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const int bob = 0;

    int fred = 6/bob;

you will get an error on the line where the divide is done: "error C2124: divide or mod by zero"

which is lame, because it is just as inevitable that the 'if' check will fail, as it is the divide will result in a div by 0. quite frankly I see no reason for the compiler to even evaluate anything in the 'if', except to assure brace integrity.

anyway, obviously that example isn't my problem, my problem comes when doing complicated template stuff to try and do as much at compile time as possible, in some cases arguments may be 0.

is there anyway to fix this error? or disable it? or any better workarounds than this:

currently the only work around I can think of (which I've done before when I encountered the same problem with recursive enum access) is to use template specialization to do the 'if'.

Oh yeah, I'm using Visual Studio Professional 2005 SP1 with the vista/win7 fix.

share|improve this question
You could try assigning to a local variable then dividing by that. – Artelius Jun 21 '10 at 6:29
Dunno if this will work, but how about: int fred = 6/(bob?bob:1); – Jeremy Friesner Jun 21 '10 at 6:32
@Jeremy Friesner: nice! that works, and will solve my problem, feel free to put it as an answer! – matt Jun 21 '10 at 6:36

I suppose your compiler tries to optimize the code snippet since bob is defined const, so that the initial value of fred can be determined at compile time. Maybe you can prevent this optimization by declaring bob non-const or using the volatile keyword.

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you're right, the problem is that the compiler internally is doing the maths and chucking a fit when it tries to divide by zero. unfortunately the whole point of what I'm trying to do is to get the compiler to do the maths at compile time :( otherwise, what you suggest does fix the error. – matt Jun 21 '10 at 6:41
No - not an optimization. Integral Constant Expressions must be evaluated at compile time. – MSalters Jun 21 '10 at 12:14

Can you provide more detail on what you're trying to do with templates? Perhaps you can use a specialised template for 0 that does nothing like in the good old Factorial example and avoid the error altogether.

template <int N>
struct Blah 
    enum { value = 6 / N };

template <>
struct Blah<0> 
    enum { value = 0 };
share|improve this answer
yes, this would also fix my problem, and is what I meant when I said "use template specialization to do the 'if'" as a workaround in the question – matt Jun 21 '10 at 6:47
Sorry didn't notice that :) but it is the preferred way of avoiding these issues and it also lets the compiler do more work at compile time. – Gary Jun 21 '10 at 6:49
yeah, its also the only way I know of fixing other such errors, such as recursive calls, for instance, the following will CRASH the compiler because it always evals both sides of the 'if', fail or not: enum { value = (N>10) ? 1337 : Blah<N+1>::value }; – matt Jun 21 '10 at 6:56
@matt: it needs to figure out what the type of Blah<N+1>::value is. If that's a long int, then (true) ? 1337 : Blah<N+1>::value would be static_cast<long int>(1337). So both sides must at least compile. – MSalters Jun 21 '10 at 12:17

The problem - and the compiler has no choice in this - is that bob is a Integral Constant Expression, as is 6. Therefore 6/bob is also an ICE, and must be evaluated at compile time.

There's a very simple solution: inline int FredFromBob(int bob) { return 6/bob; } - a function call expression is never an ICE, even if the function is trivial and declared inline.

share|improve this answer
Yes, the constant may be used as a template parameter. The compiler can't just skip the instantiation of templates, even if they would happen in a part of code that's unreachable at runtime. – MSalters Jun 22 '10 at 7:11

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