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I wrote a C wrapper using the Python C API on our development machine (which is 32 bit and runs 32 bit Python 2.7). I have since had to move the wrapper and C source code to another machine which is 64 bit and runs 64 bit Python 2.6. The following code in the C wrapper returns a segmentation fault on the 64 bit machine, but not on the 32 bit machine (it works perfectly there):

static PyObject *tide3_tide_hours(PyObject *self, PyObject *args) {
    double initHour, z0, delt;
    char f_seasonal;
    int numHours;

    // Parse arguments from Python
    if (!PyArg_ParseTuple(args, "ddsid", &initHour, &z0,
                                         &f_seasonal, &numHours, &delt))
        return NULL;

    // Allocate memory for zhr, which is the output we want
    zhr = (double *) malloc ((numHours) *sizeof (double));

    // Call the C source code
    int value = tide_hours(&tc, initHour,
                           z0, f_seasonal, numHours, zhr, delt);

    // Construct the Python return object by defining 
    // a new list and looping over zhr
    int i;
    PyObject *l = PyList_New(0);
    if (!l) {
        printf("No list \n");
        return NULL;

    for (i=0; i < numHours; i++) {
        //printf("%f \n",zhr[i]);

    // Free memory and return the Python list containing zhr to Python
    free (zhr);

    return l;

Note that &tc is just a structure class I define in Python and initialize at the beginning of the C wrapper. I want zhr (calculated by tide_hours in the C source code) and can see correct values for it if I uncomment the printf statement in the for loop. If I insert:

printf("Size of zhr: %d\n",sizeof(zhr));

right after allocating memory for zhr, I see '4' on the 32 bit machine and '8' on the 64 bit machine. I'm sure this is the reason why the code is returning a segmentation fault, but I can't figure out how to stop that from happening.

I checked the rest of the C wrapper/Python code and narrowed the problem down to this section. The input arguments are the right value and type. As stated previously, zhr is calculated and output correctly by tide_hours (if I use printf in the for loop), but something is up with the memory allocation that has to do with this 32 to 64 bit switch. I'm unfamiliar with writing C wrappers (this is my first one), so I would like to know if there is a way to fix this or if something else I didn't even think of is causing the problem. Thanks ahead of time and let me know if you need more code.

share|improve this question
I assume you recompiled, based on the change in size for zhr. Have you tried gdb? Start your program running, with a pause for input or sleep. Find the pid, then run sudo gdb and in the gdb shell type attach <pid> then continue. When the segfault happens, gdb will show you where (and probably show a pointer == 0x0 or similar). You are using zhr without confirming that the memory was actually allocated, and is likely where the fault is occurring. – Ryan P Apr 17 '14 at 20:06
Where is zhr defined at the first place? (And why do you cast the result of malloc()?) – glglgl Apr 17 '14 at 20:10
@RyanP Yes I recompiled on the new machine. I'll try what you suggested and see what happens. @ glglgl zhr is defined first as double *zhr at the top of the wrapper, outside the function I posted. – Ryan Schuster Apr 17 '14 at 20:14
The fact that pointers are 8 bytes on 64-bit systems should not cause a problem, unless you're doing something horribly immoral like assigning it to an int and trying to convert it back to a pointer later. – Andrew Medico Apr 17 '14 at 20:57

1 Answer 1

up vote -1 down vote accepted


Two choices:

1) Make sure your wrapper is ported to 64-bit and rebuild it (perhaps this is what you were asking help with -- if so, what is the prototype/implementation for the tide_hours function?), or

2) Use the existing 32-bit compiled wrapper, and then your 64-bit machine would need to have a 32-bit python C runtime installed as well, and then you'd use that one for your wrapper.

For a similar process, read:

share|improve this answer
Ok, I'll get in touch with the root man. – Ryan Schuster Apr 17 '14 at 20:09
This is really not true. It's certainly easier than fixing the C code, but there's no reason the C code can't be fixed. – Andrew Medico Apr 17 '14 at 20:55

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