Fixed the prioritizer functions for the new priority queues

author: Mic Bowman 2011-04-04 13:19:45 -0700
committer: Mic Bowman 2011-04-10 16:57:02 -0700
commit: 0bd06d8ba85595a1707d2093a08a901b950ca120 (patch)
tree: 3a7fd9d51d65293896a8f489e14782ea58a200e7
parent: Implements adaptive queue management and fair queueing for (diff)
download: opensim-SC_OLD-0bd06d8ba85595a1707d2093a08a901b950ca120.zip
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1 files changed, 82 insertions, 210 deletions
diff --git a/OpenSim/Region/Framework/Scenes/Prioritizer.cs b/OpenSim/Region/Framework/Scenes/Prioritizer.cs
index 2764b05..a14bb70 100644
--- a/OpenSim/Region/Framework/Scenes/Prioritizer.cs
+++ b/OpenSim/Region/Framework/Scenes/Prioritizer.cs
@@ -60,15 +60,6 @@ namespace OpenSim.Region.Framework.Scenes
    {
        private static readonly ILog m_log = LogManager.GetLogger(System.Reflection.MethodBase.GetCurrentMethod().DeclaringType);
        
-        /// <summary>
-        /// This is added to the priority of all child prims, to make sure that the root prim update is sent to the
-        /// viewer before child prim updates.
-        /// The adjustment is added to child prims and subtracted from root prims, so the gap ends up
-        /// being double.  We do it both ways so that there is a still a priority delta even if the priority is already
-        /// double.MinValue or double.MaxValue.
-        /// </summary>
-        private double m_childPrimAdjustmentFactor = 0.05;
        private Scene m_scene;
        public Prioritizer(Scene scene)
@@ -76,9 +67,19 @@ namespace OpenSim.Region.Framework.Scenes
            m_scene = scene;
        }
-//<mic>
+        /// <summary>
+        /// Returns the priority queue into which the update should be placed. Updates within a
+        /// queue will be processed in arrival order. There are currently 12 priority queues
+        /// implemented in PriorityQueue class in LLClientView. Queue 0 is generally retained
+        /// for avatar updates. The fair queuing discipline for processing the priority queues
+        /// assumes that the number of entities in each priority queues increases exponentially.
+        /// So for example... if queue 1 contains all updates within 10m of the avatar or camera
+        /// then queue 2 at 20m is about 3X bigger in space & about 3X bigger in total number
+        /// of updates.
+        /// </summary>
        public uint GetUpdatePriority(IClientAPI client, ISceneEntity entity)
        {
+            // If entity is null we have a serious problem
            if (entity == null)
            {
                m_log.WarnFormat("[PRIORITIZER] attempt to prioritize null entity");
@@ -89,71 +90,12 @@ namespace OpenSim.Region.Framework.Scenes
            if (client.AgentId == entity.UUID)
                return 0;
-            // Get this agent's position
+            uint priority;
-            ScenePresence presence = m_scene.GetScenePresence(client.AgentId);
-            if (presence == null)
-            {
-                m_log.WarnFormat("[PRIORITIZER] attempt to prioritize agent no longer in the scene");
-                throw new InvalidOperationException("Prioritization agent not defined");
-            }
-                
-            // Use group position for child prims
-            Vector3 entityPos = entity.AbsolutePosition;
-            if (entity is SceneObjectPart)
-            {
-                SceneObjectGroup group = (entity as SceneObjectPart).ParentGroup;
-                if (group != null)
-                    entityPos = group.AbsolutePosition;
-            }
-            // Use the camera position for local agents and avatar position for remote agents
-            Vector3 presencePos = (presence.IsChildAgent) ?
-                presence.AbsolutePosition :
-                presence.CameraPosition;
-            // Compute the distance... 
