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ncnn/tests/test_lstm.cpp

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  1. // Copyright 2020 Tencent

  2. // SPDX-License-Identifier: BSD-3-Clause

  3. 

  4. #include "testutil.h"

  5. 

  6. static int test_lstm(int size, int T, int outch, int direction, int hidden_size = 0)

  7. {

  8.     ncnn::Mat a = RandomMat(size, T);

  9.     int num_directions = direction == 2 ? 2 : 1;

  10.     if (hidden_size == 0)

  11.         hidden_size = outch;

  12. 

  13.     ncnn::ParamDict pd;

  14.     pd.set(0, outch);

  15.     pd.set(1, hidden_size * size * 4 * num_directions);

  16.     pd.set(2, direction);

  17.     pd.set(3, hidden_size);

  18. 

  19.     std::vector<ncnn::Mat> weights(hidden_size == outch ? 3 : 4);

  20.     weights[0] = RandomMat(hidden_size * size * 4 * num_directions);

  21.     weights[1] = RandomMat(hidden_size * 4 * num_directions);

  22.     weights[2] = RandomMat(outch * hidden_size * 4 * num_directions);

  23.     if (hidden_size != outch)

  24.     {

  25.         weights[3] = RandomMat(hidden_size * outch * num_directions);

  26.     }

  27. 

  28.     int ret = test_layer("LSTM", pd, weights, a);

  29.     if (ret != 0)

  30.     {

  31.         fprintf(stderr, "test_lstm failed size=%d T=%d outch=%d direction=%d hidden_size=%d\n", size, T, outch, direction, hidden_size);

  32.     }

  33. 

  34.     return ret;

  35. }

  36. 

  37. static int test_lstm_with_hidden(int size, int T, int outch, int direction, int hidden_size = 0)

  38. {

  39.     ncnn::Mat a = RandomMat(size, T);

  40.     int num_directions = direction == 2 ? 2 : 1;

  41.     if (hidden_size == 0)

  42.         hidden_size = outch;

  43. 

  44.     ncnn::ParamDict pd;

  45.     pd.set(0, outch);

  46.     pd.set(1, hidden_size * size * 4 * num_directions);

  47.     pd.set(2, direction);

  48.     pd.set(3, hidden_size);

  49. 

  50.     std::vector<ncnn::Mat> weights(hidden_size == outch ? 3 : 4);

  51.     weights[0] = RandomMat(hidden_size * size * 4 * num_directions);

  52.     weights[1] = RandomMat(hidden_size * 4 * num_directions);

  53.     weights[2] = RandomMat(outch * hidden_size * 4 * num_directions);

  54.     if (hidden_size != outch)

  55.     {

  56.         weights[3] = RandomMat(hidden_size * outch * num_directions);

  57.     }

  58. 

  59.     // initial hidden state

  60.     ncnn::Mat hidden = RandomMat(outch, num_directions);

  61. 

  62.     // initial cell state

  63.     ncnn::Mat cell = RandomMat(hidden_size, num_directions);

  64. 

  65.     std::vector<ncnn::Mat> as(3);

  66.     as[0] = a;

  67.     as[1] = hidden;

  68.     as[2] = cell;

  69. 

  70.     int ret = test_layer("LSTM", pd, weights, as, 3);

  71.     if (ret != 0)

  72.     {

  73.         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);

  74.     }

  75. 

  76.     return ret;

  77. }

  78. 

  79. static int test_lstm_with_hidden_input(int size, int T, int outch, int direction, int hidden_size = 0)

  80. {

  81.     ncnn::Mat a = RandomMat(size, T);

  82.     int num_directions = direction == 2 ? 2 : 1;

  83.     if (hidden_size == 0)

  84.         hidden_size = outch;

  85. 

  86.     ncnn::ParamDict pd;

  87.     pd.set(0, outch);

  88.     pd.set(1, hidden_size * size * 4 * num_directions);

  89.     pd.set(2, direction);

  90.     pd.set(3, hidden_size);

  91. 

  92.     std::vector<ncnn::Mat> weights(hidden_size == outch ? 3 : 4);

  93.     weights[0] = RandomMat(hidden_size * size * 4 * num_directions);

  94.     weights[1] = RandomMat(hidden_size * 4 * num_directions);

  95.     weights[2] = RandomMat(outch * hidden_size * 4 * num_directions);

  96.     if (hidden_size != outch)

  97.     {

  98.         weights[3] = RandomMat(hidden_size * outch * num_directions);

  99.     }

  100. 

