bool EngShot:: onCmd_capture() { MBOOL ret = MTRUE; NSIspTuning::IspTuningMgr::getInstance().setOperMode(NSIspTuning::EOperMode_EM); if (EngParam::ENG_SENSOR_MODE_PREVIEW == mEngParam->mi4EngSensorMode) { MINT32 err1; err1 = NS3A::AeMgr::getInstance().CCTOPAESetCaptureMode(0); CAM_LOGD("CCTOPAESetCaptureMode(0): %d", err1); MBOOL err2; err2 = NSIspTuning::IspTuningMgr::getInstance().setSensorMode(NSIspTuning::ESensorMode_Preview); CAM_LOGD("setSensorMode(NSIspTuning::ESensorMode_Preview): %d", err2); } else if (EngParam::ENG_SENSOR_MODE_CAPTURE == mEngParam->mi4EngSensorMode) { MINT32 err1; err1 = NS3A::AeMgr::getInstance().CCTOPAESetCaptureMode(1); CAM_LOGD("CCTOPAESetCaptureMode(1): %d", err1); MBOOL err2; err2 = NSIspTuning::IspTuningMgr::getInstance().setSensorMode(NSIspTuning::ESensorMode_Capture); CAM_LOGD("setSensorMode(NSIspTuning::ESensorMode_Capture): %d", err2); } else if (EngParam::ENG_SENSOR_MODE_VIDEO_PREVIEW == mEngParam->mi4EngSensorMode) { MINT32 err1; err1 = NS3A::AeMgr::getInstance().CCTOPAESetCaptureMode(2); CAM_LOGD("CCTOPAESetCaptureMode(2): %d", err1); MBOOL err2; err2 = NSIspTuning::IspTuningMgr::getInstance().setSensorMode(NSIspTuning::ESensorMode_Video); CAM_LOGD("setSensorMode(NSIspTuning::ESensorMode_Video): %d", err2); } else if (EngParam::ENG_SENSOR_MODE_ZSD == mEngParam->mi4EngSensorMode) { MINT32 err1; err1 = NS3A::AeMgr::getInstance().CCTOPAESetCaptureMode(1); CAM_LOGD("CCTOPAESetCaptureMode(1): ZSD %d", err1); MBOOL err2; err2 = NSIspTuning::IspTuningMgr::getInstance().setSensorMode(NSIspTuning::ESensorMode_Capture); CAM_LOGD("setSensorMode(NSIspTuning::ESensorMode_Capture): %d", err2); } NSCamShot::ISingleShot *pSingleShot = NSCamShot::ISingleShot::createInstance(static_cast<EShotMode>(mu4ShotMode), "EngShot"); // pSingleShot->init(); // pSingleShot->enableNotifyMsg(NSCamShot::ECamShot_NOTIFY_MSG_SOF); // EImageFormat ePostViewFmt = static_cast<EImageFormat>(android::MtkCamUtils::FmtUtils::queryImageioFormat(mShotParam.ms8PostviewDisplayFormat)); MINT32 i4msg = 0; if (mEngParam->mi4EngRawSaveEn) { i4msg |= NSCamShot::ECamShot_DATA_MSG_BAYER; } pSingleShot->enableDataMsg(NSCamShot::ECamShot_DATA_MSG_JPEG | i4msg | ((ePostViewFmt != eImgFmt_UNKNOWN) ? NSCamShot::ECamShot_DATA_MSG_POSTVIEW : NSCamShot::ECamShot_DATA_MSG_NONE) ); // shot param NSCamShot::ShotParam rShotParam(eImgFmt_YUY2, //yuv format mShotParam.mi4PictureWidth, //picutre width mShotParam.mi4PictureHeight, //picture height mShotParam.mi4Rotation, //picture rotation 0, //picture flip ePostViewFmt, // postview format mShotParam.mi4PostviewWidth, //postview width mShotParam.mi4PostviewHeight, //postview height 0, //postview rotation 0, //postview flip