Piral.Blazor.Tools 8.0.11-pre.20240125.3

This is a prerelease version of Piral.Blazor.Tools.
There is a newer version of this package available.
See the version list below for details.
dotnet add package Piral.Blazor.Tools --version 8.0.11-pre.20240125.3                
NuGet\Install-Package Piral.Blazor.Tools -Version 8.0.11-pre.20240125.3                
This command is intended to be used within the Package Manager Console in Visual Studio, as it uses the NuGet module's version of Install-Package.
<PackageReference Include="Piral.Blazor.Tools" Version="8.0.11-pre.20240125.3" />                
For projects that support PackageReference, copy this XML node into the project file to reference the package.
paket add Piral.Blazor.Tools --version 8.0.11-pre.20240125.3                
#r "nuget: Piral.Blazor.Tools, 8.0.11-pre.20240125.3"                
#r directive can be used in F# Interactive and Polyglot Notebooks. Copy this into the interactive tool or source code of the script to reference the package.
// Install Piral.Blazor.Tools as a Cake Addin
#addin nuget:?package=Piral.Blazor.Tools&version=8.0.11-pre.20240125.3&prerelease

// Install Piral.Blazor.Tools as a Cake Tool
#tool nuget:?package=Piral.Blazor.Tools&version=8.0.11-pre.20240125.3&prerelease                

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Piral.Blazor · GitHub License Build Status GitHub Tag GitHub Issues Gitter Chat Feed Status

All .NET things to make <a href="https://blazor.net" rel="nofollow"><img src="https://devblogs.microsoft.com/aspnet/wp-content/uploads/sites/16/2019/04/BrandBlazor_nohalo_1000x.png" height="10"> Blazor</a> work seamlessly in microfrontends using <a href="https://piral.io" rel="nofollow"> <img src="https://piral.io/logo-simple.f8667084.png" height="10">  Piral</a>.

This is the branch for Blazor 8.0 with .NET 8.0. If you want to switch to Blazor with the older .NET Core 3.2, please refer to the blazor-3.2, blazor-5.0, blazor-6.0, orblazor-7.0 branch.

Getting Started

You'll also find some information in the piral-blazor package.

Creating a Blazor Pilet

We recommend that you watch the video on scaffolding from the standard VS template before you go over the details below.

In general, to create a Blazor pilet using Piral.Blazor, two approaches can be used:

1. From Scratch

In this case, it is highly recommended to use our template. More information and installation instructions can be found in Piral.Blazor.Template.

2. Transforming an Existing Application

In this case, follow these steps:

  1. Add a PiralInstance property to your .csproj file (The Piral instance name should be the name of the Piral instance you want to use, as it is published on npm.)

    <PropertyGroup>
        <TargetFramework>net8.0</TargetFramework>
        <PiralInstance>my-piral-instance</PiralInstance>
    </PropertyGroup>
    

    (You can optionally also specify an NpmRegistry property. The default for this is set to https://registry.npmjs.org/)

  2. Install the Piral.Blazor.Tools and Piral.Blazor.Utils packages, make sure they both have a version number of format 8.0.x

  3. Remove the Microsoft.AspNetCore.Components.WebAssembly.DevServer package and install the Piral.Blazor.DevServer package (using the same version as the packages from (2))

  4. Rename Program.cs to Module.cs, and make sure to make the Main method an empty method.

  5. Build the project. The first time you do this, this can take some time as it will fully scaffold the pilet.

If you run the solution using F5 the Piral.Blazor.DevServer will start the Piral CLI under the hood. This allows you to not only use .NET Hot-Reload, but also replace the pilets on demand.

Usage

Build Configuration

The *.csproj file of your pilet offers you some configuration steps to actually tailor the build to your needs.