  101.     // initial hidden state

  102.     ncnn::Mat hidden = RandomMat(outch, num_directions);

  103. 

  104.     // initial cell state

  105.     ncnn::Mat cell = RandomMat(hidden_size, num_directions);

  106. 

  107.     std::vector<ncnn::Mat> as(3);

  108.     as[0] = a;

  109.     as[1] = hidden;

  110.     as[2] = cell;

  111. 

  112.     int ret = test_layer("LSTM", pd, weights, as, 1);

  113.     if (ret != 0)

  114.     {

  115.         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);

  116.     }

  117. 

  118.     return ret;

  119. }

  120. 

  121. static int test_lstm_with_hidden_output(int size, int T, int outch, int direction, int hidden_size = 0)

  122. {

  123.     ncnn::Mat a = RandomMat(size, T);

  124.     int num_directions = direction == 2 ? 2 : 1;

  125.     if (hidden_size == 0)

  126.         hidden_size = outch;

  127. 

  128.     ncnn::ParamDict pd;

  129.     pd.set(0, outch);

  130.     pd.set(1, hidden_size * size * 4 * num_directions);

  131.     pd.set(2, direction);

  132.     pd.set(3, hidden_size);

  133. 

  134.     std::vector<ncnn::Mat> weights(hidden_size == outch ? 3 : 4);

  135.     weights[0] = RandomMat(hidden_size * size * 4 * num_directions);

  136.     weights[1] = RandomMat(hidden_size * 4 * num_directions);

  137.     weights[2] = RandomMat(outch * hidden_size * 4 * num_directions);

  138.     if (hidden_size != outch)

  139.     {

  140.         weights[3] = RandomMat(hidden_size * outch * num_directions);

  141.     }

  142. 

  143.     std::vector<ncnn::Mat> as(1);

  144.     as[0] = a;

  145. 

  146.     int ret = test_layer("LSTM", pd, weights, as, 3);

  147.     if (ret != 0)

  148.     {

  149.         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);

  150.     }

  151. 

  152.     return ret;

  153. }

  154. 

  155. static int test_lstm_0()

  156. {

  157.     return 0

  158.            || test_lstm(4, 1, 2, 2)

  159.            || test_lstm(8, 2, 2, 2)

  160.            || test_lstm(16, 8, 7, 2)

  161.            || test_lstm(17, 8, 8, 2)

  162.            || test_lstm(19, 15, 8, 2)

  163.            || test_lstm(5, 16, 16, 2)

  164.            || test_lstm(3, 16, 8, 2)

  165.            || test_lstm(8, 16, 16, 2)

  166.            || test_lstm(31, 3, 31, 2)

  167.            || test_lstm(2, 5, 17, 2, 15);

  168. }

  169. 

  170. static int test_lstm_1()

  171. {

  172.     return 0

  173.            || test_lstm_with_hidden(4, 4, 1, 2)

  174.            || test_lstm_with_hidden(8, 2, 2, 2)

  175.            || test_lstm_with_hidden(16, 8, 7, 2)

  176.            || test_lstm_with_hidden(17, 8, 8, 2)

  177.            || test_lstm_with_hidden(19, 15, 8, 2)

  178.            || test_lstm_with_hidden(5, 16, 16, 2)

  179.            || test_lstm_with_hidden(3, 16, 8, 2)

  180.            || test_lstm_with_hidden(2, 5, 79, 2, 33)

  181.            || test_lstm_with_hidden(4, 4, 1, 1)

  182.            || test_lstm_with_hidden(8, 2, 2, 1)

  183.            || test_lstm_with_hidden(16, 8, 7, 1)

  184.            || test_lstm_with_hidden(17, 8, 8, 1)

  185.            || test_lstm_with_hidden(19, 15, 8, 1)

  186.            || test_lstm_with_hidden(5, 16, 16, 1)

  187.            || test_lstm_with_hidden(3, 16, 8, 1)

  188.            || test_lstm_with_hidden(2, 5, 79, 1, 33)

  189.            || test_lstm_with_hidden(4, 2, 1, 0)

  190.            || test_lstm_with_hidden(8, 2, 2, 0)

  191.            || test_lstm_with_hidden(16, 8, 7, 0)

  192.            || test_lstm_with_hidden(17, 8, 8, 0)

  193.            || test_lstm_with_hidden(19, 15, 8, 0)

  194.            || test_lstm_with_hidden(5, 16, 16, 0)

  195.            || test_lstm_with_hidden(3, 16, 8, 0)

  196.            || test_lstm_with_hidden(2, 5, 17, 0, 15)

  197. 

