# JavaScript Codility Demo Solution

I was looking at the demo Equi task on Codility last night and scored 12/100 for the following function:

``````function solution(A) {
var n = A.length;
var p = 0;
var sum = 0;
var sumLeft = 0;
var sumRight = 0;
var equilExists = 0;

if (n == 0) {
return -1;
}

for (i=0; i<=n; i++) {
sum = A[i];
for (j=0; j<=n; j++) {
if (j < i) {
sumLeft += A[j];
} else if (j > i) {
sumRight += A[j];
}
if (sumLeft == sumRight) {
equilExists = 1;
p = i;
return p;
}
}
}

if (equilExists == 0) {
return -1;
}
}
``````

For those of you not familiar with the task it can be found at http://blog.codility.com/2011/03/solutions-for-task-equi.html

I was wondering if anyone could help point out where my solution falls down?

Many thanks!

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Your solution fails mainly due to the reason that it can always detect only the first index which is in equilibrium.

For example, if there is a sequence having equilibrium at index 3 and 6 both, but if we apply your solution to this sequence then it will always return 3 only and never provide 6 also as an answer.

This is due to the reason that you are not storing anywhere the indices already found to be in equilibrium and moving ahead of them. Either you need to use recursion or maintain some storage for indices already found to be having equilibrium and modify your solution accordingly to catch all such indices and not just the first one.

Also, there are few variables defined but never used in your answer, like sum variable, causing an unessential overhead.

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The problem only asks for one equilibrium point. –  Carsten S Aug 24 '13 at 21:40

First of all, your function always returns 0 (if n>0). This is because you put the `if (sumLeft == sumRight)` inside the inner for-loop.
If you fix this, you still have a problem, because the variables `sumLeft` and `sumRight` are not initialized before the inner for-loop. If you fix these problems, the function is at least correct, and it scores 75 points. However, your algorithm is clearly quadratic. To remedy this you would have to ask yourself how the left and right sum change when you increase `i` by one. Is it necessary to recalculate both from scratch?

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I scored 100% with this solution, it is in C++ but you'll see the algorithm. The first thing I do is to create a vector of the running sum of the array, I then use this to check for the edge cases first, then loop the whole array for the first equi index. The complexity will then always be O(n).

``````'   #include <vector>

using namespace std;

long long Sum(vector<int>::const_iterator begin, vector<int>::const_iterator end, vector<long long>& sums)
{
long long sum = 0;
for(vector<int>::const_iterator it = begin; it != end; it++)
{
sum += (long long) (*it);
sums.push_back(sum);
}
return sum;
}

int solution(vector<int> &A)
{
vector<long long> sums;

long long allSum = Sum(A.begin(), A.end(), sums);

int N = sums.size();

if(N==0)
return -1;

if(N==1 && allSum == 0)
return 0;

if(N > 1)
{
if(sums[N-2] == 0)
return N-1;
}

if((allSum- sums[0]) == 0)
return 0;

long long prefixSum = 0;
for(int i = 1; i < N; ++i)
{
prefixSum = sums[i-1];

if(prefixSum == 0 && i == N-1)
return i;

if(prefixSum == (allSum - sums[i]))
return i;
}

return -1;
}
``````

'

-

The biggest problem with your solution is that nested loop.

You iterate over the whole array at each index to calculate the sum of left and right parts at current index. One of their requirements is O(n) complexity, while yours is O(n^2) (i think).

You only need to loop over the array twice: once to get the sum of elements and once to find the equilibrium. At the start of the second loop the sum on the left == 0 and the sum on the right == total. Iterating over the elements you just need to update the sums: the right sum = total - left sum - value at the current index, then you compare if right == left and if not - the left sum grows by the value at current index.

I've scored 100pts for this one:

``````function solution(A) {
var total = (function(a){ var l = a.length, s = 0; while(--l>-1){ s+=a[l] } return s; }(A)),
eq = -1,
l = A.length,
Lsum = 0,
Rsum = 0;
A.forEach(function(n,i){
Rsum = total - Lsum - n;
if(Rsum == Lsum){ eq = i; /* in fact no need to continue, should terminate here. */ }
Lsum += n;
});
return eq;
}
``````
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``````class Solution {
public int solution(int[] A) {
if(A.length < 1) {
return -1;
}
double leftSum = 0, sum = 0;
for(int i=0; i<A.length; i++) {
sum += A[i];
}
for(int i=0; i<A.length; i++) {
if(leftSum == sum - leftSum - A[i]) {
return i;
}
leftSum += A[i];
}
return -1;
}
``````

}

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