Exemplo n.º 1
0
 def gen_signature_pairs(
         f: NativeFunction) -> PythonSignatureNativeFunctionPair:
     return PythonSignatureNativeFunctionPair(
         signature=signature(f, method=method, pyi=pyi),
         function=f,
     )
Exemplo n.º 2
0
def load_deprecated_signatures(
    pairs: Sequence[PythonSignatureNativeFunctionPair],
    deprecated_yaml_path: str,
    *,
    method: bool,
    pyi: bool,
) -> List[PythonSignatureNativeFunctionPair]:
    # The deprecated.yaml doesn't have complete type information, we need
    # find and leverage the original ATen signature (to which it delegates
    # the call) to generate the full python signature.
    # We join the deprecated and the original signatures using type-only form.

    # native function -> type-only signature
    @with_native_function
    def signature_original(f: NativeFunction) -> str:
        # remove inplace suffix but keep outplace suffix
        opname = str(f.func.name.name.base)
        if f.func.is_out_fn():
            opname += "_out"
        if f.func.name.name.inplace and pyi:
            opname += "_"
        args = CppSignatureGroup.from_native_function(
            f, method=False).signature.arguments()
        # Simply ignore TensorOptionsArguments as it does not exist in deprecated.yaml.
        types = ", ".join(
            argument_type_str(a.argument.type) for a in args
            if isinstance(a.argument, Argument))
        return f"{opname}({types})"

    # deprecated -> type-only native signature (according to the call order)
    def signature_deprecated(opname: str, params: List[str],
                             call_args: List[str]) -> str:
        # create a mapping of parameter name to parameter type
        types: Dict[str, str] = {}
        for param in params:
            if param == "*":
                continue
            type, name = param.split(" ")
            types[name] = type
        # if the name in the call is not in the parameter list, assume it's
        # a literal Scalar
        rearranged_types = ", ".join(
            types.get(arg, "Scalar") for arg in call_args)
        return f"{opname}({rearranged_types})"

    # group the original ATen signatures by type-only signature
    grouped: Dict[str,
                  List[PythonSignatureNativeFunctionPair]] = defaultdict(list)
    for pair in pairs:
        grouped[signature_original(pair.function)].append(pair)

    # find matching original signatures for each deprecated signature
    results: List[PythonSignatureNativeFunctionPair] = []

    with open(deprecated_yaml_path, "r") as f:
        deprecated_defs = yaml.load(f, Loader=YamlLoader)

    for deprecated in deprecated_defs:
        _, params = split_name_params(deprecated["name"])
        aten_name, call_args = split_name_params(deprecated["aten"])

        for pair in grouped[signature_deprecated(aten_name, params,
                                                 call_args)]:
            # It uses the types from the original ATen declaration, but the
            # ordering and parameter names from the deprecated overload. Any
            # default parameter values from the original ATen declaration are
            # ignored.
            # Deprecated signature might reorder input_args and input_kwargs,
            # but never changes output_args nor TensorOptions (if any?),
            # so here we only look into these two types of args.
            python_sig = pair.signature
            src_args: Dict[str, PythonArgument] = {
                a.name: PythonArgument(
                    name=a.name,
                    type=a.type,
                    default=None,
                    default_init=None,
                )
                for a in itertools.chain(python_sig.input_args,
                                         python_sig.input_kwargs)
            }

            args: List[str] = []
            input_args: List[PythonArgument] = []
            input_kwargs: List[PythonArgument] = []

            kwarg_only = False
            for param in params:
                if param == "*":
                    kwarg_only = True
                    continue
                _, param_name = param.split(" ")
                args.append(param_name)

                if param_name not in src_args:
                    # output argument
                    continue

                if not kwarg_only:
                    if not method or param_name != "self":
                        input_args.append(src_args[param_name])
                else:
                    input_kwargs.append(src_args[param_name])

