net/base/priority_queue.h - cobalt - Git at Google

 // Copyright (c) 2012 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #ifndef NET_BASE_PRIORITY_QUEUE_H_
 #define NET_BASE_PRIORITY_QUEUE_H_

 #include <list>
 #include <vector>

 #include "base/logging.h"
 #include "base/macros.h"
 #include "base/threading/thread_checker.h"

 #if !defined(NDEBUG)
 #include <unordered_set>

 #include "starboard/types.h"
 #endif

 namespace net {

 // A simple priority queue. The order of values is by priority and then FIFO.
 // Unlike the std::priority_queue, this implementation allows erasing elements
 // from the queue, and all operations are O(p) time for p priority levels.
 // The queue is agnostic to priority ordering (whether 0 precedes 1).
 // If the highest priority is 0, FirstMin() returns the first in order.
 //
 // In debug-mode, the internal queues store (id, value) pairs where id is used
 // to validate Pointers.
 //
 template <typename T>
 class PriorityQueue {
  private:
   // This section is up-front for Pointer only.
 #if !defined(NDEBUG)
   typedef std::list<std::pair<unsigned, T> > List;
 #else
   typedef std::list<T> List;
 #endif

  public:
   typedef uint32_t Priority;

   // A pointer to a value stored in the queue. The pointer becomes invalid
   // when the queue is destroyed or cleared, or the value is erased.
   class Pointer {
    public:
     // Constructs a null pointer.
     Pointer() : priority_(kNullPriority) {
 #if !defined(NDEBUG)
       id_ = static_cast<unsigned>(-1);
 #endif
       // TODO(syzm)
       // An uninitialized iterator behaves like an uninitialized pointer as per
       // the STL docs. The fix below is ugly and should possibly be replaced
       // with a better approach.
       iterator_ = dummy_empty_list_.end();
     }

     Pointer(const Pointer& p)
         : priority_(p.priority_),
           iterator_(p.iterator_) {
 #if !defined(NDEBUG)
       id_ = p.id_;
 #endif
     }

     Pointer& operator=(const Pointer& p) {
       // Self-assignment is benign.
       priority_ = p.priority_;
       iterator_ = p.iterator_;
 #if !defined(NDEBUG)
       id_ = p.id_;
 #endif
       return *this;
     }

     bool is_null() const { return priority_ == kNullPriority; }

     Priority priority() const { return priority_; }

 #if !defined(NDEBUG)
     const T& value() const { return iterator_->second; }
 #else
     const T& value() const { return *iterator_; }
 #endif

     // Comparing to Pointer from a different PriorityQueue is undefined.
     bool Equals(const Pointer& other) const {
       return (priority_ == other.priority_) && (iterator_ == other.iterator_);
     }

     void Reset() {
       *this = Pointer();
     }

    private:
     friend class PriorityQueue;

     // Note that we need iterator and not const_iterator to pass to
     // List::erase.  When C++11 is turned on for Chromium, this could
     // be changed to const_iterator and the const_casts in the rest of
     // the file can be removed.
     typedef typename PriorityQueue::List::iterator ListIterator;

     static const Priority kNullPriority = static_cast<Priority>(-1);

     // It is guaranteed that Pointer will treat |iterator| as a
     // const_iterator.
     Pointer(Priority priority, const ListIterator& iterator)
         : priority_(priority), iterator_(iterator) {
 #if !defined(NDEBUG)
       id_ = iterator_->first;
 #endif
     }

     Priority priority_;
     ListIterator iterator_;
     // The STL iterators when uninitialized are like uninitialized pointers
     // which cause crashes when assigned to other iterators. We need to
     // initialize a NULL iterator to the end of a valid list.
     List dummy_empty_list_;

 #if !defined(NDEBUG)
     // Used by the queue to check if a Pointer is valid.
     unsigned id_;
 #endif
   };

   // Creates a new queue for |num_priorities|.
   explicit PriorityQueue(Priority num_priorities)
       : lists_(num_priorities), size_(0) {
 #if !defined(NDEBUG)
     next_id_ = 0;
 #endif
   }

   ~PriorityQueue() { DCHECK_CALLED_ON_VALID_THREAD(thread_checker_); }

   // Adds |value| with |priority| to the queue. Returns a pointer to the
   // created element.
   Pointer Insert(const T& value, Priority priority) {
     DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
     DCHECK_LT(priority, lists_.size());
     ++size_;
     List& list = lists_[priority];
 #if !defined(NDEBUG)
     unsigned id = next_id_;
     valid_ids_.insert(id);
     ++next_id_;
     return Pointer(priority, list.insert(list.end(),
                                          std::make_pair(id, value)));
 #else
     return Pointer(priority, list.insert(list.end(), value));
 #endif
   }

