website-htmx-rustelo-code/site/public/js/cytoscape-cose-bilkent.js

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2026-07-10 03:44:13 +01:00
(function(f){if(typeof exports==="object"&&typeof module!=="undefined"){module.exports=f()}else if(typeof define==="function"&&define.amd){define([],f)}else{var g;if(typeof window!=="undefined"){g=window}else if(typeof global!=="undefined"){g=global}else if(typeof self!=="undefined"){g=self}else{g=this}g.cytoscapeCoseBilkent = f()}})(function(){var define,module,exports;return (function e(t,n,r){function s(o,u){if(!n[o]){if(!t[o]){var a=typeof require=="function"&&require;if(!u&&a)return a(o,!0);if(i)return i(o,!0);var f=new Error("Cannot find module '"+o+"'");throw f.code="MODULE_NOT_FOUND",f}var l=n[o]={exports:{}};t[o][0].call(l.exports,function(e){var n=t[o][1][e];return s(n?n:e)},l,l.exports,e,t,n,r)}return n[o].exports}var i=typeof require=="function"&&require;for(var o=0;o<r.length;o++)s(r[o]);return s})({1:[function(require,module,exports){
var FDLayoutConstants = require('./FDLayoutConstants');
function CoSEConstants() {
}
//CoSEConstants inherits static props in FDLayoutConstants
for (var prop in FDLayoutConstants) {
CoSEConstants[prop] = FDLayoutConstants[prop];
}
CoSEConstants.DEFAULT_USE_MULTI_LEVEL_SCALING = false;
CoSEConstants.DEFAULT_RADIAL_SEPARATION = FDLayoutConstants.DEFAULT_EDGE_LENGTH;
CoSEConstants.DEFAULT_COMPONENT_SEPERATION = 60;
module.exports = CoSEConstants;
},{"./FDLayoutConstants":10}],2:[function(require,module,exports){
var FDLayoutEdge = require('./FDLayoutEdge');
function CoSEEdge(source, target, vEdge) {
FDLayoutEdge.call(this, source, target, vEdge);
}
CoSEEdge.prototype = Object.create(FDLayoutEdge.prototype);
for (var prop in FDLayoutEdge) {
CoSEEdge[prop] = FDLayoutEdge[prop];
}
module.exports = CoSEEdge
},{"./FDLayoutEdge":11}],3:[function(require,module,exports){
var LGraph = require('./LGraph');
function CoSEGraph(parent, graphMgr, vGraph) {
LGraph.call(this, parent, graphMgr, vGraph);
}
CoSEGraph.prototype = Object.create(LGraph.prototype);
for (var prop in LGraph) {
CoSEGraph[prop] = LGraph[prop];
}
module.exports = CoSEGraph;
},{"./LGraph":19}],4:[function(require,module,exports){
var LGraphManager = require('./LGraphManager');
function CoSEGraphManager(layout) {
LGraphManager.call(this, layout);
}
CoSEGraphManager.prototype = Object.create(LGraphManager.prototype);
for (var prop in LGraphManager) {
CoSEGraphManager[prop] = LGraphManager[prop];
}
module.exports = CoSEGraphManager;
},{"./LGraphManager":20}],5:[function(require,module,exports){
var FDLayout = require('./FDLayout');
var CoSEGraphManager = require('./CoSEGraphManager');
var CoSEGraph = require('./CoSEGraph');
var CoSENode = require('./CoSENode');
var CoSEEdge = require('./CoSEEdge');
var CoSEConstants = require('./CoSEConstants');
var FDLayoutConstants = require('./FDLayoutConstants');
var LayoutConstants = require('./LayoutConstants');
var Point = require('./Point');
var PointD = require('./PointD');
var Layout = require('./Layout');
var Integer = require('./Integer');
var IGeometry = require('./IGeometry');
var LGraph = require('./LGraph');
var Transform = require('./Transform');
function CoSELayout() {
FDLayout.call(this);
}
CoSELayout.prototype = Object.create(FDLayout.prototype);
for (var prop in FDLayout) {
CoSELayout[prop] = FDLayout[prop];
}
CoSELayout.prototype.newGraphManager = function () {
var gm = new CoSEGraphManager(this);
this.graphManager = gm;
return gm;
};
CoSELayout.prototype.newGraph = function (vGraph) {
return new CoSEGraph(null, this.graphManager, vGraph);
};
CoSELayout.prototype.newNode = function (vNode) {
return new CoSENode(this.graphManager, vNode);
};
CoSELayout.prototype.newEdge = function (vEdge) {
return new CoSEEdge(null, null, vEdge);
};
CoSELayout.prototype.initParameters = function () {
FDLayout.prototype.initParameters.call(this, arguments);
if (!this.isSubLayout) {
if (CoSEConstants.DEFAULT_EDGE_LENGTH < 10)
{
this.idealEdgeLength = 10;
}
else
{
this.idealEdgeLength = CoSEConstants.DEFAULT_EDGE_LENGTH;
}
this.useSmartIdealEdgeLengthCalculation =
CoSEConstants.DEFAULT_USE_SMART_IDEAL_EDGE_LENGTH_CALCULATION;
this.springConstant =
FDLayoutConstants.DEFAULT_SPRING_STRENGTH;
this.repulsionConstant =
FDLayoutConstants.DEFAULT_REPULSION_STRENGTH;
this.gravityConstant =
FDLayoutConstants.DEFAULT_GRAVITY_STRENGTH;
this.compoundGravityConstant =
FDLayoutConstants.DEFAULT_COMPOUND_GRAVITY_STRENGTH;
this.gravityRangeFactor =
FDLayoutConstants.DEFAULT_GRAVITY_RANGE_FACTOR;
this.compoundGravityRangeFactor =
FDLayoutConstants.DEFAULT_COMPOUND_GRAVITY_RANGE_FACTOR;
}
};
CoSELayout.prototype.layout = function () {
var createBendsAsNeeded = LayoutConstants.DEFAULT_CREATE_BENDS_AS_NEEDED;
if (createBendsAsNeeded)
{
this.createBendpoints();
this.graphManager.resetAllEdges();
}
this.level = 0;
return this.classicLayout();
};
CoSELayout.prototype.classicLayout = function () {
this.calculateNodesToApplyGravitationTo();
this.graphManager.calcLowestCommonAncestors();
this.graphManager.calcInclusionTreeDepths();
this.graphManager.getRoot().calcEstimatedSize();
this.calcIdealEdgeLengths();
if (!this.incremental)
{
var forest = this.getFlatForest();
// The graph associated with this layout is flat and a forest
if (forest.length > 0)
{
this.positionNodesRadially(forest);
}
// The graph associated with this layout is not flat or a forest
else
{
this.positionNodesRandomly();
}
}
this.initSpringEmbedder();
this.runSpringEmbedder();
return true;
};
CoSELayout.prototype.tick = function() {
this.totalIterations++;
if (this.totalIterations === this.maxIterations) {
return true; // Layout is not ended return true
}
if (this.totalIterations % FDLayoutConstants.CONVERGENCE_CHECK_PERIOD == 0)
{
if (this.isConverged())
{
return true; // Layout is not ended return true
}
this.coolingFactor = this.initialCoolingFactor *
((this.maxIterations - this.totalIterations) / this.maxIterations);
this.animationPeriod = Math.ceil(this.initialAnimationPeriod * Math.sqrt(this.coolingFactor));
}
this.totalDisplacement = 0;
this.graphManager.updateBounds();
this.calcSpringForces();
this.calcRepulsionForces();
this.calcGravitationalForces();
this.moveNodes();
this.animate();
return false; // Layout is not ended yet return false
};
CoSELayout.prototype.getPositionsData = function() {
var allNodes = this.graphManager.getAllNodes();
var pData = {};
for (var i = 0; i < allNodes.length; i++) {
var rect = allNodes[i].rect;
var id = allNodes[i].id;
pData[id] = {
id: id,
x: rect.getCenterX(),
y: rect.getCenterY(),
w: rect.width,
h: rect.height
};
}
return pData;
};
CoSELayout.prototype.runSpringEmbedder = function () {
this.initialAnimationPeriod = 25;
this.animationPeriod = this.initialAnimationPeriod;
var layoutEnded = false;
// If aminate option is 'during' signal that layout is supposed to start iterating
if ( FDLayoutConstants.ANIMATE === 'during' ) {
this.emit('layoutstarted');
}
else {
// If aminate option is 'during' tick() function will be called on index.js
while (!layoutEnded) {
layoutEnded = this.tick();
}
this.graphManager.updateBounds();
}
};
CoSELayout.prototype.calculateNodesToApplyGravitationTo = function () {
var nodeList = [];
var graph;
var graphs = this.graphManager.getGraphs();
var size = graphs.length;
var i;
for (i = 0; i < size; i++)
{
graph = graphs[i];
graph.updateConnected();
if (!graph.isConnected)
{
nodeList = nodeList.concat(graph.getNodes());
}
}
this.graphManager.setAllNodesToApplyGravitation(nodeList);
};
CoSELayout.prototype.createBendpoints = function () {
var edges = [];
edges = edges.concat(this.graphManager.getAllEdges());
var visited = new HashSet();
var i;
for (i = 0; i < edges.length; i++)
{
var edge = edges[i];
if (!visited.contains(edge))
{
var source = edge.getSource();
var target = edge.getTarget();
if (source == target)
{
edge.getBendpoints().push(new PointD());
edge.getBendpoints().push(new PointD());
this.createDummyNodesForBendpoints(edge);
visited.add(edge);
}
else
{
var edgeList = [];
edgeList = edgeList.concat(source.getEdgeListToNode(target));
edgeList = edgeList.concat(target.getEdgeListToNode(source));
if (!visited.contains(edgeList[0]))
{
if (edgeList.length > 1)
{
var k;
for (k = 0; k < edgeList.length; k++)
{
var multiEdge = edgeList[k];
multiEdge.getBendpoints().push(new PointD());
this.createDummyNodesForBendpoints(multiEdge);
}
}
visited.addAll(list);
}
}
}
if (visited.size() == edges.length)
{
break;
}
}
};
CoSELayout.prototype.positionNodesRadially = function (forest) {
// We tile the trees to a grid row by row; first tree starts at (0,0)
var currentStartingPoint = new Point(0, 0);
var numberOfColumns = Math.ceil(Math.sqrt(forest.length));
var height = 0;
var currentY = 0;
var currentX = 0;
var point = new PointD(0, 0);
for (var i = 0; i < forest.length; i++)
{
if (i % numberOfColumns == 0)
{
// Start of a new row, make the x coordinate 0, increment the
// y coordinate with the max height of the previous row
currentX = 0;
currentY = height;
if (i != 0)
{
currentY += CoSEConstants.DEFAULT_COMPONENT_SEPERATION;
}
height = 0;
}
var tree = forest[i];
// Find the center of the tree
var centerNode = Layout.findCenterOfTree(tree);
// Set the staring point of the next tree
currentStartingPoint.x = currentX;
currentStartingPoint.y = currentY;
// Do a radial layout starting with the center
point =
CoSELayout.radialLayout(tree, centerNode, currentStartingPoint);
if (point.y > height)
{
height = Math.floor(point.y);
}
currentX = Math.floor(point.x + CoSEConstants.DEFAULT_COMPONENT_SEPERATION);
}
this.transform(
new PointD(LayoutConstants.WORLD_CENTER_X - point.x / 2,
LayoutConstants.WORLD_CENTER_Y - point.y / 2));
};
CoSELayout.radialLayout = function (tree, centerNode, startingPoint) {
var radialSep = Math.max(this.maxDiagonalInTree(tree),
CoSEConstants.DEFAULT_RADIAL_SEPARATION);
CoSELayout.branchRadialLayout(centerNode, null, 0, 359, 0, radialSep);
var bounds = LGraph.calculateBounds(tree);
var transform = new Transform();
transform.setDeviceOrgX(bounds.getMinX());
transform.setDeviceOrgY(bounds.getMinY());
transform.setWorldOrgX(startingPoint.x);
transform.setWorldOrgY(startingPoint.y);
for (var i = 0; i < tree.length; i++)
{
var node = tree[i];
node.transform(transform);
}
var bottomRight =
new PointD(bounds.getMaxX(), bounds.getMaxY());
return transform.inverseTransformPoint(bottomRight);
};
CoSELayout.branchRadialLayout = function (node, parentOfNode, startAngle, endAngle, distance, radialSeparation) {
// First, position this node by finding its angle.
var halfInterval = ((endAngle - startAngle) + 1) / 2;
if (halfInterval < 0)
{
halfInterval += 180;
}
var nodeAngle = (halfInterval + startAngle) % 360;
var teta = (nodeAngle * IGeometry.TWO_PI) / 360;
// Make polar to java cordinate conversion.
var cos_teta = Math.cos(teta);
var x_ = distance * Math.cos(teta);
var y_ = distance * Math.sin(teta);
node.setCenter(x_, y_);
// Traverse all neighbors of this node and recursively call this
// function.
var neighborEdges = [];
neighborEdges = neighborEdges.concat(node.getEdges());
var childCount = neighborEdges.length;
if (parentOfNode != null)
{
childCount--;
}
var branchCount = 0;
var incEdgesCount = neighborEdges.length;
var startIndex;
var edges = node.getEdgesBetween(parentOfNode);
// If there are multiple edges, prune them until there remains only one
// edge.
while (edges.length > 1)
{
//neighborEdges.remove(edges.remove(0));
var temp = edges[0];
edges.splice(0, 1);
var index = neighborEdges.indexOf(temp);
if (index >= 0) {
neighborEdges.splice(index, 1);
}
incEdgesCount--;
childCount--;
}
if (parentOfNode != null)
{
//assert edges.length == 1;
startIndex = (neighborEdges.indexOf(edges[0]) + 1) % incEdgesCount;
}
else
{
startIndex = 0;
}
var stepAngle = Math.abs(endAngle - startAngle) / childCount;
for (var i = startIndex;
branchCount != childCount;
i = (++i) % incEdgesCount)
{
var currentNeighbor =
neighborEdges[i].getOtherEnd(node);
// Don't back traverse to root node in current tree.
