#include "rk_aiq_amfnr_algo_v1.h" #include "rk_aiq_amfnr_algo_itf_v1.h" RKAIQ_BEGIN_DECLARE Amfnr_Result_V1_t Amfnr_Start_V1(Amfnr_Context_V1_t *pAmfnrCtx) { LOGI_ANR( "%s:enter!\n", __FUNCTION__); // initial checks if (pAmfnrCtx == NULL) { return (AMFNR_RET_V1_NULL_POINTER); } if ((AMFNR_STATE_V1_RUNNING == pAmfnrCtx->eState) || (AMFNR_STATE_V1_LOCKED == pAmfnrCtx->eState)) { return (AMFNR_RET_V1_FAILURE); } pAmfnrCtx->eState = AMFNR_STATE_V1_RUNNING; LOGI_ANR( "%s:exit!\n", __FUNCTION__); return (AMFNR_RET_V1_SUCCESS); } Amfnr_Result_V1_t Amfnr_Stop_V1(Amfnr_Context_V1_t *pAmfnrCtx) { LOGI_ANR( "%s:enter!\n", __FUNCTION__); // initial checks if (pAmfnrCtx == NULL) { return (AMFNR_RET_V1_NULL_POINTER); } if (AMFNR_STATE_V1_LOCKED == pAmfnrCtx->eState) { return (AMFNR_RET_V1_FAILURE); } pAmfnrCtx->eState = AMFNR_STATE_V1_STOPPED; LOGI_ANR( "%s:exit!\n", __FUNCTION__); return (AMFNR_RET_V1_SUCCESS); } //anr inint Amfnr_Result_V1_t Amfnr_Init_V1(Amfnr_Context_V1_t **ppAmfnrCtx, CamCalibDbContext_t *pCalibDb) { Amfnr_Context_V1_t * pAmfnrCtx; LOGI_ANR("%s(%d): enter!\n", __FUNCTION__, __LINE__); pAmfnrCtx = (Amfnr_Context_V1_t *)malloc(sizeof(Amfnr_Context_V1_t)); if(pAmfnrCtx == NULL) { LOGE_ANR("%s(%d): malloc fail\n", __FUNCTION__, __LINE__); return AMFNR_RET_V1_NULL_POINTER; } memset(pAmfnrCtx, 0x00, sizeof(Amfnr_Context_V1_t)); //gain state init pAmfnrCtx->stGainState.gain_stat_full_last = -1; pAmfnrCtx->stGainState.gainState = -1; pAmfnrCtx->stGainState.gainState_last = -1; pAmfnrCtx->stGainState.gain_th0[0] = 2.0; pAmfnrCtx->stGainState.gain_th1[0] = 4.0; pAmfnrCtx->stGainState.gain_th0[1] = 32.0; pAmfnrCtx->stGainState.gain_th1[1] = 64.0; pAmfnrCtx->fLuma_TF_Strength = 1.0; pAmfnrCtx->fChroma_TF_Strength = 1.0; pAmfnrCtx->refYuvBit = 8; pAmfnrCtx->eState = AMFNR_STATE_V1_INITIALIZED; *ppAmfnrCtx = pAmfnrCtx; pAmfnrCtx->eMode = AMFNR_OP_MODE_V1_AUTO; pAmfnrCtx->isIQParaUpdate = false; pAmfnrCtx->isGrayMode = false; #if AMFNR_USE_XML_FILE_V1 //read v1 params from xml pAmfnrCtx->stMfnrCalib = *(CalibDb_MFNR_2_t*)(CALIBDB_GET_MODULE_PTR((void*)pCalibDb, mfnr)); #endif #if RK_SIMULATOR_HW //just for v1 params from html #endif #if AMFNR_USE_XML_FILE_V1 pAmfnrCtx->stExpInfo.snr_mode = 0; pAmfnrCtx->eParamMode = AMFNR_PARAM_MODE_V1_NORMAL; Amfnr_ConfigSettingParam_V1(pAmfnrCtx, pAmfnrCtx->eParamMode, pAmfnrCtx->stExpInfo.snr_mode); #endif LOGD_ANR("%s(%d):", __FUNCTION__, __LINE__); LOGI_ANR("%s(%d): exit!\n", __FUNCTION__, __LINE__); return AMFNR_RET_V1_SUCCESS; } //anr inint Amfnr_Result_V1_t Amfnr_Init_Json_V1(Amfnr_Context_V1_t **ppAmfnrCtx, CamCalibDbV2Context_t *pCalibDbV2) { Amfnr_Context_V1_t * pAmfnrCtx; LOGI_ANR("%s(%d): enter!