misp-galaxy/tools/mkdocs/site/docs/01_attachements/javascripts/d3.js
2024-02-05 12:26:14 +01:00

252 lines
9 KiB
JavaScript

document$.subscribe(function () {
const NODE_RADIUS = 8;
const NODE_COLOR = "#69b3a2";
const Parent_Node_COLOR = "#ff0000";
// Function to parse the table data
function parseFilteredTable(tf) {
var data = [];
tf.getFilteredData().forEach((row, i) => {
data.push({ source: row[1][0], target: row[1][1], level: row[1][2] });
}
);
return data;
}
// Function to parse table data wthout filtering
function parseTable(table) {
var data = [];
table.querySelectorAll("tr").forEach((row, i) => {
if (i > 1) {
var cells = row.querySelectorAll("td");
data.push({ source: cells[0].textContent, target: cells[1].textContent, level: cells[2].textContent });
}
});
return data;
}
function processNewData(newData) {
// Extracting new nodes
var newNodes = Array.from(new Set(newData.flatMap(d => [d.source, d.target])))
.map(id => ({ id }));
// Preparing the links in the required format
var newLinks = newData.map(d => ({ source: d.source, target: d.target }));
return { newNodes, newLinks };
}
// Function to create Force-Directed Graph
function createForceDirectedGraph(data, elementId) {
// Extract nodes and links
var nodes = Array.from(new Set(data.flatMap(d => [d.source, d.target])))
.map(id => ({ id }));
var links = data.map(d => ({ source: d.source, target: d.target }));
var tooltip = d3.select("body").append("div")
.attr("class", "tooltip") // Add relevant classes for styling
.style("opacity", 0);
// Set up the dimensions of the graph
var width = 1000, height = 1000;
// Append SVG for the graph
var svg = d3.select(elementId).append("svg")
.attr("width", width)
.attr("height", height);
// Create a force simulation
var simulation = d3.forceSimulation(nodes)
.force("link", d3.forceLink(links).id(d => d.id).distance(10))
.force("charge", d3.forceManyBody().strength(-20))
.force("center", d3.forceCenter(width / 2, height / 2))
.alphaDecay(0.02); // A lower value, adjust as needed
// Create links
var link = svg.append("g")
.attr("stroke", "#999")
.attr("stroke-opacity", 0.6)
.selectAll("line")
.data(links)
.enter().append("line")
.attr("stroke-width", d => Math.sqrt(d.value));
// Create nodes
var node = svg.append("g")
.attr("stroke", "#fff")
.attr("stroke-width", 1.5)
.selectAll("circle")
.data(nodes)
.enter().append("circle")
.attr("r", function (d, i) {
return i === 0 ? NODE_RADIUS + 5 : NODE_RADIUS;
})
.attr("fill", function (d, i) {
return i === 0 ? Parent_Node_COLOR : NODE_COLOR;
});
// Apply tooltip on nodes
node.on("mouseover", function (event, d) {
tooltip.transition()
.duration(200)
.style("opacity", .9);
tooltip.html(d.id)
.style("left", (event.pageX) + "px")
.style("top", (event.pageY - 28) + "px");
})
.on("mousemove", function (event) {
tooltip.style("left", (event.pageX) + "px")
.style("top", (event.pageY - 28) + "px");
})
.on("mouseout", function (d) {
tooltip.transition()
.duration(500)
.style("opacity", 0);
});
// Define drag behavior
var drag = d3.drag()
.on("start", dragstarted)
.on("drag", dragged)
.on("end", dragended);
// Apply drag behavior to nodes
node.call(drag);
// Drag functions
function dragstarted(event, d) {
if (!event.active) simulation.alphaTarget(0.3).restart();
d.fx = d.x;
d.fy = d.y;
}
function dragged(event, d) {
d.fx = event.x;
d.fy = event.y;
}
function dragended(event, d) {
// Do not reset the fixed positions
if (!event.active) simulation.alphaTarget(0);
}
// Update positions on each simulation 'tick'
simulation.on("tick", () => {
nodes.forEach(d => {
d.x = Math.max(NODE_RADIUS, Math.min(width - NODE_RADIUS, d.x));
d.y = Math.max(NODE_RADIUS, Math.min(height - NODE_RADIUS, d.y));
});
link
.attr("x1", d => d.source.x)
.attr("y1", d => d.source.y)
.attr("x2", d => d.target.x)
.attr("y2", d => d.target.y);
node
.attr("cx", d => d.x)
.attr("cy", d => d.y);
});
return Object.assign(svg.node(), {
update({ newNodes, newLinks }) {
// Process new nodes and maintain the existing ones
const oldNodesMap = new Map(node.data().map(d => [d.id, d]));
nodes = newNodes.map(d => Object.assign(oldNodesMap.get(d.id) || {}, d));
// Update nodes with new data
node = node.data(nodes, d => d.id)
.join(
enter => enter.append("circle")
.attr("r", NODE_RADIUS)
.attr("fill", NODE_COLOR),
update => update,
exit => exit.remove()
);
node.call(drag);
// Process new links
const oldLinksMap = new Map(link.data().map(d => [`${d.source.id},${d.target.id}`, d]));
links = newLinks.map(d => Object.assign(oldLinksMap.get(`${d.source.id},${d.target.id}`) || {}, d));
// Update links with new data
link = link.data(links, d => `${d.source.id},${d.target.id}`)
.join(
enter => enter.append("line")
.attr("stroke-width", d => Math.sqrt(d.value)),
update => update,
exit => exit.remove()
);
// Restart the simulation with new data
simulation.nodes(nodes);
simulation.force("link").links(links);
simulation.alpha(1).restart();
}
});
}
// Find all tables that have a th with the class .graph and generate Force-Directed Graphs
document.querySelectorAll("table").forEach((table, index) => {
var graphHeader = table.querySelector("th.graph");
if (graphHeader) {
// Initialize TableFilter for the table
var tf = new TableFilter(table, {
base_path: "https://unpkg.com/tablefilter@0.7.3/dist/tablefilter/",
highlight_keywords: true,
col_2: "checklist",
col_widths: ["350px", "350px", "100px"],
col_types: ["string", "string", "number"],
grid_layout: false,
responsive: false,
watermark: ["Filter table ...", "Filter table ..."],
auto_filter: {
delay: 100 //milliseconds
},
filters_row_index: 1,
state: false,
rows_counter: true,
status_bar: true,
themes: [{
name: "transparent",
}],
btn_reset: {
tooltip: "Reset",
toolbar_position: "right",
},
toolbar: true,
extensions: [{
name: "sort",
},
{
name: 'filtersVisibility',
description: 'Sichtbarkeit der Filter',
toolbar_position: 'right',
}],
});
tf.init();
// var data = parseFilteredTable(tf);
var data = parseTable(table);
var graphId = "graph" + index;
var div = document.createElement("div");
div.id = graphId;
// table.after(div);
table.parentNode.insertBefore(div, table);
var simulation = createForceDirectedGraph(data, "#" + graphId);
// Function to filter the table data and update the graph
function filterTableAndGraph() {
var filteredData = parseFilteredTable(tf);
var { newNodes, newLinks } = processNewData(filteredData);
// Restart the simulation with filtered data
simulation.update({ newNodes: newNodes, newLinks: newLinks });
}
// Listen for table filtering events
tf.emitter.on(['after-filtering'], filterTableAndGraph);
}
});
});