I found two ways of solving this problem:
(1) One way is to draw everything on the canvas twice. The first time, every shape gets filled with a unique color from a hash table. The second time, the shapes get their real colors and masks over the first layer. To detect mouse-shape collision, I'd have to grab the color of the pixel under the mouse from the first layer and map the color I get to the corresponding shape in the hash table.
(2) Or I can use the ray casting algorithm (http://en.wikipedia.org/wiki/Point_in_polygon#Ray_casting_algorithm). I have actually implemented this algorithm with code that detect ray-line collisions and ray-Bezier collisions.
The actual question:
I dislike the first approach because everything has to be drawn twice, which is not computationally cheap. But the second approach does not guarantee accuracy, due to rounding errors from computations.
Ideally, I would like to improve the accuracy of the second approach to near-perfection.
My attempt to improve accuracy is to cast 4 rays in different directions: top, left, bottom and right. If at least one horizontal and one vertical ray suggest the mouse is inside the shape, then I conclude the point is inside the shape. Although this eliminates most misfires, errors (not firing) still do occur when the mouse is inside the shape.
It would be awesome if someone can suggest a fix to the ray casting algorithm, or perhaps even a third option!
Thanks in advance.