# Copyright (c) 2020 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. import collections import inspect import textwrap import threading import weakref from paddle.fluid import _non_static_mode, framework from paddle.fluid.data_feeder import check_type from paddle.fluid.dygraph import layers from paddle.fluid.dygraph.base import param_guard, switch_to_static_graph from paddle.fluid.layers.utils import flatten from paddle.utils import gast from . import error, logging_utils from .ast_transformer import DygraphToStaticAst from .function_spec import ( FunctionSpec, _hash_spec_names, get_buffers, get_parameters, ) from .origin_info import ( attach_origin_info, create_and_update_origin_info_map, update_op_callstack_with_origin_info, ) from .partial_program import partial_program_from from .utils import ( ALREADY_D2S, ast_to_func, ast_to_source_code, func_to_source_code, input_specs_compatible, make_hashable, type_name, unwrap, ) __all__ = [] # For each traced function, we set `max_traced_program_count` = 10 to consider caching performance. # Once exceeding the threshold, we will raise warning to users to make sure the conversion is as expected. MAX_TRACED_PROGRAM_COUNT = 10 def synchronized(func): func.__lock__ = threading.Lock() def lock_func(*args, **kwargs): with func.__lock__: return func(*args, **kwargs) return lock_func class FunctionCache: """ Caches the transformed functions to avoid redundant conversions of the same function. """ def __init__(self): # Caches the converted static functions. {dygraph_func: static_func} self._converted_static_func_caches = weakref.WeakKeyDictionary() # Caches the converted ast node for same source code. {source_code: ast_root} self._code_to_ast_caches = dict() self._dygraph_to_static = DygraphToStaticAst() def convert_with_cache(self, func): """ Returns the cached static function or converts it when first encounters the function. """ # If hit cache, return it directly. static_func = self._converted_static_func_caches.get(func, None) if static_func is None: static_func = self._convert(func) self._converted_static_func_caches[func] = static_func return static_func def _convert(self, func): """ Converts dygraph function into static function. For two functions with same dedent code, the second function will reuse the transformed ast node of previous one. For example: # A.py def foo(x, y): z = x + y return z # B.py def foo(x, y): z = x + y return z If the conversion of A.foo happens after B.foo, it will reuse the transformed ast node of B.foo to speed up the conversion. """ # Note: In Python2, it will raise OSError when inspect function # with decorator directly and function.__wrapped__ holds the actual function. func = unwrap(func) source_code = func_to_source_code(func) # TODO(liym27): # Consider this case: source_code in self._code_to_ast_caches, # but actually they are methods in different classes. # Maybe use (__class__, source_code) as key if source_code in self._code_to_ast_caches: root_wrapper = self._code_to_ast_caches[source_code] else: root = gast.parse(source_code) root = attach_origin_info(root, func) root_wrapper = self._dygraph_to_static.get_static_ast(root) self._code_to_ast_caches[source_code] = root_wrapper # Get static function from AST static_func, file_name = ast_to_func(root_wrapper.node, func) create_and_update_origin_info_map(root_wrapper.node, static_func) return static_func def exist(self, func): return func in self._converted_static_func_caches _CACHE_LOCK = threading.Lock() _FUNCTION_CACHE = FunctionCache() def convert_to_static(function): """ Transforms function of dygraph into static function using the cache mechanism. Args: function(callable): The function with dygraph layers that will be converted into static layers. """ if getattr(function, ALREADY_D2S, None): return function with _CACHE_LOCK: static_func = _FUNCTION_CACHE.convert_with_cache(function) setattr(static_func, ALREADY_D2S, True) return static_func class CacheKey: """ Cached key for ProgramCache. """ __slots__ = [ 'function_spec', 'input_args_with_spec', 'input_kwargs_with_spec', 'class_instance', 'kwargs', '_spec_names_id', ] def __init__( self, function_spec, input_args_with_spec, input_kwargs_with_spec, class_instance, **kwargs ): """ Initializes a cache key. Args: functions_spec(FunctionSpec): a FunctionSpec instance of decorated function. input_args_with_spec(list[InputSpec]): actual input args with some arguments replaced by InputSpec. input_kwargs_with_spec(list[{string:InputSpec}]): actual input kwargs with some arguments replaced by InputSpec. class_instance(object): a instance of class `Layer`. **kwargs(dict): manage other arguments used for better scalability """ self.function_spec = function_spec self.input_args_with_spec = input_args_with_spec self.input_kwargs_with_spec = input_kwargs_with_spec self.class_instance = class_instance # NOTE: `kwargs` is usually not considered as basic