09-12-2007 6:15 AM
Hi,
How to handle table control in bdc. Give answer with suitable example.
Thanks & Regards
Shaik ali ahammad
09-12-2007 6:20 AM
hi
for this u have to use the following code
perform bdc_field using 'bdc_okcode' '=p+'.
the above subroutine enable table control in bdc
=p+ is a predefined function code.
reward if u find useful
regards
Nagesh.Paruchuri
09-12-2007 6:18 AM
hi,
Table control in BDC
http://www.sap-img.com/abap/bdc-example-using-table-control-in-bdc.htm
For more info check this thread as well
Cheers
Alfred
Reward with points for suitable answers
09-12-2007 6:20 AM
hi
for this u have to use the following code
perform bdc_field using 'bdc_okcode' '=p+'.
the above subroutine enable table control in bdc
=p+ is a predefined function code.
reward if u find useful
regards
Nagesh.Paruchuri
09-12-2007 6:28 AM
HI,
The approach to handle a table control in BDC should be something like this
when you record for a table control you have to use index
the lines in a table control are numbered 01,02,03 .... these are the indexs you have to calculate this index in your program.
1. Do a recording in SHDB with default size option checked in the screen where you enter the transaction code and the program name
when you do this find out the number of lines that show up in the table control. lets say its 5. that means after every 5 records you have to do a page down to enter more records.
perform bdc_dynpro using 'SAPLALDB' '3000'.
perform bdc_field using 'BDC_OKCODE'
'=P+'.
Index should be calculated during run time and used in the BDC something like
if there are 5 records already idx shuould be 6
CONCATENATE 'RSCSEL-SLOW_I(' idx ')' INTO fname.
CONDENSE fname NO-GAPS.
PERFORM bdc_field USING fname
'80000016'.
<b>see the sample code below</b>
REPORT Yy_BDC .
*HANDLING TABLE CONTROL IN BDC
DATA : BEGIN OF IT_DUMMY OCCURS 0,
DUMMY(100) TYPE C,
END OF IT_DUMMY.
DATA : BEGIN OF IT_XK01 OCCURS 0,
LIFNR(10) TYPE C,
BUKRS(4) TYPE C,
EKORG(4) TYPE C,
KTOKK(4) TYPE C,
NAME1(30) TYPE C,
SORTL(10) TYPE C,
LAND1(3) TYPE C,
SPRAS(2) TYPE C,
AKONT(6) TYPE C,
FDGRV(2) TYPE C,
WAERS(3) TYPE C,
END OF IT_XK01,
BEGIN OF IT_BANK OCCURS 0,
BANKS(3) TYPE C,
BANKL(10) TYPE C,
BANKN(10) TYPE C,
KOINH(30) TYPE C,
LIFNR(10) TYPE C,
END OF IT_BANK.
DATA : IT_BDCDATA LIKE BDCDATA OCCURS 0 WITH HEADER LINE,
IT_BDCMSGCOLL LIKE BDCMSGCOLL OCCURS 0 WITH HEADER LINE.
CALL FUNCTION 'WS_UPLOAD'
EXPORTING
FILENAME = 'C:\VENDOR.TXT'
FILETYPE = 'ASC'
TABLES
DATA_TAB = IT_DUMMY.
LOOP AT IT_DUMMY.
IF IT_DUMMY-DUMMY+0(2) = '11'.
IT_XK01-LIFNR = IT_DUMMY-DUMMY+2(10).
IT_XK01-BUKRS = IT_DUMMY-DUMMY+12(4).
IT_XK01-EKORG = IT_DUMMY-DUMMY+16(4).
IT_XK01-KTOKK = IT_DUMMY-DUMMY+20(4).
IT_XK01-NAME1 = IT_DUMMY-DUMMY+24(30).
IT_XK01-SORTL = IT_DUMMY-DUMMY+54(10).
IT_XK01-LAND1 = IT_DUMMY-DUMMY+64(3).
IT_XK01-SPRAS = IT_DUMMY-DUMMY+67(2).
IT_XK01-AKONT = IT_DUMMY-DUMMY+69(6).
