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INT69DB_2A/INT69DB_2A/DataStore.cs

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using System;
using System.Linq;
using System.Collections.Generic;
using System.Collections.ObjectModel;
using System.Text;
using System.Runtime.InteropServices;
using INT69DB_2A.Part11_UserManager;
namespace INT69DB_2A
{
public class DataStore
{
#region Enum
public enum EquipmentStatus
{
Stop = 0,
Start = 1,
};
public enum FormStore
{
FormNone = 0,
FormMainDisplay,
FormMenu,
FormCommunication,
FormMotorSetting,
FormProgramUpdate,
FormConfiguration,
FormInformation,
FormEquipmentSetting,
FormFactory,
FormCalibration,
FormSystemSetting,
FormIOTest,
FormTimeSetting,
FormEquipmentTest,
FormUserEditor,
FormUserGroupEditor,
FormOption,
// 하단 세 항목은 위치를 맨 뒤로 고정할 것
FormDataBackup,
FormDataStatistics,
FormDataViewer,
};
public enum MainDisplayStore
{
BarGraph,
LineGraph,
Table,
};
public enum LanguageID
{
Korean = 0,
English,
Chinese,
Czech,
German,
Russian,
};
public enum JudgmentStatus
{
Empty,
Under,
Pass,
Over,
Double,
SensorError,
EXNg,
};
public enum WeightStatus
{
Empty,
WeightChange,
WeightZero,
CalNomal,
CalBalans,
CalStandby,
CalFinish,
CalError,
};
public enum ResponseData
{
NAK = 0,
ACK = 1,
};
public enum UserPassword
{
f0_Level1 = 0,
f1_Level2 = 1,
f2_Level3 = 2,
}
public enum DischargeConveyorDirection
{
CW = 0,
CCW = 1,
CW_CCW = 2,
}
public enum StepMotorType
{
MDrive, // 슈나이더 제품
EDB_ALL_P, // 이레텍 제품
Moons, // 문스제품
}
public enum _30000_Modbus
{
UnderRange_High = 1010,
UnderRange_Low = 1011,
PassRange_High = 1012,
PassRange_Low = 1013,
OverRange_High = 1014,
OverRange_Low = 1015,
TareRange_High = 1016,
TareRange_Low = 1017,
HighLimit_High = 1018,
HighLimit_Low = 1019,
DeadZoneHighLimit_High = 1020,
DeadZoneHighLimit_Low = 1021,
DeadZoneLowLimit_High = 1022,
DeadZoneLowLimit_Low = 1023,
LowLimit_High = 1024,
LowLimit_Low = 1025,
SampleCount_High = 1026,
SampleCount_Low = 1027,
IgnoreCount_High = 1028,
IgnoreCount_Low = 1029,
_1_Update = 1200,
_1_Grade = 1201,
_1_Weight_High = 1202,
_1_Weight_Low = 1203,
_1_UnderCount_High = 1204,
_1_UnderCount_Low = 1205,
_1_PassCount_High = 1206,
_1_PassCount_Low = 1207,
_1_OverCount_High = 1208,
_1_OverCount_Low = 1209,
_1_NGCount_High = 1210,
_1_NgCount_Low = 1211,
_1_ExNGCount_High = 1212,
_1_ExNgCount_Low = 1213,
_1_TotalCount_High = 1214,
_1_TotalCount_Low = 1215,
_2_Update = 1250,
_2_Grade = 1251,
_2_Weight_High = 1252,
_2_Weight_Low = 1253,
_2_UnderCount_High = 1254,
_2_UnderCount_Low = 1255,
_2_PassCount_High = 1256,
_2_PassCount_Low = 1257,
_2_OverCount_High = 1258,
_2_OverCount_Low = 1259,
_2_NGCount_High = 1260,
_2_NgCount_Low = 1261,
_2_ExNGCount_High = 1262,
_2_ExNgCount_Low = 1263,
_2_TotalCount_High = 1264,
_2_TotalCount_Low = 1265,
_3_Update = 1300,
_3_Grade = 1301,
_3_Weight_High = 1302,
_3_Weight_Low = 1303,
_3_UnderCount_High = 1304,
_3_UnderCount_Low = 1305,
_3_PassCount_High = 1306,
_3_PassCount_Low = 1307,
_3_OverCount_High = 1308,
_3_OverCount_Low = 1309,
_3_NGCount_High = 1310,
_3_NgCount_Low = 1311,
_3_ExNGCount_High = 1312,
_3_ExNgCount_Low = 1313,
_3_TotalCount_High = 1314,
_3_TotalCount_Low = 1315,
_4_Update = 1350,
_4_Grade = 1351,
_4_Weight_High = 1352,
_4_Weight_Low = 1353,
_4_UnderCount_High = 1354,
_4_UnderCount_Low = 1355,
_4_PassCount_High = 1356,
_4_PassCount_Low = 1357,
_4_OverCount_High = 1358,
_4_OverCount_Low = 1359,
_4_NGCount_High = 1360,
_4_NgCount_Low = 1361,
_4_ExNGCount_High = 1362,
_4_ExNgCount_Low = 1363,
_4_TotalCount_High = 1364,
_4_TotalCount_Low = 1365,
_5_Update = 1400,
_5_Grade = 1401,
_5_Weight_High = 1402,
_5_Weight_Low = 1403,
_5_UnderCount_High = 1404,
_5_UnderCount_Low = 1405,
_5_PassCount_High = 1406,
_5_PassCount_Low = 1407,
_5_OverCount_High = 1408,
_5_OverCount_Low = 1409,
_5_NGCount_High = 1410,
_5_NgCount_Low = 1411,
_5_ExNGCount_High = 1412,
_5_ExNgCount_Low = 1413,
_5_TotalCount_High = 1414,
_5_TotalCount_Low = 1415,
_6_Update = 1450,
_6_Grade = 1451,
_6_Weight_High = 1452,
_6_Weight_Low = 1453,
_6_UnderCount_High = 1454,
_6_UnderCount_Low = 1455,
_6_PassCount_High = 1456,
_6_PassCount_Low = 1457,
_6_OverCount_High = 1458,
_6_OverCount_Low = 1459,
_6_NGCount_High = 1460,
_6_NgCount_Low = 1461,
_6_ExNGCount_High = 1462,
_6_ExNgCount_Low = 1463,
_6_TotalCount_High = 1464,
_6_TotalCount_Low = 1465,
_7_Update = 1500,
_7_Grade = 1501,
_7_Weight_High = 1502,
_7_Weight_Low = 1503,
_7_UnderCount_High = 1504,
_7_UnderCount_Low = 1505,
_7_PassCount_High = 1506,
_7_PassCount_Low = 1507,
_7_OverCount_High = 1508,
_7_OverCount_Low = 1509,
_7_NGCount_High = 1510,
_7_NgCount_Low = 1511,
_7_ExNGCount_High = 1512,
_7_ExNgCount_Low = 1513,
_7_TotalCount_High = 1514,
_7_TotalCount_Low = 1515,
_8_Update = 1550,
_8_Grade = 1551,
_8_Weight_High = 1552,
_8_Weight_Low = 1553,
_8_UnderCount_High = 1554,
_8_UnderCount_Low = 1555,
_8_PassCount_High = 1556,
_8_PassCount_Low = 1557,
_8_OverCount_High = 1558,
_8_OverCount_Low = 1559,
_8_NGCount_High = 1560,
_8_NgCount_Low = 1561,
_8_ExNGCount_High = 1562,
_8_ExNgCount_Low = 1563,
_8_TotalCount_High = 1564,
_8_TotalCount_Low = 1565,
_9_Update = 1600,
_9_Grade = 1601,
_9_Weight_High = 1602,
_9_Weight_Low = 1603,
_9_UnderCount_High = 1604,
_9_UnderCount_Low = 1605,
_9_PassCount_High = 1606,
_9_PassCount_Low = 1607,
_9_OverCount_High = 1608,
_9_OverCount_Low = 1609,
_9_NGCount_High = 1610,
_9_NgCount_Low = 1611,
_9_ExNGCount_High = 1612,
_9_ExNgCount_Low = 1613,
_9_TotalCount_High = 1614,
_9_TotalCount_Low = 1615,
_10_Update = 1650,
_10_Grade = 1651,
_10_Weight_High = 1652,
_10_Weight_Low = 1653,
_10_UnderCount_High = 1654,
_10_UnderCount_Low = 1655,
_10_PassCount_High = 1656,
_10_PassCount_Low = 1657,
_10_OverCount_High = 1658,
_10_OverCount_Low = 1659,
_10_NGCount_High = 1660,
_10_NgCount_Low = 1661,
_10_ExNGCount_High = 1662,
_10_ExNgCount_Low = 1663,
_10_TotalCount_High = 1664,
_10_TotalCount_Low = 1665,
_11_Update = 1700,
_11_Grade = 1701,
_11_Weight_High = 1702,
_11_Weight_Low = 1703,
_11_UnderCount_High = 1704,
_11_UnderCount_Low = 1705,
_11_PassCount_High = 1706,
_11_PassCount_Low = 1707,
_11_OverCount_High = 1708,
_11_OverCount_Low = 1709,
_11_NGCount_High = 1710,
_11_NgCount_Low = 1711,
_11_ExNGCount_High = 1712,
_11_ExNgCount_Low = 1713,
_11_TotalCount_High = 1714,
_11_TotalCount_Low = 1715,
_12_Update = 1750,
_12_Grade = 1751,
_12_Weight_High = 1752,
_12_Weight_Low = 1753,
_12_UnderCount_High = 1754,
_12_UnderCount_Low = 1755,
_12_PassCount_High = 1756,
_12_PassCount_Low = 1757,
_12_OverCount_High = 1758,
_12_OverCount_Low = 1759,
_12_NGCount_High = 1760,
_12_NgCount_Low = 1761,
_12_ExNGCount_High = 1762,
_12_ExNgCount_Low = 1763,
_12_TotalCount_High = 1764,
_12_TotalCount_Low = 1765,
}
public enum SerialMode
{
f0_None,
f1_OPT1,
f2_OPT2,
f3_OPT3,
f4_Printer,
f5_OPT4,
}
public enum EthernetMode
{
f0_None,
f1_OPT1,
f2_OPT2,
f3_OPT3,
f4_Modbus,
f5_OPT4,
}
public enum UserGroup
{
None = 0,
Level1 = 1,
Level2 = 2,
Level3 = 3,
Admin = 4,
Developer = 5,
NotLogin = 6,
LogOut = 7,
}
public enum E_FileHeaderItem
{
LoginId,
SerialNumber,
EquipmentColumns,
TimeStamp,
EquipmentType,
}
public enum MessageBoxIcon
{
None,
Hand,
Question,
Exclamation,
Asterisk,
}
public enum E_DataType
{
None,
History,
Inspection,
Others,
}
public enum TrackingOperation
{
None,
PowerOn,
BootingComplete,
EquipmentStart,
EquipmentStop,
Login,
Logout,
Calibration,
Zero,
Clear,
UserEditor,
MainCut,
DataBackup,
GroupEditor,
ATPC_Reset, // 정량 알람 카운터 리셋
Bypass,
Update,
Print,
BP_PassOnce,
BP_NgOnce,
BP_PassON,
BP_PassOFF,
BP_NgON,
BP_NgOFF,
ProductCopy,
ProductPaste,
ProductAllPaste,
Initialization,
MotorInitDown,
MotorChangeID,
MotorChangeValueEach,
MotorChangeValueAll,
TryEthernetStart,
TryEthernetStop,
EthernetConnect,
EthernetDisconnect,
}
public enum TrackingParameter
{
ProductNumber,
WeightOverRange,
WeightPassRange,
WeightUnderRange,
WeightTareRange,
ChangeTime,
ChangeName,
ChangeLOT,
ACNC_Count,
ACNC_Activate,
ATPC_Count,
ATPC_Activate,
JudgmentFilter,
JudgmentDelayTime,
JudgmentDoubleDelayTime,
JudgmentCount,
JudgmentCVSpeed,
JudgmentDynamic,
ForcedZeroDelayTime,
SorterDelayTime,
SorterRunTime,
RejectCVDelayTime,
RejectCVRunTime,
FeedingCVDelayTime,
FeedingCVRunTime,
Com3Baudrate,
Com3Mode,
TCPOpMode,
TCPComMode,
TCPLocalPort,
TCPLocalIPConfig,
TCPLocalIPAddress,
TCPLocalSubnetMask,
TCPLocalGateway,
TCPServerIPAddress,
TCPServerPort,
Mod_StartAddr,
CalMaxWeight,
CalBalWeight,
CalDigit,
AutoZeroTime,
AutoZeroRange,
AutoZeroVariance,
AutoZeroMode,
EtcDoubleEntry,
EtcChattering,
EtcBuzzerRunTime,
EtcRelayRunTime,
EtcDecimalpoint,
EtcBypass,
MotorDirection,
MotorAnglePass,
MotorAngleNG,
MotorOriginOffset,
MotorOriginSpeed,
MotorSpeed,
MotorPosition0,
MotorPosition1,
MotorPosition2,
Level1Name,
Level2Name,
Level3Name,
AutoLogout,
}
public enum TrackingAlarm
{
None,
a1_PressureError,
a2_LoadcellError,
a3_EntrySensorError,
a4_ServoTorqueAlarm,
a5_ServoAlarm,
a6_ServoOff,
}
public enum E_UserGroup_FileIndex
{
f0_Level1 = 0,
f1_Level2 = 1,
f2_Level3 = 2,
f3_NotLogin = 3,
}
#endregion
}
#region CommunicationCommand
public class CommunicationCommand
{
// 중량조정모드
public static readonly string ModeCalibration = "Csc00";
// 노멀모드
public static readonly string ModeNormal = "Csn00";
// 판정설정모드
public static readonly string ModeJudgment = "Csg00";
// IO 테스트모드
public static readonly string ModeIOTest = "Cst00";
// 바이패스
public static readonly string ModeBypass = "Csb00";
// 장비 테스트모드
public static readonly string ModeEquipmentTest = "Csy00";
// 중량조정 - 분동
public static readonly string CalibrationBalance = "Ccb00";
// 중량조정 - 시작
public static readonly string CalibrationStart = "Ccs00";
// 중량조정 - 취소
public static readonly string CalibrationCancel = "Ccx00";
// 중량보정 - 한자리올림
public static readonly string CalibrationUp = "Ccu00";
// 중량보정 - 한자리내림
public static readonly string CalibrationDown = "Ccd00";
// 파라미터 쓰기
public static readonly string Write = "Pw000";
// 파라미터 읽기
public static readonly string Read = "Pr000";
// Bypass To Motor
public static readonly string BypassToMotor = "Pb000";
// IO테스트 - OUT
public static readonly string IOTest = "Pt000";
// 임펠러 모터 - 정회전
public static readonly string ImpellerMotorForward = "Cmc00";
// 임펠러 모터 - 역회전
public static readonly string ImpellerMotorReverse = "Cmr00";
// 모터 - 다운
public static readonly string MotorDown = "Cmd00";
// 모터 - 업
public static readonly string MotorUp = "Cmu00";
// Cut 신호
public static readonly string CutInput = "Cbc00";
// 공장초기화
public static readonly string Initialization = "Cbi00";
// 운전
public static readonly string Start = "Cbs00";
// 정지
public static readonly string Stop = "Cbt00";
// 영점
