#pragma once
#include "CCOS.Dev.FPDDeviceMould.hpp"
#include "OemAcq.h"
#include "OemSync.h"
#include "OemCtrl.h"
#include "OemCalib.h"
#include "DetectorConfiguration.h"


#ifdef CCOSDEVFPDCARERAYDR_EXPORTS
#define CCOSDEVFPDCARERAYDR_API __declspec(dllexport)
#else
#define CCOSDEVFPDCARERAYDR_API __declspec(dllimport)
#endif


namespace CCOS::Dev::Detail::Detector
{
	class CCOSDEVFPDCARERAYDR_API CareRayDriver : public FPDDriverMould
	{
		FPDDeviceCareRay* pObjDev;
		bool m_bDriverConnect; //driver是否连接的标记位
		//*** 配置文件相关成员变量begin ***
		ResDataObject m_DeviceConfig;
		ResDataObject m_ConfigAll; //存储当前的配置，用于修改配置时写回文件
		ResDataObject m_Configurations; //存储当前配置中“CONFIGURATION”节点的内容
		std::unique_ptr <ResDataObject> m_pAttribute;
		std::unique_ptr <ResDataObject>  m_pDescription;
		//*** 配置文件相关成员变量end ***

	public:
		CareRayDriver();
		virtual ~CareRayDriver();
		virtual void Prepare() override;
		virtual bool Connect() override;
		virtual void Disconnect() override;
		virtual bool isConnected() const override;
		virtual auto CreateDevice(int index)->std::unique_ptr <IODevice> override;
		virtual std::string DriverProbe() override;
		virtual std::string GetResource() override;
		virtual std::string DeviceProbe() override;
		virtual bool GetDeviceConfig(std::string& Cfg) override;
		virtual bool SetDeviceConfig(std::string Cfg) override;
		bool SaveConfigFile(bool bSendNotify);
		bool GetDeviceConfigValue(ResDataObject config, const char* pInnerKey, int nPathID, string& strValue);
		bool SetDeviceConfigValue(ResDataObject &config, const char* pInnerKey, int nPathID, const char* szValue);
	};


	namespace nsDetail = CCOS::Dev::Detail;
	class CCOSDEVFPDCARERAYDR_API FPDDeviceCareRay : public FPDDeviceMould
	{
		using super = IODeviceDetail; //IODeviceDetail类的别名声明
		std::unique_ptr <DetectorCtrlUnit> m_DetectorCtrlUnit;
		std::unique_ptr <AcqUnit> m_AcqUnit;
		std::unique_ptr <SyncUnit> m_SyncUnit;
		std::unique_ptr <CalibUnit> m_CalibUnit;
		std::unique_ptr <DeviceTemperatureMould> m_Temperature;
		std::unique_ptr <DeviceBatteryMould> m_Battery;
		std::unique_ptr <DeviceWifiMould> m_Wifi;
		std::unique_ptr <DetectorConfiguration> m_DetectorConfiguration;
		//std::unique_ptr <FPDErrorWarning> m_WarnAndError;

		ResDataObject m_ACQMODElist;
		DeviceIndexStruct m_stDeviceConfig;
		std::string m_strWorkPath;
		int m_nFullImageHeight;
		int m_nFullImageWidth;
		int m_nImgBits;
		int m_nAngle;
		int m_nPixelSpacing;
		int m_nSensitivity;
		int m_nAcqMode;
		float m_fDose;
		WORD* m_pFullImgBuffer;
		APP_STATUS m_eAppStatus;
		bool m_bDeviceConnect;
		SYSTEMTIME m_stImgCreateTime; //记录图像生成时间(软同步使用开窗时间)，用于填写dicom
		SYNC_MODE m_eSyncMode;
		int m_nFPDExpReadyTime; //窗口
		float m_fFactorEXI2UGY; //探测器EXI -> UGY 转换系数
		ResDataObject m_CalibDoseList; //ZSKK校正时加载校正剂量配置
		HANDLE m_WaitCalibDoseEvt;
		float m_fDoseParam;// 校正用的曝光计量，发送到UI 且本地记录
		int m_nCalibTotalExposureNum; //校正曝光总次数
		int m_nCalibCurrentCalibrationRound; //校正曝光第几轮
		int m_nCalibCurrentExposureIndex; //校正曝光第几次
		int m_nCalibCurrentExposureNum; //已校正曝光总次数
		bool m_bOnlyHaveFpd;//当前系统是否只配置了一个真实的探测器并且处于AED同步模式，其他设备没有或者是demo的 1-是 0-否 默认否

