ABAP Select data from SAP table J_1GVL_ML 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 J_1GVL_ML 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 J_1GVL_ML. 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 J_1GVL_ML 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_J_1GVL_ML TYPE STANDARD TABLE OF J_1GVL_ML,
WA_J_1GVL_ML TYPE J_1GVL_ML,
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: <J_1GVL_ML> TYPE J_1GVL_ML.
*Process all fields in table header/work area as string values
PERFORM process_as_string_field_values CHANGING wa_J_1GVL_ML.
SELECT *
*restrict ABAP select to first 10 rows
UP TO 10 ROWS
FROM J_1GVL_ML
INTO TABLE IT_J_1GVL_ML.
*Select data and declare internal table using in-line method @DATA
*SELECT *
* FROM J_1GVL_ML
* INTO TABLE @DATA(IT_J_1GVL_ML2).
*--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_J_1GVL_ML INDEX 1 INTO DATA(WA_J_1GVL_ML2).
*Demonstrate how to loop at an internal table and update values using a FIELD-SYMBOL
LOOP AT IT_J_1GVL_ML ASSIGNING <J_1GVL_ML>.
*To update a field value using a field symbol simply change the value via the field symbol pointer<J_1GVL_ML>-MANDT = 1.
<J_1GVL_ML>-VRSIO = 1.
<J_1GVL_ML>-SPTAG = 1.
<J_1GVL_ML>-WHBCODE = 1.
<J_1GVL_ML>-BUKRS = 1.
ENDLOOP. LOOP AT IT_J_1GVL_ML INTO WA_J_1GVL_ML. *Write horizonal line to screen report. WRITE:/ sy-uline. *Write selected data to screen/report before conversion. WRITE:/ sy-vline, WA_J_1GVL_ML-BELNR, sy-vline,
WA_J_1GVL_ML-BUZEI, sy-vline,
WA_J_1GVL_ML-WERKS, sy-vline,
WA_J_1GVL_ML-LOCAT, sy-vline,
WA_J_1GVL_ML-MATNR, sy-vline,
WA_J_1GVL_ML-BWTAR, sy-vline.
ENDLOOP. *Add any further fields from structure WA_J_1GVL_ML 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_J_1GVL_ML 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_J_1GVL_ML INTO WA_J_1GVL_ML. *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_J_1GVL_ML-BELNR IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-BELNR.
WRITE:/ 'New Value:', ld_input.
*Conversion exit MATN1, internal->external for field MATNR CALL FUNCTION 'CONVERSION_EXIT_MATN1_OUTPUT' EXPORTING input = WA_J_1GVL_ML-MATNR IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-MATNR.
WRITE:/ 'New Value:', ld_input.
*Conversion exit CUNIT, internal->external for field BASME CALL FUNCTION 'CONVERSION_EXIT_CUNIT_OUTPUT' EXPORTING input = WA_J_1GVL_ML-BASME IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-BASME.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field KUNNR CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_J_1GVL_ML-KUNNR IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-KUNNR.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field LIFNR CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_J_1GVL_ML-LIFNR IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-LIFNR.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field AUFNR CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_J_1GVL_ML-AUFNR IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-AUFNR.
WRITE:/ 'New Value:', ld_input.
*Conversion exit GJAHR, internal->external for field GJAHR CALL FUNCTION 'CONVERSION_EXIT_GJAHR_OUTPUT' EXPORTING input = WA_J_1GVL_ML-GJAHR IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-GJAHR.
WRITE:/ 'New Value:', ld_input.