public static readonly string Zero = "Cbz00";
// 알람 - 불량알람(펄스)
public static readonly string AlarmPulseNG = "Cac00";
// 판정 - bypass 1회
public static readonly string BypassOnce = "Cjb00";
// 판정 - byNG 1회
public static readonly string ByNGOnce = "Cjc00";
// 판정 - bypass 연속 OFF
public static readonly string BypassOFF = "Cjd00";
// 판정 - bypass 연속 ON
public static readonly string BypassON = "Cjd01";
// 판정 - byNG 연속 OFF
public static readonly string ByNGOFF = "Cje00";
// 판정 - byNG 연속 ON
public static readonly string ByNGON = "Cje01";
}
public class CommunicationID
{
public static readonly string MainBoard = "0";
public static readonly string SubBoard1 = "A";
public static readonly string SubBoard2 = "B";
public static readonly string SubBoard3 = "C";
public static readonly string SubBoard4 = "D";
public static readonly string SubBoard5 = "E";
public static readonly string SubBoard6 = "F";
public static readonly string SubBoard7 = "G";
public static readonly string SubBoard8 = "H";
public static readonly string SubBoard9 = "I";
public static readonly string SubBoard10 = "J";
public static readonly string SubBoard11 = "K";
public static readonly string SubBoard12 = "L";
public static readonly string SubBoardAll = "Z";
}
public class CommunicationAddress
{
// Address None
public static readonly string None = "0000";
// 임펠러 모터 - 회전각도(Pass)
public static readonly string _1101_ImpellerMotorAnglePass = "1101";
// 임펠러 모터 - 통신속도
public static readonly string _1102_ImpellerMotorBaudrate = "1102";
// 임펠러 모터 - 회전방향
public static readonly string _1103_ImpellerMotorDirection = "1103";
// 임펠러 모터 - 개별 회전방향
public static readonly string _1104_ImpellerMotorIndividualDirection = "1104";
// 임펠러 모터 - 회전각도(NG)
public static readonly string _1105_ImpellerMotorAngleNG = "1105";
// 임펠러 모터 - 테스트 회전각도
public static readonly string _1107_ImpellerMotorTextAngle1 = "1107";
// 임펠러 모터 - 테스트 회전각도
public static readonly string _1108_ImpellerMotorTextAngle2 = "1108";
// 바이패스
public static readonly string _1201_Bypass = "1201";
// 보드 버전 모두 읽기
public static readonly string _1500_ProgramVersion = "1500";
// 품목설정 - 품번
public static readonly string _2001_ProductNumber = "2001";
// 품목설정 - 하한 설정값
public static readonly string _2002_UnderRange = "2002";
// 품목설정 - 기준 설정값
public static readonly string _2003_PassRange = "2003";
// 품목설정 - 상한 설정값
public static readonly string _2004_OverRange = "2004";
// 품목설정 - 용기 설정값
public static readonly string _2005_TareRange = "2005";
// 중량조정 - 최대중량 설정값
public static readonly string _3001_MaxWeight = "3001";
// 중량조정 - 분동중량 설정값
public static readonly string _3002_BalanceWeight = "3002";
// 중량조정 - 한눈의 값
public static readonly string _3003_Digit = "3003";
// 중량조정 - 파라미터 읽기
public static readonly string _3901_ParameterRead3901 = "3901";
// 자동영점 - 시간
public static readonly string _4001_ZeroTime = "4001";
// 자동영점 - 범위
public static readonly string _4002_ZeroRange = "4002";
// 자동영점 - 변량
public static readonly string _4003_ZeroVariate = "4003";
// 자동영점 - 모드
public static readonly string _4004_ZeroMode = "4004";
// 강제영점 지연시간
public static readonly string _4501_ForcedZeroDelayTime = "4501";
// 자동영점 - 파라미터 읽기
public static readonly string _4901_ParameterRead4901 = "4901";
// 판정설정 - 필터
public static readonly string _5001_Filter = "5001";
// 판정설정 - 판정지연
public static readonly string _5002_JudgmentDelayTime = "5002";
// 판정설정 - 이중지연
public static readonly string _5003_DoubleDelayTime = "5003";
// 판정설정 - 판정개수
public static readonly string _5004_JudgmentCount = "5004";
// 판정설정 - 동보정
public static readonly string _5006_DynamicCorrection = "5006";
// 판정설정 - Feeding 컨베어 지연시간
public static readonly string _5007_FeedingConveyorDelayTime = "5007";
// 판정설정 - Feeding 컨베어 동작시간
public static readonly string _5008_FeedingConveyorRunTime = "5008";
// 판정설정 - 배출 컨베어 지연시간
public static readonly string _5009_DischargeConveyorDelayTime = "5009";
// 판정설정 - 배출 컨베어 동작시간
public static readonly string _5010_DischargeConveyorRunTime = "5010";
// 판정설정 - 상승지연시간
public static readonly string _5011_UpDelayTime = "5011";
// 판정설정 - 하강지연시간
public static readonly string _5012_DownDelayTime = "5012";
// 판정설정 - 임펠러 지연시간
public static readonly string _5013_ImpellerDelayTime = "5013";
// 판정설정 - 선별기 모드 값
public static readonly string _5101_Sorter1Mode = "5101";
// 판정설정 - 선별기 지연시간
public static readonly string _5102_Sorter1DelayTime = "5102";
// 판정설정 - 선별기 동작시간
public static readonly string _5103_Sorter1RunTime = "5103";
// 옵션 - 부저 ON시간
public static readonly string _6001_BuzzerOnTime = "6001";
// 옵션 - 릴레이 동작시간
public static readonly string _6002_RelayRunTime = "6002";
// 옵션 - 이중진입사용여부
public static readonly string _6005_DoubleEnter = "6005";
// 옵션 - 채터링감지 설정
public static readonly string _6006_Chattering = "6006";
// 옵션 - 파라미터 읽기
public static readonly string _6901_ParameterRead6901 = "6901";
// 통신,IO설정 - INPUT ALL
public static readonly string _7500_InputAll = "7500";
// 통신,IO설정 = OUTPUT1
public static readonly string _7701_Output1 = "7701";
// 통신,IO설정 = OUTPUT2
public static readonly string _7702_Output2 = "7702";
// 통신,IO설정 = OUTPUT3
public static readonly string _7703_Output3 = "7703";
// 통신,IO설정 = OUTPUT4
public static readonly string _7704_Output4 = "7704";
// 통신,IO설정 = OUTPUT5
public static readonly string _7705_Output5 = "7705";
// 통신,IO설정 = OUTPUT6
public static readonly string _7706_Output6 = "7706";
// 통신,IO설정 = OUTPUT7
public static readonly string _7707_Output7 = "7707";
// 통신,IO설정 = OUTPUT8
public static readonly string _7708_Output8 = "7708";
// 통신,IO설정 = OUTPUT9
public static readonly string _7709_Output9 = "7709";
// 통신,IO설정 = OUTPUT10
public static readonly string _7710_Output10 = "7710";
// 통신,IO설정 = OUTPUT11
public static readonly string _7711_Output11 = "7711";
// 통신,IO설정 = OUTPUT12
public static readonly string _7712_Output12 = "7712";
// 통신,IO설정 = OUTPUT13
public static readonly string _7713_Output13 = "7713";
// 통신,IO설정 = OUTPUT14
public static readonly string _7714_Output14 = "7714";
// 통신,IO설정 = OUTPUT15
public static readonly string _7715_Output15 = "7715";
// 통신,IO설정 = OUTPUT16
public static readonly string _7716_Output16 = "7716";
// 품목 설정 모두 쓰기
public static readonly string _9016_ParameterProduct = "9016";
// 시스템 설정 모두 쓰기
public static readonly string _9032_ParameterSystem = "9032";
// 중량 설정값 쓰기
public static readonly string _9003_ParameterWeightRange = "9003";
}
#endregion
#region Modbus
public class _30000_ModbusData
{
#region Field
private double m_UnderValue;
private double m_PassValue;
private double m_OverValue;
private double m_TareValue;
private double m_HighLimit;
private double m_DeadZoneHighLimit;
private double m_DeadZoneLowLimit;
private double m_LowLimit;
private UInt32 m_SampleCount;
private UInt32 m_IgnoreCount;
private Collection<_30000_LaneModbusData> m_LaneModbusData;
#endregion
#region Constructor
public _30000_ModbusData()
{
this.Initialization();
}
#endregion
#region Property
public double UnderValue
{
get { return this.m_UnderValue; }
set { this.m_UnderValue = value; }
}
public double PassValue
{
get { return this.m_PassValue; }
set { this.m_PassValue = value; }
}
public double OverValue
{
get { return this.m_OverValue; }
set { this.m_OverValue = value; }
}
public double TareValue
{
get { return this.m_TareValue; }
set { this.m_TareValue = value; }
}
public double HighLimit
{
get { return this.m_HighLimit; }
set { this.m_HighLimit = value; }
}
public double DeadZoneHighLimit
{
get { return this.m_DeadZoneHighLimit; }
set { this.m_DeadZoneHighLimit = value; }
}
public double DeadZoneLowLimit
{
get { return this.m_DeadZoneLowLimit; }
set { this.m_DeadZoneLowLimit = value; }
}
public double LowLimit
{
get { return this.m_LowLimit; }
set { this.m_LowLimit = value; }
}
public UInt32 SampleCount
{
get { return this.m_SampleCount; }
set { this.m_SampleCount = value; }
}
public UInt32 IgnoreCount
{
get { return this.m_IgnoreCount; }
set { this.m_IgnoreCount = value; }
}
public Collection<_30000_LaneModbusData> LaneModbusData
{
get { return this.m_LaneModbusData; }
set { this.m_LaneModbusData = value; }
}
#endregion
#region Method
public void Initialization()
{
this.UnderValue = 100.0;
this.PassValue = 200.0;
this.OverValue = 300.0;
this.TareValue = 0.0;
this.HighLimit = 300.0;
this.DeadZoneHighLimit = 0.0;
this.DeadZoneLowLimit = 0.0;
this.LowLimit = 100.0;
this.SampleCount = 0;
this.IgnoreCount = 0;
this.LaneModbusData = new Collection<_30000_LaneModbusData>();
this.LaneModbusData.Clear();
for (int i = 0; i < 12; i++)
this.LaneModbusData.Add(new _30000_LaneModbusData());
}
#endregion
}
public class _30000_LaneModbusData
{
#region Field
private ushort m_Update;
private ushort m_Grade;
private double m_Weight;
private UInt32 m_UnderCount;
private UInt32 m_PassCount;
private UInt32 m_OverCount;
private UInt32 m_ExNGCount;
#endregion
#region Constructor
public _30000_LaneModbusData()
{
this.Initialization();
}
#endregion
#region Property
public ushort Update
{
get { return this.m_Update; }
set { this.m_Update = value; }
}
public ushort Grade
{
get { return this.m_Grade; }
set { this.m_Grade = value; }
}
public double Weight
{
get { return this.m_Weight; }
set { this.m_Weight = value; }
}
public UInt32 UnderCount
{
get { return this.m_UnderCount; }
set { this.m_UnderCount = value; }
}
public UInt32 PassCount
{
get { return this.m_PassCount; }
set { this.m_PassCount = value; }
}
public UInt32 OverCount
{
get { return this.m_OverCount; }
set { this.m_OverCount = value; }
}
public UInt32 ExNGCount
{
get { return this.m_ExNGCount; }
set { this.m_ExNGCount = value; }
}
public UInt32 NGCount
{
get { return this.m_UnderCount + this.m_OverCount + this.m_ExNGCount; }
}
public UInt32 TotalCount
{
get { return this.m_UnderCount + this.m_PassCount + this.m_OverCount + this.m_ExNGCount; }
}
public string HexStringUpdate
{
get
{
string hexString = this.Update.ToString("X8");
return hexString;
}
}
public string HexStringGrade
{
get
{
string hexString = this.Grade.ToString("X8");
return hexString;
}
}
public string HexStringWeight
{
get
{
byte[] bytes = BitConverter.GetBytes((float)this.Weight);
Array.Reverse(bytes);
string hexString = BitConverter.ToString(bytes);
hexString = hexString.Replace("-", "");
return hexString;
}
}
public string HexStringPassCount
{
get
{
string hexString = this.PassCount.ToString("X8");
return hexString;
}
}
public string HexStringNGCount
{
get
{
string hexString = this.NGCount.ToString("X8");
return hexString;
}
}
#endregion
#region Method
public void Initialization()
{
this.Update = 0;
this.Grade = 0;
this.Weight = 0.0;
this.UnderCount = 0;
this.PassCount = 0;
this.OverCount = 0;
this.ExNGCount = 0;