	public:
		FPDDeviceCareRay(std::shared_ptr<IOEventCenter> center, std::string strConfigPath);
		~FPDDeviceCareRay();
		virtual std::string GetGUID() const override;
		virtual bool Prepare() override;

		bool CreateDevice();
		void Register();
		RET_STATUS Connect();
		RET_STATUS EnterExam(int nExamMode);
		RET_STATUS SetAcqMode(string strMode);
		RET_STATUS GetSyncMode(SYNC_MODE &eSyncMode);
		RET_STATUS PrepareAcquisition();
		RET_STATUS StartAcquisition(string in = "");
		RET_STATUS ToFrameAcq(string in = "");
		RET_STATUS RequestXray(string in = "");
		RET_STATUS StopAcquisition();
		RET_STATUS ActiveCalibration(CCOS_CALIBRATION_TYPE eType);
		RET_STATUS PrepareCalibration();
		RET_STATUS GetRequestedDose(std::string& strDose);
		RET_STATUS StartCalibration();
		RET_STATUS StopCalibration();
		RET_STATUS GetCalibrationStep(int nDetectorID, string& strCalibrationStepInfo);
		RET_STATUS AcceptCalibration();
		RET_STATUS RejectCalibration();
		void AbortCalibration();
		bool CompleteCalibration();
		RET_STATUS SaveCalibrationFile(bool bSaveFlag);
		bool GetOnlyHaveFpd();
		int GetGainExposureNum();

		void OnFPDCallback(int nDetectorID, int nEventID, int nEventLevel, const char* pszMsg, int nParam1, float fParam2, int nPtrParamLen, void* pParam);
		void ConfirmCalExposure();
		void RejectCalExposure();
		bool Support_DarkCalib();
		bool Support_XrayCalib();

	private:
		void SendTemperatureValue(float fValue);
		void SendWifiValue(int nValue);
		void SendBatteryValue(int nValue);
		bool LoadConfig();
		void OnEventProcessConf(int nDetectorID, int nEventID, int nEventLevel, const char* pszMsg, int nParam1, float fParam2, int nPtrParamLen, void* pParam);
		void OnEventProcessInfo(int nDetectorID, int nEventID, int nEventLevel, const char* pszMsg, int nParam1, float fParam2, int nPtrParamLen, void* pParam);
		void OnEventProcessStatus(int nDetectorID, int nEventID, int nEventLevel, const char* pszMsg, int nParam1, float fParam2, int nPtrParamLen, void* pParam);
		void OnEventProcessData(int nDetectorID, int nEventID, int nEventLevel, const char* pszMsg, int nParam1, float fParam2, int nPtrParamLen, void* pParam);
		void OnEventProcessError(int nDetectorID, int nEventID, int nEventLevel, const char* pszMsg, int nParam1, float fParam2, int nPtrParamLen, void* pParam);
		void OnEventProcessWarning(int nDetectorID, int nEventID, int nEventLevel, const char* pszMsg, int nParam1, float fParam2, int nPtrParamLen, void* pParam);

	protected:
		void RegisterCtrl(nsDetail::Dispatch* Dispatch);
		void RegisterAcq(nsDetail::Dispatch* Dispatch);
		void RegisterSync(nsDetail::Dispatch* Dispatch);
		void RegisterCalib(nsDetail::Dispatch* Dispatch);
		void RegisterOthers(nsDetail::Dispatch* Dispatch);
	};
}