/* * 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.Xml; using System.Collections.Generic; using System.Reflection; using System.Threading; using System.Timers; using Timer = System.Timers.Timer; using OpenMetaverse; using log4net; using Nini.Config; using OpenSim.Framework; using OpenSim.Framework.Client; using OpenSim.Region.Framework.Interfaces; using OpenSim.Region.Framework.Scenes.Animation; using OpenSim.Region.Framework.Scenes.Types; using OpenSim.Region.Physics.Manager; using GridRegion = OpenSim.Services.Interfaces.GridRegion; using OpenSim.Services.Interfaces; using TeleportFlags = OpenSim.Framework.Constants.TeleportFlags; namespace OpenSim.Region.Framework.Scenes { [Flags] enum ScriptControlled : uint { CONTROL_ZERO = 0, CONTROL_FWD = 1, CONTROL_BACK = 2, CONTROL_LEFT = 4, CONTROL_RIGHT = 8, CONTROL_UP = 16, CONTROL_DOWN = 32, CONTROL_ROT_LEFT = 256, CONTROL_ROT_RIGHT = 512, CONTROL_LBUTTON = 268435456, CONTROL_ML_LBUTTON = 1073741824 } struct ScriptControllers { public UUID itemID; public ScriptControlled ignoreControls; public ScriptControlled eventControls; } public delegate void SendCoarseLocationsMethod(UUID scene, ScenePresence presence, List coarseLocations, List avatarUUIDs); public class ScenePresence : EntityBase, IScenePresence { private static readonly ILog m_log = LogManager.GetLogger(MethodBase.GetCurrentMethod().DeclaringType); // ~ScenePresence() // { // m_log.DebugFormat("[SCENE PRESENCE]: Destructor called on {0}", Name); // } public void TriggerScenePresenceUpdated() { if (m_scene != null) m_scene.EventManager.TriggerScenePresenceUpdated(this); } public PresenceType PresenceType { get; private set; } private ScenePresenceStateMachine m_stateMachine; /// /// The current state of this presence. Governs only the existence lifecycle. See ScenePresenceStateMachine /// for more details. /// public ScenePresenceState LifecycleState { get { return m_stateMachine.GetState(); } set { m_stateMachine.SetState(value); } } // private static readonly byte[] DEFAULT_TEXTURE = AvatarAppearance.GetDefaultTexture().GetBytes(); private static readonly Array DIR_CONTROL_FLAGS = Enum.GetValues(typeof(Dir_ControlFlags)); private static readonly Vector3 HEAD_ADJUSTMENT = new Vector3(0f, 0f, 0.3f); /// /// Experimentally determined "fudge factor" to make sit-target positions /// the same as in SecondLife. Fudge factor was tested for 36 different /// test cases including prims of type box, sphere, cylinder, and torus, /// with varying parameters for sit target location, prim size, prim /// rotation, prim cut, prim twist, prim taper, and prim shear. See mantis /// issue #1716 /// public static readonly Vector3 SIT_TARGET_ADJUSTMENT = new Vector3(0.0f, 0.0f, 0.418f); /// /// Movement updates for agents in neighboring regions are sent directly to clients. /// This value only affects how often agent positions are sent to neighbor regions /// for things such as distance-based update prioritization /// public static readonly float SIGNIFICANT_MOVEMENT = 2.0f; public UUID currentParcelUUID = UUID.Zero; /// /// The animator for this avatar /// public ScenePresenceAnimator Animator { get; private set; } /// /// Attachments recorded on this avatar. /// /// /// TODO: For some reason, we effectively have a list both here and in Appearance. Need to work out if this is /// necessary. /// NOTE: To avoid deadlocks, do not lock m_attachments and then perform other tasks under that lock. Take a copy /// of the list and act on that instead. /// private List m_attachments = new List(); public Object AttachmentsSyncLock { get; private set; } private Dictionary scriptedcontrols = new Dictionary(); private ScriptControlled IgnoredControls = ScriptControlled.CONTROL_ZERO; private ScriptControlled LastCommands = ScriptControlled.CONTROL_ZERO; private bool MouseDown = false; // private SceneObjectGroup proxyObjectGroup; //private SceneObjectPart proxyObjectPart = null; public Vector3 lastKnownAllowedPosition; public bool sentMessageAboutRestrictedParcelFlyingDown; public Vector4 CollisionPlane = Vector4.UnitW; private Vector3 m_lastPosition; private Quaternion m_lastRotation; private Vector3 m_lastVelocity; private Vector3? m_forceToApply; private int m_userFlags; public int UserFlags { get { return m_userFlags; } } // Flying public bool Flying { get { return PhysicsActor != null && PhysicsActor.Flying; } set { PhysicsActor.Flying = value; } } // add for fly velocity control private bool FlyingOld {get; set;} public bool WasFlying { get; private set; } public bool IsColliding { get { return PhysicsActor != null && PhysicsActor.IsColliding; } // We would expect setting IsColliding to be private but it's used by a hack in Scene set { PhysicsActor.IsColliding = value; } } // private int m_lastColCount = -1; //KF: Look for Collision chnages // private int m_updateCount = 0; //KF: Update Anims for a while // private static readonly int UPDATE_COUNT = 10; // how many frames to update for private TeleportFlags m_teleportFlags; public TeleportFlags TeleportFlags { get { return m_teleportFlags; } set { m_teleportFlags = value; } } private uint m_requestedSitTargetID; private UUID m_requestedSitTargetUUID; /// /// Are we sitting on the ground? /// public bool SitGround { get; private set; } private SendCoarseLocationsMethod m_sendCoarseLocationsMethod; //private Vector3 m_requestedSitOffset = new Vector3(); private Vector3 m_LastFinitePos; private float m_sitAvatarHeight = 2.0f; private Vector3 m_lastChildAgentUpdatePosition; // private Vector3 m_lastChildAgentUpdateCamPosition; private const int LAND_VELOCITYMAG_MAX = 12; private const float FLY_ROLL_MAX_RADIANS = 1.1f; private const float FLY_ROLL_RADIANS_PER_UPDATE = 0.06f; private const float FLY_ROLL_RESET_RADIANS_PER_UPDATE = 0.02f; private float m_health = 100f; protected ulong crossingFromRegion; private readonly Vector3[] Dir_Vectors = new Vector3[11]; protected Timer m_reprioritization_timer; protected bool m_reprioritizing; protected bool m_reprioritization_called; private Quaternion m_headrotation = Quaternion.Identity; //PauPaw:Proper PID Controler for autopilot************ public bool MovingToTarget { get; private set; } public Vector3 MoveToPositionTarget { get; private set; } /// /// Controls whether an avatar automatically moving to a target will land when it gets there (if flying). /// public bool LandAtTarget { get; private set; } private bool m_followCamAuto; private int m_movementUpdateCount; private const int NumMovementsBetweenRayCast = 5; private bool CameraConstraintActive; //private int m_moveToPositionStateStatus; //***************************************************** protected AvatarAppearance m_appearance; public AvatarAppearance Appearance { get { return m_appearance; } set { m_appearance = value; // m_log.DebugFormat("[SCENE PRESENCE]: Set appearance for {0} to {1}", Name, value); } } /// /// Copy of the script states while the agent is in transit. This state may /// need to be placed back in case of transfer fail. /// public List InTransitScriptStates { get { return m_InTransitScriptStates; } private set { m_InTransitScriptStates = value; } } private List m_InTransitScriptStates = new List(); /// /// Implemented Control Flags /// private enum Dir_ControlFlags { DIR_CONTROL_FLAG_FORWARD = AgentManager.ControlFlags.AGENT_CONTROL_AT_POS, DIR_CONTROL_FLAG_BACK = AgentManager.ControlFlags.AGENT_CONTROL_AT_NEG, DIR_CONTROL_FLAG_LEFT = AgentManager.ControlFlags.AGENT_CONTROL_LEFT_POS, DIR_CONTROL_FLAG_RIGHT = AgentManager.ControlFlags.AGENT_CONTROL_LEFT_NEG, DIR_CONTROL_FLAG_UP = AgentManager.ControlFlags.AGENT_CONTROL_UP_POS, DIR_CONTROL_FLAG_DOWN = AgentManager.ControlFlags.AGENT_CONTROL_UP_NEG, DIR_CONTROL_FLAG_FORWARD_NUDGE = AgentManager.ControlFlags.AGENT_CONTROL_NUDGE_AT_POS, DIR_CONTROL_FLAG_BACKWARD_NUDGE = AgentManager.ControlFlags.AGENT_CONTROL_NUDGE_AT_NEG, DIR_CONTROL_FLAG_LEFT_NUDGE = AgentManager.ControlFlags.AGENT_CONTROL_NUDGE_LEFT_POS, DIR_CONTROL_FLAG_RIGHT_NUDGE = AgentManager.ControlFlags.AGENT_CONTROL_NUDGE_LEFT_NEG, DIR_CONTROL_FLAG_DOWN_NUDGE = AgentManager.ControlFlags.AGENT_CONTROL_NUDGE_UP_NEG } /// /// Position at which a significant movement was made /// private Vector3 posLastSignificantMove; #region For teleports and crossings callbacks /// /// In the V1 teleport protocol, the destination simulator sends ReleaseAgent to this address. /// private string m_callbackURI; /// /// Records the region from which this presence originated, if not from login. /// /// /// Also acts as a signal in the teleport V2 process to release UpdateAgent after a viewer has triggered /// CompleteMovement and made the previous child agent a root agent. /// private UUID m_originRegionID; /// /// This object is used as a lock before accessing m_originRegionID to make sure that every thread is seeing /// the very latest value and not using some cached version. Cannot make m_originRegionID itself volatite as /// it is a value type. /// private object m_originRegionIDAccessLock = new object(); /// /// Used by the entity transfer module to signal when the presence should not be closed because a subsequent /// teleport is reusing the connection. /// /// May be refactored or move somewhere else soon. public bool DoNotCloseAfterTeleport { get; set; } #endregion /// /// Script engines present in the scene /// private IScriptModule[] m_scriptEngines; #region Properties /// /// Physical scene representation of this Avatar. /// public PhysicsActor PhysicsActor { get; private set; } /// /// Record user movement inputs. /// public byte MovementFlag { get; private set; } private bool m_updateflag; public bool Updated { set { m_updateflag = value; } get { return m_updateflag; } } private bool m_invulnerable = true; public bool Invulnerable { set { m_invulnerable = value; } get { return m_invulnerable; } } private int m_userLevel; public int UserLevel { get { return m_userLevel; } private set { m_userLevel = value; } } private int m_godLevel; public int GodLevel { get { return m_godLevel; } private set { m_godLevel = value; } } private ulong m_rootRegionHandle; public ulong RegionHandle { get { return m_rootRegionHandle; } private set { m_rootRegionHandle = value; } } #region Client Camera /// /// Position of agent's camera in world (region cordinates) /// protected Vector3 m_lastCameraPosition; public Vector3 CameraPosition { get; set; } public Quaternion CameraRotation { get { return Util.Axes2Rot(CameraAtAxis, CameraLeftAxis, CameraUpAxis); } } // Use these three vectors to figure out what the agent is looking at // Convert it to a Matrix and/or Quaternion // public Vector3 CameraAtAxis { get; set; } public Vector3 CameraLeftAxis { get; set; } public Vector3 CameraUpAxis { get; set; } public Vector3 Lookat { get { Vector3 a = new Vector3(CameraAtAxis.X, CameraAtAxis.Y, 0); if (a == Vector3.Zero) return a; return Util.GetNormalizedVector(a); } } #endregion public string Firstname { get; private set; } public string Lastname { get; private set; } public string Grouptitle { get; set; } // Agent's Draw distance. public float DrawDistance { get; set; } public bool AllowMovement { get; set; } private bool m_setAlwaysRun; public bool SetAlwaysRun { get { if (PhysicsActor != null) { return PhysicsActor.SetAlwaysRun; } else { return m_setAlwaysRun; } } set { m_setAlwaysRun = value; if (PhysicsActor != null) { PhysicsActor.SetAlwaysRun = value; } } } public byte State { get; set; } private AgentManager.ControlFlags m_AgentControlFlags; public uint AgentControlFlags { get { return (uint)m_AgentControlFlags; } set { m_AgentControlFlags = (AgentManager.ControlFlags)value; } } public IClientAPI ControllingClient { get; set; } public IClientCore ClientView { get { return (IClientCore)ControllingClient; } } public Vector3 ParentPosition { get; set; } /// /// Position of this avatar relative to the region the avatar is in /// public override Vector3 AbsolutePosition { get { if (PhysicsActor != null) { m_pos = PhysicsActor.Position; // m_log.DebugFormat( // "[SCENE PRESENCE]: Set position of {0} in {1} to {2} via getting AbsolutePosition!", // Name, Scene.Name, m_pos); } else { // m_log.DebugFormat("[SCENE PRESENCE]: Fetching abs pos where PhysicsActor == null and parent part {0} for {1}", Name, Scene.Name); // Obtain the correct position of a seated avatar. // In addition to providing the correct position while // the avatar is seated, this value will also // be used as the location to unsit to. // // If ParentID is not 0, assume we are a seated avatar // and we should return the position based on the sittarget // offset and rotation of the prim we are seated on. // // Generally, m_pos will contain the position of the avatar // in the sim unless the avatar is on a sit target. While // on a sit target, m_pos will contain the desired offset // without the parent rotation applied. SceneObjectPart sitPart = ParentPart; if (sitPart != null) return sitPart.AbsolutePosition + (m_pos * sitPart.GetWorldRotation()); } return m_pos; } set { // m_log.DebugFormat("[SCENE PRESENCE]: Setting position of {0} to {1} in {2}", Name, value, Scene.Name); // Util.PrintCallStack(); if (PhysicsActor != null) { try { PhysicsActor.Position = value; } catch (Exception e) { m_log.Error("[SCENE PRESENCE]: ABSOLUTE POSITION " + e.Message); } } // Don't update while sitting. The PhysicsActor above is null whilst sitting. if (ParentID == 0) { m_pos = value; ParentPosition = Vector3.Zero; } //m_log.DebugFormat( // "[ENTITY BASE]: In {0} set AbsolutePosition of {1} to {2}", // Scene.RegionInfo.RegionName, Name, m_pos); TriggerScenePresenceUpdated(); } } /// /// If sitting, returns the offset position from the prim the avatar is sitting on. /// Otherwise, returns absolute position in the scene. /// public Vector3 OffsetPosition { get { return m_pos; } // Don't remove setter. It's not currently used in core but // upcoming Avination code needs it. set { // There is no offset position when not seated if (ParentID == 0) return; m_pos = value; TriggerScenePresenceUpdated(); } } /// /// Current velocity of the avatar. /// public override Vector3 Velocity { get { if (PhysicsActor != null) { m_velocity = PhysicsActor.Velocity; // m_log.DebugFormat( // "[SCENE PRESENCE]: Set velocity {0} for {1} in {2} via getting Velocity!", // m_velocity, Name, Scene.RegionInfo.RegionName); } return m_velocity; } set { if (PhysicsActor != null) { try { PhysicsActor.TargetVelocity = value; } catch (Exception e) { m_log.Error("[SCENE PRESENCE]: VELOCITY " + e.Message); } } m_velocity = value; // m_log.DebugFormat( // "[SCENE PRESENCE]: In {0} set velocity of {1} to {2}", // Scene.RegionInfo.RegionName, Name, m_velocity); } } private Quaternion m_bodyRot = Quaternion.Identity; /// /// The rotation of the avatar. /// /// /// If the avatar is not sitting, this is with respect to the world /// If the avatar is sitting, this is a with respect to the part that it's sitting upon (a local rotation). /// If you always want the world rotation, use GetWorldRotation() /// public Quaternion Rotation { get { return m_bodyRot; } set { m_bodyRot = value; if (PhysicsActor != null) PhysicsActor.Orientation = m_bodyRot; // m_log.DebugFormat("[SCENE PRESENCE]: Body rot for {0} set to {1}", Name, m_bodyRot); } } // Used for limited viewer 'fake' user rotations. private Vector3 m_AngularVelocity = Vector3.Zero; public Vector3 AngularVelocity { get { return m_AngularVelocity; } } public bool IsChildAgent { get; set; } /// /// If the avatar is sitting, the local ID of the prim that it's sitting on. If not sitting then zero. /// public uint ParentID { get; set; } /// /// Are we sitting on an object? /// /// A more readable way of testing presence sit status than ParentID == 0 public bool IsSatOnObject { get { return ParentID != 0; } } /// /// If