,(6x + 1))
1: loop(\(x,i).x7,1,(6x + 2))
1: loop(\(x,i).x7,1,(2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)))
1: loop(\(x,i).x7,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).x7,1,(11x + 7))
1: loop(\(x,i).x7,1,(11x + 1))
1: loop(\(x,i).x7,1,(7x + 2))
1: loop(\(x,i).x7,1,(11x + 2))
1: loop(\(x,i).x7,1,(4x + 3))
1: loop(\(x,i).x7,1,(9x + 5))
1: loop(\(x,i).x7,1,(10x + 7))
1: loop(\(x,i).x7,1,(11x + 3))
1: loop(\(x,i).x7,1,(11x + 4))
1: loop(\(x,i).x7,1,(8x + 7))
1: loop(\(x,i).x7,1,(12x + 11))
1: loop(\(x,i).x7,1,(11x + 8))
1: loop(\(x,i).x7,1,(7x + 4))
1: loop(\(x,i).x7,1,(12x + 5))
1: loop(\(x,i).x7,1,(11x + 6))
1: loop(\(x,i).x7,1,(6x + 5))
1: loop(\(x,i).x7,1,(10x + 9))
1: loop(\(x,i).x7,1,(7x + 5))
1: loop(\(x,i).x7,1,(11x + 9))
1: loop(\(x,i).x7,1,7x)
1: loop(\(x,i).x7,1,(9x + 3))
1: loop(\(x,i).x7,1,(6x + 4))
1: loop(\(x,i).x7,1,(9x + 6))
1: loop(\(x,i).x7,1,(10x + 8))
1: loop(\(x,i).x7,1,(10x + 2))
1: loop(\(x,i).x7,1,(10x + 4))
1: loop(\(x,i).x7,1,(8x + 2))
1: loop(\(x,i).x7,1,(12x + 3))
1: loop(\(x,i).x7,1,(12x + 2))
1: loop(\(x,i).x7,1,(12x + 4))
1: loop(\(x,i).x7,1,(10x + 5))
1: loop(\(x,i).x7,1,11x)
1: loop(\(x,i).x7,1,(8x + 6))
1: loop(\(x,i).x7,1,(12x + 10))
1: loop(\(x,i).x7,1,(12x + 8))
1: loop(\(x,i).x7,1,(12x + 6))
1: loop(\(x,i).x7,1,((x2 + 3x + 2) div 2))
1: loop(\(x,i).x7,1,loop(\(x,i).(2x + 1),x,0))
1: loop(\(x,i).x7,(x + 1),10)
1: loop(\(x,i).x7,x,(3x + 4))
1: loop(\(x,i).(24x * i),x,1)
1: loop(\(x,i).(x5 * i),x,1)
1: loop(\(x,i).(x * (i * i * (1 + i) * (1 + i))),x,1)
1: loop(\(x,i).(x * (i * i * i * i * i * i)),i,1)
1: loop(\(x,i).(6x * loop(\(x,i).x2,2,2x)),2,(x + 1))
1: loop(\(x,i).8x,2,loop(\(x,i).(3x + 4),x,0))
1: loop(\(x,i).8x,(~x + 3),1)
1: loop(\(x,i).8x,(3x + 1),1)
1: loop(\(x,i).8x,(3x + 2),1)
1: loop(\(x,i).8x,(5x + 4),1)
1: loop(\(x,i).8x,(5x + 1),1)
1: loop(\(x,i).8x,(5x + 2),1)
1: loop(\(x,i).8x,(5x + 3),1)
1: loop(\(x,i).8x,(4x + 1),1)
1: loop(\(x,i).8x,(x + (7 * ((x + 2) div 3))),1)
1: loop(\(x,i).8x,(2x + 1),1)
1: loop(\(x,i).8x,(2x + 1),2)
1: loop(\(x,i).8x,(1 + (x div 2)),(1 + (2 * (x mod 2))))
1: loop(\(x,i).8x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),(x + 1))
1: loop(\(x,i).8x,(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 1))),1)
1: loop(\(x,i).8x,(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 1))),3)
1: loop(\(x,i).8x,(x + 1),(x2 + 2x + 2))
1: loop(\(x,i).8x,(x + 1),(x + 1))
1: loop(\(x,i).8x,(x + 1),(x + 2))
1: loop(\(x,i).8x,(x + 2),1)
1: loop(\(x,i).8x,(2 + compr(\x.((~1 + loop(\(x,i).(x * i),x,1)) mod (x + 2)),x)),2)
1: loop(\(x,i).8x,((x div 2) - ((3 * (x div (4 - ((x * (x div 2)) mod 2)))) div 2)),1)
1: loop(\(x,i).8x,(x + ~1),3)
1: loop(\(x,i).8x,(x + ~1),x)
1: loop(\(x,i).8x,(x + ~2),x)
1: loop(\(x,i).8x,(8x + 2),2)
1: loop(\(x,i).8x,2x,2)
1: loop(\(x,i).8x,2x,4)
1: loop(\(x,i).8x,((x + 1) div 2),1)
1: loop(\(x,i).8x,((x + 1) div 2),(1 + (x mod 2)))
1: loop(\(x,i).8x,(((3 * (x + (x div 4))) - (x mod 2)) div 2),1)
1: loop(\(x,i).8x,((x2 + ~x) div 2),1)
1: loop(\(x,i).8x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).8x,((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2),1)
1: loop(\(x,i).8x,(x div 2),1)
1: loop(\(x,i).8x,(x div 2),7)
1: loop(\(x,i).8x,(if (x + ~6) <= 0 then 1 else 2),1)
1: loop(\(x,i).8x,x,(x + 8))
1: loop(\(x,i).8x,x,(9x + 7))
1: loop(\(x,i).8x,x,19)
1: loop(\(x,i).8x,x,49)
1: loop(\(x,i).8x,x,(2x + 1))
1: loop(\(x,i).8x,x,(1 + loop(\(x,i).6x,x,2)))
1: loop(\(x,i).8x,x,(x + 1))
1: loop(\(x,i).8x,x,(x + 2))
1: loop(\(x,i).8x,x,(~1 + loop(\(x,i).2x,(x * (x mod 2)),2)))
1: loop(\(x,i).8x,x,(~1 + loop(\(x,i).2x,x,2)))
1: loop(\(x,i).8x,x,12)
1: loop(\(x,i).8x,x,(3 * (if x <= 0 then 1 else 4)))
1: loop(\(x,i).8x,x,x2)
1: loop(\(x,i).8x,x,loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),x,1))
1: loop(\(x,i).8x,x,loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).(5x + loop(\(x,i).(3x + 1),i,1)),i,1)),i,1)),x,1))
1: loop(\(x,i).8x,x,loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1))
1: loop(\(x,i).8x,x,loop(\(x,i).x2,2,x2))
1: loop(\(x,i).8x,i,(1 + i))
1: loop(\(x,i).8x,i,2x)
1: loop(\(x,i).8x,i,x)
1: loop(\(x,i).12x,(3x + 1),1)
1: loop(\(x,i).12x,(3x + 2),1)
1: loop(\(x,i).12x,(5x + 4),1)
1: loop(\(x,i).12x,(5x + 1),1)
1: loop(\(x,i).12x,(5x + 2),1)
1: loop(\(x,i).12x,(5x + 3),1)
1: loop(\(x,i).12x,(4x + 1),1)
1: loop(\(x,i).12x,(2x + 1),1)
1: loop(\(x,i).12x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),1)
1: loop(\(x,i).12x,(x + 1),(x + 1))
1: loop(\(x,i).12x,(4x + 3),1)
1: loop(\(x,i).12x,(x + ~1),1)
1: loop(\(x,i).12x,(x + ~1),x)
1: loop(\(x,i).12x,(x + ~2),x)
1: loop(\(x,i).12x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).12x,x,4)
1: loop(\(x,i).12x,x,5)
1: loop(\(x,i).12x,x,x)
1: loop(\(x,i).12x,i,1)
1: loop(\(x,i).12x,i,(1 + i))
1: loop(\(x,i).12x,i,x)
1: loop(\(x,i).20x,(3x + 1),1)
1: loop(\(x,i).20x,(3x + 2),1)
1: loop(\(x,i).20x,(5x + 4),1)
1: loop(\(x,i).20x,(5x + 1),1)
1: loop(\(x,i).20x,(5x + 2),1)
1: loop(\(x,i).20x,(5x + 3),1)
1: loop(\(x,i).20x,(4x + 1),1)
1: loop(\(x,i).20x,(2x + 1),1)
1: loop(\(x,i).20x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),1)
1: loop(\(x,i).20x,(4x + 3),1)
1: loop(\(x,i).20x,x2,1)
1: loop(\(x,i).20x,x,(x + 1))
1: loop(\(x,i).20x,i,1)
1: loop(\(x,i).20x,i,(1 + i))
1: loop(\(x,i).(4x * (1 + (2 * i))),x,1)
1: loop(\(x,i).(4x2 + 4x),2,1)
1: loop(\(x,i).(4x2 + 4x),2,3)
1: loop(\(x,i).(4x2 + 4x),2,x)
1: loop(\(x,i).(4x2 + 4x),x,1)
1: loop(\(x,i).(4x * (1 + i)),x,1)
1: loop(\(x,i).(4x * (1 + i)),x,2)
1: loop(\(x,i).(4x * (~1 + (2 * i))),(x + ~1),2)
1: loop(\(x,i).(4x * (~1 + (2 * i))),(x + ~1),(if x <= 0 then 0 else 1))
1: loop(\(x,i).(4x * (~1 + (2 * i))),x,1)
1: loop(\(x,i).(4x * (~1 + (2 * i))),i,1)
1: loop(\(x,i).(4x * (~1 + (2 * i))),i,x)
1: loop(\(x,i).18x,(3x + 1),1)
1: loop(\(x,i).18x,(3x + 2),1)
1: loop(\(x,i).18x,(5x + 4),1)
1: loop(\(x,i).18x,(5x + 1),1)
1: loop(\(x,i).18x,(5x + 2),1)
1: loop(\(x,i).18x,(5x + 3),1)
1: loop(\(x,i).18x,(4x + 1),1)
1: loop(\(x,i).18x,(2x + 1),1)
1: loop(\(x,i).18x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),1)
1: loop(\(x,i).18x,(4x + 3),1)
1: loop(\(x,i).18x,x2,1)
1: loop(\(x,i).18x,x,1)
1: loop(\(x,i).18x,x,3)
1: loop(\(x,i).18x,i,1)
1: loop(\(x,i).18x,i,(1 + i))
1: loop(\(x,i).30x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),1)
1: loop(\(x,i).(6x * (1 + i)),x,1)
1: loop(\(x,i).(10x * (1 + i)),x,1)
1: loop(\(x,i).6x2,1,loop(\(x,i).(10x + 1),x,0))
1: loop(\(x,i).6x2,3,x)
1: loop(\(x,i).10x2,3,1)
1: loop(\(x,i).10x2,3,x)
1: loop(\(x,i).10x2,(3x + 1),1)
1: loop(\(x,i).10x2,x,2)
1: loop(\(x,i).10x2,i,1)
1: loop(\(x,i).(4x3 + 2x2),2,3)
1: loop(\(x,i).(2x3 + ~2x2),2,2)
1: loop(\(x,i).(2x3 + ~2x2),(x + ~1),2)
1: loop(\(x,i).(2x3 + ~2x2),(x + ~2),2)
1: loop(\(x,i).9x2,3,x)
1: loop(\(x,i).8x2,2,x)
1: loop(\(x,i).8x2,3,x)
1: loop(\(x,i).8x2,x,2)
1: loop(\(x,i).8x2,x,3)
1: loop(\(x,i).12x2,2,x)
1: loop(\(x,i).12x2,3,x)
1: loop(\(x,i).(8x3 + 12x2),2,3)
1: loop(\(x,i).(8x3 + ~4x2),(x + ~1),1)
1: loop(\(x,i).(x4 + 2x3 + x2),1,loop(\(x,i).x2,x,2))
1: loop(\(x,i).(2x3 + 4x2),2,5)
1: loop(\(x,i).(3x3 + 6x2),2,5)
1: loop(\(x,i).(x4 + 3x3 + 2x2),1,(x2 + 2))
1: loop(\(x,i).(x4 + 3x3 + 2x2),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(x4 + 4x3 + 4x2),2,1)
1: loop(\(x,i).(x4 + x3 + ~2x2),1,(x + 3))
1: loop(\(x,i).(x5 + ~x4 + ~x3 + x2),1,x3)
1: loop(\(x,i).10x3,i,1)
1: loop(\(x,i).x6,1,(3x + 2))
1: loop(\(x,i).x6,1,(5x + 4))
1: loop(\(x,i).x6,1,(5x + 1))
1: loop(\(x,i).x6,1,(5x + 2))
1: loop(\(x,i).x6,1,(9x + 7))
1: loop(\(x,i).x6,1,(10x + 3))
1: loop(\(x,i).x6,1,(8x + 3))
1: loop(\(x,i).x6,1,(7x + 3))
1: loop(\(x,i).x6,1,(10x + 6))
1: loop(\(x,i).x6,1,(9x + 1))
1: loop(\(x,i).x6,1,(9x + 2))
1: loop(\(x,i).x6,1,(9x + 8))
1: loop(\(x,i).x6,1,(10x + 1))
1: loop(\(x,i).x6,1,(12x + 9))
1: loop(\(x,i).x6,1,(8x + 5))
1: loop(\(x,i).x6,1,(9x + 4))
1: loop(\(x,i).x6,1,(12x + 7))
1: loop(\(x,i).x6,1,(7x + 6))
1: loop(\(x,i).x6,1,(11x + 10))
1: loop(\(x,i).x6,1,(8x + 1))
1: loop(\(x,i).x6,1,(12x + 1))
1: loop(\(x,i).x6,1,(4x + 1))
1: loop(\(x,i).x6,1,(6x + 1))
1: loop(\(x,i).x6,1,(6x + 2))
1: loop(\(x,i).x6,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).x6,1,(11x + 2))
1: loop(\(x,i).x6,1,(~8x + ~6))
1: loop(\(x,i).x6,1,(4x + 3))
1: loop(\(x,i).x6,1,(9x + 5))
1: loop(\(x,i).x6,1,(10x + 7))
1: loop(\(x,i).x6,1,(8x + 7))
1: loop(\(x,i).x6,1,(12x + 11))
1: loop(\(x,i).x6,1,(12x + 5))
1: loop(\(x,i).x6,1,(6x + 5))
1: loop(\(x,i).x6,1,(10x + 9))
1: loop(\(x,i).x6,1,(~11x + ~9))
1: loop(\(x,i).x6,1,(~7x + ~5))
1: loop(\(x,i).x6,1,(~11x + ~7))
1: loop(\(x,i).x6,1,(~7x + ~1))
1: loop(\(x,i).x6,1,(~11x + ~1))
1: loop(\(x,i).x6,1,(~7x + ~2))
1: loop(\(x,i).x6,1,(~11x + ~3))
1: loop(\(x,i).x6,1,(~11x + ~4))
1: loop(\(x,i).x6,1,(~5x + ~3))
1: loop(\(x,i).x6,1,(~11x + ~8))
1: loop(\(x,i).x6,1,(~7x + ~4))
1: loop(\(x,i).x6,1,(~11x + ~6))
1: loop(\(x,i).x6,1,~7x)
1: loop(\(x,i).x6,1,5x)
1: loop(\(x,i).x6,1,(9x + 3))
1: loop(\(x,i).x6,1,(6x + 4))
1: loop(\(x,i).x6,1,(9x + 6))
1: loop(\(x,i).x6,1,(10x + 8))
1: loop(\(x,i).x6,1,(10x + 2))
1: loop(\(x,i).x6,1,(10x + 4))
1: loop(\(x,i).x6,1,(8x + 2))
1: loop(\(x,i).x6,1,(12x + 3))
1: loop(\(x,i).x6,1,(12x + 2))
1: loop(\(x,i).x6,1,(12x + 4))
1: loop(\(x,i).x6,1,(4x + 2))
1: loop(\(x,i).x6,1,(6x + 3))
1: loop(\(x,i).x6,1,(10x + 5))
1: loop(\(x,i).x6,1,(12x + 10))
1: loop(\(x,i).x6,1,10x)
1: loop(\(x,i).x6,1,(12x + 8))
1: loop(\(x,i).x6,1,(8x + 4))
1: loop(\(x,i).x6,1,(12x + 6))
1: loop(\(x,i).x6,1,8x)
1: loop(\(x,i).x6,1,12x)
1: loop(\(x,i).x6,1,6x)
1: loop(\(x,i).x6,1,((x2 + 3x + 2) div 2))
1: loop(\(x,i).x6,2,(x + 2))
1: loop(\(x,i).x6,(x + ~1),(x * (1 + loop(\(x,i).2x,x,2))))
1: loop(\(x,i).x6,2x,3)
1: loop(\(x,i).(x4 * (x2 div 2)),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(2x2 * (x div 2)),2,5)
1: loop(\(x,i).3x3,(x + ~1),2)
1: loop(\(x,i).3x3,x,1)
1: loop(\(x,i).4x3,(x + 1),5)
1: loop(\(x,i).4x3,(x + ~1),1)
1: loop(\(x,i).(x5 + x3),1,x5)
1: loop(\(x,i).(x5 + 2x3),2,3)
1: loop(\(x,i).(x4 + x3),2x,1)
1: loop(\(x,i).(x4 + ~x3),1,4x)
1: loop(\(x,i).8x3,2,4x)
1: loop(\(x,i).2x4,x,(x + ~1))
1: loop(\(x,i).x5,1,(3x + 1))
1: loop(\(x,i).x5,1,(3x + 2))
1: loop(\(x,i).x5,1,(5x + 4))
1: loop(\(x,i).x5,1,(5x + 1))
1: loop(\(x,i).x5,1,(5x + 2))
1: loop(\(x,i).x5,1,(5x + 3))
1: loop(\(x,i).x5,1,(7x + 1))
1: loop(\(x,i).x5,1,(9x + 7))
1: loop(\(x,i).x5,1,(10x + 3))
1: loop(\(x,i).x5,1,(8x + 3))
1: loop(\(x,i).x5,1,(7x + 3))
1: loop(\(x,i).x5,1,(10x + 6))
1: loop(\(x,i).x5,1,(11x + 5))
1: loop(\(x,i).x5,1,(9x + 1))
1: loop(\(x,i).x5,1,(9x + 2))
1: loop(\(x,i).x5,1,(9x + 8))
1: loop(\(x,i).x5,1,(10x + 1))
1: loop(\(x,i).x5,1,(12x + 9))
1: loop(\(x,i).x5,1,(8x + 5))
1: loop(\(x,i).x5,1,(9x + 4))
1: loop(\(x,i).x5,1,(12x + 7))
1: loop(\(x,i).x5,1,(7x + 6))
1: loop(\(x,i).x5,1,(11x + 10))
1: loop(\(x,i).x5,1,(8x + 1))
1: loop(\(x,i).x5,1,(12x + 1))
1: loop(\(x,i).x5,1,(12x + loop(\(x,i).3x,x,1)))
1: loop(\(x,i).x5,1,(4x + 1))
1: loop(\(x,i).x5,1,(6x + 1))
1: loop(\(x,i).x5,1,(6x + 2))
1: loop(\(x,i).x5,1,(1 + (2 * i)))
1: loop(\(x,i).x5,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).x5,1,(11x + 7))
1: loop(\(x,i).x5,1,(11x + 1))
1: loop(\(x,i).x5,1,(7x + 2))
1: loop(\(x,i).x5,1,(11x + 2))
1: loop(\(x,i).x5,1,11)
1: loop(\(x,i).x5,1,(4x + 3))
1: loop(\(x,i).x5,1,(9x + 5))
1: loop(\(x,i).x5,1,(10x + 7))
1: loop(\(x,i).x5,1,(11x + 3))
1: loop(\(x,i).x5,1,(11x + 4))
1: loop(\(x,i).x5,1,(8x + 7))
1: loop(\(x,i).x5,1,(12x + 11))
1: loop(\(x,i).x5,1,(11x + 8))
1: loop(\(x,i).x5,1,(7x + 4))
1: loop(\(x,i).x5,1,(12x + 5))
1: loop(\(x,i).x5,1,(11x + 6))
1: loop(\(x,i).x5,1,(6x + 5))
1: loop(\(x,i).x5,1,(10x + 9))
1: loop(\(x,i).x5,1,(~1 + loop(\(x,i).10x,x,1)))
1: loop(\(x,i).x5,1,(~1 + loop(\(x,i).2x,x,2)))
1: loop(\(x,i).x5,1,(7x + 5))
1: loop(\(x,i).x5,1,(11x + 9))
1: loop(\(x,i).x5,1,10)
1: loop(\(x,i).x5,1,5x)
1: loop(\(x,i).x5,1,7x)
1: loop(\(x,i).x5,1,(9x + 3))
1: loop(\(x,i).x5,1,(6x + 4))
1: loop(\(x,i).x5,1,(9x + 6))
1: loop(\(x,i).x5,1,(10x + 8))
1: loop(\(x,i).x5,1,(10x + 2))
1: loop(\(x,i).x5,1,(10x + 4))
1: loop(\(x,i).x5,1,(8x + 2))
1: loop(\(x,i).x5,1,(12x + 3))
1: loop(\(x,i).x5,1,(12x + 2))
1: loop(\(x,i).x5,1,(12x + 4))
1: loop(\(x,i).x5,1,(4x + 2))
1: loop(\(x,i).x5,1,(6x + 3))
1: loop(\(x,i).x5,1,(10x + 5))
1: loop(\(x,i).x5,1,(x2 + x))
1: loop(\(x,i).x5,1,11x)
1: loop(\(x,i).x5,1,(8x + 6))
1: loop(\(x,i).x5,1,(12x + 10))
1: loop(\(x,i).x5,1,9x)
1: loop(\(x,i).x5,1,10x)
1: loop(\(x,i).x5,1,(12x + 8))
1: loop(\(x,i).x5,1,(8x + 4))
1: loop(\(x,i).x5,1,(12x + 6))
1: loop(\(x,i).x5,1,12x)
1: loop(\(x,i).x5,1,6x)
1: loop(\(x,i).x5,1,2x2)
1: loop(\(x,i).x5,1,((x2 + 3x + 2) div 2))
1: loop(\(x,i).x5,1,(x mod 3))
1: loop(\(x,i).x5,1,loop(\(x,i).(14x + 1),(x + 2),1))
1: loop(\(x,i).x5,1,loop(\(x,i).(2x + 1),x,0))
1: loop(\(x,i).x5,1,loop(\(x,i).(x2 + 4x + 4),(x + 2),1))
1: loop(\(x,i).x5,1,loop(\(x,i).(x * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))),x,1))
1: loop(\(x,i).x5,2,~4)
1: loop(\(x,i).x5,x,5)
1: loop(\(x,i).x5,x,x)
1: loop(\(x,i).(x3 * (x div 2)),x,2)
1: loop(\(x,i).(6x * i),x,1)
1: loop(\(x,i).(10x * i),x,1)
1: loop(\(x,i).(2x * (i * (1 + i))),i,x)
1: loop(\(x,i).(9x * i),x,1)
1: loop(\(x,i).(8x * i),x,1)
1: loop(\(x,i).(8x * i),x,4)
1: loop(\(x,i).(8x * i),x,(x + 1))
1: loop(\(x,i).(12x * i),x,1)
1: loop(\(x,i).(4x * (i * (1 + (2 * i)))),x,2)
1: loop(\(x,i).(4x * (i * (1 + i))),x,2)
1: loop(\(x,i).(x * (i * (1 + i) * (1 + i))),x,1)
1: loop(\(x,i).(3x * (i * (2 + i))),x,1)
1: loop(\(x,i).(4x * (i * (2 + i))),x,8)
1: loop(\(x,i).(x * (i * (2 + i) * (1 + i))),x,1)
1: loop(\(x,i).(x * (i * (2 + i) * (1 + i))),x,2)
1: loop(\(x,i).((x3 + ~2x2) * i),2,x)
1: loop(\(x,i).(x4 * i),x,1)
1: loop(\(x,i).(x * (i * i * i * (1 + i))),i,x)
1: loop(\(x,i).(3x * (i * i)),(x + ~1),1)
1: loop(\(x,i).(4x * (i * i)),x,1)
1: loop(\(x,i).(4x * (i * i)),i,x)
1: loop(\(x,i).(x * (i * i * (1 + i))),x,1)
1: loop(\(x,i).(~2x * (i * i)),x,1)
1: loop(\(x,i).(2x * (i * i * i)),x,1)
1: loop(\(x,i).(x * (i * i * i * i)),(1 + i),1)
1: loop(\(x,i).(x * (i * i * i * i)),i,1)
1: loop(\(x,i).(x * (i * i * i * i)),i,x)
1: loop(\(x,i).(x * (((1 + i) div 2) * i)),4x,1)
1: loop(\(x,i).(x * (((1 + i) div 2) * i)),(2 * i),x)
1: loop(\(x,i).(4 * ((2x * (1 + (2 * i))) div (2 + i))),(x + ~1),(x + 1))
1: loop(\(x,i).(4 * ((2x * (1 + (2 * i))) div (2 + i))),x,1)
1: loop(\(x,i).(((2x * (1 + (2 * i))) div (2 + i)) * (~1 + (2 * i)) * (1 + i)),x,1)
1: loop(\(x,i).(2 * (((2x * ((1 + (2 * i)) * (~1 + (2 * i)))) div (1 + i)) * i)),i,1)
1: loop(\(x,i).(3 * ((4x div (1 + i)) * (~1 + (2 * i)))),x,1)
1: loop(\(x,i).((4x div (1 + i)) * (~1 + (2 * i)) * (1 + (2 * i))),x,1)
1: loop(\(x,i).(((2x * i) div (1 + i)) * (~1 + (2 * i)) * (1 + (2 * i))),x,1)
1: loop(\(x,i).(((x * (i * (1 + i))) div 2) * (~1 + (2 * i)) * (1 + i)),x,1)
1: loop(\(x,i).(8 * ((((2x * (1 + (2 * i))) div (2 + i)) * (~1 + (2 * i))) div (1 + i))),x,1)
1: loop(\(x,i).((((4x div (1 + i)) * (~1 + (2 * i))) div (1 + i)) * (1 + (2 * i)) * i),x,1)
1: loop(\(x,i).(3 * ((2x div (1 + i)) * (1 + (2 * i)))),x,1)
1: loop(\(x,i).(3 * ((2x div (1 + i)) * (~1 + (2 * i)))),x,3)
1: loop(\(x,i).(3 * ((2x div (1 + i)) * (~1 + (2 * i)))),i,1)
1: loop(\(x,i).(9 * ((2x div (1 + i)) * (~1 + (2 * i)))),x,1)
1: loop(\(x,i).((2x2 + ~3x + 1) * (x2 div 4)),1,loop(\(x,i).2x,x,1))
1: loop(\(x,i).((x2 + x) * (x div 2)),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(4 * (2x mod 25)),x,1)
1: loop(\(x,i).(5x * (x mod 3)),x,1)
1: loop(\(x,i).(2x * (if (x + ~2) <= 0 then 2 else i)),(x + ~1),x)
1: loop(\(x,i).((x2 + x) * (if (x mod 2) <= 0 then 1 else x)),2,x)
1: loop(\(x,i).(4 * (if (x mod 2) <= 0 then 12 else 1)),x,1)
1: loop(\(x,i).(x2 * (if (x mod 2) <= 0 then x else 1)),(x + ~2),x)
1: loop(\(x,i).(2x * (if (i mod 3) <= 0 then 1 else 2)),2x,1)
1: loop(\(x,i).(9 * (if x <= 0 then 1 else (2 + (x mod 2)))),(x div 2),(x mod 2))
1: loop(\(x,i).(4 * (if x <= 0 then 1 else (x - (x mod 3)))),x,1)
1: loop(\(x,i).(10 * (if x <= 0 then 1 else x)),2x,0)
1: loop(\(x,i).(8 * (if x <= 0 then 1 else x)),x,0)
1: loop(\(x,i).((2x + 4) * (if x <= 0 then 1 else x)),x,0)
1: loop(\(x,i).(x2 * loop(\(x,i).x2,(1 + i),x)),2,x)
1: loop(\(x,i).4x,1,(~1 + loop(\(x,i).~4x,x,1)))
1: loop(\(x,i).4x,((x + 1) + (3 * (if x <= 0 then 0 else 2))),2)
1: loop(\(x,i).4x,(2x + (((3 * (x div 4)) div 2) + (x div 2))),1)
1: loop(\(x,i).4x,(x + 3),1)
1: loop(\(x,i).4x,((((1 + (8 mod (1 + (x div 2)))) div 2) + (if x <= 0 then 0 else 1)) - (x mod 2)),1)
1: loop(\(x,i).4x,(1 + (x div 2) - (x mod 2)),1)
1: loop(\(x,i).4x,(3x + 2),2)
1: loop(\(x,i).4x,(5x + 4),1)
1: loop(\(x,i).4x,(5x + 4),2)
1: loop(\(x,i).4x,(5x + 2),1)
1: loop(\(x,i).4x,(1 + (5 * (x + (x div 5)))),2)
1: loop(\(x,i).4x,(2x + 1),(x + 1))
1: loop(\(x,i).4x,(2x + 1),(3x + 3))
1: loop(\(x,i).4x,(2x + 1),x)
1: loop(\(x,i).4x,(((3 * (2x + (x div 4))) div 2) + (x div 2)),1)
1: loop(\(x,i).4x,(((3 * (x div 4)) div 2) + (x div 2)),1)
1: loop(\(x,i).4x,(2x + (x div 2)),1)
1: loop(\(x,i).4x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),1)
1: loop(\(x,i).4x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),(x + 1))
1: loop(\(x,i).4x,(x + 1),3)
1: loop(\(x,i).4x,(x + 1),(x2 + 2x + 2))
1: loop(\(x,i).4x,(x + 1),(1 + (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))))
1: loop(\(x,i).4x,(x + 1),(loop(\(x,i).5x,x,2) + loop(\(x,i).2x,x,1)))
1: loop(\(x,i).4x,(x + 1),(x + 2))
1: loop(\(x,i).4x,(x + 1),(~1 + (2 * (~2 + loop(\(x,i).8x,(x + 1),1)))))
1: loop(\(x,i).4x,(x + 1),(3 * (if x <= 0 then 0 else 2)))
1: loop(\(x,i).4x,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1)
1: loop(\(x,i).4x,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),2)
1: loop(\(x,i).4x,(0 - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)),1)
1: loop(\(x,i).4x,(1 - loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x)),1)
1: loop(\(x,i).4x,(2x + ~1),loop(\(x,i).(2x + 1),x,0))
1: loop(\(x,i).4x,(~1 + (2 * i)),x)
1: loop(\(x,i).4x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),2)
1: loop(\(x,i).4x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),5)
1: loop(\(x,i).4x,(~1 + (((3 * (1 + ((3 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)) div 2))) div 2) div 2)),1)
1: loop(\(x,i).4x,((x div 2) - ((3 * (x div (4 - ((x * (x div 2)) mod 2)))) div 2)),1)
1: loop(\(x,i).4x,(x + ~1),2)
1: loop(\(x,i).4x,(x + ~1),(10x + 1))
1: loop(\(x,i).4x,(x + ~1),(x + 1))
1: loop(\(x,i).4x,(x + ~1),loop(\(x,i).(2x + 1),x,0))
1: loop(\(x,i).4x,(x + ~1),loop(\(x,i).(loop(\(x,i).(x * (i * i)),(~1 + i),1) + (x * (i * i))),x,0))
1: loop(\(x,i).4x,(x + ~1),loop(\(x,i).(~1 + (2 * (x + (i mod 2)))),x,0))
1: loop(\(x,i).4x,(x + ~1),loop(\(x,i).(x2 + 2x),1,loop(\(x,i).2x,x,1)))
1: loop(\(x,i).4x,(x + ~2),3)
1: loop(\(x,i).4x,(x + ~2),(1 + (x mod 2)))
1: loop(\(x,i).4x,(x + ~2),((1 + loop(\(x,i).10x,x,x)) div (x + 1)))
1: loop(\(x,i).4x,(~1 + i),i)
1: loop(\(x,i).4x,(compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1)
1: loop(\(x,i).4x,(6x + 4),2)
1: loop(\(x,i).4x,(10x + 8),1)
1: loop(\(x,i).4x,(10x + 4),1)
1: loop(\(x,i).4x,(4x + 2),4)
1: loop(\(x,i).4x,(2 * ((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1))),1)
1: loop(\(x,i).4x,(2x + 4),1)
1: loop(\(x,i).4x,22,x)
1: loop(\(x,i).4x,(x2 + ~x),1)
1: loop(\(x,i).4x,4x,4)
1: loop(\(x,i).4x,2x2,1)
1: loop(\(x,i).4x,2x,(1 + (2 * loop(\(x,i).3x,2x,2))))
1: loop(\(x,i).4x,2x,(2x + 1))
1: loop(\(x,i).4x,2x,(2x + ~1))
1: loop(\(x,i).4x,2x,x)
1: loop(\(x,i).4x,x2,loop(\(x,i).(4x + 1),x,1))
1: loop(\(x,i).4x,x2,loop(\(x,i).5x,x,1))
1: loop(\(x,i).4x,(2 * i),1)
1: loop(\(x,i).4x,(2 * i),2)
1: loop(\(x,i).4x,(2 * i),(1 + i))
1: loop(\(x,i).4x,(((3 * (x + (x div 4))) + (x mod 2)) div 2),1)
1: loop(\(x,i).4x,((x + (loop(\(x,i).2x,x,2) div (x + 1))) div 3),1)
1: loop(\(x,i).4x,(((3 * (x + (x div 4))) - (x mod 2)) div 2),1)
1: loop(\(x,i).4x,(((3 * (x + (x div 4))) - (x mod 2)) div 2),2)
1: loop(\(x,i).4x,((x - (x div 4)) div 2),2)
1: loop(\(x,i).4x,(4x div (3 + (x div 2))),1)
1: loop(\(x,i).4x,(((x + 1) div 2) div 3),1)
1: loop(\(x,i).4x,(x div 2),(1 - (8 * (x mod 2))))
1: loop(\(x,i).4x,(x div 2),(1 - (if x <= 0 then 2 else 0)))
1: loop(\(x,i).4x,(x div 2),(1 - loop(\(x,i).(2 * (x - (i mod 2))),x,0)))
1: loop(\(x,i).4x,(x div 3),1)
1: loop(\(x,i).4x,(x div 3),(1 + (x mod 3)))
1: loop(\(x,i).4x,(x div 4),1)
1: loop(\(x,i).4x,(x div (1 + i)),2)
1: loop(\(x,i).4x,(x div (if (~x + 2) <= 0 then 2 else 1)),1)
1: loop(\(x,i).4x,((1 + loop(\(x,i).34x,2,(2x + 1))) mod (x + 1)),x)
1: loop(\(x,i).4x,(x mod 4),1)
1: loop(\(x,i).4x,(if (x mod 3) <= 0 then 1 else 0),3)
1: loop(\(x,i).4x,(if x <= 0 then 1 else 2),loop(\(x,i).x3,x,2))
1: loop(\(x,i).4x,(if x <= 0 then 1 else (loop(\(x,i).2x,x,2) - (x mod 2))),2)
1: loop(\(x,i).4x,loop(\(x,i).(x * (i - (x div (3 + i)))),x,1),1)
1: loop(\(x,i).4x,x,(3 + (if x <= 0 then 1 else 2)))
1: loop(\(x,i).4x,x,(3 + loop(\(x,i).3x,2x,3)))
1: loop(\(x,i).4x,x,(x + 4))
1: loop(\(x,i).4x,x,7)
1: loop(\(x,i).4x,x,(5x + 3))
1: loop(\(x,i).4x,x,(3x + 8))
1: loop(\(x,i).4x,x,(1 + (2 * loop(\(x,i).(5x + ~4),x,8))))
1: loop(\(x,i).4x,x,(2x + 1))
1: loop(\(x,i).4x,x,(1 + (x mod 2)))
1: loop(\(x,i).4x,x,(2 + (x mod 2)))
1: loop(\(x,i).4x,x,(2 + (if x <= 0 then 2 else 1)))
1: loop(\(x,i).4x,x,(1 + (if x <= 0 then 2 else (if (x mod 2) <= 0 then 4 else ~3))))
1: loop(\(x,i).4x,x,(1 + loop(\(x,i).3x,x,1)))
1: loop(\(x,i).4x,x,(2 + loop(\(x,i).5x,(x + 1),2)))
1: loop(\(x,i).4x,x,(~2x + 1))
1: loop(\(x,i).4x,x,(2 - ((2x + 2) mod 5)))
1: loop(\(x,i).4x,x,(2 - loop(\(x,i).(2x + 4),x,0)))
1: loop(\(x,i).4x,x,11)
1: loop(\(x,i).4x,x,(~1 + (2 * (loop(\(x,i).2x,x,1) + (x mod 2)))))
1: loop(\(x,i).4x,x,(~1 + (2 * loop(\(x,i).(12x + 8),x,1))))
1: loop(\(x,i).4x,x,(6x + 3))
1: loop(\(x,i).4x,x,(3x + 3))
1: loop(\(x,i).4x,x,(3x + 6))
1: loop(\(x,i).4x,x,x4)
1: loop(\(x,i).4x,x,x2)
1: loop(\(x,i).4x,x,((loop(\(x,i).(2 * (2x - (x div (1 + i)))),(x + ~1),2) + loop(\(x,i).4x,x,1)) div 2))
1: loop(\(x,i).4x,x,((loop(\(x,i).4x,x,1) - loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,1)) div 2))
1: loop(\(x,i).4x,x,(loop(\(x,i).(3x + ~1),x,2) div 2))
1: loop(\(x,i).4x,x,(if (~x + 2) <= 0 then (2 * (x mod 2)) else 1))
1: loop(\(x,i).4x,x,(if (x mod (4 - (x mod 2))) <= 0 then 1 else 0))
1: loop(\(x,i).4x,x,(if x <= 0 then 1 else 2))
1: loop(\(x,i).4x,x,(if x <= 0 then 2 else x))
1: loop(\(x,i).4x,x,loop(\(x,i).(3x + 1),x,1))
1: loop(\(x,i).4x,x,loop(\(x,i).(4x + 1),(x + 3),1))
1: loop(\(x,i).4x,x,loop(\(x,i).(4x + 1),(x + 2),1))
1: loop(\(x,i).4x,x,loop(\(x,i).(4x + 1),x,1))
1: loop(\(x,i).4x,x,loop(\(x,i).(4x + 1),x,2))
1: loop(\(x,i).4x,x,loop(\(x,i).(2x + 1),x,2))
1: loop(\(x,i).4x,x,loop(\(x,i).(x + ((x * (1 + (15 * i))) div (1 + i))),x,1))
1: loop(\(x,i).4x,x,loop(\(x,i).(x + (9x div (if i <= 0 then 1 else i))),x,1))
1: loop(\(x,i).4x,x,loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),x,1))
1: loop(\(x,i).4x,x,loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).(5x + loop(\(x,i).(3x + 1),i,1)),i,1)),i,1)),x,1))
1: loop(\(x,i).4x,x,loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1))
1: loop(\(x,i).4x,x,loop(\(x,i).(3x + ~1),x,1))
1: loop(\(x,i).4x,x,loop(\(x,i).5x,x2,1))
1: loop(\(x,i).4x,x,loop(\(x,i).(2x + 2),x,2))
1: loop(\(x,i).4x,x,loop(\(x,i).(10x + 20),(x + 1),0))
1: loop(\(x,i).4x,x,loop(\(x,i).x2,(x div 2),2))
1: loop(\(x,i).4x,x,loop(\(x,i).i,(~x + 2),2))
1: loop(\(x,i).4x,i,(1 + i))
1: loop(\(x,i).4x,i,(2x * (1 + i)))
1: loop(\(x,i).6x,(3x + 1),1)
1: loop(\(x,i).6x,(3x + 2),1)
1: loop(\(x,i).6x,(3x + (x mod 3)),1)
1: loop(\(x,i).6x,(5x + 4),1)
1: loop(\(x,i).6x,(5x + 1),1)
1: loop(\(x,i).6x,(5x + 2),1)
1: loop(\(x,i).6x,(5x + 3),1)
1: loop(\(x,i).6x,(9x + 1),1)
1: loop(\(x,i).6x,(4x + 1),1)
1: loop(\(x,i).6x,(2x + 1),1)
1: loop(\(x,i).6x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),1)
1: loop(\(x,i).6x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),(x + 1))
1: loop(\(x,i).6x,(x + 1),(x2 + 2x + 2))
1: loop(\(x,i).6x,(x + 1),(x + 1))
1: loop(\(x,i).6x,(x + 1),(x + 2))
1: loop(\(x,i).6x,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1)
1: loop(\(x,i).6x,(4x + 3),1)
1: loop(\(x,i).6x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1)
1: loop(\(x,i).6x,(((x + ~1) div 2) - ((3 * (x div 4)) div 2)),1)
1: loop(\(x,i).6x,((x div 2) - ((3 * (x div (4 - ((x * (x div 2)) mod 2)))) div 2)),1)
1: loop(\(x,i).6x,(x + ~1),(loop(\(x,i).(3x + ~1),x,1) div 2))
1: loop(\(x,i).6x,(x + ~1),loop(\(x,i).(~1 + (2 * (x + (i mod 2)))),x,0))
1: loop(\(x,i).6x,(~1 + i),2x)
1: loop(\(x,i).6x,(~2 + i),1)
1: loop(\(x,i).6x,(2 * ((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1))),1)
1: loop(\(x,i).6x,2x,1)
1: loop(\(x,i).6x,(2 * i),2)
1: loop(\(x,i).6x,((x div 2) div 3),1)
1: loop(\(x,i).6x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).6x,(x div 2),1)
1: loop(\(x,i).6x,(x div 2),5)
1: loop(\(x,i).6x,(x div 2),(1 + (4 * (x mod 2))))
1: loop(\(x,i).6x,(x div 2),(if (x mod 2) <= 0 then 4 else 1))
1: loop(\(x,i).6x,x,(2x + 1))
1: loop(\(x,i).6x,x,(1 + loop(\(x,i).2x,x,1)))
1: loop(\(x,i).6x,x,(x + 2))
1: loop(\(x,i).6x,x,(~4x + 1))
1: loop(\(x,i).6x,x,11)
1: loop(\(x,i).6x,x,(~1 + loop(\(x,i).2x,x,2)))
1: loop(\(x,i).6x,x,x6)
1: loop(\(x,i).6x,x,loop(\(x,i).(4x + 1),x,1))
1: loop(\(x,i).6x,x,loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),x,1))
1: loop(\(x,i).6x,x,loop(\(x,i).(4x + loop(\(x,i).(10x + 1),i,1)),x,1))
1: loop(\(x,i).6x,x,loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1))
1: loop(\(x,i).6x,x,loop(\(x,i).5x,x2,1))
1: loop(\(x,i).6x,x,loop(\(x,i).7x,x2,1))
1: loop(\(x,i).(2x2 + 2x),1,(4x + ~4))
1: loop(\(x,i).(2x2 + 2x),2,5)
1: loop(\(x,i).(2x2 + 2x),2,x)
1: loop(\(x,i).(2x2 + 2x),(x2 + 1),2)
1: loop(\(x,i).(2x2 + 2x),(x + (x div 3)),1)
1: loop(\(x,i).(2x2 + 2x),(x + 1),3)
1: loop(\(x,i).(2x2 + 2x),(1 + i),3)
1: loop(\(x,i).(2x2 + 2x),(2x + ~1),x)
1: loop(\(x,i).(2x2 + 2x),(x2 + 3x + 2),1)
1: loop(\(x,i).(2x2 + 2x),2x2,2)
1: loop(\(x,i).(2x2 + 2x),x,4)
1: loop(\(x,i).(2x2 + 2x),i,2)
1: loop(\(x,i).(2x2 + 2x),i,5)
1: loop(\(x,i).(2x * (1 + i)),(2x + ~1),1)
1: loop(\(x,i).(2x * (1 + i)),(x + ~1),1)
1: loop(\(x,i).(2x * (1 + i)),(x + ~2),x)
1: loop(\(x,i).(2x * (1 + i)),2x,1)
1: loop(\(x,i).(2x * (1 + i)),2x,2)
1: loop(\(x,i).(2x * (1 + i)),loop(\(x,i).(2x + 2),x,0),1)
1: loop(\(x,i).(2x * (1 + i)),x,(x + 1))
1: loop(\(x,i).(2x * (1 + i)),x,(if x <= 0 then 2 else 1))
1: loop(\(x,i).~4x,(x + ~1),x)
1: loop(\(x,i).~4x,(~1 + i),1)
1: loop(\(x,i).~4x,x,2)
1: loop(\(x,i).~4x,x,loop(\(x,i).(~2x + ~2),x,0))
1: loop(\(x,i).~4x,x,loop(\(x,i).(~2x + 2),x,1))
1: loop(\(x,i).(2x2 + ~2x),1,loop(\(x,i).(x * (~2 + (i mod 2))),x,1))
1: loop(\(x,i).2x2,1,(49x + 50))
1: loop(\(x,i).2x2,1,(8x + 9))
1: loop(\(x,i).2x2,1,(25x + 26))
1: loop(\(x,i).2x2,1,(72x + 55))
1: loop(\(x,i).2x2,1,(18x + 19))
1: loop(\(x,i).2x2,1,(32x + 33))
1: loop(\(x,i).2x2,1,(1 + ((x + 1) * loop(\(x,i).x2,2,3))))
1: loop(\(x,i).2x2,1,(1 + ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)))
1: loop(\(x,i).2x2,1,(8x + 7))
1: loop(\(x,i).2x2,1,(72x + 17))
1: loop(\(x,i).2x2,1,(18x + 17))
1: loop(\(x,i).2x2,1,(32x + 31))
1: loop(\(x,i).2x2,1,(4x - (x div ~2)))
1: loop(\(x,i).2x2,1,(~1 + (x div ~11)))
1: loop(\(x,i).2x2,1,(~1 + loop(\(x,i).10x,(x + 1),1)))
1: loop(\(x,i).2x2,1,(~1 + loop(\(x,i).2x,(x div 2),(2 + (x mod 2)))))
1: loop(\(x,i).2x2,1,(x3 + x))
1: loop(\(x,i).2x2,1,(6x + 6))
1: loop(\(x,i).2x2,1,(3 * loop(\(x,i).(10x + 1),x,1)))
1: loop(\(x,i).2x2,1,(3 * loop(\(x,i).(10x + 2),x,2)))
1: loop(\(x,i).2x2,1,((x + 2) div 7))
1: loop(\(x,i).2x2,1,((2x + 2) div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))
1: loop(\(x,i).2x2,1,loop(\(x,i).(3x + 1),x,1))
1: loop(\(x,i).2x2,1,loop(\(x,i).(7x + 1),x,1))
1: loop(\(x,i).2x2,1,loop(\(x,i).(2x + 1),x,0))
1: loop(\(x,i).2x2,2,3)
1: loop(\(x,i).2x2,2,(x3 + x2 + 1))
1: loop(\(x,i).2x2,2,(1 + (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))))
1: loop(\(x,i).2x2,2,8x)
1: loop(\(x,i).2x2,2,2x)
1: loop(\(x,i).2x2,2,loop(\(x,i).4x,x,2))
1: loop(\(x,i).2x2,3,2)
1: loop(\(x,i).2x2,3,(2x + 1))
1: loop(\(x,i).2x2,3,(x + 1))
1: loop(\(x,i).2x2,3,6)
1: loop(\(x,i).2x2,4,2)
1: loop(\(x,i).2x2,(1 + (x mod 2)),5)
1: loop(\(x,i).2x2,(x + ~2),loop(\(x,i).(x2 div 2),x,3))
1: loop(\(x,i).2x2,(x + ~3),1)
1: loop(\(x,i).2x2,(2x + 2),1)
1: loop(\(x,i).2x2,(2x + 2),2)
1: loop(\(x,i).2x2,2x,2)
1: loop(\(x,i).2x2,x2,2)
1: loop(\(x,i).2x2,x2,5)
1: loop(\(x,i).2x2,(x div 2),2)
1: loop(\(x,i).2x2,(x div 2),(x - ((x div 2) mod 2)))
1: loop(\(x,i).2x2,(x div 2),(2x + 6))
1: loop(\(x,i).2x2,x,2)
1: loop(\(x,i).2x2,x,3)
1: loop(\(x,i).2x2,i,2)
1: loop(\(x,i).3x2,1,(1 + (2 * ((2x + 1) + (x div 2)))))
1: loop(\(x,i).3x2,1,(1 + (2 * (x - (x div ~2)))))
1: loop(\(x,i).3x2,1,loop(\(x,i).(4x + 1),x,1))
1: loop(\(x,i).3x2,2,(x2 + 2x + 1))
1: loop(\(x,i).3x2,2,loop(\(x,i).3x,x,1))
1: loop(\(x,i).3x2,3,(2x + 1))
1: loop(\(x,i).3x2,3,x)
1: loop(\(x,i).3x2,(x + ~1),(x + 1))
1: loop(\(x,i).3x2,x,1)
1: loop(\(x,i).4x2,2,4)
1: loop(\(x,i).4x2,3,(2x + 1))
1: loop(\(x,i).4x2,3,x)
1: loop(\(x,i).4x2,(x + 4),2)
1: loop(\(x,i).4x2,(~1 + i),1)
1: loop(\(x,i).4x2,(2x + ~2),1)
1: loop(\(x,i).4x2,(x * ((x + 1) div 2)),1)
1: loop(\(x,i).4x2,x,1)
1: loop(\(x,i).4x2,i,4)
1: loop(\(x,i).(x3 + x2),1,(x + 4))
1: loop(\(x,i).(x3 + x2),1,(x2 + 2x + 1))
1: loop(\(x,i).(x3 + x2),1,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(x3 + x2),1,(x - (x div ~2)))
1: loop(\(x,i).(x3 + x2),1,(x - (x div ~3)))
1: loop(\(x,i).(x3 + x2),1,10)
1: loop(\(x,i).(x3 + x2),1,x5)
1: loop(\(x,i).(x3 + x2),1,loop(\(x,i).(2x + 2),x,0))
1: loop(\(x,i).(x3 + x2),1,loop(\(x,i).(2x + 2),x,2))
1: loop(\(x,i).(x3 + x2),1,loop(\(x,i).~4x,x,2))
1: loop(\(x,i).(x3 + x2),2,48)
1: loop(\(x,i).(x3 + x2),2,2x)
1: loop(\(x,i).(x3 + x2),3,2)
1: loop(\(x,i).(x3 + x2),(2x + 2),(x + 1))
1: loop(\(x,i).(x3 + x2),x,1)
1: loop(\(x,i).(x3 + 2x2),1,(2x + 1))
1: loop(\(x,i).(x3 + 2x2),2,2)
1: loop(\(x,i).(x3 + 2x2),3,2)
1: loop(\(x,i).(x3 + 2x2),(2x + 2),(x + 1))
1: loop(\(x,i).(x2 * (1 + i)),2,(x2 + 1))
1: loop(\(x,i).(x2 * (1 + i)),2,(x + 1))
1: loop(\(x,i).(x2 * (1 + i)),2,2x)
1: loop(\(x,i).(x2 * (2 + i)),2,6)
1: loop(\(x,i).(x2 * (2 + i)),2,x)
1: loop(\(x,i).(x2 * (2 + i)),(2x + 2),6)
1: loop(\(x,i).(x3 + ~x2),1,(3 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(x3 + ~x2),1,(2x2 + 2x))
1: loop(\(x,i).(x3 + ~x2),1,((x2 + 3x + 2) div 2))
1: loop(\(x,i).(x3 + ~x2),1,((x2 + ~x) div 2))
1: loop(\(x,i).(x3 + ~x2),1,loop(\(x,i).2x,x,1))
1: loop(\(x,i).(x3 + ~x2),2,x)
1: loop(\(x,i).(x3 + ~2x2),1,(x2 + 3x + 2))
1: loop(\(x,i).(x3 + ~2x2),1,(x2 + 2x))
1: loop(\(x,i).(x3 + ~2x2),1,loop(\(x,i).3x,x,3))
1: loop(\(x,i).(x3 + ~2x2),2,7)
1: loop(\(x,i).2x3,1,(x2 + 2x + 1))
1: loop(\(x,i).2x3,1,(5x2 + 5x + 1))
1: loop(\(x,i).2x3,1,(x2 + 3x + 1))
1: loop(\(x,i).2x3,1,(3x + 3))
1: loop(\(x,i).2x3,2,4)
1: loop(\(x,i).2x3,2,4x)
1: loop(\(x,i).2x3,3,2)
1: loop(\(x,i).2x3,4,(x + 1))
1: loop(\(x,i).2x3,(x + ~2),2)
1: loop(\(x,i).2x3,2x,2)
1: loop(\(x,i).x3,1,5)
1: loop(\(x,i).x3,1,((x + 1) + (x2 div 4)))
1: loop(\(x,i).x3,1,((x + 1) + (if (~2 + (x div 2)) <= 0 then 1 else 2)))
1: loop(\(x,i).x3,1,(x + 4))
1: loop(\(x,i).x3,1,(3x + 1))
1: loop(\(x,i).x3,1,(5x + 4))
1: loop(\(x,i).x3,1,(5x + 1))
1: loop(\(x,i).x3,1,(5x + 2))
1: loop(\(x,i).x3,1,(5x + 3))
1: loop(\(x,i).x3,1,(7x + 1))
1: loop(\(x,i).x3,1,(9x + 7))
1: loop(\(x,i).x3,1,(10x + 3))
1: loop(\(x,i).x3,1,(8x + 3))
1: loop(\(x,i).x3,1,(7x + 3))
1: loop(\(x,i).x3,1,(10x + 6))
1: loop(\(x,i).x3,1,(11x + 5))
1: loop(\(x,i).x3,1,(x2 + 2x + 1))
1: loop(\(x,i).x3,1,(9x + 1))
1: loop(\(x,i).x3,1,(9x + 2))
1: loop(\(x,i).x3,1,25)
1: loop(\(x,i).x3,1,(9x + 8))
1: loop(\(x,i).x3,1,(10x + 1))
1: loop(\(x,i).x3,1,(12x + 9))
1: loop(\(x,i).x3,1,(8x + 5))
1: loop(\(x,i).x3,1,(9x + 4))
1: loop(\(x,i).x3,1,(12x + 7))
1: loop(\(x,i).x3,1,(7x + 6))
1: loop(\(x,i).x3,1,(11x + 10))
1: loop(\(x,i).x3,1,(3x2 + 3x + 1))
1: loop(\(x,i).x3,1,(8x + 1))
1: loop(\(x,i).x3,1,(12x + 1))
1: loop(\(x,i).x3,1,(4x + 1))
1: loop(\(x,i).x3,1,(6x + 1))
1: loop(\(x,i).x3,1,(6x + 2))
1: loop(\(x,i).x3,1,(2x + 1))
1: loop(\(x,i).x3,1,(2 + (x div 4)))
1: loop(\(x,i).x3,1,(x + (x div 7)))
1: loop(\(x,i).x3,1,(x + (x mod (1 + (x div 2)))))
1: loop(\(x,i).x3,1,(loop(\(x,i).(3x + 1),x,1) + (x mod 2)))
1: loop(\(x,i).x3,1,(1 + loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)))
1: loop(\(x,i).x3,1,(1 + loop(\(x,i).(10x3 + 10x + 2),x,2)))
1: loop(\(x,i).x3,1,(1 + loop(\(x,i).10x,x,1)))
1: loop(\(x,i).x3,1,(1 + loop(\(x,i).2x,x,1)))
1: loop(\(x,i).x3,1,(1 + loop(\(x,i).(x * i),x,1)))
1: loop(\(x,i).x3,1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i)))
1: loop(\(x,i).x3,1,(1 + compr(\x.(x mod (1 + ((x mod ((x + ~1) - (x mod 4))) div 2))),x)))
1: loop(\(x,i).x3,1,(11x + 7))
1: loop(\(x,i).x3,1,(11x + 1))
1: loop(\(x,i).x3,1,(1 - ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)))
1: loop(\(x,i).x3,1,(1 - loop(\(x,i).(2 * (x - (i mod 2))),x,0)))
1: loop(\(x,i).x3,1,(7x + 2))
1: loop(\(x,i).x3,1,(11x + 2))
1: loop(\(x,i).x3,1,(4x + 3))
1: loop(\(x,i).x3,1,(9x + 5))
1: loop(\(x,i).x3,1,(10x + 7))
1: loop(\(x,i).x3,1,(11x + 3))
1: loop(\(x,i).x3,1,(11x + 4))
1: loop(\(x,i).x3,1,(8x + 7))
1: loop(\(x,i).x3,1,(12x + 11))
1: loop(\(x,i).x3,1,(4x2 + 8x + 3))
1: loop(\(x,i).x3,1,(11x + 8))
1: loop(\(x,i).x3,1,(7x + 4))
1: loop(\(x,i).x3,1,(12x + 5))
1: loop(\(x,i).x3,1,(11x + 6))
1: loop(\(x,i).x3,1,(6x + 5))
1: loop(\(x,i).x3,1,(10x + 9))
1: loop(\(x,i).x3,1,(~x + (x div (2 - (x mod 2)))))
1: loop(\(x,i).x3,1,(~1 + loop(\(x,i).(x2 + ~x),1,loop(\(x,i).2x,x,1))))
1: loop(\(x,i).x3,1,(~1 + loop(\(x,i).10x,x,1)))
1: loop(\(x,i).x3,1,(~1 + loop(\(x,i).2x,x,2)))
1: loop(\(x,i).x3,1,(~1 + loop(\(x,i).x2,x2,4)))
1: loop(\(x,i).x3,1,(loop(\(x,i).(x * i),(x div 2),1) - loop(\(x,i).(x * i),x,1)))
1: loop(\(x,i).x3,1,(11x + 9))
1: loop(\(x,i).x3,1,3x)
1: loop(\(x,i).x3,1,5x)
1: loop(\(x,i).x3,1,(2 * ((x + 2) + (3 * (x div 2)))))
1: loop(\(x,i).x3,1,14)
1: loop(\(x,i).x3,1,7x)
1: loop(\(x,i).x3,1,(9x + 3))
1: loop(\(x,i).x3,1,(6x + 4))
1: loop(\(x,i).x3,1,(9x + 6))
1: loop(\(x,i).x3,1,(10x + 8))
1: loop(\(x,i).x3,1,(10x + 4))
1: loop(\(x,i).x3,1,(12x + 16))
1: loop(\(x,i).x3,1,(8x + 2))
1: loop(\(x,i).x3,1,(12x + 3))
1: loop(\(x,i).x3,1,(12x + 2))
1: loop(\(x,i).x3,1,(12x + 4))
1: loop(\(x,i).x3,1,(4x + 2))
1: loop(\(x,i).x3,1,(6x + 3))
1: loop(\(x,i).x3,1,(2x + 2))
1: loop(\(x,i).x3,1,(x2 + x))
1: loop(\(x,i).x3,1,(x2 + 4x + 4))
1: loop(\(x,i).x3,1,((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) * (2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))))
1: loop(\(x,i).x3,1,11x)
1: loop(\(x,i).x3,1,(8x + 6))
1: loop(\(x,i).x3,1,(12x + 10))
1: loop(\(x,i).x3,1,9x)
1: loop(\(x,i).x3,1,10x)
1: loop(\(x,i).x3,1,(12x + 8))
1: loop(\(x,i).x3,1,(8x + 4))
1: loop(\(x,i).x3,1,(12x + 6))
1: loop(\(x,i).x3,1,(10x2 + 20x + 10))
1: loop(\(x,i).x3,1,8x)
1: loop(\(x,i).x3,1,12x)
1: loop(\(x,i).x3,1,9x2)
1: loop(\(x,i).x3,1,(x4 + 2x3 + x2))
1: loop(\(x,i).x3,1,(x2 * loop(\(x,i).(x2 + 4x + 4),2,1)))
1: loop(\(x,i).x3,1,(x2 * loop(\(x,i).x2,2,3)))
1: loop(\(x,i).x3,1,4x)
1: loop(\(x,i).x3,1,6x)
1: loop(\(x,i).x3,1,4x2)
1: loop(\(x,i).x3,1,((2 * (2 + (if x <= 0 then 0 else (2 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))))) div 3))
1: loop(\(x,i).x3,1,((x2 + 3x + 2) div 2))
1: loop(\(x,i).x3,1,(((2 + i) * (1 + i)) div 2))
1: loop(\(x,i).x3,1,(x div 3))
1: loop(\(x,i).x3,1,loop(\(x,i).(x3 + ~x + 1),2,2))
1: loop(\(x,i).x3,1,loop(\(x,i).(10x + 1),x,1))
1: loop(\(x,i).x3,1,loop(\(x,i).(x + (3x * i)),x,1))
1: loop(\(x,i).x3,1,loop(\(x,i).(1 + (x * (if (1 + ((1 + ((1 + loop(\(x,i).(x * ((1 + (4 * i)) * i)),x,1)) div 2)) div 2)) <= 0 then 1 else (x * i)))),x,1))
1: loop(\(x,i).x3,1,loop(\(x,i).(2x + 2),(x div 2),(2 * (1 + (x mod 2)))))
1: loop(\(x,i).x3,1,loop(\(x,i).(2x + 2),x,2))
1: loop(\(x,i).x3,1,loop(\(x,i).(x * (1 + i)),x,(x + 1)))
1: loop(\(x,i).x3,1,loop(\(x,i).(x * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i))),x,2))
1: loop(\(x,i).x3,1,loop(\(x,i).(2x2 + ~x),1,loop(\(x,i).2x,compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),2)))
1: loop(\(x,i).x3,1,loop(\(x,i).(2 * (2x - (x div (1 + i)))),(~1 + i),2))
1: loop(\(x,i).x3,1,loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,1))
1: loop(\(x,i).x3,1,loop(\(x,i).(x * (~1 + (2 * i))),x,1))
1: loop(\(x,i).x3,1,loop(\(x,i).8x2,x,3))
1: loop(\(x,i).x3,1,loop(\(x,i).4x2,2,4))
1: loop(\(x,i).x3,1,loop(\(x,i).x3,2,(2x + 1)))
1: loop(\(x,i).x3,1,loop(\(x,i).2x,x,3))
1: loop(\(x,i).x3,1,loop(\(x,i).x2,2,10))
1: loop(\(x,i).x3,1,loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),i,1))
1: loop(\(x,i).x3,2,(3 + (x mod 2)))
1: loop(\(x,i).x3,2,(3x + 1))
1: loop(\(x,i).x3,2,(3x + 2))
1: loop(\(x,i).x3,2,(5x + 4))
1: loop(\(x,i).x3,2,(5x + 1))
1: loop(\(x,i).x3,2,(5x + 2))
1: loop(\(x,i).x3,2,(5x + 3))
1: loop(\(x,i).x3,2,(7x + 1))
1: loop(\(x,i).x3,2,(9x + 7))
1: loop(\(x,i).x3,2,(10x + 3))
1: loop(\(x,i).x3,2,(8x + 3))
1: loop(\(x,i).x3,2,(7x + 3))
1: loop(\(x,i).x3,2,(10x + 6))
1: loop(\(x,i).x3,2,(11x + 5))
1: loop(\(x,i).x3,2,(x2 + 2x + 1))
1: loop(\(x,i).x3,2,19)
1: loop(\(x,i).x3,2,(9x + 1))
1: loop(\(x,i).x3,2,(9x + 2))
1: loop(\(x,i).x3,2,(9x + 8))
1: loop(\(x,i).x3,2,(10x + 1))
1: loop(\(x,i).x3,2,(12x + 9))
1: loop(\(x,i).x3,2,(8x + 5))
1: loop(\(x,i).x3,2,(9x + 4))
1: loop(\(x,i).x3,2,(12x + 7))
1: loop(\(x,i).x3,2,(7x + 6))
1: loop(\(x,i).x3,2,(10x + 11))
1: loop(\(x,i).x3,2,(11x + 10))
1: loop(\(x,i).x3,2,55)
1: loop(\(x,i).x3,2,65)
1: loop(\(x,i).x3,2,(8x + 1))
1: loop(\(x,i).x3,2,(12x + 1))
1: loop(\(x,i).x3,2,(4x + 1))
1: loop(\(x,i).x3,2,(6x + 1))
1: loop(\(x,i).x3,2,(6x + 2))
1: loop(\(x,i).x3,2,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).x3,2,(11x + 7))
1: loop(\(x,i).x3,2,(11x + 1))
1: loop(\(x,i).x3,2,(7x + 2))
1: loop(\(x,i).x3,2,(11x + 2))
1: loop(\(x,i).x3,2,11)
1: loop(\(x,i).x3,2,(4x + 3))
1: loop(\(x,i).x3,2,(9x + 5))
1: loop(\(x,i).x3,2,(10x + 7))
1: loop(\(x,i).x3,2,(11x + 3))
1: loop(\(x,i).x3,2,(11x + 4))
1: loop(\(x,i).x3,2,39)
1: loop(\(x,i).x3,2,(8x + 7))
1: loop(\(x,i).x3,2,(12x + 11))
1: loop(\(x,i).x3,2,(11x + 8))
1: loop(\(x,i).x3,2,(7x + 4))
1: loop(\(x,i).x3,2,(12x + 5))
1: loop(\(x,i).x3,2,(11x + 6))
1: loop(\(x,i).x3,2,(6x + 5))
1: loop(\(x,i).x3,2,(10x + 9))
1: loop(\(x,i).x3,2,(~1 + loop(\(x,i).10x,x,1)))
1: loop(\(x,i).x3,2,(7x + 5))
1: loop(\(x,i).x3,2,(11x + 9))
1: loop(\(x,i).x3,2,6)
1: loop(\(x,i).x3,2,10)
1: loop(\(x,i).x3,2,5x)
1: loop(\(x,i).x3,2,7x)
1: loop(\(x,i).x3,2,(9x + 3))
1: loop(\(x,i).x3,2,(6x + 4))
1: loop(\(x,i).x3,2,(9x + 6))
1: loop(\(x,i).x3,2,(10x + 8))
1: loop(\(x,i).x3,2,(10x + 2))
1: loop(\(x,i).x3,2,(10x + 4))
1: loop(\(x,i).x3,2,(8x + 2))
1: loop(\(x,i).x3,2,(12x + 3))
1: loop(\(x,i).x3,2,(12x + 2))
1: loop(\(x,i).x3,2,(12x + 4))
1: loop(\(x,i).x3,2,(4x + 2))
1: loop(\(x,i).x3,2,(6x + 3))
1: loop(\(x,i).x3,2,(10x + 5))
1: loop(\(x,i).x3,2,11x)
1: loop(\(x,i).x3,2,(8x + 6))
1: loop(\(x,i).x3,2,(12x + 10))
1: loop(\(x,i).x3,2,9x)
1: loop(\(x,i).x3,2,16)
1: loop(\(x,i).x3,2,10x)
1: loop(\(x,i).x3,2,(12x + 8))
1: loop(\(x,i).x3,2,(8x + 4))
1: loop(\(x,i).x3,2,(12x + 6))
1: loop(\(x,i).x3,2,8x)
1: loop(\(x,i).x3,2,12x)
1: loop(\(x,i).x3,2,6x)
1: loop(\(x,i).x3,2,(if (x + ~2) <= 0 then 1 else 2))
1: loop(\(x,i).x3,2,(if x <= 0 then 1 else x))
1: loop(\(x,i).x3,3,3)
1: loop(\(x,i).x3,3,(x2 + 2))
1: loop(\(x,i).x3,4,(x + 1))
1: loop(\(x,i).x3,4,2x)
1: loop(\(x,i).x3,(2x + 1),(x + 2))
1: loop(\(x,i).x3,(x + 1),(x + 1))
1: loop(\(x,i).x3,(x + 1),x)
1: loop(\(x,i).x3,(x + 2),16)
1: loop(\(x,i).x3,(2x + ~1),2)
1: loop(\(x,i).x3,(x + ~2),(1 + (if (x * loop(\(x,i).x2,(x + ~2),x5)) <= 0 then x else 2)))
1: loop(\(x,i).x3,3x,2)
1: loop(\(x,i).x3,(x2 + ~x),10)
1: loop(\(x,i).x3,(x2 + ~2x),(1 + (if x <= 0 then 0 else 2)))
1: loop(\(x,i).x3,2x,2)
1: loop(\(x,i).x3,2x,9)
1: loop(\(x,i).x3,2x,(11x + 16))
1: loop(\(x,i).x3,2x,(8x + 1))
1: loop(\(x,i).x3,(x div 2),2)
1: loop(\(x,i).x3,(x mod 2),21)
1: loop(\(x,i).x3,(x mod 2),(1 + (x div 2)))
1: loop(\(x,i).x3,x,5)
1: loop(\(x,i).x3,x,(x + ~2))
1: loop(\(x,i).x3,x,10)
1: loop(\(x,i).x3,x,(2 * (1 + (x mod 2))))
1: loop(\(x,i).x3,i,2)
1: loop(\(x,i).x3,i,(x div 3))
1: loop(\(x,i).(4 * i),(x mod 3),1)
1: loop(\(x,i).((2x + ~4) * i),x,0)
1: loop(\(x,i).(2x * i),4,x)
1: loop(\(x,i).(2x * i),(x + 1),2)
1: loop(\(x,i).(2x * i),(~1 + (2 * i)),x)
1: loop(\(x,i).(2x * i),(x + ~1),x)
1: loop(\(x,i).(2x * i),(x + ~2),1)
1: loop(\(x,i).(2x * i),(x + ~2),2)
1: loop(\(x,i).(2x * i),(x + ~2),(1 + (x mod 2)))
1: loop(\(x,i).(2x * i),2x,1)
1: loop(\(x,i).(2x * i),2x,4)
1: loop(\(x,i).(2x * i),(2 * i),x)
1: loop(\(x,i).(2x * i),((x + 1) div 2),x)
1: loop(\(x,i).(2x * i),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).(2x * i),loop(\(x,i).2x,x,1),1)
1: loop(\(x,i).(2x * i),x,4)
1: loop(\(x,i).(2x * i),x,(4x + 5))
1: loop(\(x,i).(2x * i),x,(x + 2))
1: loop(\(x,i).(2x * i),x,(if x <= 0 then 1 else 2))
1: loop(\(x,i).(2x * i),x,loop(\(x,i).(x + (i * i)),(x + 1),0))
1: loop(\(x,i).(2x * i),x,x)
1: loop(\(x,i).(3x * i),(x + 1),1)
1: loop(\(x,i).(3x * i),2x,1)
1: loop(\(x,i).(3x * i),x,3)
1: loop(\(x,i).(3x * i),x,(if x <= 0 then 1 else 2))
1: loop(\(x,i).(3x * i),i,1)
1: loop(\(x,i).(4x * i),5,x)
1: loop(\(x,i).(4x * i),(x + ~1),x)
1: loop(\(x,i).(4x * i),(x + ~2),x)
1: loop(\(x,i).(4x * i),x,1)
1: loop(\(x,i).(4x * i),x,(2x + 1))
1: loop(\(x,i).(4x * i),x,(if x <= 0 then 1 else 2))
1: loop(\(x,i).(x * (i * (1 + i))),(x + 1),2)
1: loop(\(x,i).(x * (i * (1 + i))),(x + ~2),1)
1: loop(\(x,i).(x * (i * (1 + i))),(~1 + i),1)
1: loop(\(x,i).(x * (i * (1 + i))),(x div 2),1)
1: loop(\(x,i).(x * (i * (1 + i))),x,1)
1: loop(\(x,i).(x * (i * (1 + i))),x,2)
1: loop(\(x,i).(x * (i * (1 + i))),i,1)
1: loop(\(x,i).(x * (i * (1 + i))),i,x)
1: loop(\(x,i).(x * (i * (2 + i))),(x + 1),2)
1: loop(\(x,i).(x * (i * (2 + i))),(x2 + x),1)
1: loop(\(x,i).((x2 + ~x) * i),(4x + 4),2)
1: loop(\(x,i).(x3 * i),x,1)
1: loop(\(x,i).(x2 * i),(x + ~1),1)
1: loop(\(x,i).(x2 * i),(x2 + ~x),x)
1: loop(\(x,i).(x2 * i),x2,1)
1: loop(\(x,i).(x2 * i),x,1)
1: loop(\(x,i).(x2 * i),x,(x2 + 2))
1: loop(\(x,i).((x + 1) * (i * i)),(x + ~1),1)
1: loop(\(x,i).((x + 1) * (i * i)),x,0)
1: loop(\(x,i).(i * i * (x + i)),(x + 1),0)
1: loop(\(x,i).((x + ~1) * (i * i)),x,1)
1: loop(\(x,i).(2x * (i * i)),(x + 1),(x + 1))
1: loop(\(x,i).(2x * (i * i)),i,x)
1: loop(\(x,i).(x2 * (i * i)),2,(x + 1))
1: loop(\(x,i).(x2 * (i * i)),x,1)
1: loop(\(x,i).(2 * (i * i * i)),(x + ~2),x)
1: loop(\(x,i).(x * (i * i * i)),(x + 1),1)
1: loop(\(x,i).(x * (i * i * i)),(1 + i),1)
1: loop(\(x,i).(x * (i * i * i)),2x,1)
1: loop(\(x,i).(x * (i * i * i)),i,1)
1: loop(\(x,i).(x * (i * i * i)),i,x)
1: loop(\(x,i).(x * (i * i)),4,x)
1: loop(\(x,i).(x * (i * i)),(2x + 1),1)
1: loop(\(x,i).(x * (i * i)),(1 + (x div 2)),(1 + (x mod 2)))
1: loop(\(x,i).(x * (i * i)),(x + 1),(x2 + 2x + 1))
1: loop(\(x,i).(x * (i * i)),(x + 2),(x + 2))
1: loop(\(x,i).(x * (i * i)),(1 + compr(\x.((~1 + loop(\(x,i).(x * i),x,1)) mod (x + 2)),x)),1)
1: loop(\(x,i).(x * (i * i)),(2 + compr(\x.((~1 + loop(\(x,i).(x * i),x,1)) mod (x + 2)),x)),1)
1: loop(\(x,i).(x * (i * i)),(2x + ~1),1)
1: loop(\(x,i).(x * (i * i)),(2x2 + ~x),loop(\(x,i).2x,x,1))
1: loop(\(x,i).(x * (i * i)),(2 * i),x)
1: loop(\(x,i).(x * (i * i)),((x + 1) div 2),1)
1: loop(\(x,i).(x * (i * i)),x,x)
1: loop(\(x,i).(2 * ((1 + (((x2 + 2x + 1) * ((x3 + x2) div 2)) div 3)) div 2)),x,1)
1: loop(\(x,i).(2 * ((1 + (((x + 2) * (if (x + ~2) <= 0 then x else (x + 5))) div 2)) div 2)),x,1)
1: loop(\(x,i).(2 * ((1 + (((loop(\(x,i).4x,x,2) - loop(\(x,i).3x,x,1)) div 2) div 2)) div 2)),x,1)
1: loop(\(x,i).(x * ((1 + loop(\(x,i).(x2 + ~x),1,loop(\(x,i).3x,(1 + i),1))) div 3)),x,1)
1: loop(\(x,i).(2 * ((2 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 3)),3,x)
1: loop(\(x,i).(3 * ((x + 1) div 2)),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).(3 * ((x + 1) div 2)),x,1)
1: loop(\(x,i).((x + 1) * ((x + 1) div 2)),(1 + (x div 2)),(x + ~1))
1: loop(\(x,i).((x + 1) * ((x + 1) div 2)),i,(if x <= 0 then 1 else 2))
1: loop(\(x,i).(x * ((x + 1) div 2)),1,(1 - ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)))
1: loop(\(x,i).(x * ((x + 1) div 2)),i,x)
1: loop(\(x,i).(x * ((1 + i) div 2)),(x div 2),1)
1: loop(\(x,i).(x * ((1 + i) div 2)),x,(2 - (x mod 2)))
1: loop(\(x,i).(((x + i) div 2) * (2 + i)),(x + ~2),1)
1: loop(\(x,i).(x * ((x + i) div 2)),(x + ~1),2)
1: loop(\(x,i).(((~x + 2) div 2) * i),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).(3 * ((~x + (3x * i)) div (1 + i))),x,1)
1: loop(\(x,i).(2 * ((x2 + ~1) div 2)),x,3)
1: loop(\(x,i).(2 * ((~1 + (((x2 + x) * (1 - (2 * (x mod 2)))) div 2)) div 2)),1,(x + 1))
1: loop(\(x,i).(((x + ~1) div 2) * i),x,1)
1: loop(\(x,i).(2 * (((x + ~1) + ((2 * (3 + (((~1 + (6 * (1 + ((1 + (x div (1 + (x mod (1 + (x mod (1 + (x div (2 * (2 - (x mod 2))))))))))) div 2)))) div 2) div 2))) div 3)) div 2)),x,1)
1: loop(\(x,i).(((x - i) div 2) * i),x,1)
1: loop(\(x,i).(x * (8 div (1 + i))),x,1)
1: loop(\(x,i).(3 * ((x2 + 3x) div 2)),2,(x + 1))
1: loop(\(x,i).(x * (((3 + i) * i) div 2)),x,1)
1: loop(\(x,i).(x * (((~1 + ((2 * i) + i)) * i) div 2)),x,1)
1: loop(\(x,i).(2 * ((3 * (1 + (2 * (1 + (x div 5))))) div 2)),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).(((2 * (x + (2 * (2x div (if i <= 0 then 1 else i))))) div (1 + i)) * (1 + (2 * i))),x,2)
1: loop(\(x,i).(((4x + 2) div (1 + i)) * (~1 + (2 * i))),x,1)
1: loop(\(x,i).(3 * ((x2 + x) div 2)),x,1)
1: loop(\(x,i).((2x + 1) * ((x2 + x) div 2)),2,2)
1: loop(\(x,i).((2x + ~1) * ((x2 + x) div 2)),2,x)
1: loop(\(x,i).((x + 1) * ((x2 + 3x + 2) div 2)),1,(x2 + 2x + 1))
1: loop(\(x,i).(2 * ((x * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))) div 2)),x,1)
1: loop(\(x,i).(2 * ((~2x + 2) div 5)),x,~x)
1: loop(\(x,i).(3 * ((x * (~2 + (3 * i))) div (1 + i))),x,2)
1: loop(\(x,i).(3 * ((3 * (~1 + (3 * (1 + ((x div 2) mod (1 + (6 * (x mod 2)))))))) div 2)),x,1)
1: loop(\(x,i).((2x + ~1) * ((x2 + ~x) div 2)),1,loop(\(x,i).2x,x,2))
1: loop(\(x,i).((2x + ~1) * ((x2 + ~x) div 2)),1,loop(\(x,i).(x * i),x,1))
1: loop(\(x,i).(2 * (9x div (1 + (x mod 2)))),x,1)
1: loop(\(x,i).(2 * ((2x * (1 + (2 * i))) div (2 + i))),(x + 1),(x + 1))
1: loop(\(x,i).(2 * ((2x * (1 + (2 * i))) div (2 + i))),(x + ~1),(x + 1))
1: loop(\(x,i).(2 * ((2x * (1 + (2 * i))) div (2 + i))),x,1)
1: loop(\(x,i).(2 * ((2x * (1 + (2 * i))) div (2 + i))),x,(x + 1))
1: loop(\(x,i).(3 * ((2x * (1 + (2 * i))) div (2 + i))),(x + ~1),(x + 1))
1: loop(\(x,i).(3 * ((2x * (1 + (2 * i))) div (2 + i))),x,1)
1: loop(\(x,i).(5 * ((2x * (1 + (2 * i))) div (2 + i))),(x + ~1),(x + 1))
1: loop(\(x,i).(9 * ((2x * (1 + (2 * i))) div (2 + i))),x,1)
1: loop(\(x,i).(((2x * (1 + (2 * i))) div (2 + i)) * (1 + i)),x,(x + 1))
1: loop(\(x,i).(2 * (((2x * (1 + (2 * i))) div (2 + i)) * i)),(x + ~1),1)
1: loop(\(x,i).(((2x * (1 + (2 * i))) div (2 + i)) * i),(x + 1),1)
1: loop(\(x,i).(((2x * (1 + (2 * i))) div (2 + i)) * i),x,1)
1: loop(\(x,i).(((2x * (1 + (2 * i))) div (2 + i)) * i),x,2)
1: loop(\(x,i).(2 * ((2x * (~1 + (4 * i))) div (1 + i))),(x + ~1),1)
1: loop(\(x,i).(5 * ((2x * (~1 + (2 * i))) div (1 + i))),x,1)
1: loop(\(x,i).(5 * ((2x * (~1 + (2 * i))) div (1 + i))),i,1)
1: loop(\(x,i).(7 * ((2x * (~1 + (2 * i))) div (1 + i))),x,1)
1: loop(\(x,i).(7 * ((2x * (~1 + (2 * i))) div (1 + i))),i,1)
1: loop(\(x,i).(9 * ((2x * (~1 + (2 * i))) div (1 + i))),i,1)
1: loop(\(x,i).(((2x * (~1 + (2 * i))) div (1 + i)) * (1 + (i mod 2))),x,1)
1: loop(\(x,i).(((2x * ((1 + (2 * i)) * (1 + (2 * i)))) div (1 + i)) * (1 + (2 * i))),x,1)
1: loop(\(x,i).(2 * ((2x * ((~1 + (2 * i)) * (1 + (2 * (1 + i))))) div (1 + i))),x,1)
1: loop(\(x,i).(2 * ((8x * (~1 + (2 * i))) div (1 + i))),x,1)
1: loop(\(x,i).(2 * ((8x * (~1 + (2 * i))) div (1 + i))),i,1)
1: loop(\(x,i).((8x div (1 + i)) * (1 + (2 * i))),x,1)
1: loop(\(x,i).(5 * ((4x * (~1 + (2 * i))) div (3 + i))),x,1)
1: loop(\(x,i).(3 * ((4x * (~1 + (2 * i))) div (1 + i))),i,1)
1: loop(\(x,i).(5 * ((4x * (~1 + (2 * i))) div (1 + i))),x,1)
1: loop(\(x,i).(5 * ((4x * (~1 + (2 * i))) div (1 + i))),i,1)
1: loop(\(x,i).(((4x * (~1 + (2 * i))) div (1 + i)) * (1 + (2 * (1 + i)))),x,1)
1: loop(\(x,i).(((4x * (~1 + (2 * i))) div (1 + i)) * (~1 + (2 * i))),x,1)
1: loop(\(x,i).(2 * ((2x * (i * (~1 + (2 * i)))) div (1 + i))),x,1)
1: loop(\(x,i).((4x div (1 + i)) * (1 + (2 * i))),i,1)
1: loop(\(x,i).((4x div (2 + i)) * (1 + (2 * i))),(x + 1),1)
1: loop(\(x,i).(((2x * i) div (1 + i)) * (1 + (2 * i))),i,x)
1: loop(\(x,i).(((x * (i * (1 + i))) div 2) * (~1 + (2 * i))),x,1)
1: loop(\(x,i).(2 * ((((2x * (1 + (2 * i))) div (2 + i)) * (~1 + (2 * i))) div (1 + i))),x,x)
1: loop(\(x,i).((((4x div (1 + i)) * (~1 + (2 * i))) div (1 + i)) * (1 + (2 * i))),x,1)
1: loop(\(x,i).((((4x div (1 + i)) * (~1 + (2 * i))) div (1 + i)) * (1 + (2 * i))),x,2)
1: loop(\(x,i).((((4x div (1 + i)) * (~1 + (2 * i))) div (1 + i)) * (1 + (2 * i))),i,(1 + i))
1: loop(\(x,i).((((4x div (1 + i)) * (~1 + (2 * i))) div (1 + i)) * (1 + (2 * i))),i,x)
1: loop(\(x,i).(x * (2x div (1 + (x div 2)))),x,1)
1: loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(3x + 2),1)
1: loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(2x + 1),1)
1: loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(1 + (2 * i)),1)
1: loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(1 + (x div 2)),(1 + (x mod 2)))
1: loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(x + 1),1)
1: loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(x + 1),(x + 1))
1: loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(x + 1),x)
1: loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(x + 2),1)
1: loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(1 + i),1)
1: loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1)
1: loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(2x + ~1),1)
1: loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(x + ~1),5)
1: loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(x + ~1),(x + 1))
1: loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(~2 + i),1)
1: loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),3x,1)
1: loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),((x + ~1) div 2),x)
1: loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(x div 2),(1 + (2 * (x mod 2))))
1: loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),loop(\(x,i).(2x + 1),x,0),1)
1: loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),x,3)
1: loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),x,(2x + 1))
1: loop(\(x,i).((2x div (1 + i)) * (1 + i)),x,2)
1: loop(\(x,i).((2x div (1 + i)) * (~1 + (2 * i))),x,3)
1: loop(\(x,i).((2x div (if i <= 0 then 1 else i)) * (2 + i)),i,1)
1: loop(\(x,i).(2 * (x2 div 2)),x,(2 + (x div 2)))
1: loop(\(x,i).(3 * (x2 div 2)),2,(~x + 3))
1: loop(\(x,i).((x + ~2) * (x2 div 2)),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).((x + ~2) * (x2 div 2)),2,x)
1: loop(\(x,i).((x2 div 2) * ((x + 1) div 2)),(x + ~2),x)
1: loop(\(x,i).(x * (x2 div 2)),1,(1 + loop(\(x,i).2x,x,1)))
1: loop(\(x,i).(x * (x2 div 2)),1,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))
1: loop(\(x,i).(x * (x2 div 2)),1,loop(\(x,i).(2x + 1),x,0))
1: loop(\(x,i).(x * (x2 div 2)),1,loop(\(x,i).(~2x + 1),x,3))
1: loop(\(x,i).(x * (x2 div 2)),1,loop(\(x,i).3x,x,1))
1: loop(\(x,i).(x * (x2 div 2)),1,loop(\(x,i).5x,x,1))
1: loop(\(x,i).(x * (x2 div 2)),1,loop(\(x,i).7x,x,1))
1: loop(\(x,i).(x * (x2 div 2)),2,(x + ~8))
1: loop(\(x,i).(x * (x2 div 3)),1,loop(\(x,i).(3x + 2),x,0))
1: loop(\(x,i).((x + ~1) * (x2 div 4)),1,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).((x + ~1) * (x2 div 4)),2,x)
1: loop(\(x,i).(2 * ((x * i) div 2)),(x + ~2),x)
1: loop(\(x,i).(2 * ((((2x * (1 + (2 * i))) div (2 + i)) div (1 + i)) * (1 + (2 * i)))),(x + 1),1)
1: loop(\(x,i).(2 * ((((2x * (1 + (2 * i))) div (2 + i)) div (1 + i)) * (1 + (2 * i)))),(x + ~1),1)
1: loop(\(x,i).((x + 1) * ((if (x mod 2) <= 0 then 2 else x) div 2)),x,3)
1: loop(\(x,i).((x + 1) * ((if (x mod 2) <= 0 then 2 else x) div 2)),x,7)
1: loop(\(x,i).(2 * (loop(\(x,i).(32x + 1),(x + 1),1) div 2)),1,1)
1: loop(\(x,i).((x + 1) * (x div 2)),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(x * (x div 2)),1,(3x2 + 3x + 1))
1: loop(\(x,i).(x * (x div 2)),1,(1 + loop(\(x,i).3x,x,2)))
1: loop(\(x,i).(x * (x div 2)),1,(~3x2 + ~3x + ~1))
1: loop(\(x,i).(x * (x div 2)),1,(0 - loop(\(x,i).(10x + 1),x,1)))
1: loop(\(x,i).(x * (x div 2)),1,(0 - loop(\(x,i).3x,x,1)))
1: loop(\(x,i).(x * (x div 2)),1,(~1 + loop(\(x,i).3x,x,2)))
1: loop(\(x,i).(x * (x div 2)),1,((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3))
1: loop(\(x,i).(x * (x div 2)),1,(loop(\(x,i).2x,x,4) div 3))
1: loop(\(x,i).(x * (x div 2)),1,loop(\(x,i).(2x + i),x,0))
1: loop(\(x,i).(x * (x div 2)),1,loop(\(x,i).(10x + 1),x,1))
1: loop(\(x,i).(x * (x div 2)),1,loop(\(x,i).(2x + 1),x,0))
1: loop(\(x,i).(x * (x div 2)),1,loop(\(x,i).(~2x + 1),x,0))
1: loop(\(x,i).(x * (x div 2)),1,loop(\(x,i).(~2x + 1),x,1))
1: loop(\(x,i).(x * (x div 2)),1,loop(\(x,i).(3x + ~4),x,1))
1: loop(\(x,i).(x * (x div 2)),1,loop(\(x,i).3x,x,1))
1: loop(\(x,i).(x * (x div 2)),1,loop(\(x,i).5x,x,1))
1: loop(\(x,i).(x * (x div 2)),1,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))
1: loop(\(x,i).(x * (x div 2)),1,compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: loop(\(x,i).(x * (x div 2)),2,x)
1: loop(\(x,i).(x * (x div 2)),(x + ~2),x)
1: loop(\(x,i).(x * (x div 2)),x,(8 - (x mod 2)))
1: loop(\(x,i).((x div 2) * i),loop(\(x,i).(2x + 1),x,0),loop(\(x,i).2x,x,1))
1: loop(\(x,i).(x * (x div 3)),1,loop(\(x,i).(3x + ~2),x,0))
1: loop(\(x,i).(x * (x div 3)),1,loop(\(x,i).~2x,x,1))
1: loop(\(x,i).(x * (x div 5)),1,(~3 + loop(\(x,i).10x,(x + 1),1)))
1: loop(\(x,i).(x * (x div (1 + (x mod 2)))),1,(~1 + ((~2x + 2) mod (4 + (x div 4)))))
1: loop(\(x,i).((x div (2 - (x mod 2))) * (2 + i)),(2x + 1),1)
1: loop(\(x,i).(x * (x div (if i <= 0 then 1 else i))),x,(1 + i))
1: loop(\(x,i).(x * (x div (if i <= 0 then 1 else i))),x,i)
1: loop(\(x,i).((i div 2) * i),(x div 2),1)
1: loop(\(x,i).(x * (i div ~2)),(x + ~1),1)
1: loop(\(x,i).(3 * ((x + 3) mod 7)),x,0)
1: loop(\(x,i).(3 * ((x + 3) mod 9)),(x + ~1),1)
1: loop(\(x,i).(2 * (~x mod 5)),x,1)
1: loop(\(x,i).(2 * ((~x + 2) mod 7)),(x + ~1),1)
1: loop(\(x,i).(2 * ((~x + 2) mod 7)),x,0)
1: loop(\(x,i).(2 * ((~x + 2) mod 14)),x,0)
1: loop(\(x,i).(x * ((2x - (i mod 2)) mod (1 + i))),(x div 2),1)
1: loop(\(x,i).(3 * ((x + ~1) mod 4)),x,(x mod 3))
1: loop(\(x,i).((x2 mod (4x + 1)) * i),x,1)
1: loop(\(x,i).(x * ((x div 2) mod 2)),2,compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: loop(\(x,i).((x + 1) * ((if (x mod 2) <= 0 then 1 else x) mod 4)),x,1)
1: loop(\(x,i).(2 * (x mod 2)),(x + ~2),loop(\(x,i).3x,x,3))
1: loop(\(x,i).((x mod 4) * i),(((x + 1) div 2) div 2),1)
1: loop(\(x,i).((x mod 4) * i),x,1)
1: loop(\(x,i).((x mod 4) * i),x,(x + 2))
1: loop(\(x,i).(2 * (x mod 5)),x,1)
1: loop(\(x,i).(3 * (x mod 5)),x,1)
1: loop(\(x,i).(3 * (x mod 7)),x,2)
1: loop(\(x,i).(3 * (x mod 7)),x,8)
1: loop(\(x,i).(x * (x mod 9)),x,2)
1: loop(\(x,i).(2 * (x mod 13)),x,1)
