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test_cpp_extensions_jit.py
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test_cpp_extensions_jit.py
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# Owner(s): ["module: cpp-extensions"]
import glob
import os
import re
import shutil
import subprocess
import sys
import tempfile
import unittest
import warnings
import torch
import torch.backends.cudnn
import torch.multiprocessing as mp
import torch.testing._internal.common_utils as common
import torch.utils.cpp_extension
from torch.testing._internal.common_cuda import TEST_CUDA, TEST_CUDNN
from torch.testing._internal.common_utils import gradcheck
from torch.utils.cpp_extension import (
_TORCH_PATH,
check_compiler_is_gcc,
CUDA_HOME,
get_cxx_compiler,
remove_extension_h_precompiler_headers,
ROCM_HOME,
)
# define TEST_ROCM before changing TEST_CUDA
TEST_ROCM = TEST_CUDA and torch.version.hip is not None and ROCM_HOME is not None
TEST_CUDA = TEST_CUDA and CUDA_HOME is not None
TEST_MPS = torch.backends.mps.is_available()
IS_WINDOWS = sys.platform == "win32"
IS_LINUX = sys.platform.startswith("linux")
def remove_build_path():
default_build_root = torch.utils.cpp_extension.get_default_build_root()
if os.path.exists(default_build_root):
if IS_WINDOWS:
# rmtree returns permission error: [WinError 5] Access is denied
# on Windows, this is a word-around
subprocess.run(["rm", "-rf", default_build_root], stdout=subprocess.PIPE)
else:
shutil.rmtree(default_build_root)
# There's only one test that runs gracheck, run slow mode manually
@torch.testing._internal.common_utils.markDynamoStrictTest
class TestCppExtensionJIT(common.TestCase):
"""Tests just-in-time cpp extensions.
Don't confuse this with the PyTorch JIT (aka TorchScript).
"""
def setUp(self):
super().setUp()
# cpp extensions use relative paths. Those paths are relative to
# this file, so we'll change the working directory temporarily
self.old_working_dir = os.getcwd()
os.chdir(os.path.dirname(os.path.abspath(__file__)))
def tearDown(self):
super().tearDown()
# return the working directory (see setUp)
os.chdir(self.old_working_dir)
@classmethod
def setUpClass(cls):
remove_build_path()
@classmethod
def tearDownClass(cls):
remove_build_path()
def test_jit_compile_extension(self):
module = torch.utils.cpp_extension.load(
name="jit_extension",
sources=[
"cpp_extensions/jit_extension.cpp",
"cpp_extensions/jit_extension2.cpp",
],
extra_include_paths=[
"cpp_extensions",
"path / with spaces in it",
"path with quote'",
],
extra_cflags=["-g"],
verbose=True,
)
x = torch.randn(4, 4)
y = torch.randn(4, 4)
z = module.tanh_add(x, y)
self.assertEqual(z, x.tanh() + y.tanh())
# Checking we can call a method defined not in the main C++ file.
z = module.exp_add(x, y)
self.assertEqual(z, x.exp() + y.exp())
# Checking we can use this JIT-compiled class.
doubler = module.Doubler(2, 2)
self.assertIsNone(doubler.get().grad)
self.assertEqual(doubler.get().sum(), 4)
self.assertEqual(doubler.forward().sum(), 8)
@unittest.skipIf(not (TEST_CUDA or TEST_ROCM), "CUDA not found")
def test_jit_cuda_extension(self):
