# Copyright (c) 2018 PaddlePaddle Authors. All Rights Reserved. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. from __future__ import print_function import errno import inspect import logging import os import warnings import six import numpy as np import paddle from paddle.fluid import ( core, Variable, CompiledProgram, default_main_program, Program, layers, unique_name, program_guard, ) from paddle.fluid.io import prepend_feed_ops, append_fetch_ops from paddle.fluid.framework import static_only, Parameter from paddle.fluid.executor import Executor, global_scope from paddle.fluid.log_helper import get_logger __all__ = [] _logger = get_logger(__name__, logging.INFO, fmt='%(asctime)s-%(levelname)s: %(message)s') def _check_args(caller, args, supported_args=None, deprecated_args=None): supported_args = [] if supported_args is None else supported_args deprecated_args = [] if deprecated_args is None else deprecated_args for arg in args: if arg in deprecated_args: raise ValueError( "argument '{}' in function '{}' is deprecated, only {} are supported." .format(arg, caller, supported_args)) elif arg not in supported_args: raise ValueError( "function '{}' doesn't support argument '{}',\n only {} are supported." .format(caller, arg, supported_args)) def _check_vars(name, var_list): if not isinstance(var_list, list): var_list = [var_list] if not var_list or not all([isinstance(var, Variable) for var in var_list]): raise ValueError( "'{}' should be a Variable or a list of Variable.".format(name)) def _normalize_path_prefix(path_prefix): """ convert path_prefix to absolute path. """ if not isinstance(path_prefix, six.string_types): raise ValueError("'path_prefix' should be a string.") if path_prefix.endswith("/"): raise ValueError("'path_prefix' should not be a directory") path_prefix = os.path.normpath(path_prefix) path_prefix = os.path.abspath(path_prefix) return path_prefix def _get_valid_program(program=None): """ return default main program if program is None. """ if program is None: program = default_main_program() elif isinstance(program, CompiledProgram): program = program._program if program is None: raise TypeError( "The type of input program is invalid, expected tyep is Program, but received None" ) warnings.warn( "The input is a CompiledProgram, this is not recommended.") if not isinstance(program, Program): raise TypeError( "The type of input program is invalid, expected type is fluid.Program, but received %s" % type(program)) return program def _clone_var_in_block(block, var): assert isinstance(var, Variable) if var.desc.type() == core.VarDesc.VarType.LOD_TENSOR: return block.create_var(name=var.name, shape=var.shape, dtype=var.dtype, type=var.type, lod_level=var.lod_level, persistable=True) else: return block.create_var(name=var.name, shape=var.shape, dtype=var.dtype, type=var.type, persistable=True) def normalize_program(program, feed_vars, fetch_vars): """ :api_attr: Static Graph Normalize/Optimize a program according to feed_vars and fetch_vars. Args: program(Program): Specify a program you want to optimize. feed_vars(Variable | list[Variable]): Variables needed by inference. fetch_vars(Variable | list[Variable]): Variables returned by inference. Returns: Program: Normalized/Optimized program. Examples: .. code-block:: python import paddle paddle.enable_static() path_prefix = "./infer_model" # User defined network, here a softmax regession example image = paddle.static.data(name='img', shape=[None, 28, 28], dtype='float32') label = paddle.static.data(name='label', shape=[None, 1], dtype='int64') predict = paddle.static.nn.fc(image, 10, activation='softmax') loss = paddle.nn.functional.cross_entropy(predict, label) exe = paddle.static.Executor(paddle.CPUPlace()) exe.run(paddle.static.default_startup_program()) # normalize main program. program = paddle.static.default_main_program() normalized_program = paddle.static.normalize_program(program, [image], [predict]) """ if not isinstance(program, Program): raise TypeError( "program type must be `fluid.Program`, but received `%s`" % type(program)) if not isinstance(feed_vars, list): feed_vars = [feed_vars] if not all(isinstance(v, Variable) for v in feed_vars): raise TypeError( "feed_vars type must be a Variable or a list of Variable.") if not isinstance(fetch_vars, list): fetch_vars = [fetch_vars] if not