mShotParam.mu4ZoomRatio //zoom ); // jpeg param NSCamShot::JpegParam rJpegParam(NSCamShot::ThumbnailParam(mJpegParam.mi4JpegThumbWidth, mJpegParam.mi4JpegThumbHeight, mJpegParam.mu4JpegThumbQuality, MTRUE), mJpegParam.mu4JpegQuality, //Quality MFALSE //isSOI ); // sensor param MUINT32 u4Scenario; if (1 == mEngParam->mi4EngRawSaveEn) { u4Scenario = mEngParam->mi4EngSensorMode; if (EngParam::ENG_SENSOR_MODE_ZSD == mEngParam->mi4EngSensorMode) { u4Scenario = EngParam::ENG_SENSOR_MODE_CAPTURE; } } else { #warning [FIXME] workaround for Alta phone capture mode cant work u4Scenario = ACDK_SCENARIO_ID_CAMERA_PREVIEW; // u4Scenario = ACDK_SCENARIO_ID_CAMERA_CAPTURE_JPEG; } NSCamShot::SensorParam rSensorParam(static_cast<MUINT32>(MtkCamUtils::DevMetaInfo::queryHalSensorDev(getOpenId())), //Device ID #warning [FIXME] workaround for Alta phone capture mode cant work //ACDK_SCENARIO_ID_CAMERA_CAPTURE_JPEG, //Scenaio u4Scenario, //Scenaio 10, //bit depth MFALSE, //bypass delay MFALSE, //bypass scenario mEngParam->mi4EngIspMode); // mEngParam->u4Bitdepth = rSensorParam.u4Bitdepth; NSCamShot::querySensorInfo(rSensorParam.u4DeviceID, rSensorParam.u4Scenario, rSensorParam.u4Bitdepth, mEngParam->eImgFmt, mEngParam->u4SensorWidth, mEngParam->u4SensorHeight, mEngParam->u4RawPixelID /* SENSOR_OUTPUT_FORMAT_RAW_B=0, SENSOR_OUTPUT_FORMAT_RAW_Gb, SENSOR_OUTPUT_FORMAT_RAW_Gr, SENSOR_OUTPUT_FORMAT_RAW_R */ ); pSingleShot->setCallbacks(fgCamShotNotifyCb, fgCamShotDataCb, this); // ret = pSingleShot->setShotParam(rShotParam); // ret = pSingleShot->setJpegParam(rJpegParam); // ret = pSingleShot->startOne(rSensorParam); // ret = pSingleShot->uninit(); // pSingleShot->destroyInstance(); return ret; }
bool ZsdShot:: onRaw_capture(CapBufQueNode & rNode) { FUNCTION_LOG_START; MBOOL ret = MTRUE; NSCamShot::ISingleShot *pSingleShot = NSCamShot::ISingleShot::createInstance(static_cast<EShotMode>(mu4ShotMode), "ZsdShot"); // pSingleShot->init(); // pSingleShot->enableNotifyMsg(NSCamShot::ECamShot_NOTIFY_MSG_EOF); // EImageFormat ePostViewFmt = static_cast<EImageFormat>(android::MtkCamUtils::FmtUtils::queryImageioFormat(mShotParam.ms8PostviewDisplayFormat)); pSingleShot->enableDataMsg(NSCamShot::ECamShot_DATA_MSG_JPEG | ((ePostViewFmt != eImgFmt_UNKNOWN) ? NSCamShot::ECamShot_DATA_MSG_POSTVIEW : NSCamShot::ECamShot_DATA_MSG_NONE) ); // shot param NSCamShot::ShotParam rShotParam(eImgFmt_YUY2, //yuv format mShotParam.mi4PictureWidth, //picutre width mShotParam.mi4PictureHeight, //picture height mShotParam.mi4Rotation, //picture rotation 0, //picture flip ePostViewFmt, // postview format mShotParam.mi4PostviewWidth, //postview width mShotParam.mi4PostviewHeight, //postview height 0, //postview rotation 