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mcv06_final_ts.ts
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mcv06_final_ts.ts
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/// <reference types="d3" />
/// <reference path="../tsd.d.ts" />
declare type Sex = "female" | "male";
declare type Survival = "0" | "1";
interface IPerson {
age: number;
fare: number;
pclass: string;
survived: Survival;
sex: Sex;
}
interface IPersonGroup {
key: string;
values: IPerson[];
}
interface IState {
data: IPerson[];
passengerClass: string;
selectedSex: null | Sex;
selectedSurvived: null | Survival;
}
declare type SimpleArcDatum = {
startAngle: number;
endAngle: number;
padAngle: number;
};
const state: IState = {
data: [],
passengerClass: "",
selectedSex: null,
selectedSurvived: null,
};
function createHistogram(svgSelector: string) {
const margin = {
top: 40,
bottom: 10,
left: 120,
right: 20,
};
const width = 600 - margin.left - margin.right;
const height = 400 - margin.top - margin.bottom;
// Creates sources <svg> element
const svg = d3
.select(svgSelector)
.attr("width", width + margin.left + margin.right)
.attr("height", height + margin.top + margin.bottom);
// Group used to enforce margin
const g = svg.append("g").attr("transform", `translate(${margin.left},${margin.top})`);
// Scales setup
const xscale = d3.scaleLinear().range([0, width]);
const yscale = d3.scaleLinear().range([0, height]);
// Axis setup
const xaxis = d3.axisTop(xscale);
const g_xaxis = g.append("g").attr("class", "x axis");
const yaxis = d3.axisLeft(yscale);
const g_yaxis = g.append("g").attr("class", "y axis");
function update(new_data: d3.Bin<IPerson, number>[]) {
//update the scales
xscale.domain([0, d3.max(new_data, (d) => d.length)!]);
yscale.domain([new_data[0].x0!, new_data[new_data.length - 1].x1!]);
//render the axis
g_xaxis.transition().call(xaxis);
g_yaxis.transition().call(yaxis);
// Render the chart with new data
// DATA JOIN
const rect = g
.selectAll("rect")
.data(new_data)
.join(
(enter) => {
// ENTER
// new elements
const rect_enter = enter
.append("rect")
.attr("x", 0) //set intelligent default values for animation
.attr("y", 0)
.attr("width", 0)
.attr("height", 0);
rect_enter.append("title");
return rect_enter;
},
// UPDATE
// update existing elements
(update) => update,
// EXIT
// elements that aren't associated with data
(exit) => exit.remove()
);
// ENTER + UPDATE
// both old and new elements
rect
.transition()
.attr("height", (d) => yscale(d.x1!) - yscale(d.x0!) - 2)
.attr("width", (d) => xscale(d.length))
.attr("y", (d) => yscale(d.x0!) + 1);
rect.select("title").text((d) => `${d.x0}: ${d.length}`);
}
return update;
}
function createPieChart(
svgSelector: string,
stateAttr: "selectedSex" | "selectedSurvived",
colorScheme: ReadonlyArray<string>
) {
const margin = 10;
const radius = 100;
// Creates sources <svg> element
const svg = d3
.select(svgSelector)
.attr("width", radius * 2 + margin * 2)
.attr("height", radius * 2 + margin * 2);
// Group used to enforce margin
const g = svg.append("g").attr("transform", `translate(${radius + margin},${radius + margin})`);
const pie = d3
.pie<IPersonGroup>()
.value((d) => d.values.length)
.sortValues(null)
.sort(null);
const arc = d3.arc<SimpleArcDatum>().outerRadius(radius).innerRadius(0);
const noSlice: SimpleArcDatum[] = [
{ startAngle: 0, endAngle: Math.PI * 2, padAngle: 0 },
{ startAngle: 0, endAngle: 0, padAngle: 0 },
];
const cscale = d3.scaleOrdinal(colorScheme);
function update(new_data: IPersonGroup[]) {
const pied = pie(new_data);
