// Tencent is pleased to support the open source community by making ncnn available. // // Copyright (C) 2020 THL A29 Limited, a Tencent company. All rights reserved. // // Licensed under the BSD 3-Clause License (the "License"); you may not use this file except // in compliance with the License. You may obtain a copy of the License at // // https://opensource.org/licenses/BSD-3-Clause // // 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. #include "layer/lstm.h" #include "testutil.h" static int test_lstm(const ncnn::Mat& a, int outch, int direction) { int input_size = a.w; int num_directions = direction == 2 ? 2 : 1; ncnn::ParamDict pd; pd.set(0, outch); pd.set(1, outch * input_size * 4 * num_directions); pd.set(2, direction); std::vector weights(3); weights[0] = RandomMat(outch * input_size * 4 * num_directions); weights[1] = RandomMat(outch * 4 * num_directions); weights[2] = RandomMat(outch * outch * 4 * num_directions); int ret = test_layer("LSTM", pd, weights, a); if (ret != 0) { fprintf(stderr, "test_lstm failed a.dims=%d a=(%d %d %d) outch=%d, direction = %d \n", a.dims, a.w, a.h, a.c, outch, direction); } return ret; } int test_lstm_layer_with_hidden(const ncnn::Mat& a, int outch, int direction) { int input_size = a.w; int num_directions = direction == 2 ? 2 : 1; ncnn::ParamDict pd; pd.set(0, outch); pd.set(1, outch * input_size * 4 * num_directions); pd.set(2, direction); std::vector weights(3); weights[0] = RandomMat(outch * input_size * 4 * num_directions); weights[1] = RandomMat(outch * 4 * num_directions); weights[2] = RandomMat(outch * outch * 4 * num_directions); // initial hidden state ncnn::Mat hidden = RandomMat(outch, num_directions); // initial cell state ncnn::Mat cell = RandomMat(outch, num_directions); std::vector as(3); as[0] = a; as[1] = hidden; as[2] = cell; int ret = test_layer("LSTM", pd, weights, as, 3); if (ret != 0) { fprintf(stderr, "test_lstm_layer_with_hidden failed a.dims=%d a=(%d %d %d) outch=%d, direction = %d \n", a.dims, a.w, a.h, a.c, outch, direction); } return ret; } int test_lstm_layer_with_hidden_input(const ncnn::Mat& a, int outch, int direction) { int input_size = a.w; int num_directions = direction == 2 ? 2 : 1; ncnn::ParamDict pd; pd.set(0, outch); pd.set(1, outch * input_size * 4 * num_directions); pd.set(2, direction); std::vector weights(3); weights[0] = RandomMat(outch * input_size * 4 * num_directions); weights[1] = RandomMat(outch * 4 * num_directions); weights[2] = RandomMat(outch * outch * 4 * num_directions); // initial hidden state ncnn::Mat hidden = RandomMat(outch, num_directions); // initial cell state ncnn::Mat cell = RandomMat(outch, num_directions); std::vector as(3); as[0] = a; as[1] = hidden; as[2] = cell; int ret = test_layer("LSTM", pd, weights, as, 1); if (ret != 0) { fprintf(stderr, "test_lstm_layer_with_hidden_input failed a.dims=%d a=(%d %d %d) outch=%d, direction = %d \n", a.dims, a.w, a.h, a.c, outch, direction); } return ret; } int test_lstm_layer_with_hidden_output(const ncnn::Mat& a, int outch, int direction) { int input_size = a.w; int num_directions = direction == 2 ? 