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gecko/media/libyuv/unit_test/convert_test.cc
Randell Jesup c5fd234270 Bug 813645 - Move libyuv to media/libyuv r=glandium 
--HG--
rename : media/webrtc/trunk/third_party/libyuv/AUTHORS => media/libyuv/AUTHORS
rename : media/webrtc/trunk/third_party/libyuv/Android.mk => media/libyuv/Android.mk
rename : media/webrtc/trunk/third_party/libyuv/DEPS => media/libyuv/DEPS
rename : media/webrtc/trunk/third_party/libyuv/LICENSE => media/libyuv/LICENSE
rename : media/webrtc/trunk/third_party/libyuv/LICENSE_THIRD_PARTY => media/libyuv/LICENSE_THIRD_PARTY
rename : media/webrtc/trunk/third_party/libyuv/OWNERS => media/libyuv/OWNERS
rename : media/webrtc/trunk/third_party/libyuv/PATENTS => media/libyuv/PATENTS
rename : media/webrtc/trunk/third_party/libyuv/README.chromium => media/libyuv/README.chromium
rename : media/webrtc/trunk/third_party/libyuv/all.gyp => media/libyuv/all.gyp
rename : media/webrtc/trunk/third_party/libyuv/codereview.settings => media/libyuv/codereview.settings
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rename : media/webrtc/trunk/third_party/libyuv/include/libyuv/basic_types.h => media/libyuv/include/libyuv/basic_types.h
rename : media/webrtc/trunk/third_party/libyuv/include/libyuv/compare.h => media/libyuv/include/libyuv/compare.h
rename : media/webrtc/trunk/third_party/libyuv/include/libyuv/convert.h => media/libyuv/include/libyuv/convert.h
rename : media/webrtc/trunk/third_party/libyuv/include/libyuv/convert_argb.h => media/libyuv/include/libyuv/convert_argb.h
rename : media/webrtc/trunk/third_party/libyuv/include/libyuv/convert_from.h => media/libyuv/include/libyuv/convert_from.h
rename : media/webrtc/trunk/third_party/libyuv/include/libyuv/convert_from_argb.h => media/libyuv/include/libyuv/convert_from_argb.h
rename : media/webrtc/trunk/third_party/libyuv/include/libyuv/cpu_id.h => media/libyuv/include/libyuv/cpu_id.h
rename : media/webrtc/trunk/third_party/libyuv/include/libyuv/format_conversion.h => media/libyuv/include/libyuv/format_conversion.h
rename : media/webrtc/trunk/third_party/libyuv/include/libyuv/mjpeg_decoder.h => media/libyuv/include/libyuv/mjpeg_decoder.h
rename : media/webrtc/trunk/third_party/libyuv/include/libyuv/planar_functions.h => media/libyuv/include/libyuv/planar_functions.h
rename : media/webrtc/trunk/third_party/libyuv/include/libyuv/rotate.h => media/libyuv/include/libyuv/rotate.h
rename : media/webrtc/trunk/third_party/libyuv/include/libyuv/rotate_argb.h => media/libyuv/include/libyuv/rotate_argb.h
rename : media/webrtc/trunk/third_party/libyuv/include/libyuv/row.h => media/libyuv/include/libyuv/row.h
rename : media/webrtc/trunk/third_party/libyuv/include/libyuv/scale.h => media/libyuv/include/libyuv/scale.h
rename : media/webrtc/trunk/third_party/libyuv/include/libyuv/scale_argb.h => media/libyuv/include/libyuv/scale_argb.h
rename : media/webrtc/trunk/third_party/libyuv/include/libyuv/scale_row.h => media/libyuv/include/libyuv/scale_row.h
rename : media/webrtc/trunk/third_party/libyuv/include/libyuv/version.h => media/libyuv/include/libyuv/version.h
rename : media/webrtc/trunk/third_party/libyuv/include/libyuv/video_common.h => media/libyuv/include/libyuv/video_common.h
rename : media/webrtc/trunk/third_party/libyuv/libyuv.gyp => media/libyuv/libyuv.gyp
rename : media/webrtc/trunk/third_party/libyuv/libyuv.gypi => media/libyuv/libyuv.gypi
rename : media/webrtc/trunk/third_party/libyuv/libyuv_nacl.gyp => media/libyuv/libyuv_nacl.gyp
rename : media/webrtc/trunk/third_party/libyuv/libyuv_test.gyp => media/libyuv/libyuv_test.gyp
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rename : media/webrtc/trunk/third_party/libyuv/source/compare.cc => media/libyuv/source/compare.cc
rename : media/webrtc/trunk/third_party/libyuv/source/compare_common.cc => media/libyuv/source/compare_common.cc
rename : media/webrtc/trunk/third_party/libyuv/source/compare_neon.cc => media/libyuv/source/compare_neon.cc
rename : media/webrtc/trunk/third_party/libyuv/source/compare_posix.cc => media/libyuv/source/compare_posix.cc
rename : media/webrtc/trunk/third_party/libyuv/source/compare_win.cc => media/libyuv/source/compare_win.cc
rename : media/webrtc/trunk/third_party/libyuv/source/convert.cc => media/libyuv/source/convert.cc
rename : media/webrtc/trunk/third_party/libyuv/source/convert_argb.cc => media/libyuv/source/convert_argb.cc
rename : media/webrtc/trunk/third_party/libyuv/source/convert_from.cc => media/libyuv/source/convert_from.cc
rename : media/webrtc/trunk/third_party/libyuv/source/convert_from_argb.cc => media/libyuv/source/convert_from_argb.cc
rename : media/webrtc/trunk/third_party/libyuv/source/convert_jpeg.cc => media/libyuv/source/convert_jpeg.cc
rename : media/webrtc/trunk/third_party/libyuv/source/convert_to_argb.cc => media/libyuv/source/convert_to_argb.cc
rename : media/webrtc/trunk/third_party/libyuv/source/convert_to_i420.cc => media/libyuv/source/convert_to_i420.cc
rename : media/webrtc/trunk/third_party/libyuv/source/cpu_id.cc => media/libyuv/source/cpu_id.cc
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rename : media/webrtc/trunk/third_party/libyuv/source/mjpeg_decoder.cc => media/libyuv/source/mjpeg_decoder.cc
rename : media/webrtc/trunk/third_party/libyuv/source/mjpeg_validate.cc => media/libyuv/source/mjpeg_validate.cc
rename : media/webrtc/trunk/third_party/libyuv/source/planar_functions.cc => media/libyuv/source/planar_functions.cc
rename : media/webrtc/trunk/third_party/libyuv/source/rotate.cc => media/libyuv/source/rotate.cc
rename : media/webrtc/trunk/third_party/libyuv/source/rotate_argb.cc => media/libyuv/source/rotate_argb.cc
rename : media/webrtc/trunk/third_party/libyuv/source/rotate_mips.cc => media/libyuv/source/rotate_mips.cc
rename : media/webrtc/trunk/third_party/libyuv/source/rotate_neon.cc => media/libyuv/source/rotate_neon.cc
rename : media/webrtc/trunk/third_party/libyuv/source/row_any.cc => media/libyuv/source/row_any.cc
rename : media/webrtc/trunk/third_party/libyuv/source/row_common.cc => media/libyuv/source/row_common.cc
