open-nomad/ui/app/components/line-chart.js
2022-11-28 09:56:47 -05:00

390 lines
10 KiB
JavaScript

import Component from '@glimmer/component';
import { tracked } from '@glimmer/tracking';
import { action } from '@ember/object';
import { schedule, next } from '@ember/runloop';
import d3 from 'd3-selection';
import d3Scale from 'd3-scale';
import d3Axis from 'd3-axis';
import d3Array from 'd3-array';
import d3Format from 'd3-format';
import d3TimeFormat from 'd3-time-format';
import styleString from 'nomad-ui/utils/properties/glimmer-style-string';
import uniquely from 'nomad-ui/utils/properties/uniquely';
// Returns a new array with the specified number of points linearly
// distributed across the bounds
const lerp = ([low, high], numPoints) => {
const step = (high - low) / (numPoints - 1);
const arr = [];
for (var i = 0; i < numPoints; i++) {
arr.push(low + step * i);
}
return arr;
};
// Round a number or an array of numbers
const nice = (val) => (val instanceof Array ? val.map(nice) : Math.round(val));
const defaultXScale = (data, yAxisOffset, xProp, timeseries) => {
const scale = timeseries ? d3Scale.scaleTime() : d3Scale.scaleLinear();
const domain = data.length ? d3Array.extent(data, (d) => d[xProp]) : [0, 1];
scale.rangeRound([10, yAxisOffset]).domain(domain);
return scale;
};
const defaultYScale = (data, xAxisOffset, yProp) => {
let max = d3Array.max(data, (d) => d[yProp]) || 1;
if (max > 1) {
max = nice(max);
}
return d3Scale.scaleLinear().rangeRound([xAxisOffset, 10]).domain([0, max]);
};
export default class LineChart extends Component {
/** Args
data = null;
xProp = null;
yProp = null;
curve = 'linear';
title = 'Line Chart';
description = null;
timeseries = false;
activeAnnotation = null;
onAnnotationClick() {}
xFormat;
yFormat;
xScale;
yScale;
*/
@tracked width = 0;
@tracked height = 0;
@tracked isActive = false;
@tracked activeDatum = null;
@tracked activeData = [];
@tracked tooltipPosition = null;
@tracked element = null;
@tracked ready = false;
@uniquely('title') titleId;
@uniquely('desc') descriptionId;
get xProp() {
return this.args.xProp || 'time';
}
get yProp() {
return this.args.yProp || 'value';
}
get data() {
if (!this.args.data) return [];
if (this.args.dataProp) {
return this.args.data.mapBy(this.args.dataProp).flat();
}
return this.args.data;
}
get curve() {
return this.args.curve || 'linear';
}
@action
xFormat(timeseries) {
if (this.args.xFormat) return this.args.xFormat;
return timeseries
? d3TimeFormat.timeFormat('%b %d, %H:%M')
: d3Format.format(',');
}
@action
yFormat() {
if (this.args.yFormat) return this.args.yFormat;
return d3Format.format(',.2~r');
}
get activeDatumLabel() {
const datum = this.activeDatum;
if (!datum) return undefined;
const x = datum[this.xProp];
return this.xFormat(this.args.timeseries)(x);
}
get activeDatumValue() {
const datum = this.activeDatum;
if (!datum) return undefined;
const y = datum[this.yProp];
return this.yFormat()(y);
}
@styleString
get tooltipStyle() {
return this.tooltipPosition;
}
get xScale() {
const fn = this.args.xScale || defaultXScale;
return fn(this.data, this.yAxisOffset, this.xProp, this.args.timeseries);
}
get xRange() {
const { xProp, data } = this;
const range = d3Array.extent(data, (d) => d[xProp]);
const formatter = this.xFormat(this.args.timeseries);
return range.map(formatter);
}
get yRange() {
const yProp = this.yProp;
const range = d3Array.extent(this.data, (d) => d[yProp]);
const formatter = this.yFormat();
return range.map(formatter);
}
get yScale() {
const fn = this.args.yScale || defaultYScale;
return fn(this.data, this.xAxisOffset, this.yProp);
}
get xAxis() {
const formatter = this.xFormat(this.args.timeseries);
return d3Axis
.axisBottom()
.scale(this.xScale)
.ticks(5)
.tickFormat(formatter);
}
get yTicks() {
const height = this.xAxisOffset;
const tickCount = Math.ceil(height / 120) * 2 + 1;
const domain = this.yScale.domain();
const ticks = lerp(domain, tickCount);
return domain[1] - domain[0] > 1 ? nice(ticks) : ticks;
}
get yAxis() {
const formatter = this.yFormat();
return d3Axis
.axisRight()
.scale(this.yScale)
.tickValues(this.yTicks)
.tickFormat(formatter);
}
get yGridlines() {
// The first gridline overlaps the x-axis, so remove it
const [, ...ticks] = this.yTicks;
return d3Axis
.axisRight()
.scale(this.yScale)
.tickValues(ticks)
.tickSize(-this.canvasDimensions.width)
.tickFormat('');
}
get xAxisHeight() {
// Avoid divide by zero errors by always having a height
if (!this.element) return 1;
const axis = this.element.querySelector('.x-axis');
return axis && axis.getBBox().height;
}
get yAxisWidth() {
