/*
* Copyright (c) Contributors, http://opensimulator.org/
* See CONTRIBUTORS.TXT for a full list of copyright holders.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* * Neither the name of the OpenSimulator Project nor the
* names of its contributors may be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE DEVELOPERS ``AS IS'' AND ANY
* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE CONTRIBUTORS BE LIABLE FOR ANY
* DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
using System;
using System.Collections.Generic;
using System.Drawing;
using System.IO;
using System.Diagnostics;
using System.Threading;
using System.Xml;
using System.Xml.Serialization;
using OpenMetaverse;
using OpenMetaverse.Packets;
using OpenSim.Framework;
using OpenSim.Region.Framework.Interfaces;
using OpenSim.Region.Physics.Manager;
using OpenSim.Region.Framework.Scenes.Serialization;
namespace OpenSim.Region.Framework.Scenes
{
[Flags]
public enum scriptEvents
{
None = 0,
attach = 1,
collision = 16,
collision_end = 32,
collision_start = 64,
control = 128,
dataserver = 256,
email = 512,
http_response = 1024,
land_collision = 2048,
land_collision_end = 4096,
land_collision_start = 8192,
at_target = 16384,
at_rot_target = 16777216,
listen = 32768,
money = 65536,
moving_end = 131072,
moving_start = 262144,
not_at_rot_target = 524288,
not_at_target = 1048576,
remote_data = 8388608,
run_time_permissions = 268435456,
state_entry = 1073741824,
state_exit = 2,
timer = 4,
touch = 8,
touch_end = 536870912,
touch_start = 2097152,
object_rez = 4194304
}
struct scriptPosTarget
{
public Vector3 targetPos;
public float tolerance;
public uint handle;
}
struct scriptRotTarget
{
public Quaternion targetRot;
public float tolerance;
public uint handle;
}
public delegate void PrimCountTaintedDelegate();
///
/// A scene object group is conceptually an object in the scene. The object is constituted of SceneObjectParts
/// (often known as prims), one of which is considered the root part.
///
public partial class SceneObjectGroup : EntityBase, ISceneObject
{
// private PrimCountTaintedDelegate handlerPrimCountTainted = null;
///
/// Signal whether the non-inventory attributes of any prims in the group have changed
/// since the group's last persistent backup
///
private bool m_hasGroupChanged = false;
private long timeFirstChanged = 0;
private long timeLastChanged = 0;
private long m_maxPersistTime = 0;
private long m_minPersistTime = 0;
private Random m_rand;
private bool m_suspendUpdates;
private System.Threading.ReaderWriterLockSlim m_partsLock = new System.Threading.ReaderWriterLockSlim();
private List m_linkedAvatars = new List();
public bool areUpdatesSuspended
{
get
{
return m_suspendUpdates;
}
set
{
m_suspendUpdates = value;
if (!value)
{
QueueForUpdateCheck();
}
}
}
public void lockPartsForRead(bool locked)
{
if (locked)
{
if (m_partsLock.RecursiveReadCount > 0)
{
m_log.Error("[SceneObjectGroup.m_parts] Recursive read lock requested. This should not happen and means something needs to be fixed. For now though, it's safe to continue.");
try
{
StackTrace stackTrace = new StackTrace(); // get call stack
StackFrame[] stackFrames = stackTrace.GetFrames(); // get method calls (frames)
// write call stack method names
foreach (StackFrame stackFrame in stackFrames)
{
m_log.Error("[SceneObjectGroup.m_parts] "+(stackFrame.GetMethod().Name)); // write method name
}
m_partsLock.ExitReadLock();
}
catch { } // Ignore errors, to allow resync
}
if (m_partsLock.RecursiveWriteCount > 0)
{
m_log.Error("[SceneObjectGroup.m_parts] Recursive read lock requested (write lock exists on this thread). This should not happen and means something needs to be fixed.");
try
{
m_partsLock.ExitWriteLock();
}
catch { }
}
while (!m_partsLock.TryEnterReadLock(60000))
{
m_log.Error("[SceneObjectGroup.m_parts] Thread lock detected while trying to aquire READ lock of m_parts in SceneObjectGroup. I'm going to try to solve the thread lock automatically to preserve region stability, but this needs to be fixed.");
if (m_partsLock.IsWriteLockHeld)
{
m_partsLock = new System.Threading.ReaderWriterLockSlim();
}
}
}
else
{
if (m_partsLock.RecursiveReadCount > 0)
{
m_partsLock.ExitReadLock();
}
}
}
public void lockPartsForWrite(bool locked)
{
if (locked)
{
if (m_partsLock.RecursiveReadCount > 0)
{
m_log.Error("[SceneObjectGroup.m_parts] Recursive write lock requested. This should not happen and means something needs to be fixed. For now though, it's safe to continue.");
m_partsLock.ExitReadLock();
}
if (m_partsLock.RecursiveWriteCount > 0)
{
m_log.Error("[SceneObjectGroup.m_parts] Recursive write lock requested. This should not happen and means something needs to be fixed.");
m_partsLock.ExitWriteLock();
}
while (!m_partsLock.TryEnterWriteLock(60000))
{
m_log.Error("[SceneObjectGroup.m_parts] Thread lock detected while trying to aquire WRITE lock of m_scripts in XEngine. I'm going to try to solve the thread lock automatically to preserve region stability, but this needs to be fixed.");
if (m_partsLock.IsWriteLockHeld)
{
m_partsLock = new System.Threading.ReaderWriterLockSlim();
}
}
}
else
{
if (m_partsLock.RecursiveWriteCount > 0)
{
m_partsLock.ExitWriteLock();
}
}
}
public bool HasGroupChanged
{
set
{
if (value)
{
if (m_isBackedUp)
{
m_scene.SceneGraph.FireChangeBackup(this);
}
timeLastChanged = DateTime.Now.Ticks;
if (!m_hasGroupChanged)
timeFirstChanged = DateTime.Now.Ticks;
if (m_rootPart != null && m_rootPart.UUID != null && m_scene != null)
{
if (m_rand == null)
{
byte[] val = new byte[16];
m_rootPart.UUID.ToBytes(val, 0);
m_rand = new Random(BitConverter.ToInt32(val, 0));
}
if (m_scene.GetRootAgentCount() == 0)
{
//If the region is empty, this change has been made by an automated process
//and thus we delay the persist time by a random amount between 1.5 and 2.5.
float factor = 1.5f + (float)(m_rand.NextDouble());
m_maxPersistTime = (long)((float)m_scene.m_persistAfter * factor);
m_minPersistTime = (long)((float)m_scene.m_dontPersistBefore * factor);
}
else
{
//If the region is not empty, we want to obey the minimum and maximum persist times
//but add a random factor so we stagger the object persistance a little
m_maxPersistTime = (long)((float)m_scene.m_persistAfter * (1.0d - (m_rand.NextDouble() / 5.0d))); //Multiply by 1.0-1.5
m_minPersistTime = (long)((float)m_scene.m_dontPersistBefore * (1.0d + (m_rand.NextDouble() / 2.0d))); //Multiply by 0.8-1.0
}
}
}
m_hasGroupChanged = value;
}
get { return m_hasGroupChanged; }
}
private bool isTimeToPersist()
{
if (IsSelected || IsDeleted || IsAttachment)
return false;
if (!m_hasGroupChanged)
return false;
if (m_scene.ShuttingDown)
return true;
if (m_minPersistTime == 0 || m_maxPersistTime == 0)
{
m_maxPersistTime = m_scene.m_persistAfter;
m_minPersistTime = m_scene.m_dontPersistBefore;
}
long currentTime = DateTime.Now.Ticks;
if (timeLastChanged == 0) timeLastChanged = currentTime;
if (timeFirstChanged == 0) timeFirstChanged = currentTime;
if (currentTime - timeLastChanged > m_minPersistTime || currentTime - timeFirstChanged > m_maxPersistTime)
return true;
return false;
}
///
/// Is this scene object acting as an attachment?
///
/// We return false if the group has already been deleted.
///
/// TODO: At the moment set must be done on the part itself. There may be a case for doing it here since I
/// presume either all or no parts in a linkset can be part of an attachment (in which
/// case the value would get proprogated down into all the descendent parts).
///
public bool IsAttachment
{
get
{
if (!IsDeleted)
return m_rootPart.IsAttachment;
return false;
}
}
public float scriptScore = 0f;
private Vector3 lastPhysGroupPos;
private Quaternion lastPhysGroupRot;
private bool m_isBackedUp = false;
///
/// The constituent parts of this group
///
protected Dictionary m_parts = new Dictionary();
protected ulong m_regionHandle;
protected SceneObjectPart m_rootPart;
// private Dictionary m_scriptEvents = new Dictionary();
private Dictionary m_targets = new Dictionary();
private Dictionary m_rotTargets = new Dictionary();
private bool m_scriptListens_atTarget = false;
private bool m_scriptListens_notAtTarget = false;
private bool m_scriptListens_atRotTarget = false;
private bool m_scriptListens_notAtRotTarget = false;
public bool m_dupeInProgress = false;
internal Dictionary m_savedScriptState = null;
#region Properties
///
/// The name of an object grouping is always the same as its root part
///
public override string Name
{
get {
if (RootPart == null)
return "";
return RootPart.Name;
}
set { RootPart.Name = value; }
}
///
/// Added because the Parcel code seems to use it
/// but not sure a object should have this
/// as what does it tell us? that some avatar has selected it (but not what Avatar/user)
/// think really there should be a list (or whatever) in each scenepresence
/// saying what prim(s) that user has selected.
///
protected bool m_isSelected = false;
///
/// Number of prims in this group
///
public int PrimCount
{
get { return m_parts.Count; }
}
protected Quaternion m_rotation = Quaternion.Identity;
public virtual Quaternion Rotation
{
get { return m_rotation; }
set {
lockPartsForRead(true);
try
{
foreach(SceneObjectPart p in m_parts.Values)
{
p.StoreUndoState(UndoType.STATE_GROUP_ROTATION);
}
}
finally
{
lockPartsForRead(false);
}
m_rotation = value;
}
}
public Quaternion GroupRotation
{
get { return m_rootPart.RotationOffset; }
}
public UUID GroupID
{
get { return m_rootPart.GroupID; }
set { m_rootPart.GroupID = value; }
}
///
/// The parts of this scene object group. You must lock this property before using it.
///
public Dictionary Children
{
get { return m_parts; }
set { m_parts = value; }
}
///
/// The root part of this scene object
///
public SceneObjectPart RootPart
{
get { return m_rootPart; }
}
public ulong RegionHandle
{
get { return m_regionHandle; }
set
{
m_regionHandle = value;
lockPartsForRead(true);
{
foreach (SceneObjectPart part in m_parts.Values)
{
part.RegionHandle = m_regionHandle;
}
}
lockPartsForRead(false);
}
}
///
/// Check both the attachment property and the relevant properties of the underlying root part.
///
/// This is necessary in some cases, particularly when a scene object has just crossed into a region and doesn't
/// have the IsAttachment property yet checked.
///
/// FIXME: However, this should be fixed so that this property
/// propertly reflects the underlying status.
///
public bool IsAttachmentCheckFull()
{
return (IsAttachment || (m_rootPart.Shape.PCode == 9 && m_rootPart.Shape.State != 0));
}
///
/// The absolute position of this scene object in the scene
///
public override Vector3 AbsolutePosition
{
get { return m_rootPart.GroupPosition; }
set
{
Vector3 val = value;
if ((m_scene.TestBorderCross(val - Vector3.UnitX, Cardinals.E) || m_scene.TestBorderCross(val + Vector3.UnitX, Cardinals.W)
|| m_scene.TestBorderCross(val - Vector3.UnitY, Cardinals.N) || m_scene.TestBorderCross(val + Vector3.UnitY, Cardinals.S))
&& !IsAttachmentCheckFull() && (!m_scene.LoadingPrims))
{
m_scene.CrossPrimGroupIntoNewRegion(val, this, true);
}
lockPartsForRead(true);
foreach (SceneObjectPart part in m_parts.Values)
{
part.IgnoreUndoUpdate = true;
}
if (RootPart.GetStatusSandbox())
{
if (Util.GetDistanceTo(RootPart.StatusSandboxPos, value) > 10)
{
RootPart.ScriptSetPhysicsStatus(false);
Scene.SimChat(Utils.StringToBytes("Hit Sandbox Limit"),
ChatTypeEnum.DebugChannel, 0x7FFFFFFF, RootPart.AbsolutePosition, Name, UUID, false);
lockPartsForRead(false);
return;
}
}
List parts = new List(m_parts.Values);
lockPartsForRead(false);
foreach (SceneObjectPart part in parts)
{
part.IgnoreUndoUpdate = false;
part.StoreUndoState(UndoType.STATE_GROUP_POSITION);
part.GroupPosition = val;
if (!m_dupeInProgress)
{
part.TriggerScriptChangedEvent(Changed.POSITION);
}
}
if (!m_dupeInProgress)
{
foreach (ScenePresence av in m_linkedAvatars)
{
Vector3 offset = m_parts[av.LinkedPrim].GetWorldPosition() - av.ParentPosition;
av.AbsolutePosition += offset;
av.ParentPosition = m_parts[av.LinkedPrim].GetWorldPosition(); //ParentPosition gets cleared by AbsolutePosition
av.SendFullUpdateToAllClients();
}
}
//if (m_rootPart.PhysActor != null)
//{
//m_rootPart.PhysActor.Position =
//new PhysicsVector(m_rootPart.GroupPosition.X, m_rootPart.GroupPosition.Y,
//m_rootPart.GroupPosition.Z);
//m_scene.PhysicsScene.AddPhysicsActorTaint(m_rootPart.PhysActor);
//}
}
}
public override uint LocalId
{
get { return m_rootPart.LocalId; }
set { m_rootPart.LocalId = value; }
}
public override UUID UUID
{
get { return m_rootPart.UUID; }
set { m_rootPart.UUID = value; }
}
public UUID OwnerID
{
get { return m_rootPart.OwnerID; }
set { m_rootPart.OwnerID = value; }
}
public float Damage
{
get { return m_rootPart.Damage; }
set { m_rootPart.Damage = value; }
}
public Color Color
{
get { return m_rootPart.Color; }
set { m_rootPart.Color = value; }
}
public string Text
{
get {
string returnstr = m_rootPart.Text;
if (returnstr.Length > 255)
{
returnstr = returnstr.Substring(0, 255);
}
return returnstr;
}
set { m_rootPart.Text = value; }
}
protected virtual bool InSceneBackup
{
get { return true; }
}
private bool m_passCollision;
public bool PassCollision
{
get { return m_passCollision; }
set
{
m_passCollision = value;
HasGroupChanged = true;
}
}
public bool IsSelected
{
get { return m_isSelected; }
set
{
m_isSelected = value;
// Tell physics engine that group is selected
if (m_rootPart.PhysActor != null)
{
m_rootPart.PhysActor.Selected = value;
// Pass it on to the children.