1: loop(\(x,i).(x * (x mod (1 + (2 * i)))),3,x)
1: loop(\(x,i).((x + 1) * (x mod (1 + (((x + 1) div 2) div 3)))),2,x)
1: loop(\(x,i).(2 * (x mod 11)),x,1)
1: loop(\(x,i).(2 * (x mod 10)),x,1)
1: loop(\(x,i).(3 * (x mod 10)),x,1)
1: loop(\(x,i).(x * (x mod 10)),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(x * (if ((~x + 2) + i) <= 0 then x else 2)),x,1)
1: loop(\(x,i).(x * (if (~2 + (x div 3)) <= 0 then 2 else x)),x,1)
1: loop(\(x,i).(x * (if (~2 + (x div 3)) <= 0 then 2 else x)),x,2)
1: loop(\(x,i).(x * (if (~2 + (x div 4)) <= 0 then 3 else x)),x,1)
1: loop(\(x,i).(2 * (if (~1 + (i mod 3)) <= 0 then x else 2)),x,1)
1: loop(\(x,i).(x * (if (x + ~2) <= 0 then 0 else loop(\(x,i).loop(\(x,i).(x * i),(x + ~2),x),1,(x + ~1)))),1,(x + ~1))
1: loop(\(x,i).(x * (if (x + ~2) <= 0 then 1 else x2)),(x + ~1),(x + ~1))
1: loop(\(x,i).(2x * (if (x + ~2) <= 0 then 1 else i)),x,1)
1: loop(\(x,i).((if (x + ~2) <= 0 then 2 else (x + ~2)) * i),x,0)
1: loop(\(x,i).(x * (if (x + ~2) <= 0 then i else 4)),x,1)
1: loop(\(x,i).(2x * (if (x + ~4) <= 0 then 1 else x)),x,1)
1: loop(\(x,i).(2 * (if (~1 + i) <= 0 then 1 else (2x * (~1 + (2 * i))))),(x + ~1),x)
1: loop(\(x,i).(x * (if (~1 + i) <= 0 then 2 else (x2 div 2))),x,1)
1: loop(\(x,i).(x * (if (~1 + i) <= 0 then x else i)),x,(2x + 1))
1: loop(\(x,i).((if (~2 + i) <= 0 then 1 else x) * (1 + (if x <= 0 then 1 else x))),x,0)
1: loop(\(x,i).((x + 1) * (if (~2 + i) <= 0 then 2 else x)),x,1)
1: loop(\(x,i).(x * (if (~2 + i) <= 0 then 2 else x)),(2x + ~1),2)
1: loop(\(x,i).((x + 1) * (if ((x + 1) mod 8) <= 0 then 2 else 1)),x,1)
1: loop(\(x,i).((x + 1) * (if (8 mod (x + 1)) <= 0 then 2 else 1)),(x div 2),(x mod 2))
1: loop(\(x,i).((x + 1) * (if (16 mod (x + 1)) <= 0 then 2 else 1)),x,0)
1: loop(\(x,i).((2x + 1) * (if ((x div 3) mod 2) <= 0 then 1 else 2x)),x,0)
1: loop(\(x,i).((x + 1) * (if ((if x <= 0 then 1 else x) mod 2) <= 0 then (x + ~1) else 1)),x,0)
1: loop(\(x,i).((2x + ~1) * (if (x mod 2) <= 0 then 1 else 4)),x,0)
1: loop(\(x,i).(x * (if (x mod 2) <= 0 then 1 else x)),1,(x + ~2))
1: loop(\(x,i).(x * (if (x mod 2) <= 0 then 1 else x)),2,(1 + i))
1: loop(\(x,i).((if (x mod 2) <= 0 then 2 else 0) * (~1 + (2 * i))),(x + ~1),1)
1: loop(\(x,i).((x + 1) * (if (x mod 3) <= 0 then (2 * (x div 2)) else 1)),x,1)
1: loop(\(x,i).((if (x mod 4) <= 0 then x else i) * (1 + i)),x,1)
1: loop(\(x,i).(x * (if (x mod 5) <= 0 then 2 else 1)),(x + 1),(x + 1))
1: loop(\(x,i).(~x * (if (i mod 2) <= 0 then 1 else i)),x,1)
1: loop(\(x,i).(x * (if (i mod 2) <= 0 then 2 else ~2)),(x + ~1),x)
1: loop(\(x,i).(x * (if (i mod 2) <= 0 then 2 else ~2)),x,1)
1: loop(\(x,i).(x * (if (i mod 2) <= 0 then 2 else i)),(x div 3),1)
1: loop(\(x,i).(x * (if (i mod 2) <= 0 then 4 else ~1)),x,1)
1: loop(\(x,i).(x * (if (i mod 2) <= 0 then ~1 else 4)),x,1)
1: loop(\(x,i).(x * (if (i mod 2) <= 0 then ~2 else 2)),(x div 2),1)
1: loop(\(x,i).(x * (if (i mod 2) <= 0 then i else 2)),x,1)
1: loop(\(x,i).(x * (if (i mod 3) <= 0 then 1 else i)),x,1)
1: loop(\(x,i).(3 * (if x <= 0 then 0 else (7x + ~3))),1,(x + ~1))
1: loop(\(x,i).((x + 1) * (if x <= 0 then 1 else 2)),(x div 5),0)
1: loop(\(x,i).((x + 1) * (if x <= 0 then 1 else 2)),x,0)
1: loop(\(x,i).(2 * (if x <= 0 then 1 else (2 * ((x + 1) + (i mod 2))))),x,0)
1: loop(\(x,i).(2 * (if x <= 0 then 1 else (x2 + 2x))),x,0)
1: loop(\(x,i).(3 * (if x <= 0 then 1 else x)),2x,0)
1: loop(\(x,i).(3 * (if x <= 0 then 1 else x)),x,0)
1: loop(\(x,i).(4 * (if x <= 0 then 1 else x)),(x + ~1),0)
1: loop(\(x,i).((x + 1) * (if x <= 0 then 1 else x)),x,0)
1: loop(\(x,i).(2 * (if x <= 0 then 2 else ((x + 1) - (i mod 2)))),x,0)
1: loop(\(x,i).(3 * (if x <= 0 then 3 else x)),x,0)
1: loop(\(x,i).(x * loop(\(x,i).(3x2 + x + 1),2,2)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(7x + loop(\(x,i).10x,i,1)),1,i)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(2x + loop(\(x,i).4x,(~1 + i),1)),i,1)),(x + 1),1)
1: loop(\(x,i).(3 * loop(\(x,i).(x + 4),(x mod 3),2x)),x,x)
1: loop(\(x,i).(x * loop(\(x,i).(2x + i),(x + ~2),0)),1,(x + ~1))
1: loop(\(x,i).(x * loop(\(x,i).(3x + 1),i,1)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(5x + 1),i,1)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(x + (5 * i)),i,i)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(7x + 1),i,1)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(9x + 1),i,1)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(10x + 1),3,1)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(10x + 1),4,1)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(10x + 1),5,1)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(10x + 1),i,1)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(8x + 1),i,1)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(4x + 1),i,1)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(6x + 1),i,1)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(x2 + 1),2,3)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(x2 + 2),2,2)),((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),1)
1: loop(\(x,i).(x * loop(\(x,i).(x2 + 2),2,2)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(1 + (x * i)),4,2)),2,(x + 1))
1: loop(\(x,i).(x * loop(\(x,i).(1 + (x * i)),i,1)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(x + (i * i)),i,0)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(x + (((2 + i) * (1 + i)) div 2)),i,0)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(x + (if (x + ~2) <= 0 then 1 else x)),i,1)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),i,1)),i,1)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(4x + loop(\(x,i).3x,i,1)),i,1)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(4x + loop(\(x,i).5x,i,1)),i,1)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(loop(\(x,i).(x * i),i,1) + (x * (1 + i))),i,1)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(11x + 1),i,1)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(~9x + 1),i,1)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(~10x + 1),i,1)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(~8x + 1),i,1)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(~12x + 1),i,1)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(~4x + 1),i,1)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(~6x + 1),i,1)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(~2x + 1),i,1)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).((~x + 3) + i),i,1)),x,2)
1: loop(\(x,i).((x + 1) * loop(\(x,i).((x + 1) - (if x <= 0 then 2 else (1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x)))),2,x)),2,x)
1: loop(\(x,i).(x * loop(\(x,i).(~13x + 1),i,1)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(~5x + 1),i,1)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(~3x + 1),i,1)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(~3x + 2),i,1)),(x + ~1),1)
1: loop(\(x,i).(x * loop(\(x,i).(3x + ~1),i,2)),(x + ~1),1)
1: loop(\(x,i).(x * loop(\(x,i).(1 + (x * (2 + i)) - (2 * (x mod 2))),i,1)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(2x2 + ~1),2,2)),2,x)
1: loop(\(x,i).(x * loop(\(x,i).(2x + ~1),(x + ~2),x)),1,i)
1: loop(\(x,i).((x + 1) * loop(\(x,i).((x2 + 1) - loop(\(x,i).2x,x,2)),2,x)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(~7x + 1),i,1)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(~11x + 1),i,1)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(x + (2 * (i * i)) - i),i,0)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(x - (if x <= 0 then 0 else (~x + i))),x,x)),2x,2)
1: loop(\(x,i).(x * loop(\(x,i).3x,3,(x2 + x + 2))),2,1)
1: loop(\(x,i).(x2 * loop(\(x,i).3x,x,x)),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).((x + ~1) * loop(\(x,i).5x,(x + ~2),x)),1,(x + ~1))
1: loop(\(x,i).(x * loop(\(x,i).(3x2 + 3),2,1)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(2 * (1 + ((loop(\(x,i).7x,x,1) - loop(\(x,i).(3x + 2),x,0)) div (x + 1)))),1,i)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(x * (2 + (x mod 4))),i,1)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(x * (2 + (x mod 4))),i,1)),x,2)
1: loop(\(x,i).((x + 6) * loop(\(x,i).(2x + 2),x,2)),x,4)
1: loop(\(x,i).(x * loop(\(x,i).(2x + 2),x,2)),1,(x2 + 2x))
1: loop(\(x,i).(x * loop(\(x,i).(x2 + x),2,2)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(x2 + x),2,x)),(x + ~2),x)
1: loop(\(x,i).((x + 1) * loop(\(x,i).(x2 + x),(x div 4),1)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(x2 + 2x),1,compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(x2 + 2x),2,2)),x,1)
1: loop(\(x,i).((x + 1) * loop(\(x,i).(x2 + 2x),(~1 + i),1)),x,0)
1: loop(\(x,i).((x + 1) * loop(\(x,i).(x2 + 2x),(~1 + i),1)),x,1)
1: loop(\(x,i).((x + 1) * loop(\(x,i).(x2 + 2x),(~1 + i),1)),x,(x mod 2))
1: loop(\(x,i).(x * loop(\(x,i).(x * (2 + i)),4,3)),2,(x + 1))
1: loop(\(x,i).(2 * loop(\(x,i).~2x,(i mod 3),x)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(4x2 + ~x),1,loop(\(x,i).4x,(~1 + i),1))),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(4x + ~2),i,2)),(x + ~1),1)
1: loop(\(x,i).(x2 * loop(\(x,i).(2x2 + ~x),2,x)),x,5)
1: loop(\(x,i).(x * loop(\(x,i).(x2 + ~x),1,(2 + (5 * i)))),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(x2 + ~x),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i)))),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(x2 + ~x),1,(2 * (1 + (3 * i))))),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).3x,(2 * i),1))),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).3x,i,1))),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).5x,i,1))),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).7x,i,1))),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).13x,i,1))),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).19x,i,1))),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).17x,i,1))),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).11x,i,1))),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).23x,i,1))),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).15x,i,1))),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).10x,i,1))),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).14x,i,1))),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).21x,i,1))),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).22x,i,1))),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).24x,i,1))),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).8x,i,1))),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).12x,i,1))),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).20x,i,1))),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).18x,i,1))),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).4x,(2 * i),1))),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).4x,i,1))),(2x + ~1),1)
1: loop(\(x,i).(x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).4x,i,1))),(x + ~1),1)
1: loop(\(x,i).(x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).4x,i,1))),2x,1)
1: loop(\(x,i).(x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).6x,i,1))),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).2x,i,1))),(x + ~1),1)
1: loop(\(x,i).(x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).2x,i,1))),i,x)
1: loop(\(x,i).(x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).2x,i,2))),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(x * (x - i)),2,(2 + i))),x,1)
1: loop(\(x,i).(x * loop(\(x,i).(x * (x - i)),2,(x + ~2))),1,(x + ~2))
1: loop(\(x,i).(x * loop(\(x,i).(x * (x - i)),2,(x + ~2))),1,5x)
1: loop(\(x,i).((x + 1) * loop(\(x,i).5x2,2,2x)),x,2)
1: loop(\(x,i).(x * loop(\(x,i).(4x * ((~1 + (2 * i)) * (1 + (2 * i)))),i,1)),(x + ~1),1)
1: loop(\(x,i).(x * loop(\(x,i).x5,1,2x2)),x,3)
1: loop(\(x,i).(x * loop(\(x,i).(2 * (((2x * ((1 + (2 * i)) * (~1 + (2 * i)))) div (1 + i)) * i)),i,1)),(x + ~1),1)
1: loop(\(x,i).(x * loop(\(x,i).4x,(x div (1 + i)),2)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).6x,(2 * i),2)),x,2)
1: loop(\(x,i).(x * loop(\(x,i).2x2,i,2)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).4x2,i,4)),x,2)
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(3x + 1))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(3x + 2))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(5x + 4))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(5x + 1))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(5x + 2))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(5x + 3))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(7x + 1))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(9x + 7))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(10x + 3))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(8x + 3))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(7x + 3))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(10x + 6))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(11x + 5))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(9x + 1))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(9x + 2))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(9x + 8))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(10x + 1))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(12x + 9))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(8x + 5))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(9x + 4))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(12x + 7))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(7x + 6))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(11x + 10))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(8x + 1))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(12x + 1))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(4x + 1))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(6x + 1))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(6x + 2))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(2x + 1))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(11x + 7))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(11x + 1))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(7x + 2))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(11x + 2))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(4x + 3))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(9x + 5))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(10x + 7))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(11x + 3))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(11x + 4))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(8x + 7))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(12x + 11))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(11x + 8))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(7x + 4))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(12x + 5))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(11x + 6))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(6x + 5))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(10x + 9))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(7x + 5))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(11x + 9))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,3x)
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,5x)
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,7x)
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(9x + 3))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(6x + 4))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(9x + 6))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(10x + 8))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(10x + 2))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(10x + 4))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(8x + 2))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(12x + 3))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(12x + 2))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(12x + 4))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(4x + 2))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(6x + 3))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(10x + 5))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,11x)
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(8x + 6))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(12x + 10))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,9x)
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,10x)
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(12x + 8))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(8x + 4))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(12x + 6))
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,8x)
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,12x)
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,6x)
1: loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,loop(\(x,i).(2x + 1),x,0))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(3x + 1))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(3x + 2))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(5x + 4))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(5x + 1))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(5x + 2))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(9x + 7))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(10x + 3))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(8x + 3))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(7x + 3))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(10x + 6))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(11x + 5))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(9x + 1))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(9x + 2))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(9x + 8))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(10x + 1))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(12x + 9))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(8x + 5))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(9x + 4))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(12x + 7))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(7x + 6))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(11x + 10))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(8x + 1))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(12x + 1))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(4x + 1))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(6x + 1))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(6x + 2))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(11x + 2))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(~8x + ~6))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(~12x + ~10))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(4x + 3))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(9x + 5))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(10x + 7))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(8x + 7))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(12x + 11))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(12x + 5))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(6x + 5))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(10x + 9))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(~11x + ~9))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(~7x + ~5))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(~11x + ~7))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(~7x + ~1))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(~11x + ~1))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(~7x + ~2))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(~11x + ~3))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(~11x + ~4))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(~5x + ~3))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(~11x + ~8))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(~7x + ~4))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(~11x + ~6))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,~7x)
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,~11x)
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,5x)
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(9x + 3))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(6x + 4))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(9x + 6))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(10x + 8))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(10x + 2))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(10x + 4))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(8x + 2))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(12x + 3))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(12x + 2))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(12x + 4))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(4x + 2))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(6x + 3))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(10x + 5))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,9x)
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,10x)
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(12x + 8))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(8x + 4))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,(12x + 6))
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,12x)
1: loop(\(x,i).(x * loop(\(x,i).x3,2,x)),1,6x)
1: loop(\(x,i).(x * loop(\(x,i).2x,(~1 + i),x)),(x + ~1),2)
1: loop(\(x,i).(2 * loop(\(x,i).x2,1,(x2 * (x2 + loop(\(x,i).x3,2,x))))),x,2)
1: loop(\(x,i).(x * loop(\(x,i).x2,1,compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))),(x + 1),2)
1: loop(\(x,i).(x * loop(\(x,i).x2,2,(10x + 4))),x,8)
1: loop(\(x,i).(x * loop(\(x,i).x2,2,x5)),1,x2)
1: loop(\(x,i).(x * loop(\(x,i).x2,2,x3)),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(x * loop(\(x,i).x2,2,(2 * i))),x,(x + 1))
1: loop(\(x,i).(x * loop(\(x,i).x2,2,(2 * i))),x,x)
1: loop(\(x,i).(x * loop(\(x,i).x2,4,x)),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(2 * loop(\(x,i).x2,(~1 + i),2x)),x,1)
1: loop(\(x,i).(x * loop(\(x,i).x2,i,(1 + (2 * i)))),x,2)
1: loop(\(x,i).(x * loop(\(x,i).x2,i,(1 + i))),x,1)
1: loop(\(x,i).(x * loop(\(x,i).x2,i,x)),2,x)
1: loop(\(x,i).((x + ~1) * loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,x)),1,(x + ~1))
1: loop(\(x,i).(x * loop(\(x,i).((x * (i * (1 + i))) div 2),i,1)),x,1)
1: loop(\(x,i).2x,1,(1 + ((1 - (x2 mod (3x + 2))) div 3)))
1: loop(\(x,i).2x,1,(~1 + (2 * (1 + ((1 + (((1 + (loop(\(x,i).(x2 + 2x),1,loop(\(x,i).(1 + (x * (2 + i))),x,1)) div 2)) div 2) div 2)) div 2)))))
1: loop(\(x,i).2x,1,loop(\(x,i).(x * i),(x + ~1),1))
1: loop(\(x,i).2x,2,compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))
1: loop(\(x,i).2x,3,(~1 + (if x <= 0 then 2 else (x mod 2))))
1: loop(\(x,i).2x,((3x + 2) + (x div 3)),2)
1: loop(\(x,i).2x,(2x + (((3 * (x div 4)) div 2) + (x div 2))),1)
1: loop(\(x,i).2x,(1 + ((((x - (x mod (~3 + (x mod 2)))) div 2) div 2) + (if x <= 0 then 0 else 1))),1)
1: loop(\(x,i).2x,((x + 1) + (x div 2)),2)
1: loop(\(x,i).2x,((x + 2) + (x div 4)),2)
1: loop(\(x,i).2x,(1 + ((x div (2 + ((x div 2) div (1 + (x mod (2 + ((x mod 3) div 2))))))) + (x mod 2))),1)
1: loop(\(x,i).2x,(x + 4),x)
1: loop(\(x,i).2x,(4x + ((3 * (x div (4 - ((x * (x div 2)) mod 2)))) div 2) - (x div 2)),1)
1: loop(\(x,i).2x,(1 + ((1 + (8 mod (1 + (x div 2)))) div 2) - (x mod 2)),1)
1: loop(\(x,i).2x,(1 + ((1 + (8 mod (1 + (x div 2)))) div 2) - (x mod 2)),2)
1: loop(\(x,i).2x,(1 + (x div 2) - (2 * (x mod 2))),2)
1: loop(\(x,i).2x,(5x + 4),1)
1: loop(\(x,i).2x,(x + (2 * (2x + (x mod 2)))),2)
1: loop(\(x,i).2x,(x2 + ~2x + 1),x)
1: loop(\(x,i).2x,(x + 16),1)
1: loop(\(x,i).2x,((x3 + x2) + (x mod 2)),2)
1: loop(\(x,i).2x,(1 + (2 * ((4x + 1) div (x + 3)))),2)
1: loop(\(x,i).2x,(x + (2 * (((3 * (x + (x div 4))) - (x mod 2)) div 2))),1)
1: loop(\(x,i).2x,(1 + (2 * (2x mod 5))),(x div 2))
1: loop(\(x,i).2x,((2 * (x mod 2)) + ((x + 1) div 2)),1)
1: loop(\(x,i).2x,(x + (2 * (x mod 2))),x)
1: loop(\(x,i).2x,(2 + (3 * (x mod 2))),1)
1: loop(\(x,i).2x,(1 + (2 * loop(\(x,i).(x * (1 + ((~1 + loop(\(x,i).12x,(x + 1),1)) mod (x + 1)))),x,1))),1)
1: loop(\(x,i).2x,(1 + (i * i)),x)
1: loop(\(x,i).2x,(1 + (((x + 1) + (((x + 1) + ((3 * (1 + (if x <= 0 then 0 else (2 * (1 - (x div 2)))))) div 2)) div 2)) div 2)),1)
1: loop(\(x,i).2x,(x + ((~x2 + 2x + 1) div (x + 5))),1)
1: loop(\(x,i).2x,(x + ((x + (x div 2)) div 4)),2)
1: loop(\(x,i).2x,(1 + ((1 + (x div 3)) div (2 + (2x2 mod (1 + (x div 2)))))),1)
1: loop(\(x,i).2x,(((1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))) div 2) + (if x <= 0 then 0 else 1)),1)
1: loop(\(x,i).2x,(x + ((x + ((x div 4) mod 2)) div 2)),1)
1: loop(\(x,i).2x,(1 + ((loop(\(x,i).2x,(x div 2),1) + (x div 2)) div (x + 1))),1)
1: loop(\(x,i).2x,(1 + ((x + ~2) div (2 + (x div 2)))),1)
1: loop(\(x,i).2x,(1 + ((2 * (1 + ((1 + (((~1 + loop(\(x,i).2x,x,(if (x mod 4) <= 0 then 2 else (x mod 2)))) mod (x + 1)) div 2)) div 2))) div 3)),1)
1: loop(\(x,i).2x,(((3 * (2x + (x div 4))) div 2) + (x div 2)),1)
1: loop(\(x,i).2x,(((3 * (2x + (x div 4))) div 2) + (x div 2)),2)
1: loop(\(x,i).2x,(((x2 + ~x) div 2) + (x div 3)),1)
1: loop(\(x,i).2x,(((3 * (x div 4)) div 2) + (x div 2)),1)
1: loop(\(x,i).2x,(((3 * (x div 4)) div 2) + (x div 2)),2)
1: loop(\(x,i).2x,(1 + (loop(\(x,i).(2 * (x - (i mod 2))),x,2) div 3)),1)
1: loop(\(x,i).2x,(1 + (loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2)),x)
1: loop(\(x,i).2x,(x + (x div 2)),2)
1: loop(\(x,i).2x,(x + (x div 2)),(5 + (x mod 2)))
1: loop(\(x,i).2x,(x + (x div 2)),7)
1: loop(\(x,i).2x,(x + (x div 2)),(1 + (2 * (x mod 2))))
1: loop(\(x,i).2x,(1 + (x div (3 + ((x div 2) div 3)))),1)
1: loop(\(x,i).2x,(1 + (x div (1 + (2 * (1 + (((x2 + ~x + 2) mod (x + 4)) div 2)))))),1)
1: loop(\(x,i).2x,(1 + (x div (2 + ((x div 2) div (1 + (x mod (1 + (x mod (3 + (x mod 2)))))))))),1)
1: loop(\(x,i).2x,((x div (2 + (x div (2 + ((x2 + 2x) mod 6))))) + (x mod 2)),1)
1: loop(\(x,i).2x,(1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))),1)
1: loop(\(x,i).2x,(1 + (x div (1 + (loop(\(x,i).2x,x,2) mod (2x + 1))))),1)
1: loop(\(x,i).2x,(x + (x2 mod 3)),2)
1: loop(\(x,i).2x,(1 + (((4x + ~4) div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) mod 4)),2)
1: loop(\(x,i).2x,(1 + ((if (~x + (2 * (2 + ((x + 2) mod 4)))) <= 0 then 2 else 1) mod (x + 1))),2)
1: loop(\(x,i).2x,(x + (loop(\(x,i).(3x + ~1),x,2) mod (x + 1))),1)
1: loop(\(x,i).2x,(x + (if (~2 + (x div 2)) <= 0 then 1 else 2)),1)
1: loop(\(x,i).2x,((if (x mod 2) <= 0 then 2 else 0) + (x div 2)),2)
1: loop(\(x,i).2x,((if (x mod 2) <= 0 then 2 else 0) + (x div 2)),3)
1: loop(\(x,i).2x,(x + (if x <= 0 then 1 else loop(\(x,i).(x - (if (x mod 2) <= 0 then ((if x <= 0 then 2 else x) div 2) else 1)),x,x))),2)
1: loop(\(x,i).2x,(1 + loop(\(x,i).(x + (loop(\(x,i).(x * i),x,2) div (x + 1))),x,1)),1)
1: loop(\(x,i).2x,(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x - ((if x <= 0 then 2 else loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 2)))),x,(x + 1))),1)
1: loop(\(x,i).2x,(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))),1)
1: loop(\(x,i).2x,(x + loop(\(x,i).(x - (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else ((x + ~1) + loop(\(x,i).x2,2,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))))),x,x)),1)
1: loop(\(x,i).2x,(x + 1),~2)
1: loop(\(x,i).2x,(x + 2),4)
1: loop(\(x,i).2x,(x + 2),(2 + loop(\(x,i).2x,(x div 2),(2 + (x mod 2)))))
1: loop(\(x,i).2x,(x + 2),(x + 1))
1: loop(\(x,i).2x,(2 + i),x)
1: loop(\(x,i).2x,(0 - ((~x + 2) div (2 - (x div ~4)))),1)
1: loop(\(x,i).2x,(0 - (x div (2 * loop(\(x,i).(x div (~2 + (x mod 2))),x,(x + 1))))),1)
1: loop(\(x,i).2x,(0 - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)),3)
1: loop(\(x,i).2x,(1 - ((~x + ((x div ~2) mod 2)) div 3)),1)
1: loop(\(x,i).2x,(1 - ((x div 2) div ~6)),1)
1: loop(\(x,i).2x,(1 - loop(\(x,i).(x - (if (~x + 2) <= 0 then (2 + i) else 0)),x,x)),1)
1: loop(\(x,i).2x,(2 - ((~x + 1) div 3)),2)
1: loop(\(x,i).2x,(2 - (loop(\(x,i).(2x + i),x,0) mod (x + 1))),(x + 1))
1: loop(\(x,i).2x,(2 - (x mod 2)),(x div 2))
1: loop(\(x,i).2x,(~x + 2),(x + 5))
1: loop(\(x,i).2x,(~x + 2),loop(\(x,i).10x,x,3))
1: loop(\(x,i).2x,(~1 + (((3 * (2x + (x div 4))) div 2) + (x div 2))),1)
1: loop(\(x,i).2x,(~1 - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)),1)
1: loop(\(x,i).2x,(~1 - loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x)),1)
1: loop(\(x,i).2x,(0 + ((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3) - (x mod 2)),1)
1: loop(\(x,i).2x,(~3 + (x div 3)),1)
1: loop(\(x,i).2x,(x - ((x div ~2) + ((3 * (x div 4)) div 2))),1)
1: loop(\(x,i).2x,((2x + 2) - (if x <= 0 then 2 else (x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (1 + (x mod 2))))),x,(x + 1))))),1)
1: loop(\(x,i).2x,((3x + 6) - loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),x,x)),1)
1: loop(\(x,i).2x,(~1 + (2 * (x - (3 * (if x <= 0 then 0 else 2))))),1)
1: loop(\(x,i).2x,((2x2 + 4x) - ((x + 1) div 2)),1)
1: loop(\(x,i).2x,(~2 + (3 * ((x div 2) div 3))),1)
1: loop(\(x,i).2x,(~1 + (2 * ((if x <= 0 then 2 else (((x + ~2) * (x div 3)) mod (1 + (x div 2)))) div 2))),1)
1: loop(\(x,i).2x,(2x + ~1),(2x + 1))
1: loop(\(x,i).2x,(2x - loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),x,x)),1)
1: loop(\(x,i).2x,(x2 + ~1),x2)
1: loop(\(x,i).2x,(x2 + ~1),x)
1: loop(\(x,i).2x,(~1 + ((x + loop(\(x,i).((4x + 1) div (1 + i)),x,1)) div 2)),1)
1: loop(\(x,i).2x,(((x + 1) div 2) - (2 * ((x * (x div 2)) mod 2))),1)
1: loop(\(x,i).2x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),(if x <= 0 then 1 else 2))
1: loop(\(x,i).2x,(((x + ~1) div 2) - ((3 * (x div 4)) div 2)),1)
1: loop(\(x,i).2x,(((x + ~1) div 2) - ((3 * (x div 4)) div 2)),x)
1: loop(\(x,i).2x,(~1 + ((x - ((x2 div 2) div (x + 3))) div 2)),1)
1: loop(\(x,i).2x,(~1 + (2x div (3 + (x div 4)))),1)
1: loop(\(x,i).2x,(~1 + (((x + ~1) div 2) div 2)),x)
1: loop(\(x,i).2x,(~1 + (loop(\(x,i).(1 + (2 * (x + (i mod 2)))),x,0) div (x + 1))),1)
1: loop(\(x,i).2x,(~1 + (x div 2)),(1 + (x div 2)))
1: loop(\(x,i).2x,(~1 + (x div 2)),(x + 1))
1: loop(\(x,i).2x,(~1 + (x div 2)),(if x <= 0 then 0 else 1))
1: loop(\(x,i).2x,(~2 + (x div 2)),1)
1: loop(\(x,i).2x,((x div 2) - (2 * (x div 5))),1)
1: loop(\(x,i).2x,((x div 2) - ((3 * (x div 4)) div 2)),3)
1: loop(\(x,i).2x,((x div 2) - (x div 3)),1)
1: loop(\(x,i).2x,((x div 2) - ((x * (x div 2)) mod 2)),1)
1: loop(\(x,i).2x,((x div 2) - (x mod (2 - ((x div 2) mod 2)))),1)
1: loop(\(x,i).2x,((x div 2) - (if (x mod 2) <= 0 then 2 else 0)),1)
1: loop(\(x,i).2x,(~2 + (x div 3)),x)
1: loop(\(x,i).2x,(~1 + (x div (1 + ((~x + 2) mod 4)))),1)
1: loop(\(x,i).2x,(~1 + (x div (2 + ((~x + 2) mod 4)))),1)
1: loop(\(x,i).2x,(~1 + (2x2 mod (1 + (x div 3)))),1)
1: loop(\(x,i).2x,((x mod 2) - (x div ~2)),2)
1: loop(\(x,i).2x,((x mod 2) - loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),x,x)),1)
1: loop(\(x,i).2x,(~1 + (x mod 9)),1)
1: loop(\(x,i).2x,(~1 + (x mod (~1 + (2 * ((x * ((x + 1) mod 5)) div 8))))),1)
1: loop(\(x,i).2x,(~1 + (x mod 10)),1)
1: loop(\(x,i).2x,((if (x mod 2) <= 0 then 1 else x) - (x div 2)),1)
1: loop(\(x,i).2x,(~1 + (if x <= 0 then 0 else i)),1)
1: loop(\(x,i).2x,(~1 + loop(\(x,i).(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,x)),2,x)),1)
1: loop(\(x,i).2x,(~x + loop(\(x,i).2x,x,1)),2)
1: loop(\(x,i).2x,(~1 + loop(\(x,i).(x * i),(x div 5),1)),1)
1: loop(\(x,i).2x,(x + ~1),(5 - (x mod 2)))
1: loop(\(x,i).2x,(x + ~1),(3 + (x mod 2)))
1: loop(\(x,i).2x,(x + ~1),(4 + (x mod 2)))
1: loop(\(x,i).2x,(x + ~1),((x + 1) + loop(\(x,i).2x,x,2)))
1: loop(\(x,i).2x,(x + ~1),(3x + 4))
1: loop(\(x,i).2x,(x + ~1),(x + (3 * loop(\(x,i).2x,(x + ~1),x))))
1: loop(\(x,i).2x,(x + ~1),(2x + 1))
1: loop(\(x,i).2x,(x + ~1),(2 + ((x2 + 5x + 6) div 2)))
1: loop(\(x,i).2x,(x + ~1),(1 + ((x2 + x) div 2)))
1: loop(\(x,i).2x,(x + ~1),(x + ((x2 + 3x + 2) div 2)))
1: loop(\(x,i).2x,(x + ~1),(1 + (loop(\(x,i).(2x + 4),x,1) div 2)))
1: loop(\(x,i).2x,(x + ~1),(x + (loop(\(x,i).(x * i),x,2) div (x + 1))))
1: loop(\(x,i).2x,(x + ~1),(1 + (~x mod 4)))
1: loop(\(x,i).2x,(x + ~1),(1 + ((x * (x div 2)) mod 2)))
1: loop(\(x,i).2x,(x + ~1),(1 + (x mod 2)))
1: loop(\(x,i).2x,(x + ~1),(1 + (if (x + ~2) <= 0 then x else 1)))
1: loop(\(x,i).2x,(x + ~1),(x + loop(\(x,i).((x + 2) + i),x,2)))
1: loop(\(x,i).2x,(x + ~1),(~1 - ((x + loop(\(x,i).(3x + ~1),2x,1)) div 2)))
1: loop(\(x,i).2x,(x + ~1),(5x + ~1))
1: loop(\(x,i).2x,(x + ~1),(3x + 5))
1: loop(\(x,i).2x,(x + ~1),(2x - (x mod 3)))
1: loop(\(x,i).2x,(x + ~1),((x div 2) - ((x + ~1) div 3)))
1: loop(\(x,i).2x,(x + ~1),(~1 + (if x <= 0 then 2 else ((x2 + 5x) div 2))))
1: loop(\(x,i).2x,(x + ~1),(~1 + (if x <= 0 then 2 else x)))
1: loop(\(x,i).2x,(x + ~1),(~1 + (if x <= 0 then ~4 else 0)))
1: loop(\(x,i).2x,(x + ~1),(loop(\(x,i).(2x + 1),x,2) - (x mod 2)))
1: loop(\(x,i).2x,(x + ~1),(1 + loop(\(x,i).2x,x,1) - ((if (x mod 2) <= 0 then 2 else x) mod 4)))
1: loop(\(x,i).2x,(x + ~1),((loop(\(x,i).2x,x,1) + loop(\(x,i).(4x + 1),x,0)) - loop(\(x,i).3x,x,1)))
1: loop(\(x,i).2x,(x + ~1),x3)
1: loop(\(x,i).2x,(x + ~1),(loop(\(x,i).(3x + ~1),x,1) div 2))
1: loop(\(x,i).2x,(x + ~1),(loop(\(x,i).(3x + ~1),x,2) div 2))
1: loop(\(x,i).2x,(x + ~1),(x div 2))
1: loop(\(x,i).2x,(x + ~1),((x + 1) mod 2))
1: loop(\(x,i).2x,(x + ~1),(2x mod 3))
1: loop(\(x,i).2x,(x + ~1),(x2 mod 3))
1: loop(\(x,i).2x,(x + ~1),(x mod 2))
1: loop(\(x,i).2x,(x + ~1),(if (x mod 3) <= 0 then 1 else 2))
1: loop(\(x,i).2x,(x + ~1),(if (x mod (2 + (x mod 2))) <= 0 then 1 else 0))
1: loop(\(x,i).2x,(x + ~1),(if x <= 0 then 0 else loop(\(x,i).x2,1,loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(x + ~1),1))))
1: loop(\(x,i).2x,(x + ~1),(if x <= 0 then 1 else (7x + ~1)))
1: loop(\(x,i).2x,(x + ~1),(if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + (((x * (~1 + loop(\(x,i).(x2 + x),1,loop(\(x,i).(x * i),x,1)))) div 2) div 3)) div 2)) div 2)))))
1: loop(\(x,i).2x,(x + ~1),loop(\(x,i).((x + 1) + i),x,2))
1: loop(\(x,i).2x,(x + ~1),loop(\(x,i).(x + ((3 + i) * i)),x,0))
1: loop(\(x,i).2x,(x + ~1),loop(\(x,i).(x + ((((1 + i) * i) div 2) * (1 + i))),x,0))
1: loop(\(x,i).2x,(x + ~1),loop(\(x,i).(x + (i * i)),x,0))
1: loop(\(x,i).2x,(x + ~1),loop(\(x,i).(x + (i * i)),x,x2))
1: loop(\(x,i).2x,(x + ~1),loop(\(x,i).(2x + ~1),(x div 2),(x mod 2)))
1: loop(\(x,i).2x,(x + ~1),loop(\(x,i).(2x + ~1),x,x))
1: loop(\(x,i).2x,(x + ~1),loop(\(x,i).(~2x + 4),(x + ~1),1))
1: loop(\(x,i).2x,(x + ~1),loop(\(x,i).(4x + ~2),(x + ~1),1))
1: loop(\(x,i).2x,(x + ~1),loop(\(x,i).(2 * ((x + 1) - (2 * (i mod 2)))),x,1))
1: loop(\(x,i).2x,(x + ~1),loop(\(x,i).((x2 + ~x) div 2),2,(x + ~1)))
1: loop(\(x,i).2x,(x + ~1),loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))
1: loop(\(x,i).2x,(x + ~2),3)
1: loop(\(x,i).2x,(x + ~2),(~1 + (if x <= 0 then 2 else x)))
1: loop(\(x,i).2x,(x + ~2),(loop(\(x,i).(3x + ~1),x,1) - loop(\(x,i).2x,x,1)))
1: loop(\(x,i).2x,(x + ~2),(~x + loop(\(x,i).2x,(x + ~1),x)))
1: loop(\(x,i).2x,(x + ~2),(3 * i))
1: loop(\(x,i).2x,(x + ~2),(x2 + ~2x))
1: loop(\(x,i).2x,(x + ~2),(loop(\(x,i).2x,x,1) div 3))
1: loop(\(x,i).2x,(x + ~2),(1 mod (if x <= 0 then 2 else x)))
1: loop(\(x,i).2x,(x + ~2),(if x <= 0 then 0 else 1))
1: loop(\(x,i).2x,(x + ~2),(if x <= 0 then 1 else 2))
1: loop(\(x,i).2x,(x + ~2),(if x <= 0 then 1 else x))
1: loop(\(x,i).2x,(x + ~2),loop(\(x,i).(2x + i),(x + ~1),0))
1: loop(\(x,i).2x,(x + ~2),loop(\(x,i).(2x + i),(x + ~2),0))
1: loop(\(x,i).2x,(x + ~2),loop(\(x,i).5x,(x + 1),2))
1: loop(\(x,i).2x,(x + ~2),loop(\(x,i).(2x * i),x,2))
1: loop(\(x,i).2x,(x + ~2),loop(\(x,i).x2,(x + ~1),2))
1: loop(\(x,i).2x,(x + ~2),loop(\(x,i).((x + ~1) div 2),(x + ~2),1))
1: loop(\(x,i).2x,(x + ~2),loop(\(x,i).((x2 + ~x) div 2),2,(x + ~1)))
1: loop(\(x,i).2x,(x + ~3),1)
1: loop(\(x,i).2x,(x + ~3),2)
1: loop(\(x,i).2x,(x + ~4),(if x <= 0 then 1 else 2))
1: loop(\(x,i).2x,(x + ~5),1)
1: loop(\(x,i).2x,(x + ~5),x)
1: loop(\(x,i).2x,((x + ~1) - (2 * (2 + (x div 8)))),1)
1: loop(\(x,i).2x,((x + ~2) - ((2 * (x div 2)) div 3)),2)
1: loop(\(x,i).2x,((x + ~1) - (x mod 9)),1)
1: loop(\(x,i).2x,((x + 1) + ((3 * (x div (4 - ((x * (x div 2)) mod 2)))) div 2) - (x div 2)),1)
1: loop(\(x,i).2x,((x + 1) - (2 * (~x + (x mod 6)))),2)
1: loop(\(x,i).2x,((x + 1) - ((2 * ((x2 + ~1) div 2)) mod 3)),1)
1: loop(\(x,i).2x,(x + ~6),1)
1: loop(\(x,i).2x,(x - (3 * (2 + (x div 8)))),1)
1: loop(\(x,i).2x,(x - (3 * (((x + 1) div 2) div 2))),1)
1: loop(\(x,i).2x,(x - (2 * (x div 5))),1)
1: loop(\(x,i).2x,(x - (2 * (x mod 2))),loop(\(x,i).5x,x,1))
1: loop(\(x,i).2x,(x - (2 * (x mod 2))),loop(\(x,i).7x,x,1))
1: loop(\(x,i).2x,(x - (2 * (x mod 2))),loop(\(x,i).13x,x,1))
1: loop(\(x,i).2x,(x - (2 * (x mod 2))),loop(\(x,i).(2x * (1 + i)),x,1))
1: loop(\(x,i).2x,(x - ((~x + 2) div 2)),3)
1: loop(\(x,i).2x,(x - ((~x + 2) div 5)),1)
1: loop(\(x,i).2x,(x - (2x2 div ~3)),1)
1: loop(\(x,i).2x,(x - ((x * (x mod 2)) div 2)),1)
1: loop(\(x,i).2x,(x - (((~x3 + 3x2 + ~2x) div 2) div 3)),1)
1: loop(\(x,i).2x,(x - (x div (3 + ((x div 2) div 3)))),1)
1: loop(\(x,i).2x,(x - (if (x + ~2) <= 0 then 0 else 1)),1)
1: loop(\(x,i).2x,(x - (if ((x div ~2) mod 3) <= 0 then 0 else 1)),1)
1: loop(\(x,i).2x,(x - loop(\(x,i).(~1 + (if x <= 0 then (2 * i) else x)),x,0)),1)
1: loop(\(x,i).2x,(x - loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)),1)
1: loop(\(x,i).2x,(x - compr(\x.((x div 2) mod 2),(x div 4))),1)
1: loop(\(x,i).2x,(~1 + i),(x * (2 + i)))
1: loop(\(x,i).2x,(~1 + i),(x * i))
1: loop(\(x,i).2x,(~1 + i),(i mod 2))
1: loop(\(x,i).2x,(i - (2x div (1 + i))),1)
1: loop(\(x,i).2x,(i - (x mod 2)),x)
1: loop(\(x,i).2x,(~1 + compr(\x.(loop(\(x,i).(~2x + 2),x,2) mod (x + 2)),x)),1)
1: loop(\(x,i).2x,3x,loop(\(x,i).(x + (9x div (if i <= 0 then 1 else i))),x,1))
1: loop(\(x,i).2x,(x3 + 8x2 + x + 8),1)
1: loop(\(x,i).2x,(10x + 45),2)
1: loop(\(x,i).2x,(2x2 + 3x),1)
1: loop(\(x,i).2x,(5 * (1 + (2 * (2x - (x mod 4))))),2)
1: loop(\(x,i).2x,(2x2 + x),1)
1: loop(\(x,i).2x,(x2 + x),(x + 1))
1: loop(\(x,i).2x,(x2 + 2x),1)
1: loop(\(x,i).2x,(5 * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))),2)
1: loop(\(x,i).2x,(2 * (~2 + (x * (x mod 2)))),x)
1: loop(\(x,i).2x,(2x2 + ~x),loop(\(x,i).(2 * (2 - (i mod 2))),x,1))
1: loop(\(x,i).2x,(x2 + ~x),1)
1: loop(\(x,i).2x,(x2 + ~x),((x2 + 3x + 2) div 2))
1: loop(\(x,i).2x,(x2 + ~x),loop(\(x,i).(4x + 1),x,0))
1: loop(\(x,i).2x,(x2 + ~x),loop(\(x,i).(2x + 1),x,0))
1: loop(\(x,i).2x,(x2 + ~3x + 2),x)
1: loop(\(x,i).2x,((2x + 4) * (if x <= 0 then 1 else 2x)),2)
1: loop(\(x,i).2x,x3,1)
1: loop(\(x,i).2x,(7 * ((((x + 1) div 2) div 2) div 2)),1)
1: loop(\(x,i).2x,(x * (x mod 2)),1)
1: loop(\(x,i).2x,(loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (1 + (((x + 1) div 2) div 2))),1)
1: loop(\(x,i).2x,x2,2)
1: loop(\(x,i).2x,x2,(1 + loop(\(x,i).x2,1,(~1 + loop(\(x,i).2x,x,2)))))
1: loop(\(x,i).2x,x2,(~1 + loop(\(x,i).4x,x,2)))
1: loop(\(x,i).2x,x2,(~1 + loop(\(x,i).2x,x,2)))
1: loop(\(x,i).2x,x2,(if x <= 0 then 1 else (if (x + ~2) <= 0 then x else loop(\(x,i).x3,x,3))))
1: loop(\(x,i).2x,x2,loop(\(x,i).(2x + 1),x,0))
1: loop(\(x,i).2x,x2,loop(\(x,i).(4x + ~1),x,1))
1: loop(\(x,i).2x,x2,loop(\(x,i).3x,x,1))
1: loop(\(x,i).2x,x2,loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,1))
1: loop(\(x,i).2x,x2,loop(\(x,i).loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),i,x),x,1))
1: loop(\(x,i).2x,x2,x)
1: loop(\(x,i).2x,(i * i),x)
1: loop(\(x,i).2x,(4 div (1 + i)),x)
1: loop(\(x,i).2x,(((x + 1) + ((x div 2) mod 2)) div 2),1)
1: loop(\(x,i).2x,(((3 * (x + (x div 4))) + (x mod 2)) div 2),1)
1: loop(\(x,i).2x,((x2 + x + 1) div 3),1)
1: loop(\(x,i).2x,((x2 + 2x + 1) div 3),1)
1: loop(\(x,i).2x,((2x + 1) div (3 + (x div 4))),1)
1: loop(\(x,i).2x,((x2 + 1) div 2),1)
1: loop(\(x,i).2x,((2 + ((1 + (5 * (loop(\(x,i).2x,(x + ~1),1) div 3))) div 2)) div 2),1)
1: loop(\(x,i).2x,((x + ((1 + ((1 + ((((x + 1) * ((x + 2) + ((2 * (2x + ((x2 + 2x) div 4))) div 3))) div 2) div 2)) div 2)) div 2)) div 2),1)
1: loop(\(x,i).2x,((1 + ((4 * (1 + (2 * (2x - (x div 3))))) div 3)) div 3),1)
1: loop(\(x,i).2x,((((x3 + ~3x2 + 2x) div 3) + loop(\(x,i).2x,x,1)) div 2),1)
1: loop(\(x,i).2x,((1 + ((x * (x div 5)) div 3)) div 2),1)
1: loop(\(x,i).2x,((x + (x2 div 3)) div 2),2)
1: loop(\(x,i).2x,((1 + (((~1 + loop(\(x,i).2x,x,(if x <= 0 then 1 else (2 * (if (~2 + (x div 3)) <= 0 then 0 else 2))))) mod (x + 1)) div 2)) div 2),1)
1: loop(\(x,i).2x,((1 + (loop(\(x,i).(2x - ((x div 2) div 3)),x,1) div 2)) div 2),1)
1: loop(\(x,i).2x,((1 + (x div 2)) div 3),2)
1: loop(\(x,i).2x,((1 + (x div 3)) div 2),1)
1: loop(\(x,i).2x,((1 + (x div 3)) div 2),2)
1: loop(\(x,i).2x,((x + (x div 3)) div 5),1)
1: loop(\(x,i).2x,((1 + (x div (1 + (loop(\(x,i).2x,x,2) mod (2x + 1))))) div 2),1)
1: loop(\(x,i).2x,((x + 1) div 2),((x + 2) + (x div 2)))
1: loop(\(x,i).2x,((x + 1) div 2),(3 + (x mod 2)))
1: loop(\(x,i).2x,((x + 1) div 2),(1 + (2 * (x mod 2))))
1: loop(\(x,i).2x,((x + 1) div 2),(2x + 1))
1: loop(\(x,i).2x,((x + 1) div 2),(1 + (x div 2)))
1: loop(\(x,i).2x,((x + 1) div 2),(1 + (x mod 2)))
1: loop(\(x,i).2x,((x + 1) div 2),(2 + (x mod 2)))
1: loop(\(x,i).2x,((x + 1) div 2),x)
1: loop(\(x,i).2x,((x + 1) div 7),1)
1: loop(\(x,i).2x,((x + 1) div (2 + ((x div 2) div (1 + (2 mod (if ((x + 1) mod (2 + ((x div 2) mod 2))) <= 0 then x else 1)))))),1)
1: loop(\(x,i).2x,((1 + i) div 2),1)
1: loop(\(x,i).2x,((1 - loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x)) div 2),1)
1: loop(\(x,i).2x,(((3 * (x + (x div 4))) - (x mod 2)) div 2),1)
1: loop(\(x,i).2x,(((3 * (x + (x div 4))) - (x mod 2)) div 2),2)
1: loop(\(x,i).2x,((4x - (x div 2)) div (x + 2)),1)
1: loop(\(x,i).2x,((3x2 + ~x) div 2),1)
1: loop(\(x,i).2x,((x + ~1) div 2),2)
1: loop(\(x,i).2x,((x + ~1) div 2),(x div 2))
1: loop(\(x,i).2x,((x + ~2) div 3),1)
1: loop(\(x,i).2x,((x + ~2) div 5),1)
1: loop(\(x,i).2x,((x - (x div (1 + ((x div 2) div 3)))) div 3),1)
1: loop(\(x,i).2x,((x - (((x - (x div 4)) div 2) mod 2)) div 2),1)
1: loop(\(x,i).2x,((3 * (x + ((x div 2) div 3))) div 2),2)
1: loop(\(x,i).2x,((x2 + 2x) div 2),(3 + (x mod 2)))
1: loop(\(x,i).2x,((x * (x + i)) div (x + 1)),1)
1: loop(\(x,i).2x,((x2 + ~x) div 2),3)
1: loop(\(x,i).2x,((x2 + ~x) div 2),(x2 + x))
1: loop(\(x,i).2x,(((~1 + i) * i) div 2),1)
1: loop(\(x,i).2x,(((x + ~1) * ((x3 + ~3x2 + 2x) div 2)) div 2),1)
1: loop(\(x,i).2x,((3 * ((x div 2) div 3)) div 2),2)
1: loop(\(x,i).2x,((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2),1)
1: loop(\(x,i).2x,((x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) div 5),1)
1: loop(\(x,i).2x,((x * ((1 + (x div 2)) mod 2)) div 5),1)
1: loop(\(x,i).2x,(2x div 3),2)
1: loop(\(x,i).2x,(x2 div 2),1)
1: loop(\(x,i).2x,(x2 div 4),1)
1: loop(\(x,i).2x,(x2 div (x + 5)),1)
1: loop(\(x,i).2x,(((x + 1) div 2) div 2),1)
1: loop(\(x,i).2x,((((1 + (x mod 4)) * (1 + (x div 3))) div 2) div 2),1)
1: loop(\(x,i).2x,(((x2 + 3x + 2) div 2) div 3),1)
1: loop(\(x,i).2x,((x3 div 2) div (x + 3)),1)
1: loop(\(x,i).2x,(((2x + 1) mod (x - ((x + 1) mod 4))) div 2),1)
1: loop(\(x,i).2x,(((1 - (x div 2)) mod (x + 1)) div 3),1)
1: loop(\(x,i).2x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),2)
1: loop(\(x,i).2x,(((x * (x - (x mod 3))) mod 7) div 3),1)
1: loop(\(x,i).2x,((loop(\(x,i).(x * i),x,2) mod (x + 1)) div 2),2)
1: loop(\(x,i).2x,((x mod (2 + (x div 2))) div 2),1)
1: loop(\(x,i).2x,(x div 2),3)
1: loop(\(x,i).2x,(x div 2),(5 + (x mod 2)))
1: loop(\(x,i).2x,(x div 2),(5 - (x mod 2)))
1: loop(\(x,i).2x,(x div 2),(x + 3))
1: loop(\(x,i).2x,(x div 2),(1 + (if x <= 0 then 0 else 2) - (x mod 2)))
1: loop(\(x,i).2x,(x div 2),(1 + (2 * (1 + (x mod 2)))))
1: loop(\(x,i).2x,(x div 2),(1 + (2 * (((x + ~1) div 2) mod 2))))
1: loop(\(x,i).2x,(x div 2),(1 + (2 * (x mod 2))))
1: loop(\(x,i).2x,(x div 2),(1 + (if (x mod 2) <= 0 then 4 else 1)))
1: loop(\(x,i).2x,(x div 2),(2 + (if (x mod 2) <= 0 then ((if x <= 0 then 2 else x) div 2) else 2)))
1: loop(\(x,i).2x,(x div 2),(x + 1))
1: loop(\(x,i).2x,(x div 2),(2 - ((if x <= 0 then 1 else (((x - ((x mod 3) div 2)) div 2) div 2)) mod 2)))
1: loop(\(x,i).2x,(x div 2),(~1 + (3 * (2 + (x mod 2)))))
1: loop(\(x,i).2x,(x div 2),(~1 + (2 * (loop(\(x,i).2x,x,1) + (x mod 2)))))
1: loop(\(x,i).2x,(x div 2),((x + 1) - (x div ~2)))
1: loop(\(x,i).2x,(x div 2),((1 + loop(\(x,i).2x,x,2)) div 3))
1: loop(\(x,i).2x,(x div 2),((2 - (x mod 4)) div 2))
1: loop(\(x,i).2x,(x div 2),((x + ~1) div 2))
1: loop(\(x,i).2x,(x div 2),((if x <= 0 then 1 else x) mod 2))
1: loop(\(x,i).2x,(x div 2),(x mod 4))
1: loop(\(x,i).2x,(x div 2),(x mod ~2))
1: loop(\(x,i).2x,(x div 2),(if (x mod 2) <= 0 then 4 else 1))
1: loop(\(x,i).2x,(x div 2),(if x <= 0 then 0 else 1))
1: loop(\(x,i).2x,(x div 2),(if x <= 0 then 1 else (2 + (x mod 2))))
1: loop(\(x,i).2x,(x div 2),loop(\(x,i).x3,x,2))
1: loop(\(x,i).2x,(x div 2),x)
1: loop(\(x,i).2x,(x div 3),7)
1: loop(\(x,i).2x,(x div 3),(1 + (2 * (2 + (x mod 3)))))
1: loop(\(x,i).2x,(x div 3),(2 - ((x mod 3) mod 2)))
1: loop(\(x,i).2x,(x div 3),((~x + 1) mod 3))
1: loop(\(x,i).2x,(x div 4),(2 + (2 mod (x + 1))))
1: loop(\(x,i).2x,(x div 4),((1 + (x div 2)) mod 2))
1: loop(\(x,i).2x,(x div 4),((x * (x div 2)) mod 2))
1: loop(\(x,i).2x,(x div 5),1)
1: loop(\(x,i).2x,(x div (1 + (2 * (3 - (x mod 2))))),2)
1: loop(\(x,i).2x,(x div (2 + (x div (2 + ((~x + 1) mod (1 + (x mod 4))))))),1)
1: loop(\(x,i).2x,(x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))),1)
1: loop(\(x,i).2x,(x div (2 + (x mod (2 + (x mod 2))))),1)
1: loop(\(x,i).2x,(x div (2 - (x mod 2))),2)
1: loop(\(x,i).2x,(x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))),2)
1: loop(\(x,i).2x,(i div (2x + 1)),1)
1: loop(\(x,i).2x,((2 + loop(\(x,i).x2,2,3)) mod (x + 1)),1)
1: loop(\(x,i).2x,((x + 1) mod 4),2)
1: loop(\(x,i).2x,((x + 1) mod 4),x)
1: loop(\(x,i).2x,((x + 1) mod 5),1)
1: loop(\(x,i).2x,((x + 1) mod ((if (x mod 4) <= 0 then ~1 else 2) + (x div 2))),1)
1: loop(\(x,i).2x,((x + 2) mod 4),3)
1: loop(\(x,i).2x,(~x mod 4),1)
1: loop(\(x,i).2x,((~1 + loop(\(x,i).x2,1,(1 + (x mod (1 + (x div (1 + (loop(\(x,i).2x,x,2) mod (2x + 1))))))))) mod (x + 1)),1)
1: loop(\(x,i).2x,((x - (x div 5)) mod 5),1)
1: loop(\(x,i).2x,((x2 + x) mod (2x + 1)),1)
1: loop(\(x,i).2x,(16 mod (x + 1)),1)
1: loop(\(x,i).2x,(x3 mod 11),3)
1: loop(\(x,i).2x,(((x + (x div 2)) div 2) mod (2 + ((x div 2) mod 2))),1)
1: loop(\(x,i).2x,((loop(\(x,i).(x2 div 3),2,x) div (x + 1)) mod 3),1)
1: loop(\(x,i).2x,(x mod 4),x)
1: loop(\(x,i).2x,(x mod (1 + ((~2x + 4) mod (2 + (x div 4))))),1)
1: loop(\(x,i).2x,(x mod (1 + i)),2)
1: loop(\(x,i).2x,(x mod 6),1)
1: loop(\(x,i).2x,(x mod 8),1)
1: loop(\(x,i).2x,(x mod 12),1)
1: loop(\(x,i).2x,(x mod (2 * (2 - (x mod 2)))),2)
1: loop(\(x,i).2x,(if (~x + 2) <= 0 then x else 0),2)
1: loop(\(x,i).2x,(if (x + ~1) <= 0 then x else (2 + ((2 * (x div 2)) div 3))),1)
1: loop(\(x,i).2x,(if (x + ~2) <= 0 then 1 else (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)),1)
1: loop(\(x,i).2x,(if (x + ~2) <= 0 then x else ((2x + 1) - (x mod 2))),2)
1: loop(\(x,i).2x,(if (x + ~3) <= 0 then x else 2),1)
1: loop(\(x,i).2x,(if (~x2 + 4x) <= 0 then (x + ~1) else 1),1)
1: loop(\(x,i).2x,(if (loop(\(x,i).2x2,2x,2) div 2) <= 0 then 1 else (4x + 1)),2)
1: loop(\(x,i).2x,(if (8 mod (if x <= 0 then 1 else x)) <= 0 then x else 0),1)
1: loop(\(x,i).2x,(if (x mod 2) <= 0 then (1 + ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2) - (x mod 2)) else 1),1)
1: loop(\(x,i).2x,(if (x mod 2) <= 0 then (x div 2) else 0),1)
1: loop(\(x,i).2x,(if (x mod 2) <= 0 then x else 0),1)
1: loop(\(x,i).2x,(if (x mod 2) <= 0 then x else (~x + 2)),1)
1: loop(\(x,i).2x,(if (x mod 2) <= 0 then x else (~x + 2)),2)
1: loop(\(x,i).2x,(if (x mod 3) <= 0 then x else 0),2)
1: loop(\(x,i).2x,(if (x mod 3) <= 0 then x else 1),2)
1: loop(\(x,i).2x,(if x <= 0 then 2 else (1 + (2 * (x mod 2)))),loop(\(x,i).6x,x,1))
1: loop(\(x,i).2x,(if x <= 0 then 3 else (4x2 + 4x)),2)
1: loop(\(x,i).2x,loop(\(x,i).(x + (x div 2)),x,2),1)
1: loop(\(x,i).2x,loop(\(x,i).(x - (if ((~x + ~1) + i) <= 0 then i else 0)),x,x),1)
1: loop(\(x,i).2x,loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,i),1)
1: loop(\(x,i).2x,loop(\(x,i).(x * (2 + i)),(x mod 5),1),1)
1: loop(\(x,i).2x,loop(\(x,i).(2 * ((x + ~2) + i)),x,1),1)
1: loop(\(x,i).2x,loop(\(x,i).(x * i),(x mod 8),1),1)
1: loop(\(x,i).2x,loop(\(x,i).(x * i),i,1),1)
1: loop(\(x,i).2x,loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),i,1),1)
1: loop(\(x,i).2x,loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),i,i),1)
1: loop(\(x,i).2x,loop(\(x,i).(loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2),2,x),2)
1: loop(\(x,i).2x,loop(\(x,i).((x + 1) mod (2 + (i div 3))),x,0),1)
1: loop(\(x,i).2x,x,(8 + (((x3 + ~3x2 + 2x) div 2) div 3)))
1: loop(\(x,i).2x,x,(5 + (loop(\(x,i).3x,x,2) + loop(\(x,i).2x,x,1))))
1: loop(\(x,i).2x,x,(x + 7))
1: loop(\(x,i).2x,x,((x + 3) + ((1 + ((x + 1) * (x - (x div ~2)))) div 2)))
1: loop(\(x,i).2x,x,((2x + 4) + (loop(\(x,i).(2 * (x + i)),x,x) div 2)))
1: loop(\(x,i).2x,x,(3 + (loop(\(x,i).4x,x,2) + loop(\(x,i).2x,x,1))))
1: loop(\(x,i).2x,x,(3 + (loop(\(x,i).2x,x,1) + (x mod 2))))
1: loop(\(x,i).2x,x,(x + 5))
1: loop(\(x,i).2x,x,(x + 10))
1: loop(\(x,i).2x,x,(x + 34))
1: loop(\(x,i).2x,x,(4 + ((x div 2) div 3)))
1: loop(\(x,i).2x,x,((x + 2) + (x div 2)))
1: loop(\(x,i).2x,x,(3 + (x mod 2)))
1: loop(\(x,i).2x,x,(4 + (x mod 2)))
1: loop(\(x,i).2x,x,(1 + (loop(\(x,i).(3x + ~1),x,2) + loop(\(x,i).2x,x,1))))
1: loop(\(x,i).2x,x,(1 + (loop(\(x,i).3x,x,1) + loop(\(x,i).4x,x,1))))
1: loop(\(x,i).2x,x,(1 + (loop(\(x,i).3x,x,1) + loop(\(x,i).2x,x,1))))
1: loop(\(x,i).2x,x,(3 + loop(\(x,i).3x,x,2)))
1: loop(\(x,i).2x,x,(2 + (loop(\(x,i).2x,(x + 2),2) + (x mod 2))))
1: loop(\(x,i).2x,x,(1 + (loop(\(x,i).2x,(x div 2),(2 + (x mod 2))) + loop(\(x,i).2x,x,1))))
1: loop(\(x,i).2x,x,((x + 1) + loop(\(x,i).2x,x,3)))
1: loop(\(x,i).2x,x,(x + 4))
1: loop(\(x,i).2x,x,(3 - (x mod 2)))
1: loop(\(x,i).2x,x,(13 - (x mod 2)))
1: loop(\(x,i).2x,x,(1 + (2 * (2 + (if x <= 0 then 0 else 2))) - (x mod 2)))
1: loop(\(x,i).2x,x,7)
1: loop(\(x,i).2x,x,(3x + 1))
1: loop(\(x,i).2x,x,(3x + 2))
1: loop(\(x,i).2x,x,(x + 8))
1: loop(\(x,i).2x,x,(x + 12))
1: loop(\(x,i).2x,x,(5x + 2))
1: loop(\(x,i).2x,x,(x2 + 8x + 13))
1: loop(\(x,i).2x,x,(1 + (2 * (4 + loop(\(x,i).2x,x,1)))))
1: loop(\(x,i).2x,x,(x3 + 2x + 1))
1: loop(\(x,i).2x,x,(1 + (3 * (1 + ((x2 + ~x) div 2)))))
1: loop(\(x,i).2x,x,(2 + (3 * (2 + loop(\(x,i).(2x + (i mod 2)),x,2)))))
1: loop(\(x,i).2x,x,(x2 + x + 1))
1: loop(\(x,i).2x,x,(x2 + x + 2))
1: loop(\(x,i).2x,x,(x2 + 2x + 1))
1: loop(\(x,i).2x,x,(x2 + 2x + 2))
1: loop(\(x,i).2x,x,(1 + (2 * (1 + loop(\(x,i).(2x + 4),(x + ~1),0) - (x mod 2)))))
1: loop(\(x,i).2x,x,(1 + (x * (~1 + loop(\(x,i).(x * i),2x,1)))))
1: loop(\(x,i).2x,x,19)
1: loop(\(x,i).2x,x,17)
1: loop(\(x,i).2x,x,(x + 16))
1: loop(\(x,i).2x,x,(1 + (4 * (x mod 2))))
1: loop(\(x,i).2x,x,(1 + (4 * loop(\(x,i).(2x + 2),(x + 2),2))))
1: loop(\(x,i).2x,x,(4x + 1))
1: loop(\(x,i).2x,x,(1 + (3 * ((x2 + 3x + 2) div 2))))
1: loop(\(x,i).2x,x,(1 + (2 * (2x div 3))))
1: loop(\(x,i).2x,x,(1 + (2 * (x mod 2))))
1: loop(\(x,i).2x,x,(1 + (2 * (if (x mod 5) <= 0 then 0 else 2))))
1: loop(\(x,i).2x,x,(1 + (2 * loop(\(x,i).(2 + (if x <= 0 then 1 else 4x)),(x div 2),(x mod 2)))))
1: loop(\(x,i).2x,x,(1 + (loop(\(x,i).(3x + ~1),x,2) * loop(\(x,i).(2x + 2),x,0))))
1: loop(\(x,i).2x,x,(x2 + 2))
1: loop(\(x,i).2x,x,(1 + ((1 + ((loop(\(x,i).x3,1,(1 + loop(\(x,i).(x * i),x,1))) div 3) div 3)) div 3)))
1: loop(\(x,i).2x,x,(2 + ((x - ((~x + 1) mod 3)) div 2)))
1: loop(\(x,i).2x,x,(1 + ((2 * (1 + ((1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2)) div 2))) div 3)))
1: loop(\(x,i).2x,x,(1 + ((x2 + x) div 2)))
1: loop(\(x,i).2x,x,(2 + ((x2 + x) div 2)))
1: loop(\(x,i).2x,x,(x + ((x2 + 3x + 2) div 2)))
1: loop(\(x,i).2x,x,(1 + ((x2 + ~x) div 2)))
1: loop(\(x,i).2x,x,(2 + ((x2 + ~x) div 2)))
1: loop(\(x,i).2x,x,(1 + (((1 + (x div 2)) div 2) div 2)))
1: loop(\(x,i).2x,x,(1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))
1: loop(\(x,i).2x,x,(1 + ((x mod (2 + ((x div 2) div (1 + (x mod 2))))) div 2)))
1: loop(\(x,i).2x,x,(2 + (loop(\(x,i).(2x + 1),x,2) div 2)))
1: loop(\(x,i).2x,x,(1 + (x div (1 + (2 mod (1 + (x mod (2 + (x mod 2)))))))))
1: loop(\(x,i).2x,x,(1 + (x div 8)))
1: loop(\(x,i).2x,x,(1 + (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))))
1: loop(\(x,i).2x,x,(2 + (i div 2)))
1: loop(\(x,i).2x,x,(1 + (2 mod (x + 1))))
1: loop(\(x,i).2x,x,(1 + (3x mod (2 * (1 + (x mod 6))))))
1: loop(\(x,i).2x,x,(1 + (loop(\(x,i).6x,x,(x + 1)) mod (2x + 1))))
1: loop(\(x,i).2x,x,(x + (x mod 2)))
1: loop(\(x,i).2x,x,(1 + (x mod 3)))
1: loop(\(x,i).2x,x,(1 + (x mod (1 + ((x + 1) mod 3)))))
1: loop(\(x,i).2x,x,(1 + (x mod (2 + (x mod 2)))))
1: loop(\(x,i).2x,x,(1 + (x mod (2 + (x mod 4)))))
1: loop(\(x,i).2x,x,(1 + (x mod (1 + (x mod (1 + (x mod 4)))))))
1: loop(\(x,i).2x,x,(1 + (x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4))))))))
1: loop(\(x,i).2x,x,(x + (if (x + ~1) <= 0 then 1 else loop(\(x,i).((2x + 2) + i),x,0))))
1: loop(\(x,i).2x,x,(1 + (if (x + ~1) <= 0 then x else 2)))
1: loop(\(x,i).2x,x,(1 + (if (x + ~2) <= 0 then 2 else 0)))
1: loop(\(x,i).2x,x,(1 + (if ((x + 1) mod 3) <= 0 then 2x else 1)))
1: loop(\(x,i).2x,x,(1 + (if (2x mod (4 + ((x + 1) mod 4))) <= 0 then 4 else 0)))
1: loop(\(x,i).2x,x,(1 + (if ((x mod 7) mod 3) <= 0 then 2 else 0)))
1: loop(\(x,i).2x,x,(1 + (if (x mod 2) <= 0 then 2 else 0)))
1: loop(\(x,i).2x,x,(1 + (if (x mod 2) <= 0 then 2x else 1)))
1: loop(\(x,i).2x,x,(1 + (if (x mod 2) <= 0 then loop(\(x,i).2x,(x div 2),2) else 0)))
1: loop(\(x,i).2x,x,(1 + (if (x mod 3) <= 0 then 2 else 0)))
1: loop(\(x,i).2x,x,(1 + (if (x mod 3) <= 0 then x else 0)))
1: loop(\(x,i).2x,x,(2 + (if (x mod 4) <= 0 then 2 else 0)))
1: loop(\(x,i).2x,x,(1 + (if (x mod (2 + (x mod 2))) <= 0 then 1 else x)))
1: loop(\(x,i).2x,x,(1 + (if x <= 0 then 1 else 2)))
1: loop(\(x,i).2x,x,(2 + (if x <= 0 then 1 else 2)))
1: loop(\(x,i).2x,x,(1 + loop(\(x,i).(5x + 1),x,2)))
1: loop(\(x,i).2x,x,(loop(\(x,i).(2x + 1),x,2) + (x mod 2)))
1: loop(\(x,i).2x,x,(2 + loop(\(x,i).(3x + ~1),x,2)))
1: loop(\(x,i).2x,x,(1 + loop(\(x,i).3x,x,2)))
1: loop(\(x,i).2x,x,(1 + loop(\(x,i).5x,x,1)))
1: loop(\(x,i).2x,x,(1 + loop(\(x,i).(2x + 4),(x + 2),0)))
1: loop(\(x,i).2x,x,(1 + loop(\(x,i).(2x + 4),x,1)))
1: loop(\(x,i).2x,x,(1 + loop(\(x,i).(2x + 4),x,2)))
1: loop(\(x,i).2x,x,(2 + loop(\(x,i).(x * (2 + i)),(x div 2),2)))
1: loop(\(x,i).2x,x,(1 + loop(\(x,i).23x,x,1)))
1: loop(\(x,i).2x,x,(1 + loop(\(x,i).10x,x,1)))
1: loop(\(x,i).2x,x,(1 + loop(\(x,i).4x,2x,1)))
1: loop(\(x,i).2x,x,(1 + loop(\(x,i).2x,(x div 2),((x + 1) mod 2))))
1: loop(\(x,i).2x,x,(1 + loop(\(x,i).2x,x,2)))
1: loop(\(x,i).2x,x,(1 + loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (1 + (9 * (~1 + (5 * loop(\(x,i).7x,x,2)))))),x,3)))
1: loop(\(x,i).2x,x,(1 + compr(\x.(loop(\(x,i).(2x2 + 12x + 16),2,(x2 + 2x)) mod (x + 1)),x)))
1: loop(\(x,i).2x,x,(0 - (4 * (x mod 4))))
1: loop(\(x,i).2x,x,(0 - (loop(\(x,i).2x,x,1) div (x + 1))))
1: loop(\(x,i).2x,x,(1 - (2 * (2x div 3))))
1: loop(\(x,i).2x,x,(1 - (2 * ((x mod (2 + (x mod 5))) mod 2))))
1: loop(\(x,i).2x,x,(~2x + 1))