IT_XK01-FDGRV = IT_DUMMY-DUMMY+75(2).
IT_XK01-WAERS = IT_DUMMY-DUMMY+77(3).
APPEND IT_XK01.
ELSE.
IT_BANK-BANKS = IT_DUMMY-DUMMY+2(3).
IT_BANK-BANKL = IT_DUMMY-DUMMY+5(10).
IT_BANK-BANKN = IT_DUMMY-DUMMY+15(10).
IT_BANK-KOINH = IT_DUMMY-DUMMY+25(30).
IT_BANK-LIFNR = IT_DUMMY-DUMMY+55(10).
APPEND IT_BANK.
ENDIF.
ENDLOOP.
LOOP AT IT_XK01.
REFRESH IT_BDCDATA.
perform bdc_dynpro using 'SAPMF02K' '0100'.
perform bdc_field using 'BDC_CURSOR'
'RF02K-REF_LIFNR'.
perform bdc_field using 'BDC_OKCODE'
'/00'.
perform bdc_field using 'RF02K-LIFNR'
IT_XK01-LIFNR.
perform bdc_field using 'RF02K-BUKRS'
IT_XK01-BUKRS.
perform bdc_field using 'RF02K-EKORG'
IT_XK01-EKORG.
perform bdc_field using 'RF02K-KTOKK'
IT_XK01-KTOKK.
perform bdc_dynpro using 'SAPMF02K' '0110'.
perform bdc_field using 'BDC_CURSOR'
'LFA1-TELX1'.
perform bdc_field using 'BDC_OKCODE'
'/00'.
perform bdc_field using 'LFA1-NAME1'
IT_XK01-NAME1.
perform bdc_field using 'LFA1-SORTL'
IT_XK01-SORTL.
perform bdc_field using 'LFA1-LAND1'
IT_XK01-LAND1.
perform bdc_field using 'LFA1-SPRAS'
IT_XK01-SPRAS.
perform bdc_dynpro using 'SAPMF02K' '0120'.
perform bdc_field using 'BDC_CURSOR'
'LFA1-KUNNR'.
perform bdc_field using 'BDC_OKCODE'
'/00'.
perform bdc_dynpro using 'SAPMF02K' '0130'.
perform bdc_field using 'BDC_CURSOR'
'LFBK-KOINH(02)'.
perform bdc_field using 'BDC_OKCODE'
'=ENTR'.
DATA : FNAM(20) TYPE C,
IDX TYPE C.
MOVE 1 TO IDX.
LOOP AT IT_BANK WHERE LIFNR = IT_XK01-LIFNR.
CONCATENATE 'LFBK-BANKS(' IDX ')' INTO FNAM.
perform bdc_field using FNAM
IT_BANK-BANKS.
CONCATENATE 'LFBK-BANKL(' IDX ')' INTO FNAM.
perform bdc_field using FNAM
IT_BANK-BANKL.
CONCATENATE 'LFBK-BANKN(' IDX ')' INTO FNAM.
perform bdc_field using FNAM
IT_BANK-BANKN.
CONCATENATE 'LFBK-KOINH(' IDX ')' INTO FNAM.
perform bdc_field using FNAM
IT_BANK-KOINH.
IDX = IDX + 1.
ENDLOOP.
perform bdc_dynpro using 'SAPMF02K' '0130'.
perform bdc_field using 'BDC_CURSOR'
'LFBK-BANKS(01)'.
perform bdc_field using 'BDC_OKCODE'
'=ENTR'.
perform bdc_dynpro using 'SAPMF02K' '0210'.
perform bdc_field using 'BDC_CURSOR'
'LFB1-FDGRV'.
perform bdc_field using 'BDC_OKCODE'
'/00'.
perform bdc_field using 'LFB1-AKONT'
IT_XK01-AKONT.
perform bdc_field using 'LFB1-FDGRV'
IT_XK01-FDGRV.
perform bdc_dynpro using 'SAPMF02K' '0215'.
perform bdc_field using 'BDC_CURSOR'
'LFB1-ZTERM'.
