libinsighttoolkit4-dev 4.5.0-3 / usr / include / ITK-4.5 / emulation / vcl_hashtable.h

// This is vcl/emulation/vcl_hashtable.h
//
// Copyright (c) 1996
// Silicon Graphics Computer Systems, Inc.
//
// Permission to use, copy, modify, distribute and sell this software
// and its documentation for any purpose is hereby granted without fee,
// provided that the above copyright notice appear in all copies and
// that both that copyright notice and this permission notice appear
// in supporting documentation.  Silicon Graphics makes no
// representations about the suitability of this software for any
// purpose.  It is provided "as is" without express or implied warranty.
//
//
// Copyright (c) 1994
// Hewlett-Packard Company
//
// Permission to use, copy, modify, distribute and sell this software
// and its documentation for any purpose is hereby granted without fee,
// provided that the above copyright notice appear in all copies and
// that both that copyright notice and this permission notice appear
// in supporting documentation.  Hewlett-Packard Company makes no
// representations about the suitability of this software for any
// purpose.  It is provided "as is" without express or implied warranty.
//
// Exception Handling:
// Copyright (c) 1997
// Mark of the Unicorn, Inc.
//
// Permission to use, copy, modify, distribute and sell this software
// and its documentation for any purpose is hereby granted without fee,
// provided that the above copyright notice appear in all copies and
// that both that copyright notice and this permission notice appear
// in supporting documentation.  Mark of the Unicorn makes no
// representations about the suitability of this software for any
// purpose.  It is provided "as is" without express or implied warranty.
//
// Adaptation:
// Copyright (c) 1997
// Moscow Center for SPARC Technology
//
// Permission to use, copy, modify, distribute and sell this software
// and its documentation for any purpose is hereby granted without fee,
// provided that the above copyright notice appear in all copies and
// that both that copyright notice and this permission notice appear
// in supporting documentation.  Moscow Center for SPARC Technology makes no
// representations about the suitability of this software for any
// purpose.  It is provided "as is" without express or implied warranty.
//
#ifndef vcl_emulation_hashtable_h
#define vcl_emulation_hashtable_h

// Hashtable class, used to implement the hashed associative containers
// vcl_hash_set, vcl_hash_map, vcl_hash_multiset, and vcl_hash_multimap.


//#include <vcl_cstdlib.h>

#include "vcl_alloc.h"
#include <vcl_algorithm.h>
#include <vcl_iterator.h>
#include <vcl_vector.h>
#include "vcl_pair.h"
#include <vcl_exception.h>
//#include <vcl_memory.h>

#if defined ( __STL_USE_ABBREVS )
# define vcl_hashtable_iterator         hTIt
# define vcl_hashtable_const_iterator   hTcIt
# define vcl_hashtable_node             hTN
# define vcl_hashtable_base             hTB
# define vcl_hashtable                  hT
#endif

#if defined(VCL_EMULATION_STLCONF_H_INCLUDED)
#define VCL_debug_do(x) __stl_debug_do(x)
#define VCL_debug_check(x) __stl_debug_check(x)
#define VCL_verbose_assert(expr, msg) __stl_verbose_assert(expr, msg)
#else
#define VCL_debug_do(x)
#define VCL_debug_check(x)
#define VCL_verbose_assert(expr, msg)
#endif

template <class Key> struct vcl_hash { };

inline vcl_size_t VCL_hash_string(const char* s)
{
  unsigned long h = 0;
  for (; *s; ++s)
    h = 5*h + *s;

  return vcl_size_t(h);
}

struct vcl_hash<char*>
{
  vcl_size_t operator()(const char* s) const { return VCL_hash_string(s); }
};

struct vcl_hash<const char*>
{
  vcl_size_t operator()(const char* s) const { return VCL_hash_string(s); }
};

struct vcl_hash<char> {
  vcl_size_t operator()(char x) const { return x; }
};

struct vcl_hash<unsigned char> {
  vcl_size_t operator()(unsigned char x) const { return x; }
};

struct vcl_hash<signed char> {
  vcl_size_t operator()(unsigned char x) const { return x; }
};

struct vcl_hash<short> {
  vcl_size_t operator()(short x) const { return x; }
};

struct vcl_hash<unsigned short> {
  vcl_size_t operator()(unsigned short x) const { return x; }
};

