open-insight/LSL2/STPROC/PROD_SPEC_ACTIONS.txt

Function Prod_Spec_Actions(Action, CalcColName, FSList, Handle, Name, FMC, Record, Status, OrigRecord, Param1, Param2, Param3, Param4, Param5, Param6, Param7, Param8, Param9, Param10)
/***********************************************************************************************************************

    This program is proprietary and is not to be used by or disclosed to others, nor is it to be copied without written
    permission from Infineon.

    Name        :   Prod_Spec_Actions

    Description :   Handles calculated columns and MFS calls for the current table.

    Notes       :   This function uses @ID, @RECORD, and @DICT to make sure {ColumnName} references work correctly.
                    If called from outside of a calculated column these will need to be set and restored.

    Parameters  :
        Action          [in] -- Name of the action to be taken
        CalcColName     [in] -- Name of the calculated column that needs to be processed. Normally this should only be
                                populated when the CalcField action is being used.
        FSList          [in] -- The list of MFSs and the BFS name for the current file or volume. This is an @SVM
                                delimited array, with the current MFS name as the first value in the array, and the BFS
                                name as the last value. Normally set by a calling MFS.
        Handle          [in] -- The file handle of the file or media map being accessed. Note, this does contain the
                                entire handle structure that the Basic+ Open statement would provide. Normally set by a
                                calling MFS.
        Name            [in] -- The name (key) of the record or file being accessed. Normally set by a calling MFS.
        FMC             [in] -- Various functions. Normally set by a calling MFS.
        Record          [in] -- The entire record (for record-oriented functions) or a newly-created handle (for
                                "get handle" functions). Normally set by a calling MFS.
        Status      [in/out] -- Indicator of the success or failure of an action. Normally set by the calling MFS but
                                for some actions can be set by the action handler to indicate failure.
        OrigRecord      [in] -- Original content of the record being processed by the current action. This is
                                automatically being assigned by the WRITE_RECORD and DELETE_RECORD actions within
                                BASE_MFS.
        Param1-10   [in/out] -- Additional request parameter holders
        ActionFlow     [out] -- Used to control the action chain (see the ACTION_SETUP insert for more information.)
                                Can also be used to return a special value, such as the results of the CalcField
                                method.

    History     :   (Date, Initials, Notes)
        07/28/10    dmb     Original programmer.
        10/13/10    dmb     Fix logic to extract the file handle if file has an index
        03/26/11    dmb     Add logic to save and restore @FILE.ERROR
        03/24/21    djs     Moved code from PROD_SPEC form WRITE script event into WRITE_RECORD MFS call

***********************************************************************************************************************/

#pragma precomp SRP_PreCompiler

$insert LOGICAL
$insert FILE.SYSTEM.EQUATES
$insert ACTION_SETUP
$insert GAN_PARAM_CONFIG_EQUATES
$insert GAN_PARAMS_EQUATES
$insert PROD_SPEC_EQUATES
$insert RLIST_EQUATES

Equ Tab$                    to \09\
Equ CRLF$                   to \0D0A\
Equ LF$                     to \0A\
Equ Comma$                  to ','

Declare Function   Database_Services, Gan_Services, Error_Services, Logging_Services, Environment_Services
Declare Subroutine Database_Services, obj_Prod_Spec, Error_Services, obj_Notes, Logging_Services

LogPath     = Environment_Services('GetApplicationRootPath') : '\LogFiles\Indexing'
LogDate     = Oconv(Date(), 'D4/')
LogTime     = Oconv(Time(), 'MTS')
LogFileName = LogDate[7, 4] : '-' : LogDate[1, 2] : '-' : LogDate[4, 2] : ' PRS_PROP Index Log.csv'
Headers     = 'Logging DTM' : @FM : 'PROD_SPEC Key ID'
objLog      = Logging_Services('NewLog', LogPath, LogFileName, CRLF$, Comma$, Headers, '', False$, False$)
LoggingDTM  = LogDate : ' ' : LogTime   ; // Logging DTM

If KeyID then GoSub Initialize_System_Variables

Begin Case

    Case Action _EQC 'CalculateColumn'      ;   GoSub CalculateColumn
    Case Action _EQC 'READ_RECORD_PRE'      ;   GoSub READ_RECORD_PRE
    Case Action _EQC 'READ_RECORD'          ;   GoSub READ_RECORD
    Case Action _EQC 'READONLY_RECORD_PRE'  ;   GoSub READONLY_RECORD_PRE
    Case Action _EQC 'READONLY_RECORD'      ;   GoSub READONLY_RECORD
    Case Action _EQC 'WRITE_RECORD_PRE'     ;   GoSub WRITE_RECORD_PRE
    Case Action _EQC 'WRITE_RECORD'         ;   GoSub WRITE_RECORD
    Case Action _EQC 'DELETE_RECORD_PRE'    ;   GoSub DELETE_RECORD_PRE
    Case Action _EQC 'DELETE_RECORD'        ;   GoSub DELETE_RECORD
    Case Otherwise$                         ;   Status = 'Invalid Action'

End Case

If KeyID then GoSub Restore_System_Variables

If Assigned(ActionFlow) else ActionFlow = ACTION_CONTINUE$

Return ActionFlow


// ----- Calculated Columns --------------------------------------------------------------------------------------------
//
// The typical structure of a calculated column will look like this:
//
// Declare function TableName_Actions
//
// A = {COL1} ; * Reference as many data columns in this way to ensure the dictionary dependency is generated.
//
// @ANS = TableName_Actions('CalcField', 'CalcColName')
//
// ---------------------------------------------------------------------------------------------------------------------

