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/ *
* 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 OpenSim Project nor the
* names of its contributors may be used to endorse or promote products
* derived from this software without specific prior written permission .
*
* THIS SOFTWARE IS PROVIDED BY THE DEVELOPERS ` ` AS IS ' ' AND ANY
* EXPRESS OR IMPLIED WARRANTIES , INCLUDING , BUT NOT LIMITED TO , THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED . IN NO EVENT SHALL THE CONTRIBUTORS BE LIABLE FOR ANY
* DIRECT , INDIRECT , INCIDENTAL , SPECIAL , EXEMPLARY , OR CONSEQUENTIAL DAMAGES
* ( INCLUDING , BUT NOT LIMITED TO , PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES ;
* LOSS OF USE , DATA , OR PROFITS ; OR BUSINESS INTERRUPTION ) HOWEVER CAUSED AND
* ON ANY THEORY OF LIABILITY , WHETHER IN CONTRACT , STRICT LIABILITY , OR TORT
* ( INCLUDING NEGLIGENCE OR OTHERWISE ) ARISING IN ANY WAY OUT OF THE USE OF THIS
* SOFTWARE , EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE .
* /
using System ;
using System.Collections ;
using System.Collections.Generic ;
using System.Runtime.Remoting.Lifetime ;
using System.Text ;
using System.Threading ;
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using Nini.Config ;
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using OpenMetaverse ;
using OpenMetaverse.Packets ;
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using OpenSim ;
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using OpenSim.Framework ;
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using OpenSim.Framework.Communications.Cache ;
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using OpenSim.Region.Environment ;
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using OpenSim.Region.Interfaces ;
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using OpenSim.Region.Environment.Interfaces ;
using OpenSim.Region.Environment.Modules.Avatar.Currency.SampleMoney ;
using OpenSim.Region.Environment.Modules.World.Land ;
using OpenSim.Region.Environment.Scenes ;
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using OpenSim.Region.Physics.Manager ;
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using OpenSim.Region.ScriptEngine.Shared ;
using OpenSim.Region.ScriptEngine.Shared.Api.Plugins ;
using OpenSim.Region.ScriptEngine.Shared.ScriptBase ;
using OpenSim.Region.ScriptEngine.Interfaces ;
using OpenSim.Region.ScriptEngine.Shared.Api.Interfaces ;
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using LSL_Float = OpenSim . Region . ScriptEngine . Shared . LSL_Types . LSLFloat ;
using LSL_Integer = OpenSim . Region . ScriptEngine . Shared . LSL_Types . LSLInteger ;
using LSL_Key = OpenSim . Region . ScriptEngine . Shared . LSL_Types . LSLString ;
using LSL_List = OpenSim . Region . ScriptEngine . Shared . LSL_Types . list ;
using LSL_Rotation = OpenSim . Region . ScriptEngine . Shared . LSL_Types . Quaternion ;
using LSL_String = OpenSim . Region . ScriptEngine . Shared . LSL_Types . LSLString ;
using LSL_Vector = OpenSim . Region . ScriptEngine . Shared . LSL_Types . Vector3 ;
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namespace OpenSim.Region.ScriptEngine.Shared.Api
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{
/// <summary>
/// Contains all LSL ll-functions. This class will be in Default AppDomain.
/// </summary>
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public class LSL_Api : MarshalByRefObject , ILSL_Api , IScriptApi
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{
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protected IEventReceiver m_ScriptEngine ;
protected SceneObjectPart m_host ;
protected uint m_localID ;
protected UUID m_itemID ;
protected bool throwErrorOnNotImplemented = true ;
protected AsyncCommandManager AsyncCommands = null ;
protected float m_ScriptDelayFactor = 1.0f ;
protected float m_ScriptDistanceFactor = 1.0f ;
private DateTime m_timer = DateTime . Now ;
private bool m_waitingForScriptAnswer = false ;
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//private static readonly log4net.ILog m_log = log4net.LogManager.GetLogger(System.Reflection.MethodBase.GetCurrentMethod().DeclaringType);
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public void Initialize ( IEventReceiver ScriptEngine , SceneObjectPart host , uint localID , UUID itemID )
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{
m_ScriptEngine = ScriptEngine ;
m_host = host ;
m_localID = localID ;
m_itemID = itemID ;
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IConfigSource config = new IniConfigSource ( Application . iniFilePath ) ;
if ( config . Configs [ "XEngine" ] = = null )
config . AddConfig ( "XEngine" ) ;
m_ScriptDelayFactor = config . Configs [ "XEngine" ] .
GetFloat ( "ScriptDelayFactor" , 1.0f ) ;
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m_ScriptDistanceFactor = config . Configs [ "XEngine" ] .
GetFloat ( "ScriptDistanceLimitFactor" , 1.0f ) ;
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AsyncCommands = new AsyncCommandManager ( ScriptEngine ) ;
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}
// Object never expires
public override Object InitializeLifetimeService ( )
{
ILease lease = ( ILease ) base . InitializeLifetimeService ( ) ;
if ( lease . CurrentState = = LeaseState . Initial )
{
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lease . InitialLeaseTime = TimeSpan . Zero ;
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}
return lease ;
}
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protected void ScriptSleep ( int delay )
{
delay = ( int ) ( ( float ) delay * m_ScriptDelayFactor ) ;
if ( delay = = 0 )
return ;
System . Threading . Thread . Sleep ( delay ) ;
}
public Scene World
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{
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get { return m_ScriptEngine . World ; }
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}
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// Extension commands use this:
public ICommander GetCommander ( string name )
{
return World . GetCommander ( name ) ;
}
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public void state ( string newState )
{
m_ScriptEngine . SetState ( m_itemID , newState ) ;
}
public void llResetScript ( )
{
m_host . AddScriptLPS ( 1 ) ;
m_ScriptEngine . ApiResetScript ( m_itemID ) ;
}
public void llResetOtherScript ( string name )
{
UUID item ;
m_host . AddScriptLPS ( 1 ) ;
if ( ( item = ScriptByName ( name ) ) ! = UUID . Zero )
m_ScriptEngine . ResetScript ( item ) ;
else
ShoutError ( "llResetOtherScript: script " + name + " not found" ) ;
}
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public LSL_Integer llGetScriptState ( string name )
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{
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UUID item ;
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m_host . AddScriptLPS ( 1 ) ;
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if ( ( item = ScriptByName ( name ) ) ! = UUID . Zero )
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{
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return m_ScriptEngine . GetScriptState ( item ) ? 1 : 0 ;
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}
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ShoutError ( "llGetScriptState: script " + name + " not found" ) ;
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// If we didn't find it, then it's safe to
// assume it is not running.
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return 0 ;
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}
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public void llSetScriptState ( string name , int run )
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{
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UUID item ;
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m_host . AddScriptLPS ( 1 ) ;
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// These functions are supposed to be robust,
// so get the state one step at a time.
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if ( ( item = ScriptByName ( name ) ) ! = UUID . Zero )
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{
m_ScriptEngine . SetScriptState ( item , run = = 0 ? false : true ) ;
}
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else
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{
ShoutError ( "llSetScriptState: script " + name + " not found" ) ;
}
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}
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private List < SceneObjectPart > GetLinkParts ( int linkType )
{
List < SceneObjectPart > ret = new List < SceneObjectPart > ( ) ;
ret . Add ( m_host ) ;
switch ( linkType )
{
case ScriptBaseClass . LINK_SET :
if ( m_host . ParentGroup ! = null )
return new List < SceneObjectPart > ( m_host . ParentGroup . Children . Values ) ;
return ret ;
case ScriptBaseClass . LINK_ROOT :
if ( m_host . ParentGroup ! = null )
{
ret = new List < SceneObjectPart > ( ) ;
ret . Add ( m_host . ParentGroup . RootPart ) ;
return ret ;
}
return ret ;
case ScriptBaseClass . LINK_ALL_OTHERS :
if ( m_host . ParentGroup = = null )
return new List < SceneObjectPart > ( ) ;
ret = new List < SceneObjectPart > ( m_host . ParentGroup . Children . Values ) ;
if ( ret . Contains ( m_host ) )
ret . Remove ( m_host ) ;
return ret ;
case ScriptBaseClass . LINK_ALL_CHILDREN :
if ( m_host . ParentGroup = = null )
return new List < SceneObjectPart > ( ) ;
ret = new List < SceneObjectPart > ( m_host . ParentGroup . Children . Values ) ;
if ( ret . Contains ( m_host . ParentGroup . RootPart ) )
ret . Remove ( m_host . ParentGroup . RootPart ) ;
return ret ;
case ScriptBaseClass . LINK_THIS :
return ret ;
default :
if ( linkType < 0 | | m_host . ParentGroup = = null )
return new List < SceneObjectPart > ( ) ;
SceneObjectPart target = m_host . ParentGroup . GetLinkNumPart ( linkType ) ;
if ( target = = null )
return new List < SceneObjectPart > ( ) ;
ret = new List < SceneObjectPart > ( ) ;
ret . Add ( target ) ;
return ret ;
}
}
private UUID InventorySelf ( )
{
UUID invItemID = new UUID ( ) ;
foreach ( KeyValuePair < UUID , TaskInventoryItem > inv in m_host . TaskInventory )
{
if ( inv . Value . Type = = 10 & & inv . Value . ItemID = = m_itemID )
{
invItemID = inv . Key ;
break ;
}
}
return invItemID ;
}
private UUID InventoryKey ( string name , int type )
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{
m_host . AddScriptLPS ( 1 ) ;
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foreach ( KeyValuePair < UUID , TaskInventoryItem > inv in m_host . TaskInventory )
{
if ( inv . Value . Name = = name )
{
if ( inv . Value . Type ! = type )
return UUID . Zero ;
return inv . Value . AssetID . ToString ( ) ;
}
}
return UUID . Zero ;
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}
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private UUID InventoryKey ( string name )
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{
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m_host . AddScriptLPS ( 1 ) ;
foreach ( KeyValuePair < UUID , TaskInventoryItem > inv in m_host . TaskInventory )
{
if ( inv . Value . Name = = name )
{
return inv . Value . AssetID . ToString ( ) ;
}
}
return UUID . Zero ;
}
/// <summary>
/// accepts a valid UUID, -or- a name of an inventory item.
/// Returns a valid UUID or UUID.Zero if key invalid and item not found
/// in prim inventory.
/// </summary>
/// <param name="k"></param>
/// <returns></returns>
private UUID KeyOrName ( string k )
{
UUID key = UUID . Zero ;
// if we can parse the string as a key, use it.
if ( UUID . TryParse ( k , out key ) )
{
return key ;
}
// else try to locate the name in inventory of object. found returns key,
// not found returns UUID.Zero which will translate to the default particle texture
else
{
return InventoryKey ( k ) ;
}
}
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//These are the implementations of the various ll-functions used by the LSL scripts.
public LSL_Float llSin ( double f )
{
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m_host . AddScriptLPS ( 1 ) ;
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return ( double ) Math . Sin ( f ) ;
}
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public LSL_Float llCos ( double f )
{
m_host . AddScriptLPS ( 1 ) ;
return ( double ) Math . Cos ( f ) ;
}
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public LSL_Float llTan ( double f )
{
m_host . AddScriptLPS ( 1 ) ;
return ( double ) Math . Tan ( f ) ;
}
public LSL_Float llAtan2 ( double x , double y )
{
m_host . AddScriptLPS ( 1 ) ;
return ( double ) Math . Atan2 ( y , x ) ;
}
public LSL_Float llSqrt ( double f )
{
m_host . AddScriptLPS ( 1 ) ;
return ( double ) Math . Sqrt ( f ) ;
}
public LSL_Float llPow ( double fbase , double fexponent )
{
m_host . AddScriptLPS ( 1 ) ;
return ( double ) Math . Pow ( fbase , fexponent ) ;
}
public LSL_Integer llAbs ( int i )
{
m_host . AddScriptLPS ( 1 ) ;
return ( int ) Math . Abs ( i ) ;
}
public LSL_Float llFabs ( double f )
{
m_host . AddScriptLPS ( 1 ) ;
return ( double ) Math . Abs ( f ) ;
}
public LSL_Float llFrand ( double mag )
{
m_host . AddScriptLPS ( 1 ) ;
lock ( Util . RandomClass )
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{
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return Util . RandomClass . NextDouble ( ) * mag ;
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}
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}
public LSL_Integer llFloor ( double f )
{
m_host . AddScriptLPS ( 1 ) ;
return ( int ) Math . Floor ( f ) ;
}
public LSL_Integer llCeil ( double f )
{
m_host . AddScriptLPS ( 1 ) ;
return ( int ) Math . Ceiling ( f ) ;
}
// Xantor 01/May/2008 fixed midpointrounding (2.5 becomes 3.0 instead of 2.0, default = ToEven)
public LSL_Integer llRound ( double f )
{
m_host . AddScriptLPS ( 1 ) ;
return ( int ) Math . Round ( f , MidpointRounding . AwayFromZero ) ;
}
//This next group are vector operations involving squaring and square root. ckrinke
public LSL_Float llVecMag ( LSL_Vector v )
{
m_host . AddScriptLPS ( 1 ) ;
return LSL_Vector . Mag ( v ) ;
}
public LSL_Vector llVecNorm ( LSL_Vector v )
{
m_host . AddScriptLPS ( 1 ) ;
double mag = LSL_Vector . Mag ( v ) ;
LSL_Vector nor = new LSL_Vector ( ) ;
nor . x = v . x / mag ;
nor . y = v . y / mag ;
nor . z = v . z / mag ;
return nor ;
}
public LSL_Float llVecDist ( LSL_Vector a , LSL_Vector b )
{
m_host . AddScriptLPS ( 1 ) ;
double dx = a . x - b . x ;
double dy = a . y - b . y ;
double dz = a . z - b . z ;
return Math . Sqrt ( dx * dx + dy * dy + dz * dz ) ;
}
//Now we start getting into quaternions which means sin/cos, matrices and vectors. ckrinke
// Utility function for llRot2Euler
// normalize an angle between 0 - 2*PI (0 and 360 degrees)
private double NormalizeAngle ( double angle )
{
angle = angle % ( Math . PI * 2 ) ;
if ( angle < 0 ) angle = angle + Math . PI * 2 ;
return angle ;
}
// Old implementation of llRot2Euler, now normalized
public LSL_Vector llRot2Euler ( LSL_Rotation r )
{
m_host . AddScriptLPS ( 1 ) ;
//This implementation is from http://lslwiki.net/lslwiki/wakka.php?wakka=LibraryRotationFunctions. ckrinke
LSL_Rotation t = new LSL_Rotation ( r . x * r . x , r . y * r . y , r . z * r . z , r . s * r . s ) ;
double m = ( t . x + t . y + t . z + t . s ) ;
if ( m = = 0 ) return new LSL_Vector ( ) ;
double n = 2 * ( r . y * r . s + r . x * r . z ) ;
double p = m * m - n * n ;
if ( p > 0 )
return new LSL_Vector ( NormalizeAngle ( Math . Atan2 ( 2.0 * ( r . x * r . s - r . y * r . z ) , ( - t . x - t . y + t . z + t . s ) ) ) ,
NormalizeAngle ( Math . Atan2 ( n , Math . Sqrt ( p ) ) ) ,
NormalizeAngle ( Math . Atan2 ( 2.0 * ( r . z * r . s - r . x * r . y ) , ( t . x - t . y - t . z + t . s ) ) ) ) ;
else if ( n > 0 )
return new LSL_Vector ( 0.0 , Math . PI / 2 , NormalizeAngle ( Math . Atan2 ( ( r . z * r . s + r . x * r . y ) , 0.5 - t . x - t . z ) ) ) ;
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else
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return new LSL_Vector ( 0.0 , - Math . PI / 2 , NormalizeAngle ( Math . Atan2 ( ( r . z * r . s + r . x * r . y ) , 0.5 - t . x - t . z ) ) ) ;
}
/ * From wiki :
The Euler angle vector ( in radians ) is converted to a rotation by doing the rotations around the 3 axes
in Z , Y , X order . So llEuler2Rot ( < 1.0 , 2.0 , 3.0 > * DEG_TO_RAD ) generates a rotation by taking the zero rotation ,
a vector pointing along the X axis , first rotating it 3 degrees around the global Z axis , then rotating the resulting
vector 2 degrees around the global Y axis , and finally rotating that 1 degree around the global X axis .
* /
/ * How we arrived at this llEuler2Rot
*
* Experiment in SL to determine conventions :
* llEuler2Rot ( < PI , 0 , 0 > ) = < 1 , 0 , 0 , 0 >
* llEuler2Rot ( < 0 , PI , 0 > ) = < 0 , 1 , 0 , 0 >
* llEuler2Rot ( < 0 , 0 , PI > ) = < 0 , 0 , 1 , 0 >
*
* Important facts about Quaternions
* - multiplication is non - commutative ( a * b ! = b * a )
* - http : //en.wikipedia.org/wiki/Quaternion#Basis_multiplication
*
* Above SL experiment gives ( c1 , c2 , c3 , s1 , s2 , s3 as defined in our llEuler2Rot ) :
* Qx = c1 + i * s1
* Qy = c2 + j * s2 ;
* Qz = c3 + k * s3 ;
*
* Rotations applied in order ( from above ) Z , Y , X
* Q = ( Qz * Qy ) * Qx
* ( ( c1 + i * s1 ) * ( c2 + j * s2 ) ) * ( c3 + k * s3 )
* ( c1 * c2 + i * s1 * c2 + j * c1 * s2 + ij * s1 * s2 ) * ( c3 + k * s3 )
* ( c1 * c2 + i * s1 * c2 + j * c1 * s2 + k * s1 * s2 ) * ( c3 + k * s3 )
* c1 * c2 * c3 + i * s1 * c2 * c3 + j * c1 * s2 * c3 + k * s1 * s2 * c3 + k * c1 * c2 * s3 + ik * s1 * c2 * s3 + jk * c1 * s2 * s3 + kk * s1 * s2 * s3
* c1 * c2 * c3 + i * s1 * c2 * c3 + j * c1 * s2 * c3 + k * s1 * s2 * c3 + k * c1 * c2 * s3 - j * s1 * c2 * s3 + i * c1 * s2 * s3 - s1 * s2 * s3
* regroup : x = i * ( s1 * c2 * c3 + c1 * s2 * s3 )
* y = j * ( c1 * s2 * c3 - s1 * c2 * s3 )
* z = k * ( s1 * s2 * c3 + c1 * c2 * s3 )
* s = c1 * c2 * c3 - s1 * s2 * s3
*
* This implementation agrees with the functions found here :
* http : //lslwiki.net/lslwiki/wakka.php?wakka=LibraryRotationFunctions
* And with the results in SL .
*
* It ' s also possible to calculate llEuler2Rot by direct multiplication of
* the Qz , Qy , and Qx vectors ( as above - and done in the "accurate" function
* from the wiki ) .
* Apparently in some cases this is better from a numerical precision perspective ?
