1

I'm new here. I'm solving a problem to check if N points (x,y) form a square. The final output is the number of squares the points can form + the biggest area (one of the squares). Input like this:

6
1 1
1 2
1 3
2 3
2 2
2 1

Output:

2 -> (2 Squares were formed)
1 -> (1 was the biggest area)

So I'm reading the x and y like this:

cin >> n;
    for(int i=0;i<n;i++)
    {cin >> coordenadas[i].x >> coordenadas[i].y;concat[i]=coordenadas[i].y * 100000 + coordenadas[i].x;}
    sort (concat, concat+n);
    for(int i=0;i<n;i++)
    {
        A.x=coordenadas[i].x;A.y=coordenadas[i].y;
        for(int ii=M;ii<n;ii++)
        {
            B.x=coordenadas[ii].x;
            B.y=coordenadas[ii].y;
            ...
            calculo();
            if(mArea<area)
            mArea=area;
        }
        M+=1;
    }

In the next function, i'm trying to calculate a x and y var to get the values like this -> https://i.stack.imgur.com/Uqtau.png

But i'm not sure about my calculation.

And my calculo function:

void calculo()
{
    int x=0,y=0;
    if(A.x==B.x)
    {
        x=abs(B.y-A.y);
        area=x*x;
        R1.c1=(B.y) * 100000 + (A.x + x);
        R1.c2=(B.y) * 100000 + (A.x - x);
        if (binary_search (concat, concat+n, R1.c1))
        if (binary_search (concat, concat+n, R1.c2))
        quadrados+=1;
        else
        area=0;
    }
    else
    {
        x=abs(B.y-A.y);
        y=abs(B.x-A.x);
        area=sqrt(x*x+y*y)*sqrt(x*x+y*y);
        R1.c1=(B.y + y) * 100000 + (B.x - x);
        R1.c2=(A.y + y) * 100000 + (A.x - x);
        if (binary_search (concat, concat+n, R1.c1))
        if (binary_search (concat, concat+n, R1.c2))
        quadrados+=1;
        else
        area=0;
    }
}

What I'm doing is, pick 2 unique points and calculate the possible other two points that form a square. then I "concat" them into a unique integer (eg. (B.y + y) * 100000 + (B.x - x) wich means -> y * 100000 +x) then i look for them with a binary search, if they were found i increment the n_square var.

The problem is, I'm not sure if the calculation is ok, and I need a hand with this. I know that there is a way to calculate with bitset but I'm not an expert so i can't use bitset. I'm trying to get a O(N^2 * log(V)) solution. Give me some tips

################### NEW EDIT AFTER SOME COMMENTS -> ###################

NEW Input (Comment)

9
5 3
1 4
1 3
1 2
2 1
2 3
3 4
3 2
4 2

Output:

6 (Number of Squares)
0 (Its Area-> I'm not calculating yet)

Expected Output

3
5 (Area)

New Code:

#include <iostream>
#include <algorithm>
#include <vector>
#include <cmath>
using namespace std;

struct c{

    int x,y;

}A,B,C,D,coordenadas[3001];

int quadrados=0,n=0;
long int area;
long int concat[3001];

int dist2 (c A,c B) {
  int x = A.x - B.x;
  int y = A.y - B.y;
  return x*x + y*y;
}



void calculo()
{
    int d = dist2(A, B);
    const int x = B.x - A.x;
    const int y = B.y - A.y;
    C.x = A.x - y;
    C.y = A.y + x;
    D.x = B.x - y;
    D.y = B.y + x;
    d = dist2(A, B);
    if (dist2(A, C) == d && 2*d == dist2(B, C))
    if (binary_search (concat, concat+n, C.y * 100000 + C.x))
    if (dist2(B, D) == d && dist2(C, D) == d)
    if (binary_search (concat, concat+n, D.y * 100000 + D.x))
    {
        quadrados+=1;
    }