  198.            || test_lstm_with_hidden_input(4, 4, 1, 2)

  199.            || test_lstm_with_hidden_input(8, 2, 2, 2)

  200.            || test_lstm_with_hidden_input(16, 8, 7, 2)

  201.            || test_lstm_with_hidden_input(17, 8, 8, 2)

  202.            || test_lstm_with_hidden_input(19, 15, 8, 2)

  203.            || test_lstm_with_hidden_input(5, 16, 16, 2)

  204.            || test_lstm_with_hidden_input(3, 16, 8, 2)

  205.            || test_lstm_with_hidden_input(2, 5, 79, 2, 33)

  206.            || test_lstm_with_hidden_input(4, 4, 1, 1)

  207.            || test_lstm_with_hidden_input(8, 2, 2, 1)

  208.            || test_lstm_with_hidden_input(16, 8, 7, 1)

  209.            || test_lstm_with_hidden_input(17, 8, 8, 1)

  210.            || test_lstm_with_hidden_input(19, 15, 8, 1)

  211.            || test_lstm_with_hidden_input(5, 16, 16, 1)

  212.            || test_lstm_with_hidden_input(3, 16, 8, 1)

  213.            || test_lstm_with_hidden_input(2, 5, 79, 1, 33)

  214.            || test_lstm_with_hidden_input(4, 2, 1, 0)

  215.            || test_lstm_with_hidden_input(8, 2, 2, 0)

  216.            || test_lstm_with_hidden_input(16, 8, 7, 0)

  217.            || test_lstm_with_hidden_input(17, 8, 8, 0)

  218.            || test_lstm_with_hidden_input(19, 15, 8, 0)

  219.            || test_lstm_with_hidden_input(5, 16, 16, 0)

  220.            || test_lstm_with_hidden_input(3, 16, 8, 0)

  221.            || test_lstm_with_hidden_input(2, 5, 17, 0, 15)

  222. 

  223.            || test_lstm_with_hidden_output(4, 4, 1, 2)

  224.            || test_lstm_with_hidden_output(8, 2, 2, 2)

  225.            || test_lstm_with_hidden_output(16, 8, 7, 2)

  226.            || test_lstm_with_hidden_output(17, 8, 8, 2)

  227.            || test_lstm_with_hidden_output(19, 15, 8, 2)

  228.            || test_lstm_with_hidden_output(5, 16, 16, 2)

  229.            || test_lstm_with_hidden_output(3, 16, 8, 2)

  230.            || test_lstm_with_hidden_output(2, 5, 79, 2, 33)

  231.            || test_lstm_with_hidden_output(4, 4, 1, 1)

  232.            || test_lstm_with_hidden_output(8, 2, 2, 1)

  233.            || test_lstm_with_hidden_output(16, 8, 7, 1)

  234.            || test_lstm_with_hidden_output(17, 8, 8, 1)

  235.            || test_lstm_with_hidden_output(19, 15, 8, 1)

  236.            || test_lstm_with_hidden_output(5, 16, 16, 1)

  237.            || test_lstm_with_hidden_output(3, 16, 8, 1)

  238.            || test_lstm_with_hidden_output(2, 5, 79, 1, 33)

  239.            || test_lstm_with_hidden_output(4, 2, 1, 0)

  240.            || test_lstm_with_hidden_output(8, 2, 2, 0)

  241.            || test_lstm_with_hidden_output(16, 8, 7, 0)

  242.            || test_lstm_with_hidden_output(17, 8, 8, 0)

  243.            || test_lstm_with_hidden_output(19, 15, 8, 0)

  244.            || test_lstm_with_hidden_output(5, 16, 16, 0)

  245.            || test_lstm_with_hidden_output(3, 16, 8, 0)

  246.            || test_lstm_with_hidden_output(2, 5, 17, 0, 15);

  247. }

  248. 

