generic-library/openh264
1
0
Fork 0
Code Issues Pull Requests Releases Wiki Activity
0187c84f29
openh264/test/processing/ProcessUT_VaaCalc.cpp
zhiliang wang 0163eb520d Add UT for VaaCalc Functions.
2014-08-27 13:53:18 +08:00

847 lines
31 KiB
C++
Raw Blame History

#include <gtest/gtest.h>
#include "cpu.h"
#include "cpu_core.h"
#include "util.h"
#include "macros.h"
#include "IWelsVP.h"
#include "vaacalculation.h"
using namespace nsWelsVP;
void VAACalcSadSsd_ref (const uint8_t* pCurData, const uint8_t* pRefData, int32_t iPicWidth, int32_t iPicHeight,
int32_t iPicStride,
int32_t* pFrameSad, int32_t* pSad8x8, int32_t* pSum16x16, int32_t* psqsum16x16, int32_t* psqdiff16x16) {
const uint8_t* tmp_ref = pRefData;
const uint8_t* tmp_cur = pCurData;
int32_t iMbWidth = (iPicWidth >> 4);
int32_t mb_height = (iPicHeight >> 4);
int32_t mb_index = 0;
int32_t pic_stride_x8 = iPicStride << 3;
int32_t step = (iPicStride << 4) - iPicWidth;
*pFrameSad = 0;
for (int32_t i = 0; i < mb_height; i ++) {
for (int32_t j = 0; j < iMbWidth; j ++) {
int32_t k, l;
int32_t l_sad, l_sqdiff, l_sum, l_sqsum;
const uint8_t* tmp_cur_row;
const uint8_t* tmp_ref_row;
pSum16x16[mb_index] = 0;
psqsum16x16[mb_index] = 0;
psqdiff16x16[mb_index] = 0;
l_sad = l_sqdiff = l_sum = l_sqsum = 0;
tmp_cur_row = tmp_cur;
tmp_ref_row = tmp_ref;
for (k = 0; k < 8; k ++) {
for (l = 0; l < 8; l ++) {
int32_t diff = WELS_ABS (tmp_cur_row[l] - tmp_ref_row[l]);
l_sad += diff;
l_sqdiff += diff * diff;
l_sum += tmp_cur_row[l];
l_sqsum += tmp_cur_row[l] * tmp_cur_row[l];
}
tmp_cur_row += iPicStride;
tmp_ref_row += iPicStride;
}
*pFrameSad += l_sad;
pSad8x8[ (mb_index << 2) + 0] = l_sad;
pSum16x16[mb_index] += l_sum;
psqsum16x16[mb_index] += l_sqsum;
psqdiff16x16[mb_index] += l_sqdiff;
l_sad = l_sqdiff = l_sum = l_sqsum = 0;
tmp_cur_row = tmp_cur + 8;
tmp_ref_row = tmp_ref + 8;
for (k = 0; k < 8; k ++) {
for (l = 0; l < 8; l ++) {
int32_t diff = WELS_ABS (tmp_cur_row[l] - tmp_ref_row[l]);
l_sad += diff;
l_sqdiff += diff * diff;
l_sum += tmp_cur_row[l];
l_sqsum += tmp_cur_row[l] * tmp_cur_row[l];
}
tmp_cur_row += iPicStride;
tmp_ref_row += iPicStride;
}
*pFrameSad += l_sad;
pSad8x8[ (mb_index << 2) + 1] = l_sad;
pSum16x16[mb_index] += l_sum;
psqsum16x16[mb_index] += l_sqsum;
psqdiff16x16[mb_index] += l_sqdiff;
l_sad = l_sqdiff = l_sum = l_sqsum = 0;
tmp_cur_row = tmp_cur + pic_stride_x8;
tmp_ref_row = tmp_ref + pic_stride_x8;
for (k = 0; k < 8; k ++) {
for (l = 0; l < 8; l ++) {
int32_t diff = WELS_ABS (tmp_cur_row[l] - tmp_ref_row[l]);
l_sad += diff;
l_sqdiff += diff * diff;
l_sum += tmp_cur_row[l];
l_sqsum += tmp_cur_row[l] * tmp_cur_row[l];
}
tmp_cur_row += iPicStride;
tmp_ref_row += iPicStride;
}
*pFrameSad += l_sad;
pSad8x8[ (mb_index << 2) + 2] = l_sad;
pSum16x16[mb_index] += l_sum;
psqsum16x16[mb_index] += l_sqsum;
psqdiff16x16[mb_index] += l_sqdiff;
l_sad = l_sqdiff = l_sum = l_sqsum = 0;
tmp_cur_row = tmp_cur + pic_stride_x8 + 8;
tmp_ref_row = tmp_ref + pic_stride_x8 + 8;
for (k = 0; k < 8; k ++) {
for (l = 0; l < 8; l ++) {
int32_t diff = WELS_ABS (tmp_cur_row[l] - tmp_ref_row[l]);
l_sad += diff;
l_sqdiff += diff * diff;
l_sum += tmp_cur_row[l];
l_sqsum += tmp_cur_row[l] * tmp_cur_row[l];
}
tmp_cur_row += iPicStride;
tmp_ref_row += iPicStride;
}
*pFrameSad += l_sad;
pSad8x8[ (mb_index << 2) + 3] = l_sad;
pSum16x16[mb_index] += l_sum;
psqsum16x16[mb_index] += l_sqsum;
psqdiff16x16[mb_index] += l_sqdiff;
tmp_ref += 16;
tmp_cur += 16;
++mb_index;
