public void SendStatsResults(SimStats simStats)
{
SendStatResult handlerSendStatResult = OnSendStatsResult;
if (handlerSendStatResult != null)
{
handlerSendStatResult(simStats);
}
}
private void statsHeartBeat(object sender, EventArgs e)
{
SimStatsPacket.StatBlock[] sb = new SimStatsPacket.StatBlock[21];
SimStatsPacket.RegionBlock rb = new SimStatsPacket.RegionBlock();
// Know what's not thread safe in Mono... modifying timers.
// m_log.Debug("Firing Stats Heart Beat");
lock (m_report)
{
uint regionFlags = 0;
try
{
if (estateModule == null)
{
estateModule = m_scene.RequestModuleInterface <IEstateModule>();
}
regionFlags = estateModule != null?estateModule.GetRegionFlags() : (uint)0;
}
catch (Exception)
{
// leave region flags at 0
}
#region various statistic googly moogly
// Our FPS is actually 10fps, so multiplying by 5 to get the amount that people expect there
// 0-50 is pretty close to 0-45
float simfps = (int)((m_fps * 5));
// save the reported value so there is something available for llGetRegionFPS
lastReportedSimFPS = (float)simfps / statsUpdateFactor;
//if (simfps > 45)
//simfps = simfps - (simfps - 45);
//if (simfps < 0)
//simfps = 0;
//
float physfps = ((m_pfps / 1000));
//if (physfps > 600)
//physfps = physfps - (physfps - 600);
if (physfps < 0)
{
physfps = 0;
}
#endregion
//Our time dilation is 0.91 when we're running a full speed,
// therefore to make sure we get an appropriate range,
// we have to factor in our error. (0.10f * statsUpdateFactor)
// multiplies the fix for the error times the amount of times it'll occur a second
// / 10 divides the value by the number of times the sim heartbeat runs (10fps)
// Then we divide the whole amount by the amount of seconds pass in between stats updates.
for (int i = 0; i < 21; i++)
{
sb[i] = new SimStatsPacket.StatBlock();
}
sb[0].StatID = (uint)Stats.TimeDilation;
sb[0].StatValue = (Single.IsNaN(m_timeDilation)) ? 0.1f : m_timeDilation; //((((m_timeDilation + (0.10f * statsUpdateFactor)) /10) / statsUpdateFactor));
sb[1].StatID = (uint)Stats.SimFPS;
sb[1].StatValue = simfps / statsUpdateFactor;
sb[2].StatID = (uint)Stats.PhysicsFPS;
sb[2].StatValue = physfps / statsUpdateFactor;
sb[3].StatID = (uint)Stats.AgentUpdates;
sb[3].StatValue = (m_agentUpdates / statsUpdateFactor);
sb[4].StatID = (uint)Stats.Agents;
sb[4].StatValue = m_rootAgents;
sb[5].StatID = (uint)Stats.ChildAgents;
sb[5].StatValue = m_childAgents;
sb[6].StatID = (uint)Stats.TotalPrim;
sb[6].StatValue = m_numPrim;
sb[7].StatID = (uint)Stats.ActivePrim;
sb[7].StatValue = m_activePrim;
sb[8].StatID = (uint)Stats.FrameMS;
sb[8].StatValue = m_frameMS / statsUpdateFactor;
sb[9].StatID = (uint)Stats.NetMS;
sb[9].StatValue = m_netMS / statsUpdateFactor;
sb[10].StatID = (uint)Stats.PhysicsMS;
sb[10].StatValue = m_physicsMS / statsUpdateFactor;
sb[11].StatID = (uint)Stats.ImageMS;
sb[11].StatValue = m_imageMS / statsUpdateFactor;
sb[12].StatID = (uint)Stats.OtherMS;
sb[12].StatValue = m_otherMS / statsUpdateFactor;
sb[13].StatID = (uint)Stats.InPacketsPerSecond;
sb[13].StatValue = (m_inPacketsPerSecond);
sb[14].StatID = (uint)Stats.OutPacketsPerSecond;
sb[14].StatValue = (m_outPacketsPerSecond / statsUpdateFactor);
sb[15].StatID = (uint)Stats.UnAckedBytes;
sb[15].StatValue = m_unAckedBytes;
sb[16].StatID = (uint)Stats.AgentMS;
sb[16].StatValue = m_agentMS / statsUpdateFactor;
sb[17].StatID = (uint)Stats.PendingDownloads;
sb[17].StatValue = m_pendingDownloads;
sb[18].StatID = (uint)Stats.PendingUploads;
sb[18].StatValue = m_pendingUploads;
sb[19].StatID = (uint)Stats.ActiveScripts;
sb[19].StatValue = m_activeScripts;
sb[20].StatID = (uint)Stats.ScriptLinesPerSecond;
sb[20].StatValue = m_scriptLinesPerSecond / statsUpdateFactor;
SimStats simStats
= new SimStats(
ReportingRegion.RegionLocX, ReportingRegion.RegionLocY, regionFlags, (uint)objectCapacity, rb, sb, m_scene.RegionInfo.originRegionID);
handlerSendStatResult = OnSendStatsResult;
if (handlerSendStatResult != null)
{
handlerSendStatResult(simStats);
}
resetvalues();
}
}
private void statsHeartBeat(object sender, EventArgs e)
{
if (statsRunning)
{
return;
}
try
{
statsRunning = true;
SimStatsPacket.StatBlock[] sb = new SimStatsPacket.StatBlock[21];
SimStatsPacket.RegionBlock rb = new SimStatsPacket.RegionBlock();
uint regionFlags = 0;
try
{
if (estateModule == null)
{
estateModule = m_scene.RequestModuleInterface <IEstateModule>();
}
regionFlags = estateModule != null?estateModule.GetRegionFlags() : (uint)0;
}
catch (Exception)
{
// leave region flags at 0
}
float simfps = (int)m_fps;
// save the reported value so there is something available for llGetRegionFPS
lastReportedSimFPS = (float)simfps / statsUpdateFactor;
float physfps = m_pfps;
if (physfps < 0)
{
physfps = 0;
}
//Our time dilation is 0.91 when we're running a full speed,
// therefore to make sure we get an appropriate range,
// we have to factor in our error. (0.10f * statsUpdateFactor)
// multiplies the fix for the error times the amount of times it'll occur a second
// / 10 divides the value by the number of times the sim heartbeat runs (10fps)
// Then we divide the whole amount by the amount of seconds pass in between stats updates.
for (int i = 0; i < 21; i++)
{
sb[i] = new SimStatsPacket.StatBlock();
}
sb[0].StatID = (uint)Stats.TimeDilation;
sb[0].StatValue = (Single.IsNaN(m_timeDilation)) ? 0.1f : m_timeDilation; //((((m_timeDilation + (0.10f * statsUpdateFactor)) /10) / statsUpdateFactor));
sb[1].StatID = (uint)Stats.SimFPS;
sb[1].StatValue = simfps / statsUpdateFactor;
sb[2].StatID = (uint)Stats.PhysicsFPS;
sb[2].StatValue = physfps;
sb[3].StatID = (uint)Stats.AgentUpdates;
sb[3].StatValue = (m_agentUpdates / statsUpdateFactor);
sb[4].StatID = (uint)Stats.Agents;
sb[4].StatValue = m_rootAgents;
sb[5].StatID = (uint)Stats.ChildAgents;
sb[5].StatValue = m_childAgents;
sb[6].StatID = (uint)Stats.TotalPrim;
sb[6].StatValue = m_numPrim;
sb[7].StatID = (uint)Stats.ActivePrim;
sb[7].StatValue = m_activePrim;
sb[8].StatID = (uint)Stats.FrameMS;
sb[8].StatValue = m_frameMS / statsUpdateFactor;
sb[9].StatID = (uint)Stats.NetMS;
sb[9].StatValue = m_netMS / statsUpdateFactor;
sb[10].StatID = (uint)Stats.PhysicsMS;
sb[10].StatValue = m_physicsMS / statsUpdateFactor;
sb[11].StatID = (uint)Stats.ImageMS;
sb[11].StatValue = m_imageMS / statsUpdateFactor;
sb[12].StatID = (uint)Stats.OtherMS;
sb[12].StatValue = m_otherMS / statsUpdateFactor;
sb[13].StatID = (uint)Stats.InPacketsPerSecond;
sb[13].StatValue = (m_inPacketsPerSecond);
sb[14].StatID = (uint)Stats.OutPacketsPerSecond;
sb[14].StatValue = (m_outPacketsPerSecond / statsUpdateFactor);
sb[15].StatID = (uint)Stats.UnAckedBytes;
sb[15].StatValue = m_unAckedBytes;
sb[16].StatID = (uint)Stats.AgentMS;
sb[16].StatValue = m_agentMS / statsUpdateFactor;
sb[17].StatID = (uint)Stats.PendingDownloads;
sb[17].StatValue = m_pendingDownloads;
sb[18].StatID = (uint)Stats.PendingUploads;
sb[18].StatValue = m_pendingUploads;
sb[19].StatID = (uint)Stats.ActiveScripts;
sb[19].StatValue = m_activeScripts;
sb[20].StatID = (uint)Stats.ScriptLinesPerSecond;
sb[20].StatValue = m_scriptLinesPerSecond / statsUpdateFactor;
SimStats simStats
= new SimStats(
ReportingRegion.RegionLocX, ReportingRegion.RegionLocY, regionFlags, (uint)objectCapacity, rb, sb, m_scene.RegionInfo.originRegionID);
handlerSendStatResult = OnSendStatsResult;
if (handlerSendStatResult != null)
{
handlerSendStatResult(simStats);
}
resetvalues();
}
finally
{
statsRunning = false;
}
}
private void statsHeartBeat(object sender, EventArgs e)
{
SimStatsPacket.StatBlock[] sb = new SimStatsPacket.StatBlock[21];
SimStatsPacket.RegionBlock rb = new SimStatsPacket.RegionBlock();
// Know what's not thread safe in Mono... modifying timers.
// m_log.Debug("Firing Stats Heart Beat");
lock (m_report)
{
uint regionFlags = 0;
try
{
if (estateModule == null)
estateModule = m_scene.RequestModuleInterface<IEstateModule>();
regionFlags = estateModule != null ? estateModule.GetRegionFlags() : (uint) 0;
}
catch (Exception)
{
// leave region flags at 0
}
#region various statistic googly moogly
// We're going to lie about the FPS because we've been lying since 2008. The actual FPS is currently
// locked at a maximum of 11. Maybe at some point this can change so that we're not lying.
int reportedFPS = (int)(m_fps * m_reportedFpsCorrectionFactor);
// save the reported value so there is something available for llGetRegionFPS
lastReportedSimFPS = reportedFPS / statsUpdateFactor;
float physfps = ((m_pfps / 1000));
//if (physfps > 600)
//physfps = physfps - (physfps - 600);
if (physfps < 0)
physfps = 0;
#endregion
//Our time dilation is 0.91 when we're running a full speed,
// therefore to make sure we get an appropriate range,
// we have to factor in our error. (0.10f * statsUpdateFactor)
// multiplies the fix for the error times the amount of times it'll occur a second
// / 10 divides the value by the number of times the sim heartbeat runs (10fps)
// Then we divide the whole amount by the amount of seconds pass in between stats updates.
