/*
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* Copyright (c) 2019-2022 Rockchip Eletronics Co., Ltd.
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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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#include "RkAiqAmfnrHandle.h"
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#include "RkAiqCore.h"
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namespace RkCam {
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DEFINE_HANDLE_REGISTER_TYPE(RkAiqAmfnrHandleInt);
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void RkAiqAmfnrHandleInt::init() {
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ENTER_ANALYZER_FUNCTION();
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RkAiqHandle::deInit();
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mConfig = (RkAiqAlgoCom*)(new RkAiqAlgoConfigAmfnr());
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mPreInParam = (RkAiqAlgoCom*)(new RkAiqAlgoPreAmfnr());
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mPreOutParam = (RkAiqAlgoResCom*)(new RkAiqAlgoPreResAmfnr());
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mProcInParam = (RkAiqAlgoCom*)(new RkAiqAlgoProcAmfnr());
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mProcOutParam = (RkAiqAlgoResCom*)(new RkAiqAlgoProcResAmfnr());
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mPostInParam = (RkAiqAlgoCom*)(new RkAiqAlgoPostAmfnr());
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mPostOutParam = (RkAiqAlgoResCom*)(new RkAiqAlgoPostResAmfnr());
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EXIT_ANALYZER_FUNCTION();
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}
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XCamReturn RkAiqAmfnrHandleInt::updateConfig(bool needSync) {
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ENTER_ANALYZER_FUNCTION();
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XCamReturn ret = XCAM_RETURN_NO_ERROR;
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if (needSync) mCfgMutex.lock();
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// if something changed
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if (updateAtt) {
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mCurAtt = mNewAtt;
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updateAtt = false;
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// TODO
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rk_aiq_uapi_amfnr_SetAttrib_v1(mAlgoCtx, &mCurAtt, false);
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sendSignal();
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}
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if (updateIQpara) {
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mCurIQPara = mNewIQPara;
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updateIQpara = false;
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// TODO
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rk_aiq_uapi_amfnr_SetIQPara_v1(mAlgoCtx, &mCurIQPara, false);
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sendSignal();
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}
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if (updateJsonpara) {
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mCurJsonPara = mNewJsonPara;
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updateJsonpara = false;
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// TODO
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rk_aiq_uapi_amfnr_SetJsonPara_v1(mAlgoCtx, &mCurJsonPara, false);
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sendSignal();
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}
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if (needSync) mCfgMutex.unlock();
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EXIT_ANALYZER_FUNCTION();
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return ret;
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}
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XCamReturn RkAiqAmfnrHandleInt::setAttrib(rk_aiq_mfnr_attrib_v1_t* att) {
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ENTER_ANALYZER_FUNCTION();
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XCamReturn ret = XCAM_RETURN_NO_ERROR;
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mCfgMutex.lock();
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// TODO
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// check if there is different between att & mCurAtt
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// if something changed, set att to mNewAtt, and
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// the new params will be effective later when updateConfig
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// called by RkAiqCore
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// if something changed
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if (0 != memcmp(&mCurAtt, att, sizeof(rk_aiq_mfnr_attrib_v1_t))) {
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mNewAtt = *att;
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updateAtt = true;
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waitSignal();
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}
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mCfgMutex.unlock();
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EXIT_ANALYZER_FUNCTION();
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return ret;
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}
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XCamReturn RkAiqAmfnrHandleInt::getAttrib(rk_aiq_mfnr_attrib_v1_t* att) {
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ENTER_ANALYZER_FUNCTION();
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XCamReturn ret = XCAM_RETURN_NO_ERROR;
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rk_aiq_uapi_amfnr_GetAttrib_v1(mAlgoCtx, att);
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EXIT_ANALYZER_FUNCTION();
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return ret;
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}
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XCamReturn RkAiqAmfnrHandleInt::setIQPara(rk_aiq_mfnr_IQPara_V1_t* para) {
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ENTER_ANALYZER_FUNCTION();
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XCamReturn ret = XCAM_RETURN_NO_ERROR;
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mCfgMutex.lock();
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// TODO
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// check if there is different between att & mCurAtt
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// if something changed, set att to mNewAtt, and
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// the new params will be effective later when updateConfig
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// called by RkAiqCore
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// if something changed
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if (0 != memcmp(&mCurIQPara, para, sizeof(rk_aiq_mfnr_IQPara_V1_t))) {
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mNewIQPara = *para;
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updateIQpara = true;
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waitSignal();
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}
