gimm260-data-visualization/testingStuff.html

<!DOCTYPE html>
<html lang="en">
<head>
    <meta charset="UTF-8">
    <title>Testing</title>

    <script type="module" id="cuphead">

        import * as d3 from "https://cdn.jsdelivr.net/npm/d3@7/+esm";

        const jsonData = d3.json("http://localhost:8888");
        jsonData.then(function (data){
            let dataset = data.reports;
            processData(dataset);
        });

        function processData(data) {
            let parsedCupheadData = [];
            let indexWorking = 0;
            let indexBroken = 1;
            let prevDate = 14;

            parsedCupheadData[indexWorking] = new Object();
            parsedCupheadData[indexWorking].date = new Date("2019-11-01");
            parsedCupheadData[indexWorking].title = "Working";
            parsedCupheadData[indexWorking].number = 0;

            parsedCupheadData[indexBroken] = new Object();
            parsedCupheadData[indexBroken].date = new Date("2019-11-01");
            parsedCupheadData[indexBroken].title = "Borked";
            parsedCupheadData[indexBroken].number = 0;

            for(let i = 0; i < data.length; i++) {
                let currentReport = data[i];
                let currentDate = new Date(data[i].timestamp * 1000);
                let dateString = currentDate.getFullYear().toString() + "-" + currentDate.getMonth().toString() + "-" + currentDate.getDate().toString();

                if(data[i].game_title != "Cuphead")
                {continue;} else {
                    if(currentDate.getDate() != prevDate) {
                        prevDate = currentDate.getDate();
                        indexBroken = indexBroken + 2;
                        indexWorking = indexWorking + 2;
                        parsedCupheadData[indexWorking] = new Object();
                        parsedCupheadData[indexWorking].date = currentDate;
                        parsedCupheadData[indexWorking].title = "Working";
                        parsedCupheadData[indexWorking].number = 0;

                        parsedCupheadData[indexBroken] = new Object();
                        parsedCupheadData[indexBroken].date = currentDate;
                        parsedCupheadData[indexBroken].title = "Borked";
                        parsedCupheadData[indexBroken].number = 0;
                    }

                    if(data[i].verdict == 0) {
                        parsedCupheadData[indexBroken].number++;
                    }
                    if(data[i].verdict == 1) {
                        parsedCupheadData[indexWorking].number++;
                    }
                }
            }

            document.getElementById("visCuphead").appendChild(StackedAreaChart(parsedCupheadData, {
                    x: d => d.date,
                    y: d => d.number,
                    z: d => d.title,
                    yLabel: "Number of Reports--Cuphead",
                    width: 700,
                    height: 250
                }
            ));



            // Copyright 2021 Observable, Inc.
            // Released under the ISC license.
            // https://observablehq.com/@d3/normalized-stacked-area-chart
            function StackedAreaChart(data, {
                x = ([x]) => x, // given d in data, returns the (ordinal) x-value
                y = ([, y]) => y, // given d in data, returns the (quantitative) y-value
                z = () => 1, // given d in data, returns the (categorical) z-value
                marginTop = 20, // top margin, in pixels
                marginRight = 30, // right margin, in pixels
                marginBottom = 30, // bottom margin, in pixels
                marginLeft = 40, // left margin, in pixels
                width = 640, // outer width, in pixels
                height = 400, // outer height, in pixels
                xType = d3.scaleUtc, // type of x-scale
                xDomain, // [xmin, xmax]
                xRange = [marginLeft, width - marginRight], // [left, right]
                yType = d3.scaleLinear, // type of y-scale
                yDomain, // [ymin, ymax]
                yRange = [height - marginBottom, marginTop], // [bottom, top]
                zDomain, // array of z-values
                offset = d3.stackOffsetExpand, // stack offset method
                order = d3.stackOrderNone, // stack order method
                yLabel, // a label for the y-axis
                xFormat, // a format specifier string for the x-axis
                yFormat = "%", // a format specifier string for the y-axis
                colors = d3.schemeDark2, // an array of colors for the (z) categories
            } = {}) {
                // Compute values.
                const X = d3.map(data, x);
                const Y = d3.map(data, y);
                const Z = d3.map(data, z);

                // Compute default x- and z-domains, and unique the z-domain.
                if (xDomain === undefined) xDomain = d3.extent(X);
                if (zDomain === undefined) zDomain = Z;
                zDomain = new d3.InternSet(zDomain);

                // Omit any data not present in the z-domain.
                const I = d3.range(X.length).filter(i => zDomain.has(Z[i]));

                // Compute a nested array of series where each series is [[y1, y2], [y1, y2],
                // [y1, y2], …] representing the y-extent of each stacked rect. In addition,
                // each tuple has an i (index) property so that we can refer back to the
                // original data point (data[i]). This code assumes that there is only one
                // data point for a given unique x- and z-value.
                const series = d3.stack()
                    .keys(zDomain)
                    .value(([x, I], z) => Y[I.get(z)])
                    .order(order)
                    .offset(offset)
                    (d3.rollup(I, ([i]) => i, i => X[i], i => Z[i]))
                    .map(s => s.map(d => Object.assign(d, {i: d.data[1].get(s.key)})));

                // Compute the default y-domain. Note: diverging stacks can be negative.
                if (yDomain === undefined) yDomain = d3.extent(series.flat(2));

                // Construct scales and axes.
                const xScale = xType(xDomain, xRange);
                const yScale = yType(yDomain, yRange);
                const color = d3.scaleOrdinal(zDomain, colors);
                const xAxis = d3.axisBottom(xScale).ticks(width / 80, xFormat).tickSizeOuter(0);
                const yAxis = d3.axisLeft(yScale).ticks(height / 50, yFormat);

                const area = d3.area()
                    .x(({i}) => xScale(X[i]))
                    .y0(([y1]) => yScale(y1))
                    .y1(([, y2]) => yScale(y2));

                const svg = d3.create("svg")
                    .attr("width", width)
                    .attr("height", height)
                    .attr("viewBox", [0, 0, width, height])
                    .attr("style", "max-width: 100%; height: auto; height: intrinsic;");

                svg.append("g")
                    .selectAll("path")
                    .data(series)
                    .join("path")
                    .attr("fill", ([{i}]) => color(Z[i]))
                    .attr("d", area)
                    .append("title")
                    .text(([{i}]) => Z[i]);

                svg.append("g")
                    .attr("transform", `translate(0,${height - marginBottom})`)
                    .call(xAxis)
                    .call(g => g.select(".domain").remove());

                svg.append("g")
                    .attr("transform", `translate(${marginLeft},0)`)
                    .call(yAxis)
                    .call(g => g.select(".domain").remove())
                    .call(g => g.selectAll(".tick line")
                        .filter(d => d === 0 || d === 1)
                        .clone()
                        .attr("x2", width - marginLeft - marginRight))
                    .call(g => g.append("text")
                        .attr("x", -marginLeft)
                        .attr("y", 10)
                        .attr("fill", "currentColor")
                        .attr("text-anchor", "start")
                        .text(yLabel));

                return Object.assign(svg.node(), {scales: {color}});
            }
            }
    </script>

</head>
<body>

<div>
    <svg width="500" height="500" id="visCuphead" class="overflow"></svg>
</div>

</body>
</html>