from dreamcoder.program import Primitive, prettyProgram
from dreamcoder.grammar import Grammar
from dreamcoder.type import tlist, tint, arrow, baseType #, t0, t1, t2
#from functools import reduce
#todo
int_to_int = baseType("int_to_int")
int_to_bool = baseType("int_to_bool")
int_to_int_to_int = baseType("int_to_int_to_int")
#deepcoderPrimitives
Null = 300 #or perhaps something else, like "an integer outside the working range"?
def _head(xs): return xs[0] if len(xs)>0 else Null
def _tail(xs): return xs[-1] if len(xs)>0 else Null
def _take(n): return lambda xs: xs[:n]
def _drop(n): return lambda xs: xs[n:]
def _access(n): return lambda xs: xs[n] if n>=0 and len(xs)>n else Null
def _minimum(xs): return min(xs) if len(xs)>0 else Null
def _maximum(xs): return max(xs) if len(xs)>0 else Null
def _reverse(xs): return list(reversed(xs))
def _sort(xs): return sorted(xs)
def _sum(xs): return sum(xs)
#higher order:
def _map(f): return lambda l: list(map(f, l))
def _filter(f): return lambda l: list(filter(f, l))
def _count(f): return lambda l: len([x for x in l if f(x)])
def _zipwith(f): return lambda xs: lambda ys: [f(x)(y) for (x, y) in zip(xs, ys)]
def _scanl1(f):
def _inner(xs):
ys = []
if len(xs) > 0:
ys.append(xs[0])
for i in range(1, len(xs)):
ys.append( f(ys[i-1])(xs[i]))
return ys
return _inner
#int to int:
def _succ(x): return x+1
def _pred(x): return x-1
def _double(x): return x*2
def _half(x): return int(x/2)
def _negate(x): return -x
def _square(x): return x**2
def _triple(x): return x*3
def _third(x): return int(x/3)
def _quad(x): return x*4
def _quarter(x): return int(x/4)
#int to bool:
def _pos(x): return x>0
def _neg(x): return x<0
def _even(x): return x%2==0
def _odd(x): return x%2==1
#int to int to int:
def _add(x): return lambda y: x + y
def _sub(x): return lambda y: x - y
def _mult(x): return lambda y: x * y
def _min(x): return lambda y: _minimum([x,y])
def _max(x): return lambda y: _maximum([x,y])
def deepcoderPrimitives():
return [
Primitive("HEAD", arrow(tlist(tint), tint), _head),
Primitive("LAST", arrow(tlist(tint), tint), _tail),
Primitive("TAKE", arrow(tint, tlist(tint), tlist(tint)), _take),
Primitive("DROP", arrow(tint, tlist(tint), tlist(tint)), _drop),
Primitive("ACCESS", arrow(tint, tlist(tint), tint), _access),
Primitive("MINIMUM", arrow(tlist(tint), tint), _minimum),
Primitive("MAXIMUM", arrow(tlist(tint), tint), _maximum),
Primitive("REVERSE", arrow(tlist(tint), tlist(tint)), _reverse),
Primitive("SORT", arrow(tlist(tint), tlist(tint)), _sort),
Primitive("SUM", arrow(tlist(tint), tint), _sum)
] + [
Primitive("MAP", arrow(int_to_int, tlist(tint), tlist(tint)), _map), #is this okay???
Primitive("FILTER", arrow(int_to_bool, tlist(tint), tlist(tint)), _filter), #is this okay???
Primitive("COUNT", arrow(int_to_bool, tlist(tint), tint), _count), #is this okay???
Primitive("ZIPWITH", arrow(int_to_int_to_int, tlist(tint), tlist(tint), tlist(tint)), _zipwith), #is this okay???
Primitive("SCANL1", arrow(int_to_int_to_int, tlist(tint), tlist(tint)), _scanl1), #is this okay???
