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from mpmath import *
def test_interval_identity():
iv.dps = 15
assert mpi(2) == mpi(2, 2)
assert mpi(2) != mpi(-2, 2)
assert not (mpi(2) != mpi(2, 2))
assert mpi(-1, 1) == mpi(-1, 1)
assert str(mpi('0.1')) == "[0.099999999999999991673, 0.10000000000000000555]"
assert repr(mpi('0.1')) == "mpi('0.099999999999999992', '0.10000000000000001')"
u = mpi(-1, 3)
assert -1 in u
assert 2 in u
assert 3 in u
assert -1.1 not in u
assert 3.1 not in u
assert mpi(-1, 3) in u
assert mpi(0, 1) in u
assert mpi(-1.1, 2) not in u
assert mpi(2.5, 3.1) not in u
w = mpi(-inf, inf)
assert mpi(-5, 5) in w
assert mpi(2, inf) in w
assert mpi(0, 2) in mpi(0, 10)
assert not (3 in mpi(-inf, 0))
def test_interval_hash():
assert hash(mpi(3)) == hash(3)
assert hash(mpi(3.25)) == hash(3.25)
assert hash(mpi(3,4)) == hash(mpi(3,4))
assert hash(iv.mpc(3)) == hash(3)
assert hash(iv.mpc(3,4)) == hash(3+4j)
assert hash(iv.mpc((1,3),(2,4))) == hash(iv.mpc((1,3),(2,4)))
def test_interval_arithmetic():
iv.dps = 15
assert mpi(2) + mpi(3,4) == mpi(5,6)
assert mpi(1, 2)**2 == mpi(1, 4)
assert mpi(1) + mpi(0, 1e-50) == mpi(1, mpf('1.0000000000000002'))
x = 1 / (1 / mpi(3))
assert x.a < 3 < x.b
x = mpi(2) ** mpi(0.5)
iv.dps += 5
sq = iv.sqrt(2)
iv.dps -= 5
assert x.a < sq < x.b
assert mpi(1) / mpi(1, inf)
assert mpi(2, 3) / inf == mpi(0, 0)
assert mpi(0) / inf == 0
assert mpi(0) / 0 == mpi(-inf, inf)
assert mpi(inf) / 0 == mpi(-inf, inf)
assert mpi(0) * inf == mpi(-inf, inf)
assert 1 / mpi(2, inf) == mpi(0, 0.5)
assert str((mpi(50, 50) * mpi(-10, -10)) / 3) == \
'[-166.66666666666668561, -166.66666666666665719]'
assert mpi(0, 4) ** 3 == mpi(0, 64)
assert mpi(2,4).mid == 3
iv.dps = 30
a = mpi(iv.pi)
iv.dps = 15
b = +a
assert b.a < a.a
assert b.b > a.b
a = mpi(iv.pi)
assert a == +a
assert abs(mpi(-1,2)) == mpi(0,2)
assert abs(mpi(0.5,2)) == mpi(0.5,2)
assert abs(mpi(-3,2)) == mpi(0,3)
assert abs(mpi(-3,-0.5)) == mpi(0.5,3)
assert mpi(0) * mpi(2,3) == mpi(0)
assert mpi(2,3) * mpi(0) == mpi(0)
assert mpi(1,3).delta == 2
assert mpi(1,2) - mpi(3,4) == mpi(-3,-1)
assert mpi(-inf,0) - mpi(0,inf) == mpi(-inf,0)
assert mpi(-inf,0) - mpi(-inf,inf) == mpi(-inf,inf)
assert mpi(0,inf) - mpi(-inf,1) == mpi(-1,inf)
def test_interval_mul():
assert mpi(-1, 0) * inf == mpi(-inf, 0)
assert mpi(-1, 0) * -inf == mpi(0, inf)
assert mpi(0, 1) * inf == mpi(0, inf)
assert mpi(0, 1) * mpi(0, inf) == mpi(0, inf)
assert mpi(-1, 1) * inf == mpi(-inf, inf)
assert mpi(-1, 1) * mpi(0, inf) == mpi(-inf, inf)
assert mpi(-1, 1) * mpi(-inf, inf) == mpi(-inf, inf)
assert mpi(-inf, 0) * mpi(0, 1) == mpi(-inf, 0)
assert mpi(-inf, 0) * mpi(0, 0) * mpi(-inf, 0)
assert mpi(-inf, 0) * mpi(-inf, inf) == mpi(-inf, inf)
assert mpi(-5,0)*mpi(-32,28) == mpi(-140,160)
assert mpi(2,3) * mpi(-1,2) == mpi(-3,6)