}
tmp_ref += step;
tmp_cur += step;
}
}
void VAACalcSadVar_ref (const uint8_t* pCurData, const uint8_t* pRefData, int32_t iPicWidth, int32_t iPicHeight,
int32_t iPicStride,
int32_t* pFrameSad, int32_t* pSad8x8, int32_t* pSum16x16, int32_t* psqsum16x16) {
const uint8_t* tmp_ref = pRefData;
const uint8_t* tmp_cur = pCurData;
int32_t iMbWidth = (iPicWidth >> 4);
int32_t mb_height = (iPicHeight >> 4);
int32_t mb_index = 0;
int32_t pic_stride_x8 = iPicStride << 3;
int32_t step = (iPicStride << 4) - iPicWidth;
*pFrameSad = 0;
for (int32_t i = 0; i < mb_height; i ++) {
for (int32_t j = 0; j < iMbWidth; j ++) {
int32_t k, l;
int32_t l_sad, l_sum, l_sqsum;
const uint8_t* tmp_cur_row;
const uint8_t* tmp_ref_row;
pSum16x16[mb_index] = 0;
psqsum16x16[mb_index] = 0;
l_sad = l_sum = l_sqsum = 0;
tmp_cur_row = tmp_cur;
tmp_ref_row = tmp_ref;
for (k = 0; k < 8; k ++) {
for (l = 0; l < 8; l ++) {
int32_t diff = WELS_ABS (tmp_cur_row[l] - tmp_ref_row[l]);
l_sad += diff;
l_sum += tmp_cur_row[l];
l_sqsum += tmp_cur_row[l] * tmp_cur_row[l];
}
tmp_cur_row += iPicStride;
tmp_ref_row += iPicStride;
}
*pFrameSad += l_sad;
pSad8x8[ (mb_index << 2) + 0] = l_sad;
pSum16x16[mb_index] += l_sum;
psqsum16x16[mb_index] += l_sqsum;
l_sad = l_sum = l_sqsum = 0;
tmp_cur_row = tmp_cur + 8;
tmp_ref_row = tmp_ref + 8;
for (k = 0; k < 8; k ++) {
for (l = 0; l < 8; l ++) {
int32_t diff = WELS_ABS (tmp_cur_row[l] - tmp_ref_row[l]);
l_sad += diff;
l_sum += tmp_cur_row[l];
l_sqsum += tmp_cur_row[l] * tmp_cur_row[l];
}
tmp_cur_row += iPicStride;
tmp_ref_row += iPicStride;
}
*pFrameSad += l_sad;
pSad8x8[ (mb_index << 2) + 1] = l_sad;
pSum16x16[mb_index] += l_sum;
psqsum16x16[mb_index] += l_sqsum;
l_sad = l_sum = l_sqsum = 0;
tmp_cur_row = tmp_cur + pic_stride_x8;
tmp_ref_row = tmp_ref + pic_stride_x8;
for (k = 0; k < 8; k ++) {
for (l = 0; l < 8; l ++) {
int32_t diff = WELS_ABS (tmp_cur_row[l] - tmp_ref_row[l]);
l_sad += diff;
l_sum += tmp_cur_row[l];
l_sqsum += tmp_cur_row[l] * tmp_cur_row[l];
}
tmp_cur_row += iPicStride;
tmp_ref_row += iPicStride;
}
*pFrameSad += l_sad;
pSad8x8[ (mb_index << 2) + 2] = l_sad;
pSum16x16[mb_index] += l_sum;
psqsum16x16[mb_index] += l_sqsum;
l_sad = l_sum = l_sqsum = 0;
tmp_cur_row = tmp_cur + pic_stride_x8 + 8;
tmp_ref_row = tmp_ref + pic_stride_x8 + 8;
for (k = 0; k < 8; k ++) {
for (l = 0; l < 8; l ++) {
int32_t diff = WELS_ABS (tmp_cur_row[l] - tmp_ref_row[l]);
l_sad += diff;
l_sum += tmp_cur_row[l];
l_sqsum += tmp_cur_row[l] * tmp_cur_row[l];
}
tmp_cur_row += iPicStride;
tmp_ref_row += iPicStride;
}
*pFrameSad += l_sad;
pSad8x8[ (mb_index << 2) + 3] = l_sad;
pSum16x16[mb_index] += l_sum;
psqsum16x16[mb_index] += l_sqsum;
tmp_ref += 16;
tmp_cur += 16;
++mb_index;
}
tmp_ref += step;
tmp_cur += step;
}
}
void VAACalcSad_ref (const uint8_t* pCurData, const uint8_t* pRefData, int32_t iPicWidth, int32_t iPicHeight,
int32_t iPicStride,
int32_t* pFrameSad, int32_t* pSad8x8) {
const uint8_t* tmp_ref = pRefData;
const uint8_t* tmp_cur = pCurData;
int32_t iMbWidth = (iPicWidth >> 4);
int32_t mb_height = (iPicHeight >> 4);
int32_t mb_index = 0;
int32_t pic_stride_x8 = iPicStride << 3;
int32_t step = (iPicStride << 4) - iPicWidth;
*pFrameSad = 0;
for (int32_t i = 0; i < mb_height; i ++) {
for (int32_t j = 0; j < iMbWidth; j ++) {
int32_t k, l;
int32_t l_sad;
const uint8_t* tmp_cur_row;
const uint8_t* tmp_ref_row;
l_sad = 0;
tmp_cur_row = tmp_cur;
tmp_ref_row = tmp_ref;
for (k = 0; k < 8; k ++) {
for (l = 0; l < 8; l ++) {
