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	<!DOCTYPE html>
	<html>

	<!-- <div id="dv" class="six columns">
	<iframe id="myFrame" name="myFrame" src="https://seetha-ima-pipeline-streamlit.hf.space?embed=true"></iframe>
	</div> -->

	<head>
	<link rel = "stylesheet" href = "tree.css">
	<link rel = "stylesheet" href = "level2.css">
	<link rel = "stylesheet" href = "side.css">
	<meta name="viewport" content="width=device-width, initial-scale=1">
	<style>

	body {background-color: floralwhite;}
	</style>
	<style>


	#d1 {
	display: block;

	}
	#d2 {
	display: none;
	}
	table {
	border-collapse: collapse;
	table-layout: fixed;
	width: 100%;

	}

	th, td {
	border: 1px solid black;
	padding: 5px;
	text-align: center;

	}
	tr:hover {
	background-color: lightgoldenrodyellow;

	}
	th{
	position: sticky;
	top: 0;
	background-color: lightsteelblue;
	}



	</style>
	<center>
	<h1 style="color:black;">Causal Text to Knowledge Graph </h1>
	</center>
	</head>
	<body>


	<div id = "container">
	<div id = "tree">
	<script src="https://d3js.org/d3.v3.min.js"></script>
	<script>

	var treeData = [
	{
	"name": "Performance or Not",
	"children": [
	{
	"name": "Performance (P)",
	"children": [
	{
	"name": "Investors (INV)"
	},
	{
	"name": "Customers (CUS)"
	},
	{
	"name": "Employees (EMP)"

	},
	{
	"name": "Society (SOC)"
	},
	{
	"name": "Unclassified"
	}
	]
	},
	{
	"name": "Non-performance (NP)",
	}
	]
	}
	];

	var margin = {top: 20, right: 120, bottom: 20, left: 120},
	width = 800 - margin.right - margin.left,
	height = 620 - margin.top - margin.bottom;

	var i = 0,
	duration = 750,
	root;


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

	var diagonal = d3.svg.diagonal()
	.projection(function(d) { return [d.y, d.x]; });


	var svg3 = d3.select("#tree").append("svg")
	.attr("width", width + margin.right + margin.left)
	.attr("height", height + margin.top + margin.bottom)
	.append("g")
	.attr("transform", "translate(" + margin.left + "," + margin.top + ")");

	root = treeData[0];
	root.x0 = height / 2;
	root.y0 = 0;

	function collapse(d) {
	if (d.children) {
	d._children = d.children;
	d._children.forEach(collapse);
	d.children = null;
	}
	}

	root.children.forEach(collapse);
	update(root);

	function update(source) {

	// Compute the new tree layout.
	var nodes = tree.nodes(root).reverse(),
	links = tree.links(nodes);




	// Normalize for fixed-depth.
	nodes.forEach(function(d) { d.y = d.depth * 200; });

	// Update the nodes…
	var node = svg3.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("g")
	.attr("class", "node")
	.attr("transform", function(d) { return "translate(" + source.y0 + "," + source.x0 + ")"; })
	.on("click", click);

	nodeEnter.append("circle")
	.attr("r", 1e-6)
	.style("fill", function(d) {
	if(d.name == "Performance or Not") {
	return "white";
	}
	else if (d.name != "Non-performance (NP)") {
	return "blue";
	}
	else {
	return "gray";
	}
	});

	nodeEnter.append("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"; })
	.text(function(d) { return d.name; })
	.style("fill-opacity", 1e-6);


	var nodeUpdate = node.transition()
	.duration(duration)
	.attr("transform", function(d) { return "translate(" + d.y + "," + d.x + ")"; });

	nodeUpdate.select("circle")
	.attr("r", 8)
	.style("fill", function(d) {
	if(d.name == "Performance or Not") {
	return "white";
	}
	else if (d.name != "Non-performance (NP)") {
	return "blue";
	}
	else {
	return "gray";
	}
	});


	nodeUpdate.select("text")
	.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 = svg3.selectAll("path.link")
	.data(links, function(d) { return d.target.id; });


	// Enter any new links at the parent's previous position.
	link.enter().insert("path", "g")
	.attr("class", "link")
	.attr("d", function(d) {
	var o = {x: source.x0, y: source.y0};
	return diagonal({source: o, target: o});
	});
	link.style("stroke","gray");

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

	// 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 diagonal({source: o, target: o});
	})
	.remove();