struct vcl_hash<int> {
  vcl_size_t operator()(int x) const { return x; }
};

struct vcl_hash<unsigned int> {
  vcl_size_t operator()(unsigned int x) const { return x; }
};

struct vcl_hash<long> {
  vcl_size_t operator()(long x) const { return x; }
};

struct vcl_hash<unsigned long> {
  vcl_size_t operator()(unsigned long x) const { return x; }
};

template <class Value>
struct vcl_hashtable_node
{
  typedef vcl_hashtable_node<Value> self;
  self* next;
  Value val;
};

template <class Value, class Key, class HashFcn, class ExtractKey, class EqualKey , VCL_DFL_TYPE_PARAM_STLDECL(Alloc,vcl_alloc)>
class vcl_hashtable;

template <class Value, class Key, class HashFcn, class ExtractKey, class EqualKey, class Alloc>
struct vcl_hashtable_iterator;

template <class Value, class Key, class HashFcn, class ExtractKey, class EqualKey, class Alloc>
struct vcl_hashtable_const_iterator;

template <class Value, class Key, class HashFcn, class ExtractKey, class EqualKey, class Alloc>
struct vcl_hashtable_iterator
{
  typedef vcl_hashtable<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc> hash_table;
  typedef vcl_hashtable_iterator<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc> iterator;
  typedef vcl_hashtable_const_iterator<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc> const_iterator;
  typedef vcl_hashtable_node<Value> node;
  typedef vcl_size_t size_type;
  typedef Value& reference;
  typedef const Value& const_reference;

  node* cur;
  hash_table* ht;

  vcl_hashtable_iterator(node* n, hash_table* tab) : cur(n), ht(tab) {}
  vcl_hashtable_iterator() {}
  reference operator*() const {
    VCL_verbose_assert(valid() && cur!=0,__STL_MSG_NOT_DEREFERENCEABLE);
    return cur->val;
  }
  inline iterator& operator++();
  inline iterator operator++(int);
  bool operator==(const iterator& it) const {
    VCL_debug_check(__check_same_owner(*this,it));
    return cur == it.cur;
  }
  bool operator!=(const iterator& it) const {
    VCL_debug_check(__check_same_owner(*this,it));
    return cur != it.cur;
  }
};


template <class Value, class Key, class HashFcn, class ExtractKey, class EqualKey, class Alloc>
struct vcl_hashtable_const_iterator
{
  typedef vcl_hashtable<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc> hash_table;
  typedef vcl_hashtable_iterator<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc> iterator;
  typedef vcl_hashtable_const_iterator<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc> const_iterator;
  typedef vcl_hashtable_node<Value> node;
  typedef vcl_size_t size_type;
  typedef Value& reference;
  typedef const Value& const_reference;

  const node* cur;
  const hash_table* ht;

  vcl_hashtable_const_iterator(const node* n, const hash_table* tab) : cur(n), ht(tab) {}
  vcl_hashtable_const_iterator() {}
  vcl_hashtable_const_iterator(const iterator& it) : cur(it.cur), ht(it.ht) {}

  const_reference operator*() const {
    VCL_verbose_assert(valid() && cur!=0,__STL_MSG_NOT_DEREFERENCEABLE);
    return cur->val;
  }
  inline const_iterator& operator++();
  inline const_iterator operator++(int);
  bool operator==(const const_iterator& it) const {
    VCL_debug_check(__check_same_owner(*this,it));
    return cur == it.cur;
  }
  bool operator!=(const const_iterator& it) const {
    VCL_debug_check(__check_same_owner(*this,it));
    return cur != it.cur;
  }
};

// Note: assumes long is at least 32 bits.
// fbp: try to avoid instances in every module
enum { VCL_num_primes = 28 };

