631 lines
25 KiB
Python
631 lines
25 KiB
Python
# Copyright (c) 2020 PaddlePaddle Authors. All Rights Reserved.
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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import collections
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import inspect
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import weakref
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import numpy as np
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import paddle
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import paddle.pir.core as ir_static
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from paddle.base import core
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from paddle.base.data_feeder import convert_dtype
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from paddle.base.dygraph.base import switch_to_static_graph
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from paddle.jit.pir_translated_layer import PirTranslatedLayer
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from paddle.jit.translated_layer import TranslatedLayer
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from paddle.nn.layer import layers
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from . import logging_utils
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from .utils import (
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func_to_source_code,
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parse_arg_and_kwargs,
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parse_varargs_name,
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type_name,
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)
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__all__ = []
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class FunctionSpec:
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"""
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Wrapper class for a function for class method.
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"""
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def __init__(self, function, input_spec=None):
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if inspect.ismethod(function):
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self._dygraph_function = function.__func__
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self._class_instance = weakref.ref(function.__self__)
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else:
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self._dygraph_function = function
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self._class_instance = None
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if input_spec is None:
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self._input_spec = None
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self._flat_input_spec = None
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else:
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self._input_spec = self._verify_input_spec(input_spec)
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self._flat_input_spec = paddle.utils.flatten(self._input_spec)
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# parse full argument names list.
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self._arg_names, self._default_kwargs = parse_arg_and_kwargs(function)
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# parse *args
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self.varargs_name = parse_varargs_name(function)
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if self.varargs_name is not None and isinstance(
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getattr(function, '__self__', None),
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(TranslatedLayer, PirTranslatedLayer),
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):
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self._arg_names += function.__self__._input_args_names
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def unified_args_and_kwargs(self, args, kwargs):
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"""
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Moves kwargs with default value into arguments list to keep `args` contain the same length
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value as function definition.
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For example:
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Given function definition: `def foo(x, a=1, b=2)`,
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when calling it by `foo(23)`, the args is `[23]`, kwargs is `{a=1, b=2}`.
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In this function, it will return args with `[23, 1, 2]`, kwargs with `{}`
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Args:
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args(tuple): tuple of input arguments value of decorated function.
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kwargs(dict): dict of input keyword arguments value of decorated function.
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Return:
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New arguments tuple containing default kwargs value.
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"""
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if len(self._arg_names) < len(args):
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error_msg = f"The decorated function `{self.dygraph_function.__name__}` requires {len(self._arg_names)} arguments: {self._arg_names}, but received {len(args)} with {args}."
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if args and inspect.isclass(args[0]):
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error_msg += "\n\tMaybe the function has more than one decorator, we don't support this for now."
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raise NotImplementedError(error_msg)
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else:
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raise ValueError(error_msg)
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args = list(args)
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for i in range(len(args), len(self._arg_names)):
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arg_name = self._arg_names[i]
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if arg_name in kwargs:
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args.append(kwargs[arg_name])
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del kwargs[arg_name]
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else:
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if arg_name not in self._default_kwargs:
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raise ValueError(
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f"`{self.dygraph_function.__name__}()` requires `{arg_name}` arguments, but not found in input `args`: {args} and `kwargs`: {kwargs}."
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)
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args.append(self._default_kwargs[arg_name])
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return tuple(args), kwargs
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def args_to_input_spec(self, args, kwargs):
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"""
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Converts input arguments into InputSpec.
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1. If specific input_spec, use them to construct feed layers.
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2. If input_spec is None, consider all Tensor and Numpy.ndarray as feed layers
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Args:
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args(tuple): tuple of input arguments value of function containing default kwargs value.
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kwargs(dict): kwargs arguments received by **kwargs.
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Return:
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Same nest structure with args and kwargs by replacing value with InputSpec.
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"""
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args_with_spec = []
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kwargs_with_spec = []
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if self._input_spec is not None:
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# Note: Because the value type and length of `kwargs` is uncertain.
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# So we don't support to deal this case while specifying `input_spec` currently.
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if kwargs:
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raise ValueError(
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f"{self.dygraph_function.__name__} got unexpected keyword arguments: {kwargs}. Cannot trace the function when `input_spec` is specified."
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)
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# Note: The length of `input_spec` can be greater than `args`,
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# because `args` may contains non-tensor value merged form `kwargs`
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# after `unified_args_and_kwargs`.
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if len(args) < len(self._input_spec):
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raise ValueError(
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f"Requires len(arguments) >= len(input_spec), but received len(args):{len(args)} < len(InputSpec): {len(self._input_spec)}"
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)
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# replace argument with corresponding InputSpec.