# Should be undefined?
assert mpi(inf, inf) * 0 == mpi(-inf, inf)
assert mpi(-inf, -inf) * 0 == mpi(-inf, inf)
assert mpi(0) * mpi(-inf,2) == mpi(-inf,inf)
assert mpi(0) * mpi(-2,inf) == mpi(-inf,inf)
assert mpi(-2,inf) * mpi(0) == mpi(-inf,inf)
assert mpi(-inf,2) * mpi(0) == mpi(-inf,inf)
def test_interval_pow():
assert mpi(3)**2 == mpi(9, 9)
assert mpi(-3)**2 == mpi(9, 9)
assert mpi(-3, 1)**2 == mpi(0, 9)
assert mpi(-3, -1)**2 == mpi(1, 9)
assert mpi(-3, -1)**3 == mpi(-27, -1)
assert mpi(-3, 1)**3 == mpi(-27, 1)
assert mpi(-2, 3)**2 == mpi(0, 9)
assert mpi(-3, 2)**2 == mpi(0, 9)
assert mpi(4) ** -1 == mpi(0.25, 0.25)
assert mpi(-4) ** -1 == mpi(-0.25, -0.25)
assert mpi(4) ** -2 == mpi(0.0625, 0.0625)
assert mpi(-4) ** -2 == mpi(0.0625, 0.0625)
assert mpi(0, 1) ** inf == mpi(0, 1)
assert mpi(0, 1) ** -inf == mpi(1, inf)
assert mpi(0, inf) ** inf == mpi(0, inf)
assert mpi(0, inf) ** -inf == mpi(0, inf)
assert mpi(1, inf) ** inf == mpi(1, inf)
assert mpi(1, inf) ** -inf == mpi(0, 1)
assert mpi(2, 3) ** 1 == mpi(2, 3)
assert mpi(2, 3) ** 0 == 1
assert mpi(1,3) ** mpi(2) == mpi(1,9)
def test_interval_sqrt():
assert mpi(4) ** 0.5 == mpi(2)
def test_interval_div():
assert mpi(0.5, 1) / mpi(-1, 0) == mpi(-inf, -0.5)
assert mpi(0, 1) / mpi(0, 1) == mpi(0, inf)
assert mpi(inf, inf) / mpi(inf, inf) == mpi(0, inf)
assert mpi(inf, inf) / mpi(2, inf) == mpi(0, inf)
assert mpi(inf, inf) / mpi(2, 2) == mpi(inf, inf)
assert mpi(0, inf) / mpi(2, inf) == mpi(0, inf)
assert mpi(0, inf) / mpi(2, 2) == mpi(0, inf)
assert mpi(2, inf) / mpi(2, 2) == mpi(1, inf)
assert mpi(2, inf) / mpi(2, inf) == mpi(0, inf)
assert mpi(-4, 8) / mpi(1, inf) == mpi(-4, 8)
assert mpi(-4, 8) / mpi(0.5, inf) == mpi(-8, 16)
assert mpi(-inf, 8) / mpi(0.5, inf) == mpi(-inf, 16)
assert mpi(-inf, inf) / mpi(0.5, inf) == mpi(-inf, inf)
assert mpi(8, inf) / mpi(0.5, inf) == mpi(0, inf)
assert mpi(-8, inf) / mpi(0.5, inf) == mpi(-16, inf)
assert mpi(-4, 8) / mpi(inf, inf) == mpi(0, 0)
assert mpi(0, 8) / mpi(inf, inf) == mpi(0, 0)
assert mpi(0, 0) / mpi(inf, inf) == mpi(0, 0)
assert mpi(-inf, 0) / mpi(inf, inf) == mpi(-inf, 0)
assert mpi(-inf, 8) / mpi(inf, inf) == mpi(-inf, 0)
assert mpi(-inf, inf) / mpi(inf, inf) == mpi(-inf, inf)
assert mpi(-8, inf) / mpi(inf, inf) == mpi(0, inf)