   // Adds |value| with |priority| to the queue. Returns a pointer to the
   // created element.
   Pointer InsertAtFront(const T& value, Priority priority) {
     DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
     DCHECK_LT(priority, lists_.size());
     ++size_;
     List& list = lists_[priority];
 #if !defined(NDEBUG)
     unsigned id = next_id_;
     valid_ids_.insert(id);
     ++next_id_;
     return Pointer(priority, list.insert(list.begin(),
                                          std::make_pair(id, value)));
 #else
     return Pointer(priority, list.insert(list.begin(), value));
 #endif
   }

   // Removes the value pointed by |pointer| from the queue. All pointers to this
   // value including |pointer| become invalid.
   void Erase(const Pointer& pointer) {
     DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
     DCHECK_LT(pointer.priority_, lists_.size());
     DCHECK_GT(size_, 0u);

 #if !defined(NDEBUG)
     DCHECK_EQ(1u, valid_ids_.erase(pointer.id_));
     DCHECK_EQ(pointer.iterator_->first, pointer.id_);
 #endif

     --size_;
     lists_[pointer.priority_].erase(pointer.iterator_);
   }

   // Returns a pointer to the first value of minimum priority or a null-pointer
   // if empty.
   Pointer FirstMin() const {
     DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
     for (size_t i = 0; i < lists_.size(); ++i) {
       List* list = const_cast<List*>(&lists_[i]);
       if (!list->empty())
         return Pointer(i, list->begin());
     }
     return Pointer();
   }

   // Returns a pointer to the last value of minimum priority or a null-pointer
   // if empty.
   Pointer LastMin() const {
     DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
     for (size_t i = 0; i < lists_.size(); ++i) {
       List* list = const_cast<List*>(&lists_[i]);
       if (!list->empty())
         return Pointer(i, --list->end());
     }
     return Pointer();
   }

   // Returns a pointer to the first value of maximum priority or a null-pointer
   // if empty.
   Pointer FirstMax() const {
     DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
     for (size_t i = lists_.size(); i > 0; --i) {
       size_t index = i - 1;
       List* list = const_cast<List*>(&lists_[index]);
       if (!list->empty())
         return Pointer(index, list->begin());
     }
     return Pointer();
   }

   // Returns a pointer to the last value of maximum priority or a null-pointer
   // if empty.
   Pointer LastMax() const {
     DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
     for (size_t i = lists_.size(); i > 0; --i) {
       size_t index = i - 1;
       List* list = const_cast<List*>(&lists_[index]);
       if (!list->empty())
         return Pointer(index, --list->end());
     }
     return Pointer();
   }

   // Given an ordering of the values in this queue by decreasing
   // priority and then FIFO, returns a pointer to the value following
   // the value of the given pointer (which must be non-NULL).
   //
   // (One could also implement GetNextTowardsFirstMin() [decreasing
   // priority, then reverse FIFO] as well as
   // GetNextTowards{First,Last}Max() [increasing priority, then
   // {,reverse} FIFO].)
   Pointer GetNextTowardsLastMin(const Pointer& pointer) const {
     DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
     DCHECK(!pointer.is_null());
     DCHECK_LT(pointer.priority_, lists_.size());

     typename Pointer::ListIterator it = pointer.iterator_;
     Priority priority = pointer.priority_;
     DCHECK(it != lists_[priority].end());
     ++it;
     while (it == lists_[priority].end()) {
       if (priority == 0u)
         return Pointer();
       --priority;
       it = const_cast<List*>(&lists_[priority])->begin();
     }
     return Pointer(priority, it);
   }

   // Empties the queue. All pointers become invalid.
   void Clear() {
     DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
     for (size_t i = 0; i < lists_.size(); ++i) {
       lists_[i].clear();
     }
 #if !defined(NDEBUG)
     valid_ids_.clear();
 #endif
     size_ = 0u;
   }

   // Returns the number of priorities the queue supports.
   size_t num_priorities() const {
     DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
     return lists_.size();
   }

   bool empty() const {
     DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
     return size_ == 0;
   }

   // Returns number of queued values.
   size_t size() const {
     DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
     return size_;
   }

  private:
   typedef std::vector<List> ListVector;

 #if !defined(NDEBUG)
   unsigned next_id_;
   std::unordered_set<unsigned> valid_ids_;
 #endif

   ListVector lists_;
   size_t size_;

   THREAD_CHECKER(thread_checker_);

   DISALLOW_COPY_AND_ASSIGN(PriorityQueue);
 };