] + [
Primitive("INC", int_to_int, _succ),
Primitive("DEC", int_to_int, _pred),
Primitive("SHL", int_to_int, _double),
Primitive("SHR", int_to_int, _half),
Primitive("doNEG", int_to_int, _negate),
Primitive("SQR", int_to_int, _square),
Primitive("MUL3", int_to_int, _triple),
Primitive("DIV3", int_to_int, _third),
Primitive("MUL4", int_to_int, _quad),
Primitive("DIV4", int_to_int, _quarter),
] + [
Primitive("isPOS", int_to_bool, _pos),
Primitive("isNEG", int_to_bool, _neg),
Primitive("isEVEN", int_to_bool, _even),
Primitive("isODD", int_to_bool, _odd),
] + [
Primitive("+", int_to_int_to_int, _add),
Primitive("-", int_to_int_to_int, _sub),
Primitive("*", int_to_int_to_int, _mult),
Primitive("MIN", int_to_int_to_int, _min),
Primitive("MAX", int_to_int_to_int, _max)
]
def OldDeepcoderPrimitives():
return [
Primitive("head", arrow(tlist(tint), tint), _head),
Primitive("tail", arrow(tlist(tint), tint), _tail),
Primitive("take", arrow(tint, tlist(tint), tlist(tint)), _take),
Primitive("drop", arrow(tint, tlist(tint), tlist(tint)), _drop),
Primitive("access", arrow(tint, tlist(tint), tint), _access),
Primitive("minimum", arrow(tlist(tint), tint), _minimum),
Primitive("maximum", arrow(tlist(tint), tint), _maximum),
Primitive("reverse", arrow(tlist(tint), tlist(tint)), _reverse),
Primitive("sort", arrow(tlist(tint), tlist(tint)), _sort),
Primitive("sum", arrow(tlist(tint), tint), _sum)
] + [
Primitive("map", arrow(int_to_int, tlist(tint), tlist(tint)), _map), #is this okay???
Primitive("filter_int", arrow(int_to_bool, tlist(tint), tlist(tint)), _filter), #is this okay???
Primitive("count", arrow(int_to_bool, tlist(tint), tint), _count), #is this okay???
Primitive("zipwith", arrow(int_to_int_to_int, tlist(tint), tlist(tint), tlist(tint)), _zipwith), #is this okay???
Primitive("scanl1", arrow(int_to_int_to_int, tlist(tint), tlist(tint)), _scanl1), #is this okay???
# ] + [
# Primitive("succ", arrow(tint, tint), _succ),
# Primitive("pred", arrow(tint, tint), _pred),
# Primitive("double", arrow(tint, tint), _double),
# Primitive("half", arrow(tint, tint), _half),
# Primitive("neg", arrow(tint, tint), _neg),
# Primitive("square", arrow(tint, tint), _square),
# Primitive("triple", arrow(tint, tint), _triple),
# Primitive("third", arrow(tint, tint), _third),
# Primitive("quad", arrow(tint, tint), _quad),
# Primitive("quarter", arrow(tint, tint), _quarter),
# ] + [
# Primitive("pos", arrow(tint, tbool), _pos),
# Primitive("neg", arrow(tint, tbool), _neg),
# Primitive("even", arrow(tint, tbool), _even),
# Primitive("odd", arrow(tint, tbool), _odd),
# ] + [
# Primitive("add", arrow(tint, tint, tint), _add),
# Primitive("sub", arrow(tint, tint, tint), _sub),
# Primitive("mult", arrow(tint, tint, tint), _mult),
# Primitive("min", arrow(tint, tint, tint), _min),
# Primitive("max", arrow(tint, tint, tint), _max)
] + [
Primitive("succ_fn", int_to_int, _succ),
Primitive("pred_fn", int_to_int, _pred),
Primitive("double_fn", int_to_int, _double),