#if ( __STL_STATIC_TEMPLATE_DATA > 0 ) && ! defined (VCL_WIN32)
#  define VCL_prime_list VCL_prime<false>::list_
   template <bool dummy> struct VCL_prime { public: static const unsigned long list_[]; };
//rick put vcl_list in single .o  dummy here so array constant parses
//   template <bool dummy>
//   const unsigned long VCL_prime<dummy>::list_[] =
      static const unsigned long VCL_prime_list_dummy[VCL_num_primes] =
#  else
#  if ( __STL_WEAK_ATTRIBUTE > 0 )
      extern const unsigned long VCL_prime_list[VCL_num_primes] __attribute__((weak)) =
#  else
      // give up
      static const unsigned long VCL_prime_list[VCL_num_primes] =
#  endif // __STL_WEAK_ATTRIBUTE
#endif // __STL_STATIC_TEMPLATE_DATA
{
  53,         97,         193,       389,       769,
  1543,       3079,       6151,      12289,     24593,
  49157,      98317,      196613,    393241,    786433,
  1572869,    3145739,    6291469,   12582917,  25165843,
  50331653,   100663319,  201326611, 402653189, 805306457,
  1610612741, 3221225473U, 4294967291U
};

inline unsigned long VCL_next_prime(unsigned long n)
{
  const unsigned long* first = VCL_prime_list;
  const unsigned long* last = VCL_prime_list;
  last += VCL_num_primes;
  const unsigned long* pos = vcl_lower_bound(first, last, n);
  return pos == last ? *(last - 1) : *pos;
}

template <class Value, class Alloc>
class vcl_hashtable_base
{
 private:
  typedef Value value_type;
  typedef vcl_size_t size_type;
  typedef vcl_hashtable_node<Value> node;
  typedef vcl_simple_alloc<node, Alloc> node_allocator;
 public: // These are public to get around restriction on protected access
  typedef vcl_vector<VCL_SUNPRO_ALLOCATOR_HACK(node*) > buckets_type;
  buckets_type buckets; // awf killed optional allocator
  size_type num_elements;
 protected:
  inline void clear();

  node* new_node(const value_type& obj)
  {
    node* n = node_allocator::allocate();
    vcl_try {
      new (&(n->val)) value_type(obj);
    }
    vcl_catch_all {
      node_allocator::deallocate(n);
      vcl_throw "";
    }
    n->next = 0;
    return n;
  }

  void delete_node(node* n)
  {
#define vcli_destroy(T, p)    ((T*)p)->~T()
    vcli_destroy(Value, &(n->val));
#undef vcli_destroy
    node_allocator::deallocate(n);
  }

  inline void copy_from(const vcl_hashtable_base<Value,Alloc>& ht);

 public: // These are public to get around restriction on protected access
  vcl_hashtable_base() : num_elements(0) { }
 ~vcl_hashtable_base() { clear(); VCL_debug_do(invalidate()); }
};


// forward declarations
template <class Value, class Key, class HashFcn, class ExtractKey, class EqualKey, class Alloc> class vcl_hashtable;
template <class Value, class Key, class HashFcn, class ExtractKey, class EqualKey, class Alloc>
  bool operator== (vcl_hashtable<Value,Key,HashFcn,ExtractKey,EqualKey,Alloc>const&,
                   vcl_hashtable<Value,Key,HashFcn,ExtractKey,EqualKey,Alloc>const&);

template <class Value, class Key, class HashFcn, class ExtractKey, class EqualKey, class Alloc>
class vcl_hashtable : protected vcl_hashtable_base<Value, Alloc>
{
  typedef vcl_hashtable_base<Value, Alloc> super;
  typedef vcl_hashtable<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc> self;
 public:
  typedef Key key_type;
  typedef Value value_type;
  typedef HashFcn hasher;
  typedef EqualKey key_equal;

  typedef vcl_size_t        size_type;
  typedef vcl_ptrdiff_t     difference_type;
  typedef value_type*       pointer;
  typedef const value_type* const_pointer;
  typedef value_type&       reference;
  typedef const value_type& const_reference;

  hasher hash_funct() const { return hashfun; }
  key_equal key_eq() const { return equals; }

 private:
  hasher hashfun;
  key_equal equals;
  ExtractKey get_key;

  typedef vcl_hashtable_node<Value> node;
  typedef vcl_simple_alloc<node, Alloc> node_allocator;

 public:
  typedef vcl_hashtable_iterator<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc> iterator;
  typedef vcl_hashtable_const_iterator<Value, Key, HashFcn, ExtractKey, EqualKey,Alloc> const_iterator;
 friend struct
  vcl_hashtable_iterator<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc>;
 friend struct
  vcl_hashtable_const_iterator<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc>;