member for `__hash__` self.kwargs = kwargs self._spec_names_id = _hash_spec_names( input_args_with_spec, input_kwargs_with_spec ) @classmethod def from_func_and_args(cls, function_spec, args, kwargs, class_instance): """ Generated a CacheKey instance by given inputs. Args: functions_spec(FunctionSpec): a FunctionSpec instance of decorated function. args(tuple): tuple of actual inputs arguments. kwargs(dict): dict of actual inputs keyword arguments. class_instance(object): a instance of class `Layer`. """ # 1. filter `self` in args if args and isinstance(args[0], layers.Layer): args = args[1:] # 2. convert tensor and numpy array into InputSpec _args, _kwargs = function_spec.unified_args_and_kwargs(args, kwargs) ( input_args_with_spec, input_kwargs_with_spec, ) = function_spec.args_to_input_spec(_args, _kwargs) # 3. check whether hit the cache or build a new program for the input arguments return CacheKey( function_spec, input_args_with_spec, input_kwargs_with_spec, class_instance, ) def __hash__(self): error_msg = "Arguments to a `@paddle.jit.to_static` must be a hashable Python objects (or nested structures of these types)." with_hook = self.kwargs.get("with_hook", False) is_train = self.kwargs.get("is_train", False) return hash( ( id(self.function_spec), make_hashable(self.input_args_with_spec, error_msg), make_hashable(self.input_kwargs_with_spec, error_msg), self._spec_names_id, self.class_instance, with_hook, is_train, ) ) def __eq__(self, other): return (type(self) is type(other)) and hash(self) == hash(other) def __neq__(self, other): return not self == other def __repr__(self): return "id(function_spec): {}, input_args_with_spec: {}, input_kwargs_with_spec: {}, class_instance: {}".format( id(self.function_spec), self.input_args_with_spec, self.input_kwargs_with_spec, self.class_instance, ) def unwrap_decorators(func): """ Unwraps a decorated function and returns the decorator list and inner target. """ decorators = [] cur = func while True: if isinstance(cur, StaticFunction): decorators.append(cur) # Note: if `cur` is a method, keep it as bound method of class. instance = cur._class_instance if instance is not None: cur = cur.dygraph_function.__get__(instance) else: cur = cur.dygraph_function else: break return decorators, cur class StaticFunction: """ Wrapper class to Manage program conversion of decorated function. """ def __init__(self, function, input_spec=None, **kwargs): """ Initializes a `StaticFunction`. Args: function(callable): A function or method that will be converted into static program. input_spec(list[InputSpec]): list of InputSpec to specify the `shape/dtype/name` information for each input argument, default None. **kwargs(dict): other arguments like `build_strategy` et.al. """ # save the instance `self` while decorating a method of class. if inspect.ismethod(function): self._dygraph_function = getattr(function, '__func__') self._class_instance = getattr(function, '__self__') if not hasattr(self._class_instance, '_original_funcs'): raise TypeError( "When using 'to_static' to convert method of a class, " "please ensure the class inherits from nn.Layer" ) self._class_instance._original_funcs[ function.__name__ ] = self._dygraph_function else: self._dygraph_function = function self._class_instance = None self._input_spec = input_spec self._function_spec = FunctionSpec(function, input_spec) self._program_cache = ProgramCache() self._descriptor_cache = weakref.WeakKeyDictionary() # Note: Hold a reference to ProgramTranslator for switching `enable_to_static`. self._program_trans = ProgramTranslator() self._kwargs = kwargs self._training = True self._cuda_graph_capture_mode = "" self._cuda_graph_pool_id = 0 self._property = kwargs.get("property", False) @property def is_property(self): # whether is class proproty to be exported. return self._property def train(self): if ( isinstance(self._class_instance, layers.Layer) and self._class_instance.training is False ): raise RuntimeError( "Failed to switch train mode. {} is a Layer's method, " "please use Layer.train() to switch train mode.".format( self.dygraph_function ) ) self._training = True def eval(self): if ( isinstance(self._class_instance, layers.Layer) and self._class_instance.training is True ): raise RuntimeError( "Failed to switch eval mode. {} is a Layer's method, " "please use Layer.eval() to switch eval mode.".format( self.dygraph_function ) ) self._training = False def __get__(self, instance, owner): """ Overrides this method to parse the class instance and call bound method correctly. For example: ''' class Net(Layer): def __init__(self): pass @paddle.jit.to_static def forward(self, x, y): return x + y net = Net() out = net(x, y) ''' In above case, `net(x, y)` will call `net.forward(x, y)` firstly that is a bound method of `Net` instance. After decorated by `@paddle.jit.to_static`, it will firstly to call `__get__` to parse the class instance correctly instead of the `StaticFunction` instance. """ if instance not in self._descriptor_cache: if instance is None: return self # Note(Aurelius84): To construct new instance of StaticFunction when we # first encouter the bound function of layer and cache it. new_static_layer = self._clone() new_static_layer._class_instance = instance self._descriptor_cache[instance] = new_static_layer return self._descriptor_cache[instance] def _clone(self): return self.