I have the `(x,y)`

-coordinates of all three corners of a 2D-triangle. Now I want to check if a point with `(xp,yp)`

is inside this triangle:
I know two methods (only theoretically, not yet implemented) to check:

with vectors:

`vec_0A + vec_AB*lambda + vec_AC*my = vec_0P lambda + my =< 1`

with equations of lines:

calculate the three linear equations of AB, AC, BC and check for each equation if P is left/right of it.

Problem 1:
It must be accurate, because typical `(x,y)`

-values of my corners and points look like this:
`(-0.049721957725789148, 0.024809768773549616)`

-> 18 positions after decimal point

Problem 2: It should has a good performance, because I want to check if P is inside triangle(ABC) OR inside triangle(DEF) OR inside triangle(GHI) OR inside triangle(JKL) OR outside of all of them. And I have to do it with ~ 10,000 points.

I read somewhere that the vector-way isn't that accurate. True? Do you know some other ways of checking? Which way of checking do you recommend?

shouldbe a bit faster, imho. I don't know how often you have to check these 10k points, but it shouldn't take too long either way. Regarding precision: Python's`float`

s are double precision, which gives you a precision of ~16 decimal digits. If you need more, there's always`decimal`

(though that'll be way slower). – Carsten Jul 12 '13 at 14:51