Increase memoryallowed to a program?
Hi,
Is it possible to increase the amount of virtual memory allowed for a particular program? I am running a big analysis (on a macbook with MAC OS 10.4) and my program tells me that I need to increase my memory to perform the analysis?
thanks,
seb
Is it possible to increase the amount of virtual memory allowed for a particular program?
It doesn't sound like your question has anything to do with the iWeb app discussed in this forum. I suggest you repost it here:
http://discussions.apple.com/forum.jspa?forumID=758
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Usage increases when I delete programs
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There is no problem. AE is a memory hungry program and wil lretain as much data as possible in memory. Use Edit --> Purge to free up memory during sessions. That being said, excessive, unrelated memory consumption can be cuased by leaky CoDecs and incompatible effects, but since we don't know anything about your project ,we can't tell specifically.
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1. To improve performance for programs...
Dont use into corresponding fields - use into table
Check the performance using the JOin and For all entries , then go on with good one
for comparision delete dupicate entries of checking table
Declare the table fileds as they appear in the db table position wise
try to get the max comparision fields and input parameters
Sort the int table and use read statement with binary search.
use a single loop to modify the itab based on read statement
and also chk this.
http://www.thespot4sap.com/Articles/SAPABAPPerformanceTuning_PerformanceAnalysisTools.asp
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http://www.sap-img.com/abap/performance-tuning-for-data-selection-statement.htm
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http://help.sap.com/saphelp_nw2004s/helpdata/en/d1/801f7c454211d189710000e8322d00/frameset.htm
Hope it helps u...
Regards,
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Is there a way to "embed" -Xmx command into program
Hi fellow members,
I have been working on a program to analyze web page structural similarity and has been posting on this forum for some help recently. At the moment I manage to parse html into DOM tree and perform tree edit distance analysis.
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Small Doubt Regarding SY-MANDT
Hi All,
SELECT changenr FROM cdhdr CLIENT SPECIFIED INTO CORRESPONDING FIELDS OF TABLE it_cdhdr
WHERE mandant = syst-mandt
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AND objectid = wa_matl-matnr
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I have written the select stament as shown above.
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vishal -
Hi,
The program(developed by someother person) which was given to me is having performance issue. Its giving RUNTIME ERROR 'TIME LIMIT EXCEEDED'. Can u please suggest me in what way i can improve the performance of the program.
please help me in resolving this.
Helpful answers will be rewarded.
TABLES : MARA, "General Material Data
MARC, "Plant Data for Material
VBAP, "Sales Document: Item Data
MARD, "Storage Location Data for Material
MAST, "Material to BOM Link
MKPF, "Header: Material Document
MSEG, "Document Segment: Material
PKHD, "Control Cycle
PKPS, "Control Cycle Item / Kanban
PVBE, "Supply area
ZTGRP, "Wabco Technology Group table
ZZC10. "Kanban status table
I N T E R N A L T A B L E D E C L A R A T I O N *
INTERNAL TABLE FOR TECH.GROUP AND PLANT
DATA: BEGIN OF IT_MARC_ZTGRP OCCURS 0,
MATNR LIKE MARC-MATNR,
WERKS LIKE MARC-WERKS,
ZZPTG LIKE ZTGRP-ZZPTG,
ZZPTD LIKE ZTGRP-ZZPTD,
END OF IT_MARC_ZTGRP.
INTERNAL TABLE FOR RETURN VALUES
DATA IT_RETURN LIKE TABLE OF BAPIRET2 WITH HEADER LINE.
INTERNAL TABLE FOR SUBASSEMBLY AND FINISHED GOOD
DATA: BEGIN OF IT_MATERIAL OCCURS 0,
IDNRK LIKE STPO-IDNRK,
MATNR LIKE MAST-MATNR,
END OF IT_MATERIAL.
INTERNAL TABLE FOR OUTPUT YESTERDAY
DATA: BEGIN OF IT_KBED_KAKO OCCURS 0,
KBEAREST LIKE KBED-KBEAREST,
KRUEREST LIKE KBED-KRUEREST,
KEINH LIKE KBED-KEINH,
END OF IT_KBED_KAKO.
INTERNAL TABLE FOR MATERIAL AND PLANT
DATA: BEGIN OF IT_PLANT OCCURS 0,
MATNR LIKE MARC-MATNR,
WERKS LIKE MARC-WERKS,
END OF IT_PLANT.
DATA: BEGIN OF IT_COBK OCCURS 0,
RUECK LIKE COBK-REFBN,
END OF IT_COBK.
DATA: BEGIN OF IT_COEPL OCCURS 0,
KOKRS LIKE COEPL-KOKRS,
BELNR LIKE COEPL-BELNR,
END OF IT_COEPL.
DATA: BEGIN OF IT_CAPACITIES OCCURS 0,
LSBBTR LIKE COEPL-LSBBTR,
MEINB LIKE COEPL-MEINB,
END OF IT_CAPACITIES.
DATA: BEGIN OF IT_MKPF_MSEG OCCURS 0,
MBLNR LIKE MKPF-MBLNR,
MJAHR LIKE MKPF-MJAHR,
BUDAT LIKE MKPF-BUDAT,
BWART LIKE MSEG-BWART,
MATNR LIKE MSEG-MATNR,
MENGE LIKE MSEG-MENGE,
MEINS LIKE MSEG-MEINS,
DMBTR LIKE MSEG-DMBTR,
WERKS LIKE MSEG-WERKS,
END OF IT_MKPF_MSEG.
INTERNAL TABLE FOR MATERIAL-TO-BOM LINK
DATA: IT_MAST LIKE MAST OCCURS 0 WITH HEADER LINE.
INTERNAL TABLE FOR MATERIAL
DATA: BEGIN OF IT_MAT OCCURS 0,
MATNR LIKE MARA-MATNR,
END OF IT_MAT.
INTERNAL TABLE FOR STORAGE LOCATION DATA FOR SUBASSEMBLY
DATA: BEGIN OF IT_MARD OCCURS 0,
LABST LIKE MARD-LABST,
END OF IT_MARD.
INTERNAL TABLE FOR PLANT FOR MATERIALS
DATA IT_MARC LIKE MARC OCCURS 0 WITH HEADER LINE.
INTERNAL TABLE FOR BOM ITEM DATA
DATA: IT_STPO LIKE STPO OCCURS 0 WITH HEADER LINE.
INTERNAL TABLE FOR KANBAN STATUS DATA
DATA IT_ZZC10 LIKE ZZC10 OCCURS 0 WITH HEADER LINE.
TEMPORARY INTERNAL TABLE FOR KANBAN STATUS DATA
DATA IT_ZZC10_TEMP LIKE ZZC10 OCCURS 0 WITH HEADER LINE.
INTERNAL TABLE FOR CONTROL CYCLE
DATA IT_PKHD LIKE PKHD OCCURS 0 WITH HEADER LINE.
INTERNAL TABLE FOR CONTROL CYCLE ITEM
DATA IT_PKPS LIKE PKPS OCCURS 0 WITH HEADER LINE.
INTERNAL TABLE FOR MATERIAL DOCUMENT HEADER
DATA IT_MKPF LIKE MKPF OCCURS 0 WITH HEADER LINE.
INTERNAL TABLE FOR MATERIAL DOCUMENT ITEM
DATA IT_MSEG LIKE MSEG OCCURS 0 WITH HEADER LINE.
TEMPORARY INTERNAL TABLE FOR ACTUAL QUANTITY
DATA : BEGIN OF IT_TEMP OCCURS 0,
TECH LIKE ZTGRP-ZZPTD,
MATNR LIKE ZZC10-MATNR,
FINISHED LIKE MAST-MATNR,
PKNUM LIKE PKHD-PKNUM,
WERKS LIKE ZZC10-WERKS,
GSMNG LIKE PLAF-GSMNG,
MEINS LIKE PLAF-MEINS,
BEHAZ LIKE PKHD-BEHAZ,
BEHMG LIKE PKHD-BEHMG,
PKBMG LIKE ZZC10-PKBMG,
LATEHOURS LIKE PKHD-KWBZM,
FILLRATE TYPE P DECIMALS 2,
REPL_LEAD_TIME TYPE P DECIMALS 3,
QTY_1 LIKE PLAF-GSMNG,
QTY_2 LIKE PLAF-GSMNG,
QTY_3 LIKE PLAF-GSMNG,
QTY_4 LIKE PLAF-GSMNG,
QTY_5 LIKE PLAF-GSMNG,
QTY_6 LIKE PLAF-GSMNG,
GSMNG_OUTY LIKE PLAF-GSMNG,
MEINS_OUTY LIKE PLAF-MEINS,
KAPBD_OUTY LIKE COEPL-LSTBTR,
KEINH_OUTY LIKE COEPL-MEINH,
GSMNG_OUTM LIKE MSEG-MENGE,
MEINS_OUTM LIKE MSEG-MEINS,
KAPBD_OUTM LIKE COEPL-LSTBTR,
KEINH_OUTM LIKE COEPL-MEINH,
GSMNG_BORD LIKE PLAF-GSMNG,
MEINS_BORD LIKE MSEG-MEINS,
KAPBD_BORD LIKE KBED-KBEAREST,
KEINH_BORD LIKE COEPL-MEINH,
GSMNG_TDAY LIKE PLAF-GSMNG,
KAPBD_TDAY LIKE KBED-KBEAREST,
GSMNG_DAY1 LIKE PLAF-GSMNG,
KAPBD_DAY1 LIKE KBED-KBEAREST,
GSMNG_DAY2 LIKE PLAF-GSMNG,
KAPBD_DAY2 LIKE KBED-KBEAREST,
GSMNG_DAY3 LIKE PLAF-GSMNG,
KAPBD_DAY3 LIKE KBED-KBEAREST,
GSMNG_DAY4 LIKE PLAF-GSMNG,
KAPBD_DAY4 LIKE KBED-KBEAREST,
GSMNG_DAY5 LIKE PLAF-GSMNG,
KAPBD_DAY5 LIKE KBED-KBEAREST,
STOCK_PO01 LIKE MARD-LABST,
F_GSMNG_BORD LIKE PLAF-GSMNG,
F_MEINS_BORD LIKE MSEG-MEINS,
F_KAPBD_BORD LIKE KBED-KBEAREST,
F_KEINH_BORD LIKE COEPL-MEINH,
F_GSMNG_TDAY LIKE PLAF-GSMNG,
F_MEINS_TDAY LIKE MSEG-MEINS,
F_KAPBD_TDAY LIKE KBED-KBEAREST,
F_KEINH_TDAY LIKE COEPL-MEINH,
F_GSMNG_DAY1 LIKE PLAF-GSMNG,
F_MEINS_DAY1 LIKE MSEG-MEINS,
F_KAPBD_DAY1 LIKE KBED-KBEAREST,
F_KEINH_DAY1 LIKE COEPL-MEINH,
F_GSMNG_DAY2 LIKE PLAF-GSMNG,
F_MEINS_DAY2 LIKE MSEG-MEINS,
F_KAPBD_DAY2 LIKE KBED-KBEAREST,
F_KEINH_DAY2 LIKE COEPL-MEINH,
F_GSMNG_DAY3 LIKE PLAF-GSMNG,
F_MEINS_DAY3 LIKE MSEG-MEINS,
F_KAPBD_DAY3 LIKE KBED-KBEAREST,
F_KEINH_DAY3 LIKE COEPL-MEINH,
F_GSMNG_DAY4 LIKE PLAF-GSMNG,
F_MEINS_DAY4 LIKE MSEG-MEINS,
F_KAPBD_DAY4 LIKE KBED-KBEAREST,
F_KEINH_DAY4 LIKE COEPL-MEINH,
F_GSMNG_DAY5 LIKE PLAF-GSMNG,
F_MEINS_DAY5 LIKE MSEG-MEINS,
F_KAPBD_DAY5 LIKE KBED-KBEAREST,
F_KEINH_DAY5 LIKE COEPL-MEINH,
F_GSMNG_OUTM LIKE MSEG-MENGE,
F_MEINS_OUTM LIKE MSEG-MEINS,
F_KAPBD_OUTM LIKE COEPL-LSTBTR,
F_KEINH_OUTM LIKE COEPL-MEINH,
F_GSMNG_OUTN LIKE MSEG-MENGE,
F_MEINS_OUTN LIKE MSEG-MEINS,
F_KAPBD_OUTN LIKE KBED-KBEAREST,
F_KEINH_OUTN LIKE COEPL-MEINH,
END OF IT_TEMP.
