#include "arawnr/rk_aiq_uapi_abayernr_int_v1.h"
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#include "bayernr_xml2json_v1.h"
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#include "arawnr/rk_aiq_types_abayernr_algo_prvt_v1.h"
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#include "arawnr/rk_aiq_abayernr_algo_bayernr_v1.h"
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#if 1
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#define BAYERNR_RAWNR_SF_STRENGTH_MAX_PERCENT (80.0)
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XCamReturn
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rk_aiq_uapi_abayernr_SetAttrib_v1(RkAiqAlgoContext *ctx,
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rk_aiq_bayernr_attrib_v1_t *attr,
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bool need_sync)
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{
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Abayernr_Context_V1_t* pCtx = (Abayernr_Context_V1_t*)ctx;
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pCtx->eMode = attr->eMode;
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pCtx->stAuto = attr->stAuto;
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pCtx->stManual = attr->stManual;
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return XCAM_RETURN_NO_ERROR;
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}
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XCamReturn
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rk_aiq_uapi_abayernr_GetAttrib_v1(const RkAiqAlgoContext *ctx,
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rk_aiq_bayernr_attrib_v1_t *attr)
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{
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Abayernr_Context_V1_t* pCtx = (Abayernr_Context_V1_t*)ctx;
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attr->eMode = pCtx->eMode;
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memcpy(&attr->stAuto, &pCtx->stAuto, sizeof(Abayernr_Auto_Attr_V1_t));
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memcpy(&attr->stManual, &pCtx->stManual, sizeof(Abayernr_Manual_Attr_V1_t));
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return XCAM_RETURN_NO_ERROR;
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}
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XCamReturn
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rk_aiq_uapi_abayernr_SetIQPara_v1(RkAiqAlgoContext *ctx,
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rk_aiq_bayernr_IQPara_V1_t *pPara,
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bool need_sync)
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{
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Abayernr_Context_V1_t* pCtx = (Abayernr_Context_V1_t*)ctx;
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CalibDb_BayerNr_2_t Calibdb_2;
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printf("%s:%d\n", __FUNCTION__, __LINE__);
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if(pPara != NULL && pCtx != NULL) {
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memset(&Calibdb_2, 0x00, sizeof(CalibDb_BayerNr_2_t));
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Calibdb_2.mode_num = sizeof(pPara->stBayernrPara.mode_cell) / sizeof(CalibDb_BayerNr_ModeCell_t);
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Calibdb_2.mode_cell = (CalibDb_BayerNr_ModeCell_t *)malloc(Calibdb_2.mode_num * sizeof(CalibDb_BayerNr_ModeCell_t));
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Calibdb_2.enable = pPara->stBayernrPara.enable;
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memcpy(Calibdb_2.version, pPara->stBayernrPara.version, sizeof(pPara->stBayernrPara.version));
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for(int i = 0; i < Calibdb_2.mode_num; i++) {
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Calibdb_2.mode_cell[i] = pPara->stBayernrPara.mode_cell[i];
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}
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printf("%s:%d\n", __FUNCTION__, __LINE__);
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#if ABAYERNR_USE_JSON_FILE_V1
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bayernrV1_calibdb_to_calibdbV2(&Calibdb_2, &pCtx->bayernr_v1, 0);
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#else
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pCtx->stBayernrCalib.enable = Calibdb_2.enable;
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memcpy(pCtx->stBayernrCalib.version, Calibdb_2.version, sizeof(Calibdb_2.version));
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for(int i = 0; i < Calibdb_2.mode_num && i < pCtx->stBayernrCalib.mode_num; i++) {
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pCtx->stBayernrCalib.mode_cell[i] = Calibdb_2.mode_cell[i];
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}
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#endif
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pCtx->isIQParaUpdate = true;
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printf("%s:%d\n", __FUNCTION__, __LINE__);
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free(Calibdb_2.mode_cell);
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}
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return XCAM_RETURN_NO_ERROR;
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}
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XCamReturn
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rk_aiq_uapi_abayernr_GetIQPara_v1(RkAiqAlgoContext *ctx,
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rk_aiq_bayernr_IQPara_V1_t *pPara)
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{
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Abayernr_Context_V1_t* pCtx = (Abayernr_Context_V1_t*)ctx;
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CalibDb_BayerNr_2_t Calibdb_2;
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if(pPara != NULL && pCtx != NULL) {
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memset(&Calibdb_2, 0x00, sizeof(CalibDb_BayerNr_2_t));
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Calibdb_2.mode_num = sizeof(pPara->stBayernrPara.mode_cell) / sizeof(CalibDb_BayerNr_ModeCell_t);
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Calibdb_2.mode_cell = (CalibDb_BayerNr_ModeCell_t *)malloc(Calibdb_2.mode_num * sizeof(CalibDb_BayerNr_ModeCell_t));
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printf("%s:%d\n", __FUNCTION__, __LINE__);
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#if(ABAYERNR_USE_JSON_FILE_V1)
