A cheap way of keeping your existing code is to use memoization. Your code is fairly easy to write in a loop, and that should probably be your preferred method in this case, but memoization is good to know about.
The idea is to store the results of expensive computations in a cache and later retrieve them to save time (or resources).
In the case of your code, each time numereus is called it stores its answer in an array. If numereus is later called with the same arguments it checks to see if it has an answer in the array and, if so, returns that answer without doing further recursion or calculation.
To answer your question, we can repeatedly call numereus with ever larger values to build up the cache. This prevents the possibility of stack overflows and still works in O(N) time because each call to numereus(i) is able to get the cached value of numereus(i-1).
Granted, you're going to burn a lot of memory building a cache this large. One way to deal with that is to cache only every xth value. For instance, you could cache only inputs from even numbers. This halves the amount of storage space you need while doubling your recursion depth.
In the case of your question, the following untested code could work:
#include <iostream>
#include <algorithm>
#include <cmath>
#include <fstream>
#include <vector>
using namespace std;
ifstream fin ("smen.in");
ofstream fout ("smen.out");
unsigned long long int n, k;
int mod = 666013;
int numereus(std::vector<int> &memoized, int n){
if(memoized[n]!=-1)
return memoized[n];
if (n > 0){
k = numereus(memoized,n-1) % mod;
return memoized[n]=((((((((k*k)% mod)/((n%mod+2) % mod))%mod)+(k*(n%mod))% mod)% mod) + (n % mod)) % mod + 1) % mod;
} else {
return 3;
}
}
int main()
{
std::vector<int> memoized(10000000);
//I use -1 as a place holder here. Just make sure this is a value your function can never produce
std::fill(memoized.begin(),memoized.end(),-1);
cin >> n;
for(int i=0;i<n;i++) //Build table of answers
numereus(memoized,i);
cout << numereus(memoized,n);
return 0 ;
}