INTERNAL TABLE FOR PLANNED DATA
DATA IT_PLAF LIKE PLAF OCCURS 0 WITH HEADER LINE.
INTERNAL TABLE FOR FACTORY CALENDER AND CURRENCY
DATA: BEGIN OF IT_T001W OCCURS 0,
WERKS LIKE T001W-WERKS,
BWKEY LIKE T001W-BWKEY,
FABKL LIKE T001W-FABKL,
END OF IT_T001W.
V A R I A B L E S *
DATA: AUX_BORD LIKE SY-DATUM,
AUX_YDAY LIKE SY-DATUM,
AUX_TDAY LIKE SY-DATUM,
AUX_DAY1 LIKE SY-DATUM,
AUX_DAY2 LIKE SY-DATUM,
AUX_DAY3 LIKE SY-DATUM,
AUX_DAY4 LIKE SY-DATUM,
AUX_DAY5 LIKE SY-DATUM,
AUX_CURRENT LIKE SY-DATUM,
AUX_PREVIOUS LIKE SY-DATUM,
AUX_TECH LIKE ZTGRP-ZZPTD,
AUX_BUDAT LIKE MKPF-BUDAT,
AUX_LOW LIKE MKPF-BUDAT,
AUX_HIGH LIKE MKPF-BUDAT,
AUX_MNG LIKE MSEG-MENGE,
AUX_MENGE LIKE MSEG-MENGE,
AUX_QUANT LIKE PLAF-GSMNG,
AUX_SUM_UNIT LIKE UMADD-MSEHI,
AUX_TIMESTAMP1 LIKE CCUPEAKA-TIMESTAMP,
AUX_TIMESTAMP2 LIKE CCUPEAKA-TIMESTAMP,
AUX_BUKRS LIKE T001K-BUKRS,
AUX_BWKEY LIKE T001W-BWKEY,
AUX_GSMNG LIKE PLAF-GSMNG,
AUX_PKBMG LIKE ZZC10-PKBMG,
AUX_FILL LIKE ZZC10-PKBMG,
AUX_TOTAL LIKE ZZC10-PKBMG,
AUX_FABKL LIKE SCAL-FCALID,
AUX_WAERS LIKE MSEG-WAERS,
AUX_ZZC10_HR TYPE P DECIMALS 3,
AUX_PLAF_HR TYPE P DECIMALS 3,
AUX_KAPBD_OUTY TYPE P DECIMALS 3,
AUX_KAPBD_OUTM TYPE P DECIMALS 3,
AUX_KAPBD_BORD TYPE P DECIMALS 3,
AUX_F_KAPBD_BORD TYPE P DECIMALS 3,
AUX_F_KAPBD_TDAY TYPE P DECIMALS 3,
AUX_F_KAPBD_DAY1 TYPE P DECIMALS 3,
AUX_F_KAPBD_DAY2 TYPE P DECIMALS 3,
AUX_F_KAPBD_DAY3 TYPE P DECIMALS 3,
AUX_F_KAPBD_DAY4 TYPE P DECIMALS 3,
AUX_F_KAPBD_DAY5 TYPE P DECIMALS 3,
AUX_F_KAPBD_OUTM TYPE P DECIMALS 3,
AUX_F_KAPBD_OUTN TYPE P DECIMALS 3,
AUX_PKHD_TIME TYPE P DECIMALS 3,
AUX_LATEHOURS TYPE P DECIMALS 3,
AUX_DIFF TYPE I,
AUX_FLAG TYPE C,
AUX_SET TYPE C,
AUX_DATUMABSOLUT(5) TYPE P,
AUX_FDAY LIKE SY-DATUM,
AUX_DAYS LIKE PKHD-KWBZD,
AUX_HOURS LIKE IT_ZZC10-TIME_EMPTY,
AUX_TIME LIKE PKHD-KWBZM,
AUX_PKHD_DAYS LIKE PKHD-KWBZD,
AUX_PKHD_HOURS LIKE PKHD-KWBZM,
AUX_TMP_DAYS LIKE PKHD-KWBZM VALUE 24,
AUX_TMP_HRS LIKE PKHD-KWBZM,
AUX_FILL_DAYS LIKE PKHD-KWBZD,
AUX_FILL_HOURS LIKE AUX_HOURS,
AUX_FILL_TIME LIKE PKHD-KWBZM,
AUX_TOTAL_QTY LIKE PKHD-BEHMG,
AUX_RATID LIKE PLAF-RATID,
AUX_MATNR LIKE PLAF-MATNR,
AUX_HEADER LIKE MARA-MATNR,
AUX_ZZPTG LIKE MARC-ZZPTG,
AUX_PEDTR LIKE PLAF-PEDTR,
AUX_KRUEREST LIKE KBED-KRUEREST,
AUX_KBEAREST LIKE KBED-KBEAREST,
AUX_KRUEREST_T LIKE KBED-KRUEREST,
AUX_KBEAREST_T LIKE KBED-KBEAREST,
AUX_KEINH LIKE KBED-KEINH,
AUX_KAPBD LIKE KBED-KBEAREST,
AUX_ARBPL LIKE MKAL-MDV01,
AUX_ARBID LIKE CRHD-OBJID,
AUX_QUALF LIKE CRHD-QUALF,
AUX_SAT1800 LIKE SY-UZEIT VALUE '180000'.
S E L E C T I O N S C R E E N *
INPUT SELECTION
SELECTION-SCREEN : BEGIN OF BLOCK BL0 WITH FRAME TITLE TEXT-000.
SELECT-OPTIONS : SO_PRVBE FOR PVBE-PRVBE,
SO_MATNR FOR MARA-MATNR,
SO_ZZPTG FOR MARC-ZZPTG OBLIGATORY,
SO_WERKS FOR MARC-WERKS OBLIGATORY,
SO_BUDAT FOR MKPF-BUDAT OBLIGATORY.
SELECTION-SCREEN : END OF BLOCK BL0.
I N I T I A L I Z A T I O N *
INITIALIZATION.
MOVE SY-DATUM TO AUX_CURRENT.
AUX_PREVIOUS = AUX_CURRENT - 1.
MOVE SY-DATUM TO SO_BUDAT-LOW.
MOVE '01' TO SO_BUDAT-LOW+6(2).
APPEND SO_BUDAT.
AUX_PREVIOUS = AUX_CURRENT - 1.
A T S E L E C T I O N - S C R E E N *
AT SELECTION-SCREEN.
CHECK ON SELECTION SCREEN
PERFORM CHECK_ON_SELECTION.
S T A R T O F S E L E C T I O N *
START-OF-SELECTION.
CHECK IF BOM EXISTS FOR THE COMPONENTS
PERFORM CHECK_BOM_EXISTENCE.
GET FINISHED PRODUCT NUMBER FOR THE SUBASSEMBLIES
IF NOT IT_MARC_ZTGRP[] IS INITIAL.
LOOP AT IT_MARC_ZTGRP.
PERFORM GET_HEADER_MATERIAL USING IT_MARC_ZTGRP-MATNR.
IF NOT IT_MAT[] IS INITIAL.
PERFORM GET_FINISHED_GOOD TABLES IT_MAT.
ENDIF.
CLEAR IT_MARC_ZTGRP.
ENDLOOP.
ELSE.
MESSAGE S010 WITH 'No data present for given selection'.
ENDIF.
CHECK IF SALES DATA EXIST FOR THE FINISHED GOOD
PERFORM CHECK_SALESDATA_EXISTENCE.
GET CONTROL CYCLE AND KANBAN DATA
PERFORM GET_KANBAN_DATA.
GET VALUATION AREA DATA
PERFORM GET_VALUATION_AREA.
GET MATERIAL DOCUMENT DATA
PERFORM GET_MATERIAL_DOC_DATA.
GET KANBAN DETAILS
PERFORM GET_KANBAN_DETAILS.
E N D O F S E L E C T I O N *
END-OF-SELECTION.
IF NOT IT_TEMP[] IS INITIAL.
DISPLAY OUTPUT
PERFORM DISPLAY_OUTPUT.
ENDIF.
*& Form CHECK_ON_SELECTION
text
--> p1 text
<-- p2 text
FORM CHECK_ON_SELECTION .
CHECK IF ENTERED PLANT IS VALID
IF NOT SO_WERKS-LOW IS INITIAL AND SO_WERKS-HIGH IS INITIAL.
SELECT SINGLE * FROM MARC WHERE WERKS EQ SO_WERKS-LOW.
