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What are the proper uses of:

  • static_cast
  • dynamic_cast
  • const_cast
  • reinterpret_cast
  • C-style cast (type)value
  • Function-style cast type(value)

How does one decide which to use in which specific cases?

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up vote 1514 down vote accepted

static_cast is the first cast you should attempt to use. It does things like implicit conversions between types (such as int to float, or pointer to void*), and it can also call explicit conversion functions (or implicit ones). In many cases, explicitly stating static_cast isn't necessary, but it's important to note that the T(something) syntax is equivalent to (T)something and should be avoided (more on that later). A T(something, something_else) is safe, however, and guaranteed to call the constructor.

static_cast can also cast through inheritance hierarchies. It is unnecessary when casting upwards (towards a base class), but when casting downwards it can be used as long as it doesn't cast through virtual inheritance. It does not do checking, however, and it is undefined behavior to static_cast down a hierarchy to a type that isn't actually the type of the object.

const_cast can be used to remove or add const to a variable; no other C++ cast is capable of removing it (not even reinterpret_cast). It is important to note that modifying a formerly const value is only undefined if the original variable is const; if you use it to take the const off a reference to something that wasn't declared with const, it is safe. This can be useful when overloading member functions based on const, for instance. It can also be used to add const to an object, such as to call a member function overload.

const_cast also works similarly on volatile, though that's less common.

dynamic_cast is almost exclusively used for handling polymorphism. You can cast a pointer or reference to any polymorphic type to any other class type (a polymorphic type has at least one virtual function, declared or inherited). You can use it for more than just casting downwards -- you can cast sideways or even up another chain. The dynamic_cast will seek out the desired object and return it if possible. If it can't, it will return nullptr in the case of a pointer, or throw std::bad_cast in the case of a reference.

dynamic_cast has some limitations, though. It doesn't work if there are multiple objects of the same type in the inheritance hierarchy (the so-called 'dreaded diamond') and you aren't using virtual inheritance. It also can only go through public inheritance - it will always fail to travel through protected or private inheritance. This is rarely an issue, however, as such forms of inheritance are rare.

reinterpret_cast is the most dangerous cast, and should be used very sparingly. It turns one type directly into another - such as casting the value from one pointer to another, or storing a pointer in an int, or all sorts of other nasty things. Largely, the only guarantee you get with reinterpret_cast is that normally if you cast the result back to the original type, you will get the exact same value (but not if the intermediate type is smaller than the original type). There are a number of conversions that reinterpret_cast cannot do, too. It's used primarily for particularly weird conversions and bit manipulations, like turning a raw data stream into actual data, or storing data in the low bits of an aligned pointer.

C casts are casts using (type)object or type(object). A C-style cast is defined as the first of the following which succeeds:

  • const_cast
  • static_cast (though ignoring access restrictions)
  • static_cast (see above), then const_cast
  • reinterpret_cast
  • reinterpret_cast, then const_cast

It can therefore be used as a replacement for other casts in some instances, but can be extremely dangerous because of the ability to devolve into a reinterpret_cast, and the latter should be preferred when explicit casting is needed, unless you are sure static_cast will succeed or reinterpret_cast will fail. Even then, consider the longer, more explicit option.

C-style casts also ignore access control when performing a static_cast, which means that they have the ability to perform an operation that no other cast can. This is mostly a kludge, though, and in my mind is just another reason to avoid C-style casts.

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I would recommend as first option dynamic_cast<> which, of course only works as described above. Whenever you can do dynamic_cast<> it will check that the type is really what you believe. – David Rodríguez - dribeas Dec 1 '08 at 21:02
dynamic_cast is only for polymorphic types. you only need to use it when you're casting to a derived class. static_cast is certainly the first option unless you specifically need dynamic_cast's functinoality. It's not some miraculous silver-bullet "type-checking cast" in general. – jalf Dec 1 '08 at 21:20
The section on reinterpret_cast shows an aliasing violation and therefore undefined behavior. If you want that kind of type conversion memcpy is a better way to do it. – bames53 Mar 3 '13 at 17:02
Great answer! One quick remark: static_cast might be necessary to cast up the hierarchy in case you have a Derived*& to cast into Base*&, since double pointers/references don't automagically cast up the hierarchy. I came across such (frankly, not common) situation two minutes ago. ;-) – bartgol Apr 8 '13 at 15:16
I think an important detail missing above is that dynamic_cast has a run-time performance penalty compared to static or reinterpret_cast. This is important, e.g. in real-time software. – jfritz42 Jul 30 '15 at 0:55

Use dynamic_cast for converting pointers/references within an inheritance hierarchy.

