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996 lines
35 KiB
996 lines
35 KiB
import argparse
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import os
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import pathlib
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from collections import defaultdict
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from dataclasses import dataclass
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from typing import Any, Callable, Dict, List, Optional, Sequence, TextIO, Tuple, Union
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import yaml
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# Parse native_functions.yaml into a sequence of NativeFunctions and Backend Indices.
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from torchgen import dest
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from torchgen.api import cpp as aten_cpp
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from torchgen.api.types import CppSignature, CppSignatureGroup, CType, NamedCType
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from torchgen.context import (
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method_with_native_function,
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method_with_nested_native_function,
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with_native_function_and_index,
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)
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from torchgen.executorch.api import et_cpp
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from torchgen.executorch.api.custom_ops import (
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ComputeNativeFunctionStub,
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gen_custom_ops_registration,
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)
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from torchgen.executorch.api.types import contextArg, ExecutorchCppSignature
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from torchgen.executorch.api.unboxing import Unboxing
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from torchgen.executorch.model import ETKernelIndex, ETKernelKey, ETParsedYaml
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from torchgen.executorch.parse import ET_FIELDS, parse_et_yaml, parse_et_yaml_struct
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from torchgen.gen import (
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get_custom_build_selector,
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get_native_function_declarations,
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get_native_function_declarations_from_ns_grouped_kernels,
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get_native_function_schema_registrations,
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LineLoader,
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parse_native_yaml,
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)
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from torchgen.model import (
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BackendIndex,
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BackendMetadata,
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DEFAULT_KERNEL_NAMESPACE,
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DispatchKey,
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FunctionSchema,
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Location,
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NativeFunction,
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NativeFunctionsGroup,
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OperatorName,
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Variant,
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)
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from torchgen.selective_build.selector import SelectiveBuilder
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from torchgen.utils import (
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context,
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FileManager,
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make_file_manager,
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mapMaybe,
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NamespaceHelper,
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)
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def _sig_decl_wrapper(sig: Union[CppSignature, ExecutorchCppSignature]) -> str:
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"""
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A wrapper function to basically get `sig.decl(include_context=True)`.
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For ATen kernel, the codegen has no idea about ET contextArg, so we
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use this wrapper to add it.
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"""
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if isinstance(sig, ExecutorchCppSignature):
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return sig.decl()
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returns_type = aten_cpp.returns_type(sig.func.returns).cpp_type()
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cpp_args = [a.decl() for a in sig.arguments()]
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cpp_args_str = ", ".join([contextArg.decl()] + cpp_args)
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sig_decl = f"{returns_type} {sig.name()}({cpp_args_str})"
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return sig_decl
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def static_dispatch(
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sig: Union[CppSignature, ExecutorchCppSignature],
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f: NativeFunction,
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backend_indices: List[BackendIndex],
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) -> str:
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"""
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For a given `NativeFunction`, find out the corresponding native function and dispatch to it. If zero or more than one
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native function exists, error out. A simplified version of register_dispatch_key.py
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Arguments:
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sig: A CppSignature for this native function we want to use.
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f: NativeFunction to generate static dispatch.
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backend_indices: All available backends.
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Return:
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C++ code to call backend-specific functions, e.g., "return at::native::add(self, other, scale);"
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"""
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if len(backend_indices) == 0 or f.manual_kernel_registration:
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return ""
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backends = [b for b in backend_indices if b.has_kernel(f)]
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static_block = None
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if len(backends) == 1:
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backend_metadata = backends[0].get_kernel(f)
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if backend_metadata:
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args = ", ".join(a.name for a in sig.arguments())
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# Here we are assuming there's no difference between CppSignature and NativeSignature for Executorch.
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static_block = f"return ::{backend_metadata.cpp_namespace}::{backend_metadata.kernel}({args});"
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else:
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static_block = f"""
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ET_ASSERT_UNREACHABLE_MSG("The number of native function(s) binding to {f.func.name} is {len(backends)}.");
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"""
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return f"""
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// {f.namespace}::{f.func}
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TORCH_API inline {_sig_decl_wrapper(sig)} {{
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{static_block}
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}}
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"""
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# Generates Functions.h, which provides the functional public C++ API,
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# and the scaffolding to call into the dispatcher from these functions.
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@dataclass(frozen=True)
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class ComputeFunction:
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static_dispatch_backend_indices: List[BackendIndex]
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selector: SelectiveBuilder
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use_aten_lib: bool
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is_custom_op: Callable[[NativeFunction], bool]
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@method_with_native_function
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def __call__(self, f: NativeFunction) -> Optional[str]:
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is_method_variant = False
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if not self.selector.is_root_operator(f"{f.namespace}::{f.func.name}"):
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return None
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if Variant.function not in f.variants and Variant.method in f.variants:
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is_method_variant = True
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# only valid remaining case is only function is in f.variants
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elif not (Variant.function in f.variants and Variant.method not in f.variants):
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raise Exception(
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f"Can't handle native function {f.func} with the following variant specification {f.variants}."