* /
public LSL_Rotation llEuler2Rot ( LSL_Vector v )
{
m_host . AddScriptLPS ( 1 ) ;
double x , y , z , s ;
double c1 = Math . Cos ( v . x / 2.0 ) ;
double c2 = Math . Cos ( v . y / 2.0 ) ;
double c3 = Math . Cos ( v . z / 2.0 ) ;
double s1 = Math . Sin ( v . x / 2.0 ) ;
double s2 = Math . Sin ( v . y / 2.0 ) ;
double s3 = Math . Sin ( v . z / 2.0 ) ;
x = s1 * c2 * c3 + c1 * s2 * s3 ;
y = c1 * s2 * c3 - s1 * c2 * s3 ;
z = s1 * s2 * c3 + c1 * c2 * s3 ;
s = c1 * c2 * c3 - s1 * s2 * s3 ;
return new LSL_Rotation ( x , y , z , s ) ;
}
public LSL_Rotation llAxes2Rot ( LSL_Vector fwd , LSL_Vector left , LSL_Vector up )
{
m_host . AddScriptLPS ( 1 ) ;
double x , y , z , s ;
int f = 0 ;
// Important Note: q1=<x,y,z,s> is equal to q2=<-x,-y,-z,-s>
// Computing quaternion x,y,z,s values
x = ( ( fwd . x - left . y - up . z + 1 ) / 4 ) ;
x * = x ;
x = Math . Sqrt ( Math . Sqrt ( x ) ) ;
y = ( ( 1 - up . z ) / 2 - x * x ) ;
y * = y ;
y = Math . Sqrt ( Math . Sqrt ( y ) ) ;
z = ( ( 1 - left . y ) / 2 - x * x ) ;
z * = z ;
z = Math . Sqrt ( Math . Sqrt ( z ) ) ;
s = ( 1 - x * x - y * y - z * z ) ;
s * = s ;
s = Math . Sqrt ( Math . Sqrt ( s ) ) ;
// Set f for signs detection
if ( fwd . y + left . x > = 0 ) { f + = 1 ; }
if ( fwd . z + up . x > = 0 ) { f + = 2 ; }
if ( left . z - up . y > = 0 ) { f + = 4 ; }
// Set correct quaternion signs based on f value
if ( f = = 0 ) { x = - x ; }
if ( f = = 1 ) { x = - x ; y = - y ; }
if ( f = = 2 ) { x = - x ; z = - z ; }
if ( f = = 3 ) { s = - s ; }
if ( f = = 4 ) { x = - x ; s = - s ; }
if ( f = = 5 ) { z = - z ; }
if ( f = = 6 ) { y = - y ; }
LSL_Rotation result = new LSL_Rotation ( x , y , z , s ) ;
// a hack to correct a few questionable angles :(
if ( llVecDist ( llRot2Fwd ( result ) , fwd ) > 0.001 | | llVecDist ( llRot2Left ( result ) , left ) > 0.001 )
result . s = - s ;
return result ;
}
public LSL_Vector llRot2Fwd ( LSL_Rotation r )
{
m_host . AddScriptLPS ( 1 ) ;
double x , y , z , m ;
m = r . x * r . x + r . y * r . y + r . z * r . z + r . s * r . s ;
// m is always greater than zero
// if m is not equal to 1 then Rotation needs to be normalized
if ( Math . Abs ( 1.0 - m ) > 0.000001 ) // allow a little slop here for calculation precision
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{
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m = 1.0 / Math . Sqrt ( m ) ;
r . x * = m ;
r . y * = m ;
r . z * = m ;
r . s * = m ;
}
// Fast Algebric Calculations instead of Vectors & Quaternions Product
x = r . x * r . x - r . y * r . y - r . z * r . z + r . s * r . s ;
y = 2 * ( r . x * r . y + r . z * r . s ) ;
z = 2 * ( r . x * r . z - r . y * r . s ) ;
return ( new LSL_Vector ( x , y , z ) ) ;
}
public LSL_Vector llRot2Left ( LSL_Rotation r )
{
m_host . AddScriptLPS ( 1 ) ;
double x , y , z , m ;
m = r . x * r . x + r . y * r . y + r . z * r . z + r . s * r . s ;
// m is always greater than zero
// if m is not equal to 1 then Rotation needs to be normalized
if ( Math . Abs ( 1.0 - m ) > 0.000001 ) // allow a little slop here for calculation precision
{
m = 1.0 / Math . Sqrt ( m ) ;
r . x * = m ;
r . y * = m ;
r . z * = m ;
r . s * = m ;
}
// Fast Algebric Calculations instead of Vectors & Quaternions Product
x = 2 * ( r . x * r . y - r . z * r . s ) ;
y = - r . x * r . x + r . y * r . y - r . z * r . z + r . s * r . s ;
z = 2 * ( r . x * r . s + r . y * r . z ) ;
return ( new LSL_Vector ( x , y , z ) ) ;
}
public LSL_Vector llRot2Up ( LSL_Rotation r )
{
m_host . AddScriptLPS ( 1 ) ;
double x , y , z , m ;
m = r . x * r . x + r . y * r . y + r . z * r . z + r . s * r . s ;
// m is always greater than zero
// if m is not equal to 1 then Rotation needs to be normalized
if ( Math . Abs ( 1.0 - m ) > 0.000001 ) // allow a little slop here for calculation precision
{
m = 1.0 / Math . Sqrt ( m ) ;
r . x * = m ;
r . y * = m ;
r . z * = m ;
r . s * = m ;
}
// Fast Algebric Calculations instead of Vectors & Quaternions Product
x = 2 * ( r . x * r . z + r . y * r . s ) ;
y = 2 * ( - r . x * r . s + r . y * r . z ) ;
z = - r . x * r . x - r . y * r . y + r . z * r . z + r . s * r . s ;
return ( new LSL_Vector ( x , y , z ) ) ;
}
public LSL_Rotation llRotBetween ( LSL_Vector a , LSL_Vector b )
{
//A and B should both be normalized
m_host . AddScriptLPS ( 1 ) ;
double dotProduct = LSL_Vector . Dot ( a , b ) ;
LSL_Vector crossProduct = LSL_Vector . Cross ( a , b ) ;
double magProduct = LSL_Vector . Mag ( a ) * LSL_Vector . Mag ( b ) ;
double angle = Math . Acos ( dotProduct / magProduct ) ;
LSL_Vector axis = LSL_Vector . Norm ( crossProduct ) ;
double s = Math . Sin ( angle / 2 ) ;
double x = axis . x * s ;
double y = axis . y * s ;
double z = axis . z * s ;
double w = Math . Cos ( angle / 2 ) ;
if ( Double . IsNaN ( x ) | | Double . IsNaN ( y ) | | Double . IsNaN ( z ) | | Double . IsNaN ( w ) )
return new LSL_Rotation ( 0.0f , 0.0f , 0.0f , 1.0f ) ;
return new LSL_Rotation ( ( float ) x , ( float ) y , ( float ) z , ( float ) w ) ;
}
public void llWhisper ( int channelID , string text )
{
m_host . AddScriptLPS ( 1 ) ;
if ( text . Length > 1023 )
text = text . Substring ( 0 , 1023 ) ;
World . SimChat ( Utils . StringToBytes ( text ) ,
ChatTypeEnum . Whisper , channelID , m_host . AbsolutePosition , m_host . Name , m_host . UUID , false ) ;
IWorldComm wComm = m_ScriptEngine . World . RequestModuleInterface < IWorldComm > ( ) ;
wComm . DeliverMessage ( ChatTypeEnum . Whisper , channelID , m_host . Name , m_host . UUID , text ) ;
}
public void llSay ( int channelID , string text )
{
m_host . AddScriptLPS ( 1 ) ;
if ( text . Length > 1023 )
text = text . Substring ( 0 , 1023 ) ;
World . SimChat ( Utils . StringToBytes ( text ) ,
ChatTypeEnum . Say , channelID , m_host . AbsolutePosition , m_host . Name , m_host . UUID , false ) ;
IWorldComm wComm = m_ScriptEngine . World . RequestModuleInterface < IWorldComm > ( ) ;
wComm . DeliverMessage ( ChatTypeEnum . Say , channelID , m_host . Name , m_host . UUID , text ) ;
}
public void llShout ( int channelID , string text )
{
m_host . AddScriptLPS ( 1 ) ;
if ( text . Length > 1023 )
text = text . Substring ( 0 , 1023 ) ;
World . SimChat ( Utils . StringToBytes ( text ) ,
ChatTypeEnum . Shout , channelID , m_host . AbsolutePosition , m_host . Name , m_host . UUID , true ) ;
IWorldComm wComm = m_ScriptEngine . World . RequestModuleInterface < IWorldComm > ( ) ;
wComm . DeliverMessage ( ChatTypeEnum . Shout , channelID , m_host . Name , m_host . UUID , text ) ;
}
public void llRegionSay ( int channelID , string text )
{
if ( channelID = = 0 )
{
LSLError ( "Cannot use llRegionSay() on channel 0" ) ;
return ;
}
if ( text . Length > 1023 )
text = text . Substring ( 0 , 1023 ) ;
m_host . AddScriptLPS ( 1 ) ;
IWorldComm wComm = m_ScriptEngine . World . RequestModuleInterface < IWorldComm > ( ) ;
wComm . DeliverMessage ( ChatTypeEnum . Region , channelID , m_host . Name , m_host . UUID , text ) ;
}
public LSL_Integer llListen ( int channelID , string name , string ID , string msg )
{
m_host . AddScriptLPS ( 1 ) ;
UUID keyID ;
UUID . TryParse ( ID , out keyID ) ;
IWorldComm wComm = m_ScriptEngine . World . RequestModuleInterface < IWorldComm > ( ) ;
return wComm . Listen ( m_localID , m_itemID , m_host . UUID , channelID , name , keyID , msg ) ;
}
public void llListenControl ( int number , int active )
{
m_host . AddScriptLPS ( 1 ) ;
IWorldComm wComm = m_ScriptEngine . World . RequestModuleInterface < IWorldComm > ( ) ;
wComm . ListenControl ( m_itemID , number , active ) ;
}
public void llListenRemove ( int number )
{
m_host . AddScriptLPS ( 1 ) ;
IWorldComm wComm = m_ScriptEngine . World . RequestModuleInterface < IWorldComm > ( ) ;
wComm . ListenRemove ( m_itemID , number ) ;
}
public void llSensor ( string name , string id , int type , double range , double arc )
{
m_host . AddScriptLPS ( 1 ) ;
UUID keyID = UUID . Zero ;
UUID . TryParse ( id , out keyID ) ;
AsyncCommands . SensorRepeatPlugin . SenseOnce ( m_localID , m_itemID , name , keyID , type , range , arc , m_host ) ;
}
public void llSensorRepeat ( string name , string id , int type , double range , double arc , double rate )
{
m_host . AddScriptLPS ( 1 ) ;
UUID keyID = UUID . Zero ;
UUID . TryParse ( id , out keyID ) ;
AsyncCommands . SensorRepeatPlugin . SetSenseRepeatEvent ( m_localID , m_itemID , name , keyID , type , range , arc , rate , m_host ) ;
}
public void llSensorRemove ( )
{
m_host . AddScriptLPS ( 1 ) ;
AsyncCommands . SensorRepeatPlugin . UnSetSenseRepeaterEvents ( m_localID , m_itemID ) ;
}
public string resolveName ( UUID objecUUID )
{
// try avatar username surname
CachedUserInfo profile = World . CommsManager . UserProfileCacheService . GetUserDetails ( objecUUID ) ;
if ( profile ! = null & & profile . UserProfile ! = null )
{
string avatarname = profile . UserProfile . FirstName + " " + profile . UserProfile . SurName ;
return avatarname ;
}
// try an scene object
SceneObjectPart SOP = World . GetSceneObjectPart ( objecUUID ) ;
if ( SOP ! = null )
{
string objectname = SOP . Name ;
return objectname ;
}
EntityBase SensedObject ;
lock ( World . Entities )
{
World . Entities . TryGetValue ( objecUUID , out SensedObject ) ;
}
if ( SensedObject = = null )
return String . Empty ;
return SensedObject . Name ;
}
public LSL_String llDetectedName ( int number )
{
m_host . AddScriptLPS ( 1 ) ;
DetectParams d = m_ScriptEngine . GetDetectParams ( m_itemID , number ) ;
if ( d = = null )
return String . Empty ;
return d . Name ;
}
public LSL_String llDetectedKey ( int number )
{
m_host . AddScriptLPS ( 1 ) ;
DetectParams d = m_ScriptEngine . GetDetectParams ( m_itemID , number ) ;
if ( d = = null )
return String . Empty ;
return d . Key . ToString ( ) ;
}
public LSL_String llDetectedOwner ( int number )
{
m_host . AddScriptLPS ( 1 ) ;
DetectParams d = m_ScriptEngine . GetDetectParams ( m_itemID , number ) ;
if ( d = = null )
return String . Empty ;
return d . Owner . ToString ( ) ;
}
public LSL_Integer llDetectedType ( int number )
{
m_host . AddScriptLPS ( 1 ) ;
DetectParams d = m_ScriptEngine . GetDetectParams ( m_itemID , number ) ;
if ( d = = null )
return 0 ;
return new LSL_Integer ( d . Type ) ;
}
public LSL_Vector llDetectedPos ( int number )
{
m_host . AddScriptLPS ( 1 ) ;
DetectParams d = m_ScriptEngine . GetDetectParams ( m_itemID , number ) ;
if ( d = = null )
return new LSL_Vector ( ) ;
return d . Position ;
}
public LSL_Vector llDetectedVel ( int number )
{
m_host . AddScriptLPS ( 1 ) ;
DetectParams d = m_ScriptEngine . GetDetectParams ( m_itemID , number ) ;
if ( d = = null )
return new LSL_Vector ( ) ;
return d . Velocity ;
}
public LSL_Vector llDetectedGrab ( int number )
{
m_host . AddScriptLPS ( 1 ) ;
DetectParams parms = m_ScriptEngine . GetDetectParams ( m_itemID , number ) ;
if ( parms = = null )
return new LSL_Vector ( 0 , 0 , 0 ) ;
return parms . OffsetPos ;
}
public LSL_Rotation llDetectedRot ( int number )
{
m_host . AddScriptLPS ( 1 ) ;
DetectParams d = m_ScriptEngine . GetDetectParams ( m_itemID , number ) ;
if ( d = = null )
return new LSL_Rotation ( ) ;
return d . Rotation ;
}
public LSL_Integer llDetectedGroup ( int number )
{
m_host . AddScriptLPS ( 1 ) ;
DetectParams d = m_ScriptEngine . GetDetectParams ( m_itemID , number ) ;
if ( d = = null )
return new LSL_Integer ( 0 ) ;
if ( m_host . GroupID = = d . Group )
return new LSL_Integer ( 1 ) ;
return new LSL_Integer ( 0 ) ;
}
public LSL_Integer llDetectedLinkNumber ( int number )
{
m_host . AddScriptLPS ( 1 ) ;
DetectParams parms = m_ScriptEngine . GetDetectParams ( m_itemID , number ) ;
if ( parms = = null )
return new LSL_Integer ( 0 ) ;
return new LSL_Integer ( parms . LinkNum ) ;
}
public LSL_Vector llDetectedTouchBinormal ( int index )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llDetectedTouchBinormal" ) ;
return new LSL_Vector ( ) ;
}
public LSL_Integer llDetectedTouchFace ( int index )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llDetectedTouchFace" ) ;
return new LSL_Integer ( 0 ) ;
}
public LSL_Vector llDetectedTouchNormal ( int index )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llDetectedTouchNormal" ) ;
return new LSL_Vector ( ) ;
}
public LSL_Vector llDetectedTouchPos ( int index )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llDetectedTouchPos" ) ;
return new LSL_Vector ( ) ;
}
public LSL_Vector llDetectedTouchST ( int index )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llDetectedTouchST" ) ;
return new LSL_Vector ( ) ;
}
public LSL_Vector llDetectedTouchUV ( int index )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llDetectedTouchUV" ) ;
return new LSL_Vector ( ) ;
}
public void llDie ( )
{
m_host . AddScriptLPS ( 1 ) ;
throw new SelfDeleteException ( ) ;
}
public LSL_Float llGround ( LSL_Vector offset )
{
m_host . AddScriptLPS ( 1 ) ;
int x = ( int ) ( m_host . OffsetPosition . X + offset . x ) ;
int y = ( int ) ( m_host . OffsetPosition . Y + offset . y ) ;
return World . GetLandHeight ( x , y ) ;
}
public LSL_Float llCloud ( LSL_Vector offset )
{
m_host . AddScriptLPS ( 1 ) ;
return 0 ;
}
public LSL_Vector llWind ( LSL_Vector offset )
{
m_host . AddScriptLPS ( 1 ) ;
return new LSL_Vector ( ) ;
}
public void llSetStatus ( int status , int value )
{
m_host . AddScriptLPS ( 1 ) ;
int statusrotationaxis = 0 ;
if ( ( status & ScriptBaseClass . STATUS_PHYSICS ) = = ScriptBaseClass . STATUS_PHYSICS )
{
if ( value = = 1 )
{
SceneObjectGroup group = m_host . ParentGroup ;
if ( group = = null )
return ;
bool allow = true ;
foreach ( SceneObjectPart part in group . Children . Values )
{
if ( part . Scale . X > World . m_maxPhys | | part . Scale . Y > World . m_maxPhys | | part . Scale . Z > World . m_maxPhys )
{
allow = false ;
break ;
}
}
if ( ! allow )
return ;
m_host . ScriptSetPhysicsStatus ( true ) ;
}
else
m_host . ScriptSetPhysicsStatus ( false ) ;
}
if ( ( status & ScriptBaseClass . STATUS_PHANTOM ) = = ScriptBaseClass . STATUS_PHANTOM )
{
if ( value = = 1 )
m_host . ScriptSetPhantomStatus ( true ) ;
else
m_host . ScriptSetPhantomStatus ( false ) ;
}
if ( ( status & ScriptBaseClass . STATUS_CAST_SHADOWS ) = = ScriptBaseClass . STATUS_CAST_SHADOWS )
{
m_host . AddFlag ( PrimFlags . CastShadows ) ;
}
if ( ( status & ScriptBaseClass . STATUS_ROTATE_X ) = = ScriptBaseClass . STATUS_ROTATE_X )
{
statusrotationaxis | = ScriptBaseClass . STATUS_ROTATE_X ;
}
if ( ( status & ScriptBaseClass . STATUS_ROTATE_Y ) = = ScriptBaseClass . STATUS_ROTATE_Y )
{
statusrotationaxis | = ScriptBaseClass . STATUS_ROTATE_Y ;
}
if ( ( status & ScriptBaseClass . STATUS_ROTATE_Z ) = = ScriptBaseClass . STATUS_ROTATE_Z )
{
statusrotationaxis | = ScriptBaseClass . STATUS_ROTATE_Z ;
}
if ( ( status & ScriptBaseClass . STATUS_BLOCK_GRAB ) = = ScriptBaseClass . STATUS_BLOCK_GRAB )
{
NotImplemented ( "llSetStatus - STATUS_BLOCK_GRAB" ) ;
}
if ( ( status & ScriptBaseClass . STATUS_DIE_AT_EDGE ) = = ScriptBaseClass . STATUS_DIE_AT_EDGE )
{
if ( value = = 1 )
m_host . SetDieAtEdge ( true ) ;
else
m_host . SetDieAtEdge ( false ) ;
}
if ( ( status & ScriptBaseClass . STATUS_RETURN_AT_EDGE ) = = ScriptBaseClass . STATUS_RETURN_AT_EDGE )
{
NotImplemented ( "llSetStatus - STATUS_RETURN_AT_EDGE" ) ;
}
if ( ( status & ScriptBaseClass . STATUS_SANDBOX ) = = ScriptBaseClass . STATUS_SANDBOX )
{
NotImplemented ( "llSetStatus - STATUS_SANDBOX" ) ;
}
if ( statusrotationaxis ! = 0 )
{
m_host . SetAxisRotation ( statusrotationaxis , value ) ;
}
}
public LSL_Integer llGetStatus ( int status )
{
m_host . AddScriptLPS ( 1 ) ;
// Console.WriteLine(m_host.ToString() + " status is " + m_host.GetEffectiveObjectFlags().ToString());
switch ( status )
{
case ScriptBaseClass . STATUS_PHYSICS :
if ( ( m_host . GetEffectiveObjectFlags ( ) & ( uint ) PrimFlags . Physics ) = = ( uint ) PrimFlags . Physics )
{
return 1 ;
}
return 0 ;
case ScriptBaseClass . STATUS_PHANTOM :
if ( ( m_host . GetEffectiveObjectFlags ( ) & ( uint ) PrimFlags . Phantom ) = = ( uint ) PrimFlags . Phantom )
{
return 1 ;
}
return 0 ;
case ScriptBaseClass . STATUS_CAST_SHADOWS :
if ( ( m_host . GetEffectiveObjectFlags ( ) & ( uint ) PrimFlags . CastShadows ) = = ( uint ) PrimFlags . CastShadows )
{
return 1 ;
}
return 0 ;
case ScriptBaseClass . STATUS_BLOCK_GRAB :
NotImplemented ( "llGetStatus - STATUS_BLOCK_GRAB" ) ;
return 0 ;
case ScriptBaseClass . STATUS_DIE_AT_EDGE :
if ( m_host . GetDieAtEdge ( ) )
return 1 ;
else
return 0 ;
case ScriptBaseClass . STATUS_RETURN_AT_EDGE :
NotImplemented ( "llGetStatus - STATUS_RETURN_AT_EDGE" ) ;
return 0 ;
case ScriptBaseClass . STATUS_ROTATE_X :
NotImplemented ( "llGetStatus - STATUS_ROTATE_X" ) ;
return 0 ;
case ScriptBaseClass . STATUS_ROTATE_Y :
NotImplemented ( "llGetStatus - STATUS_ROTATE_Y" ) ;
return 0 ;
case ScriptBaseClass . STATUS_ROTATE_Z :
NotImplemented ( "llGetStatus - STATUS_ROTATE_Z" ) ;
return 0 ;
case ScriptBaseClass . STATUS_SANDBOX :
NotImplemented ( "llGetStatus - STATUS_SANDBOX" ) ;
return 0 ;
}
return 0 ;
}
public void llSetScale ( LSL_Vector scale )
{
m_host . AddScriptLPS ( 1 ) ;
SetScale ( m_host , scale ) ;
}
private void SetScale ( SceneObjectPart part , LSL_Vector scale )
{
// TODO: this needs to trigger a persistance save as well
if ( part = = null | | part . ParentGroup = = null | | part . ParentGroup . RootPart = = null )
return ;
if ( part . ParentGroup . RootPart . PhysActor ! = null & & part . ParentGroup . RootPart . PhysActor . IsPhysical )
{
if ( scale . x > World . m_maxPhys )
scale . x = World . m_maxPhys ;
if ( scale . y > World . m_maxPhys )
scale . y = World . m_maxPhys ;
if ( scale . z > World . m_maxPhys )
scale . z = World . m_maxPhys ;
}
if ( scale . x > World . m_maxNonphys )
scale . x = World . m_maxNonphys ;
if ( scale . y > World . m_maxNonphys )
scale . y = World . m_maxNonphys ;
if ( scale . z > World . m_maxNonphys )
scale . z = World . m_maxNonphys ;
Vector3 tmp = part . Scale ;
tmp . X = ( float ) scale . x ;
tmp . Y = ( float ) scale . y ;
tmp . Z = ( float ) scale . z ;
part . Scale = tmp ;
part . SendFullUpdateToAllClients ( ) ;
}
public LSL_Vector llGetScale ( )
{
m_host . AddScriptLPS ( 1 ) ;
return new LSL_Vector ( m_host . Scale . X , m_host . Scale . Y , m_host . Scale . Z ) ;
}
public void llSetClickAction ( int action )
{
m_host . AddScriptLPS ( 1 ) ;
2008-09-26 15:18:22 +00:00
m_host . ClickAction = ( byte ) action ;
if ( m_host . ParentGroup ! = null ) m_host . ParentGroup . HasGroupChanged = true ;
m_host . ScheduleFullUpdate ( ) ;
2008-09-26 02:51:00 +00:00
return ;
}
public void llSetColor ( LSL_Vector color , int face )
{
m_host . AddScriptLPS ( 1 ) ;
SetColor ( m_host , color , face ) ;
}
private void SetColor ( SceneObjectPart part , LSL_Vector color , int face )
{
Primitive . TextureEntry tex = part . Shape . Textures ;
Color4 texcolor ;
if ( face > = 0 & & face < GetNumberOfSides ( part ) )
{
texcolor = tex . CreateFace ( ( uint ) face ) . RGBA ;
texcolor . R = Util . Clip ( ( float ) color . x , 0.0f , 1.0f ) ;
texcolor . G = Util . Clip ( ( float ) color . y , 0.0f , 1.0f ) ;
texcolor . B = Util . Clip ( ( float ) color . z , 0.0f , 1.0f ) ;
tex . FaceTextures [ face ] . RGBA = texcolor ;
part . UpdateTexture ( tex ) ;
return ;
}
else if ( face = = ScriptBaseClass . ALL_SIDES )
{
for ( uint i = 0 ; i < GetNumberOfSides ( part ) ; i + + )
{
if ( tex . FaceTextures [ i ] ! = null )
{
texcolor = tex . FaceTextures [ i ] . RGBA ;
texcolor . R = Util . Clip ( ( float ) color . x , 0.0f , 1.0f ) ;
texcolor . G = Util . Clip ( ( float ) color . y , 0.0f , 1.0f ) ;
texcolor . B = Util . Clip ( ( float ) color . z , 0.0f , 1.0f ) ;
tex . FaceTextures [ i ] . RGBA = texcolor ;
}
texcolor = tex . DefaultTexture . RGBA ;
texcolor . R = Util . Clip ( ( float ) color . x , 0.0f , 1.0f ) ;
texcolor . G = Util . Clip ( ( float ) color . y , 0.0f , 1.0f ) ;
texcolor . B = Util . Clip ( ( float ) color . z , 0.0f , 1.0f ) ;
tex . DefaultTexture . RGBA = texcolor ;
}
part . UpdateTexture ( tex ) ;
return ;
}
}
public void SetGlow ( SceneObjectPart part , int face , float glow )
{
Primitive . TextureEntry tex = part . Shape . Textures ;
if ( face > = 0 & & face < GetNumberOfSides ( part ) )
{
tex . CreateFace ( ( uint ) face ) ;
tex . FaceTextures [ face ] . Glow = glow ;
part . UpdateTexture ( tex ) ;
return ;
}
else if ( face = = ScriptBaseClass . ALL_SIDES )
{
for ( uint i = 0 ; i < GetNumberOfSides ( part ) ; i + + )
{
if ( tex . FaceTextures [ i ] ! = null )
{
tex . FaceTextures [ i ] . Glow = glow ;
}
tex . DefaultTexture . Glow = glow ;
}
part . UpdateTexture ( tex ) ;
return ;
}
}
public void SetShiny ( SceneObjectPart part , int face , int shiny , Bumpiness bump )
{
Shininess sval = new Shininess ( ) ;
switch ( shiny )
{
case 0 :
sval = Shininess . None ;
break ;
case 1 :
sval = Shininess . Low ;
break ;
case 2 :
sval = Shininess . Medium ;
break ;
case 3 :
sval = Shininess . High ;
break ;
default :
sval = Shininess . None ;
break ;
}
Primitive . TextureEntry tex = part . Shape . Textures ;
if ( face > = 0 & & face < GetNumberOfSides ( part ) )
{
tex . CreateFace ( ( uint ) face ) ;
tex . FaceTextures [ face ] . Shiny = sval ;
tex . FaceTextures [ face ] . Bump = bump ;
part . UpdateTexture ( tex ) ;
return ;
}
else if ( face = = ScriptBaseClass . ALL_SIDES )
{
for ( uint i = 0 ; i < GetNumberOfSides ( part ) ; i + + )
{
if ( tex . FaceTextures [ i ] ! = null )
{
tex . FaceTextures [ i ] . Shiny = sval ;
tex . FaceTextures [ i ] . Bump = bump ; ;
}
tex . DefaultTexture . Shiny = sval ;
tex . DefaultTexture . Bump = bump ;
}
part . UpdateTexture ( tex ) ;
return ;
}
}
public void SetFullBright ( SceneObjectPart part , int face , bool bright )
{
Primitive . TextureEntry tex = part . Shape . Textures ;
if ( face > = 0 & & face < GetNumberOfSides ( part ) )
{
tex . CreateFace ( ( uint ) face ) ;
tex . FaceTextures [ face ] . Fullbright = bright ;
part . UpdateTexture ( tex ) ;
return ;
}
else if ( face = = ScriptBaseClass . ALL_SIDES )
{
for ( uint i = 0 ; i < GetNumberOfSides ( part ) ; i + + )
{
if ( tex . FaceTextures [ i ] ! = null )
{
tex . FaceTextures [ i ] . Fullbright = bright ;
}
}
tex . DefaultTexture . Fullbright = bright ;
part . UpdateTexture ( tex ) ;
return ;
}
}
public LSL_Float llGetAlpha ( int face )
{
m_host . AddScriptLPS ( 1 ) ;
return GetAlpha ( m_host , face ) ;
}
private LSL_Float GetAlpha ( SceneObjectPart part , int face )
{
Primitive . TextureEntry tex = part . Shape . Textures ;
if ( face = = ScriptBaseClass . ALL_SIDES )
{
int i ;
double sum = 0.0 ;
for ( i = 0 ; i < GetNumberOfSides ( part ) ; i + + )
sum + = ( double ) tex . GetFace ( ( uint ) i ) . RGBA . A ;
return sum ;
}
if ( face > = 0 & & face < GetNumberOfSides ( part ) )
{
return ( double ) tex . GetFace ( ( uint ) face ) . RGBA . A ;
}
return 0.0 ;
}
public void llSetAlpha ( double alpha , int face )
{
m_host . AddScriptLPS ( 1 ) ;
SetAlpha ( m_host , alpha , face ) ;
}
private void SetAlpha ( SceneObjectPart part , double alpha , int face )
{
Primitive . TextureEntry tex = part . Shape . Textures ;
Color4 texcolor ;
if ( face > = 0 & & face < GetNumberOfSides ( part ) )
{
texcolor = tex . CreateFace ( ( uint ) face ) . RGBA ;
texcolor . A = Util . Clip ( ( float ) alpha , 0.0f , 1.0f ) ;
tex . FaceTextures [ face ] . RGBA = texcolor ;
part . UpdateTexture ( tex ) ;
return ;
}
else if ( face = = ScriptBaseClass . ALL_SIDES )
{
for ( int i = 0 ; i < GetNumberOfSides ( part ) ; i + + )
{
if ( tex . FaceTextures [ i ] ! = null )
{
texcolor = tex . FaceTextures [ i ] . RGBA ;
texcolor . A = Util . Clip ( ( float ) alpha , 0.0f , 1.0f ) ;
tex . FaceTextures [ i ] . RGBA = texcolor ;
}
}
texcolor = tex . DefaultTexture . RGBA ;
texcolor . A = Util . Clip ( ( float ) alpha , 0.0f , 1.0f ) ;
tex . DefaultTexture . RGBA = texcolor ;
part . UpdateTexture ( tex ) ;
return ;
}
}
/// <summary>
/// Set flexi parameters of a part.
