#include "rk_aiq_acnr_algo_cnr_v1.h"
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RKAIQ_BEGIN_DECLARE
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Acnr_result_t cnr_get_mode_by_name_V1(struct list_head* pCalibdbList, char *name, Calibdb_Cnr_V1_t** ppProfile)
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{
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int i = 0;
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Acnr_result_t res = ACNR_RET_SUCCESS;
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if(pCalibdbList == NULL) {
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LOGE_ANR("%s(%d): null pointer\n", __FUNCTION__, __LINE__);
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return ACNR_RET_NULL_POINTER;
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}
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if(name == NULL) {
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LOGE_ANR("%s(%d): null pointer\n", __FUNCTION__, __LINE__);
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return ACNR_RET_NULL_POINTER;
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}
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if(ppProfile == NULL) {
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LOGE_ANR("%s(%d): null pointer\n", __FUNCTION__, __LINE__);
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return ACNR_RET_NULL_POINTER;
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}
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#if 1
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*ppProfile = NULL;
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struct list_head* p;
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p = pCalibdbList->next;
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while (p != pCalibdbList)
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{
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Calibdb_Cnr_V1_t* pProfile = container_of(p, Calibdb_Cnr_V1_t, listItem);
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LOGD_ANR("%s:%d %s %p \n",
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__FUNCTION__, __LINE__, pProfile->modeName, p);
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if (!strncmp(pProfile->modeName, name, sizeof(pProfile->modeName))) {
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*ppProfile = pProfile;
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return res;
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}
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p = p->next;
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}
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Calibdb_Cnr_V1_t* pProfile = container_of(pCalibdbList->next, Calibdb_Cnr_V1_t, listItem);
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*ppProfile = pProfile;
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#else
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#endif
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return res;
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}
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Acnr_result_t cnr_get_setting_by_name_V1(struct list_head *pSettingList, char *name, Calibdb_Cnr_params_V1_t** ppSetting)
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{
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int i = 0;
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Acnr_result_t res = ACNR_RET_SUCCESS;
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if(pSettingList == NULL) {
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LOGE_ANR("%s(%d): null pointer\n", __FUNCTION__, __LINE__);
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return ACNR_RET_NULL_POINTER;
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}
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if(name == NULL) {
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LOGE_ANR("%s(%d): null pointer\n", __FUNCTION__, __LINE__);
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return ACNR_RET_NULL_POINTER;
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}
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if(ppSetting == NULL) {
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LOGE_ANR("%s(%d): null pointer\n", __FUNCTION__, __LINE__);
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return ACNR_RET_NULL_POINTER;
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}
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*ppSetting = NULL;
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struct list_head* p;
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p = pSettingList->next;
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while (p != pSettingList)
