|
public SetTextureEntries ( |
||
| textureEntry | ||
| return | bool | |
/// <summary>
/// Deserialization of agent data.
/// Avoiding reflection makes it painful to write, but that's the price!
/// </summary>
/// <param name="hash"></param>
public virtual void Unpack(OSDMap args)
{
// DEBUG ON
m_log.WarnFormat("[CHILDAGENTDATAUPDATE] Unpack data");
// DEBUG OFF
if (args.ContainsKey("region_id"))
UUID.TryParse(args["region_id"].AsString(), out RegionID);
if (args["circuit_code"] != null)
UInt32.TryParse((string)args["circuit_code"].AsString(), out CircuitCode);
if (args["agent_uuid"] != null)
AgentID = args["agent_uuid"].AsUUID();
if (args["session_uuid"] != null)
SessionID = args["session_uuid"].AsUUID();
if (args["position"] != null)
Vector3.TryParse(args["position"].AsString(), out Position);
if (args["velocity"] != null)
Vector3.TryParse(args["velocity"].AsString(), out Velocity);
if (args["center"] != null)
Vector3.TryParse(args["center"].AsString(), out Center);
if (args["size"] != null)
Vector3.TryParse(args["size"].AsString(), out Size);
if (args["at_axis"] != null)
Vector3.TryParse(args["at_axis"].AsString(), out AtAxis);
if (args["left_axis"] != null)
Vector3.TryParse(args["left_axis"].AsString(), out AtAxis);
if (args["up_axis"] != null)
Vector3.TryParse(args["up_axis"].AsString(), out AtAxis);
if (args["changed_grid"] != null)
ChangedGrid = args["changed_grid"].AsBoolean();
if (args["far"] != null)
Far = (float)(args["far"].AsReal());
if (args["aspect"] != null)
Aspect = (float)args["aspect"].AsReal();
if (args["throttles"] != null)
Throttles = args["throttles"].AsBinary();
if (args["locomotion_state"] != null)
UInt32.TryParse(args["locomotion_state"].AsString(), out LocomotionState);
if (args["head_rotation"] != null)
Quaternion.TryParse(args["head_rotation"].AsString(), out HeadRotation);
if (args["body_rotation"] != null)
Quaternion.TryParse(args["body_rotation"].AsString(), out BodyRotation);
if (args["control_flags"] != null)
UInt32.TryParse(args["control_flags"].AsString(), out ControlFlags);
if (args["energy_level"] != null)
EnergyLevel = (float)(args["energy_level"].AsReal());
//This IS checked later
if (args["god_level"] != null)
Byte.TryParse(args["god_level"].AsString(), out GodLevel);
if (args["speed"] != null)
float.TryParse(args["speed"].AsString(), out Speed);
else
Speed = 1;
if (args["draw_distance"] != null)
float.TryParse(args["draw_distance"].AsString(), out DrawDistance);
else
DrawDistance = 0;
//Reset this to fix movement... since regions are being bad about this
if (Speed == 0)
Speed = 1;
if (args["always_run"] != null)
AlwaysRun = args["always_run"].AsBoolean();
if (args["sent_initial_wearables"] != null)
SentInitialWearables = args["sent_initial_wearables"].AsBoolean();
else
SentInitialWearables = false;
if (args["prey_agent"] != null)
PreyAgent = args["prey_agent"].AsUUID();
if (args["agent_access"] != null)
Byte.TryParse(args["agent_access"].AsString(), out AgentAccess);
if (args["active_group_id"] != null)
ActiveGroupID = args["active_group_id"].AsUUID();
if ((args["groups"] != null) && (args["groups"]).Type == OSDType.Array)
{
OSDArray groups = (OSDArray)(args["groups"]);
Groups = new AgentGroupData[groups.Count];
int i = 0;
foreach (OSD o in groups)
{
if (o.Type == OSDType.Map)
{
Groups[i++] = new AgentGroupData((OSDMap)o);
}
}
}
if ((args["animations"] != null) && (args["animations"]).Type == OSDType.Array)
{
OSDArray anims = (OSDArray)(args["animations"]);
Anims = new Animation[anims.Count];
int i = 0;
foreach (OSD o in anims)
{
if (o.Type == OSDType.Map)
{
Anims[i++] = new Animation((OSDMap)o);
}
}
}
//if ((args["agent_textures"] != null) && (args["agent_textures"]).Type == OSDType.Array)
//{
// OSDArray textures = (OSDArray)(args["agent_textures"]);
// AgentTextures = new UUID[textures.Count];
// int i = 0;
// foreach (OSD o in textures)
// AgentTextures[i++] = o.AsUUID();
//}
Appearance = new AvatarAppearance(AgentID);
// The code to unpack textures, visuals, wearables and attachments
// should be removed; packed appearance contains the full appearance
// This is retained for backward compatibility only
if (args["texture_entry"] != null)
{
byte[] rawtextures = args["texture_entry"].AsBinary();
Primitive.TextureEntry textures = new Primitive.TextureEntry(rawtextures, 0, rawtextures.Length);
List<UUID> changed = new List<UUID>();
Appearance.SetTextureEntries(textures, out changed);
}
if (args["visual_params"] != null)
Appearance.SetVisualParams(args["visual_params"].AsBinary());
if ((args["wearables"] != null) && (args["wearables"]).Type == OSDType.Array)
{
OSDArray wears = (OSDArray)(args["wearables"]);
for (int i = 0; i < wears.Count / 2; i++)
{
AvatarWearable awear = new AvatarWearable((OSDArray)wears[i]);
Appearance.SetWearable(i, awear);
}
}
if ((args["attachments"] != null) && (args["attachments"]).Type == OSDType.Array)
{
OSDArray attachs = (OSDArray)(args["attachments"]);
foreach (OSD o in attachs)
{
if (o.Type == OSDType.Map)
{
// We know all of these must end up as attachments so we
// append rather than replace to ensure multiple attachments
// per point continues to work
Appearance.AppendAttachment(new AvatarAttachment((OSDMap)o));
}
}
}
// end of code to remove
if (args.ContainsKey("packed_appearance") && (args["packed_appearance"]).Type == OSDType.Map)
Appearance = new AvatarAppearance(AgentID, (OSDMap)args["packed_appearance"]);
// DEBUG ON
else
m_log.WarnFormat("[CHILDAGENTDATAUPDATE] No packed appearance");
// DEBUG OFF
if ((args["controllers"] != null) && (args["controllers"]).Type == OSDType.Array)
{
OSDArray controls = (OSDArray)(args["controllers"]);
Controllers = new ControllerData[controls.Count];
int i = 0;
foreach (OSD o in controls)
{
if (o.Type == OSDType.Map)
{
Controllers[i++] = new ControllerData((OSDMap)o);
}
}
}
if (args["callback_uri"] != null)
CallbackURI = args["callback_uri"].AsString();
}
/// <summary>
/// Deserialization of agent data.
/// Avoiding reflection makes it painful to write, but that's the price!