# NOTE: The name of the extension must equal the name of the module.
module = torch.utils.cpp_extension.load(
name="torch_test_cuda_extension",
sources=[
"cpp_extensions/cuda_extension.cpp",
"cpp_extensions/cuda_extension.cu",
],
extra_cuda_cflags=["-O2"],
verbose=True,
keep_intermediates=False,
)
x = torch.zeros(100, device="cuda", dtype=torch.float32)
y = torch.zeros(100, device="cuda", dtype=torch.float32)
z = module.sigmoid_add(x, y).cpu()
# 2 * sigmoid(0) = 2 * 0.5 = 1
self.assertEqual(z, torch.ones_like(z))
@unittest.skipIf(not TEST_MPS, "MPS not found")
def test_mps_extension(self):
module = torch.utils.cpp_extension.load(
name="torch_test_mps_extension",
sources=[
"cpp_extensions/mps_extension.mm",
],
verbose=True,
keep_intermediates=False,
)
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 = module.get_cpu_add_output(x, y)
mps_output = module.get_mps_add_output(x.to("mps"), y.to("mps"))
self.assertEqual(cpu_output, mps_output.to("cpu"))
def _run_jit_cuda_archflags(self, flags, expected):
# Compile an extension with given `flags`
def _check_cuobjdump_output(expected_values, is_ptx=False):
elf_or_ptx = "--list-ptx" if is_ptx else "--list-elf"
lib_ext = ".pyd" if IS_WINDOWS else ".so"
# Note, .extension name may include _v1, _v2, so first find exact name
ext_filename = glob.glob(
os.path.join(temp_dir, "cudaext_archflag*" + lib_ext)
)[0]
command = ["cuobjdump", elf_or_ptx, ext_filename]
p = subprocess.Popen(
command, stdout=subprocess.PIPE, stderr=subprocess.PIPE
)
output, err = p.communicate()
output = output.decode("ascii")
err = err.decode("ascii")
if not p.returncode == 0 or not err == "":
raise AssertionError(
f"Flags: {flags}\nReturncode: {p.returncode}\nStderr: {err}\n"
f"Output: {output} "
)
actual_arches = sorted(re.findall(r"sm_\d\d", output))
expected_arches = sorted(["sm_" + xx for xx in expected_values])
self.assertEqual(
actual_arches,
expected_arches,
msg=f"Flags: {flags}, Actual: {actual_arches}, Expected: {expected_arches}\n"
f"Stderr: {err}\nOutput: {output}",
)
temp_dir = tempfile.mkdtemp()
old_envvar = os.environ.get("TORCH_CUDA_ARCH_LIST", None)
try:
os.environ["TORCH_CUDA_ARCH_LIST"] = flags
params = {
"name": "cudaext_archflags",
"sources": [
"cpp_extensions/cuda_extension.cpp",
"cpp_extensions/cuda_extension.cu",
],
"extra_cuda_cflags": ["-O2"],
"verbose": True,
"build_directory": temp_dir,
}
if IS_WINDOWS:
p = mp.Process(target=torch.utils.cpp_extension.load, kwargs=params)
# Compile and load the test CUDA arch in a different Python process to avoid
# polluting the current one and causes test_jit_cuda_extension to fail on
# Windows. There is no clear way to unload a module after it has been imported
# and torch.utils.cpp_extension.load builds and loads the module in one go.
# See https://github.com/pytorch/pytorch/issues/61655 for more details
p.start()
p.join()
else:
torch.utils.cpp_extension.load(**params)
# Expected output for --list-elf:
# ELF file 1: cudaext_archflags.1.sm_61.cubin
# ELF file 2: cudaext_archflags.2.sm_52.cubin
_check_cuobjdump_output(expected[0])
if expected[1] is not None:
# Expected output for --list-ptx:
# PTX file 1: cudaext_archflags.1.sm_61.ptx
_check_cuobjdump_output(expected[1], is_ptx=True)
finally:
if IS_WINDOWS:
# rmtree returns permission error: [WinError 5] Access is denied
# on Windows, this is a word-around
subprocess.run(["rm", "-rf", temp_dir], stdout=subprocess.PIPE)
else:
shutil.rmtree(temp_dir)
if old_envvar is None:
os.environ.pop("TORCH_CUDA_ARCH_LIST")
else:
os.environ["TORCH_CUDA_ARCH_LIST"] = old_envvar
@unittest.skipIf(not TEST_CUDA, "CUDA not found")
@unittest.skipIf(TEST_ROCM, "disabled on rocm")
def test_jit_cuda_archflags(self):
# Test a number of combinations:
# - the default for the machine we're testing on
# - Separators, can be ';' (most common) or ' '
# - Architecture names
# - With/without '+PTX'
n = torch.cuda.device_count()
capabilities = {torch.cuda.get_device_capability(i) for i in range(n)}
# expected values is length-2 tuple: (list of ELF, list of PTX)
# note: there should not be more than one PTX value
archflags = {
