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I read about the Conditional attribute today. According to MSDN:

Applying ConditionalAttribute to a method indicates to compilers that a call to the method should not be compiled into Microsoft intermediate language (MSIL) unless the conditional compilation symbol that is associated with ConditionalAttribute is defined.

OK. That's clear. So the call to the method will not be compiled. But what about side effects?

[Conditional("UndefinedCondition")]
static void f1(int x) { Console.WriteLine(x); }

static int a = 0;
static void f2() { f1(++a); }

So when f2 is called, the call to f1 should be removed. But why is ++a removed as well? This does't make any sense to me!

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4 Answers 4

up vote 5 down vote accepted

Expanding on Marc's answer.

This is definitely "By Design". The best way to understand the rationalization for this is to think about what this code took the place of. This feature in many, and much cleaner ways, takes the way of conditionally compiled code.

For example,

#if DEBUG
f1(++a);
#endif

Or another version

#define f1(x) ...

In the non-debug case there are clearly no side effects. This is same behavior for [Conditional] code. I agree it's definitely not as clear as the first example, but it is as clear as the second one.

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Yes, any calls required for arguments are removed too. This means that for the typical use-case (debug builds) you remove the entire expression, which is usually what is intended.

Basically, you need to be very careful when using either [Conditional] methods, or equally (in C# 3.0) partial methods - which have very similar behaviour if the other half of the partial method isn't implemented. As an example (for partial methods), see below. Note that the call to HasSideEffect() is removed (uncomment the other half of Bar to see it work):

using System;
partial class Foo {
    partial void Bar(string value);
    static void Main() {
        Foo foo = new Foo();
        foo.Bar(HasSideEffect());
    }
    static string HasSideEffect() {
        Console.WriteLine("hello");
        return "world";
    }
}

partial class Foo {
    /* uncomment this
    partial void Bar(string value) {
        Console.WriteLine(value);
    }*/ 
}
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Thanks. You said they have "very similar" behavior. Are there differences? –  Hosam Aly Jan 4 '09 at 13:58
    
Not really - other than the condition for inclusion is different; with [Conditional] it is a symbol - with partial methods it is whether the partial method is implemented. –  Marc Gravell Jan 4 '09 at 17:38

I guess that's due to ease of compiler implementation.

I would be fearful of such code anyways (even if it worked as you expect it) and write it as

++a;
f1(a);

for clarity. You can always see what is executed and what isn't.

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That would be nice. But if f1() was initially a normal method, then someone decided to make it conditional then this would break the application, without any compiler warning, wouldn't it? I would say that the compiler should execute the side effect, because "++a" itself is not conditional! –  Hosam Aly Jan 4 '09 at 11:52
    
Otherwise, I believe that the compiler would be breaking consistency. Only code that I mark as conditional should be removed, but not any other code that I don't mark as so! –  Hosam Aly Jan 4 '09 at 11:53
    
This way you have a choice. Move code you always wants executed out, leave it in if it should only be executed if the method call will be done. Yes, a programmer that adds this attribute can break things, but some responsibility is left for the programmers too. –  Lasse V. Karlsen Jan 4 '09 at 11:58
    
It is not the function that is not-compiled, it's the call. However it seems your compiler removes the C# call, when it should remove the IL call. Perhaps you should report this behavior so they can fix it. –  R. Martinho Fernandes Jan 4 '09 at 12:03
    
Now that I read it, if you don't recompile your application but someone Conditionals out some function in another assembly, it won't actually break. It will call it: it's the compiler that removes the call. The function is still there. (I didn't test this, I'm just interpreting the documentation). –  R. Martinho Fernandes Jan 4 '09 at 12:06

I also suspect that this behaviour is designed to be the same as C preprocessor macros, which typically are set up to not evaluate the arguments when not in use.

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