/// </summary>
/// <param name="hash"></param>
public virtual void Unpack(OSDMap args, IScene scene, EntityTransferContext ctx)
{
//m_log.InfoFormat("[CHILDAGENTDATAUPDATE] Unpack data");
if (args.ContainsKey("region_id"))
UUID.TryParse(args["region_id"].AsString(), out RegionID);
if (args["circuit_code"] != null)
UInt32.TryParse((string)args["circuit_code"].AsString(), out CircuitCode);
if (args["agent_uuid"] != null)
AgentID = args["agent_uuid"].AsUUID();
if (args["session_uuid"] != null)
SessionID = args["session_uuid"].AsUUID();
if (args["position"] != null)
Vector3.TryParse(args["position"].AsString(), out Position);
if (args["velocity"] != null)
Vector3.TryParse(args["velocity"].AsString(), out Velocity);
if (args["center"] != null)
Vector3.TryParse(args["center"].AsString(), out Center);
if (args["size"] != null)
Vector3.TryParse(args["size"].AsString(), out Size);
if (args["at_axis"] != null)
Vector3.TryParse(args["at_axis"].AsString(), out AtAxis);
if (args["left_axis"] != null)
Vector3.TryParse(args["left_axis"].AsString(), out AtAxis);
if (args["up_axis"] != null)
Vector3.TryParse(args["up_axis"].AsString(), out AtAxis);
if (args.ContainsKey("wait_for_root") && args["wait_for_root"] != null)
SenderWantsToWaitForRoot = args["wait_for_root"].AsBoolean();
if (args["far"] != null)
Far = (float)(args["far"].AsReal());
if (args["aspect"] != null)
Aspect = (float)args["aspect"].AsReal();
if (args["throttles"] != null)
Throttles = args["throttles"].AsBinary();
if (args["locomotion_state"] != null)
UInt32.TryParse(args["locomotion_state"].AsString(), out LocomotionState);
if (args["head_rotation"] != null)
Quaternion.TryParse(args["head_rotation"].AsString(), out HeadRotation);
if (args["body_rotation"] != null)
Quaternion.TryParse(args["body_rotation"].AsString(), out BodyRotation);
if (args["control_flags"] != null)
UInt32.TryParse(args["control_flags"].AsString(), out ControlFlags);
if (args["energy_level"] != null)
EnergyLevel = (float)(args["energy_level"].AsReal());
if (args["god_level"] != null)
Byte.TryParse(args["god_level"].AsString(), out GodLevel);
if (args["always_run"] != null)
AlwaysRun = args["always_run"].AsBoolean();
if (args["prey_agent"] != null)
PreyAgent = args["prey_agent"].AsUUID();
if (args["agent_access"] != null)
Byte.TryParse(args["agent_access"].AsString(), out AgentAccess);
if (args.ContainsKey("agent_cof") && args["agent_cof"] != null)
agentCOF = args["agent_cof"].AsUUID();
if (args.ContainsKey("crossingflags") && args["crossingflags"] != null)
CrossingFlags = (byte)args["crossingflags"].AsInteger();
if (args.ContainsKey("active_group_id") && args["active_group_id"] != null)
ActiveGroupID = args["active_group_id"].AsUUID();
if (args.ContainsKey("active_group_name") && args["active_group_name"] != null)
ActiveGroupName = args["active_group_name"].AsString();
if(args.ContainsKey("active_group_title") && args["active_group_title"] != null)
ActiveGroupTitle = args["active_group_title"].AsString();
if (args.ContainsKey("groups") && (args["groups"] != null) && (args["groups"]).Type == OSDType.Array)
{
OSDArray groups = (OSDArray)(args["groups"]);
Groups = new AgentGroupData[groups.Count];
int i = 0;
foreach (OSD o in groups)
{
if (o.Type == OSDType.Map)
{
Groups[i++] = new AgentGroupData((OSDMap)o);
}
}
}
if (args.ContainsKey("children_seeds") && (args["children_seeds"] != null) &&
(args["children_seeds"].Type == OSDType.Array))
{
OSDArray childrenSeeds = (OSDArray)(args["children_seeds"]);
ChildrenCapSeeds = new Dictionary<ulong, string>();
foreach (OSD o in childrenSeeds)
{
if (o.Type == OSDType.Map)
{
ulong handle = 0;
string seed = "";
OSDMap pair = (OSDMap)o;
if (pair["handle"] != null)
if (!UInt64.TryParse(pair["handle"].AsString(), out handle))
continue;
if (pair["seed"] != null)
seed = pair["seed"].AsString();
if (!ChildrenCapSeeds.ContainsKey(handle))
ChildrenCapSeeds.Add(handle, seed);
}
}
}
if ((args["animations"] != null) && (args["animations"]).Type == OSDType.Array)
{
OSDArray anims = (OSDArray)(args["animations"]);
Anims = new Animation[anims.Count];
int i = 0;
foreach (OSD o in anims)
{
if (o.Type == OSDType.Map)
{
Anims[i++] = new Animation((OSDMap)o);
}
}
}
if (args["default_animation"] != null)
{
try
{
DefaultAnim = new Animation((OSDMap)args["default_animation"]);
}
catch
{
DefaultAnim = null;
}
}
if (args["animation_state"] != null)
{
try
{
AnimState = new Animation((OSDMap)args["animation_state"]);
}
catch
{
AnimState = null;
}
}
MovementAnimationOverRides.Clear();
if (args["movementAO"] != null && args["movementAO"].Type == OSDType.Array)
{
OSDArray AOs = (OSDArray)(args["movementAO"]);
int count = AOs.Count;
for (int i = 0; i < count; i++)
{
OSDMap ao = (OSDMap)AOs[i];
if (ao["state"] != null && ao["uuid"] != null)
{
string state = ao["state"].AsString();
UUID id = ao["uuid"].AsUUID();
MovementAnimationOverRides[state] = id;
}
}
}
if (args.ContainsKey("motion_state"))
MotionState = (byte)args["motion_state"].AsInteger();
//if ((args["agent_textures"] != null) && (args["agent_textures"]).Type == OSDType.Array)
//{
// OSDArray textures = (OSDArray)(args["agent_textures"]);
// AgentTextures = new UUID[textures.Count];
// int i = 0;
// foreach (OSD o in textures)
// AgentTextures[i++] = o.AsUUID();
//}
// packed_appearence should contain all appearance information
if (args.ContainsKey("packed_appearance") && (args["packed_appearance"]).Type == OSDType.Map)
{
m_log.WarnFormat("[CHILDAGENTDATAUPDATE] got packed appearance");
Appearance = new AvatarAppearance((OSDMap)args["packed_appearance"]);
}
else
{
// if missing try the old pack method
m_log.WarnFormat("[CHILDAGENTDATAUPDATE] No packed appearance, checking old method");
Appearance = new AvatarAppearance();
// The code to unpack textures, visuals, wearables and attachments
// should be removed; packed appearance contains the full appearance
// This is retained for backward compatibility only
if (args["texture_entry"] != null)
{
byte[] rawtextures = args["texture_entry"].AsBinary();
Primitive.TextureEntry textures = new Primitive.TextureEntry(rawtextures, 0, rawtextures.Length);
Appearance.SetTextureEntries(textures);
}
if (args["visual_params"] != null)
Appearance.SetVisualParams(args["visual_params"].AsBinary());
if ((args["wearables"] != null) && (args["wearables"]).Type == OSDType.Array)
{
OSDArray wears = (OSDArray)(args["wearables"]);
for (int i = 0; i < wears.Count / 2; i++)
{
AvatarWearable awear = new AvatarWearable((OSDArray)wears[i]);
Appearance.SetWearable(i, awear);
}
}
if ((args["attachments"] != null) && (args["attachments"]).Type == OSDType.Array)
{
OSDArray attachs = (OSDArray)(args["attachments"]);
foreach (OSD o in attachs)
{
if (o.Type == OSDType.Map)
{
// We know all of these must end up as attachments so we
// append rather than replace to ensure multiple attachments
// per point continues to work
// m_log.DebugFormat("[CHILDAGENTDATAUPDATE]: Appending attachments for {0}", AgentID);
Appearance.AppendAttachment(new AvatarAttachment((OSDMap)o));
}
}
}
// end of code to remove
}
/* moved above
if (args.ContainsKey("packed_appearance") && (args["packed_appearance"]).Type == OSDType.Map)
Appearance = new AvatarAppearance((OSDMap)args["packed_appearance"]);
else
m_log.WarnFormat("[CHILDAGENTDATAUPDATE] No packed appearance");
*/
if ((args["controllers"] != null) && (args["controllers"]).Type == OSDType.Array)
{
OSDArray controls = (OSDArray)(args["controllers"]);
Controllers = new ControllerData[controls.Count];
int i = 0;
foreach (OSD o in controls)
{
if (o.Type == OSDType.Map)
{
Controllers[i++] = new ControllerData((OSDMap)o);
}
}
}
if (args["callback_uri"] != null)
CallbackURI = args["callback_uri"].AsString();
// Attachment objects
if (args["attach_objects"] != null && args["attach_objects"].Type == OSDType.Array)
{
OSDArray attObjs = (OSDArray)(args["attach_objects"]);
AttachmentObjects = new List<ISceneObject>();
AttachmentObjectStates = new List<string>();
foreach (OSD o in attObjs)
{
if (o.Type == OSDType.Map)
{
OSDMap info = (OSDMap)o;
ISceneObject so = scene.DeserializeObject(info["sog"].AsString());
so.ExtraFromXmlString(info["extra"].AsString());
so.HasGroupChanged = info["modified"].AsBoolean();
AttachmentObjects.Add(so);
AttachmentObjectStates.Add(info["state"].AsString());
}
}
}
if (args["parent_part"] != null)
ParentPart = args["parent_part"].AsUUID();
if (args["sit_offset"] != null)
Vector3.TryParse(args["sit_offset"].AsString(), out SitOffset);
}
/// <summary>
/// Deserialization of agent data.
