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I have a C function int func( int a, int* b) that I need to import and use in Ada 95. Where the C function would typically be called in C as c = func(a, &b);

I import C functions all the time into Ada, but have always avoided using functions with pass by reference arguments, but it's finally time to learn.

I would like to know how to declare this function in Ada, and would also like a quick example of using it with declared variables shown (because I'm still a little fuzzy on the Access types).

Thanks all!

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C does not have references. That's why you have to use pointers. They are passed by value. – oenone Jun 25 '12 at 14:53
up vote 8 down vote accepted

In C, int* b can mean a lot of things. Perhaps it's really just a pointer to one variable, but it may also be an array for which int a is the length. This code assumes that int* b is actually just a value that's passed by reference:

with Interfaces.C;

-- ...
package C renames Interfaces.C;

function Func (A : C.int; B : access C.int) return C.int;
pragma Import (Convention => C, Entity => Func,
               External_Name => "func");

-- ...

   A : C.int := 42;
   B : aliased C.int := 23;
   C : C.int;
   C := Func (A, B'Access);
   -- ...

You can use 'Access on aliased variables. This is safe as long as you're sure that the pointer won't be stored on the C side and accessed after the end of life of variable B. (If the C declaration uses the const keyword, you can use access constant on the Ada side, but that's Ada 2005 only.)

You can also use a named type:

-- ...
type Int_Access is access C.int;
function Func (A : C.int; B : Int_Access) return C.int;
-- ...
C := Func (A, B'Unchecked_Access);
-- ...

Now we need to use 'Unchecked_Access because Ada normally does not allow a non-local access type (as Int_Access) to refer to a local variable. If you know what the C code will do with the pointer (like you should), you can use named types to specify that no references to local variables should be passed.

Nota bene 1: If you have a procedure (in C: a function that returns void), you can specify a variable to be passed by reference by using in out in your Ada procedure declaration instead of access. This way, you do not need to worry about access types at all. As before, you need to be sure that the pointer is not stored at the C side.

Nota bene 2: Record types and arrays are passed by reference anyway - unless you specify pragma Convention (C_Pass_By_Copy, Your_Type);. This is a common gotcha when wrapping C functions in Ada.

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Thanks for the great answer, this also clears up some other questions I had about how things worked between Ada and C. – gjcamann Jun 25 '12 at 15:43
Passing records by reference for C-interface functions always annoyed me; C structs, like all C types, are passed by copy. It would have made more sense to pass them by copy by default, and pass a pointer explicitly if the C function takes a pointer to a struct. – Keith Thompson Jun 25 '12 at 19:09
And I'm fairly sure C_Pass_By_Value is specific to GNAT (though I wouldn't surprised if other Ada compilers have adopted it). – Keith Thompson Jun 25 '12 at 19:09
I got the name wrong. The correct name of the pragma is C_Pass_By_Copy, and it is indeed a GNAT-specific pragma in Ada 95. It has been added to Ada 2005. – flyx Jun 29 '12 at 14:21

In addition to (and plagiarizing from flyx) I offer a full solution:

File c_thing.c

#include <stdio.h>

int foo (int a, int * b) {
  printf ("A:%d, B %d\n",a, *b);

File ada_main.adb

with Interfaces.C;

procedure Ada_Main is 

   package C renames Interfaces.C;

   function Func (A : C.int; B : access C.int) return C.int;
   pragma Import (Convention => C, Entity => Func,
                  External_Name => "foo");

   A : C.int := 42;
   B : aliased C.int := 23;
   R : C.int;


   R := Func (A, B'Access);

end Ada_Main;

To Compile (linux):

gcc -c c_thing.c
gnatmake -c ada_main.adb
gnatbind ada_main.ali
gnatlink ada_main.ali c_thing.o

To Run

A:42, B 23
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