__class__( self._dygraph_function, self._input_spec, **self._kwargs ) def __call__(self, *args, **kwargs): """ Supports to call the returned instance with input `args` and `kwargs` directly. Args: *args(tuple): tuple of all input arguments from original decorated function. **kwargs(dict): dict of all input keyward arguments from original decorated function. Return: Outputs of decorated function. """ if self._property: return self._call_dygraph_function(*args, **kwargs) # 1. call dygraph function directly if not enable `declarative` if not self._program_trans.enable_to_static: # NOTE(liym27): # Here calls `warnings.warn` but not `logging_utils.warn` because by default warnings.warn(message) # will show up **only once**. StaticFunction.__call__ will run many times, it is appropriate to # display this warning message only once. logging_utils.warn( "The decorator '@paddle.jit.to_static' does NOT work when setting ProgramTranslator.enable to False. " "We will just return dygraph output. If you would like to get static graph output, please call API " "ProgramTranslator.enable(True)" ) return self._call_dygraph_function(*args, **kwargs) if not _non_static_mode(): raise RuntimeError( "Failed to run the callable object {} decorated by '@paddle.jit.to_static', " "because it is NOT in dynamic mode. Please disable the static graph mode to enter dynamic mode with the " "following API: paddle.disable_static().".format( self.dygraph_function ) ) # 2. trace ops from dygraph layers and cache the generated program. args, kwargs = self._function_spec.unified_args_and_kwargs(args, kwargs) try: concrete_program, partial_program_layer = self.get_concrete_program( *args, **kwargs, is_train=self._is_train_mode() ) # 3. synchronize self.training attribute. if isinstance(self._class_instance, layers.Layer): partial_program_layer.training = self._class_instance.training else: partial_program_layer.training = self._training partial_program_layer._cuda_graph_capture_mode = ( self._cuda_graph_capture_mode ) partial_program_layer._cuda_graph_pool_id = self._cuda_graph_pool_id # 4. return outputs. try: return partial_program_layer(args) except Exception as e: if not hasattr(e, error.ERROR_DATA): # runtime error error.attach_error_data(e, in_runtime=True) raise except Exception as e: error_data = getattr(e, error.ERROR_DATA, None) if error_data: error_data.raise_new_exception() else: logging_utils.warn( "Please file an issue at 'https://github.com/PaddlePaddle/Paddle/issues'" " if you can't handle this {} yourself.".format(type(e)) ) raise e def _is_train_mode(self): if self._class_instance is not None: if not hasattr(self._class_instance, 'training'): raise TypeError( "When using 'to_static' to convert method of a class, " "please ensure the class inherits from nn.Layer" ) return self._class_instance.training else: return self._training def _call_dygraph_function(self, *args, **kwargs): """ Calls dygraph function directly and returns the outputs. Args: *args(tuple): tuple of all input arguments from original decorated function. **kwargs(dict): dict of all input keyward arguments from original decorated function. Return: Outputs of dygraph function. """ if self._class_instance is not None: dygraph_function = self._dygraph_function.__get__( self._class_instance ) else: dygraph_function = self._dygraph_function return dygraph_function(*args, **kwargs) def _raise_when_property(self): """raise RuntimeError when property=True Raises: RuntimeError: can not call this func when property=True """ if self.is_property: raise RuntimeError("Can not call the func when property=True.") def get_concrete_program(self, *args, **kwargs): """ Returns traced concrete program and inner executable partial layer. Args: *args(tuple): input arguments values or InputSpec **kwargs(dict) : input kwargs values. Returns: Traced ConcreteProgram and executable translated Layer. """ self._raise_when_property() with_hook = kwargs.get("with_hook", False) is_train = kwargs.get("is_train", True) if "is_train" in kwargs: kwargs.pop("is_train") if "with_hook" in kwargs: kwargs.pop("with_hook") # 1. unify args/kwargs and replace Tensor with InputSpec if len(args) != len(self._function_spec.args_name): args, kwargs = self._function_spec.unified_args_and_kwargs( args, kwargs ) ( input_args_with_spec, input_kwargs_with_spec, ) = self._function_spec.args_to_input_spec(args, kwargs) # 2. generate cache key cache_key = CacheKey( self._function_spec, input_args_with_spec, input_kwargs_with_spec, self._class_instance, **self._kwargs, with_hook=with_hook, is_train=is_train ) # 3. check whether hit the cache or build a new program for the input arguments concrete_program, partial_program_layer = self._program_cache[cache_key] return concrete_program, partial_program_layer def get_traced_count(self): """ Returns the number of traced programs for the decorated function. """ return len(self._program_cache) @property def code(self): """ Returns the source code of transformed static function for debugging. """ static_func = convert_to_static(self._dygraph_function) source_code = func_to_source_code(static_func) return source_code @property def dygraph_function(self): """ Returns the original decorated function. """ return self._dygraph_function @property def concrete_program(self): """ Returns recent ConcreteProgram instance of decorated function. Examples: .. code-block:: python import paddle from paddle.jit import to_static from paddle.static import InputSpec paddle.disable_static() def foo(x, y): z = x + y return z # usage 1: decorated_foo = to_static(foo, input_spec=[InputSpec([10], name='x'), InputSpec([10], name='y')]) print(decorated_foo.concrete_program) # usage 2: decorated_foo = to_static(foo) out_foo = decorated_foo(paddle.rand([10]), paddle.rand([10])) print(decorated_foo.concrete_program) """ return self.concrete_program_specify_input_spec(input_spec=None) def concrete_program_specify_input_spec( self, input_spec=None, with_hook=False ): """ Returns recent ConcreteProgram instance of decorated function while specifying input_spec. If the self._function_spec already has input_spec, it will check the compatibility of input input_spec and the self._function_spec.input_spec. If input input_spec=None, then this method uses self._function_spec.input_spec args: input_spec (list[InputSpec], optional): Describes the input of the translate function. """ self._raise_when_property() # if specific the `input_spec`, the length of program_cache will always 1, # else, return the last one. cached_program_len = len(self._program_cache) # If specific `input_spec`, apply convertion from dygraph layers into static Program. if cached_program_len == 0: desired_input_spec = input_spec if self._function_spec.input_spec is not None: if input_spec is not None and not input_specs_compatible( flatten(input_spec), flatten(self._function_spec.input_spec) ): raise ValueError( "The `input_spec`: {} used to construct concrete_program is conflict with the `input_spec`: {} in `@paddle.jit.to_static`".format( input_spec, self._function_spec.input_spec ) ) # NOTE(chenweihang): we should always translated program based on the `input_spec` # decorated on forward if it is valid desired_input_spec = self._function_spec.input_spec if input_spec is not None: logging_utils.warn( "\n\nYou have specified `input_spec` both in function definition (higher priority) and `paddle.jit.save` (will be ignored.)\n\n\t Using: {}\n\n\t Ignore: {}\n".format( desired_input_spec, input_spec ) ) has_input_spec = desired_input_spec is not None if has_input_spec: concrete_program, _ = self.get_concrete_program( *desired_input_spec, with_hook=with_hook, is_train=self._is_train_mode() ) return concrete_program else: raise ValueError( "No valid transformed program for {}.\n\t Please specific `input_spec` in `@paddle.jit.to_static` or feed input tensor to call the decorated function at once.\n".format( self._function_spec ) ) elif with_hook: cache_key = self._program_cache._recent_cache_key cache_key.kwargs["with_hook"] = True concrete_program, _ = self._program_cache[cache_key] return concrete_program # If more than one programs have been cached, return the recent converted program by default. elif cached_program_len > 1: logging_utils.warn( "Current {} has more than one cached programs: {}, the last traced progam will be return by default.".format( self._function_spec, cached_program_len ) ) cache_key, ( concrete_program, partial_layer, ) = self._program_cache.last() return concrete_program def rollback(self): """ Rollback into original dygraph functions for current class instance. Returns: Function or Method Example:: .. code-block:: python import paddle class Net(paddle.nn.Layer): def __init__(self): super().__init__() def forward(self, x, flag=True): if flag: out = x + 1 else: out = x - 1 return out x = paddle.randn([10, 1], 'float32') net = paddle.jit.to_static(Net()) # convert into static graph mode out = net(x) net.forward.rollback() # rollback into dygraph mode out = net(x) """ def rollback_impl(class_instance): for name, func in class_instance._original_funcs.items(): setattr(class_instance, name, func.__get__(class_instance)) for sublayer in class_instance.sublayers(include_self=False): rollback_impl(sublayer) if self._class_instance is None: return self._dygraph_function # only rollback sub-functions on path of top _dygraph_function func_name = self._dygraph_function.