public QuadCurve2D evaluate(QuadCurve2D v0, QuadCurve2D v1, float fraction) {
double x1 = v0.getX1() + ((v1.getX1() - v0.getX1()) * fraction);
double y1 = v0.getY1() + ((v1.getY1() - v0.getY1()) * fraction);
double x2 = v0.getX2() + ((v1.getX2() - v0.getX2()) * fraction);
double y2 = v0.getY2() + ((v1.getY2() - v0.getY2()) * fraction);
double ctrlx = v0.getCtrlX() + ((v1.getCtrlX() - v0.getCtrlX()) * fraction);
double ctrly = v0.getCtrlY() + ((v1.getCtrlY() - v0.getCtrlY()) * fraction);
QuadCurve2D value = (QuadCurve2D) v0.clone();
value.setCurve(x1, y1, ctrlx, ctrly, x2, y2);
return value;
}
/** Initializes object to draw given edge. */
private void updateCurve(VisualEdge e) {
Vec2 fromPos = e.getFrom().getVisibleAncestor().getPos();
Vec2 toPos = e.getTo().getVisibleAncestor().getPos();
Vec2 curveCenter = e.getPos();
// second control point
double px = 2 * (curveCenter.x - 0.25 * fromPos.x - 0.25 * toPos.x);
double py = 2 * (curveCenter.y - 0.25 * fromPos.y - 0.25 * toPos.y);
if (curve == null) curve = new QuadCurve2D.Double();
curve.setCurve(fromPos.x, fromPos.y, px, py, toPos.x, toPos.y);
}
/** @see prefuse.render.AbstractShapeRenderer#getRawShape(prefuse.visual.VisualItem) */
@Override
protected Shape getRawShape(VisualItem item) {
EdgeItem e = (EdgeItem) item;
VisualItem source = e.getSourceItem();
VisualItem target = e.getTargetItem();
int type = m_edgeType;
int edgeIndex = -1;
getAlignedPoint(m_tmpPoints[0], source.getBounds(), m_xAlign1, m_yAlign1);
getAlignedPoint(m_tmpPoints[1], target.getBounds(), m_xAlign2, m_yAlign2);
m_curWidth = (float) (m_width * getLineWidth(item));
boolean curveCtrlPtsReady = false;
Polygon arrowHead;
// create the arrow head, if needed
if (isDirected(e)
&& m_edgeArrow != Constants.EDGE_ARROW_NONE
&& (arrowHead = getArrowHead(e)) != null) {
// get starting and ending edge endpoints
boolean forward = (m_edgeArrow == Constants.EDGE_ARROW_FORWARD);
Point2D start = null, end = null;
start = m_tmpPoints[forward ? 0 : 1];
end = m_tmpPoints[forward ? 1 : 0];
// compute the intersection with the source/target bounding box
VisualItem src = getSourceItem(e, forward);
VisualItem dest = getTargetItem(e, forward);
if (edgeBounded && !e.isAggregating()) {
adjustEndingPoint(start, end, src, dest);
} else if (GraphicsLib.intersectLineRectangle(start, end, dest.getBounds(), m_isctPoints)
> 0) {
end.setLocation(m_isctPoints[0]);
}
// create the arrow head shape
AffineTransform arrowTrans;
if (multipleEdge) {
edgeIndex = adjustEndingPointByMultipleEdge(e, start, end);
if (lineForSingleEdge && edgeIndex < 0) {
type = Constants.EDGE_TYPE_LINE;
arrowTrans = getArrowTrans(start, end, m_curWidth);
} else {
getCurveControlPoints(
edgeIndex, m_ctrlPoints, start.getX(), start.getY(), end.getX(), end.getY());
curveCtrlPtsReady = true;
arrowTrans = getArrowTrans(m_ctrlPoints[0], end, m_curWidth);
}
} else {
arrowTrans = getArrowTrans(start, end, m_curWidth);
}
m_curArrow = m_tmpArrow.set(arrowHead, arrowTrans);
// update the endpoints for the edge shape
// need to bias this by arrow head size
adjustLineEndByArrowHead(e, end);
arrowTrans.transform(end, end);
} else {
m_curArrow = null;
if (edgeBounded && !e.isAggregating()) {
adjustEndingPoint(m_tmpPoints[0], m_tmpPoints[1], source, target);
}
if (multipleEdge) {
edgeIndex = adjustEndingPointByMultipleEdge(e, m_tmpPoints[0], m_tmpPoints[1]);
if (lineForSingleEdge && edgeIndex < 0) {
type = Constants.EDGE_TYPE_LINE;
} else {
getCurveControlPoints(
edgeIndex,
m_ctrlPoints,
m_tmpPoints[0].getX(),
m_tmpPoints[0].getY(),
m_tmpPoints[1].getX(),
m_tmpPoints[1].getY());
curveCtrlPtsReady = true;
}
}
}
// create the edge shape
Shape shape = null;
double sx = m_tmpPoints[0].getX();
double sy = m_tmpPoints[0].getY();
double ex = m_tmpPoints[1].getX();
double ey = m_tmpPoints[1].getY();
switch (type) {
case Constants.EDGE_TYPE_LINE:
m_line.setLine(sx, sy, ex, ey);
shape = m_line;
break;
case Constants.EDGE_TYPE_CURVE:
if (!curveCtrlPtsReady) {
getCurveControlPoints(e, m_ctrlPoints, sx, sy, ex, ey);
}
m_quad.setCurve(sx, sy, m_ctrlPoints[0].getX(), m_ctrlPoints[0].getY(), ex, ey);
shape = m_quad;
break;
default:
throw new IllegalStateException("Unknown edge type");
}
// return the edge shape
return shape;
}
