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@nitin-rachabathuni
Forked from jdarling/data.json
Created March 7, 2021 04:18
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D3 MindMap
* Displays a mindmap type layout.
* Loads basic information from FreeMind Mind Map format (*.mm).
* Shows moving nodes from one side to another, adding nodes, and switching out data.
* The basics are all in place, needs cleanup and a way to edit node text.
  * Need a way to select a node to edit, maybe change click from toggle to select?
  * Need a way to update the node text, once selected start typing and you get an edit to change the text?
* You can expand and collapse the nodes by clcking on them.
{
"name": "Root",
"children": [
{
"name": "Branch 1",
"children": [
{"name": "Leaf 3"},
{"name": "Leaf 4"}
]
},
{"name": "Branch 2"}
]
}
{
"name": "flare",
"children": [
{
"name": "analytics",
"children": [
{
"name": "cluster",
"children": [
{"name": "AgglomerativeCluster", "size": 3938},
{"name": "CommunityStructure", "size": 3812},
{"name": "HierarchicalCluster", "size": 6714},
{"name": "MergeEdge", "size": 743}
]
},
{
"name": "graph",
"children": [
{"name": "BetweennessCentrality", "size": 3534},
{"name": "LinkDistance", "size": 5731},
{"name": "MaxFlowMinCut", "size": 7840},
{"name": "ShortestPaths", "size": 5914},
{"name": "SpanningTree", "size": 3416}
]
},
{
"name": "optimization",
"children": [
{"name": "AspectRatioBanker", "size": 7074}
]
}
]
},
{
"name": "animate",
"children": [
{"name": "Easing", "size": 17010},
{"name": "FunctionSequence", "size": 5842},
{
"name": "interpolate",
"children": [
{"name": "ArrayInterpolator", "size": 1983},
{"name": "ColorInterpolator", "size": 2047},
{"name": "DateInterpolator", "size": 1375},
{"name": "Interpolator", "size": 8746},
{"name": "MatrixInterpolator", "size": 2202},
{"name": "NumberInterpolator", "size": 1382},
{"name": "ObjectInterpolator", "size": 1629},
{"name": "PointInterpolator", "size": 1675},
{"name": "RectangleInterpolator", "size": 2042}
]
},
{"name": "ISchedulable", "size": 1041},
{"name": "Parallel", "size": 5176},
{"name": "Pause", "size": 449},
{"name": "Scheduler", "size": 5593},
{"name": "Sequence", "size": 5534},
{"name": "Transition", "size": 9201},
{"name": "Transitioner", "size": 19975},
{"name": "TransitionEvent", "size": 1116},
{"name": "Tween", "size": 6006}
]
},
{
"name": "data",
"children": [
{
"name": "converters",
"children": [
{"name": "Converters", "size": 721},
{"name": "DelimitedTextConverter", "size": 4294},
{"name": "GraphMLConverter", "size": 9800},
{"name": "IDataConverter", "size": 1314},
{"name": "JSONConverter", "size": 2220}
]
},
{"name": "DataField", "size": 1759},
{"name": "DataSchema", "size": 2165},
{"name": "DataSet", "size": 586},
{"name": "DataSource", "size": 3331},
{"name": "DataTable", "size": 772},
{"name": "DataUtil", "size": 3322}
]
},
{
"name": "display",
"children": [
{"name": "DirtySprite", "size": 8833},
{"name": "LineSprite", "size": 1732},
{"name": "RectSprite", "size": 3623},
{"name": "TextSprite", "size": 10066}
]
},
{
"name": "flex",
"children": [
{"name": "FlareVis", "size": 4116}
]
},
{
"name": "physics",
"children": [
{"name": "DragForce", "size": 1082},
{"name": "GravityForce", "size": 1336},
{"name": "IForce", "size": 319},
{"name": "NBodyForce", "size": 10498},
{"name": "Particle", "size": 2822},
{"name": "Simulation", "size": 9983},
{"name": "Spring", "size": 2213},
{"name": "SpringForce", "size": 1681}
]
},
{
"name": "query",
"children": [
{"name": "AggregateExpression", "size": 1616},
{"name": "And", "size": 1027},
{"name": "Arithmetic", "size": 3891},
{"name": "Average", "size": 891},
{"name": "BinaryExpression", "size": 2893},
{"name": "Comparison", "size": 5103},
{"name": "CompositeExpression", "size": 3677},
{"name": "Count", "size": 781},
{"name": "DateUtil", "size": 4141},
{"name": "Distinct", "size": 933},
{"name": "Expression", "size": 5130},
{"name": "ExpressionIterator", "size": 3617},
{"name": "Fn", "size": 3240},
{"name": "If", "size": 2732},
{"name": "IsA", "size": 2039},
{"name": "Literal", "size": 1214},
{"name": "Match", "size": 3748},
{"name": "Maximum", "size": 843},
{
"name": "methods",
"children": [
{"name": "add", "size": 593},
{"name": "and", "size": 330},
{"name": "average", "size": 287},
{"name": "count", "size": 277},
{"name": "distinct", "size": 292},
{"name": "div", "size": 595},
{"name": "eq", "size": 594},
{"name": "fn", "size": 460},
{"name": "gt", "size": 603},
{"name": "gte", "size": 625},
{"name": "iff", "size": 748},
{"name": "isa", "size": 461},
{"name": "lt", "size": 597},
{"name": "lte", "size": 619},
{"name": "max", "size": 283},
{"name": "min", "size": 283},
{"name": "mod", "size": 591},
{"name": "mul", "size": 603},
{"name": "neq", "size": 599},
{"name": "not", "size": 386},
{"name": "or", "size": 323},
{"name": "orderby", "size": 307},
{"name": "range", "size": 772},
{"name": "select", "size": 296},
{"name": "stddev", "size": 363},
{"name": "sub", "size": 600},
{"name": "sum", "size": 280},
{"name": "update", "size": 307},
{"name": "variance", "size": 335},
{"name": "where", "size": 299},
{"name": "xor", "size": 354},
{"name": "_", "size": 264}
]
},
{"name": "Minimum", "size": 843},
{"name": "Not", "size": 1554},
{"name": "Or", "size": 970},
{"name": "Query", "size": 13896},
{"name": "Range", "size": 1594},
{"name": "StringUtil", "size": 4130},
{"name": "Sum", "size": 791},
{"name": "Variable", "size": 1124},
{"name": "Variance", "size": 1876},
{"name": "Xor", "size": 1101}
]
},
{
"name": "scale",
"children": [
{"name": "IScaleMap", "size": 2105},
