MBOOL JpegCodec:: allocMem(IMEM_BUF_INFO & rMemBuf) { // IMemDrv *pIMemDrv = IMemDrv::createInstance(); CHECK_OBJECT(pIMemDrv); // pIMemDrv->init(); // if (pIMemDrv->allocVirtBuf(&rMemBuf)) { MY_LOGE("g_pIMemDrv->allocVirtBuf() error"); return MFALSE; } ::memset((void*)rMemBuf.virtAddr, 0 , rMemBuf.size); #if 1 if (pIMemDrv->mapPhyAddr(&rMemBuf)) { MY_LOGE("mpIMemDrv->mapPhyAddr() error"); return MFALSE; } #endif // pIMemDrv->uninit(); pIMemDrv->destroyInstance(); return MTRUE; }
static MUINT32 u4X3_Cmd(int argc, char** argv) { //1. allocate buffer printf("allocate buffer\n"); IMemDrv *mpIMemDrv = IMemDrv::createInstance(); mpIMemDrv->init(); //check this, see fd IMEM_BUF_INFO mpSourceImgBuf[3]; IMEM_BUF_INFO mpTargetImgBuf[3]; for(int i=0; i<3; i++) { //2. source image printf("source image\n"); mpSourceImgBuf[i].size = 794 * 600 * 1.5; if(mpIMemDrv->allocVirtBuf(&mpSourceImgBuf[i])) return MFALSE; uint32_t nReadSize = loadFileToBuf("/sdcard/source794x600.nv21.yuv", (uint8_t*)mpSourceImgBuf[i].virtAddr, mpSourceImgBuf[i].size); //3. target image printf("target image\n"); mpTargetImgBuf[i].size = 20 * 16 * 1.5; if(mpIMemDrv->allocVirtBuf(&mpTargetImgBuf[i])) return MFALSE; //4. resize printf("resize\n"); HdrShot::CDPResize_simple( &mpSourceImgBuf[i], 794, 600, eImgFmt_NV21, &mpTargetImgBuf[i], 20, 16, eImgFmt_NV21, 0); char outfile[128]; sprintf(outfile, "/sdcard/target[%i].nv21.yuv.pgm", i); saveBufToFile(outfile, (MUINT8 *)mpTargetImgBuf[i].virtAddr, mpTargetImgBuf[i].size); } //5. final printf("final\n"); return 0; }
static MUINT32 u4CDPNV21_Cmd(int argc, char** argv) { //1. allocate buffer printf("allocate buffer\n"); IMemDrv *mpIMemDrv = IMemDrv::createInstance(); mpIMemDrv->init(); //check this, see fd //2. source image printf("source image\n"); IMEM_BUF_INFO mpSourceImgBuf; mpSourceImgBuf.size = 1280 * 960 * 1.5; if(mpIMemDrv->allocVirtBuf(&mpSourceImgBuf)) return MFALSE; uint32_t nReadSize = loadFileToBuf("source.nv21.yuv", (uint8_t*)mpSourceImgBuf.virtAddr, mpSourceImgBuf.size); //3. target image printf("target image\n"); IMEM_BUF_INFO mpTargetImgBuf; mpTargetImgBuf.size = 160 * 120 * 1.5; if(mpIMemDrv->allocVirtBuf(&mpTargetImgBuf)) return MFALSE; //4. resize printf("resize\n"); HdrShot::CDPResize_simple( &mpSourceImgBuf, 1280, 960, eImgFmt_NV21, &mpTargetImgBuf, 160, 120, eImgFmt_NV21, 0); saveBufToFile("/sdcard/target.nv21.yuv", (MUINT8 *)mpTargetImgBuf.virtAddr, mpTargetImgBuf.size); //5. final printf("final\n"); return 0; }
