Tag Archives: Simple

XAMVVM-01 A real walk-through of Xamarin.UITest with Xamarin.Forms!

Let’s take a chilled out walk through adding Xamarin.UITests to your Xamarin.Forms project! 😉

When I said chilled out, I meant literally a chill, no-fuss walk through adding UITests for your Xamarin.Forms project solution. There’s many articles and tutorials out there regarding this, but when I first started I couldn’t find a clear enough guide to begin with for myself, so I was stumbling around in confusion here and there until I self-learned a proper foundation. That’s why I thought of writing this post.

This is an attempt of sharing my experience and intuition of how to architect a better UITest structure for your Xamarin.Forms Solution helping you to get a clear and easy head start!

So I’m not gonna get into extreme baby steps, or details, but a clear fuss-free hands-on guide for starting off with your UITests, which I hope would give you a clear picture and understand of the whole shabang! After all I’m all about that solid project architecture!

Why UITests?

Hey, if you’re looking for a serious intro, please Google! I don’t like repetition of content lol.

Xamarin.UITests comes in handy when you want to have consistent assurance of the actual functionality of the app with the UI behaviour included. And between you and me, I actually love watching UITests being executed on Devices and Simulators, seeing you app actually being used like a human, giving you a whole feedback loop of the UI behaviour , is just an incredible experience! 😉

 

Let’s get started..

Just for the showcase of this awesomeness, I created a little App, which is called Textpad, where you simple take notes or texts of whatever you feel like. 😉 A very simple out of the box Xamarin.Forms app, and fully MVVM architectured code base with Prism. I named the solution as “XFWithUITest” just for this demo.

Whatever the default template of the Xamarin.UITest has provided, I have done several changes to it here and there for the clarity and of the code base as you will see in this article.

So I’m gonna walk you through a clean and well-structured manner of adding Xamarin.UITests to your project solution.

You can take a little sneak peak at it over here in my github repo:
XAMVVM-Playground/XFWithUITest

Structure is important!

There’s many ways to structure a UITest, but I like a clean separation of the elements in any solution architecture. Like here we’re going to separate our Tests from the actual Host projects.

So first, for the name of separation let’s add a Folder called “Tests” in your Xamarin.Forms solution. Yes, that’s the way to start!

Then let’s create our Xamarin.UITest project, right-click on the “Tests” folder in the VS Solution Explorer and go to Test tab and select Xamarin.UITest Cross-Platform Test Project!

Also pay extra attention to the Name and Location value for our UITest project. Append “.UITest” at the end of your project name. As of the location, make sure to add the path along with the “Tests” folder that we created above.

Next create a new Folder inside of that project called “Tests”, yes another one, which is where we’re actually placing our tests! Also create a new class called SetupHooks, which is where we’ll maintain all the hooks that are needed for our tests. (I’ll get into details for this in a later step)

Now it should look something like this!

Nothing more.

Delete anything else that’s unnecessary or not seen above! 😉

Off to next step!

Don’t forget the nugets!

Make sure all the necessary nuget packages are in place, which is just basically the following 3 nugets! yep that’s it!

Pay very careful attention here to the version of NUnit version 2.6.4, which is the minimum NUnit version supported by Xamarin.UITest as of today. (01/11/2018)

The deal with AppInitializer!

Now this right here is where your Tests will be firing up the app’s execution. There are many ways to structure this class and its functionality, but here’s my way…

This class comes pre-populated when you first create the UITest project, but I have made some changes of my own for the clarity of the code.

As you can see I’m passing in an extra boolean parameter “clearData”, which is to execute a clean instance of my App for testing.

I’m using the InstalledApp() call to load the Android and the iOS apps from the simulators, also I’m enabling the EnableLocalScreenshots() to get actual screenshots of my test instances as I wish. Yeah the fact that you can automatically capture screenshots during testing even when you run locally is really cool feature of Xamarin.UITests! 😉

Now instead of getting a hook on the InstalledApp(), you could use the path to the APK or IPA file using the ApkPath() or AppBundle() respective for Android and iOS, which is totally up to your choice.

Then I’m passing in the AppDataMode parameter according to my choosing of the “clearData” value.

SetupHooks holds the instances!

