A common scenario for such situation is to use an array/
Rect structures. You then define, that such a rectangle defines an area that is "allowed".
Then, given a point
(x, y) you simply iterate over the array/list and check if the point lies inside any of the rectangles in the collection. You can simply use
Rect.contains(x,y) for this. You answer
true if any
Rect contains the point in question and
That should give you a very decent performance/memory consumption ratio. It's commonly used in applications such as yours assuming the "zones" are rectangular (or each zone can be expressed as a union of - ideally - small number of rectangles).
Another alternative (provided that rectangles are not an option) would be to use a discreet polygons to represent the zones. If this is feasible, you could use a simple algorithm presented here: http://alienryderflex.com/polygon/ It lets you test whether a given point is inside (even very complex) polygon in time
n is the number of all vertexes of all polygons defining the zones of your map.
If your zones are very scattered (i.e. it's hard to represent them using rectangles of even polygons) then you probably have no other simple choice. What you could do is to (for example) create an array which would contain row-allowance information. For each row you would have an array
int in which every
int would contain 32 bits each representing
boolean values for consecutive columns. This is very similar to what you already have, but you would have a memory footprint smaller by a factor of 8, because each value would take only one bit and not a whole byte.