MVOID IspTuningCustom:: evaluate_nvram_index(RAWIspCamInfo const& rCamInfo, IndexMgr& rIdxMgr) { MBOOL fgRet = MFALSE; ECamMode_T const eCamMode = rCamInfo.eCamMode; EIndex_Scene_T const eIdx_Scene = rCamInfo.eIdx_Scene; EIndex_ISO_T const eIdx_ISO = rCamInfo.eIdx_ISO; MUINT32 const u4ISOValue = rCamInfo.u4ISOValue; MUINT32 const i4CCT = rCamInfo.i4CCT; MUINT32 const u4ZoomRatio_x100 = rCamInfo.u4ZoomRatio_x100; MINT32 const i4LightValue_x10 = rCamInfo.i4LightValue_x10; // (0) We have: // eCamMode, eScene, ...... //.............................................................................. // (1) Dump info. before customizing. #if ENABLE_MY_LOG rCamInfo.dump(); #endif #if 0 LOGD("[+evaluate_nvram_index][before customizing]"); rIdxMgr.dump(); #endif //.............................................................................. // (2) Modify each index based on conditions. // // setIdx_XXX() returns: // MTURE: if successful // MFALSE: if the input index is out of range. // #if 0 fgRet = rIdxMgr.setIdx_DM(XXX); fgRet = rIdxMgr.setIdx_DP(XXX); fgRet = rIdxMgr.setIdx_NR1(XXX); fgRet = rIdxMgr.setIdx_NR2(XXX); fgRet = rIdxMgr.setIdx_Saturation(XXX); fgRet = rIdxMgr.setIdx_Contrast(XXX); fgRet = rIdxMgr.setIdx_Hue(XXX); fgRet = rIdxMgr.setIdx_Gamma(XXX); fgRet = rIdxMgr.setIdx_EE(XXX); #endif //.............................................................................. // (3) Finally, dump info. after modifying. #if 0 LOGD("[-evaluate_nvram_index][after customizing]"); rIdxMgr.dump(); #endif }
/******************************************************************************* * * rCamInfo * [in] ISP Camera Info for RAW sensor. Its members are as below: * * eCamMode: * ECamMode_Video = 0, * ECamMode_Online_Preview, * ECamMode_Online_Capture, * ECamMode_Online_Capture_ZSD, * ECamMode_Offline_Capture_Pass1, * ECamMode_Offline_Capture_Pass2, * ECamMode_HDR_Cap_Pass1_SF, // Pass1: Single Frame * ECamMode_HDR_Cap_Pass1_MF1, // Pass1: Multi Frame Stage1 * ECamMode_HDR_Cap_Pass1_MF2, // Pass1: Multi Frame Stage2 * ECamMode_HDR_Cap_Pass2, // Pass2 * * eIdx_Scene: * SCENE_MODE_OFF, // Disable scene mode equal Auto mode * SCENE_MODE_NORMAL, // Normal mode * SCENE_MODE_ACTION, // Action mode * SCENE_MODE_PORTRAIT, // Portrait mode * SCENE_MODE_LANDSCAPE, // Landscape * SCENE_MODE_NIGHTSCENE, // Night Scene * SCENE_MODE_NIGHTPORTRAIT, // Night Portrait * SCENE_MODE_THEATRE, // Theatre mode * SCENE_MODE_BEACH, // Beach mode * SCENE_MODE_SNOW, // Snow mode * SCENE_MODE_SUNSET, // Sunset mode * SCENE_MODE_STEADYPHOTO, // Steady photo mode * SCENE_MODE_FIREWORKS, // Fireworks mode * SCENE_MODE_SPORTS, // Sports mode * SCENE_MODE_PARTY, // Party mode * SCENE_MODE_CANDLELIGHT, // Candle light mode * SCENE_MODE_HDR, // HDR mode * * u4ISOValue: * ISO value to determine eISO. * * eIdx_ISO: * eIDX_ISO_100, * eIDX_ISO_200, * eIDX_ISO_400, * eIDX_ISO_800, * eIDX_ISO_1600 * * i4CCT: * Correlated color temperature * * eCCTIndex_CCM: * Correlated color temperature index for CCM * eIDX_CCM_CCT_TL84 * eIDX_CCM_CCT_CWF * eIDX_CCM_CCT_D65 * * u4ZoomRatio_x100: * zoom ratio (x100) * * i4LightValue_x10: * light value (x10) * * rIdxMgr: * [in] The default ISP tuning index manager. * [out] The ISP tuning index