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)
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sig: Union[CppSignature, ExecutorchCppSignature] = (
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CppSignatureGroup.from_native_function(
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f, method=False, fallback_binding=f.manual_cpp_binding
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).most_faithful_signature()
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if self.use_aten_lib
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else ExecutorchCppSignature.from_native_function(f)
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)
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if self.use_aten_lib and not self.is_custom_op(f):
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comma = ", "
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if is_method_variant:
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return f"""
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// {f.namespace}::{f.func}
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TORCH_API inline {_sig_decl_wrapper(sig)} {{
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return {sig.arguments()[0].name}.{sig.name()}({comma.join(e.name for e in sig.arguments()[1:])});
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}}
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"""
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else:
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return f"""
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// {f.namespace}::{f.func}
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TORCH_API inline {_sig_decl_wrapper(sig)} {{
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return at::{sig.name()}({comma.join(e.name for e in sig.arguments())});
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}}
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"""
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else:
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return static_dispatch(
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sig,
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f,
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backend_indices=self.static_dispatch_backend_indices,
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)
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# Generates RegisterCodegenUnboxedKernels.cpp.
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@dataclass(frozen=True)
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class ComputeCodegenUnboxedKernels:
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selector: SelectiveBuilder
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use_aten_lib: bool
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@method_with_nested_native_function
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def __call__(
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self,
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unbox_kernel_entry: Tuple[NativeFunction, Tuple[ETKernelKey, BackendMetadata]],
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) -> str:
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f: NativeFunction = unbox_kernel_entry[0]
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kernel_key: Union[ETKernelKey, List[ETKernelKey]] = unbox_kernel_entry[1][0]
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kernel_meta: BackendMetadata = unbox_kernel_entry[1][1]
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op_name = f"{f.namespace}::{f.func.name}"
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if not self.selector.is_root_operator(op_name):
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return ""
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if not isinstance(kernel_key, list):
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kernel_key = [kernel_key]
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used_kernel_keys = self.selector.et_get_selected_kernels(
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op_name, [k.to_native_string() for k in kernel_key]
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)
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if not used_kernel_keys:
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return ""
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sig: Union[CppSignature, ExecutorchCppSignature]
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argument_type_gen: Callable[..., NamedCType]
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return_type_gen: Callable[..., CType]
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if self.use_aten_lib:
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sig = CppSignatureGroup.from_native_function(
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f, method=False, fallback_binding=f.manual_cpp_binding
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).most_faithful_signature()
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argument_type_gen = aten_cpp.argumenttype_type
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return_type_gen = aten_cpp.returns_type
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arguments = sig.arguments()
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kernel_call = f"torch::executor::{f.namespace}::{sig.name()}"
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else:
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sig = ExecutorchCppSignature.from_native_function(f)
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argument_type_gen = et_cpp.argumenttype_type
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return_type_gen = et_cpp.returns_type
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arguments = sig.arguments(include_context=False)
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kernel_call = f"{kernel_meta.cpp_namespace}::{kernel_meta.kernel}"
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# parse arguments into C++ code
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binding_list, code_list = Unboxing(
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argument_type_gen=argument_type_gen
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).convert_arguments(arguments)
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# for each C++ argument, generate the conversion code
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code_connector = "\n\t"
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arg_connector = ", "
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args_str = f"{arg_connector.join(e.name for e in binding_list)}"
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event_tracer_output_logging = ""
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output_ids = []
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if len(f.func.returns) == 0:
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if len(f.func.arguments.out) == 0:
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raise Exception(
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f"Can't handle native function {f.func} with no returns and no out yet."
