test_sequence_conv.py 9.1 KB
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#   Copyright (c) 2018 PaddlePaddle Authors. All Rights Reserved.
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#
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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
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#
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#     http://www.apache.org/licenses/LICENSE-2.0
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#
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# 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.

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from __future__ import print_function

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import unittest
import numpy as np
import random
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import sys
sys.path.append("../")
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from op_test import OpTest
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def seqconv(x,
            lod,
            filter,
            context_length,
            context_start,
            padding_trainable=False,
            padding_data=None):
    [T, M] = x.shape
    col = np.zeros((T, context_length * M)).astype('float32')
    offset = [0]
    for seq_len in lod[0]:
        offset.append(offset[-1] + seq_len)
    begin_pad = np.max([0, -context_start])
    for i in range(len(offset) - 1):
        for j in range(context_length):
            in_begin = offset[i] + context_start + j
            in_end = offset[i + 1] + context_start + j
            out_begin = offset[i]
            out_end = offset[i + 1]
            if in_begin < offset[i]:
                pad_size = np.min(
                    [offset[i] - in_begin, offset[i + 1] - offset[i]])
                if padding_trainable:
                    sub_w = padding_data[j:j + pad_size, :]
                    col[offset[i]:offset[i] + pad_size, j * M:(j + 1) *
                        M] = sub_w
                out_begin = offset[i] + pad_size
                in_begin = offset[i]

            if in_end > offset[i + 1]:
                pad_size = np.min(
                    [in_end - offset[i + 1], offset[i + 1] - offset[i]])
                if padding_trainable:
                    sub_w = padding_data[begin_pad + context_start + j -
                                         pad_size:begin_pad + context_start +
                                         j, :]
                    col[offset[i + 1] - pad_size:offset[i + 1], j * M:(j + 1) *
                        M] = sub_w
                in_end = offset[i + 1]
                out_end = offset[i + 1] - pad_size
            if in_end <= in_begin:
                continue
            in_sub = x[in_begin:in_end, :]
            col[out_begin:out_end, j * M:(j + 1) * M] += in_sub
    return np.dot(col, filter)


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class TestSeqProject(OpTest):
    def setUp(self):
        self.init_test_case()
        self.op_type = 'sequence_conv'

        if self.context_length == 1 \
                and self.context_start == 0 \
                and self.padding_trainable:
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            print("If context_start is 0 " \
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                  "and context_length is 1," \
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                  " padding_trainable should be false.")
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            return

        # one level, batch size
        x = np.random.uniform(0.1, 1, [self.input_size[0],
                                       self.input_size[1]]).astype('float32')
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        w = np.random.uniform(0.1, 1, [
            self.context_length * self.input_size[1], self.output_represention
        ]).astype('float32')
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        begin_pad = np.max([0, -self.context_start])
        end_pad = np.max([0, self.context_start + self.context_length - 1])
        total_pad = begin_pad + end_pad
        padding_data = np.random.uniform(
            0.1, 1, [total_pad, self.input_size[1]]).astype('float32')
        self.pad_data = padding_data
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        self.inputs = {
            'X': (x, self.lod),
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            'Filter': w,
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        }
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        self.inputs_val = ['X', 'Filter']
        self.inputs_val_no_x = ['Filter']
        self.inputs_val_no_f = ['X']

        if total_pad != 0:
            self.inputs['PaddingData'] = padding_data
            self.inputs_val = ['X', 'PaddingData', 'Filter']
            self.inputs_val_no_x = ['PaddingData', 'Filter']
            self.inputs_val_no_f = ['PaddingData', 'X']

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        self.attrs = {
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            'contextStart': self.context_start,
            'contextLength': self.context_length,
            'paddingTrainable': self.padding_trainable,
            'contextStride': self.context_stride
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        }
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        out = seqconv(x, self.lod, w, self.context_length, self.context_start,
                      self.padding_trainable, self.pad_data)
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        self.outputs = {'Out': out}

    def test_check_output(self):
        self.check_output()

