(function webpackUniversalModuleDefinition(root, factory) {
if(typeof exports === 'object' && typeof module === 'object')
module.exports = factory(require("layout-base"));
else if(typeof define === 'function' && define.amd)
define(["layout-base"], factory);
else if(typeof exports === 'object')
exports["coseBase"] = factory(require("layout-base"));
else
root["coseBase"] = factory(root["layoutBase"]);
})(this, function(__WEBPACK_EXTERNAL_MODULE__551__) {
return (() => { "use strict";
var __webpack_modules__ = ({
45:
((module, __unused_webpack_exports, __webpack_require__) => {
var coseBase = {};
coseBase.layoutBase = __webpack_require__(551);
coseBase.CoSEConstants = __webpack_require__(806);
coseBase.CoSEEdge = __webpack_require__(767);
coseBase.CoSEGraph = __webpack_require__(880);
coseBase.CoSEGraphManager = __webpack_require__(578);
coseBase.CoSELayout = __webpack_require__(765);
coseBase.CoSENode = __webpack_require__(991);
coseBase.ConstraintHandler = __webpack_require__(902);
module.exports = coseBase;
}),
806:
((module, __unused_webpack_exports, __webpack_require__) => {
var FDLayoutConstants = __webpack_require__(551).FDLayoutConstants;
function CoSEConstants() {}
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;
CoSEConstants.TILE = true;
CoSEConstants.TILING_PADDING_VERTICAL = 10;
CoSEConstants.TILING_PADDING_HORIZONTAL = 10;
CoSEConstants.TRANSFORM_ON_CONSTRAINT_HANDLING = true;
CoSEConstants.ENFORCE_CONSTRAINTS = true;
CoSEConstants.APPLY_LAYOUT = true;
CoSEConstants.RELAX_MOVEMENT_ON_CONSTRAINTS = true;
CoSEConstants.TREE_REDUCTION_ON_INCREMENTAL = true; CoSEConstants.PURE_INCREMENTAL = CoSEConstants.DEFAULT_INCREMENTAL;
module.exports = CoSEConstants;
}),
767:
((module, __unused_webpack_exports, __webpack_require__) => {
var FDLayoutEdge = __webpack_require__(551).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;
}),
880:
((module, __unused_webpack_exports, __webpack_require__) => {
var LGraph = __webpack_require__(551).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;
}),
578:
((module, __unused_webpack_exports, __webpack_require__) => {
var LGraphManager = __webpack_require__(551).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;
}),
765:
((module, __unused_webpack_exports, __webpack_require__) => {
var FDLayout = __webpack_require__(551).FDLayout;
var CoSEGraphManager = __webpack_require__(578);
var CoSEGraph = __webpack_require__(880);
var CoSENode = __webpack_require__(991);
var CoSEEdge = __webpack_require__(767);
var CoSEConstants = __webpack_require__(806);
var ConstraintHandler = __webpack_require__(902);
var FDLayoutConstants = __webpack_require__(551).FDLayoutConstants;
var LayoutConstants = __webpack_require__(551).LayoutConstants;
var Point = __webpack_require__(551).Point;
var PointD = __webpack_require__(551).PointD;
var DimensionD = __webpack_require__(551).DimensionD;
var Layout = __webpack_require__(551).Layout;
var Integer = __webpack_require__(551).Integer;
var IGeometry = __webpack_require__(551).IGeometry;
var LGraph = __webpack_require__(551).LGraph;
var Transform = __webpack_require__(551).Transform;
var LinkedList = __webpack_require__(551).LinkedList;
function CoSELayout() {
FDLayout.call(this);
this.toBeTiled = {}; this.constraints = {}; }
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.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.prunedNodesAll = [];
this.growTreeIterations = 0;
this.afterGrowthIterations = 0;
this.isTreeGrowing = false;
this.isGrowthFinished = false;
}
};
CoSELayout.prototype.initSpringEmbedder = function () {
FDLayout.prototype.initSpringEmbedder.call(this);
this.coolingCycle = 0;
this.maxCoolingCycle = this.maxIterations / FDLayoutConstants.CONVERGENCE_CHECK_PERIOD;
this.finalTemperature = 0.04;
this.coolingAdjuster = 1;
};
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.nodesWithGravity = this.calculateNodesToApplyGravitationTo();
this.graphManager.setAllNodesToApplyGravitation(this.nodesWithGravity);
this.calcNoOfChildrenForAllNodes();
this.graphManager.calcLowestCommonAncestors();
this.graphManager.calcInclusionTreeDepths();
this.graphManager.getRoot().calcEstimatedSize();
this.calcIdealEdgeLengths();
if (!this.incremental) {
var forest = this.getFlatForest();
if (forest.length > 0) {
this.positionNodesRadially(forest);
}
else {
this.reduceTrees();
this.graphManager.resetAllNodesToApplyGravitation();
var allNodes = new Set(this.getAllNodes());
var intersection = this.nodesWithGravity.filter(function (x) {
return allNodes.has(x);
});
this.graphManager.setAllNodesToApplyGravitation(intersection);
this.positionNodesRandomly();
}
} else {
if (CoSEConstants.TREE_REDUCTION_ON_INCREMENTAL) {
this.reduceTrees();
this.graphManager.resetAllNodesToApplyGravitation();
var allNodes = new Set(this.getAllNodes());
var intersection = this.nodesWithGravity.filter(function (x) {
return allNodes.has(x);
});
this.graphManager.setAllNodesToApplyGravitation(intersection);
}
}
if (Object.keys(this.constraints).length > 0) {
ConstraintHandler.handleConstraints(this);
this.initConstraintVariables();
}
this.initSpringEmbedder();
if (CoSEConstants.APPLY_LAYOUT) {
this.runSpringEmbedder();
}
return true;
};
CoSELayout.prototype.tick = function () {
this.totalIterations++;
if (this.totalIterations === this.maxIterations && !this.isTreeGrowing && !this.isGrowthFinished) {
if (this.prunedNodesAll.length > 0) {
this.isTreeGrowing = true;
} else {
return true;
}
}
if (this.totalIterations % FDLayoutConstants.CONVERGENCE_CHECK_PERIOD == 0 && !this.isTreeGrowing && !this.isGrowthFinished) {
if (this.isConverged()) {
if (this.prunedNodesAll.length > 0) {
this.isTreeGrowing = true;
} else {
return true;
}
}
this.coolingCycle++;
if (this.layoutQuality == 0) {
this.coolingAdjuster = this.coolingCycle;
} else if (this.layoutQuality == 1) {
this.coolingAdjuster = this.coolingCycle / 3;
}
this.coolingFactor = Math.max(this.initialCoolingFactor - Math.pow(this.coolingCycle, Math.log(100 * (this.initialCoolingFactor - this.finalTemperature)) / Math.log(this.maxCoolingCycle)) / 100 * this.coolingAdjuster, this.finalTemperature);
this.animationPeriod = Math.ceil(this.initialAnimationPeriod * Math.sqrt(this.coolingFactor));
}
if (this.isTreeGrowing) {
if (this.growTreeIterations % 10 == 0) {
if (this.prunedNodesAll.length > 0) {
this.graphManager.updateBounds();
this.updateGrid();
this.growTree(this.prunedNodesAll);
this.graphManager.resetAllNodesToApplyGravitation();
var allNodes = new Set(this.getAllNodes());
var intersection = this.nodesWithGravity.filter(function (x) {
return allNodes.has(x);
});
this.graphManager.setAllNodesToApplyGravitation(intersection);
this.graphManager.updateBounds();
this.updateGrid();
if (CoSEConstants.PURE_INCREMENTAL) this.coolingFactor = FDLayoutConstants.DEFAULT_COOLING_FACTOR_INCREMENTAL / 2;else this.coolingFactor = FDLayoutConstants.DEFAULT_COOLING_FACTOR_INCREMENTAL;
} else {
this.isTreeGrowing = false;
this.isGrowthFinished = true;
}
}
this.growTreeIterations++;
}
if (this.isGrowthFinished) {
if (this.isConverged()) {
return true;
}
if (this.afterGrowthIterations % 10 == 0) {
this.graphManager.updateBounds();
this.updateGrid();
}
if (CoSEConstants.PURE_INCREMENTAL) this.coolingFactor = FDLayoutConstants.DEFAULT_COOLING_FACTOR_INCREMENTAL / 2 * ((100 - this.afterGrowthIterations) / 100);else this.coolingFactor = FDLayoutConstants.DEFAULT_COOLING_FACTOR_INCREMENTAL * ((100 - this.afterGrowthIterations) / 100);
this.afterGrowthIterations++;
}
var gridUpdateAllowed = !this.isTreeGrowing && !this.isGrowthFinished;
var forceToNodeSurroundingUpdate = this.growTreeIterations % 10 == 1 && this.isTreeGrowing || this.afterGrowthIterations % 10 == 1 && this.isGrowthFinished;
this.totalDisplacement = 0;
this.graphManager.updateBounds();
this.calcSpringForces();
this.calcRepulsionForces(gridUpdateAllowed, forceToNodeSurroundingUpdate);
this.calcGravitationalForces();
this.moveNodes();
this.animate();
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 (FDLayoutConstants.ANIMATE === 'during') {
this.emit('layoutstarted');
} else {
while (!layoutEnded) {
layoutEnded = this.tick();
}
this.graphManager.updateBounds();
}
};
CoSELayout.prototype.moveNodes = function () {
var lNodes = this.getAllNodes();
var node;
for (var i = 0; i < lNodes.length; i++) {
node = lNodes[i];
node.calculateDisplacement();
}
if (Object.keys(this.constraints).length > 0) {
this.updateDisplacements();
}
for (var i = 0; i < lNodes.length; i++) {
node = lNodes[i];
node.move();
}
};
CoSELayout.prototype.initConstraintVariables = function () {
var self = this;
this.idToNodeMap = new Map();
this.fixedNodeSet = new Set();
var allNodes = this.graphManager.getAllNodes();
for (var i = 0; i < allNodes.length; i++) {
var node = allNodes[i];
this.idToNodeMap.set(node.id, node);
}
var calculateCompoundWeight = function calculateCompoundWeight(compoundNode) {
var nodes = compoundNode.getChild().getNodes();
var node;
var fixedNodeWeight = 0;
for (var i = 0; i < nodes.length; i++) {
node = nodes[i];
if (node.getChild() == null) {
if (self.fixedNodeSet.has(node.id)) {
fixedNodeWeight += 100;
}
} else {
fixedNodeWeight += calculateCompoundWeight(node);
}
}
return fixedNodeWeight;
};
if (this.constraints.fixedNodeConstraint) {
this.constraints.fixedNodeConstraint.forEach(function (nodeData) {
self.fixedNodeSet.add(nodeData.nodeId);
});
var allNodes = this.graphManager.getAllNodes();
var node;
for (var i = 0; i < allNodes.length; i++) {
node = allNodes[i];
if (node.getChild() != null) {
var fixedNodeWeight = calculateCompoundWeight(node);
if (fixedNodeWeight > 0) {
node.fixedNodeWeight = fixedNodeWeight;
}
}
}
}
if (this.constraints.relativePlacementConstraint) {
