I'm learning C++ at the moment and try avoid picking up bad habits. From what I understand, clang-tidy contains many "best practices" and I try to stick to them as best as possible (even though I don't necessarily understand why they are considered good yet), but I'm not sure if I understand what's recommended here.

I used this class from the tutorial:

class Creature
    std::string m_name;

    Creature(const std::string &name)
            :  m_name{name}

This leads to a suggestion from clang-tidy that I should pass by value instead of reference and use std::move. If I do, I get the suggestion to make name a reference (to ensure it does not get copied every time) and the warning that std::move won't have any effect because name is a const so I should remove it.

The only way I don't get a warning is by removing const altogether:

Creature(std::string name)
        :  m_name{std::move(name)}

Which seems logical, as the only benefit of const was to prevent messing with the original string (which doesn't happen because I passed by value). But I read on CPlusPlus.com:

Although note that -in the standard library- moving implies that the moved-from object is left in a valid but unspecified state. Which means that, after such an operation, the value of the moved-from object should only be destroyed or assigned a new value; accessing it otherwise yields an unspecified value.

Now imagine this code:

std::string nameString("Alex");
Creature c(nameString);

Because nameString gets passed by value, std::move will only invalidate name inside the constructor and not touch the original string. But what are the advantages of this? It seems like the content gets copied only once anyhow - if I pass by reference when I call m_name{name}, if I pass by value when I pass it (and then it gets moved). I understand that this is better than passing by value and not using std::move (because it gets copied twice).

So two questions:

  1. Did I understand correctly what is happening here?
  2. Is there any upside of using std::move over passing by reference and just calling m_name{name}?
  • 7
    With pass by reference, Creature c("John"); makes an extra copy Aug 7, 2018 at 5:46
  • 2
    This link might be a valuable read, it covers passing std::string_view and SSO, too.
    – lubgr
    Aug 7, 2018 at 7:34
  • 5
    I've found clang-tidy is a great way to get myself obsessing over unnecessary microoptimisations at the expense of readability. The question to ask here, before anything else, is how many times do we actually call the Creature constructor.
    – c z
    Jul 7, 2020 at 14:41
  • @cz Seems worth noting that without clang-tidy OP would not have known to ask this question at all. Plenty of microoptimisations to chase, sure, but some lead to valuable discussions and lessons. Oct 4, 2023 at 16:39

4 Answers 4

/* (0) */ 
Creature(const std::string &name) : m_name{name} { }
  • A passed lvalue binds to name, then is copied into m_name.

  • A passed rvalue binds to name, then is copied into m_name.

/* (1) */ 
Creature(std::string name) : m_name{std::move(name)} { }
  • A passed lvalue is copied into name, then is moved into m_name.

  • A passed rvalue is moved into name, then is moved into m_name.

/* (2) */ 
Creature(const std::string &name) : m_name{name} { }
Creature(std::string &&rname) : m_name{std::move(rname)} { }
  • A passed lvalue binds to name, then is copied into m_name.

  • A passed rvalue binds to rname, then is moved into m_name.

As move operations are usually faster than copies, (1) is better than (0) if you pass a lot of temporaries. (2) is optimal in terms of copies/moves, but requires code repetition.

The code repetition can be avoided with perfect forwarding:

/* (3) */
template <typename T,
              std::is_convertible_v<std::remove_cvref_t<T>, std::string>, 
          int> = 0
Creature(T&& name) : m_name{std::forward<T>(name)} { }

You might optionally want to constrain T in order to restrict the domain of types that this constructor can be instantiated with (as shown above). C++20 aims to simplify this with Concepts.

In C++17, prvalues are affected by guaranteed copy elision, which - when applicable - will reduce the number of copies/moves when passing arguments to functions.

