views/ngXosViews/diagnostic/src/js/logicTopologyHelper.js - xos - Gitiles

 (function () {
   'use strict';

   angular.module('xos.serviceTopology')
   .service('LogicTopologyHelper', function($window, $log, lodash, serviceTopologyConfig){

     var hStep, vStep;

     const createDevice = (container, device, xPos, yPos, target) => {

       const deviceGroup = container.append('g')
       .attr({
         class: 'device',
         transform: `translate(${xPos}, ${yPos})`
       });

       const deviceEl = deviceGroup.append('circle')
       .attr({
         r: serviceTopologyConfig.circle.radius
       });

       deviceGroup.append('text')
       .attr({
         x: - serviceTopologyConfig.circle.radius - 3,
         dy: '.35em',
         'text-anchor': 'end'
       })
       .text(device.name)

       const [deviceX, deviceY] = d3.transform(deviceEl.attr('transform')).translate;
       const [deviceGroupX, deviceGroupY] = d3.transform(deviceGroup.attr('transform')).translate;
       let [targetX, targetY] = d3.transform(target.attr('transform')).translate;

       targetX = targetX - deviceGroupX;
       targetY = targetY - deviceGroupY;

       console.log('Device: ' + deviceX, deviceY);
       console.log('Subscriber: ' + targetX, targetY);

       var diagonal = d3.svg.diagonal()
       .source({x: deviceX, y: deviceY})
       .target({x: targetX, y: targetY})
       // .projection(d => {
       //   return [d.y, d.x];
       // });

       deviceGroup
         .append('path')
         .attr('class', 'device-link')
         .attr('d', diagonal);
     }

     const createSubscriber = (container, subscriber, xPos, yPos) => {

       const subscriberGroup = container.append('g')
       .attr({
         class: 'subscriber',
         transform: `translate(${xPos * 2}, ${yPos})`
       });

       subscriberGroup.append('circle')
       .attr({
         r: serviceTopologyConfig.circle.radius
       });

       subscriberGroup.append('text')
       .attr({
         x: serviceTopologyConfig.circle.radius + 3,
         dy: '.35em',
         'text-anchor': 'start'
       })
       .text(subscriber.humanReadableName)

       // TODO
       // starting from the subscriber position, we should center
       // the device goup based on his own height
       // const deviceContainer = container.append('g')
       // .attr({
       //   class: 'devices-container',
       //   transform: `translate(${xPos}, ${yPos -(vStep / 2)})`
       // });

       angular.forEach(subscriber.devices, (device, j) => {
         createDevice(container, device, xPos, ((vStep / subscriber.devices.length) * j) + (yPos - vStep / 2), subscriberGroup);
       });
     }

     this.handleSubscribers = (svg, subscribers) => {

       // HACKY
       hStep = angular.element(svg[0])[0].clientWidth / 7;
       vStep = angular.element(svg[0])[0].clientHeight / (subscribers.length + 1);

       const container = svg.append('g')
       .attr({
         class: 'subscribers-container'
       });

       lodash.forEach(subscribers, (subscriber, i) => {
         createSubscriber(container, subscriber, hStep, vStep * (i + 1));
       })
     }

     var diagonal, nodes, links, i = 0, svgWidth, svgHeight, layout;

     const baseData = {
       name: 'Router',
       type: 'router',
       children: [
         {
           name: 'WAN',
           type: 'network',
           children: [
             {
               name: 'Rack',
               type: 'rack',
               children: [
                 {
                   name: 'LAN',
                   type: 'network',
                   children: [] //subscribers goes here
                 }
               ]
             }
           ]
         }
       ]
     };

     const computeLayout = (data) => {
       let nodes = layout.nodes(data);

       // Normalize for fixed-depth.
       nodes.forEach(function(d) {
         // position the child node horizontally
         const step = ((svgWidth - (serviceTopologyConfig.widthMargin * 2)) / 7);
         d.y = (6 - d.depth) * step;
       });

       let links = layout.links(nodes);
       console.log(nodes.length, links.length);
       return [nodes, links];
     };

     const drawNodes = (svg, nodes) => {
       // Update the nodes…
       var node = svg.selectAll('g.node')
       .data(nodes, d => {return d.id || (d.id = `tree-${i++}`)});

