import Component from '@ember/component'; import { computed, observer } from '@ember/object'; import { guidFor } from '@ember/object/internals'; import { run } from '@ember/runloop'; import d3 from 'd3-selection'; import d3Scale from 'd3-scale'; import d3Axis from 'd3-axis'; import d3Array from 'd3-array'; import d3Shape from 'd3-shape'; import d3Format from 'd3-format'; import d3TimeFormat from 'd3-time-format'; import WindowResizable from 'nomad-ui/mixins/window-resizable'; import styleStringProperty from 'nomad-ui/utils/properties/style-string'; // 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)); export default Component.extend(WindowResizable, { classNames: ['chart', 'line-chart'], // Public API data: null, xProp: null, yProp: null, timeseries: false, chartClass: 'is-primary', title: 'Line Chart', description: null, // Private Properties width: 0, height: 0, isActive: false, fillId: computed(function() { return `line-chart-fill-${guidFor(this)}`; }), maskId: computed(function() { return `line-chart-mask-${guidFor(this)}`; }), activeDatum: null, activeDatumLabel: computed('activeDatum', function() { const datum = this.get('activeDatum'); if (!datum) return; const x = datum[this.get('xProp')]; return this.xFormat(this.get('timeseries'))(x); }), activeDatumValue: computed('activeDatum', function() { const datum = this.get('activeDatum'); if (!datum) return; const y = datum[this.get('yProp')]; return this.yFormat()(y); }), // Overridable functions that retrurn formatter functions xFormat(timeseries) { return timeseries ? d3TimeFormat.timeFormat('%b') : d3Format.format(','); }, yFormat() { return d3Format.format(',.2~r'); }, tooltipPosition: null, tooltipStyle: styleStringProperty('tooltipPosition'), xScale: computed('data.[]', 'xProp', 'timeseries', 'yAxisOffset', function() { const xProp = this.get('xProp'); const scale = this.get('timeseries') ? d3Scale.scaleTime() : d3Scale.scaleLinear(); const data = this.get('data'); const domain = data.length ? d3Array.extent(this.get('data'), d => d[xProp]) : [0, 1]; scale.rangeRound([10, this.get('yAxisOffset')]).domain(domain); return scale; }), xRange: computed('data.[]', 'xFormat', 'xProp', 'timeseries', function() { const { xProp, timeseries, data } = this.getProperties('xProp', 'timeseries', 'data'); const range = d3Array.extent(data, d => d[xProp]); const formatter = this.xFormat(timeseries); return range.map(formatter); }), yRange: computed('data.[]', 'yFormat', 'yProp', function() { const yProp = this.get('yProp'); const range = d3Array.extent(this.get('data'), d => d[yProp]); const formatter = this.yFormat(); return range.map(formatter); }), yScale: computed('data.[]', 'yProp', 'xAxisOffset', function() { const yProp = this.get('yProp'); let max = d3Array.max(this.get('data'), d => d[yProp]) || 1; if (max > 1) { max = nice(max); } return d3Scale .scaleLinear() .rangeRound([this.get('xAxisOffset'), 10]) .domain([0, max]); }), xAxis: computed('xScale', function() { const formatter = this.xFormat(this.get('timeseries')); return d3Axis .axisBottom() .scale(this.get('xScale')) .ticks(5) .tickFormat(formatter); }), yTicks: computed('xAxisOffset', function() { const height = this.get('xAxisOffset'); const tickCount = Math.ceil(height / 120) * 2 + 1; const domain = this.get('yScale').domain(); const ticks = lerp(domain, tickCount); return domain[1] - domain[0] > 1 ? nice(ticks) : ticks; }), yAxis: computed('yScale', function() { const formatter = this.yFormat(); return d3Axis .axisRight() .scale(this.get('yScale')) .tickValues(this.get('yTicks')) .tickFormat(formatter); }), yGridlines: computed('yScale', function() { // The first gridline overlaps the x-axis, so remove it const [, ...ticks] = this.get('yTicks'); return