\n", __FUNCTION__, __LINE__); pAmfnrCtx = (Amfnr_Context_V1_t *)malloc(sizeof(Amfnr_Context_V1_t)); if(pAmfnrCtx == NULL) { LOGE_ANR("%s(%d): malloc fail\n", __FUNCTION__, __LINE__); return AMFNR_RET_V1_NULL_POINTER; } memset(pAmfnrCtx, 0x00, sizeof(Amfnr_Context_V1_t)); //gain state init pAmfnrCtx->stGainState.gain_stat_full_last = -1; pAmfnrCtx->stGainState.gainState = -1; pAmfnrCtx->stGainState.gainState_last = -1; pAmfnrCtx->stGainState.gain_th0[0] = 2.0; pAmfnrCtx->stGainState.gain_th1[0] = 4.0; pAmfnrCtx->stGainState.gain_th0[1] = 32.0; pAmfnrCtx->stGainState.gain_th1[1] = 64.0; pAmfnrCtx->fLuma_TF_Strength = 1.0; pAmfnrCtx->fChroma_TF_Strength = 1.0; pAmfnrCtx->refYuvBit = 8; pAmfnrCtx->eState = AMFNR_STATE_V1_INITIALIZED; *ppAmfnrCtx = pAmfnrCtx; pAmfnrCtx->eMode = AMFNR_OP_MODE_V1_AUTO; pAmfnrCtx->isIQParaUpdate = false; pAmfnrCtx->isGrayMode = false; #if AMFNR_USE_JSON_PARA_V1 //read v1 params from xml CalibDbV2_MFNR_t* calibv2_mfnr_v1 = (CalibDbV2_MFNR_t*)(CALIBDBV2_GET_MODULE_PTR(pCalibDbV2, mfnr_v1)); mfnr_calibdbV2_assign_v1(&pAmfnrCtx->mfnr_v1, calibv2_mfnr_v1); LOGI_ANR("%s(%d): mode_3to1:%d mfnr version:%s %p\n", __FUNCTION__, __LINE__, pAmfnrCtx->mfnr_mode_3to1, pAmfnrCtx->mfnr_v1.Version, pAmfnrCtx->mfnr_v1.Version); #endif #if RK_SIMULATOR_HW //just for v1 params from html #endif #if AMFNR_USE_JSON_PARA_V1 pAmfnrCtx->stExpInfo.snr_mode = 0; pAmfnrCtx->eParamMode = AMFNR_PARAM_MODE_V1_NORMAL; Amfnr_ConfigSettingParam_V1(pAmfnrCtx, pAmfnrCtx->eParamMode, pAmfnrCtx->stExpInfo.snr_mode); #endif LOGI_ANR("%s(%d): exit!\n", __FUNCTION__, __LINE__); return AMFNR_RET_V1_SUCCESS; } //anr release Amfnr_Result_V1_t Amfnr_Release_V1(Amfnr_Context_V1_t *pAmfnrCtx) { Amfnr_Result_V1_t result = AMFNR_RET_V1_SUCCESS; LOGI_ANR("%s(%d): enter!\n", __FUNCTION__, __LINE__); if(pAmfnrCtx == NULL) { LOGE_ANR("%s(%d): null pointer\n", __FUNCTION__, __LINE__); return AMFNR_RET_V1_NULL_POINTER; } result = Amfnr_Stop_V1(pAmfnrCtx); if (result != AMFNR_RET_V1_SUCCESS) { LOGE_ANR( "%s: ANRStop() failed!\n", __FUNCTION__); return (result); } // check state if ((AMFNR_STATE_V1_RUNNING == pAmfnrCtx->eState) || (AMFNR_STATE_V1_LOCKED == pAmfnrCtx->eState)) { return (AMFNR_RET_V1_BUSY); } #if AMFNR_USE_JSON_PARA_V1 mfnr_calibdbV2_free_v1(&pAmfnrCtx->mfnr_v1); #endif memset(pAmfnrCtx, 0x00, sizeof(Amfnr_Context_V1_t)); free(pAmfnrCtx); LOGI_ANR("%s(%d): exit!\n", __FUNCTION__, __LINE__); return AMFNR_RET_V1_SUCCESS; } //anr config Amfnr_Result_V1_t Amfnr_Prepare_V1(Amfnr_Context_V1_t *pAmfnrCtx, Amfnr_Config_V1_t* pAmfnrConfig) { LOGI_ANR("%s(%d): enter!