Use static_cast for ordinary type conversions.

Use reinterpret_cast for low-level reinterpreting of bit patterns. Use with extreme caution.

Use const_cast for casting away const/volatile. Avoid this unless you are stuck using a const-incorrect API.

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const correctness is one of the C++ programmer's best tools. It keeps you from making stupid errors. – coppro Dec 1 '08 at 20:27

(A lot of theoretical and conceptual explanation has been given above)

Below are some of the practical examples when I used static_cast, dynamic_cast, const_cast, reinterpret_cast.

(Also referes this to understand the explaination :

static_cast :

OnEventData(void* pData)


  //  pData is a void* pData, 

  //  EventData is a structure e.g. 
  //  typedef struct _EventData {
  //  std::string id;
  //  std:: string remote_id;
  //  } EventData;

  // On Some Situation a void pointer *pData
  // has been static_casted as 
  // EventData* pointer 

  EventData *evtdata = static_cast<EventData*>(pData);

dynamic_cast :

void DebugLog::OnMessage(Message *msg)
    static DebugMsgData *debug;
    static XYZMsgData *xyz;

    if(debug = dynamic_cast<DebugMsgData*>(msg->pdata)){
        // debug message
    else if(xyz = dynamic_cast<XYZMsgData*>(msg->pdata)){
        // xyz message
    else/* if( ... )*/{
        // ...

const_cast :

// *Passwd declared as a const

const unsigned char *Passwd

// on some situation it require to remove its constness

const_cast<unsigned char*>(Passwd)

reinterpret_cast :

typedef unsigned short uint16;

// Read Bytes returns that 2 bytes got read. 

bool ByteBuffer::ReadUInt16(uint16& val) {
  return ReadBytes(reinterpret_cast<char*>(&val), 2);
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The theory of some of the other answers are good, but still confusing, seeing these examples after reading the other answers really makes them all make sense. That is without the examples, I was still unsure, but with them, I am now sure about what the other answers mean. – Solx Apr 29 '14 at 14:41

Does this answer your question?

I have never used reinterpret_cast, and wonder whether running into a case that needs it isn't a smell of bad design. In the code base I work on dynamic_cast is used a lot. The difference with static_cast is that a dynamic_cast does runtime checking which may (safer) or may not (more overhead) be what you want (see msdn).

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I have used reintrepret_cast for one purpose -- getting the bits out of a double (same size as long long on my platform). – Joshua Nov 14 '09 at 22:33
"this" doesn't answer the question, no. – PreferenceBean Feb 2 '13 at 5:02
reinterpret_cast is needed e.g. for working with COM objects. CoCreateInstance() has output parameter of type void** (the last parameter), in which you will pass your pointer declared as e.g. "INetFwPolicy2* pNetFwPolicy2". To do that, you need to write something like reinterpret_cast<void**>(&pNetFwPolicy2) . – Serge Rogatch May 31 '15 at 13:44

In addition to the other answers so far, here is unobvious example where static_cast is not sufficient so that reinterpret_cast is needed. Suppose there is a function which in an output parameter returns pointers to objects of different classes (which do not share a common base class). A real example of such function is CoCreateInstance() (see the last parameter, which is in fact void**). Suppose you request particular class of object from this function, so you know in advance the type for the pointer (which you often do for COM objects). In this case you cannot cast pointer to your pointer into void** with static_cast: you need reinterpret_cast(&yourPointer). In code:

#include <windows.h>
#include <netfw.h>
INetFwPolicy2* pNetFwPolicy2 = nullptr;
HRESULT hr = CoCreateInstance(__uuidof(NetFwPolicy2), nullptr,
    CLSCTX_INPROC_SERVER, __uuidof(INetFwPolicy2),
    //static_cast<void**>(&pNetFwPolicy2) would give a compile error
    reinterpret_cast<void**>(&pNetFwPolicy2) );

However, static_cast works for simple pointers (not pointers to pointers), so the above code can be rewritten to avoid reinterpret_cast (at a price of an extra variable) in the following way:

#include <windows.h>
#include <netfw.h>
INetFwPolicy2* pNetFwPolicy2 = nullptr;
void* tmp = nullptr;
HRESULT hr = CoCreateInstance(__uuidof(NetFwPolicy2), nullptr,
    CLSCTX_INPROC_SERVER, __uuidof(INetFwPolicy2),
    &tmp );
pNetFwPolicy2 = static_cast<INetFwPolicy2*>(tmp);
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protected by πάντα ῥεῖ Oct 8 '14 at 16:36

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