Here is a minimal example configuration:

<Project Sdk="Microsoft.NET.Sdk.BlazorWebAssembly">

  <PropertyGroup>
    <TargetFramework>net8.0</TargetFramework>
    <PiralInstance>../../app-shell/dist/emulator/app-shell-1.0.0.tgz</PiralInstance>
  </PropertyGroup>

  
</Project>

This one gets the app shell from a local directory. Realistically, you'd have your app shell on a registry. In case of the default registry it could look like

<Project Sdk="Microsoft.NET.Sdk.BlazorWebAssembly">

  <PropertyGroup>
    <TargetFramework>net8.0</TargetFramework>
    <PiralInstance>@mycompany/app-shell</PiralInstance>
  </PropertyGroup>

  
</Project>

but realistically you'd publish the app shell to a private registry on a different URL. In such scenarios you'd also make use of the NpmRegistry setting:

<Project Sdk="Microsoft.NET.Sdk.BlazorWebAssembly">

  <PropertyGroup>
    <TargetFramework>net8.0</TargetFramework>
    <PiralInstance>@mycompany/app-shell</PiralInstance>
    <NpmRegistry>https://registry.mycompany.com/</NpmRegistry>
  </PropertyGroup>

  
</Project>

Besides these two options (required PiralInstance and optional NpmRegistry) the following settings exist:

  • Version: Sets the version of the pilet. This is a/the standard project property.
  • PiralInstance: Sets the name (or local path) of the app shell.
  • NpmRegistry: Sets the URL of the npm registry to use. Will be used for getting npm dependencies of the app shell (and the app shell itself).
  • Bundler: Sets the name of the bundler to use. By default this is esbuild. The list of all available bundlers can be found in the Piral documentation.
  • ProjectsWithStaticFiles: Sets the names of the projects that contain static files, which require to be copied to the output directory. Separate the names of these projects by semicolons.
  • Monorepo: Sets the behavior of the scaffolding to a monorepo mode. The value must be enable to switch this on.
  • PiralCliVersion: Determines the version of the piral-cli tooling to use. By default this is latest.
  • PiralBundlerVersion: Determines the version of the piral-cli-<bundler> to use. By default, this is the same as the value of the PiralCliVersion.
  • OutputFolder: Sets the temporary output folder for the generated pilet (default: ..\piral~).
  • ConfigFolder: Sets the folder where the config files are stored (default: empty, i.e., current project folder).
  • MocksFolder: Sets the folder where the Kras mock files are stored (default: .\mocks).
  • PiletKind: Sets the pilet kind (values: global, local; default: local).
  • PiletPriority: Sets the optional priority of the pilet when loading (any representable positive number). DLLs of Blazor pilets with higher numbers will always be loaded before the current DLLs (default: none).
  • PublishFeedUrl: Sets the URL to be used for publishing the pilet. If this is left free then using "Publish" in Visual Studio will not trigger a publish of the pilet.
  • PublishFeedApiKey: Sets the API Key to be used when publishing the pilet. If this is left free then the interactive upload is used, which will open a web browser for logging into the feed service.

A more extensive example:

<Project Sdk="Microsoft.NET.Sdk.BlazorWebAssembly">

  <PropertyGroup>
    <TargetFramework>net8.0</TargetFramework>
    <Version>1.2.3</Version>
    <PiralInstance>@mycompany/app-shell</PiralInstance>
    <PiralCliVersion>next</PiralCliVersion>
    <PiralBundlerVersion>1.1.0</PiralBundlerVersion>
    <NpmRegistry>https://registry.mycompany.com/</NpmRegistry>
    <Bundler>esbuild</Bundler>
    <Monorepo>disable</Monorepo>
    <ProjectsWithStaticFiles>
      designsystem;
      someotherproject;
      thirdproj
    </ProjectsWithStaticFiles>
    <PiletPriority>999</PiletPriority>
  </PropertyGroup>

