# flake8: noqa: B950 from ._internal import register_artifact, register_log DYNAMIC = [ "torch.fx.experimental.symbolic_shapes", "torch.fx.experimental.sym_node", "torch.fx.experimental.recording", ] DISTRIBUTED = [ "torch.distributed", "torch._dynamo.backends.distributed", "torch.nn.parallel.distributed", ] register_log("dynamo", ["torch._dynamo", *DYNAMIC]) register_log("fake_tensor", ["torch._subclasses.fake_tensor"]) register_log("aot", ["torch._functorch.aot_autograd", "torch._functorch._aot_autograd"]) register_log("autograd", "torch.autograd") register_log("inductor", ["torch._inductor", "torch._inductor.cudagraph_trees"]) register_artifact( "cudagraphs", "Logs information from wrapping inductor generated code with cudagraphs.", ) register_log("dynamic", DYNAMIC) register_log("torch", "torch") register_log("distributed", DISTRIBUTED) register_log( "c10d", ["torch.distributed.distributed_c10d", "torch.distributed.rendezvous"] ) register_log( "ddp", ["torch.nn.parallel.distributed", "torch._dynamo.backends.distributed"] ) register_log("pp", ["torch.distributed.pipelining"]) register_log("fsdp", ["torch.distributed.fsdp", "torch.distributed._composable.fsdp"]) register_log("dtensor", ["torch.distributed._tensor", "torch.distributed.tensor"]) register_log("onnx", "torch.onnx") register_log( "export", [ "torch._dynamo", "torch.export", "torch.export.dynamic_shapes", *DYNAMIC, "torch._export.converter", "torch._export.non_strict_utils", ], ) register_artifact( "guards", "This prints the guards for every compiled Dynamo frame. It does not tell you where the guards come from.", visible=True, ) register_artifact("verbose_guards", "", off_by_default=True) register_artifact( "bytecode", "Prints the original and modified bytecode from Dynamo. Mostly useful if you're debugging our bytecode generation in Dynamo.", off_by_default=True, ) register_artifact( "graph", "Prints the dynamo traced graph (prior to AOTDispatch) in a table. If you prefer python code use `graph_code` instead. ", ) register_artifact("graph_code", "Like `graph`, but gives you the Python code instead.") register_artifact( "graph_sizes", "Prints the sizes of all FX nodes in the dynamo graph." ) register_artifact( "trace_source", "As we execute bytecode, prints the file name / line number we are processing and the actual source code. Useful with `bytecode`", ) register_artifact( "trace_call", "Like trace_source, but it will give you the per-expression blow-by-blow if your Python is recent enough.", ) register_artifact( "trace_bytecode", "As we trace bytecode, prints the instruction and the current stack.", ) register_artifact( "aot_graphs", "Prints the FX forward and backward graph generated by AOTDispatch, after partitioning. Useful to understand what's being given to Inductor", visible=True, ) register_artifact( "aot_joint_graph", "Print FX joint graph from AOTAutograd, prior to partitioning. Useful for debugging partitioning", ) register_artifact( "aot_graphs_effects", "Prints the FX forward and backward graph generated by AOTDispatch, useful for debugging effects processing.", visible=True, ) register_artifact( "post_grad_graphs", "Prints the FX graph generated by post grad passes. Useful to understand what's being given to Inductor after post grad passes", ) register_artifact( "compiled_autograd", "Prints various logs in compiled_autograd, including but not limited to the graphs. Useful for debugging compiled_autograd.", visible=True, ) register_artifact( "compiled_autograd_verbose", "Will affect performance. Prints compiled_autograd logs with C++ info e.g. autograd node -> fx node mapping", off_by_default=True, ) register_artifact( "ddp_graphs", "Only relevant for compiling DDP. DDP splits into multiple graphs to trigger comms early. This will print each individual graph here.", ) register_artifact( "recompiles", "Prints the reason why we recompiled a graph. Very, very useful.", visible=True, ) register_artifact( "recompiles_verbose", "Prints all guard checks that fail during a recompilation. " "At runtime, Dynamo will stop at the first failed check for each failing guard. " "So not all logged failing checks are actually ran by Dynamo.", visible=True, off_by_default=True, ) register_artifact( "graph_breaks", "Prints whenever Dynamo decides that it needs to graph break (i.e. create a new graph). Useful for debugging why torch.compile has poor performance", visible=True, ) register_artifact( "not_implemented", "Prints log messages whenever we return NotImplemented in a multi-dispatch, letting you trace through each object we attempted to dispatch to", ) register_artifact( "output_code", "Prints the code that Inductor generates (either Triton or C++)", off_by_default=True, visible=True, ) register_artifact( "kernel_code", "Prints the code that Inductor generates (on a per-kernel basis)", off_by_default=True, visible=True, ) register_artifact( "schedule", "Inductor scheduler information. Useful if working on Inductor fusion algo", off_by_default=True, ) register_artifact("perf_hints", "", off_by_default=True) register_artifact("onnx_diagnostics", "", off_by_default=True) register_artifact( "fusion", "Detailed Inductor fusion decisions. More detailed than 'schedule'", off_by_default=True, ) register_artifact( "loop_ordering", "Logs related to loop ordering", off_by_default=True, ) register_artifact( "overlap", "Detailed Inductor compute/comm overlap decisions", off_by_default=True, ) register_artifact( "sym_node", "Logs extra info for various SymNode operations", off_by_default=True, ) register_artifact( "trace_shape_events", "Logs traces for every ShapeEnv operation that we record for replay", off_by_default=True, ) register_artifact( "cudagraph_static_inputs", "Logs static inputs handling in dynamo, AOT, and cudagraphs", off_by_default=True, ) register_artifact( "benchmarking", "Detailed Inductor benchmarking information.", off_by_default=True, ) register_artifact("custom_format_test_artifact", "Testing only", log_format="")