# Random garbage ouput when trying to find the minimum distance between points in an array

I'm trying to find the minimum distance between points (distance between 2 points in a 2D - plane: distance from `(x1, y1) to (y1, y2))`, which are stored in array `arr` and then calculate and return the minimum of those distances.

However, the problem is that my source code produces a random garbage output.

The idea is to get the distance between points `(x1, y1) and (x2, y2)` with the formula: `sqrt((x1 - x2)^2 + (y1 - y2)^2)`. To do this I select 4 elements for each iteration: `x1 = arr, x2 = arr, y1 = arr, y2 = arr`. `x1` and `x2` stays constant for each iteration (of `i`) while the distance between `x1, x2` and `y1, y2` (varies for every unique iteration of `j`) is calculated. Finally, the shortest distance between the two points are chosen and is returned to `main()`.

What have I done to solve this mess?

Including debugging statements in the source code reveals that the main culprit are the random garbage values (that shouldn't even exist, literally!).

Another culprit is that `sqrt(arg)` is giving out a random garbage value. For example, when calculating the distance between `(4, 4)` and `(1, 100)`, the result is `sqrt(0 + (-99)^2) = 99`. But instead it ouputs `-2147483648`.

Here's my code:

``````#include<iostream>
#include<vector>
#include<cmath>
using std::sqrt;
using std::cin;
using std::cout;
using std::endl;
using std::vector;
int dist_cal(vector<int>&, int);

int main()
{
int num_pairs = -1;
cout << "Enter the number of pairs of point co-ordinates (x, y) that you want to enter: " << endl;
cin >> num_pairs;

vector<int> points;
cout << "Now enter the (x, y) co-ordinate pairs: " << endl;
for (int i = 0; i < num_pairs * 2; i++)
{
int buff;
cin >> buff;
points.push_back(buff);
}

cout << "The minimum distance between the array of points entered is " << dist_cal(points, num_pairs) << "." << endl;
return 0;
}

int dist_cal(vector<int>& arr, int num_pairs)
{
int min_distance = -1, temp_distance = -1, x1, x2, y1, y2, itr_count = 0;
for (int i = 0; i <= num_pairs; i += 2)
{
x1 = arr[i + 0];
x2 = arr[i + 1];
for (int j = i + 2; j <= num_pairs; j += 2)
{
y1 = arr[j + 0];
y2 = arr[j + 1];
temp_distance = sqrt((x1 - x2)^2 + (y1 - y2)^2);
if (itr_count == 0)
{
min_distance = temp_distance;
itr_count++;
}
if (min_distance > temp_distance)
{
min_distance = temp_distance;
}
}
}
return min_distance;
}
``````

I understand that this method is naive and O(n^2), but to move onto faster algorithms, I must first solve it with the most basic approach for mental sanity.

For an input:

``````4
4 4
7 8
1 100
4 4
``````

the output should be `0`.

The actual output reads: `The minimum distance between the array of points entered is -2147483648.`

What am I doing wrong here? Alternative (and more efficient algorithms) are also welcome! Thanks in advance! :)

• You have a typo in the following line : `int j = i + 2; i <= num_pairs; j += 2`, should be `j` instead of `i`. While acessing `vector` use `at` instead of `[]`, at `at` you will get exception when accessing out of bounds. – rafix07 Jul 13 '19 at 13:36
• @rafix07 Yes! Thanks for pointing that out! I'll edit the code. Now, the output is coming but it's a random garbage: `-2147483648`. – gourabix Jul 13 '19 at 13:40
• @rafix07 Also, I realized I must have been blind and all my braincells must have been dead for the last 1 hour or so. – gourabix Jul 13 '19 at 13:44

In C++ `^` means XOR bitwise operation, if you want to rise `x1-x2` to the power of 2, you can write: `(x1-x2) * (x1 - x2)` or use `std::pow` function.

So this

``````sqrt((x1 - x2)^2 + (y1 - y2)^2);
``````

should be:

``````sqrt((x1 - x2)*(x1 - x2) + (y1 - y2)*(y1 - y2));
``````

Another issue, `sqrt` returns real number so `min_distance` and `temp_distance` should be `double` or `float`.

Your vector holds coordinates in this form: `x(i),y(i),..`

``````    x1 = arr[i + 0];
x2 = arr[i + 1];
``````

is wrong, and should be:

``````    x1 = arr[i + 0];
y1 = arr[i + 1];
``````

do the same in inner loop.

Also your inner loop should start at `0` index. And you have to detect a situation when for a given `p` point is calculated `distance(p,p)` (it is always 0) and skip this iteration. Then you will calculate all distances.

• This problem is actually an assignment and the problem statement had the `x1, x2` notation like so. However, your assessment is correct in that `x2` is better read as `y1`, corresponding to the co-ordinate axes. – gourabix Jul 13 '19 at 14:27

In addition to the fixes suggested by rafix07, for this source code to work correctly, another change has to be made:

`for (int j = i + 2; j <= num_pairs; j += 2)`

should actually be:

`for (int j = i + 2; j <= num_pairs + 2; j += 2)`

This is because `i` can reach at most the value `4` for an input of `4` pairs (array size : `0` -> `7`). As `j` also depends on `i`, a total of `4` increments are performed on `i`. So `i` must be at most `4`, so that `x1 = 4, x2 = 5, y1 = 6`, and `y2 = 7`. On the other hand, `j` can be at most `6` for an input of `4` pairs (array size : `0` -> `7`). This is because if `i == 4`, and `j == 6`, then `y1 = 6` and `y2 = 7`, which is the last index in the vector `points`.