///
/// FIXME: Much of this code should probably be within the part itself.
/// </summary>
/// <param name="part"></param>
/// <param name="flexi"></param>
/// <param name="softness"></param>
/// <param name="gravity"></param>
/// <param name="friction"></param>
/// <param name="wind"></param>
/// <param name="tension"></param>
/// <param name="Force"></param>
private void SetFlexi ( SceneObjectPart part , bool flexi , int softness , float gravity , float friction ,
float wind , float tension , LSL_Vector Force )
{
if ( part = = null )
return ;
bool needs_fakedelete = false ;
if ( flexi )
{
if ( ! part . Shape . FlexiEntry )
{
needs_fakedelete = true ;
}
part . Shape . FlexiEntry = true ; // this setting flexi true isn't working, but the below parameters do
// work once the prim is already flexi
part . Shape . FlexiSoftness = softness ;
part . Shape . FlexiGravity = gravity ;
part . Shape . FlexiDrag = friction ;
part . Shape . FlexiWind = wind ;
part . Shape . FlexiTension = tension ;
part . Shape . FlexiForceX = ( float ) Force . x ;
part . Shape . FlexiForceY = ( float ) Force . y ;
part . Shape . FlexiForceZ = ( float ) Force . z ;
part . Shape . PathCurve = 0x80 ;
}
else
{
if ( part . Shape . FlexiEntry )
{
needs_fakedelete = true ;
}
part . Shape . FlexiEntry = false ;
}
needs_fakedelete = false ;
if ( needs_fakedelete )
{
if ( part . ParentGroup ! = null )
{
part . ParentGroup . FakeDeleteGroup ( ) ;
}
}
part . ParentGroup . HasGroupChanged = true ;
part . ScheduleFullUpdate ( ) ;
}
/// <summary>
/// Set a light point on a part
///
/// FIXME: Much of this code should probably be in SceneObjectGroup
/// </summary>
/// <param name="part"></param>
/// <param name="light"></param>
/// <param name="color"></param>
/// <param name="intensity"></param>
/// <param name="radius"></param>
/// <param name="falloff"></param>
private void SetPointLight ( SceneObjectPart part , bool light , LSL_Vector color , float intensity , float radius , float falloff )
{
if ( part = = null )
return ;
if ( light )
{
part . Shape . LightEntry = true ;
part . Shape . LightColorR = Util . Clip ( ( float ) color . x , 0.0f , 1.0f ) ;
part . Shape . LightColorG = Util . Clip ( ( float ) color . y , 0.0f , 1.0f ) ;
part . Shape . LightColorB = Util . Clip ( ( float ) color . z , 0.0f , 1.0f ) ;
part . Shape . LightIntensity = intensity ;
part . Shape . LightRadius = radius ;
part . Shape . LightFalloff = falloff ;
}
else
{
part . Shape . LightEntry = false ;
}
part . ParentGroup . HasGroupChanged = true ;
part . ScheduleFullUpdate ( ) ;
}
public LSL_Vector llGetColor ( int face )
{
m_host . AddScriptLPS ( 1 ) ;
return GetColor ( m_host , face ) ;
}
private LSL_Vector GetColor ( SceneObjectPart part , int face )
{
Primitive . TextureEntry tex = part . Shape . Textures ;
Color4 texcolor ;
LSL_Vector rgb = new LSL_Vector ( ) ;
if ( face = = ScriptBaseClass . ALL_SIDES )
{
int i ;
for ( i = 0 ; i < GetNumberOfSides ( part ) ; i + + )
{
texcolor = tex . GetFace ( ( uint ) i ) . RGBA ;
rgb . x + = texcolor . R ;
rgb . y + = texcolor . G ;
rgb . z + = texcolor . B ;
}
rgb . x / = ( float ) GetNumberOfSides ( part ) ;
rgb . y / = ( float ) GetNumberOfSides ( part ) ;
rgb . z / = ( float ) GetNumberOfSides ( part ) ;
return rgb ;
}
if ( face > = 0 & & face < GetNumberOfSides ( part ) )
{
texcolor = tex . GetFace ( ( uint ) face ) . RGBA ;
rgb . x = texcolor . R ;
rgb . y = texcolor . G ;
rgb . z = texcolor . B ;
return rgb ;
}
else
{
return new LSL_Vector ( ) ;
}
}
public void llSetTexture ( string texture , int face )
{
m_host . AddScriptLPS ( 1 ) ;
SetTexture ( m_host , texture , face ) ;
// ScriptSleep(200);
}
private void SetTexture ( SceneObjectPart part , string texture , int face )
{
UUID textureID = new UUID ( ) ;
if ( ! UUID . TryParse ( texture , out textureID ) )
{
textureID = InventoryKey ( texture , ( int ) AssetType . Texture ) ;
}
if ( textureID = = UUID . Zero )
return ;
Primitive . TextureEntry tex = part . Shape . Textures ;
if ( face > = 0 & & face < GetNumberOfSides ( part ) )
{
Primitive . TextureEntryFace texface = tex . CreateFace ( ( uint ) face ) ;
texface . TextureID = textureID ;
tex . FaceTextures [ face ] = texface ;
part . UpdateTexture ( tex ) ;
return ;
}
else if ( face = = ScriptBaseClass . ALL_SIDES )
{
for ( uint i = 0 ; i < GetNumberOfSides ( part ) ; i + + )
{
if ( tex . FaceTextures [ i ] ! = null )
{
tex . FaceTextures [ i ] . TextureID = textureID ;
}
}
tex . DefaultTexture . TextureID = textureID ;
part . UpdateTexture ( tex ) ;
return ;
}
}
public void llScaleTexture ( double u , double v , int face )
{
m_host . AddScriptLPS ( 1 ) ;
ScaleTexture ( m_host , u , v , face ) ;
// ScriptSleep(200);
}
private void ScaleTexture ( SceneObjectPart part , double u , double v , int face )
{
Primitive . TextureEntry tex = part . Shape . Textures ;
if ( face > = 0 & & face < GetNumberOfSides ( part ) )
{
Primitive . TextureEntryFace texface = tex . CreateFace ( ( uint ) face ) ;
texface . RepeatU = ( float ) u ;
texface . RepeatV = ( float ) v ;
tex . FaceTextures [ face ] = texface ;
part . UpdateTexture ( tex ) ;
return ;
}
if ( face = = ScriptBaseClass . ALL_SIDES )
{
for ( int i = 0 ; i < GetNumberOfSides ( part ) ; i + + )
{
if ( tex . FaceTextures [ i ] ! = null )
{
tex . FaceTextures [ i ] . RepeatU = ( float ) u ;
tex . FaceTextures [ i ] . RepeatV = ( float ) v ;
}
}
tex . DefaultTexture . RepeatU = ( float ) u ;
tex . DefaultTexture . RepeatV = ( float ) v ;
part . UpdateTexture ( tex ) ;
return ;
}
}
public void llOffsetTexture ( double u , double v , int face )
{
m_host . AddScriptLPS ( 1 ) ;
OffsetTexture ( m_host , u , v , face ) ;
// ScriptSleep(200);
}
private void OffsetTexture ( SceneObjectPart part , double u , double v , int face )
{
Primitive . TextureEntry tex = part . Shape . Textures ;
if ( face > = 0 & & face < GetNumberOfSides ( part ) )
{
Primitive . TextureEntryFace texface = tex . CreateFace ( ( uint ) face ) ;
texface . OffsetU = ( float ) u ;
texface . OffsetV = ( float ) v ;
tex . FaceTextures [ face ] = texface ;
part . UpdateTexture ( tex ) ;
return ;
}
if ( face = = ScriptBaseClass . ALL_SIDES )
{
for ( int i = 0 ; i < GetNumberOfSides ( part ) ; i + + )
{
if ( tex . FaceTextures [ i ] ! = null )
{
tex . FaceTextures [ i ] . OffsetU = ( float ) u ;
tex . FaceTextures [ i ] . OffsetV = ( float ) v ;
}
}
tex . DefaultTexture . OffsetU = ( float ) u ;
tex . DefaultTexture . OffsetV = ( float ) v ;
part . UpdateTexture ( tex ) ;
return ;
}
}
public void llRotateTexture ( double rotation , int face )
{
m_host . AddScriptLPS ( 1 ) ;
RotateTexture ( m_host , rotation , face ) ;
// ScriptSleep(200);
}
private void RotateTexture ( SceneObjectPart part , double rotation , int face )
{
Primitive . TextureEntry tex = part . Shape . Textures ;
if ( face > = 0 & & face < GetNumberOfSides ( part ) )
{
Primitive . TextureEntryFace texface = tex . CreateFace ( ( uint ) face ) ;
texface . Rotation = ( float ) rotation ;
tex . FaceTextures [ face ] = texface ;
part . UpdateTexture ( tex ) ;
return ;
}
if ( face = = ScriptBaseClass . ALL_SIDES )
{
for ( int i = 0 ; i < GetNumberOfSides ( part ) ; i + + )
{
if ( tex . FaceTextures [ i ] ! = null )
{
tex . FaceTextures [ i ] . Rotation = ( float ) rotation ;
}
}
tex . DefaultTexture . Rotation = ( float ) rotation ;
part . UpdateTexture ( tex ) ;
return ;
}
}
public LSL_String llGetTexture ( int face )
{
m_host . AddScriptLPS ( 1 ) ;
return GetTexture ( m_host , face ) ;
}
private LSL_String GetTexture ( SceneObjectPart part , int face )
{
Primitive . TextureEntry tex = part . Shape . Textures ;
if ( face = = ScriptBaseClass . ALL_SIDES )
{
face = 0 ;
}
if ( face > = 0 & & face < GetNumberOfSides ( part ) )
{
Primitive . TextureEntryFace texface ;
texface = tex . GetFace ( ( uint ) face ) ;
return texface . TextureID . ToString ( ) ;
}
else
{
return String . Empty ;
}
}
public void llSetPos ( LSL_Vector pos )
{
m_host . AddScriptLPS ( 1 ) ;
SetPos ( m_host , pos ) ;
ScriptSleep ( 200 ) ;
}
private void SetPos ( SceneObjectPart part , LSL_Vector targetPos )
{
// Capped movemment if distance > 10m (http://wiki.secondlife.com/wiki/LlSetPos)
LSL_Vector currentPos = llGetLocalPos ( ) ;
if ( llVecDist ( currentPos , targetPos ) > 10.0f * m_ScriptDistanceFactor )
{
targetPos = currentPos + m_ScriptDistanceFactor * 10.0f * llVecNorm ( targetPos - currentPos ) ;
}
if ( part . ParentID ! = 0 )
{
part . UpdateOffSet ( new Vector3 ( ( float ) targetPos . x , ( float ) targetPos . y , ( float ) targetPos . z ) ) ;
}
else
{
part . UpdateGroupPosition ( new Vector3 ( ( float ) targetPos . x , ( float ) targetPos . y , ( float ) targetPos . z ) ) ;
}
}
public LSL_Vector llGetPos ( )
{
m_host . AddScriptLPS ( 1 ) ;
return new LSL_Vector ( m_host . AbsolutePosition . X ,
m_host . AbsolutePosition . Y ,
m_host . AbsolutePosition . Z ) ;
}
public LSL_Vector llGetLocalPos ( )
{
m_host . AddScriptLPS ( 1 ) ;
if ( m_host . ParentID ! = 0 )
{
return new LSL_Vector ( m_host . OffsetPosition . X ,
m_host . OffsetPosition . Y ,
m_host . OffsetPosition . Z ) ;
}
else
{
return new LSL_Vector ( m_host . AbsolutePosition . X ,
m_host . AbsolutePosition . Y ,
m_host . AbsolutePosition . Z ) ;
}
}
public void llSetRot ( LSL_Rotation rot )
{
m_host . AddScriptLPS ( 1 ) ;
SetRot ( m_host , rot ) ;
ScriptSleep ( 200 ) ;
}
private void SetRot ( SceneObjectPart part , LSL_Rotation rot )
{
part . UpdateRotation ( new Quaternion ( ( float ) rot . x , ( float ) rot . y , ( float ) rot . z , ( float ) rot . s ) ) ;
// Update rotation does not move the object in the physics scene if it's a linkset.
part . ParentGroup . AbsolutePosition = part . ParentGroup . AbsolutePosition ;
}
public LSL_Rotation llGetRot ( )
{
m_host . AddScriptLPS ( 1 ) ;
Quaternion q = m_host . RotationOffset ;
return new LSL_Rotation ( q . X , q . Y , q . Z , q . W ) ;
}
public LSL_Rotation llGetLocalRot ( )
{
m_host . AddScriptLPS ( 1 ) ;
return new LSL_Rotation ( m_host . RotationOffset . X , m_host . RotationOffset . Y , m_host . RotationOffset . Z , m_host . RotationOffset . W ) ;
}
public void llSetForce ( LSL_Vector force , int local )
{
m_host . AddScriptLPS ( 1 ) ;
if ( m_host . ParentGroup ! = null )
{
if ( m_host . ParentGroup . RootPart ! = null )
{
if ( local ! = 0 )
force * = llGetRot ( ) ;
m_host . ParentGroup . RootPart . SetForce ( new PhysicsVector ( ( float ) force . x , ( float ) force . y , ( float ) force . z ) ) ;
}
}
}
public LSL_Vector llGetForce ( )
{
LSL_Vector force = new LSL_Vector ( 0.0 , 0.0 , 0.0 ) ;
m_host . AddScriptLPS ( 1 ) ;
if ( m_host . ParentGroup ! = null )
{
if ( m_host . ParentGroup . RootPart ! = null )
{
PhysicsVector tmpForce = m_host . ParentGroup . RootPart . GetForce ( ) ;
force . x = tmpForce . X ;
force . y = tmpForce . Y ;
force . z = tmpForce . Z ;
}
}
return force ;
}
public LSL_Integer llTarget ( LSL_Vector position , double range )
{
m_host . AddScriptLPS ( 1 ) ;
return m_host . registerTargetWaypoint ( new Vector3 ( ( float ) position . x , ( float ) position . y , ( float ) position . z ) , ( float ) range ) ;
}
public void llTargetRemove ( int number )
{
m_host . AddScriptLPS ( 1 ) ;
m_host . unregisterTargetWaypoint ( number ) ;
}
public LSL_Integer llRotTarget ( LSL_Rotation rot , double error )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llRotTarget" ) ;
return 0 ;
}
public void llRotTargetRemove ( int number )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llRotTargetRemove" ) ;
}
public void llMoveToTarget ( LSL_Vector target , double tau )
{
m_host . AddScriptLPS ( 1 ) ;
m_host . MoveToTarget ( new Vector3 ( ( float ) target . x , ( float ) target . y , ( float ) target . z ) , ( float ) tau ) ;
}
public void llStopMoveToTarget ( )
{
m_host . AddScriptLPS ( 1 ) ;
m_host . StopMoveToTarget ( ) ;
}
public void llApplyImpulse ( LSL_Vector force , int local )
{
m_host . AddScriptLPS ( 1 ) ;
//No energy force yet
if ( force . x > 20000 )
force . x = 20000 ;
if ( force . y > 20000 )
force . y = 20000 ;
if ( force . z > 20000 )
force . z = 20000 ;
m_host . ApplyImpulse ( new Vector3 ( ( float ) force . x , ( float ) force . y , ( float ) force . z ) , local ! = 0 ) ;
}
public void llApplyRotationalImpulse ( LSL_Vector force , int local )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llApplyRotationalImpulse" ) ;
}
public void llSetTorque ( LSL_Vector torque , int local )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llSetTorque" ) ;
}
public LSL_Vector llGetTorque ( )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llGetTorque" ) ;
return new LSL_Vector ( ) ;
}
public void llSetForceAndTorque ( LSL_Vector force , LSL_Vector torque , int local )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llSetForceAndTorque" ) ;
}
public LSL_Vector llGetVel ( )
{
m_host . AddScriptLPS ( 1 ) ;
return new LSL_Vector ( m_host . Velocity . X , m_host . Velocity . Y , m_host . Velocity . Z ) ;
}
public LSL_Vector llGetAccel ( )
{
m_host . AddScriptLPS ( 1 ) ;
return new LSL_Vector ( m_host . Acceleration . X , m_host . Acceleration . Y , m_host . Acceleration . Z ) ;
}
public LSL_Vector llGetOmega ( )
{
m_host . AddScriptLPS ( 1 ) ;
return new LSL_Vector ( m_host . RotationalVelocity . X , m_host . RotationalVelocity . Y , m_host . RotationalVelocity . Z ) ;
}
public LSL_Float llGetTimeOfDay ( )
{
m_host . AddScriptLPS ( 1 ) ;
return ( double ) ( ( ( DateTime . Now . TimeOfDay . TotalMilliseconds / 1000 ) % ( 3600 * 4 ) ) * World . TimeDilation ) ;
}
public LSL_Float llGetWallclock ( )
{
m_host . AddScriptLPS ( 1 ) ;
return DateTime . Now . TimeOfDay . TotalSeconds ;
}
public LSL_Float llGetTime ( )
{
m_host . AddScriptLPS ( 1 ) ;
TimeSpan ScriptTime = DateTime . Now - m_timer ;
return ( double ) ( ( ScriptTime . TotalMilliseconds / 1000 ) * World . TimeDilation ) ;
}
public void llResetTime ( )
{
m_host . AddScriptLPS ( 1 ) ;
m_timer = DateTime . Now ;
}
public LSL_Float llGetAndResetTime ( )
{
m_host . AddScriptLPS ( 1 ) ;
TimeSpan ScriptTime = DateTime . Now - m_timer ;
m_timer = DateTime . Now ;
return ( double ) ( ( ScriptTime . TotalMilliseconds / 1000 ) * World . TimeDilation ) ;
}
public void llSound ( )
{
m_host . AddScriptLPS ( 1 ) ;
// This function has been deprecated
// see http://www.lslwiki.net/lslwiki/wakka.php?wakka=llSound
Deprecated ( "llSound" ) ;
}
// Xantor 20080528 PlaySound updated so it accepts an objectinventory name -or- a key to a sound
// 20080530 Updated to remove code duplication
public void llPlaySound ( string sound , double volume )
{
m_host . AddScriptLPS ( 1 ) ;
// send the sound, once, to all clients in range
m_host . SendSound ( KeyOrName ( sound ) . ToString ( ) , volume , false , 0 ) ;
}
// Xantor 20080528 we should do this differently.
// 1) apply the sound to the object
// 2) schedule full update
// just sending the sound out once doesn't work so well when other avatars come in view later on
// or when the prim gets moved, changed, sat on, whatever
// see large number of mantises (mantes?)
// 20080530 Updated to remove code duplication
// 20080530 Stop sound if there is one, otherwise volume only changes don't work
public void llLoopSound ( string sound , double volume )
{
m_host . AddScriptLPS ( 1 ) ;
if ( m_host . Sound ! = UUID . Zero )
llStopSound ( ) ;
m_host . Sound = KeyOrName ( sound ) ;
m_host . SoundGain = volume ;
m_host . SoundFlags = 1 ; // looping
m_host . SoundRadius = 20 ; // Magic number, 20 seems reasonable. Make configurable?
m_host . ScheduleFullUpdate ( ) ;
m_host . SendFullUpdateToAllClients ( ) ;
}
public void llLoopSoundMaster ( string sound , double volume )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llLoopSoundMaster" ) ;
}
public void llLoopSoundSlave ( string sound , double volume )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llLoopSoundSlave" ) ;
}
public void llPlaySoundSlave ( string sound , double volume )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llPlaySoundSlave" ) ;
}
public void llTriggerSound ( string sound , double volume )
{
m_host . AddScriptLPS ( 1 ) ;
// send the sound, once, to all clients in range
m_host . SendSound ( KeyOrName ( sound ) . ToString ( ) , volume , false , 0 ) ;
}
// Xantor 20080528: Clear prim data of sound instead
public void llStopSound ( )
{
m_host . AddScriptLPS ( 1 ) ;
m_host . Sound = UUID . Zero ;
m_host . SoundGain = 0 ;
m_host . SoundFlags = 0 ;
m_host . SoundRadius = 0 ;
m_host . ScheduleFullUpdate ( ) ;
m_host . SendFullUpdateToAllClients ( ) ;
// m_host.SendSound(UUID.Zero.ToString(), 1.0, false, 2);
}
public void llPreloadSound ( string sound )
{
m_host . AddScriptLPS ( 1 ) ;
m_host . PreloadSound ( sound ) ;
// ScriptSleep(1000);
}
/// <summary>
/// Return a portion of the designated string bounded by
/// inclusive indices (start and end). As usual, the negative
/// indices, and the tolerance for out-of-bound values, makes
/// this more complicated than it might otherwise seem.
/// </summary>
public LSL_String llGetSubString ( string src , int start , int end )
{
m_host . AddScriptLPS ( 1 ) ;
// Normalize indices (if negative).
// After normlaization they may still be
// negative, but that is now relative to
// the start, rather than the end, of the
// sequence.
if ( start < 0 )
{
start = src . Length + start ;
}
if ( end < 0 )
{
end = src . Length + end ;
}
// Conventional substring
if ( start < = end )
{
// Implies both bounds are out-of-range.
if ( end < 0 | | start > = src . Length )
{
return String . Empty ;
}
// If end is positive, then it directly
// corresponds to the lengt of the substring
// needed (plus one of course). BUT, it
// must be within bounds.
if ( end > = src . Length )
{
end = src . Length - 1 ;
}
if ( start < 0 )
{
return src . Substring ( 0 , end + 1 ) ;
}
// Both indices are positive
return src . Substring ( start , ( end + 1 ) - start ) ;
}
// Inverted substring (end < start)
else
{
// Implies both indices are below the
// lower bound. In the inverted case, that
// means the entire string will be returned
// unchanged.
if ( start < 0 )
{
return src ;
}
// If both indices are greater than the upper
// bound the result may seem initially counter
// intuitive.
if ( end > = src . Length )
{
return src ;
}
if ( end < 0 )
{
if ( start < src . Length )
{
return src . Substring ( start ) ;
}
else
{
return String . Empty ;
}
}
else
{
if ( start < src . Length )
{
return src . Substring ( 0 , end + 1 ) + src . Substring ( start ) ;
}
else
{
return src . Substring ( 0 , end + 1 ) ;
}
}
}
}
/// <summary>
/// Delete substring removes the specified substring bounded
/// by the inclusive indices start and end. Indices may be
/// negative (indicating end-relative) and may be inverted,
/// i.e. end < start.
