887 lines
40 KiB
Plaintext
887 lines
40 KiB
Plaintext
Function WO_MAT_Actions(Action, CalcColName, FSList, Handle, Name, FMC, Record, Status, OrigRecord, Param1, Param2, Param3, Param4, Param5, Param6, Param7, Param8, Param9, Param10)
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#pragma precomp SRP_PreCompiler
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/***********************************************************************************************************************
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This program is proprietary and is not to be used by or disclosed to others, nor is it to be copied without written
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permission from Infineon.
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Name : WO_MAT_Actions
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Description : Handles calculated columns and MFS calls for the current table.
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Notes : This function uses @ID, @RECORD, and @DICT to make sure {ColumnName} references work correctly.
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If called from outside of a calculated column these will need to be set and restored.
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Parameters :
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Action [in] -- Name of the action to be taken
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CalcColName [in] -- Name of the calculated column that needs to be processed. Normally this should only be
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populated when the CalcField action is being used.
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FSList [in] -- The list of MFSs and the BFS name for the current file or volume. This is an @SVM
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delimited array, with the current MFS name as the first value in the array, and the BFS
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name as the last value. Normally set by a calling MFS.
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Handle [in] -- The file handle of the file or media map being accessed. Note, this does contain the
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entire handle structure that the Basic+ Open statement would provide. Normally set by a
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calling MFS.
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Name [in] -- The name (key) of the record or file being accessed. Normally set by a calling MFS.
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FMC [in] -- Various functions. Normally set by a calling MFS.
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Record [in] -- The entire record (for record-oriented functions) or a newly-created handle (for
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"get handle" functions). Normally set by a calling MFS.
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Status [in/out] -- Indicator of the success or failure of an action. Normally set by the calling MFS but
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for some actions can be set by the action handler to indicate failure.
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OrigRecord [in] -- Original content of the record being processed by the current action. This is
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automatically being assigned by the WRITE_RECORD and DELETE_RECORD actions within
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BASE_MFS.
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Param1-10 [in/out] -- Additional request parameter holders
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ActionFlow [out] -- Used to control the action chain (see the ACTION_SETUP insert for more information.)
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Can also be used to return a special value, such as the results of the CalcField
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method.
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History : (Date, Initials, Notes)
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07/28/10 dmb Original programmer.
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10/13/10 dmb Fix logic to extract the file handle if file has an index
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03/26/11 dmb Add logic to save and restore @FILE.ERROR
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***********************************************************************************************************************/
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$insert APP_INSERTS
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$insert FILE.SYSTEM.EQUATES
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$insert ACTION_SETUP
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$insert WO_MAT_EQUATES
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$insert WO_LOG_EQUATES
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$insert WO_STEP_EQUATES
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$insert MAKEUP_WAFERS_EQUATES
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$insert RLIST_EQUATES
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Equ Comma$ to ','
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Declare function Error_Services, Database_Services, Environment_Services, Logging_Services, obj_WO_Mat, Max
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Declare function GaN_Services, Signature_Services, obj_WO_LOG, SRP_Array, MemberOf, Datetime
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Declare subroutine Error_Services, Database_Services, Environment_Services, Logging_Services, Obj_SAP, obj_Notes
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Declare subroutine SAP_Services, Material_Services, RList, Service_Services
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LogPath = Environment_Services('GetApplicationRootPath') : '\LogFiles\WO_Mat'
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LogDate = Oconv(Date(), 'D4/')
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LogTime = Oconv(Time(), 'MTS')
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LogFileName = LogDate[7, 4] : '-' : LogDate[1, 2] : '-' : LogDate[4, 2] : ' Work Order Log.csv'
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Headers = 'Logging DTM' : @FM : 'User' : @FM : 'WOMatKeyID' : @FM : 'HotLot' : @FM : 'HotLotOrig' : @FM : 'Notes'
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objLog = Logging_Services('NewLog', LogPath, LogFileName, CRLF$, Comma$, Headers, '', False$, False$)
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LoggingDTM = LogDate : ' ' : LogTime ; // Logging DTM
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LogFileName = LogDate[7, 4] : '-' : LogDate[1, 2] : '-' : LogDate[4, 2] : ' Work Order Material.csv'
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Headers = 'Logging DTM' : @FM : 'User' : @FM : 'WOMatKeyID' : @FM : 'Notes'
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objLog2 = Logging_Services('NewLog', LogPath, LogFileName, CRLF$, Comma$, Headers, '', False$, False$)
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LogFileName = LogDate[7, 4] : '-' : LogDate[1, 2] : '-' : LogDate[4, 2] : ' RDS Erase Attempt.csv'
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Headers = 'Logging DTM' : @FM : 'User' : @FM : 'RDSNo' : @FM : 'WOMatKeyID' : @FM : 'RDS<WO_MAT_KEY>' : @FM : 'Error'
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objLog3 = Logging_Services('NewLog', LogPath, LogFileName, CRLF$, Comma$, Headers, '', False$, False$)
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LogFileName = LogDate[7, 4] : '-' : LogDate[1, 2] : '-' : LogDate[4, 2] : ' NCR Slot List.csv'
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Headers = 'Logging DTM' : @FM : 'User' : @FM : 'WOMatKeyID' : @FM : 'NCR by Slot' : @FM : 'Stack'
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objNCRLog = Logging_Services('NewLog', LogPath, LogFileName, CRLF$, Comma$, Headers, '', False$, False$)
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LogFileName = LogDate[7, 4] : '-' : LogDate[1, 2] : '-' : LogDate[4, 2] : ' Slot List Error.csv'
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Headers = 'Logging DTM' : @FM : 'User' : @FM : 'WOMatKeyID' : @FM : 'Last Slot' : @FM : 'Stack'
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objSlotLog = Logging_Services('NewLog', LogPath, LogFileName, CRLF$, Comma$, Headers, '', False$, False$)
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If KeyID then GoSub Initialize_System_Variables
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Begin Case
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Case Action _EQC 'CalculateColumn' ; GoSub CalculateColumn
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Case Action _EQC 'READ_RECORD_PRE' ; GoSub READ_RECORD_PRE
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Case Action _EQC 'READ_RECORD' ; GoSub READ_RECORD
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Case Action _EQC 'READONLY_RECORD_PRE' ; GoSub READONLY_RECORD_PRE
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Case Action _EQC 'READONLY_RECORD' ; GoSub READONLY_RECORD
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Case Action _EQC 'WRITE_RECORD_PRE' ; GoSub WRITE_RECORD_PRE
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Case Action _EQC 'WRITE_RECORD' ; GoSub WRITE_RECORD
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Case Action _EQC 'DELETE_RECORD_PRE' ; GoSub DELETE_RECORD_PRE
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Case Action _EQC 'DELETE_RECORD' ; GoSub DELETE_RECORD
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Case Otherwise$ ; Status = 'Invalid Action'
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End Case
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If KeyID then GoSub Restore_System_Variables
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If Assigned(ActionFlow) else ActionFlow = ACTION_CONTINUE$
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Return ActionFlow
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// ----- Calculated Columns --------------------------------------------------------------------------------------------
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//
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// The typical structure of a calculated column will look like this:
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//
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// Declare function TableName_Actions
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//
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// A = {COL1} ; * Reference as many data columns in this way to ensure the dictionary dependency is generated.