assert mpi(0, inf) / mpi(inf, inf) == mpi(0, inf)
assert mpi(8, inf) / mpi(inf, inf) == mpi(0, inf)
assert mpi(inf, inf) / mpi(inf, inf) == mpi(0, inf)
assert mpi(-1, 2) / mpi(0, 1) == mpi(-inf, +inf)
assert mpi(0, 1) / mpi(0, 1) == mpi(0.0, +inf)
assert mpi(-1, 0) / mpi(0, 1) == mpi(-inf, 0.0)
assert mpi(-0.5, -0.25) / mpi(0, 1) == mpi(-inf, -0.25)
assert mpi(0.5, 1) / mpi(0, 1) == mpi(0.5, +inf)
assert mpi(0.5, 4) / mpi(0, 1) == mpi(0.5, +inf)
assert mpi(-1, -0.5) / mpi(0, 1) == mpi(-inf, -0.5)
assert mpi(-4, -0.5) / mpi(0, 1) == mpi(-inf, -0.5)
assert mpi(-1, 2) / mpi(-2, 0.5) == mpi(-inf, +inf)
assert mpi(0, 1) / mpi(-2, 0.5) == mpi(-inf, +inf)
assert mpi(-1, 0) / mpi(-2, 0.5) == mpi(-inf, +inf)
assert mpi(-0.5, -0.25) / mpi(-2, 0.5) == mpi(-inf, +inf)
assert mpi(0.5, 1) / mpi(-2, 0.5) == mpi(-inf, +inf)
assert mpi(0.5, 4) / mpi(-2, 0.5) == mpi(-inf, +inf)
assert mpi(-1, -0.5) / mpi(-2, 0.5) == mpi(-inf, +inf)
assert mpi(-4, -0.5) / mpi(-2, 0.5) == mpi(-inf, +inf)
assert mpi(-1, 2) / mpi(-1, 0) == mpi(-inf, +inf)
assert mpi(0, 1) / mpi(-1, 0) == mpi(-inf, 0.0)
assert mpi(-1, 0) / mpi(-1, 0) == mpi(0.0, +inf)
assert mpi(-0.5, -0.25) / mpi(-1, 0) == mpi(0.25, +inf)
assert mpi(0.5, 1) / mpi(-1, 0) == mpi(-inf, -0.5)
assert mpi(0.5, 4) / mpi(-1, 0) == mpi(-inf, -0.5)
assert mpi(-1, -0.5) / mpi(-1, 0) == mpi(0.5, +inf)
assert mpi(-4, -0.5) / mpi(-1, 0) == mpi(0.5, +inf)
assert mpi(-1, 2) / mpi(0.5, 1) == mpi(-2.0, 4.0)
assert mpi(0, 1) / mpi(0.5, 1) == mpi(0.0, 2.0)
assert mpi(-1, 0) / mpi(0.5, 1) == mpi(-2.0, 0.0)
assert mpi(-0.5, -0.25) / mpi(0.5, 1) == mpi(-1.0, -0.25)
assert mpi(0.5, 1) / mpi(0.5, 1) == mpi(0.5, 2.0)
assert mpi(0.5, 4) / mpi(0.5, 1) == mpi(0.5, 8.0)
assert mpi(-1, -0.5) / mpi(0.5, 1) == mpi(-2.0, -0.5)
assert mpi(-4, -0.5) / mpi(0.5, 1) == mpi(-8.0, -0.5)
assert mpi(-1, 2) / mpi(-2, -0.5) == mpi(-4.0, 2.0)
assert mpi(0, 1) / mpi(-2, -0.5) == mpi(-2.0, 0.0)
assert mpi(-1, 0) / mpi(-2, -0.5) == mpi(0.0, 2.0)
assert mpi(-0.5, -0.25) / mpi(-2, -0.5) == mpi(0.125, 1.0)
assert mpi(0.5, 1) / mpi(-2, -0.5) == mpi(-2.0, -0.25)
assert mpi(0.5, 4) / mpi(-2, -0.5) == mpi(-8.0, -0.25)
assert mpi(-1, -0.5) / mpi(-2, -0.5) == mpi(0.25, 2.0)
assert mpi(-4, -0.5) / mpi(-2, -0.5) == mpi(0.25, 8.0)