	// Stash the old positions for transition.
	nodes.forEach(function(d) {
	d.x0 = d.x;
	d.y0 = d.y;
	});
	console.log(nodes.length);
	if(nodes.length ==3){

	var x = document.getElementById("d1"); // Get the graph for Level1 nodes
	var y = document.getElementById("d2"); // Get the graph for level 2 nodes
	// x.style.display = "block"; // If number of nodes ==3, then you will hide the level 2 graph and display the level 1 graph
	// y.style.display = "none";
	var container = document.querySelector(".container");
	// container.style.display = "none";

	} else if(nodes.length >=8){

	var x = document.getElementById("d1");
	var y = document.getElementById("d2");
	x.style.display = "none";
	y.style.display = "block";
	var container = document.querySelector(".container");
	// container.style.display = "none";

	}else if(nodes.length ==1){
	var x = document.getElementById("d1");
	var y = document.getElementById("d2");
	x.style.display = "none";
	y.style.display = "none";
	var container = document.querySelector(".container");
	// container.style.display = "none";
	}

	}




	// Toggle children on click.
	function click(d) {

	if (d.children) {
	d._children = d.children;
	d.children = null;
	} else {
	d.children = d._children;
	d._children = null;
	}


	update(d);




	}
	svg3.append("text")
	.attr("x", width/2 + 10)
	.attr("y", height - 150)
	.attr("text-anchor", "middle")
	.text("Taxonomy")
	.style("font-weight", "bold")
	.style("font-family", "Times New Roman")
	.style("font-size", "16px")
	.style("opacity", 0)
	.transition()
	.duration(2000)
	.style("opacity", 1);

	</script>
	</div>

	<div id="d1">
	<script src="//d3js.org/d3.v3.min.js"></script>
	<script>
	var width = 620,
	height = 570;
	// SVG for Level1 graph
	var svg = d3.select("#d1").append("svg")
	.attr("width", width)
	.attr("height", height)
	.append("g");


	var nodes1 = [
	{x: width / 4, y: height / 2, label: "Non-Performance"},
	{x: 3 * width / 4, y: height / 2, label: "Performance"}
	];

	var links1 = [
	{source: nodes1[0], target: nodes1[1]}
	];

	var simulation1 = d3.layout.force()
	.nodes(d3.values(nodes1))
	.links(links1)
	.size([width, height])
	.linkDistance(400)
	.charge(-3000)
	.start();

	var text1 = svg.append("g") // Append the node node names
	.attr("class", "labels")
	.selectAll("text")
	.data(nodes1)
	.enter().append("text")
	.text(function(d) { return d.label; })
	.attr("x", function(d) { return d.x+15; })
	.attr("y", function(d) { return d.y+20; });

	var link1 = svg.selectAll(".link") // Links between the nodes in the graph
	.data(links1)
	.enter()
	.append("line")
	.attr("class", "link")
	.attr("x1", function(d) { return d.source.x; })
	.attr("y1", function(d) { return d.source.y; })
	.attr("x2", function(d) { return d.target.x; })
	.attr("y2", function(d) { return d.target.y; });

	link1.style("stroke","gray") // Color of the link and stroke width
	.style("stroke-width",1.5+"px");


	var node1 = svg.append("g") // Nodes in the graph
	.attr("class", "nodes")
	.selectAll("circle")
	.data(nodes1)
	.enter().append("circle")
	.attr("r", 20)
	.style("fill", function(d){
	if(d.label == "Non-Performance"){
	return "gray";
	}else {
	return "blue";
	}
	})

	.attr("cx", function(d) { return d.x; })
	.attr("cy", function(d) { return d.y; })
	.on("mousedown",mousedown);

	//To get the detailed results
	function mousedown(d) {
	var tableContainer = d3.select('.container');
	tableContainer.remove();
	d3.select("table").remove();

	const nodeName = d.label;


	var container = d3.select('body')
	.append('div')
	.attr('class', 'container')
	.style('height', '250px')
	.style('overflow', 'auto');

	// Create the table element inside the container
	var table = container.append('table')
	.attr('class', 'table')
	.style('table-layout', 'auto')



	// Add a header row
	const headerRow = table.append("tr");
	headerRow.append("th").text("Id");
	headerRow.append("th").text("Full Sentence");
	headerRow.append("th").text("Component");
	headerRow.append("th").text("cause/effect");
	headerRow.append("th").text("Label level1");
	headerRow.append("th").text("Label level2");