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//
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// @ANS = TableName_Actions('CalcField', 'CalcColName')
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//
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// ---------------------------------------------------------------------------------------------------------------------
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CalculateColumn:
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// Make sure the ActionFlow return variable is cleared in case nothing is calculated.
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ActionFlow = ''
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Begin Case
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Case CalcColName EQ 'CURR_LOCATION' ; GoSub CURR_LOCATION
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Case CalcColName EQ 'HOT_LOT_FLAG' ; GoSub HOT_LOT_FLAG
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Case CalcColName EQ 'LOAD_WFR_CNT' ; GoSub LOAD_WFR_CNT
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Case CalcColName EQ 'SAP_YIELD' ; GoSub SAP_YIELD
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Case CalcColName EQ 'WO_REACT_TYPE' ; GoSub WO_REACT_TYPE
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Case CalcColName EQ 'FINAL_SIG_DT' ; GoSub FINAL_SIG_DT
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Case CalcColName EQ 'FINAL_SIG_DTM' ; GoSub FINAL_SIG_DTM
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End Case
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return
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CURR_LOCATION:
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LastWH = @RECORD<6>[-1,'B':@VM]
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LastLoc = @RECORD<7>[-1,'B':@VM]
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Tmp = ''
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IF @RECORD<13> NE '' THEN
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Tmp = '' ;* Shipped
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END ELSE
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IF LastWH NE '' AND LastLoc NE '' THEN
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Tmp = LastWH:'*':LastLoc
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IF Tmp = 'SR*SB' THEN Tmp = ''
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END
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END
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ActionFlow = Tmp
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return
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FINAL_SIG_DT:
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ActionFlow = {FQA_DT}
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return
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FINAL_SIG_DTM:
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ActionFlow = {FQA_DTM}
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return
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HOT_LOT_FLAG:
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ActionFlow = Xlate('WO_LOG', {WO_NO}, 'HOT_FLAG', 'X')
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return
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LOAD_WFR_CNT:
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ActionFlow = '' ; // Default description.
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WOLogRow = Database_Services('ReadDataRow', 'WO_LOG', {WO_NO})
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ReactType = WOLogRow<WO_LOG_REACT_TYPE$>
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If ReactType _EQC 'EPP' OR ReactType _EQC 'EpiPro' then
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WOStepKeyID = WOLogRow<WO_LOG_WO_STEP_KEY$>
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WOStepRow = Database_Services('ReadDataRow', 'WO_STEP', WOStepKeyID)
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Cassette = @ID[-1, 'B*']
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RDSNo = WOStepRow<WO_STEP_RDS_KEY$, Cassette>
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ActionFlow = Xlate('REACT_RUN', RDSNo, 'LOAD_WFR_CNT', 'X')
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end else
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ActionFlow = ''
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end
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return
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SAP_YIELD:
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If {REACTOR_TYPE} NE 'GAN' then
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SAPData = obj_WO_Mat('GetGRProps',@ID:@RM:@RECORD)
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* SAPData = GRWfrQty:@FM:ScrapQty:@FM:ProdTWQty:@FM:MUWfrQty
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ActionFlow = SAPData<1> + SAPData<4>
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end else
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YieldInfo = Gan_Services('GetYieldInfo', {RDS_NO}, '')
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GRWfrQty = YieldInfo<1>
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ScrapQty = YieldInfo<2>
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ProdTWQty = YieldInfo<3>
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DummyQty = YieldInfo<4>
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Yield = GRWfrQty - ScrapQty - ProdTWQty - DummyQty
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ActionFlow = Yield
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end
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return
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WO_REACT_TYPE:
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WOLogRow = Database_Services('ReadDataRow', 'WO_LOG', {WO_NO})
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ActionFlow = WOLogRow<WO_LOG_REACT_TYPE$>
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return
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// ----- MFS calls -----------------------------------------------------------------------------------------------------
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READ_RECORD_PRE:
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// In order to stop a record from being read in this action these lines of code must be used:
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//
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// OrigFileError = 100 : @FM : KeyID
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// Status = 0
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// Record = ''
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// ActionFlow = ACTION_STOP$
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return
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READ_RECORD:
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// In order to stop a record from being read in this action these lines of code must be used:
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//
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// OrigFileError = 100 : @FM : KeyID
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// Status = 0
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// Record = ''
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return
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READONLY_RECORD_PRE:
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// In order to stop a record from being read in this action these lines of code must be used:
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//
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// OrigFileError = 100 : @FM : KeyID
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// Status = 0
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// Record = ''
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// ActionFlow = ACTION_STOP$
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return
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READONLY_RECORD:
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// In order to stop a record from being read in this action these lines of code must be used:
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//
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// OrigFileError = 100 : @FM : KeyID
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// Status = 0
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// Record = ''
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return
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WRITE_RECORD_PRE:
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WOMatKeyID = Name
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OrigRDSNo = OrigRecord<WO_MAT_RDS_NO$>
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NewRDSNo = Record<WO_MAT_RDS_NO$>
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If OrigRDSNo NE '' and NewRDSNo EQ '' and Not(MemberOf(@User4, 'OI_ADMIN')) then
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Record<WO_MAT_RDS_NO$> = OrigRDSNo
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SaveRecord = Record
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LogData = ''
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LogData<1> = LoggingDTM
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LogData<2> = @USER4
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LogData<3> = OrigRDSNo
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LogData<4> = WOMatKeyID
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If OrigRDSNo NE '' then
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LogData<5> = Xlate('RDS', OrigRDSNo, 'WO_MAT_KEY', 'X')
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end else
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LogData<5> = ''
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end
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LogData<6> = 'RDS number cannot be removed. Setting RDS number back.'