 public:
  vcl_hashtable(size_type n,
                const HashFcn&    hf,
                const EqualKey&   eql,
                const ExtractKey& ext)
    : hashfun(hf), equals(eql), get_key(ext)
  {
    VCL_debug_do(safe_init(this));
    initialize_buckets(n);
  }

  vcl_hashtable(size_type n,
                const HashFcn&    hf,
                const EqualKey&   eql)
    : hashfun(hf), equals(eql), get_key(ExtractKey())
  {
    VCL_debug_do(safe_init(this));
    initialize_buckets(n);
  }

  vcl_hashtable(const self& ht)
    : hashfun(ht.hashfun), equals(ht.equals), get_key(ht.get_key)
  {
    VCL_debug_do(safe_init(this));
    copy_from(ht);
  }

  self& operator= (const self& ht)
  {
    if (&ht != this) {
      hashfun = ht.hashfun;
      equals = ht.equals;
      get_key = ht.get_key;
      clear();
      buckets.clear();
      copy_from(ht);
    }
    return *this;
  }

  ~vcl_hashtable() {}

  size_type size() const { return num_elements; }
  size_type max_size() const { return size_type(-1); }
  bool empty() const { return size() == 0; }

  void swap(self& ht)
  {
    vcl_swap(hashfun, ht.hashfun);
    vcl_swap(equals, ht.equals);
    vcl_swap(get_key, ht.get_key);
    buckets.swap(ht.buckets);
    vcl_swap(num_elements, ht.num_elements);
    VCL_debug_do(swap_owners(ht));
  }

  iterator begin()
  {
    for (size_type n = 0; n < buckets.size(); ++n)
      if (buckets[n])
        return iterator(buckets[n], this);
    return end();
  }

  iterator end() { return iterator((node*)0, this); }

  const_iterator begin() const
  {
    for (size_type n = 0; n < buckets.size(); ++n)
      if (buckets[n])
        return const_iterator(buckets[n], this);
    return end();
  }

  const_iterator end() const { return const_iterator((node*)0, this); }

  bool operator== VCL_NULL_TMPL_ARGS (const self& ht2) const
  {
    if (buckets.size() != ht2.buckets.size())
      return false;
    for (int n = 0; n < buckets.size(); ++n) {
      typename node* cur1 = buckets[n];
      typename node* cur2 = ht2.buckets[n];
      for (; cur1 && cur2 && cur1->val == cur2->val;
           cur1 = cur1->next, cur2 = cur2->next)
      {}
      if (cur1 || cur2)
        return false;
    }
    return true;
  }

 public:

  size_type bucket_count() const { return buckets.size(); }

  size_type max_bucket_count() const
  { return VCL_prime_list[VCL_num_primes - 1]; }

  size_type elems_in_bucket(size_type bucket) const
  {
    size_type result = 0;
    for (node* cur = buckets[bucket]; cur; cur = cur->next)
      result += 1;
    return result;
  }

  vcl_pair<iterator, bool> insert_unique(const value_type& obj)
  {
    resize(num_elements + 1);
    return insert_unique_noresize(obj);
  }

  iterator insert_equal(const value_type& obj)
  {
    resize(num_elements + 1);
    return insert_equal_noresize(obj);
  }

  inline vcl_pair<iterator, bool> insert_unique_noresize(const value_type& obj);
  inline iterator insert_equal_noresize(const value_type& obj);

  void insert_unique(const value_type* f, const value_type* l)
  {
    size_type n = l - f;
    resize(num_elements + n);
    for (; n > 0; --n)
      insert_unique_noresize(*f++);
  }

  void insert_equal(const value_type* f, const value_type* l)
  {
    size_type n = l - f;
    resize(num_elements + n);
    for (; n > 0; --n)
      insert_equal_noresize(*f++);
  }

