I am trying to replicate the work of Flavian Coelho, linked here. He used Cython and the Gnu Scientific Library (GSL) to get a huge speed-up over Python in generating random numbers. When I import my compiled Cython code in Python (with the command `import cgibbs`

), I get the following error:

```
ImportError: dlopen(./cgibbs.so, 2): Symbol not found: _gsl_rng_mt19937
Referenced from: /Users/wesley/scratch/cython/cgibbs.so
Expected in: dynamic lookup
```

You'll notice that the complaint is that the symbol `_gsl_rng_mt19937`

can't be found. The function i am trying to link to is called `gsl_rng_mt19937`

(no leading underscore), and that is how it appears in my `.pyx`

file. I think Cython is somehow causing the problem by adding that leading underscore.

In order to make troubleshooting easier, I've stripped the code down and posted it below. My system is: Mac OSX 10.7 (Lion) running Python 2.7.2 (32-bit), gcc-4.0 (which I used to compile the GSL libraries in 32-bit form), GSL 1.15, and Cython v0.15.1.

Here is the content of cgibbs.pyx:

```
#declaring external GSL functions to be used
cdef extern from "math.h":
double sqrt(double)
cdef double Sqrt(double n):
return sqrt(n)
cdef extern from "gsl/gsl_rng.h":
ctypedef struct gsl_rng_type:
pass
ctypedef struct gsl_rng:
pass
gsl_rng_type *gsl_rng_mt19937
gsl_rng *gsl_rng_alloc(gsl_rng_type * T)
cdef extern from "gsl/gsl_randist.h":
double gamma "gsl_ran_gamma"(gsl_rng * r,double,double)
double gaussian "gsl_ran_gaussian"(gsl_rng * r,double)
cdef gsl_rng *r = gsl_rng_alloc(gsl_rng_mt19937)
```

The error goes away if I comment out the last line of my `cgibbs.pyx`

, but then I can't actually use the external library... Any insight you can offer is appreciated. Thanks!