/*
* 20140215 radams1: The border stuff was removed and the addition of regions to the mega-regions
* was generalized. These functions are not needed for the generalized solution but left for reference.
* private bool DoWorkForOneRegionOverXPlusY(RegionConnections rootConn, RegionConnections newConn, Scene scene)
* {
* Vector3 offset = Vector3.Zero;
* offset.X = newConn.PosX - rootConn.PosX;
* offset.Y = newConn.PosY - rootConn.PosY;
*
* Vector3 extents = Vector3.Zero;
* extents.Y = newConn.YEnd + rootConn.YEnd;
* extents.X = rootConn.XEnd;
* rootConn.UpdateExtents(extents);
*
* RegionData ConnectedRegion = new RegionData();
* ConnectedRegion.Offset = offset;
* ConnectedRegion.RegionId = scene.RegionInfo.originRegionID;
* ConnectedRegion.RegionScene = scene;
* rootConn.ConnectedRegions.Add(ConnectedRegion);
*
* m_log.DebugFormat(
* "[REGION COMBINER MODULE]: Root region {0} is to the south of region {1}, Offset: {2}, Extents: {3}",
* rootConn.RegionScene.RegionInfo.RegionName,
* newConn.RegionScene.RegionInfo.RegionName, offset, extents);
*
* rootConn.RegionScene.PhysicsScene.Combine(null, Vector3.Zero, extents);
* scene.PhysicsScene.Combine(rootConn.RegionScene.PhysicsScene, offset, Vector3.Zero);
*
* // Reset Terrain.. since terrain normally loads first.
* //conn.RegionScene.PhysicsScene.SetTerrain(conn.RegionScene.Heightmap.GetFloatsSerialised());
* scene.PhysicsScene.SetTerrain(scene.Heightmap.GetFloatsSerialised());
* //conn.RegionScene.PhysicsScene.SetTerrain(conn.RegionScene.Heightmap.GetFloatsSerialised());
*
* if (rootConn.ClientEventForwarder != null)
* rootConn.ClientEventForwarder.AddSceneToEventForwarding(scene);
*
* return true;
* }
*
* private bool DoWorkForOneRegionOverPlusXPlusY(RegionConnections rootConn, RegionConnections newConn, Scene scene)
* {
* Vector3 offset = Vector3.Zero;
* offset.X = newConn.PosX - rootConn.PosX;
* offset.Y = newConn.PosY - rootConn.PosY;
*
* Vector3 extents = Vector3.Zero;
*
* // We do not want to inflate the extents for regions strictly to the NE of the root region, since this
* // would double count regions strictly to the north and east that have already been added.
* // extents.Y = regionConnections.YEnd + conn.YEnd;
* // extents.X = regionConnections.XEnd + conn.XEnd;
* // conn.UpdateExtents(extents);
*
* extents.Y = rootConn.YEnd;
* extents.X = rootConn.XEnd;
*
* RegionData ConnectedRegion = new RegionData();
* ConnectedRegion.Offset = offset;
* ConnectedRegion.RegionId = scene.RegionInfo.originRegionID;
* ConnectedRegion.RegionScene = scene;
*
* rootConn.ConnectedRegions.Add(ConnectedRegion);
*
* m_log.DebugFormat(
* "[REGION COMBINER MODULE]: Region {0} is to the southwest of Scene {1}, Offset: {2}, Extents: {3}",
* rootConn.RegionScene.RegionInfo.RegionName,
* newConn.RegionScene.RegionInfo.RegionName, offset, extents);
*
* rootConn.RegionScene.PhysicsScene.Combine(null, Vector3.Zero, extents);
* scene.PhysicsScene.Combine(rootConn.RegionScene.PhysicsScene, offset, Vector3.Zero);
*
* // Reset Terrain.. since terrain normally loads first.