2 : 1; ncnn::ParamDict pd; pd.set(0, outch); pd.set(1, outch * input_size * 4 * num_directions); pd.set(2, direction); std::vector weights(3); weights[0] = RandomMat(outch * input_size * 4 * num_directions); weights[1] = RandomMat(outch * 4 * num_directions); weights[2] = RandomMat(outch * outch * 4 * num_directions); std::vector as(1); as[0] = a; int ret = test_layer("LSTM", pd, weights, as, 3); if (ret != 0) { fprintf(stderr, "test_lstm_layer_with_hidden_output failed a.dims=%d a=(%d %d %d) outch=%d, direction = %d \n", a.dims, a.w, a.h, a.c, outch, direction); } return ret; } static int test_lstm_0() { return 0 || test_lstm(RandomMat(4, 1), 2, 2) || test_lstm(RandomMat(8, 2), 2, 2) || test_lstm(RandomMat(16, 8), 7, 2) || test_lstm(RandomMat(17, 8), 8, 2) || test_lstm(RandomMat(19, 15), 8, 2) || test_lstm(RandomMat(5, 16), 16, 2) || test_lstm(RandomMat(3, 16), 8, 2) || test_lstm(RandomMat(8, 16), 16, 2) || test_lstm(RandomMat(2, 5), 17, 2); } static int test_lstm_1() { return 0 || test_lstm_layer_with_hidden(RandomMat(4, 4), 1, 2) || test_lstm_layer_with_hidden(RandomMat(8, 2), 2, 2) || test_lstm_layer_with_hidden(RandomMat(16, 8), 7, 2) || test_lstm_layer_with_hidden(RandomMat(17, 8), 8, 2) || test_lstm_layer_with_hidden(RandomMat(19, 15), 8, 2) || test_lstm_layer_with_hidden(RandomMat(5, 16), 16, 2) || test_lstm_layer_with_hidden(RandomMat(3, 16), 8, 2) || test_lstm_layer_with_hidden(RandomMat(2, 5), 99, 2) || test_lstm_layer_with_hidden(RandomMat(4, 4), 1, 1) || test_lstm_layer_with_hidden(RandomMat(8, 2), 2, 1) || test_lstm_layer_with_hidden(RandomMat(16, 8), 7, 1) || test_lstm_layer_with_hidden(RandomMat(17, 8), 8, 1) || test_lstm_layer_with_hidden(RandomMat(19, 15), 8, 1) || test_lstm_layer_with_hidden(RandomMat(5, 16), 16, 1) || test_lstm_layer_with_hidden(RandomMat(3, 16), 8, 1) || test_lstm_layer_with_hidden(RandomMat(2, 5), 99, 1) || test_lstm_layer_with_hidden(RandomMat(4, 2), 1, 0) || test_lstm_layer_with_hidden(RandomMat(8, 2), 2, 0) || test_lstm_layer_with_hidden(RandomMat(16, 8), 7, 0) || test_lstm_layer_with_hidden(RandomMat(17, 8), 8, 0) || test_lstm_layer_with_hidden(RandomMat(19, 15), 8, 0) || test_lstm_layer_with_hidden(RandomMat(5, 16), 16, 0) || test_lstm_layer_with_hidden(RandomMat(3, 16), 8, 0) || test_lstm_layer_with_hidden(RandomMat(2, 5), 17, 0) || test_lstm_layer_with_hidden_input(RandomMat(4, 4), 1, 2) || test_lstm_layer_with_hidden_input(RandomMat(8, 2), 2, 2) || test_lstm_layer_with_hidden_input(RandomMat(16, 8), 7, 2) || test_lstm_layer_with_hidden_input(RandomMat(17, 8), 8, 2) || test_lstm_layer_with_hidden_input(RandomMat(19, 15), 8, 2) || test_lstm_layer_with_hidden_input(RandomMat(5, 16), 16, 2) || test_lstm_layer_with_hidden_input(RandomMat(3, 16), 8, 2) || test_lstm_layer_with_hidden_input(RandomMat(2, 5), 99, 2) || test_lstm_layer_with_hidden_input(RandomMat(4, 4), 1, 1) || test_lstm_layer_with_hidden_input(RandomMat(8, 2), 2, 1) || test_lstm_layer_with_hidden_input(RandomMat(16, 8), 7, 1) || test_lstm_layer_with_hidden_input(RandomMat(17, 8), 8, 