770 lines
25 KiB
C++
770 lines
25 KiB
C++
// boost heap: fibonacci heap
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//
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// Copyright (C) 2010 Tim Blechmann
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//
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// Distributed under the Boost Software License, Version 1.0. (See
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// accompanying file LICENSE_1_0.txt or copy at
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// http://www.boost.org/LICENSE_1_0.txt)
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#ifndef BOOST_HEAP_FIBONACCI_HEAP_HPP
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#define BOOST_HEAP_FIBONACCI_HEAP_HPP
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#include <algorithm>
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#include <utility>
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#include <vector>
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#include <boost/array.hpp>
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#include <boost/assert.hpp>
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#include <boost/heap/detail/heap_comparison.hpp>
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#include <boost/heap/detail/heap_node.hpp>
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#include <boost/heap/detail/stable_heap.hpp>
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#include <boost/heap/detail/tree_iterator.hpp>
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#ifndef BOOST_DOXYGEN_INVOKED
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#ifdef BOOST_HEAP_SANITYCHECKS
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#define BOOST_HEAP_ASSERT BOOST_ASSERT
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#else
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#define BOOST_HEAP_ASSERT(expression)
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#endif
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#endif
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namespace boost {
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namespace heap {
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namespace detail {
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typedef parameter::parameters<boost::parameter::optional<tag::allocator>,
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boost::parameter::optional<tag::compare>,
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boost::parameter::optional<tag::stable>,
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boost::parameter::optional<tag::constant_time_size>,
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boost::parameter::optional<tag::stability_counter_type>
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> fibonacci_heap_signature;
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template <typename T, typename Parspec>
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struct make_fibonacci_heap_base
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{
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static const bool constant_time_size = parameter::binding<Parspec,
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tag::constant_time_size,
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boost::mpl::true_
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>::type::value;
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typedef typename detail::make_heap_base<T, Parspec, constant_time_size>::type base_type;
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typedef typename detail::make_heap_base<T, Parspec, constant_time_size>::allocator_argument allocator_argument;
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typedef typename detail::make_heap_base<T, Parspec, constant_time_size>::compare_argument compare_argument;
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typedef marked_heap_node<typename base_type::internal_type> node_type;
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typedef typename allocator_argument::template rebind<node_type>::other allocator_type;
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struct type:
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base_type,
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allocator_type
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{
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type(compare_argument const & arg):
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base_type(arg)
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{}
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#ifndef BOOST_NO_CXX11_RVALUE_REFERENCES
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type(type && rhs):
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base_type(std::move(static_cast<base_type&>(rhs))),
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allocator_type(std::move(static_cast<allocator_type&>(rhs)))
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{}
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type(type & rhs):
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base_type(static_cast<base_type&>(rhs)),
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allocator_type(static_cast<allocator_type&>(rhs))
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{}
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type & operator=(type && rhs)
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{
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base_type::operator=(std::move(static_cast<base_type&>(rhs)));
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allocator_type::operator=(std::move(static_cast<allocator_type&>(rhs)));
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return *this;
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}
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type & operator=(type const & rhs)
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{
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base_type::operator=(static_cast<base_type const &>(rhs));
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allocator_type::operator=(static_cast<allocator_type const &>(rhs));
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return *this;
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}
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#endif
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};
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};
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}
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/**
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* \class fibonacci_heap
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* \brief fibonacci heap
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*
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* The template parameter T is the type to be managed by the container.
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* The user can specify additional options and if no options are provided default options are used.