  
</Project>

While pilets that define PiletKind to be global only have shared dependencies, the default for local pilets is to have integrated dependencies. If certain dependencies of local pilets should also be loaded into the global context (effectively sharing the dependency between all pilets - independent of the version) then you need to put those dependencies into a dedicated ItemGroup using the Label shared:

<Project Sdk="Microsoft.NET.Sdk.BlazorWebAssembly">

  

  <ItemGroup Label="shared">
    <PackageReference Include="Autofac.Extensions.DependencyInjection" Version="8.0.0" />
  </ItemGroup>

  <ItemGroup>
    
    <PackageReference Include="Microsoft.AspNetCore.Components.WebAssembly" Version="8.0.0" />
    <PackageReference Include="Microsoft.AspNetCore.Components.WebAssembly.DevServer" Version="8.0.0" PrivateAssets="all" />
  </ItemGroup>

</Project>

Pages

A standard page in Blazor, using the @page directive, will work as expected, and will be automatically registered on the pilet API.

Extensions

To register an extension, the PiralExtension attribute can be used. You will also have to provide the extension slot name that defines where the extension should be rendered. The component can even be registered into multiple slots using multiple attributes.

//counter.razor

@attribute [PiralExtension("my-counter-slot")]
@attribute [PiralExtension("another-extension-slot")]

<h1>Counter</h1>

<p>Current count: @currentCount</p>

<button @onclick="IncrementCount">Click me</button>

@code {
    int currentCount = 0;

    void IncrementCount()
    {
        currentCount++;
    }
}

To use an extension within a Blazor component, the <Extension> component can be used.

<Extension Name="my-counter-slot"></Extension>

Components, Tiles, Menu Items, and Others

To register a Blazor component for use in the pilet API, the PiralComponent attribute can be used in two ways:

  1. [PiralComponent], this will register the component using the fully qualified name.
  2. [PiralComponent(<name>)] will register the component using the custom name provided.

To register these components onto the pilet API, a setup.tsx file should be created at the root of your Blazor project.

This file may then, for example to register a tile, look like this:

import { PiletApi } from '../piral~/<project_name>/node_modules/<piral_instance>';

type AddScript = (path: string, attrs?: Record<string, string>) => void;
type AddStyles = (path: string, pos?: 'first' | 'last' | 'before' | ' after') => void;

export default (app: PiletApi, addScript: AddScript, addStyles: AddStyles) => {
	//for a component marked with[PiralComponent("my-tile")]
	app.registerTile(app.fromBlazor('my-tile'));
};

The addScript function can be used to actually add more scripts, e.g.:

export default (app: PiletApi, addScript: AddScript, addStyles: AddStyles) => {
	addScript("_content/Microsoft.Authentication.WebAssembly.Msal/AuthenticationService.js");
};

The first argument is the (relative) path to the RCL script, while the optional second argument provides additional attributes for the script to be added to the DOM.

The addStyles function can be used to add more style sheets, e.g.:

export default (app: PiletApi, addScript: AddScript, addStyles: AddStyles) => {
  addStyles("_content/MudBlazor/MudBlazor.min.css");
};

Important: Non-abstract / exposed components with PiralComponent cannot have a type parameter. As these are directly instantiated from JavaScript there is no way to define the type to be used. As such, you cannot mark components as @[PiralComponent] and @typeparam. If you want to use a generic component, then wrap it (i.e., use a second component declared as a PiralComponent, which only mounts / renders the first component with the desired generic type).

Using Parameters

Parameters (or "props") are properly forwarded. Usually, it should be sufficient to declare [Parameter] properties in the Blazor components. Besides, there are more advanced ways.

Generic Approach

For instance, to access the params prop of an extension you can use the PiralParameter attribute. This way, you can "forward" props from JS to the .NET name of your choice (in this case "params" is renamed to "Parameters").