foreach (SceneObjectPart child in Children.Values)
{
if (child.PhysActor != null)
{
child.PhysActor.Selected = value;
}
}
}
}
}
private SceneObjectPart m_PlaySoundMasterPrim = null;
public SceneObjectPart PlaySoundMasterPrim
{
get { return m_PlaySoundMasterPrim; }
set { m_PlaySoundMasterPrim = value; }
}
private List m_PlaySoundSlavePrims = new List();
public List PlaySoundSlavePrims
{
get { return m_PlaySoundSlavePrims; }
set { m_PlaySoundSlavePrims = value; }
}
private SceneObjectPart m_LoopSoundMasterPrim = null;
public SceneObjectPart LoopSoundMasterPrim
{
get { return m_LoopSoundMasterPrim; }
set { m_LoopSoundMasterPrim = value; }
}
private List m_LoopSoundSlavePrims = new List();
public List LoopSoundSlavePrims
{
get { return m_LoopSoundSlavePrims; }
set { m_LoopSoundSlavePrims = value; }
}
// The UUID for the Region this Object is in.
public UUID RegionUUID
{
get
{
if (m_scene != null)
{
return m_scene.RegionInfo.RegionID;
}
return UUID.Zero;
}
}
#endregion
#region Constructors
///
/// Constructor
///
public SceneObjectGroup()
{
}
///
/// This constructor creates a SceneObjectGroup using a pre-existing SceneObjectPart.
/// The original SceneObjectPart will be used rather than a copy, preserving
/// its existing localID and UUID.
///
public SceneObjectGroup(SceneObjectPart part)
{
SetRootPart(part);
}
///
/// Constructor. This object is added to the scene later via AttachToScene()
///
public SceneObjectGroup(UUID ownerID, Vector3 pos, Quaternion rot, PrimitiveBaseShape shape)
{
SetRootPart(new SceneObjectPart(ownerID, shape, pos, rot, Vector3.Zero));
}
///
/// Constructor.
///
public SceneObjectGroup(UUID ownerID, Vector3 pos, PrimitiveBaseShape shape)
: this(ownerID, pos, Quaternion.Identity, shape)
{
}
public void LoadScriptState(XmlDocument doc)
{
XmlNodeList nodes = doc.GetElementsByTagName("SavedScriptState");
if (nodes.Count > 0)
{
m_savedScriptState = new Dictionary();
foreach (XmlNode node in nodes)
{
if (node.Attributes["UUID"] != null)
{
UUID itemid = new UUID(node.Attributes["UUID"].Value);
m_savedScriptState.Add(itemid, node.InnerXml);
}
}
}
}
public void SetFromItemID(UUID AssetId)
{
lockPartsForRead(true);
{
foreach (SceneObjectPart part in m_parts.Values)
{
part.FromItemID = AssetId;
}
}
lockPartsForRead(false);
}
public UUID GetFromItemID()
{
return m_rootPart.FromItemID;
}
///
/// Hooks this object up to the backup event so that it is persisted to the database when the update thread executes.
///
public virtual void AttachToBackup()
{
if (IsAttachment) return;
m_scene.SceneGraph.FireAttachToBackup(this);
if (InSceneBackup)
{
//m_log.DebugFormat(
// "[SCENE OBJECT GROUP]: Attaching object {0} {1} to scene presistence sweep", Name, UUID);
if (!m_isBackedUp)
m_scene.EventManager.OnBackup += ProcessBackup;
m_isBackedUp = true;
}
}
///
/// Attach this object to a scene. It will also now appear to agents.
///
///
public void AttachToScene(Scene scene)
{
m_scene = scene;
RegionHandle = m_scene.RegionInfo.RegionHandle;
if (m_rootPart.Shape.PCode != 9 || m_rootPart.Shape.State == 0)
m_rootPart.ParentID = 0;
if (m_rootPart.LocalId == 0)
m_rootPart.LocalId = m_scene.AllocateLocalId();
// No need to lock here since the object isn't yet in a scene
foreach (SceneObjectPart part in m_parts.Values)
{
if (Object.ReferenceEquals(part, m_rootPart))
{
continue;
}
if (part.LocalId == 0)
{
part.LocalId = m_scene.AllocateLocalId();
}
part.ParentID = m_rootPart.LocalId;
//m_log.DebugFormat("[SCENE]: Given local id {0} to part {1}, linknum {2}, parent {3} {4}", part.LocalId, part.UUID, part.LinkNum, part.ParentID, part.ParentUUID);
}
ApplyPhysics(m_scene.m_physicalPrim);
// Don't trigger the update here - otherwise some client issues occur when multiple updates are scheduled
// for the same object with very different properties. The caller must schedule the update.
//ScheduleGroupForFullUpdate();
}
public Vector3 GroupScale()
{
Vector3 minScale = new Vector3(Constants.RegionSize, Constants.RegionSize, Constants.RegionSize);
Vector3 maxScale = Vector3.Zero;
Vector3 finalScale = new Vector3(0.5f, 0.5f, 0.5f);
lockPartsForRead(true);
{
foreach (SceneObjectPart part in m_parts.Values)
{
Vector3 partscale = part.Scale;
Vector3 partoffset = part.OffsetPosition;
minScale.X = (partscale.X + partoffset.X < minScale.X) ? partscale.X + partoffset.X : minScale.X;
minScale.Y = (partscale.Y + partoffset.Y < minScale.Y) ? partscale.Y + partoffset.Y : minScale.Y;
minScale.Z = (partscale.Z + partoffset.Z < minScale.Z) ? partscale.Z + partoffset.Z : minScale.Z;
maxScale.X = (partscale.X + partoffset.X > maxScale.X) ? partscale.X + partoffset.X : maxScale.X;
maxScale.Y = (partscale.Y + partoffset.Y > maxScale.Y) ? partscale.Y + partoffset.Y : maxScale.Y;
maxScale.Z = (partscale.Z + partoffset.Z > maxScale.Z) ? partscale.Z + partoffset.Z : maxScale.Z;
}
}
lockPartsForRead(false);
finalScale.X = (minScale.X > maxScale.X) ? minScale.X : maxScale.X;
finalScale.Y = (minScale.Y > maxScale.Y) ? minScale.Y : maxScale.Y;
finalScale.Z = (minScale.Z > maxScale.Z) ? minScale.Z : maxScale.Z;
return finalScale;
}
public EntityIntersection TestIntersection(Ray hRay, bool frontFacesOnly, bool faceCenters)
{
// We got a request from the inner_scene to raytrace along the Ray hRay
// We're going to check all of the prim in this group for intersection with the ray
// If we get a result, we're going to find the closest result to the origin of the ray
// and send back the intersection information back to the innerscene.
EntityIntersection result = new EntityIntersection();
lockPartsForRead(true);
{
foreach (SceneObjectPart part in m_parts.Values)
{
// Temporary commented to stop compiler warning
//Vector3 partPosition =
// new Vector3(part.AbsolutePosition.X, part.AbsolutePosition.Y, part.AbsolutePosition.Z);
Quaternion parentrotation = GroupRotation;
// Telling the prim to raytrace.
//EntityIntersection inter = part.TestIntersection(hRay, parentrotation);
EntityIntersection inter = part.TestIntersectionOBB(hRay, parentrotation,frontFacesOnly, faceCenters);
// This may need to be updated to the maximum draw distance possible..
// We might (and probably will) be checking for prim creation from other sims
// when the camera crosses the border.
float idist = Constants.RegionSize;
if (inter.HitTF)
{
// We need to find the closest prim to return to the testcaller along the ray
if (inter.distance < idist)
{
result.HitTF = true;
result.ipoint = inter.ipoint;
result.obj = part;
result.normal = inter.normal;
result.distance = inter.distance;
}
}
}
}
lockPartsForRead(false);
return result;
}
///
/// Gets a vector representing the size of the bounding box containing all the prims in the group
/// Treats all prims as rectangular, so no shape (cut etc) is taken into account
/// offsetHeight is the offset in the Z axis from the centre of the bounding box to the centre of the root prim
///
///
public void GetAxisAlignedBoundingBoxRaw(out float minX, out float maxX, out float minY, out float maxY, out float minZ, out float maxZ)
{
maxX = -256f;
maxY = -256f;
maxZ = -256f;
minX = 256f;
minY = 256f;
minZ = 8192f;
lockPartsForRead(true);
{
foreach (SceneObjectPart part in m_parts.Values)
{
Vector3 worldPos = part.GetWorldPosition();
Vector3 offset = worldPos - AbsolutePosition;
Quaternion worldRot;
if (part.ParentID == 0)
{
worldRot = part.RotationOffset;
}
else
{
worldRot = part.GetWorldRotation();
}
Vector3 frontTopLeft;
Vector3 frontTopRight;
Vector3 frontBottomLeft;
Vector3 frontBottomRight;
Vector3 backTopLeft;
Vector3 backTopRight;
Vector3 backBottomLeft;
Vector3 backBottomRight;
// Vector3[] corners = new Vector3[8];
Vector3 orig = Vector3.Zero;
frontTopLeft.X = orig.X - (part.Scale.X / 2);
frontTopLeft.Y = orig.Y - (part.Scale.Y / 2);
frontTopLeft.Z = orig.Z + (part.Scale.Z / 2);
frontTopRight.X = orig.X - (part.Scale.X / 2);
frontTopRight.Y = orig.Y + (part.Scale.Y / 2);
frontTopRight.Z = orig.Z + (part.Scale.Z / 2);
frontBottomLeft.X = orig.X - (part.Scale.X / 2);
frontBottomLeft.Y = orig.Y - (part.Scale.Y / 2);
frontBottomLeft.Z = orig.Z - (part.Scale.Z / 2);
frontBottomRight.X = orig.X - (part.Scale.X / 2);
frontBottomRight.Y = orig.Y + (part.Scale.Y / 2);
frontBottomRight.Z = orig.Z - (part.Scale.Z / 2);
backTopLeft.X = orig.X + (part.Scale.X / 2);
backTopLeft.Y = orig.Y - (part.Scale.Y / 2);
backTopLeft.Z = orig.Z + (part.Scale.Z / 2);
backTopRight.X = orig.X + (part.Scale.X / 2);
backTopRight.Y = orig.Y + (part.Scale.Y / 2);
backTopRight.Z = orig.Z + (part.Scale.Z / 2);
backBottomLeft.X = orig.X + (part.Scale.X / 2);
backBottomLeft.Y = orig.Y - (part.Scale.Y / 2);
backBottomLeft.Z = orig.Z - (part.Scale.Z / 2);
backBottomRight.X = orig.X + (part.Scale.X / 2);
backBottomRight.Y = orig.Y + (part.Scale.Y / 2);
backBottomRight.Z = orig.Z - (part.Scale.Z / 2);
//m_log.InfoFormat("pre corner 1 is {0} {1} {2}", frontTopLeft.X, frontTopLeft.Y, frontTopLeft.Z);
//m_log.InfoFormat("pre corner 2 is {0} {1} {2}", frontTopRight.X, frontTopRight.Y, frontTopRight.Z);
//m_log.InfoFormat("pre corner 3 is {0} {1} {2}", frontBottomRight.X, frontBottomRight.Y, frontBottomRight.Z);
//m_log.InfoFormat("pre corner 4 is {0} {1} {2}", frontBottomLeft.X, frontBottomLeft.Y, frontBottomLeft.Z);
//m_log.InfoFormat("pre corner 5 is {0} {1} {2}", backTopLeft.X, backTopLeft.Y, backTopLeft.Z);
//m_log.InfoFormat("pre corner 6 is {0} {1} {2}", backTopRight.X, backTopRight.Y, backTopRight.Z);
//m_log.InfoFormat("pre corner 7 is {0} {1} {2}", backBottomRight.X, backBottomRight.Y, backBottomRight.Z);
//m_log.InfoFormat("pre corner 8 is {0} {1} {2}", backBottomLeft.X, backBottomLeft.Y, backBottomLeft.Z);
//for (int i = 0; i < 8; i++)
//{
// corners[i] = corners[i] * worldRot;
// corners[i] += offset;
// if (corners[i].X > maxX)
// maxX = corners[i].X;
// if (corners[i].X < minX)
// minX = corners[i].X;
// if (corners[i].Y > maxY)
// maxY = corners[i].Y;
// if (corners[i].Y < minY)
// minY = corners[i].Y;
// if (corners[i].Z > maxZ)
// maxZ = corners[i].Y;
// if (corners[i].Z < minZ)
// minZ = corners[i].Z;
//}
frontTopLeft = frontTopLeft * worldRot;
frontTopRight = frontTopRight * worldRot;
frontBottomLeft = frontBottomLeft * worldRot;
frontBottomRight = frontBottomRight * worldRot;
backBottomLeft = backBottomLeft * worldRot;
backBottomRight = backBottomRight * worldRot;
backTopLeft = backTopLeft * worldRot;
backTopRight = backTopRight * worldRot;
frontTopLeft += offset;
frontTopRight += offset;
