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;
}