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ABAP Keyword Documentation → ABAP − Reference → Declarations → Declaration Statements → Classes and Interfaces → Components in Classes and Interfaces → Methods → METHODS →
METHODS - IMPORTING, EXPORTING, CHANGING, RAISING
Syntax
METHODS meth [ABSTRACT|FINAL]
[IMPORTING
parameters [PREFERRED PARAMETER p]]
[EXPORTING parameters]
[CHANGING parameters]
[{RAISING exc1|RESUMABLE(exc1) exc2|RESUMABLE(exc2) ...}
|{EXCEPTIONS exc1 exc2 ...}].
Extras:
1. ... IMPORTING parameters [PREFERRED PARAMETER p]
2. ... EXPORTING parameters
3. ... CHANGING parameters
4. ... RAISING exc1|RESUMABLE(exc1) exc2|RESUMABLE(exc2) ...
5. ... EXCEPTIONS exc1 exc2 ...
6. ... ABSTRACT ...
7. ... FINAL ...
Effect
This statement declares a general instance method meth. Use the additions ABSTRACT and FINAL to make the method abstract or final.
The additions IMPORTING, EXPORTING and CHANGING define the parameter interface of the method. After every addition, the corresponding formal parameters are defined by a specification of the list parameters. The order of the additions is fixed.
The remaining additions define which exceptions are propagated or raised by the method.
Note
Within a method, the predicate
expression IS SUPPLIED
can be used to check whether an optional formal parameter was assigned an actual parameter when it was called.
... IMPORTING parameters [PREFERRED PARAMETER p]
Effect
IMPORTING defines input parameters. When the method is called, an appropriate actual parameter must be specified for every non-optional input parameter. The content of the actual parameter is passed to the input parameter when the call is made. The content of an input parameter for which pass-by-reference is defined cannot be changed in the method.
Use PREFERRED PARAMETER to identify an input parameter p1 p2 ... from the list parameters after IMPORTING as a preferred parameter. This can only be specified if all input parameters and input/output parameters are optional. The parameter specified after PREFERRED PARAMETER is set to optional implicitly. If the method is called using the syntaxmeth( a ) (standalone or functional), the actual parameter a is assigned to the preferred input parameter p.
Note
Although PREFERRED PARAMETER makes the parameter p
implicitly optional, this parameter should be made explicitly optional using OPTIONAL or DEFAULT. Otherwise a syntax check warning is displayed.
... EXPORTING parameters
Effect
EXPORTING defines output parameters. When the method is called, an appropriate
actual parameter can be specified for every output parameter. The content of an output parameter defined for pass-by-value is passed to the actual parameter after the method has been completed successfully.
Note
An output parameter defined for pass-by-reference behaves like an input/output parameter, which means
that it is not initialized when the method is called. For this reason, it should not be read before
the first write access. In addition, be careful when adding content to such parameters as, for example, when inserting rows into internal tables.
... CHANGING parameters
Effect
CHANGING defines input/output parameters. When the method is called, an appropriate
actual parameter must be specified for every non-optional input/output parameter. The content of the
actual parameter is passed to the input/output parameter at the call, and after the method has been completed, the content of the input/output parameter is passed to the actual parameter.
Example
The method read_spfli_into_table of this example has an input and an output parameter, which are typed fully by reference to ABAP Dictionary.
... RAISING exc1|RESUMABLE(exc1) exc2|RESUMABLE(exc2) ...
Effect
Use the addition RAISING to declare the class-based exceptions exc1 exc2 ... that can be propagated from the method to the caller.
For exc1 exc2 ..., all exception classes that are visible at this point that are subclasses of CX_STATIC_CHECK or CX_DYNAMIC_CHECK can be specified here. The exception classes must be specified in ascending order with respect to their inheritance hierarchy. Each exception class may only be specified once.
The RESUMABLE addition declares an exception that can be propagated as a resumable exception. This means:
If a superclass is declared as resumable, any subclasses must also be declared as resumable.
Exceptions in the categories CX_STATIC_CHECK and CX_DYNAMIC_CHECK must be explicitly declared, otherwise
a propagation can lead to an interface violation. A violation of the interface raises the handleable
exception CX_SY_NO_HANDLER. Exceptions of the category CX_NO_CHECK are always declared implicitly and with the RESUMABLE addition.
