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MegEngine/dnn/test/fallback/warp_perspective.cpp

warp_perspective.cpp 6.4 kB
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MegEngine: Initial commit of MegEngine. GitOrigin-RevId: f0c8338beb9cac953bd2d8b76710790940dc9300
5 years ago
feat(dnn): use ref ptr interface for all backends GitOrigin-RevId: f65feae5ccd9d1fa97eb8831ec0685d98f24e9a7
3 years ago
MegEngine: Initial commit of MegEngine. GitOrigin-RevId: f0c8338beb9cac953bd2d8b76710790940dc9300
5 years ago
style(all): reformat c++ code GitOrigin-RevId: 3ffd1b211f140e8ca05661a3c71801083ae4a951
3 years ago
MegEngine: Initial commit of MegEngine. GitOrigin-RevId: f0c8338beb9cac953bd2d8b76710790940dc9300
5 years ago
fix(dnn/arm): fix read invalid data in arm kernel GitOrigin-RevId: f1c4cae6678bca91a40eeef6338e21cdf9900737
4 years ago
MegEngine: Initial commit of MegEngine. GitOrigin-RevId: f0c8338beb9cac953bd2d8b76710790940dc9300
5 years ago
fix(dnn/arm): fix read invalid data in arm kernel GitOrigin-RevId: f1c4cae6678bca91a40eeef6338e21cdf9900737
4 years ago
MegEngine: Initial commit of MegEngine. GitOrigin-RevId: f0c8338beb9cac953bd2d8b76710790940dc9300
5 years ago
feat(dnn): use ref ptr interface for all backends GitOrigin-RevId: f65feae5ccd9d1fa97eb8831ec0685d98f24e9a7
3 years ago
MegEngine: Initial commit of MegEngine. GitOrigin-RevId: f0c8338beb9cac953bd2d8b76710790940dc9300
5 years ago
feat(dnn): use ref ptr interface for all backends GitOrigin-RevId: f65feae5ccd9d1fa97eb8831ec0685d98f24e9a7
3 years ago
MegEngine: Initial commit of MegEngine. GitOrigin-RevId: f0c8338beb9cac953bd2d8b76710790940dc9300
5 years ago
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  1. #include "test/fallback/fixture.h"

  2. 

  3. #include "test/common/checker.h"

  4. #include "test/common/random_state.h"

  5. #include "test/common/rng.h"

  6. #include "test/common/task_record_check.h"

  7. #include "test/common/warp_perspective.h"

  8. namespace megdnn {

  9. namespace test {

  10. 

  11. TEST_F(FALLBACK, WARP_PERSPECTIVE) {

  12.     Checker<WarpPerspective> checker(handle());

  13.     param::WarpPerspective param;

  14.     class ResizeMatRNG : public RNG {

  15.         void gen(const TensorND& tensor_) override {

  16.             auto& gen = RandomState::generator();

  17.             std::uniform_real_distribution<dt_float32> pdist3(1.9f, 3.1f);

  18.             std::uniform_real_distribution<dt_float32> pdist(0.9f, 1.1f);

  19.             std::uniform_real_distribution<dt_float32> pdisth(0.4f, 0.6f);

  20.             std::uniform_real_distribution<dt_float32> ndist(-1.1f, -0.9f);

  21.             std::uniform_real_distribution<dt_float32> ndist3(-3.1f, -1.9f);

  22.             std::uniform_real_distribution<dt_float32> ndisth(-0.6f, -0.4f);

  23.             std::uniform_int_distribution<int> dice(0, 5);

  24.             float* ptr = tensor_.ptr<dt_float32>();

  25.             auto N = tensor_.layout.shape[0];

  26.             for (size_t n = 0; n < N; ++n) {

  27.                 for (size_t i = 0; i < 9; ++i) {

  28.                     switch (dice(gen)) {

  29.                         case 0:

  30.                             ptr[i] = pdist3(gen);

  31.                             break;

  32.                         case 1:

  33.                             ptr[i] = pdist(gen);

  34.                             break;

  35.                         case 2:

  36.                             ptr[i] = pdisth(gen);

  37.                             break;

  38.                         case 3:

  39.                             ptr[i] = ndist(gen);

  40.                             break;

  41.                         case 4:

  42.                             ptr[i] = ndist3(gen);

  43.                             break;

  44.                         case 5:

  45.                             ptr[i] = ndisth(gen);

  46.                             break;

  47.                     }

  48.                 }

  49.                 // is resize?

  50.                 if (n & 1) {

  51.                     ptr[1] = 0;

  52.                     ptr[3] = 0;

  53.                     ptr[6] = ptr[7] = 0;

  54.                 }

  55.                 ptr += 9;

  56.             }

  57.         }

  58.     } rng;

  59.     checker.set_rng(1, &rng);

  60.     using BMode = param::WarpPerspective::BorderMode;

  61.     param.imode = param::WarpPerspective::InterpolationMode::LINEAR;

  62.     for (auto mode :

  63.          {BMode::REFLECT_101, BMode::REPLICATE, BMode::REFLECT, BMode::WRAP,

  64.           BMode::CONSTANT}) {

  65.         param.bmode = mode;

  66.         param.border_val = 1.737;

  67.         checker.set_param(param);

  68.         checker.exec({{1000, 2, 10, 11}, {1000, 3, 3}, {1000, 2, 12, 13}});

  69.     }

  70. #if MEGDNN_TEST_ASAN

  71. //! asan detect nan will make test failed

  72. #else

  73.     // resize nan case

  74.     UniformFloatRNG rng_zero(0, 0);

  75.     checker.set_rng(1, &rng_zero);

  76.     {

  77.         param.bmode = BMode::CONSTANT;

  78.         param.border_val = 1.737;

  79.         checker.set_param(param);

  80.         checker.exec({{1000, 2, 10, 11}, {1000, 3, 3}, {1000, 2, 12, 13}});

  81.     }

  82. #endif

  83. }

  84. 