  249. static int test_lstm_2()

  250. {

  251.     return 0

  252.            || test_lstm(4, 1, 1, 0)

  253.            || test_lstm(8, 2, 2, 0)

  254.            || test_lstm(16, 8, 7, 0)

  255.            || test_lstm(17, 8, 8, 0)

  256.            || test_lstm(19, 15, 8, 0)

  257.            || test_lstm(5, 16, 16, 0)

  258.            || test_lstm(3, 16, 8, 0)

  259.            || test_lstm(8, 16, 16, 0)

  260.            || test_lstm(2, 5, 17, 0, 15);

  261. }

  262. 

  263. static int test_lstm_3()

  264. {

  265.     return 0

  266.            || test_lstm(4, 1, 1, 1)

  267.            || test_lstm(8, 2, 2, 1)

  268.            || test_lstm(16, 8, 7, 1)

  269.            || test_lstm(17, 8, 8, 1)

  270.            || test_lstm(19, 15, 8, 1)

  271.            || test_lstm(5, 16, 16, 1)

  272.            || test_lstm(3, 16, 8, 1)

  273.            || test_lstm(8, 16, 16, 1)

  274.            || test_lstm(2, 5, 17, 1, 15);

  275. }

  276. 

  277. #if NCNN_INT8

  278. static void RandomizeA(ncnn::Mat& m, float absmax)

  279. {

  280.     absmax = ncnn::float16_to_float32(ncnn::float32_to_float16(absmax));

  281.     absmax = ncnn::bfloat16_to_float32(ncnn::float32_to_bfloat16(absmax));

  282. 

  283.     const int h = m.h;

  284.     float* p = m;

  285.     for (int i = 0; i < h; i++)

  286.     {

  287.         float* p = m.row(i);

  288.         for (int j = 0; j < m.w; j++)

  289.         {

  290.             p[j] = RandomFloat(-absmax, absmax);

  291. 

  292.             // drop 0.45 ~ 0.55

  293.             float v = p[j] * (127.f / absmax);

  294.             float vv = fabs(v - (int)v);

  295. 

  296.             float hp = ncnn::float16_to_float32(ncnn::float32_to_float16(p[j]));

  297.             float hv = hp * (127.f / absmax);

  298.             float hvv = fabs(hv - (int)hv);

  299. 

  300.             float bp = ncnn::bfloat16_to_float32(ncnn::float32_to_bfloat16(p[j]));

  301.             float bv = bp * (127.f / absmax);

  302.             float bvv = fabs(bv - (int)bv);

  303. 

  304.             while ((vv > 0.45f && vv < 0.55f) || (hvv > 0.45f && hvv < 0.55f) || (bvv > 0.45f && bvv < 0.55f))

  305.             {

  306.                 p[j] = RandomFloat(-absmax, absmax);

  307.                 v = p[j] * (127.f / absmax);

  308.                 vv = fabs(v - (int)v);

  309. 

  310.                 hp = ncnn::float16_to_float32(ncnn::float32_to_float16(p[j]));

  311.                 hv = hp * (127.f / absmax);

  312.                 hvv = fabs(hv - (int)hv);

  313. 

  314.                 bp = ncnn::bfloat16_to_float32(ncnn::float32_to_bfloat16(p[j]));

  315.                 bv = bp * (127.f / absmax);

  316.                 bvv = fabs(bv - (int)bv);

  317.             }

  318.         }

  319.     }

  320. 

  321.     // set random a and b

  322.     m.row(RandomInt(0, h - 1))[RandomInt(0, m.w - 1)] = -absmax;

  323.     m.row(RandomInt(0, h - 1))[RandomInt(0, m.w - 1)] = absmax;

  324. }

  325. 

  326. static int test_lstm_int8(int size, int T, int outch, int direction, int hidden_size = 0)

  327. {

  328.     int num_directions = direction == 2 ? 2 : 1;

  329.     if (hidden_size == 0)

  330.         hidden_size = outch;

  331. 

  332.     ncnn::ParamDict pd;

  333.     pd.set(0, outch);

  334.     pd.set(1, hidden_size * size * 4 * num_directions);

  335.     pd.set(2, direction);

  336.     pd.set(3, hidden_size);

  337.     pd.set(8, 2); // int8_scale_term

  338. 

