ABAP Select data from SAP table ALEQUI 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 ALEQUI 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 ALEQUI. 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 ALEQUI 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_ALEQUI TYPE STANDARD TABLE OF ALEQUI,
WA_ALEQUI TYPE ALEQUI,
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: <ALEQUI> TYPE ALEQUI.
*Process all fields in table header/work area as string values
PERFORM process_as_string_field_values CHANGING wa_ALEQUI.
SELECT *
*restrict ABAP select to first 10 rows
UP TO 10 ROWS
FROM ALEQUI
INTO TABLE IT_ALEQUI.
*Select data and declare internal table using in-line method @DATA
*SELECT *
* FROM ALEQUI
* INTO TABLE @DATA(IT_ALEQUI2).
*--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_ALEQUI INDEX 1 INTO DATA(WA_ALEQUI2).
*Demonstrate how to loop at an internal table and update values using a FIELD-SYMBOL
LOOP AT IT_ALEQUI ASSIGNING <ALEQUI>.
*To update a field value using a field symbol simply change the value via the field symbol pointer<ALEQUI>-BEGRU = 1.
<ALEQUI>-EQTYP = 1.
<ALEQUI>-EQART = 1.
<ALEQUI>-INVNR = 1.
<ALEQUI>-GROES = 1.
ENDLOOP. LOOP AT IT_ALEQUI INTO WA_ALEQUI. *Write horizonal line to screen report. WRITE:/ sy-uline. *Write selected data to screen/report before conversion. WRITE:/ sy-vline, WA_ALEQUI-BRGEW, sy-vline,
WA_ALEQUI-GEWEI, sy-vline,
WA_ALEQUI-ANSDT, sy-vline,
WA_ALEQUI-ANSWT, sy-vline,
WA_ALEQUI-WAERS, sy-vline,
WA_ALEQUI-ELIEF, sy-vline.
ENDLOOP. *Add any further fields from structure WA_ALEQUI 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_ALEQUI 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_ALEQUI INTO WA_ALEQUI. *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 CUNIT, internal->external for field GEWEI CALL FUNCTION 'CONVERSION_EXIT_CUNIT_OUTPUT' EXPORTING input = WA_ALEQUI-GEWEI IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_ALEQUI-GEWEI.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field ELIEF CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_ALEQUI-ELIEF IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_ALEQUI-ELIEF.
WRITE:/ 'New Value:', ld_input.
*Conversion exit GJAHR, internal->external for field BAUJJ CALL FUNCTION 'CONVERSION_EXIT_GJAHR_OUTPUT' EXPORTING input = WA_ALEQUI-BAUJJ IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_ALEQUI-BAUJJ.
WRITE:/ 'New Value:', ld_input.
*Conversion exit MATN1, internal->external for field MATNR CALL FUNCTION 'CONVERSION_EXIT_MATN1_OUTPUT' EXPORTING input = WA_ALEQUI-MATNR IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_ALEQUI-MATNR.
WRITE:/ 'New Value:', ld_input.
*Conversion exit GERNR, internal->external for field SERNR CALL FUNCTION 'CONVERSION_EXIT_GERNR_OUTPUT' EXPORTING input = WA_ALEQUI-SERNR IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_ALEQUI-SERNR.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field KUNDE CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_ALEQUI-KUNDE IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_ALEQUI-KUNDE.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field WARPL CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_ALEQUI-WARPL IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_ALEQUI-WARPL.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field IMRC_POINT CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_ALEQUI-IMRC_POINT IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_ALEQUI-IMRC_POINT.
WRITE:/ 'New Value:', ld_input.
*Conversion exit MATN1, internal->external for field SUBMT CALL FUNCTION 'CONVERSION_EXIT_MATN1_OUTPUT' EXPORTING input = WA_ALEQUI-SUBMT IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_ALEQUI-SUBMT.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field HEQUI CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_ALEQUI-HEQUI IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_ALEQUI-HEQUI.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field KUND1 CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_ALEQUI-KUND1 IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_ALEQUI-KUND1.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field KUND2 CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_ALEQUI-KUND2 IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_ALEQUI-KUND2.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field KUND3 CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_ALEQUI-KUND3 IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_ALEQUI-KUND3.
WRITE:/ 'New Value:', ld_input.