*Conversion exit GJAHR, internal->external for field MJAHR CALL FUNCTION 'CONVERSION_EXIT_GJAHR_OUTPUT' EXPORTING input = WA_J_1GVL_ML-MJAHR IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-MJAHR.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field SAKTO CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_J_1GVL_ML-SAKTO IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-SAKTO.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AC152, internal->external for field VLIS_VS CALL FUNCTION 'CONVERSION_EXIT_AC152_OUTPUT' EXPORTING input = WA_J_1GVL_ML-VLIS_VS IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-VLIS_VS.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AC152, internal->external for field VLIS_VA CALL FUNCTION 'CONVERSION_EXIT_AC152_OUTPUT' EXPORTING input = WA_J_1GVL_ML-VLIS_VA IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-VLIS_VA.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AC152, internal->external for field VLRM_VS CALL FUNCTION 'CONVERSION_EXIT_AC152_OUTPUT' EXPORTING input = WA_J_1GVL_ML-VLRM_VS IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-VLRM_VS.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AC152, internal->external for field VLRM_VA CALL FUNCTION 'CONVERSION_EXIT_AC152_OUTPUT' EXPORTING input = WA_J_1GVL_ML-VLRM_VA IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-VLRM_VA.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AC152, internal->external for field VLPD_VS CALL FUNCTION 'CONVERSION_EXIT_AC152_OUTPUT' EXPORTING input = WA_J_1GVL_ML-VLPD_VS IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-VLPD_VS.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AC152, internal->external for field VLPD_VA CALL FUNCTION 'CONVERSION_EXIT_AC152_OUTPUT' EXPORTING input = WA_J_1GVL_ML-VLPD_VA IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-VLPD_VA.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AC152, internal->external for field VLPC_VA CALL FUNCTION 'CONVERSION_EXIT_AC152_OUTPUT' EXPORTING input = WA_J_1GVL_ML-VLPC_VA IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-VLPC_VA.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AC152, internal->external for field VLAE_VA CALL FUNCTION 'CONVERSION_EXIT_AC152_OUTPUT' EXPORTING input = WA_J_1GVL_ML-VLAE_VA IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-VLAE_VA.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AC152, internal->external for field VLEE_VA CALL FUNCTION 'CONVERSION_EXIT_AC152_OUTPUT' EXPORTING input = WA_J_1GVL_ML-VLEE_VA IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-VLEE_VA.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AC152, internal->external for field VLFS_VA CALL FUNCTION 'CONVERSION_EXIT_AC152_OUTPUT' EXPORTING input = WA_J_1GVL_ML-VLFS_VA IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-VLFS_VA.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AC152, internal->external for field VLPU_VS CALL FUNCTION 'CONVERSION_EXIT_AC152_OUTPUT' EXPORTING input = WA_J_1GVL_ML-VLPU_VS IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-VLPU_VS.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AC152, internal->external for field VLPU_VA CALL FUNCTION 'CONVERSION_EXIT_AC152_OUTPUT' EXPORTING input = WA_J_1GVL_ML-VLPU_VA IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-VLPU_VA.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AC152, internal->external for field VLGR_VA CALL FUNCTION 'CONVERSION_EXIT_AC152_OUTPUT' EXPORTING input = WA_J_1GVL_ML-VLGR_VA IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-VLGR_VA.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AC152, internal->external for field VLOI_VS CALL FUNCTION 'CONVERSION_EXIT_AC152_OUTPUT' EXPORTING input = WA_J_1GVL_ML-VLOI_VS IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-VLOI_VS.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AC152, internal->external for field VLOI_VA CALL FUNCTION 'CONVERSION_EXIT_AC152_OUTPUT' EXPORTING input = WA_J_1GVL_ML-VLOI_VA IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-VLOI_VA.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AC152, internal->external for field VLDI_VS CALL FUNCTION 'CONVERSION_EXIT_AC152_OUTPUT' EXPORTING input = WA_J_1GVL_ML-VLDI_VS IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-VLDI_VS.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AC152, internal->external for field VLDI_VA CALL FUNCTION 'CONVERSION_EXIT_AC152_OUTPUT' EXPORTING input = WA_J_1GVL_ML-VLDI_VA IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-VLDI_VA.