  339.     std::vector<ncnn::Mat> weights(hidden_size == outch ? 5 : 6);

  340.     weights[0] = RandomS8Mat(hidden_size * size * 4 * num_directions);

  341.     weights[1] = RandomMat(hidden_size * 4 * num_directions);

  342.     weights[2] = RandomS8Mat(outch * hidden_size * 4 * num_directions);

  343.     if (hidden_size != outch)

  344.     {

  345.         weights[3] = RandomMat(hidden_size * outch * num_directions);

  346.         weights[4] = RandomMat(hidden_size * 4 * num_directions, 100.f, 200.f);

  347.         weights[5] = RandomMat(hidden_size * 4 * num_directions, 100.f, 200.f);

  348.     }

  349.     else

  350.     {

  351.         weights[3] = RandomMat(hidden_size * 4 * num_directions, 100.f, 200.f);

  352.         weights[4] = RandomMat(hidden_size * 4 * num_directions, 100.f, 200.f);

  353.     }

  354. 

  355.     ncnn::Mat a(size, T);

  356.     RandomizeA(a, 10.f);

  357. 

  358.     int ret = test_layer("LSTM", pd, weights, a);

  359.     if (ret != 0)

  360.     {

  361.         fprintf(stderr, "test_lstm_int8 failed size=%d T=%d outch=%d direction=%d hidden_size=%d\n", size, T, outch, direction, hidden_size);

  362.     }

  363. 

  364.     return ret;

  365. }

  366. 

  367. static int test_lstm_int8_with_hidden(int size, int T, int outch, int direction, int hidden_size = 0)

  368. {

  369.     int num_directions = direction == 2 ? 2 : 1;

  370.     if (hidden_size == 0)

  371.         hidden_size = outch;

  372. 

  373.     ncnn::ParamDict pd;

  374.     pd.set(0, outch);

  375.     pd.set(1, hidden_size * size * 4 * num_directions);

  376.     pd.set(2, direction);

  377.     pd.set(3, hidden_size);

  378.     pd.set(8, 2); // int8_scale_term

  379. 

  380.     std::vector<ncnn::Mat> weights(hidden_size == outch ? 5 : 6);

  381.     weights[0] = RandomS8Mat(hidden_size * size * 4 * num_directions);

  382.     weights[1] = RandomMat(hidden_size * 4 * num_directions);

  383.     weights[2] = RandomS8Mat(outch * hidden_size * 4 * num_directions);

  384.     if (hidden_size != outch)

  385.     {

  386.         weights[3] = RandomMat(hidden_size * outch * num_directions);

  387.         weights[4] = RandomMat(hidden_size * 4 * num_directions, 100.f, 200.f);

  388.         weights[5] = RandomMat(hidden_size * 4 * num_directions, 100.f, 200.f);

  389.     }

  390.     else

  391.     {

  392.         weights[3] = RandomMat(hidden_size * 4 * num_directions, 100.f, 200.f);

  393.         weights[4] = RandomMat(hidden_size * 4 * num_directions, 100.f, 200.f);

  394.     }

  395. 

  396.     ncnn::Mat a(size, T);

  397.     RandomizeA(a, 10.f);

  398. 

  399.     // initial hidden state

  400.     ncnn::Mat hidden(outch, num_directions);

  401.     RandomizeA(hidden, 10.f);

  402. 

  403.     // initial cell state

  404.     ncnn::Mat cell(hidden_size, num_directions);

  405.     RandomizeA(cell, 10.f);

  406. 

  407.     std::vector<ncnn::Mat> as(3);

  408.     as[0] = a;

  409.     as[1] = hidden;

  410.     as[2] = cell;

  411. 

  412.     int ret = test_layer("LSTM", pd, weights, as, 3);

  413.     if (ret != 0)

  414.     {

  415.         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);

  416.     }

  417. 

  418.     return ret;

  419. }

  420. 

  421. static int test_lstm_int8_with_hidden_input(int size, int T, int outch, int direction, int hidden_size = 0)

  422. {

  423.     int num_directions = direction == 2 ? 2 : 1;

  424.     if (hidden_size == 0)

  425.         hidden_size = outch;

  426. 

  427.     ncnn::ParamDict pd;

  428.     pd.set(0, outch);

  429.     pd.set(1, hidden_size * size * 4 * num_directions);

  430.     pd.set(2, direction);

  431.     pd.set(3, hidden_size);

  432.     pd.set(8, 2); // int8_scale_term

  433. 

