This is very strange for me, i expected it to be a hash table.

I saw 3 reasons in the following answer (which maybe correct but i don't think that they are the real reason). Hash tables v self-balancing search trees

  1. Although hash might be not a trivial operation. I think that for most of the types it is pretty simple.

  2. when you use map you expect something that will give you amortized O(1) insert, delete, find , not log(n).

  3. i agree that trees have better worst case performance.

I think that there is a bigger reason for that, but i can't figure it out. In c# for example Dictionary is a hash table.

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    Memory used to be very expensive. Use std::unordered_map for hash table implementation of map.
    – segfault
    Commented Mar 26, 2014 at 15:34
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    Red black tree's are also ordered.
    – GWW
    Commented Mar 26, 2014 at 15:37

4 Answers 4


It's largely a historical accident. The standard containers (along with iterators and algorithms) were one of the very last additions before the feature set of the standard was frozen. As it happened, they didn't have what they considered an adequate definition of a hash-based map at the time, and there wasn't time to add it before features were frozen, so the original specification included only a tree-based map.

C++ 11 added std::unordered_map (as well as std::unordered_set and multi versions of both), which is based on hashing though.

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    Surely the standard containers had been worked on for years and years in the STL before standardisation. It's hard to see how there was "no time to add it". Granted, the question only then becomes one of why the STL had this property, which gets us no closer to an answer. Commented Mar 26, 2014 at 17:08
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    @LightnessRacesinOrbit: They had been worked on yes--but keep in mind that (in round numbers) only about half of the STL was accepted into the standard. Especially in terms of actual specification, it appears that quite a bit was being written barely in time for inclusion in the standard. Commented Mar 26, 2014 at 17:47

The reason is that map is explicitly called out as an ordered container. It keeps the elements sorted and allows you to iterate in sorted order in linear time. A hashtable couldn't fulfill those requirements.

In C++11 they added std::unordered_map which is a hashtable implementation.

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    Not to be insulting, but I really can't figure out why this is getting up-voted at all. I'd read the question as: "why does the standard require that map be ordered?" and this answers: "because the standard requires that map be ordered." It's certainly true that it does, but this does nothing to tell why. Commented Mar 26, 2014 at 15:46
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    @Jerry Coffin I read (and answered) the question as "why is the implementation of map not a hashtable". Perhaps the OP would clarify their actual question.
    – Mark B
    Commented Mar 26, 2014 at 16:13
  • Question clarification would certainly help. I too do not understand what exactly the OP is seeking help with. Commented Mar 26, 2014 at 16:14
  • @MarkB: Yeah--the basic problem with that is that the standard doesn't mandate using a red-black tree (or a tree at all). There are implementations of map that don't use red-black trees. Commented Mar 26, 2014 at 16:56
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    @Jerry Coffin Just for my own information, what non-tree container fulfills the complexity requirements of map? (We agree that it doesn't mandate using a red-black tree)
    – Mark B
    Commented Mar 26, 2014 at 18:29

A hash table requires an additional hash function. The current implementation of map which uses a tree can work without an extra hash function by using operator<. Additionally the map allows sorted access to elements, which may be beneficial for some applications. With C++ we now have the hash versions available in form of unordered_set.

  • The copy constructor and assignment operator =, as well as the < and == operators should be defined for the element(s) being stored in the container (e.g. map, vector, list, deque, etc.). Consequently, both copying and comparing are fully supported. Commented Mar 26, 2014 at 15:41
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    @cplusplus ooa and d Do you have a reference for this? I never heard of == being a requirement of any container.
    – MatthiasB
    Commented Mar 26, 2014 at 15:44
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    @MatthiasB: I'm reasonably certain it's not a requirement for any container (though it is used by a few algorithms, such as std::find). Containers that need to compare for equality do it using <: (!a<b) && (!b<a) implies a==b. Commented Mar 26, 2014 at 15:47
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    @GWW std::map does not use operator< directly, there are two indirections at work: I) std::map<K, V> is just a short-hand for std::map<K, V, std::less<K>> and II) the default implementation of std::less uses operator<. So you could specialize std::less<X> for a certain type X to use something other than operator<, or (more realistically) you could parameterize the map explicitly with a different comparator, for example std::map<K, V, std::greater<K>> to store the keys in descending order. Commented Mar 26, 2014 at 17:02
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    @CPlusPlusOOAandD: I can pretty much predict the results: having/lacking == will make no difference. A type that doesn't define < simply won't compile unless you also specify something to to the comparison when you (attempt to) instantiate the map. Commented Mar 26, 2014 at 17:31

Simple answer: because a hash table cannot satisfy the complexity requirements of iteration over a std::map.

Why does std::map hold these requirements? Unanswerable question. Historical factors contribute but, overall, that's just the way it is.

Hashes are available as std::unordered_map.

It doesn't really matter what the two are called, or what they're called in some other language.

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