rename : media/webrtc/trunk/third_party/libyuv/source/row_mips.cc => media/libyuv/source/row_mips.cc
rename : media/webrtc/trunk/third_party/libyuv/source/row_neon.cc => media/libyuv/source/row_neon.cc
rename : media/webrtc/trunk/third_party/libyuv/source/row_posix.cc => media/libyuv/source/row_posix.cc
rename : media/webrtc/trunk/third_party/libyuv/source/row_win.cc => media/libyuv/source/row_win.cc
rename : media/webrtc/trunk/third_party/libyuv/source/row_x86.asm => media/libyuv/source/row_x86.asm
rename : media/webrtc/trunk/third_party/libyuv/source/scale.cc => media/libyuv/source/scale.cc
rename : media/webrtc/trunk/third_party/libyuv/source/scale_argb.cc => media/libyuv/source/scale_argb.cc
rename : media/webrtc/trunk/third_party/libyuv/source/scale_common.cc => media/libyuv/source/scale_common.cc
rename : media/webrtc/trunk/third_party/libyuv/source/scale_mips.cc => media/libyuv/source/scale_mips.cc
rename : media/webrtc/trunk/third_party/libyuv/source/scale_neon.cc => media/libyuv/source/scale_neon.cc
rename : media/webrtc/trunk/third_party/libyuv/source/scale_posix.cc => media/libyuv/source/scale_posix.cc
rename : media/webrtc/trunk/third_party/libyuv/source/scale_win.cc => media/libyuv/source/scale_win.cc
rename : media/webrtc/trunk/third_party/libyuv/source/video_common.cc => media/libyuv/source/video_common.cc
rename : media/webrtc/trunk/third_party/libyuv/source/x86inc.asm => media/libyuv/source/x86inc.asm
rename : media/webrtc/trunk/third_party/libyuv/tools/valgrind-libyuv/libyuv_tests.bat => media/libyuv/tools/valgrind-libyuv/libyuv_tests.bat
rename : media/webrtc/trunk/third_party/libyuv/tools/valgrind-libyuv/libyuv_tests.py => media/libyuv/tools/valgrind-libyuv/libyuv_tests.py
rename : media/webrtc/trunk/third_party/libyuv/tools/valgrind-libyuv/libyuv_tests.sh => media/libyuv/tools/valgrind-libyuv/libyuv_tests.sh
rename : media/webrtc/trunk/third_party/libyuv/tools/valgrind-libyuv/memcheck/OWNERS => media/libyuv/tools/valgrind-libyuv/memcheck/OWNERS
rename : media/webrtc/trunk/third_party/libyuv/tools/valgrind-libyuv/memcheck/PRESUBMIT.py => media/libyuv/tools/valgrind-libyuv/memcheck/PRESUBMIT.py
rename : media/webrtc/trunk/third_party/libyuv/tools/valgrind-libyuv/memcheck/suppressions.txt => media/libyuv/tools/valgrind-libyuv/memcheck/suppressions.txt
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rename : media/webrtc/trunk/third_party/libyuv/tools/valgrind-libyuv/memcheck/suppressions_win32.txt => media/libyuv/tools/valgrind-libyuv/memcheck/suppressions_win32.txt
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rename : media/webrtc/trunk/third_party/libyuv/tools/valgrind-libyuv/tsan/suppressions.txt => media/libyuv/tools/valgrind-libyuv/tsan/suppressions.txt
rename : media/webrtc/trunk/third_party/libyuv/tools/valgrind-libyuv/tsan/suppressions_mac.txt => media/libyuv/tools/valgrind-libyuv/tsan/suppressions_mac.txt
rename : media/webrtc/trunk/third_party/libyuv/tools/valgrind-libyuv/tsan/suppressions_win32.txt => media/libyuv/tools/valgrind-libyuv/tsan/suppressions_win32.txt
rename : media/webrtc/trunk/third_party/libyuv/unit_test/basictypes_test.cc => media/libyuv/unit_test/basictypes_test.cc
rename : media/webrtc/trunk/third_party/libyuv/unit_test/compare_test.cc => media/libyuv/unit_test/compare_test.cc
rename : media/webrtc/trunk/third_party/libyuv/unit_test/convert_test.cc => media/libyuv/unit_test/convert_test.cc
rename : media/webrtc/trunk/third_party/libyuv/unit_test/cpu_test.cc => media/libyuv/unit_test/cpu_test.cc
rename : media/webrtc/trunk/third_party/libyuv/unit_test/math_test.cc => media/libyuv/unit_test/math_test.cc
rename : media/webrtc/trunk/third_party/libyuv/unit_test/planar_test.cc => media/libyuv/unit_test/planar_test.cc
rename : media/webrtc/trunk/third_party/libyuv/unit_test/rotate_argb_test.cc => media/libyuv/unit_test/rotate_argb_test.cc
rename : media/webrtc/trunk/third_party/libyuv/unit_test/rotate_test.cc => media/libyuv/unit_test/rotate_test.cc
rename : media/webrtc/trunk/third_party/libyuv/unit_test/scale_argb_test.cc => media/libyuv/unit_test/scale_argb_test.cc
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rename : media/webrtc/trunk/third_party/libyuv/unit_test/version_test.cc => media/libyuv/unit_test/version_test.cc
rename : media/webrtc/trunk/third_party/libyuv/unit_test/video_common_test.cc => media/libyuv/unit_test/video_common_test.cc
rename : media/webrtc/trunk/third_party/libyuv/util/Makefile => media/libyuv/util/Makefile
rename : media/webrtc/trunk/third_party/libyuv/util/compare.cc => media/libyuv/util/compare.cc
rename : media/webrtc/trunk/third_party/libyuv/util/convert.cc => media/libyuv/util/convert.cc
rename : media/webrtc/trunk/third_party/libyuv/util/cpuid.c => media/libyuv/util/cpuid.c
rename : media/webrtc/trunk/third_party/libyuv/util/psnr.cc => media/libyuv/util/psnr.cc
rename : media/webrtc/trunk/third_party/libyuv/util/psnr.h => media/libyuv/util/psnr.h
rename : media/webrtc/trunk/third_party/libyuv/util/psnr_main.cc => media/libyuv/util/psnr_main.cc
rename : media/webrtc/trunk/third_party/libyuv/util/ssim.cc => media/libyuv/util/ssim.cc
rename : media/webrtc/trunk/third_party/libyuv/util/ssim.h => media/libyuv/util/ssim.h
rename : media/webrtc/trunk/third_party/libyuv/winarm.mk => media/libyuv/winarm.mk
2014-01-30 19:55:04 -05:00

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/*
* Copyright 2011 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 <time.h>
#include "libyuv/compare.h"
#include "libyuv/convert.h"
#include "libyuv/convert_argb.h"
#include "libyuv/convert_from.h"
#include "libyuv/convert_from_argb.h"
#include "libyuv/cpu_id.h"
#include "libyuv/format_conversion.h"
#ifdef HAVE_JPEG
#include "libyuv/mjpeg_decoder.h"
#endif
#include "libyuv/planar_functions.h"
#include "libyuv/rotate.h"
#include "libyuv/row.h"
#include "../unit_test/unit_test.h"
#if defined(_MSC_VER)
#define SIMD_ALIGNED(var) __declspec(align(16)) var
#else // __GNUC__
#define SIMD_ALIGNED(var) var __attribute__((aligned(16)))
#endif
namespace libyuv {
#define SUBSAMPLE(v, a) ((((v) + (a) - 1)) / (a))