1: loop(\(x,i).2x,x,(1 - ((1 + (((3 * (1 + (loop(\(x,i).3x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 3))) div 2) div 2)) div 2)))
1: loop(\(x,i).2x,x,(1 - (2x div 3)))
1: loop(\(x,i).2x,x,(1 - (x div loop(\(x,i).(x * (0 - i)),x,1))))
1: loop(\(x,i).2x,x,(1 - ((~1 + loop(\(x,i).4x,x,2)) mod (x + 1))))
1: loop(\(x,i).2x,x,(1 - (x mod 3)))
1: loop(\(x,i).2x,x,(1 - (if x <= 0 then 2 else 0)))
1: loop(\(x,i).2x,x,(1 - loop(\(x,i).(~2x + (if x <= 0 then 2 else 0)),x,(x mod 2))))
1: loop(\(x,i).2x,x,(1 - loop(\(x,i).(2x - i),x,0)))
1: loop(\(x,i).2x,x,(1 - loop(\(x,i).(x - (2 * (~2x + (i mod 2)))),x,0)))
1: loop(\(x,i).2x,x,(1 - loop(\(x,i).3x,x,loop(\(x,i).(2x + ~6),x,0))))
1: loop(\(x,i).2x,x,(1 - loop(\(x,i).((x + 4) * i),x,0)))
1: loop(\(x,i).2x,x,(1 - loop(\(x,i).(2x + ~4),(x + ~2),0)))
1: loop(\(x,i).2x,x,(1 - loop(\(x,i).(2 * (x - (i mod 2))),x,(x mod 2))))
1: loop(\(x,i).2x,x,(~x + 1))
1: loop(\(x,i).2x,x,(3 + (2 * (2 + loop(\(x,i).4x,x,2))) - (x mod 2)))
1: loop(\(x,i).2x,x,(2 + loop(\(x,i).2x,(x + 2),2) - (x mod 2)))
1: loop(\(x,i).2x,x,(2 - ((x2 + x) div 2)))
1: loop(\(x,i).2x,x,(2 - ((2x + 2) mod 5)))
1: loop(\(x,i).2x,x,(2 - (((2 + loop(\(x,i).(x div (~2 + (x mod 2))),x,x)) div 2) mod 2)))
1: loop(\(x,i).2x,x,(2 - loop(\(x,i).(~x + ~1),(x div 2),(x mod 2))))
1: loop(\(x,i).2x,x,(2 - loop(\(x,i).(5x + ~2),x,0)))
1: loop(\(x,i).2x,x,(14 + (x mod 2)))
1: loop(\(x,i).2x,x,(1 + (if (x mod 3) <= 0 then 2 else 0) - (x mod 2)))
1: loop(\(x,i).2x,x,((x5 + ~1) + loop(\(x,i).8x,x,1)))
1: loop(\(x,i).2x,x,((x + 1) - loop(\(x,i).2x,(x + ~1),2)))
1: loop(\(x,i).2x,x,((x + 2) - ((x2 div 2) div 3)))
1: loop(\(x,i).2x,x,((~x + 1) - (x div 2)))
1: loop(\(x,i).2x,x,(~1 + loop(\(x,i).(2x + 2),x,2) - (if (x + ~2) <= 0 then x else 3)))
1: loop(\(x,i).2x,x,((~x + ~1) + loop(\(x,i).((x2 + 3x + 2) div 2),2,x)))
1: loop(\(x,i).2x,x,(8 - ((x + 2) div 3)))
1: loop(\(x,i).2x,x,(8 - (x mod 2)))
1: loop(\(x,i).2x,x,11)
1: loop(\(x,i).2x,x,(~2 + (3 * (x + (if (x + ~1) <= 0 then 2 else 1)))))
1: loop(\(x,i).2x,x,(3x + 5))
1: loop(\(x,i).2x,x,29)
1: loop(\(x,i).2x,x,(4x2 + 16x + 23))
1: loop(\(x,i).2x,x,(7x + 16))
1: loop(\(x,i).2x,x,(~1 + ((if (x mod 4) <= 0 then 2 else (x mod 2)) * (1 + (x div 4)))))
1: loop(\(x,i).2x,x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)))
1: loop(\(x,i).2x,x,(~2 + ((x2 + ~x) div 2)))
1: loop(\(x,i).2x,x,(~1 + ((2x3 + 3x2 + ~2x) div 3)))
1: loop(\(x,i).2x,x,(~1 + (~x mod 4)))
1: loop(\(x,i).2x,x,(~1 + ((2 * (1 + ((((x + 1) * (if (x mod 2) <= 0 then 1 else (2 * (1 + (8 * (x mod 2)))))) div 2) div 2))) mod 3)))
1: loop(\(x,i).2x,x,(~1 + (loop(\(x,i).2x,x,1) mod (~1 + (2 * (((~x + 2) div 2) mod 4))))))
1: loop(\(x,i).2x,x,(~2 + (x mod 2)))
1: loop(\(x,i).2x,x,(~1 + (x mod 2) - ((1 + loop(\(x,i).2x,((((1 + (8 mod (1 + (x div 2)))) div 2) + (if x <= 0 then 0 else 1)) - (x mod 2)),2)) div 3)))
1: loop(\(x,i).2x,x,(~1 + (x mod 4)))
1: loop(\(x,i).2x,x,((x mod 6) - (x mod 5)))
1: loop(\(x,i).2x,x,(~1 + (if ((x + 1) mod (3 - (x mod 2))) <= 0 then x else 1)))
1: loop(\(x,i).2x,x,(loop(\(x,i).(6x + 2),x,2) - loop(\(x,i).(3x + 1),x,1)))
1: loop(\(x,i).2x,x,(~1 + loop(\(x,i).(2x + (2x div (1 + (x div 2)))),x,1)))
1: loop(\(x,i).2x,x,(~1 + loop(\(x,i).(2x + (if (x + ~2) <= 0 then 1 else 4)),x,1)))
1: loop(\(x,i).2x,x,(loop(\(x,i).(3x + ~1),x,1) - loop(\(x,i).2x,x,1)))
1: loop(\(x,i).2x,x,(loop(\(x,i).(6x + ~1),x,2) - loop(\(x,i).2x,x,1)))
1: loop(\(x,i).2x,x,(loop(\(x,i).3x,x,1) - loop(\(x,i).(2x + 1),x,0)))
1: loop(\(x,i).2x,x,(~1 + loop(\(x,i).3x,x,2)))
1: loop(\(x,i).2x,x,(~1 + loop(\(x,i).3x,x,4)))
1: loop(\(x,i).2x,x,(~x3 + loop(\(x,i).5x,(x + 1),1)))
1: loop(\(x,i).2x,x,(~1 + loop(\(x,i).(2 * (x + (x div 2))),x,7)))
1: loop(\(x,i).2x,x,(~2 + loop(\(x,i).(2x + 4),(x + 1),1)))
1: loop(\(x,i).2x,x,(~1 + loop(\(x,i).(2 * (x + i)),x,2)))
1: loop(\(x,i).2x,x,(loop(\(x,i).10x,x,1) - loop(\(x,i).4x,x,1)))
1: loop(\(x,i).2x,x,(~1 + loop(\(x,i).4x,x,2)))
1: loop(\(x,i).2x,x,(loop(\(x,i).4x,x,(1 + loop(\(x,i).3x,x,1))) - loop(\(x,i).3x,x,1)))
1: loop(\(x,i).2x,x,(~2 + loop(\(x,i).2x2,2,2)))
1: loop(\(x,i).2x,x,(~1 + loop(\(x,i).2x,(x + 2),2)))
1: loop(\(x,i).2x,x,(~1 + loop(\(x,i).2x,(x * (x mod 2)),2)))
1: loop(\(x,i).2x,x,(~x + loop(\(x,i).2x,x,1)))
1: loop(\(x,i).2x,x,(~1 + loop(\(x,i).2x,x,2x)))
1: loop(\(x,i).2x,x,(loop(\(x,i).(x * i),x,1) - loop(\(x,i).(x * (~1 + (2 * i))),x,1)))
1: loop(\(x,i).2x,x,((x + ~1) + (if (x mod 5) <= 0 then 4 else 0)))
1: loop(\(x,i).2x,x,(x + 14))
1: loop(\(x,i).2x,x,(3x + ~4))
1: loop(\(x,i).2x,x,(5x + ~8))
1: loop(\(x,i).2x,x,10)
1: loop(\(x,i).2x,x,(x2 + 5x))
1: loop(\(x,i).2x,x,(3 * (1 + (loop(\(x,i).3x,x,2) + loop(\(x,i).2x,x,1)))))
1: loop(\(x,i).2x,x,(2 * (2 + (x mod 2))))
1: loop(\(x,i).2x,x,(3 * (1 + loop(\(x,i).2x,x,(3x + 3)))))
1: loop(\(x,i).2x,x,(3x + 3))
1: loop(\(x,i).2x,x,(2x + 4))
1: loop(\(x,i).2x,x,(2 * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: loop(\(x,i).2x,x,((1 - (2 * ((x div 2) mod 2))) * (1 - ((x div 2) mod 3))))
1: loop(\(x,i).2x,x,(2 * (~1 + (2x mod 3))))
1: loop(\(x,i).2x,x,(2 * (~x + loop(\(x,i).2x,x,1))))
1: loop(\(x,i).2x,x,(2 * (~1 + loop(\(x,i).x2,1,loop(\(x,i).(2x + 2),2x,2)))))
1: loop(\(x,i).2x,x,(2x3 + 6x2 + 8x + 4))
1: loop(\(x,i).2x,x,(2x3 + 6x2 + 4x))
1: loop(\(x,i).2x,x,(3 * ((x div 3) mod 2)))
1: loop(\(x,i).2x,x,(2 * (if (x mod 2) <= 0 then 10 else 1)))
1: loop(\(x,i).2x,x,(2 * (if (x mod 3) <= 0 then 0 else 2)))
1: loop(\(x,i).2x,x,(5 * loop(\(x,i).(3x + ~1),x,2)))
1: loop(\(x,i).2x,x,(3 * loop(\(x,i).(16x + 2),x,2)))
1: loop(\(x,i).2x,x,(2 * loop(\(x,i).x2,x,2)))
1: loop(\(x,i).2x,x,((x + 1) * loop(\(x,i).(x * i),3x,1)))
1: loop(\(x,i).2x,x,((1 + loop(\(x,i).(2x + (i mod 2)),x,1)) div 2))
1: loop(\(x,i).2x,x,((1 + loop(\(x,i).(2 * ((x + 2) - (x * (i mod 2)))),x,1)) div 2))
1: loop(\(x,i).2x,x,((~1 + loop(\(x,i).2x,(x + ~2),2)) div (x + 1)))
1: loop(\(x,i).2x,x,(((x + 2) - (2 mod (~x2 + 2))) div 2))
1: loop(\(x,i).2x,x,((~x2 + x) div 4))
1: loop(\(x,i).2x,x,((x3 + ~3x2 + 2x) div 3))
1: loop(\(x,i).2x,x,(((3x + 4) * loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,1)) div 2))
1: loop(\(x,i).2x,x,(loop(\(x,i).(x * (x - i)),2,(x + 3)) div 2))
1: loop(\(x,i).2x,x,(loop(\(x,i).2x3,(x + ~2),2) div 2))
1: loop(\(x,i).2x,x,(loop(\(x,i).((x2 + ~x) div 2),2,(x + 4)) div 3))
1: loop(\(x,i).2x,x,(loop(\(x,i).((x2 + ~x) div 2),2,(x + 1)) div 3))
1: loop(\(x,i).2x,x,(x div (2 - (x mod 2))))
1: loop(\(x,i).2x,x,(1 mod (if x <= 0 then 2 else x)))
1: loop(\(x,i).2x,x,((1 + (x div 2)) mod 2))
1: loop(\(x,i).2x,x,(x2 mod 3))
1: loop(\(x,i).2x,x,(((x + ~1) div 2) mod 2))
1: loop(\(x,i).2x,x,((if x <= 0 then 1 else x) mod 2))
1: loop(\(x,i).2x,x,(loop(\(x,i).2x,x,3) mod (x + 2)))
1: loop(\(x,i).2x,x,(if (2 - (x div 4)) <= 0 then 2x else 1))
1: loop(\(x,i).2x,x,(if (~x + 2) <= 0 then (x + (2 * (x mod 2))) else 1))
1: loop(\(x,i).2x,x,(if (~2 + (x div 3)) <= 0 then 2 else 1))
1: loop(\(x,i).2x,x,(if (x + ~1) <= 0 then 1 else (if (x mod 5) <= 0 then (2x + 2) else 0)))
1: loop(\(x,i).2x,x,(if (x + ~4) <= 0 then 1 else 2))
1: loop(\(x,i).2x,x,(if (~2 + i) <= 0 then 1 else x))
1: loop(\(x,i).2x,x,(if (x div 5) <= 0 then 1 else (2x2 + ~x)))
1: loop(\(x,i).2x,x,(if ((x + (x div 2)) mod 4) <= 0 then 2 else 1))
1: loop(\(x,i).2x,x,(if ((x + 1) mod (2 + ((~x + 2) mod 5))) <= 0 then 2 else 0))
1: loop(\(x,i).2x,x,(if ((x + ~1) mod 3) <= 0 then ~2 else 1))
1: loop(\(x,i).2x,x,(if (loop(\(x,i).2x,x,3) mod (x + 3)) <= 0 then 2 else 1))
1: loop(\(x,i).2x,x,(if (x mod 2) <= 0 then 2 else 0))
1: loop(\(x,i).2x,x,(if (x mod 2) <= 0 then 3 else x))
1: loop(\(x,i).2x,x,(if (x mod 2) <= 0 then ((x div 2) mod 2) else x))
1: loop(\(x,i).2x,x,(if (x mod 3) <= 0 then 0 else 2))
1: loop(\(x,i).2x,x,(if (x mod 4) <= 0 then 2 else 0))
1: loop(\(x,i).2x,x,(if (x mod 4) <= 0 then x else (x div 2)))
1: loop(\(x,i).2x,x,(if (x mod 7) <= 0 then 1 else 2))
1: loop(\(x,i).2x,x,(if (x mod 7) <= 0 then 2 else 1))
1: loop(\(x,i).2x,x,(if (x mod 13) <= 0 then 1 else 2))
1: loop(\(x,i).2x,x,(if (x mod 11) <= 0 then 1 else 2))
1: loop(\(x,i).2x,x,(if loop(\(x,i).(~x + i),x,2) <= 0 then 1 else 2))
1: loop(\(x,i).2x,x,(if x <= 0 then 0 else loop(\(x,i).(2x + ~4),x,1)))
1: loop(\(x,i).2x,x,(if x <= 0 then 1 else 4))
1: loop(\(x,i).2x,x,(if x <= 0 then 1 else (3 + loop(\(x,i).2x,x,2))))
1: loop(\(x,i).2x,x,(if x <= 0 then 1 else (x + (loop(\(x,i).2x,x,1) div (x + 2)))))
1: loop(\(x,i).2x,x,(if x <= 0 then 1 else ~2))
1: loop(\(x,i).2x,x,(if x <= 0 then 1 else 7x))
1: loop(\(x,i).2x,x,(if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + ((compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) + ((~1 + loop(\(x,i).2x,x,2)) div (x + 3))) div 2)) div 2)) div 2)))))
1: loop(\(x,i).2x,x,(if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + ((loop(\(x,i).(2x2 + ~x),1,loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1)) div 2) div 2)) div 2)) div 2)))))
1: loop(\(x,i).2x,x,(if x <= 0 then 1 else (2 * (1 + ((1 + ((1 + loop(\(x,i).(1 + loop(\(x,i).(1 + (x2 * i)),x,2)),x,0)) div 2)) div 2)))))
1: loop(\(x,i).2x,x,(if x <= 0 then 1 else (2 * (1 + ((1 + ((loop(\(x,i).2x,x,(~x3 + loop(\(x,i).5x,(x + 1),1))) div 2) div 2)) div 2)))))
1: loop(\(x,i).2x,x,(if x <= 0 then 1 else (2 * (((x3 + 9x2 + 14x) div 2) div 3))))
1: loop(\(x,i).2x,x,(if x <= 0 then 1 else (2 * ((if x <= 0 then 2 else (loop(\(x,i).2x,(x + ~2),x) - ((x + ~1) * (if x <= 0 then 1 else x)))) div 2))))
1: loop(\(x,i).2x,x,(if x <= 0 then 1 else (2 * (if (~2 + (x div 3)) <= 0 then 0 else 2))))
1: loop(\(x,i).2x,x,(if x <= 0 then 1 else (2 * loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),(x + ~1),~x))))
1: loop(\(x,i).2x,x,(if x <= 0 then 1 else (x * i)))
1: loop(\(x,i).2x,x,(if x <= 0 then 1 else (if (x mod 2) <= 0 then (~1 + (2 * (x mod 2))) else x)))
1: loop(\(x,i).2x,x,(if x <= 0 then 1 else (if (x mod 6) <= 0 then (x div 3) else x)))
1: loop(\(x,i).2x,x,(if x <= 0 then 1 else loop(\(x,i).2x,(x div 2),loop(\(x,i).x3,x,2))))
1: loop(\(x,i).2x,x,(if x <= 0 then 1 else loop(\(x,i).((x2 + ~x) div 2),3,x)))
1: loop(\(x,i).2x,x,(if x <= 0 then 2 else (2x + ~1)))
1: loop(\(x,i).2x,x,loop(\(x,i).(3x + (if (i mod 3) <= 0 then 1 else 2)),x,1))
1: loop(\(x,i).2x,x,loop(\(x,i).(5x + loop(\(x,i).(3x + 1),i,1)),x,1))
1: loop(\(x,i).2x,x,loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1))
1: loop(\(x,i).2x,x,loop(\(x,i).((5x + ~1) + loop(\(x,i).2x,i,2)),x,1))
1: loop(\(x,i).2x,x,loop(\(x,i).((x + 1) + i),x,2))
1: loop(\(x,i).2x,x,loop(\(x,i).((x + 1) + i),x,4))
1: loop(\(x,i).2x,x,loop(\(x,i).((x + 2) + i),x,2))
1: loop(\(x,i).2x,x,loop(\(x,i).((2x + 2) + i),x,2))
1: loop(\(x,i).2x,x,loop(\(x,i).(2x + i),x,2))
1: loop(\(x,i).2x,x,loop(\(x,i).(3x + 2),x,(2x + 4)))
1: loop(\(x,i).2x,x,loop(\(x,i).(5x + 1),x,1))
1: loop(\(x,i).2x,x,loop(\(x,i).(2x + 5),x,2))
1: loop(\(x,i).2x,x,loop(\(x,i).(x + ((2 - i) * (1 + i))),x,2))
1: loop(\(x,i).2x,x,loop(\(x,i).(1 + (2 * (x - (i mod 2)))),x,2))
1: loop(\(x,i).2x,x,loop(\(x,i).(10x + 1),x,2))
1: loop(\(x,i).2x,x,loop(\(x,i).(4x + 9),x,1))
1: loop(\(x,i).2x,x,loop(\(x,i).(5x + 8),(x + 1),0))
1: loop(\(x,i).2x,x,loop(\(x,i).(1 + (4 * ((x * i) div 2))),x,1))
1: loop(\(x,i).2x,x,loop(\(x,i).(4x + 1),x,1))
1: loop(\(x,i).2x,x,loop(\(x,i).(6x + 1),x,1))
1: loop(\(x,i).2x,x,loop(\(x,i).(1 + (2x * i)),x,1))
1: loop(\(x,i).2x,x,loop(\(x,i).(2x + 1),x,8))
1: loop(\(x,i).2x,x,loop(\(x,i).(1 + (x * i)),4,2))
1: loop(\(x,i).2x,x,loop(\(x,i).(x + (i * i)),(x + 1),0))
1: loop(\(x,i).2x,x,loop(\(x,i).(x + (i * i)),x,1))
1: loop(\(x,i).2x,x,loop(\(x,i).(x + (((4 + i) * (1 + i)) div 2)),x,2))
1: loop(\(x,i).2x,x,loop(\(x,i).(x + (x div 2)),x,4))
1: loop(\(x,i).2x,x,loop(\(x,i).(x + (if x <= 0 then 1 else ((x + 3) + ((x2 + 3x + 2) div 2)))),1,(x + 1)))
1: loop(\(x,i).2x,x,loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1))
1: loop(\(x,i).2x,x,loop(\(x,i).(6x + loop(\(x,i).(5x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1))
1: loop(\(x,i).2x,x,loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1))
1: loop(\(x,i).2x,x,loop(\(x,i).(6x + loop(\(x,i).(5x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1))
1: loop(\(x,i).2x,x,loop(\(x,i).(8x + loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),i,1)),x,1))
1: loop(\(x,i).2x,x,loop(\(x,i).(4x + loop(\(x,i).(3x + 1),i,1)),x,1))
1: loop(\(x,i).2x,x,loop(\(x,i).(4x + loop(\(x,i).(5x + 1),i,1)),x,1))
1: loop(\(x,i).2x,x,loop(\(x,i).(6x + loop(\(x,i).(5x + 1),i,1)),x,1))
1: loop(\(x,i).2x,x,loop(\(x,i).(6x + loop(\(x,i).(4x + 1),i,1)),x,1))
1: loop(\(x,i).2x,x,loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).(5x + loop(\(x,i).(3x + 1),i,1)),i,1)),i,1)),x,1))
1: loop(\(x,i).2x,x,loop(\(x,i).(6x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1))
1: loop(\(x,i).2x,x,loop(\(x,i).(6x + loop(\(x,i).(10x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1))
1: loop(\(x,i).2x,x,loop(\(x,i).(6x + loop(\(x,i).(4x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1))
1: loop(\(x,i).2x,x,loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1))
1: loop(\(x,i).2x,x,loop(\(x,i).(6x + loop(\(x,i).(2x + loop(\(x,i).(3x + 1),i,1)),i,1)),x,1))
1: loop(\(x,i).2x,x,loop(\(x,i).(6x + loop(\(x,i).(4x + loop(\(x,i).(5x + 1),i,1)),i,1)),x,1))
1: loop(\(x,i).2x,x,loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).(5x + 1),i,1)),i,1)),x,1))
1: loop(\(x,i).2x,x,loop(\(x,i).(6x + loop(\(x,i).(2x + loop(\(x,i).(5x + 1),i,1)),i,1)),x,1))
1: loop(\(x,i).2x,x,loop(\(x,i).(6x + loop(\(x,i).(4x + loop(\(x,i).(5x + loop(\(x,i).2x,i,1)),i,1)),i,1)),x,1))
1: loop(\(x,i).2x,x,loop(\(x,i).(12x + loop(\(x,i).(6x + loop(\(x,i).(4x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1))
1: loop(\(x,i).2x,x,loop(\(x,i).(6x + loop(\(x,i).(4x + loop(\(x,i).(2x + loop(\(x,i).3x,i,1)),i,1)),i,1)),x,1))
1: loop(\(x,i).2x,x,loop(\(x,i).(8x + loop(\(x,i).(~1 + (2 * (2x + loop(\(x,i).2x,i,1)))),i,1)),x,1))
1: loop(\(x,i).2x,x,loop(\(x,i).(6x + loop(\(x,i).(~1 + (2 * (2x + loop(\(x,i).2x,i,1)))),i,1)),x,1))
1: loop(\(x,i).2x,x,loop(\(x,i).(~2x + 1),x,loop(\(x,i).(~2x + 2),x,1)))
1: loop(\(x,i).2x,x,loop(\(x,i).(3x + ~1),(x + ~1),1))
1: loop(\(x,i).2x,x,loop(\(x,i).(3x + ~1),x,1))
1: loop(\(x,i).2x,x,loop(\(x,i).(3x + ~1),x,2))
1: loop(\(x,i).2x,x,loop(\(x,i).(5x + ~1),x,1))
1: loop(\(x,i).2x,x,loop(\(x,i).(4x + ~1),x,1))
1: loop(\(x,i).2x,x,loop(\(x,i).(~1 + (x * i)),x,4))
1: loop(\(x,i).2x,x,loop(\(x,i).((x + ~2) - ((1 + i) * i)),x,0))
1: loop(\(x,i).2x,x,loop(\(x,i).(2x - i),x,0))
1: loop(\(x,i).2x,x,loop(\(x,i).(5x + ~2),x,5))
1: loop(\(x,i).2x,x,loop(\(x,i).3x,5,2))
1: loop(\(x,i).2x,x,loop(\(x,i).3x,x2,1))
1: loop(\(x,i).2x,x,loop(\(x,i).(2x + 6),x,2))
1: loop(\(x,i).2x,x,loop(\(x,i).(3x + 12),x,0))
1: loop(\(x,i).2x,x,loop(\(x,i).(4x + 2),x,2))
1: loop(\(x,i).2x,x,loop(\(x,i).(x * (1 + (2 * i))),(~2 + i),1))
1: loop(\(x,i).2x,x,loop(\(x,i).(x * (1 + (2 * i))),(x div 2),1))
1: loop(\(x,i).2x,x,loop(\(x,i).(4 * (x + (5x div (if i <= 0 then 1 else i)))),x,1))
1: loop(\(x,i).2x,x,loop(\(x,i).(4 * (x + (7x div (if i <= 0 then 1 else i)))),x,1))
1: loop(\(x,i).2x,x,loop(\(x,i).(4 * (x + (6x div (if i <= 0 then 1 else i)))),x,1))
1: loop(\(x,i).2x,x,loop(\(x,i).(2x + 2),(x + ~1),2))
1: loop(\(x,i).2x,x,loop(\(x,i).(2x + 2),2x,2))
1: loop(\(x,i).2x,x,loop(\(x,i).(~2x + 2),x,1))
1: loop(\(x,i).2x,x,loop(\(x,i).(~3x + 3),x,1))
1: loop(\(x,i).2x,x,loop(\(x,i).(~4x + 4),x,1))
1: loop(\(x,i).2x,x,loop(\(x,i).(2 * (2x - (x div (1 + i)))),(2x + 1),2))
1: loop(\(x,i).2x,x,loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),(x div 2),1))
1: loop(\(x,i).2x,x,loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),(x div 2),(1 + (x mod 2))))
1: loop(\(x,i).2x,x,loop(\(x,i).(2x + ~2),x,0))
1: loop(\(x,i).2x,x,loop(\(x,i).(3x + ~3),x,2))
1: loop(\(x,i).2x,x,loop(\(x,i).(3x + ~6),x,0))
1: loop(\(x,i).2x,x,loop(\(x,i).(2x + ~6),x,0))
1: loop(\(x,i).2x,x,loop(\(x,i).(8x + 24),(x + 1),0))
1: loop(\(x,i).2x,x,loop(\(x,i).(x * ((~1 + (2 * i)) * i)),4x,1))
1: loop(\(x,i).2x,x,loop(\(x,i).2x2,x,1))
1: loop(\(x,i).2x,x,loop(\(x,i).(x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).2x,i,1))),(x + ~1),1))
1: loop(\(x,i).2x,x,loop(\(x,i).(2 * loop(\(x,i).x2,(~1 + i),2x)),x,1))
1: loop(\(x,i).2x,x,loop(\(x,i).2x,((x + 1) div 7),1))
1: loop(\(x,i).2x,x,loop(\(x,i).2x,(x div 2),(3 + (x mod 2))))
1: loop(\(x,i).2x,x,loop(\(x,i).x2,1,(x + ~4)))
1: loop(\(x,i).2x,x,loop(\(x,i).x2,(x + ~1),2))
1: loop(\(x,i).2x,x,loop(\(x,i).x2,x,3))
1: loop(\(x,i).2x,x,loop(\(x,i).(x * i),(2x2 + x),1))
1: loop(\(x,i).2x,x,loop(\(x,i).(x div 2),x,loop(\(x,i).(3x + 1),x,1)))
1: loop(\(x,i).2x,x,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 2)))
1: loop(\(x,i).2x,x,loop(\(x,i).loop(\(x,i).2x,x,(if x <= 0 then 2 else (2x + ~1))),1,3x))
1: loop(\(x,i).2x,x,loop(\(x,i).i,(2x - (x2 div 4)),1))
1: loop(\(x,i).2x,x,compr(\x.(x mod (1 + (4 * (x mod (2 + (x mod 2)))))),(x + 3)))
1: loop(\(x,i).2x,i,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)))
1: loop(\(x,i).2x,i,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i)))
1: loop(\(x,i).2x,i,2x2)
1: loop(\(x,i).2x,i,x3)
1: loop(\(x,i).2x,compr(\x.(x mod (1 + (4 * (x mod (2 + (x mod 2)))))),(x + 3)),1)
1: loop(\(x,i).2x,compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x),2)
1: loop(\(x,i).x2,1,(x + 7))
1: loop(\(x,i).x2,1,((x + 1) + ((if ((x div 2) mod 3) <= 0 then 0 else 1) + (x div 3))))
1: loop(\(x,i).x2,1,(x + 17))
1: loop(\(x,i).x2,1,(x + 19))
1: loop(\(x,i).x2,1,(x + 25))
1: loop(\(x,i).x2,1,((x + 2) + ((1 + ((((x + 1) div 5) * (x div 3)) div 2)) div 2)))
1: loop(\(x,i).x2,1,((x + 2) + ((x - ((x div 2) mod 2)) div 2)))
1: loop(\(x,i).x2,1,((x + 2) + (x div 2)))
1: loop(\(x,i).x2,1,((x + 1) + (x div 3)))
1: loop(\(x,i).x2,1,((x + 2) + (x div 5)))
1: loop(\(x,i).x2,1,((x + 1) + ((x div 5) + (x div 2))))
1: loop(\(x,i).x2,1,((x + 4) + (x div (4 + (x div 2)))))
1: loop(\(x,i).x2,1,((x + 2) + (x div 9)))
1: loop(\(x,i).x2,1,((x + 3) + (if (~4 + (x div 2)) <= 0 then 1 else 4)))
1: loop(\(x,i).x2,1,((x + 1) + (if (~2 + (x div 2)) <= 0 then 1 else 2)))
1: loop(\(x,i).x2,1,(~x + 5))
1: loop(\(x,i).x2,1,((2x + 1) - (5 * (x div ~2))))
1: loop(\(x,i).x2,1,((2x + 2) - (x mod 2)))
1: loop(\(x,i).x2,1,(1 + ((x + 2) div 3) - ((2 * (x div 3)) div 3)))
1: loop(\(x,i).x2,1,(1 + ((x2 + 6x + 8) div 2) - (x mod 2)))
1: loop(\(x,i).x2,1,((x + 3) - (x div ~2)))
1: loop(\(x,i).x2,1,(3x + 2))
1: loop(\(x,i).x2,1,(1 + (2 * ((2x + 1) + (x div 2)))))
1: loop(\(x,i).x2,1,(1 + (2 * ((x + 1) + (if (x + ~4) <= 0 then 1 else 2)))))
1: loop(\(x,i).x2,1,(9x + 7))
1: loop(\(x,i).x2,1,(x + 27))
1: loop(\(x,i).x2,1,(10x + 3))
1: loop(\(x,i).x2,1,(8x + 3))
1: loop(\(x,i).x2,1,(7x + 3))
1: loop(\(x,i).x2,1,(10x + 6))
1: loop(\(x,i).x2,1,(1 + (2 * (1 + ((2x + 1) mod (1 + (2x mod (3 + (x div 4)))))))))
1: loop(\(x,i).x2,1,(1 + ((x + 1) * (1 + loop(\(x,i).(x * (x + i)),2,4)))))
1: loop(\(x,i).x2,1,(x2 + x + 1))
1: loop(\(x,i).x2,1,(x2 + 2x + 4))
1: loop(\(x,i).x2,1,(1 + (2 * (1 + compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(x2 + 3x)),x)))))
1: loop(\(x,i).x2,1,(9x + ~5))
1: loop(\(x,i).x2,1,((23x + 23) + (x div 9)))
1: loop(\(x,i).x2,1,(1 + (2 * (x - ((2x + 2) div 7)))))
1: loop(\(x,i).x2,1,(1 + (2 * (x - ((x div 2) div ~2)))))
1: loop(\(x,i).x2,1,(1 + (2 * (x - (x div ~2)))))
1: loop(\(x,i).x2,1,(9x + 1))
1: loop(\(x,i).x2,1,(9x + 2))
1: loop(\(x,i).x2,1,(9x + 8))
1: loop(\(x,i).x2,1,(10x + 1))
1: loop(\(x,i).x2,1,(8x + 81))
1: loop(\(x,i).x2,1,(12x + 9))
1: loop(\(x,i).x2,1,(12x2 + 8x + 1))
1: loop(\(x,i).x2,1,(8x + 5))
1: loop(\(x,i).x2,1,(12x + 7))
1: loop(\(x,i).x2,1,(7x + 6))
1: loop(\(x,i).x2,1,(11x + 10))
1: loop(\(x,i).x2,1,(25x + 24))
1: loop(\(x,i).x2,1,(200x + 151))
1: loop(\(x,i).x2,1,(49x + 48))
1: loop(\(x,i).x2,1,(x7 + 3))
1: loop(\(x,i).x2,1,(8x + 1))
1: loop(\(x,i).x2,1,(12x + 1))
1: loop(\(x,i).x2,1,(1 + ((3x + 3) * loop(\(x,i).(x2 + 2x),2,6))))
1: loop(\(x,i).x2,1,(6x + 1))
1: loop(\(x,i).x2,1,(6x + 2))
1: loop(\(x,i).x2,1,(2x2 + 2x + 1))
1: loop(\(x,i).x2,1,((3 * (x div 2)) + (x div 3)))
1: loop(\(x,i).x2,1,(1 + (2 * loop(\(x,i).(x + (2 * (i * (1 + i)))),2x,x))))
1: loop(\(x,i).x2,1,(1 + ((x + 1) * loop(\(x,i).(x2 + 4x + 4),2,1))))
1: loop(\(x,i).x2,1,(x + ((x + 1) * loop(\(x,i).(x * (x + i)),2,4))))
1: loop(\(x,i).x2,1,(1 + ((x + 1) * loop(\(x,i).(7x2 + x + ~6),2,2))))
1: loop(\(x,i).x2,1,(1 + ((x + 1) * loop(\(x,i).(2x2 + 8x + 8),2,0))))
1: loop(\(x,i).x2,1,(3 + (x2 * loop(\(x,i).x3,2,x))))
1: loop(\(x,i).x2,1,(x + (3 * loop(\(x,i).x3,x2,2))))
1: loop(\(x,i).x2,1,(1 + (x * i)))
1: loop(\(x,i).x2,1,(1 + (2 * compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x2 + 2x + 1))),x))))
1: loop(\(x,i).x2,1,(1 + (2 * compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + x + ~1))),x))))
1: loop(\(x,i).x2,1,(1 + (2 * compr(\x.loop(\(x,i).(if ((x + 1) mod (1 + i)) <= 0 then 0 else x),x,2x),x))))
1: loop(\(x,i).x2,1,(1 + (((2x + 1) + (x2 div 4)) div (x + 2))))
1: loop(\(x,i).x2,1,(1 + ((2x + 1) div (3 + (x div 4)))))
1: loop(\(x,i).x2,1,(2 + ((2x + 1) div (3 + (x div 4)))))
1: loop(\(x,i).x2,1,(2 + ((4x + (x2 div 4)) div (x + 2))))
1: loop(\(x,i).x2,1,(1 + ((1 + i) div 2)))
1: loop(\(x,i).x2,1,(1 + ((~1 + loop(\(x,i).((x + 1) + (((1 + i) * i) div 2)),x,1)) div 2)))
1: loop(\(x,i).x2,1,(1 + ((x - (x div (11 - (x div 2)))) div 2)))
1: loop(\(x,i).x2,1,(((2 * (4 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3) + (if x <= 0 then 0 else 1)))
1: loop(\(x,i).x2,1,(1 + ((2 * (1 + (((1 + (loop(\(x,i).2x,(x + ~8),1) div 2)) div 2) div 2))) div 3)))
1: loop(\(x,i).x2,1,(1 + ((4 * (x + ((x div 2) div 3))) div 3)))
1: loop(\(x,i).x2,1,(x + ((x2 + 3x + 2) div 2)))
1: loop(\(x,i).x2,1,(1 + ((x2 + 2x) div 2)))
1: loop(\(x,i).x2,1,(1 + ((x2 + ~x) div 2)))
1: loop(\(x,i).x2,1,(2 + ((x3 + x2) div 2)))
1: loop(\(x,i).x2,1,(1 + (x2 div 3)))
1: loop(\(x,i).x2,1,(1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))
1: loop(\(x,i).x2,1,(1 + ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)))
1: loop(\(x,i).x2,1,(2 + ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3)))
1: loop(\(x,i).x2,1,(1 + ((x mod (1 + (31 mod (x + 1)))) div 3)))
1: loop(\(x,i).x2,1,((x div (4 + (x div 4))) + (if x <= 0 then 1 else 2)))
1: loop(\(x,i).x2,1,(1 + (x div (1 + (2 * (1 + (((x2 + ~x + 2) mod (x + 4)) div 2)))))))
1: loop(\(x,i).x2,1,(1 + (x div (1 + (x mod (1 + (x mod (1 + (x div (2 + (x div 5)))))))))))
1: loop(\(x,i).x2,1,(1 + (x div ((x + 2) div (2 + (loop(\(x,i).x3,2,2x) mod (x + 1)))))))
1: loop(\(x,i).x2,1,(1 + (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))))
1: loop(\(x,i).x2,1,(1 + (i div 3)))
1: loop(\(x,i).x2,1,(1 + ((~1 + i) mod 8)))
1: loop(\(x,i).x2,1,(1 + (x mod 9)))
1: loop(\(x,i).x2,1,(1 + (x mod (1 + ((x + 2) div 5)))))
1: loop(\(x,i).x2,1,(1 + (x mod (1 + (x mod (1 + (x div (2 + (x div 5)))))))))
1: loop(\(x,i).x2,1,(1 + (x mod (~1 + (2 * ((x * ((x + 1) mod 5)) div 8))))))
1: loop(\(x,i).x2,1,(x + (if (~2 + (x div 2)) <= 0 then 1 else 2)))
1: loop(\(x,i).x2,1,(x + (if (~2 + (x div 3)) <= 0 then 1 else 2)))
1: loop(\(x,i).x2,1,(1 + (if (~2 + (x mod (2 + (x mod 3)))) <= 0 then x else 3)))
1: loop(\(x,i).x2,1,(x + (if (x + ~2) <= 0 then 1 else 4)))
1: loop(\(x,i).x2,1,(1 + (if ((x div 2) mod 3) <= 0 then (x div 3) else 0)))
1: loop(\(x,i).x2,1,(1 + ((if (x mod 2) <= 0 then 2 else 0) + (x div 2))))
1: loop(\(x,i).x2,1,((if (x mod 2) <= 0 then 2 else 0) + (x div 2)))
1: loop(\(x,i).x2,1,(1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))
1: loop(\(x,i).x2,1,(1 + loop(\(x,i).(x + (if (x + ~2) <= 0 then 1 else x)),x,0)))
1: loop(\(x,i).x2,1,(1 + loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)))
1: loop(\(x,i).x2,1,(1 + loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,i)))
1: loop(\(x,i).x2,1,(1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x)))
1: loop(\(x,i).x2,1,(1 + loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)))
1: loop(\(x,i).x2,1,(2 + loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)))
1: loop(\(x,i).x2,1,(1 + loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x)))
1: loop(\(x,i).x2,1,(1 + loop(\(x,i).3x,x,2)))
1: loop(\(x,i).x2,1,(1 + loop(\(x,i).(2 * ((5x + 1) + i)),x,2)))
1: loop(\(x,i).x2,1,(1 + loop(\(x,i).(2x + 4),x,4)))
1: loop(\(x,i).x2,1,(x + loop(\(x,i).(x * (1 + i)),4,(x + 1))))
1: loop(\(x,i).x2,1,(1 + loop(\(x,i).(10x + ~8),x,2)))
1: loop(\(x,i).x2,1,(1 + loop(\(x,i).10x,x,1)))
1: loop(\(x,i).x2,1,(2 + loop(\(x,i).4x,x,2)))
1: loop(\(x,i).x2,1,(1 + loop(\(x,i).~4x,x,1)))
1: loop(\(x,i).x2,1,(1 + loop(\(x,i).2x,x,1)))
1: loop(\(x,i).x2,1,(1 + loop(\(x,i).2x,compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),4)))
1: loop(\(x,i).x2,1,(1 + loop(\(x,i).x2,x,2)))
1: loop(\(x,i).x2,1,(1 + compr(\x.(1 - (loop(\(x,i).(x2 + 2x),2,2) mod (x + 1))),x)))
1: loop(\(x,i).x2,1,(1 + compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),(x + 1))))
1: loop(\(x,i).x2,1,(2 + compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),(x + 1))))
1: loop(\(x,i).x2,1,(1 + compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + 2x + 2))),x)))
1: loop(\(x,i).x2,1,(1 + compr(\x.(~1 + (x mod (~1 + (loop(\(x,i).2x,x,x) mod (x + 1))))),x)))
1: loop(\(x,i).x2,1,(1 + compr(\x.(loop(\(x,i).(x3 + 2x),2,2x) mod (x + 1)),x)))
1: loop(\(x,i).x2,1,(1 + compr(\x.(loop(\(x,i).(x * (1 + (i div 2))),x,1) mod (x + 1)),x)))
1: loop(\(x,i).x2,1,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x)))
1: loop(\(x,i).x2,1,(3 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).x2,1,(1 + compr(\x.(loop(\(x,i).(~2x + 4),x,1) mod (x + 1)),x)))
1: loop(\(x,i).x2,1,(1 + compr(\x.(loop(\(x,i).4x2,2,3) mod (x + 1)),x)))
1: loop(\(x,i).x2,1,(1 + compr(\x.(loop(\(x,i).x2,2,(~1 + (loop(\(x,i).2x,x,1) mod (x + 1)))) mod (x + 1)),x)))
1: loop(\(x,i).x2,1,(1 + compr(\x.(loop(\(x,i).x2,2,(4 * (2 + (x mod 2)))) mod (x + 1)),x)))
1: loop(\(x,i).x2,1,(1 - (2 * ((2x + 1) - (x mod (1 + ((x2 + ~x) mod 8)))))))
1: loop(\(x,i).x2,1,(1 - (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + ((2 * ((~x + 2) div 2)) div 3)))))
1: loop(\(x,i).x2,1,(1 - ((~x + ((x mod (2 + (x div 2))) div 2)) div 2)))
1: loop(\(x,i).x2,1,(1 - loop(\(x,i).(~3x + 6),x,0)))
1: loop(\(x,i).x2,1,(1 - loop(\(x,i).(12x + ~6),(x + 1),0)))
1: loop(\(x,i).x2,1,(11x + 2))
1: loop(\(x,i).x2,1,(~8x + ~6))
1: loop(\(x,i).x2,1,(~12x + ~10))
1: loop(\(x,i).x2,1,(2 - ((~x + (x mod 2)) div 5)))
1: loop(\(x,i).x2,1,(2 - ((x2 + 3x) div 2)))
1: loop(\(x,i).x2,1,(2 - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)))
1: loop(\(x,i).x2,1,(8 + loop(\(x,i).2x,x,1) - (x mod 2)))
1: loop(\(x,i).x2,1,((x + 2) - ((~x + (x mod 2)) div 5)))
1: loop(\(x,i).x2,1,((x + 2) - ((~2x + 2) div 5)))
1: loop(\(x,i).x2,1,((~x + ~2) + (loop(\(x,i).(2 + ((x2 + x) div 2)),2,(x + 2)) div 3)))
1: loop(\(x,i).x2,1,(~2 + (x mod 2) - (x div 2)))
1: loop(\(x,i).x2,1,((x + ~1) - (4 * (x div 5))))
1: loop(\(x,i).x2,1,(~1 + (2 * ((x + 1) + ((2 * (1 + (((1 + (loop(\(x,i).(2x + 1),x,loop(\(x,i).3x,x,1)) div 3)) div 2) div 2))) div 3)))))
1: loop(\(x,i).x2,1,(~1 + (2 * ((x + 1) + ((2 * (1 + (((loop(\(x,i).(x2 + x),1,loop(\(x,i).(x * i),x,1)) - loop(\(x,i).3x,x,1)) div 2) div 2))) div 3)))))
1: loop(\(x,i).x2,1,(x2 + 5x + 3))
1: loop(\(x,i).x2,1,(9x + 5))
1: loop(\(x,i).x2,1,(10x + 7))
1: loop(\(x,i).x2,1,(2x2 + x + ~1))
1: loop(\(x,i).x2,1,(~1 + (2 * (2 + (if (x + ~2) <= 0 then x else (x + 2))))))
1: loop(\(x,i).x2,1,((2x + 4) - (2x div 3)))
1: loop(\(x,i).x2,1,(~2x2 + 2x + ~1))
1: loop(\(x,i).x2,1,(25x + ~7))
1: loop(\(x,i).x2,1,(~14x + ~1))
1: loop(\(x,i).x2,1,(8x + 7))
1: loop(\(x,i).x2,1,(12x + 11))
1: loop(\(x,i).x2,1,(12x + 5))
1: loop(\(x,i).x2,1,(6x + 5))
1: loop(\(x,i).x2,1,(10x + 9))
1: loop(\(x,i).x2,1,(200x + 49))
1: loop(\(x,i).x2,1,(50x + 49))
1: loop(\(x,i).x2,1,(~1 + ((3x + 3) * loop(\(x,i).(x2 + 2x),2,6))))
1: loop(\(x,i).x2,1,(4x + ~1))
1: loop(\(x,i).x2,1,(6x + ~1))
1: loop(\(x,i).x2,1,(~1 + (2 * ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 + (x div 2))) div 2))))
1: loop(\(x,i).x2,1,((2 * (x div 2)) - (((x + 1) div 2) div 2)))
1: loop(\(x,i).x2,1,(~1 + (9 * (x mod 5))))
1: loop(\(x,i).x2,1,(~1 + (2 * loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x))))
1: loop(\(x,i).x2,1,(~1 + (3 * loop(\(x,i).(10x + ~8),x,2))))
1: loop(\(x,i).x2,1,(~1 + ((x + 1) * loop(\(x,i).(7x2 + x + ~6),2,2))))
1: loop(\(x,i).x2,1,(~1 + ((x + 1) * loop(\(x,i).(2x2 + 8x + 8),2,0))))
1: loop(\(x,i).x2,1,(x2 - (x2 div 4)))
1: loop(\(x,i).x2,1,(~1 + ((~x + (x mod 2)) div 5)))
1: loop(\(x,i).x2,1,(~1 + ((x2 + ~2x) div 2)))
1: loop(\(x,i).x2,1,(~1 + (((x div 2) div ~2) div 2)))
1: loop(\(x,i).x2,1,(~1 + (loop(\(x,i).(x * (2 + i)),(x + 2),1) div 2)))
1: loop(\(x,i).x2,1,(~2 + (x div 2)))
1: loop(\(x,i).x2,1,((x div 2) - (x mod 2)))
1: loop(\(x,i).x2,1,((2x + ~1) + (x div 3)))
1: loop(\(x,i).x2,1,(~1 + (x div (1 + (x mod (1 + (x mod (1 + (x div (2 * (2 - (x mod 2))))))))))))
1: loop(\(x,i).x2,1,((~4x + ~2) + (x div ~2)))
1: loop(\(x,i).x2,1,(~1 + (x div ~4)))
1: loop(\(x,i).x2,1,(~1 + (x div (~2 + ((~x + 2) div 4)))))
1: loop(\(x,i).x2,1,(~1 + ((x2 * loop(\(x,i).x3,2,x)) mod 23)))
1: loop(\(x,i).x2,1,((x mod 2) - ((~x + 2) div 2)))
1: loop(\(x,i).x2,1,((x mod 3) - (x mod 5)))
1: loop(\(x,i).x2,1,(loop(\(x,i).(3x + ~1),(x + ~1),1) - loop(\(x,i).2x,(x + ~1),1)))
1: loop(\(x,i).x2,1,(~1 + loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)))
1: loop(\(x,i).x2,1,(~1 + loop(\(x,i).~2x,x,2)))
1: loop(\(x,i).x2,1,(~1 + loop(\(x,i).~2x,x,4)))
1: loop(\(x,i).x2,1,(~2 + loop(\(x,i).12x,2,(x + 1))))
1: loop(\(x,i).x2,1,(~1 + loop(\(x,i).2x,compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),4)))
1: loop(\(x,i).x2,1,(~1 + loop(\(x,i).x2,x,4)))
1: loop(\(x,i).x2,1,((~x + ~2) + loop(\(x,i).(x * i),x,1)))
1: loop(\(x,i).x2,1,(~1 + loop(\(x,i).(x * i),x,2)))
1: loop(\(x,i).x2,1,(~1 + loop(\(x,i).(x * i),x,3)))
1: loop(\(x,i).x2,1,(x + ~4))
1: loop(\(x,i).x2,1,((x + ~1) - (3 * (2x + (x mod 2)))))
1: loop(\(x,i).x2,1,(~11x + ~9))
1: loop(\(x,i).x2,1,(~7x + ~5))
1: loop(\(x,i).x2,1,(~11x + ~7))
1: loop(\(x,i).x2,1,(~7x + ~1))
1: loop(\(x,i).x2,1,(~11x + ~1))
1: loop(\(x,i).x2,1,(x + ~39))
1: loop(\(x,i).x2,1,(x + 29))
1: loop(\(x,i).x2,1,((x + 1) - (2 * ((x + 1) div 3))))
1: loop(\(x,i).x2,1,((x + 1) - (3 * (((x + 1) div 2) div 2))))
1: loop(\(x,i).x2,1,((x + 1) - (2 * (x div 3))))
1: loop(\(x,i).x2,1,((x + 1) - (2 div (x + ~16))))
1: loop(\(x,i).x2,1,((x + 1) - ((~2x + 2) div 5)))
1: loop(\(x,i).x2,1,((x + 1) - (2x div 7)))
1: loop(\(x,i).x2,1,((x + 1) - (x div ~9)))
1: loop(\(x,i).x2,1,((x + 1) - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)))
1: loop(\(x,i).x2,1,(~8x + ~87))
1: loop(\(x,i).x2,1,(~7x + ~2))
1: loop(\(x,i).x2,1,(~11x + ~3))
1: loop(\(x,i).x2,1,(~11x + ~4))
1: loop(\(x,i).x2,1,(~5x + ~3))
1: loop(\(x,i).x2,1,(x + 21))
1: loop(\(x,i).x2,1,(x + ~16))
1: loop(\(x,i).x2,1,(x + ~40))
1: loop(\(x,i).x2,1,(~11x + ~8))
1: loop(\(x,i).x2,1,(~49x + ~10))
1: loop(\(x,i).x2,1,(~7x + ~4))
1: loop(\(x,i).x2,1,(~11x + ~6))
1: loop(\(x,i).x2,1,(9x + ~4))
1: loop(\(x,i).x2,1,(25x + ~18))
1: loop(\(x,i).x2,1,(~2x3 + x))
1: loop(\(x,i).x2,1,(x - (4 div (~4 + (x div 4)))))
1: loop(\(x,i).x2,1,(x - ((x + ~2) div 5)))
1: loop(\(x,i).x2,1,(x - ((x - ((x + (x div 2)) div 4)) div 2)))
1: loop(\(x,i).x2,1,(x - ((x2 + 2x) div 8)))
1: loop(\(x,i).x2,1,(compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) - compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)))
1: loop(\(x,i).x2,1,(2 * ((x + 2) + (3 * (x div 2)))))
1: loop(\(x,i).x2,1,(3x + 9))
1: loop(\(x,i).x2,1,(2 * (2x + i)))
1: loop(\(x,i).x2,1,(2 * ((2x + 1) - (x div ~2))))
1: loop(\(x,i).x2,1,(9x + 3))
1: loop(\(x,i).x2,1,(6x + 4))
1: loop(\(x,i).x2,1,(9x + 6))
1: loop(\(x,i).x2,1,(13x + 13))
1: loop(\(x,i).x2,1,(10x + 8))
1: loop(\(x,i).x2,1,(10x + 2))
1: loop(\(x,i).x2,1,(10x + 4))
1: loop(\(x,i).x2,1,((2x + 3) * (1 + (x div 2))))
1: loop(\(x,i).x2,1,(8x + 2))
1: loop(\(x,i).x2,1,(12x + 3))
1: loop(\(x,i).x2,1,(12x + 2))
1: loop(\(x,i).x2,1,(12x + 4))
1: loop(\(x,i).x2,1,(6x + 3))
1: loop(\(x,i).x2,1,(10x + 5))
1: loop(\(x,i).x2,1,(3 * (x + (x div 4))))
1: loop(\(x,i).x2,1,(3 * (x + (x mod 2))))
1: loop(\(x,i).x2,1,(x2 * (x2 + loop(\(x,i).x3,2,x))))
1: loop(\(x,i).x2,1,((x + 1) * (15 + loop(\(x,i).x3,x2,x))))
1: loop(\(x,i).x2,1,((2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) * (2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))))
1: loop(\(x,i).x2,1,(2 * (1 - ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2))))
1: loop(\(x,i).x2,1,(~3x + 3))
1: loop(\(x,i).x2,1,((2x + 1) * ((~x + ~1) + (x mod 2))))
1: loop(\(x,i).x2,1,(5x2 + 15x + 5))
1: loop(\(x,i).x2,1,(~2x + 40))
1: loop(\(x,i).x2,1,(31x + 31))
1: loop(\(x,i).x2,1,(6x2 + 6x + ~3))
1: loop(\(x,i).x2,1,(x2 + ~x))
1: loop(\(x,i).x2,1,(2 * (x - (x3 div 2))))
1: loop(\(x,i).x2,1,(8x + 8))
1: loop(\(x,i).x2,1,(20x + 20))
1: loop(\(x,i).x2,1,(28x + 28))
1: loop(\(x,i).x2,1,(12x + 8))
1: loop(\(x,i).x2,1,((4x + 6) * (1 + (x div 2))))
1: loop(\(x,i).x2,1,(4 * (1 + (2 * (x div 2)))))
1: loop(\(x,i).x2,1,(12x + 6))
1: loop(\(x,i).x2,1,(6x2 + 12))
1: loop(\(x,i).x2,1,(6x + 6))
1: loop(\(x,i).x2,1,(10x + 10))
1: loop(\(x,i).x2,1,(15x + 15))
1: loop(\(x,i).x2,1,(x3 + 3x2 + 2x))
1: loop(\(x,i).x2,1,(46x + 46))
1: loop(\(x,i).x2,1,(~12x2 + 4x))
1: loop(\(x,i).x2,1,(40x + 40))
1: loop(\(x,i).x2,1,(30x + 30))
1: loop(\(x,i).x2,1,12x)
1: loop(\(x,i).x2,1,(x4 + x3))
1: loop(\(x,i).x2,1,((x + 1) * (i * i)))
1: loop(\(x,i).x2,1,(3 * ((x2 + 3x + 2) div 2)))
1: loop(\(x,i).x2,1,(2 * (x div (1 - ((~x + 1) div (3 + (x mod 6)))))))
1: loop(\(x,i).x2,1,((x + 2) * (x div (~2 + (x mod 2)))))
1: loop(\(x,i).x2,1,(3 * (if x <= 0 then 4 else (2 + ((1 + loop(\(x,i).11x,x,3)) div (x + 1))))))
1: loop(\(x,i).x2,1,(3 * loop(\(x,i).(10x + 2),x,2)))
1: loop(\(x,i).x2,1,(3 * loop(\(x,i).12x,(x + ~1),1)))
1: loop(\(x,i).x2,1,((x + 3) * loop(\(x,i).(x * i),x,(x + 2))))
1: loop(\(x,i).x2,1,(3 * loop(\(x,i).(x * i),x,x)))
1: loop(\(x,i).x2,1,((3x2 + x) div 2))
1: loop(\(x,i).x2,1,((1 + (8 mod (1 + (x div 2)))) div 2))
1: loop(\(x,i).x2,1,((x + ((x div 2) mod 2)) div 2))
1: loop(\(x,i).x2,1,((~2 - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)) div 2))
1: loop(\(x,i).x2,1,((x2 + ~x + ~1) div 3))
1: loop(\(x,i).x2,1,((~3x2 + x) div 2))
1: loop(\(x,i).x2,1,((4x + 4) div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))
1: loop(\(x,i).x2,1,((x2 + 5x) div 2))
1: loop(\(x,i).x2,1,((2x + 8) div 5))
1: loop(\(x,i).x2,1,((x2 + 4x) div (if (x mod 2) <= 0 then 4 else 1)))
1: loop(\(x,i).x2,1,((3x2 + 2x) div 4))
1: loop(\(x,i).x2,1,((x3 + 3x2 + 4x + 2) div 2))
1: loop(\(x,i).x2,1,((x3 + x) div 2))
1: loop(\(x,i).x2,1,(((1 + ((x3 + 3x2 + 2x) div 3)) * (1 + (x div 2))) div 2))
1: loop(\(x,i).x2,1,((x3 + ~x) div 3))
1: loop(\(x,i).x2,1,((x6 + x3) div 2))
1: loop(\(x,i).x2,1,((x * ((x + ~1) div 2)) div 3))
1: loop(\(x,i).x2,1,(((x + 1) * (x3 div 2)) div 2))
1: loop(\(x,i).x2,1,(((x + 1) * (if (x mod 2) <= 0 then (2 + (x mod 4)) else 1)) div 2))
1: loop(\(x,i).x2,1,(x2 div 32))
1: loop(\(x,i).x2,1,((x * i) div 3))
1: loop(\(x,i).x2,1,(((x3 + ~3x2 + 2x) div 2) div 3))
1: loop(\(x,i).x2,1,((loop(\(x,i).x2,2,loop(\(x,i).(x * (x + i)),2x,2)) div 2) div 3))
1: loop(\(x,i).x2,1,(((x + 1) mod (1 + ((2 * (1 + (x mod 3))) mod (x + 1)))) div 2))
1: loop(\(x,i).x2,1,((if x <= 0 then 2 else loop(\(x,i).((2x * (~1 + (2 * i))) div (2 + i)),x,3x)) div 2))
1: loop(\(x,i).x2,1,(loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x + 1),(x + 1)) div 2))
1: loop(\(x,i).x2,1,(x div ~5))
1: loop(\(x,i).x2,1,(compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x) div 2))
1: loop(\(x,i).x2,1,(compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x) div 2))
1: loop(\(x,i).x2,1,((x - (2 * ((x div 2) mod 2))) mod 8))
1: loop(\(x,i).x2,1,((if (x mod 2) <= 0 then 2 else (x2 + 2x)) mod 6))
1: loop(\(x,i).x2,1,(x mod ((x + ~1) - (x mod 12))))
1: loop(\(x,i).x2,1,(x mod 10))
1: loop(\(x,i).x2,1,(if (~x + 2) <= 0 then (1 + (((x mod (1 + (x div 4))) div 2) + (x mod 2))) else 1))
1: loop(\(x,i).x2,1,(if (x + ~2) <= 0 then 1 else (4x2 + 2x)))
1: loop(\(x,i).x2,1,(if x <= 0 then 1 else (x - (x div (~2 + (x div ~4))))))
1: loop(\(x,i).x2,1,(if x <= 0 then 1 else (2 * (1 + ((1 + ((loop(\(x,i).(20x + ~21),x,1) div 2) div 2)) div 2)))))
1: loop(\(x,i).x2,1,(if x <= 0 then 1 else (2 * (1 + (((~1 + loop(\(x,i).2x,x,(1 + (2 * (((2x + 1) mod (2 + (x div 4))) div 2))))) mod (x + 1)) div 2)))))
1: loop(\(x,i).x2,1,(if x <= 0 then 1 else (2 * (x + (x div 11)))))
1: loop(\(x,i).x2,1,(if x <= 0 then 1 else (2 * (1 - (((x div 2) div ~2) div 2)))))
1: loop(\(x,i).x2,1,(if x <= 0 then 2 else loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then i else 0)),(x div 2),(x + 1))))
1: loop(\(x,i).x2,1,loop(\(x,i).(2x + i),x,0))
1: loop(\(x,i).x2,1,loop(\(x,i).((x + 2) + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i)),x,2))
1: loop(\(x,i).x2,1,loop(\(x,i).(3x + 1),x,0))
1: loop(\(x,i).x2,1,loop(\(x,i).(3x + 2),4,x))
1: loop(\(x,i).x2,1,loop(\(x,i).(5x + 2),x,2))
1: loop(\(x,i).x2,1,loop(\(x,i).(10x + 3),x,0))
1: loop(\(x,i).x2,1,loop(\(x,i).(10x + 3),x,1))
1: loop(\(x,i).x2,1,loop(\(x,i).(10x + 6),x,0))
1: loop(\(x,i).x2,1,loop(\(x,i).(10x + 6),x,1))
1: loop(\(x,i).x2,1,loop(\(x,i).(~2x + 3),x,0))
1: loop(\(x,i).x2,1,loop(\(x,i).(x2 + ~x + 2),x,2))
1: loop(\(x,i).x2,1,loop(\(x,i).(10x + ~7),x,0))
1: loop(\(x,i).x2,1,loop(\(x,i).(15x + 1),x,0))
1: loop(\(x,i).x2,1,loop(\(x,i).(10x + 1),x,1))
1: loop(\(x,i).x2,1,loop(\(x,i).(14x + 1),x,0))
1: loop(\(x,i).x2,1,loop(\(x,i).(10x + 21),x,1))
1: loop(\(x,i).x2,1,loop(\(x,i).(16x + 1),x,0))
1: loop(\(x,i).x2,1,loop(\(x,i).(60x + 1),x,0))
1: loop(\(x,i).x2,1,loop(\(x,i).(12x + 1),x,0))
1: loop(\(x,i).x2,1,loop(\(x,i).(x + (2 * (i * (1 + i)))),(x + 1),0))
1: loop(\(x,i).x2,1,loop(\(x,i).(x + (i * i * i)),(1 + i),0))
1: loop(\(x,i).x2,1,loop(\(x,i).(2x + 1),x,(2 div (x + 1))))
1: loop(\(x,i).x2,1,loop(\(x,i).(x + (i * i)),(2x + 1),0))
1: loop(\(x,i).x2,1,loop(\(x,i).(x + (i * i)),x,0))
1: loop(\(x,i).x2,1,loop(\(x,i).(x + (((2 + i) * (1 + i)) div 2)),i,1))
1: loop(\(x,i).x2,1,loop(\(x,i).(x + (4x div (if i <= 0 then 1 else i))),x,1))
1: loop(\(x,i).x2,1,loop(\(x,i).(x + (if (~x + 2) <= 0 then x else 2)),x,(~x + 1)))
1: loop(\(x,i).x2,1,loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then 1 else 0)),x,(x + 2)))
1: loop(\(x,i).x2,1,loop(\(x,i).(x + loop(\(x,i).(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1,i)),x,0))
1: loop(\(x,i).x2,1,loop(\(x,i).(x + loop(\(x,i).3x,i,x)),(x + ~1),2))
1: loop(\(x,i).x2,1,loop(\(x,i).(x + loop(\(x,i).loop(\(x,i).(x * (i * i)),i,x),i,1)),x,1))
1: loop(\(x,i).x2,1,loop(\(x,i).(x + 1),(x + ~8),2))
1: loop(\(x,i).x2,1,loop(\(x,i).(11x + 1),x,0))
1: loop(\(x,i).x2,1,loop(\(x,i).(~x2 + ~x + 1),x,2))
1: loop(\(x,i).x2,1,loop(\(x,i).(~2x + 1),x,0))
1: loop(\(x,i).x2,1,loop(\(x,i).(~2x + 1),i,0))
1: loop(\(x,i).x2,1,loop(\(x,i).(1 - (x * i)),x,1))
1: loop(\(x,i).x2,1,loop(\(x,i).(1 - loop(\(x,i).(x - (if x <= 0 then 0 else (i - (x mod 2)))),x,x)),1,(2x + 2)))
1: loop(\(x,i).x2,1,loop(\(x,i).(3x + ~1),x,1))
1: loop(\(x,i).x2,1,loop(\(x,i).(3x - (1 mod loop(\(x,i).x2,x,2))),x,1))
1: loop(\(x,i).x2,1,loop(\(x,i).(10x + ~3),(x + 1),1))
1: loop(\(x,i).x2,1,loop(\(x,i).(10x + ~6),x,1))
1: loop(\(x,i).x2,1,loop(\(x,i).(2x - (((x div 2) + i) mod 2)),x,2))
1: loop(\(x,i).x2,1,loop(\(x,i).(2x - ((x div 2) mod 2)),x,2))
1: loop(\(x,i).x2,1,loop(\(x,i).(2x - ((i div 2) mod 2)),x,2))
1: loop(\(x,i).x2,1,loop(\(x,i).(~x + (8x div (1 + i))),x,(x + 1)))
1: loop(\(x,i).x2,1,loop(\(x,i).(~2x + ((2 * (if x <= 0 then 1 else x)) div (1 + i))),x,1))
1: loop(\(x,i).x2,1,loop(\(x,i).(~2x + (i mod 2)),x,2))
1: loop(\(x,i).x2,1,loop(\(x,i).(~2x + (if x <= 0 then 1 else 2)),x,2))
1: loop(\(x,i).x2,1,loop(\(x,i).((x + ~1) - (x * i)),x,2))
1: loop(\(x,i).x2,1,loop(\(x,i).(13x + ~1),x,0))
1: loop(\(x,i).x2,1,loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x))
1: loop(\(x,i).x2,1,loop(\(x,i).(~x + i),i,1))
1: loop(\(x,i).x2,1,loop(\(x,i).(x * (3 + i)),(x + 1),2))
1: loop(\(x,i).x2,1,loop(\(x,i).(10x + 2),x,0))
1: loop(\(x,i).x2,1,loop(\(x,i).(10x + 2),x,2))
1: loop(\(x,i).x2,1,loop(\(x,i).(10x + 4),x,0))
1: loop(\(x,i).x2,1,loop(\(x,i).(10x + 5),x,0))
1: loop(\(x,i).x2,1,loop(\(x,i).(2 * (x + (x div 2))),x,1))
1: loop(\(x,i).x2,1,loop(\(x,i).(x * (1 + (i div 2))),x,1))
1: loop(\(x,i).x2,1,loop(\(x,i).(x * (2 + (x mod 4))),x,1))
1: loop(\(x,i).x2,1,loop(\(x,i).(x * (1 + (if (i mod 2) <= 0 then 4 else 1))),x,1))
1: loop(\(x,i).x2,1,loop(\(x,i).(x * (1 + (if (i mod 2) <= 0 then i else 1))),x,1))
1: loop(\(x,i).x2,1,loop(\(x,i).(2x + 2),2x,2))
1: loop(\(x,i).x2,1,loop(\(x,i).(2x + 2),x,1))
1: loop(\(x,i).x2,1,loop(\(x,i).(x2 + x),(x + ~1),1))
1: loop(\(x,i).x2,1,loop(\(x,i).(x * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))),i,1))
1: loop(\(x,i).x2,1,loop(\(x,i).(~3x + 3),x,1))
1: loop(\(x,i).x2,1,loop(\(x,i).(2 * (2x - (x div (1 + i)))),(~1 + i),2))
1: loop(\(x,i).x2,1,loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),(x div 2),(1 + (x mod 2))))
1: loop(\(x,i).x2,1,loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,2))
1: loop(\(x,i).x2,1,loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,x))
1: loop(\(x,i).x2,1,loop(\(x,i).(4 * ((if x <= 0 then 1 else 2x) - (x div (if i <= 0 then 1 else i)))),x,0))
1: loop(\(x,i).x2,1,loop(\(x,i).(3x + ~3),x,2))
1: loop(\(x,i).x2,1,loop(\(x,i).(x2 + ~x),1,loop(\(x,i).2x,(x mod 4),x)))
1: loop(\(x,i).x2,1,loop(\(x,i).(2x + ~4),x,1))
1: loop(\(x,i).x2,1,loop(\(x,i).(10x + ~8),x,0))
1: loop(\(x,i).x2,1,loop(\(x,i).(2 * (x - (2x * i))),x,1))
1: loop(\(x,i).x2,1,loop(\(x,i).(2 * (x - ((x * (2 - i)) div (1 + i)))),x,1))
1: loop(\(x,i).x2,1,loop(\(x,i).(x * (~x + i)),3x,2))
1: loop(\(x,i).x2,1,loop(\(x,i).(3x2 * i),x,1))
1: loop(\(x,i).x2,1,loop(\(x,i).(12x + ~6),(x + 1),1))
1: loop(\(x,i).x2,1,loop(\(x,i).(2x * (~1 + (2 * i))),3x,1))
1: loop(\(x,i).x2,1,loop(\(x,i).(2x * (~1 + (2 * i))),i,1))
1: loop(\(x,i).x2,1,loop(\(x,i).(3x4 + 3x3),(x2 + 1),1))
1: loop(\(x,i).x2,1,loop(\(x,i).2x2,3,2))
1: loop(\(x,i).x2,1,loop(\(x,i).x3,1,(2 * ((x + 2) + (3 * (x div 2))))))
1: loop(\(x,i).x2,1,loop(\(x,i).x3,(x + ~1),4))
1: loop(\(x,i).x2,1,loop(\(x,i).(x * (i * (2 + i))),x,2))
1: loop(\(x,i).x2,1,loop(\(x,i).(x * (if (i mod 2) <= 0 then 2 else i)),x,1))
1: loop(\(x,i).x2,1,loop(\(x,i).(x2 * loop(\(x,i).x3,2,x)),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))))
1: loop(\(x,i).x2,1,loop(\(x,i).2x,x,5))
1: loop(\(x,i).x2,1,loop(\(x,i).2x,x,(2x + 1)))
1: loop(\(x,i).x2,1,loop(\(x,i).2x,x,(1 + (if x <= 0 then 1 else 2))))
1: loop(\(x,i).x2,1,loop(\(x,i).2x,x,(~1 + loop(\(x,i).2x,x,2))))
1: loop(\(x,i).x2,1,loop(\(x,i).2x,x,loop(\(x,i).(3x + 1),x,1)))
1: loop(\(x,i).x2,1,loop(\(x,i).x2,2,(1 + i)))
1: loop(\(x,i).x2,1,loop(\(x,i).((x2 + x) div 2),1,loop(\(x,i).10x,x,1)))
1: loop(\(x,i).x2,1,loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,(x + 1)))
1: loop(\(x,i).x2,1,loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),i,1))
1: loop(\(x,i).x2,1,loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),(x + ~1),2))
1: loop(\(x,i).x2,1,loop(\(x,i).loop(\(x,i).(2x + i),x,(i * i * i)),x,1))
1: loop(\(x,i).x2,1,loop(\(x,i).loop(\(x,i).(x * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))),i,x),x,1))
1: loop(\(x,i).x2,1,loop(\(x,i).loop(\(x,i).(x * ((~1 + (2 * i)) * i)),i,x),x,1))
1: loop(\(x,i).x2,1,loop(\(x,i).i,(x + ~9),x))
1: loop(\(x,i).x2,1,compr(\x.(1 + loop(\(x,i).(0 - (if (x mod (1 + i)) <= 0 then 0 else x)),(x div 2),x)),x))
1: loop(\(x,i).x2,1,compr(\x.(2 - loop(\(x,i).(0 - (if (x mod (1 + i)) <= 0 then 0 else x)),(x div 2),x)),x))
1: loop(\(x,i).x2,1,compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x))
1: loop(\(x,i).x2,1,compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))
1: loop(\(x,i).x2,1,compr(\x.(loop(\(x,i).(~2x + 2),x,2) mod (x + 2)),x))
1: loop(\(x,i).x2,1,compr(\x.loop(\(x,i).(x - (if (x mod (2 + i)) <= 0 then 0 else 1)),x,x),x))
1: loop(\(x,i).x2,2,(x + 6))
1: loop(\(x,i).x2,2,(x + 9))
1: loop(\(x,i).x2,2,(3x + 1))
1: loop(\(x,i).x2,2,(5x + 4))
1: loop(\(x,i).x2,2,(5x + 1))
1: loop(\(x,i).x2,2,(5x + 2))
1: loop(\(x,i).x2,2,(9x + 7))
1: loop(\(x,i).x2,2,(8x + 3))
1: loop(\(x,i).x2,2,(7x + 3))
1: loop(\(x,i).x2,2,(10x + 6))
1: loop(\(x,i).x2,2,(11x + 5))
1: loop(\(x,i).x2,2,(9x + 1))
1: loop(\(x,i).x2,2,(9x + 2))
1: loop(\(x,i).x2,2,(9x + 8))
1: loop(\(x,i).x2,2,(10x + 1))
1: loop(\(x,i).x2,2,(12x + 9))
1: loop(\(x,i).x2,2,(8x + 5))
1: loop(\(x,i).x2,2,(9x + 4))
1: loop(\(x,i).x2,2,(12x + 7))
1: loop(\(x,i).x2,2,(7x + 6))
1: loop(\(x,i).x2,2,(11x + 10))
1: loop(\(x,i).x2,2,(8x + 1))
1: loop(\(x,i).x2,2,(12x + 1))
1: loop(\(x,i).x2,2,(6x + 1))
1: loop(\(x,i).x2,2,(6x + 2))
1: loop(\(x,i).x2,2,(x4 + 1))
1: loop(\(x,i).x2,2,(2x + 1))
1: loop(\(x,i).x2,2,(2 + (x mod 2)))
1: loop(\(x,i).x2,2,(1 + loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)))
1: loop(\(x,i).x2,2,(1 + loop(\(x,i).10x,x,1)))
1: loop(\(x,i).x2,2,(1 + loop(\(x,i).(2x * i),4,1)))
1: loop(\(x,i).x2,2,(2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)))
1: loop(\(x,i).x2,2,(2 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x)))
1: loop(\(x,i).x2,2,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)))
1: loop(\(x,i).x2,2,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i)))
1: loop(\(x,i).x2,2,(11x + 2))
1: loop(\(x,i).x2,2,(~8x + ~6))
1: loop(\(x,i).x2,2,(~12x + ~10))
1: loop(\(x,i).x2,2,(4x + 3))
1: loop(\(x,i).x2,2,(9x + 5))
1: loop(\(x,i).x2,2,(10x + 7))
1: loop(\(x,i).x2,2,(8x + 7))
1: loop(\(x,i).x2,2,35)
1: loop(\(x,i).x2,2,(12x + 11))
1: loop(\(x,i).x2,2,(12x + 5))
1: loop(\(x,i).x2,2,(6x + 5))
1: loop(\(x,i).x2,2,(10x + 9))
1: loop(\(x,i).x2,2,((4 * (x mod 2)) - (x mod 3)))
1: loop(\(x,i).x2,2,(4x + ~1))
1: loop(\(x,i).x2,2,(2x + ~1))
1: loop(\(x,i).x2,2,(~2 + loop(\(x,i).(1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),2,x)))
1: loop(\(x,i).x2,2,(~1 + loop(\(x,i).10x,x,1)))
1: loop(\(x,i).x2,2,(x + ~2))
1: loop(\(x,i).x2,2,(~11x + ~9))
1: loop(\(x,i).x2,2,(~7x + ~5))
1: loop(\(x,i).x2,2,(~11x + ~7))
1: loop(\(x,i).x2,2,(~7x + ~1))
1: loop(\(x,i).x2,2,(~11x + ~1))
1: loop(\(x,i).x2,2,(~7x + ~2))
1: loop(\(x,i).x2,2,(~11x + ~3))
1: loop(\(x,i).x2,2,(~11x + ~4))
1: loop(\(x,i).x2,2,(~5x + ~3))
1: loop(\(x,i).x2,2,(~11x + ~8))
1: loop(\(x,i).x2,2,(~7x + ~4))
1: loop(\(x,i).x2,2,(~11x + ~6))
1: loop(\(x,i).x2,2,(7x + ~6))
1: loop(\(x,i).x2,2,~7x)
1: loop(\(x,i).x2,2,~11x)
1: loop(\(x,i).x2,2,3x)
1: loop(\(x,i).x2,2,(9x + 3))
1: loop(\(x,i).x2,2,(6x + 4))
1: loop(\(x,i).x2,2,(9x + 6))
1: loop(\(x,i).x2,2,(10x + 8))
1: loop(\(x,i).x2,2,(10x + 2))
1: loop(\(x,i).x2,2,(x3 + 3x2 + 3x + 1))
1: loop(\(x,i).x2,2,(8x + 2))
1: loop(\(x,i).x2,2,(12x + 3))
1: loop(\(x,i).x2,2,(12x + 2))
1: loop(\(x,i).x2,2,(12x + 4))
1: loop(\(x,i).x2,2,(4x + 2))
1: loop(\(x,i).x2,2,(6x + 3))
1: loop(\(x,i).x2,2,(10x + 5))
1: loop(\(x,i).x2,2,(3 * (1 + (x div 2))))
1: loop(\(x,i).x2,2,(2 * (2 + (x2 mod 3))))
1: loop(\(x,i).x2,2,(x2 + x))
1: loop(\(x,i).x2,2,(10x + ~16))
1: loop(\(x,i).x2,2,9x)
1: loop(\(x,i).x2,2,10x)
1: loop(\(x,i).x2,2,(12x + 8))
1: loop(\(x,i).x2,2,(4 * (1 + (2 * (x mod 2)))))
1: loop(\(x,i).x2,2,(8x + 4))
1: loop(\(x,i).x2,2,(12x + 6))
1: loop(\(x,i).x2,2,(2x2 + 4x + 2))
1: loop(\(x,i).x2,2,32)
1: loop(\(x,i).x2,2,12x)
1: loop(\(x,i).x2,2,20x)
1: loop(\(x,i).x2,2,8x3)
1: loop(\(x,i).x2,2,6x)
1: loop(\(x,i).x2,2,2x2)
1: loop(\(x,i).x2,2,(i * i * i))
1: loop(\(x,i).x2,2,(3 * (x div (~2 + (x mod ~2)))))
1: loop(\(x,i).x2,2,(3 * (x div 8)))
1: loop(\(x,i).x2,2,(2 * (x mod 2)))
1: loop(\(x,i).x2,2,(3 * (if (x mod (2 + (x mod 2))) <= 0 then 2 else 0)))
1: loop(\(x,i).x2,2,(i * i))
1: loop(\(x,i).x2,2,((x2 + 3x + 2) div 2))
1: loop(\(x,i).x2,2,((x2 + ~x) div 2))
1: loop(\(x,i).x2,2,((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2))
1: loop(\(x,i).x2,2,(loop(\(x,i).4x,x,loop(\(x,i).x2,(x div 2),2)) div 2))
1: loop(\(x,i).x2,2,(loop(\(x,i).(2x + 2),x,2) mod (x + 2)))
1: loop(\(x,i).x2,2,(if x <= 0 then 1 else (3 + loop(\(x,i).(x2 + x),1,loop(\(x,i).(x * i),x,1)))))
1: loop(\(x,i).x2,2,loop(\(x,i).(10x + 21),x,1))
1: loop(\(x,i).x2,2,loop(\(x,i).(2x + 1),x,0))
1: loop(\(x,i).x2,2,loop(\(x,i).3x,x,1))
1: loop(\(x,i).x2,2,loop(\(x,i).3x,x,3))
1: loop(\(x,i).x2,2,loop(\(x,i).(x * (x + i)),2x,2))
1: loop(\(x,i).x2,2,loop(\(x,i).(2 * (~2x + (x div (if i <= 0 then 1 else i)))),x,1))
1: loop(\(x,i).x2,2,loop(\(x,i).32x,x,2))
1: loop(\(x,i).x2,2,loop(\(x,i).8x,x,2))
1: loop(\(x,i).x2,2,loop(\(x,i).8x,x,4))
1: loop(\(x,i).x2,2,loop(\(x,i).4x,(2x + 1),2))
1: loop(\(x,i).x2,2,loop(\(x,i).4x,2x,2))
1: loop(\(x,i).x2,2,loop(\(x,i).4x,x,2))
1: loop(\(x,i).x2,2,loop(\(x,i).2x2,2,2))
1: loop(\(x,i).x2,2,loop(\(x,i).x3,x,2))
1: loop(\(x,i).x2,2,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))
1: loop(\(x,i).x2,2,compr(\x.(2 - loop(\(x,i).(0 - (if (x mod (1 + i)) <= 0 then 0 else x)),(x div 2),x)),x))
1: loop(\(x,i).x2,3,3)
1: loop(\(x,i).x2,3,(3x + 1))
1: loop(\(x,i).x2,3,(3x + 2))
1: loop(\(x,i).x2,3,(5x + 4))
1: loop(\(x,i).x2,3,(5x + 1))
1: loop(\(x,i).x2,3,(5x + 2))
1: loop(\(x,i).x2,3,(9x + 7))
1: loop(\(x,i).x2,3,(10x + 3))
1: loop(\(x,i).x2,3,(8x + 3))
1: loop(\(x,i).x2,3,(7x + 3))
1: loop(\(x,i).x2,3,(10x + 6))
1: loop(\(x,i).x2,3,(11x + 5))
1: loop(\(x,i).x2,3,(9x + 1))
1: loop(\(x,i).x2,3,(9x + 2))
1: loop(\(x,i).x2,3,(9x + 8))
1: loop(\(x,i).x2,3,(10x + 1))
1: loop(\(x,i).x2,3,(12x + 9))
1: loop(\(x,i).x2,3,(8x + 5))
1: loop(\(x,i).x2,3,(9x + 4))
1: loop(\(x,i).x2,3,(12x + 7))
1: loop(\(x,i).x2,3,(7x + 6))
1: loop(\(x,i).x2,3,(11x + 10))
1: loop(\(x,i).x2,3,(8x + 1))
1: loop(\(x,i).x2,3,(12x + 1))
1: loop(\(x,i).x2,3,(4x + 1))
1: loop(\(x,i).x2,3,(6x + 1))
1: loop(\(x,i).x2,3,(6x + 2))
1: loop(\(x,i).x2,3,(2 + (x mod 2)))
1: loop(\(x,i).x2,3,(1 + (if x <= 0 then 2 else 1)))
1: loop(\(x,i).x2,3,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)))
1: loop(\(x,i).x2,3,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).x2,3,(11x + 2))
1: loop(\(x,i).x2,3,(~8x + ~6))
1: loop(\(x,i).x2,3,(~12x + ~10))
1: loop(\(x,i).x2,3,(4x + 3))
1: loop(\(x,i).x2,3,(9x + 5))
1: loop(\(x,i).x2,3,(10x + 7))
1: loop(\(x,i).x2,3,(8x + 7))
1: loop(\(x,i).x2,3,(12x + 11))
1: loop(\(x,i).x2,3,(12x + 5))
1: loop(\(x,i).x2,3,(6x + 5))
1: loop(\(x,i).x2,3,(10x + 9))
1: loop(\(x,i).x2,3,(~11x + ~9))
1: loop(\(x,i).x2,3,(~7x + ~5))
1: loop(\(x,i).x2,3,(~11x + ~7))
1: loop(\(x,i).x2,3,(~7x + ~1))
1: loop(\(x,i).x2,3,(~11x + ~1))
1: loop(\(x,i).x2,3,(~7x + ~2))
1: loop(\(x,i).x2,3,(~11x + ~3))
1: loop(\(x,i).x2,3,(~11x + ~4))
1: loop(\(x,i).x2,3,(~5x + ~3))
1: loop(\(x,i).x2,3,(~11x + ~8))
1: loop(\(x,i).x2,3,(~7x + ~4))
1: loop(\(x,i).x2,3,(~11x + ~6))
1: loop(\(x,i).x2,3,~7x)
1: loop(\(x,i).x2,3,~11x)
1: loop(\(x,i).x2,3,3x)
1: loop(\(x,i).x2,3,5x)
1: loop(\(x,i).x2,3,(9x + 3))
1: loop(\(x,i).x2,3,(6x + 4))
1: loop(\(x,i).x2,3,(9x + 6))
1: loop(\(x,i).x2,3,(10x + 8))
1: loop(\(x,i).x2,3,(10x + 2))
1: loop(\(x,i).x2,3,(10x + 4))
1: loop(\(x,i).x2,3,(8x + 2))
1: loop(\(x,i).x2,3,(12x + 3))
1: loop(\(x,i).x2,3,(12x + 2))
1: loop(\(x,i).x2,3,(12x + 4))
1: loop(\(x,i).x2,3,(4x + 2))
1: loop(\(x,i).x2,3,(6x + 3))
1: loop(\(x,i).x2,3,(10x + 5))
1: loop(\(x,i).x2,3,9x)
1: loop(\(x,i).x2,3,10x)
1: loop(\(x,i).x2,3,(12x + 8))
1: loop(\(x,i).x2,3,(8x + 4))
1: loop(\(x,i).x2,3,(12x + 6))
1: loop(\(x,i).x2,3,8x)
1: loop(\(x,i).x2,3,12x)
1: loop(\(x,i).x2,3,4x)
1: loop(\(x,i).x2,3,6x)
1: loop(\(x,i).x2,3,2x)
1: loop(\(x,i).x2,3,((x2 + 3x + 2) div 2))
1: loop(\(x,i).x2,4,(x + 1))
1: loop(\(x,i).x2,4,(2 + compr(\x.((~1 + loop(\(x,i).(x * i),x,1)) mod (x + 2)),x)))
1: loop(\(x,i).x2,4,8)
1: loop(\(x,i).x2,((x + 1) + (x div 4)),2)
1: loop(\(x,i).x2,(x + 4),4)
1: loop(\(x,i).x2,(x + 4),(x + 1))
1: loop(\(x,i).x2,(3x + 2),3)
1: loop(\(x,i).x2,(4x + 1),6)
1: loop(\(x,i).x2,(x + (x div 2)),2)
1: loop(\(x,i).x2,(x + (x div 5)),2)
1: loop(\(x,i).x2,(1 + (x mod 2)),3)
1: loop(\(x,i).x2,(x + 1),3)
1: loop(\(x,i).x2,(x + 2),2)
1: loop(\(x,i).x2,(x + 2),x)
1: loop(\(x,i).x2,(1 + i),x)
1: loop(\(x,i).x2,(2x + ~1),4)
1: loop(\(x,i).x2,(x2 + ~1),2)
1: loop(\(x,i).x2,(x2 + ~2),x)
1: loop(\(x,i).x2,(~1 + (x mod 3)),((if (x mod 2) <= 0 then 1 else x) mod 4))
1: loop(\(x,i).x2,(x + ~1),4)
1: loop(\(x,i).x2,(x + ~1),~2)
1: loop(\(x,i).x2,(x + ~1),6)
1: loop(\(x,i).x2,(x + ~1),(2 * (1 + (if x <= 0 then 1 else 2))))
1: loop(\(x,i).x2,(x + ~1),(2 * (2 + (if x <= 0 then 1 else 2))))
1: loop(\(x,i).x2,(x + ~1),x5)
1: loop(\(x,i).x2,(x + ~1),(x * i))
1: loop(\(x,i).x2,(x + ~1),(if x <= 0 then 1 else x5))
1: loop(\(x,i).x2,(x + ~1),loop(\(x,i).(1 + (x * i)),x,0))
1: loop(\(x,i).x2,(x + ~1),loop(\(x,i).2x,x,1))
1: loop(\(x,i).x2,(x + ~1),loop(\(x,i).(x * i),x,(x + 1)))
1: loop(\(x,i).x2,(x + ~2),2)
1: loop(\(x,i).x2,(x + ~2),3)
1: loop(\(x,i).x2,(x + ~2),(1 + (4 * (if x <= 0 then 0 else 2))))
1: loop(\(x,i).x2,(x + ~2),(1 + (2 * (if x <= 0 then 0 else 2))))
1: loop(\(x,i).x2,(x + ~2),(1 + (3 * (if x <= 0 then 0 else 2))))
1: loop(\(x,i).x2,(x + ~2),(x2 + 1))
1: loop(\(x,i).x2,(x + ~2),(1 + (if x <= 0 then 0 else 2)))
1: loop(\(x,i).x2,(x + ~2),x5)
1: loop(\(x,i).x2,(x + ~2),2x)
1: loop(\(x,i).x2,(x + ~2),((x3 + x2 + 2x + 2) div 2))
1: loop(\(x,i).x2,(x + ~2),(if x <= 0 then 0 else 2))
1: loop(\(x,i).x2,(x + ~2),(if x <= 0 then 1 else 2))
1: loop(\(x,i).x2,(x + ~2),(if x <= 0 then 1 else 4))
1: loop(\(x,i).x2,(x + ~2),(if x <= 0 then 1 else (x + (if (x mod 2) <= 0 then x else 1))))
1: loop(\(x,i).x2,(x + ~2),(if x <= 0 then 1 else 6))
1: loop(\(x,i).x2,(x + ~2),(if x <= 0 then 1 else 8))
1: loop(\(x,i).x2,(x + ~2),(if x <= 0 then 1 else 10))
1: loop(\(x,i).x2,(x + ~2),loop(\(x,i).3x,(x2 + 3x + 2),1))
1: loop(\(x,i).x2,(x + ~2),loop(\(x,i).2x,(x + 2),2))
1: loop(\(x,i).x2,(x + ~2),loop(\(x,i).2x,x2,2))
1: loop(\(x,i).x2,(x + ~2),loop(\(x,i).2x,x2,loop(\(x,i).(2x + 1),x,0)))
1: loop(\(x,i).x2,(x + ~2),loop(\(x,i).2x,(((x + 1) + ((x div 2) mod 2)) div 2),1))
1: loop(\(x,i).x2,(x + ~2),loop(\(x,i).(x * i),x,1))
1: loop(\(x,i).x2,(x + ~2),loop(\(x,i).(x * i),x,(x + 1)))
1: loop(\(x,i).x2,(x + ~3),2)
1: loop(\(x,i).x2,((x + ~2) - i),2x)
1: loop(\(x,i).x2,(x - i),2x)
1: loop(\(x,i).x2,(~1 + i),2x)
1: loop(\(x,i).x2,(2x + 2),4)
1: loop(\(x,i).x2,(~2x + 4),2)
1: loop(\(x,i).x2,(2x + ~4),loop(\(x,i).3x,x,1))
1: loop(\(x,i).x2,(x2 + ~2x),x)
1: loop(\(x,i).x2,(x2 + ~8x),x)
1: loop(\(x,i).x2,4x,4)
1: loop(\(x,i).x2,4x,(x + 1))
1: loop(\(x,i).x2,2x,3)
1: loop(\(x,i).x2,2x,(5x + 5))
1: loop(\(x,i).x2,2x,(if x <= 0 then 1 else 4x))
1: loop(\(x,i).x2,2x,loop(\(x,i).10x,x,~4))
1: loop(\(x,i).x2,x2,2)
1: loop(\(x,i).x2,x2,4)
1: loop(\(x,i).x2,x2,x)
1: loop(\(x,i).x2,((x2 + ~1) div 2),(if x <= 0 then 1 else 2))
1: loop(\(x,i).x2,((x2 + ~1) div 3),2)
1: loop(\(x,i).x2,((x2 + ~x) div 2),3)
1: loop(\(x,i).x2,((x2 div 2) div 3),(if x <= 0 then 1 else 2))
1: loop(\(x,i).x2,(x div 2),(if (~x + 2) <= 0 then x else 3))
1: loop(\(x,i).x2,(x div 2),loop(\(x,i).(x * i),x,(x + 1)))
1: loop(\(x,i).x2,(x div 3),(1 + (x mod 3)))
1: loop(\(x,i).x2,(x mod 2),7)
1: loop(\(x,i).x2,(x mod 2),loop(\(x,i).(x2 + x),(x div 2),1))
1: loop(\(x,i).x2,x,17)