"": (
[f"{capability[0]}{capability[1]}" for capability in capabilities],
None,
),
"Maxwell+Tegra;6.1": (["53", "61"], None),
"Volta": (["70"], ["70"]),
}
archflags["7.5+PTX"] = (["75"], ["75"])
archflags["5.0;6.0+PTX;7.0;7.5"] = (["50", "60", "70", "75"], ["60"])
if int(torch.version.cuda.split(".")[0]) < 12:
# CUDA 12 drops compute capability < 5.0
archflags["Pascal 3.5"] = (["35", "60", "61"], None)
for flags, expected in archflags.items():
try:
self._run_jit_cuda_archflags(flags, expected)
except RuntimeError as e:
# Using the device default (empty flags) may fail if the device is newer than the CUDA compiler
# This raises a RuntimeError with a specific message which we explicitly ignore here
if not flags and "Error building" in str(e):
pass
else:
raise
try:
torch.cuda.synchronize()
except RuntimeError:
# Ignore any error, e.g. unsupported PTX code on current device
# to avoid errors from here leaking into other tests
pass
@unittest.skipIf(not TEST_CUDNN, "CuDNN not found")
@unittest.skipIf(TEST_ROCM, "Not supported on ROCm")
def test_jit_cudnn_extension(self):
# implementation of CuDNN ReLU
if IS_WINDOWS:
extra_ldflags = ["cudnn.lib"]
else:
extra_ldflags = ["-lcudnn"]
module = torch.utils.cpp_extension.load(
name="torch_test_cudnn_extension",
sources=["cpp_extensions/cudnn_extension.cpp"],
extra_ldflags=extra_ldflags,
verbose=True,
with_cuda=True,
)
x = torch.randn(100, device="cuda", dtype=torch.float32)
y = torch.zeros(100, device="cuda", dtype=torch.float32)
module.cudnn_relu(x, y) # y=relu(x)
self.assertEqual(torch.nn.functional.relu(x), y)
with self.assertRaisesRegex(RuntimeError, "same size"):
y_incorrect = torch.zeros(20, device="cuda", dtype=torch.float32)
module.cudnn_relu(x, y_incorrect)
def test_inline_jit_compile_extension_with_functions_as_list(self):
cpp_source = """
torch::Tensor tanh_add(torch::Tensor x, torch::Tensor y) {
return x.tanh() + y.tanh();
}
"""
module = torch.utils.cpp_extension.load_inline(
name="inline_jit_extension_with_functions_list",
cpp_sources=cpp_source,
functions="tanh_add",
verbose=True,
)
self.assertEqual(module.tanh_add.__doc__.split("\n")[2], "tanh_add")
x = torch.randn(4, 4)
y = torch.randn(4, 4)
z = module.tanh_add(x, y)
self.assertEqual(z, x.tanh() + y.tanh())
def test_inline_jit_compile_extension_with_functions_as_dict(self):
cpp_source = """
torch::Tensor tanh_add(torch::Tensor x, torch::Tensor y) {
return x.tanh() + y.tanh();
}
"""
module = torch.utils.cpp_extension.load_inline(
name="inline_jit_extension_with_functions_dict",
cpp_sources=cpp_source,
functions={"tanh_add": "Tanh and then sum :D"},
verbose=True,
)
self.assertEqual(module.tanh_add.__doc__.split("\n")[2], "Tanh and then sum :D")
def test_inline_jit_compile_extension_multiple_sources_and_no_functions(self):
cpp_source1 = """
torch::Tensor sin_add(torch::Tensor x, torch::Tensor y) {
return x.sin() + y.sin();
}
"""
cpp_source2 = """
#include <torch/extension.h>
torch::Tensor sin_add(torch::Tensor x, torch::Tensor y);
PYBIND11_MODULE(TORCH_EXTENSION_NAME, m) {
m.def("sin_add", &sin_add, "sin(x) + sin(y)");
}
"""
module = torch.utils.cpp_extension.load_inline(
name="inline_jit_extension",
cpp_sources=[cpp_source1, cpp_source2],
verbose=True,
)
x = torch.randn(4, 4)
y = torch.randn(4, 4)
z = module.sin_add(x, y)
self.assertEqual(z, x.sin() + y.sin())
@unittest.skip("Temporarily disabled")
@unittest.skipIf(not (TEST_CUDA or TEST_ROCM), "CUDA not found")
def test_inline_jit_compile_extension_cuda(self):
cuda_source = """
__global__ void cos_add_kernel(
const float* __restrict__ x,
const float* __restrict__ y,
float* __restrict__ output,
const int size) {
const auto index = blockIdx.x * blockDim.x + threadIdx.x;
if (index < size) {
output[index] = __cosf(x[index]) + __cosf(y[index]);
}
}
torch::Tensor cos_add(torch::Tensor x, torch::Tensor y) {
auto output = torch::zeros_like(x);
const int threads = 1024;
const int blocks = (output.numel() + threads - 1) / threads;
cos_add_kernel<<<blocks, threads>>>(x.data<float>(), y.data<float>(), output.data<float>(), output.numel());
return output;
}
"""
