/*
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* rk_aiq_algo_anr_itf.c
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*
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* Copyright (c) 2019 Rockchip Corporation
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*
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*/
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#include "rk_aiq_algo_types_int.h"
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#include "aynr/rk_aiq_aynr_algo_itf_v1.h"
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#include "aynr/rk_aiq_aynr_algo_v1.h"
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RKAIQ_BEGIN_DECLARE
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typedef struct _RkAiqAlgoContext {
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void* place_holder[0];
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} RkAiqAlgoContext;
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static XCamReturn
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create_context(RkAiqAlgoContext **context, const AlgoCtxInstanceCfg* cfg)
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{
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XCamReturn result = XCAM_RETURN_NO_ERROR;
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AlgoCtxInstanceCfgInt *cfgInt = (AlgoCtxInstanceCfgInt*)cfg;
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LOGI_ANR("%s: (enter) calibdb:%p \n", __FUNCTION__, cfgInt->calib);
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Aynr_Context_V1_t* pAynrCtx = NULL;
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#if AYNR_USE_JSON_PARA_V1
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Aynr_Result_V1_t ret = Aynr_Init_Json_V1(&pAynrCtx, cfgInt->calibv2);
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#else
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Aynr_Result_V1_t ret = Aynr_Init_V1(&pAynrCtx, cfgInt->calib);
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#endif
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if(ret != AYNR_RET_V1_SUCCESS) {
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result = XCAM_RETURN_ERROR_FAILED;
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LOGE_ANR("%s: Initializaion ANR failed (%d)\n", __FUNCTION__, ret);
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} else {
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*context = (RkAiqAlgoContext *)(pAynrCtx);
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}
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LOGI_ANR("%s: (exit)\n", __FUNCTION__ );
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return result;
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}
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static XCamReturn
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destroy_context(RkAiqAlgoContext *context)
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{
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XCamReturn result = XCAM_RETURN_NO_ERROR;
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LOGI_ANR("%s: (enter)\n", __FUNCTION__ );
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#if 1
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Aynr_Context_V1_t* pAynrCtx = (Aynr_Context_V1_t*)context;
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Aynr_Result_V1_t ret = Aynr_Release_V1(pAynrCtx);
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if(ret != AYNR_RET_V1_SUCCESS) {
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result = XCAM_RETURN_ERROR_FAILED;
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LOGE_ANR("%s: release ANR failed (%d)\n", __FUNCTION__, ret);
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}
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#endif
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LOGI_ANR("%s: (exit)\n", __FUNCTION__ );
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return result;
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}
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static XCamReturn
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prepare(RkAiqAlgoCom* params)
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{
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XCamReturn result = XCAM_RETURN_NO_ERROR;
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LOGI_ANR("%s: (enter)\n", __FUNCTION__ );
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Aynr_Context_V1_t* pAynrCtx = (Aynr_Context_V1_t *)params->ctx;
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RkAiqAlgoConfigAynrInt* pCfgParam = (RkAiqAlgoConfigAynrInt*)params;
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pAynrCtx->prepare_type = params->u.prepare.conf_type;
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if(!!(params->u.prepare.conf_type & RK_AIQ_ALGO_CONFTYPE_UPDATECALIB )){
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#if AYNR_USE_JSON_FILE_V1
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void *pCalibDbV2 = (void*)(pCfgParam->rk_com.u.prepare.calibv2);
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CalibDbV2_YnrV1_t *ynr_v1 = (CalibDbV2_YnrV1_t*)(CALIBDBV2_GET_MODULE_PTR((void*)pCalibDbV2, ynr_v1));
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ynr_calibdbV2_assign_v1(&pAynrCtx->ynr_v1, ynr_v1);
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#else
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void *pCalibDb = (void*)(pCfgParam->rk_com.u.prepare.calib);
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pAynrCtx->stYnrCalib=
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*(CalibDb_YNR_2_t*)(CALIBDB_GET_MODULE_PTR((void*)pCalibDb, ynr));
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#endif
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pAynrCtx->isIQParaUpdate = true;
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}
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Aynr_Result_V1_t ret = Aynr_Prepare_V1(pAynrCtx, &pCfgParam->stAynrConfig);
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if(ret != AYNR_RET_V1_SUCCESS) {
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result = XCAM_RETURN_ERROR_FAILED;
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LOGE_ANR("%s: config ANR failed (%d)\n", __FUNCTION__, ret);
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}
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LOGI_ANR("%s: (exit)\n", __FUNCTION__ );
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return result;
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}
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static XCamReturn
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pre_process(const RkAiqAlgoCom* inparams, RkAiqAlgoResCom* outparams)
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{
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XCamReturn result = XCAM_RETURN_NO_ERROR;
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LOGI_ANR("%s: (enter)\n", __FUNCTION__ );