int32_t diff = WELS_ABS (tmp_cur_row[l] - tmp_ref_row[l]);
l_sad += diff;
}
tmp_cur_row += iPicStride;
tmp_ref_row += iPicStride;
}
*pFrameSad += l_sad;
pSad8x8[ (mb_index << 2) + 0] = l_sad;
l_sad = 0;
tmp_cur_row = tmp_cur + 8;
tmp_ref_row = tmp_ref + 8;
for (k = 0; k < 8; k ++) {
for (l = 0; l < 8; l ++) {
int32_t diff = WELS_ABS (tmp_cur_row[l] - tmp_ref_row[l]);
l_sad += diff;
}
tmp_cur_row += iPicStride;
tmp_ref_row += iPicStride;
}
*pFrameSad += l_sad;
pSad8x8[ (mb_index << 2) + 1] = l_sad;
l_sad = 0;
tmp_cur_row = tmp_cur + pic_stride_x8;
tmp_ref_row = tmp_ref + pic_stride_x8;
for (k = 0; k < 8; k ++) {
for (l = 0; l < 8; l ++) {
int32_t diff = WELS_ABS (tmp_cur_row[l] - tmp_ref_row[l]);
l_sad += diff;
}
tmp_cur_row += iPicStride;
tmp_ref_row += iPicStride;
}
*pFrameSad += l_sad;
pSad8x8[ (mb_index << 2) + 2] = l_sad;
l_sad = 0;
tmp_cur_row = tmp_cur + pic_stride_x8 + 8;
tmp_ref_row = tmp_ref + pic_stride_x8 + 8;
for (k = 0; k < 8; k ++) {
for (l = 0; l < 8; l ++) {
int32_t diff = WELS_ABS (tmp_cur_row[l] - tmp_ref_row[l]);
l_sad += diff;
}
tmp_cur_row += iPicStride;
tmp_ref_row += iPicStride;
}
*pFrameSad += l_sad;
pSad8x8[ (mb_index << 2) + 3] = l_sad;
tmp_ref += 16;
tmp_cur += 16;
++mb_index;
}
tmp_ref += step;
tmp_cur += step;
}
}
void VAACalcSadSsdBgd_ref (const uint8_t* pCurData, const uint8_t* pRefData, int32_t iPicWidth, int32_t iPicHeight,
int32_t iPicStride,
int32_t* pFrameSad, int32_t* pSad8x8, int32_t* pSum16x16, int32_t* psqsum16x16, int32_t* psqdiff16x16, int32_t* pSd8x8,
uint8_t* pMad8x8) {
const uint8_t* tmp_ref = pRefData;
const uint8_t* tmp_cur = pCurData;
int32_t iMbWidth = (iPicWidth >> 4);
int32_t mb_height = (iPicHeight >> 4);
int32_t mb_index = 0;
int32_t pic_stride_x8 = iPicStride << 3;
int32_t step = (iPicStride << 4) - iPicWidth;
*pFrameSad = 0;
for (int32_t i = 0; i < mb_height; i ++) {
for (int32_t j = 0; j < iMbWidth; j ++) {
int32_t k, l;
int32_t l_sad, l_sqdiff, l_sum, l_sqsum, l_sd, l_mad;
const uint8_t* tmp_cur_row;
const uint8_t* tmp_ref_row;
pSum16x16[mb_index] = 0;
psqsum16x16[mb_index] = 0;
psqdiff16x16[mb_index] = 0;
l_sd = l_mad = l_sad = l_sqdiff = l_sum = l_sqsum = 0;
tmp_cur_row = tmp_cur;
tmp_ref_row = tmp_ref;
for (k = 0; k < 8; k ++) {
for (l = 0; l < 8; l ++) {
int32_t diff = tmp_cur_row[l] - tmp_ref_row[l];
int32_t abs_diff = WELS_ABS (diff);
l_sd += diff;
if (abs_diff > l_mad) {
l_mad = abs_diff;
}
l_sad += abs_diff;
l_sqdiff += abs_diff * abs_diff;
l_sum += tmp_cur_row[l];
l_sqsum += tmp_cur_row[l] * tmp_cur_row[l];
}
tmp_cur_row += iPicStride;
tmp_ref_row += iPicStride;
}
*pFrameSad += l_sad;
pSad8x8[ (mb_index << 2) + 0] = l_sad;
pSum16x16[mb_index] += l_sum;
psqsum16x16[mb_index] += l_sqsum;
psqdiff16x16[mb_index] += l_sqdiff;
pSd8x8[ (mb_index << 2) + 0] = l_sd;
pMad8x8[ (mb_index << 2) + 0] = l_mad;
l_sd = l_mad = l_sad = l_sqdiff = l_sum = l_sqsum = 0;
tmp_cur_row = tmp_cur + 8;
tmp_ref_row = tmp_ref + 8;
for (k = 0; k < 8; k ++) {
for (l = 0; l < 8; l ++) {
int32_t diff = tmp_cur_row[l] - tmp_ref_row[l];
int32_t abs_diff = WELS_ABS (diff);
l_sd += diff;
if (abs_diff > l_mad) {
l_mad = abs_diff;
}
l_sad += abs_diff;
l_sqdiff += abs_diff * abs_diff;
l_sum += tmp_cur_row[l];
l_sqsum += tmp_cur_row[l] * tmp_cur_row[l];
}
tmp_cur_row += iPicStride;
tmp_ref_row += iPicStride;
}
*pFrameSad += l_sad;
pSad8x8[ (mb_index << 2) + 1] = l_sad;
pSum16x16[mb_index] += l_sum;
psqsum16x16[mb_index] += l_sqsum;
psqdiff16x16[mb_index] += l_sqdiff;