# Here, the C++ source need only declare the function signature.
cpp_source = "torch::Tensor cos_add(torch::Tensor x, torch::Tensor y);"
module = torch.utils.cpp_extension.load_inline(
name="inline_jit_extension_cuda",
cpp_sources=cpp_source,
cuda_sources=cuda_source,
functions=["cos_add"],
verbose=True,
)
self.assertEqual(module.cos_add.__doc__.split("\n")[2], "cos_add")
x = torch.randn(4, 4, device="cuda", dtype=torch.float32)
y = torch.randn(4, 4, device="cuda", dtype=torch.float32)
z = module.cos_add(x, y)
self.assertEqual(z, x.cos() + y.cos())
@unittest.skip("Temporarily disabled")
@unittest.skipIf(not (TEST_CUDA or TEST_ROCM), "CUDA not found")
def test_inline_jit_compile_custom_op_cuda(self):
cuda_source = """
__global__ void cos_add_kernel(
const float* __restrict__ x,
const float* __restrict__ y,
float* __restrict__ output,
const int size) {
const auto index = blockIdx.x * blockDim.x + threadIdx.x;
if (index < size) {
output[index] = __cosf(x[index]) + __cosf(y[index]);
}
}
torch::Tensor cos_add(torch::Tensor x, torch::Tensor y) {
auto output = torch::zeros_like(x);
const int threads = 1024;
const int blocks = (output.numel() + threads - 1) / threads;
cos_add_kernel<<<blocks, threads>>>(x.data_ptr<float>(), y.data_ptr<float>(), output.data_ptr<float>(), output.numel());
return output;
}
"""
# Here, the C++ source need only declare the function signature.
cpp_source = """
#include <torch/library.h>
torch::Tensor cos_add(torch::Tensor x, torch::Tensor y);
TORCH_LIBRARY(inline_jit_extension_custom_op_cuda, m) {
m.def("cos_add", cos_add);
}
"""
torch.utils.cpp_extension.load_inline(
name="inline_jit_extension_custom_op_cuda",
cpp_sources=cpp_source,
cuda_sources=cuda_source,
verbose=True,
is_python_module=False,
)
x = torch.randn(4, 4, device="cuda", dtype=torch.float32)
y = torch.randn(4, 4, device="cuda", dtype=torch.float32)
z = torch.ops.inline_jit_extension_custom_op_cuda.cos_add(x, y)
self.assertEqual(z, x.cos() + y.cos())
def test_inline_jit_compile_extension_throws_when_functions_is_bad(self):
with self.assertRaises(ValueError):
torch.utils.cpp_extension.load_inline(
name="invalid_jit_extension", cpp_sources="", functions=5
)
def test_lenient_flag_handling_in_jit_extensions(self):
cpp_source = """
torch::Tensor tanh_add(torch::Tensor x, torch::Tensor y) {
return x.tanh() + y.tanh();
}
"""
module = torch.utils.cpp_extension.load_inline(
name="lenient_flag_handling_extension",
cpp_sources=cpp_source,
functions="tanh_add",
extra_cflags=["-g\n\n", "-O0 -Wall"],
extra_include_paths=[" cpp_extensions\n"],
verbose=True,
)
x = torch.zeros(100, dtype=torch.float32)
y = torch.zeros(100, dtype=torch.float32)
z = module.tanh_add(x, y).cpu()
self.assertEqual(z, x.tanh() + y.tanh())
@unittest.skip("Temporarily disabled")
@unittest.skipIf(not (TEST_CUDA or TEST_ROCM), "CUDA not found")
def test_half_support(self):
"""
Checks for an issue with operator< ambiguity for half when certain
THC headers are included.
