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added LSL2 stored procedures

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Infineon\StieberD
2024-03-25 14:46:21 -07:00
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LSL2/STPROC/DAILY_PERFORMANCE_REPORT_ACTIONS.txt Normal file
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Function Daily_Performance_Report_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 SRP Computer Solutions, Inc.
Name : Daily_Performance_Report_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)
01/04/23 dmb Original programmer.
***********************************************************************************************************************/
#pragma precomp SRP_PreCompiler
$insert LOGICAL
$insert FILE.SYSTEM.EQUATES
$insert ACTION_SETUP
Declare function Epi_Part_Services, Reactor_Services, SRP_Datetime, SRP_Math, Datetime
Declare subroutine Btree.Extract
If KeyID then GoSub Initialize_System_Variables
Begin Case
Case Action _EQC 'CalculateColumn' ; GoSub CalculateColumn
Case Action _EQC 'READ_RECORD_PRE' ; GoSub READ_RECORD_PRE
Case Action _EQC 'READ_RECORD' ; GoSub READ_RECORD
Case Action _EQC 'READONLY_RECORD_PRE' ; GoSub READONLY_RECORD_PRE
Case Action _EQC 'READONLY_RECORD' ; GoSub READONLY_RECORD
Case Action _EQC 'WRITE_RECORD_PRE' ; GoSub WRITE_RECORD_PRE
Case Action _EQC 'WRITE_RECORD' ; GoSub WRITE_RECORD
Case Action _EQC 'DELETE_RECORD_PRE' ; GoSub DELETE_RECORD_PRE
Case Action _EQC 'DELETE_RECORD' ; GoSub DELETE_RECORD
Case Otherwise$ ; Status = 'Invalid Action'
End Case
If KeyID then GoSub Restore_System_Variables
Return ActionFlow OR ACTION_CONTINUE$
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
// Calculated Columns
//
// The typical structure of a calculated column will look like this:
//
// Declare function Database_Services
//
// @ANS = Database_Services('CalculatedColumn')
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
CalculateColumn:
// Make sure the ActionFlow return variable is cleared in case nothing is calculated.
ActionFlow = ''
Begin Case
Case CalcColName EQ 'MIN_PER_WAFER' ; GoSub MIN_PER_WAFER
Case CalcColName EQ 'OEE' ; GoSub OEE
Case CalcColName EQ 'PERCENT_ON_PART' ; GoSub PERCENT_ON_PART
Case CalcColName EQ 'PROJECTED_OUT' ; GoSub PROJECTED_OUT
Case CalcColName EQ 'REACTOR_TYPE' ; GoSub REACTOR_TYPE
Case CalcColName EQ 'TIME_ADJ_PROJECTED_OUT' ; GoSub TIME_ADJ_PROJECTED_OUT
Case CalcColName EQ 'PROJECTED_OUT_ALT' ; GoSub PROJECTED_OUT_ALT
Case CalcColName EQ 'TOTAL_DELTA' ; GoSub TOTAL_DELTA
Case CalcColName EQ 'TOTAL_WAFERS_OUT' ; GoSub TOTAL_WAFERS_OUT
Case CalcColName EQ 'WAFERS_PER_DAY' ; GoSub WAFERS_PER_DAY
Case CalcColName EQ 'TOTAL_UPTIME_PERCENT' ; GoSub TOTAL_UPTIME_PERCENT
Case CalcColName EQ 'OEE_CALCULATION' ; GoSub OEE_CALCULATION
