Zoom and Pan in react-chartjs-2 - reactjs

I have recently implemented chart display using react-chartjs-2 (https://github.com/jerairrest/react-chartjs-2)
I want to enable zooming and panning feature so that it will be more user-friendly in touch based screens. To implement this features, I installed react-hammerjs and chartjs-plugin-zoom.
import {Chart, Line} from 'react-chartjs-2';
import Hammer from 'react-hammerjs';
import zoom from 'chartjs-plugin-zoom'
And I registered the plugin
componentWillMount(){
Chart.plugins.register(zoom)
}
And the render method goes as follows:
render(){
return <Line data={data} options={options} />
}
Pan and Zoom options:
pan:{
enabled=true,
mode:'x'
},
zoom:{
enabled:true,
drag:true,
mode:'xy'
}
I guess this is the correct method to implement. Unfortunately, the above implementation did not work. I will be really grateful if some of you guys already implemented Zooming and Panning using react-chartjs-2 plugin, please share if how you achieved these functionalities. Or you could point out the problem in my code above.

In order to add Zoom and Pan capabilities to your chart components based on react-chartjs-2, you can follow the steps as shown below:
Step 1: you need to install chartjs-plugin-zoom
$ npm install chartjs-plugin-zoom
Step 2: Import chartjs-plugin-zoom in your chart component
import 'chartjs-plugin-zoom';
Step 3: Enable zoom and pan in the ChartJS component options
zoom: {
enabled: true,
mode: 'x',
},
pan: {
enabled: true,
mode: 'x',
},
That's it. So now your chart component should look like this:
import React from 'react';
import { Line } from 'react-chartjs-2';
import 'chartjs-plugin-zoom';
export default function TimelineChart({ dailyDataSets }) {
const lineChart = dailyDataSets[0] ? (
<Line
data={{
labels: dailyDataSets.map(({ date }) => date),
datasets: [
{
data: dailyDataSets.map((data) => data.attr1),
label: 'First data set',
borderColor: 'red',
fill: true,
},
{
data: dailyDataSets.map((data) => data.attr2),
label: 'Second data set',
borderColor: 'green',
fill: true,
},
],
}}
options={{
title: { display: true, text: 'My Chart' },
zoom: {
enabled: true,
mode: 'x',
},
pan: {
enabled: true,
mode: 'x',
},
}}
/>
) : null;
return <div>{lineChart}</div>;
}
Notes:
You don't have to install hammerjs explicitly, as it will be automatically included by installing chartjs-plugin-zoom as its dependency, see below:
$ npm ls
...
├─┬ chartjs-plugin-zoom#0.7.7
│ └── hammerjs#2.0.8
...
One way to zoom as an example (at least for Mac), you can move your mouse pointer into the chart area, and then scroll your mouse down or up. Once zoomed in, you can keep your mouse clicked while dragging left or right.

There's a syntax error under pan object for enabled attribute.
You've mistakenly put = instead of :
Replace this:
pan:{
enabled=true,
...
},
With:
pan:{
enabled:true,
...
},
And also as #Jun Bin suggested:
Install hammerjs as:
npm install hammerjs --save
And in your component, import it as:
import Hammer from "hammerjs";

you imported the wrong hammer it should be from "hammerjs";

You need to add import 'chartjs-plugin-zoom'; and then add zoom options into options.plugins.zoom, like:
const options = {
plugins: {
zoom: {
pan: {
enabled: true,
mode: 'x',
},
zoom: {
enabled: true,
drag: true,
mode: 'xy'
}
}
}
};