See https://github.com/pytorch/pytorch/pull/10301#issuecomment-416773333
for the corresponding issue.
"""
cuda_source = """
template<typename T, typename U>
__global__ void half_test_kernel(const T* input, U* output) {
if (input[0] < input[1] || input[0] >= input[1]) {
output[0] = 123;
}
}
torch::Tensor half_test(torch::Tensor input) {
auto output = torch::empty(1, input.options().dtype(torch::kFloat));
AT_DISPATCH_FLOATING_TYPES_AND_HALF(input.scalar_type(), "half_test", [&] {
half_test_kernel<scalar_t><<<1, 1>>>(
input.data<scalar_t>(),
output.data<float>());
});
return output;
}
"""
module = torch.utils.cpp_extension.load_inline(
name="half_test_extension",
cpp_sources="torch::Tensor half_test(torch::Tensor input);",
cuda_sources=cuda_source,
functions=["half_test"],
verbose=True,
)
x = torch.randn(3, device="cuda", dtype=torch.half)
result = module.half_test(x)
self.assertEqual(result[0], 123)
def test_reload_jit_extension(self):
def compile(code):
return torch.utils.cpp_extension.load_inline(
name="reloaded_jit_extension",
cpp_sources=code,
functions="f",
verbose=True,
)
module = compile("int f() { return 123; }")
self.assertEqual(module.f(), 123)
module = compile("int f() { return 456; }")
self.assertEqual(module.f(), 456)
module = compile("int f() { return 456; }")
self.assertEqual(module.f(), 456)
module = compile("int f() { return 789; }")
self.assertEqual(module.f(), 789)
def test_cpp_frontend_module_has_same_output_as_python(self, dtype=torch.double):
extension = torch.utils.cpp_extension.load(
name="cpp_frontend_extension",
sources="cpp_extensions/cpp_frontend_extension.cpp",
verbose=True,
)
input = torch.randn(2, 5, dtype=dtype)
cpp_linear = extension.Net(5, 2)
cpp_linear.to(dtype)
python_linear = torch.nn.Linear(5, 2).to(dtype)
# First make sure they have the same parameters
cpp_parameters = dict(cpp_linear.named_parameters())
with torch.no_grad():
python_linear.weight.copy_(cpp_parameters["fc.weight"])
python_linear.bias.copy_(cpp_parameters["fc.bias"])
cpp_output = cpp_linear.forward(input)
python_output = python_linear(input)
self.assertEqual(cpp_output, python_output)
cpp_output.sum().backward()
python_output.sum().backward()
for p in cpp_linear.parameters():
self.assertFalse(p.grad is None)
self.assertEqual(cpp_parameters["fc.weight"].grad, python_linear.weight.grad)
self.assertEqual(cpp_parameters["fc.bias"].grad, python_linear.bias.grad)
def test_cpp_frontend_module_python_inter_op(self):
extension = torch.utils.cpp_extension.load(
name="cpp_frontend_extension",
sources="cpp_extensions/cpp_frontend_extension.cpp",
verbose=True,
)
# Create a torch.nn.Module which uses the C++ module as a submodule.
class M(torch.nn.Module):
def __init__(self):
super().__init__()
self.x = torch.nn.Parameter(torch.tensor(1.0))
self.net = extension.Net(3, 5)
def forward(self, input):
return self.net.forward(input) + self.x
net = extension.Net(5, 2)
net.double()
net.to(torch.get_default_dtype())
self.assertEqual(str(net), "Net")
# Further embed the torch.nn.Module into a Sequential, and also add the
# C++ module as an element of the Sequential.
sequential = torch.nn.Sequential(M(), torch.nn.Tanh(), net, torch.nn.Sigmoid())
input = torch.randn(2, 3)
# Try calling the module!
output = sequential.forward(input)