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args_with_spec = convert_to_input_spec(args, self._input_spec)
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else:
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args_with_spec = _replace_to_input_spec_with_new_name(
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args, self._arg_names
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)
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kwarg_names = ["kwargs." + key for key in kwargs.keys()]
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kwargs_list_with_spec = _replace_to_input_spec_with_new_name(
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list(kwargs.values()), kwarg_names
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)
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kwargs_with_spec = {
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key: kwargs_list_with_spec[idx]
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for idx, key in enumerate(kwargs)
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}
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# If without specifying name in input_spec, add default name
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# according to argument name from decorated function.
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args_with_spec = replace_spec_empty_name(
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self._arg_names, args_with_spec
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)
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return args_with_spec, kwargs_with_spec
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@switch_to_static_graph
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def pir_to_static_inputs_with_spec(self, input_with_spec, main_program):
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"""
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Constructs feed layer by inputs with InputSpec information for main program.
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Args:
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input_with_spec(tuple): input arguments by replacing argument with InputSpec.
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main_program(Program): main program for inserting feed layer.
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"""
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from paddle.distributed.auto_parallel.placement_type import (
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to_placements,
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)
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flat_input_spec = paddle.utils.flatten(input_with_spec)
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# NOTE(zhangbo): Why do we need function_args and program_inputs: The primary function of this module is to construct the corresponding DataOp based on the inputSpec. The output of DataOp serves as the input to the Program and will also become the arguments for subsequent Static functions to construct the static graph. When the input is a DistributedInputSpec, the shard_tensor operation will be performed on the output of DataOp to obtain the corresponding distributed Value. The input to the Program will still be the output of DataOp, but in this case, the arguments for the Static functions will be the output of shard_tensor.
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function_args = []
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program_inputs = []
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with ir_static.program_guard(main_program):
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for i, var_spec in enumerate(flat_input_spec):
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if isinstance(var_spec, paddle.static.InputSpec):
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stop_gradient = getattr(var_spec, 'stop_gradient', False)
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feed_value = paddle.static.input.data(
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name=var_spec.name or f"feed_{i}",
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shape=var_spec.shape,
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dtype=convert_dtype(var_spec.dtype),
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)
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feed_value.stop_gradient = stop_gradient
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# warp dist tensor
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from paddle.distributed.auto_parallel.static.dist_input_spec import (
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DistributedInputSpec,
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)
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if isinstance(var_spec, DistributedInputSpec):
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placements = to_placements(
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var_spec.dims_mapping, var_spec
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)
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dist_feed_value = paddle._pir_ops.shard_tensor(
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feed_value, var_spec.mesh, placements
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)
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function_args.append(dist_feed_value)
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else:
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function_args.append(feed_value)
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else:
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feed_value = var_spec
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function_args.append(feed_value)
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program_inputs.append(feed_value)
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return paddle.utils.pack_sequence_as(
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input_with_spec, function_args
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), paddle.utils.pack_sequence_as(input_with_spec, program_inputs)
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@switch_to_static_graph
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def to_static_inputs_with_spec(self, input_with_spec, main_program):
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"""
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Constructs feed layer by inputs with InputSpec information for main program.
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Args:
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input_with_spec(tuple): input arguments by replacing argument with InputSpec.
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main_program(Program): main program for inserting feed layer.
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"""
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flat_input_spec = paddle.utils.flatten(input_with_spec)
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inputs = []
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block = main_program.global_block()
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for i, var_spec in enumerate(flat_input_spec):
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if isinstance(var_spec, paddle.static.InputSpec):
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stop_gradient = getattr(var_spec, 'stop_gradient', False)
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feed_layer = block.create_var(
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# TODO(Aurelius84): consider a more elegant way to name this
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name=var_spec.name or f"feed_{i}",
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shape=var_spec.shape,
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dtype=var_spec.dtype,
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is_data=True,
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need_check_feed=False,
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stop_gradient=stop_gradient,
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)
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# warp dist tensor
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from paddle.distributed.auto_parallel.static.dist_input_spec import (
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DistributedInputSpec,
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)
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from paddle.distributed.auto_parallel.static.dist_tensor import (
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DistributedTensor,
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)
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if isinstance(var_spec, DistributedInputSpec):
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from paddle.distributed.auto_parallel.static.dist_context import (
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get_default_distributed_context,
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)
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default_dist_ctx = get_default_distributed_context()
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dist_tensor = DistributedTensor(feed_layer)
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dist_tensor.dist_attr.process_mesh = var_spec.mesh
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dist_tensor.dist_attr.dims_mapping = var_spec.dims_mapping
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dist_tensor.dist_attr.mark_annotated("process_mesh")
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dist_tensor.dist_attr.mark_annotated("dims_mapping")
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default_dist_ctx.add_dist_tensor_for_program(dist_tensor)
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else:
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feed_layer = var_spec
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inputs.append(feed_layer)
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return paddle.utils.pack_sequence_as(input_with_spec, inputs)
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def _verify_input_spec(self, input_spec):
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"""
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Verifies the `input_spec` and its element type is valid.