-            double distance = Vector3.Distance(presencePos, entityPos);
-            // And convert the distance to a priority queue, this computation gives queues
-            // at 10, 20, 40, 80, 160, 320, 640, and 1280m
-            uint pqueue = 1;
-            for (int i = 0; i < 8; i++)
-            {
-                if (distance < 10 * Math.Pow(2.0,i))
-                    break;
-                pqueue++;
-            }
-            
-            // If this is a root agent, then determine front & back
-            // Bump up the priority queue for any objects behind the avatar
-            if (! presence.IsChildAgent)
-            {
-                // Root agent, decrease priority for objects behind us
-                Vector3 camPosition = presence.CameraPosition;
-                Vector3 camAtAxis = presence.CameraAtAxis;
-                // Plane equation
-                float d = -Vector3.Dot(camPosition, camAtAxis);
-                float p = Vector3.Dot(camAtAxis, entityPos) + d;
-                if (p < 0.0f) 
-                    pqueue++;
-            }
-            return pqueue;
-        }
-//</mic>        
-        public double bGetUpdatePriority(IClientAPI client, ISceneEntity entity)
-        {
-            double priority = 0;
-            if (entity == null)
-                return 100000;
            
            switch (m_scene.UpdatePrioritizationScheme)
            {
                case UpdatePrioritizationSchemes.Time:
-                    priority = GetPriorityByTime();
+                    priority = GetPriorityByTime(client, entity);
                    break;
                case UpdatePrioritizationSchemes.Distance:
                    priority = GetPriorityByDistance(client, entity);
@@ -171,180 +113,110 @@ namespace OpenSim.Region.Framework.Scenes
                    throw new InvalidOperationException("UpdatePrioritizationScheme not defined.");
            }
            
-            // Adjust priority so that root prims are sent to the viewer first.  This is especially important for 
-            // attachments acting as huds, since current viewers fail to display hud child prims if their updates
-            // arrive before the root one.
-            if (entity is SceneObjectPart)
-            {
-                SceneObjectPart sop = ((SceneObjectPart)entity);
-                
-                if (sop.IsRoot)
-                {
-                    if (priority >= double.MinValue + m_childPrimAdjustmentFactor)
-                        priority -= m_childPrimAdjustmentFactor;
-                }
-                else
-                {
-                    if (priority <= double.MaxValue - m_childPrimAdjustmentFactor)
-                        priority += m_childPrimAdjustmentFactor;
-                }
-            }
-            
            return priority;
        }
-        private double GetPriorityByTime()
+        private uint GetPriorityByTime(IClientAPI client, ISceneEntity entity)
        {
-            return DateTime.UtcNow.ToOADate();
+            return 1;
        }
-        private double GetPriorityByDistance(IClientAPI client, ISceneEntity entity)
+        private uint GetPriorityByDistance(IClientAPI client, ISceneEntity entity)
        {
-            ScenePresence presence = m_scene.GetScenePresence(client.AgentId);
+            return ComputeDistancePriority(client,entity,false);
-            if (presence != null)
+        }
-            {
+        
-                // If this is an update for our own avatar give it the highest priority
+        private uint GetPriorityByFrontBack(IClientAPI client, ISceneEntity entity)
-                if (presence == entity)
+        {
-                    return 0.0;
+            return ComputeDistancePriority(client,entity,true);
-                // Use the camera position for local agents and avatar position for remote agents
-                Vector3 presencePos = (presence.IsChildAgent) ?