# The call operator is bound to forward too.
self.assertEqual(output, sequential(input))
self.assertEqual(list(output.shape), [2, 2])
# Do changes on the module hierarchy.
old_dtype = torch.get_default_dtype()
sequential.to(torch.float64)
sequential.to(torch.float32)
sequential.to(old_dtype)
self.assertEqual(sequential[2].parameters()[0].dtype, old_dtype)
# Make sure we can access these methods recursively.
self.assertEqual(
len(list(sequential.parameters())), len(net.parameters()) * 2 + 1
)
self.assertEqual(
len(list(sequential.named_parameters())),
len(net.named_parameters()) * 2 + 1,
)
self.assertEqual(len(list(sequential.buffers())), len(net.buffers()) * 2)
self.assertEqual(len(list(sequential.modules())), 8)
# Test clone()
net2 = net.clone()
self.assertEqual(len(net.parameters()), len(net2.parameters()))
self.assertEqual(len(net.buffers()), len(net2.buffers()))
self.assertEqual(len(net.modules()), len(net2.modules()))
# Try differentiating through the whole module.
for parameter in net.parameters():
self.assertIsNone(parameter.grad)
output.sum().backward()
for parameter in net.parameters():
self.assertFalse(parameter.grad is None)
self.assertGreater(parameter.grad.sum(), 0)
# Try calling zero_grad()
net.zero_grad()
for p in net.parameters():
assert p.grad is None, "zero_grad defaults to setting grads to None"
# Test train(), eval(), training (a property)
self.assertTrue(net.training)
net.eval()
self.assertFalse(net.training)
net.train()
self.assertTrue(net.training)
net.eval()
# Try calling the additional methods we registered.
biased_input = torch.randn(4, 5)
output_before = net.forward(biased_input)
bias = net.get_bias().clone()
self.assertEqual(list(bias.shape), [2])
net.set_bias(bias + 1)
self.assertEqual(net.get_bias(), bias + 1)
output_after = net.forward(biased_input)
self.assertNotEqual(output_before, output_after)
# Try accessing parameters
self.assertEqual(len(net.parameters()), 2)
np = net.named_parameters()
self.assertEqual(len(np), 2)
self.assertIn("fc.weight", np)
self.assertIn("fc.bias", np)
self.assertEqual(len(net.buffers()), 1)
nb = net.named_buffers()
self.assertEqual(len(nb), 1)
self.assertIn("buf", nb)
self.assertEqual(nb[0][1], torch.eye(5))
def test_cpp_frontend_module_has_up_to_date_attributes(self):
extension = torch.utils.cpp_extension.load(
name="cpp_frontend_extension",
sources="cpp_extensions/cpp_frontend_extension.cpp",
verbose=True,
)
net = extension.Net(5, 2)
self.assertEqual(len(net._parameters), 0)
net.add_new_parameter("foo", torch.eye(5))
self.assertEqual(len(net._parameters), 1)
self.assertEqual(len(net._buffers), 1)
net.add_new_buffer("bar", torch.eye(5))
self.assertEqual(len(net._buffers), 2)
self.assertEqual(len(net._modules), 1)
net.add_new_submodule("fc2")
self.assertEqual(len(net._modules), 2)
@unittest.skipIf(not (TEST_CUDA or TEST_ROCM), "CUDA not found")
def test_cpp_frontend_module_python_inter_op_with_cuda(self):
extension = torch.utils.cpp_extension.load(
name="cpp_frontend_extension",
sources="cpp_extensions/cpp_frontend_extension.cpp",
verbose=True,
)
net = extension.Net(5, 2)
for p in net.parameters():
self.assertTrue(p.device.type == "cpu")
cpu_parameters = [p.clone() for p in net.parameters()]
device = torch.device("cuda", 0)
net.to(device)
for i, p in enumerate(net.parameters()):
self.assertTrue(p.device.type == "cuda")
self.assertTrue(p.device.index == 0)
self.assertEqual(cpu_parameters[i], p)
net.cpu()
net.add_new_parameter("a", torch.eye(5))
net.add_new_parameter("b", torch.eye(5))
net.add_new_buffer("c", torch.eye(5))
net.add_new_buffer("d", torch.eye(5))
net.add_new_submodule("fc2")
net.add_new_submodule("fc3")
for p in net.parameters():
