# Using one-dimesional array in recursion C++

Recently i've been working on partition problem. I've done a research and I found that it can be solved using an algorithm on wiki page. Here's the pseudo algorithm:

``````   INPUT:  A list of integers S
OUTPUT: True if S can be partitioned into two subsets that have equal sum
1 function find_partition( S ):
2     N ← sum(S)
3     P ← empty boolean table of size (\lfloor N/2 \rfloor  +  1) by (n + 1)
4     initialize top row (P(0,x)) of P to True
5     initialize leftmost column (P(x, 0)) of P, except for P(0, 0) to False
6     for i from 1 to \lfloor N/2 \rfloor
7          for j from 1 to n
8          P(i, j) ← P(i, j-1) or P(i-S[j-1], j-1)
9     return P(\lfloor N/2 \rfloor , n)
``````

Using recursion you can calculate if certain sum from integers in array can be reached, if it can be reached it returns true. I start with sumOfTheIntegers/2 and i go back to 0, until I find a solution. When i found the biggest possible sum of the integers that is lower or equal to the average i calculate the difference between the the 2 groups of integers with (average-lowestSumLowerorEqualtoAverage)*2.

But then I confront with problem how can I include one dimensional array in the recurssion?

Here's the code, it should probably work, but i haven't tested it yet, because of the problem. So maybe the code contains small errors. But that's not the problem, I'll fix it later.

``````#include <iostream>
#include <cmath>
using namespace std;
bool matrix (int a, int b)
{
if(b == -1)  return true;
else if (a == -1) return false;
else if(matrix(a-1, b) == true) return true;
else if(matrix(a-1,b-numbers[a-1]) == true) return true;
else return false;
}
int main()
{
int number, sum = 0;
cin >> number;
int numbers[number];
for(int i = 0; i<number; i++)
{
cin >> numbers[i];
sum += numbers[i];
}
double average = sum/2.0;
for(int i = floor(sum/2); i!= 0; i--)
{
if(matrix(number+1, i) == true)
{
cout << abs(average-i)*2;
break;
}
}
return 0;
}
``````
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That seems way over complicated for this. Couldn't you solve this with an O(2N) solution by summing all the numbers, dividing by 2 to see if it's even (if not, there's no way to divide equally with ints), then subtract one number at a time from one end of the loop to the other until the two sub-arrays are equal or you find they can't be? –  Tawnos Mar 8 at 22:48

The easiest (but certainly not the best) way is to introduce a global variable:

``````#include <vector>
std::vector<int> numbers;

/* ... */

int main(){
int number;
cin >> number;
numbers.resize(number);
/* ... */
}
``````

Another possibility is to use an additional parameter:

``````bool matrix (int a, int b, const std::vector<int>& numbers)
{
if(b == -1)  return true;
else if (a == -1) return false;
else if(matrix(a-1, b,numbers) == true) return true;
else if(matrix(a-1,b-numbers[a-1],numbers) == true) return true;
else return false;
}
``````

Note that `int numbers[number]` is actually using a compiler-specific extension (VLA) and is not part of the C++ standard (see Does C++ support Variable Length Arrays? and Variable length arrays in C++?).

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``````bool matrix (int a, int b, int num_arr[])