// Avoid divide by zero errors by always having a width
if (!this.element) return 1;
const axis = this.element.querySelector('.y-axis');
return axis && axis.getBBox().width;
}
get xAxisOffset() {
return Math.max(0, this.height - this.xAxisHeight);
}
get yAxisOffset() {
return Math.max(0, this.width - this.yAxisWidth);
}
get canvasDimensions() {
const [left, right] = this.xScale.range();
const [top, bottom] = this.yScale.range();
return { left, width: right - left, top, height: bottom - top };
}
@action
onInsert(element) {
this.element = element;
this.updateDimensions();
const canvas = d3.select(this.element.querySelector('.hover-target'));
const updateActiveDatum = this.updateActiveDatum.bind(this);
const chart = this;
canvas.on('mouseenter', function (ev) {
const mouseX = d3.pointer(ev, this)[0];
chart.latestMouseX = mouseX;
updateActiveDatum(mouseX);
schedule('afterRender', chart, () => (chart.isActive = true));
});
canvas.on('mousemove', function (ev) {
const mouseX = d3.pointer(ev, this)[0];
chart.latestMouseX = mouseX;
updateActiveDatum(mouseX);
});
canvas.on('mouseleave', () => {
schedule('afterRender', this, () => (this.isActive = false));
this.activeDatum = null;
this.activeData = [];
});
}
updateActiveDatum(mouseX) {
if (!this.data || !this.data.length) return;
const { xScale, xProp, yScale, yProp } = this;
let { dataProp, data } = this.args;
if (!dataProp) {
dataProp = 'data';
data = [{ data: this.data }];
}
// Map screen coordinates to data domain
const bisector = d3Array.bisector((d) => d[xProp]).left;
const x = xScale.invert(mouseX);
// Find the closest datum to the cursor for each series
const activeData = data
.map((series, seriesIndex) => {
const dataset = series[dataProp];
// If the dataset is empty, there can't be an activeData.
// This must be done here instead of preemptively in a filter to
// preserve the seriesIndex value.
if (!dataset.length) return null;
const index = bisector(dataset, x, 1);
// The data point on either side of the cursor
const dLeft = dataset[index - 1];
const dRight = dataset[index];
let datum;
// If there is only one point, it's the activeDatum
if (dLeft && !dRight) {
datum = dLeft;
} else {
// Pick the closer point
datum = x - dLeft[xProp] > dRight[xProp] - x ? dRight : dLeft;
}
return {
series,
datum: {
formattedX: this.xFormat(this.args.timeseries)(datum[xProp]),
formattedY: this.yFormat()(datum[yProp]),
datum,
},
index: data.length - seriesIndex - 1,
};
})
.compact();
// Of the selected data, determine which is closest
const closestDatum = activeData
.slice()
.sort(
(a, b) =>
Math.abs(a.datum.datum[xProp] - x) -
Math.abs(b.datum.datum[xProp] - x)
)[0];
// If any other selected data are beyond a distance threshold, drop them from the list
// xScale is used here to measure distance in screen-space rather than data-space.
const dist = Math.abs(xScale(closestDatum.datum.datum[xProp]) - mouseX);
const filteredData = activeData.filter(
(d) => Math.abs(xScale(d.datum.datum[xProp]) - mouseX) < dist + 10
);
this.activeData = filteredData;
this.activeDatum = closestDatum.datum.datum;
this.tooltipPosition = {
left: xScale(this.activeDatum[xProp]),
top: yScale(this.activeDatum[yProp]) - 10,
};
}
// The renderChart method should only ever be responsible for runtime calculations
// and appending d3 created elements to the DOM (such as axes).
renderChart() {
// There is nothing to do if the element hasn't been inserted yet
if (!this.element) return;
// Create the axes to get the dimensions of the resulting
// svg elements
this.mountD3Elements();
next(() => {
// Since each axis depends on the dimension of the other
// axis, the axes themselves are recomputed and need to
// be re-rendered.
this.mountD3Elements();
this.ready = true;
if (this.isActive) {
this.updateActiveDatum(this.latestMouseX);
}
});
}
@action
recomputeXAxis(el) {
if (!this.isDestroyed && !this.isDestroying) {
d3.select(el.querySelector('.x-axis')).call(this.xAxis);
}
}
@action
recomputeYAxis(el) {
if (!this.isDestroyed && !this.isDestroying) {
d3.select(el.querySelector('.y-axis')).call(this.yAxis);
}
}
mountD3Elements() {
if (!this.isDestroyed && !this.isDestroying) {
d3.select(this.element.querySelector('.x-axis')).call(this.xAxis);
d3.select(this.element.querySelector('.y-axis')).call(this.yAxis);
d3.select(this.element.querySelector('.y-gridlines')).call(
this.yGridlines
);
}
}
annotationClick(annotation) {
this.args.onAnnotationClick && this.args.onAnnotationClick(annotation);
}
@action
updateDimensions() {
const $svg = this.element.querySelector('svg');
this.height = $svg.clientHeight;
this.width = $svg.clientWidth;
this.renderChart();
}
}