#define TESTPLANARTOPI(SRC_FMT_PLANAR, SRC_SUBSAMP_X, SRC_SUBSAMP_Y, \
FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y, W1280, N, NEG, OFF) \
TEST_F(libyuvTest, SRC_FMT_PLANAR##To##FMT_PLANAR##N) { \
const int kWidth = ((W1280) > 0) ? (W1280) : 1; \
const int kHeight = benchmark_height_; \
align_buffer_64(src_y, kWidth * kHeight + OFF); \
align_buffer_64(src_u, \
SUBSAMPLE(kWidth, SRC_SUBSAMP_X) * \
SUBSAMPLE(kHeight, SRC_SUBSAMP_Y) + OFF); \
align_buffer_64(src_v, \
SUBSAMPLE(kWidth, SRC_SUBSAMP_X) * \
SUBSAMPLE(kHeight, SRC_SUBSAMP_Y) + OFF); \
align_buffer_64(dst_y_c, kWidth * kHeight); \
align_buffer_64(dst_u_c, \
SUBSAMPLE(kWidth, SUBSAMP_X) * \
SUBSAMPLE(kHeight, SUBSAMP_Y)); \
align_buffer_64(dst_v_c, \
SUBSAMPLE(kWidth, SUBSAMP_X) * \
SUBSAMPLE(kHeight, SUBSAMP_Y)); \
align_buffer_64(dst_y_opt, kWidth * kHeight); \
align_buffer_64(dst_u_opt, \
SUBSAMPLE(kWidth, SUBSAMP_X) * \
SUBSAMPLE(kHeight, SUBSAMP_Y)); \
align_buffer_64(dst_v_opt, \
SUBSAMPLE(kWidth, SUBSAMP_X) * \
SUBSAMPLE(kHeight, SUBSAMP_Y)); \
srandom(time(NULL)); \
for (int i = 0; i < kHeight; ++i) \
for (int j = 0; j < kWidth; ++j) \
src_y[(i * kWidth) + j + OFF] = (random() & 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 * SUBSAMPLE(kWidth, SRC_SUBSAMP_X)) + j + OFF] = \
(random() & 0xff); \
src_v[(i * SUBSAMPLE(kWidth, SRC_SUBSAMP_X)) + j + OFF] = \
(random() & 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(0); \
SRC_FMT_PLANAR##To##FMT_PLANAR(src_y + OFF, kWidth, \
src_u + OFF, \
SUBSAMPLE(kWidth, SRC_SUBSAMP_X), \
src_v + OFF, \
SUBSAMPLE(kWidth, SRC_SUBSAMP_X), \
dst_y_c, kWidth, \
dst_u_c, SUBSAMPLE(kWidth, SUBSAMP_X), \
dst_v_c, SUBSAMPLE(kWidth, SUBSAMP_X), \
kWidth, NEG kHeight); \
MaskCpuFlags(-1); \
for (int i = 0; i < benchmark_iterations_; ++i) { \
SRC_FMT_PLANAR##To##FMT_PLANAR(src_y + OFF, kWidth, \
src_u + OFF, \
SUBSAMPLE(kWidth, SRC_SUBSAMP_X), \
src_v + OFF, \
SUBSAMPLE(kWidth, SRC_SUBSAMP_X), \
dst_y_opt, kWidth, \
dst_u_opt, SUBSAMPLE(kWidth, SUBSAMP_X), \
dst_v_opt, SUBSAMPLE(kWidth, SUBSAMP_X), \
kWidth, NEG kHeight); \
} \
int max_diff = 0; \
for (int i = 0; i < kHeight; ++i) { \
for (int j = 0; j < kWidth; ++j) { \
int abs_diff = \
abs(static_cast<int>(dst_y_c[i * kWidth + j]) - \
static_cast<int>(dst_y_opt[i * kWidth + j])); \
if (abs_diff > max_diff) { \
max_diff = abs_diff; \
} \
} \
} \
EXPECT_LE(max_diff, 0); \
for (int i = 0; i < SUBSAMPLE(kHeight, SUBSAMP_Y); ++i) { \
for (int j = 0; j < SUBSAMPLE(kWidth, SUBSAMP_X); ++j) { \
int abs_diff = \
abs(static_cast<int>(dst_u_c[i * \
SUBSAMPLE(kWidth, SUBSAMP_X) + j]) - \
static_cast<int>(dst_u_opt[i * \
SUBSAMPLE(kWidth, SUBSAMP_X) + j])); \
if (abs_diff > max_diff) { \
max_diff = abs_diff; \
} \
} \
} \
EXPECT_LE(max_diff, 3); \
for (int i = 0; i < SUBSAMPLE(kHeight, SUBSAMP_Y); ++i) { \
for (int j = 0; j < SUBSAMPLE(kWidth, SUBSAMP_X); ++j) { \
int abs_diff = \
abs(static_cast<int>(dst_v_c[i * \
SUBSAMPLE(kWidth, SUBSAMP_X) + j]) - \
static_cast<int>(dst_v_opt[i * \
SUBSAMPLE(kWidth, SUBSAMP_X) + j])); \
if (abs_diff > max_diff) { \
max_diff = abs_diff; \
} \
} \
} \
EXPECT_LE(max_diff, 3); \
free_aligned_buffer_64(dst_y_c); \
free_aligned_buffer_64(dst_u_c); \
free_aligned_buffer_64(dst_v_c); \
free_aligned_buffer_64(dst_y_opt); \
free_aligned_buffer_64(dst_u_opt); \
free_aligned_buffer_64(dst_v_opt); \
free_aligned_buffer_64(src_y); \
free_aligned_buffer_64(src_u); \
free_aligned_buffer_64(src_v); \
}
#define TESTPLANARTOP(SRC_FMT_PLANAR, SRC_SUBSAMP_X, SRC_SUBSAMP_Y, \
FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y) \
TESTPLANARTOPI(SRC_FMT_PLANAR, SRC_SUBSAMP_X, SRC_SUBSAMP_Y, \
FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y, \
benchmark_width_ - 4, _Any, +, 0) \
TESTPLANARTOPI(SRC_FMT_PLANAR, SRC_SUBSAMP_X, SRC_SUBSAMP_Y, \
FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y, \
benchmark_width_, _Unaligned, +, 1) \
TESTPLANARTOPI(SRC_FMT_PLANAR, SRC_SUBSAMP_X, SRC_SUBSAMP_Y, \
FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y, \
benchmark_width_, _Invert, -, 0) \
TESTPLANARTOPI(SRC_FMT_PLANAR, SRC_SUBSAMP_X, SRC_SUBSAMP_Y, \
FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y, \
benchmark_width_, _Opt, +, 0)
TESTPLANARTOP(I420, 2, 2, I420, 2, 2)
TESTPLANARTOP(I422, 2, 1, I420, 2, 2)
TESTPLANARTOP(I444, 1, 1, I420, 2, 2)
TESTPLANARTOP(I411, 4, 1, I420, 2, 2)
TESTPLANARTOP(I420, 2, 2, I422, 2, 1)
TESTPLANARTOP(I420, 2, 2, I444, 1, 1)
TESTPLANARTOP(I420, 2, 2, I411, 4, 1)
TESTPLANARTOP(I420, 2, 2, I420Mirror, 2, 2)
TESTPLANARTOP(I422, 2, 1, I422, 2, 1)
TESTPLANARTOP(I444, 1, 1, I444, 1, 1)
#define TESTPLANARTOBPI(SRC_FMT_PLANAR, SRC_SUBSAMP_X, SRC_SUBSAMP_Y, \
FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y, W1280, N, NEG, OFF) \
TEST_F(libyuvTest, SRC_FMT_PLANAR##To##FMT_PLANAR##N) { \
const int kWidth = ((W1280) > 0) ? (W1280) : 1; \
const int kHeight = benchmark_height_; \
align_buffer_64(src_y, kWidth * kHeight + OFF); \
align_buffer_64(src_u, \
SUBSAMPLE(kWidth, SRC_SUBSAMP_X) * \
SUBSAMPLE(kHeight, SRC_SUBSAMP_Y) + OFF); \
align_buffer_64(src_v, \
SUBSAMPLE(kWidth, SRC_SUBSAMP_X) * \
SUBSAMPLE(kHeight, SRC_SUBSAMP_Y) + OFF); \
align_buffer_64(dst_y_c, kWidth * kHeight); \
align_buffer_64(dst_uv_c, SUBSAMPLE(kWidth * 2, SUBSAMP_X) * \
SUBSAMPLE(kHeight, SUBSAMP_Y)); \
align_buffer_64(dst_y_opt, kWidth * kHeight); \
align_buffer_64(dst_uv_opt, SUBSAMPLE(kWidth * 2, SUBSAMP_X) * \
SUBSAMPLE(kHeight, SUBSAMP_Y)); \
srandom(time(NULL)); \
for (int i = 0; i < kHeight; ++i) \
for (int j = 0; j < kWidth; ++j) \
src_y[(i * kWidth) + j + OFF] = (random() & 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 * SUBSAMPLE(kWidth, SRC_SUBSAMP_X)) + j + OFF] = \
(random() & 0xff); \
src_v[(i * SUBSAMPLE(kWidth, SRC_SUBSAMP_X)) + j + OFF] = \
(random() & 0xff); \
} \
} \
memset(dst_y_c, 1, kWidth * kHeight); \
memset(dst_uv_c, 2, SUBSAMPLE(kWidth * 2, SUBSAMP_X) * \
SUBSAMPLE(kHeight, SUBSAMP_Y)); \
memset(dst_y_opt, 101, kWidth * kHeight); \
memset(dst_uv_opt, 102, SUBSAMPLE(kWidth * 2, SUBSAMP_X) * \
SUBSAMPLE(kHeight, SUBSAMP_Y)); \
MaskCpuFlags(0); \
SRC_FMT_PLANAR##To##FMT_PLANAR(src_y + OFF, kWidth, \
