Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

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);

Exception:

 [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':
share|improve this question
add comment

1 Answer

up vote 1 down vote accepted
+50

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;
}

#endif

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) {
    System.loadLibrary("test");
    Foo[] foos = test.getFoo();
    System.out.println(foos[2].getV());
  }
}

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
1  
@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
show 3 more comments

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.