/// </summary>
public LSL_String llDeleteSubString ( string src , int start , int end )
{
m_host . AddScriptLPS ( 1 ) ;
// Normalize indices (if negative).
// After normlaization they may still be
// negative, but that is now relative to
// the start, rather than the end, of the
// sequence.
if ( start < 0 )
{
start = src . Length + start ;
}
if ( end < 0 )
{
end = src . Length + end ;
}
// Conventionally delimited substring
if ( start < = end )
{
// If both bounds are outside of the existing
// string, then return unchanges.
if ( end < 0 | | start > = src . Length )
{
return src ;
}
// At least one bound is in-range, so we
// need to clip the out-of-bound argument.
if ( start < 0 )
{
start = 0 ;
}
if ( end > = src . Length )
{
end = src . Length - 1 ;
}
return src . Remove ( start , end - start + 1 ) ;
}
// Inverted substring
else
{
// In this case, out of bounds means that
// the existing string is part of the cut.
if ( start < 0 | | end > = src . Length )
{
return String . Empty ;
}
if ( end > 0 )
{
if ( start < src . Length )
{
return src . Remove ( start ) . Remove ( 0 , end + 1 ) ;
}
else
{
return src . Remove ( 0 , end + 1 ) ;
}
}
else
{
if ( start < src . Length )
{
return src . Remove ( start ) ;
}
else
{
return src ;
}
}
}
}
/// <summary>
/// Insert string inserts the specified string identified by src
/// at the index indicated by index. Index may be negative, in
/// which case it is end-relative. The index may exceed either
/// string bound, with the result being a concatenation.
/// </summary>
public LSL_String llInsertString ( string dest , int index , string src )
{
m_host . AddScriptLPS ( 1 ) ;
// Normalize indices (if negative).
// After normlaization they may still be
// negative, but that is now relative to
// the start, rather than the end, of the
// sequence.
if ( index < 0 )
{
index = dest . Length + index ;
// Negative now means it is less than the lower
// bound of the string.
if ( index < 0 )
{
return src + dest ;
}
}
if ( index > = dest . Length )
{
return dest + src ;
}
// The index is in bounds.
// In this case the index refers to the index that will
// be assigned to the first character of the inserted string.
// So unlike the other string operations, we do not add one
// to get the correct string length.
return dest . Substring ( 0 , index ) + src + dest . Substring ( index ) ;
}
public LSL_String llToUpper ( string src )
{
m_host . AddScriptLPS ( 1 ) ;
return src . ToUpper ( ) ;
}
public LSL_String llToLower ( string src )
{
m_host . AddScriptLPS ( 1 ) ;
return src . ToLower ( ) ;
}
public LSL_Integer llGiveMoney ( string destination , int amount )
{
UUID invItemID = InventorySelf ( ) ;
if ( invItemID = = UUID . Zero )
return 0 ;
m_host . AddScriptLPS ( 1 ) ;
if ( m_host . TaskInventory [ invItemID ] . PermsGranter = = UUID . Zero )
return 0 ;
if ( ( m_host . TaskInventory [ invItemID ] . PermsMask & ScriptBaseClass . PERMISSION_DEBIT ) = = 0 )
{
LSLError ( "No permissions to give money" ) ;
return 0 ;
}
UUID toID = new UUID ( ) ;
if ( ! UUID . TryParse ( destination , out toID ) )
{
LSLError ( "Bad key in llGiveMoney" ) ;
return 0 ;
}
IMoneyModule money = World . RequestModuleInterface < IMoneyModule > ( ) ;
if ( money = = null )
{
NotImplemented ( "llGiveMoney" ) ;
return 0 ;
}
bool result = money . ObjectGiveMoney ( m_host . ParentGroup . RootPart . UUID , m_host . ParentGroup . RootPart . OwnerID , toID , amount ) ;
if ( result )
return 1 ;
return 0 ;
}
public void llMakeExplosion ( )
{
m_host . AddScriptLPS ( 1 ) ;
Deprecated ( "llMakeExplosion" ) ;
// ScriptSleep(100);
}
public void llMakeFountain ( )
{
m_host . AddScriptLPS ( 1 ) ;
Deprecated ( "llMakeFountain" ) ;
// ScriptSleep(100);
}
public void llMakeSmoke ( )
{
m_host . AddScriptLPS ( 1 ) ;
Deprecated ( "llMakeSmoke" ) ;
// ScriptSleep(100);
}
public void llMakeFire ( )
{
m_host . AddScriptLPS ( 1 ) ;
Deprecated ( "llMakeFire" ) ;
// ScriptSleep(100);
}
public void llRezAtRoot ( string inventory , LSL_Vector pos , LSL_Vector vel , LSL_Rotation rot , int param )
{
m_host . AddScriptLPS ( 1 ) ;
if ( Double . IsNaN ( rot . x ) | | Double . IsNaN ( rot . y ) | | Double . IsNaN ( rot . z ) | | Double . IsNaN ( rot . s ) )
return ;
float dist = ( float ) llVecDist ( llGetPos ( ) , pos ) ;
if ( dist > m_ScriptDistanceFactor * 10.0f )
return ;
foreach ( KeyValuePair < UUID , TaskInventoryItem > inv in m_host . TaskInventory )
{
if ( inv . Value . Name = = inventory )
{
// make sure we're an object.
if ( inv . Value . InvType ! = ( int ) InventoryType . Object )
{
llSay ( 0 , "Unable to create requested object. Object is missing from database." ) ;
return ;
}
Vector3 llpos = new Vector3 ( ( float ) pos . x , ( float ) pos . y , ( float ) pos . z ) ;
// test if we're further away then 10m
if ( Util . GetDistanceTo ( llpos , m_host . AbsolutePosition ) > 10 )
return ; // wiki says, if it's further away then 10m, silently fail.
Vector3 llvel = new Vector3 ( ( float ) vel . x , ( float ) vel . y , ( float ) vel . z ) ;
// need the magnitude later
float velmag = ( float ) Util . GetMagnitude ( llvel ) ;
SceneObjectGroup new_group = World . RezObject ( m_host , inv . Value , llpos , new Quaternion ( ( float ) rot . x , ( float ) rot . y , ( float ) rot . z , ( float ) rot . s ) , llvel , param ) ;
// If either of these are null, then there was an unknown error.
if ( new_group = = null )
continue ;
if ( new_group . RootPart = = null )
continue ;
// objects rezzed with this method are die_at_edge by default.
new_group . RootPart . SetDieAtEdge ( true ) ;
m_ScriptEngine . PostScriptEvent ( m_itemID , new EventParams (
"object_rez" , new Object [ ] {
new LSL_String (
new_group . RootPart . UUID . ToString ( ) ) } ,
new DetectParams [ 0 ] ) ) ;
float groupmass = new_group . GetMass ( ) ;
//Recoil.
llApplyImpulse ( new LSL_Vector ( llvel . X * groupmass , llvel . Y * groupmass , llvel . Z * groupmass ) , 0 ) ;
// Variable script delay? (see (http://wiki.secondlife.com/wiki/LSL_Delay)
ScriptSleep ( ( int ) ( ( groupmass * velmag ) / 10 ) ) ;
// ScriptSleep(100);
return ;
}
}
llSay ( 0 , "Could not find object " + inventory ) ;
}
public void llRezObject ( string inventory , LSL_Vector pos , LSL_Vector vel , LSL_Rotation rot , int param )
{
llRezAtRoot ( inventory , pos , vel , rot , param ) ;
}
public void llLookAt ( LSL_Vector target , double strength , double damping )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llLookAt" ) ;
}
public void llStopLookAt ( )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llStopLookAt" ) ;
}
public void llSetTimerEvent ( double sec )
{
m_host . AddScriptLPS ( 1 ) ;
// Setting timer repeat
AsyncCommands . TimerPlugin . SetTimerEvent ( m_localID , m_itemID , sec ) ;
}
public void llSleep ( double sec )
{
m_host . AddScriptLPS ( 1 ) ;
Thread . Sleep ( ( int ) ( sec * 1000 ) ) ;
}
public LSL_Float llGetMass ( )
{
m_host . AddScriptLPS ( 1 ) ;
return m_host . GetMass ( ) ;
}
public void llCollisionFilter ( string name , string id , int accept )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llCollisionFilter" ) ;
}
public void llTakeControls ( int controls , int accept , int pass_on )
{
if ( ! m_host . TaskInventory . ContainsKey ( InventorySelf ( ) ) )
{
return ;
}
if ( m_host . TaskInventory [ InventorySelf ( ) ] . PermsGranter ! = UUID . Zero )
{
ScenePresence presence = World . GetScenePresence ( m_host . TaskInventory [ InventorySelf ( ) ] . PermsGranter ) ;
if ( presence ! = null )
{
if ( ( m_host . TaskInventory [ InventorySelf ( ) ] . PermsMask & ScriptBaseClass . PERMISSION_TAKE_CONTROLS ) ! = 0 )
{
presence . RegisterControlEventsToScript ( controls , accept , pass_on , m_localID , m_itemID ) ;
}
}
}
m_host . AddScriptLPS ( 1 ) ;
}
public void llReleaseControls ( )
{
m_host . AddScriptLPS ( 1 ) ;
if ( ! m_host . TaskInventory . ContainsKey ( InventorySelf ( ) ) )
{
return ;
}
if ( m_host . TaskInventory [ InventorySelf ( ) ] . PermsGranter ! = UUID . Zero )
{
ScenePresence presence = World . GetScenePresence ( m_host . TaskInventory [ InventorySelf ( ) ] . PermsGranter ) ;
if ( presence ! = null )
{
if ( ( m_host . TaskInventory [ InventorySelf ( ) ] . PermsMask & ScriptBaseClass . PERMISSION_TAKE_CONTROLS ) ! = 0 )
{
// Unregister controls from Presence
presence . UnRegisterControlEventsToScript ( m_localID , m_itemID ) ;
// Remove Take Control permission.
m_host . TaskInventory [ InventorySelf ( ) ] . PermsMask & = ~ ScriptBaseClass . PERMISSION_TAKE_CONTROLS ;
}
}
}
}
public void llAttachToAvatar ( int attachment )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llAttachToAvatar" ) ;
}
public void llDetachFromAvatar ( )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llDetachFromAvatar" ) ;
}
public void llTakeCamera ( string avatar )
{
m_host . AddScriptLPS ( 1 ) ;
Deprecated ( "llTakeCamera" ) ;
}
public void llReleaseCamera ( string avatar )
{
m_host . AddScriptLPS ( 1 ) ;
Deprecated ( "llReleaseCamera" ) ;
}
public LSL_String llGetOwner ( )
{
m_host . AddScriptLPS ( 1 ) ;
return m_host . ObjectOwner . ToString ( ) ;
}
public void llInstantMessage ( string user , string message )
{
m_host . AddScriptLPS ( 1 ) ;
// We may be able to use ClientView.SendInstantMessage here, but we need a client instance.
// InstantMessageModule.OnInstantMessage searches through a list of scenes for a client matching the toAgent,
// but I don't think we have a list of scenes available from here.
// (We also don't want to duplicate the code in OnInstantMessage if we can avoid it.)
// user is a UUID
// TODO: figure out values for client, fromSession, and imSessionID
// client.SendInstantMessage(m_host.UUID, fromSession, message, user, imSessionID, m_host.Name, AgentManager.InstantMessageDialog.MessageFromAgent, (uint)Util.UnixTimeSinceEpoch());
UUID friendTransactionID = UUID . Random ( ) ;
//m_pendingFriendRequests.Add(friendTransactionID, fromAgentID);
GridInstantMessage msg = new GridInstantMessage ( ) ;
msg . fromAgentID = new Guid ( m_host . UUID . ToString ( ) ) ; // fromAgentID.Guid;
msg . fromAgentSession = new Guid ( friendTransactionID . ToString ( ) ) ; // fromAgentSession.UUID;
msg . toAgentID = new Guid ( user ) ; // toAgentID.Guid;
msg . imSessionID = new Guid ( friendTransactionID . ToString ( ) ) ; // This is the item we're mucking with here
// Console.WriteLine("[Scripting IM]: From:" + msg.fromAgentID.ToString() + " To: " + msg.toAgentID.ToString() + " Session:" + msg.imSessionID.ToString() + " Message:" + message);
// Console.WriteLine("[Scripting IM]: Filling Session: " + msg.imSessionID.ToString());
msg . timestamp = ( uint ) Util . UnixTimeSinceEpoch ( ) ; // timestamp;
//if (client != null)
//{
msg . fromAgentName = m_host . Name ; //client.FirstName + " " + client.LastName;// fromAgentName;
//}
//else
//{
// msg.fromAgentName = "(hippos)";// Added for posterity. This means that we can't figure out who sent it
//}
msg . message = message ;
msg . dialog = ( byte ) 19 ; // messgage from script ??? // dialog;
msg . fromGroup = false ; // fromGroup;
msg . offline = ( byte ) 0 ; //offline;
msg . ParentEstateID = 0 ; //ParentEstateID;
msg . Position = Vector3 . Zero ; // new Vector3(m_host.AbsolutePosition);
msg . RegionID = World . RegionInfo . RegionID . Guid ; //RegionID.Guid;
msg . binaryBucket = new byte [ 0 ] ; // binaryBucket;
World . TriggerGridInstantMessage ( msg , InstantMessageReceiver . IMModule ) ;
// ScriptSleep(2000);
}
public void llEmail ( string address , string subject , string message )
{
m_host . AddScriptLPS ( 1 ) ;
IEmailModule emailModule = m_ScriptEngine . World . RequestModuleInterface < IEmailModule > ( ) ;
if ( emailModule = = null )
return ;
emailModule . SendEmail ( m_host . UUID , address , subject , message ) ;
// ScriptSleep(20000);
}
public void llGetNextEmail ( string address , string subject )
{
m_host . AddScriptLPS ( 1 ) ;
IEmailModule emailModule = m_ScriptEngine . World . RequestModuleInterface < IEmailModule > ( ) ;
if ( emailModule = = null )
return ;
Email email ;
email = emailModule . GetNextEmail ( m_host . UUID , address , subject ) ;
if ( email = = null )
return ;
m_ScriptEngine . PostObjectEvent ( m_host . LocalId ,
new EventParams ( "email" ,
new Object [ ] {
new LSL_String ( email . time ) ,
new LSL_String ( email . sender ) ,
new LSL_String ( email . subject ) ,
new LSL_String ( email . message ) ,
new LSL_Integer ( email . numLeft ) } ,
new DetectParams [ 0 ] ) ) ;
}
public LSL_String llGetKey ( )
{
m_host . AddScriptLPS ( 1 ) ;
return m_host . UUID . ToString ( ) ;
}
public void llSetBuoyancy ( double buoyancy )
{
m_host . AddScriptLPS ( 1 ) ;
if ( m_host . ParentGroup ! = null )
{
if ( m_host . ParentGroup . RootPart ! = null )
{
m_host . ParentGroup . RootPart . SetBuoyancy ( ( float ) buoyancy ) ;
}
}
}
public void llSetHoverHeight ( double height , int water , double tau )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llSetHoverHeight" ) ;
}
public void llStopHover ( )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llStopHover" ) ;
}
public void llMinEventDelay ( double delay )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llMinEventDelay" ) ;
}
public void llSoundPreload ( )
{
m_host . AddScriptLPS ( 1 ) ;
Deprecated ( "llSoundPreload" ) ;
}
public void llRotLookAt ( LSL_Rotation target , double strength , double damping )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llRotLookAt" ) ;
}
public LSL_Integer llStringLength ( string str )
{
m_host . AddScriptLPS ( 1 ) ;
if ( str . Length > 0 )
{
return str . Length ;
}
else
{
return 0 ;
}
}
public void llStartAnimation ( string anim )
{
m_host . AddScriptLPS ( 1 ) ;
UUID invItemID = InventorySelf ( ) ;
if ( invItemID = = UUID . Zero )
return ;
if ( m_host . TaskInventory [ invItemID ] . PermsGranter = = UUID . Zero )
return ;
if ( ( m_host . TaskInventory [ invItemID ] . PermsMask & ScriptBaseClass . PERMISSION_TRIGGER_ANIMATION ) ! = 0 )
{
ScenePresence presence = World . GetScenePresence ( m_host . TaskInventory [ invItemID ] . PermsGranter ) ;
if ( presence ! = null )
{
// Do NOT try to parse UUID, animations cannot be triggered by ID
UUID animID = InventoryKey ( anim , ( int ) AssetType . Animation ) ;
if ( animID = = UUID . Zero )
presence . AddAnimation ( anim ) ;
else
presence . AddAnimation ( animID ) ;
}
}
}
public void llStopAnimation ( string anim )
{
m_host . AddScriptLPS ( 1 ) ;
UUID invItemID = InventorySelf ( ) ;
if ( invItemID = = UUID . Zero )
return ;
if ( m_host . TaskInventory [ invItemID ] . PermsGranter = = UUID . Zero )
return ;
if ( ( m_host . TaskInventory [ invItemID ] . PermsMask & ScriptBaseClass . PERMISSION_TRIGGER_ANIMATION ) ! = 0 )
{
UUID animID = new UUID ( ) ;
if ( ! UUID . TryParse ( anim , out animID ) )
{
animID = InventoryKey ( anim ) ;
}
ScenePresence presence = World . GetScenePresence ( m_host . TaskInventory [ invItemID ] . PermsGranter ) ;
if ( presence ! = null )
{
if ( animID = = UUID . Zero )
presence . RemoveAnimation ( anim ) ;
else
presence . RemoveAnimation ( animID ) ;
}
}
}
public void llPointAt ( )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llPointAt" ) ;
}
public void llStopPointAt ( )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llStopPointAt" ) ;
}
public void llTargetOmega ( LSL_Vector axis , double spinrate , double gain )
{
m_host . AddScriptLPS ( 1 ) ;
m_host . RotationalVelocity = new Vector3 ( ( float ) ( axis . x * spinrate ) , ( float ) ( axis . y * spinrate ) , ( float ) ( axis . z * spinrate ) ) ;
m_host . AngularVelocity = new Vector3 ( ( float ) ( axis . x * spinrate ) , ( float ) ( axis . y * spinrate ) , ( float ) ( axis . z * spinrate ) ) ;
m_host . ScheduleTerseUpdate ( ) ;
m_host . SendTerseUpdateToAllClients ( ) ;
m_host . ParentGroup . HasGroupChanged = true ;
}
public LSL_Integer llGetStartParameter ( )
{
m_host . AddScriptLPS ( 1 ) ;
return m_ScriptEngine . GetStartParameter ( m_itemID ) ;
}
public void llGodLikeRezObject ( string inventory , LSL_Vector pos )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llGodLikeRezObject" ) ;
}
public void llRequestPermissions ( string agent , int perm )
{
UUID agentID = new UUID ( ) ;
if ( ! UUID . TryParse ( agent , out agentID ) )
return ;
UUID invItemID = InventorySelf ( ) ;
if ( invItemID = = UUID . Zero )
return ; // Not in a prim? How??
if ( agentID = = UUID . Zero | | perm = = 0 ) // Releasing permissions
{
llReleaseControls ( ) ;
m_host . TaskInventory [ invItemID ] . PermsGranter = UUID . Zero ;
m_host . TaskInventory [ invItemID ] . PermsMask = 0 ;
m_ScriptEngine . PostScriptEvent ( m_itemID , new EventParams (
"run_time_permissions" , new Object [ ] {
new LSL_Integer ( 0 ) } ,
new DetectParams [ 0 ] ) ) ;
return ;
}
if ( m_host . TaskInventory [ invItemID ] . PermsGranter ! = agentID | | ( perm & ScriptBaseClass . PERMISSION_TAKE_CONTROLS ) = = 0 )
llReleaseControls ( ) ;
m_host . AddScriptLPS ( 1 ) ;
if ( m_host . ParentGroup . RootPart . IsAttachment & & agent = = m_host . ParentGroup . RootPart . AttachedAvatar )
{
// When attached, certain permissions are implicit if requested from owner
int implicitPerms = ScriptBaseClass . PERMISSION_TAKE_CONTROLS |
ScriptBaseClass . PERMISSION_TRIGGER_ANIMATION |
ScriptBaseClass . PERMISSION_CONTROL_CAMERA |
ScriptBaseClass . PERMISSION_ATTACH ;
if ( ( perm & ( ~ implicitPerms ) ) = = 0 ) // Requested only implicit perms
{
m_host . TaskInventory [ invItemID ] . PermsGranter = agentID ;
m_host . TaskInventory [ invItemID ] . PermsMask = perm ;
m_ScriptEngine . PostScriptEvent ( m_itemID , new EventParams (
"run_time_permissions" , new Object [ ] {
new LSL_Integer ( perm ) } ,
new DetectParams [ 0 ] ) ) ;
return ;
}
}
else if ( m_host . SitTargetAvatar = = agentID ) // Sitting avatar
{
// When agent is sitting, certain permissions are implicit if requested from sitting agent
int implicitPerms = ScriptBaseClass . PERMISSION_TRIGGER_ANIMATION |
ScriptBaseClass . PERMISSION_CONTROL_CAMERA |
ScriptBaseClass . PERMISSION_TRACK_CAMERA ;
if ( ( perm & ( ~ implicitPerms ) ) = = 0 ) // Requested only implicit perms
{
m_host . TaskInventory [ invItemID ] . PermsGranter = agentID ;
m_host . TaskInventory [ invItemID ] . PermsMask = perm ;
m_ScriptEngine . PostScriptEvent ( m_itemID , new EventParams (
"run_time_permissions" , new Object [ ] {
new LSL_Integer ( perm ) } ,
new DetectParams [ 0 ] ) ) ;
return ;
}
}
ScenePresence presence = World . GetScenePresence ( agentID ) ;
if ( presence ! = null )
{
string ownerName = resolveName ( m_host . ParentGroup . RootPart . OwnerID ) ;
if ( ownerName = = String . Empty )
ownerName = "(hippos)" ;
if ( ! m_waitingForScriptAnswer )
{
m_host . TaskInventory [ invItemID ] . PermsGranter = agentID ;
m_host . TaskInventory [ invItemID ] . PermsMask = 0 ;
presence . ControllingClient . OnScriptAnswer + = handleScriptAnswer ;
m_waitingForScriptAnswer = true ;
}
presence . ControllingClient . SendScriptQuestion ( m_host . UUID , m_host . ParentGroup . RootPart . Name , ownerName , invItemID , perm ) ;
return ;
}
// Requested agent is not in range, refuse perms
m_ScriptEngine . PostScriptEvent ( m_itemID , new EventParams (
"run_time_permissions" , new Object [ ] {
new LSL_Integer ( 0 ) } ,
new DetectParams [ 0 ] ) ) ;
}
void handleScriptAnswer ( IClientAPI client , UUID taskID , UUID itemID , int answer )
{
if ( taskID ! = m_host . UUID )
return ;
UUID invItemID = InventorySelf ( ) ;
if ( invItemID = = UUID . Zero )
return ;
client . OnScriptAnswer - = handleScriptAnswer ;
m_waitingForScriptAnswer = false ;
if ( ( answer & ScriptBaseClass . PERMISSION_TAKE_CONTROLS ) = = 0 )
llReleaseControls ( ) ;
m_host . TaskInventory [ invItemID ] . PermsMask = answer ;
m_ScriptEngine . PostScriptEvent ( m_itemID , new EventParams (
"run_time_permissions" , new Object [ ] {
new LSL_Integer ( answer ) } ,
new DetectParams [ 0 ] ) ) ;
}
public LSL_String llGetPermissionsKey ( )
{
m_host . AddScriptLPS ( 1 ) ;
foreach ( TaskInventoryItem item in m_host . TaskInventory . Values )
{
if ( item . Type = = 10 & & item . ItemID = = m_itemID )
{
return item . PermsGranter . ToString ( ) ;
}
}
return UUID . Zero . ToString ( ) ;
}
public LSL_Integer llGetPermissions ( )
{
m_host . AddScriptLPS ( 1 ) ;
foreach ( TaskInventoryItem item in m_host . TaskInventory . Values )
{
if ( item . Type = = 10 & & item . ItemID = = m_itemID )
{
return item . PermsMask ;
}
}
return 0 ;
}
public LSL_Integer llGetLinkNumber ( )
{
m_host . AddScriptLPS ( 1 ) ;
if ( m_host . ParentGroup . Children . Count > 1 )
{
return m_host . LinkNum ;
}
else
{
return 0 ;
}
}
public void llSetLinkColor ( int linknumber , LSL_Vector color , int face )
{
List < SceneObjectPart > parts = GetLinkParts ( linknumber ) ;
foreach ( SceneObjectPart part in parts )
SetColor ( part , color , face ) ;
}
public void llCreateLink ( string target , int parent )
{
m_host . AddScriptLPS ( 1 ) ;
UUID invItemID = InventorySelf ( ) ;
if ( ( m_host . TaskInventory [ invItemID ] . PermsMask & ScriptBaseClass . PERMISSION_CHANGE_LINKS ) = = 0 ) {
ShoutError ( "Script trying to link but PERMISSION_CHANGE_LINKS permission not set!" ) ;
return ;
}
IClientAPI client = World . GetScenePresence ( m_host . TaskInventory [ invItemID ] . PermsGranter ) . ControllingClient ;
SceneObjectPart targetPart = World . GetSceneObjectPart ( target ) ;
SceneObjectGroup parentPrim = null , childPrim = null ;
if ( targetPart ! = null )
{
if ( parent ! = 0 ) {
parentPrim = m_host . ParentGroup ;
childPrim = targetPart . ParentGroup ;
}
else
{
parentPrim = targetPart . ParentGroup ;
childPrim = m_host . ParentGroup ;
}
// byte uf = childPrim.RootPart.UpdateFlag;
childPrim . RootPart . UpdateFlag = 0 ;
parentPrim . LinkToGroup ( childPrim ) ;
// if (uf != (Byte)0)
// parent.RootPart.UpdateFlag = uf;
}
parentPrim . TriggerScriptChangedEvent ( Changed . LINK ) ;
parentPrim . RootPart . AddFlag ( PrimFlags . CreateSelected ) ;
parentPrim . HasGroupChanged = true ;
parentPrim . ScheduleGroupForFullUpdate ( ) ;
parentPrim . GetProperties ( client ) ;
ScriptSleep ( 1000 ) ;
}
public void llBreakLink ( int linknum )
{
m_host . AddScriptLPS ( 1 ) ;
UUID invItemID = InventorySelf ( ) ;
if ( ( m_host . TaskInventory [ invItemID ] . PermsMask & ScriptBaseClass . PERMISSION_CHANGE_LINKS ) = = 0 )
{
ShoutError ( "Script trying to link but PERMISSION_CHANGE_LINKS permission not set!" ) ;
return ;
}
if ( linknum < ScriptBaseClass . LINK_THIS )
return ;
SceneObjectGroup parentPrim = m_host . ParentGroup ;
SceneObjectPart childPrim = null ;
switch ( linknum )
{
case ScriptBaseClass . LINK_ROOT :
break ;
case ScriptBaseClass . LINK_SET :
case ScriptBaseClass . LINK_ALL_OTHERS :
case ScriptBaseClass . LINK_ALL_CHILDREN :
case ScriptBaseClass . LINK_THIS :
foreach ( SceneObjectPart part in parentPrim . Children . Values )
{
if ( part . UUID ! = m_host . UUID )
{
childPrim = part ;
break ;
}
}
break ;
default :
childPrim = parentPrim . GetLinkNumPart ( linknum ) ;
if ( childPrim . UUID = = m_host . UUID )
childPrim = null ;
break ;
}
if ( linknum = = ScriptBaseClass . LINK_ROOT )
{
// Restructuring Multiple Prims.