1: loop(\(x,i).x2,x,21)
1: loop(\(x,i).x2,x,((if x <= 0 then 1 else x) + (x mod 2)))
1: loop(\(x,i).x2,x,(1 + loop(\(x,i).x2,2x,3)))
1: loop(\(x,i).x2,x,(x + 1))
1: loop(\(x,i).x2,x,(1 - (2 * loop(\(x,i).(x * i),x2,2))))
1: loop(\(x,i).x2,x,15)
1: loop(\(x,i).x2,x,6)
1: loop(\(x,i).x2,x,12)
1: loop(\(x,i).x2,x,14)
1: loop(\(x,i).x2,x,(x3 + 2x2 + x + 2))
1: loop(\(x,i).x2,x,(4x + 8))
1: loop(\(x,i).x2,x,loop(\(x,i).(2x + 1),x,0))
1: loop(\(x,i).x2,x,loop(\(x,i).(4x + ~1),x,1))
1: loop(\(x,i).x2,x,loop(\(x,i).2x,x,3))
1: loop(\(x,i).x2,x,loop(\(x,i).(x * i),x,(x + 1)))
1: loop(\(x,i).x2,i,(1 + (2 * i)))
1: loop(\(x,i).x2,i,(1 + i))
1: loop(\(x,i).x2,i,2x4)
1: loop(\(x,i).x2,i,2x)
1: loop(\(x,i).(2 * i),(((x + ~1) div 2) - ((3 * (x div 4)) div 2)),1)
1: loop(\(x,i).(2 * i),(x + ~7),1)
1: loop(\(x,i).(2 * i),(x + ~8),(x + 1))
1: loop(\(x,i).(2 * i),(x + ~8),x)
1: loop(\(x,i).(2 * i),(x + ~12),x)
1: loop(\(x,i).(2 * i),(~2 + i),x)
1: loop(\(x,i).(2 * i),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).(2 * i),((x + 1) mod 12),1)
1: loop(\(x,i).(2 * i),((~2 + (x mod 2)) mod (~1 + ((~2x + 2) mod (4 + (x div 4))))),1)
1: loop(\(x,i).(2 * i),(x mod 9),x)
1: loop(\(x,i).(2 * i),(if (i mod 2) <= 0 then 2 else 2x),x)
1: loop(\(x,i).(x * i),4,loop(\(x,i).(10x + 21),x,1))
1: loop(\(x,i).(x * i),4,loop(\(x,i).(2x + 4),x,1))
1: loop(\(x,i).(x * i),(6 + (x mod 2)),1)
1: loop(\(x,i).(x * i),((x3 + 1) + (x mod 2)),1)
1: loop(\(x,i).(x * i),(1 + ((x3 div 3) + (x mod 2))),1)
1: loop(\(x,i).(x * i),((x + 4) + (x div 2)),1)
1: loop(\(x,i).(x * i),(4 + (x div 3)),1)
1: loop(\(x,i).(x * i),((x + 1) - (3 * (~2x + (x mod 2)))),1)
1: loop(\(x,i).(x * i),(2 + (3 * i)),x)
1: loop(\(x,i).(x * i),(2 + (5 * i)),x)
1: loop(\(x,i).(x * i),(x2 + 2x + 1),1)
1: loop(\(x,i).(x * i),(1 + (2 * (x - (x div ~2)))),1)
1: loop(\(x,i).(x * i),(x + ((x div 2) * (x div 2))),1)
1: loop(\(x,i).(x * i),(1 + (2 * (if (~2 + (x div 3)) <= 0 then 0 else 2))),1)
1: loop(\(x,i).(x * i),(2 + ((x + ~2) div (2 + (x div 4)))),1)
1: loop(\(x,i).(x * i),(1 + ((x - (x div (2 - ((x3 div 8) mod 2)))) div 2)),1)
1: loop(\(x,i).(x * i),(1 + (4x div (x + 2))),1)
1: loop(\(x,i).(x * i),(1 + (x div (3 + ((x div 2) div 3)))),1)
1: loop(\(x,i).(x * i),(1 + (x div (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))))),1)
1: loop(\(x,i).(x * i),(1 + ((x + ~1) mod (1 + (4 * (if x <= 0 then 0 else 2))))),1)
1: loop(\(x,i).(x * i),(1 + ((x * (x div 3)) mod (1 + ((2 - (x div 2)) mod 4)))),1)
1: loop(\(x,i).(x * i),(1 + (x mod (1 + (x div 3)))),1)
1: loop(\(x,i).(x * i),(1 + (if (~1 + (x div 4)) <= 0 then x else 8)),1)
1: loop(\(x,i).(x * i),((if (x mod 2) <= 0 then 2 else 0) + (x div 2)),1)
1: loop(\(x,i).(x * i),(x + loop(\(x,i).(2x + 1),(x + ~3),0)),1)
1: loop(\(x,i).(x * i),(x + loop(\(x,i).(x - (if (~x + i) <= 0 then i else 1)),x,x)),1)
1: loop(\(x,i).(x * i),(x + 1),(1 + (x * loop(\(x,i).(1 + (x * i)),x,1))))
1: loop(\(x,i).(x * i),(x + 1),loop(\(x,i).(x * i),((x2 + x) div 2),1))
1: loop(\(x,i).(x * i),(x + 2),(x + ~1))
1: loop(\(x,i).(x * i),(x + 2),x)
1: loop(\(x,i).(x * i),(2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),i)),1)
1: loop(\(x,i).(x * i),(2 + compr(\x.((~1 + loop(\(x,i).(x * i),x,1)) mod (x + 2)),x)),2)
1: loop(\(x,i).(x * i),(1 + compr(\x.((loop(\(x,i).(x * i),x,x) mod (x + 1)) mod 2),x)),1)
1: loop(\(x,i).(x * i),(1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)),x)
1: loop(\(x,i).(x * i),(1 + compr(\x.(loop(\(x,i).(x3 + ~x2),2,x) mod (x + 1)),x)),1)
1: loop(\(x,i).(x * i),(1 + compr(\x.(loop(\(x,i).((x2 + x) div 2),5,2) mod (x + 1)),x)),1)
1: loop(\(x,i).(x * i),(0 - loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),x,x)),1)
1: loop(\(x,i).(x * i),(1 - ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)),1)
1: loop(\(x,i).(x * i),(2 - ((~x + 2) div (2 + (x div 2)))),1)
1: loop(\(x,i).(x * i),(2 - ((~x + 2) div (1 - (x div ~4)))),1)
1: loop(\(x,i).(x * i),((2x + ~1) + (x mod 2)),1)
1: loop(\(x,i).(x * i),(~4 + (x div 2)),2)
1: loop(\(x,i).(x * i),(~1 + (5 * (2x + (x mod 2)))),1)
1: loop(\(x,i).(x * i),(~x + (3 * (2 + (if (1 + ((x + 1) * loop(\(x,i).(x * (1 - loop(\(x,i).3x,x,loop(\(x,i).(3x + ~6),x,0)))),x,1))) <= 0 then x else 2)))),1)
1: loop(\(x,i).(x * i),(15x + 4),1)
1: loop(\(x,i).(x * i),(2x2 + 8x + 7),1)
1: loop(\(x,i).(x * i),(~1 + (x2 * (x mod 2))),1)
1: loop(\(x,i).(x * i),(~1 + (4 * i)),x)
1: loop(\(x,i).(x * i),(~1 + (2 * (x2 div 2))),1)
1: loop(\(x,i).(x * i),(~1 + (2 * ((if x <= 0 then 2 else (3x + ~2)) div 2))),1)
1: loop(\(x,i).(x * i),(~1 + (2 * ((if x <= 0 then 2 else (3x + ~2)) div 2))),2)
1: loop(\(x,i).(x * i),(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1)
1: loop(\(x,i).(x * i),((x div 4) - (x mod 4)),1)
1: loop(\(x,i).(x * i),(~1 + ((2x + ~2) mod (4 + (x div 4)))),1)
1: loop(\(x,i).(x * i),((x mod 2) - (x div ~2)),1)
1: loop(\(x,i).(x * i),(x + ~1),(1 + (2 * (x mod 2))))
1: loop(\(x,i).(x * i),(x + ~1),(x2 + 1))
1: loop(\(x,i).(x * i),(x + ~1),(x2 + 3))
1: loop(\(x,i).(x * i),(x + ~1),(1 + ((x2 + x) div 2)))
1: loop(\(x,i).(x * i),(x + ~1),(1 + ((x2 + ~x) div 2)))
1: loop(\(x,i).(x * i),(x + ~1),(1 + (if (~x + 2) <= 0 then x else 0)))
1: loop(\(x,i).(x * i),(x + ~1),(1 + loop(\(x,i).(x * (~1 + (2 * i))),x,1)))
1: loop(\(x,i).(x * i),(x + ~1),(x + 2))
1: loop(\(x,i).(x * i),(x + ~1),(2x - (x mod 2)))
1: loop(\(x,i).(x * i),(x + ~1),(x - loop(\(x,i).(2x + ~1),x,0)))
1: loop(\(x,i).(x * i),(x + ~1),(if x <= 0 then 0 else 1))
1: loop(\(x,i).(x * i),(x + ~1),loop(\(x,i).(2x + 1),x,0))
1: loop(\(x,i).(x * i),(x + ~1),loop(\(x,i).(2x + 2),(x + ~1),0))
1: loop(\(x,i).(x * i),(x + ~1),loop(\(x,i).(3x + ~3),x,2))
1: loop(\(x,i).(x * i),(x + ~1),loop(\(x,i).x2,2,2x))
1: loop(\(x,i).(x * i),(x + ~1),loop(\(x,i).loop(\(x,i).(~2 + i),((x + i) div 2),1),x,1))
1: loop(\(x,i).(x * i),(x + ~2),3)
1: loop(\(x,i).(x * i),(x + ~2),(x2 + ~x + 1))
1: loop(\(x,i).(x * i),(x + ~2),(x2 + ~2x + 1))
1: loop(\(x,i).(x * i),(x + ~2),(2 - (x mod 2)))
1: loop(\(x,i).(x * i),(x + ~2),(2x - (if x <= 0 then 0 else 1)))
1: loop(\(x,i).(x * i),(x + ~2),(x2 + ~1))
1: loop(\(x,i).(x * i),(x + ~2),((x + ~2) * (x2 div 2)))
1: loop(\(x,i).(x * i),(x + ~2),loop(\(x,i).(2x + 1),(x + ~1),0))
1: loop(\(x,i).(x * i),(x - (2 * ((4 * (x div 3)) div 3))),1)
1: loop(\(x,i).(x * i),(x - (3 * (x div 4))),1)
1: loop(\(x,i).(x * i),(x - (x2 div (x + 3))),1)
1: loop(\(x,i).(x * i),(x - (x div 3)),1)
1: loop(\(x,i).(x * i),(x - (loop(\(x,i).(x * i),x,1) mod (x + 1))),1)
1: loop(\(x,i).(x * i),(~1 + i),(1 - (2 * i)))
1: loop(\(x,i).(x * i),(~1 + i),(~2 + i))
1: loop(\(x,i).(x * i),(3 * i),x)
1: loop(\(x,i).(x * i),(5 * i),x)
1: loop(\(x,i).(x * i),(x2 + 6x + 8),1)
1: loop(\(x,i).(x * i),7x,1)
1: loop(\(x,i).(x * i),(7 * i),x)
1: loop(\(x,i).(x * i),(12x + 3),1)
1: loop(\(x,i).(x * i),(2x2 + x),1)
1: loop(\(x,i).(x * i),(2x2 + 4),1)
1: loop(\(x,i).(x * i),(2 * (1 + (2 * i))),x)
1: loop(\(x,i).(x * i),(x2 + x),loop(\(x,i).(x * i),x,(x + 1)))
1: loop(\(x,i).(x * i),(x2 + 2x),1)
1: loop(\(x,i).(x * i),(8x + 14),1)
1: loop(\(x,i).(x * i),((x + 1) * ((x + 1) - (loop(\(x,i).(x * i),x,1) mod (x + 1)))),1)
1: loop(\(x,i).(x * i),((~1 + i) * i),x)
1: loop(\(x,i).(x * i),9x,1)
1: loop(\(x,i).(x * i),10x,1)
1: loop(\(x,i).(x * i),(4x2 + 8),1)
1: loop(\(x,i).(x * i),8x,1)
1: loop(\(x,i).(x * i),12x,1)
1: loop(\(x,i).(x * i),2x2,1)
1: loop(\(x,i).(x * i),x4,1)
1: loop(\(x,i).(x * i),x3,1)
1: loop(\(x,i).(x * i),(4 * i),x)
1: loop(\(x,i).(x * i),(6 * i),x)
1: loop(\(x,i).(x * i),(x * (x2 div (x + 2))),1)
1: loop(\(x,i).(x * i),(2 * (x div 2)),1)
1: loop(\(x,i).(x * i),((x + ~1) * (x div 2)),x)
1: loop(\(x,i).(x * i),(x * (x div 2)),1)
1: loop(\(x,i).(x * i),(2 * (if x <= 0 then 1 else (2 * (2x - (x mod 2))))),1)
1: loop(\(x,i).(x * i),2x,(~1 + (2 * (x mod 2))))
1: loop(\(x,i).(x * i),2x,loop(\(x,i).(2x + 2),2x,2))
1: loop(\(x,i).(x * i),2x,loop(\(x,i).(x * (1 + i)),x,(x + 1)))
1: loop(\(x,i).(x * i),2x,x)
1: loop(\(x,i).(x * i),(2 * i),1)
1: loop(\(x,i).(x * i),(2 * i),x)
1: loop(\(x,i).(x * i),(i * i),x)
1: loop(\(x,i).(x * i),(2 * compr(\x.(1 - (x mod (1 + (4 * (x mod 2))))),(x + 1))),1)
1: loop(\(x,i).(x * i),((1 + (x div 3)) div 2),1)
1: loop(\(x,i).(x * i),((2 * ((x + 1) + (if (x mod 2) <= 0 then x else 2))) div 3),1)
1: loop(\(x,i).(x * i),((2 * (2 + (if x <= 0 then 0 else (2 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))))) div 3),1)
1: loop(\(x,i).(x * i),(loop(\(x,i).(x + loop(\(x,i).(x * i),(x + ~2),1)),x,1) div 2),1)
1: loop(\(x,i).(x * i),(loop(\(x,i).2x,x,1) div (1 + (2 * (x div 2)))),1)
1: loop(\(x,i).(x * i),(x div 2),x)
1: loop(\(x,i).(x * i),(x div 3),1)
1: loop(\(x,i).(x * i),(x mod 8),1)
1: loop(\(x,i).(x * i),(x mod 10),1)
1: loop(\(x,i).(x * i),(if (x + ~1) <= 0 then x else (2 + ((2 * (x div 2)) div 3))),1)
1: loop(\(x,i).(x * i),loop(\(x,i).(x + (i * i * i)),x,2),1)
1: loop(\(x,i).(x * i),loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1)
1: loop(\(x,i).(x * i),loop(\(x,i).(2x + 2),x,0),1)
1: loop(\(x,i).(x * i),loop(\(x,i).2x,i,1),x)
1: loop(\(x,i).(x * i),x,(x + 5))
1: loop(\(x,i).(x * i),x,((x + 1) + (x2 div 4)))
1: loop(\(x,i).(x * i),x,(3 - (x mod 2)))
1: loop(\(x,i).(x * i),x,(1 + loop(\(x,i).2x,x,1) - (x mod 2)))
1: loop(\(x,i).(x * i),x,(1 + loop(\(x,i).(x * i),x,(x + 1)) - (x mod 2)))
1: loop(\(x,i).(x * i),x,(5x + 1))
1: loop(\(x,i).(x * i),x,(x3 + 3x2 + 5x + 2))
1: loop(\(x,i).(x * i),x,(9x2 + 3x + 1))
1: loop(\(x,i).(x * i),x,(2x + 3))
1: loop(\(x,i).(x * i),x,((2x + 2) + (if x <= 0 then 0 else 1)))
1: loop(\(x,i).(x * i),x,(x2 + x + 1))
1: loop(\(x,i).(x * i),x,(2 + (x * (2 - (x mod 2)))))
1: loop(\(x,i).(x * i),x,(4x2 + 2x + 1))
1: loop(\(x,i).(x * i),x,(x4 + x2 + 1))
1: loop(\(x,i).(x * i),x,(3x2 + 3x + 1))
1: loop(\(x,i).(x * i),x,(3x2 + x))
1: loop(\(x,i).(x * i),x,(1 + (2 * (x div 2))))
1: loop(\(x,i).(x * i),x,(2x + 1))
1: loop(\(x,i).(x * i),x,(x + ((x2 + 3x + 2) div 2)))
1: loop(\(x,i).(x * i),x,(2 + ((x2 + ~x) div 2)))
1: loop(\(x,i).(x * i),x,(1 + ((x * (x mod 2)) div 2)))
1: loop(\(x,i).(x * i),x,(1 + (loop(\(x,i).(2x + 4),x,1) div 2)))
1: loop(\(x,i).(x * i),x,(1 + (x div 2)))
1: loop(\(x,i).(x * i),x,(1 + (x div 3)))
1: loop(\(x,i).(x * i),x,(1 + (x div 4)))
1: loop(\(x,i).(x * i),x,(x + (x div 4)))
1: loop(\(x,i).(x * i),x,(1 + (x div (1 + (2 mod (1 + (x mod 3)))))))
1: loop(\(x,i).(x * i),x,(1 + (x div (1 + (x mod 2)))))
1: loop(\(x,i).(x * i),x,(2 + ((4 mod (if x <= 0 then 1 else x)) mod 2)))
1: loop(\(x,i).(x * i),x,(1 + ((6 mod (x + 1)) mod 2)))
1: loop(\(x,i).(x * i),x,(1 + (x mod ~3)))
1: loop(\(x,i).(x * i),x,(x + (if (x + ~2) <= 0 then (if x <= 0 then 1 else x) else 1)))
1: loop(\(x,i).(x * i),x,(1 + (if (if x <= 0 then 1 else (x * loop(\(x,i).((~1 + i) * i),(x + ~2),1))) <= 0 then x else 0)))
1: loop(\(x,i).(x * i),x,(1 + (if x <= 0 then 0 else (x + 2))))
1: loop(\(x,i).(x * i),x,(1 + (if x <= 0 then 1 else (x + 4))))
1: loop(\(x,i).(x * i),x,(1 + loop(\(x,i).3x,x,1)))
1: loop(\(x,i).(x * i),x,(loop(\(x,i).7x,x,1) + loop(\(x,i).3x,x,1)))
1: loop(\(x,i).(x * i),x,(1 + loop(\(x,i).4x,x,1)))
1: loop(\(x,i).(x * i),x,(1 + loop(\(x,i).2x,(x + ~1),1)))
1: loop(\(x,i).(x * i),x,(1 + loop(\(x,i).2x,(x div 2),((x + 1) mod 2))))
1: loop(\(x,i).(x * i),x,(1 + loop(\(x,i).2x,x,1)))
1: loop(\(x,i).(x * i),x,(2 + loop(\(x,i).2x,x,1)))
1: loop(\(x,i).(x * i),x,(1 + loop(\(x,i).(x * i),x,(x + 2))))
1: loop(\(x,i).(x * i),x,(2 + i))
1: loop(\(x,i).(x * i),x,(1 - loop(\(x,i).(2 * (x - (i mod 2))),(x + ~2),0)))
1: loop(\(x,i).(x * i),x,(2 - (x mod 2)))
1: loop(\(x,i).(x * i),x,(~2 + (x mod 2) - (x div 3)))
1: loop(\(x,i).(x * i),x,(3x + ~1))
1: loop(\(x,i).(x * i),x,(x3 + x2 + 2x + 1))
1: loop(\(x,i).(x * i),x,(x2 + 3x + 1))
1: loop(\(x,i).(x * i),x,(x2 + x + ~3))
1: loop(\(x,i).(x * i),x,(~2 + ((~x + 1) div 3)))
1: loop(\(x,i).(x * i),x,(~1 + ((~x + 1) div (2 + (x div 2)))))
1: loop(\(x,i).(x * i),x,(~1 + ((~x + 2) div 5)))
1: loop(\(x,i).(x * i),x,(~2 + ((x2 + ~x) div 2)))
1: loop(\(x,i).(x * i),x,(~1 + (if (x + ~2) <= 0 then 1 else (x + ~2))))
1: loop(\(x,i).(x * i),x,(~1 + loop(\(x,i).(2x + i),x,2)))
1: loop(\(x,i).(x * i),x,(~1 + loop(\(x,i).4x,x,2)))
1: loop(\(x,i).(x * i),x,(~1 + loop(\(x,i).2x,(x div 2),2)))
1: loop(\(x,i).(x * i),x,(x + ~1))
1: loop(\(x,i).(x * i),x,(x + ~4))
1: loop(\(x,i).(x * i),x,(7x + ~3))
1: loop(\(x,i).(x * i),x,(x - (x2 div ~2)))
1: loop(\(x,i).(x * i),x,(x - (if (~x + 2) <= 0 then 1 else 0)))
1: loop(\(x,i).(x * i),x,(3x2 + 10x + 8))
1: loop(\(x,i).(x * i),x,x4)
1: loop(\(x,i).(x * i),x,(((x + 1) div 2) * (1 + (x div 2))))
1: loop(\(x,i).(x * i),x,((x div ~2) * (x div ~2)))
1: loop(\(x,i).(x * i),x,(3 * (if (x + ~2) <= 0 then x else 1)))
1: loop(\(x,i).(x * i),x,((x + 1) * loop(\(x,i).(x + ((x + loop(\(x,i).(x * i),i,1)) * (1 + i))),x,1)))
1: loop(\(x,i).(x * i),x,((x + 1) div 2))
1: loop(\(x,i).(x * i),x,((x + 2) div 3))
1: loop(\(x,i).(x * i),x,((2 * (2 + (if x <= 0 then 0 else (2 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))))) div 3))
1: loop(\(x,i).(x * i),x,((x3 + ~3x2 + 2x) div 2))
1: loop(\(x,i).(x * i),x,(x2 div 4))
1: loop(\(x,i).(x * i),x,(loop(\(x,i).2x,(x + ~3),1) div 2))
1: loop(\(x,i).(x * i),x,(loop(\(x,i).2x,x,4) div 3))
1: loop(\(x,i).(x * i),x,(x div 15))
1: loop(\(x,i).(x * i),x,(2 mod (1 + (x div 2))))
1: loop(\(x,i).(x * i),x,((x + 1) mod 2))
1: loop(\(x,i).(x * i),x,(x mod 2))
1: loop(\(x,i).(x * i),x,(if (~x + 2) <= 0 then (x + ~2) else 0))
1: loop(\(x,i).(x * i),x,(if (x + ~1) <= 0 then ~1 else (x2 + 2x)))
1: loop(\(x,i).(x * i),x,(if (x + ~2) <= 0 then x else 1))
1: loop(\(x,i).(x * i),x,(if (x + ~3) <= 0 then x else 2))
1: loop(\(x,i).(x * i),x,(if (5 mod (x + 2)) <= 0 then 2 else 1))
1: loop(\(x,i).(x * i),x,(if ((x + 1) mod (2 + (x mod 4))) <= 0 then 2 else 1))
1: loop(\(x,i).(x * i),x,(if (x mod 3) <= 0 then 2 else 1))
1: loop(\(x,i).(x * i),x,(if (x mod 4) <= 0 then 2 else 1))
1: loop(\(x,i).(x * i),x,(if x <= 0 then 1 else 2))
1: loop(\(x,i).(x * i),x,(if x <= 0 then 1 else ((x + 2) + (if (x + ~2) <= 0 then x else 1))))
1: loop(\(x,i).(x * i),x,(if x <= 0 then 1 else (x + 4)))
1: loop(\(x,i).(x * i),x,(if x <= 0 then 1 else (2 + (x div 2))))
1: loop(\(x,i).(x * i),x,(if x <= 0 then 1 else x))
1: loop(\(x,i).(x * i),x,(if x <= 0 then 2 else (x + 7)))
1: loop(\(x,i).(x * i),x,loop(\(x,i).((x + 1) + i),x,2))
1: loop(\(x,i).(x * i),x,loop(\(x,i).(3x + 1),x,0))
1: loop(\(x,i).(x * i),x,loop(\(x,i).(3x + 1),x,1))
1: loop(\(x,i).(x * i),x,loop(\(x,i).(10x + 1),x,1))
1: loop(\(x,i).(x * i),x,loop(\(x,i).(4x + 1),x,1))
1: loop(\(x,i).(x * i),x,loop(\(x,i).(2x + 1),(x + ~1),0))
1: loop(\(x,i).(x * i),x,loop(\(x,i).(2x + 1),x,0))
1: loop(\(x,i).(x * i),x,loop(\(x,i).(x + ((i * i * (1 + i)) div 2)),x,0))
1: loop(\(x,i).(x * i),x,loop(\(x,i).(loop(\(x,i).(x * (~1 + (2 * i))),i,1) + (x * i)),x,1))
1: loop(\(x,i).(x * i),x,loop(\(x,i).(x + loop(\(x,i).(x * i),i,2)),x,1))
1: loop(\(x,i).(x * i),x,loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),x,1))
1: loop(\(x,i).(x * i),x,loop(\(x,i).(2 * (x + (i mod 2))),(x div 2),1))
1: loop(\(x,i).(x * i),x,loop(\(x,i).(2 * (x - (2x * i))),2x,1))
1: loop(\(x,i).(x * i),x,loop(\(x,i).(2x * (1 + (2 * i))),(x + 2),1))
1: loop(\(x,i).(x * i),x,loop(\(x,i).(2x * (~1 + (2 * i))),(x2 + x),1))
1: loop(\(x,i).(x * i),x,loop(\(x,i).4x,x,loop(\(x,i).(1 + (x * i)),x,1)))
1: loop(\(x,i).(x * i),x,loop(\(x,i).(x * (i * (2 + i))),(x + 1),2))
1: loop(\(x,i).(x * i),x,loop(\(x,i).((x + 1) * ((if (x mod 2) <= 0 then 1 else x) mod 4)),x,1))
1: loop(\(x,i).(x * i),x,loop(\(x,i).(x * i),((x2 + x) div 2),1))
1: loop(\(x,i).(x * i),x,loop(\(x,i).loop(\(x,i).(~1 + (x * i)),x,1),(x + ~1),(if x <= 0 then 1 else x)))
1: loop(\(x,i).(x * i),x,i)
1: loop(\(x,i).(x * i),i,3)
1: loop(\(x,i).(x * i),i,(~1 + i))
1: loop(\(x,i).(x * i),i,2x)
1: loop(\(x,i).(x * i),i,(x * i))
1: loop(\(x,i).(x * i),i,(i * i))
1: loop(\(x,i).(x * i),i,loop(\(x,i).(2x + (i mod 2)),x,0))
1: loop(\(x,i).(i * i),(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,x)),1)
1: loop(\(x,i).(i * i),(x + ~1),1)
1: loop(\(x,i).(i * i),(x + ~2),x)
1: loop(\(x,i).(i * i),(x + ~9),x)
1: loop(\(x,i).(x * compr(\x.(loop(\(x,i).(x * (1 + (i div 2))),x,1) mod (x + 1)),i)),x,1)
1: loop(\(x,i).(x * compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i)),x,1)
1: loop(\(x,i).(x * compr(\x.(loop(\(x,i).(~2x + 2),x,0) mod (x + 1)),i)),x,1)
1: loop(\(x,i).((1 + (4 * (x + (if (x + ~4) <= 0 then 1 else 2)))) div 3),1,i)
1: loop(\(x,i).((2 + (x * (x + i))) div (x + 2)),x,1)
1: loop(\(x,i).((1 + (2x * (~1 + (2 * i)))) div (if i <= 0 then 1 else i)),x,1)
1: loop(\(x,i).((4x + 1) div (1 + i)),x,1)
1: loop(\(x,i).((3x2 + x) div 2),x,1)
1: loop(\(x,i).((x3 + 1) div 2),1,(x2 + 2x + 1))
1: loop(\(x,i).((x2 + 1) div 2),1,(loop(\(x,i).2x,x,1) div 3))
1: loop(\(x,i).((x2 + 2) div (x + 4)),2,x)
1: loop(\(x,i).(((x * i) + (x div 2)) div 2),2,x)
1: loop(\(x,i).((1 + (((x + 1) * (2 + i)) div 2)) div 2),x,1)
1: loop(\(x,i).((1 + ((x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).2x,i,2))) div 2)) div 2),x,1)
1: loop(\(x,i).((x + (x2 div 3)) div 2),1,loop(\(x,i).2x,x,1))
1: loop(\(x,i).((x + (x2 div 3)) div 2),2,x)
1: loop(\(x,i).(((4x + 2) + (x2 div 4)) div (1 + i)),x,1)
1: loop(\(x,i).((1 + (x2 div (4 + (x div 2)))) div 2),2,x)
1: loop(\(x,i).((1 + ((loop(\(x,i).2x,x,2) mod (x + 1)) div 2)) div 2),1,(2x + 2))
1: loop(\(x,i).(((x div 2) + i) div 2),(x div 2),x)
1: loop(\(x,i).((2 + (x div (1 + ((1 + (x div 2) - (x div 3)) mod 3)))) div 2),2,x)
1: loop(\(x,i).((x + loop(\(x,i).3x,i,x)) div 2),x,1)
1: loop(\(x,i).((1 + loop(\(x,i).2x,x,1)) div (2x + 1)),1,(2x + 2))
1: loop(\(x,i).((x + 1) div 2),2x,loop(\(x,i).6x,(x + 1),1))
1: loop(\(x,i).((x + 1) div 2),x,loop(\(x,i).3x,x,2))
1: loop(\(x,i).((x + 1) div 2),x,loop(\(x,i).(x * (~1 + (2 * i))),x,1))
1: loop(\(x,i).((x + 1) div 3),x,loop(\(x,i).4x,x,1))
1: loop(\(x,i).((x + 1) div (2 - ((x mod 3) div 2))),x,(x + 4))
1: loop(\(x,i).((x + 2) div 3),x,loop(\(x,i).4x,x,1))
1: loop(\(x,i).((x + 2) div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,2x)
1: loop(\(x,i).((x + 2) div (2 - (x mod 2))),2,(x + 2))
1: loop(\(x,i).((x + i) div (1 + (x div 2))),x,x)
1: loop(\(x,i).(((~2x + 1) + (x div (1 + i))) div 2),2x,x)
1: loop(\(x,i).((~2x + 1) div (4 + (x div 4))),2,x)
1: loop(\(x,i).((~x + 1) div 2),(x div 2),2x)
1: loop(\(x,i).((~x + 2) div 2),((x + 1) mod 4),(x div 2))
1: loop(\(x,i).((~x - i) div (x + 4)),2x,1)
1: loop(\(x,i).((3x + ~1) div 5),2,x)
1: loop(\(x,i).((~3x + 5) div (x + 4)),2,x)
1: loop(\(x,i).((x2 + ~2x + ~1) div 2),2,x)
1: loop(\(x,i).((16 - (x mod (1 + i))) div (x + 2)),2,x)
1: loop(\(x,i).((3x2 + ~x) div 2),1,(2x + (x div 2)))
1: loop(\(x,i).((3x2 + ~x) div 2),1,loop(\(x,i).(2x + 2),x,1))
1: loop(\(x,i).((3x2 + ~x) div 2),2,x)
1: loop(\(x,i).((3x2 + ~x) div 2),x,2)
1: loop(\(x,i).((x2 + ~1) div 2),2,(x + ~2))
1: loop(\(x,i).((x2 + ~2) div 7),2,(x + ~1))
1: loop(\(x,i).((loop(\(x,i).3x,x,1) - loop(\(x,i).3x,(x div 2),1)) div 2),1,i)
1: loop(\(x,i).((~1 + loop(\(x,i).2x,x,2)) div (x + 2)),1,compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x))
1: loop(\(x,i).((~1 + loop(\(x,i).(x * i),i,1)) div (x + 1)),x,0)
1: loop(\(x,i).((x + ~1) div 2),(x + ~2),1)
1: loop(\(x,i).(((x + 1) - ((x div 2) mod 2)) div 2),2,x)
1: loop(\(x,i).((x - (x div ~2)) div (1 + (x mod 2))),2,x)
1: loop(\(x,i).((x - (x div ~2)) div (1 + (x mod 2))),x,4)
1: loop(\(x,i).((x - (((if x <= 0 then 2 else x) div 2) mod 2)) div 2),2,x)
1: loop(\(x,i).(8 div (1 + ((x + 1) div 2))),2,x)
1: loop(\(x,i).(8 div (x + 1)),2,i)
1: loop(\(x,i).(12 div (x + 1)),2,x)
1: loop(\(x,i).(12 div (x + 2)),2,x)
1: loop(\(x,i).((4x + ~4) div (x + 2)),1,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))
1: loop(\(x,i).(10 div (x + 1)),2,(x + 1))
1: loop(\(x,i).(10 div (x + 2)),2,x)
1: loop(\(x,i).((x2 + 5x) div 2),2,(5x + 1))
1: loop(\(x,i).((x2 + 5x) div 2),2,x)
1: loop(\(x,i).((2 * (4 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3),1,i)
1: loop(\(x,i).((5 * (3 + (x mod 2))) div (x + 1)),2,2x)
1: loop(\(x,i).((x * (4 + (i mod 2))) div 2),x,2)
1: loop(\(x,i).((x * ((x + 2) + i)) div (1 + i)),2,x)
1: loop(\(x,i).((~2x + 8) div (x + 3)),2,x)
1: loop(\(x,i).((x * ((~x + 1) + (2x * (i * i)))) div 2),2,x)
1: loop(\(x,i).((x * (1 + loop(\(x,i).(x * i),x,1) - (x mod 2))) div 2),1,(x + ~1))
1: loop(\(x,i).((3x2 + 7x + 4) div 2),1,(x2 + 2x + 1))
1: loop(\(x,i).((x * (2 + ((1 + i) * i))) div 2),x,1)
1: loop(\(x,i).((2 * (1 + (x * (~1 + (2 * i))))) div (1 + i)),2x,1)
1: loop(\(x,i).((2 * (1 + (x * (~1 + (2 * i))))) div (1 + i)),x,0)
1: loop(\(x,i).((11x2 + 52x + 41) div 2),2,3)
1: loop(\(x,i).((2x3 + x) div 3),x,2)
1: loop(\(x,i).((3 * (x + (3x * i))) div (2 + i)),x,1)
1: loop(\(x,i).((2x2 + x) div (1 + i)),2,(2x + 1))
1: loop(\(x,i).((3x2 + 3) div 2),1,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))
1: loop(\(x,i).((x3 + x) div 2),1,loop(\(x,i).2x,x,1))
1: loop(\(x,i).((x3 + x) div 2),2,(x + ~1))
1: loop(\(x,i).((x3 + x) div 2),x,2)
1: loop(\(x,i).((3 * (x + (i * i))) div (1 + i)),x,1)
1: loop(\(x,i).((x * (1 + ((x div 2) div (1 + (x mod 2))))) div 2),3,x)
1: loop(\(x,i).((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3),1,(x + 1))
1: loop(\(x,i).((x * (2 + (x div 2))) div 2),x,2)
1: loop(\(x,i).((2 * (x + ((x div 3) mod 2))) div 3),2,x)
1: loop(\(x,i).((2 * (2 + (if x <= 0 then 0 else (2 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))))) div 3),1,i)
1: loop(\(x,i).(((x + loop(\(x,i).(x * i),i,1)) * (2 + i)) div 2),x,1)
1: loop(\(x,i).((2x + 2) div (1 + i)),((x + 1) div 2),1)
1: loop(\(x,i).((x2 + x) div 2),1,(1 + (2 * loop(\(x,i).loop(\(x,i).(x2 + ~1),x,2),x,1))))
1: loop(\(x,i).((x2 + x) div 2),1,(1 + (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))))
1: loop(\(x,i).((x2 + x) div 2),1,(1 + (x mod (1 + (x mod (2 * (1 + (2 * (x mod 2)))))))))
1: loop(\(x,i).((x2 + x) div 2),1,(1 + loop(\(x,i).2x,(x + ~1),1)))
1: loop(\(x,i).((x2 + x) div 2),1,(1 + loop(\(x,i).2x,x,1)))
1: loop(\(x,i).((x2 + x) div 2),1,(1 - (x div (~2 + (((~x + 2) div 2) div 5)))))
1: loop(\(x,i).((x2 + x) div 2),1,(1 - loop(\(x,i).(2x + ~4),(x + ~2),0)))
1: loop(\(x,i).((x2 + x) div 2),1,(~7x + 1))
1: loop(\(x,i).((x2 + x) div 2),1,(~7x + ~4))
1: loop(\(x,i).((x2 + x) div 2),1,((x + 1) * loop(\(x,i).(10x + 1),x,1)))
1: loop(\(x,i).((x2 + x) div 2),1,((~2x + 2) div 5))
1: loop(\(x,i).((x2 + x) div 2),1,((loop(\(x,i).(2x + 4),x,1) div 2) div 2))
1: loop(\(x,i).((x2 + x) div 2),1,loop(\(x,i).(x2 + (x mod 2)),x,1))
1: loop(\(x,i).((x2 + x) div 2),1,loop(\(x,i).(x + (i * i)),x,0))
1: loop(\(x,i).((x2 + x) div 2),1,loop(\(x,i).(~2x + (i mod 2)),x,0))
1: loop(\(x,i).((x2 + x) div 2),1,loop(\(x,i).(2x + 2),x,1))
1: loop(\(x,i).((x2 + x) div 2),1,loop(\(x,i).(3x + 3),x,3))
1: loop(\(x,i).((x2 + x) div 2),1,loop(\(x,i).~2x,x,1))
1: loop(\(x,i).((x2 + x) div 2),1,loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,1))
1: loop(\(x,i).((x2 + x) div 2),1,loop(\(x,i).4x,x,1))
1: loop(\(x,i).((x2 + x) div 2),1,loop(\(x,i).~4x,x,1))
1: loop(\(x,i).((x2 + x) div 2),1,loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),x,1))
1: loop(\(x,i).((x2 + x) div 2),1,loop(\(x,i).2x,(2x + ~1),1))
1: loop(\(x,i).((x2 + x) div 2),1,loop(\(x,i).(x * i),x,1))
1: loop(\(x,i).((x2 + x) div 2),1,loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,1))
1: loop(\(x,i).((x2 + x) div 2),1,loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1))
1: loop(\(x,i).((x2 + x) div 2),2,7)
1: loop(\(x,i).((x2 + x) div 2),2,(1 + (x div 2)))
1: loop(\(x,i).((x2 + x) div 2),2,3x)
1: loop(\(x,i).((x2 + x) div 2),2,2x)
1: loop(\(x,i).((x2 + x) div 2),3,x)
1: loop(\(x,i).((x2 + x) div 2),4,x)
1: loop(\(x,i).((x2 + x) div 2),5,2)
1: loop(\(x,i).((x2 + x) div 2),(x + 1),(x + 1))
1: loop(\(x,i).((x2 + x) div 2),x,3)
1: loop(\(x,i).((x2 + x) div 2),x,4)
1: loop(\(x,i).((x2 + x) div 2),x,5)
1: loop(\(x,i).((x2 + x) div 2),x,7)
1: loop(\(x,i).((x2 + x) div 2),x,9)
1: loop(\(x,i).((x2 + x) div 2),x,8)
1: loop(\(x,i).((x2 + x) div 2),x,loop(\(x,i).2x2,(2x + 2),1))
1: loop(\(x,i).((x2 + x) div 2),x,loop(\(x,i).x3,(x + 1),2))
1: loop(\(x,i).((x2 + x) div 2),x,loop(\(x,i).x2,4x,2))
1: loop(\(x,i).((x2 + x) div 2),x,x)
1: loop(\(x,i).((x2 + x) div 4),2,x)
1: loop(\(x,i).((x2 + x) div (1 + (x div 2))),x,1)
1: loop(\(x,i).(((x + 1) * i) div 3),(x + ~1),1)
1: loop(\(x,i).((x2 + 3x + 2) div 2),2,9)
1: loop(\(x,i).((x2 + 3x + 2) div 2),x,0)
1: loop(\(x,i).((x2 + 3x + 2) div 2),x,4)
1: loop(\(x,i).((x2 + 2x) div 2),1,(1 + loop(\(x,i).12x,2,(x + 1))))
1: loop(\(x,i).((x2 + 2x) div 4),1,(x + 3))
1: loop(\(x,i).((x2 + 2x) div 16),2,x)
1: loop(\(x,i).(((x + ~1) * (1 + i)) div 3),x,1)
1: loop(\(x,i).((x * (1 + i)) div (1 + (i div 2))),(x + ~2),1)
1: loop(\(x,i).((x * (1 + i)) div (1 + (i div 2))),(x + ~2),x)
1: loop(\(x,i).((x * (2 + i)) div 2),(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1)
1: loop(\(x,i).((x * (2 + i)) div 2),x,(x + ~1))
1: loop(\(x,i).((x * (2 + i)) div 2),x,x)
1: loop(\(x,i).((2 * (x + i)) div 3),x,2x)
1: loop(\(x,i).((4 * (x + i)) div (x + 1)),x,2)
1: loop(\(x,i).((x * (x + i)) div 2),2,(x + 1))
1: loop(\(x,i).((x * (x + i)) div 2),x,x)
1: loop(\(x,i).((x * (x + i)) div (1 + i)),2,(x + 1))
1: loop(\(x,i).((x * (x + i)) div (1 + i)),2,i)
1: loop(\(x,i).((x * (x + i)) div (1 + i)),3,x)
1: loop(\(x,i).((x * (x + i)) div (1 + i)),4,x)
1: loop(\(x,i).(((x + i) * i) div (x + 1)),x,(x + 2))
1: loop(\(x,i).((~x3 + x) div 2),2,3)
1: loop(\(x,i).((~x2 + ~x + 2) div 2),2,x)
1: loop(\(x,i).((~x2 + x) div 2),2,(x + ~1))
1: loop(\(x,i).((x * (2 - (i div ~4))) div 2),x,1)
1: loop(\(x,i).((5x2 + ~x) div 2),1,loop(\(x,i).4x,x,1))
1: loop(\(x,i).((5x2 + ~x) div 2),2,(x + 1))
1: loop(\(x,i).((x * (~1 + (x * (~1 + (2 * i))))) div 2),2,(x + 1))
1: loop(\(x,i).((x3 + ~x) div 2),1,loop(\(x,i).2x,x,1))
1: loop(\(x,i).((x2 + ~x) div 2),1,(1 + compr(\x.(loop(\(x,i).(x * (1 + (i div 2))),x,1) mod (x + 1)),x)))
1: loop(\(x,i).((x2 + ~x) div 2),1,(5x + ~1))
1: loop(\(x,i).((x2 + ~x) div 2),1,(((x3 + 3x2 + 2x) div 2) div 3))
1: loop(\(x,i).((x2 + ~x) div 2),1,loop(\(x,i).~2x,x,1))
1: loop(\(x,i).((x2 + ~x) div 2),1,loop(\(x,i).(x * (~2 + (i mod 2))),x,1))
1: loop(\(x,i).((x2 + ~x) div 2),1,loop(\(x,i).10x,x,1))
1: loop(\(x,i).((x2 + ~x) div 2),1,loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1))
1: loop(\(x,i).((x2 + ~x) div 2),2,(x + 3))
1: loop(\(x,i).((x2 + ~x) div 2),2,(2x + 3))
1: loop(\(x,i).((x2 + ~x) div 2),2,(x2 + 2))
1: loop(\(x,i).((x2 + ~x) div 2),2,(1 + ((x + 1) div 2)))
1: loop(\(x,i).((x2 + ~x) div 2),2,(1 + i))
1: loop(\(x,i).((x2 + ~x) div 2),2,3x)
1: loop(\(x,i).((x2 + ~x) div 2),2,(2x + 2))
1: loop(\(x,i).((x2 + ~x) div 2),2,(x2 + 2x))
1: loop(\(x,i).((x2 + ~x) div 2),2,((x + ~1) div 2))
1: loop(\(x,i).((x2 + ~x) div 2),3,(x + ~2))
1: loop(\(x,i).((x2 + ~x) div 2),3,x)
1: loop(\(x,i).((x2 + ~x) div 2),(x + ~1),(1 + (x mod 3)))
1: loop(\(x,i).((x2 + ~x) div 2),x,4)
1: loop(\(x,i).((x2 + ~x) div 2),i,(x + 2))
1: loop(\(x,i).((x2 + ~x) div 4),2,(x + ~2))
1: loop(\(x,i).((x2 + ~x) div (1 + ((~1 + (2 * i)) * i))),2,(x + ~1))
1: loop(\(x,i).((x2 + ~x) div (x + 2)),2,x)
1: loop(\(x,i).((x2 + ~x) div (1 + i)),2,(x + 4))
1: loop(\(x,i).((x2 + ~x) div (8 * (1 + i))),2,x)
1: loop(\(x,i).(((x + ~1) * i) div 2),x,1)
1: loop(\(x,i).((2x + ~4) div (1 + i)),(x + ~1),(x2 + x))
1: loop(\(x,i).((x2 + ~2x) div 2),2,x)
1: loop(\(x,i).((x2 + ~2x) div (1 + (x div 2))),1,loop(\(x,i).4x,x,1))
1: loop(\(x,i).((x * ((x + ~1) - i)) div (1 + i)),2,x)
1: loop(\(x,i).((x * ((x + ~1) + (2 * (i mod 2)))) div 2),x,3)
1: loop(\(x,i).((3 * (x - ((2x + 2) div ~5))) div 2),2,x)
1: loop(\(x,i).((x * (~x + i)) div 2),x,x)
1: loop(\(x,i).(24 div (x + 1)),2,(x + 1))
1: loop(\(x,i).((8x + 8) div 3),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).((x3 + 7x2 + 14x + 8) div 2),1,(x + 3))
1: loop(\(x,i).((x3 + 7x2 + 14x + 8) div 2),1,(x2 + 2x))
1: loop(\(x,i).((2x2 + 8x) div 3),(x + ~1),1)
1: loop(\(x,i).((2x * (4 + i)) div (1 + i)),(2x + 1),(x + 1))
1: loop(\(x,i).((2x * (4 + i)) div (1 + i)),2x,1)
1: loop(\(x,i).((2x * (4 + i)) div (1 + i)),2x,2)
1: loop(\(x,i).((2x * (4 + i)) div (1 + i)),x,1)
1: loop(\(x,i).((4x * (4 + i)) div (1 + i)),x,1)
1: loop(\(x,i).((x * ((4 + i) * (1 + i))) div 2),x,1)
1: loop(\(x,i).(28 div (x + 1)),2,2x)
1: loop(\(x,i).((4x2 + 2x) div 3),x,1)
1: loop(\(x,i).((2x * (1 + (2 * i))) div (3 + i)),(x + 1),2)
1: loop(\(x,i).((2x * (1 + (2 * i))) div (1 + i)),(x + ~1),7)
1: loop(\(x,i).((2x * (1 + (2 * i))) div (1 + i)),compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),2)
1: loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(2x + 1),1)
1: loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x + 1),(x + 2))
1: loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x + 2),1)
1: loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1)
1: loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x + ~2),(x + ~2))
1: loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(~2 + i),2)
1: loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),3x,1)
1: loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(5x2 + 10x),1)
1: loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),16x,1)
1: loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),18x,1)
1: loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x div 2),1)
1: loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x div 2),(1 + (x div 2)))
1: loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x div 2),(1 + (x mod 2)))
1: loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,(x + 3))
1: loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,(x + 4))
1: loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,(~x + 3))
1: loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,(2x + 1))
1: loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,(x + ~1))
1: loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,(x + ~2))
1: loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,x2)
1: loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,(if x <= 0 then 1 else 2))
1: loop(\(x,i).((4 * (2 + (if x <= 0 then 2 else 0))) div (x + 1)),2,x)
1: loop(\(x,i).(((x2 + x) * (1 + (x div 2))) div 3),x,2)
1: loop(\(x,i).((x * ((1 + i) * (1 + i))) div 2),x,(x + 1))
1: loop(\(x,i).((3x * (2 + i)) div (1 + i)),x,1)
1: loop(\(x,i).((x * ((2 + i) * (1 + i))) div 2),x,1)
1: loop(\(x,i).((x * ((x + i) * i)) div 2),2,x)
1: loop(\(x,i).((4 * ((2x - (x div (if i <= 0 then 1 else i))) * (1 + (2 * i)))) div (1 + i)),x,1)
1: loop(\(x,i).((2x * (~1 + (2 * i))) div 3),(x + ~2),x)
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + (i div 2))),2x,1)
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),(1 + (2 * (x mod 2))),(x + 2))
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),(1 + (x div 2)),(if (x mod 2) <= 0 then 1 else ~2))
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),(x + 2),(~1 + loop(\(x,i).2x,x,2)))
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),(2x + ~1),1)
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),(2x + ~1),2)
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),(x + ~1),2)
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),(x + ~1),~x)
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),(x + ~1),(3x + ~1))
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),(x + ~1),(x2 div 2))
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),(x + ~2),(~x + 1))
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),(x + ~2),x)
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),18x,1)
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x2,1)
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),((x + 1) div 2),(1 - (2 * (x mod 2))))
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),((x2 + x) div 2),1)
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),(x div 2),(1 + (2 * (x mod 2))))
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),(x div 2),((if x <= 0 then 1 else x) mod 2))
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),(x div 2),(x mod 2))
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),loop(\(x,i).(2x + 1),x,0),1)
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),loop(\(x,i).(2x + 2),x,0),1)
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,5)
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,(x + 3))
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,(3x + 2))
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,(5x + 1))
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,(5x + 2))
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,(5x + 3))
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,(x2 + 5x + 2))
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,(7x + 1))
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,(x2 + x + 1))
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,(9x + 1))
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,(10x + 1))
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,(8x + 1))
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,(12x + 1))
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,(4x + 1))
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,(6x + 1))
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,(x2 + 2))
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,(x + 2))
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,(11x + 1))
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,(3x + ~1))
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,(9x + 5))
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,(x2 + 3x + 1))
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,(~1 + loop(\(x,i).2x,x,2)))
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,(x + ~1))
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,(x2 + 6x + 9))
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,(x2 + 4x + 4))
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),i,(x * i))
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (2 + i)),x,3)
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (2 + i)),x,(3x + 1))
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (2 + i)),x,(3x + 3))
1: loop(\(x,i).((2x * (~1 + (2 * i))) div (if i <= 0 then 2 else ((1 + i) div 2))),x,1)
1: loop(\(x,i).((x3 + ~3x2 + 2x) div 3),1,(x2 div 4))
1: loop(\(x,i).((x3 + ~3x2 + 2x) div 5),2,x)
1: loop(\(x,i).((4x * ((~x + 1) + i)) div (1 + i)),x,1)
1: loop(\(x,i).((2x2 * (1 + (2 * i))) div (2 + i)),x,1)
1: loop(\(x,i).((6x * (~1 + (2 * i))) div (2 + i)),(x + 1),(x + 1))
1: loop(\(x,i).((6x * (~1 + (2 * i))) div (2 + i)),x,1)
1: loop(\(x,i).((6x * (~1 + (2 * i))) div (2 + i)),x,(x + 1))
1: loop(\(x,i).((8x * (~1 + (2 * i))) div (1 + i)),(x + ~1),1)
1: loop(\(x,i).((8x * (~1 + (2 * i))) div (1 + i)),(x + ~1),2)
1: loop(\(x,i).((8x * (~1 + (2 * i))) div (1 + i)),x,1)
1: loop(\(x,i).((8x * (~1 + (2 * i))) div (1 + i)),i,1)
1: loop(\(x,i).(8x div 3),loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1)
1: loop(\(x,i).((4x * (~1 + (2 * i))) div (1 + i)),(x + ~1),2)
1: loop(\(x,i).((4x * (~1 + (2 * i))) div (1 + i)),(x + ~1),(if x <= 0 then 0 else 1))
1: loop(\(x,i).((4x * (~1 + (2 * i))) div (1 + i)),(~1 + i),2)
1: loop(\(x,i).((4x * (~1 + (2 * i))) div (1 + i)),x,2)
1: loop(\(x,i).((4x * (~1 + (2 * i))) div (1 + i)),i,2)
1: loop(\(x,i).((4x * (~1 + (2 * i))) div (2 + i)),(x + 1),1)
1: loop(\(x,i).((4x * (~1 + (2 * i))) div (2 + i)),x,1)
1: loop(\(x,i).((2x2 * (~1 + (2 * i))) div (1 + i)),x,1)
1: loop(\(x,i).(x5 div 32),1,(2x + 1))
1: loop(\(x,i).((3x * (i * i)) div 2),x,1)
1: loop(\(x,i).((x * (i * i * (1 + i))) div 2),x,1)
1: loop(\(x,i).((2 * (((2x * (1 + (2 * i))) div (2 + i)) * (~1 + (2 * i)))) div (1 + i)),(x + 1),1)
1: loop(\(x,i).((2 * (((2x * (1 + (2 * i))) div (2 + i)) * (~1 + (2 * i)))) div (1 + i)),(x + 1),(x + 1))
1: loop(\(x,i).((2 * (((2x * (1 + (2 * i))) div (2 + i)) * (~1 + (2 * i)))) div (1 + i)),x,1)
1: loop(\(x,i).((2 * (((2x * (1 + (2 * i))) div (2 + i)) * (~1 + (2 * i)))) div (1 + i)),x,(x + 1))
1: loop(\(x,i).(((5x + 5) * (x2 div 2)) div 2),2x,2)
1: loop(\(x,i).(2x2 div (x + 1)),2,x)
1: loop(\(x,i).((x3 + x2) div 2),1,loop(\(x,i).(3x + 1),x,0))
1: loop(\(x,i).((x3 + x2) div 2),1,loop(\(x,i).2x,x,1))
1: loop(\(x,i).((x3 + ~x2) div 2),2,(x + ~1))
1: loop(\(x,i).(x3 div 2),1,(x2 + x + ~1))
1: loop(\(x,i).(x3 div 2),1,(4x2 + 8x + 4))
1: loop(\(x,i).(x3 div 2),x2,3)
1: loop(\(x,i).(x3 div 3),x,(~x + 1))
1: loop(\(x,i).((2x * i) div (1 + i)),x,2)
1: loop(\(x,i).((x * (i * (1 + i))) div 2),x,1)
1: loop(\(x,i).((x * (i * (1 + i))) div 2),i,1)
1: loop(\(x,i).(((x2 + ~x) * i) div 2),2,(x + 3))
1: loop(\(x,i).((x2 * i) div (x + 1)),x,2)
1: loop(\(x,i).((x * (i * i)) div 2),(x + 1),2)
1: loop(\(x,i).((x * (i * i)) div ~4),2x,1)
1: loop(\(x,i).((x * ((x + 1) div 2)) div 2),2,(x + ~1))
1: loop(\(x,i).((x * ((x + ~1) div 2)) div 2),2,x)
1: loop(\(x,i).((3 * ((x2 + x) div 2)) div 2),3,x)
1: loop(\(x,i).(((x + ~2) * ((x2 + 2x) div 2)) div 2),2,x)
1: loop(\(x,i).((x * ((x * loop(\(x,i).((x2 + ~x) div 2),2,(x + 2))) div (x + 1))) div 2),x,2)
1: loop(\(x,i).(((x + ~1) * (x2 div 3)) div 2),2,(x + ~1))
1: loop(\(x,i).((x * (x div 2)) div 2),2,(2x + 2))
1: loop(\(x,i).((x * (x div 2)) div 3),1,loop(\(x,i).(2x + 1),x,0))
1: loop(\(x,i).(((x div 4) * (x div 4)) div 2),2,2x)
1: loop(\(x,i).(((x div 5) * (x div 2)) div 2),2,(x + 1))
1: loop(\(x,i).(((x + ~1) * ((x div 2) mod 2)) div 2),2,x)
1: loop(\(x,i).((x * loop(\(x,i).(x3 + ~x),1,2x2)) div 2),1,(x + 2))
1: loop(\(x,i).((x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).2x,i,1))) div 2),x,1)
1: loop(\(x,i).((x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).2x,i,1))) div 2),i,x)
1: loop(\(x,i).((loop(\(x,i).(x2 + ~2x),2,x) * i) div 2),x,1)
1: loop(\(x,i).((x * loop(\(x,i).x2,1,loop(\(x,i).(2x * (~1 + (2 * i))),i,1))) div 2),x,1)
1: loop(\(x,i).(((x + 1) * loop(\(x,i).((x3 + x2) div 2),2,x)) div 2),1,x2)
1: loop(\(x,i).(2x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,(x2 + x))
1: loop(\(x,i).(2x div (1 + i)),x,(1 + (2 * i)))
1: loop(\(x,i).(2x div (1 + i)),x,loop(\(x,i).(5x + 4),x,0))
1: loop(\(x,i).(x2 div 2),1,(1 + loop(\(x,i).3x,x,1)))
1: loop(\(x,i).(x2 div 2),1,(1 + loop(\(x,i).4x,x,2)))
1: loop(\(x,i).(x2 div 2),1,(1 - loop(\(x,i).(2x - (i mod 2)),x,0)))
1: loop(\(x,i).(x2 div 2),1,(x3 + 3x2 + 2x))
1: loop(\(x,i).(x2 div 2),1,(x4 + x3))
1: loop(\(x,i).(x2 div 2),1,(loop(\(x,i).2x,x,1) div 3))
1: loop(\(x,i).(x2 div 2),1,loop(\(x,i).(2x * (1 + (2 * i))),(x + 1),1))
1: loop(\(x,i).(x2 div 2),2,(x2 + ~x + ~1))
1: loop(\(x,i).(x2 div 2),2,(x2 + 3x + 2))
1: loop(\(x,i).(x2 div 2),2,i)
1: loop(\(x,i).(x2 div 2),(x + 1),x)
1: loop(\(x,i).(x2 div 2),(x + ~2),loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1))
1: loop(\(x,i).(x2 div 2),(x div 2),(if x <= 0 then 0 else (x + 1)))
1: loop(\(x,i).(x2 div 2),x,3)
1: loop(\(x,i).(x2 div 2),x,loop(\(x,i).2x,x,1))
1: loop(\(x,i).(x2 div 3),1,(~1 + loop(\(x,i).10x,(x + 1),1)))
1: loop(\(x,i).(x2 div 3),2,(x + 3))
1: loop(\(x,i).(x2 div 3),((x + ~1) div 2),x)
1: loop(\(x,i).(x2 div 4),1,(1 + loop(\(x,i).2x,x,1)))
1: loop(\(x,i).(x2 div 4),1,(x - (2 * (((x + 1) div 2) div 2))))
1: loop(\(x,i).(x2 div 4),2,x)
1: loop(\(x,i).(x2 div 4),x,5)
1: loop(\(x,i).(x2 div (x + 4)),3,x)
1: loop(\(x,i).(x2 div ((x + 2) + i)),2,x)
1: loop(\(x,i).(x2 div (1 + (x mod 2))),(x + ~2),x)
1: loop(\(x,i).(x2 div (2 + (x mod 2))),2,(x + 1))
1: loop(\(x,i).(x2 div (1 + i)),2,(2x + 2))
1: loop(\(x,i).(x2 div (2 - (i mod 2))),x,2)
1: loop(\(x,i).(x2 div 16),2,x)
1: loop(\(x,i).((2 * i) div (x + 2)),x,1)
1: loop(\(x,i).((x * i) div 2),x,(x + 1))
1: loop(\(x,i).((x * i) div (2 - (i mod 2))),x,1)
1: loop(\(x,i).(((1 + loop(\(x,i).4x,x,2) - loop(\(x,i).3x,x,3)) div 2) div 2),1,3x)
1: loop(\(x,i).(((x2 + x) div 2) div 3),2,(x + ~2))
1: loop(\(x,i).(((x3 + ~x) div 2) div 3),1,(2 * (if x <= 0 then 1 else (x + 2))))
1: loop(\(x,i).(((x3 + 3x2 + 2x) div 2) div 3),2,x)
1: loop(\(x,i).(((x3 + ~3x2 + 2x) div 2) div 3),1,((x2 + ~x) div 2))
1: loop(\(x,i).(((x3 + ~3x2 + 2x) div 2) div 3),x,5)
1: loop(\(x,i).(((5x3 + 3x2 + ~2x) div 2) div 3),2,x)
1: loop(\(x,i).(((x * (x div 2)) div 2) div 5),2,x)
1: loop(\(x,i).((x2 div 2) div 3),2,(x + ~2))
1: loop(\(x,i).((x2 div 2) div 5),2,(x + ~3))
1: loop(\(x,i).((loop(\(x,i).(x * i),x,1) div (x + 1)) div 2),1,(1 + compr(\x.((~1 + loop(\(x,i).(x * i),x,1)) mod (x + 2)),x)))
1: loop(\(x,i).((x div 2) div (1 + (x mod 2))),2,(x2 + 2x))
1: loop(\(x,i).(((1 + (x mod (1 + (x mod (2 * (2 + ((x div 2) mod 2))))))) mod (x + 1)) div 2),1,(x + 1))
1: loop(\(x,i).((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2),1,(x - (2 * (~2 + (x div 5)))))
1: loop(\(x,i).((if x <= 0 then 1 else x) div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))),2,x)
1: loop(\(x,i).((if x <= 0 then 2 else ((1 + ((x * (1 + (x mod 3))) div 2)) div 2)) div 2),2,2x)
1: loop(\(x,i).((if x <= 0 then 2 else loop(\(x,i).((2x * (~1 + (2 * i))) div (2 + i)),x,3x)) div 2),1,(2x + ~1))
1: loop(\(x,i).((if x <= 0 then 2 else loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 2),2,x)
1: loop(\(x,i).((if x <= 0 then 2 else loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 2),x,x)
1: loop(\(x,i).((if x <= 0 then 2 else loop(\(x,i).(x div (2 - (x mod 2))),x,x)) div 2),x,(x + 1))
1: loop(\(x,i).(loop(\(x,i).(2x + 3),x,0) div loop(\(x,i).(x2 + x),2,2)),2,x)
1: loop(\(x,i).(loop(\(x,i).(2 + ((x2 + x) div 2)),2,x) div 3),1,i)
1: loop(\(x,i).(loop(\(x,i).(2 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),2,x) div (1 + i)),2,x)
1: loop(\(x,i).(loop(\(x,i).(4x + ~1),x,2) div 3),1,(x + 1))
1: loop(\(x,i).(loop(\(x,i).(2x + 2),x,0) div (x + 1)),1,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(loop(\(x,i).(2x + 2),x,0) div (x + 1)),1,compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x))
1: loop(\(x,i).(loop(\(x,i).(x * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))),i,x) div (1 + i)),x,1)
1: loop(\(x,i).(loop(\(x,i).(x * (~1 + (2 * i))),i,1) div (if x <= 0 then 1 else x)),x,1)
1: loop(\(x,i).(loop(\(x,i).(2x * (~1 + (2 * i))),(x + ~2),x) div 2),1,(x + ~1))
1: loop(\(x,i).(loop(\(x,i).4x,x,1) div (x + 1)),1,(1 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)))
1: loop(\(x,i).(loop(\(x,i).6x,i,x) div 2),x,1)
1: loop(\(x,i).(loop(\(x,i).(2x * i),x,1) div (x + 1)),1,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(loop(\(x,i).(2x * i),i,x) div 2),x,1)
1: loop(\(x,i).(loop(\(x,i).2x,x,2) div (x + 1)),1,(1 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x)))
1: loop(\(x,i).(loop(\(x,i).2x,x,2) div (x + 2)),1,compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))
1: loop(\(x,i).(loop(\(x,i).2x,x,3) div 2),x,0)
1: loop(\(x,i).(loop(\(x,i).2x,x,(if (x mod 4) <= 0 then x else (x div 2))) div 2),1,(x + ~1))
1: loop(\(x,i).(loop(\(x,i).(x * i),x,2) div (x + 2)),1,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(loop(\(x,i).(x * i),i,1) div (if x <= 0 then 1 else x)),x,1)
1: loop(\(x,i).(loop(\(x,i).((x2 + ~x) div 2),2,(x2 + 2)) div 3),1,x2)
1: loop(\(x,i).(loop(\(x,i).((x2 + ~x) div 2),2,(x + 2)) div 3),1,(5x + 1))
1: loop(\(x,i).(loop(\(x,i).((x2 + ~x) div 2),2,(x + 2)) div 3),1,((x2 + 7x + 6) div 2))
1: loop(\(x,i).(loop(\(x,i).((x2 + ~x) div 2),2,(x + 2)) div 3),x,2)
1: loop(\(x,i).(loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2),2,(x + 1))
1: loop(\(x,i).(x div 2),(~x + 5),3)
1: loop(\(x,i).(x div 2),(1 + ((1 + (8 mod (1 + (x div 2)))) div 2) - (x mod 2)),x)
1: loop(\(x,i).(x div 2),(x + ~1),loop(\(x,i).(x * (~1 + (2 * i))),x,1))
1: loop(\(x,i).(x div 2),(x + ~2),loop(\(x,i).(2x + 2),x,2))
1: loop(\(x,i).(x div 2),2x,loop(\(x,i).5x,(x + 1),1))
1: loop(\(x,i).(x div 2),x2,(1 + loop(\(x,i).(if x <= 0 then 4 else x4),x,0)))
1: loop(\(x,i).(x div 2),(x div 3),(x + 2))
1: loop(\(x,i).(x div 2),(x mod 2),(if (x mod 7) <= 0 then (5x + 2) else 1))
1: loop(\(x,i).(x div 2),(x mod 2),loop(\(x,i).i,((x + 1) mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4)))))),x))
1: loop(\(x,i).(x div 2),(x mod 3),(if x <= 0 then 1 else (x div 3)))
1: loop(\(x,i).(x div 2),(x mod 5),loop(\(x,i).(4x + 1),x,1))
1: loop(\(x,i).(x div 2),(x mod 9),x)
1: loop(\(x,i).(x div 2),(x mod 10),x)
1: loop(\(x,i).(x div 2),x,((x + 1) + (if x <= 0 then 0 else loop(\(x,i).(2x + (x div 2)),x,2))))
1: loop(\(x,i).(x div 2),x,(loop(\(x,i).(x * i),x,(x + 1)) div 2))
1: loop(\(x,i).(x div 2),x,loop(\(x,i).(3x + 2),x,0))
1: loop(\(x,i).(x div 2),x,loop(\(x,i).(4x + (if (i mod 3) <= 0 then 2 else 1)),x,2))
1: loop(\(x,i).(x div 2),x,loop(\(x,i).3x,2x,1))
1: loop(\(x,i).(x div 2),x,loop(\(x,i).3x,x,2))
1: loop(\(x,i).(x div 2),x,loop(\(x,i).5x,x,1))
1: loop(\(x,i).(x div 2),x,loop(\(x,i).((2x + 1) * (1 + i)),x,1))
1: loop(\(x,i).(x div 2),x,loop(\(x,i).(x * (2 + i)),x,1))
1: loop(\(x,i).(x div 2),x,loop(\(x,i).11x,x,1))
1: loop(\(x,i).(x div 2),x,loop(\(x,i).(x * (~1 + (2 * i))),x,1))
1: loop(\(x,i).(x div 2),x,loop(\(x,i).(2x2 + 2x),x,1))
1: loop(\(x,i).(x div 2),x,loop(\(x,i).(x * (i * i)),2x,1))
1: loop(\(x,i).(x div 2),x,loop(\(x,i).x2,2,(x + ~1)))
1: loop(\(x,i).(x div 2),x,loop(\(x,i).(x2 div 2),x,loop(\(x,i).2x,x,1)))
1: loop(\(x,i).(x div 3),(x + 1),loop(\(x,i).10x,x,1))
1: loop(\(x,i).(x div 3),(x + ~1),(x + 2))
1: loop(\(x,i).(x div 3),(x div 2),(2 + (x mod 2)))
1: loop(\(x,i).(x div 3),x,(1 + loop(\(x,i).x3,x,2)))
1: loop(\(x,i).(x div 3),x,(if x <= 0 then 1 else loop(\(x,i).x3,(x + ~1),4)))
1: loop(\(x,i).(x div 3),x,loop(\(x,i).5x,x,1))
1: loop(\(x,i).(x div 3),x,loop(\(x,i).7x,x,1))
1: loop(\(x,i).(x div 3),x,loop(\(x,i).(x * (~2 + (3 * i))),x,1))
1: loop(\(x,i).(x div 3),x,loop(\(x,i).11x,x,1))
1: loop(\(x,i).(x div 3),x,loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,1))
1: loop(\(x,i).(x div 3),x,loop(\(x,i).10x,x,1))
1: loop(\(x,i).(x div 3),x,loop(\(x,i).8x,x,1))
1: loop(\(x,i).(x div 3),x,loop(\(x,i).4x,x,1))
1: loop(\(x,i).(x div 3),x,loop(\(x,i).((x + ~1) * (i * i)),x,1))
1: loop(\(x,i).(x div 3),x,loop(\(x,i).(x * i),x,1))
1: loop(\(x,i).(x div 4),x,loop(\(x,i).3x,2x,1))
1: loop(\(x,i).(x div 4),x,loop(\(x,i).5x,x,1))
1: loop(\(x,i).(x div 4),x,loop(\(x,i).7x,x,1))
1: loop(\(x,i).(x div 4),x,loop(\(x,i).11x,x,1))
1: loop(\(x,i).(x div 4),x,loop(\(x,i).(x * i),x,1))
1: loop(\(x,i).(x div 5),2,loop(\(x,i).(x * (x - i)),2,(x + ~1)))
1: loop(\(x,i).(x div 5),x,loop(\(x,i).3x,2x,1))
1: loop(\(x,i).(x div 5),x,loop(\(x,i).7x,x,1))
1: loop(\(x,i).(x div 5),x,loop(\(x,i).11x,x,1))
1: loop(\(x,i).(x div 5),x,loop(\(x,i).8x,x,1))
1: loop(\(x,i).(x div (4 - (x mod 4))),x,x)
1: loop(\(x,i).(x div 7),x,loop(\(x,i).11x,x,1))
1: loop(\(x,i).(x div 7),x,loop(\(x,i).10x,x,1))
1: loop(\(x,i).(x div (1 + (3 * (1 - (x mod 3))))),1,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))
1: loop(\(x,i).(x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))),1,(x - (if x <= 0 then 0 else 1)))
1: loop(\(x,i).(x div (1 + (x mod 2))),2,(1 + ((x + (x mod 2)) div 3)))
1: loop(\(x,i).(x div (1 + (x mod 2))),(x + 1),3x)
1: loop(\(x,i).(x div (1 + (x mod 2))),2x,loop(\(x,i).(10x + 1),x,1))
1: loop(\(x,i).(x div (1 + (x mod 2))),i,i)
1: loop(\(x,i).(x div (2 + (x mod 2))),2,x)
1: loop(\(x,i).(x div (1 + (x mod 4))),x,x)
1: loop(\(x,i).(x div (1 + (x mod (2 + ((x mod 3) div 2))))),x,x)
1: loop(\(x,i).(x div (1 + (x mod (1 + (x mod 6))))),2,x)
1: loop(\(x,i).(x div (1 + (x mod 6))),2,x)
1: loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),2,(x + 2))
1: loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 6 else 0))),2,x)
1: loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 6 else 0))),x,2x)
1: loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then (if ((x + 2) mod (2 + ((x div 2) mod 2))) <= 0 then 2 else 0) else 1))),x,x)
1: loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 0 else 2))),x,(x + 1))
1: loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 0 else 2))),x,(2x + 2))
1: loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),1,((2x + 1) * (1 + (x mod 2))))
1: loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,(~1 + loop(\(x,i).2x,x,2)))
1: loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,(x2 + 5x + 4))
1: loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,(x2 + x))
1: loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,(x2 + 2x))
1: loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,loop(\(x,i).(4x + 1),x,1))
1: loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),(1 + (2 * (x mod 2))),(x + ~1))
1: loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),x,(2x + 1))
1: loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),x,(1 + (x div 2)))
1: loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),x,(x - (x div ~2)))
1: loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),x,(x2 + 6x))
1: loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),x,((x2 + 3x) div 2))
1: loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),x,loop(\(x,i).(x * i),x,1))
1: loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 1))),1,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))
1: loop(\(x,i).(x div (1 + i)),(x div 2),loop(\(x,i).(x * i),x,1))
1: loop(\(x,i).(x div (2 - ((x mod 3) div 2))),x,x)
1: loop(\(x,i).(x div (2 - ((1 + ((x + ((x2 div 2) div 3)) div 2)) mod 2))),x,(x + 1))
1: loop(\(x,i).(x div (2 - ((1 + (if (x + ~2) <= 0 then x else (if (x mod 4) <= 0 then 0 else 1))) mod 2))),x,x)
1: loop(\(x,i).(x div (2 - ((x - (x div 8)) mod 2))),x,x)
1: loop(\(x,i).(x div (2 - ((x * (x div 2)) mod 2))),x,2x)
1: loop(\(x,i).(x div (2 - ((x * (x div 4)) mod 2))),x,x)
1: loop(\(x,i).(x div (2 - ((x2 div 8) mod 2))),x,x)
1: loop(\(x,i).(x div (2 - ((x div ~2) mod 2))),x,(x + 1))
1: loop(\(x,i).(x div (2 - ((loop(\(x,i).(x * i),x,x) mod (x + 1)) mod 2))),x,x)
1: loop(\(x,i).(x div (2 - ((x mod (2 + (x mod (2 + (x mod 2))))) mod 3))),x,x)
1: loop(\(x,i).(x div (2 - (x mod 2))),1,(((2 * (1 + ((loop(\(x,i).(x + ((1 + (2 * i)) * i)),x,0) mod (x + 1)) div 2))) div 3) + (if x <= 0 then 0 else 1)))
1: loop(\(x,i).(x div (2 - (x mod 2))),2,((x2 + 3x) div 2))
1: loop(\(x,i).(x div (2 - (x mod 2))),3,(x + 1))
1: loop(\(x,i).(x div (2 - (x mod 2))),4,((2x + ~2) * (x + (if (x mod 2) <= 0 then x else 1))))
1: loop(\(x,i).(x div (2 - (x mod 2))),(x + 1),(3x + 2))
1: loop(\(x,i).(x div (2 - (x mod 2))),(x + 1),(3 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 5))
1: loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 3))
1: loop(\(x,i).(x div (2 - (x mod 2))),x,(x + (loop(\(x,i).2x,x,1) div 2)))
1: loop(\(x,i).(x div (2 - (x mod 2))),x,(1 + compr(\x.loop(\(x,i).loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,0),2,x),x)))
1: loop(\(x,i).(x div (2 - (x mod 2))),x,(~x + 1))
1: loop(\(x,i).(x div (2 - (x mod 2))),x,(2x + 6))
1: loop(\(x,i).(x div (2 - (x mod 2))),x,(3x + 3))
1: loop(\(x,i).(x div (2 - (x mod 2))),x,((x2 + 3x + 2) div 2))
1: loop(\(x,i).(x div (2 - (x mod 2))),x,loop(\(x,i).(2 * (2x + (x div (if i <= 0 then 1 else i)))),x,1))
1: loop(\(x,i).(x div (2 - (x mod 2))),x,loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),x,1))
1: loop(\(x,i).(x div (2 - (x mod 2))),x,loop(\(x,i).(2 * (~2x + (x div (if i <= 0 then 1 else i)))),2x,1))
1: loop(\(x,i).(x div (2 - (x mod 2))),x,loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),2x,1))
1: loop(\(x,i).(x div (2 - (x mod 2))),x,loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),x,1))
1: loop(\(x,i).(x div (2 - (x mod 2))),x,loop(\(x,i).(x * i),(x div 2),1))
1: loop(\(x,i).(x div (2 - (x mod 2))),x,loop(\(x,i).(x * i),x,1))
1: loop(\(x,i).(x div (2 - (x mod 2))),x,loop(\(x,i).((2 * (x - (2x * i))) div (1 + i)),2x,1))
1: loop(\(x,i).(x div (2 - (x mod 2))),x,loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1))
1: loop(\(x,i).(x div (2 - (x mod 2))),x,compr(\x.loop(\(x,i).(x div (2 - ((x * (x div 2)) mod 2))),x,x),(x + 1)))
1: loop(\(x,i).(x div (2 - (x mod 2))),i,((x + 1) + i))
1: loop(\(x,i).(x div (~3 + (x mod 2))),2,(x + 1))
1: loop(\(x,i).(x div (~2 + (x mod 2))),2,(3x + 1))
1: loop(\(x,i).(x div (~2 + (x mod 2))),2,(3x + 2))
1: loop(\(x,i).(x div (~2 + (x mod 2))),2,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(x div (~2 + (x mod 2))),2,(x2 + 5x))
1: loop(\(x,i).(x div (~2 + (x mod 2))),4,x2)
1: loop(\(x,i).(x div (if (x mod 2) <= 0 then 1 else 4)),x,x)
1: loop(\(x,i).(x div (if (x mod 2) <= 0 then 4 else 1)),3,x)
1: loop(\(x,i).(x div (if (x mod 2) <= 0 then 4 else 1)),x,2x)
1: loop(\(x,i).(x div (if (x mod 2) <= 0 then ~2 else 1)),(x + ~1),(x + 1))
1: loop(\(x,i).(x div (if (x mod 2) <= 0 then ~2 else 1)),x,(1 + (x div 2)))
1: loop(\(x,i).(x div (if (x mod 2) <= 0 then ~2 else 1)),x,(x + 1))
1: loop(\(x,i).(x div (if (x mod 2) <= 0 then ~2 else 1)),x,((x + 1) div 2))
1: loop(\(x,i).(x div (if (x mod 2) <= 0 then ~2 else (if (~x + 2) <= 0 then 2 else 1))),x,x)
1: loop(\(x,i).(x div (if (x mod (2 + (x mod 2))) <= 0 then 2 else 1)),x,x)
1: loop(\(x,i).(i div 2),loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1)
1: loop(\(x,i).(i div 3),(2 * ((x + ~1) div 3)),1)
1: loop(\(x,i).(i div (4 + (x mod 2))),x,1)
1: loop(\(x,i).((x + 3) mod (1 + i)),x,0)
1: loop(\(x,i).((x + 4) mod (1 + i)),x,1)
1: loop(\(x,i).((x + 8) mod (1 + i)),x,0)
1: loop(\(x,i).((4x + 1) mod 13),x,0)
1: loop(\(x,i).((1 + (x * loop(\(x,i).(8x + 2),2,2x))) mod (x + 1)),1,(x + 1))
1: loop(\(x,i).((2x + 1) mod 17),x,0)
1: loop(\(x,i).((2x + 1) mod (2 * (2 + (i div 2)))),x,0)
1: loop(\(x,i).((x2 + 1) mod (1 + i)),x,0)
1: loop(\(x,i).((1 + (x2 div 2)) mod (x + 2)),1,(~1 + ((~2x + 2) mod (4 + (x div 4)))))
1: loop(\(x,i).((x + 1) mod (2 + (i div 3))),(x + ~2),0)
1: loop(\(x,i).((x + 2) mod (1 + i)),i,1)
1: loop(\(x,i).((x + 2) mod (2 + i)),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1)
1: loop(\(x,i).(~x mod (8 + i)),2,x)
1: loop(\(x,i).((2 - (2x mod (4 + (x div 4)))) mod (x + 1)),3,x)
1: loop(\(x,i).((x2 + ~1) mod (2x + 5)),x,0)
1: loop(\(x,i).((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),1,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),(x div 3),x)
1: loop(\(x,i).((~1 + loop(\(x,i).2x,x,10)) mod (x + 2)),2,x)
1: loop(\(x,i).((x + ~1) mod (4 + (i div 3))),x,1)
1: loop(\(x,i).((x + ~1) mod (1 + (2 * i))),(x + ~1),1)
1: loop(\(x,i).((x + ~1) mod (2 + i)),x,0)
1: loop(\(x,i).((x + ~1) mod (4 * (1 + i))),x,1)
1: loop(\(x,i).((x + ~1) mod (2 * (1 + i))),x,0)
1: loop(\(x,i).((x + ~1) mod (2 * (1 + i))),x,1)
1: loop(\(x,i).(((x + 1) - (loop(\(x,i).2x,x,2) mod (x + 2))) mod (x + 1)),1,(x + 1))
1: loop(\(x,i).(3x mod 14),x,1)
1: loop(\(x,i).(3x mod 34),x,1)
1: loop(\(x,i).(3x mod 22),x,1)
1: loop(\(x,i).(3x mod 28),x,1)
1: loop(\(x,i).(3x mod 44),x,1)
1: loop(\(x,i).(3x mod 32),x,1)
1: loop(\(x,i).(3x mod loop(\(x,i).2x,i,2)),x,1)
1: loop(\(x,i).(5x mod 17),1,(2x + 2))
1: loop(\(x,i).(5x mod (1 + (x div 2))),2,(x + 1))
1: loop(\(x,i).(5x mod 34),x,1)
1: loop(\(x,i).(5x mod 22),x,1)
1: loop(\(x,i).(5x mod 46),x,1)
1: loop(\(x,i).(5x mod 44),x,1)
1: loop(\(x,i).(7x mod 26),x,1)
1: loop(\(x,i).(7x mod 22),x,1)
1: loop(\(x,i).(7x mod 44),x,1)
1: loop(\(x,i).((~2x + 2) mod 7),x,0)
1: loop(\(x,i).((~2x + 2) mod (2 - (x div ~4))),2,x)
1: loop(\(x,i).(54 mod (x + 1)),3,x)
1: loop(\(x,i).(x5 mod 9),x,x)
1: loop(\(x,i).(4x mod loop(\(x,i).3x,(1 + i),1)),x,1)
