While I'd suggest that it would be faster to do this mathematically, defining the banknotes as rectangles and testing for overlap using something like the separating axes theorem, that's obviously not what you're asking and not suitable for general case images.
So I'd suggest that you create a
CGBitmapContext the same size as your play area and that when seeding your play area, for each note you place you do something like:
- assign new, as yet unused colour to the bank note
- draw it to the bitmap context at its destination position, but as a solid object of the assigned colour — so you preserve the outline of the original shape but at each pixel you draw either the solid, assigned colour or no colour at all
- count how many pixels in the entire context are now the assigned colour, store that with your object representing the note
Subsequently, when the game starts run through the buffer and count how many of each assigned colour. All notes that have the same number stored as are currently visible are on top. Whenever a note is removed, redraw all the others in order and do the colour count once.
Note that you're not doing the colour count on the total buffer once per note, just once in total. So it's a fixed cost and probably occurs less often than once per tap.
Probably the easiest way to do the drawing as a single colour is to create a mask version of each graphic when it's loaded and then to draw that with a suitable tint. There's an introduction to alpha masks here; you'll probably want to create a custom bitmap image context rather than using the implicit one returned by
UIGraphicsGetCurrentContext and to post filter to test the output alpha — pushing down to 0 if its less than some threshold, up to 255 otherwise.