// 'statsUpdateFactor' is how often stats packets are sent in seconds. Used below to change
// values to X-per-second values.
for (int i = 0; i < 21; i++)
{
sb[i] = new SimStatsPacket.StatBlock();
}
sb[0].StatID = (uint) Stats.TimeDilation;
sb[0].StatValue = (Single.IsNaN(m_timeDilation)) ? 0.1f : m_timeDilation ; //((((m_timeDilation + (0.10f * statsUpdateFactor)) /10) / statsUpdateFactor));
sb[1].StatID = (uint) Stats.SimFPS;
sb[1].StatValue = reportedFPS / statsUpdateFactor;
sb[2].StatID = (uint) Stats.PhysicsFPS;
sb[2].StatValue = physfps / statsUpdateFactor;
sb[3].StatID = (uint) Stats.AgentUpdates;
sb[3].StatValue = (m_agentUpdates / statsUpdateFactor);
sb[4].StatID = (uint) Stats.Agents;
sb[4].StatValue = m_rootAgents;
sb[5].StatID = (uint) Stats.ChildAgents;
sb[5].StatValue = m_childAgents;
sb[6].StatID = (uint) Stats.TotalPrim;
sb[6].StatValue = m_numPrim;
sb[7].StatID = (uint) Stats.ActivePrim;
sb[7].StatValue = m_activePrim;
sb[8].StatID = (uint)Stats.FrameMS;
sb[8].StatValue = m_frameMS / statsUpdateFactor;
sb[9].StatID = (uint)Stats.NetMS;
sb[9].StatValue = m_netMS / statsUpdateFactor;
sb[10].StatID = (uint)Stats.PhysicsMS;
sb[10].StatValue = m_physicsMS / statsUpdateFactor;
sb[11].StatID = (uint)Stats.ImageMS ;
sb[11].StatValue = m_imageMS / statsUpdateFactor;
sb[12].StatID = (uint)Stats.OtherMS;
sb[12].StatValue = m_otherMS / statsUpdateFactor;
sb[13].StatID = (uint)Stats.InPacketsPerSecond;
sb[13].StatValue = (m_inPacketsPerSecond / statsUpdateFactor);
sb[14].StatID = (uint)Stats.OutPacketsPerSecond;
sb[14].StatValue = (m_outPacketsPerSecond / statsUpdateFactor);
sb[15].StatID = (uint)Stats.UnAckedBytes;
sb[15].StatValue = m_unAckedBytes;
sb[16].StatID = (uint)Stats.AgentMS;
sb[16].StatValue = m_agentMS / statsUpdateFactor;
sb[17].StatID = (uint)Stats.PendingDownloads;
sb[17].StatValue = m_pendingDownloads;
sb[18].StatID = (uint)Stats.PendingUploads;
sb[18].StatValue = m_pendingUploads;
sb[19].StatID = (uint)Stats.ActiveScripts;
sb[19].StatValue = m_activeScripts;
sb[20].StatID = (uint)Stats.ScriptLinesPerSecond;
sb[20].StatValue = m_scriptLinesPerSecond / statsUpdateFactor;
for (int i = 0; i < 21; i++)
{
lastReportedSimStats[i] = sb[i].StatValue;
}
SimStats simStats
= new SimStats(
ReportingRegion.RegionLocX, ReportingRegion.RegionLocY, regionFlags, (uint)m_objectCapacity,
rb, sb, m_scene.RegionInfo.originRegionID);
handlerSendStatResult = OnSendStatsResult;
if (handlerSendStatResult != null)
{
handlerSendStatResult(simStats);
}
// Extra statistics that aren't currently sent to clients
LastReportedObjectUpdates = m_objectUpdates / statsUpdateFactor;
resetvalues();
}
}
private void statsHeartBeat(object sender, EventArgs e)
{
SimStatsPacket.StatBlock[] sb = new SimStatsPacket.StatBlock[33];
SimStatsPacket.RegionBlock rb = new SimStatsPacket.RegionBlock();
// Know what's not thread safe in Mono... modifying timers.
// m_log.Debug("Firing Stats Heart Beat");
lock (m_report)
{
uint regionFlags = 0;
try
{
if (estateModule == null)
estateModule = m_scene.RequestModuleInterface<IEstateModule>();
regionFlags = estateModule != null ? estateModule.GetRegionFlags() : (uint) 0;
}
catch (Exception)
{
// leave region flags at 0
}
#region various statistic googly moogly
// Our FPS is actually 10fps, so multiplying by 5 to get the amount that people expect there
// 0-50 is pretty close to 0-45
float simfps = (int) ((m_fps * 5));
// save the reported value so there is something available for llGetRegionFPS
lastReportedSimFPS = (float)simfps / statsUpdateFactor;
//if (simfps > 45)
//simfps = simfps - (simfps - 45);
//if (simfps < 0)
//simfps = 0;
//
float physfps = ((m_pfps / 1000));
//if (physfps > 600)
//physfps = physfps - (physfps - 600);
if (physfps < 0)
physfps = 0;
#endregion
//Our time dilation is 0.91 when we're running a full speed,
// therefore to make sure we get an appropriate range,
// we have to factor in our error. (0.10f * statsUpdateFactor)
// multiplies the fix for the error times the amount of times it'll occur a second
// / 10 divides the value by the number of times the sim heartbeat runs (10fps)
// Then we divide the whole amount by the amount of seconds pass in between stats updates.
// 'statsUpdateFactor' is how often stats packets are sent in seconds. Used below to change
// values to X-per-second values.
for (int i = 0; i<33;i++)
{
sb[i] = new SimStatsPacket.StatBlock();
}
sb[0].StatID = (uint) Stats.TimeDilation;
sb[0].StatValue = (Single.IsNaN(m_timeDilation)) ? 0.1f : m_timeDilation ; //((((m_timeDilation + (0.10f * statsUpdateFactor)) /10) / statsUpdateFactor));
sb[1].StatID = (uint) Stats.SimFPS;
sb[1].StatValue = simfps/statsUpdateFactor;
sb[2].StatID = (uint) Stats.PhysicsFPS;
sb[2].StatValue = physfps / statsUpdateFactor;
sb[3].StatID = (uint) Stats.AgentUpdates;
sb[3].StatValue = (m_agentUpdates / statsUpdateFactor);
sb[4].StatID = (uint) Stats.Agents;
sb[4].StatValue = m_rootAgents;
sb[5].StatID = (uint) Stats.ChildAgents;
sb[5].StatValue = m_childAgents;
sb[6].StatID = (uint) Stats.TotalPrim;
sb[6].StatValue = m_numPrim;
sb[7].StatID = (uint) Stats.ActivePrim;
sb[7].StatValue = m_activePrim;
sb[8].StatID = (uint)Stats.FrameMS;
sb[8].StatValue = m_frameMS / statsUpdateFactor;
sb[9].StatID = (uint)Stats.NetMS;
sb[9].StatValue = m_netMS / statsUpdateFactor;
sb[10].StatID = (uint)Stats.PhysicsMS;
sb[10].StatValue = m_physicsMS / statsUpdateFactor;
sb[11].StatID = (uint)Stats.ImageMS ;
sb[11].StatValue = m_imageMS / statsUpdateFactor;
sb[12].StatID = (uint)Stats.OtherMS;
sb[12].StatValue = m_otherMS / statsUpdateFactor;
sb[13].StatID = (uint)Stats.InPacketsPerSecond;
sb[13].StatValue = (m_inPacketsPerSecond / statsUpdateFactor);
sb[14].StatID = (uint)Stats.OutPacketsPerSecond;
sb[14].StatValue = (m_outPacketsPerSecond / statsUpdateFactor);
sb[15].StatID = (uint)Stats.UnAckedBytes;
sb[15].StatValue = m_unAckedBytes;
sb[16].StatID = (uint)Stats.AgentMS;
sb[16].StatValue = m_agentMS / statsUpdateFactor;
sb[17].StatID = (uint)Stats.PendingDownloads;
sb[17].StatValue = m_pendingDownloads;
sb[18].StatID = (uint)Stats.PendingUploads;
sb[18].StatValue = m_pendingUploads;
sb[19].StatID = (uint)Stats.ActiveScripts;
sb[19].StatValue = m_activeScripts;
sb[20].StatID = (uint)Stats.ScriptEventsPerSecond;
sb[20].StatValue = m_scriptEventsPerSecond / statsUpdateFactor;
sb[21].StatID = (uint)Stats.SpareTime;
sb[21].StatValue = 0;
sb[22].StatID = (uint)Stats.SleepTime;
sb[22].StatValue = m_sleepTime;
sb[23].StatID = (uint)Stats.PumpIO;
sb[23].StatValue = 0;
long pws = System.Diagnostics.Process.GetCurrentProcess().WorkingSet64;
if (pws > Int32.MaxValue)
pws = Int32.MaxValue;
if (pws < 0)
pws = 0;
sb[25].StatID = (uint)Stats.MemoryAllocated;
sb[25].StatValue = pws / 4096000;
sb[26].StatID = (uint)Stats.PhysicsOther;
sb[26].StatValue = m_physicsOther;
sb[27].StatID = (uint)Stats.UpdatePhysicsShapes;
sb[27].StatValue = 0;
sb[28].StatID = (uint)Stats.PhysicsStep;
sb[28].StatValue = m_physicsStep;
sb[29].StatID = (uint)Stats.LowLodObjects;
sb[29].StatValue = 0;
sb[30].StatID = (uint)Stats.PinnedObjects;
sb[30].StatValue = 0;
sb[31].StatID = (uint)Stats.UnknownA;
sb[31].StatValue = 0;
sb[32].StatID = (uint)Stats.UnknownB;
sb[32].StatValue = 0;
sb[24].StatID = (uint)Stats.UnknownC;
sb[24].StatValue = 0;
for (int i = 0; i < 33; i++)
{
lastReportedSimStats[i] = sb[i].StatValue;
}
SimStats simStats
= new SimStats(
ReportingRegion.RegionLocX, ReportingRegion.RegionLocY, regionFlags, (uint)objectCapacity, rb, sb, m_scene.RegionInfo.RegionID);
handlerSendStatResult = OnSendStatsResult;
if (handlerSendStatResult != null)
{
handlerSendStatResult(simStats);
}
resetvalues();
}
}
private void statsHeartBeat(object sender, EventArgs e)
{
double totalSumFrameTime;
double simulationSumFrameTime;
double physicsSumFrameTime;
double networkSumFrameTime;
float frameDilation;
int currentFrame;
if (!m_scene.Active)
return;
// Create arrays to hold the statistics for this current scene,
// these will be passed to the SimExtraStatsCollector, they are also
// sent to the SimStats class
SimStatsPacket.StatBlock[] sb = new
SimStatsPacket.StatBlock[m_statisticArraySize];
SimStatsPacket.RegionBlock rb = new SimStatsPacket.RegionBlock();
// Know what's not thread safe in Mono... modifying timers.
// m_log.Debug("Firing Stats Heart Beat");
lock (m_report)
{
uint regionFlags = 0;
try
{
if (estateModule == null)
estateModule = m_scene.RequestModuleInterface<IEstateModule>();
regionFlags = estateModule != null ? estateModule.GetRegionFlags() : (uint) 0;
}
catch (Exception)
{
// leave region flags at 0
}
#region various statistic googly moogly
// ORIGINAL code commented out until we have time to add our own
// statistics to the statistics window, this will be done as a
// new section given the title of our current project
// We're going to lie about the FPS because we've been lying since 2008. The actual FPS is currently
// locked at a maximum of 11. Maybe at some point this can change so that we're not lying.
//int reportedFPS = (int)(m_fps * m_reportedFpsCorrectionFactor);
int reportedFPS = m_fps;
// save the reported value so there is something available for llGetRegionFPS
lastReportedSimFPS = reportedFPS / m_statsUpdateFactor;
// ORIGINAL code commented out until we have time to add our own
// statistics to the statistics window
//float physfps = ((m_pfps / 1000));
float physfps = m_numberPhysicsFrames;
//if (physfps > 600)
//physfps = physfps - (physfps - 600);
if (physfps < 0)
physfps = 0;
#endregion
m_rootAgents = m_scene.SceneGraph.GetRootAgentCount();
m_childAgents = m_scene.SceneGraph.GetChildAgentCount();
m_numPrim = m_scene.SceneGraph.GetTotalObjectsCount();
m_numGeoPrim = m_scene.SceneGraph.GetTotalPrimObjectsCount();
m_numMesh = m_scene.SceneGraph.GetTotalMeshObjectsCount();
m_activePrim = m_scene.SceneGraph.GetActiveObjectsCount();
m_activeScripts = m_scene.SceneGraph.GetActiveScriptsCount();
// FIXME: Checking for stat sanity is a complex approach. What we really need to do is fix the code
// so that stat numbers are always consistent.
CheckStatSanity();
//Our time dilation is 0.91 when we're running a full speed,
// therefore to make sure we get an appropriate range,
// we have to factor in our error. (0.10f * statsUpdateFactor)
// multiplies the fix for the error times the amount of times it'll occur a second
// / 10 divides the value by the number of times the sim heartbeat runs (10fps)
// Then we divide the whole amount by the amount of seconds pass in between stats updates.