I am trying to do this in a NextJS Project. But to no success so far.
I am using a timeseries plot with date-fns/locale for German and English and keep getting this error:
Cannot convert a Symbol value to a string
TypeError: Cannot convert a Symbol value to a string at TypedRegistry.register (webpack-internal:///./node_modules/chart.js/dist/chart.esm.js:4802:50) at Registry._exec (webpack-internal:///./node_modules/chart.js/dist/chart.esm.js:4927:21) at eval (webpack-internal:///./node_modules/chart.js/dist/chart.esm.js:4919:16) at each (webpack-internal:///./node_modules/chart.js/dist/chunks/helpers.segment.js:233:10) at eval (webpack-internal:///./node_modules/chart.js/dist/chart.esm.js:4917:70) at Array.forEach (<anonymous>) at Registry._each (webpack-internal:///./node_modules/chart.js/dist/chart.esm.js:4912:15) at Registry.add (webpack-internal:///./node_modules/chart.js/dist/chart.esm.js:4870:10) at Function.value [as register] (webpack-internal:///./node_modules/chart.js/dist/chart.esm.js:6192:16) at eval (webpack-internal:///./components/Charts/PortfolioPriceLineDual.jsx:39:45) at Module../components/Charts/PortfolioPriceLineDual.jsx (https://dev.domain.de/_next/static/chunks/components_Charts_PortfolioPriceLineDual_jsx.js:7758:1) at Module.options.factory (https://dev.domain.de/_next/static/chunks/webpack.js?ts=1653499440538:655:31) at __webpack_require__ (https://dev.domain.de/_next/static/chunks/webpack.js?ts=1653499440538:37:33) at Function.fn (https://dev.domain.de/_next/static/chunks/webpack.js?ts=1653499440538:310:21)
My Component:
import { Line } from 'react-chartjs-2'
import 'chartjs-adapter-date-fns'
import { de, enGB, ja } from 'date-fns/locale'
import dynamic from 'next/dynamic'
import 'chart.js/auto'
import { useRouter } from 'next/router'
import { Chart } from 'chart.js'
// import zoomPlugin from 'chartjs-plugin-zoom';
const zoomPlugin = dynamic(() => import('chartjs-plugin-zoom'), {
ssr: false,
})
Chart.register(zoomPlugin);
const PortfolioPriceLineDual = ({
title,
data,
unit,
axesOptions,
showLegend = true,
}) => {
const totalDuration = 5000
const delayBetweenPoints = totalDuration / data.datasets[0].data.length
// const animation =
const { locale } = useRouter()
let format
switch (locale) {
case 'de-DE':
format = de
break
case 'en-US':
format = enGB
break
case 'ja-JP':
format = ja
break
default:
break
}
return (
<Line
data={data}
options={{
responsive: true,
// maintainAspectRatio: true,
// aspectRatio: 16 / 9,
resizeDelay: 5,
animation: {
x: {
type: 'number',
easing: 'linear',
duration: delayBetweenPoints,
from: NaN, // the point is initially skipped
delay: (ctx) => {
if (ctx.type !== 'data' || ctx.xStarted) {
return 0
}
ctx.xStarted = true
return ctx.index * delayBetweenPoints
},
},
y: {
type: 'number',
easing: 'linear',
duration: delayBetweenPoints,
from: (ctx) => {
return ctx.index === 0