frontBottomLeft += offset;
frontBottomRight += offset;
backBottomLeft += offset;
backBottomRight += offset;
backTopLeft += offset;
backTopRight += offset;
//m_log.InfoFormat("corner 1 is {0} {1} {2}", frontTopLeft.X, frontTopLeft.Y, frontTopLeft.Z);
//m_log.InfoFormat("corner 2 is {0} {1} {2}", frontTopRight.X, frontTopRight.Y, frontTopRight.Z);
//m_log.InfoFormat("corner 3 is {0} {1} {2}", frontBottomRight.X, frontBottomRight.Y, frontBottomRight.Z);
//m_log.InfoFormat("corner 4 is {0} {1} {2}", frontBottomLeft.X, frontBottomLeft.Y, frontBottomLeft.Z);
//m_log.InfoFormat("corner 5 is {0} {1} {2}", backTopLeft.X, backTopLeft.Y, backTopLeft.Z);
//m_log.InfoFormat("corner 6 is {0} {1} {2}", backTopRight.X, backTopRight.Y, backTopRight.Z);
//m_log.InfoFormat("corner 7 is {0} {1} {2}", backBottomRight.X, backBottomRight.Y, backBottomRight.Z);
//m_log.InfoFormat("corner 8 is {0} {1} {2}", backBottomLeft.X, backBottomLeft.Y, backBottomLeft.Z);
if (frontTopRight.X > maxX)
maxX = frontTopRight.X;
if (frontTopLeft.X > maxX)
maxX = frontTopLeft.X;
if (frontBottomRight.X > maxX)
maxX = frontBottomRight.X;
if (frontBottomLeft.X > maxX)
maxX = frontBottomLeft.X;
if (backTopRight.X > maxX)
maxX = backTopRight.X;
if (backTopLeft.X > maxX)
maxX = backTopLeft.X;
if (backBottomRight.X > maxX)
maxX = backBottomRight.X;
if (backBottomLeft.X > maxX)
maxX = backBottomLeft.X;
if (frontTopRight.X < minX)
minX = frontTopRight.X;
if (frontTopLeft.X < minX)
minX = frontTopLeft.X;
if (frontBottomRight.X < minX)
minX = frontBottomRight.X;
if (frontBottomLeft.X < minX)
minX = frontBottomLeft.X;
if (backTopRight.X < minX)
minX = backTopRight.X;
if (backTopLeft.X < minX)
minX = backTopLeft.X;
if (backBottomRight.X < minX)
minX = backBottomRight.X;
if (backBottomLeft.X < minX)
minX = backBottomLeft.X;
//
if (frontTopRight.Y > maxY)
maxY = frontTopRight.Y;
if (frontTopLeft.Y > maxY)
maxY = frontTopLeft.Y;
if (frontBottomRight.Y > maxY)
maxY = frontBottomRight.Y;
if (frontBottomLeft.Y > maxY)
maxY = frontBottomLeft.Y;
if (backTopRight.Y > maxY)
maxY = backTopRight.Y;
if (backTopLeft.Y > maxY)
maxY = backTopLeft.Y;
if (backBottomRight.Y > maxY)
maxY = backBottomRight.Y;
if (backBottomLeft.Y > maxY)
maxY = backBottomLeft.Y;
if (frontTopRight.Y < minY)
minY = frontTopRight.Y;
if (frontTopLeft.Y < minY)
minY = frontTopLeft.Y;
if (frontBottomRight.Y < minY)
minY = frontBottomRight.Y;
if (frontBottomLeft.Y < minY)
minY = frontBottomLeft.Y;
if (backTopRight.Y < minY)
minY = backTopRight.Y;
if (backTopLeft.Y < minY)
minY = backTopLeft.Y;
if (backBottomRight.Y < minY)
minY = backBottomRight.Y;
if (backBottomLeft.Y < minY)
minY = backBottomLeft.Y;
//
if (frontTopRight.Z > maxZ)
maxZ = frontTopRight.Z;
if (frontTopLeft.Z > maxZ)
maxZ = frontTopLeft.Z;
if (frontBottomRight.Z > maxZ)
maxZ = frontBottomRight.Z;
if (frontBottomLeft.Z > maxZ)
maxZ = frontBottomLeft.Z;
if (backTopRight.Z > maxZ)
maxZ = backTopRight.Z;
if (backTopLeft.Z > maxZ)
maxZ = backTopLeft.Z;
if (backBottomRight.Z > maxZ)
maxZ = backBottomRight.Z;
if (backBottomLeft.Z > maxZ)
maxZ = backBottomLeft.Z;
if (frontTopRight.Z < minZ)
minZ = frontTopRight.Z;
if (frontTopLeft.Z < minZ)
minZ = frontTopLeft.Z;
if (frontBottomRight.Z < minZ)
minZ = frontBottomRight.Z;
if (frontBottomLeft.Z < minZ)
minZ = frontBottomLeft.Z;
if (backTopRight.Z < minZ)
minZ = backTopRight.Z;
if (backTopLeft.Z < minZ)
minZ = backTopLeft.Z;
if (backBottomRight.Z < minZ)
minZ = backBottomRight.Z;
if (backBottomLeft.Z < minZ)
minZ = backBottomLeft.Z;
}
}
lockPartsForRead(false);
}
public Vector3 GetAxisAlignedBoundingBox(out float offsetHeight)
{
float minX;
float maxX;
float minY;
float maxY;
float minZ;
float maxZ;
GetAxisAlignedBoundingBoxRaw(out minX, out maxX, out minY, out maxY, out minZ, out maxZ);
Vector3 boundingBox = new Vector3(maxX - minX, maxY - minY, maxZ - minZ);
offsetHeight = 0;
float lower = (minZ * -1);
if (lower > maxZ)
{
offsetHeight = lower - (boundingBox.Z / 2);
}
else if (maxZ > lower)
{
offsetHeight = maxZ - (boundingBox.Z / 2);
offsetHeight *= -1;
}
// m_log.InfoFormat("BoundingBox is {0} , {1} , {2} ", boundingBox.X, boundingBox.Y, boundingBox.Z);
return boundingBox;
}
#endregion
public void SaveScriptedState(XmlTextWriter writer)
{
SaveScriptedState(writer, false);
}
public void SaveScriptedState(XmlTextWriter writer, bool oldIDs)
{
XmlDocument doc = new XmlDocument();
Dictionary states = new Dictionary();
// Capture script state while holding the lock
lockPartsForRead(true);
{
foreach (SceneObjectPart part in m_parts.Values)
{
Dictionary pstates = part.Inventory.GetScriptStates(oldIDs);
foreach (UUID itemid in pstates.Keys)
{
states.Add(itemid, pstates[itemid]);
}
}
}
lockPartsForRead(false);
if (states.Count > 0)
{
// Now generate the necessary XML wrappings
writer.WriteStartElement(String.Empty, "GroupScriptStates", String.Empty);
foreach (UUID itemid in states.Keys)
{
doc.LoadXml(states[itemid]);
writer.WriteStartElement(String.Empty, "SavedScriptState", String.Empty);
writer.WriteAttributeString(String.Empty, "UUID", String.Empty, itemid.ToString());
writer.WriteRaw(doc.DocumentElement.OuterXml); // Writes ScriptState element
writer.WriteEndElement(); // End of SavedScriptState
}
writer.WriteEndElement(); // End of GroupScriptStates
}
}
///
/// Add the avatar to this linkset (avatar is sat).
///
///
public void AddAvatar(UUID agentID)
{
ScenePresence presence;
if (m_scene.TryGetScenePresence(agentID, out presence))
{
if (!m_linkedAvatars.Contains(presence))
{
m_linkedAvatars.Add(presence);
}
}
}
///
/// Delete the avatar from this linkset (avatar is unsat).
///
///
public void DeleteAvatar(UUID agentID)
{
ScenePresence presence;
if (m_scene.TryGetScenePresence(agentID, out presence))
{
if (m_linkedAvatars.Contains(presence))
{
m_linkedAvatars.Remove(presence);
}
}
}
///
/// Returns the list of linked presences (avatars sat on this group)
///
///
public List GetLinkedAvatars()
{
return m_linkedAvatars;
}
///
/// Attach this scene object to the given avatar.
///
///
///
///
public void AttachToAgent(UUID agentID, uint attachmentpoint, Vector3 AttachOffset, bool silent)
{
ScenePresence avatar = m_scene.GetScenePresence(agentID);
if (avatar != null)
{
// don't attach attachments to child agents
if (avatar.IsChildAgent) return;
// m_log.DebugFormat("[SOG]: Adding attachment {0} to avatar {1}", Name, avatar.Name);
DetachFromBackup();
// Remove from database and parcel prim count
m_scene.DeleteFromStorage(UUID);
m_scene.EventManager.TriggerParcelPrimCountTainted();
m_rootPart.AttachedAvatar = agentID;
//Anakin Lohner bug #3839
foreach (SceneObjectPart p in m_parts.Values)
{
p.AttachedAvatar = agentID;
}
if (m_rootPart.PhysActor != null)
{
m_scene.PhysicsScene.RemovePrim(m_rootPart.PhysActor);
m_rootPart.PhysActor = null;
}
AbsolutePosition = AttachOffset;
m_rootPart.AttachedPos = AttachOffset;
m_rootPart.IsAttachment = true;
m_rootPart.SetParentLocalId(avatar.LocalId);
SetAttachmentPoint(Convert.ToByte(attachmentpoint));
avatar.AddAttachment(this);
if (!silent)
{
// Killing it here will cause the client to deselect it
// It then reappears on the avatar, deselected
// through the full update below
//
if (IsSelected)
{
m_scene.SendKillObject(m_rootPart.LocalId);
}
IsSelected = false; // fudge....
ScheduleGroupForFullUpdate();
}
}
else
{
m_log.WarnFormat(
"[SOG]: Tried to add attachment {0} to avatar with UUID {1} in region {2} but the avatar is not present",
UUID, agentID, Scene.RegionInfo.RegionName);
}
}
public byte GetAttachmentPoint()
{
return m_rootPart.Shape.State;
}
public void ClearPartAttachmentData()
{
SetAttachmentPoint((Byte)0);
}
public void DetachToGround()
{
ScenePresence avatar = m_scene.GetScenePresence(m_rootPart.AttachedAvatar);
if (avatar == null)
return;
avatar.RemoveAttachment(this);
Vector3 detachedpos = new Vector3(127f,127f,127f);
if (avatar == null)
return;
detachedpos = avatar.AbsolutePosition;
RootPart.FromItemID = UUID.Zero;
AbsolutePosition = detachedpos;
m_rootPart.AttachedAvatar = UUID.Zero;
//Anakin Lohner bug #3839
foreach (SceneObjectPart p in m_parts.Values)
{
p.AttachedAvatar = UUID.Zero;
}
m_rootPart.SetParentLocalId(0);
SetAttachmentPoint((byte)0);
m_rootPart.ApplyPhysics(m_rootPart.GetEffectiveObjectFlags(), m_rootPart.VolumeDetectActive, m_scene.m_physicalPrim);
HasGroupChanged = true;
RootPart.Rezzed = DateTime.Now;
RootPart.RemFlag(PrimFlags.TemporaryOnRez);
AttachToBackup();
m_scene.EventManager.TriggerParcelPrimCountTainted();
m_rootPart.ScheduleFullUpdate();
m_rootPart.ClearUndoState();
}
public void DetachToInventoryPrep()
{
ScenePresence avatar = m_scene.GetScenePresence(m_rootPart.AttachedAvatar);
//Vector3 detachedpos = new Vector3(127f, 127f, 127f);
if (avatar != null)
{
//detachedpos = avatar.AbsolutePosition;
avatar.RemoveAttachment(this);
}
m_rootPart.AttachedAvatar = UUID.Zero;
//Anakin Lohner bug #3839
foreach (SceneObjectPart p in m_parts.Values)
{
p.AttachedAvatar = UUID.Zero;
}
m_rootPart.SetParentLocalId(0);
//m_rootPart.SetAttachmentPoint((byte)0);
m_rootPart.IsAttachment = false;
AbsolutePosition = m_rootPart.AttachedPos;
//m_rootPart.ApplyPhysics(m_rootPart.GetEffectiveObjectFlags(), m_scene.m_physicalPrim);
//AttachToBackup();
//m_rootPart.ScheduleFullUpdate();
}
///
///
///
///
private void SetPartAsNonRoot(SceneObjectPart part)
{
part.ParentID = m_rootPart.LocalId;
part.ClearUndoState();
}
public override void UpdateMovement()
{
lockPartsForRead(true);
{
foreach (SceneObjectPart part in m_parts.Values)
{
part.UpdateMovement();
}
}
lockPartsForRead(false);
}
public ushort GetTimeDilation()
{
return Utils.FloatToUInt16(m_scene.TimeDilation, 0.0f, 1.0f);
}
///
/// Added as a way for the storage provider to reset the scene,
/// most likely a better way to do this sort of thing but for now...
///
///
public void SetScene(Scene scene)
{
m_scene = scene;
}
///
/// Set a part to act as the root part for this scene object
///
///
public void SetRootPart(SceneObjectPart part)
{
if (part == null)
throw new ArgumentNullException("Cannot give SceneObjectGroup a null root SceneObjectPart");
part.SetParent(this);
m_rootPart = part;
if (!IsAttachment)
part.ParentID = 0;
part.LinkNum = 0;
// No locking required since the SOG should not be in the scene yet - one can't change root parts after
// the scene object has been attached to the scene
m_parts.Add(m_rootPart.UUID, m_rootPart);
}
///
/// Add a new part to this scene object. The part must already be correctly configured.
