# Count the number of adjacent boxes

Suppose I have a set of (X,Y) coordinates of 1000 boxes.

``````         (    x1,    y1)    (    x2,    y2)      Area

(0.0000,0.0000)    (0.3412,0.4175)    0.1424
(0.7445,0.0000)    (1.0000,0.6553)    0.1674
(0.7445,0.6553)    (1.0000,1.0000)    0.0881
(0.0000,0.6553)    (0.7445,1.0000)    0.2566
(0.3412,0.0000)    (0.7445,0.4175)    0.1684
(0.3412,0.4175)    (0.7445,0.6553)    0.0959
(0.0000,0.4175)    (0.3412,0.6553)    0.0812 ....etc
``````

I would like to calculate the number of adjacent boxes for each of them using c/c++ . How can I do it?

Example

In this picture, the total number of adjacent boxes for box-7 is six, for box-3 is three. How can I count them using c++?

Edited and Updated with new values

Let's try it for 16 values-

``````1   0.0000   0.0000      0.8147   0.1355
2   0.8147   0.0000      1.0000   0.1355
3   0.8147   0.1355      0.9058   0.8350
4   0.0000   0.1355      0.1270   0.9689
5   0.9058   0.1355      0.9134   0.2210
6   0.9058   0.8350      1.0000   1.0000
7   0.8147   0.8350      0.9058   1.0000
8   0.1270   0.1355      0.6324   0.3082
9   0.1270   0.9689      0.8147   1.0000
10   0.0000   0.9689     0.1270   1.0000
11   0.9134   0.1355     1.0000   0.2210
12   0.9134   0.2210     1.0000   0.8350
13   0.9058   0.2210     0.9134   0.8350
14   0.6324   0.1355     0.8147   0.3082
15   0.6324   0.3082     0.8147   0.9689
16   0.1270   0.3082     0.6324   0.9689
``````

For these values the unit square become like this picture-

And the updated code-

``````  #include <iostream>
#include <cstdlib>
#include <vector>

using namespace std;

class Rect {
public:
double x1, x2, y1, y2; // assuming x1 <= x2 and y1 <= y2

Rect(double X1, double Y1, double X2, double Y2) {
if (X1 < X2) {
x1 = X1; x2 = X2;
} else {
x2 = X1; x1 = X2;
}
if (Y1 < Y2) {
y1 = Y1; y2 = Y2;
} else {
y2 = Y1; y1 = Y2;
}
}

//for x-axis
if (x1 == rect.x2 || x2 == rect.x1) {
// use only < when comparing y1 and rect.y2 avoids sharing only a corner
if (y1 >= rect.y1 && y1 < rect.y2) {
return true;
}
if (y2 > rect.y1 && y2 <= rect.y2) {
return true;
}
}
// for y-axis

if (y1 == rect.y2 || y2 == rect.y1) {
if (x1 >= rect.x1 && x1 < rect.x2) {
return true;
}
if (x2 > rect.x1 && x2 <= rect.x2) {
return true;
}
}

return false;

}
};

int main() {

vector<Rect> rects;

rects.push_back(Rect(0.0000,0.0000, 0.8147,0.1355));
rects.push_back(Rect(0.8147,0.0000, 1.0000,0.1355));

rects.push_back(Rect(0.8147,0.1355, 0.9058,0.8350));
rects.push_back(Rect(0.0000,0.1355, 0.1270,0.9689 ));

rects.push_back(Rect(0.9058,0.1355, 0.9134,0.2210));
rects.push_back(Rect(0.9058,0.8350, 1.0000,1.0000));
rects.push_back(Rect(0.8147,0.8350, 0.9058,1.0000));

rects.push_back(Rect(0.1270,0.1355, 0.6324,0.3082));
rects.push_back(Rect(0.1270,0.9689, 0.8147,1.0000));
rects.push_back(Rect(0.0000,0.9689, 0.1270,1.0000));

rects.push_back(Rect(0.9134,0.1355, 1.0000,0.2210));
rects.push_back(Rect(0.9134,0.2210, 1.0000,0.8350));
rects.push_back(Rect(0.9058,0.2210, 0.9134,0.8350));

rects.push_back(Rect(0.6324,0.1355, 0.8147,0.3082));
rects.push_back(Rect(0.6324,0.3082, 0.8147,0.9689));
rects.push_back(Rect(0.1270,0.3082, 0.6324,0.9689));

int b;
cin>>b;

for (int x = 0; x < rects.size(); ++x) {

if (x==b) {
continue; //this is our rectangle , so do not count it.
}

cout << "rect["<<(b+1)<<"] is adjacent with rect["<<(x+1)<<"]"<<endl;

}
}

return 0;
}
``````

Problem

Now for rectangle#1 it shows-

``````rect[1] is adjacent with rect[2]
adjacent count of rect[1] is = 3
``````

It misses the rectangle#8 and 9 & 10 !! (Please check the new picture)

And for rectangle#2 it shows-

``````rect[2] is adjacent with rect[1]
adjacent count of rect[2] is = 3
``````

It misses the rectangle#5 and 7 & 6 !!! (Please check the new picture)

How can I fix it?