src_u + OFF, \
SUBSAMPLE(kWidth, SRC_SUBSAMP_X), \
src_v + OFF, \
SUBSAMPLE(kWidth, SRC_SUBSAMP_X), \
dst_y_c, kWidth, \
dst_uv_c, SUBSAMPLE(kWidth * 2, SUBSAMP_X), \
kWidth, NEG kHeight); \
MaskCpuFlags(-1); \
for (int i = 0; i < benchmark_iterations_; ++i) { \
SRC_FMT_PLANAR##To##FMT_PLANAR(src_y + OFF, kWidth, \
src_u + OFF, \
SUBSAMPLE(kWidth, SRC_SUBSAMP_X), \
src_v + OFF, \
SUBSAMPLE(kWidth, SRC_SUBSAMP_X), \
dst_y_opt, kWidth, \
dst_uv_opt, \
SUBSAMPLE(kWidth * 2, SUBSAMP_X), \
kWidth, NEG kHeight); \
} \
int max_diff = 0; \
for (int i = 0; i < kHeight; ++i) { \
for (int j = 0; j < kWidth; ++j) { \
int abs_diff = \
abs(static_cast<int>(dst_y_c[i * kWidth + j]) - \
static_cast<int>(dst_y_opt[i * kWidth + j])); \
if (abs_diff > max_diff) { \
max_diff = abs_diff; \
} \
} \
} \
EXPECT_LE(max_diff, 1); \
for (int i = 0; i < SUBSAMPLE(kHeight, SUBSAMP_Y); ++i) { \
for (int j = 0; j < SUBSAMPLE(kWidth * 2, SUBSAMP_X); ++j) { \
int abs_diff = \
abs(static_cast<int>(dst_uv_c[i * \
SUBSAMPLE(kWidth * 2, SUBSAMP_X) + j]) - \
static_cast<int>(dst_uv_opt[i * \
SUBSAMPLE(kWidth * 2, SUBSAMP_X) + j])); \
if (abs_diff > max_diff) { \
max_diff = abs_diff; \
} \
} \
} \
EXPECT_LE(max_diff, 1); \
free_aligned_buffer_64(dst_y_c); \
free_aligned_buffer_64(dst_uv_c); \
free_aligned_buffer_64(dst_y_opt); \
free_aligned_buffer_64(dst_uv_opt); \
free_aligned_buffer_64(src_y); \
free_aligned_buffer_64(src_u); \
free_aligned_buffer_64(src_v); \
}
#define TESTPLANARTOBP(SRC_FMT_PLANAR, SRC_SUBSAMP_X, SRC_SUBSAMP_Y, \
FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y) \
TESTPLANARTOBPI(SRC_FMT_PLANAR, SRC_SUBSAMP_X, SRC_SUBSAMP_Y, \
FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y, \
benchmark_width_ - 4, _Any, +, 0) \
TESTPLANARTOBPI(SRC_FMT_PLANAR, SRC_SUBSAMP_X, SRC_SUBSAMP_Y, \
FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y, \
benchmark_width_, _Unaligned, +, 1) \
TESTPLANARTOBPI(SRC_FMT_PLANAR, SRC_SUBSAMP_X, SRC_SUBSAMP_Y, \
FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y, \
benchmark_width_, _Invert, -, 0) \
TESTPLANARTOBPI(SRC_FMT_PLANAR, SRC_SUBSAMP_X, SRC_SUBSAMP_Y, \
FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y, \
benchmark_width_, _Opt, +, 0)
TESTPLANARTOBP(I420, 2, 2, NV12, 2, 2)
TESTPLANARTOBP(I420, 2, 2, NV21, 2, 2)
#define TESTBIPLANARTOPI(SRC_FMT_PLANAR, SRC_SUBSAMP_X, SRC_SUBSAMP_Y, \
FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y, W1280, N, NEG, OFF) \
TEST_F(libyuvTest, SRC_FMT_PLANAR##To##FMT_PLANAR##N) { \
const int kWidth = ((W1280) > 0) ? (W1280) : 1; \
const int kHeight = benchmark_height_; \
align_buffer_64(src_y, kWidth * kHeight + OFF); \
align_buffer_64(src_uv, 2 * SUBSAMPLE(kWidth, SRC_SUBSAMP_X) * \
SUBSAMPLE(kHeight, SRC_SUBSAMP_Y) + OFF); \
align_buffer_64(dst_y_c, kWidth * kHeight); \
align_buffer_64(dst_u_c, \
SUBSAMPLE(kWidth, SUBSAMP_X) * \
SUBSAMPLE(kHeight, SUBSAMP_Y)); \
align_buffer_64(dst_v_c, \
SUBSAMPLE(kWidth, SUBSAMP_X) * \
SUBSAMPLE(kHeight, SUBSAMP_Y)); \
align_buffer_64(dst_y_opt, kWidth * kHeight); \
align_buffer_64(dst_u_opt, \
SUBSAMPLE(kWidth, SUBSAMP_X) * \
SUBSAMPLE(kHeight, SUBSAMP_Y)); \
align_buffer_64(dst_v_opt, \
SUBSAMPLE(kWidth, SUBSAMP_X) * \
SUBSAMPLE(kHeight, SUBSAMP_Y)); \
srandom(time(NULL)); \
for (int i = 0; i < kHeight; ++i) \
for (int j = 0; j < kWidth; ++j) \
src_y[(i * kWidth) + j + OFF] = (random() & 0xff); \
for (int i = 0; i < SUBSAMPLE(kHeight, SRC_SUBSAMP_Y); ++i) { \
for (int j = 0; j < 2 * SUBSAMPLE(kWidth, SRC_SUBSAMP_X); ++j) { \
src_uv[(i * 2 * SUBSAMPLE(kWidth, SRC_SUBSAMP_X)) + j + OFF] = \
(random() & 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(0); \
SRC_FMT_PLANAR##To##FMT_PLANAR(src_y + OFF, kWidth, \
src_uv + OFF, \
2 * SUBSAMPLE(kWidth, SRC_SUBSAMP_X), \
dst_y_c, kWidth, \
dst_u_c, SUBSAMPLE(kWidth, SUBSAMP_X), \
dst_v_c, SUBSAMPLE(kWidth, SUBSAMP_X), \
kWidth, NEG kHeight); \
MaskCpuFlags(-1); \
for (int i = 0; i < benchmark_iterations_; ++i) { \
SRC_FMT_PLANAR##To##FMT_PLANAR(src_y + OFF, kWidth, \
src_uv + OFF, \
2 * SUBSAMPLE(kWidth, SRC_SUBSAMP_X), \
dst_y_opt, kWidth, \
dst_u_opt, SUBSAMPLE(kWidth, SUBSAMP_X), \
dst_v_opt, SUBSAMPLE(kWidth, SUBSAMP_X), \
kWidth, NEG kHeight); \
} \
int max_diff = 0; \
for (int i = 0; i < kHeight; ++i) { \
for (int j = 0; j < kWidth; ++j) { \
int abs_diff = \
abs(static_cast<int>(dst_y_c[i * kWidth + j]) - \
static_cast<int>(dst_y_opt[i * kWidth + j])); \
if (abs_diff > max_diff) { \
max_diff = abs_diff; \
} \
} \
} \
EXPECT_LE(max_diff, 1); \
for (int i = 0; i < SUBSAMPLE(kHeight, SUBSAMP_Y); ++i) { \
for (int j = 0; j < SUBSAMPLE(kWidth, SUBSAMP_X); ++j) { \
int abs_diff = \
abs(static_cast<int>(dst_u_c[i * \
SUBSAMPLE(kWidth, SUBSAMP_X) + j]) - \
static_cast<int>(dst_u_opt[i * \
SUBSAMPLE(kWidth, SUBSAMP_X) + j])); \
if (abs_diff > max_diff) { \
max_diff = abs_diff; \
} \
} \
} \
EXPECT_LE(max_diff, 1); \
for (int i = 0; i < SUBSAMPLE(kHeight, SUBSAMP_Y); ++i) { \
for (int j = 0; j < SUBSAMPLE(kWidth, SUBSAMP_X); ++j) { \
int abs_diff = \
abs(static_cast<int>(dst_v_c[i * \
SUBSAMPLE(kWidth, SUBSAMP_X) + j]) - \
static_cast<int>(dst_v_opt[i * \
SUBSAMPLE(kWidth, SUBSAMP_X) + j])); \
if (abs_diff > max_diff) { \
max_diff = abs_diff; \
} \
} \
} \
EXPECT_LE(max_diff, 1); \
free_aligned_buffer_64(dst_y_c); \
free_aligned_buffer_64(dst_u_c); \
free_aligned_buffer_64(dst_v_c); \
free_aligned_buffer_64(dst_y_opt); \
free_aligned_buffer_64(dst_u_opt); \
free_aligned_buffer_64(dst_v_opt); \
free_aligned_buffer_64(src_y); \
free_aligned_buffer_64(src_uv); \
}
#define TESTBIPLANARTOP(SRC_FMT_PLANAR, SRC_SUBSAMP_X, SRC_SUBSAMP_Y, \
FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y) \
TESTBIPLANARTOPI(SRC_FMT_PLANAR, SRC_SUBSAMP_X, SRC_SUBSAMP_Y, \
FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y, \
benchmark_width_ - 4, _Any, +, 0) \
TESTBIPLANARTOPI(SRC_FMT_PLANAR, SRC_SUBSAMP_X, SRC_SUBSAMP_Y, \
FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y, \
benchmark_width_, _Unaligned, +, 1) \
TESTBIPLANARTOPI(SRC_FMT_PLANAR, SRC_SUBSAMP_X, SRC_SUBSAMP_Y, \
FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y, \