Remember earlier I created a class called SetupHooks? let’s set it up now!

public class SetupHooks
{
      public static IApp App { get; set; }

      public static Platform Platform { get; set; }
}

 

During UITests execution we’re holding a singular instance of the app in memory, which we’re calling through UITest’s functions to perform many operations, so to simplify that, here we’re holding a public static instance of the IApp and Platform object to be used in our Test cases.

Pretty neat eh! 😀

Let’s write the Tests!

Create a class called AppTests, which is where we’re going to place the Test fire up code and the rest of the tests for now!

namespace XFWithUITest.UITest.Tests
{
    [TestFixture(Platform.Android)]
    //[TestFixture(Platform.iOS)]
    public class AppTests
    { 
        public AppTests(Platform platform)
        {
            SetupHooks.Platform = platform;
        }

        [SetUp]
        public void BeforeEachTest()
        {
            SetupHooks.App =  
            AppInitializer.StartApp(SetupHooks.Platform, true);
        }

        [Test]
        ...
	// test cases begin here...
		
	}
}

 

There I have added the TestFixture attributes as required by NUnit to identify our tests, and notice how I have commented out the iOS platform, to show you that you could stick to one platform at a time for your ease of testing, instead of seeing failed tests in the Test Runner window! 😉

[SetUp] is where your Tests will initialize the actual App instance, thus retrieving a hook to the app’s instance for our Test cases to use.

You can see how I’m tying up the SetupHooks – Platform and App instances, through the initiation of the AppTests.

AppInitializer.StartApp(SetupHooks.Platform, true);

This gives a clean instance of the app for our tests cases to use, and up on your wish you could pass in “false” to the same method and get a data persisted instance of the app at anytime, anywhere in your tests! 😉

Now you’re all set to start writing your UITests, but before we begin I need you to check up on something else!

AutomationId for everything!

Whatever the UI element you need to get a hook on to or get a reference of, be it a Page, Button, Layout even a Label, you need to add a value to its AutomationId.

And make sure every AutomationId in a given Page context is unique for every element, otherwise the look up function will return all the elements that matches the given Id, which could lead to confusion in your tests 😉

IApp interface functions!

The Xamarin.UITest.IApp interface provides a whole bunch of functionalities for the app for us to play around with in order to execute our test scenarios.

Take a look here, Xamarin.UITest.IApp to see the list of powerful functions we can use. To name a few are Tap, Swipe, Scroll, WaitForElement and etc, to be performed on any given UI Element on the screen.

So now all you need to do is get a hook on any given element..

Getting a hook on an Element…

There’s several ways of doing this, most common is by the AutomationId of the Element

SetupHooks.App.Tap(c => c.Marked("Button1"))

Another is by the value of an Element’s property,

SetupHooks.App.Tap(c => c.Text("Click this Button!"))

Or you could do by even the Class name of the element. Choice is completely yours, pick the one best suited for your test case.

How to write a Test?

Now this is the coolest part, Xamarin.UITest allows us to get hooks on to UI Elements of the running App, then we perform actions on those elements and wait for the results and check if it resulted as expected through assertion using NUnit.

So its basically a little dance between Xamarin.UITest and NUnit Assertion! 😉

As a standard keep in mind to append “Test” at the end of each of your Test cases.

As you can see above I’m first waiting for the HomePage to appear, then I’m asserting it through NUnit. Then I look for the Label with “Hey there, Welcome!” text!

Action and Result, simple as that! 😀

Some advanced bits…

Here’s some advanced bits that could come in handy!

Getting the number of elements in a ListView
SetupHooks.App.Query(c => c.Marked("TextListView").Child()).Length
Getting an element in a ListView
Func<AppQuery, AppQuery> itemInListView = null;

if (SetupHooks.Platform == Platform.Android)
     itemInListView = 
     x => x.Class("ViewCellRenderer_ViewCellContainer").Index(0);
else if (SetupHooks.Platform == Platform.iOS)
     itemInListView = 
     x => x.Marked("<your listview automationId>").Index(0);