}
#endregion
}
public class _40000_ModbusAddress
{
public const int _01_Clear = 10;
public const int _02_ClearResult = 11;
public const int _03_Operation = 12;
public const int _04_OperationResult = 13;
public const int _05_ProductChange_High = 14;
public const int _06_ProductChange_Low = 15;
public const int _07_ProductChangeResult = 16;
public const int _08_UnderRange_High = 17;
public const int _09_UnderRange_Low = 18;
public const int _10_UnderRangeResult = 19;
public const int _11_PassRange_High = 20;
public const int _12_PassRange_Low = 21;
public const int _13_PassRangeResult = 22;
public const int _14_OverRange_High = 23;
public const int _15_OverRange_Low = 24;
public const int _16_OverRangeResult = 25;
public const int _17_TareWeight_High = 26;
public const int _18_TareWeight_Low = 27;
public const int _19_TareWeightResult = 28;
}
public class _40000_ModbusData
{
#region Field
private int m_40011_Clear;
private int m_40012_ClearResult;
private int m_40013_Operation;
private int m_40014_OperationResult;
private int m_40015_ProductChange;
private int m_40017_ProductChangeResult;
private int m_40018_UnderRange;
private int m_40020_UnderRangeResult;
private int m_40021_PassRange;
private int m_40023_PassRangeResult;
private int m_40024_OverRange;
private int m_40026_OverRangeResult;
private int m_40027_TareWeight;
private int m_40029_TareWeightResult;
#endregion
#region Constructor
public _40000_ModbusData()
{
this.Initialization();
}
#endregion
#region Property
public int _40011_Clear
{
get { return this.m_40011_Clear; }
set { this.m_40011_Clear = value; }
}
public int _40012_ClearResult
{
get { return this.m_40012_ClearResult; }
set { this.m_40012_ClearResult = value; }
}
public int _40013_Operation
{
get { return this.m_40013_Operation; }
set { this.m_40013_Operation = value; }
}
public int _40014_OperationResult
{
get { return this.m_40014_OperationResult; }
set { this.m_40014_OperationResult = value; }
}
public int _40015_ProductChange
{
get { return this.m_40015_ProductChange; }
set { this.m_40015_ProductChange = value; }
}
public int _40017_ProductChangeResult
{
get { return this.m_40017_ProductChangeResult; }
set { this.m_40017_ProductChangeResult = value; }
}
public int _40018_UnderRange
{
get { return this.m_40018_UnderRange; }
set { this.m_40018_UnderRange = value; }
}
public int _40020_UnderRangeResult
{
get { return this.m_40020_UnderRangeResult; }
set { this.m_40020_UnderRangeResult = value; }
}
public int _40021_PassRange
{
get { return this.m_40021_PassRange; }
set { this.m_40021_PassRange = value; }
}
public int _40023_PassRangeResult
{
get { return this.m_40023_PassRangeResult; }
set { this.m_40023_PassRangeResult = value; }
}
public int _40024_OverRange
{
get { return this.m_40024_OverRange; }
set { this.m_40024_OverRange = value; }
}
public int _40026_OverRangeResult
{
get { return this.m_40026_OverRangeResult; }
set { this.m_40026_OverRangeResult = value; }
}
public int _40027_TareWeight
{
get { return this.m_40027_TareWeight; }
set { this.m_40027_TareWeight = value; }
}
public int _40029_TareWeightResult
{
get { return this.m_40029_TareWeightResult; }
set { this.m_40029_TareWeightResult = value; }
}
#endregion
#region Method
public void Initialization()
{
this._40011_Clear = 0;
this._40012_ClearResult = 0;
this._40013_Operation = 0;
this._40014_OperationResult = 0;
this._40015_ProductChange = 0;
this._40017_ProductChangeResult = 0;
this._40018_UnderRange = 0;
this._40020_UnderRangeResult = 0;
this._40021_PassRange = 0;
this._40023_PassRangeResult = 0;
this._40024_OverRange = 0;
this._40026_OverRangeResult = 0;
this._40027_TareWeight = 0;
this._40029_TareWeightResult = 0;
}
#endregion
}
#endregion
#region SystemConfiguration
public class SystemConfigurationItem
{
#region Field
private bool m_IsDataBackup;
private bool m_IsFeedingConveyor;
private bool m_IsEachNG;
private bool m_IsDischargeConveyor;
private bool m_IsImpellerMotorDirectionCW;
private bool m_IsBypassMode;
private bool m_IsWeightViewForward;
private bool m_IsFeedingConveyorRunPass;
private bool m_IsLogin;
private bool m_IsBypassDirectionPass;
private bool m_IsBypassOnce;
private bool m_IsCutView;
private bool m_IsPrintPerProductEnable;
private bool m_IsIndividualTransmission;
private bool m_IsPingTimer;
private bool m_IsOptDataStatistics;
private bool m_IsIntegratedTransmission;
private int m_DecimalPlaces;
private int m_EthernetPort;
private int m_EquipmentColumns;
private int m_EquipmentID;
private int m_EquipmentMode;
private int m_ProductNumber;
private int m_UsbID;
private int m_ImpellerMotorBaudrate;
private int m_Serial3BaudRate;
private int m_Serial3Mode;
private int m_InputSensorSelect;
private int m_ImpellerMotorAnglePass;
private int m_ImpellerMotorAngleNG;
private int m_StepMotorType;
private string m_Unit;
private string m_SerialNumber;
private DataStore.LanguageID m_Language;
private DataStore.FormStore m_CurrentForm;
private DataStore.DischargeConveyorDirection m_DischargeConveyorDirectionCW;
private UserItem m_CurrentUser;
private int m_EthernetServerPort;
private int m_EthernetMode;
private int m_EthernetOperationMode;
private int m_EthernetLocalPort;
private int m_ModbusRtuSlaveID;
private int m_ModbusTcpAddress1;
private int m_ModbusTcpAddress2;
private int m_ModbusTcpStartAddress;
private string m_EthernetServerAddress;
private bool m_IsPart11;
private string m_User_Level1_Name;
private string m_User_Level2_Name;
private string m_User_Level3_Name;
private int m_DataStoragePeriod;
private int m_AutomaticLogout;
private bool m_IsAlarmContinuousNGEnable;
private bool m_IsAlarmTotalPassCntEnable;
private int m_AlarmContinuousNG;
private int m_AlarmTotalPassCnt;
#endregion
#region Constructor
public SystemConfigurationItem()
{
this.Initialization();
}
#endregion
#region Property
public bool IsEthernetEnable
{
get
{
if (this.EthernetOperationMode == 0)
return false;
else
return true;
}
}
public bool IsDataBackup
{
get { return this.m_IsDataBackup; }
set { this.m_IsDataBackup = value; }
}
public bool IsFeedingConveyor
{
get { return this.m_IsFeedingConveyor; }
set { this.m_IsFeedingConveyor = value; }
}
public bool IsEachNG
{
get { return this.m_IsEachNG; }
set { this.m_IsEachNG = value; }
}
public bool IsDischargeConveyor
{
get { return this.m_IsDischargeConveyor; }
set { this.m_IsDischargeConveyor = value; }
}
public bool IsImpellerMotorDirectionCW
{
get { return this.m_IsImpellerMotorDirectionCW; }
set { this.m_IsImpellerMotorDirectionCW = value; }
}
public bool IsBypassMode
{
get { return this.m_IsBypassMode; }
set { this.m_IsBypassMode = value; }
}
public bool IsWeightViewForward
{
get { return this.m_IsWeightViewForward; }
set { this.m_IsWeightViewForward = value; }
}
public bool IsFeedingConveyorRunPass
{
get { return this.m_IsFeedingConveyorRunPass; }
set { this.m_IsFeedingConveyorRunPass = value; }
}
public bool IsLogin
{
get { return this.m_IsLogin; }
set { this.m_IsLogin = value; }
}
public bool IsBypassDirectionPass
{
get { return this.m_IsBypassDirectionPass; }
set { this.m_IsBypassDirectionPass = value; }
}
public bool IsBypassOnce
{
get { return this.m_IsBypassOnce; }
set { this.m_IsBypassOnce = value; }
}
public bool IsCutView
{
get { return this.m_IsCutView; }
set { this.m_IsCutView = value; }
}
public bool IsPrintPerProductEnable
{
get { return this.m_IsPrintPerProductEnable; }
set { this.m_IsPrintPerProductEnable = value; }
}
public bool IsPingTimer
{
get { return this.m_IsPingTimer; }
set { this.m_IsPingTimer = value; }
}
public bool IsOptDataStatistics
{
get { return this.m_IsOptDataStatistics; }
set { this.m_IsOptDataStatistics = value; }
}
public bool IsIntegratedTransmission
{
get { return this.m_IsIntegratedTransmission; }
set { this.m_IsIntegratedTransmission = value; }
}
public int DecimalPlaces
{
get { return this.m_DecimalPlaces; }
set { this.m_DecimalPlaces = value; }
}
public int EthernetPort
{
get { return this.m_EthernetPort; }
set { this.m_EthernetPort = value; }
}
public int EquipmentColumns
{
get { return this.m_EquipmentColumns; }
set { this.m_EquipmentColumns = value; }
}
public int EquipmentID
{
get { return this.m_EquipmentID; }
set { this.m_EquipmentID = value; }
}
public int EquipmentMode
{
get { return this.m_EquipmentMode; }
set { this.m_EquipmentMode = value; }
}
public int ProductNumber
{
get { return this.m_ProductNumber; }
set { this.m_ProductNumber = value; }
}
public int UsbID
{
get { return this.m_UsbID; }
set { this.m_UsbID = value; }
}
public int ImpellerMotorBaudrate
{
get { return this.m_ImpellerMotorBaudrate; }
set { this.m_ImpellerMotorBaudrate = value; }
}
public int Serial3BaudRate
{
get { return this.m_Serial3BaudRate; }
set { this.m_Serial3BaudRate = value; }
}
public int Serial3Mode
{
get { return this.m_Serial3Mode; }
set { this.m_Serial3Mode = value; }
}
public int InputSensorSelect
{
get { return this.m_InputSensorSelect; }
set { this.m_InputSensorSelect = value; }
}
public int ImpellerMotorAnglePass
{
get { return this.m_ImpellerMotorAnglePass; }
set { this.m_ImpellerMotorAnglePass = value; }
}
public int ImpellerMotorAngleNG
{
get { return this.m_ImpellerMotorAngleNG; }
set { this.m_ImpellerMotorAngleNG = value; }
}
public int StepMotorType
{
get { return this.m_StepMotorType; }
set { this.m_StepMotorType = value; }
}
public string Unit
{
get { return this.m_Unit; }
set { this.m_Unit = value; }
}
public string SerialNumber
{
get { return this.m_SerialNumber; }
set { this.m_SerialNumber = value; }
}
public DataStore.LanguageID Language
{
get { return this.m_Language; }
set { this.m_Language = value; }
}
public DataStore.FormStore CurrentForm
{
get { return this.m_CurrentForm; }
set { this.m_CurrentForm = value; }
}
public DataStore.DischargeConveyorDirection DischargeConveyorDirectionCW
{
get { return this.m_DischargeConveyorDirectionCW; }
set { this.m_DischargeConveyorDirectionCW = value; }
}
public UserItem CurrentUser
{
get { return this.m_CurrentUser; }
set { this.m_CurrentUser = value; }
}
public int EthernetServerPort
{
get { return this.m_EthernetServerPort; }
set { this.m_EthernetServerPort = value; }
}
public int EthernetMode
{
get { return this.m_EthernetMode; }
set { this.m_EthernetMode = value; }
}
public int EthernetOperationMode
{
get { return this.m_EthernetOperationMode; }
set { this.m_EthernetOperationMode = value; }
}
public int EthernetLocalPort
{
get { return this.m_EthernetLocalPort; }
set { this.m_EthernetLocalPort = value; }
}
public int ModbusRtuSlaveID
{
get { return this.m_ModbusRtuSlaveID; }
set { this.m_ModbusRtuSlaveID = value; }
}
public int ModbusTcpAddress1
{
