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Quelle rotate_test.cc Sprache: C |
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/* * Copyright 2012 The LibYuv Project Authors. All rights reserved. * * Use of this source code is governed by a BSD-style license * that can be found in the LICENSE file in the root of the source * tree. An additional intellectual property rights grant can be found * in the file PATENTS. All contributing project authors may * be found in the AUTHORS file in the root of the source tree. */ #include <stdlib.h> #include "../unit_test/unit_test.h" #include "libyuv/cpu_id.h" #include "libyuv/rotate.h" #ifdef ENABLE_ROW_TESTS #include "libyuv/rotate_row.h" #endif namespace libyuv { #define SUBSAMPLE(v, a) ((((v) + (a)-1)) / (a)) static void I420TestRotate(int src_width, int src_height, int dst_width, int dst_height, libyuv::RotationMode mode, int benchmark_iterations, int disable_cpu_flags, int benchmark_cpu_info) { if (src_width < 1) { src_width = 1; } if (src_height == 0) { src_height = 1; } if (dst_width < 1) { dst_width = 1; } if (dst_height < 1) { dst_height = 1; } int src_i420_y_size = src_width * Abs(src_height); int src_i420_uv_size = ((src_width + 1) / 2) * ((Abs(src_height) + 1) / 2); int src_i420_size = src_i420_y_size + src_i420_uv_size * 2; align_buffer_page_end(src_i420, src_i420_size); for (int i = 0; i < src_i420_size; ++i) { src_i420[i] = fastrand() & 0xff; } int dst_i420_y_size = dst_width * dst_height; int dst_i420_uv_size = ((dst_width + 1) / 2) * ((dst_height + 1) / 2); int dst_i420_size = dst_i420_y_size + dst_i420_uv_size * 2; align_buffer_page_end(dst_i420_c, dst_i420_size); align_buffer_page_end(dst_i420_opt, dst_i420_size); memset(dst_i420_c, 2, dst_i420_size); memset(dst_i420_opt, 3, dst_i420_size); MaskCpuFlags(disable_cpu_flags); // Disable all CPU optimization. I420Rotate(src_i420, src_width, src_i420 + src_i420_y_size, (src_width + 1) / 2, src_i420 + src_i420_y_size + src_i420_uv_size, (src_width + 1) / 2, dst_i420_c, dst_width, dst_i420_c + dst_i420_y_size, (dst_width + 1) / 2, dst_i420_c + dst_i420_y_size + dst_i420_uv_size, (dst_width + 1) / 2, src_width, src_height, mode); MaskCpuFlags(benchmark_cpu_info); // Enable all CPU optimization. for (int i = 0; i < benchmark_iterations; ++i) { I420Rotate( src_i420, src_width, src_i420 + src_i420_y_size, (src_width + 1) / 2, src_i420 + src_i420_y_size + src_i420_uv_size, (src_width + 1) / 2, dst_i420_opt, dst_width, dst_i420_opt + dst_i420_y_size, (dst_width + 1) / 2, dst_i420_opt + dst_i420_y_size + dst_i420_uv_size, (dst_width + 1) / 2, src_width, src_height, mode); } // Rotation should be exact. for (int i = 0; i < dst_i420_size; ++i) { EXPECT_EQ(dst_i420_c[i], dst_i420_opt[i]); } free_aligned_buffer_page_end(dst_i420_c); free_aligned_buffer_page_end(dst_i420_opt); free_aligned_buffer_page_end(src_i420); } TEST_F(LibYUVRotateTest, I420Rotate0_Opt) { I420TestRotate(benchmark_width_, benchmark_height_, benchmark_width_, benchmark_height_, kRotate0, benchmark_iterations_, disable_cpu_flags_, benchmark_cpu_info_); } TEST_F(LibYUVRotateTest, I420Rotate90_Opt) { I420TestRotate(benchmark_width_, benchmark_height_, benchmark_height_, benchmark_width_, kRotate90, benchmark_iterations_, disable_cpu_flags_, benchmark_cpu_info_); } TEST_F(LibYUVRotateTest, I420Rotate180_Opt) { I420TestRotate(benchmark_width_, benchmark_height_, benchmark_width_, benchmark_height_, kRotate180, benchmark_iterations_, disable_cpu_flags_, benchmark_cpu_info_); } TEST_F(LibYUVRotateTest, I420Rotate270_Opt) { I420TestRotate(benchmark_width_, benchmark_height_, benchmark_height_, benchmark_width_, kRotate270, benchmark_iterations_, disable_cpu_flags_, benchmark_cpu_info_); } // TODO(fbarchard): Remove odd width tests. // Odd width tests work but disabled because they use C code and can be // tested by passing an odd width command line or environment variable. TEST_F(LibYUVRotateTest, DISABLED_I420Rotate0_Odd) { I420TestRotate(benchmark_width_ + 1, benchmark_height_ + 1, benchmark_width_ + 1, benchmark_height_ + 1, kRotate0, benchmark_iterations_, disable_cpu_flags_, benchmark_cpu_info_); } TEST_F(LibYUVRotateTest, DISABLED_I420Rotate90_Odd) { I420TestRotate(benchmark_width_ + 1, benchmark_height_ + 1, benchmark_height_ + 1, benchmark_width_ + 1, kRotate90, benchmark_iterations_, disable_cpu_flags_, benchmark_cpu_info_); } TEST_F(LibYUVRotateTest, DISABLED_I420Rotate180_Odd) { I420TestRotate(benchmark_width_ + 1, benchmark_height_ + 1, benchmark_width_ + 1, benchmark_height_ + 1, kRotate180, benchmark_iterations_, disable_cpu_flags_, benchmark_cpu_info_); } TEST_F(LibYUVRotateTest, DISABLED_I420Rotate270_Odd) { I420TestRotate(benchmark_width_ + 1, benchmark_height_ + 1, benchmark_height_ + 1, benchmark_width_ + 1, kRotate270, benchmark_iterations_, disable_cpu_flags_, benchmark_cpu_info_); } static void I422TestRotate(int src_width, int src_height, int dst_width, int dst_height, libyuv::RotationMode mode, int benchmark_iterations, int disable_cpu_flags, int benchmark_cpu_info) { if (src_width < 1) { src_width = 1; } if (src_height == 0) { src_height = 1; } if (dst_width < 1) { dst_width = 1; } if (dst_height < 1) { dst_height = 1; } int src_i422_y_size = src_width * Abs(src_height); int src_i422_uv_size = ((src_width + 1) / 2) * Abs(src_height); int src_i422_size = src_i422_y_size + src_i422_uv_size * 2; align_buffer_page_end(src_i422, src_i422_size); for (int i = 0; i < src_i422_size; ++i) { src_i422[i] = fastrand() & 0xff; } int dst_i422_y_size = dst_width * dst_height; int dst_i422_uv_size = ((dst_width + 1) / 2) * dst_height; int dst_i422_size = dst_i422_y_size + dst_i422_uv_size * 2; align_buffer_page_end(dst_i422_c, dst_i422_size); align_buffer_page_end(dst_i422_opt, dst_i422_size); memset(dst_i422_c, 2, dst_i422_size); memset(dst_i422_opt, 3, dst_i422_size); MaskCpuFlags(disable_cpu_flags); // Disable all CPU optimization. I422Rotate(src_i422, src_width, src_i422 + src_i422_y_size, (src_width + 1) / 2, src_i422 + src_i422_y_size + src_i422_uv_size, (src_width + 1) / 2, dst_i422_c, dst_width, dst_i422_c + dst_i422_y_size, (dst_width + 1) / 2, dst_i422_c + dst_i422_y_size + dst_i422_uv_size, (dst_width + 1) / 2, src_width, src_height, mode); MaskCpuFlags(benchmark_cpu_info); // Enable all CPU optimization. for (int i = 0; i < benchmark_iterations; ++i) { I422Rotate( src_i422, src_width, src_i422 + src_i422_y_size, (src_width + 1) / 2, src_i422 + src_i422_y_size + src_i422_uv_size, (src_width + 1) / 2, dst_i422_opt, dst_width, dst_i422_opt + dst_i422_y_size, (dst_width + 1) / 2, dst_i422_opt + dst_i422_y_size + dst_i422_uv_size, (dst_width + 1) / 2, src_width, src_height, mode); } // Rotation should be exact. for (int i = 0; i < dst_i422_size; ++i) { EXPECT_EQ(dst_i422_c[i], dst_i422_opt[i]); } free_aligned_buffer_page_end(dst_i422_c); free_aligned_buffer_page_end(dst_i422_opt); free_aligned_buffer_page_end(src_i422); } TEST_F(LibYUVRotateTest, I422Rotate0_Opt) { I422TestRotate(benchmark_width_, benchmark_height_, benchmark_width_, benchmark_height_, kRotate0, benchmark_iterations_, disable_cpu_flags_, benchmark_cpu_info_); } TEST_F(LibYUVRotateTest, I422Rotate90_Opt) { I422TestRotate(benchmark_width_, benchmark_height_, benchmark_height_, benchmark_width_, kRotate90, benchmark_iterations_, disable_cpu_flags_, benchmark_cpu_info_); } TEST_F(LibYUVRotateTest, I422Rotate180_Opt) { I422TestRotate(benchmark_width_, benchmark_height_, benchmark_width_, benchmark_height_, kRotate180, benchmark_iterations_, disable_cpu_flags_, benchmark_cpu_info_); } TEST_F(LibYUVRotateTest, I422Rotate270_Opt) { I422TestRotate(benchmark_width_, benchmark_height_, benchmark_height_, benchmark_width_, kRotate270, benchmark_iterations_, disable_cpu_flags_, benchmark_cpu_info_); } static void I444TestRotate(int src_width, int src_height, int dst_width, int dst_height, libyuv::RotationMode mode, int benchmark_iterations, int disable_cpu_flags, int benchmark_cpu_info) { if (src_width < 1) { src_width = 1; } if (src_height == 0) { src_height = 1; } if (dst_width < 1) { dst_width = 1; } if (dst_height < 1) { dst_height = 1; } int src_i444_y_size = src_width * Abs(src_height); int src_i444_uv_size = src_width * Abs(src_height); int src_i444_size = src_i444_y_size + src_i444_uv_size * 2; align_buffer_page_end(src_i444, src_i444_size); for (int i = 0; i < src_i444_size; ++i) { src_i444[i] = fastrand() & 0xff; } int dst_i444_y_size = dst_width * dst_height; int dst_i444_uv_size = dst_width * dst_height; int dst_i444_size = dst_i444_y_size + dst_i444_uv_size * 2; align_buffer_page_end(dst_i444_c, dst_i444_size); align_buffer_page_end(dst_i444_opt, dst_i444_size); memset(dst_i444_c, 2, dst_i444_size); memset(dst_i444_opt, 3, dst_i444_size); MaskCpuFlags(disable_cpu_flags); // Disable all CPU optimization. I444Rotate(src_i444, src_width, src_i444 + src_i444_y_size, src_width, src_i444 + src_i444_y_size + src_i444_uv_size, src_width, dst_i444_c, dst_width, dst_i444_c + dst_i444_y_size, dst_width, dst_i444_c + dst_i444_y_size + dst_i444_uv_size, dst_width, src_width, src_height, mode); MaskCpuFlags(benchmark_cpu_info); // Enable all CPU optimization. for (int i = 0; i < benchmark_iterations; ++i) { I444Rotate(src_i444, src_width, src_i444 + src_i444_y_size, src_width, src_i444 + src_i444_y_size + src_i444_uv_size, src_width, dst_i444_opt, dst_width, dst_i444_opt + dst_i444_y_size, dst_width, dst_i444_opt + dst_i444_y_size + dst_i444_uv_size, dst_width, src_width, src_height, mode); } // Rotation should be exact. for (int i = 0; i < dst_i444_size; ++i) { EXPECT_EQ(dst_i444_c[i], dst_i444_opt[i]); } free_aligned_buffer_page_end(dst_i444_c); free_aligned_buffer_page_end(dst_i444_opt); free_aligned_buffer_page_end(src_i444); } TEST_F(LibYUVRotateTest, I444Rotate0_Opt) { I444TestRotate(benchmark_width_, benchmark_height_, benchmark_width_, benchmark_height_, kRotate0, benchmark_iterations_, disable_cpu_flags_, benchmark_cpu_info_); } TEST_F(LibYUVRotateTest, I444Rotate90_Opt) { I444TestRotate(benchmark_width_, benchmark_height_, benchmark_height_, benchmark_width_, kRotate90, benchmark_iterations_, disable_cpu_flags_, benchmark_cpu_info_); } TEST_F(LibYUVRotateTest, I444Rotate180_Opt) { I444TestRotate(benchmark_width_, benchmark_height_, benchmark_width_, benchmark_height_, kRotate180, benchmark_iterations_, disable_cpu_flags_, benchmark_cpu_info_); } TEST_F(LibYUVRotateTest, I444Rotate270_Opt) { I444TestRotate(benchmark_width_, benchmark_height_, benchmark_height_, benchmark_width_, kRotate270, benchmark_iterations_, disable_cpu_flags_, benchmark_cpu_info_); } // TODO(fbarchard): Remove odd width tests. // Odd width tests work but disabled because they use C code and can be // tested by passing an odd width command line or environment variable. TEST_F(LibYUVRotateTest, DISABLED_I444Rotate0_Odd) { I444TestRotate(benchmark_width_ + 1, benchmark_height_ + 1, benchmark_width_ + 1, benchmark_height_ + 1, kRotate0, benchmark_iterations_, disable_cpu_flags_, benchmark_cpu_info_); } TEST_F(LibYUVRotateTest, DISABLED_I444Rotate90_Odd) { I444TestRotate(benchmark_width_ + 1, benchmark_height_ + 1, benchmark_height_ + 1, benchmark_width_ + 1, kRotate90, benchmark_iterations_, disable_cpu_flags_, benchmark_cpu_info_); } TEST_F(LibYUVRotateTest, DISABLED_I444Rotate180_Odd) { I444TestRotate(benchmark_width_ + 1, benchmark_height_ + 1, benchmark_width_ + 1, benchmark_height_ + 1, kRotate180, benchmark_iterations_, disable_cpu_flags_, benchmark_cpu_info_); } TEST_F(LibYUVRotateTest, DISABLED_I444Rotate270_Odd) { I444TestRotate(benchmark_width_ + 1, benchmark_height_ + 1, benchmark_height_ + 1, benchmark_width_ + 1, kRotate270, benchmark_iterations_, disable_cpu_flags_, benchmark_cpu_info_); } static void NV12TestRotate(int src_width, int src_height, int dst_width, int dst_height, libyuv::RotationMode mode, int benchmark_iterations, int disable_cpu_flags, int benchmark_cpu_info) { if (src_width < 1) { src_width = 1; } if (src_height == 0) { // allow negative for inversion test. src_height = 1; } if (dst_width < 1) { dst_width = 1; } if (dst_height < 1) { dst_height = 1; } int src_nv12_y_size = src_width * Abs(src_height); int src_nv12_uv_size = ((src_width + 1) / 2) * ((Abs(src_height) + 1) / 2) * 2; int src_nv12_size = src_nv12_y_size + src_nv12_uv_size; align_buffer_page_end(src_nv12, src_nv12_size); for (int i = 0; i < src_nv12_size; ++i) { src_nv12[i] = fastrand() & 0xff; } int dst_i420_y_size = dst_width * dst_height; int