ABAP Select data from SAP table RIHIMRG 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 RIHIMRG 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 RIHIMRG. 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 RIHIMRG 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_RIHIMRG TYPE STANDARD TABLE OF RIHIMRG,
WA_RIHIMRG TYPE RIHIMRG,
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: <RIHIMRG> TYPE RIHIMRG.
*Process all fields in table header/work area as string values
PERFORM process_as_string_field_values CHANGING wa_RIHIMRG.
SELECT *
*restrict ABAP select to first 10 rows
UP TO 10 ROWS
FROM RIHIMRG
INTO TABLE IT_RIHIMRG.
*Select data and declare internal table using in-line method @DATA
*SELECT *
* FROM RIHIMRG
* INTO TABLE @DATA(IT_RIHIMRG2).
*--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_RIHIMRG INDEX 1 INTO DATA(WA_RIHIMRG2).
*Demonstrate how to loop at an internal table and update values using a FIELD-SYMBOL
LOOP AT IT_RIHIMRG ASSIGNING <RIHIMRG>.
*To update a field value using a field symbol simply change the value via the field symbol pointer<RIHIMRG>-MANDT = 1.
<RIHIMRG>-MDOCM = 1.
<RIHIMRG>-POINT = 1.
<RIHIMRG>-IDATE = 1.
<RIHIMRG>-ITIME = 1.
ENDLOOP. LOOP AT IT_RIHIMRG INTO WA_RIHIMRG. *Write horizonal line to screen report. WRITE:/ sy-uline. *Write selected data to screen/report before conversion. WRITE:/ sy-vline, WA_RIHIMRG-CNTRG, sy-vline,
WA_RIHIMRG-MDTXT, sy-vline,
WA_RIHIMRG-MLANG, sy-vline,
WA_RIHIMRG-KZLTX, sy-vline,
WA_RIHIMRG-READR, sy-vline,
WA_RIHIMRG-ERDAT, sy-vline.
ENDLOOP. *Add any further fields from structure WA_RIHIMRG 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_RIHIMRG 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_RIHIMRG INTO WA_RIHIMRG. *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 MDOCM CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_RIHIMRG-MDOCM IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_RIHIMRG-MDOCM.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field POINT CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_RIHIMRG-POINT IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_RIHIMRG-POINT.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ISOLA, internal->external for field MLANG CALL FUNCTION 'CONVERSION_EXIT_ISOLA_OUTPUT' EXPORTING input = WA_RIHIMRG-MLANG IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_RIHIMRG-MLANG.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field PRUEFLOS CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_RIHIMRG-PRUEFLOS IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_RIHIMRG-PRUEFLOS.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field ROOTD CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_RIHIMRG-ROOTD IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_RIHIMRG-ROOTD.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field CVERS CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_RIHIMRG-CVERS IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_RIHIMRG-CVERS.
WRITE:/ 'New Value:', ld_input.
*Conversion exit LUNIT, internal->external for field UNITR CALL FUNCTION 'CONVERSION_EXIT_LUNIT_OUTPUT' EXPORTING input = WA_RIHIMRG-UNITR IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_RIHIMRG-UNITR.
WRITE:/ 'New Value:', ld_input.
*Conversion exit MATN1, internal->external for field LOCAS CALL FUNCTION 'CONVERSION_EXIT_MATN1_OUTPUT' EXPORTING input = WA_RIHIMRG-LOCAS IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_RIHIMRG-LOCAS.
WRITE:/ 'New Value:', ld_input.
*Conversion exit LUNIT, internal->external for field UNITC CALL FUNCTION 'CONVERSION_EXIT_LUNIT_OUTPUT' EXPORTING input = WA_RIHIMRG-UNITC IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_RIHIMRG-UNITC.
WRITE:/ 'New Value:', ld_input.