{"name": "LinearScale", "size": 1316},
{"name": "LogScale", "size": 3151},
{"name": "OrdinalScale", "size": 3770},
{"name": "QuantileScale", "size": 2435},
{"name": "QuantitativeScale", "size": 4839},
{"name": "RootScale", "size": 1756},
{"name": "Scale", "size": 4268},
{"name": "ScaleType", "size": 1821},
{"name": "TimeScale", "size": 5833}
]
},
{
"name": "util",
"children": [
{"name": "Arrays", "size": 8258},
{"name": "Colors", "size": 10001},
{"name": "Dates", "size": 8217},
{"name": "Displays", "size": 12555},
{"name": "Filter", "size": 2324},
{"name": "Geometry", "size": 10993},
{
"name": "heap",
"children": [
{"name": "FibonacciHeap", "size": 9354},
{"name": "HeapNode", "size": 1233}
]
},
{"name": "IEvaluable", "size": 335},
{"name": "IPredicate", "size": 383},
{"name": "IValueProxy", "size": 874},
{
"name": "math",
"children": [
{"name": "DenseMatrix", "size": 3165},
{"name": "IMatrix", "size": 2815},
{"name": "SparseMatrix", "size": 3366}
]
},
{"name": "Maths", "size": 17705},
{"name": "Orientation", "size": 1486},
{
"name": "palette",
"children": [
{"name": "ColorPalette", "size": 6367},
{"name": "Palette", "size": 1229},
{"name": "ShapePalette", "size": 2059},
{"name": "SizePalette", "size": 2291}
]
},
{"name": "Property", "size": 5559},
{"name": "Shapes", "size": 19118},
{"name": "Sort", "size": 6887},
{"name": "Stats", "size": 6557},
{"name": "Strings", "size": 22026}
]
},
{
"name": "vis",
"children": [
{
"name": "axis",
"children": [
{"name": "Axes", "size": 1302},
{"name": "Axis", "size": 24593},
{"name": "AxisGridLine", "size": 652},
{"name": "AxisLabel", "size": 636},
{"name": "CartesianAxes", "size": 6703}
]
},
{
"name": "controls",
"children": [
{"name": "AnchorControl", "size": 2138},
{"name": "ClickControl", "size": 3824},
{"name": "Control", "size": 1353},
{"name": "ControlList", "size": 4665},
{"name": "DragControl", "size": 2649},
{"name": "ExpandControl", "size": 2832},
{"name": "HoverControl", "size": 4896},
{"name": "IControl", "size": 763},
{"name": "PanZoomControl", "size": 5222},
{"name": "SelectionControl", "size": 7862},
{"name": "TooltipControl", "size": 8435}
]
},
{
"name": "data",
"children": [
{"name": "Data", "size": 20544},
{"name": "DataList", "size": 19788},
{"name": "DataSprite", "size": 10349},
{"name": "EdgeSprite", "size": 3301},
{"name": "NodeSprite", "size": 19382},
{
"name": "render",
"children": [
{"name": "ArrowType", "size": 698},
{"name": "EdgeRenderer", "size": 5569},
{"name": "IRenderer", "size": 353},
{"name": "ShapeRenderer", "size": 2247}
]
},
{"name": "ScaleBinding", "size": 11275},
{"name": "Tree", "size": 7147},
{"name": "TreeBuilder", "size": 9930}
]
},
{
"name": "events",
"children": [
{"name": "DataEvent", "size": 2313},
{"name": "SelectionEvent", "size": 1880},
{"name": "TooltipEvent", "size": 1701},
{"name": "VisualizationEvent", "size": 1117}
]
},
{
"name": "legend",
"children": [
{"name": "Legend", "size": 20859},
{"name": "LegendItem", "size": 4614},
{"name": "LegendRange", "size": 10530}
]
},
{
"name": "operator",
"children": [
{
"name": "distortion",
"children": [
{"name": "BifocalDistortion", "size": 4461},
{"name": "Distortion", "size": 6314},
{"name": "FisheyeDistortion", "size": 3444}
]
},
{
"name": "encoder",
"children": [
{"name": "ColorEncoder", "size": 3179},
{"name": "Encoder", "size": 4060},
{"name": "PropertyEncoder", "size": 4138},
{"name": "ShapeEncoder", "size": 1690},
{"name": "SizeEncoder", "size": 1830}
]
},
{
"name": "filter",
"children": [
{"name": "FisheyeTreeFilter", "size": 5219},
{"name": "GraphDistanceFilter", "size": 3165},
{"name": "VisibilityFilter", "size": 3509}
]
},
{"name": "IOperator", "size": 1286},
{
"name": "label",
"children": [
{"name": "Labeler", "size": 9956},
{"name": "RadialLabeler", "size": 3899},
{"name": "StackedAreaLabeler", "size": 3202}
]
},
{
"name": "layout",
"children": [
{"name": "AxisLayout", "size": 6725},
{"name": "BundledEdgeRouter", "size": 3727},
{"name": "CircleLayout", "size": 9317},
{"name": "CirclePackingLayout", "size": 12003},
{"name": "DendrogramLayout", "size": 4853},
{"name": "ForceDirectedLayout", "size": 8411},
{"name": "IcicleTreeLayout", "size": 4864},
{"name": "IndentedTreeLayout", "size": 3174},
{"name": "Layout", "size": 7881},
{"name": "NodeLinkTreeLayout", "size": 12870},
{"name": "PieLayout", "size": 2728},
{"name": "RadialTreeLayout", "size": 12348},
{"name": "RandomLayout", "size": 870},
{"name": "StackedAreaLayout", "size": 9121},
{"name": "TreeMapLayout", "size": 9191}
]
},
{"name": "Operator", "size": 2490},
{"name": "OperatorList", "size": 5248},
{"name": "OperatorSequence", "size": 4190},
{"name": "OperatorSwitch", "size": 2581},
{"name": "SortOperator", "size": 2023}
]
},
{"name": "Visualization", "size": 16540}
]
}
]
}
<!DOCTYPE html>
<html>
<head>
<meta http-equiv="Content-Type" content="text/html;charset=utf-8"/>
<link type="text/css" rel="stylesheet" href="style.css"/>
<script type="text/javascript" src="http://d3js.org/d3.v3.min.js"></script>
<script type="text/javascript" src="mousetrap.js"></script>
<style type="text/css">
.node circle {
cursor: pointer;
fill: #fff;
stroke: steelblue;
stroke-width: 1.5px;
}
.node text {
font-size: 11px;
}
path.link {
fill: none;
stroke: #ccc;
stroke-width: 1.5px;
}
.node.selected circle {
fill: green;
}
</style>
</head>
<body>
<div id="body">
<div id="toolbar">
<button onclick="createNew(); return false;">New</button>
<button onclick="loadFreeMind('test.mm'); return false;">FreeMind (test.mm)</button>
<button onclick="loadJSON('flare.json'); return false;">Flare (flare.json)</button>
<button onclick="loadJSON('data.json'); return false;">JSON (test.json)</button>