manager after customizing. * * *******************************************************************************/ MVOID IspTuningCustom:: evaluate_nvram_index(RAWIspCamInfo const& rCamInfo, IndexMgr& rIdxMgr) { //.............................................................................. // (1) Dump info. before customizing. #if ENABLE_MY_LOG rCamInfo.dump(); #endif #if 0 LOGD("[+evaluate_nvram_index][before customizing]"); rIdxMgr.dump(); #endif //.............................................................................. // (2) Modify each index based on conditions. // // setIdx_XXX() returns: // MTURE: if successful // MFALSE: if the input index is out of range. // #if 0 fgRet = rIdxMgr.setIdx_OBC(XXX); fgRet = rIdxMgr.setIdx_BPC(XXX); fgRet = rIdxMgr.setIdx_NR1(XXX); fgRet = rIdxMgr.setIdx_CFA(XXX); fgRet = rIdxMgr.setIdx_GGM(XXX); fgRet = rIdxMgr.setIdx_ANR(XXX); fgRet = rIdxMgr.setIdx_CCR(XXX); fgRet = rIdxMgr.setIdx_EE(XXX); fgRet = rIdxMgr.setIdx_NR3D(XXX); fgRet = rIdxMgr.setIdx_MFB(XXX); #endif //.............................................................................. // (3) Finally, dump info. after modifying. #if 0 LOGD("[-evaluate_nvram_index][after customizing]"); rIdxMgr.dump(); #endif }
//++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ // //++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ MERROR_ENUM Paramctrl:: do_validatePerFrameP2(MINT32 flowType, const RAWIspCamInfo& rIspCamInfo, void* pRegBuf) { MERROR_ENUM err = MERR_OK; MBOOL prepare_rdy = MTRUE; MY_LOG_IF(m_bDebugEnable, "[do_validatePerFrameP2]"); CPTLog(Event_Pipe_3A_ISP_VALIDATE_PERFRAME_DYNAMIC_TUNING, CPTFlagStart); // Profiling Start. // (1) dynamic tuning if (isDynamicTuning()) { IndexMgr idxmgr; // a) Get default index setting. INDEX_T const*const pDefaultIndex = m_pIspTuningCustom->getDefaultIndex( rIspCamInfo.eIspProfile, ESensorMode_Preview/*ISP_TEMP_MARK_OUT sensor mode */, rIspCamInfo.eIdx_Scene, rIspCamInfo.eIdx_ISO ); if ( ! pDefaultIndex ) { MY_ERR("[ERROR][validatePerFrame]pDefaultIndex==NULL"); err = MERR_CUSTOM_DEFAULT_INDEX_NOT_FOUND; goto lbExit; } idxmgr = *pDefaultIndex; MY_LOG_IF(m_bDebugEnable, "[BEFORE][evaluate_nvram_index]"); if (m_bDebugEnable) { idxmgr.dump(); } // b) Customize the index setting. m_pIspTuningCustom->evaluate_nvram_index(rIspCamInfo, idxmgr); MY_LOG_IF(m_bDebugEnable, "[AFTER][evaluate_nvram_index]"); if (m_bDebugEnable) { idxmgr.dump(); } MY_LOG_IF(m_bDebugEnable, "IndexMgr::getIdx = [OBC(%d),BPC(%d),NR1(%d),CFA(%d),GGM(%d),ANR(%d),CCR(%d),EE(%d)]\n" ,idxmgr.getIdx_OBC() ,idxmgr.getIdx_BPC() ,idxmgr.getIdx_NR1() ,idxmgr.getIdx_CFA() ,idxmgr.getIdx_GGM() ,idxmgr.getIdx_ANR() ,idxmgr.getIdx_CCR() ,idxmgr.getIdx_EE()); // (2) Apply Per-Frame Parameters. MY_LOG_IF(m_bDebugEnable, "[do_validatePerFrame()] isDynamicBypass() = %d\n", isDynamicBypass()); (isDynamicBypass() == MTRUE) ? (prepare_rdy = prepareHw_PerFrame_Partial(rIspCamInfo, idxmgr)) : (prepare_rdy = prepareHw_PerFrame_All(rIspCamInfo, idxmgr)); } CPTLog(Event_Pipe_3A_ISP_VALIDATE_PERFRAME_DYNAMIC_TUNING, CPTFlagEnd); // Profiling End. if(!prepare_rdy || ! applyToHw_PerFrame_P2(flowType, rIspCamInfo, pRegBuf)) // Apply the ispmgr's buffer to H/W. { err = MERR_SET_ISP_REG; goto lbExit; } #if 0 if ( ! prepareHw_PerFrame_All() // Prepare param members to the ispmgr's buffer. || ! applyToHw_PerFrame_All() // Apply the ispmgr's buffer to H/W. ) { err = MERR_SET_ISP_REG; goto lbExit; } #endif // (3) Save Exif debug info if necessary. err = saveDebugInfo(); if ( MERR_OK != err ) { goto lbExit; } lbExit: if ( MERR_OK != err ) { MY_ERR("[-do_validatePerFrame]err(%X)", err); } return err; }
