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author anatofuz
date Mon, 25 May 2020 07:50:57 +0900
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/* A type-safe hash set.
   Copyright (C) 2014-2020 Free Software Foundation, Inc.

This file is part of GCC.

GCC is free software; you can redistribute it and/or modify it under
the terms of the GNU General Public License as published by the Free
Software Foundation; either version 3, or (at your option) any later

GCC is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or
for more details.

You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3.  If not see
<>.  */

#ifndef hash_set_h
#define hash_set_h

/* Class hash_set is a hash-value based container for objects of
   KeyId type.
   KeyId may be a non-trivial (non-POD) type provided a suitabe Traits
   class.  Default Traits specializations are provided for basic types
   such as integers, pointers, and std::pair.  Inserted elements are
   value-initialized either to zero for POD types or by invoking their
   default ctor.  Removed elements are destroyed by invoking their dtor.
   On hash_set destruction all elements are removed.  Objects of
   hash_set type are copy-constructible but not assignable.  */

template<typename KeyId, bool Lazy = false,
	 typename Traits = default_hash_traits<KeyId> >
class hash_set
  typedef typename Traits::value_type Key;
  explicit hash_set (size_t n = 13, bool ggc = false CXX_MEM_STAT_INFO)
    : m_table (n, ggc, true, GATHER_STATISTICS, HASH_SET_ORIGIN PASS_MEM_STAT) {}

  /* Create a hash_set in gc memory with space for at least n elements.  */

  static hash_set *
  create_ggc (size_t n)
      hash_set *set = ggc_alloc<hash_set> ();
      new (set) hash_set (n, true);
      return set;

  /* If key k isn't already in the map add it to the map, and
     return false.  Otherwise return true.  */

  bool add (const Key &k)
      Key *e = m_table.find_slot_with_hash (k, Traits::hash (k), INSERT);
      bool existed = !Traits::is_empty (*e);
      if (!existed)
	new (e) Key (k);

      return existed;

  /* if the passed in key is in the map return its value otherwise NULL.  */

  bool contains (const Key &k)
      if (Lazy)
	return (m_table.find_slot_with_hash (k, Traits::hash (k), NO_INSERT)
		!= NULL);
      Key &e = m_table.find_with_hash (k, Traits::hash (k));
      return !Traits::is_empty (e);

  void remove (const Key &k)
      m_table.remove_elt_with_hash (k, Traits::hash (k));

  /* Call the call back on each pair of key and value with the passed in
     arg.  */

  template<typename Arg, bool (*f)(const typename Traits::value_type &, Arg)>
  void traverse (Arg a) const
      for (typename hash_table<Traits, Lazy>::iterator iter = m_table.begin ();
	   iter != m_table.end (); ++iter)
	f (*iter, a);

  /* Return the number of elements in the set.  */

  size_t elements () const { return m_table.elements (); }

  /* Clear the hash table.  */

  void empty () { m_table.empty (); }

  /* Return true when there are no elements in this hash set.  */
  bool is_empty () const { return m_table.is_empty (); }

  class iterator
    explicit iterator (const typename hash_table<Traits,
						 Lazy>::iterator &iter) :
      m_iter (iter) {}

    iterator &operator++ ()
	return *this;

    operator* ()
	return *m_iter;

    operator != (const iterator &other) const
	return m_iter != other.m_iter;

    typename hash_table<Traits, Lazy>::iterator m_iter;

  /* Standard iterator retrieval methods.  */

  iterator begin () const { return iterator (m_table.begin ()); }
  iterator end () const { return iterator (m_table.end ()); }


  template<typename T, typename U>
  friend void gt_ggc_mx (hash_set<T, false, U> *);
  template<typename T, typename U>
  friend void gt_pch_nx (hash_set<T, false, U> *);
  template<typename T, typename U>
  friend void gt_pch_nx (hash_set<T, false, U> *, gt_pointer_operator, void *);

  hash_table<Traits, Lazy> m_table;

/* Generic hash_set<TYPE> debug helper.

   This needs to be instantiated for each hash_set<TYPE> used throughout
   the compiler like this:


   The reason we have a debug_helper() is because GDB can't
   disambiguate a plain call to debug(some_hash), and it must be called
   like debug<TYPE>(some_hash).  */
template<typename T>
debug_helper (hash_set<T> &ref)
  for (typename hash_set<T>::iterator it = ref.begin ();
       it != ref.end (); ++it)
      debug_slim (*it);
      fputc ('\n', stderr);

  template void debug_helper (hash_set<T> &);		\
  DEBUG_FUNCTION void					\
  debug (hash_set<T> &ref)				\
  {							\
    debug_helper <T> (ref);				\
  }							\
  DEBUG_FUNCTION void					\
  debug (hash_set<T> *ptr)				\
  {							\
    if (ptr)						\
      debug (*ptr);					\
    else						\
      fprintf (stderr, "<nil>\n");			\

/* ggc marking routines.  */

template<typename K, typename H>
static inline void
gt_ggc_mx (hash_set<K, false, H> *h)
  gt_ggc_mx (&h->m_table);

template<typename K, typename H>
static inline void
gt_pch_nx (hash_set<K, false, H> *h)
  gt_pch_nx (&h->m_table);

template<typename K, typename H>
static inline void
gt_pch_nx (hash_set<K, false, H> *h, gt_pointer_operator op, void *cookie)
  op (&h->m_table.m_entries, cookie);