<button onclick="addNodes('right'); return false;">Add nodes right</button>
<button onclick="addNodes('left'); return false;">Add nodes left</button>
<button onclick="moveNodes('right', 'left'); return false;">Move right to left</button>
<button onclick="moveNodes('left', 'right'); return false;">Move left to right</button>
<button onclick="setConnector('diagonal'); return false;">Diagonal connector</button>
<button onclick="setConnector('elbow'); return false;">Elbow connector</button>
</div>
<div id="footer">[Enter] Change name, [Left] Move select left, [Right] Move selection right, [Up] Move selection up, [Down] Move selection down, [Ins] Add new node, [Del] Delete selected node</div>
</div>
<script type="text/javascript">
/*
// Add a new item
root.right.push({name: 'bar'}, {name: 'none'}, {name: 'some'}, {name: 'value'});
update(root);
// Move from the first to the last
root.right.push(root.right.shift());
update(root);
// Move from right to left
var tmp = root.right.shift();
tmp.position = 'left';
root.left.push(tmp);
update(root);
// Move from left to right
var tmp = root.left.shift();
tmp.position = 'right';
root.right.push(tmp);
update(root);
// Switch connector type
connector = diagonal;
update(root);
*/
var m = [20, 120, 20, 120],
//w = 1280 - m[1] - m[3],
w = 900 - m[1] - m[3],
h = 500 - m[0] - m[2],
i = 0,
root;
var getDirection = function(data){
if(!data){
return 'root';
}
if(data.position){
return data.position;
}
return getDirection(data.parent);
};
var selectNode = function(target){
if(target){
var sel = d3.selectAll('#body svg .node').filter(function(d){return d.id==target.id})[0][0];
if(sel){
select(sel);
}
}
};
Mousetrap.bind('left', function(){
// left key pressed
var selection = d3.select(".node.selected")[0][0];
if(selection){
var data = selection.__data__;
var dir = getDirection(data);
switch(dir){
case('right'):
case('root'):
selectNode(data.parent || data.left[0]);
break;
case('left'):
selectNode((data.children||[])[0]);
break;
default:
break;
}
}
});
Mousetrap.bind('right', function(){
// right key pressed
var selection = d3.select(".node.selected")[0][0];
if(selection){
var data = selection.__data__;
var dir = getDirection(data);
switch(dir){
case('left'):
case('root'):
selectNode(data.parent || data.right[0]);
break;
case('right'):
selectNode((data.children||[])[0]);
break;
default:
break;
}
}
});
Mousetrap.bind('up', function(){
// up key pressed
var selection = d3.select(".node.selected")[0][0];
if(selection){
var data = selection.__data__;
var dir = getDirection(data);
switch(dir){
case('root'):
break;
case('left'):
case('right'):
var p = data.parent, nl = p.children || [], i=1;
if(p[dir]){
nl = p[dir];
}
l = nl.length;
for(; i<l; i++){
if(nl[i].id === data.id){
selectNode(nl[i-1]);
break;
}
}
break;
}
}
return false;
});
Mousetrap.bind('down', function(){
// down key pressed
// up key pressed
var selection = d3.select(".node.selected")[0][0];
if(selection){
var data = selection.__data__;
var dir = getDirection(data);
switch(dir){
case('root'):
break;
case('left'):
case('right'):
var p = data.parent, nl = p.children || [], i=0;
if(p[dir]){
nl = p[dir];
}
l = nl.length;
for(; i<l-1; i++){
if(nl[i].id === data.id){
selectNode(nl[i+1]);
break;
}
}
break;
}
}
return false;
});
Mousetrap.bind('ins', function(){
var selection = d3.select(".node.selected")[0][0];
if(selection){
var data = selection.__data__;
var dir = getDirection(data);
var name = prompt('New name');
if(name){
if(dir==='root'){
dir = data.right.length>data.left.length?'left':'right';
}
var cl = data[dir] || data.children || data._children;
if(!cl){
cl = data.children = [];
}
cl.push({name: name, position: dir});
update(root);
}
}
});
Mousetrap.bind('del', function(){
var selection = d3.select(".node.selected")[0][0];
if(selection){
var data = selection.__data__;
var dir = getDirection(data);
if(dir==='root'){
alert('Can\'t delete root');
return;
}
var cl = data.parent[dir] || data.parent.children;
if(!cl){
alert('Could not locate children');
return;
}
var i = 0, l = cl.length;
for(; i<l; i++){
if(cl[i].id === data.id){
if(confirm('Sure you want to delete '+data.name+'?') === true){
cl.splice(i, 1);
}
break;
}
}
selectNode(root);
update(root);
}
});
Mousetrap.bind('enter', function(){
var selection = d3.select(".node.selected")[0][0];
if(selection){
var data = selection.__data__;
data.name = prompt('New text:', data.name) || data.name;
update(root);
}
});
var addNodes = function(dir){
root[dir].push({name: 'bar', position: dir}, {name: 'none', position: dir}, {name: 'some', position: dir}, {name: 'value', position: dir});
update(root);
};
var moveNodes = function(from, to){
var tmp = root[from].shift();
tmp.position = to;
root[to].push(tmp);
update(root);
};
var setConnector = function(type){
connector = window[type];
update(root);
};
var select = function(node){
// Find previously selected, unselect
d3.select(".selected").classed("selected", false);
// Select current item
d3.select(node).classed("selected", true);
};
var createNew = function(){
root = {name: 'Root', children: [], left: [], right: []};
update(root, true);
selectNode(root);
};
var handleClick = function(d, index){
select(this);
update(d);
};
var tree = d3.layout.tree()
.size([h, w]);
var calcLeft = function(d){
var l = d.y;
if(d.position==='left'){
l = (d.y)-w/2;
l = (w/2) + l;
}
return {x : d.x, y : l};
};
var diagonal = d3.svg.diagonal()
.projection(function(d) { return [d.y, d.x]; });
var elbow = function (d, i){
var source = calcLeft(d.source);
var target = calcLeft(d.target);
var hy = (target.y-source.y)/2;
return "M" + source.y + "," + source.x