1: loop(\(x,i).(x4 mod 27),2,(2x + 1))
1: loop(\(x,i).(x3 mod 47),2,x)
1: loop(\(x,i).(x3 mod 30),(x + 1),(x + 2))
1: loop(\(x,i).(x3 mod 30),x,x)
1: loop(\(x,i).(x3 mod loop(\(x,i).(x2 + 2x + 1),2,2)),4x,x)
1: loop(\(x,i).(2x mod 5),(x div 3),(x mod 3))
1: loop(\(x,i).(2x mod 9),(x + ~1),1)
1: loop(\(x,i).(2x mod (1 + (2 * i))),x,1)
1: loop(\(x,i).(x2 mod 5),(x div 2),x)
1: loop(\(x,i).(x2 mod ((x + 1) - ((~2x + 1) div (4 + (x div 4))))),x,x)
1: loop(\(x,i).(x2 mod 10),(x div 2),x)
1: loop(\(x,i).((x2 div 4) mod (x + 1)),1,(1 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x)))
1: loop(\(x,i).((if x <= 0 then 1 else 4x) mod (4 + (x div 4))),2,x)
1: loop(\(x,i).(loop(\(x,i).(x + (i * i)),x,0) mod (x + 1)),1,i)
1: loop(\(x,i).(loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x) mod (x + 2)),2,x)
1: loop(\(x,i).(loop(\(x,i).6x,x,x2) mod 7),2,x)
1: loop(\(x,i).(loop(\(x,i).(x * loop(\(x,i).(2x2 + ~1),2,2)),2,x) mod (x + 1)),2,(x + 1))
1: loop(\(x,i).(loop(\(x,i).2x,x,1) mod (1 + i)),x,0)
1: loop(\(x,i).(loop(\(x,i).2x,x,2) mod (x + 1)),1,(2x + 2))
1: loop(\(x,i).(loop(\(x,i).2x,x,2) mod (1 + i)),x,0)
1: loop(\(x,i).(loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,(x + 1)) mod 5),(x + ~1),x)
1: loop(\(x,i).(x mod 2),(x div 2),(1 - (2 * (x mod 2))))
1: loop(\(x,i).(x mod 2),(x div 2),(if x <= 0 then 0 else (3 + (x div (1 + (x mod 4))))))
1: loop(\(x,i).(x mod 2),(x mod 2),(1 + (x mod 9)))
1: loop(\(x,i).(x mod 2),(x mod 2),(x div 2))
1: loop(\(x,i).(x mod 2),(x mod 2),(x div 7))
1: loop(\(x,i).(x mod 2),(x mod 2),loop(\(x,i).(x * ((1 + i) div 2)),x,1))
1: loop(\(x,i).(x mod (2 + (x div 4))),2,(x + 4))
1: loop(\(x,i).(x mod (1 + ((x + ~1) mod 9))),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(i mod 3),(loop(\(x,i).(x * (2 + i)),4,2) mod (x + 1)),1)
1: loop(\(x,i).(if (~x + 2) <= 0 then x2 else 2),x,(x div 2))
1: loop(\(x,i).(if (x + ~1) <= 0 then 1 else (2 * ((x + 1) - (((x + 1) mod (1 + (2 * ((1 + (x div 4)) div 2)))) div 2)))),1,(x + ~1))
1: loop(\(x,i).(if (x + ~1) <= 0 then 1 else (x2 div 4)),1,(x + ~8))
1: loop(\(x,i).(if (x + ~1) <= 0 then 1 else (loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2)),2,x)
1: loop(\(x,i).(if (x + ~1) <= 0 then i else x2),x,(x div 2))
1: loop(\(x,i).(if (x + ~2) <= 0 then 0 else x2),(x div 2),x)
1: loop(\(x,i).(if (x + ~2) <= 0 then 0 else (x mod 10)),2,x)
1: loop(\(x,i).(if (x + ~2) <= 0 then (x + 1) else (x2 + 2x)),x,1)
1: loop(\(x,i).(if (x + ~2) <= 0 then (x + 1) else x3),x,(x div 2))
1: loop(\(x,i).(if (x + ~2) <= 0 then 8x else (x + ~1)),x,1)
1: loop(\(x,i).(if (x - i) <= 0 then 2x else (x + ~1)),x,1)
1: loop(\(x,i).(if (~x + i) <= 0 then 1 else 2x),x,2)
1: loop(\(x,i).(if (~x + i) <= 0 then 10 else 1),x,1)
1: loop(\(x,i).(if (~x + i) <= 0 then x else 2x),i,1)
1: loop(\(x,i).(if (x * (x - i)) <= 0 then (x + ~1) else 1),(x div 2),(x div 2))
1: loop(\(x,i).(if (x * i) <= 0 then 1 else (x + ~1)),i,x)
1: loop(\(x,i).(if ((x mod 3) div 2) <= 0 then x else ((x + 1) div 3)),x,x)
1: loop(\(x,i).(if (x div 2) <= 0 then (1 + (2 * i)) else (x div 2)),x,1)
1: loop(\(x,i).(if (x div 2) <= 0 then (x + 2) else ~1),x,0)
1: loop(\(x,i).(if (x div 4) <= 0 then (1 + i) else 2x),x,0)
1: loop(\(x,i).(if ((x + 3) mod 8) <= 0 then x else (x div 2)),x,x)
1: loop(\(x,i).(if ((x + (x div 2)) mod 4) <= 0 then x else (x div 2)),x,x)
1: loop(\(x,i).(if ((x + 1) mod 3) <= 0 then i else 2),(x + ~2),1)
1: loop(\(x,i).(if ((x + 1) mod (2 + i)) <= 0 then 0 else x),x,8x)
1: loop(\(x,i).(if ((x + 2) mod 8) <= 0 then x else (x div 2)),x,x)
1: loop(\(x,i).(if ((x + ~1) mod 4) <= 0 then x else (x div 4)),x,x)
1: loop(\(x,i).(if (((x + 1) div 2) mod 4) <= 0 then x else (x div 2)),x,x)
1: loop(\(x,i).(if (loop(\(x,i).x2,4,2) mod (x + 1)) <= 0 then x else (x + 1)),(x div 2),x)
1: loop(\(x,i).(if (x mod 2) <= 0 then 1 else (4x2 + 4x)),1,i)
1: loop(\(x,i).(if (x mod 2) <= 0 then 2 else loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),x,x)),2,x)
1: loop(\(x,i).(if (x mod 2) <= 0 then (8 + (x div 2)) else (x div 2)),x,0)
1: loop(\(x,i).(if (x mod 2) <= 0 then (~4x + 9) else (x div 2)),x,0)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x + 2) else (x div 2)),x,x)
1: loop(\(x,i).(if (x mod 2) <= 0 then (~x + 1) else 2x),x,2)
1: loop(\(x,i).(if (x mod 2) <= 0 then (~x + 2) else (x div 2)),3,x)
1: loop(\(x,i).(if (x mod 2) <= 0 then (3x + 3) else (x div 2)),2,x)
1: loop(\(x,i).(if (x mod 2) <= 0 then (3x + 3) else (x div 2)),3,x)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else ((x + 1) + i)),x,1)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (3x + i)),x,1)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else ((2x + 1) - (x div ~2))),x,5)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (3x + 1)),3x,(x + 1))
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (3x + 1)),x,3)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (3x + 1)),x,9)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (3x + 1)),x,15)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (3x + 1)),x,27)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (5x + 1)),x,1)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (5x + 1)),x,5)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (5x + 1)),x,7)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (5x + 1)),x,11)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (7x + 1)),x,3)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (7x + 1)),x,7)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (13x + 1)),x,1)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (13x + 1)),x,3)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (17x + 1)),x,1)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (17x + 1)),x,3)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (41x + 1)),x,1)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (41x + 1)),x,3)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (37x + 1)),x,1)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (37x + 1)),x,3)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (33x + 1)),x,1)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (33x + 1)),x,3)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (49x + 1)),x,1)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (49x + 1)),x,3)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (1 + (x * (1 + loop(\(x,i).(x2 + x),2,2))))),x,1)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (1 + (x * (1 + loop(\(x,i).(x2 + x),2,2))))),x,3)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (31x + 1)),x,3)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (9x + 1)),x,1)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (9x + 1)),x,3)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (15x + 1)),x,3)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (25x + 1)),x,1)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (25x + 1)),x,3)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (35x + 1)),x,1)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (35x + 1)),x,3)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (45x + 1)),x,1)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (45x + 1)),x,3)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (21x + 1)),x,1)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (21x + 1)),x,3)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (39x + 1)),x,1)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (39x + 1)),x,3)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (1 + (9 * (~1 + (5 * loop(\(x,i).7x,x,2)))))),x,3)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (27x + 1)),x,1)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (27x + 1)),x,3)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (1 + (2 * loop(\(x,i).(2x - (x mod 4)),2,2x)))),x,x)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (x + (i * i))),2,(x + 2))
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (x + i)),x,1)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (47x + 1)),x,1)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (47x + 1)),x,3)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (23x + 1)),x,1)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (23x + 1)),x,3)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (11x + 1)),x,1)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (11x + 1)),x,3)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (19x + 1)),x,1)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (19x + 1)),x,3)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (1 - (2 * ((x div 4) mod 2)))),x,x)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (3x + ~1)),3,x)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (3x + ~1)),x,5)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (7x + ~1)),x,3)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (29x + 1)),x,1)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (29x + 1)),x,3)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else ((~x + 1) + i)),x,1)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (x * (1 + i))),x,1)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else 2x),x,(2x + 12))
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))),x,x)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 2) else (if ((x + ~1) mod 3) <= 0 then 1 else x)),x,x)
1: loop(\(x,i).(if (x mod 2) <= 0 then (x div 4) else (x + ~1)),2,x)
1: loop(\(x,i).(if (x mod 2) <= 0 then x else 9),x,(1 + (x div 2)))
1: loop(\(x,i).(if (x mod 2) <= 0 then x else (2 + (x mod 2))),(x mod 2),(x div 2))
1: loop(\(x,i).(if (x mod 2) <= 0 then x else ((~x + 1) div 2)),x,(x + 1))
1: loop(\(x,i).(if (x mod 4) <= 0 then 0 else 1),(~1 + (x div 2)),((x + 1) div 2))
1: loop(\(x,i).(if (x mod 4) <= 0 then 0 else (1 + (x div 4))),2,(x + 1))
1: loop(\(x,i).(if (x mod 4) <= 0 then 0 else (1 + (x div 4))),2,x)
1: loop(\(x,i).(if (x mod 4) <= 0 then 1 else (x div 3)),x,(x + 2))
1: loop(\(x,i).(if (x mod 4) <= 0 then 1 else x),1,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(if (x mod 4) <= 0 then 2 else (x div (1 + (if (x mod 3) <= 0 then 2 else 0)))),2,(x + 1))
1: loop(\(x,i).(if (x mod 4) <= 0 then (x div 2) else x),1,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(if (x mod 4) <= 0 then x else 2x),x,(x + 1))
1: loop(\(x,i).(if (x mod (3 + i)) <= 0 then 0 else x),x,(6x + 1))
1: loop(\(x,i).(if (x mod (1 + (2 * i))) <= 0 then 0 else x),x,(if x <= 0 then 1 else 2x))
1: loop(\(x,i).(if (x mod (1 + (2 * i))) <= 0 then 1 else x),(x + 1),2x)
1: loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 3),(x2 + 2x))
1: loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x + 4))
1: loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + 5))
1: loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + ~x + 1))
1: loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + 1))
1: loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + 2))
1: loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + 2x + ~1))
1: loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(if x <= 0 then 0 else (2x + 1)))
1: loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),(x + 2),(2x + 3))
1: loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),(x + ~2),x2)
1: loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),(x div 2),(3x + ~1))
1: loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),(x div 2),x)
1: loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),x,(x + 3))
1: loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),x,(x + 2))
1: loop(\(x,i).(if (x mod (1 + i)) <= 0 then 2 else x),x,(2x + 1))
1: loop(\(x,i).(if (x mod (1 + i)) <= 0 then i else x),x,(x + 1))
1: loop(\(x,i).(if (x mod (1 + i)) <= 0 then i else x),x,(x + 2))
1: loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),x,(3x + 1))
1: loop(\(x,i).(if (x mod 11) <= 0 then 1 else 0),(x div 2),~x)
1: loop(\(x,i).(if (x mod 10) <= 0 then ~x else i),x,x)
1: loop(\(x,i).(if (i mod 2) <= 0 then 1 else 2x),(x + ~2),x)
1: loop(\(x,i).(if loop(\(x,i).x3,2,x) <= 0 then 1 else (8x + 2)),x,4)
1: loop(\(x,i).(if x <= 0 then 0 else (1 + (x * ((x + 1) + loop(\(x,i).(2x2 + ~x),2,x))))),2x,x)
1: loop(\(x,i).(if x <= 0 then 0 else (1 + (5 * ((x2 + ~x) div 2)))),1,(x + ~1))
1: loop(\(x,i).(if x <= 0 then 0 else (1 + (2 * loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)))),2,x)
1: loop(\(x,i).(if x <= 0 then 0 else (~1 + (2 * (x2 div 2)))),2,x)
1: loop(\(x,i).(if x <= 0 then 0 else (2x - ((if (i mod 2) <= 0 then 1 else 2x) div (1 + i)))),((x2 + x) div 2),1)
1: loop(\(x,i).(if x <= 0 then 0 else (2x - ((if (i mod 2) <= 0 then 1 else 2x) div (1 + i)))),x,(x + ~1))
1: loop(\(x,i).(if x <= 0 then 0 else loop(\(x,i).loop(\(x,i).(x * i),i,x),(x + ~2),1)),1,2x)
1: loop(\(x,i).(if x <= 0 then 1 else (x + ((2 * (x mod 2)) + (x div 3)))),x,0)
1: loop(\(x,i).(if x <= 0 then 1 else ((x + 2) - ((((x + 1) div 2) div 2) div 2))),2,x)
1: loop(\(x,i).(if x <= 0 then 1 else (x + (3 * (x + (i mod 2))))),x,0)
1: loop(\(x,i).(if x <= 0 then 1 else (8x + (if (2 - i) <= 0 then x else 1))),x,(x + 1))
1: loop(\(x,i).(if x <= 0 then 1 else (x + (2 * (i * (1 + i))))),x,0)
1: loop(\(x,i).(if x <= 0 then 1 else (x + (2 * (x div (~1 + (4 * (1 + i))))))),x,x)
1: loop(\(x,i).(if x <= 0 then 1 else (2 + (x * i))),x,0)
1: loop(\(x,i).(if x <= 0 then 1 else (x + ((((x + ~1) div 3) * i) div 2))),2,x)
1: loop(\(x,i).(if x <= 0 then 1 else ((x mod 5) + (x div 3))),(1 + (x mod 3)),(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).(if x <= 0 then 1 else (x + (x mod 7))),x,0)
1: loop(\(x,i).(if x <= 0 then 1 else (x + (if (8 mod (if x <= 0 then 1 else x)) <= 0 then x else 0))),1,(x + ~1))
1: loop(\(x,i).(if x <= 0 then 1 else (loop(\(x,i).(x * i),i,(1 + i)) + (x * i))),(x + ~1),0)
1: loop(\(x,i).(if x <= 0 then 1 else ((3x + 3) - ((x - (x div 3)) div 3))),1,((x + 1) div 2))
1: loop(\(x,i).(if x <= 0 then 1 else (2x - (if (x - i) <= 0 then 0 else 2))),x,0)
1: loop(\(x,i).(if x <= 0 then 1 else (~1 + (2x mod (~1 + (2 * (((~x + 2) div 2) mod 4)))))),(x + ~1),x)
1: loop(\(x,i).(if x <= 0 then 1 else (~2 + (if x <= 0 then 2 else (loop(\(x,i).(1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),2,x) mod (x + 1))))),x,x)
1: loop(\(x,i).(if x <= 0 then 1 else (~1 + loop(\(x,i).(x2 + x),1,(1 + loop(\(x,i).3x,x,(2 * (1 + loop(\(x,i).(x2 + ~x),1,loop(\(x,i).x2,x,2))))))))),x,0)
1: loop(\(x,i).(if x <= 0 then 1 else (x + (x mod 2) - ((x div (~2 + (x mod ~2))) mod 2))),(x mod 2),(x div 2))
1: loop(\(x,i).(if x <= 0 then 1 else (x - ((~2x + 1) div (4 + (x div 4))))),x,0)
1: loop(\(x,i).(if x <= 0 then 1 else (x - ((1 - (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1) div 3)) div 3))),1,(x + ~1))
1: loop(\(x,i).(if x <= 0 then 1 else (x - ((~x + 1) div 3))),2,2x)
1: loop(\(x,i).(if x <= 0 then 1 else (x - (x div (11 - (x div 2))))),3,(x + 1))
1: loop(\(x,i).(if x <= 0 then 1 else (x - ((x div (2 * (2 - (x mod 2)))) mod 2))),2,x)
1: loop(\(x,i).(if x <= 0 then 1 else (x - (if x <= 0 then 1 else (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))),2,x)
1: loop(\(x,i).(if x <= 0 then 1 else (2x + 8)),x,0)
1: loop(\(x,i).(if x <= 0 then 1 else (2x4 + x2 + x)),x,0)
1: loop(\(x,i).(if x <= 0 then 1 else (2 * (1 + ((1 + (5 * ((x2 + 3x) div 2))) div 2)))),1,x2)
1: loop(\(x,i).(if x <= 0 then 1 else (2 * (1 + ((1 + (((1 + ((x + 1) * (1 + loop(\(x,i).(x2 + x),1,loop(\(x,i).(2 * (2x - (x div (1 + i)))),x,1))))) div 2) div 2)) div 2)))),1,(x + ~1))
1: loop(\(x,i).(if x <= 0 then 1 else (2 * (1 + ((1 + (((1 + loop(\(x,i).(x * i),(x + ~1),1)) div 2) div 2)) div 2)))),1,(x + ~1))
1: loop(\(x,i).(if x <= 0 then 1 else (2 * (x + ((x + (if (~2 + (x div 4)) <= 0 then 1 else 2)) div 2)))),1,x2)
1: loop(\(x,i).(if x <= 0 then 1 else (2 * (x + ((x3 + 2x) div 3)))),1,2x)
1: loop(\(x,i).(if x <= 0 then 1 else (3 * (x + (x mod 2)))),2,(x2 + 2x))
1: loop(\(x,i).(if x <= 0 then 1 else (2 * (1 + loop(\(x,i).2x,x,(loop(\(x,i).10x,x,1) - loop(\(x,i).4x,x,1)))))),1,(x + 1))
1: loop(\(x,i).(if x <= 0 then 1 else (x * (2 + i))),(x + 2),x)
1: loop(\(x,i).(if x <= 0 then 1 else (x * (~1 + (i * i)))),x,(x div 3))
1: loop(\(x,i).(if x <= 0 then 1 else (2 * (~1 + ((x + 2) mod 5)))),2,x)
1: loop(\(x,i).(if x <= 0 then 1 else (10x + ~8)),(x div 2),(x mod 2))
1: loop(\(x,i).(if x <= 0 then 1 else (2 * (x - ((x + (x div 3)) div 5)))),x,0)
1: loop(\(x,i).(if x <= 0 then 1 else (2 * (x - ((3 * (x div 4)) div 2)))),x,0)
1: loop(\(x,i).(if x <= 0 then 1 else (2 * (x - (x div ~2)))),(x + ~1),(~x + 1))
1: loop(\(x,i).(if x <= 0 then 1 else (2 * (x - (if (~x + i) <= 0 then 1 else 0)))),x,0)
1: loop(\(x,i).(if x <= 0 then 1 else (x * (~2 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)))),(x + 1),x)
1: loop(\(x,i).(if x <= 0 then 1 else (2x * ((x + 1) + (2 * loop(\(x,i).(2 * (1 + loop(\(x,i).(2x * (2 + i)),4x,1))),x,1))))),2,x)
1: loop(\(x,i).(if x <= 0 then 1 else (2x * ((x + ~1) + (3 * (1 + loop(\(x,i).loop(\(x,i).5x,x,1),(i - (x mod 3)),loop(\(x,i).5x,x,1))))))),x,0)
1: loop(\(x,i).(if x <= 0 then 1 else (10x + 10)),2,x)
1: loop(\(x,i).(if x <= 0 then 1 else (4x + 8)),1,((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2))
1: loop(\(x,i).(if x <= 0 then 1 else (4x2 + 8x)),x,0)
1: loop(\(x,i).(if x <= 0 then 1 else (x * ((1 + i) * (1 + (2 * i))))),x,0)
1: loop(\(x,i).(if x <= 0 then 1 else (x3 + ~3x2 + 2x)),2,x)
1: loop(\(x,i).(if x <= 0 then 1 else 4x),1,(x + (x div 2) - (x div (4 + (x mod 2)))))
1: loop(\(x,i).(if x <= 0 then 1 else 4x),x,0)
1: loop(\(x,i).(if x <= 0 then 1 else x3),(~1 + i),4)
1: loop(\(x,i).(if x <= 0 then 1 else (2 * ((1 + loop(\(x,i).(3x * i),x,1)) div 2))),1,(x + ~1))
1: loop(\(x,i).(if x <= 0 then 1 else (x * (((~1 + i) * i) div 2))),x,x)
1: loop(\(x,i).(if x <= 0 then 1 else (x * ((loop(\(x,i).((x * ((x * loop(\(x,i).((x2 + ~x) div 2),2,(x + 2))) div (x + 1))) div 2),x,2) div 2) div 2))),x,0)
1: loop(\(x,i).(if x <= 0 then 1 else (x * (if (x mod 2) <= 0 then 10 else 1))),2,x)
1: loop(\(x,i).(if x <= 0 then 1 else (x * loop(\(x,i).(x * (x - i)),2,(2 + i)))),(x + 1),0)
1: loop(\(x,i).(if x <= 0 then 1 else (loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,x) * (~1 + (2 * (x mod 2))))),1,(x + ~1))
1: loop(\(x,i).(if x <= 0 then 1 else 2x),x,(~x + 3))
1: loop(\(x,i).(if x <= 0 then 1 else ((x3 + ~x) div 2)),1,3x)
1: loop(\(x,i).(if x <= 0 then 1 else (((x + 1) * (x div 2)) mod 4)),2,x)
1: loop(\(x,i).(if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else (x + ~2))),2x,x)
1: loop(\(x,i).(if x <= 0 then 1 else (if (x mod 4) <= 0 then 2x else 0)),1,(x div 2))
1: loop(\(x,i).(if x <= 0 then 1 else loop(\(x,i).(x - (if x <= 0 then 1 else (x - (if x <= 0 then 1 else ((2x * (~1 + (2 * i))) div (2 + i)))))),1,x)),2,x)
1: loop(\(x,i).(if x <= 0 then 1 else loop(\(x,i).x2,1,((x * i) div 3))),2x,x)
1: loop(\(x,i).(if x <= 0 then 1 else loop(\(x,i).(x * i),i,x)),(x2 + x),0)
1: loop(\(x,i).(if x <= 0 then 1 else loop(\(x,i).(if (x mod 2) <= 0 then 2 else loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),x,x)),2,x)),2,x)
1: loop(\(x,i).(if x <= 0 then 1 else x),(x + ~2),loop(\(x,i).(2 * (~x + (i mod 2))),x,1))
1: loop(\(x,i).(if x <= 0 then 1 else compr(\x.(x mod (1 + (6 * (x mod 2)))),x)),1,3x)
1: loop(\(x,i).(if x <= 0 then 2 else (x + ((i * i * (1 + i)) div 2))),x,0)
1: loop(\(x,i).(if x <= 0 then 2 else ((4x + ~4) - (x div 4))),x,0)
1: loop(\(x,i).(if x <= 0 then 2 else ((2x + ~1) - i)),x,0)
1: loop(\(x,i).(if x <= 0 then 2 else (~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x))),2,x)
1: loop(\(x,i).(if x <= 0 then 2 else (13x + ~12)),x,0)
1: loop(\(x,i).(if x <= 0 then 2 else (2 * (2x - (x div (1 + i))))),x,0)
1: loop(\(x,i).(if x <= 0 then 2 else (3x + ~3)),(x + ~1),0)
1: loop(\(x,i).(if x <= 0 then 2 else (x * (~1 + i))),2x,1)
1: loop(\(x,i).(if x <= 0 then 2 else (x * compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i))),(x + ~1),0)
1: loop(\(x,i).(if x <= 0 then 2 else ((x * ((x2 + 2x) + (x mod 3))) div 2)),2,x)
1: loop(\(x,i).(if x <= 0 then 2 else ((2x * (~1 + (2 * i))) div (1 + i))),x,0)
1: loop(\(x,i).(if x <= 0 then 2 else (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2)),2,x)
1: loop(\(x,i).(if x <= 0 then 2 else (if x <= 0 then 1 else (x * (if (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2) <= 0 then x else 1)))),x,(x + 2))
1: loop(\(x,i).(if x <= 0 then 2 else loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)),2,x)
1: loop(\(x,i).(if x <= 0 then 3 else (x2 + ~1)),x,1)
1: loop(\(x,i).(if x <= 0 then 3 else (2 * (2x - (x mod 2)))),x,0)
1: loop(\(x,i).(if x <= 0 then 3 else (x2 + ~x)),x,0)
1: loop(\(x,i).(if x <= 0 then 3 else (loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2)),2,x)
1: loop(\(x,i).(if x <= 0 then 3 else (loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2)),3,x)
1: loop(\(x,i).(if x <= 0 then 4 else (x2 + ~2x)),x,0)
1: loop(\(x,i).(if x <= 0 then 4 else x4),x,0)
1: loop(\(x,i).(if x <= 0 then (x + (i * i)) else x),(x + 1),~x)
1: loop(\(x,i).(if x <= 0 then (loop(\(x,i).(x * i),(~1 + i),1) + (x * i)) else 0),i,1)
1: loop(\(x,i).(if x <= 0 then (x + 1) else (2 - loop(\(x,i).(x - (2 * (~2x + (i mod 2)))),x,0))),x,1)
1: loop(\(x,i).(if x <= 0 then ((x + ~1) + (2 * i)) else 0),2x,~x)
1: loop(\(x,i).(if x <= 0 then (~1 + (i div 2)) else ((2x * (1 + (2 * i))) div (2 + i))),x,0)
1: loop(\(x,i).(if x <= 0 then (x + ~1) else loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)),2,x)
1: loop(\(x,i).(if x <= 0 then (2 * i) else (x + ~1)),x,1)
1: loop(\(x,i).(if x <= 0 then (2 * i) else (x - (i mod 2))),x,0)
1: loop(\(x,i).(if x <= 0 then i else (x + ~1)),(x + ~2),0)
1: loop(\(x,i).(if x <= 0 then i else (x + ~1)),i,0)
1: loop(\(x,i).(if x <= 0 then i else (x + ~3)),x,0)
1: loop(\(x,i).(if x <= 0 then i else (x div 2)),(x + ~1),0)
1: loop(\(x,i).(if x <= 0 then i else (x div 2)),(x + ~1),1)
1: loop(\(x,i).(if x <= 0 then i else (x div 2)),x,1)
1: loop(\(x,i).loop(\(x,i).(x + (((2 + (i mod 2)) * i) + i)),i,x),x,1)
1: loop(\(x,i).loop(\(x,i).(x + (((~1 + (2 * (i mod 2))) * i) + (x * (1 + i)))),x,0),1,(x + ~1))
1: loop(\(x,i).loop(\(x,i).(3x + ((~1 + (2 * i)) * i)),x,1),x,0)
1: loop(\(x,i).loop(\(x,i).((x + 1) + (x2 div 3)),x,1),x,1)
1: loop(\(x,i).loop(\(x,i).(x + (loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),i,1) + (x * i))),x,1),x,1)
1: loop(\(x,i).loop(\(x,i).((x + 2) + i),i,x),i,1)
1: loop(\(x,i).loop(\(x,i).((2x + 2) + i),x,0),(x mod 2),(x div 2))
1: loop(\(x,i).loop(\(x,i).(2x + i),x,(i * i * i)),x,1)
1: loop(\(x,i).loop(\(x,i).(3x + 1),x,0),(x mod 3),3)
1: loop(\(x,i).loop(\(x,i).(3x + 2),i,x),x,0)
1: loop(\(x,i).loop(\(x,i).(x + (((2 * (i mod 2)) + i) * i)),i,x),x,1)
1: loop(\(x,i).loop(\(x,i).(x + ((2 + (i mod 2)) * i)),i,x),x,0)
1: loop(\(x,i).loop(\(x,i).(x2 + x + 1),(1 - (x mod 4)),2x),x,1)
1: loop(\(x,i).loop(\(x,i).(x + ((2 + i) * i)),(1 + i),x),(x + 1),0)
1: loop(\(x,i).loop(\(x,i).(x + ((2 + i) * i)),i,x),(x + 1),0)
1: loop(\(x,i).loop(\(x,i).(x + ((2 + i) * i)),i,x),i,1)
1: loop(\(x,i).loop(\(x,i).(10x + 1),(x + ~2),0),(x + ~1),(10x + 1))
1: loop(\(x,i).loop(\(x,i).(10x + 1),x,0),2,(x mod 4))
1: loop(\(x,i).loop(\(x,i).(10x + 1),x,1),2,1)
1: loop(\(x,i).loop(\(x,i).(10x + 1),x,1),((x div 2) div 5),x)
1: loop(\(x,i).loop(\(x,i).(10x + i),2,x),x,0)
1: loop(\(x,i).loop(\(x,i).(10x + 11),(2x + 1),1),1,(x3 + 3x2 + 3x + 1))
1: loop(\(x,i).loop(\(x,i).(x + (i * i * i * i * i * i * i)),(1 + i),x),x,1)
1: loop(\(x,i).loop(\(x,i).(x + (i * i * i * i * i * i)),(1 + i),x),x,1)
1: loop(\(x,i).loop(\(x,i).(x + (i * i * i * i * i)),(1 + i),x),x,1)
1: loop(\(x,i).loop(\(x,i).(x + (i * i * i * i * i)),(1 + i),x),i,1)
1: loop(\(x,i).loop(\(x,i).(x + (i * i * i * i)),(1 + i),x),x,1)
1: loop(\(x,i).loop(\(x,i).(x + (i * i * i * i)),(1 + i),x),i,1)
1: loop(\(x,i).loop(\(x,i).(x + (i * i * i)),(1 + i),x),i,1)
1: loop(\(x,i).loop(\(x,i).(x + (i * i * i)),i,x),x,0)
1: loop(\(x,i).loop(\(x,i).(x + (((1 + i) div 2) * i)),(1 + i),x),x,1)
1: loop(\(x,i).loop(\(x,i).(x + (loop(\(x,i).2x,i,i) * i)),i,x),x,1)
1: loop(\(x,i).loop(\(x,i).(2x + 1),(x div 2),(2 - (x mod 2))),x,2)
1: loop(\(x,i).loop(\(x,i).(2x + 1),(if (i mod 4) <= 0 then 2 else 0),2x),x,1)
1: loop(\(x,i).loop(\(x,i).(2x + 1),x,0),(x mod 2),(x div 2))
1: loop(\(x,i).loop(\(x,i).(2x + 1),x,0),x,2)
1: loop(\(x,i).loop(\(x,i).(2x + 1),x,2),(x + ~1),1)
1: loop(\(x,i).loop(\(x,i).(2x + 1),x,2),(x mod 3),3)
1: loop(\(x,i).loop(\(x,i).(2x + 1),i,2x),x,0)
1: loop(\(x,i).loop(\(x,i).(2x + 1),i,loop(\(x,i).2x,i,x)),x,1)
1: loop(\(x,i).loop(\(x,i).(x2 + 2),x,2),x,0)
1: loop(\(x,i).loop(\(x,i).(2 + (x * i)),x,2),(x + ~1),1)
1: loop(\(x,i).loop(\(x,i).(2 + (x * i)),x,2),x,1)
1: loop(\(x,i).loop(\(x,i).(x + (i * i)),(x + ~1),1),2,x)
1: loop(\(x,i).loop(\(x,i).(x + (i * i)),x,0),2,x)
1: loop(\(x,i).loop(\(x,i).(1 + (((x + 1) + (if (~x + 2) <= 0 then (x div 2) else 1)) div 2)),i,2x),x,1)
1: loop(\(x,i).loop(\(x,i).(x + (3x div (if i <= 0 then 1 else i))),i,x),x,1)
1: loop(\(x,i).loop(\(x,i).(x + (((1 + (2 * i)) * i) div 2)),(1 + i),x),x,1)
1: loop(\(x,i).loop(\(x,i).(2x + (18x div (1 + i))),x,5),1,2x)
1: loop(\(x,i).loop(\(x,i).(x + ((i * i * (1 + i)) div 2)),i,~x),(x + 1),0)
1: loop(\(x,i).loop(\(x,i).(x + ((i * i * (1 + i)) div 2)),i,x),x,0)
1: loop(\(x,i).loop(\(x,i).(((3 * (x div 4)) div 2) + ((x + ~1) div 3)),1,2x),x,1)
1: loop(\(x,i).loop(\(x,i).(2 + (x2 div (x + 4))),2,x),2,x)
1: loop(\(x,i).loop(\(x,i).(x + ((i * i) div 2)),i,x),x,1)
1: loop(\(x,i).loop(\(x,i).(x + (x div (~1 + (4 * (1 + i))))),2,x),2,x)
1: loop(\(x,i).loop(\(x,i).(2 + (x mod 2)),(x mod 2),(x div 2)),4,x)
1: loop(\(x,i).loop(\(x,i).(x + (if (~2 + i) <= 0 then 1 else x)),x,2),x,(~x + 2))
1: loop(\(x,i).loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then 1 else 0)),x,(x + 2)),2,(x + ~1))
1: loop(\(x,i).loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then 1 else 0)),x,2x),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then 2 else 0)),x,(x + 2)),(x + 6),1)
1: loop(\(x,i).loop(\(x,i).(x + (if (x mod (1 + i)) <= 0 then 2 else 0)),x,(x + 2)),(x + ~1),1)
1: loop(\(x,i).loop(\(x,i).(2 + (if x <= 0 then 2 else loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x))),2,x),1,(x + 1))
1: loop(\(x,i).loop(\(x,i).(x + (if x <= 0 then (1 + i) else 0)),x,(~x + 1)),1,(x2 + 2x))
1: loop(\(x,i).loop(\(x,i).(1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x)),2,(x + 1)),x,(2x + 2))
1: loop(\(x,i).loop(\(x,i).(x + loop(\(x,i).3x,i,(1 + i))),i,(x + 1)),i,1)
1: loop(\(x,i).loop(\(x,i).(x + loop(\(x,i).x3,2,i)),(1 + i),x),x,1)
1: loop(\(x,i).loop(\(x,i).(x + loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(~1 + i),1)),(~1 + i),x),x,0)
1: loop(\(x,i).loop(\(x,i).(x + loop(\(x,i).2x,i,x)),x,1),x,0)
1: loop(\(x,i).loop(\(x,i).(x + loop(\(x,i).(x * i),i,1)),i,~x),x,0)
1: loop(\(x,i).loop(\(x,i).(x + loop(\(x,i).(x * i),i,1)),i,(~x + 1)),x,1)
1: loop(\(x,i).loop(\(x,i).(x + loop(\(x,i).(x * i),i,1)),i,x),(x + ~1),x)
1: loop(\(x,i).loop(\(x,i).(x + loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(~2 + i),1)),x,1),1,loop(\(x,i).2x,x,1))
1: loop(\(x,i).loop(\(x,i).(x + i),(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i)),x),x,2)
1: loop(\(x,i).loop(\(x,i).(x + i),i,10x),x,0)
1: loop(\(x,i).loop(\(x,i).~x,3x,((~x + ~1) + i)),x,2)
1: loop(\(x,i).loop(\(x,i).(2 - (x mod 2)),(x mod 2),(x div 2)),x,x)
1: loop(\(x,i).loop(\(x,i).(3x + ~1),x,2),x,1)
1: loop(\(x,i).loop(\(x,i).(~x + (3x * i)),i,x),x,1)
1: loop(\(x,i).loop(\(x,i).(x2 + ~2),2,(x2 + 2)),x,3)
1: loop(\(x,i).loop(\(x,i).(~1 + (x * i)),x,1),(x + ~1),(if x <= 0 then 1 else x))
1: loop(\(x,i).loop(\(x,i).(1 + (x * i) - (2 * (x mod 2))),(x + ~2),x),1,(x + 1))
1: loop(\(x,i).loop(\(x,i).(~2x + (i * i)),x,0),1,(2x + 1))
1: loop(\(x,i).loop(\(x,i).(~x + (17x div (if i <= 0 then 1 else i))),x,1),1,2x)
1: loop(\(x,i).loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,0),2,3x)
1: loop(\(x,i).loop(\(x,i).(loop(\(x,i).(1 + (x * i)),i,1) - (x * i)),x,1),1,(x + 1))
1: loop(\(x,i).loop(\(x,i).(~x + loop(\(x,i).(x + (x div (~1 + (2 * i)))),x,i)),x,1),1,(x + 1))
1: loop(\(x,i).loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),x,x),1,(3x + 2))
1: loop(\(x,i).loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),x,x),1,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),x,x),1,(2x2 + 4x))
1: loop(\(x,i).loop(\(x,i).(~1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),x,x),1,3x)
1: loop(\(x,i).loop(\(x,i).(x + ~1),(x * (i div 2)),(x + 1)),x,1)
1: loop(\(x,i).loop(\(x,i).((x + ~1) - (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)),x,x),1,2x)
1: loop(\(x,i).loop(\(x,i).(x + (2 * (i * i)) - i),x,0),2,x)
1: loop(\(x,i).loop(\(x,i).(x + loop(\(x,i).2x,i,1) - i),i,x),x,1)
1: loop(\(x,i).loop(\(x,i).(x - (2x * i)),(2 * i),x),x,1)
1: loop(\(x,i).loop(\(x,i).(x - ((x div 2) div (1 + i))),2,x),2,x)
1: loop(\(x,i).loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1,(x + (x div 5)))
1: loop(\(x,i).loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1,(3x + 3))
1: loop(\(x,i).loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1,(x2 + 3x + 2))
1: loop(\(x,i).loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1,(x2 + 2x))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (3 + i)) <= 0 then 2 else 1)),x,(x + 2)),2,2x)
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(13x + 4))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(x2 + 3x + 3))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(17x + 8))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(21x + 20))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(2x2 + 6x + 5))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(17x + 12))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(17x + 16))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(32x + 9))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(4x + (x div 2)))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(2x2 + 2x + 1))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(x2 + 3))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(2 + ((x2 + x) div 2)))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(2 + ((x2 + 3x + 2) div 2)))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(1 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(11x + 1))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(9x + 5))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(2x2 + 5x + 1))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(16x + 7))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(15x + 4))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(23x + 4))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(12x + 5))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(11x + 9))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(5x + ~2))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,3x)
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(9x + 6))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(10x + 4))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(15x + 6))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(4x2 + 8x + 2))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(6x2 + 12x + 3))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,33x)
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(8x + 2))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(12x + 4))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(2x2 + 6))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(8x + 6))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(2x2 + 6x))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,21x)
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(12x + 6))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,18x)
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,((3x + 20) div 2))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,((3x2 + 6x) div 2))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(2x div 3))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,loop(\(x,i).(2x + 2),4,x))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,(x + 2)),1,(x + 5))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,(x + 2)),1,(2x + 1))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (2 + i)) <= 0 then 0 else 1)),x,x),1,(13x + 2))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (2 + i)) <= 0 then 0 else 1)),x,x),1,(17x + 2))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (2 + i)) <= 0 then 0 else 1)),x,x),1,(13x + 8))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (2 + i)) <= 0 then 0 else 1)),x,x),1,(17x + 4))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (2 + i)) <= 0 then 0 else 1)),x,x),1,(9x + 4))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (2 + i)) <= 0 then 0 else 1)),x,x),1,(11x + 10))
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (2 + i)) <= 0 then 0 else 1)),x,x),1,11x)
1: loop(\(x,i).loop(\(x,i).(x - (if (x mod (2 + i)) <= 0 then 1 else 2)),x,x),1,2x)
1: loop(\(x,i).loop(\(x,i).(x - (if x <= 0 then 0 else (1 + (2 * i)))),x,x),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).loop(\(x,i).(x - (if x <= 0 then 0 else (1 + (2 * i)))),x,x),1,loop(\(x,i).2x,x,1))
1: loop(\(x,i).loop(\(x,i).(x - (if x <= 0 then 0 else (i - (x mod 2)))),x,x),1,(2x + 2))
1: loop(\(x,i).loop(\(x,i).(x - (if x <= 0 then 1 else (2 * i))),x,x),1,3x)
1: loop(\(x,i).loop(\(x,i).(~1 + i),(x - i),x),x,x)
1: loop(\(x,i).loop(\(x,i).(~2 + i),((x + i) div 2),1),x,1)
1: loop(\(x,i).loop(\(x,i).3x,(1 + i),x),x,1)
1: loop(\(x,i).loop(\(x,i).3x,(1 + i),x),i,1)
1: loop(\(x,i).loop(\(x,i).3x,(~1 + i),2x),x,1)
1: loop(\(x,i).loop(\(x,i).3x,((x + ~1) div 2),1),(x mod 2),(x div 2))
1: loop(\(x,i).loop(\(x,i).3x,(x2 div 4),1),x,2)
1: loop(\(x,i).loop(\(x,i).3x,x,(x + 1)),1,(x + (x div 3)))
1: loop(\(x,i).loop(\(x,i).3x,x,x),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).loop(\(x,i).3x,i,x),(x + ~2),x)
1: loop(\(x,i).loop(\(x,i).3x,i,x),x,loop(\(x,i).(3x + 1),x,1))
1: loop(\(x,i).loop(\(x,i).5x,(1 + i),x),i,1)
1: loop(\(x,i).loop(\(x,i).5x,(2x + ~1),1),1,(x * (1 + (if (x mod 3) <= 0 then 2 else 0))))
1: loop(\(x,i).loop(\(x,i).5x,x,1),(i - (x mod 3)),loop(\(x,i).5x,x,1))
1: loop(\(x,i).loop(\(x,i).5x,x,x),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).loop(\(x,i).5x,i,2x),x,1)
1: loop(\(x,i).loop(\(x,i).7x,(1 + i),x),i,1)
1: loop(\(x,i).loop(\(x,i).7x,i,x2),x,1)
1: loop(\(x,i).loop(\(x,i).(x * (1 + (2 * (1 + i)))),(x + ~2),x),1,(x + ~1))
1: loop(\(x,i).loop(\(x,i).(x4 + x),1,(2x + 1)),1,3x)
1: loop(\(x,i).loop(\(x,i).(x * (1 + (4 * i))),i,x),(x + ~1),1)
1: loop(\(x,i).loop(\(x,i).(x * (1 + (6 * i))),3,x),x,1)
1: loop(\(x,i).loop(\(x,i).(4x + 2),i,1),(x + ~2),x)
1: loop(\(x,i).loop(\(x,i).(x * (1 + (2 * i))),i,x),2x,1)
1: loop(\(x,i).loop(\(x,i).((x + (i * i)) * i),x,(x + 1)),x,0)
1: loop(\(x,i).loop(\(x,i).(2 * (x + ((1 + i) mod 4))),x,1),x,1)
1: loop(\(x,i).loop(\(x,i).(2x + 2),6,4x),x,0)
1: loop(\(x,i).loop(\(x,i).(x2 + x),(x + ~1),(2x + 1)),x,1)
1: loop(\(x,i).loop(\(x,i).(x2 + x),x,2),x,0)
1: loop(\(x,i).loop(\(x,i).(x2 + x),x,x),(x + ~1),1)
1: loop(\(x,i).loop(\(x,i).(x * (1 + i)),(3 * i),x),x,1)
1: loop(\(x,i).loop(\(x,i).(x * (1 + i)),(5 * i),x),x,1)
1: loop(\(x,i).loop(\(x,i).(x * (1 + i)),(4 * i),x),x,1)
1: loop(\(x,i).loop(\(x,i).(x * (1 + i)),(2 * i),x),(x + 1),1)
1: loop(\(x,i).loop(\(x,i).(x * (1 + i)),(2 * i),x),x,1)
1: loop(\(x,i).loop(\(x,i).(x * (1 + i)),i,x),2x,1)
1: loop(\(x,i).loop(\(x,i).(x * (2 + i)),(2 * i),x),(x + 1),1)
1: loop(\(x,i).loop(\(x,i).(x * (2 + i)),x,x),x,1)
1: loop(\(x,i).loop(\(x,i).(2 * (x + i)),x,1),x,1)
1: loop(\(x,i).loop(\(x,i).(x * (x + i)),2,(x + 2)),2,0)
1: loop(\(x,i).loop(\(x,i).(x * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))),x,1),1,((x2 + x) div 2))
1: loop(\(x,i).loop(\(x,i).(x * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))),i,x),i,x)
1: loop(\(x,i).loop(\(x,i).(x * (2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),i))),x,2),1,(5x + 2))
1: loop(\(x,i).loop(\(x,i).~2x,(i * i),x),x,1)
1: loop(\(x,i).loop(\(x,i).~2x,(i mod 3),x),x,(x + 1))
1: loop(\(x,i).loop(\(x,i).~2x,i,2x),x,1)
1: loop(\(x,i).loop(\(x,i).~3x,i,2x),x,1)
1: loop(\(x,i).loop(\(x,i).(x * ((x + ~1) + i)),2,x2),x,4)
1: loop(\(x,i).loop(\(x,i).(x * (~1 - i)),i,2x),x,1)
1: loop(\(x,i).loop(\(x,i).(x * (~2 + (3 * i))),i,x),x,1)
1: loop(\(x,i).loop(\(x,i).11x,x,1),2,1)
1: loop(\(x,i).loop(\(x,i).(x * (~1 + (4 * (i * i)))),i,x),x,1)
1: loop(\(x,i).loop(\(x,i).(2 * (2x - (x div (if i <= 0 then 1 else i)))),i,x),x,1)
1: loop(\(x,i).loop(\(x,i).(4 * (2x - (x div (if i <= 0 then 1 else i)))),i,x),x,1)
1: loop(\(x,i).loop(\(x,i).(x * (~1 + (2 * i))),(x div 2),1),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).loop(\(x,i).(x * (~1 + (2 * i))),i,x),x,1)
1: loop(\(x,i).loop(\(x,i).(x * (~2 + (i mod 2))),x,1),1,((x2 + x) div 2))
1: loop(\(x,i).loop(\(x,i).(x * (x - i)),2,(~1 + i)),x,1)
1: loop(\(x,i).loop(\(x,i).10x,(i mod 2),(x + ~2)),x,1)
1: loop(\(x,i).loop(\(x,i).10x,x,1),2,1)
1: loop(\(x,i).loop(\(x,i).10x,x,1),(x mod 4),0)
1: loop(\(x,i).loop(\(x,i).10x,x,loop(\(x,i).(10x + 1),x,1)),1,i)
1: loop(\(x,i).loop(\(x,i).10x,x,loop(\(x,i).(10x + 10),(x + 1),0)),1,(x2 + x))
1: loop(\(x,i).loop(\(x,i).(8x + 4),(x + 1),0),1,(x3 + 3x2 + 4x + 2))
1: loop(\(x,i).loop(\(x,i).(2x * (1 + (2 * i))),(i * i),x),2,x)
1: loop(\(x,i).loop(\(x,i).(2x * (1 + (2 * i))),i,x),(x + ~1),1)
1: loop(\(x,i).loop(\(x,i).(x2 * (1 + (2 * i))),x,2),x,0)
1: loop(\(x,i).loop(\(x,i).(2x * (~1 + (2 * i))),i,x),(x + ~1),1)
1: loop(\(x,i).loop(\(x,i).(2x * (~1 + (2 * i))),i,x),x,1)
1: loop(\(x,i).loop(\(x,i).(x * ((~1 + (2 * i)) * i)),x,1),1,(7x + 7))
1: loop(\(x,i).loop(\(x,i).8x,i,2x),x,1)
1: loop(\(x,i).loop(\(x,i).12x,x,1),2,1)
1: loop(\(x,i).loop(\(x,i).(4x * (~1 + (2 * i))),i,x),x,1)
1: loop(\(x,i).loop(\(x,i).(2x * (i * (1 + i))),i,x),x,1)
1: loop(\(x,i).loop(\(x,i).(x * (i * i * i * (1 + i))),i,x),x,1)
1: loop(\(x,i).loop(\(x,i).(4x * (i * i)),i,x),x,1)
1: loop(\(x,i).loop(\(x,i).(x * (i * i * i * i)),i,x),x,1)
1: loop(\(x,i).loop(\(x,i).(x * (((1 + i) div 2) * i)),(2 * i),x),x,1)
1: loop(\(x,i).loop(\(x,i).4x,x,1),x,0)
1: loop(\(x,i).loop(\(x,i).4x,x,x),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).loop(\(x,i).4x,i,(2x * (1 + i))),x,1)
1: loop(\(x,i).loop(\(x,i).6x,(~1 + i),2x),x,1)
1: loop(\(x,i).loop(\(x,i).2x2,1,(x3 + x)),2x,1)
1: loop(\(x,i).loop(\(x,i).2x2,2,(x3 + x2 + 1)),1,x2)
1: loop(\(x,i).loop(\(x,i).x3,1,((x + 1) + (x2 div 4))),1,(x + 1))
1: loop(\(x,i).loop(\(x,i).x3,2,x2),1,(2 + compr(\x.((~1 + loop(\(x,i).(x * i),x,1)) mod (x + 2)),x)))
1: loop(\(x,i).loop(\(x,i).x3,4,2),(x + ~2),loop(\(x,i).6x,x,1))
1: loop(\(x,i).loop(\(x,i).x3,i,(x div 3)),(x + ~1),x2)
1: loop(\(x,i).loop(\(x,i).(2x * i),(~1 + (2 * i)),x),x,1)
1: loop(\(x,i).loop(\(x,i).(2x * i),(2 * i),x),x,1)
1: loop(\(x,i).loop(\(x,i).(2x * i),x,(2x + 1)),1,(2x + 1))
1: loop(\(x,i).loop(\(x,i).(2x * i),i,x),(x + ~1),1)
1: loop(\(x,i).loop(\(x,i).(2x * i),i,x),x,1)
1: loop(\(x,i).loop(\(x,i).(x * (i * (1 + i))),i,x),(x + ~1),1)
1: loop(\(x,i).loop(\(x,i).(2x * (i * i)),i,x),x,1)
1: loop(\(x,i).loop(\(x,i).(x * (i * i * i)),i,x),x,1)
1: loop(\(x,i).loop(\(x,i).(x * (i * i)),(2 * i),x),x,1)
1: loop(\(x,i).loop(\(x,i).(x * (i * i)),i,x),x,1)
1: loop(\(x,i).loop(\(x,i).(x * (i * i)),i,x),x,(x + 1))
1: loop(\(x,i).loop(\(x,i).(x * (i * i)),i,x),i,1)
1: loop(\(x,i).loop(\(x,i).(((2x * i) div (1 + i)) * (1 + (2 * i))),i,x),x,1)
1: loop(\(x,i).loop(\(x,i).((((4x div (1 + i)) * (~1 + (2 * i))) div (1 + i)) * (1 + (2 * i))),i,x),x,1)
1: loop(\(x,i).loop(\(x,i).(x * (x div (if i <= 0 then 1 else i))),x,(1 + i)),x,1)
1: loop(\(x,i).loop(\(x,i).(x * (x div (if i <= 0 then 1 else i))),x,i),x,1)
1: loop(\(x,i).loop(\(x,i).(x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).2x,i,1))),i,x),x,1)
1: loop(\(x,i).loop(\(x,i).(x * loop(\(x,i).x2,i,x)),2,x2),1,(x2 + 2))
1: loop(\(x,i).loop(\(x,i).2x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),2),1,(x + ~1))
1: loop(\(x,i).loop(\(x,i).2x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),2),1,i)
1: loop(\(x,i).loop(\(x,i).2x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),2),2,(x + 1))
1: loop(\(x,i).loop(\(x,i).2x,(((x + 1) div 2) - ((3 * (x div 4)) div 2)),3),1,i)
1: loop(\(x,i).loop(\(x,i).2x,(x + ~1),x3),(x + ~1),2)
1: loop(\(x,i).loop(\(x,i).2x,(x + ~1),x),1,((x2 + x) div 2))
1: loop(\(x,i).loop(\(x,i).2x,(x + ~2),(3 * i)),x,1)
1: loop(\(x,i).loop(\(x,i).2x,(~1 + i),3x),x,1)
1: loop(\(x,i).loop(\(x,i).2x,(~1 + i),(x * (2 + i))),x,1)
1: loop(\(x,i).loop(\(x,i).2x,(~1 + i),(x * i)),x,1)
1: loop(\(x,i).loop(\(x,i).2x,(compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x) - compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)),1),1,i)
1: loop(\(x,i).loop(\(x,i).2x,(i * i),x),x,1)
1: loop(\(x,i).loop(\(x,i).2x,((x * (x + i)) div (x + 1)),1),x,1)
1: loop(\(x,i).loop(\(x,i).2x,(x div 2),2),(x mod 2),x)
1: loop(\(x,i).loop(\(x,i).2x,(x div 2),(x mod ~2)),1,((x2 + x) div 2))
1: loop(\(x,i).loop(\(x,i).2x,(i div (2x + 1)),1),x,1)
1: loop(\(x,i).loop(\(x,i).2x,(x mod 5),1),(x mod 2),(2x + 1))
1: loop(\(x,i).loop(\(x,i).2x,loop(\(x,i).(x * i),i,1),1),x,2)
1: loop(\(x,i).loop(\(x,i).2x,loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),i,1),1),x,2)
1: loop(\(x,i).loop(\(x,i).2x,loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),i,i),1),x,1)
1: loop(\(x,i).loop(\(x,i).2x,x,1),(x + ~2),(if x <= 0 then 1 else (4 - (x mod 2))))
1: loop(\(x,i).loop(\(x,i).2x,x,1),(x - (x2 div (x + 5))),1)
1: loop(\(x,i).loop(\(x,i).2x,x,1),(x div 2),(loop(\(x,i).x2,3,(2 + (x mod 2))) mod (x + 1)))
1: loop(\(x,i).loop(\(x,i).2x,x,1),(x mod 2),(x + 1))
1: loop(\(x,i).loop(\(x,i).2x,x,1),x,3)
1: loop(\(x,i).loop(\(x,i).2x,x,(1 + (x div 2))),1,i)
1: loop(\(x,i).loop(\(x,i).2x,x,(2 + (i div 2))),x,0)
1: loop(\(x,i).loop(\(x,i).2x,x,(x + 2)),1,compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x))
1: loop(\(x,i).loop(\(x,i).2x,x,x2),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).loop(\(x,i).2x,x,(if x <= 0 then 1 else x)),1,((x2 + x) div 2))
1: loop(\(x,i).loop(\(x,i).2x,x,(if x <= 0 then 2 else (2x + ~1))),1,3x)
1: loop(\(x,i).loop(\(x,i).2x,x,loop(\(x,i).(x * (1 + (2 * i))),(~2 + i),1)),x,0)
1: loop(\(x,i).loop(\(x,i).2x,x,x),1,(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 1))))
1: loop(\(x,i).loop(\(x,i).2x,x,x),1,loop(\(x,i).(x + (if x <= 0 then (1 + i) else 0)),x,(~x + 1)))
1: loop(\(x,i).loop(\(x,i).2x,i,(2x + 1)),x,0)
1: loop(\(x,i).loop(\(x,i).2x,i,(2x + 1)),x,1)
1: loop(\(x,i).loop(\(x,i).2x,i,x3),4,(x + 1))
1: loop(\(x,i).loop(\(x,i).2x,i,2x),x,1)
1: loop(\(x,i).loop(\(x,i).2x,i,2x),x,2)
1: loop(\(x,i).loop(\(x,i).2x,i,2x),i,1)
1: loop(\(x,i).loop(\(x,i).2x,i,x),(1 + compr(\x.((~1 + loop(\(x,i).(x * i),x,1)) mod (x + 2)),x)),1)
1: loop(\(x,i).loop(\(x,i).2x,i,x),(x + ~2),x)
1: loop(\(x,i).loop(\(x,i).2x,i,x),x,2)
1: loop(\(x,i).loop(\(x,i).2x,i,x),x,(x + 1))
1: loop(\(x,i).loop(\(x,i).2x,i,x),x,(~1 + loop(\(x,i).2x,x,2)))
1: loop(\(x,i).loop(\(x,i).2x,i,x),i,1)
1: loop(\(x,i).loop(\(x,i).2x,i,x),i,x)
1: loop(\(x,i).loop(\(x,i).x2,1,(~x + 5)),(2x + 2),1)
1: loop(\(x,i).loop(\(x,i).x2,1,(3x + 2)),2,1)
1: loop(\(x,i).loop(\(x,i).x2,1,(x2 + x + 1)),1,loop(\(x,i).10x,x,1))
1: loop(\(x,i).loop(\(x,i).x2,1,(1 + (x * i))),x,0)
1: loop(\(x,i).loop(\(x,i).x2,1,(2 + compr(\x.((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),x))),1,(x + 2))
1: loop(\(x,i).loop(\(x,i).x2,1,(~3x + 3)),2,x)
1: loop(\(x,i).loop(\(x,i).x2,1,(6x2 + 12)),1,x2)
1: loop(\(x,i).loop(\(x,i).x2,1,((x + 1) * (i * i))),(x + ~1),x)
1: loop(\(x,i).loop(\(x,i).x2,1,loop(\(x,i).((2 * (x - (2x * i))) div (1 + i)),x,1)),1,(x + ~1))
1: loop(\(x,i).loop(\(x,i).x2,2,(7x + ~6)),2,0)
1: loop(\(x,i).loop(\(x,i).x2,2,x5),x,7)
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(3x + 1))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(3x + 2))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(5x + 4))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(5x + 1))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(5x + 2))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(9x + 7))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(10x + 3))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(8x + 3))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(7x + 3))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(10x + 6))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(11x + 5))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(9x + 1))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(9x + 2))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(9x + 8))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(12x + 9))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(8x + 5))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(9x + 4))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(12x + 7))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(7x + 6))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(11x + 10))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(8x + 1))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(12x + 1))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(4x + 1))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(6x + 1))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(6x + 2))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(2x + 1))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(11x + 2))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(~8x + ~6))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(4x + 3))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(9x + 5))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(10x + 7))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(8x + 7))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(12x + 11))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(12x + 5))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(6x + 5))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(10x + 9))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(~11x + ~9))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(~7x + ~5))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(~11x + ~7))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(~7x + ~1))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(~11x + ~1))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(~7x + ~2))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(~11x + ~3))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(~11x + ~4))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(~5x + ~3))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(~11x + ~8))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(~7x + ~4))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(~11x + ~6))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,~7x)
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,~11x)
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,3x)
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,5x)
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(9x + 3))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(6x + 4))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(9x + 6))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(10x + 8))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(10x + 2))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(10x + 4))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(8x + 2))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(12x + 3))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(12x + 2))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(12x + 4))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(4x + 2))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(6x + 3))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(10x + 5))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(12x + 10))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,9x)
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,10x)
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(12x + 8))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(8x + 4))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,(12x + 6))
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,8x)
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,12x)
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,4x)
1: loop(\(x,i).loop(\(x,i).x2,2,x3),1,6x)
1: loop(\(x,i).loop(\(x,i).x2,2,x3),(1 + (x mod 2)),2)
1: loop(\(x,i).loop(\(x,i).x2,2,x3),x,7)
1: loop(\(x,i).loop(\(x,i).x2,2,x3),x,9)
1: loop(\(x,i).loop(\(x,i).x2,3,x3),x,5)
1: loop(\(x,i).loop(\(x,i).x2,(x + ~1),(x * i)),x,1)
1: loop(\(x,i).loop(\(x,i).x2,(x + ~1),(if x <= 0 then 1 else x5)),1,(x + 1))
1: loop(\(x,i).loop(\(x,i).x2,(x + ~2),2x),(x + ~1),1)
1: loop(\(x,i).loop(\(x,i).x2,((x + ~2) - i),2x),x,1)
1: loop(\(x,i).loop(\(x,i).x2,(x - i),2x),x,1)
1: loop(\(x,i).loop(\(x,i).x2,(x div 2),2),x,1)
1: loop(\(x,i).loop(\(x,i).x2,x,2),(x + ~2),1)
1: loop(\(x,i).loop(\(x,i).x2,x,2),(x div 2),(x mod 2))
1: loop(\(x,i).loop(\(x,i).x2,x,x),x,6)
1: loop(\(x,i).loop(\(x,i).x2,i,2x4),x,1)
1: loop(\(x,i).loop(\(x,i).x2,i,2x),x,1)
1: loop(\(x,i).loop(\(x,i).x2,i,x),x,2)
1: loop(\(x,i).loop(\(x,i).x2,i,x),x,3)
1: loop(\(x,i).loop(\(x,i).(2 * i),(if (i mod 2) <= 0 then 2 else 2x),x),(~1 + i),1)
1: loop(\(x,i).loop(\(x,i).(x * i),(2 + (3 * i)),x),x,2)
1: loop(\(x,i).loop(\(x,i).(x * i),(2 + (5 * i)),x),x,2)
1: loop(\(x,i).loop(\(x,i).(x * i),(1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i)),x),x,1)
1: loop(\(x,i).loop(\(x,i).(x * i),(~1 + (4 * i)),x),(x + 1),1)
1: loop(\(x,i).loop(\(x,i).(x * i),(x + ~1),(1 + (2 * (x mod 2)))),x,1)
1: loop(\(x,i).loop(\(x,i).(x * i),(3 * i),x),x,1)
1: loop(\(x,i).loop(\(x,i).(x * i),(5 * i),x),x,1)
1: loop(\(x,i).loop(\(x,i).(x * i),(7 * i),x),x,1)
1: loop(\(x,i).loop(\(x,i).(x * i),(2 * (1 + (2 * i))),x),x,2)
1: loop(\(x,i).loop(\(x,i).(x * i),((~1 + i) * i),x),x,1)
1: loop(\(x,i).loop(\(x,i).(x * i),(4 * i),x),x,1)
1: loop(\(x,i).loop(\(x,i).(x * i),(6 * i),x),x,1)
1: loop(\(x,i).loop(\(x,i).(x * i),(2 * i),x),x,1)
1: loop(\(x,i).loop(\(x,i).(x * i),(i * i),x),x,1)
1: loop(\(x,i).loop(\(x,i).(x * i),loop(\(x,i).2x,i,1),x),x,1)
1: loop(\(x,i).loop(\(x,i).(x * i),x,1),(x mod 2),(x div 2))
1: loop(\(x,i).loop(\(x,i).(x * i),x,(2 + i)),(x + ~1),1)
1: loop(\(x,i).loop(\(x,i).(x * i),x,(if (x + ~2) <= 0 then x else 1)),1,(x + ~1))
1: loop(\(x,i).loop(\(x,i).(x * i),x,x),1,(2 + compr(\x.((~1 + loop(\(x,i).(x * i),x,1)) mod (x + 2)),x)))
1: loop(\(x,i).loop(\(x,i).(x * i),i,2x),x,1)
1: loop(\(x,i).loop(\(x,i).(x * i),i,(x * i)),x,1)
1: loop(\(x,i).loop(\(x,i).(x * i),i,loop(\(x,i).(2x + (i mod 2)),x,0)),x,1)
1: loop(\(x,i).loop(\(x,i).(x * i),i,x),(x + ~2),1)
1: loop(\(x,i).loop(\(x,i).(x * i),i,x),(2 * i),x)
1: loop(\(x,i).loop(\(x,i).(x * i),i,x),x,(x + 1))
1: loop(\(x,i).loop(\(x,i).(x * i),i,x),x,~x)
1: loop(\(x,i).loop(\(x,i).(x * i),i,x),i,1)
1: loop(\(x,i).loop(\(x,i).(((x + i) * i) div (x + 1)),x,(x + 2)),(x + 2),2)
1: loop(\(x,i).loop(\(x,i).(((x + i) * i) div (x + 1)),x,2x),(x + ~1),2)
1: loop(\(x,i).loop(\(x,i).((x2 + ~x) div 2),i,(x + 2)),2,x)
1: loop(\(x,i).loop(\(x,i).((2x * (1 + (2 * i))) div (1 + i)),i,x),(x + ~1),1)
1: loop(\(x,i).loop(\(x,i).((2x * (1 + (2 * i))) div (1 + i)),i,x),x,1)
1: loop(\(x,i).loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),2x,1),1,(x3 + 4x2 + 5x + 2))
1: loop(\(x,i).loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,(x + 1)),1,(x3 + x2 + x))
1: loop(\(x,i).loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1),2,(x mod 8))
1: loop(\(x,i).loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),i,(x * i)),x,1)
1: loop(\(x,i).loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),i,x),i,x)
1: loop(\(x,i).loop(\(x,i).((x * loop(\(x,i).(x2 + ~x),1,loop(\(x,i).2x,i,1))) div 2),i,x),x,1)
1: loop(\(x,i).loop(\(x,i).(2x div (1 + i)),x,(1 + (2 * i))),x,x)
1: loop(\(x,i).loop(\(x,i).(((x3 + ~3x2 + 2x) div 2) div 3),1,((x2 + ~x) div 2)),1,(x + ~1))
1: loop(\(x,i).loop(\(x,i).((if x <= 0 then 2 else loop(\(x,i).(x div (2 - (x mod 2))),x,x)) div 2),2,x),1,(x + 1))
1: loop(\(x,i).loop(\(x,i).((if x <= 0 then 2 else loop(\(x,i).(x div (2 - (x mod 2))),x,x)) div 2),x,(x + 1)),1,x2)
1: loop(\(x,i).loop(\(x,i).(x div 3),(x + ~1),(x + 2)),x,(x div 4))
1: loop(\(x,i).loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,2x),1,(x + 1))
1: loop(\(x,i).loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 0 else 2))),x,(x + 1)),2,(x + 1))
1: loop(\(x,i).loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,x),1,(10x + 9))
1: loop(\(x,i).loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 5)),1,(x2 + 2x))
1: loop(\(x,i).loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 3)),1,5x)
1: loop(\(x,i).loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)),1,(x + loop(\(x,i).x2,2,4)))
1: loop(\(x,i).loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)),1,((~x + ~3) + loop(\(x,i).2x,x,2)))
1: loop(\(x,i).loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)),1,(x - ((~x + 2) div 2)))
1: loop(\(x,i).loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)),1,((x2 + 5x) div 2))
1: loop(\(x,i).loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)),2,x)
1: loop(\(x,i).loop(\(x,i).(x div (2 - (x mod 2))),i,((x + 1) + i)),x,1)
1: loop(\(x,i).loop(\(x,i).(x div (~2 + (x mod 2))),x,(x + 1)),2,x)
1: loop(\(x,i).loop(\(x,i).(if ((x + 1) mod (1 + i)) <= 0 then 0 else x),x,2x),2,(x + 1))
1: loop(\(x,i).loop(\(x,i).(if ((x + 1) mod (1 + i)) <= 0 then 0 else x),x,2x),2,x)
1: loop(\(x,i).loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x + 4)),2,x)
1: loop(\(x,i).loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + 1)),1,(x2 + 2x))
1: loop(\(x,i).loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x + 2)),1,(x2 + 4x))
1: loop(\(x,i).loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(4x + ~1)),1,(x2 + x))
1: loop(\(x,i).loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),x,(2x + 1)),1,(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: loop(\(x,i).loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),x,(2x + 1)),1,((x + 1) div 2))
1: loop(\(x,i).loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),x,(2x + 1)),2,x)
1: loop(\(x,i).loop(\(x,i).(if x <= 0 then 3 else (loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2)),2,x),2,x)
1: loop(\(x,i).loop(\(x,i).(if x <= 0 then i else (x + ~1)),x,0),2,(x + 1))
1: loop(\(x,i).loop(\(x,i).(if x <= 0 then i else (x + ~1)),x,0),2,(x + ~1))
1: loop(\(x,i).loop(\(x,i).loop(\(x,i).(loop(\(x,i).(1 + (x * i)),i,1) - (x * i)),x,1),1,(x + 1)),1,(x + 1))
1: loop(\(x,i).loop(\(x,i).loop(\(x,i).(x * (1 + compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),i))),i,x),i,x),x,1)
1: loop(\(x,i).loop(\(x,i).loop(\(x,i).2x,i,x),i,x),(x + ~1),1)
1: loop(\(x,i).loop(\(x,i).loop(\(x,i).x2,1,loop(\(x,i).((2 * (x - (2x * i))) div (1 + i)),x,1)),1,(x + ~1)),1,i)
1: loop(\(x,i).loop(\(x,i).loop(\(x,i).(x * i),i,x),(2 * i),x),x,1)
1: loop(\(x,i).loop(\(x,i).loop(\(x,i).(x * i),i,x),i,x),x,1)
1: loop(\(x,i).loop(\(x,i).loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),i,x),i,x),x,1)
