LiveChart is an open-source Android library to draw beautiful yet powerful charts. The library allows for color and data display customization, in an easy to learn, descriptive API.
Draw from a simple line to a fully tagged chart with bounds and baseline. The library is perfect (and started out) to draw financial charts where the baseline and color of the chart matters.
To get LiveChart into your build:
Step 1. Add the JitPack repository to your build file
Add it in your root build.gradle at the end of repositories:
allprojects {
repositories {
...
maven { url 'https://jitpack.io' }
}
}
Step 2. Add the dependency
dependencies {
implementation 'com.github.Pfuster12:LiveChart:1.3.5'
}
Anybody is welcome to contribute! The repository is Commitizen friendly, please refer to their guidelines on commit messages.
The LiveChart library has just started out. Have a look at the roadmap for new features in the horizon. Have a request? Open up an issue with a feature tag.
You'll need a reference to a LiveChart
view first, either through XML or programmatically:
<?xml version="1.0" encoding="utf-8"?>
<FrameLayout xmlns:android="http://schemas.android.com/apk/res/android"
xmlns:tools="http://schemas.android.com/tools"
android:layout_width="match_parent"
android:layout_height="match_parent"
android:clipChildren="false"
tools:context=".MainActivity">
<com.yabu.livechart.view.LiveChart
android:id="@+id/live_chart"
android:layout_width="match_parent"
android:layout_height="300dp"/>
</FrameLayout>
val liveChart = findViewById(R.id.live_chart)
LiveChart knows how to draw from a Dataset
only. Create a new dataset containing a list of DataPoint
's:
val liveChart = findViewById(R.id.live_chart)
val dataset = Dataset(mutableListOf(DataPoint(0f, 1f),
DataPoint(1f, 3f),
DataPoint(2f, 6f)))
In order to begin the draw operation, the library uses a chainable, descriptive public API:
val liveChart = findViewById(R.id.live_chart)
val dataset = Dataset(mutableListOf(DataPoint(0f, 1f),
DataPoint(1f, 3f),
DataPoint(2f, 6f)))
// set dataset, display options, and ... draw!
livechart.setDataset(dataset)
.drawYBounds()
.drawBaseline()
.drawFill()
.drawDataset()
The chart can be as simple as drawing a line on a blank canvas:
val dataset = Dataset(mutableListOf(DataPoint(0f, 1f),
DataPoint(1f, 3f),
DataPoint(2f, 6f)))
livechart.setDataset(dataset)
.drawDataset()
Or provide the full set of display capabilities by adding a baseline, a gradient fill and the axis bounds with data labels:
val dataset = Dataset(mutableListOf(DataPoint(0f, 1f),
DataPoint(1f, 3f),
DataPoint(2f, 6f)))
livechart.setDataset(dataset)
// Draws the Y Axis bounds with Text data points.
.drawYBounds()
// Draws a customizable base line from the first point of the dataset or manually set a data point
.drawBaseline()
// Set manually the data point from where the baseline draws,
.setBaselineManually(1.5f)
// Draws a fill on the chart line. You can set whether to draw with a transparent gradient
// or a solid fill. Defaults to gradient.
.drawFill(withGradient = true)
// draws the color of the path and fill conditional to being above/below the baseline datapoint
.drawBaselineConditionalColor()
// Draw Guidelines in the background
.drawVerticalGuidelines(steps=4)
.drawHorizontalGuidelines(steps=4)
// Draw smooth path
.drawSmoothPath()
// Draw last point tag label
.drawLastPointLabel()
.drawDataset()
Refer to the screenshot to view the different options and color change on below baseline/above baseline.
You can find all the possible draw options under the API reference.
Since v1.1.0
LiveChart supports custom styling of almost all its interface
through the LiveChartStyle
class. The style object contains all available styling options as
properties you can change:
val style = LiveChartStyle().apply {
textColor = Color.BLUE
textHeight = 30f
mainColor = Color.GREEN
mainFillColor = Color.MAGENTA
baselineColor = Color.BLUE
pathStrokeWidth = 12f
baselineStrokeWidth = 6f
}
// Pass the styling object to the view through the method setLiveChartStyle(style: LiveChartStyle)
livechart.setDataset(dataset)
.setLiveChartStyle(style)
.drawBaseline()
.drawFill(withGradient = true)
.drawYBounds()
.drawDataset()
The above example would result in a rather horrible (yet accurate) view of:
For the full set of attributes available to customise refer to the LiveChartStyle
reference.
Any attributes not explicitly set fallback to the LiveChartAttributes
object defaults you can view in the
reference too.
