/*
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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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#ifndef _RK_AIQ_MANAGER_H_
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#define _RK_AIQ_MANAGER_H_
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#include "ICamHw.h"
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#include "RkAiqCore.h"
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#include "RkAiqCalibDb.h"
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#include "RkAiqCalibDbV2.h"
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#include "RkLumaCore.h"
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#include "rk_aiq.h"
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#include <memory>
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#include <list>
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namespace RkCam {
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class RkAiqManager;
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class RkAiqMngCmdThread
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: public Thread {
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public:
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RkAiqMngCmdThread(RkAiqManager* aiqMng)
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: Thread("RkAiqMngCmdThread")
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, mAiqMng(aiqMng) {};
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~RkAiqMngCmdThread() {};
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void triger_stop() {
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mAiqCmdQueue.pause_pop ();
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};
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void triger_start() {
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mAiqCmdQueue.resume_pop ();
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};
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enum MSG_CMD {
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MSG_CMD_SW_WORKING_MODE
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};
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typedef struct message_s {
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int cmd;
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union {
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struct {
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rk_aiq_working_mode_t mode;
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} sw_wk_mode;
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} data;
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bool sync;
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SmartPtr<Mutex> mutex;
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SmartPtr<XCam::Cond> cond;
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} msg_t;
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bool send_cmd(SmartPtr<msg_t> msg) {
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bool ret = true;
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if (msg->sync) {
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msg->mutex = new Mutex();
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msg->cond = new XCam::Cond();
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SmartLock lock (*msg->mutex.ptr());
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ret = mAiqCmdQueue.push(msg);
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msg->cond->wait(*msg->mutex.ptr());
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} else {
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ret = mAiqCmdQueue.push(msg);
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}
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return ret;
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};
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protected:
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virtual void stopped () {
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mAiqCmdQueue.clear ();
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};
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virtual bool loop ();
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private:
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RkAiqManager* mAiqMng;
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SafeList<msg_t> mAiqCmdQueue;
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};
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class RkAiqRstApplyThread
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: public Thread {
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public:
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RkAiqRstApplyThread(RkAiqManager* aiqMng)
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: Thread("RkAiqRstApplyThread")
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, mAiqMng(aiqMng) {};
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~RkAiqRstApplyThread() {};
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void triger_stop() {
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mAiqRstQueue.pause_pop ();
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};
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void triger_start() {
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mAiqRstQueue.clear ();
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mAiqRstQueue.resume_pop ();
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};
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bool push_results (SmartPtr<RkAiqFullParamsProxy> aiqRst) {
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return mAiqRstQueue.push(aiqRst);
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};
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protected:
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virtual void stopped () {
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mAiqRstQueue.clear ();
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};
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virtual bool loop ();
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private:
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RkAiqManager* mAiqMng;
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SafeList<RkAiqFullParamsProxy> mAiqRstQueue;
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};
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class RkAiqManager
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:/* public IspStatsListener
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, public IsppStatsListener
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, public IspLumaListener
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, public IspEvtsListener
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,*/ public HwResListener
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, public RkAiqAnalyzerCb
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, public RkLumaAnalyzerCb {
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friend RkAiqRstApplyThread;
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friend RkAiqMngCmdThread;
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#ifdef RKAIQ_ENABLE_CAMGROUP
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friend class RkAiqCamGroupManager;
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#endif
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public:
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explicit RkAiqManager(const char* sns_ent_name,
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rk_aiq_error_cb err_cb,
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rk_aiq_metas_cb metas_cb);
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virtual ~RkAiqManager();
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void setHwEvtCb(rk_aiq_hwevt_cb hwevt_cb, void* evt_cb_ctx) {
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mHwEvtCbCtx = evt_cb_ctx;
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mHwEvtCb = hwevt_cb;
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};
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void setCamHw(SmartPtr<ICamHw>& camhw);
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void setCamPhyId(int phyId) {mCamPhyId = phyId;}
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int getCamPhyId() { return mCamPhyId;}
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void setAnalyzer(SmartPtr<RkAiqCore> analyzer);
