# Copyright (c) 2016 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. """ `paddle.v2.layer` is a part of model config packages in paddle.v2. In API v2, we want to make Paddle a plain Python package. The model config package defined the way how to configure a neural network topology in Paddle Python code. The primary usage shows below. .. code-block:: python import paddle.v2 as paddle img = paddle.layer.data(name='img', type=paddle.data_type.dense_vector(784)) hidden = paddle.layer.fc(input=img, size=200) prediction = paddle.layer.fc(input=hidden, size=10, act=paddle.activation.Softmax()) # use prediction instance where needed. parameters = paddle.parameters.create(cost) """ import collections import copy import re import paddle.trainer_config_helpers.layers as v1_layers import paddle.trainer.config_parser as cp from paddle.proto.ModelConfig_pb2 import ModelConfig, SubModelConfig from config_base import __convert_to_v2__ import config_base __all__ = ['data', 'parse_network'] def __need_to_keep__(name): if name in ['StaticInput', 'LayerType', 'layer_support']: return False return True def __need_to_wrap__(name): return name not in ['AggregateLevel', 'ExpandLevel'] def __convert_name__(inname): if inname == 'maxid_layer': return 'max_id' elif inname.endswith('memory') or inname.endswith( '_seq') or inname.endswith('_sim') or inname == 'hsigmoid': return inname elif inname in [ 'cross_entropy', 'multi_binary_label_cross_entropy', 'cross_entropy_with_selfnorm' ]: return inname + "_cost" elif inname.endswith('_cost'): return inname elif inname.endswith("_layer"): return inname[:-len("_layer")] else: return inname for name in v1_layers.__all__: obj = getattr(v1_layers, name) if not __need_to_keep__(name): continue new_name = __convert_name__(name) if callable(obj) and __need_to_wrap__(name): globals()[new_name] = __convert_to_v2__(obj, new_name, __name__) else: globals()[new_name] = obj __all__.append(new_name) def __data_layer__(name, type, **kwargs): l = v1_layers.data_layer(name, type.dim, **kwargs) l.data_type = type return l def __map_data_docstr__(doc): doc = re.sub(r'(data = [^\)]+)\).*', "data = paddle.layer.data(name=\"input\", " "type=paddle.data_type.dense_vector(1000))", doc) doc = re.sub(r':param size:.*', ':param type: Data type of this data layer', doc) doc = re.sub(r':type size:.*', ":type size: paddle.v2.data_type.InputType", doc) return doc __data_layer__.__doc__ = __map_data_docstr__(v1_layers.data_layer.__doc__) data = __convert_to_v2__(__data_layer__, 'name', __name__) def __get_used_layers__(output_layers, extra_layers=None): layer_names = set() parents = {} def add_parent(child, parent): if child in parents: parents[child].append(parent) else: parents[child] = [parent] def add_additional_parents(): for sub_model in cp.g_config.model_config.sub_models: if sub_model.name == 'root': continue for link in sub_model.in_links: add_parent(link.link_name, link.layer_name) add_parent(sub_model.name, link.layer_name) for link in sub_model.out_links: add_parent(link.link_name, link.layer_name) add_parent(link.link_name, sub_model.name) for mem in sub_model.memories: if mem.boot_layer_name: add_parent(mem.layer_name, mem.boot_layer_name) add_parent(mem.link_name, mem.layer_name) def dfs_travel(layer_name): if layer_name in layer_names: return layer_names.add(layer_name) layer = cp.g_layer_map[layer_name] for inp in layer.inputs: dfs_travel(inp.input_layer_name) if layer.name in parents: for p in parents[layer.name]: dfs_travel(p) add_additional_parents() for layer in output_layers: dfs_travel(layer.full_name) return layer_names def __get_used_parameters__(layer_names): parameter_names = set() for name in layer_names: l = cp.g_layer_map[name] for inp in l.inputs: if inp.input_parameter_name: parameter_names.add(inp.input_parameter_name) if l.bias_parameter_name: parameter_names.add(l.bias_parameter_name) return parameter_names def __get_used_submodels__(layer_names): submodel_names = set() for submodel in cp.g_config.model_config.sub_models: if submodel.name in layer_names: submodel_names.add(submodel.name) return submodel_names def __get_used_evaluators__(layer_names): evaluator_names = set() for e in cp.g_config.model_config.evaluators: used = True for name in e.input_layers: if name not in layer_names: used = False break if used: evaluator_names.add(e.name) return evaluator_names def __trim_submodel__(old_submodel, layer_names, input_layer_names, output_layer_names, evaluator_names): submodel = SubModelConfig() submodel.name = old_submodel.name submodel.layer_names.extend( filter(lambda x: x in layer_names, old_submodel.layer_names)) submodel.input_layer_names.extend( filter(lambda x: x in input_layer_names, submodel.layer_names)) submodel.output_layer_names.extend( filter(lambda x: x in output_layer_names, submodel.layer_names)) submodel.evaluator_names.extend( filter(lambda x: x in evaluator_names, old_submodel.evaluator_names)) submodel.is_recurrent_layer_group = old_submodel.is_recurrent_layer_group submodel.reversed = old_submodel.reversed submodel.memories.extend( filter(lambda x: x.link_name in layer_names, old_submodel.memories)) target_inlinkid = (old_submodel.target_inlinkid if old_submodel.HasField('target_inlinkid') else -1) in_links = [] for i, link in enumerate(old_submodel.in_links): if link.link_name in layer_names or i == target_inlinkid: in_links.append(link) if i == target_inlinkid: target_inlinkid = len(in_links) - 1 submodel.in_links.extend(in_links) submodel.out_links.extend( filter(lambda x: x.link_name in layer_names, old_submodel.out_links)) if old_submodel.HasField('generator'): submodel.generator.CopyFrom(old_submodel.generator) if old_submodel.HasField('target_inlinkid'): submodel.target_inlinkid = target_inlinkid return submodel def parse_network(output_layers, extra_layers=None): if not isinstance(output_layers, collections.Sequence): output_layers = [output_layers] if extra_layers is not None and not isinstance(extra_layers, collections.Sequence): extra_layers = [extra_layers] else: extra_layers = [] layer_names = __get_used_layers__(output_layers + extra_layers) submodel_names = __get_used_submodels__(layer_names) submodel_names.add('root') parameter_names = __get_used_parameters__(layer_names) evaluator_names = __get_used_evaluators__(layer_names) input_layer_names = set() output_layer_names = set() model_config = ModelConfig() model_config.type = cp.g_config.model_config.type for l in cp.g_config.model_config.layers: if l.name not in layer_names: continue model_config.layers.extend([l]) if l.type == 'data': model_config.input_layer_names.append(l.name) input_layer_names.add(l.name) for p in cp.g_config.model_config.parameters: if p.name in parameter_names: model_config.parameters.extend([p]) for layer in output_layers: model_config.output_layer_names.append(layer.full_name) output_layer_names.add(layer.full_name) for e in cp.g_config.model_config.evaluators: if e.name in evaluator_names: model_config.evaluators.extend([e]) for s in cp.g_config.model_config.sub_models: if s.name in submodel_names: s = __trim_submodel__(s, layer_names, input_layer_names, output_layer_names, evaluator_names) model_config.sub_models.extend([s]) return model_config def get_layer(name): return config_base.__layer_map__.get(name) cp.begin_parse()