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I want to check whether a 2-D point is in or out of a convex polygon. Knowing the polygon vertices, I can do it with the famous Ray Casting Algorithm as below:

def point_inside_polygon(x, y, poly):
    """ Deciding if a point is inside (True, False otherwise) a polygon,
    where poly is a list of pairs (x,y) containing the polygon's vertices.
    The algorithm is called the 'Ray Casting Method' """
    n = len(poly)
    inside = False
    p1x, p1y = poly[0]
    for i in range(n):
        p2x, p2y = poly[i % n]
        if y > min(p1y, p2y):
            if y <= max(p1y, p2y):
                if x <= max(p1x, p2x):
                    if p1y != p2y:
                        xinters = (y-p1y) * (p2x-p1x) / (p2y-p1y) + p1x
                    if p1x == p2x or x <= xinters:
                        inside = not inside
        p1x, p1y = p2x, p2y
    return inside

However, this algorithm fails in some special scenarios as pointed out by Wikipedia:

Most implementations of the ray casting algorithm consecutively check intersections of a ray with all sides of the polygon in turn. In this case the following problem must be addressed. If the ray passes exactly through a vertex of a polygon, then it will intersect 2 segments at their endpoints. While it is OK for the case of the topmost vertex in the example or the vertex between crossing 4 and 5, the case of the rightmost vertex (in the example) requires that we count one intersection for the algorithm to work correctly. A similar problem arises with horizontal segments that happen to fall on the ray. The issue is solved as follows: If the intersection point is a vertex of a tested polygon side, then the intersection counts only if the second vertex of the side lies below the ray. This is effectively equivalent to considering vertices on the ray as lying slightly above the ray.

I now wish to add some corrections to the algorithm so that it is error-free. I have tried to correct, but failed.

Could anyone teach me how to correct it?

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