/// Avoiding reflection makes it painful to write, but that's the price!
/// </summary>
/// <param name="hash"></param>
public virtual void Unpack(OSDMap args, IScene scene, EntityTransferContext ctx)
{
//m_log.InfoFormat("[CHILDAGENTDATAUPDATE] Unpack data");
if (args.ContainsKey("region_id"))
{
UUID.TryParse(args["region_id"].AsString(), out RegionID);
}
if (args["circuit_code"] != null)
{
UInt32.TryParse((string)args["circuit_code"].AsString(), out CircuitCode);
}
if (args["agent_uuid"] != null)
{
AgentID = args["agent_uuid"].AsUUID();
}
if (args["session_uuid"] != null)
{
SessionID = args["session_uuid"].AsUUID();
}
if (args["position"] != null)
{
Vector3.TryParse(args["position"].AsString(), out Position);
}
if (args["velocity"] != null)
{
Vector3.TryParse(args["velocity"].AsString(), out Velocity);
}
if (args["center"] != null)
{
Vector3.TryParse(args["center"].AsString(), out Center);
}
if (args["size"] != null)
{
Vector3.TryParse(args["size"].AsString(), out Size);
}
if (args["at_axis"] != null)
{
Vector3.TryParse(args["at_axis"].AsString(), out AtAxis);
}
if (args["left_axis"] != null)
{
Vector3.TryParse(args["left_axis"].AsString(), out AtAxis);
}
if (args["up_axis"] != null)
{
Vector3.TryParse(args["up_axis"].AsString(), out AtAxis);
}
if (args.ContainsKey("wait_for_root") && args["wait_for_root"] != null)
{
SenderWantsToWaitForRoot = args["wait_for_root"].AsBoolean();
}
if (args["far"] != null)
{
Far = (float)(args["far"].AsReal());
}
if (args["aspect"] != null)
{
Aspect = (float)args["aspect"].AsReal();
}
if (args["throttles"] != null)
{
Throttles = args["throttles"].AsBinary();
}
if (args["locomotion_state"] != null)
{
UInt32.TryParse(args["locomotion_state"].AsString(), out LocomotionState);
}
if (args["head_rotation"] != null)
{
Quaternion.TryParse(args["head_rotation"].AsString(), out HeadRotation);
}
if (args["body_rotation"] != null)
{
Quaternion.TryParse(args["body_rotation"].AsString(), out BodyRotation);
}
if (args["control_flags"] != null)
{
UInt32.TryParse(args["control_flags"].AsString(), out ControlFlags);
}
if (args["energy_level"] != null)
{
EnergyLevel = (float)(args["energy_level"].AsReal());
}
if (args["god_level"] != null)
{
Byte.TryParse(args["god_level"].AsString(), out GodLevel);
}
if (args["always_run"] != null)
{
AlwaysRun = args["always_run"].AsBoolean();
}
if (args["prey_agent"] != null)
{
PreyAgent = args["prey_agent"].AsUUID();
}
if (args["agent_access"] != null)
{
Byte.TryParse(args["agent_access"].AsString(), out AgentAccess);
}
if (args["active_group_id"] != null)
{
ActiveGroupID = args["active_group_id"].AsUUID();
}
if ((args["groups"] != null) && (args["groups"]).Type == OSDType.Array)
{
OSDArray groups = (OSDArray)(args["groups"]);
Groups = new AgentGroupData[groups.Count];
int i = 0;
foreach (OSD o in groups)
{
if (o.Type == OSDType.Map)
{
Groups[i++] = new AgentGroupData((OSDMap)o);
}
}
}
if (args.ContainsKey("children_seeds") && (args["children_seeds"] != null) &&
(args["children_seeds"].Type == OSDType.Array))
{
OSDArray childrenSeeds = (OSDArray)(args["children_seeds"]);
ChildrenCapSeeds = new Dictionary <ulong, string>();
foreach (OSD o in childrenSeeds)
{
if (o.Type == OSDType.Map)
{
ulong handle = 0;
string seed = "";
OSDMap pair = (OSDMap)o;
if (pair["handle"] != null)
{
if (!UInt64.TryParse(pair["handle"].AsString(), out handle))
{
continue;
}
}
if (pair["seed"] != null)
{
seed = pair["seed"].AsString();
}
if (!ChildrenCapSeeds.ContainsKey(handle))
{
ChildrenCapSeeds.Add(handle, seed);
}
}
}
}
if ((args["animations"] != null) && (args["animations"]).Type == OSDType.Array)
{
OSDArray anims = (OSDArray)(args["animations"]);
Anims = new Animation[anims.Count];
int i = 0;
foreach (OSD o in anims)
{
if (o.Type == OSDType.Map)
{
Anims[i++] = new Animation((OSDMap)o);
}
}
}
if (args["default_animation"] != null)
{
try
{
DefaultAnim = new Animation((OSDMap)args["default_animation"]);
}
catch
{
DefaultAnim = null;
}
}
if (args["animation_state"] != null)
{
try
{
AnimState = new Animation((OSDMap)args["animation_state"]);
}
catch
{
AnimState = null;
}
}
MovementAnimationOverRides.Clear();
if (args["movementAO"] != null && args["movementAO"].Type == OSDType.Array)
{
OSDArray AOs = (OSDArray)(args["movementAO"]);
int count = AOs.Count;
for (int i = 0; i < count; i++)
{
OSDMap ao = (OSDMap)AOs[i];
if (ao["state"] != null && ao["uuid"] != null)
{
string state = ao["state"].AsString();
UUID id = ao["uuid"].AsUUID();
MovementAnimationOverRides[state] = id;
}
}
}
if (args.ContainsKey("motion_state"))
{
MotionState = (byte)args["motion_state"].AsInteger();
}
//if ((args["agent_textures"] != null) && (args["agent_textures"]).Type == OSDType.Array)
//{
// OSDArray textures = (OSDArray)(args["agent_textures"]);
// AgentTextures = new UUID[textures.Count];
// int i = 0;
// foreach (OSD o in textures)
// AgentTextures[i++] = o.AsUUID();
//}
// packed_appearence should contain all appearance information
if (args.ContainsKey("packed_appearance") && (args["packed_appearance"]).Type == OSDType.Map)
{
m_log.WarnFormat("[CHILDAGENTDATAUPDATE] got packed appearance");
Appearance = new AvatarAppearance((OSDMap)args["packed_appearance"]);
}
else
{
// if missing try the old pack method
m_log.WarnFormat("[CHILDAGENTDATAUPDATE] No packed appearance, checking old method");
Appearance = new AvatarAppearance();
// The code to unpack textures, visuals, wearables and attachments
// should be removed; packed appearance contains the full appearance
// This is retained for backward compatibility only
if (args["texture_entry"] != null)
{
byte[] rawtextures = args["texture_entry"].AsBinary();
Primitive.TextureEntry textures = new Primitive.TextureEntry(rawtextures, 0, rawtextures.Length);
Appearance.SetTextureEntries(textures);
}
if (args["visual_params"] != null)
{
Appearance.SetVisualParams(args["visual_params"].AsBinary());
}
if ((args["wearables"] != null) && (args["wearables"]).Type == OSDType.Array)
{
