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Are there are code samples of how to solve a matrix such as the one below on the iPhone platform. In reality the real matrix is much larger (about 100 variables). Since it's simple linear algebra I can't think the code is that complex, also I've heard of math library packages and LAPACK but can't find any examples where they are implemented.

If anyone knows of any examples or tutorials on how to go from creating the matrix to solving each variable it would be really appreciated thanks a ton.

 ____            ____
|                    |
|  4   3  -1   |  2  |
| -2   3   8   |  0  |
|  0   2   6   | -1  |
|____            ____|
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Me Please: possible duplicate of stackoverflow.com/questions/769/solving-a-linear-equation – zellus Nov 29 '10 at 20:32
I saw that. I know what method to use, just not how to program it. That's why I'd like to find a sample to establish a baseline. – John Nov 29 '10 at 21:33
Press et al.'s Numerical Methods in $LANGUAGE are a good read for this topic. – thiton Dec 29 '11 at 0:28

Don't forget that Objective-C is C with a bunch of object-oriented extensions. You can drop in any C library into an iPhone application, including LAPACK.

If you want to write some Objective-C wrapper classes for LAPACK, I'm sure the LAPACK project team would be all too happy to accept the patch.

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Looking for an example, it's been quite a few years since I used linear algebra and need to refresh my memory. I would love to use LAPACK since it's now integrated but I can't find any samples. – John Nov 29 '10 at 21:24

Here's some example code for solving linear systems with CLAPACK, Apple's implementation of LAPACK, which is available on iOS 4.0 and later.

#define N 3
#define NRHS 1
#define LDA N
#define LDB N

void solve_system() {
    __CLPK_integer n = N, nrhs = NRHS, lda = LDA, ldb = LDB, info;
    __CLPK_integer ipiv[N];

    __CLPK_real a[LDA * N] = {
        4, -2, 0,
        3, 3, 2,
        -1, 8, 6,

    __CLPK_real b[LDB * NRHS] = {
        2, 0, -1,

    // Solve A * x = b
    sgesv_(&n, &nrhs, a, &lda, ipiv, b, &ldb, &info);

    if(info > 0) {
        // A is singular; solution is not unique.

    print_matrix(N, NRHS, b);

void print_matrix(size_t rows, size_t columns, __CLPK_real *mat) {
    for(size_t r = 0; r < rows; ++r) {
        for(size_t c = 0; c < columns; ++c) {
            printf("%6.2f ", mat[r * columns + c]);

This uses the LAPACK function SGESV, a "driver" function for solving linear systems. Note that data are provided in column-major format, since LAPACK was originally written in FORTRAN, which stores multi-dimensional arrays in column-major format. __CLPK_integer and __CLPK_real are typedefs for long and float, respectively.

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Note that you'll need to link with Accelerate.framework and #import <Accelerate/Accelerate.h> to use LAPACK functions. – warrenm Dec 29 '11 at 0:21

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