dst_i420_uv_size = ((dst_width + 1) / 2) * ((dst_height + 1) / 2); int dst_i420_size = dst_i420_y_size + dst_i420_uv_size * 2; align_buffer_page_end(dst_i420_c, dst_i420_size); align_buffer_page_end(dst_i420_opt, dst_i420_size); memset(dst_i420_c, 2, dst_i420_size); memset(dst_i420_opt, 3, dst_i420_size); MaskCpuFlags(disable_cpu_flags); // Disable all CPU optimization. NV12ToI420Rotate(src_nv12, src_width, src_nv12 + src_nv12_y_size, (src_width + 1) & ~1, dst_i420_c, dst_width, dst_i420_c + dst_i420_y_size, (dst_width + 1) / 2, dst_i420_c + dst_i420_y_size + dst_i420_uv_size, (dst_width + 1) / 2, src_width, src_height, mode); MaskCpuFlags(benchmark_cpu_info); // Enable all CPU optimization. for (int i = 0; i < benchmark_iterations; ++i) { NV12ToI420Rotate(src_nv12, src_width, src_nv12 + src_nv12_y_size, (src_width + 1) & ~1, dst_i420_opt, dst_width, dst_i420_opt + dst_i420_y_size, (dst_width + 1) / 2, dst_i420_opt + dst_i420_y_size + dst_i420_uv_size, (dst_width + 1) / 2, src_width, src_height, mode); } // Rotation should be exact. for (int i = 0; i < dst_i420_size; ++i) { EXPECT_EQ(dst_i420_c[i], dst_i420_opt[i]); } free_aligned_buffer_page_end(dst_i420_c); free_aligned_buffer_page_end(dst_i420_opt); free_aligned_buffer_page_end(src_nv12); } TEST_F(LibYUVRotateTest, NV12Rotate0_Opt) { NV12TestRotate(benchmark_width_, benchmark_height_, benchmark_width_, benchmark_height_, kRotate0, benchmark_iterations_, disable_cpu_flags_, benchmark_cpu_info_); } TEST_F(LibYUVRotateTest, NV12Rotate90_Opt) { NV12TestRotate(benchmark_width_, benchmark_height_, benchmark_height_, benchmark_width_, kRotate90, benchmark_iterations_, disable_cpu_flags_, benchmark_cpu_info_); } TEST_F(LibYUVRotateTest, NV12Rotate180_Opt) { NV12TestRotate(benchmark_width_, benchmark_height_, benchmark_width_, benchmark_height_, kRotate180, benchmark_iterations_, disable_cpu_flags_, benchmark_cpu_info_); } TEST_F(LibYUVRotateTest, NV12Rotate270_Opt) { NV12TestRotate(benchmark_width_, benchmark_height_, benchmark_height_, benchmark_width_, kRotate270, benchmark_iterations_, disable_cpu_flags_, benchmark_cpu_info_); } TEST_F(LibYUVRotateTest, DISABLED_NV12Rotate0_Odd) { NV12TestRotate(benchmark_width_ + 1, benchmark_height_ + 1, benchmark_width_ + 1, benchmark_height_ + 1, kRotate0, benchmark_iterations_, disable_cpu_flags_, benchmark_cpu_info_); } TEST_F(LibYUVRotateTest, DISABLED_NV12Rotate90_Odd) { NV12TestRotate(benchmark_width_ + 1, benchmark_height_ + 1, benchmark_height_ + 1, benchmark_width_ + 1, kRotate90, benchmark_iterations_, disable_cpu_flags_, benchmark_cpu_info_); } TEST_F(LibYUVRotateTest, DISABLED_NV12Rotate180_Odd) { NV12TestRotate(benchmark_width_ + 1, benchmark_height_ + 1, benchmark_width_ + 1, benchmark_height_ + 1, kRotate180, benchmark_iterations_, disable_cpu_flags_, benchmark_cpu_info_); } TEST_F(LibYUVRotateTest, DISABLED_NV12Rotate270_Odd) { NV12TestRotate(benchmark_width_ + 1, benchmark_height_ + 1, benchmark_height_ + 1, benchmark_width_ + 1, kRotate270, benchmark_iterations_, disable_cpu_flags_, benchmark_cpu_info_); } TEST_F(LibYUVRotateTest, NV12Rotate0_Invert) { NV12TestRotate(benchmark_width_, -benchmark_height_, benchmark_width_, benchmark_height_, kRotate0, benchmark_iterations_, disable_cpu_flags_, benchmark_cpu_info_); } TEST_F(LibYUVRotateTest, NV12Rotate90_Invert) { NV12TestRotate(benchmark_width_, -benchmark_height_, benchmark_height_, benchmark_width_, kRotate90, benchmark_iterations_, disable_cpu_flags_, benchmark_cpu_info_); } TEST_F(LibYUVRotateTest, NV12Rotate180_Invert) { NV12TestRotate(benchmark_width_, -benchmark_height_, benchmark_width_, benchmark_height_, kRotate180, benchmark_iterations_, disable_cpu_flags_, benchmark_cpu_info_); } TEST_F(LibYUVRotateTest, NV12Rotate270_Invert) { NV12TestRotate(benchmark_width_, -benchmark_height_, benchmark_height_, benchmark_width_, kRotate270, benchmark_iterations_, disable_cpu_flags_, benchmark_cpu_info_); } // Test Android 420 to I420 Rotate #define TESTAPLANARTOPI(SRC_FMT_PLANAR, PIXEL_STRIDE, SRC_SUBSAMP_X, \ SRC_SUBSAMP_Y, FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y, \ W1280, N, NEG, OFF, PN, OFF_U, OFF_V, ROT) \ TEST_F(LibYUVRotateTest, \ SRC_FMT_PLANAR##To##FMT_PLANAR##Rotate##ROT##To##PN##N) { \ const int kWidth = W1280; \ const int kHeight = benchmark_height_; \ const int kSizeUV = \ SUBSAMPLE(kWidth, SRC_SUBSAMP_X) * SUBSAMPLE(kHeight, SRC_SUBSAMP_Y); \ align_buffer_page_end(src_y, kWidth* kHeight + OFF); \ align_buffer_page_end(src_uv, \ kSizeUV*((PIXEL_STRIDE == 3) ? 