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The return statement is used to complete the execution of the innermost enclosing function or procedure body.
return;
return expression;
The return statement ends the execution of a subprogram (procedure or function) in which it appears. It causes an unconditional jump to the end of a subprogram (example 1).
If a return statement appears inside nested subprograms it applies to the innermost subprogram (i.e. the jump is performed to the next end procedure or end function clause).
This statement can only be used in a procedure or function body. The return statement in a procedure may not return any value, while a return in a function must return a value (an expression) which is of the same type as specified in the function after the return keyword (example 2).
Example 1
procedure RS ( signal
S, R: in BIT; signal
Q, NQ: inout BIT) is
begin
if (S = '1' and
R = '1') then
report
"forbidden state: S and R are equal to '1'";
return;
else
Q <= S and
NQ after 5 ns;
NQ <= R and
Q after 5 ns;
end if;
end procedure RS;
The return statement located in the if then clause causes the
procedure to terminate when both S and R are equal to '1'. The
procedure would terminate even if the end if would be followed by
some other statements.
Example 2
P1: process
type REAL_NEW is range
0.0 to 1000.0;
variable a, b :
REAL_NEW := 2.0;
variable c: REAL;
function Add
(Oper_1, Oper_2: REAL_NEW) return
REAL is
variable
result : REAL;
begin
result := REAL(Oper_1)+REAL(Oper_2);
return result;
end function Add;
begin
c:= Add(a,b);
end process;
The return statement in a function must return a value of the type
specified in the function header after the return clause.
Although the return statement is a sequential one, it is not allowed to use it in a process.
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