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This library is deprecated. Please see DEPRECATED.md.

XYPlot

XYPlot allows you to make line charts, area charts, scatterplots, heat maps, etc with animations and different interactions between them.

Currently following components are used for this purpose:

  • XYPlot to wrap all the items.
  • Grids to show vertical and horizontal grids.
  • Axes to show X and Y axis.
  • Different kinds of series for line/area/bar charts, scatterplots, heat maps, etc.
  • Hint to show the selected hint.
  • Crosshair for crosshairs.

Usage

Import the necessary components from the library…

import {XYPlot, XAxis, YAxis, HorizontalGridLines, LineSeries} from 'react-vis';

… and add the following code to your render function:

<XYPlot
  width={300}
  height={300}>
  <HorizontalGridLines />
  <LineSeries
    color="red"
    data={[
      {x: 1, y: 10},
      {x: 2, y: 5},
      {x: 3, y: 15}
    ]}/>
  <XAxis title="X" />
  <YAxis />
</XYPlot>

Common concepts

XYPlot is a wrapper for series, hints, axes and other components. Most of these components do not require any properties by default, however it is expected that the user will pass the data property into each series.

data is an array of objects. Each item is some point on the chart. Object may contain following properties:

  • x
  • y
  • opacity (optional)
  • fill (optional)
  • stroke (optional)
  • strokeWidth (optional), strokeStyle (optional) - to control the width of the line series and whether they are dashed or solid.
  • color (optional, used instead of fill and stroke if none of them is passed)
  • size (optional)
  • style (optional) - css properties as an object.

Accessors can also be used to retreieve the properties above from the data object. For instance, the getX and getY accessors can be passed to the XYPlot object to access the x and y properties from data for each series.

<XYPlot
  width={300}
  height={300}
  getX={d => d[0]}
  getY={d => d[1]}>
  <LineSeries
    color="red"
    data={[
      [1, 0],
      [2, 1],
      [3, 2]
    ]}/>
</XYPlot>

If the property is not passed in any of the objects, the property is not visualized. The user can override the way how properties are visualized by passing custom range, domain or type of scales to the series or the entire chart (please see Series for more info).

Not all properties can be visualized in each series. Here's a short comparison of them:

x y color opacity size
LineSeries + + +
AreaSeries + + +
LineMarkSeries + + + + +
MarkSeries + + + + +
VerticalBarSeries + + + +
HorizontalBarSeries + + + +
VerticalRectSeries + + + +
HorizontalRectSeries + + + +
HeatmapSeries + + + +
HexbinSeries + + + +

A note on ordering

XYPlot is pretty flexible, and can accept most kinds of things DOM, SVG, really whatever react can build. As far as XYPlot is concerned there are two types of components in the world: those that can be rendered as part of an SVG tree and those that can't. It separates it's children into these two groups, and clusters the SVG elements under a root svg tag in order and then presents each of the remaining children in order. With a react configuration like:

<XYPlot>
  <XAxis />
  <YAxis />
  <RectSeries {...props}/>
  <Hint className="first-hint"/>
  <Hint className="second-hint"/>
</XYPlot>

Would generate HTML something like:

<div class="rv-xy-plot">
  <svg>
    <svg for XAxis />
    <svg for YAxis />
    <svg for RectSeries />
  </svg>
  <div class="rv-hint first-hint">...</div>
  <div class="rv-hint second-hint">...</div>
</div>

The TLDR here is that ORDER MATTERS! If you want the elements to appear in a different order, reorder them!

API Reference

XYPlot

XYPlot is a component that wraps series, axis and grids, hints, etc and seamlessly provides necessary dimensions, sizes and scales into its children. XYPlot may or may not contain axes, grids, hints, crosshairs or series.

width

Type: number

Width of the chart. The width should be passed.

height

Type: number

Height of the component. The height should be passed.

className (optional)

Type: string

DOM classNames to be added to the wrapper component.

hasTreeStructure (optional)

Type: Boolean

Flag declaring whether or not react-vis should try to remove potential cyclic deps from tree structures created by d3. Specifically references to "parent" are removed. This is generally used as an internal prop, checkout the treemap or sunburst if you are curious.

margin (optional)

Type: Object

Default: {left: 40, right: 10, top: 10, bottom: 40}

Margin around the chart.

stackBy (optional)

Type: string

Stack the chart by the given attribute. If the attribute is y, the chart is stacked vertically; if the attribute is x then it's stacked horizontally. See the Series API reference for series level stack opt-in.

style (optional)

Type: object

CSS properties that will affect this wrapper component. Those will be applied to the SVG element in which other react-vis components will be created.

<XYPlot
  stackBy="y"
  width={300}
  height={300}>
  <LineSeries
    data={[
      {x: 1, y: 10},
      {x: 2, y: 5},
      {x: 3, y: 15}
    ]}/>
  <LineSeries
    data={[
      {x: 1, y: 12},
      {x: 2, y: 21},
      {x: 3, y: 2}
    ]}/>
</XYPlot>

NOTE in order to stack properly react-vis expects each x value in each series to be present (assuming stackBy: 'x', the same applies to stackBy 'y', just transposed). If our data looks like

const seriesOne = [
  {x: 1, y: 10},
  {x: 3, y: 15}
];

const seriesTwo = [
  {x: 1, y: 10},
  {x: 2, y: 5},
  {x: 3, y: 15}
];

const seriesThree = [
  {x: 3, y: 15}
];

would render weirdly (eg boxes would not lump together at the bottom of the chart). To avoid this, simply provide zeroes for empty cells

const seriesOne = [
  {x: 1, y: 10},
  {x: 2, y: 0},
  {x: 3, y: 15}
];

const seriesTwo = [
  {x: 1, y: 10},
  {x: 2, y: 5},
  {x: 3, y: 15}
];

const seriesThree = [
  {x: 1, y: 0},
  {x: 2, y: 0},
  {x: 3, y: 15}
];

Will render beautifully!

onClick (optional)

Type: function()

The function that is triggered each time the mouse clicks the component.

onDoubleClick (optional)

Type: function()

The function that is triggered each time the mouse double-clicks the component.

onMouseLeave (optional)

Type: function()

The function that is triggered each time the mouse leaves the component.

onMouseMove (optional)

Type: function()

The function that is triggered each time mouse moves over at the component.

onMouseEnter (optional)

Type: function()

The function that is triggered each time the mouse enters the component.

onMouseDown (optional)

Type: function()

The function that is triggered each time the mouse button is pressed over the component.

onMouseUp (optional)

Type: function()

The function that is triggered each time the mouse button is released over the component.

onTouchStart (optional)

Type: function()

The function that is triggered each time the touch starts.

onTouchMove (optional)

Type: function()

The function that is triggered each time the touch moves.

onTouchEnd (optional)

Type: function()

The function that is triggered each time the touch ends.

onTouchCancel (optional)

Type: function()

The function that is triggered each time the touch cancels.

onWheel (optional)

Type: function()

The function that is triggered each time a wheel button is rotated on the component.

animation (optional)

Type: {duration: number}|boolean

Default: false

Animation config, which is automatically passed to all children, but can be overridden for the each child. If false is passed, then the child components will not be animated. If true is passed then the child components will be animated with the default settings. If an object is passed, then the child components will be animated with the given settings.

dontCheckIfEmpty (optional)

Type: Boolean

Default: false

If this prop is provided then the XYPlot with not check if the plot is empty before rendering. This can be useful if you have a variable amount of data, especially when that variable can be zero.