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Machine = Environment_Services('GetServer')
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Logging_Services('AppendLog', ObjLog3, LogData, @RM, @FM, False$)
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end
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WaferQty = Record<WO_MAT_WAFER_QTY$>
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If ( (WaferQty LT 0) or (WaferQty GT 25) ) then
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// Erroneous wafer quantity save attempt. Fallback to default wafer quantity of 25.
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Record<WO_MAT_WAFER_QTY$> = 25
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SaveRecord = Record
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end
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If ({REACTOR_TYPE} EQ 'GAN') and ({FQA_DTM} NE {CASS_FINAL_SIG_DTM}) then
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// Copy FQA date and datetime
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DTM = {CASS_FINAL_SIG_DTM}
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{FQA_DTM} = DTM
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Date = {CASS_FINAL_SIG_DTM}[1, 'F.']
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{FQA_DT} = Date
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SaveRecord = @Record
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end
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// Sync up NCR signatures
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NewNCRList = Record<WO_MAT_NCR_KEYS$>
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OrigNCRList = OrigRecord<WO_MAT_NCR_KEYS$>
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NewNCRSigs = Record<WO_MAT_NCR_FINAL_SIG$>
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NewNCRSigDTMs = Record<WO_MAT_NCR_FINAL_SIG_DTM$>
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// Check for deleted NCRs to remove final NCR signatures as needed.
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For each OrigNCRNo in OrigNCRList using @VM setting vPos
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NewNCRNo = NewNCRList<0, vPos>
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If NewNCRNo EQ '' then
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// An NCR has been deleted so we need to remove any final NCR signatures associate with it.
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NewNCRSigs<0, vPos> = ''
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NewNCRSigDTMs<0, vPos> = ''
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end
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Next OrigNCRNo
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// Check for new NCRs to copy their final signature to the WO_MAT record.
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For each NewNCRNo in NewNCRList using @VM setting vPos
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// This is a new NCR, so copy the signature.
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NewNCRSigs<0, vPos> = Xlate('NCR', NewNCRNo, 'AUTH_SHIP_SIG', 'X')
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NewNCRSigDTMs<0, vPos> = Xlate('NCR', NewNCRNo, 'AUTH_SHIP_SIG_DTM', 'X')
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Next NewNCRNo
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// Trim trailing @VMs to avoid WO_MAT CURR_STATUS from erroneously calculating an open NCR is present.
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NewNCRSigs = SRP_Array('Clean', NewNCRSigs, 'Trim', @VM)
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NewNCRSigDTMs = SRP_Array('Clean', NewNCRSigDTMs, 'Trim', @VM)
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Record<WO_MAT_NCR_FINAL_SIG$> = NewNCRSigs
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Record<WO_MAT_NCR_FINAL_SIG_DTM$> = NewNCRSigDTMs
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SaveRecord = Record
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WONo = Field(Name, '*', 1)
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ReactType = Xlate('WO_LOG', WONo, 'REACT_TYPE', 'X')
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GaN = (ReactType EQ 'GAN')
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If GaN then
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// Sync QA signature with WO_MAT signature profile.
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OrigCassFinalSig = OrigRecord<WO_MAT_CASS_FINAL_SIG$>
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OrigCassFinalSigDTM = OrigRecord<WO_MAT_CASS_FINAL_SIG_DTM$>
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CassFinalSig = Record<WO_MAT_CASS_FINAL_SIG$>
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CassFinalSigDTM = Record<WO_MAT_CASS_FINAL_SIG_DTM$>
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If ( (OrigCassFinalSig NE CassFinalSig) or (OrigCassFinalSigDTM NE CassFinalSigDTM) ) then
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WOMatStage = '1G_FQA'
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SigProf = Record<WO_MAT_SIG_PROFILE$>
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Sigs = Record<WO_MAT_SIGNATURE$>
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SigDTMs = Record<WO_MAT_SIG_DTM$>
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Locate WOMatStage in SigProf using @VM setting vPos then
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Sigs<0, vPos> = CassFinalSig
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SigDTMs<0, vPos> = CassFinalSigDTM
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Record<WO_MAT_SIGNATURE$> = Sigs
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Record<WO_MAT_SIG_DTM$> = SigDTMs
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SaveRecord = Record
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end
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end
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end
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Begin Case
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Case {REACTOR_TYPE} EQ 'EPP'
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// EpiPro Silicon - Populate OUT_SLOT_NCR column in WO_MAT record
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NCRKeyChange = (OrigRecord<WO_MAT_NCR_KEYS$> NE Record<WO_MAT_NCR_KEYS$>)
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NCRSlotChange = (OrigRecord<WO_MAT_EPOS_NCR$> NE Record<WO_MAT_EPOS_NCR$>)
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WOMatSlotNCRs = {EPOS_NCR}
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NCRKeys = {NCR_KEYS}
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ChangeDetected = (NCRKeyChange or NCRSlotChange)
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If ChangeDetected then
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For each NCRKey in NCRKeys using @VM setting vPos
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OutSlotNos = Xlate('NCR', NCRKey, 'OUT_SLOT_NO', 'X')
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If OutSlotNos NE '' then
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For each SlotNo in OutSlotNos using @VM setting sPos
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WOMatSlotNCRs<0, SlotNo> = NCRKey
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Next SlotNo
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end
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Next NCRKey
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// Pad value marks if necessary
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NumSlots = DCount(WOMatSlotNCRs, @VM)
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If NumSlots LT 25 then WOMatSlotNCRs<0, 25> = ''
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Record<WO_MAT_EPOS_NCR$> = WOMatSlotNCRs
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SaveRecord = Record
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end
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Case {REACTOR_TYPE} EQ 'GAN'
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// Galiumn Nitride - Currently no issues with NCR keys getting erased, so nothing to do here.
