How to find maximum area among given triangles on C++

The input should be n - the number of triangles (1 <= n <= 20) and afterwards n rows of three doubles each (corresponding to each of the triangles' sides). The output should be the "n" which has the maximum triangle area.

``````#include <iostream>
#include <math.h>
using namespace std;

const int MAX_SIZE = 20;

int main()
{
int n, s, p;
double max = 0;
cin >> n;
int x[MAX_SIZE];
for (int i = 0; i < n; i++)
{
double y[2];
for (int j = 0; j < 3; j++)
cin >> y[j];
p = (y[0] + y[1] + y[2]) / 2;
s = sqrt(p * (p - y[0]) * (p - y[1]) * (p - y[3]));
if (s >= max) max = s;
}
cout << max;
return 0;
}
``````

That's what I've done so far. "p" stands for semiparameter by the way.. - I'm using Heron's formula. I haven't even got it to "cout" the n in which the area is max but rather the maximum area itself, yet it doesn't work but gives me a massive error instead. Any ideas?

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First write code that calculates the area of a triangle, and write code that can find the maximum in a sequence. When both of those parts are working perfectly, then combine them. –  Beta Jan 20 '14 at 19:26

You've got a few problems:

• You need to change `s` and `p` from `int`s to `double`s (otherwise you'll get unwanted truncation of your results).
• You need to change `double y[2];` to `double y[3];` (since you need three side lengths, not two).
• Change `s = sqrt(p * (p - y[0]) * (p - y[1]) * (p - y[3]));` to `s = sqrt(p * (p - y[0]) * (p - y[1]) * (p - y[2]));` (since `y[3]` is out of bounds of your array).

Note also that you can get rid of your array `x`, since you don't seem to actually use it anywhere.

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Thanks! I answered to my thread referring to a new problem. Could you help me out? I'm commenting on this as I don't know whether you get a notification for my answer or not. I'm kinda new here. –  user3213110 Jan 20 '14 at 15:38

You are allocation only 2 doubles. You need 3, try `double y[3]`.

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