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EDIT-- clarifying the goal of my question: I lose a lot of time diagnosing problems that I expect the linker to report, caused by an admittedly bad programming style, which pops up when e.g. copy-pasting a block of code from one compilation unit to another, and altering it.

I'm looking for a way to detect this problem at compile/link time.

In this setup:

A.h

void foo();

A.cpp

struct A { 
  int values[100];
  A(){ 
    std::cout << __FILE__ << ": A::A()\n";
}};
void foo(){ 
   A a;
}

main.cpp

#include "A.h"
struct A { 
  double values[100];
  A(){ 
  std::cout << __FILE__ << ": A::A()\n";
}};
int main(){ foo(); }
// void foo(){} ===> this would cause a linker error

I would love the linker to report that the structure A, or at least the constructor A::A(), is defined twice.

However, g++ 4.4 links just fine. Running the code shows that in this case, the linker chose to use the A from A.cpp.

$ g++ -Wall A.cpp main.cpp && ./a.out
A.cpp:3
A.cpp:7
A.cpp:3

When a function foo() is present in two object files, the linker reports a multiple definition allright, but for the structures, it doesn't.

EDIT: just found by using nm -C *.o that both A.o and main.o have A::A() defined as a weak symbol. This causes it to be 'selectable' from a pool of symbols with the same name. Maybe the question can be rephrased to "how can I cause the compiler to generate strong symbols?"...

00000000 W A::A()

How can I detect this problem?

share|improve this question
2  
Defining a member inside a class like you just did implicitly declares that member as inline, such that the implementation will let you provide more than one definition of that member in the whole program. It's still required that all those definitions are sufficiently similar with each other (which I think isn't the case here due to the use of __FILE__), but that's harder to diagnose (and is not required). –  Luc Danton May 11 '12 at 11:12
1  
@LucDanton: where sufficiently similar is exactly the same, otherwise you are violating the ODR. –  David Rodríguez - dribeas May 11 '12 at 11:39
    
@LucDanton: I see what you mean, but in this case, the nm output clearly shows that said function has not been inlined, doesn't it? –  xtofl May 11 '12 at 11:52
    
@xtofl Don't make the mistake of thinking that the inline heyword has anything to do with inlining (not that anyone should be blamed for that). It has to do with the ODR -- and here by using inline (although implicitly) you're asking for a special version of the ODR that makes diagnostics harder. Since you want more diagnostics, drop the inline -- plus separating definition from declaration is usually better style, too. –  Luc Danton May 11 '12 at 11:57
    
@LucDanton: Don't let the standardese confuse you, there is no stricter definition of exactly the same than the one the standard provides: the code must be the same, the objects referred by the code must be the exactly the same object, except where that is impossible, in which case the object's identity cannot be used, only the value, and the value must be exactly the same. Without that exception, this would be in violation of the ODR: const int k = 10; inline int f() { return k; }, as constants have internal linkage and thus there is a different k for each TU that include it. –  David Rodríguez - dribeas May 11 '12 at 12:49

2 Answers 2

Maybe the question can be rephrased to "how can I cause the compiler to generate strong symbols?"...

Try to restrict the use of inline functions:

struct A {
    A();
};

// Inside A.cpp
A::A() { 
    std::cout << __FILE__ << ": A::A()\n";
}

An implementation is much more likely to report an ODR violation for a function that is not declared inline (including those that are implicitly declared inline, like members defined inside a class definition), although strictly speaking such a diagnostic is never required.

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It's not a problem, and it's not a redefinition. It's how C++ works. Think about it — you put class definitions in headers (exposing just declaration is far less common). Headers are pretty much copy-pasted into every translation unit that uses them. It cannot be an error to have multiple definitions of the same class in multiple TUs. So, it's not something to solve.

Compiler/linker should complain if there are different classes defined under the same name, though.

share|improve this answer
    
... and of course, the latter is when the problem really hurts. I have spent several hours, spread over the last decade, bumping into segmentation faults (best case) and corrupted memory caused by that problem. Hence this question. –  xtofl May 11 '12 at 11:46

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