///
///
public void AddPart(SceneObjectPart part)
{
lockPartsForWrite(true);
{
part.SetParent(this);
m_parts.Add(part.UUID, part);
part.LinkNum = m_parts.Count;
if (part.LinkNum == 2 && RootPart != null)
RootPart.LinkNum = 1;
}
lockPartsForWrite(false);
}
///
/// Make sure that every non root part has the proper parent root part local id
///
private void UpdateParentIDs()
{
lockPartsForRead(true);
{
foreach (SceneObjectPart part in m_parts.Values)
{
if (part.UUID != m_rootPart.UUID)
{
part.ParentID = m_rootPart.LocalId;
}
}
}
lockPartsForRead(false);
}
public void RegenerateFullIDs()
{
lockPartsForRead(true);
{
foreach (SceneObjectPart part in m_parts.Values)
{
part.UUID = UUID.Random();
}
}
lockPartsForRead(false);
}
// helper provided for parts.
public int GetSceneMaxUndo()
{
if (m_scene != null)
return m_scene.MaxUndoCount;
return 5;
}
// justincc: I don't believe this hack is needed any longer, especially since the physics
// parts of set AbsolutePosition were already commented out. By changing HasGroupChanged to false
// this method was preventing proper reload of scene objects.
// dahlia: I had to uncomment it, without it meshing was failing on some prims and objects
// at region startup
// teravus: After this was removed from the linking algorithm, Linked prims no longer collided
// properly when non-physical if they havn't been moved. This breaks ALL builds.
// see: http://opensimulator.org/mantis/view.php?id=3108
// Here's the deal, this is ABSOLUTELY CRITICAL so the physics scene gets the update about the
// position of linkset prims. IF YOU CHANGE THIS, YOU MUST TEST colliding with just linked and
// unmoved prims! As soon as you move a Prim/group, it will collide properly because Absolute
// Position has been set!
public void ResetChildPrimPhysicsPositions()
{
AbsolutePosition = AbsolutePosition; // could someone in the know please explain how this works?
// teravus: AbsolutePosition is NOT a normal property!
// the code in the getter of AbsolutePosition is significantly different then the code in the setter!
}
public UUID GetPartsFullID(uint localID)
{
SceneObjectPart part = GetChildPart(localID);
if (part != null)
{
return part.UUID;
}
return UUID.Zero;
}
public void ObjectGrabHandler(uint localId, Vector3 offsetPos, IClientAPI remoteClient)
{
if (m_rootPart.LocalId == localId)
{
OnGrabGroup(offsetPos, remoteClient);
}
else
{
SceneObjectPart part = GetChildPart(localId);
OnGrabPart(part, offsetPos, remoteClient);
}
}
public virtual void OnGrabPart(SceneObjectPart part, Vector3 offsetPos, IClientAPI remoteClient)
{
part.StoreUndoState(UndoType.STATE_PRIM_ALL);
part.OnGrab(offsetPos, remoteClient);
}
public virtual void OnGrabGroup(Vector3 offsetPos, IClientAPI remoteClient)
{
m_scene.EventManager.TriggerGroupGrab(UUID, offsetPos, remoteClient.AgentId);
}
///
/// Delete this group from its scene and tell all the scene presences about that deletion.
///
/// Broadcast deletions to all clients.
public void DeleteGroup(bool silent)
{
// We need to keep track of this state in case this group is still queued for backup.
m_isDeleted = true;
DetachFromBackup();
lockPartsForRead(true);
List values = new List(m_parts.Values);
lockPartsForRead(false);
foreach (SceneObjectPart part in values)
{
// part.Inventory.RemoveScriptInstances();
Scene.ForEachScenePresence(delegate (ScenePresence sp)
{
if (sp.ParentID == LocalId)
{
sp.StandUp();
}
if (!silent)
{
part.UpdateFlag = 0;
if (part == m_rootPart)
sp.ControllingClient.SendKillObject(m_regionHandle, part.LocalId);
}
});
}
}
public void AddScriptLPS(int count)
{
if (scriptScore + count >= float.MaxValue - count)
scriptScore = 0;
scriptScore += (float)count;
SceneGraph d = m_scene.SceneGraph;
d.AddToScriptLPS(count);
}
public void AddActiveScriptCount(int count)
{
SceneGraph d = m_scene.SceneGraph;
d.AddActiveScripts(count);
}
public void aggregateScriptEvents()
{
uint objectflagupdate=(uint)RootPart.GetEffectiveObjectFlags();
scriptEvents aggregateScriptEvents=0;
lockPartsForRead(true);
{
foreach (SceneObjectPart part in m_parts.Values)
{
if (part == null)
continue;
if (part != RootPart)
part.ObjectFlags = objectflagupdate;
aggregateScriptEvents |= part.AggregateScriptEvents;
}
}
lockPartsForRead(false);
m_scriptListens_atTarget = ((aggregateScriptEvents & scriptEvents.at_target) != 0);
m_scriptListens_notAtTarget = ((aggregateScriptEvents & scriptEvents.not_at_target) != 0);
if (!m_scriptListens_atTarget && !m_scriptListens_notAtTarget)
{
lock (m_targets)
m_targets.Clear();
m_scene.RemoveGroupTarget(this);
}
m_scriptListens_atRotTarget = ((aggregateScriptEvents & scriptEvents.at_rot_target) != 0);
m_scriptListens_notAtRotTarget = ((aggregateScriptEvents & scriptEvents.not_at_rot_target) != 0);
if (!m_scriptListens_atRotTarget && !m_scriptListens_notAtRotTarget)
{
lock (m_rotTargets)
m_rotTargets.Clear();
m_scene.RemoveGroupTarget(this);
}
ScheduleGroupForFullUpdate();
}
public void SetText(string text, Vector3 color, double alpha)
{
Color = Color.FromArgb(0xff - (int) (alpha * 0xff),
(int) (color.X * 0xff),
(int) (color.Y * 0xff),
(int) (color.Z * 0xff));
Text = text;
HasGroupChanged = true;
m_rootPart.ScheduleFullUpdate();
}
///
/// Apply physics to this group
///
///
public void ApplyPhysics(bool m_physicalPrim)
{
lockPartsForRead(true);
if (m_parts.Count > 1)
{
List values = new List(m_parts.Values);
lockPartsForRead(false);
m_rootPart.ApplyPhysics(m_rootPart.GetEffectiveObjectFlags(), m_rootPart.VolumeDetectActive, m_physicalPrim);
foreach (SceneObjectPart part in values)
{
if (part.LocalId != m_rootPart.LocalId)
{
part.ApplyPhysics(m_rootPart.GetEffectiveObjectFlags(), part.VolumeDetectActive, m_physicalPrim);
}
}
// Hack to get the physics scene geometries in the right spot
ResetChildPrimPhysicsPositions();
}
else
{
lockPartsForRead(false);
m_rootPart.ApplyPhysics(m_rootPart.GetEffectiveObjectFlags(), m_rootPart.VolumeDetectActive, m_physicalPrim);
}
}
public void SetOwnerId(UUID userId)
{
ForEachPart(delegate(SceneObjectPart part)
{
part.OwnerID = userId;
});
}
public void ForEachPart(Action whatToDo)
{
lockPartsForRead(true);
List values = new List(m_parts.Values);
lockPartsForRead(false);
foreach (SceneObjectPart part in values)
{
whatToDo(part);
}
}
#region Events
///
/// Processes backup.
///
///
public virtual void ProcessBackup(IRegionDataStore datastore, bool forcedBackup)
{
if (!m_isBackedUp)
return;
// Since this is the top of the section of call stack for backing up a particular scene object, don't let
// any exception propogate upwards.
if (IsDeleted || UUID == UUID.Zero)
return;
try
{
if (!m_scene.ShuttingDown || // if shutting down then there will be nothing to handle the return so leave till next restart
m_scene.LoginsDisabled || // We're starting up or doing maintenance, don't mess with things
m_scene.LoadingPrims) // Land may not be valid yet
{
ILandObject parcel = m_scene.LandChannel.GetLandObject(
m_rootPart.GroupPosition.X, m_rootPart.GroupPosition.Y);
if (parcel != null && parcel.LandData != null &&
parcel.LandData.OtherCleanTime != 0)
{
if (parcel.LandData.OwnerID != OwnerID &&
(parcel.LandData.GroupID != GroupID ||
parcel.LandData.GroupID == UUID.Zero))
{
if ((DateTime.UtcNow - RootPart.Rezzed).TotalMinutes >
parcel.LandData.OtherCleanTime)
{
DetachFromBackup();
m_log.InfoFormat("[SCENE]: Returning object {0} due to parcel auto return", RootPart.UUID.ToString());
m_scene.AddReturn(OwnerID, Name, AbsolutePosition, "parcel auto return");
m_scene.DeRezObject(null, RootPart.LocalId,
RootPart.GroupID, DeRezAction.Return, UUID.Zero);
return;
}
}
}
}
if (HasGroupChanged)
{
// don't backup while it's selected or you're asking for changes mid stream.
if ((isTimeToPersist()) || (forcedBackup))
{
// m_log.DebugFormat(
// "[SCENE]: Storing {0}, {1} in {2}",
// Name, UUID, m_scene.RegionInfo.RegionName);
SceneObjectGroup backup_group = Copy(false);
backup_group.RootPart.Velocity = RootPart.Velocity;
backup_group.RootPart.Acceleration = RootPart.Acceleration;
backup_group.RootPart.AngularVelocity = RootPart.AngularVelocity;
backup_group.RootPart.ParticleSystem = RootPart.ParticleSystem;
HasGroupChanged = false;
m_scene.EventManager.TriggerOnSceneObjectPreSave(backup_group, this);
datastore.StoreObject(backup_group, m_scene.RegionInfo.RegionID);
backup_group.ForEachPart(delegate(SceneObjectPart part)
{
part.Inventory.ProcessInventoryBackup(datastore);
});
backup_group = null;
}
// else
// {
// m_log.DebugFormat(
// "[SCENE]: Did not update persistence of object {0} {1}, selected = {2}",
// Name, UUID, IsSelected);
// }
}
}
catch (Exception e)
{
m_log.ErrorFormat(
"[SCENE]: Storing of {0}, {1} in {2} failed with exception {3}\n\t{4}",
Name, UUID, m_scene.RegionInfo.RegionName, e, e.StackTrace);
}
}
#endregion
public void SendFullUpdateToClient(IClientAPI remoteClient)
{
RootPart.SendFullUpdate(
remoteClient, m_scene.Permissions.GenerateClientFlags(remoteClient.AgentId, RootPart.UUID));
lockPartsForRead(true);
{
foreach (SceneObjectPart part in m_parts.Values)
{
if (part != RootPart)
part.SendFullUpdate(
remoteClient, m_scene.Permissions.GenerateClientFlags(remoteClient.AgentId, part.UUID));
}
}
lockPartsForRead(false);
}
#region Copying
///
/// Duplicates this object, including operations such as physics set up and attaching to the backup event.
///
/// True if the duplicate will immediately be in the scene, false otherwise
///
public SceneObjectGroup Copy(bool userExposed)
{
SceneObjectGroup dupe;
try
{
m_dupeInProgress = true;
dupe = (SceneObjectGroup)MemberwiseClone();
dupe.m_isBackedUp = false;
dupe.m_parts = new Dictionary();
// Warning, The following code related to previousAttachmentStatus is needed so that clones of
// attachments do not bordercross while they're being duplicated. This is hacktastic!
// Normally, setting AbsolutePosition will bordercross a prim if it's outside the region!
// unless IsAttachment is true!, so to prevent border crossing, we save it's attachment state
// (which should be false anyway) set it as an Attachment and then set it's Absolute Position,
// then restore it's attachment state
// This is only necessary when userExposed is false!
bool previousAttachmentStatus = dupe.RootPart.IsAttachment;
if (!userExposed)
dupe.RootPart.IsAttachment = true;
dupe.AbsolutePosition = new Vector3(AbsolutePosition.X, AbsolutePosition.Y, AbsolutePosition.Z);
if (!userExposed)
{
dupe.RootPart.IsAttachment = previousAttachmentStatus;
}
dupe.CopyRootPart(m_rootPart, OwnerID, GroupID, userExposed);
dupe.m_rootPart.LinkNum = m_rootPart.LinkNum;
if (userExposed)
dupe.m_rootPart.TrimPermissions();
/// may need to create a new Physics actor.