@attribute [PiralExtension("sample-extension")]

<div>@Parameters.Test</div>

@code {
    public class MyParams
    {
        public string Test { get; set; }
    }

    [Parameter]
    [PiralParameter("params")]
    public MyParams Parameters { get; set; }
}

For the serialization you'll need to use either a JsonElement or something that can be serialized into. In this case, we used a class called MyParams.

Important: Make sure that your classes here are serializable, i.e., that they have a default / empty constructor (no parameters) and are public. Best case: These should be POCOs.

With the PiralParameter you can also access / forward children to improve object access:

@attribute [PiralExtension("sample-extension")]

<div>@Message</div>

@code {
    [Parameter]
    [PiralParameter("params.Test")]
    public string Message { get; set; }
}

That way, we only have a property Message which reflects the params.Test. So if the extension is called like that:

<app.Extension
    name="sample-extension"
    params={
        {
            Test: "Hello world",
        }
    }
/>

It would just work.

Routes

If you want to match the route parameter you can use the generic approach, too:

@page "/foo/{id}"

<div>@Id</div>

@code {
    [Parameter]
    [PiralParameter("match.params.id")]
    public string Id { get; set; }
}

However, since using match.params is quite verbose and easy to get wrong you can also use the special PiralRouteParameter attribute.

@page "/foo/{id}"

<div>@Id</div>

@code {
    [Parameter]
    [PiralRouteParameter("id")]
    public string Id { get; set; }
}

Note that there is another convenience deriving from the use of PiralRouteParameter. If your route parameter name matches the name of the property then you can also omit the argument:

@page "/foo/{Id}"

<div>@Id</div>

@code {
    [Parameter]
    [PiralRouteParameter]
    public string Id { get; set; }
}

In addition to route parameters you can also match the query parameters using the PiralQueryParameter attribute:

@page "/foo"

<div>@Id</div>

@code {
    [Parameter]
    [PiralQueryParameter]  
    public string Id { get; set; } 
}

The previous example would match /foo?id=bar with Id being set to bar. You could also change the name of the used query parameter:

@page "/foo"

<div>@SearchQuery</div>

@code {
    [Parameter]
    [PiralQueryParameter("q")]  
    public string SearchQuery { get; set; } 
}

This would print hello for /foo?q=hello.

Dependency Injection

You can define services for dependency injection in a Module class. The name of the class is arbitrary, but it shows the difference to the standard Program class, which should not be available, as mentioned before.

To be able to compile successfully, a Main method should be declared, which should remain empty.

public class Module
{
    public static void Main()
    {
        // this entrypoint should remain empty
    }

    public static void ConfigureServices(IServiceCollection services)
    {
        // configure dependency injection for the components in the pilet here
    }
}

The ConfigureServices method is optional. If you want to configure dependency injection in your pilet then use this.

If a third-party library requires globally shared dependencies (or global injected DI) then add it to a global pilet (setting the PiletKind to global in the csproj / build configuration).

Additionally, the ConfigureServices method supports another argument providing the configuration of the pilet, i.e., the IConfiguration object. So, the example above could be rewritten to be:

public class Module
{
    public static void Main()
    {
        // this entrypoint should remain empty
    }

    public static void ConfigureServices(IServiceCollection services, IConfiguration configuration)
    {
    }
}

The configuration uses the meta.config of the Pilet API provided by the pilet.

Important: There is no support for the appsettings...json file as the configuration is assumed to be distributed. Use the meta.config approach described below for local development and a proper feed service with configuration support for production purposes.

Standard Pilet Service

Every pilet gets automatically a service called IPiletService injected.

Asset URLs

The IPiletService service can be used to compute the URL of a resource.

@inject IPiletService Pilet

The relevant helper method is GetUrl. You can use it like:

@page "/example"
@inject IPiletService Pilet

<img src=@Pilet.GetUrl("images/something.png") alt="Some image" />

In the example above the resource images/something.png would be placed in the wwwroot folder (i.e., wwwroot/images/something). As the content of the wwwroot folder is copied, the image will also be copied. However, the old local URL is not valid in a pilet, which needs to prefix its resources with its base URL. The function above does that. In that case, the URL would maybe be something like http://localhost:1234/$pilet-api/0/images/something.png while debugging, and another fully qualified URL later in production.