var nodeToDummyForVerticalAlignment = new Map();
var nodeToDummyForHorizontalAlignment = new Map();
this.dummyToNodeForVerticalAlignment = new Map();
this.dummyToNodeForHorizontalAlignment = new Map();
this.fixedNodesOnHorizontal = new Set();
this.fixedNodesOnVertical = new Set();
this.fixedNodeSet.forEach(function (nodeId) {
self.fixedNodesOnHorizontal.add(nodeId);
self.fixedNodesOnVertical.add(nodeId);
});
if (this.constraints.alignmentConstraint) {
if (this.constraints.alignmentConstraint.vertical) {
var verticalAlignment = this.constraints.alignmentConstraint.vertical;
for (var i = 0; i < verticalAlignment.length; i++) {
this.dummyToNodeForVerticalAlignment.set("dummy" + i, []);
verticalAlignment[i].forEach(function (nodeId) {
nodeToDummyForVerticalAlignment.set(nodeId, "dummy" + i);
self.dummyToNodeForVerticalAlignment.get("dummy" + i).push(nodeId);
if (self.fixedNodeSet.has(nodeId)) {
self.fixedNodesOnHorizontal.add("dummy" + i);
}
});
}
}
if (this.constraints.alignmentConstraint.horizontal) {
var horizontalAlignment = this.constraints.alignmentConstraint.horizontal;
for (var i = 0; i < horizontalAlignment.length; i++) {
this.dummyToNodeForHorizontalAlignment.set("dummy" + i, []);
horizontalAlignment[i].forEach(function (nodeId) {
nodeToDummyForHorizontalAlignment.set(nodeId, "dummy" + i);
self.dummyToNodeForHorizontalAlignment.get("dummy" + i).push(nodeId);
if (self.fixedNodeSet.has(nodeId)) {
self.fixedNodesOnVertical.add("dummy" + i);
}
});
}
}
}
if (CoSEConstants.RELAX_MOVEMENT_ON_CONSTRAINTS) {
this.shuffle = function (array) {
var j, x, i;
for (i = array.length - 1; i >= 2 * array.length / 3; i--) {
j = Math.floor(Math.random() * (i + 1));
x = array[i];
array[i] = array[j];
array[j] = x;
}
return array;
};
this.nodesInRelativeHorizontal = [];
this.nodesInRelativeVertical = [];
this.nodeToRelativeConstraintMapHorizontal = new Map();
this.nodeToRelativeConstraintMapVertical = new Map();
this.nodeToTempPositionMapHorizontal = new Map();
this.nodeToTempPositionMapVertical = new Map();
this.constraints.relativePlacementConstraint.forEach(function (constraint) {
if (constraint.left) {
var nodeIdLeft = nodeToDummyForVerticalAlignment.has(constraint.left) ? nodeToDummyForVerticalAlignment.get(constraint.left) : constraint.left;
var nodeIdRight = nodeToDummyForVerticalAlignment.has(constraint.right) ? nodeToDummyForVerticalAlignment.get(constraint.right) : constraint.right;
if (!self.nodesInRelativeHorizontal.includes(nodeIdLeft)) {
self.nodesInRelativeHorizontal.push(nodeIdLeft);
self.nodeToRelativeConstraintMapHorizontal.set(nodeIdLeft, []);
if (self.dummyToNodeForVerticalAlignment.has(nodeIdLeft)) {
self.nodeToTempPositionMapHorizontal.set(nodeIdLeft, self.idToNodeMap.get(self.dummyToNodeForVerticalAlignment.get(nodeIdLeft)[0]).getCenterX());
} else {
self.nodeToTempPositionMapHorizontal.set(nodeIdLeft, self.idToNodeMap.get(nodeIdLeft).getCenterX());
}
}
if (!self.nodesInRelativeHorizontal.includes(nodeIdRight)) {
self.nodesInRelativeHorizontal.push(nodeIdRight);
self.nodeToRelativeConstraintMapHorizontal.set(nodeIdRight, []);
if (self.dummyToNodeForVerticalAlignment.has(nodeIdRight)) {
self.nodeToTempPositionMapHorizontal.set(nodeIdRight, self.idToNodeMap.get(self.dummyToNodeForVerticalAlignment.get(nodeIdRight)[0]).getCenterX());
} else {
self.nodeToTempPositionMapHorizontal.set(nodeIdRight, self.idToNodeMap.get(nodeIdRight).getCenterX());
}
}
self.nodeToRelativeConstraintMapHorizontal.get(nodeIdLeft).push({ right: nodeIdRight, gap: constraint.gap });
self.nodeToRelativeConstraintMapHorizontal.get(nodeIdRight).push({ left: nodeIdLeft, gap: constraint.gap });
} else {
var nodeIdTop = nodeToDummyForHorizontalAlignment.has(constraint.top) ? nodeToDummyForHorizontalAlignment.get(constraint.top) : constraint.top;
var nodeIdBottom = nodeToDummyForHorizontalAlignment.has(constraint.bottom) ? nodeToDummyForHorizontalAlignment.get(constraint.bottom) : constraint.bottom;
if (!self.nodesInRelativeVertical.includes(nodeIdTop)) {
self.nodesInRelativeVertical.push(nodeIdTop);
self.nodeToRelativeConstraintMapVertical.set(nodeIdTop, []);
if (self.dummyToNodeForHorizontalAlignment.has(nodeIdTop)) {
self.nodeToTempPositionMapVertical.set(nodeIdTop, self.idToNodeMap.get(self.dummyToNodeForHorizontalAlignment.get(nodeIdTop)[0]).getCenterY());
} else {
self.nodeToTempPositionMapVertical.set(nodeIdTop, self.idToNodeMap.get(nodeIdTop).getCenterY());
}
}
if (!self.nodesInRelativeVertical.includes(nodeIdBottom)) {
self.nodesInRelativeVertical.push(nodeIdBottom);
self.nodeToRelativeConstraintMapVertical.set(nodeIdBottom, []);
if (self.dummyToNodeForHorizontalAlignment.has(nodeIdBottom)) {
self.nodeToTempPositionMapVertical.set(nodeIdBottom, self.idToNodeMap.get(self.dummyToNodeForHorizontalAlignment.get(nodeIdBottom)[0]).getCenterY());
} else {
self.nodeToTempPositionMapVertical.set(nodeIdBottom, self.idToNodeMap.get(nodeIdBottom).getCenterY());
}
}
self.nodeToRelativeConstraintMapVertical.get(nodeIdTop).push({ bottom: nodeIdBottom, gap: constraint.gap });
self.nodeToRelativeConstraintMapVertical.get(nodeIdBottom).push({ top: nodeIdTop, gap: constraint.gap });
}
});
} else {
var subGraphOnHorizontal = new Map(); var subGraphOnVertical = new Map();
this.constraints.relativePlacementConstraint.forEach(function (constraint) {
if (constraint.left) {
var left = nodeToDummyForVerticalAlignment.has(constraint.left) ? nodeToDummyForVerticalAlignment.get(constraint.left) : constraint.left;
var right = nodeToDummyForVerticalAlignment.has(constraint.right) ? nodeToDummyForVerticalAlignment.get(constraint.right) : constraint.right;
if (subGraphOnHorizontal.has(left)) {
subGraphOnHorizontal.get(left).push(right);
} else {
subGraphOnHorizontal.set(left, [right]);
}
if (subGraphOnHorizontal.has(right)) {
subGraphOnHorizontal.get(right).push(left);
} else {
subGraphOnHorizontal.set(right, [left]);
}
} else {
var top = nodeToDummyForHorizontalAlignment.has(constraint.top) ? nodeToDummyForHorizontalAlignment.get(constraint.top) : constraint.top;
var bottom = nodeToDummyForHorizontalAlignment.has(constraint.bottom) ? nodeToDummyForHorizontalAlignment.get(constraint.bottom) : constraint.bottom;
if (subGraphOnVertical.has(top)) {
subGraphOnVertical.get(top).push(bottom);
} else {
subGraphOnVertical.set(top, [bottom]);
}
if (subGraphOnVertical.has(bottom)) {
subGraphOnVertical.get(bottom).push(top);
} else {
subGraphOnVertical.set(bottom, [top]);
}
}
});
var constructComponents = function constructComponents(graph, fixedNodes) {
var components = [];
var isFixed = [];
var queue = new LinkedList();
var visited = new Set();
var count = 0;
graph.forEach(function (value, key) {
if (!visited.has(key)) {
components[count] = [];
isFixed[count] = false;
var currentNode = key;
queue.push(currentNode);
visited.add(currentNode);
components[count].push(currentNode);
while (queue.length != 0) {
currentNode = queue.shift();
if (fixedNodes.has(currentNode)) {
isFixed[count] = true;
}
var neighbors = graph.get(currentNode);
neighbors.forEach(function (neighbor) {
if (!visited.has(neighbor)) {
queue.push(neighbor);
visited.add(neighbor);
components[count].push(neighbor);
}
});
}
count++;
}
});
return { components: components, isFixed: isFixed };
};
var resultOnHorizontal = constructComponents(subGraphOnHorizontal, self.fixedNodesOnHorizontal);
this.componentsOnHorizontal = resultOnHorizontal.components;
this.fixedComponentsOnHorizontal = resultOnHorizontal.isFixed;
var resultOnVertical = constructComponents(subGraphOnVertical, self.fixedNodesOnVertical);
this.componentsOnVertical = resultOnVertical.components;
this.fixedComponentsOnVertical = resultOnVertical.isFixed;
}
}
};
CoSELayout.prototype.updateDisplacements = function () {
var self = this;
if (this.constraints.fixedNodeConstraint) {
this.constraints.fixedNodeConstraint.forEach(function (nodeData) {
var fixedNode = self.idToNodeMap.get(nodeData.nodeId);
fixedNode.displacementX = 0;
fixedNode.displacementY = 0;
});
}
if (this.constraints.alignmentConstraint) {
if (this.constraints.alignmentConstraint.vertical) {
var allVerticalAlignments = this.constraints.alignmentConstraint.vertical;
for (var i = 0; i < allVerticalAlignments.length; i++) {
var totalDisplacementX = 0;
for (var j = 0; j < allVerticalAlignments[i].length; j++) {
if (this.fixedNodeSet.has(allVerticalAlignments[i][j])) {
totalDisplacementX = 0;
break;
}
totalDisplacementX += this.idToNodeMap.get(allVerticalAlignments[i][j]).displacementX;
}
var averageDisplacementX = totalDisplacementX / allVerticalAlignments[i].length;
for (var j = 0; j < allVerticalAlignments[i].length; j++) {
this.idToNodeMap.get(allVerticalAlignments[i][j]).displacementX = averageDisplacementX;
}
}
}
if (this.constraints.alignmentConstraint.horizontal) {
var allHorizontalAlignments = this.constraints.alignmentConstraint.horizontal;
for (var i = 0; i < allHorizontalAlignments.length; i++) {
var totalDisplacementY = 0;
for (var j = 0; j < allHorizontalAlignments[i].length; j++) {
if (this.fixedNodeSet.has(allHorizontalAlignments[i][j])) {
totalDisplacementY = 0;
break;
}
totalDisplacementY += this.idToNodeMap.get(allHorizontalAlignments[i][j]).displacementY;
}
var averageDisplacementY = totalDisplacementY / allHorizontalAlignments[i].length;
for (var j = 0; j < allHorizontalAlignments[i].length; j++) {
this.idToNodeMap.get(allHorizontalAlignments[i][j]).displacementY = averageDisplacementY;
}
}
}
}
if (this.constraints.relativePlacementConstraint) {
if (CoSEConstants.RELAX_MOVEMENT_ON_CONSTRAINTS) {
if (this.totalIterations % 10 == 0) {
this.shuffle(this.nodesInRelativeHorizontal);
this.shuffle(this.nodesInRelativeVertical);
}
this.nodesInRelativeHorizontal.forEach(function (nodeId) {