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AC152, internal->external for field VLOP_VS CALL FUNCTION 'CONVERSION_EXIT_AC152_OUTPUT' EXPORTING input = WA_J_1GVL_ML-VLOP_VS IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-VLOP_VS.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AC152, internal->external for field VLOP_VA CALL FUNCTION 'CONVERSION_EXIT_AC152_OUTPUT' EXPORTING input = WA_J_1GVL_ML-VLOP_VA IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-VLOP_VA.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AC152, internal->external for field VLOE_VS CALL FUNCTION 'CONVERSION_EXIT_AC152_OUTPUT' EXPORTING input = WA_J_1GVL_ML-VLOE_VS IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-VLOE_VS.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AC152, internal->external for field VLOE_VA CALL FUNCTION 'CONVERSION_EXIT_AC152_OUTPUT' EXPORTING input = WA_J_1GVL_ML-VLOE_VA IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-VLOE_VA.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AC152, internal->external for field VLDO_VS CALL FUNCTION 'CONVERSION_EXIT_AC152_OUTPUT' EXPORTING input = WA_J_1GVL_ML-VLDO_VS IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-VLDO_VS.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AC152, internal->external for field VLDO_VA CALL FUNCTION 'CONVERSION_EXIT_AC152_OUTPUT' EXPORTING input = WA_J_1GVL_ML-VLDO_VA IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-VLDO_VA.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AC152, internal->external for field VLDF_VS CALL FUNCTION 'CONVERSION_EXIT_AC152_OUTPUT' EXPORTING input = WA_J_1GVL_ML-VLDF_VS IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-VLDF_VS.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AC152, internal->external for field VLDF_VA CALL FUNCTION 'CONVERSION_EXIT_AC152_OUTPUT' EXPORTING input = WA_J_1GVL_ML-VLDF_VA IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-VLDF_VA.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AC152, internal->external for field VLCP_VS CALL FUNCTION 'CONVERSION_EXIT_AC152_OUTPUT' EXPORTING input = WA_J_1GVL_ML-VLCP_VS IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-VLCP_VS.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AC152, internal->external for field VLCP_VA CALL FUNCTION 'CONVERSION_EXIT_AC152_OUTPUT' EXPORTING input = WA_J_1GVL_ML-VLCP_VA IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-VLCP_VA.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AC152, internal->external for field VLCO_VS CALL FUNCTION 'CONVERSION_EXIT_AC152_OUTPUT' EXPORTING input = WA_J_1GVL_ML-VLCO_VS IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-VLCO_VS.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AC152, internal->external for field VLCO_VA CALL FUNCTION 'CONVERSION_EXIT_AC152_OUTPUT' EXPORTING input = WA_J_1GVL_ML-VLCO_VA IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-VLCO_VA.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AC152, internal->external for field VLSL_VS CALL FUNCTION 'CONVERSION_EXIT_AC152_OUTPUT' EXPORTING input = WA_J_1GVL_ML-VLSL_VS IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-VLSL_VS.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AC152, internal->external for field VLSL_VA CALL FUNCTION 'CONVERSION_EXIT_AC152_OUTPUT' EXPORTING input = WA_J_1GVL_ML-VLSL_VA IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-VLSL_VA.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AC152, internal->external for field VLRV_VA CALL FUNCTION 'CONVERSION_EXIT_AC152_OUTPUT' EXPORTING input = WA_J_1GVL_ML-VLRV_VA IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-VLRV_VA.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AC152, internal->external for field VLSX_VA CALL FUNCTION 'CONVERSION_EXIT_AC152_OUTPUT' EXPORTING input = WA_J_1GVL_ML-VLSX_VA IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-VLSX_VA.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AC152, internal->external for field VLGP_VA CALL FUNCTION 'CONVERSION_EXIT_AC152_OUTPUT' EXPORTING input = WA_J_1GVL_ML-VLGP_VA IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-VLGP_VA.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AC152, internal->external for field VLTR_VS CALL FUNCTION 'CONVERSION_EXIT_AC152_OUTPUT' EXPORTING input = WA_J_1GVL_ML-VLTR_VS IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-VLTR_VS.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AC152, internal->external for field VLTR_VA CALL FUNCTION 'CONVERSION_EXIT_AC152_OUTPUT' EXPORTING input = WA_J_1GVL_ML-VLTR_VA IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-VLTR_VA.
