// Copyright 2020 Tencent // SPDX-License-Identifier: BSD-3-Clause #include "testutil.h" static int test_lstm(int size, int T, int outch, int direction, int hidden_size = 0) { ncnn::Mat a = RandomMat(size, T); int num_directions = direction == 2 ? 2 : 1; if (hidden_size == 0) hidden_size = outch; ncnn::ParamDict pd; pd.set(0, outch); pd.set(1, hidden_size * size * 4 * num_directions); pd.set(2, direction); pd.set(3, hidden_size); std::vector weights(hidden_size == outch ? 3 : 4); weights[0] = RandomMat(hidden_size * size * 4 * num_directions); weights[1] = RandomMat(hidden_size * 4 * num_directions); weights[2] = RandomMat(outch * hidden_size * 4 * num_directions); if (hidden_size != outch) { weights[3] = RandomMat(hidden_size * outch * num_directions); } int ret = test_layer("LSTM", pd, weights, a); if (ret != 0) { fprintf(stderr, "test_lstm failed size=%d T=%d outch=%d direction=%d hidden_size=%d\n", size, T, outch, direction, hidden_size); } return ret; } static int test_lstm_with_hidden(int size, int T, int outch, int direction, int hidden_size = 0) { ncnn::Mat a = RandomMat(size, T); int num_directions = direction == 2 ? 2 : 1; if (hidden_size == 0) hidden_size = outch; ncnn::ParamDict pd; pd.set(0, outch); pd.set(1, hidden_size * size * 4 * num_directions); pd.set(2, direction); pd.set(3, hidden_size); std::vector weights(hidden_size == outch ? 3 : 4); weights[0] = RandomMat(hidden_size * size * 4 * num_directions); weights[1] = RandomMat(hidden_size * 4 * num_directions); weights[2] = RandomMat(outch * hidden_size * 4 * num_directions); if (hidden_size != outch) { weights[3] = RandomMat(hidden_size * outch * num_directions); } // initial hidden state ncnn::Mat hidden = RandomMat(outch, num_directions); // initial cell state ncnn::Mat cell = RandomMat(hidden_size, 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_with_hidden failed size=%d T=%d outch=%d direction=%d hidden_size=%d\n", size, T, outch, direction, hidden_size); } return ret; } static int test_lstm_with_hidden_input(int size, int T, int outch, int direction, int hidden_size = 0) { ncnn::Mat a = RandomMat(size, T); int num_directions = direction == 2 ? 2 : 1; if (hidden_size == 0) hidden_size = outch; ncnn::ParamDict pd; pd.set(0, outch); pd.set(1, hidden_size * size * 4 * num_directions); pd.set(2, direction); pd.set(3, hidden_size); std::vector weights(hidden_size == outch ? 3 : 4); weights[0] = RandomMat(hidden_size * size * 4 * num_directions); weights[1] = RandomMat(hidden_size * 4 * num_directions); weights[2] = RandomMat(outch * hidden_size * 4 * num_directions); if (hidden_size != outch) { weights[3] = RandomMat(hidden_size * outch * num_directions); } // initial hidden state ncnn::Mat hidden = RandomMat(outch, num_directions); // initial cell state ncnn::Mat cell = RandomMat(hidden_size, 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_with_hidden_input failed size=%d T=%d outch=%d direction=%d hidden_size=%d\n", size, T, outch, direction, hidden_size); } return ret; } static int test_lstm_with_hidden_output(int size, int T, int outch, int direction, int hidden_size = 0) { ncnn::Mat a = RandomMat(size, T); int num_directions = direction == 2 ? 