def test_units_inputs(self):
# Stolen from FBX addon!
def similar_values(v1, v2, e):
if v1 == v2:
return True
return ((abs(v1 - v2) / max(abs(v1), abs(v2))) <= e)
for usys, utype, ref, inpt, val in self.INPUT_TESTS:
opt_val = units.to_value(usys, utype, inpt, ref)
# Note: almostequal is not good here, precision is fixed on decimal digits, not variable with
# magnitude of numbers (i.e. 1609.4416 ~= 1609.4456 fails even at 5 of 'places'...).
self.assertTrue(similar_values(opt_val, val, 1e-7),
msg="%s, %s: \"%s\" (ref: \"%s\") => %f, expected %f"
"" % (usys, utype, inpt, ref, opt_val, val))
def test_units_inputs(self):
# Stolen from FBX addon!
def similar_values(v1, v2, e):
if v1 == v2:
return True
return ((abs(v1 - v2) / max(abs(v1), abs(v2))) <= e)
for usys, utype, ref, inpt, val in self.INPUT_TESTS:
opt_val = units.to_value(usys, utype, inpt, str_ref_unit=ref)
# Note: almostequal is not good here, precision is fixed on decimal digits, not variable with
# magnitude of numbers (i.e. 1609.4416 ~= 1609.4456 fails even at 5 of 'places'...).
self.assertTrue(similar_values(opt_val, val, 1e-7),
msg="%s, %s: \"%s\" (ref: \"%s\") => %f, expected %f"
"" % (usys, utype, inpt, ref, opt_val, val))