/* * Copyright (c) 2019-2022 Rockchip Eletronics Co., Ltd. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "RkAiqAcnrV1Handle.h" #include "RkAiqCore.h" namespace RkCam { DEFINE_HANDLE_REGISTER_TYPE(RkAiqAcnrV1HandleInt); void RkAiqAcnrV1HandleInt::init() { ENTER_ANALYZER_FUNCTION(); RkAiqHandle::deInit(); mConfig = (RkAiqAlgoCom*)(new RkAiqAlgoConfigAcnrV1()); mPreInParam = (RkAiqAlgoCom*)(new RkAiqAlgoPreAcnrV1()); mPreOutParam = (RkAiqAlgoResCom*)(new RkAiqAlgoPreResAcnrV1()); mProcInParam = (RkAiqAlgoCom*)(new RkAiqAlgoProcAcnrV1()); mProcOutParam = (RkAiqAlgoResCom*)(new RkAiqAlgoProcResAcnrV1()); mPostInParam = (RkAiqAlgoCom*)(new RkAiqAlgoPostAcnrV1()); mPostOutParam = (RkAiqAlgoResCom*)(new RkAiqAlgoPostResAcnrV1()); EXIT_ANALYZER_FUNCTION(); } XCamReturn RkAiqAcnrV1HandleInt::updateConfig(bool needSync) { ENTER_ANALYZER_FUNCTION(); XCamReturn ret = XCAM_RETURN_NO_ERROR; if (needSync) mCfgMutex.lock(); // if something changed if (updateAtt) { mCurAtt = mNewAtt; updateAtt = false; // TODO rk_aiq_uapi_acnrV1_SetAttrib(mAlgoCtx, &mCurAtt, false); sendSignal(); } if (updateIQpara) { mCurIQPara = mNewIQPara; updateIQpara = false; // TODO // rk_aiq_uapi_asharp_SetIQpara_V3(mAlgoCtx, &mCurIQPara, false); sendSignal(); } if (updateStrength) { mCurStrength = mNewStrength; updateStrength = false; rk_aiq_uapi_acnrV1_SetChromaSFStrength(mAlgoCtx, mCurStrength); sendSignal(); } if (needSync) mCfgMutex.unlock(); EXIT_ANALYZER_FUNCTION(); return ret; } XCamReturn RkAiqAcnrV1HandleInt::setAttrib(rk_aiq_cnr_attrib_v1_t* att) { ENTER_ANALYZER_FUNCTION(); XCamReturn ret = XCAM_RETURN_NO_ERROR; mCfgMutex.lock(); // TODO // check if there is different between att & mCurAtt // if something changed, set att to mNewAtt, and // the new params will be effective later when updateConfig // called by RkAiqCore // if something changed if (0 != memcmp(&mCurAtt, att, sizeof(rk_aiq_cnr_attrib_v1_t))) { mNewAtt = *att; updateAtt = true; waitSignal(); } mCfgMutex.unlock(); EXIT_ANALYZER_FUNCTION(); return ret; } XCamReturn RkAiqAcnrV1HandleInt::getAttrib(rk_aiq_cnr_attrib_v1_t* att) { ENTER_ANALYZER_FUNCTION(); XCamReturn ret = XCAM_RETURN_NO_ERROR; rk_aiq_uapi_acnrV1_GetAttrib(mAlgoCtx, att); EXIT_ANALYZER_FUNCTION(); return ret; } XCamReturn RkAiqAcnrV1HandleInt::setIQPara(rk_aiq_cnr_IQPara_V1_t* para) { ENTER_ANALYZER_FUNCTION(); XCamReturn ret = XCAM_RETURN_NO_ERROR; mCfgMutex.lock(); // TODO // check if there is different between att & mCurAtt // if something changed, set att to mNewAtt, and // the new params will be effective later when updateConfig // called by RkAiqCore // if something changed if (0 != memcmp(&mCurIQPara, para, sizeof(rk_aiq_cnr_IQPara_V1_t))) { mNewIQPara = *para; updateIQpara = true; waitSignal(); } mCfgMutex.unlock(); EXIT_ANALYZER_FUNCTION(); return ret; } XCamReturn RkAiqAcnrV1HandleInt::getIQPara(rk_aiq_cnr_IQPara_V1_t* para) { ENTER_ANALYZER_FUNCTION(); XCamReturn ret = XCAM_RETURN_NO_ERROR; // rk_aiq_uapi_asharp_GetIQpara(mAlgoCtx, para); EXIT_ANALYZER_FUNCTION(); return ret; } XCamReturn RkAiqAcnrV1HandleInt::setStrength(float fPercent) { ENTER_ANALYZER_FUNCTION(); XCamReturn ret = XCAM_RETURN_NO_ERROR; mCfgMutex.lock(); mNewStrength = fPercent; updateStrength = true; waitSignal(); mCfgMutex.unlock(); EXIT_ANALYZER_FUNCTION(); return ret; } XCamReturn RkAiqAcnrV1HandleInt::getStrength(float* pPercent) { ENTER_ANALYZER_FUNCTION(); XCamReturn ret = XCAM_RETURN_NO_ERROR; rk_aiq_uapi_acnrV1_GetChromaSFStrength(mAlgoCtx, pPercent); EXIT_ANALYZER_FUNCTION(); return ret; } XCamReturn RkAiqAcnrV1HandleInt::prepare() { ENTER_ANALYZER_FUNCTION(); XCamReturn ret = XCAM_RETURN_NO_ERROR; ret = RkAiqHandle::prepare(); RKAIQCORE_CHECK_RET(ret, "acnr handle prepare