有关如何使用JS组件中Gojs组件
前言:之前分享过两篇关于流程画图的前端组件,使用的jsPlumb。这个组件本身还不错,使用方便、入门简单、轻量级,但是使用一段时间下来,发现一些弊病,比如组件不太稳定,初始进入页面的时候连线的样式有时会乱掉,刷新页面之后才能恢复正常,而且连线样式比较单一,容易让人产生视觉疲劳,加之最近公司在大力推行所谓的“工业4.0”,除了对自动化控制要求的提高之外,对这种图形化界面的要求也随之提高,所以单纯的jsPlumb组件效果已经不能满足日益发展的公司业务。基于以上种种,最终找到了Gojs组件,它效果强大、api丰富,唯一的不足就是这个组件是一个收费组件,可是在天朝,嘘...这是个不能说的秘密!
本文原创地址:http://www.cnblogs.com/landeanfen/p/7910530.html
一、组件效果预览
先来两个炫酷点的效果
就最下面两个效果而言,就是jsPlumb无法实现的,可是这种效果在MES系统里面是很吸引人的,尤其是一些流程性的业务,用这种效果实现让可以一眼就感觉高大上了。并且咋一眼看上去,你根本都不相信这是一个web页面的效果。
其他效果示例
可折叠的树
这是图片吗?
竟然还可以生成图表!
想抢visio的饭碗吗?
更多示例可查看官网
二、初次接触
老规矩,还是先来个入门教程。
源码下载:https://github.com/NorthwoodsSoftware/GoJS
api详情:https://gojs.net/latest/api/index.html
示例地址:https://gojs.net/latest/samples/index.html
1、Gojs简介
GoJS是一个功能丰富的JS库,在Web浏览器和平台上可实现自定义交互图和复杂的可视化效果,它用自定义模板和布局组件简化了节点、链接和分组等复杂的JS图表,给用户交互提供了许多先进的功能,如拖拽、复制、粘贴、文本编辑、工具提示、上下文菜单、自动布局、模板、数据绑定和模型、事务状态和撤销管理、调色板、概述、事件处理程序、命令和自定义操作的扩展工具系统。无需切换服务器和插件,GoJS就能实现用户互动并在浏览器中完全运行,呈现HTML5 Canvas元素或SVG,也不用服务器端请求。 GoJS不依赖于任何JS库或框架(例如bootstrap、jquery等),可与任何HTML或JS框架配合工作,甚至可以不用框架。
2、使用入门
(1)文件引用
<script src="gojs/go-debug_ok.js"></script>
可以用cdn上面的最新版本,也可以引用本地down下来的文件。如果是开发,可以引用debug版本的js,正式运行的时候引用正式的js,这个无需多讲。
(2)创建画布
随便定义一个html元素,作为我们的画布
<p id="myDiagramp" style="margin:auto;width:300px; height:300px; background-color:#ddd;"></p>
然后使用gojs的api初始化画布
//创建画布 var objGo = go.GraphObject.make; var myDiagram = objGo(go.Diagram, "myDiagramp", { //模型图的中心位置所在坐标 initialContentAlignment: go.Spot.Center, //允许用户操作图表的时候使用Ctrl-Z撤销和Ctrl-Y重做快捷键 "undoManager.isEnabled": true, //不运行用户改变图表的规模 allowZoom: false, //画布上面是否出现网格 "grid.visible": true, //允许在画布上面双击的时候创建节点 "clickCreatingTool.archetypeNodeData": { text: "Node" }, //允许使用ctrl+c、ctrl+v复制粘贴 "commandHandler.copiesTree": true, //允许使用delete键删除节点 "commandHandler.deletesTree": true, // dragging for both move and copy "draggingTool.dragsTree": true, });
官方示例用的$符号作为变量,博主觉得$符号太敏感,还是换个名字吧~以上几个参数都是博主摘选的,更多初始化画布的参数请参考官方api下图:
(3)创建模型数据(Model)
接着上面的代码,我们增加如下几行
var myModel = objGo(go.Model);//创建Model对象 // model中的数据每一个js对象都代表着一个相应的模型图中的元素 myModel.nodeDataArray = [ { key: "工厂" }, { key: "车间" }, { key: "工人" }, { key: "岗位" }, ]; myDiagram.model = myModel; //将模型数据绑定到画布图上
效果预览
(4)创建节点(Node)
上面有了画布和节点数据,只是有了一个雏形,但是还没有任何的图形化效果。我们加入一些效果试试
在gojs里面给我们提供了几种模型节点的可选项:
Shape:形状——Rectangle(矩形)、RoundedRectangle(圆角矩形),Ellipse(椭圆形),Triangle(三角形),Diamond(菱形),Circle(圆形)等
TextBlock:文本域(可编辑)
Picture:图片
Panel:容器来保存其他Node的集合
默认的节点模型代码只是由一个TextBlock组件构建成
我们增加如下一段代码
// 定义一个简单的节点模板 myDiagram.nodeTemplate = objGo(go.Node, "Horizontal",//横向布局的面板 // 节点淡蓝色背景 { background: "#44CCFF" }, objGo(go.Shape, "RoundedRectangle", //定义形状,这是圆角矩形 { /* Shape的参数。宽高颜色等等*/figure: "Club", width: 40, height: 60, margin: 4, fill: 'red' }, // 绑定 Shape.figure属性为Node.data.fig的值,Model对象可以通过Node.data.fig 获取和设置Shape.figure(修改形状) new go.Binding("figure", "fig"), new go.Binding('fill', 'fill2')), objGo(go.TextBlock, "Default Text", // 默认文本 // 设置字体大小颜色以及边距 { margin: 12, stroke: "white", font: "bold 16px sans-serif" }, //绑定TextBlock.text 属性为Node.data.name的值,Model对象可以通过Node.data.name获取和设置TextBlock.text new go.Binding("text", "name")) ); var myModel = objGo(go.Model);//创建Model对象 // model中的数据每一个js对象都代表着一个相应的模型图中的元素 myModel.nodeDataArray = [ { name: "工厂", fig: 'YinYang', fill2: 'blue' }, { name: "车间", fig: 'Peace', fill2: 'red' }, { name: "工人", fig: 'NotAllowed', fill2: 'green' }, { name: "岗位", fig: 'Fragile', fill2: 'yellow' }, ]; myDiagram.model = myModel; //将模型数据绑定到画布图上
代码释疑:以上我们给画布对象定义了两种节点模板,一种是文本节点,另一种是形状节点(Node)。在形状节点中,我们定义了数据模型的通用节点样式,就是这一段代码{ /* Shape的参数。宽高颜色等等*/figure: "Club", width: 40, height: 60, margin: 4, fill: 'red' },然后通过new go.Binding("figure", "fig")方法将模板里面的属性映射到数据实例中,比如这里模板里面的figure属性定义的是Club,如果在我们的数据里面定义fig属性,那么它就会覆盖模板里面的figure的默认值。同样,fill和fill2也是通过同样的原理去区别模板中的样式和实例中的实际样式的!
注:更多figure属性的取值详见这里
效果如下
由此可见我们数据里面的属性会覆盖模板的原始属性,如果是新增的节点,由于没有自定义数据属性,所以呈现到界面上面的时候就是模板里面的原生样式!