if (dupe.RootPart.PhysActor != null && userExposed)
{
PrimitiveBaseShape pbs = dupe.RootPart.Shape;
dupe.RootPart.PhysActor = m_scene.PhysicsScene.AddPrimShape(
dupe.RootPart.Name,
pbs,
dupe.RootPart.AbsolutePosition,
dupe.RootPart.Scale,
dupe.RootPart.RotationOffset,
dupe.RootPart.PhysActor.IsPhysical);
dupe.RootPart.PhysActor.LocalID = dupe.RootPart.LocalId;
dupe.RootPart.DoPhysicsPropertyUpdate(dupe.RootPart.PhysActor.IsPhysical, true);
}
lockPartsForRead(true);
List partList;
partList = new List(m_parts.Values);
lockPartsForRead(false);
partList.Sort(delegate(SceneObjectPart p1, SceneObjectPart p2)
{
return p1.LinkNum.CompareTo(p2.LinkNum);
}
);
foreach (SceneObjectPart part in partList)
{
if (part.UUID != m_rootPart.UUID)
{
SceneObjectPart newPart = dupe.CopyPart(part, OwnerID, GroupID, userExposed);
newPart.LinkNum = part.LinkNum;
}
// Need to duplicate the physics actor as well
if (part.PhysActor != null && userExposed)
{
PrimitiveBaseShape pbs = part.Shape;
part.PhysActor
= m_scene.PhysicsScene.AddPrimShape(
part.Name,
pbs,
part.AbsolutePosition,
part.Scale,
part.RotationOffset,
part.PhysActor.IsPhysical);
part.PhysActor.LocalID = part.LocalId;
part.DoPhysicsPropertyUpdate(part.PhysActor.IsPhysical, true);
}
}
if (userExposed)
{
dupe.UpdateParentIDs();
dupe.HasGroupChanged = true;
dupe.AttachToBackup();
ScheduleGroupForFullUpdate();
}
}
finally
{
m_dupeInProgress = false;
}
return dupe;
}
///
///
///
///
///
///
public void CopyRootPart(SceneObjectPart part, UUID cAgentID, UUID cGroupID, bool userExposed)
{
SetRootPart(part.Copy(m_scene.AllocateLocalId(), OwnerID, GroupID, m_parts.Count, userExposed));
}
public void ScriptSetPhysicsStatus(bool UsePhysics)
{
bool IsTemporary = ((RootPart.Flags & PrimFlags.TemporaryOnRez) != 0);
bool IsPhantom = ((RootPart.Flags & PrimFlags.Phantom) != 0);
bool IsVolumeDetect = RootPart.VolumeDetectActive;
UpdatePrimFlags(RootPart.LocalId, UsePhysics, IsTemporary, IsPhantom, IsVolumeDetect);
}
public void ScriptSetTemporaryStatus(bool TemporaryStatus)
{
bool UsePhysics = ((RootPart.Flags & PrimFlags.Physics) != 0);
bool IsPhantom = ((RootPart.Flags & PrimFlags.Phantom) != 0);
bool IsVolumeDetect = RootPart.VolumeDetectActive;
UpdatePrimFlags(RootPart.LocalId, UsePhysics, TemporaryStatus, IsPhantom, IsVolumeDetect);
}
public void ScriptSetPhantomStatus(bool PhantomStatus)
{
bool UsePhysics = ((RootPart.Flags & PrimFlags.Physics) != 0);
bool IsTemporary = ((RootPart.Flags & PrimFlags.TemporaryOnRez) != 0);
bool IsVolumeDetect = RootPart.VolumeDetectActive;
UpdatePrimFlags(RootPart.LocalId, UsePhysics, IsTemporary, PhantomStatus, IsVolumeDetect);
}
public void ScriptSetVolumeDetect(bool VDStatus)
{
bool UsePhysics = ((RootPart.Flags & PrimFlags.Physics) != 0);
bool IsTemporary = ((RootPart.Flags & PrimFlags.TemporaryOnRez) != 0);
bool IsPhantom = ((RootPart.Flags & PrimFlags.Phantom) != 0);
UpdatePrimFlags(RootPart.LocalId, UsePhysics, IsTemporary, IsPhantom, VDStatus);
/*
ScriptSetPhantomStatus(false); // What ever it was before, now it's not phantom anymore
if (PhysActor != null) // Should always be the case now
{
PhysActor.SetVolumeDetect(param);
}
if (param != 0)
AddFlag(PrimFlags.Phantom);
ScheduleFullUpdate();
*/
}
public void applyImpulse(Vector3 impulse)
{
// We check if rootpart is null here because scripts don't delete if you delete the host.
// This means that unfortunately, we can pass a null physics actor to Simulate!
// Make sure we don't do that!
SceneObjectPart rootpart = m_rootPart;
if (rootpart != null)
{
if (IsAttachment)
{
ScenePresence avatar = m_scene.GetScenePresence(rootpart.AttachedAvatar);
if (avatar != null)
{
avatar.PushForce(impulse);
}
}
else
{
if (rootpart.PhysActor != null)
{
rootpart.PhysActor.AddForce(impulse, true);
m_scene.PhysicsScene.AddPhysicsActorTaint(rootpart.PhysActor);
}
}
}
}
public void applyAngularImpulse(Vector3 impulse)
{
// We check if rootpart is null here because scripts don't delete if you delete the host.
// This means that unfortunately, we can pass a null physics actor to Simulate!
// Make sure we don't do that!
SceneObjectPart rootpart = m_rootPart;
if (rootpart != null)
{
if (rootpart.PhysActor != null)
{
if (!IsAttachment)
{
rootpart.PhysActor.AddAngularForce(impulse, true);
m_scene.PhysicsScene.AddPhysicsActorTaint(rootpart.PhysActor);
}
}
}
}
public void setAngularImpulse(Vector3 impulse)
{
// We check if rootpart is null here because scripts don't delete if you delete the host.
// This means that unfortunately, we can pass a null physics actor to Simulate!
// Make sure we don't do that!
SceneObjectPart rootpart = m_rootPart;
if (rootpart != null)
{
if (rootpart.PhysActor != null)
{
if (!IsAttachment)
{
rootpart.PhysActor.Torque = impulse;
m_scene.PhysicsScene.AddPhysicsActorTaint(rootpart.PhysActor);
}
}
}
}
public Vector3 GetTorque()
{
// We check if rootpart is null here because scripts don't delete if you delete the host.
// This means that unfortunately, we can pass a null physics actor to Simulate!
// Make sure we don't do that!
SceneObjectPart rootpart = m_rootPart;
if (rootpart != null)
{
if (rootpart.PhysActor != null)
{
if (!IsAttachment)
{
Vector3 torque = rootpart.PhysActor.Torque;
return torque;
}
}
}
return Vector3.Zero;
}
public void moveToTarget(Vector3 target, float tau)
{
SceneObjectPart rootpart = m_rootPart;
if (rootpart != null)
{
if (IsAttachment)
{
ScenePresence avatar = m_scene.GetScenePresence(rootpart.AttachedAvatar);
if (avatar != null)
{
List coords = new List();
uint regionX = 0;
uint regionY = 0;
Utils.LongToUInts(Scene.RegionInfo.RegionHandle, out regionX, out regionY);
target.X += regionX;
target.Y += regionY;
coords.Add(target.X.ToString());
coords.Add(target.Y.ToString());
coords.Add(target.Z.ToString());
avatar.DoMoveToPosition(avatar, "", coords);
}
}
else
{
if (rootpart.PhysActor != null)
{
rootpart.PhysActor.PIDTarget = target;
rootpart.PhysActor.PIDTau = tau;
rootpart.PhysActor.PIDActive = true;
}
}
}
}
public void stopMoveToTarget()
{
SceneObjectPart rootpart = m_rootPart;
if (rootpart != null)
{
if (rootpart.PhysActor != null)
{
rootpart.PhysActor.PIDActive = false;
}
}
}
public void rotLookAt(Quaternion target, float strength, float damping)
{
SceneObjectPart rootpart = m_rootPart;
if (rootpart != null)
{
if (IsAttachment)
{
/*
ScenePresence avatar = m_scene.GetScenePresence(rootpart.AttachedAvatar);
if (avatar != null)
{
Rotate the Av?
} */
}
else
{
if (rootpart.PhysActor != null)
{ // APID must be implemented in your physics system for this to function.
rootpart.PhysActor.APIDTarget = new Quaternion(target.X, target.Y, target.Z, target.W);
rootpart.PhysActor.APIDStrength = strength;
rootpart.PhysActor.APIDDamping = damping;
rootpart.PhysActor.APIDActive = true;
}
}
}
}
public void stopLookAt()
{
SceneObjectPart rootpart = m_rootPart;
if (rootpart != null)
{
if (rootpart.PhysActor != null)
{ // APID must be implemented in your physics system for this to function.
rootpart.PhysActor.APIDActive = false;
}
}
}
///
/// Uses a PID to attempt to clamp the object on the Z axis at the given height over tau seconds.
///
/// Height to hover. Height of zero disables hover.
/// Determines what the height is relative to
/// Number of seconds over which to reach target
public void SetHoverHeight(float height, PIDHoverType hoverType, float tau)
{
SceneObjectPart rootpart = m_rootPart;
if (rootpart != null)
{
if (rootpart.PhysActor != null)
{
if (height != 0f)
{
rootpart.PhysActor.PIDHoverHeight = height;
rootpart.PhysActor.PIDHoverType = hoverType;
rootpart.PhysActor.PIDTau = tau;
rootpart.PhysActor.PIDHoverActive = true;
}
else
{
rootpart.PhysActor.PIDHoverActive = false;
}
}
}
}
///
/// Set the owner of the root part.
///
///
///
///
public void SetRootPartOwner(SceneObjectPart part, UUID cAgentID, UUID cGroupID)
{
part.LastOwnerID = part.OwnerID;
part.OwnerID = cAgentID;
part.GroupID = cGroupID;
if (part.OwnerID != cAgentID)
{
// Apply Next Owner Permissions if we're not bypassing permissions
if (!m_scene.Permissions.BypassPermissions())
ApplyNextOwnerPermissions();
}
part.ScheduleFullUpdate();
}
///
/// Make a copy of the given part.
///
///
///
///
public SceneObjectPart CopyPart(SceneObjectPart part, UUID cAgentID, UUID cGroupID, bool userExposed)
{
SceneObjectPart newPart = part.Copy(m_scene.AllocateLocalId(), OwnerID, GroupID, m_parts.Count, userExposed);
newPart.SetParent(this);
lockPartsForWrite(true);
{
m_parts.Add(newPart.UUID, newPart);
}
lockPartsForWrite(false);
SetPartAsNonRoot(newPart);
return newPart;
}
///
/// Reset the UUIDs for all the prims that make up this group.
///
/// This is called by methods which want to add a new group to an existing scene, in order
/// to ensure that there are no clashes with groups already present.
///
public void ResetIDs()
{
// As this is only ever called for prims which are not currently part of the scene (and hence
// not accessible by clients), there should be no need to lock
List partsList = new List(m_parts.Values);
m_parts.Clear();
foreach (SceneObjectPart part in partsList)
{
part.ResetIDs(part.LinkNum); // Don't change link nums
m_parts.Add(part.UUID, part);
}
}
///
///
///
///
public void ServiceObjectPropertiesFamilyRequest(IClientAPI remoteClient, UUID AgentID, uint RequestFlags)
{
remoteClient.SendObjectPropertiesFamilyData(RequestFlags, RootPart.UUID, RootPart.OwnerID, RootPart.GroupID, RootPart.BaseMask,
RootPart.OwnerMask, RootPart.GroupMask, RootPart.EveryoneMask, RootPart.NextOwnerMask,
RootPart.OwnershipCost, RootPart.ObjectSaleType, RootPart.SalePrice, RootPart.Category,
RootPart.CreatorID, RootPart.Name, RootPart.Description);
}
public void SetPartOwner(SceneObjectPart part, UUID cAgentID, UUID cGroupID)
{
part.OwnerID = cAgentID;
part.GroupID = cGroupID;
}
#endregion
#region Scheduling
public override void Update()
{
// Check that the group was not deleted before the scheduled update
// FIXME: This is merely a temporary measure to reduce the incidence of failure when
// an object has been deleted from a scene before update was processed.
// A more fundamental overhaul of the update mechanism is required to eliminate all
// the race conditions.
if (m_isDeleted)
return;
// Even temporary objects take part in physics (e.g. temp-on-rez bullets)
//if ((RootPart.Flags & PrimFlags.TemporaryOnRez) != 0)
// return;
lockPartsForRead(true);
{
bool UsePhysics = ((RootPart.Flags & PrimFlags.Physics) != 0);
if (UsePhysics && !AbsolutePosition.ApproxEquals(lastPhysGroupPos, 0.02f))
{
m_rootPart.UpdateFlag = 1;
lastPhysGroupPos = AbsolutePosition;
}
if (UsePhysics && !GroupRotation.ApproxEquals(lastPhysGroupRot, 0.1f))
{
m_rootPart.UpdateFlag = 1;
lastPhysGroupRot = GroupRotation;
}
foreach (SceneObjectPart part in m_parts.Values)
{
if (!IsSelected)
part.UpdateLookAt();
part.SendScheduledUpdates();
}
}
lockPartsForRead(false);
}
public void ScheduleFullUpdateToAvatar(ScenePresence presence)
{
// m_log.DebugFormat("[SOG]: Scheduling full update for {0} {1} just to avatar {2}", Name, UUID, presence.Name);
RootPart.AddFullUpdateToAvatar(presence);
lockPartsForRead(true);
{
foreach (SceneObjectPart part in m_parts.Values)
{
if (part != RootPart)
part.AddFullUpdateToAvatar(presence);
}
}
lockPartsForRead(false);
}
public void ScheduleTerseUpdateToAvatar(ScenePresence presence)
{
lockPartsForRead(true);
foreach (SceneObjectPart part in m_parts.Values)
{
part.AddTerseUpdateToAvatar(presence);
}
lockPartsForRead(false);
}
///
/// Schedule a full update for this scene object
///
public void ScheduleGroupForFullUpdate()
{
// if (IsAttachment)
// m_log.DebugFormat("[SOG]: Scheduling full update for {0} {1}", Name, LocalId);
checkAtTargets();
RootPart.ScheduleFullUpdate();
lockPartsForRead(true);
{
foreach (SceneObjectPart part in m_parts.Values)
{
if (part != RootPart)
part.ScheduleFullUpdate();
}
}
lockPartsForRead(false);
}
///
/// Schedule a terse update for this scene object
///
public void ScheduleGroupForTerseUpdate()
{
lockPartsForRead(true);
foreach (SceneObjectPart part in m_parts.Values)
{
part.ScheduleTerseUpdate();
}
lockPartsForRead(false);
}
///
/// Immediately send a full update for this scene object.
///
public void SendGroupFullUpdate()
{
if (IsDeleted)
return;
// m_log.DebugFormat("[SOG]: Sending immediate full group update for {0} {1}", Name, UUID);
RootPart.SendFullUpdateToAllClients();
lockPartsForRead(true);
{
foreach (SceneObjectPart part in m_parts.Values)
{
if (part != RootPart)
part.SendFullUpdateToAllClients();
}
}
lockPartsForRead(false);
}
///
/// Immediately send an update for this scene object's root prim only.
/// This is for updates regarding the object as a whole, and none of its parts in particular.
/// Note: this may not be used by opensim (it probably should) but it's used by
/// external modules.
///
public void SendGroupRootTerseUpdate()
{
if (IsDeleted)
return;
RootPart.SendTerseUpdateToAllClients();
}
public void QueueForUpdateCheck()
{
if (m_scene == null) // Need to check here as it's null during object creation
return;
m_scene.SceneGraph.AddToUpdateList(this);
}
///
/// Immediately send a terse update for this scene object.