OSDArray wears = (OSDArray)(args["wearables"]);
for (int i = 0; i < wears.Count / 2; i++)
{
AvatarWearable awear = new AvatarWearable((OSDArray)wears[i]);
Appearance.SetWearable(i, awear);
}
}
if ((args["attachments"] != null) && (args["attachments"]).Type == OSDType.Array)
{
OSDArray attachs = (OSDArray)(args["attachments"]);
foreach (OSD o in attachs)
{
if (o.Type == OSDType.Map)
{
// We know all of these must end up as attachments so we
// append rather than replace to ensure multiple attachments
// per point continues to work
// m_log.DebugFormat("[CHILDAGENTDATAUPDATE]: Appending attachments for {0}", AgentID);
Appearance.AppendAttachment(new AvatarAttachment((OSDMap)o));
}
}
}
// end of code to remove
}
/* moved above
* if (args.ContainsKey("packed_appearance") && (args["packed_appearance"]).Type == OSDType.Map)
* Appearance = new AvatarAppearance((OSDMap)args["packed_appearance"]);
* else
* m_log.WarnFormat("[CHILDAGENTDATAUPDATE] No packed appearance");
*/
if ((args["controllers"] != null) && (args["controllers"]).Type == OSDType.Array)
{
OSDArray controls = (OSDArray)(args["controllers"]);
Controllers = new ControllerData[controls.Count];
int i = 0;
foreach (OSD o in controls)
{
if (o.Type == OSDType.Map)
{
Controllers[i++] = new ControllerData((OSDMap)o);
}
}
}
if (args["callback_uri"] != null)
{
CallbackURI = args["callback_uri"].AsString();
}
// Attachment objects
if (args["attach_objects"] != null && args["attach_objects"].Type == OSDType.Array)
{
OSDArray attObjs = (OSDArray)(args["attach_objects"]);
AttachmentObjects = new List <ISceneObject>();
AttachmentObjectStates = new List <string>();
foreach (OSD o in attObjs)
{
if (o.Type == OSDType.Map)
{
OSDMap info = (OSDMap)o;
ISceneObject so = scene.DeserializeObject(info["sog"].AsString());
so.ExtraFromXmlString(info["extra"].AsString());
so.HasGroupChanged = info["modified"].AsBoolean();
AttachmentObjects.Add(so);
AttachmentObjectStates.Add(info["state"].AsString());
}
}
}
if (args["parent_part"] != null)
{
ParentPart = args["parent_part"].AsUUID();
}
if (args["sit_offset"] != null)
{
Vector3.TryParse(args["sit_offset"].AsString(), out SitOffset);
}
}
/// <summary>
/// Deserialization of agent data.
/// Avoiding reflection makes it painful to write, but that's the price!
/// </summary>
/// <param name="hash"></param>
public virtual void Unpack(OSDMap args)
{
// DEBUG ON
m_log.WarnFormat("[CHILDAGENTDATAUPDATE] Unpack data");
// DEBUG OFF
if (args.ContainsKey("region_id"))
{
UUID.TryParse(args["region_id"].AsString(), out RegionID);
}
if (args["circuit_code"] != null)
{
UInt32.TryParse((string)args["circuit_code"].AsString(), out CircuitCode);
}
if (args["agent_uuid"] != null)
{
AgentID = args["agent_uuid"].AsUUID();
}
if (args["session_uuid"] != null)
{
SessionID = args["session_uuid"].AsUUID();
}
if (args["position"] != null)
{
Vector3.TryParse(args["position"].AsString(), out Position);
}
if (args["velocity"] != null)
{
Vector3.TryParse(args["velocity"].AsString(), out Velocity);
}
if (args["center"] != null)
{
Vector3.TryParse(args["center"].AsString(), out Center);
}
if (args["size"] != null)
{
Vector3.TryParse(args["size"].AsString(), out Size);
}
if (args["at_axis"] != null)
{
Vector3.TryParse(args["at_axis"].AsString(), out AtAxis);
}
if (args["left_axis"] != null)
{
Vector3.TryParse(args["left_axis"].AsString(), out AtAxis);
}
if (args["up_axis"] != null)
{
Vector3.TryParse(args["up_axis"].AsString(), out AtAxis);
}
if (args["changed_grid"] != null)
{
ChangedGrid = args["changed_grid"].AsBoolean();
}
if (args["far"] != null)
{
Far = (float)(args["far"].AsReal());
}
if (args["aspect"] != null)
{
Aspect = (float)args["aspect"].AsReal();
}
if (args["throttles"] != null)
{
Throttles = args["throttles"].AsBinary();
}
if (args["locomotion_state"] != null)
{
UInt32.TryParse(args["locomotion_state"].AsString(), out LocomotionState);
}
if (args["head_rotation"] != null)
{
Quaternion.TryParse(args["head_rotation"].AsString(), out HeadRotation);
}
if (args["body_rotation"] != null)
{
Quaternion.TryParse(args["body_rotation"].AsString(), out BodyRotation);
}
if (args["control_flags"] != null)
{
UInt32.TryParse(args["control_flags"].AsString(), out ControlFlags);
}
if (args["energy_level"] != null)
{
EnergyLevel = (float)(args["energy_level"].AsReal());
}
if (args["god_level"] != null)
{
Byte.TryParse(args["god_level"].AsString(), out GodLevel);
}
if (args["always_run"] != null)
{
AlwaysRun = args["always_run"].AsBoolean();
}
if (args["prey_agent"] != null)
{
PreyAgent = args["prey_agent"].AsUUID();
}
if (args["agent_access"] != null)
{
Byte.TryParse(args["agent_access"].AsString(), out AgentAccess);
}
if (args["active_group_id"] != null)
{
ActiveGroupID = args["active_group_id"].AsUUID();
}
if ((args["groups"] != null) && (args["groups"]).Type == OSDType.Array)
{
OSDArray groups = (OSDArray)(args["groups"]);
Groups = new AgentGroupData[groups.Count];
int i = 0;
foreach (OSD o in groups)
{
if (o.Type == OSDType.Map)
{
Groups[i++] = new AgentGroupData((OSDMap)o);
}
}
}
if ((args["animations"] != null) && (args["animations"]).Type == OSDType.Array)
{
OSDArray anims = (OSDArray)(args["animations"]);
Anims = new Animation[anims.Count];
int i = 0;
foreach (OSD o in anims)
{
if (o.Type == OSDType.Map)
{
Anims[i++] = new Animation((OSDMap)o);
}
}
}
//if ((args["agent_textures"] != null) && (args["agent_textures"]).Type == OSDType.Array)
//{
// OSDArray textures = (OSDArray)(args["agent_textures"]);
// AgentTextures = new UUID[textures.Count];
// int i = 0;
// foreach (OSD o in textures)
// AgentTextures[i++] = o.AsUUID();
//}
Appearance = new AvatarAppearance(AgentID);
// The code to unpack textures, visuals, wearables and attachments
// should be removed; packed appearance contains the full appearance
// This is retained for backward compatibility only
if (args["texture_entry"] != null)
{
byte[] rawtextures = args["texture_entry"].AsBinary();
Primitive.TextureEntry textures = new Primitive.TextureEntry(rawtextures, 0, rawtextures.Length);