get { return this.m_ModbusTcpAddress1; }
set { this.m_ModbusTcpAddress1 = value; }
}
public int ModbusTcpAddress2
{
get { return this.m_ModbusTcpAddress2; }
set { this.m_ModbusTcpAddress2 = value; }
}
public int ModbusTcpStartAddress
{
get { return this.m_ModbusTcpStartAddress; }
set { this.m_ModbusTcpStartAddress = value; }
}
public string EthernetServerAddress
{
get { return this.m_EthernetServerAddress; }
set { this.m_EthernetServerAddress = value; }
}
public bool IsPart11
{
get { return this.m_IsPart11; }
set { this.m_IsPart11 = value; }
}
public string User_Level1_Name
{
get { return this.m_User_Level1_Name; }
set { this.m_User_Level1_Name = value; }
}
public string User_Level2_Name
{
get { return this.m_User_Level2_Name; }
set { this.m_User_Level2_Name = value; }
}
public string User_Level3_Name
{
get { return this.m_User_Level3_Name; }
set { this.m_User_Level3_Name = value; }
}
public int DataStoragePeriod
{
get { return this.m_DataStoragePeriod; }
set { this.m_DataStoragePeriod = value; }
}
public int AutomaticLogout
{
get { return this.m_AutomaticLogout; }
set { this.m_AutomaticLogout = value; }
}
public bool IsAlarmContinuousNGEnable
{
get { return this.m_IsAlarmContinuousNGEnable; }
set { this.m_IsAlarmContinuousNGEnable = value; }
}
public bool IsAlarmTotalPassCntEnable
{
get { return this.m_IsAlarmTotalPassCntEnable; }
set { this.m_IsAlarmTotalPassCntEnable = value; }
}
public int AlarmContinuousNG
{
get { return this.m_AlarmContinuousNG; }
set { this.m_AlarmContinuousNG = value; }
}
public int AlarmTotalPassCnt
{
get { return this.m_AlarmTotalPassCnt; }
set { this.m_AlarmTotalPassCnt = value; }
}
#endregion
#region Method
public void Initialization()
{
this.IsDataBackup = false;
this.IsFeedingConveyor = false;
this.IsEachNG = false;
this.IsDischargeConveyor = false;
this.IsImpellerMotorDirectionCW = false;
this.IsBypassMode = false;
this.IsWeightViewForward = true;
this.IsFeedingConveyorRunPass = true;
this.IsLogin = false;
this.IsBypassDirectionPass = true;
this.IsBypassOnce = true;
this.IsCutView = false;
this.IsPrintPerProductEnable = false;
this.IsPingTimer = false;
this.IsOptDataStatistics = false;
this.IsIntegratedTransmission = false;
this.DecimalPlaces = 1;
this.EthernetPort = 5000;
this.EquipmentColumns = 5;
this.EquipmentID = 1;
this.EquipmentMode = 1;
this.ProductNumber = 1;
this.UsbID = 1;
this.ImpellerMotorBaudrate = 4;
this.Serial3BaudRate = 9600;
this.Serial3Mode = 0;
this.InputSensorSelect = 5;
this.ImpellerMotorAnglePass = 3;
this.ImpellerMotorAngleNG = 3;
this.StepMotorType = 0;
this.Unit = "g";
this.SerialNumber = "23H0000";
this.Language = DataStore.LanguageID.Korean;
this.CurrentForm = DataStore.FormStore.FormMainDisplay;
this.DischargeConveyorDirectionCW = DataStore.DischargeConveyorDirection.CW;
this.CurrentUser = new UserItem();
this.CurrentUser.Group = DataStore.UserGroup.NotLogin;
this.EthernetServerPort = 5002;
this.EthernetMode = 0;
this.EthernetOperationMode = 0;
this.EthernetLocalPort = 5001;
this.ModbusRtuSlaveID = 1;
this.ModbusTcpAddress1 = 1000;
this.ModbusTcpAddress2 = 1100;
this.ModbusTcpStartAddress = 1010;
this.EthernetServerAddress = "0.0.0.0";
this.IsPart11 = false;
this.User_Level1_Name = "Level 1";
this.User_Level2_Name = "Level 2";
this.User_Level3_Name = "Level 3";
this.DataStoragePeriod = 36;
this.AutomaticLogout = 90;
this.IsAlarmContinuousNGEnable = false;
this.IsAlarmTotalPassCntEnable = false;
this.AlarmContinuousNG = 5;
this.AlarmTotalPassCnt = 100;
}
#endregion
}
#endregion
#region Struct SystemConfiguration
[StructLayout(LayoutKind.Sequential)]
public struct StructSystemConfigurationItem
{
public bool IsDataBackup;
public bool IsPingTimer;
public bool IsFeedingConveyor;
public bool IsEachNG;
public bool IsDischargeConveyor;
public bool IsImpellerMotorDirectionCW;
public bool IsPart11;
public bool IsWeightViewForward;
public int DecimalPlaces;
public int EthernetPort;
public int EquipmentColumns;
public int EquipmentID;
public int EquipmentMode;
public int ProductNumber;
public int DummyInt1;
public int DischargeConveyorDirectionCW;
public int UsbID;
public int ImpellerMotorBaudrate;
public int ImpellerMotorAnglePass;
public int Serial3BaudRate;
public int Serial3Mode;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = 48)]
public string DummyString6;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = 8)]
public string Unit;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = 15)]
public string SerialNumber;
public DataStore.LanguageID Language;
public bool DummyBool1;
public bool IsIntegratedTransmission;
public bool IsLogin;
public bool IsFeedingConveyorRunPass;
public int StepMotorType;
public int ImpellerMotorAngleNG;
public int InputSensorSelect;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = 40)]
public string User_Level1_Name;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = 40)]
public string User_Level2_Name;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = 40)]
public string User_Level3_Name;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = 100)]
public string DummyString4;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = 100)]
public string DummyString5;
}
#endregion
#region Struct SystemConfiguration1
[StructLayout(LayoutKind.Sequential)]
public struct StructSystemConfigurationItem1
{
public bool DummyBool1;
public bool DummyBool2;
public bool DummyBool3;
public bool DummyBool4;
public bool DummyBool5;
public bool DummyBool6;
public bool DummyBool7;
public bool DummyBool8;
public bool DummyBool9;
public bool DummyBool10;
public bool DummyBool11;
public bool DummyBool12;
public bool DummyBool13;
public bool DummyBool14;
public bool DummyBool15;
public bool DummyBool16;
public bool DummyBool17;
public bool DummyBool18;
public bool IsAlarmContinuousNGEnable;
public bool IsAlarmTotalPassCntEnable;
public int DummyInt1;
public int DummyInt2;
public int DummyInt3;
public int DummyInt4;
public int DummyInt5;
public int DummyInt6;
public int DummyInt7;
public int AlarmContinuousNG;
public int AlarmTotalPassCnt;
public int ModbusTcpStartAddress;
public int ModbusRtuSlaveID;
public int ModbusTcpAddress1;
public int ModbusTcpAddress2;
public int EthernetLocalPort;
public int EthernetOperationMode;
public int EthernetMode;
public int EthernetServerPort;
public int DummyInt10;
public int AutomaticLogout;
public int DataStoragePeriod;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = 8)]
public string DummyString1;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = 8)]
public string DummyString2;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = 8)]
public string DummyString3;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = 8)]
public string DummyString4;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = 8)]
public string DummyString5;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = 40)]
public string EthernetServerAddress;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = 40)]
public string DummyString7;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = 40)]
public string DummyString8;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = 100)]
public string DummyString9;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = 100)]
public string DummyString10;
}
#endregion
#region ProductItem
public class ProductItem
{
#region Field
private int m_Number;
private string m_Name;
private string m_LotNo;
private string m_UnderRange;
private string m_PassRange;
private string m_OverRange;
private string m_TareRange;
private int m_ProgressBarMaximum;
private int m_ProgressBarMinimum;
#endregion
#region Constructor
public ProductItem()
{
this.Initialization();
}
#endregion
#region Property
public int Number
{
get { return this.m_Number; }
set { this.m_Number = value; }
}
public string Name
{
get { return this.m_Name; }
set { this.m_Name = value; }
}
public string LotNo
{
get { return this.m_LotNo; }
set { this.m_LotNo = value; }
}
public string UnderRange
{
get { return this.m_UnderRange; }
set
{
this.m_UnderRange = value;
this.ProgressBarLevelRescale();
}
}
public string PassRange
{
get { return this.m_PassRange; }
set { this.m_PassRange = value; }
}
public string OverRange
{
get { return this.m_OverRange; }
set
{
this.m_OverRange = value;
this.ProgressBarLevelRescale();
}
}
public string TareRange
{
get { return this.m_TareRange; }
set { this.m_TareRange = value; }
}
public int ProgressBarMaximum
{
get { return this.m_ProgressBarMaximum; }
private set { this.m_ProgressBarMaximum = value; }
}
public int ProgressBarMinimum
{
get { return this.m_ProgressBarMinimum; }
private set { this.m_ProgressBarMinimum = value; }
}
#endregion
#region Method
public void Initialization()
{
this.Number = 1;
this.Name = "ProductName 1";
this.LotNo = "Lot 1";
this.UnderRange = "1000";
this.PassRange = "2000";
this.OverRange = "3000";
this.TareRange = "0";
}
private void ProgressBarLevelRescale()
{
int minBar, maxBar, gap;
int OverRange, UnderRange;
if (this.OverRange == null || this.UnderRange == null)
return;
OverRange = int.Parse(this.OverRange);
UnderRange = int.Parse(this.UnderRange);
gap = OverRange - UnderRange;
minBar = UnderRange - gap;
maxBar = OverRange + gap;
this.ProgressBarMaximum = maxBar;
this.ProgressBarMinimum = minBar;
}
#endregion
}
#endregion
#region StructProductItem
[StructLayout(LayoutKind.Sequential)]
public struct StructProductItem
{
public int Number;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = 40)]
public string Name;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = 40)]
public string LotNo;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = 14)]
public string OverRange;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = 14)]
public string UnderRange;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = 14)]
public string PassRange;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = 14)]
public string TareRange;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = 14)]
public string DummyString1;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = 14)]
public string DummyString2;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = 14)]
public string DummyString3;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = 14)]
public string DummyString4;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = 14)]
public string DummyString5;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = 40)]
public string DummyString6;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = 40)]
public string DummyString7;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = 40)]
public string DummyString8;
}
#endregion
#region WeightData