-                    presence.AbsolutePosition :
-                    presence.CameraPosition;
-                // Use group position for child prims
-                Vector3 entityPos;
-                if (entity is SceneObjectPart)
-                {
-                    // Can't use Scene.GetGroupByPrim() here, since the entity may have been delete from the scene
-                    // before its scheduled update was triggered
-                    //entityPos = m_scene.GetGroupByPrim(entity.LocalId).AbsolutePosition;
-                    entityPos = ((SceneObjectPart)entity).ParentGroup.AbsolutePosition;
-                }
-                else
-                {
-                    entityPos = entity.AbsolutePosition;
-                }
-                return Vector3.DistanceSquared(presencePos, entityPos);
-            }
-            return double.NaN;
        }
-        private double GetPriorityByFrontBack(IClientAPI client, ISceneEntity entity)
+        private uint GetPriorityByBestAvatarResponsiveness(IClientAPI client, ISceneEntity entity)
        {
+            uint pqueue = ComputeDistancePriority(client,entity,true);
            ScenePresence presence = m_scene.GetScenePresence(client.AgentId);
            if (presence != null)
            {
-                // If this is an update for our own avatar give it the highest priority
-                if (presence == entity)
-                    return 0.0;
-                // Use group position for child prims
-                Vector3 entityPos = entity.AbsolutePosition;
-                if (entity is SceneObjectPart)
-                {
-                    // Can't use Scene.GetGroupByPrim() here, since the entity may have been delete from the scene
-                    // before its scheduled update was triggered
-                    //entityPos = m_scene.GetGroupByPrim(entity.LocalId).AbsolutePosition;
-                    entityPos = ((SceneObjectPart)entity).ParentGroup.AbsolutePosition;
-                }
-                else
-                {
-                    entityPos = entity.AbsolutePosition;
-                }
                if (!presence.IsChildAgent)
                {
-                    // Root agent. Use distance from camera and a priority decrease for objects behind us
+                    if (entity is SceneObjectPart)
-                    Vector3 camPosition = presence.CameraPosition;
+                    {
-                    Vector3 camAtAxis = presence.CameraAtAxis;
+                        // Non physical prims are lower priority than physical prims
+                        PhysicsActor physActor = ((SceneObjectPart)entity).ParentGroup.RootPart.PhysActor;
-                    // Distance
+                        if (physActor == null || !physActor.IsPhysical)
-                    double priority = Vector3.DistanceSquared(camPosition, entityPos);
+                            pqueue++;
-                    // Plane equation
-                    float d = -Vector3.Dot(camPosition, camAtAxis);
-                    float p = Vector3.Dot(camAtAxis, entityPos) + d;
-                    if (p < 0.0f) priority *= 2.0;
-                    return priority;
-                }
-                else
-                {
-                    // Child agent. Use the normal distance method
-                    Vector3 presencePos = presence.AbsolutePosition;
-                    return Vector3.DistanceSquared(presencePos, entityPos);
+                        // Attachments are high priority, 
+                        // MIC: shouldn't these already be in the highest priority queue already
+                        // since their root position is same as the avatars?
+                        if (((SceneObjectPart)entity).ParentGroup.RootPart.IsAttachment)
+                            pqueue = 1;
+                    }
                }
            }
-            return double.NaN;
+            return pqueue;
        }
-        private double GetPriorityByBestAvatarResponsiveness(IClientAPI client, ISceneEntity entity)
+        private uint ComputeDistancePriority(IClientAPI client, ISceneEntity entity, bool useFrontBack)
        {
-            // If this is an update for our own avatar give it the highest priority
+            // Get this agent's position
-            if (client.AgentId == entity.UUID)
+            ScenePresence presence = m_scene.GetScenePresence(client.AgentId);
-                return 0.0;
+            if (presence == null)
-            if (entity == null)
+            {
-                return double.NaN;
+                m_log.WarnFormat("[PRIORITIZER] attempt to prioritize agent no longer in the scene");
+                throw new InvalidOperationException("Prioritization agent not defined");
-            // Use group position for child prims
+            }
+                
+            // Use group position for child prims, since we are putting child prims in
+            // the same queue with the root of the group, the root prim (which goes into
+            // the queue first) should always be sent first, no need to adjust child prim
+            // priorities
            Vector3 entityPos = entity.AbsolutePosition;
            if (entity is SceneObjectPart)
            {
                SceneObjectGroup group = (entity as SceneObjectPart).ParentGroup;
                if (group != null)
                    entityPos = group.AbsolutePosition;
-                else
-                    entityPos = entity.AbsolutePosition;
            }
-            else
-                entityPos = entity.AbsolutePosition;
-            ScenePresence presence = m_scene.GetScenePresence(client.AgentId);
-            if (presence != null)
-            {
-                if (!presence.IsChildAgent)
-                {
-                    if (entity is ScenePresence)
-                        return 1.0;
-                    // Root agent. Use distance from camera and a priority decrease for objects behind us
+            // Use the camera position for local agents and avatar position for remote agents
-                    Vector3 camPosition = presence.CameraPosition;
+            Vector3 presencePos = (presence.IsChildAgent) ?