// change the index parameter to get the item you wish
Opening Context Menu in a ListView item
// pop up the Context menu in ListView item
if (SetupHooks.Platform == Platform.Android)
      SetupHooks.App.TouchAndHold(firstCellInListView);
else if (SetupHooks.Platform == Platform.iOS)
      SetupHooks.App.SwipeRightToLeft(firstCellInListView);
Enter Text into an Entry or Editor
SetupHooks.App.EnterText(
c => c.Marked("TextTitleEditor"), whateverYourText);
Wait for an element to disappear
SetupHooks.App.WaitForNoElement(c => c.Text("This label text"));

// either by Text or Marked as should work
Restarting the app anywhere…
// restarting app, persisting state

SetupHooks.App = AppInitializer.StartApp(SetupHooks.Platform, false);

Check out more here in this awesome git page: XamarinTestCloudReference

REPL is your tool!

Yes start using the REPL command line to see how your App’s UI is actually rendered by the native platform at any given execution time. Simply call this anywhere you wish in the UITests steps,

App.REPL();

And you’ll be presented with a CLI which will help you see the whole UI tree of the screen. Simply type “tree” in the CLI and you’re good!

Structuring the tests..

Now there’s many ways to structure all the test cases and scenarios, and there’s no strict standard way that should be followed, but whatever you’re comfortable or fits your project is totally fine and the choice is yours!

You could include all your Test cases in the AppTest class itself, or you can break them into separate classes regarding the Page, or the functionality type.

So for this demo I’m keeping all my UITest cases in the AppTest class itself.

Running the UITests locally!

Well now that we have structured the architecture, here’s the time for actual firing things up and you’ve got couple of things to remember!

You can run your Android Tests on Simulator and Device directly without any modification as long as you provide the right APK path or the App Id.

You can run your iOS Tests only on Visual Studio for Mac, and for the device you need to pass the provisioning details, and as of simulator, you need to pass the Simulator Id.

If you’re using InstalledApp() or ConnectToApp() in your AppInitializer, then make sure the app is already deployed or running in the devices or simulator.

Also make sure to keep your Devices or Simulators or Emulators screens switched on at all times, otherwise tests will break giving a waiting exception.

That’s it!

But I’m not completely satisfied with the architecture, so let’s kick it up a notch! 😀

Little cherry on top Architecture!

Like I said before there’s many ways to construct the architecture for your Test project, one of my favourite ways is by separating the test cases by Page Scenario, which I think is a much cleaner structure.

We’re going to create a base class, “TestBase” which has the constructor initiation and BeforeEachTest setup, then create a sub classes that inherits from it representing whatever the pages we have in the App.

It should look something like this!

And don’t forget you need to add TestFixture attribute for every single sub-class!

So what you’re gonna do is take apart all the Test cases you had in one class and move them into the related pages, simply cut and paste of the methods should do! Also on top of that you could abstract another layer of shared steps that we could reuse across these Page tests. 😀

Then it should give you a clean Test output as below.

There you go, all the Tests are now nicely aligned and structured under the given Page which it associates with!

Pretty neat eh!

So this above structure of mine is somewhat more of a simplification of the Page Object Architecture which is well explained here for Xamarin.UITests: https://www.codetraveler.io/

And even in this official github sample from Xamarin uses the same similar pattern: SmartHotel.Clients.UITests

Done!

As you can see its not that hard to set up your Xamarin.Forms project with UITest once you get the basic understanding of the moving parts and keep a clear structure in your head.

Now for some of you might be experiencing some issues with Xamarin.UITest, in which case I had too when I was first starting off. Therefore I ended up writing this post sharing my experience of solving them: Getting your Xamarin UITests to actually work! So if you’re having any issues getting your Xamarin.UITests to work in Visual Studio, that post might be able to help you. 🙂

Do check out my Github repo of this post:
XAMVVM-Playground/XFWithUITest

Thus concludes my real walk-through of Xamarin.UITests with Xamarin.Forms, in which I hope you got a clear understanding of how to properly structure your project and all the moving bits and pieces that gets the job done! 😀

Share the love! 😀

Cheers!

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Simple Segmented Button Control in pure Xamarin.Forms!

A Segmented Control, or as some call it Grouped Button Control, or Tabbed Button Control or some even call the Rocker Control, is what I’m gonna share with yol today, built 100% from Xamarin.Forms!

