#include "main.h" #include using Eigen::Tensor; static void test_single_voxel_patch() { Tensor tensor(4,2,3,5,7); tensor.setRandom(); Tensor tensor_row_major = tensor.swap_layout(); Tensor single_voxel_patch; single_voxel_patch = tensor.extract_volume_patches(1, 1, 1); VERIFY_IS_EQUAL(single_voxel_patch.dimension(0), 4); VERIFY_IS_EQUAL(single_voxel_patch.dimension(1), 1); VERIFY_IS_EQUAL(single_voxel_patch.dimension(2), 1); VERIFY_IS_EQUAL(single_voxel_patch.dimension(3), 1); VERIFY_IS_EQUAL(single_voxel_patch.dimension(4), 2 * 3 * 5); VERIFY_IS_EQUAL(single_voxel_patch.dimension(5), 7); Tensor single_voxel_patch_row_major; single_voxel_patch_row_major = tensor_row_major.extract_volume_patches(1, 1, 1); VERIFY_IS_EQUAL(single_voxel_patch_row_major.dimension(0), 7); VERIFY_IS_EQUAL(single_voxel_patch_row_major.dimension(1), 2 * 3 * 5); VERIFY_IS_EQUAL(single_voxel_patch_row_major.dimension(2), 1); VERIFY_IS_EQUAL(single_voxel_patch_row_major.dimension(3), 1); VERIFY_IS_EQUAL(single_voxel_patch_row_major.dimension(4), 1); VERIFY_IS_EQUAL(single_voxel_patch_row_major.dimension(5), 4); for (int i = 0; i < tensor.size(); ++i) { VERIFY_IS_EQUAL(tensor.data()[i], single_voxel_patch.data()[i]); VERIFY_IS_EQUAL(tensor_row_major.data()[i], single_voxel_patch_row_major.data()[i]); VERIFY_IS_EQUAL(tensor.data()[i], tensor_row_major.data()[i]); } } static void test_entire_volume_patch() { const int depth = 4; const int patch_z = 2; const int patch_y = 3; const int patch_x = 5; const int batch = 7; Tensor tensor(depth, patch_z, patch_y, patch_x, batch); tensor.setRandom(); Tensor tensor_row_major = tensor.swap_layout(); Tensor entire_volume_patch; entire_volume_patch = tensor.extract_volume_patches(patch_z, patch_y, patch_x); VERIFY_IS_EQUAL(entire_volume_patch.dimension(0), depth); VERIFY_IS_EQUAL(entire_volume_patch.dimension(1), patch_z); VERIFY_IS_EQUAL(entire_volume_patch.dimension(2), patch_y); VERIFY_IS_EQUAL(entire_volume_patch.dimension(3), patch_x); VERIFY_IS_EQUAL(entire_volume_patch.dimension(4), patch_z * patch_y * patch_x); VERIFY_IS_EQUAL(entire_volume_patch.dimension(5), batch); Tensor entire_volume_patch_row_major; entire_volume_patch_row_major = tensor_row_major.extract_volume_patches(patch_z, patch_y, patch_x); VERIFY_IS_EQUAL(entire_volume_patch_row_major.dimension(0), batch); VERIFY_IS_EQUAL(entire_volume_patch_row_major.dimension(1), patch_z * patch_y * patch_x); VERIFY_IS_EQUAL(entire_volume_patch_row_major.dimension(2), patch_x); VERIFY_IS_EQUAL(entire_volume_patch_row_major.dimension(3), patch_y); VERIFY_IS_EQUAL(entire_volume_patch_row_major.dimension(4), patch_z); VERIFY_IS_EQUAL(entire_volume_patch_row_major.dimension(5), depth); const int dz = patch_z - 1; const int dy = patch_y - 1; const int dx = patch_x - 1; const int forward_pad_z = dz / 2; const int forward_pad_y = dy / 2; const int forward_pad_x = dx / 2; for (int pz = 0; pz < patch_z; pz++) { for (int py = 0; py < patch_y; py++) { for (int px = 0; px < patch_x; px++) { const int patchId = pz + patch_z * (py + px * patch_y); for (int z = 0; z < patch_z; z++) { for (int y = 0; y < patch_y; y++) { for (int x = 0; x < patch_x; x++) { for (int b = 0; b < batch; b++) { for (int d = 0; d < depth; d++) { float expected = 0.0f; float expected_row_major = 0.0f; const int eff_z = z - forward_pad_z + pz; const int eff_y = y - forward_pad_y + py; const int eff_x = x - forward_pad_x + px; if (eff_z >= 0 && eff_y >= 0 && eff_x >= 0 && eff_z < patch_z && eff_y < patch_y && eff_x < patch_x) { expected = tensor(d, eff_z, eff_y, eff_x, b); expected_row_major = tensor_row_major(b, eff_x, eff_y, eff_z, d); } VERIFY_IS_EQUAL(entire_volume_patch(d, z, y, x, patchId, b), expected); VERIFY_IS_EQUAL(entire_volume_patch_row_major(b, patchId, x, y, z, d), expected_row_major); } } } } } } } } } EIGEN_DECLARE_TEST(cxx11_tensor_volume_patch) { CALL_SUBTEST(test_single_voxel_patch()); CALL_SUBTEST(test_entire_volume_patch()); }