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Null
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Case Otherwise$
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// Non-EpiPro Silicon - Populate SLOT_NCR column in WO_MAT record
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NCRKeyChange = (OrigRecord<WO_MAT_NCR_KEYS$> NE Record<WO_MAT_NCR_KEYS$>)
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NCRSlotChange = (OrigRecord<WO_MAT_SLOT_NCR$> NE Record<WO_MAT_SLOT_NCR$>)
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ChangeDetected = (NCRKeyChange or NCRSlotChange)
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If ChangeDetected then
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SlotNCRs = {SLOT_NCR}
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NCRKeys = {NCR_KEYS}
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For each NCRKey in NCRKeys using @VM setting vPos
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NCRSlotNos = Xlate('NCR', NCRKey, 'SLOT_NO', 'X')
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If NCRSlotNos NE '' then
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For each SlotNo in NCRSlotNos using @VM setting Dummy
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SlotNCRs<0, SlotNo> = NCRKey
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Next SlotNo
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end
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Next NCRKey
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Record<WO_MAT_SLOT_NCR$> = SlotNCRs
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SaveRecord = Record
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end
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End Case
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TWChangeDetected = (OrigRecord<WO_MAT_SLOT_MET_NO$> NE Record<WO_MAT_SLOT_MET_NO$>)
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If TWChangeDetected then
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Begin Case
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Case {REACTOR_TYPE} EQ 'EPP'
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// EpiPro silicon -> build list of RDS_TEST keys and select those with TW_USE key(s).
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RDSNos = Xlate('WM_IN', {WMI_KEY}, 'RDS_NO', 'X')
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RDSNos = SRP_Array('Clean', RDSNos, 'TrimAndMakeUnique', @VM)
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If RDSNos NE '' then
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Query = 'SELECT RDS_TEST '
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For each RDSNo in RDSNos using @VM setting vPos
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If vPos EQ 1 then
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Query := 'WITH RDS_NO EQ ':RDSNo:' '
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end else
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Query := 'OR WITH RDS_NO EQ ':RDSNo:' '
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end
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Next RDSNo
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EOF = False$
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RecordCopy = Record
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RList(Query, TARGET_LATENTLIST$, '', '', '')
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Query = 'SELECT RDS_TEST WITH TW_USE_ID NE ""'
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RList(Query, TARGET_LATENTLIST$, '', '', '')
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|
RDSTestKeys = ''
|
|
Loop
|
|
ReadNext KeyID else EOF = True$
|
|
Until EOF
|
|
RDSTestKeys<0, -1> = KeyID
|
|
Repeat
|
|
TWUseKeys = Xlate('RDS_TEST', RDSTestKeys, 'TW_USE_ID', 'X')
|
|
WaferIDs = Xlate('TW_USE', TWUseKeys, 'WAFER_ID', 'X')
|
|
SlotMetNos = ''
|
|
For each WaferID in WaferIDs using @VM setting vPos
|
|
SlotNo = Field(WaferID, '*', 3)
|
|
SlotMetNos<0, SlotNo> = TWUseKeys<0, vPos>
|
|
Next WaferID
|
|
Done = False$
|
|
NumVMs = DCount(SlotMetNos, @VM)
|
|
// Pad column with @VMs
|
|
If NumVMs LT 25 then SlotMetNos<0, 25> = ''
|
|
Record = RecordCopy
|
|
Record<WO_MAT_SLOT_MET_NO$> = SlotMetNos
|
|
SaveRecord = Record
|
|
end
|
|
Case {REACTOR_TYPE} EQ 'GAN'
|
|
// Gallium nitride -> TW_USE records do not apply, so nothing to do.
|
|
Null
|
|
Case Otherwise$
|
|
|
|
// Non-EpiPro silicon -> lookup RDS_TEST record and interrogate it for TW_USE key(s).
|
|
RDSNo = Record<WO_MAT_RDS_NO$>
|
|
If RDSNo NE '' then
|
|
Query = 'SELECT RDS_TEST WITH RDS_NO EQ ':RDSNo
|
|
EOF = False$
|
|
RecordCopy = Record
|
|
RList(Query, TARGET_LATENTLIST$, '', '', '')
|
|
Query = 'SELECT RDS_TEST WITH TW_USE_ID NE ""'
|
|
RList(Query, TARGET_LATENTLIST$, '', '', '')
|
|
RDSTestKeys = ''
|
|
Loop
|
|
ReadNext KeyID else EOF = True$
|
|
Until EOF
|
|
RDSTestKeys<0, -1> = KeyID
|
|
Repeat
|
|
TWUseKeys = Xlate('RDS_TEST', RDSTestKeys, 'TW_USE_ID', 'X')
|
|
// Rebuild list
|
|
SlotMetNos = ''
|
|
For each TWUseKey in TWUseKeys using @VM setting tPos
|
|
WaferIDs = Xlate('TW_USE', TWUseKey, 'WAFER_ID', 'X')
|
|
For each WaferID in WaferIDs using @VM setting vPos
|
|
SlotNo = Field(WaferID, '*', 3)
|
|
SlotMetNos<0, SlotNo> = TWUseKey
|
|
Next WaferID
|
|
Next TWUseKey
|
|
NumVMs = DCount(SlotMetNos, @VM)
|
|
// Pad column with @VMs
|
|
If NumVMs LT 25 then SlotMetNos<0, 25> = ''
|
|
Record = RecordCopy
|
|
Record<WO_MAT_SLOT_MET_NO$> = SlotMetNos
|
|
SaveRecord = Record
|
|
end
|
|
End Case
|
|
end
|
|
|
|
// Verify slot list does not exceed 25
|
|
NewSlotList = Record<WO_MAT_SLOT_NO$>
|
|
NumSlots = DCount(NewSlotList, @VM)
|
|
LastSlot = NewSlotList[-1, 'B':@VM]
|
|
If ( (NumSlots GT 25) or (LastSlot GT 25) ) then
|
|
|
|
LogCount = Max(NumSlots, LastSlot)
|
|
// Correct the slot column
|
|
NewSlotList = ''
|
|
For Slot = 1 to 25
|
|
NewSlotList<0, Slot> = Slot
|
|
Next Slot
|
|
Record<WO_MAT_SLOT_NO$> = NewSlotList
|
|
SaveRecord = Record
|
|
|
|
// Log the error
|
|
Stack = RetStack()
|
|
Swap @FM with CRLF$ in Stack
|
|
LogData = ''
|
|
LogData<1> = LoggingDTM
|
|
LogData<2> = @User4
|
|
LogData<3> = Name
|
|
LogData<4> = LogCount
|
|
LogData<5> = CRLF$:Stack
|
|
Logging_Services('AppendLog', objSlotLog, LogData, @RM, @FM)
|
|
|
|
// Send internal LSL message to OI admins
|
|
Recipients = XLATE('SEC_GROUPS', 'OI_ADMIN', 'USER', 'X')
|
|
SentFrom = @USER4
|
|
Subject = 'Slot count exceeds 25!'