self.assertTrue(p.device.type == "cpu")
net.cuda()
for p in net.parameters():
self.assertTrue(p.device.type == "cuda")
def test_returns_shared_library_path_when_is_python_module_is_true(self):
source = """
#include <torch/script.h>
torch::Tensor func(torch::Tensor x) { return x; }
static torch::RegisterOperators r("test::func", &func);
"""
torch.utils.cpp_extension.load_inline(
name="is_python_module",
cpp_sources=source,
functions="func",
verbose=True,
is_python_module=False,
)
self.assertEqual(torch.ops.test.func(torch.eye(5)), torch.eye(5))
def test_set_default_type_also_changes_aten_default_type(self):
module = torch.utils.cpp_extension.load_inline(
name="test_set_default_type",
cpp_sources="torch::Tensor get() { return torch::empty({}); }",
functions="get",
verbose=True,
)
initial_default = torch.get_default_dtype()
try:
self.assertEqual(module.get().dtype, initial_default)
torch.set_default_dtype(torch.float64)
self.assertEqual(module.get().dtype, torch.float64)
torch.set_default_dtype(torch.float32)
self.assertEqual(module.get().dtype, torch.float32)
torch.set_default_dtype(torch.float16)
self.assertEqual(module.get().dtype, torch.float16)
finally:
torch.set_default_dtype(initial_default)
def test_compilation_error_formatting(self):
# Test that the missing-semicolon error message has linebreaks in it.
# This'll fail if the message has been munged into a single line.
# It's hard to write anything more specific as every compiler has it's own
# error formatting.
with self.assertRaises(RuntimeError) as e:
torch.utils.cpp_extension.load_inline(
name="test_compilation_error_formatting",
cpp_sources="int main() { return 0 }",
)
pattern = r".*(\\n|\\r).*"
self.assertNotRegex(str(e), pattern)
def test_warning(self):
# Note: the module created from this source will include the py::key_error
# symbol. But because of visibility and the fact that it lives in a
# different compilation unit than pybind, this trips up ubsan even though
# it is fine. "ubsan.supp" thus needs to contain "vptr:warn_mod.so".
source = """
// error_type:
// 0: no error
// 1: torch::TypeError
// 2: python_error()
// 3: py::error_already_set
at::Tensor foo(at::Tensor x, int error_type) {
std::ostringstream err_stream;
err_stream << "Error with " << x.type();
TORCH_WARN(err_stream.str());
if(error_type == 1) {
throw torch::TypeError(err_stream.str().c_str());
}
if(error_type == 2) {
PyObject* obj = PyTuple_New(-1);
TORCH_CHECK(!obj);
// Pretend it was caught in a different thread and restored here
auto e = python_error();
e.persist();
e.restore();
throw e;
}
if(error_type == 3) {
throw py::key_error(err_stream.str());
}
return x.cos();
}
"""
# Ensure double type for hard-coded c name below
t = torch.rand(2).double()
cpp_tensor_name = r"CPUDoubleType"
# Without error handling, the warnings cannot be catched
warn_mod = torch.utils.cpp_extension.load_inline(
name="warn_mod",
cpp_sources=[source],
functions=["foo"],
with_pytorch_error_handling=False,
)
with warnings.catch_warnings(record=True) as w:
warn_mod.foo(t, 0)
self.assertEqual(len(w), 0)
with self.assertRaisesRegex(TypeError, t.type()):
warn_mod.foo(t, 1)
self.assertEqual(len(w), 0)
with self.assertRaisesRegex(
SystemError, "bad argument to internal function"
):
warn_mod.foo(t, 2)
self.assertEqual(len(w), 0)
with self.assertRaisesRegex(KeyError, cpp_tensor_name):
warn_mod.foo(t, 3)
self.assertEqual(len(w), 0)
warn_mod = torch.utils.cpp_extension.load_inline(
name="warn_mod",
cpp_sources=[source],
functions=["foo"],
with_pytorch_error_handling=True,
)
with warnings.catch_warnings(record=True) as w:
# Catched with no error should be detected
warn_mod.foo(t, 0)