// 'statsUpdateFactor' is how often stats packets are sent in seconds. Used below to change
// values to X-per-second values.
uint thisFrame = m_scene.Frame;
uint numFrames = thisFrame - m_lastUpdateFrame;
float framesUpdated = (float)numFrames * m_reportedFpsCorrectionFactor;
m_lastUpdateFrame = thisFrame;
// Avoid div-by-zero if somehow we've not updated any frames.
if (framesUpdated == 0)
framesUpdated = 1;
for (int i = 0; i < m_statisticArraySize; i++)
{
sb[i] = new SimStatsPacket.StatBlock();
}
// Resetting the sums of the frame times to prevent any errors
// in calculating the moving average for frame time
totalSumFrameTime = 0;
simulationSumFrameTime = 0;
physicsSumFrameTime = 0;
networkSumFrameTime = 0;
// Loop through all the frames that were stored for the current
// heartbeat to process the moving average of frame times
for (int i = 0; i < m_numberFramesStored; i++)
{
// Sum up each frame time in order to calculate the moving
// average of frame time
totalSumFrameTime += m_totalFrameTimeMilliseconds[i];
simulationSumFrameTime +=
m_simulationFrameTimeMilliseconds[i];
physicsSumFrameTime += m_physicsFrameTimeMilliseconds[i];
networkSumFrameTime += m_networkFrameTimeMilliseconds[i];
}
// Get the index that represents the current frame based on the next one known; go back
// to the last index if next one is stated to restart at 0
if (m_nextLocation == 0)
currentFrame = m_numberFramesStored - 1;
else
currentFrame = m_nextLocation - 1;
// Calculate the frame dilation; which is currently based on the ratio between the sum of the
// physics and simulation rate, and the set minimum time to run a scene's frame
frameDilation = (float)(m_simulationFrameTimeMilliseconds[currentFrame] +
m_physicsFrameTimeMilliseconds[currentFrame]) / m_scene.MinFrameTicks;
// ORIGINAL code commented out until we have time to add our own
sb[0].StatID = (uint) Stats.TimeDilation;
sb[0].StatValue = (Single.IsNaN(m_timeDilation)) ? 0.1f : m_timeDilation ; //((((m_timeDilation + (0.10f * statsUpdateFactor)) /10) / statsUpdateFactor));
sb[1].StatID = (uint) Stats.SimFPS;
sb[1].StatValue = reportedFPS / m_statsUpdateFactor;
sb[2].StatID = (uint) Stats.PhysicsFPS;
sb[2].StatValue = physfps / m_statsUpdateFactor;
sb[3].StatID = (uint) Stats.AgentUpdates;
sb[3].StatValue = (m_agentUpdates / m_statsUpdateFactor);
sb[4].StatID = (uint) Stats.Agents;
sb[4].StatValue = m_rootAgents;
sb[5].StatID = (uint) Stats.ChildAgents;
sb[5].StatValue = m_childAgents;
sb[6].StatID = (uint) Stats.TotalPrim;
sb[6].StatValue = m_numPrim;
sb[7].StatID = (uint) Stats.ActivePrim;
sb[7].StatValue = m_activePrim;
// ORIGINAL code commented out until we have time to add our own
// statistics to the statistics window
sb[8].StatID = (uint)Stats.FrameMS;
//sb[8].StatValue = m_frameMS / framesUpdated;
sb[8].StatValue = (float) totalSumFrameTime / m_numberFramesStored;
sb[9].StatID = (uint)Stats.NetMS;
//sb[9].StatValue = m_netMS / framesUpdated;
sb[9].StatValue = (float) networkSumFrameTime / m_numberFramesStored;
sb[10].StatID = (uint)Stats.PhysicsMS;
//sb[10].StatValue = m_physicsMS / framesUpdated;
sb[10].StatValue = (float) physicsSumFrameTime / m_numberFramesStored;
sb[11].StatID = (uint)Stats.ImageMS ;
sb[11].StatValue = m_imageMS / framesUpdated;
sb[12].StatID = (uint)Stats.OtherMS;
//sb[12].StatValue = m_otherMS / framesUpdated;
sb[12].StatValue = (float) simulationSumFrameTime / m_numberFramesStored;
sb[13].StatID = (uint)Stats.InPacketsPerSecond;
sb[13].StatValue = (m_inPacketsPerSecond / m_statsUpdateFactor);
sb[14].StatID = (uint)Stats.OutPacketsPerSecond;
sb[14].StatValue = (m_outPacketsPerSecond / m_statsUpdateFactor);
sb[15].StatID = (uint)Stats.UnAckedBytes;
sb[15].StatValue = m_unAckedBytes;
sb[16].StatID = (uint)Stats.AgentMS;
sb[16].StatValue = m_agentMS / framesUpdated;
sb[17].StatID = (uint)Stats.PendingDownloads;
sb[17].StatValue = m_pendingDownloads;
sb[18].StatID = (uint)Stats.PendingUploads;
sb[18].StatValue = m_pendingUploads;
sb[19].StatID = (uint)Stats.ActiveScripts;
sb[19].StatValue = m_activeScripts;
sb[20].StatID = (uint)Stats.ScriptLinesPerSecond;
sb[20].StatValue = m_scriptLinesPerSecond / m_statsUpdateFactor;
sb[21].StatID = (uint)Stats.SimSpareMs;
sb[21].StatValue = m_spareMS / framesUpdated;
// Current ratio between the sum of physics and sim rate, and the
// minimum time to run a scene's frame
sb[22].StatID = (uint)Stats.FrameDilation;
sb[22].StatValue = frameDilation;
// Current number of users currently attemptint to login to region
sb[23].StatID = (uint)Stats.UsersLoggingIn;
sb[23].StatValue = m_usersLoggingIn;
// Total number of geometric primitives in the scene
sb[24].StatID = (uint)Stats.TotalGeoPrim;
sb[24].StatValue = m_numGeoPrim;
// Total number of mesh objects in the scene
sb[25].StatID = (uint)Stats.TotalMesh;
sb[25].StatValue = m_numMesh;
// Current number of threads that XEngine is using
sb[26].StatID = (uint)Stats.ThreadCount;
sb[26].StatValue = m_inUseThreads;
sb[27].StatID = (uint)Stats.ScriptMS;
sb[27].StatValue = (numFrames <= 0) ? 0 : ((float)m_scriptMS / numFrames);
for (int i = 0; i < m_statisticArraySize; i++)
{
lastReportedSimStats[i] = sb[i].StatValue;
}
SimStats simStats
= new SimStats(
ReportingRegion.RegionLocX, ReportingRegion.RegionLocY, regionFlags, (uint)m_objectCapacity,
rb, sb, m_scene.RegionInfo.originRegionID);
handlerSendStatResult = OnSendStatsResult;
if (handlerSendStatResult != null)
{
handlerSendStatResult(simStats);
}
// Extra statistics that aren't currently sent to clients
lock (m_lastReportedExtraSimStats)
{
m_lastReportedExtraSimStats[LastReportedObjectUpdateStatName] = m_objectUpdates / m_statsUpdateFactor;
m_lastReportedExtraSimStats[SlowFramesStat.ShortName] = (float)SlowFramesStat.Value;
Dictionary<string, float> physicsStats = m_scene.PhysicsScene.GetStats();
if (physicsStats != null)
{
foreach (KeyValuePair<string, float> tuple in physicsStats)
{
// FIXME: An extremely dirty hack to divide MS stats per frame rather than per second
// Need to change things so that stats source can indicate whether they are per second or
// per frame.
if (tuple.Key.EndsWith("MS"))
m_lastReportedExtraSimStats[tuple.Key] = tuple.Value / framesUpdated;
else
m_lastReportedExtraSimStats[tuple.Key] = tuple.Value / m_statsUpdateFactor;
}
}
}
ResetValues();
}
}
private void statsHeartBeat(object sender, EventArgs e)
{
if (statsRunning) return;
try
{
statsRunning = true;
SimStatsPacket.StatBlock[] sb = new SimStatsPacket.StatBlock[21];
SimStatsPacket.RegionBlock rb = new SimStatsPacket.RegionBlock();
uint regionFlags = 0;
try
{
if (estateModule == null)
estateModule = m_scene.RequestModuleInterface<IEstateModule>();
regionFlags = estateModule != null ? estateModule.GetRegionFlags() : (uint)0;
}
catch (Exception)
{
// leave region flags at 0
}
float simfps = (int)m_fps;
// save the reported value so there is something available for llGetRegionFPS
lastReportedSimFPS = (float)simfps / statsUpdateFactor;
float physfps = m_pfps;
if (physfps < 0)
physfps = 0;
//Our time dilation is 0.91 when we're running a full speed,
// therefore to make sure we get an appropriate range,
// we have to factor in our error. (0.10f * statsUpdateFactor)
// multiplies the fix for the error times the amount of times it'll occur a second
// / 10 divides the value by the number of times the sim heartbeat runs (10fps)
// Then we divide the whole amount by the amount of seconds pass in between stats updates.
for (int i = 0; i < 21; i++)
{
sb[i] = new SimStatsPacket.StatBlock();
}
sb[0].StatID = (uint)Stats.TimeDilation;
sb[0].StatValue = (Single.IsNaN(m_timeDilation)) ? 0.1f : m_timeDilation; //((((m_timeDilation + (0.10f * statsUpdateFactor)) /10) / statsUpdateFactor));
sb[1].StatID = (uint)Stats.SimFPS;
sb[1].StatValue = simfps / statsUpdateFactor;
sb[2].StatID = (uint)Stats.PhysicsFPS;
sb[2].StatValue = physfps;
sb[3].StatID = (uint)Stats.AgentUpdates;
sb[3].StatValue = (m_agentUpdates / statsUpdateFactor);
sb[4].StatID = (uint)Stats.Agents;
sb[4].StatValue = m_rootAgents;
sb[5].StatID = (uint)Stats.ChildAgents;
sb[5].StatValue = m_childAgents;
sb[6].StatID = (uint)Stats.TotalPrim;
sb[6].StatValue = m_numPrim;
sb[7].StatID = (uint)Stats.ActivePrim;
sb[7].StatValue = m_activePrim;
sb[8].StatID = (uint)Stats.FrameMS;
sb[8].StatValue = m_frameMS / statsUpdateFactor;
sb[9].StatID = (uint)Stats.NetMS;
sb[9].StatValue = m_netMS / statsUpdateFactor;
sb[10].StatID = (uint)Stats.PhysicsMS;
sb[10].StatValue = m_physicsMS / statsUpdateFactor;
sb[11].StatID = (uint)Stats.ImageMS;
sb[11].StatValue = m_imageMS / statsUpdateFactor;
sb[12].StatID = (uint)Stats.OtherMS;
sb[12].StatValue = m_otherMS / statsUpdateFactor;
sb[13].StatID = (uint)Stats.InPacketsPerSecond;
sb[13].StatValue = (m_inPacketsPerSecond);
sb[14].StatID = (uint)Stats.OutPacketsPerSecond;
sb[14].StatValue = (m_outPacketsPerSecond / statsUpdateFactor);
sb[15].StatID = (uint)Stats.UnAckedBytes;
sb[15].StatValue = m_unAckedBytes;
sb[16].StatID = (uint)Stats.AgentMS;
sb[16].StatValue = m_agentMS / statsUpdateFactor;
sb[17].StatID = (uint)Stats.PendingDownloads;
sb[17].StatValue = m_pendingDownloads;
sb[18].StatID = (uint)Stats.PendingUploads;
sb[18].StatValue = m_pendingUploads;
sb[19].StatID = (uint)Stats.ActiveScripts;
sb[19].StatValue = m_activeScripts;
sb[20].StatID = (uint)Stats.ScriptLinesPerSecond;
sb[20].StatValue = m_scriptLinesPerSecond / statsUpdateFactor;
SimStats simStats
= new SimStats(
ReportingRegion.RegionLocX, ReportingRegion.RegionLocY, regionFlags, (uint)objectCapacity, rb, sb, m_scene.RegionInfo.originRegionID);
handlerSendStatResult = OnSendStatsResult;
if (handlerSendStatResult != null)
{
handlerSendStatResult(simStats);
}
resetvalues();
}
finally
{
statsRunning = false;
}
}
private void statsHeartBeat(object sender, EventArgs e)
{
SimStatsPacket.StatBlock[] sb = new SimStatsPacket.StatBlock[21];
SimStatsPacket.RegionBlock rb = new SimStatsPacket.RegionBlock();
// Know what's not thread safe in Mono... modifying timers.