*Conversion exit TPLNR, internal->external for field TPLNR CALL FUNCTION 'CONVERSION_EXIT_TPLNR_OUTPUT' EXPORTING input = WA_ALEQUI-TPLNR IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_ALEQUI-TPLNR.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field KOSTL CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_ALEQUI-KOSTL IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_ALEQUI-KOSTL.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ABPSP, internal->external for field PROID CALL FUNCTION 'CONVERSION_EXIT_ABPSP_OUTPUT' EXPORTING input = WA_ALEQUI-PROID IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_ALEQUI-PROID.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field ANLNR CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_ALEQUI-ANLNR IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_ALEQUI-ANLNR.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field ANLUN CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_ALEQUI-ANLUN IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_ALEQUI-ANLUN.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field AUFNR CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_ALEQUI-AUFNR IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_ALEQUI-AUFNR.
WRITE:/ 'New Value:', ld_input.
*Conversion exit CUNIT, internal->external for field DIM_UNIT CALL FUNCTION 'CONVERSION_EXIT_CUNIT_OUTPUT' EXPORTING input = WA_ALEQUI-DIM_UNIT IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_ALEQUI-DIM_UNIT.
WRITE:/ 'New Value:', ld_input.
*Conversion exit CUNIT, internal->external for field UNIT_POWER CALL FUNCTION 'CONVERSION_EXIT_CUNIT_OUTPUT' EXPORTING input = WA_ALEQUI-UNIT_POWER IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_ALEQUI-UNIT_POWER.
WRITE:/ 'New Value:', ld_input.
*Conversion exit CUNIT, internal->external for field UNIT_CAP CALL FUNCTION 'CONVERSION_EXIT_CUNIT_OUTPUT' EXPORTING input = WA_ALEQUI-UNIT_CAP IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_ALEQUI-UNIT_CAP.
WRITE:/ 'New Value:', ld_input.
*Conversion exit CUNIT, internal->external for field WGT_UNIT CALL FUNCTION 'CONVERSION_EXIT_CUNIT_OUTPUT' EXPORTING input = WA_ALEQUI-WGT_UNIT IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_ALEQUI-WGT_UNIT.
WRITE:/ 'New Value:', ld_input.
*Conversion exit CUNIT, internal->external for field LOAD_DIM_UNIT CALL FUNCTION 'CONVERSION_EXIT_CUNIT_OUTPUT' EXPORTING input = WA_ALEQUI-LOAD_DIM_UNIT IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_ALEQUI-LOAD_DIM_UNIT.
WRITE:/ 'New Value:', ld_input.
*Conversion exit CUNIT, internal->external for field VOL_UNIT CALL FUNCTION 'CONVERSION_EXIT_CUNIT_OUTPUT' EXPORTING input = WA_ALEQUI-VOL_UNIT IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_ALEQUI-VOL_UNIT.
WRITE:/ 'New Value:', ld_input.
*Conversion exit CUNIT, internal->external for field SPEED_UNIT CALL FUNCTION 'CONVERSION_EXIT_CUNIT_OUTPUT' EXPORTING input = WA_ALEQUI-SPEED_UNIT IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_ALEQUI-SPEED_UNIT.
WRITE:/ 'New Value:', ld_input.
*Conversion exit CUNIT, internal->external for field /DSD/RP_AHLAST_U CALL FUNCTION 'CONVERSION_EXIT_CUNIT_OUTPUT' EXPORTING input = WA_ALEQUI-/DSD/RP_AHLAST_U IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_ALEQUI-/DSD/RP_AHLAST_U.
WRITE:/ 'New Value:', ld_input.
*Conversion exit CUNIT, internal->external for field /DSD/RP_KAPUNIT CALL FUNCTION 'CONVERSION_EXIT_CUNIT_OUTPUT' EXPORTING input = WA_ALEQUI-/DSD/RP_KAPUNIT IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_ALEQUI-/DSD/RP_KAPUNIT.
WRITE:/ 'New Value:', ld_input.
*Conversion exit ALPHA, internal->external for field MGANR CALL FUNCTION 'CONVERSION_EXIT_ALPHA_OUTPUT' EXPORTING input = WA_ALEQUI-MGANR IMPORTING output = ld_input.