2 : 1; if (hidden_size == 0) hidden_size = outch; ncnn::ParamDict pd; pd.set(0, outch); pd.set(1, hidden_size * size * 4 * num_directions); pd.set(2, direction); pd.set(3, hidden_size); std::vector weights(hidden_size == outch ? 3 : 4); weights[0] = RandomMat(hidden_size * size * 4 * num_directions); weights[1] = RandomMat(hidden_size * 4 * num_directions); weights[2] = RandomMat(outch * hidden_size * 4 * num_directions); if (hidden_size != outch) { weights[3] = RandomMat(hidden_size * outch * 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_with_hidden_output failed size=%d T=%d outch=%d direction=%d hidden_size=%d\n", size, T, outch, direction, hidden_size); } return ret; } static int test_lstm_0() { return 0 || test_lstm(4, 1, 2, 2) || test_lstm(8, 2, 2, 2) || test_lstm(16, 8, 7, 2) || test_lstm(17, 8, 8, 2) || test_lstm(19, 15, 8, 2) || test_lstm(5, 16, 16, 2) || test_lstm(3, 16, 8, 2) || test_lstm(8, 16, 16, 2) || test_lstm(31, 3, 31, 2) || test_lstm(2, 5, 17, 2, 15); } static int test_lstm_1() { return 0 || test_lstm_with_hidden(4, 4, 1, 2) || test_lstm_with_hidden(8, 2, 2, 2) || test_lstm_with_hidden(16, 8, 7, 2) || test_lstm_with_hidden(17, 8, 8, 2) || test_lstm_with_hidden(19, 15, 8, 2) || test_lstm_with_hidden(5, 16, 16, 2) || test_lstm_with_hidden(3, 16, 8, 2) || test_lstm_with_hidden(2, 5, 79, 2, 33) || test_lstm_with_hidden(4, 4, 1, 1) || test_lstm_with_hidden(8, 2, 2, 1) || test_lstm_with_hidden(16, 8, 7, 1) || test_lstm_with_hidden(17, 8, 8, 1) || test_lstm_with_hidden(19, 15, 8, 1) || test_lstm_with_hidden(5, 16, 16, 1) || test_lstm_with_hidden(3, 16, 8, 1) || test_lstm_with_hidden(2, 5, 79, 1, 33) || test_lstm_with_hidden(4, 2, 1, 0) || test_lstm_with_hidden(8, 2, 2, 0) || test_lstm_with_hidden(16, 8, 7, 0) || test_lstm_with_hidden(17, 8, 8, 0) || test_lstm_with_hidden(19, 15, 8, 0) || test_lstm_with_hidden(5, 16, 16, 0) || test_lstm_with_hidden(3, 16, 8, 0) || test_lstm_with_hidden(2, 5, 17, 0, 15) || test_lstm_with_hidden_input(4, 4, 1, 2) || test_lstm_with_hidden_input(8, 2, 2, 2) || test_lstm_with_hidden_input(16, 8, 7, 2) || test_lstm_with_hidden_input(17, 8, 8, 2) || test_lstm_with_hidden_input(19, 15, 8, 2) || test_lstm_with_hidden_input(5, 16, 16, 2) || test_lstm_with_hidden_input(3, 16, 8, 2) || test_lstm_with_hidden_input(2, 5, 79, 2, 33) || test_lstm_with_hidden_input(4, 4, 1, 1) || test_lstm_with_hidden_input(8, 2, 2, 1) || test_lstm_with_hidden_input(16, 8, 7, 1) || test_lstm_with_hidden_input(17, 8, 8, 1) || test_lstm_with_hidden_input(19, 15, 8, 1) || test_lstm_with_hidden_input(5, 16, 16, 1) || test_lstm_with_hidden_input(3, 16, 8, 1) || test_lstm_with_hidden_input(2, 5, 79, 1, 33) || test_lstm_with_hidden_input(4, 2, 1, 0) || test_lstm_with_hidden_input(8, 2, 2, 0) || test_lstm_with_hidden_input(16, 8, 7, 0) || test_lstm_with_hidden_input(17, 8, 8, 0) || test_lstm_with_hidden_input(19, 15, 8, 0) || test_lstm_with_hidden_input(5, 16, 16, 0) || test_lstm_with_hidden_input(3, 16, 8, 0) || test_lstm_with_hidden_input(2, 5, 17, 0, 15) || test_lstm_with_hidden_output(4, 4, 1, 2) || test_lstm_with_hidden_output(8, 2, 2, 2) || test_lstm_with_hidden_output(16, 8, 7, 2) || test_lstm_with_hidden_output(17, 8, 8, 2) || test_lstm_with_hidden_output(19, 15, 8, 