       // Enter any new nodes at the parent's previous position.
       var nodeEnter = node.enter().append('g')
       .attr({
         class: d => `node ${d.type}`,
         transform: `translate(${svgWidth / 2}, ${svgHeight / 2})`
       });

       nodeEnter.append('circle')
         .attr('r', 10)
         .style('fill', d => d._children ? 'lightsteelblue' : '#fff');

       nodeEnter.append('text')
         .attr({
           x: d => d.children ? serviceTopologyConfig.circle.selectedRadius + 3 : -serviceTopologyConfig.circle.selectedRadius - 3,
           dy: '.35em',
           transform: d => {
             if (d.children && d.parent){
               if(d.parent.x < d.x){
                 return 'rotate(-30)';
               }
               return 'rotate(30)';
             }
           },
           'text-anchor': d => d.children ? 'start' : 'end'
         })
         .text(d => d.name);

       // Transition nodes to their new position.
       var nodeUpdate = node.transition()
         .duration(serviceTopologyConfig.duration)
         .attr({
           'transform': d => `translate(${d.y},${d.x})`
         });

       // TODO handle node remove
     };

     const drawLinks = (svg, links) => {

       diagonal = d3.svg.diagonal()
       .projection(d => [d.y, d.x]);

       // Update the links…
       var link = svg.selectAll('path.link')
         .data(links, d => {
           return d.target.id
         });

       // Enter any new links at the parent's previous position.
       link.enter().insert('path', 'g')
         .attr('class', d => `link ${d.target.type}`)
         .attr('d', function(d) {
           var o = {x: svgHeight / 2, y: svgWidth / 2};
           return diagonal({source: o, target: o});
         });

       // Transition links to their new position.
       link.transition()
         .duration(serviceTopologyConfig.duration)
         .attr('d', diagonal);
     };

     this.drawTree = (svg) => {


       svgWidth = svg.node().getBoundingClientRect().width;
       svgHeight = svg.node().getBoundingClientRect().height;

       const width = svgWidth - (serviceTopologyConfig.widthMargin * 2);
       const height = svgHeight - (serviceTopologyConfig.heightMargin * 2);

       layout = d3.layout.tree()
       .size([height, width]);

       // Compute the new tree layout.
       [nodes, links] = computeLayout(baseData);

       drawNodes(svg, nodes);
       drawLinks(svg, links);

     };

     this.addSubscribers = (svg, subscribers) => {

       console.log(subscribers);

       subscribers.map((subscriber) => {
         subscriber.children = subscriber.devices;
       });

       // add subscriber to data tree
       baseData.children[0].children[0].children[0].children = subscribers;

       console.log(baseData);

       [nodes, links] = computeLayout(baseData);

       drawNodes(svg, nodes);
       drawLinks(svg, links);
     }
   });

 }());
	(function () {
	'use strict';

	angular.module('xos.serviceTopology')
	.service('LogicTopologyHelper', function($window, $log, lodash, serviceTopologyConfig){

	var hStep, vStep;

	const createDevice = (container, device, xPos, yPos, target) => {

	const deviceGroup = container.append('g')
	.attr({
	class: 'device',
	transform: `translate(${xPos}, ${yPos})`
	});

	const deviceEl = deviceGroup.append('circle')
	.attr({
	r: serviceTopologyConfig.circle.radius
	});

	deviceGroup.append('text')
	.attr({
	x: - serviceTopologyConfig.circle.radius - 3,
	dy: '.35em',
	'text-anchor': 'end'
	})
	.text(device.name)

	const [deviceX, deviceY] = d3.transform(deviceEl.attr('transform')).translate;
	const [deviceGroupX, deviceGroupY] = d3.transform(deviceGroup.attr('transform')).translate;
	let [targetX, targetY] = d3.transform(target.attr('transform')).translate;

	targetX = targetX - deviceGroupX;
	targetY = targetY - deviceGroupY;

	console.log('Device: ' + deviceX, deviceY);
	console.log('Subscriber: ' + targetX, targetY);

	var diagonal = d3.svg.diagonal()
	.source({x: deviceX, y: deviceY})
	.target({x: targetX, y: targetY})
	// .projection(d => {
	// return [d.y, d.x];
	// });

	deviceGroup
	.append('path')
	.attr('class', 'device-link')
	.attr('d', diagonal);
	}

	const createSubscriber = (container, subscriber, xPos, yPos) => {

	const subscriberGroup = container.append('g')
	.attr({
	class: 'subscriber',
	transform: `translate(${xPos * 2}, ${yPos})`
	});

	subscriberGroup.append('circle')
	.attr({
	r: serviceTopologyConfig.circle.radius
	});

	subscriberGroup.append('text')
	.attr({
	x: serviceTopologyConfig.circle.radius + 3,
	dy: '.35em',
	'text-anchor': 'start'
	})
	.text(subscriber.humanReadableName)

