When I compile this sample code using g++, I get this warning:

warning: dereferencing type-punned pointer will break strict-aliasing rules [-Wstrict-aliasing]

The code:

#include <iostream>

int main() 
   alignas(int) char data[sizeof(int)];
   int *myInt = new (data) int;
   *myInt = 34;

   std::cout << *reinterpret_cast<int*>(data);

In this case, doesn't data alias an int, and therefore casting it back to an int would not violate strict aliasing rules? Or am I missing something here?

Edit: Strange, when I define data like this:

alignas(int) char* data = new char[sizeof(int)];

The compiler warning goes away. Does the stack allocation make a difference with strict aliasing? Does the fact that it's a char[] and not a char* mean it can't actually alias any type?

  • 3
    @molbdnilo char * can always alias Nov 18, 2014 at 21:12
  • @ShafikYaghmour Yes, of course. How could I forget?
    – molbdnilo
    Nov 18, 2014 at 21:18
  • Possibly because data is already an alias for &data[0]? Also int const * data; is a closer match to int data[1];
    – rafeek
    Nov 18, 2014 at 21:22
  • 3
    You might want to consider using std::aligned_storage for this: en.cppreference.com/w/cpp/types/aligned_storage Nov 20, 2014 at 20:42
  • 3
    Why does the warning completely go away since gcc 7.2? LIVE(godbolt.org/g/ci5dKj)
    – sandthorn
    Feb 1, 2018 at 2:25

3 Answers 3


The warning is absolutely justified. The decayed pointer to data does not point to an object of type int, and casting it doesn't change that. See [basic.life]/7:

If, after the lifetime of an object has ended and before the storage which the object occupied is reused or released, a new object is created at the storage location which the original object occupied, a pointer that pointed to the original object, a reference that referred to the original object, or the name of the original object will automatically refer to the new object and, once the lifetime of the new object has started, can be used to manipulate the new object, if:
(7.1) — [..]
(7.2) — the new object is of the same type as the original object (ignoring the top-level cv-qualifiers),

The new object is not an array of char, but an int. P0137, which formalizes the notion of pointing, adds launder:

[ Note: If these conditions are not met, a pointer to the new object can be obtained from a pointer that represents the address of its storage by calling std::launder (18.6 [support.dynamic]). — end note ]

I.e. your snippet can be corrected thusly:

std::cout << *std::launder(reinterpret_cast<int*>(data));

.. or just initialize a new pointer from the result of placement new, which also removes the warning.

  • So, even though the char[]s lifetime has ended, the pointer data decays into is still a valid way to access the int stored within?
    – Red Alert
    Nov 20, 2014 at 20:52
  • I see, thanks. My main fear was that the compiler could assume that data couldn't alias an int, and therefore could optimize out the effect *myInt = 34; would have on the print statement.
    – Red Alert
    Nov 20, 2014 at 20:59
  • 1
    @supercat: How does the relative efficiency of memcpy and memmove relate to this Q&A?
    – Kevin
    Jun 29, 2016 at 17:11
  • 1
    @supercat: Read Linus more closely. The difference is one CPU cycle. If you cannot afford one cycle, you should be writing assembly, not C.
    – Kevin
    Jun 30, 2016 at 0:02
  • 3
    Why does the warning completely go away since gcc 7.2? LIVE(godbolt.org/g/ci5dKj)
    – sandthorn
    Feb 1, 2018 at 2:26

*myInt = 34; this expression is well-formed, because data provide storage for object of type int and myInt is a pointer to an object of type int. So, dereference such a pointer can access an object of type int.

For *reinterpret_cast<int*>(data); this expression, it would violate the strict pointer aliasing. Firstly, there's an array-to-pointer conversion that applied to data, The result is a pointer to the initial element of data,it means the operand of reinterpret_cast<int*> is a pointer to a subject of data.
According to the following rule:

If an object is created in storage associated with a member subobject or array element e, the created object is a subobject of e's containing object if:

  • the lifetime of e's containing object has begun and not ended, and
  • the storage for the new object exactly overlays the storage location associated with e, and
  • the new object is of the same type as e (ignoring cv-qualification).

An object of type int satisfy none of these rules. Hence, the operand of reinterpret_cast<int*> is not a pointer to an object that pointer-interconvertible with an object of type int. So, The result of reinterpret_cast<int*> is not an pointer to an object of type int.

a program attempts to access the stored value of an object through a glvalue of other than one of the following types the behavior is undefined:

  • the dynamic type of the object.
  • [...]

What about changing

std::cout << *reinterpret_cast<int*>(data);


int *tmp   = reinterpret_cast<int*>(data);
std::cout << *tmp;


In my case it got rid of the warning.

  • 6
    The underlying problem is still there. Jul 14, 2018 at 22:42
  • @HolyBlackCat There is no "underlying problem" here.
    – curiousguy
    Jul 15, 2018 at 11:07
  • @curiousguy I'm not a native speaker, so maybe "underlying" is not the right word. The point is that the warning is there because OP's code causes undefined behaviour (as explained in the other answer), and the right thing to do is to change the code to remove said UB, instead of merely trying to silence the warning like this answer does. Jul 15, 2018 at 11:14
  • @HolyBlackCat I don't see any UB.
    – curiousguy
    Jul 15, 2018 at 11:16
  • 7
    @curiousguy If you disagree with the other answer, could you post your own one, explaining why exactly the behaviour of OP's code is well-defined and why the warning is incorrect? "There is no such thing as "breaking strict aliasing". It's an absurd idea." You should read What is the strict aliasing rule?. Jul 15, 2018 at 11:35

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