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{
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Calibdb_Cnr_params_V1_t* pSetting = container_of(p, Calibdb_Cnr_params_V1_t, listItem);
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LOGD_ANR("%s:%d: %s %p \n",
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__FUNCTION__, __LINE__, pSetting->snr_mode, p);
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if (!strncmp(pSetting->snr_mode, name, sizeof(pSetting->snr_mode))) {
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*ppSetting = pSetting;
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return res;
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}
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p = p->next;
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}
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Calibdb_Cnr_params_V1_t* pSetting = container_of(pSettingList->next, Calibdb_Cnr_params_V1_t, listItem);
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*ppSetting = pSetting;
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return res;
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}
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Acnr_result_t cnr_config_setting_param_V1(RK_CNR_Params_V1_t *pParams, struct list_head *pCalibdbList, char* param_mode, char * snr_name)
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{
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Acnr_result_t res = ACNR_RET_SUCCESS;
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Calibdb_Cnr_V1_t *pProfile;
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Calibdb_Cnr_params_V1_t *pCalibParms;
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if(pParams == NULL) {
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LOGE_ANR("%s(%d): null pointer\n", __FUNCTION__, __LINE__);
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return ACNR_RET_NULL_POINTER;
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}
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if(pCalibdbList == NULL) {
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LOGE_ANR("%s(%d): null pointer\n", __FUNCTION__, __LINE__);
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return ACNR_RET_NULL_POINTER;
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}
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if(param_mode == NULL) {
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LOGE_ANR("%s(%d): null pointer\n", __FUNCTION__, __LINE__);
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return ACNR_RET_NULL_POINTER;
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}
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if(snr_name == NULL) {
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LOGE_ANR("%s(%d): null pointer\n", __FUNCTION__, __LINE__);
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return ACNR_RET_NULL_POINTER;
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}
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res = cnr_get_mode_by_name_V1(pCalibdbList, param_mode, &pProfile);
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if(res != ACNR_RET_SUCCESS) {
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LOGW_ANR("%s(%d): error!!! can't find mode name in iq files, use 0 instead\n", __FUNCTION__, __LINE__);
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}
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res = cnr_get_setting_by_name_V1(&pProfile->listHead, snr_name, &pCalibParms);
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if(res != ACNR_RET_SUCCESS) {
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LOGW_ANR("%s(%d): error!!! can't find setting in iq files, use 0 instead\n", __FUNCTION__, __LINE__);
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}
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res = cnr_init_params_V1(pParams, pCalibParms);
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pParams->enable = pProfile->enable;
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return res;
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}
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Acnr_result_t cnr_init_params_V1(RK_CNR_Params_V1_t *pParams, Calibdb_Cnr_params_V1_t* pCalibParms)
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{
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Acnr_result_t res = ACNR_RET_SUCCESS;
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int i = 0;
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int j = 0;
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if(pParams == NULL) {
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LOGE_ANR("%s(%d): null pointer\n", __FUNCTION__, __LINE__);