benchmark_width_, _Invert, -, 0) \
TESTBIPLANARTOPI(SRC_FMT_PLANAR, SRC_SUBSAMP_X, SRC_SUBSAMP_Y, \
FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y, \
benchmark_width_, _Opt, +, 0)
TESTBIPLANARTOP(NV12, 2, 2, I420, 2, 2)
TESTBIPLANARTOP(NV21, 2, 2, I420, 2, 2)
#define ALIGNINT(V, ALIGN) (((V) + (ALIGN) - 1) / (ALIGN) * (ALIGN))
#define TESTPLANARTOBI(FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y, FMT_B, BPP_B, ALIGN, \
YALIGN, W1280, DIFF, N, NEG, OFF, FMT_C, BPP_C) \
TEST_F(libyuvTest, FMT_PLANAR##To##FMT_B##N) { \
const int kWidth = ((W1280) > 0) ? (W1280) : 1; \
const int kHeight = ALIGNINT(benchmark_height_, YALIGN); \
const int kStrideB = ALIGNINT(kWidth * BPP_B, ALIGN); \
const int kSizeUV = \
SUBSAMPLE(kWidth, SUBSAMP_X) * SUBSAMPLE(kHeight, SUBSAMP_Y); \
align_buffer_64(src_y, kWidth * kHeight + OFF); \
align_buffer_64(src_u, kSizeUV + OFF); \
align_buffer_64(src_v, kSizeUV + OFF); \
align_buffer_64(dst_argb_c, kStrideB * kHeight); \
align_buffer_64(dst_argb_opt, kStrideB * kHeight); \
srandom(time(NULL)); \
for (int i = 0; i < kWidth * kHeight; ++i) { \
src_y[i + OFF] = (random() & 0xff); \
} \
for (int i = 0; i < kSizeUV; ++i) { \
src_u[i + OFF] = (random() & 0xff); \
src_v[i + OFF] = (random() & 0xff); \
} \
memset(dst_argb_c, 1, kStrideB * kHeight); \
memset(dst_argb_opt, 101, kStrideB * kHeight); \
MaskCpuFlags(0); \
FMT_PLANAR##To##FMT_B(src_y + OFF, kWidth, \
src_u + OFF, SUBSAMPLE(kWidth, SUBSAMP_X), \
src_v + OFF, SUBSAMPLE(kWidth, SUBSAMP_X), \
dst_argb_c, kStrideB, \
kWidth, NEG kHeight); \
MaskCpuFlags(-1); \
for (int i = 0; i < benchmark_iterations_; ++i) { \
FMT_PLANAR##To##FMT_B(src_y + OFF, kWidth, \
src_u + OFF, SUBSAMPLE(kWidth, SUBSAMP_X), \
src_v + OFF, SUBSAMPLE(kWidth, SUBSAMP_X), \
dst_argb_opt, kStrideB, \
kWidth, NEG kHeight); \
} \
int max_diff = 0; \
/* Convert to ARGB so 565 is expanded to bytes that can be compared. */ \
align_buffer_64(dst_argb32_c, kWidth * BPP_C * kHeight); \
align_buffer_64(dst_argb32_opt, kWidth * BPP_C * kHeight); \
memset(dst_argb32_c, 2, kWidth * BPP_C * kHeight); \
memset(dst_argb32_opt, 102, kWidth * BPP_C * kHeight); \
FMT_B##To##FMT_C(dst_argb_c, kStrideB, \
dst_argb32_c, kWidth * BPP_C , \
kWidth, kHeight); \
FMT_B##To##FMT_C(dst_argb_opt, kStrideB, \
dst_argb32_opt, kWidth * BPP_C , \
kWidth, kHeight); \
for (int i = 0; i < kWidth * BPP_C * kHeight; ++i) { \
int abs_diff = \
abs(static_cast<int>(dst_argb32_c[i]) - \
static_cast<int>(dst_argb32_opt[i])); \
if (abs_diff > max_diff) { \
max_diff = abs_diff; \
} \
} \
EXPECT_LE(max_diff, DIFF); \
free_aligned_buffer_64(src_y); \
free_aligned_buffer_64(src_u); \
free_aligned_buffer_64(src_v); \
free_aligned_buffer_64(dst_argb_c); \
free_aligned_buffer_64(dst_argb_opt); \
free_aligned_buffer_64(dst_argb32_c); \
free_aligned_buffer_64(dst_argb32_opt); \
}
#define TESTPLANARTOB(FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y, FMT_B, BPP_B, ALIGN, \
YALIGN, DIFF, FMT_C, BPP_C) \
TESTPLANARTOBI(FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y, FMT_B, BPP_B, ALIGN, \
YALIGN, benchmark_width_ - 4, DIFF, _Any, +, 0, FMT_C, BPP_C) \
TESTPLANARTOBI(FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y, FMT_B, BPP_B, ALIGN, \
YALIGN, benchmark_width_, DIFF, _Unaligned, +, 1, FMT_C, BPP_C) \
TESTPLANARTOBI(FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y, FMT_B, BPP_B, ALIGN, \
YALIGN, benchmark_width_, DIFF, _Invert, -, 0, FMT_C, BPP_C) \
TESTPLANARTOBI(FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y, FMT_B, BPP_B, ALIGN, \
YALIGN, benchmark_width_, DIFF, _Opt, +, 0, FMT_C, BPP_C)
// TODO(fbarchard): Make vertical alignment unnecessary on bayer.
TESTPLANARTOB(I420, 2, 2, ARGB, 4, 4, 1, 2, ARGB, 4)
TESTPLANARTOB(I420, 2, 2, BGRA, 4, 4, 1, 2, ARGB, 4)
TESTPLANARTOB(I420, 2, 2, ABGR, 4, 4, 1, 2, ARGB, 4)
TESTPLANARTOB(I420, 2, 2, RGBA, 4, 4, 1, 2, ARGB, 4)
TESTPLANARTOB(I420, 2, 2, RAW, 3, 3, 1, 2, ARGB, 4)
TESTPLANARTOB(I420, 2, 2, RGB24, 3, 3, 1, 2, ARGB, 4)
TESTPLANARTOB(I420, 2, 2, RGB565, 2, 2, 1, 9, ARGB, 4)
TESTPLANARTOB(I420, 2, 2, ARGB1555, 2, 2, 1, 9, ARGB, 4)
TESTPLANARTOB(I420, 2, 2, ARGB4444, 2, 2, 1, 17, ARGB, 4)
TESTPLANARTOB(I422, 2, 1, ARGB, 4, 4, 1, 2, ARGB, 4)
TESTPLANARTOB(I422, 2, 1, BGRA, 4, 4, 1, 2, ARGB, 4)
TESTPLANARTOB(I422, 2, 1, ABGR, 4, 4, 1, 2, ARGB, 4)
TESTPLANARTOB(I422, 2, 1, RGBA, 4, 4, 1, 2, ARGB, 4)
TESTPLANARTOB(I411, 4, 1, ARGB, 4, 4, 1, 2, ARGB, 4)
TESTPLANARTOB(I444, 1, 1, ARGB, 4, 4, 1, 2, ARGB, 4)
TESTPLANARTOB(I420, 2, 2, YUY2, 2, 4, 1, 1, ARGB, 4)
TESTPLANARTOB(I420, 2, 2, UYVY, 2, 4, 1, 1, ARGB, 4)
TESTPLANARTOB(I422, 2, 1, YUY2, 2, 4, 1, 0, ARGB, 4)
TESTPLANARTOB(I422, 2, 1, UYVY, 2, 4, 1, 0, ARGB, 4)
TESTPLANARTOB(I420, 2, 2, I400, 1, 1, 1, 0, ARGB, 4)
TESTPLANARTOB(I420, 2, 2, BayerBGGR, 1, 2, 2, 2, ARGB, 4)
TESTPLANARTOB(I420, 2, 2, BayerRGGB, 1, 2, 2, 2, ARGB, 4)
TESTPLANARTOB(I420, 2, 2, BayerGBRG, 1, 2, 2, 2, ARGB, 4)
TESTPLANARTOB(I420, 2, 2, BayerGRBG, 1, 2, 2, 2, ARGB, 4)
#define TESTBIPLANARTOBI(FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y, FMT_B, BPP_B, \
W1280, DIFF, N, NEG, OFF) \
TEST_F(libyuvTest, FMT_PLANAR##To##FMT_B##N) { \
const int kWidth = ((W1280) > 0) ? (W1280) : 1; \
const int kHeight = benchmark_height_; \
const int kStrideB = kWidth * BPP_B; \
align_buffer_64(src_y, kWidth * kHeight + OFF); \
align_buffer_64(src_uv, \
SUBSAMPLE(kWidth, SUBSAMP_X) * \
SUBSAMPLE(kHeight, SUBSAMP_Y) * 2 + OFF); \
align_buffer_64(dst_argb_c, kStrideB * kHeight); \
align_buffer_64(dst_argb_opt, kStrideB * kHeight); \
srandom(time(NULL)); \
for (int i = 0; i < kHeight; ++i) \
for (int j = 0; j < kWidth; ++j) \
src_y[(i * kWidth) + j + OFF] = (random() & 0xff); \
for (int i = 0; i < SUBSAMPLE(kHeight, SUBSAMP_Y); ++i) { \
for (int j = 0; j < SUBSAMPLE(kWidth, SUBSAMP_X) * 2; ++j) { \
src_uv[(i * SUBSAMPLE(kWidth, SUBSAMP_X)) * 2 + j + OFF] = \
(random() & 0xff); \
} \
} \
memset(dst_argb_c, 1, kStrideB * kHeight); \
memset(dst_argb_opt, 101, kStrideB * kHeight); \
MaskCpuFlags(0); \
FMT_PLANAR##To##FMT_B(src_y + OFF, kWidth, \
src_uv + OFF, SUBSAMPLE(kWidth, SUBSAMP_X) * 2, \
