216 lines
8.6 KiB
C++
216 lines
8.6 KiB
C++
#include<gtest/gtest.h>
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#include "codec_def.h"
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#include "expand_pic.h"
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#include "mem_align.h"
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using namespace WelsDec;
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#define EXPAND_PIC_TEST_NUM 10
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namespace WelsDec {
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extern PPicture AllocPicture (PWelsDecoderContext pCtx, const int32_t kPicWidth, const int32_t kPicHeight);
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extern void FreePicture (PPicture pPic);
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}
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#define H264_PADDING_LENGTH_LUMA (PADDING_LENGTH)
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#define H264_PADDING_LENGTH_CHROMA (PADDING_LENGTH>>1)
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void H264ExpandPictureLumaAnchor_c (uint8_t* pDst, int32_t iStride, int32_t iPicWidth, int32_t iPicHeight) {
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uint8_t* pTmp = pDst;
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uint8_t* pDstLastLine = pTmp + (iPicHeight - 1) * iStride;
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uint8_t pTL = pTmp[0];
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uint8_t pTR = pTmp[iPicWidth - 1];
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uint8_t pBL = pDstLastLine[0];
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uint8_t pBR = pDstLastLine[iPicWidth - 1];
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int32_t i = 0;
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do {
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const int32_t kStrides = (1 + i) * iStride;
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uint8_t* pTop = pTmp - kStrides;
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uint8_t* pBottom = pDstLastLine + kStrides;
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// pad pTop and pBottom
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memcpy (pTop, pTmp, iPicWidth);
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memcpy (pBottom, pDstLastLine, iPicWidth);
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// pad corners
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memset (pTop - H264_PADDING_LENGTH_LUMA, pTL, H264_PADDING_LENGTH_LUMA); //pTop left
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memset (pTop + iPicWidth, pTR, H264_PADDING_LENGTH_LUMA); //pTop right
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memset (pBottom - H264_PADDING_LENGTH_LUMA, pBL, H264_PADDING_LENGTH_LUMA); //pBottom left
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memset (pBottom + iPicWidth, pBR, H264_PADDING_LENGTH_LUMA); //pBottom right
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++ i;
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} while (i < H264_PADDING_LENGTH_LUMA);
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// pad left and right
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i = 0;
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do {
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memset (pTmp - H264_PADDING_LENGTH_LUMA, pTmp[0], H264_PADDING_LENGTH_LUMA);
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memset (pTmp + iPicWidth, pTmp[iPicWidth - 1], H264_PADDING_LENGTH_LUMA);
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pTmp += iStride;
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++ i;
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} while (i < iPicHeight);
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}
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void H264ExpandPictureChromaAnchor_c (uint8_t* pDst, int32_t iStride, int32_t iPicWidth, int32_t iPicHeight) {
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uint8_t* pTmp = pDst;
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uint8_t* pDstLastLine = pTmp + (iPicHeight - 1) * iStride;
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uint8_t pTL = pTmp[0];
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uint8_t pTR = pTmp[iPicWidth - 1];
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uint8_t pBL = pDstLastLine[0];
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uint8_t pBR = pDstLastLine[iPicWidth - 1];
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int32_t i = 0;
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do {
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const int32_t kStrides = (1 + i) * iStride;
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uint8_t* pTop = pTmp - kStrides;
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uint8_t* pBottom = pDstLastLine + kStrides;
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// pad pTop and pBottom
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memcpy (pTop, pTmp, iPicWidth);
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memcpy (pBottom, pDstLastLine, iPicWidth);
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// pad corners
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memset (pTop - H264_PADDING_LENGTH_CHROMA, pTL, H264_PADDING_LENGTH_CHROMA); //pTop left
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memset (pTop + iPicWidth, pTR, H264_PADDING_LENGTH_CHROMA); //pTop right
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memset (pBottom - H264_PADDING_LENGTH_CHROMA, pBL, H264_PADDING_LENGTH_CHROMA); //pBottom left
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memset (pBottom + iPicWidth, pBR, H264_PADDING_LENGTH_CHROMA); //pBottom right
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++ i;