if (currentNeighbor == parentOfNode)
{
continue;
}
var childStartAngle =
(startAngle + branchCount * stepAngle) % 360;
var childEndAngle = (childStartAngle + stepAngle) % 360;
CoSELayout.branchRadialLayout(currentNeighbor,
node,
childStartAngle, childEndAngle,
distance + radialSeparation, radialSeparation);
branchCount++;
}
};
CoSELayout.maxDiagonalInTree = function (tree) {
var maxDiagonal = Integer.MIN_VALUE;
for (var i = 0; i < tree.length; i++)
{
var node = tree[i];
var diagonal = node.getDiagonal();
if (diagonal > maxDiagonal)
{
maxDiagonal = diagonal;
}
}
return maxDiagonal;
};
CoSELayout.prototype.calcRepulsionRange = function () {
// formula is 2 x (level + 1) x idealEdgeLength
return (2 * (this.level + 1) * this.idealEdgeLength);
};
module.exports = CoSELayout;
},{"./CoSEConstants":1,"./CoSEEdge":2,"./CoSEGraph":3,"./CoSEGraphManager":4,"./CoSENode":6,"./FDLayout":9,"./FDLayoutConstants":10,"./IGeometry":15,"./Integer":17,"./LGraph":19,"./Layout":23,"./LayoutConstants":24,"./Point":25,"./PointD":26,"./Transform":30}],6:[function(require,module,exports){
var FDLayoutNode = require('./FDLayoutNode');
var IMath = require('./IMath');
function CoSENode(gm, loc, size, vNode) {
FDLayoutNode.call(this, gm, loc, size, vNode);
}
CoSENode.prototype = Object.create(FDLayoutNode.prototype);
for (var prop in FDLayoutNode) {
CoSENode[prop] = FDLayoutNode[prop];
}
CoSENode.prototype.move = function ()
{
var layout = this.graphManager.getLayout();
this.displacementX = layout.coolingFactor *
(this.springForceX + this.repulsionForceX + this.gravitationForceX);
this.displacementY = layout.coolingFactor *
(this.springForceY + this.repulsionForceY + this.gravitationForceY);
if (Math.abs(this.displacementX) > layout.coolingFactor * layout.maxNodeDisplacement)
{
this.displacementX = layout.coolingFactor * layout.maxNodeDisplacement *
IMath.sign(this.displacementX);
}
if (Math.abs(this.displacementY) > layout.coolingFactor * layout.maxNodeDisplacement)
{
this.displacementY = layout.coolingFactor * layout.maxNodeDisplacement *
IMath.sign(this.displacementY);
}
// a simple node, just move it
if (this.child == null)
{
this.moveBy(this.displacementX, this.displacementY);
}
// an empty compound node, again just move it
else if (this.child.getNodes().length == 0)
{
this.moveBy(this.displacementX, this.displacementY);
}
// non-empty compound node, propogate movement to children as well
else
{
this.propogateDisplacementToChildren(this.displacementX,
this.displacementY);
}
layout.totalDisplacement +=
Math.abs(this.displacementX) + Math.abs(this.displacementY);
this.springForceX = 0;
this.springForceY = 0;
this.repulsionForceX = 0;
this.repulsionForceY = 0;
this.gravitationForceX = 0;
this.gravitationForceY = 0;
this.displacementX = 0;
this.displacementY = 0;
};
CoSENode.prototype.propogateDisplacementToChildren = function (dX, dY)
{
var nodes = this.getChild().getNodes();
var node;
for (var i = 0; i < nodes.length; i++)
{
node = nodes[i];
if (node.getChild() == null)
{
node.moveBy(dX, dY);
node.displacementX += dX;
node.displacementY += dY;
}
else
{
node.propogateDisplacementToChildren(dX, dY);
}
}
};
CoSENode.prototype.setPred1 = function (pred1)
{
this.pred1 = pred1;
};
CoSENode.prototype.getPred1 = function ()
{
return pred1;
};
CoSENode.prototype.getPred2 = function ()
{
return pred2;
};
CoSENode.prototype.setNext = function (next)
{
this.next = next;
};
CoSENode.prototype.getNext = function ()
{
return next;
};
CoSENode.prototype.setProcessed = function (processed)
{
this.processed = processed;
};
CoSENode.prototype.isProcessed = function ()
{
return processed;
};
module.exports = CoSENode;
},{"./FDLayoutNode":12,"./IMath":16}],7:[function(require,module,exports){
function DimensionD(width, height) {
this.width = 0;
this.height = 0;
if (width !== null && height !== null) {
this.height = height;
this.width = width;
}
}
DimensionD.prototype.getWidth = function ()
{
return this.width;
};
DimensionD.prototype.setWidth = function (width)
{
this.width = width;
};
DimensionD.prototype.getHeight = function ()
{
return this.height;
};
DimensionD.prototype.setHeight = function (height)
{
this.height = height;
};
module.exports = DimensionD;
},{}],8:[function(require,module,exports){
function Emitter(){
this.listeners = [];
}
var p = Emitter.prototype;
p.addListener = function( event, callback ){
this.listeners.push({
event: event,
callback: callback
});
};
p.removeListener = function( event, callback ){
for( var i = this.listeners.length; i >= 0; i-- ){
var l = this.listeners[i];
if( l.event === event && l.callback === callback ){
this.listeners.splice( i, 1 );
}
}
};
p.emit = function( event, data ){
for( var i = 0; i < this.listeners.length; i++ ){
var l = this.listeners[i];
if( event === l.event ){
l.callback( data );
}
}
};
module.exports = Emitter;
},{}],9:[function(require,module,exports){
var Layout = require('./Layout');
var FDLayoutConstants = require('./FDLayoutConstants');
var LayoutConstants = require('./LayoutConstants');
var IGeometry = require('./IGeometry');
var IMath = require('./IMath');
function FDLayout() {
Layout.call(this);
this.useSmartIdealEdgeLengthCalculation = FDLayoutConstants.DEFAULT_USE_SMART_IDEAL_EDGE_LENGTH_CALCULATION;
this.idealEdgeLength = FDLayoutConstants.DEFAULT_EDGE_LENGTH;
this.springConstant = FDLayoutConstants.DEFAULT_SPRING_STRENGTH;
this.repulsionConstant = FDLayoutConstants.DEFAULT_REPULSION_STRENGTH;
this.gravityConstant = FDLayoutConstants.DEFAULT_GRAVITY_STRENGTH;
this.compoundGravityConstant = FDLayoutConstants.DEFAULT_COMPOUND_GRAVITY_STRENGTH;
this.gravityRangeFactor = FDLayoutConstants.DEFAULT_GRAVITY_RANGE_FACTOR;
this.compoundGravityRangeFactor = FDLayoutConstants.DEFAULT_COMPOUND_GRAVITY_RANGE_FACTOR;
this.displacementThresholdPerNode = (3.0 * FDLayoutConstants.DEFAULT_EDGE_LENGTH) / 100;
this.coolingFactor = 1.0;
this.initialCoolingFactor = 1.0;
this.totalDisplacement = 0.0;
this.oldTotalDisplacement = 0.0;
this.maxIterations = FDLayoutConstants.MAX_ITERATIONS;
}
FDLayout.prototype = Object.create(Layout.prototype);
for (var prop in Layout) {
FDLayout[prop] = Layout[prop];
}
FDLayout.prototype.initParameters = function () {
Layout.prototype.initParameters.call(this, arguments);
if (this.layoutQuality == LayoutConstants.DRAFT_QUALITY)
{
this.displacementThresholdPerNode += 0.30;
this.maxIterations *= 0.8;
}
else if (this.layoutQuality == LayoutConstants.PROOF_QUALITY)
{
this.displacementThresholdPerNode -= 0.30;
this.maxIterations *= 1.2;
}
this.totalIterations = 0;
this.notAnimatedIterations = 0;
// this.useFRGridVariant = layoutOptionsPack.smartRepulsionRangeCalc;
};
FDLayout.prototype.calcIdealEdgeLengths = function () {
var edge;
var lcaDepth;
var source;
var target;
var sizeOfSourceInLca;
var sizeOfTargetInLca;
var allEdges = this.getGraphManager().getAllEdges();
for (var i = 0; i < allEdges.length; i++)
{
edge = allEdges[i];
edge.idealLength = this.idealEdgeLength;
if (edge.isInterGraph)
{
source = edge.getSource();
target = edge.getTarget();
sizeOfSourceInLca = edge.getSourceInLca().getEstimatedSize();
sizeOfTargetInLca = edge.getTargetInLca().getEstimatedSize();
if (this.useSmartIdealEdgeLengthCalculation)
{
edge.idealLength += sizeOfSourceInLca + sizeOfTargetInLca -
2 * LayoutConstants.SIMPLE_NODE_SIZE;
}
lcaDepth = edge.getLca().getInclusionTreeDepth();
edge.idealLength += FDLayoutConstants.DEFAULT_EDGE_LENGTH *
FDLayoutConstants.PER_LEVEL_IDEAL_EDGE_LENGTH_FACTOR *
(source.getInclusionTreeDepth() +
target.getInclusionTreeDepth() - 2 * lcaDepth);
}
}
};
FDLayout.prototype.initSpringEmbedder = function () {
if (this.incremental)
{
this.coolingFactor = 0.8;
this.initialCoolingFactor = 0.8;
this.maxNodeDisplacement =
FDLayoutConstants.MAX_NODE_DISPLACEMENT_INCREMENTAL;
}
else
{
this.coolingFactor = 1.0;
this.initialCoolingFactor = 1.0;
this.maxNodeDisplacement =
FDLayoutConstants.MAX_NODE_DISPLACEMENT;
}
this.maxIterations =
Math.max(this.getAllNodes().length * 5, this.maxIterations);
this.totalDisplacementThreshold =
this.displacementThresholdPerNode * this.getAllNodes().length;
this.repulsionRange = this.calcRepulsionRange();
};
FDLayout.prototype.calcSpringForces = function () {
var lEdges = this.getAllEdges();
var edge;
for (var i = 0; i < lEdges.length; i++)
{
edge = lEdges[i];
this.calcSpringForce(edge, edge.idealLength);
}
};
FDLayout.prototype.calcRepulsionForces = function () {
var i, j;
var nodeA, nodeB;
var lNodes = this.getAllNodes();
for (i = 0; i < lNodes.length; i++)
{
nodeA = lNodes[i];
for (j = i + 1; j < lNodes.length; j++)
{
nodeB = lNodes[j];
// If both nodes are not members of the same graph, skip.
if (nodeA.getOwner() != nodeB.getOwner())
{
continue;
}
this.calcRepulsionForce(nodeA, nodeB);
}
}
};
FDLayout.prototype.calcGravitationalForces = function () {
var node;
var lNodes = this.getAllNodesToApplyGravitation();
for (var i = 0; i < lNodes.length; i++)
{
node = lNodes[i];
this.calcGravitationalForce(node);
}
};
FDLayout.prototype.moveNodes = function () {
var lNodes = this.getAllNodes();
var node;
for (var i = 0; i < lNodes.length; i++)
{
node = lNodes[i];
node.move();
}
}
FDLayout.prototype.calcSpringForce = function (edge, idealLength) {
var sourceNode = edge.getSource();
var targetNode = edge.getTarget();
var length;
var springForce;
var springForceX;
var springForceY;
// Update edge length
if (this.uniformLeafNodeSizes &&
sourceNode.getChild() == null && targetNode.getChild() == null)
{
edge.updateLengthSimple();
}
else
{
edge.updateLength();
if (edge.isOverlapingSourceAndTarget)
{
return;
}
}
length = edge.getLength();
// Calculate spring forces
springForce = this.springConstant * (length - idealLength);
// Project force onto x and y axes
springForceX = springForce * (edge.lengthX / length);
springForceY = springForce * (edge.lengthY / length);
// Apply forces on the end nodes
sourceNode.springForceX += springForceX;
sourceNode.springForceY += springForceY;
targetNode.springForceX -= springForceX;
targetNode.springForceY -= springForceY;
};
FDLayout.prototype.calcRepulsionForce = function (nodeA, nodeB) {
var rectA = nodeA.getRect();
var rectB = nodeB.getRect();
var overlapAmount = new Array(2);
var clipPoints = new Array(4);
var distanceX;
var distanceY;
var distanceSquared;
var distance;
var repulsionForce;
var repulsionForceX;
var repulsionForceY;
if (rectA.intersects(rectB))// two nodes overlap
{
// calculate separation amount in x and y directions
IGeometry.calcSeparationAmount(rectA,
rectB,
overlapAmount,
FDLayoutConstants.DEFAULT_EDGE_LENGTH / 2.0);
repulsionForceX = overlapAmount[0];
repulsionForceY = overlapAmount[1];
}
else// no overlap
{
// calculate distance
if (this.uniformLeafNodeSizes &&
nodeA.getChild() == null && nodeB.getChild() == null)// simply base repulsion on distance of node centers
{
distanceX = rectB.getCenterX() - rectA.getCenterX();
distanceY = rectB.getCenterY() - rectA.getCenterY();
}
else// use clipping points
{
IGeometry.getIntersection(rectA, rectB, clipPoints);
distanceX = clipPoints[2] - clipPoints[0];
distanceY = clipPoints[3] - clipPoints[1];
}
// No repulsion range. FR grid variant should take care of this.
if (Math.abs(distanceX) < FDLayoutConstants.MIN_REPULSION_DIST)
{
distanceX = IMath.sign(distanceX) *
FDLayoutConstants.MIN_REPULSION_DIST;
}
if (Math.abs(distanceY) < FDLayoutConstants.MIN_REPULSION_DIST)
{
distanceY = IMath.sign(distanceY) *
FDLayoutConstants.MIN_REPULSION_DIST;
}
distanceSquared = distanceX * distanceX + distanceY * distanceY;
distance = Math.sqrt(distanceSquared);
repulsionForce = this.repulsionConstant / distanceSquared;
// Project force onto x and y axes
repulsionForceX = repulsionForce * distanceX / distance;
repulsionForceY = repulsionForce * distanceY / distance;
}
// Apply forces on the two nodes
nodeA.repulsionForceX -= repulsionForceX;
nodeA.repulsionForceY -= repulsionForceY;
nodeB.repulsionForceX += repulsionForceX;
nodeB.repulsionForceY += repulsionForceY;
};
FDLayout.prototype.calcGravitationalForce = function (node) {
var ownerGraph;
var ownerCenterX;
var ownerCenterY;
var distanceX;
var distanceY;
var absDistanceX;
var absDistanceY;
var estimatedSize;
ownerGraph = node.getOwner();
ownerCenterX = (ownerGraph.getRight() + ownerGraph.getLeft()) / 2;
ownerCenterY = (ownerGraph.getTop() + ownerGraph.getBottom()) / 2;
distanceX = node.getCenterX() - ownerCenterX;
distanceY = node.getCenterY() - ownerCenterY;
absDistanceX = Math.abs(distanceX);
absDistanceY = Math.abs(distanceY);
if (node.getOwner() == this.graphManager.getRoot())// in the root graph
{
Math.floor(80);
estimatedSize = Math.floor(ownerGraph.getEstimatedSize() *
this.gravityRangeFactor);
if (absDistanceX > estimatedSize || absDistanceY > estimatedSize)
{
node.gravitationForceX = -this.gravityConstant * distanceX;
node.gravitationForceY = -this.gravityConstant * distanceY;
}
}
else// inside a compound
{
estimatedSize = Math.floor((ownerGraph.getEstimatedSize() *
this.compoundGravityRangeFactor));
if (absDistanceX > estimatedSize || absDistanceY > estimatedSize)
{
node.gravitationForceX = -this.gravityConstant * distanceX *
this.compoundGravityConstant;
node.gravitationForceY = -this.gravityConstant * distanceY *
this.compoundGravityConstant;
}
}
};
FDLayout.prototype.isConverged = function () {
var converged;
var oscilating = false;
if (this.totalIterations > this.maxIterations / 3)
{
oscilating =
Math.abs(this.totalDisplacement - this.oldTotalDisplacement) < 2;
}
converged = this.totalDisplacement < this.totalDisplacementThreshold;
this.oldTotalDisplacement = this.totalDisplacement;
return converged || oscilating;
};
FDLayout.prototype.animate = function () {
if (this.animationDuringLayout && !this.isSubLayout)
{
if (this.notAnimatedIterations == this.animationPeriod)
{
this.update();
this.notAnimatedIterations = 0;
}
else
{
this.notAnimatedIterations++;
}
}
};
FDLayout.prototype.calcRepulsionRange = function () {