|
|
Message = 'WO_MAT key ':Name
|
|
AttachWindow = 'WO_MAT'
|
|
AttachKey = Name
|
|
SendToGroup = ''
|
|
Parms = Recipients:@RM:SentFrom:@RM:Subject:@RM:Message:@RM:AttachWindow:@RM:AttachKey:@RM:SendToGroup
|
|
obj_Notes('Create',Parms)
|
|
end
|
|
|
|
If {REACTOR_TYPE} EQ 'EPP' then
|
|
WMKey = Field(Name, '*', 1):'*1*':Field(Name, '*', 2)
|
|
// Only set fields if the records exist, otherwise WO_MAT curr status can be calculated incorrectly.
|
|
If RowExists('WM_IN', WMKey) then Record<WO_MAT_WMI_KEY$> = WMKey
|
|
If RowExists('WM_OUT', WMKey) then Record<WO_MAT_WMO_KEY$> = WMKey
|
|
SaveRecord = Record
|
|
end
|
|
|
|
SigProf = Record<WO_MAT_SIG_PROFILE$>
|
|
Sigs = Record<WO_MAT_SIGNATURE$>
|
|
SigDtms = Record<WO_MAT_SIG_DTM$>
|
|
NumSteps = DCount(SigProf, @VM)
|
|
Record<WO_MAT_SIGNATURE$> = Field(Sigs, @VM, 1, NumSteps)
|
|
Record<WO_MAT_SIG_DTM$> = Field(SigDtms, @VM, 1, NumSteps)
|
|
SaveRecord = Record
|
|
|
|
NewMUFlag = Record<WO_MAT_MAKEUP_BOX$>
|
|
OrigMUFlag = OrigRecord<WO_MAT_MAKEUP_BOX$>
|
|
If NewMUFlag NE OrigMUFlag then
|
|
SAPBatchNo = Record<WO_MAT_SAP_BATCH_NO$>
|
|
SAPTXDtm = Record<WO_MAT_SAP_TX_DTM$>
|
|
AwaitingBatchNo = ( (SAPTXDtm NE '') and (SAPBatchNo EQ '') )
|
|
FullBoxReject = (SAPBatchNo[-1, 1] = 'R')
|
|
Begin Case
|
|
Case AwaitingBatchNo
|
|
Error_Services('Add', 'Cassette ineligible to be converted as it is awaiting a batch number from SAP.')
|
|
OrigFileError = 104:': Cassette ineligible to be converted as it is awaiting a batch number from SAP.'
|
|
Status = 0
|
|
Record = ''
|
|
ActionFlow = ACTION_STOP$
|
|
Case FullBoxReject
|
|
Error_Services('Add', 'Cassette ineligible to be converted as it is a full box reject.')
|
|
OrigFileError = 104:': Cassette ineligible to be converted as it is a full box reject.'
|
|
Status = 0
|
|
Record = ''
|
|
ActionFlow = ACTION_STOP$
|
|
Case Otherwise$
|
|
Null
|
|
End Case
|
|
end
|
|
|
|
return
|
|
|
|
|
|
WRITE_RECORD:
|
|
|
|
WONo = Field(Name, '*', 1)
|
|
CassNo = Field(Name, '*', 2)
|
|
WOMatKeyID = Name
|
|
|
|
If {REACTOR_TYPE} NE 'EPP' then
|
|
If {MAKEUP_BOX} then
|
|
CurrWaferCount = obj_WO_Mat('CurrWaferCnt', WOMatKeyID)
|
|
If CurrWaferCount GT 0 then
|
|
// Populate MAKEUP_WAFERS table
|
|
// Add/update cassette data to the MAKEUP_WAFERS table
|
|
If RowExists('MAKEUP_WAFERS', WOMatKeyID) then
|
|
MUWfrRec = Database_Services('ReadDataRow', 'MAKEUP_WAFERS', WOMatKeyID)
|
|
end else
|
|
MUWfrRec = ''
|
|
end
|
|
MUWfrRec<MAKEUP_WAFERS.SAP_BATCH_NO$> = {SAP_BATCH_NO}
|
|
MUWfrRec<MAKEUP_WAFERS.PS_NO$> = Xlate('WO_LOG', WONo, 'PS_NO', 'X')
|
|
MUWfrRec<MAKEUP_WAFERS.CUST_NO$> = {CUST_NO}
|
|
MUWfrRec<MAKEUP_WAFERS.PROD_ORD_NO$> = {PROD_ORD_NO}
|
|
MUWfrRec<MAKEUP_WAFERS.WAFER_SIZE$> = {WAFER_SIZE}
|
|
MUWfrRec<MAKEUP_WAFERS.EPI_PART_NO$> = {EPI_PART_NO}
|
|
MUWfrRec<MAKEUP_WAFERS.RDS_NO$> = {RDS_NO}
|
|
MUWfrRec<MAKEUP_WAFERS.WM_OUT_NO$> = '' ; // Only applies to EPP
|
|
MUWfrRec<MAKEUP_WAFERS.PROD_VER_NO$> = {PROD_VER_NO}
|
|
MUWfrRec<MAKEUP_WAFERS.CUST_PART_NO$> = {CUST_PART_NO}
|
|
MUWfrRec<MAKEUP_WAFERS.REACT_TYPE$> = {REACTOR_TYPE}
|
|
MUWfrRec<MAKEUP_WAFERS.CURR_STATUS_STATIC$> = {CURR_STATUS}
|
|
MUWfrRec<MAKEUP_WAFERS.WFR_QTY$> = CurrWaferCount
|
|
DateOut = Xlate('RDS', {RDS_NO}, 'DATE_OUT', 'X')
|
|
TimeOut = Xlate('RDS', {RDS_NO}, 'TIME_OUT', 'X') / 86400
|
|
