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// SomeCls.h

class SomeCls
    {
    static const int PERIOD_ALARM_NORMAL    =   5;          
    static const int PERIOD_ALARM_THRESH    =   1;          

    void method()
    {
        bool b = true;
        const int d = b ? PERIOD_ALARM_THRESH : PERIOD_ALARM_NORMAL;
    }

    } obj;

It is going to build ok. Now take out the method() implementation and place it in a cpp file:

 //SomeCls.cpp
#include "SomeCls.h"

void SomeCls::method()
    {
        bool b = true;
        const int d = b ? PERIOD_ALARM_THRESH : PERIOD_ALARM_NORMAL;
    }

Why does mr. linker say

undefined reference to SomeCls::PERIOD_ALARM_NORMAL' undefined reference toSomeCls::PERIOD_ALARM_THRESH'

?

Thanks

EDIT: It seems to me that that inside .h, the ternary operator takes static const ints it as rvalues but ... outside the decalrative .h, it regards them as lvalue and needs definition. This is what I have managed to understand from the answers below. Kudos to Bada compiler (some eabi linux thinggie)

share|improve this question
    
Why does the linker say that when you do what? What are you trying to link exactly? –  David Schwartz Dec 19 '11 at 23:34
    
@Scarlet: I think you're misunderstanding something here. The OP doesn't want to test d == b, he wants to assign d, testing on b. –  Xeo Dec 19 '11 at 23:36
    
Please don't use all-caps for variable names. They're traditionally used only for preprocessor macros (apart from being very tiring to read). –  Kerrek SB Dec 19 '11 at 23:36
    
@Xeo I'm blind :) Deleting comment not to create misunderstandings, thanks. –  ScarletAmaranth Dec 19 '11 at 23:36
    
Works for me... –  Ed S. Dec 19 '11 at 23:36

3 Answers 3

up vote 2 down vote accepted

This is a GCC limitation, but it's completely standard comforming. Technically a static const int is still an lvalue. You've provided the value inline so compiler will almost always use it as an rvalue. There is one exception. The abstract instructions emitted by the compiler for ternary operators queries the address of lvalues. Hence the error you're seeing.

You can work around this by using enum instead. Or if you're using a new version of GCC constexpr was added to standard to fix this exact problem (named and typed rvalues).

Alternatively you can provide the linker with a definition for the constants. E.g. in your classes cpp file add the a line like

// I wish I had constexpr
const int SomeCls::PERIOD_ALARM_NORMAL;
const int SomeCls::PERIOD_ALARM_THRESH;

As a side note: I was a staunch proponent of static const for class scope constants. Then I found out that MSVC doesn't allow for static const float with the value inline. So the only values you can portably put in a static const are integers, in which case enums provide all the same features plus the guarantee that they'll never silently convert to an lvalue.

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that was plain egnlish. I just hope you are right with that lvalue / rvalue explanation and that I am picking the most accurate answer :P. Edit: seems it is not accurate. This does not explain how come it works in the first scenario - everything in .h –  kellogs Dec 20 '11 at 0:04
    
Inline initializations of non-integral types are only allowed for static constexpr in C++11. That has nothing to do with MSVC... –  Kerrek SB Dec 20 '11 at 0:09
    
Note that it's only standard conforming with the previous C++03 standard. In C++11, the ODR wording changed: §3.2 [basic.def.odr] p2 "[...] A variable whose name appears as a potentially-evaluated expression is odr-used unless it is an object that satisfies the requirements for appearing in a constant expression (5.19) [...]". I'd very much say that a static const int does satisfy the requirements mentioned. –  Xeo Dec 20 '11 at 0:11
    
@KerrekSB, I'd always assumed that static const inline initialization the standard only required a built in type not an integral type. So it looks like GCC's allowing float was an extension. Does the standard say that floats are allowed in static constexprs? Either way in preferred order (for compiler portablity) static constexpr, enum, then static const integral. –  deft_code Dec 20 '11 at 0:47

If the compiler can't see all the static class constants' values, then you have to provide definitions for them so that they'll actually be stored somewhere. Add the following to your cpp file:

const int SomeCls::PERIOD_ALARM_NORMAL;
const int SomeCls::PERIOD_ALARM_THRESH;
share|improve this answer
    
+1, I did not know about the "if it can't see their values" part –  Seth Carnegie Dec 19 '11 at 23:35
    
@SethCarnegie: Well, it should probably be the other way around... "in good cases you may not need a definition because the compiler already knows the values and can fold them into the code without needing the actual variable"... I suppose having the function definition out-of-line is a sufficient reason for the compiler to insist on a definition. –  Kerrek SB Dec 19 '11 at 23:37
    
Actual definitions in a translation unit should only be needed if he takes the address of those variables anywhere. He doesn't, so the example he gave should compile perfectly fine. –  Xeo Dec 19 '11 at 23:38
    
@Xeo: I think it's because the function is defined out-of-line, and so if you want to call the function from elsewhere, it needs that constant as a variable. Try it with inline, maybe then you get away without a definition. –  Kerrek SB Dec 19 '11 at 23:39
    
@Xeo : Definitions in a translation unit are needed if he 'ODR-uses' those variables, which is not strictly limited to taking their addresses. –  ildjarn Dec 19 '11 at 23:47

If, for whatever reason, you compiler simply refuses to link the code (like GCC 4.4.5 does), here's a simple fix: Replace the static const ints with an enum.

// someclass.h
// include guards, blabla

class SomeClass
{
    enum AlarmPeriod{
      PERIOD_ALARM_NORMAL = 5,
      PERIOD_ALARM_THRESH = 1
    };      

public:
    void method();
};

// someclass.cpp
#include "someclass.h"

void SomeClass::method(){
    bool b = true;
    const int d = b ? PERIOD_ALARM_THRESH : PERIOD_ALARM_NORMAL;
}

// main.cpp
#include "someclass.h"

int main(){
  someclass sc;
  sc.method();
}

This links cleanly with GCC 4.4.5, which wouldn't link the former version, even though both are technically the same.

Note that you cannot, amongst other things, take the address of PERIOD_ALARM_NORMAL and PERIOD_ALARM_TRESH anymore, because both names are just aliases for their respective values.

share|improve this answer
    
But then the constants have a distinct, unnamed type. –  curiousguy Dec 20 '11 at 0:31
    
@curiousguy: Happy? As if it'd make a difference in the example the OP showed. –  Xeo Dec 20 '11 at 0:33
    
It may not make a difference in this case, but it is a difference between enum and static const int that can impact code in a language like C++, and that could be surprising. I think it is worth mentioning. –  curiousguy Dec 20 '11 at 0:37

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