-
You will have much better responses if you post code and a much more specific question. Questions like this usually get downvoted and/or ignored. –  Jake Sellers Jun 26 '13 at 18:45
@JakeSellers I am pretty active under the algorithm tag, this question seems rather okay in that tag's world. But of course, your advice is generally good. –  Ziyao Wei Jun 26 '13 at 18:49
Uhh ... you're comparing with the rect itself .... `if( rect[b].x1 == rect[b].x2 || rect[b].x2 ==rect[b].x1 ){`, it's always the `[b]` index ... –  keelar Jun 27 '13 at 14:57
@aries0152: hey, sorry for my late update. I have updated my answer (esp. isAdjacent()) –  keelar Jul 22 '13 at 23:42
@keelar: Thanks a lot :) –  aries0152 Jul 23 '13 at 5:08

A naive solution requires O(N^2) where N is the number of rectangle, here is how to do it faster.

Two rectangles are adjacent only if they have one coordinate in common (note that the reverse is not correct). Therefore you can count the number of adjacent boxes faster by first partitioning your input rectangles using two hashes, one based on the x location of the rectangle, and the other based on the y location. As a result, one rectangle will fit into four different hash buckets based on its x1, y1, x2, and y2.

Example

For example, rect `(0.0000,0.0000) (0.3412,0.4175)` will be hashed into `bucketX(0.000)`, `bucketX(0.3412)`, `bucketY(0.0000)`, and `bucketY(0.4175)`.

From the input in the OP, bucketX(0.000) and bucketX(1.000) will have the following rectangles:

``````bucketX(0.0000):
(0.0000,0.0000)    (0.3412,0.4175)
(0.0000,0.4175)    (0.3412,0.6553)
(0.0000,0.6553)    (0.7445,1.0000)
(0.0000,0.4175)    (0.3412,0.6553)

bucketX(1.0000):
(0.7445,0.0000)    (1.0000,0.6553)
(0.7445,0.6553)    (1.0000,1.0000)
``````

Time Complexity

The hashing step only requires O(N) computation time where N is the number of rectangles, and the resulting check requires O(m^2) where m is the size of the largest bucket which in most cases is much smaller than N.

Checking adjacency within each hashed bucket

Then, for all rectangles within the same hash bucket. Check whether two rectangles are adjacent by determining whether they either have same x value and overlapped value in y or vice versa.

The following is an example of checking whether two rectangles are adjacent:

``````class Rect {
public:
double x1, x2, y1, y2; // assuming x1 <= x2 and y1 <= y2

...

if (x1 == rect.x1 || x1 == rect.x2 ||
x2 == rect.x1 || x2 == rect.x2) {
// use only < when comparing y1 and rect.y2 avoids sharing only a corner
if (y1 >= rect.y1 && y1 < rect.y2) {
return true;
}
if (y2 > rect.y1 && y2 <= rect.y2) {
return true;
}
if (rect.y1 >= y1 && rect.y1 < y2) {
return true;
}
if (rect.y2 > y1 && rect.y2 <= y2) {
return true;
}
}
if (y1 == rect.y1 || y1 == rect.y2 ||
y2 == rect.y1 || y2 == rect.y2) {
if (x1 >= rect.x1 && x1 < rect.x2) {
return true;
}
if (x2 > rect.x1 && x2 <= rect.x2) {
return true;
}
if (rect.x1 >= x1 && rect.x1 < x2) {
return true;
}
if (rect.x2 > x1 && rect.x2 <= x2) {
return true;
}
}
return false;
}
}
``````

