
if you write out the indices, what you have is an ndigit number in base n (almost  there's an offset of 1 because you are using 1based indices in fortran). and what you are asking for is every possible value that number can take.
in other words, if we use 0based indices for a moment for simplicity, you have:
 n=2, values=00,01,10,11 (binary counting from 0 to 3)
 n=3, values=000,001,002,010,011,012,020,021,022, 100,101,102,110,111,112,120,121,122, 200,201,202,210,211,212,220,221,222 (ternary(?) counting from 0 to 26)
so what you are asking is how to do this in the general case.
and you can do that by using an array to hold the n digits, starting at [0,0....0]. then, within a "while" loop (which will replace your n nested for loops), try to increment the rightmost entry (digit). if that is equal to n, then go back to zero and increment to the left. once you manage to increment a value without reaching n then you are "done" and can use the numbers as your indices.
it's pretty simple  you're just adding 1 each time.
then, for fortran's 1based indexing, add 1 to each digit. in other words, change the above to start with 1s and move left at n+1.
for example, for n=4:
 start with [1,1,1,1]
 do your inner loop action
 increment rightmost to [1,1,1,2]
 do your inner loop action
 increment rightmost to [1,1,1,3]
 do your inner loop action
 increment rightmost to [1,1,1,4]
 do your inner loop action
 increment rightmost to [1,1,1,5]
 the digit you incremented is now at n+1, which means back to 1 and increment digit to left [1,1,2,1]
 do your inner loop action
 increment rightmost to [1,1,2,2]
 do your inner loop action
 etc..


answered Feb 18 '12 at 22:35

