// computes distance between two parallel lines
	double IntersectionRectangle::parallelDist(const DLine& d1, const DLine& d2) const
	{
		OGDF_ASSERT((d1.isHorizontal() && d2.isHorizontal()) ||
			(d1.isVertical() && d2.isVertical()));
		double d1min, d1max, d2min, d2max, paraDist, dist;
		if(d1.isVertical()) {
			d1min = d1.start().m_y;
			d1max = d1.end().m_y;
			d2min = d2.start().m_y;
			d2max = d2.end().m_y;
			paraDist = fabs(d1.start().m_x - d2.start().m_x);
		}
		else {
			d1min = d1.start().m_x;
			d1max = d1.end().m_x;
			d2min = d2.start().m_x;
			d2max = d2.end().m_x;
			paraDist = fabs(d1.start().m_y - d2.start().m_y);
		}
		if(d1min > d1max) swap(d1min,d1max);
		if(d2min > d2max) swap(d2min,d2max);
		if(d1min > d2max || d2min > d1max) { // no overlap
			dist = pointDist(d1.start(),d2.start());
			dist = min(dist,pointDist(d1.start(),d2.end()));
			dist = min(dist,pointDist(d1.end(),d2.start()));
			dist = min(dist,pointDist(d1.end(),d2.end()));
		}
		else
			dist = paraDist; // segments overlap
		return dist;
	}
예제 #2
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// gives the intersection-point between two lines, returns true, if any
// computes the crossing point between the (infinite) lines
// defined by the endpoints of the DLines, then checks if it
// lies within the two rectangles defined by the DLines endpoints
bool DLine::intersection(
	const DLine &line,
	DPoint &inter,
	bool endpoints) const
{
	double ix, iy;

	//do not return true if parallel edges are encountered
	if (slope() == line.slope()) return false;

	//two possible checks:
	// only check for overlap on endpoints if option parameter set,
	// compute crossing otherwise
	// or skip computation if endpoints overlap (can't have "real" crossing)
	// (currently implemented)
	//if (endpoints) {

	if (m_start == line.m_start || m_start == line.m_end) {
		inter = m_start;
		if (endpoints) return true;
		else return false;
	}

	if (m_end == line.m_start || m_end == line.m_end) {
		inter = m_end;
		if (endpoints) return true;
		else return false;
	}

	//}//if endpoints

	//if the edge is vertical, we cannot compute the slope
	if (isVertical())
		ix = m_start.m_x;
	else
		if (line.isVertical())
			ix = line.m_start.m_x;
		else
			ix = (line.yAbs() - yAbs())/(slope() - line.slope());

	//set iy to the value of the infinite line at xvalue ix
	//use a non-vertical line (can't be both, otherwise they're parallel)
	if (isVertical())
		iy = line.slope() * ix + line.yAbs();
	else
		iy = slope() * ix + yAbs();

	inter = DPoint(ix, iy); //the (infinite) lines cross point

	DRect tRect(line);
	DRect mRect(*this);

	return (tRect.contains(inter) && mRect.contains(inter));
}