WRITE:/ 'Org Value:', WA_ALEQUI-MGANR.
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_ALEQUI_STR,
BEGRU TYPE STRING,
EQTYP TYPE STRING,
EQART TYPE STRING,
INVNR TYPE STRING,
GROES TYPE STRING,
BRGEW TYPE STRING,
GEWEI TYPE STRING,
ANSDT TYPE STRING,
ANSWT TYPE STRING,
WAERS TYPE STRING,
ELIEF TYPE STRING,
WDBWT TYPE STRING,
HERST TYPE STRING,
HERLD TYPE STRING,
HZEIN TYPE STRING,
SERGE TYPE STRING,
TYPBZ TYPE STRING,
BAUJJ TYPE STRING,
BAUMM TYPE STRING,
AULDT TYPE STRING,
INBDT TYPE STRING,
GWLDV TYPE STRING,
MATNR TYPE STRING,
SERNR TYPE STRING,
WERK TYPE STRING,
LAGER TYPE STRING,
CHARGE TYPE STRING,
KUNDE TYPE STRING,
WARPL TYPE STRING,
IMRC_POINT TYPE STRING,
IWERK TYPE STRING,
SUBMT TYPE STRING,
MAPAR TYPE STRING,
HEQUI TYPE STRING,
HEQNR TYPE STRING,
INGRP TYPE STRING,
GEWRK TYPE STRING,
TIDNR TYPE STRING,
KUND1 TYPE STRING,
KUND2 TYPE STRING,
KUND3 TYPE STRING,
LIZNR TYPE STRING,
RBNR TYPE STRING,
EQKTX TYPE STRING,
PARNR TYPE STRING,
ILOAN TYPE STRING,
TPLNR TYPE STRING,
ABCKZ TYPE STRING,
EQFNR TYPE STRING,
SWERK TYPE STRING,
STORT TYPE STRING,
MSGRP TYPE STRING,
BEBER TYPE STRING,
PPSID TYPE STRING,
GSBER TYPE STRING,
KOKRS TYPE STRING,
KOSTL TYPE STRING,
PROID TYPE STRING,
BUKRS TYPE STRING,
ANLNR TYPE STRING,
ANLUN TYPE STRING,
AUFNR TYPE STRING,
VKORG TYPE STRING,
VTWEG TYPE STRING,
SPART TYPE STRING,
FLEET_NUM TYPE STRING,
FLEET_VIN TYPE STRING,
CHASSIS_NUM TYPE STRING,
LICENSE_NUM TYPE STRING,
EXPIRY_DATE TYPE STRING,
FLEET_HGT TYPE STRING,
FLEET_WID TYPE STRING,
FLEET_LEN TYPE STRING,
DIM_UNIT TYPE STRING,
PRI_CALC TYPE STRING,
REPLA_DATE TYPE STRING,
REPLA_ODOM TYPE STRING,
REPLA_OPH TYPE STRING,
NUM_AXLE TYPE STRING,
MAX_OCCUPANTS TYPE STRING,
CARD_NUM TYPE STRING,
KEY_NUM TYPE STRING,
FLEET_USE TYPE STRING,
ENGINE_TYPE TYPE STRING,
ENGINE_POWER TYPE STRING,
UNIT_POWER TYPE STRING,
REVOLUTIONS TYPE STRING,
ENGINE_CYL TYPE STRING,
ENGINE_CAP TYPE STRING,
UNIT_CAP TYPE STRING,
ENGINE_SNR TYPE STRING,
FUEL_PRI TYPE STRING,
FUEL_SEC TYPE STRING,
OIL_TYPE TYPE STRING,
GROSS_WGT TYPE STRING,
LOAD_WGT TYPE STRING,
WGT_UNIT TYPE STRING,
LOAD_HGT TYPE STRING,
LOAD_WID TYPE STRING,
LOAD_LEN TYPE STRING,
LOAD_DIM_UNIT TYPE STRING,
LOAD_VOL TYPE STRING,
