Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

These are some code that I carried in my project to do matrix computing.
They are two class methods and one instance method that for create matrices and do the matrix multiplication operation.
The method for matrics multiplication doesn't work well, the result from it is wrong.

+ (NSMutableArray *)arrayOfWidth:(NSInteger)width andHeight:(NSInteger)height {
    return [[self alloc] initWithWidth:width andHeight:height];

- (id)initWithWidth:(NSInteger)width andHeight:(NSInteger)height {
    if((self = [self initWithCapacity:height])) {
        for(int i = 0; i < height; i++) {
            NSMutableArray *inner = [[NSMutableArray alloc] initWithCapacity:width];
            [self addObject:inner];
    return self;

+ (NSMutableArray *)matrixA:(NSMutableArray *)matrixA multiplyMatrixB:(NSMutableArray *)matrixB {
    int aRow = [matrixA count];
    int aColumn = [[matrixA objectAtIndex:0] count];
    int bRow = [matrixB count];
    int bColumn = [[matrixB objectAtIndex:0] count];
    NSMutableArray *newArray = [NSMutableArray arrayOfWidth:aRow andHeight:bColumn];

    for (int i = 0; i < aRow; i++) {
        for (int j = 0; j < bColumn; j++) {
            double sum = 0.0;
            for (int k = 0; k < aColumn; k++) {
                NSMutableArray *innerA = [matrixA objectAtIndex:i];
                double numA = [[innerA objectAtIndex:k] doubleValue];
                NSMutableArray * innerB = [matrixB objectAtIndex:k];
                double numB = [[innerB objectAtIndex:j] doubleValue];
                sum += numA * numB; 
            NSNumber *result = [NSNumber numberWithDouble:sum];
            [[newArray objectAtIndex:i] insertObject:result atIndex:j];
    return newArray;

Is there something wrong with the code? And how can I fix it?

    //First, I create a array to hold the numbers
    NSNumber *num11 = [NSNumber numberWithDouble:-2.0];
    NSNumber *num12 = [NSNumber numberWithDouble:1.0];
    NSNumber *num13 = [NSNumber numberWithDouble:-1.0];
    NSNumber *num14 = [NSNumber numberWithDouble:2.0];
    NSNumber *num21 = [NSNumber numberWithDouble:-7.0];
    NSNumber *num22 = [NSNumber numberWithDouble:0.0];
    NSNumber *num23 = [NSNumber numberWithDouble:-1.0];
    NSNumber *num24 = [NSNumber numberWithDouble:-4.0];
    NSNumber *num31 = [NSNumber numberWithDouble:-2.0];
    NSNumber *num32 = [NSNumber numberWithDouble:-1.0];
    NSNumber *num33 = [NSNumber numberWithDouble:0.0];
    NSNumber *num34 = [NSNumber numberWithDouble:-2.0];
    NSNumber *num41 = [NSNumber numberWithDouble:-3.0];
    NSNumber *num42 = [NSNumber numberWithDouble:-2.0];
    NSNumber *num43 = [NSNumber numberWithDouble:0.0];
    NSNumber *num44 = [NSNumber numberWithDouble:-3.0];

    NSMutableArray *temp = [NSMutableArray arrayWithObjects:num11, num12, num13, num14, num21, num22, num23, num24, num31, num32, num33, num34, num41, num42, num43, num44, nil];

    //Second, I create the matrix and get the elements from that array 
    for (int i = 0; i < 4; i++) {
        for (int j = 0; j < 4; j++) {
            double c = [[temp objectAtIndex:4*i+j] doubleValue];
            NSNumber *object = [NSNumber numberWithDouble:c];
            [[matrix objectAtIndex:i] insertObject:object atIndex:j];

    //Then, I do the multiplication for matrix and itself
    NSMutableArray *multiMatrix = [NSMutableArray matrixA:matrix multiplyMatrixB:matrix];