You can also style a number of attributes through the XML layout attributes. For example:
<com.yabu.livechart.view.LiveChart
android:id="@+id/live_chart"
android:layout_width="match_parent"
android:layout_height="300dp"
app:labelTextColor="@color/colorAccent"
app:pathColor="@color/colorAccent"
app:secondPathColor="@color/colorAccent"
app:boundsColor="@color/grey"
app:mainCornerRadius="4dp"
app:secondCornerRadius="4dp"
app:pathStrokeWidth="4dp"
app:baselineStrokeWidth="4dp"
app:baselineDashGap="8dp"
app:labelTextHeight="14sp"
app:baselineColor="@color/colorPrimaryDark"
app:overlayCircleColor="@color/colorPrimaryDark"
app:overlayLineColor="@color/colorPrimary"
app:overlayCircleDiameter="8dp"/>
The current set of available attributes are:
<attr name="labelTextColor" format="reference|color" />
<attr name="pathColor" format="reference|color"/>
<attr name="secondPathColor" format="reference|color"/>
<attr name="fillColor" format="reference|color"/>
<attr name="baselineColor" format="reference|color"/>
<attr name="boundsColor" format="reference|color"/>
<attr name="positiveColor" format="reference|color"/>
<attr name="negativeColor" format="reference|color"/>
<attr name="mainCornerRadius" format="dimension"/>
<attr name="secondCornerRadius" format="dimension"/>
<attr name="pathStrokeWidth" format="dimension"/>
<attr name="baselineStrokeWidth" format="dimension"/>
<attr name="baselineDashGap" format="dimension"/>
<attr name="labelTextHeight" format="dimension"/>
<attr name="overlayLineColor" format="reference|color"/>
<attr name="overlayCircleColor" format="reference|color"/>
<attr name="overlayCircleDiameter" format="dimension"/>
The library allows for data comparisons by drawing a second dataset on the same chart. The second dataset defaults to a grey color but you can set the color manually through the style object:
val firstDataset = Dataset(mutableListOf(DataPoint(0f, 1f),
DataPoint(1f, 2f),
DataPoint(2f, 3f),
DataPoint(3f, 4f),
DataPoint(4f, 5f),
DataPoint(5f, 8f),
DataPoint(6f, 13f),
DataPoint(7f, 21f)
))
val secondDataset = Dataset(mutableListOf(DataPoint(0f, 0f),
DataPoint(1f, 1f),
DataPoint(2f, 2f),
DataPoint(3f, 3f),
DataPoint(4f, 4f),
DataPoint(5f, 5f),
DataPoint(6f, 10f),
DataPoint(7f, 18f)
))
val style = LiveChartStyle().apply {
mainColor = Color.GRAY
secondColor = Color.MAGENTA
pathStrokeWidth = 8f
secondPathStrokeWidth = 8f
}
livechart.setDataset(firstDataset)
.setSecondDataset(secondDataset)
.setLiveChartStyle(style)
.drawYBounds()
.drawDataset()
This results in the following chart:
NOTE Want more than two datasets? Don't worry, the project roadmap intends to support drawing an unlimited number of datasets provided in a list.
Since v1.2.0 LiveChart supports touch events and can draw a visual DataPoint slider that moves with your finger.
The touch overlay is built in to the LiveChart
class. You can style the vertical slider and
circle through the LiveChartStyle
object or through the XML attributes (See above):
val chartStyle = LiveChartStyle().apply {
overlayLineColor = Color.BLUE
overlayCircleDiameter = 32f
overlayCircleColor = Color.GREEN
}
livechart.setDataset(dataset)
.setLiveChartStyle(chartStyle)
.drawDataset()
Just drawing the horizontal slider doesn't tell us much though. We can add a listener to get the current
DataPoint
of the touch event with the LiveChart.OnTouchCallback
:
val textView = findViewById(R.id.text_view)
livechart.setDataset(dataset)
.setLiveChartStyle(chartStyle)
.setOnTouchCallbackListener(object : LiveChart.OnTouchCallback {
override fun onTouchCallback(point: DataPoint) {
textView.text = "(${"%.2f".format(point.x)}, ${"%.2f".format(point.y)})"
}
})
.drawDataset()
This allows us to show the current point the user is dragging along.
