Difference in table control

Similar Messages

• Table control vs grid control

  What is the difference between table control and ALV grid control?

  Hi,
  1.Table control example
  Follow the steps to update the database table records.
  1.TOP INCLUDE code
  TABLES: EKKO.
  DATA: OK_CODE TYPE SY-UCOMM.
  CONTROLS: TC100 TYPE TABLEVIEW USING SCREEN 100.
  DATA: IT_EKKO LIKE EKKO OCCURS 0 WITH HEADER LINE.
  DATA: CUR TYPE I.
  DATA: I_EKKO2 LIKE EKKO OCCURS 0 WITH HEADER LINE.
  DATA: V_FNAM TYPE I,V_FVAL(10) TYPE N.
  2.Create screen with number(e.g 123) and click on layout tab
  Give the table control name as TC100.
  SELECT THE FIELDS FROM INTERNAL TABLE (IT_EKKO). DRAG THE TEXT FIELDS INTO THE TABLE CONTROL FOR FIELD HEADINGS.
  Create 4 pushbuttons(insert,fetch,delete and exit)
  CLICK ON “Element list” TAB AND ENTER THE “OK_CODE”.
  CLICK ON FLOWLOGIC TAB.
  3.Flowlogic code
  PROCESS BEFORE OUTPUT.
  MODULE STATUS_0100.
  LOOP AT IT_EKKO CURSOR CUR WITH CONTROL TC100.
  ENDLOOP.
  PROCESS AFTER INPUT.
  LOOP AT IT_EKKO.
  MODULE MODIFY_ITAB.
  ENDLOOP.
  MODULE USER_COMMAND_0100.
  4.Double click on MODIFY_ITAB and write as
  module MODIFY_ITAB input.
  APPEND IT_EKKO TO I_EKKO2.
  endmodule. " MODIFY_ITAB INPUT
  5.Activate PAI and double click on it and write the code as
  module USER_COMMAND_0100 input.
  CASE OK_CODE.
  WHEN 'INS'.
  LOOP AT I_EKKO2.
  MODIFY EKKO FROM I_EKKO2.
  ENDLOOP.
  SELECT * FROM EKKO INTO TABLE IT_EKKO.
  IF SY-SUBRC = 0.
  MESSAGE S003(ZCSMSG).
  ENDIF.
  WHEN 'FETCH'.
  SELECT * FROM EKKO INTO TABLE IT_EKKO UP TO 2000 ROWS.
  TC100-LINES = SY-DBCNT.
  WHEN 'EXIT'.
  LEAVE PROGRAM.
  ENDCASE.
  endmodule. " USER_COMMAND_0100 INPUT
  6.Create Transaction code and execute it.
  2.Grid control example
  TABLES VBAK.
  TYPE-POOLS SLIS.
  Data Declaration
  TYPES: BEGIN OF T_VBAK,
        VBELN TYPE VBAK-VBELN,
        ERDAT TYPE VBAK-ERDAT,
        ERNAM TYPE VBAK-ERNAM,
        AUDAT TYPE VBAK-AUDAT,
        VBTYP TYPE VBAK-VBTYP,
        NETWR TYPE VBAK-NETWR,
        VKORG TYPE VBAK-VKORG,
        VKGRP TYPE VBAK-VKGRP,
        LINE_COLOR(4) TYPE C,
        END OF T_VBAK.
  DATA: IT_VBAK TYPE STANDARD TABLE OF T_VBAK INITIAL SIZE 0,
        WA_VBAK TYPE T_VBAK.
  ALV Data Declaration
  DATA: FLDCAT TYPE SLIS_T_FIELDCAT_ALV WITH HEADER LINE,
        GD_LAYOUT TYPE SLIS_LAYOUT_ALV,
        GD_REPID TYPE SY-REPID.
  START-OF-SELECTION.
  PERFORM DATA_RETRIEVAL.
  PERFORM BLD_FLDCAT.
  PERFORM BLD_LAYOUT.
  PERFORM DISPLAY_ALV_REPORT.
  Build Field Catalog for ALV Report
  FORM BLD_FLDCAT.
  FLDCAT-FIELDNAME = 'VBELN'.
  FLDCAT-SELTEXT_M = 'Sales Document'.
  FLDCAT-COL_POS = 0.
  *FLDCAT-EMPHASIZE = 'C411'.
  FLDCAT-OUTPUTLEN = 20.
  FLDCAT-KEY = 'X'.
  APPEND FLDCAT TO FLDCAT.
  CLEAR FLDCAT.
  FLDCAT-FIELDNAME = 'ERDAT'.
  FLDCAT-SELTEXT_L = 'Record Date created'.
  FLDCAT-COL_POS = 1.
  FLDCAT-KEY = 'X'.
  APPEND FLDCAT TO FLDCAT.
  CLEAR FLDCAT.
  FLDCAT-FIELDNAME = 'ERNAM'.
  FLDCAT-SELTEXT_L = 'Cteated Object Person Name'.
  APPEND FLDCAT TO FLDCAT.
  CLEAR FLDCAT.
  FLDCAT-FIELDNAME = 'AUDAT'.
  FLDCAT-SELTEXT_M = 'Document Date'.
  FLDCAT-COL_POS = 3.
  FLDCAT-EMPHASIZE = 'C110'.
  APPEND FLDCAT TO FLDCAT.
  CLEAR FLDCAT.
  FLDCAT-FIELDNAME = 'VBTYP'.
  FLDCAT-SELTEXT_L = 'SD Document category'.
  FLDCAT-COL_POS = 4.
  APPEND FLDCAT TO FLDCAT.
  CLEAR FLDCAT.
  FLDCAT-FIELDNAME = 'NETWR'.
  FLDCAT-SELTEXT_L = 'Net Value of the SO in Document Currency'.
  FLDCAT-COL_POS = 5.
  FLDCAT-OUTPUTLEN = 60.
  FLDCAT-DO_SUM = 'X'.
  FLDCAT-DATATYPE = 'CURR'.
  APPEND FLDCAT TO FLDCAT.
  CLEAR FLDCAT.
  FLDCAT-FIELDNAME = 'VKORG'.
  FLDCAT-SELTEXT_L = 'Sales Organization'.
  FLDCAT-COL_POS = 6.
  APPEND FLDCAT TO FLDCAT.
  CLEAR FLDCAT.
  FLDCAT-FIELDNAME = 'VKGRP'.
  FLDCAT-SELTEXT_M = 'Sales Group'.
  FLDCAT-COL_POS = 7.
  FLDCAT-EMPHASIZE = 'C801'.
  APPEND FLDCAT TO FLDCAT.
  CLEAR FLDCAT.
  ENDFORM.
  Build Layout for ALV Grid Report
  FORM BLD_LAYOUT.
  GD_LAYOUT-NO_INPUT = 'X'.
  GD_LAYOUT-COLWIDTH_OPTIMIZE = 'X'.
  GD_LAYOUT-INFO_FIELDNAME = 'LINE_COLOR'.
  GD_LAYOUT-WINDOW_TITLEBAR = 'GRID DISPLAY'.
  GD_LAYOUT-CONFIRMATION_PROMPT = 'X'.  “ This asks the confirmation    
                                     before leaving the screen.
  ENDFORM.
  Display report using ALV grid
  FORM DISPLAY_ALV_REPORT.
  GD_REPID = SY-REPID.
  CALL FUNCTION 'REUSE_ALV_GRID_DISPLAY'
  EXPORTING
     I_CALLBACK_PROGRAM                = GD_REPID
     IS_LAYOUT                         = GD_LAYOUT
     I_CALLBACK_TOP_OF_PAGE            = 'TOP_OF_PAGE'
     I_GRID_TITLE                      = 'SALES DOCUMENT HEADER'
     IT_FIELDCAT                       = FLDCAT[]
     I_SAVE                            = 'X'
    TABLES
      T_OUTTAB                          = IT_VBAK
  EXCEPTIONS
     PROGRAM_ERROR                     = 1
     OTHERS                            = 2.
  IF SY-SUBRC <> 0.
  MESSAGE ID SY-MSGID TYPE SY-MSGTY NUMBER SY-MSGNO
          WITH SY-MSGV1 SY-MSGV2 SY-MSGV3 SY-MSGV4.
  ENDIF.
  ENDFORM.
  Retrieve data from VBAK table and populate itab IT_VBAK
  FORM DATA_RETRIEVAL.
  DATA LD_COLOR(1) TYPE C.
  SELECT VBELN ERDAT ERNAM AUDAT VBTYP NETWR VKORG
  UP TO 20 ROWS
  FROM VBAK
  INTO TABLE IT_VBAK.
  LOOP AT IT_VBAK INTO WA_VBAK.
  LD_COLOR = LD_COLOR + 1.
  IF LD_COLOR = 8.
    LD_COLOR = 1.
  ENDIF.
  CONCATENATE 'C' LD_COLOR '10' INTO WA_VBAK-LINE_COLOR.
  MODIFY IT_VBAK FROM WA_VBAK.
  ENDLOOP.
  ENDFORM.
  FORM TOP_OF_PAGE.
  DATA: T_HEADER TYPE SLIS_T_LISTHEADER,
        W_HEADER TYPE SLIS_LISTHEADER.
  W_HEADER-TYP = 'H'.
  W_HEADER-INFO = 'WELCOME HEADER LIST'.
  APPEND W_HEADER TO T_HEADER.
  W_HEADER-TYP = 'S'.
  W_HEADER-KEY = 'REPORT:'.
  W_HEADER-INFO = SY-REPID.
  APPEND W_HEADER TO T_HEADER.
  W_HEADER-TYP = 'S'.
  W_HEADER-KEY = 'DATE:'.
  CONCATENATE SY-DATUM6(2) ' / ' SY-DATUM4(2) ' / ' SY-DATUM(4) INTO W_HEADER-INFO.
  APPEND W_HEADER TO T_HEADER.
  CALL FUNCTION 'REUSE_ALV_COMMENTARY_WRITE'
    EXPORTING
      IT_LIST_COMMENTARY       = T_HEADER.     
  ENDFORM.
  Refer the following link
  http://www.****************
  Reward,if useful.
  Thanks,
  Chandu