1) || test_lstm_layer_with_hidden_input(RandomMat(19, 15), 8, 1) || test_lstm_layer_with_hidden_input(RandomMat(5, 16), 16, 1) || test_lstm_layer_with_hidden_input(RandomMat(3, 16), 8, 1) || test_lstm_layer_with_hidden_input(RandomMat(2, 5), 99, 1) || test_lstm_layer_with_hidden_input(RandomMat(4, 2), 1, 0) || test_lstm_layer_with_hidden_input(RandomMat(8, 2), 2, 0) || test_lstm_layer_with_hidden_input(RandomMat(16, 8), 7, 0) || test_lstm_layer_with_hidden_input(RandomMat(17, 8), 8, 0) || test_lstm_layer_with_hidden_input(RandomMat(19, 15), 8, 0) || test_lstm_layer_with_hidden_input(RandomMat(5, 16), 16, 0) || test_lstm_layer_with_hidden_input(RandomMat(3, 16), 8, 0) || test_lstm_layer_with_hidden_input(RandomMat(2, 5), 17, 0) || test_lstm_layer_with_hidden_output(RandomMat(4, 4), 1, 2) || test_lstm_layer_with_hidden_output(RandomMat(8, 2), 2, 2) || test_lstm_layer_with_hidden_output(RandomMat(16, 8), 7, 2) || test_lstm_layer_with_hidden_output(RandomMat(17, 8), 8, 2) || test_lstm_layer_with_hidden_output(RandomMat(19, 15), 8, 2) || test_lstm_layer_with_hidden_output(RandomMat(5, 16), 16, 2) || test_lstm_layer_with_hidden_output(RandomMat(3, 16), 8, 2) || test_lstm_layer_with_hidden_output(RandomMat(2, 5), 99, 2) || test_lstm_layer_with_hidden_output(RandomMat(4, 4), 1, 1) || test_lstm_layer_with_hidden_output(RandomMat(8, 2), 2, 1) || test_lstm_layer_with_hidden_output(RandomMat(16, 8), 7, 1) || test_lstm_layer_with_hidden_output(RandomMat(17, 8), 8, 1) || test_lstm_layer_with_hidden_output(RandomMat(19, 15), 8, 1) || test_lstm_layer_with_hidden_output(RandomMat(5, 16), 16, 1) || test_lstm_layer_with_hidden_output(RandomMat(3, 16), 8, 1) || test_lstm_layer_with_hidden_output(RandomMat(2, 5), 99, 1) || test_lstm_layer_with_hidden_output(RandomMat(4, 2), 1, 0) || test_lstm_layer_with_hidden_output(RandomMat(8, 2), 2, 0) || test_lstm_layer_with_hidden_output(RandomMat(16, 8), 7, 0) || test_lstm_layer_with_hidden_output(RandomMat(17, 8), 8, 0) || test_lstm_layer_with_hidden_output(RandomMat(19, 15), 8, 0) || test_lstm_layer_with_hidden_output(RandomMat(5, 16), 16, 0) || test_lstm_layer_with_hidden_output(RandomMat(3, 16), 8, 0) || test_lstm_layer_with_hidden_output(RandomMat(2, 5), 17, 0); } static int test_lstm_2() { return 0 || test_lstm(RandomMat(4, 1), 1, 0) || test_lstm(RandomMat(8, 2), 2, 0) || test_lstm(RandomMat(16, 8), 7, 0) || test_lstm(RandomMat(17, 8), 8, 0) || test_lstm(RandomMat(19, 15), 8, 0) || test_lstm(RandomMat(5, 16), 16, 0) || test_lstm(RandomMat(3, 16), 8, 0) || test_lstm(RandomMat(8, 16), 16, 0) || test_lstm(RandomMat(2, 5), 17, 0); } static int test_lstm_3() { return 0 || test_lstm(RandomMat(4, 1), 1, 1) || test_lstm(RandomMat(8, 2), 2, 1) || test_lstm(RandomMat(16, 8), 7, 1) || test_lstm(RandomMat(17, 8), 8, 1) || test_lstm(RandomMat(19, 15), 8, 1) || test_lstm(RandomMat(5, 16), 16, 1) || test_lstm(RandomMat(3, 16), 8, 1) || test_lstm(RandomMat(8, 16), 16, 1) || test_lstm(RandomMat(2, 5), 17, 1); } int main() { SRAND(7767517); return 0 || test_lstm_0() || test_lstm_1() || test_lstm_2() || test_lstm_3(); }