ABAP Select data from SAP table REGUE into internal table
Get Example source ABAP code based on a different SAP table
Below is a number of ABAP code snippets to demonstrate how to select data from SAP REGUE table and store it within an internal table, including using the newer @DATA inline declaration methods. It also shows you various ways to process this data using ABAP work area, inline declaration or field symbols including executing all the relevant CONVERSION_EXIT routines specific to REGUE. See here for more generic Select statement tips.
Sometimes data within SAP is stored within the database table in a different format to what it is displayed to the user. These input/output conversation FM routines are what translates the data between the two formats.
There is also a full declaration of the REGUE table where each field has a char/string type for you to simply copy and paste. This allows you to use processing that is only available to these field types such as the CONCATENATE statement.
DATA: IT_REGUE TYPE STANDARD TABLE OF REGUE,
WA_REGUE TYPE REGUE,
GD_STR TYPE STRING.
DATA: lo_typedescr type REF TO cl_abap_typedescr.
DATA: lv_fieldname type fieldname.
FIELD-SYMBOLS: <FIELD> TYPE any.
FIELD-SYMBOLS: <REGUE> TYPE REGUE.
*Process all fields in table header/work area as string values
PERFORM process_as_string_field_values CHANGING wa_REGUE.
SELECT *
*restrict ABAP select to first 10 rows
UP TO 10 ROWS
FROM REGUE
INTO TABLE IT_REGUE.
*Select data and declare internal table using in-line method @DATA
*SELECT *
* FROM REGUE
* INTO TABLE @DATA(IT_REGUE2).
*--Further methods of using ABAP code to select data from SAP database tables
*You can also declare the header/work area using the in-line DATA declaration method
READ TABLE IT_REGUE INDEX 1 INTO DATA(WA_REGUE2).
*Demonstrate how to loop at an internal table and update values using a FIELD-SYMBOL
LOOP AT IT_REGUE ASSIGNING <REGUE>.
*To update a field value using a field symbol simply change the value via the field symbol pointer<REGUE>-BUKRS = 1.
<REGUE>-BELNR = 1.
<REGUE>-GJAHR = 1.
<REGUE>-BUZEI = 1.
<REGUE>-FILKD = 1.
ENDLOOP. LOOP AT IT_REGUE INTO WA_REGUE. *Write horizonal line to screen report. WRITE:/ sy-uline. *Write selected data to screen/report before conversion. WRITE:/ sy-vline, WA_REGUE-ZLSCH, sy-vline,
WA_REGUE-WAERS, sy-vline,
WA_REGUE-HBKID, sy-vline,
WA_REGUE-BVTYP, sy-vline,
WA_REGUE-POKEN, sy-vline,
WA_REGUE-SRID, sy-vline.
ENDLOOP. *Add any further fields from structure WA_REGUE you want to display... WRITE:/ sy-uline. * Aternatively use generic code to Write field values (and NAME) to screen report DO. ASSIGN COMPONENT sy-index OF STRUCTURE wa_REGUE TO <field>. IF sy-subrc <> 0. EXIT. ENDIF. WRITE:/ 'Field Value', <field>, sy-vline. gd_str = <field> . lo_typedescr ?= CL_ABAP_DATADESCR=>DESCRIBE_BY_DATA( <field> ). lv_fieldname = lo_typedescr->GET_RELATIVE_NAME( ). WRITE:/ 'Field Name', lv_fieldname. ENDDO. *Redo loop but convert all fields from internal to out value LOOP AT IT_REGUE INTO WA_REGUE. *Write horizonal line to screen report. WRITE:/ sy-uline. *Convert all fields to display/output versions using conversion routines PERFORM convert_all_field_values CHANGING wa_EKKO. ENDLOOP. *&---------------------------------------------------------------------* *& Form convert_all_field_values *&---------------------------------------------------------------------* FORM convert_all_field_values CHANGING p_EKKO LIKE wa_EKKO. DATA: ld_input(1000) TYPE c, ld_output(1000) TYPE C.