failed"); RkAiqAlgoConfigAcnrV1* acnr_config_int = (RkAiqAlgoConfigAcnrV1*)mConfig; RkAiqAlgoDescription* des = (RkAiqAlgoDescription*)mDes; ret = des->prepare(mConfig); RKAIQCORE_CHECK_RET(ret, "acnr algo prepare failed"); EXIT_ANALYZER_FUNCTION(); return XCAM_RETURN_NO_ERROR; } XCamReturn RkAiqAcnrV1HandleInt::preProcess() { ENTER_ANALYZER_FUNCTION(); XCamReturn ret = XCAM_RETURN_NO_ERROR; RkAiqAlgoPreAcnrV1* acnr_pre_int = (RkAiqAlgoPreAcnrV1*)mPreInParam; RkAiqAlgoPreResAcnrV1* acnr_pre_res_int = (RkAiqAlgoPreResAcnrV1*)mPreOutParam; RkAiqCore::RkAiqAlgosGroupShared_t* shared = (RkAiqCore::RkAiqAlgosGroupShared_t*)(getGroupShared()); RkAiqCore::RkAiqAlgosComShared_t* sharedCom = &mAiqCore->mAlogsComSharedParams; ret = RkAiqHandle::preProcess(); if (ret) { RKAIQCORE_CHECK_RET(ret, "acnr handle preProcess failed"); } RkAiqAlgoDescription* des = (RkAiqAlgoDescription*)mDes; ret = des->pre_process(mPreInParam, mPreOutParam); RKAIQCORE_CHECK_RET(ret, "acnr algo pre_process failed"); EXIT_ANALYZER_FUNCTION(); return XCAM_RETURN_NO_ERROR; } XCamReturn RkAiqAcnrV1HandleInt::processing() { ENTER_ANALYZER_FUNCTION(); XCamReturn ret = XCAM_RETURN_NO_ERROR; RkAiqAlgoProcAcnrV1* acnr_proc_int = (RkAiqAlgoProcAcnrV1*)mProcInParam; RkAiqAlgoProcResAcnrV1* acnr_proc_res_int = (RkAiqAlgoProcResAcnrV1*)mProcOutParam; RkAiqCore::RkAiqAlgosGroupShared_t* shared = (RkAiqCore::RkAiqAlgosGroupShared_t*)(getGroupShared()); RkAiqCore::RkAiqAlgosComShared_t* sharedCom = &mAiqCore->mAlogsComSharedParams; ret = RkAiqHandle::processing(); if (ret) { RKAIQCORE_CHECK_RET(ret, "acnr handle processing failed"); } // TODO: fill procParam acnr_proc_int->iso = sharedCom->iso; acnr_proc_int->hdr_mode = sharedCom->working_mode; RkAiqAlgoDescription* des = (RkAiqAlgoDescription*)mDes; ret = des->processing(mProcInParam, mProcOutParam); RKAIQCORE_CHECK_RET(ret, "aynr algo processing failed"); EXIT_ANALYZER_FUNCTION(); return ret; } XCamReturn RkAiqAcnrV1HandleInt::postProcess() { ENTER_ANALYZER_FUNCTION(); XCamReturn ret = XCAM_RETURN_NO_ERROR; RkAiqAlgoPostAcnrV1* acnr_post_int = (RkAiqAlgoPostAcnrV1*)mPostInParam; RkAiqAlgoPostResAcnrV1* acnr_post_res_int = (RkAiqAlgoPostResAcnrV1*)mPostOutParam; RkAiqCore::RkAiqAlgosGroupShared_t* shared = (RkAiqCore::RkAiqAlgosGroupShared_t*)(getGroupShared()); RkAiqCore::RkAiqAlgosComShared_t* sharedCom = &mAiqCore->mAlogsComSharedParams; ret = RkAiqHandle::postProcess(); if (ret) { RKAIQCORE_CHECK_RET(ret, "acnr handle postProcess failed"); return ret; } RkAiqAlgoDescription* des = (RkAiqAlgoDescription*)mDes; ret = des->post_process(mPostInParam, mPostOutParam); RKAIQCORE_CHECK_RET(ret, "acnr algo post_process failed"); EXIT_ANALYZER_FUNCTION(); return ret; } XCamReturn RkAiqAcnrV1HandleInt::genIspResult(RkAiqFullParams* params, RkAiqFullParams* cur_params) { ENTER_ANALYZER_FUNCTION(); XCamReturn ret = XCAM_RETURN_NO_ERROR; RkAiqCore::RkAiqAlgosGroupShared_t* shared = (RkAiqCore::RkAiqAlgosGroupShared_t*)(getGroupShared()); RkAiqCore::RkAiqAlgosComShared_t* sharedCom = &mAiqCore->mAlogsComSharedParams; RkAiqAlgoProcResAcnrV1* acnr_rk = (RkAiqAlgoProcResAcnrV1*)mProcOutParam; if (!acnr_rk) { LOGD_ANALYZER("no aynr result"); return XCAM_RETURN_NO_ERROR; } if (!this->getAlgoId()) { LOGD_ANR("oyyf: %s:%d output isp param start\n", __FUNCTION__, __LINE__); rk_aiq_isp_cnr_params_v21_t* cnr_param = params->mCnrV21Params->data().ptr(); if (sharedCom->init) { cnr_param->frame_id = 0; } else { cnr_param->frame_id = shared->frameId; } memcpy(&cnr_param->result, &acnr_rk->stAcnrProcResult.stFix, sizeof(RK_CNR_Fix_V1_t)); LOGD_ANR("oyyf: %s:%d output isp param end \n", __FUNCTION__, __LINE__); } cur_params->mCnrV21Params = params->mCnrV21Params; EXIT_ANALYZER_FUNCTION(); return ret; } }; // namespace RkCam