2020-10-09 20:31:15 +00:00
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import Component from '@ember/component';
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import dayjs from 'dayjs';
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import Calendar from 'dayjs/plugin/calendar';
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2020-10-19 16:14:31 +00:00
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import { select, pointer } from 'd3-selection';
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2020-10-09 20:31:15 +00:00
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import { scaleLinear, scaleTime, scaleOrdinal } from 'd3-scale';
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import { schemeTableau10 } from 'd3-scale-chromatic';
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import { area, stack, stackOrderReverse } from 'd3-shape';
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import { max, extent, bisector } from 'd3-array';
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dayjs.extend(Calendar);
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function niceTimeWithSeconds(d) {
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return dayjs(d).calendar(null, {
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sameDay: '[Today at] h:mm:ss A',
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lastDay: '[Yesterday at] h:mm:ss A',
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lastWeek: '[Last] dddd at h:mm:ss A',
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sameElse: 'MMM DD at h:mm:ss A',
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});
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}
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export default Component.extend({
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data: null,
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actions: {
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redraw: function(evt) {
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this.drawGraphs();
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},
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change: function(evt) {
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2020-10-20 15:41:16 +00:00
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this.set('data', evt.data.series);
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2020-10-09 20:31:15 +00:00
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this.drawGraphs();
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2020-10-20 15:41:16 +00:00
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this.rerender();
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2020-10-09 20:31:15 +00:00
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},
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},
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drawGraphs: function() {
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2020-10-20 15:41:16 +00:00
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if (!this.data) {
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2020-10-09 20:31:15 +00:00
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return;
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}
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let svg = (this.svg = select(this.element.querySelector('svg.sparkline')));
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svg.on('mouseover mousemove mouseout', null);
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svg.selectAll('path').remove();
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svg.selectAll('rect').remove();
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let bb = svg.node().getBoundingClientRect();
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let w = bb.width;
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let h = bb.height;
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// To be safe, filter any series that actually have no data points. This can
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// happen thanks to our current provider contract allowing empty arrays for
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// series data if there is no value.
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2020-10-20 15:41:16 +00:00
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let maybeData = this.data || {};
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let series = maybeData.data || [];
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let labels = maybeData.labels || {};
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let unitSuffix = maybeData.unitSuffix || '';
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let keys = Object.keys(labels).filter(l => l != 'Total');
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2020-10-20 15:41:16 +00:00
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if (series.length == 0 || keys.length == 0) {
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2020-10-09 20:31:15 +00:00
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// Put the graph in an error state that might get fixed if metrics show up
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// on next poll.
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let loader = this.element.querySelector('.sparkline-loader');
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loader.innerHTML = 'No Metrics Available';
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loader.style.display = 'block';
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return;
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}
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let st = stack()
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.keys(keys)
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.order(stackOrderReverse);
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let stackData = st(series);
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// Sum all of the values for each point to get max range. Technically
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// stackData contains this but I didn't find reliable documentation on
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// whether we can rely on the highest stacked area to always be first/last
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// in array etc. so this is simpler.
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let summed = series.map(d => {
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let sum = 0;
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keys.forEach(l => {
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sum = sum + d[l];
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});
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return sum;
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});
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let x = scaleTime()
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.domain(extent(series, d => d.time))
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.range([0, w]);
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let y = scaleLinear()
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.domain([0, max(summed)])
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.range([h, 0]);
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let a = area()
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.x(d => x(d.data.time))
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.y1(d => y(d[0]))
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.y0(d => y(d[1]));
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// Use the grey/red we prefer by default but have more colors available in
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// case user adds extra series with a custom provider.
