/* Copyright 2003-2008 Joaquin M Lopez Munoz. * Distributed under the Boost Software License, Version 1.0. * (See accompanying file LICENSE_1_0.txt or copy at * http://www.boost.org/LICENSE_1_0.txt) * * See http://www.boost.org/libs/multi_index for library home page. * * The internal implementation of red-black trees is based on that of SGI STL * stl_tree.h file: * * Copyright (c) 1996,1997 * 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. * */ #ifndef BOOST_MULTI_INDEX_DETAIL_ORD_INDEX_NODE_HPP #define BOOST_MULTI_INDEX_DETAIL_ORD_INDEX_NODE_HPP #if defined(_MSC_VER)&&(_MSC_VER>=1200) #pragma once #endif #include /* keep it first to prevent nasty warns in MSVC */ #include #include #include #if !defined(BOOST_MULTI_INDEX_DISABLE_COMPRESSED_ORDERED_INDEX_NODES) #include #include #include #include #include #endif namespace boost{ namespace multi_index{ namespace detail{ /* definition of red-black nodes for ordered_index */ enum ordered_index_color{red=false,black=true}; enum ordered_index_side{to_left=false,to_right=true}; template struct ordered_index_node_impl; /* fwd decl. */ template struct ordered_index_node_std_base { typedef typename prevent_eti< Allocator, typename boost::detail::allocator::rebind_to< Allocator, ordered_index_node_impl >::type >::type::pointer pointer; typedef typename prevent_eti< Allocator, typename boost::detail::allocator::rebind_to< Allocator, ordered_index_node_impl >::type >::type::const_pointer const_pointer; typedef ordered_index_color& color_ref; typedef pointer& parent_ref; ordered_index_color& color(){return color_;} ordered_index_color color()const{return color_;} pointer& parent(){return parent_;} pointer parent()const{return parent_;} pointer& left(){return left_;} pointer left()const{return left_;} pointer& right(){return right_;} pointer right()const{return right_;} private: ordered_index_color color_; pointer parent_; pointer left_; pointer right_; }; #if !defined(BOOST_MULTI_INDEX_DISABLE_COMPRESSED_ORDERED_INDEX_NODES) /* If ordered_index_node_impl has even alignment, we can use the least * significant bit of one of the ordered_index_node_impl pointers to * store color information. This typically reduces the size of * ordered_index_node_impl by 25%. */ #if defined(BOOST_MSVC) /* This code casts pointers to an integer type that has been computed * to be large enough to hold the pointer, however the metaprogramming * logic is not always spotted by the VC++ code analyser that issues a * long list of warnings. */ #pragma warning(push) #pragma warning(disable:4312 4311) #endif template struct ordered_index_node_compressed_base { typedef ordered_index_node_impl* pointer; typedef const ordered_index_node_impl* const_pointer; struct color_ref { color_ref(uintptr_type* r_):r(r_){} operator ordered_index_color()const { return ordered_index_color(*r&uintptr_type(1)); } color_ref& operator=(ordered_index_color c) { *r&=~uintptr_type(1); *r|=uintptr_type(c); return *this; } color_ref& operator=(const color_ref& x) { return operator=(x.operator ordered_index_color()); } private: uintptr_type* r; }; struct parent_ref { parent_ref(uintptr_type* r_):r(r_){} operator pointer()const { return (pointer)(void*)(*r&~uintptr_type(1)); } parent_ref& operator=(pointer p) { *r=((uintptr_type)(void*)p)|(*r&uintptr_type(1)); return *this; } parent_ref& operator=(const parent_ref& x) { return operator=(x.operator pointer()); } pointer operator->()const { return operator pointer(); } private: uintptr_type* r; }; color_ref color(){return color_ref(&parentcolor_);} ordered_index_color color()const { return ordered_index_color(parentcolor_&std::size_t(1ul)); } parent_ref parent(){return parent_ref(&parentcolor_);} pointer parent()const { return (pointer)(void*)(parentcolor_&~uintptr_type(1)); } pointer& left(){return left_;} pointer left()const{return left_;} pointer& right(){return right_;} pointer right()const{return right_;} private: uintptr_type parentcolor_; pointer left_; pointer right_; }; #if defined(BOOST_MSVC) #pragma warning(pop) #endif #endif template struct ordered_index_node_impl_base: #if !defined(BOOST_MULTI_INDEX_DISABLE_COMPRESSED_ORDERED_INDEX_NODES) mpl::if_c< !(has_uintptr_type::value)|| (alignment_of >::value%2)|| !