return 0.0;
};
module.exports = FDLayout;
},{"./FDLayoutConstants":10,"./IGeometry":15,"./IMath":16,"./Layout":23,"./LayoutConstants":24}],10:[function(require,module,exports){
var LayoutConstants = require('./LayoutConstants');
function FDLayoutConstants() {
}
//FDLayoutConstants inherits static props in LayoutConstants
for (var prop in LayoutConstants) {
FDLayoutConstants[prop] = LayoutConstants[prop];
}
FDLayoutConstants.MAX_ITERATIONS = 2500;
FDLayoutConstants.DEFAULT_EDGE_LENGTH = 50;
FDLayoutConstants.DEFAULT_SPRING_STRENGTH = 0.45;
FDLayoutConstants.DEFAULT_REPULSION_STRENGTH = 4500.0;
FDLayoutConstants.DEFAULT_GRAVITY_STRENGTH = 0.4;
FDLayoutConstants.DEFAULT_COMPOUND_GRAVITY_STRENGTH = 1.0;
FDLayoutConstants.DEFAULT_GRAVITY_RANGE_FACTOR = 3.8;
FDLayoutConstants.DEFAULT_COMPOUND_GRAVITY_RANGE_FACTOR = 1.5;
FDLayoutConstants.DEFAULT_USE_SMART_IDEAL_EDGE_LENGTH_CALCULATION = true;
FDLayoutConstants.DEFAULT_USE_SMART_REPULSION_RANGE_CALCULATION = true;
FDLayoutConstants.MAX_NODE_DISPLACEMENT_INCREMENTAL = 100.0;
FDLayoutConstants.MAX_NODE_DISPLACEMENT = FDLayoutConstants.MAX_NODE_DISPLACEMENT_INCREMENTAL * 3;
FDLayoutConstants.MIN_REPULSION_DIST = FDLayoutConstants.DEFAULT_EDGE_LENGTH / 10.0;
FDLayoutConstants.CONVERGENCE_CHECK_PERIOD = 100;
FDLayoutConstants.PER_LEVEL_IDEAL_EDGE_LENGTH_FACTOR = 0.1;
FDLayoutConstants.MIN_EDGE_LENGTH = 1;
FDLayoutConstants.GRID_CALCULATION_CHECK_PERIOD = 10;
module.exports = FDLayoutConstants;
},{"./LayoutConstants":24}],11:[function(require,module,exports){
var LEdge = require('./LEdge');
var FDLayoutConstants = require('./FDLayoutConstants');
function FDLayoutEdge(source, target, vEdge) {
LEdge.call(this, source, target, vEdge);
this.idealLength = FDLayoutConstants.DEFAULT_EDGE_LENGTH;
}
FDLayoutEdge.prototype = Object.create(LEdge.prototype);
for (var prop in LEdge) {
FDLayoutEdge[prop] = LEdge[prop];
}
module.exports = FDLayoutEdge;
},{"./FDLayoutConstants":10,"./LEdge":18}],12:[function(require,module,exports){
var LNode = require('./LNode');
function FDLayoutNode(gm, loc, size, vNode) {
// alternative constructor is handled inside LNode
LNode.call(this, gm, loc, size, vNode);
//Spring, repulsion and gravitational forces acting on this node
this.springForceX = 0;
this.springForceY = 0;
this.repulsionForceX = 0;
this.repulsionForceY = 0;
this.gravitationForceX = 0;
this.gravitationForceY = 0;
//Amount by which this node is to be moved in this iteration
this.displacementX = 0;
this.displacementY = 0;
//Start and finish grid coordinates that this node is fallen into
this.startX = 0;
this.finishX = 0;
this.startY = 0;
this.finishY = 0;
//Geometric neighbors of this node
this.surrounding = [];
}
FDLayoutNode.prototype = Object.create(LNode.prototype);
for (var prop in LNode) {
FDLayoutNode[prop] = LNode[prop];
}
FDLayoutNode.prototype.setGridCoordinates = function (_startX, _finishX, _startY, _finishY)
{
this.startX = _startX;
this.finishX = _finishX;
this.startY = _startY;
this.finishY = _finishY;
};
module.exports = FDLayoutNode;
},{"./LNode":22}],13:[function(require,module,exports){
var UniqueIDGeneretor = require('./UniqueIDGeneretor');
function HashMap() {
this.map = {};
this.keys = [];
}
HashMap.prototype.put = function (key, value) {
var theId = UniqueIDGeneretor.createID(key);
if (!this.contains(theId)) {
this.map[theId] = value;
this.keys.push(key);
}
};
HashMap.prototype.contains = function (key) {
var theId = UniqueIDGeneretor.createID(key);
return this.map[key] != null;
};
HashMap.prototype.get = function (key) {
var theId = UniqueIDGeneretor.createID(key);
return this.map[theId];
};
HashMap.prototype.keySet = function () {
return this.keys;
};
module.exports = HashMap;
},{"./UniqueIDGeneretor":31}],14:[function(require,module,exports){
var UniqueIDGeneretor = require('./UniqueIDGeneretor');
function HashSet() {
this.set = {};
}
;
HashSet.prototype.add = function (obj) {
var theId = UniqueIDGeneretor.createID(obj);
if (!this.contains(theId))
this.set[theId] = obj;
};
HashSet.prototype.remove = function (obj) {
delete this.set[UniqueIDGeneretor.createID(obj)];
};
HashSet.prototype.clear = function () {
this.set = {};
};
HashSet.prototype.contains = function (obj) {
return this.set[UniqueIDGeneretor.createID(obj)] == obj;
};
HashSet.prototype.isEmpty = function () {
return this.size() === 0;
};
HashSet.prototype.size = function () {
return Object.keys(this.set).length;
};
//concats this.set to the given list
HashSet.prototype.addAllTo = function (list) {
var keys = Object.keys(this.set);
var length = keys.length;
for (var i = 0; i < length; i++) {
list.push(this.set[keys[i]]);
}
};
HashSet.prototype.size = function () {
return Object.keys(this.set).length;
};
HashSet.prototype.addAll = function (list) {
var s = list.length;
for (var i = 0; i < s; i++) {
var v = list[i];
this.add(v);
}
};
module.exports = HashSet;
},{"./UniqueIDGeneretor":31}],15:[function(require,module,exports){
function IGeometry() {
}
IGeometry.calcSeparationAmount = function (rectA, rectB, overlapAmount, separationBuffer)
{
if (!rectA.intersects(rectB)) {
throw "assert failed";
}
var directions = new Array(2);
IGeometry.decideDirectionsForOverlappingNodes(rectA, rectB, directions);
overlapAmount[0] = Math.min(rectA.getRight(), rectB.getRight()) -
Math.max(rectA.x, rectB.x);
overlapAmount[1] = Math.min(rectA.getBottom(), rectB.getBottom()) -
Math.max(rectA.y, rectB.y);
// update the overlapping amounts for the following cases:
if ((rectA.getX() <= rectB.getX()) && (rectA.getRight() >= rectB.getRight()))
{
overlapAmount[0] += Math.min((rectB.getX() - rectA.getX()),
(rectA.getRight() - rectB.getRight()));
}
else if ((rectB.getX() <= rectA.getX()) && (rectB.getRight() >= rectA.getRight()))
{
overlapAmount[0] += Math.min((rectA.getX() - rectB.getX()),
(rectB.getRight() - rectA.getRight()));
}
if ((rectA.getY() <= rectB.getY()) && (rectA.getBottom() >= rectB.getBottom()))
{
overlapAmount[1] += Math.min((rectB.getY() - rectA.getY()),
(rectA.getBottom() - rectB.getBottom()));
}
else if ((rectB.getY() <= rectA.getY()) && (rectB.getBottom() >= rectA.getBottom()))
{
overlapAmount[1] += Math.min((rectA.getY() - rectB.getY()),
(rectB.getBottom() - rectA.getBottom()));
}
// find slope of the line passes two centers
var slope = Math.abs((rectB.getCenterY() - rectA.getCenterY()) /
(rectB.getCenterX() - rectA.getCenterX()));
// if centers are overlapped
if ((rectB.getCenterY() == rectA.getCenterY()) &&
(rectB.getCenterX() == rectA.getCenterX()))
{
// assume the slope is 1 (45 degree)
slope = 1.0;
}
var moveByY = slope * overlapAmount[0];
var moveByX = overlapAmount[1] / slope;
if (overlapAmount[0] < moveByX)
{
moveByX = overlapAmount[0];
}
else
{
moveByY = overlapAmount[1];
}
// return half the amount so that if each rectangle is moved by these
// amounts in opposite directions, overlap will be resolved
overlapAmount[0] = -1 * directions[0] * ((moveByX / 2) + separationBuffer);
overlapAmount[1] = -1 * directions[1] * ((moveByY / 2) + separationBuffer);
}
IGeometry.decideDirectionsForOverlappingNodes = function (rectA, rectB, directions)
{
if (rectA.getCenterX() < rectB.getCenterX())
{
directions[0] = -1;
}
else
{
directions[0] = 1;
}
if (rectA.getCenterY() < rectB.getCenterY())
{
directions[1] = -1;
}
else
{
directions[1] = 1;
}
}
IGeometry.getIntersection2 = function (rectA, rectB, result)
{
//result[0-1] will contain clipPoint of rectA, result[2-3] will contain clipPoint of rectB
var p1x = rectA.getCenterX();
var p1y = rectA.getCenterY();
var p2x = rectB.getCenterX();
var p2y = rectB.getCenterY();
//if two rectangles intersect, then clipping points are centers
if (rectA.intersects(rectB))
{
result[0] = p1x;
result[1] = p1y;
result[2] = p2x;
result[3] = p2y;
return true;
}
//variables for rectA
var topLeftAx = rectA.getX();
var topLeftAy = rectA.getY();
var topRightAx = rectA.getRight();
var bottomLeftAx = rectA.getX();
var bottomLeftAy = rectA.getBottom();
var bottomRightAx = rectA.getRight();
var halfWidthA = rectA.getWidthHalf();
var halfHeightA = rectA.getHeightHalf();
//variables for rectB
var topLeftBx = rectB.getX();
var topLeftBy = rectB.getY();
var topRightBx = rectB.getRight();
var bottomLeftBx = rectB.getX();
var bottomLeftBy = rectB.getBottom();
var bottomRightBx = rectB.getRight();
var halfWidthB = rectB.getWidthHalf();
var halfHeightB = rectB.getHeightHalf();
//flag whether clipping points are found
var clipPointAFound = false;
var clipPointBFound = false;
// line is vertical
if (p1x == p2x)
{
if (p1y > p2y)
{
result[0] = p1x;
result[1] = topLeftAy;
result[2] = p2x;
result[3] = bottomLeftBy;
return false;
}
else if (p1y < p2y)
{
result[0] = p1x;
result[1] = bottomLeftAy;
result[2] = p2x;
result[3] = topLeftBy;
return false;
}
else
{
//not line, return null;
}
}
// line is horizontal
else if (p1y == p2y)
{
if (p1x > p2x)
{
result[0] = topLeftAx;
result[1] = p1y;
result[2] = topRightBx;
result[3] = p2y;
return false;
}
else if (p1x < p2x)
{
result[0] = topRightAx;
result[1] = p1y;
result[2] = topLeftBx;
result[3] = p2y;
return false;
}
else
{
//not valid line, return null;
}
}
else
{
//slopes of rectA's and rectB's diagonals
var slopeA = rectA.height / rectA.width;
var slopeB = rectB.height / rectB.width;
//slope of line between center of rectA and center of rectB
var slopePrime = (p2y - p1y) / (p2x - p1x);
var cardinalDirectionA;
var cardinalDirectionB;
var tempPointAx;
var tempPointAy;
var tempPointBx;
var tempPointBy;
//determine whether clipping point is the corner of nodeA
if ((-slopeA) == slopePrime)
{
if (p1x > p2x)
{
result[0] = bottomLeftAx;
result[1] = bottomLeftAy;
clipPointAFound = true;
}
else
{
result[0] = topRightAx;
result[1] = topLeftAy;
clipPointAFound = true;
}
}
else if (slopeA == slopePrime)
{
if (p1x > p2x)
{
result[0] = topLeftAx;
result[1] = topLeftAy;
clipPointAFound = true;
}
else
{
result[0] = bottomRightAx;
result[1] = bottomLeftAy;
clipPointAFound = true;
}
}
//determine whether clipping point is the corner of nodeB
if ((-slopeB) == slopePrime)
{
if (p2x > p1x)
{
result[2] = bottomLeftBx;
result[3] = bottomLeftBy;
clipPointBFound = true;
}
else
{
result[2] = topRightBx;
result[3] = topLeftBy;
clipPointBFound = true;
}
}
else if (slopeB == slopePrime)
{
if (p2x > p1x)
{
result[2] = topLeftBx;
result[3] = topLeftBy;
clipPointBFound = true;
}
else
{
result[2] = bottomRightBx;
result[3] = bottomLeftBy;
clipPointBFound = true;
}
}
//if both clipping points are corners
if (clipPointAFound && clipPointBFound)
{
return false;
}
//determine Cardinal Direction of rectangles
if (p1x > p2x)
{
if (p1y > p2y)
{
cardinalDirectionA = IGeometry.getCardinalDirection(slopeA, slopePrime, 4);
cardinalDirectionB = IGeometry.getCardinalDirection(slopeB, slopePrime, 2);
}
else
{
cardinalDirectionA = IGeometry.getCardinalDirection(-slopeA, slopePrime, 3);
cardinalDirectionB = IGeometry.getCardinalDirection(-slopeB, slopePrime, 1);
}
}
else
{
if (p1y > p2y)
{
cardinalDirectionA = IGeometry.getCardinalDirection(-slopeA, slopePrime, 1);
cardinalDirectionB = IGeometry.getCardinalDirection(-slopeB, slopePrime, 3);
}
else
{
cardinalDirectionA = IGeometry.getCardinalDirection(slopeA, slopePrime, 2);
cardinalDirectionB = IGeometry.getCardinalDirection(slopeB, slopePrime, 4);
}
}
//calculate clipping Point if it is not found before
if (!clipPointAFound)
{
switch (cardinalDirectionA)
{
case 1:
tempPointAy = topLeftAy;
tempPointAx = p1x + (-halfHeightA) / slopePrime;
result[0] = tempPointAx;
result[1] = tempPointAy;
break;
case 2:
tempPointAx = bottomRightAx;
tempPointAy = p1y + halfWidthA * slopePrime;
result[0] = tempPointAx;
result[1] = tempPointAy;
break;
case 3:
tempPointAy = bottomLeftAy;
tempPointAx = p1x + halfHeightA / slopePrime;
result[0] = tempPointAx;
result[1] = tempPointAy;
break;
case 4:
tempPointAx = bottomLeftAx;
tempPointAy = p1y + (-halfWidthA) * slopePrime;
result[0] = tempPointAx;
result[1] = tempPointAy;
break;
}
}
if (!clipPointBFound)
{
switch (cardinalDirectionB)
{
case 1:
tempPointBy = topLeftBy;
tempPointBx = p2x + (-halfHeightB) / slopePrime;
result[2] = tempPointBx;
result[3] = tempPointBy;
break;
case 2:
tempPointBx = bottomRightBx;
tempPointBy = p2y + halfWidthB * slopePrime;
result[2] = tempPointBx;
result[3] = tempPointBy;
break;
case 3:
tempPointBy = bottomLeftBy;
tempPointBx = p2x + halfHeightB / slopePrime;
result[2] = tempPointBx;
result[3] = tempPointBy;
break;
case 4:
tempPointBx = bottomLeftBx;
tempPointBy = p2y + (-halfWidthB) * slopePrime;
result[2] = tempPointBx;
result[3] = tempPointBy;
break;
}
}
}
return false;
}
IGeometry.getCardinalDirection = function (slope, slopePrime, line)
{
if (slope > slopePrime)
{
return line;
}
else
{
return 1 + line % 4;
}
}
IGeometry.getIntersection = function (s1, s2, f1, f2)
{
if (f2 == null) {
return IGeometry.getIntersection2(s1, s2, f1);
}
var x1 = s1.x;
var y1 = s1.y;
var x2 = s2.x;
var y2 = s2.y;
var x3 = f1.x;
var y3 = f1.y;
var x4 = f2.x;
var y4 = f2.y;
var x, y; // intersection point
var a1, a2, b1, b2, c1, c2; // coefficients of line eqns.
var denom;
a1 = y2 - y1;
b1 = x1 - x2;
c1 = x2 * y1 - x1 * y2; // { a1*x + b1*y + c1 = 0 is line 1 }
a2 = y4 - y3;
b2 = x3 - x4;
c2 = x4 * y3 - x3 * y4; // { a2*x + b2*y + c2 = 0 is line 2 }
denom = a1 * b2 - a2 * b1;
if (denom == 0)
{
return null;
}
x = (b1 * c2 - b2 * c1) / denom;
y = (a2 * c1 - a1 * c2) / denom;
return new Point(x, y);
}
// -----------------------------------------------------------------------------
// Section: Class Constants
// -----------------------------------------------------------------------------
/**
* Some useful pre-calculated constants
*/
IGeometry.HALF_PI = 0.5 * Math.PI;
IGeometry.ONE_AND_HALF_PI = 1.5 * Math.PI;
IGeometry.TWO_PI = 2.0 * Math.PI;
IGeometry.THREE_PI = 3.0 * Math.PI;
module.exports = IGeometry;
},{}],16:[function(require,module,exports){
function IMath() {
}
/**
* This method returns the sign of the input value.