perform bdc_field using 'BDC_OKCODE'
'/00'.
perform bdc_dynpro using 'SAPMF02K' '0220'.
perform bdc_field using 'BDC_CURSOR'
'LFB5-MAHNA'.
perform bdc_field using 'BDC_OKCODE'
'/00'.
perform bdc_dynpro using 'SAPMF02K' '0310'.
perform bdc_field using 'BDC_CURSOR'
'LFM1-WAERS'.
perform bdc_field using 'BDC_OKCODE'
'/00'.
perform bdc_field using 'LFM1-WAERS'
IT_XK01-WAERS.
perform bdc_dynpro using 'SAPMF02K' '0320'.
perform bdc_field using 'BDC_CURSOR'
'WYT3-PARVW(01)'.
perform bdc_field using 'BDC_OKCODE'
'=ENTR'.
perform bdc_dynpro using 'SAPLSPO1' '0300'.
perform bdc_field using 'BDC_OKCODE'
'=YES'.
CALL TRANSACTION 'XK01' USING IT_BDCDATA
MODE 'A'
UPDATE 'S'
MESSAGES INTO IT_BDCMSGCOLL.
ENDLOOP.
FORM BDC_DYNPRO USING PROG SCR.
CLEAR IT_BDCDATA.
IT_BDCDATA-PROGRAM = PROG.
IT_BDCDATA-DYNPRO = SCR.
IT_BDCDATA-DYNBEGIN = 'X'.
APPEND IT_BDCDATA.
ENDFORM.
FORM BDC_FIELD USING FNAM FVAL.
CLEAR IT_BDCDATA.
IT_BDCDATA-FNAM = FNAM.
IT_BDCDATA-FVAL = FVAL.
APPEND IT_BDCDATA.
ENDFORM.
rewards if useful,
regards,
nazeer
09-12-2007 12:07 PM
How to deal with table control / step loop in BDC?
Steploop and table contol is inevitable in certain transactions. When we run BDC for such transactions, we will face the situation: how many visible lines of steploop/tablecontrol are on the screen? Although we can always find certain method to deal with it, such as function code 'NP', 'POPO', considering some extreme situation: there is only one line visible one the screen,
our BDC program should display an error message. (See transaction 'ME21', we you resize your screen to let only one row visible, you can not enter mutiple lines on this screen even you use 'NP')
Now, I find a method with which we can determine the number of visible lines on Transaction Screen from our Calling BDC program. Maybe it is useless to you, but I think it will give your some idea.
Demo ABAP code has two purposes:
1. how to determine number of visible lines and how to calculte page number; (the 'calpage' routine has been modify to meet general purpose usage)
2. using field symbol in BDC program, please pay special attention to the difference in Static
ASSIGN and Dynamic ASSIGN.
Now I begin to describe the step to implement my method:
(I use transaction 'ME21', screen 121 for sample, the method using is Call Transation Using..)
Step1: go to screen painter to display the screen 121, then we can count the fixed line on this screen, there is 7 lines above the steploop and 2 lines below the steploop, so there are total 9 fixed lines on this screen. This means except these 9 lines, all the other line is for step loop.
Then have a look at steploop itselp, one entry of it will occupy two lines.
(Be careful, for table control, the head and the bottom scroll bar will possess another two fixed lines, and there is a maximum number for table line)
Now we have : FixedLine = 9
LoopLine = 2(for table control, LoopLine is always equal to 1)
Step2: go to transaction itself(ME21) to see how it roll page, in ME21, the first line of new page is always occupied by the last line of last page, so it begin with index '02', but in some other case, fisrt line is empty and ready for input.
