# Copyright PaddlePaddle contributors. 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 difflib import unittest import paddle.trainer_config_helpers as conf_helps import paddle.v2.activation as activation import paddle.v2.data_type as data_type import paddle.v2.layer as layer from paddle.trainer_config_helpers.config_parser_utils import \ parse_network_config as parse_network from paddle.trainer_config_helpers.config_parser_utils import \ reset_parser class RNNTest(unittest.TestCase): def test_simple_rnn(self): dict_dim = 10 word_dim = 8 hidden_dim = 8 def parse_old_rnn(): reset_parser() def step(y): mem = conf_helps.memory(name="rnn_state", size=hidden_dim) out = conf_helps.fc_layer( input=[y, mem], size=hidden_dim, act=activation.Tanh(), bias_attr=True, name="rnn_state") return out def test(): data = conf_helps.data_layer(name="word", size=dict_dim) embd = conf_helps.embedding_layer(input=data, size=word_dim) conf_helps.recurrent_group( name="rnn", step=step, input=embd, reverse=True) return str(parse_network(test)) def parse_new_rnn(): reset_parser() def new_step(y): mem = layer.memory(name="rnn_state", size=hidden_dim) out = layer.fc(input=[y, mem], size=hidden_dim, act=activation.Tanh(), bias_attr=True, name="rnn_state") return out data = layer.data( name="word", type=data_type.integer_value(dict_dim)) embd = layer.embedding(input=data, size=word_dim) rnn_layer = layer.recurrent_group( name="rnn", step=new_step, input=embd, reverse=True) return str(layer.parse_network(rnn_layer)) diff = difflib.unified_diff(parse_old_rnn().splitlines(1), parse_new_rnn().splitlines(1)) print ''.join(diff) def test_sequence_rnn_multi_input(self): dict_dim = 10 word_dim = 8 hidden_dim = 8 label_dim = 3 def parse_old_rnn(): reset_parser() def test(): data = conf_helps.data_layer(name="word", size=dict_dim) label = conf_helps.data_layer(name="label", size=label_dim) emb = conf_helps.embedding_layer(input=data, size=word_dim) boot_layer = conf_helps.data_layer(name="boot", size=10) boot_layer = conf_helps.fc_layer( name='boot_fc', input=boot_layer, size=10) def step(y, wid): z = conf_helps.embedding_layer(input=wid, size=word_dim) mem = conf_helps.memory( name="rnn_state", size=hidden_dim, boot_layer=boot_layer) out = conf_helps.fc_layer( input=[y, z, mem], size=hidden_dim, act=conf_helps.TanhActivation(), bias_attr=True, name="rnn_state") return out out = conf_helps.recurrent_group( name="rnn", step=step, input=[emb, data]) rep = conf_helps.last_seq(input=out) prob = conf_helps.fc_layer( size=label_dim, input=rep, act=conf_helps.SoftmaxActivation(), bias_attr=True) conf_helps.outputs( conf_helps.classification_cost( input=prob, label=label)) return str(parse_network(test)) def parse_new_rnn(): reset_parser() data = layer.data( name="word", type=data_type.dense_vector(dict_dim)) label = layer.data( name="label", type=data_type.dense_vector(label_dim)) emb = layer.embedding(input=data, size=word_dim) boot_layer = layer.data( name="boot", type=data_type.dense_vector(10)) boot_layer = layer.fc(name='boot_fc', input=boot_layer, size=10) def step(y, wid): z = layer.embedding(input=wid, size=word_dim) mem = layer.memory( name="rnn_state", size=hidden_dim, boot_layer=boot_layer) out = layer.fc(input=[y, z, mem], size=hidden_dim, act=activation.Tanh(), bias_attr=True, name="rnn_state") return out out = layer.recurrent_group( name="rnn", step=step, input=[emb, data]) rep = layer.last_seq(input=out) prob = layer.fc(size=label_dim, input=rep, act=activation.Softmax(), bias_attr=True) cost = layer.classification_cost(input=prob, label=label) return str(layer.parse_network(cost)) diff = difflib.unified_diff(parse_old_rnn().splitlines(1), parse_new_rnn().splitlines(1)) print ''.join(diff) if __name__ == '__main__': unittest.main()