# copyright (c) 2021 PaddlePaddle Authors. All Rights Reserve. # # 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 typing import Tuple, List, Dict, Union, Callable, Any from paddle import nn from ppcls.utils import logger class Identity(nn.Layer): def __init__(self): super(Identity, self).__init__() def forward(self, inputs): return inputs class TheseusLayer(nn.Layer): def __init__(self, *args, **kwargs): super(TheseusLayer, self).__init__() self.res_dict = {} self.res_name = self.full_name() self.pruner = None self.quanter = None def _return_dict_hook(self, layer, input, output): res_dict = {"output": output} # 'list' is needed to avoid error raised by popping self.res_dict for res_key in list(self.res_dict): # clear the res_dict because the forward process may change according to input res_dict[res_key] = self.res_dict.pop(res_key) return res_dict def init_res(self, stages_pattern, return_patterns=None, return_stages=None): if return_patterns and return_stages: msg = f"The 'return_patterns' would be ignored when 'return_stages' is set." logger.warning(msg) return_stages = None if return_stages is True: return_patterns = stages_pattern # return_stages is int or bool if type(return_stages) is int: return_stages = [return_stages] if isinstance(return_stages, list): if max(return_stages) > len(stages_pattern) or min( return_stages) < 0: msg = f"The 'return_stages' set error. Illegal value(s) have been ignored. The stages' pattern list is {stages_pattern}." logger.warning(msg) return_stages = [ val for val in return_stages if val >= 0 and val < len(stages_pattern) ] return_patterns = [stages_pattern[i] for i in return_stages] if return_patterns: self.update_res(return_patterns) def replace_sub(self, *args, **kwargs) -> None: msg = "The function 'replace_sub()' is deprecated, please use 'upgrade_sublayer()' instead." logger.error(DeprecationWarning(msg)) raise DeprecationWarning(msg) def upgrade_sublayer(self, layer_name_pattern: Union[str, List[str]], handle_func: Callable[[nn.Layer, str], nn.Layer] ) -> Dict[str, nn.Layer]: """use 'handle_func' to modify the sub-layer(s) specified by 'layer_name_pattern'. Args: layer_name_pattern (Union[str, List[str]]): The name of layer to be modified by 'handle_func'. handle_func (Callable[[nn.Layer, str], nn.Layer]): The function to modify target layer specified by 'layer_name_pattern'. The formal params are the layer(nn.Layer) and pattern(str) that is (a member of) layer_name_pattern (when layer_name_pattern is List type). And the return is the layer processed. Returns: Dict[str, nn.Layer]: The key is the pattern and corresponding value is the result returned by 'handle_func()'. Examples: from paddle import nn import paddleclas def rep_func(layer: nn.Layer, pattern: str): new_layer = nn.Conv2D( in_channels=layer._in_channels, out_channels=layer._out_channels, kernel_size=5, padding=2 ) return new_layer net = paddleclas.MobileNetV1() res = net.replace_sub(layer_name_pattern=["blocks[11].depthwise_conv.conv", "blocks[12].depthwise_conv.conv"], handle_func=rep_func) print(res) # {'blocks[11].depthwise_conv.conv': the corresponding new_layer, 'blocks[12].depthwise_conv.conv': the corresponding new_layer} """ if not isinstance(layer_name_pattern, list): layer_name_pattern = [layer_name_pattern] hit_layer_pattern_list = [] for pattern in layer_name_pattern: # parse pattern to find target layer and its parent layer_list = parse_pattern_str(pattern=pattern, parent_layer=self) if not layer_list: continue sub_layer_parent = layer_list[-2]["layer"] if len( layer_list) > 1 else self sub_layer = layer_list[-1]["layer"] sub_layer_name = layer_list[-1]["name"] sub_layer_index = layer_list[-1]["index"] new_sub_layer = handle_func(sub_layer, pattern) if sub_layer_index: getattr(sub_layer_parent, sub_layer_name)[sub_layer_index] = new_sub_layer else: setattr(sub_layer_parent, sub_layer_name, new_sub_layer) hit_layer_pattern_list.append(pattern) return hit_layer_pattern_list def stop_after(self, stop_layer_name: str) -> bool: """stop forward and backward after 'stop_layer_name'. Args: stop_layer_name (str): The name of layer that stop forward and backward after this layer. Returns: bool: 'True' if successful, 'False' otherwise. """ layer_list = parse_pattern_str(stop_layer_name, self) if not