Drawing UI with Xamarin.Forms Shapes and Paths

David Ortinau

Xamarin.Forms 4.7 introduces drawing controls for Shapes and Paths. These are powerful new cross-platform controls that use the familiar control syntax from UWP and WPF. As well as use the native graphics libraries on each target platform. SkiaSharp and NGraphics have long been the “Go-To” solutions for rendering drawn UI to support advanced designs. They also continue to be excellent choices based on your individual needs. Now Shapes and Paths bring the power of drawing closer to you by shipping “in-the-box”.

Ellipse, Rectangle, Polygon, and Path


There are many built-in controls available in the new API including ellipse, line, polygon, polyline, and rectangle. Each of these shapes support common styling properties. Such as aspect, fill, and a variety of stroke options. Here are two examples where these shapes help quickly implement a design.

Enable the Flag – Shapes are an experimental preview. First add the flag to your App.xaml.cs at the top of the constructor: Device.SetFlags(new string[]{ "Shapes_Experimental" });.

Custom Step Indicator

When design requires the use of primitive shapes, using these graphics are a huge time-saver. Consider this custom progress indicator design that shows circles separated by dashes:

<StackLayout Orientation="Horizontal" HorizontalOptions="Center" >
        <Style TargetType="Ellipse">
            <Setter Property="Fill" Value="#33222222"/>                    
            <Setter Property="WidthRequest" Value="20"/>
            <Setter Property="HeightRequest" Value="20"/>
            <Setter Property="VerticalOptions" Value="Center"/>
        <Style TargetType="Line">
            <Setter Property="Stroke" Value="#33222222"/>
            <Setter Property="X2" Value="40"/>
            <Setter Property="VerticalOptions" Value="Center"/>

    <Ellipse Fill="#FF9900" />
    <Line />
    <Ellipse />
    <Line />
    <Ellipse />

Take this even further and use a VisualStateManager to customize the behavior!

Circle Image

One of the most powerful uses of shapes is the ability to clip other controls. This is also called “masking”. In this example, a square profile image can become a circle by applying an EllipseGeometry to the Image.Clip property.

Circle clipping

<Grid ColumnDefinitions="*,279,*" 

    <!-- Profile Circle Image -->

    <!-- Login Form -->

The above code does more than just clip the image. It uses another Ellipse to create a border effect around the photo by setting a white fill and an orange stroke.


Use Paths for irregular shapes and even custom designs. If you have been using SVG images, then you are already using paths. Open any SVG in a text editor and see a Path node in the XML with a data string to copy directly into your Xamarin.Forms XAML. That is how the shape in the login view pictured above was created.

    Fill="{AppThemeBinding Dark=#333333, Light=#FFFFFF}"
    Data="M251,0 C266.463973,-2.84068575e-15 279,12.536027 279,28 L279,276 C279,291.463973 266.463973,304 251,304 L214.607,304 L214.629319,304.009394 L202.570739,304.356889 C196.091582,304.5436 190.154631,308.020457 186.821897,313.579883 L186.821897,313.579883 L183.402481,319.283905 C177.100406,337.175023 160.04792,350 140,350 C119.890172,350 102.794306,337.095694 96.5412691,319.115947 L96.5273695,319.126964 L92.8752676,313.28194 C89.5084023,307.893423 83.6708508,304.544546 77.3197008,304.358047 L65.133,304 L28,304 C12.536027,304 1.8937905e-15,291.463973 0,276 L0,28 C-1.8937905e-15,12.536027 12.536027,2.84068575e-15 28,0 L251,0 Z"

Notice in the above code, the Fill color is set using an AppThemeBinding so it will respond to dark and light themes.

Community Ignited

It has been a pleasure watching the Xamarin.Forms community rapidly generate so many good looking design challenges using the new Shapes and Paths controls. Here are a few that might inspire you:

Source Source Source
Source Source Video

And the list goes on! Here are some others to explore:

When working with shapes, it is useful to have good design tools from the start. Javier Suarez Ruiz blogged about the software that he uses for this.

