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I am trying to index write an external c++ function for MATLAB using mex to manipulate matrices, and am not able to use multidimensional indexing. There are examples provided here, but I have not found how to fix the problem I describe below. I have a sample matrix:

>> mat
mat =
 1    10
 2    20
 3    30
 4    40
 5    50

Currently I use a linear index through the matrix which works:

#include <mex.h>
#include <iostream>
using namespace std;
void mexFunction(int nlhs, mxArray *plhs[], int nrhs, const mxArray *prhs[]) 
 //1.get pointer to input graph_list and allocate it    
    double *graph_list = mxGetPr(prhs[0]);
    mwSize mrows = mxGetM(prhs[0]);
    mwSize ncols = mxGetN(prhs[0]);  
    cout<< mrows<<" rows\n";
    cout<< ncols<<" cols\n";
    int mm, nn;
    for (nn=0;nn<ncols;nn++) {
        for (mm=0;mm<mrows;mm++){
            cout << graph_list[nn*(mrows) +mm]  <<"\n";            

This produces:

>> mexTryAlex(mat)    
5 rows
2 cols

When I change the definition of graph_list and try 2D indexing to graph_list there is a compilation error with mex:

double **graph_list = mxGetPr(prhs[0]);
cout << graph_list[nn][mm];

EDIT: here is the error message received

>> mex mexTryAlex.cpp
Warning: You are using gcc version "4.4.3-4ubuntu5)".  The version
     currently supported with MEX is "4.3.4".
     For a list of currently supported compilers see: 
mexTryAlex.cpp: In function ‘void mexFunction(int, mxArray**, int, const mxArray**)’:
mexTryAlex.cpp:16: error: cannot convert ‘double*’ to ‘double**’ in initialization
mex: compile of ' "mexTryAlex.cpp"' failed.
??? Error using ==> mex at 208
Unable to complete successfully.
share|improve this question
the compilation error being...? –  Rody Oldenhuis Apr 22 '13 at 11:24
Well, I guess since mxGetPr(prhs[0]) is a pointer (and not a pointer-to-pointer), you're getting a 'double dereference' type of error or not? –  Rody Oldenhuis Apr 22 '13 at 11:26
@RodyOldenhuis, I added the error message in the EDIT I just put –  Vass Apr 22 '13 at 12:00

3 Answers 3

up vote 4 down vote accepted

The compiler says it all.

In C, a 2D array is like an array of arrays. Therefore, a 2D array is fundamentally different from a 1D array; it's an array of pointers, in which each element contains a pointer to an array (hence a double-pointer, double**).

You're asking mxGetPr() to return a double**, but it returns a double*, e.g., a pointer to the first element of a 1D array. This 1D array can only be indexed linearly.

My guess is that MATLAB does this it this way to keep indexing arrays consistent -- would you really expect/want a double**** for a 4-D array?

Moreover, mxGetPr() cannot be overloaded by return type (it's C after all).

In order to be able to double-index a 1D array, you could sneak in a little macro:

#define A(i,j) A[(i) + (j)*numrows]

and use it like so

double *A = mxGetPr(...);
int numrows = 4;   /* or get with mxGetM() or so) */

double blah = A(3,2); /* call to MACRO */

Obviously, as with all macros, there's a few things to look out for:

  1. there's no bounds checking
  2. C is 0-based, and Matlab 1-based, making all indices different
  3. All arrays will have to be called 'A'

You could write a function to mitigate these drawbacks:

double getValue(double** array, int row, int* dims);

(or use mxCalcSingleSubscript as pointed out by Shai), but that doesn't really improve expressive power IMHO:

double blah = getValue(array, 3,4, dims);
/* or the ugliness from mxCalcSingleSubscript(); */

You could also write in C++, make a Matrix-type class with an operator(), construct it with the pointer and dimensions from mxGetPr() and mxGetDims() etc., compile in Matlab using g++ or equivalent, but that introduces a whole host of other problems and adds way much more complexity than needed for most cases.

Therefore, to avoid all of this mess, I just always compute the index in-place :)

share|improve this answer
wow, thanks, I was fighting with that for too long –  Vass Apr 22 '13 at 12:20
@Vass: Glad to help. Often StackOverflow is the fastest and best solution for when you're stuck :) –  Rody Oldenhuis Apr 22 '13 at 12:44
I know this answer from last year, but I am having a hard time working out why it is numRows/mxGetM not numCols/mxGetN in #define A(i,j) A[(i) + (j)*numrows] –  Samuel O'Malley Nov 6 '14 at 2:58
@SamuelO'Malley that's because the array has row-major ordering, that is, down the rows first, and down the columns second. So just break it down: if the array is 3×4, and you want to address the element on the second row, first column, then i==1 (second row) and j==0 (right?). When addressing the element on the first row, second column, i==0 (first row) and j==3 (it is "wrapped" with an offset equal to the number of rows, that stays constant for increasing i, until i>2). –  Rody Oldenhuis Nov 11 '14 at 10:08
Thanks @RodyOldenhuis, I was thinking that because it was C++ that it was column major ordering but I didn't realise that it was how MATLAB interprets it that matters. –  Samuel O'Malley Nov 11 '14 at 23:44

As pointed out by Rody, mxGetPr returns a pointer to a 1D array. Therefore, you cannot treat it as a 2D array in C++.
What you can do is use mxCalcSingleSubscript function to convert N-D subscripts to a single 1D index.

share|improve this answer
@Sahi, I am not sure I understand. I want to used N-D subscripts but they don't work –  Vass Apr 22 '13 at 12:13
@Vass - N-D subscripts in the C++ sense (i.e., graph_list[mm][nn]) will not work since graph_list is 1-D C++ array (regardless of the dimensionality of the mxArray from which it is derived). You may circumvent this restriction using mxCalcSingleSubscripts - see doc for this command for more details. –  Shai Apr 22 '13 at 12:16

Having a matrix class is the by far easiest way to deal with this kind of problems. There are plenty to choose from so don't bother writing your own. Armadillo is fairly good and also integrates with LAPACK if you use that. http://arma.sourceforge.net/docs.html

See example below

#include <mex.h>
#include <iostream>
#include <armadillo>
using namespace std;
using namespace arma;

//creates an armadillo matrix from a matlab matrix
mat armaMatrix(const mxArray *matlabMatrix[]){
    mwSize mrows = mxGetM(matlabMatrix[0]);
    mwSize ncols = mxGetN(matlabMatrix[0]);
    double *values = mxGetPr(matlabMatrix[0]);

    return mat(values, nrows, ncols);

void mexFunction(int nlhs, mxArray *plhs[], int nrhs, const mxArray *prhs[]) 
    mat graph_list = armaMatrix(prhs);

    //print the matrix
    cout << graph_list<<"\n";
    //print the first column
    cout << graph_list(span::all,0) <<"\n";
share|improve this answer
With slightly more code, it's also possible for Armadillo to directly use the memory of a Matlab matrix, ie. no copying. See the docs here –  mtall Aug 12 '13 at 8:29

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