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"""
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if not isinstance(input_spec, (tuple, list)):
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raise TypeError(
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f"The type(input_spec) should be one of (tuple, list), but received {type_name(input_spec)}."
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)
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return tuple(input_spec)
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def __repr__(self):
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return "function: {}({}), input_spec: {}".format(
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self.dygraph_function.__name__,
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','.join(self._arg_names),
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self._input_spec,
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)
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@property
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def class_instance(self):
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if self._class_instance is None:
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return None
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if self._class_instance() is None:
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raise RuntimeError(
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"The instance of class has been deleted, please re-create the instance."
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)
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return self._class_instance()
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@property
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def dygraph_function(self):
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if self.class_instance is not None:
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return self._dygraph_function.__get__(self.class_instance)
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else:
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return self._dygraph_function
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@property
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def args_name(self):
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return self._arg_names
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@property
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def input_spec(self):
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return self._input_spec
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@property
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def flat_input_spec(self):
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return self._flat_input_spec
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@property
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def code(self):
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return func_to_source_code(self.dygraph_function)
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def get_parameters(layer_instance, include_sublayer=True):
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"""
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Returns parameters of decorated layers. If set `include_sublayer` True,
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the parameters created in sub layers will be added.
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"""
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params = collections.OrderedDict()
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if layer_instance is not None:
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if isinstance(layer_instance, layers.Layer):
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if include_sublayer:
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params = layer_instance.parameters()
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names = [p.name for p in params]
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params = collections.OrderedDict(zip(names, params))
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else:
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params = layer_instance._parameters
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else:
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raise TypeError(
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f"Type of `layer_instance` should be nn.Layer, but received {type_name(layer_instance)}"
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)
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return params
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def get_buffers(layer_instance, include_sublayer=True):
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"""
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Returns Variable buffers of decorated layers. If set `include_sublayer` True,
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the Variable buffers created in sub layers will be added.
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"""
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buffers = collections.OrderedDict()
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if layer_instance is not None:
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if isinstance(layer_instance, layers.Layer):
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if include_sublayer:
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buffers = layer_instance.buffers()
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names = [buffer.name for buffer in buffers]
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buffers = collections.OrderedDict(zip(names, buffers))
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else:
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buffers = layer_instance._buffers
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else:
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raise TypeError(
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f"Type of `layer_instance` should be nn.Layer, but received {type_name(layer_instance)}"
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)
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return buffers
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def _replace_value_with_input_spec(args):
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from paddle.distributed.auto_parallel.placement_type import (
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to_placements,
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)
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from paddle.distributed.auto_parallel.static.dist_input_spec import (
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DistributedInputSpec,
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)
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args_with_spec = []
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for idx, input_var in enumerate(paddle.utils.flatten(args)):
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if isinstance(input_var, np.ndarray):
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input_var = paddle.static.InputSpec.from_numpy(input_var)
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input_var.stop_gradient = True
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elif isinstance(input_var, core.eager.Tensor):
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stop_gradient = input_var.stop_gradient
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if input_var.is_dist():
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input_var = DistributedInputSpec.from_dtensor(input_var)
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else:
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input_var = paddle.static.InputSpec.from_tensor(input_var)
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input_var.stop_gradient = stop_gradient
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elif isinstance(
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input_var, (paddle.base.framework.Variable, paddle.pir.Value)
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):
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stop_gradient = input_var.stop_gradient
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if input_var.is_dist():
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mesh = input_var.dist_attr().process_mesh