#if defined(VCL_WIN32)
  static void vcl_distance(const_iterator f, const_iterator l, size_type& n) {
    while (f != l) { ++f; ++n; }
  }
#endif


  void insert_unique(const_iterator f, const_iterator l)
  {
    size_type n = 0;
    vcl_distance(f, l, n);
    resize(num_elements + n);
    for (; n > 0; --n)
      insert_unique_noresize(*f++);
  }

  void insert_equal(const_iterator f, const_iterator l)
  {
    size_type n = 0;
    vcl_distance(f, l, n);
    resize(num_elements + n);
    for (; n > 0; --n)
      insert_equal_noresize(*f++);
  }

  inline reference find_or_insert(const value_type& obj);

  iterator find(const key_type& key)
  {
    size_type n = bkt_num_key(key);
    node* first;
    for ( first = buckets[n];
          first && !equals(get_key(first->val), key);
          first = first->next)
      {}
    return iterator(first, this);
  }

  const_iterator find(const key_type& key) const
  {
    size_type n = bkt_num_key(key);
    const node* first;
    for ( first = buckets[n];
          first && !equals(get_key(first->val), key);
          first = first->next)
      {}
    return const_iterator(first, this);
  }

  size_type count(const key_type& key) const
  {
    const size_type n = bkt_num_key(key);
    size_type result = 0;

    for (const node* cur = buckets[n]; cur; cur = cur->next)
      if (equals(get_key(cur->val), key))
        ++result;
    return result;
  }

  inline vcl_pair<iterator, iterator> equal_range(const key_type& key);
  inline vcl_pair<const_iterator, const_iterator> equal_range(const key_type& key) const;

  inline size_type erase(const key_type& key);
  inline void erase(const iterator& it);
  inline void erase(iterator first, iterator last);

  inline void erase(const const_iterator& it);
  inline void erase(const_iterator first, const_iterator last);

  inline void resize(size_type num_elements_hint);
  void clear() { super::clear(); VCL_debug_do(invalidate_all()); }
 private:
  size_type next_size(size_type n) const { return VCL_next_prime(n); }

  void initialize_buckets(size_type n)
  {
    const size_type n_buckets = next_size(n);
    buckets.reserve(n_buckets);
    buckets.insert(buckets.end(), n_buckets, (node*) 0);
    num_elements = 0;
  }
  size_type bkt_num_key(const key_type& key) const{ return bkt_num_key(key, buckets.size()); }

  size_type bkt_num(const value_type& obj) const { return bkt_num_key(get_key(obj)); }

  size_type bkt_num_key(const key_type& key, vcl_size_t n) const { return hashfun(key) % n; }

  size_type bkt_num(const value_type& obj, vcl_size_t n) const { return bkt_num_key(get_key(obj), n); }
  inline void erase_bucket(const size_type n, node* first, node* last);
  inline void erase_bucket(const size_type n, node* last);
};

// fbp: these defines are for outline methods definitions.
// needed to definitions to be portable. Should not be used in method bodies.

# if defined ( __STL_NESTED_TYPE_PARAM_BUG )
#  define __difference_type__ vcl_ptrdiff_t
#  define __size_type__       vcl_size_t
#  define __value_type__      Value
#  define __key_type__        Key
#  define __node__            vcl_hashtable_node<Value>
#  define __reference__       Value&
# else
#  define __difference_type__  vcl_hashtable<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc>::difference_type
#  define __size_type__        vcl_hashtable<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc>::size_type
#  define __value_type__       vcl_hashtable<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc>::value_type
#  define __key_type__         vcl_hashtable<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc>::key_type
#  define __node__             vcl_hashtable<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc>::node
#  define __reference__        vcl_hashtable<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc>::reference
# endif

template <class Value, class Key, class HashFcn, class ExtractKey, class EqualKey, class Alloc>
inline vcl_hashtable_iterator<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc>&
vcl_hashtable_iterator<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc>::operator++()
{
  const node* old = cur;
  VCL_verbose_assert(old!=0,__STL_MSG_INVALID_ADVANCE);
  cur = cur->next;
  if (!cur) {
    size_type bucket = ht->bkt_num(old->val);
    while (!cur && ++bucket < ht->buckets.size())
      cur = ht->buckets[bucket];
  }
  return *this;
}

template <class Value, class Key, class HashFcn, class ExtractKey, class EqualKey, class Alloc>
inline vcl_hashtable_iterator<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc>
vcl_hashtable_iterator<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc>::operator++(int)
{
  iterator tmp = *this;
  ++*this;
  return tmp;
}

