#pragma once #include #pragma region DEFINITION enum IRAY_SYNCMODE_CHANGE { E_IRAY_SYNCMODE_NOCHANGE = 0, E_IRAY_SYNCMODE_CHANGED = 2, E_IRAY_SYNCMODE_SETFAILED = 4 }; enum AcqMode { DEFAULT = 0, RAD, CF, PF, STITCH }; typedef enum { EVT_CODE_NA = 0, FPD_ACTIVE,//1 FPD_NOT_ACTIVE,//2 } ste_code; enum ENUM_EXPOSE_STATUS { DOSE_ACCEPT = 0, DOSE_TOO_HIGH = 1, DOSE_TOO_LOW = 2, DOSE_OBJECT = 3 }; typedef enum { WS_DIRE = 2, }Struct_WS; //探测器异步事件状态 enum ENUM_PANEL_EVENT_STATE { PANEL_EVENT_END_OK = 0, PANEL_EVENT_END_ERROR = 1, PANEL_EVENT_START = 2, PANEL_EVENT_SUCCESS = 3, PANEL_EVENT_END = 4, PANEL_EVENT_BEGIN = 5, PANEL_EVENT_TIMEOUT = 6 }; enum SIEMENS_FD_STATUS { FD_SUCCESS = 0, // FD_ERROR = 5, //DFR not ready because there is an Detector error. NO_OGP_SELECT = 8, //FD_RECOVERING = 9, //DFR is not ready because the FD is recovering. FD_TOO_HOT = 11, //DFR is not ready because the Detector is too hot. //FD_OFFSET_IN_PROGRESS = 15, //FD offset is in progress FD_WLAN_TOO_LOW = 16, //For NRF: WLAN power is too low for acquisition. FD_BATTERY_TOO_LOW = 18, //Battery of mobile detector is too low for Acquisition. //LOW_BATT_ACQ_POSSIBLE = 19, //Battery of wireless FD is low but acquisition still possible (for future use) //FD_NOT_IN_OP_STATE = 20, //Detector not in operating state //FD_CONFG_OUT = 21, //Detector configured out //FD_IMG_RECOV = 22, //Detector image recovery in progress }; typedef enum { EVT_LEVEL_CONFIGURATION = 0x00, EVT_LEVEL_INFORMATOION = 0x01, EVT_LEVEL_STATUS = 0x02, EVT_LEVEL_DATA = 0x03, EVT_LEVEL_WARNING = 0x04, EVT_LEVEL_ERROR = 0x05, } CcosEventLevel; typedef enum { EVT_CONF_PANEL_SERIAL = 0x00, EVT_CONF_RAW_WIDTH = 0x01, EVT_CONF_RAW_HIGHT = 0x02, EVT_CONF_RAW_BITS = 0x03, EVT_CONF_PIXELSPACE = 0x04, EVT_CONF_PREVIEW_WIDTH = 0x05, EVT_CONF_PREVIEW_HIGHT = 0x06, EVT_CONF_MODULE_TYPE = 0x07, EVT_CONF_MODULE_IP = 0x08, EVT_CONF_MODULE_SN = 0x09, EVT_CONF_FIRWARE_UPDATE = 0x0A, EVT_CONF_PART_NUMBER = 0x0B, EVT_CONF_BATTERY_SN = 0x0C, EVT_CONF_WIFI_SSID = 0x0D, EVT_CONF_IFBOARD = 0x0E, EVT_CONF_DATECODE = 0x0F, EVT_CONF_LIFETIME = 0x10, } CcosEventConfigID; typedef enum { EVT_INFO_POWER_ON = 0x00, EVT_INFO_BATTERY_CAPACITY = 0x01, EVT_INFO_BATTERY_TEMPERATURE = 0x02, EVT_INFO_BATTERY_CHARGES = 0x03, EVT_INFO_WIFI_DATARATE = 0x04, EVT_INFO_WIFI_CHANNEL = 0x05, EVT_INFO_WIFI_SIGNALPOWER = 0x06, EVT_INFO_WIFI_NOISEPOWER = 0x07, EVT_INFO_FIRMWARE = 0x08, EVT_INFO_SHOCKSENSOR_INFO = 0x09, EVT_INFO_CALIBRATIOIN_TIME = 0x0A, EVT_INFO_FPVOLTAGE = 0x0B, EVT_INFO_CALIBRATIOIN_TIMEL = 