In Closing

This is just the tip of the iceberg for what you can achieve with Shapes and Paths! Learn when to use Shapes and when to use Frame and BoxView by comparing some key differences:

BoxView Frame Rectangle
Border Color
Border Width
Contain Content
Corner Radius

What are you creating using Shapes and Paths? Join this discussion on GitHub and let us know!

Below are some additional resources in addition to the samples shown above.


Discussion is closed. Login to edit/delete existing comments.

  • Nicolai Schönberg 0

    I think this is a great addition, the ability to use any svg in path opens up a lot of tools to display different icon sizes. Also, the UI examples from the community are really awesome – Sad that I have no talent for ux design 🙂

  • hamid 0

    Hello. surely, these new features are great and will help developers to produce more stunning apps, but I think there exists a big problem with the shapes and geometries in both Android and iOS:Shapes and Geometries don’t respect the FLOWDIRECTION property when it is set to RightToLeft.
    This problem makes it really difficult or impossible to use these features in Apps which are written for :
    -International use
    -Cultures which use Right To Left languages (like Arabic ,Hebrew)

    I have reported this issue with comparison to WPF at github.com with following link:
    SHAPES and GEOMETRIES don’t respect FlowDirection Property
    I would appreciate it if you would consider this problem and solve it in next Releases.
    Thank you for taking this into consideration.

    • MitchBomcanhao 0

      Hamid, that’s a good point, but if you mirror everything you also risk mirroring the content of said shapes if they depict content that has meaning that is only readable in one orientation. Allowing the developer to specify if a shape needs to keep its orientation regardless of the flowdirection would complement your proposed changes.

      • hamid 0

        Thank you for your kind reply . but I think I couldn’t express my purpose by Mirror . In right to left languages , the views are laid out from Right to Left (I think Coordinate Center is at Top-Right) and Views positions are calculated toward this point.Let say we have a Button (with it’s Tex is Hello) and an asymmetric shape (like an Arrow). when the page flowdirection changes to RightToLeft , the Button is laid out from Right to Left and it’s content (Text) is not Mirrored (the text is always Hello), but the shape(here Arrow) stays fix at it’s position.
        The condition is mush worse when you use a Geometry to Clip part of a View: when the FlowDirection changes from LeftToRoght to RightToLeft , the View itself is laid out from Right side of page , but Clipping Geometry doesn’t respect RightToLeft direction :it’s points are always calculated toward Top-Left of it’s Parent. this behavior results in that part of the View that is Clipped and Visible in Left To Right layout differs from clipped and visible area in Right To Left flowdirection .(in right to left layout you may see an Empty Area)
        Thank You.

  • Artur Aksamit 0

    Is it correct that you can set Border Color and Width for BoxView (as shown in the table)? Would be amazing but cannot find how to use it :/

  • Paulo Quicoli 0

    That’s great! As WPF developer I always use paths… That lead me to some concerns for Xamarin. As apps might run on limited processing power devices, I believe a note should be published. This extract is from Mozilla about SVG files, it applies to Path as well…

    From Mozilla: “(…) While SVG provides a lot of flexibility in terms of scaling, themability, etc. this flexibility depends on doing computations for SVG images at the time they’re displayed, rather than at the time the author creates them. Consider an image that involves some complex gradients and filters. If saved as a raster image then the work to rasterize the gradients and filters takes place on the authors computer before the result is stored in the raster file. This work doesn’t need to be redone when the image is displayed on someone else’s computer. On the other hand, if the image is saved as an SVG image then all this work needs to be done each time the SVG is displayed on someone else’s computer. This isn’t to say that SVG images are always slower than raster equivalents. In fact it can be faster to send vector information from an SVG to a user’s GPU than it is to extract raster data from an equivalent raster image. And even when an SVG image is slower than a raster equivalent, the difference is usually not noticable. However, just don’t fall into the trap of thinking that SVGs are faster than eqivalent raster images, or vice versa. Once again, “it depends”. (…)”

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