 }  // namespace net

 #endif  // NET_BASE_PRIORITY_QUEUE_H_
	// Copyright (c) 2012 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#ifndef NET_BASE_PRIORITY_QUEUE_H_
	#define NET_BASE_PRIORITY_QUEUE_H_

	#include <list>
	#include <vector>

	#include "base/logging.h"
	#include "base/macros.h"
	#include "base/threading/thread_checker.h"

	#if !defined(NDEBUG)
	#include <unordered_set>

	#include "starboard/types.h"
	#endif

	namespace net {

	// A simple priority queue. The order of values is by priority and then FIFO.
	// Unlike the std::priority_queue, this implementation allows erasing elements
	// from the queue, and all operations are O(p) time for p priority levels.
	// The queue is agnostic to priority ordering (whether 0 precedes 1).
	// If the highest priority is 0, FirstMin() returns the first in order.
	//
	// In debug-mode, the internal queues store (id, value) pairs where id is used
	// to validate Pointers.
	//
	template <typename T>
	class PriorityQueue {
	private:
	// This section is up-front for Pointer only.
	#if !defined(NDEBUG)
	typedef std::list<std::pair<unsigned, T> > List;
	#else
	typedef std::list<T> List;
	#endif

	public:
	typedef uint32_t Priority;

	// A pointer to a value stored in the queue. The pointer becomes invalid
	// when the queue is destroyed or cleared, or the value is erased.
	class Pointer {
	public:
	// Constructs a null pointer.
	Pointer() : priority_(kNullPriority) {
	#if !defined(NDEBUG)
	id_ = static_cast<unsigned>(-1);
	#endif
	// TODO(syzm)
	// An uninitialized iterator behaves like an uninitialized pointer as per
	// the STL docs. The fix below is ugly and should possibly be replaced
	// with a better approach.
	iterator_ = dummy_empty_list_.end();
	}

	Pointer(const Pointer& p)
	: priority_(p.priority_),
	iterator_(p.iterator_) {
	#if !defined(NDEBUG)
	id_ = p.id_;
	#endif
	}

	Pointer& operator=(const Pointer& p) {
	// Self-assignment is benign.
	priority_ = p.priority_;
	iterator_ = p.iterator_;
	#if !defined(NDEBUG)
	id_ = p.id_;
	#endif
	return *this;
	}

	bool is_null() const { return priority_ == kNullPriority; }

	Priority priority() const { return priority_; }

	#if !defined(NDEBUG)
	const T& value() const { return iterator_->second; }
	#else
	const T& value() const { return *iterator_; }
	#endif

	// Comparing to Pointer from a different PriorityQueue is undefined.
	bool Equals(const Pointer& other) const {
	return (priority_ == other.priority_) && (iterator_ == other.iterator_);
	}

	void Reset() {
	*this = Pointer();
	}

	private:
	friend class PriorityQueue;

	// Note that we need iterator and not const_iterator to pass to
	// List::erase. When C++11 is turned on for Chromium, this could
	// be changed to const_iterator and the const_casts in the rest of
	// the file can be removed.
	typedef typename PriorityQueue::List::iterator ListIterator;

	static const Priority kNullPriority = static_cast<Priority>(-1);

	// It is guaranteed that Pointer will treat \|iterator\| as a
	// const_iterator.
	Pointer(Priority priority, const ListIterator& iterator)
	: priority_(priority), iterator_(iterator) {
	#if !defined(NDEBUG)
	id_ = iterator_->first;
	#endif
	}

	Priority priority_;
	ListIterator iterator_;
	// The STL iterators when uninitialized are like uninitialized pointers
	// which cause crashes when assigned to other iterators. We need to
	// initialize a NULL iterator to the end of a valid list.
	List dummy_empty_list_;

	#if !defined(NDEBUG)
	// Used by the queue to check if a Pointer is valid.
	unsigned id_;
	#endif
	};

	// Creates a new queue for \|num_priorities\|.
	explicit PriorityQueue(Priority num_priorities)
	: lists_(num_priorities), size_(0) {
	#if !defined(NDEBUG)
	next_id_ = 0;
	#endif
	}

	~PriorityQueue() { DCHECK_CALLED_ON_VALID_THREAD(thread_checker_); }

	// Adds \|value\| with \|priority\| to the queue. Returns a pointer to the
	// created element.
	Pointer Insert(const T& value, Priority priority) {
	DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
	DCHECK_LT(priority, lists_.size());
	++size_;
	List& list = lists_[priority];
	#if !defined(NDEBUG)
	unsigned id = next_id_;
	valid_ids_.insert(id);
	++next_id_;
	return Pointer(priority, list.insert(list.end(),
	std::make_pair(id, value)));
	#else
	return Pointer(priority, list.insert(list.end(), value));
	#endif
	}

