I am designing a highly inefficient magic square solver, it tells you the *number of solutions* to the 3x3 square. Essentially I have to fill each element in a 3x3 array till a certain number (say, 16) and then reset, move on to the next element and fill them both like a two digit number gets incremented. I have managed to achieve this through using 9 for loops, one for each element. But what if I wanted to do a 5x5 square, do I have to write 25 loops?

The for loop part of the code is below. Is there a way to summarize this and for-loop through the for loops so to speak?

```
for (sq9=1; sq9<17 ; sq9++) {
for (sq8=1; sq8<17 ; sq8++) {
for (sq7=1; sq7<17 ; sq7++) {
for (sq6=1; sq6<17 ; sq6++) {
for (sq5=1; sq5<17 ; sq5++) {
for (sq4=1; sq4<17 ; sq4++) {
for (sq3=1; sq3<17 ; sq3++) {
for (sq2=1; sq2<17 ; sq2++) {
for (sq1=1; sq1<17 ; sq1++) {
if ( check_the_square() ) count++;
}}}}}}}}}}
```

`std::next_permutation`

cplusplus.com/reference/algorithm/next_permutation – cocarin Apr 4 '13 at 20:34