public class WeightData
{
#region Field
private int m_UnderCount;
private int m_PassCount;
private int m_OverCount;
private int m_ExNGCount;
private double m_Weight;
private DataStore.JudgmentStatus m_JudgmentStatus;
private DataStore.WeightStatus m_Status;
private string m_ADCValue;
private int m_ProductionSpeed;
private int PreviousTimeTickCount;
private bool m_IsStart;
private bool m_IsUpdate;
private string m_WeightString;
private ushort m_UpdateCount;
private int m_ContinuousNG;
private bool m_IsContinuousNG;
#endregion
#region Constructor
public WeightData()
{
this.Initialization();
}
#endregion
#region Property
public int UnderCount
{
get { return this.m_UnderCount; }
set { this.m_UnderCount = value; }
}
public string UnderRatio
{
get
{
string ret = "";
if (this.UnderCount == 0 || this.TotalCount == 0)
ret = "0.00";
else
ret = string.Format("{0:##0.00}", (float.Parse(this.UnderCount.ToString()) * 100.0F) / this.TotalCount);
return ret;
}
}
public int PassCount
{
get { return this.m_PassCount; }
set { this.m_PassCount = value; }
}
public string PassRatio
{
get
{
string ret = "";
if (this.PassCount == 0 || this.TotalCount == 0)
ret = "0.00";
else
ret = string.Format("{0:##0.00}", (float.Parse(this.PassCount.ToString()) * 100.0F) / this.TotalCount);
return ret;
}
}
public int OverCount
{
get { return this.m_OverCount; }
set { this.m_OverCount = value; }
}
public string OverRatio
{
get
{
string ret = "";
if (this.OverCount == 0 || this.TotalCount == 0)
ret = "0.00";
else
ret = string.Format("{0:##0.00}", (float.Parse(this.OverCount.ToString()) * 100.0F) / this.TotalCount);
return ret;
}
}
public int ExNGCount
{
get { return this.m_ExNGCount; }
set { this.m_ExNGCount = value; }
}
public int TotalNGCount
{
get { return this.UnderCount + this.OverCount + this.ExNGCount; }
}
public int TotalCount
{
get { return this.UnderCount + this.PassCount + this.OverCount + this.ExNGCount; }
}
public double Weight
{
get { return this.m_Weight; }
set { this.m_Weight = value; }
}
public string ADCValue
{
get { return this.m_ADCValue; }
set { this.m_ADCValue = value; }
}
public DataStore.JudgmentStatus JudgmentStatus
{
get { return this.m_JudgmentStatus; }
set
{
this.m_JudgmentStatus = value;
this.ProductionSpeedCalculation();
if (value == DataStore.JudgmentStatus.Under)
{
if (this.UnderCount < 10000000)
this.UnderCount++;
else
this.UnderCount = 0;
if (this.IsContinuousNG != true)
this.IsContinuousNG = true;
}
else if (value == DataStore.JudgmentStatus.Pass)
{
if (this.PassCount < 10000000)
this.PassCount++;
else
this.PassCount = 0;
if (this.IsContinuousNG != false)
{
this.IsContinuousNG = false;
this.ContinuousNG = 0;
}
}
else if (value == DataStore.JudgmentStatus.Over)
{
if (this.OverCount < 10000000)
this.OverCount++;
else
this.OverCount = 0;
if (this.IsContinuousNG != true)
this.IsContinuousNG = true;
}
else
{
if (this.ExNGCount < 10000000)
this.ExNGCount++;
else
this.ExNGCount = 0;
if (this.IsContinuousNG != true)
this.IsContinuousNG = true;
}
}
}
public DataStore.WeightStatus Status
{
get { return this.m_Status; }
set { this.m_Status = value; }
}
public int ProductionSpeed
{
get { return this.m_ProductionSpeed; }
set { this.m_ProductionSpeed = value; }
}
public bool IsStart
{
get { return this.m_IsStart; }
set { this.m_IsStart = value; }
}
/// <summary>
/// 스틱2모드에서 데이터 갱신이 되었으면 true, 안되었으면 false
/// </summary>
public bool IsUpdate
{
get { return this.m_IsUpdate; }
set { this.m_IsUpdate = value; }
}
public string WeightString
{
get { return this.m_WeightString; }
set { this.m_WeightString = value; }
}
public ushort UpdateCount
{
get { return this.m_UpdateCount; }
set { this.m_UpdateCount = value; }
}
/// <summary>
/// 연속NG 카운팅
/// </summary>
public int ContinuousNG
{
get { return this.m_ContinuousNG; }
set { this.m_ContinuousNG = value; }
}
public bool IsContinuousNG
{
get { return this.m_IsContinuousNG; }
set { this.m_IsContinuousNG = value; }
}
#endregion
#region Mehtod
public void ClearCount()
{
this.UnderCount = 0;
this.PassCount = 0;
this.OverCount = 0;
this.ExNGCount = 0;
this.UpdateCount = 0;
}
public void Initialization()
{
this.UnderCount = 0;
this.PassCount = 0;
this.OverCount = 0;
this.ExNGCount = 0;
this.Weight = 0.0;
this.ADCValue = "12345";
this.IsUpdate = false;
this.JudgmentStatus = DataStore.JudgmentStatus.Empty;
this.ProductionSpeed = 0;
this.WeightString = "0";
this.UpdateCount = 0;
this.IsContinuousNG = false;
this.ContinuousNG = 0;
}
private void ProductionSpeedCalculation()
{
int currentTimeTickCount = 0, gap = 0;
double millisecond = 0.0, speed = 0.0;
if (this.IsStart == false)
{
this.PreviousTimeTickCount = Environment.TickCount & Int32.MaxValue;
this.IsStart = true;
}
else
{
currentTimeTickCount = Environment.TickCount & Int32.MaxValue;
gap = Math.Abs(currentTimeTickCount - this.PreviousTimeTickCount);
millisecond = gap / 1000.0;
speed = 60 / millisecond;
this.ProductionSpeed = int.Parse(string.Format("{0:f0}", speed));
this.PreviousTimeTickCount = Environment.TickCount;
}
}
#endregion
}
#endregion
#region Struct Counter
[StructLayout(LayoutKind.Sequential)]
public struct StructCounter
{
public int OverCount1;
public int PassCount1;
public int UnderCount1;
public int ExNGCount1;
public int OverCount2;
public int PassCount2;
public int UnderCount2;
public int ExNGCount2;
public int OverCount3;
public int PassCount3;
public int UnderCount3;
public int ExNGCount3;
public int OverCount4;
public int PassCount4;
public int UnderCount4;
public int ExNGCount4;
public int OverCount5;
public int PassCount5;
public int UnderCount5;
public int ExNGCount5;
public int OverCount6;
public int PassCount6;
public int UnderCount6;
public int ExNGCount6;
public int DummyInt1;
public int DummyInt2;
public int DummyInt3;
public int DummyInt4;
public int DummyInt5;
public int DummyInt6;
public int DummyInt7;
public int DummyInt8;
public int DummyInt9;
public int DummyInt10;
}
#endregion
#region JudgmentSetItem
public class JudgmentSetItem
{
#region Field
private int m_Filter;
private int m_JudgmentDelayTime;
private int m_DoubleDelayTime;
private int m_JudgmentCount;
private int m_FeedSpeed;
private double m_DynamicCorrection;
private int m_ForcedZeroDelayTime;
private int m_RejectConveyorDelayTime;
private int m_RejectConveyorRunTime;
private int m_FeedingConveyorDelayTime;
private int m_FeedingConveyorRunTime;
private int m_Sorter1Mode;
private int m_Sorter1DelayTime;
private int m_Sorter1RunTime;
private int m_Sorter2Mode;
private int m_Sorter2DelayTime;
private int m_Sorter2RunTime;
private int m_Sorter3Mode;
private int m_Sorter3DelayTime;
private int m_Sorter3RunTime;
private int m_Sorter4Mode;
private int m_Sorter4DelayTime;
private int m_Sorter4RunTime;
#endregion
#region Constructor
public JudgmentSetItem()
{
this.Initialization();
}
#endregion
#region Property
public int Filter
{
get { return this.m_Filter; }
set { this.m_Filter = value; }
}
public int JudgmentDelayTime
{
get { return this.m_JudgmentDelayTime; }
set { this.m_JudgmentDelayTime = value; }
}
public int DoubleDelayTime
{
get { return this.m_DoubleDelayTime; }
set { this.m_DoubleDelayTime = value; }
}
public int JudgmentCount
{
get { return this.m_JudgmentCount; }
set { this.m_JudgmentCount = value; }
}
public int FeedSpeed
{
get { return this.m_FeedSpeed; }
set { this.m_FeedSpeed = value; }
}
public double DynamicCorrection
{
get { return this.m_DynamicCorrection; }
set { this.m_DynamicCorrection = value; }
}
public int ForcedZeroDelayTime
{
get { return this.m_ForcedZeroDelayTime; }
set { this.m_ForcedZeroDelayTime = value; }
}
public int RejectConveyorDelayTime
{
get { return this.m_RejectConveyorDelayTime; }
set { this.m_RejectConveyorDelayTime = value; }
}
public int RejectConveyorRunTime
{
get { return this.m_RejectConveyorRunTime; }
set { this.m_RejectConveyorRunTime = value; }
}
public int FeedingConveyorDelayTime
{
get { return this.m_FeedingConveyorDelayTime; }
set { this.m_FeedingConveyorDelayTime = value; }
}
public int FeedingConveyorRunTime
{
get { return this.m_FeedingConveyorRunTime; }
set { this.m_FeedingConveyorRunTime = value; }
}
public int Sorter1Mode
{
get { return this.m_Sorter1Mode; }
set { this.m_Sorter1Mode = value; }
}
public int Sorter1DelayTime
{
get { return this.m_Sorter1DelayTime; }
set { this.m_Sorter1DelayTime = value; }
}
public int Sorter1RunTime
{
get { return this.m_Sorter1RunTime; }
set { this.m_Sorter1RunTime = value; }
}
public int Sorter2Mode
{
get { return this.m_Sorter2Mode; }
set { this.m_Sorter2Mode = value; }
}
public int Sorter2DelayTime
{
get { return this.m_Sorter2DelayTime; }
set { this.m_Sorter2DelayTime = value; }
}
public int Sorter2RunTime
{
get { return this.m_Sorter2RunTime; }
set { this.m_Sorter2RunTime = value; }
}
public int Sorter3Mode
{
get { return this.m_Sorter3Mode; }
set { this.m_Sorter3Mode = value; }
}
public int Sorter3DelayTime
{
get { return this.m_Sorter3DelayTime; }
set { this.m_Sorter3DelayTime = value; }
}
public int Sorter3RunTime
{
get { return this.m_Sorter3RunTime; }
set { this.m_Sorter3RunTime = value; }
}
public int Sorter4Mode
{
get { return this.m_Sorter4Mode; }
set { this.m_Sorter4Mode = value; }
}
public int Sorter4DelayTime
{
get { return this.m_Sorter4DelayTime; }
set { this.m_Sorter4DelayTime = value; }
}
public int Sorter4RunTime
{
get { return this.m_Sorter4RunTime; }
set { this.m_Sorter4RunTime = value; }
}
#endregion
#region Method
public void Initialization()
{
this.Filter = 8;
this.JudgmentDelayTime = 1000;
this.DoubleDelayTime = 900;
this.JudgmentCount = 10;
this.FeedSpeed = 60;
this.DynamicCorrection = 1.000000;
this.ForcedZeroDelayTime = 0;
this.RejectConveyorDelayTime = 1;
this.RejectConveyorRunTime = 1000;
this.FeedingConveyorDelayTime = 1;
this.FeedingConveyorRunTime = 1000;
this.Sorter1Mode = 0;
this.Sorter1DelayTime = 1;
this.Sorter1RunTime = 1000;
this.Sorter2Mode = 0;
this.Sorter2DelayTime = 1;
this.Sorter2RunTime = 1000;
this.Sorter3Mode = 0;
this.Sorter3DelayTime = 1;
this.Sorter3RunTime = 1000;
this.Sorter4Mode = 0;
this.Sorter4DelayTime = 1;
this.Sorter4RunTime = 1000;
}
#endregion
}
#endregion
#region Struct JudgmentSetItem
[StructLayout(LayoutKind.Sequential)]
public struct StructJudgmentSetItem
{
public int Filter;
public int JudgmentDelayTime;
public int DoubleDelayTime;
public int JudgmentCount;
public int FeedSpeed;
public double DynamicCorrection;
public int RejectConveyorDelayTime;
public int RejectConveyorOperatingTime;
public int FeedingConveyorDelayTime;
public int FeedingConveyorOperatingTime;
public int Sorter1Mode;
public int Sorter1DelayTime;
public int Sorter1OperatingTime;
public int Sorter2Mode;
