Box Chart


Sometimes it's not the best idea to describe a set of values as a single summarized measure such as a sum or average. It may be necessary to describe the values as they spread across the entire range. For example, if we want to analyze salaries in a company, we will need more information than the sum of salaries for each salary grade. Even a measure of average salary wouldn't tell us enough.

Box Charts allow showing the minimum and the maximum with a median (a numerical value separating the higher half of a data sample, a population, or a probability distribution, from the lower half) and quartiles, which helps making the story more complete. But still, giving only the highest, the lowest and the medium values doesn't tell the full story. So it is often useful to display the data in a way that reveals more about values' distribution.

Here it is where BoxCharts are really useful.


Depending on data model and the visualization purpose the box chart may contain one or several series.

Single Series

Let's see single series area chart created using the following data: salaries of ACME Corp. by ranges in February 2015:

Range Min Salary, $ First Quartile, $ Median, $ Third Quartile, $ Max Salary, $
1 1000 1050 1200 1800 2000
2 2500 3000 3800 3900 4000
3 2000 2300 2500 2900 3000
4 4000 5000 6000 6500 7000
5 8000 8400 8500 8800 9000
Now we need to convert this data table into the format that can be used by AnyChart. See more about formats in Supported Data Formats article.

In terms of AnyChart data model we have one series of data (Salaries) with categories that hold range numbers. Each box in series represents the salaries' dispersion of the staff of a range in February. We will use the easiest basic method of data setting, it looks like this:

  var data = [
    {x: "1", low: 1000, q1: 1050, median: 1200, q3: 1800, high: 2000},
    {x: "2", low: 2500, q1: 3000, median: 3800, q3: 3900, high: 4000},
    {x: "3", low: 2000, q1: 2300, median: 2500, q3: 2900, high: 3000},
    {x: "4", low: 4000, q1: 5000, median: 5500, q3: 6500, high: 7000},
    {x: "5", low: 8000, q1: 8400, median: 8500, q3: 8800, high: 9000},

  //create box chart
  chart =;

  //create box chart series with our data;

As you can see, we've created a Data Set. Every object is a box, each has some parameters. The first column is as category and others represent boxes' parameters.

Here it is: AnyChart can now visualize your data. Look at the chart sample below and click on "Launch in playground" to see the full source code, alter and play with the sample or download it.



To compare two or more data sets you have to use multi-series area charts as it is shown in the sample below.

Now we're going to compare February 2015 salaries to January 2015 ones. Let's suppose January 2015 salaries as in the table below:

Min Salary, $ First Quartile, $ Median, $ Third Quartile, $ Max Salary, $ Outliers, $
Jan 2015 Feb 2015 Jan 2015 Feb 2015 Jan 2015 Feb 2015 Jan 2015 Feb 2015 Jan 2015 Feb 2015 Jan 2015 Feb 2015
1 1300 1000 1400 1050 1700 1200 2000 1800 2100 2000 2300
2 2500 2500 3400 3000 3500 3800 3600 3900 3700 4000 4000
3 2000 2000 2300 2300 2500 2500 2900 2900 3000 3000 3450
4 4000 4000 5000 5000 5500 5500 6000 6500 7000 7000 7100
5 8100 8000 8400 8400 8500 8500 9000 8800 9500 9000 9700

As we did in single series area sample above we need to convert this table AnyChart format, the only difference between these two samples is the fact that now we have two series of the data, each series is for each month:

  var data_1 = [
    {x: "1", low: 1000, q1: 1050, median: 1200, q3: 1800, high: 2000},
    {x: "2", low: 2500, q1: 3000, median: 3800, q3: 3900, high: 4000},
    {x: "3", low: 2000, q1: 2300, median: 2500, q3: 2900, high: 3000},
    {x: "4", low: 4000, q1: 5000, median: 5500, q3: 6500, high: 7000},
    {x: "5", low: 8000, q1: 8400, median: 8500, q3: 8800, high: 9000},

  var data_2 = [
    {x: "1", low: 1300, q1: 1400, median: 1700, q3: 2000, high: 2100, outliers:[2300,1000]},
    {x: "2", low: 2500, q1: 3400, median: 3500, q3: 3600, high: 3700, outliers:[4000,2200]},
    {x: "3", low: 2000, q1: 2300, median: 2500, q3: 2900, high: 3000, outliers:[3450,1800]},
    {x: "4", low: 4000, q1: 5000, median: 5500, q3: 6000, high: 7000, outliers:[7100,3700]},
    {x: "5", low: 8100, q1: 8400, median: 8500, q3: 9000, high: 9500, outliers:[9700,7600,4500]},

  //create box chart series with our data;;

  //initiate chart drawing

That's how it looks like on a chart:



In AnyChart axis is an object that allows you to configure chart grid, axis line along with tick marks and labels, axis scale and settings and many more. All axis features are described in Axes Basics, Axes Scales and Extra Axes tutorial, in this section we will quickly demonstrate how axis orientation can be adjusted, how axis scale can be inverted and how minimum and maximum values can be controlled.


With AnyChart you can place axes to any side of the chart, all you need to do is to adjust the .orientation() parameter of the .yAxis() or .xAxis() methods. Position depends on plot type and inversion of axes, you will find list of all possible orientation and inversion settings in Axes Orientation Templates.

  var xAxis = chart.xAxis();
  var yAxis = chart.yAxis();

And here is the demonstration of this feature on the Single-series sample:



AnyChart allows scale inversion. Just add the .inverted() method to the scale you want to invert, for example:

  // adjust y scale
  var yScale = chart.yScale();

Only one line changes the view a lot:


Minimum and Maximum

In case your data values start far from the beginning of the scale or end far from the point you really need to show and analyse, you may have no desire to keep any empty space in the chart. Then use this ability of AnyChart to set the minimum and the maximum values shown on the axis.