dst_argb_c, kWidth * BPP_B, \
kWidth, NEG kHeight); \
MaskCpuFlags(-1); \
for (int i = 0; i < benchmark_iterations_; ++i) { \
FMT_PLANAR##To##FMT_B(src_y + OFF, kWidth, \
src_uv + OFF, SUBSAMPLE(kWidth, SUBSAMP_X) * 2, \
dst_argb_opt, kWidth * BPP_B, \
kWidth, NEG kHeight); \
} \
/* Convert to ARGB so 565 is expanded to bytes that can be compared. */ \
align_buffer_64(dst_argb32_c, kWidth * 4 * kHeight); \
align_buffer_64(dst_argb32_opt, kWidth * 4 * kHeight); \
memset(dst_argb32_c, 2, kWidth * 4 * kHeight); \
memset(dst_argb32_opt, 102, kWidth * 4 * kHeight); \
FMT_B##ToARGB(dst_argb_c, kStrideB, \
dst_argb32_c, kWidth * 4, \
kWidth, kHeight); \
FMT_B##ToARGB(dst_argb_opt, kStrideB, \
dst_argb32_opt, kWidth * 4, \
kWidth, kHeight); \
int max_diff = 0; \
for (int i = 0; i < kHeight; ++i) { \
for (int j = 0; j < kWidth * 4; ++j) { \
int abs_diff = \
abs(static_cast<int>(dst_argb32_c[i * kWidth * 4 + j]) - \
static_cast<int>(dst_argb32_opt[i * kWidth * 4 + j])); \
if (abs_diff > max_diff) { \
max_diff = abs_diff; \
} \
} \
} \
EXPECT_LE(max_diff, DIFF); \
free_aligned_buffer_64(src_y); \
free_aligned_buffer_64(src_uv); \
free_aligned_buffer_64(dst_argb_c); \
free_aligned_buffer_64(dst_argb_opt); \
free_aligned_buffer_64(dst_argb32_c); \
free_aligned_buffer_64(dst_argb32_opt); \
}
#define TESTBIPLANARTOB(FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y, FMT_B, BPP_B, DIFF) \
TESTBIPLANARTOBI(FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y, FMT_B, BPP_B, \
benchmark_width_ - 4, DIFF, _Any, +, 0) \
TESTBIPLANARTOBI(FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y, FMT_B, BPP_B, \
benchmark_width_, DIFF, _Unaligned, +, 1) \
TESTBIPLANARTOBI(FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y, FMT_B, BPP_B, \
benchmark_width_, DIFF, _Invert, -, 0) \
TESTBIPLANARTOBI(FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y, FMT_B, BPP_B, \
benchmark_width_, DIFF, _Opt, +, 0)
TESTBIPLANARTOB(NV12, 2, 2, ARGB, 4, 2)
TESTBIPLANARTOB(NV21, 2, 2, ARGB, 4, 2)
TESTBIPLANARTOB(NV12, 2, 2, RGB565, 2, 9)
TESTBIPLANARTOB(NV21, 2, 2, RGB565, 2, 9)
#define TESTATOPLANARI(FMT_A, BPP_A, YALIGN, FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y, \
W1280, DIFF, N, NEG, OFF) \
TEST_F(libyuvTest, FMT_A##To##FMT_PLANAR##N) { \
const int kWidth = ((W1280) > 0) ? (W1280) : 1; \
const int kHeight = ALIGNINT(benchmark_height_, YALIGN); \
const int kStride = \
(SUBSAMPLE(kWidth, SUBSAMP_X) * SUBSAMP_X * 8 * BPP_A + 7) / 8; \
align_buffer_64(src_argb, kStride * kHeight + OFF); \
align_buffer_64(dst_y_c, kWidth * kHeight); \
align_buffer_64(dst_u_c, \
SUBSAMPLE(kWidth, SUBSAMP_X) * \
SUBSAMPLE(kHeight, SUBSAMP_Y)); \
align_buffer_64(dst_v_c, \
SUBSAMPLE(kWidth, SUBSAMP_X) * \
SUBSAMPLE(kHeight, SUBSAMP_Y)); \
align_buffer_64(dst_y_opt, kWidth * kHeight); \
align_buffer_64(dst_u_opt, \
SUBSAMPLE(kWidth, SUBSAMP_X) * \
SUBSAMPLE(kHeight, SUBSAMP_Y)); \
align_buffer_64(dst_v_opt, \
SUBSAMPLE(kWidth, SUBSAMP_X) * \
SUBSAMPLE(kHeight, SUBSAMP_Y)); \
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)); \
srandom(time(NULL)); \
for (int i = 0; i < kHeight; ++i) \
for (int j = 0; j < kStride; ++j) \
src_argb[(i * kStride) + j + OFF] = (random() & 0xff); \
MaskCpuFlags(0); \
FMT_A##To##FMT_PLANAR(src_argb + OFF, kStride, \
dst_y_c, kWidth, \
dst_u_c, SUBSAMPLE(kWidth, SUBSAMP_X), \
dst_v_c, SUBSAMPLE(kWidth, SUBSAMP_X), \
kWidth, NEG kHeight); \
MaskCpuFlags(-1); \
for (int i = 0; i < benchmark_iterations_; ++i) { \
FMT_A##To##FMT_PLANAR(src_argb + OFF, kStride, \
dst_y_opt, kWidth, \
dst_u_opt, SUBSAMPLE(kWidth, SUBSAMP_X), \
dst_v_opt, SUBSAMPLE(kWidth, SUBSAMP_X), \
kWidth, NEG kHeight); \
} \
int max_diff = 0; \
for (int i = 0; i < kHeight; ++i) { \
for (int j = 0; j < kWidth; ++j) { \
int abs_diff = \
abs(static_cast<int>(dst_y_c[i * kWidth + j]) - \
static_cast<int>(dst_y_opt[i * kWidth + j])); \
if (abs_diff > max_diff) { \
max_diff = abs_diff; \
} \
} \
} \
EXPECT_LE(max_diff, DIFF); \
for (int i = 0; i < SUBSAMPLE(kHeight, SUBSAMP_Y); ++i) { \
for (int j = 0; j < SUBSAMPLE(kWidth, SUBSAMP_X); ++j) { \
int abs_diff = \
abs(static_cast<int>(dst_u_c[i * \
SUBSAMPLE(kWidth, SUBSAMP_X) + j]) - \
static_cast<int>(dst_u_opt[i * \
SUBSAMPLE(kWidth, SUBSAMP_X) + j])); \
if (abs_diff > max_diff) { \
max_diff = abs_diff; \
} \
} \
} \
EXPECT_LE(max_diff, DIFF); \
for (int i = 0; i < SUBSAMPLE(kHeight, SUBSAMP_Y); ++i) { \
for (int j = 0; j < SUBSAMPLE(kWidth, SUBSAMP_X); ++j) { \
int abs_diff = \
abs(static_cast<int>(dst_v_c[i * \
SUBSAMPLE(kWidth, SUBSAMP_X) + j]) - \
static_cast<int>(dst_v_opt[i * \
SUBSAMPLE(kWidth, SUBSAMP_X) + j])); \
if (abs_diff > max_diff) { \
max_diff = abs_diff; \
} \
} \
} \
EXPECT_LE(max_diff, DIFF); \
free_aligned_buffer_64(dst_y_c); \
free_aligned_buffer_64(dst_u_c); \
free_aligned_buffer_64(dst_v_c); \
free_aligned_buffer_64(dst_y_opt); \
free_aligned_buffer_64(dst_u_opt); \
free_aligned_buffer_64(dst_v_opt); \
free_aligned_buffer_64(src_argb); \
}
#define TESTATOPLANAR(FMT_A, BPP_A, YALIGN, FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y, \
DIFF) \
TESTATOPLANARI(FMT_A, BPP_A, YALIGN, FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y, \
benchmark_width_ - 4, DIFF, _Any, +, 0) \
TESTATOPLANARI(FMT_A, BPP_A, YALIGN, FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y, \
benchmark_width_, DIFF, _Unaligned, +, 1) \
TESTATOPLANARI(FMT_A, BPP_A, YALIGN, FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y, \
benchmark_width_, DIFF, _Invert, -, 0) \
TESTATOPLANARI(FMT_A, BPP_A, YALIGN, FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y, \
benchmark_width_, DIFF, _Opt, +, 0)
TESTATOPLANAR(ARGB, 4, 1, I420, 2, 2, 4)
#ifdef __arm__
TESTATOPLANAR(ARGB, 4, 1, J420, 2, 2, 4)
#else
TESTATOPLANAR(ARGB, 4, 1, J420, 2, 2, 0)
#endif
TESTATOPLANAR(BGRA, 4, 1, I420, 2, 2, 4)
TESTATOPLANAR(ABGR, 4, 1, I420, 2, 2, 4)
TESTATOPLANAR(RGBA, 4, 1, I420, 2, 2, 4)
TESTATOPLANAR(RAW, 3, 1, I420, 2, 2, 4)
TESTATOPLANAR(RGB24, 3, 1, I420, 2, 2, 4)
TESTATOPLANAR(RGB565, 2, 1, I420, 2, 2, 5)
// TODO(fbarchard): Make 1555 neon work same as C code, reduce to diff 9.