2) || test_lstm_with_hidden_output(5, 16, 16, 2) || test_lstm_with_hidden_output(3, 16, 8, 2) || test_lstm_with_hidden_output(2, 5, 79, 2, 33) || test_lstm_with_hidden_output(4, 4, 1, 1) || test_lstm_with_hidden_output(8, 2, 2, 1) || test_lstm_with_hidden_output(16, 8, 7, 1) || test_lstm_with_hidden_output(17, 8, 8, 1) || test_lstm_with_hidden_output(19, 15, 8, 1) || test_lstm_with_hidden_output(5, 16, 16, 1) || test_lstm_with_hidden_output(3, 16, 8, 1) || test_lstm_with_hidden_output(2, 5, 79, 1, 33) || test_lstm_with_hidden_output(4, 2, 1, 0) || test_lstm_with_hidden_output(8, 2, 2, 0) || test_lstm_with_hidden_output(16, 8, 7, 0) || test_lstm_with_hidden_output(17, 8, 8, 0) || test_lstm_with_hidden_output(19, 15, 8, 0) || test_lstm_with_hidden_output(5, 16, 16, 0) || test_lstm_with_hidden_output(3, 16, 8, 0) || test_lstm_with_hidden_output(2, 5, 17, 0, 15); } static int test_lstm_2() { return 0 || test_lstm(4, 1, 1, 0) || test_lstm(8, 2, 2, 0) || test_lstm(16, 8, 7, 0) || test_lstm(17, 8, 8, 0) || test_lstm(19, 15, 8, 0) || test_lstm(5, 16, 16, 0) || test_lstm(3, 16, 8, 0) || test_lstm(8, 16, 16, 0) || test_lstm(2, 5, 17, 0, 15); } static int test_lstm_3() { return 0 || test_lstm(4, 1, 1, 1) || test_lstm(8, 2, 2, 1) || test_lstm(16, 8, 7, 1) || test_lstm(17, 8, 8, 1) || test_lstm(19, 15, 8, 1) || test_lstm(5, 16, 16, 1) || test_lstm(3, 16, 8, 1) || test_lstm(8, 16, 16, 1) || test_lstm(2, 5, 17, 1, 15); } #if NCNN_INT8 static void RandomizeA(ncnn::Mat& m, float absmax) { absmax = ncnn::float16_to_float32(ncnn::float32_to_float16(absmax)); absmax = ncnn::bfloat16_to_float32(ncnn::float32_to_bfloat16(absmax)); const int h = m.h; float* p = m; for (int i = 0; i < h; i++) { float* p = m.row(i); for (int j = 0; j < m.w; j++) { p[j] = RandomFloat(-absmax, absmax); // drop 0.45 ~ 0.55 float v = p[j] * (127.f / absmax); float vv = fabs(v - (int)v); float hp = ncnn::float16_to_float32(ncnn::float32_to_float16(p[j])); float hv = hp * (127.f / absmax); float hvv = fabs(hv - (int)hv); float bp = ncnn::bfloat16_to_float32(ncnn::float32_to_bfloat16(p[j])); float bv = bp * (127.f / absmax); float bvv = fabs(bv - (int)bv); while ((vv > 0.45f && vv < 0.55f) || (hvv > 0.45f && hvv < 0.55f) || (bvv > 0.45f && bvv < 0.55f)) { p[j] = RandomFloat(-absmax, absmax); v = p[j] * (127.f / absmax); vv = fabs(v - (int)v); hp = ncnn::float16_to_float32(ncnn::float32_to_float16(p[j])); hv = hp * (127.f / absmax); hvv = fabs(hv - (int)hv); bp = ncnn::bfloat16_to_float32(ncnn::float32_to_bfloat16(p[j])); bv = bp * (127.f / absmax); bvv = fabs(bv - (int)bv); } } } // set random a and b m.row(RandomInt(0, h - 1))[RandomInt(0, m.w - 1)] = -absmax; m.row(RandomInt(0, h - 1))[RandomInt(0, m.w - 1)] = absmax; } static int test_lstm_int8(int size, int T, int outch, int direction, int hidden_size = 0) { int num_directions = direction == 2 ? 2 : 1; if (hidden_size == 0) hidden_size = outch; ncnn::ParamDict pd; pd.set(0, outch); pd.set(1, hidden_size * size * 4 * num_directions); pd.set(2, direction); pd.set(3, hidden_size); pd.set(8, 2); // int8_scale_term std::vector weights(hidden_size == outch ? 