? ctx.chart.scales.y.getPixelForValue(100)
: ctx.chart
.getDatasetMeta(ctx.datasetIndex)
.data[ctx.index - 1].getProps(['y'], true).y
},
delay: (ctx) => {
if (ctx.type !== 'data' || ctx.yStarted) {
return 0
}
ctx.yStarted = true
return ctx.index * delayBetweenPoints
},
},
y1: {
type: 'number',
easing: 'linear',
duration: delayBetweenPoints,
from: (ctx) => {
return ctx.index === 0
? ctx.chart.scales.y.getPixelForValue(100)
: ctx.chart
.getDatasetMeta(ctx.datasetIndex)
.data[ctx.index - 1].getProps(['y'], true).y
},
delay: (ctx) => {
if (ctx.type !== 'data' || ctx.yStarted) {
return 0
}
ctx.yStarted = true
return ctx.index * delayBetweenPoints
},
},
},
interaction: {
mode: 'index',
intersect: false,
},
scales: {
x: {
type: 'time',
time: {
unit: 'year',
displayFormats: {
quarter: 'yyyy',
},
tooltipFormat: 'MMMM yyyy',
},
adapters: {
date: {
locale: format,
},
},
ticks: {
align: 'start',
color: '#122a42',
font: {
size: 14,
weight: 'bold',
},
},
grid: {
display: true,
drawBorder: false,
drawOnChartArea: true,
drawTicks: true,
},
},
y: {
type: 'logarithmic',
grid: {
display: true,
drawBorder: false,
drawOnChartArea: true,
drawTicks: true,
},
ticks: {
color: '#122a42',
align: 'end',
font: {
size: 10,
weight: 'normal',
},
// Include a dollar sign in the ticks
// stepSize: 1000,
callback: function (value) {
// callback: function (value, index, ticks) {
return `${new Intl.NumberFormat(locale, axesOptions).format(
value
)}`
},
},
},
y1: {
type: 'linear',
display: true,
position: 'right',
// grid line settings
grid: {
drawOnChartArea: false, // only want the grid lines for one axis to show up
},
ticks: {
color: '#122a42',
align: 'end',
font: {
size: 10,
weight: 'normal',
},
// Include a dollar sign in the ticks
// stepSize: 1000,
callback: function (value) {
// callback: function (value, index, ticks) {
return `${new Intl.NumberFormat(locale, axesOptions).format(
value
)}`
},
},
},
},
zoom: {
enabled: true,
mode: 'x',
},
pan: {
enabled: true,
mode: 'x',
},
plugins: {
zoom: {
enabled: true,
mode: 'x',
},
pan: {
enabled: true,
mode: 'x',
},
// zoom: {
// zoom: {
// wheel: {
// enabled: true,
// },
// pinch: {
// enabled: true,
// },
// mode: 'x',
// },
// },
title: {
display: true,
color: '#151C30',
font: {
size: 26,
weight: 'bold',
style: 'normal',
},
padding: {
bottom: 10,
},
text: `${title}`,
},
tooltip: {
enabled: true,
backgroundColor: '#122a42',
itemSort: function (a, b) {
return b.raw - a.raw
},
callbacks: {
label: function (context) {
let label = context.dataset.label || ''
if (label) {
label += ': '
}
if (context.parsed.y !== null) {
label += `${new Intl.NumberFormat(locale, axesOptions).format(
context.parsed.y
)} ${unit}`
}
return label
},
},
},
legend: {
position: 'bottom',
labels: {
// This more specific font property overrides the global property
color: '#151C30',
font: {
size: 12,
weight: 'light',
},
},
},
},
}}
/>
)
}
export default PortfolioPriceLineDual