layer_list: return False parent_layer = self for layer_dict in layer_list: name, index = layer_dict["name"], layer_dict["index"] if not set_identity(parent_layer, name, index): msg = f"Failed to set the layers that after stop_layer_name('{stop_layer_name}') to IdentityLayer. The error layer's name is '{name}'." logger.warning(msg) return False parent_layer = layer_dict["layer"] return True def update_res( self, return_patterns: Union[str, List[str]]) -> Dict[str, nn.Layer]: """update the result(s) to be returned. Args: return_patterns (Union[str, List[str]]): The name of layer to return output. Returns: Dict[str, nn.Layer]: The pattern(str) and corresponding layer(nn.Layer) that have been set successfully. """ # clear res_dict that could have been set self.res_dict = {} class Handler(object): def __init__(self, res_dict): # res_dict is a reference self.res_dict = res_dict def __call__(self, layer, pattern): layer.res_dict = self.res_dict layer.res_name = pattern if hasattr(layer, "hook_remove_helper"): layer.hook_remove_helper.remove() layer.hook_remove_helper = layer.register_forward_post_hook( save_sub_res_hook) return layer handle_func = Handler(self.res_dict) hit_layer_pattern_list = self.upgrade_sublayer( return_patterns, handle_func=handle_func) if hasattr(self, "hook_remove_helper"): self.hook_remove_helper.remove() self.hook_remove_helper = self.register_forward_post_hook( self._return_dict_hook) return hit_layer_pattern_list def save_sub_res_hook(layer, input, output): layer.res_dict[layer.res_name] = output def set_identity(parent_layer: nn.Layer, layer_name: str, layer_index: str=None) -> bool: """set the layer specified by layer_name and layer_index to Indentity. Args: parent_layer (nn.Layer): The parent layer of target layer specified by layer_name and layer_index. layer_name (str): The name of target layer to be set to Indentity. layer_index (str, optional): The index of target layer to be set to Indentity in parent_layer. Defaults to None. Returns: bool: True if successfully, False otherwise. """ stop_after = False for sub_layer_name in parent_layer._sub_layers: if stop_after: parent_layer._sub_layers[sub_layer_name] = Identity() continue if sub_layer_name == layer_name: stop_after = True if layer_index and stop_after: stop_after = False for sub_layer_index in parent_layer._sub_layers[ layer_name]._sub_layers: if stop_after: parent_layer._sub_layers[layer_name][ sub_layer_index] = Identity() continue if layer_index == sub_layer_index: stop_after = True return stop_after def parse_pattern_str(pattern: str, parent_layer: nn.Layer) -> Union[ None, List[Dict[str, Union[nn.Layer, str, None]]]]: """parse the string type pattern. Args: pattern (str): The pattern to discribe layer. parent_layer (nn.Layer): The root layer relative to the pattern. Returns: Union[None, List[Dict[str, Union[nn.Layer, str, None]]]]: None if failed. If successfully, the members are layers parsed in order: [ {"layer": first layer, "name": first layer's name parsed, "index": first layer's index parsed if exist}, {"layer": second layer, "name": second layer's name parsed, "index": second layer's index parsed if exist}, ... ] """ pattern_list = pattern.split(".") if not pattern_list: msg = f"The pattern('{pattern}') is illegal. Please check and retry." logger.warning(msg) return None layer_list = [] while len(pattern_list) > 0: if '[' in pattern_list[0]: target_layer_name = pattern_list[0].split('[')[0] target_layer_index = pattern_list[0].split('[')[1].split(']')[0] else: target_layer_name = pattern_list[0] target_layer_index = None target_layer = getattr(parent_layer, target_layer_name, None) if target_layer is None: msg = f"Not found layer named('{target_layer_name}') specifed in pattern('{pattern}')." logger.warning(msg) return None if target_layer_index and target_layer: if int(target_layer_index) < 0 or int(target_layer_index) >= len( target_layer): msg = f"Not found layer by index('{target_layer_index}') specifed in pattern('{pattern}'). The index should < {len(target_layer)} and > 0." logger.warning(msg) return None target_layer = target_layer[target_layer_index] layer_list.append({ "layer": target_layer, "name": target_layer_name, "index": target_layer_index }) pattern_list = pattern_list[1:] parent_layer = target_layer return layer_list