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return ACNR_RET_NULL_POINTER;
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}
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if(pCalibParms == NULL) {
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LOGE_ANR("%s(%d): null pointer\n", __FUNCTION__, __LINE__);
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return ACNR_RET_NULL_POINTER;
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}
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pParams->enable = pCalibParms->enable;
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for(i = 0; i < RK_CNR_V1_MAX_ISO_NUM; i++ ) {
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pParams->iso[i] = pCalibParms->iso[i];
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pParams->rkcnr_hq_bila_bypass[i] = pCalibParms->rkcnr_hq_bila_bypass[i];
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pParams->rkcnr_lq_bila_bypass[i] = pCalibParms->rkcnr_lq_bila_bypass[i];
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pParams->rkcnr_exgain[i] = pCalibParms->rkcnr_exgain[i];
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pParams->rkcnr_g_gain[i] = pCalibParms->rkcnr_g_gain[i];
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pParams->ratio[i] = pCalibParms->ratio[i];
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pParams->offset[i] = pCalibParms->offset[i];
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pParams->medRatio1[i] = pCalibParms->medRatio1[i];
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pParams->sigmaR1[i] = pCalibParms->sigmaR1[i];
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pParams->uvgain1[i] = pCalibParms->uvgain1[i];
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pParams->bfRatio1[i] = pCalibParms->bfRatio1[i];
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pParams->hbf_wgt_clip[i] = pCalibParms->hbf_wgt_clip[i];
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pParams->medRatio2[i] = pCalibParms->medRatio2[i];
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pParams->sigmaR2[i] = pCalibParms->sigmaR2[i];
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pParams->uvgain2[i] = pCalibParms->uvgain2[i];
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pParams->sigmaR3[i] = pCalibParms->sigmaR3[i];
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pParams->uvgain3[i] = pCalibParms->uvgain3[i];
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pParams->bfRatio3[i] = pCalibParms->bfRatio3[i];
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}
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memcpy(pParams->kernel_5x5_table, pCalibParms->kernel_5x5_table, sizeof(float) * 5);
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return ACNR_RET_SUCCESS;
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}
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float interp_cnr_v1(int ISO_low, int ISO_high, float value_low, float value_high, int ISO, float value)
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{
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if (ISO <= ISO_low) {
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value = value_low;
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}
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else if (ISO >= ISO_high) {
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value = value_high;
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}
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else {
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value = float(ISO - ISO_low) / float(ISO_high - ISO_low) * (value_high - value_low) + value_low;
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}
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return value;
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}
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Acnr_result_t cnr_select_params_by_ISO_V1(RK_CNR_Params_V1_t *pParams, RK_CNR_Params_V1_Select_t *pSelect, Acnr_ExpInfo_t *pExpInfo)
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{
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Acnr_result_t res = ACNR_RET_SUCCESS;
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int iso = 50;
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if(pParams == NULL) {
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LOGE_ANR("%s(%d): null pointer\n", __FUNCTION__, __LINE__);
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return ACNR_RET_NULL_POINTER;
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}
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if(pSelect == NULL) {
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LOGE_ANR("%s(%d): null pointer\n", __FUNCTION__, __LINE__);