Notes
Example
In the class math, any exceptions represented by the class CX_SY_ARITHMETIC_ERROR and its subclasses are propagated from within the method divide_1_by. If, for example, the input parameter operand is filled by the call with the value 0, then the exception CX_SY_ZERODIVIDE is raised, propagated, and can, as shown in the example, be handled by the caller in a TRY control structure.
CLASS math DEFINITION.
PUBLIC SECTION.
METHODS divide_1_by
IMPORTING operand TYPE i
RETURNING value(result) TYPE decfloat34
RAISING cx_sy_arithmetic_error.
ENDCLASS.
CLASS math IMPLEMENTATION.
METHOD divide_1_by.
result = 1 / operand.
ENDMETHOD.
ENDCLASS.
DATA oref TYPE REF TO math.
DATA exc TYPE REF TO cx_sy_arithmetic_error.
DATA res TYPE decfloat34.
DATA text TYPE string.
START-OF-SELECTION.
CREATE OBJECT oref.
TRY.
res = oref->divide_1_by( 4 ).
text = res.
CATCH cx_sy_arithmetic_error INTO exc.
text = exc->get_text( ).
ENDTRY.
MESSAGE text TYPE 'I'.
... EXCEPTIONS exc1 exc2 ...
Effect
Use the addition EXCEPTIONS to define a list of non-class-based exceptions exc1 exc2... that can be raised by the statements RAISE or MESSAGE RAISING in the method. The names exc1 exc2 ... for the exceptions are freely definable and specified directly. Exceptions defined in this way are bound to the method (similar to formal parameters) and cannot be propagated.
If this type of exception is raised in a method and no return code has been assigned to it in the addition EXCEPTIONS in the method call, then a runtime error occurs.
The additions RAISING and EXCEPTIONS cannot be
used simultaneously. As before, in a method whose interface defines non-class-based exceptions, the
statement RAISE
EXCEPTION or the addition THROW in a
conditional expression cannot be used to raise class-based exceptions.
Note
For new developments, we recommend that class-based exceptions are used that are independent of the method in question.
Example
In the class math, for method divide_1_by, an exception arith_error is defined which is raised in the method by the RAISE statement if an arithmetic error occurs. If, for example, the input parameter operand is filled with value 0 by the call, the exception arith_error is raised in the internal method handling of exception CX_SY_ZERODIVIDE and handled after the call of the method by evaluating sy-subrc. The method cannot be called functionally due to the handling of the classical exception.
CLASS math DEFINITION.
PUBLIC SECTION.
METHODS divide_1_by
IMPORTING operand TYPE i
RETURNING VALUE(result) TYPE decfloat34
EXCEPTIONS arith_error.
ENDCLASS.
CLASS math IMPLEMENTATION.
METHOD divide_1_by.
TRY.
result = 1 / operand.
CATCH cx_sy_arithmetic_error.
RAISE arith_error.
ENDTRY.
ENDMETHOD.
ENDCLASS.
DATA res TYPE decfloat34.
DATA oref TYPE REF TO math.
START-OF-SELECTION.
CREATE OBJECT oref.
oref->divide_1_by( EXPORTING operand = 4
RECEIVING result = res
EXCEPTIONS arith_error = 4 ).
IF sy-subrc = 0.
cl_demo_output=>display_data( res ).
ELSE.
cl_demo_output=>display_text( 'Arithmetic error!' ).
ENDIF.
... ABSTRACT ...
Effect
Use the addition ABSTRACT to define an abstract method meth.
The addition ABSTRACT is allowed only in abstract classes, not in interfaces.
An abstract method is not implemented in the implementation section of its class. To implement an abstract method, it must be redefined in a
specific subclass using addition REDEFINITION.
Notes
Static methods cannot be redefined and the addition ABSTRACT is not allowed in their declarations.
... FINAL ...
Effect
The addition FINAL is allowed only in classes, not in interfaces. Use the addition FINAL to define a final method meth. A final method cannot be redefined in a subclass. In final classes, all methods are automatically final; the addition FINAL is not allowed.
Note
Static methods cannot be redefined and the addition FINAL is not allowed in their declarations.