import React from 'react';
import { withRouter, Link } from 'react-router-dom'
import Chart from 'chart.js/auto';
import { navigateToQuery } from '../../query'
import * as api from '../../api'
import * as storage from '../../util/storage'
import LazyLoader from '../../components/lazy-loader'
import GraphTooltip from './graph-tooltip'
import { buildDataSet, METRIC_MAPPING, METRIC_LABELS, METRIC_FORMATTER, LoadingState } from './graph-util'
import dateFormatter from './date-formatter';
import TopStats from './top-stats';
import { IntervalPicker, getStoredInterval, storeInterval } from './interval-picker';
import FadeIn from '../../fade-in';
import * as url from '../../util/url'
import classNames from 'classnames';
const calculateMaximumY = function(dataset) {
const yAxisValues = dataset
.flatMap((item) => item.data)
.map((item) => item || 0)
if (yAxisValues) {
return Math.max(...yAxisValues)
} else {
return 1
}
}
class LineGraph extends React.Component {
constructor(props) {
super(props);
this.boundary = React.createRef()
this.regenerateChart = this.regenerateChart.bind(this);
this.updateWindowDimensions = this.updateWindowDimensions.bind(this);
this.state = {
exported: false
};
}
regenerateChart() {
const { graphData, metric, query } = this.props
const graphEl = document.getElementById("main-graph-canvas")
this.ctx = graphEl.getContext('2d');
const dataSet = buildDataSet(graphData.plot, graphData.comparison_plot, graphData.present_index, this.ctx, METRIC_LABELS[metric])
return new Chart(this.ctx, {
type: 'line',
data: {
labels: graphData.labels,
datasets: dataSet
},
options: {
animation: false,
plugins: {
legend: { display: false },
tooltip: {
enabled: false,
mode: 'index',
intersect: false,
position: 'average',
external: GraphTooltip(graphData, metric, query)
},
},
responsive: true,
maintainAspectRatio: false,
onResize: this.updateWindowDimensions,
elements: { line: { tension: 0 }, point: { radius: 0 } },
onClick: this.onClick.bind(this),
scales: {
y: {
min: 0,
suggestedMax: calculateMaximumY(dataSet),
ticks: {
callback: METRIC_FORMATTER[metric],
maxTicksLimit: 8,
color: this.props.darkTheme ? 'rgb(243, 244, 246)' : undefined
},
grid: {
zeroLineColor: 'transparent',
drawBorder: false,
}
},
yComparison: {
min: 0,
suggestedMax: calculateMaximumY(dataSet),
display: false,
grid: { display: false },
},
x: {
grid: { display: false },
ticks: {
maxTicksLimit: 8,
callback: function (val, _index, _ticks) {
if (this.getLabelForValue(val) == "__blank__") return ""
const hasMultipleYears =
graphData.labels
.filter((date) => typeof date === 'string')
.map(date => date.split('-')[0])
.filter((value, index, list) => list.indexOf(value) === index)
.length > 1
if (graphData.interval === 'hour' && query.period !== 'day') {
const date = dateFormatter({
interval: "date",
longForm: false,
period: query.period,
shouldShowYear: hasMultipleYears,
})(this.getLabelForValue(val))
const hour = dateFormatter({
interval: graphData.interval,
longForm: false,
period: query.period,
shouldShowYear: hasMultipleYears,
})(this.getLabelForValue(val))
// Returns a combination of date and hour. This is because
// small intervals like hour may return multiple days
// depending on the query period.
return `${date}, ${hour}`
}
if (graphData.interval === 'minute' && query.period !== 'realtime') {
return dateFormatter({
interval: "hour", longForm: false, period: query.period,
})(this.getLabelForValue(val))
}
return dateFormatter({
interval: graphData.interval, longForm: false, period: query.period, shouldShowYear: hasMultipleYears,
})(this.getLabelForValue(val))
},
color: this.props.darkTheme ? 'rgb(243, 244, 246)' : undefined
}
}
},
interaction: {
mode: 'index',
intersect: false,
}
}
});
}
repositionTooltip(e) {
const tooltipEl = document.getElementById('chartjs-tooltip');
if (tooltipEl && window.innerWidth >= 768) {
if (e.clientX > 0.66 * window.innerWidth) {
tooltipEl.style.right = (window.innerWidth - e.clientX) + window.pageXOffset + 'px'
tooltipEl.style.left = null;
} else {
tooltipEl.style.right = null;
tooltipEl.style.left = e.clientX + window.pageXOffset + 'px'
}
tooltipEl.style.top = e.clientY + window.pageYOffset + 'px'
tooltipEl.style.opacity = 1;
}
}
componentDidMount() {
if (this.props.graphData) {
this.chart = this.regenerateChart();
}
window.addEventListener('mousemove', this.repositionTooltip);
}
componentDidUpdate(prevProps) {
const { graphData, darkTheme } = this.props;
const tooltip = document.getElementById('chartjs-tooltip');
if (
graphData !== prevProps.graphData ||
darkTheme !== prevProps.darkTheme
) {
if (graphData) {
if (this.chart) {
this.chart.destroy();
}
this.chart = this.regenerateChart();
this.chart.update();
}
if (tooltip) {
tooltip.style.display = 'none';
}
}
if (!graphData) {
if (this.chart) {
this.chart.destroy();
}
if (tooltip) {
tooltip.style.display = 'none';
}
}
}
componentWillUnmount() {
// Ensure that the tooltip doesn't hang around when we are loading more data
const tooltip = document.getElementById('chartjs-tooltip');
if (tooltip) {
tooltip.style.opacity = 0;
tooltip.style.display = 'none';
}
window.removeEventListener('mousemove', this.repositionTooltip)
}
/**
* The current ticks' limits are set to treat iPad (regular/Mini/Pro) as a regular screen.
