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I'm trying to call the deserialization constructor for an object that already exists. How do I do that with expression trees?

I tried:

// Create an uninitialized object
T graph = (T)FormatterServices.GetUninitializedObject(graphType);

// (graph, serializationInfo, streamingContext) => graph.Constructor(serializationInfo, streamingContext)
ParameterExpression graphParameter = Expression.Parameter(serializationPack.SelfSerializingBaseClassType, "graph");
ParameterExpression serializationInfoParameter = Expression.Parameter(typeof(SerializationInfo), "serializationInfo");
ParameterExpression streamingContextParameter = Expression.Parameter(typeof(StreamingContext), "streamingContext");

MethodCallExpression callDeserializationConstructor = Expression.Call(graphParameter,
    (MethodInfo)serializationPack.SelfSerializingBaseClassType.GetConstructor(new[] { typeof(SerializationInfo), typeof(StreamingContext) }), 
        new[] { serializationInfoParameter, streamingContextParameter });

but Expression.Call only accepts MethodInfo not ConstructorInfo, so that doesn't work - unless there is a way to convert to a MethodInfo?

Update

I eneded up just using ConstructorInfo.Invoke:

// Cache this part
ConstructorInfo deserializationConstructor = serializationPack
    .SelfSerializingBaseClassType
    .GetConstructor(BindingFlags.NonPublic | BindingFlags.Instance, null, CallingConventions.Standard,
        new[] { typeof(SerializationInfo), typeof(StreamingContext) }, null);

// Call this when I need it
deserializationConstructor.Invoke(graph, new Object[] { serializationInfo, new StreamingContext() });

I'm scared of the performance on it, but it seems to be the only way to do this.

Update

This has a proper answer now. Thanks all.

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“How do I do that with expression trees?” Why do you think you can do that with expression trees, when you can't do it with normal code? –  svick May 3 '13 at 17:41
    
Call a constructor on an existing object? You can do that. Unless I'm missing something. –  sircodesalot May 3 '13 at 18:01
    
Tomorrow I will produce some code. –  Martin Mulder May 3 '13 at 18:05
    
Looking forward with anticipation. –  sircodesalot May 3 '13 at 18:07
    
Wow, I had no idea you could use reflection to do this, this is evil. I think that you should never do this, unless absolutely necessary. A constructor should run exactly once for each object (unless you use constructor chaining). –  svick May 3 '13 at 18:18

4 Answers 4

up vote 3 down vote accepted

If I'm reading your question correctly, you don't really care whether the constructor is called via an expression tree, so long as the actual invocation doesn't require reflection. You can build a dynamic method that forwards to a constructor call:

using System;
using System.Reflection;
using System.Reflection.Emit;

namespace ConsoleApplication1
{
    static class Program
    {
        static void Main(string[] args)
        {
            var constructor = typeof(Foo).GetConstructor(BindingFlags.Instance | BindingFlags.Public | BindingFlags.NonPublic, null, Type.EmptyTypes, null);
            var helperMethod = new DynamicMethod(string.Empty, typeof(void), new[] { typeof(Foo) }, typeof(Foo).Module, true);
            var ilGenerator = helperMethod.GetILGenerator();
            ilGenerator.Emit(OpCodes.Ldarg_0);
            ilGenerator.Emit(OpCodes.Call, constructor);
            ilGenerator.Emit(OpCodes.Ret);
            var constructorInvoker = (Action<Foo>)helperMethod.CreateDelegate(typeof(Action<Foo>));

            var foo = Foo.Create();
            constructorInvoker(foo);
            constructorInvoker(foo);
        }
    }

    class Foo
    {
        int x;

        public static Foo Create()
        {
            return new Foo();
        }

        private Foo()
        {
            Console.WriteLine("Constructor Foo() called, GetHashCode() returns {0}, x is {1}", GetHashCode(), x);
            x++;
        }
    }   
}