-                    Vector3 camAtAxis = presence.CameraAtAxis;
+                presence.AbsolutePosition :
+                presence.CameraPosition;
-                    // Distance
-                    double priority = Vector3.DistanceSquared(camPosition, entityPos);
-                    // Plane equation
-                    float d = -Vector3.Dot(camPosition, camAtAxis);
-                    float p = Vector3.Dot(camAtAxis, entityPos) + d;
-                    if (p < 0.0f) priority *= 2.0;
-                    if (entity is SceneObjectPart)
+            // Compute the distance... 
-                    {
+            double distance = Vector3.Distance(presencePos, entityPos);
-                        PhysicsActor physActor = ((SceneObjectPart)entity).ParentGroup.RootPart.PhysActor;
-                        if (physActor == null || !physActor.IsPhysical)
-                            priority += 100;
-                        if (((SceneObjectPart)entity).ParentGroup.RootPart.IsAttachment)
+            // And convert the distance to a priority queue, this computation gives queues
-                            priority = 1.0;
+            // at 10, 20, 40, 80, 160, 320, 640, and 1280m
-                    }
+            uint pqueue = 1;
-                    return priority;
+            for (int i = 0; i < 8; i++)
-                }
+            {
-                else
+                if (distance < 10 * Math.Pow(2.0,i))
-                {
+                    break;
-                    // Child agent. Use the normal distance method
+                pqueue++;
-                    Vector3 presencePos = presence.AbsolutePosition;
+            }
+            
+            // If this is a root agent, then determine front & back
+            // Bump up the priority queue (drop the priority) for any objects behind the avatar
+            if (useFrontBack && ! presence.IsChildAgent)
+            {
+                // Root agent, decrease priority for objects behind us
+                Vector3 camPosition = presence.CameraPosition;
+                Vector3 camAtAxis = presence.CameraAtAxis;
-                    return Vector3.DistanceSquared(presencePos, entityPos);
+                // Plane equation
-                }
+                float d = -Vector3.Dot(camPosition, camAtAxis);
+                float p = Vector3.Dot(camAtAxis, entityPos) + d;
+                if (p < 0.0f) 
+                    pqueue++;
            }
-            return double.NaN;
+            return pqueue;
        }
    }
 }
author	Mic Bowman	2011-04-04 13:19:45 -0700
committer	Mic Bowman	2011-04-10 16:57:02 -0700
commit	0bd06d8ba85595a1707d2093a08a901b950ca120 (patch)
tree	3a7fd9d51d65293896a8f489e14782ea58a200e7
parent	Implements adaptive queue management and fair queueing for (diff)
download	opensim-SC_OLD-0bd06d8ba85595a1707d2093a08a901b950ca120.zip opensim-SC_OLD-0bd06d8ba85595a1707d2093a08a901b950ca120.tar.gz opensim-SC_OLD-0bd06d8ba85595a1707d2093a08a901b950ca120.tar.bz2 opensim-SC_OLD-0bd06d8ba85595a1707d2093a08a901b950ca120.tar.xz

diff --git a/OpenSim/Region/Framework/Scenes/Prioritizer.cs b/OpenSim/Region/Framework/Scenes/Prioritizer.cs index 2764b05..a14bb70 100644 --- a/OpenSim/Region/Framework/Scenes/Prioritizer.cs +++ b/OpenSim/Region/Framework/Scenes/Prioritizer.cs
@@ -60,15 +60,6 @@ namespace OpenSim.Region.Framework.Scenes
60	{	60	{
61	private static readonly ILog m_log = LogManager.GetLogger(System.Reflection.MethodBase.GetCurrentMethod().DeclaringType);	61	private static readonly ILog m_log = LogManager.GetLogger(System.Reflection.MethodBase.GetCurrentMethod().DeclaringType);
62		62
63	/// <summary>
64	/// This is added to the priority of all child prims, to make sure that the root prim update is sent to the
65	/// viewer before child prim updates.