	// Add a data row for the hovered node

	d3.json("detailedResults.json", function(data) {
	var table = d3.select("table"); // select the existing table
	var tbody = table.append("tbody"); // create a tbody element

	// loop through each item in the data array
	for (var i = 0; i < data.length; i++) {
	console.log(nodeName);
	console.log([data[i].Labellevel1])
	if(nodeName == [data[i].Labellevel1]) {
	console.log("yipee")

	var tr = tbody.append("tr"); // create a table row for each item

	// append a table cell with the Id property
	tr.append("td").text(data[i].Id);
	tr.append("td").text([data[i].Fullsentence]);
	tr.append("td").text([data[i].Component]);
	tr.append("td").text([data[i].causeOrEffect]);
	tr.append("td").text([data[i].Labellevel1]);
	tr.append("td").text([data[i].Labellevel2]);

	}


	}
	});
	}

	svg.append("text")
	.attr("x", width/2 + 10)
	.attr("y", height - 150)
	.attr("text-anchor", "middle")
	.text(" Click on a node to get the detailed results")
	.style("font-weight", "bold")
	.style("font-family", "Times New Roman")
	.style("font-size", "16px")
	.style("opacity", 0)
	.transition()
	.duration(2000)
	.style("opacity", 1);





	</script>
	</div>

	<div id="d2">
	<script src="https://d3js.org/d3.v3.min.js"></script>
	<script>

	// Load the data https://huggingface.co/datasets/Seetha/visual_files/
	d3.json("level2.json", function(data) {
	var links = data;
	console.log(links)


	// Compute the distinct nodes from the links.
	links.sort(function(a,b) {
	if (a.source > b.source) {return 1;}
	else if (a.source < b.source) {return -1;}
	else {
	if (a.target > b.target) {return 1;}
	if (a.target < b.target) {return -1;}
	else {return 0;}
	}
	});

	//any links with duplicate source and target get an incremented 'linknum'
	for (var i=0; i<links.length; i++) {
	if (i != 0 &&
	links[i].source == links[i-1].source &&
	links[i].target == links[i-1].target) {
	links[i].linknum = links[i-1].linknum + 1;
	}
	else {links[i].linknum = 1;};
	};

	var nodes = {};

	// Compute the distinct nodes from the links.
	links.forEach(function(link) {
	link.source = nodes[link.source] \|\| (nodes[link.source] = {name: link.source});
	link.target = nodes[link.target] \|\| (nodes[link.target] = {name: link.target});
	});


	// width and height of svg
	var width = 650,
	height = 620;


	var force = d3.layout.force()
	.nodes(d3.values(nodes))
	.links(links)
	.size([width, height])
	.linkDistance(380)
	.charge(-3000)
	.on("tick", tick)
	.start();

	var svg2 = d3.select("#d2").append("svg")
	.attr("width", width)
	.attr("height", height)
	.append("g");

	// Append the arrows
	svg2.append("svg:defs").selectAll("marker")
	.data(["arrow"])
	.enter().append("svg:marker")
	.attr("id", String)
	.attr("viewBox", "0 -5 10 10")
	.attr("refX", 22)
	.attr("refY", -1.8)
	.attr("markerWidth", 6)
	.attr("markerHeight", 6)
	.attr("orient", "auto")
	.append("svg:path")
	.attr("d", "M0,-5L10,0L0,5")

	// Per-type markers, as they don't inherit styles.
	var path = svg2.append("svg:g").selectAll("path")
	.data(force.links())
	.enter().append("svg:path")
	.attr("class", "link")
	.attr("id",function(d,i) { return "linkId_" + i; })
	.attr("marker-end", function(d) {
	if (d.source.name != d.target.name) {
	console.log("arrow"+ "url(#arrow)");
	return "url(#arrow)";
	} else {
	return "";
	}
	})
	.on("click", function(d) {

	console.log("Source: " + d.source.name);
	console.log("Target: " + d.target.name);

	path.style("stroke-width", 2+"px");
	d3.select(this)
	.transition()
	.duration(1000) // Animation duration in milliseconds
	.style("stroke-width", "3px");


	var nodeTable = document.querySelector(".container");
	nodeTable.style.display = "none";

	d3.select("table").remove();
	var tableContainer = d3.select('.container');
	tableContainer.remove();
	var tableheader = d3.select('.headerRow');
	tableheader.remove();

	const nodeName = d.name;
	console.log("Hovering over node:", nodeName);