WRITE:/ 'New Value:', ld_input.
*Conversion exit AC152, internal->external for field VLLC_VA CALL FUNCTION 'CONVERSION_EXIT_AC152_OUTPUT' EXPORTING input = WA_J_1GVL_ML-VLLC_VA IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-VLLC_VA.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field AWREF CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_J_1GVL_ML-AWREF IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-AWREF.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field NPLNR CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_J_1GVL_ML-NPLNR IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-NPLNR.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ABPSP, internal->external for field PS_PSP_PNR CALL FUNCTION 'CONVERSION_EXIT_ABPSP_OUTPUT' EXPORTING input = WA_J_1GVL_ML-PS_PSP_PNR IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-PS_PSP_PNR.
WRITE:/ 'New Value:', ld_input.
*Conversion exit NUMCV, internal->external for field ACTIVITY CALL FUNCTION 'CONVERSION_EXIT_NUMCV_OUTPUT' EXPORTING input = WA_J_1GVL_ML-ACTIVITY IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-ACTIVITY.
WRITE:/ 'New Value:', ld_input.
*Conversion exit KONPD, internal->external for field PROJECT CALL FUNCTION 'CONVERSION_EXIT_KONPD_OUTPUT' EXPORTING input = WA_J_1GVL_ML-PROJECT IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-PROJECT.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field KDAUF CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_J_1GVL_ML-KDAUF IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-KDAUF.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field EBELN CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_J_1GVL_ML-EBELN IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-EBELN.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field KOSTL CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_J_1GVL_ML-KOSTL IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-KOSTL.
WRITE:/ 'New Value:', ld_input.
*Conversion exit MATN1, internal->external for field UMMAT CALL FUNCTION 'CONVERSION_EXIT_MATN1_OUTPUT' EXPORTING input = WA_J_1GVL_ML-UMMAT IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-UMMAT.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field AUBEL CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_J_1GVL_ML-AUBEL IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-AUBEL.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field AWREF_REV CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_J_1GVL_ML-AWREF_REV IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-AWREF_REV.