IF SY-SUBRC NE 0.
SET CURSOR FIELD 'SO_WERKS-LOW'.
MESSAGE E010 WITH 'Please enter a valid Plant'.
ENDIF.
ENDIF.
CHECK IF SUPPLY AREA AND PLANT IS VALID
IF NOT SO_PRVBE-LOW IS INITIAL AND SO_PRVBE-HIGH IS INITIAL.
IF NOT SO_WERKS IS INITIAL AND SO_WERKS-HIGH IS INITIAL.
SELECT SINGLE * FROM PVBE WHERE WERKS EQ SO_WERKS-LOW
AND PRVBE EQ SO_PRVBE-LOW.
IF SY-SUBRC NE 0.
SET CURSOR FIELD 'SO_PRVBE-LOW'.
MESSAGE E010 WITH 'Supply Area' SO_PRVBE-LOW 'donot belong to'
SO_WERKS-LOW.
ENDIF.
ENDIF.
ENDIF.
CHECK IF ENTERED MATERIAL NUMBER IS VALID
IF NOT SO_MATNR-LOW IS INITIAL AND SO_MATNR-HIGH IS INITIAL.
SELECT SINGLE * FROM MARA WHERE MATNR EQ SO_MATNR-LOW.
IF SY-SUBRC NE 0.
SET CURSOR FIELD 'SO_MATNR-LOW'.
MESSAGE E010 WITH 'Please enter a valid Material Number'.
ELSE.
IF NOT SO_WERKS-LOW IS INITIAL AND SO_WERKS-HIGH IS INITIAL.
SELECT SINGLE * FROM MARC WHERE MATNR EQ SO_MATNR-LOW
AND WERKS EQ SO_WERKS-LOW.
IF SY-SUBRC NE 0.
SET CURSOR FIELD 'SO_MATNR-LOW'.
MESSAGE E010 WITH 'Material' SO_MATNR-LOW
'doesnot belong to plant' SO_WERKS-LOW.
ENDIF.
ENDIF.
ENDIF.
ENDIF.
CHECK IF TECHNOLOGY GROUP AND PLANT IS VALID
IF NOT SO_ZZPTG-LOW IS INITIAL AND SO_ZZPTG-HIGH IS INITIAL.
IF NOT SO_WERKS-LOW IS INITIAL AND SO_WERKS-HIGH IS INITIAL.
SELECT SINGLE * FROM MARC WHERE WERKS EQ SO_WERKS-LOW
AND ZZPTG EQ SO_ZZPTG-LOW.
IF SY-SUBRC NE 0.
SET CURSOR FIELD 'SO_ZZPTG-LOW'.
MESSAGE E010 WITH 'Tech.Group' SO_ZZPTG-LOW 'doesnot belong to plant'
SO_WERKS-LOW.
ENDIF.
ENDIF.
ENDIF.
ENDFORM. " CHECK_ON_SELECTION
*& Form CHECK_BOM_EXISTENCE
text
--> p1 text
<-- p2 text
FORM CHECK_BOM_EXISTENCE .
JOIN MARC AND ZTGRP TABLES TO GET THE COMPONENTS BASED ON THE INPUT
CRITERIA
REFRESH IT_MARC_ZTGRP.
SELECT MARCMATNR MARCWERKS ZTGRPZZPTG ZTGRPZZPTD
INTO TABLE IT_MARC_ZTGRP
FROM MARC INNER JOIN ZTGRP
ON MARCWERKS EQ ZTGRPWERKS AND
MARCZZPTG EQ ZTGRPZZPTG
WHERE MARC~WERKS IN SO_WERKS
AND MARC~ZZPTG IN SO_ZZPTG
AND MARC~MATNR IN SO_MATNR
AND MARC~LVORM NE 'X'
AND ( MARC~BESKZ EQ 'E' OR
MARC~BESKZ EQ 'X' ).
IF NOT IT_MARC_ZTGRP[] IS INITIAL.
CHECK THE EXISTENCE OF BOM FOR THE SELECTED COMPONENTS.
IF NOT PRESENT, DELETE THE ENTRY FROM INTERNAL TABLE
LOOP AT IT_MARC_ZTGRP.
REFRESH IT_RETURN.
CALL FUNCTION 'BAPI_MAT_BOM_EXISTENCE_CHECK'
EXPORTING
MATERIAL = IT_MARC_ZTGRP-MATNR
PLANT = IT_MARC_ZTGRP-WERKS
BOMUSAGE = '1'
TABLES
RETURN = IT_RETURN.
IF NOT IT_RETURN[] IS INITIAL.
DELETE IT_MARC_ZTGRP WHERE MATNR EQ IT_MARC_ZTGRP-MATNR
AND WERKS EQ IT_MARC_ZTGRP-WERKS
AND ZZPTG EQ IT_MARC_ZTGRP-ZZPTG.
ENDIF.
CLEAR IT_MARC_ZTGRP.
ENDLOOP.
ELSE.
MESSAGE S010 WITH 'No data present for given selection'.
ENDIF.
ENDFORM. " CHECK_BOM_EXISTENCE
*& Form GET_HEADER_MATERIAL
text
-->P_IT_MARC_ZTGRP_MATNR text
FORM GET_HEADER_MATERIAL USING P_MATNR.
REFRESH IT_STPO.
GET BOM ITEM DATA FOR THE COMPONENT
SELECT * FROM STPO INTO TABLE IT_STPO WHERE IDNRK EQ P_MATNR
AND DATUV LE SO_BUDAT-LOW
AND LKENZ NE 'X'.
IF NOT IT_STPO[] IS INITIAL.
IF BOM ITEM DATA IS PRESENT FOR THE COMPONENT
REFRESH IT_MAST.
GET MATERIAL TO BOM LINK
SELECT * FROM MAST INTO TABLE IT_MAST FOR ALL ENTRIES IN IT_STPO
WHERE STLNR EQ IT_STPO-STLNR.
IF NOT IT_MAST[] IS INITIAL.
SORT IT_MAST BY MATNR.
DELETE ADJACENT DUPLICATES FROM IT_MAST COMPARING MATNR.
LOOP AT IT_MAST.
CLEAR AUX_SET.
REFRESH IT_PLANT.
GET ALL THE PLANTS FOR THE COMPONENT
SELECT MATNR WERKS FROM MARC INTO TABLE IT_PLANT
WHERE MATNR EQ IT_MAST-MATNR.
LOOP AT IT_PLANT.
REFRESH IT_RETURN.
CHECK FOR BOM EXISTENCE FOR MATERIAL IN ALL PLANTS
CALL FUNCTION 'BAPI_MAT_BOM_EXISTENCE_CHECK'
EXPORTING
MATERIAL = IT_MAST-MATNR
PLANT = IT_PLANT-WERKS
BOMUSAGE = '1'
TABLES
RETURN = IT_RETURN.
IF IT_RETURN[] IS INITIAL.
MOVE 'X' TO AUX_SET.
ENDIF.
CLEAR IT_PLANT.
ENDLOOP.
IF BOM EXISTS FOR THE COMPONENT IN ANY PLANT, MOVE THE COMPONENT
TO INTERNAL TABLE IT_MAT
IF AUX_SET EQ 'X'.
MOVE IT_MAST-MATNR TO IT_MAT-MATNR.
APPEND IT_MAT.
CLEAR IT_MAT.
ELSE.
IF BOM DOESNOT EXISTS FOR THE COMPONENT IN ALL PLANTS,
SELECT THE COMPONENT AS THE FINISHED PRODUCT
CLEAR MARA.
SELECT SINGLE * FROM MARA WHERE MATNR EQ IT_MAST-MATNR.
IF SY-SUBRC EQ 0 AND MARA-LVORM NE 'X'.
MOVE: IT_MARC_ZTGRP-MATNR TO IT_MATERIAL-IDNRK,
IT_MAST-MATNR TO IT_MATERIAL-MATNR.
APPEND IT_MATERIAL.
CLEAR IT_MATERIAL.
ENDIF.
ENDIF.
CLEAR IT_MAST.
ENDLOOP.
ENDIF.
ELSE.
IF BOM ITEM DATA DOESNOT PRESENT FOR THE COMPONENT,
CONSIDER THE COMPONENT AS FINISHED PRODUCT
CLEAR MARA.
SELECT SINGLE * FROM MARA WHERE MATNR EQ P_MATNR.
IF SY-SUBRC EQ 0 AND MARA-LVORM NE 'X'.
MOVE: IT_MARC_ZTGRP-MATNR TO IT_MATERIAL-IDNRK,
P_MATNR TO IT_MATERIAL-MATNR.
APPEND IT_MATERIAL.
CLEAR IT_MATERIAL.
ENDIF.
ENDIF.
ENDFORM. " GET_HEADER_MATERIAL
*& Form GET_FINISHED_GOOD
text
-->P_IT_MAT text
FORM GET_FINISHED_GOOD TABLES P_IT_MAT LIKE IT_MAT[].
LOOP AT P_IT_MAT.
PERFORM GET_HEADER_MATERIAL USING P_IT_MAT-MATNR.
DELETE P_IT_MAT INDEX 1.
CLEAR P_IT_MAT.
ENDLOOP.
ENDFORM. " GET_FINISHED_GOOD
*& Form CHECK_SALESDATA_EXISTENCE
text
--> p1 text
<-- p2 text
FORM CHECK_SALESDATA_EXISTENCE .
IF NOT IT_MATERIAL[] IS INITIAL.
LOOP AT IT_MATERIAL.
CLEAR VBAP.
SELECT SINGLE * FROM VBAP WHERE MATNR EQ IT_MATERIAL-MATNR.
IF SY-SUBRC NE 0.
DELETE IT_MATERIAL WHERE IDNRK EQ IT_MATERIAL-IDNRK
AND MATNR EQ IT_MATERIAL-MATNR.
ENDIF.
CLEAR IT_MATERIAL.
ENDLOOP.
ENDIF.
ENDFORM. " CHECK_SALESDATA_EXISTENCE
*& Form GET_KANBAN_DATA
text
--> p1 text
<-- p2 text
FORM GET_KANBAN_DATA.
SORT IT_MATERIAL BY IDNRK MATNR.
DELETE ADJACENT DUPLICATES FROM IT_MATERIAL COMPARING ALL FIELDS.
IF NOT IT_MATERIAL[] IS INITIAL.
GET CONTROL CYCLE HEADER DATA
SELECT * FROM PKHD INTO TABLE IT_PKHD
FOR ALL ENTRIES IN IT_MATERIAL
WHERE WERKS IN SO_WERKS
AND MATNR EQ IT_MATERIAL-IDNRK
AND PRVBE IN SO_PRVBE.