///
public void SendGroupTerseUpdate()
{
if (IsDeleted)
return;
lockPartsForRead(true);
{
foreach (SceneObjectPart part in m_parts.Values)
{
part.SendTerseUpdateToAllClients();
}
}
lockPartsForRead(false);
}
#endregion
#region SceneGroupPart Methods
///
/// Get the child part by LinkNum
///
///
/// null if no child part with that linknum or child part
public SceneObjectPart GetLinkNumPart(int linknum)
{
lockPartsForRead(true);
{
foreach (SceneObjectPart part in m_parts.Values)
{
if (part.LinkNum == linknum)
{
lockPartsForRead(false);
return part;
}
}
}
lockPartsForRead(false);
return null;
}
///
/// Get a part with a given UUID
///
///
/// null if a child part with the primID was not found
public SceneObjectPart GetChildPart(UUID primID)
{
SceneObjectPart childPart = null;
if (m_parts.ContainsKey(primID))
{
childPart = m_parts[primID];
}
return childPart;
}
///
/// Get a part with a given local ID
///
///
/// null if a child part with the local ID was not found
public SceneObjectPart GetChildPart(uint localID)
{
//m_log.DebugFormat("Entered looking for {0}", localID);
lockPartsForRead(true);
{
foreach (SceneObjectPart part in m_parts.Values)
{
//m_log.DebugFormat("Found {0}", part.LocalId);
if (part.LocalId == localID)
{
lockPartsForRead(false);
return part;
}
}
}
lockPartsForRead(false);
return null;
}
///
/// Does this group contain the child prim
/// should be able to remove these methods once we have a entity index in scene
///
///
///
public bool HasChildPrim(UUID primID)
{
if (m_parts.ContainsKey(primID))
{
return true;
}
return false;
}
///
/// Does this group contain the child prim
/// should be able to remove these methods once we have a entity index in scene
///
///
///
public bool HasChildPrim(uint localID)
{
//m_log.DebugFormat("Entered HasChildPrim looking for {0}", localID);
lockPartsForRead(true);
{
foreach (SceneObjectPart part in m_parts.Values)
{
//m_log.DebugFormat("Found {0}", part.LocalId);
if (part.LocalId == localID)
{
lockPartsForRead(false);
return true;
}
}
}
lockPartsForRead(false);
return false;
}
#endregion
#region Packet Handlers
///
/// Link the prims in a given group to this group
///
/// The group of prims which should be linked to this group
public void LinkToGroup(SceneObjectGroup objectGroup)
{
// Make sure we have sent any pending unlinks or stuff.
//if (objectGroup.RootPart.UpdateFlag > 0)
//{
// m_log.WarnFormat(
// "[SCENE OBJECT GROUP]: Forcing send of linkset {0}, {1} to {2}, {3} as its still waiting.",
// objectGroup.RootPart.Name, objectGroup.RootPart.UUID, RootPart.Name, RootPart.UUID);
// objectGroup.RootPart.SendScheduledUpdates();
//}
// m_log.DebugFormat(
// "[SCENE OBJECT GROUP]: Linking group with root part {0}, {1} to group with root part {2}, {3}",
// objectGroup.RootPart.Name, objectGroup.RootPart.UUID, RootPart.Name, RootPart.UUID);
SceneObjectPart linkPart = objectGroup.m_rootPart;
Vector3 oldGroupPosition = linkPart.GroupPosition;
Quaternion oldRootRotation = linkPart.RotationOffset;
linkPart.OffsetPosition = linkPart.GroupPosition - AbsolutePosition;
linkPart.GroupPosition = AbsolutePosition;
Vector3 axPos = linkPart.OffsetPosition;
Quaternion parentRot = m_rootPart.RotationOffset;
axPos *= Quaternion.Inverse(parentRot);
linkPart.OffsetPosition = axPos;
Quaternion oldRot = linkPart.RotationOffset;
Quaternion newRot = Quaternion.Inverse(parentRot) * oldRot;
linkPart.RotationOffset = newRot;
linkPart.ParentID = m_rootPart.LocalId;
if (m_rootPart.LinkNum == 0)
m_rootPart.LinkNum = 1;
lockPartsForWrite(true);
m_parts.Add(linkPart.UUID, linkPart);
lockPartsForWrite(false);
// Insert in terms of link numbers, the new links
// before the current ones (with the exception of
// the root prim. Shuffle the old ones up
lockPartsForRead(true);
foreach (KeyValuePair kvp in m_parts)
{
if (kvp.Value.LinkNum != 1)
{
// Don't update root prim link number
kvp.Value.LinkNum += objectGroup.PrimCount;
}
}
lockPartsForRead(false);
linkPart.LinkNum = 2;
linkPart.SetParent(this);
linkPart.CreateSelected = true;
//if (linkPart.PhysActor != null)
//{
// m_scene.PhysicsScene.RemovePrim(linkPart.PhysActor);
//linkPart.PhysActor = null;
//}
//TODO: rest of parts
int linkNum = 3;
foreach (SceneObjectPart part in objectGroup.Children.Values)
{
if (part.UUID != objectGroup.m_rootPart.UUID)
{
LinkNonRootPart(part, oldGroupPosition, oldRootRotation, linkNum++);
}
part.ClearUndoState();
}
m_scene.UnlinkSceneObject(objectGroup.UUID, true);
objectGroup.m_isDeleted = true;
objectGroup.lockPartsForWrite(true);
objectGroup.m_parts.Clear();
objectGroup.lockPartsForWrite(false);
// Can't do this yet since backup still makes use of the root part without any synchronization
// objectGroup.m_rootPart = null;
AttachToBackup();
// Here's the deal, this is ABSOLUTELY CRITICAL so the physics scene gets the update about the
// position of linkset prims. IF YOU CHANGE THIS, YOU MUST TEST colliding with just linked and
// unmoved prims!
ResetChildPrimPhysicsPositions();
//HasGroupChanged = true;
//ScheduleGroupForFullUpdate();
}
///
/// Delink the given prim from this group. The delinked prim is established as
/// an independent SceneObjectGroup.
///
///
/// The object group of the newly delinked prim. Null if part could not be found
public SceneObjectGroup DelinkFromGroup(uint partID)
{
return DelinkFromGroup(partID, true);
}
///
/// Delink the given prim from this group. The delinked prim is established as
/// an independent SceneObjectGroup.
///
///
///
/// The object group of the newly delinked prim. Null if part could not be found
public SceneObjectGroup DelinkFromGroup(uint partID, bool sendEvents)
{
SceneObjectPart linkPart = GetChildPart(partID);
if (linkPart != null)
{
return DelinkFromGroup(linkPart, sendEvents);
}
else
{
m_log.WarnFormat("[SCENE OBJECT GROUP]: " +
"DelinkFromGroup(): Child prim {0} not found in object {1}, {2}",
partID, LocalId, UUID);
return null;
}
}
///
/// Delink the given prim from this group. The delinked prim is established as
/// an independent SceneObjectGroup.
///
///
///
/// The object group of the newly delinked prim.
public SceneObjectGroup DelinkFromGroup(SceneObjectPart linkPart, bool sendEvents)
{
// m_log.DebugFormat(
// "[SCENE OBJECT GROUP]: Delinking part {0}, {1} from group with root part {2}, {3}",
// linkPart.Name, linkPart.UUID, RootPart.Name, RootPart.UUID);
linkPart.ClearUndoState();
Quaternion worldRot = linkPart.GetWorldRotation();
// Remove the part from this object
lockPartsForWrite(true);
{
m_parts.Remove(linkPart.UUID);
}
lockPartsForWrite(false);
lockPartsForRead(true);
if (m_parts.Count == 1 && RootPart != null) //Single prim is left
RootPart.LinkNum = 0;
else
{
foreach (SceneObjectPart p in m_parts.Values)
{
if (p.LinkNum > linkPart.LinkNum)
p.LinkNum--;
}
}
lockPartsForRead(false);
linkPart.ParentID = 0;
linkPart.LinkNum = 0;
if (linkPart.PhysActor != null)
{
m_scene.PhysicsScene.RemovePrim(linkPart.PhysActor);
}
// We need to reset the child part's position
// ready for life as a separate object after being a part of another object
Quaternion parentRot = m_rootPart.RotationOffset;
Vector3 axPos = linkPart.OffsetPosition;
axPos *= parentRot;
linkPart.OffsetPosition = new Vector3(axPos.X, axPos.Y, axPos.Z);
linkPart.GroupPosition = AbsolutePosition + linkPart.OffsetPosition;
linkPart.OffsetPosition = new Vector3(0, 0, 0);
linkPart.RotationOffset = worldRot;
SceneObjectGroup objectGroup = new SceneObjectGroup(linkPart);
m_scene.AddNewSceneObject(objectGroup, true);
if (sendEvents)
linkPart.TriggerScriptChangedEvent(Changed.LINK);
linkPart.Rezzed = RootPart.Rezzed;
//HasGroupChanged = true;
//ScheduleGroupForFullUpdate();
return objectGroup;
}
///
/// Stop this object from being persisted over server restarts.
///
///
public virtual void DetachFromBackup()
{
m_scene.SceneGraph.FireDetachFromBackup(this);
if (m_isBackedUp)
m_scene.EventManager.OnBackup -= ProcessBackup;
m_isBackedUp = false;
}
private void LinkNonRootPart(SceneObjectPart part, Vector3 oldGroupPosition, Quaternion oldGroupRotation, int linkNum)
{
Quaternion parentRot = oldGroupRotation;
Quaternion oldRot = part.RotationOffset;
Quaternion worldRot = parentRot * oldRot;
parentRot = oldGroupRotation;
Vector3 axPos = part.OffsetPosition;
axPos *= parentRot;
part.OffsetPosition = axPos;
part.GroupPosition = oldGroupPosition + part.OffsetPosition;
part.OffsetPosition = Vector3.Zero;
part.RotationOffset = worldRot;
part.SetParent(this);
part.ParentID = m_rootPart.LocalId;
// Caller locks m_parts for us
m_parts.Add(part.UUID, part);
part.LinkNum = linkNum;
part.OffsetPosition = part.GroupPosition - AbsolutePosition;
Quaternion rootRotation = m_rootPart.RotationOffset;
Vector3 pos = part.OffsetPosition;
pos *= Quaternion.Inverse(rootRotation);
part.OffsetPosition = pos;
parentRot = m_rootPart.RotationOffset;
oldRot = part.RotationOffset;
Quaternion newRot = Quaternion.Inverse(parentRot) * oldRot;
part.RotationOffset = newRot;
}
///
/// If object is physical, apply force to move it around
/// If object is not physical, just put it at the resulting location
///
/// Always seems to be 0,0,0, so ignoring
/// New position. We do the math here to turn it into a force
///
public void GrabMovement(Vector3 offset, Vector3 pos, IClientAPI remoteClient)
{
if (m_scene.EventManager.TriggerGroupMove(UUID, pos))
{
if (m_rootPart.PhysActor != null)
{
if (m_rootPart.PhysActor.IsPhysical)
{
if (!m_rootPart.BlockGrab)
{
Vector3 llmoveforce = pos - AbsolutePosition;
Vector3 grabforce = llmoveforce;
grabforce = (grabforce / 10) * m_rootPart.PhysActor.Mass;
m_rootPart.PhysActor.AddForce(grabforce, true);
m_scene.PhysicsScene.AddPhysicsActorTaint(m_rootPart.PhysActor);
}
}
else
{
//NonPhysicalGrabMovement(pos);
}
}
else
{
//NonPhysicalGrabMovement(pos);
}
}
}
public void NonPhysicalGrabMovement(Vector3 pos)
{
AbsolutePosition = pos;
m_rootPart.SendTerseUpdateToAllClients();
}
///
/// If object is physical, prepare for spinning torques (set flag to save old orientation)
///
/// Rotation. We do the math here to turn it into a torque
///
public void SpinStart(IClientAPI remoteClient)
{
if (m_scene.EventManager.TriggerGroupSpinStart(UUID))
{
if (m_rootPart.PhysActor != null)
{
if (m_rootPart.PhysActor.IsPhysical)
{
m_rootPart.IsWaitingForFirstSpinUpdatePacket = true;
}
}
}
}
///
/// If object is physical, apply torque to spin it around
///
/// Rotation. We do the math here to turn it into a torque
///
public void SpinMovement(Quaternion newOrientation, IClientAPI remoteClient)
{
// The incoming newOrientation, sent by the client, "seems" to be the
// desired target orientation. This needs further verification; in particular,
// one would expect that the initial incoming newOrientation should be
// fairly close to the original prim's physical orientation,
// m_rootPart.PhysActor.Orientation. This however does not seem to be the
// case (might just be an issue with different quaternions representing the
// same rotation, or it might be a coordinate system issue).
//
// Since it's not clear what the relationship is between the PhysActor.Orientation
// and the incoming orientations sent by the client, we take an alternative approach
// of calculating the delta rotation between the orientations being sent by the
// client. (Since a spin is invoked by ctrl+shift+drag in the client, we expect
// a steady stream of several new orientations coming in from the client.)
// This ensures that the delta rotations are being calculated from self-consistent
// pairs of old/new rotations. Given the delta rotation, we apply a torque around
// the delta rotation axis, scaled by the object mass times an arbitrary scaling
// factor (to ensure the resulting torque is not "too strong" or "too weak").
//
// Ideally we need to calculate (probably iteratively) the exact torque or series
// of torques needed to arrive exactly at the destination orientation. However, since
// it is not yet clear how to map the destination orientation (provided by the viewer)
// into PhysActor orientations (needed by the physics engine), we omit this step.
// This means that the resulting torque will at least be in the correct direction,
// but it will result in over-shoot or under-shoot of the target orientation.