* @param {*} chart - The chart instance.
* @param {*} dimensions - An object containing the new dimensions *of the chart.*
*/
updateWindowDimensions(chart, dimensions) {
chart.options.scales.x.ticks.maxTicksLimit = dimensions.width < 720 ? 5 : 8
chart.options.scales.y.ticks.maxTicksLimit = dimensions.height < 233 ? 3 : 8
}
onClick(e) {
const element = this.chart.getElementsAtEventForMode(e, 'index', { intersect: false })[0]
const date = this.props.graphData.labels[element.index] || this.props.graphData.comparison_labels[element.index]
if (this.props.graphData.interval === 'month') {
navigateToQuery(this.props.history, this.props.query, { period: 'month', date })
} else if (this.props.graphData.interval === 'date') {
navigateToQuery(this.props.history, this.props.query, { period: 'day', date })
}
}
pollExportReady() {
if (document.cookie.includes('exporting')) {
setTimeout(this.pollExportReady.bind(this), 1000);
} else {
this.setState({exported: false})
}
}
downloadSpinner() {
this.setState({exported: true});
document.cookie = "exporting=";
setTimeout(this.pollExportReady.bind(this), 1000);
}
downloadLink() {
if (this.props.query.period !== 'realtime') {
if (this.state.exported) {
return (
)
} else {
const interval = this.props.graphData?.interval
const queryParams = api.serializeQuery(this.props.query, [{ interval }])
const endpoint = `/${encodeURIComponent(this.props.site.domain)}/export${queryParams}`
return (
)
}
}
}
samplingNotice() {
const samplePercent = this.props.topStatData && this.props.topStatData.sample_percent
if (samplePercent < 100) {
return (
)
}
}
importedNotice() {
const source = this.props.topStatData && this.props.topStatData.imported_source;
if (source) {
const withImported = this.props.topStatData.with_imported;
const strike = withImported ? "" : " line-through"
const target = url.setQuery('with_imported', !withImported)
const tip = withImported ? "" : "do not ";
return (
{ source[0].toUpperCase() }
)
}
}
// This function is used for maintaining the main-graph/top-stats container height in the
// loading process. The container height depends on how many top stat metrics are returned
// from the API, but in the loading state, we don't know that yet. We can use localStorage
// to keep track of the Top Stats container height.