Related

How to make a realtime chart with Highcharts, Firebase, ReactJS with Typescript?

I need to create a graph in real time getting data from Firebase. I'm using ReactJs with typescript along with Highcharts.
I've already managed to simulate Highcharts in real time, but now I'm wondering how I can connect it to get the data that will be added to Firebase.
Global Graph Component:
import * as Highcharts from 'highcharts';
import HighchartsReact from 'highcharts-react-official';
import HighchartsMore from 'highcharts/highcharts-more';
import HighchartsAccessibility from 'highcharts/modules/accessibility';
import HighchartsData from 'highcharts/modules/data';
import HighchartsExporting from 'highcharts/modules/exporting';
import HighchartsHeatmap from 'highcharts/modules/heatmap';
import HighchartsTreeChart from 'highcharts/modules/treemap';
import { defaultTheme } from '../../../styles/themes';
HighchartsAccessibility(Highcharts);
HighchartsMore(Highcharts);
HighchartsData(Highcharts);
HighchartsHeatmap(Highcharts);
HighchartsTreeChart(Highcharts);
HighchartsExporting(Highcharts);
interface IChartProps {
options: Highcharts.Options;
}
export const labelsStyle = (
fontSize = 20,
color = defaultTheme.palette.grey[900]
) => ({
color,
fontSize: `${fontSize / 16}rem`,
fontFamily: 'Poppins',
margin: '0px',
fontWeight: 400,
lineHeight: `${(fontSize + 10) / 16}rem`,
});
export const Chart: React.FC<IChartProps> = ({ options }) => {
Highcharts.setOptions({
// rangeSelector: {
// enabled: false,
// },
// navigator: {
// enabled: false,
// },
xAxis: {
labels: {
style: labelsStyle(),
},
},
yAxis: {
labels: {
style: labelsStyle(18, defaultTheme.palette.grey[200]),
},
},
credits: {
enabled: false,
},
exporting: {
enabled: false,
},
});
return <HighchartsReact highcharts={Highcharts} options={options} />;
};
Realtime Graph Component:
import { TooltipFormatterContextObject } from 'highcharts';
import {
Chart,
labelsStyle,
} from '../../../../shared/components/DataDisplay/Chart';
import { defaultTheme } from '../../../../shared/styles/themes';
import { formatDate } from '../../../../shared/utils/date';
import { getRandomIntInclusive } from '../../../../shared/utils/math';
export const GraphHeartRateMonitor: React.FC = () => {
const analyticsDataState = {
dates: [],
data: [],
};
const options: Highcharts.Options = {
chart: {
borderWidth: 0,
height: '176px',
plotBackgroundColor: defaultTheme.palette.background.default,
type: 'line',
marginRight: 10,
events: {
load() {
const series = this.series[0];
setInterval(function () {
const x = new Date().getTime(), // current time
y = getRandomIntInclusive(80, 120);
series.addPoint([x, y], true, true);
}, 1000);
},
},
},
title: {
text: '',
},
xAxis: {
type: 'datetime',
tickPixelInterval: 300,
labels: {
enabled: false,
},
},
yAxis: {
title: {
text: '',
},
gridLineColor: defaultTheme.palette.background.default,
tickInterval: 10,
labels: {
enabled: false,
},
plotLines: [
{
value: 120,
color: defaultTheme.palette.red[300],
width: 2,
label: {
text: '120',
useHTML: true,
verticalAlign: 'middle',
align: 'left',
style: {
background: defaultTheme.palette.red[300],
borderRadius: '24px',
height: '18px',
padding: '2px 12px',
color: defaultTheme.palette.common.white,
fontFamily: 'Roboto Mono',
fontSize: '12px',
fontWeight: '400',
},
},
},
],
// lineColor: defaultTheme.palette.background.default,
},
legend: {
enabled: false,
},
exporting: {
enabled: false,
},
series: [
{
name: 'Random data',
color: defaultTheme.palette.grey[900],
data: (function () {
// generate an array of random data
let data = [],
time = new Date().getTime(),
i;
for (i = -19; i <= 0; i++) {
data.push({
x: time + i * 1000,
y: getRandomIntInclusive(80, 120),
});
}
return data;
})(),
},
],
tooltip: {
useHTML: true,
backgroundColor: defaultTheme.palette.background.paper,
borderRadius: 4,
shadow: {
color: defaultTheme.palette.common.black,
},
padding: 12,
style: labelsStyle(20, defaultTheme.palette.grey[300]),
formatter() {
const self: TooltipFormatterContextObject = this;
return `
<span> Time:</span>
<strong>${formatDate(new Date(self.x), 'HH:mm:ss')}</strong>
</br>
<span>Heart Rate:</span>
<strong >${self.y} bpm</strong>
`;
},
},
};
return <Chart options={options} />;
};
To call the component just call as a normal component <GraphHeartRateMonitor /> .

Using chartjs to limit data?

I have a react chartjs project that uses chartjs-chart-matrix to render a heatmap. My code config looks like so:
const getHeatmapConfig = ({
heatmapData,
getBackgroundColor,
xAxisLabels,
tissues: items,
openMenu,
title
}) => ({
type: 'matrix',
data: {
datasets: [
{
data: heatmapData,
backgroundColor: function (ctx) {
const value = ctx.dataset.data[ctx.dataIndex].v;
return getBackgroundColor(colors, value);
},
}
]
},
options: {
scales: {
x: {
type: 'category',
labels: xAxisLabels,
offset: true,
position: 'bottom',
stacked: true,
ticks: {
autoSkip: true,
maxRotation: 90,
minRotation: 90
},
grid: {
display: false,
drawBorder: false
}
},
y: {
type: 'category',
labels: items,
reverse: false,
offset: true,
grid: {
display: false,
drawBorder: false
},
ticks: {
autoSkip: true
}
}
},
plugins: {
legend: false,
title: {
align: 'center',
font: { size: 15 },
display: true,
text: title
},
tooltip: {
callbacks: {
title() {
return '';
},
}
}
}
}
});
My question is - I want to ensure that their are never more than 50 values and labels on the x axis but there doesn't seem to be a straightforward way of limiting the data like this. Is it possible?
You should limit the array of labels that you pass into your component.
For example: xAxisLabels.slice(0, 50)

