xamarin
Koddelning mellan projekt
Sök…
Bromönstret
Bridge-mönstret är ett av de mest grundläggande inversionerna av Control-designmönster. För Xamarin används detta mönster för att referera till plattformsberoende kod från ett plattformsoberoende sammanhang. Till exempel: använda Android: s AlertDialog från ett Portable Class Library eller Xamarin Forms. Ingen av dessa sammanhang vet vad ett AlertDialog-objekt är, så du måste linda in det i en ruta för att de ska kunna användas.
// Define a common interface for the behavior you want in your common project (Forms/Other PCL)
public interface IPlatformReporter
{
string GetPlatform();
}
// In Android/iOS/Win implement the interface on a class
public class DroidReporter : IPlatformReporter
{
public string GetPlatform()
{
return "Android";
}
}
public class IosReporter : IPlatformReporter
{
public string GetPlatform()
{
return "iOS";
}
}
// In your common project (Forms/Other PCL), create a common class to wrap the native implementations
public class PlatformReporter : IPlatformReporter
{
// A function to get your native implemenation
public static func<IPlatformReporter> GetReporter;
// Your native implementation
private IPlatformReporter _reporter;
// Constructor accepts native class and stores it
public PlatformReporter(IPlatformReporter reporter)
{
_reporter = GetReporter();
}
// Implement interface behavior by deferring to native class
public string GetPlatform()
{
return _reporter.GetPlatform();
}
}
// In your native code (probably MainActivity/AppDelegate), you just supply a function that returns your native implementation
public class MainActivity : Activity
{
protected override void OnCreate(Bundle bundle)
{
base.OnCreate(bundle);
SetContentView(Resource.Layout.activity_main);
PlatformReporter.GetReporter = () => { return new DroidReporter(); };
}
}
public partial class AppDelegate : UIApplicationDelegate
{
UIWindow window;
public override bool FinishedLaunching(UIApplication app, NSDictionary options)
{
window = new UIWindow(UIScreen.MainScreen.Bounds);
window.RootViewController = new UIViewController();
window.MakeKeyAndVisible();
PlatformReporter.GetReporter = () => { return new IosReporter(); };
return true;
}
}
// When you want to use your native implementation in your common code, just do as follows:
public void SomeFuncWhoCares()
{
// Some code here...
var reporter = new PlatformReporter();
string platform = reporter.GetPlatform();
// Some more code here...
}
Service Locator-mönstret
Service Locator-designmönstret är nästan beroende av injektion. Liksom Bridge-mönstret kan detta mönster användas för att referera till plattformsberoende kod från ett plattformsoberoende sammanhang. Det mest intressanta är att detta mönster förlitar sig på singletonmönstret - allt du lägger in i servicelokaliseraren kommer att vara en defacto singleton.
// Define a service locator class in your common project
public class ServiceLocator {
// A dictionary to map common interfaces to native implementations
private Dictionary<object, object> _services;
// A static instance of our locator (this guy is a singleton)
private static ServiceLocator _instance;
// A private constructor to enforce the singleton
private ServiceLocator() {
_services = new Dictionary<object, object>();
}
// A Singleton access method
public static ServiceLocator GetInstance() {
if(_instance == null) {
_instance = new ServiceLocator();
}
return _instance;
}
// A method for native projects to register their native implementations against the common interfaces
public static void Register(object type, object implementation) {
_services?.Add(type, implementation);
}
// A method to get the implementation for a given interface
public static T Resolve<T>() {
try {
return (T) _services[typeof(T)];
} catch {
throw new ApplicationException($"Failed to resolve type: {typeof(T).FullName}");
}
}
//For each native implementation, you must create an interface, and the native classes implementing that interface
public interface IA {
int DoAThing();
}
public interface IB {
bool IsMagnificent();
}
public class IosA : IA {
public int DoAThing() {
return 5;
}
}
public class DroidA : IA {
public int DoAThing() {
return 42;
}
}
// You get the idea...
// Then in your native initialization, you have to register your classes to their interfaces like so:
public class MainActivity : Activity
{
protected override void OnCreate(Bundle bundle)
{
base.OnCreate(bundle);
SetContentView(Resource.Layout.activity_main);
var locator = ServiceLocator.GetInstance();
locator.Register(typeof(IA), new DroidA());
locator.Register(typeof(IB), new DroidB());
}
}
public partial class AppDelegate : UIApplicationDelegate
{
UIWindow window;
public override bool FinishedLaunching(UIApplication app, NSDictionary options)
{
window = new UIWindow(UIScreen.MainScreen.Bounds);
window.RootViewController = new UIViewController();
window.MakeKeyAndVisible();
var locator = ServiceLocator.GetInstance();
locator.Register(typeof(IA), new IosA());
locator.Register(typeof(IB), new IosB());
return true;
}
}
// Finally, to use your native implementations from non-native code, do as follows:
public void SomeMethodUsingNativeCodeFromNonNativeContext() {
// Some boring code here
// Grabbing our native implementations for the current platform
var locator = ServiceLocator.GetInstance();
IA myIA = locator.Resolve<IA>();
IB myIB = locator.Resolve<IB>();
// Method goes on to use our fancy native classes
}