5 : 6); weights[0] = RandomS8Mat(hidden_size * size * 4 * num_directions); weights[1] = RandomMat(hidden_size * 4 * num_directions); weights[2] = RandomS8Mat(outch * hidden_size * 4 * num_directions); if (hidden_size != outch) { weights[3] = RandomMat(hidden_size * outch * num_directions); weights[4] = RandomMat(hidden_size * 4 * num_directions, 100.f, 200.f); weights[5] = RandomMat(hidden_size * 4 * num_directions, 100.f, 200.f); } else { weights[3] = RandomMat(hidden_size * 4 * num_directions, 100.f, 200.f); weights[4] = RandomMat(hidden_size * 4 * num_directions, 100.f, 200.f); } ncnn::Mat a(size, T); RandomizeA(a, 10.f); int ret = test_layer("LSTM", pd, weights, a); if (ret != 0) { fprintf(stderr, "test_lstm_int8 failed size=%d T=%d outch=%d direction=%d hidden_size=%d\n", size, T, outch, direction, hidden_size); } return ret; } static int test_lstm_int8_with_hidden(int size, int T, int outch, int direction, int hidden_size = 0) { int num_directions = direction == 2 ? 2 : 1; if (hidden_size == 0) hidden_size = outch; ncnn::ParamDict pd; pd.set(0, outch); pd.set(1, hidden_size * size * 4 * num_directions); pd.set(2, direction); pd.set(3, hidden_size); pd.set(8, 2); // int8_scale_term std::vector weights(hidden_size == outch ? 5 : 6); weights[0] = RandomS8Mat(hidden_size * size * 4 * num_directions); weights[1] = RandomMat(hidden_size * 4 * num_directions); weights[2] = RandomS8Mat(outch * hidden_size * 4 * num_directions); if (hidden_size != outch) { weights[3] = RandomMat(hidden_size * outch * num_directions); weights[4] = RandomMat(hidden_size * 4 * num_directions, 100.f, 200.f); weights[5] = RandomMat(hidden_size * 4 * num_directions, 100.f, 200.f); } else { weights[3] = RandomMat(hidden_size * 4 * num_directions, 100.f, 200.f); weights[4] = RandomMat(hidden_size * 4 * num_directions, 100.f, 200.f); } ncnn::Mat a(size, T); RandomizeA(a, 10.f); // initial hidden state ncnn::Mat hidden(outch, num_directions); RandomizeA(hidden, 10.f); // initial cell state ncnn::Mat cell(hidden_size, num_directions); RandomizeA(cell, 10.f); 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_int8_with_hidden failed size=%d T=%d outch=%d direction=%d hidden_size=%d\n", size, T, outch, direction, hidden_size); } return ret; } static int test_lstm_int8_with_hidden_input(int size, int T, int outch, int direction, int hidden_size = 0) { int num_directions = direction == 2 ? 2 : 1; if (hidden_size == 0) hidden_size = outch; ncnn::ParamDict pd; pd.set(0, outch); pd.set(1, hidden_size * size * 4 * num_directions); pd.set(2, direction); pd.set(3, hidden_size); pd.set(8, 2); // int8_scale_term std::vector weights(hidden_size == outch ? 5 : 6); weights[0] = RandomS8Mat(hidden_size * size * 4 * num_directions); weights[1] = RandomMat(hidden_size * 4 * num_directions); weights[2] = RandomS8Mat(outch * hidden_size * 4 * num_directions); if (hidden_size != outch) { weights[3] = RandomMat(hidden_size * outch * num_directions); weights[4] = RandomMat(hidden_size * 4 * num_directions, 100.f, 200.f); weights[5] = RandomMat(hidden_size * 4 * num_directions, 100.f, 200.f); } else { weights[3] = RandomMat(hidden_size * 4 * num_directions, 100.f, 200.f); weights[4] = RandomMat(hidden_size * 4 * num_directions, 100.f, 200.f); } ncnn::Mat a(size, T); RandomizeA(a, 10.f); // initial hidden state