# Should be undefined?
assert mpi(0, 0) / mpi(0, 0) == mpi(-inf, inf)
assert mpi(0, 0) / mpi(0, 1) == mpi(-inf, inf)
def test_interval_cos_sin():
iv.dps = 15
cos = iv.cos
sin = iv.sin
tan = iv.tan
pi = iv.pi
# Around 0
assert cos(mpi(0)) == 1
assert sin(mpi(0)) == 0
assert cos(mpi(0,1)) == mpi(0.54030230586813965399, 1.0)
assert sin(mpi(0,1)) == mpi(0, 0.8414709848078966159)
assert cos(mpi(1,2)) == mpi(-0.4161468365471424069, 0.54030230586813976501)
assert sin(mpi(1,2)) == mpi(0.84147098480789650488, 1.0)
assert sin(mpi(1,2.5)) == mpi(0.59847214410395643824, 1.0)
assert cos(mpi(-1, 1)) == mpi(0.54030230586813965399, 1.0)
assert cos(mpi(-1, 0.5)) == mpi(0.54030230586813965399, 1.0)
assert cos(mpi(-1, 1.5)) == mpi(0.070737201667702906405, 1.0)
assert sin(mpi(-1,1)) == mpi(-0.8414709848078966159, 0.8414709848078966159)
assert sin(mpi(-1,0.5)) == mpi(-0.8414709848078966159, 0.47942553860420300538)
assert mpi(-0.8414709848078966159, 1.00000000000000002e-100) in sin(mpi(-1,1e-100))
assert mpi(-2.00000000000000004e-100, 1.00000000000000002e-100) in sin(mpi(-2e-100,1e-100))
# Same interval
assert cos(mpi(2, 2.5))
assert cos(mpi(3.5, 4)) == mpi(-0.93645668729079634129, -0.65364362086361182946)
assert cos(mpi(5, 5.5)) == mpi(0.28366218546322624627, 0.70866977429126010168)
assert mpi(0.59847214410395654927, 0.90929742682568170942) in sin(mpi(2, 2.5))
assert sin(mpi(3.5, 4)) == mpi(-0.75680249530792831347, -0.35078322768961983646)
assert sin(mpi(5, 5.5)) == mpi(-0.95892427466313856499, -0.70554032557039181306)
# Higher roots
iv.dps = 55
w = 4*10**50 + mpi(0.5)
for p in [15, 40, 80]:
iv.dps = p
assert 0 in sin(4*mpi(pi))
assert 0 in sin(4*10**50*mpi(pi))
assert 0 in cos((4+0.5)*mpi(pi))
assert 0 in cos(w*mpi(pi))
assert 1 in cos(4*mpi(pi))
assert 1 in cos(4*10**50*mpi(pi))
iv.dps = 15
assert cos(mpi(2,inf)) == mpi(-1,1)
assert sin(mpi(2,inf)) == mpi(-1,1)
assert cos(mpi(-inf,2)) == mpi(-1,1)
assert sin(mpi(-inf,2)) == mpi(-1,1)
u = tan(mpi(0.5,1))
assert mpf(u.a).ae(mp.tan(0.5))
assert mpf(u.b).ae(mp.tan(1))
v = iv.cot(mpi(0.5,1))
assert mpf(v.a).ae(mp.cot(1))
assert mpf(v.b).ae(mp.cot(0.5))
# Sanity check of evaluation at n*pi and (n+1/2)*pi
for n in range(-5,7,2):
x = iv.cos(n*iv.pi)
assert -1 in x
assert x >= -1
assert x != -1
x = iv.sin((n+0.5)*iv.pi)
assert -1 in x
assert x >= -1
assert x != -1
for n in range(-6,8,2):
x = iv.cos(n*iv.pi)
assert 1 in x
assert x <= 1
if n:
assert x != 1
x = iv.sin((n+0.5)*iv.pi)
assert 1 in x
assert x <= 1
assert x != 1
for n in range(-6,7):
x = iv.cos((n+0.5)*iv.pi)
assert x.a < 0 < x.b
x = iv.sin(n*iv.pi)
if n:
assert x.a < 0 < x.b
def test_interval_complex():
# TODO: many more tests
iv.dps = 15
mp.dps = 15
assert iv.mpc(2,3) == 2+3j
assert iv.mpc(2,3) != 2+4j
assert iv.mpc(2,3) != 1+3j
