static_cast
conversion
Converts between types using a combination of implicit and user-defined conversions.
Syntax
static_cast< target-type >( expression )
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Returns a value of type target-type.
Explanation
Only the following conversions can be done with static_cast, except when such conversions would cast away constness or volatility.
D
and expression is an lvalue of its non-virtual base B
, or target-type is a pointer to some complete class D
and expression is a prvalue pointer to its non-virtual base B
, static_cast performs a downcast. (This downcast is ill-formed if B
is ambiguous, inaccessible, or virtual base (or a base of a virtual base) of D
.)
Such a downcast makes no runtime checks to ensure that the object's runtime type is actually D
, and may only be used safely if this precondition is guaranteed by other means, such as when implementing static polymorphism. Safe downcast may be done with dynamic_cast
.
If the object expression refers or points to is actually a base class subobject of an object of type D
, the result refers to the enclosing object of type D
. Otherwise, the behavior is undefined:
struct B {}; struct D : B { B b; }; D d; B& br1 = d; B& br2 = d.b; static_cast<D&>(br1); // OK: lvalue denoting the original d object static_cast<D&>(br2); // UB: the b subobject is not a base class subobject
2) If target-type is an rvalue reference type, static_cast converts the value of glvalue, class prvalue, or array prvalue (until C++17)any lvalue (since C++17) expression to xvalue referring to the same object as the expression, or to its base sub-object (depending on target-type). If the target type is an inaccessible or ambiguous base of the type of the expression, the program is ill-formed. If the expression is a bit-field lvalue, it is first converted to prvalue of the underlying type. This type of static_cast is used to implement move semantics in std::move.
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(since C++11) |
>(
expression)
returns the imaginary variable Temp initialized as if by target-type Temp(expression);
, which may involve implicit conversions, a call to the constructor of target-type or a call to a user-defined conversion operator. For non-reference target-type, the result object of the static_cast prvalue expression is what's direct-initialized. (since C++17)
7) Scoped enumeration type can be converted to an integer or floating-point type.
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(since C++11) |
- If the underlying type is not fixed, the behavior is undefined if the value of expression is out of range (the range is all values possible for the smallest bit-field large enough to hold all enumerators of the target enumeration).
- If the underlying type is fixed, the result is the same as converting the original value first to the underlying type of the enumeration and then to the enumeration type.
- The result is the same as converting the original value first to the underlying type of the enumeration, and then to the enumeration type.
9) A prvalue of floating-point type can be explicitly converted to any other floating-point type.
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(since C++23) |
D
can be upcast to a pointer to member of its unambiguous, accessible base class B
. This static_cast makes no checks to ensure the member actually exists in the runtime type of the pointed-to object.As with all cast expressions, the result is:
- an lvalue if target-type is an lvalue reference type or an rvalue reference to function type (since C++11);
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(since C++11) |
- a prvalue otherwise.
Two objects a and b are pointer-interconvertible if:
- they are the same object, or
- one is a union object and the other is a non-static data member of that object, or
- one is a standard-layout class object and the other is the first non-static data member of that object or any base class subobject of that object, or
- there exists an object c such that a and c are pointer-interconvertible, and c and b are pointer-interconvertible.
union U { int a; double b; } u; void* x = &u; // x's value is "pointer to u" double* y = static_cast<double*>(x); // y's value is "pointer to u.b" char* z = static_cast<char*>(x); // z's value is "pointer to u"
Notes
static_cast may also be used to disambiguate function overloads by performing a function-to-pointer conversion to specific type, as in
std::for_each(files.begin(), files.end(), static_cast<std::ostream&(*)(std::ostream&)>(std::flush));
Keywords
Example
#include <iostream> #include <vector> struct B { int m = 42; const char* hello() const { return "Hello world, this is B!\n"; } }; struct D : B { const char* hello() const { return "Hello world, this is D!\n"; } }; enum class E { ONE = 1, TWO, THREE }; enum EU { ONE = 1, TWO, THREE }; int main() { // 1. static downcast D d; B& br = d; // upcast via implicit conversion std::cout << "1) " << br.hello(); D& another_d = static_cast<D&>(br); // downcast std::cout << "1) " << another_d.hello(); // 2. lvalue to xvalue std::vector<int> v0{1,2,3}; std::vector<int> v2 = static_cast<std::vector<int>&&>(v0); std::cout << "2) after move, v0.size() = " << v0.size() << '\n'; // 3. initializing conversion int n = static_cast<int>(3.14); std::cout << "3) n = " << n << '\n'; std::vector<int> v = static_cast<std::vector<int>>(10); std::cout << "3) v.size() = " << v.size() << '\n'; // 4. discarded-value expression static_cast<void>(v2.size()); // 5. inverse of implicit conversion void* nv = &n; int* ni = static_cast<int*>(nv); std::cout << "5) *ni = " << *ni << '\n'; // 6. array-to-pointer followed by upcast D a[10]; [[maybe_unused]] B* dp = static_cast<B*>(a); // 7. scoped enum to int E e = E::TWO; int two = static_cast<int>(e); std::cout << "7) " << two << '\n'; // 8. int to enum, enum to another enum E e2 = static_cast<E>(two); [[maybe_unused]] EU eu = static_cast<EU>(e2); // 9. pointer to member upcast int D::*pm = &D::m; std::cout << "9) " << br.*static_cast<int B::*>(pm) << '\n'; // 10. void* to any type void* voidp = &e; [[maybe_unused]] std::vector<int>* p = static_cast<std::vector<int>*>(voidp); }
Output:
1) Hello world, this is B! 1) Hello world, this is D! 2) after move, v0.size() = 0 3) n = 3 3) v.size() = 10 5) *ni = 3 7) 2 9) 42
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 137 | C++98 | the constness and volatility of void pointers could be casted away |
cv-qualifications cannot be casted away in such cases |
CWG 439 | C++98 | when converting a 'pointer to object' to 'pointer to void' then back to itself, it could only preserve its value if the result type has the same cv-qualification |
cv-qualification may be different |
CWG 1094 | C++98 | the conversion from floating-point values to enumeration values was unspecified |
specified |
CWG 1320 | C++11 | the conversion from scoped enumeration values to bool was unspecified |
specified |
CWG 1447 | C++11 | the conversion from bit-fields to rvalue references was unspecified (cannot bind references to bit-fields) |
specified |
CWG 1766 | C++98 | the conversion from integral or enumeration values to enumeration values yielded unspecified result if expression is out of range |
the behavior is undefined in this case |
CWG 1832 | C++98 | the conversion from integral or enumeration values to enumeration values allowed target-type to be incomplete |
not allowed |
CWG 2224 | C++98 | the conversion from a member of base class type to its complete object of derived class type was valid |
the behavior is undefined in this case |
CWG 2254 | C++11 | a standard-layout class object with no data members was pointer-interconvertible to its first base class |
it is pointer-interconvertible to any of its base classes |
CWG 2284 | C++11 | a non-standard-layout union object and a non-static data member of that object were not pointer-interconvertible |
they are |
CWG 2310 | C++98 | for base-to-derived pointer conversions and derived-to-base pointer-to-member conversions, the derived class type could be incomplete |
must be complete |
CWG 2338 | C++11 | the conversion to enumeration types with fixed underlying type resulted in undefined behavior if expression is out of range |
convert to the underlying type first (no undefined behavior) |
CWG 2499 | C++11 | a standard-layout class might have a non-pointer-interconvertible base class, even though all base subobjects have the same address |
it does not have |