    def test_check_grad(self):
        if self.padding_trainable:
            self.check_grad(
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                set(self.inputs_val), 'Out', max_relative_error=0.05)
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    def test_check_grad_input(self):
        self.check_grad(
            ['X'],
            'Out',
            max_relative_error=0.05,
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            no_grad_set=set(self.inputs_val_no_x))
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    def test_check_grad_padding_data(self):
        if self.padding_trainable:
            self.check_grad(
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                ['PaddingData'], 'Out', no_grad_set=set(['X', 'Filter']))
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    def test_check_grad_Filter(self):
        self.check_grad(
            ['Filter'],
            'Out',
            max_relative_error=0.05,
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            no_grad_set=set(self.inputs_val_no_f))
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    def test_check_grad_input_filter(self):
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        if self.padding_trainable:
            self.check_grad(
                ['X', 'Filter'],
                'Out',
                max_relative_error=0.05,
                no_grad_set=set(['PaddingData']))
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    def test_check_grad_padding_input(self):
        if self.padding_trainable:
            self.check_grad(
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                self.inputs_val_no_f,
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                'Out',
                max_relative_error=0.05,
                no_grad_set=set(['Filter']))

    def test_check_grad_padding_filter(self):
        if self.padding_trainable:
            self.check_grad(
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                self.inputs_val_no_x,
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                'Out',
                max_relative_error=0.05,
                no_grad_set=set(['X']))

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    def init_test_case(self):
        self.input_row = 11
        self.context_start = 0
        self.context_length = 1
        self.padding_trainable = False
        self.context_stride = 1

        self.input_size = [self.input_row, 23]
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        offset_lod = [[0, 4, 5, 8, self.input_row]]
        self.lod = [[]]
        # convert from offset-based lod to length-based lod
        for i in range(len(offset_lod[0]) - 1):
            self.lod[0].append(offset_lod[0][i + 1] - offset_lod[0][i])
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        self.output_represention = 8  # output feature size
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class TestSeqProjectCase1(TestSeqProject):
    def init_test_case(self):
        self.input_row = 11
        self.context_start = -1
        self.context_length = 3
        self.padding_trainable = True
        self.context_stride = 1

        self.input_size = [self.input_row, 23]
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        offset_lod = [[0, 4, 5, 8, self.input_row]]
        self.lod = [[]]
        # convert from offset-based lod to length-based lod
        for i in range(len(offset_lod[0]) - 1):
            self.lod[0].append(offset_lod[0][i + 1] - offset_lod[0][i])
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        self.output_represention = 8  # output feature size
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class TestSeqProjectCase2Len0(TestSeqProject):
    def init_test_case(self):
        self.input_row = 11
        self.context_start = -1
        self.context_length = 3
        self.padding_trainable = True
        self.context_stride = 1

        self.input_size = [self.input_row, 23]
        offset_lod = [[0, 0, 4, 5, 5, 8, self.input_row, self.input_row]]
        self.lod = [[]]
        # convert from offset-based lod to length-based lod
        for i in range(len(offset_lod[0]) - 1):
            self.lod[0].append(offset_lod[0][i + 1] - offset_lod[0][i])
        self.output_represention = 8  # output feature size


class TestSeqProjectCase3(TestSeqProject):
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    def init_test_case(self):
        self.input_row = 25
        self.context_start = 2
        self.context_length = 3
        self.padding_trainable = True
        self.context_stride = 1

        self.input_size = [self.input_row, 23]
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        idx = list(range(self.input_size[0]))
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        del idx[0]
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        offset_lod = [[0] + np.sort(random.sample(idx, 8)).tolist() +
                      [self.input_size[0]]]
        self.lod = [[]]
        # convert from offset-based lod to length-based lod
        for i in range(len(offset_lod[0]) - 1):
            self.lod[0].append(offset_lod[0][i + 1] - offset_lod[0][i])
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        self.output_represention = 8  # output feature size
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class TestSeqConvApi(unittest.TestCase):
    def test_api(self):
        import paddle.fluid as fluid

        x = fluid.layers.data('x', shape=[32], lod_level=1)
        y = fluid.layers.sequence_conv(
            input=x, num_filters=2, filter_size=3, padding_start=None)

        place = fluid.CPUPlace()
        x_tensor = fluid.create_lod_tensor(
            np.random.rand(10, 32).astype("float32"), [[2, 3, 1, 4]], place)
        exe = fluid.Executor(place)
        exe.run(fluid.default_startup_program())
        ret = exe.run(feed={'x': x_tensor}, fetch_list=[y], return_numpy=False)


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if __name__ == '__main__':
    unittest.main()