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This is just a curiousity about if there is a fundamental thing stopping something like this (or correct me if there's already some way):

public TTo Convert<TTo, TFrom>(TFrom from)
{
    ...
}

Called like this:

SomeType someType = converter.Convert(someOtherType);
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2  
Have you tried it? –  aqwert Mar 19 '12 at 2:46
2  
@aqwert: He's asking why they can't add such a feature. –  SLaks Mar 19 '12 at 2:51

3 Answers 3

up vote 11 down vote accepted

Because what would happen if you did this?

static void M(int x){}
static void M(double x){}
static T N<T>() {}
...
M(N());

Now what is T? int or double?

It's all very easy to solve the problem when you know what the type you're assigning to is, but much of the time the type you're assigning to is the thing you're trying to figure out in the first place.

Reasoning from inside to outside is hard enough. Reasoning from outside to inside is far more difficult, and doing both at the same time is extremely difficult. If it is hard for the compiler to understand what is going on, imagine how hard it is for the human trying to read, understand and debug the code when inferences can be made both from and to the type of the context of an expression. This kind of inference makes programs harder to understand, not easier, and so it would be a bad idea to add it to C#.

Now, that said, C# does support this feature with lambda expressions. When faced with an overload resolution problem in which the lambda can be bound two, three, or a million different ways, we bind it two, three or a million different ways and then evaluate those million different possible bindings to determine which one is "the best". This makes overload resolution at least NP-HARD in C#, and it took me the better part of a year to implement. We were willing to make that investment because (1) lambdas are awesome, and (2) most of the time people write programs that can be analyzed in a reasonable amount of time and can be understood by humans. So it was worth the cost. But in general, that kind of advanced analysis is not worth the cost.

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has the idea of hooks/intercepters built into the compiler ever been floated? i.e. if you wanted to make code like my question compile, you could handle/resolve the error that halts the compiler –  Aaron Anodide Mar 20 '12 at 1:43
2  
@Gabriel: Sure, people ask for that all the time. If you're looking for a language which allows you to change the fundamental behaviour of the language, consider Python; I hear it is good for that. –  Eric Lippert Mar 20 '12 at 3:20

C# expressions always* have a fixed type, regardless of their surroundings.

You're asking for an expression whose type is determined by whatever it's assigned to; that would violate this principle.

*) except for lambda expressions, function groups, and the null literal.

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If the C# language was designed such that "the surroundings" included an l-value type then it would be possible... so why wasn't it? ;-) I don't really want/need an answer for that, but it might be more inline with the posters intent (and your post comment). –  user166390 Mar 19 '12 at 3:01

Unlike Java, in C# type reference doesn't base on the return type. And don't ask me why, Eric Lippert had answered these "why can't C# ..." questions:

because no one ever designed, specified, implemented, tested, documented and shipped that feature

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It is also much more complicated. Imagine when the result is not used or when the result type "target" conforms to multiple overloads... –  user166390 Mar 19 '12 at 2:59
1  
@pst: If the result is not used or matches a few overloads, they(the c# team) have to define a rule, just like overlording M(object o) M(int o) in C# currently. This design makes sense(Java uses it). –  Danny Chen Mar 19 '12 at 8:06
    
When that happens you would get something like SFINAE of C++. Because we really need another turing tarpit to play for fun. –  Luiz Felipe Aug 6 at 1:54

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