self.assertEqual(len(w), 1)
# Catched with cpp error should also be detected
with self.assertRaisesRegex(TypeError, t.type()):
warn_mod.foo(t, 1)
self.assertEqual(len(w), 2)
# Catched with python error should also be detected
with self.assertRaisesRegex(
SystemError, "bad argument to internal function"
):
warn_mod.foo(t, 2)
self.assertEqual(len(w), 3)
# Catched with pybind error should also be detected
# Note that there is no type name translation for pybind errors
with self.assertRaisesRegex(KeyError, cpp_tensor_name):
warn_mod.foo(t, 3)
self.assertEqual(len(w), 4)
# Make sure raising warnings are handled properly
with warnings.catch_warnings(record=True) as w:
warnings.simplefilter("error")
# No error, the warning should raise
with self.assertRaisesRegex(UserWarning, t.type()):
warn_mod.foo(t, 0)
self.assertEqual(len(w), 0)
# Another error happened, the warning is ignored
with self.assertRaisesRegex(TypeError, t.type()):
warn_mod.foo(t, 1)
self.assertEqual(len(w), 0)
def test_autograd_from_cpp(self):
source = """
void run_back(at::Tensor x) {
x.backward({});
}
void run_back_no_gil(at::Tensor x) {
pybind11::gil_scoped_release no_gil;
x.backward({});
}
"""
class MyFn(torch.autograd.Function):
@staticmethod
def forward(ctx, x):
return x.clone()
@staticmethod
def backward(ctx, gx):
return gx
test_backward_deadlock = torch.utils.cpp_extension.load_inline(
name="test_backward_deadlock",
cpp_sources=[source],
functions=["run_back", "run_back_no_gil"],
)
# This used to deadlock
inp = torch.rand(20, requires_grad=True)
loss = MyFn.apply(inp).sum()
with self.assertRaisesRegex(
RuntimeError, "The autograd engine was called while holding the GIL."
):
test_backward_deadlock.run_back(loss)
inp = torch.rand(20, requires_grad=True)
loss = MyFn.apply(inp).sum()
test_backward_deadlock.run_back_no_gil(loss)
def test_custom_compound_op_autograd(self):
# Test that a custom compound op (i.e. a custom op that just calls other aten ops)
# correctly returns gradients of those other ops
source = """
#include <torch/library.h>
torch::Tensor my_add(torch::Tensor x, torch::Tensor y) {
return x + y;
}
TORCH_LIBRARY(my, m) {
m.def("add", &my_add);
}
"""
torch.utils.cpp_extension.load_inline(
name="is_python_module",
cpp_sources=source,
verbose=True,
is_python_module=False,
)
a = torch.randn(5, 5, requires_grad=True)
b = torch.randn(5, 5, requires_grad=True)
for fast_mode in (True, False):
gradcheck(torch.ops.my.add, [a, b], eps=1e-2, fast_mode=fast_mode)
def test_custom_functorch_error(self):
# Test that a custom C++ Function raises an error under functorch transforms
identity_m = torch.utils.cpp_extension.load(
name="identity",
sources=["cpp_extensions/identity.cpp"],
)
t = torch.randn(3, requires_grad=True)
msg = r"cannot use C\+\+ torch::autograd::Function with functorch"
with self.assertRaisesRegex(RuntimeError, msg):
torch.func.vmap(identity_m.identity)(t)
with self.assertRaisesRegex(RuntimeError, msg):
torch.func.grad(identity_m.identity)(t)
def test_gen_extension_h_pch(self):
if not IS_LINUX:
return
source = """
at::Tensor sin_add(at::Tensor x, at::Tensor y) {
return x.sin() + y.sin();
}
"""
head_file_pch = os.path.join(_TORCH_PATH, "include", "torch", "extension.h.gch")
head_file_signature = os.path.join(
_TORCH_PATH, "include", "torch", "extension.h.sign"
)
remove_extension_h_precompiler_headers()
pch_exist = os.path.exists(head_file_pch)
signature_exist = os.path.exists(head_file_signature)
self.assertEqual(pch_exist, False)
self.assertEqual(signature_exist, False)
torch.utils.cpp_extension.load_inline(
name="inline_extension_with_pch",
cpp_sources=[source],
functions=["sin_add"],
verbose=True,
use_pch=True,
)