Case CalcColName EQ 'TOTAL_DELTA_ALT' ; GoSub TOTAL_DELTA_ALT
End Case
return
MIN_PER_WAFER:
ReactorType = {REACTOR_TYPE}
If ReactorType EQ 'EPP' then ReactorType = 'EPIPRO'
ActionFlow = Epi_Part_Services('GetMinutesPerWaferScheduler', {PART_NO}, ReactorType)
return
OEE:
ReactType = {REACTOR_TYPE}
If ReactType NE '' then
ActionFlow = Xlate('APP_INFO', 'OEE*':ReactType, 1, 'X')
end else
ActionFlow = ''
end
return
PERCENT_ON_PART:
ActionFlow = OConv(IConv({HOURS_ON_PART} / 24, 'MD2'), 'MD2')
return
PROJECTED_OUT:
ActionFlow = OConv(IConv({WAFERS_PER_DAY} * {OEE}, 'MD2'), 'MD2')
return
PROJECTED_OUT_ALT:
MinutesPerWafer = {MIN_PER_WAFER}
StartDTM = XLATE('DAILY_PERFORMANCE_REPORT', @ID, 'START_DTM', 'X')
StopDTM = XLATE('DAILY_PERFORMANCE_REPORT', @ID, 'STOP_DTM', 'X')
TotalMinutesOnPart = SRP_Datetime('MinuteSpan', StartDTM, StopDTM)
TotalMinutesUptime = {TOTAL_PROD_MIN}
IF MinutesPerWafer GT 0 then
ExpectedWafers = SRP_MATH('ROUND', TotalMinutesUptime / MinutesPerWafer, 2)
end else
ExpectedWafers = 0
end
ActionFlow = ExpectedWafers
return
REACTOR_TYPE:
ActionFlow = Xlate('REACTOR', {REACTOR}, 'REACT_TYPE', 'X')
return
TIME_ADJ_PROJECTED_OUT:
ActionFlow = OConv(IConv({PROJECTED_OUT} * {PERCENT_ON_PART}, 'MD2'), 'MD2')
return
TOTAL_DELTA:
TempDict = @DICT
TempID = @ID
TempRecord = @RECORD
TempFileError = @FILE.ERROR
SearchString = 'REACTOR':@VM:{REACTOR}:@FM:'DATE_OUT':@VM:OConv({DATE_OUT}, 'D4/')
Table = 'DAILY_PERFORMANCE_REPORT'
Keys = ''
Option = 'S' ; // Suppress informational messages
Flag = ''
Dict = @Dict
Btree.Extract(SearchString, Table, Dict, Keys, Option, Flag)
If Flag EQ 0 then
TotalTimeAdjProjOut = Sum(Xlate(Table, Keys, 'TIME_ADJ_PROJECTED_OUT', 'X'))
TotalProjOut = Sum(Xlate(Table, Keys, 'PROJECTED_OUT_ALT', 'X'))
TotalWafersOut = Sum(Xlate(Table, Keys, 'ACTUAL_OUT', 'X'))
ActionFlow = TotalWafersOut - TotalTimeAdjProjOut
end else
ActionFlow = ''
end
@DICT = TempDict
@ID = TempID
@RECORD = TempRecord
@FILE.ERROR = TempFileError
return
TOTAL_DELTA_ALT:
TempDict = @DICT
TempID = @ID
TempRecord = @RECORD
TempFileError = @FILE.ERROR
SearchString = 'REACTOR':@VM:{REACTOR}:@FM:'DATE_OUT':@VM:OConv({DATE_OUT}, 'D4/')
Table = 'DAILY_PERFORMANCE_REPORT'
Keys = ''
Option = 'S' ; // Suppress informational messages
Flag = ''
Dict = @Dict
Btree.Extract(SearchString, Table, Dict, Keys, Option, Flag)
If Flag EQ 0 then
*TotalTimeAdjProjOut = Sum(Xlate(Table, Keys, 'TIME_ADJ_PROJECTED_OUT', 'X'))
TotalProjOut = Sum(Xlate(Table, Keys, 'PROJECTED_OUT_ALT', 'X'))
TotalWafersOut = Sum(Xlate(Table, Keys, 'ACTUAL_OUT', 'X'))
ActionFlow = TotalWafersOut - TotalProjOut
end else
ActionFlow = ''
end
@DICT = TempDict
@ID = TempID
@RECORD = TempRecord
@FILE.ERROR = TempFileError
return
TOTAL_WAFERS_OUT:
TempDict = @DICT
TempID = @ID
TempRecord = @RECORD
TempFileError = @FILE.ERROR