//++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ // //++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ MERROR_ENUM Paramctrl:: do_validatePerFrame(MINT32 const i4FrameID) { MERROR_ENUM err = MERR_OK; MBOOL prepare_rdy; MY_LOG_IF(m_bDebugEnable, "[do_validatePerFrame]"); CPTLog(Event_Pipe_3A_ISP_VALIDATE_PERFRAME_DYNAMIC_TUNING, CPTFlagStart); // Profiling Start. // (1) dynamic tuning if (isDynamicTuning()) { IndexMgr idxmgr; // CAM3 TODO: profile mapping if (m_i4IspProfile == EIspProfile_NormalPreview) { switch (m_rIspCamInfo.eSensorMode) { case ESensorMode_Preview: m_rIspCamInfo.eIspProfile = EIspProfile_NormalPreview; break; case ESensorMode_Video: m_rIspCamInfo.eIspProfile = EIspProfile_VideoPreview; break; case ESensorMode_Capture: m_rIspCamInfo.eIspProfile = EIspProfile_ZsdPreview_CC; break; default: m_rIspCamInfo.eIspProfile = EIspProfile_NormalPreview; } } else if (m_i4IspProfile == EIspProfile_NormalCapture) { switch (m_rIspCamInfo.eSensorMode) { case ESensorMode_Preview: case ESensorMode_Video: m_rIspCamInfo.eIspProfile = EIspProfile_VideoCapture; break; case ESensorMode_Capture: m_rIspCamInfo.eIspProfile = EIspProfile_NormalCapture; break; default: m_rIspCamInfo.eIspProfile = EIspProfile_NormalCapture; } } else { MY_ERR("[do_validatePerFrame]incorrect ISP profile = %d", m_i4IspProfile); } // a) Get default index setting. INDEX_T const*const pDefaultIndex = m_pIspTuningCustom->getDefaultIndex( m_rIspCamInfo.eIspProfile, ESensorMode_Preview/*ISP_TEMP_MARK_OUT sensor mode */, m_rIspCamInfo.eIdx_Scene, m_rIspCamInfo.eIdx_ISO ); if ( ! pDefaultIndex ) { MY_ERR("[ERROR][validatePerFrame]pDefaultIndex==NULL"); err = MERR_CUSTOM_DEFAULT_INDEX_NOT_FOUND; goto lbExit; } idxmgr = *pDefaultIndex; MY_LOG_IF(m_bDebugEnable, "[BEFORE][evaluate_nvram_index]"); if (m_bDebugEnable) { idxmgr.dump(); } // b) Customize the index setting. m_pIspTuningCustom->evaluate_nvram_index(m_rIspCamInfo, idxmgr); MY_LOG_IF(m_bDebugEnable, "[AFTER][evaluate_nvram_index]"); if (m_bDebugEnable) { idxmgr.dump(); } // c) Restore customized index set to member. //m_IspNvramMgr = idxmgr; //Yosen mark out if (!isDynamicBypass()) m_IspNvramMgr = idxmgr; //Yosen MY_LOG_IF(m_bDebugEnable, "m_IspNvramMgr::getIdx = [OBC(%d),BPC(%d),NR1(%d),CFA(%d),GGM(%d),ANR(%d),CCR(%d),EE(%d)]\n" ,m_IspNvramMgr.getIdx_OBC() ,m_IspNvramMgr.getIdx_BPC() ,m_IspNvramMgr.getIdx_NR1() ,m_IspNvramMgr.getIdx_CFA() ,m_IspNvramMgr.getIdx_GGM() ,m_IspNvramMgr.getIdx_ANR() ,m_IspNvramMgr.getIdx_CCR() ,m_IspNvramMgr.getIdx_EE()); } CPTLog(Event_Pipe_3A_ISP_VALIDATE_PERFRAME_DYNAMIC_TUNING, CPTFlagEnd); // Profiling End. // (2) Apply Per-Frame Parameters. MY_LOG_IF(m_bDebugEnable, "[do_validatePerFrame()] isDynamicBypass() = %d\n", isDynamicBypass()); (isDynamicBypass() == MTRUE) ? (prepare_rdy = prepareHw_PerFrame_Partial()) : (prepare_rdy = prepareHw_PerFrame_All()); if(!prepare_rdy || ! applyToHw_PerFrame_All(i4FrameID)) // Apply the ispmgr's buffer to H/W. { err = MERR_SET_ISP_REG; goto lbExit; } #if 0 if ( ! prepareHw_PerFrame_All() // Prepare param members to the ispmgr's buffer. || ! applyToHw_PerFrame_All() // Apply the ispmgr's buffer to H/W. ) { err = MERR_SET_ISP_REG; goto lbExit; } #endif // (3) Save Exif debug info if necessary. err = saveDebugInfo(); if ( MERR_OK != err ) { goto lbExit; } lbExit: if ( MERR_OK != err ) { MY_ERR("[-do_validatePerFrame]err(%X)", err); } return err; }
//++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ // //++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ MERROR_ENUM Paramctrl:: do_validatePerFrame(MINT32 const i4FrameID) { MERROR_ENUM err = MERR_OK; MBOOL prepare_rdy; MINT32 time_ms; MY_LOG_IF(m_bDebugEnable, "[do_validatePerFrame]"); //CPTLog(Event_Pipe_3A_ISP_VALIDATE_PERFRAME_DYNAMIC_TUNING, CPTFlagStart); // Profiling Start. if (m_bProfileEnable) m_pAaaTimer->start("do_validatePerFrame: nvram index", m_eSensorDev, m_bProfileEnable); // (1) dynamic tuning if (isDynamicTuning()) { IndexMgr idxmgr; MY_LOG_IF(m_bDebugEnable, "eIspProfile = %d, eSensorMode = %d, eIdx_Scene = %d, eIdx_ISO = %d", m_rIspCamInfo.eIspProfile, m_rIspCamInfo.eSensorMode, m_rIspCamInfo.eIdx_Scene, m_rIspCamInfo.eIdx_ISO); // Refine camera info. m_pIspTuningCustom->refine_CamInfo(m_rIspCamInfo); // a) Get default index setting. INDEX_T const*const pDefaultIndex = m_pIspTuningCustom->getDefaultIndex( m_rIspCamInfo.eIspProfile, m_rIspCamInfo.eSensorMode, m_rIspCamInfo.eIdx_Scene, m_rIspCamInfo.eIdx_ISO ); if ( ! pDefaultIndex ) { MY_ERR("[ERROR][validatePerFrame]pDefaultIndex==NULL"); err = MERR_CUSTOM_DEFAULT_INDEX_NOT_FOUND; goto lbExit; } idxmgr = *pDefaultIndex; MY_LOG_IF(m_bDebugEnable, "[BEFORE][evaluate_nvram_index]"); if (m_bDebugEnable) { idxmgr.dump(); } // b) Customize the index setting. m_pIspTuningCustom->evaluate_nvram_index(m_rIspCamInfo, idxmgr); MY_LOG_IF(m_bDebugEnable, "[AFTER][evaluate_nvram_index]"); if (m_bDebugEnable) { idxmgr.dump(); } // c) Restore customized index set to member. if (!isDynamicBypass()) m_IspNvramMgr = idxmgr; //m_IspNvramMgr = idxmgr; } if (m_bProfileEnable) time_ms = m_pAaaTimer->End(); if (m_bProfileEnable) m_pAaaTimer->start("do_validatePerFrame: prepareHw_PerFrame_All()", m_eSensorDev, m_bProfileEnable); // (2) Apply Per-Frame Parameters. (isDynamicBypass() == MTRUE) ? (prepare_rdy = prepareHw_PerFrame_Partial()) : (prepare_rdy = prepareHw_PerFrame_All()); if (m_bProfileEnable) time_ms = m_pAaaTimer->End(); if (m_bProfileEnable) m_pAaaTimer->start("do_validatePerFrame: applyToHw_PerFrame_All()", m_eSensorDev, m_bProfileEnable); if(!prepare_rdy || ! applyToHw_PerFrame_All(i4FrameID)) // Apply the ispmgr's buffer to H/W. { err = MERR_SET_ISP_REG; goto lbExit; } #if 0 if ( ! prepareHw_PerFrame_All() // Prepare param members to the ispmgr's buffer. || ! applyToHw_PerFrame_All() // Apply the ispmgr's buffer to H/W. ) { err = MERR_SET_ISP_REG; goto lbExit; } #endif lbExit: if ( MERR_OK != err ) { MY_ERR("[-do_validatePerFrame]err(%X)", err); } if (m_bProfileEnable) time_ms = m_pAaaTimer->End(); return err; }