Yeah such a platform specific UI element, right out of Xamarin.Forms without a single line of native code, how’s that even? Well if you’ve been following my blog for a while, you know that I’m all about pushing them limits of any given platform and achieve the impossibru! 😉

Whut whut in Xamarin.Forms?

So there’s many different interpretations of this UI elements and also different use cases. Specifically you can see this in native Tabbed Page views in both Android and iOS. And in native platforms they actually have their own Segmented button controls, that allows you to have a set of buttons in a single segment, that allows you to have a selected state, which will let you perform a certain operation, change a value or load a certain View to another element.

So when it comes to Xamarin.Forms, there’s no out of the box UI element that provides this view, unless you use Xamarin.Forms TappedPage control, in which case is impractical if you’re not in need of a Tabbed Page, or worse case in a Content element area where you absolutely can’t use a Page element.

Le Solucioano!

So here’s my solution for this, a Segmented Control in pure Xamarin.Forms, that allows you to have the same exact look and feel and behavior of a native Segmented Control, or a Tabbed Button Control or a Rocker Control or whatever. Lol

Specially no custom renderers, no native code or whatever, just simple and pure Xamarin.Forms! 😉

Sneak Peak

Here’s a sneak peak of what I built, on iOS..

And on Android..

Look at the eh, just like a native control with all the looks and feels and behaviours…

This whole awesome project is hosted up in my Github repo : https://github.com/UdaraAlwis/XFSegmentedControl 

Recipe time…

Buckle up, contains a whole bunch of me hacking around pushing the limits of Xamarin.Forms to achieve some impossibru! 😉

So first thing, we need to keep in mind the aspect of having the same look and feel of a native Segmented control, in aspect of both Android and iOS, therefore we’re going to be using a lot of platform specific properties in XAML and code behind.

We are going to have two Buttons inside a Layout, to emulate the two segmented Buttons. The layout is going to be a Xamarin.Forms Frame, since it has the property CornerRadius, which is vital to gain the curved corners appearance for iOS, and Border property, which we can use to draw the border around the element for iOS. As of Android we can disregard both of those properties. Also don’t forget about the IsClippedToBounds property which all the Layout elements has in Xamarin.Forms, allowing you to crop out of bounds elements inside the layout, which will allow us to have that curved corners in iOS without the button borders popping out of it.

So you might say as of the Button we could use a Label or something and then use a Tap Gesture to handle the click event. Nope! I like the perfection of whatever I’m building! 😉 Therefore we’re going to use actual Xamarin.Forms Button control, now hold on…

Now speaking of the Buttons, we can’t use Buttons with text inside, since the default behaviour of a button restricts the visibility of Text inside it. Therefore we’re going to use a little hack I have always used, that is placing one element over another inside a Grid view. So we are going to use a Button without text inside of it, and then a Label on top of it that represents the Text of the Segmented Button. So you’re probably worries about the Button click behaviour since we’re laying out a Label on top of it, but hello don’t worry, that’s where InputTransparent comes into rescue, passing down the touch even down to the Button straight away! So on selection of the Button we shall do the necessary changes to show the IsSelected status.

We are going to assign name identifiers to our elements in this control to handle some of the code behind magic as well, in case you wondered when you see the code! 😀

Also not to mention that we’re going to maintain properties inside the custom control, like Colors, Text, Selected Button Index properties and also an EventHandler to inform the changes of the Segment button selection.

Well that’s pretty much it, with a bit more details to be gotten into later.

XAML time…

We’re going to create a custom control elements that’s going to be independent and reusable anywhere in the project. Let’s call it SimSegmentedControl, thus denoting “Simple Segmented Control”!

<?xml version="1.0" encoding="UTF-8" ?>
<ContentView
    x:Class="XFSegmentedControl.Simple.Controls.SimegmentedControl"
    xmlns="http://xamarin.com/schemas/2014/forms"
    xmlns:x="http://schemas.microsoft.com/winfx/2009/xaml"
    xmlns:system="clr-namespace:System;assembly=netstandard">
    <ContentView.Content>
	
	<!--  Rest of content goes here (Next code snippet) -->
	
    </ContentView.Content>
</ContentView>

 

Now let’s get into the inside elements of our SimSegmentedControl, which is basically the Frame Layout that I explained before.

