다음을 통해 공유


static_cast Operator

Converts expression to the type of type-id based solely on the types present in the expression.

static_cast <type-id> ( expression ) 

Remarks

No run-time type check is made to help ensure the safety of the conversion.

The static_cast operator can be used for operations such as converting a pointer to a base class to a pointer to a derived class. Such conversions are not always safe.

In general you use static_cast when you want to convert numeric data types such as enums to ints or ints to floats, and you are certain of the data types involved in the conversion. static_cast conversions are not as safe as dynamic_cast conversions, because static_cast does no run-time type check, while dynamic_cast does. A dynamic_cast to an ambiguous pointer will fail, while a static_cast returns as if nothing were wrong; this can be dangerous. Although dynamic_cast conversions are safer, dynamic_cast only works on pointers or references, and the run-time type check is an overhead. See dynamic_cast for more details.

For example:

// static_cast_Operator.cpp
// compile with: /LD
class B {};

class D : public B {};

void f(B* pb, D* pd) {
   D* pd2 = static_cast<D*>(pb);   // not safe, pb may
                                   // point to just B

   B* pb2 = static_cast<B*>(pd);   // safe conversion
}

In contrast to dynamic_cast, no run-time check is made on the static_cast conversion of pb. The object pointed to by pb may not be an object of type D, in which case the use of *pd2 could be disastrous. For instance, calling a function that is a member of the D class, but not the B class, could result in an access violation.

The dynamic_cast and static_cast operators move a pointer throughout a class hierarchy. However, static_cast relies exclusively on the information provided in the cast statement and can therefore be unsafe. For example:

// static_cast_Operator_2.cpp
// compile with: /LD /GR
class B {
public:
   virtual void Test(){}
};
class D : public B {};

void f(B* pb) {
   D* pd1 = dynamic_cast<D*>(pb);
   D* pd2 = static_cast<D*>(pb);
}

If pb really points to an object of type D, then pd1 and pd2 will get the same value. They will also get the same value if pb == 0.

If pb points to an object of type B and not to the complete D class, then dynamic_cast will know enough to return zero. However, static_cast relies on the programmer's assertion that pb points to an object of type D and simply returns a pointer to that supposed D object.

Consequently, static_cast can do the inverse of implicit conversions, in which case the results are undefined. It is left to the programmer to verify that the results of a static_cast conversion are safe.

This behavior also applies to types other than class types. For instance, static_cast can be used to convert from an int to a char. However, the resulting char may not have enough bits to hold the entire int value. Again, it is left to the programmer to verify that the results of a static_cast conversion are safe.

The static_cast operator can also be used to perform any implicit conversion, including standard conversions and user-defined conversions. For example:

// static_cast_Operator_3.cpp
// compile with: /LD /GR
typedef unsigned char BYTE;

void f() {
   char ch;
   int i = 65;
   float f = 2.5;
   double dbl;

   ch = static_cast<char>(i);   // int to char
   dbl = static_cast<double>(f);   // float to double
   i = static_cast<BYTE>(ch);
}

The static_cast operator can explicitly convert an integral value to an enumeration type. If the value of the integral type does not fall within the range of enumeration values, the resulting enumeration value is undefined.

The static_cast operator converts a null pointer value to the null pointer value of the destination type.

Any expression can be explicitly converted to type void by the static_cast operator. The destination void type can optionally include the const, volatile, or __unaligned attribute.

The static_cast operator cannot cast away the const, volatile, or __unaligned attributes. See const_cast Operator for information on removing these attributes.

Due to the danger of performing unchecked casts on top of a relocating garbage collector, the use of static_cast should only be in performance-critical code when you are certain it will work correctly. If you must use static_cast in release mode, substitute it with safe_cast in your debug builds to ensure success.

See Also

Concepts

Casting Operators

C++ Keywords