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return ACNR_RET_NULL_POINTER;
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}
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if(pExpInfo == NULL) {
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LOGE_ANR("%s(%d): null pointer\n", __FUNCTION__, __LINE__);
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return ACNR_RET_NULL_POINTER;
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}
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iso = pExpInfo->arIso[pExpInfo->hdr_mode];
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//È·¶¨isoµÈ¼¶
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//rkuvnriso@50 100 200 400 800 1600 3200 6400 12800
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// isogain: 1 2 4 8 16 32 64 128 256
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// isoindex: 0 1 2 3 4 5 6 7 8
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int isoIndex = 0;
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int isoGainLow = 0;
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int isoGainHigh = 0;
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int isoIndexLow = 0;
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int isoIndexHigh = 0;
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int iso_div = 50;
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int max_iso_step = RK_CNR_V1_MAX_ISO_NUM;
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#ifndef RK_SIMULATOR_HW
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for (int i = 0; i < max_iso_step - 1 ; i++) {
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if (iso >= pParams->iso[i] && iso <= pParams->iso[i + 1]) {
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isoGainLow = pParams->iso[i] ;
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isoGainHigh = pParams->iso[i + 1];
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isoIndexLow = i;
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isoIndexHigh = i + 1;
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isoIndex = isoIndexLow;
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}
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}
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if(iso < pParams->iso[0] ) {
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isoGainLow = pParams->iso[0];
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isoGainHigh = pParams->iso[1];
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isoIndexLow = 0;
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isoIndexHigh = 1;
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isoIndex = 0;
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}
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if(iso > pParams->iso[max_iso_step - 1] ) {
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isoGainLow = pParams->iso[max_iso_step - 2] ;
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isoGainHigh = pParams->iso[max_iso_step - 1];
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isoIndexLow = max_iso_step - 2;
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isoIndexHigh = max_iso_step - 1;
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isoIndex = max_iso_step - 1;
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}
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#else
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isoIndex = int(log(float(iso / iso_div)) / log(2.0f));
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for (int i = max_iso_step - 1; i >= 0; i--) {
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if (iso < iso_div * (2 << i)) {
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isoGainLow = iso_div * (2 << (i)) / 2;
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isoGainHigh = iso_div * (2 << i);
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}
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}
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isoGainLow = MIN(isoGainLow, iso_div * (2 << max_iso_step));
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isoGainHigh = MIN(isoGainHigh, iso_div * (2 << max_iso_step));
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isoIndexHigh = (int)(log((float)isoGainHigh / iso_div) / log((float)2));
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isoIndexLow = (int)(log((float)isoGainLow / iso_div) / log((float)2));
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isoIndexLow = MIN(MAX(isoIndexLow, 0), max_iso_step - 1);
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isoIndexHigh = MIN(MAX(isoIndexHigh, 0), max_iso_step - 1);
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#endif
