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I'm measuring the performance of a little demo I have running in debug mode. These operations seem to take a very long time, and are incurring a copy operation (or so it appears while debugging):

// Get access to the vertices and faces
auto vertices = t.GetVertices();
auto faces    = t.GetFaces();

The implementation of that function is this:

std::vector<glm::vec3>  const& GetVertices() const { return vertices_; }
std::vector<glm::ivec3> const& GetFaces()    const { return faces_;    }

In a class that contains the following private members:

  std::vector<glm::vec3>  vertices_;
  std::vector<glm::ivec3> faces_;

For whatever reason, I would expect that returning a const reference would incur almost zero performance penalty, but this operation appears to be really bogging down the program. What am I missing here? Does this get optimized out in release mode, but will always occur in debug mode?

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It's not returning that leads to the copy, it is initializing a new variable that leads to the copy. –  dyp Jun 6 at 19:31
First of, since you are return a reference there's no performance penalty, unless you are assigning like this std::vector<glm::vec3> v = GetVertices(); and not like this std::vector<glm::vec3> &v = GetVertices(); –  101010 Jun 6 at 19:31

2 Answers 2

up vote 8 down vote accepted

Why does it copy the contents?

The type of vertices and faces will be std::vector<glm::vec3> and std::vector<glm::ivec3>, respectively. When initializing them the compiler is required to copy the contents from the returned references.

The compiler assumes that you don't want the contents of vertices to change if the data-member vertices_ changes; since that's the way you have declared your variables.

How can I prevent this from happening?

If you'd like to declare them as references you'll have to explicitly say so:

auto const& vertices = t.GetVertices ();
auto const& faces    = t.GetFaces ();

How is the type of faces and vertices deduced?

Having the expression auto foo = init, foo will have the type that is deduced for the argument of the following template function, called as deduce_type (init) as its parameter.

template<class T> void deduce_type (T);

                               // auto vertices = t.getVertices ();
deduce_type (t.getVertices ()) // imaginary call, T = std::vector<glm::vec3>

Is there some workaround so that I'd always get the exact type?

No, not currently, but in upcoming Standard of C++ (C++14) you will be able to do the below, and the result will be what you inaccurately expected your original code to do:

decltype(auto) vertices = t.GetVertices ();
//              ^-- vertices is of type `std::vector<glm::vec3> const&`
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Interesting -- I assumed that auto just kind of magically matched up the data type to whatever was returned by the relevant function call. That's obviously not the case. How is the data type of auto determined? For instance, if the function returned a const pointer, would the auto data type still be a regular vector? –  aardvarkk Jun 6 at 19:32
@aardvarkk, It's the same as template type deduction. –  chris Jun 6 at 19:36
@chris It looks like template type deduction is a fairly complex subject in itself. Is there some kind of rule of thumb I can remember to make sure I don't screw this up again? –  aardvarkk Jun 6 at 19:38
@aardvarkk auto will never be deduced to be a reference, const nor an array. (You can add references and const as demonstrated in refp's answer, but not arrays btw.) References and const is dropped, array decays to pointer. –  dyp Jun 6 at 19:40
@dyp Exactly what I'm looking for, thanks so much! –  aardvarkk Jun 6 at 19:42

You must remember that assigning or initializing an object with/to another, will (in some way or another) end in a copy of that object. While the functions you give do return constant references, they are assigned (or copied) to new instantiations.

You can avoid this by useing a pointer (which will allocate memory on the stack for the pointer, but IMO it's a nominal factor), or you could use a move-constructor. I don't know if I move constructor would work, in this case, but my initial thoughts are that it wouldn't (since the assigned value is supposed to be const).

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