# Algorithm that determines a relationship between a square and rectangle

I need to find an algorithm which determines a relationship between a square and rectangle. It must be able to determine if:

• The square is completely inside the rectangle
• The square is partially inside (overlaps) the rectangle
• Square's corner only touches a rectangle's corner
• Square's edge is on the rectangle's edge

And here are the inputs (given values) that will help us to extract a mathematical formula for each case:

• x coordinate of the center of the square = squareX
• y coordinate of the center of the square = squareY
• width of the square = squareW
• x coordinate of the center of the rectangle = recX
• y coordinate of the center of the rectangle = recY
• width of the rectangle = recW
• length of the rectangle = recL

P.S: Rectangle's sizes are always bigger than the square's width.

I will write the code in Java once we can extract an algorithm using mathematical operations.

Edit:

For the case of corners in touch, here is the code I wrote, and it works (Math.abs means the absolute value):

``````((Math.abs(Math.abs(recX-squareX)-(recW+squareW)/2))<=0.001) && ((Math.abs(Math.abs(recY-squareY)-(recL+squareW)/2))<=0.001)
``````
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Please post the code you have written so far. People generally do not like to just write your code for you. As it is, this is a work description, not a question. –  Mitch Wheat Feb 5 '11 at 9:13
how are x and y exactly defined (left upper corner, center,...)? –  lweller Feb 5 '11 at 9:16
Did you even attempt this problem? –  ash Feb 5 '11 at 9:16
Yes, I did attempt, and I was able to do the case of corners. Please check the post, I edited. But I still need help for the rest of the algorithm. –  Dave Feb 5 '11 at 9:20
@lweller, I fixed that in the post. All coordinates refer to the center of the shapes. –  Dave Feb 5 '11 at 9:21

updated for doubles

``````double dx = Math.abs(rectX - squareX);
double dy = Math.abs(rectY - squarey);
double dw2 = (rectW + squareW) / 2;
double dh2 = (rectL + squareW) / 2;

if (Double.compare(dx, dw2) == 0 && Double.compare(dy, dh2) == 0)
return CORNER_TOUCH;
else if (Double.compare(dx, dw2) > 0 || Double.compare(dy, dh2) > 0)
return OUTSIDE;
else if (Double.compare(dx, dw2) == 0 || Double.compare(dy, dh2) == 0)
return EDGE_TOUCH;
else if (Double.compare(dx, rectW - dw2) <= 0 &&
Double.compare(dy, rectL - dh2) <= 0)
return INSIDE;
else
return OVERLAPS;
``````
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Just from the fact that you have an else statement that returns OVERLAPS indicates to me that this solution is wrong... –  Falmarri Feb 5 '11 at 9:55
Thank you for the reply. Everything works fine except the edges and the corners. –  Dave Feb 5 '11 at 9:59
@Falmarri, No, this just indicates that you haven't read solution –  Lev Khomich Feb 5 '11 at 10:01
@Dave if you work with double values, this solution needs to be adopted –  Lev Khomich Feb 5 '11 at 10:02
@Dave, I updated the answer –  Lev Khomich Feb 5 '11 at 10:17
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``````squareX1 = squareX - squareW/2
squareY1 = squareY - squareW/2
squareX2 = squareX + squareW/2
squareY2 = squareY + squareW/2

recX1 = recX - recW/2
recY1 = recY - recL/2
recX2 = recX + recW/2
recY2 = recY + recL/2

inside = squareX1 > recX1 && squareX2 < recX2 && squareY1 > recY1 && squareY2 < recY2
overlaps = squareX1 < recX2 && squareX2 > recX1 && squareY1 < recY2 && squareY2 > recY1
``````

the last two one should be trivial

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Does this handle the negative coordinates too? Where should we add absolute value? –  Dave Feb 5 '11 at 9:30
this works as is for negative coordinates too –  lweller Feb 5 '11 at 9:39