//++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ // //++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ MBOOL AAOBufMgr:: allocateBuf(BufInfo_T &rBufInfo, MUINT32 u4BufSize) { rBufInfo.size = u4BufSize; if (m_pIMemDrv->allocVirtBuf(&rBufInfo)) { MY_ERR("m_pIMemDrv->allocVirtBuf() error"); return MFALSE; } if (m_pIMemDrv->mapPhyAddr(&rBufInfo)) { MY_ERR("m_pIMemDrv->mapPhyAddr() error"); return MFALSE; } MY_LOG("%s() memID = 0x%x\n", __FUNCTION__, rBufInfo.memID); return MTRUE; }
static MUINT32 u4CDPUp_Cmd(int argc, char** argv) { MUINT32 ret = 0; MUINT32 mu4RunningNumber = 1; MUINT32 u4OutputFrameNum = 3; MUINT32 weight_table_width = 794; MUINT32 weight_table_height = 600; MUINT32 mu4W_dsmap = 1280; MUINT32 mu4H_dsmap = 960; MUINT32 mu4DownSizedWeightMapSize = mu4W_dsmap * mu4H_dsmap * 1.5; IMEM_BUF_INFO mpWeightMapBuf[3]; IMEM_BUF_INFO mpDownSizedWeightMapBuf[3]; IMemDrv *mpIMemDrv = IMemDrv::createInstance(); mpIMemDrv->init(); //check this, see fd for (MUINT32 i = 0; i < u4OutputFrameNum; i++) { //alloc mpWeightMapBuf mpWeightMapBuf[i].size = weight_table_width * weight_table_height * 1.5; mpIMemDrv->allocVirtBuf(&mpWeightMapBuf[i]); #if WORKAROUND_IMEM if (mpIMemDrv->mapPhyAddr(&mpWeightMapBuf[i])) { MY_LOGE("mpIMemDrv->mapPhyAddr() error"); } #endif loadFileToBuf("/sdcard/source794x600.nv21.yuv", (uint8_t*)mpWeightMapBuf[i].virtAddr, mpWeightMapBuf[i].size); MY_DBG("[do_DownScaleWeightMap] CDPResize %d/%d", i, u4OutputFrameNum); //alloc mpDownSizedWeightMapBuf mpDownSizedWeightMapBuf[i].size = mu4W_dsmap*mu4H_dsmap*1.5; mpIMemDrv->allocVirtBuf(&mpDownSizedWeightMapBuf[i]); #if WORKAROUND_IMEM if (mpIMemDrv->mapPhyAddr(&mpDownSizedWeightMapBuf[i])) { MY_LOGE("mpIMemDrv->mapPhyAddr() error"); } #endif //set default value ::memset((void*)mpDownSizedWeightMapBuf[i].virtAddr, 128, mu4W_dsmap*mu4H_dsmap*1.5); ret = HdrShot::CDPResize_simple( &mpWeightMapBuf[i], weight_table_width, weight_table_height, eImgFmt_NV21, &mpDownSizedWeightMapBuf[i], mu4W_dsmap, mu4H_dsmap, eImgFmt_NV21, 0); #if WORKAROUND_IMEM if (mpIMemDrv->unmapPhyAddr(&mpWeightMapBuf[i])) { MY_LOGE("m_pIMemDrv->unmapPhyAddr() error"); } #endif mpIMemDrv->freeVirtBuf(&mpWeightMapBuf[i]); //???? } for (MUINT32 i = 0; i < u4OutputFrameNum; i++) { char szFileName[100]; ::sprintf(szFileName, HDR_DEBUG_OUTPUT_FOLDER "%04d_6_mpDownSizedWeightMapBuf[%d]_%dx%d.raw", mu4RunningNumber, i, mu4W_dsmap, mu4H_dsmap); saveBufToFile(szFileName, (MUINT8*)mpDownSizedWeightMapBuf[i].virtAddr, mu4DownSizedWeightMapSize); MY_VERB("[do_DownScaleWeightMap] Save %s done.", szFileName); #if WORKAROUND_IMEM if (mpIMemDrv->unmapPhyAddr(&mpDownSizedWeightMapBuf[i])) { MY_LOGE("m_pIMemDrv->unmapPhyAddr() error"); } #endif mpIMemDrv->freeVirtBuf(&mpDownSizedWeightMapBuf[i]); } printf("[do_DownScaleWeightMap] - t8."); printf("[do_DownScaleWeightMap] - X. ret: %d.", ret); mpIMemDrv->destroyInstance(); return ret; }