public int Sorter2DelayTime;
public int Sorter2OperatingTime;
public int Sorter3Mode;
public int Sorter3DelayTime;
public int Sorter3OperatingTime;
public int Sorter4Mode;
public int Sorter4DelayTime;
public int Sorter4OperatingTime;
public int DummyInt1;
public int DummyInt2;
public int DummyInt3;
public int DummyInt4;
public int ForcedZeroDelayTime;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = 20)]
public string DummyString1;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = 20)]
public string DummyString2;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = 20)]
public string DummyString3;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = 20)]
public string DummyString4;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = 20)]
public string DummyString5;
}
#endregion
#region CalibrationItem
public class CalibrationItem
{
#region Field
private string m_BalanceWeight;
private string m_MaxWeight;
private string m_Digit;
private string m_Constant1;
private string m_Constant2;
private string m_Constant3;
private string m_Constant4;
private string m_Constant5;
private string m_Constant6;
private string m_Constant7;
private string m_Constant8;
private string m_Constant9;
private string m_Constant10;
#endregion
#region Constructor
public CalibrationItem()
{
this.BalanceWeight = "5000";
this.MaxWeight = "9999";
this.Digit = "1";
this.Constant1 = "1.000000";
this.Constant2 = "1.000000";
this.Constant3 = "1.000000";
this.Constant4 = "1.000000";
this.Constant5 = "1.000000";
this.Constant6 = "1.000000";
this.Constant7 = "1.000000";
this.Constant8 = "1.000000";
this.Constant9 = "1.000000";
this.Constant10 = "1.000000";
}
#endregion
#region Property
public string BalanceWeight
{
get { return this.m_BalanceWeight; }
set { this.m_BalanceWeight = value; }
}
public string MaxWeight
{
get { return this.m_MaxWeight; }
set { this.m_MaxWeight = value; }
}
public string Digit
{
get { return this.m_Digit; }
set { this.m_Digit = value; }
}
public string Constant1
{
get { return this.m_Constant1; }
set { this.m_Constant1 = value; }
}
public string Constant2
{
get { return this.m_Constant2; }
set { this.m_Constant2 = value; }
}
public string Constant3
{
get { return this.m_Constant3; }
set { this.m_Constant3 = value; }
}
public string Constant4
{
get { return this.m_Constant4; }
set { this.m_Constant4 = value; }
}
public string Constant5
{
get { return this.m_Constant5; }
set { this.m_Constant5 = value; }
}
public string Constant6
{
get { return this.m_Constant6; }
set { this.m_Constant6 = value; }
}
public string Constant7
{
get { return this.m_Constant7; }
set { this.m_Constant7 = value; }
}
public string Constant8
{
get { return this.m_Constant8; }
set { this.m_Constant8 = value; }
}
public string Constant9
{
get { return this.m_Constant9; }
set { this.m_Constant9 = value; }
}
public string Constant10
{
get { return this.m_Constant10; }
set { this.m_Constant10 = value; }
}
#endregion
}
#endregion
#region ZeroParameterItem
public class ZeroParameterItem
{
#region Field
private string m_Range;
private string m_Time;
private string m_Variate;
private string m_Mode;
#endregion
#region Constructor
public ZeroParameterItem()
{
this.Range = "20";
this.Time = "100";
this.Variate = "2";
this.Mode = "0";
}
#endregion
#region Property
public string Range
{
get { return this.m_Range; }
set { this.m_Range = value; }
}
public string Time
{
get { return this.m_Time; }
set { this.m_Time = value; }
}
public string Variate
{
get { return this.m_Variate; }
set { this.m_Variate = value; }
}
public string Mode
{
get { return this.m_Mode; }
set { this.m_Mode = value; }
}
#endregion
}
#endregion
#region OptionParameterItem
public class OptionParameterItem
{
#region Field
private string m_BuzzerOnTime;
private string m_RelayOnTime;
private string m_Chattering;
private string m_DoubleEnter;
private string m_PassAlarm;
private string m_PassAlarmCount;
#endregion
#region Constructor
public OptionParameterItem()
{
this.BuzzerOnTime = "1000";
this.RelayOnTime = "500";
this.Chattering = "100";
this.DoubleEnter = "0";
this.PassAlarm = "0";
this.PassAlarmCount = "0";
}
#endregion
#region Property
public string BuzzerOnTime
{
get { return this.m_BuzzerOnTime; }
set { this.m_BuzzerOnTime = value; }
}
public string RelayOnTime
{
get { return this.m_RelayOnTime; }
set { this.m_RelayOnTime = value; }
}
public string Chattering
{
get { return this.m_Chattering; }
set { this.m_Chattering = value; }
}
public string DoubleEnter
{
get { return this.m_DoubleEnter; }
set { this.m_DoubleEnter = value; }
}
public string PassAlarm
{
get { return this.m_PassAlarm; }
set { this.m_PassAlarm = value; }
}
public string PassAlarmCount
{
get { return this.m_PassAlarmCount; }
set { this.m_PassAlarmCount = value; }
}
#endregion
}
#endregion
#region FeedBackRangeItem
public class FeedBackRangeItem
{
#region Field
private int m_Level1Min;
private int m_Level1Max;
private int m_Level2Min;
private int m_Level2Max;
private int m_Level3Min;
private int m_Level3Max;
private int m_Level4Min;
private int m_Level4Max;
#endregion
#region Constructor
public FeedBackRangeItem()
{
this.Level1Max = 0;
this.Level1Min = 0;
this.Level2Max = 0;
this.Level2Min = 0;
this.Level3Max = 0;
this.Level3Min = 0;
this.Level4Max = 0;
this.Level4Min = 0;
}
#endregion
#region Property
public int Level1Min
{
get { return this.m_Level1Min; }
private set { this.m_Level1Min = value; }
}
public int Level1Max
{
get { return this.m_Level1Max; }
private set { this.m_Level1Max = value; }
}
public int Level2Min
{
get { return this.m_Level2Min; }
private set { this.m_Level2Min = value; }
}
public int Level2Max
{
get { return this.m_Level2Max; }
private set { this.m_Level2Max = value; }
}
public int Level3Min
{
get { return this.m_Level3Min; }
private set { this.m_Level3Min = value; }
}
public int Level3Max
{
get { return this.m_Level3Max; }
private set { this.m_Level3Max = value; }
}
public int Level4Min
{
get { return this.m_Level4Min; }
private set { this.m_Level4Min = value; }
}
public int Level4Max
{
get { return this.m_Level4Max; }
private set { this.m_Level4Max = value; }
}
#endregion
#region Method
public void SetRange(int overRange, int passRange, int underRange)
{
int gap = 0, range = 0;
if (overRange <= underRange)
return;
gap = passRange - underRange;
range = gap / 2;
this.Level1Min = underRange;
this.Level1Max = this.Level1Min + range;
this.Level2Min = this.Level1Max++;
this.Level2Max = passRange;
gap = overRange - passRange;
range = gap / 2;
this.Level3Min = this.Level2Max++;
this.Level3Max = this.Level3Min + range;
this.Level4Min = this.Level3Max++;
this.Level4Max = overRange;
}
#endregion
}
#endregion
#region WeightStorageItem
public class WeightStorageItem
{
#region Field
private double m_Weight1;
private double m_Weight2;
private double m_Weight3;
private double m_Weight4;
private double m_Weight5;
private double m_Weight6;
private double m_Weight7;
private double m_Weight8;
private double m_Weight9;
private double m_Weight10;
private double m_TotalSum;
private int m_TotalCount;
private DataStore.JudgmentStatus m_Grade1;
private DataStore.JudgmentStatus m_Grade2;
private DataStore.JudgmentStatus m_Grade3;
private DataStore.JudgmentStatus m_Grade4;
private DataStore.JudgmentStatus m_Grade5;
private DataStore.JudgmentStatus m_Grade6;
private DataStore.JudgmentStatus m_Grade7;
private DataStore.JudgmentStatus m_Grade8;
private DataStore.JudgmentStatus m_Grade9;
private DataStore.JudgmentStatus m_Grade10;
private double m_TotalPassSum;
private int m_TotalPassCount;
#endregion
#region Constructor
public WeightStorageItem()
{
this.TotalCount = 0;
this.TotalSum = 0.0;
this.TotalPassCount = 0;
this.TotalPassSum = 0.0;
this.Weight1 = 0.0;
this.Weight2 = 0.0;
this.Weight3 = 0.0;
this.Weight4 = 0.0;
this.Weight5 = 0.0;
this.Weight6 = 0.0;
this.Weight7 = 0.0;
this.Weight8 = 0.0;
this.Weight9 = 0.0;
this.Weight10 = 0.0;
}
#endregion
#region Property
public double Weight1
{
get { return this.m_Weight1; }
set { this.m_Weight1 = value; }
}
public double Weight2
{
get { return this.m_Weight2; }
set { this.m_Weight2 = value; }
}
public double Weight3
{
get { return this.m_Weight3; }
set { this.m_Weight3 = value; }
}
public double Weight4
{
get { return this.m_Weight4; }
set { this.m_Weight4 = value; }
}
public double Weight5
{
get { return this.m_Weight5; }
set { this.m_Weight5 = value; }
}
public double Weight6
{
get { return this.m_Weight6; }
set { this.m_Weight6 = value; }
}
public double Weight7
{
get { return this.m_Weight7; }
set { this.m_Weight7 = value; }
}
public double Weight8
{
get { return this.m_Weight8; }
set { this.m_Weight8 = value; }
}
public double Weight9
{
get { return this.m_Weight9; }
set { this.m_Weight9 = value; }
}
public double Weight10
{
get { return this.m_Weight10; }
set { this.m_Weight10 = value; }
}
public double TotalSum
{
get { return this.m_TotalSum; }
private set { this.m_TotalSum = value; }
}
public DataStore.JudgmentStatus Grade1
{
get { return this.m_Grade1; }
set { this.m_Grade1 = value; }
}
public DataStore.JudgmentStatus Grade2
{
get { return this.m_Grade2; }
set { this.m_Grade2 = value; }
}
public DataStore.JudgmentStatus Grade3
{
get { return this.m_Grade3; }
set { this.m_Grade3 = value; }
}
public DataStore.JudgmentStatus Grade4
{
get { return this.m_Grade4; }
set { this.m_Grade4 = value; }
}
public DataStore.JudgmentStatus Grade5
{
get { return this.m_Grade5; }
set { this.m_Grade5 = value; }
}
public DataStore.JudgmentStatus Grade6
{
get { return this.m_Grade6; }
set { this.m_Grade6 = value; }
}
public DataStore.JudgmentStatus Grade7
{
get { return this.m_Grade7; }
set { this.m_Grade7 = value; }
}
public DataStore.JudgmentStatus Grade8
{
get { return this.m_Grade8; }
set { this.m_Grade8 = value; }
}
public DataStore.JudgmentStatus Grade9
{
get { return this.m_Grade9; }
set { this.m_Grade9 = value; }
}
public DataStore.JudgmentStatus Grade10
{
get { return this.m_Grade10; }
set { this.m_Grade10 = value; }
}
public int TotalCount
{
get { return this.m_TotalCount; }
private set { this.m_TotalCount = value; }
}
public double TotalPassSum
{
get { return this.m_TotalPassSum; }
set { this.m_TotalPassSum = value; }
}
public int TotalPassCount
{
get { return this.m_TotalPassCount; }
set { this.m_TotalPassCount = value; }
}
#endregion
#region Method
public double GetWeightTenSum()
{
if (this.TotalCount < 10)
return 0.0;
else
return this.Weight1 + this.Weight2 + this.Weight3 + this.Weight4 + this.Weight5 +
this.Weight6 + this.Weight7 + this.Weight8 + this.Weight9 + this.Weight10;
}
public double GetWeightTenAverage()
{