pSd8x8[ (mb_index << 2) + 1] = l_sd;
pMad8x8[ (mb_index << 2) + 1] = l_mad;
l_sd = l_mad = l_sad = l_sqdiff = l_sum = l_sqsum = 0;
tmp_cur_row = tmp_cur + pic_stride_x8;
tmp_ref_row = tmp_ref + pic_stride_x8;
for (k = 0; k < 8; k ++) {
for (l = 0; l < 8; l ++) {
int32_t diff = tmp_cur_row[l] - tmp_ref_row[l];
int32_t abs_diff = WELS_ABS (diff);
l_sd += diff;
if (abs_diff > l_mad) {
l_mad = abs_diff;
}
l_sad += abs_diff;
l_sqdiff += abs_diff * abs_diff;
l_sum += tmp_cur_row[l];
l_sqsum += tmp_cur_row[l] * tmp_cur_row[l];
}
tmp_cur_row += iPicStride;
tmp_ref_row += iPicStride;
}
*pFrameSad += l_sad;
pSad8x8[ (mb_index << 2) + 2] = l_sad;
pSum16x16[mb_index] += l_sum;
psqsum16x16[mb_index] += l_sqsum;
psqdiff16x16[mb_index] += l_sqdiff;
pSd8x8[ (mb_index << 2) + 2] = l_sd;
pMad8x8[ (mb_index << 2) + 2] = l_mad;
l_sd = l_mad = l_sad = l_sqdiff = l_sum = l_sqsum = 0;
tmp_cur_row = tmp_cur + pic_stride_x8 + 8;
tmp_ref_row = tmp_ref + pic_stride_x8 + 8;
for (k = 0; k < 8; k ++) {
for (l = 0; l < 8; l ++) {
int32_t diff = tmp_cur_row[l] - tmp_ref_row[l];
int32_t abs_diff = WELS_ABS (diff);
l_sd += diff;
if (abs_diff > l_mad) {
l_mad = abs_diff;
}
l_sad += abs_diff;
l_sqdiff += abs_diff * abs_diff;
l_sum += tmp_cur_row[l];
l_sqsum += tmp_cur_row[l] * tmp_cur_row[l];
}
tmp_cur_row += iPicStride;
tmp_ref_row += iPicStride;
}
*pFrameSad += l_sad;
pSad8x8[ (mb_index << 2) + 3] = l_sad;
pSum16x16[mb_index] += l_sum;
psqsum16x16[mb_index] += l_sqsum;
psqdiff16x16[mb_index] += l_sqdiff;
pSd8x8[ (mb_index << 2) + 3] = l_sd;
pMad8x8[ (mb_index << 2) + 3] = l_mad;
tmp_ref += 16;
tmp_cur += 16;
++mb_index;
}
tmp_ref += step;
tmp_cur += step;
}
}
void VAACalcSadBgd_ref (const uint8_t* pCurData, const uint8_t* pRefData, int32_t iPicWidth, int32_t iPicHeight,
int32_t iPicStride,
int32_t* pFrameSad, int32_t* pSad8x8, int32_t* pSd8x8, uint8_t* pMad8x8) {
const uint8_t* tmp_ref = pRefData;
const uint8_t* tmp_cur = pCurData;
int32_t iMbWidth = (iPicWidth >> 4);
int32_t mb_height = (iPicHeight >> 4);
int32_t mb_index = 0;
int32_t pic_stride_x8 = iPicStride << 3;
int32_t step = (iPicStride << 4) - iPicWidth;
*pFrameSad = 0;
for (int32_t i = 0; i < mb_height; i ++) {
for (int32_t j = 0; j < iMbWidth; j ++) {
int32_t k, l;
int32_t l_sad, l_sd, l_mad;
const uint8_t* tmp_cur_row;
const uint8_t* tmp_ref_row;
l_mad = l_sd = l_sad = 0;
tmp_cur_row = tmp_cur;
tmp_ref_row = tmp_ref;
for (k = 0; k < 8; k ++) {
for (l = 0; l < 8; l ++) {
int32_t diff = tmp_cur_row[l] - tmp_ref_row[l];
int32_t abs_diff = WELS_ABS (diff);
l_sd += diff;
l_sad += abs_diff;
if (abs_diff > l_mad) {
l_mad = abs_diff;
}
}
tmp_cur_row += iPicStride;
tmp_ref_row += iPicStride;
}
*pFrameSad += l_sad;
pSad8x8[ (mb_index << 2) + 0] = l_sad;
pSd8x8[ (mb_index << 2) + 0] = l_sd;
pMad8x8[ (mb_index << 2) + 0] = l_mad;
l_mad = l_sd = l_sad = 0;
tmp_cur_row = tmp_cur + 8;
tmp_ref_row = tmp_ref + 8;
for (k = 0; k < 8; k ++) {
for (l = 0; l < 8; l ++) {
int32_t diff = tmp_cur_row[l] - tmp_ref_row[l];
int32_t abs_diff = WELS_ABS (diff);
l_sd += diff;
l_sad += abs_diff;
if (abs_diff > l_mad) {
l_mad = abs_diff;
}
}
tmp_cur_row += iPicStride;
tmp_ref_row += iPicStride;
}
*pFrameSad += l_sad;
pSad8x8[ (mb_index << 2) + 1] = l_sad;
pSd8x8[ (mb_index << 2) + 1] = l_sd;
pMad8x8[ (mb_index << 2) + 1] = l_mad;
l_mad = l_sd = l_sad = 0;
tmp_cur_row = tmp_cur + pic_stride_x8;
tmp_ref_row = tmp_ref + pic_stride_x8;
for (k = 0; k < 8; k ++) {
for (l = 0; l < 8; l ++) {
