I have a sparse matrix that is not symmetric I.E. the sparsity is somewhat random, and I can't count on all the values being a set distance away from the diagonal.

However, it is still sparse, and I want to reduce the storage requirement on the matrix. Therefore, I am trying to figure out how to store each row starting at the first non-zero, in order, until I get to the last non-zero.

That is, if the first non-zero of row m occurs at column 2, and the last non-zero is at column 89, I want to store in A[m] rows 2-> 89.

Since each row does not have the same number of non-zeros, I will make all the rows of A have the same number of elements, and pad zeros to the end of the row for rows that have a smaller number of non-zero elements.

How do I do this translation in C? I do not actually have an original, full matrix to just copy the values from (the original matrix is coming to me in CSR form). If I was doing this in fortran, I could just define my array to be two dimensional and just have each row be variable length by tracking the start/stop values of non-zero columns and store it like that.

I will try to demonstrate below:

This is a matrix representation of the values I know - and for each value, I know the row and column location

```
[1 2 3 4 ]
[ 5 6 7 8 ]
[ 10 11 12 13 ]
m[ 14 15 16 17 18 ]
[ 19 20 21 22 ]
```

Now for this one row `m`

has the largest "span" between the first non-zero and last non-zero
so my new matrix is going to be `5x[span of row m]`

```
[1 2 3 4 ]
[5 6 7 8 ]
[10 11 12 13 ]
m[14 15 16 17 18]
[19 20 21 22 ]
```

As you can see, row `m`

needs no zero padding since it was the longest "span" anyway

The other rows now all have row zero as the first non-zero, and maintain the spacing of zeros columns between each non-zero.