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<!DOCTYPE html> <html> <head> <meta charset="utf-8"> <meta name="viewport" content="width=device-width, initial-scale=1"> <title>GoJS Building GraphObjects -- Northwoods Software</title>  <script src="../release/go.js"></script> <script src="../extensions/Figures.js"></script> <script src="goIntro.js"></script> </head> <body onload="goIntro()"> <div id="container" class="container-fluid"> <div id="content"> <h1>Building Parts with GraphObjects</h1> <p> You can construct a <a>Node</a> or other kind of <a>Part</a> in traditional JavaScript code. <b>GoJS</b> also offers a more declarative-looking manner of building parts that has several advantages over code. </p> <p> The following pages will discuss the basic kinds of objects you can use to build a node. These pages build up a diagram by explicitly creating and adding nodes and links. Later pages will show how to build diagrams using models rather than using such code. </p> <h2 id="VisualStructureOfNodesAndLinks">The Visual Structure of Nodes and Links</h2> <p> First, look at a diagram that includes comments about the GraphObjects used to build some example nodes and links: </p> <pre class="lang-js" id="commented" style="display:none"> diagram.nodeTemplate = $(go.Node, "Auto", { scale: 2 }, // make it easier to see new go.Binding("location", "loc", go.Point.parse), { locationSpot: go.Spot.Center, portId: "Node" }, $(go.Shape, "RoundedRectangle", { fill: "white", portId: "Shape" }, new go.Binding("fill", "color")), $(go.TextBlock, { margin: 4, stroke: "blue", portId: "TextBlock" }, new go.Binding("text")) ); diagram.linkTemplate = $(go.Link, // make it easier to see $(go.Shape, { strokeWidth: 3 }), $(go.Shape, { scale: 2, toArrow: "Standard" }) ); // define several shared Brushes var bluegrad = $(go.Brush, "Linear", { 0: "rgb(150, 150, 250)", 0.5: "rgb(86, 86, 186)", 1: "rgb(86, 86, 186)" }); var yellowgrad = $(go.Brush, "Linear", { 0: "rgb(254, 221, 50)", 1: "rgb(254, 182, 50)" }); var lightgrad = $(go.Brush, "Linear", { 1: "#E6E6FA", 0: "#FFFAF0" }); // the template for each attribute in a node's array of item data var itemTempl = $(go.Panel, "TableRow", new go.Binding("portId", "name", function(n) { return n + "ITEMPANEL"; }), new go.Binding("background", "row", function(i) { return (i === 2) ? "lightgreen" : "transparent"; }).ofObject(), $(go.Shape, new go.Binding("portId", "name", function(n) { return n + "SHAPE"; }), { column: 0, desiredSize: new go.Size(10, 10) }, new go.Binding("figure", "figure"), new go.Binding("fill", "color")), $(go.TextBlock, { column: 1, stroke: "#333333", font: "bold 14px sans-serif" }, new go.Binding("text", "name"), new go.Binding("portId", "name", function(n) { return n + "TEXTBLOCK"; })) ); // define the Node template, representing an entity diagram.nodeTemplateMap.add("Complex", $(go.Node, "Auto", // the whole node panel { locationSpot: go.Spot.Center, scale: 1.5, selectionAdorned: true, fromSpot: go.Spot.AllSides, toSpot: go.Spot.AllSides, isShadowed: true, shadowColor: "#C5C1AA" }, new go.Binding("location", "loc", go.Point.parse), // define the node's outer shape, which will surround the Table $(go.Shape, "Rectangle", { portId: "RECTANGLE" }, { fill: lightgrad, stroke: "#756875", strokeWidth: 3 }), $(go.Panel, "Table", { margin: 8, stretch: go.GraphObject.Fill }, $(go.RowColumnDefinition, { row: 0, sizing: go.RowColumnDefinition.None }), // the table header $(go.TextBlock, { portId: "HEADER" }, { row: 0, alignment: go.Spot.Center, margin: new go.Margin(0, 14, 0, 2), // leave room for Button font: "bold 16px sans-serif" }, new go.Binding("text", "key")), // the collapse/expand button $("Button", { portId: "BUTTON" }, { row: 0, alignment: go.Spot.TopRight, "ButtonBorder.stroke": null, click: function(e, but) { var list = but.part.findObject("LIST"); if (list !== null) { list.diagram.startTransaction("collapse/expand"); list.visible = !list.visible; var shape = but.findObject("SHAPE"); if (shape !