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)
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out = f.func.arguments.out[0]
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return_assignment = f"""stack[{len(binding_list)}] = &{out.name};"""
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ret_prefix = ""
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output_ids = [len(binding_list)]
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else:
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if len(f.func.arguments.out) == 0:
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return_assignment = (
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f"""*stack[{len(binding_list)}] = EValue(result_);"""
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)
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ret_prefix = return_type_gen(f.func.returns).cpp_type() + " result_ = "
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output_ids = [len(binding_list)]
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else:
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return_assignment = ""
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ret_prefix = ""
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output_ids = [
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len(binding_list) - (i + 1)
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for i in reversed(range(len(f.func.arguments.out)))
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]
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for output_id in output_ids:
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event_tracer_output_logging += (
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f"internal::event_tracer_log_evalue("
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f"context.internal_event_tracer(), "
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f"*stack[{output_id}]);\n"
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)
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newline = "\n "
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return "\n".join(
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[
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f"""
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Kernel(
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"{f.namespace}::{f.func.name}",{newline + '"' + (k + '",') if k != 'default' else ''}
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[]({contextArg.defn()}, EValue** stack) {{
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{code_connector.join(code_list)}
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internal::EventTracerProfileScope event_tracer_scope(context.internal_event_tracer(), "native_call_{f.func.name}");
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EXECUTORCH_SCOPE_PROF("native_call_{f.func.name}");
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{ret_prefix}{kernel_call}(context, {args_str});
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{event_tracer_output_logging}
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{return_assignment}
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}}
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),
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"""
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for k in used_kernel_keys
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]
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)
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def gen_unboxing(
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*,
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native_functions: Sequence[NativeFunction],
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cpu_fm: FileManager,
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selector: SelectiveBuilder,
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use_aten_lib: bool,
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kernel_index: ETKernelIndex,
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manual_registration: bool,
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) -> None:
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# Iterable type for write_sharded is a Tuple of (native_function, (kernel_key, metadata))
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def key_func(
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item: Tuple[NativeFunction, Tuple[ETKernelKey, BackendMetadata]]
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) -> str:
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return item[0].root_name + ":" + item[1][0].to_native_string()
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items: List[Tuple[NativeFunction, Tuple[ETKernelKey, BackendMetadata]]] = [
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(native_function, (kernel_key, metadata))
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for native_function in native_functions
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for kernel_key, metadata in kernel_index.get_kernels(native_function).items()
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]
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header = ["Functions.h" if use_aten_lib else "NativeFunctions.h"]
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filename = (
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"RegisterKernels.cpp"
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if manual_registration
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else "RegisterCodegenUnboxedKernels.cpp"
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)
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cpu_fm.write_sharded(
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filename,
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items,
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key_fn=key_func,
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env_callable=lambda unbox_kernel_entry: {
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"unboxed_kernels": [
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ComputeCodegenUnboxedKernels(selector, use_aten_lib)(unbox_kernel_entry)
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],
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"fn_header": header
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if unbox_kernel_entry == items[0]
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else [], # Only write header once
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},
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num_shards=1,
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sharded_keys={"unboxed_kernels", "fn_header"},
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)
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@with_native_function_and_index # type: ignore[arg-type]
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def compute_native_function_declaration(
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g: Union[NativeFunctionsGroup, NativeFunction], kernel_index: ETKernelIndex
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) -> List[str]:
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assert isinstance(g, NativeFunction)
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sig = ExecutorchCppSignature.from_native_function(f=g)
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metadata_list = kernel_index.get_kernels(g).values()
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if metadata_list is None:
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return []
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prefix = "TORCH_API"
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# for kernels in lean mode, we declare two versions, one with context and one without.
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# In the end we will cleanup the unused one.
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def gen_decl(metadata: BackendMetadata, include_context: bool) -> str:
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return f"{prefix} {sig.decl(name=metadata.kernel, include_context=include_context)};"
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return [
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gen_decl(metadata, include_context)
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for include_context in [False, True]
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for metadata in metadata_list
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]
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def gen_functions_declarations(
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*,
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native_functions: Sequence[NativeFunction],
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kernel_index: ETKernelIndex,
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selector: SelectiveBuilder,
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use_aten_lib: bool,
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custom_ops_native_functions: Optional[Sequence[NativeFunction]] = None,
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) -> str:
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"""
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Generates namespace separated C++ function API inline declaration/definitions.
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Native functions are grouped by namespaces and the generated code is wrapped inside
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namespace blocks.
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E.g., for `custom_1::foo.out` in yaml file we will generate a C++ API as a symbol
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in `torch::executor::custom_1::foo_out`. This way we avoid symbol conflict when
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the other `custom_2::foo.out` is available.
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"""
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# convert kernel index to BackendIndex. This is because we can't handle ETKernelIndex yet.
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# TODO larryliu: evaluate if this code is still needed. If yes let it handle ETKernelIndex.
