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I have a pointer T * pValues that I would like to view as a T (&values)[N]

In this SO answer http://stackoverflow.com/a/2634994/239916, the proposed way of doing this is

T (&values)[N] = *static_cast<T(*)[N]>(static_cast<void*>(pValues));

The concern I have about this is. In his example, pValues is initialized in the following way

T theValues[N];
T * pValues = theValues;

My question is whether the cast construct is legal if pValues comes from any of the following constructs:


T theValues[N + M]; // M > 0
T * pValues = theValues;


T * pValues = new T[N + M]; // M >= 0
share|improve this question
*static_cast<T(*)[N]>(static_cast<void*>(pValues)) seems to be abusing of language's features and rather an ugly workaround than something you would actually want to use... – LihO Jan 23 '14 at 19:09
Your memory in both 1 and 2 would be dynamic - that is, the pointer is an actual pointer to the starting point of a block of memory, not an array that has been decayed to a pointer. Seems like it would be UB. – Zac Howland Jan 23 '14 at 19:12
up vote 8 down vote accepted

Short answer: You are right. The cast is safe only if pValues is of type T[N] and both of the cases you mention (different size, dynamically allocated array) will most likely lead to undefined behavior.

The nice thing about static_cast is that some additional checks are made in compile time so if it seems that you are doing something wrong, compiler will complain about it (compared to ugly C-style cast that allows you to do almost anything), e.g.:

struct A { int i; };
struct C { double d; };

int main() {
    A a;
    // C* c = (C*) &a; // possible to compile, but leads to undefined behavior
    C* c = static_cast<C*>(&a);

will give you: invalid static_cast from type ‘A*’ to type ‘C*’

In this case you cast to void*, which from the view of checks that can be made in compile time is legal for almost anything, and vice versa: void* can be cast back to almost anything as well, which makes the usage of static_cast completely useless at first place since these checks become useless.

For the previous example:

C* c = static_cast<C*>(static_cast<void*>(&a));

is no better than:

C* c = (C*) &a;

and will most likely lead to incorrect usage of this pointer and undefined behavior with it.

In other words:

A arr[N];
A (&ref)[N] = *static_cast<A(*)[N]>(&arr);

is safe and just fine. But once you start abusing static_cast<void*> there are no guarantees at all about what will actually happen because even stuff like:

C *pC = new C;
A (&ref2)[N] = *static_cast<A(*)[N]>(static_cast<void*>(&pC));

becomes possible.

share|improve this answer
Okay, but this doesn't exactly answer my question as you are introducing two types (A and C), whereas I'm asking about the case where there is one (non-pointer non-reference) type T being involved. – Thomas Eding Jan 23 '14 at 19:43
@ThomasEding: I've edited it :) – LihO Jan 23 '14 at 19:45
IMHO static cast to void* should have been illegal by standard. – Bathsheba Jan 23 '14 at 19:45
@Bathsheba: Indeed. – LihO Jan 23 '14 at 19:46

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