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Suppose I have the following files:


#ifndef A_H
#define A_H

#include <vector>

class A {
                static int add( int x );
                static int size();
                static std::vector<int> vec;



#include "A.h"

std::vector<int> A::vec;

int A::add( int x ) {
        vec.push_back( x );
        return vec.size();

int A::size() { 
        return vec.size();


#ifndef B_H
#define B_H

class B {
                static const int val = 42;



#include "B.h"
#include "A.h"

int tempvar = A::add( B::val );

and finally: main:cpp

#include <iostream>
#include "lib/A.h"
#include "lib/B.h"

int main() {
        std::cout << A::size() << std::endl;

The result of this code differs depending on how I compile it:

g++ main.cpp lib/A.cpp lib/B.cpp -o nolibAB

prints "1"

g++ main.cpp lib/B.cpp lib/A.cpp -o nolibBA

prints "0"

g++ -c lib/A.cpp lib/B.cpp
ar rvs lib.a A.o B.o
g++ main.cpp lib.a

prints "0" (regardless if I reorder A.cpp and B.cpp)

Can someone tell me the reason that this is the case?

EDIT: I use gcc 4.6.1

share|improve this question
This question might be related: – Joachim Pileborg Feb 7 '12 at 13:42
Well, they have to be initialised in some order. Why are you surprised that the order of the modules has something to do with it, in this case? – Lightness Races in Orbit Feb 7 '12 at 14:08
I know about the (lack of a defined) static initialization order in C++. But since the static initialization of tempvar in B.cpp accesses (and modifies) A::vec, I would have thought that the program would crash if A::vec is modified without beeing initialized beforehand. So what happens here is that tempvar is initialized which adds a value to A::vec. Afterwards, A::vec is initialized which removes this value from the vector? – fdlm Feb 7 '12 at 14:16
This may vary by platform and version, you should be more specific than just "gcc". – Ben Voigt Feb 7 '12 at 14:18
If you write code based on any ordering you learn from this it's going to bite you back :p +1 for the interesting question though, I misread it to start. – John Humphreys - w00te Feb 7 '12 at 14:22
up vote 1 down vote accepted

This is undefined by the standard. Simply put: You should not rely on global variables being initialized in a certain order.

Related: Another static initialization order problem in C++

share|improve this answer
He didn't ask about the standard, he asked about additional guarantees provided by the GNU toolchain. – Ben Voigt Feb 7 '12 at 14:17
Sorry, that was not in OP – Johan Kotlinski Feb 7 '12 at 17:32
Not quite true -- global variables defined within a single compilation unit will be initialized in the order defined. The order is only undefined BETWEEN compilation units, which is the OP's example case. So one fix would be to gather all the globals into a single compilation unit and initialize them in a controlled order. – Chris Dodd Feb 7 '12 at 18:33
Thanks, one never stops learning in C++ :) – Johan Kotlinski Feb 8 '12 at 9:08
Thank you for the answer. Although it is not 100% correct, as pointed out by Chris Dodd, I will accept it. – fdlm Feb 8 '12 at 13:27

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