if (!self.fixedNodesOnHorizontal.has(nodeId)) {
var displacement = 0;
if (self.dummyToNodeForVerticalAlignment.has(nodeId)) {
displacement = self.idToNodeMap.get(self.dummyToNodeForVerticalAlignment.get(nodeId)[0]).displacementX;
} else {
displacement = self.idToNodeMap.get(nodeId).displacementX;
}
self.nodeToRelativeConstraintMapHorizontal.get(nodeId).forEach(function (constraint) {
if (constraint.right) {
var diff = self.nodeToTempPositionMapHorizontal.get(constraint.right) - self.nodeToTempPositionMapHorizontal.get(nodeId) - displacement;
if (diff < constraint.gap) {
displacement -= constraint.gap - diff;
}
} else {
var diff = self.nodeToTempPositionMapHorizontal.get(nodeId) - self.nodeToTempPositionMapHorizontal.get(constraint.left) + displacement;
if (diff < constraint.gap) {
displacement += constraint.gap - diff;
}
}
});
self.nodeToTempPositionMapHorizontal.set(nodeId, self.nodeToTempPositionMapHorizontal.get(nodeId) + displacement);
if (self.dummyToNodeForVerticalAlignment.has(nodeId)) {
self.dummyToNodeForVerticalAlignment.get(nodeId).forEach(function (nodeId) {
self.idToNodeMap.get(nodeId).displacementX = displacement;
});
} else {
self.idToNodeMap.get(nodeId).displacementX = displacement;
}
}
});
this.nodesInRelativeVertical.forEach(function (nodeId) {
if (!self.fixedNodesOnHorizontal.has(nodeId)) {
var displacement = 0;
if (self.dummyToNodeForHorizontalAlignment.has(nodeId)) {
displacement = self.idToNodeMap.get(self.dummyToNodeForHorizontalAlignment.get(nodeId)[0]).displacementY;
} else {
displacement = self.idToNodeMap.get(nodeId).displacementY;
}
self.nodeToRelativeConstraintMapVertical.get(nodeId).forEach(function (constraint) {
if (constraint.bottom) {
var diff = self.nodeToTempPositionMapVertical.get(constraint.bottom) - self.nodeToTempPositionMapVertical.get(nodeId) - displacement;
if (diff < constraint.gap) {
displacement -= constraint.gap - diff;
}
} else {
var diff = self.nodeToTempPositionMapVertical.get(nodeId) - self.nodeToTempPositionMapVertical.get(constraint.top) + displacement;
if (diff < constraint.gap) {
displacement += constraint.gap - diff;
}
}
});
self.nodeToTempPositionMapVertical.set(nodeId, self.nodeToTempPositionMapVertical.get(nodeId) + displacement);
if (self.dummyToNodeForHorizontalAlignment.has(nodeId)) {
self.dummyToNodeForHorizontalAlignment.get(nodeId).forEach(function (nodeId) {
self.idToNodeMap.get(nodeId).displacementY = displacement;
});
} else {
self.idToNodeMap.get(nodeId).displacementY = displacement;
}
}
});
} else {
for (var i = 0; i < this.componentsOnHorizontal.length; i++) {
var component = this.componentsOnHorizontal[i];
if (this.fixedComponentsOnHorizontal[i]) {
for (var j = 0; j < component.length; j++) {
if (this.dummyToNodeForVerticalAlignment.has(component[j])) {
this.dummyToNodeForVerticalAlignment.get(component[j]).forEach(function (nodeId) {
self.idToNodeMap.get(nodeId).displacementX = 0;
});
} else {
this.idToNodeMap.get(component[j]).displacementX = 0;
}
}
} else {
var sum = 0;
var count = 0;
for (var j = 0; j < component.length; j++) {
if (this.dummyToNodeForVerticalAlignment.has(component[j])) {
var actualNodes = this.dummyToNodeForVerticalAlignment.get(component[j]);
sum += actualNodes.length * this.idToNodeMap.get(actualNodes[0]).displacementX;
count += actualNodes.length;
} else {
sum += this.idToNodeMap.get(component[j]).displacementX;
count++;
}
}
var averageDisplacement = sum / count;
for (var j = 0; j < component.length; j++) {
if (this.dummyToNodeForVerticalAlignment.has(component[j])) {
this.dummyToNodeForVerticalAlignment.get(component[j]).forEach(function (nodeId) {
self.idToNodeMap.get(nodeId).displacementX = averageDisplacement;
});
} else {
this.idToNodeMap.get(component[j]).displacementX = averageDisplacement;
}
}
}
}
for (var i = 0; i < this.componentsOnVertical.length; i++) {
var component = this.componentsOnVertical[i];
if (this.fixedComponentsOnVertical[i]) {
for (var j = 0; j < component.length; j++) {
if (this.dummyToNodeForHorizontalAlignment.has(component[j])) {
this.dummyToNodeForHorizontalAlignment.get(component[j]).forEach(function (nodeId) {
self.idToNodeMap.get(nodeId).displacementY = 0;
});
} else {
this.idToNodeMap.get(component[j]).displacementY = 0;
}
}
} else {
var sum = 0;
var count = 0;
for (var j = 0; j < component.length; j++) {
if (this.dummyToNodeForHorizontalAlignment.has(component[j])) {
var actualNodes = this.dummyToNodeForHorizontalAlignment.get(component[j]);
sum += actualNodes.length * this.idToNodeMap.get(actualNodes[0]).displacementY;
count += actualNodes.length;
} else {
sum += this.idToNodeMap.get(component[j]).displacementY;
count++;
}
}
var averageDisplacement = sum / count;
for (var j = 0; j < component.length; j++) {
if (this.dummyToNodeForHorizontalAlignment.has(component[j])) {
this.dummyToNodeForHorizontalAlignment.get(component[j]).forEach(function (nodeId) {
self.idToNodeMap.get(nodeId).displacementY = averageDisplacement;
});
} else {
this.idToNodeMap.get(component[j]).displacementY = averageDisplacement;
}
}
}
}
}
}
};
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());
}
}
return nodeList;
};
CoSELayout.prototype.createBendpoints = function () {
var edges = [];
edges = edges.concat(this.graphManager.getAllEdges());
var visited = new Set();
var i;
for (i = 0; i < edges.length; i++) {
var edge = edges[i];
if (!visited.has(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.has(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);
}
}
edgeList.forEach(function (edge) {
visited.add(edge);
});
}
}
}
if (visited.size == edges.length) {
break;
}
}
};
CoSELayout.prototype.positionNodesRadially = function (forest) {
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) {
currentX = 0;
currentY = height;
if (i != 0) {
currentY += CoSEConstants.DEFAULT_COMPONENT_SEPERATION;
}
height = 0;
}
var tree = forest[i];
var centerNode = Layout.findCenterOfTree(tree);
currentStartingPoint.x = currentX;
currentStartingPoint.y = currentY;
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) {
var halfInterval = (endAngle - startAngle + 1) / 2;
if (halfInterval < 0) {
halfInterval += 180;
}
var nodeAngle = (halfInterval + startAngle) % 360;
var teta = nodeAngle * IGeometry.TWO_PI / 360;
var cos_teta = Math.cos(teta);
var x_ = distance * Math.cos(teta);
var y_ = distance * Math.sin(teta);
node.setCenter(x_, y_);
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);
while (edges.length > 1) {
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) {
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);
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 () {
return 2 * (this.level + 1) * this.idealEdgeLength;
};
CoSELayout.prototype.groupZeroDegreeMembers = function () {
var self = this;
var tempMemberGroups = {}; this.memberGroups = {}; this.idToDummyNode = {};
var zeroDegree = []; var allNodes = this.graphManager.getAllNodes();
for (var i = 0; i < allNodes.length; i++) {
var node = allNodes[i];
var parent = node.getParent();
if (this.getNodeDegreeWithChildren(node) === 0 && (parent.id == undefined || !this.getToBeTiled(parent))) {
zeroDegree.push(node);
}
}
for (var i = 0; i < zeroDegree.length; i++) {
var node = zeroDegree[i]; var p_id = node.getParent().id;
if (typeof tempMemberGroups[p_id] === "undefined") tempMemberGroups[p_id] = [];
tempMemberGroups[p_id] = tempMemberGroups[p_id].concat(node); }
Object.keys(tempMemberGroups).forEach(function (p_id) {
if (tempMemberGroups[p_id].length > 1) {
var dummyCompoundId = "DummyCompound_" + p_id; self.memberGroups[dummyCompoundId] = tempMemberGroups[p_id];
var parent = tempMemberGroups[p_id][0].getParent();
var dummyCompound = new CoSENode(self.graphManager);
dummyCompound.id = dummyCompoundId;
dummyCompound.paddingLeft = parent.paddingLeft || 0;
dummyCompound.paddingRight = parent.paddingRight || 0;
dummyCompound.paddingBottom = parent.paddingBottom || 0;
dummyCompound.paddingTop = parent.paddingTop || 0;
self.idToDummyNode[dummyCompoundId] = dummyCompound;
var dummyParentGraph = self.getGraphManager().add(self.newGraph(), dummyCompound);
var parentGraph = parent.getChild();
parentGraph.add(dummyCompound);
for (var i = 0; i < tempMemberGroups[p_id].length; i++) {
var node = tempMemberGroups[p_id][i];
parentGraph.remove(node);
dummyParentGraph.add(node);
}
}
});
};
CoSELayout.prototype.clearCompounds = function () {
var childGraphMap = {};
var idToNode = {};
this.performDFSOnCompounds();
for (var i = 0; i < this.compoundOrder.length; i++) {
idToNode[this.compoundOrder[i].id] = this.compoundOrder[i];
childGraphMap[this.compoundOrder[i].id] = [].concat(this.compoundOrder[i].getChild().getNodes());
this.graphManager.remove(this.compoundOrder[i].getChild());
this.compoundOrder[i].child = null;
}
this.graphManager.resetAllNodes();
this.tileCompoundMembers(childGraphMap, idToNode);
};
CoSELayout.prototype.clearZeroDegreeMembers = function () {
var self = this;
var tiledZeroDegreePack = this.tiledZeroDegreePack = [];
Object.keys(this.memberGroups).forEach(function (id) {
var compoundNode = self.idToDummyNode[id];
tiledZeroDegreePack[id] = self.tileNodes(self.memberGroups[id], compoundNode.paddingLeft + compoundNode.paddingRight);
compoundNode.rect.width = tiledZeroDegreePack[id].width;
compoundNode.rect.height = tiledZeroDegreePack[id].height;
compoundNode.setCenter(tiledZeroDegreePack[id].centerX, tiledZeroDegreePack[id].centerY);
compoundNode.labelMarginLeft = 0;
compoundNode.labelMarginTop = 0;
if (CoSEConstants.NODE_DIMENSIONS_INCLUDE_LABELS) {
var width = compoundNode.rect.width;
var height = compoundNode.rect.height;
if (compoundNode.labelWidth) {
if (compoundNode.labelPosHorizontal == "left") {
compoundNode.rect.x -= compoundNode.labelWidth;