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#ifdef RKAIQ_ENABLE_PARSER_V1
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void setAiqCalibDb(const CamCalibDbContext_t* calibDb);
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#endif
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void setAiqCalibDb(const CamCalibDbV2Context_t* calibDb);
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void setLumaAnalyzer(SmartPtr<RkLumaCore> analyzer);
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XCamReturn init();
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XCamReturn prepare(uint32_t width, uint32_t height, rk_aiq_working_mode_t mode);
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XCamReturn start();
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XCamReturn stop(bool keep_ext_hw_st = false);
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XCamReturn deInit();
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XCamReturn updateCalibDb(const CamCalibDbV2Context_t* newCalibDb);
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#if 0
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// from IsppStatsListener
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XCamReturn isppStatsCb(SmartPtr<VideoBuffer>& isppStats);
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// from IspLumaListener
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XCamReturn ispLumaCb(SmartPtr<VideoBuffer>& ispLuma);
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// from IspStatsListener
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XCamReturn ispStatsCb(SmartPtr<VideoBuffer>& ispStats);
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// from IspEvtsListener
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XCamReturn ispEvtsCb(ispHwEvt_t* evt);
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#endif
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XCamReturn hwResCb(SmartPtr<VideoBuffer>& hwres);
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XCamReturn syncSofEvt(SmartPtr<VideoBuffer>& hwres);
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// from RkAiqAnalyzerCb
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void rkAiqCalcDone(SmartPtr<RkAiqFullParamsProxy>& results);
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void rkAiqCalcFailed(const char* msg);
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// from RkLumaAnalyzerCb
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void rkLumaCalcDone(rk_aiq_luma_params_t luma_params);
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void rkLumaCalcFailed(const char* msg);
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XCamReturn setModuleCtl(rk_aiq_module_id_t mId, bool mod_en);
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XCamReturn getModuleCtl(rk_aiq_module_id_t mId, bool& mod_en);
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XCamReturn enqueueRawBuffer(void *rawdata, bool sync);
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XCamReturn enqueueRawFile(const char *path);
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XCamReturn registRawdataCb(void (*callback)(void *));
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XCamReturn rawdataPrepare(rk_aiq_raw_prop_t prop);
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XCamReturn setSharpFbcRotation(rk_aiq_rotation_t rot);
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XCamReturn setMirrorFlip(bool mirror, bool flip, int skip_frm_cnt);
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XCamReturn getMirrorFlip(bool& mirror, bool& flip);
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void setDefMirrorFlip();
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XCamReturn swWorkingModeDyn_msg(rk_aiq_working_mode_t mode);
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void setMulCamConc(bool cc);
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CamCalibDbV2Context_t* getCurrentCalibDBV2(void);
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XCamReturn calibTuning(const CamCalibDbV2Context_t* aiqCalib,
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ModuleNameList& change_list);
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#ifdef RKAIQ_ENABLE_CAMGROUP
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void setCamGroupManager(RkAiqCamGroupManager* cam_group_manager, bool isMain) {
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mCamGroupCoreManager = cam_group_manager;
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mIsMain = isMain;
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}
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#endif
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rk_aiq_working_mode_t getWorkingMode() {
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return mWorkingMode;
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}
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protected:
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XCamReturn applyAnalyzerResult(SmartPtr<RkAiqFullParamsProxy>& results);
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XCamReturn swWorkingModeDyn(rk_aiq_working_mode_t mode);
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private:
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enum aiq_state_e {
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AIQ_STATE_INVALID,
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AIQ_STATE_INITED,
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AIQ_STATE_PREPARED,
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AIQ_STATE_STARTED,
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AIQ_STATE_STOPED,
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};
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XCAM_DEAD_COPY (RkAiqManager);
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private:
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SmartPtr<ICamHw> mCamHw;
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SmartPtr<RkAiqCore> mRkAiqAnalyzer;
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SmartPtr<RkAiqRstApplyThread> mAiqRstAppTh;
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SmartPtr<RkAiqMngCmdThread> mAiqMngCmdTh;
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SmartPtr<RkLumaCore> mRkLumaAnalyzer;
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rk_aiq_error_cb mErrCb;
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rk_aiq_metas_cb mMetasCb;
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rk_aiq_hwevt_cb mHwEvtCb;
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void* mHwEvtCbCtx;
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const char* mSnsEntName;
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#ifdef RKAIQ_ENABLE_PARSER_V1
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const CamCalibDbContext_t* mCalibDb;
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#endif
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CamCalibDbV2Context_t* mCalibDbV2;
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rk_aiq_working_mode_t mWorkingMode;
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rk_aiq_working_mode_t mOldWkModeForGray;
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bool mWkSwitching;
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uint32_t mWidth;
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uint32_t mHeight;
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int _state;
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bool mCurMirror;
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bool mCurFlip;
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SmartPtr<RkAiqCpslParamsProxy> mDleayCpslParams;
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int mDelayCpslApplyFrmNum;
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int mCamPhyId;
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#ifdef RKAIQ_ENABLE_CAMGROUP
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RkAiqCamGroupManager* mCamGroupCoreManager;
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#endif
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bool mIsMain;
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};
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}; //namespace RkCam
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#endif //_RK_AIQ_MANAGER_H_
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