    //get all the elements from the multiMatrix
    double m11 = [[[multiMatrix objectAtIndex:0] objectAtIndex:0] doubleValue];
    double m12 = [[[multiMatrix objectAtIndex:0] objectAtIndex:1] doubleValue];
    double m13 = [[[multiMatrix objectAtIndex:0] objectAtIndex:2] doubleValue];
    double m14 = [[[multiMatrix objectAtIndex:0] objectAtIndex:3] doubleValue];

    double m21 = [[[multiMatrix objectAtIndex:1] objectAtIndex:0] doubleValue];
    double m22 = [[[multiMatrix objectAtIndex:1] objectAtIndex:1] doubleValue];
    double m23 = [[[multiMatrix objectAtIndex:1] objectAtIndex:2] doubleValue];
    double m24 = [[[multiMatrix objectAtIndex:1] objectAtIndex:3] doubleValue];

    double m31 = [[[multiMatrix objectAtIndex:2] objectAtIndex:0] doubleValue];
    double m32 = [[[multiMatrix objectAtIndex:2] objectAtIndex:1] doubleValue];
    double m33 = [[[multiMatrix objectAtIndex:2] objectAtIndex:2] doubleValue];
    double m34 = [[[multiMatrix objectAtIndex:2] objectAtIndex:3] doubleValue];

    double m41 = [[[multiMatrix objectAtIndex:3] objectAtIndex:0] doubleValue];
    double m42 = [[[multiMatrix objectAtIndex:3] objectAtIndex:1] doubleValue];
    double m43 = [[[multiMatrix objectAtIndex:3] objectAtIndex:2] doubleValue];
    double m44 = [[[multiMatrix objectAtIndex:3] objectAtIndex:3] doubleValue];

    //Or you can use the NSLog to check the result 
    NSString *lineOne = [NSString stringWithFormat:@"%f, %f, %f, %f", m11, m12, m13, m14];
    NSString *lineTwo= [NSString stringWithFormat:@"%f, %f, %f, %f", m21, m22, m23, m24];
    NSString *lineThree = [NSString stringWithFormat:@"%f, %f, %f, %f", m31, m32, m33, m34];
    NSString *lineFour = [NSString stringWithFormat:@"%f, %f, %f, %f", m41, m42, m43, m44];

@rooftop, that's all the code

share|improve this question
What is "wrong" with the method? What results do you get when you use it? What were you expecting? How do you invoke the method? You really need to provide more information. – rooftop Feb 9 '12 at 16:54
Does it have to be done using Cocoa? I'm going out on a limb here and guessing that you're using either iOS or OS X: both have Accelerate.framework available, which has plenty of (very fast!) matrix multiplication support. – Sedate Alien Feb 10 '12 at 5:15
Any reason for doing this in ObjC? It's generally much easier to express this in C arrays than in NSMutableArray. I recommend starting with a 2x2 array, and stepping through the math to see where your bug is. – Rob Napier Feb 10 '12 at 20:34

If you're on iOS you might want to consider the matrix routines in GLKit

share|improve this answer

If you are familiar with MATLAB's vector operations (even if you are not), I would recommend you to check the Accelerate Framework, it is an optimized framework for digital signal processing.

Two great advantages:

  • They have that operation already implemented.
  • It's a more efficient way to do it, but apparently not for small matrixes, see the comments for further detail.

This is probably the function you are looking for:

vDSP_mmul: Performs an out-of-place multiplication of two matrices; single precision.

void vDSP_mmul (
   float *__vDSP_a,
   vDSP_Stride __vDSP_aStride,
   float *__vDSP_b,
   vDSP_Stride __vDSP_bStride,
   float *__vDSP_c,
   vDSP_Stride __vDSP_cStride,
   vDSP_Length __vDSP_M,
   vDSP_Length __vDSP_N,
   vDSP_Length __vDSP_P
Input matrix A.
The stride within __vDSP_a. For example if stride is 2, every second element is used.
Input matrix B.
The stride within __vDSP_b. For example if stride is 2, every second element is used.
The result matrix.
The number of rows in matrix A.
The number of columns in matrix B.
The number of columns in matrix A and the number of rows in matrix B.
This function multiplies an M-by-P matrix (A) by a P-by-N matrix (B) and stores the results in an M-by-N matrix (C).

This performs the following operation:

On the other side if writing the method yourself is a requirement, this post won't help you at all.

share|improve this answer
It's definitely not always more efficient. I've been testing Accelerate a lot lately, and for various kinds of matrices, particularly small ones like the poster's, it's far slower than hand-writing the code (3-4x slower). For what it's good at, it's fantastic, but it's not always a performance win. See… – Rob Napier Feb 10 '12 at 20:20
Didn't know that, thanks for the heads up, I've added a little comment to your comment in the post. :D – El Developer Feb 10 '12 at 20:22

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.