*Conversion exit ALPHA, internal->external for field BELNR CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_REGUE-BELNR IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-BELNR.
WRITE:/ 'New Value:', ld_input.
*Conversion exit GJAHR, internal->external for field GJAHR CALL FUNCTION 'CONVERSION_EXIT_GJAHR_OUTPUT' EXPORTING input = WA_REGUE-GJAHR IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-GJAHR.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field FILKD CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_REGUE-FILKD IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-FILKD.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field SRID CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_REGUE-SRID IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-SRID.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field HKONT CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_REGUE-HKONT IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-HKONT.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field SAKNR CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_REGUE-SAKNR IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-SAKNR.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AU132, internal->external for field DMBTR CALL FUNCTION 'CONVERSION_EXIT_AU132_OUTPUT' EXPORTING input = WA_REGUE-DMBTR IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-DMBTR.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AU132, internal->external for field WRBTR CALL FUNCTION 'CONVERSION_EXIT_AU132_OUTPUT' EXPORTING input = WA_REGUE-WRBTR IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-WRBTR.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AC132, internal->external for field BDIFF CALL FUNCTION 'CONVERSION_EXIT_AC132_OUTPUT' EXPORTING input = WA_REGUE-BDIFF IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-BDIFF.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AU132, internal->external for field MWSTS CALL FUNCTION 'CONVERSION_EXIT_AU132_OUTPUT' EXPORTING input = WA_REGUE-MWSTS IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-MWSTS.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AU132, internal->external for field WMWST CALL FUNCTION 'CONVERSION_EXIT_AU132_OUTPUT' EXPORTING input = WA_REGUE-WMWST IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-WMWST.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AU132, internal->external for field SKFBT CALL FUNCTION 'CONVERSION_EXIT_AU132_OUTPUT' EXPORTING input = WA_REGUE-SKFBT IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-SKFBT.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AU132, internal->external for field SKNTO CALL FUNCTION 'CONVERSION_EXIT_AU132_OUTPUT' EXPORTING input = WA_REGUE-SKNTO IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-SKNTO.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AU132, internal->external for field WSKTO CALL FUNCTION 'CONVERSION_EXIT_AU132_OUTPUT' EXPORTING input = WA_REGUE-WSKTO IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-WSKTO.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AU132, internal->external for field SKVHW CALL FUNCTION 'CONVERSION_EXIT_AU132_OUTPUT' EXPORTING input = WA_REGUE-SKVHW IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-SKVHW.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AU132, internal->external for field SKVFW CALL FUNCTION 'CONVERSION_EXIT_AU132_OUTPUT' EXPORTING input = WA_REGUE-SKVFW IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-SKVFW.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AU132, internal->external for field DSKVH CALL FUNCTION 'CONVERSION_EXIT_AU132_OUTPUT' EXPORTING input = WA_REGUE-DSKVH IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-DSKVH.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AU132, internal->external for field QSSHB CALL FUNCTION 'CONVERSION_EXIT_AU132_OUTPUT' EXPORTING input = WA_REGUE-QSSHB IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-QSSHB.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AU132, internal->external for field QBSHB CALL FUNCTION 'CONVERSION_EXIT_AU132_OUTPUT' EXPORTING input = WA_REGUE-QBSHB IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-QBSHB.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AU132, internal->external for field QBSHH CALL FUNCTION 'CONVERSION_EXIT_AU132_OUTPUT' EXPORTING input = WA_REGUE-QBSHH IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-QBSHH.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field ESRRE CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_REGUE-ESRRE IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-ESRRE.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ABPSP, internal->external for field PROJK CALL FUNCTION 'CONVERSION_EXIT_ABPSP_OUTPUT' EXPORTING input = WA_REGUE-PROJK IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-PROJK.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field VBEL2 CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_REGUE-VBEL2 IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-VBEL2.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field AUFNR CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_REGUE-AUFNR IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-AUFNR.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field ANLN1 CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_REGUE-ANLN1 IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-ANLN1.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field ANLN2 CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_REGUE-ANLN2 IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-ANLN2.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field EBELN CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_REGUE-EBELN IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-EBELN.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field VBUND CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_REGUE-VBUND IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-VBUND.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field VBLNR CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_REGUE-VBLNR IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-VBLNR.