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LOGD_ANR("%s:%d iso:%d high:%d low:%d \n",
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__FUNCTION__, __LINE__,
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iso, isoGainHigh, isoGainLow);
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pSelect->enable = pParams->enable;
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// bypass
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pSelect->rkcnr_hq_bila_bypass = pParams->rkcnr_hq_bila_bypass[isoIndex];
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pSelect->rkcnr_lq_bila_bypass = pParams->rkcnr_lq_bila_bypass[isoIndex];
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// gain
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pSelect->rkcnr_exgain = interp_cnr_v1(isoGainLow, isoGainHigh, pParams->rkcnr_exgain[isoIndexLow], pParams->rkcnr_exgain[isoIndexHigh], iso, pSelect->rkcnr_exgain);
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pSelect->rkcnr_g_gain = interp_cnr_v1(isoGainLow, isoGainHigh, pParams->rkcnr_g_gain[isoIndexLow], pParams->rkcnr_g_gain[isoIndexHigh], iso, pSelect->rkcnr_g_gain);
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//
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pSelect->ratio = interp_cnr_v1(isoGainLow, isoGainHigh, pParams->ratio[isoIndexLow], pParams->ratio[isoIndexHigh], iso, pSelect->ratio);
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pSelect->offset = interp_cnr_v1(isoGainLow, isoGainHigh, pParams->offset[isoIndexLow], pParams->offset[isoIndexHigh], iso, pSelect->offset);
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// step1
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// median filter
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pSelect->medRatio1 = interp_cnr_v1(isoGainLow, isoGainHigh, pParams->medRatio1[isoIndexLow], pParams->medRatio1[isoIndexHigh], iso, pSelect->medRatio1);
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// bilateral filter
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pSelect->sigmaR1 = interp_cnr_v1(isoGainLow, isoGainHigh, pParams->sigmaR1[isoIndexLow], pParams->sigmaR1[isoIndexHigh], iso, pSelect->sigmaR1);
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pSelect->uvgain1 = interp_cnr_v1(isoGainLow, isoGainHigh, pParams->uvgain1[isoIndexLow], pParams->uvgain1[isoIndexHigh], iso, pSelect->uvgain1);
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pSelect->bfRatio1 = interp_cnr_v1(isoGainLow, isoGainHigh, pParams->bfRatio1[isoIndexLow], pParams->bfRatio1[isoIndexHigh], iso, pSelect->bfRatio1);
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pSelect->hbf_wgt_clip = pParams->hbf_wgt_clip[isoIndex];
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// step2
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// median filter
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pSelect->medRatio2 = interp_cnr_v1(isoGainLow, isoGainHigh, pParams->medRatio2[isoIndexLow], pParams->medRatio2[isoIndexHigh], iso, pSelect->medRatio2);
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// bilateral filter
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pSelect->sigmaR2 = interp_cnr_v1(isoGainLow, isoGainHigh, pParams->sigmaR2[isoIndexLow], pParams->sigmaR2[isoIndexHigh], iso, pSelect->sigmaR2);
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pSelect->uvgain2 = interp_cnr_v1(isoGainLow, isoGainHigh, pParams->uvgain2[isoIndexLow], pParams->uvgain2[isoIndexHigh], iso, pSelect->uvgain2);
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// step3
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// bilateral filter
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pSelect->sigmaR3 = interp_cnr_v1(isoGainLow, isoGainHigh, pParams->sigmaR3[isoIndexLow], pParams->sigmaR3[isoIndexHigh], iso, pSelect->sigmaR3);
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pSelect->uvgain3 = interp_cnr_v1(isoGainLow, isoGainHigh, pParams->uvgain3[isoIndexLow], pParams->uvgain3[isoIndexHigh], iso, pSelect->uvgain3);
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pSelect->bfRatio3 = interp_cnr_v1(isoGainLow, isoGainHigh, pParams->bfRatio3[isoIndexLow], pParams->bfRatio3[isoIndexHigh], iso, pSelect->bfRatio3);
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// bilateral filter kernels
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memcpy(pSelect->kernel_5x5_table, pParams->kernel_5x5_table, sizeof(float) * 5);
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return ACNR_RET_SUCCESS;
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}
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Acnr_result_t cnr_fix_transfer_V1(RK_CNR_Params_V1_Select_t *pSelect, RK_CNR_Fix_V1_t *pFix, Acnr_ExpInfo_t *pExpInfo, float fStrength)
