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I have two static member declarations in ClsA, like this:

class ClsA {
   static unsigned short m_var1;
   static unsigned short m_var2;

unsigned short ClsA::m_var1 = 1001;
unsigned short ClsA::m_var2 = 1002;

In ClsB, I use those static member declarations from ClsA like this:

unsigned short var1; // assume var1 is declare/use some where in the code.

switch( var1 ) {
case ClsA::m_var1:  // Error: cannot appear in a constant-expression

case ClsB::m_var2:  // Error: cannot appear in a constant-expression

Why do I get an error if I use that in a switch statement? There is no error if I use it in an if statement.

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up vote 10 down vote accepted

C++ requires the case to have a constant-expression as its argument. What does that mean? It means that the only operands that are legal in constant expressions are:

  • Literals
  • Enumeration constants
  • Values declared as const that are initialized with constant expressions
  • sizeof expressions

In your case, if you declared your static members as const, and initialized them when declared with an integral constant expression, you could use them in switch-case statements. For example,

class ClsA {
        static const unsigned short m_var1 = 13;
        static const unsigned short m_var2 = 42;

If, on the other hand, you insist on switching on a variable to avoid multiple if-else if statements, I would suggest using a jump table (it's also referred as a lookup table).

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static const unsigned short m_var1;

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And just in case you'd like to understand the difference: switch needs compile-time constants. if is happy with run-time values. – Christopher Creutzig Jul 25 '10 at 7:57
@Steve: Modifying physically const objects is already UB - doing that is a bug. – Georg Fritzsche Jul 25 '10 at 9:51
@Georg - you and I both know it's impossible to write a serious C or C++ app. without ever using anything that the language standards leave undefined. Even the meaning of "short" isn't fully defined (how short is short?). Obviously the whole point of const is that it shouldn't be modified, but there are exceptions - e.g. working with someone elses code where someone was over-eager with the "const" but you're no allowed to change it. If "const_cast" was never to be used, why define it in the first place? – Steve314 Jul 25 '10 at 13:23
@Georg - the point I'm making here is that something being "undefined behaviour" doesn't mean you don't have to consider cases where it might, accidentally or deliberately, have been done. It is reasonable to discuss the pros and cons of programming practices designed to mitigate these things, and not helpful for people to just kneejerk-reject the whole idea with "that's undefined - there was a bug already so this is nonsense", ignoring the fact that avoiding susceptibility to bugs the compiler won't detect is the whole point. – Steve314 Jul 25 '10 at 13:36
@Steve: I don't want to start a multi-page discussion in comments, but const_cast is for when you have a const reference or pointer to a non-const object, not to allow modification of something physically const. If you only want to use language features where no-one can make any mistakes you have to look for another language. – Georg Fritzsche Jul 25 '10 at 13:59

m_var1 and m_var2 aren't constants. But the cases in switch have to be constant expressions (1, 4*8, some_const+1).

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It's because the expressions after the case keyword must be a compile time constants and your m_var1 and m_var2 arent. If need to do this kind of test, use an if chain.

http://gcc.gnu.org/ml/gcc-help/2005-12/msg00069.html talks about this error.

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The values must be compile time constants as the error message indicates. They should be declared and defined as const inside the class declaration, such that the compiler knows about them and their values at any point of compilation, typically in a header file.

class ClsA {
   static unsigned short const m_var1 = 1001;
   static unsigned short const m_var2 = 1002;

In some object file you should then also instantiate these const variables

unsigned short const ClsA::m_var1;
unsigned short const ClsA::m_var2;

that is without repeating the initialization value and without the static keyword.

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I don't think the second part is necessary for constants initialized inline. – visitor Jul 26 '10 at 10:56
For C++ they are often necessary if you pass such constants by reference to a function. (There might be other extreme cases of usage that require this, too). Since in such case you will only know of a missing instantiation once you (or somebody else using your library) try to link. This might be difficult to track down, so I'd suggest that you always instantiate such kind of const variables. – Jens Gustedt Jul 26 '10 at 22:48

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