3 : 2) + OFF); \ align_buffer_page_end(dst_y_c, kWidth* kHeight); \ align_buffer_page_end(dst_u_c, SUBSAMPLE(kWidth, SUBSAMP_X) * \ SUBSAMPLE(kHeight, SUBSAMP_Y)); \ align_buffer_page_end(dst_v_c, SUBSAMPLE(kWidth, SUBSAMP_X) * \ SUBSAMPLE(kHeight, SUBSAMP_Y)); \ align_buffer_page_end(dst_y_opt, kWidth* kHeight); \ align_buffer_page_end(dst_u_opt, SUBSAMPLE(kWidth, SUBSAMP_X) * \ SUBSAMPLE(kHeight, SUBSAMP_Y)); \ align_buffer_page_end(dst_v_opt, SUBSAMPLE(kWidth, SUBSAMP_X) * \ SUBSAMPLE(kHeight, SUBSAMP_Y)); \ uint8_t* src_u = src_uv + OFF_U; \ uint8_t* src_v = src_uv + (PIXEL_STRIDE == 1 ? kSizeUV : OFF_V); \ int src_stride_uv = SUBSAMPLE(kWidth, SUBSAMP_X) * PIXEL_STRIDE; \ for (int i = 0; i < kHeight; ++i) \ for (int j = 0; j < kWidth; ++j) \ src_y[i * kWidth + j + OFF] = (fastrand() & 0xff); \ for (int i = 0; i < SUBSAMPLE(kHeight, SRC_SUBSAMP_Y); ++i) { \ for (int j = 0; j < SUBSAMPLE(kWidth, SRC_SUBSAMP_X); ++j) { \ src_u[(i * src_stride_uv) + j * PIXEL_STRIDE + OFF] = \ (fastrand() & 0xff); \ src_v[(i * src_stride_uv) + j * PIXEL_STRIDE + OFF] = \ (fastrand() & 0xff); \ } \ } \ memset(dst_y_c, 1, kWidth* kHeight); \ memset(dst_u_c, 2, \ SUBSAMPLE(kWidth, SUBSAMP_X) * SUBSAMPLE(kHeight, SUBSAMP_Y)); \ memset(dst_v_c, 3, \ SUBSAMPLE(kWidth, SUBSAMP_X) * SUBSAMPLE(kHeight, SUBSAMP_Y)); \ memset(dst_y_opt, 101, kWidth* kHeight); \ memset(dst_u_opt, 102, \ SUBSAMPLE(kWidth, SUBSAMP_X) * SUBSAMPLE(kHeight, SUBSAMP_Y)); \ memset(dst_v_opt, 103, \ SUBSAMPLE(kWidth, SUBSAMP_X) * SUBSAMPLE(kHeight, SUBSAMP_Y)); \ MaskCpuFlags(disable_cpu_flags_); \ SRC_FMT_PLANAR##To##FMT_PLANAR##Rotate( \ src_y + OFF, kWidth, src_u + OFF, SUBSAMPLE(kWidth, SRC_SUBSAMP_X), \ src_v + OFF, SUBSAMPLE(kWidth, SRC_SUBSAMP_X), PIXEL_STRIDE, dst_y_c, \ kWidth, dst_u_c, SUBSAMPLE(kWidth, SUBSAMP_X), dst_v_c, \ SUBSAMPLE(kWidth, SUBSAMP_X), kWidth, NEG kHeight, \ (libyuv::RotationMode)ROT); \ MaskCpuFlags(benchmark_cpu_info_); \ for (int i = 0; i < benchmark_iterations_; ++i) { \ SRC_FMT_PLANAR##To##FMT_PLANAR##Rotate( \ src_y + OFF, kWidth, src_u + OFF, SUBSAMPLE(kWidth, SRC_SUBSAMP_X), \ src_v + OFF, SUBSAMPLE(kWidth, SRC_SUBSAMP_X), PIXEL_STRIDE, \ dst_y_opt, kWidth, dst_u_opt, SUBSAMPLE(kWidth, SUBSAMP_X), \ dst_v_opt, SUBSAMPLE(kWidth, SUBSAMP_X), kWidth, NEG kHeight, \ (libyuv::RotationMode)ROT); \ } \ for (int i = 0; i < kHeight; ++i) { \ for (int j = 0; j < kWidth; ++j) { \ EXPECT_EQ(dst_y_c[i * kWidth + j], dst_y_opt[i * kWidth + j]); \ } \ } \ for (int i = 0; i < SUBSAMPLE(kHeight, SUBSAMP_Y); ++i) { \ for (int j = 0; j < SUBSAMPLE(kWidth, SUBSAMP_X); ++j) { \ EXPECT_EQ(dst_u_c[i * SUBSAMPLE(kWidth, SUBSAMP_X) + j], \ dst_u_opt[i * SUBSAMPLE(kWidth, SUBSAMP_X) + j]); \ } \ } \ for (int i = 0; i < SUBSAMPLE(kHeight, SUBSAMP_Y); ++i) { \ for (int j = 0; j < SUBSAMPLE(kWidth, SUBSAMP_X); ++j) { \ EXPECT_EQ(dst_v_c[i * SUBSAMPLE(kWidth, SUBSAMP_X) + j], \ dst_v_opt[i * SUBSAMPLE(kWidth, SUBSAMP_X) + j]); \ } \ } \ free_aligned_buffer_page_end(dst_y_c); \ free_aligned_buffer_page_end(dst_u_c); \ free_aligned_buffer_page_end(dst_v_c); \ free_aligned_buffer_page_end(dst_y_opt); \ free_aligned_buffer_page_end(dst_u_opt); \ free_aligned_buffer_page_end(dst_v_opt); \ free_aligned_buffer_page_end(src_y); \ free_aligned_buffer_page_end(src_uv); \ } #define TESTAPLANARTOP(SRC_FMT_PLANAR, PN, PIXEL_STRIDE, OFF_U, OFF_V, \ SRC_SUBSAMP_X, SRC_SUBSAMP_Y, FMT_PLANAR, SUBSAMP_X, \ SUBSAMP_Y) \ TESTAPLANARTOPI(SRC_FMT_PLANAR, PIXEL_STRIDE, SRC_SUBSAMP_X, SRC_SUBSAMP_Y, \ FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y, benchmark_width_ + 1, \ _Any, +, 0, PN, OFF_U, OFF_V, 0) \ TESTAPLANARTOPI(SRC_FMT_PLANAR, PIXEL_STRIDE, SRC_SUBSAMP_X, SRC_SUBSAMP_Y, \ FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y, benchmark_width_, \ _Unaligned, +, 2, PN, OFF_U, OFF_V, 