• DIFFERENCE between Tabstrip control and tabstrin(with wizard)

  difference between table control and table control wizard.
  and what is all about custom control
  give simple examples

  Hi
  Table Control
  http://help.sap.com/saphelp_erp2005vp/helpdata/en/d1/802338454211d189710000e8322d00/frameset.htm
  Table Control Wizard
  http://help.sap.com/saphelp_erp2005vp/helpdata/en/d1/802338454211d189710000e8322d00/frameset.htm
  Tab Strip
  http://help.sap.com/saphelp_erp2005vp/helpdata/en/04/10f2469e0811d1b4700000e8a52bed/frameset.htm
  Tab Strip wizard
  http://help.sap.com/saphelp_erp2005vp/helpdata/en/04/10f2469e0811d1b4700000e8a52bed/frameset.htm
  http://www.sapmaterial.com/tablecontrol_sap.html
  Custom Controls
  A custom control is an area on a screen. You create them in the Screen Painter, and, like all other screen objects, they have a unique name. You use custom controls to embed controls. A control is a software component on the presentation server, which can be either an ActiveX control or a JavaBean, depending on the SAPgui you are using. They allow you to perform tasks, such as editing texts, locally on the presentation server. The control is driven by the application logic, which still runs on the application server.
  The SAP Control Framework
  The controls on the presentation server and the ABAP application programs on the application server communicate using the Structure link SAP Control Framework. This is programmed in ABAP Objects, and contains a set of global classes that you can find in the Class Browser under Basis ® Frontend services. These classes encapsulate the communication between the application server and presentation server, which is implemented using Remote Function Call.
  All application controls are encapsulated in a global class. You can find the SAP Basis controls in the Class Browser under Basis ® Frontend Services or Basis ® Component Integration. Programs that use controls on a screen work with the methods and events of the global classes that encapsulates them.
  Container Controls
  Before you can work with a custom control on a screen, you must assign a Structure link SAP Container Control to it. Container controls are instances of special global classes from the SAP Control Framework. The global class for custom controls is called CL_GUI_CUSTOM_CONTAINER. To link a custom control to a container control, pass the custom control name to the CONTAINER_NAME parameter of the container control constructor when you instantiate it.
  As well as using custom containers, you can link controls to a screen using a SAP Docking Container. This is encapsulated in the global class CL_GUI_DOCKING_CONTAINER. The SAP Docking Container does not place the control within a screen. Instead, it attaches it to one of the four edges. You can nest containers. For example, you can use the SAP Splitter Container (classes CL_GUI_EASY_SPLITTER_CONTAINER or CL_GUI_SPLITTER_CONTAINER) within other containers. This allows you to split a custom control or docking control into more than one area, allowing you to embed more than one control.
  One example,
  program z.
  Constants *
  constants: c_me like trdir-cnam value 'VNDOVV',
  c_myurl type scarr-url value
  'http://www.brainbench.com/transcript.jsp?pid=147699',
  c_width type i value 260,
  c_height type i value 130.
  Types *
  types: begin of t_pgm,
  year(4) type c,
  name like trdir-name,
  end of t_pgm,
  begin of t_pgmkey,
  id type i,
  name like trdir-name,
  end of t_pgmkey.
  Data *
  data: it_pgmkey type table of t_pgmkey.
  Classes *
  Definitions *
  class screen_init definition create private.
  public section.
  class-methods init_screen returning value(this)
  type ref to screen_init.
  methods constructor.
  private section.
  class-data a_id type i.
  data: splitter_h type ref to cl_gui_splitter_container,
  splitter_v type ref to cl_gui_splitter_container,
  picture type ref to cl_gui_picture,
  tree type ref to cl_gui_simple_tree.
  methods: fill_tree,
  fill_picture.
  endclass.
  class screen_handler definition.
  public section.
  methods: constructor importing container
  type ref to cl_gui_container,
  handle_node_double_click
  for event node_double_click
  of cl_gui_simple_tree
  importing node_key,
  handle_picture_double_click
  for event picture_dblclick
  of cl_gui_picture.
  private section.
  data: html_viewer type ref to cl_gui_html_viewer,
  editor type ref to cl_gui_textedit.
  methods: fill_html,
  fill_src importing programid type trdir-name.
  endclass.
  Implementations *
  class screen_init implementation.
  method init_screen.
  data screen type ref to screen_init.
  create object screen.
  this = screen.
  endmethod.
  method constructor.
  data: events type cntl_simple_events,
  event like line of events,
  event_handler type ref to screen_handler,
  container_left type ref to cl_gui_container,
  container_right type ref to cl_gui_container,
  container_top type ref to cl_gui_container,
  container_bottom type ref to cl_gui_container.
  create object splitter_h
  exporting
  parent = cl_gui_container=>screen0
  rows = 1
  columns = 2.
  call method splitter_h->set_border
  exporting border = cl_gui_cfw=>false.
  call method splitter_h->set_column_mode
  exporting mode = splitter_h->mode_absolute.
  call method splitter_h->set_column_width
  exporting id = 1
  width = c_width.
  container_left = splitter_h->get_container( row = 1 column = 1 ).
  container_right = splitter_h->get_container( row = 1 column = 2 ).
  create object splitter_v
  exporting
  parent = container_left
  rows = 2
  columns = 1.
  call method splitter_v->set_border
  exporting border = cl_gui_cfw=>false.
  call method splitter_v->set_row_mode
  exporting mode = splitter_v->mode_absolute.
  call method splitter_v->set_row_height
  exporting id = 1
  height = c_height.
  container_top = splitter_v->get_container( row = 1 column = 1 ).
  container_bottom = splitter_v->get_container( row = 2 column = 1 ).
  create object picture
  exporting parent = container_top.
  create object tree
  exporting parent = container_bottom
  node_selection_mode =
  cl_gui_simple_tree=>node_sel_mode_single.
  create object event_handler
  exporting container = container_right.
  event-eventid = cl_gui_simple_tree=>eventid_node_double_click.
  event-appl_event = ' '. "system event, does not trigger PAI
  append event to events.
  call method tree->set_registered_events
  exporting events = events.
  clear: event, events[].
  event-eventid = cl_gui_picture=>eventid_picture_dblclick.
  event-appl_event = ' '. "system event, does not trigger PAI
  append event to events.
  call method picture->set_registered_events
  exporting events = events.
  set handler: event_handler->handle_node_double_click for tree,
  event_handler->handle_picture_double_click for picture.
  call method: me->fill_picture,
  me->fill_tree.
  endmethod.
  method fill_picture.
  call method:
  picture->load_picture_from_sap_icons exporting icon = '@J4@',
  picture->set_display_mode
  exporting display_mode = picture->display_mode_fit_center.
  endmethod.
  method fill_tree.
  data: node_table type table of abdemonode,
  node type abdemonode,
  w_pgm type t_pgm,
  w_cdat type rdir_cdate,
  it_pgm type table of t_pgm,
  w_pgmkey type t_pgmkey.
  clear: a_id, it_pgmkey[].
  select distinct name cdat from trdir into (w_pgm-name, w_cdat)
  where cnam = c_me.
  w_pgm-year = w_cdat(4).
  append w_pgm to it_pgm.
  clear w_pgm.
  endselect.
  sort it_pgm.
  node-hidden = ' '. " All nodes are visible,
  node-disabled = ' '. " selectable,
  node-isfolder = 'X'. " a folder,
  node-expander = ' '. " have no '+' sign for expansion.
  loop at it_pgm into w_pgm.
  at new year.
  node-node_key = w_pgm-year.
  clear node-relatkey.
  clear node-relatship.
  node-text = w_pgm-year.
  node-n_image = ' '.
  node-exp_image = ' '.
  append node to node_table.
  endat.
  at new name.
  add 1 to a_id.
  node-node_key = w_pgmkey-id = a_id.
  w_pgmkey-name = w_pgm-name.
  node-relatkey = w_pgm-year.
  node-relatship = cl_gui_simple_tree=>relat_last_child.
  node-text = w_pgm-name.
  node-n_image = '@0P@'.
  node-exp_image = '@0P@'.
  append w_pgmkey to it_pgmkey.
  endat.
  append node to node_table.
  endloop.
  call method tree->add_nodes
  exporting table_structure_name = 'ABDEMONODE'
  node_table = node_table.
  endmethod.
  endclass.
  class screen_handler implementation.
  method constructor.
  create object: html_viewer exporting parent = container,
  editor exporting parent = container
  wordwrap_mode =
  cl_gui_textedit=>wordwrap_at_fixed_position
  wordwrap_position = 72.
  call method: fill_html,
  editor->set_readonly_mode exporting readonly_mode = 1.
  endmethod.
  method handle_node_double_click.
  data: w_name type programm,
  w_id type i,
  w_year(4) type c,
  w_pgmkey type t_pgmkey.
  w_name = node_key+4.
  w_id = w_name.
  clear w_name.
  read table it_pgmkey into w_pgmkey with key id = w_id
  binary search.
  if sy-subrc = 0.
  w_name = w_pgmkey-name.
  endif.
  w_year = node_key(4).
  if w_name is initial.
  call method: fill_html,
  html_viewer->set_visible exporting visible = 'X',
  editor->set_visible exporting visible = ' '.
  else.
  call method: fill_src exporting programid = w_name,
  editor->set_visible exporting visible = 'X',
  html_viewer->set_visible exporting visible = ' '.
  endif.
  call method cl_gui_cfw=>flush.
  endmethod.
  method handle_picture_double_click.
  call method: fill_html,
  html_viewer->set_visible exporting visible = 'X',
  editor->set_visible exporting visible = ' '.
  call method cl_gui_cfw=>flush.
  endmethod.
  method fill_html.
  call method html_viewer->show_url exporting url = c_myurl.
  endmethod.
  method fill_src.
  types t_line(72) type c.
  data src type table of t_line.
  read report programid into src.
  call method: editor->delete_text,
  editor->set_text_as_r3table exporting table = src[].
  endmethod.
  endclass.
  Data *
  data this_screen type ref to screen_init.
  Program execution *
  load-of-program.
  call screen 100.
  Dialog Modules PBO *
  module status_0100 output.
  set pf-status 'SCREEN_100'.
  set titlebar 'TIT_100'.
  this_screen = screen_init=>init_screen( ).
  endmodule.
  Dialog Modules PAI *
  module cancel input.
  leave program.
  endmodule.
  Reward if usefull