Using zoom/pan with ChartJS

So I've been using react ChartJS to build some graphs, but eventually I ran into scroll problems that I couldn't solve with chartjs, so I found Apex that has Zoom built-in and I could make it scrollable.
But now since they are two completely different libs, so I can't copy it 100% the way it was.
I did not find anything on the docs talking about multiple labels in one value, so if anyone could help me with this one.
And if you see close enough there are some line running on the chart below, are those possible to do with Apex? (I'm using a customPlugin in chartJS to do it)
Ok, in the end I changed back to ChartJS and used the chartjs-plugin-zoom plugin to do the same thing I was doing with ApexChart, I'm placing my code in this answer in case that anyone faces the same problem.
React Bar Component:
import React from "react";
import { Bar, Chart } from "react-chartjs-2";
import ChartDataLabels from "chartjs-plugin-datalabels";
import Zoom from "chartjs-plugin-zoom";
const ChartBar = ({
data,
text,
noLabel,
stacked,
newPlugin,
labelPosition,
// test,
}) => {
Chart.register(Zoom);
return (
<div
className="graphics"
style={{
display: "flex",
alignItems: "center",
flexDirection: "column",
}}
>
{/* <h1>Gráficos</h1> */}
<div style={{ width: "65%", height: "350px" }}>
<Bar
data={data}
plugins={[
ChartDataLabels,
newPlugin ? newPlugin : "",
// test ? test : "",
]}
options={{
categoryPercentage: stacked ? 1.0 : 0.9,
barPercentage: 1.0,
// layout: {
// padding: {
// left: 0,
// right: 0,
// top: 60,
// bottom: 0,
// },
// },
responsive: true,
maintainAspectRatio: false,
plugins: {
zoom: {
// limits: { y: { min: "original", max: "original" } },
// pan: { enabled: true, mode: "xy", threshold: 10 },
// zoom: {
// wheel: {
// enabled: true,
// mode: "xy",
// },
// },
limits: { y: { min: "original", max: "original" } },
pan: { enabled: true, mode: "x", threshold: 10 },
zoom: {
mode: "x",
drag: {
enabled: true,
backgroundColor: "rgba(225,0,225,0.3)",
},
wheel: {
enabled: true,
modifierKey: "alt",
},
},
},
tooltip: { enabled: false },
legend: {
display: noLabel ? false : true,
position: labelPosition ? labelPosition : "bottom",
title: { padding: 40 },
},
title: { text: text, display: true, padding: 30 },
},
scales: {
// scaleLabel: { display: true },
x: {
stacked: stacked ? true : false,
// ticks: {
// display: false,
// autoSkip: true,
// maxTicksLimit: 10,
// beginAtZero: true,
// },
// gridLines: {
// display: false,
// },
},
y: { stacked: stacked ? true : false, ticks: { display: false } },
// xAxes: [{ scaleLabel: { display: true } }],
},
}}
/>
</div>
</div>
);
};
export default ChartBar;
One data object that is being used with this component(eg. the one in the main question):
{
customPlugin: {
id: "customValue",
afterDraw: (chart, args, opts) => {
const {
ctx,
data: { datasets },
_metasets,
} = chart;
datasets[1].data.forEach((dp, i) => {
let increasePercent =
(dp * 100) / datasets[0].data[i] >= 100
? Math.round(
((dp * 100) / datasets[0].data[i] - 100) * 100
) / 100
: (Math.round(
(100 - (dp * 100) / datasets[0].data[i]) * 100
) /
100) *
-1;
let barValue = `${increasePercent}%`;
const lineHeight = ctx.measureText("M").width;
const offset = opts.offset || 0;
const dash = opts.dash || [];
ctx.textAlign = "center";
ctx.fillText(
barValue,
_metasets[1].data[i].x,
_metasets[1].data[i].y - lineHeight * 1.5,
_metasets[1].data[i].width
);
if (_metasets[0].data[i].y >= _metasets[1].data[i].y) {
ctx.beginPath();
ctx.setLineDash(dash);
ctx.moveTo(_metasets[0].data[i].x, _metasets[0].data[i].y);
ctx.lineTo(
_metasets[0].data[i].x,
_metasets[1].data[i].y - offset
);
ctx.lineTo(
_metasets[1].data[i].x,
_metasets[1].data[i].y - offset
);
ctx.stroke();
} else {
ctx.beginPath();
ctx.setLineDash(dash);
ctx.moveTo(
_metasets[0].data[i].x,
_metasets[0].data[i].y - offset
);
ctx.lineTo(
_metasets[1].data[i].x,
_metasets[0].data[i].y - offset
);
ctx.lineTo(
_metasets[1].data[i].x,
_metasets[1].data[i].y - offset - lineHeight * 2
);
ctx.stroke();
}
});
},
},
text: "Evolução da Receita Líquida por Produto",
type: "bar",
// labels: values?.estimatedProducts?.map((v, i) => {
// return `Rec Líq - Prod ${++i}`;
// }),
labels: addNewArrayValue(values?.estimatedProducts, true),
datasets: [
{
type: "bar",
label: values?.monthsLabels?.mesBaseLabel,
data: values?.productsValues?.receitaLiquidaBase,
backgroundColor: ["rgba(42,62,176, 1)"],
datalabels: {
font: {
size: 10,
},
rotation: -90,
color: "white",
formatter: (value, context) => {
if (value !== 0) {
return value
?.toFixed()
.replace(/\B(?=(\d{3})+(?!\d))/g, ",");
// ?.toFixed(0)
// .replace(/\d(?=(\d{3})+\.)/g, "$&,");
} else {
return 0;
}
},
},
},
{
type: "bar",
label: values?.monthsLabels?.mesOrcadoLabel,
data: values?.productsValues?.receitaLiquidaOrcado,
backgroundColor: "orange",
datalabels: {
font: {
size: 10,
},
rotation: -90,
color: "black",
formatter: (value, context) => {
if (value !== 0) {
return value
?.toFixed()
.replace(/\B(?=(\d{3})+(?!\d))/g, ",");
} else {
return 0;
}
},
},
},
],
},
Yeah, it's not the best code, but it's a starter, I've been struggling for 1h30m just because there's little to no actual examples/doc on this case.