Appearance.SetTextureEntries(textures);
}
if (args["visual_params"] != null)
{
Appearance.SetVisualParams(args["visual_params"].AsBinary());
}
if ((args["wearables"] != null) && (args["wearables"]).Type == OSDType.Array)
{
OSDArray wears = (OSDArray)(args["wearables"]);
for (int i = 0; i < wears.Count / 2; i++)
{
AvatarWearable awear = new AvatarWearable((OSDArray)wears[i]);
Appearance.SetWearable(i, awear);
}
}
if ((args["attachments"] != null) && (args["attachments"]).Type == OSDType.Array)
{
OSDArray attachs = (OSDArray)(args["attachments"]);
foreach (OSD o in attachs)
{
if (o.Type == OSDType.Map)
{
// We know all of these must end up as attachments so we
// append rather than replace to ensure multiple attachments
// per point continues to work
Appearance.AppendAttachment(new AvatarAttachment((OSDMap)o));
}
}
}
// end of code to remove
if (args.ContainsKey("packed_appearance") && (args["packed_appearance"]).Type == OSDType.Map)
{
Appearance = new AvatarAppearance(AgentID, (OSDMap)args["packed_appearance"]);
}
// DEBUG ON
else
{
m_log.WarnFormat("[CHILDAGENTDATAUPDATE] No packed appearance");
}
// DEBUG OFF
if ((args["controllers"] != null) && (args["controllers"]).Type == OSDType.Array)
{
OSDArray controls = (OSDArray)(args["controllers"]);
Controllers = new ControllerData[controls.Count];
int i = 0;
foreach (OSD o in controls)
{
if (o.Type == OSDType.Map)
{
Controllers[i++] = new ControllerData((OSDMap)o);
}
}
}
if (args["callback_uri"] != null)
{
CallbackURI = args["callback_uri"].AsString();
}
}
/// <summary>
/// Deserialization of agent data.
/// Avoiding reflection makes it painful to write, but that's the price!
/// </summary>
/// <param name="hash"></param>
public virtual void Unpack(OSDMap args, IScene scene)
{
//m_log.InfoFormat("[CHILDAGENTDATAUPDATE] Unpack data");
if (args.ContainsKey("region_id"))
UUID.TryParse(args["region_id"].AsString(), out RegionID);
if (args["circuit_code"] != null)
UInt32.TryParse((string)args["circuit_code"].AsString(), out CircuitCode);
if (args["agent_uuid"] != null)
AgentID = args["agent_uuid"].AsUUID();
if (args["session_uuid"] != null)
SessionID = args["session_uuid"].AsUUID();
if (args["position"] != null)
Vector3.TryParse(args["position"].AsString(), out Position);
if (args["velocity"] != null)
Vector3.TryParse(args["velocity"].AsString(), out Velocity);
if (args["center"] != null)
Vector3.TryParse(args["center"].AsString(), out Center);
if (args["size"] != null)
Vector3.TryParse(args["size"].AsString(), out Size);
if (args["at_axis"] != null)
Vector3.TryParse(args["at_axis"].AsString(), out AtAxis);
if (args["left_axis"] != null)
Vector3.TryParse(args["left_axis"].AsString(), out AtAxis);
if (args["up_axis"] != null)
Vector3.TryParse(args["up_axis"].AsString(), out AtAxis);
if (args["changed_grid"] != null)
ChangedGrid = args["changed_grid"].AsBoolean();
if (args["far"] != null)
Far = (float)(args["far"].AsReal());
if (args["aspect"] != null)
Aspect = (float)args["aspect"].AsReal();
if (args["throttles"] != null)
Throttles = args["throttles"].AsBinary();
if (args["locomotion_state"] != null)
UInt32.TryParse(args["locomotion_state"].AsString(), out LocomotionState);
if (args["head_rotation"] != null)
Quaternion.TryParse(args["head_rotation"].AsString(), out HeadRotation);
if (args["body_rotation"] != null)
Quaternion.TryParse(args["body_rotation"].AsString(), out BodyRotation);
if (args["control_flags"] != null)
UInt32.TryParse(args["control_flags"].AsString(), out ControlFlags);
if (args["energy_level"] != null)
EnergyLevel = (float)(args["energy_level"].AsReal());
if (args["god_level"] != null)
Byte.TryParse(args["god_level"].AsString(), out GodLevel);
if (args["always_run"] != null)
AlwaysRun = args["always_run"].AsBoolean();
if (args["prey_agent"] != null)
PreyAgent = args["prey_agent"].AsUUID();
if (args["agent_access"] != null)
Byte.TryParse(args["agent_access"].AsString(), out AgentAccess);
if (args["active_group_id"] != null)
ActiveGroupID = args["active_group_id"].AsUUID();
if ((args["groups"] != null) && (args["groups"]).Type == OSDType.Array)
{
OSDArray groups = (OSDArray)(args["groups"]);
Groups = new AgentGroupData[groups.Count];
int i = 0;
foreach (OSD o in groups)
{
if (o.Type == OSDType.Map)
{
Groups[i++] = new AgentGroupData((OSDMap)o);
}
}
}
if ((args["animations"] != null) && (args["animations"]).Type == OSDType.Array)
{
OSDArray anims = (OSDArray)(args["animations"]);
Anims = new Animation[anims.Count];
int i = 0;
foreach (OSD o in anims)
{
if (o.Type == OSDType.Map)
{
Anims[i++] = new Animation((OSDMap)o);
}
}
}
//if ((args["agent_textures"] != null) && (args["agent_textures"]).Type == OSDType.Array)
//{
// OSDArray textures = (OSDArray)(args["agent_textures"]);
// AgentTextures = new UUID[textures.Count];
// int i = 0;
// foreach (OSD o in textures)
// AgentTextures[i++] = o.AsUUID();
//}
Appearance = new AvatarAppearance();
// The code to unpack textures, visuals, wearables and attachments
// should be removed; packed appearance contains the full appearance
// This is retained for backward compatibility only
if (args["texture_entry"] != null)
{
byte[] rawtextures = args["texture_entry"].AsBinary();
Primitive.TextureEntry textures = new Primitive.TextureEntry(rawtextures,0,rawtextures.Length);
Appearance.SetTextureEntries(textures);
}
if (args["visual_params"] != null)
Appearance.SetVisualParams(args["visual_params"].AsBinary());
if ((args["wearables"] != null) && (args["wearables"]).Type == OSDType.Array)
{
OSDArray wears = (OSDArray)(args["wearables"]);
for (int i = 0; i < wears.Count / 2; i++)
{
AvatarWearable awear = new AvatarWearable((OSDArray)wears[i]);
Appearance.SetWearable(i,awear);
}
}
if ((args["attachments"] != null) && (args["attachments"]).Type == OSDType.Array)
{
OSDArray attachs = (OSDArray)(args["attachments"]);
foreach (OSD o in attachs)
{
if (o.Type == OSDType.Map)
{
// We know all of these must end up as attachments so we
