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If I insert an ordered (increasing) sequence of elements into a map, will the final binary tree be somehow optimized? Or will every element have a child "to it's right"? That would make such a tree very inefficient, since then the lookup would be linear.

I couldn't find any detailed information about the insertion process into STL map.

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This is strictly implementation dependent and you should not really rely on implementation specific behaviors unless you don't worry about portability.You should only rely on the behavior that an std::map is supposed to exhibit. –  Alok Save May 3 '12 at 9:15
@Als There's a difference between "relying on implmenentation specific behaviors" and knowing how behaviors are implemented from the point of view of understanding. –  Benj May 3 '12 at 9:17
@Benj: And that is the reason I posted it as an comment, Are you objecting to that? –  Alok Save May 3 '12 at 9:19
You both are very right. Often people tend to rely on these informations - although I just wanted to know. :-) –  HWende May 3 '12 at 9:20
@HWende: If you want to know, read the code of the STL, you can download it for free. If otoh you are talking about the c++ standard library, and not about the stl, then you should read the particular implementation that you are using. It can be implemented in different ways, and although rb trees are most common, you will surely find different implementations e.g. skiplists, avl trees, b trees... –  PlasmaHH May 3 '12 at 9:23

5 Answers 5

up vote 18 down vote accepted

The C++11 standard (23.1) mandates logarithmic complexity for both insert and find for associative containers. Constructing them from two iterators i and j such that [i, j) denotes a suitably sorted range of values is even required to have linear time complexity. Whether that means that "the final binary tree is optimized", or whether maps are binary trees at all, is left unspecified.

In practice, though, std::set, std::map and their multi-friends are virtually always red-black trees, since that's what the original HP/SGI reference implementation of the STL had, and all modern C++ libraries that I know derive from that implementation.

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+1 Because it answers the question within the boundaries of the specifications of standardese. –  Alok Save May 3 '12 at 9:23
@larsmans: In practice std::map are implemented as binary trees (red-black or avl) because of several constraints: 1. Forbidden to mute when accessed by const methods, 2. Elements must be stable in memory. I recently asked about using skip-lists, but apparently they performed worse. Splay Trees violates 1, B Trees (and variants) violates 2. With hindsight, I think that 2 should have been challenged, as B Trees provide better performance (more memory friendly thus more cache friendly). –  Matthieu M. May 3 '12 at 9:32
@MatthieuM.: I'd come to the same conclusion wrt. splay trees and skipt lists, but hadn't thought of B-trees yet. I suspect a B-tree or 2-3 tree can be used at the expense of an extra level of indirection, though. –  larsmans May 3 '12 at 9:43
@larsmans: but the advantage of using them is for better memory locality, which you lose if you add another level of indirection. This is why I believe that stability should not be part of the basics requirements (it has nothing to do with the complexity) and it should be up to the user to decide whether or not they need that extra indirection. –  Matthieu M. May 3 '12 at 9:57
@MatthieuM.: true. However, I do understand the stability requirement because the library allows arbitrarily large structures to be stored in std::map; in a specialized container like a pointer map, this requirement can be lifted. –  larsmans May 3 '12 at 10:10

In general, a std::map is implemented using a red-black tree, which is self-balancing. So yes, it's optimized.

If you insert ordered data, the self-balancing will probably take less, since swaps between nodes will not be that frequent.

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Well, thanks! Do you have any reference for this information? (no offense!) –  HWende May 3 '12 at 9:18
@HWende none taken. I don't have a reference because it's implementation defined. That's why I said "in general". The standard does guarantee some time limits, so you'll definitely not get O(n) for insert or delete, but O(log(n)). –  Luchian Grigore May 3 '12 at 9:20
Feeding sorted data into a self-balancing tree ALWAYS requires that it waste a lot of time re-balancing as it creates the tree, so the 2nd statement is incorrect. For large data sets, it's better to read them in randomly if possible. –  user2548100 Oct 22 '13 at 23:53

C++ standart requires logarithmic access time for any element in std::map ( of ISO/IEC 14882) so std::map has to be implemented as self-balancing tree.

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It is optimized!

Take a look at SGI's Standard Template Library Programmer's Guide. You will find the following complexity specifications for inserting and finding elements:

  • Average complexity for insert range is at most O(N * log(size() + N)),
  • where N is j - i. Average complexity for find is at most logarithmic.
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On that particular STL library implementation, which isn't the standard library. –  juanchopanza May 3 '12 at 9:34
@juanchopanza: But it is /the/ STL. Last time I checked the standard didn't define anything called STL. –  PlasmaHH May 3 '12 at 11:52
@PlasmaHH but the SGI docs refer to the SGI STL, which doesn't completely map to the C++ standard library. I am assuming OP meant the standard library, not the STL... –  juanchopanza May 3 '12 at 11:54
@juanchopanza: Well, I am (and some others probably too) assume that the OP means the STL. Maybe because the OP mentioned STL ... Quite often people mean X when they say X. Unless they are girls. But this is getting offtopic now. –  PlasmaHH May 3 '12 at 11:57
@PlasmaHH I think STL is still an exception. Quite often people say "STL" and they mean "the C++ standard library bit with the containers, the algorithms and that templatey stuff" –  juanchopanza May 3 '12 at 12:09

The set and map usually does tree balancing so find is O(log n). Many of the operations' complexity are shown here: http://www.cplusplus.com/reference/stl/

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my set and map do not do tree balancing, since they are not trees.... –  PlasmaHH May 3 '12 at 9:23
Good for you. :-) –  devil May 3 '12 at 11:50

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