1 files changed, 82 insertions, 17 deletions
diff --git a/OpenSim/Framework/PriorityQueue.cs b/OpenSim/Framework/PriorityQueue.cs
index ea718c4..8eeafd1 100644
--- a/OpenSim/Framework/PriorityQueue.cs
+++ b/OpenSim/Framework/PriorityQueue.cs
@@ -42,22 +42,40 @@ namespace OpenSim.Framework
        public delegate bool UpdatePriorityHandler(ref uint priority, ISceneEntity entity);
-        // Heap[0] for self updates
+        /// <summary>
-        // Heap[1..12] for entity updates
+        /// Total number of queues (priorities) available
+        /// </summary>
        public const uint NumberOfQueues = 12;
-        public const uint ImmediateQueue = 0;
+        /// <summary>
+        /// Number of queuest (priorities) that are processed immediately
+        /// </summary.
+        public const uint NumberOfImmediateQueues = 2;
        private MinHeap<MinHeapItem>[] m_heaps = new MinHeap<MinHeapItem>[NumberOfQueues];
        private Dictionary<uint, LookupItem> m_lookupTable;
+        // internal state used to ensure the deqeues are spread across the priority
+        // queues "fairly". queuecounts is the amount to pull from each queue in 
+        // each pass. weighted towards the higher priority queues
        private uint m_nextQueue = 0;
+        private uint m_countFromQueue = 0;
+        private uint[] m_queueCounts = { 8, 4, 4, 2, 2, 2, 2, 1, 1, 1, 1, 1 };
+        // next request is a counter of the number of updates queued, it provides
+        // a total ordering on the updates coming through the queue and is more
+        // lightweight (and more discriminating) than tick count
        private UInt64 m_nextRequest = 0;
+        /// <summary>
+        /// Lock for enqueue and dequeue operations on the priority queue
+        /// </summary>
        private object m_syncRoot = new object();
        public object SyncRoot {
            get { return this.m_syncRoot; }
        }
+#region constructor
        public PriorityQueue() : this(MinHeap<MinHeapItem>.DEFAULT_CAPACITY) { }
        public PriorityQueue(int capacity)
@@ -66,8 +84,16 @@ namespace OpenSim.Framework
            for (int i = 0; i < m_heaps.Length; ++i)
                m_heaps[i] = new MinHeap<MinHeapItem>(capacity);
+            m_nextQueue = NumberOfImmediateQueues;
+            m_countFromQueue = m_queueCounts[m_nextQueue];
        }
+#endregion Constructor
+#region PublicMethods
+        /// <summary>
+        /// Return the number of items in the queues
+        /// </summary>
        public int Count
        {
            get
@@ -79,6 +105,9 @@ namespace OpenSim.Framework
            }
        }
+        /// <summary>
+        /// Enqueue an item into the specified priority queue
+        /// </summary>
        public bool Enqueue(uint pqueue, IEntityUpdate value)
        {
            LookupItem lookup;
@@ -100,32 +129,62 @@ namespace OpenSim.Framework
            return true;
        }
+        /// <summary>
+        /// Remove an item from one of the queues. Specifically, it removes the
+        /// oldest item from the next queue in order to provide fair access to
+        /// all of the queues
+        /// </summary>
        public bool TryDequeue(out IEntityUpdate value, out Int32 timeinqueue)
        {
            // If there is anything in priority queue 0, return it first no
            // matter what else. Breaks fairness. But very useful.
-            if (m_heaps[ImmediateQueue].Count > 0)
+            for (int iq = 0; iq < NumberOfImmediateQueues; iq++)
+            {
+                if (m_heaps[iq].Count > 0)
+                {
+                    MinHeapItem item = m_heaps[iq].RemoveMin();
+                    m_lookupTable.Remove(item.Value.Entity.LocalId);
+                    timeinqueue = Util.EnvironmentTickCountSubtract(item.EntryTime);
+                    value = item.Value;
+                    return true;
+                }
+            }
+            
+            // To get the fair queing, we cycle through each of the
+            // queues when finding an element to dequeue. 