int32_t diff = tmp_cur_row[l] - tmp_ref_row[l];
int32_t abs_diff = WELS_ABS (diff);
l_sd += diff;
l_sad += abs_diff;
if (abs_diff > l_mad) {
l_mad = abs_diff;
}
}
tmp_cur_row += iPicStride;
tmp_ref_row += iPicStride;
}
*pFrameSad += l_sad;
pSad8x8[ (mb_index << 2) + 2] = l_sad;
pSd8x8[ (mb_index << 2) + 2] = l_sd;
pMad8x8[ (mb_index << 2) + 2] = l_mad;
l_mad = l_sd = l_sad = 0;
tmp_cur_row = tmp_cur + pic_stride_x8 + 8;
tmp_ref_row = tmp_ref + pic_stride_x8 + 8;
for (k = 0; k < 8; k ++) {
for (l = 0; l < 8; l ++) {
int32_t diff = tmp_cur_row[l] - tmp_ref_row[l];
int32_t abs_diff = WELS_ABS (diff);
l_sd += diff;
l_sad += abs_diff;
if (abs_diff > l_mad) {
l_mad = abs_diff;
}
}
tmp_cur_row += iPicStride;
tmp_ref_row += iPicStride;
}
*pFrameSad += l_sad;
pSad8x8[ (mb_index << 2) + 3] = l_sad;
pSd8x8[ (mb_index << 2) + 3] = l_sd;
pMad8x8[ (mb_index << 2) + 3] = l_mad;
tmp_ref += 16;
tmp_cur += 16;
++mb_index;
}
tmp_ref += step;
tmp_cur += step;
}
}
#define BUFFER_SIZE (320*320)
#define GENERATE_VAACalcSad_UT(func, ASM, CPUFLAGS) \
TEST (VAACalcFuncTest, func) { \
if (ASM) {\
int32_t iCpuCores = 0; \
uint32_t m_uiCpuFeatureFlag = WelsCPUFeatureDetect (&iCpuCores); \
if (0 == (m_uiCpuFeatureFlag & CPUFLAGS)) \
return; \
} \
ENFORCE_STACK_ALIGN_1D (uint8_t, cur_data_c, BUFFER_SIZE, 16); \
ENFORCE_STACK_ALIGN_1D (uint8_t, ref_data_c, BUFFER_SIZE, 16); \
ENFORCE_STACK_ALIGN_1D (int32_t, psad8x8_c, BUFFER_SIZE/64, 16); \
int32_t pic_width_c; \
int32_t pic_height_c; \
int32_t pic_stride_c; \
int32_t psadframe_c; \
ENFORCE_STACK_ALIGN_1D (uint8_t, cur_data_a, BUFFER_SIZE, 16); \
ENFORCE_STACK_ALIGN_1D (uint8_t, ref_data_a, BUFFER_SIZE, 16); \
ENFORCE_STACK_ALIGN_1D (int32_t, psad8x8_a, BUFFER_SIZE/64, 16); \
int32_t pic_width_a; \
int32_t pic_height_a; \
int32_t pic_stride_a; \
int32_t psadframe_a; \
pic_width_c = pic_width_a = 320-16; \
pic_height_c = pic_height_a = 320; \
pic_stride_c = pic_stride_a = 320; \
psadframe_c = psadframe_a = 0; \
for (int j=0; j<BUFFER_SIZE; j++) { \
cur_data_c[j] = cur_data_a[j] = (rand()%256); \
ref_data_c[j] = ref_data_a[j] = (rand()%256); \
psad8x8_c[j%(BUFFER_SIZE/64)] = psad8x8_a[j%(BUFFER_SIZE/64)] = (rand()%256); \
} \
VAACalcSad_ref (cur_data_c, ref_data_c, pic_width_c, pic_height_c, pic_stride_c, &psadframe_c, psad8x8_c); \
func (cur_data_a, ref_data_a, pic_width_a, pic_height_a, pic_stride_a, &psadframe_a, psad8x8_a); \
ASSERT_EQ (psadframe_a, psadframe_c); \
for (int j=0; j<(BUFFER_SIZE/64); j++) \
ASSERT_EQ (psad8x8_a[j], psad8x8_c[j]); \
}
#define GENERATE_VAACalcSadBgd_UT(func, ASM, CPUFLAGS) \
TEST (VAACalcFuncTest, func) { \
if (ASM) {\
int32_t iCpuCores = 0; \
uint32_t m_uiCpuFeatureFlag = WelsCPUFeatureDetect (&iCpuCores); \
if (0 == (m_uiCpuFeatureFlag & CPUFLAGS)) \
return; \
} \
ENFORCE_STACK_ALIGN_1D (uint8_t, cur_data_c, BUFFER_SIZE, 16); \
ENFORCE_STACK_ALIGN_1D (uint8_t, ref_data_c, BUFFER_SIZE, 16); \
ENFORCE_STACK_ALIGN_1D (int32_t, psad8x8_c, BUFFER_SIZE/64, 16); \
ENFORCE_STACK_ALIGN_1D (int32_t, psd8x8_c, BUFFER_SIZE/64, 16); \
ENFORCE_STACK_ALIGN_1D (uint8_t, pmad8x8_c, BUFFER_SIZE/64, 16); \
int32_t pic_width_c; \
int32_t pic_height_c; \
int32_t pic_stride_c; \
int32_t psadframe_c; \
ENFORCE_STACK_ALIGN_1D (uint8_t, cur_data_a, BUFFER_SIZE, 16); \
ENFORCE_STACK_ALIGN_1D (uint8_t, ref_data_a, BUFFER_SIZE, 16); \
ENFORCE_STACK_ALIGN_1D (int32_t, psad8x8_a, BUFFER_SIZE/64, 16); \
ENFORCE_STACK_ALIGN_1D (int32_t, psd8x8_a, BUFFER_SIZE/64, 16); \