getTopStatsHeight() {
if (this.props.topStatData) {
return 'auto'
} else {
return `${storage.getItem(`topStatsHeight__${this.props.site.domain}`) || 89}px`
}
}
render() {
const { mainGraphRefreshing, updateMetric, updateInterval, metric, topStatData, query, site, graphData, lastLoadTimestamp } = this.props
const canvasClass = classNames('mt-4 select-none', {'cursor-pointer': !['minute', 'hour'].includes(graphData?.interval)})
return (
{mainGraphRefreshing && renderLoader()}
{ this.downloadLink() }
{ this.samplingNotice() }
{ this.importedNotice() }
)
}
}
const LineGraphWithRouter = withRouter(LineGraph)
export default class VisitorGraph extends React.Component {
constructor(props) {
super(props)
this.state = {
topStatsLoadingState: LoadingState.loading,
mainGraphLoadingState: LoadingState.loading,
metric: storage.getItem(`metric__${this.props.site.domain}`) || 'visitors'
}
this.onVisible = this.onVisible.bind(this)
this.updateMetric = this.updateMetric.bind(this)
this.fetchTopStatData = this.fetchTopStatData.bind(this)
this.fetchGraphData = this.fetchGraphData.bind(this)
this.updateInterval = this.updateInterval.bind(this)
}
isIntervalValid(interval) {
const { query, site } = this.props
const validIntervals = site.validIntervalsByPeriod[query.period] || []
return validIntervals.includes(interval)
}
getIntervalFromStorage() {
const { query, site } = this.props
const storedInterval = getStoredInterval(query.period, site.domain)
if (this.isIntervalValid(storedInterval)) {
return storedInterval
} else {
return null
}
}
updateInterval(interval) {
if (this.isIntervalValid(interval)) {
storeInterval(this.props.query.period, this.props.site.domain, interval)
this.setState({ mainGraphLoadingState: LoadingState.refreshing, graphData: null }, this.fetchGraphData)
}
}
onVisible() {
this.setState({mainGraphLoadingState: LoadingState.loading}, this.fetchGraphData)
this.fetchTopStatData()
if (this.props.query.period === 'realtime') {
document.addEventListener('tick', this.fetchGraphData)
document.addEventListener('tick', this.fetchTopStatData)
}
}
componentDidUpdate(prevProps, prevState) {
const { metric } = this.state;
const { query } = this.props
if (query !== prevProps.query) {
this.setState({ mainGraphLoadingState: LoadingState.loading, topStatsLoadingState: LoadingState.loading, graphData: null, topStatData: null }, this.fetchGraphData)
this.fetchTopStatData()
}
if (metric !== prevState.metric) {
this.setState({mainGraphLoadingState: LoadingState.refreshing}, this.fetchGraphData)
}
}
resetMetric() {
const { topStatData } = this.state
const { query, site } = this.props
const savedMetric = storage.getItem(`metric__${site.domain}`)
const selectableMetrics = topStatData && topStatData.top_stats.map(({ name }) => METRIC_MAPPING[name]).filter(name => name)
const canSelectSavedMetric = selectableMetrics && selectableMetrics.includes(savedMetric)
if (query.filters.goal) {
this.setState({ metric: 'conversions' })
} else if (canSelectSavedMetric) {
this.setState({ metric: savedMetric })
} else {
this.setState({ metric: 'visitors' })
}
}
componentWillUnmount() {
document.removeEventListener('tick', this.fetchGraphData)
document.removeEventListener('tick', this.fetchTopStatData)
}
storeTopStatsContainerHeight() {
storage.setItem(`topStatsHeight__${this.props.site.domain}`, document.getElementById('top-stats-container').clientHeight)
}
updateMetric(clickedMetric) {
if (this.state.metric == clickedMetric) return
storage.setItem(`metric__${this.props.site.domain}`, clickedMetric)
this.setState({ metric: clickedMetric, graphData: null })
}
fetchGraphData() {
const url = `/api/stats/${encodeURIComponent(this.props.site.domain)}/main-graph`
let params = { metric: this.state.metric }
const interval = this.getIntervalFromStorage()
if (interval) { params.interval = interval }
api.get(url, this.props.query, params)
.then((res) => {
this.setState({ mainGraphLoadingState: LoadingState.loaded, graphData: res })
return res
})
.catch((err) => {
console.log(err)
this.setState({ mainGraphLoadingState: LoadingState.loaded, graphData: false })
})
}
fetchTopStatData() {
api.get(`/api/stats/${encodeURIComponent(this.props.site.domain)}/top-stats`, this.props.query)
.then((res) => {
res.top_stats = this.maybeRemoveFeatureFlaggedMetrics(res.top_stats)
this.setState({ topStatsLoadingState: LoadingState.loaded, topStatData: res }, () => {
this.storeTopStatsContainerHeight()
this.resetMetric()
})
return res
})
}
maybeRemoveFeatureFlaggedMetrics(top_stats) {
if (this.props.site.flags.visits_metric) {
return top_stats
} else {
return top_stats.filter((stat) => {return !(["Total visits", "Views per visit"].includes(stat.name))})
}
}
renderInner() {
const { query, site } = this.props;
const { graphData, metric, topStatData, topStatsLoadingState, mainGraphLoadingState } = this.state;
const theme = document.querySelector('html').classList.contains('dark') || false
const mainGraphRefreshing = (mainGraphLoadingState === LoadingState.refreshing)
const topStatAndGraphLoaded = !!(topStatData && graphData)
const shouldShow =
topStatsLoadingState === LoadingState.loaded &&
LoadingState.isLoadedOrRefreshing(mainGraphLoadingState) &&
(topStatData && mainGraphRefreshing || topStatAndGraphLoaded)
return (
)
}
render() {
const {mainGraphLoadingState, topStatsLoadingState} = this.state
const showLoader =
[mainGraphLoadingState, topStatsLoadingState].includes(LoadingState.loading) &&
mainGraphLoadingState !== LoadingState.refreshing
return (
{showLoader && renderLoader()}
{this.renderInner()}
)
}
}
function renderLoader() {
return (
)
}