libstdc++-v3/include/ext/pb_ds/detail/pat_trie_/split_fn_imps.hpp - gcc - Git at Google

 // -*- C++ -*-

 // Copyright (C) 2005-2021 Free Software Foundation, Inc.
 //
 // This file is part of the GNU ISO C++ Library.  This library 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
 // version.

 // This library is distributed in the hope that it will be useful, but
 // WITHOUT ANY WARRANTY; without even the implied warranty of
 // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
 // General Public License for more details.

 // Under Section 7 of GPL version 3, you are granted additional
 // permissions described in the GCC Runtime Library Exception, version
 // 3.1, as published by the Free Software Foundation.

 // You should have received a copy of the GNU General Public License and
 // a copy of the GCC Runtime Library Exception along with this program;
 // see the files COPYING3 and COPYING.RUNTIME respectively.  If not, see
 // <http://www.gnu.org/licenses/>.

 // Copyright (C) 2004 Ami Tavory and Vladimir Dreizin, IBM-HRL.

 // Permission to use, copy, modify, sell, and distribute this software
 // is hereby granted without fee, provided that the above copyright
 // notice appears in all copies, and that both that copyright notice
 // and this permission notice appear in supporting documentation. None
 // of the above authors, nor IBM Haifa Research Laboratories, make any
 // representation about the suitability of this software for any
 // purpose. It is provided "as is" without express or implied
 // warranty.

 /**
  * @file pat_trie_/split_fn_imps.hpp
  * Contains an implementation class for pat_trie.
  */

 #ifdef PB_DS_CLASS_C_DEC

 PB_DS_CLASS_T_DEC
 void
 PB_DS_CLASS_C_DEC::
 split(key_const_reference r_key, PB_DS_CLASS_C_DEC& other)
 {
   PB_DS_ASSERT_VALID((*this))
   PB_DS_ASSERT_VALID(other)
   branch_bag bag;
   leaf_pointer p_split_lf = split_prep(r_key, other, bag);
   if (p_split_lf == 0)
     {
       _GLIBCXX_DEBUG_ASSERT(bag.empty());
       PB_DS_ASSERT_VALID((*this))
       PB_DS_ASSERT_VALID(other)
       return;
     }

   _GLIBCXX_DEBUG_ASSERT(!bag.empty());
   other.clear();

   m_p_head->m_p_parent = rec_split(m_p_head->m_p_parent, pref_begin(p_split_lf),
 				   pref_end(p_split_lf), other, bag);

   m_p_head->m_p_parent->m_p_parent = m_p_head;

   head_pointer __ohead = other.m_p_head;
   __ohead->m_p_max = m_p_head->m_p_max;
   m_p_head->m_p_max = rightmost_descendant(m_p_head->m_p_parent);
   __ohead->m_p_min = other.leftmost_descendant(__ohead->m_p_parent);

   other.m_size = std::distance(other.PB_DS_CLASS_C_DEC::begin(),
 			       other.PB_DS_CLASS_C_DEC::end());
   m_size -= other.m_size;
   PB_DS_ASSERT_VALID((*this))
   PB_DS_ASSERT_VALID(other)
 }

 PB_DS_CLASS_T_DEC
 typename PB_DS_CLASS_C_DEC::leaf_pointer
 PB_DS_CLASS_C_DEC::
 split_prep(key_const_reference r_key, PB_DS_CLASS_C_DEC& other,
 	   branch_bag& r_bag)
 {
   _GLIBCXX_DEBUG_ASSERT(r_bag.empty());
   if (m_size == 0)
     {
       other.clear();
       PB_DS_ASSERT_VALID((*this))
       PB_DS_ASSERT_VALID(other)
       return 0;
     }

   if (synth_access_traits::cmp_keys(r_key,
 				    PB_DS_V2F(static_cast<leaf_const_pointer>(m_p_head->m_p_min)->value())))
     {
       other.clear();
       value_swap(other);
       PB_DS_ASSERT_VALID((*this))
       PB_DS_ASSERT_VALID(other)
       return 0;
     }