66	/// The adjustment is added to child prims and subtracted from root prims, so the gap ends up
67	/// being double. We do it both ways so that there is a still a priority delta even if the priority is already
68	/// double.MinValue or double.MaxValue.
69	/// </summary>
70	private double m_childPrimAdjustmentFactor = 0.05;
71
72	private Scene m_scene;	63	private Scene m_scene;
73		64
74	public Prioritizer(Scene scene)	65	public Prioritizer(Scene scene)
@@ -76,9 +67,19 @@ namespace OpenSim.Region.Framework.Scenes
76	m_scene = scene;	67	m_scene = scene;
77	}	68	}
78		69
79	//<mic>	70	/// <summary>
		71	/// Returns the priority queue into which the update should be placed. Updates within a
		72	/// queue will be processed in arrival order. There are currently 12 priority queues
		73	/// implemented in PriorityQueue class in LLClientView. Queue 0 is generally retained
		74	/// for avatar updates. The fair queuing discipline for processing the priority queues
		75	/// assumes that the number of entities in each priority queues increases exponentially.
		76	/// So for example... if queue 1 contains all updates within 10m of the avatar or camera
		77	/// then queue 2 at 20m is about 3X bigger in space & about 3X bigger in total number
		78	/// of updates.
		79	/// </summary>
80	public uint GetUpdatePriority(IClientAPI client, ISceneEntity entity)	80	public uint GetUpdatePriority(IClientAPI client, ISceneEntity entity)
81	{	81	{
		82	// If entity is null we have a serious problem
82	if (entity == null)	83	if (entity == null)
83	{	84	{
84	m_log.WarnFormat("[PRIORITIZER] attempt to prioritize null entity");	85	m_log.WarnFormat("[PRIORITIZER] attempt to prioritize null entity");
@@ -89,71 +90,12 @@ namespace OpenSim.Region.Framework.Scenes
89	if (client.AgentId == entity.UUID)	90	if (client.AgentId == entity.UUID)
90	return 0;	91	return 0;
91		92
92	// Get this agent's position	93	uint priority;
93	ScenePresence presence = m_scene.GetScenePresence(client.AgentId);
94	if (presence == null)
95	{
96	m_log.WarnFormat("[PRIORITIZER] attempt to prioritize agent no longer in the scene");
97	throw new InvalidOperationException("Prioritization agent not defined");
98	}
99
100	// Use group position for child prims
101	Vector3 entityPos = entity.AbsolutePosition;
102	if (entity is SceneObjectPart)
103	{
104	SceneObjectGroup group = (entity as SceneObjectPart).ParentGroup;
105	if (group != null)
106	entityPos = group.AbsolutePosition;
107	}
108
109	// Use the camera position for local agents and avatar position for remote agents
110	Vector3 presencePos = (presence.IsChildAgent) ?
111	presence.AbsolutePosition :
112	presence.CameraPosition;
113
114	// Compute the distance...