Primitive("half_fn", int_to_int, _half),
Primitive("negate_fn", int_to_int, _negate),
Primitive("square_fn", int_to_int, _square),
Primitive("triple_fn", int_to_int, _triple),
Primitive("third_fn", int_to_int, _third),
Primitive("quad_fn", int_to_int, _quad),
Primitive("quarter_fn", int_to_int, _quarter),
] + [
Primitive("pos_fn", int_to_bool, _pos),
Primitive("neg_fn", int_to_bool, _neg),
Primitive("even_fn", int_to_bool, _even),
Primitive("odd_fn", int_to_bool, _odd),
] + [
Primitive("add_fn", int_to_int_to_int, _add),
Primitive("sub_fn", int_to_int_to_int, _sub),
Primitive("mult_fn", int_to_int_to_int, _mult),
Primitive("min_fn", int_to_int_to_int, _min),
Primitive("max_fn", int_to_int_to_int, _max)
]
def deepcoderProductions():
return [(0.0, prim) for prim in deepcoderPrimitives()]
def flatten_program(p):
string = p.show(False)
num_inputs = string.count('lambda')
string = string.replace('lambda', '')
string = string.replace('(', '')
string = string.replace(')', '')
#remove '_fn' (optional)
for i in range(num_inputs):
string = string.replace('$' + str(num_inputs-i-1),'input_' + str(i))
string = string.split(' ')
string = list(filter(lambda x: x is not '', string))
return string
if __name__ == "__main__":
#g = Grammar.uniform(deepcoderPrimitives())
g = Grammar.fromProductions(deepcoderProductions(), logVariable=.9)
request = arrow(tlist(tint), tint, tint)
p = g.sample(request)
print("request:", request)
print("program:")
print(prettyProgram(p))
print("flattened_program:")
flat = flatten_program(p)
print(flat)
#robustfill output = names from productions + input_0-2 or 3
# # with open("/home/ellisk/om/ec/experimentOutputs/list_aic=1.0_arity=3_ET=1800_expandFrontier=2.0_it=4_likelihoodModel=all-or-nothing_MF=5_baseline=False_pc=10.0_L=1.0_K=5_rec=False.pickle", "rb") as handle:
# # b = pickle.load(handle).grammars[-1]
# # print b
# p = Program.parse(
# "(lambda (lambda (lambda (if (empty? $0) empty (cons (+ (car $1) (car $0)) ($2 (cdr $1) (cdr $0)))))))")
# t = arrow(tlist(tint), tlist(tint), tlist(tint)) # ,tlist(tbool))
# print(g.logLikelihood(arrow(t, t), p))
# assert False
# print(b.logLikelihood(arrow(t, t), p))
# # p = Program.parse("""(lambda (lambda
# # (unfold 0
# # (lambda (+ (index $0 $2) (index $0 $1)))
# # (lambda (1+ $0))
# # (lambda (eq? $0 (length $1))))))
# # """)
# p = Program.parse("""(lambda (lambda
# (map (lambda (+ (index $0 $2) (index $0 $1))) (range (length $0)) )))""")
# # .replace("unfold", "#(lambda (lambda (lambda (lambda (fix1 $0 (lambda (lambda (#(lambda (lambda (lambda (if $0 empty (cons $1 $2))))) ($1 ($3 $0)) ($4 $0) ($5 $0)))))))))").\
# # replace("length", "#(lambda (fix1 $0 (lambda (lambda (if (empty? $0) 0 (+ ($1 (cdr $0)) 1))))))").\
# # replace("forloop", "(#(lambda (lambda (lambda (lambda (fix1 $0 (lambda (lambda (#(lambda (lambda (lambda (if $0 empty (cons $1 $2))))) ($1 ($3 $0)) ($4 $0) ($5 $0))))))))) (lambda (#(eq? 0) $0)) $0 (lambda (#(lambda (- $0 1)) $0)))").\
