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Boost
v1.57.0
doxygen for www.boost.org
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Boost
v1.57.0
doxygen for www.boost.org
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fibonacci heap More...
#include <fibonacci_heap.hpp>
Public Types | |
| typedef T | value_type |
| typedef implementation_defined::size_type | size_type |
| typedef implementation_defined::difference_type | difference_type |
| typedef implementation_defined::value_compare | value_compare |
| typedef implementation_defined::allocator_type | allocator_type |
| typedef implementation_defined::reference | reference |
| typedef implementation_defined::const_reference | const_reference |
| typedef implementation_defined::pointer | pointer |
| typedef implementation_defined::const_pointer | const_pointer |
| typedef implementation_defined::iterator | iterator |
| Note: The iterator does not traverse the priority queue in order of the priorities. More... | |
| typedef implementation_defined::const_iterator | const_iterator |
| typedef implementation_defined::ordered_iterator | ordered_iterator |
| typedef implementation_defined::handle_type | handle_type |
Public Member Functions | |
| fibonacci_heap (value_compare const &cmp=value_compare()) | |
| Effects: constructs an empty priority queue. More... | |
| fibonacci_heap (fibonacci_heap const &rhs) | |
| Effects: copy-constructs priority queue from rhs. More... | |
| fibonacci_heap (fibonacci_heap &&rhs) | |
| Effects: C++11-style move constructor. More... | |
| fibonacci_heap (fibonacci_heap &rhs) | |
| fibonacci_heap & | operator= (fibonacci_heap &&rhs) |
| Effects: C++11-style move assignment. More... | |
| fibonacci_heap & | operator= (fibonacci_heap const &rhs) |
| Effects: Assigns priority queue from rhs. More... | |
| ~fibonacci_heap (void) | |
| bool | empty (void) const |
| Effects: Returns true, if the priority queue contains no elements. More... | |
| size_type | size (void) const |
| Effects: Returns the number of elements contained in the priority queue. More... | |
| size_type | max_size (void) const |
| Effects: Returns the maximum number of elements the priority queue can contain. More... | |
| void | clear (void) |
| Effects: Removes all elements from the priority queue. More... | |
| allocator_type | get_allocator (void) const |
| Effects: Returns allocator. More... | |
| void | swap (fibonacci_heap &rhs) |
| Effects: Swaps two priority queues. More... | |
| value_type const & | top (void) const |
| Effects: Returns a const_reference to the maximum element. More... | |
| handle_type | push (value_type const &v) |
| Effects: Adds a new element to the priority queue. More... | |
| template<class... Args> | |
| handle_type | emplace (Args &&...args) |
| Effects: Adds a new element to the priority queue. More... | |
| void | pop (void) |
| Effects: Removes the top element from the priority queue. More... | |
| void | update (handle_type handle, const_reference v) |
Effects: Assigns v to the element handled by handle & updates the priority queue. More... | |
| void | update_lazy (handle_type handle, const_reference v) |
Effects: Assigns v to the element handled by handle & updates the priority queue. More... | |
| void | update (handle_type handle) |
Effects: Updates the heap after the element handled by handle has been changed. More... | |
| void | update_lazy (handle_type handle) |
Effects: Assigns v to the element handled by handle & updates the priority queue. (handle_type handle) More... | |
| void | increase (handle_type handle, const_reference v) |
Effects: Assigns v to the element handled by handle & updates the priority queue. More... | |
| void | increase (handle_type handle) |
Effects: Updates the heap after the element handled by handle has been changed. More... | |
| void | decrease (handle_type handle, const_reference v) |
Effects: Assigns v to the element handled by handle & updates the priority queue. More... | |
| void | decrease (handle_type handle) |
Effects: Updates the heap after the element handled by handle has been changed. More... | |
| void | erase (handle_type const &handle) |
Effects: Removes the element handled by handle from the priority_queue. More... | |
| iterator | begin (void) const |
| Effects: Returns an iterator to the first element contained in the priority queue. More... | |