(is_same< typename prevent_eti< Allocator, typename boost::detail::allocator::rebind_to< Allocator, ordered_index_node_impl >::type >::type::pointer, ordered_index_node_impl*>::value), ordered_index_node_std_base, ordered_index_node_compressed_base >::type #else ordered_index_node_std_base #endif {}; template struct ordered_index_node_impl:ordered_index_node_impl_base { private: typedef ordered_index_node_impl_base super; public: typedef typename super::color_ref color_ref; typedef typename super::parent_ref parent_ref; typedef typename super::pointer pointer; typedef typename super::const_pointer const_pointer; /* interoperability with bidir_node_iterator */ static void increment(pointer& x) { if(x->right()!=pointer(0)){ x=x->right(); while(x->left()!=pointer(0))x=x->left(); } else{ pointer y=x->parent(); while(x==y->right()){ x=y; y=y->parent(); } if(x->right()!=y)x=y; } } static void decrement(pointer& x) { if(x->color()==red&&x->parent()->parent()==x){ x=x->right(); } else if(x->left()!=pointer(0)){ pointer y=x->left(); while(y->right()!=pointer(0))y=y->right(); x=y; }else{ pointer y=x->parent(); while(x==y->left()){ x=y; y=y->parent(); } x=y; } } /* algorithmic stuff */ static void rotate_left(pointer x,parent_ref root) { pointer y=x->right(); x->right()=y->left(); if(y->left()!=pointer(0))y->left()->parent()=x; y->parent()=x->parent(); if(x==root) root=y; else if(x==x->parent()->left())x->parent()->left()=y; else x->parent()->right()=y; y->left()=x; x->parent()=y; } static pointer minimum(pointer x) { while(x->left()!=pointer(0))x=x->left(); return x; } static pointer maximum(pointer x) { while(x->right()!=pointer(0))x=x->right(); return x; } static void rotate_right(pointer x,parent_ref root) { pointer y=x->left(); x->left()=y->right(); if(y->right()!=pointer(0))y->right()->parent()=x; y->parent()=x->parent(); if(x==root) root=y; else if(x==x->parent()->right())x->parent()->right()=y; else x->parent()->left()=y; y->right()=x; x->parent()=y; } static void rebalance(pointer x,parent_ref root) { x->color()=red; while(x!=root&&x->parent()->color()==red){ if(x->parent()==x->parent()->parent()->left()){ pointer y=x->parent()->parent()->right(); if(y!=pointer(0)&&y->color()==red){ x->parent()->color()=black; y->color()=black; x->parent()->parent()->color()=red; x=x->parent()->parent(); } else{ if(x==x->parent()->right()){ x=x->parent(); rotate_left(x,root); } x->parent()->color()=black; x->parent()->parent()->color()=red; rotate_right(x->parent()->parent(),root); } } else{ pointer y=x->parent()->parent()->left(); if(y!=pointer(0)&&y->color()==red){ x->parent()->color()=black; y->color()=black; x->parent()->parent()->color()=red; x=x->parent()->parent(); } else{ if(x==x->parent()->left()){ x=x->parent(); rotate_right(x,root); } x->parent()->color()=black; x->parent()->parent()->color()=red; rotate_left(x->parent()->parent(),root); } } } root->color()=black; } static void link( pointer x,ordered_index_side side,pointer position,pointer header) { if(side==to_left){ position->left()=x; /* also makes leftmost=x when parent==header */ if(position==header){ header->parent()=x; header->right()=x; } else if(position==header->left()){ header->left()=x; /* maintain leftmost pointing to min node */ } } else{ position->right()=x; if(position==header->right()){ header->right()=x; /* maintain rightmost pointing to max node */ } } x->parent()=position; x->left()=pointer(0); x->right()=pointer(0); ordered_index_node_impl::rebalance(x,header->parent()); } static pointer rebalance_for_erase( pointer z,parent_ref root,pointer& leftmost,pointer& rightmost) { pointer y=z; pointer x=pointer(0); pointer x_parent=pointer(0); if(y->left()==pointer(0)){ /* z has at most one non-null child. y==z. */ x=y->right(); /* x might be null */ } else{ if(y->right()==pointer(0)){ /* z has exactly one non-null child. y==z. */ x=y->left(); /* x is not null */ } else{ /* z has two non-null children. Set y to */ y=y->right(); /* z's successor. x might be null. */ while(y->left()!=pointer(0))y=y->left(); x=y->right(); } } if(y!=z){ z->left()->parent()=y; /* relink y in place of z. y is z's successor */ y->left()=z->left(); if(y!=z->right()){ x_parent=y->parent(); if(x!=pointer(0))x->parent()=y->parent(); y->parent()->left()=x; /* y must be a child of left */ y->right()=z->right(); z->right()->parent()=y; } else{ x_parent=y; } if(root==z) root=y; else if(z->parent()->left()==z)z->parent()->left()=y; else z->parent()->right()=y; y->parent()=z->parent(); ordered_index_color c=y->color(); y->color()=z->color(); z->color()=c; y=z; /* y now points to node to be actually deleted */ } else{ /* y==z */ x_parent=y->parent(); if(x!