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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:

1:

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

2:

T * pValues = new T[N + M]; // M >= 0
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3  
*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

1 Answer 1

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.

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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
2  
IMHO static cast to void* should have been illegal by standard. –  Bathsheba Jan 23 '14 at 19:45
1  
@Bathsheba: Indeed. –  LihO Jan 23 '14 at 19:46

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