*/
IMath.sign = function (value) {
if (value > 0)
{
return 1;
}
else if (value < 0)
{
return -1;
}
else
{
return 0;
}
}
IMath.floor = function (value) {
return value < 0 ? Math.ceil(value) : Math.floor(value);
}
IMath.ceil = function (value) {
return value < 0 ? Math.floor(value) : Math.ceil(value);
}
module.exports = IMath;
},{}],17:[function(require,module,exports){
function Integer() {
}
Integer.MAX_VALUE = 2147483647;
Integer.MIN_VALUE = -2147483648;
module.exports = Integer;
},{}],18:[function(require,module,exports){
var LGraphObject = require('./LGraphObject');
var IGeometry = require('./IGeometry');
var IMath = require('./IMath');
function LEdge(source, target, vEdge) {
LGraphObject.call(this, vEdge);
this.isOverlapingSourceAndTarget = false;
this.vGraphObject = vEdge;
this.bendpoints = [];
this.source = source;
this.target = target;
}
LEdge.prototype = Object.create(LGraphObject.prototype);
for (var prop in LGraphObject) {
LEdge[prop] = LGraphObject[prop];
}
LEdge.prototype.getSource = function ()
{
return this.source;
};
LEdge.prototype.getTarget = function ()
{
return this.target;
};
LEdge.prototype.isInterGraph = function ()
{
return this.isInterGraph;
};
LEdge.prototype.getLength = function ()
{
return this.length;
};
LEdge.prototype.isOverlapingSourceAndTarget = function ()
{
return this.isOverlapingSourceAndTarget;
};
LEdge.prototype.getBendpoints = function ()
{
return this.bendpoints;
};
LEdge.prototype.getLca = function ()
{
return this.lca;
};
LEdge.prototype.getSourceInLca = function ()
{
return this.sourceInLca;
};
LEdge.prototype.getTargetInLca = function ()
{
return this.targetInLca;
};
LEdge.prototype.getOtherEnd = function (node)
{
if (this.source === node)
{
return this.target;
}
else if (this.target === node)
{
return this.source;
}
else
{
throw "Node is not incident with this edge";
}
}
LEdge.prototype.getOtherEndInGraph = function (node, graph)
{
var otherEnd = this.getOtherEnd(node);
var root = graph.getGraphManager().getRoot();
while (true)
{
if (otherEnd.getOwner() == graph)
{
return otherEnd;
}
if (otherEnd.getOwner() == root)
{
break;
}
otherEnd = otherEnd.getOwner().getParent();
}
return null;
};
LEdge.prototype.updateLength = function ()
{
var clipPointCoordinates = new Array(4);
this.isOverlapingSourceAndTarget =
IGeometry.getIntersection(this.target.getRect(),
this.source.getRect(),
clipPointCoordinates);
if (!this.isOverlapingSourceAndTarget)
{
this.lengthX = clipPointCoordinates[0] - clipPointCoordinates[2];
this.lengthY = clipPointCoordinates[1] - clipPointCoordinates[3];
if (Math.abs(this.lengthX) < 1.0)
{
this.lengthX = IMath.sign(this.lengthX);
}
if (Math.abs(this.lengthY) < 1.0)
{
this.lengthY = IMath.sign(this.lengthY);
}
this.length = Math.sqrt(
this.lengthX * this.lengthX + this.lengthY * this.lengthY);
}
};
LEdge.prototype.updateLengthSimple = function ()
{
this.lengthX = this.target.getCenterX() - this.source.getCenterX();
this.lengthY = this.target.getCenterY() - this.source.getCenterY();
if (Math.abs(this.lengthX) < 1.0)
{
this.lengthX = IMath.sign(this.lengthX);
}
if (Math.abs(this.lengthY) < 1.0)
{
this.lengthY = IMath.sign(this.lengthY);
}
this.length = Math.sqrt(
this.lengthX * this.lengthX + this.lengthY * this.lengthY);
}
module.exports = LEdge;
},{"./IGeometry":15,"./IMath":16,"./LGraphObject":21}],19:[function(require,module,exports){
var LGraphObject = require('./LGraphObject');
var Integer = require('./Integer');
var LayoutConstants = require('./LayoutConstants');
var LGraphManager = require('./LGraphManager');
var LNode = require('./LNode');
var HashSet = require('./HashSet');
var RectangleD = require('./RectangleD');
var Point = require('./Point');
function LGraph(parent, obj2, vGraph) {
LGraphObject.call(this, vGraph);
this.estimatedSize = Integer.MIN_VALUE;
this.margin = LayoutConstants.DEFAULT_GRAPH_MARGIN;
this.edges = [];
this.nodes = [];
this.isConnected = false;
this.parent = parent;
if (obj2 != null && obj2 instanceof LGraphManager) {
this.graphManager = obj2;
}
else if (obj2 != null && obj2 instanceof Layout) {
this.graphManager = obj2.graphManager;
}
}
LGraph.prototype = Object.create(LGraphObject.prototype);
for (var prop in LGraphObject) {
LGraph[prop] = LGraphObject[prop];
}
LGraph.prototype.getNodes = function () {
return this.nodes;
};
LGraph.prototype.getEdges = function () {
return this.edges;
};
LGraph.prototype.getGraphManager = function ()
{
return this.graphManager;
};
LGraph.prototype.getParent = function ()
{
return this.parent;
};
LGraph.prototype.getLeft = function ()
{
return this.left;
};
LGraph.prototype.getRight = function ()
{
return this.right;
};
LGraph.prototype.getTop = function ()
{
return this.top;
};
LGraph.prototype.getBottom = function ()
{
return this.bottom;
};
LGraph.prototype.isConnected = function ()
{
return this.isConnected;
};
LGraph.prototype.add = function (obj1, sourceNode, targetNode) {
if (sourceNode == null && targetNode == null) {
var newNode = obj1;
if (this.graphManager == null) {
throw "Graph has no graph mgr!";
}
if (this.getNodes().indexOf(newNode) > -1) {
throw "Node already in graph!";
}
newNode.owner = this;
this.getNodes().push(newNode);
return newNode;
}
else {
var newEdge = obj1;
if (!(this.getNodes().indexOf(sourceNode) > -1 && (this.getNodes().indexOf(targetNode)) > -1)) {
throw "Source or target not in graph!";
}
if (!(sourceNode.owner == targetNode.owner && sourceNode.owner == this)) {
throw "Both owners must be this graph!";
}
if (sourceNode.owner != targetNode.owner)
{
return null;
}
// set source and target
newEdge.source = sourceNode;
newEdge.target = targetNode;
// set as intra-graph edge
newEdge.isInterGraph = false;
// add to graph edge list
this.getEdges().push(newEdge);
// add to incidency lists
sourceNode.edges.push(newEdge);
if (targetNode != sourceNode)
{
targetNode.edges.push(newEdge);
}
return newEdge;
}
};
LGraph.prototype.remove = function (obj) {
var node = obj;
if (obj instanceof LNode) {
if (node == null) {
throw "Node is null!";
}
if (!(node.owner != null && node.owner == this)) {
throw "Owner graph is invalid!";
}
if (this.graphManager == null) {
throw "Owner graph manager is invalid!";
}
// remove incident edges first (make a copy to do it safely)
var edgesToBeRemoved = node.edges.slice();
var edge;
var s = edgesToBeRemoved.length;
for (var i = 0; i < s; i++)
{
edge = edgesToBeRemoved[i];
if (edge.isInterGraph)
{
this.graphManager.remove(edge);
}
else
{
edge.source.owner.remove(edge);
}
}
// now the node itself
var index = this.nodes.indexOf(node);
if (index == -1) {
throw "Node not in owner node list!";
}
this.nodes.splice(index, 1);
}
else if (obj instanceof LEdge) {
var edge = obj;
if (edge == null) {
throw "Edge is null!";
}
if (!(edge.source != null && edge.target != null)) {
throw "Source and/or target is null!";
}
if (!(edge.source.owner != null && edge.target.owner != null &&
edge.source.owner == this && edge.target.owner == this)) {
throw "Source and/or target owner is invalid!";
}
var sourceIndex = edge.source.edges.indexOf(edge);
var targetIndex = edge.target.edges.indexOf(edge);
if (!(sourceIndex > -1 && targetIndex > -1)) {
throw "Source and/or target doesn't know this edge!";
}
edge.source.edges.splice(sourceIndex, 1);
if (edge.target != edge.source)
{
edge.target.edges.splice(targetIndex, 1);
}
var index = edge.source.owner.getEdges().indexOf(edge);
if (index == -1) {
throw "Not in owner's edge list!";
}
edge.source.owner.getEdges().splice(index, 1);
}
};
LGraph.prototype.updateLeftTop = function ()
{
var top = Integer.MAX_VALUE;
var left = Integer.MAX_VALUE;
var nodeTop;
var nodeLeft;
var nodes = this.getNodes();
var s = nodes.length;
for (var i = 0; i < s; i++)
{
var lNode = nodes[i];
nodeTop = Math.floor(lNode.getTop());
nodeLeft = Math.floor(lNode.getLeft());
if (top > nodeTop)
{
top = nodeTop;
}
if (left > nodeLeft)
{
left = nodeLeft;
}
}
// Do we have any nodes in this graph?
if (top == Integer.MAX_VALUE)
{
return null;
}
this.left = left - this.margin;
this.top = top - this.margin;
// Apply the margins and return the result
return new Point(this.left, this.top);
};
LGraph.prototype.updateBounds = function (recursive)
{
// calculate bounds
var left = Integer.MAX_VALUE;
var right = -Integer.MAX_VALUE;
var top = Integer.MAX_VALUE;
var bottom = -Integer.MAX_VALUE;
var nodeLeft;
var nodeRight;
var nodeTop;
var nodeBottom;
var nodes = this.nodes;
var s = nodes.length;
for (var i = 0; i < s; i++)
{
var lNode = nodes[i];
if (recursive && lNode.child != null)
{
lNode.updateBounds();
}
nodeLeft = Math.floor(lNode.getLeft());
nodeRight = Math.floor(lNode.getRight());
nodeTop = Math.floor(lNode.getTop());
nodeBottom = Math.floor(lNode.getBottom());
if (left > nodeLeft)
{
left = nodeLeft;
}
if (right < nodeRight)
{
right = nodeRight;
}
if (top > nodeTop)
{
top = nodeTop;
}
if (bottom < nodeBottom)
{
bottom = nodeBottom;
}
}
var boundingRect = new RectangleD(left, top, right - left, bottom - top);
if (left == Integer.MAX_VALUE)
{
this.left = Math.floor(this.parent.getLeft());
this.right = Math.floor(this.parent.getRight());
this.top = Math.floor(this.parent.getTop());
this.bottom = Math.floor(this.parent.getBottom());
}
this.left = boundingRect.x - this.margin;
this.right = boundingRect.x + boundingRect.width + this.margin;
this.top = boundingRect.y - this.margin;
this.bottom = boundingRect.y + boundingRect.height + this.margin;
};
LGraph.calculateBounds = function (nodes)
{
var left = Integer.MAX_VALUE;
var right = -Integer.MAX_VALUE;
var top = Integer.MAX_VALUE;
var bottom = -Integer.MAX_VALUE;
var nodeLeft;
var nodeRight;
var nodeTop;
var nodeBottom;
var s = nodes.length;
for (var i = 0; i < s; i++)
{
var lNode = nodes[i];
nodeLeft = Math.floor(lNode.getLeft());
nodeRight = Math.floor(lNode.getRight());
nodeTop = Math.floor(lNode.getTop());
nodeBottom = Math.floor(lNode.getBottom());
if (left > nodeLeft)
{
left = nodeLeft;
}
if (right < nodeRight)
{
right = nodeRight;
}
if (top > nodeTop)
{
top = nodeTop;
}
if (bottom < nodeBottom)
{
bottom = nodeBottom;
}
}
var boundingRect = new RectangleD(left, top, right - left, bottom - top);
return boundingRect;
};
LGraph.prototype.getInclusionTreeDepth = function ()
{
if (this == this.graphManager.getRoot())
{
return 1;
}
else
{
return this.parent.getInclusionTreeDepth();
}
};
LGraph.prototype.getEstimatedSize = function ()
{
if (this.estimatedSize == Integer.MIN_VALUE) {
throw "assert failed";
}
return this.estimatedSize;
};
LGraph.prototype.calcEstimatedSize = function ()
{
var size = 0;
var nodes = this.nodes;
var s = nodes.length;
for (var i = 0; i < s; i++)
{
var lNode = nodes[i];
size += lNode.calcEstimatedSize();
}
if (size == 0)
{
this.estimatedSize = LayoutConstants.EMPTY_COMPOUND_NODE_SIZE;
}
else
{
this.estimatedSize = Math.floor(size / Math.sqrt(this.nodes.length));
}
return Math.floor(this.estimatedSize);
};
LGraph.prototype.updateConnected = function ()
{
if (this.nodes.length == 0)
{
this.isConnected = true;
return;
}
var toBeVisited = [];
var visited = new HashSet();
var currentNode = this.nodes[0];
var neighborEdges;
var currentNeighbor;
toBeVisited = toBeVisited.concat(currentNode.withChildren());
while (toBeVisited.length > 0)
{
currentNode = toBeVisited.shift();
visited.add(currentNode);
// Traverse all neighbors of this node
neighborEdges = currentNode.getEdges();
var s = neighborEdges.length;
for (var i = 0; i < s; i++)
{
var neighborEdge = neighborEdges[i];
currentNeighbor =
neighborEdge.getOtherEndInGraph(currentNode, this);
// Add unvisited neighbors to the list to visit
if (currentNeighbor != null &&
!visited.contains(currentNeighbor))
{
toBeVisited = toBeVisited.concat(currentNeighbor.withChildren());
}
}
}
this.isConnected = false;
if (visited.size() >= this.nodes.length)
{
var noOfVisitedInThisGraph = 0;
var s = visited.size();
for (var visitedId in visited.set)
{
var visitedNode = visited.set[visitedId];
if (visitedNode.owner == this)
{
noOfVisitedInThisGraph++;
}
}
if (noOfVisitedInThisGraph == this.nodes.length)
{
this.isConnected = true;
}
}
};
module.exports = LGraph;
},{"./HashSet":14,"./Integer":17,"./LGraphManager":20,"./LGraphObject":21,"./LNode":22,"./LayoutConstants":24,"./Point":25,"./RectangleD":28}],20:[function(require,module,exports){
function LGraphManager(layout) {
this.layout = layout;
this.graphs = [];
this.edges = [];
}
LGraphManager.prototype.addRoot = function ()
{
var ngraph = this.layout.newGraph();
var nnode = this.layout.newNode(null);
var root = this.add(ngraph, nnode);
this.setRootGraph(root);
return this.rootGraph;
};
LGraphManager.prototype.add = function (newGraph, parentNode, newEdge, sourceNode, targetNode)
{
//there are just 2 parameters are passed then it adds an LGraph else it adds an LEdge
if (newEdge == null && sourceNode == null && targetNode == null) {
if (newGraph == null) {
throw "Graph is null!";
}
if (parentNode == null) {
throw "Parent node is null!";
}
if (this.graphs.indexOf(newGraph) > -1) {
throw "Graph already in this graph mgr!";
}
this.graphs.push(newGraph);
if (newGraph.parent != null) {
throw "Already has a parent!";
}
if (parentNode.child != null) {
throw "Already has a child!";
}
newGraph.parent = parentNode;
parentNode.child = newGraph;
return newGraph;
}
else {
//change the order of the parameters
targetNode = newEdge;
sourceNode = parentNode;
newEdge = newGraph;
var sourceGraph = sourceNode.getOwner();
var targetGraph = targetNode.getOwner();
if (!(sourceGraph != null && sourceGraph.getGraphManager() == this)) {
throw "Source not in this graph mgr!";
}
if (!(targetGraph != null && targetGraph.getGraphManager() == this)) {
throw "Target not in this graph mgr!";
}
if (sourceGraph == targetGraph)
{
newEdge.isInterGraph = false;
return sourceGraph.add(newEdge, sourceNode, targetNode);
}
else
{
newEdge.isInterGraph = true;
// set source and target
newEdge.source = sourceNode;
newEdge.target = targetNode;
// add edge to inter-graph edge list
if (this.edges.indexOf(newEdge) > -1) {
throw "Edge already in inter-graph edge list!";
}
this.edges.push(newEdge);
// add edge to source and target incidency lists
if (!(newEdge.source != null && newEdge.target != null)) {
throw "Edge source and/or target is null!";
}
if (!(newEdge.source.edges.indexOf(newEdge) == -1 && newEdge.target.edges.indexOf(newEdge) == -1)) {
throw "Edge already in source and/or target incidency list!";
}
newEdge.source.edges.push(newEdge);
newEdge.target.edges.push(newEdge);
return newEdge;
}
}
};
LGraphManager.prototype.remove = function (lObj) {
if (lObj instanceof LGraph) {
var graph = lObj;
if (graph.getGraphManager() != this) {
throw "Graph not in this graph mgr";
}
if (!(graph == this.rootGraph || (graph.parent != null && graph.parent.graphManager == this))) {
throw "Invalid parent node!";
}
// first the edges (make a copy to do it safely)
var edgesToBeRemoved = [];
edgesToBeRemoved = edgesToBeRemoved.concat(graph.getEdges());
var edge;
var s = edgesToBeRemoved.length;
for (var i = 0; i < s; i++)
{
edge = edgesToBeRemoved[i];
graph.remove(edge);
}
// then the nodes (make a copy to do it safely)
var nodesToBeRemoved = [];
nodesToBeRemoved = nodesToBeRemoved.concat(graph.getNodes());
var node;
s = nodesToBeRemoved.length;
for (var i = 0; i < s; i++)
{
node = nodesToBeRemoved[i];
graph.remove(node);
}
// check if graph is the root
if (graph == this.rootGraph)
{
this.setRootGraph(null);
}
// now remove the graph itself
var index = this.graphs.indexOf(graph);
this.graphs.splice(index, 1);
// also reset the parent of the graph
graph.parent = null;
}
else if (lObj instanceof LEdge) {
edge = lObj;
if (edge == null) {
throw "Edge is null!";
}
if (!edge.isInterGraph) {
throw "Not an inter-graph edge!";
}
if (!(edge.source != null && edge.target != null)) {
throw "Source and/or target is null!";
}
// remove edge from source and target nodes' incidency lists
if (!(edge.source.edges.indexOf(edge) != -1 && edge.target.edges.indexOf(edge) != -1)) {
throw "Source and/or target doesn't know this edge!";
}
var index = edge.source.edges.indexOf(edge);
edge.source.edges.splice(index, 1);
index = edge.target.edges.indexOf(edge);
edge.target.edges.splice(index, 1);
// remove edge from owner graph manager's inter-graph edge list
if (!(edge.source.owner != null && edge.source.owner.getGraphManager() != null)) {
throw "Edge owner graph or owner graph manager is null!";
}
if (edge.source.owner.getGraphManager().edges.indexOf(edge) == -1) {
throw "Not in owner graph manager's edge list!";
}
var index = edge.source.owner.getGraphManager().edges.indexOf(edge);
edge.source.owner.getGraphManager().edges.splice(index, 1);
}
};
LGraphManager.prototype.updateBounds = function ()
{
this.rootGraph.updateBounds(true);
};
LGraphManager.prototype.getGraphs = function ()
{
return this.graphs;
};
LGraphManager.prototype.getAllNodes = function ()
{
if (this.allNodes == null)
{
var nodeList = [];
var graphs = this.getGraphs();
var s = graphs.length;
for (var i = 0; i < s; i++)
{
nodeList = nodeList.concat(graphs[i].getNodes());
}
this.allNodes = nodeList;
}
return this.allNodes;
};
LGraphManager.prototype.resetAllNodes = function ()
{
this.allNodes = null;
};
LGraphManager.prototype.resetAllEdges = function ()
{
this.allEdges = null;
};
LGraphManager.prototype.resetAllNodesToApplyGravitation = function ()
{
this.allNodesToApplyGravitation = null;
};
LGraphManager.prototype.getAllEdges = function ()
{
if (this.allEdges == null)
{
var edgeList = [];
var graphs = this.getGraphs();
var s = graphs.length;
for (var i = 0; i < graphs.length; i++)
{
edgeList = edgeList.concat(graphs[i].getEdges());
}
edgeList = edgeList.concat(this.edges);
this.allEdges = edgeList;
}
return this.allEdges;
};
LGraphManager.prototype.getAllNodesToApplyGravitation = function ()
{
return this.allNodesToApplyGravitation;
};
LGraphManager.prototype.setAllNodesToApplyGravitation = function (nodeList)
{
if (this.allNodesToApplyGravitation != null) {
throw "assert failed";
}
this.allNodesToApplyGravitation = nodeList;
};
LGraphManager.prototype.getRoot = function ()
{
return this.rootGraph;
};
LGraphManager.prototype.setRootGraph = function (graph)
{
if (graph.getGraphManager() != this) {
throw "Root not in this graph mgr!";
}
this.rootGraph = graph;
// root graph must have a root node associated with it for convenience
if (graph.parent == null)
{
graph.parent = this.layout.newNode("Root node");
}
};
LGraphManager.prototype.getLayout = function ()
{
return this.layout;
};
LGraphManager.prototype.isOneAncestorOfOther = function (firstNode, secondNode)
{
if (!(firstNode != null && secondNode != null)) {
throw "assert failed";
}
if (firstNode == secondNode)
{
return true;
}
// Is second node an ancestor of the first one?