\n", __FUNCTION__, __LINE__); if(pAmfnrCtx == NULL) { LOGE_ANR("%s(%d): null pointer\n", __FUNCTION__, __LINE__); return AMFNR_RET_V1_INVALID_PARM; } if(pAmfnrConfig == NULL) { LOGE_ANR("%s(%d): null pointer\n", __FUNCTION__, __LINE__); return AMFNR_RET_V1_INVALID_PARM; } if(!!(pAmfnrCtx->prepare_type & RK_AIQ_ALGO_CONFTYPE_UPDATECALIB)) { Amfnr_IQParaUpdate_V1(pAmfnrCtx); } Amfnr_Start_V1(pAmfnrCtx); LOGI_ANR("%s(%d): exit!\n", __FUNCTION__, __LINE__); return AMFNR_RET_V1_SUCCESS; } //anr reconfig Amfnr_Result_V1_t Amfnr_ReConfig_V1(Amfnr_Context_V1_t *pAmfnrCtx, Amfnr_Config_V1_t* pAmfnrConfig) { LOGI_ANR("%s(%d): enter!\n", __FUNCTION__, __LINE__); //need todo what? LOGI_ANR("%s(%d): exit!\n", __FUNCTION__, __LINE__); return AMFNR_RET_V1_SUCCESS; } //anr reconfig Amfnr_Result_V1_t Amfnr_IQParaUpdate_V1(Amfnr_Context_V1_t *pAmfnrCtx) { LOGI_ANR("%s(%d): enter!\n", __FUNCTION__, __LINE__); //need todo what? if(pAmfnrCtx->isIQParaUpdate) { LOGD_ANR("IQ data reconfig\n"); Amfnr_ConfigSettingParam_V1(pAmfnrCtx, pAmfnrCtx->eParamMode, pAmfnrCtx->stExpInfo.snr_mode); pAmfnrCtx->isIQParaUpdate = false; } LOGI_ANR("%s(%d): exit!\n", __FUNCTION__, __LINE__); return AMFNR_RET_V1_SUCCESS; } //anr preprocess Amfnr_Result_V1_t Amfnr_PreProcess_V1(Amfnr_Context_V1_t *pAmfnrCtx) { LOGI_ANR("%s(%d): enter!\n", __FUNCTION__, __LINE__); //need todo what? Amfnr_IQParaUpdate_V1(pAmfnrCtx); LOGI_ANR("%s(%d): exit!\n", __FUNCTION__, __LINE__); return AMFNR_RET_V1_SUCCESS; } Amfnr_Result_V1_t Amfnr_GainRatioProcess_V1(Amfnr_GainState_t *pGainState, Amfnr_ExpInfo_V1_t *pExpInfo) { LOGI_ANR("%s(%d): enter!\n", __FUNCTION__, __LINE__); if(pGainState == NULL) { LOGE_ANR("%s(%d): null pointer\n", __FUNCTION__, __LINE__); return AMFNR_RET_V1_INVALID_PARM; } if(pExpInfo == NULL) { LOGE_ANR("%s(%d): null pointer\n", __FUNCTION__, __LINE__); return AMFNR_RET_V1_INVALID_PARM; } float gain_cur = pExpInfo->arAGain[pExpInfo->hdr_mode] * pExpInfo->arDGain[pExpInfo->hdr_mode]; float th[2]; float gain_th0[2]; float gain_th1[2]; for(int i = 0; i < 2; i++) { gain_th0[i] = pGainState->gain_th0[i]; gain_th1[i] = pGainState->gain_th1[i]; th[i] = pow(2.0, (log2(gain_th0[i]) + log2(gain_th1[i])) / 2); } pGainState->gain_cur = gain_cur; int gain_stat_full = -1; int gain_stat_full_last = pGainState->gain_stat_full_last; int gain_stat_last = pGainState->gainState_last; int gain_stat_cur = -1; int gain_stat = -1; if(gain_cur <= gain_th0[0]) { gain_stat_full = 0; gain_stat_cur = 0; } else if(gain_cur <= gain_th1[0] && gain_cur >= gain_th0[0]) { gain_stat_full = 1; } else if(gain_cur <= gain_th0[1] && gain_cur >= gain_th1[0]) { gain_stat_full = 2; gain_stat_cur = 1; } else if(gain_cur <= gain_th1[1] && gain_cur >= gain_th0[1]) { gain_stat_full = 3; } else if(gain_cur >= gain_th1[1]) { gain_stat_full = 4; gain_stat_cur = 2; } if(gain_stat_last == -1 || (abs(gain_stat_full - gain_stat_full_last) >= 2 && gain_stat_cur == -1)) { if(gain_cur <= th[0]) gain_stat_cur = 0; else if(gain_cur <= th[1]) gain_stat_cur = 1; else gain_stat_cur = 2; } if (gain_stat_cur != -1) { gain_stat_last = gain_stat_cur; gain_stat_full_last = gain_stat_full; gain_stat = gain_stat_cur; } else { gain_stat = gain_stat_last; } if (gain_stat == 0) pGainState->ratio = 16; else if (gain_stat == 1) pGainState->ratio = 1; else pGainState->ratio = 1.0 / 16.0; pGainState->gain_stat_full_last = gain_stat_full_last; pGainState->gainState = gain_stat; pGainState->gainState_last = gain_stat_last; LOGD_ANR("%s:%d gain_cur:%f gain th %f %fd %f %f ratio:%f gain_state:%d %d full %d %d\n", __FUNCTION__, __LINE__, gain_cur, gain_th0[0], gain_th0[1], gain_th1[0], gain_th1[1], pGainState->ratio, pGainState->gainState_last, pGainState->gainState, pGainState->gain_stat_full_last, gain_stat_full); LOGI_ANR("%s(%d): exit!\n", __FUNCTION__, __LINE__); return AMFNR_RET_V1_SUCCESS; } //anr process Amfnr_Result_V1_t Amfnr_Process_V1(Amfnr_Context_V1_t *pAmfnrCtx, Amfnr_ExpInfo_V1_t *pExpInfo) { LOGI_ANR("%s(%d): enter!\n", __FUNCTION__, __LINE__); Amfnr_ParamMode_V1_t mode = AMFNR_PARAM_MODE_V1_INVALID; if(pAmfnrCtx == NULL) { LOGE_ANR("%s(%d): null pointer\n", __FUNCTION__, __LINE__); return AMFNR_RET_V1_INVALID_PARM; } if(pExpInfo == NULL) { LOGE_ANR("%s(%d): null pointer\n", __FUNCTION__, __LINE__); return AMFNR_RET_V1_INVALID_PARM; } if(pAmfnrCtx->eState != AMFNR_STATE_V1_RUNNING) { return AMFNR_RET_V1_SUCCESS; } Amfnr_GainRatioProcess_V1(&pAmfnrCtx->stGainState, pExpInfo); Amfnr_ParamModeProcess_V1(pAmfnrCtx, pExpInfo, &mode); pExpInfo->mfnr_mode_3to1 = pAmfnrCtx->mfnr_mode_3to1; if(pExpInfo->mfnr_mode_3to1 ) { pExpInfo->snr_mode = pExpInfo->pre_snr_mode; } else { pExpInfo->snr_mode = pExpInfo->cur_snr_mode; } if(pAmfnrCtx->eMode == AMFNR_OP_MODE_V1_AUTO) { LOGD_ANR("%s(%d): \n", __FUNCTION__, __LINE__); #if AMFNR_USE_XML_FILE_V1 if(pExpInfo->snr_mode != pAmfnrCtx->stExpInfo.snr_mode || pAmfnrCtx->eParamMode != mode) { LOGD_ANR("param mode:%d snr_mode:%d\n", mode, pExpInfo->snr_mode); pAmfnrCtx->eParamMode = mode; Amfnr_ConfigSettingParam_V1(pAmfnrCtx, pAmfnrCtx->eParamMode, pExpInfo->snr_mode); } #endif //select param select_mfnr_params_by_ISO_v1(&pAmfnrCtx->stAuto.stParams, &pAmfnrCtx->stAuto.stSelect, pExpInfo, pAmfnrCtx->refYuvBit); mfnr_dynamic_calc_v1(&pAmfnrCtx->stAuto.stMfnr_dynamic, pExpInfo); } else if(pAmfnrCtx->eMode == AMFNR_OP_MODE_V1_MANUAL) { //TODO } memcpy(&pAmfnrCtx->stExpInfo, pExpInfo, sizeof(Amfnr_ExpInfo_V1_t)); LOGI_ANR("%s(%d): exit!