Can't see images in React Particles JS

I'm using React Particle JS. I want to get image to be shown among particles (like here - https://rpj.bembi.dev/#images), but can't see images, only bubbles are shown. Paths are correct. I'm including pathseg.js script through useEffect hook.
import Particles from "react-particles-js";
export default function Banner() {
useEffect(() => {
const script = document.createElement("script");
script.src = "https://cdn.rawgit.com/progers/pathseg/master/pathseg.js";
script.async = true;
document.body.appendChild(script);
return () => {
document.body.removeChild(script);
};
}, []);
return (
<Particles
params={{
particles: {
number: {
value: 8,
density: {
enable: true,
value_area: 800,
},
},
line_linked: {
enable: false,
},
move: {
speed: 1,
out_mode: "out",
},
shape: {
type: ["image", "circle"],
image: [
{
src: "https://image.flaticon.com/icons/png/512/29/29495.png",
height: 20,
width: 20,
},
],
},
color: {
value: "#CCC",
},
size: {
value: 30,
random: false,
anim: {
enable: true,
speed: 4,
size_min: 10,
sync: false,
},
},
},
retina_detect: false,
}}
/>
);
}
I think there's a bug using array with image shape type, if you use images with array it works, image is working with single object only but I'll check it out
import { useEffect } from "react";
import Particles from "react-particles-js";
export default function Banner() {
useEffect(() => {
const script = document.createElement("script");
script.src = "https://cdn.rawgit.com/progers/pathseg/master/pathseg.js";
script.async = true;
document.body.appendChild(script);
return () => {
document.body.removeChild(script);
};
}, []);
return (
<Particles
params={{
particles: {
number: {
value: 8,
density: {
enable: true,
value_area: 800,
},
},
line_linked: {
enable: false,
},
move: {
speed: 1,
out_mode: "out",
},
shape: {
type: ["image", "circle"],
image: {
src: "https://image.flaticon.com/icons/png/512/29/29495.png",
height: 20,
width: 20,
},
},
color: {
value: "#CCC",
},
size: {
value: 30,
random: false,
anim: {
enable: true,
speed: 4,
size_min: 10,
sync: false,
},
},
},
retina_detect: false,
}}
/>
);
}
This is working, if you need multiple images change image to images

Why does highcharts shrink on re-render?

