"use strict"; // https://bl.ocks.org/mbostock/3884955 // https://bl.ocks.org/mbostock/34f08d5e11952a80609169b7917d4172 function createLineGraph(containerId, raceData){ // Rough input validation if(raceData === undefined || raceData.raceInfo === undefined) { console.error(["Sorry, that raceData is empty. :-(", raceData]); return; // early return to avoid errors } else { console.log(["raceData", raceData]); } var enhancedLapData = processor.getEnhancedLapDataPerDriver(raceData); attachRaceStatistics(enhancedLapData, raceData); // Configuration var graphHeight = 720; var smallGraphHeight = 200; var svgWidth = 1300; var linePointSize = 5; var rectSize = 16; var amountClickedLines = 0; //ElemTypes of this graph var elemTypes = { line: "line", linepoint: "linepoint", pitstoppoint: "pitstoppoint", endpoint: "endpoint" }; // ----------------------------------------------------------------------- // set the dimensions and margins of the graph var marginGraph = {top: 30.0, right: 50, bottom: 10, left: 50.0}, marginSmallGraph = {top: 10, right: marginGraph.right, bottom: 50, left: marginGraph.left}, graphPosWidth = {posX: marginGraph.left, posY: marginGraph.top, width: svgWidth - (marginGraph.left + marginGraph.right), height : graphHeight, totalHeight: marginGraph.top + graphHeight + marginGraph.bottom}, smallGraphPosWidth = {posX: marginSmallGraph.left, posY: graphPosWidth.totalHeight + graphPosWidth.posY + marginSmallGraph.top, width: svgWidth - (marginSmallGraph.left + marginSmallGraph.right), height : smallGraphHeight , totalHeight: marginSmallGraph.top + smallGraphHeight + marginSmallGraph.bottom}, svgHeight = smallGraphPosWidth.totalHeight + graphPosWidth.totalHeight; // set the ranges var x = d3.scaleLinear().range([0, graphPosWidth.width]), x2 = d3.scaleLinear().range([0, smallGraphPosWidth.width]), y = d3.scaleLinear().range([graphPosWidth.height, 0]), y2 = d3.scaleLinear().range([smallGraphPosWidth.height, 0]); // Gather lapNumbers for xAxis tickvalues var lapNumbers = []; for(var i=0; i { //console.log(driverLapData); focus.append("path") .data([driverLapData.laps]) .attr("class", "line pathLines") .attr("clip-path","url(#clip)") .attr("data-line", driverLapData.driver.driverId) // custom data to specify the line .attr("data-opacitychange", 1) .attr("data-highlighted", 0) .attr("data-elemtype", elemTypes.line) .attr("stroke", getColorValue(driverIndex, enhancedLapData.length) ) .attr("d", lineDataDefinition); context.append("path") .data([driverLapData.laps]) .attr("class", "line-context") .attr("data-line", driverLapData.driver.driverId) // custom data to specify the line .attr("data-opacitychange", 1) .attr("data-highlighted", 0) .attr("data-elemtype", elemTypes.line) .attr("stroke", getColorValue(driverIndex, enhancedLapData.length) ) .attr("d", lineDataDefinitionSmall); //Appends a circle for each datapoint focus.selectAll(".linepoint") .data(driverLapData.laps) .enter().append("circle") // Uses the enter().append() method .attr("class", "linedot") // Assign a class for styling .attr("clip-path","url(#clip)") .attr("id", function(d, i) { return "circle-linepoint-" + d.lap + "-" + d.driverId; }) .attr("data-line", driverLapData.driver.driverId) .attr("data-opacitychange", 0) .attr("data-highlighted", 0) .attr("data-elemtype", elemTypes.linepoint) .attr("fill", getColorValue(driverIndex, enhancedLapData.length)) .attr("cx", function(d, i) {return x(d.lap) }) .attr("cy", function(d, i) { return y(d.position) }) .attr("r", linePointSize) .style("opacity", 