Since v1.3.5, the touch overlay can be displayed at all times by applying the drawTouchOverlayAlways()
flag.
val textView = findViewById(R.id.text_view)
livechart.setDataset(dataset)
.drawTouchOverlayAlways()
.drawDataset()
If you don't want the touch overlay it can be disabled easily:
livechart.setDataset(dataset)
.disableTouchOverlay()
.drawDataset()
You might want to do this when the chart view is too small to benefit from touch interactions, or if you require extra optimization in your view drawing and would require as little overhead as possible.
Since 1.3.0
LiveChart supports drawing a rounded path instead of straight corners.
There are two options to enable this feature:
- Toggle an optimized rounded smooth path with
drawSmoothPath
.
NOTE There is a calculation overhead to toggling it this way. NOTE This is the only way for Touch overlay to work correctly.
livechart.setDataset(dataset)
.drawSmoothPath()
.drawDataset()
- Use the built in Android CornerPathEffect by setting the corner radius in the
LiveChartStyle
properties:
NOTE Touch overlay doesn't work correctly here because the Android generated path is not available.
val chartStyle = LiveChartStyle().apply {
mainCornerRadius = 40f
}
livechart.setDataset(dataset)
.setLiveChartStyle(chartStyle)
.drawDataset()
Since 1.3.1
the chart supports drawing vertical and/or horizontal chart guidelines at n number of steps:
Simply toggle them and pass the desired number of steps. You can also color them through the LiveChartStyle.guideLineColor
property:
livechart.setDataset(dataset)
.drawVerticalGuidelines(steps=4)
.drawHorizontalGuidelines(steps=4)
.drawDataset()
If you place the LiveChart in a scrollview the touch event gets consumed early.
Unfortunately this is a feature of the Android Touch system. Without ruining the ScrollView
functionality from the library side, a working solution is to call the
LiveChart view's parent requestDisallowInterceptTouchEvent(disallowIntercept: Boolean)
:
liveChart.setDataset(dataset)
.setOnTouchCallbackListener(object : LiveChart.OnTouchCallback {
override fun onTouchCallback(point: DataPoint) {
liveChart
.parent
.requestDisallowInterceptTouchEvent(true)
}
override fun onTouchFinished() {
liveChart
.parent
.requestDisallowInterceptTouchEvent(false)
}
})
.drawDataset()
LiveChart tries to leave a minimal footprint as possible, extending from the built-in Android View
class to perform the draw operations. It follows best practice advice to only perform draw ops
and avoid setting any variables to memory during the onDraw()
call.
HOWEVER, drawing big datasets is a costly operation and the Android UI will appear 'janky' if you are not careful with the amount of data you feed in.
A good Android citizen will only draw the necessary data points, avoid calling drawDataset()
repeatedly
and not animate the LiveChartView
excessively.
Dokka Generated Kdocs:
Public Methods for LiveChart:
/**
* Set the [dataset] of this chart.
*/
fun setDataset(dataset: Dataset): LiveChart
/**
* Set the Second [dataset] of this chart.
*/
fun setSecondDataset(dataset: Dataset): LiveChart
/**
* Set the style object [LiveChartStyle] to this chart.
*/
fun setLiveChartStyle(style: LiveChartStyle): LiveChart
/**
* Draw baseline flag.
*/
fun drawBaselineConditionalColor(): LiveChart
/**
* Draw baseline flag.
*/
fun drawBaseline(): LiveChart
/**
* Draw baseline automatically from first point.
*/
fun drawBaselineFromFirstPoint(): LiveChart
/**
* Draw Fill flag.
*/
fun drawFill(withGradient: Boolean = true): LiveChart
/**
* Draw smooth path flag.
*/
fun drawSmoothPath(): LiveChart
/**
* Draw straight path flag.
*/
fun drawStraightPath(): LiveChart
/**
* Disable Fill flag.
*/
fun disableFill(): LiveChart
/**
* Draw Y bounds flag.
*/
fun drawYBounds(): LiveChart
/**
* Draw last point label flag.
*/
fun drawLastPointLabel(): LiveChart
/**
* Draw vertical guidelines
* @param steps Number of guidelines
*/
fun drawVerticalGuidelines(steps: Int): LiveChart
/**
* Draw horizontal guidelines
* @param steps Number of guidelines
*/
fun drawHorizontalGuidelines(steps: Int): LiveChart
/**
* Set [baseline] data point manually instead of determining from first dataset point.
*/
fun setBaselineManually(baseline: Float): LiveChart
/**
* Set the OnTouchCallback interface.
*/
fun setOnTouchCallbackListener(listener: OnTouchCallback): LiveChart
/**
* Disable the touch overlay component.
* This is useful for small charts that do not benefit from showing the touch event
* or as an optimization if you require less overhead on your View.