all(isinstance(v, Variable) for v in fetch_vars): raise TypeError( "fetch_vars type must be a Variable or a list of Variable.") # remind users to set auc_states to 0 if auc op were found. for op in program.global_block().ops: # clear device of Op device_attr_name = core.op_proto_and_checker_maker.kOpDeviceAttrName() op._set_attr(device_attr_name, "") if op.type == 'auc': warnings.warn("Be sure that you have set auc states to 0 " "before saving inference model.") break # fix the bug that the activation op's output as target will be pruned. # will affect the inference performance. # TODO(Superjomn) add an IR pass to remove 1-scale op. with program_guard(program): uniq_fetch_vars = [] for i, var in enumerate(fetch_vars): if var.dtype != paddle.bool: var = layers.scale(var, 1., name="save_infer_model/scale_{}".format(i)) uniq_fetch_vars.append(var) fetch_vars = uniq_fetch_vars # serialize program copy_program = program.clone() global_block = copy_program.global_block() remove_op_idx = [] for i, op in enumerate(global_block.ops): op.desc.set_is_target(False) if op.type == "feed" or op.type == "fetch": remove_op_idx.append(i) for idx in remove_op_idx[::-1]: global_block._remove_op(idx) copy_program.desc.flush() feed_var_names = [var.name for var in feed_vars] copy_program = copy_program._prune_with_input( feeded_var_names=feed_var_names, targets=fetch_vars) copy_program = copy_program._inference_optimize(prune_read_op=True) fetch_var_names = [var.name for var in fetch_vars] prepend_feed_ops(copy_program, feed_var_names) append_fetch_ops(copy_program, fetch_var_names) copy_program.desc._set_version() return copy_program def is_persistable(var): """ Check whether the given variable is persistable. Args: var(Variable): The variable to be checked. Returns: bool: True if the given `var` is persistable False if not. Examples: .. code-block:: python import paddle import paddle.fluid as fluid paddle.enable_static() param = fluid.default_main_program().global_block().var('fc.b') res = fluid.io.is_persistable(param) """ if var.desc.type() == core.VarDesc.VarType.FEED_MINIBATCH or \ var.desc.type() == core.VarDesc.VarType.FETCH_LIST or \ var.desc.type() == core.VarDesc.VarType.READER: return False return var.persistable @static_only def serialize_program(feed_vars, fetch_vars, **kwargs): """ :api_attr: Static Graph Serialize default main program according to feed_vars and fetch_vars. Args: feed_vars(Variable | list[Variable]): Variables needed by inference. fetch_vars(Variable | list[Variable]): Variables returned by inference. kwargs: Supported keys including 'program'.Attention please, kwargs is used for backward compatibility mainly. - program(Program): specify a program if you don't want to use default main program. Returns: bytes: serialized program. Examples: .. code-block:: python import paddle paddle.enable_static() path_prefix = "./infer_model" # User defined network, here a softmax regession example image = paddle.static.data(name='img', shape=[None, 28, 28], dtype='float32') label = paddle.static.data(name='label', shape=[None, 1], dtype='int64') predict = paddle.static.nn.fc(image, 10, activation='softmax') loss = paddle.nn.functional.cross_entropy(predict, label) exe = paddle.static.Executor(paddle.CPUPlace()) exe.run(paddle.static.default_startup_program()) # serialize the default main program to bytes. serialized_program = paddle.static.serialize_program([image], [predict]) # deserialize bytes to program deserialized_program = paddle.static.deserialize_program(serialized_program) """ # verify feed_vars _check_vars('feed_vars', feed_vars) # verify fetch_vars _check_vars('fetch_vars', fetch_vars) program = _get_valid_program(kwargs.get('program', None)) program = normalize_program(program, feed_vars, fetch_vars) return _serialize_program(program) def _serialize_program(program): """ serialize given program to bytes. """ return program.desc.serialize_to_string() @static_only def serialize_persistables(feed_vars, fetch_vars, executor, **kwargs): """ :api_attr: Static Graph Serialize parameters using given executor and default main program according to feed_vars and fetch_vars. Args: feed_vars(Variable | list[Variable]): Variables needed by inference. fetch_vars(Variable | list[Variable]): Variables returned by inference. kwargs: Supported keys including 'program'.Attention please, kwargs is