IF NOT IT_PKHD[] IS INITIAL.
GET CONTROL CYCLE ITEM DATA
SELECT * FROM PKPS INTO TABLE IT_PKPS
FOR ALL ENTRIES IN IT_PKHD
WHERE PKNUM EQ IT_PKHD-PKNUM.
IF NOT IT_PKPS[] IS INITIAL.
GET KANBAN STATUS DATA
SELECT * FROM ZZC10 INTO TABLE IT_ZZC10_TEMP
FOR ALL ENTRIES IN IT_PKPS
WHERE PKKEY EQ IT_PKPS-PKKEY
AND PKNUM EQ IT_PKPS-PKNUM
AND ZDATE BETWEEN SO_BUDAT-LOW AND SY-DATUM
AND STATUS EQ '5'.
ENDIF.
ENDIF.
ENDIF.
ENDFORM. " GET_KANBAN_DATA
*& Form GET_VALUATION_AREA
text
--> p1 text
<-- p2 text
FORM GET_VALUATION_AREA.
IF NOT IT_MARC_ZTGRP[] IS INITIAL.
SELECT WERKS BWKEY FABKL FROM T001W INTO TABLE IT_T001W
FOR ALL ENTRIES IN IT_MARC_ZTGRP
WHERE WERKS EQ IT_MARC_ZTGRP-WERKS.
ENDIF.
ENDFORM. " GET_VALUATION_AREA
*& Form GET_MATERIAL_DOC_DATA
text
--> p1 text
<-- p2 text
FORM GET_MATERIAL_DOC_DATA.
GET MATERIAL DOCUMENT HEADER DATA
SELECT * FROM MKPF INTO TABLE IT_MKPF
WHERE BUDAT IN SO_BUDAT.
IF NOT IT_MKPF[] IS INITIAL.
GET MATERIAL DOCUMENT ITEM DATA
SELECT * FROM MSEG INTO TABLE IT_MSEG
FOR ALL ENTRIES IN IT_MKPF
WHERE MBLNR EQ IT_MKPF-MBLNR
AND WERKS IN SO_WERKS
AND MJAHR EQ SY-DATUM+0(4)
AND ( BWART EQ '131' OR BWART EQ '132' ).
IF NOT IT_MATERIAL[] IS INITIAL.
LOOP AT IT_MSEG.
READ TABLE IT_MATERIAL WITH KEY IDNRK = IT_MSEG-MATNR.
IF SY-SUBRC NE 0.
DELETE IT_MSEG WHERE MATNR EQ IT_MSEG-MATNR.
ENDIF.
CLEAR: IT_MATERIAL, IT_MSEG.
ENDLOOP.
ENDIF.
ENDIF.
ENDFORM. " GET_MATERIAL_DOC_DATA
*& Form GET_KANBAN_DETAILS
text
--> p1 text
<-- p2 text
FORM GET_KANBAN_DETAILS .
SORT IT_PKHD BY PKNUM.
IF NOT IT_ZZC10_TEMP[] IS INITIAL.
LOOP AT IT_ZZC10_TEMP.
CLEAR: AUX_FILL, AUX_PKBMG.
MOVE IT_ZZC10_TEMP] TO IT_ZZC10[.
DELETE IT_ZZC10 WHERE MATNR NE IT_ZZC10_TEMP-MATNR
AND WERKS NE IT_ZZC10_TEMP-WERKS.
LOOP AT IT_ZZC10.
CLEAR: AUX_TIMESTAMP1, AUX_TIMESTAMP2, AUX_ZZC10_HR, AUX_DIFF.
EMPTY DATE GREATER THAN FULL DATE
IF IT_ZZC10-DATE_EMPTY GT IT_ZZC10-DATE_FULL.
CONCATENATE IT_ZZC10-DATE_EMPTY IT_ZZC10-TIME_EMPTY
INTO AUX_TIMESTAMP1.
CONCATENATE IT_ZZC10-DATE_FULL IT_ZZC10-TIME_FULL
INTO AUX_TIMESTAMP2.
CALL FUNCTION 'CCU_TIMESTAMP_DIFFERENCE'
EXPORTING
TIMESTAMP1 = AUX_TIMESTAMP1
TIMESTAMP2 = AUX_TIMESTAMP2
IMPORTING
DIFFERENCE = AUX_DIFF.
AUX_ZZC10_HR = AUX_DIFF / 3600.
FULL DATE GREATER THAN EMPTY DATE
ELSEIF IT_ZZC10-DATE_FULL GT IT_ZZC10-DATE_EMPTY.
CONCATENATE IT_ZZC10-DATE_EMPTY IT_ZZC10-TIME_EMPTY
INTO AUX_TIMESTAMP2.
CONCATENATE IT_ZZC10-DATE_FULL IT_ZZC10-TIME_FULL
INTO AUX_TIMESTAMP1.
CALL FUNCTION 'CCU_TIMESTAMP_DIFFERENCE'
EXPORTING
TIMESTAMP1 = AUX_TIMESTAMP1
TIMESTAMP2 = AUX_TIMESTAMP2
IMPORTING
DIFFERENCE = AUX_DIFF.
AUX_ZZC10_HR = AUX_DIFF / 3600.
FULL DATE EQUAL TO EMPTY DATE
ELSEIF IT_ZZC10-DATE_FULL EQ IT_ZZC10-DATE_EMPTY.
EMPTY TIME GREATER THAN FULL TIME
IF IT_ZZC10-TIME_EMPTY GT IT_ZZC10-TIME_FULL.
CONCATENATE IT_ZZC10-DATE_EMPTY IT_ZZC10-TIME_EMPTY
INTO AUX_TIMESTAMP1.
CONCATENATE IT_ZZC10-DATE_FULL IT_ZZC10-TIME_FULL
INTO AUX_TIMESTAMP2.
CALL FUNCTION 'CCU_TIMESTAMP_DIFFERENCE'
EXPORTING
TIMESTAMP1 = AUX_TIMESTAMP1
TIMESTAMP2 = AUX_TIMESTAMP2
IMPORTING
DIFFERENCE = AUX_DIFF.
AUX_ZZC10_HR = AUX_DIFF / 3600.
FULL TIME GREATER THAN EMPTY TIME
ELSEIF IT_ZZC10-TIME_FULL GT IT_ZZC10-TIME_EMPTY.
CONCATENATE IT_ZZC10-DATE_EMPTY IT_ZZC10-TIME_EMPTY
INTO AUX_TIMESTAMP2.
CONCATENATE IT_ZZC10-DATE_FULL IT_ZZC10-TIME_FULL
INTO AUX_TIMESTAMP1.
CALL FUNCTION 'CCU_TIMESTAMP_DIFFERENCE'
EXPORTING
TIMESTAMP1 = AUX_TIMESTAMP1
TIMESTAMP2 = AUX_TIMESTAMP2
IMPORTING
DIFFERENCE = AUX_DIFF.
AUX_ZZC10_HR = AUX_DIFF / 3600.
FULL TIME EQUAL TO EMPTY TIME
ELSEIF IT_ZZC10-TIME_FULL EQ IT_ZZC10-TIME_EMPTY.
AUX_ZZC10_HR = 0.
ENDIF.
ENDIF.
READ TABLE IT_PKHD WITH KEY PKNUM = IT_ZZC10-PKNUM
BINARY SEARCH.
IF SY-SUBRC EQ 0.
CLEAR: AUX_TIMESTAMP1, AUX_TIMESTAMP2,
AUX_PKHD_DAYS, AUX_PKHD_HOURS, AUX_TMP_DAYS,
AUX_PKHD_TIME.
AUX_PKHD_DAYS = IT_PKHD-KWBZD.
AUX_PKHD_HOURS = IT_PKHD-KWBZM.
IF AUX_PKHD_DAYS NE 0.
AUX_TMP_DAYS = AUX_PKHD_DAYS * 24.
AUX_PKHD_TIME = AUX_TMP_DAYS + AUX_PKHD_HOURS.
ELSE.
AUX_PKHD_TIME = AUX_PKHD_HOURS.
ENDIF.
COMPARE STATUS CHANGE TIME WITH REPLENISHMENT LEAD TIME
IF AUX_ZZC10_HR GT AUX_PKHD_TIME.
CLEAR: AUX_LATEHOURS.
LATE HOURS
AUX_LATEHOURS = AUX_ZZC10_HR - AUX_PKHD_TIME.
LATE QUANTITY FOR +1 DAY
IF AUX_LATEHOURS LE 24.
IT_TEMP-QTY_1 = IT_TEMP-QTY_1 + IT_ZZC10-PKBMG.
LATE QUANTITY FOR +2 DAYS
ELSEIF AUX_LATEHOURS GT 24
AND AUX_LATEHOURS LE 48.
IT_TEMP-QTY_2 = IT_TEMP-QTY_2 + IT_ZZC10-PKBMG.
LATE QUANTITY FOR +3 DAYS
ELSEIF AUX_LATEHOURS GT 48
AND AUX_LATEHOURS LE 72.
IT_TEMP-QTY_3 = IT_TEMP-QTY_3 + IT_ZZC10-PKBMG.
LATE QUANTITY FOR +4 DAYS
ELSEIF AUX_LATEHOURS GT 72
AND AUX_LATEHOURS LE 96.
IT_TEMP-QTY_4 = IT_TEMP-QTY_4 + IT_ZZC10-PKBMG.
LATE QUANTITY FOR +5 DAYS
ELSEIF AUX_LATEHOURS GT 96
AND AUX_LATEHOURS LE 120.
IT_TEMP-QTY_5 = IT_TEMP-QTY_5 + IT_ZZC10-PKBMG.
LATE QUANTITY FOR MORE THAN 5 DAYS
ELSEIF AUX_LATEHOURS GT 120.
IT_TEMP-QTY_6 = IT_TEMP-QTY_6 + IT_ZZC10-PKBMG.
ENDIF.
TOTAL KANBAN LATE QUANTITIES
AUX_PKBMG = AUX_PKBMG + IT_ZZC10-PKBMG.
ELSE.
AUX_FILL = AUX_FILL + IT_ZZC10-PKBMG.
CONTINUE.
ENDIF.
ENDIF.
ENDLOOP.
SUBASSEMBLY PART NUMBER
IT_TEMP-MATNR = IT_ZZC10-MATNR.