0); //Appends a circle for each datapoint focus.selectAll(".invisiblelinepoint") .data(driverLapData.laps) .enter().append("circle") // Uses the enter().append() method .attr("class", "linedot") // Assign a class for styling .attr("clip-path","url(#clip)") .attr("circle-id", function(d, i) { return "circle-linepoint-" + d.lap + "-" + d.driverId; }) .attr("data-line", driverLapData.driver.driverId) .attr("data-opacitychange", 0) .attr("data-highlighted", 0) .attr("data-elemtype", elemTypes.linepoint) .attr("fill", getColorValue(driverIndex, enhancedLapData.length)) .attr("cx", function(d, i) {return x(d.lap) }) .attr("cy", function(d, i) { return y(d.position) }) .attr("r", linePointSize*2.4) .on("click", handleClickOnPoint) .on("mouseover", handleMouseOverLinePoint) .on("mouseout", handleMouseOutLinePoint) .style("opacity", 0); driverLapData.laps.forEach((singleLap, singleLapIndex)=> { //console.log(["driverLaps.forEach", singleLap, singleLapIndex]); if(singleLap.pitStop){ //Appends a circle for each datapoint focus.selectAll(".pitstoppoint") .data([singleLap]) .enter().append("circle") // Uses the enter().append() method .attr("class", "pitstopdot") // Assign a class for styling .attr("clip-path","url(#clip)") .attr("data-line", driverLapData.driver.driverId) .attr("data-opacitychange", 1) .attr("data-highlighted", 0) .attr("data-elemtype", elemTypes.pitstoppoint) .attr("fill", getColorValue(driverIndex, enhancedLapData.length)) .attr("cx", function(d, i) {return x(d.lap) }) .attr("cy", function(d, i) { return y(d.position) }) .attr("r", linePointSize * 1.4) .on("click", handleClickOnPoint) .on("mouseover", handleMouseOverLinePoint) .on("mouseout", handleMouseOutLinePoint); context.selectAll(".pitstoppoint-context") .data([singleLap]) .enter().append("circle") // Uses the enter().append() method .attr("class", "pitstopdot") // Assign a class for styling .attr("data-line", driverLapData.driver.driverId) .attr("data-opacitychange", 1) .attr("data-highlighted", 0) .attr("data-elemtype", elemTypes.pitstoppoint) .attr("fill", getColorValue(driverIndex, enhancedLapData.length)) .attr("cx", function(d, i) {return x2(d.lap) }) .attr("cy", function(d, i) { return y2(d.position) }) .attr("r", linePointSize * 0.5) .attr("d", lineDataDefinitionSmall); // Remove data from driverLapData, since we don't need a generic datapoint for this //driverLapData.laps[singleLapIndex] = {}; } }); // in case the driver ended the race too early, get the status why he quit /*TODO: Mouseover for Rectangle*/ var resultOfDriver = raceData.results.filter((result) => { return result.driverId == driverLapData.driver.driverId; }); if(resultOfDriver.length > 0 && getValidEndingStatusIds().indexOf(resultOfDriver[0].statusId) < 0){ var triangle = d3.symbol() .type(d3.symbolTriangle) .size(25); //get Data for last round focus.selectAll(".endpoint") .data([driverLapData.laps[driverLapData.laps.length - 1]]) .enter().append("rect") // Uses the enter().append() method .attr("class", "endpointdot") // Assign a class for styling .attr("clip-path","url(#clip)") .attr("data-line", driverLapData.driver.driverId) .attr("data-opacitychange", 1) .attr("data-highlighted", 0) .attr("data-elemtype", elemTypes.endpoint) .attr("fill", getColorValue(driverIndex, enhancedLapData.length)) .attr("x", function(d, i) { return x(d.lap) - rectSize * 1/2; }) .attr("y", function(d, i) { return y(d.position) - rectSize * 