115	double distance = Vector3.Distance(presencePos, entityPos);
116
117	// And convert the distance to a priority queue, this computation gives queues
118	// at 10, 20, 40, 80, 160, 320, 640, and 1280m
119	uint pqueue = 1;
120	for (int i = 0; i < 8; i++)
121	{
122	if (distance < 10 * Math.Pow(2.0,i))
123	break;
124	pqueue++;
125	}
126
127	// If this is a root agent, then determine front & back
128	// Bump up the priority queue for any objects behind the avatar
129	if (! presence.IsChildAgent)
130	{
131	// Root agent, decrease priority for objects behind us
132	Vector3 camPosition = presence.CameraPosition;
133	Vector3 camAtAxis = presence.CameraAtAxis;
134
135	// Plane equation
136	float d = -Vector3.Dot(camPosition, camAtAxis);
137	float p = Vector3.Dot(camAtAxis, entityPos) + d;
138	if (p < 0.0f)
139	pqueue++;
140	}
141
142	return pqueue;
143	}
144	//</mic>
145
146	public double bGetUpdatePriority(IClientAPI client, ISceneEntity entity)
147	{
148	double priority = 0;
149
150	if (entity == null)
151	return 100000;
152		94
153	switch (m_scene.UpdatePrioritizationScheme)	95	switch (m_scene.UpdatePrioritizationScheme)
154	{	96	{
155	case UpdatePrioritizationSchemes.Time:	97	case UpdatePrioritizationSchemes.Time:
156	priority = GetPriorityByTime();	98	priority = GetPriorityByTime(client, entity);
157	break;	99	break;
158	case UpdatePrioritizationSchemes.Distance:	100	case UpdatePrioritizationSchemes.Distance:
159	priority = GetPriorityByDistance(client, entity);	101	priority = GetPriorityByDistance(client, entity);
@@ -171,180 +113,110 @@ namespace OpenSim.Region.Framework.Scenes
171	throw new InvalidOperationException("UpdatePrioritizationScheme not defined.");	113	throw new InvalidOperationException("UpdatePrioritizationScheme not defined.");
172	}	114	}
173		115
174	// Adjust priority so that root prims are sent to the viewer first. This is especially important for
175	// attachments acting as huds, since current viewers fail to display hud child prims if their updates
176	// arrive before the root one.
177	if (entity is SceneObjectPart)
178	{
179	SceneObjectPart sop = ((SceneObjectPart)entity);
180
181	if (sop.IsRoot)
182	{
183	if (priority >= double.MinValue + m_childPrimAdjustmentFactor)
184	priority -= m_childPrimAdjustmentFactor;
185	}
186	else
187	{
188	if (priority <= double.MaxValue - m_childPrimAdjustmentFactor)
189	priority += m_childPrimAdjustmentFactor;
190	}
191	}
192
193	return priority;	116	return priority;
194	}	117	}
195		118
196	private double GetPriorityByTime()	119
		120	private uint GetPriorityByTime(IClientAPI client, ISceneEntity entity)
197	{	121	{
198	return DateTime.UtcNow.ToOADate();	122	return 1;
199	}	123	}
200		124
201	private double GetPriorityByDistance(IClientAPI client, ISceneEntity entity)	125	private uint GetPriorityByDistance(IClientAPI client, ISceneEntity entity)
202	{	126	{
203	ScenePresence presence = m_scene.GetScenePresence(client.AgentId);	127	return ComputeDistancePriority(client,entity,false);
204	if (presence != null)	128	}
205	{	129
206	// If this is an update for our own avatar give it the highest priority	130	private uint GetPriorityByFrontBack(IClientAPI client, ISceneEntity entity)
207	if (presence == entity)	131	{
208	return 0.0;	132	return ComputeDistancePriority(client,entity,true);
209
210	// Use the camera position for local agents and avatar position for remote agents