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{
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LOGI_ANR("%s:(%d) enter \n", __FUNCTION__, __LINE__);
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int i = 0;
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Acnr_result_t res = ACNR_RET_SUCCESS;
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int tmp = 0;
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if(pSelect == NULL) {
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LOGE_ANR("%s(%d): null pointer\n", __FUNCTION__, __LINE__);
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return ACNR_RET_NULL_POINTER;
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}
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if(pFix == NULL) {
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LOGE_ANR("%s(%d): null pointer\n", __FUNCTION__, __LINE__);
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return ACNR_RET_NULL_POINTER;
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}
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if(pExpInfo == NULL) {
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LOGE_ANR("%s(%d): null pointer\n", __FUNCTION__, __LINE__);
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return ACNR_RET_NULL_POINTER;
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}
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if(fStrength <= 0.0) {
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fStrength = 0.000001;
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}
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// fix bit : RK_CNR_V1_log2e + RK_CNR_V1_SIGMA_FIX_BIT, msigma = (1 / sigma) * (1 << RK_CNR_V1_SIGMA_FIX_BIT) * log2e * (1 << RK_CNR_V1_log2e);
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int log2e = (int)(0.8493f * (1 << (RK_CNR_V1_log2e + RK_CNR_V1_SIGMA_FIX_BIT)));
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//ISP_CNR_2800_CTRL
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pFix->cnr_thumb_mix_cur_en = 0;
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pFix->cnr_exgain_bypass = 1;
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pFix->cnr_hq_bila_bypass = pSelect->rkcnr_hq_bila_bypass;
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pFix->cnr_lq_bila_bypass = pSelect->rkcnr_lq_bila_bypass;
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pFix->cnr_en_i = pSelect->enable;
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// ISP_CNR_2800_EXGAIN
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tmp = pSelect->rkcnr_exgain * (1 << RK_CNR_V1_sgmGain);
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pFix->cnr_exgain_mux = CLIP(tmp, 0, 255);
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// ISP_CNR_2800_GAIN_PARA
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tmp = pSelect->rkcnr_g_gain * (1 << RK_CNR_V1_gainRatio);
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pFix->cnr_gain_iso = CLIP(tmp, 0, 128);
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tmp = (int)(pSelect->offset * (1 << RK_CNR_V1_offset));
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pFix->cnr_gain_offset = CLIP(tmp, 0, 16);
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tmp = (int)(pSelect->ratio * (1 << RK_CNR_V1_ratio));
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pFix->cnr_gain_1sigma = CLIP(tmp, 0, 255);
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// ISP_CNR_2800_GAIN_UV_PARA
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tmp = (int)(pSelect->uvgain1 / fStrength * (1 << RK_CNR_V1_uvgain));
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pFix->cnr_gain_uvgain0 = CLIP(tmp, 0, (1 << 7) - 1);
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tmp = (int)(pSelect->uvgain3 / fStrength * (1 << RK_CNR_V1_uvgain));
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pFix->cnr_gain_uvgain1 = CLIP(tmp, 0, (1 << 7) - 1);
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// ISP_CNR_2800_LMED3
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tmp = (int)(pSelect->medRatio2 * (1 << RK_CNR_V1_medRatio));
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pFix->cnr_lmed3_alpha = CLIP(tmp, 0, 16);
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// ISP_CNR_2800_LBF5_GAIN
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int rkcnr_sigmaR2 = (int)(log2e / pSelect->sigmaR2 / fStrength);
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int rkcnr_uvgain2 = (int)(pSelect->uvgain2 / fStrength * (1 << RK_CNR_V1_uvgain));
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int tmpBit = 10 + RK_CNR_V1_log2e + RK_CNR_V1_uvgain - 6;
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int sgmRatio = 1 << RK_CNR_V1_sgmRatio;