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field VERSN CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_J_1GVL_ML-VERSN IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-VERSN.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field REFBN CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_J_1GVL_ML-REFBN IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-REFBN.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field KSTAR CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_J_1GVL_ML-KSTAR IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-KSTAR.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field ACCDOCNR CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_J_1GVL_ML-ACCDOCNR IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_J_1GVL_ML-ACCDOCNR.
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_J_1GVL_ML_STR,
MANDT TYPE STRING,
VRSIO TYPE STRING,
SPTAG TYPE STRING,
WHBCODE TYPE STRING,
BUKRS TYPE STRING,
BELNR TYPE STRING,
BUZEI TYPE STRING,
WERKS TYPE STRING,
LOCAT TYPE STRING,
MATNR TYPE STRING,
BWTAR TYPE STRING,
ORGN TYPE STRING,
VLWRK TYPE STRING,
BASME TYPE STRING,
HWAER TYPE STRING,
BWART TYPE STRING,
SOBKZ TYPE STRING,
KZBEW TYPE STRING,
KZZUG TYPE STRING,
KZVBR TYPE STRING,
SHKZG TYPE STRING,
BLART TYPE STRING,
TRACT TYPE STRING,
KUNNR TYPE STRING,
LIFNR TYPE STRING,
UMWRK TYPE STRING,
XBLNR TYPE STRING,
AUFNR TYPE STRING,
BKLAS TYPE STRING,
GJAHR TYPE STRING,
MJAHR TYPE STRING,
BUDAT TYPE STRING,
SAKTO TYPE STRING,
VLIS_QS TYPE STRING,
VLIS_VS TYPE STRING,
VLIS_VA TYPE STRING,
VLRM_QS TYPE STRING,
VLRM_VS TYPE STRING,
VLRM_VA TYPE STRING,
VLPD_QS TYPE STRING,
VLPD_VS TYPE STRING,
VLPD_VA TYPE STRING,
VLPC_VA TYPE STRING,
VLAE_VA TYPE STRING,
VLEE_VA TYPE STRING,
VLFS_VA TYPE STRING,
VLPU_QS TYPE STRING,
VLPU_VS TYPE STRING,
VLPU_VA TYPE STRING,
VLGR_VA TYPE STRING,
VLOI_QS TYPE STRING,
VLOI_VS TYPE STRING,
VLOI_VA TYPE STRING,
VLDI_QS TYPE STRING,
VLDI_VS TYPE STRING,
VLDI_VA TYPE STRING,
VLOP_QS TYPE STRING,
VLOP_VS TYPE STRING,
VLOP_VA TYPE STRING,
VLOE_QS TYPE STRING,
VLOE_VS TYPE STRING,
VLOE_VA TYPE STRING,
VLDO_QS TYPE STRING,
VLDO_VS TYPE STRING,
VLDO_VA TYPE STRING,
VLDF_QS TYPE STRING,
VLDF_VS TYPE STRING,
VLDF_VA TYPE STRING,
VLCP_QS TYPE STRING,
VLCP_VS TYPE STRING,
VLCP_VA TYPE STRING,
VLCO_QS TYPE STRING,
VLCO_VS TYPE STRING,
VLCO_VA TYPE STRING,
VLSL_QS TYPE STRING,
VLSL_VS TYPE STRING,
VLSL_VA TYPE STRING,
VLRV_VA TYPE STRING,
VLSX_VA TYPE STRING,
VLGP_VA TYPE STRING,