<Frame
    x:Name="FrameView"
    Padding="0"
    IsClippedToBounds="True">
    <!--  Platform specific customization values for the border  -->
    <Frame.HasShadow>
        <OnPlatform x:TypeArguments="system:Boolean">
            <On Platform="Android" Value="False" />
            <On Platform="iOS" Value="True" />
        </OnPlatform>
    </Frame.HasShadow>
    <Frame.CornerRadius>
        <OnPlatform x:TypeArguments="system:Single">
            <On Platform="Android" Value="0" />
            <On Platform="iOS" Value="5" />
        </OnPlatform>
    </Frame.CornerRadius>
    <Frame.HeightRequest>
        <OnPlatform x:TypeArguments="system:Double">
            <On Platform="Android" Value="50" />
            <On Platform="iOS" Value="35" />
        </OnPlatform>
    </Frame.HeightRequest>
    <!--  Platform specific customization values for the border  -->

    
    <!--  Segmented Buttons go in here (Next code snippet)  -->
    
</Frame>

 

As you can see I have added a whole bunch of platform specific customization values for Android and iOS to achieve the design we’re targeting for, such as CornerRadius and Height.

Then let’s add our Segmented Button elements, just to make it easier let’s identify each of them as “Tab Button” element.

<Grid ColumnSpacing="0">

    <!--  Tab button 1  -->
    <Grid Grid.Column="0" IsClippedToBounds="True">
        <Button
            x:Name="Tab1ButtonView"
            Margin="-2,-3,-2,0"
            Clicked="Tab1Button_OnClicked" />
        <Label
            x:Name="Tab1LabelView"
            FontAttributes="Bold"
            FontSize="Medium"
            HorizontalOptions="CenterAndExpand"
            InputTransparent="True"
            Text="Tab 1"
            VerticalOptions="CenterAndExpand" />
        <BoxView
            x:Name="Tab1BoxView"
            HeightRequest="2"
            InputTransparent="True"
            IsVisible="False"
            VerticalOptions="End" />
    </Grid>
    <!--  Tab button 1  -->

    <!--  Tab button 2  -->
    <Grid Grid.Column="1" IsClippedToBounds="True">
        <Button
            x:Name="Tab2ButtonView"
            Margin="-2,-3,-2,0"
            Clicked="Tab2Button_OnClicked" />
        <Label
            x:Name="Tab2LabelView"
            FontAttributes="Bold"
            FontSize="Medium"
            HorizontalOptions="CenterAndExpand"
            InputTransparent="True"
            Text="Tab 2"
            VerticalOptions="CenterAndExpand" />
        <BoxView
            x:Name="Tab2BoxView"
            HeightRequest="2"
            InputTransparent="True"
            IsVisible="False"
            VerticalOptions="End" />
    </Grid>
    <!--  Tab button 2  -->

    <Grid.ColumnDefinitions>
        <ColumnDefinition Width="*" />
        <ColumnDefinition Width="*" />
    </Grid.ColumnDefinitions>
</Grid>

 

Voila! behold the two button elements, with all the platform specific customizations, just like how I explained before, Label on top of a Button inside a Grid layout. Also you may have noticed the Margin property that I have used with “-2,-3,-2,0”, which is to stretch out the empty border line of the buttons out of the Grid so it crops out with the IsClippedToBounds property.

And the BoxView is to emulate the bottom line we have in Android look and feel of the Segmented Control.

Code-behind time…

Now this is where we’re basically going to handle all the action in our SegmentedControl!

So I’m not going to spoon feed the whole code in this blog post, since its going to be a pretty lengthy one, so I’ll be cutting out most of the repetitive code which you can easily figure out yourself or just check out on my github repo where I have committed this whole project code.

So like I explained at beginning we’re going to have a bunch of properties that are going to handle all the customization values such as Color, Text, SelectedIndex, EventHandler and so on. And then apply a whole bunch of code behind customization for platform specific look and feels, along with the handling of Segment button click event behavior.