var ownerGraph = firstNode.getOwner();
var parentNode;
do
{
parentNode = ownerGraph.getParent();
if (parentNode == null)
{
break;
}
if (parentNode == secondNode)
{
return true;
}
ownerGraph = parentNode.getOwner();
if (ownerGraph == null)
{
break;
}
} while (true);
// Is first node an ancestor of the second one?
ownerGraph = secondNode.getOwner();
do
{
parentNode = ownerGraph.getParent();
if (parentNode == null)
{
break;
}
if (parentNode == firstNode)
{
return true;
}
ownerGraph = parentNode.getOwner();
if (ownerGraph == null)
{
break;
}
} while (true);
return false;
};
LGraphManager.prototype.calcLowestCommonAncestors = function ()
{
var edge;
var sourceNode;
var targetNode;
var sourceAncestorGraph;
var targetAncestorGraph;
var edges = this.getAllEdges();
var s = edges.length;
for (var i = 0; i < s; i++)
{
edge = edges[i];
sourceNode = edge.source;
targetNode = edge.target;
edge.lca = null;
edge.sourceInLca = sourceNode;
edge.targetInLca = targetNode;
if (sourceNode == targetNode)
{
edge.lca = sourceNode.getOwner();
continue;
}
sourceAncestorGraph = sourceNode.getOwner();
while (edge.lca == null)
{
targetAncestorGraph = targetNode.getOwner();
while (edge.lca == null)
{
if (targetAncestorGraph == sourceAncestorGraph)
{
edge.lca = targetAncestorGraph;
break;
}
if (targetAncestorGraph == this.rootGraph)
{
break;
}
if (edge.lca != null) {
throw "assert failed";
}
edge.targetInLca = targetAncestorGraph.getParent();
targetAncestorGraph = edge.targetInLca.getOwner();
}
if (sourceAncestorGraph == this.rootGraph)
{
break;
}
if (edge.lca == null)
{
edge.sourceInLca = sourceAncestorGraph.getParent();
sourceAncestorGraph = edge.sourceInLca.getOwner();
}
}
if (edge.lca == null) {
throw "assert failed";
}
}
};
LGraphManager.prototype.calcLowestCommonAncestor = function (firstNode, secondNode)
{
if (firstNode == secondNode)
{
return firstNode.getOwner();
}
var firstOwnerGraph = firstNode.getOwner();
do
{
if (firstOwnerGraph == null)
{
break;
}
var secondOwnerGraph = secondNode.getOwner();
do
{
if (secondOwnerGraph == null)
{
break;
}
if (secondOwnerGraph == firstOwnerGraph)
{
return secondOwnerGraph;
}
secondOwnerGraph = secondOwnerGraph.getParent().getOwner();
} while (true);
firstOwnerGraph = firstOwnerGraph.getParent().getOwner();
} while (true);
return firstOwnerGraph;
};
LGraphManager.prototype.calcInclusionTreeDepths = function (graph, depth) {
if (graph == null && depth == null) {
graph = this.rootGraph;
depth = 1;
}
var node;
var nodes = graph.getNodes();
var s = nodes.length;
for (var i = 0; i < s; i++)
{
node = nodes[i];
node.inclusionTreeDepth = depth;
if (node.child != null)
{
this.calcInclusionTreeDepths(node.child, depth + 1);
}
}
};
LGraphManager.prototype.includesInvalidEdge = function ()
{
var edge;
var s = this.edges.length;
for (var i = 0; i < s; i++)
{
edge = this.edges[i];
if (this.isOneAncestorOfOther(edge.source, edge.target))
{
return true;
}
}
return false;
};
module.exports = LGraphManager;
},{}],21:[function(require,module,exports){
function LGraphObject(vGraphObject) {
this.vGraphObject = vGraphObject;
}
module.exports = LGraphObject;
},{}],22:[function(require,module,exports){
var LGraphObject = require('./LGraphObject');
var Integer = require('./Integer');
var RectangleD = require('./RectangleD');
var LayoutConstants = require('./LayoutConstants');
var RandomSeed = require('./RandomSeed');
var PointD = require('./PointD');
var HashSet = require('./HashSet');
function LNode(gm, loc, size, vNode) {
//Alternative constructor 1 : LNode(LGraphManager gm, Point loc, Dimension size, Object vNode)
if (size == null && vNode == null) {
vNode = loc;
}
LGraphObject.call(this, vNode);
//Alternative constructor 2 : LNode(Layout layout, Object vNode)
if (gm.graphManager != null)
gm = gm.graphManager;
this.estimatedSize = Integer.MIN_VALUE;
this.inclusionTreeDepth = Integer.MAX_VALUE;
this.vGraphObject = vNode;
this.edges = [];
this.graphManager = gm;
if (size != null && loc != null)
this.rect = new RectangleD(loc.x, loc.y, size.width, size.height);
else
this.rect = new RectangleD();
}
LNode.prototype = Object.create(LGraphObject.prototype);
for (var prop in LGraphObject) {
LNode[prop] = LGraphObject[prop];
}
LNode.prototype.getEdges = function ()
{
return this.edges;
};
LNode.prototype.getChild = function ()
{
return this.child;
};
LNode.prototype.getOwner = function ()
{
if (this.owner != null) {
if (!(this.owner == null || this.owner.getNodes().indexOf(this) > -1)) {
throw "assert failed";
}
}
return this.owner;
};
LNode.prototype.getWidth = function ()
{
return this.rect.width;
};
LNode.prototype.setWidth = function (width)
{
this.rect.width = width;
};
LNode.prototype.getHeight = function ()
{
return this.rect.height;
};
LNode.prototype.setHeight = function (height)
{
this.rect.height = height;
};
LNode.prototype.getCenterX = function ()
{
return this.rect.x + this.rect.width / 2;
};
LNode.prototype.getCenterY = function ()
{
return this.rect.y + this.rect.height / 2;
};
LNode.prototype.getCenter = function ()
{
return new PointD(this.rect.x + this.rect.width / 2,
this.rect.y + this.rect.height / 2);
};
LNode.prototype.getLocation = function ()
{
return new PointD(this.rect.x, this.rect.y);
};
LNode.prototype.getRect = function ()
{
return this.rect;
};
LNode.prototype.getDiagonal = function ()
{
return Math.sqrt(this.rect.width * this.rect.width +
this.rect.height * this.rect.height);
};
LNode.prototype.setRect = function (upperLeft, dimension)
{
this.rect.x = upperLeft.x;
this.rect.y = upperLeft.y;
this.rect.width = dimension.width;
this.rect.height = dimension.height;
};
LNode.prototype.setCenter = function (cx, cy)
{
this.rect.x = cx - this.rect.width / 2;
this.rect.y = cy - this.rect.height / 2;
};
LNode.prototype.setLocation = function (x, y)
{
this.rect.x = x;
this.rect.y = y;
};
LNode.prototype.moveBy = function (dx, dy)
{
this.rect.x += dx;
this.rect.y += dy;
};
LNode.prototype.getEdgeListToNode = function (to)
{
var edgeList = [];
var edge;
for (var obj in this.edges)
{
edge = obj;
if (edge.target == to)
{
if (edge.source != this)
throw "Incorrect edge source!";
edgeList.push(edge);
}
}
return edgeList;
};
LNode.prototype.getEdgesBetween = function (other)
{
var edgeList = [];
var edge;
for (var obj in this.edges)
{
edge = this.edges[obj];
if (!(edge.source == this || edge.target == this))
throw "Incorrect edge source and/or target";
if ((edge.target == other) || (edge.source == other))
{
edgeList.push(edge);
}
}
return edgeList;
};
LNode.prototype.getNeighborsList = function ()
{
var neighbors = new HashSet();
var edge;
for (var obj in this.edges)
{
edge = this.edges[obj];
if (edge.source == this)
{
neighbors.add(edge.target);
}
else
{
if (!edge.target == this)
throw "Incorrect incidency!";
neighbors.add(edge.source);
}
}
return neighbors;
};
LNode.prototype.withChildren = function ()
{
var withNeighborsList = [];
var childNode;
withNeighborsList.push(this);
if (this.child != null)
{
var nodes = this.child.getNodes();
for (var i = 0; i < nodes.length; i++)
{
childNode = nodes[i];
withNeighborsList = withNeighborsList.concat(childNode.withChildren());
}
}
return withNeighborsList;
};
LNode.prototype.getEstimatedSize = function () {
if (this.estimatedSize == Integer.MIN_VALUE) {
throw "assert failed";
}
return this.estimatedSize;
};
LNode.prototype.calcEstimatedSize = function () {
if (this.child == null)
{
return this.estimatedSize = Math.floor((this.rect.width + this.rect.height) / 2);
}
else
{
this.estimatedSize = this.child.calcEstimatedSize();
this.rect.width = this.estimatedSize;
this.rect.height = this.estimatedSize;
return this.estimatedSize;
}
};
LNode.prototype.scatter = function () {
var randomCenterX;
var randomCenterY;
var minX = -LayoutConstants.INITIAL_WORLD_BOUNDARY;
var maxX = LayoutConstants.INITIAL_WORLD_BOUNDARY;
randomCenterX = LayoutConstants.WORLD_CENTER_X +
(RandomSeed.nextDouble() * (maxX - minX)) + minX;
var minY = -LayoutConstants.INITIAL_WORLD_BOUNDARY;
var maxY = LayoutConstants.INITIAL_WORLD_BOUNDARY;
randomCenterY = LayoutConstants.WORLD_CENTER_Y +
(RandomSeed.nextDouble() * (maxY - minY)) + minY;
this.rect.x = randomCenterX;
this.rect.y = randomCenterY
};
LNode.prototype.updateBounds = function () {
if (this.getChild() == null) {
throw "assert failed";
}
if (this.getChild().getNodes().length != 0)
{
// wrap the children nodes by re-arranging the boundaries
var childGraph = this.getChild();
childGraph.updateBounds(true);
this.rect.x = childGraph.getLeft();
this.rect.y = childGraph.getTop();
this.setWidth(childGraph.getRight() - childGraph.getLeft());
this.setHeight(childGraph.getBottom() - childGraph.getTop());
}
};
LNode.prototype.getInclusionTreeDepth = function ()
{
if (this.inclusionTreeDepth == Integer.MAX_VALUE) {
throw "assert failed";
}
return this.inclusionTreeDepth;
};
LNode.prototype.transform = function (trans)
{
var left = this.rect.x;
if (left > LayoutConstants.WORLD_BOUNDARY)
{
left = LayoutConstants.WORLD_BOUNDARY;
}
else if (left < -LayoutConstants.WORLD_BOUNDARY)
{
left = -LayoutConstants.WORLD_BOUNDARY;
}
var top = this.rect.y;
if (top > LayoutConstants.WORLD_BOUNDARY)
{
top = LayoutConstants.WORLD_BOUNDARY;
}
else if (top < -LayoutConstants.WORLD_BOUNDARY)
{
top = -LayoutConstants.WORLD_BOUNDARY;
}
var leftTop = new PointD(left, top);
var vLeftTop = trans.inverseTransformPoint(leftTop);
this.setLocation(vLeftTop.x, vLeftTop.y);
};
LNode.prototype.getLeft = function ()
{
return this.rect.x;
};
LNode.prototype.getRight = function ()
{
return this.rect.x + this.rect.width;
};
LNode.prototype.getTop = function ()
{
return this.rect.y;
};
LNode.prototype.getBottom = function ()
{
return this.rect.y + this.rect.height;
};
LNode.prototype.getParent = function ()
{
if (this.owner == null)
{
return null;
}
return this.owner.getParent();
};
module.exports = LNode;
},{"./HashSet":14,"./Integer":17,"./LGraphObject":21,"./LayoutConstants":24,"./PointD":26,"./RandomSeed":27,"./RectangleD":28}],23:[function(require,module,exports){
var LayoutConstants = require('./LayoutConstants');
var HashMap = require('./HashMap');
var LGraphManager = require('./LGraphManager');
var LNode = require('./LNode');
var LEdge = require('./LEdge');
var LGraph = require('./LGraph');
var PointD = require('./PointD');
var Transform = require('./Transform');
var Emitter = require('./Emitter');
var HashSet = require('./HashSet');
function Layout(isRemoteUse) {
Emitter.call( this );
//Layout Quality: 0:proof, 1:default, 2:draft
this.layoutQuality = LayoutConstants.DEFAULT_QUALITY;
//Whether layout should create bendpoints as needed or not
this.createBendsAsNeeded =
LayoutConstants.DEFAULT_CREATE_BENDS_AS_NEEDED;
//Whether layout should be incremental or not
this.incremental = LayoutConstants.DEFAULT_INCREMENTAL;
//Whether we animate from before to after layout node positions
this.animationOnLayout =
LayoutConstants.DEFAULT_ANIMATION_ON_LAYOUT;
//Whether we animate the layout process or not
this.animationDuringLayout = LayoutConstants.DEFAULT_ANIMATION_DURING_LAYOUT;
//Number iterations that should be done between two successive animations
this.animationPeriod = LayoutConstants.DEFAULT_ANIMATION_PERIOD;
/**
* Whether or not leaf nodes (non-compound nodes) are of uniform sizes. When
* they are, both spring and repulsion forces between two leaf nodes can be
* calculated without the expensive clipping point calculations, resulting
* in major speed-up.
*/
this.uniformLeafNodeSizes =
LayoutConstants.DEFAULT_UNIFORM_LEAF_NODE_SIZES;
/**
* This is used for creation of bendpoints by using dummy nodes and edges.
* Maps an LEdge to its dummy bendpoint path.
*/
this.edgeToDummyNodes = new HashMap();
this.graphManager = new LGraphManager(this);
this.isLayoutFinished = false;
this.isSubLayout = false;
this.isRemoteUse = false;
if (isRemoteUse != null) {
this.isRemoteUse = isRemoteUse;
}
}
Layout.RANDOM_SEED = 1;
Layout.prototype = Object.create( Emitter.prototype );
Layout.prototype.getGraphManager = function () {
return this.graphManager;
};
Layout.prototype.getAllNodes = function () {
return this.graphManager.getAllNodes();
};
Layout.prototype.getAllEdges = function () {
return this.graphManager.getAllEdges();
};
Layout.prototype.getAllNodesToApplyGravitation = function () {
return this.graphManager.getAllNodesToApplyGravitation();
};
Layout.prototype.newGraphManager = function () {
var gm = new LGraphManager(this);
this.graphManager = gm;
return gm;
};
Layout.prototype.newGraph = function (vGraph)
{
return new LGraph(null, this.graphManager, vGraph);
};
Layout.prototype.newNode = function (vNode)
{
return new LNode(this.graphManager, vNode);
};
Layout.prototype.newEdge = function (vEdge)
{
return new LEdge(null, null, vEdge);
};
Layout.prototype.runLayout = function ()
{
this.isLayoutFinished = false;
this.initParameters();
var isLayoutSuccessfull;
if ((this.graphManager.getRoot() == null)
|| this.graphManager.getRoot().getNodes().length == 0
|| this.graphManager.includesInvalidEdge())
{
isLayoutSuccessfull = false;
}
else
{
// calculate execution time
var startTime = 0;
if (!this.isSubLayout)
{
startTime = new Date().getTime()
}
isLayoutSuccessfull = this.layout();
if (!this.isSubLayout)
{
var endTime = new Date().getTime();
var excTime = endTime - startTime;
}
}
if (isLayoutSuccessfull)
{
if (!this.isSubLayout)
{
this.doPostLayout();
}
}
this.isLayoutFinished = true;
return isLayoutSuccessfull;
};
/**
* This method performs the operations required after layout.
*/
Layout.prototype.doPostLayout = function ()
{
//assert !isSubLayout : "Should not be called on sub-layout!";
// Propagate geometric changes to v-level objects
this.transform();
this.update();
};
/**
* This method updates the geometry of the target graph according to
* calculated layout.