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mCfgMutex.unlock();
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EXIT_ANALYZER_FUNCTION();
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return ret;
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}
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XCamReturn RkAiqAmfnrHandleInt::getIQPara(rk_aiq_mfnr_IQPara_V1_t* para) {
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ENTER_ANALYZER_FUNCTION();
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XCamReturn ret = XCAM_RETURN_NO_ERROR;
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rk_aiq_uapi_amfnr_GetIQPara_v1(mAlgoCtx, para);
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EXIT_ANALYZER_FUNCTION();
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return ret;
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}
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XCamReturn RkAiqAmfnrHandleInt::setJsonPara(rk_aiq_mfnr_JsonPara_V1_t* para) {
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ENTER_ANALYZER_FUNCTION();
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XCamReturn ret = XCAM_RETURN_NO_ERROR;
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mCfgMutex.lock();
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// TODO
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// check if there is different between att & mCurAtt
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// if something changed, set att to mNewAtt, and
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// the new params will be effective later when updateConfig
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// called by RkAiqCore
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// if something changed
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if (0 != memcmp(&mCurIQPara, para, sizeof(rk_aiq_mfnr_JsonPara_V1_t))) {
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mNewJsonPara = *para;
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updateJsonpara = true;
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waitSignal();
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}
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mCfgMutex.unlock();
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EXIT_ANALYZER_FUNCTION();
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return ret;
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}
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XCamReturn RkAiqAmfnrHandleInt::getJsonPara(rk_aiq_mfnr_JsonPara_V1_t* para) {
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ENTER_ANALYZER_FUNCTION();
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XCamReturn ret = XCAM_RETURN_NO_ERROR;
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rk_aiq_uapi_amfnr_GetJsonPara_v1(mAlgoCtx, para);
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EXIT_ANALYZER_FUNCTION();
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return ret;
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}
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XCamReturn RkAiqAmfnrHandleInt::setLumaStrength(float fPercent) {
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ENTER_ANALYZER_FUNCTION();
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XCamReturn ret = XCAM_RETURN_NO_ERROR;
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rk_aiq_uapi_amfnr_SetLumaTFStrength_v1(mAlgoCtx, fPercent);
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EXIT_ANALYZER_FUNCTION();
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return ret;
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}
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XCamReturn RkAiqAmfnrHandleInt::getLumaStrength(float* pPercent) {
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ENTER_ANALYZER_FUNCTION();
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XCamReturn ret = XCAM_RETURN_NO_ERROR;
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rk_aiq_uapi_amfnr_GetLumaTFStrength_v1(mAlgoCtx, pPercent);
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EXIT_ANALYZER_FUNCTION();
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return ret;
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}
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XCamReturn RkAiqAmfnrHandleInt::setChromaStrength(float fPercent) {
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ENTER_ANALYZER_FUNCTION();
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XCamReturn ret = XCAM_RETURN_NO_ERROR;
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rk_aiq_uapi_amfnr_SetChromaTFStrength_v1(mAlgoCtx, fPercent);
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EXIT_ANALYZER_FUNCTION();
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return ret;
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}
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XCamReturn RkAiqAmfnrHandleInt::getChromaStrength(float* pPercent) {
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ENTER_ANALYZER_FUNCTION();
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XCamReturn ret = XCAM_RETURN_NO_ERROR;
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rk_aiq_uapi_amfnr_GetChromaTFStrength_v1(mAlgoCtx, pPercent);
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EXIT_ANALYZER_FUNCTION();
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return ret;
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}
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XCamReturn RkAiqAmfnrHandleInt::prepare() {
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ENTER_ANALYZER_FUNCTION();
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XCamReturn ret = XCAM_RETURN_NO_ERROR;
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ret = RkAiqHandle::prepare();
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RKAIQCORE_CHECK_RET(ret, "amfnr handle prepare failed");
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RkAiqAlgoConfigAmfnr* amfnr_config_int = (RkAiqAlgoConfigAmfnr*)mConfig;
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RkAiqCore::RkAiqAlgosGroupShared_t* shared =
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(RkAiqCore::RkAiqAlgosGroupShared_t*)(getGroupShared());
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RkAiqAlgoDescription* des = (RkAiqAlgoDescription*)mDes;
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ret = des->prepare(mConfig);
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RKAIQCORE_CHECK_RET(ret, "amfnr algo prepare failed");
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EXIT_ANALYZER_FUNCTION();
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return XCAM_RETURN_NO_ERROR;
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}
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XCamReturn RkAiqAmfnrHandleInt::preProcess() {
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ENTER_ANALYZER_FUNCTION();
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XCamReturn ret = XCAM_RETURN_NO_ERROR;
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RkAiqAlgoPreAmfnr* amfnr_pre_int = (RkAiqAlgoPreAmfnr*)mPreInParam;
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RkAiqAlgoPreResAmfnr* amfnr_pre_res_int = (RkAiqAlgoPreResAmfnr*)mPreOutParam;
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RkAiqCore::RkAiqAlgosGroupShared_t* shared =
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(RkAiqCore::RkAiqAlgosGroupShared_t*)(getGroupShared());