TESTATOPLANAR(ARGB1555, 2, 1, I420, 2, 2, 15)
TESTATOPLANAR(ARGB4444, 2, 1, I420, 2, 2, 17)
TESTATOPLANAR(ARGB, 4, 1, I411, 4, 1, 4)
TESTATOPLANAR(ARGB, 4, 1, I422, 2, 1, 2)
TESTATOPLANAR(ARGB, 4, 1, I444, 1, 1, 2)
TESTATOPLANAR(YUY2, 2, 1, I420, 2, 2, 2)
TESTATOPLANAR(UYVY, 2, 1, I420, 2, 2, 2)
TESTATOPLANAR(YUY2, 2, 1, I422, 2, 1, 2)
TESTATOPLANAR(UYVY, 2, 1, I422, 2, 1, 2)
TESTATOPLANAR(I400, 1, 1, I420, 2, 2, 2)
TESTATOPLANAR(BayerBGGR, 1, 2, I420, 2, 2, 4)
TESTATOPLANAR(BayerRGGB, 1, 2, I420, 2, 2, 4)
TESTATOPLANAR(BayerGBRG, 1, 2, I420, 2, 2, 4)
TESTATOPLANAR(BayerGRBG, 1, 2, I420, 2, 2, 4)
#define TESTATOBIPLANARI(FMT_A, BPP_A, FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y, \
W1280, N, NEG, OFF) \
TEST_F(libyuvTest, FMT_A##To##FMT_PLANAR##N) { \
const int kWidth = ((W1280) > 0) ? (W1280) : 1; \
const int kHeight = benchmark_height_; \
const int kStride = (kWidth * 8 * BPP_A + 7) / 8; \
align_buffer_64(src_argb, kStride * kHeight + OFF); \
align_buffer_64(dst_y_c, kWidth * kHeight); \
align_buffer_64(dst_uv_c, \
SUBSAMPLE(kWidth, SUBSAMP_X) * 2 * \
SUBSAMPLE(kHeight, SUBSAMP_Y)); \
align_buffer_64(dst_y_opt, kWidth * kHeight); \
align_buffer_64(dst_uv_opt, \
SUBSAMPLE(kWidth, SUBSAMP_X) * 2 * \
SUBSAMPLE(kHeight, SUBSAMP_Y)); \
srandom(time(NULL)); \
for (int i = 0; i < kHeight; ++i) \
for (int j = 0; j < kStride; ++j) \
src_argb[(i * kStride) + j + OFF] = (random() & 0xff); \
memset(dst_y_c, 1, kWidth * kHeight); \
memset(dst_uv_c, 2, SUBSAMPLE(kWidth, SUBSAMP_X) * 2 * \
SUBSAMPLE(kHeight, SUBSAMP_Y)); \
memset(dst_y_opt, 101, kWidth * kHeight); \
memset(dst_uv_opt, 102, SUBSAMPLE(kWidth, SUBSAMP_X) * 2 * \
SUBSAMPLE(kHeight, SUBSAMP_Y)); \
MaskCpuFlags(0); \
FMT_A##To##FMT_PLANAR(src_argb + OFF, kStride, \
dst_y_c, kWidth, \
dst_uv_c, SUBSAMPLE(kWidth, SUBSAMP_X) * 2, \
kWidth, NEG kHeight); \
MaskCpuFlags(-1); \
for (int i = 0; i < benchmark_iterations_; ++i) { \
FMT_A##To##FMT_PLANAR(src_argb + OFF, kStride, \
dst_y_opt, kWidth, \
dst_uv_opt, SUBSAMPLE(kWidth, SUBSAMP_X) * 2, \
kWidth, NEG kHeight); \
} \
int max_diff = 0; \
for (int i = 0; i < kHeight; ++i) { \
for (int j = 0; j < kWidth; ++j) { \
int abs_diff = \
abs(static_cast<int>(dst_y_c[i * kWidth + j]) - \
static_cast<int>(dst_y_opt[i * kWidth + j])); \
if (abs_diff > max_diff) { \
max_diff = abs_diff; \
} \
} \
} \
EXPECT_LE(max_diff, 4); \
for (int i = 0; i < SUBSAMPLE(kHeight, SUBSAMP_Y); ++i) { \
for (int j = 0; j < SUBSAMPLE(kWidth, SUBSAMP_X) * 2; ++j) { \
int abs_diff = \
abs(static_cast<int>(dst_uv_c[i * \
SUBSAMPLE(kWidth, SUBSAMP_X) * 2 + j]) - \
static_cast<int>(dst_uv_opt[i * \
SUBSAMPLE(kWidth, SUBSAMP_X) * 2 + j])); \
if (abs_diff > max_diff) { \
max_diff = abs_diff; \
} \
} \
} \
EXPECT_LE(max_diff, 4); \
free_aligned_buffer_64(dst_y_c); \
free_aligned_buffer_64(dst_uv_c); \
free_aligned_buffer_64(dst_y_opt); \
free_aligned_buffer_64(dst_uv_opt); \
free_aligned_buffer_64(src_argb); \
}
#define TESTATOBIPLANAR(FMT_A, BPP_A, FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y) \
TESTATOBIPLANARI(FMT_A, BPP_A, FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y, \
benchmark_width_ - 4, _Any, +, 0) \
TESTATOBIPLANARI(FMT_A, BPP_A, FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y, \
benchmark_width_, _Unaligned, +, 1) \
TESTATOBIPLANARI(FMT_A, BPP_A, FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y, \
benchmark_width_, _Invert, -, 0) \
TESTATOBIPLANARI(FMT_A, BPP_A, FMT_PLANAR, SUBSAMP_X, SUBSAMP_Y, \
benchmark_width_, _Opt, +, 0)
TESTATOBIPLANAR(ARGB, 4, NV12, 2, 2)
TESTATOBIPLANAR(ARGB, 4, NV21, 2, 2)
#define TESTATOBI(FMT_A, BPP_A, STRIDE_A, HEIGHT_A, \
FMT_B, BPP_B, STRIDE_B, HEIGHT_B, \
W1280, DIFF, N, NEG, OFF) \
TEST_F(libyuvTest, FMT_A##To##FMT_B##N) { \
const int kWidth = ((W1280) > 0) ? (W1280) : 1; \
const int kHeight = benchmark_height_; \
const int kHeightA = (kHeight + HEIGHT_A - 1) / HEIGHT_A * HEIGHT_A; \
const int kHeightB = (kHeight + HEIGHT_B - 1) / HEIGHT_B * HEIGHT_B; \
const int kStrideA = (kWidth * BPP_A + STRIDE_A - 1) / STRIDE_A * STRIDE_A; \
const int kStrideB = (kWidth * BPP_B + STRIDE_B - 1) / STRIDE_B * STRIDE_B; \
align_buffer_64(src_argb, kStrideA * kHeightA + OFF); \
align_buffer_64(dst_argb_c, kStrideB * kHeightB); \
align_buffer_64(dst_argb_opt, kStrideB * kHeightB); \
srandom(time(NULL)); \
for (int i = 0; i < kStrideA * kHeightA; ++i) { \
src_argb[i + OFF] = (random() & 0xff); \
} \
memset(dst_argb_c, 1, kStrideB * kHeightB); \
memset(dst_argb_opt, 101, kStrideB * kHeightB); \
MaskCpuFlags(0); \
FMT_A##To##FMT_B(src_argb + OFF, kStrideA, \
dst_argb_c, kStrideB, \
kWidth, NEG kHeight); \
MaskCpuFlags(-1); \
for (int i = 0; i < benchmark_iterations_; ++i) { \
FMT_A##To##FMT_B(src_argb + OFF, kStrideA, \
dst_argb_opt, kStrideB, \
kWidth, NEG kHeight); \
} \
int max_diff = 0; \
for (int i = 0; i < kStrideB * kHeightB; ++i) { \
int abs_diff = \
abs(static_cast<int>(dst_argb_c[i]) - \
static_cast<int>(dst_argb_opt[i])); \
if (abs_diff > max_diff) { \
max_diff = abs_diff; \
} \
} \
EXPECT_LE(max_diff, DIFF); \
free_aligned_buffer_64(src_argb); \
free_aligned_buffer_64(dst_argb_c); \
free_aligned_buffer_64(dst_argb_opt); \
}
#define TESTATOBRANDOM(FMT_A, BPP_A, STRIDE_A, HEIGHT_A, \
FMT_B, BPP_B, STRIDE_B, HEIGHT_B, DIFF) \
TEST_F(libyuvTest, FMT_A##To##FMT_B##_Random) { \
srandom(time(NULL)); \
for (int times = 0; times < benchmark_iterations_; ++times) { \
const int kWidth = (random() & 63) + 1; \
const int kHeight = (random() & 31) + 1; \
