# Owner(s): ["module: inductor"] import unittest from unittest.mock import patch import torch._dynamo.config as dynamo_config import torch._inductor.config as inductor_config from torch._dynamo.test_minifier_common import MinifierTestBase from torch._inductor import config from torch.testing._internal.common_utils import IS_JETSON, IS_MACOS, TEST_WITH_ASAN from torch.testing._internal.inductor_utils import GPU_TYPE from torch.testing._internal.triton_utils import requires_gpu class MinifierTests(MinifierTestBase): # Test that compile and accuracy errors after aot can be repro'd (both CPU and CUDA) def _test_after_aot(self, device, expected_error): # NB: The program is intentionally quite simple, just enough to # trigger one minification step, no more (dedicated minifier tests # should exercise minifier only) run_code = f"""\ @torch.compile() def inner(x): x = torch.relu(x) x = torch.cos(x) return x inner(torch.randn(20, 20).to("{device}")) """ self._run_full_test(run_code, "aot", expected_error, isolate=False) @unittest.skipIf(IS_JETSON, "Fails on Jetson") @inductor_config.patch("cpp.inject_relu_bug_TESTING_ONLY", "compile_error") def test_after_aot_cpu_compile_error(self): self._test_after_aot("cpu", "CppCompileError") @unittest.skipIf(IS_JETSON, "Fails on Jetson") @inductor_config.patch("cpp.inject_relu_bug_TESTING_ONLY", "accuracy") def test_after_aot_cpu_accuracy_error(self): self._test_after_aot("cpu", "AccuracyError") @requires_gpu @inductor_config.patch("triton.inject_relu_bug_TESTING_ONLY", "compile_error") def test_after_aot_gpu_compile_error(self): self._test_after_aot(GPU_TYPE, "SyntaxError") @requires_gpu @inductor_config.patch("triton.inject_relu_bug_TESTING_ONLY", "accuracy") def test_after_aot_gpu_accuracy_error(self): self._test_after_aot(GPU_TYPE, "AccuracyError") @inductor_config.patch("cpp.inject_relu_bug_TESTING_ONLY", "accuracy") def test_constant_in_graph(self): run_code = """\ @torch.compile() def inner(x): return torch.tensor(2) + torch.relu(x) inner(torch.randn(2)) """ self._run_full_test(run_code, "aot", "AccuracyError", isolate=False) @requires_gpu @patch.object(config, "joint_graph_constant_folding", False) def test_rmse_improves_over_atol(self): # From https://twitter.com/itsclivetime/status/1651135821045719041?s=20 run_code = """ @torch.compile() def inner(x): return x - torch.tensor(655, dtype=torch.half, device='GPU_TYPE') * 100 inner(torch.tensor(655 * 100, dtype=torch.half, device='GPU_TYPE')) """.replace( "GPU_TYPE", GPU_TYPE ) # If we disable RMSE against fp64, this triggers accuracy error, # as the increased precision from torch.compile changes the result # of 655 * 100 with dynamo_config.patch("same_two_models_use_fp64", False): self._run_full_test( run_code, "aot", "AccuracyError", isolate=False, # NB: need this to avoid refusing to minify when fp64 doesn't work # (which it doesn't, due to the config patch above) minifier_args=["--strict-accuracy"], ) # But using fp64, we see that the intended semantics is the increased # 655 * 100 precision, and so we report no problem self._run_full_test(run_code, "aot", None, isolate=False) @inductor_config.patch("cpp.inject_relu_bug_TESTING_ONLY", "accuracy") @inductor_config.patch("cpp.inject_log1p_bug_TESTING_ONLY", "accuracy") def test_accuracy_vs_strict_accuracy(self): run_code = """ @torch.compile() def inner(x): y = torch.log1p(x) b = y > 0 # Need to ensure suffix removal hits a boolean output b = torch.logical_not(b) b = torch.logical_not(b) x = torch.relu(x) return torch.where(b, x, x) inner(torch.randn(20)) """ # Strict accuracy gets hung up on the boolean mask difference, which # will localize the error to sigmoid, even though it doesn't actually # matter to the end result res = self._run_full_test( run_code, "aot", "AccuracyError", isolate=False, minifier_args=["--strict-accuracy"], ) self.assertExpectedInline( res.repro_module(), """\ class Repro(torch.nn.Module): def __init__(self) -> None: super().__init__() def forward(self, arg0_1): log1p = torch.ops.aten.log1p.default(arg0_1); arg0_1 = None return (log1p,)""", ) # FP accuracy will refuse to promote the logical_not on the outputs, # and so you'll get to the relu (unless the minifier somehow tries # removing entire suffix except the log1p first!) res = self._run_full_test(run_code, "aot", "AccuracyError", isolate=False) self.assertExpectedInline( res.repro_module(), """\ class Repro(torch.nn.Module): def __init__(self) -> None: super().__init__() def forward(self, arg0_1): relu = torch.ops.aten.relu.default(arg0_1); arg0_1 = None return (relu,)""", ) @inductor_config.patch("cpp.inject_relu_bug_TESTING_ONLY", "accuracy") def test_offload_to_disk(self): # Just a smoketest, this doesn't actually test that memory # usage went down. Test case is carefully constructed to hit # delta debugging. run_code = """\ @torch.compile() def inner(x): x = torch.sin(x) x = torch.sin(x) x = torch.cos(x) x = torch.relu(x) return x inner(torch.randn(20, 20)) """ self._run_full_test( run_code, "aot", "AccuracyError", isolate=False, minifier_args=["--offload-to-disk"], ) if __name__ == "__main__": from torch._dynamo.test_case import run_tests # Skip CI tests on mac since CPU inductor does not seem to work due to C++ compile errors, # also skip on ASAN due to https://github.com/pytorch/pytorch/issues/98262 if not IS_MACOS and not TEST_WITH_ASAN: run_tests()