SearchString = 'REACTOR':@VM:{REACTOR}:@FM:'DATE_OUT':@VM:OConv({DATE_OUT}, 'D4/')
Table = 'DAILY_PERFORMANCE_REPORT'
Keys = ''
Option = 'S' ; // Suppress informational messages
Flag = ''
Dict = @Dict
Btree.Extract(SearchString, Table, Dict, Keys, Option, Flag)
If Flag EQ 0 then
ActionFlow = Sum(Xlate(Table, Keys, 'ACTUAL_OUT', 'X'))
end else
ActionFlow = ''
end
@DICT = TempDict
@ID = TempID
@RECORD = TempRecord
@FILE.ERROR = TempFileError
return
TOTAL_UPTIME_PERCENT:
ToolModeData = Reactor_Services('GetReactorUptimePercentageByTimeSpan', {REACTOR}, {START_DTM}, {STOP_DTM})
ActionFlow = ToolModeData<1,1>
return
WAFERS_PER_DAY:
ReactorType = {REACTOR_TYPE}
If ReactorType EQ 'EPP' then ReactorType = 'EPIPRO'
ActionFlow = Epi_Part_Services('GetIdealWafersPerDayScheduler', {PART_NO}, ReactorType, {MIN_PER_WAFER})
return
OEE_CALCULATION:
TotalUptimePercent = XLATE('DAILY_PERFORMANCE_REPORT', @ID, 'TOTAL_PROD_PERCENT', 'X')
TotalUptimeMin = XLATE('DAILY_PERFORMANCE_REPORT', @ID, 'TOTAL_PROD_MIN', 'X')
TotalUnschedDownPercent = XLATE('DAILY_PERFORMANCE_REPORT', @ID, 'TOTAL_UNSCHED_PERCENT', 'X')
TotalUnschedDownMin = XLATE('DAILY_PERFORMANCE_REPORT', @ID, 'TOTAL_UNSCHED_MIN', 'X')
TotalSchedDownPercent = XLATE('DAILY_PERFORMANCE_REPORT', @ID, 'TOTAL_SCHED_PERCENT', 'X')
TotalSchedDownMin = XLATE('DAILY_PERFORMANCE_REPORT', @ID, 'TOTAL_SCHED_MIN', 'X')
IF {DATE_OUT} EQ Date()then
IF SRP_Datetime('AddMinutes', {START_DTM}, {HOURS_ON_PART} * 60) LT Datetime() then
MinutesOnPart = {HOURS_ON_PART} * 60
end else
MinutesOnPart = SRP_Datetime('MinuteSpan', {START_DTM}, Datetime())
end
end else
MinutesOnPart = SRP_Datetime('MinuteSpan', {START_DTM}, {STOP_DTM})
end
//Begin Builidng Availability
PlannedProdTime = MinutesOnPart - TotalSchedDownMin
OperatingTime = PlannedProdTime - TotalUnschedDownMin
IF SRP_MATH('EXPONENT',OperatingTime) LT 0 then OperatingTime = 0
IF PlannedProdTime GT 0 then
Availability = OperatingTime / PlannedProdTime
end else
Availability = 0
end
//Begin Building Performance
IF {MIN_PER_WAFER} GT 0 then
Capacity = (1 / {MIN_PER_WAFER}) * OperatingTime
IF Capacity GT 0 then
Performance = {ACTUAL_OUT} / Capacity
end else
Performance = 1
end
end else
Performance = 0
end
//Quality ***TODO
//(Total Parts Produced - Total Scrap) / Total Parts Produced = Quality %
Quality = 1
OEE = SRP_MATH('ROUND',Availability * Performance * Quality, 2)
ActionFlow = OEE
return
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
// MFS Actions
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
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:
return
WRITE_RECORD:
return
DELETE_RECORD_PRE:
return
DELETE_RECORD:
return
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
// Internal GoSubs
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
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