*Conversion exit LUNIT, internal->external for field UNITS CALL FUNCTION 'CONVERSION_EXIT_LUNIT_OUTPUT' EXPORTING input = WA_RIHIMRG-UNITS IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_RIHIMRG-UNITS.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field TRANS CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_RIHIMRG-TRANS IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_RIHIMRG-TRANS.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field EQUNR CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_RIHIMRG-EQUNR IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_RIHIMRG-EQUNR.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field QMNUM CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_RIHIMRG-QMNUM IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_RIHIMRG-QMNUM.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field AUFNR CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_RIHIMRG-AUFNR IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_RIHIMRG-AUFNR.
WRITE:/ 'New Value:', ld_input.
*Conversion exit NUMCV, internal->external for field VORNR CALL FUNCTION 'CONVERSION_EXIT_NUMCV_OUTPUT' EXPORTING input = WA_RIHIMRG-VORNR IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_RIHIMRG-VORNR.
WRITE:/ 'New Value:', ld_input.
*Conversion exit LUNIT, internal->external for field UNITM CALL FUNCTION 'CONVERSION_EXIT_LUNIT_OUTPUT' EXPORTING input = WA_RIHIMRG-UNITM IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_RIHIMRG-UNITM.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field DFPS_CP_SYS CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_RIHIMRG-DFPS_CP_SYS IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_RIHIMRG-DFPS_CP_SYS.
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_RIHIMRG_STR,
MANDT TYPE STRING,
MDOCM TYPE STRING,
POINT TYPE STRING,
IDATE TYPE STRING,
ITIME TYPE STRING,
CNTRG TYPE STRING,
MDTXT TYPE STRING,
MLANG TYPE STRING,
KZLTX TYPE STRING,
READR TYPE STRING,
ERDAT TYPE STRING,
ERUHR TYPE STRING,
ERNAM TYPE STRING,
AEDAT TYPE STRING,
AENAM TYPE STRING,
LVORM TYPE STRING,
GENER TYPE STRING,
PRUEFLOS TYPE STRING,
VORGLFNR TYPE STRING,
MERKNR TYPE STRING,
DETAILERG TYPE STRING,
ROOTD TYPE STRING,
TOLTY TYPE STRING,
TOLID TYPE STRING,
DOCAF TYPE STRING,
IDIFF TYPE STRING,
EXCHG TYPE STRING,
TOTEX TYPE STRING,
CODCT TYPE STRING,
CODGR TYPE STRING,
VLCOD TYPE STRING,
CVERS TYPE STRING,
PREST TYPE STRING,
CANCL TYPE STRING,
RECDC TYPE STRING,
UNITR TYPE STRING,
RDTOT TYPE STRING,
CNTRC TYPE STRING,
CDIFC TYPE STRING,
PSORT TYPE STRING,
PTTXT TYPE STRING,
MPTYP TYPE STRING,
LOCAS TYPE STRING,
DSTXT TYPE STRING,
DESIC TYPE STRING,
CJUMC TYPE STRING,
PYEAC TYPE STRING,
UNITC TYPE STRING,