// append rather than replace to ensure multiple attachments
// per point continues to work
// m_log.DebugFormat("[CHILDAGENTDATAUPDATE]: Appending attachments for {0}", AgentID);
Appearance.AppendAttachment(new AvatarAttachment((OSDMap)o));
}
}
}
// end of code to remove
if (args.ContainsKey("packed_appearance") && (args["packed_appearance"]).Type == OSDType.Map)
Appearance = new AvatarAppearance((OSDMap)args["packed_appearance"]);
else
m_log.WarnFormat("[CHILDAGENTDATAUPDATE] No packed appearance");
if ((args["controllers"] != null) && (args["controllers"]).Type == OSDType.Array)
{
OSDArray controls = (OSDArray)(args["controllers"]);
Controllers = new ControllerData[controls.Count];
int i = 0;
foreach (OSD o in controls)
{
if (o.Type == OSDType.Map)
{
Controllers[i++] = new ControllerData((OSDMap)o);
}
}
}
if (args["callback_uri"] != null)
CallbackURI = args["callback_uri"].AsString();
// Attachment objects
if (args["attach_objects"] != null && args["attach_objects"].Type == OSDType.Array)
{
OSDArray attObjs = (OSDArray)(args["attach_objects"]);
AttachmentObjects = new List<ISceneObject>();
AttachmentObjectStates = new List<string>();
foreach (OSD o in attObjs)
{
if (o.Type == OSDType.Map)
{
OSDMap info = (OSDMap)o;
ISceneObject so = scene.DeserializeObject(info["sog"].AsString());
so.ExtraFromXmlString(info["extra"].AsString());
so.HasGroupChanged = info["modified"].AsBoolean();
AttachmentObjects.Add(so);
AttachmentObjectStates.Add(info["state"].AsString());
}
}
}
}
/// <summary>
/// Deserialization of agent data.
/// Avoiding reflection makes it painful to write, but that's the price!
/// </summary>
/// <param name="hash"></param>
public virtual void Unpack(OSDMap args)
{
if (args.ContainsKey("region_handle"))
{
UInt64.TryParse(args["region_handle"].AsString(), out RegionHandle);
}
if (args.ContainsKey("circuit_code"))
{
UInt32.TryParse((string)args["circuit_code"].AsString(), out CircuitCode);
}
if (args.ContainsKey("agent_uuid"))
{
AgentID = args["agent_uuid"].AsUUID();
}
if (args.ContainsKey("session_uuid"))
{
SessionID = args["session_uuid"].AsUUID();
}
if (args.ContainsKey("position"))
{
Vector3.TryParse(args["position"].AsString(), out Position);
}
if (args.ContainsKey("velocity"))
{
Vector3.TryParse(args["velocity"].AsString(), out Velocity);
}
if (args.ContainsKey("center"))
{
Vector3.TryParse(args["center"].AsString(), out Center);
}
if (args.ContainsKey("size"))
{
Vector3.TryParse(args["size"].AsString(), out Size);
}
if (args.ContainsKey("at_axis"))
{
Vector3.TryParse(args["at_axis"].AsString(), out AtAxis);
}
if (args.ContainsKey("left_axis"))
{
Vector3.TryParse(args["left_axis"].AsString(), out AtAxis);
}
if (args.ContainsKey("up_axis"))
{
Vector3.TryParse(args["up_axis"].AsString(), out AtAxis);
}
if (args.ContainsKey("changed_grid"))
{
ChangedGrid = args["changed_grid"].AsBoolean();
}
if (args.ContainsKey("far"))
{
Far = (float)(args["far"].AsReal());
}
if (args.ContainsKey("aspect"))
{
Aspect = (float)args["aspect"].AsReal();
}
if (args.ContainsKey("throttles"))
{
Throttles = args["throttles"].AsBinary();
}
if (args.ContainsKey("locomotion_state"))
{
UInt32.TryParse(args["locomotion_state"].AsString(), out LocomotionState);
}
if (args.ContainsKey("head_rotation"))
{
Quaternion.TryParse(args["head_rotation"].AsString(), out HeadRotation);
}
if (args.ContainsKey("body_rotation"))
{
Quaternion.TryParse(args["body_rotation"].AsString(), out BodyRotation);
}
if (args.ContainsKey("control_flags"))
{
UInt32.TryParse(args["control_flags"].AsString(), out ControlFlags);
}
if (args.ContainsKey("energy_level"))
{
EnergyLevel = (float)(args["energy_level"].AsReal());
}
if (args.ContainsKey("god_level"))
{
Byte.TryParse(args["god_level"].AsString(), out GodLevel);
}
if (args.ContainsKey("always_run"))
{
AlwaysRun = args["always_run"].AsBoolean();
}
if (args.ContainsKey("prey_agent"))
{
PreyAgent = args["prey_agent"].AsUUID();
}
if (args.ContainsKey("agent_access"))
{
Byte.TryParse(args["agent_access"].AsString(), out AgentAccess);
}
if (args.ContainsKey("active_group_id"))
{
ActiveGroupID = args["active_group_id"].AsUUID();
}
if ((args.ContainsKey("groups")) && (args["groups"]).Type == OSDType.Array)
{
OSDArray groups = (OSDArray)(args["groups"]);
Groups = new AgentGroupData[groups.Count];
int i = 0;
foreach (OSD o in groups)
{
if (o.Type == OSDType.Map)
{
Groups[i++] = new AgentGroupData((OSDMap)o);
}
}
}
if ((args.ContainsKey("animations")) && (args["animations"]).Type == OSDType.Array)
{
OSDArray anims = (OSDArray)(args["animations"]);
Anims = new Animation[anims.Count];
int i = 0;
foreach (OSD o in anims)
{
if (o.Type == OSDType.Map)
{
Anims[i++] = new Animation((OSDMap)o);
}
}
}
// Initialize an Appearance
Appearance = new AvatarAppearance(AgentID);
if (args.ContainsKey("texture_entry"))
{
byte[] data = args["texture_entry"].AsBinary();
Primitive.TextureEntry textureEntries = new Primitive.TextureEntry(data, 0, data.Length);
Appearance.SetTextureEntries(textureEntries);
}
if (args.ContainsKey("visual_params"))
{
byte[] visualParams = args["visual_params"].AsBinary();
Appearance.SetVisualParams(visualParams);
}
if ((args.ContainsKey("wearables")) && (args["wearables"]).Type == OSDType.Array)
{
OSDArray wears = (OSDArray)(args["wearables"]);
List <AvatarWearable> wearables = new List <AvatarWearable>();
int offset = 0;
for (int i = 0; i < AvatarWearable.MAX_WEARABLES; i++)
{
if ((offset + 1) < wears.Count)
{
UUID itemID = wears[offset++].AsUUID();
UUID assetID = wears[offset++].AsUUID();
wearables.Add(new AvatarWearable(i, itemID, assetID));
}
else
{
break;
}
}
Appearance.SetWearables(wearables);
}
if (args.ContainsKey("callback_uri"))
{
CallbackURI = args["callback_uri"].AsString();
}
if (args.ContainsKey("sat_on_group"))
{
SatOnGroup = args["sat_on_group"].AsUUID();
SatOnPrim = args["sat_on_prim"].AsUUID();
try
{
// "sit_offset" previously used OSD.FromVector3(vec) was used to store the data.