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bayernrV1_calibdbV2_to_calibdb(&pCtx->bayernr_v1, &Calibdb_2, 0);
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#else
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Calibdb_2.enable = pCtx->stBayernrCalib.enable;
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memcpy(Calibdb_2.version, pCtx->stBayernrCalib.version, sizeof(pPara->stBayernrPara.version));
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for(int i = 0; i < Calibdb_2.mode_num && i < pCtx->stBayernrCalib.mode_num; i++) {
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Calibdb_2.mode_cell[i] = pCtx->stBayernrCalib.mode_cell[i];
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}
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#endif
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printf("%s:%d\n", __FUNCTION__, __LINE__);
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memset(&pPara->stBayernrPara, 0x00, sizeof(CalibDb_BayerNr_t));
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pPara->stBayernrPara.enable = Calibdb_2.enable;
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memcpy(pPara->stBayernrPara.version, Calibdb_2.version, sizeof(Calibdb_2.version));
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for(int i = 0; i < Calibdb_2.mode_num && i < CALIBDB_MAX_MODE_NUM; i++) {
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pPara->stBayernrPara.mode_cell[i] = Calibdb_2.mode_cell[i];
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}
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free(Calibdb_2.mode_cell);
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printf("%s:%d\n", __FUNCTION__, __LINE__);
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}
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return XCAM_RETURN_NO_ERROR;
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}
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XCamReturn
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rk_aiq_uapi_abayernr_SetRawnrSFStrength_v1(const RkAiqAlgoContext *ctx,
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float fPercent)
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{
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Abayernr_Context_V1_t* pCtx = (Abayernr_Context_V1_t*)ctx;
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float fStrength = 1.0;
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float fMax = BAYERNR_RAWNR_SF_STRENGTH_MAX_PERCENT;
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if(fPercent <= 0.5) {
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fStrength = fPercent / 0.5;
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} else {
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fStrength = (fPercent - 0.5) * (fMax - 1) * 2 + 1;
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}
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pCtx->fRawnr_SF_Strength = fStrength;
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return XCAM_RETURN_NO_ERROR;
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}
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XCamReturn
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rk_aiq_uapi_abayernr_GetRawnrSFStrength_v1(const RkAiqAlgoContext *ctx,
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float *pPercent)
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{
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Abayernr_Context_V1_t* pCtx = (Abayernr_Context_V1_t*)ctx;
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float fStrength = 1.0f;
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float fMax = BAYERNR_RAWNR_SF_STRENGTH_MAX_PERCENT;
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fStrength = pCtx->fRawnr_SF_Strength;
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if(fStrength <= 1) {
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*pPercent = fStrength * 0.5;
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} else {
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*pPercent = (fStrength - 1) / ((fMax - 1) * 2) + 0.5;
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}
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return XCAM_RETURN_NO_ERROR;
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}
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XCamReturn
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rk_aiq_uapi_abayernr_SetJsonPara_v1(RkAiqAlgoContext *ctx,
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rk_aiq_bayernr_JsonPara_V1_t *pPara,
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bool need_sync)
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{
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Abayernr_Context_V1_t* pCtx = (Abayernr_Context_V1_t*)ctx;
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if(pCtx != NULL && pPara != NULL) {
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#if ABAYERNR_USE_JSON_FILE_V1
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bayernrV1_calibdbV2_assign(&pCtx->bayernr_v1, &pPara->bayernr_v1);
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pCtx->isIQParaUpdate = true;
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#endif
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}
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return XCAM_RETURN_NO_ERROR;
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}
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XCamReturn
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rk_aiq_uapi_abayernr_GetJsonPara_v1(RkAiqAlgoContext *ctx,
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rk_aiq_bayernr_JsonPara_V1_t *pPara)
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{
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Abayernr_Context_V1_t* pCtx = (Abayernr_Context_V1_t*)ctx;
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if(pCtx != NULL && pPara != NULL) {
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#if ABAYERNR_USE_JSON_FILE_V1
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bayernrV1_calibdbV2_assign(&pPara->bayernr_v1, &pCtx->bayernr_v1);
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#endif
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}
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return XCAM_RETURN_NO_ERROR;
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}
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#endif
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