ENFORCE_STACK_ALIGN_1D (uint8_t, pmad8x8_a, BUFFER_SIZE/64, 16); \
int32_t pic_width_a; \
int32_t pic_height_a; \
int32_t pic_stride_a; \
int32_t psadframe_a; \
pic_width_c = pic_width_a = 320-16; \
pic_height_c = pic_height_a = 320; \
pic_stride_c = pic_stride_a = 320; \
psadframe_c = psadframe_a = 0; \
for (int j=0; j<BUFFER_SIZE; j++) { \
cur_data_c[j] = cur_data_a[j] = (rand()%256); \
ref_data_c[j] = ref_data_a[j] = (rand()%256); \
psad8x8_c[j%(BUFFER_SIZE/64)] = psad8x8_a[j%(BUFFER_SIZE/64)] = (rand()%256); \
psd8x8_c[j%(BUFFER_SIZE/64)] = psd8x8_a[j%(BUFFER_SIZE/64)] = (rand()%256); \
pmad8x8_c[j%(BUFFER_SIZE/64)] = pmad8x8_a[j%(BUFFER_SIZE/64)] = (rand()%256); \
} \
VAACalcSadBgd_ref (cur_data_c, ref_data_c, pic_width_c, pic_height_c, pic_stride_c, &psadframe_c, psad8x8_c, psd8x8_c, pmad8x8_c); \
func (cur_data_a, ref_data_a, pic_width_a, pic_height_a, pic_stride_a, &psadframe_a, psad8x8_a, psd8x8_a, pmad8x8_a); \
ASSERT_EQ (psadframe_a, psadframe_c); \
for (int j=0; j<(BUFFER_SIZE/64); j++) {\
ASSERT_EQ (psad8x8_a[j], psad8x8_c[j]); \
ASSERT_EQ (psd8x8_a[j], psd8x8_c[j]); \
ASSERT_EQ (pmad8x8_a[j], pmad8x8_c[j]); \
} \
}
#define GENERATE_VAACalcSadSsd_UT(func, ASM, CPUFLAGS) \
TEST (VAACalcFuncTest, func) { \
if (ASM) {\
int32_t iCpuCores = 0; \
uint32_t m_uiCpuFeatureFlag = WelsCPUFeatureDetect (&iCpuCores); \
if (0 == (m_uiCpuFeatureFlag & CPUFLAGS)) \
return; \
} \
ENFORCE_STACK_ALIGN_1D (uint8_t, cur_data_c, BUFFER_SIZE, 16); \
ENFORCE_STACK_ALIGN_1D (uint8_t, ref_data_c, BUFFER_SIZE, 16); \
ENFORCE_STACK_ALIGN_1D (int32_t, psad8x8_c, BUFFER_SIZE/64, 16); \
ENFORCE_STACK_ALIGN_1D (int32_t, psum16x16_c, BUFFER_SIZE/256, 16); \
ENFORCE_STACK_ALIGN_1D (int32_t, psqsum16x16_c, BUFFER_SIZE/256, 16); \
ENFORCE_STACK_ALIGN_1D (int32_t, psqdiff16x16_c, BUFFER_SIZE/256, 16); \
int32_t pic_width_c; \
int32_t pic_height_c; \
int32_t pic_stride_c; \
int32_t psadframe_c; \
ENFORCE_STACK_ALIGN_1D (uint8_t, cur_data_a, BUFFER_SIZE, 16); \
ENFORCE_STACK_ALIGN_1D (uint8_t, ref_data_a, BUFFER_SIZE, 16); \
ENFORCE_STACK_ALIGN_1D (int32_t, psad8x8_a, BUFFER_SIZE/64, 16); \
ENFORCE_STACK_ALIGN_1D (int32_t, psum16x16_a, BUFFER_SIZE/256, 16); \
ENFORCE_STACK_ALIGN_1D (int32_t, psqsum16x16_a, BUFFER_SIZE/256, 16); \
ENFORCE_STACK_ALIGN_1D (int32_t, psqdiff16x16_a, BUFFER_SIZE/256, 16); \
int32_t pic_width_a; \
int32_t pic_height_a; \
int32_t pic_stride_a; \
int32_t psadframe_a; \
pic_width_c = pic_width_a = 320-16; \
pic_height_c = pic_height_a = 320; \
pic_stride_c = pic_stride_a = 320; \
psadframe_c = psadframe_a = 0; \
for (int j=0; j<BUFFER_SIZE; j++) { \
cur_data_c[j] = cur_data_a[j] = (rand()%256); \
ref_data_c[j] = ref_data_a[j] = (rand()%256); \
psad8x8_c[j%(BUFFER_SIZE/64)] = psad8x8_a[j%(BUFFER_SIZE/64)] = (rand()%256); \
psum16x16_c[j%(BUFFER_SIZE/256)] = psum16x16_a[j%(BUFFER_SIZE/256)] = (rand()%256); \
psqsum16x16_c[j%(BUFFER_SIZE/256)] = psqsum16x16_a[j%(BUFFER_SIZE/256)] = (rand()%256); \
psqdiff16x16_c[j%(BUFFER_SIZE/256)] = psqdiff16x16_a[j%(BUFFER_SIZE/256)] = (rand()%256); \
} \
VAACalcSadSsd_ref (cur_data_c, ref_data_c, pic_width_c, pic_height_c, pic_stride_c, &psadframe_c, psad8x8_c, psum16x16_c, psqsum16x16_c, psqdiff16x16_c); \
func (cur_data_a, ref_data_a, pic_width_a, pic_height_a, pic_stride_a, &psadframe_a, psad8x8_a, psum16x16_a, psqsum16x16_a, psqdiff16x16_a); \
ASSERT_EQ (psadframe_a, psadframe_c); \
for (int j=0; j<(BUFFER_SIZE/64); j++) {\