== null) shape.figure = (list.visible ? "TriangleUp" : "TriangleDown"); list.diagram.commitTransaction("collapse/expand"); } } }, $(go.Shape, "TriangleUp", { name: "SHAPE", width: 6, height: 4 })), // the list of Panels, each showing an attribute $(go.Panel, "Table", { name: "LIST", background: "pink", portId: "LIST", row: 1, padding: 3, alignment: go.Spot.TopLeft, defaultAlignment: go.Spot.Left, itemTemplate: itemTempl }, new go.Binding("itemArray", "items")) ) // end Table Panel )); // end Node // annotations -- brown text diagram.nodeTemplateMap.add("Comment", $(go.Node, new go.Binding("location", "loc", go.Point.parse), { locationSpot: go.Spot.Center }, $(go.TextBlock, { stroke: "brown", textAlign: "center" }, new go.Binding("text"), new go.Binding("font", "bold", function(b) { return b ? "bold 10pt sans-serif" : "10pt sans-serif"; })) )); // so that comments can point at any named GraphObject in a Link diagram.nodeTemplateMap.add("LinkLabel", $(go.Node, new go.Binding("segmentIndex"), new go.Binding("segmentOffset") )); // brown curved links connecting with a Comment node diagram.linkTemplateMap.add("Comment", $(go.Link, { curve: go.Link.Bezier }, new go.Binding("curviness"), $(go.Shape, { stroke: "brown" }), $(go.Shape, { toArrow: "OpenTriangle", stroke: "brown" }) )); var model = new go.GraphLinksModel(); model.linkToPortIdProperty = "pid"; model.linkLabelKeysProperty = "labs"; model.nodeDataArray = [ { key: 1, text: "Alpha", color: "lightblue", loc: "0 0" }, { key: 2, text: "Beta", color: "lightgreen", loc: "200 0" }, { key: -1, text: "two Nodes", category: "Comment", bold: true, loc: "100 -60" }, { key: -2, text: "a Shape of figure\n'RoundedRectangle',\nwith black stroke\nand lightblue fill", category: "Comment", loc: "-140 0" }, { key: -3, text: "a TextBlock with blue stroke\nand no background\nshowing the string 'Alpha'", category: "Comment", loc: "-50 70" }, { key: -4, text: "a Link's\nmain path\nShape", category: "Comment", loc: "100 40" }, { key: -41, category: "LinkLabel" }, { key: -5, text: "a Link's\narrowhead\nShape", category: "Comment", loc: "170 80" }, { key: -51, category: "LinkLabel", segmentIndex: -1, segmentOffset: new go.Point(-8, 4) }, { key: -6, text: "a Link", category: "Comment", bold: true, loc: "100 -30" }, { key: -7, text: "this Node Panel\nalso acts as the\nNode's only port", category: "Comment", loc: "320 0" }, { key: 11, category: "Complex", loc: "0 230", items: [{ name: "SupplierID", iskey: true, figure: "Decision", color: yellowgrad }, { name: "CompanyName", iskey: false, figure: "Cube1", color: bluegrad }, { name: "ContactName", iskey: false, figure: "Cube1", color: bluegrad }, { name: "Address", iskey: false, figure: "Cube1", color: bluegrad }] }, { key: -11, text: "a Rectangle Shape", category: "Comment", loc: "-70 120" }, { key: -12, text: "a TextBlock\nacting as a header", category: "Comment", loc: "70 120" }, { key: -13, text: "a Button Panel consisting\nof two Shapes", category: "Comment", loc: "200 150" }, { key: -14, text: "a Vertical items Panel\nwith pink background,\nholding 4 Panels,\none per item", category: "Comment", loc: "200 220" }, { key: -15, text: "a TextBlock\nin a Panel for item #3", category: "Comment", loc: "50 340" }, { key: -16, text: "a Shape\nin a Panel for item #3", category: "Comment", loc: "-140 320" }, { key: -17, text: "a TableRow Panel\nfor item #2\nwith lightgreen\nbackground", category: "Comment", loc: "-200 250" } ]; model.linkDataArray = [ { from: 1, to: 2, labs: [-41, -51] }, { from: -1, category: "Comment", to: 1, pid: "Node", curviness: -10 }, { from: -1, category: "Comment", to: 2, pid: "Node" }, { from: -2, category: "Comment", to: 1, pid: "Shape" }, { from: -3, category: "Comment", to: 1, pid: "TextBlock", curviness: -10 }, { from: -4, category: "Comment", to: -41, curviness: 0 }, { from: -5, category: "Comment", to: -51, curviness: 5 }, { from: -6, category: "Comment", to: -41, curviness: -5 }, { from: -7, category: "Comment", to: 2, pic: "Node", curviness: -10 }, { from: -11, category: "Comment", to: 11, pid: "RECTANGLE", curviness: 0 }, { from: -12, category: "Comment", to: 11, pid: "HEADER" }, { from: -13, category: "Comment", to: 11, pid: "BUTTON" }, { from: -14, category: "Comment", to: 11, pid: "LIST" }, { from: -15, category: "Comment", to: 11, pid: "AddressTEXTBLOCK" }, { from: -16, category: "Comment", to: 11, pid: "AddressSHAPE" }, { from: -17, category: "Comment", to: 11, pid: "ContactNameITEMPANEL" } ]; diagram.model = model; </pre> <script>goCode("commented", 650, 450)</script> <p> As you can see, a node or a link can be composed of many