As well as I understand, dereferencing - *smart_ptr , and get() + dereferencing *smart_ptr.get() doing the same thing with smart pointers, but may be there is something under the hood that I'm not aware of, cause I've seen a lot of cases there the second approach was used, so what is the point? Does it affect performance in any way?

  • There is no difference (other than one is 6 characters longer than the other). All standard smart pointer types overload operator*, which dereferences the contained pointer, same as dereferencing the result of .get(). – 0x5453 Jun 23 at 18:06

From a functional standpoint, there is no difference between *smart_ptr and *(smart_ptr.get()), as they are defined in the C++ standard as doing the same thing - dereference the held pointer and return a reference to the object being pointed at.

However, from a debugging standpoint, there may be a subtle difference, depending on implementation. get() is defined as returning the held pointer as-is, whether it is nullptr or not. The smart pointer has no concept of what the caller will do with that pointer afterwards. However, dereferencing a nullptr is undefined behavior, and knowing that, it is possible that a smart pointer implementation MAY decide to have its operator* throw a runtime error if the held pointer cannot be dereferenced, to aid with debugging efforts.

This is mentioned on cppreference, at least for std::unique_ptr::operator*:

may throw, e.g. if pointer defines a throwing operator*

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    Note that get() doesn't return T*, but pointer, which may be some custom type specified in the Deleter type of the unique_ptr<T, Deleter>. What that note in cppreference is saying is that *uptr can throw because *get() can throw because p can be of a custom type pointer rather than T*. In other words, there is no difference, not even a subtle difference, not depending on the implementation. – Justin Jun 23 at 20:55
  • @Justin what you say is true about get() returning pointer. But if pointer is just a raw T* then *get() can't validate the pointer at runtime, but smart_ptr::operator* may still be able to, depending on whether the implementation decides to use such logic when pointer is a raw T* and ignore such logic when pointer is another type with its own operator*. So, I stick by my answer. – Remy Lebeau Jun 23 at 20:59
  • I see your point. *NULL is undefined behavior, so the library could add a null-check for debugging purposes. Interesting. I suspect none will throw an exception because -fno-exceptions, but they could have an assert(...) or something similar – Justin Jun 23 at 21:01
  • @Justin for instance, Microsoft is known to add debugging asserts and exceptions to the debug version of its libraries, even if the standards don't say that is needed. – Remy Lebeau Jun 23 at 21:05

There is no difference. The standard in [unique.ptr.single.observers] and [util.smartptr.shared.obs] both define operator* as being *get().

get should be used when you need a raw pointer to the managed object for passing to something that only excepts a raw pointer. Otherwise, * and -> are overloaded for the smart pointers to apply those operations to the managed pointer.

You could be tempeted to use &*smart_ptr to get a raw pointer to the managed object, but & is an operator that can be overloaded and could give you the wrong result. the proper way to get the address (a pointer) would be std::addressof(*smart_ptr), but using smart_ptr.get() is shorter.

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