// Other Vector3 storage uses OSD.FromString(vec.ToString()).
// If originating from old region code, that will still be the case
// and the TryParse will trigger a format exception.
Vector3.TryParse(args["sit_offset"].ToString(), out SatOnPrimOffset);
}
catch (Exception)
{
// The following is compatible with OSD.FromVector3(vec), since Vector3.TryParse is not.
SatOnPrimOffset = args["sit_offset"].AsVector3();
}
}
}
/// <summary>
/// Deserialization of agent data.
/// Avoiding reflection makes it painful to write, but that's the price!
/// </summary>
/// <param name="hash"></param>
public virtual void Unpack(OSDMap args)
{
if (args.ContainsKey("region_handle"))
UInt64.TryParse(args["region_handle"].AsString(), out RegionHandle);
if (args.ContainsKey("circuit_code"))
UInt32.TryParse((string)args["circuit_code"].AsString(), out CircuitCode);
if (args.ContainsKey("agent_uuid"))
AgentID = args["agent_uuid"].AsUUID();
if (args.ContainsKey("session_uuid"))
SessionID = args["session_uuid"].AsUUID();
if (args.ContainsKey("position"))
Vector3.TryParse(args["position"].AsString(), out Position);
if (args.ContainsKey("velocity"))
Vector3.TryParse(args["velocity"].AsString(), out Velocity);
if (args.ContainsKey("center"))
Vector3.TryParse(args["center"].AsString(), out Center);
if (args.ContainsKey("size"))
Vector3.TryParse(args["size"].AsString(), out Size);
if (args.ContainsKey("at_axis"))
Vector3.TryParse(args["at_axis"].AsString(), out AtAxis);
if (args.ContainsKey("left_axis"))
Vector3.TryParse(args["left_axis"].AsString(), out AtAxis);
if (args.ContainsKey("up_axis"))
Vector3.TryParse(args["up_axis"].AsString(), out AtAxis);
if (args.ContainsKey("changed_grid"))
ChangedGrid = args["changed_grid"].AsBoolean();
if (args.ContainsKey("far"))
Far = (float)(args["far"].AsReal());
if (args.ContainsKey("aspect"))
Aspect = (float)args["aspect"].AsReal();
if (args.ContainsKey("throttles"))
Throttles = args["throttles"].AsBinary();
if (args.ContainsKey("locomotion_state"))
UInt32.TryParse(args["locomotion_state"].AsString(), out LocomotionState);
if (args.ContainsKey("head_rotation"))
Quaternion.TryParse(args["head_rotation"].AsString(), out HeadRotation);
if (args.ContainsKey("body_rotation"))
Quaternion.TryParse(args["body_rotation"].AsString(), out BodyRotation);
if (args.ContainsKey("control_flags"))
UInt32.TryParse(args["control_flags"].AsString(), out ControlFlags);
if (args.ContainsKey("energy_level"))
EnergyLevel = (float)(args["energy_level"].AsReal());
if (args.ContainsKey("god_level"))
Byte.TryParse(args["god_level"].AsString(), out GodLevel);
if (args.ContainsKey("always_run"))
AlwaysRun = args["always_run"].AsBoolean();
if (args.ContainsKey("prey_agent"))
PreyAgent = args["prey_agent"].AsUUID();
if (args.ContainsKey("agent_access"))
Byte.TryParse(args["agent_access"].AsString(), out AgentAccess);
if (args.ContainsKey("active_group_id"))
ActiveGroupID = args["active_group_id"].AsUUID();
if ((args.ContainsKey("groups")) && (args["groups"]).Type == OSDType.Array)
{
OSDArray groups = (OSDArray)(args["groups"]);
Groups = new AgentGroupData[groups.Count];
int i = 0;
foreach (OSD o in groups)
{
if (o.Type == OSDType.Map)
{
Groups[i++] = new AgentGroupData((OSDMap)o);
}
}
}
if ((args.ContainsKey("animations")) && (args["animations"]).Type == OSDType.Array)
{
OSDArray anims = (OSDArray)(args["animations"]);
Anims = new Animation[anims.Count];
int i = 0;
foreach (OSD o in anims)
{
if (o.Type == OSDType.Map)
{
Anims[i++] = new Animation((OSDMap)o);
}
}
}
// Initialize an Appearance
Appearance = new AvatarAppearance(AgentID);
if (args.ContainsKey("texture_entry"))
{
byte[] data = args["texture_entry"].AsBinary();
Primitive.TextureEntry textureEntries = new Primitive.TextureEntry(data, 0, data.Length);
Appearance.SetTextureEntries(textureEntries);
}
if (args.ContainsKey("visual_params"))
{
byte[] visualParams = args["visual_params"].AsBinary();
Appearance.SetVisualParams(visualParams);
}
if ((args.ContainsKey("wearables")) && (args["wearables"]).Type == OSDType.Array)
{
OSDArray wears = (OSDArray)(args["wearables"]);
List<AvatarWearable> wearables = new List<AvatarWearable>();
int offset = 0;
for (int i = 0; i < AvatarWearable.MAX_WEARABLES; i++)
{
if ((offset + 1) < wears.Count)
{
UUID itemID = wears[offset++].AsUUID();
UUID assetID = wears[offset++].AsUUID();
wearables.Add(new AvatarWearable(i, itemID, assetID));
}
else
{
break;
}
}
Appearance.SetWearables(wearables);
}
if (args.ContainsKey("callback_uri"))
CallbackURI = args["callback_uri"].AsString();
if (args.ContainsKey("avatar_as_a_prim"))
AvatarAsAPrim = args["avatar_as_a_prim"].AsBoolean();
if (args.ContainsKey("sat_on_group"))
{
SatOnGroup = args["sat_on_group"].AsUUID();
SatOnPrim = args["sat_on_prim"].AsUUID();
try
{
// "sit_offset" previously used OSD.FromVector3(vec) was used to store the data.
// Other Vector3 storage uses OSD.FromString(vec.ToString()).
// If originating from old region code, that will still be the case
// and the TryParse will trigger a format exception.
Vector3.TryParse(args["sit_offset"].ToString(), out SatOnPrimOffset);
}
catch (Exception)
{
// The following is compatible with OSD.FromVector3(vec), since Vector3.TryParse is not.
SatOnPrimOffset = args["sit_offset"].AsVector3();
}
}
}
/// <summary>
/// Deserialization of agent data.
/// Avoiding reflection makes it painful to write, but that's the price!