(5)节点连线
有了上面的基础,我们可以在画布上面画出我们想要的图形效果了,可是还没有连线。我们知道连线是建立在节点模型的上面的,于是乎我们的Model又分为了以下三种类型:
Model:最基本的(不带连线,如上面的例子)
GraphLinksModel :高级点的动态连线图
TreeModel:树形图的模型(从例子看好像用的不多)
GraphLinksModel中为model.nodeDataArray提供model.linkDataArray为node节点连线保存数据模型信息,其实也是的一个JSON数组对象,每个线条都有两个属性 “to” 和 “from” 即Node节点的“key”值,两个属性代表两个key表示两个节点间的连线。
我们上面已经写过最基本的Model的例子了,我们再来个带连线的Model的示例
var myModel = objGo(go.GraphLinksModel); myModel.nodeDataArray = [ { key: "aaa" ,name: "工厂" }, { key: "bbb" ,name: "车间"}, { key: "ccc" ,name: "车间" } ]; myModel.linkDataArray = [ { from: "aaa", to: "bbb" }, { from: "bbb", to: "ccc" } ]; myDiagram.model = myModel;
效果如下
学习了Model、GraphLinksModel,还剩下一种TreeModel树节点的模型,这个博主不打算做详细介绍,有兴趣可以直接查看官网。
三、综合效果
关于综合效果,博主不打算将gojs的api逐个翻个遍了,这样太耗时间,伤不起,只是将官方示例中的部分源码截取出来供大家参考。有需要的再细究!
1、自定义流程的使用
<!DOCTYPE html> <html> <head> <meta name="viewport" content="width=device-width, initial-scale=1"> <title>Draggable Link</title> <meta name="description" content="Drag a link to reconnect it. Nodes have custom Adornments for selection, resizing, and reshaping." /> <!-- Copyright 1998-2017 by Northwoods Software Corporation. --> <meta charset="UTF-8"> <script src="../../gojs/go-debug.js"></script> <script id="code"> function init() { if (window.goSamples) goSamples(); // init for these samples -- you don't need to call this var objGo = go.GraphObject.make; // for conciseness in defining templates myDiagram = objGo(go.Diagram, "myDiagramp", // must name or refer to the p HTML element { grid: objGo(go.Panel, "Grid", objGo(go.Shape, "LineH", { stroke: "lightgray", strokeWidth: 0.5 }), objGo(go.Shape, "LineH", { stroke: "gray", strokeWidth: 0.5, interval: 10 }), objGo(go.Shape, "LineV", { stroke: "lightgray", strokeWidth: 0.5 }), objGo(go.Shape, "LineV", { stroke: "gray", strokeWidth: 0.5, interval: 10 }) ), allowDrop: true, // must be true to accept drops from the Palette "draggingTool.dragsLink": true, "draggingTool.isGridSnapEnabled": true, "linkingTool.isUnconnectedLinkValid": true, "linkingTool.portGravity": 20, "relinkingTool.isUnconnectedLinkValid": true, "relinkingTool.portGravity": 20, "relinkingTool.fromHandleArchetype": objGo(go.Shape, "Diamond", { segmentIndex: 0, cursor: "pointer", desiredSize: new go.Size(8, 8), fill: "tomato", stroke: "darkred" }), "relinkingTool.toHandleArchetype": objGo(go.Shape, "Diamond", { segmentIndex: -1, cursor: "pointer", desiredSize: new go.Size(8, 8), fill: "darkred", stroke: "tomato" }), "linkReshapingTool.handleArchetype": objGo(go.Shape, "Diamond", { desiredSize: new go.Size(7, 7), fill: "lightblue", stroke: "deepskyblue" }), rotatingTool: objGo(TopRotatingTool), // defined below "rotatingTool.snapAngleMultiple": 15, "rotatingTool.snapAngleEpsilon": 15, "undoManager.isEnabled": true }); // when the document is modified, add a "*" to the title and enable the "Save" button myDiagram.addDiagramListener("Modified", function(e) { var button = document.getElementById("SaveButton"); if (button) button.disabled = !myDiagram.isModified; var idx = document.title.indexOf("*"); if (myDiagram.isModified) { if (idx < 0) document.title += "*"; } else { if (idx >= 0) document.title = document.title.substr(0, idx); } }); // Define a function for creating a "port" that is normally transparent. // The "name" is used as the GraphObject.portId, the "spot" is used to control how links connect // and where the port is positioned on the node, and the