List < SceneObjectPart > parts = new List < SceneObjectPart > ( parentPrim . Children . Values ) ;
parts . Remove ( parentPrim . RootPart ) ;
foreach ( SceneObjectPart part in parts )
{
parentPrim . DelinkFromGroup ( part . LocalId , true ) ;
}
parentPrim . TriggerScriptChangedEvent ( Changed . LINK ) ;
if ( parts . Count > 0 ) {
SceneObjectPart newRoot = parts [ 0 ] ;
parts . Remove ( newRoot ) ;
foreach ( SceneObjectPart part in parts )
{
part . UpdateFlag = 0 ;
newRoot . ParentGroup . LinkToGroup ( part . ParentGroup ) ;
}
}
}
else
{
if ( childPrim = = null )
return ;
parentPrim . DelinkFromGroup ( childPrim . LocalId , true ) ;
parentPrim . TriggerScriptChangedEvent ( Changed . LINK ) ;
}
}
public void llBreakAllLinks ( )
{
m_host . AddScriptLPS ( 1 ) ;
SceneObjectGroup parentPrim = m_host . ParentGroup ;
List < SceneObjectPart > parts = new List < SceneObjectPart > ( parentPrim . Children . Values ) ;
parts . Remove ( parentPrim . RootPart ) ;
foreach ( SceneObjectPart part in parts )
{
parentPrim . DelinkFromGroup ( part . LocalId , true ) ;
parentPrim . TriggerScriptChangedEvent ( Changed . LINK ) ;
}
}
public LSL_String llGetLinkKey ( int linknum )
{
m_host . AddScriptLPS ( 1 ) ;
SceneObjectPart part = m_host . ParentGroup . GetLinkNumPart ( linknum ) ;
if ( part ! = null )
{
return part . UUID . ToString ( ) ;
}
else
{
return UUID . Zero . ToString ( ) ;
}
}
public LSL_String llGetLinkName ( int linknum )
{
m_host . AddScriptLPS ( 1 ) ;
SceneObjectPart part = m_host . ParentGroup . GetLinkNumPart ( linknum ) ;
if ( part ! = null )
{
return part . Name ;
}
else
{
return "" ;
}
}
public LSL_Integer llGetInventoryNumber ( int type )
{
m_host . AddScriptLPS ( 1 ) ;
int count = 0 ;
foreach ( KeyValuePair < UUID , TaskInventoryItem > inv in m_host . TaskInventory )
{
if ( inv . Value . Type = = type | | type = = - 1 )
{
count = count + 1 ;
}
}
return count ;
}
public LSL_String llGetInventoryName ( int type , int number )
{
m_host . AddScriptLPS ( 1 ) ;
ArrayList keys = new ArrayList ( ) ;
foreach ( KeyValuePair < UUID , TaskInventoryItem > inv in m_host . TaskInventory )
{
if ( inv . Value . Type = = type | | type = = - 1 )
{
keys . Add ( inv . Value . Name ) ;
}
}
if ( keys . Count = = 0 )
{
return String . Empty ;
}
keys . Sort ( ) ;
if ( keys . Count > number )
{
return ( string ) keys [ number ] ;
}
return String . Empty ;
}
public LSL_Float llGetEnergy ( )
{
m_host . AddScriptLPS ( 1 ) ;
// TODO: figure out real energy value
return 1.0f ;
}
public void llGiveInventory ( string destination , string inventory )
{
m_host . AddScriptLPS ( 1 ) ;
bool found = false ;
UUID destId = UUID . Zero ;
UUID objId = UUID . Zero ;
if ( ! UUID . TryParse ( destination , out destId ) )
{
llSay ( 0 , "Could not parse key " + destination ) ;
return ;
}
// move the first object found with this inventory name
foreach ( KeyValuePair < UUID , TaskInventoryItem > inv in m_host . TaskInventory )
{
if ( inv . Value . Name = = inventory )
{
found = true ;
objId = inv . Key ;
break ;
}
}
if ( ! found )
{
llSay ( 0 , String . Format ( "Could not find object '{0}'" , inventory ) ) ;
throw new Exception ( String . Format ( "The inventory object '{0}' could not be found" , inventory ) ) ;
}
// check if destination is an avatar
if ( World . GetScenePresence ( destId ) ! = null )
{
// destination is an avatar
World . MoveTaskInventoryItem ( destId , null , m_host , objId ) ;
}
else
{
// destination is an object
World . MoveTaskInventoryItem ( destId , m_host , objId ) ;
}
// ScriptSleep(3000);
}
public void llRemoveInventory ( string name )
{
m_host . AddScriptLPS ( 1 ) ;
foreach ( TaskInventoryItem item in m_host . TaskInventory . Values )
{
if ( item . Name = = name )
{
m_host . RemoveInventoryItem ( item . ItemID ) ;
return ;
}
}
}
public void llSetText ( string text , LSL_Vector color , double alpha )
{
m_host . AddScriptLPS ( 1 ) ;
Vector3 av3 = new Vector3 ( Util . Clip ( ( float ) color . x , 0.0f , 1.0f ) ,
Util . Clip ( ( float ) color . y , 0.0f , 1.0f ) ,
Util . Clip ( ( float ) color . z , 0.0f , 1.0f ) ) ;
m_host . SetText ( text , av3 , Util . Clip ( ( float ) alpha , 0.0f , 1.0f ) ) ;
m_host . ParentGroup . HasGroupChanged = true ;
}
public LSL_Float llWater ( LSL_Vector offset )
{
m_host . AddScriptLPS ( 1 ) ;
return World . RegionInfo . RegionSettings . WaterHeight ;
}
public void llPassTouches ( int pass )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llPassTouches" ) ;
}
public LSL_String llRequestAgentData ( string id , int data )
{
m_host . AddScriptLPS ( 1 ) ;
UserProfileData userProfile =
World . CommsManager . UserService . GetUserProfile ( id ) ;
UserAgentData userAgent =
World . CommsManager . UserService . GetAgentByUUID ( id ) ;
if ( userProfile = = null | | userAgent = = null )
return UUID . Zero . ToString ( ) ;
string reply = String . Empty ;
switch ( data )
{
case 1 : // DATA_ONLINE (0|1)
// TODO: implement fetching of this information
if ( userProfile . CurrentAgent . AgentOnline )
reply = "1" ;
else
reply = "0" ;
break ;
case 2 : // DATA_NAME (First Last)
reply = userProfile . FirstName + " " + userProfile . SurName ;
break ;
case 3 : // DATA_BORN (YYYY-MM-DD)
DateTime born = new DateTime ( 1970 , 1 , 1 , 0 , 0 , 0 , 0 ) ;
born = born . AddSeconds ( userProfile . Created ) ;
reply = born . ToString ( "yyyy-MM-dd" ) ;
break ;
case 4 : // DATA_RATING (0,0,0,0,0,0)
reply = "0,0,0,0,0,0" ;
break ;
case 8 : // DATA_PAYINFO (0|1|2|3)
reply = "0" ;
break ;
default :
return UUID . Zero . ToString ( ) ; // Raise no event
}
UUID rq = UUID . Random ( ) ;
UUID tid = AsyncCommands .
DataserverPlugin . RegisterRequest ( m_localID ,
m_itemID , rq . ToString ( ) ) ;
AsyncCommands .
DataserverPlugin . DataserverReply ( rq . ToString ( ) , reply ) ;
// ScriptSleep(100);
return tid . ToString ( ) ;
}
public LSL_String llRequestInventoryData ( string name )
{
m_host . AddScriptLPS ( 1 ) ;
foreach ( TaskInventoryItem item in m_host . TaskInventory . Values )
{
if ( item . Type = = 3 & & item . Name = = name )
{
UUID tid = AsyncCommands .
DataserverPlugin . RegisterRequest ( m_localID ,
m_itemID , item . AssetID . ToString ( ) ) ;
Vector3 region = new Vector3 (
World . RegionInfo . RegionLocX * Constants . RegionSize ,
World . RegionInfo . RegionLocY * Constants . RegionSize ,
0 ) ;
World . AssetCache . GetAsset ( item . AssetID ,
delegate ( UUID i , AssetBase a )
{
AssetLandmark lm = new AssetLandmark ( a ) ;
float rx = ( uint ) ( lm . RegionHandle > > 32 ) ;
float ry = ( uint ) lm . RegionHandle ;
region = lm . Position + new Vector3 ( rx , ry , 0 ) - region ;
string reply = region . ToString ( ) ;
AsyncCommands .
DataserverPlugin . DataserverReply ( i . ToString ( ) ,
reply ) ;
} , false ) ;
// ScriptSleep(1000);
return tid . ToString ( ) ;
}
}
// ScriptSleep(1000);
return String . Empty ;
}
public void llSetDamage ( double damage )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llSetDamage" ) ;
}
public void llTeleportAgentHome ( string agent )
{
m_host . AddScriptLPS ( 1 ) ;
UUID agentId = new UUID ( ) ;
if ( UUID . TryParse ( agent , out agentId ) )
{
ScenePresence presence = World . GetScenePresence ( agentId ) ;
if ( presence ! = null )
{
// agent must be over the owners land
if ( m_host . OwnerID = = World . GetLandOwner ( presence . AbsolutePosition . X , presence . AbsolutePosition . Y ) )
World . TeleportClientHome ( agentId , presence . ControllingClient ) ;
}
}
// ScriptSleep(5000);
}
public void llTextBox ( string avatar , string message , int chat_channel )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llTextBox" ) ;
}
public void llModifyLand ( int action , int brush )
{
m_host . AddScriptLPS ( 1 ) ;
World . ExternalChecks . ExternalChecksCanTerraformLand ( m_host . OwnerID , new Vector3 ( m_host . AbsolutePosition . X , m_host . AbsolutePosition . Y , 0 ) ) ;
}
public void llCollisionSound ( string impact_sound , double impact_volume )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llCollisionSound" ) ;
}
public void llCollisionSprite ( string impact_sprite )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llCollisionSprite" ) ;
}
public LSL_String llGetAnimation ( string id )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llGetAnimation" ) ;
return String . Empty ;
}
public void llMessageLinked ( int linknum , int num , string msg , string id )
{
m_host . AddScriptLPS ( 1 ) ;
// uint partLocalID;
UUID partItemID ;
switch ( ( int ) linknum )
{
case ( int ) ScriptBaseClass . LINK_ROOT :
SceneObjectPart part = m_host . ParentGroup . RootPart ;
foreach ( TaskInventoryItem item in part . TaskInventory . Values )
{
if ( item . Type = = 10 )
{
// partLocalID = part.LocalId;
partItemID = item . ItemID ;
object [ ] resobj = new object [ ]
{
new LSL_Integer ( m_host . LinkNum ) , new LSL_Integer ( num ) , new LSL_String ( msg ) , new LSL_String ( id )
} ;
m_ScriptEngine . PostScriptEvent ( partItemID ,
new EventParams ( "link_message" ,
resobj , new DetectParams [ 0 ] ) ) ;
}
}
break ;
case ( int ) ScriptBaseClass . LINK_SET :
foreach ( SceneObjectPart partInst in m_host . ParentGroup . GetParts ( ) )
{
foreach ( TaskInventoryItem item in partInst . TaskInventory . Values )
{
if ( item . Type = = 10 )
{
// partLocalID = partInst.LocalId;
partItemID = item . ItemID ;
Object [ ] resobj = new object [ ]
{
new LSL_Integer ( m_host . LinkNum ) , new LSL_Integer ( num ) , new LSL_String ( msg ) , new LSL_String ( id )
} ;
m_ScriptEngine . PostScriptEvent ( partItemID ,
new EventParams ( "link_message" ,
resobj , new DetectParams [ 0 ] ) ) ;
}
}
}
break ;
case ( int ) ScriptBaseClass . LINK_ALL_OTHERS :
foreach ( SceneObjectPart partInst in m_host . ParentGroup . GetParts ( ) )
{
if ( partInst . LocalId ! = m_host . LocalId )
{
foreach ( TaskInventoryItem item in partInst . TaskInventory . Values )
{
if ( item . Type = = 10 )
{
// partLocalID = partInst.LocalId;
partItemID = item . ItemID ;
Object [ ] resobj = new object [ ]
{
new LSL_Integer ( m_host . LinkNum ) , new LSL_Integer ( num ) , new LSL_String ( msg ) , new LSL_String ( id )
} ;
m_ScriptEngine . PostScriptEvent ( partItemID ,
new EventParams ( "link_message" ,
resobj , new DetectParams [ 0 ] ) ) ;
}
}
}
}
break ;
case ( int ) ScriptBaseClass . LINK_ALL_CHILDREN :
foreach ( SceneObjectPart partInst in m_host . ParentGroup . GetParts ( ) )
{
if ( partInst . LocalId ! = m_host . ParentGroup . RootPart . LocalId )
{
foreach ( TaskInventoryItem item in partInst . TaskInventory . Values )
{
if ( item . Type = = 10 )
{
// partLocalID = partInst.LocalId;
partItemID = item . ItemID ;
Object [ ] resobj = new object [ ]
{
new LSL_Integer ( m_host . LinkNum ) , new LSL_Integer ( num ) , new LSL_String ( msg ) , new LSL_String ( id )
} ;
m_ScriptEngine . PostScriptEvent ( partItemID ,
new EventParams ( "link_message" ,
resobj , new DetectParams [ 0 ] ) ) ;
}
}
}
}
break ;
case ( int ) ScriptBaseClass . LINK_THIS :
foreach ( TaskInventoryItem item in m_host . TaskInventory . Values )
{
if ( item . Type = = 10 )
{
partItemID = item . ItemID ;
object [ ] resobj = new object [ ]
{
new LSL_Integer ( m_host . LinkNum ) , new LSL_Integer ( num ) , new LSL_String ( msg ) , new LSL_String ( id )
} ;
m_ScriptEngine . PostScriptEvent ( partItemID ,
new EventParams ( "link_message" ,
resobj , new DetectParams [ 0 ] ) ) ;
}
}
break ;
default :
foreach ( SceneObjectPart partInst in m_host . ParentGroup . GetParts ( ) )
{
if ( ( partInst . LinkNum ) = = linknum )
{
foreach ( TaskInventoryItem item in partInst . TaskInventory . Values )
{
if ( item . Type = = 10 )
{
// partLocalID = partInst.LocalId;
partItemID = item . ItemID ;
Object [ ] resObjDef = new object [ ]
{
new LSL_Integer ( m_host . LinkNum ) , new LSL_Integer ( num ) , new LSL_String ( msg ) , new LSL_String ( id )
} ;
m_ScriptEngine . PostScriptEvent ( partItemID ,
new EventParams ( "link_message" ,
resObjDef , new DetectParams [ 0 ] ) ) ;
}
}
}
}
break ;
}
}
public void llPushObject ( string target , LSL_Vector impulse , LSL_Vector ang_impulse , int local )
{
m_host . AddScriptLPS ( 1 ) ;
SceneObjectPart targ = World . GetSceneObjectPart ( target ) ;
if ( targ = = null )
return ;
targ . ApplyImpulse ( new Vector3 ( ( float ) impulse . x , ( float ) impulse . y , ( float ) impulse . z ) , local ! = 0 ) ;
}
public void llPassCollisions ( int pass )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llPassCollisions" ) ;
}
public LSL_String llGetScriptName ( )
{
string result = String . Empty ;
m_host . AddScriptLPS ( 1 ) ;
foreach ( TaskInventoryItem item in m_host . TaskInventory . Values )
{
if ( item . Type = = 10 & & item . ItemID = = m_itemID )
{
result = item . Name ! = null ? item . Name : String . Empty ;
break ;
}
}
return result ;
}
// this function to understand which shape it is (taken from meshmerizer)
// quite useful can be used by meshmerizer to have a centralized point of understanding the shape
// except that it refers to scripting constants
private int getScriptPrimType ( PrimitiveBaseShape primShape )
{
if ( primShape . SculptEntry )
return ScriptBaseClass . PRIM_TYPE_SCULPT ;
if ( ( primShape . ProfileCurve & 0x07 ) = = ( byte ) ProfileShape . Square )
{
if ( primShape . PathCurve = = ( byte ) Extrusion . Straight )
return ScriptBaseClass . PRIM_TYPE_BOX ;
else if ( primShape . PathCurve = = ( byte ) Extrusion . Curve1 )
return ScriptBaseClass . PRIM_TYPE_TUBE ;
}
else if ( ( primShape . ProfileCurve & 0x07 ) = = ( byte ) ProfileShape . Circle )
{
if ( primShape . PathCurve = = ( byte ) Extrusion . Straight )
return ScriptBaseClass . PRIM_TYPE_CYLINDER ;
// ProfileCurve seems to combine hole shape and profile curve so we need to only compare against the lower 3 bits
else if ( primShape . PathCurve = = ( byte ) Extrusion . Curve1 )
return ScriptBaseClass . PRIM_TYPE_TORUS ;
}
else if ( ( primShape . ProfileCurve & 0x07 ) = = ( byte ) ProfileShape . HalfCircle )
{
if ( primShape . PathCurve = = ( byte ) Extrusion . Curve1 | | primShape . PathCurve = = ( byte ) Extrusion . Curve2 )
return ScriptBaseClass . PRIM_TYPE_SPHERE ;
}
else if ( ( primShape . ProfileCurve & 0x07 ) = = ( byte ) ProfileShape . EquilateralTriangle )
{
if ( primShape . PathCurve = = ( byte ) Extrusion . Straight )
return ScriptBaseClass . PRIM_TYPE_PRISM ;
else if ( primShape . PathCurve = = ( byte ) Extrusion . Curve1 )
return ScriptBaseClass . PRIM_TYPE_RING ;
}
return ScriptBaseClass . PRIM_TYPE_BOX ;
}
// Helper functions to understand if object has cut, hollow, dimple, and other affecting number of faces
private void hasCutHollowDimpleProfileCut ( int primType , PrimitiveBaseShape shape , out bool hasCut , out bool hasHollow ,
out bool hasDimple , out bool hasProfileCut )
{
if ( primType = = ScriptBaseClass . PRIM_TYPE_BOX
| |
primType = = ScriptBaseClass . PRIM_TYPE_CYLINDER
| |
primType = = ScriptBaseClass . PRIM_TYPE_PRISM )
hasCut = ( shape . ProfileBegin > 0 ) | | ( shape . ProfileEnd > 0 ) ;
else
hasCut = ( shape . PathBegin > 0 ) | | ( shape . PathEnd > 0 ) ;
hasHollow = shape . ProfileHollow > 0 ;
hasDimple = ( shape . ProfileBegin > 0 ) | | ( shape . ProfileEnd > 0 ) ; // taken from llSetPrimitiveParms
hasProfileCut = hasDimple ; // is it the same thing?