static MUINT32 u4SImager_Cmd(int argc, char** argv) { MUINT32 u4SrcWidth = 1600; MUINT32 u4SrcHeight = 1200; MUINT32 u4TargetWidth = 800; MUINT32 u4TargetHeight = 600; int srcFmt = 0; int dstFmt = 0; char *filename = argv[0]; u4SrcWidth = atoi(argv[1]); u4SrcHeight = atoi(argv[2]); srcFmt = atoi(argv[3]); u4TargetWidth = atoi(argv[4]); u4TargetHeight = atoi(argv[5]); dstFmt = atoi(argv[6]); printf("filename = %s\n", filename); printf("size in(%d,%d), out(%d,%d)\n", u4SrcWidth, u4SrcHeight, u4TargetWidth, u4TargetHeight); printf("fmt in=%x, out=%x\n", srcFmt, dstFmt); printf("SImager Test\n"); // IMemDrv *pIMemDrv = IMemDrv::createInstance(); pIMemDrv->init(); if (NULL == pIMemDrv) { printf("g_pIMemDrv is NULL"); return 0; } // IMEM_BUF_INFO rInMem; rInMem.size = (u4SrcWidth * u4SrcHeight * 2+ L1_CACHE_BYTES-1) & ~(L1_CACHE_BYTES-1); if (pIMemDrv->allocVirtBuf(&rInMem)) { printf("g_pIMemDrv->allocVirtBuf() error"); } #if WORKAROUND_IMEM memset((void*)rInMem.virtAddr, 0 , rInMem.size); if (pIMemDrv->mapPhyAddr(&rInMem)) { printf("mpIMemDrv->mapPhyAddr() error"); } #endif if(!loadFileToBuf(filename, reinterpret_cast<MUINT8*>(rInMem.virtAddr), u4SrcWidth * u4SrcHeight)) { printf("can't load image:%s\n", filename); return 0; } printf("load image:%s\n", filename); // IMEM_BUF_INFO rOutMem; rOutMem.size = (u4TargetWidth * u4TargetHeight * 2+ L1_CACHE_BYTES -1) & ~(L1_CACHE_BYTES-1); if (pIMemDrv->allocVirtBuf(&rOutMem)) { MY_LOGE("g_pIMemDrv->allocVirtBuf() error"); } memset((void*)rOutMem.virtAddr, 128, rOutMem.size); if (pIMemDrv->mapPhyAddr(&rOutMem)) { MY_LOGE("mpIMemDrv->mapPhyAddr() error"); } HdrShot::CDPResize_simple( &rInMem, u4SrcWidth, u4SrcHeight, g_eImgFmt[srcFmt], &rOutMem, u4TargetWidth, u4TargetHeight, g_eImgFmt[dstFmt], 0); char suffix[8]; char prefix[8]; switch(g_eImgFmt[srcFmt]) { case eImgFmt_YUY2: sprintf(prefix, "%s", "yuy2"); break; case eImgFmt_NV21: sprintf(prefix, "%s", "nv21"); break; case eImgFmt_I420: sprintf(prefix, "%s", "i420"); break; case eImgFmt_YV16: sprintf(prefix, "%s", "yv16"); break; case eImgFmt_JPEG: sprintf(prefix, "%s", "jpg"); break; case eImgFmt_YV12: sprintf(prefix, "%s", "yv12"); break; } switch(g_eImgFmt[dstFmt]) { case eImgFmt_YUY2: sprintf(suffix, "%s", "yuy2"); break; case eImgFmt_NV21: sprintf(suffix, "%s", "nv21"); break; case eImgFmt_I420: sprintf(suffix, "%s", "i420"); break; case eImgFmt_YV16: sprintf(suffix, "%s", "yv16"); break; case eImgFmt_JPEG: sprintf(suffix, "%s", "jpg"); break; case eImgFmt_YV12: sprintf(suffix, "%s", "yv12"); break; } char outfile[128]; sprintf(outfile, "/sdcard/0001_%s_%dx%d.