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dispatch_key = DispatchKey.CPU
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backend_index = kernel_index._to_backend_index()
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ns_grouped_functions = defaultdict(list)
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for native_function in native_functions:
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ns_grouped_functions[native_function.namespace].append(native_function)
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functions_declarations = ""
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newline = "\n"
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for namespace in ns_grouped_functions:
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ns_helper = NamespaceHelper(
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namespace_str=namespace,
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entity_name="",
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max_level=3,
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)
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declarations = list(
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mapMaybe(
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ComputeFunction(
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static_dispatch_backend_indices=[backend_index],
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selector=selector,
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use_aten_lib=use_aten_lib,
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is_custom_op=lambda f: custom_ops_native_functions is not None
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and f in custom_ops_native_functions,
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),
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ns_grouped_functions[namespace],
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)
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)
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functions_declarations += f"""
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{ns_helper.prologue}
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{newline.join(declarations)}
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{ns_helper.epilogue}
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"""
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return functions_declarations
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def get_ns_grouped_kernels(
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*,
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native_functions: Sequence[NativeFunction],
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kernel_index: ETKernelIndex,
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native_function_decl_gen: Callable[
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[
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Union[NativeFunctionsGroup, NativeFunction],
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ETKernelIndex,
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],
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List[str],
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],
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) -> Dict[str, List[str]]:
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ns_grouped_kernels: Dict[str, List[str]] = defaultdict(list)
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for f in native_functions:
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native_function_namespaces = set()
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op_kernels = kernel_index.get_kernels(f)
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for backend_metadata in op_kernels.values():
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if backend_metadata:
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namespace = backend_metadata.cpp_namespace
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native_function_namespaces.add(namespace)
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else:
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namespace = DEFAULT_KERNEL_NAMESPACE
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assert (
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len(native_function_namespaces) <= 1
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), f"Codegen only supports one namespace per operator, got {native_function_namespaces}"
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ns_grouped_kernels[namespace].extend(
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native_function_decl_gen(f, kernel_index)
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)
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return ns_grouped_kernels
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|
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|
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def gen_headers(
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*,
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native_functions: Sequence[NativeFunction],
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gen_custom_ops_header: bool,
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custom_ops_native_functions: Sequence[NativeFunction],
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selector: SelectiveBuilder,
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kernel_index: ETKernelIndex,
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cpu_fm: FileManager,
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use_aten_lib: bool,
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) -> None:
|
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"""Generate headers.
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Args:
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native_functions (Sequence[NativeFunction]): a collection of NativeFunction for ATen ops.
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gen_custom_ops_header (bool): whether we should generate CustomOpsNativeFunctions.h
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custom_ops_native_functions (Sequence[NativeFunction]): a collection of NativeFunction for custom ops.
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kernel_index (ETKernelIndex): kernel collection
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cpu_fm (FileManager): file manager manages output stream
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use_aten_lib (bool): whether we are generating for PyTorch types or Executorch types.
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"""
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aten_headers = ["#include <ATen/Functions.h>"]
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backend_indices = {DispatchKey.CPU: kernel_index._to_backend_index()}
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if gen_custom_ops_header:
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cpu_fm.write_with_template(