  85. TEST_F(FALLBACK, WARP_PERSPECTIVE_RECORD) {

  86.     TaskRecordChecker<WarpPerspective> checker(1);

  87.     param::WarpPerspective param;

  88.     class ResizeMatRNG : public RNG {

  89.         void gen(const TensorND& tensor_) override {

  90.             auto& gen = RandomState::generator();

  91.             std::uniform_real_distribution<dt_float32> pdist3(1.9f, 3.1f);

  92.             std::uniform_real_distribution<dt_float32> pdist(0.9f, 1.1f);

  93.             std::uniform_real_distribution<dt_float32> pdisth(0.4f, 0.6f);

  94.             std::uniform_real_distribution<dt_float32> ndist(-1.1f, -0.9f);

  95.             std::uniform_real_distribution<dt_float32> ndist3(-3.1f, -1.9f);

  96.             std::uniform_real_distribution<dt_float32> ndisth(-0.6f, -0.4f);

  97.             std::uniform_int_distribution<int> dice(0, 5);

  98.             float* ptr = tensor_.ptr<dt_float32>();

  99.             auto N = tensor_.layout.shape[0];

  100.             for (size_t n = 0; n < N; ++n) {

  101.                 for (size_t i = 0; i < 9; ++i) {

  102.                     switch (dice(gen)) {

  103.                         case 0:

  104.                             ptr[i] = pdist3(gen);

  105.                             break;

  106.                         case 1:

  107.                             ptr[i] = pdist(gen);

  108.                             break;

  109.                         case 2:

  110.                             ptr[i] = pdisth(gen);

  111.                             break;

  112.                         case 3:

  113.                             ptr[i] = ndist(gen);

  114.                             break;

  115.                         case 4:

  116.                             ptr[i] = ndist3(gen);

  117.                             break;

  118.                         case 5:

  119.                             ptr[i] = ndisth(gen);

  120.                             break;

  121.                     }

  122.                 }

  123.                 // is resize?

  124.                 if (n & 1) {

  125.                     ptr[1] = 0;

  126.                     ptr[3] = 0;

  127.                     ptr[6] = ptr[7] = 0;

  128.                 }

  129.                 ptr += 9;

  130.             }

  131.         }

  132.     } rng;

  133.     checker.set_rng(1, &rng);

  134.     using BMode = param::WarpPerspective::BorderMode;

  135.     param.imode = param::WarpPerspective::InterpolationMode::LINEAR;

  136.     // for (auto mode :

  137.     //      {BMode::REFLECT_101, BMode::REPLICATE, BMode::REFLECT, BMode::WRAP,

  138.     //       BMode::CONSTANT}) {

  139.     param.bmode = BMode::REFLECT_101;

  140.     param.border_val = 1.737;

  141.     checker.set_param(param);

  142.     checker.exec({{1, 2, 10, 11}, {1, 3, 3}, {1, 2, 12, 13}});

  143.     // }

  144. #if MEGDNN_TEST_ASAN

  145. //! asan detect nan will make test failed

  146. #else

  147.     // resize nan case

  148.     UniformFloatRNG rng_zero(0, 0);

  149.     checker.set_rng(1, &rng_zero);

  150.     {

  151.         param.bmode = BMode::CONSTANT;

  152.         param.border_val = 1.737;

  153.         checker.set_param(param);

  154.         checker.exec({{1000, 2, 10, 11}, {1000, 3, 3}, {1000, 2, 12, 13}});

  155.     }

  156. #endif

  157. }

  158. 

  159. TEST_F(FALLBACK, WARP_PERSPECTIVE_MAT_IDX) {

  160.     warp_perspective::run_mat_idx_test(handle());

  161. }

  162. 

  163. TEST_F(FALLBACK, WARP_PERSPECTIFVE_NCHW_INT8) {

  164.     warp_perspective::run_int8_test(handle());

  165. }

  166. 

  167. TEST_F(FALLBACK, WARP_PERSPECTIFVE_NCHW_INT8_RECORD) {

  168.     warp_perspective::run_int8_test_record(1);

  169. }

  170. 

  171. TEST_F(FALLBACK, WARP_PERSPECTIFVE_NCHW_QUINT8) {

  172.     warp_perspective::run_quint8_test(handle());

  173. }

  174. 

  175. }  // namespace test

  176. }  // namespace megdnn

  177. 

  178. // vim: syntax=cpp.doxygen

MegEngine 安装包中集成了使用 GPU 运行代码所需的 CUDA 环境,不用区分 CPU 和 GPU 版。 如果想要运行 GPU 程序,请确保机器本身配有 GPU 硬件设备并安装好驱动。 如果你想体验在云端 GPU 算力平台进行深度学习开发的感觉,欢迎访问 MegStudio 平台