ASSERT_EQ (psad8x8_a[j], psad8x8_c[j]); \
} \
for (int j=0; j<(BUFFER_SIZE/256); j++) {\
ASSERT_EQ (psum16x16_a[j], psum16x16_c[j]); \
ASSERT_EQ (psqsum16x16_a[j], psqsum16x16_c[j]); \
ASSERT_EQ (psqdiff16x16_a[j], psqdiff16x16_c[j]); \
} \
}
#define GENERATE_VAACalcSadVar_UT(func, ASM, CPUFLAGS) \
TEST (VAACalcFuncTest, func) { \
if (ASM) {\
int32_t iCpuCores = 0; \
uint32_t m_uiCpuFeatureFlag = WelsCPUFeatureDetect (&iCpuCores); \
if (0 == (m_uiCpuFeatureFlag & CPUFLAGS)) \
return; \
} \
ENFORCE_STACK_ALIGN_1D (uint8_t, cur_data_c, BUFFER_SIZE, 16); \
ENFORCE_STACK_ALIGN_1D (uint8_t, ref_data_c, BUFFER_SIZE, 16); \
ENFORCE_STACK_ALIGN_1D (int32_t, psad8x8_c, BUFFER_SIZE/64, 16); \
ENFORCE_STACK_ALIGN_1D (int32_t, psum16x16_c, BUFFER_SIZE/256, 16); \
ENFORCE_STACK_ALIGN_1D (int32_t, psqsum16x16_c, BUFFER_SIZE/256, 16); \
int32_t pic_width_c; \
int32_t pic_height_c; \
int32_t pic_stride_c; \
int32_t psadframe_c; \
ENFORCE_STACK_ALIGN_1D (uint8_t, cur_data_a, BUFFER_SIZE, 16); \
ENFORCE_STACK_ALIGN_1D (uint8_t, ref_data_a, BUFFER_SIZE, 16); \
ENFORCE_STACK_ALIGN_1D (int32_t, psad8x8_a, BUFFER_SIZE/64, 16); \
ENFORCE_STACK_ALIGN_1D (int32_t, psum16x16_a, BUFFER_SIZE/256, 16); \
ENFORCE_STACK_ALIGN_1D (int32_t, psqsum16x16_a, BUFFER_SIZE/256, 16); \
int32_t pic_width_a; \
int32_t pic_height_a; \
int32_t pic_stride_a; \
int32_t psadframe_a; \
pic_width_c = pic_width_a = 320-16; \
pic_height_c = pic_height_a = 320; \
pic_stride_c = pic_stride_a = 320; \
psadframe_c = psadframe_a = 0; \
for (int j=0; j<BUFFER_SIZE; j++) { \
cur_data_c[j] = cur_data_a[j] = (rand()%256); \
ref_data_c[j] = ref_data_a[j] = (rand()%256); \
psad8x8_c[j%(BUFFER_SIZE/64)] = psad8x8_a[j%(BUFFER_SIZE/64)] = (rand()%256); \
psum16x16_c[j%(BUFFER_SIZE/256)] = psum16x16_a[j%(BUFFER_SIZE/256)] = (rand()%256); \
psqsum16x16_c[j%(BUFFER_SIZE/256)] = psqsum16x16_a[j%(BUFFER_SIZE/256)] = (rand()%256); \
} \
VAACalcSadVar_ref (cur_data_c, ref_data_c, pic_width_c, pic_height_c, pic_stride_c, &psadframe_c, psad8x8_c, psum16x16_c, psqsum16x16_c); \
func (cur_data_a, ref_data_a, pic_width_a, pic_height_a, pic_stride_a, &psadframe_a, psad8x8_a, psum16x16_a, psqsum16x16_a); \
ASSERT_EQ (psadframe_a, psadframe_c); \
for (int j=0; j<(BUFFER_SIZE/64); j++) {\
ASSERT_EQ (psad8x8_a[j], psad8x8_c[j]); \
} \
for (int j=0; j<(BUFFER_SIZE/256); j++) {\
ASSERT_EQ (psum16x16_a[j], psum16x16_c[j]); \
ASSERT_EQ (psqsum16x16_a[j], psqsum16x16_c[j]); \
} \
}
#define GENERATE_VAACalcSadSsdBgd_UT(func, ASM, CPUFLAGS) \
TEST (VAACalcFuncTest, func) { \
if (ASM) {\
int32_t iCpuCores = 0; \
uint32_t m_uiCpuFeatureFlag = WelsCPUFeatureDetect (&iCpuCores); \
if (0 == (m_uiCpuFeatureFlag & CPUFLAGS)) \
return; \
} \
ENFORCE_STACK_ALIGN_1D (uint8_t, cur_data_c, BUFFER_SIZE, 16); \
ENFORCE_STACK_ALIGN_1D (uint8_t, ref_data_c, BUFFER_SIZE, 16); \
ENFORCE_STACK_ALIGN_1D (int32_t, psad8x8_c, BUFFER_SIZE/64, 16); \
ENFORCE_STACK_ALIGN_1D (int32_t, psd8x8_c, BUFFER_SIZE/64, 16); \
ENFORCE_STACK_ALIGN_1D (uint8_t, pmad8x8_c, BUFFER_SIZE/64, 16); \
ENFORCE_STACK_ALIGN_1D (int32_t, psum16x16_c, BUFFER_SIZE/256, 16); \
ENFORCE_STACK_ALIGN_1D (int32_t, psqsum16x16_c, BUFFER_SIZE/256, 16); \
ENFORCE_STACK_ALIGN_1D (int32_t, psqdiff16x16_c, BUFFER_SIZE/256, 16); \
int32_t pic_width_c; \
int32_t pic_height_c; \
int32_t pic_stride_c; \
int32_t psadframe_c; \
ENFORCE_STACK_ALIGN_1D (uint8_t, cur_data_a, BUFFER_SIZE, 16); \
ENFORCE_STACK_ALIGN_1D (uint8_t, ref_data_a, BUFFER_SIZE, 16); \