211	Vector3 presencePos = (presence.IsChildAgent) ?
212	presence.AbsolutePosition :
213	presence.CameraPosition;
214
215	// Use group position for child prims
216	Vector3 entityPos;
217	if (entity is SceneObjectPart)
218	{
219	// Can't use Scene.GetGroupByPrim() here, since the entity may have been delete from the scene
220	// before its scheduled update was triggered
221	//entityPos = m_scene.GetGroupByPrim(entity.LocalId).AbsolutePosition;
222	entityPos = ((SceneObjectPart)entity).ParentGroup.AbsolutePosition;
223	}
224	else
225	{
226	entityPos = entity.AbsolutePosition;
227	}
228
229	return Vector3.DistanceSquared(presencePos, entityPos);
230	}
231
232	return double.NaN;
233	}	133	}
234		134
235	private double GetPriorityByFrontBack(IClientAPI client, ISceneEntity entity)	135	private uint GetPriorityByBestAvatarResponsiveness(IClientAPI client, ISceneEntity entity)
236	{	136	{
		137	uint pqueue = ComputeDistancePriority(client,entity,true);
		138
237	ScenePresence presence = m_scene.GetScenePresence(client.AgentId);	139	ScenePresence presence = m_scene.GetScenePresence(client.AgentId);
238	if (presence != null)	140	if (presence != null)
239	{	141	{
240	// If this is an update for our own avatar give it the highest priority
241	if (presence == entity)
242	return 0.0;
243
244	// Use group position for child prims
245	Vector3 entityPos = entity.AbsolutePosition;
246	if (entity is SceneObjectPart)
247	{
248	// Can't use Scene.GetGroupByPrim() here, since the entity may have been delete from the scene
249	// before its scheduled update was triggered
250	//entityPos = m_scene.GetGroupByPrim(entity.LocalId).AbsolutePosition;
251	entityPos = ((SceneObjectPart)entity).ParentGroup.AbsolutePosition;
252	}
253	else
254	{
255	entityPos = entity.AbsolutePosition;
256	}
257
258	if (!presence.IsChildAgent)	142	if (!presence.IsChildAgent)
259	{	143	{
260	// Root agent. Use distance from camera and a priority decrease for objects behind us	144	if (entity is SceneObjectPart)
261	Vector3 camPosition = presence.CameraPosition;	145	{
262	Vector3 camAtAxis = presence.CameraAtAxis;	146	// Non physical prims are lower priority than physical prims
263		147	PhysicsActor physActor = ((SceneObjectPart)entity).ParentGroup.RootPart.PhysActor;
264	// Distance	148	if (physActor == null \|\| !physActor.IsPhysical)
265	double priority = Vector3.DistanceSquared(camPosition, entityPos);	149	pqueue++;
266
267	// Plane equation
268	float d = -Vector3.Dot(camPosition, camAtAxis);
269	float p = Vector3.Dot(camAtAxis, entityPos) + d;
270	if (p < 0.0f) priority *= 2.0;
271
272	return priority;
273	}
274	else
275	{
276	// Child agent. Use the normal distance method
277	Vector3 presencePos = presence.AbsolutePosition;
278		150
279	return Vector3.DistanceSquared(presencePos, entityPos);	151	// Attachments are high priority,
		152	// MIC: shouldn't these already be in the highest priority queue already
		153	// since their root position is same as the avatars?