// m_log.Debug("Firing Stats Heart Beat");
lock (m_report)
{
uint regionFlags = 0;
try
{
if (estateModule == null)
{
estateModule = m_scene.RequestModuleInterface <IEstateModule>();
}
regionFlags = estateModule != null?estateModule.GetRegionFlags() : (uint)0;
}
catch (Exception)
{
// leave region flags at 0
}
#region various statistic googly moogly
// We're going to lie about the FPS because we've been lying since 2008. The actual FPS is currently
// locked at a maximum of 11. Maybe at some point this can change so that we're not lying.
int reportedFPS = (int)(m_fps * m_reportedFpsCorrectionFactor);
// save the reported value so there is something available for llGetRegionFPS
lastReportedSimFPS = reportedFPS / statsUpdateFactor;
float physfps = ((m_pfps / 1000));
//if (physfps > 600)
//physfps = physfps - (physfps - 600);
if (physfps < 0)
{
physfps = 0;
}
#endregion
//Our time dilation is 0.91 when we're running a full speed,
// therefore to make sure we get an appropriate range,
// we have to factor in our error. (0.10f * statsUpdateFactor)
// multiplies the fix for the error times the amount of times it'll occur a second
// / 10 divides the value by the number of times the sim heartbeat runs (10fps)
// Then we divide the whole amount by the amount of seconds pass in between stats updates.
// 'statsUpdateFactor' is how often stats packets are sent in seconds. Used below to change
// values to X-per-second values.
for (int i = 0; i < 21; i++)
{
sb[i] = new SimStatsPacket.StatBlock();
}
sb[0].StatID = (uint)Stats.TimeDilation;
sb[0].StatValue = (Single.IsNaN(m_timeDilation)) ? 0.1f : m_timeDilation; //((((m_timeDilation + (0.10f * statsUpdateFactor)) /10) / statsUpdateFactor));
sb[1].StatID = (uint)Stats.SimFPS;
sb[1].StatValue = reportedFPS / statsUpdateFactor;
sb[2].StatID = (uint)Stats.PhysicsFPS;
sb[2].StatValue = physfps / statsUpdateFactor;
sb[3].StatID = (uint)Stats.AgentUpdates;
sb[3].StatValue = (m_agentUpdates / statsUpdateFactor);
sb[4].StatID = (uint)Stats.Agents;
sb[4].StatValue = m_rootAgents;
sb[5].StatID = (uint)Stats.ChildAgents;
sb[5].StatValue = m_childAgents;
sb[6].StatID = (uint)Stats.TotalPrim;
sb[6].StatValue = m_numPrim;
sb[7].StatID = (uint)Stats.ActivePrim;
sb[7].StatValue = m_activePrim;
sb[8].StatID = (uint)Stats.FrameMS;
sb[8].StatValue = m_frameMS / statsUpdateFactor;
sb[9].StatID = (uint)Stats.NetMS;
sb[9].StatValue = m_netMS / statsUpdateFactor;
sb[10].StatID = (uint)Stats.PhysicsMS;
sb[10].StatValue = m_physicsMS / statsUpdateFactor;
sb[11].StatID = (uint)Stats.ImageMS;
sb[11].StatValue = m_imageMS / statsUpdateFactor;
sb[12].StatID = (uint)Stats.OtherMS;
sb[12].StatValue = m_otherMS / statsUpdateFactor;
sb[13].StatID = (uint)Stats.InPacketsPerSecond;
sb[13].StatValue = (m_inPacketsPerSecond / statsUpdateFactor);
sb[14].StatID = (uint)Stats.OutPacketsPerSecond;
sb[14].StatValue = (m_outPacketsPerSecond / statsUpdateFactor);
sb[15].StatID = (uint)Stats.UnAckedBytes;
sb[15].StatValue = m_unAckedBytes;
sb[16].StatID = (uint)Stats.AgentMS;
sb[16].StatValue = m_agentMS / statsUpdateFactor;
sb[17].StatID = (uint)Stats.PendingDownloads;
sb[17].StatValue = m_pendingDownloads;
sb[18].StatID = (uint)Stats.PendingUploads;
sb[18].StatValue = m_pendingUploads;
sb[19].StatID = (uint)Stats.ActiveScripts;
sb[19].StatValue = m_activeScripts;
sb[20].StatID = (uint)Stats.ScriptLinesPerSecond;
sb[20].StatValue = m_scriptLinesPerSecond / statsUpdateFactor;
for (int i = 0; i < 21; i++)
{
lastReportedSimStats[i] = sb[i].StatValue;
}
SimStats simStats
= new SimStats(
ReportingRegion.RegionLocX, ReportingRegion.RegionLocY, regionFlags, (uint)m_objectCapacity,
rb, sb, m_scene.RegionInfo.originRegionID);
handlerSendStatResult = OnSendStatsResult;
if (handlerSendStatResult != null)
{
handlerSendStatResult(simStats);
}
// Extra statistics that aren't currently sent to clients
LastReportedObjectUpdates = m_objectUpdates / statsUpdateFactor;
resetvalues();
}
}
private void statsHeartBeat(object sender, EventArgs e)
{
SimStatsPacket.StatBlock[] sb = new SimStatsPacket.StatBlock[22];
SimStatsPacket.RegionBlock rb = new SimStatsPacket.RegionBlock();
// Know what's not thread safe in Mono... modifying timers.
// m_log.Debug("Firing Stats Heart Beat");
lock (m_report)
{
uint regionFlags = 0;
try
{
if (estateModule == null)
estateModule = m_scene.RequestModuleInterface<IEstateModule>();
regionFlags = estateModule != null ? estateModule.GetRegionFlags() : (uint) 0;
}
catch (Exception)
{
// leave region flags at 0
}
#region various statistic googly moogly
// We're going to lie about the FPS because we've been lying since 2008. The actual FPS is currently
// locked at a maximum of 11. Maybe at some point this can change so that we're not lying.
int reportedFPS = (int)(m_fps * m_reportedFpsCorrectionFactor);
// save the reported value so there is something available for llGetRegionFPS
lastReportedSimFPS = reportedFPS / m_statsUpdateFactor;
float physfps = ((m_pfps / 1000));
//if (physfps > 600)
//physfps = physfps - (physfps - 600);
if (physfps < 0)
physfps = 0;
#endregion
m_rootAgents = m_scene.SceneGraph.GetRootAgentCount();
m_childAgents = m_scene.SceneGraph.GetChildAgentCount();
m_numPrim = m_scene.SceneGraph.GetTotalObjectsCount();
m_activePrim = m_scene.SceneGraph.GetActiveObjectsCount();
m_activeScripts = m_scene.SceneGraph.GetActiveScriptsCount();
// FIXME: Checking for stat sanity is a complex approach. What we really need to do is fix the code
// so that stat numbers are always consistent.
CheckStatSanity();
//Our time dilation is 0.91 when we're running a full speed,
// therefore to make sure we get an appropriate range,
// we have to factor in our error. (0.10f * statsUpdateFactor)
// multiplies the fix for the error times the amount of times it'll occur a second
// / 10 divides the value by the number of times the sim heartbeat runs (10fps)
// Then we divide the whole amount by the amount of seconds pass in between stats updates.
// 'statsUpdateFactor' is how often stats packets are sent in seconds. Used below to change
// values to X-per-second values.
uint thisFrame = m_scene.Frame;
float framesUpdated = (float)(thisFrame - m_lastUpdateFrame) * m_reportedFpsCorrectionFactor;
m_lastUpdateFrame = thisFrame;
// Avoid div-by-zero if somehow we've not updated any frames.
if (framesUpdated == 0)
framesUpdated = 1;
for (int i = 0; i < 22; i++)
{
sb[i] = new SimStatsPacket.StatBlock();
}
sb[0].StatID = (uint) Stats.TimeDilation;
sb[0].StatValue = (Single.IsNaN(m_timeDilation)) ? 0.1f : m_timeDilation ; //((((m_timeDilation + (0.10f * statsUpdateFactor)) /10) / statsUpdateFactor));
sb[1].StatID = (uint) Stats.SimFPS;
sb[1].StatValue = reportedFPS / m_statsUpdateFactor;
sb[2].StatID = (uint) Stats.PhysicsFPS;
sb[2].StatValue = physfps / m_statsUpdateFactor;
sb[3].StatID = (uint) Stats.AgentUpdates;
sb[3].StatValue = (m_agentUpdates / m_statsUpdateFactor);
sb[4].StatID = (uint) Stats.Agents;
sb[4].StatValue = m_rootAgents;
sb[5].StatID = (uint) Stats.ChildAgents;
sb[5].StatValue = m_childAgents;
sb[6].StatID = (uint) Stats.TotalPrim;
sb[6].StatValue = m_numPrim;
sb[7].StatID = (uint) Stats.ActivePrim;
sb[7].StatValue = m_activePrim;
sb[8].StatID = (uint)Stats.FrameMS;
sb[8].StatValue = m_frameMS / framesUpdated;
sb[9].StatID = (uint)Stats.NetMS;
sb[9].StatValue = m_netMS / framesUpdated;
sb[10].StatID = (uint)Stats.PhysicsMS;
sb[10].StatValue = m_physicsMS / framesUpdated;
sb[11].StatID = (uint)Stats.ImageMS ;
sb[11].StatValue = m_imageMS / framesUpdated;
sb[12].StatID = (uint)Stats.OtherMS;
sb[12].StatValue = m_otherMS / framesUpdated;
sb[13].StatID = (uint)Stats.InPacketsPerSecond;
sb[13].StatValue = (m_inPacketsPerSecond / m_statsUpdateFactor);
sb[14].StatID = (uint)Stats.OutPacketsPerSecond;
sb[14].StatValue = (m_outPacketsPerSecond / m_statsUpdateFactor);
sb[15].StatID = (uint)Stats.UnAckedBytes;
sb[15].StatValue = m_unAckedBytes;
sb[16].StatID = (uint)Stats.AgentMS;
sb[16].StatValue = m_agentMS / framesUpdated;
sb[17].StatID = (uint)Stats.PendingDownloads;
sb[17].StatValue = m_pendingDownloads;
sb[18].StatID = (uint)Stats.PendingUploads;
sb[18].StatValue = m_pendingUploads;
sb[19].StatID = (uint)Stats.ActiveScripts;
sb[19].StatValue = m_activeScripts;
sb[20].StatID = (uint)Stats.ScriptLinesPerSecond;
sb[20].StatValue = m_scriptLinesPerSecond / m_statsUpdateFactor;
sb[21].StatID = (uint)Stats.SimSpareMs;
sb[21].StatValue = m_spareMS / framesUpdated;
for (int i = 0; i < 22; i++)
{
lastReportedSimStats[i] = sb[i].StatValue;
}
SimStats simStats
= new SimStats(
ReportingRegion.RegionLocX, ReportingRegion.RegionLocY, regionFlags, (uint)m_objectCapacity,
rb, sb, m_scene.RegionInfo.originRegionID);
handlerSendStatResult = OnSendStatsResult;
if (handlerSendStatResult != null)
{
handlerSendStatResult(simStats);
}
// Extra statistics that aren't currently sent to clients
lock (m_lastReportedExtraSimStats)
{
m_lastReportedExtraSimStats[LastReportedObjectUpdateStatName] = m_objectUpdates / m_statsUpdateFactor;
m_lastReportedExtraSimStats[SlowFramesStat.ShortName] = (float)SlowFramesStat.Value;
Dictionary<string, float> physicsStats = m_scene.PhysicsScene.GetStats();
if (physicsStats != null)
{
foreach (KeyValuePair<string, float> tuple in physicsStats)
{
// FIXME: An extremely dirty hack to divide MS stats per frame rather than per second
// Need to change things so that stats source can indicate whether they are per second or
// per frame.
if (tuple.Key.EndsWith("MS"))
m_lastReportedExtraSimStats[tuple.Key] = tuple.Value / framesUpdated;
else
m_lastReportedExtraSimStats[tuple.Key] = tuple.Value / m_statsUpdateFactor;
}
}
}
ResetValues();
}
}
private void statsHeartBeat(object sender, EventArgs e)
{
SimStatsPacket.StatBlock[] sb = new SimStatsPacket.StatBlock[23];
SimStatsPacket.RegionBlock rb = new SimStatsPacket.RegionBlock();
float factorByframe;
float factor;
// Know what's not thread safe in Mono... modifying timers.