Now we have: FirstLine = 0
or FirstLine = 1 ( in our case, FirstLine is 1 because the first line of new page is fulfilled)
Step3: write a subroutine calcalculating number of pages
(here, the name of actual parameter is the same as formal parameter)
global data: FixedLine type i, " number of fixed line on a certain screen
LoopLine type i, " the number of lines occupied by one steploop item
FirstLine type i, " possbile value 0 or 1, 0 stand for the first line of new
" scrolling screen is empty, otherwise is 1
Dataline type i, " number of items you will use in BDC, using DESCRIBE to get
pageno type i, " you need to scroll screen how many times.
line type i, " number of lines appears on the screen.
index(2) type N, " the screen index for certain item
begin type i, " from parameter of loop
end type i. " to parameter of loop
*in code sample, the DataTable-linindex stands for the table index number of this line
form calpage using FixedLine type i (see step 1)
LoopLine type i (see step 1)
FirstLine type i (see step 2)
DataLine type i ( this is the item number you will enter in transaction)
changing pageno type i (return the number of page, depends on run-time visible line in table control/ Step Loop)
changing line type i.(visible lines one the screen)
data: midd type i,
vline type i, "visible lines
if DataLine eq 0.
Message eXXX.
endif.
vline = ( sy-srows - FixedLine ) div LoopLine.
*for table control, you should compare vline with maximum line of
*table control, then take the small one that is min(vline, maximum)
*here only illustrate step loop
if FirstLine eq 0.
pageno = DataLine div vline.
if pageno eq 0.
pageno = pageno + 1.
endif.
elseif FirstLine eq 1.
pageno = ( DataLine - 1 ) div ( vline - 1 ) + 1.
midd = ( DataLine - 1 ) mod ( vline - 1).
if midd = 0 and DataLine gt 1.
pageno = pageno - 1.
endif.
endif.
line = vline.
endform.
Step4 write a subroutine to calculate the line index for each item.
form calindex using Line type i (visible lines on the screen)
FirstLine type i(see step 2)
LineIndex type i(item index)
changing Index type n. (index on the screen)
if FirstLine = 0.
index = LineIndex mod Line.
if index = '00'.
index = Line.
endif.
elseif FirstLine = 1.
index = LineIndex mod ( Line - 1 ).
if ( index between 1 and 0 ) and LineIndex gt 1.
index = index + Line - 1.
endif.
if Line = 2.
index = index + Line - 1.
endif.
endif.
endform.
Step5 write a subroutine to calculate the loop range.
form calrange using Line type i ( visible lines on the screen)
DataLine type i
FirstLine type i
loopindex like sy-index
changing begin type i
end type i.
If FirstLine = 0.
if loopindex = 1.
begin = 1.
if DataLine <= Line.
end = DataLine.
else.
end = Line.
endif.
elseif loopindex gt 1.
begin = Line * ( loopindex - 1 ) + 1.
end = Line * loopindex.
if end gt DataLine.
end = DataLine.
endif.
endif.
elseif FirstLine = 1.
if loopindex = 1.
begin = 1.
if DataLine <= Line.
end = DataLine.
else.
end = Line.
endif.
elseif loop index gt 1.
begin = ( Line - 1 ) * ( loopindex - 1 ) + 2.
end = ( Line - 1 ) * ( loopindex - 1 ) + Line.
if end gt DataLine.
end = DataLine.
endif.
endif.
endif.
endform.
Step6 using field sysbol in your BDC, for example: in ME21, but you should calculate each item will correponding to which index
form creat_bdc.
field-symbols: <material>, <quan>, <indicator>.
data: name1(14) value 'EKPO-EMATN(XX)',
name2(14) value 'EKPO-MENGE(XX)',
name3(15) value 'RM06E-SELKZ(XX)'.
assign: name1 to <material>,
name2 to <quan>,
name3 to <indicator>.
.
do pageno times.
if sy-index gt 1
*insert scroll page ok_code"
endif.
.
.
perform calrange using Line DataLine FirstLine sy-index
changing begin end.
.
.
loop at DataTable from begin to end.
perform calindex using Line FirstLine DataTable-LineIndex changing Index.
name1+11(2) = Index.
name2+11(2) = Index.
name3+12(2) = Index.
.
.
perform bdcfield using <material> DataTable-matnr.
perform bdcfield using <quan> DataTable-menge.
perform bdcfield using <indicator> DataTable-indicator.
.
.
.
endloop.
enddo.
Sample code
Following is a sample code of handling table control in BDC.