FINISHED GOOD
READ TABLE IT_MATERIAL WITH KEY IDNRK = IT_ZZC10-MATNR.
IT_TEMP-FINISHED = IT_MATERIAL-MATNR.
TECHNOLOGY GROUP
READ TABLE IT_MARC_ZTGRP WITH KEY WERKS = IT_ZZC10-WERKS
MATNR = IT_ZZC10-MATNR.
IF SY-SUBRC EQ 0.
MOVE IT_MARC_ZTGRP-ZZPTD TO IT_TEMP-TECH.
ENDIF.
NUMBER OF KANBAN CONTAINERS
IT_TEMP-BEHAZ = IT_PKHD-BEHAZ.
KANBAN QUANTITY
IT_TEMP-BEHMG = IT_PKHD-BEHMG.
LATE HOURS
AUX_LATEHOURS = AUX_ZZC10_HR - AUX_PKHD_TIME.
IT_TEMP-LATEHOURS = AUX_LATEHOURS.
REPLENISHMENT LEAD TIME
IT_TEMP-REPL_LEAD_TIME = AUX_PKHD_TIME.
KANBAN LATE QUANTITIES
IT_TEMP-GSMNG = AUX_PKBMG.
FILL RATE
AUX_TOTAL = AUX_PKBMG + AUX_FILL.
IT_TEMP-FILLRATE = ( AUX_FILL / AUX_TOTAL ) * 100.
GET STOCK IN PO01
REFRESH IT_MARD.
SELECT LABST FROM MARD INTO TABLE IT_MARD
WHERE MATNR EQ IT_ZZC10-MATNR
AND WERKS EQ IT_ZZC10-WERKS.
IF SY-SUBRC EQ 0.
LOOP AT IT_MARD.
SUM.
ENDLOOP.
MOVE IT_MARD-LABST TO IT_TEMP-STOCK_PO01.
CLEAR IT_MARD.
ENDIF.
GET YESTERDAY'S OUTPUT QUANTITY
PERFORM GET_YESTERDAY_QTY.
CUMULATIVE OUTPUT FOR ACTUAL MONTH
PERFORM GET_CUMULATIVE_OUTPUT.
GET BACKORDER SUBASSEMBLY DATA
PERFORM GET_BACKORDER_QTY.
GET BACKORDER FINISHED GOODS, TODAY, +1, +2, +3, +4, +5
AND AVERAGE OUPTUT NEEDED DATA
PERFORM GET_FINISHEDGOODS_DATA.
GET DATA FOR ACTUAL MONTH DELIVERED
PERFORM GET_ACTUAL_MONTH_DATA.
APPEND IT_TEMP.
CLEAR IT_TEMP.
DELETE IT_ZZC10_TEMP WHERE MATNR EQ IT_ZZC10_TEMP-MATNR
AND WERKS EQ IT_ZZC10_TEMP-WERKS.
CLEAR: IT_ZZC10, IT_ZZC10_TEMP, IT_PKHD.
ENDLOOP.
ENDIF.
ENDFORM. " GET_KANBAN_DETAILS
*& Form GET_YESTERDAY_QTY
text
--> p1 text
<-- p2 text
FORM GET_YESTERDAY_QTY .
CLEAR: AUX_BUKRS, AUX_WAERS.
READ TABLE IT_T001W WITH KEY WERKS = IT_PKHD-WERKS.
IF SY-SUBRC EQ 0.
CLEAR AUX_FABKL.
MOVE IT_T001W-FABKL TO AUX_FABKL.
SELECT SINGLE BUKRS INTO AUX_BUKRS FROM T001K
WHERE BWKEY = IT_T001W-BWKEY.
IF SY-SUBRC EQ 0.
SELECT SINGLE WAERS INTO AUX_WAERS FROM T001
WHERE BUKRS = AUX_BUKRS.
ENDIF.
IF 'WD;WF;WN;WP;WU' CS AUX_FABKL.
AUX_FABKL(1) = 'P'.
ENDIF.
MOVE SY-DATUM TO AUX_DATUMABSOLUT.
PERFORM WEEKDAY USING AUX_DATUMABSOLUT.
MOVE 'W' TO AUX_FLAG.
PERFORM CHECK_WORKING_DAY CHANGING AUX_FLAG.
IF AUX_DATUMABSOLUT = 0.
AUX_YDAY = SY-DATUM.
ELSEIF AUX_DATUMABSOLUT = 1.
AUX_YDAY = SY-DATUM - 1.
ELSEIF AUX_FLAG = 'F'.
AUX_YDAY = SY-DATUM.
ENDIF.
IF AUX_DATUMABSOLUT = 0 OR
AUX_DATUMABSOLUT = 1 OR
AUX_FLAG = 'F'.
PERFORM DATE_WITH_OFFSET USING 0 CHANGING AUX_TDAY.
PERFORM DATE_WITH_OFFSET USING 1 CHANGING AUX_DAY1.
PERFORM DATE_WITH_OFFSET USING 2 CHANGING AUX_DAY2.
PERFORM DATE_WITH_OFFSET USING 3 CHANGING AUX_DAY3.
PERFORM DATE_WITH_OFFSET USING 4 CHANGING AUX_DAY4.
PERFORM DATE_WITH_OFFSET USING 5 CHANGING AUX_DAY5.
ELSE.
PERFORM DATE_WITH_OFFSET USING 0 CHANGING AUX_YDAY.
PERFORM DATE_WITH_OFFSET USING 1 CHANGING AUX_TDAY.
PERFORM DATE_WITH_OFFSET USING 2 CHANGING AUX_DAY1.
PERFORM DATE_WITH_OFFSET USING 3 CHANGING AUX_DAY2.
PERFORM DATE_WITH_OFFSET USING 4 CHANGING AUX_DAY3.
PERFORM DATE_WITH_OFFSET USING 5 CHANGING AUX_DAY4.
PERFORM DATE_WITH_OFFSET USING 6 CHANGING AUX_DAY5.
ENDIF.
AUX_BORD = '19000101'.
GET PLANNED ORDER DATA FOR YESTERDAY
REFRESH IT_PLAF.
CLEAR: AUX_KAPBD, AUX_KBEAREST, AUX_KRUEREST, AUX_GSMNG.
SELECT * FROM PLAF INTO TABLE IT_PLAF
WHERE MATNR EQ IT_PKHD-MATNR
AND PLWRK EQ IT_PKHD-WERKS
AND ( PAART EQ 'KD' OR PAART EQ 'PE' )
AND RATID GT 0
AND PEDTR EQ AUX_YDAY.
IF NOT IT_PLAF[] IS INITIAL.
LOOP AT IT_PLAF.
REFRESH IT_KBED_KAKO.
SELECT KBED~KBEAREST KBED~KRUEREST KBED~KEINH
FROM KBED INNER JOIN KAKO
ON KBED~KAPID EQ KAKO~KAPID
INTO TABLE IT_KBED_KAKO
WHERE KBED~BEDID = IT_PLAF-RATID
AND KAKO~KAPAR = '001'.
IF NOT IT_KBED_KAKO[] IS INITIAL.
LOOP AT IT_KBED_KAKO.
IF IT_KBED_KAKO-KEINH NE 'STD'.
CALL FUNCTION 'UNIT_CONVERSION_SIMPLE'
EXPORTING
INPUT = IT_KBED_KAKO-KBEAREST
UNIT_IN = IT_KBED_KAKO-KEINH
UNIT_OUT = 'STD'
IMPORTING
OUTPUT = IT_KBED_KAKO-KBEAREST.
CALL FUNCTION 'UNIT_CONVERSION_SIMPLE'
EXPORTING
INPUT = IT_KBED_KAKO-KRUEREST
UNIT_IN = IT_KBED_KAKO-KEINH
UNIT_OUT = 'STD'
IMPORTING
OUTPUT = IT_KBED_KAKO-KRUEREST.
ENDIF.
ADD IT_KBED_KAKO-KBEAREST TO AUX_KBEAREST.
ADD IT_KBED_KAKO-KRUEREST TO AUX_KRUEREST.
CLEAR IT_KBED_KAKO.
ENDLOOP.
AUX_KAPBD = AUX_KBEAREST + AUX_KRUEREST.
ENDIF.
CLEAR IT_PLAF.
ENDLOOP.
ENDIF.
READ TABLE IT_KBED_KAKO INDEX 1.
MOVE: AUX_KAPBD TO IT_TEMP-KAPBD_OUTY,
IT_KBED_KAKO-KEINH TO IT_TEMP-KEINH_OUTY.
GET OUTPUT QUANTITY FOR YESTERDAY
REFRESH: IT_MKPF, IT_MSEG.
CLEAR: AUX_MENGE.
SELECT * FROM MKPF INTO TABLE IT_MKPF
WHERE BUDAT EQ AUX_PREVIOUS.
IF NOT IT_MKPF[] IS INITIAL.
GET MATERIAL DOCUMENT ITEM DATA
SELECT * FROM MSEG INTO TABLE IT_MSEG
FOR ALL ENTRIES IN IT_MKPF
WHERE MBLNR EQ IT_MKPF-MBLNR
AND MATNR IN SO_MATNR
AND WERKS IN SO_WERKS
AND MJAHR EQ SY-DATUM+0(4)
AND ( BWART EQ '131' OR BWART EQ '132' ).
IF NOT IT_MSEG[] IS INITIAL.
LOOP AT IT_MSEG.
AUX_MENGE = AUX_MENGE + IT_MSEG-MENGE.
CLEAR IT_MSEG.
ENDLOOP.
ENDIF.
ENDIF.
READ TABLE IT_MSEG INDEX 1.
MOVE: AUX_MENGE TO IT_TEMP-GSMNG_OUTY,
IT_MSEG-MEINS TO IT_TEMP-MEINS_OUTY.
CLEAR IT_T001W.
ENDIF.
ENDFORM. " GET_YESTERDAY_QTY
*& Form GET_BACKORDER_QTY
text
--> p1 text
<-- p2 text
FORM GET_BACKORDER_QTY .
GET PLANNED ORDER DATA FOR BACKORDER
REFRESH IT_PLAF.
CLEAR: AUX_KAPBD, AUX_KBEAREST, AUX_KRUEREST, AUX_GSMNG, AUX_QUANT.
SELECT * FROM PLAF INTO TABLE IT_PLAF
WHERE MATNR EQ IT_ZZC10-MATNR
AND PLWRK EQ IT_ZZC10-WERKS
AND ( PAART EQ 'KD' OR PAART EQ 'PE' )
AND RATID GT 0
AND PEDTR GE SO_BUDAT-LOW
AND PEDTR LE SY-DATUM.