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int ky = sgmRatio * (1 << RK_CNR_V1_uvgain) >> RK_CNR_V1_sgmRatio;
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int kuv = sgmRatio * rkcnr_uvgain2 >> RK_CNR_V1_sgmRatio;
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ky = MIN2(ky, (1 << (4 + RK_CNR_V1_uvgain)) - 1);
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kuv = MIN2(kuv, (1 << (4 + RK_CNR_V1_uvgain)) - 1);
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tmp = ((rkcnr_sigmaR2 * ky + (1 << (tmpBit - 1))) >> tmpBit);
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pFix->cnr_lbf5_gain_y = CLIP(tmp, 0, 15);
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tmp = ((rkcnr_sigmaR2 * kuv + (1 << (tmpBit - 1))) >> tmpBit);
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pFix->cnr_lbf5_gain_c = CLIP(tmp, 0, 63);
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// ISP_CNR_2800_LBF5_WEITD0_3
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// bilateral filter kernels
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for (int i = 0; i < 5; i++) {
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tmp = (int)(pSelect->kernel_5x5_table[i] * (1 << RK_CNR_V1_kernels));
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pFix->cnr_lbf5_weit_d[i] = CLIP(tmp, 0, 128);
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}
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// ISP_CNR_2800_HMED3
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tmp = (int)(pSelect->medRatio1 * (1 << RK_CNR_V1_medRatio));
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pFix->cnr_hmed3_alpha = CLIP(tmp, 0, 16);
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// ISP_CNR_2800_HBF5
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tmp = (int)(log2e / pSelect->sigmaR1 / fStrength);
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pFix->cnr_hbf5_sigma = CLIP(tmp, 0, (1 << 13) - 1);
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tmp = (int)(pSelect->bfRatio1 * (1 << RK_CNR_V1_bfRatio));
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pFix->cnr_hbf5_weit_src = CLIP(tmp, 0, 128);
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tmp = pSelect->hbf_wgt_clip;
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pFix->cnr_hbf5_min_wgt = CLIP(tmp, 0, (1 << 8) - 1);
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// ISP_CNR_2800_LBF3
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// step3
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// bilateral filter
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tmp = (int)(log2e / pSelect->sigmaR3 / fStrength);
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pFix->cnr_lbf3_sigma = CLIP(tmp, 0, (1 << 13) - 1);
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tmp = (int)(pSelect->bfRatio3 * (1 << RK_CNR_V1_bfRatio));
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pFix->cnr_lbf5_weit_src = CLIP(tmp, 0, 128);
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cnr_fix_printf_V1(pFix);
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LOGI_ANR("%s:(%d) exit \n", __FUNCTION__, __LINE__);
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return ACNR_RET_SUCCESS;
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}
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Acnr_result_t cnr_fix_printf_V1(RK_CNR_Fix_V1_t * pFix)
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{
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int i = 0;
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LOGI_ANR("%s:(%d) enter \n", __FUNCTION__, __LINE__);
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Acnr_result_t res = ACNR_RET_SUCCESS;
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if(pFix == NULL) {
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LOGE_ANR("%s(%d): null pointer\n", __FUNCTION__, __LINE__);
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return ACNR_RET_NULL_POINTER;
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}
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//ISP_CNR_2800_CTRL (0x0000)
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LOGD_ANR("(0x0000) thumb_mix_cur_en:0x%x lq_bila_bypass:0x%x hq_bila_bypass:0x%x exgain_bypass:0x%x cnr_en_i:0x%x\n",
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pFix->cnr_thumb_mix_cur_en,
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pFix->cnr_lq_bila_bypass,
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pFix->cnr_hq_bila_bypass,
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pFix->cnr_exgain_bypass,
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pFix->cnr_en_i);
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// ISP_CNR_2800_EXGAIN (0x0004)