\n", __FUNCTION__, __LINE__); return AMFNR_RET_V1_SUCCESS; } //anr get result Amfnr_Result_V1_t Amfnr_GetProcResult_V1(Amfnr_Context_V1_t *pAmfnrCtx, Amfnr_ProcResult_V1_t* pAmfnrResult) { LOGI_ANR("%s(%d): enter!\n", __FUNCTION__, __LINE__); if(pAmfnrCtx == NULL) { LOGE_ANR("%s(%d): null pointer\n", __FUNCTION__, __LINE__); return AMFNR_RET_V1_INVALID_PARM; } if(pAmfnrResult == NULL) { LOGE_ANR("%s(%d): null pointer\n", __FUNCTION__, __LINE__); return AMFNR_RET_V1_INVALID_PARM; } if(pAmfnrCtx->eMode == AMFNR_OP_MODE_V1_AUTO) { pAmfnrResult->stSelect = pAmfnrCtx->stAuto.stSelect; pAmfnrResult->mfnrEn = pAmfnrCtx->stAuto.mfnrEn; if(pAmfnrCtx->stAuto.mfnrEn && pAmfnrCtx->stAuto.stMfnr_dynamic.enable) { pAmfnrResult->mfnrEn = pAmfnrCtx->stAuto.stMfnr_dynamic.mfnr_enable_state; } } else if(pAmfnrCtx->eMode == AMFNR_OP_MODE_V1_MANUAL) { //TODO pAmfnrResult->stSelect = pAmfnrCtx->stManual.stSelect; pAmfnrResult->mfnrEn = pAmfnrCtx->stManual.mfnrEn; pAmfnrCtx->fLuma_TF_Strength = 1.0; pAmfnrCtx->fChroma_TF_Strength = 1.0; } if(pAmfnrCtx->isGrayMode) { LOGD_ANR("anr: set gray mode!\n"); for(int i = 0; i < MFNR_MAX_LVL_UV; i++) { pAmfnrResult->stSelect.weight_limit_uv[i] = MFNR_MAX_WEIGHT_LIMIT_UV; } } //transfer to reg value mfnr_fix_transfer_v1(&pAmfnrResult->stSelect, &pAmfnrResult->stFix, &pAmfnrCtx->stExpInfo, pAmfnrCtx->stGainState.ratio, pAmfnrCtx->fLuma_TF_Strength, pAmfnrCtx->fChroma_TF_Strength); pAmfnrResult->stFix.tnr_en = pAmfnrResult->mfnrEn; //set local gain & 3to1 mode int local_gain_en = 1; #if(AMFNR_USE_JSON_PARA_V1) pAmfnrResult->stFix.mode = pAmfnrCtx->mfnr_v1.TuningPara.mode_3to1; local_gain_en = pAmfnrCtx->mfnr_v1.TuningPara.local_gain_en; #else pAmfnrResult->stFix.mode = pAmfnrCtx->stMfnrCalib.mode_3to1; local_gain_en = pAmfnrCtx->stMfnrCalib.local_gain_en; #endif if(local_gain_en) { pAmfnrResult->stFix.gain_en = 0; } else { pAmfnrResult->stFix.gain_en = 1; } //motion detect #if AMFNR_USE_JSON_PARA_V1 pAmfnrResult->stMotion = pAmfnrCtx->stMotion; #else int mode_idx = 0; if(pAmfnrCtx->eParamMode == ANR_PARAM_MODE_NORMAL) { mfnr_get_mode_cell_idx_by_name(&pAmfnrCtx->stMfnrCalib, "normal", &mode_idx); } else if(pAmfnrCtx->eParamMode == ANR_PARAM_MODE_HDR) { mfnr_get_mode_cell_idx_by_name(&pAmfnrCtx->stMfnrCalib, "hdr", &mode_idx); } else if(pAmfnrCtx->eParamMode == ANR_PARAM_MODE_GRAY) { mfnr_get_mode_cell_idx_by_name(&pAmfnrCtx->stMfnrCalib, "gray", &mode_idx); } else { LOGE_ANR("%s(%d): not support param mode!