used for backward compatibility mainly. - program(Program): specify a program if you don't want to use default main program. Returns: bytes: serialized program. Examples: .. code-block:: python import paddle paddle.enable_static() path_prefix = "./infer_model" # User defined network, here a softmax regession example image = paddle.static.data(name='img', shape=[None, 28, 28], dtype='float32') label = paddle.static.data(name='label', shape=[None, 1], dtype='int64') predict = paddle.static.nn.fc(image, 10, activation='softmax') loss = paddle.nn.functional.cross_entropy(predict, label) exe = paddle.static.Executor(paddle.CPUPlace()) exe.run(paddle.static.default_startup_program()) # serialize parameters to bytes. serialized_params = paddle.static.serialize_persistables([image], [predict], exe) # deserialize bytes to parameters. main_program = paddle.static.default_main_program() deserialized_params = paddle.static.deserialize_persistables(main_program, serialized_params, exe) """ # verify feed_vars _check_vars('feed_vars', feed_vars) # verify fetch_vars _check_vars('fetch_vars', fetch_vars) program = _get_valid_program(kwargs.get('program', None)) program = normalize_program(program, feed_vars, fetch_vars) return _serialize_persistables(program, executor) def _serialize_persistables(program, executor): """ Serialize parameters using given program and executor. """ vars_ = list(filter(is_persistable, program.list_vars())) # warn if no variable found in model if len(vars_) == 0: warnings.warn("no variable in your model, please ensure there are any " "variables in your model to save") return None # create a new program and clone persitable vars to it save_program = Program() save_block = save_program.global_block() save_var_map = {} for var in vars_: if var.type != core.VarDesc.VarType.RAW: var_copy = _clone_var_in_block(save_block, var) save_var_map[var_copy.name] = var # create in_vars and out_var, then append a save_combine op to save_program in_vars = [] for name in sorted(save_var_map.keys()): in_vars.append(save_var_map[name]) out_var_name = unique_name.generate("out_var") out_var = save_block.create_var(type=core.VarDesc.VarType.RAW, name=out_var_name) out_var.desc.set_persistable(True) save_block.append_op(type='save_combine', inputs={'X': in_vars}, outputs={'Y': out_var}, attrs={ 'file_path': '', 'save_to_memory': True }) # run save_program to save vars # NOTE(zhiqiu): save op will add variable kLookupTablePath to save_program.desc, # which leads to diff between save_program and its desc. Call _sync_with_cpp # to keep consistency. save_program._sync_with_cpp() executor.run(save_program) # return serialized bytes in out_var return global_scope().find_var(out_var_name).get_bytes() def save_to_file(path, content): """ Save content to given path. Args: path(str): Path to write content to. content(bytes): Content to write. Returns: None Examples: .. code-block:: python import paddle paddle.enable_static() path_prefix = "./infer_model" # 用户自定义网络,此处用 softmax 回归为例。 image = paddle.static.data(name='img', shape=[None, 28, 28], dtype='float32') label = paddle.static.data(name='label', shape=[None, 1], dtype='int64') predict = paddle.static.nn.fc(image, 10, activation='softmax') loss = paddle.nn.functional.cross_entropy(predict, label) exe = paddle.static.Executor(paddle.CPUPlace()) exe.run(paddle.static.default_startup_program()) # 序列化参数 serialized_params = paddle.static.serialize_persistables([image], [predict], exe) # 将序列化之后的参数保存到文件 params_path = path_prefix + ".params" paddle.static.save_to_file(params_path, serialized_params) """ if not isinstance(content, bytes): raise ValueError("'content' type should be bytes.") with open(path, "wb") as f: f.write(content) @static_only def save_inference_model(path_prefix, feed_vars, fetch_vars, executor, **kwargs): """ :api_attr: Static Graph Save current model and its parameters to given path. i.e. Given path_prefix = "/path/to/modelname", after invoking save_inference_model(path_prefix, feed_vars, fetch_vars, executor), you will find two files named modelname.pdmodel and modelname.pdiparams under "/path/to", which represent your model and parameters respectively. Args: path_prefix(str): Directory path to save model + model name without suffix. feed_vars(Variable | list[Variable]): Variables needed by inference. fetch_vars(Variable | list[Variable]): Variables returned by inference. executor(Executor): The executor that saves the inference model. You can refer to :ref:`api_guide_executor_en` for more details. kwargs: Supported keys including 'program' and "clip_extra". Attention please, kwargs is used for backward compatibility mainly. - program(Program): specify a program if you don't want to use default main program. - clip_extra(bool): set to True if you want to clip extra information for every operator. Returns: None Examples: .. code-block:: python import paddle paddle.enable_static() path_prefix = "./infer_model" # User defined network, here a softmax regession example image = paddle.static.data(name='img', shape=[None, 28, 28], dtype='float32') label = paddle.static.data(name='label', shape=[None, 1], dtype='int64') predict = paddle.static.nn.fc(image, 10, activation='softmax') loss = paddle.nn.functional.cross_entropy(predict, label) exe = paddle.static.Executor(paddle.CPUPlace()) exe.run(paddle.static.default_startup_program()) # Feed data and train process # Save inference model. Note we don't save label and loss in this example paddle.static.save_inference_model(path_prefix, [image], [predict], exe) # In this example, the save_inference_mode inference will prune the default # main program according to the network's input node (img) and output node(predict). # The pruned inference program is going to be saved in file "./infer_model.pdmodel" # and parameters are going to be saved in file "./infer_model.pdiparams". """ # check path_prefix, set model_path and params_path path_prefix = _normalize_path_prefix(path_prefix) try: # mkdir may conflict if pserver and trainer are running on the same machine dirname = os.path.dirname(path_prefix) os.makedirs(dirname) except OSError as e: if e.errno != errno.EEXIST: raise model_path = path_prefix + ".pdmodel" params_path = path_prefix + ".pdiparams" if os.path.isdir(model_path): raise ValueError("'{}' is an existing directory.".format(model_path)) if os.path.isdir(params_path): raise ValueError("'{}' is an existing directory.".format(params_path)) # verify feed_vars _check_vars('feed_vars', feed_vars) # verify fetch_vars _check_vars('fetch_vars', fetch_vars) program = _get_valid_program(kwargs.get('program', None)) clip_extra = kwargs.get('clip_extra', False) program = normalize_program(program, feed_vars, fetch_vars) # serialize and save program program_bytes = _serialize_program( program._remove_training_info(clip_extra=clip_extra)) save_to_file(model_path, program_bytes) # serialize and save params params_bytes = _serialize_persistables(program, executor) # program may not contain any parameter and just compute operation if params_bytes is not None: save_to_file(params_path, params_bytes) @static_only def deserialize_program(data): """ :api_attr: Static Graph Deserialize given data to a program. Args: data(bytes): serialized program. Returns: Program: deserialized program. Examples: .. code-block:: python import paddle paddle.enable_static() path_prefix = "./infer_model" # User defined network, here a softmax regession example image = paddle.static.data(name='img', shape=[None, 28, 28], dtype='float32') label = paddle.static.data(name='label', shape=[None, 1], dtype='int64') predict = paddle.static.nn.fc(image, 10, activation='softmax') loss = paddle.nn.functional.cross_entropy(predict, label) exe = paddle.static.Executor(paddle.CPUPlace()) exe.run(paddle.static.default_startup_program()) # serialize the default main program to bytes. serialized_program = paddle.static.serialize_program([image], [predict]) # deserialize bytes to program deserialized_program = paddle.static.deserialize_program(serialized_program) """ program = Program.parse_from_string(data) if not core._is_program_version_supported(program._version()): raise ValueError("Unsupported program version: %d\n" % program._version()) return program @static_only def deserialize_persistables(program, data, executor): """ :api_attr: Static Graph Deserialize given data to parameters according to given program and executor. Args: program(Program): program that contains parameter names (to deserialize). data(bytes): serialized parameters. executor(Executor): executor used to run load op. Returns: Program: deserialized program. Examples: .. code-block:: python import paddle paddle.enable_static() path_prefix = "./infer_model" # User defined network, here a softmax regession example image = paddle.static.data(name='img', shape=[None, 28, 28], dtype='float32') label = paddle.static.data(name='label', shape=[None, 1], dtype='int64') predict = paddle.static.nn.fc(image, 10, activation='softmax') loss = paddle.nn.functional.cross_entropy(predict, label) exe = paddle.static.Executor(paddle.CPUPlace()) exe.run(paddle.static.default_startup_program()) # serialize parameters to bytes. serialized_params = paddle.static.serialize_persistables([image], [predict], exe) # deserialize bytes to parameters. main_program = paddle.static.default_main_program() deserialized_params = paddle.static.deserialize_persistables(main_program, serialized_params, exe) """ if not isinstance(program, Program): raise TypeError( "program type must be `fluid.Program`, but received `%s`" % type(program)) # load params to a tmp program load_program = Program() load_block = load_program.global_block() vars_ = list(filter(is_persistable, program.list_vars())) origin_shape_map = {} load_var_map = {} check_vars = [] sparse_vars = [] for var in vars_: assert isinstance(var, Variable) if var.type == core.VarDesc.VarType.RAW: continue if isinstance(var, Parameter): origin_shape_map[var.name] = tuple(var.desc.get_shape()) if var.type == core.VarDesc.VarType.SELECTED_ROWS: sparse_vars.append(var) continue var_copy = _clone_var_in_block(load_block, var) check_vars.append(var) load_var_map[var_copy.name] = var_copy if data is None: assert len( origin_shape_map ) == 0, "Required 'data' shall be not None if program contains parameter, but received 'data' is None." return # append load_combine op to load parameters, load_var_list = [] for name in sorted(load_var_map.keys()): load_var_list.append(load_var_map[name]) load_block.append_op( type='load_combine', inputs={}, outputs={"Out": load_var_list}, # if load from memory, file_path is data attrs={ 'file_path': data, 'model_from_memory': True }) executor.run(load_program) # check var shape for var in check_vars: if not isinstance(var, Parameter): continue var_tmp = paddle.fluid.global_scope().find_var(var.name) assert var_tmp != None, "can't not find var: " + var.name new_shape = (np.array(var_tmp.get_tensor())).shape assert var.name in origin_shape_map, var.name + " MUST in var list." origin_shape = origin_shape_map.get(var.name) if new_shape != origin_shape: raise RuntimeError( "Shape mismatch, program needs a parameter with shape ({}), " "but the loaded parameter ('{}') has a shape of ({}).".format( origin_shape, var.name, new_shape)) def load_from_file(path): """ Load file in binary mode. Args: path(str): Path of an existed file. Returns: bytes: Content of file. Examples: .. code-block:: python import paddle paddle.enable_static() path_prefix = "./infer_model" # 用户自定义网络,此处用 softmax 回归为例。 image = paddle.static.data(name='img', shape=[None, 28, 28], dtype='float32') label = paddle.static.data(name='label', shape=[None, 1], dtype='int64') predict = paddle.static.nn.fc(image, 10, activation='softmax') loss = paddle.nn.functional.cross_entropy(predict, label) exe = paddle.static.Executor(paddle.CPUPlace()) exe.run(paddle.static.default_startup_program()) # 序列化参数 serialized_params = paddle.static.serialize_persistables([image], [predict], exe) # 将序列化之后的参数保存到文件 params_path = path_prefix + ".params" paddle.static.save_to_file(params_path, serialized_params) # 从文件加载序列化之后的参数 serialized_params_copy = paddle.static.load_from_file(params_path) """ with open(path, 'rb') as f: data = f.read() return data @static_only def load_inference_model(path_prefix, executor, **kwargs): """ :api_attr: Static Graph Load inference model from a given path. By this API, you can get the model structure(Inference Program) and model parameters. Args: path_prefix(str | None): One of the following: - Directory path to save model + model name without suffix. - Set to None when reading the model from memory. executor(Executor): The executor to run for loading inference model. See :ref:`api_guide_executor_en` for more details about it. kwargs: Supported keys including 'model_filename', 'params_filename'.Attention please, kwargs is used for backward compatibility mainly. - model_filename(str): specify model_filename if you don't want to use default name. - params_filename(str): specify params_filename if you don't