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Consider the following code:

#include <algorithm>
#include <iostream>
#include <vector>

struct A {
   int val;

   bool operator<(const A& other) const {
      std::cout << "operator\n";
      return val < other.val;

void swap(A& a, A& b) {
   std::cout << "foo\n";
   std::swap(a.val, b.val);

int main()
   std::vector<A> a(2);
   a[0].val = 10;
   a[1].val = -1;

   std::sort(a.begin(), a.end());

C++11's std::sort places ValueSwappable requirements on the iterator arguments, move semantics and nothing else, implying that std::sort is "guaranteed" to perform a swap if elements need to be moved around. And suggests that my overload definitely ought to be picked in this case.

  • Is this correct?

clang 3.1 SVN's libc++ picks my swap (that is, I see "foo"); GCC 4.6.3's libstdc++ does not.

  • Is this a GCC bug (assuming my standard interpretation is correct)? Or am I missing something?
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Note: I suppose this way of swapping is not recommended, but I'd still like to know what's going on here. –  Lightness Races in Orbit Mar 2 '12 at 19:14
Looks like ADL is not being used to find your overloaded version of swap with gcc, where-as clang is using ADL. There were some comments on the thread you pointed to that show that the use of ADL for the look-up of swap by std::sort is not a defined standard among compilers. –  Jason Mar 2 '12 at 19:27
@Jason: Why would ADL be involved at all for a free function in the global namespace? –  Lightness Races in Orbit Mar 2 '12 at 19:31
Howard Hinnant's and Dave Abrahams' answers are recommending exactly the method of overloading swap that you're using. I believe the accepted answer on that thread is not the best option. –  bames53 Mar 2 '12 at 19:45
@LightnessRacesinOrbit the global namespace still counts as a namespace for ADL. –  bames53 Mar 2 '12 at 19:46

2 Answers 2

up vote 6 down vote accepted

C++11's std::sort places ValueSwappable requirements on the iterator arguments, move semantics and nothing else, implying that std::sort is "guaranteed" to perform a swap if elements need to be moved around.

I don't see that guarantee. Who says std::sort cannot use move semantics instead of swaps? In fact, after browsing the standard for the verbatim specification, I believe this is exactly what happens:

Requires: RandomAccessIterator shall satisfy the requirements of ValueSwappable ( The type of *first shall satisfy the requirements of MoveConstructible (Table 20) and of MoveAssignable (Table 22).

Note that the iterators shall be ValueSwappable, not the elements they point to.

share|improve this answer
@FredOverlow: Well, the elements still have to be valid. So swaps have to come into it somehow, no? [edit: and the range has to remain at its existing location in memory, IIRC] Though your answer has made me realise that the issue might be that if std::sort is doing moves to swap, I should perhaps be taking rvalue refs into my swap function? –  Lightness Races in Orbit Mar 2 '12 at 19:43
No, swap does not take rvalue references. You may be fooled into thinking that the basic operation of sorting algorithms is swapping elements, but if you look at the actual implementation of std::sort, chances are you won't find a single call to swap. (For example, heap sort is not based on swaps.) What happens when you provide a move constructor and move assignment operator that print to the console? They should be invoked, no matter if sort is implemented in terms of swap or not. –  FredOverflow Mar 2 '12 at 19:49
I'm guess I'm confused as to how std::sort could possibly work at all, then. Where can values move to if not to some place else in the given range? Thus requiring a swap? –  Lightness Races in Orbit Mar 2 '12 at 19:52
Values can simply move into (and out of) local variables. One phase of a heap sort could result in the following moves, for example: T local_variable = std::move(a[1]); a[1] = std::move(a[2]); a[2] = std::move(a[4]); a[4] = std::move(a[8]); a[8] = std::move(local_variable); –  FredOverflow Mar 2 '12 at 19:59
Yep, gcc is doing moves: ideone.com/CN9FF –  bames53 Mar 2 '12 at 20:05

I'm posting this as an answer because I don't have reputation to comment.

As @FredOverflow pointed out, libstdc++ uses move constructors and assignment operators when sorting. However, I find it strange that it doesn't use ADL for pre c++11 code so people can plug optimized swapping functions.

share|improve this answer
Get some rep and start commenting :) –  user405725 Mar 2 '12 at 20:13
Whether or not calling swap is faster than a series of assignments in C++03 depends on the type and whether or not it specializes std::swap (or provides a swap function in their own namespace). This is probably very hard or even impossible to figure out at compile time. For example, introsorting a list of ints will be a lot slower with swaps instead of a series of assignments. –  FredOverflow Mar 2 '12 at 20:14
But ADL is built-in in the compiler and the library implementers already use swap overloading in every collection. Exposing a swap plug would greatly help people that what to use containers with value semantics while keeping the code fast. –  Pedro Mar 2 '12 at 20:21
@Pedro Again, using swap does not guarantee faster performance in all cases. If you sort a vector of strings, swapping certainly is faster than simple assignments. But if you sort a vector of "flat" values types, swapping can incur a lot of unnecessary overhead. The C++11 solution of using moves is optimal. –  FredOverflow Mar 2 '12 at 20:24
But FredOverflow, people only overload when they are sure it's faster than the default swap. –  Pedro Mar 2 '12 at 20:25

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