import pathlib import argparse import os import yaml from collections import namedtuple from typing import List, Dict, Union, Sequence, Optional, Callable, Iterable, Iterator, Tuple, Type from tools.codegen.dest.lazy_ir import LazyIR, TSLazyIR from tools.codegen.gen import get_grouped_native_functions, parse_native_yaml from tools.codegen.model import (FunctionSchema, NativeFunction, NativeFunctionsGroup, OperatorName) from tools.codegen.selective_build.selector import SelectiveBuilder from tools.codegen.utils import concatMap, YamlLoader, FileManager import tools.codegen.dest as dest from .gen_backend_stubs import (parse_backend_yaml, error_on_missing_kernels, gen_dispatchkey_nativefunc_headers, gen_dispatcher_registrations) # Parses the external backend's yaml, and adds a new BackendIndex for the backend's dispatch key. # Returns a Tuple of (backend_key, autograd_key, cpp_namespace, updated BackendIndex mapping, full_codegen) ParsedExternalYaml = namedtuple('ParsedExternalYaml', [ 'backend_key', 'autograd_key', 'cpp_namespace', 'backend_indices', 'full_codegen']) def parse_full_codegen_ops( backend_yaml_path: str, grouped_native_functions: Sequence[Union[NativeFunction, NativeFunctionsGroup]], ) -> List[OperatorName]: native_functions_map: Dict[OperatorName, NativeFunction] = { f.func.name: f for f in concatMap(lambda f: [f] if isinstance(f, NativeFunction) else list(f.functions()), grouped_native_functions) } with open(backend_yaml_path, 'r') as f: yaml_values = yaml.load(f, Loader=YamlLoader) assert isinstance(yaml_values, dict) full_codegen = yaml_values.pop('full_codegen', []) assert isinstance(full_codegen, list), f'expected "full_codegen" to be a list, but got: {full_codegen}' full_codegen = [OperatorName.parse(name) for name in full_codegen] return full_codegen def main() -> None: parser = argparse.ArgumentParser(description='Generate Lazy Tensor backend files') parser.add_argument( '-s', '--source_yaml', help='path to source yaml file containing operator external definitions') parser.add_argument( '-o', '--output_dir', help='output directory') parser.add_argument( '--dry_run', type=bool, default=False, help='output directory') parser.add_argument( '--impl_path', type=str, default=None, help='path to the source C++ file containing kernel definitions') parser.add_argument( '--gen_ts_lowerings', action="store_true", help='Generate TorchScript lowerings in addition to Lazy IR and NativeFunctions') parser.add_argument( '--node_base', type=str, default="Node", help='Name of backend specific custom Lazy IR Node base class') parser.add_argument( '--node_base_hdr', type=str, default=None, help='Path to header file defining custom Lazy IR Node base class') parser.add_argument( '--tensor_class', type=str, default="torch::lazy::LazyTensor", help='Name of backend specific custom Lazy Tensor class') parser.add_argument( '--tensor_class_hdr', type=str, default="torch/csrc/lazy/core/tensor.h", help='Path to header file defining custom Lazy Tensor class') options = parser.parse_args() run(options.source_yaml, options.output_dir, options.dry_run, options.impl_path, options.gen_ts_lowerings, options.node_base, options.node_base_hdr, options.tensor_class, options.tensor_class_hdr, TSLazyIR) def run(source_yaml: str, output_dir: str, dry_run: bool, impl_path: Optional[str], gen_ts_lowerings: bool, node_base: str, node_base_hdr: Optional[str], tensor_class: str, tensor_class_hdr: str, lazy_ir_cls: Type[LazyIR]) -> None: # Assumes that this file lives at PYTORCH_ROOT/tools/codegen/gen_backend_stubs.py pytorch_root = pathlib.Path(__file__).parent.parent.parent.absolute() template_dir = os.path.join(pytorch_root, "aten/src/ATen/templates") def make_file_manager(install_dir: str) -> FileManager: return FileManager(install_dir=install_dir, template_dir=template_dir, dry_run=dry_run) fm = make_file_manager(output_dir) native_yaml_path = os.path.join(pytorch_root, 'aten/src/ATen/native/native_functions.yaml') parsed_yaml = parse_native_yaml(native_yaml_path) native_functions, backend_indices = parsed_yaml.native_functions, parsed_yaml.backend_indices grouped_native_functions = get_grouped_native_functions(native_functions) def sort_native_function(f: Union[NativeFunctionsGroup, NativeFunction]) -> str: """ We sort the native function because of the note in concat_map_codegen. TODO(alanwaketan): Remove this sorting hack once all ops are grouped properly. """ func = f.functional.func if isinstance(f, NativeFunctionsGroup) else f.func return str(func.name.name) grouped_native_functions = sorted(grouped_native_functions, key=sort_native_function) parsed_backend_yaml = parse_backend_yaml(source_yaml, grouped_native_functions, backend_indices) backend_key = parsed_backend_yaml.backend_key autograd_key = parsed_backend_yaml.autograd_key cpp_namespace = parsed_backend_yaml.cpp_namespace backend_indices = parsed_backend_yaml.backend_indices full_codegen = parse_full_codegen_ops(source_yaml, grouped_native_functions) def concat_map_codegen(func: Callable[[NativeFunction], Sequence[str]], xs: Iterable[Union[NativeFunctionsGroup, NativeFunction]], *, codegenInplaceVariant: bool = False) -> Iterator[str]: """ We code-gen for the functional variant, which is all we need for IR classes/lowerings/shape inferences, but we only code-gen additional entries for the inplace variant for the native functions. Note: If xs is not sorted, there may be an edge case when generating IR classes. Considering relu and relu_, if we encounter relu_ before relu. we will then generate an IR class with op = at::aten::relu_ for both relu and relu_ which will cause problems for relu. TODO(alanwaketan): Once all ops are grouped properly, we should no longer need this hack. """ generated = set() def gen_key(func: FunctionSchema) -> Tuple[str, str]: # we want to generate unique entries for overloads of functional variants, # but not for inplace variants unless explicitly told `codegenInplaceVariant` return (func.name.name.base, func.name.overload_name) for x in xs: f = x.functional if isinstance(x, NativeFunctionsGroup) else x # For the 'or'd terms: # 1. codegenInplaceVariant means we can generate the in-place variant corresponding items. # 2. not f.func.name.name.inplace means the op is not a in-place variant, so we can generate the item. # 3. f.func.name.name.base not in generated means even for in-place ops we still need to generate the item # as if they were the functional variants for one time. if f.func.name in full_codegen and \ (codegenInplaceVariant or not f.func.name.name.inplace or gen_key(f.func) not in generated): generated.add(gen_key(f.func)) for r in func(f): yield r selector = SelectiveBuilder.get_nop_selector() assert backend_key is not None class_name = backend_indices[backend_key].native_function_class_name() if impl_path is not None: error_on_missing_kernels(native_functions, backend_indices, backend_key, autograd_key, impl_path, full_codegen) assert class_name is not None # Generate nativefunction declarations gen_dispatchkey_nativefunc_headers(fm, class_name, cpp_namespace, backend_indices, grouped_native_functions, backend_key, autograd_key) # Generate Dispatcher registrations which hook up the nativefunctions for dispatch_key in [backend_key] if autograd_key is None else [backend_key, autograd_key]: gen_dispatcher_registrations(fm, output_dir, cpp_namespace, backend_indices, grouped_native_functions, backend_key, dispatch_key, selector) # Generate native function impls that build IR nodes fm.write_with_template(f'{backend_key}NativeFunctions.cpp', 'DispatchKeyNativeFunctions.cpp', lambda: { 'includes': [f'#include <{path}>' for path in [ tensor_class_hdr, "ATen/Functions.h", "ATen/MetaFunctions.h", "ATen/Operators.h", "torch/csrc/lazy/core/lazy_graph_executor.h", "torch/csrc/lazy/core/metrics.h", "torch/csrc/lazy/core/shape.h", "lazy_tensor_core/csrc/ts_backend/aten_eager_fallback.h", f"{output_dir}/{backend_key}NativeFunctions.h", f"{output_dir}/{backend_key}LazyIr.h", f"{output_dir}/{backend_key}ShapeInference.h", ]], 'native_functions_include': '', 'backend_namespace': 'torch_lazy_tensors', # this is wrong 'native_function_definitions': list(concat_map_codegen( dest.GenLazyNativeFuncDefinition(f'{backend_key}NativeFunctions', backend_indices[backend_key], tensor_class), grouped_native_functions, codegenInplaceVariant=True )), }) # Generate headers for shape/dtype funcs for non-meta kernels fm.write_with_template(f'{backend_key}ShapeInference.h', 'ShapeInference.h', lambda: { 'lazy_ir_sysinc': [f'#include <{path}>' for path in [ "ATen/Tensor.h", "c10/core/ScalarType.h", "c10/util/Optional.h", "torch/csrc/lazy/core/ir.h", "torch/csrc/lazy/core/shape.h", "vector", ]], 'lazy_ir_inc': [], 'DispatchKey': backend_key, 'dispatch_namespace': backend_key.lower(), 'func_declarations': list(concat_map_codegen( dest.GenLazyShapeInferenceDefinition(backend_indices[backend_key], tensor_class), grouped_native_functions, codegenInplaceVariant=True, )), }) # Generate IR node classes fm.write_with_template(f'{backend_key}LazyIr.h', 'LazyIr.h', lambda: { 'lazy_ir_sysinc': [f'#include <{path}>' for path in [ "ATen/core/Formatting.h", "c10/core/ScalarType.h", "c10/util/Optional.h", "torch/csrc/lazy/core/hash.h", "torch/csrc/lazy/core/ir.h", "vector", ]], 'lazy_ir_inc': [f'#include "{path}"' for path in [ node_base_hdr if node_base_hdr is not None else None ] if path is not None], 'external_backend_headers': f'#include "{output_dir}/{backend_key}NativeFunctions.h"', 'namespaced_headers': '', 'DispatchKey': backend_key, 'dispatch_namespace': backend_key.lower(), 'ir_declarations': list(concat_map_codegen( lazy_ir_cls(backend_indices[backend_key], node_base), grouped_native_functions )), }) if __name__ == '__main__': main()