| iterator | end (void) const |
| Effects: Returns an iterator to the end of the priority queue. More... | |
| ordered_iterator | ordered_begin (void) const |
| Effects: Returns an ordered iterator to the first element contained in the priority queue. More... | |
| ordered_iterator | ordered_end (void) const |
| Effects: Returns an ordered iterator to the end of the priority queue. More... | |
| void | merge (fibonacci_heap &rhs) |
| Effects: Merge with priority queue rhs. More... | |
| value_compare const & | value_comp (void) const |
| Effect: Returns the value_compare object used by the priority queue More... | |
| template<typename HeapType > | |
| bool | operator< (HeapType const &rhs) const |
| Returns: Element-wise comparison of heap data structures More... | |
| template<typename HeapType > | |
| bool | operator> (HeapType const &rhs) const |
| Returns: Element-wise comparison of heap data structures More... | |
| template<typename HeapType > | |
| bool | operator>= (HeapType const &rhs) const |
| Returns: Element-wise comparison of heap data structures More... | |
| template<typename HeapType > | |
| bool | operator<= (HeapType const &rhs) const |
| Returns: Element-wise comparison of heap data structures More... | |
| template<typename HeapType > | |
| bool | operator== (HeapType const &rhs) const |
| Equivalent comparison Returns: True, if both heap data structures are equivalent. More... | |
| template<typename HeapType > | |
| bool | operator!= (HeapType const &rhs) const |
| Equivalent comparison Returns: True, if both heap data structures are not equivalent. More... | |
Static Public Member Functions | |
| static handle_type | s_handle_from_iterator (iterator const &it) |
Static Public Attributes | |
| static const bool | constant_time_size = base_maker::constant_time_size |
| static const bool | has_ordered_iterators = true |
| static const bool | is_mergable = true |
| static const bool | is_stable = detail::extract_stable<bound_args>::value |
| static const bool | has_reserve = false |
Friends | |
| template<typename Heap1 , typename Heap2 > | |
| struct | heap_merge_emulate |
fibonacci heap
The template parameter T is the type to be managed by the container. The user can specify additional options and if no options are provided default options are used.
The container supports the following options:
boost::heap::stable<>, defaults to stable<false> boost::heap::compare<>, defaults to compare<std::less<T> >boost::heap::allocator<>, defaults to allocator<std::allocator<T> >boost::heap::constant_time_size<>, defaults to constant_time_size<true> boost::heap::stability_counter_type<>, defaults to stability_counter_type<boost::uintmax_t> | typedef implementation_defined::allocator_type boost::heap::fibonacci_heap< T, A0, A1, A2, A3, A4 >::allocator_type |
| typedef implementation_defined::const_iterator boost::heap::fibonacci_heap< T, A0, A1, A2, A3, A4 >::const_iterator |
| typedef implementation_defined::const_pointer boost::heap::fibonacci_heap< T, A0, A1, A2, A3, A4 >::const_pointer |
| typedef implementation_defined::const_reference boost::heap::fibonacci_heap< T, A0, A1, A2, A3, A4 >::const_reference |
| typedef implementation_defined::difference_type boost::heap::fibonacci_heap< T, A0, A1, A2, A3, A4 >::difference_type |
| typedef implementation_defined::handle_type boost::heap::fibonacci_heap< T, A0, A1, A2, A3, A4 >::handle_type |
| typedef implementation_defined::iterator boost::heap::fibonacci_heap< T, A0, A1, A2, A3, A4 >::iterator |
Note: The iterator does not traverse the priority queue in order of the priorities.
| typedef implementation_defined::ordered_iterator boost::heap::fibonacci_heap< T, A0, A1, A2, A3, A4 >::ordered_iterator |
| typedef implementation_defined::pointer boost::heap::fibonacci_heap< T, A0, A1, A2, A3, A4 >::pointer |
| typedef implementation_defined::reference boost::heap::fibonacci_heap< T, A0, A1, A2, A3, A4 >::reference |
| typedef implementation_defined::size_type boost::heap::fibonacci_heap< T, A0, A1, A2, A3, A4 >::size_type |
| typedef implementation_defined::value_compare boost::heap::fibonacci_heap< T, A0, A1, A2, A3, A4 >::value_compare |
| typedef T boost::heap::fibonacci_heap< T, A0, A1, A2, A3, A4 >::value_type |
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inlineexplicit |
Effects: constructs an empty priority queue.
