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I am looking for a way to have compile time assertions in the C# programming language, such as those provided by the BOOST library for C++, or the new C++0x standard.

My question is twofold; can this be achieved in standard, portable C#; Alternatively, can the behaviour be achieved via non-portable assumptions of the quirks of a given C# compiler?

A quick search on google revealed the following link to one technique, whose standards compliance and compatibility I am unsure of.

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There is just no need for a static_assert in C#. –  Max Galkin Jun 8 '09 at 9:31
I disagree, a valuable usecase is verifying correctness properties of compile time computations without having to run the program. –  grrussel Jun 8 '09 at 9:48

6 Answers 6

Code Contracts will be added to C# 4.0. It's essentially the same idea done in an elegant way.

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If you can't wait for C#4.0 you could always get the Microsoft Research version of code contracts here: research.microsoft.com/en-us/projects/contracts –  TheMissingLINQ Jun 8 '09 at 13:01

Code from the link you've provided will be compiled in the structure similar to this:

byte a;
if (RenderQuality.Low < RenderQuality.Medium)
    a = 0;
else a = -1;

So the compiler will throw an error. Trinary (conditional) operator ?: is nothing more than syntax sugar like '??' operator.
There are no static asserts in c# because there are no templates in it (generics looks similar to templates but there are a lot of difference and they are not as powerful as templates are). Some functionality may be achieved using conditional statements and preprocessor definitions. See this topic for details about this.

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Inside a function with a return value, the following trick/hack works (at least with Visual Studio 2005, haven't checked on other platforms):

Something Foo()
    if (compiletime_const_condition)
        // ...
        return something;

    // no return statement at all

It ain't pretty, but it's the best solution I have so far.

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The code is standard C# Code. It will work on any compiler - but not necessarily at compile time. Since the evaluation at compile-time is only possible if the parameters used in the condition are constant I guess the optimization dependes on the compiler vendor / compiler switches.

In C++, static asserts are either part of the standard (C++0x) or templates that need to be evaluated at compile-time, so they can guarantee the assertion.

To test the portability, I'd use different compilers and especially without any optimization, else you might get the exception at program start.

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Actually, when I change the expression to something that cannot be evaluated (and thus folded) at compile time, I get a different exception:

Cannot implicitly convert type 'int' to 'byte'. An explicit conversion exists (are you missing a cast?)

A compiler that does not do folding should generate a similar compilation error. Thus, on such a compiler it would not compile until you take out all your asserts. Not pretty, but it might be preferable to getting surprises at runtime.

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You might try to use something like

( 0 / ( condition ? 1 : 0 ) )

ideally in some situation where the compiler needs to evaluate the value for compilation reason (e.g. some attribute controlling the compilation, maybe structure layout).

EDIT: Because the attribute arguments must be constant expressions, I assume that they are always evaluated during compilation and so any attribute might be sufficient.

EDIT2: Alternative would be to create custom attribute (e.g. StaticCheck) taking a boolean and maybe string and tool which would run as post-build event and use reflection to check all those attributes. Not as nice as having it directly supported however more cleaner than the division hack.

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