the avatar is sitting, the prim that it's sitting on. If not sitting then null. /// /// /// If you use this property then you must take a reference since another thread could set it to null. /// public SceneObjectPart ParentPart { get; set; } public float Health { get { return m_health; } set { m_health = value; } } /// /// Gets the world rotation of this presence. /// /// /// Unlike Rotation, this returns the world rotation no matter whether the avatar is sitting on a prim or not. /// /// public Quaternion GetWorldRotation() { if (IsSatOnObject) { SceneObjectPart sitPart = ParentPart; if (sitPart != null) return sitPart.GetWorldRotation() * Rotation; } return Rotation; } public void AdjustKnownSeeds() { Dictionary seeds; if (Scene.CapsModule != null) seeds = Scene.CapsModule.GetChildrenSeeds(UUID); else seeds = new Dictionary(); List old = new List(); foreach (ulong handle in seeds.Keys) { uint x, y; Utils.LongToUInts(handle, out x, out y); x = x / Constants.RegionSize; y = y / Constants.RegionSize; if (Util.IsOutsideView(DrawDistance, x, Scene.RegionInfo.RegionLocX, y, Scene.RegionInfo.RegionLocY)) { old.Add(handle); } } DropOldNeighbours(old); if (Scene.CapsModule != null) Scene.CapsModule.SetChildrenSeed(UUID, seeds); KnownRegions = seeds; //m_log.Debug(" ++++++++++AFTER+++++++++++++ "); //DumpKnownRegions(); } public void DumpKnownRegions() { m_log.Info("================ KnownRegions "+Scene.RegionInfo.RegionName+" ================"); foreach (KeyValuePair kvp in KnownRegions) { uint x, y; Utils.LongToUInts(kvp.Key, out x, out y); x = x / Constants.RegionSize; y = y / Constants.RegionSize; m_log.Info(" >> "+x+", "+y+": "+kvp.Value); } } private bool m_mouseLook; private bool m_leftButtonDown; private bool m_inTransit; /// /// This signals whether the presence is in transit between neighbouring regions. /// /// /// It is not set when the presence is teleporting or logging in/out directly to a region. /// public bool IsInTransit { get { return m_inTransit; } set { if(value) { if (Flying) m_AgentControlFlags |= AgentManager.ControlFlags.AGENT_CONTROL_FLY; else m_AgentControlFlags &= ~AgentManager.ControlFlags.AGENT_CONTROL_FLY; } m_inTransit = value; } } private float m_speedModifier = 1.0f; public float SpeedModifier { get { return m_speedModifier; } set { m_speedModifier = value; } } private bool m_forceFly; public bool ForceFly { get { return m_forceFly; } set { m_forceFly = value; } } private bool m_flyDisabled; public bool FlyDisabled { get { return m_flyDisabled; } set { m_flyDisabled = value; } } public string Viewer { get { return m_scene.AuthenticateHandler.GetAgentCircuitData(ControllingClient.CircuitCode).Viewer; } } #endregion #region Constructor(s) public ScenePresence( IClientAPI client, Scene world, AvatarAppearance appearance, PresenceType type) { AttachmentsSyncLock = new Object(); AllowMovement = true; IsChildAgent = true; m_sendCoarseLocationsMethod = SendCoarseLocationsDefault; Animator = new ScenePresenceAnimator(this); PresenceType = type; DrawDistance = world.DefaultDrawDistance; RegionHandle = world.RegionInfo.RegionHandle; ControllingClient = client; Firstname = ControllingClient.FirstName; Lastname = ControllingClient.LastName; m_name = String.Format("{0} {1}", Firstname, Lastname); m_scene = world; m_uuid = client.AgentId; LocalId = m_scene.AllocateLocalId(); UserAccount account = m_scene.UserAccountService.GetUserAccount(m_scene.RegionInfo.ScopeID, m_uuid); if (account != null) m_userFlags = account.UserFlags; else m_userFlags = 0; if (account != null) UserLevel = account.UserLevel; IGroupsModule gm = m_scene.RequestModuleInterface(); if (gm != null) Grouptitle = gm.GetGroupTitle(m_uuid); m_scriptEngines = m_scene.RequestModuleInterfaces(); AbsolutePosition = posLastSignificantMove = CameraPosition = m_lastCameraPosition = ControllingClient.StartPos; m_reprioritization_timer = new Timer(world.ReprioritizationInterval); m_reprioritization_timer.Elapsed += new ElapsedEventHandler(Reprioritize); m_reprioritization_timer.AutoReset = false; AdjustKnownSeeds(); RegisterToEvents(); SetDirectionVectors(); Appearance = appearance; m_stateMachine = new ScenePresenceStateMachine(this); } public void RegisterToEvents() { ControllingClient.OnCompleteMovementToRegion += CompleteMovement; ControllingClient.OnAgentUpdate += HandleAgentUpdate; ControllingClient.OnAgentCameraUpdate += HandleAgentCamerasUpdate; ControllingClient.OnAgentRequestSit += HandleAgentRequestSit; ControllingClient.OnAgentSit += HandleAgentSit; ControllingClient.OnSetAlwaysRun += HandleSetAlwaysRun; ControllingClient.OnStartAnim += HandleStartAnim; ControllingClient.OnStopAnim += HandleStopAnim; ControllingClient.OnForceReleaseControls += HandleForceReleaseControls; ControllingClient.OnAutoPilotGo += MoveToTarget; // ControllingClient.OnChildAgentStatus += new StatusChange(this.ChildStatusChange); // ControllingClient.OnStopMovement += new GenericCall2(this.StopMovement); } private void SetDirectionVectors() { Dir_Vectors[0] = Vector3.UnitX; //FORWARD Dir_Vectors[1] = -Vector3.UnitX; //BACK Dir_Vectors[2] = Vector3.UnitY; //LEFT Dir_Vectors[3] = -Vector3.UnitY; //RIGHT Dir_Vectors[4] = Vector3.UnitZ; //UP Dir_Vectors[5] = -Vector3.UnitZ; //DOWN Dir_Vectors[6] = new Vector3(0.5f, 0f, 0f); //FORWARD_NUDGE Dir_Vectors[7] = new Vector3(-0.5f, 0f, 0f); //BACK_NUDGE Dir_Vectors[8] = new Vector3(0f, 0.5f, 0f); //LEFT_NUDGE Dir_Vectors[9] = new Vector3(0f, -0.5f, 0f); //RIGHT_NUDGE Dir_Vectors[10] = new Vector3(0f, 0f, -0.5f); //DOWN_Nudge } private Vector3[] GetWalkDirectionVectors() { Vector3[] vector = new Vector3[11]; vector[0] = new Vector3(CameraUpAxis.Z, 0f, -CameraAtAxis.Z); //FORWARD vector[1] = new Vector3(-CameraUpAxis.Z, 0f, CameraAtAxis.Z); //BACK vector[2] = Vector3.UnitY; //LEFT vector[3] = -Vector3.UnitY; //RIGHT vector[4] = new Vector3(CameraAtAxis.Z, 0f, CameraUpAxis.Z); //UP vector[5] = new Vector3(-CameraAtAxis.Z, 0f, -CameraUpAxis.Z); //DOWN vector[6] = new Vector3(CameraUpAxis.Z, 0f, -CameraAtAxis.Z); //FORWARD_NUDGE vector[7] = new Vector3(-CameraUpAxis.Z, 0f, CameraAtAxis.Z); //BACK_NUDGE vector[8] = Vector3.UnitY; //LEFT_NUDGE vector[9] = -Vector3.UnitY; //RIGHT_NUDGE vector[10] = new Vector3(-CameraAtAxis.Z, 0f, -CameraUpAxis.Z); //DOWN_NUDGE return vector; } #endregion #region Status Methods /// /// Turns a child agent into a root agent. /// /// Child agents are logged into neighbouring sims largely to observe changes. Root agents exist when the /// avatar is actual in the sim. They can perform all actions. /// This change is made whenever an avatar enters a region, whether by crossing over from a neighbouring sim, /// teleporting in or on initial login. /// /// This method is on the critical path for transferring an avatar from one region to another. Delay here /// delays that crossing. /// private void MakeRootAgent(Vector3 pos, bool isFlying) { // m_log.InfoFormat( // "[SCENE]: Upgrading child to root agent for {0} in {1}", // Name, m_scene.RegionInfo.RegionName); //m_log.DebugFormat("[SCENE]: known regions in {0}: {1}", Scene.RegionInfo.RegionName, KnownChildRegionHandles.Count); IsChildAgent = false; // Must reset this here so that a teleport to a region next to an existing region does not keep the flag // set and prevent the close of the connection on a subsequent re-teleport. // Should not be needed if we are not trying to tell this region to close // DoNotCloseAfterTeleport = false; IGroupsModule gm = m_scene.RequestModuleInterface(); if (gm != null) Grouptitle = gm.GetGroupTitle(m_uuid); RegionHandle = m_scene.RegionInfo.RegionHandle; m_scene.EventManager.TriggerSetRootAgentScene(m_uuid, m_scene); // Moved this from SendInitialData to ensure that Appearance is initialized // before the inventory is processed in MakeRootAgent. This fixes a race condition // related to the handling of attachments //m_scene.GetAvatarAppearance(ControllingClient, out Appearance); if (m_scene.TestBorderCross(pos, Cardinals.E)) { Border crossedBorder = m_scene.GetCrossedBorder(pos, Cardinals.E); pos.X = crossedBorder.BorderLine.Z - 1; } if (m_scene.TestBorderCross(pos, Cardinals.N)) { Border crossedBorder = m_scene.GetCrossedBorder(pos, Cardinals.N); pos.Y = crossedBorder.BorderLine.Z - 1; } CheckAndAdjustLandingPoint(ref pos); if (pos.X < 0f || pos.Y < 0f || pos.Z < 0f) { m_log.WarnFormat( "[SCENE PRESENCE]: MakeRootAgent() was given an illegal position of {0} for avatar {1}, {2}. Clamping", pos, Name, UUID); if (pos.X < 0f) pos.X = 0f; if (pos.Y < 0f) pos.Y = 0f; if (pos.Z < 0f) pos.Z = 0f; } float localAVHeight = 1.56f; if (Appearance.AvatarHeight > 0) localAVHeight = Appearance.AvatarHeight; float posZLimit = 0; if (pos.X < Constants.RegionSize && pos.Y < Constants.RegionSize) posZLimit = (float)m_scene.Heightmap[(int)pos.X, (int)pos.Y]; float newPosZ = posZLimit + localAVHeight / 2; if (posZLimit >= (pos.Z - (localAVHeight / 2)) && !(Single.IsInfinity(newPosZ) || Single.IsNaN(newPosZ))) { pos.Z = newPosZ; } AbsolutePosition = pos; AddToPhysicalScene(isFlying); // XXX: This is to trigger any secondary teleport needed for a megaregion when the user has teleported to a // location outside the 'root region' (the south-west 256x256 corner). This is the earlist we can do it // since it requires a physics actor to be present. If it is left any later, then physics appears to reset // the value to a negative position which does not trigger the border cross. // This may not be the best location for this. CheckForBorderCrossing(); if (ForceFly) { Flying = true; } else if (FlyDisabled) { Flying = false; } // Don't send an animation pack here, since on a region crossing this will sometimes cause a flying // avatar to return to the standing position in mid-air. On login it looks like this is being sent // elsewhere anyway // Animator.SendAnimPack(); m_scene.SwapRootAgentCount(false); // The initial login scene presence is already root when it gets here // and it has already rezzed the attachments and started their scripts. // We do the following only for non-login agents, because their scripts // haven't started yet. if (PresenceType == PresenceType.Npc || (TeleportFlags & TeleportFlags.ViaLogin) != 0) { // Viewers which have a current outfit folder will actually rez their own attachments. However, // viewers without (e.g. v1 viewers) will not, so we still need to make this call. if (Scene.AttachmentsModule != null) Util.FireAndForget( o => { // if (PresenceType != PresenceType.Npc && Util.FireAndForgetMethod != FireAndForgetMethod.None) // System.Threading.Thread.Sleep(7000); Scene.AttachmentsModule.RezAttachments(this); }); } else { // We need to restart scripts here so that they receive the correct changed events (CHANGED_TELEPORT // and CHANGED_REGION) when the attachments have been rezzed in the new region. This cannot currently // be done in AttachmentsModule.CopyAttachments(AgentData ad, IScenePresence sp) itself since we are // not transporting the required data. // // We must take a copy of the attachments list here (rather than locking) to avoid a deadlock where a script in one of // the attachments may start processing an event (which locks ScriptInstance.m_Script) that then calls a method here // which needs to lock m_attachments. ResumeScripts() needs to take a ScriptInstance.m_Script lock to try to unset the Suspend status. // // FIXME: In theory, this deadlock should not arise since scripts should not be processing events until ResumeScripts(). // But XEngine starts all scripts unsuspended. Starting them suspended will not currently work because script rezzing // is placed in an asynchronous queue in XEngine and so the ResumeScripts() call will almost certainly execute before the // script is rezzed. This means the ResumeScripts() does absolutely nothing when using XEngine. List attachments = GetAttachments(); if (attachments.Count > 0) { m_log.DebugFormat( "[SCENE PRESENCE]: Restarting scripts in attachments for {0} in {1}", Name, Scene.Name); // Resume scripts foreach (SceneObjectGroup sog in attachments) { sog.RootPart.ParentGroup.CreateScriptInstances(0, false, m_scene.DefaultScriptEngine, GetStateSource()); sog.ResumeScripts(); } } } // send the animations of the other presences to me m_scene.ForEachRootScenePresence(delegate(ScenePresence presence) { if (presence != this) presence.Animator.SendAnimPackToClient(ControllingClient); }); // If we don't reset the movement flag here, an avatar that crosses to a neighbouring sim and returns will // stall on the border crossing since the existing child agent will still have the last movement // recorded, which stops the input from being processed. MovementFlag = 0; m_scene.EventManager.TriggerOnMakeRootAgent(this); } public int GetStateSource() { AgentCircuitData aCircuit = m_scene.AuthenticateHandler.GetAgentCircuitData(UUID); if (aCircuit != null && (aCircuit.teleportFlags != (uint)TeleportFlags.Default)) { // This will get your attention //m_log.Error("[XXX] Triggering CHANGED_TELEPORT"); return 5; // StateSource.Teleporting } return 2; // StateSource.PrimCrossing } /// /// This turns a root agent into a child agent /// /// /// when an agent departs this region for a neighbor, this gets called. /// /// It doesn't get called for a teleport. Reason being, an agent that /// teleports out may not end up anywhere near this region /// public void MakeChildAgent() { m_log.DebugFormat("[SCENE PRESENCE]: Making {0} a child agent in {1}", Name, Scene.RegionInfo.RegionName); // Reset these so that teleporting in and walking out isn't seen // as teleporting back TeleportFlags = TeleportFlags.Default; // It looks like Animator is set to null somewhere, and MakeChild // is called after that. Probably in aborted teleports. if (Animator == null) Animator = new ScenePresenceAnimator(this); else Animator.ResetAnimations(); // m_log.DebugFormat( // "[SCENE PRESENCE]: Downgrading root agent {0}, {1} to a child agent in {2}", // Name, UUID, m_scene.RegionInfo.RegionName); // Don't zero out the velocity since this can cause problems when an avatar is making a region crossing, // depending on the exact timing. This shouldn't matter anyway since child agent positions are not updated. //Velocity = new Vector3(0, 0, 0); IsChildAgent = true; m_scene.SwapRootAgentCount(true); RemoveFromPhysicalScene(); // FIXME: Set RegionHandle to the region handle of the scene this agent is moving into m_scene.EventManager.TriggerOnMakeChildAgent(this); } /// /// Removes physics plugin scene representation of this agent if it exists. /// public void RemoveFromPhysicalScene() { if (PhysicsActor != null) { // PhysicsActor.OnRequestTerseUpdate -= SendTerseUpdateToAllClients; PhysicsActor.OnOutOfBounds -= OutOfBoundsCall; m_scene.PhysicsScene.RemoveAvatar(PhysicsActor); PhysicsActor.UnSubscribeEvents(); PhysicsActor.OnCollisionUpdate -= PhysicsCollisionUpdate; PhysicsActor = null; } // else // { // m_log.ErrorFormat( // "[SCENE PRESENCE]: Attempt to remove physics actor for {0} on {1} but this scene presence has no physics actor", // Name, Scene.RegionInfo.RegionName); // } } /// /// Do not call this directly. Call Scene.RequestTeleportLocation() instead. /// /// public void Teleport(Vector3 pos) { TeleportWithMomentum(pos, null); } public void TeleportWithMomentum(Vector3 pos, Vector3? v) { if (ParentID != (uint)0) StandUp(); bool isFlying = Flying; Vector3 vel = Velocity; RemoveFromPhysicalScene(); CheckLandingPoint(ref pos); AbsolutePosition = pos; AddToPhysicalScene(isFlying); if (PhysicsActor != null) { if (v.HasValue) PhysicsActor.SetMomentum((Vector3)v); else PhysicsActor.SetMomentum(vel); } SendTerseUpdateToAllClients(); } public void StopFlying() { Vector3 pos = AbsolutePosition; if (Appearance.AvatarHeight != 127.0f) pos += new Vector3(0f, 0f, (Appearance.AvatarHeight / 6f)); else pos += new Vector3(0f, 0f, (1.56f / 6f)); AbsolutePosition = pos; // attach a suitable collision plane regardless of the actual situation to force the LLClient to land. // Collision plane below the avatar's position a 6th of the avatar's height is suitable. // Mind you, that this method doesn't get called if the avatar's velocity magnitude is greater then a // certain amount.. because the LLClient wouldn't land in that situation anyway. // why are we still testing for this really old height value default??? if (Appearance.AvatarHeight != 127.0f) CollisionPlane = new Vector4(0, 0, 0, pos.Z - Appearance.AvatarHeight / 6f); else CollisionPlane = new Vector4(0, 0, 0, pos.Z - (1.56f / 6f)); ControllingClient.SendAgentTerseUpdate(this); } /// /// Applies a roll accumulator to the avatar's angular velocity for the avatar fly roll effect. /// /// Postive or negative roll amount in radians private void ApplyFlyingRoll(float amount, bool PressingUp, bool PressingDown) { float rollAmount = Util.Clamp(m_AngularVelocity.Z + amount, -FLY_ROLL_MAX_RADIANS, FLY_ROLL_MAX_RADIANS); m_AngularVelocity.Z = rollAmount; // APPLY EXTRA consideration for flying up and flying down during this time. // if we're turning left if (amount > 0) { // If we're at the max roll and pressing up, we want to swing BACK a bit // Automatically adds noise if (PressingUp) { if (m_AngularVelocity.Z >= FLY_ROLL_MAX_RADIANS - 0.04f) m_AngularVelocity.Z -= 0.9f; } // If we're at the max roll and pressing down, we want to swing MORE a bit if (PressingDown) { if (m_AngularVelocity.Z >= FLY_ROLL_MAX_RADIANS && m_AngularVelocity.Z < FLY_ROLL_MAX_RADIANS + 0.6f) m_AngularVelocity.Z += 0.6f; } } else // we're turning right. { // If we're at the max roll and pressing up, we want to swing BACK a bit // Automatically adds noise if (PressingUp) { if (m_AngularVelocity.Z <= (-FLY_ROLL_MAX_RADIANS)) m_AngularVelocity.Z += 0.6f; } // If we're at the max roll and pressing down, we want to swing MORE a bit if (PressingDown) { if (m_AngularVelocity.Z >= -FLY_ROLL_MAX_RADIANS - 0.6f) m_AngularVelocity.Z -= 0.6f; } } } /// /// incrementally sets roll amount to zero /// /// Positive roll amount in radians /// private float CalculateFlyingRollResetToZero(float amount) { const float rollMinRadians = 0f; if (m_AngularVelocity.Z > 0) { float leftOverToMin = m_AngularVelocity.Z - rollMinRadians; if (amount > leftOverToMin) return -leftOverToMin; else return -amount; } else { float leftOverToMin = -m_AngularVelocity.Z - rollMinRadians; if (amount > leftOverToMin) return leftOverToMin; else return amount; } } // neighbouring regions we have enabled a child agent in // holds the seed cap for the child agent in that region private Dictionary m_knownChildRegions = new Dictionary(); public void AddNeighbourRegion(ulong regionHandle, string cap) { lock (m_knownChildRegions) { if (!m_knownChildRegions.ContainsKey(regionHandle)) { uint x, y; Utils.LongToUInts(regionHandle, out x, out y); m_knownChildRegions.Add(regionHandle, cap); } } } public void RemoveNeighbourRegion(ulong regionHandle) { lock (m_knownChildRegions) { // Checking ContainsKey is redundant as Remove works either way and returns a bool // This is here to allow the Debug output to be conditional on removal //if (m_knownChildRegions.ContainsKey(regionHandle)) // m_log.DebugFormat(" !!! removing known region {0} in {1}. Count = {2}", regionHandle, Scene.RegionInfo.RegionName, m_knownChildRegions.Count); m_knownChildRegions.Remove(regionHandle); } } public void DropOldNeighbours(List oldRegions) { foreach (ulong handle in oldRegions) { RemoveNeighbourRegion(handle); Scene.CapsModule.DropChildSeed(UUID, handle); } } public Dictionary KnownRegions { get { lock (m_knownChildRegions) return new Dictionary(m_knownChildRegions); } set { // Replacing the reference is atomic but we still need to lock on // the original dictionary object which may be in use elsewhere lock (m_knownChildRegions) m_knownChildRegions = value; } } public List KnownRegionHandles { get { return new List(KnownRegions.Keys); } } public int KnownRegionCount { get { lock (m_knownChildRegions) return m_knownChildRegions.Count; } } #endregion #region Event Handlers /// /// Sets avatar height in the physics plugin /// /// New height of avatar public void SetHeight(float height) { if (PhysicsActor != null && !IsChildAgent) PhysicsActor.Size = new Vector3(0.45f, 0.6f, height); } private bool WaitForUpdateAgent(IClientAPI client) { // Before the source region executes UpdateAgent // (which triggers Scene.IncomingUpdateChildAgent(AgentData cAgentData) here in the destination, // m_originRegionID is UUID.Zero; after, it's non-Zero. The CompleteMovement sequence initiated from the // viewer (in turn triggered by the source region sending it a TeleportFinish event) waits until it's non-zero int count = 50; UUID originID; lock (m_originRegionIDAccessLock) originID = m_originRegionID; while (originID.Equals(UUID.Zero) && count-- > 0) { lock (m_originRegionIDAccessLock) originID = m_originRegionID; m_log.DebugFormat("[SCENE PRESENCE]: Agent {0} waiting for update in {1}", client.Name, Scene.Name); Thread.Sleep(200); } if (originID.Equals(UUID.Zero)) { // Movement into region will fail m_log.WarnFormat("[SCENE PRESENCE]: Update agent {0} never arrived in {1}", client.Name, Scene.Name); return false; } return true; } /// /// Complete Avatar's movement into the region. /// /// /// /// If true, send notification to neighbour regions to expect /// a child agent from the client. These neighbours can be some distance away, depending right now on the /// configuration of DefaultDrawDistance in the [Startup] section of config /// public void CompleteMovement(IClientAPI client, bool openChildAgents) { // DateTime startTime = DateTime.Now; m_log.InfoFormat( "[SCENE PRESENCE]: Completing movement of {0} into region {1} in position {2}", client.Name, Scene.Name, AbsolutePosition); // Make sure it's not a login agent. We don't want to wait for updates during login if (PresenceType != PresenceType.Npc && (m_teleportFlags & TeleportFlags.ViaLogin) == 0) { // Let's wait until UpdateAgent (called by departing region) is done if (!WaitForUpdateAgent(client)) // The sending region never sent the UpdateAgent data, we have to refuse return; } Vector3 look = Velocity; if ((look.X == 0) && (look.Y == 0) && (look.Z == 0)) { look = new Vector3(0.99f, 0.042f, 0); } // Prevent teleporting to an underground location // (may crash client otherwise) // Vector3 pos = AbsolutePosition; float ground = m_scene.GetGroundHeight(pos.X, pos.Y); if (pos.Z < ground + 1.5f) { pos.Z = ground + 1.5f; AbsolutePosition = pos; } bool flying = ((m_AgentControlFlags & AgentManager.ControlFlags.AGENT_CONTROL_FLY) != 0); MakeRootAgent(AbsolutePosition, flying); // Tell the client that we're totally ready ControllingClient.MoveAgentIntoRegion(m_scene.RegionInfo, AbsolutePosition, look); // Remember in HandleUseCircuitCode, we delayed this to here if (m_teleportFlags > 0) SendInitialDataToMe(); // m_log.DebugFormat("[SCENE PRESENCE] Completed movement"); if (!string.IsNullOrEmpty(m_callbackURI)) { // We cannot sleep here since this would hold up the inbound packet processing thread, as // CompleteMovement() is executed synchronously. However, it might be better to delay the release // here until we know for sure that the agent is active in this region. Sending AgentMovementComplete // is not enough for Imprudence clients - there appears to be a small delay (<200ms, <500ms) until they regard this // region as the current region, meaning that a close sent before then will fail the teleport. // System.Threading.Thread.Sleep(2000); m_log.DebugFormat( "[SCENE PRESENCE]: Releasing {0} {1} with callback to {2}", client.Name, client.AgentId, m_callbackURI); UUID originID; lock (m_originRegionIDAccessLock) originID = m_originRegionID; Scene.SimulationService.ReleaseAgent(originID, UUID, m_callbackURI); m_callbackURI = null; } // else // { // m_log.DebugFormat( // "[SCENE PRESENCE]: No callback provided on CompleteMovement of {0} {1} to {2}", // client.Name, client.AgentId, m_scene.RegionInfo.RegionName); // } ValidateAndSendAppearanceAndAgentData(); // Create child agents in neighbouring regions if (openChildAgents && !IsChildAgent) { IEntityTransferModule m_agentTransfer = m_scene.RequestModuleInterface(); if (m_agentTransfer != null) Util.FireAndForget(delegate { m_agentTransfer.EnableChildAgents(this); }); IFriendsModule friendsModule = m_scene.RequestModuleInterface(); if (friendsModule != null) friendsModule.SendFriendsOnlineIfNeeded(ControllingClient); } // XXX: If we force an update here, then multiple attachments do appear correctly on a destination region // If we do it a little bit earlier (e.g. when converting the child to a root agent) then this does not work. // This may be due to viewer code or it may be something we're not doing properly simulator side. lock (m_attachments) { foreach (SceneObjectGroup sog in m_attachments) sog.ScheduleGroupForFullUpdate(); } // m_log.DebugFormat( // "[SCENE PRESENCE]: Completing movement of {0} into region {1} took {2}ms", // client.Name, Scene.RegionInfo.RegionName, (DateTime.Now - startTime).Milliseconds); } /// /// Callback for the Camera view block check. Gets called with the results of the camera view block test /// hitYN is true when there's something in the way. /// /// /// /// /// public void RayCastCameraCallback(bool hitYN, Vector3 collisionPoint, uint localid, float distance, Vector3 pNormal) { const float POSITION_TOLERANCE = 0.02f; const float VELOCITY_TOLERANCE = 0.02f; const float ROTATION_TOLERANCE = 0.02f; if (m_followCamAuto) { if (hitYN) { CameraConstraintActive = true; //m_log.DebugFormat("[RAYCASTRESULT]: {0}, {1}, {2}, {3}", hitYN, collisionPoint, localid, distance); Vector3 normal = Vector3.Normalize(new Vector3(0f, 0f, collisionPoint.Z) - collisionPoint); ControllingClient.SendCameraConstraint(new Vector4(normal.X, normal.Y, normal.Z, -1 * Vector3.Distance(new Vector3(0,0,collisionPoint.Z),collisionPoint))); } else { if (!m_pos.ApproxEquals(m_lastPosition, POSITION_TOLERANCE) || !Velocity.ApproxEquals(m_lastVelocity, VELOCITY_TOLERANCE) || !Rotation.ApproxEquals(m_lastRotation, ROTATION_TOLERANCE)) { if (CameraConstraintActive) { ControllingClient.SendCameraConstraint(new Vector4(0f, 0.5f, 0.9f, -3000f)); CameraConstraintActive = false; } } } } } /// /// This is the event handler for client movement. If a client is moving, this event is triggering. /// public void HandleAgentUpdate(IClientAPI remoteClient, AgentUpdateArgs agentData) { //m_log.DebugFormat( // "[SCENE PRESENCE]: In {0} received agent update from {1}, flags {2}", // Scene.RegionInfo.RegionName, remoteClient.Name, (AgentManager.ControlFlags)agentData.ControlFlags); if (IsChildAgent) { // // m_log.Debug("DEBUG: HandleAgentUpdate: child agent"); return; } #region Sanity Checking // This is irritating. Really. if (!AbsolutePosition.IsFinite()) { RemoveFromPhysicalScene(); m_log.Error("[AVATAR]: NonFinite Avatar position detected... Reset Position. Mantis this please. Error #9999902"); m_pos = m_LastFinitePos; if (!m_pos.IsFinite()) { m_pos.X = 127f; m_pos.Y = 127f; m_pos.Z = 127f; m_log.Error("[AVATAR]: NonFinite Avatar position detected... Reset Position. Mantis this please. Error #9999903"); } AddToPhysicalScene(false); } else { m_LastFinitePos = m_pos; } #endregion Sanity Checking #region Inputs AgentManager.ControlFlags flags = (AgentManager.ControlFlags)agentData.ControlFlags; // The Agent's Draw distance setting // When we get to the point of re-computing neighbors everytime this // changes, then start using the agent's drawdistance rather than the // region's draw distance. // DrawDistance = agentData.Far; DrawDistance = Scene.DefaultDrawDistance; m_mouseLook = (flags & AgentManager.ControlFlags.AGENT_CONTROL_MOUSELOOK) != 0; m_leftButtonDown = (flags & AgentManager.ControlFlags.AGENT_CONTROL_LBUTTON_DOWN) != 0; #endregion Inputs // // Make anims work for client side autopilot // if ((flags & AgentManager.ControlFlags.AGENT_CONTROL_AT_POS) != 0) // m_updateCount = UPDATE_COUNT; // // // Make turning in place work // if ((flags & AgentManager.ControlFlags.AGENT_CONTROL_YAW_POS) != 0 || // (flags & AgentManager.ControlFlags.AGENT_CONTROL_YAW_NEG) != 0) // m_updateCount = UPDATE_COUNT; if ((flags & AgentManager.ControlFlags.AGENT_CONTROL_STAND_UP) != 0) { StandUp(); } uint flagsForScripts = (uint)flags; flags = RemoveIgnoredControls(flags, IgnoredControls); if ((flags & AgentManager.ControlFlags.AGENT_CONTROL_SIT_ON_GROUND) != 0) HandleAgentSitOnGround(); // In the future, these values might need to go global. // Here's where you get them. m_AgentControlFlags = flags; m_headrotation = agentData.HeadRotation; byte oldState = State; State = agentData.State; // We need to send this back to the client in order to stop the edit beams if ((oldState & (uint)AgentState.Editing) != 0 && State == (uint)AgentState.None) ControllingClient.SendAgentTerseUpdate(this); PhysicsActor actor = PhysicsActor; if (actor == null) { SendControlsToScripts(flagsForScripts); return; } if (AllowMovement && !SitGround) { Quaternion bodyRotation = agentData.BodyRotation; bool update_rotation = false; if (bodyRotation != Rotation) { Rotation = bodyRotation; update_rotation = true; } bool update_movementflag = false; if (agentData.UseClientAgentPosition) { MovingToTarget = (agentData.ClientAgentPosition - AbsolutePosition).Length() > 0.2f; MoveToPositionTarget = agentData.ClientAgentPosition; } int i = 0; bool DCFlagKeyPressed = false; Vector3 agent_control_v3 = Vector3.Zero; bool newFlying = actor.Flying; if (ForceFly) newFlying = true; else if (FlyDisabled) newFlying = false; else newFlying = ((flags & AgentManager.ControlFlags.AGENT_CONTROL_FLY) != 0); if (actor.Flying != newFlying) { // Note: ScenePresence.Flying is actually fetched from the physical actor // so setting PhysActor.Flying here also sets the ScenePresence's value. actor.Flying = newFlying; update_movementflag = true; } if (ParentID == 0) { bool bAllowUpdateMoveToPosition = false; Vector3[] dirVectors; // use camera up angle when in mouselook and not flying or when holding the left mouse button down and not flying // this prevents 'jumping' in inappropriate situations. if (!Flying && (m_mouseLook || m_leftButtonDown)) dirVectors = GetWalkDirectionVectors(); else dirVectors = Dir_Vectors; // The fact that MovementFlag is a byte needs to be fixed // it really should be a uint // A DIR_CONTROL_FLAG occurs when the user is trying to move in a particular direction. uint nudgehack = 250; foreach (Dir_ControlFlags DCF in DIR_CONTROL_FLAGS) { if (((uint)flags & (uint)DCF) != 0) { DCFlagKeyPressed = true; try { agent_control_v3 += dirVectors[i]; //m_log.DebugFormat("[Motion]: {0}, {1}",i, dirVectors[i]); } catch (IndexOutOfRangeException) { // Why did I get this? } if ((MovementFlag & (byte)(uint)DCF) == 0) { if (DCF == Dir_ControlFlags.DIR_CONTROL_FLAG_FORWARD_NUDGE || DCF == Dir_ControlFlags.DIR_CONTROL_FLAG_BACKWARD_NUDGE || DCF == Dir_ControlFlags.DIR_CONTROL_FLAG_LEFT_NUDGE || DCF == Dir_ControlFlags.DIR_CONTROL_FLAG_RIGHT_NUDGE) { MovementFlag |= (byte)nudgehack; } //m_log.DebugFormat("[SCENE PRESENCE]: Updating MovementFlag for {0} with {1}", Name, DCF); MovementFlag += (byte)(uint)DCF; update_movementflag = true; } } else { if ((MovementFlag & (byte)(uint)DCF) != 0 || ((DCF == Dir_ControlFlags.DIR_CONTROL_FLAG_FORWARD_NUDGE || DCF == Dir_ControlFlags.DIR_CONTROL_FLAG_BACKWARD_NUDGE || DCF == Dir_ControlFlags.DIR_CONTROL_FLAG_LEFT_NUDGE || DCF == Dir_ControlFlags.DIR_CONTROL_FLAG_RIGHT_NUDGE) && ((MovementFlag & (byte)nudgehack) == nudgehack)) ) // This or is for Nudge forward { //m_log.DebugFormat("[SCENE PRESENCE]: Updating MovementFlag for {0} with lack of {1}", Name, DCF); MovementFlag -= ((byte)(uint)DCF); update_movementflag = true; /* if ((DCF == Dir_ControlFlags.DIR_CONTROL_FLAG_FORWARD_NUDGE || DCF == Dir_ControlFlags.DIR_CONTROL_FLAG_BACKWARD_NUDGE) && ((MovementFlag & (byte)nudgehack) == nudgehack)) { m_log.Debug("Removed Hack flag"); } */ } else { bAllowUpdateMoveToPosition = true; } } i++; } if (MovingToTarget) { // If the user has pressed a key then we want to cancel any move to target. if (DCFlagKeyPressed) { ResetMoveToTarget(); update_movementflag = true; } else if (bAllowUpdateMoveToPosition) { // The UseClientAgentPosition is set if parcel ban is forcing the avatar to move to a // certain position. It's only check for tolerance on returning to that position is 0.2 // rather than 1, at which point it removes its force target. if (HandleMoveToTargetUpdate(agentData.UseClientAgentPosition ? 