// Render the chart with new data
cscale.domain(new_data.map((d) => d.key));
// DATA JOIN
const old = g.selectAll<SVGPathElement, d3.PieArcDatum<IPersonGroup>>("path").data();
function tweenArc(d: d3.PieArcDatum<IPersonGroup>, i: number) {
const interpolate = d3.interpolateObject(old[i], d);
return (t: number) => arc(interpolate(t))!;
}
// DATA JOIN
const path = g
.selectAll("path")
.data(pied, (d) => (d as d3.PieArcDatum<IPersonGroup>).data.key)
.join(
// ENTER
// new elements
(enter) => {
const path_enter = enter
.append("path")
.attr("d", (_d, i) => arc(noSlice[i]))
.on("click", (_e, d) => {
// note: because of missing D3 v6 typings
if (state[stateAttr] === ((d as unknown) as d3.PieArcDatum<IPersonGroup>).data.key) {
state[stateAttr] = null;
} else {
state[stateAttr] = ((d as unknown) as d3.PieArcDatum<IPersonGroup>).data.key as any;
}
updateApp();
});
path_enter.append("title");
return path_enter;
},
(update) => update,
(exit) => exit.transition().attrTween("d", tweenArc).remove()
);
// ENTER + UPDATE
// both old and new elements
path
.classed("selected", (d) => d.data.key === state.selectedSex)
.transition()
.attrTween("d", tweenArc)
.style("fill", (d) => cscale(d.data.key));
path.select("title").text((d) => `${d.data.key}: ${d.data.values.length}`);
}
return update;
}
/////////////////////////
const ageHistogram = createHistogram("#age");
const sexPieChart = createPieChart("#sex", "selectedSex", d3.schemeSet3);
const fareHistogram = createHistogram("#fare");
const survivedPieChart = createPieChart("#survived", "selectedSurvived", d3.schemeSet3.slice(2));
function filterData() {
return state.data.filter((d) => {
if (state.passengerClass && d.pclass !== state.passengerClass) {
return false;
}
if (state.selectedSex && d.sex !== state.selectedSex) {
return false;
}
if (state.selectedSurvived && d.survived !== state.selectedSurvived) {
return false;
}
return true;
});
}
function wrangleData(filtered: IPerson[]) {
const ageHistogram = d3
.bin<IPerson, number>()
.domain([0, 100])
.thresholds(10)
.value((d) => d.age);
const ageHistogramData = ageHistogram(filtered);
// always the two categories
const sexPieData = (["female", "male"] as Sex[]).map((key) => ({
key,
values: filtered.filter((d) => d.sex === key),
}));
const fareHistogram = d3
.bin<IPerson, number>()
.domain([0, d3.max(filtered, (d) => d.fare)!])
.value((d) => d.fare);
const fareHistogramData = fareHistogram(filtered);
// always the two categories
const survivedPieData = (["0", "1"] as Survival[]).map((key) => ({
key,
values: filtered.filter((d) => d.survived === key),
}));
return {
ageHistogramData,
sexPieData,
fareHistogramData,
survivedPieData,
};
}
function updateApp() {
const filtered = filterData();
const { ageHistogramData, sexPieData, fareHistogramData, survivedPieData } = wrangleData(filtered);
ageHistogram(ageHistogramData);
sexPieChart(sexPieData);
fareHistogram(fareHistogramData);
survivedPieChart(survivedPieData);
d3.select("#selectedSex").text(state.selectedSex || "None");
d3.select("#selectedSurvived").text(state.selectedSurvived || "None");
}
d3.csv<keyof IPerson>("titanic3.csv").then((parsed) => {
state.data = parsed.map((row) => ({
pclass: row.pclass!,
sex: row.sex as Sex,
survived: row.survived as Survival,
age: Number.parseInt(row.age!, 10),
fare: Number.parseFloat(row.fare!),
}));
updateApp();
});
//interactivity
d3.select<HTMLInputElement, unknown>("#passenger-class").on("change", function () {
const selected = this.value;
state.passengerClass = selected;
updateApp();
});