want to use default name. Returns: list: The return of this API is a list with three elements: (program, feed_target_names, fetch_targets). The `program` is a ``Program`` (refer to :ref:`api_guide_Program_en`), which is used for inference. The `feed_target_names` is a list of ``str``, which contains names of variables that need to feed data in the inference program. The `fetch_targets` is a list of ``Variable`` (refer to :ref:`api_guide_Program_en`). It contains variables from which we can get inference results. Examples: .. code-block:: python import paddle import numpy as np paddle.enable_static() # Build the model startup_prog = paddle.static.default_startup_program() main_prog = paddle.static.default_main_program() with paddle.static.program_guard(main_prog, startup_prog): image = paddle.static.data(name="img", shape=[64, 784]) w = paddle.create_parameter(shape=[784, 200], dtype='float32') b = paddle.create_parameter(shape=[200], dtype='float32') hidden_w = paddle.matmul(x=image, y=w) hidden_b = paddle.add(hidden_w, b) exe = paddle.static.Executor(paddle.CPUPlace()) exe.run(startup_prog) # Save the inference model path_prefix = "./infer_model" paddle.static.save_inference_model(path_prefix, [image], [hidden_b], exe) [inference_program, feed_target_names, fetch_targets] = ( paddle.static.load_inference_model(path_prefix, exe)) tensor_img = np.array(np.random.random((64, 784)), dtype=np.float32) results = exe.run(inference_program, feed={feed_target_names[0]: tensor_img}, fetch_list=fetch_targets) # In this example, the inference program was saved in file # "./infer_model.pdmodel" and parameters were saved in file # " ./infer_model.pdiparams". # By the inference program, feed_target_names and # fetch_targets, we can use an executor to run the inference # program to get the inference result. """ # check kwargs supported_args = ('model_filename', 'params_filename') deprecated_args = ('pserver_endpoints', ) caller = inspect.currentframe().f_code.co_name _check_args(caller, kwargs, supported_args, deprecated_args) # load from memory if path_prefix is None: _logger.warning("Load inference model from memory is deprecated.") model_filename = kwargs.get('model_filename', None) params_filename = kwargs.get('params_filename', None) if params_filename is None: raise ValueError( "params_filename cannot be None when path_prefix is None.") load_dirname = '' program_bytes = model_filename params_bytes = params_filename # load from file else: # check and norm path_prefix path_prefix = _normalize_path_prefix(path_prefix) # set model_path and params_path in new way, # path_prefix represents a file path without suffix in this case. if not kwargs: model_path = path_prefix + ".pdmodel" params_path = path_prefix + ".pdiparams" # set model_path and params_path in old way for compatible, # path_prefix represents a directory path. else: model_filename = kwargs.get('model_filename', None) params_filename = kwargs.get('params_filename', None) # set model_path if model_filename is None: model_path = os.path.join(path_prefix, "__model__") else: model_path = os.path.join(path_prefix, model_filename + ".pdmodel") if not os.path.exists(model_path): model_path = os.path.join(path_prefix, model_filename) # set params_path if params_filename is None: params_path = os.path.join(path_prefix, "") else: params_path = os.path.join(path_prefix, params_filename + ".pdiparams") if not os.path.exists(params_path): params_path = os.path.join(path_prefix, params_filename) _logger.warning("The old way to load inference model is deprecated." " model path: {}, params path: {}".format( model_path, params_path)) program_bytes = load_from_file(model_path) load_dirname = os.path.dirname(params_path) params_filename = os.path.basename(params_path) # load params data params_path = os.path.join(load_dirname, params_filename) params_bytes = None if os.path.exists(params_path): params_bytes = load_from_file(params_path) # deserialize bytes to program program = deserialize_program(program_bytes) # deserialize bytes to params deserialize_persistables(program, params_bytes, executor) feed_target_names = program.desc.get_feed_target_names() fetch_target_names = program.desc.get_fetch_target_names() fetch_targets = [ program.global_block().var(name) for name in fetch_target_names ] return [program, feed_target_names, fetch_targets]