Complexity: Constant.
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Effects: copy-constructs priority queue from rhs.
Complexity: Linear.
References boost::heap::fibonacci_heap< T, A0, A1, A2, A3, A4 >::empty(), and boost::heap::fibonacci_heap< T, A0, A1, A2, A3, A4 >::size().
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Effects: C++11-style move constructor.
Complexity: Constant.
Note: Only available, if BOOST_NO_CXX11_RVALUE_REFERENCES is not defined
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Effects: Returns an iterator to the first element contained in the priority queue.
Complexity: Constant.
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Effects: Removes all elements from the priority queue.
Complexity: Linear.
Referenced by boost::heap::fibonacci_heap< T, A0, A1, A2, A3, A4 >::operator=(), and boost::heap::fibonacci_heap< T, A0, A1, A2, A3, A4 >::~fibonacci_heap().
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Effects: Assigns v to the element handled by handle & updates the priority queue.
Complexity: Logarithmic.
Note: The new value is expected to be less than the current one
Referenced by boost::heap::fibonacci_heap< T, A0, A1, A2, A3, A4 >::update().
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Effects: Updates the heap after the element handled by handle has been changed.
Complexity: Logarithmic.
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!
References boost::heap::fibonacci_heap< T, A0, A1, A2, A3, A4 >::update().
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Effects: Adds a new element to the priority queue.
The element is directly constructed in-place. Returns handle to element.
Complexity: Constant.
Note: Does not invalidate iterators.
References boost::python::args(), boost::numeric::ublas::increment(), and boost::n.
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Effects: Returns true, if the priority queue contains no elements.
Complexity: Constant.
References boost::heap::fibonacci_heap< T, A0, A1, A2, A3, A4 >::size().
Referenced by boost::heap::fibonacci_heap< T, A0, A1, A2, A3, A4 >::fibonacci_heap(), boost::heap::fibonacci_heap< T, A0, A1, A2, A3, A4 >::operator=(), boost::heap::fibonacci_heap< T, A0, A1, A2, A3, A4 >::pop(), boost::heap::fibonacci_heap< T, A0, A1, A2, A3, A4 >::size(), and boost::heap::fibonacci_heap< T, A0, A1, A2, A3, A4 >::top().
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Effects: Returns an iterator to the end of the priority queue.
Complexity: Constant.
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Effects: Removes the element handled by handle from the priority_queue.
Complexity: Logarithmic.
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Effects: Returns allocator.
Complexity: Constant.
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Effects: Assigns v to the element handled by handle & updates the priority queue.
Complexity: Constant.
Note: The new value is expected to be greater than the current one
Referenced by boost::heap::fibonacci_heap< T, A0, A1, A2, A3, A4 >::update().
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Effects: Updates the heap after the element handled by handle has been changed.
Complexity: Constant.
Note: If this is not called, after a handle has been updated, the behavior of the data structure is undefined!
References boost::n.
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Effects: Returns the maximum number of elements the priority queue can contain.
Complexity: Constant.
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Effects: Merge with priority queue rhs.
Complexity: Constant.
References boost::icl::add(), and boost::accumulators::extract::max.
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Equivalent comparison Returns: True, if both heap data structures are not equivalent.
Requirement: the value_compare object of both heaps must match.
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Returns: Element-wise comparison of heap data structures
Requirement: the value_compare object of both heaps must match.
Referenced by boost::heap::fibonacci_heap< T, A0, A1, A2, A3, A4 >::operator>=().
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Returns: Element-wise comparison of heap data structures
Requirement: the value_compare object of both heaps must match.
References boost::heap::fibonacci_heap< T, A0, A1, A2, A3, A4 >::operator>().