compoundNode.setWidth(width + compoundNode.labelWidth);
compoundNode.labelMarginLeft = compoundNode.labelWidth;
} else if (compoundNode.labelPosHorizontal == "center" && compoundNode.labelWidth > width) {
compoundNode.rect.x -= (compoundNode.labelWidth - width) / 2;
compoundNode.setWidth(compoundNode.labelWidth);
compoundNode.labelMarginLeft = (compoundNode.labelWidth - width) / 2;
} else if (compoundNode.labelPosHorizontal == "right") {
compoundNode.setWidth(width + compoundNode.labelWidth);
}
}
if (compoundNode.labelHeight) {
if (compoundNode.labelPosVertical == "top") {
compoundNode.rect.y -= compoundNode.labelHeight;
compoundNode.setHeight(height + compoundNode.labelHeight);
compoundNode.labelMarginTop = compoundNode.labelHeight;
} else if (compoundNode.labelPosVertical == "center" && compoundNode.labelHeight > height) {
compoundNode.rect.y -= (compoundNode.labelHeight - height) / 2;
compoundNode.setHeight(compoundNode.labelHeight);
compoundNode.labelMarginTop = (compoundNode.labelHeight - height) / 2;
} else if (compoundNode.labelPosVertical == "bottom") {
compoundNode.setHeight(height + compoundNode.labelHeight);
}
}
}
});
};
CoSELayout.prototype.repopulateCompounds = function () {
for (var i = this.compoundOrder.length - 1; i >= 0; i--) {
var lCompoundNode = this.compoundOrder[i];
var id = lCompoundNode.id;
var horizontalMargin = lCompoundNode.paddingLeft;
var verticalMargin = lCompoundNode.paddingTop;
var labelMarginLeft = lCompoundNode.labelMarginLeft;
var labelMarginTop = lCompoundNode.labelMarginTop;
this.adjustLocations(this.tiledMemberPack[id], lCompoundNode.rect.x, lCompoundNode.rect.y, horizontalMargin, verticalMargin, labelMarginLeft, labelMarginTop);
}
};
CoSELayout.prototype.repopulateZeroDegreeMembers = function () {
var self = this;
var tiledPack = this.tiledZeroDegreePack;
Object.keys(tiledPack).forEach(function (id) {
var compoundNode = self.idToDummyNode[id]; var horizontalMargin = compoundNode.paddingLeft;
var verticalMargin = compoundNode.paddingTop;
var labelMarginLeft = compoundNode.labelMarginLeft;
var labelMarginTop = compoundNode.labelMarginTop;
self.adjustLocations(tiledPack[id], compoundNode.rect.x, compoundNode.rect.y, horizontalMargin, verticalMargin, labelMarginLeft, labelMarginTop);
});
};
CoSELayout.prototype.getToBeTiled = function (node) {
var id = node.id;
if (this.toBeTiled[id] != null) {
return this.toBeTiled[id];
}
var childGraph = node.getChild();
if (childGraph == null) {
this.toBeTiled[id] = false;
return false;
}
var children = childGraph.getNodes();
for (var i = 0; i < children.length; i++) {
var theChild = children[i];
if (this.getNodeDegree(theChild) > 0) {
this.toBeTiled[id] = false;
return false;
}
if (theChild.getChild() == null) {
this.toBeTiled[theChild.id] = false;
continue;
}
if (!this.getToBeTiled(theChild)) {
this.toBeTiled[id] = false;
return false;
}
}
this.toBeTiled[id] = true;
return true;
};
CoSELayout.prototype.getNodeDegree = function (node) {
var id = node.id;
var edges = node.getEdges();
var degree = 0;
for (var i = 0; i < edges.length; i++) {
var edge = edges[i];
if (edge.getSource().id !== edge.getTarget().id) {
degree = degree + 1;
}
}
return degree;
};
CoSELayout.prototype.getNodeDegreeWithChildren = function (node) {
var degree = this.getNodeDegree(node);
if (node.getChild() == null) {
return degree;
}
var children = node.getChild().getNodes();
for (var i = 0; i < children.length; i++) {
var child = children[i];
degree += this.getNodeDegreeWithChildren(child);
}
return degree;
};
CoSELayout.prototype.performDFSOnCompounds = function () {
this.compoundOrder = [];
this.fillCompexOrderByDFS(this.graphManager.getRoot().getNodes());
};
CoSELayout.prototype.fillCompexOrderByDFS = function (children) {
for (var i = 0; i < children.length; i++) {
var child = children[i];
if (child.getChild() != null) {
this.fillCompexOrderByDFS(child.getChild().getNodes());
}
if (this.getToBeTiled(child)) {
this.compoundOrder.push(child);
}
}
};
CoSELayout.prototype.adjustLocations = function (organization, x, y, compoundHorizontalMargin, compoundVerticalMargin, compoundLabelMarginLeft, compoundLabelMarginTop) {
x += compoundHorizontalMargin + compoundLabelMarginLeft;
y += compoundVerticalMargin + compoundLabelMarginTop;
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];
lnode.rect.x = x; lnode.rect.y = y;
x += lnode.rect.width + organization.horizontalPadding;
if (lnode.rect.height > maxHeight) maxHeight = lnode.rect.height;
}
y += maxHeight + organization.verticalPadding;
}
};
CoSELayout.prototype.tileCompoundMembers = function (childGraphMap, idToNode) {
var self = this;
this.tiledMemberPack = [];
Object.keys(childGraphMap).forEach(function (id) {
var compoundNode = idToNode[id];
self.tiledMemberPack[id] = self.tileNodes(childGraphMap[id], compoundNode.paddingLeft + compoundNode.paddingRight);
compoundNode.rect.width = self.tiledMemberPack[id].width;
compoundNode.rect.height = self.tiledMemberPack[id].height;
compoundNode.setCenter(self.tiledMemberPack[id].centerX, self.tiledMemberPack[id].centerY);
compoundNode.labelMarginLeft = 0;
compoundNode.labelMarginTop = 0;
if (CoSEConstants.NODE_DIMENSIONS_INCLUDE_LABELS) {
var width = compoundNode.rect.width;
var height = compoundNode.rect.height;
if (compoundNode.labelWidth) {
if (compoundNode.labelPosHorizontal == "left") {
compoundNode.rect.x -= compoundNode.labelWidth;
compoundNode.setWidth(width + compoundNode.labelWidth);
compoundNode.labelMarginLeft = compoundNode.labelWidth;
} else if (compoundNode.labelPosHorizontal == "center" && compoundNode.labelWidth > width) {
compoundNode.rect.x -= (compoundNode.labelWidth - width) / 2;
compoundNode.setWidth(compoundNode.labelWidth);
compoundNode.labelMarginLeft = (compoundNode.labelWidth - width) / 2;
} else if (compoundNode.labelPosHorizontal == "right") {
compoundNode.setWidth(width + compoundNode.labelWidth);
}
}
if (compoundNode.labelHeight) {
if (compoundNode.labelPosVertical == "top") {
compoundNode.rect.y -= compoundNode.labelHeight;
compoundNode.setHeight(height + compoundNode.labelHeight);
compoundNode.labelMarginTop = compoundNode.labelHeight;
} else if (compoundNode.labelPosVertical == "center" && compoundNode.labelHeight > height) {
compoundNode.rect.y -= (compoundNode.labelHeight - height) / 2;
compoundNode.setHeight(compoundNode.labelHeight);
compoundNode.labelMarginTop = (compoundNode.labelHeight - height) / 2;
} else if (compoundNode.labelPosVertical == "bottom") {
compoundNode.setHeight(height + compoundNode.labelHeight);
}
}
}
});
};
CoSELayout.prototype.tileNodes = function (nodes, minWidth) {
var horizontalOrg = this.tileNodesByFavoringDim(nodes, minWidth, true);
var verticalOrg = this.tileNodesByFavoringDim(nodes, minWidth, false);
var horizontalRatio = this.getOrgRatio(horizontalOrg);
var verticalRatio = this.getOrgRatio(verticalOrg);
var bestOrg;
if (verticalRatio < horizontalRatio) {
bestOrg = verticalOrg;
} else {
bestOrg = horizontalOrg;
}
return bestOrg;
};
CoSELayout.prototype.getOrgRatio = function (organization) {
var width = organization.width;
var height = organization.height;
var ratio = width / height;
if (ratio < 1) {
ratio = 1 / ratio;
}
return ratio;
};
CoSELayout.prototype.calcIdealRowWidth = function (members, favorHorizontalDim) {
var verticalPadding = CoSEConstants.TILING_PADDING_VERTICAL;
var horizontalPadding = CoSEConstants.TILING_PADDING_HORIZONTAL;
var membersSize = members.length;
var totalWidth = 0;
var totalHeight = 0;
var maxWidth = 0;
members.forEach(function (node) {
totalWidth += node.getWidth();
totalHeight += node.getHeight();
if (node.getWidth() > maxWidth) {
maxWidth = node.getWidth();
}
});
var averageWidth = totalWidth / membersSize;
var averageHeight = totalHeight / membersSize;
var delta = Math.pow(verticalPadding - horizontalPadding, 2) + 4 * (averageWidth + horizontalPadding) * (averageHeight + verticalPadding) * membersSize;
var horizontalCountDouble = (horizontalPadding - verticalPadding + Math.sqrt(delta)) / (2 * (averageWidth + horizontalPadding));
var horizontalCount;
if (favorHorizontalDim) {
horizontalCount = Math.ceil(horizontalCountDouble);
if (horizontalCount == horizontalCountDouble) {
horizontalCount++;
}
} else {
horizontalCount = Math.floor(horizontalCountDouble);
}
var idealWidth = horizontalCount * (averageWidth + horizontalPadding) - horizontalPadding;
if (maxWidth > idealWidth) {
idealWidth = maxWidth;
}
idealWidth += horizontalPadding * 2;
return idealWidth;
};
CoSELayout.prototype.tileNodesByFavoringDim = function (nodes, minWidth, favorHorizontalDim) {
var verticalPadding = CoSEConstants.TILING_PADDING_VERTICAL;
var horizontalPadding = CoSEConstants.TILING_PADDING_HORIZONTAL;
var tilingCompareBy = CoSEConstants.TILING_COMPARE_BY;
var organization = {
rows: [],
rowWidth: [],
rowHeight: [],
width: 0,
height: minWidth, verticalPadding: verticalPadding,
horizontalPadding: horizontalPadding,
centerX: 0,
centerY: 0
};
if (tilingCompareBy) {
organization.idealRowWidth = this.calcIdealRowWidth(nodes, favorHorizontalDim);
}
var getNodeArea = function getNodeArea(n) {
return n.rect.width * n.rect.height;
};
var areaCompareFcn = function areaCompareFcn(n1, n2) {
return getNodeArea(n2) - getNodeArea(n1);
};
nodes.sort(function (n1, n2) {
var cmpBy = areaCompareFcn;
if (organization.idealRowWidth) {
cmpBy = tilingCompareBy;
return cmpBy(n1.id, n2.id);
}
return cmpBy(n1, n2);
});
var sumCenterX = 0;
var sumCenterY = 0;
for (var i = 0; i < nodes.length; i++) {
var lNode = nodes[i];
sumCenterX += lNode.getCenterX();
sumCenterY += lNode.getCenterY();
}
organization.centerX = sumCenterX / nodes.length;
organization.centerY = sumCenterY / nodes.length;
for (var i = 0; i < nodes.length; i++) {