*/
fun disableTouchOverlay(): LiveChart
/**
* Manually set the INITIAL nearest DataPoint position of the touch overlay.
*/
@PublicApi
fun setInitialTouchOverlayPosition(point: DataPoint): LiveChart
/**
* Manually set the overlay nearest DataPoint position at any time after the drawing operation.
* IMPORTANT this must be called AFTER drawDataset() as the pathCoordinates
* need to be extracted.
*/
@PublicApi
fun setTouchOverlayPosition(point: DataPoint)
/**
* Manually set the overlay REAL pixel position at any time after the drawing operation.
* This is useful for animating the touch overlay.
* IMPORTANT this must be called AFTER drawDataset() as the pathCoordinates
* need to be extracted.
* The given position will be mapped onto the path created if it exists.
*/
@PublicApi
fun setTouchOverlayRealPosition(position: Float)
/**
* Draw on chart and bind overlay to dataset.
*/
fun drawDataset()
LiveChartStyle properties:
/**
* Class containing style properties to format a LiveChart.
*/
class LiveChartStyle {
/**
* Label text color.
*/
var textColor: Int = LiveChartAttributes.TEXT_COLOR
/**
* Main color
*/
var mainColor: Int = LiveChartAttributes.MAIN_COLOR
/**
* Main color
*/
var secondColor: Int = LiveChartAttributes.SECOND_COLOR
/**
* Positive from baseline fill color.
*/
var mainFillColor: Int = Color.parseColor(LiveChartAttributes.FILL_COLOR)
/**
* Positive from baseline color.
*/
var positiveColor: Int = Color.parseColor(LiveChartAttributes.POSITIVE_COLOR)
/**
* Negative from baseline color.
*/
var negativeColor: Int = Color.parseColor(LiveChartAttributes.NEGATIVE_COLOR)
/**
* Positive from baseline fill color.
*/
var positiveFillColor: Int = Color.parseColor(LiveChartAttributes.POSITIVE_FILL_COLOR)
/**
* Negative from baseline fill color.
*/
var negativeFillColor: Int = Color.parseColor(LiveChartAttributes.NEGATIVE_FILL_COLOR)
/**
* Main Path corner radius pixel amount.
*/
var mainCornerRadius: Float = LiveChartAttributes.CORNER_RADIUS
/**
* Second Path corner radius pixel amount.
*/
var secondCornerRadius: Float = LiveChartAttributes.CORNER_RADIUS
/**
* Baseline color.
*/
var baselineColor: Int = LiveChartAttributes.BASELINE_LINE_COLOR
/**
* Bounds color.
*/
var boundsLineColor: Int = LiveChartAttributes.BOUNDS_LINE_COLOR
/**
* Baseline color.
*/
var guideLineColor: Int = LiveChartAttributes.GUIDELINE_COLOR
/**
* Path stroke width
*/
var pathStrokeWidth = LiveChartAttributes.STROKE_WIDTH
/**
* Second dataset Path stroke width
*/
var secondPathStrokeWidth = LiveChartAttributes.STROKE_WIDTH
/**
* Baseline stroke width
*/
var baselineStrokeWidth = LiveChartAttributes.BASELINE_STROKE_WIDTH
/**
* Baseline dash line width
*/
var baselineDashLineWidth = LiveChartAttributes.DASH_LINE_STROKE
/**
* Baseline dash line gap width
*/
var baselineDashLineGap = LiveChartAttributes.DASH_LINE_GAP
/**
* Baseline dash line gap width
*/
var chartEndPadding = LiveChartAttributes.CHART_END_PADDING
/**
* Chart text height
*/
var textHeight = LiveChartAttributes.TEXT_HEIGHT
/**
* Overlay vertical line color.
*/
var overlayLineColor = LiveChartAttributes.OVERLAY_LINE_COLOR
/**
* Overlay livechart_circle color.
*/
var overlayCircleColor = LiveChartAttributes.OVERLAY_CIRCLE_COLOR
/**
* Overlay livechart_circle diameter.
*/
var overlayCircleDiameter = LiveChartAttributes.OVERLAY_CIRCLE_DIAMETER
}
Even though the main entry point to this library is the LiveChart
layout class which contains extra
touch functionality, the base View
class LiveChartView
that actually performs the drawing is kept
public in case there is performance requirements and you don't need want the touch overlay views
overhead (You can also disable it, see above).
It also allows to override it and add custom functionality to this base class, as LiveChart is kept final.
The View has the exact same public API and xml attributes as the LiveChart
class so they are almost
interchangeable.