VLTR_QS TYPE STRING,
VLTR_VS TYPE STRING,
VLTR_VA TYPE STRING,
VLLC_VA TYPE STRING,
AWTYP TYPE STRING,
AWREF TYPE STRING,
MENGE TYPE STRING,
LGORT TYPE STRING,
NPLNR TYPE STRING,
PS_PSP_PNR TYPE STRING,
ACTIVITY TYPE STRING,
PROJECT TYPE STRING,
KDAUF TYPE STRING,
EBELN TYPE STRING,
EBELP TYPE STRING,
GSBER TYPE STRING,
LOTYP TYPE STRING,
KOSTL TYPE STRING,
UMMAT TYPE STRING,
UMBAR TYPE STRING,
SORTIND TYPE STRING,
CHARG TYPE STRING,
POSNR_SD TYPE STRING,
AUBEL TYPE STRING,
AUPOS TYPE STRING,
AWREF_REV TYPE STRING,
KDPOS TYPE STRING,
ERDAT TYPE STRING,
ERZET TYPE STRING,
REPID TYPE STRING,
UNAME TYPE STRING,
VERSN TYPE STRING,
REFBN TYPE STRING,
OBJNR TYPE STRING,
SCOPE TYPE STRING,
KSTAR TYPE STRING,
VRGNG TYPE STRING,
PAROB TYPE STRING,
CORDER TYPE STRING,
ACCDOCNR TYPE STRING,
ACCDOCLN TYPE STRING,
MLBUZALT TYPE STRING,END OF T_EKKO_STR. DATA: WA_J_1GVL_ML_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_J_1GVL_ML_STR-MANDT sy-vline
WA_J_1GVL_ML_STR-VRSIO sy-vline
WA_J_1GVL_ML_STR-SPTAG sy-vline
WA_J_1GVL_ML_STR-WHBCODE sy-vline
WA_J_1GVL_ML_STR-BUKRS sy-vline
WA_J_1GVL_ML_STR-BELNR sy-vline
WA_J_1GVL_ML_STR-BUZEI sy-vline
WA_J_1GVL_ML_STR-WERKS sy-vline
WA_J_1GVL_ML_STR-LOCAT sy-vline
WA_J_1GVL_ML_STR-MATNR sy-vline
WA_J_1GVL_ML_STR-BWTAR sy-vline
WA_J_1GVL_ML_STR-ORGN sy-vline
WA_J_1GVL_ML_STR-VLWRK sy-vline
WA_J_1GVL_ML_STR-BASME sy-vline
WA_J_1GVL_ML_STR-HWAER sy-vline
WA_J_1GVL_ML_STR-BWART sy-vline
WA_J_1GVL_ML_STR-SOBKZ sy-vline
WA_J_1GVL_ML_STR-KZBEW sy-vline
WA_J_1GVL_ML_STR-KZZUG sy-vline
WA_J_1GVL_ML_STR-KZVBR sy-vline
WA_J_1GVL_ML_STR-SHKZG sy-vline
WA_J_1GVL_ML_STR-BLART sy-vline
WA_J_1GVL_ML_STR-TRACT sy-vline
WA_J_1GVL_ML_STR-KUNNR sy-vline
WA_J_1GVL_ML_STR-LIFNR sy-vline
WA_J_1GVL_ML_STR-UMWRK sy-vline
WA_J_1GVL_ML_STR-XBLNR sy-vline
WA_J_1GVL_ML_STR-AUFNR sy-vline
WA_J_1GVL_ML_STR-BKLAS sy-vline
WA_J_1GVL_ML_STR-GJAHR sy-vline
WA_J_1GVL_ML_STR-MJAHR sy-vline
WA_J_1GVL_ML_STR-BUDAT sy-vline
WA_J_1GVL_ML_STR-SAKTO sy-vline
WA_J_1GVL_ML_STR-VLIS_QS sy-vline
WA_J_1GVL_ML_STR-VLIS_VS sy-vline
WA_J_1GVL_ML_STR-VLIS_VA sy-vline
WA_J_1GVL_ML_STR-VLRM_QS sy-vline
WA_J_1GVL_ML_STR-VLRM_VS sy-vline
WA_J_1GVL_ML_STR-VLRM_VA sy-vline
WA_J_1GVL_ML_STR-VLPD_QS sy-vline
WA_J_1GVL_ML_STR-VLPD_VS sy-vline
WA_J_1GVL_ML_STR-VLPD_VA sy-vline
WA_J_1GVL_ML_STR-VLPC_VA sy-vline
WA_J_1GVL_ML_STR-VLAE_VA sy-vline
WA_J_1GVL_ML_STR-VLEE_VA sy-vline
WA_J_1GVL_ML_STR-VLFS_VA sy-vline
WA_J_1GVL_ML_STR-VLPU_QS sy-vline
WA_J_1GVL_ML_STR-VLPU_VS sy-vline
WA_J_1GVL_ML_STR-VLPU_VA sy-vline
WA_J_1GVL_ML_STR-VLGR_VA sy-vline