0, //postview flip mShotParam.mu4ZoomRatio //zoom ); // jpeg param NSCamShot::JpegParam rJpegParam(NSCamShot::ThumbnailParam(mJpegParam.mi4JpegThumbWidth, mJpegParam.mi4JpegThumbHeight, mJpegParam.mu4JpegThumbQuality, MTRUE), mJpegParam.mu4JpegQuality, //Quality MFALSE //isSOI ); // sensor param NSCamShot::SensorParam rSensorParam(static_cast<MUINT32>(MtkCamUtils::DevMetaInfo::queryHalSensorDev(getOpenId())), //Device ID ACDK_SCENARIO_ID_CAMERA_CAPTURE_JPEG, //Scenaio 10, //bit depth MFALSE, //bypass delay MFALSE //bypass scenario ); // pSingleShot->setCallbacks(fgCamShotNotifyCb, fgCamShotDataCb, this); // ret = pSingleShot->setShotParam(rShotParam); // ret = pSingleShot->setJpegParam(rJpegParam); ImgBufInfo rImgBufInfo; mapNodeToImageBuf(rNode.mainImgNode, rImgBufInfo); // //ret = pSingleShot->startOne(rImgBufInfo); ret = pSingleShot->startOne(rSensorParam ,rImgBufInfo); // ret = pSingleShot->uninit(); // pSingleShot->destroyInstance(); FUNCTION_LOG_END; return ret; }
bool CapBufShot:: onCmd_capture() { AutoCPTLog cptlog(Event_Shot_capture); MBOOL ret = MTRUE; NSCamShot::ISingleShot *pSingleShot = NSCamShot::ISingleShot::createInstance(static_cast<EShotMode>(mu4ShotMode), "CapBufShot"); // MUINT32 nrtype = queryCapNRType( getPreviewIso() ); // pSingleShot->init(); // pSingleShot->enableNotifyMsg( SHUTTER_TIMING ); // EImageFormat ePostViewFmt = static_cast<EImageFormat>(mShotParam.miPostviewDisplayFormat); pSingleShot->enableDataMsg( NSCamShot::ECamShot_DATA_MSG_JPEG #if 0 | ((ePostViewFmt != eImgFmt_UNKNOWN) ? NSCamShot::ECamShot_DATA_MSG_POSTVIEW : NSCamShot::ECamShot_DATA_MSG_NONE) #endif ); // shot param NSCamShot::ShotParam rShotParam( eImgFmt_YUY2, //yuv format mShotParam.mi4PictureWidth, //picutre width mShotParam.mi4PictureHeight, //picture height mShotParam.mu4Transform, //picture transform ePostViewFmt, //postview format mShotParam.mi4PostviewWidth, //postview width mShotParam.mi4PostviewHeight, //postview height 0, //postview transform mShotParam.mu4ZoomRatio //zoom ); // jpeg param NSCamShot::JpegParam rJpegParam( NSCamShot::ThumbnailParam( mJpegParam.mi4JpegThumbWidth, mJpegParam.mi4JpegThumbHeight, mJpegParam.mu4JpegThumbQuality, MTRUE), mJpegParam.mu4JpegQuality, //Quality MFALSE //isSOI ); // sensor param NSCamShot::SensorParam rSensorParam( getOpenId(), //sensor idx SENSOR_SCENARIO_ID_NORMAL_CAPTURE, //Scenaio 10, //bit depth MFALSE, //bypass delay MFALSE //bypass scenario ); // pSingleShot->setCallbacks(fgCamShotNotifyCb, fgCamShotDataCb, this); // ret = pSingleShot->setShotParam(rShotParam); // ret = pSingleShot->setJpegParam(rJpegParam); // if(mu4ShotMode == NSCam::eShotMode_ZsdShot) { CAM_LOGD("ZSD Shot"); ret = pSingleShot->sendCommand( NSCamShot::ECamShot_CMD_SET_CAPTURE_STYLE, NSCamShot::ECamShot_CMD_STYLE_NORMAL, 0, 0); } else if(mu4ShotMode == NSCam::eShotMode_VideoSnapShot) { CAM_LOGD("VSS Shot"); ret = pSingleShot->sendCommand( NSCamShot::ECamShot_CMD_SET_CAPTURE_STYLE, NSCamShot::ECamShot_CMD_STYLE_VSS, 0, 0); } else { CAM_LOGE("Un-supported Shot"); } // ret = pSingleShot->sendCommand( NSCamShot::ECamShot_CMD_SET_NRTYPE, nrtype, 0, 0 ); // IImageBuffer* pImageBuffer; mpCapBufMgr->dequeBuf(pImageBuffer); ret = pSingleShot->startOne(rSensorParam, pImageBuffer); mpCapBufMgr->enqueBuf(pImageBuffer); // ret = pSingleShot->uninit(); // pSingleShot->destroyInstance(); return ret; }
MBOOL Mhal_facebeauty:: createFullFrame(IMEM_BUF_INFO Srcbufinfo) { MBOOL ret = MTRUE; MINT32 err = 0; CPTLog(Event_FBShot_createFullFrame, CPTFlagStart); MY_LOGD("[createFullFrame] + \n"); NSCamShot::ISingleShot *pSingleShot = NSCamShot::ISingleShot::createInstance(eShotMode_FaceBeautyShot, "FaceBeautyshot"); // pSingleShot->init(); EImageFormat ePostViewFmt = static_cast<EImageFormat>(android::MtkCamUtils::FmtUtils::queryImageioFormat(mShotParam.ms8PostviewDisplayFormat)); ImgBufInfo rSrcImgInfo; rSrcImgInfo.u4ImgWidth = mu4W_yuv; rSrcImgInfo.u4ImgHeight = mu4H_yuv; rSrcImgInfo.eImgFmt = eImgFmt_YV16; rSrcImgInfo.u4Stride[0] = rSrcImgInfo.u4ImgWidth; rSrcImgInfo.u4Stride[1] = rSrcImgInfo.u4ImgWidth >> 1; rSrcImgInfo.u4Stride[2] = rSrcImgInfo.u4ImgWidth >> 1; rSrcImgInfo.u4BufSize = Srcbufinfo.size; rSrcImgInfo.u4BufVA = Srcbufinfo.virtAddr; rSrcImgInfo.u4BufPA = Srcbufinfo.phyAddr; rSrcImgInfo.i4MemID = Srcbufinfo.memID; pSingleShot->registerImgBufInfo(ECamShot_BUF_TYPE_YUV, rSrcImgInfo); ImgBufInfo rPostImgInfo; rPostImgInfo.u4ImgWidth = mShotParam.mi4PostviewWidth; rPostImgInfo.u4ImgHeight = mShotParam.mi4PostviewHeight; rPostImgInfo.eImgFmt = ePostViewFmt; rPostImgInfo.u4Stride[0] = rPostImgInfo.u4ImgWidth; rPostImgInfo.u4Stride[1] = rPostImgInfo.u4ImgWidth >> 1; rPostImgInfo.u4Stride[2] = rPostImgInfo.u4ImgWidth >> 1; // using blurimg buffer for reduce buffer size rPostImgInfo.u4BufSize = mpBlurImg.size; rPostImgInfo.u4BufVA = mpBlurImg.virtAddr; rPostImgInfo.u4BufPA = mpBlurImg.phyAddr; rPostImgInfo.i4MemID = mpBlurImg.memID; pSingleShot->registerImgBufInfo(ECamShot_BUF_TYPE_POSTVIEW, rPostImgInfo); // pSingleShot->enableDataMsg(ECamShot_DATA_MSG_YUV //| ECamShot_DATA_MSG_JPEG ); pSingleShot->enableNotifyMsg(NSCamShot::ECamShot_NOTIFY_MSG_EOF); // shot param NSCamShot::ShotParam rShotParam(eImgFmt_YV16, //yuv format mShotParam.mi4PictureWidth, //picutre width mShotParam.mi4PictureHeight, //picture height 0, //picture rotation in jpg 0, //picture flip ePostViewFmt, mShotParam.mi4PostviewWidth, //postview