d3Axis .axisRight() .scale(this.get('yScale')) .tickValues(ticks) .tickSize(-this.get('yAxisOffset')) .tickFormat(''); }), xAxisHeight: computed(function() { // 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; }), yAxisWidth: computed(function() { // 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; }), xAxisOffset: computed('height', 'xAxisHeight', function() { return this.get('height') - this.get('xAxisHeight'); }), yAxisOffset: computed('width', 'yAxisWidth', function() { return this.get('width') - this.get('yAxisWidth'); }), line: computed('data.[]', 'xScale', 'yScale', function() { const { xScale, yScale, xProp, yProp } = this.getProperties( 'xScale', 'yScale', 'xProp', 'yProp' ); const line = d3Shape .line() .defined(d => d[yProp] != null) .x(d => xScale(d[xProp])) .y(d => yScale(d[yProp])); return line(this.get('data')); }), area: computed('data.[]', 'xScale', 'yScale', function() { const { xScale, yScale, xProp, yProp } = this.getProperties( 'xScale', 'yScale', 'xProp', 'yProp' ); const area = d3Shape .area() .defined(d => d[yProp] != null) .x(d => xScale(d[xProp])) .y0(yScale(0)) .y1(d => yScale(d[yProp])); return area(this.get('data')); }), didInsertElement() { this.updateDimensions(); const canvas = d3.select(this.element.querySelector('.canvas')); const updateActiveDatum = this.updateActiveDatum.bind(this); const chart = this; canvas.on('mouseenter', function() { const mouseX = d3.mouse(this)[0]; chart.set('latestMouseX', mouseX); updateActiveDatum(mouseX); run.schedule('afterRender', chart, () => chart.set('isActive', true)); }); canvas.on('mousemove', function() { const mouseX = d3.mouse(this)[0]; chart.set('latestMouseX', mouseX); updateActiveDatum(mouseX); }); canvas.on('mouseleave', () => { run.schedule('afterRender', this, () => this.set('isActive', false)); this.set('activeDatum', null); }); }, didUpdateAttrs() { this.renderChart(); }, updateActiveDatum(mouseX) { const { xScale, xProp, yScale, yProp, data } = this.getProperties( 'xScale', 'xProp', 'yScale', 'yProp', 'data' ); if (!data || !data.length) return; // Map the mouse coordinate to the index in the data array const bisector = d3Array.bisector(d => d[xProp]).left; const x = xScale.invert(mouseX); const index = bisector(data, x, 1); // The data point on either side of the cursor const dLeft = data[index - 1]; const dRight = data[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; } this.set('activeDatum', datum); this.set('tooltipPosition', { left: xScale(datum[xProp]), top: yScale(datum[yProp]) - 10, }); }, updateChart: observer('data.[]', function() { this.renderChart(); }), // 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; // First, create the axes to get the dimensions of the resulting // svg elements this.mountD3Elements(); run.next(() => { // Then, recompute anything that depends on the dimensions // on the dimensions of the axes elements this.notifyPropertyChange('xAxisHeight'); this.notifyPropertyChange('yAxisWidth'); // Since each axis depends on the dimension of the other // axis, the axes themselves are recomputed and need to // be re-rendered. this.mountD3Elements(); if (this.get('isActive')) { this.updateActiveDatum(this.get('latestMouseX')); } }); }, mountD3Elements() { d3.select(this.element.querySelector('.x-axis')).call(this.get('xAxis')); d3.select(this.element.querySelector('.y-axis')).call(this.get('yAxis')); d3.select(this.element.querySelector('.y-gridlines')).call(this.get('yGridlines')); }, windowResizeHandler() { run.once(this, this.updateDimensions); }, updateDimensions() { const $svg = this.$('svg'); const width = $svg.width(); const height = $svg.height(); this.setProperties({ width, height }); this.renderChart(); }, });