CalculateColumn:

    // Make sure the ActionFlow return variable is cleared in case nothing is calculated.
    ActionFlow = ''

    Begin Case
        Case CalcColName EQ 'EXPORT_CONTROL'    ; GoSub EXPORT_CONTROL
        Case CalcColName EQ 'SPEC_TYPE'         ; GoSub SPEC_TYPE
        Case CalcColName EQ 'CURR_PART_NO'      ; GoSub CURR_PART_NO
    End Case
    
return


CURR_PART_NO:
    
    EpiPartNo   = ''
    ProdVerNos  = {PROD_VER_NO}
    NumProdVer  = DCount(ProdVerNos, @VM)
    For ProdVerIndex = NumProdVer to 1 Step -1
        ProdVerNo = ProdVerNos<0, ProdVerIndex>
        Status    = Xlate('PROD_VER', ProdVerNo, 'STATUS', 'X')
        If Status EQ 'A' then EpiPartNo = Xlate('PROD_VER', ProdVerNo, 'EPI_PART_NO', 'X')
    Until EpiPartNo NE ''
    Next ProdVerIndex
    ActionFlow = EpiPartNo
    
return


EXPORT_CONTROL:
    
    PartNums      = {EPI_PART_NO}
    ExportControl = False$    ; // Assume false for now.
    For Each PartNum in PartNums using @VM
        ExportControl = Xlate('EPI_PART', PartNum, 'EXPORT_CONTROL', 'X')
        If ExportControl NE True$ then ExportControl = False$
    Until ExportControl EQ True$
    Next PartNum
    ActionFlow = ExportControl
    
return


SPEC_TYPE:

    ModeCodes = {MODE_CODE}
    ModeSigs  = {MODE_SIG}

    BEGIN CASE
        CASE ModeSigs<0, 4> NE ''	; CurrMode = ModeCodes<0, 4>
        CASE ModeSigs<0, 3> NE ''	; CurrMode = ModeCodes<0, 3>
        CASE ModeSigs<0, 2> NE ''	; CurrMode = ModeCodes<0, 2>
        CASE ModeSigs<0, 1> NE ''	; CurrMode = ModeCodes<0, 1>
        Case Otherwise$             ; CurrMode = 1							
    END CASE

    ActionFlow = CurrMode

return


// ----- MFS calls -----------------------------------------------------------------------------------------------------

READ_RECORD_PRE:
    // In order to stop a record from being read in this action these lines of code must be used:
    //
    //    OrigFileError   = 100 : @FM : KeyID
    //    Status          = 0
    //    Record          = ''
    //    ActionFlow      = ACTION_STOP$
return

READ_RECORD:
    // In order to stop a record from being read in this action these lines of code must be used:
    //
    //    OrigFileError   = 100 : @FM : KeyID
    //    Status          = 0
    //    Record          = ''
return

READONLY_RECORD_PRE:
    // In order to stop a record from being read in this action these lines of code must be used:
    //
    //    OrigFileError   = 100 : @FM : KeyID
    //    Status          = 0
    //    Record          = ''
    //    ActionFlow      = ACTION_STOP$
return

READONLY_RECORD:
    // In order to stop a record from being read in this action these lines of code must be used:
    //
    //    OrigFileError   = 100 : @FM : KeyID
    //    Status          = 0
    //    Record          = ''
return

WRITE_RECORD_PRE:
    
    If {REACTOR_TYPE} EQ 'GAN' then
        If {TECH_TYPE} EQ 'P' then
            // Ensure Wafer Selection is set to CANDELA
            Record<PROD_SPEC_ANKO_WAFER_SELECTION$> = 'CANDELA'
            SaveRecord                              = Record
        end
    end
    
return

WRITE_RECORD:
    
    * Pushes data to new table locations (e.g. PRS_PROP)
    obj_Prod_Spec('PushTech', Name)

    // Verify PRS_PROP -> PRS_LAYER relational index
    IndexError   = False$
    PRSLayerKeys = {PRS_LAYER_KEY}
    For each PRSLayerKey in PRSLayerKeys using @VM setting vPos
        RelPRSPropKeys    = Xlate('PRS_LAYER', PRSLayerKey, 'PRS_PROP_KEY', 'X')
        LayerNo           = Field(PRSLayerKey, '*', 2, 1)
        Query             = 'SELECT PRS_PROP WITH PS_NO EQ "':Name:'" AND WITH LAYER_NO EQ "':LayerNo:'"'
        Flag              = ''
        GoSub ClearCursors
        RList(Query, TARGET_ACTIVELIST$, '', '', Flag)
        Done              = False$
        NumIndexKeys      = 0
        Loop
            ReadNext PRSPropKey else Done = True$
        Until Done
            Locate PRSPropKey in RelPRSPropKeys using @VM setting vPos else
                IndexError = True$
                // Key is missing from indexed column for some reason, so trigger the index by
                // deleting the record and writing it again.
                PRSPropRec = Database_Services('ReadDataRow', 'PRS_PROP', PRSPropKey)
                Database_Services('DeleteDataRow', 'PRS_PROP', PRSPropKey, True$, False$)
                Database_Services('WriteDataRow', 'PRS_PROP', PRSPropKey, PRSPropRec, True$, False$, True$)
            end
        Repeat
    Next PRSLayerKey
    
    If IndexError then
        // Log error and 
        LogData    = ''
        LogData<1> = LoggingDTM
        LogData<2> = Name
        Logging_Services('AppendLog', objLog, LogData, @RM, @FM, False$, '', '')
    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

ClearCursors:
    For counter = 0 to 8
        ClearSelect counter
    Next counter
return