template <class Value, class Key, class HashFcn, class ExtractKey, class EqualKey, class Alloc>
inline vcl_hashtable_const_iterator<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc>&
vcl_hashtable_const_iterator<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc>::operator++()
{
  const node* old = cur;
  VCL_verbose_assert(old!=0,__STL_MSG_INVALID_ADVANCE);
  cur = cur->next;
  if (!cur) {
    size_type bucket = ht->bkt_num(old->val);
    while (!cur && ++bucket < ht->buckets.size())
      cur = ht->buckets[bucket];
  }
  return *this;
}

template <class Value, class Key, class HashFcn, class ExtractKey, class EqualKey, class Alloc>
inline vcl_hashtable_const_iterator<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc>
vcl_hashtable_const_iterator<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc>::operator++(int)
{
  const_iterator tmp = *this;
  ++*this;
  return tmp;
}

template <class Value, class Key, class HashFcn, class ExtractKey, class EqualKey, class Alloc>
inline vcl_forward_iterator_tag
iterator_category (const vcl_hashtable_iterator<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc>&)
{
  return vcl_forward_iterator_tag();
}

template <class Value, class Key, class HashFcn, class ExtractKey, class EqualKey, class Alloc>
inline Value*
value_type(const vcl_hashtable_iterator<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc>&)
{
  return (Value*) 0;
}

template <class Value, class Key, class HashFcn, class ExtractKey, class EqualKey, class Alloc>
inline vcl_ptrdiff_t*
distance_type(const vcl_hashtable_iterator<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc>&)
{
  return (vcl_ptrdiff_t*) 0;
}

template <class Value, class Key, class HashFcn, class ExtractKey, class EqualKey, class Alloc>
inline vcl_forward_iterator_tag
iterator_category (const vcl_hashtable_const_iterator<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc>&)
{
  return vcl_forward_iterator_tag();
}

template <class Value, class Key, class HashFcn, class ExtractKey, class EqualKey, class Alloc>
inline Value*
value_type(const vcl_hashtable_const_iterator<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc>&)
{
  return (Value*) 0;
}

template <class Value, class Key, class HashFcn, class ExtractKey, class EqualKey, class Alloc>
inline vcl_ptrdiff_t*
distance_type(const vcl_hashtable_const_iterator<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc>&)
{
  return (vcl_ptrdiff_t*) 0;
}


template <class Value, class Key, class HashFcn, class ExtractKey, class EqualKey, class Alloc>
vcl_pair<vcl_hashtable_iterator<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc>, bool>
vcl_hashtable<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc>::insert_unique_noresize(const __value_type__& obj)
{
  const size_type n = bkt_num(obj);
  node* first = buckets[n];

  for (node* cur = first; cur; cur = cur->next)
    if (equals(get_key(cur->val), get_key(obj)))
      return vcl_pair<iterator, bool>(iterator(cur, this), false);

  node* tmp = new_node(obj);
  tmp->next = first;
  buckets[n] = tmp;
  ++num_elements;
  return vcl_pair<iterator, bool>(iterator(tmp, this), true);
}

template <class Value, class Key, class HashFcn, class ExtractKey, class EqualKey, class Alloc>
vcl_hashtable_iterator<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc>
vcl_hashtable<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc>::insert_equal_noresize(const __value_type__& obj)
{
  const size_type n = bkt_num(obj);
  node* first = buckets[n];

  for (node* cur = first; cur; cur = cur->next)
    if (equals(get_key(cur->val), get_key(obj))) {
      node* tmp = new_node(obj);
      tmp->next = cur->next;
      cur->next = tmp;
      ++num_elements;
      return iterator(tmp, this);
    }

  node* tmp = new_node(obj);
  tmp->next = first;
  buckets[n] = tmp;
  ++num_elements;
  return iterator(tmp, this);
}

template <class Value, class Key, class HashFcn, class ExtractKey, class EqualKey, class Alloc>
typename __reference__
vcl_hashtable<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc>::find_or_insert(const __value_type__& obj)
{
  resize(num_elements + 1);

  size_type n = bkt_num(obj);
  node* first = buckets[n];

  for (node* cur = first; cur; cur = cur->next)
    if (equals(get_key(cur->val), get_key(obj)))
      return cur->val;

  node* tmp = new_node(obj);
  tmp->next = first;
  buckets[n] = tmp;
  ++num_elements;
  return tmp->val;
}