REPORT Y730_BDC5 .
*HANDLING TABLE CONTROL IN BDC
DATA : BEGIN OF IT_DUMMY OCCURS 0,
DUMMY(100) TYPE C,
END OF IT_DUMMY.
DATA : BEGIN OF IT_XK01 OCCURS 0,
LIFNR(10) TYPE C,
BUKRS(4) TYPE C,
EKORG(4) TYPE C,
KTOKK(4) TYPE C,
NAME1(30) TYPE C,
SORTL(10) TYPE C,
LAND1(3) TYPE C,
SPRAS(2) TYPE C,
AKONT(6) TYPE C,
FDGRV(2) TYPE C,
WAERS(3) TYPE C,
END OF IT_XK01,
BEGIN OF IT_BANK OCCURS 0,
BANKS(3) TYPE C,
BANKL(10) TYPE C,
BANKN(10) TYPE C,
KOINH(30) TYPE C,
LIFNR(10) TYPE C,
END OF IT_BANK.
DATA : IT_BDCDATA LIKE BDCDATA OCCURS 0 WITH HEADER LINE,
IT_BDCMSGCOLL LIKE BDCMSGCOLL OCCURS 0 WITH HEADER LINE.
CALL FUNCTION 'WS_UPLOAD'
EXPORTING
FILENAME = 'C:\VENDOR.TXT'
FILETYPE = 'ASC'
TABLES
DATA_TAB = IT_DUMMY.
LOOP AT IT_DUMMY.
IF IT_DUMMY-DUMMY+0(2) = '11'.
IT_XK01-LIFNR = IT_DUMMY-DUMMY+2(10).
IT_XK01-BUKRS = IT_DUMMY-DUMMY+12(4).
IT_XK01-EKORG = IT_DUMMY-DUMMY+16(4).
IT_XK01-KTOKK = IT_DUMMY-DUMMY+20(4).
IT_XK01-NAME1 = IT_DUMMY-DUMMY+24(30).
IT_XK01-SORTL = IT_DUMMY-DUMMY+54(10).
IT_XK01-LAND1 = IT_DUMMY-DUMMY+64(3).
IT_XK01-SPRAS = IT_DUMMY-DUMMY+67(2).
IT_XK01-AKONT = IT_DUMMY-DUMMY+69(6).
IT_XK01-FDGRV = IT_DUMMY-DUMMY+75(2).
IT_XK01-WAERS = IT_DUMMY-DUMMY+77(3).
APPEND IT_XK01.
ELSE.
IT_BANK-BANKS = IT_DUMMY-DUMMY+2(3).
IT_BANK-BANKL = IT_DUMMY-DUMMY+5(10).
IT_BANK-BANKN = IT_DUMMY-DUMMY+15(10).
IT_BANK-KOINH = IT_DUMMY-DUMMY+25(30).
IT_BANK-LIFNR = IT_DUMMY-DUMMY+55(10).
APPEND IT_BANK.
ENDIF.
ENDLOOP.
LOOP AT IT_XK01.
REFRESH IT_BDCDATA.
perform bdc_dynpro using 'SAPMF02K' '0100'.
perform bdc_field using 'BDC_CURSOR'
'RF02K-REF_LIFNR'.
perform bdc_field using 'BDC_OKCODE'
'/00'.
perform bdc_field using 'RF02K-LIFNR'
IT_XK01-LIFNR.
perform bdc_field using 'RF02K-BUKRS'
IT_XK01-BUKRS.
perform bdc_field using 'RF02K-EKORG'
IT_XK01-EKORG.
perform bdc_field using 'RF02K-KTOKK'
IT_XK01-KTOKK.
perform bdc_dynpro using 'SAPMF02K' '0110'.
perform bdc_field using 'BDC_CURSOR'
'LFA1-TELX1'.
perform bdc_field using 'BDC_OKCODE'
'/00'.
perform bdc_field using 'LFA1-NAME1'
IT_XK01-NAME1.
perform bdc_field using 'LFA1-SORTL'
IT_XK01-SORTL.