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placements = to_placements(
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input_var.dist_attr().dims_mapping, mesh
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)
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input_var = DistributedInputSpec(
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input_var.shape,
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dtype=input_var.dtype,
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name=input_var.name,
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mesh=mesh,
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placements=placements,
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local_shape=input_var._local_shape,
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)
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else:
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input_var = paddle.static.InputSpec(
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input_var.shape, input_var.dtype, input_var.name
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)
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input_var.stop_gradient = stop_gradient
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args_with_spec.append(input_var)
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args_with_spec = paddle.utils.pack_sequence_as(args, args_with_spec)
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return args_with_spec
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def _replace_to_input_spec_with_new_name(args, arg_names):
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assert len(args) == len(arg_names)
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order_digit = len(str(len(arg_names) - 1))
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args_with_spec = []
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for order, (arg, name_prefix) in enumerate(zip(args, arg_names)):
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index = 0
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for idx, origin_input in enumerate(paddle.utils.flatten(arg)):
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if isinstance(origin_input, np.ndarray):
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input_var = paddle.static.InputSpec.from_numpy(origin_input)
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input_var.stop_gradient = True
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elif isinstance(origin_input, core.eager.Tensor):
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stop_gradient = origin_input.stop_gradient
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input_var = paddle.static.InputSpec.from_tensor(origin_input)
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input_var.stop_gradient = stop_gradient
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elif isinstance(origin_input, paddle.base.framework.Variable):
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stop_gradient = origin_input.stop_gradient
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input_var = paddle.static.InputSpec(
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origin_input.shape, origin_input.dtype, origin_input.name
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)
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input_var.stop_gradient = stop_gradient
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else:
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input_var = origin_input
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if isinstance(
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origin_input,
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(
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np.ndarray,
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core.eager.Tensor,
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paddle.base.framework.Variable,
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),
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):
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input_var.name = f"_jst.{str(order).zfill(order_digit)}.{name_prefix}.{index}"
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index += 1
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args_with_spec.append(input_var)
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args_with_spec = paddle.utils.pack_sequence_as(args, args_with_spec)
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return args_with_spec
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def convert_to_input_spec(inputs, input_spec):
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"""
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Replaces tensor in structured `inputs` by InputSpec in `input_spec`.
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Args:
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inputs(list|dict): nested structure list or dict.
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input_spec(list|dict): same nested structure list or dict as inputs.
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Return:
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Same structure with inputs by replacing the element with specified InputSpec.
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"""
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def check_type_and_len(input, spec, check_length=False):
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if type(input) is not type(spec):
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raise TypeError(
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f'type(input) should be {type(spec)}, but received {type(input)}.'
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)
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if check_length and len(input) < len(spec):
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raise ValueError(
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f'Requires len(inputs) >= len(input_spec), but received len(inputs):{len(inputs)} < len(input_spec):{len(input_spec)}'
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)
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if isinstance(input_spec, (tuple, list)):
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input_with_spec = []
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check_type_and_len(inputs, input_spec, True)
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for i, spec in enumerate(input_spec):
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out_spec = convert_to_input_spec(inputs[i], spec)
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input_with_spec.append(out_spec)
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# Note: If the rest inputs contain tensor or numpy.ndarray
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# without specific InputSpec, raise warning.
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if len(inputs) > len(input_spec):
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for rest_input in inputs[len(input_spec) :]:
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if isinstance(rest_input, (core.eager.Tensor, np.ndarray)):
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logging_utils.warn(
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f"The inputs contain `{type_name(rest_input)}` without specifying InputSpec, its shape and dtype will be treated immutable. "
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"Please specific InputSpec information in `@to_static` if you expect them as mutable inputs."
|
|
)
|
|
input_with_spec.extend(inputs[len(input_spec) :])
|
|
|
|
return input_with_spec
|
|
elif isinstance(input_spec, dict):
|
|
input_with_spec = {}
|
|
check_type_and_len(inputs, input_spec, True)
|
|
for name, input in inputs.items():
|
|
if name in input_spec:
|
|
input_with_spec[name] = convert_to_input_spec(
|
|
input, input_spec[name]
|
|
)
|
|
else:
|
|
input_with_spec[name] = input
|
|
return input_with_spec
|
|
elif isinstance(input_spec, paddle.static.InputSpec):
|
|
"""we compare input_spec with real_input_spec constructed from arguments."""
|
|
real_spec = _replace_value_with_input_spec([inputs])[0]
|
|
if not isinstance(real_spec, paddle.static.InputSpec):
|
|
raise RuntimeError(
|
|
f"Give input spec into a non-tensorable arguments `{inputs}`."