WRITE:/ 'New Value:', ld_input.
*Conversion exit FMCIS, internal->external for field FIPOS CALL FUNCTION 'CONVERSION_EXIT_FMCIS_OUTPUT' EXPORTING input = WA_REGUE-FIPOS IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-FIPOS.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AC132, internal->external for field BDIF2 CALL FUNCTION 'CONVERSION_EXIT_AC132_OUTPUT' EXPORTING input = WA_REGUE-BDIF2 IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-BDIF2.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AC132, internal->external for field BDIF3 CALL FUNCTION 'CONVERSION_EXIT_AC132_OUTPUT' EXPORTING input = WA_REGUE-BDIF3 IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-BDIF3.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AU132, internal->external for field DMBE2 CALL FUNCTION 'CONVERSION_EXIT_AU132_OUTPUT' EXPORTING input = WA_REGUE-DMBE2 IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-DMBE2.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AU132, internal->external for field DMBE3 CALL FUNCTION 'CONVERSION_EXIT_AU132_OUTPUT' EXPORTING input = WA_REGUE-DMBE3 IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-DMBE3.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AU132, internal->external for field MWST2 CALL FUNCTION 'CONVERSION_EXIT_AU132_OUTPUT' EXPORTING input = WA_REGUE-MWST2 IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-MWST2.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AU132, internal->external for field MWST3 CALL FUNCTION 'CONVERSION_EXIT_AU132_OUTPUT' EXPORTING input = WA_REGUE-MWST3 IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-MWST3.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AU132, internal->external for field SKNT2 CALL FUNCTION 'CONVERSION_EXIT_AU132_OUTPUT' EXPORTING input = WA_REGUE-SKNT2 IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-SKNT2.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AU132, internal->external for field SKNT3 CALL FUNCTION 'CONVERSION_EXIT_AU132_OUTPUT' EXPORTING input = WA_REGUE-SKNT3 IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-SKNT3.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AU132, internal->external for field QBSH2 CALL FUNCTION 'CONVERSION_EXIT_AU132_OUTPUT' EXPORTING input = WA_REGUE-QBSH2 IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-QBSH2.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AU132, internal->external for field QBSH3 CALL FUNCTION 'CONVERSION_EXIT_AU132_OUTPUT' EXPORTING input = WA_REGUE-QBSH3 IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-QBSH3.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field VERTN CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_REGUE-VERTN IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-VERTN.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field EMPFB CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_REGUE-EMPFB IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-EMPFB.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field PRCTR CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_REGUE-PRCTR IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-PRCTR.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field REBZG CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_REGUE-REBZG IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-REBZG.
WRITE:/ 'New Value:', ld_input.
*Conversion exit GJAHR, internal->external for field REBZJ CALL FUNCTION 'CONVERSION_EXIT_GJAHR_OUTPUT' EXPORTING input = WA_REGUE-REBZJ IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-REBZJ.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AU132, internal->external for field PSWBT CALL FUNCTION 'CONVERSION_EXIT_AU132_OUTPUT' EXPORTING input = WA_REGUE-PSWBT IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-PSWBT.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AC132, internal->external for field PSSKT CALL FUNCTION 'CONVERSION_EXIT_AC132_OUTPUT' EXPORTING input = WA_REGUE-PSSKT IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-PSSKT.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field KEYNO CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_REGUE-KEYNO IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-KEYNO.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AU132, internal->external for field PENLC1 CALL FUNCTION 'CONVERSION_EXIT_AU132_OUTPUT' EXPORTING input = WA_REGUE-PENLC1 IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-PENLC1.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AU132, internal->external for field PENLC2 CALL FUNCTION 'CONVERSION_EXIT_AU132_OUTPUT' EXPORTING input = WA_REGUE-PENLC2 IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-PENLC2.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AU132, internal->external for field PENLC3 CALL FUNCTION 'CONVERSION_EXIT_AU132_OUTPUT' EXPORTING input = WA_REGUE-PENLC3 IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-PENLC3.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AU132, internal->external for field PENFC CALL FUNCTION 'CONVERSION_EXIT_AU132_OUTPUT' EXPORTING input = WA_REGUE-PENFC IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_REGUE-PENFC.