WA_J_1GVL_ML_STR-VLOI_QS sy-vline
WA_J_1GVL_ML_STR-VLOI_VS sy-vline
WA_J_1GVL_ML_STR-VLOI_VA sy-vline
WA_J_1GVL_ML_STR-VLDI_QS sy-vline
WA_J_1GVL_ML_STR-VLDI_VS sy-vline
WA_J_1GVL_ML_STR-VLDI_VA sy-vline
WA_J_1GVL_ML_STR-VLOP_QS sy-vline
WA_J_1GVL_ML_STR-VLOP_VS sy-vline
WA_J_1GVL_ML_STR-VLOP_VA sy-vline
WA_J_1GVL_ML_STR-VLOE_QS sy-vline
WA_J_1GVL_ML_STR-VLOE_VS sy-vline
WA_J_1GVL_ML_STR-VLOE_VA sy-vline
WA_J_1GVL_ML_STR-VLDO_QS sy-vline
WA_J_1GVL_ML_STR-VLDO_VS sy-vline
WA_J_1GVL_ML_STR-VLDO_VA sy-vline
WA_J_1GVL_ML_STR-VLDF_QS sy-vline
WA_J_1GVL_ML_STR-VLDF_VS sy-vline
WA_J_1GVL_ML_STR-VLDF_VA sy-vline
WA_J_1GVL_ML_STR-VLCP_QS sy-vline
WA_J_1GVL_ML_STR-VLCP_VS sy-vline
WA_J_1GVL_ML_STR-VLCP_VA sy-vline
WA_J_1GVL_ML_STR-VLCO_QS sy-vline
WA_J_1GVL_ML_STR-VLCO_VS sy-vline
WA_J_1GVL_ML_STR-VLCO_VA sy-vline
WA_J_1GVL_ML_STR-VLSL_QS sy-vline
WA_J_1GVL_ML_STR-VLSL_VS sy-vline
WA_J_1GVL_ML_STR-VLSL_VA sy-vline
WA_J_1GVL_ML_STR-VLRV_VA sy-vline
WA_J_1GVL_ML_STR-VLSX_VA sy-vline
WA_J_1GVL_ML_STR-VLGP_VA sy-vline
WA_J_1GVL_ML_STR-VLTR_QS sy-vline
WA_J_1GVL_ML_STR-VLTR_VS sy-vline
WA_J_1GVL_ML_STR-VLTR_VA sy-vline
WA_J_1GVL_ML_STR-VLLC_VA sy-vline
WA_J_1GVL_ML_STR-AWTYP sy-vline
WA_J_1GVL_ML_STR-AWREF sy-vline
WA_J_1GVL_ML_STR-MENGE sy-vline
WA_J_1GVL_ML_STR-LGORT sy-vline
WA_J_1GVL_ML_STR-NPLNR sy-vline
WA_J_1GVL_ML_STR-PS_PSP_PNR sy-vline
WA_J_1GVL_ML_STR-ACTIVITY sy-vline
WA_J_1GVL_ML_STR-PROJECT sy-vline
WA_J_1GVL_ML_STR-KDAUF sy-vline
WA_J_1GVL_ML_STR-EBELN sy-vline
WA_J_1GVL_ML_STR-EBELP sy-vline
WA_J_1GVL_ML_STR-GSBER sy-vline
WA_J_1GVL_ML_STR-LOTYP sy-vline
WA_J_1GVL_ML_STR-KOSTL sy-vline
WA_J_1GVL_ML_STR-UMMAT sy-vline
WA_J_1GVL_ML_STR-UMBAR sy-vline
WA_J_1GVL_ML_STR-SORTIND sy-vline
WA_J_1GVL_ML_STR-CHARG sy-vline
WA_J_1GVL_ML_STR-POSNR_SD sy-vline
WA_J_1GVL_ML_STR-AUBEL sy-vline
WA_J_1GVL_ML_STR-AUPOS sy-vline
WA_J_1GVL_ML_STR-AWREF_REV sy-vline
WA_J_1GVL_ML_STR-KDPOS sy-vline
WA_J_1GVL_ML_STR-ERDAT sy-vline
WA_J_1GVL_ML_STR-ERZET sy-vline
WA_J_1GVL_ML_STR-REPID sy-vline
WA_J_1GVL_ML_STR-UNAME sy-vline
WA_J_1GVL_ML_STR-VERSN sy-vline
WA_J_1GVL_ML_STR-REFBN sy-vline
WA_J_1GVL_ML_STR-OBJNR sy-vline
WA_J_1GVL_ML_STR-SCOPE sy-vline
WA_J_1GVL_ML_STR-KSTAR sy-vline
WA_J_1GVL_ML_STR-VRGNG sy-vline
WA_J_1GVL_ML_STR-PAROB sy-vline
WA_J_1GVL_ML_STR-CORDER sy-vline
WA_J_1GVL_ML_STR-ACCDOCNR sy-vline
WA_J_1GVL_ML_STR-ACCDOCLN sy-vline
WA_J_1GVL_ML_STR-MLBUZALT sy-vline INTO ld_text SEPARATED BY SPACE. *Add any further fields from structure WA_EKKO_STR you want to CONCATENATE... ENDLOOP. ENDFORM.
