See this page on mxCreateSparse. Then you'll want to look at mxSetPr, mxSetIr and mxSetJc and the corresponding "get" versions.

Here's an example of how to allocate a sparse matrix. I realize this is an old link, but to the best of my knowledge, it hasn't changed.

Basically, how it works is that the `ir`

data contains the row indices. The `jr`

data contains a list of indices into the `ir`

array. For instance, in the link on how to allocate a sparse matrix, the code:

```
...
static double static_pr_data[NZMAX] = {5.8, 6.2, 5.9, 6.1};
static int static_ir_data[NZMAX] = {0, 2, 1, 3};
static int static_jc_data[COLS+1] = {0, 2, 4};
...
```

the array `static_jc_data`

tells you that indices `static_jc_data[c]`

through `static_jc_data[c+1]-1`

of `static_pr_data`

and `static_ir_data`

correspond to the column `c`

of the matrix. Within that range (`static_jc_data[c]`

to `static_jc_data[c+1]-1`

) the entries of `static_pr_data`

gives you the values in the matrix and `static_ir_data`

gives you the correct rows.

For example, the matrix here would be:

```
A = [ 5.8 0
0 5.9
6.2 0
0 6.1];
```

To answer your questions about how to access elements individually, you have to search for whether the `i,j`

th element exists and if it does return it, otherwise return 0. To do this, you'd search from `static_ir_data[static_jc_data[j]]`

through `static_ir_data[static_jc_data[j+1]-1]`

to see whether your `i`

exists. If it does, then the corresponding entry in `static_pr_data`

will contain your entry. If it doesn't, then return 0.

However, typically with sparse matrix usage, if you're doing a lot of searching through the matrix to see if a certain element exists, you may want to think about how you're using it. Typically, it's much better to perform whatever operation you're doing by only going through the non-zero elements once instead of searching for each `i,j`

th entry.

Oh, and one last thing. Keep in mind that in the MEX code, all your indices are 0 based, but they are 1 based in MATLAB. That should add to the fun.