}
public LSL_Integer llGetNumberOfSides ( )
{
m_host . AddScriptLPS ( 1 ) ;
return GetNumberOfSides ( m_host ) ;
}
private int GetNumberOfSides ( SceneObjectPart part )
{
int ret = 0 ;
bool hasCut ;
bool hasHollow ;
bool hasDimple ;
bool hasProfileCut ;
int primType = getScriptPrimType ( part . Shape ) ;
hasCutHollowDimpleProfileCut ( primType , part . Shape , out hasCut , out hasHollow , out hasDimple , out hasProfileCut ) ;
switch ( primType )
{
case ScriptBaseClass . PRIM_TYPE_BOX :
ret = 6 ;
if ( hasCut ) ret + = 2 ;
if ( hasHollow ) ret + = 1 ;
break ;
case ScriptBaseClass . PRIM_TYPE_CYLINDER :
ret = 3 ;
if ( hasCut ) ret + = 2 ;
if ( hasHollow ) ret + = 1 ;
break ;
case ScriptBaseClass . PRIM_TYPE_PRISM :
ret = 5 ;
if ( hasCut ) ret + = 2 ;
if ( hasHollow ) ret + = 1 ;
break ;
case ScriptBaseClass . PRIM_TYPE_SPHERE :
ret = 1 ;
if ( hasCut ) ret + = 2 ;
if ( hasDimple ) ret + = 2 ;
if ( hasHollow ) ret + = 3 ; // Emulate lsl on secondlife (according to documentation it should have added only +1)
break ;
case ScriptBaseClass . PRIM_TYPE_TORUS :
ret = 1 ;
if ( hasCut ) ret + = 2 ;
if ( hasProfileCut ) ret + = 2 ;
if ( hasHollow ) ret + = 1 ;
break ;
case ScriptBaseClass . PRIM_TYPE_TUBE :
ret = 4 ;
if ( hasCut ) ret + = 2 ;
if ( hasProfileCut ) ret + = 2 ;
if ( hasHollow ) ret + = 1 ;
break ;
case ScriptBaseClass . PRIM_TYPE_RING :
ret = 3 ;
if ( hasCut ) ret + = 2 ;
if ( hasProfileCut ) ret + = 2 ;
if ( hasHollow ) ret + = 1 ;
break ;
case ScriptBaseClass . PRIM_TYPE_SCULPT :
ret = 1 ;
break ;
}
return ret ;
}
/ * The new / changed functions were tested with the following LSL script :
default
{
state_entry ( )
{
rotation rot = llEuler2Rot ( < 0 , 70 , 0 > * DEG_TO_RAD ) ;
llOwnerSay ( "to get here, we rotate over: " + ( string ) llRot2Axis ( rot ) ) ;
llOwnerSay ( "and we rotate for: " + ( llRot2Angle ( rot ) * RAD_TO_DEG ) ) ;
// convert back and forth between quaternion <-> vector and angle
rotation newrot = llAxisAngle2Rot ( llRot2Axis ( rot ) , llRot2Angle ( rot ) ) ;
llOwnerSay ( "Old rotation was: " + ( string ) rot ) ;
llOwnerSay ( "re-converted rotation is: " + ( string ) newrot ) ;
llSetRot ( rot ) ; // to check the parameters in the prim
}
}
* /
// Xantor 29/apr/2008
// Returns rotation described by rotating angle radians about axis.
// q = cos(a/2) + i (x * sin(a/2)) + j (y * sin(a/2)) + k (z * sin(a/2))
public LSL_Rotation llAxisAngle2Rot ( LSL_Vector axis , double angle )
{
m_host . AddScriptLPS ( 1 ) ;
double x , y , z , s , t ;
s = Math . Cos ( angle / 2 ) ;
t = Math . Sin ( angle / 2 ) ; // temp value to avoid 2 more sin() calcs
x = axis . x * t ;
y = axis . y * t ;
z = axis . z * t ;
return new LSL_Rotation ( x , y , z , s ) ;
}
// Xantor 29/apr/2008
// converts a Quaternion to X,Y,Z axis rotations
public LSL_Vector llRot2Axis ( LSL_Rotation rot )
{
m_host . AddScriptLPS ( 1 ) ;
double x , y , z ;
if ( rot . s > 1 ) // normalization needed
{
double length = Math . Sqrt ( rot . x * rot . x + rot . y * rot . y +
rot . z * rot . z + rot . s * rot . s ) ;
rot . x / = length ;
rot . y / = length ;
rot . z / = length ;
rot . s / = length ;
}
// double angle = 2 * Math.Acos(rot.s);
double s = Math . Sqrt ( 1 - rot . s * rot . s ) ;
if ( s < 0.001 )
{
x = 1 ;
y = z = 0 ;
}
else
{
x = rot . x / s ; // normalise axis
y = rot . y / s ;
z = rot . z / s ;
}
return new LSL_Vector ( x , y , z ) ;
}
// Returns the angle of a quaternion (see llRot2Axis for the axis)
public LSL_Float llRot2Angle ( LSL_Rotation rot )
{
m_host . AddScriptLPS ( 1 ) ;
if ( rot . s > 1 ) // normalization needed
{
double length = Math . Sqrt ( rot . x * rot . x + rot . y * rot . y +
rot . z * rot . z + rot . s * rot . s ) ;
rot . x / = length ;
rot . y / = length ;
rot . z / = length ;
rot . s / = length ;
}
double angle = 2 * Math . Acos ( rot . s ) ;
return angle ;
}
public LSL_Float llAcos ( double val )
{
m_host . AddScriptLPS ( 1 ) ;
return ( double ) Math . Acos ( val ) ;
}
public LSL_Float llAsin ( double val )
{
m_host . AddScriptLPS ( 1 ) ;
return ( double ) Math . Asin ( val ) ;
}
// Xantor 30/apr/2008
public LSL_Float llAngleBetween ( LSL_Rotation a , LSL_Rotation b )
{
m_host . AddScriptLPS ( 1 ) ;
return ( double ) Math . Acos ( a . x * b . x + a . y * b . y + a . z * b . z + a . s * b . s ) * 2 ;
}
public LSL_String llGetInventoryKey ( string name )
{
m_host . AddScriptLPS ( 1 ) ;
foreach ( KeyValuePair < UUID , TaskInventoryItem > inv in m_host . TaskInventory )
{
if ( inv . Value . Name = = name )
{
if ( ( inv . Value . CurrentPermissions & ( uint ) ( PermissionMask . Copy | PermissionMask . Transfer | PermissionMask . Modify ) ) = = ( uint ) ( PermissionMask . Copy | PermissionMask . Transfer | PermissionMask . Modify ) )
{
return inv . Value . AssetID . ToString ( ) ;
}
else
{
return UUID . Zero . ToString ( ) ;
}
}
}
return UUID . Zero . ToString ( ) ;
}
public void llAllowInventoryDrop ( int add )
{
m_host . AddScriptLPS ( 1 ) ;
if ( add ! = 0 )
m_host . ParentGroup . RootPart . AllowedDrop = true ;
else
m_host . ParentGroup . RootPart . AllowedDrop = false ;
}
public LSL_Vector llGetSunDirection ( )
{
m_host . AddScriptLPS ( 1 ) ;
LSL_Vector SunDoubleVector3 ;
Vector3 SunFloatVector3 ;
// sunPosition estate setting is set in OpenSim.Region.Environment.Modules.SunModule
// have to convert from Vector3 (float) to LSL_Vector (double)
SunFloatVector3 = World . RegionInfo . RegionSettings . SunVector ;
SunDoubleVector3 . x = ( double ) SunFloatVector3 . X ;
SunDoubleVector3 . y = ( double ) SunFloatVector3 . Y ;
SunDoubleVector3 . z = ( double ) SunFloatVector3 . Z ;
return SunDoubleVector3 ;
}
public LSL_Vector llGetTextureOffset ( int face )
{
m_host . AddScriptLPS ( 1 ) ;
return GetTextureOffset ( m_host , face ) ;
}
private LSL_Vector GetTextureOffset ( SceneObjectPart part , int face )
{
Primitive . TextureEntry tex = part . Shape . Textures ;
LSL_Vector offset = new LSL_Vector ( ) ;
if ( face = = ScriptBaseClass . ALL_SIDES )
{
face = 0 ;
}
if ( face > = 0 & & face < GetNumberOfSides ( part ) )
{
offset . x = tex . GetFace ( ( uint ) face ) . OffsetU ;
offset . y = tex . GetFace ( ( uint ) face ) . OffsetV ;
offset . z = 0.0 ;
return offset ;
}
else
{
return offset ;
}
}
public LSL_Vector llGetTextureScale ( int side )
{
m_host . AddScriptLPS ( 1 ) ;
Primitive . TextureEntry tex = m_host . Shape . Textures ;
LSL_Vector scale ;
if ( side = = - 1 )
{
side = 0 ;
}
scale . x = tex . GetFace ( ( uint ) side ) . RepeatU ;
scale . y = tex . GetFace ( ( uint ) side ) . RepeatV ;
scale . z = 0.0 ;
return scale ;
}
public LSL_Float llGetTextureRot ( int face )
{
m_host . AddScriptLPS ( 1 ) ;
return GetTextureRot ( m_host , face ) ;
}
private LSL_Float GetTextureRot ( SceneObjectPart part , int face )
{
Primitive . TextureEntry tex = part . Shape . Textures ;
if ( face = = - 1 )
{
face = 0 ;
}
if ( face > = 0 & & face < GetNumberOfSides ( part ) )
{
return tex . GetFace ( ( uint ) face ) . Rotation ;
}
else
{
return 0.0 ;
}
}
public LSL_Integer llSubStringIndex ( string source , string pattern )
{
m_host . AddScriptLPS ( 1 ) ;
return source . IndexOf ( pattern ) ;
}
public LSL_String llGetOwnerKey ( string id )
{
m_host . AddScriptLPS ( 1 ) ;
UUID key = new UUID ( ) ;
if ( UUID . TryParse ( id , out key ) )
{
try
{
SceneObjectPart obj = World . GetSceneObjectPart ( World . Entities [ key ] . LocalId ) ;
if ( obj = = null )
return id ; // the key is for an agent so just return the key
else
return obj . OwnerID . ToString ( ) ;
}
catch ( KeyNotFoundException )
{
return id ; // The Object/Agent not in the region so just return the key
}
}
else
{
return UUID . Zero . ToString ( ) ;
}
}
public LSL_Vector llGetCenterOfMass ( )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llGetCenterOfMass" ) ;
return new LSL_Vector ( ) ;
}
public LSL_List llListSort ( LSL_List src , int stride , int ascending )
{
m_host . AddScriptLPS ( 1 ) ;
if ( stride < = 0 )
{
stride = 1 ;
}
return src . Sort ( stride , ascending ) ;
}
public LSL_Integer llGetListLength ( LSL_List src )
{
m_host . AddScriptLPS ( 1 ) ;
if ( src = = null )
{
return 0 ;
}
else
{
return src . Length ;
}
}
public LSL_Integer llList2Integer ( LSL_List src , int index )
{
m_host . AddScriptLPS ( 1 ) ;
if ( index < 0 )
{
index = src . Length + index ;
}
if ( index > = src . Length )
{
return 0 ;
}
try
{
if ( src . Data [ index ] is LSL_Integer )
return Convert . ToInt32 ( ( ( LSL_Integer ) src . Data [ index ] ) . value ) ;
else if ( src . Data [ index ] is LSL_Float )
return Convert . ToInt32 ( ( ( LSL_Float ) src . Data [ index ] ) . value ) ;
else if ( src . Data [ index ] is LSL_String )
return Convert . ToInt32 ( ( ( LSL_String ) src . Data [ index ] ) . m_string ) ;
return Convert . ToInt32 ( src . Data [ index ] ) ;
}
catch ( FormatException )
{
return 0 ;
}
}
public LSL_Float llList2Float ( LSL_List src , int index )
{
m_host . AddScriptLPS ( 1 ) ;
if ( index < 0 )
{
index = src . Length + index ;
}
if ( index > = src . Length )
{
return 0.0 ;
}
try
{
if ( src . Data [ index ] is LSL_Integer )
return Convert . ToDouble ( ( ( LSL_Integer ) src . Data [ index ] ) . value ) ;
else if ( src . Data [ index ] is LSL_Float )
return Convert . ToDouble ( ( ( LSL_Float ) src . Data [ index ] ) . value ) ;
else if ( src . Data [ index ] is LSL_String )
return Convert . ToDouble ( ( ( LSL_String ) src . Data [ index ] ) . m_string ) ;
return Convert . ToDouble ( src . Data [ index ] ) ;
}
catch ( FormatException )
{
return 0.0 ;
}
}
public LSL_String llList2String ( LSL_List src , int index )
{
m_host . AddScriptLPS ( 1 ) ;
if ( index < 0 )
{
index = src . Length + index ;
}
if ( index > = src . Length )
{
return String . Empty ;
}
return src . Data [ index ] . ToString ( ) ;
}
public LSL_String llList2Key ( LSL_List src , int index )
{
m_host . AddScriptLPS ( 1 ) ;
if ( index < 0 )
{
index = src . Length + index ;
}
if ( index > = src . Length )
{
return "" ;
}
return src . Data [ index ] . ToString ( ) ;
}
public LSL_Vector llList2Vector ( LSL_List src , int index )
{
m_host . AddScriptLPS ( 1 ) ;
if ( index < 0 )
{
index = src . Length + index ;
}
if ( index > = src . Length )
{
return new LSL_Vector ( 0 , 0 , 0 ) ;
}
if ( src . Data [ index ] . GetType ( ) = = typeof ( LSL_Vector ) )
{
return ( LSL_Vector ) src . Data [ index ] ;
}
else
{
return new LSL_Vector ( src . Data [ index ] . ToString ( ) ) ;
}
}
public LSL_Rotation llList2Rot ( LSL_List src , int index )
{
m_host . AddScriptLPS ( 1 ) ;
if ( index < 0 )
{
index = src . Length + index ;
}
if ( index > = src . Length )
{
return new LSL_Rotation ( 0 , 0 , 0 , 1 ) ;
}
if ( src . Data [ index ] . GetType ( ) = = typeof ( LSL_Rotation ) )
{
return ( LSL_Rotation ) src . Data [ index ] ;
}
else
{
return new LSL_Rotation ( src . Data [ index ] . ToString ( ) ) ;
}
}
public LSL_List llList2List ( LSL_List src , int start , int end )
{
m_host . AddScriptLPS ( 1 ) ;
return src . GetSublist ( start , end ) ;
}
public LSL_List llDeleteSubList ( LSL_List src , int start , int end )
{
return src . DeleteSublist ( end , start ) ;
}
public LSL_Integer llGetListEntryType ( LSL_List src , int index )
{
m_host . AddScriptLPS ( 1 ) ;
if ( index < 0 )
{
index = src . Length + index ;
}
if ( index > = src . Length )
{
return 0 ;
}
if ( src . Data [ index ] is LSL_Integer | | src . Data [ index ] is Int32 )
return 1 ;
if ( src . Data [ index ] is LSL_Float | | src . Data [ index ] is Single | | src . Data [ index ] is Double )
return 2 ;
if ( src . Data [ index ] is LSL_String | | src . Data [ index ] is String )
{
UUID tuuid ;
if ( UUID . TryParse ( src . Data [ index ] . ToString ( ) , out tuuid ) )
{
return 4 ;
}
else
{
return 3 ;
}
}
if ( src . Data [ index ] is LSL_Vector )
return 5 ;
if ( src . Data [ index ] is LSL_Rotation )
return 6 ;
if ( src . Data [ index ] is LSL_List )
return 7 ;
return 0 ;
}
/// <summary>
/// Process the supplied list and return the
/// content of the list formatted as a comma
/// separated list. There is a space after
/// each comma.
/// </summary>
public LSL_String llList2CSV ( LSL_List src )
{
string ret = String . Empty ;
int x = 0 ;
m_host . AddScriptLPS ( 1 ) ;
if ( src . Data . Length > 0 )
{
ret = src . Data [ x + + ] . ToString ( ) ;
for ( ; x < src . Data . Length ; x + + )
{
ret + = ", " + src . Data [ x ] . ToString ( ) ;
}
}
return ret ;
}
/// <summary>
/// The supplied string is scanned for commas
/// and converted into a list. Commas are only
/// effective if they are encountered outside
/// of '<' '>' delimiters. Any whitespace
/// before or after an element is trimmed.
/// </summary>
public LSL_List llCSV2List ( string src )
{
LSL_List result = new LSL_List ( ) ;
int parens = 0 ;
int start = 0 ;
int length = 0 ;
m_host . AddScriptLPS ( 1 ) ;
for ( int i = 0 ; i < src . Length ; i + + )
{
switch ( src [ i ] )
{
case '<' :
parens + + ;
length + + ;
break ;
case '>' :
if ( parens > 0 )
parens - - ;
length + + ;
break ;
case ',' :
if ( parens = = 0 )
{
result . Add ( src . Substring ( start , length ) . Trim ( ) ) ;
start + = length + 1 ;
length = 0 ;
}
else
{
length + + ;
}
break ;
default :
length + + ;
break ;
}
}
result . Add ( src . Substring ( start , length ) . Trim ( ) ) ;
return result ;
}
/// <summary>
/// Randomizes the list, be arbitrarily reordering
/// sublists of stride elements. As the stride approaches
/// the size of the list, the options become very
/// limited.
/// </summary>
/// <remarks>
/// This could take a while for very large list
/// sizes.
/// </remarks>
public LSL_List llListRandomize ( LSL_List src , int stride )
{
LSL_List result ;
Random rand = new Random ( ) ;
int chunkk ;
int [ ] chunks ;
m_host . AddScriptLPS ( 1 ) ;
if ( stride < = 0 )
{
stride = 1 ;
}
// Stride MUST be a factor of the list length
// If not, then return the src list. This also
// traps those cases where stride > length.
if ( src . Length ! = stride & & src . Length % stride = = 0 )
{
chunkk = src . Length / stride ;
chunks = new int [ chunkk ] ;
for ( int i = 0 ; i < chunkk ; i + + )
chunks [ i ] = i ;
// Knuth shuffle the chunkk index
for ( int i = chunkk - 1 ; i > = 1 ; i - - )
{
// Elect an unrandomized chunk to swap
int index = rand . Next ( i + 1 ) ;
int tmp ;
// and swap position with first unrandomized chunk
tmp = chunks [ i ] ;
chunks [ i ] = chunks [ index ] ;
chunks [ index ] = tmp ;
}
// Construct the randomized list
result = new LSL_List ( ) ;
for ( int i = 0 ; i < chunkk ; i + + )
{
for ( int j = 0 ; j < stride ; j + + )
{
result . Add ( src . Data [ chunks [ i ] * stride + j ] ) ;
}
}
}
else {
object [ ] array = new object [ src . Length ] ;
Array . Copy ( src . Data , 0 , array , 0 , src . Length ) ;
result = new LSL_List ( array ) ;
}
return result ;
}
/// <summary>
/// Elements in the source list starting with 0 and then
/// every i+stride. If the stride is negative then the scan
/// is backwards producing an inverted result.
/// Only those elements that are also in the specified
/// range are included in the result.
/// </summary>
public LSL_List llList2ListStrided ( LSL_List src , int start , int end , int stride )
{
LSL_List result = new LSL_List ( ) ;
int [ ] si = new int [ 2 ] ;
int [ ] ei = new int [ 2 ] ;
bool twopass = false ;
m_host . AddScriptLPS ( 1 ) ;
// First step is always to deal with negative indices
if ( start < 0 )
start = src . Length + start ;
if ( end < 0 )
end = src . Length + end ;
// Out of bounds indices are OK, just trim them
// accordingly
if ( start > src . Length )
start = src . Length ;
if ( end > src . Length )
end = src . Length ;
// There may be one or two ranges to be considered
if ( start ! = end )
{
if ( start < = end )
{
si [ 0 ] = start ;
ei [ 0 ] = end ;
}
else
{
si [ 1 ] = start ;
ei [ 1 ] = src . Length ;
si [ 0 ] = 0 ;
ei [ 0 ] = end ;
twopass = true ;
}
// The scan always starts from the beginning of the
// source list, but members are only selected if they
// fall within the specified sub-range. The specified
// range values are inclusive.
// A negative stride reverses the direction of the
// scan producing an inverted list as a result.
if ( stride = = 0 )
stride = 1 ;
if ( stride > 0 )
{
for ( int i = 0 ; i < src . Length ; i + = stride )
{
if ( i < = ei [ 0 ] & & i > = si [ 0 ] )
result . Add ( src . Data [ i ] ) ;
if ( twopass & & i > = si [ 1 ] & & i < = ei [ 1 ] )
result . Add ( src . Data [ i ] ) ;
}
}
else if ( stride < 0 )
{
for ( int i = src . Length - 1 ; i > = 0 ; i + = stride )
{
if ( i < = ei [ 0 ] & & i > = si [ 0 ] )
result . Add ( src . Data [ i ] ) ;
if ( twopass & & i > = si [ 1 ] & & i < = ei [ 1 ] )
result . Add ( src . Data [ i ] ) ;
}
}
}
return result ;
}
public LSL_Integer llGetRegionAgentCount ( )
{
m_host . AddScriptLPS ( 1 ) ;
return new LSL_Integer ( World . GetAvatars ( ) . Count ) ;
}
public LSL_Vector llGetRegionCorner ( )
{
m_host . AddScriptLPS ( 1 ) ;
return new LSL_Vector ( World . RegionInfo . RegionLocX * Constants . RegionSize , World . RegionInfo . RegionLocY * Constants . RegionSize , 0 ) ;
}
/// <summary>
/// Insert the list identified by <src> into the
/// list designated by <dest> such that the first
/// new element has the index specified by <index>
/// </summary>
public LSL_List llListInsertList ( LSL_List dest , LSL_List src , int index )
{
LSL_List pref = null ;
LSL_List suff = null ;
m_host . AddScriptLPS ( 1 ) ;
if ( index < 0 )
{
index = index + dest . Length ;
if ( index < 0 )
{
index = 0 ;
}
}
if ( index ! = 0 )
{
pref = dest . GetSublist ( 0 , index - 1 ) ;
if ( index < dest . Length )
{
suff = dest . GetSublist ( index , - 1 ) ;
return pref + src + suff ;
}
else
{
return pref + src ;
}
}
else
{
if ( index < dest . Length )
{
suff = dest . GetSublist ( index , - 1 ) ;
return src + suff ;
}
else
{
return src ;
}
}
}
/// <summary>
/// Returns the index of the first occurrence of test
/// in src.
