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I'm trying to figure out what SWIG Interface file change is needed in order to handle the getFoo returns a pointer that points to an array of a custom structure (sender_id_t). Without any special SWIG Interface code, I get just the pointer on the Java side. How can I turn that pointer into something I can loop or iterate over (in Java) so that I can get each sender_id_t id value? Appreciate any suggestions.

C Structure:

typedef unsigned char id_v1_t[32];
typedef id_v1_t id_t;
%rename (Sample) sender_id_t_;
struct sender_id_t_ {
    id_t       id;
    uint32_t   phy_idx;

C Function:

//This will return a pointer to an array of sender_id_t data.  The number of elements is retrieved from a separate call. 
sender_id_t* getFoo(resultset_t* resultset);


 [exec] test_wrap.c: In function `new_foo_array':
 [exec] test_wrap.c:785: error: invalid application of `sizeof' to incomplete type `sender_id_t_' 
 [exec] test_wrap.c: At top level:
 [exec] test_wrap.c:792: error: return type is an incomplete type
 [exec] test_wrap.c: In function `foo_array_getitem':
 [exec] test_wrap.c:793: error: invalid use of undefined type `struct sender_id_t_'
 [exec] test_wrap.c:793: error: dereferencing pointer to incomplete type
 [exec] test_wrap.c:793: warning: `return' with a value, in function returning void
 [exec] test_wrap.c: At top level:
 [exec] test_wrap.c:795: error: parameter `value' has incomplete type
 [exec] test_wrap.c: In function `foo_array_setitem':
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1 Answer 1

up vote 1 down vote accepted

The simplest solution to this doesn't involve writing any JNI at all - in effect it's method 2. So what I did was use carrays.i to expose a very basic interface and then written a small bit of Java to make the public view of it more usable/intuitive. The key thing is you need to supply a way of bringing together the knowledge of the array and the length of it. I've put together a minimal complete example to illustrate, it returns a Java array, but it could equally work for an ArrayList or any collection you like.

Firstly a header file, with an inline implementation for compactness:

#ifndef TEST_H
#define TEST_H

struct Foo {
   int v;

inline static struct Foo *getFoo() {
  static struct Foo r[] = {{0},{1},{2}};
  return r;

inline static unsigned short numFoo() {
  return 3;


This is then wrapped with:

%module test

#include "test.h"

%include <carrays.i>
%array_functions(struct Foo, foo_array);

%rename(getFooImpl) getFoo;
%javamethodmodifiers getFoo() "private";
%javamethodmodifiers numFoo() "private";
%include "test.h"

%pragma(java) modulecode=%{
  public static Foo[] getFoo() {
    final int num = numFoo();
    Foo ret[] = new Foo[num];
    Foo result = getFooImpl();
    for (int i = 0; i < num; ++i) {
      ret[i] = foo_array_getitem(result, i);
    return ret;

Where we make rename the getFoo() from the header file and make it and the corresponding numFoo() private, i.e. implementation details.

Using these two private functions we can then write a real, public Foo[] getFoo(), that calls these two and then copies the results into an actual array of known size.

I tested this with:

public class main {
  public static void main(String[] argv) {
    Foo[] foos = test.getFoo();

In my view this solution is cleaner than the corresponding JNI based example - it's simpler to write and harder to introduce bugs which makes it more maintainable. Any Java or C programmer that looks at it can pretty much see what's going on. It's probably not much worse in terms of performance and probably not going to be a big chunk of time on some critical path - if benchmarks show it to be a problem then it's still easy to go down the JNI road later.

For completeness on the "making it private" aspect you might also want to do something like:

%javamethodmodifiers foo_array_getitem "private";
%ignore foo_array_setitem;
%ignore delete_foo_array;
%ignore new_foo_array;
%include <carrays.i>
%array_functions(struct Foo, foo_array);

To hide all of the functions which get generated by the %array_functions macro.

share|improve this answer
thanks for such a complete example. I was able to compile your sample code fine. When I tried to use my structure (sender_id_t_) I ran into issue with applying the sizeof to the sender_id_t_.id property. I pasted the compile errors in the question above. Any ideas? –  c12 Dec 19 '11 at 3:03
@c12 - it looks like you need an extra #include inside the %{ %} bit at the top that includes the fil that defines sender_id_t_. –  Flexo Dec 19 '11 at 13:18
I removed the %rename on the sender_id_t_ (see initial question) and everything worked. For some reason the way I'm using the %rename (question now edited to include it) is causing the "sizeof" error. –  c12 Dec 20 '11 at 3:10
I've come back to this example several times trying to figure out my issue with converting a c array pointer to a java array and it seems that the above implementation doesn't quite work the same for a nonstatic return value. It may be an implementation issue on my part, but does your answer change if C is returning a non static pointer to an array? –  c12 Mar 16 '12 at 18:00
@SvetoslavMarinov - you need to have a (any) definition of struct Foo available in the SWIG interface. Even typedef struct Foo {} Foo; in the SWIG interface works. See this answer, ignore the %extend part of it. –  Flexo Aug 14 '12 at 7:44

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