		154	if (((SceneObjectPart)entity).ParentGroup.RootPart.IsAttachment)
		155	pqueue = 1;
		156	}
280	}	157	}
281	}	158	}
282		159
283	return double.NaN;	160	return pqueue;
284	}	161	}
285		162
286	private double GetPriorityByBestAvatarResponsiveness(IClientAPI client, ISceneEntity entity)	163	private uint ComputeDistancePriority(IClientAPI client, ISceneEntity entity, bool useFrontBack)
287	{	164	{
288	// If this is an update for our own avatar give it the highest priority	165	// Get this agent's position
289	if (client.AgentId == entity.UUID)	166	ScenePresence presence = m_scene.GetScenePresence(client.AgentId);
290	return 0.0;	167	if (presence == null)
291	if (entity == null)	168	{
292	return double.NaN;	169	m_log.WarnFormat("[PRIORITIZER] attempt to prioritize agent no longer in the scene");
293		170	throw new InvalidOperationException("Prioritization agent not defined");
294	// Use group position for child prims	171	}
		172
		173	// Use group position for child prims, since we are putting child prims in
		174	// the same queue with the root of the group, the root prim (which goes into
		175	// the queue first) should always be sent first, no need to adjust child prim
		176	// priorities
295	Vector3 entityPos = entity.AbsolutePosition;	177	Vector3 entityPos = entity.AbsolutePosition;
296	if (entity is SceneObjectPart)	178	if (entity is SceneObjectPart)
297	{	179	{
298	SceneObjectGroup group = (entity as SceneObjectPart).ParentGroup;	180	SceneObjectGroup group = (entity as SceneObjectPart).ParentGroup;
299	if (group != null)	181	if (group != null)
300	entityPos = group.AbsolutePosition;	182	entityPos = group.AbsolutePosition;
301	else
302	entityPos = entity.AbsolutePosition;
303	}	183	}
304	else
305	entityPos = entity.AbsolutePosition;
306
307	ScenePresence presence = m_scene.GetScenePresence(client.AgentId);
308	if (presence != null)
309	{
310	if (!presence.IsChildAgent)
311	{
312	if (entity is ScenePresence)
313	return 1.0;
314		184
315	// Root agent. Use distance from camera and a priority decrease for objects behind us	185	// Use the camera position for local agents and avatar position for remote agents
316	Vector3 camPosition = presence.CameraPosition;	186	Vector3 presencePos = (presence.IsChildAgent) ?
317	Vector3 camAtAxis = presence.CameraAtAxis;	187	presence.AbsolutePosition :
318		188	presence.CameraPosition;
319	// Distance
320	double priority = Vector3.DistanceSquared(camPosition, entityPos);
321
322	// Plane equation
323	float d = -Vector3.Dot(camPosition, camAtAxis);
324	float p = Vector3.Dot(camAtAxis, entityPos) + d;
325	if (p < 0.0f) priority *= 2.0;
326		189
327	if (entity is SceneObjectPart)	190	// Compute the distance...
328	{	191	double distance = Vector3.Distance(presencePos, entityPos);
329	PhysicsActor physActor = ((SceneObjectPart)entity).ParentGroup.RootPart.PhysActor;
330	if (physActor == null \|\| !physActor.IsPhysical)
331	priority += 100;
332		192
333	if (((SceneObjectPart)entity).ParentGroup.RootPart.IsAttachment)	193	// And convert the distance to a priority queue, this computation gives queues
334	priority = 1.0;	194	// at 10, 20, 40, 80, 160, 320, 640, and 1280m
335	}	195	uint pqueue = 1;
336	return priority;	196	for (int i = 0; i < 8; i++)
337	}	197	{
338	else	198	if (distance < 10 * Math.Pow(2.0,i))
339	{	199	break;
340	// Child agent. Use the normal distance method	200	pqueue++;
341	Vector3 presencePos = presence.AbsolutePosition;	201	}
		202
		203	// If this is a root agent, then determine front & back
		204	// Bump up the priority queue (drop the priority) for any objects behind the avatar
		205	if (useFrontBack && ! presence.IsChildAgent)
		206	{
		207	// Root agent, decrease priority for objects behind us
		208	Vector3 camPosition = presence.CameraPosition;
		209	Vector3 camAtAxis = presence.CameraAtAxis;
342		210
343	return Vector3.DistanceSquared(presencePos, entityPos);	211	// Plane equation
344	}	212	float d = -Vector3.Dot(camPosition, camAtAxis);
		213	float p = Vector3.Dot(camAtAxis, entityPos) + d;
		214	if (p < 0.0f)
		215	pqueue++;
345	}	216	}
346		217
347	return double.NaN;	218	return pqueue;
348	}	219	}
		220
349	}	221	}
350	}	222	}