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} while (i < H264_PADDING_LENGTH_CHROMA);
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// pad left and right
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i = 0;
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do {
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memset (pTmp - H264_PADDING_LENGTH_CHROMA, pTmp[0], H264_PADDING_LENGTH_CHROMA);
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memset (pTmp + iPicWidth, pTmp[iPicWidth - 1], H264_PADDING_LENGTH_CHROMA);
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pTmp += iStride;
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++ i;
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} while (i < iPicHeight);
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}
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bool CompareBuff (uint8_t* pSrc0, uint8_t* pSrc1, int32_t iStride, int32_t iWidth, int32_t iHeight) {
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for (int32_t j = 0; j < iHeight; j++) {
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for (int32_t i = 0; i < iWidth; i++) {
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if (pSrc0[i + j * iStride] != pSrc1[i + j * iStride]) {
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return false;
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}
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}
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}
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return true;
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}
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TEST (ExpandPicture, ExpandPictureLuma) {
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SExpandPicFunc sExpandPicFunc;
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InitExpandPictureFunc (&sExpandPicFunc, 0);
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srand ((unsigned int)time (0));
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for (int32_t iTestIdx = 0; iTestIdx < EXPAND_PIC_TEST_NUM; iTestIdx++) {
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int32_t iPicWidth = 16 + (rand() % 200) * 16;
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int32_t iPicHeight = 16 + (rand() % 100) * 16;
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int32_t iStride = iPicWidth + H264_PADDING_LENGTH_LUMA * 2;
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int32_t iBuffHeight = iPicHeight + H264_PADDING_LENGTH_LUMA * 2;
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int32_t iBuffSize = iBuffHeight * iStride * sizeof (uint8_t);
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uint8_t* pAnchorDstBuff = static_cast<uint8_t*> (WelsMalloc (iBuffSize, "pAnchorDstBuff"));
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uint8_t* pAnchorDst = pAnchorDstBuff + H264_PADDING_LENGTH_LUMA * iStride + H264_PADDING_LENGTH_LUMA;
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uint8_t* pTestDstBuff = static_cast<uint8_t*> (WelsMalloc (iBuffSize, "pTestDstBuff"));
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uint8_t* pTestDst = pTestDstBuff + H264_PADDING_LENGTH_LUMA * iStride + H264_PADDING_LENGTH_LUMA;
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// Generate Src
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for (int32_t j = 0; j < iPicHeight; j++) {
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for (int32_t i = 0; i < iPicWidth; i++) {
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pAnchorDst[i + j * iStride] = pTestDst[i + j * iStride] = rand() % 256;
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}
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}
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H264ExpandPictureLumaAnchor_c (pAnchorDst, iStride, iPicWidth, iPicHeight);
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sExpandPicFunc.pExpandLumaPicture (pTestDst, iStride, iPicWidth, iPicHeight);
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EXPECT_EQ (CompareBuff (pAnchorDstBuff, pTestDstBuff, iStride, iPicWidth + H264_PADDING_LENGTH_LUMA * 2,
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iPicHeight + H264_PADDING_LENGTH_LUMA * 2), true);
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WELS_SAFE_FREE (pAnchorDstBuff, "pAnchorDstBuff");
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WELS_SAFE_FREE (pTestDstBuff, "pTestDstBuff");
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}
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}
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TEST (ExpandPicture, ExpandPictureChroma) {
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SExpandPicFunc sExpandPicFunc;
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InitExpandPictureFunc (&sExpandPicFunc, 0);
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srand ((unsigned int)time (0));
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for (int32_t iTestIdx = 0; iTestIdx < EXPAND_PIC_TEST_NUM; iTestIdx++) {
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int32_t iPicWidth = (8 + (rand() % 200) * 8);
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int32_t iPicHeight = (8 + (rand() % 100) * 8);
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int32_t iStride = (iPicWidth + H264_PADDING_LENGTH_CHROMA * 2 + 8) >> 4 << 4;
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int32_t iBuffHeight = iPicHeight + H264_PADDING_LENGTH_CHROMA * 2;
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int32_t iBuffSize = iBuffHeight * iStride * sizeof (uint8_t);
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uint8_t* pAnchorDstBuff = static_cast<uint8_t*> (WelsMalloc (iBuffSize, "pAnchorDstBuff"));
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uint8_t* pAnchorDst = pAnchorDstBuff + H264_PADDING_LENGTH_CHROMA * iStride + H264_PADDING_LENGTH_CHROMA;