[XamlCompilation(XamlCompilationOptions.Compile)]
public partial class SimSegmentedControl : ContentView
{
    public static readonly BindableProperty PrimaryColorProperty
        = BindableProperty.Create(
            nameof(PrimaryColor),
            typeof(Color),
            typeof(SimSegmentedControl),
            Color.CornflowerBlue);

    public Color PrimaryColor
    {
        get { return (Color)GetValue(PrimaryColorProperty); }
        set { SetValue(PrimaryColorProperty, value); }
    }

    // SecondaryColorProperty

    // Tab1TextProperty

    // Tab2TextProperty

    // SelectedTabIndexProperty
    
    public event EventHandler<SelectedTabIndexEventArgs> SelectedTabIndexChanged;

    public SimSegmentedControl()
    {
        InitializeComponent();
    }

    /// <summary>
    /// load up the customizations and applying
    /// properties when the element has rendered
    /// </summary>
    protected override void OnParentSet()
    {
        base.OnParentSet();
        
        // Setting up platform specific properties for Android and iOS
        if (Device.RuntimePlatform == Device.Android)
        {
            Tab1LabelView.FontSize
                = Device.GetNamedSize(NamedSize.Medium, Tab1LabelView);
            Tab2LabelView.FontSize
                = Device.GetNamedSize(NamedSize.Medium, Tab1LabelView);

            Tab1ButtonView.BackgroundColor = PrimaryColor;
            Tab2ButtonView.BackgroundColor = PrimaryColor;

            Tab1BoxView.Color =
            Tab2BoxView.Color =
            Tab1LabelView.TextColor =
            Tab2LabelView.TextColor = SecondaryColor;
        }
        else if (Device.RuntimePlatform == Device.iOS)
        {
            Tab1LabelView.FontSize
                = Device.GetNamedSize(NamedSize.Small, Tab1LabelView);
            Tab2LabelView.FontSize
                = Device.GetNamedSize(NamedSize.Small, Tab1LabelView);

            Tab1ButtonView.BackgroundColor =
            Tab2ButtonView.BackgroundColor = PrimaryColor;

            FrameView.BorderColor =
            Tab1LabelView.TextColor =
            Tab2LabelView.TextColor = SecondaryColor;
        }

        Tab1LabelView.Text = Tab1Text;
        Tab2LabelView.Text = Tab2Text;

        // setting up default values
        SelectTab1();
        SelectedTabIndex = 1;
        SendSelectedTabIndexChangedEvent();
    }

    private void Tab1Button_OnClicked(object sender, EventArgs e)
    {
        SelectTab1();
        SelectedTabIndex = 1;
        SendSelectedTabIndexChangedEvent();
    }

    private void Tab2Button_OnClicked(object sender, EventArgs e)
    {
        SelectTab2();
        SelectedTabIndex = 2;
        SendSelectedTabIndexChangedEvent();
    }
    
    // SelectTab1()
    
    // SelectTab2()
    
    // SendSelectedTabIndexChangedEvent()
}

 

So we PrimaryColor and SecondaryColor which handles the two main colors that is styling our SimSegmentedControl, which is exactly how it being used in native version of this control as well, just two simple Colors styling the whole element.

Then Tab1Text and Tab2Text property to handle the Text that needs to be displayed in the Segmented buttons.

As you can see OnParentSet (this is when the View is rendered in memory and just about to be displayed on the Page) we’re applying all the platform specific customization for the elements in our SimSegmentedControl. Then you can see we’re setting the Tab1 and Tab2 text properties to our Labels, which is not actually good practice, but I was too lazy to add that in the PropertyChangedEvent handler of those respective bindable properties. After that at the end you can see we’re setting the default values.

Also the SelectedTabIndexChanged EventHandler is there to notify any outside element who wants to be aware of the selected Tab in our SimSegmentedControl, so they can perform whatever the action based on it.