1/2; }) .attr("height", rectSize) .attr("width", rectSize) .on("click", handleClickOnPoint) .on("mouseover", handleMouseOverLinePoint) .on("mouseout", handleMouseOutLinePoint); context.selectAll(".endpoint") .data([driverLapData.laps[driverLapData.laps.length - 1]]) .enter().append("rect") // Uses the enter().append() method //.attr("class", "endpoint") // Assign a class for styling .attr("class", "zoomable") .attr("data-line", driverLapData.driver.driverId) .attr("data-opacitychange", 1) .attr("data-highlighted", 0) .attr("data-elemtype", elemTypes.endpoint) .attr("fill", getColorValue(driverIndex, enhancedLapData.length)) .attr("x", function(d, i) { return x2(d.lap) - rectSize * 1/4; }) .attr("y", function(d, i) { return y2(d.position) - rectSize * 1/4; }) .attr("height", rectSize * 0.4) .attr("width", rectSize * 0.4) .attr("d", lineDataDefinition); /* tried with Cross, didn't work, don't know why svg.selectAll(".endpoint") .data([driverLapData.laps[driverLapData.laps.length - 1]]) .enter().append("symbolCircle") // Uses the enter().append() method .attr("size", 300) .attr("class", "endpoint") // Assign a class for styling .attr("fill", getColorValue(driverIndex, enhancedLapData.length)) .attr("transform", function(d) { return "translate(" + x(d.lap) + "," + y(d.position) + ")"; }); */ } }); // Add the X Axis var testXAxis = focus.append("g") .attr("class", "axis axis--x") .attr("transform", "translate(0," + graphPosWidth.height + ")") .attr("clip-path","url(#clip)") .call(xAxis); // Add the Y Axis on left side focus.append("g") .attr("class","axis--y-left") .call( d3.axisLeft(y) .ticks(raceData.drivers.length) .tickFormat(function(d) { return getDriverCodeFromPosAndLap(raceData, 0, d) + " " + d; }) ); //Add driver information on the right side of the graph. focus.append("g") .attr("class","axis--y-right") .call( d3.axisRight(y) .ticks(raceData.drivers.length) .tickFormat(function(d) { var driverCode = ""; if(getDriverCodeFromPosAndLap(raceData, raceData.lapTimes.size, d)){ driverCode = getDriverCodeFromPosAndLap(raceData, raceData.lapTimes.size, d); }else{ driverCode = getDriverCodeFromPosAndLap(raceData, raceData.lapTimes.size - 1, d); } return d + " " + driverCode ; }) ) .attr("transform", "translate( " + (graphPosWidth.width) + ", 0 )"); // Add gridlines on x axis to better figure out laps focus.append("g") .attr("class", "xAxisGridlines") .attr("transform", "translate(0," + graphPosWidth.height + ")") .style("opacity", 0.06) .call(xAxisGridlines); function handleClickOnPoint(d,i){ //select elements that are highlightable but are not highlighted d3.selectAll("[data-opacitychange='" + 1 +"'][data-highlighted='" + 0 +"']") .style("opacity", 0.10); // if clicked on already highlighted line, remove highlight if(this.getAttribute("data-highlighted") == 1){ d3.selectAll("[data-line='" + d.driverId +"'][data-opacitychange='" + 1 +"']") .style("opacity", 0.10); d3.selectAll("[data-line='" + d.driverId +"']") .attr("data-highlighted", 0); }else{ //select elements that belong to line and are highlightable d3.selectAll("[data-line='" + d.driverId +"'][data-opacitychange='" + 1 +"']") .style("opacity", 1); d3.selectAll("[data-line='" + d.driverId +"']") .attr("data-highlighted", 1); } // if no element highlighted, then everything normal again var highlightedElements = d3.selectAll("[data-opacitychange='" + 1 +"'][data-highlighted='" + 1 +"']"); if(highlightedElements.size() == 0){ //select elements that are highlightable but are not highlighted d3.selectAll("[data-opacitychange='" + 