# Copyright (c) 2018 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. import unittest import numpy as np import math from op_test import OpTest from test_lstm_op import identity, sigmoid, tanh, relu class TestGRUOp(OpTest): lod = [[2, 4, 3]] batch_size = sum(lod[0]) frame_size = 5 activate = { 'identity': identity, 'sigmoid': sigmoid, 'tanh': tanh, 'relu': relu } @staticmethod def seq_to_batch(lod, is_reverse): idx_in_seq_list = [] seq_lens = lod[0] seq_starts = [0] for i in range(len(seq_lens)): seq_starts.append(seq_starts[-1] + seq_lens[i]) sorted_seqs = sorted( list(range(len(seq_lens))), lambda x, y: seq_lens[y] - seq_lens[x]) num_batch = seq_lens[sorted_seqs[0]] for batch_idx in range(num_batch): idx_in_seq = [] for i in range(len(seq_lens)): if seq_lens[sorted_seqs[i]] <= batch_idx: break idx = (seq_starts[sorted_seqs[i] + 1] - 1 - batch_idx ) if is_reverse else ( seq_starts[sorted_seqs[i]] + batch_idx) idx_in_seq.append(idx) idx_in_seq_list.append(idx_in_seq) return idx_in_seq_list, sorted_seqs def gru_step(self, x, h_p, w, b): batch_size = x.shape[0] frame_size = w.shape[0] g = x + np.tile(b, (batch_size, 1)) w_u_r = w.flatten()[:frame_size * frame_size * 2].reshape( (frame_size, frame_size * 2)) u_r = self.activate[self.attrs['gate_activation']](np.dot( h_p, w_u_r) + g[:, :frame_size * 2]) u = u_r[:, :frame_size] r = u_r[:, frame_size:frame_size * 2] r_h_p = r * h_p w_c = w.flatten()[frame_size * frame_size * 2:].reshape( (frame_size, frame_size)) c = self.activate[self.attrs['activation']](np.dot(r_h_p, w_c) + g[:, frame_size * 2:]) g = np.hstack((u_r, c)) h = u * c + (1 - u) * h_p return g, r_h_p, h def gru(self): input, lod = self.inputs['Input'] w = self.inputs['Weight'] b = self.inputs['Bias'] if 'Bias' in self.inputs else np.zeros( (1, self.frame_size * 3)) batch_gate = self.outputs['BatchGate'] batch_reset_hidden_prev = self.outputs['BatchResetHiddenPrev'] batch_hidden = self.outputs['BatchHidden'] hidden = self.outputs['Hidden'] idx_in_seq_list = self.idx_in_seq_list h_p = self.inputs['H0'][ self.sorted_seqs] if 'H0' in self.inputs else np.zeros( (len(idx_in_seq_list[0]), self.frame_size)) num_batch = len(idx_in_seq_list) end_idx = 0 for batch_idx in range(num_batch): x = input[idx_in_seq_list[batch_idx]] g, r_h_p, h = self.gru_step(x, h_p, w, b) if batch_idx < (num_batch - 1): h_p = h[:len(idx_in_seq_list[batch_idx + 1])] start_idx = end_idx end_idx = start_idx + len(idx_in_seq_list[batch_idx]) batch_gate[start_idx:end_idx] = g batch_reset_hidden_prev[start_idx:end_idx] = r_h_p batch_hidden[start_idx:end_idx] = h hidden[idx_in_seq_list[batch_idx]] = h return batch_gate, batch_reset_hidden_prev, hidden def set_data(self): lod = self.lod self.idx_in_seq_list, self.sorted_seqs = self.seq_to_batch( lod, self.is_reverse) batch_size = self.batch_size frame_size = self.frame_size input = np.random.rand(batch_size, frame_size * 3).astype('float64') h0 = np.random.rand(len(self.idx_in_seq_list[0]), frame_size).astype('float64') weight = np.random.rand(frame_size, frame_size * 3).astype('float64') bias = np.random.rand(1, frame_size * 3).astype('float64') self.inputs = { 'Input': (input, lod), 'H0': h0, 'Weight': weight, 'Bias': bias } self.outputs = { 'BatchGate': np.zeros( (batch_size, frame_size * 3), dtype='float64'), 'BatchResetHiddenPrev': np.zeros( (batch_size, frame_size), dtype='float64'), 'BatchHidden': np.zeros( (batch_size, frame_size), dtype='float64'), 'Hidden': np.zeros( (batch_size, frame_size), dtype='float64') } def set_confs(self): self.is_reverse = False self.attrs = { 'activation': 'tanh', 'gate_activation': 'sigmoid', 'is_reverse': self.is_reverse } def setUp(self): self.op_type = "gru" self.set_confs() self.set_data() self.gru() def test_check_output(self): self.check_output() def test_check_grad(self): self.check_grad(['Input', 'H0', 'Weight', 'Bias'], ['Hidden']) class TestGRUOpNoInitial(TestGRUOp): def set_data(self): super(TestGRUOpNoInitial, self).set_data() self.inputs.pop('H0') def test_check_grad(self): self.check_grad(['Input', 'Weight', 'Bias'], ['Hidden']) class TestGRUOpReverse(TestGRUOp): def set_confs(self): self.is_reverse = True self.attrs = { 'activation': 'tanh', 'gate_activation': 'sigmoid', 'is_reverse': self.is_reverse } if __name__ == "__main__": unittest.main()