This is the initialization performed when a variable is constructed with no initializer.
T object ; | (1) | |
new T ;
| (2) |
Default initialization is performed in three situations:
The effects of default initialization are:
T
is a non-POD (until C++11) class type, the constructors are considered and subjected to overload resolution against the empty argument list. The constructor selected (which is one of the default constructors) is called to provide the initial value for the new object; T
is an array type, every element of the array is default-initialized; Only (possibly cv-qualified) non-POD class types (or arrays thereof) with automatic storage duration were considered to be default-initialized when no initializer is used. Scalars and POD types with dynamic storage duration were considered to be not initialized (since C++11, this situation was reclassified as a form of default initialization). | (until C++11) |
Prior to C++03 (which introduced value initialization), the expression | (until C++03) |
If | (until C++11) |
Use of an indeterminate value obtained by default-initializing a non-class variable of any type is undefined behavior (in particular, it may be a trap representation), except in the following cases:
int f(bool b) { int x; // OK: the value of x is indeterminate int y = x; // undefined behavior unsigned char c; // OK: the value of c is indeterminate unsigned char d = c; // OK: the value of d is indeterminate int e = d; // undefined behavior return b ? d : 0; // undefined behavior if b is true } | (since C++14) |
Default initialization of non-class variables with automatic and dynamic storage duration produces objects with indeterminate values (static and thread-local objects get zero initialized).
If T
is a const-qualified type, it must be a class type with a user-provided default constructor.
Reference cannot be default-initialized.
#include <string> struct T1 { int mem; }; struct T2 { int mem; T2() { } // "mem" is not in the initializer list }; int n; // static non-class, a two-phase initialization is done: // 1) zero initialization initializes n to zero // 2) default initialization does nothing, leaving n being zero int main() { int n; // non-class, the value is indeterminate std::string s; // class, calls default ctor, the value is "" (empty string) std::string a[2]; // array, default-initializes the elements, the value is {"", ""} // int& r; // error: a reference // const int n; // error: a const non-class // const T1 t1; // error: const class with implicit default ctor T1 t1; // class, calls implicit default ctor const T2 t2; // const class, calls the user-provided default ctor // t2.mem is default-initialized (to indeterminate value) }
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