# LAPACK sgelss usage

I would like to use the sgelss function from the LAPACK framework to solve an overdetermined system of linear equations.

``````minimize || A*x-b||
``````

For this I chose to use the sgelss function from LAPACK, the header file can be found here: SGELSS

My problem is that I seam to use it wrong, since the results don't fit.

An example case, I use these matricies:

``````double a[] =
{
25,5,1,
16,4,1,
9,3,1,
4,2,1,
1,1,1,
};
double b[] =
{
31,21,13,7,3
}
``````

And then I would call:

``````sgelss_(&(5), &(3), &(1), a, (5), b, &(5), 3, -1, &(3), malloc(3000), &(3000), &output);
``````

[[ Since sgelss expects most input variables not to be normal variables but pointers I use &(...) here in order to skip instantiating variables and then referencing their memory location for sake of readability here! ]]

I would expect that afterwards b would be [1,1,1,XXXXX] since my inputs a and b were set up this way. Unfortunately this is not the case.

I have also tried rotating a (switching rows and columns), without success.

-

There are a lot of problems in the code that you posted; I assume that it’s abstracted from what you’re really doing, as it clearly could never even compile as is. There are two major issues, one or both of which I suspect to be the cause of the trouble in your actual code:

First, you’re attempting to use `sgelss_` with `double` data. `sgelss_` operates on `float` (single-precision). If you have double-precision data, you need to use `dgelss_` instead.

Second, your parameters describe a 5x3 matrix, but remember that LAPACK uses column-major ordering for matrix elements. This means that the matrix as described by your code is:

``````25  1  2
5  9  1
1  3  1
16  1  1
4  4  1
``````

Somehow I doubt that’s the matrix you really want. More likely you want the matrix:

``````25  5  1
16  4  1
9  3  1
4  2  1
1  1  1
``````

I went ahead and put together a working version that assumes this is the matrix you’re actually trying to use:

``````#include <Accelerate/Accelerate.h>
#include <stdio.h>
#include <stdlib.h>

int main(int argc, char *argv[]) {
double a[] = /* column major storage order! */
{
25, 16,  9,  4,  1,
5,  4,  3,  2,  1,
1,  1,  1,  1,  1,
};
double b[] =
{
31,21,13,7,3
};

// Setup parameters
__CLPK_integer m = 5;
__CLPK_integer n = 3;
__CLPK_integer nrhs = 1;
__CLPK_integer lda = 5;
__CLPK_integer ldb = 5;
double *s = malloc(3 * sizeof*s);
double rcond = -1.0f; // use machine precision
__CLPK_integer rank;
__CLPK_integer info;
// Query correct worksize
double worksize;
__CLPK_integer lwork = -1;
dgelss_(&m, &n, &nrhs, a, &lda, b, &ldb, s, &rcond, &rank, &worksize, &lwork, &info);
// Allocate workspace
lwork = worksize;
double *work = malloc(lwork * sizeof *work);
// Do computation
dgelss_(&m, &n, &nrhs, a, &lda, b, &ldb, s, &rcond, &rank, work, &lwork, &info);
// Free workspace
free(work);
// Print result vector
for (int i=0; i<3; ++i)
printf("%g\t", b[i]);
printf("\n");
return 0;
}
``````
-
Hey Stephen, thx for the long answer! I actually did't copy my actual source code in here, but changed it to make it a little more readable, in the real one I use __CLPK_real instead of double and __CLPK_integer. On my system __CLPK_real compiles to double. W/e. –  Nils Ziehn Jan 21 '14 at 17:53
As I pointed out, I also tried rotating the matrix (swapping colums and rows) and actually both results were not what I expected. Can you tell me what the result is in your case (for x inside the b array ) –  Nils Ziehn Jan 21 '14 at 17:54
On current versions of iOS and OSX the code I listed produces [1,1,1,x,x] for the result. –  Stephen Canon Jan 21 '14 at 17:56
Huhh, I actually must have had a typo when I defined my matricies. Thanks a lot, when I copy in your's it workd! –  Nils Ziehn Jan 21 '14 at 18:24
Glad to hear that it’s working now. –  Stephen Canon Jan 21 '14 at 18:32