+ "H" + (source.y+hy)
+ "V" + target.x + "H" + target.y;
};
var connector = elbow;
var vis = d3.select("#body")
.append("svg:svg")
.attr("width", w
+ m[1] + m[3])
.attr("height", h + m[0] + m[2])
.append("svg:g")
//.attr("transform", "translate(" + m[3] + "," + m[0] + ")")
.attr("transform", "translate(" + (w/2+m[3]) + "," + m[0] + ")")
;
//*
var loadJSON = function(fileName){
//d3.json("/data/data.json", function(json) {
d3.json(fileName, function(json) {
var i=0, l=json.children.length;
window.data = root = json;
root.x0 = h / 2;
root.y0 = 0;
json.left = [];
json.right = [];
for(; i<l; i++){
if(i%2){
json.left.push(json.children[i]);
json.children[i].position = 'left';
}else{
json.right.push(json.children[i]);
json.children[i].position = 'right';
}
}
update(root, true);
selectNode(root);
});
};
//*/
//*
var loadFreeMind = function(fileName){
d3.xml(fileName, 'application/xml', function(err, xml){
// Changes XML to JSON
function xmlToJson(xml) {
// Create the return object
var obj = {};
if (xml.nodeType == 1) { // element
// do attributes
if (xml.attributes.length > 0) {
obj["@attributes"] = {};
for (var j = 0; j < xml.attributes.length; j++) {
var attribute = xml.attributes.item(j);
obj["@attributes"][attribute.nodeName] = attribute.nodeValue;
}
}
} else if (xml.nodeType == 3) { // text
obj = xml.nodeValue;
}
// do children
if (xml.hasChildNodes()) {
for(var i = 0; i < xml.childNodes.length; i++) {
var item = xml.childNodes.item(i);
var nodeName = item.nodeName;
if (typeof(obj[nodeName]) == "undefined") {
obj[nodeName] = xmlToJson(item);
} else {
if (typeof(obj[nodeName].push) == "undefined") {
var old = obj[nodeName];
obj[nodeName] = [];
obj[nodeName].push(old);
}
obj[nodeName].push(xmlToJson(item));
}
}
}
return obj;
};
var js = xmlToJson(xml);
var data = js.map.node;
var parseData = function(data, direction){
var key, i, l, dir = direction, node = {}, child;
for(key in data['@attributes']){
node[key.toLowerCase()] = data['@attributes'][key];
}
node.direction = node.direction || dir;
l = (data.node || []).length;
if(l){
node.children = [];
for(i=0; i<l; i++){
dir = data.node[i]['@attributes'].POSITION || dir;
child = parseData(data.node[i], {}, dir);
(node[dir] = node[dir] || []).push(child);
node.children.push(child);
}
}
return node;
};
root = parseData(data, 'right');
root.x0 = h / 2;
root.y0 = w / 2;
update(root, true);
selectNode(root);
});
};
//*/
var toArray = function(item, arr, d){
arr = arr || [];
var dr = d || 1;
var i = 0, l = item.children?item.children.length:0;
arr.push(item);
if(item.position && item.position==='left'){
dr = -1;
}
item.y = dr * item.y;
for(; i < l; i++){
toArray(item.children[i], arr, dr);
}
return arr;
};
function update(source, slow) {
var duration = (d3.event && d3.event.altKey) || slow ? 1000 : 100;
// Compute the new tree layout.
var nodesLeft = tree
.size([h, (w/2)-20])
.children(function(d){
return (d.depth===0)?d.left:d.children;
})
.nodes(root)
.reverse();
var nodesRight = tree
.size([h, w/2])
.children(function(d){
return (d.depth===0)?d.right:d.children;
})
.nodes(root)
.reverse();
root.children = root.left.concat(root.right);
root._children = null;
var nodes = toArray(root);
// Normalize for fixed-depth.
//nodes.forEach(function(d) { d.y = d.depth * 180; });
// Update the nodes…
var node = vis.selectAll("g.node")
.data(nodes, function(d) { return d.id || (d.id = ++i); });
// Enter any new nodes at the parent's previous position.
var nodeEnter = node.enter().append("svg:g")
.attr("class", function(d){ return d.selected?"node selected":"node"; })
.attr("transform", function(d) { return "translate(" + source.y0 + "," + source.x0 + ")"; })
.on("click", handleClick);
nodeEnter.append("svg:circle")
.attr("r", 1e-6);
//.style("fill", function(d) { return d._children ? "lightsteelblue" : "#fff"; });
nodeEnter.append("svg:text")
.attr("x", function(d) { return d.children || d._children ? -10 : 10; })
// .attr("dy", ".35em")
// .attr("text-anchor", function(d) { return d.children || d._children ? "end" : "start"; })
.attr("dy", 14)
.attr("text-anchor", "middle")
.text(function(d) { return (d.name || d.text); })
.style("fill-opacity", 1);
// Transition nodes to their new position.
var nodeUpdate = node.transition()
//.attr("class", function(d){ return d.selected?"node selected":"node"; })
.duration(duration)
.attr("transform", function(d) { return "translate(" + d.y + "," + d.x + ")"; });
nodeUpdate.select("text")
.text(function(d) { return (d.name || d.text); });
nodeUpdate.select("circle")
.attr("r", 4.5);
//.style("fill", function(d) { return d._children ? "lightsteelblue" : "#fff"; });
/*
nodeUpdate.select("text")
.attr("dy", 14)
.attr("text-anchor", "middle")
.style("fill-opacity", 1);
*/
// Transition exiting nodes to the parent's new position.
var nodeExit = node.exit().transition()
.duration(duration)
.attr("transform", function(d) { return "translate(" + source.y + "," + source.x + ")"; })
.remove();
nodeExit.select("circle")
.attr("r", 1e-6);
nodeExit.select("text")
.style("fill-opacity", 1e-6);
// Update the links…
var link = vis.selectAll("path.link")
.data(tree.links(nodes), function(d) { return d.target.id; });
// Enter any new links at the parent's previous position.
link.enter().insert("svg:path", "g")
.attr("class", "link")
.attr("d", function(d) {
var o = {x: source.x0, y: source.y0};
return connector({source: o, target: o});
})
.transition()
.duration(duration)
.attr("d", connector);
// Transition links to their new position.
link.transition()
.duration(duration)
.attr("d", connector);
// Transition exiting nodes to the parent's new position.