UNITS TYPE STRING,
TRANS TYPE STRING,
TPLNR TYPE STRING,
EQUNR TYPE STRING,
QMNUM TYPE STRING,
AUFNR TYPE STRING,
VORNR TYPE STRING,
QMCODETEXT TYPE STRING,
QMGRPTEXT TYPE STRING,
MRMAC TYPE STRING,
MRMIC TYPE STRING,
UNITM TYPE STRING,
PROBENR TYPE STRING,
MBEWERTG TYPE STRING,
INTVL TYPE STRING,
IDAT1 TYPE STRING,
ITIM1 TYPE STRING,
DFPS_CP TYPE STRING,
DFPS_CP_SYS TYPE STRING,
DFPS_CP_SYST TYPE STRING,END OF T_EKKO_STR. DATA: WA_RIHIMRG_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_RIHIMRG_STR-MANDT sy-vline
WA_RIHIMRG_STR-MDOCM sy-vline
WA_RIHIMRG_STR-POINT sy-vline
WA_RIHIMRG_STR-IDATE sy-vline
WA_RIHIMRG_STR-ITIME sy-vline
WA_RIHIMRG_STR-CNTRG sy-vline
WA_RIHIMRG_STR-MDTXT sy-vline
WA_RIHIMRG_STR-MLANG sy-vline
WA_RIHIMRG_STR-KZLTX sy-vline
WA_RIHIMRG_STR-READR sy-vline
WA_RIHIMRG_STR-ERDAT sy-vline
WA_RIHIMRG_STR-ERUHR sy-vline
WA_RIHIMRG_STR-ERNAM sy-vline
WA_RIHIMRG_STR-AEDAT sy-vline
WA_RIHIMRG_STR-AENAM sy-vline
WA_RIHIMRG_STR-LVORM sy-vline
WA_RIHIMRG_STR-GENER sy-vline
WA_RIHIMRG_STR-PRUEFLOS sy-vline
WA_RIHIMRG_STR-VORGLFNR sy-vline
WA_RIHIMRG_STR-MERKNR sy-vline
WA_RIHIMRG_STR-DETAILERG sy-vline
WA_RIHIMRG_STR-ROOTD sy-vline
WA_RIHIMRG_STR-TOLTY sy-vline
WA_RIHIMRG_STR-TOLID sy-vline
WA_RIHIMRG_STR-DOCAF sy-vline
WA_RIHIMRG_STR-IDIFF sy-vline
WA_RIHIMRG_STR-EXCHG sy-vline
WA_RIHIMRG_STR-TOTEX sy-vline
WA_RIHIMRG_STR-CODCT sy-vline
WA_RIHIMRG_STR-CODGR sy-vline
WA_RIHIMRG_STR-VLCOD sy-vline
WA_RIHIMRG_STR-CVERS sy-vline
WA_RIHIMRG_STR-PREST sy-vline
WA_RIHIMRG_STR-CANCL sy-vline
WA_RIHIMRG_STR-RECDC sy-vline
WA_RIHIMRG_STR-UNITR sy-vline
WA_RIHIMRG_STR-RDTOT sy-vline
WA_RIHIMRG_STR-CNTRC sy-vline
WA_RIHIMRG_STR-CDIFC sy-vline
WA_RIHIMRG_STR-PSORT sy-vline
WA_RIHIMRG_STR-PTTXT sy-vline
WA_RIHIMRG_STR-MPTYP sy-vline
WA_RIHIMRG_STR-LOCAS sy-vline
WA_RIHIMRG_STR-DSTXT sy-vline
WA_RIHIMRG_STR-DESIC sy-vline
WA_RIHIMRG_STR-CJUMC sy-vline
WA_RIHIMRG_STR-PYEAC sy-vline
WA_RIHIMRG_STR-UNITC sy-vline
WA_RIHIMRG_STR-UNITS sy-vline
WA_RIHIMRG_STR-TRANS sy-vline
WA_RIHIMRG_STR-TPLNR sy-vline
WA_RIHIMRG_STR-EQUNR sy-vline
WA_RIHIMRG_STR-QMNUM sy-vline
WA_RIHIMRG_STR-AUFNR sy-vline
WA_RIHIMRG_STR-VORNR sy-vline
WA_RIHIMRG_STR-QMCODETEXT sy-vline
WA_RIHIMRG_STR-QMGRPTEXT sy-vline
WA_RIHIMRG_STR-MRMAC sy-vline
WA_RIHIMRG_STR-MRMIC sy-vline
WA_RIHIMRG_STR-UNITM sy-vline
WA_RIHIMRG_STR-PROBENR sy-vline
WA_RIHIMRG_STR-MBEWERTG sy-vline
WA_RIHIMRG_STR-INTVL sy-vline
WA_RIHIMRG_STR-IDAT1 sy-vline
WA_RIHIMRG_STR-ITIM1 sy-vline
WA_RIHIMRG_STR-DFPS_CP sy-vline
WA_RIHIMRG_STR-DFPS_CP_SYS sy-vline
WA_RIHIMRG_STR-DFPS_CP_SYST sy-vline INTO ld_text SEPARATED BY SPACE. *Add any further fields from structure WA_EKKO_STR you want to CONCATENATE... ENDLOOP. ENDFORM.