// For the end user, this means that ctrl+shift+drag can be used for relative,
// but not absolute, adjustments of orientation for physical prims.
if (m_scene.EventManager.TriggerGroupSpin(UUID, newOrientation))
{
if (m_rootPart.PhysActor != null)
{
if (m_rootPart.PhysActor.IsPhysical)
{
if (m_rootPart.IsWaitingForFirstSpinUpdatePacket)
{
// first time initialization of "old" orientation for calculation of delta rotations
m_rootPart.SpinOldOrientation = newOrientation;
m_rootPart.IsWaitingForFirstSpinUpdatePacket = false;
}
else
{
// save and update old orientation
Quaternion old = m_rootPart.SpinOldOrientation;
m_rootPart.SpinOldOrientation = newOrientation;
//m_log.Error("[SCENE OBJECT GROUP]: Old orientation is " + old);
//m_log.Error("[SCENE OBJECT GROUP]: Incoming new orientation is " + newOrientation);
// compute difference between previous old rotation and new incoming rotation
Quaternion minimalRotationFromQ1ToQ2 = Quaternion.Inverse(old) * newOrientation;
float rotationAngle;
Vector3 rotationAxis;
minimalRotationFromQ1ToQ2.GetAxisAngle(out rotationAxis, out rotationAngle);
rotationAxis.Normalize();
//m_log.Error("SCENE OBJECT GROUP]: rotation axis is " + rotationAxis);
Vector3 spinforce = new Vector3(rotationAxis.X, rotationAxis.Y, rotationAxis.Z);
spinforce = (spinforce/8) * m_rootPart.PhysActor.Mass; // 8 is an arbitrary torque scaling factor
m_rootPart.PhysActor.AddAngularForce(spinforce,true);
m_scene.PhysicsScene.AddPhysicsActorTaint(m_rootPart.PhysActor);
}
}
else
{
//NonPhysicalSpinMovement(pos);
}
}
else
{
//NonPhysicalSpinMovement(pos);
}
}
}
///
/// Return metadata about a prim (name, description, sale price, etc.)
///
///
public void GetProperties(IClientAPI client)
{
m_rootPart.GetProperties(client);
}
///
/// Set the name of a prim
///
///
///
public void SetPartName(string name, uint localID)
{
SceneObjectPart part = GetChildPart(localID);
if (part != null)
{
part.Name = name;
}
}
public void SetPartDescription(string des, uint localID)
{
SceneObjectPart part = GetChildPart(localID);
if (part != null)
{
part.Description = des;
}
}
public void SetPartText(string text, uint localID)
{
SceneObjectPart part = GetChildPart(localID);
if (part != null)
{
part.SetText(text);
}
}
public void SetPartText(string text, UUID partID)
{
SceneObjectPart part = GetChildPart(partID);
if (part != null)
{
part.SetText(text);
}
}
public string GetPartName(uint localID)
{
SceneObjectPart part = GetChildPart(localID);
if (part != null)
{
return part.Name;
}
return String.Empty;
}
public string GetPartDescription(uint localID)
{
SceneObjectPart part = GetChildPart(localID);
if (part != null)
{
return part.Description;
}
return String.Empty;
}
///
/// Update prim flags for this group.
///
///
///
///
///
public void UpdatePrimFlags(uint localID, bool UsePhysics, bool IsTemporary, bool IsPhantom, bool IsVolumeDetect)
{
SceneObjectPart selectionPart = GetChildPart(localID);
if (IsTemporary)
{
DetachFromBackup();
// Remove from database and parcel prim count
//
m_scene.DeleteFromStorage(UUID);
m_scene.EventManager.TriggerParcelPrimCountTainted();
}
if (selectionPart != null)
{
lockPartsForRead(true);
List parts = new List(m_parts.Values);
lockPartsForRead(false);
foreach (SceneObjectPart part in parts)
{
if (part.Scale.X > 10.0 || part.Scale.Y > 10.0 || part.Scale.Z > 10.0)
{
if (part.Scale.X > m_scene.RegionInfo.PhysPrimMax ||
part.Scale.Y > m_scene.RegionInfo.PhysPrimMax ||
part.Scale.Z > m_scene.RegionInfo.PhysPrimMax)
{
UsePhysics = false; // Reset physics
break;
}
}
}
foreach (SceneObjectPart part in parts)
{
part.UpdatePrimFlags(UsePhysics, IsTemporary, IsPhantom, IsVolumeDetect);
}
}
}
public void UpdateExtraParam(uint localID, ushort type, bool inUse, byte[] data)
{
SceneObjectPart part = GetChildPart(localID);
if (part != null)
{
part.UpdateExtraParam(type, inUse, data);
}
}
///
/// Gets the number of parts
///
///
public int GetPartCount()
{
return Children.Count;
}
///
/// Get the parts of this scene object
///
///
public SceneObjectPart[] GetParts()
{
int numParts = Children.Count;
SceneObjectPart[] partArray = new SceneObjectPart[numParts];
Children.Values.CopyTo(partArray, 0);
return partArray;
}
///
/// Update the texture entry for this part
///
///
///
public void UpdateTextureEntry(uint localID, byte[] textureEntry)
{
SceneObjectPart part = GetChildPart(localID);
if (part != null)
{
part.UpdateTextureEntry(textureEntry);
}
}
public void UpdatePermissions(UUID AgentID, byte field, uint localID,
uint mask, byte addRemTF)
{
foreach (SceneObjectPart part in m_parts.Values)
part.UpdatePermissions(AgentID, field, localID, mask,
addRemTF);
HasGroupChanged = true;
}
#endregion
#region Shape
///
///
///
///
public void UpdateShape(ObjectShapePacket.ObjectDataBlock shapeBlock, uint localID)
{
SceneObjectPart part = GetChildPart(localID);
if (part != null)
{
part.UpdateShape(shapeBlock);
if (part.PhysActor != null)
m_scene.PhysicsScene.AddPhysicsActorTaint(part.PhysActor);
}
}
#endregion
#region Resize
///
/// Resize the given part
///
///
///
public void Resize(Vector3 scale, uint localID)
{
if (scale.X > m_scene.m_maxNonphys)
scale.X = m_scene.m_maxNonphys;
if (scale.Y > m_scene.m_maxNonphys)
scale.Y = m_scene.m_maxNonphys;
if (scale.Z > m_scene.m_maxNonphys)
scale.Z = m_scene.m_maxNonphys;
SceneObjectPart part = GetChildPart(localID);
if (part != null)
{
if (part.PhysActor != null)
{
if (part.PhysActor.IsPhysical)
{
if (scale.X > m_scene.m_maxPhys)
scale.X = m_scene.m_maxPhys;
if (scale.Y > m_scene.m_maxPhys)
scale.Y = m_scene.m_maxPhys;
if (scale.Z > m_scene.m_maxPhys)
scale.Z = m_scene.m_maxPhys;
}
part.PhysActor.Size = scale;
m_scene.PhysicsScene.AddPhysicsActorTaint(part.PhysActor);
}
part.Resize(scale);
HasGroupChanged = true;
ScheduleGroupForFullUpdate();
//if (part.UUID == m_rootPart.UUID)
//{
//if (m_rootPart.PhysActor != null)
//{
//m_rootPart.PhysActor.Size =
//new PhysicsVector(m_rootPart.Scale.X, m_rootPart.Scale.Y, m_rootPart.Scale.Z);
//m_scene.PhysicsScene.AddPhysicsActorTaint(m_rootPart.PhysActor);
//}
//}
}
}
public void GroupResize(Vector3 scale, uint localID)
{
SceneObjectPart part = GetChildPart(localID);
if (part != null)
{
if (scale.X > m_scene.m_maxNonphys)
scale.X = m_scene.m_maxNonphys;
if (scale.Y > m_scene.m_maxNonphys)
scale.Y = m_scene.m_maxNonphys;
if (scale.Z > m_scene.m_maxNonphys)
scale.Z = m_scene.m_maxNonphys;
if (part.PhysActor != null && part.PhysActor.IsPhysical)
{
if (scale.X > m_scene.m_maxPhys)
scale.X = m_scene.m_maxPhys;
if (scale.Y > m_scene.m_maxPhys)
scale.Y = m_scene.m_maxPhys;
if (scale.Z > m_scene.m_maxPhys)
scale.Z = m_scene.m_maxPhys;
}
float x = (scale.X / part.Scale.X);
float y = (scale.Y / part.Scale.Y);
float z = (scale.Z / part.Scale.Z);
lockPartsForRead(true);
if (x > 1.0f || y > 1.0f || z > 1.0f)
{
foreach (SceneObjectPart obPart in m_parts.Values)
{
if (obPart.UUID != m_rootPart.UUID)
{
Vector3 oldSize = new Vector3(obPart.Scale);
obPart.IgnoreUndoUpdate = true;
float f = 1.0f;
float a = 1.0f;
if (part.PhysActor != null && part.PhysActor.IsPhysical)
{
if (oldSize.X*x > m_scene.m_maxPhys)
{
f = m_scene.m_maxPhys / oldSize.X;
a = f / x;
x *= a;
y *= a;
z *= a;
}
if (oldSize.Y*y > m_scene.m_maxPhys)
{
f = m_scene.m_maxPhys / oldSize.Y;
a = f / y;
x *= a;
y *= a;
z *= a;
}
if (oldSize.Z*z > m_scene.m_maxPhys)
{
f = m_scene.m_maxPhys / oldSize.Z;
a = f / z;
x *= a;
y *= a;
z *= a;
}
}
else
{
if (oldSize.X*x > m_scene.m_maxNonphys)
{
f = m_scene.m_maxNonphys / oldSize.X;
a = f / x;
x *= a;
y *= a;
z *= a;
}
if (oldSize.Y*y > m_scene.m_maxNonphys)
{
f = m_scene.m_maxNonphys / oldSize.Y;
a = f / y;
x *= a;
y *= a;
z *= a;
}
if (oldSize.Z*z > m_scene.m_maxNonphys)
{
f = m_scene.m_maxNonphys / oldSize.Z;
a = f / z;
x *= a;
y *= a;
z *= a;
}
}
}
}
}
lockPartsForRead(false);
Vector3 prevScale = part.Scale;
prevScale.X *= x;
prevScale.Y *= y;
prevScale.Z *= z;;
part.IgnoreUndoUpdate = false;
part.StoreUndoState(UndoType.STATE_GROUP_SCALE);
part.IgnoreUndoUpdate = true;
part.Resize(prevScale);
part.IgnoreUndoUpdate = false;
lockPartsForRead(true);
{
foreach (SceneObjectPart obPart in m_parts.Values)
{
if (obPart.UUID != m_rootPart.UUID)
{
obPart.IgnoreUndoUpdate = false;
obPart.StoreUndoState(UndoType.STATE_GROUP_SCALE);
obPart.IgnoreUndoUpdate = true;
Vector3 currentpos = new Vector3(obPart.OffsetPosition);
currentpos.X *= x;
currentpos.Y *= y;
currentpos.Z *= z;
Vector3 newSize = new Vector3(obPart.Scale);
newSize.X *= x;
newSize.Y *= y;
newSize.Z *= z;
obPart.Resize(newSize);
obPart.UpdateOffSet(currentpos);
}
obPart.IgnoreUndoUpdate = false;
}
}
lockPartsForRead(false);
if (part.PhysActor != null)
{
part.PhysActor.Size = prevScale;
m_scene.PhysicsScene.AddPhysicsActorTaint(part.PhysActor);
}
part.IgnoreUndoUpdate = false;
HasGroupChanged = true;
ScheduleGroupForTerseUpdate();
}
}
#endregion
#region Position
///
/// Move this scene object
///
///
public void UpdateGroupPosition(Vector3 pos)
{
if (m_scene.EventManager.TriggerGroupMove(UUID, pos))
{
if (IsAttachment)
{
m_rootPart.StoreUndoState(UndoType.STATE_GROUP_POSITION);
m_rootPart.AttachedPos = pos;
}
if (RootPart.GetStatusSandbox())
{
if (Util.GetDistanceTo(RootPart.StatusSandboxPos, pos) > 10)
{
RootPart.ScriptSetPhysicsStatus(false);
pos = AbsolutePosition;
Scene.SimChat(Utils.StringToBytes("Hit Sandbox Limit"),
ChatTypeEnum.DebugChannel, 0x7FFFFFFF, RootPart.AbsolutePosition, Name, UUID, false);
}
}
AbsolutePosition = pos;
HasGroupChanged = true;
}
//we need to do a terse update even if the move wasn't allowed
// so that the position is reset in the client (the object snaps back)
ScheduleGroupForTerseUpdate();
}
///
/// Update the position of a single part of this scene object
///
///
///
public void UpdateSinglePosition(Vector3 pos, uint localID)
{
SceneObjectPart part = GetChildPart(localID);
foreach (SceneObjectPart parts in Children.Values)
{
parts.StoreUndoState(UndoType.STATE_PRIM_POSITION);
}
if (part != null)
{
if (part.UUID == m_rootPart.UUID)
{
UpdateRootPosition(pos);
}
else
{
part.UpdateOffSet(pos);
}
HasGroupChanged = true;
}
}
///
///
///
///
private void UpdateRootPosition(Vector3 pos)
{
foreach (SceneObjectPart part in Children.Values)
{
part.StoreUndoState(UndoType.STATE_PRIM_POSITION);
}
Vector3 newPos = new Vector3(pos.X, pos.Y, pos.Z);
Vector3 oldPos =
new Vector3(AbsolutePosition.X + m_rootPart.OffsetPosition.X,
AbsolutePosition.Y + m_rootPart.OffsetPosition.Y,
AbsolutePosition.Z + m_rootPart.OffsetPosition.Z);
Vector3 diff = oldPos - newPos;
Vector3 axDiff = new Vector3(diff.X, diff.Y, diff.Z);
Quaternion partRotation = m_rootPart.RotationOffset;
axDiff *= Quaternion.Inverse(partRotation);
diff = axDiff;
lockPartsForRead(true);
{
foreach (SceneObjectPart obPart in m_parts.Values)
{
if (obPart.UUID != m_rootPart.UUID)
{
obPart.OffsetPosition = obPart.OffsetPosition + diff;
}
}
}
lockPartsForRead(false);
//We have to set undoing here because otherwise an undo state will be saved
if (!m_rootPart.Undoing)
{
m_rootPart.Undoing = true;
AbsolutePosition = newPos;
m_rootPart.Undoing = false;