/// </summary>
/// <param name="hash"></param>
public virtual void Unpack(OSDMap args, IScene scene)
{
if (m_log.IsDebugEnabled)
{
m_log.DebugFormat("{0} called", System.Reflection.MethodBase.GetCurrentMethod().Name);
}
if (args.ContainsKey("region_id"))
{
UUID.TryParse(args ["region_id"].AsString(), out RegionID);
}
if (args ["circuit_code"] != null)
{
UInt32.TryParse((string)args ["circuit_code"].AsString(), out CircuitCode);
}
if (args ["agent_uuid"] != null)
{
AgentID = args ["agent_uuid"].AsUUID();
}
if (args ["session_uuid"] != null)
{
SessionID = args ["session_uuid"].AsUUID();
}
if (args ["position"] != null)
{
Vector3.TryParse(args ["position"].AsString(), out Position);
}
if (args ["velocity"] != null)
{
Vector3.TryParse(args ["velocity"].AsString(), out Velocity);
}
if (args ["center"] != null)
{
Vector3.TryParse(args ["center"].AsString(), out Center);
}
if (args ["size"] != null)
{
Vector3.TryParse(args ["size"].AsString(), out Size);
}
if (args ["at_axis"] != null)
{
Vector3.TryParse(args ["at_axis"].AsString(), out AtAxis);
}
if (args ["left_axis"] != null)
{
Vector3.TryParse(args ["left_axis"].AsString(), out AtAxis);
}
if (args ["up_axis"] != null)
{
Vector3.TryParse(args ["up_axis"].AsString(), out AtAxis);
}
if (args.ContainsKey("wait_for_root") && args ["wait_for_root"] != null)
{
SenderWantsToWaitForRoot = args ["wait_for_root"].AsBoolean();
}
if (args ["far"] != null)
{
Far = (float)(args ["far"].AsReal());
}
if (args ["aspect"] != null)
{
Aspect = (float)args ["aspect"].AsReal();
}
if (args ["throttles"] != null)
{
Throttles = args ["throttles"].AsBinary();
}
if (args ["locomotion_state"] != null)
{
UInt32.TryParse(args ["locomotion_state"].AsString(), out LocomotionState);
}
if (args ["head_rotation"] != null)
{
Quaternion.TryParse(args ["head_rotation"].AsString(), out HeadRotation);
}
if (args ["body_rotation"] != null)
{
Quaternion.TryParse(args ["body_rotation"].AsString(), out BodyRotation);
}
if (args ["control_flags"] != null)
{
UInt32.TryParse(args ["control_flags"].AsString(), out ControlFlags);
}
if (args ["energy_level"] != null)
{
EnergyLevel = (float)(args ["energy_level"].AsReal());
}
if (args ["god_level"] != null)
{
Byte.TryParse(args ["god_level"].AsString(), out GodLevel);
}
if (args ["always_run"] != null)
{
AlwaysRun = args ["always_run"].AsBoolean();
}
if (args ["prey_agent"] != null)
{
PreyAgent = args ["prey_agent"].AsUUID();
}
if (args ["agent_access"] != null)
{
Byte.TryParse(args ["agent_access"].AsString(), out AgentAccess);
}
if (args ["active_group_id"] != null)
{
ActiveGroupID = args ["active_group_id"].AsUUID();
}
if ((args ["groups"] != null) && (args ["groups"]).Type == OSDType.Array)
{
OSDArray groups = (OSDArray)(args ["groups"]);
Groups = new AgentGroupData[groups.Count];
int i = 0;
foreach (OSD o in groups)
{
if (o.Type == OSDType.Map)
{
Groups [i++] = new AgentGroupData((OSDMap)o);
}
}
}
if ((args ["animations"] != null) && (args ["animations"]).Type == OSDType.Array)
{
OSDArray anims = (OSDArray)(args ["animations"]);
Anims = new Animation[anims.Count];
int i = 0;
foreach (OSD o in anims)
{
if (o.Type == OSDType.Map)
{
Anims [i++] = new Animation((OSDMap)o);
}
}
}
if (args ["default_animation"] != null)
{
try {
DefaultAnim = new Animation((OSDMap)args ["default_animation"]);
} catch {
DefaultAnim = null;
}
}
if (args ["animation_state"] != null)
{
try {
AnimState = new Animation((OSDMap)args ["animation_state"]);
} catch {
AnimState = null;
}
}
//if ((args["agent_textures"] != null) && (args["agent_textures"]).Type == OSDType.Array)
//{
// OSDArray textures = (OSDArray)(args["agent_textures"]);
// AgentTextures = new UUID[textures.Count];
// int i = 0;
// foreach (OSD o in textures)
// AgentTextures[i++] = o.AsUUID();
//}
Appearance = new AvatarAppearance();
// The code to unpack textures, visuals, wearables and attachments
// should be removed; packed appearance contains the full appearance
// This is retained for backward compatibility only
if (args ["texture_entry"] != null)
{
byte[] rawtextures = args ["texture_entry"].AsBinary();
Primitive.TextureEntry textures = new Primitive.TextureEntry(rawtextures, 0, rawtextures.Length);
Appearance.SetTextureEntries(textures);
}
if (args ["visual_params"] != null)
{
Appearance.SetVisualParams(args ["visual_params"].AsBinary());
}
if ((args ["wearables"] != null) && (args ["wearables"]).Type == OSDType.Array)
{
OSDArray wears = (OSDArray)(args ["wearables"]);
for (int i = 0; i < wears.Count / 2; i++)
{
AvatarWearable awear = new AvatarWearable((OSDArray)wears [i]);
Appearance.SetWearable(i, awear);
}
}
if ((args ["attachments"] != null) && (args ["attachments"]).Type == OSDType.Array)
{
OSDArray attachs = (OSDArray)(args ["attachments"]);
foreach (OSD o in attachs)
{
if (o.Type == OSDType.Map)
{
// We know all of these must end up as attachments so we
// append rather than replace to ensure multiple attachments
// per point continues to work
// m_log.DebugFormat("[CHILDAGENTDATAUPDATE]: Appending attachments for {0}", AgentID);
Appearance.AppendAttachment(new AvatarAttachment((OSDMap)o));
}
}
}
// end of code to remove
if (args.ContainsKey("packed_appearance") && (args ["packed_appearance"]).Type == OSDType.Map)
{
Appearance = new AvatarAppearance((OSDMap)args ["packed_appearance"]);
}
else
{
m_log.WarnFormat("[CHILDAGENTDATAUPDATE] No packed appearance");
}
if ((args["controllers"] != null) && (args["controllers"]).Type == OSDType.Array)
{
OSDArray controls = (OSDArray)(args["controllers"]);
Controllers = new ControllerData[controls.Count];
int i = 0;
foreach (OSD o in controls)
{
if (o.Type == OSDType.Map)
{
Controllers[i++] = new ControllerData((OSDMap)o);
}
}
}
if (args["callback_uri"] != null)
{
CallbackURI = args["callback_uri"].AsString();
}
// Attachment objects
if (args["attach_objects"] != null && args["attach_objects"].Type == OSDType.Array)
{
OSDArray attObjs = (OSDArray)(args["attach_objects"]);
AttachmentObjects = new List <ISceneObject>();
AttachmentObjectStates = new List <string>();
foreach (OSD o in attObjs)
{
if (o.Type == OSDType.Map)
{
OSDMap info = (OSDMap)o;
ISceneObject so = scene.DeserializeObject(info["sog"].AsString());
so.ExtraFromXmlString(info["extra"].AsString());
so.HasGroupChanged = info["modified"].AsBoolean();
AttachmentObjects.Add(so);
AttachmentObjectStates.Add(info["state"].AsString());
}
}
}
}