I have a const pointer to a pointer to a Fred and I don't understand why a static_cast isn't sufficient.

typedef struct {
    int n;
} Fred;

Fred *pFred;
Fred **const ppFred = &pFred;
void **const ppVoid = static_cast<void ** const>(ppFred);

Please could someone explain why a reinterpret_cast is needed to convert a pointer to Fred*to a pointer to void* but static_cast is fine to convert pointer to Fred to a pointer to void.

  • 1
    does it make sense to have a void** at all?
    – moooeeeep
    Jul 10, 2012 at 10:12
  • I'm coding to a C-style call-back messaging style interface and receive a pointer to a struct. The same C call is used to get back all structs so not sure I have many other options. Jul 10, 2012 at 10:31
  • Similar to stackoverflow.com/questions/11409289/…, although that was C and the other questioner was also asking how to work around it in their case. Jul 10, 2012 at 10:59
  • @moooeeeep A void** is a pointer to void*, it might to used to "pass by reference" a void* to a function in C. realloc interface could have been defined that way. I am not advocating this idea here, just saying it is a possibility.
    – curiousguy
    Jul 24, 2012 at 5:39
  • @DangerMouse "static_cast<void ** const>" you know this const has no purpose or effect, don't you?
    – curiousguy
    Jul 24, 2012 at 5:41

4 Answers 4


There's no requirement that a Fred* and a void* have the same size and representation. (I've worked on machines where they didn't, although that was before my C++ days.) When you convert Fred* to void*, you get a new pointer, with a possibly different size and representation, but there is no information about the size and representation of the object the void* points to. You know that it is unknown, and the only way to use this void* is to cast it back to a Fred* (modulo things like cv-qualifiers). When you convert Fred** to void**, you're converting from a pointer to a concrete type (a pointer to a Fred*) to a pointer to another concrete type (a pointer to a void*). And since there's no guarantee that these two concrete types have the same size and representation, the conversion requires a reinterpret_cast. void is a special, non-concrete type, so you can static_cast a pointer to any type to and from a pointer to void. void* is just another concrete pointer type, so casting to and from pointers to it follows the usual rules (and requires a reinterpret_cast).

In many ways, the situation is very much like int and double, where void* plays the role of int (say), and Fred* the role of double. There's no problem static_casting between int and double, but casts between int* and double* require reinterpret_cast.

  • So I could do static_cast<void * const>(&pFred) presumably? Jul 10, 2012 at 10:38
  • "void* plays the role of int (say), and Fred* the role of double." - or the other way around, since (typically) every value of int is representable as double, and (always) every value of Fred* is representable as void*. The fact that X converts to Y sometimes lulls people into thinking that X* might convert to Y*, I think. Jul 10, 2012 at 11:01
  • 1
    @SteveJessop Yes. I didn't consider that aspect when I thought of the example. It was just the idea that you can convert between two "values", but you couldn't convert between two pointers to those values. Jul 10, 2012 at 11:15
  • @DangerMouse Yes, but you can't dereference that pointer. The only legal way you can dereference it is by casting it back to a Fred* (modulo cv-qualifiers), and use that. Jul 10, 2012 at 11:21
  • 1
    @Chethan History, really. There are still situations where it makes sense to have a pointer to something, without knowing what (although in earliest C, that was char*). It was also agreed that conversions of T* to that pointer (now void*) could be implicit. Later, it was decided that the reverse of any implicit conversion should be a static_cast. None of this applies to void**, of course, since void** doesn't point to just anything; it points to a concrete data type, void*. Jul 10, 2012 at 15:22

All object pointers are convertible to void*, so a static cast is fine for that. However, converting between T* and U* in general requires a reinterpret cast, since arbitrary pointers are not mutually convertible. (And substitute T = Fred*, U = void*.)

  • What's the rationale of exempting conversion to void*? why doesn't that apply to void**?
    – Chethan
    Jul 10, 2012 at 14:04
  • @Chethan: void* is special. Every pointer is convertible to a void*.
    – Kerrek SB
    Jul 10, 2012 at 15:20

static_cast won't work to convert Fred ** to void ** because it's not a sensible conversion : the pointers to Fred* and to void* are not necessarily created the same way (i.e. alignments problems on some platforms). You can be sure that a void* which can point to any byte in memory can point to a Fred object as well, but that's not the case for void** pointers.

  • If I get you, you're saying that a pointer to void* may be a different sort of thing to a pointer to a Fred* but that a pointer to void can point to anything? So I could uses a void* in the function signature just as easily as a void**? Jul 10, 2012 at 10:36


The following is hand-waving for the purpose of making things easily understood, not a technically correct description.

The hand-waving

One possible way to introduce void is:

void is similar (not the same thing as) the Java Object universal superclass.

void can be seen as an abstract base of every class and non-class type. (With this metaphor, void would also be a quasi-virtual base type: conversion to void* is never ambiguous.)

So you can see the implicit conversion from T* to void* as a derived-to-base conversion, and the reverse static_cast is like a base to derived down-cast. When a void* does not really point to a T, you should not do a static_cast<T*> (when a Base* does not really point to a Derived, you should not do a static_cast<Derived*>).

Disclaimer, again

Seriously, void is not an abstract base class, and cannot be formally treated as one in many cases:

  • You cannot formally describe void either as a virtual base (or static_cast would break) or a non-virtual base (or conversions to void* would be ambiguous when multiple inheritance is used).
  • There is no void& type. This base class metaphor just does extend beyond pointers.

Please, DO NOT go tell people "void is the universal C++ base class, like Java Object". Do not repeat anything I wrote here without the full disclaimers.

Only in some cases, void behaves like a base class for the purpose of pointer implicit conversions and casts.

You cannot write programs based on metaphors, but on the real C++ rules.

This metaphor might help. Or not. Either way, do not ever try to draw logical conclusions based on a metaphor.

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