VOL_UNIT TYPE STRING,
NO_COMPART TYPE STRING,
SPEED_MAX TYPE STRING,
SPEED_UNIT TYPE STRING,
CONSUMP_TOL TYPE STRING,
CONSUMP_MOVE TYPE STRING,
/DSD/RP_EIGEN TYPE STRING,
/DSD/RP_AHLAST TYPE STRING,
/DSD/RP_AHLAST_U TYPE STRING,
/DSD/RP_VARKAP TYPE STRING,
/DSD/RP_KAPUNIT TYPE STRING,
/BEV1/LULEINH TYPE STRING,
/VSO/M_VSO_FTYPE TYPE STRING,
GWLDT TYPE STRING,
GWLEN TYPE STRING,
MGANR TYPE STRING,
GAERB TYPE STRING,
WAGET TYPE STRING,END OF T_EKKO_STR. DATA: WA_ALEQUI_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_ALEQUI_STR-BEGRU sy-vline
WA_ALEQUI_STR-EQTYP sy-vline
WA_ALEQUI_STR-EQART sy-vline
WA_ALEQUI_STR-INVNR sy-vline
WA_ALEQUI_STR-GROES sy-vline
WA_ALEQUI_STR-BRGEW sy-vline
WA_ALEQUI_STR-GEWEI sy-vline
WA_ALEQUI_STR-ANSDT sy-vline
WA_ALEQUI_STR-ANSWT sy-vline
WA_ALEQUI_STR-WAERS sy-vline
WA_ALEQUI_STR-ELIEF sy-vline
WA_ALEQUI_STR-WDBWT sy-vline
WA_ALEQUI_STR-HERST sy-vline
WA_ALEQUI_STR-HERLD sy-vline
WA_ALEQUI_STR-HZEIN sy-vline
WA_ALEQUI_STR-SERGE sy-vline
WA_ALEQUI_STR-TYPBZ sy-vline
WA_ALEQUI_STR-BAUJJ sy-vline
WA_ALEQUI_STR-BAUMM sy-vline
WA_ALEQUI_STR-AULDT sy-vline
WA_ALEQUI_STR-INBDT sy-vline
WA_ALEQUI_STR-GWLDV sy-vline
WA_ALEQUI_STR-MATNR sy-vline
WA_ALEQUI_STR-SERNR sy-vline
WA_ALEQUI_STR-WERK sy-vline
WA_ALEQUI_STR-LAGER sy-vline
WA_ALEQUI_STR-CHARGE sy-vline
WA_ALEQUI_STR-KUNDE sy-vline
WA_ALEQUI_STR-WARPL sy-vline
WA_ALEQUI_STR-IMRC_POINT sy-vline
WA_ALEQUI_STR-IWERK sy-vline
WA_ALEQUI_STR-SUBMT sy-vline
WA_ALEQUI_STR-MAPAR sy-vline
WA_ALEQUI_STR-HEQUI sy-vline
WA_ALEQUI_STR-HEQNR sy-vline
WA_ALEQUI_STR-INGRP sy-vline
WA_ALEQUI_STR-GEWRK sy-vline
WA_ALEQUI_STR-TIDNR sy-vline
WA_ALEQUI_STR-KUND1 sy-vline
WA_ALEQUI_STR-KUND2 sy-vline
WA_ALEQUI_STR-KUND3 sy-vline
WA_ALEQUI_STR-LIZNR sy-vline
WA_ALEQUI_STR-RBNR sy-vline
WA_ALEQUI_STR-EQKTX sy-vline
WA_ALEQUI_STR-PARNR sy-vline
WA_ALEQUI_STR-ILOAN sy-vline
WA_ALEQUI_STR-TPLNR sy-vline
WA_ALEQUI_STR-ABCKZ sy-vline
WA_ALEQUI_STR-EQFNR sy-vline
WA_ALEQUI_STR-SWERK sy-vline
WA_ALEQUI_STR-STORT sy-vline
WA_ALEQUI_STR-MSGRP sy-vline
WA_ALEQUI_STR-BEBER sy-vline
WA_ALEQUI_STR-PPSID sy-vline
WA_ALEQUI_STR-GSBER sy-vline
WA_ALEQUI_STR-KOKRS sy-vline
WA_ALEQUI_STR-KOSTL sy-vline