const int kHeightA = (kHeight + HEIGHT_A - 1) / HEIGHT_A * HEIGHT_A; \
const int kHeightB = (kHeight + HEIGHT_B - 1) / HEIGHT_B * HEIGHT_B; \
const int kStrideA = (kWidth * BPP_A + STRIDE_A - 1) / STRIDE_A * STRIDE_A;\
const int kStrideB = (kWidth * BPP_B + STRIDE_B - 1) / STRIDE_B * STRIDE_B;\
align_buffer_page_end(src_argb, kStrideA * kHeightA); \
align_buffer_page_end(dst_argb_c, kStrideB * kHeightB); \
align_buffer_page_end(dst_argb_opt, kStrideB * kHeightB); \
for (int i = 0; i < kStrideA * kHeightA; ++i) { \
src_argb[i] = (random() & 0xff); \
} \
memset(dst_argb_c, 123, kStrideB * kHeightB); \
memset(dst_argb_opt, 123, kStrideB * kHeightB); \
MaskCpuFlags(0); \
FMT_A##To##FMT_B(src_argb, kStrideA, \
dst_argb_c, kStrideB, \
kWidth, kHeight); \
MaskCpuFlags(-1); \
FMT_A##To##FMT_B(src_argb, kStrideA, \
dst_argb_opt, kStrideB, \
kWidth, kHeight); \
int max_diff = 0; \
for (int i = 0; i < kStrideB * kHeightB; ++i) { \
int abs_diff = \
abs(static_cast<int>(dst_argb_c[i]) - \
static_cast<int>(dst_argb_opt[i])); \
if (abs_diff > max_diff) { \
max_diff = abs_diff; \
} \
} \
EXPECT_LE(max_diff, DIFF); \
free_aligned_buffer_page_end(src_argb); \
free_aligned_buffer_page_end(dst_argb_c); \
free_aligned_buffer_page_end(dst_argb_opt); \
} \
}
#define TESTATOB(FMT_A, BPP_A, STRIDE_A, HEIGHT_A, \
FMT_B, BPP_B, STRIDE_B, HEIGHT_B, DIFF) \
TESTATOBI(FMT_A, BPP_A, STRIDE_A, HEIGHT_A, \
FMT_B, BPP_B, STRIDE_B, HEIGHT_B, \
benchmark_width_ - 4, DIFF, _Any, +, 0) \
TESTATOBI(FMT_A, BPP_A, STRIDE_A, HEIGHT_A, \
FMT_B, BPP_B, STRIDE_B, HEIGHT_B, \
benchmark_width_, DIFF, _Unaligned, +, 1) \
TESTATOBI(FMT_A, BPP_A, STRIDE_A, HEIGHT_A, \
FMT_B, BPP_B, STRIDE_B, HEIGHT_B, \
benchmark_width_, DIFF, _Invert, -, 0) \
TESTATOBI(FMT_A, BPP_A, STRIDE_A, HEIGHT_A, \
FMT_B, BPP_B, STRIDE_B, HEIGHT_B, \
benchmark_width_, DIFF, _Opt, +, 0) \
TESTATOBRANDOM(FMT_A, BPP_A, STRIDE_A, HEIGHT_A, \
FMT_B, BPP_B, STRIDE_B, HEIGHT_B, DIFF)
TESTATOB(ARGB, 4, 4, 1, ARGB, 4, 4, 1, 0)
TESTATOB(ARGB, 4, 4, 1, BGRA, 4, 4, 1, 0)
TESTATOB(ARGB, 4, 4, 1, ABGR, 4, 4, 1, 0)
TESTATOB(ARGB, 4, 4, 1, RGBA, 4, 4, 1, 0)
TESTATOB(ARGB, 4, 4, 1, RAW, 3, 3, 1, 0)
TESTATOB(ARGB, 4, 4, 1, RGB24, 3, 3, 1, 0)
TESTATOB(ARGB, 4, 4, 1, RGB565, 2, 2, 1, 0)
TESTATOB(ARGB, 4, 4, 1, ARGB1555, 2, 2, 1, 0)
TESTATOB(ARGB, 4, 4, 1, ARGB4444, 2, 2, 1, 0)
TESTATOB(ARGB, 4, 4, 1, BayerBGGR, 1, 1, 1, 0)
TESTATOB(ARGB, 4, 4, 1, BayerRGGB, 1, 1, 1, 0)
TESTATOB(ARGB, 4, 4, 1, BayerGBRG, 1, 1, 1, 0)
TESTATOB(ARGB, 4, 4, 1, BayerGRBG, 1, 1, 1, 0)
TESTATOB(ARGB, 4, 4, 1, YUY2, 2, 4, 1, 4)
TESTATOB(ARGB, 4, 4, 1, UYVY, 2, 4, 1, 4)
TESTATOB(ARGB, 4, 4, 1, I400, 1, 1, 1, 2)
TESTATOB(ARGB, 4, 4, 1, J400, 1, 1, 1, 2)
TESTATOB(BGRA, 4, 4, 1, ARGB, 4, 4, 1, 0)
TESTATOB(ABGR, 4, 4, 1, ARGB, 4, 4, 1, 0)
TESTATOB(RGBA, 4, 4, 1, ARGB, 4, 4, 1, 0)
TESTATOB(RAW, 3, 3, 1, ARGB, 4, 4, 1, 0)
TESTATOB(RGB24, 3, 3, 1, ARGB, 4, 4, 1, 0)
TESTATOB(RGB565, 2, 2, 1, ARGB, 4, 4, 1, 0)
TESTATOB(ARGB1555, 2, 2, 1, ARGB, 4, 4, 1, 0)
TESTATOB(ARGB4444, 2, 2, 1, ARGB, 4, 4, 1, 0)
TESTATOB(YUY2, 2, 4, 1, ARGB, 4, 4, 1, 4)
TESTATOB(UYVY, 2, 4, 1, ARGB, 4, 4, 1, 4)
TESTATOB(BayerBGGR, 1, 2, 2, ARGB, 4, 4, 1, 0)
TESTATOB(BayerRGGB, 1, 2, 2, ARGB, 4, 4, 1, 0)
TESTATOB(BayerGBRG, 1, 2, 2, ARGB, 4, 4, 1, 0)
TESTATOB(BayerGRBG, 1, 2, 2, ARGB, 4, 4, 1, 0)
TESTATOB(I400, 1, 1, 1, ARGB, 4, 4, 1, 0)
TESTATOB(I400, 1, 1, 1, I400, 1, 1, 1, 0)
TESTATOB(I400, 1, 1, 1, I400Mirror, 1, 1, 1, 0)
TESTATOB(Y, 1, 1, 1, ARGB, 4, 4, 1, 0)
TESTATOB(ARGB, 4, 4, 1, ARGBMirror, 4, 4, 1, 0)
TEST_F(libyuvTest, Test565) {
SIMD_ALIGNED(uint8 orig_pixels[256][4]);
SIMD_ALIGNED(uint8 pixels565[256][2]);
for (int i = 0; i < 256; ++i) {
for (int j = 0; j < 4; ++j) {
orig_pixels[i][j] = i;
}
}
ARGBToRGB565(&orig_pixels[0][0], 0, &pixels565[0][0], 0, 256, 1);
uint32 checksum = HashDjb2(&pixels565[0][0], sizeof(pixels565), 5381);
EXPECT_EQ(610919429u, checksum);
}
#ifdef HAVE_JPEG
TEST_F(libyuvTest, ValidateJpeg) {
const int kOff = 10;
const int kMinJpeg = 64;
const int kImageSize = benchmark_width_ * benchmark_height_ >= kMinJpeg ?
benchmark_width_ * benchmark_height_ : kMinJpeg;
const int kSize = kImageSize + kOff;
align_buffer_64(orig_pixels, kSize);
// No SOI or EOI. Expect fail.
memset(orig_pixels, 0, kSize);
// EOI, SOI. Expect pass.
orig_pixels[0] = 0xff;
orig_pixels[1] = 0xd8; // SOI.
orig_pixels[kSize - kOff + 0] = 0xff;
orig_pixels[kSize - kOff + 1] = 0xd9; // EOI.
for (int times = 0; times < benchmark_iterations_; ++times) {
EXPECT_TRUE(ValidateJpeg(orig_pixels, kSize));
}
free_aligned_buffer_page_end(orig_pixels);
}
TEST_F(libyuvTest, InvalidateJpeg) {
const int kOff = 10;
const int kMinJpeg = 64;
const int kImageSize = benchmark_width_ * benchmark_height_ >= kMinJpeg ?
benchmark_width_ * benchmark_height_ : kMinJpeg;
const int kSize = kImageSize + kOff;
align_buffer_64(orig_pixels, kSize);
// No SOI or EOI. Expect fail.
memset(orig_pixels, 0, kSize);
EXPECT_FALSE(ValidateJpeg(orig_pixels, kSize));
// SOI but no EOI. Expect fail.
orig_pixels[0] = 0xff;
orig_pixels[1] = 0xd8; // SOI.
for (int times = 0; times < benchmark_iterations_; ++times) {
EXPECT_FALSE(ValidateJpeg(orig_pixels, kSize));
}
// EOI but no SOI. Expect fail.
orig_pixels[0] = 0;
orig_pixels[1] = 0;
orig_pixels[kSize - kOff + 0] = 0xff;
orig_pixels[kSize - kOff + 1] = 0xd9; // EOI.
EXPECT_FALSE(ValidateJpeg(orig_pixels, kSize));
free_aligned_buffer_page_end(orig_pixels);
}
#endif
} // namespace libyuv
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