assert 1+3j in iv.mpc([1,2],[3,4])
assert 2+5j not in iv.mpc([1,2],[3,4])
assert iv.mpc(1,2) + 1j == 1+3j
assert iv.mpc([1,2],[2,3]) + 2+3j == iv.mpc([3,4],[5,6])
assert iv.mpc([2,4],[4,8]) / 2 == iv.mpc([1,2],[2,4])
assert iv.mpc([1,2],[2,4]) * 2j == iv.mpc([-8,-4],[2,4])
assert iv.mpc([2,4],[4,8]) / 2j == iv.mpc([2,4],[-2,-1])
assert iv.exp(2+3j).ae(mp.exp(2+3j))
assert iv.log(2+3j).ae(mp.log(2+3j))
assert (iv.mpc(2,3) ** iv.mpc(0.5,2)).ae(mp.mpc(2,3) ** mp.mpc(0.5,2))
assert 1j in (iv.mpf(-1) ** 0.5)
assert 1j in (iv.mpc(-1) ** 0.5)
assert abs(iv.mpc(0)) == 0
assert abs(iv.mpc(inf)) == inf
assert abs(iv.mpc(3,4)) == 5
assert abs(iv.mpc(4)) == 4
assert abs(iv.mpc(0,4)) == 4
assert abs(iv.mpc(0,[2,3])) == iv.mpf([2,3])
assert abs(iv.mpc(0,[-3,2])) == iv.mpf([0,3])
assert abs(iv.mpc([3,5],[4,12])) == iv.mpf([5,13])
assert abs(iv.mpc([3,5],[-4,12])) == iv.mpf([3,13])
assert iv.mpc(2,3) ** 0 == 1
assert iv.mpc(2,3) ** 1 == (2+3j)
assert iv.mpc(2,3) ** 2 == (2+3j)**2
assert iv.mpc(2,3) ** 3 == (2+3j)**3
assert iv.mpc(2,3) ** 4 == (2+3j)**4
assert iv.mpc(2,3) ** 5 == (2+3j)**5
assert iv.mpc(2,2) ** (-1) == (2+2j) ** (-1)
assert iv.mpc(2,2) ** (-2) == (2+2j) ** (-2)
assert iv.cos(2).ae(mp.cos(2))
assert iv.sin(2).ae(mp.sin(2))
assert iv.cos(2+3j).ae(mp.cos(2+3j))
assert iv.sin(2+3j).ae(mp.sin(2+3j))
def test_interval_complex_arg():
mp.dps = 15
iv.dps = 15
assert iv.arg(3) == 0
assert iv.arg(0) == 0
assert iv.arg([0,3]) == 0
assert iv.arg(-3).ae(pi)
assert iv.arg(2+3j).ae(iv.arg(2+3j))
z = iv.mpc([-2,-1],[3,4])
t = iv.arg(z)
assert t.a.ae(mp.arg(-1+4j))
assert t.b.ae(mp.arg(-2+3j))
z = iv.mpc([-2,1],[3,4])
t = iv.arg(z)
assert t.a.ae(mp.arg(1+3j))
assert t.b.ae(mp.arg(-2+3j))
z = iv.mpc([1,2],[3,4])
t = iv.arg(z)
assert t.a.ae(mp.arg(2+3j))
assert t.b.ae(mp.arg(1+4j))
z = iv.mpc([1,2],[-2,3])
t = iv.arg(z)
assert t.a.ae(mp.arg(1-2j))
assert t.b.ae(mp.arg(1+3j))
z = iv.mpc([1,2],[-4,-3])
t = iv.arg(z)
assert t.a.ae(mp.arg(1-4j))
assert t.b.ae(mp.arg(2-3j))
z = iv.mpc([-1,2],[-4,-3])
t = iv.arg(z)
assert t.a.ae(mp.arg(-1-3j))
assert t.b.ae(mp.arg(2-3j))
z = iv.mpc([-2,-1],[-4,-3])
t = iv.arg(z)
assert t.a.ae(mp.arg(-2-3j))
assert t.b.ae(mp.arg(-1-4j))
z = iv.mpc([-2,-1],[-3,3])
t = iv.arg(z)
assert t.a.ae(-mp.pi)
assert t.b.ae(mp.pi)
z = iv.mpc([-2,2],[-3,3])
t = iv.arg(z)
assert t.a.ae(-mp.pi)
assert t.b.ae(mp.pi)
def test_interval_ae():
iv.dps = 15
x = iv.mpf([1,2])
assert x.ae(1) is None
assert x.ae(1.5) is None
assert x.ae(2) is None
assert x.ae(2.01) is False
assert x.ae(0.99) is False
x = iv.mpf(3.5)
assert x.ae(3.5) is True
assert x.ae(3.5+1e-15) is True
assert x.ae(3.5-1e-15) is True
assert x.ae(3.501) is False
assert x.ae(3.499) is False
assert x.ae(iv.mpf([3.5,3.501])) is None
assert x.ae(iv.mpf([3.5,4.5+1e-15])) is None
