I have been exploring algorithms that require some work on matrices, and I have gotten some straightforward code working on my Linux machine. Here is an excerpt:

```
extern "C" {
// link w/ LAPACK
extern void dpptrf_(const char *uplo, const int *n, double *ap, int *info);
extern void dpptri_(const char *uplo, const int *n, double *ap, int *info);
// BLAS todo: get sse2 up in here (ATLAS?)
extern void dgemm_(const char *transa, const char *transb, const int *m,
const int *n, const int *k, const double *alpha, const double *a,
const int *lda, const double *b, const int *ldb, const double *beta,
double *c, const int *ldc);
}
// in-place: be sure that (N*(N+1)/2) doubles have been initialized
inline void invert_mat_sym_packed(double *vd, int n) {
int out = 0;
dpptrf_("U",&n,vd,&out);
ASSERT(!out);
dpptri_("U",&n,vd,&out);
ASSERT(!out);
}
// use with col-major ordering!!!
inline void mult_cm(double *a, double *b, double alpha, int m, int k, int n, double *c) {
int lda = m, ldb = k, ldc = m; double beta = 1.0;
dgemm_("N","N",&m,&n,&k,&alpha,a,&lda,b,&ldb,&beta,c,&ldc);
}
```

all I had to do was `sudo apt-get install liblapack`

, and link against the library.

I am now trying to get this code working from MinGW using the 32-bit dll's from here but I am seeing segfaults and invalid output. I will proceed with gdb to determine the location of the error but I suspect there's a better, cleaner, more portable way to get this done.

What I did to get it to compile was install fortran for mingw (`mingw-get install fortran`

) and link to the 32bit BLAS and LAPACK dll's from the earlier link.

I'm not sure how much I'm missing here... How does everybody else get their LAPACK going when coding with gcc for win32?

What I'm looking for is an easy-to-use C interface. I don't want wrapper classes all over the place.

I tried to find a download for Intel MKL... Ain't even free software!?