// m_log.Debug("Firing Stats Heart Beat");
lock (m_report)
{
uint regionFlags = 0;
try
{
if (estateModule == null)
estateModule = m_scene.RequestModuleInterface<IEstateModule>();
regionFlags = estateModule != null ? estateModule.GetRegionFlags() : (uint) 0;
}
catch (Exception)
{
// leave region flags at 0
}
#region various statistic googly moogly
// Our FPS is actually 10fps, so multiplying by 5 to get the amount that people expect there
// 0-50 is pretty close to 0-45
// show real
float simfps = (int) ((m_fps));
if (simfps == 0.0)
simfps = 10; // we still don't have stats on this
// factor to convert things to per second
factor = 1 / statsUpdateFactor;
// factor to convert things for time per frame need because how acumulators work
// factorByframe = factor / simfps;
factorByframe = 1 / simfps;
// save the reported value so there is something available for llGetRegionFPS
lastReportedSimFPS = simfps * factor;
float physfps = ((m_pfps));
if (physfps < 0)
physfps = 0;
#endregion
for (int i = 0; i < 23; i++)
{
sb[i] = new SimStatsPacket.StatBlock();
}
sb[0].StatID = (uint) Stats.TimeDilation;
sb[0].StatValue = (Single.IsNaN(m_timeDilation)) ? 0.1f : m_timeDilation ; //((((m_timeDilation + (0.10f * statsUpdateFactor)) /10) / statsUpdateFactor));
sb[1].StatID = (uint) Stats.SimFPS;
sb[1].StatValue = simfps * factor;
sb[2].StatID = (uint) Stats.PhysicsFPS;
sb[2].StatValue = physfps * factor;
sb[3].StatID = (uint) Stats.AgentUpdates;
sb[3].StatValue = (m_agentUpdates * factor);
sb[4].StatID = (uint) Stats.Agents;
sb[4].StatValue = m_rootAgents;
sb[5].StatID = (uint) Stats.ChildAgents;
sb[5].StatValue = m_childAgents;
sb[6].StatID = (uint) Stats.TotalPrim;
sb[6].StatValue = m_numPrim;
sb[7].StatID = (uint) Stats.ActivePrim;
sb[7].StatValue = m_activePrim;
sb[8].StatID = (uint)Stats.FrameMS;
// sb[8].StatValue = m_frameMS * factorByframe;
float simFrameTime = 1000.0f / (simfps * factor);
sb[8].StatValue = simFrameTime;
sb[9].StatID = (uint)Stats.NetMS;
sb[9].StatValue = m_netMS * factorByframe;
sb[10].StatID = (uint)Stats.PhysicsMS;
sb[10].StatValue = m_physicsMS * factorByframe;
sb[11].StatID = (uint)Stats.ImageMS ;
sb[11].StatValue = m_imageMS * factorByframe;
sb[12].StatID = (uint)Stats.OtherMS;
float othertmp = m_frameMS - m_physicsMS - m_imageMS - m_netMS - m_agentMS;
if (othertmp < 0)
othertmp = 0;
sb[12].StatValue = othertmp * factorByframe;
sb[13].StatID = (uint)Stats.InPacketsPerSecond;
sb[13].StatValue = (m_inPacketsPerSecond * factor);
sb[14].StatID = (uint)Stats.OutPacketsPerSecond;
sb[14].StatValue = (m_outPacketsPerSecond * factor);
sb[15].StatID = (uint)Stats.UnAckedBytes;
sb[15].StatValue = m_unAckedBytes;
sb[16].StatID = (uint)Stats.AgentMS;
sb[16].StatValue = m_agentMS * factorByframe;
sb[17].StatID = (uint)Stats.PendingDownloads;
sb[17].StatValue = m_pendingDownloads;
sb[18].StatID = (uint)Stats.PendingUploads;
sb[18].StatValue = m_pendingUploads;
sb[19].StatID = (uint)Stats.ActiveScripts;
sb[19].StatValue = m_activeScripts;
sb[20].StatID = (uint)Stats.ScriptLinesPerSecond;
sb[20].StatValue = m_scriptLinesPerSecond * factor;
float spare = m_scene.m_simframetime - m_frameMS * factorByframe;
if (spare < 0)
spare = 0;
sb[21].StatID = (uint)Stats.SimSpareTime;
sb[21].StatValue = spare;
sb[22].StatID = (uint)Stats.SimSleepTime;
sb[22].StatValue = m_sleeptimeMS * factorByframe;
for (int i = 0; i < 23; i++)
{
lastReportedSimStats[i] = sb[i].StatValue;
}
SimStats simStats
= new SimStats(
ReportingRegion.RegionLocX, ReportingRegion.RegionLocY, regionFlags, (uint)m_objectCapacity,
rb, sb, m_scene.RegionInfo.originRegionID);
handlerSendStatResult = OnSendStatsResult;
if (handlerSendStatResult != null)
{
handlerSendStatResult(simStats);
}
// Extra statistics that aren't currently sent to clients
LastReportedObjectUpdates = m_objectUpdates / statsUpdateFactor;
resetvalues();
}
}
private void statsHeartBeat(object sender, EventArgs e)
{
double totalSumFrameTime;
double simulationSumFrameTime;
double physicsSumFrameTime;
double networkSumFrameTime;
double networkSumQueueSize;
float frameDilation;
int currentFrame;
if (!m_scene.Active)
{
return;
}
// Create arrays to hold the statistics for this current scene,
// these will be passed to the SimExtraStatsCollector, they are also
// sent to the SimStats class
SimStatsPacket.StatBlock[] sb = new
SimStatsPacket.StatBlock[m_statisticArraySize];
SimStatsPacket.RegionBlock rb = new SimStatsPacket.RegionBlock();
// Know what's not thread safe in Mono... modifying timers.
// m_log.Debug("Firing Stats Heart Beat");
lock (m_report)
{
uint regionFlags = 0;
try
{
if (estateModule == null)
{
estateModule = m_scene.RequestModuleInterface <IEstateModule>();
}
regionFlags = estateModule != null?estateModule.GetRegionFlags() : (uint)0;
}
catch (Exception)
{
// leave region flags at 0
}
#region various statistic googly moogly
// ORIGINAL code commented out until we have time to add our own
// statistics to the statistics window, this will be done as a
// new section given the title of our current project
// We're going to lie about the FPS because we've been lying since 2008. The actual FPS is currently
// locked at a maximum of 11. Maybe at some point this can change so that we're not lying.
//int reportedFPS = (int)(m_fps * m_reportedFpsCorrectionFactor);
int reportedFPS = m_fps;
// save the reported value so there is something available for llGetRegionFPS
lastReportedSimFPS = reportedFPS / m_statsUpdateFactor;
// ORIGINAL code commented out until we have time to add our own
// statistics to the statistics window
//float physfps = ((m_pfps / 1000));
float physfps = m_numberPhysicsFrames;
//if (physfps > 600)
//physfps = physfps - (physfps - 600);
if (physfps < 0)
{
physfps = 0;
}
#endregion
m_rootAgents = m_scene.SceneGraph.GetRootAgentCount();
m_childAgents = m_scene.SceneGraph.GetChildAgentCount();
m_numPrim = m_scene.SceneGraph.GetTotalObjectsCount();
m_numGeoPrim = m_scene.SceneGraph.GetTotalPrimObjectsCount();
m_numMesh = m_scene.SceneGraph.GetTotalMeshObjectsCount();
m_activePrim = m_scene.SceneGraph.GetActiveObjectsCount();
m_activeScripts = m_scene.SceneGraph.GetActiveScriptsCount();
// FIXME: Checking for stat sanity is a complex approach. What we really need to do is fix the code
// so that stat numbers are always consistent.
CheckStatSanity();
//Our time dilation is 0.91 when we're running a full speed,
// therefore to make sure we get an appropriate range,
// we have to factor in our error. (0.10f * statsUpdateFactor)
// multiplies the fix for the error times the amount of times it'll occur a second
// / 10 divides the value by the number of times the sim heartbeat runs (10fps)
// Then we divide the whole amount by the amount of seconds pass in between stats updates.
// 'statsUpdateFactor' is how often stats packets are sent in seconds. Used below to change
// values to X-per-second values.
uint thisFrame = m_scene.Frame;
float framesUpdated = (float)(thisFrame - m_lastUpdateFrame) * m_reportedFpsCorrectionFactor;
m_lastUpdateFrame = thisFrame;
// Avoid div-by-zero if somehow we've not updated any frames.
