How to check intersection between a line and a rectangle?

The title says it all, Ive been searching around and couldnt find anything that was straight and to the point. How would I take a line with points (x1,y1) & (x2, y2) and check its intersection between a rectangle (xR,yR)? I saw in the Line2D package that there were some intersection methods but not sure how to set it all up. Can someone show me a correct way of setting it up to check for an intersection (collision)?

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"Thanks Dan" Don't include sigs. in questions. Collision between `Area` objects can be done relatively easily. Here is an example. – Andrew Thompson Mar 20 '13 at 3:57
Warning. Because you can generically use Java's Area class to do collision/intersection detection for almost all Java 2D graphical objects it's tempting to think it can be used for ALL graphical objects. But it can't be – because if you construct an area for a 'line' the area of the line itself begins empty. Hence it's intersection with any other area always returns empty - even if the line crosses into your other area. You have been warned! – Tony Eastwood Jan 29 at 14:49

Using the available classes from the 2D Graphics API.

``````Rectangle r1 = new Rectangle(100, 100, 100, 100);
Line2D l1 = new Line2D.Float(0, 200, 200, 0);
System.out.println("l1.intsects(r1) = " + l1.intersects(r1));
``````

What this doesn't tell you, is where...

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Thank you, I dont need to know where, just need to know if they do or dont. – Daniel H Mar 20 '13 at 4:13

A rectangle is 4 lines. You could compute the intersect between your line and the 4 lines of the rectangle.

given the equations of two lines, they would intersect when x and y are equal.

y = m1x + b1 y = m2x + b2

solving the equation you should get:

x = b2 - b1 / (m1 - m2);

Note that if m1 == m2, the lines are parallel and will never intersect, watch out for the divided by 0 in this case.

Then, since you are dealing with segments ratter than infinite lines, check if the intersect falls off within your segments (check if both X and Y are within each segment's boundaries).

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+1 just because it looks so good – MadProgrammer Mar 20 '13 at 4:07
Thank you :) Ill play around with your answer :) Thanks – Daniel H Mar 20 '13 at 4:13
It's a little more tricky than this - the y = mx + c representation can't handle vertical lines. – aaronsnoswell Aug 19 '13 at 13:46

Returns null if lines do not intersect. Modified some c code from another response to similar question to make it Java. Haven't bothered to look into how/why it works, but does the job I needed it to.

``````static Point get_line_intersection(Line2D.Double pLine1, Line2D.Double pLine2)
{
Point
result = null;

double
s1_x = pLine1.x2 - pLine1.x1,
s1_y = pLine1.y2 - pLine1.y1,

s2_x = pLine2.x2 - pLine2.x1,
s2_y = pLine2.y2 - pLine2.y1,

s = (-s1_y * (pLine1.x1 - pLine2.x1) + s1_x * (pLine1.y1 - pLine2.y1)) / (-s2_x * s1_y + s1_x * s2_y),
t = ( s2_x * (pLine1.y1 - pLine2.y1) - s2_y * (pLine1.x1 - pLine2.x1)) / (-s2_x * s1_y + s1_x * s2_y);

if (s >= 0 && s <= 1 && t >= 0 && t <= 1)
{
// Collision detected
result = new Point(
(int) (pLine1.x1 + (t * s1_x)),
(int) (pLine1.y1 + (t * s1_y)));
}   // end if

return result;
}
``````
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Just checked. Works. – Danon Jun 11 at 16:31