IF NOT IT_PLAF[] IS INITIAL.
LOOP AT IT_PLAF.
CLEAR: AUX_TIMESTAMP1, AUX_TIMESTAMP2, AUX_PLAF_HR, AUX_DIFF.
EMPTY DATE GREATER THAN FULL DATE
CONCATENATE SY-DATUM SY-UZEIT
INTO AUX_TIMESTAMP1.
CONCATENATE IT_PLAF-PEDTR IT_PLAF-PEDTI
INTO AUX_TIMESTAMP2.
CALL FUNCTION 'CCU_TIMESTAMP_DIFFERENCE'
EXPORTING
TIMESTAMP1 = AUX_TIMESTAMP1
TIMESTAMP2 = AUX_TIMESTAMP2
IMPORTING
DIFFERENCE = AUX_DIFF.
AUX_PLAF_HR = AUX_DIFF / 3600.
IF AUX_PLAF_HR > AUX_PKHD_TIME.
AUX_GSMNG = AUX_GSMNG + IT_PLAF-GSMNG.
REFRESH IT_KBED_KAKO.
SELECT KBEDKBEAREST KBEDKRUEREST KBED~KEINH
FROM KBED INNER JOIN KAKO
ON KBEDKAPID EQ KAKOKAPID
INTO TABLE IT_KBED_KAKO
WHERE KBED~BEDID = IT_PLAF-RATID
AND KAKO~KAPAR = '001'.
IF NOT IT_KBED_KAKO[] IS INITIAL.
LOOP AT IT_KBED_KAKO.
IF IT_KBED_KAKO-KEINH NE 'STD'.
CALL FUNCTION 'UNIT_CONVERSION_SIMPLE'
EXPORTING
INPUT = IT_KBED_KAKO-KBEAREST
UNIT_IN = IT_KBED_KAKO-KEINH
UNIT_OUT = 'STD'
IMPORTING
OUTPUT = IT_KBED_KAKO-KBEAREST.
CALL FUNCTION 'UNIT_CONVERSION_SIMPLE'
EXPORTING
INPUT = IT_KBED_KAKO-KRUEREST
UNIT_IN = IT_KBED_KAKO-KEINH
UNIT_OUT = 'STD'
IMPORTING
OUTPUT = IT_KBED_KAKO-KRUEREST.
ENDIF.
AUX_KBEAREST = AUX_KBEAREST + IT_KBED_KAKO-KBEAREST.
AUX_KRUEREST = AUX_KRUEREST + IT_KBED_KAKO-KRUEREST.
CLEAR IT_KBED_KAKO.
ENDLOOP.
AUX_KAPBD = AUX_KBEAREST + AUX_KRUEREST.
ENDIF.
ENDIF.
ENDLOOP.
READ TABLE IT_PLAF INDEX 1.
MOVE: AUX_GSMNG TO IT_TEMP-GSMNG_BORD,
IT_PLAF-MEINS TO IT_TEMP-MEINS_BORD.
READ TABLE IT_KBED_KAKO INDEX 1.
MOVE: AUX_KAPBD TO IT_TEMP-KAPBD_BORD,
IT_KBED_KAKO-KEINH TO IT_TEMP-KEINH_BORD.
ENDIF.
ENDFORM. " GET_BACKORDER_QTY
*& Form WEEKDAY
text
-->P_AUX_DATUMABSOLUT text
FORM WEEKDAY USING P_DATUMABSOLUT.
P_DATUMABSOLUT = P_DATUMABSOLUT MOD 7.
ENDFORM. " WEEKDAY
*& Form CHECK_WORKING_DAY
text
<--P_AUX_FLAG text
FORM CHECK_WORKING_DAY CHANGING P_FLAG.
CALL FUNCTION 'DATE_CONVERT_TO_FACTORYDATE'
EXPORTING
DATE = SY-DATUM
FACTORY_CALENDAR_ID = AUX_FABKL
IMPORTING
DATE = AUX_FDAY
EXCEPTIONS
CALENDAR_BUFFER_NOT_LOADABLE = 1
CORRECT_OPTION_INVALID = 2
DATE_AFTER_RANGE = 3
DATE_BEFORE_RANGE = 4
DATE_INVALID = 5
FACTORY_CALENDAR_NOT_FOUND = 6
OTHERS = 7.
IF AUX_FDAY NE SY-DATUM.
AUX_FLAG = 'F'.
ENDIF.
ENDFORM. " CHECK_WORKING_DAY
*& Form DATE_WITH_OFFSET
text
-->P_0 text
<--P_AUX_TDAY text
FORM DATE_WITH_OFFSET USING AUX_OFFSET
CHANGING P_TDAY.
DATA:
AUX_CALENDARDATE LIKE SCAL-DATE,
AUX_FACTORYDATE LIKE SCAL-FACDATE.
CALL FUNCTION 'DATE_CONVERT_TO_FACTORYDATE'
EXPORTING
DATE = SY-DATUM
FACTORY_CALENDAR_ID = AUX_FABKL
IMPORTING
FACTORYDATE = AUX_FACTORYDATE
EXCEPTIONS
CALENDAR_BUFFER_NOT_LOADABLE = 1
CORRECT_OPTION_INVALID = 2
DATE_AFTER_RANGE = 3
DATE_BEFORE_RANGE = 4
DATE_INVALID = 5
FACTORY_CALENDAR_NOT_FOUND = 6
OTHERS = 7.
AUX_FACTORYDATE = AUX_FACTORYDATE + AUX_OFFSET.
CALL FUNCTION 'FACTORYDATE_CONVERT_TO_DATE'
EXPORTING
FACTORYDATE = AUX_FACTORYDATE
FACTORY_CALENDAR_ID = AUX_FABKL
IMPORTING
DATE = AUX_CALENDARDATE
EXCEPTIONS
CALENDAR_BUFFER_NOT_LOADABLE = 1
FACTORYDATE_AFTER_RANGE = 2
FACTORYDATE_BEFORE_RANGE = 3
FACTORYDATE_INVALID = 4
FACTORY_CALENDAR_ID_MISSING = 5
FACTORY_CALENDAR_NOT_FOUND = 6
OTHERS = 7.
P_TDAY = AUX_CALENDARDATE.
ENDFORM. " DATE_WITH_OFFSET
*& Form GET_CUMULATIVE_OUTPUT
text
--> p1 text
<-- p2 text
FORM GET_CUMULATIVE_OUTPUT .
CLEAR: AUX_LOW, AUX_HIGH.
MOVE: SY-DATUM TO AUX_LOW,
SY-DATUM TO AUX_HIGH.
MOVE: '01' TO AUX_LOW+6(2),
'31' TO AUX_HIGH+6(2).
REFRESH IT_MKPF_MSEG.
CLEAR AUX_MNG.
SELECT MKPFMBLNR MKPFMJAHR MKPF~BUDAT
MSEGBWART MSEGMATNR MSEGMENGE MSEGMEINS MSEGDMBTR MSEGWERKS
INTO TABLE IT_MKPF_MSEG
FROM MKPF JOIN MSEG
ON MKPFMBLNR EQ MSEGMBLNR
WHERE MKPF~BUDAT BETWEEN AUX_LOW AND AUX_HIGH
AND MKPF~MJAHR EQ AUX_CURRENT+0(4)
AND MKPF~VGART EQ 'WS'
AND MSEG~ZEILE EQ 1
AND MSEG~WERKS EQ SO_WERKS
AND MSEG~MATNR EQ IT_PKHD-MATNR
AND MSEG~BWART IN ('131', '132').
IF NOT IT_MKPF_MSEG[] IS INITIAL.
LOOP AT IT_MKPF_MSEG.
AUX_MNG = AUX_MNG + IT_MKPF_MSEG-MENGE.
CLEAR IT_MKPF_MSEG.
ENDLOOP.
ENDIF.
MOVE AUX_MNG TO IT_TEMP-GSMNG_OUTM.
READ TABLE IT_MKPF_MSEG INDEX 1.
MOVE IT_MKPF_MSEG-MEINS TO IT_TEMP-MEINS_OUTM.
REFRESH IT_COBK.
SELECT DISTINCT BLPP~RUECK FROM BLPK INNER JOIN BLPP
ON BLPKPRTNR EQ BLPPPRTNR
INTO TABLE IT_COBK
WHERE BLPK~WERKS EQ SO_WERKS
AND BLPK~MATNR EQ SO_MATNR
AND BLPK~DATUM BETWEEN AUX_LOW
AND AUX_HIGH
AND BLPP~PRTPS EQ '0002'.
IF NOT IT_COBK[] IS INITIAL.
REFRESH IT_COEPL.
SELECT KOKRS BELNR FROM COBK
INTO CORRESPONDING FIELDS OF TABLE IT_COEPL
FOR ALL ENTRIES IN IT_COBK
WHERE REFBT EQ 'R'
AND REFBN EQ IT_COBK-RUECK
AND BLDAT BETWEEN AUX_LOW AND AUX_HIGH.
CLEAR IT_CAPACITIES.
REFRESH IT_CAPACITIES.
LOOP AT IT_COEPL.
SELECT LSBBTR MEINB FROM COEPL
APPENDING CORRESPONDING FIELDS OF TABLE IT_CAPACITIES
WHERE KOKRS EQ IT_COEPL-KOKRS
AND BELNR EQ IT_COEPL-BELNR
AND OBJNR LIKE '%DLABOR'.
CALL FUNCTION 'UNIT_SUM'
IMPORTING
QUANTITY_SUM = IT_TEMP-KAPBD_OUTM
UNIT_SUM = AUX_SUM_UNIT
TABLES
QUANTITIES_UNITS = IT_CAPACITIES.
CALL FUNCTION 'UNIT_CONVERSION_SIMPLE'
EXPORTING
INPUT = IT_TEMP-KAPBD_OUTM
UNIT_IN = AUX_SUM_UNIT
UNIT_OUT = 'STD'
IMPORTING
OUTPUT = IT_TEMP-KAPBD_OUTM.
ENDLOOP.
READ TABLE IT_CAPACITIES INDEX 1.
MOVE IT_CAPACITIES-MEINB TO IT_TEMP-KEINH_OUTM.
ENDIF.
ENDFORM. " GET_CUMULATIVE_OUTPUT
*& Form GET_FINISHEDGOODS_DATA
text
--> p1 text
<-- p2 text
FORM GET_FINISHEDGOODS_DATA .