0) \ TESTAPLANARTOPI(SRC_FMT_PLANAR, PIXEL_STRIDE, SRC_SUBSAMP_X, SRC_SUBSAMP_Y, \ FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y, benchmark_width_, _Invert, \ -, 0, PN, OFF_U, OFF_V, 0) \ TESTAPLANARTOPI(SRC_FMT_PLANAR, PIXEL_STRIDE, SRC_SUBSAMP_X, SRC_SUBSAMP_Y, \ FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y, benchmark_width_, _Opt, +, \ 0, PN, OFF_U, OFF_V, 0) \ TESTAPLANARTOPI(SRC_FMT_PLANAR, PIXEL_STRIDE, SRC_SUBSAMP_X, SRC_SUBSAMP_Y, \ FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y, benchmark_width_, _Opt, +, \ 0, PN, OFF_U, OFF_V, 180) TESTAPLANARTOP(Android420, I420, 1, 0, 0, 2, 2, I420, 2, 2) TESTAPLANARTOP(Android420, NV12, 2, 0, 1, 2, 2, I420, 2, 2) TESTAPLANARTOP(Android420, NV21, 2, 1, 0, 2, 2, I420, 2, 2) #undef TESTAPLANARTOP #undef TESTAPLANARTOPI static void I010TestRotate(int src_width, int src_height, int dst_width, int dst_height, libyuv::RotationMode mode, int benchmark_iterations, int disable_cpu_flags, int benchmark_cpu_info) { if (src_width < 1) { src_width = 1; } if (src_height == 0) { src_height = 1; } if (dst_width < 1) { dst_width = 1; } if (dst_height < 1) { dst_height = 1; } int src_i010_y_size = src_width * Abs(src_height); int src_i010_uv_size = ((src_width + 1) / 2) * ((Abs(src_height) + 1) / 2); int src_i010_size = src_i010_y_size + src_i010_uv_size * 2; align_buffer_page_end_16(src_i010, src_i010_size); for (int i = 0; i < src_i010_size; ++i) { src_i010[i] = fastrand() & 0x3ff; } int dst_i010_y_size = dst_width * dst_height; int dst_i010_uv_size = ((dst_width + 1) / 2) * ((dst_height + 1) / 2); int dst_i010_size = dst_i010_y_size + dst_i010_uv_size * 2; align_buffer_page_end_16(dst_i010_c, dst_i010_size); align_buffer_page_end_16(dst_i010_opt, dst_i010_size); memset(dst_i010_c, 2, dst_i010_size * 2); memset(dst_i010_opt, 3, dst_i010_size * 2); MaskCpuFlags(disable_cpu_flags); // Disable all CPU optimization. I010Rotate(src_i010, src_width, src_i010 + src_i010_y_size, (src_width + 1) / 2, src_i010 + src_i010_y_size + src_i010_uv_size, (src_width + 1) / 2, dst_i010_c, dst_width, dst_i010_c + dst_i010_y_size, (dst_width + 1) / 2, dst_i010_c + dst_i010_y_size + dst_i010_uv_size, (dst_width + 1) / 2, src_width, src_height, mode); MaskCpuFlags(benchmark_cpu_info); // Enable all CPU optimization. for (int i = 0; i < benchmark_iterations; ++i) { I010Rotate( src_i010, src_width, src_i010 + src_i010_y_size, (src_width + 1) / 2, src_i010 + src_i010_y_size + src_i010_uv_size, (src_width + 1) / 2, dst_i010_opt, dst_width, dst_i010_opt + dst_i010_y_size, (dst_width + 1) / 2, dst_i010_opt + dst_i010_y_size + dst_i010_uv_size, (dst_width + 1) / 2, src_width, src_height, mode); } // Rotation should be exact. for (int i = 0; i < dst_i010_size; ++i) { EXPECT_EQ(dst_i010_c[i], dst_i010_opt[i]); } free_aligned_buffer_page_end_16(dst_i010_c); free_aligned_buffer_page_end_16(dst_i010_opt); free_aligned_buffer_page_end_16(src_i010); } TEST_F(LibYUVRotateTest, I010Rotate0_Opt) { I010TestRotate(benchmark_width_, benchmark_height_, benchmark_width_, benchmark_height_, kRotate0, benchmark_iterations_, disable_cpu_flags_, benchmark_cpu_info_); } TEST_F(LibYUVRotateTest, I010Rotate90_Opt) { I010TestRotate(benchmark_width_, benchmark_height_, benchmark_height_, benchmark_width_, kRotate90, benchmark_iterations_, disable_cpu_flags_, benchmark_cpu_info_); } TEST_F(LibYUVRotateTest, I010Rotate180_Opt) { I010TestRotate(benchmark_width_, benchmark_height_, benchmark_width_, benchmark_height_, kRotate180, benchmark_iterations_, disable_cpu_flags_, benchmark_cpu_info_); } TEST_F(LibYUVRotateTest, I010Rotate270_Opt) { I010TestRotate(benchmark_width_, benchmark_height_, benchmark_height_, benchmark_width_, kRotate270, benchmark_iterations_, disable_cpu_flags_, benchmark_cpu_info_); } static void I210TestRotate(int src_width, int src_height, int dst_width, int dst_height, libyuv::RotationMode mode, int benchmark_iterations, int disable_cpu_flags, int benchmark_cpu_info) { if (src_width < 1) { src_width = 1; } if (src_height == 0) { src_height = 1; } if (dst_width < 1) { dst_width = 1; } if (dst_height < 1) { dst_height = 1; } int src_i210_y_size = src_width * Abs(src_height); int src_i210_uv_size = ((src_width + 1) / 2) * Abs(src_height); int src_i210_size = src_i210_y_size + src_i210_uv_size * 2; align_buffer_page_end_16(src_i210, src_i210_size); for (int i = 0; i < src_i210_size; ++i) { src_i210[i] = fastrand() & 0x3ff; } int dst_i210_y_size = dst_width * dst_height; int dst_i210_uv_size = ((dst_width + 1) / 2) * dst_height; int dst_i210_size = dst_i210_y_size + dst_i210_uv_size * 2; align_buffer_page_end_16(dst_i210_c, dst_i210_size); align_buffer_page_end_16(dst_i210_opt, dst_i210_size); memset(dst_i210_c, 2, dst_i210_size * 2); memset(dst_i210_opt, 3, dst_i210_size * 2); MaskCpuFlags(disable_cpu_flags); // Disable all CPU optimization. I210Rotate(src_i210, src_width, src_i210 + src_i210_y_size, (src_width + 1) / 2, src_i210 + src_i210_y_size + src_i210_uv_size, (src_width + 1) / 2, dst_i210_c, dst_width, dst_i210_c + dst_i210_y_size, (dst_width + 1) / 2, dst_i210_c + dst_i210_y_size + dst_i210_uv_size, (dst_width + 1) / 2, src_width, src_height, mode); MaskCpuFlags(benchmark_cpu_info); // Enable all CPU optimization. for (int i = 0; i < benchmark_iterations; ++i) { I210Rotate( src_i210, src_width, src_i210 + src_i210_y_size, (src_width + 1) / 2, src_i210 + src_i210_y_size + src_i210_uv_size, (src_width + 1) / 2, dst_i210_opt, dst_width, dst_i210_opt + dst_i210_y_size, (dst_width + 1) / 2, dst_i210_opt + dst_i210_y_size + dst_i210_uv_size, (dst_width + 1) / 2, src_width, src_height, mode); } // Rotation should be exact. for (int i = 0; i < dst_i210_size; ++i) { EXPECT_EQ(dst_i210_c[i], dst_i210_opt[i]); } free_aligned_buffer_page_end_16(dst_i210_c); free_aligned_buffer_page_end_16(dst_i210_opt); free_aligned_buffer_page_end_16(src_i210); } TEST_F(LibYUVRotateTest, I210Rotate0_Opt) { I210TestRotate(benchmark_width_, benchmark_height_, benchmark_width_, benchmark_height_, kRotate0, benchmark_iterations_, disable_cpu_flags_, benchmark_cpu_info_); } TEST_F(LibYUVRotateTest, I210Rotate90_Opt) { I210TestRotate(benchmark_width_, benchmark_height_, benchmark_height_, benchmark_width_, kRotate90, benchmark_iterations_, disable_cpu_flags_, benchmark_cpu_info_); } TEST_F(LibYUVRotateTest, I210Rotate180_Opt) { I210TestRotate(benchmark_width_, benchmark_height_, benchmark_width_, benchmark_height_, kRotate180, benchmark_iterations_, disable_cpu_flags_, benchmark_cpu_info_); } TEST_F(LibYUVRotateTest, I210Rotate270_Opt) { I210TestRotate(benchmark_width_, benchmark_height_, benchmark_height_, benchmark_width_, kRotate270, benchmark_iterations_, disable_cpu_flags_, benchmark_cpu_info_); } static void I410TestRotate(int src_width, int src_height, int dst_width, int dst_height, libyuv::RotationMode mode, int benchmark_iterations, int disable_cpu_flags, int benchmark_cpu_info) { if (src_width < 1) { src_width = 1; } if (src_height == 0) { src_height = 1; } if (dst_width < 1) { dst_width = 1; } if (dst_height < 1) { dst_height = 1; } int src_i410_y_size = src_width * Abs(src_height); int src_i410_uv_size = src_width * Abs(src_height); int src_i410_size = src_i410_y_size + src_i410_uv_size * 2; align_buffer_page_end_16(src_i410, src_i410_size); for (int i = 0; i < src_i410_size; ++i) { src_i410[i] = fastrand() & 0x3ff; } int dst_i410_y_size = dst_width * dst_height; int dst_i410_uv_size = dst_width * dst_height; int dst_i410_size = dst_i410_y_size + dst_i410_uv_size * 2; align_buffer_page_end_16(dst_i410_c, dst_i410_size); align_buffer_page_end_16(dst_i410_opt, dst_i410_size); memset(dst_i410_c, 2, dst_i410_size * 2); memset(dst_i410_opt, 3, dst_i410_size * 2); MaskCpuFlags(disable_cpu_flags); // Disable all CPU optimization. I410Rotate(src_i410, src_width, src_i410 + src_i410_y_size, src_width, src_i410 + src_i410_y_size + src_i410_uv_size, src_width, dst_i410_c, dst_width, dst_i410_c + dst_i410_y_size, dst_width, dst_i410_c + dst_i410_y_size + dst_i410_uv_size, dst_width, src_width, src_height, mode); MaskCpuFlags(benchmark_cpu_info); // Enable all CPU optimization. for (int i = 0; i < benchmark_iterations; ++i) { I410Rotate(src_i410, src_width, src_i410 + src_i410_y_size, src_width, src_i410 + src_i410_y_size + src_i410_uv_size, src_width, dst_i410_opt, dst_width, dst_i410_opt + dst_i410_y_size, dst_width, dst_i410_opt + dst_i410_y_size + dst_i410_uv_size, dst_width, src_width, src_height, mode); } // Rotation should be exact. for (int i = 0; i < dst_i410_size; ++i) { EXPECT_EQ(dst_i410_c[i], dst_i410_opt[i]); } free_aligned_buffer_page_end_16(dst_i410_c); free_aligned_buffer_page_end_16(dst_i410_opt); free_aligned_buffer_page_end_16(src_i410); } TEST_F(LibYUVRotateTest, I410Rotate0_Opt) { I410TestRotate(benchmark_width_, benchmark_height_, benchmark_width_, benchmark_height_, kRotate0, benchmark_iterations_, disable_cpu_flags_, benchmark_cpu_info_); } TEST_F(LibYUVRotateTest, I410Rotate90_Opt) { I410TestRotate(benchmark_width_, benchmark_height_, benchmark_height_, benchmark_width_, kRotate90, benchmark_iterations_, disable_cpu_flags_, benchmark_cpu_info_); } TEST_F(LibYUVRotateTest, I410Rotate180_Opt) { I410TestRotate(benchmark_width_, benchmark_height_, benchmark_width_, benchmark_height_, kRotate180, benchmark_iterations_, disable_cpu_flags_, benchmark_cpu_info_); } TEST_F(LibYUVRotateTest, I410Rotate270_Opt) { I410TestRotate(benchmark_width_, benchmark_height_, benchmark_height_, benchmark_width_, kRotate270, benchmark_iterations_, disable_cpu_flags_, benchmark_cpu_info_); } #if defined(ENABLE_ROW_TESTS) TEST_F(LibYUVRotateTest, Transpose4x4_Test) { // dst width and height const int width = 4; const int height = 4; int src_pixels[4][4]; int dst_pixels_c[4][4]; int dst_pixels_opt[4][4]; for (int i = 0; i < 4; ++i) { for (int j = 0; j < 4; ++j) { src_pixels[i][j] = i * 10 + j; } } memset(dst_pixels_c, 1, width * height * 4); memset(dst_pixels_opt, 2, width * height * 4); Transpose4x4_32_C((const uint8_t*)src_pixels, height * 4, (uint8_t*)dst_pixels_c, width * 4, width); const int benchmark_iterations = (benchmark_iterations_ * benchmark_width_ * benchmark_height_ + 15) / (4 * 4); for (int i = 0; i < benchmark_iterations; ++i) { #if defined(HAS_TRANSPOSE4X4_32_NEON) if (TestCpuFlag(kCpuHasNEON)) { Transpose4x4_32_NEON((const uint8_t*)src_pixels, height * 4, (uint8_t*)dst_pixels_opt, width * 4, width); } else #elif defined(HAS_TRANSPOSE4X4_32_SSE2) if (TestCpuFlag(kCpuHasSSE2)) { Transpose4x4_32_SSE2((const uint8_t*)src_pixels, height * 4, (uint8_t*)dst_pixels_opt, width * 4, width); } else #endif { Transpose4x4_32_C((const uint8_t*)src_pixels, height * 4, (uint8_t*)dst_pixels_opt, width * 4, width); } } for (int i = 0; i < 4; ++i) { for (int j = 0; j < 4; ++j) { EXPECT_EQ(dst_pixels_c[i][j], src_pixels[j][i]); EXPECT_EQ(dst_pixels_c[i][j], dst_pixels_opt[i][j]); } } } TEST_F(LibYUVRotateTest, Transpose4x4_Opt) { // dst width and height const int width = ((benchmark_width_ * benchmark_height_ + 3) / 4 + 3) & ~3; const int height = 4; align_buffer_page_end(src_pixels, height * width * 4); align_buffer_page_end(dst_pixels_c, width * height * 4); align_buffer_page_end(dst_pixels_opt, width * height * 4); MemRandomize(src_pixels, height * width * 4); memset(dst_pixels_c, 1, width * height * 4); memset(dst_pixels_opt, 2, width * height * 4); Transpose4x4_32_C((const uint8_t*)src_pixels, height * 4, (uint8_t*)dst_pixels_c, width * 4, width); for (int i = 0; i < benchmark_iterations_; ++i) { #if defined(HAS_TRANSPOSE4X4_32_NEON) if (TestCpuFlag(kCpuHasNEON)) { Transpose4x4_32_NEON((const uint8_t*)src_pixels, height * 4, (uint8_t*)dst_pixels_opt, width * 4, width); } else #elif defined(HAS_TRANSPOSE4X4_32_AVX2) if (TestCpuFlag(kCpuHasAVX2)) { Transpose4x4_32_AVX2((const uint8_t*)src_pixels, height * 4, (uint8_t*)dst_pixels_opt, width * 4, width); } else if (TestCpuFlag(kCpuHasSSE2)) { Transpose4x4_32_SSE2((const uint8_t*)src_pixels, height * 4, (uint8_t*)dst_pixels_opt, width * 4, width); } else #endif { Transpose4x4_32_C((const uint8_t*)src_pixels, height * 4, (uint8_t*)dst_pixels_opt, width * 4, width); } } for (int i = 0; i < width * height; ++i) { EXPECT_EQ(dst_pixels_c[i], dst_pixels_opt[i]); } free_aligned_buffer_page_end(src_pixels); free_aligned_buffer_page_end(dst_pixels_c); free_aligned_buffer_page_end(dst_pixels_opt); } #endif // ENABLE_ROW_TESTS } // namespace libyuv
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2026-04-06