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test_cpp_extensions_aot.py
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test_cpp_extensions_aot.py
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# Owner(s): ["module: cpp-extensions"]
from itertools import repeat
import os
import re
from typing import Union, get_args, get_origin
import unittest
import torch.testing._internal.common_utils as common
from torch.testing._internal.common_utils import IS_WINDOWS, skipIfTorchDynamo
from torch.testing._internal.common_cuda import TEST_CUDA
import torch
import torch.backends.cudnn
import torch.utils.cpp_extension
try:
import pytest
HAS_PYTEST = True
except ImportError as e:
HAS_PYTEST = False
# TODO: Rewrite these tests so that they can be collected via pytest without
# using run_test.py
try:
if HAS_PYTEST:
cpp_extension = pytest.importorskip("torch_test_cpp_extension.cpp")
ort_extension = pytest.importorskip("torch_test_cpp_extension.ort")
rng_extension = pytest.importorskip("torch_test_cpp_extension.rng")
else:
import torch_test_cpp_extension.cpp as cpp_extension
import torch_test_cpp_extension.ort as ort_extension
import torch_test_cpp_extension.rng as rng_extension
except ImportError as e:
raise RuntimeError(
"test_cpp_extensions_aot.py cannot be invoked directly. Run "
"`python run_test.py -i test_cpp_extensions_aot_ninja` instead."
) from e
class TestCppExtensionAOT(common.TestCase):
"""Tests ahead-of-time cpp extensions
NOTE: run_test.py's test_cpp_extensions_aot_ninja target
also runs this test case, but with ninja enabled. If you are debugging
a test failure here from the CI, check the logs for which target
(test_cpp_extensions_aot_no_ninja vs test_cpp_extensions_aot_ninja)
failed.
"""
def test_extension_function(self):
x = torch.randn(4, 4)
y = torch.randn(4, 4)
z = cpp_extension.sigmoid_add(x, y)
self.assertEqual(z, x.sigmoid() + y.sigmoid())
def test_extension_module(self):
mm = cpp_extension.MatrixMultiplier(4, 8)
weights = torch.rand(8, 4, dtype=torch.double)
expected = mm.get().mm(weights)
result = mm.forward(weights)
self.assertEqual(expected, result)
def test_backward(self):
mm = cpp_extension.MatrixMultiplier(4, 8)
weights = torch.rand(8, 4, dtype=torch.double, requires_grad=True)
result = mm.forward(weights)
result.sum().backward()
tensor = mm.get()
expected_weights_grad = tensor.t().mm(torch.ones([4, 4], dtype=torch.double))
self.assertEqual(weights.grad, expected_weights_grad)
expected_tensor_grad = torch.ones([4, 4], dtype=torch.double).mm(weights.t())
self.assertEqual(tensor.grad, expected_tensor_grad)
@unittest.skipIf(not TEST_CUDA, "CUDA not found")
def test_cuda_extension(self):
import torch_test_cpp_extension.cuda as cuda_extension
x = torch.zeros(100, device="cuda", dtype=torch.float32)
y = torch.zeros(100, device="cuda", dtype=torch.float32)
z = cuda_extension.sigmoid_add(x, y).cpu()
# 2 * sigmoid(0) = 2 * 0.5 = 1
self.assertEqual(z, torch.ones_like(z))
@unittest.skipIf(not torch.backends.mps.is_available(), "MPS not found")
def test_mps_extension(self):
import torch_test_cpp_extension.mps as mps_extension
tensor_length = 100000
x = torch.randn(tensor_length, device="cpu", dtype=torch.float32)
y = torch.randn(tensor_length, device="cpu", dtype=torch.float32)
cpu_output = mps_extension.get_cpu_add_output(x, y)
mps_output = mps_extension.get_mps_add_output(x.to("mps"), y.to("mps"))
self.assertEqual(cpu_output, mps_output.to("cpu"))
@common.skipIfRocm
@unittest.skipIf(common.IS_WINDOWS, "Windows not supported")
@unittest.skipIf(not TEST_CUDA, "CUDA not found")
def test_cublas_extension(self):
from torch_test_cpp_extension import cublas_extension
x = torch.zeros(100, device="cuda", dtype=torch.float32)
z = cublas_extension.noop_cublas_function(x)
self.assertEqual(z, x)
@common.skipIfRocm
@unittest.skipIf(common.IS_WINDOWS, "Windows not supported")
@unittest.skipIf(not TEST_CUDA, "CUDA not found")
def test_cusolver_extension(self):
from torch_test_cpp_extension import cusolver_extension
x = torch.zeros(100, device="cuda", dtype=torch.float32)
z = cusolver_extension.noop_cusolver_function(x)
self.assertEqual(z, x)
@unittest.skipIf(IS_WINDOWS, "Not available on Windows")
def test_no_python_abi_suffix_sets_the_correct_library_name(self):