Note though that this behaves like a regular method call. x is not set before printing its value, so it does not get reset to 0 when you call the constructor again. Depending on what your constructor does, this may or may not be a problem.

share|improve this answer
    
This appears to be the answer. Thank yous. –  sircodesalot May 3 '13 at 19:37
    
@sircodesalot I forgot to include a warning why this won't work with all classes, please double check to make sure that it's still useful for you :) –  hvd May 3 '13 at 19:42
    
You have 'x' and 'i'. Are they supposed to be the same? I don't quite follow. –  sircodesalot May 3 '13 at 19:43
    
@sircodesalot Yes, they were supposed to be the same, that was a typo. This won't be a problem if you only construct objects once, but if you call the constructor again after it has already been called, the results might not be what you want. –  hvd May 3 '13 at 19:45
    
Ah, I'm using FormatterServices.GetUninitializedObject, which doesn't do any construction at all. In the general case, I just gut all of the fieldinfo data from the object I'm serializing, and then paste it back onto an empty shell when deserializing. However, stuff that implements ISerializable requires that I call the "Deserialization Constructor" in order for it to perform it's own deserialization (hence the question). I assume that if it implements ISerializable, it should expect something like this (late construction) to occur. –  sircodesalot May 3 '13 at 19:47

If you want to use expression trees, use Expression.New. Here's an example

var info = Expression.Parameter(typeof(SerializationInfo), "info");
var context = Expression.Parameter(typeof(StreamingContext), "context");

var callTheCtor = Expression.New(ctorInfo, info, context);

This doesn't work on an existing object, but since your code shows GetUninitializedObject I would think you could just remove that part and use Expression.New to create a new object.

share|improve this answer

You cannot call the constructor if the object has already been created. You can see how this method is used in the BCL, all methods marked as internal and method to call constructor is implemented within the common language runtime itself:

RuntimeConstructorInfo constructor = ObjectManager.GetConstructor(t);
object uninitializedObject = FormatterServices.GetUninitializedObject((Type) this.m_realType);
constructor.SerializationInvoke(uninitializedObject, this.m_savedSerializationInfo, context);

[DebuggerHidden]
[SecuritySafeCritical]
[DebuggerStepThrough]
[MethodImpl(MethodImplOptions.InternalCall)]
internal static void SerializationInvoke(IRuntimeMethodInfo method, object target, SerializationInfo info, ref StreamingContext context);
share|improve this answer
    
You cannot call the constructor if the object has already been created. This is not strictly speaking true. –  sircodesalot May 3 '13 at 18:31
    
I see, thank you for your question. Live and learn. –  Vyacheslav Volkov May 4 '13 at 5:30

I created a method to create an (open) delegate to the constructor. You can use it with any (static or instance) constructor with any number of arguments and variaty (like ref and out). If your delegate returns void, the instance of the constructed type is expected as the first parameter. If the delegate returns the type to be constructed, a new instance will be created.

static public T CreateDelegate<T>(this ConstructorInfo constructor)
{
    // Validate if the constructor is not null.
    if (constructor == null)
        throw new ArgumentNullException("constructor");

    // Validate if T is a delegate.
    Type delegateType = typeof(T);
    if (!typeof(Delegate).IsAssignableFrom(delegateType))
        throw new ArgumentException("Generic argument T must be a delegate.");

    // Get alle needed information.
    MethodInfo invoke = delegateType.GetMethod("Invoke");
    ParameterInfo[] constructorParams = constructor.GetParameters();
    ParameterInfo[] delegateParams = invoke.GetParameters();