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uint8_t* pTestDstBuff = static_cast<uint8_t*> (WelsMalloc (iBuffSize, "pTestDstBuff"));
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uint8_t* pTestDst = pTestDstBuff + H264_PADDING_LENGTH_CHROMA * iStride + H264_PADDING_LENGTH_CHROMA;
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// Generate Src
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for (int32_t j = 0; j < iPicHeight; j++) {
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for (int32_t i = 0; i < iPicWidth; i++) {
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pAnchorDst[i + j * iStride] = pTestDst[i + j * iStride] = rand() % 256;
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}
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}
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H264ExpandPictureChromaAnchor_c (pAnchorDst, iStride, iPicWidth, iPicHeight);
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sExpandPicFunc.pExpandChromaPicture[0] (pTestDst, iStride, iPicWidth, iPicHeight);
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EXPECT_EQ (CompareBuff (pAnchorDstBuff, pTestDstBuff, iStride, iPicWidth + H264_PADDING_LENGTH_CHROMA * 2,
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iPicHeight + H264_PADDING_LENGTH_CHROMA * 2), true);
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WELS_SAFE_FREE (pAnchorDstBuff, "pAnchorDstBuff");
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WELS_SAFE_FREE (pTestDstBuff, "pTestDstBuff");
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}
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}
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TEST (ExpandPicture, ExpandPicForMotion) {
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SExpandPicFunc sExpandPicFunc;
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InitExpandPictureFunc (&sExpandPicFunc, 0);
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srand ((unsigned int)time (0));
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SWelsDecoderContext sCtx;
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PPicture pPicAnchor = NULL;
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PPicture pPicTest = NULL;
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for (int32_t iTestIdx = 0; iTestIdx < EXPAND_PIC_TEST_NUM; iTestIdx++) {
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int32_t iPicWidth = (16 + (rand() % 200) * 16);
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int32_t iPicHeight = (16 + (rand() % 100) * 16);
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pPicAnchor = AllocPicture (&sCtx, iPicWidth, iPicHeight);
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pPicTest = AllocPicture (&sCtx, iPicWidth, iPicHeight);
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sCtx.pDec = pPicTest;
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int32_t iStride = pPicAnchor->iLinesize[0];
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int32_t iStrideC;
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iStrideC = pPicAnchor->iLinesize[1];
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// Generate Src
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for (int32_t j = 0; j < iPicHeight; j++) {
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for (int32_t i = 0; i < iPicWidth; i++) {
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pPicAnchor->pData[0][i + j * iStride] = pPicTest->pData[0][i + j * iStride] = rand() % 256;
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}
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}
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for (int32_t j = 0; j < iPicHeight / 2; j++) {
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for (int32_t i = 0; i < iPicWidth / 2; i++) {
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pPicAnchor->pData[1][i + j * iStrideC] = pPicTest->pData[1][i + j * iStrideC] = rand() % 256;
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pPicAnchor->pData[2][i + j * iStrideC] = pPicTest->pData[2][i + j * iStrideC] = rand() % 256;
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}
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}
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H264ExpandPictureLumaAnchor_c (pPicAnchor->pData[0], iStride, iPicWidth, iPicHeight);
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H264ExpandPictureChromaAnchor_c (pPicAnchor->pData[1], iStrideC, iPicWidth / 2, iPicHeight / 2);
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H264ExpandPictureChromaAnchor_c (pPicAnchor->pData[2], iStrideC, iPicWidth / 2, iPicHeight / 2);
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ExpandReferencingPicture (sCtx.pDec, sExpandPicFunc.pExpandLumaPicture, sExpandPicFunc.pExpandChromaPicture);
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EXPECT_EQ (CompareBuff (pPicAnchor->pBuffer[0], pPicTest->pBuffer[0], iStride, iPicWidth + PADDING_LENGTH * 2,
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iPicHeight + PADDING_LENGTH * 2), true);
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EXPECT_EQ (CompareBuff (pPicAnchor->pBuffer[1], pPicTest->pBuffer[1], iStrideC, iPicWidth / 2 + PADDING_LENGTH,
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iPicHeight / 2 + PADDING_LENGTH), true);
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EXPECT_EQ (CompareBuff (pPicAnchor->pBuffer[2], pPicTest->pBuffer[2], iStrideC, iPicWidth / 2 + PADDING_LENGTH,
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iPicHeight / 2 + PADDING_LENGTH), true);
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FreePicture (pPicAnchor);
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FreePicture (pPicTest);
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}
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}
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