There are two broad classes of named non-local variables: those with static storage duration (6.8.6.2 [basic.stc.static]) and those with thread storage duration (6.8.6.3 [basic.stc.thread]). Non-local variables Variables with static storage duration are initialized as a consequence of program initiation. Non-local variables Variables with thread storage duration are initialized as a consequence of thread execution. Within each of these phases of initiation, initialization occurs as follows.
Variables with static storage duration (6.8.6.2 [basic.stc.static]) or thread storage duration (6.8.6.3 [basic.stc.thread]) shall be zero-initialized (9.5 [dcl.init]) before any other initialization takes place. A constant initializer for an object o is an expression that is a constant expression, except that it may also invoke constexpr constructors for o and its subobjects even if those objects are of non-literal class types [Note: such a class may have a non-trivial destructor —end note]. Constant initialization is performed:
if each full-expression (including implicit conversions) that appears in the initializer of a reference with static or thread storage duration is a constant expression (7.7 [expr.const]) and the reference is bound to a glvalue designating an object with static storage duration, to a temporary object (see 6.8.7 [class.temporary]) or subobject thereof, or to a function;
if an object with static or thread storage duration is initialized by a constructor call, and if the initialization full-expression is a constant initializer for the object;
if an object with static or thread storage duration is not initialized by a constructor call and if either the object is value-initialized or every full-expression that appears in its initializer is a constant expression.
If constant initialization is not performed, a variable with static storage duration (6.8.6.2 [basic.stc.static]) or thread storage duration (6.8.6.3 [basic.stc.thread]) is zero-initialized (9.5 [dcl.init]). 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. Dynamic initialization of a non-local variable with static storage duration is unordered if the variable is an implicitly or explicitly instantiated specialization, and otherwise is ordered [Note: an explicitly specialized static data member or variable template specialization has ordered initialization. —end note]. Variables with ordered initialization defined within a single translation unit shall be initialized in the order of their definitions in the translation unit. If a program starts a thread (32.4 [thread.threads]), the subsequent initialization of a variable is unsequenced with respect to the initialization of a variable defined in a different translation unit. Otherwise, the initialization of a variable is indeterminately sequenced with respect to the initialization of a variable defined in a different translation unit. If a program starts a thread, the subsequent unordered initialization of a variable is unsequenced with respect to every other dynamic initialization. Otherwise, the unordered initialization of a variable is indeterminately sequenced with respect to every other dynamic initialization. [Note: This definition permits initialization of a sequence of ordered variables concurrently with another sequence. —end note] [Note: The dynamic initialization of non-local variables is described in 3.6.3 [basic.start.dynamic]; that of local static variables is described in 8.10 [stmt.dcl]. —end note]
An implementation is permitted to perform the initialization of a non-local variable with static or thread storage duration as a static initialization even if such initialization is not required to be done statically, provided that
the dynamic version of the initialization does not change the value of any other object of namespace scope static or thread storage duration prior to its initialization, and
the static version of the initialization produces the same value in the initialized variable as would be produced by the dynamic initialization if all variables not required to be initialized statically were initialized dynamically.
[Note: As a consequence, if the initialization of an object obj1 refers to an object obj2 of namespace scope potentially requiring dynamic initialization and defined later in the same translation unit, it is unspecified whether the value of obj2 used will be the value of the fully initialized obj2 (because obj2 was statically initialized) or will be the value of obj2 merely zero-initialized. For example,
inline double fd() { return 1.0; }
extern double d1;
double d2 = d1; // unspecified:
// may be statically initialized to 0.0 or
// dynamically initialized to 0.0 if d1 is
// dynamically initialized, or 1.0 otherwise
double d1 = fd(); // may be initialized statically or dynamically to 1.0
—end note]
It is implementation-defined whether the dynamic initialization of a non-local variable with static storage duration is done before the first statement of main. If the initialization is deferred to some point in time after the first statement of main, it shall occur before the first odr-use (6.3 [basic.def.odr]) of any function or variable defined in the same translation unit as the variable to be initialized. [Footnote: A non-local variable with static storage duration having initialization with side-effects must be initialized even if it is not odr-used (6.3 [basic.def.odr], 6.8.6.2 [basic.stc.static]). —end footnote] [Example:
// - File 1 -
#include "a.h"
#include "b.h"
B b;
A::A(){
b.Use();
}
// - File 2 -
#include "a.h"
A a;
// - File 3 -
#include "a.h"
#include "b.h"
extern A a;
extern B b;
int main() {
a.Use();
b.Use();
}
It is implementation-defined whether either a or b is initialized before main is entered or whether the initializations are delayed until a is first odr-used in main. In particular, if a is initialized before main is entered, it is not guaranteed that b will be initialized before it is odr-used by the initialization of a, that is, before A::A is called. If, however, a is initialized at some point after the first statement of main, b will be initialized prior to its use in A::A. —end example]
It is implementation-defined whether the dynamic initialization of a non-local variable with static or thread storage duration is done before the first statement of the initial function of the thread. If the initialization is deferred to some point in time after the first statement of the initial function of the thread, it shall occur before the first odr-use (6.3 [basic.def.odr]) of any variable with thread storage duration defined in the same translation unit as the variable to be initialized.
If the initialization of a non-local variable with static or thread storage duration exits via an exception, std::terminate is called (14.6.2 [except.terminate]).
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