reinterpret_cast seem to work fine for casting
void* to another pointer type. Is there a good reason to favor one over the other?
82@anon Apparently you've never worked with POSIX threads before then.– user470379Dec 23, 2010 at 20:00
9@user470379 Wow...that's the very reason I landed on this question at SO! Excellent observation :-).– Ogre Psalm33Jun 21, 2011 at 14:13
static_cast: it is the narrowest cast that exactly describes what conversion is made here.
There’s a misconception that using
reinterpret_cast would be a better match because it means “completely ignore type safety and just cast from A to B”.
However, this doesn’t actually describe the effect of a
reinterpret_cast has a number of meanings, for all of which holds that “the mapping performed by
reinterpret_cast is implementation-defined.” [18.104.22.168]
But in the particular case of casting from
T* the mapping is completely well-defined by the standard; namely, to assign a type to a typeless pointer without changing its address.
This is a reason to prefer
Additionally, and arguably more important, is the fact that every use of
reinterpret_cast is downright dangerous because it converts anything to anything else really (for pointers), while
static_cast is much more restrictive, thus providing a better level of protection. This has already saved me from bugs where I accidentally tried to coerce one pointer type into another.
static_cast is more appropriate for converting a
void* to a pointer of some other type.
static_cast is the cast of choice when there is a natural, intuitive conversion between two types that isn't necessarily guaranteed to work at runtime. For example, you can use
static_cast to convert base class pointers to derived class pointers, which is a conversion that makes sense in some cases but can't be verified until runtime. Similarly, you can use
static_cast to convert from an
int to a
char, which is well-defined but may cause a loss of precision when executed.
reinterpret_cast, on the other hand, is a casting operator designed to do conversions that are fundamentally not safe or not portable. For example, you can use
reinterpret_cast to convert from a
void * to an
int, which will work correctly if your system happens to have
sizeof (void*) ≤
sizeof (int). You can also use
reinterpret_cast to convert a
float* to an
int* or vice-versa, which is platform-specific because the particular representations of
ints aren't guaranteed to have anything in common with one another.
In short, if you ever find yourself doing a conversion in which the cast is logically meaningful but might not necessarily succeed at runtime, avoid
static_cast is a good choice if you have some advance knowledge that the cast is going to work at runtime, and communicates to the compiler "I know that this might not work, but at least it makes sense and I have a reason to believe it will correctly do the right thing at runtime." The compiler can then check that the cast is between related types, reporting a compile-time error if this isn't the case. Using
reinterpret_cast to do this with pointer conversions completely bypasses the compile-time safety check.
There are a few circumstances where you might want to use a
dynamic_cast instead of a
static_cast, but these mostly involve casts in a class hierarchy and (only rarely) directly concern
As for which one is preferred by the spec, neither is overly mentioned as "the right one to use" (or at least, I don't remember one of them being mentioned this way.) However, I think the spec wants you to use
reinterpret_cast. For example, when using a C-style cast, as in
A* ptr = (A*) myVoidPointer;
The order of casting operators that's tried always tries to use a
static_cast before a
reinterpret_cast, which is the behavior you want since
reinterpret_cast isn't guaranteed to be portable.
2To clarify: what the author means here by "
static_cast... isn't necessarily guaranteed to work at runtime" is, "Your program may crash later on." If you
static_castfrom a base type to a derived type, it will "work" at runtime (i.e. you will not get an exception or a
NULLpointer), but the result may be pointing to the wrong memory location if multiple inheritance is involved. (See this answer for more details.) Only
dynamic_castwill do a runtime check (using RTTI) and fail gracefully if the cast is invalid.– andrewtcAug 9, 2014 at 22:51
This is a tough question. On the one hand, Konrad makes an excellent point about the spec definition for reinterpret_cast, although in practice it probably does the same thing. On the other hand, if you're casting between pointer types (as is fairly common when indexing in memory via a char*, for example), static_cast will generate a compiler error and you'll be forced to use reinterpret_cast anyway.
In practice I use reinterpret_cast because it's more descriptive of the intent of the cast operation. You could certainly make a case for a different operator to designate pointer reinterprets only (which guaranteed the same address returned), but there isn't one in the standard.