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*
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* The container supports the following options:
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* - \c boost::heap::stable<>, defaults to \c stable<false>
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* - \c boost::heap::compare<>, defaults to \c compare<std::less<T> >
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* - \c boost::heap::allocator<>, defaults to \c allocator<std::allocator<T> >
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* - \c boost::heap::constant_time_size<>, defaults to \c constant_time_size<true>
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* - \c boost::heap::stability_counter_type<>, defaults to \c stability_counter_type<boost::uintmax_t>
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*
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*/
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#ifdef BOOST_DOXYGEN_INVOKED
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template<class T, class ...Options>
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#else
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template <typename T,
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class A0 = boost::parameter::void_,
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class A1 = boost::parameter::void_,
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class A2 = boost::parameter::void_,
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class A3 = boost::parameter::void_,
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class A4 = boost::parameter::void_
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>
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#endif
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class fibonacci_heap:
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private detail::make_fibonacci_heap_base<T,
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typename detail::fibonacci_heap_signature::bind<A0, A1, A2, A3, A4>::type
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>::type
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{
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typedef typename detail::fibonacci_heap_signature::bind<A0, A1, A2, A3, A4>::type bound_args;
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typedef detail::make_fibonacci_heap_base<T, bound_args> base_maker;
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typedef typename base_maker::type super_t;
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typedef typename super_t::size_holder_type size_holder;
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typedef typename super_t::internal_type internal_type;
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typedef typename base_maker::allocator_argument allocator_argument;
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template <typename Heap1, typename Heap2>
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friend struct heap_merge_emulate;
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private:
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#ifndef BOOST_DOXYGEN_INVOKED
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struct implementation_defined:
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detail::extract_allocator_types<typename base_maker::allocator_argument>
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{
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typedef T value_type;
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typedef typename detail::extract_allocator_types<typename base_maker::allocator_argument>::size_type size_type;
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typedef typename detail::extract_allocator_types<typename base_maker::allocator_argument>::reference reference;
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typedef typename base_maker::compare_argument value_compare;
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typedef typename base_maker::allocator_type allocator_type;
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typedef typename allocator_type::pointer node_pointer;
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typedef typename allocator_type::const_pointer const_node_pointer;
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typedef detail::heap_node_list node_list_type;
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typedef typename node_list_type::iterator node_list_iterator;
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typedef typename node_list_type::const_iterator node_list_const_iterator;
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typedef typename base_maker::node_type node;
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typedef detail::value_extractor<value_type, internal_type, super_t> value_extractor;
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typedef typename super_t::internal_compare internal_compare;
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typedef detail::node_handle<node_pointer, super_t, reference> handle_type;
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typedef detail::recursive_tree_iterator<node,
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node_list_const_iterator,
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const value_type,
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value_extractor,
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detail::list_iterator_converter<node, node_list_type>
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> iterator;
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typedef iterator const_iterator;
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typedef detail::tree_iterator<node,
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const value_type,
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allocator_type,
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value_extractor,
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detail::list_iterator_converter<node, node_list_type>,
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true,
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true,
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value_compare
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> ordered_iterator;
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};
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typedef typename implementation_defined::node node;
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typedef typename implementation_defined::node_pointer node_pointer;
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typedef typename implementation_defined::node_list_type node_list_type;
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typedef typename implementation_defined::node_list_iterator node_list_iterator;
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typedef typename implementation_defined::node_list_const_iterator node_list_const_iterator;
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typedef typename implementation_defined::internal_compare internal_compare;
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#endif
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public:
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typedef T value_type;
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typedef typename implementation_defined::size_type size_type;
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typedef typename implementation_defined::difference_type difference_type;
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typedef typename implementation_defined::value_compare value_compare;
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typedef typename implementation_defined::allocator_type allocator_type;
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typedef typename implementation_defined::reference reference;
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typedef typename implementation_defined::const_reference const_reference;
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typedef typename implementation_defined::pointer pointer;
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typedef typename implementation_defined::const_pointer const_pointer;
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/// \copydoc boost::heap::priority_queue::iterator
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typedef typename implementation_defined::iterator iterator;
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typedef typename implementation_defined::const_iterator const_iterator;
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typedef typename implementation_defined::ordered_iterator ordered_iterator;
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typedef typename implementation_defined::handle_type handle_type;
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static const bool constant_time_size = base_maker::constant_time_size;
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static const bool has_ordered_iterators = true;
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static const bool is_mergable = true;
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static const bool is_stable = detail::extract_stable<bound_args>::value;
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static const bool has_reserve = false;
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/// \copydoc boost::heap::priority_queue::priority_queue(value_compare const &)
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explicit fibonacci_heap(value_compare const & cmp = value_compare()):
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super_t(cmp), top_element(0)
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{}
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/// \copydoc boost::heap::priority_queue::priority_queue(priority_queue const &)
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fibonacci_heap(fibonacci_heap const & rhs):
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super_t(rhs), top_element(0)
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{
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if (rhs.empty())
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return;
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clone_forest(rhs);