+            // We pull (NumberOfQueues - QueueIndex) items from each queue in order
+            // to give lower numbered queues a higher priority and higher percentage
+            // of the bandwidth. 
+            
+            // Check for more items to be pulled from the current queue
+            if (m_heaps[m_nextQueue].Count > 0 && m_countFromQueue > 0)
            {
-                MinHeapItem item = m_heaps[ImmediateQueue].RemoveMin();
+                m_countFromQueue--;
+                
+                MinHeapItem item = m_heaps[m_nextQueue].RemoveMin();
                m_lookupTable.Remove(item.Value.Entity.LocalId);
                timeinqueue = Util.EnvironmentTickCountSubtract(item.EntryTime);
                value = item.Value;
+                
                return true;
            }
+            
-            for (int i = 0; i < NumberOfQueues; ++i)
+            // Find the next non-immediate queue with updates in it
+            for (int i = 1; i < NumberOfQueues; ++i)
            {
-                // To get the fair queing, we cycle through each of the
+                m_nextQueue = (uint)((m_nextQueue + i) % NumberOfQueues);
-                // queues when finding an element to dequeue, this code
+                m_countFromQueue = m_queueCounts[m_nextQueue];
-                // assumes that the distribution of updates in the queues
-                // is polynomial, probably quadractic (eg distance of PI * R^2)
+                // if this is one of the immediate queues, just skip it
-                uint h = (uint)((m_nextQueue + i) % NumberOfQueues);
+                if (m_nextQueue < NumberOfImmediateQueues)
-                if (m_heaps[h].Count > 0)
+                    continue;
+                
+                if (m_heaps[m_nextQueue].Count > 0)
                {
-                    m_nextQueue = (uint)((h + 1) % NumberOfQueues);
+                    m_countFromQueue--;
-                    MinHeapItem item = m_heaps[h].RemoveMin();
+                    MinHeapItem item = m_heaps[m_nextQueue].RemoveMin();
                    m_lookupTable.Remove(item.Value.Entity.LocalId);
                    timeinqueue = Util.EnvironmentTickCountSubtract(item.EntryTime);
                    value = item.Value;
@@ -139,6 +198,10 @@ namespace OpenSim.Framework
            return false;
        }
+        /// <summary>
+        /// Reapply the prioritization function to each of the updates currently
+        /// stored in the priority queues. 
+        /// </summary
        public void Reprioritize(UpdatePriorityHandler handler)
        {
            MinHeapItem item;
@@ -184,6 +247,8 @@ namespace OpenSim.Framework
            return s;
        }
+#endregion PublicMethods
 #region MinHeapItem
        private struct MinHeapItem : IComparable<MinHeapItem>
        {

diff --git a/OpenSim/Framework/PriorityQueue.cs b/OpenSim/Framework/PriorityQueue.cs index ea718c4..8eeafd1 100644 --- a/OpenSim/Framework/PriorityQueue.cs +++ b/OpenSim/Framework/PriorityQueue.cs
@@ -42,22 +42,40 @@ namespace OpenSim.Framework
42		42
43	public delegate bool UpdatePriorityHandler(ref uint priority, ISceneEntity entity);	43	public delegate bool UpdatePriorityHandler(ref uint priority, ISceneEntity entity);
44		44
45	// Heap[0] for self updates	45	/// <summary>
46	// Heap[1..12] for entity updates	46	/// Total number of queues (priorities) available
47		47	/// </summary>
48	public const uint NumberOfQueues = 12;	48	public const uint NumberOfQueues = 12;
49	public const uint ImmediateQueue = 0;	49
		50	/// <summary>
		51	/// Number of queuest (priorities) that are processed immediately
		52	/// </summary.