  • For (1) the pr-value and xvalue case are not identical since c++17 no?
    – Oliv
    Aug 6, 2018 at 11:55
  • 2
    Note that you don't need the SFINAE to perfect forward in this case. It's only needed to disambiguate. It's plausibly helpful for the potential error messages when passing bad arguments
    – Caleth
    Aug 6, 2018 at 15:57
  • 7
    Can we write : Creature(const std::string &name) : m_name{std::move(name)} { } in the (2)?
    – skytree
    Feb 19, 2019 at 4:13
  • 19
    @skytree: you cannot move from a const object, as moving mutates the source. That will compile, but it will make a copy. Feb 19, 2019 at 14:11
  • 3
    @skytree: a non-const lvalue reference can be moved from, but it is potentially dangerous and misleading as the moved-from object is not a temporary, and the caller of your function might expect to reuse it. I do not know any easy way of detecting "moves that don't move", unfortunately. Be careful :) Feb 19, 2019 at 16:46
  1. Did I understand correctly what is happening here?


  1. Is there any upside of using std::move over passing by reference and just calling m_name{name}?

An easy to grasp function signature without any additional overloads. The signature immediately reveals that the argument will be copied - this saves callers from wondering whether a const std::string& reference might be stored as a data member, possibly becoming a dangling reference later on. And there is no need to overload on std::string&& name and const std::string& arguments to avoid unnecessary copies when rvalues are passed to the function. Passing an lvalue

std::string nameString("Alex");
Creature c(nameString);

to the function that takes its argument by value causes one copy and one move construction. Passing an rvalue to the same function

std::string nameString("Alex");
Creature c(std::move(nameString));

causes two move constructions. In contrast, when the function parameter is const std::string&, there will always be a copy, even when passing an rvalue argument. This is clearly an advantage as long as the argument type is cheap to move-construct (this is the case for std::string).

But there is a downside to consider: the reasoning doesn't work for functions that assign the function argument to another variable (instead of initializing it):

void setName(std::string name)
    m_name = std::move(name);

will cause a deallocation of the resource that m_name refers to before it's reassigned. I recommend reading Item 41 in Effective Modern C++ and also this question.

  • That makes sense, especially that this makes the declaration more intuitive to read. I'm not sure I fully grasp the deallocation part of your answer (and understand the linked thread), so just to check If I use move, the space gets deallocated. If I don't use move, it only gets deallocated if the allocated space is too small to hold the new string, leading to improved performance. Is that correct?
    – FrodoB
    Aug 6, 2018 at 12:36
  • 1
    Yes, that's exactly it. When assigning to m_name from a const std::string& parameter, the internal memory is re-used as long as m_name fits in. When move-assigning m_name, the memory must be deallocated beforehand. Otherwise, it was impossible to "steal" the resources from the right hand side of the assignment.
    – lubgr
    Aug 6, 2018 at 12:38
  • When does it become a dangling reference? I think initialization list use deep copy.
    – Li Taiji
    Apr 1, 2020 at 8:02
  • "The signature immediately reveals that the argument will be copied" hits the nail on the head. Micro-optimisations described in other answers are nice to know, but shouldn't be a compelling reason unless you really need those microseconds.
    – c z
    Nov 2, 2021 at 9:17

How you pass is not the only variable here, what you pass makes the big difference between the two.

In C++, we have all kinds of value categories and this "idiom" exists for cases where you pass in an rvalue (such as "Alex-string-literal-that-constructs-temporary-std::string" or std::move(nameString)), which results in 0 copies of std::string being made (the type does not even have to be copy-constructible for rvalue arguments), and only uses std::string's move constructor.

Somewhat related Q&A.


There are several disadvantages of pass-by-value-and-move approach over pass-by-(rv)reference:

  • it causes 3 objects to be spawned instead of 2;
  • passing an object by value may lead to extra stack overhead, because even regular string class is typically at least 3 or 4 times larger than a pointer;
  • argument objects construction is going to be done on the caller side, causing code bloat;
  • Could you clarify why it would cause 3 objects to spawn? From what I understand I can just pass "Peter" as a string. This would get spawned, copied and then moved, wouldn't it? And wouldn't the stack be used at some point regardless? Not at the point of the constructor call, but in the m_name{name} part where it gets copied?
    – FrodoB
    Aug 6, 2018 at 12:43
  • @Blackbot I was referring to your example std::string nameString("Alex"); Creature c(nameString); one object is nameString, another is function argument, and third one is a class field. Aug 6, 2018 at 17:57

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