  434.     std::vector<ncnn::Mat> weights(hidden_size == outch ? 5 : 6);

  435.     weights[0] = RandomS8Mat(hidden_size * size * 4 * num_directions);

  436.     weights[1] = RandomMat(hidden_size * 4 * num_directions);

  437.     weights[2] = RandomS8Mat(outch * hidden_size * 4 * num_directions);

  438.     if (hidden_size != outch)

  439.     {

  440.         weights[3] = RandomMat(hidden_size * outch * num_directions);

  441.         weights[4] = RandomMat(hidden_size * 4 * num_directions, 100.f, 200.f);

  442.         weights[5] = RandomMat(hidden_size * 4 * num_directions, 100.f, 200.f);

  443.     }

  444.     else

  445.     {

  446.         weights[3] = RandomMat(hidden_size * 4 * num_directions, 100.f, 200.f);

  447.         weights[4] = RandomMat(hidden_size * 4 * num_directions, 100.f, 200.f);

  448.     }

  449. 

  450.     ncnn::Mat a(size, T);

  451.     RandomizeA(a, 10.f);

  452. 

  453.     // initial hidden state

  454.     ncnn::Mat hidden(outch, num_directions);

  455.     RandomizeA(hidden, 10.f);

  456. 

  457.     // initial cell state

  458.     ncnn::Mat cell(hidden_size, num_directions);

  459.     RandomizeA(cell, 10.f);

  460. 

  461.     std::vector<ncnn::Mat> as(3);

  462.     as[0] = a;

  463.     as[1] = hidden;

  464.     as[2] = cell;

  465. 

  466.     int ret = test_layer("LSTM", pd, weights, as, 1);

  467.     if (ret != 0)

  468.     {

  469.         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);

  470.     }

  471. 

  472.     return ret;

  473. }

  474. 

  475. static int test_lstm_int8_with_hidden_output(int size, int T, int outch, int direction, int hidden_size = 0)

  476. {

  477.     int num_directions = direction == 2 ? 2 : 1;

  478.     if (hidden_size == 0)

  479.         hidden_size = outch;

  480. 

  481.     ncnn::ParamDict pd;

  482.     pd.set(0, outch);

  483.     pd.set(1, hidden_size * size * 4 * num_directions);

  484.     pd.set(2, direction);

  485.     pd.set(3, hidden_size);

  486.     pd.set(8, 2); // int8_scale_term

  487. 

  488.     std::vector<ncnn::Mat> weights(hidden_size == outch ? 5 : 6);

  489.     weights[0] = RandomS8Mat(hidden_size * size * 4 * num_directions);

  490.     weights[1] = RandomMat(hidden_size * 4 * num_directions);

  491.     weights[2] = RandomS8Mat(outch * hidden_size * 4 * num_directions);

  492.     if (hidden_size != outch)

  493.     {

  494.         weights[3] = RandomMat(hidden_size * outch * num_directions);

  495.         weights[4] = RandomMat(hidden_size * 4 * num_directions, 100.f, 200.f);

  496.         weights[5] = RandomMat(hidden_size * 4 * num_directions, 100.f, 200.f);

  497.     }

  498.     else

  499.     {

  500.         weights[3] = RandomMat(hidden_size * 4 * num_directions, 100.f, 200.f);

  501.         weights[4] = RandomMat(hidden_size * 4 * num_directions, 100.f, 200.f);

  502.     }

  503. 

  504.     ncnn::Mat a(size, T);

  505.     RandomizeA(a, 10.f);

  506. 

  507.     std::vector<ncnn::Mat> as(1);

  508.     as[0] = a;

  509. 

  510.     int ret = test_layer("LSTM", pd, weights, as, 3);

  511.     if (ret != 0)

  512.     {

  513.         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);

  514.     }

  515. 

  516.     return ret;

  517. }

  518. 

  519. static int test_lstm_4()

  520. {

  521.     return 0

  522.            || test_lstm_int8(4, 1, 2, 2)

  523.            || test_lstm_int8(8, 2, 2, 2)

  524.            || test_lstm_int8(16, 8, 7, 2)

  525.            || test_lstm_int8(17, 8, 8, 2)

  526.            || test_lstm_int8(19, 15, 8, 2)

  527.            || test_lstm_int8(5, 16, 16, 2)

  528.            || test_lstm_int8(3, 16, 8, 2)

  529.            || test_lstm_int8(8, 16, 16, 2)

  530.            || test_lstm_int8(31, 3, 31, 2)

  531.            || test_lstm_int8(2, 5, 17, 2, 15);

  532. }

  533. 