WA_ALEQUI_STR-PROID sy-vline
WA_ALEQUI_STR-BUKRS sy-vline
WA_ALEQUI_STR-ANLNR sy-vline
WA_ALEQUI_STR-ANLUN sy-vline
WA_ALEQUI_STR-AUFNR sy-vline
WA_ALEQUI_STR-VKORG sy-vline
WA_ALEQUI_STR-VTWEG sy-vline
WA_ALEQUI_STR-SPART sy-vline
WA_ALEQUI_STR-FLEET_NUM sy-vline
WA_ALEQUI_STR-FLEET_VIN sy-vline
WA_ALEQUI_STR-CHASSIS_NUM sy-vline
WA_ALEQUI_STR-LICENSE_NUM sy-vline
WA_ALEQUI_STR-EXPIRY_DATE sy-vline
WA_ALEQUI_STR-FLEET_HGT sy-vline
WA_ALEQUI_STR-FLEET_WID sy-vline
WA_ALEQUI_STR-FLEET_LEN sy-vline
WA_ALEQUI_STR-DIM_UNIT sy-vline
WA_ALEQUI_STR-PRI_CALC sy-vline
WA_ALEQUI_STR-REPLA_DATE sy-vline
WA_ALEQUI_STR-REPLA_ODOM sy-vline
WA_ALEQUI_STR-REPLA_OPH sy-vline
WA_ALEQUI_STR-NUM_AXLE sy-vline
WA_ALEQUI_STR-MAX_OCCUPANTS sy-vline
WA_ALEQUI_STR-CARD_NUM sy-vline
WA_ALEQUI_STR-KEY_NUM sy-vline
WA_ALEQUI_STR-FLEET_USE sy-vline
WA_ALEQUI_STR-ENGINE_TYPE sy-vline
WA_ALEQUI_STR-ENGINE_POWER sy-vline
WA_ALEQUI_STR-UNIT_POWER sy-vline
WA_ALEQUI_STR-REVOLUTIONS sy-vline
WA_ALEQUI_STR-ENGINE_CYL sy-vline
WA_ALEQUI_STR-ENGINE_CAP sy-vline
WA_ALEQUI_STR-UNIT_CAP sy-vline
WA_ALEQUI_STR-ENGINE_SNR sy-vline
WA_ALEQUI_STR-FUEL_PRI sy-vline
WA_ALEQUI_STR-FUEL_SEC sy-vline
WA_ALEQUI_STR-OIL_TYPE sy-vline
WA_ALEQUI_STR-GROSS_WGT sy-vline
WA_ALEQUI_STR-LOAD_WGT sy-vline
WA_ALEQUI_STR-WGT_UNIT sy-vline
WA_ALEQUI_STR-LOAD_HGT sy-vline
WA_ALEQUI_STR-LOAD_WID sy-vline
WA_ALEQUI_STR-LOAD_LEN sy-vline
WA_ALEQUI_STR-LOAD_DIM_UNIT sy-vline
WA_ALEQUI_STR-LOAD_VOL sy-vline
WA_ALEQUI_STR-VOL_UNIT sy-vline
WA_ALEQUI_STR-NO_COMPART sy-vline
WA_ALEQUI_STR-SPEED_MAX sy-vline
WA_ALEQUI_STR-SPEED_UNIT sy-vline
WA_ALEQUI_STR-CONSUMP_TOL sy-vline
WA_ALEQUI_STR-CONSUMP_MOVE sy-vline
WA_ALEQUI_STR-/DSD/RP_EIGEN sy-vline
WA_ALEQUI_STR-/DSD/RP_AHLAST sy-vline
WA_ALEQUI_STR-/DSD/RP_AHLAST_U sy-vline
WA_ALEQUI_STR-/DSD/RP_VARKAP sy-vline
WA_ALEQUI_STR-/DSD/RP_KAPUNIT sy-vline
WA_ALEQUI_STR-/BEV1/LULEINH sy-vline
WA_ALEQUI_STR-/VSO/M_VSO_FTYPE sy-vline
WA_ALEQUI_STR-GWLDT sy-vline
WA_ALEQUI_STR-GWLEN sy-vline
WA_ALEQUI_STR-MGANR sy-vline
WA_ALEQUI_STR-GAERB sy-vline
WA_ALEQUI_STR-WAGET sy-vline INTO ld_text SEPARATED BY SPACE. *Add any further fields from structure WA_EKKO_STR you want to CONCATENATE... ENDLOOP. ENDFORM.