GET PLANNED ORDER DATA
REFRESH IT_PLAF.
CLEAR: AUX_KAPBD, AUX_KBEAREST, AUX_KRUEREST, AUX_GSMNG.
SELECT * FROM PLAF INTO TABLE IT_PLAF
WHERE MATNR EQ IT_TEMP-FINISHED
AND ( PAART EQ 'KD' OR PAART EQ 'PE' )
AND RATID GT 0
AND PEDTR GE AUX_BORD
AND PEDTR LE AUX_DAY5.
IF NOT IT_PLAF[] IS INITIAL.
LOOP AT IT_PLAF.
CLEAR: AUX_KAPBD, AUX_GSMNG.
REFRESH IT_KBED_KAKO.
SELECT KBEDKBEAREST KBEDKRUEREST KBED~KEINH
FROM KBED INNER JOIN KAKO
ON KBEDKAPID EQ KAKOKAPID
INTO TABLE IT_KBED_KAKO
WHERE KBED~BEDID = IT_PLAF-RATID
AND KAKO~KAPAR = '001'.
IF NOT IT_KBED_KAKO[] IS INITIAL.
CLEAR AUX_KAPBD.
LOOP AT IT_KBED_KAKO.
IF IT_KBED_KAKO-KEINH NE 'STD'.
CALL FUNCTION 'UNIT_CONVERSION_SIMPLE'
EXPORTING
INPUT = IT_KBED_KAKO-KBEAREST
UNIT_IN = IT_KBED_KAKO-KEINH
UNIT_OUT = 'STD'
IMPORTING
OUTPUT = IT_KBED_KAKO-KBEAREST.
CALL FUNCTION 'UNIT_CONVERSION_SIMPLE'
EXPORTING
INPUT = IT_KBED_KAKO-KRUEREST
UNIT_IN = IT_KBED_KAKO-KEINH
UNIT_OUT = 'STD'
IMPORTING
OUTPUT = IT_KBED_KAKO-KRUEREST.
ENDIF.
ADD IT_KBED_KAKO-KBEAREST TO AUX_KBEAREST.
ADD IT_KBED_KAKO-KRUEREST TO AUX_KRUEREST.
CLEAR IT_KBED_KAKO.
ENDLOOP.
AUX_KAPBD = AUX_KBEAREST + AUX_KRUEREST.
ENDIF.
READ TABLE IT_KBED_KAKO INDEX 1.
CASE IT_PLAF-PEDTR.
WHEN AUX_DAY5.
AUX_GSMNG = IT_PLAF-GSMNG.
IT_TEMP-F_GSMNG_DAY5 = IT_TEMP-F_GSMNG_DAY5 + AUX_GSMNG.
IT_TEMP-F_MEINS_DAY5 = IT_PLAF-MEINS.
IT_TEMP-F_KAPBD_DAY5 = IT_TEMP-F_KAPBD_DAY5 + AUX_KAPBD.
IT_TEMP-F_KEINH_DAY5 = IT_KBED_KAKO-KEINH.
WHEN AUX_DAY4.
AUX_GSMNG = IT_PLAF-GSMNG.
IT_TEMP-F_GSMNG_DAY4 = IT_TEMP-F_GSMNG_DAY4 + AUX_GSMNG.
IT_TEMP-F_MEINS_DAY4 = IT_PLAF-MEINS.
IT_TEMP-F_KAPBD_DAY4 = IT_TEMP-F_KAPBD_DAY4 + AUX_KAPBD.
IT_TEMP-F_KEINH_DAY4 = IT_KBED_KAKO-KEINH.
WHEN AUX_DAY3.
AUX_GSMNG = IT_PLAF-GSMNG.
IT_TEMP-F_GSMNG_DAY3 = IT_TEMP-F_GSMNG_DAY3 + AUX_GSMNG.
IT_TEMP-F_MEINS_DAY3 = IT_PLAF-MEINS.
IT_TEMP-F_KAPBD_DAY3 = IT_TEMP-F_KAPBD_DAY3 + AUX_KAPBD.
IT_TEMP-F_KEINH_DAY3 = IT_KBED_KAKO-KEINH.
WHEN AUX_DAY2.
AUX_GSMNG = IT_PLAF-GSMNG.
IT_TEMP-F_GSMNG_DAY2 = IT_TEMP-F_GSMNG_DAY2 + AUX_GSMNG.
IT_TEMP-F_MEINS_DAY2 = IT_PLAF-MEINS.
IT_TEMP-F_KAPBD_DAY2 = IT_TEMP-F_KAPBD_DAY2 + AUX_KAPBD.
IT_TEMP-F_KEINH_DAY2 = IT_KBED_KAKO-KEINH.
WHEN AUX_DAY1.
AUX_GSMNG = IT_PLAF-GSMNG.
IT_TEMP-F_GSMNG_DAY1 = IT_TEMP-F_GSMNG_DAY1 + AUX_GSMNG.
IT_TEMP-F_MEINS_DAY1 = IT_PLAF-MEINS.
IT_TEMP-F_KAPBD_DAY1 = IT_TEMP-F_KAPBD_DAY1 + AUX_KAPBD.
IT_TEMP-F_KEINH_DAY1 = IT_KBED_KAKO-KEINH.
WHEN AUX_TDAY.
AUX_GSMNG = IT_PLAF-GSMNG.
IT_TEMP-F_GSMNG_TDAY = IT_TEMP-F_GSMNG_TDAY + AUX_GSMNG.
IT_TEMP-F_MEINS_TDAY = IT_PLAF-MEINS.
IT_TEMP-F_KAPBD_TDAY = IT_TEMP-F_KAPBD_TDAY + AUX_KAPBD.
IT_TEMP-F_KEINH_TDAY = IT_KBED_KAKO-KEINH.
WHEN OTHERS.
AUX_GSMNG = IT_PLAF-GSMNG.
IT_TEMP-F_GSMNG_BORD = IT_TEMP-F_GSMNG_BORD + AUX_GSMNG.
IT_TEMP-F_MEINS_BORD = IT_PLAF-MEINS.
IT_TEMP-F_KAPBD_BORD = IT_TEMP-F_KAPBD_BORD + AUX_KAPBD.
IT_TEMP-F_KEINH_BORD = IT_KBED_KAKO-KEINH.
ENDCASE.
IT_TEMP-F_GSMNG_OUTN = IT_TEMP-F_GSMNG_OUTN + AUX_GSMNG.
IT_TEMP-F_KAPBD_OUTN = IT_TEMP-F_KAPBD_OUTN + AUX_KAPBD.
ENDLOOP.
READ TABLE IT_PLAF INDEX 1.
MOVE IT_PLAF-MEINS TO IT_TEMP-F_MEINS_OUTN.
READ TABLE IT_KBED_KAKO INDEX 1.
MOVE IT_KBED_KAKO-KEINH TO IT_TEMP-F_KEINH_OUTN.
ENDIF.
ENDFORM. " GET_FINISHEDGOODS_DATA
*& Form GET_ACTUAL_MONTH_DATA
text
--> p1 text
<-- p2 text
FORM GET_ACTUAL_MONTH_DATA .
CLEAR: AUX_LOW, AUX_HIGH.
MOVE: '01' TO SO_BUDAT-LOW+6(2),
SO_BUDAT-LOW TO AUX_LOW,
'31' TO SO_BUDAT-LOW+6(2),
SO_BUDAT-LOW TO AUX_HIGH.
REFRESH IT_MKPF_MSEG.
CLEAR AUX_MNG.
SELECT MKPFMBLNR MKPFMJAHR MKPF~BUDAT
MSEGBWART MSEHi Ramya,
Your program contains a lot of BIG standard tables, these tables
usually contain huge amount of data,
plus you have used SELECT * in many places, try to avoid that and replace with only those field names that are reqd.
even the joins are on huge tables, performance could improve on those if you can put some more conditions or keys to the joins to make it more specific.
even after that if it gives the Runtime Error then you have 2 options:
1. Ask your Basis to increase Time limit for program executing in foreground.
2. Execute your program in Background Mode.
Regards,
Samson Rodrigues. -
Long running VI crashes about 30 days by Windows 7 bluescreen
Hi Everyone,
My background is as an Electrical Engineer with some programming experience, LV, C, VB etc, but nothing approaching a computer science type level of understanding.
I have a test system that contains two hardware cards, the PCI-6033E for analog input to read a thermocouple and the PCI-DIO-96 to toggle a cooling fan when a set temperature threshold is reached. There are up to 36 test stations that this program runs. Each station individually isn't complicated, but there are 36 of them.
The original VI has been around for quite some time. It was running on Windows XP and needed to be run on a Windows 7 PC. The VI was first written to use the traditional DAQ interface methods. For the drivers for the hardware to work on Windows 7 they needed to be upgraded to NI-DAQmx drivers. That meant a bit of recoding to implement the new style.
The VI and computers would run under XP for weeks on end without any trouble. The PC's nor VI was not routinely restarted. When the new version was placed on the Windows 7 PC's the VI would run for a period of time around 30 days and then a windows error box would pop up.
There are three of these same systems running this same hardware and same VI. Two of them had this error occur after 28 days and another was a few days after that.
Thinking that this could be a memory leak issue, the systems have been restarted and have been running while monitoring memory usage and there does not appear to be an increase in memory consumption over about a week's time.
I have attached the Desktop Execution Traces to this post also. I didn't see any perpetually increasing memory buffer sizes or anything. Though I do wonder what the trace means by the Handle: Entry, is that the memory location being addressed?
Also, being that this error takes about one month to occur, running repeated stress-test (noting if the duration between errors goes up or down with increases or decreases in program load) type of iterations is impractical.
Questions:
1) Does anyone know of any driver issues regarding the support of relatively old hardware with windows 7?
2) When using the Desktop Execution Trace toolkit I see Memory Allocate events, but no memory release events. Should I be expecting some type of release event to be logged?
3) What does the Handle: address mean in the trace log?
4) As mentioned above my expertise is more in the electronics and hardware arena rather than the details of memory management and Windows PC architecture. It seems to me a driver issues would likely cause an error to be thrown from windows itself rather than LabVIEW as is the case here. If there were a memory leak would that error come from LabVIEW or Windows?
5) To you, what does this evidence point to as being the problem? Bad driver, poor VI programming, other Windows 7 conflict?
6) Any advice in further tracking down this problem?
Thanks,
Brandon
Attachments:
11_17_2011 _ 16_18_22_582723.txt 3251 KBAndrey -
In some cases Windows able to show in which *.sys driver an error occurred. This info should be also somewhere in saved minidump.
