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code:

  int main()
      {
        extern int a;
        int b;
        cout<<sizeof(a)<<endl;
        cout<<sizeof(b)<<endl;
      }

output:

4
4

If we just declare a variable, it shouldn't allocate memory for that variable(?). So how would the compiler not giving an error for

 cout<<sizeof(a)<<endl;

or why the program is not getting crashed?

share|improve this question
    
The type specifies the size of the object. When you do int a; it tells the compiler, "set aside 4 bytes of information for an incoming integer". – 0x499602D2 Jun 23 '13 at 19:26
    
Also, sizeof doesn't evaluate its operand, so the behavior is defined. – 0x499602D2 Jun 23 '13 at 19:27
    
sizeof works at compile time, not run time. – Ed S. Jun 23 '13 at 19:27
up vote 4 down vote accepted

The sizeof does not need to evaluate the expression that you pass to it, only its type. External definition extern int a is sufficient to figure out the type, so sizeof succeeds.

Moreover, since the expression inside sizeof does not get evaluated, the program links without an error.

share|improve this answer

sizeof is resolved at compile time. All the compiler needs is a declaration with a complete type – it does not need to allocate storage for the object.

Since the sizeof expression is resolved at compile time, there’s consequently also no way check whether the object is actually defined in another compilation unit. If we wanted this check we couldn’t evaluate sizeof at compile time (we’d have to defer it to link time), and there’s simply no good reason for this delay.

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The compiler knows that int has a size of 4, and there's nothing that could ever give an int another size after compilation. Because of that, sizeof(a) becomes sizeof(int) which becomes 4.

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sizeof() is not a function, it is a language keyword, that resolves to a compile time constant.

So - you are not accessing or using "a", rather you are asking the compiler a question about one of the pieces of information you provided it about "a".

cout << sizeof( a ) << endl:

is actually

cout << sizeof decltype(a) << endl;

is actually

cout << sizeof int << endl;

is actually

cout << 4 << endl;

You can verify this by looking at the assembly output. Under Linux, with GCC or Clang,

c++ -Wall -o test.S -S test.cpp

will generate the assembly file for you to inspect.

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Because it's getting the size of the type of the variable and not of the actual memory used (that should be the same).

int main () {
    int a = 2;

    std::cout << sizeof ((char) a) << std::endl; // Outputs 1

    return 0;
}
share|improve this answer

With extern int a you are just telling the compiler that there is (supposed to be) a variable named a of type int somewhere. However the only thing you do is to apply sizeof to it. Now the compiler doesn't need to access a to know its size: Since you told the compiler that a is of type int, it already knows its size: All ints are of the same size.

As of why the compiler does not give an error: A missing definition for an extern entity only gives an error if that entity is actually used. Since sizeof doesn't use it, but only tells you the size, you don't get a compiler error.

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