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There is a libx.so which export 2 functions, and a struct,

typedef struct Tag {
    int num;
    char *name;
}Tag;

Tag *create(int n, char *n)
{
    Tag *t = malloc(sizeof(Tag));
    t->num = n;
    t->name = n;
    return t;
}

void use(Tag *t)
{
    printf("%d, %s\n", t->num, t->name);
}

I want to call create in Python and then save the Tag *res returned by create, later I will call use and pass the Tag *res saved before to use, here is it (just to demonstrate):

>>>libx = ctypes.CDLL("./libx.so")
>>>res = libx.create(c_int(1), c_char_p("a"))
>>>libx.use(res)

The above code might be wrong, just to demonstrate what I want to do.

And my problem is that, how could I save the result returned by create? Because it returns a pointer to a user-defined struct, and I don't want to construct struct Tag's counterpart in Python, would c_void_p do the trick?

UPDATE

From @David's answer, I still don't quite understand one thing:

the pointer (c_char_p("a")) is only valid for the duration of the call to create. As soon as create returns then that pointer is no longer valid.

And I assign c_char_p("a") to t->name in create, when the call to create finishes, is t->name a dangling pointer? Because according to the quoted words, that pointer is no longer valid after create. Why c_char_p("a") is no longer valid?

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2 Answers 2

up vote 4 down vote accepted
+50

The C code that you present is simply not going to work. You need to be much more precise about which party allocates and is responsible for the heap memory.

In your current example you pass c_char_p("a") to the C code. However, the pointer to that ctypes memory is only valid for the duration of the call to create. As soon as create returns then that pointer is no longer valid. But you took a copy of the pointer inside create. Thus the subsequent call to use is liable to fail.

You are going to need to take a copy of the contents of that string and store it in the struct. If you do that then you can use libx.create.restype = c_void_p safely.

But if you want the memory you allocated to be deallocated you will have to provide a destroy function to match the create function. With these changes the C code would look like this:

Tag *create(int n, char *s)
{
    Tag *t = malloc(sizeof(Tag));
    t->num = n;
    t->name = strdup(s);
    return t;
}

void destroy(Tag *t)
{
    free(t->name);
    free(t);
}

The Python code would look like this:

libx = ctypes.CDLL("./libx.so")
libx.create.restype = c_void_p
res = libx.create(c_int(1), c_char_p("a"))
libx.use(res)
libx.destroy(res)
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i just went stinky in my pants –  Thomas Eding Feb 25 '12 at 1:32
    
Well, sir, there are 3 things I don't understand. 1, the pointer to that ctypes memory is only valid for the duration of the call to create. Why is that? I presume it's because after the call to create, c_char_p("a")'s ref-count goes to zero, so "a" is garbage-collected, right? 2, in your code, res is a c_void_p object, but libx.use takes a Tag * arg, can I just pass res directly to libx.use without any cast? 3, why should I explicitly destroy(res)? –  Alcott Feb 25 '12 at 1:34
    
I just run a test, it seems my code can work correctly, sir. –  Alcott Feb 25 '12 at 2:56
1  
1. Because that's all that ctypes marshalling guarantees. 2. For the purpose of marshalling, a pointer is just a pointer. If you never dereference it, you don't need to know the structure of it. This is opaque pointer pattern. 3. How else are you going to deallocate the memory. –  David Heffernan Feb 25 '12 at 9:34
    
If your code works then that's just by chance. Heaps are like that. Memory that has been freed is often still accessible and valid. So you can get lucky, but the luck usually runs out at some point. –  David Heffernan Feb 25 '12 at 9:36

Python does reference counting. You'll have to use Py_INCREF() and friends for objects that are returned from "external" libraries.

UPDATE: I don't know about .so loading by python, maybe the method proposed by @David Hefferman does this automagically.

UPDATE2: delete me!

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1  
The question concerns ctypes which is a foreign function interface, akin to pinvoke if you know that. Py_INCREF is simply not pertinent. –  David Heffernan Feb 24 '12 at 14:00
    
Ok. I'll delete. –  wildplasser Feb 24 '12 at 14:03

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