return this.GetWeightTenSum() / 10;
}
public double GetWeightTotalAverage()
{
if (this.TotalCount == 0)
return 0.0;
return this.TotalSum / this.TotalCount;
}
public double GetWeightTotalPassAverage()
{
if (this.TotalPassSum == 0)
return 0.0;
return this.TotalPassSum / this.TotalPassCount;
}
public void SetValue(double value, DataStore.JudgmentStatus status)
{
this.Grade10 = this.Grade9;
this.Grade9 = this.Grade8;
this.Grade8 = this.Grade7;
this.Grade7 = this.Grade6;
this.Grade6 = this.Grade5;
this.Grade5 = this.Grade4;
this.Grade4 = this.Grade3;
this.Grade3 = this.Grade2;
this.Grade2 = this.Grade1;
this.Grade1 = status;
this.Weight10 = this.Weight9;
this.Weight9 = this.Weight8;
this.Weight8 = this.Weight7;
this.Weight7 = this.Weight6;
this.Weight6 = this.Weight5;
this.Weight5 = this.Weight4;
this.Weight4 = this.Weight3;
this.Weight3 = this.Weight2;
this.Weight2 = this.Weight1;
this.Weight1 = value;
this.TotalCount++;
this.TotalSum = this.TotalSum + value;
if (status == DataStore.JudgmentStatus.Pass)
{
this.TotalPassCount++;
this.TotalPassSum = this.TotalPassSum + value;
}
}
public void AllClear()
{
this.Weight1 = 0.0;
this.Weight2 = 0.0;
this.Weight3 = 0.0;
this.Weight4 = 0.0;
this.Weight5 = 0.0;
this.Weight6 = 0.0;
this.Weight7 = 0.0;
this.Weight8 = 0.0;
this.Weight9 = 0.0;
this.Weight10 = 0.0;
this.TotalSum = 0.0;
this.TotalCount = 0;
this.Grade1 = DataStore.JudgmentStatus.Empty;
this.Grade2 = DataStore.JudgmentStatus.Empty;
this.Grade3 = DataStore.JudgmentStatus.Empty;
this.Grade4 = DataStore.JudgmentStatus.Empty;
this.Grade5 = DataStore.JudgmentStatus.Empty;
this.Grade6 = DataStore.JudgmentStatus.Empty;
this.Grade7 = DataStore.JudgmentStatus.Empty;
this.Grade8 = DataStore.JudgmentStatus.Empty;
this.Grade9 = DataStore.JudgmentStatus.Empty;
this.Grade10 = DataStore.JudgmentStatus.Empty;
this.TotalPassSum = 0.0;
this.TotalPassCount = 0;
}
#endregion
}
#endregion
#region ImpellerMotorItem
public class ImpellerMotorItem
{
#region Field
private string m_Rc;
private string m_Hc;
private string m_Ms;
private string m_Vi;
private string m_Vm;
private string m_A;
private string m_CC;
private string m_PI;
private string m_EG;
private string m_VE;
private string m_AC;
private string m_DE;
#endregion
#region Constructor
public ImpellerMotorItem()
{
this.Initialization();
}
#endregion
#region Property
public string Rc
{
get { return this.m_Rc; }
set { this.m_Rc = value; }
}
public string Hc
{
get { return this.m_Hc; }
set { this.m_Hc = value; }
}
public string Ms
{
get { return this.m_Ms; }
set { this.m_Ms = value; }
}
public string Vi
{
get { return this.m_Vi; }
set { this.m_Vi = value; }
}
public string Vm
{
get { return this.m_Vm; }
set { this.m_Vm = value; }
}
public string A
{
get { return this.m_A; }
set { this.m_A = value; }
}
public string DE
{
get { return this.m_DE; }
set { this.m_DE = value; }
}
public string AC
{
get { return this.m_AC; }
set { this.m_AC = value; }
}
public string VE
{
get { return this.m_VE; }
set { this.m_VE = value; }
}
public string EG
{
get { return this.m_EG; }
set { this.m_EG = value; }
}
public string PI
{
get { return this.m_PI; }
set { this.m_PI = value; }
}
public string CC
{
get { return this.m_CC; }
set { this.m_CC = value; }
}
#endregion
#region Method
public void Initialization()
{
this.Rc = "65";
this.Hc = "30";
this.Ms = "180";
this.Vi = "1000";
this.Vm = "180000";
this.A = "900000";
this.CC = "0.4";
this.PI = "0.35";
this.EG = "36000";
this.VE = "10";
this.AC = "55";
this.DE = "55";
}
#endregion
}
#endregion
#region DataCollector
public class DataCollector
{
#region Field
private Collection<double> m_PassWeightData;
private Collection<double> m_OverWeightData;
private Collection<double> m_UnderWeightData;
private Collection<double> m_ExNgWeightData;
private double m_PassAverage;
private double m_PassVariance;
#endregion
#region Constructor
public DataCollector()
{
this.Initialize();
}
#endregion
#region Porperty
public Collection<double> PassWeightData
{
get { return this.m_PassWeightData; }
private set { this.m_PassWeightData = value; }
}
public Collection<double> OverWeightData
{
get { return this.m_OverWeightData; }
private set { this.m_OverWeightData = value; }
}
public Collection<double> UnderWeightData
{
get { return this.m_UnderWeightData; }
private set { this.m_UnderWeightData = value; }
}
public Collection<double> ExNgWeightData
{
get { return this.m_ExNgWeightData; }
private set { this.m_ExNgWeightData = value; }
}
public int TotalCount
{
get { return this.PassTotalCount + this.OverTotalCount + this.UnderTotalCount + this.ExNgTotalCount; }
}
public int TotalNGCount
{
get { return this.OverTotalCount + this.UnderTotalCount + this.ExNgTotalCount; }
}
public int PassTotalCount
{
get { return this.PassWeightData.Count; }
}
public double PassAverage
{
get { return this.m_PassAverage; }
private set { this.m_PassAverage = value; }
}
public double PassPercentage
{
get
{
double ret = 0.0;
string sValue = "";
if (this.PassTotalCount == 0 || this.TotalCount == 0)
ret = 0.0;
else
{
sValue = string.Format("{0:0.00}", ((double)this.PassTotalCount / (double)this.TotalCount) * 100.0);
ret = double.Parse(sValue);
}
return ret;
}
}
public double PassVariance
{
get { return this.m_PassVariance; }
private set { this.m_PassVariance = value; }
}
public double PassStandardDeviation
{
get
{
return Math.Sqrt(this.PassVariance);
}
}
public double PassSumWeight
{
get
{
double ret = 0.0;
for (int i = 0; i < this.PassWeightData.Count; i++)
ret += this.PassWeightData[i];
return ret;
}
}
public double PassMinWeight
{
get
{
bool isFirstData = false;
double ret = 0.0;
if (this.PassTotalCount == 0)
ret = 0.0;
else
{
for (int i = 0; i < this.PassTotalCount; i++)
{
if (isFirstData == false)
{
isFirstData = true;
ret = this.PassWeightData[i];
}
else
{
if (ret > this.PassWeightData[i])
ret = this.PassWeightData[i];
}
}
}
return ret;
}
}
public double PassMaxWeight
{
get
{
double ret = 0.0;
if (this.PassTotalCount == 0)
ret = 0.0;
else
{
for (int i = 0; i < this.PassTotalCount; i++)
{
if (ret < this.PassWeightData[i])
ret = this.PassWeightData[i];
}
}
return ret;
}
}
public int OverTotalCount
{
get { return this.OverWeightData.Count; }
}
public double OverSumWeight
{
get
{
double ret = 0.0;
for (int i = 0; i < this.OverWeightData.Count; i++)
ret += this.OverWeightData[i];
return ret;
}
}
public double OverAverage
{
get
{
double ret = 0.0;
if (this.OverWeightData.Count == 0)
ret = 0.0;
else
ret = this.OverSumWeight / this.OverWeightData.Count;
return ret;
}
}
public double OverPercentage
{
get
{
double ret = 0.0;
string sValue = "";
if (this.OverTotalCount == 0 || this.TotalCount == 0)
ret = 0.0;
else
{
sValue = string.Format("{0:0.00}", ((double)this.OverTotalCount / (double)this.TotalCount) * 100.0);
ret = double.Parse(sValue);
}
return ret;
}
}
public int UnderTotalCount
{
get { return this.UnderWeightData.Count; }
}
public double UnderSumWeight
{
get
{
double ret = 0.0;
for (int i = 0; i < this.UnderWeightData.Count; i++)
ret += this.UnderWeightData[i];
return ret;
}
}
public double UnderAverage
{
get
{
double ret = 0.0;
if (this.UnderWeightData.Count == 0)
ret = 0.0;
else
ret = this.UnderSumWeight / this.UnderWeightData.Count;
return ret;
}
}
public double UnderPercentage
{
get
{
double ret = 0.0;
string sValue = "";
if (this.UnderTotalCount == 0 || this.TotalCount == 0)
ret = 0.0;
else
{
sValue = string.Format("{0:0.00}", ((double)this.UnderTotalCount / (double)this.TotalCount) * 100.0);
ret = double.Parse(sValue);
}
return ret;
}
}
public int ExNgTotalCount
{
get { return this.ExNgWeightData.Count; }
}
public double ExNgPercentage
{
get
{
double ret = 0.0;
string sValue = "";
if (this.ExNgTotalCount == 0 || this.TotalCount == 0)
ret = 0.0;
else
{
sValue = string.Format("{0:0.00}", ((double)this.ExNgTotalCount / (double)this.TotalCount) * 100.0);
ret = double.Parse(sValue);
}
return ret;
}
}
#endregion
#region Method
private void Initialize()
{
this.PassWeightData = new Collection<double>();
this.OverWeightData = new Collection<double>();
this.UnderWeightData = new Collection<double>();
this.ExNgWeightData = new Collection<double>();
this.ClearDatas();
}
public void ClearDatas()
{
this.PassWeightData.Clear();
this.OverWeightData.Clear();
this.UnderWeightData.Clear();
this.ExNgWeightData.Clear();
this.PassAverage = 0;
this.PassVariance = 0;
}
public void AddPassWeight(double data)
{
this.PassWeightData.Add(data);
}
public void AddOverWeight(double data)
{
this.OverWeightData.Add(data);
}
public void AddUnderWeight(double data)
{
if (data < 0)
this.UnderWeightData.Add(0);
else
this.UnderWeightData.Add(data);
}
public void AddExNgWeight(double data)
{
if (data < 0)
this.ExNgWeightData.Add(0);
else
this.ExNgWeightData.Add(data);
}
public void StatisticalAnalysis()
{
double value1 = 0.0, value2 = 0.0;
if (this.PassWeightData.Count == 0)
return;
#region Pass Average
for (int i = 0; i < this.PassWeightData.Count; i++)
{
value1 += this.PassWeightData[i];
}
value1 = value1 / this.PassWeightData.Count;
this.PassAverage = value1;
#endregion
#region PassVariance
for (int i = 0; i < this.PassTotalCount; i++)
{
value1 = this.PassAverage - this.PassWeightData[i];
value2 += value1 * value1;
}
this.PassVariance = value2 / this.PassTotalCount;
#endregion
}
#endregion
}
#endregion
#region DataCommonList
public class DataCommonList
{
#region Field
private string m_ProductName;
private string m_Lot;
private string m_StartTime;
private string m_EndTime;
private string m_OverRange;
private string m_PassRange;
private string m_UnderRange;
private string m_TareRange;
private int m_TotalPassCount;
private double m_TotalPassSumWeight;
private double m_TotalPassAverageWeight;
private double m_TotalPassVariance;
private int m_TotalOverCount;
private double m_TotalOverSumWeight;
private int m_TotalUnderCount;
private double m_TotalUnderSumWeight;
private int m_TotalExNgCount;
#endregion
#region Constructor
public DataCommonList()
{
this.Initialize();
}
#endregion
#region Property
public string ProductName
{
get { return this.m_ProductName; }
set { this.m_ProductName = value; }
}
public string Lot
{
get { return this.m_Lot; }
set { this.m_Lot = value; }
}
public string StartTime
{
get { return this.m_StartTime; }
set { this.m_StartTime = value; }
}
public string EndTime
{
get { return this.m_EndTime; }
set { this.m_EndTime = value; }
}
public string OverRange
{
get { return this.m_OverRange; }
set { this.m_OverRange = value; }
}
public string PassRange
{
get { return this.m_PassRange; }
set { this.m_PassRange = value; }
}
public string UnderRange
{
get { return this.m_UnderRange; }
set { this.m_UnderRange = value; }