TimeOut[1, 2] = ''
|
|
TimeOut = TimeOut[1, 5]
|
|
UnloadDTM = DateOut:'.':TimeOut
|
|
MUWfrRec<MAKEUP_WAFERS.UNLOAD_DTM$> = UnloadDTM
|
|
Database_Services('WriteDataRow', 'MAKEUP_WAFERS', WOMatKeyID, MUWfrRec, True$, False$, True$)
|
|
end else
|
|
// Remove cassette data from MAKEUP_WAFERS table if it is present
|
|
If RowExists('MAKEUP_WAFERS', WOMatKeyID) then
|
|
Database_Services('DeleteDataRow', 'MAKEUP_WAFERS', WOMatKeyID, True$, False$)
|
|
end
|
|
end
|
|
end else
|
|
// Remove cassette data from MAKEUP_WAFERS table if it is present
|
|
If RowExists('MAKEUP_WAFERS', WOMatKeyID) then
|
|
Database_Services('DeleteDataRow', 'MAKEUP_WAFERS', WOMatKeyID, True$, False$)
|
|
end
|
|
end
|
|
end
|
|
|
|
OrigSlotNos = OrigRecord<WO_MAT_SLOT_NO$>
|
|
OrigSlotNCRs = OrigRecord<WO_MAT_SLOT_NCR$>
|
|
OrigSlotMetNos = OrigRecord<WO_MAT_SLOT_MET_NO$>
|
|
OrigSlotMovedTos = OrigRecord<WO_MAT_SLOT_MOVED_TO$>
|
|
OrigSlotRepWaferIDs = OrigRecord<WO_MAT_SLOT_REP_WAFER_ID$>
|
|
OrigVoid = OrigRecord<WO_MAT_VOID$>
|
|
OrigShipNo = OrigRecord<WO_MAT_SHIP_NO$>
|
|
OrigInvLoc = OrigRecord<WO_MAT_INV_LOCATION$>
|
|
OrigInvWH = OrigRecord<WO_MAT_INV_WH$>
|
|
OrigWMICurrStatus = OrigRecord<WO_MAT_WMI_CURR_STATUS$>
|
|
OrigWMOCurrStatus = OrigRecord<WO_MAT_WMO_CURR_STATUS$>
|
|
OrigHoldEntity = OrigRecord<WO_MAT_HOLD_ENTITY$>
|
|
OrigSigs = OrigRecord<WO_MAT_SIGNATURE$>
|
|
OrigCancelled = OrigRecord<WO_MAT_CANCELLED$>
|
|
OrigSubSupplBy = OrigRecord<WO_MAT_SUB_SUPPL_BY$>
|
|
OrigRetRejects = OrigRecord<WO_MAT_RET_REJECTS$>
|
|
OrigMakeupBox = OrigRecord<WO_MAT_MAKEUP_BOX$>
|
|
OrigNCRKeys = OrigRecord<WO_MAT_NCR_KEYS$>
|
|
OrigNCRFinalSig = OrigRecord<WO_MAT_NCR_FINAL_SIG$>
|
|
OrigSlotNo = OrigRecord<WO_MAT_SLOT_NO$>
|
|
OrigSlotNCR = OrigRecord<WO_MAT_SLOT_NCR$>
|
|
OrigSlotMetNo = OrigRecord<WO_MAT_SLOT_MET_NO$>
|
|
OrigSlotMovedTo = OrigRecord<WO_MAT_SLOT_MOVED_TO$>
|
|
OrigSlotRepWaferID = OrigRecord<WO_MAT_SLOT_REP_WAFER_ID$>
|
|
OrigSAPBatchNo = OrigRecord<WO_MAT_SAP_BATCH_NO$>
|
|
OrigQty = OrigRecord<WO_MAT_WAFER_QTY$>
|
|
|
|
NewSlotNos = Record<WO_MAT_SLOT_NO$>
|
|
NewSlotNCRs = Record<WO_MAT_SLOT_NCR$>
|
|
NewSlotMetNos = Record<WO_MAT_SLOT_MET_NO$>
|
|
NewSlotMovedTos = Record<WO_MAT_SLOT_MOVED_TO$>
|
|
NewSlotRepWaferIDs = Record<WO_MAT_SLOT_REP_WAFER_ID$>
|
|
NewVoid = Record<WO_MAT_VOID$>
|
|
NewShipNo = Record<WO_MAT_SHIP_NO$>
|
|
NewInvLoc = Record<WO_MAT_INV_LOCATION$>
|
|
NewInvWH = Record<WO_MAT_INV_WH$>
|
|
NewWMICurrStatus = Record<WO_MAT_WMI_CURR_STATUS$>
|
|
NewWMOCurrStatus = Record<WO_MAT_WMO_CURR_STATUS$>
|
|
NewHoldEntity = Record<WO_MAT_HOLD_ENTITY$>
|
|
NewSigs = Record<WO_MAT_SIGNATURE$>
|
|
NewCancelled = Record<WO_MAT_CANCELLED$>
|
|
NewSubSupplBy = Record<WO_MAT_SUB_SUPPL_BY$>
|
|
NewRetRejects = Record<WO_MAT_RET_REJECTS$>
|
|
NewMakeupBox = Record<WO_MAT_MAKEUP_BOX$>
|
|
NewNCRKeys = Record<WO_MAT_NCR_KEYS$>
|
|
NewNCRFinalSig = Record<WO_MAT_NCR_FINAL_SIG$>
|
|
NewSlotNo = Record<WO_MAT_SLOT_NO$>
|
|
NewSlotNCR = Record<WO_MAT_SLOT_NCR$>
|
|
NewSlotMetNo = Record<WO_MAT_SLOT_MET_NO$>
|
|
NewSlotMovedTo = Record<WO_MAT_SLOT_MOVED_TO$>
|
|
NewSlotRepWaferID = Record<WO_MAT_SLOT_REP_WAFER_ID$>
|
|
NewSAPBatchNo = Record<WO_MAT_SAP_BATCH_NO$>
|
|
NewQty = Record<WO_MAT_WAFER_QTY$>
|
|
|
|
** NCR log for troubleshooting ****************************
|