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Aynr_Context_V1_t* pAynrCtx = (Aynr_Context_V1_t *)inparams->ctx;
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RkAiqAlgoPreAynrInt* pAnrPreParams = (RkAiqAlgoPreAynrInt*)inparams;
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if (pAnrPreParams->rk_com.u.proc.gray_mode) {
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pAynrCtx->isGrayMode = true;
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}else {
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pAynrCtx->isGrayMode = false;
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}
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Aynr_Result_V1_t ret = Aynr_PreProcess_V1(pAynrCtx);
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if(ret != AYNR_RET_V1_SUCCESS) {
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result = XCAM_RETURN_ERROR_FAILED;
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LOGE_ANR("%s: ANRPreProcess failed (%d)\n", __FUNCTION__, ret);
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}
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LOGI_ANR("%s: (exit)\n", __FUNCTION__ );
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return result;
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}
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static XCamReturn
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processing(const RkAiqAlgoCom* inparams, RkAiqAlgoResCom* outparams)
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{
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XCamReturn result = XCAM_RETURN_NO_ERROR;
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LOGI_ANR("%s: (enter)\n", __FUNCTION__ );
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#if 1
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RkAiqAlgoProcAynrInt* pAynrProcParams = (RkAiqAlgoProcAynrInt*)inparams;
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RkAiqAlgoProcResAynrInt* pAynrProcResParams = (RkAiqAlgoProcResAynrInt*)outparams;
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Aynr_Context_V1_t* pAynrCtx = (Aynr_Context_V1_t *)inparams->ctx;
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Aynr_ExpInfo_V1_t stExpInfo;
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memset(&stExpInfo, 0x00, sizeof(Aynr_ExpInfo_V1_t));
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LOGD_ANR("%s:%d init:%d hdr mode:%d \n",
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__FUNCTION__, __LINE__,
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inparams->u.proc.init,
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pAynrProcParams->hdr_mode);
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stExpInfo.hdr_mode = 0; //pAnrProcParams->hdr_mode;
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for(int i = 0; i < 3; i++) {
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stExpInfo.arIso[i] = 50;
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stExpInfo.arAGain[i] = 1.0;
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stExpInfo.arDGain[i] = 1.0;
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stExpInfo.arTime[i] = 0.01;
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}
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if(pAynrProcParams->hdr_mode == RK_AIQ_WORKING_MODE_NORMAL) {
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stExpInfo.hdr_mode = 0;
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} else if(pAynrProcParams->hdr_mode == RK_AIQ_ISP_HDR_MODE_2_FRAME_HDR
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|| pAynrProcParams->hdr_mode == RK_AIQ_ISP_HDR_MODE_2_LINE_HDR ) {
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stExpInfo.hdr_mode = 1;
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} else if(pAynrProcParams->hdr_mode == RK_AIQ_ISP_HDR_MODE_3_FRAME_HDR
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|| pAynrProcParams->hdr_mode == RK_AIQ_ISP_HDR_MODE_3_LINE_HDR ) {
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stExpInfo.hdr_mode = 2;
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}
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stExpInfo.snr_mode = 0;
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#if 1
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RKAiqAecExpInfo_t *preExp = pAynrProcParams->rk_com.u.proc.preExp;
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RKAiqAecExpInfo_t *curExp = pAynrProcParams->rk_com.u.proc.curExp;
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if(preExp != NULL && curExp != NULL) {
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stExpInfo.cur_snr_mode = curExp->CISFeature.SNR;
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stExpInfo.pre_snr_mode = preExp->CISFeature.SNR;
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if(pAynrProcParams->hdr_mode == RK_AIQ_WORKING_MODE_NORMAL) {
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stExpInfo.hdr_mode = 0;
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stExpInfo.arAGain[0] = 1;//curExp->LinearExp.exp_real_params.analog_gain;
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stExpInfo.arDGain[0] = curExp->LinearExp.exp_real_params.digital_gain;
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stExpInfo.arTime[0] = curExp->LinearExp.exp_real_params.integration_time;
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stExpInfo.arDcgMode[0] = curExp->LinearExp.exp_real_params.dcg_mode;
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stExpInfo.arIso[0] = stExpInfo.arAGain[0] * stExpInfo.arDGain[0] * 50;
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stExpInfo.preAGain[0] = 1;//preExp->LinearExp.exp_real_params.analog_gain;
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stExpInfo.preDGain[0] = preExp->LinearExp.exp_real_params.digital_gain;
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stExpInfo.preTime[0] = preExp->LinearExp.exp_real_params.integration_time;
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stExpInfo.preDcgMode[0] = preExp->LinearExp.exp_real_params.dcg_mode;
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stExpInfo.preIso[0] = stExpInfo.preAGain[0] * stExpInfo.preDGain[0] * 50;
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LOGD_ANR("anr: %s-%d, preExp(%f, %f, %f, %d, %d), curExp(%f, %f, %f, %d, %d)\n",
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__FUNCTION__, __LINE__,
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preExp->LinearExp.exp_real_params.analog_gain,
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preExp->LinearExp.exp_real_params.integration_time,
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preExp->LinearExp.exp_real_params.digital_gain,
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preExp->LinearExp.exp_real_params.dcg_mode,
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preExp->CISFeature.SNR,
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curExp->LinearExp.exp_real_params.analog_gain,