/// </summary>
public LSL_Integer llListFindList ( LSL_List src , LSL_List test )
{
int index = - 1 ;
int length = src . Length - test . Length + 1 ;
m_host . AddScriptLPS ( 1 ) ;
// If either list is empty, do not match
if ( src . Length ! = 0 & & test . Length ! = 0 )
{
for ( int i = 0 ; i < length ; i + + )
{
if ( src . Data [ i ] . Equals ( test . Data [ 0 ] ) )
{
int j ;
for ( j = 1 ; j < test . Length ; j + + )
if ( ! src . Data [ i + j ] . Equals ( test . Data [ j ] ) )
break ;
if ( j = = test . Length )
{
index = i ;
break ;
}
}
}
}
return index ;
}
public LSL_String llGetObjectName ( )
{
m_host . AddScriptLPS ( 1 ) ;
return m_host . Name ! = null ? m_host . Name : String . Empty ;
}
public void llSetObjectName ( string name )
{
m_host . AddScriptLPS ( 1 ) ;
m_host . Name = name ! = null ? name : String . Empty ;
}
public LSL_String llGetDate ( )
{
m_host . AddScriptLPS ( 1 ) ;
DateTime date = DateTime . Now . ToUniversalTime ( ) ;
string result = date . ToString ( "yyyy-MM-dd" ) ;
return result ;
}
public LSL_Integer llEdgeOfWorld ( LSL_Vector pos , LSL_Vector dir )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llEdgeOfWorld" ) ;
return 0 ;
}
public LSL_Integer llGetAgentInfo ( string id )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llGetAgentInfo" ) ;
return 0 ;
}
public void llAdjustSoundVolume ( double volume )
{
m_host . AddScriptLPS ( 1 ) ;
m_host . AdjustSoundGain ( volume ) ;
// ScriptSleep(100);
}
public void llSetSoundQueueing ( int queue )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llSetSoundQueueing" ) ;
}
public void llSetSoundRadius ( double radius )
{
m_host . AddScriptLPS ( 1 ) ;
m_host . SoundRadius = radius ;
}
public LSL_String llKey2Name ( string id )
{
m_host . AddScriptLPS ( 1 ) ;
UUID key = new UUID ( ) ;
if ( UUID . TryParse ( id , out key ) )
{
ScenePresence presence = World . GetScenePresence ( key ) ;
if ( presence ! = null )
{
return presence . ControllingClient . Name ;
//return presence.Name;
}
if ( World . GetSceneObjectPart ( key ) ! = null )
{
return World . GetSceneObjectPart ( key ) . Name ;
}
}
return String . Empty ;
}
public void llSetTextureAnim ( int mode , int face , int sizex , int sizey , double start , double length , double rate )
{
m_host . AddScriptLPS ( 1 ) ;
Primitive . TextureAnimation pTexAnim = new Primitive . TextureAnimation ( ) ;
pTexAnim . Flags = ( Primitive . TextureAnimMode ) mode ;
//ALL_SIDES
if ( face = = ScriptBaseClass . ALL_SIDES )
face = 255 ;
pTexAnim . Face = ( uint ) face ;
pTexAnim . Length = ( float ) length ;
pTexAnim . Rate = ( float ) rate ;
pTexAnim . SizeX = ( uint ) sizex ;
pTexAnim . SizeY = ( uint ) sizey ;
pTexAnim . Start = ( float ) start ;
m_host . AddTextureAnimation ( pTexAnim ) ;
m_host . SendFullUpdateToAllClients ( ) ;
m_host . ParentGroup . HasGroupChanged = true ;
}
public void llTriggerSoundLimited ( string sound , double volume , LSL_Vector top_north_east ,
LSL_Vector bottom_south_west )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llTriggerSoundLimited" ) ;
}
public void llEjectFromLand ( string pest )
{
m_host . AddScriptLPS ( 1 ) ;
UUID agentId = new UUID ( ) ;
if ( UUID . TryParse ( pest , out agentId ) )
{
ScenePresence presence = World . GetScenePresence ( agentId ) ;
if ( presence ! = null )
{
// agent must be over the owners land
if ( m_host . OwnerID = = World . GetLandOwner ( presence . AbsolutePosition . X , presence . AbsolutePosition . Y ) )
World . TeleportClientHome ( agentId , presence . ControllingClient ) ;
}
}
// ScriptSleep(5000);
}
public LSL_List llParseString2List ( string str , LSL_List separators , LSL_List spacers )
{
m_host . AddScriptLPS ( 1 ) ;
LSL_List ret = new LSL_List ( ) ;
object [ ] delimiters = new object [ separators . Length + spacers . Length ] ;
separators . Data . CopyTo ( delimiters , 0 ) ;
spacers . Data . CopyTo ( delimiters , separators . Length ) ;
bool dfound = false ;
do
{
dfound = false ;
int cindex = - 1 ;
string cdeli = "" ;
for ( int i = 0 ; i < delimiters . Length ; i + + )
{
int index = str . IndexOf ( delimiters [ i ] . ToString ( ) ) ;
bool found = index ! = - 1 ;
if ( found & & String . Empty ! = delimiters [ i ] . ToString ( ) )
{
if ( ( cindex > index ) | | ( cindex = = - 1 ) )
{
cindex = index ;
cdeli = delimiters [ i ] . ToString ( ) ;
}
dfound = dfound | | found ;
}
}
if ( cindex ! = - 1 )
{
if ( cindex > 0 )
{
ret . Add ( str . Substring ( 0 , cindex ) ) ;
// Cannot use spacers.Contains() because spacers may be either type String or LSLString
for ( int j = 0 ; j < spacers . Length ; j + + )
{
if ( spacers . Data [ j ] . ToString ( ) = = cdeli )
{
ret . Add ( cdeli ) ;
break ;
}
}
}
if ( cindex = = 0 & & spacers . Contains ( cdeli ) )
{
ret . Add ( cdeli ) ;
}
str = str . Substring ( cindex + cdeli . Length ) ;
}
} while ( dfound ) ;
if ( str ! = "" )
{
ret . Add ( str ) ;
}
return ret ;
}
public LSL_Integer llOverMyLand ( string id )
{
m_host . AddScriptLPS ( 1 ) ;
UUID key = new UUID ( ) ;
if ( UUID . TryParse ( id , out key ) )
{
ScenePresence presence = World . GetScenePresence ( key ) ;
if ( presence ! = null ) // object is an avatar
{
if ( m_host . OwnerID = = World . GetLandOwner ( presence . AbsolutePosition . X , presence . AbsolutePosition . Y ) )
return 1 ;
}
else // object is not an avatar
{
SceneObjectPart obj = World . GetSceneObjectPart ( key ) ;
if ( obj ! = null )
if ( m_host . OwnerID = = World . GetLandOwner ( obj . AbsolutePosition . X , obj . AbsolutePosition . Y ) )
return 1 ;
}
}
return 0 ;
}
public LSL_String llGetLandOwnerAt ( LSL_Vector pos )
{
m_host . AddScriptLPS ( 1 ) ;
return World . GetLandOwner ( ( float ) pos . x , ( float ) pos . y ) . ToString ( ) ;
}
public LSL_Vector llGetAgentSize ( string id )
{
m_host . AddScriptLPS ( 1 ) ;
ScenePresence avatar = World . GetScenePresence ( id ) ;
LSL_Vector agentSize ;
if ( avatar = = null )
{
agentSize = ScriptBaseClass . ZERO_VECTOR ;
}
else
{
PhysicsVector size = avatar . PhysicsActor . Size ;
agentSize = new LSL_Vector ( size . X , size . Y , size . Z ) ;
}
return agentSize ;
}
public LSL_Integer llSameGroup ( string agent )
{
m_host . AddScriptLPS ( 1 ) ;
UUID agentId = new UUID ( ) ;
if ( ! UUID . TryParse ( agent , out agentId ) )
return new LSL_Integer ( 0 ) ;
ScenePresence presence = World . GetScenePresence ( agentId ) ;
if ( presence = = null )
return new LSL_Integer ( 0 ) ;
IClientAPI client = presence . ControllingClient ;
if ( m_host . GroupID = = client . ActiveGroupId )
return new LSL_Integer ( 1 ) ;
else
return new LSL_Integer ( 0 ) ;
}
public void llUnSit ( string id )
{
m_host . AddScriptLPS ( 1 ) ;
UUID key = new UUID ( ) ;
if ( UUID . TryParse ( id , out key ) )
{
ScenePresence av = World . GetScenePresence ( key ) ;
if ( av ! = null )
{
if ( llAvatarOnSitTarget ( ) = = id )
{
// if the avatar is sitting on this object, then
// we can unsit them. We don't want random scripts unsitting random people
// Lets avoid the popcorn avatar scenario.
av . StandUp ( ) ;
}
else
{
// If the object owner also owns the parcel
// or
// if the land is group owned and the object is group owned by the same group
// or
// if the object is owned by a person with estate access.
ILandObject parcel = World . LandChannel . GetLandObject ( av . AbsolutePosition . X , av . AbsolutePosition . Y ) ;
if ( parcel ! = null )
{
if ( m_host . ObjectOwner = = parcel . landData . OwnerID | |
( m_host . OwnerID = = m_host . GroupID & & m_host . GroupID = = parcel . landData . GroupID
& & parcel . landData . IsGroupOwned ) | | World . ExternalChecks . ExternalChecksCanBeGodLike ( m_host . OwnerID ) )
{
av . StandUp ( ) ;
}
}
}
}
}
}
public LSL_Vector llGroundSlope ( LSL_Vector offset )
{
m_host . AddScriptLPS ( 1 ) ;
Vector3 pos = m_host . AbsolutePosition + new Vector3 ( ( float ) offset . x ,
( float ) offset . y ,
( float ) offset . z ) ;
Vector3 p0 = new Vector3 ( pos . X , pos . Y ,
( float ) llGround (
new LSL_Vector ( pos . X , pos . Y , pos . Z )
) ) ;
Vector3 p1 = new Vector3 ( pos . X + 1 , pos . Y ,
( float ) llGround (
new LSL_Vector ( pos . X + 1 , pos . Y , pos . Z )
) ) ;
Vector3 p2 = new Vector3 ( pos . X , pos . Y + 1 ,
( float ) llGround (
new LSL_Vector ( pos . X , pos . Y + 1 , pos . Z )
) ) ;
Vector3 v0 = new Vector3 (
p1 . X - p0 . X , p1 . Y - p0 . Y , p1 . Z - p0 . Z ) ;
Vector3 v1 = new Vector3 (
p2 . X - p1 . X , p2 . Y - p1 . Y , p2 . Z - p1 . Z ) ;
v0 . Normalize ( ) ;
v1 . Normalize ( ) ;
Vector3 tv = new Vector3 ( ) ;
tv . X = ( v0 . Y * v1 . Z ) - ( v0 . Z * v1 . Y ) ;
tv . Y = ( v0 . Z * v1 . X ) - ( v0 . X * v1 . Z ) ;
tv . Z = ( v0 . X * v1 . Y ) - ( v0 . Y * v1 . X ) ;
return new LSL_Vector ( tv . X , tv . Y , tv . Z ) ;
}
public LSL_Vector llGroundNormal ( LSL_Vector offset )
{
m_host . AddScriptLPS ( 1 ) ;
LSL_Vector x = llGroundSlope ( offset ) ;
return new LSL_Vector ( x . x , x . y , 1.0 ) ;
}
public LSL_Vector llGroundContour ( LSL_Vector offset )
{
m_host . AddScriptLPS ( 1 ) ;
LSL_Vector x = llGroundSlope ( offset ) ;
return new LSL_Vector ( - x . y , x . x , 0.0 ) ;
}
public LSL_Integer llGetAttached ( )
{
m_host . AddScriptLPS ( 1 ) ;
return m_host . ParentGroup . RootPart . AttachmentPoint ;
}
public LSL_Integer llGetFreeMemory ( )
{
m_host . AddScriptLPS ( 1 ) ;
// Make scripts designed for LSO happy
return 16384 ;
}
public LSL_String llGetRegionName ( )
{
m_host . AddScriptLPS ( 1 ) ;
return World . RegionInfo . RegionName ;
}
public LSL_Float llGetRegionTimeDilation ( )
{
m_host . AddScriptLPS ( 1 ) ;
return ( double ) World . TimeDilation ;
}
public LSL_Float llGetRegionFPS ( )
{
m_host . AddScriptLPS ( 1 ) ;
//TODO: return actual FPS
return 10.0f ;
}
/ * particle system rules should be coming into this routine as doubles , that is
rule [ 0 ] should be an integer from this list and rule [ 1 ] should be the arg
for the same integer . wiki . secondlife . com has most of this mapping , but some
came from http : //www.caligari-designs.com/p4u2
We iterate through the list for ' Count ' elements , incrementing by two for each
iteration and set the members of Primitive . ParticleSystem , one at a time .
* /
public enum PrimitiveRule : int
{
PSYS_PART_FLAGS = 0 ,
PSYS_PART_START_COLOR = 1 ,
PSYS_PART_START_ALPHA = 2 ,
PSYS_PART_END_COLOR = 3 ,
PSYS_PART_END_ALPHA = 4 ,
PSYS_PART_START_SCALE = 5 ,
PSYS_PART_END_SCALE = 6 ,
PSYS_PART_MAX_AGE = 7 ,
PSYS_SRC_ACCEL = 8 ,
PSYS_SRC_PATTERN = 9 ,
PSYS_SRC_TEXTURE = 12 ,
PSYS_SRC_BURST_RATE = 13 ,
PSYS_SRC_BURST_PART_COUNT = 15 ,
PSYS_SRC_BURST_RADIUS = 16 ,
PSYS_SRC_BURST_SPEED_MIN = 17 ,
PSYS_SRC_BURST_SPEED_MAX = 18 ,
PSYS_SRC_MAX_AGE = 19 ,
PSYS_SRC_TARGET_KEY = 20 ,
PSYS_SRC_OMEGA = 21 ,
PSYS_SRC_ANGLE_BEGIN = 22 ,
PSYS_SRC_ANGLE_END = 23
}
internal Primitive . ParticleSystem . ParticleDataFlags ConvertUINTtoFlags ( uint flags )
{
Primitive . ParticleSystem . ParticleDataFlags returnval = Primitive . ParticleSystem . ParticleDataFlags . None ;
return returnval ;
}
private Primitive . ParticleSystem getNewParticleSystemWithSLDefaultValues ( )
{
Primitive . ParticleSystem ps = new Primitive . ParticleSystem ( ) ;
// TODO find out about the other defaults and add them here
ps . PartStartColor = new Color4 ( 1.0f , 1.0f , 1.0f , 1.0f ) ;
ps . PartEndColor = new Color4 ( 1.0f , 1.0f , 1.0f , 1.0f ) ;
ps . PartStartScaleX = 1.0f ;
ps . PartStartScaleY = 1.0f ;
ps . PartEndScaleX = 1.0f ;
ps . PartEndScaleY = 1.0f ;
ps . BurstSpeedMin = 1.0f ;
ps . BurstSpeedMax = 1.0f ;
ps . BurstRate = 0.1f ;
ps . PartMaxAge = 10.0f ;
return ps ;
}
public void llParticleSystem ( LSL_List rules )
{
m_host . AddScriptLPS ( 1 ) ;
if ( rules . Length = = 0 )
{
m_host . RemoveParticleSystem ( ) ;
m_host . ParentGroup . HasGroupChanged = true ;
}
else
{
Primitive . ParticleSystem prules = getNewParticleSystemWithSLDefaultValues ( ) ;
LSL_Vector tempv = new LSL_Vector ( ) ;
float tempf = 0 ;
for ( int i = 0 ; i < rules . Length ; i + = 2 )
{
switch ( ( int ) rules . Data [ i ] )
{
case ( int ) ScriptBaseClass . PSYS_PART_FLAGS :
prules . PartDataFlags = ( Primitive . ParticleSystem . ParticleDataFlags ) ( uint ) rules . GetLSLIntegerItem ( i + 1 ) ;
break ;
case ( int ) ScriptBaseClass . PSYS_PART_START_COLOR :
tempv = rules . GetVector3Item ( i + 1 ) ;
prules . PartStartColor . R = ( float ) tempv . x ;
prules . PartStartColor . G = ( float ) tempv . y ;
prules . PartStartColor . B = ( float ) tempv . z ;
break ;
case ( int ) ScriptBaseClass . PSYS_PART_START_ALPHA :
tempf = ( float ) rules . GetLSLFloatItem ( i + 1 ) ;
prules . PartStartColor . A = tempf ;
break ;
case ( int ) ScriptBaseClass . PSYS_PART_END_COLOR :
tempv = rules . GetVector3Item ( i + 1 ) ;
prules . PartEndColor . R = ( float ) tempv . x ;
prules . PartEndColor . G = ( float ) tempv . y ;
prules . PartEndColor . B = ( float ) tempv . z ;
break ;
case ( int ) ScriptBaseClass . PSYS_PART_END_ALPHA :
tempf = ( float ) rules . GetLSLFloatItem ( i + 1 ) ;
prules . PartEndColor . A = tempf ;
break ;
case ( int ) ScriptBaseClass . PSYS_PART_START_SCALE :
tempv = rules . GetVector3Item ( i + 1 ) ;
prules . PartStartScaleX = ( float ) tempv . x ;
prules . PartStartScaleY = ( float ) tempv . y ;
break ;
case ( int ) ScriptBaseClass . PSYS_PART_END_SCALE :
tempv = rules . GetVector3Item ( i + 1 ) ;
prules . PartEndScaleX = ( float ) tempv . x ;
prules . PartEndScaleY = ( float ) tempv . y ;
break ;
case ( int ) ScriptBaseClass . PSYS_PART_MAX_AGE :
tempf = ( float ) rules . GetLSLFloatItem ( i + 1 ) ;
prules . PartMaxAge = tempf ;
break ;
case ( int ) ScriptBaseClass . PSYS_SRC_ACCEL :
tempv = rules . GetVector3Item ( i + 1 ) ;
prules . PartAcceleration . X = ( float ) tempv . x ;
prules . PartAcceleration . Y = ( float ) tempv . y ;
prules . PartAcceleration . Z = ( float ) tempv . z ;
break ;
case ( int ) ScriptBaseClass . PSYS_SRC_PATTERN :
int tmpi = ( int ) rules . GetLSLIntegerItem ( i + 1 ) ;
prules . Pattern = ( Primitive . ParticleSystem . SourcePattern ) tmpi ;
break ;
case ( int ) ScriptBaseClass . PSYS_SRC_TEXTURE :
prules . Texture = KeyOrName ( rules . GetLSLStringItem ( i + 1 ) ) ;
break ;
case ( int ) ScriptBaseClass . PSYS_SRC_BURST_RATE :
tempf = ( float ) rules . GetLSLFloatItem ( i + 1 ) ;
prules . BurstRate = ( float ) tempf ;
break ;
case ( int ) ScriptBaseClass . PSYS_SRC_BURST_PART_COUNT :
prules . BurstPartCount = ( byte ) ( int ) rules . GetLSLIntegerItem ( i + 1 ) ;
break ;
case ( int ) ScriptBaseClass . PSYS_SRC_BURST_RADIUS :
tempf = ( float ) rules . GetLSLFloatItem ( i + 1 ) ;
prules . BurstRadius = ( float ) tempf ;
break ;
case ( int ) ScriptBaseClass . PSYS_SRC_BURST_SPEED_MIN :
tempf = ( float ) rules . GetLSLFloatItem ( i + 1 ) ;
prules . BurstSpeedMin = ( float ) tempf ;
break ;
case ( int ) ScriptBaseClass . PSYS_SRC_BURST_SPEED_MAX :
tempf = ( float ) rules . GetLSLFloatItem ( i + 1 ) ;
prules . BurstSpeedMax = ( float ) tempf ;
break ;
case ( int ) ScriptBaseClass . PSYS_SRC_MAX_AGE :
tempf = ( float ) rules . GetLSLFloatItem ( i + 1 ) ;
prules . MaxAge = ( float ) tempf ;
break ;
case ( int ) ScriptBaseClass . PSYS_SRC_TARGET_KEY :
UUID key = UUID . Zero ;
if ( UUID . TryParse ( rules . Data [ i + 1 ] . ToString ( ) , out key ) )
{
prules . Target = key ;
}
else
{
prules . Target = m_host . UUID ;
}
break ;
case ( int ) ScriptBaseClass . PSYS_SRC_OMEGA :
// AL: This is an assumption, since it is the only thing that would match.
tempv = rules . GetVector3Item ( i + 1 ) ;
prules . AngularVelocity . X = ( float ) tempv . x ;
prules . AngularVelocity . Y = ( float ) tempv . y ;
prules . AngularVelocity . Z = ( float ) tempv . z ;
break ;
case ( int ) ScriptBaseClass . PSYS_SRC_ANGLE_BEGIN :
tempf = ( float ) rules . GetLSLFloatItem ( i + 1 ) ;
prules . InnerAngle = ( float ) tempf ;
break ;
case ( int ) ScriptBaseClass . PSYS_SRC_ANGLE_END :
tempf = ( float ) rules . GetLSLFloatItem ( i + 1 ) ;
prules . OuterAngle = ( float ) tempf ;
break ;
}
}
prules . CRC = 1 ;
m_host . AddNewParticleSystem ( prules ) ;
m_host . ParentGroup . HasGroupChanged = true ;
}
m_host . SendFullUpdateToAllClients ( ) ;
}
public void llGroundRepel ( double height , int water , double tau )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llGroundRepel" ) ;
}
private UUID GetTaskInventoryItem ( string name )
{
foreach ( KeyValuePair < UUID , TaskInventoryItem > inv in m_host . TaskInventory )
{
if ( inv . Value . Name = = name )
return inv . Key ;
}
return UUID . Zero ;
}
public void llGiveInventoryList ( string destination , string category , LSL_List inventory )
{
m_host . AddScriptLPS ( 1 ) ;
UUID destID ;
if ( ! UUID . TryParse ( destination , out destID ) )
return ;
List < UUID > itemList = new List < UUID > ( ) ;
foreach ( Object item in inventory . Data )
{
UUID itemID ;
if ( UUID . TryParse ( item . ToString ( ) , out itemID ) )
{
itemList . Add ( itemID ) ;
}
else
{
itemID = GetTaskInventoryItem ( item . ToString ( ) ) ;
if ( itemID ! = UUID . Zero )
itemList . Add ( itemID ) ;
}
}
if ( itemList . Count = = 0 )
return ;
m_ScriptEngine . World . MoveTaskInventoryItems ( destID , category , m_host , itemList ) ;
}
public void llSetVehicleType ( int type )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llSetVehicleType" ) ;
}
public void llSetVehicledoubleParam ( int param , double value )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llSetVehicledoubleParam" ) ;
}
public void llSetVehicleFloatParam ( int param , float value )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llSetVehicleFloatParam" ) ;
}
public void llSetVehicleVectorParam ( int param , LSL_Vector vec )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llSetVehicleVectorParam" ) ;
}
public void llSetVehicleRotationParam ( int param , LSL_Rotation rot )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llSetVehicleRotationParam" ) ;
}
public void llSetVehicleFlags ( int flags )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llSetVehicleFlags" ) ;
}
public void llRemoveVehicleFlags ( int flags )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llRemoveVehicleFlags" ) ;
}
public void llSitTarget ( LSL_Vector offset , LSL_Rotation rot )
{
m_host . AddScriptLPS ( 1 ) ;
// LSL quaternions can normalize to 0, normal Quaternions can't.
if ( rot . s = = 0 & & rot . x = = 0 & & rot . y = = 0 & & rot . z = = 0 )
rot . z = 1 ; // ZERO_ROTATION = 0,0,0,1
m_host . SitTargetPosition = new Vector3 ( ( float ) offset . x , ( float ) offset . y , ( float ) offset . z ) ;
m_host . SitTargetOrientation = new Quaternion ( ( float ) rot . x , ( float ) rot . y , ( float ) rot . z , ( float ) rot . s ) ;
}
public LSL_String llAvatarOnSitTarget ( )
{
m_host . AddScriptLPS ( 1 ) ;
return m_host . GetAvatarOnSitTarget ( ) . ToString ( ) ;
}
public void llAddToLandPassList ( string avatar , double hours )
{
m_host . AddScriptLPS ( 1 ) ;
UUID key ;
LandData land = World . LandChannel . GetLandObject ( m_host . AbsolutePosition . X , m_host . AbsolutePosition . Y ) . landData ;
if ( land . OwnerID = = m_host . OwnerID )
{
ParcelManager . ParcelAccessEntry entry = new ParcelManager . ParcelAccessEntry ( ) ;
if ( UUID . TryParse ( avatar , out key ) )
{
entry . AgentID = key ;
entry . Flags = ParcelManager . AccessList . Access ;
entry . Time = DateTime . Now . AddHours ( hours ) ;
land . ParcelAccessList . Add ( entry ) ;
}
}
// ScriptSleep(100);
}
public void llSetTouchText ( string text )
{
m_host . AddScriptLPS ( 1 ) ;
m_host . TouchName = text ;
}
public void llSetSitText ( string text )
{
m_host . AddScriptLPS ( 1 ) ;
m_host . SitName = text ;
}
public void llSetCameraEyeOffset ( LSL_Vector offset )
{
m_host . AddScriptLPS ( 1 ) ;
m_host . SetCameraEyeOffset ( new Vector3 ( ( float ) offset . x , ( float ) offset . y , ( float ) offset . z ) ) ;
}
public void llSetCameraAtOffset ( LSL_Vector offset )
{
m_host . AddScriptLPS ( 1 ) ;
m_host . SetCameraAtOffset ( new Vector3 ( ( float ) offset . x , ( float ) offset . y , ( float ) offset . z ) ) ;
}
public LSL_String llDumpList2String ( LSL_List src , string seperator )
{
m_host . AddScriptLPS ( 1 ) ;
if ( src . Length = = 0 )
{
return String . Empty ;
}
string ret = String . Empty ;
foreach ( object o in src . Data )
{
ret = ret + o . ToString ( ) + seperator ;
}
ret = ret . Substring ( 0 , ret . Length - seperator . Length ) ;
return ret ;
}
public LSL_Integer llScriptDanger ( LSL_Vector pos )
{
m_host . AddScriptLPS ( 1 ) ;
bool result = World . ScriptDanger ( m_host . LocalId , new Vector3 ( ( float ) pos . x , ( float ) pos . y , ( float ) pos . z ) ) ;
if ( result )
{
return 1 ;
}
else
{
return 0 ;
}
}
public void llDialog ( string avatar , string message , LSL_List buttons , int chat_channel )
{
m_host . AddScriptLPS ( 1 ) ;
UUID av = new UUID ( ) ;
if ( ! UUID . TryParse ( avatar , out av ) )
{
LSLError ( "First parameter to llDialog needs to be a key" ) ;
return ;
}
if ( buttons . Length > 12 )
{
LSLError ( "No more than 12 buttons can be shown" ) ;
return ;
}
string [ ] buts = new string [ buttons . Length ] ;
for ( int i = 0 ; i < buttons . Length ; i + + )
{
if ( buttons . Data [ i ] . ToString ( ) = = String . Empty )
{
LSLError ( "button label cannot be blank" ) ;
return ;
}
if ( buttons . Data [ i ] . ToString ( ) . Length > 24 )
{
LSLError ( "button label cannot be longer than 24 characters" ) ;
return ;
}
buts [ i ] = buttons . Data [ i ] . ToString ( ) ;
}
World . SendDialogToUser ( av , m_host . Name , m_host . UUID , m_host . OwnerID , message , new UUID ( "00000000-0000-2222-3333-100000001000" ) , chat_channel , buts ) ;
// ScriptSleep(1000);
}
public void llVolumeDetect ( int detect )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llVolumeDetect" ) ;
}
/// <summary>
/// Reset the named script. The script must be present
/// in the same prim.