8"different operator to designate pointer reinterprets only (which guaranteed the same address returned)" Hug? That operator is
reinterpret_cast! Dec 19, 2011 at 6:18
4@curiousguy Not true according to the standard. reinterpret_cast does NOT guarantee that the same address is used. Only that if you reinterpret_cast from one type to another and then back again, you will get back the same address you started with. Mar 1, 2019 at 20:58
You likely obtained that
void* with implicit conversion, so you should use
static_cast because it is closest to the implicit conversion.
Casting to and from
static_cast and using
reinterpret_cast is identical. See the answer at the link. But usually
static_cast is preferred because it is more narrow and in general (but not in this specific case) more safe conversion.
There's confusion about implementation defined mappings. That is about mappings. The implementation can internally map however it likes, but it must make other guarantees otherwise. A result of reinterpret_cast can't simply arbitrarily point to what the implementation would otherwise consider some other object's location -- though the outward representation may differ. (Though converting to integer and back will have original value, in specific circumstances, outlined). Fundamentally, it's irrelevant whether the implementation's reinterpreted cast returns the same "memory location"; whatever it returns is mapped to the same "value". (Incidentally, The core guidelines explicitly answer a case where using reinterpret_cast (char*/unsigned char*/std::byte*) to view raw object representation is defined behavior.)
Relevant standards rules the void* cast:
A prvalue of type “pointer to cv1 void” can be converted to a prvalue of type “pointer to cv2 T”, where T is an object type and cv2 is the same cv-qualification as, or greater cv-qualification than, cv1. If the original pointer value represents the address A of a byte in memory and A does not satisfy the alignment requirement of T, then the resulting pointer value is unspecified. Otherwise, if the original pointer value points to an object a, and there is an object b of type T (ignoring cv-qualification) that is pointer-interconvertible (6.8.3) with a, the result is a pointer to b. Otherwise, the pointer value is unchanged by the conversion. [Example 3 :
T* p1 = new T; const T* p2 = static_cast<const T*>(static_cast<void*>(p1)); bool b = p1 == p2; // b will have the value true.—end example]
An object pointer can be explicitly converted to an object pointer of a different type.68 When a prvalue v of object pointer type is converted to the object pointer type “pointer to cv T”, the result is
static_cast<cv T*>(static_cast<cv void*>(v))
The key is the last sentence. For the purposes of this question's void* cast, (and assuming object types meet alignment requirements, cv qualifications, and are safefly-derived pointers):
reinterpret_cast T* from void*
is equivalent to
static_cast T* from void*.
But you should definitely, definitely absolutely definitely use
static_cast for no other reason that the scary folklore about reinterpret_cast and convolutedness of the ISO standard may lead to get you needlessly harangued by peers.😃
static_cast for this. Only in the rarest of rare cases when there is no other way use
I suggest using the weakest possible cast always.
reinterpret_cast may be used to cast a pointer to a
float. The more structure-breaking the cast is, the more attention using it requires.
In case of
char*, I'd use c-style cast, until we have some
reinterpret_pointer_cast, because it's weaker and nothing else is sufficient.
3"reinterpret_cast is may be used to cast a pointer to a float." Certainly not! Dec 19, 2011 at 6:16
float f = *reinterpret_cast<const float*>(&p);Aug 7, 2013 at 15:33
2@BenVoigt That is casting between pointers; one of them happened to be a float pointer.– nodakaiJun 1, 2016 at 15:46
8@BenVoigt the "entire expression" isn't a cast though. The expression consists of a dereference applied to a cast. You claimed that it was possible to cast a pointer to
float, which is false. The expression casts
const float *, and then uses a dereference operation (which is NOT a cast), to convert
const float *to
float.– M.MJul 27, 2018 at 4:37
2@BenVoigt you offered that code in response to someone asking "How do I cast...", and then when someone said that the code casts between pointers (which it does), you said "Nope"– M.MJul 27, 2018 at 4:54
reinterpret_cast will forcefully convert the
void* to the target data type. It doesn't guarantee any safety and your program might crash as the underlying object could be anything.
For ex, you could typecast an
void* and then use
reinterpret_cast to convert it to
yourclass* which may have a completely different layout.
So its better and recommended to use
3static_cast will not prevent this from happening. Once a pointer has degenerated into a void* you can static_cast it to any type of pointer.– Dan OFeb 16, 2011 at 7:40