boolean "output" and "input" arguments // control whether the user can draw links from or to the port. function makePort(name, spot, output, input) { // the port is basically just a small transparent square return objGo(go.Shape, "Circle", { fill: null, // not seen, by default; set to a translucent gray by showSmallPorts, defined below stroke: null, desiredSize: new go.Size(7, 7), alignment: spot, // align the port on the main Shape alignmentFocus: spot, // just inside the Shape portId: name, // declare this object to be a "port" fromSpot: spot, toSpot: spot, // declare where links may connect at this port fromLinkable: output, toLinkable: input, // declare whether the user may draw links to/from here cursor: "pointer" // show a different cursor to indicate potential link point }); } var nodeSelectionAdornmentTemplate = objGo(go.Adornment, "Auto", objGo(go.Shape, { fill: null, stroke: "deepskyblue", strokeWidth: 1.5, strokeDashArray: [4, 2] }), objGo(go.Placeholder) ); var nodeResizeAdornmentTemplate = objGo(go.Adornment, "Spot", { locationSpot: go.Spot.Right }, objGo(go.Placeholder), objGo(go.Shape, { alignment: go.Spot.TopLeft, cursor: "nw-resize", desiredSize: new go.Size(6, 6), fill: "lightblue", stroke: "deepskyblue" }), objGo(go.Shape, { alignment: go.Spot.Top, cursor: "n-resize", desiredSize: new go.Size(6, 6), fill: "lightblue", stroke: "deepskyblue" }), objGo(go.Shape, { alignment: go.Spot.TopRight, cursor: "ne-resize", desiredSize: new go.Size(6, 6), fill: "lightblue", stroke: "deepskyblue" }), objGo(go.Shape, { alignment: go.Spot.Left, cursor: "w-resize", desiredSize: new go.Size(6, 6), fill: "lightblue", stroke: "deepskyblue" }), objGo(go.Shape, { alignment: go.Spot.Right, cursor: "e-resize", desiredSize: new go.Size(6, 6), fill: "lightblue", stroke: "deepskyblue" }), objGo(go.Shape, { alignment: go.Spot.BottomLeft, cursor: "se-resize", desiredSize: new go.Size(6, 6), fill: "lightblue", stroke: "deepskyblue" }), objGo(go.Shape, { alignment: go.Spot.Bottom, cursor: "s-resize", desiredSize: new go.Size(6, 6), fill: "lightblue", stroke: "deepskyblue" }), objGo(go.Shape, { alignment: go.Spot.BottomRight, cursor: "sw-resize", desiredSize: new go.Size(6, 6), fill: "lightblue", stroke: "deepskyblue" }) ); var nodeRotateAdornmentTemplate = objGo(go.Adornment, { locationSpot: go.Spot.Center, locationObjectName: "CIRCLE" }, objGo(go.Shape, "Circle", { name: "CIRCLE", cursor: "pointer", desiredSize: new go.Size(7, 7), fill: "lightblue", stroke: "deepskyblue" }), objGo(go.Shape, { geometryString: "M3.5 7 L3.5 30", isGeometryPositioned: true, stroke: "deepskyblue", strokeWidth: 1.5, strokeDashArray: [4, 2] }) ); myDiagram.nodeTemplate = objGo(go.Node, "Spot", { locationSpot: go.Spot.Center }, new go.Binding("location", "loc", go.Point.parse).makeTwoWay(go.Point.stringify), { selectable: true, selectionAdornmentTemplate: nodeSelectionAdornmentTemplate }, { resizable: true, resizeObjectName: "PANEL", resizeAdornmentTemplate: nodeResizeAdornmentTemplate }, { rotatable: true, rotateAdornmentTemplate: nodeRotateAdornmentTemplate }, new go.Binding("angle").makeTwoWay(), // the main object is a Panel that surrounds a TextBlock with a Shape objGo(go.Panel, "Auto", { name: "PANEL" }, new go.Binding("desiredSize", "size", go.Size.parse).makeTwoWay(go.Size.stringify), objGo(go.Shape, "Rectangle", // default figure { portId: "", // the default port: if no spot