if (framesUpdated == 0)
{
framesUpdated = 1;
}
for (int i = 0; i < m_statisticArraySize; i++)
{
sb[i] = new SimStatsPacket.StatBlock();
}
// Resetting the sums of the frame times to prevent any errors
// in calculating the moving average for frame time
totalSumFrameTime = 0;
simulationSumFrameTime = 0;
physicsSumFrameTime = 0;
networkSumFrameTime = 0;
networkSumQueueSize = 0;
// Loop through all the frames that were stored for the current
// heartbeat to process the moving average of frame times
for (int i = 0; i < m_numberFramesStored; i++)
{
// Sum up each frame time in order to calculate the moving
// average of frame time
totalSumFrameTime += m_totalFrameTimeMilliseconds[i];
simulationSumFrameTime +=
m_simulationFrameTimeMilliseconds[i];
physicsSumFrameTime += m_physicsFrameTimeMilliseconds[i];
networkSumFrameTime += m_networkFrameTimeMilliseconds[i];
networkSumQueueSize += m_networkQueueSize[i];
}
// Get the index that represents the current frame based on the next one known; go back
// to the last index if next one is stated to restart at 0
if (m_nextLocation == 0)
{
currentFrame = m_numberFramesStored - 1;
}
else
{
currentFrame = m_nextLocation - 1;
}
// Calculate the frame dilation; which is currently based on the ratio between the sum of the
// physics and simulation rate, and the set minimum time to run a scene's frame
frameDilation = (float)(m_simulationFrameTimeMilliseconds[currentFrame] +
m_physicsFrameTimeMilliseconds[currentFrame]) / m_scene.MinFrameTicks;
// ORIGINAL code commented out until we have time to add our own
sb[0].StatID = (uint)Stats.TimeDilation;
sb[0].StatValue = (Single.IsNaN(m_timeDilation)) ? 0.1f : m_timeDilation; //((((m_timeDilation + (0.10f * statsUpdateFactor)) /10) / statsUpdateFactor));
sb[1].StatID = (uint)Stats.SimFPS;
sb[1].StatValue = reportedFPS / m_statsUpdateFactor;
sb[2].StatID = (uint)Stats.PhysicsFPS;
sb[2].StatValue = physfps / m_statsUpdateFactor;
sb[3].StatID = (uint)Stats.AgentUpdates;
sb[3].StatValue = (m_agentUpdates / m_statsUpdateFactor);
sb[4].StatID = (uint)Stats.Agents;
sb[4].StatValue = m_rootAgents;
sb[5].StatID = (uint)Stats.ChildAgents;
sb[5].StatValue = m_childAgents;
sb[6].StatID = (uint)Stats.TotalPrim;
sb[6].StatValue = m_numPrim;
sb[7].StatID = (uint)Stats.ActivePrim;
sb[7].StatValue = m_activePrim;
// ORIGINAL code commented out until we have time to add our own
// statistics to the statistics window
sb[8].StatID = (uint)Stats.FrameMS;
//sb[8].StatValue = m_frameMS / framesUpdated;
sb[8].StatValue = (float)totalSumFrameTime / m_numberFramesStored;
sb[9].StatID = (uint)Stats.NetMS;
//sb[9].StatValue = m_netMS / framesUpdated;
sb[9].StatValue = (float)networkSumFrameTime / m_numberFramesStored;
sb[10].StatID = (uint)Stats.PhysicsMS;
//sb[10].StatValue = m_physicsMS / framesUpdated;
sb[10].StatValue = (float)physicsSumFrameTime / m_numberFramesStored;
sb[11].StatID = (uint)Stats.ImageMS;
sb[11].StatValue = m_imageMS / framesUpdated;
sb[12].StatID = (uint)Stats.OtherMS;
//sb[12].StatValue = m_otherMS / framesUpdated;
sb[12].StatValue = (float)simulationSumFrameTime /
m_numberFramesStored;
sb[13].StatID = (uint)Stats.InPacketsPerSecond;
sb[13].StatValue = (float)m_inPacketsPerSecond;
sb[14].StatID = (uint)Stats.OutPacketsPerSecond;
sb[14].StatValue = (float)m_outPacketsPerSecond;
sb[15].StatID = (uint)Stats.UnAckedBytes;
sb[15].StatValue = m_unAckedBytes;
sb[16].StatID = (uint)Stats.AgentMS;
sb[16].StatValue = m_agentMS / framesUpdated;
sb[17].StatID = (uint)Stats.PendingDownloads;
sb[17].StatValue = m_pendingDownloads;
sb[18].StatID = (uint)Stats.PendingUploads;
sb[18].StatValue = m_pendingUploads;
sb[19].StatID = (uint)Stats.ActiveScripts;
sb[19].StatValue = m_activeScripts;
sb[20].StatID = (uint)Stats.ScriptLinesPerSecond;
sb[20].StatValue = m_scriptLinesPerSecond / m_statsUpdateFactor;
sb[21].StatID = (uint)Stats.SimSpareMs;
sb[21].StatValue = m_spareMS / framesUpdated;
// Current ratio between the sum of physics and sim rate, and the
// minimum time to run a scene's frame
sb[22].StatID = (uint)Stats.FrameDilation;
sb[22].StatValue = frameDilation;
// Current number of users currently attemptint to login to region
sb[23].StatID = (uint)Stats.UsersLoggingIn;
sb[23].StatValue = m_usersLoggingIn.Count;
// Total number of geometric primitives in the scene
sb[24].StatID = (uint)Stats.TotalGeoPrim;
sb[24].StatValue = m_numGeoPrim;
// Total number of mesh objects in the scene
sb[25].StatID = (uint)Stats.TotalMesh;
sb[25].StatValue = m_numMesh;
// Current number of threads that XEngine is using
sb[26].StatID = (uint)Stats.ThreadCount;
sb[26].StatValue = m_inUseThreads;
// Tracks the number of bytes that are received by the server's
// UDP network handler
sb[27].StatID = (uint)Stats.UDPInRate;
sb[27].StatValue = (float)m_inByteRate;
// Tracks the number of bytes that are sent by the server's UDP
// network handler
sb[28].StatID = (uint)Stats.UDPOutRate;
sb[28].StatValue = (float)m_outByteRate;
// Tracks the number of packets that were received by the
// server's UDP network handler, that were unable to be processed
sb[29].StatID = (uint)Stats.UDPErrorRate;
sb[29].StatValue = (float)m_errorPacketRate;
// Track the queue size of the network as a moving average
sb[30].StatID = (uint)Stats.NetworkQueueSize;
sb[30].StatValue = (float)networkSumQueueSize /
m_numberFramesStored;
// Current average ping between the server and a subset of its conneced users
sb[31].StatID = (uint)Stats.ClientPingAvg;
sb[31].StatValue = (float)m_clientPing;
for (int i = 0; i < m_statisticArraySize; i++)
{
lastReportedSimStats[i] = sb[i].StatValue;
}
SimStats simStats
= new SimStats(
ReportingRegion.RegionLocX, ReportingRegion.RegionLocY, regionFlags, (uint)m_objectCapacity,
rb, sb, m_scene.RegionInfo.originRegionID);
handlerSendStatResult = OnSendStatsResult;
if (handlerSendStatResult != null)
{
handlerSendStatResult(simStats);
}
// Extra statistics that aren't currently sent to clients
lock (m_lastReportedExtraSimStats)
{
m_lastReportedExtraSimStats[LastReportedObjectUpdateStatName] = m_objectUpdates / m_statsUpdateFactor;
m_lastReportedExtraSimStats[SlowFramesStat.ShortName] = (float)SlowFramesStat.Value;
Dictionary <string, float> physicsStats = m_scene.PhysicsScene.GetStats();
if (physicsStats != null)
{
foreach (KeyValuePair <string, float> tuple in physicsStats)
{
// FIXME: An extremely dirty hack to divide MS stats per frame rather than per second
// Need to change things so that stats source can indicate whether they are per second or
// per frame.
if (tuple.Key.EndsWith("MS"))
{
m_lastReportedExtraSimStats[tuple.Key] = tuple.Value / framesUpdated;
}
else
{
m_lastReportedExtraSimStats[tuple.Key] = tuple.Value / m_statsUpdateFactor;
}
}
}
}
ResetValues();
}
}
private void statsHeartBeat(object sender, EventArgs e)
{
if (!m_scene.Active)
{
return;
}
SimStatsPacket.StatBlock[] sb = new SimStatsPacket.StatBlock[22];
SimStatsPacket.RegionBlock rb = new SimStatsPacket.RegionBlock();
// Know what's not thread safe in Mono... modifying timers.
// m_log.Debug("Firing Stats Heart Beat");
lock (m_report)
{
uint regionFlags = 0;
try
{
if (estateModule == null)
{
estateModule = m_scene.RequestModuleInterface <IEstateModule>();
}
regionFlags = estateModule != null?estateModule.GetRegionFlags() : (uint)0;
}
catch (Exception)
{
// leave region flags at 0
}
#region various statistic googly moogly
// We're going to lie about the FPS because we've been lying since 2008. The actual FPS is currently
// locked at a maximum of 11. Maybe at some point this can change so that we're not lying.
int reportedFPS = (int)(m_fps * m_reportedFpsCorrectionFactor);
// save the reported value so there is something available for llGetRegionFPS
lastReportedSimFPS = reportedFPS / m_statsUpdateFactor;
float physfps = ((m_pfps / 1000));
//if (physfps > 600)
//physfps = physfps - (physfps - 600);
if (physfps < 0)
{
physfps = 0;
}
#endregion various statistic googly moogly
m_rootAgents = m_scene.SceneGraph.GetRootAgentCount();
m_childAgents = m_scene.SceneGraph.GetChildAgentCount();
m_numPrim = m_scene.SceneGraph.GetTotalObjectsCount();
m_activePrim = m_scene.SceneGraph.GetActiveObjectsCount();
m_activeScripts = m_scene.SceneGraph.GetActiveScriptsCount();
// FIXME: Checking for stat sanity is a complex approach. What we really need to do is fix the code
// so that stat numbers are always consistent.
CheckStatSanity();
//Our time dilation is 0.91 when we're running a full speed,
// therefore to make sure we get an appropriate range,
// we have to factor in our error. (0.10f * statsUpdateFactor)
// multiplies the fix for the error times the amount of times it'll occur a second
// / 10 divides the value by the number of times the sim heartbeat runs (10fps)
// Then we divide the whole amount by the amount of seconds pass in between stats updates.
// 'statsUpdateFactor' is how often stats packets are sent in seconds. Used below to change
// values to X-per-second values.
uint thisFrame = m_scene.Frame;
float framesUpdated = (float)(thisFrame - m_lastUpdateFrame) * m_reportedFpsCorrectionFactor;
m_lastUpdateFrame = thisFrame;
// Avoid div-by-zero if somehow we've not updated any frames.
if (framesUpdated == 0)
{
framesUpdated = 1;
}
for (int i = 0; i < 22; i++)
{
sb[i] = new SimStatsPacket.StatBlock();
}
sb[0].StatID = (uint)Stats.TimeDilation;
sb[0].StatValue = (Single.IsNaN(m_timeDilation)) ? 0.1f : m_timeDilation; //((((m_timeDilation + (0.10f * statsUpdateFactor)) /10) / statsUpdateFactor));
sb[1].StatID = (uint)Stats.SimFPS;
sb[1].StatValue = reportedFPS / m_statsUpdateFactor;
sb[2].StatID = (uint)Stats.PhysicsFPS;
sb[2].StatValue = physfps / m_statsUpdateFactor;
sb[3].StatID = (uint)Stats.AgentUpdates;
sb[3].StatValue = (m_agentUpdates / m_statsUpdateFactor);
sb[4].StatID = (uint)Stats.Agents;
sb[4].StatValue = m_rootAgents;
sb[5].StatID = (uint)Stats.ChildAgents;
sb[5].StatValue = m_childAgents;
sb[6].StatID = (uint)Stats.TotalPrim;
sb[6].StatValue = m_numPrim;
sb[7].StatID = (uint)Stats.ActivePrim;
sb[7].StatValue = m_activePrim;
sb[8].StatID = (uint)Stats.FrameMS;
sb[8].StatValue = m_frameMS / framesUpdated;
sb[9].StatID = (uint)Stats.NetMS;
sb[9].StatValue = m_netMS / framesUpdated;
sb[10].StatID = (uint)Stats.PhysicsMS;
sb[10].StatValue = m_physicsMS / framesUpdated;
sb[11].StatID = (uint)Stats.ImageMS;
sb[11].StatValue = m_imageMS / framesUpdated;
sb[12].StatID = (uint)Stats.OtherMS;
sb[12].StatValue = m_otherMS / framesUpdated;
sb[13].StatID = (uint)Stats.InPacketsPerSecond;
sb[13].StatValue = (m_inPacketsPerSecond / m_statsUpdateFactor);
sb[14].StatID = (uint)Stats.OutPacketsPerSecond;
sb[14].StatValue = (m_outPacketsPerSecond / m_statsUpdateFactor);
sb[15].StatID = (uint)Stats.UnAckedBytes;
sb[15].StatValue = m_unAckedBytes;
sb[16].StatID = (uint)Stats.AgentMS;
sb[16].StatValue = m_agentMS / framesUpdated;
sb[17].StatID = (uint)Stats.PendingDownloads;
sb[17].StatValue = m_pendingDownloads;
sb[18].StatID = (uint)Stats.PendingUploads;
sb[18].StatValue = m_pendingUploads;
sb[19].StatID = (uint)Stats.ActiveScripts;
sb[19].StatValue = m_activeScripts;
sb[20].StatID = (uint)Stats.ScriptLinesPerSecond;
sb[20].StatValue = m_scriptLinesPerSecond / m_statsUpdateFactor;
sb[21].StatID = (uint)Stats.SimSpareMs;
sb[21].StatValue = m_spareMS / framesUpdated;
for (int i = 0; i < 22; i++)
{
lastReportedSimStats[i] = sb[i].StatValue;
}
SimStats simStats
= new SimStats(
ReportingRegion.RegionLocX, ReportingRegion.RegionLocY, regionFlags, (uint)m_objectCapacity,
rb, sb, m_scene.RegionInfo.originRegionID);
handlerSendStatResult = OnSendStatsResult;
if (handlerSendStatResult != null)
{
handlerSendStatResult(simStats);
}
// Extra statistics that aren't currently sent to clients
lock (m_lastReportedExtraSimStats)
{
m_lastReportedExtraSimStats[LastReportedObjectUpdateStatName] = m_objectUpdates / m_statsUpdateFactor;
m_lastReportedExtraSimStats[SlowFramesStat.ShortName] = (float)SlowFramesStat.Value;
Dictionary <string, float> physicsStats = m_scene.PhysicsScene.GetStats();
if (physicsStats != null)
{
foreach (KeyValuePair <string, float> tuple in physicsStats)
{
// FIXME: An extremely dirty hack to divide MS stats per frame rather than per second
// Need to change things so that stats source can indicate whether they are per second or
// per frame.