Events

You can use the IPiletService service to emit and receive events via the standard Pilet API event bus. This is great for doing loosely-coupled pilet-to-pilet communication.

Example:

@attribute [PiralComponent]
@inject IPiletService ps
@implements IDisposable

<aside class=@_sidebarClass>
  <a @onclick=@CloseSidebar style="display: inline-block; padding: 0 10px; cursor: pointer;">x</a>
</aside> 

@code {
    [Parameter]
    public bool IsOpen { get; set; } = false;

    [Parameter]
    public EventCallback<bool> IsOpenChanged { get; set; }

    string _sidebarClass { get => IsOpen ? "sidebar open" : "sidebar"; }

    public void Dispose()
    {
        ps.RemoveEventListener<bool>("toggle-sidebar", ToggleSidebar);
    }

    protected override void OnInitialized()
    {
        ps.AddEventListener<bool>("toggle-sidebar", ToggleSidebar);
    }

    public void ToggleSidebar(bool value) => IsOpenChanged.InvokeAsync(value);

    public void CloseSidebar() => ToggleSidebar(false);
}

Another component can now trigger this by using ps.DispatchEvent("toggle-sidebar", false); with an injected @inject IPiletService ps.

Pilet Data and API Access

You can use the IPiletService service to call methods living on the pilet API. This makes mostly sense for APIs that are quite primitive, e.g., accepting and returning only strings, booleans, and integers.

In general this is working via the Call API. An example would be:

@attribute [PiralComponent]
@inject IPiletService ps

<button @onclick=@LogValue>Log current value</button>

@code {
    public async void LogValue()
    {
      var value = await ps.Call<string>("getData", "myValue");
      Console.WriteLine("Currently stored value is: {0}", value);
    }
}

For some more common pilet API functions extension methods exist. The call beforehand to the getData function could be simplified with the GetDataValue extension:

@attribute [PiralComponent]
@inject IPiletService ps

<button @onclick=@LogValue>Log current value</button>

@code {
    public async void LogValue()
    {
      var value = await ps.GetDataValue<string>("myValue");
      Console.WriteLine("Currently stored value is: {0}", value);
    }
}

Localization

Localization works almost exactly as with standard Blazor, except that the language can be changed at runtime directly rather then requiring a full reload of the page.

The other difference is that the initial language is no longer decided by the server's response headers, but rather by the app shell. The initial configuration options of the piral-blazor plugin allow setting the initialLanguage. These options also allow setting up a callback to decide when to change the language (and to what language). If not explicitly stated Blazor will just listen to the select-language event of Piral, providing a key currentLanguage in the event arguments.

To dynamically change / refresh your components when the language change you'll need to listen to the LanguageChanged event emitted by the injected IPiletService instance:

@inject IStringLocalizer<MyComponent> loc
@inject IPiletService pilet

<h2>@loc["greeting"]</h2>

@code {
    protected override void OnInitialized()
    {
        pilet.LanguageChanged += (s, e) => this.StateHasChanged();
        base.OnInitialized();
    }
}

This way, your components will always remain up-to-date and render the right translations.

Root Component

By default, the Blazor pilets run in a dedicated Blazor application with no root component. If you need a root component, e.g., to provide some common values from a CascadingValue component such as CascadingAuthenticationState from the Microsoft.AspNetCore.Components.Authorization package, you can actually override the default root component:

@attribute [PiralAppRoot]

<CascadingAuthenticationState>
    @ChildContent
</CascadingAuthenticationState>

@code {
    [Parameter]
    public RenderFragment ChildContent { get; set; }
}

You can also provide your own providers here (or nest them as you want):

@attribute [PiralAppRoot]

<CascadingValue Value="@theme">
    <div>
        @ChildContent
    </div>
</CascadingValue>

@code {
    [Parameter]
    public RenderFragment ChildContent { get; set; }
    
    private string theme = "dark";
}

Note: There is always just one PiralAppRoot component. If you did not supply one then the default PiralAppRoot will be used. If you already provided one, no other PiralAppRoot can be used.