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size_holder::set_size(rhs.size());
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}
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#ifndef BOOST_NO_CXX11_RVALUE_REFERENCES
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/// \copydoc boost::heap::priority_queue::priority_queue(priority_queue &&)
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fibonacci_heap(fibonacci_heap && rhs):
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super_t(std::move(rhs)), top_element(rhs.top_element)
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{
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roots.splice(roots.begin(), rhs.roots);
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rhs.top_element = NULL;
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}
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fibonacci_heap(fibonacci_heap & rhs):
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super_t(rhs), top_element(rhs.top_element)
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{
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roots.splice(roots.begin(), rhs.roots);
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rhs.top_element = NULL;
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}
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/// \copydoc boost::heap::priority_queue::operator=(priority_queue &&)
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fibonacci_heap & operator=(fibonacci_heap && rhs)
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{
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clear();
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super_t::operator=(std::move(rhs));
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roots.splice(roots.begin(), rhs.roots);
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top_element = rhs.top_element;
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rhs.top_element = NULL;
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return *this;
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}
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#endif
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/// \copydoc boost::heap::priority_queue::operator=(priority_queue const &)
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fibonacci_heap & operator=(fibonacci_heap const & rhs)
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{
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clear();
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size_holder::set_size(rhs.size());
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static_cast<super_t&>(*this) = rhs;
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if (rhs.empty())
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top_element = NULL;
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else
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clone_forest(rhs);
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return *this;
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}
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~fibonacci_heap(void)
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{
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clear();
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}
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/// \copydoc boost::heap::priority_queue::empty
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bool empty(void) const
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{
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if (constant_time_size)
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return size() == 0;
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else
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return roots.empty();
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}
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/// \copydoc boost::heap::priority_queue::size
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size_type size(void) const
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{
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if (constant_time_size)
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return size_holder::get_size();
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if (empty())
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return 0;
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else
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return detail::count_list_nodes<node, node_list_type>(roots);
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}
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/// \copydoc boost::heap::priority_queue::max_size
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size_type max_size(void) const
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{
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return allocator_type::max_size();
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}
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/// \copydoc boost::heap::priority_queue::clear
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void clear(void)
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{
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typedef detail::node_disposer<node, typename node_list_type::value_type, allocator_type> disposer;
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roots.clear_and_dispose(disposer(*this));
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size_holder::set_size(0);
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top_element = NULL;
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}
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/// \copydoc boost::heap::priority_queue::get_allocator
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allocator_type get_allocator(void) const
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{
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return *this;
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}
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/// \copydoc boost::heap::priority_queue::swap
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void swap(fibonacci_heap & rhs)
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{
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super_t::swap(rhs);
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std::swap(top_element, rhs.top_element);
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roots.swap(rhs.roots);
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}
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/// \copydoc boost::heap::priority_queue::top
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value_type const & top(void) const
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{
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BOOST_ASSERT(!empty());
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return super_t::get_value(top_element->value);
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}
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/**
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* \b Effects: Adds a new element to the priority queue. Returns handle to element
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*
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* \b Complexity: Constant.
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*
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* \b Note: Does not invalidate iterators.
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*
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* */
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handle_type push(value_type const & v)
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{
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size_holder::increment();
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node_pointer n = allocator_type::allocate(1);
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new(n) node(super_t::make_node(v));
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roots.push_front(*n);
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if (!top_element || super_t::operator()(top_element->value, n->value))
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top_element = n;
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return handle_type(n);
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}
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#if !defined(BOOST_NO_CXX11_RVALUE_REFERENCES) && !defined(BOOST_NO_CXX11_VARIADIC_TEMPLATES)
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/**
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* \b Effects: Adds a new element to the priority queue. The element is directly constructed in-place. Returns handle to element.
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*
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* \b Complexity: Constant.
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*
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* \b Note: Does not invalidate iterators.
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*
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* */
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template <class... Args>
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handle_type emplace(Args&&... args)
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{
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size_holder::increment();
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node_pointer n = allocator_type::allocate(1);
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new(n) node(super_t::make_node(std::forward<Args>(args)...));
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roots.push_front(*n);
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if (!top_element || super_t::operator()(top_element->value, n->value))
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top_element = n;
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return handle_type(n);
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}
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#endif
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/**
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* \b Effects: Removes the top element from the priority queue.