1: loop(\(x,i).loop(\(x,i).loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x + 2)),2,x),2,x)
1: loop(\(x,i).loop(\(x,i).loop(\(x,i).loop(\(x,i).(x * i),i,x),i,x),i,x),x,1)
1: loop(\(x,i).loop(\(x,i).loop(\(x,i).loop(\(x,i).loop(\(x,i).(x * i),i,x),i,x),i,x),i,x),x,1)
1: loop(\(x,i).loop(\(x,i).loop(\(x,i).loop(\(x,i).loop(\(x,i).(x * i),i,x),i,x),i,x),i,x),i,x)
1: loop(\(x,i).loop(\(x,i).loop(\(x,i).loop(\(x,i).loop(\(x,i).loop(\(x,i).(x * i),i,x),i,x),i,x),i,x),i,x),x,1)
1: loop(\(x,i).loop(\(x,i).i,((x + ~1) - i),x),x,(x + 1))
1: loop(\(x,i).loop(\(x,i).i,(x - (i * i)),x),x,(x + 1))
1: loop(\(x,i).loop(\(x,i).i,(x div 4),x),1,i)
1: loop(\(x,i).loop(\(x,i).i,((x + 1) mod 10),x),2,x)
1: loop(\(x,i).loop(\(x,i).i,(x mod (2 + ((x div 2) div 3))),x),2,x)
1: loop(\(x,i).i,(3x + ~30),1)
1: loop(\(x,i).i,(x + (3 * (x mod ~5))),x)
1: loop(\(x,i).i,(x + ((x + ~32) div 2)),1)
1: loop(\(x,i).i,(2 - (((x mod 4) + (x div 2)) div 2)),x)
1: loop(\(x,i).i,(~x + 2),2)
1: loop(\(x,i).i,(~4 + (x div 2)),0)
1: loop(\(x,i).i,(~4 + (x div 2)),1)
1: loop(\(x,i).i,(~1 + (x div 3) - (x mod 2)),1)
1: loop(\(x,i).i,((x + ~4) + ((x + 8) div (~1 + ((~x + 1) div 2)))),1)
1: loop(\(x,i).i,(2x - (x2 div 4)),1)
1: loop(\(x,i).i,(~2 + (((x + 1) + ((1 + (2 * ((x + ((x + loop(\(x,i).2x,x,1)) div (x + 1))) div 2))) div (2x + 1))) div 2)),1)
1: loop(\(x,i).i,(~2 + ((x + ((x div 2) div 3)) div 2)),1)
1: loop(\(x,i).i,(~1 + ((x + ~1) div 2)),1)
1: loop(\(x,i).i,(~2 + ((x + ~2) div 3)),2)
1: loop(\(x,i).i,(~1 + ((x - ((x mod 3) div 2)) div 2)),1)
1: loop(\(x,i).i,(~3 + ((x * (x mod 2)) div 2)),1)
1: loop(\(x,i).i,(~2 + (2x div 3)),1)
1: loop(\(x,i).i,(~2 + (x div 2)),x)
1: loop(\(x,i).i,(~1 + (x div 2) - (((x + 1) div 3) mod 2)),1)
1: loop(\(x,i).i,((x div 2) - (if (x mod 4) <= 0 then 2 else 1)),1)
1: loop(\(x,i).i,(~1 + (x div (3 + (x mod 2)))),1)
1: loop(\(x,i).i,((x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1)))))) - (x mod 2)),1)
1: loop(\(x,i).i,(~2 + (x div (2 + (x mod 4)))),1)
1: loop(\(x,i).i,(~1 + (x mod (2 - (x mod ~4)))),1)
1: loop(\(x,i).i,(~2 + (x mod 10)),0)
1: loop(\(x,i).i,(~1 + loop(\(x,i).((~x + ~1) + i),x,2)),0)
1: loop(\(x,i).i,((x + ~4) - (x div 12)),1)
1: loop(\(x,i).i,(x + ~7),2)
1: loop(\(x,i).i,((x + ~1) - i),x)
1: loop(\(x,i).i,(x + ~6),2)
1: loop(\(x,i).i,(x + ~8),2)
1: loop(\(x,i).i,(x + ~8),x)
1: loop(\(x,i).i,(x + ~10),2)
1: loop(\(x,i).i,(x + ~10),x)
1: loop(\(x,i).i,(x - (2 * (2 + (x * (x mod 2))))),1)
1: loop(\(x,i).i,(x - (i * i)),x)
1: loop(\(x,i).i,(x - (x mod (2 + (x mod 2)))),1)
1: loop(\(x,i).i,(5 * (~1 + (((x + 1) div 2) div 2))),1)
1: loop(\(x,i).i,(5 * (~1 + (x div 3))),1)
1: loop(\(x,i).i,(10x + ~80),x)
1: loop(\(x,i).i,(4 * ((2x + 1) mod (1 + (2x mod (2 + (x div 4)))))),1)
1: loop(\(x,i).i,(2 * ((1 + (7 * (loop(\(x,i).2x,(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3),1) div 2))) div 3)),1)
1: loop(\(x,i).i,(2 * ((x - ((x div 2) mod 4)) div 3)),1)
1: loop(\(x,i).i,(2 * ((3 * ((1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + ~1) div 2))) div 2)) div 2)),1)
1: loop(\(x,i).i,((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + ((1 + (x div 2)) div 2))),1)
1: loop(\(x,i).i,((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + ((1 + (x div 3)) div 2))),1)
1: loop(\(x,i).i,(((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (2 + (x div (1 + (2 * (2 - ((x div 2) mod 2))))))),1)
1: loop(\(x,i).i,(((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (2 + (x div (2 + (x mod 5))))),1)
1: loop(\(x,i).i,((1 + (loop(\(x,i).((x + 1) + ((x + (x div 2)) div 4)),x,1) div 2)) div 2),1)
1: loop(\(x,i).i,((1 + (x div (1 + ((~1 + loop(\(x,i).2x,x,2)) mod (x + 2))))) div 2),1)
1: loop(\(x,i).i,((x + 1) div 5),x)
1: loop(\(x,i).i,((~1 + (x div 2)) div (~1 + (2 * (x mod 4)))),1)
1: loop(\(x,i).i,((x + ~2) div 3),1)
1: loop(\(x,i).i,((x - (if (x mod 3) <= 0 then 1 else 2)) div 2),1)
1: loop(\(x,i).i,((x2 + x) div (x + 16)),1)
1: loop(\(x,i).i,(((3 * (1 + (2 * (2x div 5)))) div 2) div 2),1)
1: loop(\(x,i).i,(((2x + 1) mod (4 + (x div 4))) div 2),1)
1: loop(\(x,i).i,(((2x + 1) mod (2 + (x div 4))) div 2),x)
1: loop(\(x,i).i,((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2),((2x + 1) div (3 + (x div 4))))
1: loop(\(x,i).i,((loop(\(x,i).(2x + 2),x,(1 - (2 * (x mod 2)))) mod (x + 1)) div 2),1)
1: loop(\(x,i).i,((loop(\(x,i).2x,x,(2 * (if (x mod 3) <= 0 then 0 else 2))) mod (x + 1)) div 2),1)
1: loop(\(x,i).i,((x mod 7) div 2),1)
1: loop(\(x,i).i,(loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2),1)
1: loop(\(x,i).i,(x div 5),((x + 1) mod 2))
1: loop(\(x,i).i,(x div (2 + ((x mod 3) div 2))),x)
1: loop(\(x,i).i,(x div (2 + (x div 5))),1)
1: loop(\(x,i).i,(x div (1 + ((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)))),1)
1: loop(\(x,i).i,(x div (2 + (((2x + ~3) * (4 + (x div 4))) mod (x + 1)))),1)
1: loop(\(x,i).i,(x div (2 + (x mod 11))),1)
1: loop(\(x,i).i,(x div (2 + (x mod 10))),2)
1: loop(\(x,i).i,(x div (2 * (2 + ((x2 div 4) mod 3)))),1)
1: loop(\(x,i).i,((2x + 1) mod 19),1)
1: loop(\(x,i).i,((2x + 1) mod (1 - (x div ~4))),1)
1: loop(\(x,i).i,((1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)) mod 5),x)
1: loop(\(x,i).i,((x + 1) mod 3),(~x + 4))
1: loop(\(x,i).i,((x + 1) mod 5),(x div 4))
1: loop(\(x,i).i,((x + 1) mod 7),1)
1: loop(\(x,i).i,((x + 1) mod 7),(1 + (x mod 2)))
1: loop(\(x,i).i,((x + 1) mod (2 + (x div 5))),1)
1: loop(\(x,i).i,((x + 1) mod 10),x)
1: loop(\(x,i).i,((x + 1) mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4)))))),x)
1: loop(\(x,i).i,((x + 2) mod (1 + (2 * ((1 + (((x + 1) div 2) div 2)) div 2)))),1)
1: loop(\(x,i).i,((~x + 1) mod 3),x)
1: loop(\(x,i).i,((~x + 2) mod 7),1)
1: loop(\(x,i).i,((~x + 2) mod (1 + (x div 2))),1)
1: loop(\(x,i).i,((~x + ~1) mod 10),x)
1: loop(\(x,i).i,((~x2 + ~1) mod (1 + (x div 3))),1)
1: loop(\(x,i).i,((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)),1)
1: loop(\(x,i).i,((x + ~1) mod (2 + (x mod 3))),1)
1: loop(\(x,i).i,((x + ~2) mod (2 + (x div 5))),1)
1: loop(\(x,i).i,((x * (1 + (x mod 2))) mod 9),x)
1: loop(\(x,i).i,((x2 + x) mod ((x + 1) - (x mod 9))),1)
1: loop(\(x,i).i,((x2 + 2x) mod 6),1)
1: loop(\(x,i).i,((x2 + 2x) mod 6),x)
1: loop(\(x,i).i,((2x + ~2) mod (2 + (x div 2))),x)
1: loop(\(x,i).i,(16 mod (x + 1)),1)
1: loop(\(x,i).i,((8x + 4) mod (1 + ((x + 1) div 3))),1)
1: loop(\(x,i).i,(x4 mod (1 + (x div 2))),1)
1: loop(\(x,i).i,(((x + ~2) * (x div 3)) mod (1 + (x div 2))),1)
1: loop(\(x,i).i,((x div 2) mod 4),2)
1: loop(\(x,i).i,(loop(\(x,i).(x2 + 2x),2,2) mod (x + 1)),1)
1: loop(\(x,i).i,(loop(\(x,i).4x,(x div 2),1) mod (x + 1)),1)
1: loop(\(x,i).i,(loop(\(x,i).2x,x,(~1 + (~x mod 4))) mod (x + 1)),1)
1: loop(\(x,i).i,(x mod 3),(1 + ((x div 5) mod 2)))
1: loop(\(x,i).i,(x mod 4),(x div 4))
1: loop(\(x,i).i,(x mod 7),x)
1: loop(\(x,i).i,(x mod (1 + (2 * (((1 + (x div 2)) div 2) mod 3)))),1)
1: loop(\(x,i).i,(x mod (1 + (((x + 1) div 2) div 3))),x)
1: loop(\(x,i).i,(x mod (2 + ((x div 2) div 3))),x)
1: loop(\(x,i).i,(x mod (2 + ((x mod 3) div 2))),x)
1: loop(\(x,i).i,(x mod (8 + (x div 4))),1)
1: loop(\(x,i).i,(x mod (2 + ((x + 1) mod (2 + (x div 4))))),1)
1: loop(\(x,i).i,(x mod (1 + ((~x + 2) mod 4))),1)
1: loop(\(x,i).i,(x mod (2 + ((x div 4) mod 3))),1)
1: loop(\(x,i).i,(x mod (2 - ((x div 4) div ~2))),1)
1: loop(\(x,i).i,(x mod (~1 + (2 * ((2 * (x div 2)) div 3)))),1)
1: loop(\(x,i).i,(if (x mod 2) <= 0 then (~2 + ((x + ~1) div 2)) else 0),1)
1: loop(\(x,i).i,(if (x mod 2) <= 0 then (x mod 6) else 1),x)
1: loop(\(x,i).i,loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),((x div 5) mod 2))
1: loop(\(x,i).i,compr(\x.loop(\(x,i).loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x + 2)),2,x),x),1)
1: loop(\(x,i).compr(\x.(1 - (x mod (2 + (if x <= 0 then 1 else loop(\(x,i).((if x <= 0 then 2 else loop(\(x,i).(x div (2 - (x mod 2))),x,x)) div 2),2,x))))),x),2,x)
1: loop(\(x,i).compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),(x + 1)),1,i)
1: loop(\(x,i).compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),x),1,((x * (x mod 2)) div 2))
1: loop(\(x,i).compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x),1,(x + (x div 9)))
1: loop(\(x,i).compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x),1,(x + (x div 11)))
1: loop(\(x,i).compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x),1,((x2 + x) div 2))
1: loop(\(x,i).compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x),2,x)
1: compr(\x.((3x + 2) - (loop(\(x,i).3x,x,1) mod loop(\(x,i).(2x2 + x),2,2))),x)
1: compr(\x.(3 + loop(\(x,i).(1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 2 else 1)),x,x)),2,2x)),x)
1: compr(\x.((x + 1) + loop(\(x,i).(x + loop(\(x,i).(x - (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else 19))),x,(x + 1))),2,x)),x)
1: compr(\x.(3 - (((x2 + x) div 4) mod 5)),x)
1: compr(\x.(3 - ((x2 div 2) mod (x + 4))),x)
1: compr(\x.(2 + ((x + 1) mod 3) - (x mod 10)),x)
1: compr(\x.(1 + (4 * (x mod 11)) - (x div 3)),x)
1: compr(\x.(2 + (x div 8) - ((x + 1) mod 8)),x)
1: compr(\x.(1 + ((x div 5) mod 3) - (x mod 3)),x)
1: compr(\x.(1 + (x mod 2) - ((x div 2) mod 4)),x)
1: compr(\x.(1 + (x mod 4) - ((x div 2) div 3)),x)
1: compr(\x.(1 + (x mod 4) - ((x + 1) mod 7)),x)
1: compr(\x.((~x + 1) + loop(\(x,i).x2,1,(x mod 10))),x)
1: compr(\x.((x + 1) - (3 * (~2 + ((x + (x div 2)) div 4)))),x)
1: compr(\x.((x + 2) - (((7 * (x - (2x div 5))) div 2) div 2)),x)
1: compr(\x.(x + (9 * (1 - (x div 8)))),(x + 1))
1: compr(\x.(1 + (((x + 1) mod (1 + (2 * ((x mod ~21) div 2)))) div 2)),x)
1: compr(\x.(((x - ((x div 2) div 5)) mod 2) + (x mod 3)),x)
1: compr(\x.(x + (x3 mod (~4x + ~1))),x)
1: compr(\x.(1 + (x2 mod (1 - (3 * (x mod 9))))),x)
1: compr(\x.(1 + (x mod (1 + (2 * (x div (1 - (2 * (x mod 4)))))))),x)
1: compr(\x.(1 + (x mod (~1 + (2 * (~2 + (x mod 2)))))),x)
1: compr(\x.(2 + (x mod (~2 + (4 * (~2 + (x mod 2)))))),x)
1: compr(\x.(1 + (x mod (~1 + (2 * (x mod (~2 + ((x div 2) mod ~2))))))),x)
1: compr(\x.(1 + (x mod (2 * (1 - (2 * ((x div 2) mod 5)))))),x)
1: compr(\x.(x + (if x <= 0 then 1 else (2 * (1 + ((1 + (loop(\(x,i).(~2x + (if (x mod (1 + i)) <= 0 then 0 else x)),x,x) div (x + 1))) div 2))))),x)
1: compr(\x.(x + (if x <= 0 then 1 else loop(\(x,i).(x - (if x <= 0 then 1 else (x2 mod (1 + (4x * (x mod 2)))))),x,x))),(2x + 1))
1: compr(\x.(1 + loop(\(x,i).(0 - (if ((x + 1) mod (1 + i)) <= 0 then 0 else x)),x,2x)),x)
1: compr(\x.(1 + loop(\(x,i).(1 - (if (x mod (2 + i)) <= 0 then 0 else x)),(x div 2),x)),(x + 2))
1: compr(\x.(x + loop(\(x,i).((x + 1) - (2 * (if x <= 0 then 0 else i))),(x + ~1),1)),x)
1: compr(\x.(1 + loop(\(x,i).(~x + (if (x mod (1 + (2 * i))) <= 0 then x else 0)),(2 + (x mod 2)),x)),x)
1: compr(\x.(x + loop(\(x,i).((x + 1) - (if x <= 0 then 0 else (i * i))),x,x)),x)
1: compr(\x.((x + 1) + loop(\(x,i).((x + 1) - (if x <= 0 then 2 else (2 * i))),x,x)),x)
1: compr(\x.(3 + loop(\(x,i).(x - (if (~x + i) <= 0 then (2 * i) else 0)),x,x)),x)
1: compr(\x.(1 + loop(\(x,i).(x - (if (x mod 2) <= 0 then i else 1)),(x div 4),x)),x)
1: compr(\x.(1 + loop(\(x,i).(x - (if (x mod (3 + i)) <= 0 then x else 3)),x,(x + 2))),x)
1: compr(\x.(loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x) + ((3x + 2) mod 7)),x)
1: compr(\x.(loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x) + ((1 + (x div 2)) mod 6)),x)
1: compr(\x.(loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x) + ((x + 1) mod 3)),x)
1: compr(\x.(loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x) + ((x + 1) mod 9)),x)
1: compr(\x.(loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x) + ((x + 1) mod 6)),x)
1: compr(\x.(loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x) + (x mod 7)),x)
1: compr(\x.(loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x) + (x mod 10)),x)
1: compr(\x.(1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then x else 5)),x,x)),x)
1: compr(\x.(x + loop(\(x,i).(x - (if (x mod (2 + i)) <= 0 then 1 else 2)),x,x)),(x + 1))
1: compr(\x.(x + loop(\(x,i).(x - (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else (1 + (9 * loop(\(x,i).(x div (1 + (x mod 2))),x,x)))))),x,x)),(x + 1))
1: compr(\x.(1 + loop(\(x,i).(x div (if (x mod 2) <= 0 then ~2 else 1)),x,((x + 1) div 2))),x)
1: compr(\x.(1 + loop(\(x,i).(x div (if (x mod 2) <= 0 then ~2 else (if (~x + 2) <= 0 then 2 else 1))),x,x)),x)
1: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(x + 8))),x)
1: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(5x + 2))),(x + 1))
1: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x2 + 2x + 5))),x)
1: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(12x + 1))),x)
1: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(10x + ~1))),x)
1: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(16x + ~1))),x)
1: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(6x + ~1))),x)
1: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(6x + ~2))),x)
1: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,13x)),x)
1: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x2 + 2x + 2))),x)
1: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x2 + 2x + 4))),x)
1: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(12x + 2))),x)
1: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x2 + 4))),x)
1: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(8x + ~2))),x)
1: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(12x + ~2))),x)
1: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(12x + 8))),x)
1: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(8x + 4))),x)
1: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,(3x + 1))),x)
1: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,(x2 + x + 2))),x)
1: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,(6x + 4))),x)
1: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,(x2 + x))),x)
1: compr(\x.(0 - loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,2x2)),x)
1: compr(\x.(0 - loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then x else 3)),x,x)),x)
1: compr(\x.(1 - ((4 mod (1 + (x div 4))) + (x mod 2))),x)
1: compr(\x.(1 - (((2x div (1 + (2 * (x mod 4)))) mod 2) + (x mod 2))),x)
1: compr(\x.(1 - (((x mod (~2 + (x mod ~7))) mod 2) + (x mod 2))),x)
1: compr(\x.(1 + (x mod 13) - (x mod 7)),x)
1: compr(\x.(1 + ((x + 3) mod 7) - (x mod 8)),x)
1: compr(\x.(1 + (x mod 7) - (x mod 8)),x)
1: compr(\x.(1 + (x mod 15) - (x mod 8)),x)
1: compr(\x.(1 - (((~x + 1) + (2 * ((if x <= 0 then 1 else (x - (loop(\(x,i).2x,x,1) mod 9))) mod (x + 1)))) div 2)),x)
1: compr(\x.(1 - ((((2 * (1 + ((1 + (((2x3 + 5x2 + ~3x) div 2) div 3)) div 2))) mod (x + 1)) div 2) div 2)),x)
1: compr(\x.(1 - (((x + 1) mod (1 + ((3 * (x mod 2)) + (x div 4)))) div 2)),x)
1: compr(\x.(1 - ((x mod (2 + ((1 + (2 * ((1 + (x div 3)) mod (1 + (x mod (1 + (x div 3))))))) mod (x + 1)))) div 2)),x)
1: compr(\x.(1 - (loop(\(x,i).(1 - loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x)),x,x) div 2)),x)
1: compr(\x.(1 - ((x + 9) mod (1 + (x div 2)))),x)
1: compr(\x.(1 - ((x2 + 2x + 1) mod (1 + ((2x + 2) div 5)))),x)
1: compr(\x.(1 - ((x2 + 2x + 8) mod (2 + (x div 3)))),x)
1: compr(\x.(1 - ((1 + ((1 + ((1 + ((1 + ((1 + (((x div (~2 + (x mod 2))) + (x mod 3)) div 2)) mod (x + 1))) div 2)) div 2)) div 2)) mod 3)),x)
1: compr(\x.(1 - ((x + ((x + 2) div (2 + (x div 4)))) mod 5)),x)
1: compr(\x.(1 - ((x + ((2x + ~1) div 5)) mod 3)),x)
1: compr(\x.(1 - ((1 + (((x + 1) * (~1 + loop(\(x,i).2x,x,loop(\(x,i).(3x + (if (i mod 3) <= 0 then 1 else 2)),x,1)))) div 3)) mod 3)),x)
1: compr(\x.(1 - ((1 + ((4 * ((2x + 1) - ((~x + ((~x + 2) div 4)) div 2))) div 3)) mod 3)),x)
1: compr(\x.(1 - ((x + ((x * ((1 + (x div 4)) div 2)) div 3)) mod 3)),x)
1: compr(\x.(1 - (((x div 3) + (x div 2)) mod 3)),x)
1: compr(\x.(1 - ((x + (if (x mod 4) <= 0 then 2 else 0)) mod 5)),x)
1: compr(\x.(1 - ((x + 1) mod (1 + (2 * (1 + ((x mod (1 + (2 * (x mod 6)))) mod 2)))))),(x + 1))
1: compr(\x.(1 - ((x + 1) mod (1 + (2 * ((1 + (x div 4)) div (1 + (x mod 5))))))),(x + 1))
1: compr(\x.(1 - ((x + 1) mod (1 + ((2 + (x div 2)) div 3)))),x)
1: compr(\x.(1 - ((x + 1) mod (1 + ((x - ((x div 3) mod 3)) div 2)))),x)
1: compr(\x.(1 - ((x + 1) mod (1 + (x div (2 + (((x + ~2) div 3) mod (1 + (x mod 4)))))))),x)
1: compr(\x.(1 - ((x + 1) mod (1 + (x div (2 + ((x div 2) mod 7)))))),x)
1: compr(\x.(1 - ((x + 1) mod (1 + (x div (2 + ((x div 4) mod 3)))))),x)
1: compr(\x.(1 - ((x + 1) mod (1 + (x div (2 + (x mod (2 + (x mod 2)))))))),x)
1: compr(\x.(1 - ((x + 1) mod (1 + (x div (1 - (x div (~2 + (((~x + 2) div 2) div 5)))))))),x)
1: compr(\x.(1 - ((x + 1) mod (1 + ((3x + 2) mod 11)))),x)
1: compr(\x.(1 - ((x + 1) mod (2 + ((x + (x div 8)) mod (1 + (x div 3)))))),x)
1: compr(\x.(1 - ((x + 1) mod (1 + ((~1 + loop(\(x,i).(x - (if x <= 0 then 1 else (2 * i))),x,x)) mod (x + 1))))),x)
1: compr(\x.(1 - ((x + 1) mod (1 + (x mod (2 + (x div (2 + (x mod (2 + (x mod 2)))))))))),x)
1: compr(\x.(1 - ((x + 1) mod (1 + loop(\(x,i).(if x <= 0 then i else (x + ~1)),x,0)))),x)
1: compr(\x.(1 - ((x + 1) mod (2 * (1 + (x div 8))))),x)
1: compr(\x.(1 - ((x + 1) mod ((1 + ((x div 2) mod 4)) * (1 + (x mod 3))))),x)
1: compr(\x.(1 - ((x + 2) mod (2 + (x mod 9)))),x)
1: compr(\x.(1 - ((1 - ((2 * (1 + ((1 + (((2 - (2x mod (4 + (x div 3)))) mod (2x + 5)) div 2)) div 2))) mod 3)) mod 3)),x)
1: compr(\x.(1 - ((~1 + (2 * ((2x + 2) - ((x mod ~4) div 2)))) mod 5)),x)
1: compr(\x.(1 - (((x2 + 2x) - ((~x + 2) div 5)) mod 3)),x)
1: compr(\x.(1 - ((~x + (x2 div 8)) mod 4)),x)
1: compr(\x.(1 - ((~1 + loop(\(x,i).2x,x,2)) mod (x + 2))),x)
1: compr(\x.(1 - ((x + ~4) mod (2 - (x div ~4)))),x)
1: compr(\x.(1 - (((x + 1) - ((((x div 4) mod 2) - (x div 2)) div 2)) mod 3)),(x + 1))
1: compr(\x.(1 - (((x + 1) - ((loop(\(x,i).2x,(if (x mod 3) <= 0 then x else 1),2) mod (x + 1)) div 2)) mod 3)),x)
1: compr(\x.(1 - ((x - ((~x + 1) mod 4)) mod 5)),x)
1: compr(\x.(1 - ((x - ((x div 4) mod (1 + (x mod 4)))) mod 3)),x)
1: compr(\x.(1 - ((2 * ((x + 2) + ((x + ((3 * ((3 * (x + (x div 4))) - (x mod 2))) div 7)) div 2))) mod 3)),x)
1: compr(\x.(1 - ((2 * ((x + 2) + ((x + (((2 * (~1 + (x div 4))) mod (x + 1)) div 2)) div 2))) mod 3)),x)
1: compr(\x.(1 - ((2 * ((2x + 1) - ((x + (x div 2)) div 4))) mod 3)),x)
1: compr(\x.(1 - ((3x2 + 2x) mod (1 + (x div 3)))),x)
1: compr(\x.(1 - (((x + 1) * (1 + (2 * (2x2 mod 17)))) mod 3)),x)
1: compr(\x.(1 - ((2 * (1 + ((2 + ((2 * (1 + ((2 * (1 + ((((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) * (1 + ((1 + (x div 2)) div 2))))) div 3))) div 3) - (x mod 2)) div 2))) mod 3)),(x + 1))
1: compr(\x.(1 - ((2 * (1 + ((1 + ((x + 1) div (1 + ((1 + ((x2 mod (2 + (x mod 8))) mod 2)) mod (x + 1))))) div 2))) mod 3)),(x + 1))
1: compr(\x.(1 - ((2 * (1 + ((1 + (x3 div (3 * (1 + (2 * (x mod 3)))))) div 2))) mod 3)),x)
1: compr(\x.(1 - ((2 * (1 + ((1 + (x div (1 + ((~1 + (2 * ((x + 1) + ((2 * (1 + ((1 + (x div (1 + ((~1 + (2 * ((x + 1) + (2 div (1 + (3 div (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) div 2)))))))) mod (x + 1))))) div 2))) div 3)))) mod (x + 1))))) div 2))) mod 3)),(x + 1))
1: compr(\x.(1 - ((2 * (1 + ((1 + (x div (1 + (x mod (1 + ((1 - ((2x + ~1) mod (4 + (x div 4)))) mod 3)))))) div 2))) mod 3)),(x + 1))
1: compr(\x.(1 - ((2 * (1 + ((2 * ((x + 1) + (2 * ((x + ((x div 2) mod 2)) div 2)))) div 3))) mod 3)),x)
1: compr(\x.(1 - ((2 * (1 + (((2 + ((9 * (1 + (x div 2))) mod (x + 1))) div 2) div 2))) mod 3)),x)
1: compr(\x.(1 - ((2 * (1 + (((((if x <= 0 then 1 else x) mod 2) - loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2) div 2))) mod 3)),x)
1: compr(\x.(1 - (((x + ~1) * (1 + (x div 2))) mod (1 + (x div 3)))),x)
1: compr(\x.(1 - (((x + 1) * (1 + (x3 mod 13))) mod 3)),x)
1: compr(\x.(1 - (((x + 1) * (1 + (x mod 8))) mod 5)),x)
1: compr(\x.(1 - ((2 * (2 + (if x <= 0 then 1 else (2 * (1 + ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 2)))))) mod 3)),x)
1: compr(\x.(1 - (((x + 1) * (1 + loop(\(x,i).loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,2x),1,(x + 1)))) mod 3)),x)
1: compr(\x.(1 - ((2 * (2 + compr(\x.((x + 1) mod (1 + (x mod (2 * (2 + (loop(\(x,i).(3x + 2),x,0) mod (x + 1))))))),x))) mod 3)),x)
1: compr(\x.(1 - ((~x2 + x) mod 8)),(x + 1))
1: compr(\x.(1 - ((x4 + ~x) mod 21)),x)
1: compr(\x.(1 - ((2x + ~4) mod (2 + (2x div (2 + (x div 4)))))),x)
1: compr(\x.(1 - ((2x + ~4) mod (2 - (x div ~4)))),x)
1: compr(\x.(1 - ((x * ((x - (x div 3)) div 3)) mod 8)),x)
1: compr(\x.(1 - ((x * (x div 2)) mod 4)),x)
1: compr(\x.(1 - (((x + ~1) * (x div 4)) mod 8)),(x + 1))
1: compr(\x.(1 - ((x * (x mod 3)) mod 5)),x)
1: compr(\x.(1 - ((x * (x mod (2 + (x mod 2)))) mod 5)),(x + 1))
1: compr(\x.(1 - (2x mod (4 + ((x + (x div 3)) div 3)))),x)
1: compr(\x.(1 - (2x mod (3 + (x div 2)))),x)
1: compr(\x.(1 - (2x mod (2 + ((x div 2) + (x mod 3))))),x)
1: compr(\x.(1 - (2x mod (1 + (x div 4)))),x)
1: compr(\x.(1 - (2x mod (~1 + (9 * (x mod 5))))),x)
1: compr(\x.(1 - (x2 mod (2 + ((x div 2) div 3)))),x)
1: compr(\x.(1 - (x2 mod (2 + ((x + 2) mod 5)))),x)
1: compr(\x.(1 - (x2 mod (1 + ((x * (x mod 4)) mod 15)))),x)
1: compr(\x.(1 - (x2 mod (1 + (2x mod 17)))),x)
1: compr(\x.(1 - (x2 mod (2 * (2 + (x div 4))))),x)
1: compr(\x.(1 - (((1 + ((loop(\(x,i).2x,(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x - ((if x <= 0 then 2 else loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 2)))),x,(x + 1))),1) div 2) div 3)) div 2) mod 3)),x)
1: compr(\x.(1 - (((x + 1) div (2 + ((x * (x div 2)) mod 2))) mod 3)),x)
1: compr(\x.(1 - (((x2 - (2x mod 5)) div 2) mod 7)),x)
1: compr(\x.(1 - ((((x + 1) * (~1 + loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),x,1))) div 2) mod 3)),x)
1: compr(\x.(1 - ((2x2 div (1 + ((x + 1) div 2))) mod 3)),x)
1: compr(\x.(1 - (((((x2 + ~2) * ((x + 1) div 2)) div 2) div 3) mod 3)),x)
1: compr(\x.(1 - ((((loop(\(x,i).(x * (4 + (x div 4))),1,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2) div 2) div 3) mod 3)),x)
1: compr(\x.(1 - (((loop(\(x,i).(x * (x div 2)),1,loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2) div 2) mod 3)),x)
1: compr(\x.(1 - (((loop(\(x,i).2x,(x div 2),~2) mod (x + 1)) div 2) mod 4)),x)
1: compr(\x.(1 - ((x div 2) mod 3)),loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x))
1: compr(\x.(1 - ((x div 2) mod (4 + ((x div 2) mod 4)))),x)
1: compr(\x.(1 - ((x div 2) mod (1 + (((x - (x mod 3)) * (x div 3)) mod 9)))),x)
1: compr(\x.(1 - ((x div 2) mod (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 6)))),x)
1: compr(\x.(1 - ((x div (if (x mod 2) <= 0 then 4 else 1)) mod 3)),x)
1: compr(\x.(1 - (((x3 + ~1) mod 19) mod 2)),x)
1: compr(\x.(1 - ((x2 mod (4x + 7)) mod 3)),x)
1: compr(\x.(1 - (((2x div ~7) mod (x + 1)) mod 4)),2x)
1: compr(\x.(1 - ((((1 - (x mod 4)) mod (x + 1)) mod 3) mod 2)),x)
1: compr(\x.(1 - ((x mod (~3 + (x mod ~4))) mod 3)),x)
1: compr(\x.(1 - ((x mod (~1 + (x div ~4))) mod 4)),x)
1: compr(\x.(1 - (loop(\(x,i).(x + (x div 2)),x,2) mod 3)),x)
1: compr(\x.(1 - (loop(\(x,i).(x * (1 + (i div 3))),x,1) mod (x + 2))),x)
1: compr(\x.(1 - (loop(\(x,i).(x * (2 + ((~1 + i) mod 4))),x,1) mod (x + 1))),x)
1: compr(\x.(1 - (loop(\(x,i).(x * (1 + (if (x mod (1 + i)) <= 0 then 0 else i))),x,1) mod (x + 2))),x)
1: compr(\x.(1 - (loop(\(x,i).(x * (2 + i)),4,1) mod (x + 1))),x)
1: compr(\x.(1 - (loop(\(x,i).(x * (2 + i)),8,1) mod (x + 1))),x)
1: compr(\x.(1 - (loop(\(x,i).x3,1,(1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1))) mod (x + 1))),x)
1: compr(\x.(1 - (loop(\(x,i).(x * (i * i)),(x div 2),1) mod (x + 2))),x)
1: compr(\x.(1 - (loop(\(x,i).x2,2,(1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1))) mod (x + 1))),x)
1: compr(\x.(1 - (loop(\(x,i).(x * i),(6 + (x mod 2)),1) mod (x + 1))),x)
1: compr(\x.(1 - (loop(\(x,i).(x * i),(4 + (x div 3)),1) mod (x + 1))),x)
1: compr(\x.(1 - (loop(\(x,i).(x * i),((if (x mod 2) <= 0 then 2 else 0) + (x div 2)),1) mod (x + 1))),x)
1: compr(\x.(1 - (loop(\(x,i).(x * i),(x div 2),1) mod (x + 2))),x)
1: compr(\x.(1 - (loop(\(x,i).((x2 + ~x) div 2),2,3x) mod (x + 1))),x)
1: compr(\x.(1 - (loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x + 2)) mod 7)),x)
1: compr(\x.(1 - (x mod (5 + ((x div 2) mod 5)))),(x + 1))
1: compr(\x.(1 - (x mod (1 + (((x div 2) div 3) + (x mod 4))))),x)
1: compr(\x.(1 - (x mod (1 + ((((2x + 1) mod (2 + (x div 2))) div 2) + (x mod 2))))),x)
1: compr(\x.(1 - (x mod (1 + (((x mod (~1 + (2 * ((x + ~1) div 3)))) div 2) + (x mod 2))))),x)
1: compr(\x.(1 - (x mod (3 + ((x2 div 2) mod 6)))),x)
1: compr(\x.(1 - (x mod (1 + ((if (~4 + (x div 2)) <= 0 then 2 else 1) + (x mod 2))))),x)
1: compr(\x.(1 - (x mod (1 + (3 * (1 + ((x div ~2) mod 2)))))),x)
1: compr(\x.(1 - (x mod (1 + (2 * (1 + ((x3 mod (x + 4)) mod 3)))))),x)
1: compr(\x.(1 - (x mod (1 + (2 * (3 - ((x div 2) mod (1 + (if (x mod 2) <= 0 then 6 else 1)))))))),x)
1: compr(\x.(1 - (x mod (1 + (2 * (2 - ((~1 + (x mod 4)) div 2)))))),x)
1: compr(\x.(1 - (x mod (1 + (2 * ((if (~2 + (x div 3)) <= 0 then 2 else 1) - (x mod 2)))))),x)
1: compr(\x.(1 - (x mod (1 + (8 * ((x div 2) mod 2))))),x)
1: compr(\x.(1 - (x mod (1 + (4 * (2x mod (1 + (2 * (if (x mod 3) <= 0 then 0 else 2)))))))),x)
1: compr(\x.(1 - (x mod (1 + (4 * (x mod 2))))),(x + 1))
1: compr(\x.(1 - (x mod (1 + (4 * (x mod (2 + ((~x + 2) mod 4))))))),x)
1: compr(\x.(1 - (x mod (1 + (2 * (x div (3 + (x div (1 + (x mod 4))))))))),x)
1: compr(\x.(1 - (x mod (1 + (2 * (x div (2 + ((x div 2) div 3))))))),x)
1: compr(\x.(1 - (x mod (1 + (2 * ((2 + (x div 2)) mod (2 + (x mod 2))))))),x)
1: compr(\x.(1 - (x mod (1 + (3 * ((~x2 + x) mod 8))))),x)
1: compr(\x.(1 - (x mod (1 + (5 * ((x * (x mod 3)) mod 5))))),x)
1: compr(\x.(1 - (x mod (1 + (2 * (2x mod (1 + (if (x mod 4) <= 0 then 0 else 2))))))),x)
1: compr(\x.(1 - (x mod (1 + (2 * ((loop(\(x,i).(1 + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x)),1,(x + ~2)) div 2) mod 2))))),x)
1: compr(\x.(1 - (x mod (2 + (3 * ((x div 2) mod 3))))),(x + 1))
1: compr(\x.(1 - (x mod (2 + (3 * (x mod 3))))),(x + 1))
1: compr(\x.(1 - (x mod (1 + (3 * (x mod (3 + (x mod 2))))))),(x + 1))
1: compr(\x.(1 - (x mod (1 + (3 * (x mod (3 + (x mod 2))))))),x)
1: compr(\x.(1 - (x mod (1 + (2 * (x mod (2 + (x mod 2))))))),x)
1: compr(\x.(1 - (x mod (1 + (3 * (x mod (1 + (x mod 4))))))),x)
1: compr(\x.(1 - (x mod (1 + (2 * (x mod loop(\(x,i).(1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),2,x)))))),x)
1: compr(\x.(1 - (x mod (1 + (3 * (if (x mod (1 + (4 * (x mod 2)))) <= 0 then 0 else 2))))),x)
1: compr(\x.(1 - (x mod (1 + (2 * (if (x mod (1 + (10 * (x mod 2)))) <= 0 then 0 else 2))))),x)
1: compr(\x.(1 - (x mod (1 + (x div 5)))),x)
1: compr(\x.(1 - (x mod (1 + (x div (1 + (2 * (1 + ((x + ~1) mod 5)))))))),x)
1: compr(\x.(1 - (x mod (2 + (x div (1 + (8 * (x mod 4))))))),x)
1: compr(\x.(1 - (x mod (2 + (4 mod (1 + (x div 3)))))),x)
1: compr(\x.(1 - (x mod (1 + (((x + 2) + (x div 3)) mod 5)))),x)
1: compr(\x.(1 - (x mod (1 + ((2 + (x mod (1 + ((~2x + 1) mod 5))) - (x mod 2)) mod (x + 1))))),x)
1: compr(\x.(1 - (x mod (1 + ((3x + 1) mod (2 + (x div 4)))))),x)
1: compr(\x.(1 - (x mod (2 + (13 mod (x + 1))))),x)
1: compr(\x.(1 - (x mod (1 + ((1 + (5 * (2 + (x div 2)))) mod (x + 1))))),(x + 1))
1: compr(\x.(1 - (x mod (2 + ((1 + (3 * ((1 + (x div 4)) div 2))) mod (x + 1))))),x)
1: compr(\x.(1 - (x mod (2 + ((1 + ((x div 3) * (x div 2))) mod 3)))),x)
1: compr(\x.(1 - (x mod (2 + ((2x + 1) mod 7)))),x)
1: compr(\x.(1 - (x mod (1 + ((x + (x div 4)) mod (1 + ((x + 1) div 2)))))),x)
1: compr(\x.(1 - (x mod (2 + ((1 + (x div (1 + ((x + ~1) mod 4)))) mod 3)))),x)
1: compr(\x.(1 - (x mod (2 + ((1 + (x div (2 - (x mod 2)))) mod (1 + (x div 4)))))),x)
1: compr(\x.(1 - (x mod (1 + ((1 + ((x + ((x div 2) div 3)) mod 3)) mod (x + 1))))),x)
1: compr(\x.(1 - (x mod (1 + ((1 + ((x - (((x + ~1) div 3) * (x div 2))) mod 3)) mod (x + 1))))),x)
1: compr(\x.(1 - (x mod (1 + ((1 + (((x + 2) mod 10) mod 9)) mod (x + 1))))),x)
1: compr(\x.(1 - (x mod (1 + ((1 + (x mod (1 + (2 * (2 + ((2x + 2) mod 9)))))) mod (x + 1))))),x)
1: compr(\x.(1 - (x mod (2 + ((x + (if (x mod 2) <= 0 then x2 else (x + 1))) mod 9)))),x)
1: compr(\x.(1 - (x mod (2 + ((x + loop(\(x,i).i,(x div 5),1)) mod 2)))),x)
1: compr(\x.(1 - (x mod (1 + ((x + 1) mod (1 + (2 * ((x + ~1) div 5))))))),x)
1: compr(\x.(1 - (x mod (2 + ((x + 1) mod (1 + (2x mod 7)))))),x)
1: compr(\x.(1 - (x mod (2 + ((x + 2) mod (5 + (x mod 2)))))),(x + 1))
1: compr(\x.(1 - (x mod (1 + ((x + 2) mod (2 + ((~x + 1) mod (1 + (x div 2)))))))),x)
1: compr(\x.(1 - (x mod (1 + (~x mod (1 + (x div 5)))))),x)
1: compr(\x.(1 - (x mod (1 + ((~2x + 1) mod (1 + (x div 4)))))),x)
1: compr(\x.(1 - (x mod (2 + ((1 - (2x div 3)) mod 3)))),(x + 1))
1: compr(\x.(1 - (x mod (2 + ((~x + 1) mod (1 + (x div 3)))))),x)
1: compr(\x.(1 - (x mod (2 + ((2 - (x mod 8)) mod (x + 2))))),x)
1: compr(\x.(1 - (x mod (1 + ((~1 + loop(\(x,i).2x,x,(1 + (x mod (2 * (1 + (x mod 2)))))) - (x mod 2)) mod (2x + 1))))),x)
1: compr(\x.(1 - (x mod (1 + ((3x + ~1) mod (x + 4))))),x)
1: compr(\x.(1 - (x mod (1 + (((~x2 + 2x) - (x div 2)) mod (1 + (x div 2)))))),x)
1: compr(\x.(1 - (x mod (2 + ((x3 + ~2) mod (x + 4))))),x)
1: compr(\x.(1 - (x mod (1 + ((~1 + (3 * (if (x mod 2) <= 0 then (2 * (2 + (if x <= 0 then 0 else 2))) else 1))) mod (x + 1))))),x)
1: compr(\x.(1 - (x mod (2 + ((~1 + (x div 2)) mod 5)))),x)
1: compr(\x.(1 - (x mod (1 + (((x div 2) - (21 * (if x <= 0 then 1 else 2))) mod (x + 1))))),x)
1: compr(\x.(1 - (x mod (2 + ((x - (2 * ((~1 + (((x + ~1) div 2) div 2)) div 2))) mod 3)))),(x + 1))
1: compr(\x.(1 - (x mod (2 + ((x - ((x + ~1) div 5)) mod 3)))),x)
1: compr(\x.(1 - (x mod (2 + ((x - (((x div 2) * (x div 2)) div 3)) mod 3)))),x)
1: compr(\x.(1 - (x mod (2 + ((x - (x div (~1 - (x div 4)))) mod 3)))),x)
1: compr(\x.(1 - (x mod (1 + ((x - (x div ~4)) mod 3)))),x)
1: compr(\x.(1 - (x mod (2 + ((2 * ((2x + 2) + (if x <= 0 then 1 else (4x + ((x - ((~x + 1) div 3)) div 3))))) mod 3)))),x)
1: compr(\x.(1 - (x mod (1 + ((x * (1 + (2 * (x mod 3)))) mod 9)))),x)
1: compr(\x.(1 - (x mod (2 + ((~x2 + 2x + ~1) mod (1 + (x div 2)))))),(x + 1))
1: compr(\x.(1 - (x mod (1 + ((~x2 + x) mod 8)))),x)
1: compr(\x.(1 - (x mod (2 + ((~2x + 4) mod (1 + (x div 2)))))),(x + 1))
1: compr(\x.(1 - (x mod (1 + ((2 * (x div ~2)) mod 9)))),x)
1: compr(\x.(1 - (x mod (1 + (2x mod (1 + (x div 2)))))),x)
1: compr(\x.(1 - (x mod (1 + (x2 mod 6)))),x)
1: compr(\x.(1 - (x mod (2 + (x2 mod 6)))),(x + 1))
1: compr(\x.(1 - (x mod (2 + (((2 + ((5 * (1 + (x mod 3))) mod (x + 1))) div 2) mod 3)))),(x + 1))
1: compr(\x.(1 - (x mod (1 + (((x2 + 3x + 2) div 2) mod 9)))),(x + 1))
1: compr(\x.(1 - (x mod (1 + (((x2 + 3x + 2) div 2) mod 11)))),x)
1: compr(\x.(1 - (x mod (2 + (((~x2 + x) div 8) mod 3)))),(x + 1))
1: compr(\x.(1 - (x mod (2 + (((x2 + ~x) div 2) mod 4)))),x)
1: compr(\x.(1 - (x mod (2 + (((x2 + ~x) div 2) mod 6)))),(x + 1))
1: compr(\x.(1 - (x mod (2 + (((x * (x mod 2)) div 2) mod 6)))),x)
1: compr(\x.(1 - (x mod (1 + ((((4x + ~4) div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2) mod 3)))),x)
1: compr(\x.(1 - (x mod (2 + ((((x2 div 2) mod (x + 4)) div 2) mod 2)))),x)
1: compr(\x.(1 - (x mod (1 + ((x div 2) mod (4 + ((x div 2) mod 3)))))),x)
1: compr(\x.(1 - (x mod (1 + ((x div ~2) mod 8)))),x)
1: compr(\x.(1 - (x mod (2 + ((x div ~7) mod 3)))),(x + 1))
1: compr(\x.(1 - (x mod (2 + ((x div ~7) mod 3)))),x)
1: compr(\x.(1 - (x mod (2 + ((2x mod (1 + (x div 4))) mod 2)))),(x + 1))
1: compr(\x.(1 - (x mod (2 + ((x mod (1 + (2 * (x mod 4)))) mod 2)))),(x + 1))
1: compr(\x.(1 - (x mod (1 + ((x mod (1 + (2 * (x mod (2 + (x mod 3)))))) mod 3)))),x)
1: compr(\x.(1 - (x mod (1 + (loop(\(x,i).(3x + 2),x,0) mod (x + 1))))),x)
1: compr(\x.(1 - (x mod (1 + (loop(\(x,i).2x,x,(1 + (3x mod (2 * (1 + (x mod 6)))))) mod (x + 1))))),x)
1: compr(\x.(1 - (x mod (1 + (loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),x,1) mod 9)))),x)
1: compr(\x.(1 - (x mod (2 + (x mod 3)))),(x + 1))
1: compr(\x.(1 - (x mod (1 + (x mod 4)))),(x + 2))
1: compr(\x.(1 - (x mod (1 + (x mod 4)))),x)
1: compr(\x.(1 - (x mod (2 + (x mod (7 - (x div 4)))))),x)
1: compr(\x.(1 - (x mod (1 + (x mod (5 + (x mod 2)))))),(x + 1))
1: compr(\x.(1 - (x mod (1 + (x mod (3 + (x mod 4)))))),x)
1: compr(\x.(1 - (x mod (1 + (x mod (4 - (x mod ~4)))))),x)
1: compr(\x.(1 - (x mod (1 + (x mod (1 + ((x + 1) div 5)))))),(x + 1))
1: compr(\x.(1 - (x mod (1 + (x mod (1 + ((x + 2) div 3)))))),x)
1: compr(\x.(1 - (x mod (2 + (x mod (2 + ((x - (x div 4)) div 2)))))),x)
1: compr(\x.(1 - (x mod (2 + (x mod (1 + (x div (2 + ((x div 2) mod 5)))))))),x)
1: compr(\x.(1 - (x mod (1 + (x mod (1 + ((1 + (x mod ((1 + (x mod (1 + (x div 4)))) * (1 + (x mod 2))))) mod (x + 1))))))),x)
1: compr(\x.(1 - (x mod (2 + (x mod (2 + ((x + ~1) mod 4)))))),x)
1: compr(\x.(1 - (x mod (1 + (x mod (2 + ((3x + ~3) mod (1 + (x div 2)))))))),x)
1: compr(\x.(1 - (x mod (1 + (x mod (2 + (4x mod (4 + (x div 4)))))))),x)
1: compr(\x.(1 - (x mod (1 + (x mod (1 + (x2 mod (x + 5))))))),x)
1: compr(\x.(1 - (x mod (2 + (x mod (1 + (if (~4 + (x div 2)) <= 0 then 2 else 1)))))),x)
1: compr(\x.(1 - (x mod (1 + (x mod 6)))),(x + 2))
1: compr(\x.(1 - (x mod (2 + (x mod (3 * (1 + ((~x + 1) mod 3))))))),x)
1: compr(\x.(1 - (x mod (1 + (x mod (2 * (1 + (x mod 4))))))),(x + 3))
1: compr(\x.(1 - (x mod (1 + (x mod (2 * (2 + (x mod 4))))))),x)
1: compr(\x.(1 - (x mod (2 + (if (((x + 1) div 2) mod 5) <= 0 then 1 else 2)))),x)
1: compr(\x.(1 - (x mod (2 + (if ((x div 3) mod 3) <= 0 then 1 else 2)))),(x + 1))
1: compr(\x.(1 - (x mod (2 + (if (x mod 2) <= 0 then 2 else (x div 4))))),x)
1: compr(\x.(1 - (x mod (1 + (if (x mod 2) <= 0 then 6 else 0)))),x)
1: compr(\x.(1 - (x mod (2 + (if (x mod (2 + (x div 4))) <= 0 then 1 else 2)))),(x + 1))
1: compr(\x.(1 - (x mod (1 + (if (x mod (1 - (x div ~4))) <= 0 then 2 else 1)))),x)
1: compr(\x.(1 - (x mod (1 + (if x <= 0 then 1 else ((3 * (1 + (x mod (2 + (x mod 2))))) + (x mod 2)))))),(2x + 1))
1: compr(\x.(1 - (x mod (2 + (if x <= 0 then 1 else loop(\(x,i).((if x <= 0 then 2 else loop(\(x,i).(x div (2 - (x mod 2))),x,x)) div 2),2,x))))),x)
1: compr(\x.(1 - (x mod (1 - ((~x + 1) div (2 + (x div 3)))))),(x + 1))
1: compr(\x.(1 - (x mod (2 - (3 * (~2 + (x div 8)))))),x)
1: compr(\x.(1 - (x mod (2 - (x mod (~1 - (2 * ((x + ~1) mod 3))))))),x)
1: compr(\x.(1 - (x mod (~1 + (2 * (1 + ((x mod (2 + (x mod 4))) + (x mod 4))))))),x)
1: compr(\x.(1 - (x mod (~1 + (5 * (if (x mod 3) <= 0 then 2 else 1))))),x)
1: compr(\x.(1 - (x mod (2 * (2 + (((x + 1) div 2) div 3))))),(x + 2))
1: compr(\x.(1 - (x mod (2 * (1 + ((~1 + (x div 2)) mod 4))))),(x + 1))
1: compr(\x.(1 - (x mod (2 * (1 + ((~1 + (x div 2)) mod 4))))),x)
1: compr(\x.(1 - loop(\(x,i).(x + loop(\(x,i).(x - (if x <= 0 then 1 else (if (x mod 2) <= 0 then (x div 2) else (2x + ~1)))),x,(x + 1))),1,(2x + ~1))),x)
1: compr(\x.(1 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,7x)),x)
1: compr(\x.(1 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,2x2)),x)
1: compr(\x.(1 - loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,8x)),x)
1: compr(\x.(1 - loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,4x)),x)
1: compr(\x.(1 - loop(\(x,i).(~1 + loop(\(x,i).(x3 mod 37),2,x)),1,x2)),x)
1: compr(\x.(1 - loop(\(x,i).(~1 + loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),(x div 2),(2x + ~1))),1,(x2 div 2))),x)
1: compr(\x.(1 - loop(\(x,i).(x - (loop(\(x,i).((x2 + x) div 2),2,3x) mod (x + 1))),x,x)),x)
1: compr(\x.(1 - loop(\(x,i).(x * (x mod (1 + (2 * i)))),3,x)),x)
1: compr(\x.(1 - loop(\(x,i).(loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2),2,x)),x)
1: compr(\x.(1 - loop(\(x,i).(x div (4 - (x mod 4))),x,x)),x)
1: compr(\x.(1 - loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,2x2)),x)
1: compr(\x.(1 - loop(\(x,i).(x div (2 - ((x * (x div 2)) mod 2))),x,x)),x)
1: compr(\x.(1 - loop(\(x,i).(if ((x + 3) mod 8) <= 0 then x else (x div 2)),x,x)),x)
1: compr(\x.(1 - loop(\(x,i).(if ((x + 1) mod 8) <= 0 then x else (x div 2)),x,x)),x)
1: compr(\x.(1 - loop(\(x,i).(if ((x + 2) mod 8) <= 0 then x else (x div 2)),x,x)),x)
1: compr(\x.(1 - loop(\(x,i).(if (((x + 1) div 2) mod 4) <= 0 then x else (x div 2)),x,x)),x)
1: compr(\x.(1 - loop(\(x,i).(if (x mod 4) <= 0 then x else (x div 2)),x,x)),x)
1: compr(\x.(1 - loop(\(x,i).(if (x mod (1 + (2 * i))) <= 0 then x else ~x),x,x)),x)
1: compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(~2 + (x div 2)),x)),x)
1: compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),i)
1: compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),x)),(3x + 2))
1: compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 3),(x2 + 2x))),(x + 1))
1: compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + 2))),x)
1: compr(\x.(1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + 2x + ~1))),x)
1: compr(\x.(1 - loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),(x div 2),(x2 + 4x))),x)
1: compr(\x.(1 - loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),(x div 2),(x2 + 2x))),x)
1: compr(\x.(1 - loop(\(x,i).loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,0),2,x)),x)
1: compr(\x.(1 - loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(2x2 + 2x + 1))),x)
1: compr(\x.(1 - loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(5x + ~2))),x)
1: compr(\x.(1 - loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(8x + 6))),x)
1: compr(\x.(1 - loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,((3x + 20) div 2))),x)
1: compr(\x.(1 - loop(\(x,i).loop(\(x,i).(if ((x + 1) mod (1 + i)) <= 0 then 0 else x),x,2x),2,(x + 1))),x)
1: compr(\x.(1 - loop(\(x,i).loop(\(x,i).(if ((x + 1) mod (1 + i)) <= 0 then 0 else x),x,2x),2,x)),x)
1: compr(\x.(1 - loop(\(x,i).loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x + 2)),1,(x2 + 4x))),x)
1: compr(\x.(2 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3) - ((x + (x div 2)) div 4)),x)
1: compr(\x.(4 - (69 mod (x + 1))),x)
1: compr(\x.(2 + (((x + ~1) div 2) mod 4) - (x mod 10)),x)
1: compr(\x.((~x + 2) + loop(\(x,i).(1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x)),2,(x + 1))),x)
1: compr(\x.(2 - ((1 + (((1 + loop(\(x,i).((x * (x mod 2)) + (x div 2)),x,x)) div 2) div 2)) div 2)),x)
1: compr(\x.(2 - (x2 div ((~x + 1) + (9 * (x mod 10))))),x)
1: compr(\x.(2 - ((x div 2) div (1 + (2 * (2x mod 3))))),x)
1: compr(\x.(2 - ((x div 2) div (1 + (x mod 6)))),x)
1: compr(\x.(2 - ((x div 4) div (1 + ((~x + 1) mod 3)))),x)
1: compr(\x.(2 - ((x div 4) div (1 + (2x mod 3)))),x)
1: compr(\x.(2 - (((2x + 1) + (2 * (((x + 1) + (2 * (20 mod (1 + (x div 2))))) div 2))) mod 7)),x)
1: compr(\x.(2 - (((x + 1) + (((x + 1) + (x div (1 - (2 * ((~x + 1) div (2 + (x div 2))))))) div 2)) mod 5)),x)
1: compr(\x.(2 - (((x + 1) + (((x + 1) - (2 * ((~2x + 1) div 3))) div 3)) mod 5)),x)
1: compr(\x.(2 - ((x + 3) mod (4 + ((x div 4) + ((x + 1) mod 2))))),x)
1: compr(\x.(2 - (((2x + 1) - ((x div 2) mod 2)) mod 5)),x)
1: compr(\x.(2 - ((x3 + 1) mod (x + 4))),x)
1: compr(\x.(2 - ((2x + 1) mod (1 + (8 * ((x div 2) mod 2))))),x)
1: compr(\x.(2 - ((2x + 1) mod (2 + ((x + 1) div 5)))),x)
1: compr(\x.(2 - ((x2 + 2) mod (x + 4))),x)
1: compr(\x.(2 - ((x + ((x + ~1) div 3)) mod 5)),x)
1: compr(\x.(2 - ((1 + (loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2)) mod 7)),x)
1: compr(\x.(2 - ((1 + (x div 2)) mod (2 * (2 + (x mod 4))))),x)
1: compr(\x.(2 - ((x + (x div 3)) mod 5)),x)
1: compr(\x.(2 - ((x + (2x mod (4 + (x div 2)))) mod 9)),x)
1: compr(\x.(2 - ((x + 1) mod (3 + (x div (2 + (x mod 2)))))),x)
1: compr(\x.(2 - ((x + 1) mod (4 + (((((x + 1) div 2) div 2) * (x div 2)) mod 2)))),x)
1: compr(\x.(2 - ((x + 1) mod (1 + (2 * (2 + (x mod (2 * (2 + (x mod 2))))))))),(x + 1))
1: compr(\x.(2 - ((x + 1) mod (1 + (3 * (2 - ((x mod (2 + (x mod 2))) div 2)))))),x)
1: compr(\x.(2 - ((x + 1) mod (1 + (4 * (2 - ((x div 3) mod 2)))))),x)
1: compr(\x.(2 - ((x + 1) mod (1 + (4 * (4x mod 7))))),x)
1: compr(\x.(2 - ((x + 1) mod (1 + (4 * ((2x mod (2 + (x div 2))) mod 2))))),x)
1: compr(\x.(2 - ((x + 1) mod (1 + (2 * (if ((x + 1) mod 8) <= 0 then 2 else 1))))),x)
1: compr(\x.(2 - ((x + 1) mod (1 + (2x mod (x + 8))))),x)
1: compr(\x.(2 - ((x + 1) mod (1 + (2x mod (1 + (x div 2)))))),x)
1: compr(\x.(2 - ((x + 1) mod (3 + (if ((x + ~1) mod 8) <= 0 then 2 else 1)))),x)
1: compr(\x.(2 - ((x + 1) mod (2 + (if (x mod (1 + (3 * (if (x mod (2 + (x mod 2))) <= 0 then 0 else 2)))) <= 0 then 0 else 2)))),x)
1: compr(\x.(2 - ((x + 2) mod 12)),(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: compr(\x.(2 - ((x + 2) mod 10)),(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: compr(\x.(2 - ((x + 2) mod (2 * (2 + ((1 - (2 * ((~x + 1) div 7))) mod (x + 1)))))),x)
1: compr(\x.(2 - ((0 - ((x + 1) * (1 + (x mod 4)))) mod 7)),x)
1: compr(\x.(2 - ((~2 + ((x + 1) * (2 + (x div 4)))) mod 9)),x)
1: compr(\x.(2 - (((2x + 2) - ((2x + 2) div 5)) mod 5)),x)
1: compr(\x.(2 - ((~1 + ((x + 1) * (x div 2))) mod 5)),(x + 1))
1: compr(\x.(2 - ((~1 + ((2 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 3)) mod (x + 1))),x)
1: compr(\x.(2 - ((~1 + loop(\(x,i).4x,x,2)) mod (x + 1))),x)
1: compr(\x.(2 - ((~1 + loop(\(x,i).2x,x,2)) mod (1 + (if (~1 + (x mod 3)) <= 0 then x else 2)))),x)
1: compr(\x.(2 - ((~1 + loop(\(x,i).2x,x,(if (x mod 3) <= 0 then 1 else 2))) mod (x + 1))),x)
1: compr(\x.(2 - ((~1 + loop(\(x,i).2x,x,(if (x mod 4) <= 0 then 2 else (x mod 2)))) mod (x + 1))),x)
1: compr(\x.(2 - ((x - (2x mod 13)) mod 3)),x)
1: compr(\x.(2 - (3x mod 13)),x)
1: compr(\x.(2 - (((x + 1) * (2 + (if (x mod 3) <= 0 then 0 else 2))) mod 5)),(x + 1))
1: compr(\x.(2 - ((x2 + x) mod 11)),x)
1: compr(\x.(2 - ((x2 + 4x + 4) mod (~x + 26))),x)
1: compr(\x.(2 - ((x2 + 2x) mod (1 + (3 * (x mod 4))))),x)
1: compr(\x.(2 - ((~2x + 4) mod (4 + (x div 4)))),x)
1: compr(\x.(2 - ((2x3 + 7x2 + 6x) mod 11)),x)
1: compr(\x.(2 - (((6x + 3) * (2 - (x mod 2))) mod 7)),x)
1: compr(\x.(2 - (x3 mod (x + 4))),x)
1: compr(\x.(2 - ((x * ((x + (x div 2)) div 2)) mod 9)),x)
1: compr(\x.(2 - ((x2 * loop(\(x,i).x3,2,x)) mod 23)),x)
1: compr(\x.(2 - (2x mod (3 + (x div 2) - (x mod 2)))),x)
1: compr(\x.(2 - (2x mod (2 + (if (x + ~2) <= 0 then 1 else 2) - (x div ~4)))),x)
1: compr(\x.(2 - (2x mod (1 + (2 * ((if x <= 0 then 1 else x2) mod 9))))),x)
1: compr(\x.(2 - (x2 mod ((x + 4) - (x div 4)))),x)
1: compr(\x.(2 - (((2 * ((1 + (x div 3)) * (1 + (x div 3)))) div 3) mod 5)),x)
1: compr(\x.(2 - ((if x <= 0 then 1 else (2 * (1 + ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 2)))) mod 3)),x)
1: compr(\x.(2 - ((if x <= 0 then 1 else (2 * (1 + ((loop(\(x,i).2x,x,1) mod (x + 1)) div 2)))) mod 3)),x)
1: compr(\x.(2 - (loop(\(x,i).(2x2 + ~1),2,4) mod (x + 1))),x)
1: compr(\x.(2 - (loop(\(x,i).((x + 1) * (1 + ((~x + 2) mod 4))),x,5) mod (x + 1))),x)
1: compr(\x.(2 - (loop(\(x,i).(2x + 2),x,2) mod (1 + (x div 2)))),(x + 2))
1: compr(\x.(2 - (loop(\(x,i).(2 * (2x - (x div (1 + i)))),x,1) mod (x + 1))),x)
1: compr(\x.(2 - (loop(\(x,i).2x,x,2) mod (x + 2))),x)
1: compr(\x.(2 - (loop(\(x,i).2x,x,(~1 + (if ((x + 1) mod (3 - (x mod 2))) <= 0 then x else 1))) mod (x + 1))),x)
1: compr(\x.(2 - (loop(\(x,i).2x,x,(if (~2 + (x div 3)) <= 0 then 2 else 1)) mod (x + 1))),x)
1: compr(\x.(2 - (loop(\(x,i).x2,2,35) mod (x + 1))),x)
1: compr(\x.(2 - (x mod (2 + ((2 * ((1 + (x mod (1 + (x mod (3 - (x mod 2)))))) mod (x + 1))) + (x mod 2))))),x)
1: compr(\x.(2 - (x mod (4 + (x div (1 + (x mod 3)))))),x)
1: compr(\x.(2 - (x mod (4 + ((2x + 1) mod (4 + ((x div 2) div 3)))))),x)
1: compr(\x.(2 - (x mod (4 + ((x + 1) mod (1 + (((2 * (1 + ((1 + ((x + 1) div (2 + (x mod (2 * (2 - (x mod 2))))))) div 2))) mod 3) div 2)))))),x)
1: compr(\x.(2 - (x mod (4 + ((~x2 + 2x) mod 6)))),x)
1: compr(\x.(2 - (x mod (3 + (x mod 8)))),x)
1: compr(\x.(2 - (x mod (1 + (2 * (1 + (4 * (x mod 2))))))),x)
1: compr(\x.(2 - (x mod (1 + (2 * (1 + ((x + 2) div (2 + (((x + 1) div 2) div 2)))))))),x)
1: compr(\x.(2 - (x mod (1 + (2 * (1 + (((x - ((~1 + (x div 2)) div 2)) div 2) mod 2)))))),x)
1: compr(\x.(2 - (x mod (1 + (2 * (1 + (x mod 3)))))),x)
1: compr(\x.(2 - (x mod (1 + (4 * (2x mod 5))))),(x + 1))
1: compr(\x.(2 - (x mod (1 + (2 * (loop(\(x,i).(x2 + x),2,8) mod (x + 1)))))),x)
1: compr(\x.(2 - (x mod (1 + (2 * (if ((x + 1) mod 8) <= 0 then 2 else 1))))),x)
1: compr(\x.(2 - (x mod (2 + (x div (1 + (x mod (1 + (x mod 4)))))))),x)
1: compr(\x.(2 - (x mod (1 + (x div (if (x mod 2) <= 0 then 4 else 1))))),x)
1: compr(\x.(2 - (x mod (1 + ((x2 div ~4) mod (x + 1))))),x)
1: compr(\x.(2 - (x mod (2 + (x mod (4 * (1 + (x mod (2 + (x mod 2))))))))),x)
1: compr(\x.(2 - (x mod (~1 + ((~1 + (6 * (1 + (loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),x,(2x + 1)) div (x + 1))))) div 2)))),x)
1: compr(\x.(2 - (x mod ((x + ~2) + (2x mod (3 + (x div 4)))))),x)
1: compr(\x.(2 - (x mod ((x + 1) - (loop(\(x,i).2x,x,1) mod (x + 1))))),x)
1: compr(\x.(2 - (x mod (2 * (2 + (((x + ~1) * (x div 2)) mod 3))))),x)
1: compr(\x.(2 - (x mod (2 * (2 + (((x + ~1) div 2) mod 4))))),x)
1: compr(\x.(2 - (x mod (3 * (2 + (if ((x + ~1) mod 4) <= 0 then 2 else 1))))),x)
1: compr(\x.(2 - (x mod loop(\(x,i).4x,(1 - loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x)),1))),x)
1: compr(\x.(2 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),28,x)),x)
1: compr(\x.(2 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(3x + 1))),x)
1: compr(\x.(2 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x + 1))),x)
1: compr(\x.(2 - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(8x - (x div 2)))),x)
1: compr(\x.(2 - loop(\(x,i).(if (x mod (3 + i)) <= 0 then 0 else x),x,(6x + 1))),x)
1: compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x + ~2),x)),(x + (x div 8)))
1: compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x + ~2),x)),3x)
1: compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x + ~2),x)),4x)
1: compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x + ~2),x)),2x)
1: compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),x)),(x + 6))
1: compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),x)),(x + 4))
1: compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),x)),(4x + 1))
1: compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),x)),(6x + 1))
1: compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),x)),(6x + 2))
1: compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),x)),(x + 2))
1: compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),x)),(2x - (x mod 2)))
1: compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),x)),3x)
1: compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),x)),5x)
1: compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),x)),(4x + 2))
1: compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),x)),(6x + 3))
1: compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),x)),4x)
1: compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),x)),6x)
1: compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),x)),(if (x + ~2) <= 0 then x else (x + 1)))
1: compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),x)),(if x <= 0 then 0 else (x + 2)))
1: compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + ~x + 1))),x)
1: compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x2 + 1))),x)
1: compr(\x.(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),(x div 2),(3x + ~1))),x)
1: compr(\x.(2 + (x div 2) - (2 * (x mod 10))),x)
1: compr(\x.(2 + ((x + ~1) mod 9) - (x div 9)),x)
1: compr(\x.(2 + ((x + ~1) mod 9) - (x mod 8)),x)
1: compr(\x.((~2x + 1) + loop(\(x,i).(x div (2 - (x mod 2))),x,x2)),x)
1: compr(\x.((x + 2) - (3 * (~2 + ((x - (x div 4)) div 2)))),(x + 1))
1: compr(\x.((x + 2) - (3 * ((x - (x div 4)) div 2))),x)
1: compr(\x.(1 - ((x mod 2) + ((1 - (x div 4)) mod 3))),x)
1: compr(\x.(2 - ((x mod 2) + ((1 - (x div 5)) mod 4))),x)
1: compr(\x.(2 - ((x mod 2) + (x mod (1 + (3 * (2x mod 7)))))),x)
1: compr(\x.(((2 * (x div 7)) + ((3 * (x div 4)) div 2)) - ((x mod 2) + ((x + 1) div 2))),(x + 1))
1: compr(\x.(~1 + (2 * ((x + 1) mod 4)) - (x div 3)),x)
1: compr(\x.(~1 + (5 * (2x mod 7)) - (x div 2)),(x + 1))
1: compr(\x.(~1 + ((1 + (x div 2)) mod 4) - (x mod 2)),x)
1: compr(\x.(~4 + (x2 mod (2 + (x div 2)))),x)
1: compr(\x.((~x + ~1) + (x2 mod (x - ((~x + 2) div 2)))),(x + 2))
1: compr(\x.(~1 + (((~x + 2) div 2) mod 4) - (x mod 2)),x)
1: compr(\x.(~1 + (x mod 4) - (x mod 5)),x)
1: compr(\x.(~1 + (x mod 6) - (x mod 5)),(x + 1))
1: compr(\x.(~1 + (x mod 10) - (x div 9)),(x + 1))
1: compr(\x.((if x <= 0 then 1 else 2) - ((x mod 2) + ((1 + (8 mod (1 + (x div 2)))) div 2))),(x + 1))
1: compr(\x.(~2 + loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) - (x mod 4)),x)
1: compr(\x.((x + ~1) - (3 * (~2 + ((x - (x div 4)) div 2)))),x)
1: compr(\x.((x + ~1) - ((4x + 4) div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))),x)
1: compr(\x.(8 - (x div (1 + (x mod 8)))),x)
1: compr(\x.(12 - (x div (1 + (x mod 12)))),x)
1: compr(\x.(20 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),x)),x)
1: compr(\x.((4 * (x mod 10)) - (x div 3)),(x + 2))
1: compr(\x.((2 * (~2x mod 5)) - (x div 3)),x)
1: compr(\x.(~x + (17 * (x mod 14))),(x + 1))
1: compr(\x.(~1 + ((1 + (((x + 1) * (1 - (loop(\(x,i).x2,2,(1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1))) mod (x + 1)))) div 2)) div 2)),x)
1: compr(\x.(((1 + (x div 4)) div (1 + (x mod 5))) - (x mod 3)),x)
1: compr(\x.(~1 + (((1 + ((x - ((x div 2) div 5)) mod 2) - (x mod 2)) * (1 + (x div 3))) div 3)),x)
1: compr(\x.(~1 + ((x * (loop(\(x,i).(~2x + 2),x,2) mod (x + 2))) div 4)),x)
1: compr(\x.(~1 + (((3 * (1 + (((5 * (if x <= 0 then 1 else 2)) + (x div 7)) mod 9))) div 2) div 2)),x)
1: compr(\x.(~2 + ((x div 2) div (1 + (x mod 6)))),(x + 1))
1: compr(\x.(~2 + ((x div 2) div (1 + (x mod 6)))),x)
1: compr(\x.(~1 + ((x div 4) div (1 + (x mod (2 * (1 + (x mod 2))))))),x)
1: compr(\x.(~1 + (((x + ~1) mod (1 + (2 * (2 + (x mod 3))))) div 2)),x)
1: compr(\x.(~1 + ((8x mod (1 + (x div 2))) div 2)),x)
1: compr(\x.(~2 + ((x3 mod (2 + (x div 2))) div 2)),(x + 1))
1: compr(\x.(~1 + ((x2 mod (~1 + (2 * (x div 3)))) div 2)),(x + 1))
1: compr(\x.(~1 + (loop(\(x,i).8x,((x div (2 + (x div (1 + (((x2 + 2x) div 2) mod (3 + (x mod 2))))))) + (if x <= 0 then 0 else 1)),1) div (x + 1))),x)
1: compr(\x.(~1 + (x div 2) - (x mod (1 + (6 * (x mod 5))))),x)
1: compr(\x.((x div 2) - (3 * (x mod 7))),(x + 1))
1: compr(\x.((x div 2) - (if (x mod 2) <= 0 then x else 4)),(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: compr(\x.((x div 2) - (if (x mod 6) <= 0 then x else 6)),x)
1: compr(\x.((x div 4) - (x mod 7)),x)
1: compr(\x.(~1 + (x div (1 + (2 * (2 - (x mod 8)))))),x)
1: compr(\x.(~1 + (x div (1 + (2 * (((~x + 2) mod 5) - (x mod 4)))))),x)
1: compr(\x.(~1 + (x div (2 + ((15 * (1 + ((x div 4) mod 2))) mod (x + 1))))),x)
1: compr(\x.(~1 + (x div (~1 + (2 * (x div (1 + (x mod 9))))))),(x + 1))
1: compr(\x.(~1 + (x div (~1 + (2 * (x div (1 + (x mod 9))))))),x)
1: compr(\x.(~1 + (x div (~1 + (2 * (x div (1 + (x mod 8))))))),x)
1: compr(\x.(~1 + (((x + 1) + (x div 8)) mod 5)),x)
1: compr(\x.(~1 + (((x + 1) + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x)) mod 3)),x)
1: compr(\x.(~1 + ((x + (2 * (1 + (2 * (x - ((x mod (2 + (6 mod (1 + (x div 2))))) div 2)))))) mod 3)),x)
1: compr(\x.(~1 + ((1 + (2 * (1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * (1 - (x div (~1 + ((~x + 1) div 3)))))))) mod 3)),(x + 1))
1: compr(\x.(~1 + ((x3 + 1) mod (1 + (x div 2)))),(x + 1))
1: compr(\x.(~1 + ((1 + (((1 + (2x mod (2 + (x div 3)))) div 2) * (loop(\(x,i).(2x + 2),x,0) mod (x + 1)))) mod (x + 1))),x)
1: compr(\x.(~2 + ((1 + (9 * ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3))) mod (x + 1))),x)
1: compr(\x.(~1 + ((1 + (x * loop(\(x,i).(~x2 + 1),2,4x))) mod (x + 1))),x)
1: compr(\x.(~2 + ((2x + 1) mod (1 + (x div 4)))),(x + 2))
1: compr(\x.(~1 + ((x2 + 2) mod loop(\(x,i).((x2 + 2) + i),2,2))),x)
1: compr(\x.(~1 + ((2 + ((x + 1) div (2 + (x div (2 + (3 * (x mod 2))))))) mod 3)),x)
1: compr(\x.(~1 + ((1 + ((x + 1) div (2 + ((2 + (x mod 8)) mod (x + 1))))) mod 3)),x)
1: compr(\x.(~1 + ((1 + ((x + 1) div (~1 + (2 * ((x + (x div 8)) mod 5))))) mod 3)),(x + 1))
1: compr(\x.(~1 + ((1 + ((x + 1) div (3 * (2 + ((x div 2) mod 5))))) mod 3)),x)
1: compr(\x.(~1 + ((x + ((x - (((x + ~1) mod (2 + (x div 2))) div 2)) div 2)) mod 3)),x)
1: compr(\x.(~1 + ((2 + ((2 * ((x + 1) - (2 * (((x + ~1) div 2) mod 2)))) div 3)) mod 3)),x)
1: compr(\x.(~1 + ((1 + (((1 + (((x + ~1) * (x div 3)) div 2)) div 2) div 2)) mod 3)),x)
1: compr(\x.(~1 + ((1 + ((x div 2) div (1 + (x mod (3 - (x mod 2)))))) mod 3)),(x + 1))
1: compr(\x.(~1 + ((1 + (loop(\(x,i).(5x + 2),x,1) div (x + 1))) mod 3)),x)
1: compr(\x.(~1 + ((1 + (((x + 1) - (2 * ((x + (x div 3)) div 5))) mod 3)) mod (x + 1))),x)
1: compr(\x.(~1 + ((2 + ((1 + (2 * (x mod (1 + ((x + ~1) mod (1 + (2 * (2 + (x mod 3))))))))) mod (x + 1))) mod 3)),x)
1: compr(\x.(~1 + ((1 + ((1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,x)) mod 3)) mod (x + 1))),(x + 1))
1: compr(\x.(~1 + ((1 + ((x - (x div 7)) mod 7)) mod (x + 1))),x)
1: compr(\x.(~1 + ((1 + (2x2 mod 17)) mod 3)),x)
1: compr(\x.(~1 + ((1 + ((x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) mod 9)) mod (x + 1))),x)
1: compr(\x.(~1 + ((1 + ((x mod 11) mod 9)) mod (x + 1))),x)
1: compr(\x.(~1 + ((1 + ((x mod 10) mod 8)) mod (x + 1))),x)
1: compr(\x.(~2 + ((1 + (x mod (1 + (2 * (2 + ((x div 2) mod 5)))))) mod (x + 1))),(x + 1))
1: compr(\x.(~2 + ((1 + (x mod (1 + (2 * (2 + ((x div 2) mod 5)))))) mod (x + 1))),x)
1: compr(\x.(~1 + ((1 + (x mod (1 + (2 * ((3x + 3) mod 7))))) mod 3)),(x + 1))
1: compr(\x.(((1 + (x mod (1 + (2 * (x mod 6))))) mod 2) - (x mod 2)),x)
1: compr(\x.(~1 + ((1 + (x mod (1 + (3 * (if (x mod 8) <= 0 then 1 else 2))))) mod (x + 1))),(x + 1))
1: compr(\x.(~1 + ((1 + (x mod (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))) mod (x + 1))),(x + 2))
1: compr(\x.(~2 + ((1 + (x mod (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))) mod (x + 1))),x)
1: compr(\x.(~1 + ((1 + (x mod (2 + (x div (1 + (x mod (1 + (x mod (1 + (x div (2 + (x div 5)))))))))))) mod (x + 1))),(x + 1))
1: compr(\x.(~1 + ((1 + (x mod (1 + (x mod (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))))) mod (x + 1))),x)
1: compr(\x.(~1 + ((1 + (x mod (2 + (x mod ((x + 1) - ((x - (((x + ~1) + ((x + 1) mod (~1 + (2 * (x - (x mod 10)))))) div 2)) div 2)))))) mod (x + 1))),x)
1: compr(\x.(~1 + ((1 + (x mod (1 + (x mod (2 * (2 + ((x div 2) mod 2))))))) mod (x + 1))),(x + 1))
1: compr(\x.(~1 + ((1 + (x mod (1 + (x mod (2 * (2 + ((x div 2) mod 2))))))) mod (x + 1))),(x + 2))
1: compr(\x.(~1 + ((1 + (x mod (3 * (2 + (2x mod 7))))) mod (x + 1))),(x + 1))
1: compr(\x.(~1 + ((1 + (x mod (5 * (2 + (if (x mod 12) <= 0 then (x div 2) else 0))))) mod (x + 1))),(x + 1))
1: compr(\x.(~1 + ((1 + (if (1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 2 else 1)),x,x)) <= 0 then 1 else x)) mod 5)),x)
1: compr(\x.(~1 + ((1 + (if (x mod 3) <= 0 then 0 else (if ((1 + (x div 3)) mod 5) <= 0 then 2 else 1))) mod 3)),x)
1: compr(\x.(~1 + ((1 + (if (x mod 7) <= 0 then 0 else x)) mod (1 + (x div 3)))),x)
1: compr(\x.(~1 + ((x + loop(\(x,i).(x - (if x <= 0 then 1 else (x - ((if x <= 0 then 2 else loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 2)))),(x + ~1),x)) mod 3)),(x + 1))
