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I have produced this C++ code:

class TestInstance
{
    public:
        TestInstance();
        ~TestInstance();
        static TestInstance& GetInstance();

    private:
        static TestInstance* testInstance;
};

But I got this error when compiling:

error LNK2001: unresolved external symbol "private: static class TestInstance* TestInstance::testInstance" (?testInstance@TestInstance@@0PAV1@A)

fatal error LNK1120: 1 unresolved externals

Any idea?

Thanks in advance.

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As a rule, try to avoid global and static member variables, because the order in which they are initialized is not well defined. Because of that, among other things, the singleton pattern (which is what you are trying to implement) is widely frowned upon, especially in C++. Don't use it unless you have exhausted all other options, or you really know what you are doing. –  irobot May 16 '12 at 10:40

2 Answers 2

up vote 5 down vote accepted

Yes, initialize the static member in an implementation file.

//TestInstance.cpp
TestInstance* TestInstance::testInstance = NULL; 
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you are right. Why is that, could you please explain? –  olidev May 16 '12 at 9:52
1  
@olidev: Because static member variables are not part of the individual objects, you must explicitly define the static member. And this can be done as Luchian showed. –  besworland May 16 '12 at 10:04

You need to initialize static member variables in an implementation file. Why is it necessary.

Since static member variables are not part of the individual objects (or instances) of that class, They have same value of all the objects of that class. Thats why static member objects are not given memory in individual objects of that class. So, how the space will be allocated for them. Compiler doesnt know. So, you will have to define them in an implementation file, so that compiler can allocate space for these members in that transalation unit.

For your class, if you will do sizeof(a), where a is an object of the class, you will see that size is being shown as one. Since there will be no space for testInstance in the object of the class. And size cant be zero, so it will be one.

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