on link data, use closest side fromLinkable: true, toLinkable: true, cursor: "pointer", fill: "white", // default color strokeWidth: 2 }, new go.Binding("figure"), new go.Binding("fill")), objGo(go.TextBlock, { font: "bold 11pt Helvetica, Arial, sans-serif", margin: 8, maxSize: new go.Size(160, NaN), wrap: go.TextBlock.WrapFit, editable: true }, new go.Binding("text").makeTwoWay()) ), // four small named ports, one on each side: makePort("T", go.Spot.Top, false, true), makePort("L", go.Spot.Left, true, true), makePort("R", go.Spot.Right, true, true), makePort("B", go.Spot.Bottom, true, false), { // handle mouse enter/leave events to show/hide the ports mouseEnter: function(e, node) { showSmallPorts(node, true); }, mouseLeave: function(e, node) { showSmallPorts(node, false); } } ); function showSmallPorts(node, show) { node.ports.each(function(port) { if (port.portId !== "") { // don't change the default port, which is the big shape port.fill = show ? "rgba(0,0,0,.3)" : null; } }); } var linkSelectionAdornmentTemplate = objGo(go.Adornment, "Link", objGo(go.Shape, // isPanelMain declares that this Shape shares the Link.geometry { isPanelMain: true, fill: null, stroke: "deepskyblue", strokeWidth: 0 }) // use selection object's strokeWidth ); myDiagram.linkTemplate = objGo(go.Link, // the whole link panel { selectable: true, selectionAdornmentTemplate: linkSelectionAdornmentTemplate }, { relinkableFrom: true, relinkableTo: true, reshapable: true }, { routing: go.Link.AvoidsNodes, curve: go.Link.JumpOver, corner: 5, toShortLength: 4 }, new go.Binding("points").makeTwoWay(), objGo(go.Shape, // the link path shape { isPanelMain: true, strokeWidth: 2 }), objGo(go.Shape, // the arrowhead { toArrow: "Standard", stroke: null }), objGo(go.Panel, "Auto", new go.Binding("visible", "isSelected").ofObject(), objGo(go.Shape, "RoundedRectangle", // the link shape { fill: "#F8F8F8", stroke: null }), objGo(go.TextBlock, { textAlign: "center", font: "10pt helvetica, arial, sans-serif", stroke: "#919191", margin: 2, minSize: new go.Size(10, NaN), editable: true }, new go.Binding("text").makeTwoWay()) ) ); load(); // load an initial diagram from some JSON text // initialize the Palette that is on the left side of the page myPalette = objGo(go.Palette, "myPalettep", // must name or refer to the p HTML element { maxSelectionCount: 1, nodeTemplateMap: myDiagram.nodeTemplateMap, // share the templates used by myDiagram linkTemplate: // simplify the link template, just in this Palette objGo(go.Link, { // because the GridLayout.alignment is Location and the nodes have locationSpot == Spot.Center, // to line up the Link in the same manner we have to pretend the Link has the same location spot locationSpot: go.Spot.Center, selectionAdornmentTemplate: objGo(go.Adornment, "Link", { locationSpot: go.Spot.Center }, objGo(go.Shape, { isPanelMain: true, fill: null, stroke: "deepskyblue", strokeWidth: 0 }), objGo(go.Shape, // the arrowhead { toArrow: "Standard", stroke: null }) ) }, { routing: go.Link.AvoidsNodes, curve: go.Link.JumpOver, corner: 5, toShortLength: 4 }, new go.Binding("points"), objGo(go.Shape, // the link path shape { isPanelMain: true, strokeWidth: 2 }), objGo(go.Shape, // the arrowhead { toArrow: "Standard", stroke: null }) ), model: new go.GraphLinksModel([ // specify the contents of the Palette { text: "Start", figure: "Circle", fill: "#00AD5F" }, { text: "Step" }, { text: "DB", figure: "Database", fill: "lightgray" }, { text: "???", figure: "Diamond", fill: "lightskyblue" }, { text: "End", figure: "Circle", fill: "#CE0620" }, { text: "Comment", figure: "RoundedRectangle", fill: "lightyellow" } ], [ // the Palette also has a disconnected Link, which the user can drag-and-drop { points: new go.List(go.Point).addAll([new go.Point(0, 0), new go.Point(30, 0), new go.Point(30, 40), new go.Point(60, 40)]) } ]) }); } function TopRotatingTool() { go.RotatingTool.call(this); } go.Diagram.inherit(TopRotatingTool, go.RotatingTool); /** @override */ TopRotatingTool.prototype.updateAdornments = function(part) { go.RotatingTool.prototype.updateAdornments.call(this, part); var adornment = part.findAdornment("Rotating"); if (adornment !== null) { adornment.location = part.rotateObject.getDocumentPoint(new go.Spot(0.5, 0, 0, -30)); // above middle top } }; /** @override */ TopRotatingTool.prototype.rotate = function(newangle) { go.RotatingTool.prototype.rotate.call(this, newangle + 90); }; // end of TopRotatingTool class // Show the diagram's model in JSON format that the user may edit function save() { saveDiagramProperties(); // do this first, before writing to JSON document.getElementById("mySavedModel").value = myDiagram.model.toJson(); myDiagram.isModified = false; } function load() { myDiagram.model = go.Model.fromJson(document.getElementById("mySavedModel").value); loadDiagramProperties(); // do this after the Model.modelData has been brought into memory } function saveDiagramProperties() { myDiagram.model.modelData.position = go.Point.stringify(myDiagram.position); } function loadDiagramProperties(e) { // set Diagram.initialPosition, not Diagram.position, to handle initialization side-effects var pos = myDiagram.model.modelData.position; if (pos) myDiagram.initialPosition = go.Point.parse(pos); } </script> </head> <body onload="init()"> <p id="sample"> <p style="width:100%; white-space:nowrap;"> <span style="display: inline-block; vertical-align: top; width:105px"> <p id="myPalettep" style="border: solid 1px black; height: 620px"></p> </span> <span style="display: inline-block; vertical-align: top; width:80%"> <p id="myDiagramp" style="border: solid 1px black; height: 620px"></p> </span> </p> <p> This sample demonstrates the ability for the user to drag around a Link as if it were a Node. When either end of the link passes over a valid port, the port is highlighted. </p> <p> The link-dragging functionality is enabled by setting some or all of the following properties: <a>DraggingTool.dragsLink</a>, <a>LinkingTool.isUnconnectedLinkValid</a>, and <a>RelinkingTool.isUnconnectedLinkValid</a>. </p> <p> Note that a Link is present in the <a>Palette</a> so that it too can be dragged out and onto the main Diagram. Because links are not automatically routed when either end is not connected with a Node, the route is provided explicitly when that Palette item is defined. </p> <p> This also demonstrates several custom Adornments: <a>Part.selectionAdornmentTemplate</a>, <a>Part.resizeAdornmentTemplate</a>, and <a>Part.rotateAdornmentTemplate</a>. </p> <p> Finally this sample demonstrates saving and restoring the <a>Diagram.position</a> as a property on the <a>Model.modelData</a> object that is automatically saved and restored when calling <a>Model.toJson</a> and <a>Model.fromJson</a>. </p> <p> <p> <button id="SaveButton" onclick="save()">Save</button> <button onclick="load()">Load</button> Diagram Model saved in JSON format: </p> <textarea id="mySavedModel" style="width:100%;height:300px"> { "class": "go.GraphLinksModel", "linkFromPortIdProperty": "fromPort", "linkToPortIdProperty": "toPort", "nodeDataArray": [ ], "linkDataArray": [ ]} </textarea> </p> </p> </body> </html>