It is critical to understand that each attached pilet component starts its own Blazor rendering tree. Therefore, while there is just a single PiralAppRoot component there might be multiple instances active at a given point in time.

Running and Debugging the Pilet 🚀

From your Blazor project folder, run your pilet via the Piral CLI:

cd ../piral~/<project-name>
npm start

In addition to this, if you want to debug your Blazor pilet using for example Visual Studio, these requirements should be considered:

  • keep the Piral CLI running
  • debug your Blazor pilet using IISExpress

⚠️ if you want to run your pilet and directly visit it in the browser without debugging via IISExpress, you will have to disable a kras script injector before visiting the pilet. To do this, go to http://localhost:1234/manage-mock-server/#/injectors, disable the debug.js script, and save your changes. Afterwards, you can visit http://localhost:1234.

Special Files

There are some special files that you can add in your project (adjacent to the .csproj file):

  • setup.tsx
  • teardown.tsx
  • package-overwrites.json
  • meta-overwrites.json
  • kras-overwrites.json
  • js-imports.json

Note: The location of these files can also be changed through the ConfigFolder option. By default, this one is empty, i.e., all files have to be placed adjacent to the .csproj file as mentioned above. However, if you set the value to, e.g., .piletconfig then the files will be retrieved from this subdirectory. For instance, the setup file would then be read from .piletconfig/setup.tsx.

Let's see what these files do and how they can be used.

Extending the Pilet's Setup

The setup.tsx file can be used to define more things that should be done in a pilet's setup function. By default, the content of the setup function is auto generated. Things such as @page /path-to-use components or components with @attribute [PiralExtension("name-of-slot")] would be automatically registered. However, already in case of @attribute [PiralComponent] we have a problem. What should this component do? Where is it used?

The solution is to use the setup.tsx file. An example:

export default (app) => {
  app.registerMenu(app.fromBlazor('counter-menu'));

  app.registerExtension("ListToggle", app.fromBlazor('counter-preview'));
};

This example registers a pilet's component named "counter-menu" as a menu entry. Furthermore, it also adds the "counter-preview" component as an extension to the "ListToggle" slot.

Anything that is available on the Pilet API provided via the app argument is available in the function. The only import part of setup.tsx is that has a default export - which is actually a function.

Overwriting the Package Manifest

The generated / used pilet is a standard npm package. Therefore, it will have a package.json. The content of this package.json is mostly pre-determined. Things such as piral-cli or the pilet's app shell package are in there. In some cases, additional JS dependencies for runtime or development aspects are necessary or useful. In such cases the package-overwrites.json comes in handy.

For instance, to actually extend the devDependencies you could write:

{
  "devDependencies": {
    "axios": "^0.20.0"
  }
}

This would add a development dependency to the axios package. Likewise, other details, such as a publish config or a description could also be added / overwritten:

{
  "description": "This is my pilet description.",
  "publishConfig": {
    "access": "public"
  }
}

The rules for the merge follow the Json.NET approach.

Overwriting the Debug Meta Data

The generated / used pilet is served from the local file system instead of a feed service. Therefore, it will not have things like a configuration store. However, you might want to use one - or at least test against one. For this, usually a meta.json file can be used. The content of this meta.json is then merged into the metadata of a served pilet. For Piral.Blazor this file is premade, however, its content can still be overwritten using a meta-overwrites.json file.

For instance, to include a custom config field (with one config called backendUrl) in the pilet's metadata you can use the following content:

{
  "config": {
    "backendUrl": "http://localhost:7345"
  }
}

The rules for the merge follow the Json.NET approach.