WRITE:/ 'New Value:', ld_input.
ENDFORM. *&---------------------------------------------------------------------* *& Form process_as_string_field_values *&---------------------------------------------------------------------* FORM process_as_string_field_values CHANGING p_EKKO LIKE wa_EKKO. TYPES: BEGIN OF T_REGUE_STR,
BUKRS TYPE STRING,
BELNR TYPE STRING,
GJAHR TYPE STRING,
BUZEI TYPE STRING,
FILKD TYPE STRING,
ZLSCH TYPE STRING,
WAERS TYPE STRING,
HBKID TYPE STRING,
BVTYP TYPE STRING,
POKEN TYPE STRING,
SRID TYPE STRING,
XCLOSED TYPE STRING,
XBLNR TYPE STRING,
BLART TYPE STRING,
BUDAT TYPE STRING,
BLDAT TYPE STRING,
KOART TYPE STRING,
BSCHL TYPE STRING,
HKONT TYPE STRING,
SAKNR TYPE STRING,
UMSKZ TYPE STRING,
UMSKS TYPE STRING,
ZUMSK TYPE STRING,
SHKZG TYPE STRING,
DMBTR TYPE STRING,
WRBTR TYPE STRING,
BDIFF TYPE STRING,
GSBER TYPE STRING,
MWSKZ TYPE STRING,
MWSTS TYPE STRING,
WMWST TYPE STRING,
SGTXT TYPE STRING,
ZFBDT TYPE STRING,
ZTERM TYPE STRING,
ZBD1T TYPE STRING,
ZBD2T TYPE STRING,
ZBD3T TYPE STRING,
ZBD1P TYPE STRING,
ZBD2P TYPE STRING,
SKFBT TYPE STRING,
SKNTO TYPE STRING,
WSKTO TYPE STRING,
SKVHW TYPE STRING,
SKVFW TYPE STRING,
DSKVH TYPE STRING,
ZBFIX TYPE STRING,
XNETB TYPE STRING,
ZLSPR TYPE STRING,
SPLEV TYPE STRING,
XREBZ TYPE STRING,
ZOLLT TYPE STRING,
ZOLLD TYPE STRING,
LZBKZ TYPE STRING,
LANDL TYPE STRING,
DIEKZ TYPE STRING,
QSSKZ TYPE STRING,
QSSHB TYPE STRING,
QBSHB TYPE STRING,
QBSHH TYPE STRING,
ESRNR TYPE STRING,
ESRRE TYPE STRING,
ESRPZ TYPE STRING,
ZBDXT TYPE STRING,
ZBDXP TYPE STRING,
PROJK TYPE STRING,
VBEL2 TYPE STRING,
POSN2 TYPE STRING,
ETEN2 TYPE STRING,
AUFNR TYPE STRING,
ANLN1 TYPE STRING,
ANLN2 TYPE STRING,
EBELN TYPE STRING,
EBELP TYPE STRING,
ZEKKN TYPE STRING,
VBUND TYPE STRING,
XANET TYPE STRING,
INSEL TYPE STRING,
VBLNR TYPE STRING,
TYPAE TYPE STRING,
FIPOS TYPE STRING,
BDIF2 TYPE STRING,
BDIF3 TYPE STRING,
DMBE2 TYPE STRING,
DMBE3 TYPE STRING,
MWST2 TYPE STRING,
MWST3 TYPE STRING,
SKNT2 TYPE STRING,
SKNT3 TYPE STRING,
QBSH2 TYPE STRING,
QBSH3 TYPE STRING,
UZAWE TYPE STRING,
VERTN TYPE STRING,
EMPFB TYPE STRING,