• Difference between ALV and Table control

  Hi folks,
  i want to know the major differences between AlV and table controls.
  i know that table control is designed in screen painter, but i want to know the major diff between Table control and ALV.
  helpful answers will be rewarded.
  Regards,
  Naveen

  Hi Naveen,
  Basically ALV is a way to display the output and Table Control is designed in screen painter through which you can get entries in Table Control, can delete some records etc for further processing and  its not use only for Display.
  <b>ALV is Application List viewer:-</b>
  Sap provides a set of ALV (ABAP LIST VIEWER) function modules which can be put into use to embellish the output of a report. This set of ALV functions is used to enhance the readability and functionality of any report output. Cases arise in sap when the output of a report contains columns extending more than 255 characters in length. 
  In such cases, this set of ALV functions can help choose selected columns and arrange the different columns from a report output and also save different variants for report display. This is a very efficient tool for dynamically sorting and arranging the columns from a report output. 
  <b>TABLE CONTROL:-</b>
  ABAP offers two mechanisms for displaying and using table data in a screen. These mechanisms are table controls and step loops. Table controls and step loops are types of screen tables you can add to a screen in the Screen Painter.
  Rewards if useful.
  Regards,
  Shilpi

• How to handle Table control in BDC? Difference between BDC & LSMW?

  Hi
  How to handle Table control in BDC? Difference between BDC & LSMW?
  Regards,
  Raghu

  Hi ,
  the diff b/w normal BDC and with table control is that with table control u can enter as many lineitems as u want..so during recording if u r entering 3 line items..then the program will show (1), (2) and (3) with that.
  chane that fixed no to variable.
  check that sample code.
  in this for new customer...any no of items can be entered.
  LOOP AT t_cusdata.
      REFRESH t_bdcdata.
      ON CHANGE OF t_cusdata-kunnr.
  initial screen.
        PERFORM bdc_dynpro      USING 'SAPMV10A' '0100'.
        PERFORM bdc_field       USING 'BDC_CURSOR'
                                'MV10A-VTWEG'.
        PERFORM bdc_field       USING 'BDC_OKCODE'
                                '/00'.
        PERFORM bdc_field       USING 'MV10A-KUNNR'
                                t_cusdata-kunnr.
        PERFORM bdc_field      USING 'MV10A-VKORG'
                                t_cusdata-vkorg.     "'HCL'.
        PERFORM bdc_field       USING 'MV10A-VTWEG'
                                t_cusdata-vtweg.     "'HL'.
        DATA: fnam(20) TYPE c,
              fnam1(20) TYPE c,
              idx(2) TYPE c.
        MOVE 1 TO idx.
        LOOP AT t_matdata WHERE kunnr = t_cusdata-kunnr.
          PERFORM bdc_dynpro      USING 'SAPMV10A' '0200'.
          CONCATENATE 'MV10A-KDMAT(' idx ')' INTO fnam.
          PERFORM bdc_field       USING 'BDC_CURSOR'
                                        fnam.
          PERFORM bdc_field       USING 'BDC_OKCODE'
                                         '/00'.
          CONCATENATE 'MV10A-MATNR(' idx ')' INTO fnam1.
          PERFORM bdc_field       USING fnam1
                                        t_matdata-matnr.      "'FIN50'.
          PERFORM bdc_field       USING fnam
                                        t_matdata-kdmat.  "'ABCD'.
          idx = idx + 1.
        ENDLOOP.
        PERFORM bdc_dynpro      USING 'SAPMV10A' '0200'.
        PERFORM bdc_field       USING 'BDC_CURSOR'
                                'MV10A-MATNR(01)'.
        PERFORM bdc_field       USING 'BDC_OKCODE'
                                '=SICH'.
        CALL TRANSACTION 'VD51' USING t_bdcdata MODE 'A' .
                                      UPDATE 'S' MESSAGES INTO t_err_mes.
  Regards,
  Sonika

