342 lines
9.2 KiB
HTML
342 lines
9.2 KiB
HTML
<!DOCTYPE html>
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<html>
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<head>
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<meta http-equiv="Content-Type" content="text/html; charset=UTF-8">
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<script>
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var isLocalStorage = false;
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var mxLoadStylesheets = false;
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</script>
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<script src="js/app.min.js"></script>
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<script>
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// NOTE: SVG Output fixes missing symbols in AsciiMath
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// but produces larger output with clipping problems
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Editor.initMath();
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function render(data)
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{
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var graph = new Graph(document.getElementById('graph'));
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data.border = parseInt(data.border) || 0;
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data.w = parseInt(data.w) || 0;
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data.h = parseInt(data.h) || 0;
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// Parses XML
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var xmlDoc = mxUtils.parseXml(data.xml);
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var diagrams = null;
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// Handles mxfile
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if (xmlDoc.documentElement.nodeName == 'mxfile')
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{
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diagrams = xmlDoc.documentElement.getElementsByTagName('diagram');
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if (diagrams.length > 0)
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{
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var diagramNode = diagrams[data.from || 0];
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if (diagramNode != null)
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{
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// TODO: Migrate to pako
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xmlDoc = mxUtils.parseXml(graph.decompress(mxUtils.getTextContent(diagramNode)));
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}
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}
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}
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// Enables math typesetting
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var math = xmlDoc.documentElement.getAttribute('math') == '1';
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if (math)
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{
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mxClient.NO_FO = true;
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}
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// Createa graph instance
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graph.foldingEnabled = false;
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graph.setEnabled(false);
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if (diagrams != null && diagrams.length > 0)
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{
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/**
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* Adds placeholder for %page% and %pagenumber%
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*/
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var graphGetGlobalVariable = graph.getGlobalVariable;
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graph.getGlobalVariable = function(name)
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{
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if (name == 'page')
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{
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return diagrams[0].getAttribute('name') || 'Page-1';
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}
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else if (name == 'pagenumber')
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{
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return 1;
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}
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return graphGetGlobalVariable.apply(this, arguments);
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};
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}
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// Sets background image
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var bgImg = xmlDoc.documentElement.getAttribute('backgroundImage');
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if (bgImg != null)
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{
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bgImg = JSON.parse(bgImg);
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graph.setBackgroundImage(new mxImage(bgImg.src, bgImg.width, bgImg.height));
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}
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// Parses XML into graph
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var codec = new mxCodec(xmlDoc);
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codec.decode(xmlDoc.documentElement, graph.getModel());
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// Loads background color
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var bg = (data.bg != null && data.bg.length > 0) ? data.bg : xmlDoc.documentElement.getAttribute('background');
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// Normalizes values for transparent backgrounds
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if (bg == 'none' || bg == '')
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{
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bg = null;
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}
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// Checks if export format supports transparent backgrounds
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if (bg == null && data.format != 'gif' && data.format != 'png')
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{
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bg = '#ffffff';
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}
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// Sets background color on page
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if (bg != null)
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{
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document.body.style.backgroundColor = bg;
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}
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// Sets initial value for PDF page background
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graph.pdfPageVisible = false;
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// Handles PDF output where the output should match the page format if the page is visible
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if (data.format == 'pdf' && xmlDoc.documentElement.getAttribute('page') == '1' && data.w == 0 && data.h == 0)
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{
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var pw = xmlDoc.documentElement.getAttribute('pageWidth');
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var ph = xmlDoc.documentElement.getAttribute('pageHeight');
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graph.pdfPageVisible = true;
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if (pw != null && ph != null)
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{
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graph.pageFormat = new mxRectangle(0, 0, parseFloat(pw), parseFloat(ph));
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}
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var ps = xmlDoc.documentElement.getAttribute('pageScale');
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if (ps != null)
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{
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graph.pageScale = ps;
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}
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graph.getPageSize = function()
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{
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return new mxRectangle(0, 0, this.pageFormat.width * this.pageScale,
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this.pageFormat.height * this.pageScale);
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};
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graph.getPageLayout = function()
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{
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var size = this.getPageSize();
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var bounds = this.getGraphBounds();
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if (bounds.width == 0 || bounds.height == 0)
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{
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return new mxRectangle(0, 0, 1, 1);
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}
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else
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{
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// Computes untransformed graph bounds
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var x = Math.ceil(bounds.x / this.view.scale - this.view.translate.x);
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var y = Math.ceil(bounds.y / this.view.scale - this.view.translate.y);
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var w = Math.floor(bounds.width / this.view.scale);
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var h = Math.floor(bounds.height / this.view.scale);
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var x0 = Math.floor(x / size.width);
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var y0 = Math.floor(y / size.height);
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var w0 = Math.ceil((x + w) / size.width) - x0;
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var h0 = Math.ceil((y + h) / size.height) - y0;
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return new mxRectangle(x0, y0, w0, h0);
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}
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};
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// Fits the number of background pages to the graph
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graph.view.getBackgroundPageBounds = function()
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{
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var layout = this.graph.getPageLayout();
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var page = this.graph.getPageSize();
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return new mxRectangle(this.scale * (this.translate.x + layout.x * page.width),
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this.scale * (this.translate.y + layout.y * page.height),
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this.scale * layout.width * page.width,