PRCTR TYPE STRING,
XREF1 TYPE STRING,
XREF2 TYPE STRING,
XREF3 TYPE STRING,
DTWS1 TYPE STRING,
DTWS2 TYPE STRING,
DTWS3 TYPE STRING,
DTWS4 TYPE STRING,
KIDNO TYPE STRING,
VBEWA TYPE STRING,
REBZG TYPE STRING,
REBZJ TYPE STRING,
REBZZ TYPE STRING,
REBZT TYPE STRING,
BUPLA TYPE STRING,
SECCO TYPE STRING,
XSAEN TYPE STRING,
PSWSL TYPE STRING,
PSWBT TYPE STRING,
PSSKT TYPE STRING,
KEYNO TYPE STRING,
PENLC1 TYPE STRING,
PENLC2 TYPE STRING,
PENLC3 TYPE STRING,
PENFC TYPE STRING,
PENDAYS TYPE STRING,
EXTACCOUNT TYPE STRING,END OF T_EKKO_STR. DATA: WA_REGUE_STR type T_EKKO_STR. DATA: ld_text TYPE string. LOOP AT IT_EKKO INTO WA_EKKO. MOVE-CORRESPONDING wa_EKKO TO WA_EKKO_STR. CONCATENATE: sy-vline
WA_REGUE_STR-BUKRS sy-vline
WA_REGUE_STR-BELNR sy-vline
WA_REGUE_STR-GJAHR sy-vline
WA_REGUE_STR-BUZEI sy-vline
WA_REGUE_STR-FILKD sy-vline
WA_REGUE_STR-ZLSCH sy-vline
WA_REGUE_STR-WAERS sy-vline
WA_REGUE_STR-HBKID sy-vline
WA_REGUE_STR-BVTYP sy-vline
WA_REGUE_STR-POKEN sy-vline
WA_REGUE_STR-SRID sy-vline
WA_REGUE_STR-XCLOSED sy-vline
WA_REGUE_STR-XBLNR sy-vline
WA_REGUE_STR-BLART sy-vline
WA_REGUE_STR-BUDAT sy-vline
WA_REGUE_STR-BLDAT sy-vline
WA_REGUE_STR-KOART sy-vline
WA_REGUE_STR-BSCHL sy-vline
WA_REGUE_STR-HKONT sy-vline
WA_REGUE_STR-SAKNR sy-vline
WA_REGUE_STR-UMSKZ sy-vline
WA_REGUE_STR-UMSKS sy-vline
WA_REGUE_STR-ZUMSK sy-vline
WA_REGUE_STR-SHKZG sy-vline
WA_REGUE_STR-DMBTR sy-vline
WA_REGUE_STR-WRBTR sy-vline
WA_REGUE_STR-BDIFF sy-vline
WA_REGUE_STR-GSBER sy-vline
WA_REGUE_STR-MWSKZ sy-vline
WA_REGUE_STR-MWSTS sy-vline
WA_REGUE_STR-WMWST sy-vline
WA_REGUE_STR-SGTXT sy-vline
WA_REGUE_STR-ZFBDT sy-vline
WA_REGUE_STR-ZTERM sy-vline
WA_REGUE_STR-ZBD1T sy-vline
WA_REGUE_STR-ZBD2T sy-vline
WA_REGUE_STR-ZBD3T sy-vline
WA_REGUE_STR-ZBD1P sy-vline
WA_REGUE_STR-ZBD2P sy-vline
WA_REGUE_STR-SKFBT sy-vline
WA_REGUE_STR-SKNTO sy-vline
WA_REGUE_STR-WSKTO sy-vline
WA_REGUE_STR-SKVHW sy-vline
WA_REGUE_STR-SKVFW sy-vline
WA_REGUE_STR-DSKVH sy-vline
WA_REGUE_STR-ZBFIX sy-vline
WA_REGUE_STR-XNETB sy-vline
WA_REGUE_STR-ZLSPR sy-vline
WA_REGUE_STR-SPLEV sy-vline
WA_REGUE_STR-XREBZ sy-vline
