# Finding fully contained squares in a QPolygon?

I am looking for an approach to find a set of squares that are fully contained inside a QPolygon, which is not necessarily convex. My naive approach so far looks like this:

``````QRectF boundingRect(mShape->boundingRect());
for (int x = boundingRect.x() - 1; x < boundingRect.width(); x++)
{
for (int y = boundingRect.y() - 1; y < boundingRect.height(); y++)
{
QRectF rect(x, y, 1, 1);
QPolygonF cell(rect);
QPolygonF intersection = mShape->polygon().intersected(cell);
if (!intersection.empty())
{
// Cell is fully contained
}
}
}
``````

When I visualise the result, it looks like this:

This is almost what I want, except that the cells intersecting with the "outline" of the polygon shouldn't be there. Does anyone have a nice idea how I could construct a set of squares that are entirely "inside" the polygon?

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Shouldn't `cell.subtracted(mShape->polygon());` return empty polygon if it is fully contained and not empty polygon if something left outside? – Kamil Klimek Nov 5 '12 at 10:43