* //conn.RegionScene.PhysicsScene.SetTerrain(conn.RegionScene.Heightmap.GetFloatsSerialised());
* scene.PhysicsScene.SetTerrain(scene.Heightmap.GetFloatsSerialised());
* //conn.RegionScene.PhysicsScene.SetTerrain(conn.RegionScene.Heightmap.GetFloatsSerialised());
*
* if (rootConn.ClientEventForwarder != null)
* rootConn.ClientEventForwarder.AddSceneToEventForwarding(scene);
*
* return true;
*
* //scene.PhysicsScene.Combine(conn.RegionScene.PhysicsScene, offset,extents);
* }
*/
private void DoWorkForRootRegion(RegionConnections rootConn, Scene scene)
{
m_log.DebugFormat("[REGION COMBINER MODULE]: Adding root region {0}", scene.RegionInfo.RegionName);
RegionData rdata = new RegionData();
rdata.Offset = Vector3.Zero;
rdata.RegionId = scene.RegionInfo.originRegionID;
rdata.RegionScene = scene;
// save it's land channel
rootConn.RegionLandChannel = scene.LandChannel;
// Substitue our landchannel
RegionCombinerLargeLandChannel lnd = new RegionCombinerLargeLandChannel(rdata, scene.LandChannel,
rootConn.ConnectedRegions);
scene.LandChannel = lnd;
// Forward the permissions modules of each of the connected regions to the root region
lock (m_regions)
{
foreach (RegionData r in rootConn.ConnectedRegions)
{
ForwardPermissionRequests(rootConn, r.RegionScene);
}
// Create the root region's Client Event Forwarder
rootConn.ClientEventForwarder = new RegionCombinerClientEventForwarder(rootConn);
// Sets up the CoarseLocationUpdate forwarder for this root region
scene.EventManager.OnNewPresence += SetCoarseLocationDelegate;
// Adds this root region to a dictionary of regions that are connectable
m_regions.Add(scene.RegionInfo.originRegionID, rootConn);
}
}
private void DoWorkForRootRegion(RegionConnections regionConnections, Scene scene)
{
RegionData rdata = new RegionData();
rdata.Offset = Vector3.Zero;
rdata.RegionId = scene.RegionInfo.originRegionID;
rdata.RegionScene = scene;
// save it's land channel
regionConnections.RegionLandChannel = scene.LandChannel;
// Substitue our landchannel
RegionCombinerLargeLandChannel lnd = new RegionCombinerLargeLandChannel(rdata, scene.LandChannel,
regionConnections.ConnectedRegions);
scene.LandChannel = lnd;
// Forward the permissions modules of each of the connected regions to the root region
lock (m_regions)
{
foreach (RegionData r in regionConnections.ConnectedRegions)
{
ForwardPermissionRequests(regionConnections, r.RegionScene);
}
}
// Create the root region's Client Event Forwarder
regionConnections.ClientEventForwarder = new RegionCombinerClientEventForwarder(regionConnections);
// Sets up the CoarseLocationUpdate forwarder for this root region
scene.EventManager.OnNewPresence += SetCourseLocationDelegate;
// Adds this root region to a dictionary of regions that are connectable
m_regions.Add(scene.RegionInfo.originRegionID, regionConnections);
}
private void DoWorkForRootRegion(RegionConnections regionConnections, Scene scene)
{
RegionData rdata = new RegionData();
rdata.Offset = Vector3.Zero;
rdata.RegionId = scene.RegionInfo.RegionID;
rdata.RegionScene = scene;
// save it's land channel
regionConnections.RegionLandChannel = scene.RequestModuleInterface<IParcelManagementModule>();
// Substitue our landchannel
RegionCombinerLargeLandChannel lnd = new RegionCombinerLargeLandChannel(rdata, scene.RequestModuleInterface<IParcelManagementModule>(),
regionConnections.ConnectedRegions);
scene.RegisterModuleInterface<IParcelManagementModule>(lnd);
// Forward the permissions modules of each of the connected regions to the root region
lock (m_regions)
{
foreach (RegionData r in regionConnections.ConnectedRegions)
{
ForwardPermissionRequests(regionConnections, r.RegionScene);
}
}
// Create the root region's Client Event Forwarder
regionConnections.ClientEventForwarder = new RegionCombinerClientEventForwarder(regionConnections);
// Sets up the CoarseLocationUpdate forwarder for this root region
scene.EventManager.OnNewPresence += SetCourseLocationDelegate;
scene.EventManager.OnNewClient += EventManager_OnNewClient;
scene.EventManager.OnClosingClient += OnClosingClient;
// Adds this root region to a dictionary of regions that are connectable
m_regions.Add(scene.RegionInfo.RegionID, regionConnections);
ITerrainChannel terrainHeightmap = scene.RequestModuleInterface<ITerrainChannel>();
landTerrainChannel.AddRegion(rdata, terrainHeightmap);
}
private void RegionLoadedDoWork(Scene scene)
{
lock (m_startingScenes)
m_startingScenes.Add(scene.RegionInfo.originRegionID, scene);
// Give each region a standard set of non-infinite borders