|
LogData = ''
|
|
LogData<1> = LoggingDTM
|
|
LogData<2> = @User4
|
|
LogData<3> = WOMatKeyID
|
|
LogData<4> = NewSlotNCRs
|
|
LogData<5> = RetStack()
|
|
Logging_Services('AppendLog', objNCRLog, LogData, @RM, @FM)
|
|
***********************************************************
|
|
|
|
// Check for ship quantity changes and update WO_LOG<WO_LOG_STATIC_SHIP_QTY$>
|
|
ShipQtyChange = ( (OrigSlotNos NE NewSlotNos) or (OrigSlotNCRs NE NewSlotNCRs) or (OrigSlotMetNos NE NewSlotMetNos) or (OrigSlotMovedTos NE NewSlotMovedTos) or (OrigSlotRepWaferIDs NE NewSlotRepWaferIDs) )
|
|
If ShipQtyChange then
|
|
WOLogRec = Database_Services('ReadDataRow', 'WO_LOG', WONo)
|
|
OrigShipQty = WOLogRec<WO_LOG_STATIC_SHIP_QTY$>
|
|
NewShipQty = obj_WO_Log('ShipQty',WONo:@RM:WOLogRec)
|
|
If OrigShipQty NE NewShipQty then
|
|
WOLogRec<WO_LOG_STATIC_SHIP_QTY$> = NewShipQty
|
|
Database_Services('WriteDataRow', 'WO_LOG', WONo, WOLogRec, True$, False$, True$)
|
|
end
|
|
end
|
|
|
|
// Original MU wafer transaction
|
|
IF OrigSAPBatchNo EQ '' AND NewSAPBatchNo NE '' then
|
|
MULotFlag = False$
|
|
If {REACTOR_TYPE} NE 'EPP' then
|
|
MULotFlag = Record<WO_MAT_MAKEUP_BOX$>
|
|
end else
|
|
WMOKey = Record<WO_MAT_WMO_KEY$>
|
|
IF WMOKey NE '' then
|
|
MULotFlag = XLATE('WM_OUT', WMOKey, 'MAKEUP_BOX', 'X')
|
|
If MULotFlag EQ '' then MULotFlag = False$
|
|
end
|
|
end
|
|
Sap_Services('SendUnTransMU', WOMatKeyID, NewSAPBatchNo, MULotFlag)
|
|
end
|
|
|
|
// SAP transactions
|
|
MakeupBox = Record<WO_MAT_MAKEUP_BOX$>
|
|
SAPBatchNo = Trim(Record<WO_MAT_SAP_BATCH_NO$>)
|
|
MakeupBoxOrig = OrigRecord<WO_MAT_MAKEUP_BOX$>
|
|
|
|
Begin Case
|
|
Case ( (MakeupBox EQ True$) and ( (MakeupBoxOrig EQ False$) or (MakeupBoxOrig EQ '') ) and (SAPBatchNo EQ '') )
|
|
// Intial WIP to MU conversion -> Send CASS_COMP SAP transaction to get a batch number.
|
|
SAP_Services('AddCassCompTransaction', WOMatKeyID)
|
|
Case ( (MakeupBox EQ True$) and ( (MakeupBoxOrig EQ False$) or (MakeupBoxOrig EQ '') ) and (SAPBatchNo NE '') )
|
|
// Converting finished goods cassette into MU cassette -> Send BATCH_CONV transaction to SAP.
|
|
SAP_Services('AddBatchConvTransaction', WOMatKeyID)
|
|
Case ( ( (MakeupBox EQ False$) or (MakeupBox EQ '') ) and (MakeupBoxOrig EQ True$) and (SAPBatchNo NE '') )
|
|
// Converting MU cassette into finished goods cassette -> Send BATCH_CONV transaction to SAP.
|
|
SAP_Services('AddBatchConvTransaction', WOMatKeyID)
|
|
End Case
|
|
|
|
SAPTestFlag = Xlate('APP_INFO', 'SAP_TEST_FLAG', 1, 'X')
|
|
If SAPTestFlag then
|
|
// If makeup wafers added/removed after CASS_COMP and if not shipped -> send to SAP
|
|
IF ({SAP_BATCH_NO} NE '') THEN
|
|
|
|
MakeupBox = {MAKEUP_BOX}
|
|
OrigMUWfrIDs = OrigRecord<WO_MAT_SLOT_MOVED_FROM$>
|
|
NewMUWfrIDs = Record<WO_MAT_SLOT_MOVED_FROM$>
|
|
SAPSLocFrom = ''
|
|
SAPSLocTo = ''
|
|
If (OrigMUWfrIDs NE NewMUWfrIDs) then
|
|
Material = Xlate('WO_LOG', WONo, 'EPI_PART_NO', 'X')
|
|
For WfrIndex = 1 to 25
|
|
BatchFrom = ''
|
|
BatchTo = ''
|
|
OrigMUWfrID = OrigMUWfrIDs<0, WfrIndex>
|
|
NewMUWfrID = NewMUWfrIDs<0, WfrIndex>
|
|
Begin Case
|
|
Case ( (OrigMUWfrID EQ '') and (NewMUWfrID NE '') )
|
|
// MU wafer added
|
|
If MakeupBox EQ True$ then
|
|
// Current box is a makeup box and new box is a makeup box. We want to update
|
|
// the batch number in SAP.