var lNode = nodes[i];
if (organization.rows.length == 0) {
this.insertNodeToRow(organization, lNode, 0, minWidth);
} else if (this.canAddHorizontal(organization, lNode.rect.width, lNode.rect.height)) {
var rowIndex = organization.rows.length - 1;
if (!organization.idealRowWidth) {
rowIndex = this.getShortestRowIndex(organization);
}
this.insertNodeToRow(organization, lNode, rowIndex, minWidth);
} else {
this.insertNodeToRow(organization, lNode, organization.rows.length, minWidth);
}
this.shiftToLastRow(organization);
}
return organization;
};
CoSELayout.prototype.insertNodeToRow = function (organization, node, rowIndex, minWidth) {
var minCompoundSize = minWidth;
if (rowIndex == organization.rows.length) {
var secondDimension = [];
organization.rows.push(secondDimension);
organization.rowWidth.push(minCompoundSize);
organization.rowHeight.push(0);
}
var w = organization.rowWidth[rowIndex] + node.rect.width;
if (organization.rows[rowIndex].length > 0) {
w += organization.horizontalPadding;
}
organization.rowWidth[rowIndex] = w;
if (organization.width < w) {
organization.width = w;
}
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;
organization.rows[rowIndex].push(node);
};
CoSELayout.prototype.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;
};
CoSELayout.prototype.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;
};
CoSELayout.prototype.canAddHorizontal = function (organization, extraWidth, extraHeight) {
if (organization.idealRowWidth) {
var lastRowIndex = organization.rows.length - 1;
var lastRowWidth = organization.rowWidth[lastRowIndex];
return lastRowWidth + extraWidth + organization.horizontalPadding <= organization.idealRowWidth;
}
var sri = this.getShortestRowIndex(organization);
if (sri < 0) {
return true;
}
var min = organization.rowWidth[sri];
if (min + organization.horizontalPadding + extraWidth <= organization.width) return true;
var hDiff = 0;
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;
}
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;
};
CoSELayout.prototype.shiftToLastRow = function (organization) {
var longest = this.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;
if (organization.width - organization.rowWidth[last] > diff && longest != last) {
row.splice(-1, 1);
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)];
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;
this.shiftToLastRow(organization);
}
};
CoSELayout.prototype.tilingPreLayout = function () {
if (CoSEConstants.TILE) {
this.groupZeroDegreeMembers();
this.clearCompounds();
this.clearZeroDegreeMembers();
}
};
CoSELayout.prototype.tilingPostLayout = function () {
if (CoSEConstants.TILE) {
this.repopulateZeroDegreeMembers();
this.repopulateCompounds();
}
};
CoSELayout.prototype.reduceTrees = function () {
var prunedNodesAll = [];
var containsLeaf = true;
var node;
while (containsLeaf) {
var allNodes = this.graphManager.getAllNodes();
var prunedNodesInStepTemp = [];
containsLeaf = false;
for (var i = 0; i < allNodes.length; i++) {
node = allNodes[i];
if (node.getEdges().length == 1 && !node.getEdges()[0].isInterGraph && node.getChild() == null) {
if (CoSEConstants.PURE_INCREMENTAL) {
var otherEnd = node.getEdges()[0].getOtherEnd(node);
var relativePosition = new DimensionD(node.getCenterX() - otherEnd.getCenterX(), node.getCenterY() - otherEnd.getCenterY());
prunedNodesInStepTemp.push([node, node.getEdges()[0], node.getOwner(), relativePosition]);
} else {
prunedNodesInStepTemp.push([node, node.getEdges()[0], node.getOwner()]);
}
containsLeaf = true;
}
}
if (containsLeaf == true) {
var prunedNodesInStep = [];
for (var j = 0; j < prunedNodesInStepTemp.length; j++) {
if (prunedNodesInStepTemp[j][0].getEdges().length == 1) {
prunedNodesInStep.push(prunedNodesInStepTemp[j]);
prunedNodesInStepTemp[j][0].getOwner().remove(prunedNodesInStepTemp[j][0]);
}
}
prunedNodesAll.push(prunedNodesInStep);
this.graphManager.resetAllNodes();
this.graphManager.resetAllEdges();
}
}
this.prunedNodesAll = prunedNodesAll;
};
CoSELayout.prototype.growTree = function (prunedNodesAll) {
var lengthOfPrunedNodesInStep = prunedNodesAll.length;
var prunedNodesInStep = prunedNodesAll[lengthOfPrunedNodesInStep - 1];
var nodeData;
for (var i = 0; i < prunedNodesInStep.length; i++) {
nodeData = prunedNodesInStep[i];
this.findPlaceforPrunedNode(nodeData);
nodeData[2].add(nodeData[0]);
nodeData[2].add(nodeData[1], nodeData[1].source, nodeData[1].target);
}
prunedNodesAll.splice(prunedNodesAll.length - 1, 1);
this.graphManager.resetAllNodes();
this.graphManager.resetAllEdges();
};
CoSELayout.prototype.findPlaceforPrunedNode = function (nodeData) {
var gridForPrunedNode;
var nodeToConnect;
var prunedNode = nodeData[0];
if (prunedNode == nodeData[1].source) {
nodeToConnect = nodeData[1].target;
} else {
nodeToConnect = nodeData[1].source;
}
if (CoSEConstants.PURE_INCREMENTAL) {
prunedNode.setCenter(nodeToConnect.getCenterX() + nodeData[3].getWidth(), nodeToConnect.getCenterY() + nodeData[3].getHeight());
} else {
var startGridX = nodeToConnect.startX;
var finishGridX = nodeToConnect.finishX;
var startGridY = nodeToConnect.startY;
var finishGridY = nodeToConnect.finishY;
var upNodeCount = 0;
var downNodeCount = 0;
var rightNodeCount = 0;
var leftNodeCount = 0;
var controlRegions = [upNodeCount, rightNodeCount, downNodeCount, leftNodeCount];
if (startGridY > 0) {
for (var i = startGridX; i <= finishGridX; i++) {
controlRegions[0] += this.grid[i][startGridY - 1].length + this.grid[i][startGridY].length - 1;
}
}
if (finishGridX < this.grid.length - 1) {
for (var i = startGridY; i <= finishGridY; i++) {
controlRegions[1] += this.grid[finishGridX + 1][i].length + this.grid[finishGridX][i].length - 1;
}
}
if (finishGridY < this.grid[0].length - 1) {
for (var i = startGridX; i <= finishGridX; i++) {
controlRegions[2] += this.grid[i][finishGridY + 1].length + this.grid[i][finishGridY].length - 1;
}
}
if (startGridX > 0) {
for (var i = startGridY; i <= finishGridY; i++) {
controlRegions[3] += this.grid[startGridX - 1][i].length + this.grid[startGridX][i].length - 1;
}
}
var min = Integer.MAX_VALUE;
var minCount;
var minIndex;
for (var j = 0; j < controlRegions.length; j++) {
if (controlRegions[j] < min) {
min = controlRegions[j];
minCount = 1;
minIndex = j;
} else if (controlRegions[j] == min) {
minCount++;
}
}
if (minCount == 3 && min == 0) {
if (controlRegions[0] == 0 && controlRegions[1] == 0 && controlRegions[2] == 0) {
gridForPrunedNode = 1;
} else if (controlRegions[0] == 0 && controlRegions[1] == 0 && controlRegions[3] == 0) {
gridForPrunedNode = 0;
} else if (controlRegions[0] == 0 && controlRegions[2] == 0 && controlRegions[3] == 0) {
gridForPrunedNode = 3;
} else if (controlRegions[1] == 0 && controlRegions[2] == 0 && controlRegions[3] == 0) {
gridForPrunedNode = 2;
}
} else if (minCount == 2 && min == 0) {
var random = Math.floor(Math.random() * 2);
if (controlRegions[0] == 0 && controlRegions[1] == 0) {
;
if (random == 0) {
gridForPrunedNode = 0;
} else {
gridForPrunedNode = 1;
}
} else if (controlRegions[0] == 0 && controlRegions[2] == 0) {
if (random == 0) {
gridForPrunedNode = 0;
} else {
gridForPrunedNode = 2;
}
} else if (controlRegions[0] == 0 && controlRegions[3] == 0) {
if (random == 0) {
gridForPrunedNode = 0;
} else {
gridForPrunedNode = 3;
}
} else if (controlRegions[1] == 0 && controlRegions[2] == 0) {
if (random == 0) {
gridForPrunedNode = 1;
} else {
gridForPrunedNode = 2;
}
} else if (controlRegions[1] == 0 && controlRegions[3] == 0) {
if (random == 0) {
gridForPrunedNode = 1;
} else {
gridForPrunedNode = 3;
}
} else {
if (random == 0) {
gridForPrunedNode = 2;
} else {
gridForPrunedNode = 3;
}
}
} else if (minCount == 4 && min == 0) {
var random = Math.floor(Math.random() * 4);
gridForPrunedNode = random;
} else {
gridForPrunedNode = minIndex;
}
if (gridForPrunedNode == 0) {
prunedNode.setCenter(nodeToConnect.getCenterX(), nodeToConnect.getCenterY() - nodeToConnect.getHeight() / 2 - FDLayoutConstants.DEFAULT_EDGE_LENGTH - prunedNode.getHeight() / 2);
} else if (gridForPrunedNode == 1) {
prunedNode.setCenter(nodeToConnect.getCenterX() + nodeToConnect.getWidth() / 2 + FDLayoutConstants.DEFAULT_EDGE_LENGTH + prunedNode.getWidth() / 2, nodeToConnect.getCenterY());
} else if (gridForPrunedNode == 2) {
prunedNode.setCenter(nodeToConnect.getCenterX(), nodeToConnect.getCenterY() + nodeToConnect.getHeight() / 2 + FDLayoutConstants.DEFAULT_EDGE_LENGTH + prunedNode.getHeight() / 2);
} else {
prunedNode.setCenter(nodeToConnect.getCenterX() - nodeToConnect.getWidth() / 2 - FDLayoutConstants.DEFAULT_EDGE_LENGTH - prunedNode.getWidth() / 2, nodeToConnect.getCenterY());
}
}
};
module.exports = CoSELayout;
}),
991:
((module, __unused_webpack_exports, __webpack_require__) => {
var FDLayoutNode = __webpack_require__(551).FDLayoutNode;
var IMath = __webpack_require__(551).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.calculateDisplacement = function () {
var layout = this.graphManager.getLayout();
if (this.getChild() != null && this.fixedNodeWeight) {
this.displacementX += layout.coolingFactor * (this.springForceX + this.repulsionForceX + this.gravitationForceX) / this.fixedNodeWeight;
this.displacementY += layout.coolingFactor * (this.springForceY + this.repulsionForceY + this.gravitationForceY) / this.fixedNodeWeight;
} else {
this.displacementX += layout.coolingFactor * (this.springForceX + this.repulsionForceX + this.gravitationForceX) / this.noOfChildren;
this.displacementY += layout.coolingFactor * (this.springForceY + this.repulsionForceY + this.gravitationForceY) / this.noOfChildren;
}
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);
}
if (this.child && this.child.getNodes().length > 0) {
