# Fastest algorithm to edge detect between two simple rectangles.

Given two simple, rectangles:

``````class Rectangle
{
int x;
int y;
int width;
int height;
}

Rectangle a;
Rectangle b;
``````

and the following enumeration:

``````[Flags]
enum Edges
{
None,
Top,
Bottom,
Left,
Right,
Inside,
}
``````

What is the quickest way to detect the edges on rectangle a which are collided with by rectangle b?

``````Edges e = EdgeDetect(a, b);
``````
-
quick = little code, or, quick = fast? also: is x,y a corner or the middle point? – Efrain Nov 29 '11 at 8:37
quick = fast, if possible. – Rob Nov 29 '11 at 8:38
What's an `inside` edge? – Doc Brown Nov 29 '11 at 8:45
@Rob: SO is not "rent-a-coder", so I am still struggling if I should vote this question down . But if you provide us with your own implementation, the community will happily look at your code and make some suggestions how to improve it. – Doc Brown Nov 29 '11 at 8:52
@Doc, instead it's number (also known as reputation) hooing – bestsss Nov 29 '11 at 11:06

First of all, you have to defines explicitly values of your enum in order to have flags working correctly. In you case `Left == Top + Bottom + None`. Here is a possible declaration :

``````[Flags]
public enum Edges
{
None = 0,
Top = 1,
Bottom = 2,
Left = 4,
Right = 8,
Identical = Top + Bottom + Left + Right,
Inside = 16,
Covers = 32
}
``````

Next, a possible implementation of edge collision detection. Note that I use the builtin `System.Drawing.Rectangle` instead of rewriting the class. The immediate advantage is the availability of the `Intersect` method. :

``````public static Edges DetectEdgesCollision(Rectangle a, Rectangle b)
{
var result = Edges.None;

if (a == b) return Edges.Identical;
b.Intersect(a);
if (b.IsEmpty) return Edges.None;
if (a == b) return Edges.Covers;

if (a.Top == b.Top && (a.Right >= b.Right && a.Left<=b.Left ))
result |= Edges.Top;
if (a.Bottom == b.Bottom && (a.Right >= b.Right && a.Left<=b.Left ))
result |= Edges.Bottom;
if (a.Left == b.Left && (a.Bottom >= b.Bottom && a.Top <= b.Top))
result |= Edges.Left;
if (a.Right == b.Right && (a.Bottom >= b.Bottom && a.Top <= b.Top))
result |= Edges.Right;

return result == Edges.None ? Edges.Inside : result;
}
``````

Here is a set of tests that validates this implementation :

``````    [TestMethod]
public void RectDoesNotIntersect()
{
var a = new Rectangle(0, 0, 10, 10);
var b = new Rectangle(20, 20, 10, 10);

var result = Program.DetectEdgesCollision(a, b);

Assert.AreEqual<Edges>(Edges.None, result);
}

[TestMethod]
public void RectAreNested()
{
var a = new Rectangle(0, 0, 30,30);
var b = new Rectangle(10, 10, 10, 10);

var result = Program.DetectEdgesCollision(a, b);

Assert.AreEqual<Edges>(Edges.Inside, result);
}
[TestMethod]
public void RectCollidesOnTopAndLeft()
{
var a = new Rectangle(10, 10, 10, 10);
var b = new Rectangle(0, 0, 10, 10);

var result = Program.DetectEdgesCollision(a, b);

Assert.AreEqual<Edges>(Edges.Left | Edges.Top, result);
}
[TestMethod]
public void RectCollidesOnBottom()
{
var a = new Rectangle(0, 0, 20, 20);
var b = new Rectangle(10, 10, 5, 50);

var result = Program.DetectEdgesCollision(a, b);

Assert.AreEqual<Edges>(Edges.Bottom , result);
}

[TestMethod]
public void RectAreIdenticals()
{
var a = new Rectangle(10, 10, 10, 10);
var b = new Rectangle(10, 10, 10, 10);

var result = Program.DetectEdgesCollision(a, b);

Assert.AreEqual<Edges>(Edges.Identical, result);
}
[TestMethod]
public void RectBCoversA()
{
var a = new Rectangle(10, 10, 10, 10);
var b = new Rectangle(0, 0, 30, 30);

var result = Program.DetectEdgesCollision(a, b);

Assert.AreEqual<Edges>(Edges.Covers, result);
}
``````
-
Fantastic response Steve :) - This works really well. The only minor issue is that Identical is returned if Rectangle B is larger than rectangle A and completely covers it. Maybe it should be 'Covers' or 'Engulfs' rather than 'Identical'? Thanks. – Rob Nov 30 '11 at 22:34
You are right, I updated the code. A new enum value `Covered` is defined, the `DetectEdge` methode is slightly changed to detect identical first, then covers, then per edge. A new Test has also been added. – Steve B Dec 1 '11 at 8:29
``````public Edges DetectEdge(Rect A, Rect B) {
rectC = rectA.Intersect(rectB);
if(rectC.IsEmpty) return Edges.None;
Edge edge = Edges.Inside;
if(rectA.X+rectA.Width == rectB.X || rectA.X == rectB.X){
edge = Edges.Left;
}
if(rectA.Y+rectA.Height == rectB.Y || rectA.Y == rectB.Y){
edge = edge | Edges.Top;
}
if(rectA.X  == rectB.X + rectB.Width
|| rectA.X + rectA.Width == rectB.X + rectB.Width){
edge = edge | Edges.Right;
}
if(rectA.Y == rectB.Y + rectB.Heigth
|| rectA.Y + rectA.Height == rectB.Y + rectB.Height){
edge = edge | Edges.Bottom;
}
return edge;
}
``````
-
Your code only detect one edge intersection. Instead of returning an Edge, you should bitwise or in each if. – Steve B Nov 29 '11 at 9:02
I assumed, he needs another rectA colliding to rectB from outside. Modified the code as per suggested – hungryMind Nov 29 '11 at 9:09