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"CustomOpsNativeFunctions.h",
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"NativeFunctions.h",
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lambda: {
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"nativeFunctions_declarations": get_native_function_declarations(
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grouped_native_functions=custom_ops_native_functions,
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backend_indices=backend_indices,
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native_function_decl_gen=dest.compute_native_function_declaration,
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),
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"headers": [
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"#include <ATen/ATen.h>",
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"#include <torch/torch.h>",
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],
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},
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)
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aten_headers.append('#include "CustomOpsNativeFunctions.h"')
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cpu_fm.write(
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"Functions.h",
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lambda: {
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"static_dispatch_extra_headers": aten_headers
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if use_aten_lib
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else ['#include "NativeFunctions.h"'],
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"Functions_declarations": gen_functions_declarations(
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native_functions=native_functions,
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kernel_index=kernel_index,
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selector=selector,
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use_aten_lib=use_aten_lib,
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custom_ops_native_functions=custom_ops_native_functions,
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),
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},
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)
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|
cpu_fm.write(
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"RegisterKernels.h",
|
|
lambda: {
|
|
"generated_comment": "@" + "generated by torchgen/gen_executorch.py",
|
|
},
|
|
)
|
|
headers = {
|
|
"headers": [
|
|
"#include <executorch/runtime/core/exec_aten/exec_aten.h> // at::Tensor etc.",
|
|
"#include <executorch/codegen/macros.h> // TORCH_API",
|
|
"#include <executorch/runtime/kernel/kernel_runtime_context.h>",
|
|
],
|
|
}
|
|
if use_aten_lib:
|
|
cpu_fm.write(
|
|
"NativeFunctions.h",
|
|
lambda: dict(
|
|
{
|
|
"nativeFunctions_declarations": get_native_function_declarations(
|
|
grouped_native_functions=native_functions,
|
|
backend_indices=backend_indices,
|
|
native_function_decl_gen=dest.compute_native_function_declaration,
|
|
),
|
|
},
|
|
**headers,
|
|
),
|
|
)
|
|
else:
|
|
ns_grouped_kernels = get_ns_grouped_kernels(
|
|
native_functions=native_functions,
|
|
kernel_index=kernel_index,
|
|
native_function_decl_gen=compute_native_function_declaration, # type: ignore[arg-type]
|
|
)
|
|
cpu_fm.write(
|
|
"NativeFunctions.h",
|
|
lambda: dict(
|
|
{
|
|
"nativeFunctions_declarations": get_native_function_declarations_from_ns_grouped_kernels(
|
|
ns_grouped_kernels=ns_grouped_kernels,
|
|
),
|
|
},
|
|
**headers,
|
|
),
|
|
)
|
|
|
|
|
|
def gen_custom_ops(
|
|
*,
|
|
native_functions: Sequence[NativeFunction],
|
|
selector: SelectiveBuilder,
|
|
kernel_index: ETKernelIndex,
|
|
cpu_fm: FileManager,
|
|
rocm: bool,
|
|
) -> None:
|
|
dispatch_key = DispatchKey.CPU
|
|
(
|
|
anonymous_definition,
|
|
static_init_dispatch_registrations,
|
|
) = gen_custom_ops_registration(
|
|
native_functions=native_functions,
|
|
selector=selector,
|
|
kernel_index=kernel_index,
|
|
rocm=rocm,
|
|
)
|
|
cpu_fm.write_with_template(
|
|
f"Register{dispatch_key}CustomOps.cpp",
|
|
"RegisterDispatchKeyCustomOps.cpp",
|
|
lambda: {
|
|
"ops_headers": '#include "CustomOpsNativeFunctions.h"',
|
|
"DispatchKey": dispatch_key,
|
|
"dispatch_namespace": dispatch_key.lower(),
|
|
"dispatch_namespaced_definitions": "",
|
|
"dispatch_anonymous_definitions": anonymous_definition,
|
|
"static_init_dispatch_registrations": static_init_dispatch_registrations,
|
|
},
|
|
)
|
|
cpu_fm.write_with_template(
|
|
f"Register{dispatch_key}Stub.cpp",
|
|
"RegisterDispatchKeyCustomOps.cpp",
|
|
lambda: {
|
|
"ops_headers": "",
|
|
"DispatchKey": dispatch_key,
|
|
"dispatch_namespace": dispatch_key.lower(),
|
|
"dispatch_namespaced_definitions": "",
|
|
"dispatch_anonymous_definitions": list(
|
|
mapMaybe(ComputeNativeFunctionStub(), native_functions)
|
|
),
|
|
"static_init_dispatch_registrations": static_init_dispatch_registrations,
|
|
},
|
|
)
|
|
|
|
(
|
|
aten_schema_registrations,
|
|
schema_registrations,
|
|
) = get_native_function_schema_registrations(
|
|
native_functions=native_functions,
|
|
schema_selector=selector,
|
|
)
|
|
cpu_fm.write(
|
|
"RegisterSchema.cpp",
|
|
lambda: {
|
|
"schema_registrations": schema_registrations,
|
|
"aten_schema_registrations": aten_schema_registrations,
|
|
},
|
|
)
|
|
|
|
|
|
def translate_native_yaml(
|
|
tags_yaml_path: str,
|
|
aten_yaml_path: str,
|
|
native_yaml_path: Optional[str],
|
|
use_aten_lib: bool,
|
|
out_file: TextIO,
|
|
) -> None:
|
|
"""Translates Executorch DSL dialect to use the same syntax as
|
|
native_functions.yaml. The major difference is that Executorch DSL dialect
|
|
supports "op" key, where it refers to the operator name in native_functions.yaml.
|
|
|
|
For example, a functions.yaml may have the following entry:
|
|
|
|
- op: add.out
|
|
...
|
|
|
|
It needs to be translated to the following:
|
|
|
|
- func: add.out(Tensor self, Tensor other, *, Scalar alpha=1, Tensor(a!) out) -> Tensor(a!)
|
|
...
|
|
|
|
We go in aten_yaml_path and find the operator schema for "add.out" and add it
|
|
to the original functions.yaml. We also add required field "variants", where for
|
|
Executorch it will always be "function".
|
|
|
|
For ATen mode we don't have to do the translation because native_yaml_path is
|
|
the same as native_functions.yaml.
|
|
|
|
Args:
|
|
tags_yaml_path: Path to a tags.yaml file to satisfy codegen parsing.
|
|
It is not optional.
|
|
aten_yaml_path: Path to ATen operator yaml file native_functions.yaml.
|
|
native_yaml_path: Path to a functions.yaml file to parse.
|
|
If the path does not exist in the filesystem, it is treated as an
|
|
empty file. If `custom_ops_yaml_path` exists, the contents of that
|
|
file are appended to the yaml input to be parsed.
|
|
use_aten_lib: We use this flag to determine if we want to generate native
|
|
functions. In ATen mode we should generate out= variants.
|
|
out_file: The IO object that we are writing into.