   if (!synth_access_traits::cmp_keys(r_key,
 				       PB_DS_V2F(static_cast<leaf_const_pointer>(m_p_head->m_p_max)->value())))
     {
       PB_DS_ASSERT_VALID((*this))
       PB_DS_ASSERT_VALID(other)
       return 0;
     }

   iterator it = lower_bound(r_key);

   if (!synth_access_traits::equal_keys(PB_DS_V2F(*it), r_key))
     --it;

   node_pointer p_nd = it.m_p_nd;
   _GLIBCXX_DEBUG_ASSERT(p_nd->m_type == leaf_node);
   leaf_pointer p_ret_l = static_cast<leaf_pointer>(p_nd);
   while (p_nd->m_type != head_node)
     {
       r_bag.add_branch();
       p_nd = p_nd->m_p_parent;
     }
   _GLIBCXX_DEBUG_ONLY(debug_base::split(r_key,(synth_access_traits&)(*this), other);)

   return p_ret_l;
 }

 PB_DS_CLASS_T_DEC
 typename PB_DS_CLASS_C_DEC::node_pointer
 PB_DS_CLASS_C_DEC::
 rec_split(node_pointer p_nd, a_const_iterator b_it, a_const_iterator e_it,
 	  PB_DS_CLASS_C_DEC& other, branch_bag& r_bag)
 {
   if (p_nd->m_type == leaf_node)
     {
       _GLIBCXX_DEBUG_ASSERT(other.m_p_head->m_p_parent == 0);
       return p_nd;
     }

   _GLIBCXX_DEBUG_ASSERT(p_nd->m_type == i_node);
   inode_pointer p_ind = static_cast<inode_pointer>(p_nd);

   node_pointer pfirst = p_ind->get_child_node(b_it, e_it, this);
   node_pointer p_child_ret = rec_split(pfirst, b_it, e_it, other, r_bag);
   PB_DS_ASSERT_NODE_VALID(p_child_ret)
   p_ind->replace_child(p_child_ret, b_it, e_it, this);
   apply_update(p_ind, (node_update*)this);

   inode_iterator child_it = p_ind->get_child_it(b_it, e_it, this);
   const size_type lhs_dist = std::distance(p_ind->begin(), child_it);
   const size_type lhs_num_children = lhs_dist + 1;
   _GLIBCXX_DEBUG_ASSERT(lhs_num_children > 0);

   const size_type rhs_dist =  std::distance(p_ind->begin(), p_ind->end());
   size_type rhs_num_children = rhs_dist - lhs_num_children;
   if (rhs_num_children == 0)
     {
       apply_update(p_ind, (node_update*)this);
       return p_ind;
     }

   other.split_insert_branch(p_ind->get_e_ind(), b_it, child_it,
 			    rhs_num_children, r_bag);

   child_it = p_ind->get_child_it(b_it, e_it, this);
   while (rhs_num_children != 0)
     {
       ++child_it;
       p_ind->remove_child(child_it);
       --rhs_num_children;
     }
   apply_update(p_ind, (node_update*)this);

   const size_type int_dist = std::distance(p_ind->begin(), p_ind->end());
   _GLIBCXX_DEBUG_ASSERT(int_dist >= 1);
   if (int_dist > 1)
     {
       p_ind->update_prefixes(this);
       PB_DS_ASSERT_NODE_VALID(p_ind)
       apply_update(p_ind, (node_update*)this);
       return p_ind;
     }

   node_pointer p_ret = *p_ind->begin();
   p_ind->~inode();
   s_inode_allocator.deallocate(p_ind, 1);
   apply_update(p_ret, (node_update*)this);
   return p_ret;
 }