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curExp->LinearExp.exp_real_params.integration_time,
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curExp->LinearExp.exp_real_params.digital_gain,
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curExp->LinearExp.exp_real_params.dcg_mode,
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curExp->CISFeature.SNR);
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} else {
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for(int i = 0; i < 3; i++) {
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stExpInfo.arAGain[i] = curExp->HdrExp[i].exp_real_params.analog_gain,
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stExpInfo.arDGain[i] = curExp->HdrExp[i].exp_real_params.digital_gain;
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stExpInfo.arTime[i] = curExp->HdrExp[i].exp_real_params.integration_time;
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stExpInfo.arDcgMode[i] = curExp->HdrExp[i].exp_real_params.dcg_mode;
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stExpInfo.arIso[i] = stExpInfo.arAGain[i] * stExpInfo.arDGain[i] * 50;
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stExpInfo.preAGain[i] = preExp->HdrExp[i].exp_real_params.analog_gain,
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stExpInfo.preDGain[i] = preExp->HdrExp[i].exp_real_params.digital_gain;
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stExpInfo.preTime[i] = preExp->HdrExp[i].exp_real_params.integration_time;
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stExpInfo.preDcgMode[i] = preExp->HdrExp[i].exp_real_params.dcg_mode;
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stExpInfo.preIso[i] = stExpInfo.preAGain[i] * stExpInfo.preDGain[i] * 50;
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LOGD_ANR("%s:%d index:%d again:%f %f dgain:%f %f time:%f %f iso:%d %d hdr_mode:%d \n",
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__FUNCTION__, __LINE__,
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i,
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stExpInfo.preAGain[i], stExpInfo.arAGain[i],
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stExpInfo.preDGain[i], stExpInfo.arDGain[i],
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stExpInfo.preTime[i], stExpInfo.arTime[i],
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stExpInfo.preIso[i], stExpInfo.arIso[i],
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stExpInfo.hdr_mode);
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}
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}
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} else {
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LOGE_ANR("%s:%d preExp(%p) or curExp(%p) is NULL, so use default instead \n",
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__FUNCTION__, __LINE__, preExp, curExp);
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}
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#if 0
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static int anr_cnt = 0;
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anr_cnt++;
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if(anr_cnt % 50 == 0) {
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for(int i = 0; i < stExpInfo.hdr_mode + 1; i++) {
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printf("%s:%d index:%d again:%f dgain:%f time:%f iso:%d hdr_mode:%d\n",
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__FUNCTION__, __LINE__,
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i,
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stExpInfo.arAGain[i],
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stExpInfo.arDGain[i],
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stExpInfo.arTime[i],
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stExpInfo.arIso[i],
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stExpInfo.hdr_mode);
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}
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}
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#endif
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#endif
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Aynr_Result_V1_t ret = Aynr_Process_V1(pAynrCtx, &stExpInfo);
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if(ret != AYNR_RET_V1_SUCCESS) {
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result = XCAM_RETURN_ERROR_FAILED;
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LOGE_ANR("%s: processing ANR failed (%d)\n", __FUNCTION__, ret);
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}
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Aynr_GetProcResult_V1(pAynrCtx, &pAynrProcResParams->stAynrProcResult);
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#endif
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LOGI_ANR("%s: (exit)\n", __FUNCTION__ );
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return XCAM_RETURN_NO_ERROR;
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}
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static XCamReturn
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post_process(const RkAiqAlgoCom* inparams, RkAiqAlgoResCom* outparams)
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{
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LOGI_ANR("%s: (enter)\n", __FUNCTION__ );
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//nothing todo now
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LOGI_ANR("%s: (exit)\n", __FUNCTION__ );
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return XCAM_RETURN_NO_ERROR;
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}
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RkAiqAlgoDescription g_RkIspAlgoDescAynr = {
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.common = {
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.version = RKISP_ALGO_AYNR_VERSION_V1,
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.vendor = RKISP_ALGO_AYNR_VENDOR_V1,
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.description = RKISP_ALGO_AYNR_DESCRIPTION_V1,
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.type = RK_AIQ_ALGO_TYPE_AYNR,
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.id = 0,
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.create_context = create_context,
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.destroy_context = destroy_context,
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},
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.prepare = prepare,
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.pre_process = pre_process,
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.processing = processing,
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.post_process = post_process,
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};
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RKAIQ_END_DECLARE
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