this.propogateDisplacementToChildren(this.displacementX, this.displacementY);
}
};
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.displacementX += dX;
node.displacementY += dY;
} else {
node.propogateDisplacementToChildren(dX, dY);
}
}
};
CoSENode.prototype.move = function () {
var layout = this.graphManager.getLayout();
if (this.child == null || this.child.getNodes().length == 0) {
this.moveBy(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.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;
}),
902:
((module, __unused_webpack_exports, __webpack_require__) => {
function _toConsumableArray(arr) { if (Array.isArray(arr)) { for (var i = 0, arr2 = Array(arr.length); i < arr.length; i++) { arr2[i] = arr[i]; } return arr2; } else { return Array.from(arr); } }
var CoSEConstants = __webpack_require__(806);
var LinkedList = __webpack_require__(551).LinkedList;
var Matrix = __webpack_require__(551).Matrix;
var SVD = __webpack_require__(551).SVD;
function ConstraintHandler() {}
ConstraintHandler.handleConstraints = function (layout) {
var constraints = {};
constraints.fixedNodeConstraint = layout.constraints.fixedNodeConstraint;
constraints.alignmentConstraint = layout.constraints.alignmentConstraint;
constraints.relativePlacementConstraint = layout.constraints.relativePlacementConstraint;
var idToNodeMap = new Map();
var nodeIndexes = new Map();
var xCoords = [];
var yCoords = [];
var allNodes = layout.getAllNodes();
var index = 0;
for (var i = 0; i < allNodes.length; i++) {
var node = allNodes[i];
if (node.getChild() == null) {
nodeIndexes.set(node.id, index++);
xCoords.push(node.getCenterX());
yCoords.push(node.getCenterY());
idToNodeMap.set(node.id, node);
}
}
if (constraints.relativePlacementConstraint) {
constraints.relativePlacementConstraint.forEach(function (constraint) {
if (!constraint.gap && constraint.gap != 0) {
if (constraint.left) {
constraint.gap = CoSEConstants.DEFAULT_EDGE_LENGTH + idToNodeMap.get(constraint.left).getWidth() / 2 + idToNodeMap.get(constraint.right).getWidth() / 2;
} else {
constraint.gap = CoSEConstants.DEFAULT_EDGE_LENGTH + idToNodeMap.get(constraint.top).getHeight() / 2 + idToNodeMap.get(constraint.bottom).getHeight() / 2;
}
}
});
}
var calculatePositionDiff = function calculatePositionDiff(pos1, pos2) {
return { x: pos1.x - pos2.x, y: pos1.y - pos2.y };
};
var calculateAvgPosition = function calculateAvgPosition(nodeIdSet) {
var xPosSum = 0;
var yPosSum = 0;
nodeIdSet.forEach(function (nodeId) {
xPosSum += xCoords[nodeIndexes.get(nodeId)];
yPosSum += yCoords[nodeIndexes.get(nodeId)];
});
return { x: xPosSum / nodeIdSet.size, y: yPosSum / nodeIdSet.size };
};
var findAppropriatePositionForRelativePlacement = function findAppropriatePositionForRelativePlacement(graph, direction, fixedNodes, dummyPositions, componentSources) {
function setUnion(setA, setB) {
var union = new Set(setA);
var _iteratorNormalCompletion = true;
var _didIteratorError = false;
var _iteratorError = undefined;
try {
for (var _iterator = setB[Symbol.iterator](), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {
var elem = _step.value;
union.add(elem);
}
} catch (err) {
_didIteratorError = true;
_iteratorError = err;
} finally {
try {
if (!_iteratorNormalCompletion && _iterator.return) {
_iterator.return();
}
} finally {
if (_didIteratorError) {
throw _iteratorError;
}
}
}
return union;
}
var inDegrees = new Map();
graph.forEach(function (value, key) {
inDegrees.set(key, 0);
});
graph.forEach(function (value, key) {
value.forEach(function (adjacent) {
inDegrees.set(adjacent.id, inDegrees.get(adjacent.id) + 1);
});
});
var positionMap = new Map(); var pastMap = new Map(); var queue = new LinkedList();
inDegrees.forEach(function (value, key) {
if (value == 0) {
queue.push(key);
if (!fixedNodes) {
if (direction == "horizontal") {
positionMap.set(key, nodeIndexes.has(key) ? xCoords[nodeIndexes.get(key)] : dummyPositions.get(key));
} else {
positionMap.set(key, nodeIndexes.has(key) ? yCoords[nodeIndexes.get(key)] : dummyPositions.get(key));
}
}
} else {
positionMap.set(key, Number.NEGATIVE_INFINITY);
}
if (fixedNodes) {
pastMap.set(key, new Set([key]));
}
});
if (fixedNodes) {
componentSources.forEach(function (component) {
var fixedIds = [];
component.forEach(function (nodeId) {
if (fixedNodes.has(nodeId)) {
fixedIds.push(nodeId);
}
});
if (fixedIds.length > 0) {
var position = 0;
fixedIds.forEach(function (fixedId) {
if (direction == "horizontal") {
positionMap.set(fixedId, nodeIndexes.has(fixedId) ? xCoords[nodeIndexes.get(fixedId)] : dummyPositions.get(fixedId));
position += positionMap.get(fixedId);
} else {
positionMap.set(fixedId, nodeIndexes.has(fixedId) ? yCoords[nodeIndexes.get(fixedId)] : dummyPositions.get(fixedId));
position += positionMap.get(fixedId);
}
});
position = position / fixedIds.length;
component.forEach(function (nodeId) {
if (!fixedNodes.has(nodeId)) {
positionMap.set(nodeId, position);
}
});
} else {
var _position = 0;
component.forEach(function (nodeId) {
if (direction == "horizontal") {
_position += nodeIndexes.has(nodeId) ? xCoords[nodeIndexes.get(nodeId)] : dummyPositions.get(nodeId);
} else {
_position += nodeIndexes.has(nodeId) ? yCoords[nodeIndexes.get(nodeId)] : dummyPositions.get(nodeId);
}
});
_position = _position / component.length;
component.forEach(function (nodeId) {
positionMap.set(nodeId, _position);
});
}
});
}
var _loop = function _loop() {
var currentNode = queue.shift();
var neighbors = graph.get(currentNode);
neighbors.forEach(function (neighbor) {
if (positionMap.get(neighbor.id) < positionMap.get(currentNode) + neighbor.gap) {
if (fixedNodes && fixedNodes.has(neighbor.id)) {
var fixedPosition = void 0;
if (direction == "horizontal") {
fixedPosition = nodeIndexes.has(neighbor.id) ? xCoords[nodeIndexes.get(neighbor.id)] : dummyPositions.get(neighbor.id);
} else {
fixedPosition = nodeIndexes.has(neighbor.id) ? yCoords[nodeIndexes.get(neighbor.id)] : dummyPositions.get(neighbor.id);
}
positionMap.set(neighbor.id, fixedPosition); if (fixedPosition < positionMap.get(currentNode) + neighbor.gap) {
var diff = positionMap.get(currentNode) + neighbor.gap - fixedPosition;
pastMap.get(currentNode).forEach(function (nodeId) {
positionMap.set(nodeId, positionMap.get(nodeId) - diff);
});
}
} else {
positionMap.set(neighbor.id, positionMap.get(currentNode) + neighbor.gap);
}
}
inDegrees.set(neighbor.id, inDegrees.get(neighbor.id) - 1);
if (inDegrees.get(neighbor.id) == 0) {
queue.push(neighbor.id);
}
if (fixedNodes) {
pastMap.set(neighbor.id, setUnion(pastMap.get(currentNode), pastMap.get(neighbor.id)));
}
});
};
while (queue.length != 0) {
_loop();
}
if (fixedNodes) {
var sinkNodes = new Set();
graph.forEach(function (value, key) {
if (value.length == 0) {
sinkNodes.add(key);
}
});
var _components = [];
pastMap.forEach(function (value, key) {
if (sinkNodes.has(key)) {
var isFixedComponent = false;
var _iteratorNormalCompletion2 = true;
var _didIteratorError2 = false;
var _iteratorError2 = undefined;
try {
for (var _iterator2 = value[Symbol.iterator](), _step2; !(_iteratorNormalCompletion2 = (_step2 = _iterator2.next()).done); _iteratorNormalCompletion2 = true) {
var nodeId = _step2.value;
if (fixedNodes.has(nodeId)) {
isFixedComponent = true;
}
}
} catch (err) {
_didIteratorError2 = true;
_iteratorError2 = err;
} finally {
try {
if (!_iteratorNormalCompletion2 && _iterator2.return) {
_iterator2.return();
}
} finally {
if (_didIteratorError2) {
throw _iteratorError2;
}
}
}
if (!isFixedComponent) {
var isExist = false;
var existAt = void 0;
_components.forEach(function (component, index) {
if (component.has([].concat(_toConsumableArray(value))[0])) {
isExist = true;
existAt = index;
}
});
if (!isExist) {
_components.push(new Set(value));
} else {
value.forEach(function (ele) {
_components[existAt].add(ele);
});
}
}
}
});
_components.forEach(function (component, index) {
var minBefore = Number.POSITIVE_INFINITY;
var minAfter = Number.POSITIVE_INFINITY;
var maxBefore = Number.NEGATIVE_INFINITY;
var maxAfter = Number.NEGATIVE_INFINITY;
var _iteratorNormalCompletion3 = true;
var _didIteratorError3 = false;
var _iteratorError3 = undefined;
try {
for (var _iterator3 = component[Symbol.iterator](), _step3; !(_iteratorNormalCompletion3 = (_step3 = _iterator3.next()).done); _iteratorNormalCompletion3 = true) {
var nodeId = _step3.value;
var posBefore = void 0;
if (direction == "horizontal") {
posBefore = nodeIndexes.has(nodeId) ? xCoords[nodeIndexes.get(nodeId)] : dummyPositions.get(nodeId);
} else {
posBefore = nodeIndexes.has(nodeId) ? yCoords[nodeIndexes.get(nodeId)] : dummyPositions.get(nodeId);
}
var posAfter = positionMap.get(nodeId);
if (posBefore < minBefore) {
minBefore = posBefore;
}
if (posBefore > maxBefore) {
maxBefore = posBefore;
}
if (posAfter < minAfter) {
minAfter = posAfter;
}
if (posAfter > maxAfter) {
maxAfter = posAfter;
}
}
} catch (err) {
_didIteratorError3 = true;
_iteratorError3 = err;
} finally {
try {
if (!_iteratorNormalCompletion3 && _iterator3.return) {
_iterator3.return();
}
} finally {
if (_didIteratorError3) {
throw _iteratorError3;
}
}
}
var diff = (minBefore + maxBefore) / 2 - (minAfter + maxAfter) / 2;
var _iteratorNormalCompletion4 = true;
var _didIteratorError4 = false;
var _iteratorError4 = undefined;
try {
for (var _iterator4 = component[Symbol.iterator](), _step4; !(_iteratorNormalCompletion4 = (_step4 = _iterator4.next()).done); _iteratorNormalCompletion4 = true) {
var _nodeId = _step4.value;
positionMap.set(_nodeId, positionMap.get(_nodeId) + diff);
}
} catch (err) {
_didIteratorError4 = true;
_iteratorError4 = err;
} finally {
try {
if (!_iteratorNormalCompletion4 && _iterator4.return) {
_iterator4.return();
}
} finally {
if (_didIteratorError4) {