# # replace("inc","#(lambda (+ $0 1))").\
# # replace("drop","#(lambda (lambda (fix2 $0 $1 (lambda (lambda (lambda (if
# # (#(eq? 0) $1) $0 (cdr ($2 (- $1 1) $0)))))))))"))
# print(p)
# print(g.logLikelihood(t, p))
# assert False
# print("??")
# p = Program.parse(
# "#(lambda (#(lambda (lambda (lambda (fix1 $0 (lambda (lambda (if (empty? $0) $3 ($4 (car $0) ($1 (cdr $0)))))))))) (lambda $1) 1))")
# for j in range(10):
# l = list(range(j))
# print(l, p.evaluate([])(lambda x: x * 2)(l))
# print()
# print()
# print("multiply")
# p = Program.parse(
# "(lambda (lambda (lambda (if (eq? $0 0) 0 (+ $1 ($2 $1 (- $0 1)))))))")
# print(g.logLikelihood(arrow(arrow(tint, tint, tint), tint, tint, tint), p))
# print()
# print("take until 0")
# p = Program.parse("(lambda (lambda (if (eq? $1 0) empty (cons $1 $0))))")
# print(g.logLikelihood(arrow(tint, tlist(tint), tlist(tint)), p))
# print()
# print("countdown primitive")
# p = Program.parse(
# "(lambda (lambda (if (eq? $0 0) empty (cons (+ $0 1) ($1 (- $0 1))))))")
# print(
# g.logLikelihood(
# arrow(
# arrow(
# tint, tlist(tint)), arrow(
# tint, tlist(tint))), p))
# print(_fix(9)(p.evaluate([])))
# print("countdown w/ better primitives")
# p = Program.parse(
# "(lambda (lambda (if (eq0 $0) empty (cons (+1 $0) ($1 (-1 $0))))))")
# print(
# g.logLikelihood(
# arrow(
# arrow(
# tint, tlist(tint)), arrow(
# tint, tlist(tint))), p))
# print()
# print("prepend zeros")
# p = Program.parse(
# "(lambda (lambda (lambda (if (eq? $1 0) $0 (cons 0 ($2 (- $1 1) $0))))))")
# print(
# g.logLikelihood(
# arrow(
# arrow(
# tint,
# tlist(tint),
# tlist(tint)),
# tint,
# tlist(tint),
# tlist(tint)),
# p))
# print()
# assert False
# p = Program.parse(
# "(lambda (fix1 $0 (lambda (lambda (if (empty? $0) 0 (+ 1 ($1 (cdr $0))))))))")
# print(p.evaluate([])(list(range(17))))
# print(g.logLikelihood(arrow(tlist(tbool), tint), p))
# p = Program.parse(
# "(lambda (lambda (if (empty? $0) 0 (+ 1 ($1 (cdr $0))))))")
# print(
# g.logLikelihood(
# arrow(
# arrow(
# tlist(tbool), tint), arrow(
# tlist(tbool), tint)), p))
# p = Program.parse(
# "(lambda (fix1 $0 (lambda (lambda (if (empty? $0) 0 (+ (car $0) ($1 (cdr $0))))))))")
# print(p.evaluate([])(list(range(4))))
# print(g.logLikelihood(arrow(tlist(tint), tint), p))
# p = Program.parse(
# "(lambda (lambda (if (empty? $0) 0 (+ (car $0) ($1 (cdr $0))))))")
# print(p)
# print(
# g.logLikelihood(
# arrow(
# arrow(
# tlist(tint),
# tint),
# tlist(tint),
# tint),
# p))
# print("take")
# p = Program.parse(
# "(lambda (lambda (lambda (if (eq? $1 0) empty (cons (car $0) ($2 (- $1 1) (cdr $0)))))))")
# print(p)
# print(
# g.logLikelihood(
# arrow(
# arrow(
# tint,
# tlist(tint),
# tlist(tint)),
# tint,
# tlist(tint),
# tlist(tint)),
# p))
# assert False
# print(p.evaluate([])(list(range(4))))
# print(g.logLikelihood(arrow(tlist(tint), tlist(tint)), p))
# p = Program.parse(
# """(lambda (fix (lambda (lambda (match $0 0 (lambda (lambda (+ $1 ($3 $0))))))) $0))""")
# print(p.evaluate([])(list(range(4))))
# print(g.logLikelihood(arrow(tlist(tint), tint), p))