*/
Layout.prototype.update2 = function () {
// update bend points
if (this.createBendsAsNeeded)
{
this.createBendpointsFromDummyNodes();
// reset all edges, since the topology has changed
this.graphManager.resetAllEdges();
}
// perform edge, node and root updates if layout is not called
// remotely
if (!this.isRemoteUse)
{
// update all edges
var edge;
var allEdges = this.graphManager.getAllEdges();
for (var i = 0; i < allEdges.length; i++)
{
edge = allEdges[i];
// this.update(edge);
}
// recursively update nodes
var node;
var nodes = this.graphManager.getRoot().getNodes();
for (var i = 0; i < nodes.length; i++)
{
node = nodes[i];
// this.update(node);
}
// update root graph
this.update(this.graphManager.getRoot());
}
};
Layout.prototype.update = function (obj) {
if (obj == null) {
this.update2();
}
else if (obj instanceof LNode) {
var node = obj;
if (node.getChild() != null)
{
// since node is compound, recursively update child nodes
var nodes = node.getChild().getNodes();
for (var i = 0; i < nodes.length; i++)
{
update(nodes[i]);
}
}
// if the l-level node is associated with a v-level graph object,
// then it is assumed that the v-level node implements the
// interface Updatable.
if (node.vGraphObject != null)
{
// cast to Updatable without any type check
var vNode = node.vGraphObject;
// call the update method of the interface
vNode.update(node);
}
}
else if (obj instanceof LEdge) {
var edge = obj;
// if the l-level edge is associated with a v-level graph object,
// then it is assumed that the v-level edge implements the
// interface Updatable.
if (edge.vGraphObject != null)
{
// cast to Updatable without any type check
var vEdge = edge.vGraphObject;
// call the update method of the interface
vEdge.update(edge);
}
}
else if (obj instanceof LGraph) {
var graph = obj;
// if the l-level graph is associated with a v-level graph object,
// then it is assumed that the v-level object implements the
// interface Updatable.
if (graph.vGraphObject != null)
{
// cast to Updatable without any type check
var vGraph = graph.vGraphObject;
// call the update method of the interface
vGraph.update(graph);
}
}
};
/**
* This method is used to set all layout parameters to default values
* determined at compile time.
*/
Layout.prototype.initParameters = function () {
if (!this.isSubLayout)
{
this.layoutQuality = LayoutConstants.DEFAULT_QUALITY;
this.animationDuringLayout = LayoutConstants.DEFAULT_ANIMATION_ON_LAYOUT;
this.animationPeriod = LayoutConstants.DEFAULT_ANIMATION_PERIOD;
this.animationOnLayout = LayoutConstants.DEFAULT_ANIMATION_DURING_LAYOUT;
this.incremental = LayoutConstants.DEFAULT_INCREMENTAL;
this.createBendsAsNeeded = LayoutConstants.DEFAULT_CREATE_BENDS_AS_NEEDED;
this.uniformLeafNodeSizes = LayoutConstants.DEFAULT_UNIFORM_LEAF_NODE_SIZES;
}
if (this.animationDuringLayout)
{
animationOnLayout = false;
}
};
Layout.prototype.transform = function (newLeftTop) {
if (newLeftTop == undefined) {
this.transform(new PointD(0, 0));
}
else {
// create a transformation object (from Eclipse to layout). When an
// inverse transform is applied, we get upper-left coordinate of the
// drawing or the root graph at given input coordinate (some margins
// already included in calculation of left-top).
var trans = new Transform();
var leftTop = this.graphManager.getRoot().updateLeftTop();
if (leftTop != null)
{
trans.setWorldOrgX(newLeftTop.x);
trans.setWorldOrgY(newLeftTop.y);
trans.setDeviceOrgX(leftTop.x);
trans.setDeviceOrgY(leftTop.y);
var nodes = this.getAllNodes();
var node;
for (var i = 0; i < nodes.length; i++)
{
node = nodes[i];
node.transform(trans);
}
}
}
};
Layout.prototype.positionNodesRandomly = function (graph) {
if (graph == undefined) {
//assert !this.incremental;
this.positionNodesRandomly(this.getGraphManager().getRoot());
this.getGraphManager().getRoot().updateBounds(true);
}
else {
var lNode;
var childGraph;
var nodes = graph.getNodes();
for (var i = 0; i < nodes.length; i++)
{
lNode = nodes[i];
childGraph = lNode.getChild();
if (childGraph == null)
{
lNode.scatter();
}
else if (childGraph.getNodes().length == 0)
{
lNode.scatter();
}
else
{
this.positionNodesRandomly(childGraph);
lNode.updateBounds();
}
}
}
};
/**
* This method returns a list of trees where each tree is represented as a
* list of l-nodes. The method returns a list of size 0 when:
* - The graph is not flat or
* - One of the component(s) of the graph is not a tree.
*/
Layout.prototype.getFlatForest = function ()
{
var flatForest = [];
var isForest = true;
// Quick reference for all nodes in the graph manager associated with
// this layout. The list should not be changed.
var allNodes = this.graphManager.getRoot().getNodes();
// First be sure that the graph is flat
var isFlat = true;
for (var i = 0; i < allNodes.length; i++)
{
if (allNodes[i].getChild() != null)
{
isFlat = false;
}
}
// Return empty forest if the graph is not flat.
if (!isFlat)
{
return flatForest;
}
// Run BFS for each component of the graph.
var visited = new HashSet();
var toBeVisited = [];
var parents = new HashMap();
var unProcessedNodes = [];
unProcessedNodes = unProcessedNodes.concat(allNodes);
// Each iteration of this loop finds a component of the graph and
// decides whether it is a tree or not. If it is a tree, adds it to the
// forest and continued with the next component.
while (unProcessedNodes.length > 0 && isForest)
{
toBeVisited.push(unProcessedNodes[0]);
// Start the BFS. Each iteration of this loop visits a node in a
// BFS manner.
while (toBeVisited.length > 0 && isForest)
{
//pool operation
var currentNode = toBeVisited[0];
toBeVisited.splice(0, 1);
visited.add(currentNode);
// Traverse all neighbors of this node
var neighborEdges = currentNode.getEdges();
for (var i = 0; i < neighborEdges.length; i++)
{
var currentNeighbor =
neighborEdges[i].getOtherEnd(currentNode);
// If BFS is not growing from this neighbor.
if (parents.get(currentNode) != currentNeighbor)
{
// We haven't previously visited this neighbor.
if (!visited.contains(currentNeighbor))
{
toBeVisited.push(currentNeighbor);
parents.put(currentNeighbor, currentNode);
}
// Since we have previously visited this neighbor and
// this neighbor is not parent of currentNode, given
// graph contains a component that is not tree, hence
// it is not a forest.
else
{
isForest = false;
break;
}
}
}
}
// The graph contains a component that is not a tree. Empty
// previously found trees. The method will end.
if (!isForest)
{
flatForest = [];
}
// Save currently visited nodes as a tree in our forest. Reset
// visited and parents lists. Continue with the next component of
// the graph, if any.
else
{
var temp = [];
visited.addAllTo(temp);
flatForest.push(temp);
//flatForest = flatForest.concat(temp);
//unProcessedNodes.removeAll(visited);
for (var i = 0; i < temp.length; i++) {
var value = temp[i];
var index = unProcessedNodes.indexOf(value);
if (index > -1) {
unProcessedNodes.splice(index, 1);
}
}
visited = new HashSet();
parents = new HashMap();
}
}
return flatForest;
};
/**
* This method creates dummy nodes (an l-level node with minimal dimensions)
* for the given edge (one per bendpoint). The existing l-level structure
* is updated accordingly.
*/
Layout.prototype.createDummyNodesForBendpoints = function (edge)
{
var dummyNodes = [];
var prev = edge.source;
var graph = this.graphManager.calcLowestCommonAncestor(edge.source, edge.target);
for (var i = 0; i < edge.bendpoints.length; i++)
{
// create new dummy node
var dummyNode = this.newNode(null);
dummyNode.setRect(new Point(0, 0), new Dimension(1, 1));
graph.add(dummyNode);
// create new dummy edge between prev and dummy node
var dummyEdge = this.newEdge(null);
this.graphManager.add(dummyEdge, prev, dummyNode);
dummyNodes.add(dummyNode);
prev = dummyNode;
}
var dummyEdge = this.newEdge(null);
this.graphManager.add(dummyEdge, prev, edge.target);
this.edgeToDummyNodes.put(edge, dummyNodes);
// remove real edge from graph manager if it is inter-graph
if (edge.isInterGraph())
{
this.graphManager.remove(edge);
}
// else, remove the edge from the current graph
else
{
graph.remove(edge);
}
return dummyNodes;
};
/**
* This method creates bendpoints for edges from the dummy nodes
* at l-level.
*/
Layout.prototype.createBendpointsFromDummyNodes = function ()
{
var edges = [];
edges = edges.concat(this.graphManager.getAllEdges());
edges = this.edgeToDummyNodes.keySet().concat(edges);
for (var k = 0; k < edges.length; k++)
{
var lEdge = edges[k];
if (lEdge.bendpoints.length > 0)
{
var path = this.edgeToDummyNodes.get(lEdge);
for (var i = 0; i < path.length; i++)
{
var dummyNode = path[i];
var p = new PointD(dummyNode.getCenterX(),
dummyNode.getCenterY());
// update bendpoint's location according to dummy node
var ebp = lEdge.bendpoints.get(i);
ebp.x = p.x;
ebp.y = p.y;
// remove the dummy node, dummy edges incident with this
// dummy node is also removed (within the remove method)
dummyNode.getOwner().remove(dummyNode);
}
// add the real edge to graph
this.graphManager.add(lEdge, lEdge.source, lEdge.target);
}
}
};
Layout.transform = function (sliderValue, defaultValue, minDiv, maxMul) {
if (minDiv != undefined && maxMul != undefined) {
var value = defaultValue;
if (sliderValue <= 50)
{
var minValue = defaultValue / minDiv;
value -= ((defaultValue - minValue) / 50) * (50 - sliderValue);
}
else
{
var maxValue = defaultValue * maxMul;
value += ((maxValue - defaultValue) / 50) * (sliderValue - 50);
}
return value;
}
else {
var a, b;
if (sliderValue <= 50)
{
a = 9.0 * defaultValue / 500.0;
b = defaultValue / 10.0;
}
else
{
a = 9.0 * defaultValue / 50.0;
b = -8 * defaultValue;
}
return (a * sliderValue + b);
}
};
/**
* This method finds and returns the center of the given nodes, assuming
* that the given nodes form a tree in themselves.
*/
Layout.findCenterOfTree = function (nodes)
{
var list = [];
list = list.concat(nodes);
var removedNodes = [];
var remainingDegrees = new HashMap();
var foundCenter = false;
var centerNode = null;
if (list.length == 1 || list.length == 2)
{
foundCenter = true;
centerNode = list[0];
}
for (var i = 0; i < list.length; i++)
{
var node = list[i];
var degree = node.getNeighborsList().size();
remainingDegrees.put(node, node.getNeighborsList().size());
if (degree == 1)
{
removedNodes.push(node);
}
}
var tempList = [];
tempList = tempList.concat(removedNodes);
while (!foundCenter)
{
var tempList2 = [];
tempList2 = tempList2.concat(tempList);
tempList = [];
for (var i = 0; i < list.length; i++)
{
var node = list[i];
var index = list.indexOf(node);
if (index >= 0) {
list.splice(index, 1);
}
var neighbours = node.getNeighborsList();
for (var j in neighbours.set)
{
var neighbour = neighbours.set[j];
if (removedNodes.indexOf(neighbour) < 0)
{
var otherDegree = remainingDegrees.get(neighbour);
var newDegree = otherDegree - 1;
if (newDegree == 1)
{
tempList.push(neighbour);
}
remainingDegrees.put(neighbour, newDegree);
}
}
}
removedNodes = removedNodes.concat(tempList);
if (list.length == 1 || list.length == 2)
{
foundCenter = true;
centerNode = list[0];
}
}
return centerNode;
};
/**
* During the coarsening process, this layout may be referenced by two graph managers
* this setter function grants access to change the currently being used graph manager
*/
Layout.prototype.setGraphManager = function (gm)
{
this.graphManager = gm;
};
module.exports = Layout;
},{"./Emitter":8,"./HashMap":13,"./HashSet":14,"./LEdge":18,"./LGraph":19,"./LGraphManager":20,"./LNode":22,"./LayoutConstants":24,"./PointD":26,"./Transform":30}],24:[function(require,module,exports){
function LayoutConstants() {
}
/**
* Layout Quality
*/
LayoutConstants.PROOF_QUALITY = 0;
LayoutConstants.DEFAULT_QUALITY = 1;
LayoutConstants.DRAFT_QUALITY = 2;
/**
* Default parameters
*/
LayoutConstants.DEFAULT_CREATE_BENDS_AS_NEEDED = false;
//LayoutConstants.DEFAULT_INCREMENTAL = true;
LayoutConstants.DEFAULT_INCREMENTAL = false;
LayoutConstants.DEFAULT_ANIMATION_ON_LAYOUT = true;
LayoutConstants.DEFAULT_ANIMATION_DURING_LAYOUT = false;
LayoutConstants.DEFAULT_ANIMATION_PERIOD = 50;
LayoutConstants.DEFAULT_UNIFORM_LEAF_NODE_SIZES = false;
// -----------------------------------------------------------------------------
// Section: General other constants
// -----------------------------------------------------------------------------
/*
* Margins of a graph to be applied on bouding rectangle of its contents. We
* assume margins on all four sides to be uniform.
*/
LayoutConstants.DEFAULT_GRAPH_MARGIN = 15;
/*
* Default dimension of a non-compound node.
*/
LayoutConstants.SIMPLE_NODE_SIZE = 40;
/*
* Default dimension of a non-compound node.
*/
LayoutConstants.SIMPLE_NODE_HALF_SIZE = LayoutConstants.SIMPLE_NODE_SIZE / 2;
/*
* Empty compound node size. When a compound node is empty, its both
* dimensions should be of this value.
