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I'm currently looking into C# Generics, and I have a few questions.

1) In the following code, will the comparison of the type of T in "Test" slow down the program? In other languages this is handled on compile time, but I don't know about C#.

2) Since sizeof apparently won't work, I have to use System.Runtime.InteropServices.Marshal.SizeOf. Is this correct?

3) I haven't seen code like this in C# yet, is there anything wrong about it, or is it perfectly fine what I'm doing here? In the end the method in this example would take a handful of types, and throw and exception if it can't handle it. Some types would be handled independently, others like short/int/long would be handled together, depending on their size.

using System;

namespace ConsoleApplication1
{
    class Program
    {
        static void Main(string[] args)
        {
            Test<int>();
            Test<long>();
            Test<string>();
            Console.ReadLine();
        }

        static void Test<T>()
        {
            Type type = typeof(T);

            if (type == typeof(int) || type == typeof(long))
            {
                Console.WriteLine("int");
                Console.WriteLine(System.Runtime.InteropServices.Marshal.SizeOf(type).ToString());
            }
            else if (type == typeof(string))
            {
                Console.WriteLine("string");
            }
        }
    }
}
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1) you can run it with a timer and check. 2) have you tried sizeof? It works fine for me. 3) It is fine the way you have it (just add a last elseif at the end for the exception). Though I would do it with a switch(). Unlike in C++ the switch statement can compare more then int/enums. –  Shingetsu Apr 13 '12 at 23:49

2 Answers 2

up vote 3 down vote accepted

Yes, the type comparison slows it down, not that such an operation will significantly affect anything done only once. If you're doing this in a tight loop somewhere... consider not doing it. This is because it creates a Type object and compares those Type objects - it's not a compile-time check.

Yes, Marshal.SizeOf is correct1. I don't know what C#'s sizeof does, though, because I'm a VB.NET person.

As for not seeing this type of code much in C#, that's probably because it's not a case that people often come across. And also, instead of doing what you're doing, you should be offering method overloads for each type; cleaner, and the error is at compile-time, not runtime.

1 You're just printing it out, it's correct to print it out. I don't know what the goal of all this is, though.

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sizeof(Type) returns the size of a certain type which seems to be exactly what OP wants. I have no idea why it didn't work for him. In any case Marshal.SizeOf is the OO way of doing it (well .NET style OO) note: I am a C# (and Java) person 8D –  Shingetsu Apr 13 '12 at 23:55
2  
sizeof(Type) returns the size of the managed struct. Marshal.SizeOf() returns the size of the unmanaged struct that results after marshaling. The two are not always the same size. (e.g. sizeof(char)=2 but Marshal.SizeOf(typeof(char))=1) –  Daniel Apr 14 '12 at 1:37

1) It will be done at runtime, not compile-time. This isn't C++ templates. That said, it's a pretty fast operation.

3) If there are a fixed number of types that you need to support your better off using method overloading than generics.

Have Test(int input),Test(string input), and so on for each type you need to support. You can have a generic method in addition to those if there is a "general case" to support for everything else.

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