0x0C, //长曝光模式 } CcosEventInfoID; typedef enum { EVT_STATUS_INIT = 0x00, EVT_STATUS_MOTION = 0x01, EVT_STATUS_UPDATE_FIRMWARE = 0x02, EVT_STATUS_SELFTEST = 0x03, EVT_STATUS_DETECTORSHARE = 0x04, EVT_STATUS_SINGLEINIT = 0x05, EVT_STATUS_SELECTPANEL = 0x06, EVT_STATUS_PANEL = 0x07, EVT_STATUS_CALIBRATIOIN = 0x08, EVT_STATUS_SAVECALIB = 0x09, EVT_STATUS_SAVEDEFECT = 0x0A, EVT_STATUS_ACQUISITION = 0x0B, EVT_STATUS_SINGLEEXP = 0x0C, EVT_STATUS_IMAGEPENDING = 0x0D, EVT_STATUS_TEMPERATURE = 0x0E, EVT_STATUS_WIFI = 0x0F, EVT_STATUS_BATTERY_VALUE = 0x10, EVT_STATUS_BATTERY_CHARGING = 0x11, EVT_STATUS_SHOCK_SENSOR = 0x12, EVT_STATUS_HALL_SENSOR = 0x13, EVT_STATUS_PING = 0x14, EVT_STATUS_PMSNOTOPEN = 0x15, EVT_STATUS_RESTOREFILES = 0x16, EVT_STATUS_LASTERROR = 0x17, EVT_STATUS_RESET = 0x18, } CcosEventStatusID; typedef enum { EVT_DATA_RAW_IMAGE = 0x00, EVT_DATA_PREVIEW_IMAGE = 0x01, EVT_DATA_DOSEPARAM = 0x02, } CcosEventDataID; typedef enum { EVT_ERR_COMMUNICATE = 0x00, EVT_ERR_EXP_REQUEST = 0x01, EVT_ERR_GET_IMAGE = 0x02, EVT_ERR_MAX_NUMBER = 0x03, EVT_ERR_SN_NOTINLIST = 0x04, EVT_ERR_POWER_OFF = 0x05, EVT_ERR_INIT_FAILED = 0x06, } CcosEventErrorID; enum ENUM_PANEL_RESET { PANEL_RESET_BEGIN = 1, // PANEL_RESET_OK = 2, // PANEL_RESET_ERROR = 3 }; //探测器状态 enum ENUM_PANEL_STATUS { PANEL_CLOSE = 0, PANEL_STANDBY = 1, PANEL_READY_EXP = 2, PANEL_XWINDOW_ON = 3, PANEL_XWINDOW_OFF = 4, PANEL_START_TRANSMIT = 5, PANEL_END_TRANSMIT = 6, PANEL_START_ACQ = 7, PANEL_END_ACQ = 8, PANEL_EXP_END_TIMEOUT = 9, PANEL_OFFSET_CAL = 10, PANEL_OFFSET_FINISH = 11, PANEL_GAIN_CAL = 12, PANEL_GAIN_FINISH = 13, PANEL_DEFECT_CAL = 14, PANEL_DEFECT_FINISH = 15, PANEL_INIT = 21, PANEL_SLEEP = 22, PANEL_GET_IMAGE = 23, PANEL_GAIN_PREPARE = 24, PANEL_GAIN_READY_EXP = 25, }; enum { NOCAL, CAL_START, CAL_CONFIRM, CAL_REJECT, CAL_ABORT, CAL_END }; struct DeviceIndexStruct { bool bPreviewEnable; bool bInitOK; bool bConnectStatus; bool bModuleEnable; bool bExisted; bool bEventReturn; bool bSetCorrection; bool bReadWifi; bool bHallSensor; bool bReadTemperature; bool bReadBattery; bool bWriteROM; bool bTaskEnd; bool bCharging; bool bOffsetOver; bool bUpdateFirmware; bool bUploadCalibFile; bool bRecoveringImage; bool bWireless; bool bLivingTime; bool bImagePending; bool bConnectChanged; bool bActived; int HWindex; int Realindex; int nSyncMode; int nPanelExpWindowMode; int nSaturationValue; int nPanelID; int nDoseOfEXI; int nRequirehwMode; int nWorkstation; int nWifiWarning; int nWifiLimit; int nCurrentWifiValue; int nBatteryWarning; int