}

int main() {

    int M=1,mArea=0;
    cin >> n;
    for(int i=0;i<n;i++)
    {cin >> coordenadas[i].x >> coordenadas[i].y;concat[i]=coordenadas[i].y * 100000 + coordenadas[i].x;}
    sort (concat, concat+n);
    for(int i=0;i<n;i++)
    {
        A.x=coordenadas[i].x;
        A.y=coordenadas[i].y;
        for(int ii=M;ii<n;ii++)
        {
            B.x=coordenadas[ii].x;
            B.y=coordenadas[ii].y;
            calculo();
            if(mArea<area)
            mArea=area;
        }
        M+=1;
    }

    if(quadrados==0)
    cout << quadrados << endl;
    else
    cout << quadrados << endl << mArea << endl;
    return 0;
}
7
  • What's the maximum size of the grid (if any), or is it always 4x4 as in your example? Jan 6, 2015 at 10:54
  • Is a example. N < 3000 and x,y < 20000
    – New Year
    Jan 6, 2015 at 11:03
  • It would be helpful if you stated that all point are on a grid. Jan 6, 2015 at 11:29
  • What about squares that are rotated? Do they count? Jan 6, 2015 at 13:19
  • All them count . Also, just positive coordinates are alowed
    – New Year
    Jan 6, 2015 at 13:49

2 Answers 2

2

From your picture:

const int x = B.x - A.x;
const int y = B.y - A.y;
C.x = A.x - y;
C.y = A.y + x;
D.x = B.x - y;
D.y = B.y + x;

then

area = x * x + y * y;
13
  • It works with all points or just when A and B are in the position of the image?
    – New Year
    Jan 6, 2015 at 10:52
  • For all relative positions (in plan) between A and B.
    – Jarod42
    Jan 6, 2015 at 10:54
  • We have BD = z ^ AB (with ^ the cross product, z the unit vector orthogonal to the plan).
    – Jarod42
    Jan 6, 2015 at 10:57
  • Yes, just test it: A.x == B.x, you got x == 0, C.y = A.y and D.y = B.y and C.x == D.x == A.x - y == B.x - y
    – Jarod42
    Jan 6, 2015 at 11:12
  • There is a second possible square using A and B, by forming C and D with +y and -x instead of -y and +x. It's the symmetric square by the line (AB) of the square you defined.
    – Cimbali
    Jan 6, 2015 at 13:00
-1

I'll assume that all coordinates are integers and your chosen type can fit twice the square of the largest coordinate (800 million, in your case -- not hard). The latter assumption can be dispensed with, if needed, but the former isn't so easy since you'd otherwise have to decide how to handle rounding.

The basic idea is to loop through each point A and each point B appearing later in the list than A. Compute

int dist2 (A, B) {
  int x = A.x - B.x;
  int y = A.y - B.y;
  return x*x + y*y;
}

int d = dist2(A, B);

so that d is the squared distance between A and B. Now define

c C1, C2, D;
C1.x = 2*A.x - B.y;
C1.y = B.x;
C2.x = B.y;
C2.y = 2*A.y - B.x;

and check if C1 (resp., C2) is on the list following B. If so, call it C and check if

dist2(B, D) == d && dist2(C, D) == d

If so, ABCD is a square. If you have n elements in total the first two loops happen n(n-1)/2 times and each pair causes 2 or 3 lookups, showing that the algorithm runs in time O(n^2 log n).

Edit: An earlier version also gave a simpler algorithm which ran in time O(n^3). Its existence caused confusion so I removed it and made the other algorithm more explicit.

15
  • I have to consider that C and D are like the last answer? ## const int x = B.x - A.x; ## const int y = B.y - A.y; C.x = A.x - y; ## C.y = A.y + x; ## D.x = B.x - y; ## D.y = B.y + x; ## How its the calculation for C AND D to check later if is square? (using your function)
    – New Year
    Jan 6, 2015 at 15:20
  • In the first method, you just have four nested loops which give you A, B, C, and D. In the second you compute two different possibilities for C and try each one (and then compute D, if C exists in your list).
    – Charles
    Jan 6, 2015 at 15:25
  • i.imgur.com/2ztg28Z.png -> I'm doing like this. The problem is that its counting to much squares. If i use the last input in my topic (I edited) it should be just 3 squares because: i.imgur.com/Xiq87DQ.png And not 6 (it counts 6)
    – New Year
    Jan 6, 2015 at 15:35
  • 1
    @NewYear: Well, you're not using the method I gave, so I can suggest only a general tip: print the points A, B, C, and D when you think you've found a match. Either you'll see that it's double-counting some square or it's including some points which do not form a square.
    – Charles
    Jan 6, 2015 at 15:42
  • OP's solution is (cleverly) O(N**2 ln N) so this doesn't really fly.
    – QuestionC
    Jan 6, 2015 at 15:44

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