%s", prefix, u4TargetWidth, u4TargetHeight, suffix); saveBufToFile(outfile, (MUINT8 *)rOutMem.virtAddr, rOutMem.size); //!*************************************************** //! Main thread wait for exit //!*************************************************** // //deallocMem(rInMem); //deallocMem(rOutMem); if (pIMemDrv->unmapPhyAddr(&rInMem)) { MY_LOGE("m_pIMemDrv->unmapPhyAddr() error"); } if (pIMemDrv->freeVirtBuf(&rInMem)) { MY_LOGE("m_pIMemDrv->freeVirtBuf() error"); } if (pIMemDrv->unmapPhyAddr(&rOutMem)) { MY_LOGE("m_pIMemDrv->unmapPhyAddr() error"); } if (pIMemDrv->freeVirtBuf(&rOutMem)) { MY_LOGE("m_pIMemDrv->freeVirtBuf() error"); } // pIMemDrv->uninit(); pIMemDrv->destroyInstance(); return 0; }
static MUINT32 u4Y8002Y800_Cmd(int argc, char** argv) { MUINT32 u4SrcWidth = 1600; MUINT32 u4SrcHeight = 1200; MUINT32 u4TargetWidth = 160; MUINT32 u4TargetHeight = 120; int srcFmt = 0; char filename[128]; sprintf(filename, "/sdcard/hdr_sample_1600x1200_%d.y", 1); printf("SImager Test \n"); // IMemDrv *pIMemDrv = IMemDrv::createInstance(); pIMemDrv->init(); if (NULL == pIMemDrv) { printf("g_pIMemDrv is NULL"); return 0; } // IMEM_BUF_INFO rInMem; rInMem.size = (u4SrcWidth * u4SrcHeight + L1_CACHE_BYTES-1) & ~(L1_CACHE_BYTES-1); if (pIMemDrv->allocVirtBuf(&rInMem)) { printf("g_pIMemDrv->allocVirtBuf() error"); } #if WORKAROUND_IMEM memset((void*)rInMem.virtAddr, 0 , rInMem.size); if (pIMemDrv->mapPhyAddr(&rInMem)) { printf("mpIMemDrv->mapPhyAddr() error"); } #endif if(!loadFileToBuf(filename, reinterpret_cast<MUINT8*>(rInMem.virtAddr), u4SrcWidth * u4SrcHeight)) { printf("can't load image:%s\n", filename); return 0; } printf("load image:%s\n", filename); // IMEM_BUF_INFO rOutMem; rOutMem.size = (u4TargetWidth * u4TargetHeight + L1_CACHE_BYTES -1) & ~(L1_CACHE_BYTES-1); if (pIMemDrv->allocVirtBuf(&rOutMem)) { MY_LOGE("g_pIMemDrv->allocVirtBuf() error"); } #if WORKAROUND_IMEM //memset((void*)rOutMem.virtAddr, 0 , rOutMem.size); memset((void*)rOutMem.virtAddr, 128, rOutMem.size); if (pIMemDrv->mapPhyAddr(&rOutMem)) { MY_LOGE("mpIMemDrv->mapPhyAddr() error"); } #endif #if 0 // MUINT32 u4InStride[3] = {u4SrcWidth, u4SrcWidth, u4SrcWidth}; ImgBufInfo rSrcImgInfo(ImgInfo(eImgFmt_YUY2, u4SrcWidth, u4SrcHeight), BufInfo(rInMem.size, rInMem.virtAddr, rInMem.phyAddr, rInMem.memID), u4InStride); #endif saveBufToFile("/sdcard/0001_input_1600x1200.y", (MUINT8 *)rInMem.virtAddr, rInMem.size); HdrShot::CDPResize_simple( &rInMem, u4SrcWidth, u4SrcHeight, eImgFmt_Y800, &rOutMem, u4TargetWidth, u4TargetHeight, eImgFmt_Y800, 0); saveBufToFile("/sdcard/0001_output_160x120.y", (MUINT8 *)rOutMem.virtAddr, rOutMem.size); //!