• Table Control Text  fields problem , help plz

  Hello Anand , Rich , John & All
    I hav problem with Text 3 fields( type c)(either L or R aligned )  , it is not geting updated , otherwise everything else is perfectly fine(scrolling,sorting etc ....) .
  Fields giving problem are
  1. Status(20) type c
  2. Fdat  type date
  3. Remark(100) type c
  All numerical fields are working fine .
  <u><b> My yahoo messenger-id is [email protected]</b></u>
  <b>Any light on this will be awarded plz .</b>
  FLOW LOGIC
  PROCESS BEFORE OUTPUT.
  MODULE SET_STATUS.
  LOOP AT      ITAB
        WITH    CONTROL TCL1
        CURSOR  TCL1-CURRENT_LINE .
     MODULE SET_LINE_COUNT .
  ENDLOOP.
  PROCESS AFTER INPUT.
  MODULE UPD_OK_COD.
  MODULE EXIT_COMAND AT EXIT-COMMAND.
  MODULE SCROLL_SORT.
  LOOP AT ITAB.
        MODULE UPDATE_ITAB.
  ENDLOOP.
  MODULE UPDATE_TABLE.
  REPORT ZSD_REP_ORDER_BANK_CHANGE NO STANDARD PAGE HEADING LINE-SIZE 255.
  TABLES: VBAK,VBAP,VBRK,ZSD_TABL_ORDBANK,MARA,KONV.
  CONTROLS: TCL1 TYPE TABLEVIEW USING SCREEN 0200.
  DATA: ITAB LIKE ZSD_TABL_ORDBANK OCCURS 0 WITH HEADER LINE,
        WA_ITAB LIKE ZSD_TABL_ORDBANK,
        OK_CODE LIKE SY-UCOMM,
        SAVE_OK_CODE LIKE SY-UCOMM,
        UPD_OK_CODE LIKE SY-UCOMM,
        ANSWER TYPE C,
        I LIKE SY-LOOPC ,
        J LIKE SY-LOOPC,
        V_LINES LIKE SY-LOOPC,
        LINE_COUNT LIKE SY-LOOPC,
        STS  TYPE N,
        EMGRP LIKE MARA-EXTWG,
        QTY LIKE ZSD_TABL_ORDBANK-QTY,
        UPRICE LIKE ZSD_TABL_ORDBANK-UPRICE,
        TOT LIKE ZSD_TABL_ORDBANK-TOT,
        INO LIKE VBAP-POSNR,
        COL TYPE CXTAB_COLUMN,
        COPIED_ONCE ,
        FLDNAME(100),HELP(100).
  FIELD-SYMBOLS:
       <FS_ITAB> LIKE LINE OF ITAB,
       <FS_TCL1> LIKE LINE OF TCL1-COLS.
  SELECTION-SCREEN BEGIN OF BLOCK b1 WITH FRAME TITLE text-000.
    SELECT-OPTIONS: S_CCODE FOR ZSD_TABL_ORDBANK-CCODE
                            NO INTERVALS NO-EXTENSION  OBLIGATORY,
                    S_SORG  FOR ZSD_TABL_ORDBANK-SORG
                            NO INTERVALS NO-EXTENSION  OBLIGATORY,
                    S_DCHAN FOR ZSD_TABL_ORDBANK-DISTCHAN,
                    S_DIV FOR ZSD_TABL_ORDBANK-DIV,
                    S_MATNO FOR ZSD_TABL_ORDBANK-MATNO,
                    S_CUSTNO FOR ZSD_TABL_ORDBANK-CUSTNO ,
                    S_QTNO FOR ZSD_TABL_ORDBANK-QTNO,
                    S_QTDAT FOR ZSD_TABL_ORDBANK-QTDAT,
                    S_QTVDAT FOR ZSD_TABL_ORDBANK-QTVALDAT,
                    S_SONO   FOR ZSD_TABL_ORDBANK-SONO.
  SELECTION-SCREEN END OF BLOCK b1.
  AT SELECTION-SCREEN.
     SELECT * FROM  ZSD_TABL_ORDBANK
                 INTO  TABLE ITAB
                 WHERE CCODE IN S_CCODE
                   AND SORG IN  S_SORG
                   AND DISTCHAN IN  S_DCHAN
                   AND DIV IN S_DIV
                   AND MATNO IN  S_MATNO
                   AND CUSTNO IN  S_CUSTNO
                   AND QTNO IN  S_QTNO
                   AND QTDAT IN  S_QTDAT
                   AND QTVALDAT IN  S_QTVDAT
                   AND SONO IN  S_SONO .
        IF SY-SUBRC EQ 0.
           REFRESH ITAB.
           CLEAR COPIED_ONCE.
           CALL SCREEN 0200.
        ELSE.
           MESSAGE E012(ZQOTBANK) .
        ENDIF.
  *&      Module  SET_STATUS  OUTPUT
  *       text
  MODULE SET_STATUS OUTPUT.
    SET PF-STATUS '0200'.
    SET TITLEBAR '0200'.
      IF COPIED_ONCE IS INITIAL.
        SELECT * FROM  ZSD_TABL_ORDBANK
                 INTO  TABLE ITAB
                 WHERE CCODE IN S_CCODE
                   AND SORG IN  S_SORG
                   AND DISTCHAN IN  S_DCHAN
                   AND DIV IN S_DIV
                   AND MATNO IN  S_MATNO
                   AND CUSTNO IN  S_CUSTNO
                   AND QTNO IN  S_QTNO
                   AND QTDAT IN  S_QTDAT
                   AND QTVALDAT IN  S_QTVDAT
                   AND SONO IN  S_SONO .
        IF SY-SUBRC EQ 0.
          DESCRIBE TABLE ITAB LINES V_LINES.
          TCL1-LINES = V_LINES.
        ENDIF.
        COPIED_ONCE = 'X'.
        REFRESH CONTROL 'TCL1' FROM SCREEN '0200'.
     ENDIF.
        LOOP AT ITAB.
           QTY = ITAB-QTY.
           UPRICE  = ITAB-UPRICE.
           TOT = QTY * UPRICE .
           ITAB-TOT = TOT .
           CLEAR: QTY, UPRICE, TOT.
           QTY = ITAB-CGL_QTY.
           UPRICE  = ITAB-CGL_UPRICE.
           TOT = QTY * UPRICE .
           ITAB-CGL_TOT = TOT .
           CLEAR: QTY, UPRICE, TOT.
           QTY = ITAB-BHEL_QTY.
           UPRICE  = ITAB-BHEL_UPRICE.
           TOT = QTY * UPRICE .
           ITAB-BHEL_TOT = TOT .
           CLEAR: QTY, UPRICE, TOT.
           QTY = ITAB-ALSTOM_QTY.
           UPRICE  = ITAB-ALSTOM_UPRICE.
           TOT = QTY * UPRICE .
           ITAB-ALSTOM_TOT = TOT .
           CLEAR: QTY, UPRICE, TOT.
           QTY = ITAB-SIEMENS_QTY.
           UPRICE  = ITAB-SIEMENS_UPRICE.
           TOT = QTY * UPRICE .
           ITAB-SIEMENS_TOT = TOT .
           CLEAR: QTY, UPRICE, TOT.
           QTY = ITAB-TELK_QTY.
           UPRICE  = ITAB-TELK_UPRICE.
           TOT = QTY * UPRICE .
           ITAB-TELK_TOT = TOT .
           CLEAR: QTY, UPRICE, TOT.
           QTY = ITAB-OTH_QTY.
           UPRICE  = ITAB-OTH_UPRICE.
           TOT = QTY * UPRICE .
           ITAB-OTH_TOT = TOT .
           CLEAR: QTY, UPRICE, TOT.
           MODIFY ITAB.
        ENDLOOP.
  ENDMODULE.                 " SET_STATUS  OUTPUT
  *&      Module  SET_LINE_COUNT  INPUT
  *       text
  MODULE SET_LINE_COUNT OUTPUT.
    LINE_COUNT = SY-LOOPC.
  ENDMODULE.                 " SET_LINE_COUNT  INPUT
  *&      Module  UPD_OK_CODE  INPUT
  *       text
  MODULE UPD_OK_COD INPUT.
  IF OK_CODE = 'SAVE'.
      UPD_OK_CODE = OK_CODE.
  *    CLEAR OK_CODE.
  ENDIF.
  ENDMODULE.                 " UPD_OK_CODE  INPUT
  *&      Module  EXIT_COMAND  INPUT
  *       text
  MODULE EXIT_COMAND INPUT.
  SAVE_OK_CODE = OK_CODE.
  CLEAR OK_CODE.
  CASE SAVE_OK_CODE.
      WHEN 'BACK'.
        CALL FUNCTION 'POPUP_TO_CONFIRM'
          EXPORTING
            TITLEBAR       = 'Order Bank Entry'
            TEXT_QUESTION  = 'Do you want to Go BacK ?'
            TEXT_BUTTON_1  = 'Yes'
            TEXT_BUTTON_2  = 'No'
            DEFAULT_BUTTON = '2'
          IMPORTING
            ANSWER         = ANSWER.
        IF ANSWER = '1'.
          LEAVE TO SCREEN 0.
        ELSE.
        ENDIF.
      WHEN '%EX'.
        CALL FUNCTION 'POPUP_TO_CONFIRM'
          EXPORTING
            TITLEBAR       = 'Order Bank Entry'
            TEXT_QUESTION  = 'Do you want to Exit ?'
            TEXT_BUTTON_1  = 'Yes'
            TEXT_BUTTON_2  = 'No'
            DEFAULT_BUTTON = '2'
          IMPORTING
            ANSWER         = ANSWER.
        IF ANSWER = '1'.
          LEAVE TO SCREEN 0.
        ELSE.
        ENDIF.
    ENDCASE.
  ENDMODULE.                 " EXIT_COMAND  INPUT
  *&      Module  UPDATE_MOD  INPUT
  *       text
  MODULE UPDATE_ITAB INPUT.
      MODIFY TABLE ITAB FROM ITAB.
  ENDMODULE.                 " UPDATE_MOD  INPUT
  *&      Module SCROLL INPUT
  *       text
  MODULE SCROLL_SORT INPUT.
  SAVE_OK_CODE = OK_CODE.
  CLEAR OK_CODE.
  CASE SAVE_OK_CODE.
    WHEN 'P--'.
        TCL1-TOP_LINE = 1.
    WHEN 'P-'.
        TCL1-TOP_LINE = TCL1-TOP_LINE - LINE_COUNT.
        IF TCL1-TOP_LINE LE 0.
           TCL1-TOP_LINE = 1.
        ENDIF.
    WHEN 'P+'.
        I = TCL1-TOP_LINE + LINE_COUNT.
        J = TCL1-LINES - LINE_COUNT + 1.
        IF J LE 0.
           J = 1.
        ENDIF.
        IF I LE J.
           TCL1-TOP_LINE = I.
        ELSE.
           TCL1-TOP_LINE = J.
        ENDIF.
    WHEN 'P++'.
        TCL1-TOP_LINE = TCL1-LINES - LINE_COUNT + 1.
        IF TCL1-TOP_LINE LE 0.
            TCL1-TOP_LINE = 1.
        ENDIF.
    WHEN 'SORTUP'.
        READ TABLE TCL1-COLS ASSIGNING <FS_TCL1> WITH KEY SELECTED = 'X'.
        IF SY-SUBRC = 0.
            SPLIT <FS_TCL1>-SCREEN-NAME AT '-' INTO HELP FLDNAME.
            SORT ITAB ASCENDING BY (FLDNAME).
        ENDIF.
    WHEN 'SORTDN'.
        READ TABLE TCL1-COLS ASSIGNING <FS_TCL1> WITH KEY SELECTED = 'X'.
        IF SY-SUBRC = 0.
            SPLIT <FS_TCL1>-SCREEN-NAME AT '-' INTO HELP FLDNAME.
            SORT ITAB DESCENDING BY (FLDNAME).
        ENDIF.
    ENDCASE.
  ENDMODULE.                 " USER_COMMAND  INPUT
  *&      Module  TABL_UPD  INPUT
  *       text
    MODULE UPDATE_TABLE INPUT.
     CASE UPD_OK_CODE.
     WHEN 'SAVE'.
       UPDATE ZSD_TABL_ORDBANK FROM TABLE ITAB .
       IF SY-SUBRC EQ 0.
           MESSAGE I002(ZQOTBANK) .
           CLEAR  UPD_OK_CODE.
       ELSE.
           MESSAGE E003(ZQOTBANK) .
       ENDIF.
     ENDCASE.
    ENDMODULE.                 " TABL_UPD  INPUT
  Thnx
  moni<b></b><b></b>
  Message was edited by: md monirujjaman
  Message was edited by: md monirujjaman

  Hi Moni,
  The problem as I had replied in your earlier post is with the MODIFY statement.
  MODIFY TABLE ITAB FROM ITAB. This statement will do the modifications based on the table key. When you have character fields as editable, then some problems are to be anticipated. In such a scenario, you must update the internal table based on the <i>index</i>, rather than based on <i>key</i>.
  So consider using
  MODIFY ITAB FROM ITAB INDEX TCL-CURRENT_LINE.
  Where TCL is the name of the Table Control. Also observe the difference in syntax here, don't use the TABLE keyword for the MODIFY statement.
  Please try it out and let me know.
  Regards,
  Anand Mandalika.

