# Why does this flood-fill algorithm cause a stack overflow?

``````void FloodFill(int layer, int x, int y, int target, int replacement)
{
if (x < 0) return;
if (y < 0) return;
if (x >= _mapWidth) return;
if (y >= _mapHeight) return;

if (_mapLayers[layer, x, y] != target) return;

_mapLayers[layer, x, y] = replacement;

FloodFill(layer, x - 1, y, target, replacement);
FloodFill(layer, x + 1, y, target, replacement);
FloodFill(layer, x, y - 1, target, replacement);
FloodFill(layer, x, y + 1, target, replacement);

return;
}
``````

This is my code so far, but when it reaches the end of the map it causes a Stack Overflow, does anybody know how to solve the problem (probably a tricky condition)?

-
How large is your map? –  KennyTM Jan 17 '10 at 14:24

Notice that this call path exists:

``````(x, y) -> (x+1, y) -> (x+1-1, y) -> (x+1-1+1, y) -> ...
``````

This is an infinite recursion, so you have stack overflow. Your checks can't deal with this. You have to perform one extra check:

``````if (_mapLayers[layer, x, y] == replacement) return;
``````

Even if you have included the extra check above, note that the maximum recursion depth is `(_mapWidth * _mapHeight)`, which can be very deep even for a small bitmap (e.g. 100 x 100).

-
maximum recursion depth is actually _mapWidth * _mapHeight. 200 is not very deep (typo I guess) :). 100*100 should not cause overflows either (unless there's already a hell of a lot of other stuff in memory), but something like 10,000*10,000 would. But the extra check is probably what the OP needs, +1. –  MAK Jan 17 '10 at 14:42
-1, this answer is wrong in more than one way. "Linear search" does not conform to neighbourhood of the points. The test _mapLayers[layer, x, y] == replacement is not needed when there is a test target!=replacement before 'FloodFill` is called first. And the maximum recursion depth will not be more that _mapWidth*_mapHeight/2 (for some kind of spiral image). –  Doc Brown Jan 17 '10 at 14:57
@DocBrown: 'if (_mapLayers[layer, x, y] != target) return;' does not handle the (admittedly unlikely) case where target==replacement. Yes, (_mapWidth * _mapHeight) is not the exact depth, but the depth will still be O(_mapWidth * _mapHeight), so the point raised is still valid. The only thing really wrong about the answer is the part about linear search. –  MAK Jan 17 '10 at 16:11
@MAK: I did not wrote 'if (_mapLayers[layer, x, y] != target)' handles the admitted case, I wrote 'one should add the missing test for 'target==replacement' (but not inside the recursive routine, the test should be done by the caller of 'FloodFill). And in the current answer there is no big O. And for target!=replacement, the given call path will not be executed as shown, since the recursion will stop before. IMHO, the answer is only partially correct, and a little bit misleading. –  Doc Brown Jan 17 '10 at 16:57

First of all, you should make sure that `target!=replacement` (can be done once before the inital call of 'FloodFill'). Then, your algo may work, as long as _mapWidth and _mapHeight are not extraordinary large (it depends heavily on the content of your _mapLayers array). If this is a problem, you should try a non-recursive algorithm. Create a

``````class Point
{
public int x, y;
public Point(int newX, int newY)
{
x=newX;
y=newY;
}
}
``````

and a

`````` List<Point> pointList;
``````

Put the initial point into this list and run some kind of loop until pointList is empty: take one point out of the list, process it like above and instead of the original recursive call above put the four neighbours again into the list.

EDIT: here is the complete example, did not test it, though:

``````    void FloodFill2(int layer, int xStart, int yStart, int target, int replacement)
{
if(target==replacement)
return;
List<Point> pointList = new List<Point>();

while(pointList.Count>0)
{
Point p = pointList[pointList.Count-1];
pointList.RemoveAt(pointList.Count-1);
if (p.x < 0) continue;
if (p.y < 0) continue;
if (p.x >= _mapWidth) continue;
if (p.y >= _mapHeight) continue;
if (_mapLayers[layer, p.x, p.y] != target) continue;
_mapLayers[layer, p.x, p.y] = replacement;

}
}
``````

EDIT2: In fact, here is a suggestion to optimize the routine: avoid inserting to the list if inserting gets pointless, so:

``````            if(p.x>=0)