*************************************************** //! Main thread wait for exit //!*************************************************** // //deallocMem(rInMem); //deallocMem(rOutMem); if (pIMemDrv->unmapPhyAddr(&rInMem)) { MY_LOGE("m_pIMemDrv->unmapPhyAddr() error"); } if (pIMemDrv->freeVirtBuf(&rInMem)) { MY_LOGE("m_pIMemDrv->freeVirtBuf() error"); } if (pIMemDrv->unmapPhyAddr(&rOutMem)) { MY_LOGE("m_pIMemDrv->unmapPhyAddr() error"); } if (pIMemDrv->freeVirtBuf(&rOutMem)) { MY_LOGE("m_pIMemDrv->freeVirtBuf() error"); } // pIMemDrv->uninit(); pIMemDrv->destroyInstance(); return 0; }
MBOOL StereoNodeImpl:: allocBuffers(vector<HwPortConfig_t> & lPortCfg) { FUNC_START; MBOOL ret = MFALSE; // vector< HwPortConfig_t >::const_iterator pConfig = lPortCfg.begin(); IMemDrv* pIMemDrv = IMemDrv::createInstance(); if ( !pIMemDrv || !pIMemDrv->init() ) { MY_LOGE("pIMemDrv->init() error"); goto lbExit; } for(MUINT32 i = 0; i < BUF_COUNT; ++i) { IMEM_BUF_INFO bufInfo; bufInfo.size = getHWFESize().size(); if(pIMemDrv->allocVirtBuf(&bufInfo) < 0) { MY_LOGE("pIMemDrv->allocVirtBuf() error, i(%d)",i); goto lbExit; } if(pIMemDrv->mapPhyAddr(&bufInfo) < 0) { MY_LOGE("pIMemDrv->mapPhyAddr() error, i(%d)",i); goto lbExit; } mlFeBufQueue.push_back(bufInfo); } // while( pConfig != lPortCfg.end() ) { MUINT32 nodedatatype = mapToNodeDataType(pConfig->mPortID); ICamBufHandler* pBufHdl = getBufferHandler(nodedatatype); MY_LOGD("handle(%p) data(%d) S(%dx%d)F(0x%x)", pBufHdl, nodedatatype, pConfig->mSize.w, pConfig->mSize.h, pConfig->mFmt); if( !pBufHdl ) { MY_LOGE("no buffer hdl for data(%d)", nodedatatype); goto lbExit; } //alloc buffer AllocInfo allocinfo(pConfig->mSize.w, pConfig->mSize.h, pConfig->mFmt, eBUFFER_USAGE_SW_MASK | eBUFFER_USAGE_HW_MASK); if( nodedatatype == STEREO_IMG ) { if ( !mDebugDumpGB ) allocinfo.usage = eBUFFER_USAGE_HW_RENDER|eBUFFER_USAGE_HW_TEXTURE|eBUFFER_USAGE_SW_WRITE_RARELY; else allocinfo.usage = eBUFFER_USAGE_HW_RENDER|eBUFFER_USAGE_HW_TEXTURE|eBUFFER_USAGE_SW_WRITE_RARELY|eBUFFER_USAGE_SW_READ_RARELY; allocinfo.isGralloc = MTRUE; } for(MUINT32 i = 0; i < BUF_COUNT ; i++ ) { if( !pBufHdl->requestBuffer(nodedatatype, allocinfo) ) { MY_LOGE("request buffer failed: data %d", nodedatatype); goto lbExit; } } // pConfig++; } // ret = MTRUE; lbExit: if ( !pIMemDrv ) { pIMemDrv->uninit(); pIMemDrv->destroyInstance(); } if( !ret ) { MY_LOGE("allocBuffers failed"); } FUNC_END; return ret; }