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LOGD_ANR("(0x0004) cnr_exgain_mux:0x%x \n",
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pFix->cnr_exgain_mux);
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// ISP_CNR_2800_GAIN_PARA (0x0008)
|
LOGD_ANR("(0x0008) gain_iso:0x%x gain_offset:0x%x gain_1sigma:0x%x \n",
|
pFix->cnr_gain_iso,
|
pFix->cnr_gain_offset,
|
pFix->cnr_gain_1sigma);
|
|
// ISP_CNR_2800_GAIN_UV_PARA (0x000c)
|
LOGD_ANR("(0x000c) gain_uvgain1:0x%x gain_uvgain0:0x%x \n",
|
pFix->cnr_gain_uvgain1,
|
pFix->cnr_gain_uvgain0);
|
|
// ISP_CNR_2800_LMED3 (0x0010)
|
LOGD_ANR("(0x0010) lmed3_alpha:0x%x \n",
|
pFix->cnr_lmed3_alpha);
|
|
// ISP_CNR_2800_LBF5_GAIN (0x0014)
|
LOGD_ANR("(0x0014) lbf5_gain_y:0x%x lbf5_gain_c:0x%x \n",
|
pFix->cnr_lbf5_gain_y,
|
pFix->cnr_lbf5_gain_c);
|
|
// ISP_CNR_2800_LBF5_WEITD0_4 (0x0018 - 0x001c)
|
for(int i = 0; i < 5; i++) {
|
LOGD_ANR("(0x0018 - 0x001c) lbf5_weit_d[%d]:0x%x \n",
|
i, pFix->cnr_lbf5_weit_d[i]);
|
}
|
|
// ISP_CNR_2800_HMED3 (0x0020)
|
LOGD_ANR("(0x0020) hmed3_alpha:0x%x \n",
|
pFix->cnr_hmed3_alpha);
|
|
// ISP_CNR_2800_HBF5 (0x0024)
|
LOGD_ANR("(0x0024) hbf5_weit_src:0x%x hbf5_min_wgt:0x%x hbf5_sigma:0x%x \n",
|
pFix->cnr_hbf5_weit_src,
|
pFix->cnr_hbf5_min_wgt,
|
pFix->cnr_hbf5_sigma);
|
|
// ISP_CNR_2800_LBF3 (0x0028)
|
LOGD_ANR("(0x0028) lbf5_weit_src:0x%x lbf3_sigma:0x%x \n",
|
pFix->cnr_lbf5_weit_src,
|
pFix->cnr_lbf3_sigma);
|
|
LOGD_ANR("%s:(%d) exit \n", __FUNCTION__, __LINE__);
|
|
return ACNR_RET_SUCCESS;
|
}
|
|
|
|
|
Acnr_result_t cnr_get_setting_by_name_json_V1(CalibDbV2_CNR_t *pCalibdbV2, char *name, int *tuning_idx)
|
{
|
int i = 0;
|
Acnr_result_t res = ACNR_RET_SUCCESS;
|
|
if(pCalibdbV2 == NULL || name == NULL || tuning_idx == NULL) {
|
LOGE_ANR("%s(%d): null pointer\n", __FUNCTION__, __LINE__);
|
return ACNR_RET_NULL_POINTER;
|
}
|
|
for(i = 0; i < pCalibdbV2->TuningPara.Setting_len; i++) {
|
if(strncmp(name, pCalibdbV2->TuningPara.Setting[i].SNR_Mode, strlen(name)*sizeof(char)) == 0) {
|
break;
|
}
|
}
|
|
if(i < pCalibdbV2->TuningPara.Setting_len) {
|
*tuning_idx = i;
|
} else {
|
*tuning_idx = 0;
|
}
|
|
LOGD_ANR("%s:%d snr_name:%s snr_idx:%d i:%d \n",
|
__FUNCTION__, __LINE__,
|
name, *tuning_idx, i);
|
|
return res;
|
}
|
|
|
|
Acnr_result_t cnr_init_params_json_V1(RK_CNR_Params_V1_t *pParams, CalibDbV2_CNR_t *pCalibdbV2, int tuning_idx)
|
{
|
Acnr_result_t res = ACNR_RET_SUCCESS;
|
CalibDbV2_CNR_TuningPara_Setting_ISO_t *pTuningISO = NULL;
|
|
if(pParams == NULL || pCalibdbV2 == NULL) {
|
LOGE_ANR("%s(%d): null pointer\n", __FUNCTION__, __LINE__);
|
return ACNR_RET_NULL_POINTER;
|
}
|
|
pParams->enable = pCalibdbV2->TuningPara.enable;
|
|
for(int i = 0; i < pCalibdbV2->TuningPara.Setting[tuning_idx].Tuning_ISO_len && i < RK_CNR_V1_MAX_ISO_NUM; i++ ) {
|
pTuningISO = &pCalibdbV2->TuningPara.Setting[tuning_idx].Tuning_ISO[i];
|
|
pParams->iso[i] = pTuningISO->iso;
|
pParams->rkcnr_hq_bila_bypass[i] = pTuningISO->hf_bypass;
|
pParams->rkcnr_lq_bila_bypass[i] = pTuningISO->lf_bypass;
|
pParams->rkcnr_exgain[i] = pTuningISO->cnr_exgain;
|
pParams->rkcnr_g_gain[i] = pTuningISO->cnr_g_gain;
|
pParams->ratio[i] = pTuningISO->color_sat_adj;
|
pParams->offset[i] = pTuningISO->color_sat_adj_alpha;
|
pParams->medRatio1[i] = pTuningISO->hf_spikes_reducion_strength;
|
pParams->sigmaR1[i] = pTuningISO->hf_denoise_strength;
|
pParams->uvgain1[i] = pTuningISO->hf_color_sat;
|
pParams->bfRatio1[i] = pTuningISO->hf_denoise_alpha;
|
pParams->hbf_wgt_clip[i] = pTuningISO->hf_bf_wgt_clip;
|
pParams->medRatio2[i] = pTuningISO->thumb_spikes_reducion_strength;
|
pParams->sigmaR2[i] = pTuningISO->thumb_denoise_strength;
|
pParams->uvgain2[i] = pTuningISO->thumb_color_sat;
|
pParams->sigmaR3[i] = pTuningISO->lf_denoise_strength;
|
pParams->uvgain3[i] = pTuningISO->lf_color_sat;
|
pParams->bfRatio3[i] = pTuningISO->lf_denoise_alpha;
|
}
|
|
|
memcpy(pParams->kernel_5x5_table, pCalibdbV2->TuningPara.Kernel_Coeff.kernel_5x5, sizeof(float) * 5);
|
|
return ACNR_RET_SUCCESS;
|
|
}
|
|
Acnr_result_t cnr_config_setting_param_json_V1(RK_CNR_Params_V1_t *pParams, CalibDbV2_CNR_t *pCalibdbV2, char* param_mode, char * snr_name)
|
{
|
Acnr_result_t res = ACNR_RET_SUCCESS;
|
int tuning_idx;
|
|
if(pParams == NULL || pCalibdbV2 == NULL || param_mode == NULL || snr_name == NULL) {
|
LOGE_ANR("%s(%d): null pointer\n", __FUNCTION__, __LINE__);
|
return ACNR_RET_NULL_POINTER;
|
}
|
|
res = cnr_get_setting_by_name_json_V1(pCalibdbV2, snr_name, &tuning_idx);
|
if(res != ACNR_RET_SUCCESS) {
|
LOGW_ANR("%s(%d): error!!! can't find setting in iq files, use 0 instead\n", __FUNCTION__, __LINE__);
|
}
|
|
res = cnr_init_params_json_V1(pParams, pCalibdbV2, tuning_idx);
|
pParams->enable = pCalibdbV2->TuningPara.enable;
|
return res;
|
|
}
|
|
|
RKAIQ_END_DECLARE
|
