noexcept specifier (since C++11)

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Specifies whether a function could throw exceptions.

Syntax

noexcept (1)
noexcept(expression) (2)
throw() (3) (deprecated in C++17)
(removed in C++20)
1) Same as noexcept(true)
2) If expression evaluates to true, the function is declared not to throw any exceptions. A ( following noexcept is always a part of this form (it can never start an initializer).
3) Same as noexcept(true) (see dynamic exception specification for its semantics before C++17)
expression - contextually converted constant expression of type bool

Explanation

The noexcept-specification is not a part of the function type (just like dynamic exception specification) and can only appear as a part of a lambda declarator or a top-level function declarator when declaring functions, variables, non-static data members of type function, pointer to function, reference to function, or pointer to member function, and also when declaring a parameter or a return type in one of those declarations that in turn happens to be a pointer or reference to function. It cannot appear in a typedef or type alias declaration.

void f() noexcept; // the function f() does not throw
void (*fp)() noexcept(false); // fp points to a function that may throw
void g(void pfa() noexcept);  // g takes a pointer to function that doesn't throw
// typedef int (*pf)() noexcept; // error
(until C++17)

The noexcept-specification is a part of the function type and may appear as part of any function declarator.

(since C++17)

Every function in C++ is either non-throwing or potentially throwing:

  • potentially-throwing functions are:
(until C++17)
  • functions declared with noexcept specifier whose expression evaluates to false
  • functions declared without noexcept specifier except for
  • a constructor for a base or member that the implicit definition of the constructor would call is potentially-throwing (see below)
  • a subexpression of such an initialization, such as a default argument expression, is potentially-throwing (see below)
  • a default member initializer (for default constructor only) is potentially-throwing (see below)
  • copy assignment operators, move assignment operators that are implicitly-declared or defaulted on their first declaration unless the invocation of any assignment operator in the implicit definition is potentially-throwing (see below)
  • comparison operators that are defaulted on their first declaration unless the invocation of any comparison operator in the implicit definition is potentially-throwing (see below)
(since C++20)
  • non-throwing functions are all others (those with noexcept specifier whose expression evaluates to true as well as destructors, defaulted special member functions, and deallocation functions)

Explicit instantiations may use the noexcept specifier, but it is not required. If used, the exception specification must be the same as for all other declarations. A diagnostic is required only if the exception specifications are not the same within a single translation unit.

Functions differing only in their exception specification cannot be overloaded (just like the return type, exception specification is part of function type, but not part of the function signature) (since C++17).

void f() noexcept;
void f(); // error: different exception specification
void g() noexcept(false);
void g(); // ok, both declarations for g are potentially-throwing

Pointers (including pointers to member function) to non-throwing functions can be assigned to or used to initialize (until C++17)are implicitly convertible to (since C++17) pointers to potentially-throwing functions, but not the other way around.

void ft(); // potentially-throwing
void (*fn)() noexcept = ft; // error

If a virtual function is non-throwing, all declarations, including the definition, of every overrider must be non-throwing as well, unless the overrider is defined as deleted:

struct B
{
    virtual void f() noexcept;
    virtual void g();
    virtual void h() noexcept = delete;
};
 
struct D: B
{
    void f();          // ill-formed: D::f is potentially-throwing, B::f is non-throwing
    void g() noexcept; // OK
    void h() = delete; // OK
};

Non-throwing functions are permitted to call potentially-throwing functions. Whenever an exception is thrown and the search for a handler encounters the outermost block of a non-throwing function, the function std::terminate is called:

extern void f(); // potentially-throwing
 
void g() noexcept
{
    f();      // valid, even if f throws
    throw 42; // valid, effectively a call to std::terminate
}

The exception specification of a function template specialization is not instantiated along with the function declaration; it is instantiated only when needed (as defined below).

The exception-specification of an implicitly-declared special member function is also evaluated only when needed (in particular, implicit declaration of a member function of a derived class does not require the exception-specification of a base member function to be instantiated).

When the noexcept-specification of a function template specialization is needed, but hasn't yet been instantiated, the dependent names are looked up and any templates used in the expression are instantiated as if for the declaration of the specialization.