GraphObjects, including <a>Panel</a>s that may be nested. You can drag around any comment in order to see the area covered by the GraphObject at the end of the comment link to it, except for the GraphObjects within the Link itself. </p> <h2 id="BuildingWithCode">Building with Code</h2> <p> A <a>GraphObject</a> is a JavaScript object that can be constructed and initialized in the same manner as any other object. A <a>Node</a> is a <a>GraphObject</a> that contains <a>GraphObject</a>s such as <a>TextBlock</a>s, <a>Shape</a>s, <a>Picture</a>s, and <a>Panel</a>s that may contain yet more GraphObjects. </p> <p> A very simple Node might consist of a Shape and a TextBlock. You can build such a visual tree of GraphObjects using code such as: </p> <pre class="lang-js" id="simpleCode"> var node = new go.Node(go.Panel.Auto); var shape = new go.Shape(); shape.figure = "RoundedRectangle"; shape.fill = "lightblue"; node.add(shape); var textblock = new go.TextBlock(); textblock.text = "Hello!"; textblock.margin = 5; node.add(textblock); diagram.add(node); </pre> <p> This code produces the following diagram. It is a "live" diagram, not a screenshot image, so you can click on the node to select it and then drag it around. </p> <script>goCode("simpleCode", 250, 150)</script> <p> Although building a node in this manner will work, as the nodes get more complicated the code will become more complicated to read and to maintain. Fortunately <b>GoJS</b> has a better way to make Parts out of GraphObjects. </p> <p> Furthermore, later sections will discuss how Nodes and Links should be created automatically using models, templates, and data-binding. Until that time, these pages will create Nodes explicitly and add them to Diagrams directly. </p> <h2 id="BuildingWithMake">Building with <b>GraphObject.make</b></h2> <p> <b>GoJS</b> defines a static function, <a>GraphObject,make</a>, that is very useful in constructing GraphObjects without having to think of and keep track of temporary variable names. This static function also supports building objects in a nested fashion, where the indentation gives you a clue about depth in the visual tree, unlike the simple linear code shown above. </p> <p> <a>GraphObject,make</a> is a function whose first argument must be a class type, typically a subclass of <a>GraphObject</a>. </p> <p> Additional arguments to <a>GraphObject,make</a> may be of several types: </p> <ul> <li>a plain JavaScript object with property/value pairs -- these property values are set on the object being constructed</li> <li>a <a>GraphObject</a>, which is added as an element to the <a>Panel</a> that is being constructed</li> <li>a <b>GoJS</b> enumerated value constant, which is used as the value of the unique property of the object being constructed that can accept such a value</li> <li>a string, which sets the <a>TextBlock.text</a>, <a>Shape.figure</a>, <a>Picture.source</a>, or <a>Panel.type</a> property of the object that is being constructed</li> <li>a <a>RowColumnDefinition</a>, for describing rows or columns in Table <a>Panel</a>s</li> <li>a JavaScript Array, holding arguments to <a>GraphObject,make</a>, useful when returning more than one argument from a function</li> <li>other specialized objects that are used in the appropriate manner for the object being constructed</li> </ul> <p> We can rewrite the code above with <b>go.GraphObject.make</b> to produce exactly the same results: </p> <pre class="lang-js" id="simpleJSAML"> var $ = go.GraphObject.make; diagram.add( $(go.Node, go.Panel.Auto, $(go.Shape, { figure: "RoundedRectangle", fill: "lightblue" }), $(go.TextBlock, { text: "Hello!", margin: 5 }) )); </pre> <script>goCode("simpleJSAML", 250, 150)</script> <p> This can be simplified a bit by using string arguments: </p> <pre class="lang-js" id="simpleJSAML2"> var $ = go.GraphObject.make; diagram.add( $(go.Node, "Auto", $(go.Shape, "RoundedRectangle", { fill: "lightblue" }), $(go.TextBlock, "Hello!", { margin: 5 }) )); </pre> <script>goCode("simpleJSAML2", 250, 150)</script> <p> Notice how we set the <a>Panel.type</a>, <a>Shape.figure</a>, and <a>TextBlock.text</a> properties by just using the string value. </p> <p> The use of <b>$</b> as an abbreviation for <b>go.GraphObject.make</b> is so handy that we will assume its use from now on. Having the