 PB_DS_CLASS_T_DEC
 void
 PB_DS_CLASS_C_DEC::
 split_insert_branch(size_type e_ind, a_const_iterator b_it,
 		    inode_iterator child_b_it,
 		    size_type num_children, branch_bag& r_bag)
 {
 #ifdef _GLIBCXX_DEBUG
   if (m_p_head->m_p_parent != 0)
     PB_DS_ASSERT_NODE_VALID(m_p_head->m_p_parent)
 #endif

   const size_type start = m_p_head->m_p_parent == 0 ? 0 : 1;
   const size_type total_num_children = start + num_children;
   if (total_num_children == 0)
     {
       _GLIBCXX_DEBUG_ASSERT(m_p_head->m_p_parent == 0);
       return;
     }

   if (total_num_children == 1)
     {
       if (m_p_head->m_p_parent != 0)
 	{
 	  PB_DS_ASSERT_NODE_VALID(m_p_head->m_p_parent)
 	  return;
 	}

       _GLIBCXX_DEBUG_ASSERT(m_p_head->m_p_parent == 0);
       ++child_b_it;
       m_p_head->m_p_parent = *child_b_it;
       m_p_head->m_p_parent->m_p_parent = m_p_head;
       apply_update(m_p_head->m_p_parent, (node_update*)this);
       PB_DS_ASSERT_NODE_VALID(m_p_head->m_p_parent)
       return;
     }

   _GLIBCXX_DEBUG_ASSERT(total_num_children > 1);
   inode_pointer p_new_root = r_bag.get_branch();
   new (p_new_root) inode(e_ind, b_it);
   size_type num_inserted = 0;
   while (num_inserted++ < num_children)
     {
       ++child_b_it;
       PB_DS_ASSERT_NODE_VALID((*child_b_it))
       p_new_root->add_child(*child_b_it, pref_begin(*child_b_it),
 			    pref_end(*child_b_it), this);
     }

   if (m_p_head->m_p_parent != 0)
     p_new_root->add_child(m_p_head->m_p_parent,
 			  pref_begin(m_p_head->m_p_parent),
 			  pref_end(m_p_head->m_p_parent), this);

   m_p_head->m_p_parent = p_new_root;
   p_new_root->m_p_parent = m_p_head;
   apply_update(m_p_head->m_p_parent, (node_update*)this);
   PB_DS_ASSERT_NODE_VALID(m_p_head->m_p_parent)
 }
 #endif
	// -- C++ --

	// Copyright (C) 2005-2021 Free Software Foundation, Inc.
	//
	// This file is part of the GNU ISO C++ Library. This library 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
	// version.

	// This library is distributed in the hope that it will be useful, but
	// WITHOUT ANY WARRANTY; without even the implied warranty of
	// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
	// General Public License for more details.

	// Under Section 7 of GPL version 3, you are granted additional
	// permissions described in the GCC Runtime Library Exception, version
	// 3.1, as published by the Free Software Foundation.

	// You should have received a copy of the GNU General Public License and
	// a copy of the GCC Runtime Library Exception along with this program;
	// see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
	// <http://www.gnu.org/licenses/>.

	// Copyright (C) 2004 Ami Tavory and Vladimir Dreizin, IBM-HRL.

	// Permission to use, copy, modify, sell, and distribute this software
	// is hereby granted without fee, provided that the above copyright
	// notice appears in all copies, and that both that copyright notice
	// and this permission notice appear in supporting documentation. None
	// of the above authors, nor IBM Haifa Research Laboratories, make any
	// representation about the suitability of this software for any
	// purpose. It is provided "as is" without express or implied
	// warranty.

	/**
	* @file pat_trie_/split_fn_imps.hpp
	* Contains an implementation class for pat_trie.
	*/

	#ifdef PB_DS_CLASS_C_DEC

	PB_DS_CLASS_T_DEC
	void
	PB_DS_CLASS_C_DEC::
	split(key_const_reference r_key, PB_DS_CLASS_C_DEC& other)
	{
	PB_DS_ASSERT_VALID((*this))
	PB_DS_ASSERT_VALID(other)
	branch_bag bag;
	leaf_pointer p_split_lf = split_prep(r_key, other, bag);
	if (p_split_lf == 0)
	{
	_GLIBCXX_DEBUG_ASSERT(bag.empty());
	PB_DS_ASSERT_VALID((*this))
	PB_DS_ASSERT_VALID(other)
	return;
	}

