1
{generic body} The body of a generic unit (a generic body) [is a template for the instance bodies. The syntax of a generic body is identical to that of a nongeneric body].
1.a
Ramification: We also use terms like "generic function body" and "nongeneric package body."
2
{elaboration (generic body) [partial]} The elaboration of a generic body has no other effect than to establish that the generic unit can from then on be instantiated without failing the Elaboration_Check. If the generic body is a child of a generic package, then its elaboration establishes that each corresponding declaration nested in an instance of the parent (see 10.1.1) can from then on be instantiated without failing the Elaboration_Check.
NOTES
3
4 The syntax of generic subprograms implies that a generic subprogram body is always the completion of a declaration.
4
Example of a generic procedure body:
5
procedure Exchange(U, V : in out Elem) is −− see 12.1
T : Elem; −− the generic formal type
begin
T := U;
U := V;
V := T;
end Exchange;
6
Example of a generic function body:
7
function Squaring(X : Item) return Item is −− see 12.1
begin
return X*X; −− the formal operator "*"
end Squaring;
8
Example of a generic package body:
9
package body On_Vectors is −− see 12.1
10
function Sum(A, B : Vector) return Vector is
Result : Vector(A'Range); −− the formal type Vector
Bias : constant Integer := B'First − A'First;
begin
if A'Length /= B'Length then
raise Length_Error;
end if;
11
for N in A'Range loop
Result(N) := Sum(A(N), B(N + Bias)); −− the formal function Sum
end loop;
return Result;
end Sum;
12
function Sigma(A : Vector) return Item is
Total : Item := A(A'First); −− the formal type Item
begin
for N in A'First + 1 .. A'Last loop
Total := Sum(Total, A(N)); −− the formal function Sum
end loop;
return Total;
end Sigma;
end On_Vectors;