throw _iteratorError4;
}
}
}
});
}
return positionMap;
};
var applyReflectionForRelativePlacement = function applyReflectionForRelativePlacement(relativePlacementConstraints) {
var reflectOnY = 0,
notReflectOnY = 0;
var reflectOnX = 0,
notReflectOnX = 0;
relativePlacementConstraints.forEach(function (constraint) {
if (constraint.left) {
xCoords[nodeIndexes.get(constraint.left)] - xCoords[nodeIndexes.get(constraint.right)] >= 0 ? reflectOnY++ : notReflectOnY++;
} else {
yCoords[nodeIndexes.get(constraint.top)] - yCoords[nodeIndexes.get(constraint.bottom)] >= 0 ? reflectOnX++ : notReflectOnX++;
}
});
if (reflectOnY > notReflectOnY && reflectOnX > notReflectOnX) {
for (var _i = 0; _i < nodeIndexes.size; _i++) {
xCoords[_i] = -1 * xCoords[_i];
yCoords[_i] = -1 * yCoords[_i];
}
} else if (reflectOnY > notReflectOnY) {
for (var _i2 = 0; _i2 < nodeIndexes.size; _i2++) {
xCoords[_i2] = -1 * xCoords[_i2];
}
} else if (reflectOnX > notReflectOnX) {
for (var _i3 = 0; _i3 < nodeIndexes.size; _i3++) {
yCoords[_i3] = -1 * yCoords[_i3];
}
}
};
var findComponents = function findComponents(graph) {
var components = [];
var queue = new LinkedList();
var visited = new Set();
var count = 0;
graph.forEach(function (value, key) {
if (!visited.has(key)) {
components[count] = [];
var _currentNode = key;
queue.push(_currentNode);
visited.add(_currentNode);
components[count].push(_currentNode);
while (queue.length != 0) {
_currentNode = queue.shift();
var neighbors = graph.get(_currentNode);
neighbors.forEach(function (neighbor) {
if (!visited.has(neighbor.id)) {
queue.push(neighbor.id);
visited.add(neighbor.id);
components[count].push(neighbor.id);
}
});
}
count++;
}
});
return components;
};
var dagToUndirected = function dagToUndirected(dag) {
var undirected = new Map();
dag.forEach(function (value, key) {
undirected.set(key, []);
});
dag.forEach(function (value, key) {
value.forEach(function (adjacent) {
undirected.get(key).push(adjacent);
undirected.get(adjacent.id).push({ id: key, gap: adjacent.gap, direction: adjacent.direction });
});
});
return undirected;
};
var dagToReversed = function dagToReversed(dag) {
var reversed = new Map();
dag.forEach(function (value, key) {
reversed.set(key, []);
});
dag.forEach(function (value, key) {
value.forEach(function (adjacent) {
reversed.get(adjacent.id).push({ id: key, gap: adjacent.gap, direction: adjacent.direction });
});
});
return reversed;
};
var targetMatrix = []; var sourceMatrix = []; var standardTransformation = false; var reflectionType = false; var fixedNodes = new Set();
var dag = new Map(); var dagUndirected = new Map(); var components = [];
if (constraints.fixedNodeConstraint) {
constraints.fixedNodeConstraint.forEach(function (nodeData) {
fixedNodes.add(nodeData.nodeId);
});
}
if (constraints.relativePlacementConstraint) {
constraints.relativePlacementConstraint.forEach(function (constraint) {
if (constraint.left) {
if (dag.has(constraint.left)) {
dag.get(constraint.left).push({ id: constraint.right, gap: constraint.gap, direction: "horizontal" });
} else {
dag.set(constraint.left, [{ id: constraint.right, gap: constraint.gap, direction: "horizontal" }]);
}
if (!dag.has(constraint.right)) {
dag.set(constraint.right, []);
}
} else {
if (dag.has(constraint.top)) {
dag.get(constraint.top).push({ id: constraint.bottom, gap: constraint.gap, direction: "vertical" });
} else {
dag.set(constraint.top, [{ id: constraint.bottom, gap: constraint.gap, direction: "vertical" }]);
}
if (!dag.has(constraint.bottom)) {
dag.set(constraint.bottom, []);
}
}
});
dagUndirected = dagToUndirected(dag);
components = findComponents(dagUndirected);
}
if (CoSEConstants.TRANSFORM_ON_CONSTRAINT_HANDLING) {
if (constraints.fixedNodeConstraint && constraints.fixedNodeConstraint.length > 1) {
constraints.fixedNodeConstraint.forEach(function (nodeData, i) {
targetMatrix[i] = [nodeData.position.x, nodeData.position.y];
sourceMatrix[i] = [xCoords[nodeIndexes.get(nodeData.nodeId)], yCoords[nodeIndexes.get(nodeData.nodeId)]];
});
standardTransformation = true;
} else if (constraints.alignmentConstraint) {
(function () {
var count = 0;
if (constraints.alignmentConstraint.vertical) {
var verticalAlign = constraints.alignmentConstraint.vertical;
var _loop2 = function _loop2(_i4) {
var alignmentSet = new Set();
verticalAlign[_i4].forEach(function (nodeId) {
alignmentSet.add(nodeId);
});
var intersection = new Set([].concat(_toConsumableArray(alignmentSet)).filter(function (x) {
return fixedNodes.has(x);
}));
var xPos = void 0;
if (intersection.size > 0) xPos = xCoords[nodeIndexes.get(intersection.values().next().value)];else xPos = calculateAvgPosition(alignmentSet).x;
verticalAlign[_i4].forEach(function (nodeId) {
targetMatrix[count] = [xPos, yCoords[nodeIndexes.get(nodeId)]];
sourceMatrix[count] = [xCoords[nodeIndexes.get(nodeId)], yCoords[nodeIndexes.get(nodeId)]];
count++;
});
};
for (var _i4 = 0; _i4 < verticalAlign.length; _i4++) {
_loop2(_i4);
}
standardTransformation = true;
}
if (constraints.alignmentConstraint.horizontal) {
var horizontalAlign = constraints.alignmentConstraint.horizontal;
var _loop3 = function _loop3(_i5) {
var alignmentSet = new Set();
horizontalAlign[_i5].forEach(function (nodeId) {
alignmentSet.add(nodeId);
});
var intersection = new Set([].concat(_toConsumableArray(alignmentSet)).filter(function (x) {
return fixedNodes.has(x);
}));
var yPos = void 0;
if (intersection.size > 0) yPos = xCoords[nodeIndexes.get(intersection.values().next().value)];else yPos = calculateAvgPosition(alignmentSet).y;
horizontalAlign[_i5].forEach(function (nodeId) {
targetMatrix[count] = [xCoords[nodeIndexes.get(nodeId)], yPos];
sourceMatrix[count] = [xCoords[nodeIndexes.get(nodeId)], yCoords[nodeIndexes.get(nodeId)]];
count++;
});
};
for (var _i5 = 0; _i5 < horizontalAlign.length; _i5++) {
_loop3(_i5);
}
standardTransformation = true;
}
if (constraints.relativePlacementConstraint) {
reflectionType = true;
}
})();
} else if (constraints.relativePlacementConstraint) {
var largestComponentSize = 0;
var largestComponentIndex = 0;
for (var _i6 = 0; _i6 < components.length; _i6++) {
if (components[_i6].length > largestComponentSize) {
largestComponentSize = components[_i6].length;
largestComponentIndex = _i6;
}
}
if (largestComponentSize < dagUndirected.size / 2) {
applyReflectionForRelativePlacement(constraints.relativePlacementConstraint);
standardTransformation = false;
reflectionType = false;
} else {
var subGraphOnHorizontal = new Map();
var subGraphOnVertical = new Map();
var constraintsInlargestComponent = [];
components[largestComponentIndex].forEach(function (nodeId) {
dag.get(nodeId).forEach(function (adjacent) {
if (adjacent.direction == "horizontal") {
if (subGraphOnHorizontal.has(nodeId)) {
subGraphOnHorizontal.get(nodeId).push(adjacent);
} else {
subGraphOnHorizontal.set(nodeId, [adjacent]);
}
if (!subGraphOnHorizontal.has(adjacent.id)) {
subGraphOnHorizontal.set(adjacent.id, []);
}
constraintsInlargestComponent.push({ left: nodeId, right: adjacent.id });
} else {
if (subGraphOnVertical.has(nodeId)) {
subGraphOnVertical.get(nodeId).push(adjacent);
} else {
subGraphOnVertical.set(nodeId, [adjacent]);
}
if (!subGraphOnVertical.has(adjacent.id)) {
subGraphOnVertical.set(adjacent.id, []);
}
constraintsInlargestComponent.push({ top: nodeId, bottom: adjacent.id });
}
});
});
applyReflectionForRelativePlacement(constraintsInlargestComponent);
reflectionType = false;
var positionMapHorizontal = findAppropriatePositionForRelativePlacement(subGraphOnHorizontal, "horizontal");
var positionMapVertical = findAppropriatePositionForRelativePlacement(subGraphOnVertical, "vertical");
components[largestComponentIndex].forEach(function (nodeId, i) {
sourceMatrix[i] = [xCoords[nodeIndexes.get(nodeId)], yCoords[nodeIndexes.get(nodeId)]];
targetMatrix[i] = [];
if (positionMapHorizontal.has(nodeId)) {
targetMatrix[i][0] = positionMapHorizontal.get(nodeId);
} else {
targetMatrix[i][0] = xCoords[nodeIndexes.get(nodeId)];
}
if (positionMapVertical.has(nodeId)) {
targetMatrix[i][1] = positionMapVertical.get(nodeId);
} else {
targetMatrix[i][1] = yCoords[nodeIndexes.get(nodeId)];
}
});
standardTransformation = true;
}
}
if (standardTransformation) {
var transformationMatrix = void 0;
var targetMatrixTranspose = Matrix.transpose(targetMatrix); var sourceMatrixTranspose = Matrix.transpose(sourceMatrix);
for (var _i7 = 0; _i7 < targetMatrixTranspose.length; _i7++) {
targetMatrixTranspose[_i7] = Matrix.multGamma(targetMatrixTranspose[_i7]);
sourceMatrixTranspose[_i7] = Matrix.multGamma(sourceMatrixTranspose[_i7]);
}
var tempMatrix = Matrix.multMat(targetMatrixTranspose, Matrix.transpose(sourceMatrixTranspose)); var SVDResult = SVD.svd(tempMatrix); transformationMatrix = Matrix.multMat(SVDResult.V, Matrix.transpose(SVDResult.U));
for (var _i8 = 0; _i8 < nodeIndexes.size; _i8++) {
var temp1 = [xCoords[_i8], yCoords[_i8]];
var temp2 = [transformationMatrix[0][0], transformationMatrix[1][0]];
var temp3 = [transformationMatrix[0][1], transformationMatrix[1][1]];
xCoords[_i8] = Matrix.dotProduct(temp1, temp2);
yCoords[_i8] = Matrix.dotProduct(temp1, temp3);
}
if (reflectionType) {
applyReflectionForRelativePlacement(constraints.relativePlacementConstraint);
}
}
}
if (CoSEConstants.ENFORCE_CONSTRAINTS) {
if (constraints.fixedNodeConstraint && constraints.fixedNodeConstraint.length > 0) {
var translationAmount = { x: 0, y: 0 };
constraints.fixedNodeConstraint.forEach(function (nodeData, i) {
var posInTheory = { x: xCoords[nodeIndexes.get(nodeData.nodeId)], y: yCoords[nodeIndexes.get(nodeData.nodeId)] };
var posDesired = nodeData.position;
var posDiff = calculatePositionDiff(posDesired, posInTheory);
translationAmount.x += posDiff.x;
