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I am writing a matlab mex function using c code. I am having a little trouble freeing allocated memory. I am having trouble with the following code. If I get rid of all the free() lines, the code works but I have memory leaks. This means that the code works only a few times before I run out of memory. All the functions called have pointers as inputs so I am never changing the address of the pointer within the functions. Am I making a mistake in the memory allocation/freeing procedure?

void RLS_(int *M, int *N, double *h, double *y, double *P, double *theta)
{

int i;
double *Ph;//[*M];
double hPh;
double inv;
double *inv1;
double *invPh;//[*M];
double *hTtheta;//[*N];
double *ymhTtheta;//[*N];
double **ADD;//[*M][*N];
double **invPhhT;//[*M][*M];
double **SUB;//[*M][*M];

Ph = (double *) malloc (*M * sizeof(double));
if (Ph == NULL)
    return;

invPh = (double *) malloc (*M * sizeof(double));
if ( invPh == NULL)
    return;

hTtheta = (double *) malloc (*N * sizeof(double));
if (hTtheta == NULL)
    return;

ymhTtheta = (double *) malloc (*N * sizeof(double));
if (ymhTtheta == NULL)
    return;

ADD = (double **) malloc (*M * sizeof(double *));
if (ADD == NULL)
    return;
for (i=0;i<*M;i++)
{
    ADD[i] = (double *) malloc(*N *sizeof(double));
    if (ADD[i] == NULL)
        return;
}
invPhhT = (double **) malloc (*M * sizeof(double *));
if (invPhhT == NULL)
    return;
for (i=0;i<*M;i++)
{
    invPhhT[i] = (double *) malloc(*M *sizeof(double));
    if (invPhhT[i] == NULL)
        return;
}
SUB = (double **) malloc (*M * sizeof(double *));
if (SUB == NULL)
    return;
for (i=0;i<*M;i++)
{
    SUB[i] = (double *) malloc(*M *sizeof(double));   
    if (SUB[i] == NULL)
        return;
}


matvectmult_(M,M,P,h,Ph);                  

hPh = vectordot_(M,h,Ph);                   

inv = 1/(1+hPh); inv1 =&inv;

scalarmult_(M,inv1,Ph,invPh);               

vectmatmult_(M,N,theta,h,hTtheta);          

vectorsub_(N,y,hTtheta,ymhTtheta);          

vectvectmult_(M,N,invPh,ymhTtheta,*ADD);    

vectvectmult_(M,M,invPh,h,*invPhhT);     

matmulc_(M,M,M,*invPhhT,P,*SUB);           

// Update theta
matrixadd_(M,N,theta,*ADD,theta);

// Update P
matrixsub_(M,M,P,*SUB,P);               

free(Ph);
free(invPh);
free(hTtheta);
free(ymhTtheta);
for (i=0;i<*M;i++)
    free(ADD[i]);
free(ADD);
for (i=0;i<*M;i++)
    free(invPhhT[i]);
free(invPhhT);
for (i=0;i<*M;i++)
    free(SUB[i]);
free(SUB);
}
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1  
I dont see anything MATLAB or MEX related, this is pure C.. Perhaps you can use MEX API functions to allocate memory like mxMalloc (which is automatically freed by MATLAB memory manager upon MEX-function exit). –  Amro Jun 13 '13 at 1:22
    
Why are you not using mxMalloc and mxFree? Are you using "mex.h"? –  horchler Jun 13 '13 at 1:55
    
Because I didnt know those existed. Is there any benefit to using mxMalloc instead of malloc? –  user2480446 Jun 13 '13 at 1:56
2  
Straight from the documentation: "mxMalloc allocates contiguous heap space sufficient to hold n bytes. Use mxMalloc instead of the ANSI® C malloc function to allocate memory in MATLAB applications." Any memory that is passed from mex code back into Matlab should be allocated this way. Straight C versions can work, but there'll be issues and you might not discover them until later. –  horchler Jun 13 '13 at 2:20
    
Because you are allocating and freeing the memory locally, you do not need to use mxMalloc--you're not passing any of these objects back to MATLAB. –  Nathan Henkel Jun 14 '13 at 3:20
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2 Answers

Here's one point - you have many, many return statements and you don't ever free any memory before any of these calls. For example, if if invPh is NULL, then the memory allocated for Ph will not be released.

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Good point in general, but all those early returns in this particular code only get hit in the case of malloc failure, in which case he's already run out of memory, so they're unlikely to be the root cause of the leak. –  Andrew Janke Jun 15 '13 at 5:22
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Considering what @Owen said, I would put your malloc statements in a do-while loop that only executes once, and replace all of your return statements with break instead.

do {
    // mxMalloc
    if (someVar[i] == NULL)
        break;

    // etc...
    // The real meat of your code inside the do-while loop
} while 0 == 1;
// mxFree functions out here

I am a little rusty on coding mex functions. There is probably a better practice for doing this, but that might help.

You also probably need to check that each of the variables you are trying to free is != NULL as well, although the free function might do this automatically.

EDIT: Changed the above code. I think @horchler in the comments said it best: you should use mxMalloc and mxFree instead of malloc and free.

share|improve this answer
    
There is a problem here. free(NULL) is by definition a no-op, so there's no reason to check for it. However, if you use this do/while/break logic, in the case of an early break, any of the variables that didn't get allocated yet will have uninitialized contents, so you could end up calling free() on a random pointer, which is undefined behavior (i.e. a possibly memory-corrupting bug). This is probably not a good approach unless extra guards or initialization are added. Factoring out deallocation to a separate function might be an alternative. –  Andrew Janke Jun 15 '13 at 5:33
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