You can control these values by setting .maximum() and .minimum() parameters of .yScale() method. As far as you want to adjust the scale, set .ticks().interval() as well, in case the default interval is twisted:

  var yScale = chart.yScale();
  vat yTicks = chart.yScale().ticks();

And here is the demonstration of maximum and minimum values on the Single-series sample:


Scale Type

There are four types of scales in AnyChart: "Linear", "Logarithmic", "Ordinal" and "DateTime". To set scale type use appropriate constructor:

  var newScale = anychart.scales.ordinal();

Linear scale is set be default, other scale types can be set using the code above. For example, if you prefer your vertical scale logarithmic, paste the following:


That's how it will change your chart's appearance:



In this section we will describe the main elements of a box chart style and demonstrate how a style can be applied. The main idea of styles is to segregate visualization and data definition. Visual appearance of boxes is defined using certain styles and then you just apply the style to the certain data elements. The style can be applied to a data series or a single box. Also, styles are used to make charts interactive, you can define how elements will be displayed by default, when hovered, etc.

Basic sample

Now, let's look how to apply a simple style to the chart. As we've already said, a style consists of several elements, here is the javascript structure:

  //set axes titles settings
  var xAxis = chart.xAxis();
  var xLabels = chart.xAxis().labels();
  var yAxis = chart.yAxis();
  var yTitle = chart.yAxis().title();
  yTitle.text("$ per month");
  var yTicks = chart.yAxis().ticks();
  var yLabels = chart.yAxis().labels();
  var yMinorTicks = chart.yAxis().minorTicks();

  //create box chart series with our data
  var series =;
  series.medianStroke("2 #000");

  //hide whisker

Using such settings we've created a style that colors boxes in light Сeladon color, makes the border invisible, colors the median in black and changes the color and the font of the axes. Two last lines makes whiskers invisible. Now let's apply these setting to the sample.


Labels and Tooltips

In this section we will explain how to add and configure data labels and tooltips. If you want to configure data labels and tooltips for all series - you should use .labels() and .tooltip() methods. Adding attributes with values to these methods will change visual appearance, position and format of these elements. With the following example let's make data labels appear to the top from the boxes, format them to show only the number of the range and force tooltips to show detailed description.

  // adjust labels position
  var labels = series.labels();

  // adjust tooltips content
  var tooltip = series.tooltip();
  tooltip.contentFormatter(function() {
    return "Range: " + this.x + "\nMedium: " + (this.q3+this.q1)/2 + "\nLowest: " + this.lowest + "\nQ1: " + this.q1 + "\nMedian: " + this.median + "\nQ3: " + this.q3 + "\nHighest: " +this.highest + "\nPeriod: February 2015";

  // adjust tooltip title
  var tooltipTitle = series.tooltip().title();
  tooltipTitle.text("Salaries in February 2015\nInformation");


In both samples above we adjusted only the first series boxes' appearance to make it clear how does the chart look with no formatting and styling.


Marker is an object with a specified shape, size, and color or an image used to mark and to identify chart elements. AnyChart allows to add markers to any data element including bars. In the sample below we take multi-series data described above and mark the biggest bar in series with a "Star5" of the "Gold" color. To make the marker more visually appealing we set its size to 12px.

    x: "5", 
    low: 8000, q1: 8400, median: 8500, q3: 8800, high: 9000,
      size: 12, 
      enabled: true
    hoverMarker: {
      size: 15

And here is a result - the best retail channel for ACME Corp. is Discount Stores and can be easily noticed on this chart.



AnyChart uses default color palette to colorize data elements of chart automatically if you have not defined special colors.

Colorizing elements

Now let's study how to apply different colors to different data series. To apply the color to the exact series we need to set the .fill() parameter in the series. In the sample below we compare salaries of 5 different ranges in December 2014, January and February 2015. Let's color each series to different color. Here is the sample:


Besides colorizing the whole series, we may define special color to the only box for some reasons. Look at the sample below. We've got a chart with one series and predefined color for all elements. We highlight the box with the lowest salary with "Rgb(220,37,50)" and the box with the highest salary with "Rgb(77,200,17)" for the maximum one. As you see it is very easy to do by setting a value for the .fill() parameter of a point while setting the data.

    x: "1", 
    low: 1000, q1: 1050, median: 1200, q3: 1800, high: 2000,
    fill: "Rgb(220,37,50)"


Important Note: AnyChart takes care of visualization and users convenience seriously - that is why we have a number of ways to set colors. For example, instead of "RGB(240,248,255)" you can set "AliceBlue" or "#F0F8FF"- and the color will be the same. Depending on your system/site/application design you may need - and use - any of this color setting methods. But even this is not everything about colors in AnyChart: read more about setting colors below and in the following Help Sections:

Hatch Fills

AnyChart technology allows printing charts out. Some printers may render colors differently from the image we see on monitors, so it may be hard to distinguish charts colored differently on monitors and similarly on prints. Also it is impossible to identify colors on prints of monochrome printers. AnyChart has a very useful feature - hatch fills, ideal for differentiating elements on black and white display or for those who are color blind. Hatch fill is fully-independent structure, it doesn't rely on color fill and has its own settings. To see whole range of available hatch types see Hatch Fill tutorial.

To demonstrate hatch fill feature we've prepared the following sample. As you see it is completely monochrome. We have chart a with 3 series with 5 data points in each. For every series we've applied different hatch fills by setting hatch type for the .hatchFill() parameter:

  //hatch fill


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