perform bdc_field using 'LFA1-LAND1'
IT_XK01-LAND1.
perform bdc_field using 'LFA1-SPRAS'
IT_XK01-SPRAS.
perform bdc_dynpro using 'SAPMF02K' '0120'.
perform bdc_field using 'BDC_CURSOR'
'LFA1-KUNNR'.
perform bdc_field using 'BDC_OKCODE'
'/00'.
perform bdc_dynpro using 'SAPMF02K' '0130'.
perform bdc_field using 'BDC_CURSOR'
'LFBK-KOINH(02)'.
perform bdc_field using 'BDC_OKCODE'
'=ENTR'.
DATA : FNAM(20) TYPE C,
IDX TYPE C.
MOVE 1 TO IDX.
LOOP AT IT_BANK WHERE LIFNR = IT_XK01-LIFNR.
CONCATENATE 'LFBK-BANKS(' IDX ')' INTO FNAM.
perform bdc_field using FNAM
IT_BANK-BANKS.
CONCATENATE 'LFBK-BANKL(' IDX ')' INTO FNAM.
perform bdc_field using FNAM
IT_BANK-BANKL.
CONCATENATE 'LFBK-BANKN(' IDX ')' INTO FNAM.
perform bdc_field using FNAM
IT_BANK-BANKN.
CONCATENATE 'LFBK-KOINH(' IDX ')' INTO FNAM.
perform bdc_field using FNAM
IT_BANK-KOINH.
IDX = IDX + 1.
ENDLOOP.
perform bdc_dynpro using 'SAPMF02K' '0130'.
perform bdc_field using 'BDC_CURSOR'
'LFBK-BANKS(01)'.
perform bdc_field using 'BDC_OKCODE'
'=ENTR'.
perform bdc_dynpro using 'SAPMF02K' '0210'.
perform bdc_field using 'BDC_CURSOR'
'LFB1-FDGRV'.
perform bdc_field using 'BDC_OKCODE'
'/00'.
perform bdc_field using 'LFB1-AKONT'
IT_XK01-AKONT.
perform bdc_field using 'LFB1-FDGRV'
IT_XK01-FDGRV.
perform bdc_dynpro using 'SAPMF02K' '0215'.
perform bdc_field using 'BDC_CURSOR'
'LFB1-ZTERM'.
perform bdc_field using 'BDC_OKCODE'
'/00'.
perform bdc_dynpro using 'SAPMF02K' '0220'.
perform bdc_field using 'BDC_CURSOR'
'LFB5-MAHNA'.
perform bdc_field using 'BDC_OKCODE'
'/00'.
perform bdc_dynpro using 'SAPMF02K' '0310'.
perform bdc_field using 'BDC_CURSOR'
'LFM1-WAERS'.
perform bdc_field using 'BDC_OKCODE'
'/00'.
perform bdc_field using 'LFM1-WAERS'
IT_XK01-WAERS.
perform bdc_dynpro using 'SAPMF02K' '0320'.
perform bdc_field using 'BDC_CURSOR'
'WYT3-PARVW(01)'.
perform bdc_field using 'BDC_OKCODE'
'=ENTR'.
perform bdc_dynpro using 'SAPLSPO1' '0300'.
perform bdc_field using 'BDC_OKCODE'
'=YES'.
CALL TRANSACTION 'XK01' USING IT_BDCDATA
MODE 'A'
UPDATE 'S'
MESSAGES INTO IT_BDCMSGCOLL.
ENDLOOP.
FORM BDC_DYNPRO USING PROG SCR.
CLEAR IT_BDCDATA.
IT_BDCDATA-PROGRAM = PROG.
IT_BDCDATA-DYNPRO = SCR.
IT_BDCDATA-DYNBEGIN = 'X'.
APPEND IT_BDCDATA.
ENDFORM.
FORM BDC_FIELD USING FNAM FVAL.
CLEAR IT_BDCDATA.
IT_BDCDATA-FNAM = FNAM.
IT_BDCDATA-FVAL = FVAL.
APPEND IT_BDCDATA.
ENDFORM.
regards,
srinivas