__name__ assert ( func_name in self._class_instance._original_funcs ), "Not Found function '{}' in class '{}'.".format( func_name, self._class_instance.__name__ ) func = self._class_instance._original_funcs[func_name] setattr( self._class_instance, func_name, func.__get__(self._class_instance) ) for sublayer in self._class_instance.sublayers(include_self=False): rollback_impl(sublayer) return getattr(self._class_instance, func_name) def __deepcopy__(self, memo): """ Customized behavior for copy.deepcopy, return original decorated function instead of a new StaticFunction Object. StaticFunction itself is not copyable becuase it's associated with class_instance. We add __deepcopy__ here only for the following usage: Example:: .. code-block:: python import copy import paddle class Net(paddle.nn.Layer): def __init__(self): super().__init__() def forward(self, x, flag=True): if flag: out = x + 1 else: out = x - 1 return out x = paddle.randn([10, 1], 'float32') net = paddle.jit.to_static(Net()) # convert into static graph mode copy_net = copy.deepcopy(net) # deepcopy a new net without @to_static Please attention that original 'net' will unwrap @to_static and rollback into simple Layer. """ if self._class_instance is not None: net_name = type(self._class_instance).__name__ logging_utils.log( level=-1, msg="Not recommend to deepcopy '{}' decorated with @to_static, it has side effect that will" " rollback into original state before @to_static. Please deepcopy '{}' before applying @to_static.".format( net_name, net_name ), ) self.rollback() return self._dygraph_function.__get__( memo[id(self._class_instance)] ) else: return self._dygraph_function @property def inputs(self): """ Returns input tensors of recent converted static program. """ self._raise_when_property() concrete_program = self.concrete_program inputs = [ var for var in flatten(concrete_program.inputs) if isinstance(var, framework.Variable) ] return inputs @property def outputs(self): """ Returns output tensors of recent converted static program. """ self._raise_when_property() concrete_program = self.concrete_program outputs = [ var for var in flatten(concrete_program.outputs) if isinstance(var, framework.Variable) ] return outputs @property def main_program(self): """ Returns recent converted static main program. """ self._raise_when_property() concrete_program = self.concrete_program main_program = concrete_program.main_program return main_program @property def program_cache(self): return self._program_cache @property def function_spec(self): return self._function_spec def _verify_init_in_dynamic_mode(class_instance): """ Verifies the instance is initialized in dynamic mode. """ if isinstance(class_instance, layers.Layer): if not class_instance._init_in_dynamic_mode: raise RuntimeError( " `paddle.jit.to_static` is only available in dynamic mode. Please call `paddle.disable_static()` before " "initializing your Layer class `{}` . Because parameters of Layer class should be initialized firstly " "in dynamic mode while applying transformation.".format( class_instance ) ) class HookHelper: """ Only For converting pre/post hooks operation in outermost layer while jit.save. Because hooks in sublayer have been processed automatically. """ def __init__(self, func, class_instance, with_hook=False): self.func = func self.class_instance = class_instance self.with_hook = with_hook self.need_apply_hook = ( with_hook and isinstance(self.class_instance, layers.Layer) and getattr(func, "__name__") == "forward" ) def apply_pre_hooks(self, inputs): """ Apply _forward_pre_hooks from outermost layer """ if not self.need_apply_hook: return inputs inputs = inputs[1:] for forward_pre_hook in self.class_instance._forward_pre_hooks.values(): hook_result = forward_pre_hook(self.class_instance, inputs) if hook_result is not None: if not isinstance(hook_result, tuple): hook_result = (hook_result,) inputs = hook_result return [self.class_instance] + list(inputs) def apply_post_hooks(self, inputs, outputs): """ Apply _forward_post_hooks from outermost layer """ if not self.need_apply_hook: return outputs inputs = inputs[1:] for ( forward_post_hook ) in self.class_instance._forward_post_hooks.values(): hook_result = forward_post_hook( self.class_instance, inputs, outputs ) if hook_result is not None: outputs = hook_result inputs.insert(0, self.class_instance) return outputs class ConcreteProgram: __slots__ = [ 'inputs', 'outputs', 'main_program', "startup_program", "parameters", "function", 'kwargs', ] def __init__( self, inputs, outputs, parameters, function, main_program, startup_program=None, **kwargs ): self.inputs = inputs self.outputs = outputs self.main_program = main_program self.startup_program = startup_program self.parameters = parameters self.function = function self.kwargs = kwargs @staticmethod @switch_to_static_graph def