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*
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* \b Complexity: Logarithmic (amortized). Linear (worst case).
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*
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* */
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void pop(void)
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{
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BOOST_ASSERT(!empty());
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node_pointer element = top_element;
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roots.erase(node_list_type::s_iterator_to(*element));
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finish_erase_or_pop(element);
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}
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/**
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* \b Effects: Assigns \c v to the element handled by \c handle & updates the priority queue.
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*
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* \b Complexity: Logarithmic if current value < v, Constant otherwise.
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*
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* */
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void update (handle_type handle, const_reference v)
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{
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if (super_t::operator()(super_t::get_value(handle.node_->value), v))
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increase(handle, v);
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else
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decrease(handle, v);
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}
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/** \copydoc boost::heap::fibonacci_heap::update(handle_type, const_reference)
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*
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* \b Rationale: The lazy update function is a modification of the traditional update, that just invalidates
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* the iterator to the object referred to by the handle.
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* */
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void update_lazy(handle_type handle, const_reference v)
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{
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handle.node_->value = super_t::make_node(v);
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update_lazy(handle);
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}
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/**
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* \b Effects: Updates the heap after the element handled by \c handle has been changed.
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*
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* \b Complexity: Logarithmic.
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*
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* \b Note: If this is not called, after a handle has been updated, the behavior of the data structure is undefined!
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* */
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void update (handle_type handle)
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{
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node_pointer n = handle.node_;
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node_pointer parent = n->get_parent();
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if (parent) {
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n->parent = NULL;
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roots.splice(roots.begin(), parent->children, node_list_type::s_iterator_to(*n));
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}
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add_children_to_root(n);
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consolidate();
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}
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/** \copydoc boost::heap::fibonacci_heap::update (handle_type handle)
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*
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* \b Rationale: The lazy update function is a modification of the traditional update, that just invalidates
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* the iterator to the object referred to by the handle.
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* */
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void update_lazy (handle_type handle)
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{
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node_pointer n = handle.node_;
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node_pointer parent = n->get_parent();
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if (parent) {
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n->parent = NULL;
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roots.splice(roots.begin(), parent->children, node_list_type::s_iterator_to(*n));
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}
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add_children_to_root(n);
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}
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/**
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* \b Effects: Assigns \c v to the element handled by \c handle & updates the priority queue.
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*
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* \b Complexity: Constant.
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*
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* \b Note: The new value is expected to be greater than the current one
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* */
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void increase (handle_type handle, const_reference v)
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{
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handle.node_->value = super_t::make_node(v);
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increase(handle);
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}
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/**
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* \b Effects: Updates the heap after the element handled by \c handle has been changed.
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*
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* \b Complexity: Constant.
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*
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* \b Note: If this is not called, after a handle has been updated, the behavior of the data structure is undefined!
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* */
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void increase (handle_type handle)
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{
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node_pointer n = handle.node_;
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if (n->parent) {
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if (super_t::operator()(n->get_parent()->value, n->value)) {
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node_pointer parent = n->get_parent();
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cut(n);
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cascading_cut(parent);
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}
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}
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if (super_t::operator()(top_element->value, n->value)) {
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top_element = n;
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return;
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}
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}
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/**
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* \b Effects: Assigns \c v to the element handled by \c handle & updates the priority queue.
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*
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* \b Complexity: Logarithmic.
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*
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* \b Note: The new value is expected to be less than the current one
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* */
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void decrease (handle_type handle, const_reference v)
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{
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handle.node_->value = super_t::make_node(v);
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decrease(handle);
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}
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/**
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* \b Effects: Updates the heap after the element handled by \c handle has been changed.
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*
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* \b Complexity: Logarithmic.
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*
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* \b Note: The new value is expected to be less than the current one. If this is not called, after a handle has been updated, the behavior of the data structure is undefined!