link.exit().transition()
.duration(duration)
.attr("d", function(d) {
var o = {x: source.x, y: source.y};
return connector({source: o, target: o});
})
.remove();
// Stash the old positions for transition.
nodes.forEach(function(d) {
d.x0 = d.x;
d.y0 = d.y;
});
}
// Toggle children.
function toggle(d) {
if (d.children) {
d._children = d.children;
d.children = null;
} else {
d.children = d._children;
d._children = null;
}
}
loadJSON('data.json');
</script>
</body>
</html>
/*global define:false */
/**
* Copyright 2013 Craig Campbell
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
* Mousetrap is a simple keyboard shortcut library for Javascript with
* no external dependencies
*
* @version 1.4.6
* @url craig.is/killing/mice
*/
(function(window, document, undefined) {
/**
* mapping of special keycodes to their corresponding keys
*
* everything in this dictionary cannot use keypress events
* so it has to be here to map to the correct keycodes for
* keyup/keydown events
*
* @type {Object}
*/
var _MAP = {
8: 'backspace',
9: 'tab',
13: 'enter',
16: 'shift',
17: 'ctrl',
18: 'alt',
20: 'capslock',
27: 'esc',
32: 'space',
33: 'pageup',
34: 'pagedown',
35: 'end',
36: 'home',
37: 'left',
38: 'up',
39: 'right',
40: 'down',
45: 'ins',
46: 'del',
91: 'meta',
93: 'meta',
224: 'meta'
},
/**
* mapping for special characters so they can support
*
* this dictionary is only used incase you want to bind a
* keyup or keydown event to one of these keys
*
* @type {Object}
*/
_KEYCODE_MAP = {
106: '*',
107: '+',
109: '-',
110: '.',
111 : '/',
186: ';',
187: '=',
188: ',',
189: '-',
190: '.',
191: '/',
192: '`',
219: '[',
220: '\\',
221: ']',
222: '\''
},
/**
* this is a mapping of keys that require shift on a US keypad
* back to the non shift equivelents
*
* this is so you can use keyup events with these keys
*
* note that this will only work reliably on US keyboards
*
* @type {Object}
*/
_SHIFT_MAP = {
'~': '`',
'!': '1',
'@': '2',
'#': '3',
'$': '4',
'%': '5',
'^': '6',
'&': '7',
'*': '8',
'(': '9',
')': '0',
'_': '-',
'+': '=',
':': ';',
'\"': '\'',
'<': ',',
'>': '.',
'?': '/',
'|': '\\'
},
/**
* this is a list of special strings you can use to map
* to modifier keys when you specify your keyboard shortcuts
*
* @type {Object}
*/
_SPECIAL_ALIASES = {
'option': 'alt',
'command': 'meta',
'return': 'enter',
'escape': 'esc',
'mod': /Mac|iPod|iPhone|iPad/.test(navigator.platform) ? 'meta' : 'ctrl'
},
/**
* variable to store the flipped version of _MAP from above
* needed to check if we should use keypress or not when no action
* is specified
*
* @type {Object|undefined}
*/
_REVERSE_MAP,
/**
* a list of all the callbacks setup via Mousetrap.bind()
*
* @type {Object}
*/
_callbacks = {},
/**
* direct map of string combinations to callbacks used for trigger()
*
* @type {Object}
*/
_directMap = {},
/**
* keeps track of what level each sequence is at since multiple
* sequences can start out with the same sequence
*
* @type {Object}
*/
_sequenceLevels = {},
/**
* variable to store the setTimeout call
*
* @type {null|number}
*/
_resetTimer,
/**
* temporary state where we will ignore the next keyup
*
* @type {boolean|string}
*/
_ignoreNextKeyup = false,
/**
* temporary state where we will ignore the next keypress
*
* @type {boolean}
*/
_ignoreNextKeypress = false,
/**
* are we currently inside of a sequence?
* type of action ("keyup" or "keydown" or "keypress") or false
*
* @type {boolean|string}
*/
_nextExpectedAction = false;
/**
* loop through the f keys, f1 to f19 and add them to the map
* programatically
*/
for (var i = 1; i < 20; ++i) {
_MAP[111 + i] = 'f' + i;
}
/**
* loop through to map numbers on the numeric keypad
*/
for (i = 0; i <= 9; ++i) {
_MAP[i + 96] = i;
}
/**
* cross browser add event method
*
* @param {Element|HTMLDocument} object
* @param {string} type
* @param {Function} callback
* @returns void
*/
function _addEvent(object, type, callback) {
if (object.addEventListener) {
object.addEventListener(type, callback, false);
return;
}
object.attachEvent('on' + type, callback);
}
/**
* takes the event and returns the key character
*
* @param {Event} e
* @return {string}
*/
function _characterFromEvent(e) {
// for keypress events we should return the character as is
if (e.type == 'keypress') {
var character = String.fromCharCode(e.which);
// if the shift key is not pressed then it is safe to assume
// that we want the character to be lowercase. this means if
// you accidentally have caps lock on then your key bindings
// will continue to work
//
// the only side effect that might not be desired is if you
// bind something like 'A' cause you want to trigger an
// event when capital A is pressed caps lock will no longer
// trigger the event. shift+a will though.