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Effects: C++11-style move assignment.
Complexity: Constant.
Note: Only available, if BOOST_NO_CXX11_RVALUE_REFERENCES is not defined
References boost::heap::fibonacci_heap< T, A0, A1, A2, A3, A4 >::clear(), boost::fusion::move(), and boost::heap::detail::make_fibonacci_heap_base< T, Parspec >::type::operator=().
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Effects: Assigns priority queue from rhs.
Complexity: Linear.
References boost::heap::fibonacci_heap< T, A0, A1, A2, A3, A4 >::clear(), boost::heap::fibonacci_heap< T, A0, A1, A2, A3, A4 >::empty(), and boost::heap::fibonacci_heap< T, A0, A1, A2, A3, A4 >::size().
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Equivalent comparison Returns: True, if both heap data structures are equivalent.
Requirement: the value_compare object of both heaps must match.
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Returns: Element-wise comparison of heap data structures
Requirement: the value_compare object of both heaps must match.
Referenced by boost::heap::fibonacci_heap< T, A0, A1, A2, A3, A4 >::operator<=().
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Returns: Element-wise comparison of heap data structures
Requirement: the value_compare object of both heaps must match.
References boost::heap::fibonacci_heap< T, A0, A1, A2, A3, A4 >::operator<().
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Effects: Returns an ordered iterator to the first element contained in the priority queue.
Note: Ordered iterators traverse the priority queue in heap order.
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Effects: Returns an ordered iterator to the end of the priority queue.
Note: Ordered iterators traverse the priority queue in heap order.
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Effects: Removes the top element from the priority queue.
Complexity: Logarithmic (amortized). Linear (worst case).
References BOOST_ASSERT, and boost::heap::fibonacci_heap< T, A0, A1, A2, A3, A4 >::empty().
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Effects: Adds a new element to the priority queue.
Returns handle to element
Complexity: Constant.
Note: Does not invalidate iterators.
References boost::numeric::ublas::increment(), and boost::n.
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References boost::python::ptr().
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Effects: Returns the number of elements contained in the priority queue.
Complexity: Constant.
References boost::heap::fibonacci_heap< T, A0, A1, A2, A3, A4 >::empty().
Referenced by boost::heap::fibonacci_heap< T, A0, A1, A2, A3, A4 >::empty(), boost::heap::fibonacci_heap< T, A0, A1, A2, A3, A4 >::fibonacci_heap(), and boost::heap::fibonacci_heap< T, A0, A1, A2, A3, A4 >::operator=().
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Effects: Returns a const_reference to the maximum element.
Complexity: Constant.
References BOOST_ASSERT, and boost::heap::fibonacci_heap< T, A0, A1, A2, A3, A4 >::empty().
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Effects: Assigns v to the element handled by handle & updates the priority queue.
Complexity: Logarithmic if current value < v, Constant otherwise.
References boost::heap::fibonacci_heap< T, A0, A1, A2, A3, A4 >::decrease(), and boost::heap::fibonacci_heap< T, A0, A1, A2, A3, A4 >::increase().
Referenced by boost::heap::fibonacci_heap< T, A0, A1, A2, A3, A4 >::decrease().
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Effects: Updates the heap after the element handled by handle has been changed.
Complexity: Logarithmic.
Note: If this is not called, after a handle has been updated, the behavior of the data structure is undefined!
References boost::n.
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Effects: Assigns v to the element handled by handle & updates the priority queue.
Complexity: Logarithmic if current value < v, Constant otherwise.
Rationale: The lazy update function is a modification of the traditional update, that just invalidates the iterator to the object referred to by the handle.
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Effects: Assigns v to the element handled by handle & updates the priority queue. (handle_type handle)
Complexity: Logarithmic if current value < v, Constant otherwise. (handle_type handle)
Rationale: The lazy update function is a modification of the traditional update, that just invalidates the iterator to the object referred to by the handle.
References boost::n.
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Effect: Returns the value_compare object used by the priority queue
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1.8.8