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* */
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void decrease (handle_type handle)
|
|
{
|
|
update(handle);
|
|
}
|
|
|
|
/**
|
|
* \b Effects: Removes the element handled by \c handle from the priority_queue.
|
|
*
|
|
* \b Complexity: Logarithmic.
|
|
* */
|
|
void erase(handle_type const & handle)
|
|
{
|
|
node_pointer element = handle.node_;
|
|
node_pointer parent = element->get_parent();
|
|
|
|
if (parent)
|
|
parent->children.erase(node_list_type::s_iterator_to(*element));
|
|
else
|
|
roots.erase(node_list_type::s_iterator_to(*element));
|
|
|
|
finish_erase_or_pop(element);
|
|
}
|
|
|
|
/// \copydoc boost::heap::priority_queue::begin
|
|
iterator begin(void) const
|
|
{
|
|
return iterator(roots.begin());
|
|
}
|
|
|
|
/// \copydoc boost::heap::priority_queue::end
|
|
iterator end(void) const
|
|
{
|
|
return iterator(roots.end());
|
|
}
|
|
|
|
|
|
/**
|
|
* \b Effects: Returns an ordered iterator to the first element contained in the priority queue.
|
|
*
|
|
* \b Note: Ordered iterators traverse the priority queue in heap order.
|
|
* */
|
|
ordered_iterator ordered_begin(void) const
|
|
{
|
|
return ordered_iterator(roots.begin(), roots.end(), top_element, super_t::value_comp());
|
|
}
|
|
|
|
/**
|
|
* \b Effects: Returns an ordered iterator to the first element contained in the priority queue.
|
|
*
|
|
* \b Note: Ordered iterators traverse the priority queue in heap order.
|
|
* */
|
|
ordered_iterator ordered_end(void) const
|
|
{
|
|
return ordered_iterator(NULL, super_t::value_comp());
|
|
}
|
|
|
|
/**
|
|
* \b Effects: Merge with priority queue rhs.
|
|
*
|
|
* \b Complexity: Constant.
|
|
*
|
|
* */
|
|
void merge(fibonacci_heap & rhs)
|
|
{
|
|
size_holder::add(rhs.get_size());
|
|
|
|
if (!top_element ||
|
|
(rhs.top_element && super_t::operator()(top_element->value, rhs.top_element->value)))
|
|
top_element = rhs.top_element;
|
|
|
|
roots.splice(roots.end(), rhs.roots);
|
|
|
|
rhs.set_size(0);
|
|
|
|
super_t::set_stability_count((std::max)(super_t::get_stability_count(),
|
|
rhs.get_stability_count()));
|
|
rhs.set_stability_count(0);
|
|
}
|
|
|
|
/// \copydoc boost::heap::d_ary_heap_mutable::s_handle_from_iterator
|
|
static handle_type s_handle_from_iterator(iterator const & it)
|
|
{
|
|
node * ptr = const_cast<node *>(it.get_node());
|
|
return handle_type(ptr);
|
|
}
|
|
|
|
/// \copydoc boost::heap::priority_queue::value_comp
|
|
value_compare const & value_comp(void) const
|
|
{
|
|
return super_t::value_comp();
|
|
}
|
|
|
|
/// \copydoc boost::heap::priority_queue::operator<(HeapType const & rhs) const
|
|
template <typename HeapType>
|
|
bool operator<(HeapType const & rhs) const
|
|
{
|
|
return detail::heap_compare(*this, rhs);
|
|
}
|
|
|
|
/// \copydoc boost::heap::priority_queue::operator>(HeapType const & rhs) const
|
|
template <typename HeapType>
|
|
bool operator>(HeapType const & rhs) const
|
|
{
|
|
return detail::heap_compare(rhs, *this);
|
|
}
|
|
|
|
/// \copydoc boost::heap::priority_queue::operator>=(HeapType const & rhs) const
|
|
template <typename HeapType>
|
|
bool operator>=(HeapType const & rhs) const
|
|
{
|
|
return !operator<(rhs);
|
|
}
|
|
|
|
/// \copydoc boost::heap::priority_queue::operator<=(HeapType const & rhs) const
|
|
template <typename HeapType>
|
|
