I am using

unordered_map<string, int>


unordered_map<int, int>

What hash function is used in each case and what is chance of collision in each case? I will be inserting unique string and unique int as keys in each case respectively.

I am interested in knowing the algorithm of hash function in case of string and int keys and their collision stats.

  • I think it's up to the standard. Not sure what an unorderd_map is. – Joel Oct 16 '13 at 19:11
  • unordered_map is like hash table...Did default hash functions change in C++98 vs C++11? – Medicine Oct 16 '13 at 19:15
  • You tagged this C++11, but asked about TR1. Which is it? – John Dibling Oct 16 '13 at 19:21
  • Sorry @John Dibling, I tagged it C++11. I've edited the title too since I think the question has more meaning that way; now answers can refer to a formal standard. Do feel free to change back; I see you have more experience on this site than I do. – Bathsheba Oct 16 '13 at 19:25
  • Then why are you referring to the tr1 namespace? – John Dibling Oct 16 '13 at 19:25

The function object std::hash<> is used.

Standard specializations exist for all built-in types, and some other standard library types such as std::string and std::thread. See the link for the full list.

For other types to be used in a std::unordered_map, you will have to specialize std::hash<> or create your own function object.

The chance of collision is completely implementation-dependent, but considering the fact that integers are limited between a defined range, while strings are theoretically infinitely long, I'd say there is a much better chance for collision with strings.

As for the implementation in GCC, the specialization for builtin-types just returns the bit pattern. Here's how they are defined in bits/functional_hash.h:

  /// Partial specializations for pointer types.
  template<typename _Tp>
    struct hash<_Tp*> : public __hash_base<size_t, _Tp*>
      operator()(_Tp* __p) const noexcept
      { return reinterpret_cast<size_t>(__p); }

  // Explicit specializations for integer types.
#define _Cxx_hashtable_define_trivial_hash(_Tp)     \
  template<>                        \
    struct hash<_Tp> : public __hash_base<size_t, _Tp>  \
    {                                                   \
      size_t                                            \
      operator()(_Tp __val) const noexcept              \
      { return static_cast<size_t>(__val); }            \

  /// Explicit specialization for bool.

  /// Explicit specialization for char.

  /// ...

The specialization for std::string is defined as:

  /// std::hash specialization for string.
    struct hash<string>
    : public __hash_base<size_t, string>
      operator()(const string& __s) const noexcept
      { return std::_Hash_impl::hash(__s.data(), __s.length()); }

Some further search leads us to:

struct _Hash_impl
  static size_t
  hash(const void* __ptr, size_t __clength,
       size_t __seed = static_cast<size_t>(0xc70f6907UL))
  { return _Hash_bytes(__ptr, __clength, __seed); }
// Hash function implementation for the nontrivial specialization.
// All of them are based on a primitive that hashes a pointer to a
// byte array. The actual hash algorithm is not guaranteed to stay
// the same from release to release -- it may be updated or tuned to
// improve hash quality or speed.
_Hash_bytes(const void* __ptr, size_t __len, size_t __seed);

_Hash_bytes is an external function from libstdc++. A bit more searching led me to this file, which states:

// This file defines Hash_bytes, a primitive used for defining hash
// functions. Based on public domain MurmurHashUnaligned2, by Austin
// Appleby.  http://murmurhash.googlepages.com/

So the default hashing algorithm GCC uses for strings is MurmurHashUnaligned2.

  • I am interested in knowing the algorithm of hash function in case of string and int keys and their collision stats. – Medicine Oct 16 '13 at 19:54
  • @Medicine: It's not specified by the standard, it's up to the library implementation to decide the best way to go about that. You'll have to look at your local implementation. For example, this answer now includes GCC's particular choices. – GManNickG Oct 16 '13 at 20:36
  • 11
    @Medicine: The default hash algorithm for Visual Studio (as of VS2012) is Fowler–Noll–Vo (FNV-1a). – Blastfurnace Oct 16 '13 at 20:37
  • 2
    Thanks @Avidanborisov my strings are all unique and are between 14 to 21 size comprising english-alphabets _ numbers – Medicine Oct 16 '13 at 21:24
  • 1
    @Medicine major props for using the word "comprising" correctly – John Peter Thompson Garcés Dec 30 '15 at 14:36

Though the hashing algorithms are compiler-dependent, I'll present it for GCC C++11. @Avidan Borisov astutely discovered that the GCC hashing algorithm used for strings is "MurmurHashUnaligned2," by Austin Appleby. I did some searching and found a mirrored copy of GCC on Github. Therefore:

The GCC C++11 hashing functions used for unordered_map (a hash table template) and unordered_set (a hash set template) appear to be as follows.


// Implementation of Murmur hash for 32-bit size_t.
size_t _Hash_bytes(const void* ptr, size_t len, size_t seed)
  const size_t m = 0x5bd1e995;
  size_t hash = seed ^ len;
  const char* buf = static_cast<const char*>(ptr);

  // Mix 4 bytes at a time into the hash.
  while (len >= 4)
    size_t k = unaligned_load(buf);
    k *= m;
    k ^= k >> 24;
    k *= m;
    hash *= m;
    hash ^= k;
    buf += 4;
    len -= 4;

  // Handle the last few bytes of the input array.
  switch (len)
    case 3:
      hash ^= static_cast<unsigned char>(buf[2]) << 16;
    case 2:
      hash ^= static_cast<unsigned char>(buf[1]) << 8;
    case 1:
      hash ^= static_cast<unsigned char>(buf[0]);
      hash *= m;

  // Do a few final mixes of the hash.
  hash ^= hash >> 13;
  hash *= m;
  hash ^= hash >> 15;
  return hash;

For additional hashing functions, including djb2, and the 2 versions of the K&R hashing functions (one apparently terrible, one pretty good), see my other answer here: https://stackoverflow.com/a/45641002/4561887.

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