template <class Value, class Key, class HashFcn, class ExtractKey, class EqualKey, class Alloc>
vcl_pair<vcl_hashtable_iterator<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc>,
     vcl_hashtable_iterator<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc> >
vcl_hashtable<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc>::equal_range(const __key_type__& key)
{
  typedef vcl_pair<iterator, iterator> pii;
  const size_type n = bkt_num_key(key);

  for (node* first = buckets[n]; first; first = first->next) {
    if (equals(get_key(first->val), key)) {
      for (node* cur = first->next; cur; cur = cur->next)
        if (!equals(get_key(cur->val), key))
          return pii(iterator(first, this), iterator(cur, this));
      for (size_type m = n + 1; m < buckets.size(); ++m)
        if (buckets[m])
          return pii(iterator(first, this),
                     iterator(buckets[m], this));
      return pii(iterator(first, this), end());
    }
  }
  return pii(end(), end());
}

template <class Value, class Key, class HashFcn, class ExtractKey, class EqualKey, class Alloc>
vcl_pair<vcl_hashtable_const_iterator<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc>,
     vcl_hashtable_const_iterator<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc> >
vcl_hashtable<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc>::equal_range(const __key_type__& key) const
{
  typedef vcl_pair<const_iterator, const_iterator> pii;
  const size_type n = bkt_num_key(key);

  for (const node* first = buckets[n]; first; first = first->next) {
    if (equals(get_key(first->val), key)) {
      for (const node* cur = first->next; cur; cur = cur->next)
        if (!equals(get_key(cur->val), key))
          return pii(const_iterator(first, this),
                     const_iterator(cur, this));
      for (size_type m = n + 1; m < buckets.size(); ++m)
        if (buckets[m])
          return pii(const_iterator(first, this),
                     const_iterator(buckets[m], this));
      return pii(const_iterator(first, this), end());
    }
  }
  return pii(end(), end());
}

template <class Value, class Key, class HashFcn, class ExtractKey, class EqualKey, class Alloc>
typename __size_type__
vcl_hashtable<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc>::erase(const __key_type__& key)
{
  const size_type n = bkt_num_key(key);
  node* first = buckets[n];
  size_type erased = 0;

  if (first) {
    node* cur = first;
    node* next = cur->next;
    while (next) {
      if (equals(get_key(next->val), key)) {
        cur->next = next->next;
        delete_node(next);
        next = cur->next;
        ++erased;
      }
      else {
        cur = next;
        next = cur->next;
      }
    }
    if (equals(get_key(first->val), key)) {
      buckets[n] = first->next;
      delete_node(first);
      ++erased;
    }
  }
  num_elements -= erased;
  return erased;
}

template <class Value, class Key, class HashFcn, class ExtractKey, class EqualKey, class Alloc>
void
vcl_hashtable<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc>::erase(
     const vcl_hashtable_iterator<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc>& it)
{
  VCL_verbose_assert(it.owner()==this, __STL_MSG_NOT_OWNER);
  node* const p = it.cur;
  if (p) {
    const size_type n = bkt_num(p->val);
    node* cur = buckets[n];

    if (cur == p) {
      buckets[n] = cur->next;
      delete_node(cur);
      --num_elements;
    }
    else {
      node* next = cur->next;
      while (next) {
        if (next == p) {
          cur->next = next->next;
          delete_node(next);
          --num_elements;
          break;
        }
        else {
          cur = next;
          next = cur->next;
        }
      }
    }
  }
}

template <class Value, class Key, class HashFcn, class ExtractKey, class EqualKey, class Alloc>
void
vcl_hashtable<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc>::erase(
     vcl_hashtable_iterator<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc> first,
     vcl_hashtable_iterator<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc> last)
{
  size_type f_bucket = first.cur ? bkt_num(first.cur->val) : buckets.size();
  size_type l_bucket = last.cur ? bkt_num(last.cur->val) : buckets.size();
  VCL_debug_check(__check_if_owner(this,first)&&__check_if_owner(this,last));
  VCL_verbose_assert(f_bucket <= l_bucket, __STL_MSG_INVALID_RANGE);
  if (first.cur == last.cur)
    return;
  else if (f_bucket == l_bucket)
    erase_bucket(f_bucket, first.cur, last.cur);
  else {
    erase_bucket(f_bucket, first.cur, 0);
    for (size_type n = f_bucket + 1; n < l_bucket; ++n)
      erase_bucket(n, 0);
    if (l_bucket != buckets.size())
      erase_bucket(l_bucket, last.cur);
  }
}