nBatteryLimit; int nCurrentBatteryValue; int nShockTimes; int nWifiChannel; int nWifiDataRate; int nWifiSignalPower; int nWifiNoisePower; int nCalibDueSetting; int nMaxShockNumber; int nForceGridSuppress; int nTemperCheckTimeConf; int nGridSuppressed; float fTemperatureMin; float fTemperatureMax; float fGradientMean; float fGradientStdDev; float fGridSuppressParam1; float fGridSuppressParam2; float fGridSuppressParam3; float fGridSuppressParam4; float fGridSuppressParam5; float fGridSuppressParam6; float fGridSuppressParam7; float fGridSuppressParam8; float fGridSuppressParam9; float fCalibTemperature; float fCalibTemperature1; float fCalibTemperature2; float fLTEthreshold; int nSaveRaw; int nSID; int nSendImageInterval; //ECM信息相关 int nImageBits; int nRawWidth; int nRawHeight; int nFullImageWidth; int nFullImageHeight; int nPreviewWidth; int nPreviewHeight; int nWidthOffset; int nHeightOffset; int nImageTopffset; int nImageRightOffset; int nImageBottomOffset; int nImageLeftOffset; int nGridSuppFilterType; int nLifeTime; int nPowerOn; int nFirmwareStatus; int nTemperatureStatus; int nLastImageID; float fFactorEXI2UGY; //探测器EXI -> UGY 转换系数 float fTemperWarning; float fTemperMaxLimit; float fTemperLowLimit; float fTemperMinLimit; float fCurrentTemperValue; float fPixelSpace; //像素大小 std::string strAppConfFilePath; //配置文件路径 std::string strDeviceName; //探测器名称 std::string strPartNumber; std::string strWifiSSID; std::string strPanelSerial; std::string strFPDConfFilePath;//探测器自身配置文件路径 std::string strIPAddress; std::string strCalibrationDate; //校正日期 std::string strCalibrationDue; std::string strCalibrationLTEDate; //LTE校正日期 std::string strCalibrationLTEDue; std::string strInterfaceBoard; std::string strDateCode; std::string strFirmware; std::string strSoftware; std::string strWorkDir; //SDK配置文件路径 DeviceIndexStruct() { bConnectStatus = false; bExisted = false; bInitOK = false; bModuleEnable = false; bEventReturn = false; bSetCorrection = false; bReadWifi = false; bHallSensor = false; bReadTemperature = false; bReadBattery = false; bWriteROM = false; bTaskEnd = true; bCharging = false; bOffsetOver = false; bUpdateFirmware = false; bUploadCalibFile = false; bRecoveringImage = false; bWireless = false; bLivingTime = false; bImagePending = false; bConnectChanged = false; bActived = true; Realindex = 0; HWindex = 0; strAppConfFilePath = ""; //配置文件路径 strDeviceName = ""; //探测器名称 strWifiSSID = "NULL"; //探测器名称 nSyncMode = 0; nPanelExpWindowMode = 0; nSaturationValue = 0; nGridSuppressed = 0; nPanelID = 0; nDoseOfEXI = 