from_func_spec( func_spec, input_spec, input_kwargs_spec, class_instance, **kwargs ): """ Builds the main_program with specialized inputs and returns outputs of program as fetch_list. Args: func_spec(FunctionSpec): A FunctionSpec instance for decorated function. input_spec(list[InputSpec]): """ # verify the instance is initialized in imperative mode. _verify_init_in_dynamic_mode(class_instance) # Transforms dygraph function into static function and caches it. dygraph_function = func_spec.dygraph_function static_func = convert_to_static(dygraph_function) # apply pre\post hook for outermost layer hook_helper = HookHelper( dygraph_function, class_instance, kwargs.get("with_hook", False) ) main_program, startup_program = framework.Program(), framework.Program() # Note: The random seed should be synchronized into cached program # if set in `fluid.dygraph_guard` because some ops rely on it, such as # `fluid.layers.dropout`. main_program.random_seed = framework.default_main_program().random_seed startup_program.random_seed = ( framework.default_startup_program().random_seed ) from paddle.fluid.dygraph.base import _switch_declarative_mode_guard_ with framework.program_guard(main_program, startup_program): with _switch_declarative_mode_guard_(is_declarative=True): # 1. Adds `fluid.data` layers for input if needed static_inputs = func_spec.to_static_inputs_with_spec( input_spec, main_program ) _kwargs = func_spec.to_static_inputs_with_spec( input_kwargs_spec, main_program ) if class_instance: static_inputs = tuple( [class_instance] + list(static_inputs) ) # 2. Builds program only once and returns the output Variables. with param_guard( get_parameters(class_instance, False) ), param_guard(get_buffers(class_instance, False)): try: # only for jit.save, do nothing while train and eval process inputs = hook_helper.apply_pre_hooks(static_inputs) if _kwargs: outputs = static_func(*inputs, **_kwargs) else: outputs = static_func(*inputs) outputs = hook_helper.apply_post_hooks(inputs, outputs) except BaseException as e: # NOTE: If e is raised in compile time, e should be attached to ERROR_DATA here. error.attach_error_data(e) error_data = getattr(e, error.ERROR_DATA, None) if error_data: error_data.raise_new_exception() raise from paddle.jit.dy2static.program_translator import ( ProgramTranslator, ) # 3. Gets all ParamBases and buffered VarBases in the function all_parameters_and_buffers = ( ProgramTranslator.get_instance()._params_recorder.pop( main_program ) ) if outputs is not None: need_wrap_into_list = ( not isinstance(outputs, (tuple, list)) or len(outputs) == 1 ) if need_wrap_into_list: outputs = [outputs] main_program = update_op_callstack_with_origin_info(main_program) return ConcreteProgram( inputs=static_inputs, outputs=outputs, parameters=all_parameters_and_buffers, function=dygraph_function, main_program=main_program, startup_program=startup_program, **kwargs ) def _extract_indeed_params_buffers(class_instance): """ To filter not initialzed buffers. """ params = list(get_parameters(class_instance).values()) buffers = list(get_buffers(class_instance).values()) buffers = [buffer for buffer in buffers if len(buffer.shape) != 0] return params + buffers class ParametersRecorder: def __init__(self): self.params_dict = {} @synchronized def add(self, program, param): """use the default_program as key, append param the parameter list.""" key = self._program_hash(program) if key not in self.params_dict: self.params_dict[key] = set() params = self.params_dict[key] params.add(param) def pop(self, program): params = self.params_dict.get(self._program_hash(program)) if params is None: return [] del self.params_dict[self._program_hash(program)] return list(params) def _program_hash(self, program): """ because program is not deleted while calling from_func_spec. so it's ok to use id(program) """ return id(program) class ProgramCache: """ Wrapper class for the program functions defined by dygraph function. """ def __init__(self): # {hash_id : (concrete_program, partial_layer)} self._caches = collections.OrderedDict() # trace mostly recent used program self._recent_key = None self._recent_cache_key = None def _build_once(self, cache_key): concrete_program = ConcreteProgram.from_func_spec( func_spec=cache_key.function_spec, input_spec=cache_key.input_args_with_spec, input_kwargs_spec=cache_key.input_kwargs_with_spec, class_instance=cache_key.class_instance, **cache_key.kwargs ) return concrete_program, partial_program_from(concrete_program) def __getitem__(self, item): if not isinstance(item, CacheKey): raise ValueError( 'type(item) should be CacheKey, but received %s' % type_name(item) ) item_id = hash(item) self._recent_cache_key = item self._recent_key = item_id if item_id not in self._caches: self._caches[item_id] = self._build_once(item) # Note: raise warnings if number of traced program is more than `max_tracing_count` current_tracing_count = len(self._caches) if