Extending the Pilet's Teardown

The teardown.tsx file can be used to define more things that should be done in a pilet's teardown function. By default, the content of the teardown function is auto generated. Things such as pages and extensions would be automatically unregistered. However, in some cases you will need to unregister things manually. You can do this here.

Defining Additional JavaScript Imports

Some Blazor dependencies require additional JavaScript packages in order to work correctly. The js-imports.json file can be to declare all these. The files will then be added via a generated import statement in the pilet's root module.

The content of the js-imports.json file is a JSON array. For example:

[
  "axios",
  "global-date-functions"
]

Includes the two dependencies via the respective import statements.

DevServer Settings

The Piral.Blazor.DevServer can be configured, too. Much like the standard / official Blazor DevServer you can introduce a blazor-devserversettings.json file that describes more options. Most of the contained options are the same as the one for the official Blazor DevServer.

Current options found in the Piral section:

  • forwardedPaths - is an array of strings describing the path segments that should be forwarded to the Piral CLI dev server (using kras)

    Example:

    {
      "Piral": {
        "forwardedPaths": [ "/foo" ]
      }
    }
    
  • feedUrl - is a string defining an URL for including an external / remote feed of pilets into the debug process

    Example:

    {
      "Piral": {
        "feedUrl": "https://feed.piral.cloud/api/v1/pilet/sample"
      }
    }
    

In addition, the options for the DevServer also touch the configured options for the Piral.Blazor.Tools, such as OutputFolder which is used to define where the scaffolded pilet is stored.

Setting the Logging Level

The log level can be set either within your Blazor pilets using the ILoggingConfiguration service or from JavaScript:

DotNet.invokeMethodAsync('Piral.Blazor.Core', 'SetLogLevel', logLevel);

Here, the value for logLevel should be between 0-6, where 0 logs everything (even traces) and 6 logs nothing. Alternatively, you can also set a log level when initializing piral-blazor.

License

Piral.Blazor is released using the MIT license. For more information see the license file.

Product Compatible and additional computed target framework versions.
.NET net5.0 was computed.  net5.0-windows was computed.  net6.0 was computed.  net6.0-android was computed.  net6.0-ios was computed.  net6.0-maccatalyst was computed.  net6.0-macos was computed.  net6.0-tvos was computed.  net6.0-windows was computed.  net7.0 was computed.  net7.0-android was computed.  net7.0-ios was computed.  net7.0-maccatalyst was computed.  net7.0-macos was computed.  net7.0-tvos was computed.  net7.0-windows was computed.  net8.0 was computed.  net8.0-android was computed.  net8.0-browser was computed.  net8.0-ios was computed.  net8.0-maccatalyst was computed.  net8.0-macos was computed.  net8.0-tvos was computed.  net8.0-windows was computed. 
.NET Core netcoreapp2.0 was computed.  netcoreapp2.1 was computed.  netcoreapp2.2 was computed.  netcoreapp3.0 was computed.  netcoreapp3.1 was computed. 
.NET Standard netstandard2.0 is compatible.  netstandard2.1 was computed. 
.NET Framework net461 was computed.  net462 was computed.  net463 was computed.  net47 was computed.  net471 was computed.  net472 was computed.  net48 was computed.  net481 was computed. 
MonoAndroid monoandroid was computed. 
MonoMac monomac was computed. 
MonoTouch monotouch was computed. 
Tizen tizen40 was computed.  tizen60 was computed. 
Xamarin.iOS xamarinios was computed. 
Xamarin.Mac xamarinmac was computed. 
Xamarin.TVOS xamarintvos was computed. 
Xamarin.WatchOS xamarinwatchos was computed. 
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Version Downloads Last updated
8.0.17 1,089 6/22/2024
8.0.17-pre.20240622.3 56 6/22/2024
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