• How to get color in the final row of table view( table control)

  Hi,
  iam having a table control displayed with 10 records as output,in that i need to provide a color for the final row since it is total inorder to show difference from other records.
  Kindly advise me on this.
  Thanks & Regards,
  Nehru.

  Hi Nehru,
  Checkout [THIS|Re: set color for a particular row in table view] thread .
  [This |http://www.sapdesignguild.org/resources/htmlb_guidance/table.html#at] Might also help you.
  Regards,
  Anubhav
  Edited by: Anubhav Jain on Jan 4, 2009 7:34 AM

• How can we use TABLE CONTROL in BDC and WORK FLOW of ABAP.

  how can we use TABLE CONTROL in BDC and WORK FLOW of ABAP.?
  please explain the important questions.

  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 with the help of Poonam on sapfans.com developement forum, 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 in steploop/Table Control
  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.
  An example abap program of handling Table Control during bdc programming.
  REPORT zmm_bdcp_purchaseorderkb02
         NO STANDARD PAGE HEADING LINE-SIZE 255.
                  Declaring internal tables                            *
  *-----Declaring line structure
  DATA : BEGIN OF it_dummy OCCURS 0,
           dummy(255) TYPE c,
         END OF it_dummy.
  *-----Internal table for line items
  DATA :  BEGIN OF it_idata OCCURS 0,
            ematn(18),      "Material Number.
            menge(13),      "Qyantity.
            netpr(11),      "Net Price.
            werks(4),       "Plant.
            ebelp(5),       "Item Number.
          END OF it_idata.
  *-----Deep structure for header data and line items
  DATA  :  BEGIN OF it_me21 OCCURS 0,
             lifnr(10),      "Vendor A/c No.
             bsart(4),       "A/c Type.
             bedat(8),       "Date of creation of PO.
             ekorg(4),       "Purchasing Organisation.
             ekgrp(3),       "Purchasing Group.
             x_data LIKE TABLE OF it_idata,
           END OF it_me21.
  DATA  :  x_idata LIKE LINE OF it_idata.
  DATA  :  v_delimit VALUE ','.
  DATA  :  v_indx(3) TYPE n.
  DATA  :  v_fnam(30) TYPE c.
  DATA  :  v_count TYPE n.
  DATA  :  v_ne TYPE i.
  DATA  :  v_ns TYPE i.
  *include bdcrecx1.
  INCLUDE zmm_incl_purchaseorderkb01.
                  Search help for file                                 *
  AT SELECTION-SCREEN ON VALUE-REQUEST FOR p_file.
    CALL FUNCTION 'F4_FILENAME'
      EXPORTING
        program_name  = syst-cprog
        dynpro_number = syst-dynnr
      IMPORTING
        file_name     = p_file.
  START-OF-SELECTION.
         To upload the data into line structure                        *
    CALL FUNCTION 'WS_UPLOAD'
      EXPORTING
        filename = p_file
        filetype = 'DAT'
      TABLES
        data_tab = it_dummy.
      Processing the data from line structure to internal tables       *
    REFRESH:it_me21.
    CLEAR  :it_me21.
    LOOP AT it_dummy.
      IF it_dummy-dummy+0(01) = 'H'.
        v_indx = v_indx + 1.
        CLEAR   it_idata.
        REFRESH it_idata.
        CLEAR   it_me21-x_data.
        REFRESH it_me21-x_data.
        SHIFT it_dummy.
        SPLIT it_dummy AT v_delimit INTO it_me21-lifnr
                                         it_me21-bsart
                                         it_me21-bedat
                                         it_me21-ekorg
                                         it_me21-ekgrp.
        APPEND it_me21.
      ELSEIF it_dummy-dummy+0(01) = 'L'.
        SHIFT it_dummy.
        SPLIT it_dummy AT v_delimit INTO it_idata-ematn
                                         it_idata-menge
                                         it_idata-netpr
                                         it_idata-werks
                                         it_idata-ebelp.
        APPEND it_idata TO it_me21-x_data.
        MODIFY it_me21 INDEX v_indx.
      ENDIF.
    ENDLOOP.
                  To open the group                                    *
    PERFORM open_group.
          To populate the bdcdata table for header data                *
    LOOP AT it_me21.
      v_count = v_count + 1.
      REFRESH it_bdcdata.
      PERFORM subr_bdc_table USING:   'X' 'SAPMM06E'    '0100',
                                      ' ' 'BDC_CURSOR'  'EKKO-LIFNR',
                                      ' ' 'BDC_OKCODE'  '/00',
                                      ' ' 'EKKO-LIFNR'  it_me21-lifnr,
                                      ' ' 'RM06E-BSART' it_me21-bsart,
                                      ' ' 'RM06E-BEDAT' it_me21-bedat,
                                      ' ' 'EKKO-EKORG'  it_me21-ekorg,
                                      ' ' 'EKKO-EKGRP'  it_me21-ekgrp,
                                      ' ' 'RM06E-LPEIN' 'T'.
      PERFORM subr_bdc_table USING:   'X' 'SAPMM06E'    '0120',
                                      ' ' 'BDC_CURSOR'  'RM06E-EBELP',
                                      ' ' 'BDC_OKCODE'  '/00'.
      MOVE 1 TO v_indx.
  *-----To populate the bdcdata table for line item data
      LOOP AT it_me21-x_data INTO x_idata.
        CONCATENATE 'EKPO-EMATN(' v_indx ')'  INTO v_fnam.
        PERFORM  subr_bdc_table USING ' ' v_fnam x_idata-ematn.
        CONCATENATE 'EKPO-MENGE(' v_indx ')'  INTO v_fnam.
        PERFORM  subr_bdc_table USING ' ' v_fnam x_idata-menge.
        CONCATENATE 'EKPO-NETPR(' v_indx ')'  INTO v_fnam.
        PERFORM  subr_bdc_table USING ' ' v_fnam x_idata-netpr.
        CONCATENATE 'EKPO-WERKS(' v_indx ')'  INTO v_fnam.
        PERFORM  subr_bdc_table USING ' ' v_fnam x_idata-werks.
        v_indx = v_indx + 1.
        PERFORM subr_bdc_table USING:  'X' 'SAPMM06E'    '0120',
                                       ' ' 'BDC_CURSOR'  'RM06E-EBELP',
                                       ' ' 'BDC_OKCODE'  '/00'.
      ENDLOOP.
      PERFORM subr_bdc_table USING:    'X' 'SAPMM06E'    '0120',
                                       ' ' 'BDC_CURSOR'  'RM06E-EBELP',
                                       ' ' 'BDC_OKCODE'  '=BU'.
      PERFORM bdc_transaction USING 'ME21'.
    ENDLOOP.
    PERFORM close_group.
                    End of selection event                             *
  END-OF-SELECTION.
    IF session NE 'X'.
  *-----To display the successful records
      WRITE :/10  text-001.          "Sucess records
      WRITE :/10  SY-ULINE(20).
      SKIP.
      IF it_sucess IS INITIAL.
        WRITE :/  text-002.
      ELSE.
        WRITE :/   text-008,          "Total number of Succesful records
                35 v_ns.
        SKIP.
        WRITE:/   text-003,          "Vendor Number
               17 text-004,          "Record number
               30 text-005.          "Message
      ENDIF.
      LOOP AT it_sucess.
        WRITE:/4  it_sucess-lifnr,
               17 it_sucess-tabix CENTERED,
               30 it_sucess-sucess_rec.
      ENDLOOP.
      SKIP.
  *-----To display the erroneous records
      WRITE:/10   text-006.          "Error Records
      WRITE:/10   SY-ULINE(17).
      SKIP.
      IF it_error IS INITIAL.
        WRITE:/   text-007.          "No error records
      ELSE.
        WRITE:/   text-009,          "Total number of erroneous records
               35 v_ne.
        SKIP.
        WRITE:/   text-003,          "Vendor Number
               17 text-004,          "Record number
               30 text-005.          "Message
      ENDIF.
      LOOP AT it_error.
        WRITE:/4  it_error-lifnr,
               17 it_error-tabix CENTERED,
               30 it_error-error_rec.
      ENDLOOP.
      REFRESH it_sucess.
      REFRESH it_error.
