Example #1
0
void BarycenterPlacer::placeOneNode(MultilevelGraph &MLG)
{
	node merged = MLG.undoLastMerge();
	double x = 0.0;
	double y = 0.0;
	double i = 0.0;
	for(adjEntry adj : merged->adjEdges) {
		if(m_weightedPositions) {
			double weight = 1.0 / MLG.weight(adj->theEdge());
			i = i + weight;
			x += MLG.x(adj->twinNode()) * weight;
			y += MLG.y(adj->twinNode()) * weight;
		} else {
			i = i + 1.f;
			x += MLG.x(adj->twinNode());
			y += MLG.y(adj->twinNode());
		}
	}

	OGDF_ASSERT(i > 0);
	x = x / i;
	y = y / i;

	MLG.x(merged, x + ((m_randomOffset)?(float)randomDouble(-1.0, 1.0):0.f));
	MLG.y(merged, y + ((m_randomOffset)?(float)randomDouble(-1.0, 1.0):0.f));
}
Example #2
0
void SolarPlacer::placeOneNode(MultilevelGraph &MLG)
{
	NodeMerge * lastNM = MLG.getLastMerge();
	float x = 0.0;
	float y = 0.0;
	int i = 0;

	node sun = MLG.getNode(lastNM->m_changedNodes.front());
	std::vector< std::pair<int, float> > positions = lastNM->m_position;

	node merged = MLG.undoLastMerge();

	if (positions.size() > 0) {
		for (std::vector< std::pair<int, float> >::iterator j = positions.begin(); j != positions.end(); j++) {
			float factor = (*j).second;
			node other_sun = MLG.getNode((*j).first);
			i++;
			x += MLG.x(sun) * factor + MLG.x(other_sun) * (1.0f-factor);
			y += MLG.y(sun) * factor + MLG.y(other_sun) * (1.0f-factor);
		}
	} else {
		i++;
		x += MLG.x(sun);
		y += MLG.y(sun);
	}

	OGDF_ASSERT(i > 0);
	if (positions.size() == 0 || m_randomOffset) {
		x += (float)randomDouble(-1.0, 1.0);
		y += (float)randomDouble(-1.0, 1.0);
	}
	MLG.x(merged, (x / static_cast<float>(i)));
	MLG.y(merged, (y / static_cast<float>(i)));
}
Example #3
0
void SolarPlacer::placeOneNode(MultilevelGraph &MLG)
{
	NodeMerge * lastNM = MLG.getLastMerge();
	double x = 0.0;
	double y = 0.0;
	int i = 0;

	node sun = MLG.getNode(lastNM->m_changedNodes.front());
	std::vector< std::pair<int, double> > positions = lastNM->m_position;

	node merged = MLG.undoLastMerge();

	if (positions.size() > 0) {
		for (const std::pair<int, double> &p : positions) {
			double factor = p.second;
			node other_sun = MLG.getNode(p.first);
			i++;
			x += MLG.x(sun) * factor + MLG.x(other_sun) * (1.0f-factor);
			y += MLG.y(sun) * factor + MLG.y(other_sun) * (1.0f-factor);
		}
	} else {
		i++;
		x += MLG.x(sun);
		y += MLG.y(sun);
	}

	OGDF_ASSERT(i > 0);
	if (positions.size() == 0 || m_randomOffset) {
		x += randomDouble(-1.0, 1.0);
		y += randomDouble(-1.0, 1.0);
	}
	MLG.x(merged, (x / static_cast<double>(i)));
	MLG.y(merged, (y / static_cast<double>(i)));
}
Example #4
0
void ZeroPlacer::placeOneNode(MultilevelGraph &MLG)
{
	NodeMerge * NM = MLG.getLastMerge();
	node parent = MLG.getNode(NM->m_changedNodes[0]);
	node merged = MLG.undoLastMerge();
	MLG.x(merged, MLG.x(parent) + ((m_randomOffset)?(float)randomDouble(-m_randomRange, m_randomRange):0.f));
	MLG.y(merged, MLG.y(parent) + ((m_randomOffset)?(float)randomDouble(-m_randomRange, m_randomRange):0.f));
}
Example #5
0
void RandomPlacer::placeOneNode(MultilevelGraph &MLG, DPoint center, double radius)
{
	node merged = MLG.undoLastMerge();
	float angle = (float)randomDouble(0.0, 2 * Math::pi);
	float randRadius = float(sqrt(randomDouble(0.0, radius * radius)));
	MLG.x(merged, cos(angle) * randRadius + ((m_randomOffset)?(float)randomDouble(-1.0, 1.0):0.f));
	MLG.y(merged, sin(angle) * randRadius + ((m_randomOffset)?(float)randomDouble(-1.0, 1.0):0.f));
}
Example #6
0
void MedianPlacer::placeOneNode(MultilevelGraph &MLG)
{
	node merged = MLG.undoLastMerge();
	int i = 0;
	std::vector<double> xVector;
	std::vector<double> yVector;
	adjEntry adj;
	forall_adj(adj, merged) {
		i++;
		xVector.push_back(MLG.x(adj->twinNode()));
		yVector.push_back(MLG.y(adj->twinNode()));
	}