ncnn::Mat hidden(outch, num_directions); RandomizeA(hidden, 10.f); // initial cell state ncnn::Mat cell(hidden_size, num_directions); RandomizeA(cell, 10.f); 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_int8_with_hidden_input failed size=%d T=%d outch=%d direction=%d hidden_size=%d\n", size, T, outch, direction, hidden_size); } return ret; } static int test_lstm_int8_with_hidden_output(int size, int T, int outch, int direction, int hidden_size = 0) { int num_directions = direction == 2 ? 2 : 1; if (hidden_size == 0) hidden_size = outch; ncnn::ParamDict pd; pd.set(0, outch); pd.set(1, hidden_size * size * 4 * num_directions); pd.set(2, direction); pd.set(3, hidden_size); pd.set(8, 2); // int8_scale_term std::vector weights(hidden_size == outch ? 5 : 6); weights[0] = RandomS8Mat(hidden_size * size * 4 * num_directions); weights[1] = RandomMat(hidden_size * 4 * num_directions); weights[2] = RandomS8Mat(outch * hidden_size * 4 * num_directions); if (hidden_size != outch) { weights[3] = RandomMat(hidden_size * outch * num_directions); weights[4] = RandomMat(hidden_size * 4 * num_directions, 100.f, 200.f); weights[5] = RandomMat(hidden_size * 4 * num_directions, 100.f, 200.f); } else { weights[3] = RandomMat(hidden_size * 4 * num_directions, 100.f, 200.f); weights[4] = RandomMat(hidden_size * 4 * num_directions, 100.f, 200.f); } ncnn::Mat a(size, T); RandomizeA(a, 10.f); std::vector as(1); as[0] = a; int ret = test_layer("LSTM", pd, weights, as, 3); if (ret != 0) { fprintf(stderr, "test_lstm_int8_with_hidden_output failed size=%d T=%d outch=%d direction=%d hidden_size=%d\n", size, T, outch, direction, hidden_size); } return ret; } static int test_lstm_4() { return 0 || test_lstm_int8(4, 1, 2, 2) || test_lstm_int8(8, 2, 2, 2) || test_lstm_int8(16, 8, 7, 2) || test_lstm_int8(17, 8, 8, 2) || test_lstm_int8(19, 15, 8, 2) || test_lstm_int8(5, 16, 16, 2) || test_lstm_int8(3, 16, 8, 2) || test_lstm_int8(8, 16, 16, 2) || test_lstm_int8(31, 3, 31, 2) || test_lstm_int8(2, 5, 17, 2, 15); } static int test_lstm_5() { return 0 || test_lstm_int8_with_hidden(4, 4, 1, 2) || test_lstm_int8_with_hidden(8, 2, 2, 2) || test_lstm_int8_with_hidden(16, 8, 7, 2) || test_lstm_int8_with_hidden(17, 8, 8, 2) || test_lstm_int8_with_hidden(19, 15, 8, 2) || test_lstm_int8_with_hidden(5, 16, 16, 2) || test_lstm_int8_with_hidden(3, 16, 8, 2) || test_lstm_int8_with_hidden(2, 5, 79, 2, 33) || test_lstm_int8_with_hidden(4, 4, 1, 1) || test_lstm_int8_with_hidden(8, 2, 2, 1) || test_lstm_int8_with_hidden(16, 8, 7, 1) || test_lstm_int8_with_hidden(17, 8, 8, 1) || test_lstm_int8_with_hidden(19, 15, 8, 1) || test_lstm_int8_with_hidden(5, 16, 16, 1) || test_lstm_int8_with_hidden(3, 16, 8, 1) || test_lstm_int8_with_hidden(2, 5, 79, 1, 33) || test_lstm_int8_with_hidden(4, 2, 1, 0) || test_lstm_int8_with_hidden(8, 2, 2, 0) || test_lstm_int8_with_hidden(16, 8, 7, 0) || test_lstm_int8_with_hidden(17, 8, 8, 0) || test_lstm_int8_with_hidden(19, 15, 8, 0) || test_lstm_int8_with_hidden(5, 16, 16, 0) || test_lstm_int8_with_hidden(3, 16, 8, 0) || test_lstm_int8_with_hidden(2, 5, 17, 0, 15) || test_lstm_int8_with_hidden_input(4, 4, 1, 2) || test_lstm_int8_with_hidden_input(8, 2, 2, 2) || test_lstm_int8_with_hidden_input(16, 