}
else
{
AbsolutePosition = newPos;
}
HasGroupChanged = true;
if (m_rootPart.Undoing)
{
ScheduleGroupForFullUpdate();
}
else
{
ScheduleGroupForTerseUpdate();
}
}
public void OffsetForNewRegion(Vector3 offset)
{
m_rootPart.GroupPosition = offset;
}
#endregion
#region Rotation
///
///
///
///
public void UpdateGroupRotationR(Quaternion rot)
{
foreach (SceneObjectPart parts in Children.Values)
{
parts.StoreUndoState(UndoType.STATE_GROUP_ROTATION);
}
m_rootPart.UpdateRotation(rot);
PhysicsActor actor = m_rootPart.PhysActor;
if (actor != null)
{
actor.Orientation = m_rootPart.RotationOffset;
m_scene.PhysicsScene.AddPhysicsActorTaint(actor);
}
HasGroupChanged = true;
ScheduleGroupForTerseUpdate();
}
///
///
///
///
///
public void UpdateGroupRotationPR(Vector3 pos, Quaternion rot)
{
foreach (SceneObjectPart parts in Children.Values)
{
parts.StoreUndoState(UndoType.STATE_GROUP_ROTATION);
}
m_rootPart.UpdateRotation(rot);
PhysicsActor actor = m_rootPart.PhysActor;
if (actor != null)
{
actor.Orientation = m_rootPart.RotationOffset;
m_scene.PhysicsScene.AddPhysicsActorTaint(actor);
}
AbsolutePosition = pos;
HasGroupChanged = true;
ScheduleGroupForTerseUpdate();
}
///
///
///
///
///
public void UpdateSingleRotation(Quaternion rot, uint localID)
{
SceneObjectPart part = GetChildPart(localID);
foreach (SceneObjectPart parts in Children.Values)
{
parts.StoreUndoState(UndoType.STATE_PRIM_ROTATION);
}
if (part != null)
{
if (part.UUID == m_rootPart.UUID)
{
UpdateRootRotation(rot);
}
else
{
part.UpdateRotation(rot);
}
}
}
///
///
///
///
///
public void UpdateSingleRotation(Quaternion rot, Vector3 pos, uint localID)
{
SceneObjectPart part = GetChildPart(localID);
if (part != null)
{
if (part.UUID == m_rootPart.UUID)
{
UpdateRootRotation(rot);
if (!m_rootPart.Undoing)
{
m_rootPart.Undoing = true;
AbsolutePosition = pos;
m_rootPart.Undoing = false;
}
else
{
AbsolutePosition = pos;
}
}
else
{
part.StoreUndoState(UndoType.STATE_PRIM_ROTATION);
part.IgnoreUndoUpdate = true;
part.UpdateRotation(rot);
part.OffsetPosition = pos;
part.IgnoreUndoUpdate = false;
}
}
}
///
///
///
///
private void UpdateRootRotation(Quaternion rot)
{
Quaternion axRot = rot;
Quaternion oldParentRot = m_rootPart.RotationOffset;
m_rootPart.StoreUndoState(UndoType.STATE_PRIM_ROTATION);
bool cancelUndo = false;
if (!m_rootPart.Undoing)
{
m_rootPart.Undoing = true;
cancelUndo = true;
}
m_rootPart.UpdateRotation(rot);
if (m_rootPart.PhysActor != null)
{
m_rootPart.PhysActor.Orientation = m_rootPart.RotationOffset;
m_scene.PhysicsScene.AddPhysicsActorTaint(m_rootPart.PhysActor);
}
lockPartsForRead(true);
foreach (SceneObjectPart prim in m_parts.Values)
{
if (prim.UUID != m_rootPart.UUID)
{
prim.IgnoreUndoUpdate = true;
Vector3 axPos = prim.OffsetPosition;
axPos *= oldParentRot;
axPos *= Quaternion.Inverse(axRot);
prim.OffsetPosition = axPos;
Quaternion primsRot = prim.RotationOffset;
Quaternion newRot = primsRot * oldParentRot;
newRot *= Quaternion.Inverse(axRot);
prim.RotationOffset = newRot;
prim.ScheduleTerseUpdate();
prim.IgnoreUndoUpdate = false;
}
}
if (cancelUndo == true)
{
m_rootPart.Undoing = false;
}
lockPartsForRead(false);
m_rootPart.ScheduleTerseUpdate();
}
#endregion
internal void SetAxisRotation(int axis, int rotate10)
{
bool setX = false;
bool setY = false;
bool setZ = false;
int xaxis = 2;
int yaxis = 4;
int zaxis = 8;
if (m_rootPart != null)
{
setX = ((axis & xaxis) != 0) ? true : false;
setY = ((axis & yaxis) != 0) ? true : false;
setZ = ((axis & zaxis) != 0) ? true : false;
float setval = (rotate10 > 0) ? 1f : 0f;
if (setX)
m_rootPart.RotationAxis.X = setval;
if (setY)
m_rootPart.RotationAxis.Y = setval;
if (setZ)
m_rootPart.RotationAxis.Z = setval;
if (setX || setY || setZ)
{
m_rootPart.SetPhysicsAxisRotation();
}
}
}
public int registerRotTargetWaypoint(Quaternion target, float tolerance)
{
scriptRotTarget waypoint = new scriptRotTarget();
waypoint.targetRot = target;
waypoint.tolerance = tolerance;
uint handle = m_scene.AllocateLocalId();
waypoint.handle = handle;
lock (m_rotTargets)
{
m_rotTargets.Add(handle, waypoint);
}
m_scene.AddGroupTarget(this);
return (int)handle;
}
public void unregisterRotTargetWaypoint(int handle)
{
lock (m_targets)
{
m_rotTargets.Remove((uint)handle);
if (m_targets.Count == 0)
m_scene.RemoveGroupTarget(this);
}
}
public int registerTargetWaypoint(Vector3 target, float tolerance)
{
scriptPosTarget waypoint = new scriptPosTarget();
waypoint.targetPos = target;
waypoint.tolerance = tolerance;
uint handle = m_scene.AllocateLocalId();
waypoint.handle = handle;
lock (m_targets)
{
m_targets.Add(handle, waypoint);
}
m_scene.AddGroupTarget(this);
return (int)handle;
}
public void unregisterTargetWaypoint(int handle)
{
lock (m_targets)
{
m_targets.Remove((uint)handle);
if (m_targets.Count == 0)
m_scene.RemoveGroupTarget(this);
}
}
public void checkAtTargets()
{
if (m_scriptListens_atTarget || m_scriptListens_notAtTarget)
{
if (m_targets.Count > 0)
{
bool at_target = false;
//Vector3 targetPos;
//uint targetHandle;
Dictionary atTargets = new Dictionary();
lock (m_targets)
{
foreach (uint idx in m_targets.Keys)
{
scriptPosTarget target = m_targets[idx];
if (Util.GetDistanceTo(target.targetPos, m_rootPart.GroupPosition) <= target.tolerance)
{
// trigger at_target
if (m_scriptListens_atTarget)
{
at_target = true;
scriptPosTarget att = new scriptPosTarget();
att.targetPos = target.targetPos;
att.tolerance = target.tolerance;
att.handle = target.handle;
atTargets.Add(idx, att);
}
}
}
}
if (atTargets.Count > 0)
{
uint[] localids = new uint[0];
lockPartsForRead(true);
{
localids = new uint[m_parts.Count];
int cntr = 0;
foreach (SceneObjectPart part in m_parts.Values)
{
localids[cntr] = part.LocalId;
cntr++;
}
}
lockPartsForRead(false);
for (int ctr = 0; ctr < localids.Length; ctr++)
{
foreach (uint target in atTargets.Keys)
{
scriptPosTarget att = atTargets[target];
m_scene.EventManager.TriggerAtTargetEvent(
localids[ctr], att.handle, att.targetPos, m_rootPart.GroupPosition);
}
}
return;
}
if (m_scriptListens_notAtTarget && !at_target)
{
//trigger not_at_target
uint[] localids = new uint[0];
lockPartsForRead(true);
{
localids = new uint[m_parts.Count];
int cntr = 0;
foreach (SceneObjectPart part in m_parts.Values)
{
localids[cntr] = part.LocalId;
cntr++;
}
}
lockPartsForRead(false);
for (int ctr = 0; ctr < localids.Length; ctr++)
{
m_scene.EventManager.TriggerNotAtTargetEvent(localids[ctr]);
}
}
}
}
if (m_scriptListens_atRotTarget || m_scriptListens_notAtRotTarget)
{
if (m_rotTargets.Count > 0)
{
bool at_Rottarget = false;
Dictionary atRotTargets = new Dictionary();
lock (m_rotTargets)
{
foreach (uint idx in m_rotTargets.Keys)
{
scriptRotTarget target = m_rotTargets[idx];
double angle = Math.Acos(target.targetRot.X * m_rootPart.RotationOffset.X + target.targetRot.Y * m_rootPart.RotationOffset.Y + target.targetRot.Z * m_rootPart.RotationOffset.Z + target.targetRot.W * m_rootPart.RotationOffset.W) * 2;
if (angle < 0) angle = -angle;
if (angle > Math.PI) angle = (Math.PI * 2 - angle);
if (angle <= target.tolerance)
{
// trigger at_rot_target
if (m_scriptListens_atRotTarget)
{
at_Rottarget = true;
scriptRotTarget att = new scriptRotTarget();
att.targetRot = target.targetRot;
att.tolerance = target.tolerance;
att.handle = target.handle;
atRotTargets.Add(idx, att);
}
}
}
}
if (atRotTargets.Count > 0)
{
uint[] localids = new uint[0];
lockPartsForRead(true);
try
{
localids = new uint[m_parts.Count];
int cntr = 0;
foreach (SceneObjectPart part in m_parts.Values)
{
localids[cntr] = part.LocalId;
cntr++;
}
}
finally
{
lockPartsForRead(false);
}
for (int ctr = 0; ctr < localids.Length; ctr++)
{
foreach (uint target in atRotTargets.Keys)
{
scriptRotTarget att = atRotTargets[target];
m_scene.EventManager.TriggerAtRotTargetEvent(
localids[ctr], att.handle, att.targetRot, m_rootPart.RotationOffset);
}
}
return;
}
if (m_scriptListens_notAtRotTarget && !at_Rottarget)
{
//trigger not_at_target
uint[] localids = new uint[0];
lockPartsForRead(true);
try
{
localids = new uint[m_parts.Count];
int cntr = 0;
foreach (SceneObjectPart part in m_parts.Values)
{
localids[cntr] = part.LocalId;
cntr++;
}
}
finally
{
lockPartsForRead(false);
}
for (int ctr = 0; ctr < localids.Length; ctr++)
{
m_scene.EventManager.TriggerNotAtRotTargetEvent(localids[ctr]);
}
}
}
}
}
public float GetMass()
{
float retmass = 0f;
lockPartsForRead(true);
{
foreach (SceneObjectPart part in m_parts.Values)
{
retmass += part.GetMass();
}
}
lockPartsForRead(false);
return retmass;
}
public void CheckSculptAndLoad()
{
lockPartsForRead(true);
{
if (!IsDeleted)
{
if ((RootPart.GetEffectiveObjectFlags() & (uint)PrimFlags.Phantom) == 0)
{
foreach (SceneObjectPart part in m_parts.Values)
{
if (part.Shape.SculptEntry && part.Shape.SculptTexture != UUID.Zero)
{
// check if a previously decoded sculpt map has been cached
if (File.Exists(System.IO.Path.Combine("j2kDecodeCache", "smap_" + part.Shape.SculptTexture.ToString())))
{
part.SculptTextureCallback(part.Shape.SculptTexture, null);
}
else
{
m_scene.AssetService.Get(
part.Shape.SculptTexture.ToString(), part, AssetReceived);
}
}
}
}
}
}
lockPartsForRead(false);
}
protected void AssetReceived(string id, Object sender, AssetBase asset)
{
SceneObjectPart sop = (SceneObjectPart)sender;
if (sop != null)
{
if (asset != null)
sop.SculptTextureCallback(asset.FullID, asset);
}
}
///
/// Set the user group to which this scene object belongs.
///
///
///
public void SetGroup(UUID GroupID, IClientAPI client)
{
lockPartsForRead(true);
{
foreach (SceneObjectPart part in m_parts.Values)
{
part.SetGroup(GroupID, client);
part.Inventory.ChangeInventoryGroup(GroupID);
}
HasGroupChanged = true;
}
lockPartsForRead(false);
// Don't trigger the update here - otherwise some client issues occur when multiple updates are scheduled
// for the same object with very different properties. The caller must schedule the update.
//ScheduleGroupForFullUpdate();
}
public void TriggerScriptChangedEvent(Changed val)
{
foreach (SceneObjectPart part in Children.Values)
{
part.TriggerScriptChangedEvent(val);
}
}
public override string ToString()
{
return String.Format("{0} {1} ({2})", Name, UUID, AbsolutePosition);
}
public void SetAttachmentPoint(byte point)
{
lockPartsForRead(true);
{
foreach (SceneObjectPart part in m_parts.Values)
part.SetAttachmentPoint(point);
}
lockPartsForRead(false);
}
#region ISceneObject
public virtual ISceneObject CloneForNewScene()
{
SceneObjectGroup sog = Copy(false);
sog.m_isDeleted = false;
return sog;
}
public virtual string ToXml2()
{
return SceneObjectSerializer.ToXml2Format(this);
}
public virtual string ExtraToXmlString()
{
return "" + GetFromItemID().ToString() + "";
}
public virtual void ExtraFromXmlString(string xmlstr)
{
string id = xmlstr.Substring(xmlstr.IndexOf(""));
id = xmlstr.Replace("", "");
id = id.Replace("", "");
UUID uuid = UUID.Zero;
UUID.TryParse(id, out uuid);
SetFromItemID(uuid);
}
public void ResetOwnerChangeFlag()
{
ForEachPart(delegate(SceneObjectPart part)
{
part.ResetOwnerChangeFlag();
});
}
#endregion
}
}