# Using modulus operator to keep within indices of container

Assume I have a vector v with m elements in it, and a random access index to the vector called i.

When I increment the index, if it goes out of bounds, I want to index the first (zeroth) element. Similarly, when I decrement the index, if the index is < 0, I want to index to last element. At the moment I'm only moving through the container one element at a time, so came up with this function:

``````unsigned int GetIndexModM(int index,unsigned int m) {return (index + m) % m;}
``````

The call-site might look like this:

``````std::vector<Whatever> v = ... // initialise with 5 elements
unsigned int i = 0;
unsigned int j = GetIndexModM(static_cast<int>(i) - 1,v.size()); // get preceeding index
``````

This function will fail however if one subtracts a value > m from index:

``````unsigned int j = GetIndexModM(static_cast<int>(i) - 17,v.size()); // oops: returns -2
``````

My question: What's the most elegant implementation of a function that takes any integer and returns it's place as an index?

The trick for handling MOD is this, which works with positive as well as negative numbers:

``````  val = ((val % mod_val) + mod_val) % mod_val;
``````

For example, assume we want to keep value between 0 and 359 inclusive. We could use this:

``````  val = ((val % 360) + 360) % 360;
``````

Here's a simple example in C++.

``````int getmod(int val, int mod) {
return ((val % mod) + mod) % mod;
}

int main() {
printf("%d\n", getmod(50,360));   // prints 50
printf("%d\n", getmod(-400,360)); // prints 320
printf("%d\n", getmod(350,360));  // prints 350
printf("%d\n", getmod(375,360));  // prints 15
printf("%d\n", getmod(-725,360));  // prints 355

return 0;
}
``````
• On some platforms, it might be faster to avoid the second modulo operation, at the cost of a comparison: `val = val % mod; return val < 0 ? val + mod : val;` Commented Jul 20, 2011 at 16:29
• Does this work when `val < -mod_val`, or does it only handle negative integers with `-mod_val < val < 0`? The modulus handles this correctly on the positive side. Commented Jul 20, 2011 at 16:32
• @Andre Caron - It works in that scenario, I added another example (see last printf).
– dcp
Commented Jul 20, 2011 at 16:35
• @dcp: Ah, I see! You add after the first modulus. Nice. Commented Jul 20, 2011 at 16:58
• I have before just added a multiple of 'mod_val' large enough to ensure the mod is performed in positive space, eg. (val+3600)%360 works until val < -3600. This could be quicker than 2 mods if the modval is fixed or is shiftable to the size required. Commented Jul 20, 2011 at 17:46

Unfortunately, C++ doesn’t implement a proper modulus that still works correctly for negative integers.

I think the cleanest solution is indeed using `if` to take care of all cases properly. This at least makes the code obvious (because every case is explicit) and errors easier to find:

``````unsigned GetIndexModM(int index, unsigned m) {
if (index < 0)
return GetIndexModM(index + m, m);
if (index >= m)
return index % m;
return index;
}
``````
• That's very inefficent if `index` is large and negative. Commented Jul 20, 2011 at 16:22
• I tried your function with arguments -400,360 and I got 216 returned, but the answer should be 320.
– dcp
Commented Jul 20, 2011 at 16:23
• @Mike That’s right – if this is a common use-case the function needs to be rewritten. On the other hand, for negative numbers close to zero this could actually be faster than the modulus method. Commented Jul 20, 2011 at 16:31

The following ensures that `index` is in [0,`n`) but with only one modulus operation and no branches:

``````index = index % n + (index < 0)*n
``````

where the first term (containing the modulus operator) gets the value into (`-n`,`n`) and the second term ensures that the value is in [0,`n`).

Note that this is unreliable when `n` is an unsigned type and in older (pre-11) versions of C++ where the % operator is implementation dependent for negative arguments.