    ENDIF.
  CODE IN INCLUDE.
  Include           ZMM_INCL_PURCHASEORDERKB01
  DATA:   it_BDCDATA LIKE BDCDATA    OCCURS 0 WITH HEADER LINE.
  DATA:   it_MESSTAB LIKE BDCMSGCOLL OCCURS 0 WITH HEADER LINE.
  DATA:   E_GROUP_OPENED.
  *-----Internal table to store sucess records
  DATA:BEGIN OF it_sucess OCCURS 0,
         msgtyp(1)   TYPE c,
         lifnr  LIKE  ekko-lifnr,
         tabix  LIKE  sy-tabix,
         sucess_rec(125),
       END OF it_sucess.
  DATA: g_mess(125) type c.
  *-----Internal table to store error records
  DATA:BEGIN OF it_error OCCURS 0,
         msgtyp(1)   TYPE c,
         lifnr  LIKE  ekko-lifnr,
         tabix  LIKE  sy-tabix,
         error_rec(125),
       END OF it_error.
         Selection screen
  SELECTION-SCREEN BEGIN OF LINE.
  PARAMETERS session RADIOBUTTON GROUP ctu.  "create session
  SELECTION-SCREEN COMMENT 3(20) text-s07 FOR FIELD session.
  SELECTION-SCREEN POSITION 45.
  PARAMETERS ctu RADIOBUTTON GROUP ctu.     "call transaction
  SELECTION-SCREEN COMMENT 48(20) text-s08 FOR FIELD ctu.
  SELECTION-SCREEN END OF LINE.
  SELECTION-SCREEN BEGIN OF LINE.
  SELECTION-SCREEN COMMENT 3(20) text-s01 FOR FIELD group.
  SELECTION-SCREEN POSITION 25.
  PARAMETERS group(12).                      "group name of session
  SELECTION-SCREEN COMMENT 48(20) text-s05 FOR FIELD ctumode.
  SELECTION-SCREEN POSITION 70.
  PARAMETERS ctumode LIKE ctu_params-dismode DEFAULT 'N'.
  "A: show all dynpros
  "E: show dynpro on error only
  "N: do not display dynpro
  SELECTION-SCREEN END OF LINE.
  SELECTION-SCREEN BEGIN OF LINE.
  SELECTION-SCREEN COMMENT 48(20) text-s06 FOR FIELD cupdate.
  SELECTION-SCREEN POSITION 70.
  PARAMETERS cupdate LIKE ctu_params-updmode DEFAULT 'L'.
  SELECTION-SCREEN END OF LINE.
  SELECTION-SCREEN BEGIN OF LINE.
  SELECTION-SCREEN COMMENT 3(20) text-s03 FOR FIELD keep.
  SELECTION-SCREEN POSITION 25.
  PARAMETERS: keep AS CHECKBOX.       "' ' = delete session if finished
  "'X' = keep   session if finished
  SELECTION-SCREEN COMMENT 48(20) text-s09 FOR FIELD e_group.
  SELECTION-SCREEN POSITION 70.
  PARAMETERS e_group(12).             "group name of error-session
  SELECTION-SCREEN END OF LINE.
  SELECTION-SCREEN BEGIN OF LINE.
  SELECTION-SCREEN COMMENT 51(17) text-s03 FOR FIELD e_keep.
  SELECTION-SCREEN POSITION 70.
  PARAMETERS: e_keep AS CHECKBOX.     "' ' = delete session if finished
  "'X' = keep   session if finished
  SELECTION-SCREEN END OF LINE.
  PARAMETERS:p_file LIKE rlgrap-filename.
    at selection screen                                                *
  AT SELECTION-SCREEN.
  group and user must be filled for create session
    IF SESSION = 'X' AND
       GROUP = SPACE. "OR USER = SPACE.
      MESSAGE E613(MS).
    ENDIF.
    create batchinput session                                          *
  FORM OPEN_GROUP.
    IF SESSION = 'X'.
      SKIP.
      WRITE: /(20) 'Create group'(I01), GROUP.
      SKIP.
  *----open batchinput group
      CALL FUNCTION 'BDC_OPEN_GROUP'
        EXPORTING
          CLIENT = SY-MANDT
          GROUP  = GROUP
          USER   = sy-uname.
      WRITE:/(30) 'BDC_OPEN_GROUP'(I02),
              (12) 'returncode:'(I05),
                   SY-SUBRC.
    ENDIF.
  ENDFORM.                    "OPEN_GROUP
    end batchinput session                                             *
  FORM CLOSE_GROUP.
    IF SESSION = 'X'.
  *------close batchinput group
      CALL FUNCTION 'BDC_CLOSE_GROUP'.
      WRITE: /(30) 'BDC_CLOSE_GROUP'(I04),
              (12) 'returncode:'(I05),
                   SY-SUBRC.
    ELSE.
      IF E_GROUP_OPENED = 'X'.
        CALL FUNCTION 'BDC_CLOSE_GROUP'.
        WRITE: /.
        WRITE: /(30) 'Fehlermappe wurde erzeugt'(I06).
      ENDIF.
    ENDIF.
  ENDFORM.                    "CLOSE_GROUP
         Start new transaction according to parameters                 *
  FORM BDC_TRANSACTION USING TCODE TYPE ANY.
    DATA: L_SUBRC LIKE SY-SUBRC.
  *------batch input session
    IF SESSION = 'X'.
      CALL FUNCTION 'BDC_INSERT'
        EXPORTING
          TCODE     = TCODE
        TABLES
          DYNPROTAB = it_BDCDATA.
      WRITE: / 'BDC_INSERT'(I03),
               TCODE,
               'returncode:'(I05),
               SY-SUBRC,
               'RECORD:',
               SY-INDEX.
    ELSE.
      REFRESH it_MESSTAB.
      CALL TRANSACTION TCODE USING it_BDCDATA
                       MODE   CTUMODE
                       UPDATE CUPDATE
                       MESSAGES INTO it_MESSTAB.
      L_SUBRC = SY-SUBRC.
      WRITE: / 'CALL_TRANSACTION',
               TCODE,
               'returncode:'(I05),
               L_SUBRC,
               'RECORD:',
               SY-INDEX.
    ENDIF.
    Message handling for Call Transaction                              *
    perform subr_mess_hand using g_mess.
  *-----Erzeugen fehlermappe
    IF L_SUBRC <> 0 AND E_GROUP <> SPACE.
      IF E_GROUP_OPENED = ' '.
        CALL FUNCTION 'BDC_OPEN_GROUP'
          EXPORTING
            CLIENT = SY-MANDT
            GROUP  = E_GROUP
            USER   = sy-uname
            KEEP   = E_KEEP.
        E_GROUP_OPENED = 'X'.
      ENDIF.
      CALL FUNCTION 'BDC_INSERT'
        EXPORTING
          TCODE     = TCODE
        TABLES
          DYNPROTAB = it_BDCDATA.
    ENDIF.
    REFRESH it_BDCDATA.
  ENDFORM.                    "BDC_TRANSACTION
       Form  subr_bdc_table                                            *
        text
       -->P_0220   text                                                *
       -->P_0221   text                                                *
       -->P_0222   text                                                *
  FORM subr_bdc_table  USING      VALUE(P_0220) TYPE ANY
                                  VALUE(P_0221) TYPE ANY
                                  VALUE(P_0222) TYPE ANY.
    CLEAR it_bdcdata.
    IF P_0220 = ' '.
      CLEAR it_bdcdata.
      it_bdcdata-fnam     = P_0221.
      it_bdcdata-fval     = P_0222.
      APPEND it_bdcdata.
    ELSE.
      it_bdcdata-dynbegin = P_0220.
      it_bdcdata-program  = P_0221.
      it_bdcdata-dynpro   = P_0222.
      APPEND it_bdcdata.
    ENDIF.
  ENDFORM.                    " subr_bdc_table
       Form  subr_mess_hand                                            *
        text                                                           *
       -->P_G_MESS  text                                               *
  FORM subr_mess_hand USING  P_G_MESS TYPE ANY.
    LOOP AT IT_MESSTAB.
      CALL FUNCTION 'FORMAT_MESSAGE'
        EXPORTING
          ID     = it_messtab-msgid
          LANG   = it_messtab-msgspra
          NO     = it_messtab-msgnr
          v1     = it_messtab-msgv1
          v2     = it_messtab-msgv2
        IMPORTING
          MSG    = P_G_MESS
        EXCEPTIONS
          OTHERS = 0.
      CASE it_messtab-msgtyp.
        when 'E'.
          it_error-error_rec   =  P_G_MESS.
          it_error-lifnr       =  it_me21-lifnr.
          it_error-tabix       =  v_count.
          APPEND IT_ERROR.
        when 'S'.
          it_sucess-sucess_rec =  P_G_MESS.
          it_sucess-lifnr      =  it_me21-lifnr.
          it_sucess-tabix      =  v_count.
          APPEND IT_SUCESS.
      endcase.
    ENDLOOP.
    Describe table it_sucess lines v_ns.
    Describe table it_error  lines v_ne.
  ENDFORM.                    " subr_mess_hand
  Also refer
  http://sap.ittoolbox.com/groups/technical-functional/sap-dev/bdc-table-control-668404
  and
  http://www.sap-img.com/abap/bdc-example-using-table-control-in-bdc.htm
  Regards,
  srinivas
  <b>*reward for useful answers*</b>

• How to use table control in bdc, plz somebody tell me.