	// TODO
	// starting from the subscriber position, we should center
	// the device goup based on his own height
	// const deviceContainer = container.append('g')
	// .attr({
	// class: 'devices-container',
	// transform: `translate(${xPos}, ${yPos -(vStep / 2)})`
	// });

	angular.forEach(subscriber.devices, (device, j) => {
	createDevice(container, device, xPos, ((vStep / subscriber.devices.length) * j) + (yPos - vStep / 2), subscriberGroup);
	});
	}

	this.handleSubscribers = (svg, subscribers) => {

	// HACKY
	hStep = angular.element(svg[0])[0].clientWidth / 7;
	vStep = angular.element(svg[0])[0].clientHeight / (subscribers.length + 1);

	const container = svg.append('g')
	.attr({
	class: 'subscribers-container'
	});

	lodash.forEach(subscribers, (subscriber, i) => {
	createSubscriber(container, subscriber, hStep, vStep * (i + 1));
	})
	}

	var diagonal, nodes, links, i = 0, svgWidth, svgHeight, layout;

	const baseData = {
	name: 'Router',
	type: 'router',
	children: [
	{
	name: 'WAN',
	type: 'network',
	children: [
	{
	name: 'Rack',
	type: 'rack',
	children: [
	{
	name: 'LAN',
	type: 'network',
	children: [] //subscribers goes here
	}
	]
	}
	]
	}
	]
	};

	const computeLayout = (data) => {
	let nodes = layout.nodes(data);

	// Normalize for fixed-depth.
	nodes.forEach(function(d) {
	// position the child node horizontally
	const step = ((svgWidth - (serviceTopologyConfig.widthMargin * 2)) / 7);
	d.y = (6 - d.depth) * step;
	});

	let links = layout.links(nodes);
	console.log(nodes.length, links.length);
	return [nodes, links];
	};

	const drawNodes = (svg, nodes) => {
	// Update the nodes…
	var node = svg.selectAll('g.node')
	.data(nodes, d => {return d.id \|\| (d.id = `tree-${i++}`)});

	// Enter any new nodes at the parent's previous position.
	var nodeEnter = node.enter().append('g')
	.attr({
	class: d => `node ${d.type}`,
	transform: `translate(${svgWidth / 2}, ${svgHeight / 2})`
	});

	nodeEnter.append('circle')
	.attr('r', 10)
	.style('fill', d => d._children ? 'lightsteelblue' : '#fff');

	nodeEnter.append('text')
	.attr({
	x: d => d.children ? serviceTopologyConfig.circle.selectedRadius + 3 : -serviceTopologyConfig.circle.selectedRadius - 3,
	dy: '.35em',
	transform: d => {
	if (d.children && d.parent){
	if(d.parent.x < d.x){
	return 'rotate(-30)';
	}
	return 'rotate(30)';
	}
	},
	'text-anchor': d => d.children ? 'start' : 'end'
	})
	.text(d => d.name);

	// Transition nodes to their new position.
	var nodeUpdate = node.transition()
	.duration(serviceTopologyConfig.duration)
	.attr({
	'transform': d => `translate(${d.y},${d.x})`
	});

	// TODO handle node remove
	};

	const drawLinks = (svg, links) => {

	diagonal = d3.svg.diagonal()
	.projection(d => [d.y, d.x]);

	// Update the links…
	var link = svg.selectAll('path.link')
	.data(links, d => {
	return d.target.id
	});

	// Enter any new links at the parent's previous position.
	link.enter().insert('path', 'g')
	.attr('class', d => `link ${d.target.type}`)
	.attr('d', function(d) {
	var o = {x: svgHeight / 2, y: svgWidth / 2};
	return diagonal({source: o, target: o});
	});

	// Transition links to their new position.
	link.transition()
	.duration(serviceTopologyConfig.duration)
	.attr('d', diagonal);
	};

	this.drawTree = (svg) => {


	svgWidth = svg.node().getBoundingClientRect().width;
	svgHeight = svg.node().getBoundingClientRect().height;

	const width = svgWidth - (serviceTopologyConfig.widthMargin * 2);
	const height = svgHeight - (serviceTopologyConfig.heightMargin * 2);

	layout = d3.layout.tree()
	.size([height, width]);

	// Compute the new tree layout.
	[nodes, links] = computeLayout(baseData);

	drawNodes(svg, nodes);
	drawLinks(svg, links);

	};

	this.addSubscribers = (svg, subscribers) => {

	console.log(subscribers);

	subscribers.map((subscriber) => {
	subscriber.children = subscriber.devices;
	});

	// add subscriber to data tree
	baseData.children[0].children[0].children[0].children = subscribers;

	console.log(baseData);

	[nodes, links] = computeLayout(baseData);

	drawNodes(svg, nodes);
	drawLinks(svg, links);
	}
	});

	}());