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Should I use static_cast or reinterpret_cast when casting a void* to whatever

In this program I have a void * as a parameter and want to cast it to a specific type. But I don't know which "casting symbol" to use. Both static_cast or reinterpret_cast work. Which one is better? Which one does the Standard C++ recommend?

typedef struct
    int a;
}A, *PA;

int foo(void* a)                // the real type of a is A*
    A* pA = static_cast<A*>(a); // or A* pA = reinterpret_cast<A*>(a);?
    return pA->a;

Here, is

A* pA = static_cast<A*>(a);


A* pA = reinterpret_cast<A*>(a);

more proper?

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marked as duplicate by sharptooth, Fred Nurk, GManNickG, Tony D, templatetypedef Feb 16 '11 at 7:47

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

up vote 21 down vote accepted

The 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 floats and 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 reinterpret_cast. 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 void*.

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 static_cast over 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.

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To 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_cast from a base type to a derived type, it will "work" at runtime (i.e. you will not get an exception or a NULL pointer), but the result may be pointing to the wrong memory location if multiple inheritance is involved. (See this answer for more details.) Only dynamic_cast will do a runtime check (using RTTI) and fail gracefully if the cast is invalid. – andrewtc Aug 9 '14 at 22:51

Neither. Why are you passing a pointer to void in the first place? In C it's fairly common due to lack of alternatives, but in C++ there's almost never a reason to do anything of the sort.

Edit: @Dan O raises the possibility of using a cast to minimize generated code. For anybody who doesn't quite understand what he's talking about, consider something like std::vector -- when you define (for example) an std::vector<A *> and an std::vector<B *>, you'll normally end up with entirely separate code for each even though both are just storing pointers, so they could share the same code. It's possible to get around that by defining a container that only holds void *s, and cast back to the correct type when you retrieve an item from the container.

First of all, this is usually a premature optimization at best (and can often turn out to be a pessimization). Nonetheless, there are times it make sense. When it does, however, you want to restrict the cast to one place, but creating a templated front-end to the pseudo-generic container of void *s:

template <class T>
pointer_container {
    std::vector <void *> data;
    T *operator[](size_t index) { return static_cast<T *>(data[index]); }

Now, it is certainly true that we now have a cast. And yes, to give a direct answer to the original question, a static_cast is the right one to use for this kind of situation.

Back in the days of MS-DOS (for one example) code like this was fairly common. Today, however, this style of code is utterly pointless.

Now, the OP has said he's stuck with a fixed interface, and it's his job to implement it. I don't know where he works or who he works with, and I haven't seen the rest of the code this works with, so it's true that I can't say for sure that what they're doing is poorly designed and should be changed. OTOH, based on my past experience, I'd guess the chances that that's the case are at least 99%. As such, I stand by my original answer. The answers posted that have just said "static_cast", with nothing about avoiding the cast are the ones that are really unhelpful. While it's barely possible that the cast really can't be avoided, simply assuming that it's justified is the wrong reaction and a bad answer.

I'll go further: if a question about casting that fails to provide evidence about why that cast is unavoidable, the only advice that anybody should consider "good" at all is advice to eliminate the cast entirely. It may (on rare occasion) turn out that the cast can't be avoided -- but it's definitely the exception, not the rule.

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Thx for answer.The declaration of the function is designed by other. My work just write an implementation. – Sid Zhang Feb 16 '11 at 7:36
-1, because you said it yourself. The phrase "almost never" means that there are few situations when void* is needed, such as when you use pthread_create, win32 CreateThread. – Nawaz Feb 16 '11 at 7:37
Never is a strong word. One reason to use void*'s is to keep code generation in check. Certainly this shouldn't be done preemptively, but eventually it may be worthwhile. – Dan O Feb 16 '11 at 7:37
@Nawaz: The fact that there are a few fringe cases that require casts doesn't justify them in this case -- there's no indication that he has a real need for a cast at all. – Jerry Coffin Feb 16 '11 at 8:37
@Jerry: You think he should post the entire project to justify his case? Cant he make it simple so that his question can be answered easily? Also, the question is not whether his case is correct or not, rather which one is correct and better if both produce same result! – Nawaz Feb 16 '11 at 8:39

Use static_cast for this. Only in the rarest of rare cases when there is no other way use reinterpret_cast.

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You likely obtained that void* with implicit conversion, so you should use static_cast because it is closest to the implicit conversion.

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If you are casting along a class hierarchy, use dynamic_cast - it checks to make sure that the actual object is compatible with the type to which you are casting.

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Can't not use dynamic_cast here even there has a inheritance. Because the param is void*, which is not a base class pointer type. Thank you all the same. – Sid Zhang Feb 16 '11 at 7:41

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 myclass* to 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 static_cast

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static_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 O Feb 16 '11 at 7:40

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