550; nRequirehwMode = 0; strPanelSerial = ""; strFPDConfFilePath = "";//探测器自身配置文件路径 strCalibrationDate = ("0"); strCalibrationDue = ("0"); strCalibrationLTEDate = ("0"); strCalibrationLTEDue = ("0"); fFactorEXI2UGY = 0.0; bPreviewEnable = false; fTemperWarning = 0.0; fTemperMaxLimit = 0.0; fTemperLowLimit = 0.0; fTemperMinLimit = 0.0; fCalibTemperature = 0.0; fCalibTemperature1 = 0.0; fCalibTemperature2 = 0.0; fCurrentTemperValue = 0.0; nWorkstation = -1; nWifiWarning = 0; nWifiLimit = 0; nCurrentWifiValue = -1; nBatteryWarning = 0; nBatteryLimit = 0; nCurrentBatteryValue = 0;//fixbug 9728泰雷兹探测器电量为0时不给这个值赋值,西门子还是想要0 nGridSuppFilterType = 0; nShockTimes = -1; nWifiChannel = 0; nWifiDataRate = 0; nWifiSignalPower = 0; nWifiNoisePower = 0; nCalibDueSetting = 0; nMaxShockNumber = 0; nForceGridSuppress = 0; nTemperCheckTimeConf = 0; fTemperatureMin = 0.0; fTemperatureMax = 0.0; fGradientMean = 0.0; fGradientStdDev = 0.0; nGridSuppressed = 0; fGridSuppressParam1 = 0.0; fGridSuppressParam2 = 0.0; fGridSuppressParam3 = 0.0; fGridSuppressParam4 = 0.0; fGridSuppressParam5 = 0.0; fGridSuppressParam6 = 0.0; fGridSuppressParam7 = 0.0; fGridSuppressParam8 = 0.0; fGridSuppressParam9 = 0.0; fLTEthreshold = 450.0; nSaveRaw = 0; nSID = 0; nSendImageInterval = 20; fPixelSpace = 0.143f; //ECM信息相关 nImageBits = 0; nRawWidth = 0; nRawHeight = 0; nFullImageWidth = 0; nFullImageHeight = 0; nPreviewWidth = 0; nPreviewHeight = 0; nWidthOffset = 0; nHeightOffset = 0; nLifeTime = 0; nPowerOn = 0; nFirmwareStatus = -1; nTemperatureStatus = 0; nLastImageID = 0; } }; enum APP_STATUS { APP_STATUS_IDLE = 0, APP_STATUS_WORK_BEGIN, //1 APP_STATUS_WORK_END, //2 APP_STATUS_DETSHARE_BEGIN, //3 APP_STATUS_DETSHAR_END, //4 APP_STATUS_CAL_BEGIN, //5 APP_STATUS_CAL_END, // 6 APP_STATUS_WORK_IN_SENSITIVITY, //7 }; typedef enum { FD_INIT_NULL = -1, FD_INIT_FAILED = 0, FD_INIT_SUCCESS = 1, }fd_init_status; enum { GRID_CONF_AUTO = 0, GRID_CONF_YES = 1, GRID_CONF_NO = 2, }; enum { GRID_STATE_ERROR = -3, GRID_STATE_PARAM_ERROR = -2, GRID_STATE_PARAM_NULL = -1, GRID_STATE_NO = 0, GRID_STATE_VERTICAL = 1, GRID_STATE_HORIZONTAL = 2, }; enum TEMP_STATUS { TEMP_NORMAL = 0, TEMP_WARNING, //1 TEMP_TOO_HIGH, //2 TEMP_TOO_LOW, //3 }; #define HEADER_SIZE 128 typedef struct { long fileMagic; long numberColumns; long numberRows; long numberFrames; long storageType; long quantLevels; float maxSignalLevel; float minSignalLevel; long historyLength; char reservedArea[HEADER_SIZE - 7 * sizeof(long)-2 * sizeof(float)]; } FXDHeader; #pragma endregion DEFINITION