# For this test, run_test.py will call `python setup.py install` in the
# cpp_extensions/no_python_abi_suffix_test folder, where the
# `BuildExtension` class has a `no_python_abi_suffix` option set to
# `True`. This *should* mean that on Python 3, the produced shared
# library does not have an ABI suffix like
# "cpython-37m-x86_64-linux-gnu" before the library suffix, e.g. "so".
root = os.path.join("cpp_extensions", "no_python_abi_suffix_test", "build")
matches = [f for _, _, fs in os.walk(root) for f in fs if f.endswith("so")]
self.assertEqual(len(matches), 1, msg=str(matches))
self.assertEqual(matches[0], "no_python_abi_suffix_test.so", msg=str(matches))
def test_optional(self):
has_value = cpp_extension.function_taking_optional(torch.ones(5))
self.assertTrue(has_value)
has_value = cpp_extension.function_taking_optional(None)
self.assertFalse(has_value)
@common.skipIfRocm
@unittest.skipIf(common.IS_WINDOWS, "Windows not supported")
@unittest.skipIf(not TEST_CUDA, "CUDA not found")
@unittest.skipIf(os.getenv('USE_NINJA', '0') == '0', "cuda extension with dlink requires ninja to build")
def test_cuda_dlink_libs(self):
from torch_test_cpp_extension import cuda_dlink
a = torch.randn(8, dtype=torch.float, device='cuda')
b = torch.randn(8, dtype=torch.float, device='cuda')
ref = a + b
test = cuda_dlink.add(a, b)
self.assertEqual(test, ref)
class TestPybindTypeCasters(common.TestCase):
"""Pybind tests for ahead-of-time cpp extensions
These tests verify the types returned from cpp code using custom type
casters. By exercising pybind, we also verify that the type casters work
properly.
For each type caster in `torch/csrc/utils/pybind.h` we create a pybind
function that takes no arguments and returns the type_caster type. The
second argument to `PYBIND11_TYPE_CASTER` should be the type we expect to
receive in python, in these tests we verify this at run-time.
"""
@staticmethod
def expected_return_type(func):
"""
Our Pybind functions have a signature of the form `() -> return_type`.
"""
# Imports needed for the `eval` below.
from typing import List, Tuple # noqa: F401
return eval(re.search("-> (.*)\n", func.__doc__).group(1))
def check(self, func):
val = func()
expected = self.expected_return_type(func)
origin = get_origin(expected)
if origin is list:
self.check_list(val, expected)
elif origin is tuple:
self.check_tuple(val, expected)
else:
self.assertIsInstance(val, expected)
def check_list(self, vals, expected):
self.assertIsInstance(vals, list)
list_type = get_args(expected)[0]
for val in vals:
self.assertIsInstance(val, list_type)
def check_tuple(self, vals, expected):
self.assertIsInstance(vals, tuple)
tuple_types = get_args(expected)
if tuple_types[1] is ...:
tuple_types = repeat(tuple_types[0])
for val, tuple_type in zip(vals, tuple_types):
self.assertIsInstance(val, tuple_type)
def check_union(self, funcs):
"""Special handling for Union type casters.
A single cpp type can sometimes be cast to different types in python.
In these cases we expect to get exactly one function per python type.
"""