ENFORCE_STACK_ALIGN_1D (int32_t, psad8x8_a, BUFFER_SIZE/64, 16); \
ENFORCE_STACK_ALIGN_1D (int32_t, psd8x8_a, BUFFER_SIZE/64, 16); \
ENFORCE_STACK_ALIGN_1D (uint8_t, pmad8x8_a, BUFFER_SIZE/64, 16); \
ENFORCE_STACK_ALIGN_1D (int32_t, psum16x16_a, BUFFER_SIZE/256, 16); \
ENFORCE_STACK_ALIGN_1D (int32_t, psqsum16x16_a, BUFFER_SIZE/256, 16); \
ENFORCE_STACK_ALIGN_1D (int32_t, psqdiff16x16_a, BUFFER_SIZE/256, 16); \
int32_t pic_width_a; \
int32_t pic_height_a; \
int32_t pic_stride_a; \
int32_t psadframe_a; \
pic_width_c = pic_width_a = 320-16; \
pic_height_c = pic_height_a = 320; \
pic_stride_c = pic_stride_a = 320; \
psadframe_c = psadframe_a = 0; \
for (int j=0; j<BUFFER_SIZE; j++) { \
cur_data_c[j] = cur_data_a[j] = (rand()%256); \
ref_data_c[j] = ref_data_a[j] = (rand()%256); \
psad8x8_c[j%(BUFFER_SIZE/64)] = psad8x8_a[j%(BUFFER_SIZE/64)] = (rand()%256); \
psd8x8_c[j%(BUFFER_SIZE/64)] = psd8x8_a[j%(BUFFER_SIZE/64)] = (rand()%256); \
pmad8x8_c[j%(BUFFER_SIZE/64)] = pmad8x8_a[j%(BUFFER_SIZE/64)] = (rand()%256); \
psum16x16_c[j%(BUFFER_SIZE/256)] = psum16x16_a[j%(BUFFER_SIZE/256)] = (rand()%256); \
psqsum16x16_c[j%(BUFFER_SIZE/256)] = psqsum16x16_a[j%(BUFFER_SIZE/256)] = (rand()%256); \
psqdiff16x16_c[j%(BUFFER_SIZE/256)] = psqdiff16x16_a[j%(BUFFER_SIZE/256)] = (rand()%256); \
} \
VAACalcSadSsdBgd_ref (cur_data_c, ref_data_c, pic_width_c, pic_height_c, pic_stride_c, &psadframe_c, psad8x8_c, psum16x16_c, psqsum16x16_c, psqdiff16x16_c, psd8x8_c, pmad8x8_c); \
func (cur_data_a, ref_data_a, pic_width_a, pic_height_a, pic_stride_a, &psadframe_a, psad8x8_a, psum16x16_a, psqsum16x16_a, psqdiff16x16_a, psd8x8_a, pmad8x8_a); \
ASSERT_EQ (psadframe_a, psadframe_c); \
for (int j=0; j<(BUFFER_SIZE/64); j++) {\
ASSERT_EQ (psad8x8_a[j], psad8x8_c[j]); \
ASSERT_EQ (psd8x8_a[j], psd8x8_c[j]); \
ASSERT_EQ (pmad8x8_a[j], pmad8x8_c[j]); \
} \
for (int j=0; j<(BUFFER_SIZE/256); j++) {\
ASSERT_EQ (psum16x16_a[j], psum16x16_c[j]); \
ASSERT_EQ (psqsum16x16_a[j], psqsum16x16_c[j]); \
ASSERT_EQ (psqdiff16x16_a[j], psqdiff16x16_c[j]); \
} \
}
GENERATE_VAACalcSad_UT (VAACalcSad_c, 0, 0)
GENERATE_VAACalcSadBgd_UT (VAACalcSadBgd_c, 0, 0)
GENERATE_VAACalcSadSsdBgd_UT (VAACalcSadSsdBgd_c, 0, 0)
GENERATE_VAACalcSadSsd_UT (VAACalcSadSsd_c, 0, 0)
GENERATE_VAACalcSadVar_UT (VAACalcSadVar_c, 0, 0)
#if defined(X86_ASM)
GENERATE_VAACalcSad_UT (VAACalcSad_sse2, 1, WELS_CPU_SSE2)
GENERATE_VAACalcSadBgd_UT (VAACalcSadBgd_sse2, 1, WELS_CPU_SSE2)
GENERATE_VAACalcSadSsdBgd_UT (VAACalcSadSsdBgd_sse2, 1, WELS_CPU_SSE2)
GENERATE_VAACalcSadSsd_UT (VAACalcSadSsd_sse2, 1, WELS_CPU_SSE2)
GENERATE_VAACalcSadVar_UT (VAACalcSadVar_sse2, 1, WELS_CPU_SSE2)
#endif
#if defined(HAVE_NEON)
GENERATE_VAACalcSad_UT (VAACalcSad_neon, 1, WELS_CPU_NEON)
GENERATE_VAACalcSadBgd_UT (VAACalcSadBgd_neon, 1, WELS_CPU_NEON)
GENERATE_VAACalcSadSsdBgd_UT (VAACalcSadSsdBgd_neon, 1, WELS_CPU_NEON)
GENERATE_VAACalcSadSsd_UT (VAACalcSadSsd_neon, 1, WELS_CPU_NEON)
GENERATE_VAACalcSadVar_UT (VAACalcSadVar_neon, 1, WELS_CPU_NEON)
#endif
#if defined(HAVE_NEON_AARCH64)
GENERATE_VAACalcSad_UT (VAACalcSad_AArch64_neon, 1, WELS_CPU_NEON)
GENERATE_VAACalcSadBgd_UT (VAACalcSadBgd_AArch64_neon, 1, WELS_CPU_NEON)
GENERATE_VAACalcSadSsdBgd_UT (VAACalcSadSsdBgd_AArch64_neon, 1, WELS_CPU_NEON)
GENERATE_VAACalcSadSsd_UT (VAACalcSadSsd_AArch64_neon, 1, WELS_CPU_NEON)
GENERATE_VAACalcSadVar_UT (VAACalcSadVar_AArch64_neon, 1, WELS_CPU_NEON)
#endif
Reference in New Issue View Git Blame Copy Permalink