		53	public const uint NumberOfImmediateQueues = 2;
50		54
51	private MinHeap<MinHeapItem>[] m_heaps = new MinHeap<MinHeapItem>[NumberOfQueues];	55	private MinHeap<MinHeapItem>[] m_heaps = new MinHeap<MinHeapItem>[NumberOfQueues];
52	private Dictionary<uint, LookupItem> m_lookupTable;	56	private Dictionary<uint, LookupItem> m_lookupTable;
		57
		58	// internal state used to ensure the deqeues are spread across the priority
		59	// queues "fairly". queuecounts is the amount to pull from each queue in
		60	// each pass. weighted towards the higher priority queues
53	private uint m_nextQueue = 0;	61	private uint m_nextQueue = 0;
		62	private uint m_countFromQueue = 0;
		63	private uint[] m_queueCounts = { 8, 4, 4, 2, 2, 2, 2, 1, 1, 1, 1, 1 };
		64
		65	// next request is a counter of the number of updates queued, it provides
		66	// a total ordering on the updates coming through the queue and is more
		67	// lightweight (and more discriminating) than tick count
54	private UInt64 m_nextRequest = 0;	68	private UInt64 m_nextRequest = 0;
55		69
		70	/// <summary>
		71	/// Lock for enqueue and dequeue operations on the priority queue
		72	/// </summary>
56	private object m_syncRoot = new object();	73	private object m_syncRoot = new object();
57	public object SyncRoot {	74	public object SyncRoot {
58	get { return this.m_syncRoot; }	75	get { return this.m_syncRoot; }
59	}	76	}
60		77
		78	#region constructor
61	public PriorityQueue() : this(MinHeap<MinHeapItem>.DEFAULT_CAPACITY) { }	79	public PriorityQueue() : this(MinHeap<MinHeapItem>.DEFAULT_CAPACITY) { }
62		80
63	public PriorityQueue(int capacity)	81	public PriorityQueue(int capacity)
@@ -66,8 +84,16 @@ namespace OpenSim.Framework
66		84
67	for (int i = 0; i < m_heaps.Length; ++i)	85	for (int i = 0; i < m_heaps.Length; ++i)
68	m_heaps[i] = new MinHeap<MinHeapItem>(capacity);	86	m_heaps[i] = new MinHeap<MinHeapItem>(capacity);
		87
		88	m_nextQueue = NumberOfImmediateQueues;
		89	m_countFromQueue = m_queueCounts[m_nextQueue];
69	}	90	}
		91	#endregion Constructor
70		92
		93	#region PublicMethods
		94	/// <summary>
		95	/// Return the number of items in the queues
		96	/// </summary>
71	public int Count	97	public int Count
72	{	98	{
73	get	99	get
@@ -79,6 +105,9 @@ namespace OpenSim.Framework
79	}	105	}
80	}	106	}
81		107
		108	/// <summary>
		109	/// Enqueue an item into the specified priority queue
		110	/// </summary>
82	public bool Enqueue(uint pqueue, IEntityUpdate value)	111	public bool Enqueue(uint pqueue, IEntityUpdate value)
83	{	112	{
84	LookupItem lookup;	113	LookupItem lookup;
@@ -100,32 +129,62 @@ namespace OpenSim.Framework
100	return true;	129	return true;
101	}	130	}
102		131
		132	/// <summary>
		133	/// Remove an item from one of the queues. Specifically, it removes the
		134	/// oldest item from the next queue in order to provide fair access to
		135	/// all of the queues
		136	/// </summary>
103	public bool TryDequeue(out IEntityUpdate value, out Int32 timeinqueue)	137	public bool TryDequeue(out IEntityUpdate value, out Int32 timeinqueue)
104	{	138	{
105	// If there is anything in priority queue 0, return it first no	139	// If there is anything in priority queue 0, return it first no
106	// matter what else. Breaks fairness. But very useful.	140	// matter what else. Breaks fairness. But very useful.