width mShotParam.mi4PostviewHeight, //postview height 0, //postview rotation 0, //postview flip mShotParam.mu4ZoomRatio //zoom ); // jpeg param NSCamShot::JpegParam rJpegParam(mJpegParam.mu4JpegQuality, //Quality MTRUE //isSOI ); // sensor param NSCamShot::SensorParam rSensorParam(static_cast<MUINT32>(MtkCamUtils::DevMetaInfo::queryHalSensorDev(getOpenId())), //Device ID #warning [FIXME] workaround for Alta phone capture mode can not work ACDK_SCENARIO_ID_CAMERA_CAPTURE_JPEG, //Scenaio //ACDK_SCENARIO_ID_CAMERA_PREVIEW, //Scenaio 10, //bit depth MFALSE, //bypass delay MFALSE //bypass scenario ); // pSingleShot->setCallbacks(fgCamShotNotifyCb, fgCamShotDataCb, this); // pSingleShot->setShotParam(rShotParam); // pSingleShot->setJpegParam(rJpegParam); // pSingleShot->startOne(rSensorParam); // pSingleShot->uninit(); // pSingleShot->destroyInstance(); if(mShotParam.ms8ShotFileName.string()!=NULL) { ret = createFBJpegImg(Srcbufinfo,mu4W_yuv,mu4H_yuv,1); if ( ! ret ) { goto lbExit; } } #ifdef Debug_Mode loadFileToBuf("/data/FBSOURCE.yuv",(uint8_t*)Srcbufinfo.virtAddr,Srcbufinfo.size); saveBufToFile("/sdcard/img.yuv", (uint8_t*)Srcbufinfo.virtAddr, Srcbufinfo.size); #endif CPTLog(Event_FBShot_createFullFrame, CPTFlagEnd); MY_LOGD("[createFullFrame] - \n"); lbExit: return ret; }
bool EngShot:: onCmd_capture() { MBOOL ret = MTRUE; MUINT32 sensorDev = (MUINT32)NSCam::IHalSensorList::get()->querySensorDevIdx(getOpenId()); // NSIspTuning::IspTuningMgr::getInstance().setOperMode(sensorDev, NSIspTuning::EOperMode_EM); if (EngParam::ENG_SENSOR_MODE_PREVIEW == mEngParam->mi4EngSensorMode) { /*MINT32 err1; err1 = NS3A::IAeMgr::getInstance().CCTOPAESetCaptureMode(sensorDev,0); CAM_LOGD("CCTOPAESetCaptureMode(0): %d", err1);*/ MBOOL err2; err2 = NSIspTuning::IspTuningMgr::getInstance().setSensorMode(sensorDev, NSIspTuning::ESensorMode_Preview); CAM_LOGD("setSensorMode(NSIspTuning::ESensorMode_Preview): %d", err2); } else if (EngParam::ENG_SENSOR_MODE_CAPTURE == mEngParam->mi4EngSensorMode) { /*MINT32 err1; err1 = NS3A::IAeMgr::getInstance().CCTOPAESetCaptureMode(sensorDev,1); CAM_LOGD("CCTOPAESetCaptureMode(3): %d", err1);*/ MBOOL err2; err2 = NSIspTuning::IspTuningMgr::getInstance().setSensorMode(sensorDev, NSIspTuning::ESensorMode_Capture); CAM_LOGD("setSensorMode(NSIspTuning::ESensorMode_Capture): %d", err2); } else if (EngParam::ENG_SENSOR_MODE_VIDEO_PREVIEW == mEngParam->mi4EngSensorMode) { /*MINT32 err1; err1 = NS3A::IAeMgr::getInstance().CCTOPAESetCaptureMode(sensorDev,2); CAM_LOGD("CCTOPAESetCaptureMode(3): %d", err1);*/ MBOOL err2; err2 = NSIspTuning::IspTuningMgr::getInstance().setSensorMode(sensorDev, NSIspTuning::ESensorMode_Video); CAM_LOGD("setSensorMode(NSIspTuning::ESensorMode_Video): %d", err2); } NSCamShot::ISingleShot *pSingleShot = NSCamShot::ISingleShot::createInstance(static_cast<EShotMode>(mu4ShotMode), "EngShot"); // pSingleShot->init(); // pSingleShot->enableNotifyMsg(NSCamShot::ECamShot_NOTIFY_MSG_SOF); // EImageFormat ePostViewFmt = static_cast<EImageFormat>(android::MtkCamUtils::FmtUtils::queryImageioFormat(mShotParam.ms8PostviewDisplayFormat)); MINT32 i4msg = 0; if (mEngParam->mi4EngRawSaveEn) { i4msg |= NSCamShot::ECamShot_DATA_MSG_BAYER; } pSingleShot->enableDataMsg(NSCamShot::ECamShot_DATA_MSG_JPEG | i4msg | ((ePostViewFmt != eImgFmt_UNKNOWN) ? NSCamShot::ECamShot_DATA_MSG_POSTVIEW : NSCamShot::ECamShot_DATA_MSG_NONE) ); // IHalSensorList* const pIHalSensorList = IHalSensorList::get(); if(pIHalSensorList) { MUINT32 sensorDev = (MUINT32)pIHalSensorList->querySensorDevIdx(getOpenId()); NSCam::SensorStaticInfo sensorStaticInfo; memset(&sensorStaticInfo, 0, sizeof(NSCam::SensorStaticInfo)); pIHalSensorList->querySensorStaticInfo(sensorDev, &sensorStaticInfo); mEngParam->u4RawPixelID = sensorStaticInfo.sensorFormatOrder; /* SENSOR_OUTPUT_FORMAT_RAW_B=0, SENSOR_OUTPUT_FORMAT_RAW_Gb, SENSOR_OUTPUT_FORMAT_RAW_Gr, SENSOR_OUTPUT_FORMAT_RAW_R */ #define scenario_case(scenario, KEY, mEngParam) \ case scenario: \ (mEngParam)->u4SensorWidth = sensorStaticInfo.KEY##Width; \ (mEngParam)->u4SensorHeight = sensorStaticInfo.KEY##Height; \ break; switch (mEngParam->mi4EngSensorMode) { scenario_case( EngParam::ENG_SENSOR_MODE_PREVIEW, preview, mEngParam ); scenario_case( EngParam::ENG_SENSOR_MODE_CAPTURE, capture, mEngParam ); scenario_case( EngParam::ENG_SENSOR_MODE_VIDEO_PREVIEW, video, mEngParam ); scenario_case( EngParam::ENG_SENSOR_MODE_SLIM_VIDEO1, video1, mEngParam ); scenario_case( EngParam::ENG_SENSOR_MODE_SLIM_VIDEO2, video2, mEngParam ); scenario_case( EngParam::ENG_SENSOR_MODE_CUSTOM1, SensorCustom1, mEngParam ); scenario_case( EngParam::ENG_SENSOR_MODE_CUSTOM2, SensorCustom2, mEngParam ); scenario_case( EngParam::ENG_SENSOR_MODE_CUSTOM3, SensorCustom3, mEngParam ); scenario_case( EngParam::ENG_SENSOR_MODE_CUSTOM4, SensorCustom4, mEngParam ); scenario_case( EngParam::ENG_SENSOR_MODE_CUSTOM5, SensorCustom5, mEngParam ); default: MY_LOGE("not support sensor scenario(0x%x)", mEngParam->mi4EngSensorMode); ret = MFALSE; break; } } #undef scenario_case // Align Jpeg Size to RAW Size //Only when raw save and in normal mode if ((mEngParam->mi4EngRawSaveEn == 1 && getBootMode() == 0) && (mEngParam->mi4EngSensorMode != EngParam::ENG_SENSOR_MODE_CAPTURE)&& (mEngParam->mi4EngSensorMode != EngParam::ENG_SENSOR_MODE_VIDEO_PREVIEW)&& (mEngParam->mi4EngSensorMode != EngParam::ENG_SENSOR_MODE_SLIM_VIDEO1)&& (mEngParam->mi4EngSensorMode != EngParam::ENG_SENSOR_MODE_SLIM_VIDEO2)) { // 1. keep to the same ratio // 2. size is closed to sensor raw. // srcW/srcH < dstW/dstH if (mEngParam->u4SensorWidth * mShotParam.mi4PostviewHeight <= mShotParam.mi4PostviewWidth * mEngParam->u4SensorHeight) { mShotParam.mi4PictureWidth = ( mEngParam->u4SensorWidth ) & (~0xF); mShotParam.mi4PictureHeight = ( mEngParam->u4SensorWidth * mShotParam.mi4PostviewHeight / mShotParam.mi4PostviewWidth ) & (~0xF); } //srcW/srcH > dstW/dstH else { mShotParam.mi4PictureWidth = ( mEngParam->u4SensorHeight* mShotParam.mi4PostviewWidth / mShotParam.mi4PostviewHeight ) & (~0xF); mShotParam.mi4PictureHeight = ( mEngParam->u4SensorHeight ) & (~0xF); } } // shot param NSCamShot::ShotParam rShotParam(eImgFmt_YUY2, //yuv format mShotParam.mi4PictureWidth, //picutre width mShotParam.mi4PictureHeight, //picture height mShotParam.mi4Rotation, //picture rotation 0, //picture flip ePostViewFmt, // postview format mShotParam.mi4PostviewWidth, //postview width mShotParam.mi4PostviewHeight, //postview height 0, //postview rotation 0, //postview flip mShotParam.mu4ZoomRatio //zoom ); // jpeg param NSCamShot::JpegParam rJpegParam(NSCamShot::ThumbnailParam(mJpegParam.mi4JpegThumbWidth, mJpegParam.mi4JpegThumbHeight, mJpegParam.mu4JpegThumbQuality, MTRUE), mJpegParam.mu4JpegQuality, //Quality MFALSE //isSOI ); // sensor param MUINT32 u4Scenario; if (1 == mEngParam->mi4EngRawSaveEn) { u4Scenario = mEngParam->mi4EngSensorMode; } else { #warning [FIXME] workaround for Alta phone capture mode cant work u4Scenario = SENSOR_SCENARIO_ID_NORMAL_PREVIEW; // u4Scenario = ACDK_SCENARIO_ID_CAMERA_CAPTURE_JPEG; } NSCamShot::SensorParam rSensorParam(static_cast<MUINT32>(MtkCamUtils::DevMetaInfo::queryHalSensorDev(getOpenId())), //Device ID #warning [FIXME] workaround for Alta phone capture mode cant work //ACDK_SCENARIO_ID_CAMERA_CAPTURE_JPEG, //Scenaio u4Scenario, //Scenaio 10, //bit depth MFALSE, //bypass delay MFALSE, //bypass scenario mEngParam->mi4EngIspMode); // mEngParam->u4Bitdepth = rSensorParam.u4Bitdepth; NSCamShot::querySensorInfo(rSensorParam.u4DeviceID, rSensorParam.u4Scenario, rSensorParam.u4Bitdepth, mEngParam->eImgFmt, mEngParam->u4SensorWidth, mEngParam->u4SensorHeight, mEngParam->u4RawPixelID /* SENSOR_OUTPUT_FORMAT_RAW_B=0, SENSOR_OUTPUT_FORMAT_RAW_Gb, SENSOR_OUTPUT_FORMAT_RAW_Gr, SENSOR_OUTPUT_FORMAT_RAW_R */ ); pSingleShot->setCallbacks(fgCamShotNotifyCb, fgCamShotDataCb, this); // ret = pSingleShot->setShotParam(rShotParam); // ret = pSingleShot->setJpegParam(rJpegParam); // ret = pSingleShot->startOne(rSensorParam); // ret = pSingleShot->uninit(); // pSingleShot->destroyInstance(); return ret; }