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Unlike c++, there is no const member method and const parameters in c#. Want to know the reason.

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+1 for the analytic quesiton –  CloudyMarble Apr 13 '11 at 6:43

3 Answers 3

up vote 18 down vote accepted

First off, there is no requirement that we provide a reason for not implementing a feature. Features are extremely expensive; there has to be a justification for implementing a feature, not a justification for not implementing a feature.

Second, C# is not a clone of C++ or C. Just because a feature is in some other language is not a reason to put it in C#.

Third, "const" is deeply, tragically broken in C and C++. "const" gives you no guarantee that you can actually rely upon. If you are the caller of a method that takes a const reference then you have no guarantee whatsoever that the method honours the constness; the method has many ways of mutating a const reference. If you are the consumer of a const reference then you have no guarantee that the underlying object actually will not mutate arbitrarily. Since the contract is not enforced on either the caller or the callee side, it is far weaker than any other guarantee that we would like to make in the type system. We would not want to replicate such a broken system.

Fourth, putting constness in the CLR type system means that every language would have to use the same implementation of constness; since different languages have different meanings for constness, that would be making it harder to bring more languages to the CLR, not easier.

There are many reasons for not doing this extremely expensive feature, and very few reasons to do it. Expensive, unjustified features don't get implemented.

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You're right that the consumer of a const reference can't expect that the referent will not be modified elsewhere. const (as a qualifier on pointers and references) is all about sharing a read-only view of an object, not making objects immutable. But I disagree that it's useless. If a function accepts a const reference (or pointer-to-const), it had better not try to modify the referenced object, except as allowed by the mutable modifier, because I might have passed in a truly constant object stored in read-only memory. –  Ben Voigt Nov 11 '10 at 0:49
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(continued) C++ const_cast (and equivalent mechanisms for stripping const) are forbidden unless the function can guarantee that the object was not const at the point of definition, which effectively limits their use to private internal helper functions. For a public API in C++ to try to modify an object passed in via const reference (or pointer) violates the standard and invokes undefined behavior. –  Ben Voigt Nov 11 '10 at 0:52
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@Ben: I did not say that const in C++ is useless. It is very useful. I use it all the time. I said that it was unreliable, misleading and dangerous. There are plenty of things that are unreliable, misleading and dangerous that are still of use. That's not the question at hand. The question at hand is "should the C# language replicate this unreliable, misleading and dangerous feature?" and the answer is "no" because the benefit of implementing a questionable design does not justify the large cost of doing so. –  Eric Lippert Nov 11 '10 at 15:58
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@Joan: I personally would love to have an immutability guarantee made by the type system that is stronger than 'readonly' on a field. I would particularly love a write-once 'readonly' array type that is fast, small and safe. That sort of stuff is not in the plans for any time soon, but is always on the list of stuff to investigate for possible future hypothetical features of possible future hypothetical products. –  Eric Lippert Nov 12 '10 at 1:09
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@Joan: The biggest problem with arrays is that they are arbitrarily mutable and therefore are not safe to cache. But all their other properties are really nice. They take up almost exactly the necessary amount of space, with very small overhead. They are extremely fast to index. They can be passed around cheaply by reference. And so on. –  Eric Lippert Nov 12 '10 at 19:24

There is a decent article here by Stan Lippman.

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C# doesn't have it because .NET doesn't. .NET doesn't because the CLR development team decided it wasn't worth the effort.

You can read on MS blogs like Raymond Chen's "The Old New Thing" or Eric Lippert's "Fabulous Adventures in Coding", how Microsoft prioritizes features.

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