bool operator<=(HeapType const & rhs) const
|
|
{
|
|
return !operator>(rhs);
|
|
}
|
|
|
|
/// \copydoc boost::heap::priority_queue::operator==(HeapType const & rhs) const
|
|
template <typename HeapType>
|
|
bool operator==(HeapType const & rhs) const
|
|
{
|
|
return detail::heap_equality(*this, rhs);
|
|
}
|
|
|
|
/// \copydoc boost::heap::priority_queue::operator!=(HeapType const & rhs) const
|
|
template <typename HeapType>
|
|
bool operator!=(HeapType const & rhs) const
|
|
{
|
|
return !(*this == rhs);
|
|
}
|
|
|
|
private:
|
|
#if !defined(BOOST_DOXYGEN_INVOKED)
|
|
void clone_forest(fibonacci_heap const & rhs)
|
|
{
|
|
BOOST_HEAP_ASSERT(roots.empty());
|
|
typedef typename node::template node_cloner<allocator_type> node_cloner;
|
|
roots.clone_from(rhs.roots, node_cloner(*this, NULL), detail::nop_disposer());
|
|
|
|
top_element = detail::find_max_child<node_list_type, node, internal_compare>(roots, super_t::get_internal_cmp());
|
|
}
|
|
|
|
void cut(node_pointer n)
|
|
{
|
|
node_pointer parent = n->get_parent();
|
|
roots.splice(roots.begin(), parent->children, node_list_type::s_iterator_to(*n));
|
|
n->parent = 0;
|
|
n->mark = false;
|
|
}
|
|
|
|
void cascading_cut(node_pointer n)
|
|
{
|
|
node_pointer parent = n->get_parent();
|
|
|
|
if (parent) {
|
|
if (!parent->mark)
|
|
parent->mark = true;
|
|
else {
|
|
cut(n);
|
|
cascading_cut(parent);
|
|
}
|
|
}
|
|
}
|
|
|
|
void add_children_to_root(node_pointer n)
|
|
{
|
|
for (node_list_iterator it = n->children.begin(); it != n->children.end(); ++it) {
|
|
node_pointer child = static_cast<node_pointer>(&*it);
|
|
child->parent = 0;
|
|
}
|
|
|
|
roots.splice(roots.end(), n->children);
|
|
}
|
|
|
|
void consolidate(void)
|
|
{
|
|
if (roots.empty())
|
|
return;
|
|
|
|
static const size_type max_log2 = sizeof(size_type) * 8;
|
|
boost::array<node_pointer, max_log2> aux;
|
|
aux.assign(NULL);
|
|
|
|
node_list_iterator it = roots.begin();
|
|
top_element = static_cast<node_pointer>(&*it);
|
|
|
|
do {
|
|
node_pointer n = static_cast<node_pointer>(&*it);
|
|
++it;
|
|
size_type node_rank = n->child_count();
|
|
|
|
if (aux[node_rank] == NULL)
|
|
aux[node_rank] = n;
|
|
else {
|
|
do {
|
|
node_pointer other = aux[node_rank];
|
|
if (super_t::operator()(n->value, other->value))
|
|
std::swap(n, other);
|
|
|
|
if (other->parent)
|
|
n->children.splice(n->children.end(), other->parent->children, node_list_type::s_iterator_to(*other));
|
|
else
|
|
n->children.splice(n->children.end(), roots, node_list_type::s_iterator_to(*other));
|
|
|
|
other->parent = n;
|
|
|
|
aux[node_rank] = NULL;
|
|
node_rank = n->child_count();
|
|
} while (aux[node_rank] != NULL);
|
|
aux[node_rank] = n;
|
|
}
|
|
|
|
if (super_t::operator()(top_element->value, n->value))
|
|
top_element = n;
|
|
}
|
|
while (it != roots.end());
|
|
}
|
|
|
|
void finish_erase_or_pop(node_pointer erased_node)
|
|
{
|
|
add_children_to_root(erased_node);
|
|
|
|
erased_node->~node();
|
|
allocator_type::deallocate(erased_node, 1);
|
|
|
|
size_holder::decrement();
|
|
if (!empty())
|
|
consolidate();
|
|
else
|
|
top_element = NULL;
|
|
}
|
|
|
|
mutable node_pointer top_element;
|
|
node_list_type roots;
|
|
#endif
|
|
};
|
|
|
|
} /* namespace heap */
|
|
} /* namespace boost */
|
|
|
|
#undef BOOST_HEAP_ASSERT
|
|
|
|
#endif /* BOOST_HEAP_FIBONACCI_HEAP_HPP */
|