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I have a question related to a previous question posted here Static field initialization order Suppose I have the following struct, with 2 static members x and y (templated types themselves)

#include <iostream>

using namespace std;

template <typename T>
struct Foo
    static T x;
    static T y;
         cout << "x = " << x << endl;
         cout << "y = " << y << endl;

template <typename T>
T Foo<T>::x = 1.1f;

template <typename T>
T Foo<T>::y = 2.0 * Foo<T>::x;

int main()
    Foo<double> foo;


x = 1.1 
y = 2.2

I initialize x and y above main(), and you can see that y depends on x, so it better be that x is initialized first.

My questions:

  1. At the point of initialization, the types of x and y are still unknown, so when are they really initialized? Are the static members actually initialized after the template instantiation Foo<double> foo; in main()?
  2. And if yes, the order of declarations of x and y seems not to matter, i.e. I can first declare y then x (both in the struct and in the static initialization) and still get the correct output, i.e. the compiler knows somehow that y is dependent on x. Is this a well defined behaviour (i.e. standard-compliant)? I use g++ 4.8 and clang++ on OS X.


share|improve this question
I deleted my answer, you probably require someone with more standardese knowledge, sorry! –  user657267 May 24 at 3:58
@user657267 no problem, I am extremely curious about an answer actually, as I cannot find a satisfactory one anywhere. –  vsoftco May 24 at 4:01

1 Answer 1

up vote 2 down vote accepted

This code is safe because Foo<double>::x has constant initialization, but Foo<double>::y has dynamic initialization.


Constant initialization is performed:

  • ...

  • if an object with static or thread storage duration is not initialized by a constructor call and if every full-expression that appears in its initializer is a constant expression.

Together, zero-initialization and constant initialization are called static initialization; all other initialization is dynamic initialization. Static initialization shall be performed before any dynamic initialization takes place.

On the other hand, if you had:

double tmp = 1.1;

template <typename T>
T Foo<T>::x = tmp;

template <typename T>
T Foo<T>::y = 2.0 * Foo<T>::x;

that code would not be "safe" - Foo<double>::y could end up being either 2.2 or 0.0 (assuming nothing else modifies tmp during dynamic initializations).

share|improve this answer
Ok, thanks much for clarifying this part, +1. However, how does the line template <typename T> T Foo<T>::x = 1.1f; really work? The type is not known at the declaration, is the static member initialized by a float by default, regardless of T? Or is it really initialized only after Foo<double> foo;? This is the part that puzzles me the most. –  vsoftco May 24 at 4:10
When the compiler sees Foo<double>, it instantiates the class only to determine the names and types of all the class's members. Then Foo<double> foo; uses a default constructor, so the function definition for Foo<double>::Foo() is instantiated. That definition uses members x and y, so the member definitions for Foo<double>::x and Foo<double>::y are instantiated. The compiler sets up permanent objects for them with initial value and/or code to do the initialization. The initialization actually happens when the program is executed. –  aschepler May 24 at 4:21
Ok, makes perfect sense now! Thanks! –  vsoftco May 24 at 4:23

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