translationAmount.y += posDiff.y;
});
translationAmount.x /= constraints.fixedNodeConstraint.length;
translationAmount.y /= constraints.fixedNodeConstraint.length;
xCoords.forEach(function (value, i) {
xCoords[i] += translationAmount.x;
});
yCoords.forEach(function (value, i) {
yCoords[i] += translationAmount.y;
});
constraints.fixedNodeConstraint.forEach(function (nodeData) {
xCoords[nodeIndexes.get(nodeData.nodeId)] = nodeData.position.x;
yCoords[nodeIndexes.get(nodeData.nodeId)] = nodeData.position.y;
});
}
if (constraints.alignmentConstraint) {
if (constraints.alignmentConstraint.vertical) {
var xAlign = constraints.alignmentConstraint.vertical;
var _loop4 = function _loop4(_i9) {
var alignmentSet = new Set();
xAlign[_i9].forEach(function (nodeId) {
alignmentSet.add(nodeId);
});
var intersection = new Set([].concat(_toConsumableArray(alignmentSet)).filter(function (x) {
return fixedNodes.has(x);
}));
var xPos = void 0;
if (intersection.size > 0) xPos = xCoords[nodeIndexes.get(intersection.values().next().value)];else xPos = calculateAvgPosition(alignmentSet).x;
alignmentSet.forEach(function (nodeId) {
if (!fixedNodes.has(nodeId)) xCoords[nodeIndexes.get(nodeId)] = xPos;
});
};
for (var _i9 = 0; _i9 < xAlign.length; _i9++) {
_loop4(_i9);
}
}
if (constraints.alignmentConstraint.horizontal) {
var yAlign = constraints.alignmentConstraint.horizontal;
var _loop5 = function _loop5(_i10) {
var alignmentSet = new Set();
yAlign[_i10].forEach(function (nodeId) {
alignmentSet.add(nodeId);
});
var intersection = new Set([].concat(_toConsumableArray(alignmentSet)).filter(function (x) {
return fixedNodes.has(x);
}));
var yPos = void 0;
if (intersection.size > 0) yPos = yCoords[nodeIndexes.get(intersection.values().next().value)];else yPos = calculateAvgPosition(alignmentSet).y;
alignmentSet.forEach(function (nodeId) {
if (!fixedNodes.has(nodeId)) yCoords[nodeIndexes.get(nodeId)] = yPos;
});
};
for (var _i10 = 0; _i10 < yAlign.length; _i10++) {
_loop5(_i10);
}
}
}
if (constraints.relativePlacementConstraint) {
(function () {
var nodeToDummyForVerticalAlignment = new Map();
var nodeToDummyForHorizontalAlignment = new Map();
var dummyToNodeForVerticalAlignment = new Map();
var dummyToNodeForHorizontalAlignment = new Map();
var dummyPositionsForVerticalAlignment = new Map();
var dummyPositionsForHorizontalAlignment = new Map();
var fixedNodesOnHorizontal = new Set();
var fixedNodesOnVertical = new Set();
fixedNodes.forEach(function (nodeId) {
fixedNodesOnHorizontal.add(nodeId);
fixedNodesOnVertical.add(nodeId);
});
if (constraints.alignmentConstraint) {
if (constraints.alignmentConstraint.vertical) {
var verticalAlignment = constraints.alignmentConstraint.vertical;
var _loop6 = function _loop6(_i11) {
dummyToNodeForVerticalAlignment.set("dummy" + _i11, []);
verticalAlignment[_i11].forEach(function (nodeId) {
nodeToDummyForVerticalAlignment.set(nodeId, "dummy" + _i11);
dummyToNodeForVerticalAlignment.get("dummy" + _i11).push(nodeId);
if (fixedNodes.has(nodeId)) {
fixedNodesOnHorizontal.add("dummy" + _i11);
}
});
dummyPositionsForVerticalAlignment.set("dummy" + _i11, xCoords[nodeIndexes.get(verticalAlignment[_i11][0])]);
};
for (var _i11 = 0; _i11 < verticalAlignment.length; _i11++) {
_loop6(_i11);
}
}
if (constraints.alignmentConstraint.horizontal) {
var horizontalAlignment = constraints.alignmentConstraint.horizontal;
var _loop7 = function _loop7(_i12) {
dummyToNodeForHorizontalAlignment.set("dummy" + _i12, []);
horizontalAlignment[_i12].forEach(function (nodeId) {
nodeToDummyForHorizontalAlignment.set(nodeId, "dummy" + _i12);
dummyToNodeForHorizontalAlignment.get("dummy" + _i12).push(nodeId);
if (fixedNodes.has(nodeId)) {
fixedNodesOnVertical.add("dummy" + _i12);
}
});
dummyPositionsForHorizontalAlignment.set("dummy" + _i12, yCoords[nodeIndexes.get(horizontalAlignment[_i12][0])]);
};
for (var _i12 = 0; _i12 < horizontalAlignment.length; _i12++) {
_loop7(_i12);
}
}
}
var dagOnHorizontal = new Map();
var dagOnVertical = new Map();
var _loop8 = function _loop8(nodeId) {
dag.get(nodeId).forEach(function (adjacent) {
var sourceId = void 0;
var targetNode = void 0;
if (adjacent["direction"] == "horizontal") {
sourceId = nodeToDummyForVerticalAlignment.get(nodeId) ? nodeToDummyForVerticalAlignment.get(nodeId) : nodeId;
if (nodeToDummyForVerticalAlignment.get(adjacent.id)) {
targetNode = { id: nodeToDummyForVerticalAlignment.get(adjacent.id), gap: adjacent.gap, direction: adjacent.direction };
} else {
targetNode = adjacent;
}
if (dagOnHorizontal.has(sourceId)) {
dagOnHorizontal.get(sourceId).push(targetNode);
} else {
dagOnHorizontal.set(sourceId, [targetNode]);
}
if (!dagOnHorizontal.has(targetNode.id)) {
dagOnHorizontal.set(targetNode.id, []);
}
} else {
sourceId = nodeToDummyForHorizontalAlignment.get(nodeId) ? nodeToDummyForHorizontalAlignment.get(nodeId) : nodeId;
if (nodeToDummyForHorizontalAlignment.get(adjacent.id)) {
targetNode = { id: nodeToDummyForHorizontalAlignment.get(adjacent.id), gap: adjacent.gap, direction: adjacent.direction };
} else {
targetNode = adjacent;
}
if (dagOnVertical.has(sourceId)) {
dagOnVertical.get(sourceId).push(targetNode);
} else {
dagOnVertical.set(sourceId, [targetNode]);
}
if (!dagOnVertical.has(targetNode.id)) {
dagOnVertical.set(targetNode.id, []);
}
}
});
};
var _iteratorNormalCompletion5 = true;
var _didIteratorError5 = false;
var _iteratorError5 = undefined;
try {
for (var _iterator5 = dag.keys()[Symbol.iterator](), _step5; !(_iteratorNormalCompletion5 = (_step5 = _iterator5.next()).done); _iteratorNormalCompletion5 = true) {
var nodeId = _step5.value;
_loop8(nodeId);
}
} catch (err) {
_didIteratorError5 = true;
_iteratorError5 = err;
} finally {
try {
if (!_iteratorNormalCompletion5 && _iterator5.return) {
_iterator5.return();
}
} finally {
if (_didIteratorError5) {
throw _iteratorError5;
}
}
}
var undirectedOnHorizontal = dagToUndirected(dagOnHorizontal);
var undirectedOnVertical = dagToUndirected(dagOnVertical);
var componentsOnHorizontal = findComponents(undirectedOnHorizontal);
var componentsOnVertical = findComponents(undirectedOnVertical);
var reversedDagOnHorizontal = dagToReversed(dagOnHorizontal);
var reversedDagOnVertical = dagToReversed(dagOnVertical);
var componentSourcesOnHorizontal = [];
var componentSourcesOnVertical = [];
componentsOnHorizontal.forEach(function (component, index) {
componentSourcesOnHorizontal[index] = [];
component.forEach(function (nodeId) {
if (reversedDagOnHorizontal.get(nodeId).length == 0) {
componentSourcesOnHorizontal[index].push(nodeId);
}
});
});
componentsOnVertical.forEach(function (component, index) {
componentSourcesOnVertical[index] = [];
component.forEach(function (nodeId) {
if (reversedDagOnVertical.get(nodeId).length == 0) {
componentSourcesOnVertical[index].push(nodeId);
}
});
});
var positionMapHorizontal = findAppropriatePositionForRelativePlacement(dagOnHorizontal, "horizontal", fixedNodesOnHorizontal, dummyPositionsForVerticalAlignment, componentSourcesOnHorizontal);
var positionMapVertical = findAppropriatePositionForRelativePlacement(dagOnVertical, "vertical", fixedNodesOnVertical, dummyPositionsForHorizontalAlignment, componentSourcesOnVertical);
var _loop9 = function _loop9(key) {
if (dummyToNodeForVerticalAlignment.get(key)) {
dummyToNodeForVerticalAlignment.get(key).forEach(function (nodeId) {
xCoords[nodeIndexes.get(nodeId)] = positionMapHorizontal.get(key);
});
} else {
xCoords[nodeIndexes.get(key)] = positionMapHorizontal.get(key);
}
};
var _iteratorNormalCompletion6 = true;
var _didIteratorError6 = false;
var _iteratorError6 = undefined;
try {
for (var _iterator6 = positionMapHorizontal.keys()[Symbol.iterator](), _step6; !(_iteratorNormalCompletion6 = (_step6 = _iterator6.next()).done); _iteratorNormalCompletion6 = true) {
var key = _step6.value;
_loop9(key);
}
} catch (err) {
_didIteratorError6 = true;
_iteratorError6 = err;
} finally {
try {
if (!_iteratorNormalCompletion6 && _iterator6.return) {
_iterator6.return();
}
} finally {
if (_didIteratorError6) {
throw _iteratorError6;
}
}
}
var _loop10 = function _loop10(key) {
if (dummyToNodeForHorizontalAlignment.get(key)) {
dummyToNodeForHorizontalAlignment.get(key).forEach(function (nodeId) {
yCoords[nodeIndexes.get(nodeId)] = positionMapVertical.get(key);
});
} else {
yCoords[nodeIndexes.get(key)] = positionMapVertical.get(key);
}
};
var _iteratorNormalCompletion7 = true;
var _didIteratorError7 = false;
var _iteratorError7 = undefined;
try {
for (var _iterator7 = positionMapVertical.keys()[Symbol.iterator](), _step7; !(_iteratorNormalCompletion7 = (_step7 = _iterator7.next()).done); _iteratorNormalCompletion7 = true) {
var key = _step7.value;
_loop10(key);
}
} catch (err) {
_didIteratorError7 = true;
_iteratorError7 = err;
} finally {
try {
if (!_iteratorNormalCompletion7 && _iterator7.return) {
_iterator7.return();
}
} finally {
if (_didIteratorError7) {
throw _iteratorError7;
}
}
}
})();
}
}
for (var _i13 = 0; _i13 < allNodes.length; _i13++) {
var _node = allNodes[_i13];
if (_node.getChild() == null) {
_node.setCenter(xCoords[nodeIndexes.get(_node.id)], yCoords[nodeIndexes.get(_node.id)]);
}
}
};
module.exports = ConstraintHandler;
}),
551:
((module) => {
module.exports = __WEBPACK_EXTERNAL_MODULE__551__;
})
});
var __webpack_module_cache__ = {};
function __webpack_require__(moduleId) {
var cachedModule = __webpack_module_cache__[moduleId];
if (cachedModule !== undefined) {
return cachedModule.exports;
}
var module = __webpack_module_cache__[moduleId] = {
exports: {}
};
__webpack_modules__[moduleId](module, module.exports, __webpack_require__);
return module.exports;
}
var __webpack_exports__ = __webpack_require__(45);
return __webpack_exports__;
})()
;
});