import React, { useState, useEffect } from "react"; import * as d3 from 'd3'; import { toLocale, truncateValueForDisplay } from "../lib/utils.js" let getlength = (number) => number.toString().length; export function removeOldSvg(){ d3.select("#graph").select("svg").remove(); } function drawGraphInner({nodes, links}){ // List of node ids for convenience var nodeids = nodes.map(node => node.id) var positionById = {} nodeids.forEach((nodeid, i) => positionById[nodeid]=i) console.log("NodeIds/positionById") console.log(nodeids) console.log(positionById) // Calculate the dimensions let margin = {top: 0, right: 30, bottom: 20, left: 30}; let width = 900 - margin.left - margin.right; var x = d3.scalePoint() .range([0, width]) .domain(nodeids) let heights = links.map(link => { let start = x(positionById[link.source]) let end = x(positionById[link.target]) return Math.abs(start-end)/2+70 // Magic constant. }) console.log(heights) let maxheight = Math.max(...heights) let height = maxheight - margin.top - margin.bottom; console.log(`height: ${height}`) // Build the d3 graph removeOldSvg() var svg = d3.select("#graph") .append("svg") .attr("width", width + margin.left + margin.right) .attr("height", height + margin.top + margin.bottom) .append("g") .attr("transform", "translate(" + margin.left + "," + margin.top + ")"); // A linear scale to position the nodes on the X axis // Add the circle for the nodes svg .selectAll("mynodes") .data(nodes) .enter() .append("circle") .attr("cx", function(d){ return(x(d.id))}) .attr("cy", height-30) .attr("r", 8) .style("fill", "#69b3a2") // And give them a label svg .selectAll("mylabels") .data(nodes) .enter() .append("text") .attr("x", function(d){ return(x(d.id))}) .attr("y", height-10) .text(function(d){ return(d.id)}) .style("text-anchor", "middle") // Add the links svg .selectAll('mylinks') .data(links) .enter() .append('path') .attr('d', function (d) { let start = x(d.source) // X position of start node on the X axis let end = x(d.target) // X position of end node return ['M', start, height-30, // the arc starts at the coordinate x=start, y=height-30 (where the starting node is) 'A', // This means we're gonna build an elliptical arc (start - end)/2, ',', // Next 2 lines are the coordinates of the inflexion point. Height of this point is proportional with start - end distance (start - end)/2, 0, 0, ',', start < end ? 1 : 0, end, ',', height-30] // We always want the arc on top. So if end is before start, putting 0 here turn the arc upside down. .join(' '); }) .style("fill", "none") .attr("stroke", "black") // labels for links svg .selectAll('mylinks') .data(links) .enter() .append("text") .attr("x", function(d){ let start = x(d.source) // X position of start node on the X axis let end = x(d.target) // X position of end node return start + (end-start)/2 //-4*getlength(d.distance) }) .attr("y", function(d){ let start = x(d.source) // X position of start node on the X axis let end = x(d.target) // X position of end node return height-32-(Math.abs(start-end)/2)//height-30 }) .text(function(d){ return Number(d.distance) return(truncateValueForDisplay(Number(d.distance))) //return(Number(d.distance).toPrecision(2).toString()) }) .style("text-anchor", "middle") } export function DrawGraph({isListOrdered, orderedList, listOfElements, links}) { if(isListOrdered){ let nodes = orderedList.map(i => listOfElements[i]) drawGraphInner({ nodes, links}); } return (
); }