=pointer(0))x->parent()=y->parent(); if(root==z){ root=x; } else{ if(z->parent()->left()==z)z->parent()->left()=x; else z->parent()->right()=x; } if(leftmost==z){ if(z->right()==pointer(0)){ /* z->left() must be null also */ leftmost=z->parent(); } else{ leftmost=minimum(x); /* makes leftmost==header if z==root */ } } if(rightmost==z){ if(z->left()==pointer(0)){ /* z->right() must be null also */ rightmost=z->parent(); } else{ /* x==z->left() */ rightmost=maximum(x); /* makes rightmost==header if z==root */ } } } if(y->color()!=red){ while(x!=root&&(x==pointer(0)|| x->color()==black)){ if(x==x_parent->left()){ pointer w=x_parent->right(); if(w->color()==red){ w->color()=black; x_parent->color()=red; rotate_left(x_parent,root); w=x_parent->right(); } if((w->left()==pointer(0)||w->left()->color()==black) && (w->right()==pointer(0)||w->right()->color()==black)){ w->color()=red; x=x_parent; x_parent=x_parent->parent(); } else{ if(w->right()==pointer(0 ) || w->right()->color()==black){ if(w->left()!=pointer(0)) w->left()->color()=black; w->color()=red; rotate_right(w,root); w=x_parent->right(); } w->color()=x_parent->color(); x_parent->color()=black; if(w->right()!=pointer(0))w->right()->color()=black; rotate_left(x_parent,root); break; } } else{ /* same as above,with right <-> left */ pointer w=x_parent->left(); if(w->color()==red){ w->color()=black; x_parent->color()=red; rotate_right(x_parent,root); w=x_parent->left(); } if((w->right()==pointer(0)||w->right()->color()==black) && (w->left()==pointer(0)||w->left()->color()==black)){ w->color()=red; x=x_parent; x_parent=x_parent->parent(); } else{ if(w->left()==pointer(0)||w->left()->color()==black){ if(w->right()!=pointer(0))w->right()->color()=black; w->color()=red; rotate_left(w,root); w=x_parent->left(); } w->color()=x_parent->color(); x_parent->color()=black; if(w->left()!=pointer(0))w->left()->color()=black; rotate_right(x_parent,root); break; } } } if(x!=pointer(0))x->color()=black; } return y; } static void restore(pointer x,pointer position,pointer header) { if(position->left()==pointer(0)||position->left()==header){ link(x,to_left,position,header); } else{ decrement(position); link(x,to_right,position,header); } } #if defined(BOOST_MULTI_INDEX_ENABLE_INVARIANT_CHECKING) /* invariant stuff */ static std::size_t black_count(pointer node,pointer root) { if(node==pointer(0))return 0; std::size_t sum=0; for(;;){ if(node->color()==black)++sum; if(node==root)break; node=node->parent(); } return sum; } #endif }; template struct ordered_index_node_trampoline: prevent_eti< Super, ordered_index_node_impl< typename boost::detail::allocator::rebind_to< typename Super::allocator_type, char >::type > >::type { typedef typename prevent_eti< Super, ordered_index_node_impl< typename boost::detail::allocator::rebind_to< typename Super::allocator_type, char >::type > >::type impl_type; }; template struct ordered_index_node:Super,ordered_index_node_trampoline { private: typedef ordered_index_node_trampoline trampoline; public: typedef typename trampoline::impl_type impl_type; typedef typename trampoline::color_ref impl_color_ref; typedef typename trampoline::parent_ref impl_parent_ref; typedef typename trampoline::pointer impl_pointer; typedef typename trampoline::const_pointer const_impl_pointer; impl_color_ref color(){return trampoline::color();} ordered_index_color color()const{return trampoline::color();} impl_parent_ref parent(){return trampoline::parent();} impl_pointer parent()const{return trampoline::parent();} impl_pointer& left(){return trampoline::left();} impl_pointer left()const{return trampoline::left();} impl_pointer& right(){return trampoline::right();} impl_pointer right()const{return trampoline::right();} impl_pointer impl() { return static_cast( static_cast(static_cast(this))); } const_impl_pointer impl()const { return static_cast( static_cast(static_cast(this))); } static ordered_index_node* from_impl(impl_pointer x) { return static_cast( static_cast(&*x)); } static const ordered_index_node* from_impl(const_impl_pointer x) { return static_cast( static_cast(&*x)); } /* interoperability with bidir_node_iterator */ static void increment(ordered_index_node*& x) { impl_pointer xi=x->impl(); trampoline::increment(xi); x=from_impl(xi); } static void decrement(ordered_index_node*& x) { impl_pointer xi=x->impl(); trampoline::decrement(xi); x=from_impl(xi); } }; } /* namespace multi_index::detail */ } /* namespace multi_index */ } /* namespace boost */ #endif