8, 7, 2) || test_lstm_int8_with_hidden_input(17, 8, 8, 2) || test_lstm_int8_with_hidden_input(19, 15, 8, 2) || test_lstm_int8_with_hidden_input(5, 16, 16, 2) || test_lstm_int8_with_hidden_input(3, 16, 8, 2) || test_lstm_int8_with_hidden_input(2, 5, 79, 2, 33) || test_lstm_int8_with_hidden_input(4, 4, 1, 1) || test_lstm_int8_with_hidden_input(8, 2, 2, 1) || test_lstm_int8_with_hidden_input(16, 8, 7, 1) || test_lstm_int8_with_hidden_input(17, 8, 8, 1) || test_lstm_int8_with_hidden_input(19, 15, 8, 1) || test_lstm_int8_with_hidden_input(5, 16, 16, 1) || test_lstm_int8_with_hidden_input(3, 16, 8, 1) || test_lstm_int8_with_hidden_input(2, 5, 79, 1, 33) || test_lstm_int8_with_hidden_input(4, 2, 1, 0) || test_lstm_int8_with_hidden_input(8, 2, 2, 0) || test_lstm_int8_with_hidden_input(16, 8, 7, 0) || test_lstm_int8_with_hidden_input(17, 8, 8, 0) || test_lstm_int8_with_hidden_input(19, 15, 8, 0) || test_lstm_int8_with_hidden_input(5, 16, 16, 0) || test_lstm_int8_with_hidden_input(3, 16, 8, 0) || test_lstm_int8_with_hidden_input(2, 5, 17, 0, 15) || test_lstm_int8_with_hidden_output(4, 4, 1, 2) || test_lstm_int8_with_hidden_output(8, 2, 2, 2) || test_lstm_int8_with_hidden_output(16, 8, 7, 2) || test_lstm_int8_with_hidden_output(17, 8, 8, 2) || test_lstm_int8_with_hidden_output(19, 15, 8, 2) || test_lstm_int8_with_hidden_output(5, 16, 16, 2) || test_lstm_int8_with_hidden_output(3, 16, 8, 2) || test_lstm_int8_with_hidden_output(2, 5, 79, 2, 33) || test_lstm_int8_with_hidden_output(4, 4, 1, 1) || test_lstm_int8_with_hidden_output(8, 2, 2, 1) || test_lstm_int8_with_hidden_output(16, 8, 7, 1) || test_lstm_int8_with_hidden_output(17, 8, 8, 1) || test_lstm_int8_with_hidden_output(19, 15, 8, 1) || test_lstm_int8_with_hidden_output(5, 16, 16, 1) || test_lstm_int8_with_hidden_output(3, 16, 8, 1) || test_lstm_int8_with_hidden_output(2, 5, 79, 1, 33) || test_lstm_int8_with_hidden_output(4, 2, 1, 0) || test_lstm_int8_with_hidden_output(8, 2, 2, 0) || test_lstm_int8_with_hidden_output(16, 8, 7, 0) || test_lstm_int8_with_hidden_output(17, 8, 8, 0) || test_lstm_int8_with_hidden_output(19, 15, 8, 0) || test_lstm_int8_with_hidden_output(5, 16, 16, 0) || test_lstm_int8_with_hidden_output(3, 16, 8, 0) || test_lstm_int8_with_hidden_output(2, 5, 17, 0, 15); } static int test_lstm_6() { return 0 || test_lstm_int8(4, 1, 1, 0) || test_lstm_int8(8, 2, 2, 0) || test_lstm_int8(16, 8, 7, 0) || test_lstm_int8(17, 8, 8, 0) || test_lstm_int8(19, 15, 8, 0) || test_lstm_int8(5, 16, 16, 0) || test_lstm_int8(3, 16, 8, 0) || test_lstm_int8(8, 16, 16, 0) || test_lstm_int8(2, 5, 17, 0, 15); } static int test_lstm_7() { return 0 || test_lstm_int8(4, 1, 1, 1) || test_lstm_int8(8, 2, 2, 1) || test_lstm_int8(16, 8, 7, 1) || test_lstm_int8(17, 8, 8, 1) || test_lstm_int8(19, 15, 8, 1) || test_lstm_int8(5, 16, 16, 1) || test_lstm_int8(3, 16, 8, 1) || test_lstm_int8(8, 16, 16, 1) || test_lstm_int8(2, 5, 17, 1, 15); } #endif int main() { SRAND(7767517); #if NCNN_INT8 return 0 || test_lstm_0() || test_lstm_1() || test_lstm_2() || test_lstm_3() || test_lstm_4() || test_lstm_5() || test_lstm_6() || test_lstm_7(); #else return 0 || test_lstm_0() || test_lstm_1() || test_lstm_2() || test_lstm_3(); #endif }