def test_cabs_inf_nan(self):
# cabs(+-nan + nani) returns nan
self.assertTrue(blaze.isnan(blaze.abs(complex(blaze.nan, blaze.nan))))
self.assertTrue(blaze.isnan(blaze.abs(complex(-blaze.nan, blaze.nan))))
self.assertTrue(blaze.isnan(blaze.abs(complex(blaze.nan, -blaze.nan))))
self.assertTrue(blaze.isnan(blaze.abs(complex(-blaze.nan, -blaze.nan))))
# According to C99 standard, if exactly one of the real/part is inf and
# the other nan, then cabs should return inf
assert_equal(blaze.abs(complex(blaze.inf, blaze.nan)), blaze.inf)
assert_equal(blaze.abs(complex(blaze.nan, blaze.inf)), blaze.inf)
assert_equal(blaze.abs(complex(-blaze.inf, blaze.nan)), blaze.inf)
assert_equal(blaze.abs(complex(blaze.nan, -blaze.inf)), blaze.inf)
values = [complex(blaze.nan, blaze.nan),
complex(-blaze.nan, blaze.nan),
complex(blaze.inf, blaze.nan),
complex(-blaze.inf, blaze.nan)]
for z in values:
abs_conj_z = blaze.abs(blaze.conj(z))
conj_abs_z = blaze.conj(blaze.abs(z))
abs_z = blaze.abs(z)
assert_equal(abs_conj_z, conj_abs_z)
assert_equal(abs_conj_z, abs_z)
assert_equal(conj_abs_z, abs_z)
def f(a):
return blaze.abs(blaze.conj(a))
def f(a):
return blaze.abs(blaze.conj(a))