if (!e.shiftKey) {
character = character.toLowerCase();
}
return character;
}
// for non keypress events the special maps are needed
if (_MAP[e.which]) {
return _MAP[e.which];
}
if (_KEYCODE_MAP[e.which]) {
return _KEYCODE_MAP[e.which];
}
// if it is not in the special map
// with keydown and keyup events the character seems to always
// come in as an uppercase character whether you are pressing shift
// or not. we should make sure it is always lowercase for comparisons
return String.fromCharCode(e.which).toLowerCase();
}
/**
* checks if two arrays are equal
*
* @param {Array} modifiers1
* @param {Array} modifiers2
* @returns {boolean}
*/
function _modifiersMatch(modifiers1, modifiers2) {
return modifiers1.sort().join(',') === modifiers2.sort().join(',');
}
/**
* resets all sequence counters except for the ones passed in
*
* @param {Object} doNotReset
* @returns void
*/
function _resetSequences(doNotReset) {
doNotReset = doNotReset || {};
var activeSequences = false,
key;
for (key in _sequenceLevels) {
if (doNotReset[key]) {
activeSequences = true;
continue;
}
_sequenceLevels[key] = 0;
}
if (!activeSequences) {
_nextExpectedAction = false;
}
}
/**
* finds all callbacks that match based on the keycode, modifiers,
* and action
*
* @param {string} character
* @param {Array} modifiers
* @param {Event|Object} e
* @param {string=} sequenceName - name of the sequence we are looking for
* @param {string=} combination
* @param {number=} level
* @returns {Array}
*/
function _getMatches(character, modifiers, e, sequenceName, combination, level) {
var i,
callback,
matches = [],
action = e.type;
// if there are no events related to this keycode
if (!_callbacks[character]) {
return [];
}
// if a modifier key is coming up on its own we should allow it
if (action == 'keyup' && _isModifier(character)) {
modifiers = [character];
}
// loop through all callbacks for the key that was pressed
// and see if any of them match
for (i = 0; i < _callbacks[character].length; ++i) {
callback = _callbacks[character][i];
// if a sequence name is not specified, but this is a sequence at
// the wrong level then move onto the next match
if (!sequenceName && callback.seq && _sequenceLevels[callback.seq] != callback.level) {
continue;
}
// if the action we are looking for doesn't match the action we got
// then we should keep going
if (action != callback.action) {
continue;
}
// if this is a keypress event and the meta key and control key
// are not pressed that means that we need to only look at the
// character, otherwise check the modifiers as well
//
// chrome will not fire a keypress if meta or control is down
// safari will fire a keypress if meta or meta+shift is down
// firefox will fire a keypress if meta or control is down
if ((action == 'keypress' && !e.metaKey && !e.ctrlKey) || _modifiersMatch(modifiers, callback.modifiers)) {
// when you bind a combination or sequence a second time it
// should overwrite the first one. if a sequenceName or
// combination is specified in this call it does just that
//
// @todo make deleting its own method?
var deleteCombo = !sequenceName && callback.combo == combination;
var deleteSequence = sequenceName && callback.seq == sequenceName && callback.level == level;
if (deleteCombo || deleteSequence) {
_callbacks[character].splice(i, 1);
}
matches.push(callback);
}
}
return matches;
}
/**
* takes a key event and figures out what the modifiers are
*
* @param {Event} e
* @returns {Array}
*/
function _eventModifiers(e) {
var modifiers = [];
if (e.shiftKey) {
modifiers.push('shift');
}
if (e.altKey) {
modifiers.push('alt');
}
if (e.ctrlKey) {
modifiers.push('ctrl');
}
if (e.metaKey) {
modifiers.push('meta');
}
return modifiers;
}
/**
* prevents default for this event
*
* @param {Event} e
* @returns void
*/
function _preventDefault(e) {
if (e.preventDefault) {
e.preventDefault();
return;
}
e.returnValue = false;
}
/**
* stops propogation for this event
*
* @param {Event} e
* @returns void
*/
function _stopPropagation(e) {
if (e.stopPropagation) {
e.stopPropagation();
return;
}
e.cancelBubble = true;
}
/**
* actually calls the callback function
*
* if your callback function returns false this will use the jquery
* convention - prevent default and stop propogation on the event
*
* @param {Function} callback
* @param {Event} e
* @returns void
*/
function _fireCallback(callback, e, combo, sequence) {
// if this event should not happen stop here
if (Mousetrap.stopCallback(e, e.target || e.srcElement, combo, sequence)) {
return;
}
if (callback(e, combo) === false) {
_preventDefault(e);
_stopPropagation(e);
}
}
/**
* handles a character key event
*
* @param {string} character
* @param {Array} modifiers
* @param {Event} e
* @returns void
*/
function _handleKey(character, modifiers, e) {
var callbacks = _getMatches(character, modifiers, e),
i,
doNotReset = {},
maxLevel = 0,
processedSequenceCallback = false;
// Calculate the maxLevel for sequences so we can only execute the longest callback sequence
for (i = 0; i < callbacks.length; ++i) {
if (callbacks[i].seq) {
maxLevel = Math.max(maxLevel, callbacks[i].level);
}
}
// loop through matching callbacks for this key event
for (i = 0; i < callbacks.length; ++i) {
// fire for all sequence callbacks
// this is because if for example you have multiple sequences
// bound such as "g i" and "g t" they both need to fire the
// callback for matching g cause otherwise you can only ever
// match the first one
if (callbacks[i].seq) {
// only fire callbacks for the maxLevel to prevent
// subsequences from also firing
//
// for example 'a option b' should not cause 'option b' to fire
// even though 'option b' is part of the other sequence
//
// any sequences that do not match here will be discarded
// below by the _resetSequences call
if (callbacks[i].level != maxLevel) {
continue;
}
processedSequenceCallback = true;
// keep a list of which sequences were matches for later
doNotReset[callbacks[i].seq] = 1;
_fireCallback(callbacks[i].callback, e, callbacks[i].combo, callbacks[i].seq);
continue;
}
// if there were no sequence matches but we are still here
// that means this is a regular match so we should fire that
if (!processedSequenceCallback) {
_fireCallback(callbacks[i].callback, e, callbacks[i].combo);
}
}
// if the key you pressed matches the type of sequence without
// being a modifier (ie "keyup" or "keypress") then we should
// reset all sequences that were not matched by this event
//
// this is so, for example, if you have the sequence "h a t" and you
// type "h e a r t" it does not match. in this case the "e" will
// cause the sequence to reset
//
// modifier keys are ignored because you can have a sequence
// that contains modifiers such as "enter ctrl+space" and in most
// cases the modifier key will be pressed before the next key
//
// also if you have a sequence such as "ctrl+b a" then pressing the
// "b" key will trigger a "keypress" and a "keydown"
//
// the "keydown" is expected when there is a modifier, but the
// "keypress" ends up matching the _nextExpectedAction since it occurs
// after and that causes the sequence to reset
//
// we ignore keypresses in a sequence that directly follow a keydown
// for the same character
var ignoreThisKeypress = e.type == 'keypress' && _ignoreNextKeypress;
if (e.type == _nextExpectedAction && !_isModifier(character) && !ignoreThisKeypress) {
_resetSequences(doNotReset);
}
_ignoreNextKeypress = processedSequenceCallback && e.type == 'keydown';
}
/**
