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test_number.py
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from .support import HPyTest
class TestNumber(HPyTest):
def test_bool_from_long(self):
mod = self.make_module("""
HPyDef_METH(f, "f", f_impl, HPyFunc_O)
static HPy f_impl(HPyContext *ctx, HPy self, HPy arg)
{
long x = HPyLong_AsLong(ctx, arg);
if (HPyErr_Occurred(ctx))
return HPy_NULL;
return HPyBool_FromLong(ctx, x);
}
@EXPORT(f)
@INIT
""")
assert mod.f(0) is False
assert mod.f(42) is True
def test_unary(self):
import pytest
import operator
for c_name, op in [
('Negative', operator.neg),
('Positive', operator.pos),
('Absolute', abs),
('Invert', operator.invert),
('Index', operator.index),
('Long', int),
('Float', float),
]:
mod = self.make_module("""
HPyDef_METH(f, "f", f_impl, HPyFunc_O)
static HPy f_impl(HPyContext *ctx, HPy self, HPy arg)
{
return HPy_%s(ctx, arg);
}
@EXPORT(f)
@INIT
""" % (c_name,), name='number_'+c_name)
assert mod.f(-5) == op(-5)
assert mod.f(6) == op(6)
try:
res = op(4.75)
except Exception as e:
with pytest.raises(e.__class__):
mod.f(4.75)
else:
assert mod.f(4.75) == res
def test_binary(self):
import operator
for c_name, op in [
('Add', operator.add),
('Subtract', operator.sub),
('Multiply', operator.mul),
('FloorDivide', operator.floordiv),
('TrueDivide', operator.truediv),
('Remainder', operator.mod),
('Divmod', divmod),
('Lshift', operator.lshift),
('Rshift', operator.rshift),
('And', operator.and_),
('Xor', operator.xor),
('Or', operator.or_),
]:
mod = self.make_module("""
HPyDef_METH(f, "f", f_impl, HPyFunc_VARARGS)
static HPy f_impl(HPyContext *ctx, HPy self,
HPy *args, HPy_ssize_t nargs)
{
HPy a, b;
if (!HPyArg_Parse(ctx, NULL, args, nargs, "OO", &a, &b))
return HPy_NULL;
return HPy_%s(ctx, a, b);
}
@EXPORT(f)
@INIT
""" % (c_name,), name='number_'+c_name)
assert mod.f(5, 4) == op(5, 4)
assert mod.f(6, 3) == op(6, 3)
def test_power(self):
mod = self.make_module("""
HPyDef_METH(f, "f", f_impl, HPyFunc_VARARGS)
static HPy f_impl(HPyContext *ctx, HPy self,
HPy *args, HPy_ssize_t nargs)
{
HPy a, b, c;
if (!HPyArg_Parse(ctx, NULL, args, nargs, "OOO", &a, &b, &c))
return HPy_NULL;
return HPy_Power(ctx, a, b, c);
}
@EXPORT(f)
@INIT
""")
assert mod.f(4, 5, None) == 4 ** 5
assert mod.f(4, 5, 7) == pow(4, 5, 7)
def test_matmul(self):
class Mat:
def __matmul__(self, other):
return ('matmul', self, other)
m1 = Mat()
m2 = Mat()
mod = self.make_module("""
HPyDef_METH(f, "f", f_impl, HPyFunc_VARARGS)
static HPy f_impl(HPyContext *ctx, HPy self,
HPy *args, HPy_ssize_t nargs)
{
HPy a, b;
if (!HPyArg_Parse(ctx, NULL, args, nargs, "OO", &a, &b))
return HPy_NULL;
return HPy_MatrixMultiply(ctx, a, b);
}
@EXPORT(f)
@INIT
""")
assert mod.f(m1, m2) == m1.__matmul__(m2)
def test_inplace_binary(self):
import operator
for c_name, py_name in [
('Add', '__iadd__'),
('Subtract', '__isub__'),
('Multiply', '__imul__'),
('FloorDivide', '__ifloordiv__'),
('TrueDivide', '__itruediv__'),
('Remainder', '__imod__'),
('Lshift', '__ilshift__'),
('Rshift', '__irshift__'),
('And', '__iand__'),
('Xor', '__ixor__'),
('Or', '__ior__'),
]:
mod = self.make_module("""
HPyDef_METH(f, "f", f_impl, HPyFunc_VARARGS)
static HPy f_impl(HPyContext *ctx, HPy self,
HPy *args, HPy_ssize_t nargs)
{
HPy a, b;
if (!HPyArg_Parse(ctx, NULL, args, nargs, "OO", &a, &b))
return HPy_NULL;
return HPy_InPlace%s(ctx, a, b);
}
@EXPORT(f)
@INIT
""" % (c_name,), name='number_'+c_name)
class A:
def mymethod(self, b):
return (py_name, b)
setattr(A, py_name, A.mymethod)
assert mod.f(A(), 12.34) == A().mymethod(12.34)
def test_inplace_power(self):
mod = self.make_module("""
HPyDef_METH(f, "f", f_impl, HPyFunc_VARARGS)
static HPy f_impl(HPyContext *ctx, HPy self,
HPy *args, HPy_ssize_t nargs)
{
HPy a, b, c;
if (!HPyArg_Parse(ctx, NULL, args, nargs, "OOO", &a, &b, &c))
return HPy_NULL;
return HPy_InPlacePower(ctx, a, b, c);
}
@EXPORT(f)
@INIT
""")
class A:
def __ipow__(self, b):
return ('ipow', b)
# the behavior of PyNumber_InPlacePower is weird: if __ipow__ is
# defined, the 3rd arg is always ignored, even if the doc say the
# opposite
assert mod.f(A(), 5, None) == A().__ipow__(5)
assert mod.f(A(), 7, 'hello') == A().__ipow__(7)
assert mod.f(4, 5, 7) == pow(4, 5, 7)
def test_inplace_matmul(self):
class Mat:
def __imatmul__(self, other):
return ('imatmul', self, other)
m1 = Mat()
m2 = Mat()
mod = self.make_module("""
HPyDef_METH(f, "f", f_impl, HPyFunc_VARARGS)
static HPy f_impl(HPyContext *ctx, HPy self,
HPy *args, HPy_ssize_t nargs)
{
HPy a, b;
if (!HPyArg_Parse(ctx, NULL, args, nargs, "OO", &a, &b))
return HPy_NULL;
return HPy_InPlaceMatrixMultiply(ctx, a, b);
}
@EXPORT(f)
@INIT
""")
assert mod.f(m1, m2) == m1.__imatmul__(m2)
def test_number_check(self):
mod = self.make_module("""
HPyDef_METH(f, "f", f_impl, HPyFunc_O)
static HPy f_impl(HPyContext *ctx, HPy self, HPy arg)
{
int cond = HPyNumber_Check(ctx, arg);
return HPyLong_FromLong(ctx, cond);
}
@EXPORT(f)
@INIT
""")
assert mod.f("foo") == 0
assert mod.f(42) == 1
assert mod.f(42.1) == 1