    // What kind of delegate is going to be created (open, creational, static).
    bool isOpen = false;
    OpCode opCode = OpCodes.Newobj;
    int parameterOffset = 0;
    if (constructor.IsStatic) // Open delegate.
    {
        opCode = OpCodes.Call;
        if (invoke.ReturnType != typeof(void))
            throw new ArgumentException("Delegate to static constructor cannot have a return type.");
        if (delegateParams.Length != 0)
            throw new ArgumentException("Delegate to static constructor cannot have any parameters.");
    }
    else if (invoke.ReturnType == typeof(void)) // Open delegate.
    {
        opCode = OpCodes.Call;
        isOpen = true;
        parameterOffset = 1;
        if ((delegateParams.Length == 0) || (delegateParams[0].ParameterType != constructor.DeclaringType))
            throw new ArgumentException("An open delegate must have a first argument of the same type as the type that is being constructed.");
    }
    else // Creational delegate.
    {
        if (invoke.ReturnType != constructor.DeclaringType)
            throw new ArgumentException("Return type of delegate must be equal to the type that is being constructed.");
    }

    // Validate the parameters (if any).
    if (constructorParams.Length + parameterOffset != delegateParams.Length)
        throw new ArgumentException(isOpen
            ? "The number of parameters of the delegate (the argument for the instance excluded) must be the same as the number of parameters of the constructor."
            : "The number of parameters of the delegate must be the same as the number of parameters of the constructor.");
    for (int i = 0; i < constructorParams.Length; i++)
    {
        ParameterInfo constructorParam = constructorParams[i];
        ParameterInfo delegateParam = delegateParams[i + parameterOffset];
        if (constructorParam.ParameterType != delegateParam.ParameterType)
            throw new ArgumentException("Arguments of constructor and delegate do not match.");
    }

    // Create the dynamic method.
    DynamicMethod method = new DynamicMethod(
            "",
            invoke.ReturnType,
            delegateParams.Select(p => p.ParameterType).ToArray(),
            constructor.DeclaringType.Module,
            true);


    // Create the IL.
    ILGenerator gen = method.GetILGenerator();
    for (int i = 0; i < delegateParams.Length; i++)
        gen.Emit(OpCodes.Ldarg, i);
    gen.Emit(opCode, constructor);
    gen.Emit(OpCodes.Ret);

    // Return the delegate :)
    return (T)(object)method.CreateDelegate(delegateType);
}

To create a delegate, use:

public class MyObject
{
    public MyObject(int anyValue)
    {
        ...
    }
}

Action<MyObject, int> c = typeof(MyObject)
    .GetConstructor(new [] { typeof(int) })
    .CreateDelegate<Action<MyObject, int>>();
MyObject myObject = new MyObject(1;
c(myObject, 2);

This all can be made a bit shorter by adding an extra function:

static public T CreateConstructorDelegate<T>(this Type type)
{
    // Validate if the constructor is not null.
    if (type == null)
        throw new ArgumentNullException("type");

    // Validate if T is a delegate.
    Type delegateType = typeof(T);
    if (!typeof(Delegate).IsAssignableFrom(delegateType))
        throw new ArgumentException("Generic argument T must be a delegate.");

    // Validate the delegate return type
    MethodInfo invoke = delegateType.GetMethod("Invoke");
    int parameterOffset = 0;
    BindingFlags binding = BindingFlags.Public | BindingFlags.Instance;
    if (invoke.ReturnType == typeof(void))
    {
        if (invoke.GetParameters().Length == 0)
            binding = BindingFlags.NonPublic | BindingFlags.Static; // For static constructors.
        else
            parameterOffset = 1; // For open delegates.
    }
    // Validate the signatures
    ParameterInfo[] delegateParams = invoke.GetParameters();
    ConstructorInfo constructor = type.GetConstructor(binding, null, delegateParams.Skip(parameterOffset).Select(p => p.ParameterType).ToArray(), null);
    if (constructor == null)
        throw new ArgumentException("Constructor with specified parameters cannot be found.");

    return constructor.CreateDelegate<T>();
}

The call to create the delegate will now be:

Action<MyObject, int> c = typeof(MyObject)
    .CreateConstructorDelegate<Action<MyObject, int>>();
MyObject myObject = new MyObject(1;
c(myObject, 2);

Warning! Everytime you call these methods, a little piece of code will be created. If you call these functions a lot for the same constructor, think about caching.

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