WA_REGUE_STR-ZOLLT sy-vline
WA_REGUE_STR-ZOLLD sy-vline
WA_REGUE_STR-LZBKZ sy-vline
WA_REGUE_STR-LANDL sy-vline
WA_REGUE_STR-DIEKZ sy-vline
WA_REGUE_STR-QSSKZ sy-vline
WA_REGUE_STR-QSSHB sy-vline
WA_REGUE_STR-QBSHB sy-vline
WA_REGUE_STR-QBSHH sy-vline
WA_REGUE_STR-ESRNR sy-vline
WA_REGUE_STR-ESRRE sy-vline
WA_REGUE_STR-ESRPZ sy-vline
WA_REGUE_STR-ZBDXT sy-vline
WA_REGUE_STR-ZBDXP sy-vline
WA_REGUE_STR-PROJK sy-vline
WA_REGUE_STR-VBEL2 sy-vline
WA_REGUE_STR-POSN2 sy-vline
WA_REGUE_STR-ETEN2 sy-vline
WA_REGUE_STR-AUFNR sy-vline
WA_REGUE_STR-ANLN1 sy-vline
WA_REGUE_STR-ANLN2 sy-vline
WA_REGUE_STR-EBELN sy-vline
WA_REGUE_STR-EBELP sy-vline
WA_REGUE_STR-ZEKKN sy-vline
WA_REGUE_STR-VBUND sy-vline
WA_REGUE_STR-XANET sy-vline
WA_REGUE_STR-INSEL sy-vline
WA_REGUE_STR-VBLNR sy-vline
WA_REGUE_STR-TYPAE sy-vline
WA_REGUE_STR-FIPOS sy-vline
WA_REGUE_STR-BDIF2 sy-vline
WA_REGUE_STR-BDIF3 sy-vline
WA_REGUE_STR-DMBE2 sy-vline
WA_REGUE_STR-DMBE3 sy-vline
WA_REGUE_STR-MWST2 sy-vline
WA_REGUE_STR-MWST3 sy-vline
WA_REGUE_STR-SKNT2 sy-vline
WA_REGUE_STR-SKNT3 sy-vline
WA_REGUE_STR-QBSH2 sy-vline
WA_REGUE_STR-QBSH3 sy-vline
WA_REGUE_STR-UZAWE sy-vline
WA_REGUE_STR-VERTN sy-vline
WA_REGUE_STR-EMPFB sy-vline
WA_REGUE_STR-PRCTR sy-vline
WA_REGUE_STR-XREF1 sy-vline
WA_REGUE_STR-XREF2 sy-vline
WA_REGUE_STR-XREF3 sy-vline
WA_REGUE_STR-DTWS1 sy-vline
WA_REGUE_STR-DTWS2 sy-vline
WA_REGUE_STR-DTWS3 sy-vline
WA_REGUE_STR-DTWS4 sy-vline
WA_REGUE_STR-KIDNO sy-vline
WA_REGUE_STR-VBEWA sy-vline
WA_REGUE_STR-REBZG sy-vline
WA_REGUE_STR-REBZJ sy-vline
WA_REGUE_STR-REBZZ sy-vline
WA_REGUE_STR-REBZT sy-vline
WA_REGUE_STR-BUPLA sy-vline
WA_REGUE_STR-SECCO sy-vline
WA_REGUE_STR-XSAEN sy-vline
WA_REGUE_STR-PSWSL sy-vline
WA_REGUE_STR-PSWBT sy-vline
WA_REGUE_STR-PSSKT sy-vline
WA_REGUE_STR-KEYNO sy-vline
WA_REGUE_STR-PENLC1 sy-vline
WA_REGUE_STR-PENLC2 sy-vline
WA_REGUE_STR-PENLC3 sy-vline
WA_REGUE_STR-PENFC sy-vline
WA_REGUE_STR-PENDAYS sy-vline
WA_REGUE_STR-EXTACCOUNT sy-vline INTO ld_text SEPARATED BY SPACE. *Add any further fields from structure WA_EKKO_STR you want to CONCATENATE... ENDLOOP. ENDFORM.