A noexcept-specification of a function is considered to be needed in the following contexts:

  • in an expression, where the function is selected by overload resolution
  • the function is odr-used
  • the function would be odr-used but appears in an unevaluated operand
template<class T>
T f() noexcept(sizeof(T) < 4);
 
int main()
{
    decltype(f<void>()) *p; // f unevaluated, but noexcept-spec is needed
                            // error because instantiation of the noexcept specification 
                            // calculates sizeof(void)
}
  • the specification is needed to compare to another function declaration (e.g. on a virtual function overrider or on an explicit specialization of a function template)
  • in a function definition
  • the specification is needed because a defaulted special member function needs to check it in order to decide its own exception specification (this takes place only when the specification of the defaulted special member function is, itself, needed).
(since C++14)


Formal definition of potentially-throwing expression (used to determine the default exception specification of destructors, constructors, and assignment operators as described above):

An expression e is potentially-throwing if:

  • e is a function call to a function, pointer to function, or pointer to member function which is potentially-throwing, unless e is a core constant expression (until C++17)
  • e makes an implicit call to a potentially-throwing function (such as an overloaded operator, an allocation function in a new-expression, a constructor for a function argument, or a destructor if e is a full-expression)
  • e is a throw-expression
  • e is a dynamic_cast that casts a polymorphic reference type
  • e is a typeid expression applied to a dereferenced pointer to a polymorphic type
  • e has an immediate subexpression that is potentially-throwing
struct A
{
    A(int = (A(5), 0)) noexcept;
    A(const A&) noexcept;
    A(A&&) noexcept;
    ~A();
};
 
struct B
{
    B() throw();
    B(const B&) = default; // implicit exception specification is noexcept(true)
    B(B&&, int = (throw Y(), 0)) noexcept;
    ~B() noexcept(false);
};
 
int n = 7;
struct D : public A, public B
{
    int * p = new int[n];
    // D::D() potentially-throwing because of the new operator
    // D::D(const D&) non-throwing
    // D::D(D&&) potentially-throwing: the default argument for B’s constructor may throw
    // D::~D() potentially-throwing
 
    // note; if A::~A() were virtual, this program would be ill-formed because an overrider
    // of a non-throwing virtual cannot be potentially-throwing
};

Notes

One of the uses of the constant expression is (along with the noexcept operator) to define function templates that declare noexcept for some types but not others.

Note that a noexcept specification on a function is not a compile-time check; it is merely a method for a programmer to inform the compiler whether or not a function should throw exceptions. The compiler can use this information to enable certain optimizations on non-throwing functions as well as enable the noexcept operator, which can check at compile time if a particular expression is declared to throw any exceptions. For example, containers such as std::vector will move their elements if the elements' move constructor is noexcept, and copy otherwise (unless the copy constructor is not accessible, but a potentially throwing move constructor is, in which case the strong exception guarantee is waived).

Deprecates

noexcept is an improved version of throw(), which is deprecated in C++11. Unlike pre-C++17 throw(), noexcept will not call std::unexpected, may or may not unwind the stack, and will call std::terminate, which potentially allows the compiler to implement noexcept without the runtime overhead of throw(). As of C++17, throw() is redefined to be an exact equivalent of noexcept(true).

Feature-test macro Value Std Comment
__cpp_noexcept_function_type 201510L (C++17) Make exception specifications be part of the type system

Keywords

noexcept

Example

// whether foo is declared noexcept depends on if the expression
// T() will throw any exceptions
template<class T>
void foo() noexcept(noexcept(T())) {}
 
void bar() noexcept(true) {}
void baz() noexcept { throw 42; } // noexcept is the same as noexcept(true)
 
int main() 
{
    foo<int>(); // noexcept(noexcept(int())) => noexcept(true), so this is fine
 
    bar(); // fine
    baz(); // compiles, but at runtime this calls std::terminate
}

Defect reports

The following behavior-changing defect reports were applied retroactively to previously published C++ standards.

DR Applied to Behavior as published Correct behavior
CWG 1740 C++11 a ( following noexcept might start an initializer it can only be a part of
noexcept specification
CWG 2039 C++11 only the expression before conversion is required to be constant the conversion must also be
valid in a constant expression

See also

noexcept operator(C++11) determines if an expression throws any exceptions
Dynamic exception specification(until C++17) specifies what exceptions are thrown by a function (deprecated in C++11)
throw expression signals an error and transfers control to error handler
obtains an rvalue reference if the move constructor does not throw
(function template)