}
public string TareRange
{
get { return this.m_TareRange; }
set { this.m_TareRange = value; }
}
public int TotalPassCount
{
get { return this.m_TotalPassCount; }
set { this.m_TotalPassCount = value; }
}
public double TotalPassSumWeight
{
get { return this.m_TotalPassSumWeight; }
set { this.m_TotalPassSumWeight = value; }
}
public double TotalPassAverageWeight
{
get { return this.m_TotalPassAverageWeight; }
set { this.m_TotalPassAverageWeight = value; }
}
public double TotalPassVariance
{
get { return this.m_TotalPassVariance; }
set { this.m_TotalPassVariance = value; }
}
public double TotalPassStandardDeviation
{
get
{
return Math.Sqrt(this.TotalPassVariance);
}
}
public double TotalPassPercentage
{
get
{
double ret = 0.0;
string sValue = "";
if (this.TotalPassCount == 0 || this.TotalCount == 0)
ret = 0.0;
else
{
sValue = string.Format("{0:0.00}", ((double)this.TotalPassCount / (double)this.TotalCount) * 100.0);
ret = double.Parse(sValue);
}
return ret;
}
}
public int TotalOverCount
{
get { return this.m_TotalOverCount; }
set { this.m_TotalOverCount = value; }
}
public double TotalOverSumWeight
{
get { return this.m_TotalOverSumWeight; }
set { this.m_TotalOverSumWeight = value; }
}
public double TotalOverPercentage
{
get
{
double ret = 0.0;
string sValue = "";
if (this.TotalOverCount == 0 || this.TotalCount == 0)
ret = 0.0;
else
{
sValue = string.Format("{0:0.00}", ((double)this.TotalOverCount / (double)this.TotalCount) * 100.0);
ret = double.Parse(sValue);
}
return ret;
}
}
public int TotalUnderCount
{
get { return this.m_TotalUnderCount; }
set { this.m_TotalUnderCount = value; }
}
public double TotalUnderSumWeight
{
get { return this.m_TotalUnderSumWeight; }
set { this.m_TotalUnderSumWeight = value; }
}
public double TotalUnderPercentage
{
get
{
double ret = 0.0;
string sValue = "";
if (this.TotalUnderCount == 0 || this.TotalCount == 0)
ret = 0.0;
else
{
sValue = string.Format("{0:0.00}", ((double)this.TotalUnderCount / (double)this.TotalCount) * 100.0);
ret = double.Parse(sValue);
}
return ret;
}
}
public int TotalExNgCount
{
get { return this.m_TotalExNgCount; }
set { this.m_TotalExNgCount = value; }
}
public double TotalExNgPercentage
{
get
{
double ret = 0.0;
string sValue = "";
if (this.TotalExNgCount == 0 || this.TotalCount == 0)
ret = 0.0;
else
{
sValue = string.Format("{0:0.0}", ((double)this.TotalExNgCount / (double)this.TotalCount) * 100);
ret = double.Parse(sValue);
}
return ret;
}
}
public int TotalCount
{
get
{
return this.TotalPassCount + this.TotalOverCount + this.TotalUnderCount + this.TotalExNgCount;
}
}
public int TotalNGCount
{
get
{
return this.TotalOverCount + this.TotalUnderCount + this.TotalExNgCount;
}
}
#endregion
#region Method
private void Initialize()
{
this.ProductName = "-";
this.Lot = "-";
this.StartTime = "-";
this.EndTime = "-";
this.OverRange = "-";
this.PassRange = "-";
this.UnderRange = "-";
this.TareRange = "-";
this.TotalPassCount = 0;
this.TotalPassSumWeight = 0.0;
this.TotalPassAverageWeight = 0.0;
this.TotalPassVariance = 0.0;
this.TotalOverCount = 0;
this.TotalOverSumWeight = 0.0;
this.TotalUnderCount = 0;
this.TotalUnderSumWeight = 0.0;
this.TotalExNgCount = 0;
}
public void Clear()
{
this.Initialize();
}
#endregion
}
#endregion
#region Counter
public class Counter
{
#region Field
private int m_EquipmentColumn;
private int m_SettingCount;
private int m_CurrentTotalPass;
private int m_BeforeTotalPass;
private int m_BeforeLackCNT;
#endregion
#region Constructor
public Counter(int column, int setCNT)
{
this.EquipmentColumn = column;
this.SettingCount = setCNT;
this.Initialize();
}
#endregion
#region Property
public int EquipmentColumn
{
get { return this.m_EquipmentColumn; }
private set { this.m_EquipmentColumn = value; }
}
public int SettingCount
{
get { return this.m_SettingCount; }
set { this.m_SettingCount = value; }
}
public int CurrentTotalPass
{
get { return this.m_CurrentTotalPass; }
set { this.m_CurrentTotalPass = value; }
}
public int CurrentLackCNT
{
get
{
return this.SettingCount - this.CurrentTotalPass;
}
}
public int BeforeTotalPass
{
get { return this.m_BeforeTotalPass; }
private set { this.m_BeforeTotalPass = value; }
}
public int BeforeLackCNT
{
get { return this.m_BeforeLackCNT; }
set { this.m_BeforeLackCNT = value; }
}
#endregion
#region Method
private void Initialize()
{
this.Clear();
}
public void Clear()
{
this.CurrentTotalPass = 0;
this.BeforeTotalPass = 0;
this.BeforeLackCNT = 0;
}
public bool SetCount(DataStore.JudgmentStatus status)
{
bool ret = false;
if (status == DataStore.JudgmentStatus.Pass)
this.CurrentTotalPass++;
if (this.CurrentLackCNT > this.SettingCount - this.EquipmentColumn - 1 || this.CurrentTotalPass == this.SettingCount)
{
ret = true;
}
else
ret = false;
return ret;
}
public bool SetCountStic1(Collection<WeightData> datas)
{
bool ret = false;
for (int i = 0; i < datas.Count; i++)
{
if (datas[i].JudgmentStatus == DataStore.JudgmentStatus.Pass)
this.CurrentTotalPass++;
}
if (this.CurrentLackCNT <= this.EquipmentColumn - 1 || this.CurrentTotalPass == this.SettingCount)
{
ret = true;
this.BeforeTotalPass = this.CurrentTotalPass;
this.BeforeLackCNT = this.SettingCount - this.CurrentTotalPass;
this.CurrentTotalPass = 0;
}
else
ret = false;
return ret;
}
public bool SetCountStic2(Collection<WeightData> datas)
{
bool ret = false;
for (int i = 0; i < datas.Count; i++)
{
if (datas[i].IsUpdate == true)
{
if (datas[i].JudgmentStatus == DataStore.JudgmentStatus.Pass)
this.CurrentTotalPass++;
}
}
if (this.CurrentLackCNT <= this.EquipmentColumn - 1 || this.CurrentTotalPass == this.SettingCount)
{
ret = true;
this.BeforeTotalPass = this.CurrentTotalPass;
this.BeforeLackCNT = this.SettingCount - this.CurrentTotalPass;
this.CurrentTotalPass = 0;
}
else
ret = false;
return ret;
}
#endregion
}
#endregion
#region DataViewerFilter
public class DataViewerFilter
{
#region Field
private bool m_TpyeAlarm;
private bool m_TypeOperation;
private bool m_TypeParameter;
#endregion
#region Constructor
public DataViewerFilter()
{
this.Initialize();
}
#endregion
#region Property
public bool TypeAlarm
{
get { return this.m_TpyeAlarm; }
set { this.m_TpyeAlarm = value; }
}
public bool TypeOperation
{
get { return this.m_TypeOperation; }
set { this.m_TypeOperation = value; }
}
public bool TypeParameter
{
get { return this.m_TypeParameter; }
set { this.m_TypeParameter = value; }
}
#endregion
#region Method
private void Initialize()
{
this.TypeAlarm = true;
this.TypeOperation = true;
this.TypeParameter = true;
}
#endregion
}
#endregion
#region HistoryData
public class HistoryData
{
#region Field
private string m_Type;
private DateTime m_Time;
private string m_LoginID;
private Object m_Event;
private string m_Detail;
private string m_BeforeData;
private string m_AfterData;
#endregion
#region Constructor
public HistoryData()
{
}
#endregion
#region Property
public string Type
{
get { return this.m_Type; }
set { this.m_Type = value; }
}
public DateTime Time
{
get { return this.m_Time; }
set { this.m_Time = value; }
}
public string LoginID
{
get { return this.m_LoginID; }
set { this.m_LoginID = value; }
}
public Object Event
{
get { return this.m_Event; }
set { this.m_Event = value; }
}
public string Detail
{
get { return this.m_Detail; }
set { this.m_Detail = value; }
}
public string BeforeData
{
get { return this.m_BeforeData; }
set { this.m_BeforeData = value; }
}
public string AfterData
{
get { return this.m_AfterData; }
set { this.m_AfterData = value; }
}
#endregion
#region Method
private void Initialize()
{
this.Type = "";
this.Time = new DateTime();
this.LoginID = "-";
this.Event = new object();
this.Detail = "";
this.AfterData = "";
this.BeforeData = "";
}
#endregion
}
#endregion
#region DataBackupYear
public class DataBackupYear
{
#region Field
private string m_Year;
public List<DataBackupMonth> Months;
#endregion
#region Constructor
public DataBackupYear(string year)
{
this.Initialize();
this.Year = year;
}
#endregion
#region Property
public string Year
{
get { return this.m_Year; }
private set { this.m_Year = value; }
}
#endregion
#region Method
private void Initialize()
{
this.Year = "";
this.Months = new List<DataBackupMonth>();
}
#endregion
}
#endregion
#region DataBackupMonth
public class DataBackupMonth
{
#region Field
private string m_Month;
public List<string> Days;
#endregion
#region Constructor
public DataBackupMonth(string month)
{
this.Initialize();
this.Month = month;
}
#endregion
#region Property
public string Month
{
get { return this.m_Month; }
private set { this.m_Month = value; }
}
#endregion
#region Method
private void Initialize()
{
this.Month = "";
this.Days = new List<string>();
}
#endregion
}
#endregion
#region FileHeaderItem
public class FileHeaderItem
{
#region Field
private int m_EquipmentColumns;
private int m_EquipmentType;
private string m_LoginId;
private string m_SerialNumber;
private DateTime m_TimeStamp;
#endregion
#region Constructor
public FileHeaderItem()
{
}
#endregion
#region Property
public int EquipmentColumns
{
get { return this.m_EquipmentColumns; }
set { this.m_EquipmentColumns = value; }
}
public int EquipmentType
{
get { return this.m_EquipmentType; }
set { this.m_EquipmentType = value; }
}
public string LoginId
{
get { return this.m_LoginId; }
set { this.m_LoginId = value; }
}
public string SerialNumber
{
get { return this.m_SerialNumber; }
set { this.m_SerialNumber = value; }
}
public DateTime TimeStamp
{
get { return this.m_TimeStamp; }
set { this.m_TimeStamp = value; }
}
#endregion
#region Method
#endregion
}
#endregion
#region Struct FileHeaderItem
[StructLayout(LayoutKind.Sequential)]
public struct StructFileHeaderItem
{
public int EquipmentColumns;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = 20)]
public string LoginId;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = 20)]
public string SerialNumber;
public DateTime TimeStamp;
}
#endregion
#region CalibrationStatus
public class CalibrationStatus
{
#region Field
private bool m_IsFinish;
private bool m_IsError;
private bool m_IsCancel;
#endregion
#region Constructor
public CalibrationStatus()
{
this.Initialize();
}
#endregion
#region Property
public bool IsFinish
{
get { return this.m_IsFinish; }
set { this.m_IsFinish = value; }
}
public bool IsError
{
get { return this.m_IsError; }
set { this.m_IsError = value; }
}
public bool IsCancel
{
get { return this.m_IsCancel; }
set { this.m_IsCancel = value; }
}
#endregion
#region Method
public void Initialize()
{
this.IsFinish = false;
this.IsError = false;
this.IsCancel = false;
}
#endregion
}
#endregion
}
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