  534. static int test_lstm_5()

  535. {

  536.     return 0

  537.            || test_lstm_int8_with_hidden(4, 4, 1, 2)

  538.            || test_lstm_int8_with_hidden(8, 2, 2, 2)

  539.            || test_lstm_int8_with_hidden(16, 8, 7, 2)

  540.            || test_lstm_int8_with_hidden(17, 8, 8, 2)

  541.            || test_lstm_int8_with_hidden(19, 15, 8, 2)

  542.            || test_lstm_int8_with_hidden(5, 16, 16, 2)

  543.            || test_lstm_int8_with_hidden(3, 16, 8, 2)

  544.            || test_lstm_int8_with_hidden(2, 5, 79, 2, 33)

  545.            || test_lstm_int8_with_hidden(4, 4, 1, 1)

  546.            || test_lstm_int8_with_hidden(8, 2, 2, 1)

  547.            || test_lstm_int8_with_hidden(16, 8, 7, 1)

  548.            || test_lstm_int8_with_hidden(17, 8, 8, 1)

  549.            || test_lstm_int8_with_hidden(19, 15, 8, 1)

  550.            || test_lstm_int8_with_hidden(5, 16, 16, 1)

  551.            || test_lstm_int8_with_hidden(3, 16, 8, 1)

  552.            || test_lstm_int8_with_hidden(2, 5, 79, 1, 33)

  553.            || test_lstm_int8_with_hidden(4, 2, 1, 0)

  554.            || test_lstm_int8_with_hidden(8, 2, 2, 0)

  555.            || test_lstm_int8_with_hidden(16, 8, 7, 0)

  556.            || test_lstm_int8_with_hidden(17, 8, 8, 0)

  557.            || test_lstm_int8_with_hidden(19, 15, 8, 0)

  558.            || test_lstm_int8_with_hidden(5, 16, 16, 0)

  559.            || test_lstm_int8_with_hidden(3, 16, 8, 0)

  560.            || test_lstm_int8_with_hidden(2, 5, 17, 0, 15)

  561. 

  562.            || test_lstm_int8_with_hidden_input(4, 4, 1, 2)

  563.            || test_lstm_int8_with_hidden_input(8, 2, 2, 2)

  564.            || test_lstm_int8_with_hidden_input(16, 8, 7, 2)

  565.            || test_lstm_int8_with_hidden_input(17, 8, 8, 2)

  566.            || test_lstm_int8_with_hidden_input(19, 15, 8, 2)

  567.            || test_lstm_int8_with_hidden_input(5, 16, 16, 2)

  568.            || test_lstm_int8_with_hidden_input(3, 16, 8, 2)

  569.            || test_lstm_int8_with_hidden_input(2, 5, 79, 2, 33)

  570.            || test_lstm_int8_with_hidden_input(4, 4, 1, 1)

  571.            || test_lstm_int8_with_hidden_input(8, 2, 2, 1)

  572.            || test_lstm_int8_with_hidden_input(16, 8, 7, 1)

  573.            || test_lstm_int8_with_hidden_input(17, 8, 8, 1)

  574.            || test_lstm_int8_with_hidden_input(19, 15, 8, 1)

  575.            || test_lstm_int8_with_hidden_input(5, 16, 16, 1)

  576.            || test_lstm_int8_with_hidden_input(3, 16, 8, 1)

  577.            || test_lstm_int8_with_hidden_input(2, 5, 79, 1, 33)

  578.            || test_lstm_int8_with_hidden_input(4, 2, 1, 0)

  579.            || test_lstm_int8_with_hidden_input(8, 2, 2, 0)

  580.            || test_lstm_int8_with_hidden_input(16, 8, 7, 0)

  581.            || test_lstm_int8_with_hidden_input(17, 8, 8, 0)

  582.            || test_lstm_int8_with_hidden_input(19, 15, 8, 0)

  583.            || test_lstm_int8_with_hidden_input(5, 16, 16, 0)

  584.            || test_lstm_int8_with_hidden_input(3, 16, 8, 0)

  585.            || test_lstm_int8_with_hidden_input(2, 5, 17, 0, 15)

  586. 