Then let me get into the SelectTab1(), SelectTab2() and SendSelectedTabIndexChangedEvent methods.

private void SelectTab1()
{
    // set up platform specific
    // properties for SelectTab1 event
    if (Device.RuntimePlatform == Device.Android)
    {
        Tab1BoxView.IsVisible = true;
        Tab2BoxView.IsVisible = false;
    }
    else if (Device.RuntimePlatform == Device.iOS)
    {
        Tab1ButtonView.BackgroundColor = SecondaryColor;
        Tab2ButtonView.BackgroundColor = PrimaryColor;

        Tab1LabelView.TextColor = PrimaryColor;
        Tab2LabelView.TextColor = SecondaryColor;
    }
}

private void SelectTab2()
{
    // set up platform specific
    // properties for SelectTab2 event
    if (Device.RuntimePlatform == Device.Android)
    {
        Tab1BoxView.IsVisible = false;
        Tab2BoxView.IsVisible = true;
    }
    else if (Device.RuntimePlatform == Device.iOS)
    {
        Tab1ButtonView.BackgroundColor = PrimaryColor;
        Tab2ButtonView.BackgroundColor = SecondaryColor;

        Tab1LabelView.TextColor = SecondaryColor;
        Tab2LabelView.TextColor = PrimaryColor;
    }
}

/// <summary>
/// Invoke the SelectedTabIndexChanged event
/// for whoever has subscribed so they can
/// use it for any reative action
/// </summary>
private void SendSelectedTabIndexChangedEvent()
{
    var eventArgs = new SelectedTabIndexEventArgs();
    eventArgs.SelectedTabIndex = SelectedTabIndex;

    SelectedTabIndexChanged?.Invoke(this, eventArgs);
}

--------------

public class SelectedTabIndexEventArgs : EventArgs
{
    public int SelectedTabIndex { get; set; }
}

 

So there you can see in SelectTab1() we’re setting up the necessary customization for the Selected state of our Segmented Button for both Android and iOS, such as the BackgroundColor, TextColor and whatnot. And then in SelectTab2() we’re doing the exact opposite customization, Button 1 -> Unselected and Button 2 -> Selected appearance.

Then in the SendSelectedTabIndexChangedEvent we’re basically broadcasting the selected Tab index of our SimSegmentedControl with the SelectedTabIndex property value.

Time to consume!

Let’s use this awesome SimSegmentedControl in our Page shall we?!!! 😀

<local:SimSegmentedControl
	x:Name="SegmentedControlView"
	PrimaryColor="CornflowerBlue"
	SecondaryColor="White"
	SelectedTabIndexChanged="SegmentedControlView_SelectedTabIndexChanged"
	Tab1Text="Monkeys"
	Tab2Text="Minions">
	<local:SimSegmentedControl.Padding>
		<OnPlatform x:TypeArguments="Thickness">
			<On Platform="Android" Value="0" />
			<On Platform="iOS" Value="10,0,10,10" />
		</OnPlatform>
	</local:SimSegmentedControl.Padding>
</local:SimSegmentedControl>

 

Easy peasy, you just set the property values such as PriaryColor, SecondaryColor and so on that we created in our SimSegmentedControl and do a bit of customization if you wish to 😉 like I’ve added some padding for iOS!

In case if you’re wondering how to use the SelectedTabIndexChanged, you basically subscribe to that event and perform whatever the action you desire, whether it be changing some values, or swapping some Views or whatever your requirement is!

private void SegmentedControlView_SelectedTabIndexChanged
			(object sender, SelectedTabIndexEventArgs e)
{
	if (e.SelectedTabIndex == 1)
	{
		ContentView1.IsVisible = true;
		ContentView2.IsVisible = false;
	}
	else if (e.SelectedTabIndex == 2)
	{
		ContentView1.IsVisible = false;
		ContentView2.IsVisible = true;
	}
}

 

Just like that!

Let’s fire it up!

Let’s see this beauty in action now! 😀

Here we go baby! iOS and Android running side by side…

 

Let’s change up a bit of the colors shall we!

Woot, whatever the color combination you wish! 😉

Improvement suggestions..

Well if you ask me this is not the exact implementation I used for my actual requirement, this is more of a very simple implementation of it.

But there’s many ways to improve this. One would be adding Command for the selected Tab Index changed property handling. Also add both way handling of SelectedTabIndex so that we can set the default selected Tab on the go. Specially add dynamic Tab Buttons to the SimSegmentedControl at run time without just limiting to 2 buttons. 😉

Well your imagination is the limit fellas! 😀

This whole awesome project is hosted up in my Github repo : https://github.com/UdaraAlwis/XFSegmentedControl 

Check out the Part 2 of this article: Advanced Segmented Button Control in pure Xamarin.Forms!

Cheers! 😀 Keep on going my fellow devs!

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