14

This is something that I solved using reflection, but would like to see how to do it using expression trees.

I have a generic function:

private void DoSomeThing<T>( param object[] args ) {
    // Some work is done here.
}

that I need to call from else where in my class. Now, normally, this would be be simple:

DoSomeThing<int>( blah );

but only if I know, at design time that I am working with an int. When I do not know the type until runtime is where I need the help. Like I said, I know how to do it via reflection, but I would like to do it via expression trees, as my (very limited) understanding is that I can do so.

Any suggestions or points to sites where I can get this understanding, preferably with sample code?

7

MethodInfo.MakeGenericMethod

Then just create a delegate and call it. (not in an expression, of course ;p)

Update:

Generally, I prefer to use generic types for this, Activator.CreateInstance just requires less work. All depends on your situation though.

| improve this answer | |
  • 1
    As I stated, I know how to do it via reflection. I am attempting to do in via expression trees. – David Williams Mar 12 '10 at 14:57
  • 1
    Just the same, isn't it? Am I missing something? (Updated answer) – leppie Mar 12 '10 at 15:42
7

Yes, it can be done via expression trees. The advantage is that you get a delegate so repeated calls will be far faster than doing MethodInfo.Invoke() over and over again. The dynamic keyword can do this also.

Example:

What type would you like to use?
decimal
Selected type 'System.Decimal'
Input Value:
5.47
<<<USING object>>>
The object has static type 'System.Object',  dynamic type 'System.Decimal', and value '5.47'
<<<USING dynamic>>>
The object has static type 'System.Decimal',  dynamic type 'System.Decimal', and value '5.47'
<<<USING reflection>>>
The object has static type 'System.Decimal',  dynamic type 'System.Decimal', and value '5.47'
<<<USING expression tree>>>
The object has static type 'System.Decimal',  dynamic type 'System.Decimal', and value '5.47'

Code:

using System;
using System.ComponentModel;
using System.Linq;
using System.Linq.Expressions;
using System.Reflection;

namespace SO2433436
{
    class Program
    {
        static void LogObject<T>(T t)
        {
            Console.WriteLine("The object has static type '" + typeof(T).FullName + "',  dynamic type '" + t.GetType() + "', and value '" + t.ToString() + "'");
        }

        static void Main(string[] args)
        {
            Console.WriteLine("What type would you like to use?");
            string typeName = Console.ReadLine();

            Type userType;
            switch (typeName)
            {
                case "byte": userType = typeof(byte); break;
                case "sbyte": userType = typeof(sbyte); break;
                case "ushort": userType = typeof(ushort); break;
                case "short": userType = typeof(short); break;
                case "uint": userType = typeof(uint); break;
                case "int": userType = typeof(int); break;
                case "string": userType = typeof(string); break;
                case "decimal": userType = typeof(decimal); break;
                default:
                    userType = Type.GetType(typeName);
                    break;
            }

            Console.WriteLine("Selected type '" + userType.ToString() + "'");

            Console.WriteLine("Input Value:");
            string val = Console.ReadLine();

            object o = TypeDescriptor.GetConverter(userType).ConvertFrom(val);

            Console.WriteLine("<<<USING object>>>");
            LogObject(o);

            Console.WriteLine("<<<USING dynamic>>>");
            LogObject((dynamic)o);

            Console.WriteLine("<<<USING reflection>>>");
            Action<object> f = LogObject<object>;
            MethodInfo logger = f.Method.GetGenericMethodDefinition().MakeGenericMethod(userType);
            logger.Invoke(null, new[] { o });

            Console.WriteLine("<<<USING expression tree>>>");
            var p = new[] { Expression.Parameter(typeof(object)) };
            Expression<Action<object>> e =
                Expression.Lambda<Action<object>>(
                    Expression.Call(null,
                                    logger,
                                    Expression.Convert(p[0], userType)
                                   )
                , p);
            Action<object> a = e.Compile();
            a(o);
        }
    }
}
| improve this answer | |
  • I think this should be marked as answer. This is awesome. – Gabor May 30 at 2:46
  • how can i make this work if T is of class type ? I am still getting compile time error, something like MySerializerOBject.Deserialize<T>(byteArray, false) .. How can i make it work from a class that I generate dynamically at runtime ? – kuldeep May 31 at 21:06
  • @kuldeep: The example includes a class type (string). Whatever went wrong in your code, the problem is not simply "because it's a class type", and you'll have to ask a proper question showing code and errors for anyone to be able to help. Feel free to link back to this question or answer in your explanation of what you are trying to do. – Ben Voigt Jun 1 at 15:09

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