# How to identify subtriangle within a rectangle given a coordinate in that rectangle

Given a rectangle of width w and height h. and a coordinate x,y in that rectangle I would like to identify which triangle I am within.

i.e. the function should take parameters(x,y) and return a,b,c,d or a zero based number representing that triangle index i.e. (0=A,1=B,2=C,3=D) if they are in that order.

I think this would be something like >= the formula of the red line and >= the formula of the green line?

I'd like to implement this in VB.NET

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If this is homework, then please tag it as such (it won't stop answers). – Richard Feb 22 '10 at 12:29
it is not homework but part of a larger problem: stackoverflow.com/questions/2310334/… – PeanutPower Feb 22 '10 at 12:31

``````aboveRed = x*h > y*w;
aboveGreen = (w-x)*h > y*w;
if (aboveRed)
{
if (aboveGreen) return "C"; else return "B";
}
else
{
if (aboveGreen) return "D"; else return "A";
}
``````
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ahh this looks good – PeanutPower Feb 22 '10 at 12:37

Equation of green line: `h * x + w * y = h * w`

Equation of red line: `x * h - y * w = 0`

``````Public Function GetTriangleNumber(ByVal x As Integer, ByVal y As Integer)
As Integer
Dim overGreenLine As Boolean = ((((h * x) + (w * y)) - (h * w)) < 0)
Dim overRedLine As Boolean = (((h * x) - (w * y)) > 0)
If overGreenLine Then
Return IIf(overRedLine, 2, 3)
End If
Return IIf(overRedLine, 1, 0)
End Function
``````
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thanks i gave an upvote for the VB code but accepted Vlad's answer as he got there first with the algorithm – PeanutPower Feb 22 '10 at 12:45

I would consider the angle of the line to the point from the top left and top right corners. If it is less than 45 degrees (adjusting for the base direction of the edge) in both cases then the point is in C. Other combinations will cover the other three triangles.

You don't actually need to calculate inverse trig functions to do this, as the ratio of the lengths of the lines gives you enough information (and sin(45)... or rather sin(pi/4) is a fixed value).

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