* handles a keydown event
*
* @param {Event} e
* @returns void
*/
function _handleKeyEvent(e) {
// normalize e.which for key events
// @see http://stackoverflow.com/questions/4285627/javascript-keycode-vs-charcode-utter-confusion
if (typeof e.which !== 'number') {
e.which = e.keyCode;
}
var character = _characterFromEvent(e);
// no character found then stop
if (!character) {
return;
}
// need to use === for the character check because the character can be 0
if (e.type == 'keyup' && _ignoreNextKeyup === character) {
_ignoreNextKeyup = false;
return;
}
Mousetrap.handleKey(character, _eventModifiers(e), e);
}
/**
* determines if the keycode specified is a modifier key or not
*
* @param {string} key
* @returns {boolean}
*/
function _isModifier(key) {
return key == 'shift' || key == 'ctrl' || key == 'alt' || key == 'meta';
}
/**
* called to set a 1 second timeout on the specified sequence
*
* this is so after each key press in the sequence you have 1 second
* to press the next key before you have to start over
*
* @returns void
*/
function _resetSequenceTimer() {
clearTimeout(_resetTimer);
_resetTimer = setTimeout(_resetSequences, 1000);
}
/**
* reverses the map lookup so that we can look for specific keys
* to see what can and can't use keypress
*
* @return {Object}
*/
function _getReverseMap() {
if (!_REVERSE_MAP) {
_REVERSE_MAP = {};
for (var key in _MAP) {
// pull out the numeric keypad from here cause keypress should
// be able to detect the keys from the character
if (key > 95 && key < 112) {
continue;
}
if (_MAP.hasOwnProperty(key)) {
_REVERSE_MAP[_MAP[key]] = key;
}
}
}
return _REVERSE_MAP;
}
/**
* picks the best action based on the key combination
*
* @param {string} key - character for key
* @param {Array} modifiers
* @param {string=} action passed in
*/
function _pickBestAction(key, modifiers, action) {
// if no action was picked in we should try to pick the one
// that we think would work best for this key
if (!action) {
action = _getReverseMap()[key] ? 'keydown' : 'keypress';
}
// modifier keys don't work as expected with keypress,
// switch to keydown
if (action == 'keypress' && modifiers.length) {
action = 'keydown';
}
return action;
}
/**
* binds a key sequence to an event
*
* @param {string} combo - combo specified in bind call
* @param {Array} keys
* @param {Function} callback
* @param {string=} action
* @returns void
*/
function _bindSequence(combo, keys, callback, action) {
// start off by adding a sequence level record for this combination
// and setting the level to 0
_sequenceLevels[combo] = 0;
/**
* callback to increase the sequence level for this sequence and reset
* all other sequences that were active
*
* @param {string} nextAction
* @returns {Function}
*/
function _increaseSequence(nextAction) {
return function() {
_nextExpectedAction = nextAction;
++_sequenceLevels[combo];
_resetSequenceTimer();
};
}
/**
* wraps the specified callback inside of another function in order
* to reset all sequence counters as soon as this sequence is done
*
* @param {Event} e
* @returns void
*/
function _callbackAndReset(e) {
_fireCallback(callback, e, combo);
// we should ignore the next key up if the action is key down
// or keypress. this is so if you finish a sequence and
// release the key the final key will not trigger a keyup
if (action !== 'keyup') {
_ignoreNextKeyup = _characterFromEvent(e);
}
// weird race condition if a sequence ends with the key
// another sequence begins with
setTimeout(_resetSequences, 10);
}
// loop through keys one at a time and bind the appropriate callback
// function. for any key leading up to the final one it should
// increase the sequence. after the final, it should reset all sequences
//
// if an action is specified in the original bind call then that will
// be used throughout. otherwise we will pass the action that the
// next key in the sequence should match. this allows a sequence
// to mix and match keypress and keydown events depending on which
// ones are better suited to the key provided
for (var i = 0; i < keys.length; ++i) {
var isFinal = i + 1 === keys.length;
var wrappedCallback = isFinal ? _callbackAndReset : _increaseSequence(action || _getKeyInfo(keys[i + 1]).action);
_bindSingle(keys[i], wrappedCallback, action, combo, i);
}
}
/**
* Converts from a string key combination to an array
*
* @param {string} combination like "command+shift+l"
* @return {Array}
*/
function _keysFromString(combination) {
if (combination === '+') {
return ['+'];
}
return combination.split('+');
}
/**
* Gets info for a specific key combination
*
* @param {string} combination key combination ("command+s" or "a" or "*")
* @param {string=} action
* @returns {Object}
*/
function _getKeyInfo(combination, action) {
var keys,
key,
i,
modifiers = [];
// take the keys from this pattern and figure out what the actual
// pattern is all about
keys = _keysFromString(combination);
for (i = 0; i < keys.length; ++i) {
key = keys[i];
// normalize key names
if (_SPECIAL_ALIASES[key]) {
key = _SPECIAL_ALIASES[key];
}
// if this is not a keypress event then we should
// be smart about using shift keys
// this will only work for US keyboards however
if (action && action != 'keypress' && _SHIFT_MAP[key]) {
key = _SHIFT_MAP[key];
modifiers.push('shift');
}
// if this key is a modifier then add it to the list of modifiers
if (_isModifier(key)) {
modifiers.push(key);
}
}
// depending on what the key combination is
// we will try to pick the best event for it
action = _pickBestAction(key, modifiers, action);
return {
key: key,
modifiers: modifiers,
action: action
};
}
/**
* binds a single keyboard combination
*
* @param {string} combination
* @param {Function} callback
* @param {string=} action
* @param {string=} sequenceName - name of sequence if part of sequence
* @param {number=} level - what part of the sequence the command is
* @returns void
*/
function _bindSingle(combination, callback, action, sequenceName, level) {
// store a direct mapped reference for use with Mousetrap.trigger
_directMap[combination + ':' + action] = callback;
// make sure multiple spaces in a row become a single space
combination = combination.replace(/\s+/g, ' ');
var sequence = combination.split(' '),
info;
// if this pattern is a sequence of keys then run through this method
// to reprocess each pattern one key at a time
if (sequence.length > 1) {
_bindSequence(combination, sequence, callback, action);
return;
}
info = _getKeyInfo(combination, action);
// make sure to initialize array if this is the first time
// a callback is added for this key
_callbacks[info.key] = _callbacks[info.key] || [];
// remove an existing match if there is one
_getMatches(info.key, info.modifiers, {type: info.action}, sequenceName, combination, level);
// add this call back to the array
// if it is a sequence put it at the beginning
// if not put it at the end
//
// this is important because the way these are processed expects
// the sequence ones to come first
_callbacks[info.key][sequenceName ? 'unshift' : 'push']({
callback: callback,
modifiers: info.modifiers,
action: info.action,
seq: sequenceName,
level: level,
combo: combination
});
}
/**
* binds multiple combinations to the same callback
*
* @param {Array} combinations
* @param {Function} callback
* @param {string|undefined} action
* @returns void
*/
function _bindMultiple(combinations, callback, action) {
for (var i = 0; i < combinations.length; ++i) {
_bindSingle(combinations[i], callback, action);
}
}
// start!