*/
LayoutConstants.EMPTY_COMPOUND_NODE_SIZE = 40;
/*
* Minimum length that an edge should take during layout
*/
LayoutConstants.MIN_EDGE_LENGTH = 1;
/*
* World boundaries that layout operates on
*/
LayoutConstants.WORLD_BOUNDARY = 1000000;
/*
* World boundaries that random positioning can be performed with
*/
LayoutConstants.INITIAL_WORLD_BOUNDARY = LayoutConstants.WORLD_BOUNDARY / 1000;
/*
* Coordinates of the world center
*/
LayoutConstants.WORLD_CENTER_X = 1200;
LayoutConstants.WORLD_CENTER_Y = 900;
module.exports = LayoutConstants;
},{}],25:[function(require,module,exports){
/*
*This class is the javascript implementation of the Point.java class in jdk
*/
function Point(x, y, p) {
this.x = null;
this.y = null;
if (x == null && y == null && p == null) {
this.x = 0;
this.y = 0;
}
else if (typeof x == 'number' && typeof y == 'number' && p == null) {
this.x = x;
this.y = y;
}
else if (x.constructor.name == 'Point' && y == null && p == null) {
p = x;
this.x = p.x;
this.y = p.y;
}
}
Point.prototype.getX = function () {
return this.x;
}
Point.prototype.getY = function () {
return this.y;
}
Point.prototype.getLocation = function () {
return new Point(this.x, this.y);
}
Point.prototype.setLocation = function (x, y, p) {
if (x.constructor.name == 'Point' && y == null && p == null) {
p = x;
this.setLocation(p.x, p.y);
}
else if (typeof x == 'number' && typeof y == 'number' && p == null) {
//if both parameters are integer just move (x,y) location
if (parseInt(x) == x && parseInt(y) == y) {
this.move(x, y);
}
else {
this.x = Math.floor(x + 0.5);
this.y = Math.floor(y + 0.5);
}
}
}
Point.prototype.move = function (x, y) {
this.x = x;
this.y = y;
}
Point.prototype.translate = function (dx, dy) {
this.x += dx;
this.y += dy;
}
Point.prototype.equals = function (obj) {
if (obj.constructor.name == "Point") {
var pt = obj;
return (this.x == pt.x) && (this.y == pt.y);
}
return this == obj;
}
Point.prototype.toString = function () {
return new Point().constructor.name + "[x=" + this.x + ",y=" + this.y + "]";
}
module.exports = Point;
},{}],26:[function(require,module,exports){
function PointD(x, y) {
if (x == null && y == null) {
this.x = 0;
this.y = 0;
} else {
this.x = x;
this.y = y;
}
}
PointD.prototype.getX = function ()
{
return this.x;
};
PointD.prototype.getY = function ()
{
return this.y;
};
PointD.prototype.setX = function (x)
{
this.x = x;
};
PointD.prototype.setY = function (y)
{
this.y = y;
};
PointD.prototype.getDifference = function (pt)
{
return new DimensionD(this.x - pt.x, this.y - pt.y);
};
PointD.prototype.getCopy = function ()
{
return new PointD(this.x, this.y);
};
PointD.prototype.translate = function (dim)
{
this.x += dim.width;
this.y += dim.height;
return this;
};
module.exports = PointD;
},{}],27:[function(require,module,exports){
function RandomSeed() {
}
RandomSeed.seed = 1;
RandomSeed.x = 0;
RandomSeed.nextDouble = function () {
RandomSeed.x = Math.sin(RandomSeed.seed++) * 10000;
return RandomSeed.x - Math.floor(RandomSeed.x);
};
module.exports = RandomSeed;
},{}],28:[function(require,module,exports){
function RectangleD(x, y, width, height) {
this.x = 0;
this.y = 0;
this.width = 0;
this.height = 0;
if (x != null && y != null && width != null && height != null) {
this.x = x;
this.y = y;
this.width = width;
this.height = height;
}
}
RectangleD.prototype.getX = function ()
{
return this.x;
};
RectangleD.prototype.setX = function (x)
{
this.x = x;
};
RectangleD.prototype.getY = function ()
{
return this.y;
};
RectangleD.prototype.setY = function (y)
{
this.y = y;
};
RectangleD.prototype.getWidth = function ()
{
return this.width;
};
RectangleD.prototype.setWidth = function (width)
{
this.width = width;
};
RectangleD.prototype.getHeight = function ()
{
return this.height;
};
RectangleD.prototype.setHeight = function (height)
{
this.height = height;
};
RectangleD.prototype.getRight = function ()
{
return this.x + this.width;
};
RectangleD.prototype.getBottom = function ()
{
return this.y + this.height;
};
RectangleD.prototype.intersects = function (a)
{
if (this.getRight() < a.x)
{
return false;
}
if (this.getBottom() < a.y)
{
return false;
}
if (a.getRight() < this.x)
{
return false;
}
if (a.getBottom() < this.y)
{
return false;
}
return true;
};
RectangleD.prototype.getCenterX = function ()
{
return this.x + this.width / 2;
};
RectangleD.prototype.getMinX = function ()
{
return this.getX();
};
RectangleD.prototype.getMaxX = function ()
{
return this.getX() + this.width;
};
RectangleD.prototype.getCenterY = function ()
{
return this.y + this.height / 2;
};
RectangleD.prototype.getMinY = function ()
{
return this.getY();
};
RectangleD.prototype.getMaxY = function ()
{
return this.getY() + this.height;
};
RectangleD.prototype.getWidthHalf = function ()
{
return this.width / 2;
};
RectangleD.prototype.getHeightHalf = function ()
{
return this.height / 2;
};
module.exports = RectangleD;
},{}],29:[function(require,module,exports){
module.exports = function (instance) {
instance.toBeTiled = {};
instance.getToBeTiled = function (node) {
var id = node.data("id");
//firstly check the previous results
if (instance.toBeTiled[id] != null) {
return instance.toBeTiled[id];
}
//only compound nodes are to be tiled
var children = node.children();
if (children == null || children.length == 0) {
instance.toBeTiled[id] = false;
return false;
}
//a compound node is not to be tiled if all of its compound children are not to be tiled
for (var i = 0; i < children.length; i++) {
var theChild = children[i];
if (instance.getNodeDegree(theChild) > 0) {
instance.toBeTiled[id] = false;
return false;
}
//pass the children not having the compound structure
if (theChild.children() == null || theChild.children().length == 0) {
instance.toBeTiled[theChild.data("id")] = false;
continue;
}
if (!instance.getToBeTiled(theChild)) {
instance.toBeTiled[id] = false;
return false;
}
}
instance.toBeTiled[id] = true;
return true;
};
instance.getNodeDegree = function (node) {
var id = node.id();
var edges = instance.options.eles.edges().filter(function (ele, i) {
if (typeof ele === "number") {
ele = i;
}
var source = ele.data('source');
var target = ele.data('target');
if (source != target && (source == id || target == id)) {
return true;
}
});
return edges.length;
};
instance.getNodeDegreeWithChildren = function (node) {
var degree = instance.getNodeDegree(node);
var children = node.children();
for (var i = 0; i < children.length; i++) {
var child = children[i];
degree += instance.getNodeDegreeWithChildren(child);
}
return degree;
};
instance.groupZeroDegreeMembers = function () {
// array of [parent_id x oneDegreeNode_id]
var tempMemberGroups = [];
var memberGroups = [];
var self = this;
var parentMap = {};
for (var i = 0; i < instance.options.eles.nodes().length; i++) {
parentMap[instance.options.eles.nodes()[i].id()] = true;
}
// Find all zero degree nodes which aren't covered by a compound
var zeroDegree = instance.options.eles.nodes().filter(function (ele, i) {
if (typeof ele === "number") {
ele = i;
}
var pid = ele.data('parent');
if (pid != undefined && !parentMap[pid]) {
pid = undefined;
}
if (self.getNodeDegreeWithChildren(ele) == 0 && (pid == undefined || (pid != undefined && !self.getToBeTiled(ele.parent()[0]))))
return true;
else
return false;
});
// Create a map of parent node and its zero degree members
for (var i = 0; i < zeroDegree.length; i++)
{
var node = zeroDegree[i];
var p_id = node.parent().id();
if (p_id != undefined && !parentMap[p_id]) {
p_id = undefined;
}
if (typeof tempMemberGroups[p_id] === "undefined")
tempMemberGroups[p_id] = [];
tempMemberGroups[p_id] = tempMemberGroups[p_id].concat(node);
}
// If there are at least two nodes at a level, create a dummy compound for them
for (var p_id in tempMemberGroups) {
if (tempMemberGroups[p_id].length > 1) {
var dummyCompoundId = "DummyCompound_" + p_id;
memberGroups[dummyCompoundId] = tempMemberGroups[p_id];
// Create a dummy compound
if (instance.options.cy.getElementById(dummyCompoundId).empty()) {
instance.options.cy.add({
group: "nodes",
data: {id: dummyCompoundId, parent: p_id
}
});
var dummy = instance.options.cy.nodes()[instance.options.cy.nodes().length - 1];
instance.options.eles = instance.options.eles.union(dummy);
dummy.hide();
for (var i = 0; i < tempMemberGroups[p_id].length; i++) {
if (i == 0) {
dummy.scratch('coseBilkent', {tempchildren: []});
}
var node = tempMemberGroups[p_id][i];
var scratchObj = node.scratch('coseBilkent');
if (!scratchObj) {
scratchObj = {};
node.scratch('coseBilkent', scratchObj);
}
scratchObj['dummy_parent_id'] = dummyCompoundId;
instance.options.cy.add({
group: "nodes",
data: {parent: dummyCompoundId, width: node.width(), height: node.height()
}
});
var tempchild = instance.options.cy.nodes()[instance.options.cy.nodes().length - 1];
tempchild.hide();
tempchild.css('width', tempchild.data('width'));
tempchild.css('height', tempchild.data('height'));
tempchild.width();
dummy.scratch('coseBilkent').tempchildren.push(tempchild);
}
}
}
}
return memberGroups;
};
instance.performDFSOnCompounds = function (options) {
var compoundOrder = [];
var roots = instance.getTopMostNodes(instance.options.eles.nodes());
instance.fillCompexOrderByDFS(compoundOrder, roots);
return compoundOrder;
};
instance.fillCompexOrderByDFS = function (compoundOrder, children) {
for (var i = 0; i < children.length; i++) {
var child = children[i];
instance.fillCompexOrderByDFS(compoundOrder, child.children());
if (instance.getToBeTiled(child)) {
compoundOrder.push(child);
}
}
};
instance.clearCompounds = function () {
var childGraphMap = [];
// Get compound ordering by finding the inner one first
var compoundOrder = instance.performDFSOnCompounds(instance.options);
instance.compoundOrder = compoundOrder;
instance.processChildrenList(instance.root, instance.getTopMostNodes(instance.options.eles.nodes()), instance.layout);
for (var i = 0; i < compoundOrder.length; i++) {
// find the corresponding layout node
var lCompoundNode = instance.idToLNode[compoundOrder[i].id()];
childGraphMap[compoundOrder[i].id()] = compoundOrder[i].children();
// Remove children of compounds
lCompoundNode.child = null;
}
// Tile the removed children
var tiledMemberPack = instance.tileCompoundMembers(childGraphMap);
return tiledMemberPack;
};
instance.clearZeroDegreeMembers = function (memberGroups) {
var tiledZeroDegreePack = [];
for (var id in memberGroups) {
var compoundNode = instance.idToLNode[id];
tiledZeroDegreePack[id] = instance.tileNodes(memberGroups[id]);
// Set the width and height of the dummy compound as calculated
compoundNode.rect.width = tiledZeroDegreePack[id].width;
compoundNode.rect.height = tiledZeroDegreePack[id].height;
}
return tiledZeroDegreePack;
};
instance.repopulateCompounds = function (tiledMemberPack) {
for (var i = instance.compoundOrder.length - 1; i >= 0; i--) {
var id = instance.compoundOrder[i].id();
var lCompoundNode = instance.idToLNode[id];
var horizontalMargin = parseInt(instance.compoundOrder[i].css('padding-left'));
var verticalMargin = parseInt(instance.compoundOrder[i].css('padding-top'));
instance.adjustLocations(tiledMemberPack[id], lCompoundNode.rect.x, lCompoundNode.rect.y, horizontalMargin, verticalMargin);
}
};
instance.repopulateZeroDegreeMembers = function (tiledPack) {
for (var i in tiledPack) {
var compound = instance.cy.getElementById(i);
var compoundNode = instance.idToLNode[i];
var horizontalMargin = parseInt(compound.css('padding-left'));
var verticalMargin = parseInt(compound.css('padding-top'));
// Adjust the positions of nodes wrt its compound
instance.adjustLocations(tiledPack[i], compoundNode.rect.x, compoundNode.rect.y, horizontalMargin, verticalMargin);
var tempchildren = compound.scratch('coseBilkent').tempchildren;
for (var i = 0; i < tempchildren.length; i++) {
tempchildren[i].remove();
}
// Remove the dummy compound
compound.remove();
}
};
/**
* This method places each zero degree member wrt given (x,y) coordinates (top left).
*/
instance.adjustLocations = function (organization, x, y, compoundHorizontalMargin, compoundVerticalMargin) {
x += compoundHorizontalMargin;
y += compoundVerticalMargin;
var left = x;
for (var i = 0; i < organization.rows.length; i++) {
var row = organization.rows[i];
x = left;
var maxHeight = 0;
for (var j = 0; j < row.length; j++) {
var lnode = row[j];
var node = instance.cy.getElementById(lnode.id);
lnode.rect.x = x;// + lnode.rect.width / 2;
lnode.rect.y = y;// + lnode.rect.height / 2;
x += lnode.rect.width + organization.horizontalPadding;
if (lnode.rect.height > maxHeight)
maxHeight = lnode.rect.height;
}
y += maxHeight + organization.verticalPadding;
}
};
instance.tileCompoundMembers = function (childGraphMap) {
var tiledMemberPack = [];
for (var id in childGraphMap) {
// Access layoutInfo nodes to set the width and height of compounds
var compoundNode = instance.idToLNode[id];
tiledMemberPack[id] = instance.tileNodes(childGraphMap[id]);
compoundNode.rect.width = tiledMemberPack[id].width + 20;
compoundNode.rect.height = tiledMemberPack[id].height + 20;
}
return tiledMemberPack;
};
instance.tileNodes = function (nodes) {
var self = this;
var verticalPadding = typeof self.options.tilingPaddingVertical === 'function' ? self.options.tilingPaddingVertical.call() : self.options.tilingPaddingVertical;
var horizontalPadding = typeof self.options.tilingPaddingHorizontal === 'function' ? self.options.tilingPaddingHorizontal.call() : self.options.tilingPaddingHorizontal;
var organization = {
rows: [],
rowWidth: [],
rowHeight: [],
width: 20,
height: 20,
verticalPadding: verticalPadding,
horizontalPadding: horizontalPadding
};
var layoutNodes = [];
// Get layout nodes
for (var i = 0; i < nodes.length; i++) {
var node = nodes[i];
var lNode = instance.idToLNode[node.id()];
if (!node.scratch('coseBilkent') || !node.scratch('coseBilkent').dummy_parent_id) {
var owner = lNode.owner;
owner.remove(lNode);
instance.gm.resetAllNodes();
instance.gm.getAllNodes();
}
layoutNodes.push(lNode);
}
// Sort the nodes in ascending order of their areas
layoutNodes.sort(function (n1, n2) {
if (n1.rect.width * n1.rect.height > n2.rect.width * n2.rect.height)
return -1;
if (n1.rect.width * n1.rect.height < n2.rect.width * n2.rect.height)
return 1;
return 0;
});
// Create the organization -> tile members
for (var i = 0; i < layoutNodes.length; i++) {
var lNode = layoutNodes[i];
var cyNode = instance.cy.getElementById(lNode.id).parent()[0];
var minWidth = 0;
if (cyNode) {
minWidth = parseInt(cyNode.css('padding-left')) + parseInt(cyNode.css('padding-right'));
}
if (organization.rows.length == 0) {
instance.insertNodeToRow(organization, lNode, 0, minWidth);
}
else if (instance.canAddHorizontal(organization, lNode.rect.width, lNode.rect.height)) {
instance.insertNodeToRow(organization, lNode, instance.getShortestRowIndex(organization), minWidth);
}
else {
instance.insertNodeToRow(organization, lNode, organization.rows.length, minWidth);
}
instance.shiftToLastRow(organization);
}
return organization;
};
instance.insertNodeToRow = function (organization, node, rowIndex, minWidth) {
var minCompoundSize = minWidth;
// Add new row if needed
if (rowIndex == organization.rows.length) {
var secondDimension = [];
organization.rows.push(secondDimension);
organization.rowWidth.push(minCompoundSize);
organization.rowHeight.push(0);
}
// Update row width
var w = organization.rowWidth[rowIndex] + node.rect.width;
if (organization.rows[rowIndex].length > 0) {
w += organization.horizontalPadding;
}
organization.rowWidth[rowIndex] = w;
// Update compound width
if (organization.width < w) {
organization.width = w;
}
// Update height
var h = node.rect.height;
if (rowIndex > 0)
h += organization.verticalPadding;
var extraHeight = 0;
if (h > organization.rowHeight[rowIndex]) {
extraHeight = organization.rowHeight[rowIndex];
organization.rowHeight[rowIndex] = h;
extraHeight = organization.rowHeight[rowIndex] - extraHeight;
}
organization.height += extraHeight;
// Insert node
organization.rows[rowIndex].push(node);
};
//Scans the rows of an organization and returns the one with the min width
instance.getShortestRowIndex = function (organization) {
var r = -1;
var min = Number.MAX_VALUE;
for (var i = 0; i < organization.rows.length; i++) {
if (organization.rowWidth[i] < min) {
r = i;
min = organization.rowWidth[i];
}
}
return r;
};
//Scans the rows of an organization and returns the one with the max width
instance.getLongestRowIndex = function (organization) {
var r = -1;
var max = Number.MIN_VALUE;
for (var i = 0; i < organization.rows.length; i++) {
if (organization.rowWidth[i] > max) {
r = i;
max = organization.rowWidth[i];
}
}
return r;
};
/**
* This method checks whether adding extra width to the organization violates
* the aspect ratio(1) or not.
*/
instance.canAddHorizontal = function (organization, extraWidth, extraHeight) {
var sri = instance.getShortestRowIndex(organization);
if (sri < 0) {
return true;
}
var min = organization.rowWidth[sri];
if (min + organization.horizontalPadding + extraWidth <= organization.width)
return true;
var hDiff = 0;
// Adding to an existing row
if (organization.rowHeight[sri] < extraHeight) {
if (sri > 0)
hDiff = extraHeight + organization.verticalPadding - organization.rowHeight[sri];
}
var add_to_row_ratio;
if (organization.width - min >= extraWidth + organization.horizontalPadding) {
add_to_row_ratio = (organization.height + hDiff) / (min + extraWidth + organization.horizontalPadding);
} else {
add_to_row_ratio = (organization.height + hDiff) / organization.width;
}
// Adding a new row for this node
hDiff = extraHeight + organization.verticalPadding;
var add_new_row_ratio;
if (organization.width < extraWidth) {
add_new_row_ratio = (organization.height + hDiff) / extraWidth;
} else {
add_new_row_ratio = (organization.height + hDiff) / organization.width;
}
if (add_new_row_ratio < 1)
add_new_row_ratio = 1 / add_new_row_ratio;
if (add_to_row_ratio < 1)
add_to_row_ratio = 1 / add_to_row_ratio;
return add_to_row_ratio < add_new_row_ratio;
};
//If moving the last node from the longest row and adding it to the last
//row makes the bounding box smaller, do it.