1 +"'][data-highlighted='" + 0 +"']") .style("opacity", 1); } } function handleMouseOverLinePoint(d, i, e) { var elemType = d3.select(this).attr("data-elemtype"); //depending on Pitstop and lap different Texts var textArr = []; var textMaxLength = 1; // Add interactivity // Use D3 to select element, change color and size if(elemType === elemTypes.linepoint){ var circleId = "circle-linepoint-" + d.lap + "-" + d.driverId; var circle = d3.select("#" + circleId); circle .style("opacity", 1); textArr = getLapTextArray(raceData,d); }else if(elemType === elemTypes.pitstoppoint){ d3.select(this) .attr("r", linePointSize * 2); textArr = getPitStopTextArray(raceData,d); }else if(elemType === elemTypes.endpoint){ var newRectSize = rectSize * 1.5; d3.select(this) .attr("height", newRectSize) .attr("width", newRectSize) .attr("x", function(d, i) { return x(d.lap) - newRectSize * 1/2; }) .attr("y", function(d, i) { return y(d.position) - newRectSize * 1/2; }); textArr = getEndPointTextArray(raceData,d); } // Calculate tooltip width based on text for(var lineI in textArr) { var line = textArr[lineI]; if(line.length > textMaxLength) textMaxLength = line.length; } textMaxLength = (2/3) * textMaxLength; // Figure out relative tooltip position on x axis var cxValue = d3.select(e[i]).attr("cx"); var xValue = (cxValue === null) ? d3.select(e[i]).attr("x") : cxValue; var xRatio = xValue / svgWidth; var tooltipGroup = svg.append("g") .attr("id", "t" + d.lap + "-" + d.position + "-" + i); // Unique id so it can be removed later tooltipGroup.append("rect") .attr("style", "fill:rgb(225,225,225);stroke:black;stroke-width:2;") .attr("width", textMaxLength + "em") .attr("height", (textArr.length + 1) + "em") .attr("x", function() { if(xRatio < 0.70) return d3.mouse(this)[0] + 10; else return d3.mouse(this)[0] - 130; }) .attr("y", function() { return d3.mouse(this)[1] + 10; }); //Necessary to add Text for each Line textArr.forEach((text, textIndex) =>{ // Specify where to put label of text tooltipGroup.append("text") .attr("dy", (textIndex + 1) + "em") .attr("x", function() { if(xRatio < 0.70) return d3.mouse(this)[0] + 15; else return d3.mouse(this)[0] - 125; }) .attr("y", function() { return d3.mouse(this)[1] + 15; }) .text(function() { return text; // Value of the text }); }); } function handleMouseOutLinePoint(d, i) { var dataType = d3.select(this).attr("data-elemtype"); //depending on Pitstop and lap different Texts var textArr = []; // Use D3 to select element, change color back to normal if(dataType === elemTypes.linepoint){ var circleId = "circle-linepoint-" + d.lap + "-" + d.driverId; var circle = d3.select("#" + circleId); circle .attr("r", linePointSize) .style("opacity", 0); textArr = getLapTextArray(raceData,d); }else if(dataType === elemTypes.pitstoppoint){ d3.select(this) .attr("r", linePointSize); textArr = getPitStopTextArray(raceData,d); }else if(dataType === elemTypes.endpoint){ d3.select(this) .attr("height", rectSize) .attr("width", rectSize) .attr("x", function(d, i) {return x(d.lap) - rectSize * 1/2 }) .attr("y", function(d, i) { return y(d.position) - rectSize * 1/2 }); textArr = getEndPointTextArray(raceData,d); } textArr.forEach((text, textIndex)=> { // Select text by id and then remove d3.select("#t" + d.lap + "-" + d.position + "-" + i).remove(); // Remove text location }); } function getLapTextArray(raceData, d){ var driverText = getDriverCodeById(raceData,d.driverId); var lapText = "Lap: " + d.lap; var posText = "Pos: " + d.position; var returnArr = [driverText, lapText, posText]; if(d.time){ var timeText = "Time: " + d.time; returnArr.push(timeText); } return returnArr; } function getPitStopTextArray(raceData, d){ var lapTextArr = getLapTextArray(raceData,d); lapTextArr.push("Stop Nr: " + d.pitStop.stop); lapTextArr.push("Duration: " + d.pitStop.duration); return lapTextArr; } function getEndPointTextArray(raceData, d){ var status = ""; var endTextArr = getLapTextArray(raceData,d); var allStatus = queries.getStatus(); for(var key in allStatus){ if(key === undefined) continue; if(allStatus[key].statusId === d.finished.statusId){ status = allStatus[key].status; } } endTextArr.push("Reason: " + status); return endTextArr; } function getDriverCodeFromPosAndLap(raceData, lapNr, pos){ var driverCode = ""; if(lapNr == 0){ var qualifying = raceData.qualifying[pos - 1]; if(qualifying === undefined) return "XXX"; // TODO: Do a real fix driverCode = getDriverCodeById(raceData, qualifying.driverId); }else if(lapNr == raceData.lapTimes.size){ var resultPos = raceData.results[pos -1].position; var resultLaps = raceData.results[pos -1].laps; //making sure the Driver finished and drove all laps if(resultPos && resultLaps == raceData.lapTimes.size){ driverCode = getDriverCodeById(raceData,raceData.results[pos -1].driverId); } }else{ if(raceData.lapTimes.get(lapNr)[pos-1]){ driverCode = getDriverCodeById(raceData, raceData.lapTimes.get(lapNr)[pos-1].driverId); } } return driverCode; } function brushed() { if (d3.event.sourceEvent && d3.event.sourceEvent.type === "zoom") return; // ignore brush-by-zoom var s = d3.event.selection || x2.range(); x.domain(s.map(x2.invert, x2)); updateElements(); // Update the "preview" rectangle svg.select(".zoom").call(zoom.transform, d3.zoomIdentity .scale(graphPosWidth.width / (s[1] - s[0])) .translate(-s[0], 0)); } function zoomed() { if (d3.event.sourceEvent && d3.event.sourceEvent.type === "brush") return; // ignore zoom-by-brush var t = d3.event.transform; x.domain(t.rescaleX(x2).domain()); updateElements(); //call the brush function context.select(".brush").call(brush.move, x.range().map(t.invertX, t)); } function updateElements(){ // Update the data! focus.selectAll(".pathLines").attr("d", lineDataDefinition); focus.selectAll(".pitstopdot").attr("cx", function(d, i) {return x(d.lap) }); focus.selectAll(".endpointdot").attr("x", function(d, i) { return x(d.lap) - rectSize * 1/2; }); focus.selectAll(".linedot").attr("cx", function(d, i) {return x(d.lap) }); // Update xAxis focus.select(".axis--x").call(xAxis); updateYAxisText(); // Update gridlines focus.select(".xAxisGridlines").call(xAxisGridlines); } function updateYAxisText(){ var xAxisValues = d3.extent(x.domain()); if(xAxisValues[1] > 1){ // Get the min/max lap. var startLap = Math.floor(xAxisValues[0]); var endLap = Math.floor(xAxisValues[1]); // Redraw the left Y axis focus.select(".axis--y-left").call(d3.axisLeft(y).ticks(raceData.drivers.length).tickFormat(function(d) { return getDriverCodeFromPosAndLap(raceData, startLap, d) + " " + d; })); // Redraw the right Y axis focus.select(".axis--y-right").call( d3.axisRight(y) .ticks(raceData.drivers.length) .tickFormat(function(d) { var driverCode = ""; if(getDriverCodeFromPosAndLap(raceData, endLap, d)){ driverCode = getDriverCodeFromPosAndLap(raceData, endLap, d); }else{ driverCode = getDriverCodeFromPosAndLap(raceData, endLap - 1, d); // TODO: only if the driver has finished.. } return d + " " + driverCode ; })); } } }