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this.scale * layout.height * page.height);
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};
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}
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if (!graph.pdfPageVisible)
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{
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var b = graph.getGraphBounds();
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// Floor is needed to keep rendering crisp
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if (data.w > 0 && data.h > 0)
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{
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graph.view.scaleAndTranslate(Math.min(data.w / b.width, data.h / b.height),
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Math.floor(-b.x + data.border), Math.floor(-b.y + data.border));
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}
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else
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{
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graph.view.setTranslate(Math.floor(-b.x + data.border), Math.floor(-b.y + data.border));
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}
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}
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else
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{
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// Disables border for PDF page export
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data.border = 0;
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// Moves to first page in page layout
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var layout = graph.getPageLayout();
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var page = graph.getPageSize();
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var dx = layout.x * page.width;
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var dy = layout.y * page.height;
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if (dx != 0 || dy != 0)
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{
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graph.view.setTranslate(Math.floor(-dx), Math.floor(-dy));
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}
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}
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// Gets the diagram bounds and sets the document size
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var bounds = (graph.pdfPageVisible) ? graph.view.getBackgroundPageBounds() : graph.getGraphBounds();
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bounds.width += data.border;
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bounds.height += data.border;
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// Waits for all images to finish loading
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var cache = new Object();
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var waitCounter = 1;
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// Decrements waitCounter and invokes callback when finished
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function decrementWaitCounter()
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{
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if (--waitCounter < 1)
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{
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if (typeof window.callPhantom === 'function')
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{
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window.callPhantom(bounds);
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}
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else if (window.console != null)
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{
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console.log('loading complete');
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}
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}
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};
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function waitForImages(tagName, attributeName)
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{
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var imgs = document.body.getElementsByTagName(tagName);
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waitCounter += imgs.length;
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for (var i = 0; i < imgs.length; i++)
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{
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// No load events for image elements in Phantom using indirection instead
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var src = imgs[i].getAttribute(attributeName);
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if (typeof window.callPhantom !== 'function' && window.console != null)
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{
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console.log((cache[src] == null) ? 'loading' : 'cached', src);
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}
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if (cache[src] == null)
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{
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cache[src] = new Image();
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cache[src].onload = decrementWaitCounter;
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cache[src].onerror = decrementWaitCounter;
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cache[src].src = src;
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}
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else
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{
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decrementWaitCounter();
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}
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}
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};
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// Includes images in SVG and HTML labels
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waitForImages('image', 'xlink:href');
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waitForImages('img', 'src');
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// Waits for MathJax to finish rendering
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function renderMath(elt)
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{
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if (math && window.MathJax != null && window.MathJax.Hub != null)
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{
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waitCounter++;
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Editor.MathJaxRender(elt);
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// Asynchronous callback when MathJax has finished
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window.MathJax.Hub.Queue(function ()
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{
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decrementWaitCounter();
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});
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}
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}
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// Converts the graph to a vertical sequence of pages for PDF export
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if (graph.pdfPageVisible)
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{
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// Workaround to match available paper size
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var printScale = 0.72
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var pf = graph.pageFormat || mxConstants.PAGE_FORMAT_A4_PORTRAIT;
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var scale = 1 / graph.pageScale;
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var autoOrigin = false;
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var border = 0;
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// Negative coordinates are cropped or shifted if page visible
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var gb = graph.getGraphBounds();
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var border = 0;
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var x0 = 0;
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var y0 = 0;
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// Applies print scale
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pf = mxRectangle.fromRectangle(pf);
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pf.width = Math.ceil(pf.width * printScale);
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pf.height = Math.ceil(pf.height * printScale);
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scale *= printScale;
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// Starts at first visible page
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var layout = graph.getPageLayout();
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x0 -= layout.x * pf.width;
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y0 -= layout.y * pf.height;
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var preview = new mxPrintPreview(graph, scale, pf, border, x0, y0);
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preview.printBackgroundImage = true;
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preview.autoOrigin = autoOrigin;
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preview.backgroundColor = bg;
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// Renders print output into this document and removes the graph container
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preview.open(null, window);
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graph.container.parentNode.removeChild(graph.container);
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bounds = new mxRectangle(0, 0, pf.width, pf.height);
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renderMath(graph.container.parentNode);
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}
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else
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{
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renderMath(graph.container);
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if (data.format != 'pdf')
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{
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document.body.style.width = Math.ceil(bounds.x + bounds.width) + 'px';
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document.body.style.height = (Math.ceil(bounds.y + bounds.height) + 1) + 'px';
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}
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}
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// Immediate return if not waiting for any content
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decrementWaitCounter();
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};
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</script>
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</head>
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<body style="margin:0px;">
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<div id="graph" style="width:100%;height:100%;"></div>
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</body>
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</html>
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