  Hi Gurus,
  Ples tell me
  how to use table control in bdc, plz somebody tell me.
  And send Sample CODE also. Thnaks in advance.

  hi,
  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')
  we can determine the number of visible lines on Transaction Screen from our Calling BDC program.
  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.
  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 in steploop/Table Control
  form creat_bdc.
  field-symbols: , , .
  data: name1(14) value 'EKPO-EMATN(XX)',
  name2(14) value 'EKPO-MENGE(XX)',
  name3(15) value 'RM06E-SELKZ(XX)'.
  assign: name1 to ,
  name2 to ,
  name3 to .
  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 DataTable-matnr.
  perform bdcfield using DataTable-menge.
  perform bdcfield using DataTable-indicator.
  endloop.
  enddo.
  example 1
  BDC table control is an area on the screen in which you can display data in tabular form. You process it using a loop. Table controls are comparable to step loop tables. While a table control consists of a single definition row, step loop blocks may extend over more than one row. Table controls are more flexible than step loops, and are intended to replace them
  When you need to handle a scenario like in sales order,it may contain more than one material,if you have more than one material We have to use table control,it will have number of columns and number of rows.
  Table controls allow you to enter, display, and modify tabular data easily on the screen
  Check this code,
  PARAMETERS: file1 LIKE rlgrap-filename.
  *Internal Table Declarations
  DATA: BEGIN OF itab OCCURS 0,
  matnr(18) TYPE c, "MaterialNumber
  werks(4) TYPE c, "Plant
  vdatu(10) TYPE c, "Valid From Date
  bdatu(10) TYPE c, "Valid To Date
  lifnr(10) TYPE c, "Vendor Number
  ekorg(4) TYPE c, "Purchasing Organization
  feskz TYPE c, "Fixed
  autet TYPE c, "MRP Indicator
  END OF itab.
  DATA: bdcdata LIKE TABLE OF bdcdata WITH HEADER LINE.
  *VARIABLES Declarations
  DATA: wa1 LIKE LINE OF itab. "Workarea for ITAB
  DATA: n TYPE i, "Check
  count TYPE i.
  DATA: cnt(2), "Counter
  wa(15). "Workarea to hold concatenatedvalue
  DATA v_msg(100).
  DATA: flag.
  DATA: file TYPE string.
  *Initialization event
  INITIALIZATION.
  *At-selection-screen event
  *To provide Input help for file name
  AT SELECTION-SCREEN ON VALUE-REQUEST FOR file1.
  CALL FUNCTION 'F4_FILENAME'
  EXPORTING
  program_name = syst-cprog
  dynpro_number = syst-dynnr
  IMPORTING
  file_name = file1.
  *START-OF-SELECTION EVENT
  START-OF-SELECTION.
  MOVE file1 TO file.
  CALL FUNCTION 'GUI_UPLOAD'
  EXPORTING
  filename = file
  filetype = 'ASC'
  has_field_separator = 'X'
  TABLES
  data_tab = itab
  EXCEPTIONS
  file_open_error = 1
  file_read_error = 2
  no_batch = 3
  gui_refuse_filetransfer = 4
  invalid_type = 5
  no_authority = 6
  unknown_error = 7
  bad_data_format = 8
  header_not_allowed = 9
  separator_not_allowed = 10
  header_too_long = 11
  unknown_dp_error = 12
  access_denied = 13
  dp_out_of_memory = 14
  disk_full = 15
  dp_timeout = 16
  OTHERS = 17.
  IF sy-subrc <> 0.
  MESSAGE ID sy-msgid TYPE sy-msgty NUMBER sy-msgno
  WITH sy-msgv1 sy-msgv2 sy-msgv3 sy-msgv4.
  ENDIF.
  *To populate BDCDATA and start data transfer
  LOOP AT itab .
  To validate Plant range
  IF itab-werks = '1000' OR itab-werks = '2000'
  OR itab-werks = '1008'.
  AT NEW werks.
  CLEAR: n.
  cnt = 1.
  PERFORM bdc_dynpro USING 'SAPLMEOR' '0200'.
  PERFORM bdc_field USING 'BDC_CURSOR'
  'EORD-MATNR'.
  PERFORM bdc_field USING 'BDC_OKCODE'
  '/00'.
  PERFORM bdc_field USING 'EORD-MATNR'
  itab-matnr.
  PERFORM bdc_field USING 'EORD-WERKS'
  itab-werks.
  PERFORM bdc_dynpro USING 'SAPLMEOR' '0205'.
  CONCATENATE 'EORD-EKORG(' cnt ')' INTO wa.
  PERFORM bdc_field USING 'BDC_CURSOR'
  wa.
  PERFORM bdc_field USING 'BDC_OKCODE'
  '=BU'.
  ENDAT.
  IF n = 12.
  READ TABLE bdcdata WITH KEY fval = '=BU'.
  bdcdata-fval = '=NS'.
  MODIFY bdcdata INDEX sy-tabix TRANSPORTING fval.
  PERFORM bdc_dynpro USING 'SAPLMEOR' '0205'.
  PERFORM bdc_field USING 'BDC_CURSOR'
  'EORD-VDATU(01)'.
  PERFORM bdc_field USING 'BDC_OKCODE'
  '=BU'.
  cnt = 2.
  n = 2.
  ENDIF.
  CONCATENATE 'EORD-VDATU(' cnt ')' INTO wa.
  PERFORM bdc_field USING wa
  itab-vdatu.
  CONCATENATE 'EORD-BDATU(' cnt ')' INTO wa.
  PERFORM bdc_field USING wa
  itab-bdatu.
  CONCATENATE 'EORD-LIFNR(' cnt ')' INTO wa.
  PERFORM bdc_field USING wa
  itab-lifnr.
  CONCATENATE 'EORD-EKORG(' cnt ')' INTO wa.
  PERFORM bdc_field USING wa
  itab-ekorg.
  CONCATENATE 'RM06W-FESKZ(' cnt ')' INTO wa.
  PERFORM bdc_field USING wa
  itab-feskz.
  CONCATENATE 'EORD-AUTET(' cnt ')' INTO wa.
  PERFORM bdc_field USING wa
  itab-autet.
  IF n <> 12.
  n = cnt.
  ENDIF.
  cnt = cnt + 1.
  AT END OF werks.
  CALL TRANSACTION 'ME01' USING bdcdata
  UPDATE 'S'
  MODE 'A'.
  CLEAR:bdcdata,bdcdata[].
  CALL FUNCTION 'FORMAT_MESSAGE'
  EXPORTING
  id = sy-msgid
  lang = 'EN'
  no = sy-msgno
  v1 = sy-msgv1
  v2 = sy-msgv2
  v3 = sy-msgv3
  v4 = sy-msgv4
  IMPORTING
  msg = v_msg.
  WRITE:/ v_msg.
  CLEAR: bdcdata,bdcdata[],flag.
  ENDAT.
  ENDIF.
  ENDLOOP.
  Start new screen *
  FORM bdc_dynpro USING program dynpro.
  CLEAR bdcdata.
  bdcdata-program = program.
  bdcdata-dynpro = dynpro.
  bdcdata-dynbegin = 'X'.
  APPEND bdcdata.
  ENDFORM.
  Insert field values
  FORM bdc_field USING fnam fval.
  IF NOT fval IS INITIAL.
  CLEAR bdcdata.
  bdcdata-fnam = fnam.
  bdcdata-fval = fval.
  APPEND bdcdata.
  ENDIF.
  CLEAR wa.
  ENDFORM.
  Sample code 2
  THis is example to upload the Bank details of the Vendor which has the TC.
  REPORT zprataptable2
  NO STANDARD PAGE HEADING LINE-SIZE 255.
  DATA : BEGIN OF itab OCCURS 0,
  i1 TYPE i,
  lifnr LIKE rf02k-lifnr,
  bukrs LIKE rf02k-bukrs,
  ekorg LIKE rf02k-ekorg,
  ktokk LIKE rf02k-ktokk,
  anred LIKE lfa1-anred,
  name1 LIKE lfa1-name1,
  sortl LIKE lfa1-sortl,
  land1 LIKE lfa1-land1,
  akont LIKE lfb1-akont,
  fdgrv LIKE lfb1-fdgrv,
  waers LIKE lfm1-waers,
  END OF itab.
  DATA : BEGIN OF jtab OCCURS 0,
  j1 TYPE i,
  banks LIKE lfbk-banks,
  bankl LIKE lfbk-bankl,
  bankn LIKE lfbk-bankn,
  END OF jtab.
  DATA : cnt(4) TYPE n.
  DATA : fdt(20) TYPE c.
  DATA : c TYPE i.
  INCLUDE bdcrecx1.
  START-OF-SELECTION.
  CALL FUNCTION 'WS_UPLOAD'
  EXPORTING
  filename = 'C:\first1.txt'
  filetype = 'DAT'
  TABLES
  data_tab = itab.
  CALL FUNCTION 'WS_UPLOAD'
  EXPORTING
  filename = 'C:\second.txt'
  filetype = 'DAT'
  TABLES
  data_tab = jtab.
  LOOP AT itab.
  PERFORM bdc_dynpro USING 'SAPMF02K' '0100'.
  PERFORM bdc_field USING 'BDC_CURSOR'
  'RF02K-KTOKK'.
  PERFORM bdc_field USING 'BDC_OKCODE'
  '/00'.
  PERFORM bdc_field USING 'RF02K-LIFNR'
  itab-lifnr.
  PERFORM bdc_field USING 'RF02K-BUKRS'
  itab-bukrs.
  PERFORM bdc_field USING 'RF02K-EKORG'
  itab-ekorg.
  PERFORM bdc_field USING 'RF02K-KTOKK'
  itab-ktokk.
  PERFORM bdc_dynpro USING 'SAPMF02K' '0110'.
  PERFORM bdc_field USING 'BDC_CURSOR'
  'LFA1-LAND1'.
  PERFORM bdc_field USING 'BDC_OKCODE'
  '/00'.
  PERFORM bdc_field USING 'LFA1-ANRED'
  itab-anred.
  PERFORM bdc_field USING 'LFA1-NAME1'
  itab-name1.
  PERFORM bdc_field USING 'LFA1-SORTL'
  itab-sortl.
  PERFORM bdc_field USING 'LFA1-LAND1'
  itab-land1.
  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-BANKN(01)'.
  PERFORM bdc_field USING 'BDC_OKCODE'
  '=ENTR'.
  cnt = 0.
  LOOP AT jtab WHERE j1 = itab-i1.
  cnt = cnt + 1.
  CONCATENATE 'LFBK-BANKS(' cnt ')' INTO fdt.
  PERFORM bdc_field USING fdt jtab-banks.
  CONCATENATE 'LFBK-BANKL(' cnt ')' INTO fdt.
  PERFORM bdc_field USING fdt jtab-bankl.
  CONCATENATE 'LFBK-BANKN(' cnt ')' INTO fdt.
  PERFORM bdc_field USING fdt jtab-bankn.
  IF cnt = 5.
  cnt = 0.
  PERFORM bdc_dynpro USING 'SAPMF02K' '0130'.
  PERFORM bdc_field USING 'BDC_CURSOR'
  'LFBK-BANKS(01)'.
  PERFORM bdc_field USING 'BDC_OKCODE'
  '=P+'.
  PERFORM bdc_dynpro USING 'SAPMF02K' '0130'.
  PERFORM bdc_field USING 'BDC_CURSOR'
  'LFBK-BANKN(02)'.
  PERFORM bdc_field USING 'BDC_OKCODE'
  '=ENTR'.
  ENDIF.
  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'
  itab-akont.
  PERFORM bdc_field USING 'LFB1-FDGRV'
  itab-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'
  itab-waers.
  PERFORM bdc_dynpro USING 'SAPMF02K' '0320'.
  PERFORM bdc_field USING 'BDC_CURSOR'
  'RF02K-LIFNR'.
  PERFORM bdc_field USING 'BDC_OKCODE'
  '=ENTR'.
  PERFORM bdc_dynpro USING 'SAPLSPO1' '0300'.
  PERFORM bdc_field USING 'BDC_OKCODE'
  '=YES'.
  PERFORM bdc_transaction USING 'XK01'.
  ENDLOOP.
  PERFORM close_group.
  Header file:
  1 63190 0001 0001 0001 mr bal188 b in 31000 a1 inr
  2 63191 0001 0001 0001 mr bal189 b in 31000 a1 inr
  TC file:
  1 in sb 11000
  1 in sb 12000
  1 in sb 13000
  1 in sb 14000
  1 in sb 15000
  1 in sb 16000
  1 in sb 17000
  1 in sb 18000
  1 in sb 19000
  1 in sb 20000
  1 in sb 21000
  1 in sb 22000
  2 in sb 21000
  2 in sb 22000
  Regards