And also check Windows Event Logs - probably something happened shortly before Blue Screen.
That's kind of the problem. I looked at the "help" that was offered by windows at the time a bit, but I couldn't make any sense out of all the information that was there. There was a really long .xml file that unfortunately was mostly compuspeak to me. Some names and words were recognizable, but I couldn't get context so I didn't learn anything from it.
About the code itself. It is definitely not optimized in any shape or form. It appears to be hacked together by a lab engineer without much more than basic training in LabView. Kudos for them getting it to work when it was constructed, however now there is a problem. Unfortunately there wasn't time (budget) for a rewrite and cleanup so a quick swap of hardware related code was all that was done.
Did you ever run your new code on the XP machines?
Oddly, no. Not for any length of time. A simple functional verification was all that was done with the new code on XP. A long term run on XP will be done in the coming months.
We will need to know What version of LabVIEW as well as the DAQmx version. A simple screenshot from MAX>> Software would suffice. Is this occurring with a VI running in the IDE or a deployed executable?
The VI is running from an installer compiled from Labview 2010.
The MAX Screenshot:
Attaching your code would allow us to look for places the code could be optimized such as re-opening DAQmx Tasks or arrays built in loops (It Looks like you've got a few on a quad core machine and the compiler is loop expanding from the instances where a buffer keeps upping size by 4)
The trace has a number of memory resizes that increase the memory allocated by 8, up to a certain level, something like 804 or some number. This would occur many times and always stop incrementing at that same number 804 (or whatever it actually was). There would be a different handle for each of these sequences. The fact that it does not keep incrementing towards infinity makes me think this is not a big issue. In the trace log it is lines 1473 through 1572 and 1632 through 1731 for instance. That section of code is here:
Thank you all for being helpful on this one. I appreciate the time you have taken to offer advice and solutions. The top level VI is HILT36A.vi.
Attachments:
Win7 HILT_36A.llb 876 KB -
How do I fix this? Dialog boxes won't open completely and competion boxes don't work.
I'm using a Mac Book Air and OS X Lion 10.7.5. Firefox has been hanging up periodically and recovers after closing and re-opening, but the the frequency of hangups has been increasing. All other programs operate correctly and don't hang up. This also happens in safe mode. I've removed and reinstalled Firefox several times, but the problems remain. I've disabled all plug-ins and the problems remain. I'm led to believe that some Firefox files that are not replaced by reinstalling are corrupted and causing these problems. Also...I have screen shots but am unable to upoad them.
lannit,
If you need help to create a screenshot, please see [[How do I create a screenshot of my problem?]]
Once you've done this, attach the saved screenshot file to your forum post by clicking the '''Browse...''' button below the ''Post your reply'' box. This will help us to visualize the problem.
Firefox reinstall, does not remove profiles from pre-existing installs:
Certain Firefox problems can be solved by performing a ''Clean reinstall''. This means you remove Firefox program files and then reinstall Firefox. Please follow these steps:
'''Note:''' You might want to print these steps or view them in another browser.
#Download the latest Desktop version of Firefox from [https://www.mozilla.org mozilla.org] (or choose the download for your operating system and language from [https://www.mozilla.org/firefox/all/ this page]) and save the setup file to your computer.
#After the download finishes, close all Firefox windows (or open the Firefox menu [[Image:New Fx Menu]] and click the close button [[Image:Close 29]]).
#Delete the Firefox installation folder, which is located in one of these locations, by default:
#*'''Windows:'''
#**C:\Program Files\Mozilla Firefox
#**C:\Program Files (x86)\Mozilla Firefox
#*'''Mac:''' Delete Firefox from the Applications folder.
#*'''Linux:''' If you installed Firefox with the distro-based package manager, you should use the same way to uninstall it - see [[Installing Firefox on Linux]]. If you downloaded and installed the binary package from the [http://www.mozilla.org/firefox#desktop Firefox download page], simply remove the folder ''firefox'' in your home directory.
#Now, go ahead and reinstall Firefox:
##Double-click the downloaded installation file and go through the steps of the installation wizard.
##Once the wizard is finished, choose to directly open Firefox after clicking the Finish button.
More information about reinstalling Firefox can be found [[Troubleshoot and diagnose Firefox problems#w_5-reinstall-firefox|here]].
<b>WARNING:</b> Do not use a third party uninstaller as part of this process. Doing so could permanently delete your [[Profiles|Firefox profile]] data, including but not limited to, extensions, cache, cookies, bookmarks, personal settings and saved passwords. <u>These cannot be easily recovered unless they have been backed up to an external device!</u> See [[Back up and restore information in Firefox profiles]]. <!-- Starting in Firefox 31, the Firefox uninstaller no longer lets you remove user profile data.Ref: Bug 432017 and https://support.mozilla.org/kb/uninstall-firefox-from-your-computer/discuss/5279 [Fx31] Windows uninstaller will no longer offer the option to remove personal data -->
Please report back to say if this helped you!
Thank you. -
Create hyperlink for reply to in mail body while sending email.
Hi All,
We have a requirement where we need to create an hyperlink for reply to in the mail body.
We have implemented entire functionality using CL_BCS classes and everything is working fine.
Only problem we have is when we give document type as HTM instead of RAW then entire formatting of mail body gets disturbed although we get the hyperlink.
Is there any way where we can send the mail in html format using CL_BCS,CL_DOCUMENT_BCS ?
KR Jaideep,Hi ,
Please find the code below I am using to make the hyperlink. Do I need to fill the entire mail body using HTML Tags ? If yes, then I guess it will increase the complexity of program as the mail content will vary from one mail to another depending upon whether different invoice documents have text maintained in them.
lwa_text = '<html>'.
APPEND lwa_text TO li_text.
CLEAR lwa_text.
lwa_text = '<body>'.
APPEND lwa_text TO li_text.
CLEAR lwa_text.
lwa_text = text-012.
APPEND lwa_text TO li_text.
CLEAR lwa_text.
CONCATENATE '<a href="mailto:'
lv_receiver
'">'
lv_receiver
'</a>'
INTO lwa_text.
APPEND lwa_text TO li_text.
CLEAR lwa_text.
lwa_text = '</body>'.
APPEND lwa_text TO li_text.
CLEAR lwa_text.
lwa_text = '</html>'.
APPEND lwa_text TO li_text.
CLEAR lwa_text.
TRY.
CALL METHOD cl_document_bcs=>create_from_text
EXPORTING
i_text = li_text
i_documenttype = 'HTM'
i_subject = 'Test for hyperlink'
i_importance = '1'
i_sensitivity = 'P'
RECEIVING
result = lref_document_bcs.
CATCH cx_document_bcs .
ENDTRY. -
ADF how can i execute a query with parameters when the page renders
hi
i am using ADF web 11g
i need to execute a query with parameters when the page renders
thankshello,
I'm a fan of Java code, I really am.
But when you use ADF, you decided to move to a more declarative environment.
So why not do it declarative, the adf way?
In your pagedef insert a action binding.
This can be anything, a call to the application module, a call on the iterator(Like executeWithparams, etc.)
Create an invokeAction in your pagedef and set the condition.
This example refreshes(Action 2 is execute query) the data.
First the method binding:
<action IterBinding="PersoonIterator" id="Execute" InstanceName="LSAppModuleDataControl.Persoon"
DataControl="LSAppModuleDataControl" RequiresUpdateModel="true" Action="2"/>And the invoke action
<invokeAction Binds="Execute" id="refreshData"/>This always refreshes the data on page entry, but anything is possible, you can set condictions for the invokeAction.
-Anton
PS Yes I know that pagedefs become backing beans in the end and yes that is Java code, but if you wanna play the ADF way, the goal is the reduction of Java code and the increased performance of declarative programming. -
Problem with one control in Subvi to use in MainVi...
Hi,
I'll try to explain easy. I have my application with main window, where I do calculates and have one graph data. I use subvi to open the serial port and when I close the subvi, the data is drawed in the mainvi graph. Now I am trying to implement one option to do several test from serial port automatically. I want to have one Control Bottom in subvi, that when I active it, When I close the Subvi acquisition data, automatically active the save bottom and save the file and THEN open again the subvi ready to acquire another run of data. So I only need to start/Finish the data entry and it will going save diferent test in file.
I tried several things, but I have the problem when I active the option. In the first time, appear me BEFORE the execution of Subvi than the option to save the file. In the second run it seems works well, so 3rd,... the problem come when I disable the option in the Subvi and when I close the window in the mainVi the values aren't changed and appear the new save option and Subvi several times, until the iteration change and put 0 value and it works normally again. I am trying to retard the for/else 1 or 2 iterations but I dont know to do it, since The iteration value is increasing from starting the program and when I open the Subvi it only stops to count and when I come back again to Main continues with the last value. I would need the iteration of loop reset to 0 to say to the for/else to wait 2 iterations or use any counter... I tried to do it, but I spent my ideas.
I tried to do one example program in Lv7.1.
It have the same structure and the same problem that in my program. In this example even I can't close the subvi between it is saving and re-openning it. I suppose since It is so simple, the active value do the subvi open directly.
I hope you tell me any idea to do it.
Regards, Fonsi.
Attachments:
Main.vi 55 KB
Subvi2.vi 14 KBThe reason why you seem to need that "extra run" is due to a race condition. If you watch your code in highlight mode you will see this. You have 3 independent case structure. Let's say you start the VI and then press the "Start Test" button. The main VI is now executing the True part of the top-left case. Meanwhile, the other two case structures are executing since there is no data dependency. They see the values of the local variables as they were when you pressed that "Start Test" button. You set the "Active Multiple Runs" to True. The top-left case ends, and now the loop can go to the next iteration since all code has completed. In this iteration "ActMultiple" is True, so in the bottom case structure you execute the True case where you delay for 0.5 seconds, and then set "NewRun" and "MultSave" to 1. Meanwhile, the other two cases have already run. You now finish this iteration and move to the next. In this iteration the top-left case evaluates to True since "NewRun" is 1. So you get the dialog. While the dialog is up, the other two cases have already finished. You set the "Active Multiple Runs" control to False. The subVI ends, "ActMultiple" is set to False. and the loop iteration completes. Next iteration. Even though "ActMultiple" is False, you are probably thinking that you will get the "NewRun" and "MultSave" set to False because of the bottom case structure, so the top-left and top-right should see the values. This is not what happens. LabVIEW will read the values of the local variables before you enter the bottom case structure to set them. This is the race condition.
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