sequence_nest_rnn_multi_unequalength_inputs.py 3.1 KB
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# edit-mode: -*- python -*-
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# Copyright (c) 2016 PaddlePaddle Authors. All Rights Reserved
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#
# 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 paddle.trainer_config_helpers import *

######################## data source ################################
define_py_data_sources2(
    train_list='gserver/tests/Sequence/dummy.list',
    test_list=None,
    module='rnn_data_provider',
    obj='process_unequalength_subseq')

settings(batch_size=2, learning_rate=0.01)
######################## network configure ################################
dict_dim = 10
word_dim = 8
hidden_dim = 8
label_dim = 2

speaker1 = data_layer(name="word1", size=dict_dim)
speaker2 = data_layer(name="word2", size=dict_dim)

emb1 = embedding_layer(input=speaker1, size=word_dim)
emb2 = embedding_layer(input=speaker2, size=word_dim)


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# This hierarchical RNN is designed to be equivalent to the simple RNN in
# sequence_rnn_multi_unequalength_inputs.conf
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def outer_step(x1, x2):
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    index = [0]

    def inner_step(ipt):
        index[0] += 1
        i = index[0]
        outer_mem = memory(name="outer_rnn_state_%d" % i, size=hidden_dim)

        def inner_step_impl(y):
            inner_mem = memory(
                name="inner_rnn_state_" + y.name,
                size=hidden_dim,
                boot_layer=outer_mem)
            out = fc_layer(
                input=[y, inner_mem],
                size=hidden_dim,
                act=TanhActivation(),
                bias_attr=True,
                name='inner_rnn_state_' + y.name)
            return out

        encoder = recurrent_group(
            step=inner_step_impl, name='inner_%d' % i, input=ipt)
        last = last_seq(name="outer_rnn_state_%d" % i, input=encoder)
        return encoder, last

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    encoder1, sentence_last_state1 = inner_step(ipt=x1)
    encoder2, sentence_last_state2 = inner_step(ipt=x2)
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    encoder1_expand = expand_layer(
        input=sentence_last_state1, expand_as=encoder2)

    return [encoder1_expand, encoder2]


encoder1_rep, encoder2_rep = recurrent_group(
    name="outer",
    step=outer_step,
    input=[SubsequenceInput(emb1), SubsequenceInput(emb2)],
    targetInlink=emb2)

encoder1_last = last_seq(input=encoder1_rep)
encoder1_expandlast = expand_layer(input=encoder1_last, expand_as=encoder2_rep)
context = mixed_layer(
    input=[
        identity_projection(encoder1_expandlast),
        identity_projection(encoder2_rep)
    ],
    size=hidden_dim)

rep = last_seq(input=context)
prob = fc_layer(
    size=label_dim, input=rep, act=SoftmaxActivation(), bias_attr=True)

outputs(
    classification_cost(
        input=prob, label=data_layer(
            name="label", size=label_dim)))