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I want to determine if a test point is within a defined quadrilateral. I'm probably going to implement the solution in Matlab so I only need pseudo-code.


Corners of quadrilateral : (x1,y1) (x2,y2) (x3,y3) (x4,y4)

Test point : (xt, yt)


1 - If within quadrilateral

0 - Otherwise


It was pointed out that identifying the vertices of the quadrilateral is not enough to uniquely identify it. You can assume that the order of the points determines the sides of the quadrilateral (point 1 connects 2, 2 connects to 3, 3 connects to 4, 4 connects to 1)

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The points alone don't uniquely identify a quadrilateral, unless there's an additional constraint that it's convex, or that the points are defined in a given order. Does one or other of those constraints exist (if so, which)? – Damien_The_Unbeliever May 7 '11 at 15:33
As an example, consider an equilateral triangle, with an additional point in the centre of the triangle. Just knowing the points doesn't allow you to know which edge of the triangle has been kinked in to meet the centre point. – Damien_The_Unbeliever May 7 '11 at 15:35
Thanks, updated the problem to fix this. This should uniquely identify the quadrilateral. – slykat May 9 '11 at 4:52
up vote 3 down vote accepted

Use inpolygon. Usage would be inpolygon(xt,yt,[x1 x2 x3 x4],[y1 y2 y3 y4])

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You can test the Point with this condition. Also you can treat quadrilateral as 2 triangles to calculate its area.

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This actually works? Its blowing my mind! I'm trying to think of a scenario this wouldn't work. This would work for more than just quads too right?! Any shape. This is too awesome. – Kaliber64 Mar 1 '14 at 1:43
Thanks. yes, This will work for any polygon also !!! – mili Mar 3 '14 at 8:22
This is a wonderful solution, but it can be easily seen that this works only for convex quadrilaterals. – Ken Y-N Jul 17 '15 at 7:13

If the aim is to code your own test, then pick any classic point in polygon test to implement. Otherwise do what Jacob suggests.

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Since it's a simple quadrilateral you can test for a point in triangle for each end and a point in rectangle for the middle.

EDIT Here is some pseudo code for point in triangle:

function SameSide(p1,p2, a,b)
    cp1 = CrossProduct(b-a, p1-a)
    cp2 = CrossProduct(b-a, p2-a)
    if DotProduct(cp1, cp2) >= 0 then return true
    else return false

function PointInTriangle(p, a,b,c)
    if SameSide(p,a, b,c) and SameSide(p,b, a,c)
        and SameSide(p,c, a,b) then return true
    else return false

Or using Barycentric technique:

A, B, and C are the triangle end points, P is the point under test

// Compute vectors        
v0 = C - A
v1 = B - A
v2 = P - A

// Compute dot products
dot00 = dot(v0, v0)
dot01 = dot(v0, v1)
dot02 = dot(v0, v2)
dot11 = dot(v1, v1)
dot12 = dot(v1, v2)

// Compute barycentric coordinates
invDenom = 1 / (dot00 * dot11 - dot01 * dot01)
u = (dot11 * dot02 - dot01 * dot12) * invDenom
v = (dot00 * dot12 - dot01 * dot02) * invDenom

// Check if point is in triangle
return (u > 0) && (v > 0) && (u + v < 1)
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assuming you the given coordinates are arranged s.t. (x1,y1) = rightmost coordinate (x2,y2) = uppermost coordinate (x3,y3) = leftmost coordinate (x4,y4) = botoom-most coordinate

You can do the following:

1. calculate the 4 lines of the quadrilateral (we'll call these quad lines)
2. calculate 4 lines, from the (xt, yt) to every other coordinate (we'll call these new lines)
3. if any new line intersects any of the quad lines, then the coordinate is outside of the quadrilateral, otherwise it is inside.
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