template <class Value, class Key, class HashFcn, class ExtractKey, class EqualKey, class Alloc>
inline void
vcl_hashtable<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc>::erase(
     vcl_hashtable_const_iterator<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc> first,
     vcl_hashtable_const_iterator<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc> last)
{
  erase(iterator(__CONST_CAST(node*,first.cur),
                 __CONST_CAST(self*,first.ht)),
        iterator(__CONST_CAST(node*,last.cur),
                 __CONST_CAST(self*,last.ht)));
}

template <class Value, class Key, class HashFcn, class ExtractKey, class EqualKey, class Alloc>
inline void
vcl_hashtable<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc>::erase(
     const vcl_hashtable_const_iterator<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc>& it)
{
  erase(iterator(__CONST_CAST(node*,it.cur),
                 __CONST_CAST(self*,it.ht)));
}

template <class Value, class Key, class HashFcn, class ExtractKey, class EqualKey, class Alloc>
void
vcl_hashtable<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc>::resize(__size_type__ num_elements_hint)
{
  const size_type old_n = buckets.size();
  if (num_elements_hint > old_n) {
    const size_type n = next_size(num_elements_hint);
    if (n > old_n) {
      typename vcl_hashtable<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc>::buckets_type tmp(n, (node*)0);
      for (size_type bucket = 0; bucket < old_n; ++bucket) {
        node* first = buckets[bucket];
        while (first) {
          size_type new_bucket = bkt_num(first->val, n);
          buckets[bucket] = first->next;
          first->next = tmp[new_bucket];
          tmp[new_bucket] = first;
          first = buckets[bucket];
        }
      }
      buckets.clear();
      buckets.swap(tmp);
    }
  }
}


template <class Value, class Key, class HashFcn, class ExtractKey, class EqualKey, class Alloc>
void
vcl_hashtable<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc>::erase_bucket(
     const vcl_size_t n,
     vcl_hashtable_node<Value>* first,
     vcl_hashtable_node<Value>* last)
{
  node* cur = buckets[n];
  if (cur == first)
    erase_bucket(n, last);
  else {
    node* next;
    for (next = cur->next; next != first; cur = next, next = cur->next)
      ;
    while (next) {
      cur->next = next->next;
      delete_node(next);
      next = cur->next;
      --num_elements;
    }
  }
}

template <class Value, class Key, class HashFcn, class ExtractKey, class EqualKey, class Alloc>
void
vcl_hashtable<Value, Key, HashFcn, ExtractKey, EqualKey, Alloc>::erase_bucket(
     const vcl_size_t n,
     vcl_hashtable_node<Value>* last)
{
  node* cur = buckets[n];
  while (cur != last) {
    node* next = cur->next;
    delete_node(cur);
    cur = next;
    buckets[n] = cur;
    --num_elements;
  }
}

template <class Value, class Alloc>
void vcl_hashtable_base<Value, Alloc>::clear()
{
  for (size_type i = 0; i < buckets.size(); ++i) {
    node* cur = buckets[i];
    while (cur != 0) {
      node* next = cur->next;
      delete_node(cur);
      cur = next;
    }
    buckets[i] = 0;
  }
  num_elements = 0;
}


template <class Value, class Alloc>
void vcl_hashtable_base<Value, Alloc>::copy_from(const vcl_hashtable_base<Value, Alloc>& ht)
{
  buckets.reserve(ht.buckets.size());
  buckets.insert(buckets.end(), ht.buckets.size(), (node*) 0);
  for (size_type i = 0; i < ht.buckets.size(); ++i) {
    const node* cur = ht.buckets[i];
    if (cur) {
      node* copy = new_node(cur->val);
      buckets[i] = copy;
      ++num_elements;

      for (node* next = cur->next; next; cur = next, next = cur->next) {
        copy->next = new_node(next->val);
        ++num_elements;
        copy = copy->next;
      }
    }
  }
}

# undef __difference_type__
# undef __size_type__
# undef __value_type__
# undef __key_type__
# undef __node__
// A dummy symbol to avoid missing symbol warnings from ranlib
void vcl_hashtable_dummy_to_avoid_ranlib_warning() {}

#endif // vcl_emulation_hashtable_h