if (tuple.Key.EndsWith("MS"))
{
m_lastReportedExtraSimStats[tuple.Key] = tuple.Value / framesUpdated;
}
else
{
m_lastReportedExtraSimStats[tuple.Key] = tuple.Value / m_statsUpdateFactor;
}
}
}
}
ResetValues();
}
}
private void statsHeartBeat(object sender, EventArgs e)
{
if (!m_scene.Active)
return;
// dont do it if if still been done
if(Monitor.TryEnter(m_statsLock))
{
// m_log.Debug("Firing Stats Heart Beat");
SimStatsPacket.StatBlock[] sb = new SimStatsPacket.StatBlock[m_statisticViewerArraySize];
SimStatsPacket.StatBlock[] sbex = new SimStatsPacket.StatBlock[m_statisticExtraArraySize];
SimStatsPacket.RegionBlock rb = new SimStatsPacket.RegionBlock();
uint regionFlags = 0;
try
{
if (estateModule == null)
estateModule = m_scene.RequestModuleInterface<IEstateModule>();
regionFlags = estateModule != null ? estateModule.GetRegionFlags() : (uint) 0;
}
catch (Exception)
{
// leave region flags at 0
}
#region various statistic googly moogly
double timeTmp = m_lastUpdateTS;
m_lastUpdateTS = Util.GetTimeStampMS();
float updateElapsed = (float)((m_lastUpdateTS - timeTmp)/1000.0);
// factor to consider updates integration time
float updateTimeFactor = 1.0f / updateElapsed;
// scene frame stats
float reportedFPS;
float physfps;
float timeDilation;
float agentMS;
float physicsMS;
float otherMS;
float sleeptime;
float scriptTimeMS;
float totalFrameTime;
float invFrameElapsed;
// get a copy under lock and reset
lock(m_statsFrameLock)
{
timeDilation = m_timeDilation;
reportedFPS = m_fps;
physfps = m_pfps;
agentMS = m_agentMS;
physicsMS = m_physicsMS;
otherMS = m_otherMS;
sleeptime = m_sleeptimeMS;
scriptTimeMS = m_scriptTimeMS;
totalFrameTime = m_frameMS;
// still not inv
invFrameElapsed = (float)((m_FrameStatsTS - m_prevFrameStatsTS) / 1000.0);
ResetFrameStats();
}
if (invFrameElapsed / updateElapsed < 0.8)
// scene is in trouble, its account of time is most likely wrong
// can even be in stall
invFrameElapsed = updateTimeFactor;
else
invFrameElapsed = 1.0f / invFrameElapsed;
float perframefactor;
if (reportedFPS <= 0)
{
reportedFPS = 0.0f;
physfps = 0.0f;
perframefactor = 1.0f;
timeDilation = 0.0f;
}
else
{
timeDilation /= reportedFPS;
reportedFPS *= m_statisticsFPSfactor;
perframefactor = 1.0f / (float)reportedFPS;
reportedFPS *= invFrameElapsed;
physfps *= invFrameElapsed * m_statisticsFPSfactor;
}
// some engines track frame time with error related to the simulation step size
if(physfps > reportedFPS)
physfps = reportedFPS;
// save the reported value so there is something available for llGetRegionFPS
lastReportedSimFPS = reportedFPS;
// scale frame stats
totalFrameTime *= perframefactor;
sleeptime *= perframefactor;
otherMS *= perframefactor;
physicsMS *= perframefactor;
agentMS *= perframefactor;
scriptTimeMS *= perframefactor;
// estimate spare time
float sparetime;
sparetime = m_targetFrameTime - (physicsMS + agentMS + otherMS);
if (sparetime < 0)
sparetime = 0;
else if (sparetime > totalFrameTime)
sparetime = totalFrameTime;
#endregion
m_rootAgents = m_scene.SceneGraph.GetRootAgentCount();
m_childAgents = m_scene.SceneGraph.GetChildAgentCount();
m_numPrim = m_scene.SceneGraph.GetTotalObjectsCount();
m_numGeoPrim = m_scene.SceneGraph.GetTotalPrimObjectsCount();
m_numMesh = m_scene.SceneGraph.GetTotalMeshObjectsCount();
m_activePrim = m_scene.SceneGraph.GetActiveObjectsCount();
m_activeScripts = m_scene.SceneGraph.GetActiveScriptsCount();
m_scriptLinesPerSecond = m_scene.SceneGraph.GetScriptLPS();
// FIXME: Checking for stat sanity is a complex approach. What we really need to do is fix the code
// so that stat numbers are always consistent.
CheckStatSanity();
for (int i = 0; i < m_statisticViewerArraySize; i++)
{
sb[i] = new SimStatsPacket.StatBlock();
}
sb[0].StatID = (uint) Stats.TimeDilation;
sb[0].StatValue = (Single.IsNaN(timeDilation)) ? 0.0f : (float)Math.Round(timeDilation,3);
sb[1].StatID = (uint) Stats.SimFPS;
sb[1].StatValue = (float)Math.Round(reportedFPS,1);;
sb[2].StatID = (uint) Stats.PhysicsFPS;
sb[2].StatValue = (float)Math.Round(physfps,1);
sb[3].StatID = (uint) Stats.AgentUpdates;
sb[3].StatValue = m_agentUpdates * updateTimeFactor;
sb[4].StatID = (uint) Stats.Agents;
sb[4].StatValue = m_rootAgents;
sb[5].StatID = (uint) Stats.ChildAgents;
sb[5].StatValue = m_childAgents;
sb[6].StatID = (uint) Stats.TotalPrim;
sb[6].StatValue = m_numPrim;
sb[7].StatID = (uint) Stats.ActivePrim;
sb[7].StatValue = m_activePrim;
sb[8].StatID = (uint)Stats.FrameMS;
sb[8].StatValue = totalFrameTime;
sb[9].StatID = (uint)Stats.NetMS;
sb[9].StatValue = m_netMS * perframefactor;
sb[10].StatID = (uint)Stats.PhysicsMS;
sb[10].StatValue = physicsMS;
sb[11].StatID = (uint)Stats.ImageMS ;
sb[11].StatValue = m_imageMS * perframefactor;
sb[12].StatID = (uint)Stats.OtherMS;
sb[12].StatValue = otherMS;
sb[13].StatID = (uint)Stats.InPacketsPerSecond;
sb[13].StatValue = (float)Math.Round(m_inPacketsPerSecond * updateTimeFactor);
sb[14].StatID = (uint)Stats.OutPacketsPerSecond;
sb[14].StatValue = (float)Math.Round(m_outPacketsPerSecond * updateTimeFactor);
sb[15].StatID = (uint)Stats.UnAckedBytes;
sb[15].StatValue = m_unAckedBytes;
sb[16].StatID = (uint)Stats.AgentMS;
sb[16].StatValue = agentMS;
sb[17].StatID = (uint)Stats.PendingDownloads;
sb[17].StatValue = m_pendingDownloads;
sb[18].StatID = (uint)Stats.PendingUploads;
sb[18].StatValue = m_pendingUploads;
sb[19].StatID = (uint)Stats.ActiveScripts;
sb[19].StatValue = m_activeScripts;
sb[20].StatID = (uint)Stats.SimSleepMs;
sb[20].StatValue = sleeptime;
sb[21].StatID = (uint)Stats.SimSpareMs;
sb[21].StatValue = sparetime;
// this should came from phys engine
sb[22].StatID = (uint)Stats.SimPhysicsStepMs;
sb[22].StatValue = 20;
// send the ones we dont have as zeros, to clean viewers state
// specially arriving from regions with wrond IDs in use
sb[23].StatID = (uint)Stats.VirtualSizeKb;
sb[23].StatValue = 0;
sb[24].StatID = (uint)Stats.ResidentSizeKb;
sb[24].StatValue = 0;
sb[25].StatID = (uint)Stats.PendingLocalUploads;
sb[25].StatValue = 0;
sb[26].StatID = (uint)Stats.PhysicsPinnedTasks;
sb[26].StatValue = 0;
sb[27].StatID = (uint)Stats.PhysicsLodTasks;
sb[27].StatValue = 0;
sb[28].StatID = (uint)Stats.ScriptEps; // we actuall have this, but not messing array order AGAIN
sb[28].StatValue = (float)Math.Round(m_scriptEventsPerSecond * updateTimeFactor);
sb[29].StatID = (uint)Stats.SimAIStepTimeMS;
sb[29].StatValue = 0;
sb[30].StatID = (uint)Stats.SimIoPumpTime;
sb[30].StatValue = 0;
sb[31].StatID = (uint)Stats.SimPCTSscriptsRun;
sb[31].StatValue = 0;
sb[32].StatID = (uint)Stats.SimRegionIdle;
sb[32].StatValue = 0;
sb[33].StatID = (uint)Stats.SimRegionIdlePossible;
sb[33].StatValue = 0;
sb[34].StatID = (uint)Stats.SimSkippedSillouet_PS;
sb[34].StatValue = 0;
sb[35].StatID = (uint)Stats.SimSkippedCharsPerC;
sb[35].StatValue = 0;
sb[36].StatID = (uint)Stats.SimPhysicsMemory;
sb[36].StatValue = 0;
sb[37].StatID = (uint)Stats.ScriptMS;
sb[37].StatValue = scriptTimeMS;
for (int i = 0; i < m_statisticViewerArraySize; i++)
{
lastReportedSimStats[i] = sb[i].StatValue;
}
// add extra stats for internal use
for (int i = 0; i < m_statisticExtraArraySize; i++)
{
sbex[i] = new SimStatsPacket.StatBlock();
}
sbex[0].StatID = (uint)Stats.LSLScriptLinesPerSecond;
sbex[0].StatValue = m_scriptLinesPerSecond * updateTimeFactor;
lastReportedSimStats[38] = m_scriptLinesPerSecond * updateTimeFactor;
sbex[1].StatID = (uint)Stats.FrameDilation2;
sbex[1].StatValue = (Single.IsNaN(timeDilation)) ? 0.1f : timeDilation;
lastReportedSimStats[39] = (Single.IsNaN(timeDilation)) ? 0.1f : timeDilation;
sbex[2].StatID = (uint)Stats.UsersLoggingIn;
sbex[2].StatValue = m_usersLoggingIn;
lastReportedSimStats[40] = m_usersLoggingIn;
sbex[3].StatID = (uint)Stats.TotalGeoPrim;
sbex[3].StatValue = m_numGeoPrim;
lastReportedSimStats[41] = m_numGeoPrim;
sbex[4].StatID = (uint)Stats.TotalMesh;
sbex[4].StatValue = m_numMesh;
lastReportedSimStats[42] = m_numMesh;
sbex[5].StatID = (uint)Stats.ThreadCount;
sbex[5].StatValue = m_inUseThreads;
lastReportedSimStats[43] = m_inUseThreads;
SimStats simStats
= new SimStats(
ReportingRegion.RegionLocX, ReportingRegion.RegionLocY, regionFlags, (uint)m_objectCapacity,
rb, sb, sbex, m_scene.RegionInfo.originRegionID);
handlerSendStatResult = OnSendStatsResult;
if (handlerSendStatResult != null)
{
handlerSendStatResult(simStats);
}
// Extra statistics that aren't currently sent to clients
if (m_scene.PhysicsScene != null)
{
lock (m_lastReportedExtraSimStats)
{
m_lastReportedExtraSimStats[LastReportedObjectUpdateStatName] = m_objectUpdates * updateTimeFactor;
m_lastReportedExtraSimStats[SlowFramesStat.ShortName] = (float)SlowFramesStat.Value;
Dictionary<string, float> physicsStats = m_scene.PhysicsScene.GetStats();
if (physicsStats != null)
{
foreach (KeyValuePair<string, float> tuple in physicsStats)
{
// FIXME: An extremely dirty hack to divide MS stats per frame rather than per second
// Need to change things so that stats source can indicate whether they are per second or
// per frame.