0.2 : 1, ref agent_control_v3)) update_movementflag = true; } } } // Cause the avatar to stop flying if it's colliding // with something with the down arrow pressed. // Only do this if we're flying if (Flying && !ForceFly) { // Landing detection code // Are the landing controls requirements filled? bool controlland = (((flags & AgentManager.ControlFlags.AGENT_CONTROL_UP_NEG) != 0) || ((flags & AgentManager.ControlFlags.AGENT_CONTROL_NUDGE_UP_NEG) != 0)); //m_log.Debug("[CONTROL]: " +flags); // Applies a satisfying roll effect to the avatar when flying. if ((flags & AgentManager.ControlFlags.AGENT_CONTROL_TURN_LEFT) != 0 && (flags & AgentManager.ControlFlags.AGENT_CONTROL_YAW_POS) != 0) { ApplyFlyingRoll( FLY_ROLL_RADIANS_PER_UPDATE, (flags & AgentManager.ControlFlags.AGENT_CONTROL_UP_POS) != 0, (flags & AgentManager.ControlFlags.AGENT_CONTROL_UP_NEG) != 0); } else if ((flags & AgentManager.ControlFlags.AGENT_CONTROL_TURN_RIGHT) != 0 && (flags & AgentManager.ControlFlags.AGENT_CONTROL_YAW_NEG) != 0) { ApplyFlyingRoll( -FLY_ROLL_RADIANS_PER_UPDATE, (flags & AgentManager.ControlFlags.AGENT_CONTROL_UP_POS) != 0, (flags & AgentManager.ControlFlags.AGENT_CONTROL_UP_NEG) != 0); } else { if (m_AngularVelocity.Z != 0) m_AngularVelocity.Z += CalculateFlyingRollResetToZero(FLY_ROLL_RESET_RADIANS_PER_UPDATE); } if (Flying && IsColliding && controlland) { // nesting this check because LengthSquared() is expensive and we don't // want to do it every step when flying. if ((Velocity.LengthSquared() <= LAND_VELOCITYMAG_MAX)) StopFlying(); } } // If the agent update does move the avatar, then calculate the force ready for the velocity update, // which occurs later in the main scene loop if (update_movementflag || (update_rotation && DCFlagKeyPressed)) { // m_log.DebugFormat( // "[SCENE PRESENCE]: In {0} adding velocity of {1} to {2}, umf = {3}, ur = {4}", // m_scene.RegionInfo.RegionName, agent_control_v3, Name, update_movementflag, update_rotation); AddNewMovement(agent_control_v3); } // else // { // if (!update_movementflag) // { // m_log.DebugFormat( // "[SCENE PRESENCE]: In {0} ignoring requested update of {1} for {2} as update_movementflag = false", // m_scene.RegionInfo.RegionName, agent_control_v3, Name); // } // } if (update_movementflag && ParentID == 0) Animator.UpdateMovementAnimations(); SendControlsToScripts(flagsForScripts); } // We need to send this back to the client in order to see the edit beams if ((State & (uint)AgentState.Editing) != 0) ControllingClient.SendAgentTerseUpdate(this); m_scene.EventManager.TriggerOnClientMovement(this); } /// /// This is the event handler for client cameras. If a client is moving, or moving the camera, this event is triggering. /// private void HandleAgentCamerasUpdate(IClientAPI remoteClient, AgentUpdateArgs agentData) { //m_log.DebugFormat( // "[SCENE PRESENCE]: In {0} received agent camera update from {1}, flags {2}", // Scene.RegionInfo.RegionName, remoteClient.Name, (AgentManager.ControlFlags)agentData.ControlFlags); if (IsChildAgent) { // // m_log.Debug("DEBUG: HandleAgentUpdate: child agent"); return; } ++m_movementUpdateCount; if (m_movementUpdateCount < 1) m_movementUpdateCount = 1; // AgentManager.ControlFlags flags = (AgentManager.ControlFlags)agentData.ControlFlags; // Camera location in world. We'll need to raytrace // from this location from time to time. CameraPosition = agentData.CameraCenter; if (Vector3.Distance(m_lastCameraPosition, CameraPosition) >= Scene.RootReprioritizationDistance) { ReprioritizeUpdates(); m_lastCameraPosition = CameraPosition; } // Use these three vectors to figure out what the agent is looking at // Convert it to a Matrix and/or Quaternion CameraAtAxis = agentData.CameraAtAxis; CameraLeftAxis = agentData.CameraLeftAxis; CameraUpAxis = agentData.CameraUpAxis; // The Agent's Draw distance setting // When we get to the point of re-computing neighbors everytime this // changes, then start using the agent's drawdistance rather than the // region's draw distance. // DrawDistance = agentData.Far; DrawDistance = Scene.DefaultDrawDistance; // Check if Client has camera in 'follow cam' or 'build' mode. Vector3 camdif = (Vector3.One * Rotation - Vector3.One * CameraRotation); m_followCamAuto = ((CameraUpAxis.Z > 0.959f && CameraUpAxis.Z < 0.98f) && (Math.Abs(camdif.X) < 0.4f && Math.Abs(camdif.Y) < 0.4f)) ? true : false; //m_log.DebugFormat("[FollowCam]: {0}", m_followCamAuto); // Raycast from the avatar's head to the camera to see if there's anything blocking the view if ((m_movementUpdateCount % NumMovementsBetweenRayCast) == 0 && m_scene.PhysicsScene.SupportsRayCast()) { if (m_followCamAuto) { Vector3 posAdjusted = m_pos + HEAD_ADJUSTMENT; m_scene.PhysicsScene.RaycastWorld(m_pos, Vector3.Normalize(CameraPosition - posAdjusted), Vector3.Distance(CameraPosition, posAdjusted) + 0.3f, RayCastCameraCallback); } } TriggerScenePresenceUpdated(); } /// /// Calculate an update to move the presence to the set target. /// /// /// This doesn't actually perform the movement. Instead, it adds its vector to agent_control_v3. /// /// Cumulative agent movement that this method will update. /// True if movement has been updated in some way. False otherwise. public bool HandleMoveToTargetUpdate(double tolerance, ref Vector3 agent_control_v3) { // m_log.DebugFormat("[SCENE PRESENCE]: Called HandleMoveToTargetUpdate() for {0}", Name); bool updated = false; // m_log.DebugFormat( // "[SCENE PRESENCE]: bAllowUpdateMoveToPosition {0}, m_moveToPositionInProgress {1}, m_autopilotMoving {2}", // allowUpdate, m_moveToPositionInProgress, m_autopilotMoving); double distanceToTarget = Util.GetDistanceTo(AbsolutePosition, MoveToPositionTarget); // m_log.DebugFormat( // "[SCENE PRESENCE]: Abs pos of {0} is {1}, target {2}, distance {3}", // Name, AbsolutePosition, MoveToPositionTarget, distanceToTarget); // Check the error term of the current position in relation to the target position if (distanceToTarget <= tolerance) { // We are close enough to the target AbsolutePosition = MoveToPositionTarget; ResetMoveToTarget(); updated = true; } else { try { // move avatar in 3D at one meter/second towards target, in avatar coordinate frame. // This movement vector gets added to the velocity through AddNewMovement(). // Theoretically we might need a more complex PID approach here if other // unknown forces are acting on the avatar and we need to adaptively respond // to such forces, but the following simple approach seems to works fine. Vector3 LocalVectorToTarget3D = (MoveToPositionTarget - AbsolutePosition) // vector from cur. pos to target in global coords * Matrix4.CreateFromQuaternion(Quaternion.Inverse(Rotation)); // change to avatar coords // Ignore z component of vector // Vector3 LocalVectorToTarget2D = new Vector3((float)(LocalVectorToTarget3D.X), (float)(LocalVectorToTarget3D.Y), 0f); LocalVectorToTarget3D.Normalize(); // update avatar movement flags. the avatar coordinate system is as follows: // // +X (forward) // // ^ // | // | // | // | // (left) +Y <--------o--------> -Y // avatar // | // | // | // | // v // -X // // based on the above avatar coordinate system, classify the movement into // one of left/right/back/forward. if (LocalVectorToTarget3D.X < 0) //MoveBack { MovementFlag += (byte)(uint)Dir_ControlFlags.DIR_CONTROL_FLAG_BACK; AgentControlFlags |= (uint)Dir_ControlFlags.DIR_CONTROL_FLAG_BACK; updated = true; } else if (LocalVectorToTarget3D.X > 0) //Move Forward { MovementFlag += (byte)(uint)Dir_ControlFlags.DIR_CONTROL_FLAG_FORWARD; AgentControlFlags |= (uint)Dir_ControlFlags.DIR_CONTROL_FLAG_FORWARD; updated = true; } if (LocalVectorToTarget3D.Y > 0) //MoveLeft { MovementFlag += (byte)(uint)Dir_ControlFlags.DIR_CONTROL_FLAG_LEFT; AgentControlFlags |= (uint)Dir_ControlFlags.DIR_CONTROL_FLAG_LEFT; updated = true; } else if (LocalVectorToTarget3D.Y < 0) //MoveRight { MovementFlag += (byte)(uint)Dir_ControlFlags.DIR_CONTROL_FLAG_RIGHT; AgentControlFlags |= (uint)Dir_ControlFlags.DIR_CONTROL_FLAG_RIGHT; updated = true; } if (LocalVectorToTarget3D.Z > 0) //Up { // Don't set these flags for up or down - doing so will make the avatar crouch or // keep trying to jump even if walking along level ground //MovementFlag += (byte)(uint)Dir_ControlFlags.DIR_CONTROL_FLAG_UP; //AgentControlFlags //AgentControlFlags |= (uint)Dir_ControlFlags.DIR_CONTROL_FLAG_UP; updated = true; } else if (LocalVectorToTarget3D.Z < 0) //Down { //MovementFlag += (byte)(uint)Dir_ControlFlags.DIR_CONTROL_FLAG_DOWN; //AgentControlFlags |= (uint)Dir_ControlFlags.DIR_CONTROL_FLAG_DOWN; updated = true; } // m_log.DebugFormat( // "[SCENE PRESENCE]: HandleMoveToTargetUpdate adding {0} to move vector {1} for {2}", // LocalVectorToTarget3D, agent_control_v3, Name); agent_control_v3 += LocalVectorToTarget3D; } catch (Exception e) { //Avoid system crash, can be slower but... m_log.DebugFormat("Crash! {0}", e.ToString()); } } return updated; } /// /// Move to the given target over time. /// /// /// /// If true, then don't allow the avatar to fly to the target, even if it's up in the air. /// This is to allow movement to targets that are known to be on an elevated platform with a continuous path /// from start to finish. /// /// /// If true and the avatar starts flying during the move then land at the target. /// public void MoveToTarget(Vector3 pos, bool noFly, bool landAtTarget) { if (SitGround) StandUp(); // m_log.DebugFormat( // "[SCENE PRESENCE]: Avatar {0} received request to move to position {1} in {2}", // Name, pos, m_scene.RegionInfo.RegionName); // Allow move to another sub-region within a megaregion Vector2 regionSize; IRegionCombinerModule regionCombinerModule = m_scene.RequestModuleInterface(); if (regionCombinerModule != null) regionSize = regionCombinerModule.GetSizeOfMegaregion(m_scene.RegionInfo.RegionID); else regionSize = new Vector2(Constants.RegionSize); if (pos.X < 0 || pos.X >= regionSize.X || pos.Y < 0 || pos.Y >= regionSize.Y || pos.Z < 0) return; // Vector3 heightAdjust = new Vector3(0, 0, Appearance.AvatarHeight / 2); // pos += heightAdjust; // // // Anti duck-walking measure // if (Math.Abs(pos.Z - AbsolutePosition.Z) < 0.2f) // { //// m_log.DebugFormat("[SCENE PRESENCE]: Adjusting MoveToPosition from {0} to {1}", pos, AbsolutePosition); // pos.Z = AbsolutePosition.Z; // } // Get terrain height for sub-region in a megaregion if necessary int X = (int)((m_scene.RegionInfo.RegionLocX * Constants.RegionSize) + pos.X); int Y = (int)((m_scene.RegionInfo.RegionLocY * Constants.RegionSize) + pos.Y); GridRegion target_region = m_scene.GridService.GetRegionByPosition(m_scene.RegionInfo.ScopeID, X, Y); // If X and Y is NaN, target_region will be null if (target_region == null) return; UUID target_regionID = target_region.RegionID; Scene targetScene = m_scene; if (!SceneManager.Instance.TryGetScene(target_regionID, out targetScene)) targetScene = m_scene; float terrainHeight = (float)targetScene.Heightmap[(int)(pos.X % Constants.RegionSize), (int)(pos.Y % Constants.RegionSize)]; pos.Z = Math.Max(terrainHeight, pos.Z); // Fudge factor. It appears that if one clicks "go here" on a piece of ground, the go here request is // always slightly higher than the actual terrain height. // FIXME: This constrains NPC movements as well, so should be somewhere else. if (pos.Z - terrainHeight < 0.2) pos.Z = terrainHeight; // m_log.DebugFormat( // "[SCENE PRESENCE]: Avatar {0} set move to target {1} (terrain height {2}) in {3}", // Name, pos, terrainHeight, m_scene.RegionInfo.RegionName); if (noFly) Flying = false; else if (pos.Z > terrainHeight) Flying = true; LandAtTarget = landAtTarget; MovingToTarget = true; MoveToPositionTarget = pos; // Rotate presence around the z-axis to point in same direction as movement. // Ignore z component of vector Vector3 localVectorToTarget3D = pos - AbsolutePosition; Vector3 localVectorToTarget2D = new Vector3((float)(localVectorToTarget3D.X), (float)(localVectorToTarget3D.Y), 0f); // m_log.DebugFormat("[SCENE PRESENCE]: Local vector to target is {0}", localVectorToTarget2D); // Calculate the yaw. Vector3 angle = new Vector3(0, 0, (float)(Math.Atan2(localVectorToTarget2D.Y, localVectorToTarget2D.X))); // m_log.DebugFormat("[SCENE PRESENCE]: Angle is {0}", angle); Rotation = Quaternion.CreateFromEulers(angle); // m_log.DebugFormat("[SCENE PRESENCE]: Body rot for {0} set to {1}", Name, Rotation); Vector3 agent_control_v3 = new Vector3(); HandleMoveToTargetUpdate(1, ref agent_control_v3); AddNewMovement(agent_control_v3); } /// /// Reset the move to target. /// public void ResetMoveToTarget() { // m_log.DebugFormat("[SCENE PRESENCE]: Resetting move to target for {0}", Name); MovingToTarget = false; MoveToPositionTarget = Vector3.Zero; // We need to reset the control flag as the ScenePresenceAnimator uses this to determine the correct // resting animation (e.g. hover or stand). NPCs don't have a client that will quickly reset this flag. // However, the line is here rather than in the NPC module since it also appears necessary to stop a // viewer that uses "go here" from juddering on all subsequent avatar movements. AgentControlFlags = (uint)AgentManager.ControlFlags.NONE; } /// /// Perform the logic necessary to stand the avatar up. This method also executes /// the stand animation. /// public void StandUp() { // m_log.DebugFormat("[SCENE PRESENCE]: StandUp() for {0}", Name); bool satOnObject = IsSatOnObject; SceneObjectPart part = ParentPart; SitGround = false; if (satOnObject) { TaskInventoryDictionary taskIDict = part.TaskInventory; if (taskIDict != null) { lock (taskIDict) { foreach (UUID taskID in taskIDict.Keys) { UnRegisterControlEventsToScript(LocalId, taskID); taskIDict[taskID].PermsMask &= ~( 2048 | //PERMISSION_CONTROL_CAMERA 4); // PERMISSION_TAKE_CONTROLS } } } ParentPosition = part.GetWorldPosition(); ControllingClient.SendClearFollowCamProperties(part.ParentUUID); ParentID = 0; ParentPart = null; Quaternion standRotation; if (part.SitTargetAvatar == UUID) { standRotation = part.GetWorldRotation(); if (!part.IsRoot) standRotation = standRotation * part.SitTargetOrientation; // standRotation = part.RotationOffset * part.SitTargetOrientation; // else // standRotation = part.SitTargetOrientation; } else { standRotation = Rotation; } //Vector3 standPos = ParentPosition + new Vector3(0.0f, 0.0f, 2.0f * m_sitAvatarHeight); //Vector3 standPos = ParentPosition; // Vector3 standPositionAdjustment // = part.SitTargetPosition + new Vector3(0.5f, 0f, m_sitAvatarHeight / 2f); Vector3 adjustmentForSitPosition = part.SitTargetPosition * part.GetWorldRotation(); // XXX: This is based on the physics capsule sizes. Need to find a better way to read this rather than // hardcoding here. Vector3 adjustmentForSitPose = new Vector3(0.74f, 0f, 0f) * standRotation; Vector3 standPos = ParentPosition + adjustmentForSitPosition + adjustmentForSitPose; m_log.DebugFormat( "[SCENE PRESENCE]: Setting stand to pos {0}, (adjustmentForSitPosition {1}, adjustmentForSitPose {2}) rotation {3} for {4} in {5}", standPos, adjustmentForSitPosition, adjustmentForSitPose, standRotation, Name, Scene.Name); Rotation = standRotation; AbsolutePosition = standPos; ParentPosition = Vector3.Zero; } // We need to wait until we have calculated proper stand positions before sitting up the physical // avatar to avoid race conditions. if (PhysicsActor == null) AddToPhysicalScene(false); if (satOnObject) { SendAvatarDataToAllAgents(); m_requestedSitTargetID = 0; part.RemoveSittingAvatar(UUID); part.ParentGroup.TriggerScriptChangedEvent(Changed.LINK); } Animator.TrySetMovementAnimation("STAND"); TriggerScenePresenceUpdated(); } private SceneObjectPart FindNextAvailableSitTarget(UUID targetID) { SceneObjectPart targetPart = m_scene.GetSceneObjectPart(targetID); if (targetPart == null) return null; // If the primitive the player clicked on has a sit target and that sit target is not full, that sit target is used. // If the primitive the player clicked on has no sit target, and one or more other linked objects have sit targets that are not full, the sit target of the object with the lowest link number will be used. // Get our own copy of the part array, and sort into the order we want to test SceneObjectPart[] partArray = targetPart.ParentGroup.Parts; Array.Sort(partArray, delegate(SceneObjectPart p1, SceneObjectPart p2) { // we want the originally selected part first, then the rest in link order -- so make the selected part link num (-1) int linkNum1 = p1==targetPart ? -1 : p1.LinkNum; int linkNum2 = p2==targetPart ? -1 : p2.LinkNum; return linkNum1 - linkNum2; } ); //look for prims with explicit sit targets that are available foreach (SceneObjectPart part in partArray) { if (part.IsSitTargetSet && part.SitTargetAvatar == UUID.Zero) { //switch the target to this prim return part; } } // no explicit sit target found - use original target return targetPart; } private void SendSitResponse(UUID targetID, Vector3 offset, Quaternion sitOrientation) { Vector3 cameraEyeOffset = Vector3.Zero; Vector3 cameraAtOffset = Vector3.Zero; bool forceMouselook = false; SceneObjectPart part = FindNextAvailableSitTarget(targetID); if (part == null) return; // TODO: determine position to sit at based on scene geometry; don't trust offset from client // see http://wiki.secondlife.com/wiki/User:Andrew_Linden/Office_Hours/2007_11_06 for details on how LL does it if (PhysicsActor != null) m_sitAvatarHeight = PhysicsActor.Size.Z; bool canSit = false; if (part.IsSitTargetSet && part.SitTargetAvatar == UUID.Zero) { // m_log.DebugFormat( // "[SCENE PRESENCE]: Sitting {0} on {1} {2} because sit target is set and unoccupied", // Name, part.Name, part.LocalId); offset = part.SitTargetPosition; sitOrientation = part.SitTargetOrientation; if (!part.IsRoot) { // m_log.DebugFormat("Old sit orient {0}", sitOrientation); sitOrientation = part.RotationOffset * sitOrientation; // m_log.DebugFormat("New sit orient {0}", sitOrientation); // m_log.DebugFormat("Old sit offset {0}", offset); offset = offset * part.RotationOffset; // m_log.DebugFormat("New sit offset {0}", offset); } canSit = true; } else { Vector3 pos = part.AbsolutePosition + offset; if (Util.GetDistanceTo(AbsolutePosition, pos) <= 10) { // m_log.DebugFormat( // "[SCENE PRESENCE]: Sitting {0} on {1} {2} because sit target is unset and within 10m", // Name, part.Name, part.LocalId); AbsolutePosition = pos + new Vector3(0.0f, 0.0f, m_sitAvatarHeight); canSit = true; } // else // { // m_log.DebugFormat( // "[SCENE PRESENCE]: Ignoring sit request of {0} on {1} {2} because sit target is unset and outside 10m", // Name, part.Name, part.LocalId); // } } if (canSit) { if (PhysicsActor != null) { // We can remove the physicsActor until they stand up. RemoveFromPhysicalScene(); } part.AddSittingAvatar(UUID); cameraAtOffset = part.GetCameraAtOffset(); cameraEyeOffset = part.GetCameraEyeOffset(); forceMouselook = part.GetForceMouselook(); // An viewer expects to specify sit positions as offsets to the root prim, even if a child prim is // being sat upon. offset += part.OffsetPosition; ControllingClient.SendSitResponse( part.ParentGroup.UUID, offset, sitOrientation, false, cameraAtOffset, cameraEyeOffset, forceMouselook); m_requestedSitTargetUUID = part.UUID; HandleAgentSit(ControllingClient, UUID); // Moved here to avoid a race with default sit anim // The script event needs to be raised after the default sit anim is set. part.ParentGroup.TriggerScriptChangedEvent(Changed.LINK); } } public void HandleAgentRequestSit(IClientAPI remoteClient, UUID agentID, UUID targetID, Vector3 offset) { if (IsChildAgent) return; if (ParentID != 0) { if (ParentPart.UUID == targetID) return; // already sitting here, ignore StandUp(); } SceneObjectPart part = FindNextAvailableSitTarget(targetID); if (part != null) { m_requestedSitTargetID = part.LocalId; m_requestedSitTargetUUID = part.UUID; // m_log.DebugFormat("[SIT]: Client requested Sit Position: {0}", offset); if (m_scene.PhysicsScene.SupportsRayCast()) { //m_scene.PhysicsScene.RaycastWorld(Vector3.Zero,Vector3.Zero, 0.01f,new RaycastCallback()); //SitRayCastAvatarPosition(part); //return; } } else { m_log.Warn("Sit requested on unknown object: " + targetID.ToString()); } SendSitResponse(targetID, offset, Quaternion.Identity); } /* public void SitRayCastAvatarPosition(SceneObjectPart part) { Vector3 EndRayCastPosition = part.AbsolutePosition + m_requestedSitOffset; Vector3 StartRayCastPosition = AbsolutePosition; Vector3 direction = Vector3.Normalize(EndRayCastPosition - StartRayCastPosition); float distance = Vector3.Distance(EndRayCastPosition, StartRayCastPosition); m_scene.PhysicsScene.RaycastWorld(StartRayCastPosition, direction, distance, SitRayCastAvatarPositionResponse); } public void SitRayCastAvatarPositionResponse(bool hitYN, Vector3 collisionPoint, uint localid, float pdistance, Vector3 normal) { SceneObjectPart part = FindNextAvailableSitTarget(m_requestedSitTargetUUID); if (part != null) { if (hitYN) { if (collisionPoint.ApproxEquals(m_requestedSitOffset + part.AbsolutePosition, 0.2f)) { SitRaycastFindEdge(collisionPoint, normal); m_log.DebugFormat("[SIT]: Raycast Avatar Position succeeded at point: {0}, normal:{1}", collisionPoint, normal); } else { SitRayCastAvatarPositionCameraZ(part); } } else { SitRayCastAvatarPositionCameraZ(part); } } else { ControllingClient.SendAlertMessage("Sit position no longer exists"); m_requestedSitTargetUUID = UUID.Zero; m_requestedSitTargetID = 0; m_requestedSitOffset = Vector3.Zero; } } public void SitRayCastAvatarPositionCameraZ(SceneObjectPart part) { // Next, try to raycast from the camera Z position Vector3 EndRayCastPosition = part.AbsolutePosition + m_requestedSitOffset; Vector3 StartRayCastPosition = AbsolutePosition; StartRayCastPosition.Z = CameraPosition.Z; Vector3 direction = Vector3.Normalize(EndRayCastPosition - StartRayCastPosition); float distance = Vector3.Distance(EndRayCastPosition, StartRayCastPosition); m_scene.PhysicsScene.RaycastWorld(StartRayCastPosition, direction, distance, SitRayCastAvatarPositionCameraZResponse); } public void SitRayCastAvatarPositionCameraZResponse(bool hitYN, Vector3 collisionPoint, uint localid, float pdistance, Vector3 normal) { SceneObjectPart part = FindNextAvailableSitTarget(m_requestedSitTargetUUID); if (part != null) { if (hitYN) { if (collisionPoint.ApproxEquals(m_requestedSitOffset + part.AbsolutePosition, 0.2f)) { SitRaycastFindEdge(collisionPoint, normal); m_log.DebugFormat("[SIT]: Raycast Avatar Position + CameraZ succeeded at point: {0}, normal:{1}", collisionPoint, normal); } else { SitRayCastCameraPosition(part); } } else { SitRayCastCameraPosition(part); } } else { ControllingClient.SendAlertMessage("Sit position no longer exists"); m_requestedSitTargetUUID = UUID.Zero; m_requestedSitTargetID = 0; m_requestedSitOffset = Vector3.Zero; } } public void SitRayCastCameraPosition(SceneObjectPart part) { // Next, try to raycast from the camera position Vector3 EndRayCastPosition = part.AbsolutePosition + m_requestedSitOffset; Vector3 StartRayCastPosition = CameraPosition; Vector3 direction = Vector3.Normalize(EndRayCastPosition - StartRayCastPosition); float distance = Vector3.Distance(EndRayCastPosition, StartRayCastPosition); m_scene.PhysicsScene.RaycastWorld(StartRayCastPosition, direction, distance, SitRayCastCameraPositionResponse); } public void SitRayCastCameraPositionResponse(bool hitYN, Vector3 collisionPoint, uint localid, float pdistance, Vector3 normal) { SceneObjectPart part = FindNextAvailableSitTarget(m_requestedSitTargetUUID); if (part != null) { if (hitYN) { if (collisionPoint.ApproxEquals(m_requestedSitOffset + part.AbsolutePosition, 0.2f)) { SitRaycastFindEdge(collisionPoint, normal); m_log.DebugFormat("[SIT]: Raycast Camera Position succeeded at point: {0}, normal:{1}", collisionPoint, normal); } else { SitRayHorizontal(part); } } else { SitRayHorizontal(part); } } else { ControllingClient.SendAlertMessage("Sit position no longer exists"); m_requestedSitTargetUUID = UUID.Zero; m_requestedSitTargetID = 0; m_requestedSitOffset = Vector3.Zero; } } public void SitRayHorizontal(SceneObjectPart part) { // Next, try to raycast from the avatar position to fwd Vector3 EndRayCastPosition = part.AbsolutePosition + m_requestedSitOffset; Vector3 StartRayCastPosition = CameraPosition; Vector3 direction = Vector3.Normalize(EndRayCastPosition - StartRayCastPosition); float distance = Vector3.Distance(EndRayCastPosition, StartRayCastPosition); m_scene.PhysicsScene.RaycastWorld(StartRayCastPosition, direction, distance, SitRayCastHorizontalResponse); } public void SitRayCastHorizontalResponse(bool hitYN, Vector3 collisionPoint, uint localid, float pdistance, Vector3 normal) { SceneObjectPart part = FindNextAvailableSitTarget(m_requestedSitTargetUUID); if (part != null) { if (hitYN) { if (collisionPoint.ApproxEquals(m_requestedSitOffset + part.AbsolutePosition, 0.2f)) { SitRaycastFindEdge(collisionPoint, normal); m_log.DebugFormat("[SIT]: Raycast Horizontal Position succeeded at point: {0}, normal:{1}", collisionPoint, normal); // Next, try to raycast from the camera position Vector3 EndRayCastPosition = part.AbsolutePosition + m_requestedSitOffset; Vector3 StartRayCastPosition = CameraPosition; Vector3 direction = Vector3.Normalize(EndRayCastPosition - StartRayCastPosition); float distance = Vector3.Distance(EndRayCastPosition, StartRayCastPosition); //m_scene.PhysicsScene.RaycastWorld(StartRayCastPosition, direction, distance, SitRayCastResponseAvatarPosition); } else { ControllingClient.SendAlertMessage("Sit position not accessable."); m_requestedSitTargetUUID = UUID.Zero; m_requestedSitTargetID = 0; m_requestedSitOffset = Vector3.Zero; } } else { ControllingClient.SendAlertMessage("Sit position not accessable."); m_requestedSitTargetUUID = UUID.Zero; m_requestedSitTargetID = 0; m_requestedSitOffset = Vector3.Zero; } } else { ControllingClient.SendAlertMessage("Sit position no longer exists"); m_requestedSitTargetUUID = UUID.Zero; m_requestedSitTargetID = 0; m_requestedSitOffset = Vector3.Zero; } } private void SitRaycastFindEdge(Vector3 collisionPoint, Vector3 collisionNormal) { int i = 0; //throw new NotImplementedException(); //m_requestedSitTargetUUID = UUID.Zero; //m_requestedSitTargetID = 0; //m_requestedSitOffset = Vector3.Zero; SendSitResponse(ControllingClient, m_requestedSitTargetUUID, collisionPoint - m_requestedSitOffset, Quaternion.Identity); } */ public void HandleAgentSit(IClientAPI remoteClient, UUID agentID) { if (IsChildAgent) return; SceneObjectPart part = m_scene.GetSceneObjectPart(m_requestedSitTargetID); if (part != null) { if (part.ParentGroup.IsAttachment) { m_log.WarnFormat( "[SCENE PRESENCE]: Avatar {0} tried to sit on part {1} from object {2} in {3} but this is an attachment for avatar id {4}", Name, part.Name, part.ParentGroup.Name, Scene.Name, part.ParentGroup.AttachedAvatar); return; } if (part.SitTargetAvatar == UUID) { Vector3 sitTargetPos = part.SitTargetPosition; Quaternion sitTargetOrient = part.SitTargetOrientation; // m_log.DebugFormat( // "[SCENE PRESENCE]: Sitting {0} at sit target {1}, {2} on {3} {4}", // Name, sitTargetPos, sitTargetOrient, part.Name, part.LocalId); //Quaternion vq = new Quaternion(sitTargetPos.X, sitTargetPos.Y+0.2f, sitTargetPos.Z+0.2f, 0); //Quaternion nq = new Quaternion(-sitTargetOrient.X, -sitTargetOrient.Y, -sitTargetOrient.Z, sitTargetOrient.w); //Quaternion result = (sitTargetOrient * vq) * nq; Vector3 newPos = sitTargetPos + SIT_TARGET_ADJUSTMENT; Quaternion newRot; if (part.IsRoot) { newRot = sitTargetOrient; } else { newPos = newPos * part.RotationOffset; newRot = part.RotationOffset * sitTargetOrient; } newPos += part.OffsetPosition; m_pos = newPos; Rotation = newRot; ParentPosition = part.AbsolutePosition; } else { // An viewer expects to specify sit positions as offsets to the root prim, even if a child prim is // being sat upon. m_pos -= part.GroupPosition; ParentPosition = part.AbsolutePosition; // m_log.DebugFormat( // "[SCENE PRESENCE]: Sitting {0} at position {1} ({2} + {3}) on part {4} {5} without sit target", // Name, part.AbsolutePosition, m_pos, ParentPosition, part.Name, part.LocalId); } ParentPart = m_scene.GetSceneObjectPart(m_requestedSitTargetID); ParentID = m_requestedSitTargetID; m_AngularVelocity = Vector3.Zero; Velocity = Vector3.Zero; RemoveFromPhysicalScene(); String sitAnimation = "SIT"; if (!String.IsNullOrEmpty(part.SitAnimation)) { sitAnimation = part.SitAnimation; } Animator.TrySetMovementAnimation(sitAnimation); SendAvatarDataToAllAgents(); TriggerScenePresenceUpdated(); } } public void HandleAgentSitOnGround() { if (IsChildAgent) return; // m_updateCount = 0; // Kill animation update burst so that the SIT_G.. will stick.. m_AngularVelocity = Vector3.Zero; Animator.TrySetMovementAnimation("SIT_GROUND_CONSTRAINED"); TriggerScenePresenceUpdated(); SitGround = true; RemoveFromPhysicalScene(); } /// /// Event handler for the 'Always run' setting on the client /// Tells the physics plugin to increase speed of movement. /// public void HandleSetAlwaysRun(IClientAPI remoteClient, bool pSetAlwaysRun) { SetAlwaysRun = pSetAlwaysRun; } public void HandleStartAnim(IClientAPI remoteClient, UUID animID) { Animator.AddAnimation(animID, UUID.Zero); TriggerScenePresenceUpdated(); } public void HandleStopAnim(IClientAPI remoteClient, UUID animID) { Animator.RemoveAnimation(animID, false); TriggerScenePresenceUpdated(); } /// /// Rotate the avatar to the given rotation and apply a movement in the given relative vector /// /// The vector in which to move. This is relative to the rotation argument public void AddNewMovement(Vector3 vec) { // m_log.DebugFormat( // "[SCENE PRESENCE]: Adding new movement {0} with rotation {1} for {2}", vec, Rotation, Name); Vector3 direc = vec * Rotation; direc.Normalize(); if (Flying != FlyingOld) // add for fly velocity control { FlyingOld = Flying; // add for fly velocity control if (!Flying) WasFlying = true; // add for fly velocity control } if (IsColliding) WasFlying = false; // add for fly velocity control if ((vec.Z == 0f) && !Flying) direc.Z = 0f; // Prevent camera WASD up. direc *= 0.03f * 128f * SpeedModifier; // m_log.DebugFormat("[SCENE PRESENCE]: Force to apply before modification was {0} for {1}", direc, Name); if (PhysicsActor != null) { if (Flying) { direc *= 4.0f; //bool controlland = (((m_AgentControlFlags & (uint)AgentManager.ControlFlags.AGENT_CONTROL_UP_NEG) != 0) || ((m_AgentControlFlags & (uint)AgentManager.ControlFlags.AGENT_CONTROL_NUDGE_UP_NEG) != 0)); //if (controlland) // m_log.Info("[AGENT]: landCommand"); //if (IsColliding) // m_log.Info("[AGENT]: colliding"); //if (Flying && IsColliding && controlland) //{ // StopFlying(); // m_log.Info("[AGENT]: Stop Flying"); //} } if (Animator.Falling && WasFlying) // if falling from flying, disable motion add { direc *= 0.0f; } else if (!Flying && IsColliding) { if (direc.Z > 2.0f) { direc.Z *= 2.6f; // TODO: PreJump and jump happen too quickly. Many times prejump gets ignored. Animator.TrySetMovementAnimation("PREJUMP"); Animator.TrySetMovementAnimation("JUMP"); } } } // m_log.DebugFormat("[SCENE PRESENCE]: Setting force to apply to {0} for {1}", direc, Name); // TODO: Add the force instead of only setting it to support multiple forces per frame? m_forceToApply = direc; } #endregion #region Overridden Methods public override void Update() { const float ROTATION_TOLERANCE = 0.01f; const float VELOCITY_TOLERANCE = 0.001f; const float POSITION_TOLERANCE = 0.05f; if (IsChildAgent == false) { // NOTE: Velocity is not the same as m_velocity. Velocity will attempt to // grab the latest PhysicsActor velocity, whereas m_velocity is often // storing a requested force instead of an actual traveling velocity // Throw away duplicate or insignificant updates if ( // If the velocity has become zero, send it no matter what. (Velocity != m_lastVelocity && Velocity == Vector3.Zero) // otherwise, if things have changed reasonably, send the update || (!Rotation.ApproxEquals(m_lastRotation, ROTATION_TOLERANCE) || !Velocity.ApproxEquals(m_lastVelocity, VELOCITY_TOLERANCE) || !m_pos.ApproxEquals(m_lastPosition, POSITION_TOLERANCE))) { SendTerseUpdateToAllClients(); // Update the "last" values m_lastPosition = m_pos; m_lastRotation = Rotation; m_lastVelocity = Velocity; } CheckForBorderCrossing(); CheckForSignificantMovement(); // sends update to the modules. } } #endregion #region Update Client(s) /// /// Sends a location update to the client connected to this scenePresence /// /// public void SendTerseUpdateToClient(IClientAPI remoteClient) { // If the client is inactive, it's getting its updates from another // server. if (remoteClient.IsActive) { //m_log.DebugFormat("[SCENE PRESENCE]: " + Name + " sending TerseUpdate to " + remoteClient.Name + " : Pos={0} Rot={1} Vel={2}", m_pos, Rotation, m_velocity); remoteClient.SendEntityUpdate( this, PrimUpdateFlags.Position | PrimUpdateFlags.Rotation | PrimUpdateFlags.Velocity | PrimUpdateFlags.Acceleration | PrimUpdateFlags.AngularVelocity); m_scene.StatsReporter.AddAgentUpdates(1); } } // vars to support reduced update frequency when velocity is unchanged private Vector3 lastVelocitySentToAllClients = Vector3.Zero; private Vector3 lastPositionSentToAllClients = Vector3.Zero; private int lastTerseUpdateToAllClientsTick = Util.EnvironmentTickCount(); /// /// Send a location/velocity/accelleration update to all agents in scene /// public void SendTerseUpdateToAllClients() { int currentTick = Util.EnvironmentTickCount(); // Decrease update frequency when avatar is moving but velocity is // not changing. // If there is a mismatch between distance travelled and expected // distance based on last velocity sent and velocity hasnt changed, // then send a new terse update float timeSinceLastUpdate = (currentTick - lastTerseUpdateToAllClientsTick) * 0.001f; Vector3 expectedPosition = lastPositionSentToAllClients + lastVelocitySentToAllClients * timeSinceLastUpdate; float distanceError = Vector3.Distance(OffsetPosition, expectedPosition); float speed = Velocity.Length(); float velocidyDiff = Vector3.Distance(lastVelocitySentToAllClients, Velocity); // assuming 5 ms. worst case precision for timer, use 2x that // for distance error threshold float distanceErrorThreshold = speed * 0.01f; if (speed < 0.01f // allow rotation updates if avatar position is unchanged || Math.Abs(distanceError) > distanceErrorThreshold || velocidyDiff > 0.01f) // did velocity change from last update? { lastVelocitySentToAllClients = Velocity; lastTerseUpdateToAllClientsTick = currentTick; lastPositionSentToAllClients = OffsetPosition; // Console.WriteLine("Scheduled update for {0} in {1}", Name, Scene.Name); m_scene.ForEachClient(SendTerseUpdateToClient); } TriggerScenePresenceUpdated(); } public void SendCoarseLocations(List coarseLocations, List avatarUUIDs) { SendCoarseLocationsMethod d = m_sendCoarseLocationsMethod; if (d != null) { d.Invoke(m_scene.RegionInfo.originRegionID, this, coarseLocations, avatarUUIDs); } } public void SetSendCoarseLocationMethod(SendCoarseLocationsMethod d) { if (d != null) m_sendCoarseLocationsMethod = d; } public void SendCoarseLocationsDefault(UUID sceneId, ScenePresence p, List coarseLocations, List avatarUUIDs) { ControllingClient.SendCoarseLocationUpdate(avatarUUIDs, coarseLocations); } public void SendInitialDataToMe() { // Send all scene object to the new client Util.FireAndForget(delegate { // we created a new ScenePresence (a new child agent) in a fresh region. // Request info about all the (root) agents in this region // Note: This won't send data *to* other clients in that region (children don't send) SendOtherAgentsAvatarDataToMe(); SendOtherAgentsAppearanceToMe(); EntityBase[] entities = Scene.Entities.GetEntities(); foreach (EntityBase e in entities) { if (e != null && e is SceneObjectGroup) ((SceneObjectGroup)e).SendFullUpdateToClient(ControllingClient); } }); } /// /// Do everything required once a client completes its movement into a region and becomes /// a root agent. /// private void ValidateAndSendAppearanceAndAgentData() { //m_log.DebugFormat("[SCENE PRESENCE] SendInitialData: {0} ({1})", Name, UUID); // Moved this into CompleteMovement to ensure that Appearance is initialized before // the inventory arrives // m_scene.GetAvatarAppearance(ControllingClient, out Appearance); bool cachedappearance = false; // We have an appearance but we may not have the baked textures. Check the asset cache // to see if all the baked textures are already here. if (m_scene.AvatarFactory != null) cachedappearance = m_scene.AvatarFactory.ValidateBakedTextureCache(this); // If we aren't using a cached appearance, then clear out the baked textures if (!cachedappearance) { Appearance.ResetAppearance(); if (m_scene.AvatarFactory != null) m_scene.AvatarFactory.QueueAppearanceSave(UUID); } // This agent just became root. We are going to tell everyone about it. The process of // getting other avatars information was initiated elsewhere immediately after the child circuit connected... don't do it // again here... this comes after the cached appearance check because the avatars // appearance goes into the avatar update packet SendAvatarDataToAllAgents(); // This invocation always shows up in the viewer logs as an error. // SendAppearanceToAgent(this); // If we are using the the cached appearance then send it out to everyone if (cachedappearance) { m_log.DebugFormat("[SCENE PRESENCE]: Baked textures are in the cache for {0} in {1}", Name, m_scene.Name); // If the avatars baked textures are all in the cache, then we have a // complete appearance... send it out, if not, then we'll send it when // the avatar finishes updating its appearance SendAppearanceToAllOtherAgents(); } } /// /// Send this agent's avatar data to all other root and child agents in the scene /// This agent must be root. This avatar will receive its own update. /// public void SendAvatarDataToAllAgents() { //m_log.DebugFormat("[SCENE PRESENCE] SendAvatarDataToAllAgents: {0} ({1})", Name, UUID); // only send update from root agents to other clients; children are only "listening posts" if (IsChildAgent) { m_log.WarnFormat( "[SCENE PRESENCE]: Attempt to send avatar data from a child agent for {0} in {1}", Name, Scene.RegionInfo.RegionName); return; } int count = 0; m_scene.ForEachScenePresence(delegate(ScenePresence scenePresence) { SendAvatarDataToAgent(scenePresence); count++; }); m_scene.StatsReporter.AddAgentUpdates(count); } /// /// Send avatar data for all other root agents to this agent, this agent /// can be either a child or root /// public void SendOtherAgentsAvatarDataToMe() { int count = 0; m_scene.ForEachRootScenePresence(delegate(ScenePresence scenePresence) { // only send information about other root agents if (scenePresence.UUID == UUID) return; scenePresence.SendAvatarDataToAgent(this); count++; }); m_scene.StatsReporter.AddAgentUpdates(count); } /// /// Send avatar data to an agent. /// /// public void SendAvatarDataToAgent(ScenePresence avatar) { //m_log.DebugFormat("[SCENE PRESENCE] SendAvatarDataToAgent from {0} ({1}) to {2} ({3})", Name, UUID, avatar.Name, avatar.UUID); avatar.ControllingClient.SendAvatarDataImmediate(this); Animator.SendAnimPackToClient(avatar.ControllingClient); } /// /// Send this agent's appearance to all other root and child agents in the scene /// This agent must be root. /// public void SendAppearanceToAllOtherAgents() { // m_log.DebugFormat("[SCENE PRESENCE] SendAppearanceToAllOtherAgents: {0} {1}", Name, UUID); // only send update from root agents to other clients; children are only "listening posts" if (IsChildAgent) { m_log.WarnFormat( "[SCENE PRESENCE]: Attempt to send avatar data from a child agent for {0} in {1}", Name, Scene.RegionInfo.RegionName); return; } int count = 0; m_scene.ForEachScenePresence(delegate(ScenePresence scenePresence) { // only send information to other root agents if (scenePresence.UUID == UUID) return; SendAppearanceToAgent(scenePresence); count++; }); m_scene.StatsReporter.AddAgentUpdates(count); } /// /// Send appearance from all other root agents to this agent. this agent /// can be either root or child /// public void SendOtherAgentsAppearanceToMe() { // m_log.DebugFormat("[SCENE PRESENCE] SendOtherAgentsAppearanceToMe: {0} {1}", Name, UUID); int count = 0; m_scene.ForEachRootScenePresence(delegate(ScenePresence scenePresence) { // only send information about other root agents if (scenePresence.UUID == UUID) return; scenePresence.SendAppearanceToAgent(this); count++; }); m_scene.StatsReporter.AddAgentUpdates(count); } /// /// Send appearance data to an agent. /// /// public void SendAppearanceToAgent(ScenePresence avatar) { // m_log.DebugFormat( // "[SCENE PRESENCE]: Sending appearance data from {0} {1} to {2} {3}", Name, m_uuid, avatar.Name, avatar.UUID); avatar.ControllingClient.SendAppearance( UUID, Appearance.VisualParams, Appearance.Texture.GetBytes()); } #endregion #region Significant Movement Method /// /// This checks for a significant movement and sends a coarselocationchange update /// protected void CheckForSignificantMovement() { if (Util.GetDistanceTo(AbsolutePosition, posLastSignificantMove) > SIGNIFICANT_MOVEMENT) { posLastSignificantMove = AbsolutePosition; m_scene.EventManager.TriggerSignificantClientMovement(this); } // Minimum Draw distance is 64 meters, the Radius of the draw distance sphere is 32m if (Util.GetDistanceTo(AbsolutePosition, m_lastChildAgentUpdatePosition) >= Scene.ChildReprioritizationDistance) { m_lastChildAgentUpdatePosition = AbsolutePosition; // m_lastChildAgentUpdateCamPosition = CameraPosition; ChildAgentDataUpdate cadu = new ChildAgentDataUpdate(); cadu.ActiveGroupID = UUID.Zero.Guid; cadu.AgentID = UUID.Guid; cadu.alwaysrun = SetAlwaysRun; cadu.AVHeight = Appearance.AvatarHeight; cadu.cameraPosition = CameraPosition; cadu.drawdistance = DrawDistance; cadu.GroupAccess = 0; cadu.Position = AbsolutePosition; cadu.regionHandle = RegionHandle; // Throttles float multiplier = 1; int childRegions = KnownRegionCount; if (childRegions != 0) multiplier = 1f / childRegions; // Minimum throttle for a child region is 1/4 of the root region throttle if (multiplier <= 0.25f) multiplier = 0.25f; cadu.throttles = ControllingClient.GetThrottlesPacked(multiplier); cadu.Velocity = Velocity; AgentPosition agentpos = new AgentPosition(); agentpos.CopyFrom(cadu, ControllingClient.SessionId); // Let's get this out of the update loop Util.FireAndForget(delegate { m_scene.SendOutChildAgentUpdates(agentpos, this); }); } } #endregion #region Border Crossing Methods /// /// Starts the process of moving an avatar into another region if they are crossing the border. /// /// /// Also removes the avatar from the physical scene if transit has started. /// protected void CheckForBorderCrossing() { // Check that we we are not a child if (IsChildAgent) return; // If we don't have a PhysActor, we can't cross anyway // Also don't do this while sat, sitting avatars cross with the // object they sit on. if (ParentID != 0 || PhysicsActor == null) return; if (!IsInTransit) { Vector3 pos2 = AbsolutePosition; Vector3 vel = Velocity; int neighbor = 0; int[] fix = new int[2]; float timeStep = 0.1f; pos2.X = pos2.X + (vel.X * timeStep); pos2.Y = pos2.Y + (vel.Y * timeStep); pos2.Z = pos2.Z + (vel.Z * timeStep); if (!IsInTransit) { // m_log.DebugFormat( // "[SCENE PRESENCE]: Testing border check for projected position {0} of {1} in {2}", // pos2, Name, Scene.Name); // Checks if where it's headed exists a region bool needsTransit = false; if (m_scene.TestBorderCross(pos2, Cardinals.W)) { if (m_scene.TestBorderCross(pos2, Cardinals.S)) { needsTransit = true; neighbor = m_scene.HaveNeighbor(Cardinals.SW, ref fix); } else if (m_scene.TestBorderCross(pos2, Cardinals.N)) { needsTransit = true; neighbor = m_scene.HaveNeighbor(Cardinals.NW, ref fix); } else { needsTransit = true; neighbor = m_scene.HaveNeighbor(Cardinals.W, ref fix); } } else if (m_scene.TestBorderCross(pos2, Cardinals.E)) { if (m_scene.TestBorderCross(pos2, Cardinals.S)) { needsTransit = true; neighbor = m_scene.HaveNeighbor(Cardinals.SE, ref fix); } else if (m_scene.TestBorderCross(pos2, Cardinals.N)) { needsTransit = true; neighbor = m_scene.HaveNeighbor(Cardinals.NE, ref fix); } else { needsTransit = true; neighbor = m_scene.HaveNeighbor(Cardinals.E, ref fix); } } else if (m_scene.TestBorderCross(pos2, Cardinals.S)) { needsTransit = true; neighbor = m_scene.HaveNeighbor(Cardinals.S, ref fix); } else if (m_scene.TestBorderCross(pos2, Cardinals.N)) { needsTransit = true; neighbor = m_scene.HaveNeighbor(Cardinals.N, ref fix); } // Makes sure avatar does not end up outside region if (neighbor <= 0) { if (needsTransit) { if (m_requestedSitTargetUUID == UUID.Zero) { bool isFlying = Flying; RemoveFromPhysicalScene(); Vector3 pos = AbsolutePosition; if (AbsolutePosition.X < 0) pos.X += Velocity.X * 2; else if (AbsolutePosition.X > Constants.RegionSize) pos.X -= Velocity.X * 2; if (AbsolutePosition.Y < 0) pos.Y += Velocity.Y * 2; else if (AbsolutePosition.Y > Constants.RegionSize) pos.Y -= Velocity.Y * 2; Velocity = Vector3.Zero; AbsolutePosition = pos; // m_log.DebugFormat("[SCENE PRESENCE]: Prevented flyoff for {0} at {1}", Name, AbsolutePosition); AddToPhysicalScene(isFlying); } } } else if (neighbor > 0) { if (!CrossToNewRegion()) { if (m_requestedSitTargetUUID == UUID.Zero) { bool isFlying = Flying; RemoveFromPhysicalScene(); Vector3 pos = AbsolutePosition; if (AbsolutePosition.X < 0) pos.X += Velocity.X * 2; else if (AbsolutePosition.X > Constants.RegionSize) pos.X -= Velocity.X * 2; if (AbsolutePosition.Y < 0) pos.Y += Velocity.Y * 2; else if (AbsolutePosition.Y > Constants.RegionSize) pos.Y -= Velocity.Y * 2; Velocity = Vector3.Zero; AbsolutePosition = pos; AddToPhysicalScene(isFlying); } } } } else { // This constant has been inferred from experimentation // I'm not sure what this value should be, so I tried a few values. timeStep = 0.04f; pos2 = AbsolutePosition; pos2.X = pos2.X + (vel.X * timeStep); pos2.Y = pos2.Y + (vel.Y * timeStep); // Don't touch the Z m_pos = pos2; m_log.DebugFormat("[SCENE PRESENCE]: In transit m_pos={0}", m_pos); } } } /// /// Moves the agent outside the region bounds /// Tells neighbor region that we're crossing to it /// If the neighbor accepts, remove the agent's viewable avatar from this scene /// set them to a child agent. /// protected bool CrossToNewRegion() { try { return m_scene.CrossAgentToNewRegion(this, Flying); } catch { return m_scene.CrossAgentToNewRegion(this, false); } } public void Reset() { // m_log.DebugFormat("[SCENE PRESENCE]: Resetting {0} in {1}", Name, Scene.RegionInfo.RegionName); // Put the child agent back at the center AbsolutePosition = new Vector3(((float)Constants.RegionSize * 0.5f), ((float)Constants.RegionSize * 0.5f), 70); Animator.ResetAnimations(); } /// /// Computes which child agents to close when the scene presence moves to another region. /// Removes those regions from m_knownRegions. /// /// The new region's x on the map /// The new region's y on the map /// public void CloseChildAgents(uint newRegionX, uint newRegionY) { List byebyeRegions = new List(); List knownRegions = KnownRegionHandles; m_log.DebugFormat( "[SCENE PRESENCE]: Closing child agents. Checking {0} regions in {1}", knownRegions.Count, Scene.RegionInfo.RegionName); //DumpKnownRegions(); foreach (ulong handle in knownRegions) { // Don't close the agent on this region yet if (handle != Scene.RegionInfo.RegionHandle) { uint x, y; Utils.LongToUInts(handle, out x, out y); x = x / Constants.RegionSize; y = y / Constants.RegionSize; // m_log.Debug("---> x: " + x + "; newx:" + newRegionX + "; Abs:" + (int)Math.Abs((int)(x - newRegionX))); // m_log.Debug("---> y: " + y + "; newy:" + newRegionY + "; Abs:" + (int)Math.Abs((int)(y - newRegionY))); if (Util.IsOutsideView(DrawDistance, x, newRegionX, y, newRegionY)) { byebyeRegions.Add(handle); } } } if (byebyeRegions.Count > 0) { m_log.Debug("[SCENE PRESENCE]: Closing " + byebyeRegions.Count + " child agents"); AgentCircuitData acd = Scene.AuthenticateHandler.GetAgentCircuitData(UUID); string auth = string.Empty; if (acd != null) auth = acd.SessionID.ToString(); m_scene.SceneGridService.SendCloseChildAgentConnections(ControllingClient.AgentId, auth, byebyeRegions); } foreach (ulong handle in byebyeRegions) { RemoveNeighbourRegion(handle); } } #endregion /// /// This allows the Sim owner the abiility to kick users from their sim currently. /// It tells the client that the agent has permission to do so. /// public void GrantGodlikePowers(UUID agentID, UUID sessionID, UUID token, bool godStatus) { if (godStatus) { // For now, assign god level 200 to anyone // who is granted god powers, but has no god level set. // UserAccount account = m_scene.UserAccountService.GetUserAccount(m_scene.RegionInfo.ScopeID, agentID); if (account != null) { if (account.UserLevel > 0) GodLevel = account.UserLevel; else GodLevel = 200; } } else { GodLevel = 0; } ControllingClient.SendAdminResponse(token, (uint)GodLevel); } #region Child Agent Updates public void UpdateChildAgent(AgentData cAgentData) { // m_log.Debug(" >>> ChildAgentDataUpdate <<< " + Scene.RegionInfo.RegionName); if (!IsChildAgent) return; CopyFrom(cAgentData); } private static Vector3 marker = new Vector3(-1f, -1f, -1f); /// /// This updates important decision making data about a child agent /// The main purpose is to figure out what objects to send to a child agent that's in a neighboring region /// public void UpdateChildAgent(AgentPosition cAgentData, uint tRegionX, uint tRegionY, uint rRegionX, uint rRegionY) { if (!IsChildAgent) return; //m_log.Debug(" >>> ChildAgentPositionUpdate <<< " + rRegionX + "-" + rRegionY); int shiftx = ((int)rRegionX - (int)tRegionX) * (int)Constants.RegionSize; int shifty = ((int)rRegionY - (int)tRegionY) * (int)Constants.RegionSize; Vector3 offset = new Vector3(shiftx, shifty, 0f); // When we get to the point of re-computing neighbors everytime this // changes, then start using the agent's drawdistance rather than the // region's draw distance. // DrawDistance = cAgentData.Far; DrawDistance = Scene.DefaultDrawDistance; if (cAgentData.Position != marker) // UGH!! m_pos = cAgentData.Position + offset; if (Vector3.Distance(AbsolutePosition, posLastSignificantMove) >= Scene.ChildReprioritizationDistance) { posLastSignificantMove = AbsolutePosition; ReprioritizeUpdates(); } CameraPosition = cAgentData.Center + offset; if ((cAgentData.Throttles != null) && cAgentData.Throttles.Length > 0) ControllingClient.SetChildAgentThrottle(cAgentData.Throttles); //cAgentData.AVHeight; RegionHandle = cAgentData.RegionHandle; //m_velocity = cAgentData.Velocity; } public void CopyTo(AgentData cAgent) { cAgent.CallbackURI = m_callbackURI; cAgent.AgentID = UUID; cAgent.RegionID = Scene.RegionInfo.RegionID; cAgent.SessionID = ControllingClient.SessionId; cAgent.Position = AbsolutePosition; cAgent.Velocity = m_velocity; cAgent.Center = CameraPosition; cAgent.AtAxis = CameraAtAxis; cAgent.LeftAxis = CameraLeftAxis; cAgent.UpAxis = CameraUpAxis; cAgent.Far = DrawDistance; // Throttles float multiplier = 1; int childRegions = KnownRegionCount; if (childRegions != 0) multiplier = 1f / childRegions; // Minimum throttle for a child region is 1/4 of the root region throttle if (multiplier <= 0.25f) multiplier = 0.25f; cAgent.Throttles = ControllingClient.GetThrottlesPacked(multiplier); cAgent.HeadRotation = m_headrotation; cAgent.BodyRotation = Rotation; cAgent.ControlFlags = (uint)m_AgentControlFlags; if (m_scene.Permissions.IsGod(new UUID(cAgent.AgentID))) cAgent.GodLevel = (byte)GodLevel; else cAgent.GodLevel = (byte) 0; cAgent.AlwaysRun = SetAlwaysRun; cAgent.Appearance = new AvatarAppearance(Appearance); lock (scriptedcontrols) { ControllerData[] controls = new ControllerData[scriptedcontrols.Count]; int i = 0; foreach (ScriptControllers c in scriptedcontrols.Values) { controls[i++] = new ControllerData(c.itemID, (uint)c.ignoreControls, (uint)c.eventControls); } cAgent.Controllers = controls; } // Animations try { cAgent.Anims = Animator.Animations.ToArray(); } catch { } cAgent.DefaultAnim = Animator.Animations.DefaultAnimation; cAgent.AnimState = Animator.Animations.ImplicitDefaultAnimation; if (Scene.AttachmentsModule != null) Scene.AttachmentsModule.CopyAttachments(this, cAgent); } private void CopyFrom(AgentData cAgent) { lock (m_originRegionIDAccessLock) m_originRegionID = cAgent.RegionID; m_callbackURI = cAgent.CallbackURI; // m_log.DebugFormat( // "[SCENE PRESENCE]: Set callback for {0} in {1} to {2} in CopyFrom()", // Name, m_scene.RegionInfo.RegionName, m_callbackURI); m_pos = cAgent.Position; m_velocity = cAgent.Velocity; CameraPosition = cAgent.Center; CameraAtAxis = cAgent.AtAxis; CameraLeftAxis = cAgent.LeftAxis; CameraUpAxis = cAgent.UpAxis; // When we get to the point of re-computing neighbors everytime this // changes, then start using the agent's drawdistance rather than the // region's draw distance. // DrawDistance = cAgent.Far; DrawDistance = Scene.DefaultDrawDistance; if ((cAgent.Throttles != null) && cAgent.Throttles.Length > 0) ControllingClient.SetChildAgentThrottle(cAgent.Throttles); m_headrotation = cAgent.HeadRotation; Rotation = cAgent.BodyRotation; m_AgentControlFlags = (AgentManager.ControlFlags)cAgent.ControlFlags; if (m_scene.Permissions.IsGod(new UUID(cAgent.AgentID))) GodLevel = cAgent.GodLevel; SetAlwaysRun = cAgent.AlwaysRun; Appearance = new AvatarAppearance(cAgent.Appearance); if (PhysicsActor != null) { bool isFlying = Flying; RemoveFromPhysicalScene(); AddToPhysicalScene(isFlying); } try { lock (scriptedcontrols) { if (cAgent.Controllers != null) { scriptedcontrols.Clear(); foreach (ControllerData c in cAgent.Controllers) { ScriptControllers sc = new ScriptControllers(); sc.itemID = c.ItemID; sc.ignoreControls = (ScriptControlled)c.IgnoreControls; sc.eventControls = (ScriptControlled)c.EventControls; scriptedcontrols[sc.itemID] = sc; } } } } catch { } // FIXME: Why is this null check necessary? Where are the cases where we get a null Anims object? if (cAgent.Anims != null) Animator.Animations.FromArray(cAgent.Anims); if (cAgent.DefaultAnim != null) Animator.Animations.SetDefaultAnimation(cAgent.DefaultAnim.AnimID, cAgent.DefaultAnim.SequenceNum, UUID.Zero); if (cAgent.AnimState != null) Animator.Animations.SetImplicitDefaultAnimation(cAgent.AnimState.AnimID, cAgent.AnimState.SequenceNum, UUID.Zero); if (Scene.AttachmentsModule != null) Scene.AttachmentsModule.CopyAttachments(cAgent, this); } public bool CopyAgent(out IAgentData agent) { agent = new CompleteAgentData(); CopyTo((AgentData)agent); return true; } #endregion Child Agent Updates /// /// Handles part of the PID controller function for moving an avatar. /// public void UpdateMovement() { if (m_forceToApply.HasValue) { Vector3 force = m_forceToApply.Value; Updated = true; Velocity = force; m_forceToApply = null; TriggerScenePresenceUpdated(); } } /// /// Adds a physical representation of the avatar to the Physics plugin /// public void AddToPhysicalScene(bool isFlying) { // m_log.DebugFormat( // "[SCENE PRESENCE]: Adding physics actor for {0}, ifFlying = {1} in {2}", // Name, isFlying, Scene.RegionInfo.RegionName); if (PhysicsActor != null) { m_log.ErrorFormat( "[SCENE PRESENCE]: Adding physics actor for {0} to {1} but this scene presence already has a physics actor", Name, Scene.RegionInfo.RegionName); } if (Appearance.AvatarHeight == 0) Appearance.SetHeight(); PhysicsScene scene = m_scene.PhysicsScene; Vector3 pVec = AbsolutePosition; PhysicsActor = scene.AddAvatar( LocalId, Firstname + "." + Lastname, pVec, new Vector3(0f, 0f, Appearance.AvatarHeight), isFlying); //PhysicsActor.OnRequestTerseUpdate += SendTerseUpdateToAllClients; PhysicsActor.OnCollisionUpdate += PhysicsCollisionUpdate; PhysicsActor.OnOutOfBounds += OutOfBoundsCall; // Called for PhysicsActors when there's something wrong PhysicsActor.SubscribeEvents(500); PhysicsActor.LocalID = LocalId; } private void OutOfBoundsCall(Vector3 pos) { //bool flying = Flying; //RemoveFromPhysicalScene(); //AddToPhysicalScene(flying); if (ControllingClient != null) ControllingClient.SendAgentAlertMessage("Physics is having a problem with your avatar. You may not be able to move until you relog.", true); } /// /// Event called by the physics plugin to tell the avatar about a collision. /// /// /// This function is called continuously, even when there are no collisions. If the avatar is walking on the /// ground or a prim then there will be collision information between the avatar and the surface. /// /// FIXME: However, we can't safely avoid calling this yet where there are no collisions without analyzing whether /// any part of this method is relying on an every-frame call. /// /// public void PhysicsCollisionUpdate(EventArgs e) { if (IsChildAgent) return; //if ((Math.Abs(Velocity.X) > 0.1e-9f) || (Math.Abs(Velocity.Y) > 0.1e-9f)) // The Physics Scene will send updates every 500 ms grep: PhysicsActor.SubscribeEvents( // as of this comment the interval is set in AddToPhysicalScene // if (m_updateCount > 0) // { if (Animator.UpdateMovementAnimations()) TriggerScenePresenceUpdated(); // m_updateCount--; // } CollisionEventUpdate collisionData = (CollisionEventUpdate)e; Dictionary coldata = collisionData.m_objCollisionList; CollisionPlane = Vector4.UnitW; // // No collisions at all means we may be flying. Update always // // to make falling work // if (m_lastColCount != coldata.Count || coldata.Count == 0) // { // m_updateCount = UPDATE_COUNT; // m_lastColCount = coldata.Count; // } if (coldata.Count != 0) { switch (Animator.CurrentMovementAnimation) { case "STAND": case "WALK": case "RUN": case "CROUCH": case "CROUCHWALK": { ContactPoint lowest; lowest.SurfaceNormal = Vector3.Zero; lowest.Position = Vector3.Zero; lowest.Position.Z = Single.NaN; foreach (ContactPoint contact in coldata.Values) { if (Single.IsNaN(lowest.Position.Z) || contact.Position.Z < lowest.Position.Z) { lowest = contact; } } CollisionPlane = new Vector4(-lowest.SurfaceNormal, -Vector3.Dot(lowest.Position, lowest.SurfaceNormal)); } break; } } // Gods do not take damage and Invulnerable is set depending on parcel/region flags if (Invulnerable || GodLevel > 0) return; // The following may be better in the ICombatModule // probably tweaking of the values for ground and normal prim collisions will be needed float starthealth = Health; uint killerObj = 0; SceneObjectPart part = null; foreach (uint localid in coldata.Keys) { if (localid == 0) { part = null; } else { part = Scene.GetSceneObjectPart(localid); } if (part != null) { // Ignore if it has been deleted or volume detect if (!part.ParentGroup.IsDeleted && !part.ParentGroup.IsVolumeDetect) { if (part.ParentGroup.Damage > 0.0f) { // Something with damage... Health -= part.ParentGroup.Damage; part.ParentGroup.Scene.DeleteSceneObject(part.ParentGroup, false); } else { // An ordinary prim if (coldata[localid].PenetrationDepth >= 0.10f) Health -= coldata[localid].PenetrationDepth * 5.0f; } } } else { // 0 is the ground // what about collisions with other avatars? if (localid == 0 && coldata[localid].PenetrationDepth >= 0.10f) Health -= coldata[localid].PenetrationDepth * 5.0f; } if (Health <= 0.0f) { if (localid != 0) killerObj = localid; } //m_log.Debug("[AVATAR]: Collision with localid: " + localid.ToString() + " at depth: " + coldata[localid].ToString()); } //Health = 100; if (!Invulnerable) { if (starthealth != Health) { ControllingClient.SendHealth(Health); } if (Health <= 0) { m_scene.EventManager.TriggerAvatarKill(killerObj, this); } if (starthealth == Health && Health < 100.0f) { Health += 0.03f; if (Health > 100.0f) Health = 100.0f; ControllingClient.SendHealth(Health); } } } public void setHealthWithUpdate(float health) { Health = health; ControllingClient.SendHealth(Health); } protected internal void Close() { // Clear known regions KnownRegions = new Dictionary(); lock (m_reprioritization_timer) { m_reprioritization_timer.Enabled = false; m_reprioritization_timer.Elapsed -= new ElapsedEventHandler(Reprioritize); } // I don't get it but mono crashes when you try to dispose of this timer, // unsetting the elapsed callback should be enough to allow for cleanup however. // m_reprioritizationTimer.Dispose(); RemoveFromPhysicalScene(); LifecycleState = ScenePresenceState.Removed; } public void AddAttachment(SceneObjectGroup gobj) { lock (m_attachments) { // This may be true when the attachment comes back // from serialization after login. Clear it. gobj.IsDeleted = false; m_attachments.Add(gobj); } } /// /// Get all the presence's attachments. /// /// A copy of the list which contains the attachments. public List GetAttachments() { lock (m_attachments) return new List(m_attachments); } /// /// Get the scene objects attached to the given point. /// /// /// Returns an empty list if there were no attachments at the point. public List GetAttachments(uint attachmentPoint) { List attachments = new List(); if (attachmentPoint >= 0) { lock (m_attachments) { foreach (SceneObjectGroup so in m_attachments) { if (attachmentPoint == so.AttachmentPoint) attachments.Add(so); } } } return attachments; } public bool HasAttachments() { lock (m_attachments) return m_attachments.Count > 0; } /// /// Returns the total count of scripts in all parts inventories. /// public int ScriptCount() { int count = 0; lock (m_attachments) { foreach (SceneObjectGroup gobj in m_attachments) { if (gobj != null) { count += gobj.ScriptCount(); } } } return count; } /// /// A float the value is a representative execution time in milliseconds of all scripts in all attachments. /// public float ScriptExecutionTime() { float time = 0.0f; lock (m_attachments) { foreach (SceneObjectGroup gobj in m_attachments) { if (gobj != null) { time += gobj.ScriptExecutionTime(); } } } return time; } /// /// Returns the total count of running scripts in all parts. /// public int RunningScriptCount() { int count = 0; lock (m_attachments) { foreach (SceneObjectGroup gobj in m_attachments) { if (gobj != null) { count += gobj.RunningScriptCount(); } } } return count; } public bool HasScriptedAttachments() { lock (m_attachments) { foreach (SceneObjectGroup gobj in m_attachments) { if (gobj != null) { if (gobj.RootPart.Inventory.ContainsScripts()) return true; } } } return false; } public void RemoveAttachment(SceneObjectGroup gobj) { lock (m_attachments) m_attachments.Remove(gobj); } /// /// Clear all attachments /// public void ClearAttachments() { lock (m_attachments) m_attachments.Clear(); } /// /// This is currently just being done for information. /// public bool ValidateAttachments() { bool validated = true; lock (m_attachments) { // Validate foreach (SceneObjectGroup gobj in m_attachments) { if (gobj == null) { m_log.WarnFormat( "[SCENE PRESENCE]: Failed to validate an attachment for {0} since it was null. Continuing", Name); validated = false; } else if (gobj.IsDeleted) { m_log.WarnFormat( "[SCENE PRESENCE]: Failed to validate attachment {0} {1} for {2} since it had been deleted. Continuing", gobj.Name, gobj.UUID, Name); validated = false; } } } return validated; } /// /// Send a script event to this scene presence's attachments /// /// The name of the event /// The arguments for the event public void SendScriptEventToAttachments(string eventName, Object[] args) { Util.FireAndForget(delegate(object x) { if (m_scriptEngines.Length == 0) return; lock (m_attachments) { foreach (SceneObjectGroup grp in m_attachments) { // 16384 is CHANGED_ANIMATION // // Send this to all attachment root prims // foreach (IScriptModule m in m_scriptEngines) { if (m == null) // No script engine loaded continue; m.PostObjectEvent(grp.RootPart.UUID, "changed", new Object[] { (int)Changed.ANIMATION }); } } } }); } /// /// Gets the mass. /// /// /// The mass. /// public float GetMass() { PhysicsActor pa = PhysicsActor; if (pa != null) return pa.Mass; else return 0; } internal void PushForce(Vector3 impulse) { if (PhysicsActor != null) { PhysicsActor.AddForce(impulse,true); } } public void RegisterControlEventsToScript(int controls, int accept, int pass_on, uint Obj_localID, UUID Script_item_UUID) { ScriptControllers obj = new ScriptControllers(); obj.ignoreControls = ScriptControlled.CONTROL_ZERO; obj.eventControls = ScriptControlled.CONTROL_ZERO; obj.itemID = Script_item_UUID; if (pass_on == 0 && accept == 0) { IgnoredControls |= (ScriptControlled)controls; obj.ignoreControls = (ScriptControlled)controls; } if (pass_on == 0 && accept == 1) { IgnoredControls |= (ScriptControlled)controls; obj.ignoreControls = (ScriptControlled)controls; obj.eventControls = (ScriptControlled)controls; } if (pass_on == 1 && accept == 1) { IgnoredControls = ScriptControlled.CONTROL_ZERO; obj.eventControls = (ScriptControlled)controls; obj.ignoreControls = ScriptControlled.CONTROL_ZERO; } lock (scriptedcontrols) { if (pass_on == 1 && accept == 0) { IgnoredControls &= ~(ScriptControlled)controls; if (scriptedcontrols.ContainsKey(Script_item_UUID)) scriptedcontrols.Remove(Script_item_UUID); } else { scriptedcontrols[Script_item_UUID] = obj; } } ControllingClient.SendTakeControls(controls, pass_on == 1 ? true : false, true); } public void HandleForceReleaseControls(IClientAPI remoteClient, UUID agentID) { IgnoredControls = ScriptControlled.CONTROL_ZERO; lock (scriptedcontrols) { scriptedcontrols.Clear(); } ControllingClient.SendTakeControls(int.MaxValue, false, false); } public void UnRegisterControlEventsToScript(uint Obj_localID, UUID Script_item_UUID) { ScriptControllers takecontrols; lock (scriptedcontrols) { if (scriptedcontrols.TryGetValue(Script_item_UUID, out takecontrols)) { ScriptControlled sctc = takecontrols.eventControls; ControllingClient.SendTakeControls((int)sctc, false, false); ControllingClient.SendTakeControls((int)sctc, true, false); scriptedcontrols.Remove(Script_item_UUID); IgnoredControls = ScriptControlled.CONTROL_ZERO; foreach (ScriptControllers scData in scriptedcontrols.Values) { IgnoredControls |= scData.ignoreControls; } } } } private void SendControlsToScripts(uint flags) { // Notify the scripts only after calling UpdateMovementAnimations(), so that if a script // (e.g., a walking script) checks which animation is active it will be the correct animation. lock (scriptedcontrols) { if (scriptedcontrols.Count <= 0) return; ScriptControlled allflags = ScriptControlled.CONTROL_ZERO; if (MouseDown) { allflags = LastCommands & (ScriptControlled.CONTROL_ML_LBUTTON | ScriptControlled.CONTROL_LBUTTON); if ((flags & (uint)AgentManager.ControlFlags.AGENT_CONTROL_LBUTTON_UP) != 0 || (flags & unchecked((uint)AgentManager.ControlFlags.AGENT_CONTROL_ML_LBUTTON_UP)) != 0) { allflags = ScriptControlled.CONTROL_ZERO; MouseDown = true; } } if ((flags & (uint)AgentManager.ControlFlags.AGENT_CONTROL_ML_LBUTTON_DOWN) != 0) { allflags |= ScriptControlled.CONTROL_ML_LBUTTON; MouseDown = true; } if ((flags & (uint)AgentManager.ControlFlags.AGENT_CONTROL_LBUTTON_DOWN) != 0) { allflags |= ScriptControlled.CONTROL_LBUTTON; MouseDown = true; } // find all activated controls, whether the scripts are interested in them or not if ((flags & (uint)AgentManager.ControlFlags.AGENT_CONTROL_AT_POS) != 0 || (flags & (uint)AgentManager.ControlFlags.AGENT_CONTROL_NUDGE_AT_POS) != 0) { allflags |= ScriptControlled.CONTROL_FWD; } if ((flags & (uint)AgentManager.ControlFlags.AGENT_CONTROL_AT_NEG) != 0 || (flags & (uint)AgentManager.ControlFlags.AGENT_CONTROL_NUDGE_AT_NEG) != 0) { allflags |= ScriptControlled.CONTROL_BACK; } if ((flags & (uint)AgentManager.ControlFlags.AGENT_CONTROL_UP_POS) != 0 || (flags & (uint)AgentManager.ControlFlags.AGENT_CONTROL_NUDGE_UP_POS) != 0) { allflags |= ScriptControlled.CONTROL_UP; } if ((flags & (uint)AgentManager.ControlFlags.AGENT_CONTROL_UP_NEG) != 0 || (flags & (uint)AgentManager.ControlFlags.AGENT_CONTROL_NUDGE_UP_NEG) != 0) { allflags |= ScriptControlled.CONTROL_DOWN; } if ((flags & (uint)AgentManager.ControlFlags.AGENT_CONTROL_LEFT_POS) != 0 || (flags & (uint)AgentManager.ControlFlags.AGENT_CONTROL_NUDGE_LEFT_POS) != 0) { allflags |= ScriptControlled.CONTROL_LEFT; } if ((flags & (uint)AgentManager.ControlFlags.AGENT_CONTROL_LEFT_NEG) != 0 || (flags & (uint)AgentManager.ControlFlags.AGENT_CONTROL_NUDGE_LEFT_NEG) != 0) { allflags |= ScriptControlled.CONTROL_RIGHT; } if ((flags & (uint)AgentManager.ControlFlags.AGENT_CONTROL_YAW_NEG) != 0) { allflags |= ScriptControlled.CONTROL_ROT_RIGHT; } if ((flags & (uint)AgentManager.ControlFlags.AGENT_CONTROL_YAW_POS) != 0) { allflags |= ScriptControlled.CONTROL_ROT_LEFT; } // optimization; we have to check per script, but if nothing is pressed and nothing changed, we can skip that if (allflags != ScriptControlled.CONTROL_ZERO || allflags != LastCommands) { foreach (KeyValuePair kvp in scriptedcontrols) { UUID scriptUUID = kvp.Key; ScriptControllers scriptControlData = kvp.Value; ScriptControlled localHeld = allflags & scriptControlData.eventControls; // the flags interesting for us ScriptControlled localLast = LastCommands & scriptControlData.eventControls; // the activated controls in the last cycle ScriptControlled localChange = localHeld ^ localLast; // the changed bits if (localHeld != ScriptControlled.CONTROL_ZERO || localChange != ScriptControlled.CONTROL_ZERO) { // only send if still pressed or just changed m_scene.EventManager.TriggerControlEvent(scriptUUID, UUID, (uint)localHeld, (uint)localChange); } } } LastCommands = allflags; } } internal static AgentManager.ControlFlags RemoveIgnoredControls(AgentManager.ControlFlags flags, ScriptControlled ignored) { if (ignored == ScriptControlled.CONTROL_ZERO) return flags; if ((ignored & ScriptControlled.CONTROL_BACK) != 0) flags &= ~(AgentManager.ControlFlags.AGENT_CONTROL_AT_NEG | AgentManager.ControlFlags.AGENT_CONTROL_NUDGE_AT_NEG); if ((ignored & ScriptControlled.CONTROL_FWD) != 0) flags &= ~(AgentManager.ControlFlags.AGENT_CONTROL_NUDGE_AT_POS | AgentManager.ControlFlags.AGENT_CONTROL_AT_POS); if ((ignored & ScriptControlled.CONTROL_DOWN) != 0) flags &= ~(AgentManager.ControlFlags.AGENT_CONTROL_UP_NEG | AgentManager.ControlFlags.AGENT_CONTROL_NUDGE_UP_NEG); if ((ignored & ScriptControlled.CONTROL_UP) != 0) flags &= ~(AgentManager.ControlFlags.AGENT_CONTROL_NUDGE_UP_POS | AgentManager.ControlFlags.AGENT_CONTROL_UP_POS); if ((ignored & ScriptControlled.CONTROL_LEFT) != 0) flags &= ~(AgentManager.ControlFlags.AGENT_CONTROL_LEFT_POS | AgentManager.ControlFlags.AGENT_CONTROL_NUDGE_LEFT_POS); if ((ignored & ScriptControlled.CONTROL_RIGHT) != 0) flags &= ~(AgentManager.ControlFlags.AGENT_CONTROL_NUDGE_LEFT_NEG | AgentManager.ControlFlags.AGENT_CONTROL_LEFT_NEG); if ((ignored & ScriptControlled.CONTROL_ROT_LEFT) != 0) flags &= ~(AgentManager.ControlFlags.AGENT_CONTROL_YAW_NEG); if ((ignored & ScriptControlled.CONTROL_ROT_RIGHT) != 0) flags &= ~(AgentManager.ControlFlags.AGENT_CONTROL_YAW_POS); if ((ignored & ScriptControlled.CONTROL_ML_LBUTTON) != 0) flags &= ~(AgentManager.ControlFlags.AGENT_CONTROL_ML_LBUTTON_DOWN); if ((ignored & ScriptControlled.CONTROL_LBUTTON) != 0) flags &= ~(AgentManager.ControlFlags.AGENT_CONTROL_LBUTTON_UP | AgentManager.ControlFlags.AGENT_CONTROL_LBUTTON_DOWN); //DIR_CONTROL_FLAG_FORWARD = AgentManager.ControlFlags.AGENT_CONTROL_AT_POS, //DIR_CONTROL_FLAG_BACK = AgentManager.ControlFlags.AGENT_CONTROL_AT_NEG, //DIR_CONTROL_FLAG_LEFT = AgentManager.ControlFlags.AGENT_CONTROL_LEFT_POS, //DIR_CONTROL_FLAG_RIGHT = AgentManager.ControlFlags.AGENT_CONTROL_LEFT_NEG, //DIR_CONTROL_FLAG_UP = AgentManager.ControlFlags.AGENT_CONTROL_UP_POS, //DIR_CONTROL_FLAG_DOWN = AgentManager.ControlFlags.AGENT_CONTROL_UP_NEG, //DIR_CONTROL_FLAG_DOWN_NUDGE = AgentManager.ControlFlags.AGENT_CONTROL_NUDGE_UP_NEG return flags; } private void ReprioritizeUpdates() { if (Scene.IsReprioritizationEnabled && Scene.UpdatePrioritizationScheme != UpdatePrioritizationSchemes.Time) { lock (m_reprioritization_timer) { if (!m_reprioritizing) m_reprioritization_timer.Enabled = m_reprioritizing = true; else m_reprioritization_called = true; } } } private void Reprioritize(object sender, ElapsedEventArgs e) { ControllingClient.ReprioritizeUpdates(); lock (m_reprioritization_timer) { m_reprioritization_timer.Enabled = m_reprioritizing = m_reprioritization_called; m_reprioritization_called = false; } } private void CheckLandingPoint(ref Vector3 pos) { // Never constrain lures if ((TeleportFlags & TeleportFlags.ViaLure) != 0) return; if (m_scene.RegionInfo.EstateSettings.AllowDirectTeleport) return; ILandObject land = m_scene.LandChannel.GetLandObject(pos.X, pos.Y); if (land.LandData.LandingType == (byte)LandingType.LandingPoint && land.LandData.UserLocation != Vector3.Zero && land.LandData.OwnerID != m_uuid && (!m_scene.Permissions.IsGod(m_uuid)) && (!m_scene.RegionInfo.EstateSettings.IsEstateManagerOrOwner(m_uuid))) { float curr = Vector3.Distance(AbsolutePosition, pos); if (Vector3.Distance(land.LandData.UserLocation, pos) < curr) pos = land.LandData.UserLocation; else ControllingClient.SendAlertMessage("Can't teleport closer to destination"); } } private void CheckAndAdjustTelehub(SceneObjectGroup telehub, ref Vector3 pos) { if ((m_teleportFlags & (TeleportFlags.ViaLogin | TeleportFlags.ViaRegionID)) == (TeleportFlags.ViaLogin | TeleportFlags.ViaRegionID) || (m_scene.TelehubAllowLandmarks == true ? false : ((m_teleportFlags & TeleportFlags.ViaLandmark) != 0 )) || (m_teleportFlags & TeleportFlags.ViaLocation) != 0 || (m_teleportFlags & Constants.TeleportFlags.ViaHGLogin) != 0) { if (GodLevel < 200 && ((!m_scene.Permissions.IsGod(m_uuid) && !m_scene.RegionInfo.EstateSettings.IsEstateManagerOrOwner(m_uuid)) || (m_teleportFlags & TeleportFlags.ViaLocation) != 0 || (m_teleportFlags & Constants.TeleportFlags.ViaHGLogin) != 0)) { SpawnPoint[] spawnPoints = m_scene.RegionInfo.RegionSettings.SpawnPoints().ToArray(); if (spawnPoints.Length == 0) { if(m_scene.RegionInfo.EstateSettings.IsEstateManagerOrOwner(m_uuid)) { pos.X = 128.0f; pos.Y = 128.0f; } return; } int index; bool selected = false; switch (m_scene.SpawnPointRouting) { case "random": if (spawnPoints.Length == 0) return; do { index = Util.RandomClass.Next(spawnPoints.Length - 1); Vector3 spawnPosition = spawnPoints[index].GetLocation( telehub.AbsolutePosition, telehub.GroupRotation ); // SpawnPoint sp = spawnPoints[index]; ILandObject land = m_scene.LandChannel.GetLandObject(spawnPosition.X, spawnPosition.Y); if (land == null || land.IsEitherBannedOrRestricted(UUID)) selected = false; else selected = true; } while ( selected == false); pos = spawnPoints[index].GetLocation( telehub.AbsolutePosition, telehub.GroupRotation ); return; case "sequence": do { index = m_scene.SpawnPoint(); Vector3 spawnPosition = spawnPoints[index].GetLocation( telehub.AbsolutePosition, telehub.GroupRotation ); // SpawnPoint sp = spawnPoints[index]; ILandObject land = m_scene.LandChannel.GetLandObject(spawnPosition.X, spawnPosition.Y); if (land == null || land.IsEitherBannedOrRestricted(UUID)) selected = false; else selected = true; } while (selected == false); pos = spawnPoints[index].GetLocation(telehub.AbsolutePosition, telehub.GroupRotation); ; return; default: case "closest": float distance = 9999; int closest = -1; for (int i = 0; i < spawnPoints.Length; i++) { Vector3 spawnPosition = spawnPoints[i].GetLocation( telehub.AbsolutePosition, telehub.GroupRotation ); Vector3 offset = spawnPosition - pos; float d = Vector3.Mag(offset); if (d >= distance) continue; ILandObject land = m_scene.LandChannel.GetLandObject(spawnPosition.X, spawnPosition.Y); if (land == null) continue; if (land.IsEitherBannedOrRestricted(UUID)) continue; distance = d; closest = i; } if (closest == -1) return; pos = spawnPoints[closest].GetLocation(telehub.AbsolutePosition, telehub.GroupRotation); return; } } } } private void CheckAndAdjustLandingPoint(ref Vector3 pos) { SceneObjectGroup telehub = null; if (m_scene.RegionInfo.RegionSettings.TelehubObject != UUID.Zero && (telehub = m_scene.GetSceneObjectGroup(m_scene.RegionInfo.RegionSettings.TelehubObject)) != null) { if (!m_scene.RegionInfo.EstateSettings.AllowDirectTeleport) { CheckAndAdjustTelehub(telehub, ref pos); return; } } ILandObject land = m_scene.LandChannel.GetLandObject(pos.X, pos.Y); if (land != null) { if (Scene.DebugTeleporting) TeleportFlagsDebug(); // If we come in via login, landmark or map, we want to // honor landing points. If we come in via Lure, we want // to ignore them. if ((m_teleportFlags & (TeleportFlags.ViaLogin | TeleportFlags.ViaRegionID)) == (TeleportFlags.ViaLogin | TeleportFlags.ViaRegionID) || (m_teleportFlags & TeleportFlags.ViaLandmark) != 0 || (m_teleportFlags & TeleportFlags.ViaLocation) != 0 || (m_teleportFlags & Constants.TeleportFlags.ViaHGLogin) != 0) { // Don't restrict gods, estate managers, or land owners to // the TP point. This behaviour mimics agni. if (land.LandData.LandingType == (byte)LandingType.LandingPoint && land.LandData.UserLocation != Vector3.Zero && GodLevel < 200 && ((land.LandData.OwnerID != m_uuid && !m_scene.Permissions.IsGod(m_uuid) && !m_scene.RegionInfo.EstateSettings.IsEstateManagerOrOwner(m_uuid)) || (m_teleportFlags & TeleportFlags.ViaLocation) != 0 || (m_teleportFlags & Constants.TeleportFlags.ViaHGLogin) != 0)) { pos = land.LandData.UserLocation; } } land.SendLandUpdateToClient(ControllingClient); } } private void TeleportFlagsDebug() { // Some temporary debugging help to show all the TeleportFlags we have... bool HG = false; if((m_teleportFlags & TeleportFlags.ViaHGLogin) == TeleportFlags.ViaHGLogin) HG = true; m_log.InfoFormat("[SCENE PRESENCE]: TELEPORT ******************"); uint i = 0u; for (int x = 0; x <= 30 ; x++, i = 1u << x) { i = 1u << x; if((m_teleportFlags & (TeleportFlags)i) == (TeleportFlags)i) if (HG == false) m_log.InfoFormat("[SCENE PRESENCE]: Teleport Flags include {0}", ((TeleportFlags) i).ToString()); else m_log.InfoFormat("[SCENE PRESENCE]: HG Teleport Flags include {0}", ((TeleportFlags)i).ToString()); } m_log.InfoFormat("[SCENE PRESENCE]: TELEPORT ******************"); } } }