|
|
Returns:
|
|
None
|
|
"""
|
|
if use_aten_lib:
|
|
with open(aten_yaml_path) as aten_yaml:
|
|
out_file.writelines(aten_yaml.readlines())
|
|
return
|
|
|
|
native_functions, persisted_fields = parse_et_yaml(
|
|
aten_yaml_path,
|
|
tags_yaml_path,
|
|
None,
|
|
skip_native_fns_gen=False,
|
|
)
|
|
|
|
func_to_scoped_name: Dict[FunctionSchema, str] = {
|
|
f.func: f"{f.namespace}::{f.func.name}" for f in native_functions
|
|
}
|
|
op_to_scoped_name: Dict[OperatorName, str] = {
|
|
func.name: name for func, name in func_to_scoped_name.items()
|
|
}
|
|
|
|
schema_dict = {name: str(func) for func, name in func_to_scoped_name.items()}
|
|
kernel_persist_dict: Dict[str, Dict[str, Any]] = {
|
|
op_to_scoped_name[op]: v for op, v in persisted_fields.items()
|
|
}
|
|
|
|
if (
|
|
not native_yaml_path
|
|
or not os.path.exists(native_yaml_path)
|
|
or os.stat(native_yaml_path).st_size == 0
|
|
):
|
|
return
|
|
with open(native_yaml_path) as native_yaml:
|
|
native_es = yaml.load(native_yaml, Loader=LineLoader)
|
|
if not native_es:
|
|
return
|
|
for e in native_es:
|
|
assert isinstance(e.get("__line__"), int), e
|
|
loc = Location(native_yaml_path, e.pop("__line__"))
|
|
with context(lambda: f"in {loc}:\n "):
|
|
if "variants" not in e:
|
|
e["variants"] = "function"
|
|
if "func" in e:
|
|
continue
|
|
assert isinstance(e.get("op"), str), e
|
|
opname = e.pop("op")
|
|
if "::" not in opname:
|
|
opname = "aten::" + opname
|
|
assert opname in schema_dict
|
|
e["func"] = schema_dict.get(opname)
|
|
|
|
# Write out persisted kernel information
|
|
if opname in kernel_persist_dict:
|
|
for k, v in kernel_persist_dict[opname].items():
|
|
e[k] = v
|
|
|
|
yaml.dump(native_es, out_file, width=1000)
|
|
|
|
|
|
def parse_yaml(
|
|
path: Optional[str],
|
|
tags_yaml_path: str,
|
|
function_filter: Callable[[NativeFunction], bool],
|
|
skip_native_fns_gen: bool = False,
|
|
) -> Tuple[
|
|
List[NativeFunction],
|
|
Union[Dict[DispatchKey, Dict[OperatorName, BackendMetadata]], ETKernelIndex],
|
|
]:
|
|
if path and os.path.exists(path) and os.stat(path).st_size > 0:
|
|
with open(path) as f:
|
|
es = yaml.load(f, Loader=LineLoader)
|
|
|
|
# Check for kernel index structure
|
|
kernel_index = (
|
|
parse_et_yaml_struct(es) if any("kernels" in e for e in es) else None
|
|
)
|
|
|
|
# Remove ET specific fields from entries for BC compatibility
|
|
for entry in es:
|
|
for field in ET_FIELDS:
|
|
entry.pop(field, None)
|
|
|
|
parsed_yaml = parse_native_yaml(
|
|
path,
|
|
tags_yaml_path,
|
|
None,
|
|
skip_native_fns_gen=skip_native_fns_gen,
|
|
loaded_yaml=es,
|
|
)
|
|
native_functions = list(filter(function_filter, parsed_yaml.native_functions))
|
|
op_names = [f.func.name for f in native_functions]
|
|
|
|
# (1) Return ETKernelIndex if kernel index is present
|
|
if kernel_index is not None:
|
|
filtered_index = {
|
|
op_name: kernel_mapping
|
|
for op_name, kernel_mapping in kernel_index.index.items()
|
|
if op_name in op_names
|
|
}
|
|
return native_functions, ETKernelIndex(index=filtered_index)
|
|
|
|
# (2) Return BackendIndices if kernel index is absent
|
|
def map_index(
|
|
m: Dict[OperatorName, BackendMetadata]
|
|
) -> Dict[OperatorName, BackendMetadata]:
|
|
return {op: m[op] for op in m if op in op_names}
|
|
|
|
backend_indices = {
|
|
k: map_index(b.index) for (k, b) in parsed_yaml.backend_indices.items()
|
|
}
|
|
|
|
return native_functions, backend_indices
|
|
else:
|
|
return [], {}
|
|
|
|
|
|
def parse_yaml_files(
|
|
tags_yaml_path: str,
|
|
aten_yaml_path: str,
|
|
native_yaml_path: Optional[str],
|
|
custom_ops_yaml_path: Optional[str],
|
|
selector: SelectiveBuilder,
|
|
use_aten_lib: bool,
|
|
) -> Tuple[ETParsedYaml, Optional[ETParsedYaml]]:
|
|
"""Parses functions.yaml and custom_ops.yaml files.
|
|
|
|
Args:
|
|
tags_yaml_path: Path to a tags.yaml file to satisfy codegen parsing.
|
|
It is not optional.
|
|
aten_yaml_path: Path to ATen operator yaml file native_functions.yaml.
|
|
native_yaml_path: Path to a functions.yaml file to parse.