I'm using highcharts-react-official to render a HighchartsReact component. It shows up and works appropriately until I re-render the component. By changing the state at all, the chart will shrink vertically.
I've experimented with setting reflow in the chart options as well as toggling allowChartUpdate and immutable flags on the component itself to no avail.
const ChartView = props => {
const { data } = props;
if(data.highstockData && data.startDate && data.endDate) {
const min = parseInt(moment(data.startDate, 'x').startOf('day').format('x'));
const max = parseInt(moment(data.endDate, 'x').startOf('day').format('x'));
const chartOptions = getChartConfig(data.highstockData, min, max);
return (
<HighchartsReact
highcharts={Highcharts}
options={chartOptions}
/>
)
}
return null;
};
And the parent Component's render return:
return (
<div className="vertical-margin">
{isFetching && !data && <LoadingView/>}
{hasError && !data && <ErrorView/>}
{
data &&
<React.Fragment>
{buttonRow}
<ChartView
data={data}
/>
</React.Fragment>
}
</div>
)
As I said re-rendering for any reason causes the highchart to shrink in height with each re-render. For testing, I call this line:
this.setState({});
I could post the chart config if needed, but it's nothing too fancy.
I haven't been able to find anyone else having this issue and have been pulling my hair out searching for an answer.
It turned out to indeed be a highchart option I was passing into the component. Apparently it was because this option:
scrollbar: {
enabled: true
},
Was not nested under the xAxis section of the options as it should be. It still created a scrollbar correctly but caused this weird, shrinking issue on component render.
chart: {
marginRight: 75,
ignoreHiddenSeries: false,
panning: false,
spacingTop: 10,
height: `${Constants.HIGHCHART_TABLE_HEIGHT}px`,
},
time: {
useUTC: false
},
credits: {
enabled: false
},
exporting: {
enabled: false
},
legend: {
align: 'left',
enabled: true,
itemMarginTop: 5,
itemStyle: {
"color": "#333333",
"cursor": "pointer",
"fontSize": "12px",
"fontWeight": "normal",
"width": "240px"
},
layout: 'vertical',
verticalAlign: 'top',
y: 0
},
navigator: {
enabled: false,
xAxis: {
tickPixelInterval: 100
}
},
plotOptions: {
line: {
marker: {
enabled: true,
fillColor: "#ffffff",
lineColor: null,
lineWidth: 1
}
}
},
rangeSelector: {
enabled: false
},
tooltip: {
formatter: function () {
const sortedPoints = this.points.sort((a, b) => {
return a.point.legendOrder - b.point.legendOrder
});
return [
'<b>',
moment(this.x, 'x').format('MM/DD/YYYY HH:mm'),
'</b><br/>',
sortedPoints.map((item) => {
return [
'<br/><span style="color:'+ item.series.color +';">\u258c</span> ',
'<span>' + item.series.name + '</span>: <b>' + item.y + '</b>',
item.comments ? '<p>(' + item.comments + ')</p>' : ''
].join('');
}).join('')
].join('');
},
shared: true,
crosshairs: {
color: '#ddd',
dashStyle: 'solid'
},
},
xAxis: {
type: 'datetime',
labels:{
formatter: function() {
const parsed = moment(this.value, 'x');
return parsed.format('HH:mm') + '<br/>' + parsed.format('MM/DD');
}
},
min,
max,
reversed: true,
scrollbar: {
enabled: true
},
},
yAxis: [{
alignTicks: false,
max: 60,
min: 0,
opposite: false,
tickInterval: 5,
title: {
text: ''
}
}, {
alignTicks: false,
max: 300,
min: 0,
opposite: true,
tickInterval: 25,
title: {
text: ''
}
}],
//The below properties are watched separately for changes.
series: data,
title: {
text: ''
},
loading: false,
};
Also here's the full options file for reference. It wasn't just that scrollbar option causing it. It was a specific combination of options as I discovered by trying to re-create the problem with a new chart.

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