ABAP Keyword Documentation → ABAP - Reference → Calling and leaving program units → Calling Processing Blocks → Calling procedures → CALL FUNCTION

CALL FUNCTION - parameter_list

Short Reference

Other versions: 7.31 | 7.40 | 7.54

Syntax


... [EXPORTING  p1 = a1 p2 = a2 ...] 
    [IMPORTING  p1 = a1 p2 = a2 ...] 

    [TABLES     t1 = itab1 t2 = itab2 ...] 

    [CHANGING   p1 = a1 p2 = a2 ...] 
    [EXCEPTIONS [exc1 = n1 exc2 = n2 ...] 

                [error_message = n_error] 

                [OTHERS = n_others] ].

Extras

1. ... EXPORTING p1 = a1 p2 = a2 ...

2. ... IMPORTING p1 = a1 p2 = a2 ...

3. ... TABLES t1 = itab1 t2 = itab2 ...

4. ... CHANGING p1 = a1 p2 = a2 ...

5. ... EXCEPTIONS exc1 = n1 exc2 = n2 ... OTHERS = n_others

6. ... EXCEPTIONS ... error_message = n_error ...

Effect

With the exception of the EXCEPTIONS addition, these additions assign the actual parameters a1, a2, ... to the formal parameters p1, p2, ... or t1, t2, ... of the parameter interface of the function module in func. All data objects whose data type matches the typing of the appropriate formal parameter can be specified as actual parameters. Each formal parameter assumes all the properties of the actual parameter assigned to it when it is called. Non-class-based exceptions can be handled using the addition EXCEPTIONS. The order of the additions is fixed.

A handleable exception is raised whenever a formal parameter is incorrect and the name of the function module is specified by a constant or as a character literal. Unlike in method calls, static checks are performed only by the extended program check and not by the syntax check. If the name of the function module is specified by a variable, the specification of an incorrect formal parameter is ignored at runtime.

Addition 1

... EXPORTING p1 = a1 p2 = a2 ...

Effect

The addition EXPORTING assigns actual parameters to the input parameters of the called function module. The syntax and semantics of these additions are the same as in method calls.

Addition 2

... IMPORTING p1 = a1 p2 = a2 ...

Effect

The addition IMPORTING assigns actual parameters to the output parameters of the called function module. The syntax and semantics of these additions are the same as in method calls.

Addition 3

... TABLES t1 = itab1 t2 = itab2 ...

Effect

With the addition TABLES, internal tables itab1, itab2, ... must be assigned to all non-optional table parameters t1, t2, ... of the called function module. For itab1, itab2, ... , only standard tables can be specified. The data is passed using a reference (with the exception of RFC). If a specified table itab1, itab2, ... has a header line, this is also passed. Otherwise, the header line of the corresponding table parameter t1, t2, ... is initial after the call.

Addition 4

... CHANGING p1 = a1 p2 = a2 ...

Effect

The addition CHANGING assigns actual parameters to the input/output parameters of the called function module. The syntax and semantics of these additions are the same as in method calls.

Addition 5

... EXCEPTIONS exc1 = n1 exc2 = n2 ... OTHERS = n_others

Effect

You can use EXCEPTIONS to assign return values to non-class-based exceptions exc1 exc2 ... declared in the parameter interface. Each exception exc1 exc2 ... that the caller wants to handle must be assigned to a directly specified number n1 n2 .... You can specify all numbers between 0 and 65535. The behavior outside of this range is undefined.

By specifying OTHERS as the last item after EXCEPTIONS, you can assign all exceptions not listed explicitly in exc1 exc2... a common return code, by assigning a number n_others. You can assign the same return code to different exceptions (including OTHERS). The behavior when an exception is raised is as follows:

If the statement RAISE or MESSAGE RAISING is used to raise an exception exc1 exc2 ... (to which a return code is assigned) the procedure is ended immediately, any output parameters or return values passed by value are canceled, and the number n1 n2 ... assigned to the exception is available to be evaluated in sy-subrc .
If the call of an exception raised by RAISE does not assign a return value, the program terminates with a runtime error.
If the call of an exception raised by MESSAGE RAISING does not assign a return value, the message is sent and the system continues in accordance with the message type.

If no exception is raised, a call sets sy-subrc to 0.

If class-based exceptions are declared in the parameter interface, the addition EXCEPTIONS cannot be specified in the call.

When a function module is called, the extended program check responds only if a specified exception is not declared in its interface. This is not checked while the program is being executed.

Notes

For the addition EXCEPTIONS. CALL FUNCTION also has an obsolete short form, in which the return code = n can be omitted after a specified exception. If an exception is raised, the value 1 is assigned to sy-subrc implicitly. The return code must always be specified explicitly, however.
If the value 0 is assigned to an exception, this indicates that the caller wants to ignore this exception. If the exception is raised in the function module, no runtime error occurs, but the exception cannot be handled.

Addition 6

... EXCEPTIONS ... error_message = n_error ...

Effect

If the predefined exception error_message is specified after EXCEPTIONS, all messages

that are sent using the statement MESSAGE without the addition RAISING,
that are sent using the statement MESSAGE RAISING because no return code is assigned to them,
or that are sent by the ABAP runtime environment

are affected as follows when the function module is running:

Messages of the type S, I, or W are not sent but are flagged in the log in background processing.
Messages of the type E and A raise the exception error_message and set sy-subrc to n_error. The message class, message type, message number, and the contents of possible placeholders for the MESSAGE statement are in the fields sy-msgid, sy-msgno, sy-msgty, and sy-msgv1, ... sy-msgv4. With messages of the type A, the ROLLBACK WORK statement is also executed explicitly. For information about behavior in background processing, see messages in background processing.
Messages of the type X are not affected. As always, they cause a program termination with a short dump.

Notes

When handling messages with the predefined exception error_message, it does not make a difference whether the message is sent in the current function module or in a module that is called by this function module. Unlike the exceptions raised by the statement RAISE, messages sent using the statement MESSAGE are propagated across calling levels.
The following situations can arise for the statement MESSAGE RAISING within the called function module:

If a return code is assigned to the exception specified after RAISING, the exception is handled independently of error_message and sy-subrc is set to this value.

If no return code is assigned to the exception specified after RAISING and error_message is specified, the sent message is affected as specified above.

If no return code is assigned to the exception specified after RAISING and error_message is not specified, the message is sent in accordance with its type.

When continuing with a program after handling a type A message, note that a complete ROLLBACK WORK was carried out, and not just a database rollback.
When programs are executed, the ABAP runtime environment can also send messages, for example when the automatic checks on screen input are performed. These messages are caught using error_message in the same way as messages sent using MESSAGE.

Example

Calling the function module GUI_DOWNLOAD for saving the content of an internal table to a file on the current presentation server. The name of the function module is specified as an untyped character literal, which is the most frequent type of specification in static parameter assignment.

DATA: line     TYPE c LENGTH 80, 
      text_tab LIKE STANDARD TABLE OF line, 
      fleng    TYPE i. 

... 

CALL FUNCTION 'GUI_DOWNLOAD' 
  EXPORTING 
    filename         = 'c:\temp\text.txt' 
    filetype         = 'ASC' 
  IMPORTING 
    filelength       = fleng 
  TABLES 
    data_tab         = text_tab 
  EXCEPTIONS 
    file_write_error = 1 
    invalid_type     = 2 
    no_authority     = 3 
    unknown_error    = 4 
    OTHERS           = 10. 

CASE sy-subrc. 
  WHEN 1. 
    ... 
  ... 
ENDCASE.