Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I have a C header with:

typedef struct
{    
      <normal members>
      void (*cb_func)(glp_tree *T, void *info);
      void *cb_info;
      <normal members>
} glp_iocp;

Currently, in my pxd file:

ctypedef struct IntOptCP "glp_iocp":
    <normal members>
    int out_dly     #  mip.out_dly (milliseconds)
    #void (*cb_func)(Tree* tree, void* info)
                    #  mip.cb_func
    #void* cb_info   #  mip.cb_info
    <normal members>

In a pyx file, at some point, I do (essentially):

cdef class MyClass:

    IntOptCP _iocp

    <__cintit__ and the like>

    def some_method(self):
        <manipulation of self._iocp>
        controls = dict()
        controls = self._iocp
        return controls

This works nicely. However, now I also wish to expose cb_func and cb_info. This then breaks the assignment to controls. What I would like to have is two python object types (classes?), one for cb_func and one for cb_info, instances of which can be passed through to cb_func and cb_info arguments of the glp_iocp struct.

I have read https://github.com/cython/cython/tree/master/Demos/callback (and have used pycapsule), but nevertheless, I am too inexperienced/unfamiliar with Cython to see how I can use that information for my specific case.

So, any help and pointers on how to (best) expose cb_func and cb_info are welcome.

share|improve this question
up vote 2 down vote accepted

It seems you can expose cb_func and cb_info doing something similar to this toy example:

import numpy as np
cimport numpy as np

ctypedef void (*f_type)(int, double*, double*)

ctypedef struct IntOptCP:
    int a
    double *b
    double *c
    f_type f

cdef class MyClass:
    cdef IntOptCP _iocp
    def exec_f(self):
        self._iocp.f(self._iocp.a, self._iocp.b, self._iocp.c)

cdef void myfunc(int a, double *b, double *c):
    cdef int i
    for i in range(a):
        b[i] += 1
        c[i] += 1

def main():
    cdef f_type f
    cdef np.ndarray[np.float64_t, ndim=1] b, c
    cdef int a
    a = 100
    b = np.zeros(a, dtype=np.float64)
    c = np.zeros(a, dtype=np.float64)
    test = MyClass()
    test._iocp.a = a
    test._iocp.b = &b[0]
    test._iocp.c = &c[0]
    test._iocp.f = myfunc
    print 'before', a, b, c
    test.exec_f()
    print 'after', a, b, c
share|improve this answer
1  
Using your instructions, I managed to get things formulated so that they compile. Actually testing the code may take a while, so you'll have to be patient before I can select this as the accepted answer. – equaeghe Jun 13 '14 at 21:05
    
@equaeghe hope you had time to test the answer...let me know your feedback. – Saullo Castro Apr 10 '15 at 11:47
    
Not yet. I will accept your answer; your efforts deserve recognition even if I cannot find the time to sufficiently evaluate them. – equaeghe Apr 10 '15 at 12:19

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.