You could call it a bridge between your main application and Unity engine. Here, we’ll try to explain what every call to AppCallbacks exactly does. Let’s build solution and explore App.xaml.cs file.
sealed partial class App : Application
{
private WinRTBridge.WinRTBridge _bridge;
private AppCallbacks appCallbacks;
public App()
{
this.InitializeComponent();
appCallbacks = new AppCallbacks(false);
}
protected override void OnLaunched(LaunchActivatedEventArgs args)
{
Frame rootFrame = Window.Current.Content as Frame;
if (rootFrame == null)
{
var mainPage = new MainPage();
Window.Current.Content = mainPage;
Window.Current.Activate();
_bridge = new WinRTBridge.WinRTBridge();
appCallbacks.SetBridge(_bridge);
appCallbacks.SetSwapChainBackgroundPanel(mainPage.GetSwapChainBackgroundPanel());
appCallbacks.SetCoreWindowEvents(Window.Current.CoreWindow);
appCallbacks.InitializeD3DXAML();
}
Window.Current.Activate();
}
}
private WinRTBridge.WinRTBridge _bridge;
So first of all, what is WinRTBridge, it’s used internally by Unity, to perform some of native-to-managed, managed-to-native operations, it’s not intended to be used by developers. Due some WinRT platform restrictions, it cannot be created from Unity engine code, that’s why WinRTBridge is being created here and is passed to Unity engine via appCallbacks.SetBridge(_bridge) instead.
appCallbacks = new AppCallbacks(false);
Now, let’s take a closer look at AppCallbacks class. When you create it, you specify that your game will run on different thread, for backward compatibility reasons you can also specify that your application can run on UI thread, but that’s not recommended, because there’s a restriction from Microsoft - if your application won’t become responsive after 5 seconds you’ll fail to pass WACK (Windows Application Certification), read more here - http://msdn.microsoft.com/en-us/library/windowsphone/develop/hh184840(v=vs.105).aspx, imagine if your first level is pretty big, it might take significant amount of time to load it, because your application is running on UI thread, UI will be unresponsive until your level is fully loaded. That’s why it’s recommend to always run your game on different thread.
Read more on UI thread here - http://msdn.microsoft.com/en-us/library/windows/apps/hh994635.aspx
Note: Code located in App.xaml.cs, MainPage.xaml.cs is always running on UI thread, unless called from InvokeOnAppThread function.
appCallbacks.SetSwapChainBackgroundPanel(mainPage.GetSwapChainBackgroundPanel());
This simply passes a XAML control to Unity which will be used as a render target for DirectX 11.
appCallbacks.SetCoreWindowEvents(Window.Current.CoreWindow);
Sets the core window for Unity, Unity subscribes to the following events (there may be more, depending on when this information was updated) :
appCallbacks.InitializeD3DXAML();
This is main initialization function for Unity, it does following things:
At this point, when Unity finishes loading first level, it enters main loop.
Invokes a delegate on application thread, useful when you want to call your script function from UI thread.
Invokes a delegate on UI thread, useful when you want to invoke something XAML specific API from your scripts.
Returns true, if you’re currently running in application thread.
Returns true, if you’re currently running in UI thread.
Initialization function for D3D application.
Function used by D3D application, for entering main loop.
Returns true, when first level is fully loaded.
Sets a command line argument for application, must be called before InitializeD3DWindow, InitializeD3DXAML.
Sets application arguments, which can be later accessed from Unity API - UnityEngine.WSA.Application.arguments.
Sets a native rendering plugin, must be called before InitializeD3DWindow, InitializeD3DXAML.
Parses command line arguments from a file, arguments must be separated by white spaces.
Pauses Unity if you pass 1, unpauses if you pass 0, useful if you want to temporary freeze your game, for ex., when your game is snapped.
Enables/Disables input.
Returns true, if Unity will process incoming input.
Sets the control to be used for triggering on screen keyboard. This control will simply receive focus, when on screen keyboard is requested in scripts. Should be called with control, that does open keyboard on focus.
Returns control, currently used control for triggering keyboard input. See SetKeyboardTriggerControl.
Sets system cursor. The given curosr is set for both CoreWindow and independent input source (if used).
Sets system cursor to custom. Parameter is cursor resource ID. Cursor is set for both CoreWindow and independent input source (if used).