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RkAiqCore::RkAiqAlgosComShared_t* sharedCom = &mAiqCore->mAlogsComSharedParams;
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ret = RkAiqHandle::preProcess();
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if (ret) {
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RKAIQCORE_CHECK_RET(ret, "amfnr handle preProcess failed");
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}
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RkAiqAlgoDescription* des = (RkAiqAlgoDescription*)mDes;
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ret = des->pre_process(mPreInParam, mPreOutParam);
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RKAIQCORE_CHECK_RET(ret, "amfnr algo pre_process failed");
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EXIT_ANALYZER_FUNCTION();
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return XCAM_RETURN_NO_ERROR;
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}
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XCamReturn RkAiqAmfnrHandleInt::processing() {
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ENTER_ANALYZER_FUNCTION();
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XCamReturn ret = XCAM_RETURN_NO_ERROR;
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RkAiqAlgoProcAmfnr* amfnr_proc_int = (RkAiqAlgoProcAmfnr*)mProcInParam;
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RkAiqAlgoProcResAmfnr* amfnr_proc_res_int = (RkAiqAlgoProcResAmfnr*)mProcOutParam;
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RkAiqCore::RkAiqAlgosGroupShared_t* shared =
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(RkAiqCore::RkAiqAlgosGroupShared_t*)(getGroupShared());
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RkAiqCore::RkAiqAlgosComShared_t* sharedCom = &mAiqCore->mAlogsComSharedParams;
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ret = RkAiqHandle::processing();
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if (ret) {
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RKAIQCORE_CHECK_RET(ret, "amfnr handle processing failed");
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}
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RkAiqAlgoDescription* des = (RkAiqAlgoDescription*)mDes;
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ret = des->processing(mProcInParam, mProcOutParam);
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RKAIQCORE_CHECK_RET(ret, "amfnr algo processing failed");
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EXIT_ANALYZER_FUNCTION();
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return ret;
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}
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XCamReturn RkAiqAmfnrHandleInt::postProcess() {
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ENTER_ANALYZER_FUNCTION();
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XCamReturn ret = XCAM_RETURN_NO_ERROR;
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RkAiqAlgoPostAmfnr* amfnr_post_int = (RkAiqAlgoPostAmfnr*)mPostInParam;
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RkAiqAlgoPostResAmfnr* amfnr_post_res_int = (RkAiqAlgoPostResAmfnr*)mPostOutParam;
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RkAiqCore::RkAiqAlgosGroupShared_t* shared =
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(RkAiqCore::RkAiqAlgosGroupShared_t*)(getGroupShared());
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RkAiqCore::RkAiqAlgosComShared_t* sharedCom = &mAiqCore->mAlogsComSharedParams;
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ret = RkAiqHandle::postProcess();
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if (ret) {
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RKAIQCORE_CHECK_RET(ret, "amfnr handle postProcess failed");
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return ret;
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}
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RkAiqAlgoDescription* des = (RkAiqAlgoDescription*)mDes;
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ret = des->post_process(mPostInParam, mPostOutParam);
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RKAIQCORE_CHECK_RET(ret, "amfnr algo post_process failed");
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EXIT_ANALYZER_FUNCTION();
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return ret;
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}
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XCamReturn RkAiqAmfnrHandleInt::genIspResult(RkAiqFullParams* params, RkAiqFullParams* cur_params) {
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ENTER_ANALYZER_FUNCTION();
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XCamReturn ret = XCAM_RETURN_NO_ERROR;
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RkAiqCore::RkAiqAlgosGroupShared_t* shared =
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(RkAiqCore::RkAiqAlgosGroupShared_t*)(getGroupShared());
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RkAiqCore::RkAiqAlgosComShared_t* sharedCom = &mAiqCore->mAlogsComSharedParams;
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RkAiqAlgoProcResAmfnr* amfnr_com = (RkAiqAlgoProcResAmfnr*)mProcOutParam;
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if (!amfnr_com) {
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LOGD_ANALYZER("no asharp result");
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return XCAM_RETURN_NO_ERROR;
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}
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if (!this->getAlgoId()) {
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RkAiqAlgoProcResAmfnr* amfnr_rk = (RkAiqAlgoProcResAmfnr*)amfnr_com;
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if (params->mTnrParams.ptr()) {
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rk_aiq_isp_tnr_params_v20_t* tnr_param = params->mTnrParams->data().ptr();
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LOGD_ANR("oyyf: %s:%d output ispp param start\n", __FUNCTION__, __LINE__);
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if (sharedCom->init) {
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tnr_param->frame_id = 0;
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} else {
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tnr_param->frame_id = shared->frameId;
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}
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tnr_param->update_mask |= RKAIQ_ISPP_TNR_ID;
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memcpy(&tnr_param->result, &amfnr_rk->stAmfnrProcResult.stFix,
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sizeof(RK_MFNR_Fix_V1_t));
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}
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LOGD_ASHARP("oyyf: %s:%d output isp param end \n", __FUNCTION__, __LINE__);
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}
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cur_params->mTnrParams = params->mTnrParams;
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EXIT_ANALYZER_FUNCTION();
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return ret;
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}
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}; // namespace RkCam
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