instance.shiftToLastRow = function (organization) {
var longest = instance.getLongestRowIndex(organization);
var last = organization.rowWidth.length - 1;
var row = organization.rows[longest];
var node = row[row.length - 1];
var diff = node.width + organization.horizontalPadding;
// Check if there is enough space on the last row
if (organization.width - organization.rowWidth[last] > diff && longest != last) {
// Remove the last element of the longest row
row.splice(-1, 1);
// Push it to the last row
organization.rows[last].push(node);
organization.rowWidth[longest] = organization.rowWidth[longest] - diff;
organization.rowWidth[last] = organization.rowWidth[last] + diff;
organization.width = organization.rowWidth[instance.getLongestRowIndex(organization)];
// Update heights of the organization
var maxHeight = Number.MIN_VALUE;
for (var i = 0; i < row.length; i++) {
if (row[i].height > maxHeight)
maxHeight = row[i].height;
}
if (longest > 0)
maxHeight += organization.verticalPadding;
var prevTotal = organization.rowHeight[longest] + organization.rowHeight[last];
organization.rowHeight[longest] = maxHeight;
if (organization.rowHeight[last] < node.height + organization.verticalPadding)
organization.rowHeight[last] = node.height + organization.verticalPadding;
var finalTotal = organization.rowHeight[longest] + organization.rowHeight[last];
organization.height += (finalTotal - prevTotal);
instance.shiftToLastRow(organization);
}
};
instance.preLayout = function() {
// Find zero degree nodes and create a compound for each level
var memberGroups = instance.groupZeroDegreeMembers();
// Tile and clear children of each compound
instance.tiledMemberPack = instance.clearCompounds();
// Separately tile and clear zero degree nodes for each level
instance.tiledZeroDegreeNodes = instance.clearZeroDegreeMembers(memberGroups);
};
instance.postLayout = function() {
var nodes = instance.options.eles.nodes();
//fill the toBeTiled map
for (var i = 0; i < nodes.length; i++) {
instance.getToBeTiled(nodes[i]);
}
// Repopulate members
instance.repopulateZeroDegreeMembers(instance.tiledZeroDegreeNodes);
instance.repopulateCompounds(instance.tiledMemberPack);
instance.options.cy.nodes().updateCompoundBounds();
};
};
},{}],30:[function(require,module,exports){
var PointD = require('./PointD');
function Transform(x, y) {
this.lworldOrgX = 0.0;
this.lworldOrgY = 0.0;
this.ldeviceOrgX = 0.0;
this.ldeviceOrgY = 0.0;
this.lworldExtX = 1.0;
this.lworldExtY = 1.0;
this.ldeviceExtX = 1.0;
this.ldeviceExtY = 1.0;
}
Transform.prototype.getWorldOrgX = function ()
{
return this.lworldOrgX;
}
Transform.prototype.setWorldOrgX = function (wox)
{
this.lworldOrgX = wox;
}
Transform.prototype.getWorldOrgY = function ()
{
return this.lworldOrgY;
}
Transform.prototype.setWorldOrgY = function (woy)
{
this.lworldOrgY = woy;
}
Transform.prototype.getWorldExtX = function ()
{
return this.lworldExtX;
}
Transform.prototype.setWorldExtX = function (wex)
{
this.lworldExtX = wex;
}
Transform.prototype.getWorldExtY = function ()
{
return this.lworldExtY;
}
Transform.prototype.setWorldExtY = function (wey)
{
this.lworldExtY = wey;
}
/* Device related */
Transform.prototype.getDeviceOrgX = function ()
{
return this.ldeviceOrgX;
}
Transform.prototype.setDeviceOrgX = function (dox)
{
this.ldeviceOrgX = dox;
}
Transform.prototype.getDeviceOrgY = function ()
{
return this.ldeviceOrgY;
}
Transform.prototype.setDeviceOrgY = function (doy)
{
this.ldeviceOrgY = doy;
}
Transform.prototype.getDeviceExtX = function ()
{
return this.ldeviceExtX;
}
Transform.prototype.setDeviceExtX = function (dex)
{
this.ldeviceExtX = dex;
}
Transform.prototype.getDeviceExtY = function ()
{
return this.ldeviceExtY;
}
Transform.prototype.setDeviceExtY = function (dey)
{
this.ldeviceExtY = dey;
}
Transform.prototype.transformX = function (x)
{
var xDevice = 0.0;
var worldExtX = this.lworldExtX;
if (worldExtX != 0.0)
{
xDevice = this.ldeviceOrgX +
((x - this.lworldOrgX) * this.ldeviceExtX / worldExtX);
}
return xDevice;
}
Transform.prototype.transformY = function (y)
{
var yDevice = 0.0;
var worldExtY = this.lworldExtY;
if (worldExtY != 0.0)
{
yDevice = this.ldeviceOrgY +
((y - this.lworldOrgY) * this.ldeviceExtY / worldExtY);
}
return yDevice;
}
Transform.prototype.inverseTransformX = function (x)
{
var xWorld = 0.0;
var deviceExtX = this.ldeviceExtX;
if (deviceExtX != 0.0)
{
xWorld = this.lworldOrgX +
((x - this.ldeviceOrgX) * this.lworldExtX / deviceExtX);
}
return xWorld;
}
Transform.prototype.inverseTransformY = function (y)
{
var yWorld = 0.0;
var deviceExtY = this.ldeviceExtY;
if (deviceExtY != 0.0)
{
yWorld = this.lworldOrgY +
((y - this.ldeviceOrgY) * this.lworldExtY / deviceExtY);
}
return yWorld;
}
Transform.prototype.inverseTransformPoint = function (inPoint)
{
var outPoint =
new PointD(this.inverseTransformX(inPoint.x),
this.inverseTransformY(inPoint.y));
return outPoint;
}
module.exports = Transform;
},{"./PointD":26}],31:[function(require,module,exports){
function UniqueIDGeneretor() {
}
UniqueIDGeneretor.lastID = 0;
UniqueIDGeneretor.createID = function (obj) {
if (UniqueIDGeneretor.isPrimitive(obj)) {
return obj;
}
if (obj.uniqueID != null) {
return obj.uniqueID;
}
obj.uniqueID = UniqueIDGeneretor.getString();
UniqueIDGeneretor.lastID++;
return obj.uniqueID;
}
UniqueIDGeneretor.getString = function (id) {
if (id == null)
id = UniqueIDGeneretor.lastID;
return "Object#" + id + "";
}
UniqueIDGeneretor.isPrimitive = function (arg) {
var type = typeof arg;
return arg == null || (type != "object" && type != "function");
}
module.exports = UniqueIDGeneretor;
},{}],32:[function(require,module,exports){
'use strict';
var DimensionD = require('./DimensionD');
var HashMap = require('./HashMap');
var HashSet = require('./HashSet');
var IGeometry = require('./IGeometry');
var IMath = require('./IMath');
var Integer = require('./Integer');
var Point = require('./Point');
var PointD = require('./PointD');
var RandomSeed = require('./RandomSeed');
var RectangleD = require('./RectangleD');
var Transform = require('./Transform');
var UniqueIDGeneretor = require('./UniqueIDGeneretor');
var LGraphObject = require('./LGraphObject');
var LGraph = require('./LGraph');
var LEdge = require('./LEdge');
var LGraphManager = require('./LGraphManager');
var LNode = require('./LNode');
var Layout = require('./Layout');
var LayoutConstants = require('./LayoutConstants');
var FDLayout = require('./FDLayout');
var FDLayoutConstants = require('./FDLayoutConstants');
var FDLayoutEdge = require('./FDLayoutEdge');
var FDLayoutNode = require('./FDLayoutNode');
var CoSEConstants = require('./CoSEConstants');
var CoSEEdge = require('./CoSEEdge');
var CoSEGraph = require('./CoSEGraph');
var CoSEGraphManager = require('./CoSEGraphManager');
var CoSELayout = require('./CoSELayout');
var CoSENode = require('./CoSENode');
var TilingExtension = require('./TilingExtension');
var defaults = {
// Called on `layoutready`
ready: function () {
},
// Called on `layoutstop`
stop: function () {
},
// number of ticks per frame; higher is faster but more jerky
refresh: 30,
// Whether to fit the network view after when done
fit: true,
// Padding on fit
padding: 10,
// Padding for compounds
paddingCompound: 15,
// Whether to enable incremental mode
randomize: true,
// Node repulsion (non overlapping) multiplier
nodeRepulsion: 4500,
// Ideal edge (non nested) length
idealEdgeLength: 50,
// Divisor to compute edge forces
edgeElasticity: 0.45,
// Nesting factor (multiplier) to compute ideal edge length for nested edges
nestingFactor: 0.1,
// Gravity force (constant)
gravity: 0.25,
// Maximum number of iterations to perform
numIter: 2500,
// For enabling tiling
tile: true,
// Type of layout animation. The option set is {'during', 'end', false}
animate: 'end',
// Duration for animate:end
animationDuration: 500,
// Represents the amount of the vertical space to put between the zero degree members during the tiling operation(can also be a function)
tilingPaddingVertical: 10,
// Represents the amount of the horizontal space to put between the zero degree members during the tiling operation(can also be a function)
tilingPaddingHorizontal: 10,
// Gravity range (constant) for compounds
gravityRangeCompound: 1.5,
// Gravity force (constant) for compounds
gravityCompound: 1.0,
// Gravity range (constant)
gravityRange: 3.8
};
function extend(defaults, options) {
var obj = {};
for (var i in defaults) {
obj[i] = defaults[i];
}
for (var i in options) {
obj[i] = options[i];
}
return obj;
};
function _CoSELayout(_options) {
TilingExtension(this); // Extend this instance with tiling functions
this.options = extend(defaults, _options);
getUserOptions(this.options);
}
var getUserOptions = function (options) {
if (options.nodeRepulsion != null)
CoSEConstants.DEFAULT_REPULSION_STRENGTH = FDLayoutConstants.DEFAULT_REPULSION_STRENGTH = options.nodeRepulsion;
if (options.idealEdgeLength != null)
CoSEConstants.DEFAULT_EDGE_LENGTH = FDLayoutConstants.DEFAULT_EDGE_LENGTH = options.idealEdgeLength;
if (options.edgeElasticity != null)
CoSEConstants.DEFAULT_SPRING_STRENGTH = FDLayoutConstants.DEFAULT_SPRING_STRENGTH = options.edgeElasticity;
if (options.nestingFactor != null)
CoSEConstants.PER_LEVEL_IDEAL_EDGE_LENGTH_FACTOR = FDLayoutConstants.PER_LEVEL_IDEAL_EDGE_LENGTH_FACTOR = options.nestingFactor;
if (options.gravity != null)
CoSEConstants.DEFAULT_GRAVITY_STRENGTH = FDLayoutConstants.DEFAULT_GRAVITY_STRENGTH = options.gravity;
if (options.numIter != null)
CoSEConstants.MAX_ITERATIONS = FDLayoutConstants.MAX_ITERATIONS = options.numIter;
if (options.paddingCompound != null)
CoSEConstants.DEFAULT_GRAPH_MARGIN = FDLayoutConstants.DEFAULT_GRAPH_MARGIN = LayoutConstants.DEFAULT_GRAPH_MARGIN = options.paddingCompound;
if (options.gravityRange != null)
CoSEConstants.DEFAULT_GRAVITY_RANGE_FACTOR = FDLayoutConstants.DEFAULT_GRAVITY_RANGE_FACTOR = options.gravityRange;
if(options.gravityCompound != null)
CoSEConstants.DEFAULT_COMPOUND_GRAVITY_STRENGTH = FDLayoutConstants.DEFAULT_COMPOUND_GRAVITY_STRENGTH = options.gravityCompound;
if(options.gravityRangeCompound != null)
CoSEConstants.DEFAULT_COMPOUND_GRAVITY_RANGE_FACTOR = FDLayoutConstants.DEFAULT_COMPOUND_GRAVITY_RANGE_FACTOR = options.gravityRangeCompound;
CoSEConstants.DEFAULT_INCREMENTAL = FDLayoutConstants.DEFAULT_INCREMENTAL = LayoutConstants.DEFAULT_INCREMENTAL =
!(options.randomize);
CoSEConstants.ANIMATE = FDLayoutConstants.ANIMATE = options.animate;
};
_CoSELayout.prototype.run = function () {
var ready;
var frameId;
var options = this.options;
var idToLNode = this.idToLNode = {};
var layout = this.layout = new CoSELayout();
var self = this;
this.cy = this.options.cy;
this.cy.trigger('layoutstart');
var gm = layout.newGraphManager();
this.gm = gm;
var nodes = this.options.eles.nodes();
var edges = this.options.eles.edges();
this.root = gm.addRoot();
if (!this.options.tile) {
this.processChildrenList(this.root, this.getTopMostNodes(nodes), layout);
}
else {
this.preLayout();
}
for (var i = 0; i < edges.length; i++) {
var edge = edges[i];
var sourceNode = this.idToLNode[edge.data("source")];
var targetNode = this.idToLNode[edge.data("target")];
var e1 = gm.add(layout.newEdge(), sourceNode, targetNode);
e1.id = edge.id();
}
var getPositions = function(ele, i){
if(typeof ele === "number") {
ele = i;
}
var theId = ele.data('id');
var lNode = self.idToLNode[theId];
return {
x: lNode.getRect().getCenterX(),
y: lNode.getRect().getCenterY()
};
};
/*
* Reposition nodes in iterations animatedly
*/
var iterateAnimated = function () {
// Thigs to perform after nodes are repositioned on screen
var afterReposition = function() {
if (options.fit) {
options.cy.fit(options.eles.nodes(), options.padding);
}
if (!ready) {
ready = true;
self.cy.one('layoutready', options.ready);
self.cy.trigger({type: 'layoutready', layout: self});
}
};
var ticksPerFrame = self.options.refresh;
var isDone;
for( var i = 0; i < ticksPerFrame && !isDone; i++ ){
isDone = self.layout.tick();
}
// If layout is done
if (isDone) {
if (self.options.tile) {
self.postLayout();
}
self.options.eles.nodes().positions(getPositions);
afterReposition();
// trigger layoutstop when the layout stops (e.g. finishes)
self.cy.one('layoutstop', self.options.stop);
self.cy.trigger('layoutstop');
if (frameId) {
cancelAnimationFrame(frameId);
}
self.options.eles.nodes().removeScratch('coseBilkent');
ready = false;
return;
}
var animationData = self.layout.getPositionsData(); // Get positions of layout nodes note that all nodes may not be layout nodes because of tiling
// Position nodes, for the nodes who are not passed to layout because of tiling return the position of their dummy compound
options.eles.nodes().positions(function (ele, i) {
if (typeof ele === "number") {
ele = i;
}
if (ele.scratch('coseBilkent') && ele.scratch('coseBilkent').dummy_parent_id) {
var dummyParent = ele.scratch('coseBilkent').dummy_parent_id;
return {
x: dummyParent.x,
y: dummyParent.y
};
}
var theId = ele.data('id');
var pNode = animationData[theId];
var temp = ele;
while (pNode == null) {
temp = temp.parent()[0];
pNode = animationData[temp.id()];
animationData[theId] = pNode;
}
return {
x: pNode.x,
y: pNode.y
};
});
afterReposition();
frameId = requestAnimationFrame(iterateAnimated);
};
/*
* Listen 'layoutstarted' event and start animated iteration if animate option is 'during'
*/
layout.addListener('layoutstarted', function () {
if (self.options.animate === 'during') {
frameId = requestAnimationFrame(iterateAnimated);
}
});
layout.runLayout(); // Run cose layout
/*
* If animate option is not 'during' ('end' or false) perform these here (If it is 'during' similar things are already performed)
*/
if(this.options.animate !== 'during'){
setTimeout(function() {
if (self.options.tile) {
self.postLayout();
}
self.options.eles.nodes().not(":parent").layoutPositions(self, self.options, getPositions); // Use layout positions to reposition the nodes it considers the options parameter
self.options.eles.nodes().removeScratch('coseBilkent');
ready = false;
}, 0);
}
return this; // chaining
};
//Get the top most ones of a list of nodes
_CoSELayout.prototype.getTopMostNodes = function(nodes) {
var nodesMap = {};
for (var i = 0; i < nodes.length; i++) {
nodesMap[nodes[i].id()] = true;
}
var roots = nodes.filter(function (ele, i) {
if(typeof ele === "number") {
ele = i;
}
var parent = ele.parent()[0];
while(parent != null){
if(nodesMap[parent.id()]){
return false;
}
parent = parent.parent()[0];
}
return true;
});
return roots;
};
_CoSELayout.prototype.processChildrenList = function (parent, children, layout) {
var size = children.length;
for (var i = 0; i < size; i++) {
var theChild = children[i];
this.options.eles.nodes().length;
var children_of_children = theChild.children();
var theNode;
if (theChild.width() != null
&& theChild.height() != null) {
theNode = parent.add(new CoSENode(layout.graphManager,
new PointD(theChild.position('x'), theChild.position('y')),
new DimensionD(parseFloat(theChild.width()),
parseFloat(theChild.height()))));
}
else {
theNode = parent.add(new CoSENode(this.graphManager));
}
theNode.id = theChild.data("id");
this.idToLNode[theChild.data("id")] = theNode;
if (isNaN(theNode.rect.x)) {
theNode.rect.x = 0;
}
if (isNaN(theNode.rect.y)) {
theNode.rect.y = 0;
}
if (children_of_children != null && children_of_children.length > 0) {
var theNewGraph;
theNewGraph = layout.getGraphManager().add(layout.newGraph(), theNode);
this.processChildrenList(theNewGraph, children_of_children, layout);
}
}
};
/**
* @brief : called on continuous layouts to stop them before they finish
*/
_CoSELayout.prototype.stop = function () {
this.stopped = true;
this.trigger('layoutstop');
return this; // chaining
};
module.exports = function get(cytoscape) {
return _CoSELayout;
};
},{"./CoSEConstants":1,"./CoSEEdge":2,"./CoSEGraph":3,"./CoSEGraphManager":4,"./CoSELayout":5,"./CoSENode":6,"./DimensionD":7,"./FDLayout":9,"./FDLayoutConstants":10,"./FDLayoutEdge":11,"./FDLayoutNode":12,"./HashMap":13,"./HashSet":14,"./IGeometry":15,"./IMath":16,"./Integer":17,"./LEdge":18,"./LGraph":19,"./LGraphManager":20,"./LGraphObject":21,"./LNode":22,"./Layout":23,"./LayoutConstants":24,"./Point":25,"./PointD":26,"./RandomSeed":27,"./RectangleD":28,"./TilingExtension":29,"./Transform":30,"./UniqueIDGeneretor":31}],33:[function(require,module,exports){
'use strict';
// registers the extension on a cytoscape lib ref
var getLayout = require('./Layout');
var register = function( cytoscape ){
var Layout = getLayout( cytoscape );
cytoscape('layout', 'cose-bilkent', Layout);
};
// auto reg for globals
if( typeof cytoscape !== 'undefined' ){
register( cytoscape );
}
module.exports = register;
},{"./Layout":32}]},{},[33])(33)
});
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