\n", __FUNCTION__, __LINE__); } pAmfnrResult->stMotion = pAmfnrCtx->stMfnrCalib.mode_cell[mode_idx].motion; #endif LOGI_ANR("%s(%d): exit!\n", __FUNCTION__, __LINE__); return AMFNR_RET_V1_SUCCESS; } Amfnr_Result_V1_t Amfnr_ConfigSettingParam_V1(Amfnr_Context_V1_t *pAmfnrCtx, Amfnr_ParamMode_V1_t eParamMode, int snr_mode) { char snr_name[CALIBDB_NR_SHARP_NAME_LENGTH]; char param_mode_name[CALIBDB_MAX_MODE_NAME_LENGTH]; memset(param_mode_name, 0x00, sizeof(param_mode_name)); memset(snr_name, 0x00, sizeof(snr_name)); if(pAmfnrCtx == NULL) { LOGE_ANR("%s(%d): null pointer\n", __FUNCTION__, __LINE__); return AMFNR_RET_V1_INVALID_PARM; } //select param mode first if(eParamMode == AMFNR_PARAM_MODE_V1_NORMAL) { sprintf(param_mode_name, "%s", "normal"); } else if(eParamMode == AMFNR_PARAM_MODE_V1_HDR) { sprintf(param_mode_name, "%s", "hdr"); } else if(eParamMode == AMFNR_PARAM_MODE_V1_GRAY) { sprintf(param_mode_name, "%s", "gray"); } else { LOGE_ANR("%s(%d): not support param mode!\n", __FUNCTION__, __LINE__); sprintf(param_mode_name, "%s", "normal"); } //then select snr mode next if(snr_mode == 1) { sprintf(snr_name, "%s", "HSNR"); } else if(snr_mode == 0) { sprintf(snr_name, "%s", "LSNR"); } else { LOGE_ANR("%s(%d): not support snr mode!\n", __FUNCTION__, __LINE__); sprintf(snr_name, "%s", "LSNR"); } #if AMFNR_USE_JSON_PARA_V1 pAmfnrCtx->stAuto.mfnrEn = pAmfnrCtx->mfnr_v1.TuningPara.enable; mfnr_config_setting_param_json_v1(&pAmfnrCtx->stAuto.stParams, &pAmfnrCtx->mfnr_v1, param_mode_name, snr_name); mfnr_config_dynamic_param_json_v1(&pAmfnrCtx->stAuto.stMfnr_dynamic, &pAmfnrCtx->mfnr_v1, param_mode_name); mfnr_config_motion_param_json_v1(&pAmfnrCtx->stMotion, &pAmfnrCtx->mfnr_v1, param_mode_name); #else pAmfnrCtx->stAuto.mfnrEn = pAmfnrCtx->stMfnrCalib.enable; mfnr_config_setting_param_v1(&pAmfnrCtx->stAuto.stParams, &pAmfnrCtx->stMfnrCalib, param_mode_name, snr_name); mfnr_config_dynamic_param(&pAmfnrCtx->stAuto.stMfnr_dynamic, &pAmfnrCtx->stMfnrCalib, param_mode_name); #endif return AMFNR_RET_V1_SUCCESS; } Amfnr_Result_V1_t Amfnr_ParamModeProcess_V1(Amfnr_Context_V1_t *pAmfnrCtx, Amfnr_ExpInfo_V1_t *pExpInfo, Amfnr_ParamMode_V1_t *mode) { Amfnr_Result_V1_t res = AMFNR_RET_V1_SUCCESS; *mode = pAmfnrCtx->eParamMode; if(pAmfnrCtx == NULL) { LOGE_ANR("%s(%d): null pointer\n", __FUNCTION__, __LINE__); return AMFNR_RET_V1_INVALID_PARM; } if(pAmfnrCtx->isGrayMode) { *mode = AMFNR_PARAM_MODE_V1_GRAY; } else if(pExpInfo->hdr_mode == 0) { *mode = AMFNR_PARAM_MODE_V1_NORMAL; } else if(pExpInfo->hdr_mode >= 1) { *mode = AMFNR_PARAM_MODE_V1_HDR; } else { *mode = AMFNR_PARAM_MODE_V1_NORMAL; } return res; } RKAIQ_END_DECLARE