def test_interval_nstr():
iv.dps = n = 30
x = mpi(1, 2)
# FIXME: error_dps should not be necessary
assert iv.nstr(x, n, mode='plusminus', error_dps=6) == '1.5 +- 0.5'
assert iv.nstr(x, n, mode='plusminus', use_spaces=False, error_dps=6) == '1.5+-0.5'
assert iv.nstr(x, n, mode='percent') == '1.5 (33.33%)'
assert iv.nstr(x, n, mode='brackets', use_spaces=False) == '[1.0,2.0]'
assert iv.nstr(x, n, mode='brackets' , brackets=('<', '>')) == '<1.0, 2.0>'
x = mpi('5.2582327113062393041', '5.2582327113062749951')
assert iv.nstr(x, n, mode='diff') == '5.2582327113062[393041, 749951]'
assert iv.nstr(iv.cos(mpi(1)), n, mode='diff', use_spaces=False) == '0.54030230586813971740093660744[2955,3053]'
assert iv.nstr(mpi('1e123', '1e129'), n, mode='diff') == '[1.0e+123, 1.0e+129]'
exp = iv.exp
assert iv.nstr(iv.exp(mpi('5000.1')), n, mode='diff') == '3.2797365856787867069110487[0926, 1191]e+2171'
iv.dps = 15
def test_mpi_from_str():
iv.dps = 15
assert iv.convert('1.5 +- 0.5') == mpi(mpf('1.0'), mpf('2.0'))
assert mpi(1, 2) in iv.convert('1.5 (33.33333333333333333333333333333%)')
assert iv.convert('[1, 2]') == mpi(1, 2)
assert iv.convert('1[2, 3]') == mpi(12, 13)
assert iv.convert('1.[23,46]e-8') == mpi('1.23e-8', '1.46e-8')
assert iv.convert('12[3.4,5.9]e4') == mpi('123.4e+4', '125.9e4')
def test_interval_gamma():
mp.dps = 15
iv.dps = 15
# TODO: need many more tests
assert iv.rgamma(0) == 0
assert iv.fac(0) == 1
assert iv.fac(1) == 1
assert iv.fac(2) == 2
assert iv.fac(3) == 6
assert iv.gamma(0) == [-inf,inf]
assert iv.gamma(1) == 1
assert iv.gamma(2) == 1
assert iv.gamma(3) == 2
assert -3.5449077018110320546 in iv.gamma(-0.5)
assert iv.loggamma(1) == 0
assert iv.loggamma(2) == 0
assert 0.69314718055994530942 in iv.loggamma(3)
# Test tight log-gamma endpoints based on monotonicity
xs = [iv.mpc([2,3],[1,4]),
iv.mpc([2,3],[-4,-1]),
iv.mpc([2,3],[-1,4]),
iv.mpc([2,3],[-4,1]),
iv.mpc([2,3],[-4,4]),
iv.mpc([-3,-2],[2,4]),
iv.mpc([-3,-2],[-4,-2])]
for x in xs:
ys = [mp.loggamma(mp.mpc(x.a,x.c)),
mp.loggamma(mp.mpc(x.b,x.c)),
mp.loggamma(mp.mpc(x.a,x.d)),
mp.loggamma(mp.mpc(x.b,x.d))]
if 0 in x.imag:
ys += [mp.loggamma(x.a), mp.loggamma(x.b)]
min_real = min([y.real for y in ys])
max_real = max([y.real for y in ys])
min_imag = min([y.imag for y in ys])
max_imag = max([y.imag for y in ys])
z = iv.loggamma(x)
assert z.a.ae(min_real)
assert z.b.ae(max_real)
assert z.c.ae(min_imag)
assert z.d.ae(max_imag)
def test_interval_conversions():
mp.dps = 15
iv.dps = 15
for a, b in ((-0.0, 0), (0.0, 0.5), (1.0, 1), \
('-inf', 20.5), ('-inf', float(sqrt(2)))):
r = mpi(a, b)
assert int(r.b) == int(b)
assert float(r.a) == float(a)
assert float(r.b) == float(b)
assert complex(r.a) == complex(a)
assert complex(r.b) == complex(b)