I am wondering if this is undefined behavior:

#include <stdint.h>

int main() {
  auto* p = new uint8_t[32];
  float* c = reinterpret_cast<float*>(p);
  delete[] c;

In the standard there is

If not, the behavior is undefined. In the second alternative (delete array), the value of the operand of delete may be a null pointer value or a pointer value that resulted from a previous array new-expression.79 If not, the behavior is undefined. [ Note: this means that the syntax of the delete-expression must match the type of the object allocated by new, not the syntax of the new-expression. — end note ]

So interpreting the somewhat unclear phrase

this means that the syntax of the delete-expression must match the type of the object allocated by new, not the syntax of the new-expression

I can say the above is Undefined Behavior, correct?

  • You're quoting the wrong paragraph. The next paragraph is what says the types must match, or it's undefined. – Jonathan Wakely Sep 26 '18 at 10:31
  • In your particular case, the undefined behavior is "harmless" (if it can ever be harmless to invoke UB) and so it could in principle be well-defined. But think about what would happen if destructors were'nt trivial as in your example. What's the compiler supposed to do in that case? It must invoke some destructor, only just which one is the correct one, and how would it deal with the arguably incorrect blob of memory (which is really some other type) that it refers to? – Damon Sep 26 '18 at 10:49
  • 1
    Be aware that your use of reinterpret_cast has implementation defined behavior. When converting between (unrelated) pointer types, alignment could differ eg. – Sander De Dycker Sep 26 '18 at 12:18

Yes, the behaviour is undefined.

The pointer passed to delete[] must be the same type as the one you get back from new[].

Note that for delete and new, the pointer submitted to delete is allowed to be related by polymorphism.

  • 4
    Standard link that says this: [expr.delete]#3 – Justin Sep 26 '18 at 7:04
  • 3
    well, on a number of platforms it might still generate legal code that's why AS wouldn't detect it. valgrind might not either. the issue is that in certain situation the value of c wouldn't be same as value of p, or that implementations tracks memory allocation in more discriminating way, that's where C++ standard comes with UB. – Swift - Friday Pie Sep 26 '18 at 7:15
  • 3
    Interesting. Seems someone found my now deleted comment objectionable. – StoryTeller Sep 26 '18 at 8:01
  • 3
    I am afraid you are partly wrong: there is no polymorphic provision for delete[]. See stackoverflow.com/a/52520199/147192 – Matthieu M. Sep 26 '18 at 14:33
  • 1
    @MatthieuM.: Well you learn something new every day! I've amended and wiki'd the answer. – Bathsheba Sep 26 '18 at 14:40

Yes, the code in indeed Undefined Behavior. The phrasing means that it would still be UB when you would rewrite it as

int main() {
  void* p;
     using T = uint8_t;
     p = new T [32];
    using T = float;
    T* c = reinterpret_cast<float*>(p);
    delete[] c; // The behaviour is still undefined.

IOW, the types really have to match exactly, not just in name.

  • I hope you don't mind my putting in that comment; just in case someone reading quickly interprets your snippet as a solution. And an upvote! – Bathsheba Sep 26 '18 at 10:20

It is undefined behavior to call delete[] p; if p has a different type that what new[] returned.


struct Base { virtual ~Base() = default; };
struct Derived: Base { int a; };

int main() {
    Base* p = new Derived[5];
    delete[] p;

Is also undefined behavior.

@Justin provided the relevant standard quote in a comment see it here:

5.3.5 [expr.delete]

(3) In the first alternative (delete object), if the static type of the object to be deleted is different from its dynamic type, the static type shall be a base class of the dynamic type of the object to be deleted and the static type shall have a virtual destructor or the behavior is undefined. In the second alternative (delete array) if the dynamic type of the object to be deleted differs from its static type, the behavior is undefined.

Note how there is no provision for polymorphic relationship in the delete array case I emphasized; contrary to the delete object case.

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