|
|
)
|
|
real_spec.name = input_spec.name
|
|
if spec_greater(input_spec, real_spec):
|
|
# change shape but keep the others (stop_gradient / dtype) .
|
|
real_spec.shape = input_spec.shape
|
|
else:
|
|
logging_utils.warn(
|
|
f"input spec is not compatible with real inputs. input_spec: {input_spec} , real_spec: {real_spec} "
|
|
)
|
|
return real_spec
|
|
else:
|
|
# NOTE(Aurelius84): Support non-Tensor type as input spec info
|
|
return input_spec
|
|
|
|
|
|
def replace_spec_empty_name(args_name, input_with_spec):
|
|
"""
|
|
Adds default name according to argument name from decorated function
|
|
if without specifying InputSpec.name
|
|
|
|
The naming rule are as followed:
|
|
1. If InputSpec.name is not None, do nothing.
|
|
2. If each argument `x` corresponds to an InputSpec, using the argument name like `x`
|
|
3. If the arguments `inputs` corresponds to a list(InputSpec), using name like `inputs_0`, `inputs_1`
|
|
4. If the arguments `input_dic` corresponds to a dict(InputSpec), using key as name.
|
|
|
|
For example:
|
|
|
|
# case 1: foo(x, y)
|
|
foo = to_static(foo, input_spec=[InputSpec([None, 10]), InputSpec([None])])
|
|
print([in_var.name for in_var in foo.inputs]) # [x, y]
|
|
|
|
# case 2: foo(inputs) where inputs is a list
|
|
foo = to_static(foo, input_spec=[[InputSpec([None, 10]), InputSpec([None])]])
|
|
print([in_var.name for in_var in foo.inputs]) # [inputs_0, inputs_1]
|
|
|
|
# case 3: foo(inputs) where inputs is a dict
|
|
foo = to_static(foo, input_spec=[{'x': InputSpec([None, 10]), 'y': InputSpec([None])}])
|
|
print([in_var.name for in_var in foo.inputs]) # [x, y]
|
|
"""
|
|
input_with_spec = list(input_with_spec)
|
|
candidate_arg_names = args_name[: len(input_with_spec)]
|
|
|
|
for i, arg_name in enumerate(candidate_arg_names):
|
|
input_spec = input_with_spec[i]
|
|
input_with_spec[i] = _replace_spec_name(arg_name, input_spec)
|
|
|
|
return input_with_spec
|
|
|
|
|
|
def _replace_spec_name(name, input_spec):
|
|
"""
|
|
Replaces InputSpec.name with given `name` while not specifying it.
|
|
"""
|
|
if isinstance(input_spec, paddle.static.InputSpec):
|
|
if input_spec.name is None:
|
|
input_spec.name = name
|
|
return input_spec
|
|
elif isinstance(input_spec, (list, tuple)):
|
|
processed_specs = []
|
|
for i, spec in enumerate(input_spec):
|
|
new_name = f"{name}_{i}"
|
|
processed_specs.append(_replace_spec_name(new_name, spec))
|
|
return processed_specs
|
|
elif isinstance(input_spec, dict):
|
|
processed_specs = {}
|
|
for key, spec in input_spec.items():
|
|
processed_specs[key] = _replace_spec_name(key, spec)
|
|
return processed_specs
|
|
else:
|
|
return input_spec
|
|
|
|
|
|
def _hash_spec_names(args_specs, kwargs_specs):
|
|
"""
|
|
Generator hash spec with args/kwargs InputSpec names.
|
|
Consider the following InputSpecs with same shape/dtype except for name:
|
|
1. [InputSpec([3,3], 'float32', 'x'), InputSpec([3,3], 'float32', 'x')]
|
|
2. [InputSpec([3,3], 'float32', 'x'), InputSpec([3,3], 'float32', 'y')]
|
|
Under @to_static, we should generate two different program not just one, because
|
|
the former has one input ('x'), but the latter has two input ('x', 'y').
|
|
"""
|
|
spec_names = [
|
|
spec.name
|
|
for spec in paddle.utils.flatten(args_specs)
|
|
if isinstance(spec, paddle.static.InputSpec)
|
|
]
|
|
spec_names += [
|
|
spec.name
|
|
for spec in paddle.utils.flatten(kwargs_specs)
|
|
if isinstance(spec, paddle.static.InputSpec)
|
|
]
|
|
i, name_ids = 0, {}
|
|
|
|
def to_idx(name):
|
|
nonlocal i
|
|
if name not in name_ids:
|
|
name_ids[name] = i
|
|
i += 1
|
|
return name_ids[name]
|
|
|
|
value = [to_idx(name) for name in spec_names]
|
|
|
|
return tuple(value)
|
|
|
|
|
|
def spec_greater(first, other):
|
|
def _shape_greater(first_shape, second_shape):
|
|
if len(first_shape) != len(second_shape):
|
|
return False
|
|
for first_n, second_n in zip(first_shape, second_shape):
|
|
if first_n != -1 and first_n != second_n:
|
|
return False
|
|
return True
|
|
|
|
return _shape_greater(first.shape, other.shape)
|