	// Adds \|value\| with \|priority\| to the queue. Returns a pointer to the
	// created element.
	Pointer InsertAtFront(const T& value, Priority priority) {
	DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
	DCHECK_LT(priority, lists_.size());
	++size_;
	List& list = lists_[priority];
	#if !defined(NDEBUG)
	unsigned id = next_id_;
	valid_ids_.insert(id);
	++next_id_;
	return Pointer(priority, list.insert(list.begin(),
	std::make_pair(id, value)));
	#else
	return Pointer(priority, list.insert(list.begin(), value));
	#endif
	}

	// Removes the value pointed by \|pointer\| from the queue. All pointers to this
	// value including \|pointer\| become invalid.
	void Erase(const Pointer& pointer) {
	DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
	DCHECK_LT(pointer.priority_, lists_.size());
	DCHECK_GT(size_, 0u);

	#if !defined(NDEBUG)
	DCHECK_EQ(1u, valid_ids_.erase(pointer.id_));
	DCHECK_EQ(pointer.iterator_->first, pointer.id_);
	#endif

	--size_;
	lists_[pointer.priority_].erase(pointer.iterator_);
	}

	// Returns a pointer to the first value of minimum priority or a null-pointer
	// if empty.
	Pointer FirstMin() const {
	DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
	for (size_t i = 0; i < lists_.size(); ++i) {
	List* list = const_cast<List*>(&lists_[i]);
	if (!list->empty())
	return Pointer(i, list->begin());
	}
	return Pointer();
	}

	// Returns a pointer to the last value of minimum priority or a null-pointer
	// if empty.
	Pointer LastMin() const {
	DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
	for (size_t i = 0; i < lists_.size(); ++i) {
	List* list = const_cast<List*>(&lists_[i]);
	if (!list->empty())
	return Pointer(i, --list->end());
	}
	return Pointer();
	}

	// Returns a pointer to the first value of maximum priority or a null-pointer
	// if empty.
	Pointer FirstMax() const {
	DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
	for (size_t i = lists_.size(); i > 0; --i) {
	size_t index = i - 1;
	List* list = const_cast<List*>(&lists_[index]);
	if (!list->empty())
	return Pointer(index, list->begin());
	}
	return Pointer();
	}

	// Returns a pointer to the last value of maximum priority or a null-pointer
	// if empty.
	Pointer LastMax() const {
	DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
	for (size_t i = lists_.size(); i > 0; --i) {
	size_t index = i - 1;
	List* list = const_cast<List*>(&lists_[index]);
	if (!list->empty())
	return Pointer(index, --list->end());
	}
	return Pointer();
	}

	// Given an ordering of the values in this queue by decreasing
	// priority and then FIFO, returns a pointer to the value following
	// the value of the given pointer (which must be non-NULL).
	//
	// (One could also implement GetNextTowardsFirstMin() [decreasing
	// priority, then reverse FIFO] as well as
	// GetNextTowards{First,Last}Max() [increasing priority, then
	// {,reverse} FIFO].)
	Pointer GetNextTowardsLastMin(const Pointer& pointer) const {
	DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
	DCHECK(!pointer.is_null());
	DCHECK_LT(pointer.priority_, lists_.size());

	typename Pointer::ListIterator it = pointer.iterator_;
	Priority priority = pointer.priority_;
	DCHECK(it != lists_[priority].end());
	++it;
	while (it == lists_[priority].end()) {
	if (priority == 0u)
	return Pointer();
	--priority;
	it = const_cast<List*>(&lists_[priority])->begin();
	}
	return Pointer(priority, it);
	}

	// Empties the queue. All pointers become invalid.
	void Clear() {
	DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
	for (size_t i = 0; i < lists_.size(); ++i) {
	lists_[i].clear();
	}
	#if !defined(NDEBUG)
	valid_ids_.clear();
	#endif
	size_ = 0u;
	}

	// Returns the number of priorities the queue supports.
	size_t num_priorities() const {
	DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
	return lists_.size();
	}

	bool empty() const {
	DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
	return size_ == 0;
	}

	// Returns number of queued values.
	size_t size() const {
	DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
	return size_;
	}

	private:
	typedef std::vector<List> ListVector;

	#if !defined(NDEBUG)
	unsigned next_id_;
	std::unordered_set<unsigned> valid_ids_;
	#endif

	ListVector lists_;
	size_t size_;

	THREAD_CHECKER(thread_checker_);

	DISALLOW_COPY_AND_ASSIGN(PriorityQueue);
	};

	} // namespace net

	#endif // NET_BASE_PRIORITY_QUEUE_H_