A Runnable Example

Here provide a sample code for the adjacency check:

``````#include <stdio.h>
#include <stdlib.h>
#include <vector>

class Rect {
public:
double x1, x2, y1, y2; // assuming x1 <= x2 and y1 <= y2

Rect(double X1, double Y1, double X2, double Y2) {
if (X1 < X2) {
x1 = X1; x2 = X2;
} else {
x2 = X1; x1 = X2;
}
if (Y1 < Y2) {
y1 = Y1; y2 = Y2;
} else {
y2 = Y1; y1 = Y2;
}
}

double area() {
return (x2 - x1) * (y2 - y1);
}

if (x1 == rect.x1 || x1 == rect.x2 ||
x2 == rect.x1 || x2 == rect.x2) {
// use only < when comparing y1 and rect.y2 avoids sharing only a corner
if (y1 >= rect.y1 && y1 < rect.y2) {
return true;
}
if (y2 > rect.y1 && y2 <= rect.y2) {
return true;
}
if (rect.y1 >= y1 && rect.y1 < y2) {
return true;
}
if (rect.y2 > y1 && rect.y2 <= y2) {
return true;
}
}
if (y1 == rect.y1 || y1 == rect.y2 ||
y2 == rect.y1 || y2 == rect.y2) {
if (x1 >= rect.x1 && x1 < rect.x2) {
return true;
}
if (x2 > rect.x1 && x2 <= rect.x2) {
return true;
}
if (rect.x1 >= x1 && rect.x1 < x2) {
return true;
}
if (rect.x2 > x1 && rect.x2 <= x2) {
return true;
}
}
return false;
}
};

int main() {

std::vector<Rect> rects;

rects.push_back(Rect(9999, 9999, 9999, 9999));
rects.push_back(Rect(0.0000,0.0000, 0.8147,0.1355));
rects.push_back(Rect(0.8147,0.0000, 1.0000,0.1355));
rects.push_back(Rect(0.8147,0.1355, 0.9058,0.8350));
rects.push_back(Rect(0.0000,0.1355, 0.1270,0.9689));
rects.push_back(Rect(0.9058,0.1355, 0.9134,0.2210));

rects.push_back(Rect(0.9058,0.8350, 1.0000,1.0000));
rects.push_back(Rect(0.8147,0.8350, 0.9058,1.0000));
rects.push_back(Rect(0.1270,0.1355, 0.6324,0.3082));
rects.push_back(Rect(0.1270,0.9689, 0.8147,1.0000));
rects.push_back(Rect(0.0000,0.9689, 0.1270,1.0000));

rects.push_back(Rect(0.9134,0.1355, 1.0000,0.2210));
rects.push_back(Rect(0.9134,0.2210, 1.0000,0.8350));
rects.push_back(Rect(0.9058,0.2210, 0.9134,0.8350));
rects.push_back(Rect(0.6324,0.1355, 0.8147,0.3082));
rects.push_back(Rect(0.6324,0.3082, 0.8147,0.9689));

rects.push_back(Rect(0.1270,0.3082, 0.6324,0.9689));

int y = 1;
for (int x = 0; x < rects.size(); ++x) {
if (x == y) continue;
printf("rect[%d] is adjacent with rect[%d]\n", y, x);
}
}
y = 2;
for (int x = 0; x < rects.size(); ++x) {
if (x == y) continue;
printf("rect[%d] is adjacent with rect[%d]\n", y, x);
}
}
}
``````

and the output is:

``````rect[1] is adjacent with rect[2]
``````
-
Thank you for the response. I am using arrays to store the coordinates. So I was trying to use your if..else section for counting the rectangles. But it returns only '0'. :( I have edited my question and add my code snippet. What am I doing wrong? –  aries0152 Jun 27 '13 at 14:35
@aries0152: do you ensure the property that x1 <= x2 and y1 <= y2? –  keelar Jun 27 '13 at 14:38
Yes,(x1,y1) are coordinates of lower left corner and (x2,y2) are the coordinates of upper right corner. So x1 < x2 & y1 < y2. I have edited my question again added an image. Please check. –  aries0152 Jun 27 '13 at 14:54
@aries0512: I have included a minimum runnable code in my answer. –  keelar Jun 27 '13 at 14:56
Thank you. It helps a lot. –  aries0152 Jun 27 '13 at 15:28

Let's say you're interested in box B for which the (x0, y0, x1, y1) coordinates are: (B.x0, B.y0, B.x1, B.y1)

Then with:

``````ax0 = min(x0,x1);
ax1 = max(x0,x1);
ay0 = min(y0,y1);
ay1 = max(y0,y1);
bx0 = min(B.x0,B.x1);
bx1 = max(B.x0,B.x1);
by0 = min(B.y0,B.y1);
by1 = max(B.y0,B.y1);
``````

you go through the whole list of boxes (with a for loop) and you select the ones for which:

``````(((ay0 <= by1 && ay1 >= by0) && (ax1 == bx0 || ax0 == bx1) || // touch on x axis
((ax0 <= bx1 && ax1 >= bx0) && (ay1 == by0 || ay0 == by1))   // touch on y axis
``````
-
This is not correct, they might just sharing same x value or y value but not adjacent because of the other coordinate. –  keelar Jun 26 '13 at 18:56
true, I'll edit my answer. –  Yohan Danvin Jun 26 '13 at 18:59

In the scenario you describe boxes share corners, so if you computed all of the box corners then you could see which ones were touching

``````// O(n)
foreach box b {
// compute b's other 2 corners and save them
}

// 16 * O(n^2) = O(n^2)
foreach box b {
foreach box other {
// match if any of b's corners match any of others points
}
}
``````

There is probably a much more efficient/elegant solution, this one is somewhat naive.

-
But if two rectangles share an edge without sharing any corners, this would be wrong? –  Ziyao Wei Jun 26 '13 at 18:55
@ZiyaoWei hmmm, I see what you mean. Like 6 & 2 from above ? –  Hunter McMillen Jun 26 '13 at 18:58
@ZiyaoWei Wait the bottom of 6 and bottom of 2 are still shared. –  Hunter McMillen Jun 26 '13 at 18:59
2 & 6 seems to be sharing a corner, but if one of those is moved vertically they will not. –  Ziyao Wei Jun 26 '13 at 18:59
I'm not sure what you mean, could you explain the movement ? –  Hunter McMillen Jun 26 '13 at 19:00