http://developer.xamarin.com/guides/ios/advanced_topics/limitations/
Since applications on the iPhone using Xamarin.iOS are compiled to static code, it is not possible to use any facilities that require code generation at runtime.
These are the Xamarin.iOS limitations compared to desktop Mono:
Unlike traditional Mono/.NET, code on the iPhone is statically compiled ahead of time instead of being compiled on demand by a JIT compiler.
Mono's Full AOT technology has a few limitations with respect to generics, these are caused because not every possible generic instantiation can be determined up front at compile time. This is not a problem for regular .NET or Mono runtimes as the code is always compiled at runtime using the Just in Time compiler. But this poses a challenge for a static compiler like Xamarin.iOS.
Some of the common problems that developers run into, include:
Xamarin.iOS currently has limited support for creating generic subclasses of the NSObject class, such as no support for generic methods. As of 7.2.1, using generic subclasses of NSObjects is possible, like this one:
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While generic subclasses of NSObjects are possible, there are a few limitations. Read theGeneric subclasses of NSObject document for more information
P/Invokes in generic classes aren't supported:
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Using Reflection's Property.SetInfo to set the value on a Nullable<T> is not currently supported.
Using a value type as a Dictionary<TKey, TValue> key is problematic, as the default Dictionary constructor attempts to use EqualityComparer<TKey>.Default. EqualityComparer<TKey>.Default, in turn, attempts to use Reflection to instantiate a new type which implements the IEqualityComparer<TKey> interface.
This works for reference types (as the reflection+create a new type step is skipped), but for value types it crashes and burns rather quickly once you attempt to use it on the device.
Workaround: Manually implement the IEqualityComparer<TKey> interface in a new type and provide an instance of that type to the Dictionary<TKey, TValue> (IEqualityComparer<TKey>) constructor.
Since the iPhone's kernel prevents an application from generating code dynamically Mono on the iPhone does not support any form of dynamic code generation. These include:
Reverse callbacks must be registered with the runtime at compile time.
The lack of System.Reflection. Emit means that no code that depends on runtime code generation will work. This includes things like:
Remoting's TransparentProxy or anything else that would cause the runtime to generate code dynamically.
Important: Do not confuse Reflection.Emit with Reflection. Reflection.Emit is about generating code dynamically and have that code JITed and compiled to native code. Due to the limitations on the iPhone (no JIT compilation) this is not supported.
But the entire Reflection API, including Type.GetType ("someClass"), listing methods, listing properties, fetching attributes and values works just fine.
In standard Mono it is possible to pass C# delegate instances to unmanaged code in lieu of a function pointer. The runtime would typically transform those function pointers into a small thunk that allows unmanaged code to call back into managed code.
In Mono these bridges are implemented by the Just-in-Time compiler. When using the ahead-of-time compiler required by the iPhone there are two important limitations at this point:
The methods have to be static methods, there is no support for instance methods.
The Remoting stack is not available on Xamarin.iOS.
The following features have been disabled in Mono's iOS Runtime:
Metadata verifier (since there is no JIT)
The .NET API exposed is a subset of the full framework as not everything is available in iOS. See the FAQ for a list of currently supported assemblies.
In particular, the API profile used by Xamarin.iOS does not include System.Configuration, so it is not possible to use external XML files to configure the behavior of the runtime.