if (tuple.Key.EndsWith("MS"))
m_lastReportedExtraSimStats[tuple.Key] = tuple.Value * perframefactor;
else
m_lastReportedExtraSimStats[tuple.Key] = tuple.Value * updateTimeFactor;
}
}
}
}
// LastReportedObjectUpdates = m_objectUpdates / m_statsUpdateFactor;
ResetValues();
Monitor.Exit(m_statsLock);
}
}
private void statsHeartBeat(object sender, EventArgs e)
{
if (!m_scene.Active)
{
return;
}
// dont do it if if still been done
if (Monitor.TryEnter(m_statsLock))
{
// m_log.Debug("Firing Stats Heart Beat");
SimStatsPacket.StatBlock[] sb = new SimStatsPacket.StatBlock[m_statisticViewerArraySize];
SimStatsPacket.StatBlock[] sbex = new SimStatsPacket.StatBlock[m_statisticExtraArraySize];
SimStatsPacket.RegionBlock rb = new SimStatsPacket.RegionBlock();
uint regionFlags = 0;
try
{
if (estateModule == null)
{
estateModule = m_scene.RequestModuleInterface <IEstateModule>();
}
regionFlags = estateModule != null?estateModule.GetRegionFlags() : (uint)0;
}
catch (Exception)
{
// leave region flags at 0
}
#region various statistic googly moogly
double timeTmp = m_lastUpdateTS;
m_lastUpdateTS = Util.GetTimeStampMS();
float updateElapsed = (float)((m_lastUpdateTS - timeTmp) / 1000.0);
// factor to consider updates integration time
float updateTimeFactor = 1.0f / updateElapsed;
// scene frame stats
float reportedFPS;
float physfps;
float timeDilation;
float agentMS;
float physicsMS;
float otherMS;
float sleeptime;
float scriptTimeMS;
float totalFrameTime;
float invFrameElapsed;
// get a copy under lock and reset
lock (m_statsFrameLock)
{
timeDilation = m_timeDilation;
reportedFPS = m_fps;
physfps = m_pfps;
agentMS = m_agentMS;
physicsMS = m_physicsMS;
otherMS = m_otherMS;
sleeptime = m_sleeptimeMS;
scriptTimeMS = m_scriptTimeMS;
totalFrameTime = m_frameMS;
// still not inv
invFrameElapsed = (float)((m_FrameStatsTS - m_prevFrameStatsTS) / 1000.0);
ResetFrameStats();
}
if (invFrameElapsed / updateElapsed < 0.8)
{
// scene is in trouble, its account of time is most likely wrong
// can even be in stall
invFrameElapsed = updateTimeFactor;
}
else
{
invFrameElapsed = 1.0f / invFrameElapsed;
}
float perframefactor;
if (reportedFPS <= 0)
{
reportedFPS = 0.0f;
physfps = 0.0f;
perframefactor = 1.0f;
timeDilation = 0.0f;
}
else
{
timeDilation /= reportedFPS;
reportedFPS *= m_statisticsFPSfactor;
perframefactor = 1.0f / (float)reportedFPS;
reportedFPS *= invFrameElapsed;
physfps *= invFrameElapsed * m_statisticsFPSfactor;
}
// some engines track frame time with error related to the simulation step size
if (physfps > reportedFPS)
{
physfps = reportedFPS;
}
// save the reported value so there is something available for llGetRegionFPS
lastReportedSimFPS = reportedFPS;
// scale frame stats
totalFrameTime *= perframefactor;
sleeptime *= perframefactor;
otherMS *= perframefactor;
physicsMS *= perframefactor;
agentMS *= perframefactor;
scriptTimeMS *= perframefactor;
// estimate spare time
float sparetime;
sparetime = m_targetFrameTime - (physicsMS + agentMS + otherMS);
if (sparetime < 0)
{
sparetime = 0;
}
else if (sparetime > totalFrameTime)
{
sparetime = totalFrameTime;
}
#endregion
m_rootAgents = m_scene.SceneGraph.GetRootAgentCount();
m_childAgents = m_scene.SceneGraph.GetChildAgentCount();
m_numPrim = m_scene.SceneGraph.GetTotalObjectsCount();
m_numGeoPrim = m_scene.SceneGraph.GetTotalPrimObjectsCount();
m_numMesh = m_scene.SceneGraph.GetTotalMeshObjectsCount();
m_activePrim = m_scene.SceneGraph.GetActiveObjectsCount();
m_activeScripts = m_scene.SceneGraph.GetActiveScriptsCount();
m_scriptLinesPerSecond = m_scene.SceneGraph.GetScriptLPS();
// FIXME: Checking for stat sanity is a complex approach. What we really need to do is fix the code
// so that stat numbers are always consistent.
CheckStatSanity();
for (int i = 0; i < m_statisticViewerArraySize; i++)
{
sb[i] = new SimStatsPacket.StatBlock();
}
sb[0].StatID = (uint)Stats.TimeDilation;
sb[0].StatValue = (Single.IsNaN(timeDilation)) ? 0.0f : (float)Math.Round(timeDilation, 3);
sb[1].StatID = (uint)Stats.SimFPS;
sb[1].StatValue = (float)Math.Round(reportedFPS, 1);;
sb[2].StatID = (uint)Stats.PhysicsFPS;
sb[2].StatValue = (float)Math.Round(physfps, 1);
sb[3].StatID = (uint)Stats.AgentUpdates;
sb[3].StatValue = m_agentUpdates * updateTimeFactor;
sb[4].StatID = (uint)Stats.Agents;
sb[4].StatValue = m_rootAgents;
sb[5].StatID = (uint)Stats.ChildAgents;
sb[5].StatValue = m_childAgents;
sb[6].StatID = (uint)Stats.TotalPrim;
sb[6].StatValue = m_numPrim;
sb[7].StatID = (uint)Stats.ActivePrim;
sb[7].StatValue = m_activePrim;
sb[8].StatID = (uint)Stats.FrameMS;
sb[8].StatValue = totalFrameTime;
sb[9].StatID = (uint)Stats.NetMS;
sb[9].StatValue = m_netMS * perframefactor;
sb[10].StatID = (uint)Stats.PhysicsMS;
sb[10].StatValue = physicsMS;
sb[11].StatID = (uint)Stats.ImageMS;
sb[11].StatValue = m_imageMS * perframefactor;
sb[12].StatID = (uint)Stats.OtherMS;
sb[12].StatValue = otherMS;
sb[13].StatID = (uint)Stats.InPacketsPerSecond;
sb[13].StatValue = (float)Math.Round(m_inPacketsPerSecond * updateTimeFactor);
sb[14].StatID = (uint)Stats.OutPacketsPerSecond;
sb[14].StatValue = (float)Math.Round(m_outPacketsPerSecond * updateTimeFactor);
sb[15].StatID = (uint)Stats.UnAckedBytes;
sb[15].StatValue = m_unAckedBytes;
sb[16].StatID = (uint)Stats.AgentMS;
sb[16].StatValue = agentMS;
sb[17].StatID = (uint)Stats.PendingDownloads;
sb[17].StatValue = m_pendingDownloads;
sb[18].StatID = (uint)Stats.PendingUploads;
sb[18].StatValue = m_pendingUploads;
sb[19].StatID = (uint)Stats.ActiveScripts;
sb[19].StatValue = m_activeScripts;
sb[20].StatID = (uint)Stats.SimSleepMs;
sb[20].StatValue = sleeptime;
sb[21].StatID = (uint)Stats.SimSpareMs;
sb[21].StatValue = sparetime;
// this should came from phys engine
sb[22].StatID = (uint)Stats.SimPhysicsStepMs;
sb[22].StatValue = 20;
// send the ones we dont have as zeros, to clean viewers state
// specially arriving from regions with wrond IDs in use
sb[23].StatID = (uint)Stats.VirtualSizeKb;
sb[23].StatValue = 0;
sb[24].StatID = (uint)Stats.ResidentSizeKb;
sb[24].StatValue = 0;
sb[25].StatID = (uint)Stats.PendingLocalUploads;
sb[25].StatValue = 0;
sb[26].StatID = (uint)Stats.PhysicsPinnedTasks;
sb[26].StatValue = 0;
sb[27].StatID = (uint)Stats.PhysicsLodTasks;
sb[27].StatValue = 0;
sb[28].StatID = (uint)Stats.ScriptEps; // we actually have this, but not messing array order AGAIN
sb[28].StatValue = (float)Math.Round(m_scriptEventsPerSecond * updateTimeFactor);
sb[29].StatID = (uint)Stats.SimAIStepTimeMS;
sb[29].StatValue = 0;
sb[30].StatID = (uint)Stats.SimIoPumpTime;
sb[30].StatValue = 0;
sb[31].StatID = (uint)Stats.SimPCTSscriptsRun;
sb[31].StatValue = 0;
sb[32].StatID = (uint)Stats.SimRegionIdle;
sb[32].StatValue = 0;
sb[33].StatID = (uint)Stats.SimRegionIdlePossible;
sb[33].StatValue = 0;
sb[34].StatID = (uint)Stats.SimSkippedSillouet_PS;
sb[34].StatValue = 0;
sb[35].StatID = (uint)Stats.SimSkippedCharsPerC;
sb[35].StatValue = 0;
sb[36].StatID = (uint)Stats.SimPhysicsMemory;
sb[36].StatValue = 0;
sb[37].StatID = (uint)Stats.ScriptMS;
sb[37].StatValue = scriptTimeMS;
for (int i = 0; i < m_statisticViewerArraySize; i++)
{
lastReportedSimStats[i] = sb[i].StatValue;
}
// add extra stats for internal use
for (int i = 0; i < m_statisticExtraArraySize; i++)
{
sbex[i] = new SimStatsPacket.StatBlock();
}
sbex[0].StatID = (uint)Stats.LSLScriptLinesPerSecond;
sbex[0].StatValue = m_scriptLinesPerSecond * updateTimeFactor;
lastReportedSimStats[38] = m_scriptLinesPerSecond * updateTimeFactor;
sbex[1].StatID = (uint)Stats.FrameDilation2;
sbex[1].StatValue = (Single.IsNaN(timeDilation)) ? 0.1f : timeDilation;
lastReportedSimStats[39] = (Single.IsNaN(timeDilation)) ? 0.1f : timeDilation;
sbex[2].StatID = (uint)Stats.UsersLoggingIn;
sbex[2].StatValue = m_usersLoggingIn;
lastReportedSimStats[40] = m_usersLoggingIn;
sbex[3].StatID = (uint)Stats.TotalGeoPrim;
sbex[3].StatValue = m_numGeoPrim;
lastReportedSimStats[41] = m_numGeoPrim;
sbex[4].StatID = (uint)Stats.TotalMesh;
sbex[4].StatValue = m_numMesh;
lastReportedSimStats[42] = m_numMesh;
sbex[5].StatID = (uint)Stats.ThreadCount;
sbex[5].StatValue = m_inUseThreads;
lastReportedSimStats[43] = m_inUseThreads;
SimStats simStats
= new SimStats(
ReportingRegion.RegionLocX, ReportingRegion.RegionLocY, regionFlags, (uint)m_objectCapacity,
rb, sb, sbex, m_scene.RegionInfo.originRegionID);
handlerSendStatResult = OnSendStatsResult;
if (handlerSendStatResult != null)
{
handlerSendStatResult(simStats);
}
// Extra statistics that aren't currently sent to clients
if (m_scene.PhysicsScene != null)
{
lock (m_lastReportedExtraSimStats)
{
m_lastReportedExtraSimStats[LastReportedObjectUpdateStatName] = m_objectUpdates * updateTimeFactor;
m_lastReportedExtraSimStats[SlowFramesStat.ShortName] = (float)SlowFramesStat.Value;
Dictionary <string, float> physicsStats = m_scene.PhysicsScene.GetStats();
if (physicsStats != null)
{
foreach (KeyValuePair <string, float> tuple in physicsStats)
{
// FIXME: An extremely dirty hack to divide MS stats per frame rather than per second
// Need to change things so that stats source can indicate whether they are per second or
// per frame.
if (tuple.Key.EndsWith("MS"))
{
m_lastReportedExtraSimStats[tuple.Key] = tuple.Value * perframefactor;
}
else
{
m_lastReportedExtraSimStats[tuple.Key] = tuple.Value * updateTimeFactor;
}
}
}
}
}
// LastReportedObjectUpdates = m_objectUpdates / m_statsUpdateFactor;
ResetValues();
Monitor.Exit(m_statsLock);
}
}