            results.append(
                PythonSignatureNativeFunctionPair(
                    signature=PythonSignatureDeprecated(
                        name=python_sig.name,
                        input_args=tuple(input_args),
                        input_kwargs=tuple(input_kwargs),
                        output_args=python_sig.output_args,
                        tensor_options_args=python_sig.tensor_options_args,
                        method=python_sig.method,
                        deprecated_args_names=tuple(args),
                        deprecated_args_exprs=tuple(call_args),
                        returns=python_sig.returns,
                    ),
                    function=pair.function,
                ))

    return results
Exemplo n.º 3
0
def load_deprecated_signatures(
    pairs: Sequence[PythonSignatureNativeFunctionPair],
    deprecated_yaml_path: str,
    *,
    method: bool,
    pyi: bool,
) -> List[PythonSignatureNativeFunctionPair]:
    # The deprecated.yaml doesn't have complete type information, we need
    # find and leverage the original ATen signature (to which it delegates
    # the call) to generate the full python signature.
    # We join the deprecated and the original signatures using type-only form.

    # group the original ATen signatures by name
    grouped: Dict[str,
                  List[PythonSignatureNativeFunctionPair]] = defaultdict(list)
    for pair in pairs:
        grouped[pair.signature.name].append(pair)

    # find matching original signatures for each deprecated signature
    results: List[PythonSignatureNativeFunctionPair] = []

    with open(deprecated_yaml_path, "r") as f:
        deprecated_defs = yaml.load(f, Loader=YamlLoader)

    for deprecated in deprecated_defs:
        schema = FunctionSchema.parse(deprecated["name"])
        aten_name, call_args = split_name_params(deprecated["aten"])
        is_out = aten_name.endswith("_out")
        if is_out:
            aten_name = aten_name.replace("_out", "")

        # HACK: these are fixed constants used to pass the the aten function.
        # The type must be known ahead of time
        known_constants = {
            "1": Type.parse("Scalar"),
        }
        schema_args_by_name = {a.name: a for a in schema.arguments.flat_all}
        for name in call_args:
            assert (name in schema_args_by_name or name in known_constants
                    ), f"deprecation definiton: Unrecognized value {name}"

        # Map deprecated signature arguments to their aten signature and test
        # if the types and alias annotation match.
        def is_schema_compatible(aten_schema: FunctionSchema, ) -> bool:
            arguments: Iterable[Argument]
            if is_out:
                arguments = itertools.chain(aten_schema.arguments.out,
                                            aten_schema.arguments.flat_non_out)
            else:
                arguments = aten_schema.arguments.flat_all

            for i, arg in enumerate(arguments):
                if i < len(call_args):
                    arg_name = call_args[i]
                    if arg_name in known_constants:
                        schema_type = known_constants[arg_name]
                        schema_annotation = None
                    else:
                        schema_arg = schema_args_by_name[arg_name]
                        schema_type = schema_arg.type
                        schema_annotation = schema_arg.annotation

                    if schema_type != arg.type or schema_annotation != arg.annotation:
                        return False
                else:
                    if arg.default is None:
                        return False

            return len(schema.returns) == len(aten_schema.returns) and all(
                a == b for a, b in zip(schema.returns, aten_schema.returns))

        any_schema_found = False
        for pair in grouped[aten_name]:
            if not is_schema_compatible(pair.function.func):
                continue
            any_schema_found = True

            python_sig = signature_from_schema(
                schema,
                category_override=pair.function.category_override,
                method=method,
                pyi=pyi,
            )

            results.append(
                PythonSignatureNativeFunctionPair(
                    signature=PythonSignatureDeprecated(
                        name=python_sig.name,
                        input_args=python_sig.input_args,
                        input_kwargs=python_sig.input_kwargs,
                        output_args=python_sig.output_args,
                        tensor_options_args=python_sig.tensor_options_args,
                        method=python_sig.method,
                        deprecated_schema=schema,
                        deprecated_args_exprs=tuple(call_args),
                        returns=python_sig.returns,
                    ),
                    function=pair.function,
                ))
        assert (
            any_schema_found
        ), f"No native function with name {aten_name} matched signature:\n  {str(schema)}"

    return results