# 2-d array of doubles failed to initialize

I am making several calls to a function that initializes 2-d arrays of doubles. The first three calls are successful, but the fourth call fails. Code is:

``````double **scmass;
double **scdv;
double **dvmatches;
double **zpp;
``````

...

``````scmass = init_d2darr(numrow,numcol);
scdv = init_d2darr(numrow,numcol);
dvmatches = init_d2darr(numrow,numcol);
zpp = init_d2darr(numrow,numcol);
``````

...

``````double ** init_d2darr(int isize, int jsize) {
int m,n;
printf("in array initialize 1\n");
printf("isize: %i\njsize: %i\n",isize,jsize);
/* how many rows */
double **arr = (double **)malloc(sizeof(double *) * isize);
printf("after row initialization\n");
if (arr == NULL) {
printf("malloc failed for arr in init_d2darr.\n");
return NULL;
}
else {
/* now how many cols */
for (m=0; m<=isize; m++) {
arr[m] = (double *)malloc(sizeof(double) * jsize);
if (arr[m] == NULL) {
printf("malloc failed for arr[%d] in init_d2darr.\n",m);
return NULL;
}
else {
/* initialize all to zero */
for (n=0; n<jsize; n++) {
arr[m][n] = 0;
}
}
}
}
printf("in array initialize 2\n");
return arr;
``````

Output looks like:

``````in array initialize 1
isize: 20
jsize: 21
after row initialization
in array initialize 2
in array initialize 1
isize: 20
jsize: 21
after row initialization
in array initialize 2
in array initialize 1
isize: 20
jsize: 21
``````

The program actually runs all the way through when in debug mode, however, when I make a release executable and attempt to run it, the program crashes and I get the error "A problem caused the program to stop working correctly. Please close the program." I'm on windows vista with Visual C++ 2008 Express Edition. Could anyone give me any advice? Thanks!

Edit: the declaration of the function (in a header file) is

``````double ** init_d2darr(int isize, int jsize);
``````
-

``````for (m=0; m <= isize; m++)
``````

this should be:

``````for (m=0; m < isize; m++)
``````
-
Yeah, I saw that, but why would that make it crash on the fourth call (or any call)? Wouldn't that just give me an extra place in the array? –  Jade Jan 11 '11 at 20:31
Oh wait, I see. I size the first dimension to isize, but then I'm trying to access and initialize the isize+1 position, which I'm assuming for my hard drive that position happens to be occupied, and doesn't want to be overwritten. Thanks! –  Jade Jan 11 '11 at 20:37
``````class double_array {
double* arr;
int arrsize;
public:
double_array(int newsize) {
arr = new double[newsize];
arrsize = newsize;
for(int i = 0; i < arrsize; i++)
arr[i] = 0;
}
double_array(const double_array& other) {
arr = new double[arrsize = other.arrsize];
for(int i = 0; i < arrsize; i++)
arr[i] = other.arr[i];
}
double& operator[](int index) {
#ifdef _DEBUG
if (index >= arrsize)
throw std::runtime_error("Attempted to access array out of bounds!");
#endif
return arr[index];
}
const double& operator[](int index) const {
#ifdef _DEBUG
if (index >= arrsize)
throw std::runtime_error("Attempted to access array out of bounds!");
#endif
return arr[index];
}
int size() {
return arrsize;
}
~double_array() {
delete[] arr;
}
};
std::vector<double_array> scmass(numrows, numcols);
std::vector<double_array> scdv(numrows, numcols);
std::vector<double_array> dvmatches(numrows, numcols);
std::vector<double_array> zpp(numrows, numcols);
``````

Easy.

-