	_GLIBCXX_DEBUG_ASSERT(!bag.empty());
	other.clear();

	m_p_head->m_p_parent = rec_split(m_p_head->m_p_parent, pref_begin(p_split_lf),
	pref_end(p_split_lf), other, bag);

	m_p_head->m_p_parent->m_p_parent = m_p_head;

	head_pointer __ohead = other.m_p_head;
	__ohead->m_p_max = m_p_head->m_p_max;
	m_p_head->m_p_max = rightmost_descendant(m_p_head->m_p_parent);
	__ohead->m_p_min = other.leftmost_descendant(__ohead->m_p_parent);

	other.m_size = std::distance(other.PB_DS_CLASS_C_DEC::begin(),
	other.PB_DS_CLASS_C_DEC::end());
	m_size -= other.m_size;
	PB_DS_ASSERT_VALID((*this))
	PB_DS_ASSERT_VALID(other)
	}

	PB_DS_CLASS_T_DEC
	typename PB_DS_CLASS_C_DEC::leaf_pointer
	PB_DS_CLASS_C_DEC::
	split_prep(key_const_reference r_key, PB_DS_CLASS_C_DEC& other,
	branch_bag& r_bag)
	{
	_GLIBCXX_DEBUG_ASSERT(r_bag.empty());
	if (m_size == 0)
	{
	other.clear();
	PB_DS_ASSERT_VALID((*this))
	PB_DS_ASSERT_VALID(other)
	return 0;
	}

	if (synth_access_traits::cmp_keys(r_key,
	PB_DS_V2F(static_cast<leaf_const_pointer>(m_p_head->m_p_min)->value())))
	{
	other.clear();
	value_swap(other);
	PB_DS_ASSERT_VALID((*this))
	PB_DS_ASSERT_VALID(other)
	return 0;
	}

	if (!synth_access_traits::cmp_keys(r_key,
	PB_DS_V2F(static_cast<leaf_const_pointer>(m_p_head->m_p_max)->value())))
	{
	PB_DS_ASSERT_VALID((*this))
	PB_DS_ASSERT_VALID(other)
	return 0;
	}

	iterator it = lower_bound(r_key);

	if (!synth_access_traits::equal_keys(PB_DS_V2F(*it), r_key))
	--it;

	node_pointer p_nd = it.m_p_nd;
	_GLIBCXX_DEBUG_ASSERT(p_nd->m_type == leaf_node);
	leaf_pointer p_ret_l = static_cast<leaf_pointer>(p_nd);
	while (p_nd->m_type != head_node)
	{
	r_bag.add_branch();
	p_nd = p_nd->m_p_parent;
	}
	_GLIBCXX_DEBUG_ONLY(debug_base::split(r_key,(synth_access_traits&)(*this), other);)

	return p_ret_l;
	}

	PB_DS_CLASS_T_DEC
	typename PB_DS_CLASS_C_DEC::node_pointer
	PB_DS_CLASS_C_DEC::
	rec_split(node_pointer p_nd, a_const_iterator b_it, a_const_iterator e_it,
	PB_DS_CLASS_C_DEC& other, branch_bag& r_bag)
	{
	if (p_nd->m_type == leaf_node)
	{
	_GLIBCXX_DEBUG_ASSERT(other.m_p_head->m_p_parent == 0);
	return p_nd;
	}