|
|
If the path does not exist in the filesystem, it is treated as an
|
|
empty file. If `custom_ops_yaml_path` exists, the contents of that
|
|
file are appended to the yaml input to be parsed.
|
|
custom_ops_yaml_path: Path to a custom_ops.yaml file to parse. If
|
|
the path does not exist in the filesystem, it is ignored.
|
|
selector: For selective build.
|
|
use_aten_lib: We use this flag to determine if we want to generate native
|
|
functions. In ATen mode we should generate out= variants.
|
|
Returns:
|
|
A tuple with two elements:
|
|
[0]: The parsed results of concatenating the contents of
|
|
`native_yaml_path` and `custom_ops_yaml_path`.
|
|
[1]: The parsed results of the contents of `custom_ops_yaml_path`, if
|
|
present. If not present, None.
|
|
"""
|
|
import tempfile
|
|
|
|
# only include selected ops, this is because we want to avoid
|
|
def function_filter(f: NativeFunction) -> bool:
|
|
return selector.is_native_function_selected(f)
|
|
|
|
with tempfile.TemporaryDirectory() as tmpdirname:
|
|
translated_yaml_path = os.path.join(tmpdirname, "translated.yaml")
|
|
with open(translated_yaml_path, "w") as translated:
|
|
translate_native_yaml(
|
|
tags_yaml_path,
|
|
aten_yaml_path,
|
|
native_yaml_path,
|
|
use_aten_lib,
|
|
translated,
|
|
)
|
|
|
|
translated_functions, translated_indices = parse_yaml(
|
|
translated_yaml_path, tags_yaml_path, function_filter, not use_aten_lib
|
|
)
|
|
custom_ops_functions, custom_ops_indices = parse_yaml(
|
|
custom_ops_yaml_path, tags_yaml_path, function_filter, True
|
|
)
|
|
|
|
# Convert BackendIndices to ETKernelIndex
|
|
if not isinstance(translated_indices, ETKernelIndex):
|
|
translated_indices = ETKernelIndex.from_backend_indices(translated_indices)
|
|
if not isinstance(custom_ops_indices, ETKernelIndex):
|
|
custom_ops_indices = ETKernelIndex.from_backend_indices(custom_ops_indices)
|
|
|
|
combined_functions = translated_functions + custom_ops_functions
|
|
combined_kernel_index = ETKernelIndex.merge_indices(
|
|
translated_indices, custom_ops_indices
|
|
)
|
|
combined_yaml = ETParsedYaml(combined_functions, combined_kernel_index)
|
|
custom_ops_parsed_yaml = ETParsedYaml(custom_ops_functions, custom_ops_indices)
|
|
|
|
return combined_yaml, custom_ops_parsed_yaml
|
|
|
|
|
|
def main() -> None:
|
|
parser = argparse.ArgumentParser(description="Generate operator source files")
|
|
# Although we don't refer to --source-path directly, make_file_manager()
|
|
# expects it to point to a directory that contains a templates/ subdirectory
|
|
# containing the file templates.
|
|
parser.add_argument(
|
|
"-s",
|
|
"--source-path",
|
|
help="path to source directory for kernel templates",
|
|
)
|
|
parser.add_argument(
|
|
"--functions-yaml-path",
|
|
"--functions_yaml_path",
|
|
help="path to the functions.yaml file to use. Optional, but at least "
|
|
"one of --functions-yaml-path and --custom-ops-yaml-path must be "
|
|
"specified.",
|
|
)
|
|
parser.add_argument(
|
|
"--custom-ops-yaml-path",
|
|
"--custom_ops_yaml_path",
|
|
help="path to the custom_ops.yaml file to use. Optional, but at least "
|
|
"one of --functions-yaml-path and --custom-ops-yaml-path must be "
|
|
"specified.",
|
|
)
|
|
parser.add_argument(
|
|
"--aten-yaml-path",
|
|
"--aten_yaml_path",
|
|
help="path to native_functions.yaml file.",
|
|
)
|
|
# Note that make_file_manager() also looks at --install-dir.
|
|
parser.add_argument(
|
|
"-d",
|
|
"--install-dir",
|
|
"--install_dir",
|
|
help="output directory",
|
|
default="build/generated",
|
|
)
|
|
parser.add_argument(
|
|
"-o",
|
|
"--output-dependencies",
|
|
help="output a list of dependencies into the given file and exit",
|
|
)