效果如下:
建议各位copy代码,在本地看到效果,然后再根据实际需求去研究它的api,这样才不会太盲目而花费太多时间。
2、工业流程图
<!DOCTYPE html> <html> <head> <meta name="viewport" content="width=device-width, initial-scale=1"> <title>Process Flow</title> <meta name="description" content="A simple process flow or SCADA diagram editor, simulating equipment monitoring and control." /> <!-- Copyright 1998-2017 by Northwoods Software Corporation. --> <meta charset="UTF-8"> <script src="../../gojs/go-debug.js"></script> <script id="code"> function init() { if (window.goSamples) goSamples(); // init for these samples -- you don't need to call this var $ = go.GraphObject.make; // for more concise visual tree definitions myDiagram = $(go.Diagram, "myDiagramp", { "grid.visible": true, "grid.gridCellSize": new go.Size(30, 20), "draggingTool.isGridSnapEnabled": true, "resizingTool.isGridSnapEnabled": true, "rotatingTool.snapAngleMultiple": 90, "rotatingTool.snapAngleEpsilon": 45, "undoManager.isEnabled": true }); // when the document is modified, add a "*" to the title and enable the "Save" button myDiagram.addDiagramListener("Modified", function(e) { var button = document.getElementById("SaveButton"); if (button) button.disabled = !myDiagram.isModified; var idx = document.title.indexOf("*"); if (myDiagram.isModified) { if (idx < 0) document.title += "*"; } else { if (idx >= 0) document.title = document.title.substr(0, idx); } }); myDiagram.nodeTemplateMap.add("Process", $(go.Node, "Auto", { locationSpot: new go.Spot(0.5, 0.5), locationObjectName: "SHAPE", resizable: true, resizeObjectName: "SHAPE" }, new go.Binding("location", "pos", go.Point.parse).makeTwoWay(go.Point.stringify), $(go.Shape, "Cylinder1", { name: "SHAPE", strokeWidth: 2, fill: $(go.Brush, "Linear", { start: go.Spot.Left, end: go.Spot.Right, 0: "gray", 0.5: "white", 1: "gray" }), minSize: new go.Size(50, 50), portId: "", fromSpot: go.Spot.AllSides, toSpot: go.Spot.AllSides }, new go.Binding("desiredSize", "size", go.Size.parse).makeTwoWay(go.Size.stringify)), $(go.TextBlock, { alignment: go.Spot.Center, textAlign: "center", margin: 5, editable: true }, new go.Binding("text").makeTwoWay()) )); myDiagram.nodeTemplateMap.add("Valve", $(go.Node, "Vertical", { locationSpot: new go.Spot(0.5, 1, 0, -21), locationObjectName: "SHAPE", selectionObjectName: "SHAPE", rotatable: true }, new go.Binding("angle").makeTwoWay(), new go.Binding("location", "pos", go.Point.parse).makeTwoWay(go.Point.stringify), $(go.TextBlock, { alignment: go.Spot.Center, textAlign: "center", margin: 5, editable: true }, new go.Binding("text").makeTwoWay(), // keep the text upright, even when the whole node has been rotated upside down new go.Binding("angle", "angle", function(a) { return a === 180 ? 