	var container = d3.select('body')
	.append('div')
	.attr('class', 'container')
	.style('height', '250px')
	.style('overflow', 'auto');

	var table = container.append('table')
	.attr('class', 'table')
	.style('table-layout', 'auto')

	d3.selectAll('.table td')
	.style('font-size', '12px');


	const headerRow = table.append("tr");
	headerRow.append("th").text("Id");
	headerRow.append("th").text("Full Sentence");
	headerRow.append("th").text("Component");
	headerRow.append("th").text("cause/effect");
	headerRow.append("th").text("Label level1");
	headerRow.append("th").text("Label level2");

	d3.json("detailedResults.json", function(data) {
	var table = d3.select("table"); // select the existing table
	var tbody = table.append("tbody"); // create a tbody element

	// loop through each item in the data array
	for (var i = 0; i < data.length; i++) {
	var lableName = data[i].Labellevel2;
	var causeOrEffect = data[i].causeOrEffect;
	var id = data[i].Id;
	if(lableName == d.source.name && (causeOrEffect == "cause")){

	for (var j = 0; j < data.length; j++) {
	if(id == data[j].Id){
	var lableName = data[j].Labellevel2;
	var causeOrEffect = data[j].causeOrEffect;
	if(lableName == d.target.name && (causeOrEffect == "effect")) {

	var tr = tbody.append("tr"); // create a table row for each item

	tr.append("td").text(data[i].Id);
	tr.append("td").text([data[i].Fullsentence]);
	tr.append("td").text([data[i].Component]);
	tr.append("td").text([data[i].causeOrEffect]);
	tr.append("td").text([data[i].Labellevel1]);
	tr.append("td").text([data[i].Labellevel2]);

	tr = tbody.append("tr")
	// append a table cell with the Id property
	tr.append("td").text(data[j].Id);
	tr.append("td").text([data[j].Fullsentence]);
	tr.append("td").text([data[j].Component]);
	tr.append("td").text([data[j].causeOrEffect]);
	tr.append("td").text([data[j].Labellevel1]);
	tr.append("td").text([data[j].Labellevel2]);
	}

	}
	}


	}
	}


	});


	});


	path.style("stroke-width",function() { // width of the link
	return 2 + "px";

	})

	var node = svg2.selectAll(".node") //nodes in the graph
	.data(force.nodes())
	.enter().append("g")
	.attr("class", "node")
	.on("mousedown", mousedown)
	.call(force.drag);


	var colorScale = d3.scale.linear()
	.domain([0, 60]) // Set the domain of the scale to the minimum and maximum possible values of d.value
	.range(["#C0C0C0", "black"]); // Set the range of the scale to the minimum and maximum desired colors

	path.style("stroke", function(d) {
	console.log(d.value+colorScale(d.value))
	return colorScale(d.value); // Use the scale to map the value of d.value to a color
	});



	// create a map in order to compute the size of the node
	const map1 = new Map();
	for (var nodeName in nodes) {
	var sum = 0;
	console.log("sum"+nodeName)
	links.forEach(function (link) {
	if(nodeName == link.source.name \|\| nodeName == link.target.name) {
	sum = sum + link.value
	}
	map1.set(nodeName, sum);
	});

	}

	const min = Math.min(...map1.values());
	console.log(min); // 👉️ 3

	const max = Math.max(...map1.values());
	console.log(max);

	var myScale = d3.scale.linear()
	.domain([min, max])
	.range([10, 20]);

	node.append("circle")
	.attr("r", function(d) {
	console.log("radius"+myScale(map1.get(d.name)))
	return myScale(map1.get(d.name));
	})
	.style("fill", function(d){
	if(d.name == "Non-performance"){
	return "gray";
	}else{
	return "blue";
	}
	})
	.style("stroke", "black")



	var text = svg2.append("g").selectAll("text") // Lable of the node
	.data(force.nodes())
	.enter().append("text")
	.attr("x", 8)
	.attr("y", ".31em")
	.text(function(d) { return d.name; });
	var linktext = svg2.append("svg:g").selectAll("g.linklabelholder").data(force.links());

	linktext.enter().append("g").attr("class", "linklabelholder")
	.append("text")
	.attr("class", "linklabel")
	.style("font-size", "13px")
	.attr("x", "50")
	.attr("y", "-20")
	.attr("text-anchor", "start")
	.style("fill","#000")
	.append("textPath")
	.attr("xlink:href",function(d,i) { return "#linkId_" + i;})
	.text(function(d) {
	return d.value;
	});