• Change label of table control column - SAPMV45A Screen 4900

  Hello,
  SAPMV45A / 4900 is the table control in the Sales tab of transaction VA01/02/03 (Sales Order Creation/Change/Display). On this table control there is a field ( RV45A-ETDAT ) with standard label First Date . The date displayed on this column is the first date on the schedule line tab at item level - changing the label of data element ETDAT didn't work for this table control, it seems the label is not taken from ETDAT labels.
  Is there any ehancemement technique that I can use to change ths label?
  Regards,
  Joã

  Hi,
  if you go to SE80 and display screen 4900
  Goto .-> Secondary window -> element list
  if you click on the red option "Dict. Attrib"
  there in "Modified" option you will see that *RV45A-ETDAT has an 'F' value (Text Fixed modified).
  http://help.sap.com/saphelp_nwpi71/helpdata/en/d1/801c47454211d189710000e8322d00/content.htm
  Modified
  The system sets this attribute if it detects a difference between the ABAP Dictionary definition for the field and the way it is used on the screen. You set this attribute if you do not want to copy all field properties from the dictionary definition.
  Best regards.
  Edited by: Pablo Casamayor on Mar 22, 2011 3:55 PM

• Editable ALVs vs Table Controls

  Hi...
  Can somebody give me the advantages and disadvantages of using editable ALV's  (ALV grid) over table controls? I've got a requirement from my client side wherein I have to replace all table controls with editable ALV's and prior to that, I've to submit an understanding document highlighting the advantages and disadvantages of doing the same.  Also, I've heard that SAP is thinking of replacing all existing table controls in its standard screens with editable ALVs. Can somebody send me a link or some article to substantiate this?
  <removed>. Please do help me out asap if you feel like it.
  Thanks and Regards,
  Rakesh
  Edited by: Thomas Zloch on Mar 14, 2010 8:03 PM - adjusted to forum rules

  > And also, if its true that SAP is thinking on replacing table controls with editable ALV's
  SAP usually don't spend time to rewrite existing programs. Many efforts and risks of regression for a so little gain. Really, that would surprise me
  That would be rather easy to show ALV advantages, as you can do almost "nothing" with table controls. So I would begin with the only table control functions:
  - change order of columns
  - hide columns
  - change column size
  - save the layout above, for the user and for everyone
  - number of fixed columns
  - good performance in the WAN as only screen lines are loaded
  ALV can do all of them. The other ALV functions are : see [SAP library - SAP List Viewer for SAP GUI|http://help.sap.com/saphelp_nw2004s/helpdata/en/8d/e994374c9cd355e10000009b38f8cf/frameset.htm]).
  Another difference is that checks are done immediately for current page of table control (when you press enter or scroll, the PAI is triggered), while they are done for the whole lines with ALV (in fact you could do it, but I guess you don't want to spend much time to develop)

• Hi All, Pls send me the recording for va01 by handling table control

  Hi All, Pls send me the recording for va01 by handling table control with 3 or more materials. Pls send me a flat file and code ASAP.
  Thanks&regards.
  Bharat

  Here is a example of similar kind ..plz go through this doc..it will be help hul 4 u
  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.
  Reward if helpful

• BDC Table Controler

  hi friends,
  Could u please tell me what BDC TABLE CONTROLER
  in which cases we can use the bdc Table Contorler
  Regards
  srinu y

  Hi srinu,
  <b>Check this link</b>
  http://www.sap-basis-abap.com/abap/handling-table-control-in-bdc.htm
  How to deal with table control / step loop in BDC
  <b>Steploop</b> and <b>table contol</b> 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 with the help of Poonam on sapfans.com developement forum, 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 <b>ABAP code</b> has two purposes:
  <b>1.</b> how to determine number of visible lines and how to calculte page number;
  (the 'calpage' routine has been modify to meet general purpose usage)
  <b>2.</b> 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..)
  <b>Step1:</b> 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)
  <b>Step2:</b> 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)
  <b>Step3:</b> write a subroutine calcalculating number of pages
  (here, the name of actual parameter is the same as formal parameter)
  <b>global data:</b> 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.
  <b>Step4</b> 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.
  <b>Step5</b> 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.
  <b>Step6</b> using field sysbol in your BDC, for example: in ME21, but you should calculate each item will correponding to which index in steploop/Table Control
  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.
  Reward with points if it is helpful
  Cheers
  Alfred

• Table control lines cannot be controlled in Batch Input session ?

  I am using a program which creates Batch Input sessions for the transaction FCHR (Online cashed checks) . The second screen is that of a table control where the check number is entered.
       I observed that while doing SHDB, if we tick the default size then changing the desktop resolution has no effect on the number of lines in table control - we see 14 lines in both cases.However, when the batch input session is processed, the number of table control lines varies according to the resoution(9 lines for 800600 and approx 15 for 1024768). Selecting the 'Dynpro standard size' option while processing the session has no effect.
    I know call transaction with 'default' parameter in optparam will take care of this problem. But I want to know whether Batch Input Session is known to have a problem with different resolutions.

  HI..
  i had the same problem once.... i dealt in the following way
  while entering values in table control
  1) enter value in the first line
  2) look for button on application toolbar using which you can increment line
  3) you will not find difference for first line but you will find it when you insert second line and go for next line.
  4) now for every increment you will get table conrol as (02) if you are going for recording.
  this will surely solve all issue related to table control as it solved for me
  regards
  Edited by: Mohit Kumar on Feb 19, 2009 12:04 PM

• BDC coding for TABLE controls

  how to write BDC coding based on Table Controls...

  http://www.sap-basis-abap.com/abap/handling-table-control-in-bdc.htm
  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 with the help of Poonam on sapfans.com developement forum, 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 in steploop/Table Control
  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.
  Cheers
  VJ