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let colorScheme = ['#DCE0E6', '#C73445'].concat(schemeTableau10);
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let color = scaleOrdinal(colorScheme).domain(keys);
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svg
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.selectAll('path')
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.data(stackData)
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.join('path')
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.attr('fill', ({ key }) => color(key))
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.attr('stroke', ({ key }) => color(key))
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.attr('d', a);
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let cursor = svg
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.append('rect')
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.attr('class', 'cursor')
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.style('visibility', 'hidden')
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.attr('width', 1)
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.attr('height', h)
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.attr('x', 0)
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.attr('y', 0);
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let tooltip = select(this.element.querySelector('.tooltip'));
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tooltip.selectAll('.sparkline-tt-legend').remove();
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tooltip.selectAll('.sparkline-tt-sum').remove();
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2020-10-09 20:31:15 +00:00
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for (var k of keys) {
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let legend = tooltip.append('div').attr('class', 'sparkline-tt-legend');
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legend
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.append('div')
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.attr('class', 'sparkline-tt-legend-color')
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.style('background-color', color(k));
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legend
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.append('span')
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.text(k)
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.append('span')
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.attr('class', 'sparkline-tt-legend-value');
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}
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let tipVals = tooltip.selectAll('.sparkline-tt-legend-value');
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2020-10-20 15:41:16 +00:00
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// Add a label for the summed value
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if (keys.length > 1) {
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tooltip
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.append('div')
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.attr('class', 'sparkline-tt-sum')
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.append('span')
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.text('Total')
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.append('span')
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.attr('class', 'sparkline-tt-sum-value');
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}
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let self = this;
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svg
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.on('mouseover', function(e) {
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tooltip.style('visibility', 'visible');
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cursor.style('visibility', 'visible');
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// We update here since we might redraw the graph with user's cursor
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// stationary over it. If that happens mouseover fires but not
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// mousemove but the tooltip and cursor are wrong (based on old data).
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2020-10-21 14:23:16 +00:00
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self.updateTooltip(e, series, stackData, summed, unitSuffix, x, tooltip, tipVals, cursor);
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})
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.on('mousemove', function(e) {
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self.updateTooltip(e, series, stackData, summed, unitSuffix, x, tooltip, tipVals, cursor);
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})
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.on('mouseout', function(e) {
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tooltip.style('visibility', 'hidden');
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cursor.style('visibility', 'hidden');
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});
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},
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willDestroyElement: function() {
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this._super(...arguments);
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if (typeof this.svg !== 'undefined') {
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this.svg.on('mouseover mousemove mouseout', null);
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}
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},
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updateTooltip: function(e, series, stackData, summed, unitSuffix, x, tooltip, tipVals, cursor) {
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let [mouseX] = pointer(e);
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cursor.attr('x', mouseX);
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let mouseTime = x.invert(mouseX);
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var bisectTime = bisector(function(d) {
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return d.time;
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}).left;
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let tipIdx = bisectTime(series, mouseTime);
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tooltip
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// 22 px is the correction to align the arrow on the tool tip with
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// cursor.
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.style('left', mouseX - 22 + 'px')
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.select('.sparkline-time')
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.text(niceTimeWithSeconds(mouseTime));
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2020-10-20 15:41:16 +00:00
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// Get the summed value - that's the one of the top most stack.
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tooltip.select('.sparkline-tt-sum-value').text(`${shortNumStr(summed[tipIdx])}${unitSuffix}`);
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2020-10-09 20:31:15 +00:00
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tipVals.nodes().forEach((n, i) => {
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let val = stackData[i][tipIdx][1] - stackData[i][tipIdx][0];
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select(n).text(`${shortNumStr(val)}${unitSuffix}`);
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});
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cursor.attr('x', mouseX);
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},
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});
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// Duplicated in vendor/metrics-providers/prometheus.js since we want that to
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// remain a standalone example of a provider that could be loaded externally.
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function shortNumStr(n) {
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if (n < 1e3) {
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if (Number.isInteger(n)) return '' + n;
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if (n >= 100) {
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// Go to 3 significant figures but wrap it in Number to avoid scientific
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// notation lie 2.3e+2 for 230.
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return Number(n.toPrecision(3));
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}
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if (n < 1) {
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// Very small numbers show with limited precision to prevent long string
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// of 0.000000.
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return Number(n.toFixed(2));
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} else {
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// Two sig figs is enough below this
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return Number(n.toPrecision(2));
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}
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}
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if (n >= 1e3 && n < 1e6) return +(n / 1e3).toPrecision(3) + 'k';
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if (n >= 1e6 && n < 1e9) return +(n / 1e6).toPrecision(3) + 'm';
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if (n >= 1e9 && n < 1e12) return +(n / 1e9).toPrecision(3) + 'g';
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if (n >= 1e12) return +(n / 1e12).toFixed(0) + 't';
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}
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