Apologies, I realized after I posted this your aversion to excessive malloc (or calloc) statements. The code uses excessive numbers of this statement, which will require excessive cleanup (free statement). I will leave the post in case you can use some part of it.
Ryk

Here is some code that is illustrative for dynamically creating and allocating space for matrices. They also show a pattern for successively larger dimensioned matrices. Note, the argument list includes only the desired size (order) of each index; i.e. row (r), then c,r (column, row) then p,c,r (page, column, row) and so on. Note these functions also replace malloc, with calloc, just a preference.
Regards,
Ryk

```
double * Create1D(int r)
{
double *space;
double *arr;
space = calloc(r*sizeof(double), sizeof(double));
arr = calloc(sizeof(double), sizeof(double));
arr = (double *)space;
return arr;
}
double ** Create2D(int c, int r)
{
double *space;
double **arr;
int y;
space = calloc(c*r*sizeof(double), sizeof(double));
arr = calloc(c * sizeof(double *), sizeof(double));
for(y=0;y<c;y++)
{
arr[y] = (double *)space + (y*r);
}
return arr;
}
double *** Create3D(int p, int c, int r)
{
double *space;
double ***arr;
int x,y;
space = calloc (p*c*r*sizeof(double),sizeof(double));
arr = calloc(p * sizeof(double **), sizeof(double));
for(x = 0; x < p; x++)
{
arr[x] = calloc(c * sizeof(double *),sizeof(double));
for(y = 0; y < c; y++)
{
arr[x][y] = ((double *)space + (x*(c*r) + y*r));
}
}
return arr;
}
double **** Create4D(int hR, int p, int c, int r)
{
double *space;
double ****arr;
int w,x,y;
space = calloc(hR*p*c*r*sizeof(double), sizeof(double));
arr = calloc(hR * sizeof(double ***), sizeof(double));
for(w=0;w<hR;w++)
{
arr[w] = calloc(p * sizeof(double **), sizeof(double));
for(x=0;x<p;x++)
{
arr[w][x] = calloc(c * sizeof(double *), sizeof(double));
for(y=0;y<c;y++)
{
arr[w][x][y] = ((double *)space + (w*(p*c*r) + x*(c*r) + y*r));
}
}
}
return arr;
}
double ***** Create5D(int hC, int hR, int p, int c, int r)
{
double *space;
double *****arr;
int v,w,x,y;
space = calloc(hC*hR*p*c*r*sizeof(double),sizeof(double));
arr = calloc(hC * sizeof(double ****),sizeof(double));
for(v=0;v<hC;v++)
{
arr[v] = calloc(hR * sizeof(double ***),sizeof(double));
for(w=0;w<hR;w++)
{
arr[v][w] = calloc(p * sizeof(double **),sizeof(double));
for(x=0;x<p;x++)
{
arr[v][w][x] = calloc(c * sizeof(double *),sizeof(double));
for(y=0;y<c;y++)
{
arr[v][w][x][y] = ((double *)space + (v*(hR*p*c*r) + w*(p*c*r) + x*(c*r) + y*r));
}
}
}
}
return arr;
}
double ****** Create6D(int hP, int hC, int hR, int p, int c, int r)
{
double *space;
double ******arr;
int u,v,w,x,y;
space = calloc(hP*hC*hR*p*c*r*sizeof(double),sizeof(double));
arr = calloc(hP * sizeof(double *****),sizeof(double));
for(u=0;u<hP;u++)
{
arr[u] = calloc(hC * sizeof(double ****),sizeof(double));
for(v=0;v<hC;v++)
{
arr[u][v] = calloc(hR * sizeof(double ***),sizeof(double));
for(w=0;w<hR;w++)
{
arr[u][v][w] = calloc(p * sizeof(double **),sizeof(double));
for(x=0;x<p;x++)
{
arr[u][v][w][x] = calloc(c * sizeof(double *),sizeof(double));
for(y=0;y<c;y++)
{
arr[u][v][w][x][y] = ((double *)space + (u*(hC*hR*p*c*r) + v*(hR*p*c*r) + w*(p*c*r) + x*(c*r) + y*r));
}
}
}
}
}
return arr;
}
```