  587.            || test_lstm_int8_with_hidden_output(4, 4, 1, 2)

  588.            || test_lstm_int8_with_hidden_output(8, 2, 2, 2)

  589.            || test_lstm_int8_with_hidden_output(16, 8, 7, 2)

  590.            || test_lstm_int8_with_hidden_output(17, 8, 8, 2)

  591.            || test_lstm_int8_with_hidden_output(19, 15, 8, 2)

  592.            || test_lstm_int8_with_hidden_output(5, 16, 16, 2)

  593.            || test_lstm_int8_with_hidden_output(3, 16, 8, 2)

  594.            || test_lstm_int8_with_hidden_output(2, 5, 79, 2, 33)

  595.            || test_lstm_int8_with_hidden_output(4, 4, 1, 1)

  596.            || test_lstm_int8_with_hidden_output(8, 2, 2, 1)

  597.            || test_lstm_int8_with_hidden_output(16, 8, 7, 1)

  598.            || test_lstm_int8_with_hidden_output(17, 8, 8, 1)

  599.            || test_lstm_int8_with_hidden_output(19, 15, 8, 1)

  600.            || test_lstm_int8_with_hidden_output(5, 16, 16, 1)

  601.            || test_lstm_int8_with_hidden_output(3, 16, 8, 1)

  602.            || test_lstm_int8_with_hidden_output(2, 5, 79, 1, 33)

  603.            || test_lstm_int8_with_hidden_output(4, 2, 1, 0)

  604.            || test_lstm_int8_with_hidden_output(8, 2, 2, 0)

  605.            || test_lstm_int8_with_hidden_output(16, 8, 7, 0)

  606.            || test_lstm_int8_with_hidden_output(17, 8, 8, 0)

  607.            || test_lstm_int8_with_hidden_output(19, 15, 8, 0)

  608.            || test_lstm_int8_with_hidden_output(5, 16, 16, 0)

  609.            || test_lstm_int8_with_hidden_output(3, 16, 8, 0)

  610.            || test_lstm_int8_with_hidden_output(2, 5, 17, 0, 15);

  611. }

  612. 

  613. static int test_lstm_6()

  614. {

  615.     return 0

  616.            || test_lstm_int8(4, 1, 1, 0)

  617.            || test_lstm_int8(8, 2, 2, 0)

  618.            || test_lstm_int8(16, 8, 7, 0)

  619.            || test_lstm_int8(17, 8, 8, 0)

  620.            || test_lstm_int8(19, 15, 8, 0)

  621.            || test_lstm_int8(5, 16, 16, 0)

  622.            || test_lstm_int8(3, 16, 8, 0)

  623.            || test_lstm_int8(8, 16, 16, 0)

  624.            || test_lstm_int8(2, 5, 17, 0, 15);

  625. }

  626. 

  627. static int test_lstm_7()

  628. {

  629.     return 0

  630.            || test_lstm_int8(4, 1, 1, 1)

  631.            || test_lstm_int8(8, 2, 2, 1)

  632.            || test_lstm_int8(16, 8, 7, 1)

  633.            || test_lstm_int8(17, 8, 8, 1)

  634.            || test_lstm_int8(19, 15, 8, 1)

  635.            || test_lstm_int8(5, 16, 16, 1)

  636.            || test_lstm_int8(3, 16, 8, 1)

  637.            || test_lstm_int8(8, 16, 16, 1)

  638.            || test_lstm_int8(2, 5, 17, 1, 15);

  639. }

  640. #endif

  641. 

  642. int main()

  643. {

  644.     SRAND(7767517);

  645. 

  646. #if NCNN_INT8

  647.     return 0

  648.            || test_lstm_0()

  649.            || test_lstm_1()

  650.            || test_lstm_2()

  651.            || test_lstm_3()

  652.            || test_lstm_4()

  653.            || test_lstm_5()

  654.            || test_lstm_6()

  655.            || test_lstm_7();

  656. #else

  657.     return 0

  658.            || test_lstm_0()

  659.            || test_lstm_1()

  660.            || test_lstm_2()

  661.            || test_lstm_3();

  662. #endif

  663. }