call to <b>go.GraphObject.make</b> be minimized into a single character helps remove clutter from the code and lets the indentation match the nesting of <a>GraphObject</a>s in the visual tree that is being constructed. </p> <p> Some other JavaScript libraries automatically define "$" to be a handy-to-type function name, assuming that they are the only library that matters. But you cannot have the same symbol have two different meanings at the same time in the same scope, of course. So you may want to choose to use a different short name, such as "$$" or "GO" when using <b>GoJS</b>. The <b>GoJS</b> documentation and samples make use of "$" because it makes the resulting code most clear. </p> <p class="box bg-info"> Another advantage of using <a>GraphObject,make</a> is that it will make sure that any properties that you set are defined properties on the class. If you have a typo in the name of the property, it will throw an error, for which you can see a message in the console log. </p> <p> <a>GraphObject,make</a> also works to build <b>GoJS</b> classes other than ones inheriting from <a>GraphObject</a>. Here is an example of using <b>go.GraphObject.make</b> to build a <a>Brush</a> rather than a <a>GraphObject</a> subclass. </p> <pre class="lang-js" id="gradientJSAML"> diagram.add( $(go.Node, "Auto", $(go.Shape, "RoundedRectangle", { fill: $(go.Brush, "Linear", { 0.0: "Violet", 1.0: "Lavender" }) }), $(go.TextBlock, "Hello!", { margin: 5 }) )); </pre> <script>goCode("gradientJSAML", 250, 150)</script> <p> It is also common to use <a>GraphObject,make</a> to build a <a>Diagram</a>. In such a use a string argument, which if provided must be the second argument, will name the DIV HTML element that the Diagram should use. Equivalently you can pass a direct reference to the DIV element as the second argument. </p> <p> Also, when setting properties on a Diagram, you can use property names that are strings consisting of two identifiers separated by a period. The name before the period is used as the name of a property on the Diagram or on the <a>Diagram.toolManager</a> that returns an object whose property is to be set. The name after the period is the name of the property that is set. Note that because there is an embedded period, JavaScript property syntax requires that you use quotes. </p> <p> You can also declare <a>DiagramEvent</a> listeners, as if calling <a>Diagram.addDiagramListener</a>, by pretending to set a Diagram property that is actually the name of a DiagramEvent. Because all DiagramEvents have names that are capitalized, the names will not conflict with any Diagram property names. </p> <p> Here is a moderately extensive usage of GraphObject.make to build a Diagram: </p> <pre class="lang-js"> var myDiagram = $(go.Diagram, "myDiagramDiv", // must name or refer to the DIV HTML element { // don't initialize some properties until after a new model has been loaded "InitialLayoutCompleted": loadDiagramProperties, // a DiagramEvent listener // have mouse wheel events zoom in and out instead of scroll up and down "toolManager.mouseWheelBehavior": go.ToolManager.WheelZoom, // specify a data object to copy for each new Node that is created by clicking "clickCreatingTool.archetypeNodeData": { text: "new node" } }); // the DiagramEvent listener for "InitialLayoutCompleted" function loadDiagramProperties(e) { . . . } </pre> <p> All of this initialization using <a>GraphObject,make</a> is still JavaScript code, so we can call functions and easily share objects such as brushes: </p> <pre class="lang-js" id="codeJSAML"> var violetbrush = $(go.Brush, "Linear", { 0.0: "Violet", 1.0: "Lavender" }); diagram.add( $(go.Node, "Auto", $(go.Shape, "RoundedRectangle", { fill: violetbrush }), $(go.TextBlock, "Hello!", { margin: 5 }) )); diagram.add( $(go.Node, "Auto", $(go.Shape, "Ellipse", { fill: violetbrush }), $(go.TextBlock, "Goodbye!", { margin: 5 }) )); </pre> <script>goCode("codeJSAML", 250, 150)</script> <p> <a>Brush</a>es and <a>Geometry</a> objects may be shared, but <a>GraphObject</a>s may not be shared. </p> <p> The following pages will provide more details about the basic building block classes, <a>TextBlock</a>, <a>Shape</a>, and <a>Picture</a>, and about ways of aggregating them with the <a>Panel</a> class. </p> </div> </div> </body> </html>