I am checking for any memory leaks possibility with class pointers using valgrind and found out that following program has no memory leaks :

#include <iostream>
#include <utility>
#include <memory>

using namespace std;

class base{};

int main()
  unique_ptr<base> b1 = make_unique<base>();
  base *b2 = new base();
  cout << is_same<decltype(new base()), decltype(b1)>::value << endl;
  cout << is_same<decltype(new base()), decltype(b2)>::value << endl;
  delete b2;
  return 0;

How can this be possible?


The operand of decltype (and also sizeof) is not evaluated, so any side-effects, including memory allocation, won't happen. Only the type is determined, at compile-time.

So the only memory allocations here are in make_unique and the first new base(). The former is deallocated by the unique_ptr destructor, the latter by delete b2, leaving no leaks.

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  • 2
    A particularly interesting consequence of this is functions like std::declval which are specifically for use in these sorts of expressions, e.g. decltype(std::declval<type_with_unknown_constructor>().method()), and in fact are not actually defined anywhere. – cartographer May 18 '15 at 18:45

decltype is a keyword used to query the type of an expression. It just analyzes the type of the expression; it doesn't actually perform it.

So, not only will this not leak, you can decltype the square root of -1 without any error, and so on.

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Because decltype and template handling (like the type-trait classes) is compile time only. Nothing actually happens in run-time.

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