|
|
SAPSLocFrom = '0400'
|
|
SAPSLocTo = '0400'
|
|
end else
|
|
SAPSLocFrom = '0400'
|
|
SAPSLocTo = '0500'
|
|
end
|
|
// Add transaction
|
|
NewMUCassID = Field(NewMUWfrID, '.', 1, 2)
|
|
Convert '.' to '*' in NewMUCassID
|
|
BatchFrom = Xlate('WO_MAT', NewMUCassID, 'SAP_BATCH_NO', 'X')
|
|
BatchTo = {SAP_BATCH_NO}
|
|
If ( (BatchFrom NE '') and (BatchTo NE '') ) then
|
|
TransQty = 1
|
|
obj_SAP('AddTransaction','BATCHMOVE_IN':@RM:Material:@RM:BatchFrom:@RM:BatchTo:@RM:SAPSLocFrom:@RM:SAPSLocTo:@RM:TransQty)
|
|
end
|
|
Case ( (OrigMUWfrID NE '') and (NewMUWfrID EQ '') )
|
|
// MU wafer removed
|
|
If MakeupBox EQ True$ then
|
|
// Current box is a makeup box and new box is a makeup box. We want to update
|
|
// the batch number in SAP.
|
|
SAPSLocFrom = '0400'
|
|
SAPSLocTo = '0400'
|
|
end else
|
|
SAPSLocFrom = '0500'
|
|
SAPSLocTo = '0400'
|
|
end
|
|
// Add transaction
|
|
OrigMUCassID = Field(OrigMUWfrID, '.', 1, 2)
|
|
Convert '.' to '*' in OrigMUCassID
|
|
BatchFrom = {SAP_BATCH_NO}
|
|
BatchTo = Xlate('WO_MAT', OrigMUCassID, 'SAP_BATCH_NO', 'X')
|
|
If ( (BatchTo NE '') and (BatchFrom NE '') ) then
|
|
TransQty = 1
|
|
obj_SAP('AddTransaction','BATCHMOVE_IN':@RM:Material:@RM:BatchFrom:@RM:BatchTo:@RM:SAPSLocFrom:@RM:SAPSLocTo:@RM:TransQty)
|
|
end
|
|
Case Otherwise$
|
|
// No change
|
|
Null
|
|
End Case
|
|
Next WfrIndex
|
|
end
|
|
end
|
|
end
|
|
|
|
PSNo = {WO_STEP_PS_NO}
|
|
|
|
If {REACTOR_TYPE} EQ 'EPP' then
|
|
NewEppMUFlag = Record<WO_MAT_EPO_MAKEUP_BOX$>
|
|
OrigEppMUFlag = OrigRecord<WO_MAT_EPO_MAKEUP_BOX$>
|
|
NewInvActions = Record<WO_MAT_INV_ACTION$>
|
|
OrigInvActions = OrigRecord<WO_MAT_INV_ACTION$>
|
|
If ( (NewEppMUFlag NE OrigEppMUFlag) or (NewInvActions NE OrigInvActions) ) then
|
|
// Need to trigger an update WMO Curr Status field because WM_MFS is not
|
|
// attached to the WO_MAT table and the WMO status may have changed.
|
|
WMOKey = {WMO_KEY}
|
|
WMORec = Database_Services('ReadDataRow', 'WM_OUT', WMOKey)
|
|
If Error_Services('NoError') then
|
|
Database_Services('WriteDataRow', 'WM_OUT', WMOKey, WMORec, True$, False$, True$)
|
|
end
|
|
end
|
|
end
|
|
|
|
If OrigRecord<WO_MAT_WAFER_QTY$> NE Record<WO_MAT_WAFER_QTY$> then
|
|
Service_Services('PostProcedure', 'WORK_ORDER_SERVICES', 'UpdateReceivedQty':@VM:WONo)
|
|
Service_Services('PostProcedure', 'WORK_ORDER_SERVICES', 'UpdateReleasedQty':@VM:WONo)
|
|
end
|
|
|
|
CurrWaferCount = obj_WO_Mat('CurrWaferCnt', WOMatKeyID)
|
|
If CurrWaferCount EQ 0 then
|
|
// This should catch cases where the entire cassette is "peeled off", NCR'ed, or used for destructive testing.
|
|
Service_Services('PostProcedure', 'SCHEDULE_SERVICES', 'MarkCassProcessed':@VM:WONo:@VM:CassNo:@VM:Datetime())
|
|
end
|
|
|
|
return
|
|
|
|
|
|
DELETE_RECORD_PRE:
|
|
return
|
|
|
|
|
|
DELETE_RECORD:
|
|
return
|
|
|
|
|
|
// ----- Internal Methods ----------------------------------------------------------------------------------------------
|
|
|
|
Initialize_System_Variables:
|
|
// Save these for restoration later
|
|
SaveDict = @DICT
|
|
SaveID = @ID
|
|
SaveRecord = @RECORD
|
|
OrigFileError = @FILE.ERROR
|
|
|
|
// Now make sure @DICT, ID, and @RECORD are populated
|
|
CurrentDictName = ''
|
|
If @DICT then
|
|
DictHandle = @DICT<1, 2>
|
|
Locate DictHandle in @TABLES(5) Using @FM Setting fPos then
|
|
CurrentDictName = Field(@TABLES(0), @FM, fPos, 1)
|
|
end
|
|
end
|
|
|
|
If CurrentDictName NE DictName then
|
|
Open DictName to @DICT else Status = 'Unable to initialize @DICT'
|
|
end
|
|
|
|
@ID = KeyID
|
|
If Record else
|
|
// Record might not have been passed in. Read the record from the database table just to make sure.
|
|
@FILE.ERROR = ''
|
|
Open TableName to hTable then
|
|
FullFSList = hTable[1, 'F' : @VM]
|
|
BFS = FullFSList[-1, 'B' : @SVM]
|
|
LastHandle = hTable[-1, 'B' : \0D\]
|
|
FileHandle = \0D\ : LastHandle[1, @VM]
|
|
|
|
Call @BFS(READO.RECORD, BFS, FileHandle, KeyID, FMC, Record, ReadOStatus)
|
|
end
|
|
end
|
|
@RECORD = Record
|
|
return
|
|
|
|
Restore_System_Variables:
|
|
Transfer SaveDict to @DICT
|
|
Transfer SaveID to @ID
|
|
Transfer SaveRecord to @RECORD
|
|
@FILE.ERROR = OrigFileError
|
|
return
|
|
|
|
|