Border northBorder = new Border();
northBorder.BorderLine = new Vector3(0, (int)Constants.RegionSize, (int)Constants.RegionSize); //<---
northBorder.CrossDirection = Cardinals.N;
scene.NorthBorders[0] = northBorder;
Border southBorder = new Border();
southBorder.BorderLine = new Vector3(0, (int)Constants.RegionSize, 0); //--->
southBorder.CrossDirection = Cardinals.S;
scene.SouthBorders[0] = southBorder;
Border eastBorder = new Border();
eastBorder.BorderLine = new Vector3(0, (int)Constants.RegionSize, (int)Constants.RegionSize); //<---
eastBorder.CrossDirection = Cardinals.E;
scene.EastBorders[0] = eastBorder;
Border westBorder = new Border();
westBorder.BorderLine = new Vector3(0, (int)Constants.RegionSize, 0); //--->
westBorder.CrossDirection = Cardinals.W;
scene.WestBorders[0] = westBorder;
RegionConnections regionConnections = new RegionConnections();
regionConnections.ConnectedRegions = new List<RegionData>();
regionConnections.RegionScene = scene;
regionConnections.RegionLandChannel = scene.LandChannel;
regionConnections.RegionId = scene.RegionInfo.originRegionID;
regionConnections.X = scene.RegionInfo.RegionLocX;
regionConnections.Y = scene.RegionInfo.RegionLocY;
regionConnections.XExtend = (int)Constants.RegionSize;
regionConnections.YExtend = (int)Constants.RegionSize;
if (m_nRegions == 0)
{
// this is root region
regionConnections.XExtend *= m_numberCombinedRegionsX;
regionConnections.YExtend *= m_numberCombinedRegionsY;
m_rootScene = scene;
m_rootConnection = regionConnections;
// save it's land channel
regionConnections.RegionLandChannel = scene.LandChannel;
scene.RootScene = null;
scene.RegionInfo.CombinedRegionHandle = 0;
Vector3 extents;
extents.X = regionConnections.XExtend;
extents.Y = regionConnections.YExtend;
extents.Z = 0;
scene.RegionInfo.RegionSizeX = (uint)extents.X;
scene.RegionInfo.RegionSizeY = (uint)extents.Y;
// scene.PhysicsScene.Combine(null, Vector3.Zero, extents);
lock (scene.SouthBorders)
scene.SouthBorders[0].BorderLine.Y = regionConnections.XExtend;
lock (scene.WestBorders)
scene.WestBorders[0].BorderLine.Y = regionConnections.YExtend;
lock (scene.EastBorders)
{
scene.EastBorders[0].BorderLine.Z = regionConnections.XExtend;
scene.EastBorders[0].BorderLine.Y = regionConnections.YExtend;
}
lock (scene.NorthBorders)
{
scene.NorthBorders[0].BorderLine.Z = regionConnections.YExtend;
scene.NorthBorders[0].BorderLine.Y = regionConnections.XExtend;
}
// Substitue our landchannel
RegionData rdata = new RegionData();
rdata.Offset = Vector3.Zero;
rdata.RegionId = scene.RegionInfo.originRegionID;
rdata.RegionScene = scene;
RegionCombinerLargeLandChannel lnd = new RegionCombinerLargeLandChannel(rdata, scene.LandChannel,
regionConnections.ConnectedRegions);
scene.LandChannel = lnd;
// Forward the permissions modules of each of the connected regions to the root region
// Create the root region's Client Event Forwarder
regionConnections.ClientEventForwarder = new RegionCombinerClientEventForwarder(regionConnections);
// Sets up the CoarseLocationUpdate forwarder for this root region
scene.EventManager.OnNewPresence += SetCourseLocationDelegate;
// Adds this root region to a dictionary of regions that are connectable
m_regions.Add(scene.RegionInfo.originRegionID, regionConnections);
}
else if (m_rootScene != null)
{
scene.RootScene = m_rootScene;
scene.RegionInfo.CombinedRegionHandle = m_rootScene.RegionInfo.RegionHandle;
Vector3 offset = Vector3.Zero;
offset.X = ((int)regionConnections.X - (int)m_rootConnection.X) * Constants.RegionSize;
offset.Y = ((int)regionConnections.Y - (int)m_rootConnection.Y) * Constants.RegionSize;
RegionData ConnectedRegion = new RegionData();
ConnectedRegion.Offset = offset;
ConnectedRegion.RegionId = scene.RegionInfo.originRegionID;
ConnectedRegion.RegionScene = scene;
m_rootConnection.ConnectedRegions.Add(ConnectedRegion);
scene.Physics_Enabled = false;
scene.Scripts_Enabled = false;
m_rootScene.PhysicsScene.CombineTerrain(scene.Heightmap.GetFloatsSerialised(),offset);
scene.EventManager.OnNewPresence += SetCourseLocationDelegate;
// Create a client event forwarder and add this region's events to the root region.
if (m_rootConnection.ClientEventForwarder != null)
m_rootConnection.ClientEventForwarder.AddSceneToEventForwarding(scene);
}
m_nRegions++;
if (m_nRegions == m_nRegionsToLoad)
{
// final work
lock (m_regions)
{
foreach (RegionData r in regionConnections.ConnectedRegions)
{
ForwardPermissionRequests(regionConnections, r.RegionScene);
}
}
}
AdjustLargeRegionBounds();
return;
}