1: compr(\x.(~1 + ((1 + loop(\(x,i).(6x2 + ~12),2,(x + 1))) mod (x + 1))),x)
1: compr(\x.(~1 + ((1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,x)) mod 3)),x)
1: compr(\x.(~1 + ((1 + loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),(x div 2),x)) mod 3)),(x + 1))
1: compr(\x.(~1 + ((1 + loop(\(x,i).(if (x mod (1 + i)) <= 0 then 1 else x),x,(x + 2))) mod 3)),x)
1: compr(\x.(((x + 1) mod 2) - (((x div 2) div 3) mod 2)),x)
1: compr(\x.(~1 + ((x + 1) mod (1 + ((x + 1) div (1 + (if (x mod 2) <= 0 then 6 else 1)))))),(x + 1))
1: compr(\x.(((x + 1) mod (1 + ((x div 2) div 3))) - (x mod 2)),x)
1: compr(\x.(~1 + ((x + 1) mod (1 + ((x div 2) div (1 + ((x div 2) mod 3)))))),x)
1: compr(\x.(~2 + ((x + 1) mod (1 + (x div (2 + (x mod 2)))))),x)
1: compr(\x.(~1 + ((x + 1) mod (1 + (x div (2 + (if (x mod 5) <= 0 then 2 else 0)))))),x)
1: compr(\x.(~1 + ((x + 1) mod (1 + ((x + ~1) mod (1 + (2 * (3 + (x mod 2)))))))),x)
1: compr(\x.(~1 + ((x + 1) mod ((x + 1) - (loop(\(x,i).2x,x,1) mod (x + 1))))),(x + 1))
1: compr(\x.(~2 + ((x + 1) mod (2 * (1 + (x div (3 * (2 + (x2 mod 3)))))))),(x + 1))
1: compr(\x.(~1 + ((x + 2) mod (1 + ((x - ((x div 3) mod 3)) div 2)))),x)
1: compr(\x.(~1 + ((x + 2) mod (2 + (x mod 11)))),x)
1: compr(\x.(~1 + ((1 + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x)) mod 3)),x)
1: compr(\x.(~1 + ((1 + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x)) mod 5)),x)
1: compr(\x.(~1 + ((1 + compr(\x.loop(\(x,i).(x - (if (x mod (2 + i)) <= 0 then 0 else 1)),x,x),x)) mod 3)),x)
1: compr(\x.(~1 + ((1 - (2x2 div (x + 7))) mod 3)),x)
1: compr(\x.(~1 + ((1 - (x div (2 + (x div (2 * (2 - (x mod 2))))))) mod 3)),x)
1: compr(\x.(~1 + ((1 - loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 0 else 2))),x,(2x + 2))) mod (x + 1))),x)
1: compr(\x.(~1 + ((5x2 + 10x + 4) mod (1 + (x div 5)))),(x + 1))
1: compr(\x.(~1 + (((2 * (x + (x div 3))) - (x div 7)) mod 3)),x)
1: compr(\x.(~1 + ((~1 + (2 * (if x <= 0 then 1 else (2 * ((loop(\(x,i).2x,x,(if (x mod 4) <= 0 then 0 else 1)) mod (x + 1)) div 2))))) mod 3)),(x + 1))
1: compr(\x.(((~x + ((x + ~2) div 3)) mod 3) - (x mod 2)),x)
1: compr(\x.(~1 + ((~1 + ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 2)) mod 3)),x)
1: compr(\x.(~1 + ((~x + (x mod (1 + ((x div 2) div 3)))) mod 3)),x)
1: compr(\x.(~1 + ((~1 + (if loop(\(x,i).((if x <= 0 then 2 else loop(\(x,i).(x div (2 - (x mod 2))),x,x)) div 2),2,x) <= 0 then 0 else x)) mod 3)),x)
1: compr(\x.(~1 + ((loop(\(x,i).2x,x,1) - loop(\(x,i).((2x * (1 + (2 * i))) div (2 + i)),(x div 2),1)) mod (x + 1))),x)
1: compr(\x.(~2 + ((x + ~1) mod (2 + (x div 4)))),x)
1: compr(\x.(~2 + ((x + ~1) mod (1 + (x mod 6)))),x)
1: compr(\x.(~2 + ((x + ~1) mod (~1 + (3 * (x mod 4))))),x)
1: compr(\x.(~1 + (((x + ~1) + (x div (1 + (x div 5)))) mod 3)),x)
1: compr(\x.(~1 + (((x + 1) - ((x mod (2 - ((~x + 1) div 3))) div 3)) mod 3)),x)
1: compr(\x.(~1 + (((x + 1) - ((x mod (~1 - (x div 5))) mod 2)) mod 3)),x)
1: compr(\x.(~1 + ((x - (((x mod 4) - (x div 2)) div 3)) mod 3)),x)
1: compr(\x.(~1 + ((x - ((x div 2) div 5)) mod 8)),x)
1: compr(\x.(~1 + (3x mod (1 + (x div 4)))),x)
1: compr(\x.(~1 + ((2 * ((x + 2) + (if x <= 0 then 1 else (4x + ((x + (2 * (x mod 2))) div 5))))) mod 3)),x)
1: compr(\x.(~1 + ((3 * ((2x + 1) - ((x div 4) mod 2))) mod 5)),x)
1: compr(\x.(~1 + ((2 * (x + ((x + ((x * (x div 2)) mod 2)) div 3))) mod 3)),x)
1: compr(\x.(~1 + ((2 * (x + (((1 + (((x + 1) div 2) mod 3)) * ((~1 + (x div 2)) div 2)) div 2))) mod 3)),x)
1: compr(\x.(~1 + ((2 * (1 + (((2 + ((1 - (x mod 9)) mod (x + 1))) div 2) div 2))) mod 3)),x)
1: compr(\x.(~1 + (((x + 1) * (1 + (((x + ~1) div 2) mod 4))) mod 3)),x)
1: compr(\x.(~1 + (((x + 1) * (1 + (x mod (2 * (2 + ((x2 + x) mod 8)))))) mod 3)),(x + 1))
1: compr(\x.(~1 + ((2 * (1 + loop(\(x,i).loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x),1,(3x + 3)))) mod 3)),x)
1: compr(\x.(~1 + ((2 * (~x + (x2 div 3))) mod 5)),x)
1: compr(\x.(~1 + ((2x + ~4) mod loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))),x)
1: compr(\x.(~1 + (9x mod loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))),x)
1: compr(\x.(~x + (x5 mod 31)),x)
1: compr(\x.(~1 + (4x mod (8 - (x mod 2)))),x)
1: compr(\x.(~1 + (2x2 mod (2 + ((x * (x mod 2)) div 2)))),(x + 1))
1: compr(\x.(~1 + (2x2 mod (x + 60))),(x + 1))
1: compr(\x.(~1 + (x3 mod (2 + (x div 4)))),x)
1: compr(\x.(~1 + ((((x + ~2) div 3) * (x div 2)) mod 3)),x)
1: compr(\x.(~1 + ((2 * ((3 * (3 + (((~1 + (6 * (1 + (((~1 + (6 * (1 + ((1 + ((loop(\(x,i).2x,x,2) mod (x + 1)) div 2)) div 2)))) div 2) div 2)))) div 2) div 2))) div 2)) mod 3)),x)
1: compr(\x.(~1 + ((2 * (((x div 3) * (x div 2)) div 2)) mod 3)),x)
1: compr(\x.(~1 + ((3 * (x div 5)) mod (1 + (x div 2)))),x)
1: compr(\x.(~1 + ((2 * ((~1 + loop(\(x,i).2x,x,2)) mod 41)) mod 3)),x)
1: compr(\x.(~1 + (((x + 2) * loop(\(x,i).(2 + (if (~x + i) <= 0 then 0 else x)),x,1)) mod 3)),x)
1: compr(\x.(~1 + ((x2 * loop(\(x,i).x3,2,x)) mod 23)),(x + 1))
1: compr(\x.(~1 + ((x2 * loop(\(x,i).x3,2,x)) mod 23)),x)
1: compr(\x.(~1 + (2x mod (1 + (x div 4)))),x)
1: compr(\x.(~1 + (2x mod (~1 + (2 * ((1 + (x div 2)) div 2))))),x)
1: compr(\x.(~1 + (((1 + (x * (x div 2))) div 3) mod 3)),x)
1: compr(\x.(~1 + (((1 + ((((x + 1) * (2 + ((if (x mod 2) <= 0 then (x + 3) else x) mod (x + 1)))) div 2) div 2)) div 2) mod 3)),(x + 1))
1: compr(\x.(~1 + (((1 + (x div 2)) div (2 + ((x + 1) mod (2 + (x mod 2))))) mod 3)),x)
1: compr(\x.((((x + 1) div (1 + (2 * (x mod (3 * (1 + (x mod 4))))))) mod 2) - (x mod 2)),x)
1: compr(\x.((((x + 1) div (1 + ((2x + 1) mod 9))) mod 2) - (x mod 2)),x)
1: compr(\x.((((x + 1) div (1 + (x mod 5))) mod 2) - (x mod 2)),x)
1: compr(\x.((((x + 1) div (2 + (if (~2 + (x div 4)) <= 0 then 1 else 2))) mod 2) - (x mod 2)),x)
1: compr(\x.((((x + 1) div ~7) mod 2) - (x mod 2)),x)
1: compr(\x.((((~x + 1) div (1 + ((x div 2) mod 4))) mod 2) - (x mod 2)),x)
1: compr(\x.((((2x + ~1) div (2 + (x div 4))) mod 2) - (x mod 2)),x)
1: compr(\x.((((~1 + (x div 3)) div 3) mod 2) - (x mod 2)),x)
1: compr(\x.((((x + ~1) div (2 + (x div 5))) mod 2) - (x mod 2)),x)
1: compr(\x.((((x - (2 * ((x div 2) mod 2))) div 3) mod 3) - (x mod 2)),(x + 1))
1: compr(\x.((((x - ((x - (x mod 3)) div 2)) div 2) mod 2) - (x mod 2)),x)
1: compr(\x.(~1 + (((x * (2 + (x div 3))) div 2) mod 3)),(x + 1))
1: compr(\x.(((((1 - (2 * ((x mod (1 + (((x + 1) div 2) div 2))) mod 2))) * (1 + (x div 2))) div 2) mod 2) - (x mod 2)),x)
1: compr(\x.(~1 + (((x2 + ~x) div 8) mod 3)),x)
1: compr(\x.(~2 + (((x * ((~x + 2) div 2)) div 2) mod 5)),x)
1: compr(\x.(~1 + (((x * (x div ~4)) div 2) mod 3)),x)
1: compr(\x.(~1 + (((((x + ~1) * (x div 2)) div 2) div 2) mod 3)),x)
1: compr(\x.(~1 + ((loop(\(x,i).((2x + 1) - ((1 - (x div 2)) div 3)),x,1) div 2) mod 3)),x)
1: compr(\x.(~1 + ((loop(\(x,i).(3x + 3),x,1) div 2) mod (x + 1))),x)
1: compr(\x.(~1 + ((loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2) mod 4)),x)
1: compr(\x.(((x div 2) mod 2) - (x mod 3)),x)
1: compr(\x.(~1 + ((x div 2) mod (1 + (2 * ((((x + 1) div 2) div 2) div 2))))),x)
1: compr(\x.(~1 + ((x div 2) mod (1 + (if (x mod 2) <= 0 then 6 else 1)))),x)
1: compr(\x.(~1 + ((x div (5 - (((1 + (x div 2)) div 2) div 2))) mod 3)),x)
1: compr(\x.(~1 + (((1 - (2 * ((2x + 2) + ((x - (x div 4)) div 2)))) mod (x + 1)) mod 3)),x)
1: compr(\x.(~1 + (((~1 + (2 * (1 + ((1 + (((loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)) + (loop(\(x,i).(2x + 2),x,0) mod (x + 1))) div 2) div 2)) div 2)))) mod (x + 1)) mod 3)),x)
1: compr(\x.((((x + ~1) mod (1 + (x div 5))) mod 2) - (x mod 2)),x)
1: compr(\x.(~1 + ((x mod 7) mod (1 + (x div 4)))),x)
1: compr(\x.(((x mod 9) mod 2) - (x mod 2)),x)
1: compr(\x.(~1 + ((if (x mod 2) <= 0 then 2 else (1 + (x div loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))) mod 3)),(2x + 1))
1: compr(\x.(~2 + (loop(\(x,i).(5x + 2),x,0) mod (x + 1))),x)
1: compr(\x.(~1 + (loop(\(x,i).(4x + 9),x,1) mod (x + 1))),(x + 1))
1: compr(\x.(~1 + (loop(\(x,i).(4x + 1),x,1) mod (2x + 1))),(x + 1))
1: compr(\x.(~1 + (loop(\(x,i).(x + (i * i * i * i)),x,1) mod (x + 1))),x)
1: compr(\x.(~1 + (loop(\(x,i).(2x + 1),x,((x div 4) mod 2)) mod (x + 1))),x)
1: compr(\x.(~2 + (loop(\(x,i).(~2x + 1),x,0) mod (x + 1))),x)
1: compr(\x.(~1 + (loop(\(x,i).(2x2 + ~1),2,4) mod (x + 1))),x)
1: compr(\x.(~2 + (loop(\(x,i).(~1 + ((x + 1) * loop(\(x,i).(x2 + 1),2,3))),2,1) mod (x + 1))),x)
1: compr(\x.(~1 + (loop(\(x,i).(4x + 2),(x div 2),1) mod (x + 1))),(x + 1))
1: compr(\x.(~1 + (loop(\(x,i).(4x + 2),(x div 2),1) mod (x + 1))),x)
1: compr(\x.(~1 + (loop(\(x,i).(2x + 2),(if (x mod 2) <= 0 then x else 1),1) mod (x + 1))),(x + 1))
1: compr(\x.(~1 + (loop(\(x,i).(2x + 2),(if (x mod 2) <= 0 then x else 1),1) mod (x + 1))),x)
1: compr(\x.(~1 + (loop(\(x,i).(2x + 2),x,1) mod (1 + (x div (1 + (x mod 2)))))),(x + 2))
1: compr(\x.(~1 + (loop(\(x,i).(2x + 2),x,1) mod (x + 1))),x)
1: compr(\x.(~1 + (loop(\(x,i).(2x + 2),x,2) mod loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))),x)
1: compr(\x.(~1 + (loop(\(x,i).(2x + 2),x,(1 - (2 * (x mod 2)))) mod (x + 1))),(x + 1))
1: compr(\x.(~2 + (loop(\(x,i).(2x + 4),x,(2 * (x mod 2))) mod (x + 1))),x)
1: compr(\x.(~2 + (loop(\(x,i).~2x,x,2) mod (x + 1))),x)
1: compr(\x.(~1 + (loop(\(x,i).(2 * (x - (i mod 2))),x,1) mod (x + 1))),x)
1: compr(\x.(~1 + (loop(\(x,i).4x,x,1) mod (2x + 1))),i)
1: compr(\x.(~1 + (loop(\(x,i).4x,x,1) mod (x + 1))),x)
1: compr(\x.(~2 + (loop(\(x,i).2x,(x div 2),(x mod 4)) mod (x + 1))),(x + 1))
1: compr(\x.(~1 + (loop(\(x,i).2x,x,1) mod (1 + (2x mod (2 + (x div 4)))))),x)
1: compr(\x.(~1 + (loop(\(x,i).2x,x,1) mod (1 + loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,2)))),x)
1: compr(\x.(~1 + (loop(\(x,i).2x,x,1) mod (x + 1))),x)
1: compr(\x.(~1 + (loop(\(x,i).2x,x,2) mod (1 + (if (~1 + (x mod 3)) <= 0 then x else 2)))),x)
1: compr(\x.(~1 + (loop(\(x,i).2x,x,2) mod (x + 2))),(x + 1))
1: compr(\x.(~1 + (loop(\(x,i).2x,x,(1 + (if (x mod 2) <= 0 then 2x else 1))) mod (x + 2))),x)
1: compr(\x.(~1 + (loop(\(x,i).2x,x,loop(\(x,i).(x + (i * i)),x,1)) mod (x + 1))),x)
1: compr(\x.(~1 + (loop(\(x,i).x2,2,x2) mod (2x + 1))),x)
1: compr(\x.(1 + (x mod 2) - ((~1 + (x div 2)) mod 4)),x)
1: compr(\x.((x mod 2) - (((x + ~1) mod (1 + ((1 + (x div 2)) div 2))) div 2)),(x + 1))
1: compr(\x.((x mod 2) - (((1 + (x div 2)) div (2 + (x mod 3))) mod 2)),(x + 2))
1: compr(\x.((x mod 2) - (((~1 + (x div 2)) div 2) mod 3)),x)
1: compr(\x.((x mod 2) - (((x - (x div 3)) div 3) mod 2)),(x + 1))
1: compr(\x.((x mod 2) - ((2x div (2 + (x div 3))) mod 2)),(x + 1))
1: compr(\x.((x mod 2) - (loop(\(x,i).(x2 + 2x),2,2) mod (x + 1))),x)
1: compr(\x.((x mod 3) - (x mod 5)),x)
1: compr(\x.((x mod 4) - (x div 8)),(x + 1))
1: compr(\x.((x mod 5) - (2 * (x mod 4))),(x + 2))
1: compr(\x.(~1 + (x mod (3 + (x mod 3) - (x mod 2)))),x)
1: compr(\x.(~1 + (x mod (3 - ((x div 2) mod 2)))),x)
1: compr(\x.((x mod 7) - (x mod 8)),(x + 1))
1: compr(\x.((x mod 7) - (x mod 8)),x)
1: compr(\x.(~1 + (x mod 9)),((if x <= 0 then 2 else (((x + 1) div 2) div 2)) div 2))
1: compr(\x.((x mod 9) - ((x div 2) mod 5)),(x + 1))
1: compr(\x.((x mod 9) - (x mod 10)),(x + 1))
1: compr(\x.((x mod 9) - (x mod 10)),x)
1: compr(\x.(~1 + (x mod (1 + (10 * (x mod 2))))),x)
1: compr(\x.(~2 + (x mod (1 + (2 * (x mod (2 * (1 + (x mod 3)))))))),x)
1: compr(\x.(~1 + (x mod (1 + (2 * (if ((x + ~2) mod 7) <= 0 then 1 else 2))))),x)
1: compr(\x.(~1 + (x mod (1 + (2 * (if (x mod 3) <= 0 then 0 else 2))))),x)
1: compr(\x.(~2 + (x mod (1 + ((1 + (x div 2)) div 2)))),x)
1: compr(\x.((x mod (1 + (x div 3))) - (if (x mod (2 + (x mod 2))) <= 0 then 1 else x)),(x + 1))
1: compr(\x.(~1 + (x mod (1 + (x div 5)))),x)
1: compr(\x.(~1 + (x mod (2 + ((x + 4) mod (1 + (x div 4)))))),x)
1: compr(\x.(~1 + (x mod (1 + ((9x + 1) mod (1 + (x div 2)))))),x)
1: compr(\x.(~1 + (x mod (1 + ((1 + (x mod (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))) mod (x + 1))))),x)
1: compr(\x.(~1 + (x mod (1 + (((x + ~2) + loop(\(x,i).(2 + (if (~x + i) <= 0 then 0 else x)),x,1)) mod (x + 1))))),(x + 2))
1: compr(\x.(~1 + (x mod (2 + ((~x + 1) mod (1 + (x div 4)))))),(x + 1))
1: compr(\x.(~1 + (x mod (1 + ((~2 + (9 * (~x + (x mod 9)))) mod (x + 1))))),(x + 1))
1: compr(\x.(~1 + (x mod (1 + ((~x2 + (x div 2)) mod 8)))),x)
1: compr(\x.(~1 + (x mod (1 + ((~1 + ((1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),(1 + (2 * (x mod 2))),(x + ~1))) mod 3)) mod (x + 1))))),x)
1: compr(\x.(~1 + (x mod (1 + ((~1 + (((2x + 2) * (1 + (loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 8))) mod 3)) mod (x + 1))))),x)
1: compr(\x.(~1 + (x mod (1 + ((~1 + loop(\(x,i).(~2x + 1),x,6)) mod (x + 1))))),x)
1: compr(\x.(~1 + (x mod (1 + ((loop(\(x,i).2x,x,1) - (x mod 2)) mod (x + 1))))),(x + 1))
1: compr(\x.(~1 + (x mod (1 + ((loop(\(x,i).2x,x,1) - (x mod 2)) mod (x + 1))))),x)
1: compr(\x.(~1 + (x mod (1 + ((loop(\(x,i).2x,x,2) - ((3 * (x mod 3)) div 2)) mod (x + 1))))),(x + 1))
1: compr(\x.(~1 + (x mod (1 + ((~1 + loop(\(x,i).2x,x,(1 - loop(\(x,i).(2 * (x - (i mod 2))),x,0)))) mod (x + 1))))),x)
1: compr(\x.(~1 + (x mod (1 + ((~1 + loop(\(x,i).2x,x,(~1 + (x mod 4)))) mod (x + 1))))),(x + 1))
1: compr(\x.(~1 + (x mod (2 + ((5 * (x mod 2)) mod (x + 1))))),x)
1: compr(\x.(~1 + (x mod (1 + (2x mod (2 + (x div 4)))))),x)
1: compr(\x.(~1 + (x mod (1 + (((1 - loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))) div 2) mod (x + 1))))),x)
1: compr(\x.(~1 + (x mod (2 + ((x div 2) mod 4)))),x)
1: compr(\x.(~1 + (x mod (1 + (loop(\(x,i).(~2x + 4),x,2) mod (x + 1))))),x)
1: compr(\x.(~1 + (x mod (1 + (x mod 4)))),(1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))
1: compr(\x.(~2 + (x mod (2 + (x mod (4 + (x mod 2)))))),(x + 1))
1: compr(\x.(~1 + (x mod (2 + (x mod (~1 + (2 * (x div 4))))))),x)
1: compr(\x.(~1 + (x mod (2 + (x mod ((x + 1) - (x mod 10)))))),(x + 1))
1: compr(\x.(~1 + (x mod (2 + (x mod (x - ((x + ~1) mod 8)))))),x)
1: compr(\x.(~2 + (x mod (2 - ((~x + 1) div 5)))),x)
1: compr(\x.(~1 + (x mod (~1 + (6 * (loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)))))),(x + 1))
1: compr(\x.(~1 + (x mod ((x + 1) - (x mod 9)))),x)
1: compr(\x.(~2 + (x mod ((x + 1) - (x mod 10)))),(x + 1))
1: compr(\x.((x mod (x - ((x + ~1) mod 8))) - (x div 8)),(x + 2))
1: compr(\x.((x mod 6) - (x div 8)),(x + 1))
1: compr(\x.((x mod 6) - (x mod 5)),(x + 1))
1: compr(\x.((x mod 6) - (x mod 7)),(x + 1))
1: compr(\x.((x mod 6) - (x mod 7)),x)
1: compr(\x.((x mod 8) - (x mod 9)),(x + 1))
1: compr(\x.((x mod 8) - (x mod 9)),x)
1: compr(\x.((x mod 10) - (x mod 11)),(x + 1))
1: compr(\x.((x mod 10) - (x mod 11)),x)
1: compr(\x.(~1 + (compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x) mod 3)),x)
1: compr(\x.(~2 + (if ((x + 1) mod (2 + ((x div 2) mod 2))) <= 0 then x else 0)),(x + 1))
1: compr(\x.((if (((x + ~1) - (x div 4)) mod 4) <= 0 then 0 else 1) - (x mod 2)),x)
1: compr(\x.(~1 + (if (((x + ((x div 2) div 3)) div 2) mod 2) <= 0 then x else 1)),x)
1: compr(\x.(~2 + (if ((x div (2 + ((x div 2) div 3))) mod 2) <= 0 then 1 else x)),x)
1: compr(\x.((if (x mod 2) <= 0 then 1 else x) - (x mod 10)),x)
1: compr(\x.((if (x mod 4) <= 0 then 2 else (x mod 2)) - (x mod (1 + (x div 4)))),x)
1: compr(\x.(~2 + (if (x mod (1 + (8 * (x mod 2)))) <= 0 then x else 1)),(x + 1))
1: compr(\x.(~1 + loop(\(x,i).((x * (x mod 2)) + (x div 2)),x,x)),(x + 1))
1: compr(\x.(loop(\(x,i).((x * (x mod 2)) + (x div 2)),x,x) - (x mod 2)),(x + 1))
1: compr(\x.(~2 + loop(\(x,i).(2 + (loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2)),2,x)),x)
1: compr(\x.(~1 + loop(\(x,i).(x + (if x <= 0 then 1 else (if (x mod 2) <= 0 then x else loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),x,x)))),2,x)),x)
1: compr(\x.(~1 + loop(\(x,i).(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,(x + 1))),2,x)),(x + 1))
1: compr(\x.(~1 + loop(\(x,i).(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (2 - (x mod 2))))),x,x)),2,x)),2x)
1: compr(\x.(~x + loop(\(x,i).(~1 + (if x <= 0 then (2 * i) else x)),x,1)),x)
1: compr(\x.(loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x) - (x div 11)),x)
1: compr(\x.(~1 + loop(\(x,i).x2,1,((x mod 3) - (x mod 5)))),(x + 1))
1: compr(\x.(~x + loop(\(x,i).(x div (2 - (x mod 2))),x,x2)),(x + 1))
1: compr(\x.(~1 + loop(\(x,i).(x div (if (x mod 2) <= 0 then 4 else 1)),3,x)),x)
1: compr(\x.(~1 + loop(\(x,i).(x3 mod 37),2,x)),(x + 1))
1: compr(\x.(~1 + loop(\(x,i).(if x <= 0 then 1 else loop(\(x,i).(if (x mod 2) <= 0 then 2 else loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x)),x,x)),2,x)),2,x)),x)
1: compr(\x.(~1 + loop(\(x,i).loop(\(x,i).(2 + (x mod 2)),(x mod 2),(x div 2)),4,x)),(x + 1))
1: compr(\x.(~1 + loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(9x + 6))),x)
1: compr(\x.(~1 + loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(15x + 6))),x)
1: compr(\x.(~1 + loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(6x2 + 12x + 3))),x)
1: compr(\x.(~1 + loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,33x)),x)
1: compr(\x.(~1 + loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,21x)),x)
1: compr(\x.(~1 + loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(12x + 6))),x)
1: compr(\x.(~1 + loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,18x)),x)
1: compr(\x.(~1 + loop(\(x,i).loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + 1)),1,(x2 + x))),x)
1: compr(\x.(~1 + loop(\(x,i).loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + 1)),1,(x2 + 2x))),x)
1: compr(\x.((x + ~1) - ((x2 + ~1) mod (x + 8))),x)
1: compr(\x.((x + ~1) + loop(\(x,i).(x - (if x <= 0 then 0 else (1 + i))),2x,x2)),x)
1: compr(\x.((x + ~2) + (x div (~2 + ((x div 5) mod 2)))),(x + 1))
1: compr(\x.((x + 1) - (9 * ((2x + 1) mod 7))),(x + 1))
1: compr(\x.((x + 1) - ((2 * ((x + 2) + (if x <= 0 then 1 else (2 * (1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))))))) div 3)),x)
1: compr(\x.((x + 1) - (loop(\(x,i).5x,x,2) mod (3x + 2))),x)
1: compr(\x.(x - (2 * (2 + (x div (1 + (((if (x mod 2) <= 0 then 1 else x) mod 4) + ((x mod 3) div 2))))))),(x + 1))
1: compr(\x.(x - (3 * (2 + (x div (2 * (2 + (x mod 2))))))),(x + 1))
1: compr(\x.(x - (2 * (1 + ((1 - ((x + 1) mod 11)) mod (x + 1))))),x)
1: compr(\x.(x - (3 * (1 + (x3 mod 11)))),x)
1: compr(\x.(x - (3 * (2 + (x mod (5 * (1 + (x mod (2 + (x mod 2))))))))),x)
1: compr(\x.(x - (2 * (~1 + (2 * (x mod 10))))),x)
1: compr(\x.(x - ((((x + 1) div 2) - ((3 * (x div 4)) div 2)) * (2 + (x div 5)))),x)
1: compr(\x.(x - (12 * (if ((x + 2) mod 8) <= 0 then (x + 2) else 1))),x)
1: compr(\x.(x - (6 * (x mod 6))),x)
1: compr(\x.(x - (2 * ((x + ((3 * ((~2 + ((2 * ((x2 + x) mod 9)) mod (x + 1))) div 2)) div 2)) div 2))),x)
1: compr(\x.(x - (2 * ((x + 1) mod (1 + (2 * ((~1 + (6 * (x mod 10))) mod (x + 1))))))),x)
1: compr(\x.(x - (2 * ((~x2 + 2x) mod (2x + 4)))),x)
1: compr(\x.(x - ((x mod 10) * (1 + (x div 8)))),(x + 1))
1: compr(\x.(x - (2 * loop(\(x,i).(x5 mod 31),2,x))),(x + 1))
1: compr(\x.(x - ((1 + (x * loop(\(x,i).(4x2 + ~1),2,2x))) mod (x + 1))),x)
1: compr(\x.(x - ((2 + (x * loop(\(x,i).(4x2 + x),2,2x))) mod (x + 1))),x)
1: compr(\x.(x - ((2 + (x * loop(\(x,i).2x2,2,(x + ~2)))) mod (x + 1))),x)
1: compr(\x.(x - ((2 + (x * loop(\(x,i).3x2,2,2x))) mod (x + 1))),x)
1: compr(\x.(x - ((1 + loop(\(x,i).(x * (4x + (i mod 2))),2,2x)) mod (x + 1))),x)
1: compr(\x.(x - ((1 + loop(\(x,i).(x4 + 3x3 + 2x2),1,(x2 + 2))) mod (x + 1))),x)
1: compr(\x.(x - (x2 mod (x + 36))),x)
1: compr(\x.(x - (loop(\(x,i).(5x2 + x + 10),2,x) mod (x + 1))),x)
1: compr(\x.(x - (loop(\(x,i).(5x2 + ~5x + 2),2,x) mod (x + 1))),x)
1: compr(\x.(x - (loop(\(x,i).(2x2 + 1),2,3x) mod (x + 1))),x)
1: compr(\x.(x - (loop(\(x,i).(~2x + 1),x,3) mod (x + 2))),x)
1: compr(\x.(x - (loop(\(x,i).(3x2 + ~1),2,5) mod (x + 1))),x)
1: compr(\x.(x - (loop(\(x,i).(x3 + 2x2 + 2x),2,3) mod (x + 1))),x)
1: compr(\x.(x - (loop(\(x,i).(x * (1 + (3x * (2 + i)))),2,x) mod (x + 1))),x)
1: compr(\x.(x - (loop(\(x,i).~2x,x,4) mod (x + 2))),x)
1: compr(\x.(x - (loop(\(x,i).(6x2 + ~5x + 1),2,x) mod (x + 1))),x)
1: compr(\x.(x - (loop(\(x,i).(x2 * (~1 + (3 * (2 + i)))),2,x) mod (x + 1))),x)
1: compr(\x.(x - (loop(\(x,i).(9x2 + 18x),2,x) mod (x + 1))),x)
1: compr(\x.(x - (loop(\(x,i).(16x2 + ~8),2,x) mod (x + 1))),x)
1: compr(\x.(x - (loop(\(x,i).x5,2,~4) mod (x + 1))),x)
1: compr(\x.(x - (loop(\(x,i).2x,x,x) mod (x + 2))),x)
1: compr(\x.(x - loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,x2)),x)
1: compr(\x.(x - loop(\(x,i).(~1 + (if x <= 0 then (2 * i) else x)),x,0)),x)
1: compr(\x.(x - loop(\(x,i).2x,(~1 + (x mod 9)),1)),(x + 1))
1: compr(\x.(x - loop(\(x,i).2x,(~1 + (x mod 10)),1)),(x + 1))
1: compr(\x.(x - loop(\(x,i).x2,2,(loop(\(x,i).(2x + 2),x,2) mod (x + 2)))),(x + 1))
1: compr(\x.(x - loop(\(x,i).(x5 mod 31),2,x)),(x + 1))
1: compr(\x.(x - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x + ~2),x)),(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: compr(\x.(x - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),x)),(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: compr(\x.(x - loop(\(x,i).loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),x,(2x + 1)),2,x)),x)
1: compr(\x.(2 * (1 + ((1 + ((1 + (((((x + 1) * (1 + (2 mod (1 + (x mod 3))) - (x mod 7))) div 2) div 2) div 2)) div 2)) div 2))),x)
1: compr(\x.(x * (2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x + ~2),x))),x)
1: compr(\x.((~4 + (x div 2)) * (x mod 8)),(x + 1))
1: compr(\x.(2 * (x - (x * ((loop(\(x,i).2x,x,(~1 + ((2 * (1 + ((((x + 1) * (if (x mod 2) <= 0 then 1 else (2 * (1 + (8 * (x mod 2)))))) div 2) div 2))) mod 3))) mod (x + 1)) div 2)))),x)
1: compr(\x.(2 * (((x div 2) - (x mod ((x + 1) - (x mod 10)))) div 2)),(x + 1))
1: compr(\x.(2 * (3 mod (if (x mod (1 + (x mod 4))) <= 0 then 1 else x))),(x + 1))
1: compr(\x.(2 * ((1 + (x div (if (x mod 4) <= 0 then 4 else 1))) mod 8)),x)
1: compr(\x.(2 * (((2x + 1) mod 29) mod 5)),x)
1: compr(\x.(2 * (((x + 1) mod (1 + (2 * ((1 - (((2x + ~2) mod (2 + (x div 4))) mod 3)) mod 3)))) mod 2)),x)
1: compr(\x.(2 * (x mod (1 + (((loop(\(x,i).2x,x,(2 - ((x div 2) mod 2))) mod (x + 1)) div 2) + (x mod 2))))),(x + 1))
1: compr(\x.((x mod 11) * (x mod 3)),(x + 1))
1: compr(\x.((x mod 6) * (x mod 5)),x)
1: compr(\x.((x mod 10) * (x mod 7)),x)
1: compr(\x.(x * (if (x mod 2) <= 0 then 1 else (((x + 1) div (1 + (2 * (((~x + 2) mod (2 + (x div 4))) div 2)))) mod 2))),x)
1: compr(\x.(2 * loop(\(x,i).(~2x + 1),(x + loop(\(x,i).(x - (if x <= 0 then 1 else (x div (1 + (if (x mod 3) <= 0 then 0 else 2))))),x,(x + 1))),1)),x)
1: compr(\x.(2 * loop(\(x,i).(~1 + (x mod 3)),(x + ~2),(if ((x + 2) mod (1 + (2 * (2 + (x mod 2))))) <= 0 then 0 else 1))),x)
1: compr(\x.(loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x) * (~1 + (x mod 5))),x)
1: compr(\x.(x * loop(\(x,i).loop(\(x,i).(if x <= 0 then 3 else (loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2)),2,x),2,x)),x)
1: compr(\x.(1 div (~1 + (loop(\(x,i).(2 * (x + i)),x,0) mod (x + 1)))),x)
1: compr(\x.((1 + (x mod (4 - (x mod 2)))) div 2),2x)
1: compr(\x.((~1 + (x mod (2 + ((x2 + 2x) mod 6)))) div 2),(x + 2))
1: compr(\x.((loop(\(x,i).(1 + ((x + 1) * i)),(2 * (if (~2 + (x div 3)) <= 0 then 0 else 2)),1) - (x div 2)) div 2),x)
1: compr(\x.((x - (x2 mod (11x + 12))) div 2),(if x <= 0 then 1 else 4x))
1: compr(\x.(((loop(\(x,i).(x4 mod 27),2,(2x + 1)) div 2) div 2) div 3),x)
1: compr(\x.((((2 * (1 + ((1 + ((x2 + ~x) div (3 * (if ((x + ~2) mod (2 + (x mod 2))) <= 0 then 1 else 2)))) div 2))) mod (x + 1)) div 2) div 2),(x + 1))
1: compr(\x.(((1 + (((1 + (((x + 1) * (1 + ((1 + (x div (2 * (2 - ((x * (x div 2)) mod 2))))) div 3))) div 2)) div 2) div 2)) mod 3) div 2),x)
1: compr(\x.(((x + 2) mod (3 * ((if (x mod 2) <= 0 then 1 else x) mod 4))) div 2),x)
1: compr(\x.(((0 - (x mod (1 + (2 * (if (x mod 3) <= 0 then 0 else 2))))) mod (x + 1)) div 2),(x + 1))
1: compr(\x.(((~1 + loop(\(x,i).2x,x,2)) mod (2 + (x div 2))) div 2),x)
1: compr(\x.(((~1 + loop(\(x,i).2x,x,2)) mod (x + 2)) div 2),((x + 2) div 3))
1: compr(\x.(((6x + 6) mod (2 + (x div 4))) div 2),x)
1: compr(\x.((loop(\(x,i).2x,((x - (x div 5)) mod 5),1) mod (x + 1)) div 2),x)
1: compr(\x.((x mod (2 + ((2 * (x mod (~1 + (2 * (x mod 5))))) mod (x + 1)))) div 2),x)
1: compr(\x.(loop(\(x,i).(~1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),x,2x)),2,(x + 1)) div 2),x)
1: compr(\x.(loop(\(x,i).(x div (2 - ((1 + (if (x + ~2) <= 0 then x else (if (x mod 4) <= 0 then 0 else 1))) mod 2))),x,x) div 2),x)
1: compr(\x.(loop(\(x,i).(x div (if (x mod (2 + (x mod 2))) <= 0 then 2 else 1)),x,x) div 2),(x + 1))
1: compr(\x.(x div ((2 + (x div 4)) * (1 + (x mod 4)))),(x + 1))
1: compr(\x.(x div loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,(2x + 1))),x)
1: compr(\x.(3 mod (1 + ((2 - ((x + 1) mod 11)) mod (x + 1)))),x)
1: compr(\x.(((x + 3) + compr(\x.(~1 + ((x div 2) mod (1 + (if (x mod 2) <= 0 then 6 else 1)))),x)) mod 3),x)
1: compr(\x.(((x + 1) + (((x + 1) + ((x + loop(\(x,i).(x + (x div 3)),2,(x + ~1))) div 2)) div 2)) mod 3),x)
1: compr(\x.(((x + 1) + (((x + ~1) + ((2 * ((x + 3) + compr(\x.(1 - (x mod (1 + (2 * (x div (2 + ((x div 2) div 3))))))),x))) div 3)) div 2)) mod 3),x)
1: compr(\x.(((x + 1) + ((x + (x div 12)) div 3)) mod 2),x)
1: compr(\x.(((x + 2) + ((x - (if (x mod (1 + ((x + 2) div 5))) <= 0 then (if x <= 0 then 0 else 1) else 2)) div 4)) mod 3),x)
1: compr(\x.(((x + 1) + loop(\(x,i).loop(\(x,i).(2 - (x mod 2)),(x mod 2),(x div 2)),x,x)) mod 2),x)
1: compr(\x.((2 + ((2 * (1 + ((1 + ((x + 1) div (1 + (x div (1 + (2 * (1 + (x mod 3)))))))) div 2))) div 3) - (x mod 2)) mod 2),x)
1: compr(\x.((1 + (2 * ((2x + 1) - ((x + (x mod 3)) div 7)))) mod 3),x)
1: compr(\x.((2 + (x * (1 + (x * loop(\(x,i).(6x2 + 2),2,x))))) mod (x + 1)),x)
1: compr(\x.((x2 + 2x + 1) mod loop(\(x,i).(1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),2,x)),x)
1: compr(\x.((x2 + 2x + 2) mod (5 * (~1 + (2 * (6 + (x mod 2)))))),x)
1: compr(\x.((x5 + 1) mod 11),x)
1: compr(\x.((1 + (2 * ((x2 mod 17) div 2))) mod 3),x)
1: compr(\x.((1 + (x * loop(\(x,i).(3x2 + x + 1),2,2x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(4x2 + x + 1),2,2x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(3x2 + ~2x + 1),2,2x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(2x2 + ~x + 1),2,2x))) mod (x + 1)),x)
1: compr(\x.((2 + (x * loop(\(x,i).(9x2 + 2),2,x))) mod (x + 1)),x)
1: compr(\x.((2 + (x * loop(\(x,i).(3x2 + x),2,2x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(~x2 + 1),2,4x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(~3x2 + x + ~1),2,2x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(~4x2 + 4x + ~3),2,x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(~6x2 + 2x + ~1),2,x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(6x2 + 12x + ~7),2,x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(6x2 + ~5x),2,x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(~2x2 + x),2,(x + ~2)))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(16x2 + 14x + 3),2,x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(5 * (2 + (x * (x + i)))),2,x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(6x2 + ~3x + 3),2,x))) mod (x + 1)),x)
1: compr(\x.((2 + (x * loop(\(x,i).(9x2 + x),2,x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(x * (1 + (3x * (2 + i)))),2,x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(16x2 + 10x + 1),2,x))) mod (x + 1)),x)
1: compr(\x.((2 + (x * loop(\(x,i).(4x2 + x),2,2x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(6x2 + 3),2,x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).((2x2 + 1) * (2 + i)),2,x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(6x2 + 2),2,x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(2x2 + x),2,3x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(2x2 + 2),2,3x))) mod (x + 1)),x)
1: compr(\x.((2 + (x * loop(\(x,i).(3x2 + 3),2,2x))) mod (x + 1)),x)
1: compr(\x.((2 + (x * loop(\(x,i).(2x2 + 8),2,2x))) mod (x + 1)),x)
1: compr(\x.((2 + (x * loop(\(x,i).(x2 + x),1,loop(\(x,i).x2,2,5)))) mod (x + 1)),x)
1: compr(\x.((2 + (x * loop(\(x,i).(x2 + x),2,5x))) mod (x + 1)),x)
1: compr(\x.((2 + (x * loop(\(x,i).(x2 + x),2,4x))) mod (x + 1)),x)
1: compr(\x.((2 + (x * loop(\(x,i).~2x2,2,3x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(~10x2 + ~3x),2,x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(~6x2 + ~11x + 2),2,x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(~12x2 + 3),2,x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(11x2 + 2x),2,x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(~x2 + 4x + ~4),2,2x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(3x2 + ~2x),2,2x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(10x2 + 2x + ~2),2,x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(x * (~1 + (2 * (4x + i)))),2,x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(5x2 + 10x + ~10),2,x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(4x2 + ~9x),2,x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(16x2 + 56x + 46),2,x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(8x2 + ~x),2,x))) mod (x + 1)),x)
1: compr(\x.((2 + (x * loop(\(x,i).(8x2 + ~x),2,x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(x * (~1 + (4x * (1 + i)))),2,x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(6x2 + ~6x + ~3),2,x))) mod (x + 1)),x)
1: compr(\x.((2 + (x * loop(\(x,i).(6x2 + ~2x),2,x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(8x2 + ~2),2,x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(2x2 + ~3x + 1),2,2x))) mod (x + 1)),x)
1: compr(\x.((2 + (x * loop(\(x,i).(2x2 + ~3x + 1),2,2x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(2x2 + ~x),2,(~x + 2)))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(2x2 + ~x),2,3x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(2x2 + ~x),2,2x))) mod (x + 1)),x)
1: compr(\x.((2 + (x * loop(\(x,i).(3x2 + ~3),2,2x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(x * (~1 + (x * i))),2,3x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(7x2 + ~2x),2,x))) mod (x + 1)),x)
1: compr(\x.((2 + (x * loop(\(x,i).(7x2 + ~3x),2,x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(5x2 + ~4x),2,x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(5x2 + ~8x),2,x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).~7x2,2,x))) mod (x + 1)),x)
1: compr(\x.((2 + (x * loop(\(x,i).(~8x2 + 2x),2,x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(x * (~x + i)),2,4x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(8x2 + ~4x + ~4),2,x))) mod (x + 1)),x)
1: compr(\x.((2 + (x * loop(\(x,i).(8x2 + ~4x + ~4),2,x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(5x2 + 20x),2,x))) mod (x + 1)),x)
1: compr(\x.((2 + (x * loop(\(x,i).((x2 + 4x) * (4 + i)),2,x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(15x2 + 10x),2,x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(4x2 + ~4x + 4),2,x))) mod (x + 1)),x)
1: compr(\x.((2 + (x * loop(\(x,i).(4x2 + 2x),2,2x))) mod (x + 1)),x)
1: compr(\x.((2 + (x * loop(\(x,i).(10x2 + 5x),2,x))) mod (x + 1)),x)
1: compr(\x.((2 + (x * loop(\(x,i).(6x2 + 6),2,x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(5x2 + 5x),2,2x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).~10x2,2,x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(12x2 + ~6),2,x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(9x2 + ~18),2,x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(3x2 + ~12x),2,x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(5x * (x - i)),2,x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).~9x2,2,x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(16x2 + ~8),2,x))) mod (x + 1)),x)
1: compr(\x.((2 + (x * loop(\(x,i).(16x2 + ~8),2,x))) mod (x + 1)),x)
1: compr(\x.((2 + (x2 * loop(\(x,i).(4x2 + 4x),2,2x))) mod (x + 1)),x)
1: compr(\x.((2 + (x * loop(\(x,i).(4x2 + 4x),2,2x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).10x2,2,x))) mod (x + 1)),x)
1: compr(\x.((x + (x * loop(\(x,i).8x2,2,x))) mod (x + 1)),x)
1: compr(\x.((2 + (x * loop(\(x,i).(x4 + ~x3),1,4x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).x5,1,3x))) mod (x + 1)),x)
1: compr(\x.((2 + (x * loop(\(x,i).2x2,2,(x + ~2)))) mod (x + 1)),x)
1: compr(\x.((2 + (x * loop(\(x,i).3x2,2,2x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).4x2,2,2x))) mod (x + 1)),x)
1: compr(\x.((2 + (x * loop(\(x,i).4x2,2,2x))) mod (x + 1)),x)
1: compr(\x.((2 + (x * loop(\(x,i).(x2 * (1 + i)),2,2x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).(x2 * (2 + i)),2,2x))) mod (x + 1)),x)
1: compr(\x.((2 + (x * loop(\(x,i).(x2 * (2 + i)),2,2x))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).x2,2,(10x + ~16)))) mod (x + 1)),x)
1: compr(\x.((1 + (x * loop(\(x,i).x2,2,20x))) mod (x + 1)),x)
1: compr(\x.((2 + (x * loop(\(x,i).(x div (2 - (x mod 2))),x,x))) mod 3),x)
1: compr(\x.((2 + (x * loop(\(x,i).loop(\(x,i).(x4 + x),1,(2x + 1)),1,3x))) mod (x + 1)),x)
1: compr(\x.((2x + 1) mod (1 + ((4 * (x mod 2)) mod (x + 1)))),x)
1: compr(\x.((2x + 1) mod (1 + (2x mod (2 + (x div 4))))),x)
1: compr(\x.((x2 + 1) mod (1 + loop(\(x,i).(x * (x + i)),2,3))),x)
1: compr(\x.((x2 + 1) mod loop(\(x,i).(1 + (x * i)),4,2)),x)
1: compr(\x.((x2 + 2) mod loop(\(x,i).x2,2,3)),x)
1: compr(\x.((2 + (((x + 4) + ((2 + (((2x + 4) + (if x <= 0 then 1 else ((x + 4) + (x div (4 + (x div 2)))))) div 2)) div 2)) div 2)) mod 3),x)
1: compr(\x.((1 + ((1 + ((1 + ((1 + ((((x + 1) * (1 + (x mod (1 + (x mod 4))))) div 2) div 2)) div 2)) div 2)) div 2)) mod 3),x)
1: compr(\x.((1 + ((1 + ((1 + ((1 + (x div (1 + ((x div 2) mod (1 + (x mod (2 + (if (x mod 5) <= 0 then 2 else 0)))))))) div 2)) div 2)) div 2)) mod 3),x)
1: compr(\x.((1 + ((1 + ((1 + (x div (if (x mod 4) <= 0 then 4 else 1))) div 2)) div 2)) mod 2),x)
1: compr(\x.((x + ((1 + (((x + loop(\(x,i).((3x + 1) - ((x + 1) div 5)),x,1)) div 2) div 2)) div 2)) mod 2),x)
1: compr(\x.((1 + ((x + ((x div 2) div 7)) div 2)) mod 2),x)
1: compr(\x.((1 + ((x + (x div 8)) div 2)) mod 2),x)
1: compr(\x.((1 + ((x + 1) div (1 + ((x - (if (x mod 9) <= 0 then 0 else 1)) mod 2)))) mod 2),(x + 1))
1: compr(\x.((1 + (((x + 1) * (1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x))) div 2)) mod 3),(x + 1))
1: compr(\x.((1 + ((4 * (1 + ((x + 1) div (2 + (x div 8))))) div 3)) mod 3),x)
1: compr(\x.((1 + ((4 * (2x - (x mod 7))) div 3)) mod 3),x)
1: compr(\x.((1 + ((((2 - ((x div 4) mod 2)) * ((x + 1) div 2)) div 2) div 2)) mod 2),x)
1: compr(\x.((2 + (((x * (((x + ~1) div 2) div 2)) div 2) div 3)) mod 3),x)
1: compr(\x.((1 + ((loop(\(x,i).2x,loop(\(x,i).(loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2),2,x),2) div 2) div 2)) mod 3),x)
1: compr(\x.((1 + (((if ((x + 1) mod 8) <= 0 then 3 else x) mod 5) div 2)) mod 2),x)
1: compr(\x.((1 + (x div 3)) mod (1 + (2 * (x mod 2)))),x)
1: compr(\x.((1 + (x div (2 + (x mod (2 + (x div (2 * (2 - (x mod 2))))))))) mod 2),x)
1: compr(\x.((1 + ((1 - (x mod (x - ((x + ~1) mod 8)))) mod (1 + (x div 3)))) mod 2),x)
1: compr(\x.((1 + ((~x + 1) mod (1 + (x div (2 + (x mod 2)))))) mod 2),x)
1: compr(\x.((1 + (x5 mod 31)) mod 2),x)
1: compr(\x.((1 + ((x * (if (x mod 5) <= 0 then 1 else 2)) mod 4)) mod 3),x)
1: compr(\x.((1 + (x2 mod (4x + 9))) mod 2),x)
1: compr(\x.((1 + (x2 mod (1 + (2 * (x div (2 + (x mod 2))))))) mod 2),x)
1: compr(\x.((1 + (x2 mod ~13)) mod 2),x)
1: compr(\x.((1 + ((x div 2) mod (1 + (x div (1 + (2 * (2 + (x mod 2)))))))) mod 2),(x + 1))
1: compr(\x.((1 + (loop(\(x,i).2x,x,1) mod (x + 2))) mod 2),x)
1: compr(\x.((1 + (x mod (2 + (3 * ((x + ~1) mod 4))))) mod 2),x)
1: compr(\x.((2 + (x mod (1 + ((~x2 + 2) mod 8)))) mod 3),x)
1: compr(\x.((x + (x mod 10)) mod 7),(x + 1))
1: compr(\x.((1 + (if x <= 0 then 0 else (1 + (((3x + ~6) mod (1 + (x div 2))) div 3)))) mod 2),x)
1: compr(\x.((1 + loop(\(x,i).(9 + ((x3 + x) div 2)),2,x)) mod (x + 1)),x)
1: compr(\x.((1 + loop(\(x,i).(x2 + 2x + ~4),3,x)) mod (x + 1)),x)
1: compr(\x.((1 + loop(\(x,i).(3x2 + ~1),2,3)) mod (x + 1)),x)
1: compr(\x.((1 + loop(\(x,i).(4x2 + ~1),2,2)) mod (x + 1)),x)
1: compr(\x.((1 + loop(\(x,i).(x4 + ~1),2,4)) mod (x + 1)),x)
1: compr(\x.((1 + loop(\(x,i).(~1 + (x2 * i)),2,4)) mod (x + 1)),x)
1: compr(\x.((1 + loop(\(x,i).17x,(2 * (1 + (x mod 2))),x)) mod (x + 1)),x)
1: compr(\x.((1 + loop(\(x,i).(x * (1 + (4x * (1 + i)))),2,x)) mod (x + 1)),x)
1: compr(\x.((1 + loop(\(x,i).(x2 + x),2,6x)) mod (x + 1)),x)
1: compr(\x.((2 + loop(\(x,i).(x2 + x),2,6x)) mod (x + 1)),x)
1: compr(\x.((2 + loop(\(x,i).(x2 + ~x),2,5x)) mod (x + 1)),x)
1: compr(\x.((1 + loop(\(x,i).(5x2 + ~8x),2,x)) mod (x + 1)),x)
1: compr(\x.((1 + loop(\(x,i).10x,15,x)) mod (x + 1)),x)
1: compr(\x.((1 + loop(\(x,i).10x,6,x)) mod (x + 1)),x)
1: compr(\x.((1 + loop(\(x,i).10x,10,x)) mod (x + 1)),x)
1: compr(\x.((1 + loop(\(x,i).5x2,2,2x)) mod (x + 1)),x)
1: compr(\x.((1 + loop(\(x,i).(8x2 + 18x),2,x)) mod (x + 1)),x)
1: compr(\x.((1 + loop(\(x,i).(6x2 + 12x + ~6),2,x)) mod (x + 1)),x)
1: compr(\x.((1 + loop(\(x,i).(5x2 + ~10x),2,x)) mod (x + 1)),x)
1: compr(\x.((1 + loop(\(x,i).(20x2 + 30x),2,x)) mod (x + 1)),x)
1: compr(\x.((2 + loop(\(x,i).10x2,2,x)) mod (x + 1)),x)
1: compr(\x.((1 + loop(\(x,i).12x2,2,x)) mod (x + 1)),x)
1: compr(\x.((1 + loop(\(x,i).4x,22,x)) mod (x + 1)),x)
1: compr(\x.((1 + loop(\(x,i).2x,(1 + (loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2)),x)) mod 3),x)
1: compr(\x.((1 + loop(\(x,i).2x,(x div 2),1)) mod (x + 1)),(x + 1))
1: compr(\x.((1 + loop(\(x,i).2x,(x div 2),2)) mod (x + 2)),x)
1: compr(\x.((1 + loop(\(x,i).2x,x,1)) mod (2x + 1)),(x + 1))
1: compr(\x.((2 + loop(\(x,i).x2,2,5x)) mod (x + 1)),x)
1: compr(\x.((2 + loop(\(x,i).x2,2,4x)) mod (x + 1)),x)
1: compr(\x.((2 + loop(\(x,i).x2,4,2)) mod (x + 1)),x)
1: compr(\x.((1 + loop(\(x,i).(x div 2),x,loop(\(x,i).3x,x,1))) mod 2),(x + 1))
1: compr(\x.((1 + loop(\(x,i).(x div (2 - (x mod 2))),x,(x div (1 + (if (x mod 3) <= 0 then 2 else 0))))) mod 3),x)
1: compr(\x.((x + loop(\(x,i).(x div (2 - (x mod 2))),x,x)) mod 3),x)
1: compr(\x.((1 + loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,3x)) mod 3),x)
1: compr(\x.((1 + loop(\(x,i).loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)),1,(x - ((~x + 2) div 2)))) mod 3),2x)
1: compr(\x.((x + 1) mod (5 + ((x mod (2 + (x mod 2))) div 2))),x)
1: compr(\x.((x + 1) mod (3 + (x mod 2))),(2x + 1))
1: compr(\x.((x + 1) mod (1 + (4 * (x mod (1 + (4 * (if (x mod 3) <= 0 then 0 else 2))))))),x)
1: compr(\x.((x + 1) mod (1 + (4 * (x mod (2 * (1 + (x mod (1 + ((~x + 2) mod 4))))))))),x)
1: compr(\x.((x + 1) mod (1 + (4 * (if (x mod 5) <= 0 then 10 else 1)))),x)
1: compr(\x.((x + 1) mod (1 + (2 * ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 3)))),(x + 1))
1: compr(\x.((x + 1) mod (1 + (2 * ((1 + (x2 div (x + 4))) mod 2)))),x)
1: compr(\x.((x + 1) mod (1 + (2 * ((~x + 2) mod (2 + (x mod 2)))))),x)
1: compr(\x.((x + 1) mod (1 + (2 * (((x + 1) div (2 + (x mod 5))) mod 2)))),x)
1: compr(\x.((x + 1) mod (1 + (2 * ((2x div (~1 + ((~x + 2) div 3))) mod 2)))),(x + 1))
1: compr(\x.((x + 1) mod (1 + (2 * (x mod (1 + ((x + ~1) mod 7)))))),x)
1: compr(\x.((x + 1) mod (1 + ((x + (2 * (x mod 2))) div 5))),x)
1: compr(\x.((x + 1) mod (1 + ((x div 2) div (1 + (2 * (2 - (x mod 2))))))),x)
1: compr(\x.((x + 1) mod (1 + (x div 4))),(x div 2))
1: compr(\x.((x + 1) mod (1 + (x div (3 + ((x div 2) mod 2))))),x)
1: compr(\x.((x + 1) mod (1 + (x div (1 + ((if (~2 + (x div 4)) <= 0 then 1 else 2) + (x mod 2)))))),x)
1: compr(\x.((x + 1) mod (1 + (x div (1 + (2 * (2 - ((x mod 3) div 2))))))),x)
1: compr(\x.((x + 1) mod (1 + (x div (1 + (~x mod 8))))),x)
1: compr(\x.((x + 1) mod (1 + (x div (1 - (x div (~2 + (((~x + 2) div 2) div 5))))))),(x + 1))
1: compr(\x.((x + 1) mod (1 + (x div (1 - (x div (~2 + (((~x + 2) div 2) div 5))))))),x)
1: compr(\x.((x + 1) mod (1 + (x div (5 * (1 + (x mod 3)))))),(x + 1))
1: compr(\x.((x + 1) mod (1 + (x div (5 * (1 + (x mod 3)))))),x)
1: compr(\x.((x + 1) mod (1 + ((2 + ((x mod 3) div 2)) mod (1 + (x div 2))))),x)
1: compr(\x.((x + 1) mod (1 + ((1 + (2x mod 3)) mod (x + 1)))),x)
1: compr(\x.((x + 1) mod (1 + ((~x + 1) mod (1 + (2 * (2 - (x mod 2))))))),x)
1: compr(\x.((x + 1) mod (1 + ((~x + 1) mod (2 + (4 mod (x + 1)))))),x)
1: compr(\x.((x + 1) mod (1 + ((~x + ~2) mod 8))),x)
1: compr(\x.((x + 1) mod (1 + ((~1 + (2 * ((1 + (x div 2)) div 2))) mod (1 + (x div 4))))),x)
1: compr(\x.((x + 1) mod (1 + ((x - ((x + 1) mod 3)) mod (1 + (x div 2))))),x)
1: compr(\x.((x + 1) mod (1 + ((x2 div 2) mod (x + 2)))),(x div 3))
1: compr(\x.((x + 1) mod (1 + ((x div 2) mod (1 + (x mod (2 + (x div 5))))))),(x + 2))
1: compr(\x.((x + 1) mod (1 + ((x mod 5) mod (1 + (x div 4))))),x)
1: compr(\x.((x + 1) mod (1 + ((if x <= 0 then 1 else (2 - (loop(\(x,i).(2x + 2),x,0) mod (x + 1)))) mod 3))),x)
1: compr(\x.((x + 1) mod (1 + (loop(\(x,i).2x,x,x) mod (x + 2)))),x)
1: compr(\x.((x + 1) mod (1 + (x mod 9))),x)
1: compr(\x.((x + 1) mod (1 + (x mod (1 + (2 * ((1 + (x div 4)) div 2)))))),x)
1: compr(\x.((x + 1) mod (1 + (x mod (2 + (x div 4))))),x)
1: compr(\x.((x + 1) mod (1 + (x mod (1 + (x div (2 + (x div 8))))))),(x + 1))
1: compr(\x.((x + 1) mod (1 + (x mod (1 + (x div (2 + (x div 8))))))),x)
1: compr(\x.((x + 1) mod (1 + (x mod (2 + (x div (2 + (x mod 5))))))),x)
1: compr(\x.((x + 1) mod (1 + (x mod (1 + (x div (2 + (x mod (2 * (1 + (2 * (x mod 2))))))))))),x)
1: compr(\x.((x + 1) mod (1 + (x mod (1 + ((~x + 1) mod 8))))),x)
1: compr(\x.((x + 1) mod (1 + (x mod (2 + (loop(\(x,i).(x + (i * i)),x,0) mod (x + 2)))))),x)
1: compr(\x.((x + 1) mod (1 + (x mod (2 + (loop(\(x,i).x3,2,2x) mod (x + 1)))))),x)
1: compr(\x.((x + 1) mod (1 + (x mod (2 * (2 + ((x2 div 2) mod 6)))))),(x + 1))
1: compr(\x.((x + 1) mod (1 + (x mod (2 * (2 + (loop(\(x,i).(3x + 2),x,0) mod (x + 1))))))),x)
1: compr(\x.((x + 1) mod (1 + (x mod (3 * (1 + (x mod 4)))))),x)
1: compr(\x.((x + 1) mod (1 + (if ((x + ~1) mod 7) <= 0 then 2 else 1))),x)
1: compr(\x.((x + 1) mod (~1 + ((x2 + 2x) mod 9))),x)
1: compr(\x.((x + 1) mod (~1 + loop(\(x,i).2x,(1 + (x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))),1))),x)
1: compr(\x.((x + 1) mod (3 * (1 + (x mod 4)))),x)
1: compr(\x.((x + 1) mod (loop(\(x,i).(2x + 2),x,1) mod (x + 2))),x)
1: compr(\x.((x + 1) mod (loop(\(x,i).(~2x + 2),x,3) mod (x + 2))),x)
1: compr(\x.((x + 1) mod (if x <= 0 then 1 else (2 * (2 + (x mod (x - ((x + ~1) mod 8))))))),x)
1: compr(\x.((x + 2) mod (1 + (8 * (x mod 2)))),(x + 1))
1: compr(\x.((x + 2) mod (1 + (2 * ((x * (1 - ((x3 div 8) mod 2))) div 3)))),x)
1: compr(\x.((x + 2) mod (1 + (x div 4))),x)
1: compr(\x.((x + 2) mod (2 + (((x + ~1) div 2) mod 2))),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))
1: compr(\x.((x + 2) mod (2 + (x mod (1 + ((x + 1) div 5))))),x)
1: compr(\x.((x + 2) mod (2 - (x div (~1 - (x mod 3))))),x)
1: compr(\x.((0 - ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 2)) mod 3),x)
1: compr(\x.(((~x + 1) - loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),2,x)) mod 3),(x + 2))
1: compr(\x.((~x5 + 1) mod 11),x)
1: compr(\x.((1 - ((x + 2) mod 13)) mod (x + 1)),x)
1: compr(\x.((1 - ((x + 2) mod 11)) mod (x + 1)),x)
1: compr(\x.((1 - ((x + 2) mod 15)) mod (x + 1)),x)
1: compr(\x.((1 - ((x + 2) mod 12)) mod (x + 1)),x)
1: compr(\x.((1 - ((x + 2) mod 10)) mod (x + 1)),x)
1: compr(\x.((1 - ((x + 2) mod 14)) mod (x + 1)),x)
1: compr(\x.((1 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),x)) mod 5),(x + 1))
1: compr(\x.((~x + 1) mod (1 + ((1 + (((x + ~1) * (x + (x mod 2))) div 3)) mod 3))),x)
1: compr(\x.((~x + 1) mod (1 + ((1 + ((4x2 + 8x) div 3)) mod 3))),x)
1: compr(\x.((~x + 1) mod (1 + ((x div 2) mod (2 + (if (x mod 5) <= 0 then 2 else 0))))),x)
1: compr(\x.((~x + 1) mod (1 + (x mod (1 + ((2x + ~1) mod (1 + (x div 2))))))),x)
1: compr(\x.((~x + 1) mod (~1 + (6 * (if (~2 + (x div 3)) <= 0 then 0 else 2)))),x)
1: compr(\x.((2 - ((x + 3) mod 12)) mod (x + 1)),x)
1: compr(\x.(((~x + 1) - (x div 7)) mod 3),x)
1: compr(\x.(((~x + ~1) + (((2 + ((1 + ((3 * (x + (if (~2 + (x div 4)) <= 0 then 1 else 2))) div 2)) div 2)) div 2) div 2)) mod 3),x)
1: compr(\x.((14 - loop(\(x,i).(2x + 2),x,0)) mod (x + 1)),x)
1: compr(\x.((32 - loop(\(x,i).2x,x,1)) mod (x + 1)),x)
1: compr(\x.((x2 + ~1) mod (1 + (4 * (x mod 2)))),x)
1: compr(\x.((x2 + ~1) mod (1 + loop(\(x,i).(x2 + ~1),2,4))),x)
1: compr(\x.((x2 + ~1) mod loop(\(x,i).(x2 + x),2,4)),x)
1: compr(\x.((x2 + ~2) mod 113),x)
1: compr(\x.((x2 + ~2) mod 73),x)
1: compr(\x.((x2 + ~2) mod (~1 + loop(\(x,i).(x2 + 2x),2,2))),x)
1: compr(\x.((x2 + ~2) mod (~1 + loop(\(x,i).(x * (x + i)),2,3))),x)
1: compr(\x.((x2 + ~2) mod (~1 + loop(\(x,i).2x2,2,2))),x)
1: compr(\x.((x2 + ~2) mod loop(\(x,i).(1 + (x * i)),4,2)),x)
1: compr(\x.((x2 + ~2) mod loop(\(x,i).(2x2 + ~1),2,2)),x)
1: compr(\x.(((x div 2) - ((x - ((2x + 1) mod (2 + (x div 4)))) div 2)) mod 2),x)
1: compr(\x.(((x div 2) - (if (x mod 3) <= 0 then x else 1)) mod 2),x)
1: compr(\x.((~1 + loop(\(x,i).(2x2 + 1),2,8)) mod (x + 1)),x)
1: compr(\x.((~2 + loop(\(x,i).(x3 + 2),2,2)) mod (x + 1)),x)
1: compr(\x.((~2 + loop(\(x,i).(x2 + x),2,(12x + 6))) mod (x + 1)),x)
1: compr(\x.((~2 + loop(\(x,i).(x2 + 3x + 2),2,2)) mod (x + 1)),x)
1: compr(\x.((loop(\(x,i).(~2x + 4),(x div 2),2) - (x mod 2)) mod (x + 2)),x)
1: compr(\x.((~2 + loop(\(x,i).(6x2 + 12),2,(x + 1))) mod (x + 1)),x)
1: compr(\x.((~1 + loop(\(x,i).2x3,3,2)) mod (x + 1)),x)
1: compr(\x.((~1 + loop(\(x,i).x3,1,loop(\(x,i).4x2,2,4))) mod (x + 1)),x)
1: compr(\x.((~1 + loop(\(x,i).x3,1,loop(\(x,i).x2,2,10))) mod (x + 1)),x)
1: compr(\x.((~2 + loop(\(x,i).x3,2,2)) mod (x + 1)),x)
1: compr(\x.((loop(\(x,i).x3,2,2) - loop(\(x,i).2x,x,1)) mod (x + 1)),x)
1: compr(\x.((~1 + loop(\(x,i).x3,2,4)) mod (x + 1)),x)
1: compr(\x.((~1 + loop(\(x,i).x3,2,16)) mod (x + 1)),x)
1: compr(\x.((~1 + loop(\(x,i).2x,x,(if (x mod 7) <= 0 then 1 else 2))) mod (x + 2)),x)
1: compr(\x.((~1 + loop(\(x,i).2x,x,(if (x mod 13) <= 0 then 1 else 2))) mod (x + 2)),x)
1: compr(\x.((~1 + loop(\(x,i).2x,x,(if (x mod 11) <= 0 then 1 else 2))) mod (x + 2)),x)
1: compr(\x.((~1 + loop(\(x,i).x2,1,loop(\(x,i).2x2,3,2))) mod (x + 1)),x)
1: compr(\x.((~1 + loop(\(x,i).x2,2,8)) mod (x + 1)),x)
1: compr(\x.((loop(\(x,i).x2,2,8) - loop(\(x,i).2x,x,2)) mod (x + 1)),x)
1: compr(\x.((~1 + loop(\(x,i).x2,2,32)) mod (x + 1)),x)
1: compr(\x.((~1 + loop(\(x,i).x2,2,loop(\(x,i).2x2,2,2))) mod (x + 1)),x)
1: compr(\x.((~1 + loop(\(x,i).x2,3,8)) mod (x + 1)),x)
1: compr(\x.((~1 + loop(\(x,i).x2,3,10)) mod (x + 1)),x)
1: compr(\x.((~1 + loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + 1))) mod 3),x)
1: compr(\x.((x + ~1) mod (1 + ((x mod (2 + (x div 3))) div 2))),x)
1: compr(\x.((x + ~1) mod (x - ((x + 1) mod 13))),x)
1: compr(\x.((x + ~1) mod (x - ((x + 1) mod 15))),x)
1: compr(\x.((x + ~1) mod (x - ((x + 1) mod 14))),x)
1: compr(\x.((x + ~1) mod (x - ((x + 1) mod 16))),(x + 1))
1: compr(\x.(((x + ~1) + (2x2 mod 5)) mod 3),x)
1: compr(\x.(((x + ~1) + (x mod (1 + (x div (1 + (if (x mod 2) <= 0 then 6 else 1)))))) mod 8),x)
1: compr(\x.(((x + 1) - ((x + ~1) mod (1 + (x div (2 + ((x div 2) mod 3)))))) mod 2),x)
1: compr(\x.((x - ((1 - (2x div 3)) div (1 + (x div 5)))) mod 2),x)
1: compr(\x.((x - ((~x + (x div 3)) div 3)) mod 2),x)
1: compr(\x.((x - (2x div 15)) mod 2),(x + 1))
1: compr(\x.((x - (x div (1 + ((x + 2) mod 4)))) mod 2),x)
1: compr(\x.((x - (x div (~4 - ((x div 4) mod 2)))) mod 2),x)
1: compr(\x.((x - (x div ~14)) mod 4),x)
1: compr(\x.((x - ((4x + 1) mod 11)) mod 2),x)
1: compr(\x.((x - (2x mod 13)) mod 3),(x + 1))
1: compr(\x.((x - (x2 mod (x + 14))) mod 3),x)
1: compr(\x.((x - loop(\(x,i).(3x + 2),(((x + 1) div 2) - ((3 * (x div 4)) div 2)),1)) mod (x + 1)),x)
1: compr(\x.((x - loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x + 1))) mod 2),x)
1: compr(\x.((x * (2 + (x * (x mod 2)))) mod 9),x)
1: compr(\x.(((x + (x div 4)) * (x div ~4)) mod 2),x)
1: compr(\x.(((x + 1) * (1 + (x div 5))) mod 5),x)
1: compr(\x.(((x + 1) * (1 + (x div 7))) mod 7),x)
1: compr(\x.(((x + 1) * (1 + (x3 mod 13))) mod 3),x)
1: compr(\x.((x2 + x) mod loop(\(x,i).(10x + 4),2,1)),x)
1: compr(\x.((x * (2 - (x div 2))) mod (1 + ((x + ~1) mod 5))),x)
1: compr(\x.((x4 + ~x) mod 21),x)
1: compr(\x.((x4 + ~x) mod (~2 + loop(\(x,i).2x2,2,2))),x)
1: compr(\x.((x3 + ~x) mod loop(\(x,i).(x2 + 2x + 1),2,2)),x)
1: compr(\x.((x2 + ~x) mod loop(\(x,i).(x2 + 2x + 1),2,2)),x)
1: compr(\x.((3x2 + 3x) mod (x + 16)),x)
1: compr(\x.((8 * (x mod 4)) mod (1 + (x div 2))),x)
1: compr(\x.(4x mod (1 + ((1 + (x div 4)) div 2))),(x + 1))
1: compr(\x.(x3 mod (2 + (3 * (x mod 4)))),x)
1: compr(\x.(((x + ~1) * ((x2 + ~x) div 2)) mod 18),x)
1: compr(\x.(((x + 1) * (x div 2)) mod 4),(x + 2))
1: compr(\x.(((x + ~2) * (x div 2)) mod 8),x)
1: compr(\x.((x * (x div 3)) mod 3),(x + 1))
1: compr(\x.((x * (x mod 3)) mod 7),x)
1: compr(\x.(((x + 1) * (x mod 4)) mod 5),x)
1: compr(\x.((2 * (if x <= 0 then 1 else x)) mod loop(\(x,i).x2,2,(2 + (x mod 2)))),x)
1: compr(\x.(2x mod (1 + ((x div 2) div 3))),(x + 1))
1: compr(\x.(x2 mod (1 + ((2 * (1 + (((((1 + (x mod 8)) mod (x + 1)) * (1 + (x div 2))) div 2) div 2))) div 3))),x)
1: compr(\x.(x2 mod (x + 60)),(x + 1))
1: compr(\x.(((2 + (x * (x div 2))) div 5) mod 2),(x + 2))
1: compr(\x.(((x2 + 3) div (1 + (x div 3))) mod 2),x)
1: compr(\x.(((1 + ((x + (3 * (x2 div 3))) div 2)) div 2) mod 2),(x + 1))
1: compr(\x.(((x + ((x + loop(\(x,i).((~x + 2) + (3 * ((2 + (x div 2)) div 3))),2,x)) div 2)) div 3) mod 2),x)
1: compr(\x.(((2 + ((5 * (x + ((x + (x div 8)) div 2))) div 2)) div 2) mod 2),x)
1: compr(\x.(((1 + ((x * ((3x + ~1) - (2x mod (2 + (x div 4))))) div 2)) div 2) mod 2),x)
1: compr(\x.(((x + ((x div 2) div 3)) div 2) mod 2),(x + 1))
1: compr(\x.(((x + ((x div 2) div 7)) div 2) mod 2),(x + 1))
1: compr(\x.(((1 + (x div 2)) div 2) mod 2),((x * ((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2)) div 5))
1: compr(\x.(((2 + (x div (1 + ((x + ~1) mod (2 + (x div 4)))))) div 2) mod 2),x)
1: compr(\x.(((x + (x div 8)) div 2) mod 2),(x + 1))
1: compr(\x.(((2 + ((~4x + ~4) mod 17)) div 3) mod 2),x)
1: compr(\x.(((1 + (x mod ~9)) div (x + 1)) mod 2),x)
1: compr(\x.(((1 + (if (1 - (x mod (1 + ((x + ~1) mod 7)))) <= 0 then x else 0)) div 2) mod 4),(x + 1))
1: compr(\x.(((x + 1) div (1 + (2 * (((~x + 2) mod (3 + (x div 3))) mod 2)))) mod 2),x)
1: compr(\x.(((x + 1) div (2 + (2 * (if (~2 + (x div 3)) <= 0 then 1 else 2)))) mod 2),x)
1: compr(\x.(((x + 1) div (2 + (x mod 2))) mod 2),x)
1: compr(\x.((((~x + 2) - ((x + (x div 3)) div 5)) div 2) mod 2),x)
1: compr(\x.(((~x2 + 2) div (2 + ((((x + 1) div 2) div 2) div 2))) mod 2),x)
1: compr(\x.((((x + ~1) + (x mod 8)) div 3) mod 3),x)
1: compr(\x.(((x + ~1) div 2) mod 2),((1 + (((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((x + ~1) div 2))) div 2))
1: compr(\x.(((x + ~1) div (1 + (2 * (~x mod 5)))) mod 2),x)
1: compr(\x.(((x - (((~x + 2) + ((x div 2) div 3)) div 2)) div 2) mod 3),x)
1: compr(\x.(((x - (3x div ~7)) div 2) mod 4),x)
1: compr(\x.(((3 * (x + ((2x mod (2 + (x div 2))) mod 2))) div 2) mod 2),x)
1: compr(\x.(((x2 + 4x + 4) div 2) mod 9),x)
1: compr(\x.(((x2 + 2x) div 2) mod (1 + (x div 4))),(x + 1))
1: compr(\x.(((3 * (1 + compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x))) div 2) mod 2),x)
1: compr(\x.(((2 * (2 - (x mod ~5))) div (x + 1)) mod 2),x)
1: compr(\x.(((~x2 + 2x) div 3) mod 3),x)
1: compr(\x.(((x2 + ~x) div 8) mod 2),x)
1: compr(\x.(((x2 + ~2x) div 7) mod 2),x)
1: compr(\x.(((x * ((x + 1) - ((x div 2) mod 2))) div 5) mod 2),x)
1: compr(\x.((4x div (1 + (x div 4))) mod 2),(x + 1))
1: compr(\x.((2x2 div (x + 9)) mod 2),(x + 1))
1: compr(\x.(((((1 + (x div 2)) div 2) * (x div 2)) div 2) mod 3),x)
1: compr(\x.((((x2 div 3) * ((x + 1) div 2)) div 2) mod 2),x)
1: compr(\x.((((x + ~1) * ((((x + ~1) div 2) div 2) div 2)) div 2) mod 2),x)
1: compr(\x.((((x mod (1 + (x div 4))) * (1 + (x div 2))) div 2) mod 2),(x + 1))
1: compr(\x.((x2 div 2) mod 3),(2 + compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),x)))
1: compr(\x.((x2 div 2) mod (1 + ((1 + (x div 2)) div 3))),(x + 1))
1: compr(\x.((x2 div 3) mod 3),x)
1: compr(\x.((x2 div ~7) mod 2),x)
1: compr(\x.(((3 * compr(\x.(2 - (x mod (1 + (2 * (1 + (4 * (x mod 2))))))),x)) div 2) mod 2),x)
1: compr(\x.((((1 + loop(\(x,i).(x div (2 - ((x * (x div 2)) mod 2))),x,x)) div 2) div 2) mod 2),x)
1: compr(\x.((((x + ~1) div 2) div 2) mod 2),loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x))
1: compr(\x.(((((x + ~1) * (1 - (((x - ((x2 + ~x) div 4)) div 2) div 3))) div 2) div 2) mod 2),x)
1: compr(\x.(((((~x + 1) * (x div 3)) div 2) div 2) mod 2),(2x + 2))
1: compr(\x.(((x div 2) div (1 + (((x * (x div 2)) div 3) mod 3))) mod 2),x)
1: compr(\x.(((x5 mod 41) div 2) mod 2),x)
1: compr(\x.(((x2 mod 13) div 2) mod 2),x)
1: compr(\x.((((x2 div 5) mod (x + 1)) div 2) mod 2),x)
1: compr(\x.(((if (x mod (1 + ((x + 2) mod 4))) <= 0 then 1 else x) div (1 + (x div 4))) mod 2),x)
1: compr(\x.(((if x <= 0 then 2 else loop(\(x,i).((2x div (1 + i)) * (1 + (2 * i))),(x + ~1),1)) div 2) mod 2),x)
1: compr(\x.((loop(\(x,i).(x - (x div ~3)),x,1) div 2) mod 2),x)
1: compr(\x.((loop(\(x,i).((2x * (~1 + (2 * i))) div (1 + i)),(x + ~1),(x2 div 2)) div 5) mod 2),x)
1: compr(\x.((loop(\(x,i).(x div (2 - (x mod 2))),x,(~x + 1)) div 2) mod 2),(x + 1))
1: compr(\x.((loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2) mod 3),x)
1: compr(\x.((x div 2) mod 2),(1 + ((x - (x div (2 - ((x3 div 8) mod 2)))) div 2)))
1: compr(\x.((x div 2) mod 2),(1 + ((((x + 1) div 2) div 2) div 2)))
1: compr(\x.((x div 2) mod 2),(1 + ((x div 2) mod (1 + (x mod (1 + (7 mod (1 + (x div 2)))))))))
1: compr(\x.((x div 2) mod 2),(1 - ((((((x + ~2) * (x div 3)) mod (1 + (x div 2))) div 2) * ((~x + 2) div 2)) div 2)))
1: compr(\x.((x div 2) mod 2),(2 - ((~x + 2) div (2 - (x div ~4)))))
1: compr(\x.((x div 2) mod 2),((~2 + (x mod 2)) mod (~1 + ((~2x + 2) mod (4 + (x div 4))))))
1: compr(\x.((x div 2) mod 2),(if x <= 0 then 1 else ((1 + (x mod (1 + (2 * (if (x mod 2) <= 0 then 1 else (x div 4)))))) div 3)))
1: compr(\x.((x div 2) mod 2),loop(\(x,i).(x + (if x <= 0 then (1 + i) else 0)),x,(~x + 1)))
1: compr(\x.((x div 2) mod 3),(3 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: compr(\x.((x div 2) mod (1 + ((x2 + 2x) mod 6))),x)
1: compr(\x.((x div 4) mod 2),(1 + ((x mod (1 + (31 mod (x + 1)))) div 3)))
1: compr(\x.((x div 4) mod 2),(x div 3))
1: compr(\x.((x div 4) mod 2),i)
1: compr(\x.((x div (1 + (((x - (x div (4 + (x mod 2)))) mod 2) + (x mod 2)))) mod 2),x)
1: compr(\x.((x div 7) mod 2),(1 + (2 * (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))))
1: compr(\x.((x div (1 + (x2 mod 12))) mod 2),x)
1: compr(\x.((x div (2 + (x mod 2))) mod 2),(1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))
1: compr(\x.((x div (1 + (x mod 12))) mod 12),x)
1: compr(\x.((x div (1 + (if (x mod 2) <= 0 then 6 else 1))) mod 2),x)
1: compr(\x.((x div ~2) mod 2),(x + ((x div 2) div 5)))
1: compr(\x.((x div (~3 + (x mod 2))) mod 2),x)
1: compr(\x.((x div (2 * (~2 + ((x * (x div 2)) mod 2)))) mod 2),x)
1: compr(\x.((compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x) div 2) mod 2),(x + 1))