180 : 0; }).ofObject()), $(go.Shape, { name: "SHAPE", geometryString: "F1 M0 0 L40 20 40 0 0 20z M20 10 L20 30 M12 30 L28 30", strokeWidth: 2, fill: $(go.Brush, "Linear", { 0: "gray", 0.35: "white", 0.7: "gray" }), portId: "", fromSpot: new go.Spot(1, 0.35), toSpot: new go.Spot(0, 0.35) }) )); myDiagram.linkTemplate = $(go.Link, { routing: go.Link.AvoidsNodes, curve: go.Link.JumpGap, corner: 10, reshapable: true, toShortLength: 7 }, new go.Binding("points").makeTwoWay(), // mark each Shape to get the link geometry with isPanelMain: true $(go.Shape, { isPanelMain: true, stroke: "black", strokeWidth: 5 }), $(go.Shape, { isPanelMain: true, stroke: "gray", strokeWidth: 3 }), $(go.Shape, { isPanelMain: true, stroke: "white", strokeWidth: 1, name: "PIPE", strokeDashArray: [10, 10] }), $(go.Shape, { toArrow: "Triangle", fill: "black", stroke: null }) ); load(); loop(); // animate some flow through the pipes } function loop() { var diagram = myDiagram; setTimeout(function() { var oldskips = diagram.skipsUndoManager; diagram.skipsUndoManager = true; diagram.links.each(function(link) { var shape = link.findObject("PIPE"); var off = shape.strokeDashOffset - 2; shape.strokeDashOffset = (off <= 0) ? 20 : off; }); diagram.skipsUndoManager = oldskips; loop(); }, 100); } function save() { document.getElementById("mySavedModel").value = myDiagram.model.toJson(); myDiagram.isModified = false; } function load() { myDiagram.model = go.Model.fromJson(document.getElementById("mySavedModel").value); } </script> </head> <body onload="init()"> <p id="sample"> <p id="myDiagramp" style="border: solid 1px black; width:100%; height:500px"></p> <p> A <em>process flow diagram</em> is commonly used in chemical and process engineering to indicate the general flow of plant processes and equipment. A simple SCADA diagram, with animation of the flow along the pipes, is implemented here. </p> <p> The diagram displays the background grid layer by setting <b>grid.visible</b> to true, and also allows snapping to the grid using <a>DraggingTool.isGridSnapEnabled</a>, <a>ResizingTool.isGridSnapEnabled</a>, and <a>RotatingTool.snapAngleMultiple</a> alongside <a>RotatingTool.snapAngleEpsilon</a>. </p> <p> The diagram also uses the <b>loop</b> function to animate the links by adjusting the <a>Shape.strokeDashOffset</a> every 100 ms. </p> <p> <p> <button id="SaveButton" onclick="save()">Save</button> <button onclick="load()">Load</button> Diagram Model saved in JSON format: </p> <textarea id="mySavedModel" style="width:100%;height:300px"> { "class": "go.GraphLinksModel", "nodeDataArray": [ {"key":"P1", "category":"Process", "pos":"150 120", "text":"Process"}, {"key":"P2", "category":"Process", "pos":"330 320", "text":"Tank"}, {"key":"V1", "category":"Valve", "pos":"270 120", "text":"V1"}, {"key":"P3", "category":"Process", "pos":"150 420", "text":"Pump"}, {"key":"V2", "category":"Valve", "pos":"150 280", "text":"VM", "angle":270}, {"key":"V3", "category":"Valve", "pos":"270 420", "text":"V2", "angle":180}, {"key":"P4", "category":"Process", "pos":"450 140", "text":"Reserve Tank"}, {"key":"V4", "category":"Valve", "pos":"390 60", "text":"VA"}, {"key":"V5", "category":"Valve", "pos":"450 260", "text":"VB", "angle":90} ], "linkDataArray": [ {"from":"P1", "to":"V1"}, {"from":"P3", "to":"V2"}, {"from":"V2", "to":"P1"}, {"from":"P2", "to":"V3"}, {"from":"V3", "to":"P3"}, {"from":"V1", "to":"V4"}, {"from":"V4", "to":"P4"}, {"from":"V1", "to":"P2"}, {"from":"P4", "to":"V5"}, {"from":"V5", "to":"P2"} ]} </textarea> </p> </p> </body> </html>
工业流程图
四、总结
本文根据js的一些基础用法做了简单介绍,今天就先到这里,以后有问题了再来跟大家分享。如果你的项目里面也有这种业务需求,可以用起来试试!需要说明一点,如果您的公司不缺钱,建议使用正版授权的组件,毕竟尊重作者的劳动成果很重要!
上面是我整理给大家的,希望今后会对大家有帮助。
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