# Verify that all functions have the same return type.
union_type = {self.expected_return_type(f) for f in funcs}
assert len(union_type) == 1
union_type = union_type.pop()
self.assertIs(Union, get_origin(union_type))
# SymInt is inconvenient to test, so don't require it
expected_types = set(get_args(union_type)) - {torch.SymInt}
for func in funcs:
val = func()
for tp in expected_types:
if isinstance(val, tp):
expected_types.remove(tp)
break
else:
raise AssertionError(f"{val} is not an instance of {expected_types}")
self.assertFalse(expected_types, f"Missing functions for types {expected_types}")
def test_pybind_return_types(self):
functions = [
cpp_extension.get_complex,
cpp_extension.get_device,
cpp_extension.get_generator,
cpp_extension.get_intarrayref,
cpp_extension.get_memory_format,
cpp_extension.get_storage,
cpp_extension.get_symfloat,
cpp_extension.get_symintarrayref,
cpp_extension.get_tensor,
]
union_functions = [
[cpp_extension.get_symint],
]
for func in functions:
with self.subTest(msg=f"check {func.__name__}"):
self.check(func)
for funcs in union_functions:
with self.subTest(msg=f"check {[f.__name__ for f in funcs]}"):
self.check_union(funcs)
class TestORTTensor(common.TestCase):
def test_unregistered(self):
a = torch.arange(0, 10, device='cpu')
with self.assertRaisesRegex(RuntimeError, "Could not run"):
b = torch.arange(0, 10, device='ort')
@skipIfTorchDynamo("dynamo cannot model ort device")
def test_zeros(self):
a = torch.empty(5, 5, device='cpu')
self.assertEqual(a.device, torch.device('cpu'))
b = torch.empty(5, 5, device='ort')
self.assertEqual(b.device, torch.device('ort', 0))
self.assertEqual(ort_extension.get_test_int(), 0)
self.assertEqual(torch.get_default_dtype(), b.dtype)
c = torch.empty((5, 5), dtype=torch.int64, device='ort')
self.assertEqual(ort_extension.get_test_int(), 0)
self.assertEqual(torch.int64, c.dtype)
def test_add(self):
a = torch.empty(5, 5, device='ort', requires_grad=True)
self.assertEqual(ort_extension.get_test_int(), 0)
b = torch.empty(5, 5, device='ort')
self.assertEqual(ort_extension.get_test_int(), 0)
c = a + b
self.assertEqual(ort_extension.get_test_int(), 1)
def test_conv_backend_override(self):
# To simplify tests, we use 4d input here to avoid doing view4d( which
# needs more overrides) in _convolution.
input = torch.empty(2, 4, 10, 2, device='ort', requires_grad=True)
weight = torch.empty(6, 4, 2, 2, device='ort', requires_grad=True)
bias = torch.empty(6, device='ort')
# Make sure forward is overriden
out = torch.nn.functional.conv2d(input, weight, bias, 2, 0, 1, 1)
self.assertEqual(ort_extension.get_test_int(), 2)
self.assertEqual(out.shape[0], input.shape[0])
self.assertEqual(out.shape[1], weight.shape[0])
# Make sure backward is overriden
# Double backward is dispatched to _convolution_double_backward.
# It is not tested here as it involves more computation/overrides.
grad = torch.autograd.grad(out, input, out, create_graph=True)
self.assertEqual(ort_extension.get_test_int(), 3)
self.assertEqual(grad[0].shape, input.shape)
class TestRNGExtension(common.TestCase):
def setUp(self):
super().setUp()
@skipIfTorchDynamo("https://github.com/pytorch/torchdynamo/issues/1991")
def test_rng(self):
fourty_two = torch.full((10,), 42, dtype=torch.int64)
t = torch.empty(10, dtype=torch.int64).random_()
self.assertNotEqual(t, fourty_two)
gen = torch.Generator(device='cpu')
t = torch.empty(10, dtype=torch.int64).random_(generator=gen)
self.assertNotEqual(t, fourty_two)
self.assertEqual(rng_extension.getInstanceCount(), 0)
gen = rng_extension.createTestCPUGenerator(42)
self.assertEqual(rng_extension.getInstanceCount(), 1)
copy = gen
self.assertEqual(rng_extension.getInstanceCount(), 1)
self.assertEqual(gen, copy)
copy2 = rng_extension.identity(copy)
self.assertEqual(rng_extension.getInstanceCount(), 1)
self.assertEqual(gen, copy2)
t = torch.empty(10, dtype=torch.int64).random_(generator=gen)
self.assertEqual(rng_extension.getInstanceCount(), 1)
self.assertEqual(t, fourty_two)
del gen
self.assertEqual(rng_extension.getInstanceCount(), 1)
del copy
self.assertEqual(rng_extension.getInstanceCount(), 1)
del copy2
self.assertEqual(rng_extension.getInstanceCount(), 0)
@unittest.skipIf(not TEST_CUDA, "CUDA not found")
class TestTorchLibrary(common.TestCase):
def test_torch_library(self):
import torch_test_cpp_extension.torch_library # noqa: F401
def f(a: bool, b: bool):
return torch.ops.torch_library.logical_and(a, b)
self.assertTrue(f(True, True))
self.assertFalse(f(True, False))
self.assertFalse(f(False, True))
self.assertFalse(f(False, False))
s = torch.jit.script(f)
self.assertTrue(s(True, True))
self.assertFalse(s(True, False))
self.assertFalse(s(False, True))
self.assertFalse(s(False, False))
self.assertIn('torch_library::logical_and', str(s.graph))
if __name__ == "__main__":
common.run_tests()