1: compr(\x.(((5x + (((~x + 1) div (2 + (x div 2))) + (x div 5))) mod (1 + (x div 2))) mod 2),x)
1: compr(\x.(((x + 3) mod (1 + ((x + 2) div 5))) mod 2),x)
1: compr(\x.(((1 + (x mod 7)) mod (x + 1)) mod 2),(x + 1))
1: compr(\x.(((x + 1) mod (1 + (2 * (2x mod (2 + (x div 3)))))) mod 2),(x + 1))
1: compr(\x.(((x + 1) mod (1 + (2 * (((1 + (x * (2 + (loop(\(x,i).(1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),2,x) mod (x + 1))))) div (x + 1)) mod 3)))) mod 2),x)
1: compr(\x.(((x + 1) mod (1 + (2 * (if (x mod 4) <= 0 then 2 else x)))) mod 2),x)
1: compr(\x.(((x + 1) mod (1 + ((x2 + ~x) mod 9))) mod 2),x)
1: compr(\x.(((2 - (x mod 4)) mod (1 + (x div 3))) mod 2),x)
1: compr(\x.(((x3 + ~1) mod 19) mod 2),x)
1: compr(\x.(((x2 + ~2) mod (x + 10)) mod 2),(x + 2))
1: compr(\x.((12 mod (x + 2)) mod 2),x)
1: compr(\x.((5x mod 33) mod 2),(x + 1))
1: compr(\x.((7x mod 17) mod 2),(x + 1))
1: compr(\x.(((~x2 + x) mod (2 + (x div 2))) mod 2),x)
1: compr(\x.((8x mod 13) mod 2),(x + 1))
1: compr(\x.((x2 mod (1 + (2 * (x + (x div 3))))) mod 2),x)
1: compr(\x.((x2 mod ~13) mod 2),x)
1: compr(\x.((x2 mod (~1 + (6 * (if (~2 + (x div 3)) <= 0 then 0 else 2)))) mod 2),x)
1: compr(\x.((((~x + 2) div 4) mod (2 + (x mod 3))) mod 2),x)
1: compr(\x.(((x div 2) mod (1 + (x div 5))) mod 2),(x + 1))
1: compr(\x.((((1 - (x mod 4)) mod (x + 1)) mod 3) mod 2),x)
1: compr(\x.((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) mod 8),x)
1: compr(\x.((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) mod 10),(x + 1))
1: compr(\x.((loop(\(x,i).(x * i),x,x) mod (x + 1)) mod 2),x)
1: compr(\x.((x mod (1 + (8 * (x mod 2)))) mod 2),x)
1: compr(\x.((x mod (1 + (2 * ((x - ((~x + 1) div 3)) mod 3)))) mod 2),x)
1: compr(\x.((x mod (1 + (6 mod (x + 1)))) mod 2),(x + 1))
1: compr(\x.((x mod (1 + (x mod (1 + (2 * (2 + (x mod 2))))))) mod 2),x)
1: compr(\x.((x mod (2 - (x mod ~8))) mod 2),(x + 1))
1: compr(\x.((x mod (~2 - (x mod 7))) mod 2),(x + 1))
1: compr(\x.((x mod (~2 + (((~x + 2) div 2) div 3))) mod 2),(x + 1))
1: compr(\x.((x mod (~2 + (((~x + 2) div 2) div 3))) mod 2),x)
1: compr(\x.((x mod (~8 + (x mod 2))) mod 2),x)
1: compr(\x.((x mod (x - ((x + 1) mod 8))) mod 2),x)
1: compr(\x.((x mod 6) mod (1 + (x div 3))),(x + 1))
1: compr(\x.((if ((x * (x div 2)) mod 2) <= 0 then (x div 3) else 1) mod 3),(x + 1))
1: compr(\x.((if (x mod 3) <= 0 then 1 else (loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2)) mod 2),x)
1: compr(\x.((if (x mod 9) <= 0 then 0 else (x + 1)) mod 10),x)
1: compr(\x.((if x <= 0 then 0 else (1 + ((2 * (1 + ((1 + loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 2 else 0))),x,2x)) div 3))) div 3))) mod 2),x)
1: compr(\x.((if x <= 0 then 1 else ((x + 1) mod (1 + (x div (2 + ((1 + (x div 2)) mod 3)))))) mod 2),x)
1: compr(\x.((if x <= 0 then 1 else loop(\(x,i).(x5 mod 9),x,x)) mod 2),x)
1: compr(\x.(loop(\(x,i).((x + 1) + (2 * (x div 4))),(x div 4),2) mod 3),x)
1: compr(\x.(loop(\(x,i).((x + 1) + (((x + ((x + ~1) mod 3)) mod 5) mod 2)),x,1) mod 2),x)
1: compr(\x.(loop(\(x,i).(2x + 17),x,0) mod (x + 1)),(x + 1))
1: compr(\x.(loop(\(x,i).(4x2 + x + 1),2,6) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(4x2 + x + 1),2,2x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x2 + 3),2,3x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(1 + ((x + 2) * (x + (x div 2)))),2,3) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(1 + (2 * (x + (i mod 2)))),x,0) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x2 + 2x + 1),2,16x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2 + (x * (x + i))),3,1) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(3x2 + ~2x + 1),2,2x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(3x2 + ~2x + 2),2,2x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(10x + 1),5,1) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2 + ((2x2 + x) * (4 + i))),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(10x2 + x),2,4) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(10x2 + x),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(3x2 + 1),2,2x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(3x2 + 2),2,2x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(3x2 + x),2,2x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x + ((x + loop(\(x,i).4x,i,1)) div (2x + 1))),(x + 1),1) mod 2),x)
1: compr(\x.(loop(\(x,i).(1 + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,2x)),2,x) mod (x + 2)),x)
1: compr(\x.(loop(\(x,i).(1 + loop(\(x,i).(x - (if (x mod (2 + i)) <= 0 then 2 else 1)),x,2x)),2,x) mod (x + 2)),x)
1: compr(\x.(loop(\(x,i).(~x3 + ~1),2,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(~x3 + ~1),2,4) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(~2x + ~32),(x + 1),0) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(~6x2 + 2x + ~4),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(~2x + 1),x,0) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(~2x + 1),x,1) mod (x + 2)),i)
1: compr(\x.(loop(\(x,i).(3x2 + ~x + 2),2,2x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(4x2 + x + ~1),2,2x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x3 + x + ~2),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(3x2 + ~2x + ~1),2,2x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x2 + ~2x + ~2),2,4x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x2 - (x div 2)),2,3) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x + ~1),x,x) mod (x + 3)),x)
1: compr(\x.(loop(\(x,i).(x2 + ~1),2,4x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x2 - (x div 2)),2,4x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).((x mod 2) - ((x2 + 6x + 9) div 2)),3,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).((x + 1) - ((~2x + 1) div 5)),2,x) mod 5),x)
1: compr(\x.(loop(\(x,i).(2x2 + ~3x),2,2x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(~11x2 + x),2,6x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(8x2 + ~3x),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(~2x2 + x),2,3x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(~3x2 + x),2,2x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(~4x2 + x),2,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(~x4 + x),2,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 2 else 1)),(x + 1),x) mod 3),x)
1: compr(\x.(loop(\(x,i).(i - (x * i)),6,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x2 + 5x),2,3) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x2 + 7x + 6),2,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x3 + 9x2),2,1) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x2 + 10x),2,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * ((x + 1) + (2 * i))),3,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x2 + 5x + 6),3,3) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x2 + 3x),2,3) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x + 8),x,0) mod (1 + (x div 3))),x)
1: compr(\x.(loop(\(x,i).(x * ((x + 1) + i)),2,3) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).((x + 1) * ((x + 2) + i)),2,3) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * (3x + i)),2,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * (2x + i)),2,3) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * (2x + i)),3,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * (2x + i)),4,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(~x2 + x + 6),3,0) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(~x2 + 3x),2,16) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(~x2 + 4x),2,3x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x + 16),x,0) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x2 + 10x + 16),2,9) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(5x2 + 6x + 1),3,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(~5x2 + 9x + 2),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * (1 + (2 * (5x + (x div 2))))),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(7x2 + 28x + 7),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(15x2 + 33x + 9),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(14x2 + 6x + 4),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(8x2 + 2x + 2),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(4x2 + 2x + 2),2,2x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x2 + 5x + 3),2,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x2 + 5x),2,12) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x2 + 5x),4,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(3x2 + 7x + 4),2,1) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(5x2 + 20x + 30),2,0) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(5x2 + 10x + 5),2,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x2 + 4x + 4),2,4x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * (1 + (x * (2 + i)))),2,2x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).((x + 1) * (1 + (x * (x + i)))),2,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(5 * (2 + (x * (x + i)))),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(5 * (2 + (x * (x - i)))),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(9x2 + 2x),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x + 32),(x + 1),0) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(4x3 + 6x2 + 3x + 1),2,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(8x2 + 18),2,3) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(12x2 + 24x + 3),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * (1 + (3x * (2 + i)))),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(24x2 + 20x + 2),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(8x2 + 17x),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(96x2 + x),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(16x2 + 10x + 1),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * (8x + i)),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * (1 + (4x * (1 + i)))),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(6x2 + 14x + 4),2,8x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(4x2 + 4x + 2),2,2x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * (2x2 + i)),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(6x2 + 4),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2 * ((3x2 + 1) + i)),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(4x3 + x),2,4) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2 * (4x2 + i)),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * (1 + (x2 * (1 + i)))),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x5 + x),1,3x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x6 + 2x2),1,(~x + 2)) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(3x3 + 3),2,10) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x3 + 4),2,3) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * (2 + ((x2 + x) * i))),2,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2 * (2 + (x2 * i))),2,2x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).((x + 1) * (2 + ((x + 1) * loop(\(x,i).(2x2 + x),2,2)))),2,3) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * (2 + (x * loop(\(x,i).(2x2 + x),2,2)))),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x2 + 3x + 1),2,4x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(~2x2 + 3x + 2),2,2x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x2 + x),1,(loop(\(x,i).(2x + 2),x,0) mod (x + 1))) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x2 + x),2,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x2 + x),2,3x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(3x2 + 3),2,2x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x3 + x),1,(~x2 + 3x + ~2)) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x3 + x),2,20) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(3x2 + 6),2,2x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x3 + 2x),2,2x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x3 + 2x2 + 3x + 6),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x3 + 3x),2,(x + ~2)) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x2 + 8),2,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * ((x2 + 2) + i)),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * (x2 + i)),2,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * (1 + (2 * i))),4,1) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * (1 + (x * i))),2,3) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * (2 + (x * i))),4,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * (x + (i * i))),4,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).((x + 2) * (x + (x div 2))),2,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).((x + 2) * (x + (x div 2))),2,3) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * (1 + (i div 2))),x,1) mod (x + 1)),i)
1: compr(\x.(loop(\(x,i).(x * (2x + (i mod 2))),2,3) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * (1 + (if (x mod (1 + i)) <= 0 then 0 else i))),(x div 2),1) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * (1 + (if (x mod (1 + i)) <= 0 then 0 else i))),x,1) mod (x + 2)),x)
1: compr(\x.(loop(\(x,i).(x * (1 + loop(\(x,i).10x,(1 + i),x))),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x + 2),36,0) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x + 2),x,0) mod (x + 1)),loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1)))
1: compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (2 + loop(\(x,i).(x div (2 - (x mod 2))),x,x))),x)
1: compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),((x + 1) div 2))
1: compr(\x.(loop(\(x,i).(2x + 2),x,8) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x + 2),x,(4 * (x mod 2))) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x + 2),x,(x div (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))) mod (x + 1)),(x + 1))
1: compr(\x.(loop(\(x,i).(2x + 2),x,(loop(\(x,i).(2 * (x - i)),x,2) mod (x + 1))) mod (x + 1)),(x + 1))
1: compr(\x.(loop(\(x,i).(2x + 2),x,(if ((x + 2) mod 5) <= 0 then 1 else 0)) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x + 2),x,(if (x mod 7) <= 0 then 1 else 0)) mod (x + 1)),(x + 1))
1: compr(\x.(loop(\(x,i).(2x + 2),x,(if (x mod 9) <= 0 then 1 else 0)) mod (x + 1)),(x + 1))
1: compr(\x.(loop(\(x,i).(2x + 2),x,(if (x mod 8) <= 0 then 1 else 0)) mod (x + 1)),(x + 1))
1: compr(\x.(loop(\(x,i).(x2 + x),1,(1 - (loop(\(x,i).(2x + 1),2x,2) mod (x + 1)))) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x2 + x),1,(~1 + (loop(\(x,i).(2x + 2),x,2) mod loop(\(x,i).(x div (2 - (x mod 2))),x,(x + 1))))) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x2 + x),1,(loop(\(x,i).(2 * (x - i)),x,2) mod (x + 1))) mod (x + 1)),(x + 1))
1: compr(\x.(loop(\(x,i).(x2 + x),1,(loop(\(x,i).(2 * (x - i)),x,2) mod (x + 1))) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x2 + x),2,4) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x2 + x),2,5) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x2 + x),2,17) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x2 + x),2,8) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x2 + x),4,10) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x + 4),((x + 1) mod 8),0) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x2 + 3x + 2),2,3) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x2 + 2x),2,3) mod (x + 1)),(x div 2))
1: compr(\x.(loop(\(x,i).(x2 + 2x),2,4) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x2 + 2x),2,(~1 + (x mod (9 + (x mod 2))))) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x2 + 2x),2,6) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x2 + 2x),2,(~3x + 6)) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x2 + 2x),2,(6 * (1 + (2 * (x mod 2))))) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x2 + 2x),3,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x2 + 2x),3,(6 * (x div 5))) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).((x + 2) * i),8,1) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * (1 + i)),4,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * (1 + i)),(2 - (x div ~4)),1) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * (2 + i)),4,1) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * (2 + i)),4,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).((x + 1) * (x + i)),2,4) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x * (x + i)),2,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x * (x + i)),2,4) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * (x + i)),2,3) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * (x + i)),2,4) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * (x + i)),2,5) mod (x + 1)),(x + 2))
1: compr(\x.(loop(\(x,i).(x * (x + i)),3,3) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(~x3 + ~6x2 + ~8x),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(~2x3 + ~2x2 + ~2x + ~2),2,1) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * (1 - (x * (1 + (2 * i))))),2,2x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(~8x2 + x),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * (1 - (4x * (1 + i)))),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(~4x2 + ~3x + 1),2,2x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(~x3 + ~x2 + x + 1),2,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(~2x + 2),x,0) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(~2x + 2),x,0) mod (x + 1)),i)
1: compr(\x.(loop(\(x,i).(~2x + 2),x,1) mod (if x <= 0 then 1 else 2x)),x)
1: compr(\x.(loop(\(x,i).(~x2 + x),3,(x + ~2)) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(11x2 + 2x),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(6x2 + ~2x + 4),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * (2 - (x * (1 + (2 * (1 + i)))))),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(~2x + 4),(1 + loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x)),1) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(~2x + 4),x,1) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(~2x + 4),x,2) mod (if x <= 0 then 1 else x)),x)
1: compr(\x.(loop(\(x,i).(~x2 + 3x + ~2),2,4x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).((~x + 2) * i),6,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * (4 - (x * (4 + i)))),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(~6x2 + 5x + ~1),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(~11x2 + ~2x),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(6x2 + ~5x + 1),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(3x2 + 4x + ~4),2,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(3x2 + ~2x),2,2x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(3x2 + ~2x),(2 + (x mod 2)),2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(5x2 + ~x),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * (~1 + (x * (2 + (3 * i))))),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * (~2 + (x * (2 + (5 * i))))),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * (~1 + (x * (2 + i)))),2,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(~x4 + x3 + ~x2),2,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(9x2 + ~x),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(8x2 + 15x + 7),2,2x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * (~1 + (5x * i))),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * (~1 + (2x * (1 + (2 * i))))),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(6x2 + 6x + ~2),2,2x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(8x2 + ~x),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * (~1 + (4x * (1 + i)))),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(4x2 + ~x),2,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(4x2 + ~2),2,2x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(6x2 + ~2x),2,4) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(12x2 + ~3),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(4x3 + ~x),2,6) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x2 + 3x + ~2),3,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(~2x2 + 5x + ~2),2,2x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x2 + ~x),1,(1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1))) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x2 + ~x),2,(~2x + 1)) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x2 + ~x),2,3x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x2 + ~4),2,3x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x3 + ~2x),2,2x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * (~1 + (x * i))),3,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x2 + ~x),2,6) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x2 + ~x),2,(~x2 + 2x)) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x2 + ~x),2,4x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).((x + ~1) * i),8,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x2 + ~3x + 2),2,4x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x2 + ~2x),2,6) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x2 + ~2x),2,(~x2 + 2x)) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x3 + ~3x2),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * ((x + 2) - i)),3,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(3x2 + ~4x),2,5) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(3x2 + ~4x),2,(~2x + 1)) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(5x2 + ~8x),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(~7x2 + 2x),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(~4x2 + 2x),2,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(~4x3 + 4x2 + ~x),2,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(~8x2 + 2x),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).((x + 2) * (x - i)),2,5) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * (x - i)),2,4) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * (x - i)),2,6) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * (x - i)),3,3) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * (x - i)),3,8) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * ((6x + ~6) + i)),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(4x2 + 8x + 4),2,8x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(8x2 + ~4x + ~4),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x2 + 10x),2,1) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).((3x + 3) * ((x + 2) + (x div 2))),2,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x2 + 6x),2,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(3x2 + 9x),2,1) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x2 + 12x + 16),2,(x2 + 2x)) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x2 + 8x),2,1) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(5x2 + 20x),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(10x2 + 2x),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x2 * (1 + (2 * (3 + i)))),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(80x2 + 8x + 4),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(120x2 + 12x + 6),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(14x2 + 6x),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(6x2 + 6x + 12),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x2 * ((2 * (2 + i)) + i)),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(12x2 + ~20),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(18x2 + 18x + 6),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(10x2 + 36x + 32),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(4 * (1 + ((x2 + 2x) * (2 + i)))),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(4 * (1 + ((3x + 6) * (x + i)))),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(48x2 + 96x + 4),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(40x2 + 5x),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(6 * (8x2 + (x mod 3))),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x7 + x6 + 2x2 + x),1,2x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(24x2 + 16x + 2),2,2x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x7 + x5 + x3 + x),1,2x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x5 + 4x),1,3x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(6x3 + 6),2,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(4 * (1 + (x2 * i))),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(10x2 + 10),2,(x + 1)) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x3 + 2x),2,6) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x3 + 2x),2,2x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x4 + x2),2,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(4x2 + 8),2,0) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(4x2 + 8),2,(2x + 1)) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x3 + 4x),2,1) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x4 + 3x2),2,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x3 + 2x2 + 8x + 8),2,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(6 * (x2 + i)),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).((2x2 + ~x) * (1 + (2 * i))),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(20 * (x + (x div 2))),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(12 * (x + (x div 4))),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x * (2 + ((x + ~1) mod 3))),3,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x3 + 4x2 + 3x),2,1) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x3 + 3x2 + x),2,1) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x3 + 2x2 + x),2,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(4x + 8),4,0) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(4x + 8),4,1) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x2 + 8x + 8),2,1) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(3x2 + 12x + 12),2,0) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).((x2 + 4x + 4) * (1 + i)),2,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x2 + 4x),2,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x2 + 4x),5,1) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(4x2 + 8x),2,1) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).((x2 + 2x) * (2 + i)),2,1) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x3 + x2 + ~2x),2,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x3 + x2 + ~2x),3,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).((x2 + x) * (1 + i)),2,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).((x2 + x) * (1 + i)),2,3) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).((2x + 2) * (x + i)),2,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).((x2 + 2x + 1) * (x + i)),2,1) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).((3x + 6) * (x + i)),2,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).((5x + 10) * (x + i)),2,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x2 * (x + i)),2,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).((x + 1) * ((x + i) * i)),2,3) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(~6x2 + ~9x + 6),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(~4x2 + ~4x + 8),2,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(~2x3 + ~2x2 + 4x),2,3) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(~5x2 + 5x),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(~x3 + 2x2 + ~x),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(~10x2 + 20),2,1) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).((x2 + x) * (2 - (x mod 2))),2,(1 + (x div 2))) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(~2x2 + 2x + 4),2,3x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(~4x2 + 16),2,0) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(~x3 + 4x2 + ~5x + 2),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x * ((x + ~1) + i)),2,3) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x2 * (~1 + (4 * (1 + i)))),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(4x2 + 20x + ~8),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x2 * (~1 + (3 * (2 + i)))),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(18x2 + 306x + 282),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(18x2 + 18x + ~6),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(12x2 + 12x + ~8),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(30x2 + 30x + ~6),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(8x2 + 16x + ~4),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(4x3 + 3x2 + ~x),2,1) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(12x2 + ~6),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x5 + ~x3),1,3x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(12x2 + ~4),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(18x2 + ~12),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(4x2 + ~2x),2,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(4x2 + ~4),2,2x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(9x2 + ~18),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(6x2 + ~18),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(5x * (~1 + (x * i))),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(3x2 + ~3x),2,3) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x3 + ~3x2 + x),2,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x2 + ~6x + 4),2,2x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(5x2 + ~10x),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x4 + ~2x3),1,5x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(~8x2 + ~28x + ~32),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).((2x + ~2) * (x - i)),2,2x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x2 * (x - i)),2,5) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).((x2 + ~2x) * (~x + i)),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(12x2 + ~24x + 12),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(4x2 + 16x + 12),2,1) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(8 * (1 + ((x + 2) * (x + i)))),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x5 + 4x3),1,3x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(4x * (2x + (x div 2))),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(12x + 24),2,3) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(~24x2 + 24x + ~6),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(16x2 + ~8),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(18 * (~1 + ((x + 1) * loop(\(x,i).x2,2,4)))),2,5) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(24x2 + ~24x + 6),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(12 * (2x - (x mod 4))),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(24 * (1 + (((x + 1) * (1 + ((x + 1) * loop(\(x,i).x2,2,3)))) div 3))),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x5 + ~x4),1,3x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(4x2 + 4x),2,1) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(4x3 + 2x2),2,3) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x3 + ~2x2),2,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(8x3 + 12x2),2,3) mod (x + 1)),(x + 1))
1: compr(\x.(loop(\(x,i).(2x3 + 4x2),2,5) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(3x3 + 6x2),2,5) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x5 + 2x3),2,3) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).((x3 + ~2x2) * i),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).4x,1,(~1 + loop(\(x,i).~4x,x,1))) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x2 + 2x),2,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).2x2,2,3) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).2x2,(1 + (x mod 2)),5) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x3 + x2),2,48) mod (x + 2)),x)
1: compr(\x.(loop(\(x,i).(x3 + x2),2,2x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x3 + x2),3,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x3 + 2x2),3,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x3 + ~x2),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x3 + ~2x2),2,7) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).x3,1,(1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1))) mod (x + 1)),(x + 1))
1: compr(\x.(loop(\(x,i).x3,1,(1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1))) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).x3,1,6) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).x3,2,(3 + (x mod 2))) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).x3,2,55) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).x3,2,65) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).x3,2,39) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(2x * i),4,1) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(3 * (x2 div 2)),2,(~x + 3)) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).((x + ~2) * (x2 div 2)),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * (x2 div 2)),2,(x + ~8)) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * loop(\(x,i).3x,3,(x2 + x + 2))),2,1) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).2x,x,1) mod (if (x mod 3) <= 0 then 2 else x)),x)
1: compr(\x.(loop(\(x,i).2x,x,(~x + 2)) mod (1 + (x div 2))),(x + 1))
1: compr(\x.(loop(\(x,i).x2,1,(loop(\(x,i).2x,x,2) - (x mod 2))) mod (x + 2)),x)
1: compr(\x.(loop(\(x,i).x2,1,loop(\(x,i).(x2 + ~x),1,loop(\(x,i).2x,(x mod 4),x))) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).x2,2,(1 + loop(\(x,i).(2x * i),4,1))) mod (x + 2)),x)
1: compr(\x.(loop(\(x,i).x2,2,((4 * (x mod 2)) - (x mod 3))) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).x2,2,(~2 + loop(\(x,i).(1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),2,x))) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).x2,2,6) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).x2,2,(3 * (1 + (x div 2)))) mod (x + 2)),x)
1: compr(\x.(loop(\(x,i).x2,2,(2 * (2 + (x2 mod 3)))) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).x2,2,(3 * (x div (~2 + (x mod ~2))))) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).x2,2,(3 * (if (x mod (2 + (x mod 2))) <= 0 then 2 else 0))) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x * i),(1 + (x mod (1 + (x div 3)))),1) mod (x + 1)),(x + 1))
1: compr(\x.(loop(\(x,i).((x3 + x) div 2),2,(x + ~1)) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).((x2 + x) div 2),5,2) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).((~x3 + x) div 2),2,3) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).((x3 + ~x2) div 2),2,(x + ~1)) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(((x + ~2) * ((x2 + 2x) div 2)) div 2),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).(x div 2),x,loop(\(x,i).(3x + 2),x,0)) mod 2),x)
1: compr(\x.(loop(\(x,i).(x div (1 + (x mod 2))),x,x) mod 5),x)
1: compr(\x.(loop(\(x,i).loop(\(x,i).(10x + 1),x,1),2,1) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).loop(\(x,i).(x * (x + i)),2,(x + 2)),2,0) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).loop(\(x,i).x2,1,(~3x + 3)),2,x) mod (x + 1)),x)
1: compr(\x.(loop(\(x,i).i,(loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2),1) mod 2),x)
1: compr(\x.(x mod 2),(1 + compr(\x.(1 - ((2 * (2 + (if x <= 0 then 1 else (2 * (1 + ((loop(\(x,i).(2x + 1),x,(2 * (x mod 2))) mod (x + 1)) div 2)))))) mod 3)),x)))
1: compr(\x.(x mod (4 - (x mod 4))),x)
1: compr(\x.(x mod (1 + ((2 + (x div 4)) * ((x + ~1) mod 3)))),x)
1: compr(\x.(x mod (1 + (2 * (1 + (x mod 3))))),x)
1: compr(\x.(x mod (1 + (8 * (x mod 2)))),(x + 1))
1: compr(\x.(x mod (1 + (4 * (2x mod (1 + (2 * (if (x mod 3) <= 0 then 0 else 2))))))),(x + 1))
1: compr(\x.(x mod (1 + (6 * (x mod 2)))),x)
1: compr(\x.(x mod (1 + (6 * (if (x mod 3) <= 0 then 0 else 2)))),(x + 1))
1: compr(\x.(x mod (1 + (4 * (if (x mod 4) <= 0 then 0 else 2)))),(x + 1))
1: compr(\x.(x mod (1 + (2 * (((~x + 17) mod (1 + (x div 3))) div 2)))),x)
1: compr(\x.(x mod (1 + (2 * (x div 4)))),(1 + (((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3)))
1: compr(\x.(x mod (1 + (2 * (x div (3 * (if (x mod 2) <= 0 then 4 else 1)))))),(x + 1))
1: compr(\x.(x mod (1 + (2 * ((x2 div 2) mod 3)))),x)
1: compr(\x.(x mod (1 + (2 * (((x2 + ~2) mod (x + 6)) mod 3)))),x)
1: compr(\x.(x mod (1 + (2 * (x mod (1 + (x div 8)))))),(x + 1))
1: compr(\x.(x mod (1 + (2 * (x mod (2 + (x mod 2)))))),x)
1: compr(\x.(x mod (1 + (2 * (x mod loop(\(x,i).(1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),2,x))))),(x + 1))
1: compr(\x.(x mod (1 + (2 * (x mod loop(\(x,i).(1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),2,x))))),x)
1: compr(\x.(x mod (2 + ((x * (x mod 2)) div 5))),(x + 1))
1: compr(\x.(x mod (1 + ((~x mod (2 + (x div 3))) div 2))),x)
1: compr(\x.(x mod (1 + (((3 * (x + (x div 4))) mod (1 + (x div 2))) div 2))),x)
1: compr(\x.(x mod (1 + ((x mod (1 + (2 * (if (x mod 3) <= 0 then 0 else 2)))) div 2))),(x + 1))
1: compr(\x.(x mod (1 + ((x mod ((x + 1) - (x mod 10))) div 2))),(x + 1))
1: compr(\x.(x mod (1 + ((x + 5) mod (1 + (x div 3))))),x)
1: compr(\x.(x mod (1 + ((1 + (x mod (2 + (x div (1 + (loop(\(x,i).(2x + 1),x,0) mod (x + 1))))))) mod (x + 1)))),x)
1: compr(\x.(x mod (1 + ((x + loop(\(x,i).2x,(x div (2 + (x mod (2 + (x mod 2))))),1)) mod (x + 1)))),(x + 1))
1: compr(\x.(x mod (1 + ((x + 1) mod (2 * (1 + (x div 8)))))),x)
1: compr(\x.(x mod (1 + ((x + 2) mod (1 + (x div (2 + (x div 4))))))),x)
1: compr(\x.(x mod (1 + ((0 - ((x + 1) mod 8)) mod (x + 1)))),(x + 1))
1: compr(\x.(x mod (1 + ((~1 + loop(\(x,i).(2 * (x - (i mod 2))),x,(2x + 1))) mod (x + 1)))),x)
1: compr(\x.(x mod (1 + ((x + ~1) mod (2 + (3 * (x mod 3)))))),x)
1: compr(\x.(x mod (1 + ((x - (x2 div (x + 5))) mod 3))),(x + 1))
1: compr(\x.(x mod (1 + ((x3 + 4x2) mod 9))),x)
1: compr(\x.(x mod (1 + ((6 * (x mod 2)) mod (x + 1)))),x)
1: compr(\x.(x mod (2 + ((x * (x div 2)) mod 2))),(x + 3))
1: compr(\x.(x mod (2 + ((x * (x div 2)) mod 2))),(x + 1))
1: compr(\x.(x mod (2 + ((x * (x div 2)) mod 2))),x)
1: compr(\x.(x mod (2 + ((x * (x div 4)) mod 2))),(x + 1))
1: compr(\x.(x mod (1 + (loop(\(x,i).(2x + 8),x,1) mod (x + 1)))),(x + 1))
1: compr(\x.(x mod (1 + (loop(\(x,i).2x,x,(x + ~1)) mod (x + 1)))),x)
1: compr(\x.(x mod (1 + (loop(\(x,i).2x,x,x) mod (x + 1)))),x)
1: compr(\x.(x mod (1 + (x mod ((x + 1) - (x mod 8))))),x)
1: compr(\x.(x mod (1 + (x mod ((x + 1) - (x mod 10))))),(x + 1))
1: compr(\x.(x mod (2 + (if (x mod 2) <= 0 then 1 else (x div 12)))),x)
1: compr(\x.(x mod (1 + (if (x mod 9) <= 0 then 0 else 6))),(x + 1))
1: compr(\x.(x mod (~3 + (2x mod (4 + (x div 2))))),x)
1: compr(\x.(x mod ((x + 1) - (x mod 8))),x)
1: compr(\x.(x mod (x - (64 div (x + 1)))),x)
1: compr(\x.(x mod (x - ((x + ~1) mod 8))),(10 - (x mod 3)))
1: compr(\x.(x mod (x - ((x + ~1) mod 8))),x)
1: compr(\x.(x mod (if (x mod (1 + (2 * (x mod 3)))) <= 0 then 2 else 1)),x)
1: compr(\x.(if (x div 4) <= 0 then 0 else ((x - (x div 4)) mod 4)),x)
1: compr(\x.(if ((x + 2) mod 4) <= 0 then 1 else loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)),x)
1: compr(\x.(if ((x + 2) mod 4) <= 0 then 1 else loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x)),x)
1: compr(\x.(if ((x + 2) mod 8) <= 0 then 0 else (x mod 3)),x)
1: compr(\x.(if ((x div 2) mod 2) <= 0 then 1 else ((x + ~1) - loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x))),x)
1: compr(\x.(if (x mod 2) <= 0 then 1 else (1 - (x mod (1 + (4 * (x mod (1 + (2 * (if (x mod 3) <= 0 then 0 else 2))))))))),x)
1: compr(\x.(if (x mod 2) <= 0 then 1 else (2 - ((1 + (((1 + loop(\(x,i).((x * (x mod 2)) + (x div 2)),x,x)) div 2) div 2)) div 2))),x)
1: compr(\x.(if (x mod 2) <= 0 then 1 else ((x * (x mod 3)) mod 5)),x)
1: compr(\x.(if (x mod 2) <= 0 then 2 else (((x + ~1) mod (3 + (x div (1 + (x mod 4))))) mod 2)),x)
1: compr(\x.(if (x mod 2) <= 0 then (~1 + (2x mod (4 + (x div 2)))) else 0),(x + 1))
1: compr(\x.(if (x mod 2) <= 0 then ((2 + (x div 4)) mod 4) else 0),x)
1: compr(\x.(if (x mod 2) <= 0 then ((x + 1) mod (2 + (x div 4))) else 0),x)
1: compr(\x.(if (x mod 2) <= 0 then (2x mod (4 + (x div 2))) else 0),x)
1: compr(\x.(if (x mod 2) <= 0 then ((x2 div 3) mod 3) else 0),x)
1: compr(\x.(if (x mod 2) <= 0 then (if x <= 0 then 1 else (x2 mod (x + 6))) else 0),x)
1: compr(\x.(if (x mod 4) <= 0 then 1 else ((((x2 + (x div 2)) div 2) div 2) mod 2)),x)
1: compr(\x.(if (x mod 4) <= 0 then 1 else loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x)),x)
1: compr(\x.(if (x mod (4 + (x2 mod 3))) <= 0 then x else 0),x)
1: compr(\x.(if loop(\(x,i).((if x <= 0 then 2 else loop(\(x,i).(x div (2 - (x mod 2))),x,x)) div 2),2,x) <= 0 then x else 0),x)
1: compr(\x.(if x <= 0 then 0 else (1 - (x mod (1 + ((~x2 + 2x + ~1) mod 8))))),x)
1: compr(\x.(if x <= 0 then 1 else (~2 + (loop(\(x,i).2x,x,(if (x mod 3) <= 0 then 0 else 2)) mod (x + 1)))),x)
1: compr(\x.(if x <= 0 then 1 else (~1 + (x mod (4 + (x div 3))))),(((2 - (2x mod (4 + (x div 4)))) mod (x + 1)) div 3))
1: compr(\x.(if x <= 0 then 1 else (2 * (x mod (1 + (x div (1 + (2 * (1 + (2x mod 7))))))))),x)
1: compr(\x.(if x <= 0 then 1 else ((2x * (x div 7)) mod 7)),x)
1: compr(\x.(if x <= 0 then 1 else (x mod (1 + ((1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)) div 3)))),x)
1: compr(\x.(if x <= 0 then 1 else loop(\(x,i).(x - (if x <= 0 then 1 else (x - loop(\(x,i).(if x <= 0 then 1 else loop(\(x,i).(x - (if x <= 0 then 1 else (x - (if x <= 0 then 1 else ((2x * (~1 + (2 * i))) div (2 + i)))))),1,x)),2,x)))),x,x)),x)
1: compr(\x.(if x <= 0 then 1 else loop(\(x,i).((if x <= 0 then 2 else loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 2),x,x)),2x)
1: compr(\x.(if x <= 0 then 1 else loop(\(x,i).(loop(\(x,i).(2x + 1),x,0) mod (x + 1)),x,(x + ~1))),(x + 1))
1: compr(\x.(if x <= 0 then 1 else loop(\(x,i).(loop(\(x,i).(2x + 1),x,0) mod (x + 1)),x,(x + ~1))),x)
1: compr(\x.(if x <= 0 then 1 else loop(\(x,i).(if ((x + 1) mod 8) <= 0 then x else (x div 2)),x,x)),2x)
1: compr(\x.loop(\(x,i).(0 - (if (x mod (1 + i)) <= 0 then 1 else x)),(x + ~2),x),x)
1: compr(\x.loop(\(x,i).(~x + 1),x,(if x <= 0 then 1 else (~2 + (if x <= 0 then 2 else (loop(\(x,i).(1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),2,x) mod (x + 1)))))),x)
1: compr(\x.loop(\(x,i).(2 - loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(4x + 1))),1,6x),x)
1: compr(\x.loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),2,x),x)
1: compr(\x.loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),3,x),x)
1: compr(\x.loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(5x + 2)),x)
1: compr(\x.loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(7x + 6)),x)
1: compr(\x.loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(8x + 1)),x)
1: compr(\x.loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(4x + 1)),x)
1: compr(\x.loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(6x + 1)),x)
1: compr(\x.loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(6x + 2)),x)
1: compr(\x.loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x + 1)),x)
1: compr(\x.loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(5x + ~1)),x)
1: compr(\x.loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(9x + ~1)),x)
1: compr(\x.loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(6x + ~1)),x)
1: compr(\x.loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(2x2 + ~1)),(x + 2))
1: compr(\x.loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,7x),(x + 1))
1: compr(\x.loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(6x + 4)),x)
1: compr(\x.loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(4x + 2)),x)
1: compr(\x.loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,(12x + 8)),x)
1: compr(\x.loop(\(x,i).(~1 + (if (x mod (1 + (2 * i))) <= 0 then 0 else x)),x,8x),(x + 1))
1: compr(\x.loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),(x div 2),(x + (x mod 2))),x)
1: compr(\x.loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,(4x + 4)),x)
1: compr(\x.loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,(2x + 12)),x)
1: compr(\x.loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,(2 * ((x + 1) + (x div 2)))),x)
1: compr(\x.loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,(6x + 4)),x)
1: compr(\x.loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,10x),(x + 1))
1: compr(\x.loop(\(x,i).(~1 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,8x),(x + 1))
1: compr(\x.loop(\(x,i).(~2 + (if (x mod (2 + i)) <= 0 then 0 else x)),x,(2x + 1)),x)
1: compr(\x.loop(\(x,i).(~1 + loop(\(x,i).(x div (~2 + (x mod 2))),x,x)),(x mod 2),(x div 2)),x)
1: compr(\x.loop(\(x,i).(~1 + loop(\(x,i).(x3 mod 37),2,x)),1,x2),x)
1: compr(\x.loop(\(x,i).(x - ((if x <= 0 then (x + ~1) else (x * i)) div 5)),(x + ~2),x),x)
1: compr(\x.loop(\(x,i).(x - (if ((x + 5) mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x)
1: compr(\x.loop(\(x,i).(x - (if ((x + 4) mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x)
1: compr(\x.loop(\(x,i).(x - (if ((x + 2) mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),x)
1: compr(\x.loop(\(x,i).(x - (if ((x + 2) mod (2 + i)) <= 0 then 0 else 1)),x,x),x)
1: compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),(x + 5))
1: compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),(x + 6))
1: compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),(x + 4))
1: compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),(5x + 1))
1: compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),(5x + 2))
1: compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),(7x + 1))
1: compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),(8x + 1))
1: compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),7x)
1: compr(\x.loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),8x)
1: compr(\x.loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 2 else 1)),x,(x + 2)),x)
1: compr(\x.loop(\(x,i).(x - loop(\(x,i).(x - (x div (1 + (if (x mod 2) <= 0 then (if (~1 + (x mod 3)) <= 0 then x else 2) else 1)))),x,x)),2,x),x)
1: compr(\x.loop(\(x,i).(x - i),(x mod 10),x),(x + 1))
1: compr(\x.loop(\(x,i).(2x + 2),1,(1 - (x mod (2 * (1 + (x mod (2 * (2 + ((x + ~1) mod 3))))))))),(x + 1))
1: compr(\x.loop(\(x,i).(x2 + x),1,(2 - (3 * ((1 + (((1 + loop(\(x,i).((x * (x mod 2)) + (x div 2)),x,x)) div 2) div 2)) div 2)))),x)
1: compr(\x.loop(\(x,i).((x + 1) * (x mod (1 + (((x + 1) div 2) div 3)))),2,x),(x + 1))
1: compr(\x.loop(\(x,i).((x + 1) * loop(\(x,i).((x + 1) - (if x <= 0 then 2 else (1 + loop(\(x,i).(x - (if (x mod (1 + i)) <= 0 then 1 else 0)),x,x)))),2,x)),2,x),x)
1: compr(\x.loop(\(x,i).x2,1,(~1 + ((x2 * loop(\(x,i).x3,2,x)) mod 23))),x)
1: compr(\x.loop(\(x,i).((~x + 1) div 2),(x div 2),2x),x)
1: compr(\x.loop(\(x,i).((~x - i) div (x + 4)),2x,1),x)
1: compr(\x.loop(\(x,i).((if x <= 0 then 2 else loop(\(x,i).(x div (1 + (x mod 2))),x,x)) div 2),2,x),x)
1: compr(\x.loop(\(x,i).((if x <= 0 then 2 else loop(\(x,i).(x div (2 - (x mod 2))),x,x)) div 2),2,x),x)
1: compr(\x.loop(\(x,i).(loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2),2,x),(x + 2))
1: compr(\x.loop(\(x,i).(x div 2),(x mod 9),x),(x + 1))
1: compr(\x.loop(\(x,i).(x div 2),(x mod 10),x),(x + 1))
1: compr(\x.loop(\(x,i).(x div (1 + (2 * (x mod 2)))),x,x),(x + 1))
1: compr(\x.loop(\(x,i).(x div (1 + (2 * (x mod 2)))),x,x),x)
1: compr(\x.loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,4x),(x + 1))
1: compr(\x.loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 2 else 0))),x,2x2),(x + 1))
1: compr(\x.loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 4 else 0))),x,2x),(2x + 1))
1: compr(\x.loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 4 else 0))),x,2x),(x + 1))
1: compr(\x.loop(\(x,i).(x div (1 + (if (x mod 2) <= 0 then 6 else 0))),x,2x),(x + 1))
1: compr(\x.loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 0 else 2))),x,x),(x + 1))
1: compr(\x.loop(\(x,i).(x div (2 - ((x mod 3) div 2))),x,x),x)
1: compr(\x.loop(\(x,i).(x div (2 - ((x * (x div 4)) mod 2))),x,x),x)
1: compr(\x.loop(\(x,i).(x div (2 - ((x2 div 8) mod 2))),x,x),x)
1: compr(\x.loop(\(x,i).(x div (if (x mod 2) <= 0 then 1 else 4)),x,x),(x + 1))
1: compr(\x.loop(\(x,i).(x div (if (x mod 2) <= 0 then 4 else 1)),x,2x),(x + 1))
1: compr(\x.loop(\(x,i).(x div (if (x mod 2) <= 0 then ~2 else 1)),(x + ~1),(x + 1)),2x)
1: compr(\x.loop(\(x,i).(x div (if (x mod 2) <= 0 then ~2 else 1)),x,(1 + (x div 2))),x)
1: compr(\x.loop(\(x,i).(x div (if (x mod 2) <= 0 then ~2 else 1)),x,(x + 1)),2x)
1: compr(\x.loop(\(x,i).(x div (if (x mod 2) <= 0 then ~2 else 1)),x,x),(2x + 2))
1: compr(\x.loop(\(x,i).(loop(\(x,i).(x - (if x <= 0 then 0 else i)),x,x) mod (x + 2)),2,x),x)
1: compr(\x.loop(\(x,i).(if (x + ~1) <= 0 then 1 else (loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2)),2,x),x)
1: compr(\x.loop(\(x,i).(if ((x + (x div 2)) mod 4) <= 0 then x else (x div 2)),x,x),x)
1: compr(\x.loop(\(x,i).(if ((x + 1) mod (2 + i)) <= 0 then 0 else x),x,8x),x)
1: compr(\x.loop(\(x,i).(if ((x + ~1) mod 4) <= 0 then x else (x div 4)),x,x),x)
1: compr(\x.loop(\(x,i).(if (x mod 2) <= 0 then (~x + 2) else (x div 2)),3,x),x)
1: compr(\x.loop(\(x,i).(if (x mod 4) <= 0 then 0 else (1 + (x div 4))),2,(x + 1)),x)
1: compr(\x.loop(\(x,i).(if (x mod 4) <= 0 then 0 else (1 + (x div 4))),2,x),x)
1: compr(\x.loop(\(x,i).(if (x mod (1 + (2 * i))) <= 0 then x else ~x),x,x),(x + 1))
1: compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x + ~2),x),(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x + ~2),x),(2x + 2))
1: compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x + ~2),x),i)
1: compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),x),(x2 + 2x + 2))
1: compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),x),(2 + compr(\x.(loop(\(x,i).(2x + 2),x,2) mod (x + 2)),x)))
1: compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),x),(2x + 2))
1: compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),x),(6x + 6))
1: compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),(x div 2),x),2x)
1: compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + 5)),x)
1: compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(4x + 1)),x)
1: compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + 1)),(x + 1))
1: compr(\x.loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x + 2)),i)
1: compr(\x.loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),x,(3x + 1)),(x + 1))
1: compr(\x.loop(\(x,i).(if (x mod (2 + i)) <= 0 then 0 else x),x,(2x + 1)),x)
1: compr(\x.loop(\(x,i).(if x <= 0 then 1 else (~2 + (if x <= 0 then 2 else (loop(\(x,i).(1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),2,x) mod (x + 1))))),2,x),x)
1: compr(\x.loop(\(x,i).(if x <= 0 then 1 else (~2 + (if x <= 0 then 2 else (loop(\(x,i).(1 + loop(\(x,i).(x div (2 - (x mod 2))),x,x)),2,x) mod (x + 1))))),x,x),x)
1: compr(\x.loop(\(x,i).(if x <= 0 then 2 else (~1 + loop(\(x,i).(x div (1 + (x mod 2))),x,x))),2,x),x)
1: compr(\x.loop(\(x,i).(if x <= 0 then 2 else loop(\(x,i).(x - (if (~x + i) <= 0 then i else 0)),x,x)),2,x),x)
1: compr(\x.loop(\(x,i).(if x <= 0 then 3 else (loop(\(x,i).(x div (2 - (x mod 2))),x,x) div 2)),3,x),(x + 1))
1: compr(\x.loop(\(x,i).(if x <= 0 then ((x + ~1) + (2 * i)) else 0),2x,~x),x)
1: compr(\x.loop(\(x,i).loop(\(x,i).~x,3x,((~x + ~1) + i)),x,2),x)
1: compr(\x.loop(\(x,i).loop(\(x,i).(~1 + (if x <= 0 then i else x)),x,0),2,3x),(x + 1))
1: compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (3 + i)) <= 0 then 2 else 1)),x,(x + 2)),2,2x),x)
1: compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(13x + 4)),x)
1: compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(x2 + 3x + 3)),x)
1: compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(17x + 8)),x)
1: compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(21x + 20)),x)
1: compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(2x2 + 6x + 5)),x)
1: compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(17x + 12)),x)
1: compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(17x + 16)),x)
1: compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(32x + 9)),x)
1: compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(4x + (x div 2))),x)
1: compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(x2 + 3)),x)
1: compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(2 + ((x2 + x) div 2))),x)
1: compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(2 + ((x2 + 3x + 2) div 2))),x)
1: compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(11x + 1)),x)
1: compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(9x + 5)),x)
1: compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(2x2 + 5x + 1)),x)
1: compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(16x + 7)),x)
1: compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(15x + 4)),x)
1: compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(23x + 4)),x)
1: compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(12x + 5)),x)
1: compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(11x + 9)),x)
1: compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(10x + 4)),x)
1: compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(4x2 + 8x + 2)),x)
1: compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(8x + 2)),x)
1: compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(12x + 4)),x)
1: compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(2x2 + 6)),x)
1: compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(2x2 + 6x)),x)
1: compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,((3x2 + 6x) div 2)),x)
1: compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,(2x div 3)),(x + 1))
1: compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 0 else 1)),x,x),1,loop(\(x,i).(2x + 2),4,x)),x)
1: compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (1 + (2 * i))) <= 0 then 2 else 1)),x,(x + 2)),1,(2x + 1)),x)
1: compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (2 + i)) <= 0 then 0 else 1)),x,x),1,(13x + 2)),x)
1: compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (2 + i)) <= 0 then 0 else 1)),x,x),1,(17x + 2)),x)
1: compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (2 + i)) <= 0 then 0 else 1)),x,x),1,(13x + 8)),x)
1: compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (2 + i)) <= 0 then 0 else 1)),x,x),1,(17x + 4)),x)
1: compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (2 + i)) <= 0 then 0 else 1)),x,x),1,(9x + 4)),x)
1: compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (2 + i)) <= 0 then 0 else 1)),x,x),1,(11x + 10)),x)
1: compr(\x.loop(\(x,i).loop(\(x,i).(x - (if (x mod (2 + i)) <= 0 then 0 else 1)),x,x),1,11x),x)
1: compr(\x.loop(\(x,i).loop(\(x,i).((if x <= 0 then 2 else loop(\(x,i).(x div (2 - (x mod 2))),x,x)) div 2),x,(x + 1)),1,x2),x)
1: compr(\x.loop(\(x,i).loop(\(x,i).(x div (1 + (if (x mod 3) <= 0 then 0 else 2))),x,(x + 1)),2,(x + 1)),x)
1: compr(\x.loop(\(x,i).loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x + 4)),2,x),(x + 1))
1: compr(\x.loop(\(x,i).loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(2x + 1)),1,(x2 + x)),x)
1: compr(\x.loop(\(x,i).loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x + 2)),2,x),x)
1: compr(\x.loop(\(x,i).loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(4x + ~1)),1,(x2 + x)),x)
1: compr(\x.loop(\(x,i).loop(\(x,i).(if x <= 0 then i else (x + ~1)),x,0),2,(x + ~1)),x)
1: compr(\x.loop(\(x,i).loop(\(x,i).loop(\(x,i).(if (x mod (1 + i)) <= 0 then 0 else x),x,(x + 2)),2,x),2,x),x)