current_tracing_count > MAX_TRACED_PROGRAM_COUNT: logging_utils.warn( "Current traced program number: {} > `max_tracing_count`:{}. Too much cached programs will bring expensive overhead. " "The reason may be: (1) passing tensors with different shapes, (2) passing python objects instead of tensors.".format( current_tracing_count, MAX_TRACED_PROGRAM_COUNT ) ) return self._caches[item_id] def get_program(self, item): if not isinstance(item, CacheKey): raise ValueError( "Input item's type should be FunctionSpec, but received %s" % type_name(item) ) item_id = hash(item) if item_id not in self._caches: raise RuntimeError( "Failed to find program for input item, please decorate input function by `@paddle.jit.to_static`." ) return self._caches[item_id] def last(self): assert ( len(self._caches) >= 1 ), "No valid cached program in ProgramCache." assert self._recent_key is not None return self._recent_key, self._caches[self._recent_key] def __len__(self): return len(self._caches) def concrete_programs(self): return [cp for key, (cp, _) in self._caches.items()] class ProgramTranslator: """ Class to translate dygraph function into static graph function. The object of this class is a singleton. Args: None. Returns: ProgramTranslator: the singleton object. Examples: .. code-block:: python import paddle # Two methods get same object because ProgramTranslator is a singleton paddle.jit.ProgramTranslator() paddle.jit.ProgramTranslator.get_instance() """ _singleton_lock = threading.Lock() _instance = None @synchronized def __new__(cls, *args, **kwargs): if cls._instance is None: cls._instance = object.__new__(cls, *args, **kwargs) cls._instance._initialized = False return cls._instance @classmethod def get_instance(cls): if cls._instance is None: with cls._singleton_lock: cls._instance = cls() return cls._instance @classmethod def reset(cls): if cls._instance is not None: cls._instance._initialized = False cls._instance.__init__() def __init__(self): # To make sure that calls __init__ only once. if self._initialized: return self._initialized = True self._program_cache = ProgramCache() self._params_recorder = ParametersRecorder() self.enable_to_static = True def enable(self, enable_to_static): """ Enable or disable the converting from imperative to static graph by ProgramTranslator globally. Args: enable_to_static (bool): True or False to enable or disable converting to static. Returns: None. Examples: .. code-block:: python import paddle @paddle.jit.to_static def func(x): if paddle.mean(x) > 0: x_v = x - 1 else: x_v = x + 1 return x_v prog_trans = paddle.jit.ProgramTranslator() prog_trans.enable(False) x = paddle.ones([1, 2]) # ProgramTranslator is disabled so the func is run in dygraph print(func(x)) # [[0. 0.]] """ check_type( enable_to_static, "enable_to_static", bool, "ProgramTranslator.enable", ) self.enable_to_static = enable_to_static def get_output(self, dygraph_func, *args, **kwargs): """ Returns the output dygraph Tensor for dygraph function. The dygraph function will be translated into static graph function so the under beneath numerical result will be calculated by static graph mode. Args: dygraph_func (callable): the dygraph function. *args (tuple): the input argument of dygraph_func. **kwargs (dict): the input argument of dygraph_func. Returns: Tensor or tuple of Tensors: the dygraph Tensor containing digital result. Examples: .. code-block:: python import paddle def func(x): if paddle.mean(x) > 0: x_v = x - 1 else: x_v = x + 1 return x_v prog_trans = paddle.jit.ProgramTranslator() x = paddle.ones([1, 2]) x_v = prog_trans.get_output(func, x) print(x_v) # [[0. 0.]] """ assert callable( dygraph_func ), "Input dygraph_func is not a callable in ProgramTranslator.get_output" if not self.enable_to_static: # Here calls `warnings.warn` but not `logging_utils.warn` because by default warnings.warn(message) # will show up **only once**. logging_utils.warn( "The ProgramTranslator.get_output doesn't work when setting ProgramTranslator.enable to False. " "We will just return dygraph output. " "Please call ProgramTranslator.enable(True) if you would like to get static output." ) return dygraph_func(*args, **kwargs) try: function_spec = FunctionSpec(dygraph_func) cache_key = CacheKey.from_func_and_args( function_spec, args, kwargs, getattr(dygraph_func, '__self__', None), ) _, partial_program_layer = self._program_cache[cache_key] if args and isinstance(args[0], layers.Layer): # Synchronize self.training attribute. partial_program_layer.training = args[0].training args = args[1:] try: return partial_program_layer(args) except BaseException as e: # NOTE: # 1. If e is raised in compile time, e should have been attached to ERROR_DATA before; # 2. If e raised in runtime, e should be attached to ERROR_DATA here. if not hasattr(e, error.ERROR_DATA): # runtime error error.attach_error_data(e, in_runtime=True) raise except BaseException as e: error_data = getattr(e, error.ERROR_DATA, None) if error_data: error_data.raise_new_exception() else: logging_utils.warn( "Please file an issue at 'https://github.com/PaddlePaddle/Paddle/issues'" " if you can't handle this {} yourself.".format(type(e)) ) raise e def get_func(self, dygraph_func): """ Returns a callable function which converts imperative dygraph APIs of the input dygraph_func into declarative net-building APIs, which means it doesn't return immediate digital result as get_output does. Users should handle Program and Executor by themselves. Args: dygraph_func (callable): the dygraph function. Returns: callable: converting imperative dygraph APIs into declarative net-building APIs. Examples: .. code-block:: python import paddle def func(x): if paddle.mean(x) > 0: x_v = x - 1 else: x_v = x + 1 return x_v prog_trans = paddle.jit.ProgramTranslator() static_func = prog_trans.get_func(func) print(callable(static_func)) # True """ assert callable( dygraph_func ), "Input dygraph_func is not a callable in ProgramTranslator.get_func" if not self.enable_to_static: logging_utils.warn( "The ProgramTranslator.get_func doesn't work when setting ProgramTranslator.enable to False. We will " "just return dygraph output. Please call ProgramTranslator.enable(True) if you would like to get static output." ) return dygraph_func static_func = convert_to_static(dygraph_func) return static_func def get_program(self, dygraph_func, *args, **kwargs): """ Returns the translated static program and input/output Tensors from dygraph function. The users can use the program to run by executor. Args: dygraph_func (callable): the dygraph function. *args (tuple): the input argument of dygraph_func. **kwargs (dict): the input argument of dygraph_func. Returns: tuple of (main_program, startup_program, inputs, outputs) whose types are (Program, Program, list of Tensors, list of Tensors). main_program: the converted main program. startup_program: the converted startup program. inputs: list of input Tensors which need to be fed. outputs: list of output Tensors which users can fetch. Examples: .. code-block:: python import paddle def func(x): if paddle.mean(x) > 0: x_v = x - 1 else: x_v = x + 1 return x_v prog_trans = paddle.jit.ProgramTranslator() x = paddle.ones([1, 2]) main_prog, start_prog, inputs, outputs = prog_trans.get_program(func, x) print([i.name for i in inputs]) # [u'generated_tensor_0'] the feed input Tensor name representing x print([o.name for o in outputs]) # [u'_generated_var_4'] the fetch output Tensor name representing x_v """ assert callable( dygraph_func ), "Input dygraph_func is not a callable in ProgramTranslator.get_program" if not self.enable_to_static: logging_utils.warn( "The ProgramTranslator.get_program doesn't work when setting ProgramTranslator.enable to False." "We will just return dygraph output. " "Please call ProgramTranslator.enable(True) if you would like to get static output." ) return dygraph_func(*args, **kwargs) function_spec = FunctionSpec(dygraph_func) cache_key = CacheKey.from_func_and_args( function_spec, args, kwargs, getattr(dygraph_func, '__self__', None) ) concrete_program, partial_program_layer = self._program_cache[cache_key] # Note: concrete_program hold all input/output infos include non-Variable input_vars = [ var for var in concrete_program.inputs if isinstance(var, framework.Variable) ] output_vars = [ var for var in concrete_program.outputs if isinstance(var, framework.Variable) ] return ( concrete_program.main_program, concrete_program.startup_program, input_vars, output_vars, ) def get_code(self, dygraph_func): """ Returns the translated static function string code from dygraph function. Args: dygraph_func (callable): the dygraph function. Returns: str: the string code of translated static function. Examples: .. code-block:: python import paddle def func(x): if paddle.mean(x) > 0: x_v = x - 1 else: x_v = x + 1 return x_v prog_trans = paddle.jit.ProgramTranslator() code = prog_trans.get_code(func) print(type(code)) # """ assert callable( dygraph_func ), "Input dygraph_func is not a callable in ProgramTranslator.get_code" # Gets AST from dygraph function unwrap_func = unwrap(dygraph_func) raw_code = inspect.getsource(unwrap_func) code = textwrap.dedent(raw_code) root = gast.parse(code) # Transform AST dygraph_to_static = DygraphToStaticAst() root_wrapper = dygraph_to_static.get_static_ast(root) # Get source_code source_code = ast_to_source_code(root_wrapper.node) return source_code def get_program_cache(self): """ Returns the ProgramCache instance. This method is used by PaddlePaddle developers to manage program cache in ProgramTranslator. Normal users don't have to call this method. Returns: ProgramCache: ProgramCache instance of ProgramTranslator. Examples: .. code-block:: python import paddle prog_trans = paddle.jit.ProgramTranslator() prog_cache = prog_trans.get_program_cache() """ return self._program_cache