	_GLIBCXX_DEBUG_ASSERT(p_nd->m_type == i_node);
	inode_pointer p_ind = static_cast<inode_pointer>(p_nd);

	node_pointer pfirst = p_ind->get_child_node(b_it, e_it, this);
	node_pointer p_child_ret = rec_split(pfirst, b_it, e_it, other, r_bag);
	PB_DS_ASSERT_NODE_VALID(p_child_ret)
	p_ind->replace_child(p_child_ret, b_it, e_it, this);
	apply_update(p_ind, (node_update*)this);

	inode_iterator child_it = p_ind->get_child_it(b_it, e_it, this);
	const size_type lhs_dist = std::distance(p_ind->begin(), child_it);
	const size_type lhs_num_children = lhs_dist + 1;
	_GLIBCXX_DEBUG_ASSERT(lhs_num_children > 0);

	const size_type rhs_dist = std::distance(p_ind->begin(), p_ind->end());
	size_type rhs_num_children = rhs_dist - lhs_num_children;
	if (rhs_num_children == 0)
	{
	apply_update(p_ind, (node_update*)this);
	return p_ind;
	}

	other.split_insert_branch(p_ind->get_e_ind(), b_it, child_it,
	rhs_num_children, r_bag);

	child_it = p_ind->get_child_it(b_it, e_it, this);
	while (rhs_num_children != 0)
	{
	++child_it;
	p_ind->remove_child(child_it);
	--rhs_num_children;
	}
	apply_update(p_ind, (node_update*)this);

	const size_type int_dist = std::distance(p_ind->begin(), p_ind->end());
	_GLIBCXX_DEBUG_ASSERT(int_dist >= 1);
	if (int_dist > 1)
	{
	p_ind->update_prefixes(this);
	PB_DS_ASSERT_NODE_VALID(p_ind)
	apply_update(p_ind, (node_update*)this);
	return p_ind;
	}

	node_pointer p_ret = *p_ind->begin();
	p_ind->~inode();
	s_inode_allocator.deallocate(p_ind, 1);
	apply_update(p_ret, (node_update*)this);
	return p_ret;
	}

	PB_DS_CLASS_T_DEC
	void
	PB_DS_CLASS_C_DEC::
	split_insert_branch(size_type e_ind, a_const_iterator b_it,
	inode_iterator child_b_it,
	size_type num_children, branch_bag& r_bag)
	{
	#ifdef _GLIBCXX_DEBUG
	if (m_p_head->m_p_parent != 0)
	PB_DS_ASSERT_NODE_VALID(m_p_head->m_p_parent)
	#endif

	const size_type start = m_p_head->m_p_parent == 0 ? 0 : 1;
	const size_type total_num_children = start + num_children;
	if (total_num_children == 0)
	{
	_GLIBCXX_DEBUG_ASSERT(m_p_head->m_p_parent == 0);
	return;
	}

	if (total_num_children == 1)
	{
	if (m_p_head->m_p_parent != 0)
	{
	PB_DS_ASSERT_NODE_VALID(m_p_head->m_p_parent)
	return;
	}

	_GLIBCXX_DEBUG_ASSERT(m_p_head->m_p_parent == 0);
	++child_b_it;
	m_p_head->m_p_parent = *child_b_it;
	m_p_head->m_p_parent->m_p_parent = m_p_head;
	apply_update(m_p_head->m_p_parent, (node_update*)this);
	PB_DS_ASSERT_NODE_VALID(m_p_head->m_p_parent)
	return;
	}

	_GLIBCXX_DEBUG_ASSERT(total_num_children > 1);
	inode_pointer p_new_root = r_bag.get_branch();
	new (p_new_root) inode(e_ind, b_it);
	size_type num_inserted = 0;
	while (num_inserted++ < num_children)
	{
	++child_b_it;
	PB_DS_ASSERT_NODE_VALID((*child_b_it))
	p_new_root->add_child(child_b_it, pref_begin(child_b_it),
	pref_end(*child_b_it), this);
	}

	if (m_p_head->m_p_parent != 0)
	p_new_root->add_child(m_p_head->m_p_parent,
	pref_begin(m_p_head->m_p_parent),
	pref_end(m_p_head->m_p_parent), this);

	m_p_head->m_p_parent = p_new_root;
	p_new_root->m_p_parent = m_p_head;
	apply_update(m_p_head->m_p_parent, (node_update*)this);
	PB_DS_ASSERT_NODE_VALID(m_p_head->m_p_parent)
	}
	#endif