I am using gcc 4.8.1 and after hours of debugging a horrible mysterious performance issue I found out that the std::list::size is actually implemented as a call to std::distance.

/**  Returns the number of elements in the %list.  */
      size() const _GLIBCXX_NOEXCEPT
      { return std::distance(begin(), end()); }

This surprised me, since the reference says that the complexity of std::list::size should be constant and the complexity of std::distance is linear for std::list::iterator.

I am really confused, since I think gcc has excellent support for C++11 features and I see no reason why they would not implement this one.

Is this an error in the reference or in gcc?

In the latter case:

is there any reason why such a fundamental C++11 feature would be missing for so long?

Is there a third possibility e.g.:

Could I have gcc 4.8.1 but some older version of the standard library?

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    It was O(n) in C++03, which has been changed in C++11 and now it is O(1). Seems GCC has not updated this bit. Bad. – Nawaz Oct 3 '13 at 8:23
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    GCC has many standard violations for C++11. list and string come to mind; it's a hard choice between conforming and breaking old code. – Kerrek SB Oct 3 '13 at 8:26
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    @MartinDrozdik: It seems algorithmically questionable. Typically you need empty(), but size() much less often. If your algorithm really calls for a list (rather than, say, a vector), you would normally just query whether there's something in the list and pop it out. – Kerrek SB Oct 3 '13 at 8:32
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    @MartinDrozdik: A vector has amortized complexity when using push_back so you should be able to let it grow at relatively low-cost (depending on how expensive it is to move the objects within, of course). – Matthieu M. Oct 3 '13 at 8:48
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    gcc-5 will, by default, have C++11 compliant std::list and std::string. This is an ABI breaking change as noted by others. There is a mechanism involving inline namespaces that will allow switching. There was effort to make sure old libs don't break. I'm sure this will be spelled out in more detail on release which should be RSN. – emsr Jan 22 '15 at 2:10

This is not exactly a bug and you can read about it here:


It's more of a case of compatibility with older versions of gcc. Looks like they really don't want to add an additional "data member".


This patch made c++98 and c++11 code incompatible and is causing serious problems for distros.

Where the patch is the fix they implemented for gcc 4.7 (it was O(1) in it).

Another quote:

maintaining ABI compatibility has been decided to be more important for the current releases

  • I'm wondering why O(1) would break older code? Whether it is O(n) or O(1), the client code list.size() will be same whatsoever. – Nawaz Oct 3 '13 at 8:30
  • @Nawaz: Because implementing it as O(1) requires adding a "size" variable to the list class, thus breaking binary compatibility. – Jonathan Potter Oct 3 '13 at 8:34
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    @Nawaz: They try very hard. Why do you think string has been broken for years? There's __vstring which is correct, but it's not been made the default string class out of fear of breaking backwards compatibility. – Kerrek SB Oct 3 '13 at 8:37
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    @MSalters Is there any way that really wouldn't break the ABI? keep in mind that the problems are that there's code out there mixing C++98 and C++11 code; as in passing lists between modules, using C++98 list member functions on C++11 lists and vice versa, and probably mixing C++98 binaries compiled with gcc 4.x with C++11 binaries compiled with gcc 4.y. – bames53 Oct 3 '13 at 18:38
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    @bames53: It's often possible, with in general the proviso that calling a size-altering C++98 method will almost certainly break O(1) size. It would now know about the cached size member, and fail to update it. That does mean the C++11 implementation must detect stale size values, but it can use any kind of dirty implementation hack for that. E.g. set the lowest bit of the pointer to the head node, assuming node pointers are at least 2-byte aligned. – MSalters Oct 4 '13 at 7:28

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