	// Use elliptical arc path segments to doubly-encode directionality.
	function tick() {
	path.attr("d", linkArc);
	// node.attr("transform", transform);
	text.attr("transform", transform);
	node
	.attr("transform", function(d) {
	return "translate(" + d.x + "," + d.y + ")"; })


	path.attr("d", function(d) {
	// if(d.value !=0 ) {
	var x1 = d.source.x,
	y1 = d.source.y,
	x2 = d.target.x,
	y2 = d.target.y,

	dx = x2 - x1,
	dy = y2 - y1,
	dr = Math.sqrt(dx * dx + dy * dy),

	// Defaults for normal edge.
	drx = dr,
	dry = dr,
	xRotation = 5, // degrees
	largeArc = 0, // 1 or 0
	sweep = 1; // 1 or 0

	// Self edge.
	if (x1 === x2 && y1 === y2) {
	// Fiddle with this angle to get loop oriented.
	xRotation = -70;

	// Needs to be 1.
	largeArc = 1;

	// Change sweep to change orientation of loop.
	sweep = 1;

	// Make drx and dry different to get an ellipse
	// instead of a circle.
	drx = 30;
	dry = 15;

	// For whatever reason the arc collapses to a point if the beginning
	// and ending points of the arc are the same, so kludge it.

	x2 = x2 + 1;
	y2 = y2 + 1;
	}

	return "M" + x1 + "," + y1 + "A" + drx + "," + dry + " " + xRotation + "," + largeArc + "," + sweep + " " + x2 + "," + y2;
	//}
	});

	}

	function linkArc(d) {
	var dx = d.target.x - d.source.x,
	dy = d.target.y - d.source.y,
	dr = Math.sqrt(dx * dx + dy * dy);
	return "M" + d.source.x + "," + d.source.y + "A" + dr + "," + dr + " 0 0,1 " + d.target.x + "," + d.target.y;
	}

	function transform(d) {
	return "translate(" + d.x + "," + d.y + ")";
	}

	function mousedown(d) {
	path.style("stroke-width", 2+"px");
	d3.event.stopPropagation();
	// Removes the table first cleans all the div container area in order to append the new table
	d3.select("table").remove();
	var tableContainer = d3.select('.container');
	tableContainer.remove();
	var tableheader = d3.select('.headerRow');
	tableheader.remove();

	const nodeName = d.name;
	console.log("Hovering over node:", nodeName);

	// Create the container to append the table elements both header and body
	var container = d3.select('body')
	.append('div')
	.attr('class', 'container')
	.style('height', '250px')
	.style('overflow', 'auto');
	// Create the table element inside the container
	var table = container.append('table')
	.attr('class', 'table')
	.style('table-layout', 'auto')

	d3.selectAll('.table td')
	.style('font-size', '12px');

	// Add a header row
	const headerRow = table.append("tr");
	headerRow.append("th").text("Id");
	headerRow.append("th").text("Full Sentence");
	headerRow.append("th").text("Component");
	headerRow.append("th").text("cause/effect");
	headerRow.append("th").text("Label level1");
	headerRow.append("th").text("Label level2");


	// Add a data row for the hovered node

	d3.json("detailedResults.json", function(data) {
	var table = d3.select("table"); // select the existing table
	var tbody = table.append("tbody"); // create a tbody element

	// loop through each item in the data array
	for (var i = 0; i < data.length; i++) {
	if(nodeName == [data[i].Labellevel2]) { // Check for if the nodename that is cliked matches the name in the csv file

	var tr = tbody.append("tr"); // create a table row for each item

	// append a table cell with the Id property
	tr.append("td").text(data[i].Id);
	tr.append("td").text([data[i].Fullsentence]);
	tr.append("td").text([data[i].Component]);
	tr.append("td").text([data[i].causeOrEffect]);
	tr.append("td").text([data[i].Labellevel1]);
	tr.append("td").text([data[i].Labellevel2]);

	}

	}
	});

	}


	// The text that appears below the 5 node graph
	svg2.append("text")
	.attr("x", width/2 + 10)
	.attr("y", height - 30)
	.attr("text-anchor", "middle")
	.text(" Click on a node to get the detailed results")
	.style("font-weight", "bold")
	.style("font-family", "Times New Roman")
	.style("font-size", "16px")
	.style("opacity", 0)
	.transition()
	.duration(2000)
	.style("opacity", 1);


	});




	</script>
	</div>
	</div>
	</body>
	</html>