|
|
# Although we don't refer to --dry-run directly, make_file_manager() looks
|
|
# for it.
|
|
parser.add_argument(
|
|
"--dry-run",
|
|
action="store_true",
|
|
help="run without writing any files (still updates outputs)",
|
|
)
|
|
parser.add_argument(
|
|
"--static-dispatch-backend",
|
|
"--static_dispatch_backend",
|
|
nargs="*",
|
|
help="generate static dispatch code for the specific backend (if set)",
|
|
)
|
|
parser.add_argument(
|
|
"--op-registration-whitelist",
|
|
"--op_registration_whitelist",
|
|
nargs="*",
|
|
help="filter op registrations by the whitelist (if set); "
|
|
"each item is `namespace`::`operator name` without overload name; "
|
|
"e.g.: aten::empty aten::conv2d ...",
|
|
)
|
|
parser.add_argument(
|
|
"--op-selection-yaml-path",
|
|
"--op_selection_yaml_path",
|
|
help="Provide a path to the operator selection (for custom build) YAML "
|
|
"that contains the information about the set of selected operators "
|
|
"and their categories (training, ...). Each operator is either a "
|
|
"full operator name with overload or just a bare operator name. "
|
|
"The operator names also contain the namespace prefix (e.g. aten::)",
|
|
)
|
|
parser.add_argument(
|
|
"--tags-path",
|
|
help="Path to tags.yaml. Required by yaml parsing in codegen system.",
|
|
)
|
|
parser.add_argument(
|
|
"--rocm",
|
|
action="store_true",
|
|
help="reinterpret CUDA as ROCm/HIP and adjust filepaths accordingly",
|
|
)
|
|
parser.add_argument(
|
|
"--use-aten-lib",
|
|
"--use_aten_lib",
|
|
action="store_true",
|
|
help="a boolean flag to indicate whether we use ATen kernels or not, in the future this flag will be per "
|
|
"operator",
|
|
)
|
|
parser.add_argument(
|
|
"--manual_registration",
|
|
"--manual-registration",
|
|
action="store_true",
|
|
help="a boolean flag to indicate whether we want to manually call"
|
|
"register_kernels() or rely on static init. ",
|
|
)
|
|
parser.add_argument(
|
|
"--generate",
|
|
type=str,
|
|
nargs="*",
|
|
choices=["headers", "sources"],
|
|
default=["headers", "sources"],
|
|
help="Generate only a subset of files",
|
|
)
|
|
options = parser.parse_args()
|
|
assert options.tags_path, "tags.yaml is required by codegen yaml parsing."
|
|
|
|
selector = get_custom_build_selector(
|
|
options.op_registration_whitelist,
|
|
options.op_selection_yaml_path,
|
|
)
|
|
|
|
parsed_yaml, custom_ops_parsed_yaml = parse_yaml_files(
|
|
aten_yaml_path=options.aten_yaml_path,
|
|
tags_yaml_path=options.tags_path,
|
|
native_yaml_path=options.functions_yaml_path,
|
|
custom_ops_yaml_path=options.custom_ops_yaml_path,
|
|
selector=selector,
|
|
use_aten_lib=options.use_aten_lib,
|
|
)
|
|
native_functions, kernel_index = (
|
|
parsed_yaml.native_functions,
|
|
parsed_yaml.kernel_index,
|
|
)
|
|
custom_ops_native_functions = (
|
|
custom_ops_parsed_yaml.native_functions if custom_ops_parsed_yaml else []
|
|
)
|
|
|
|
cpu_fm = make_file_manager(options=options)
|
|
|
|
if "headers" in options.generate:
|
|
# generate CustomOpsNativeFunctions.h when custom_ops.yaml is present, to match the build system.
|
|
gen_headers(
|
|
native_functions=native_functions,
|
|
gen_custom_ops_header=options.custom_ops_yaml_path,
|
|
custom_ops_native_functions=custom_ops_native_functions,
|
|
selector=selector,
|
|
kernel_index=kernel_index,
|
|
cpu_fm=cpu_fm,
|
|
use_aten_lib=options.use_aten_lib,
|
|
)
|
|
|
|
if "sources" in options.generate:
|
|
gen_unboxing(
|
|
native_functions=native_functions,
|
|
cpu_fm=cpu_fm,
|
|
selector=selector,
|
|
use_aten_lib=options.use_aten_lib,
|
|
kernel_index=kernel_index,
|
|
manual_registration=options.manual_registration,
|
|
)
|
|
if custom_ops_native_functions:
|
|
gen_custom_ops(
|
|
native_functions=custom_ops_native_functions,
|
|
selector=selector,
|
|
kernel_index=kernel_index,
|
|
cpu_fm=cpu_fm,
|
|
rocm=options.rocm,
|
|
)
|
|
|
|
if options.output_dependencies:
|
|
depfile_path = pathlib.Path(options.output_dependencies).resolve()
|
|
depfile_name = depfile_path.name
|
|
depfile_stem = depfile_path.stem
|
|
|
|
for fm, prefix in [
|
|
(cpu_fm, ""),
|
|
]:
|
|
varname = prefix + depfile_stem
|
|
path = depfile_path.parent / (prefix + depfile_name)
|
|
fm.write_outputs(varname, str(path))
|
|
|
|
|
|
if __name__ == "__main__":
|
|
main()
|