107	if (m_heaps[ImmediateQueue].Count > 0)	141	for (int iq = 0; iq < NumberOfImmediateQueues; iq++)
		142	{
		143	if (m_heaps[iq].Count > 0)
		144	{
		145	MinHeapItem item = m_heaps[iq].RemoveMin();
		146	m_lookupTable.Remove(item.Value.Entity.LocalId);
		147	timeinqueue = Util.EnvironmentTickCountSubtract(item.EntryTime);
		148	value = item.Value;
		149
		150	return true;
		151	}
		152	}
		153
		154	// To get the fair queing, we cycle through each of the
		155	// queues when finding an element to dequeue.
		156	// We pull (NumberOfQueues - QueueIndex) items from each queue in order
		157	// to give lower numbered queues a higher priority and higher percentage
		158	// of the bandwidth.
		159
		160	// Check for more items to be pulled from the current queue
		161	if (m_heaps[m_nextQueue].Count > 0 && m_countFromQueue > 0)
108	{	162	{
109	MinHeapItem item = m_heaps[ImmediateQueue].RemoveMin();	163	m_countFromQueue--;
		164
		165	MinHeapItem item = m_heaps[m_nextQueue].RemoveMin();
110	m_lookupTable.Remove(item.Value.Entity.LocalId);	166	m_lookupTable.Remove(item.Value.Entity.LocalId);
111	timeinqueue = Util.EnvironmentTickCountSubtract(item.EntryTime);	167	timeinqueue = Util.EnvironmentTickCountSubtract(item.EntryTime);
112	value = item.Value;	168	value = item.Value;
113		169
114	return true;	170	return true;
115	}	171	}
116		172
117	for (int i = 0; i < NumberOfQueues; ++i)	173	// Find the next non-immediate queue with updates in it
		174	for (int i = 1; i < NumberOfQueues; ++i)
118	{	175	{
119	// To get the fair queing, we cycle through each of the	176	m_nextQueue = (uint)((m_nextQueue + i) % NumberOfQueues);
120	// queues when finding an element to dequeue, this code	177	m_countFromQueue = m_queueCounts[m_nextQueue];
121	// assumes that the distribution of updates in the queues	178
122	// is polynomial, probably quadractic (eg distance of PI * R^2)	179	// if this is one of the immediate queues, just skip it
123	uint h = (uint)((m_nextQueue + i) % NumberOfQueues);	180	if (m_nextQueue < NumberOfImmediateQueues)
124	if (m_heaps[h].Count > 0)	181	continue;
		182
		183	if (m_heaps[m_nextQueue].Count > 0)
125	{	184	{
126	m_nextQueue = (uint)((h + 1) % NumberOfQueues);	185	m_countFromQueue--;
127		186
128	MinHeapItem item = m_heaps[h].RemoveMin();	187	MinHeapItem item = m_heaps[m_nextQueue].RemoveMin();
129	m_lookupTable.Remove(item.Value.Entity.LocalId);	188	m_lookupTable.Remove(item.Value.Entity.LocalId);
130	timeinqueue = Util.EnvironmentTickCountSubtract(item.EntryTime);	189	timeinqueue = Util.EnvironmentTickCountSubtract(item.EntryTime);
131	value = item.Value;	190	value = item.Value;
@@ -139,6 +198,10 @@ namespace OpenSim.Framework
139	return false;	198	return false;
140	}	199	}
141		200
		201	/// <summary>
		202	/// Reapply the prioritization function to each of the updates currently
		203	/// stored in the priority queues.
		204	/// </summary
142	public void Reprioritize(UpdatePriorityHandler handler)	205	public void Reprioritize(UpdatePriorityHandler handler)
143	{	206	{
144	MinHeapItem item;	207	MinHeapItem item;
@@ -184,6 +247,8 @@ namespace OpenSim.Framework
184	return s;	247	return s;
185	}	248	}
186		249
		250	#endregion PublicMethods
		251
187	#region MinHeapItem	252	#region MinHeapItem
188	private struct MinHeapItem : IComparable<MinHeapItem>	253	private struct MinHeapItem : IComparable<MinHeapItem>
189	{	254	{