_addEvent(document, 'keypress', _handleKeyEvent);
_addEvent(document, 'keydown', _handleKeyEvent);
_addEvent(document, 'keyup', _handleKeyEvent);
var Mousetrap = {
/**
* binds an event to mousetrap
*
* can be a single key, a combination of keys separated with +,
* an array of keys, or a sequence of keys separated by spaces
*
* be sure to list the modifier keys first to make sure that the
* correct key ends up getting bound (the last key in the pattern)
*
* @param {string|Array} keys
* @param {Function} callback
* @param {string=} action - 'keypress', 'keydown', or 'keyup'
* @returns void
*/
bind: function(keys, callback, action) {
keys = keys instanceof Array ? keys : [keys];
_bindMultiple(keys, callback, action);
return this;
},
/**
* unbinds an event to mousetrap
*
* the unbinding sets the callback function of the specified key combo
* to an empty function and deletes the corresponding key in the
* _directMap dict.
*
* TODO: actually remove this from the _callbacks dictionary instead
* of binding an empty function
*
* the keycombo+action has to be exactly the same as
* it was defined in the bind method
*
* @param {string|Array} keys
* @param {string} action
* @returns void
*/
unbind: function(keys, action) {
return Mousetrap.bind(keys, function() {}, action);
},
/**
* triggers an event that has already been bound
*
* @param {string} keys
* @param {string=} action
* @returns void
*/
trigger: function(keys, action) {
if (_directMap[keys + ':' + action]) {
_directMap[keys + ':' + action]({}, keys);
}
return this;
},
/**
* resets the library back to its initial state. this is useful
* if you want to clear out the current keyboard shortcuts and bind
* new ones - for example if you switch to another page
*
* @returns void
*/
reset: function() {
_callbacks = {};
_directMap = {};
return this;
},
/**
* should we stop this event before firing off callbacks
*
* @param {Event} e
* @param {Element} element
* @return {boolean}
*/
stopCallback: function(e, element) {
// if the element has the class "mousetrap" then no need to stop
if ((' ' + element.className + ' ').indexOf(' mousetrap ') > -1) {
return false;
}
// stop for input, select, and textarea
return element.tagName == 'INPUT' || element.tagName == 'SELECT' || element.tagName == 'TEXTAREA' || element.isContentEditable;
},
/**
* exposes _handleKey publicly so it can be overwritten by extensions
*/
handleKey: _handleKey
};
// expose mousetrap to the global object
window.Mousetrap = Mousetrap;
// expose mousetrap as an AMD module
if (typeof define === 'function' && define.amd) {
define(Mousetrap);
}
}) (window, document);
#body {
background: white;
margin: 0;
font-size: 14px;
font-family: "Helvetica Neue", Helvetica;
}
#chart {
position: absolute;
top: 0;
}
rect {
fill: none;
pointer-events: all;
}
pre {
font-size: 18px;
}
line {
stroke: #000;
stroke-width: 1.5px;
}
.string, .regexp {
color: #f39;
}
.keyword {
color: #00c;
}
.comment {
color: #777;
font-style: oblique;
}
.number {
color: #369;
}
.class, .special {
color: #1181B8;
}
a:link, a:visited {
color: #000;
text-decoration: none;
}
a:hover {
color: #666;
}
.hint {
position: absolute;
right: 0;
width: 1280px;
font-size: 12px;
color: #999;
}
#toolbar{
position: fixed;
top: 0;
left: 0;
width: 100%;
}
#footer{
position: fixed;
bottom: 0;
left: 0;
width: 100%;
}
<map version="1.0.1">
<!-- To view this file, download free mind mapping software FreeMind from http://freemind.sourceforge.net -->
<node CREATED="1400771016814" ID="ID_1425716387" MODIFIED="1400771026053" TEXT="Mindmap">
<node CREATED="1400771027265" ID="ID_846682469" MODIFIED="1400771029816" POSITION="right" TEXT="From Freemind">
<node CREATED="1400771032900" ID="ID_827918588" MODIFIED="1400771037791" TEXT="Stored as .mm"/>
<node CREATED="1400771038772" ID="ID_1158944789" MODIFIED="1400771044688" TEXT="Really its an xml file"/>
</node>
<node CREATED="1400771048651" ID="ID_895287109" MODIFIED="1400771056767" POSITION="left" TEXT="Just the basics">
<node CREATED="1400771105555" ID="ID_420969231" MODIFIED="1400771114341" TEXT="bold">
<font BOLD="true" NAME="SansSerif" SIZE="12"/>
</node>
<node CREATED="1400771107260" ID="ID_1006485332" MODIFIED="1400771115614" TEXT="italic">
<font ITALIC="true" NAME="SansSerif" SIZE="12"/>
</node>
<node CREATED="1400771116050" ID="ID_660540640" MODIFIED="1400771123415" TEXT="Cloud">
<cloud/>
</node>
</node>
<node CREATED="1400771057531" ID="ID_1127763371" MODIFIED="1400771066263" POSITION="left" TEXT="Maybe a few icons">
<node CREATED="1400771067555" ID="ID_850944552" MODIFIED="1400771073088" TEXT="1">
<icon BUILTIN="full-1"/>
</node>
<node CREATED="1400771074490" ID="ID_1208594920" MODIFIED="1400771080110" TEXT="2">
<icon BUILTIN="full-2"/>
</node>
<node CREATED="1400771076659" ID="ID_1278721112" MODIFIED="1400771082280" TEXT="3">
<icon BUILTIN="full-3"/>
</node>
<node CREATED="1400771089739" ID="ID_544883255" MODIFIED="1400771093502" TEXT="idea">
<icon BUILTIN="idea"/>
</node>
</node>
<node CREATED="1400771143034" ID="ID_1094518542" MODIFIED="1400771185233" POSITION="right" STYLE="fork" TEXT="Large text">
<font NAME="SansSerif" SIZE="19"/>
</node>
<node CREATED="1400771186530" ID="ID_25862265" MODIFIED="1400771223153" POSITION="right" STYLE="fork" TEXT="Outline Formats">
<node CREATED="1400771197723" ID="ID_514062041" MODIFIED="1400771223153" STYLE="bubble" TEXT="Bubble"/>
<node CREATED="1400771199834" ID="ID_1161671026" MODIFIED="1400771223153" STYLE="fork" TEXT="Fork"/>
</node>
</node>
</map>
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