/// </summary>
public void llRemoteLoadScript ( )
{
m_host . AddScriptLPS ( 1 ) ;
Deprecated ( "llRemoteLoadScript" ) ;
// ScriptSleep(3000);
}
public void llSetRemoteScriptAccessPin ( int pin )
{
m_host . AddScriptLPS ( 1 ) ;
m_host . ScriptAccessPin = pin ;
}
public void llRemoteLoadScriptPin ( string target , string name , int pin , int running , int start_param )
{
m_host . AddScriptLPS ( 1 ) ;
bool found = false ;
UUID destId = UUID . Zero ;
UUID srcId = UUID . Zero ;
if ( ! UUID . TryParse ( target , out destId ) )
{
llSay ( 0 , "Could not parse key " + target ) ;
return ;
}
// target must be a different prim than the one containing the script
if ( m_host . UUID = = destId )
{
return ;
}
// copy the first script found with this inventory name
foreach ( KeyValuePair < UUID , TaskInventoryItem > inv in m_host . TaskInventory )
{
if ( inv . Value . Name = = name )
{
// make sure the object is a script
if ( 10 = = inv . Value . Type )
{
found = true ;
srcId = inv . Key ;
break ;
}
}
}
if ( ! found )
{
llSay ( 0 , "Could not find script " + name ) ;
return ;
}
// the rest of the permission checks are done in RezScript, so check the pin there as well
World . RezScript ( srcId , m_host , destId , pin , running , start_param ) ;
// this will cause the delay even if the script pin or permissions were wrong - seems ok
ScriptSleep ( 3000 ) ;
}
public void llOpenRemoteDataChannel ( )
{
m_host . AddScriptLPS ( 1 ) ;
IXMLRPC xmlrpcMod = m_ScriptEngine . World . RequestModuleInterface < IXMLRPC > ( ) ;
if ( xmlrpcMod . IsEnabled ( ) )
{
UUID channelID = xmlrpcMod . OpenXMLRPCChannel ( m_localID , m_itemID , UUID . Zero ) ;
object [ ] resobj = new object [ ] { new LSL_Integer ( 1 ) , new LSL_String ( channelID . ToString ( ) ) , new LSL_String ( UUID . Zero . ToString ( ) ) , new LSL_String ( String . Empty ) , new LSL_Integer ( 0 ) , new LSL_String ( String . Empty ) } ;
m_ScriptEngine . PostScriptEvent ( m_itemID , new EventParams (
"remote_data" , resobj ,
new DetectParams [ 0 ] ) ) ;
}
// ScriptSleep(1000);
}
public LSL_String llSendRemoteData ( string channel , string dest , int idata , string sdata )
{
m_host . AddScriptLPS ( 1 ) ;
IXMLRPC xmlrpcMod = m_ScriptEngine . World . RequestModuleInterface < IXMLRPC > ( ) ;
// ScriptSleep(3000);
return ( xmlrpcMod . SendRemoteData ( m_localID , m_itemID , channel , dest , idata , sdata ) ) . ToString ( ) ;
}
public void llRemoteDataReply ( string channel , string message_id , string sdata , int idata )
{
m_host . AddScriptLPS ( 1 ) ;
IXMLRPC xmlrpcMod = m_ScriptEngine . World . RequestModuleInterface < IXMLRPC > ( ) ;
xmlrpcMod . RemoteDataReply ( channel , message_id , sdata , idata ) ;
// ScriptSleep(3000);
}
public void llCloseRemoteDataChannel ( string channel )
{
m_host . AddScriptLPS ( 1 ) ;
IXMLRPC xmlrpcMod = m_ScriptEngine . World . RequestModuleInterface < IXMLRPC > ( ) ;
xmlrpcMod . CloseXMLRPCChannel ( channel ) ;
// ScriptSleep(1000);
}
public LSL_String llMD5String ( string src , int nonce )
{
m_host . AddScriptLPS ( 1 ) ;
return Util . Md5Hash ( src + ":" + nonce . ToString ( ) ) ;
}
private ObjectShapePacket . ObjectDataBlock SetPrimitiveBlockShapeParams ( SceneObjectPart part , int holeshape , LSL_Vector cut , float hollow , LSL_Vector twist )
{
ObjectShapePacket . ObjectDataBlock shapeBlock = new ObjectShapePacket . ObjectDataBlock ( ) ;
if ( holeshape ! = ( int ) ScriptBaseClass . PRIM_HOLE_DEFAULT & &
holeshape ! = ( int ) ScriptBaseClass . PRIM_HOLE_CIRCLE & &
holeshape ! = ( int ) ScriptBaseClass . PRIM_HOLE_SQUARE & &
holeshape ! = ( int ) ScriptBaseClass . PRIM_HOLE_TRIANGLE )
{
holeshape = ( int ) ScriptBaseClass . PRIM_HOLE_DEFAULT ;
}
shapeBlock . ProfileCurve = ( byte ) holeshape ;
if ( cut . x < 0f )
{
cut . x = 0f ;
}
if ( cut . x > 1f )
{
cut . x = 1f ;
}
if ( cut . y < 0f )
{
cut . y = 0f ;
}
if ( cut . y > 1f )
{
cut . y = 1f ;
}
if ( cut . y - cut . x < 0.05f )
{
cut . x = cut . y - 0.05f ;
}
shapeBlock . ProfileBegin = ( ushort ) ( 50000 * cut . x ) ;
shapeBlock . ProfileEnd = ( ushort ) ( 50000 * ( 1 - cut . y ) ) ;
if ( hollow < 0f )
{
hollow = 0f ;
}
if ( hollow > 0.95 )
{
hollow = 0.95f ;
}
shapeBlock . ProfileHollow = ( ushort ) ( 50000 * hollow ) ;
if ( twist . x < - 1.0f )
{
twist . x = - 1.0f ;
}
if ( twist . x > 1.0f )
{
twist . x = 1.0f ;
}
if ( twist . y < - 1.0f )
{
twist . y = - 1.0f ;
}
if ( twist . y > 1.0f )
{
twist . y = 1.0f ;
}
shapeBlock . PathTwistBegin = ( sbyte ) ( 100 * twist . x ) ;
shapeBlock . PathTwist = ( sbyte ) ( 100 * twist . y ) ;
shapeBlock . ObjectLocalID = part . LocalId ;
// retain pathcurve
shapeBlock . PathCurve = part . Shape . PathCurve ;
return shapeBlock ;
}
private void SetPrimitiveShapeParams ( SceneObjectPart part , int holeshape , LSL_Vector cut , float hollow , LSL_Vector twist , LSL_Vector taper_b , LSL_Vector topshear , byte fudge )
{
ObjectShapePacket . ObjectDataBlock shapeBlock ;
shapeBlock = SetPrimitiveBlockShapeParams ( part , holeshape , cut , hollow , twist ) ;
shapeBlock . ProfileCurve + = fudge ;
if ( taper_b . x < 0f )
{
taper_b . x = 0f ;
}
if ( taper_b . x > 2f )
{
taper_b . x = 2f ;
}
if ( taper_b . y < 0f )
{
taper_b . y = 0f ;
}
if ( taper_b . y > 2f )
{
taper_b . y = 2f ;
}
shapeBlock . PathScaleX = ( byte ) ( 100 * ( 2.0 - taper_b . x ) ) ;
shapeBlock . PathScaleY = ( byte ) ( 100 * ( 2.0 - taper_b . y ) ) ;
if ( topshear . x < - 0.5f )
{
topshear . x = - 0.5f ;
}
if ( topshear . x > 0.5f )
{
topshear . x = 0.5f ;
}
if ( topshear . y < - 0.5f )
{
topshear . y = - 0.5f ;
}
if ( topshear . y > 0.5f )
{
topshear . y = 0.5f ;
}
shapeBlock . PathShearX = ( byte ) ( 100 * topshear . x ) ;
shapeBlock . PathShearY = ( byte ) ( 100 * topshear . y ) ;
part . UpdateShape ( shapeBlock ) ;
}
private void SetPrimitiveShapeParams ( SceneObjectPart part , int holeshape , LSL_Vector cut , float hollow , LSL_Vector twist , LSL_Vector dimple , byte fudge )
{
ObjectShapePacket . ObjectDataBlock shapeBlock ;
shapeBlock = SetPrimitiveBlockShapeParams ( part , holeshape , cut , hollow , twist ) ;
// profile/path swapped for a sphere
shapeBlock . PathBegin = shapeBlock . ProfileBegin ;
shapeBlock . PathEnd = shapeBlock . ProfileEnd ;
shapeBlock . ProfileCurve + = fudge ;
shapeBlock . PathScaleX = 100 ;
shapeBlock . PathScaleY = 100 ;
if ( dimple . x < 0f )
{
dimple . x = 0f ;
}
if ( dimple . x > 1f )
{
dimple . x = 1f ;
}
if ( dimple . y < 0f )
{
dimple . y = 0f ;
}
if ( dimple . y > 1f )
{
dimple . y = 1f ;
}
if ( dimple . y - cut . x < 0.05f )
{
dimple . x = cut . y - 0.05f ;
}
shapeBlock . ProfileBegin = ( ushort ) ( 50000 * dimple . x ) ;
shapeBlock . ProfileEnd = ( ushort ) ( 50000 * ( 1 - dimple . y ) ) ;
part . UpdateShape ( shapeBlock ) ;
}
private void SetPrimitiveShapeParams ( SceneObjectPart part , int holeshape , LSL_Vector cut , float hollow , LSL_Vector twist , LSL_Vector holesize , LSL_Vector topshear , LSL_Vector profilecut , LSL_Vector taper_a , float revolutions , float radiusoffset , float skew , byte fudge )
{
ObjectShapePacket . ObjectDataBlock shapeBlock ;
shapeBlock = SetPrimitiveBlockShapeParams ( part , holeshape , cut , hollow , twist ) ;
shapeBlock . ProfileCurve + = fudge ;
// profile/path swapped for a torrus, tube, ring
shapeBlock . PathBegin = shapeBlock . ProfileBegin ;
shapeBlock . PathEnd = shapeBlock . ProfileEnd ;
if ( holesize . x < 0.05f )
{
holesize . x = 0.05f ;
}
if ( holesize . x > 1f )
{
holesize . x = 1f ;
}
if ( holesize . y < 0.05f )
{
holesize . y = 0.05f ;
}
if ( holesize . y > 0.5f )
{
holesize . y = 0.5f ;
}
shapeBlock . PathScaleX = ( byte ) ( 100 * ( 2 - holesize . x ) ) ;
shapeBlock . PathScaleY = ( byte ) ( 100 * ( 2 - holesize . y ) ) ;
if ( topshear . x < - 0.5f )
{
topshear . x = - 0.5f ;
}
if ( topshear . x > 0.5f )
{
topshear . x = 0.5f ;
}
if ( topshear . y < - 0.5f )
{
topshear . y = - 0.5f ;
}
if ( topshear . y > 0.5f )
{
topshear . y = 0.5f ;
}
shapeBlock . PathShearX = ( byte ) ( 100 * topshear . x ) ;
shapeBlock . PathShearY = ( byte ) ( 100 * topshear . y ) ;
if ( profilecut . x < 0f )
{
profilecut . x = 0f ;
}
if ( profilecut . x > 1f )
{
profilecut . x = 1f ;
}
if ( profilecut . y < 0f )
{
profilecut . y = 0f ;
}
if ( profilecut . y > 1f )
{
profilecut . y = 1f ;
}
if ( profilecut . y - cut . x < 0.05f )
{
profilecut . x = cut . y - 0.05f ;
}
shapeBlock . ProfileBegin = ( ushort ) ( 50000 * profilecut . x ) ;
shapeBlock . ProfileEnd = ( ushort ) ( 50000 * ( 1 - profilecut . y ) ) ;
if ( taper_a . x < - 1f )
{
taper_a . x = - 1f ;
}
if ( taper_a . x > 1f )
{
taper_a . x = 1f ;
}
if ( taper_a . y < - 1f )
{
taper_a . y = - 1f ;
}
if ( taper_a . y > 1f )
{
taper_a . y = 1f ;
}
shapeBlock . PathTaperX = ( sbyte ) ( 100 * taper_a . x ) ;
shapeBlock . PathTaperY = ( sbyte ) ( 100 * taper_a . y ) ;
if ( revolutions < 1f )
{
revolutions = 1f ;
}
if ( revolutions > 4f )
{
revolutions = 4f ;
}
shapeBlock . PathRevolutions = ( byte ) ( 66.666667 * ( revolutions - 1.0 ) ) ;
// limits on radiusoffset depend on revolutions and hole size (how?) seems like the maximum range is 0 to 1
if ( radiusoffset < 0f )
{
radiusoffset = 0f ;
}
if ( radiusoffset > 1f )
{
radiusoffset = 1f ;
}
shapeBlock . PathRadiusOffset = ( sbyte ) ( 100 * radiusoffset ) ;
if ( skew < - 0.95f )
{
skew = - 0.95f ;
}
if ( skew > 0.95f )
{
skew = 0.95f ;
}
shapeBlock . PathSkew = ( sbyte ) ( 100 * skew ) ;
part . UpdateShape ( shapeBlock ) ;
}
private void SetPrimitiveShapeParams ( SceneObjectPart part , string map , int type )
{
ObjectShapePacket . ObjectDataBlock shapeBlock = new ObjectShapePacket . ObjectDataBlock ( ) ;
UUID sculptId ;
if ( ! UUID . TryParse ( map , out sculptId ) )
{
llSay ( 0 , "Could not parse key " + map ) ;
return ;
}
shapeBlock . ObjectLocalID = part . LocalId ;
shapeBlock . PathScaleX = 100 ;
shapeBlock . PathScaleY = 150 ;
if ( type ! = ( int ) ScriptBaseClass . PRIM_SCULPT_TYPE_CYLINDER & &
type ! = ( int ) ScriptBaseClass . PRIM_SCULPT_TYPE_PLANE & &
type ! = ( int ) ScriptBaseClass . PRIM_SCULPT_TYPE_SPHERE & &
type ! = ( int ) ScriptBaseClass . PRIM_SCULPT_TYPE_TORUS )
{
// default
type = ( int ) ScriptBaseClass . PRIM_SCULPT_TYPE_SPHERE ;
}
// retain pathcurve
shapeBlock . PathCurve = part . Shape . PathCurve ;
part . Shape . SetSculptData ( ( byte ) type , sculptId ) ;
part . Shape . SculptEntry = true ;
part . UpdateShape ( shapeBlock ) ;
}
public void llSetPrimitiveParams ( LSL_List rules )
{
SetPrimParams ( m_host , rules ) ;
}
public void llSetLinkPrimitiveParams ( int linknumber , LSL_List rules )
{
m_host . AddScriptLPS ( 1 ) ;
List < SceneObjectPart > parts = GetLinkParts ( linknumber ) ;
foreach ( SceneObjectPart part in parts )
SetPrimParams ( part , rules ) ;
}
private void SetPrimParams ( SceneObjectPart part , LSL_List rules )
{
int idx = 0 ;
while ( idx < rules . Length )
{
int code = rules . GetLSLIntegerItem ( idx + + ) ;
int remain = rules . Length - idx ;
int face ;
LSL_Vector v ;
switch ( code )
{
case ( int ) ScriptBaseClass . PRIM_POSITION :
if ( remain < 1 )
return ;
v = rules . GetVector3Item ( idx + + ) ;
SetPos ( part , v ) ;
break ;
case ( int ) ScriptBaseClass . PRIM_SIZE :
if ( remain < 1 )
return ;
v = rules . GetVector3Item ( idx + + ) ;
SetScale ( part , v ) ;
break ;
case ( int ) ScriptBaseClass . PRIM_ROTATION :
if ( remain < 1 )
return ;
LSL_Rotation q = rules . GetQuaternionItem ( idx + + ) ;
SetRot ( part , q ) ;
break ;
case ( int ) ScriptBaseClass . PRIM_TYPE :
if ( remain < 3 )
return ;
code = ( int ) rules . GetLSLIntegerItem ( idx + + ) ;
remain = rules . Length - idx ;
float hollow ;
LSL_Vector twist ;
LSL_Vector taper_b ;
LSL_Vector topshear ;
float revolutions ;
float radiusoffset ;
float skew ;
LSL_Vector holesize ;
LSL_Vector profilecut ;
switch ( code )
{
case ( int ) ScriptBaseClass . PRIM_TYPE_BOX :
if ( remain < 6 )
return ;
face = ( int ) rules . GetLSLIntegerItem ( idx + + ) ;
v = rules . GetVector3Item ( idx + + ) ; // cut
hollow = ( float ) rules . GetLSLFloatItem ( idx + + ) ;
twist = rules . GetVector3Item ( idx + + ) ;
taper_b = rules . GetVector3Item ( idx + + ) ;
topshear = rules . GetVector3Item ( idx + + ) ;
part . Shape . PathCurve = ( byte ) Extrusion . Straight ;
SetPrimitiveShapeParams ( part , face , v , hollow , twist , taper_b , topshear , 1 ) ;
break ;
case ( int ) ScriptBaseClass . PRIM_TYPE_CYLINDER :
if ( remain < 6 )
return ;
face = ( int ) rules . GetLSLIntegerItem ( idx + + ) ; // holeshape
v = rules . GetVector3Item ( idx + + ) ; // cut
hollow = ( float ) rules . GetLSLFloatItem ( idx + + ) ;
twist = rules . GetVector3Item ( idx + + ) ;
taper_b = rules . GetVector3Item ( idx + + ) ;
topshear = rules . GetVector3Item ( idx + + ) ;
part . Shape . ProfileShape = ProfileShape . Circle ;
part . Shape . PathCurve = ( byte ) Extrusion . Straight ;
SetPrimitiveShapeParams ( part , face , v , hollow , twist , taper_b , topshear , 0 ) ;
break ;
case ( int ) ScriptBaseClass . PRIM_TYPE_PRISM :
if ( remain < 6 )
return ;
face = ( int ) rules . GetLSLIntegerItem ( idx + + ) ; // holeshape
v = rules . GetVector3Item ( idx + + ) ; //cut
hollow = ( float ) rules . GetLSLFloatItem ( idx + + ) ;
twist = rules . GetVector3Item ( idx + + ) ;
taper_b = rules . GetVector3Item ( idx + + ) ;
topshear = rules . GetVector3Item ( idx + + ) ;
part . Shape . PathCurve = ( byte ) Extrusion . Straight ;
SetPrimitiveShapeParams ( part , face , v , hollow , twist , taper_b , topshear , 3 ) ;
break ;
case ( int ) ScriptBaseClass . PRIM_TYPE_SPHERE :
if ( remain < 5 )
return ;
face = ( int ) rules . GetLSLIntegerItem ( idx + + ) ; // holeshape
v = rules . GetVector3Item ( idx + + ) ; // cut
hollow = ( float ) rules . GetLSLFloatItem ( idx + + ) ;
twist = rules . GetVector3Item ( idx + + ) ;
taper_b = rules . GetVector3Item ( idx + + ) ; // dimple
part . Shape . PathCurve = ( byte ) Extrusion . Curve1 ;
SetPrimitiveShapeParams ( part , face , v , hollow , twist , taper_b , 5 ) ;
break ;
case ( int ) ScriptBaseClass . PRIM_TYPE_TORUS :
if ( remain < 11 )
return ;
face = ( int ) rules . GetLSLIntegerItem ( idx + + ) ; // holeshape
v = rules . GetVector3Item ( idx + + ) ; //cut
hollow = ( float ) rules . GetLSLFloatItem ( idx + + ) ;
twist = rules . GetVector3Item ( idx + + ) ;
holesize = rules . GetVector3Item ( idx + + ) ;
topshear = rules . GetVector3Item ( idx + + ) ;
profilecut = rules . GetVector3Item ( idx + + ) ;
taper_b = rules . GetVector3Item ( idx + + ) ; // taper_a
revolutions = ( float ) rules . GetLSLFloatItem ( idx + + ) ;
radiusoffset = ( float ) rules . GetLSLFloatItem ( idx + + ) ;
skew = ( float ) rules . GetLSLFloatItem ( idx + + ) ;
part . Shape . PathCurve = ( byte ) Extrusion . Curve1 ;
SetPrimitiveShapeParams ( part , face , v , hollow , twist , holesize , topshear , profilecut , taper_b , revolutions , radiusoffset , skew , 0 ) ;
break ;
case ( int ) ScriptBaseClass . PRIM_TYPE_TUBE :
if ( remain < 11 )
return ;
face = ( int ) rules . GetLSLIntegerItem ( idx + + ) ; // holeshape
v = rules . GetVector3Item ( idx + + ) ; //cut
hollow = ( float ) rules . GetLSLFloatItem ( idx + + ) ;
twist = rules . GetVector3Item ( idx + + ) ;
holesize = rules . GetVector3Item ( idx + + ) ;
topshear = rules . GetVector3Item ( idx + + ) ;
profilecut = rules . GetVector3Item ( idx + + ) ;
taper_b = rules . GetVector3Item ( idx + + ) ; // taper_a
revolutions = ( float ) rules . GetLSLFloatItem ( idx + + ) ;
radiusoffset = ( float ) rules . GetLSLFloatItem ( idx + + ) ;
skew = ( float ) rules . GetLSLFloatItem ( idx + + ) ;
part . Shape . PathCurve = ( byte ) Extrusion . Curve1 ;
SetPrimitiveShapeParams ( part , face , v , hollow , twist , holesize , topshear , profilecut , taper_b , revolutions , radiusoffset , skew , 1 ) ;
break ;
case ( int ) ScriptBaseClass . PRIM_TYPE_RING :
if ( remain < 11 )
return ;
face = ( int ) rules . GetLSLIntegerItem ( idx + + ) ; // holeshape
v = rules . GetVector3Item ( idx + + ) ; //cut
hollow = ( float ) rules . GetLSLFloatItem ( idx + + ) ;
twist = rules . GetVector3Item ( idx + + ) ;
holesize = rules . GetVector3Item ( idx + + ) ;
topshear = rules . GetVector3Item ( idx + + ) ;
profilecut = rules . GetVector3Item ( idx + + ) ;
taper_b = rules . GetVector3Item ( idx + + ) ; // taper_a
revolutions = ( float ) rules . GetLSLFloatItem ( idx + + ) ;
radiusoffset = ( float ) rules . GetLSLFloatItem ( idx + + ) ;
skew = ( float ) rules . GetLSLFloatItem ( idx + + ) ;
part . Shape . PathCurve = ( byte ) Extrusion . Curve1 ;
SetPrimitiveShapeParams ( part , face , v , hollow , twist , holesize , topshear , profilecut , taper_b , revolutions , radiusoffset , skew , 3 ) ;
break ;
case ( int ) ScriptBaseClass . PRIM_TYPE_SCULPT :
if ( remain < 2 )
return ;
string map = rules . Data [ idx + + ] . ToString ( ) ;
face = ( int ) rules . GetLSLIntegerItem ( idx + + ) ; // type
part . Shape . PathCurve = ( byte ) Extrusion . Curve1 ;
SetPrimitiveShapeParams ( part , map , face ) ;
break ;
}
break ;
case ( int ) ScriptBaseClass . PRIM_TEXTURE :
if ( remain < 5 )
return ;
face = ( int ) rules . GetLSLIntegerItem ( idx + + ) ;
string tex = rules . Data [ idx + + ] . ToString ( ) ;
LSL_Vector repeats = rules . GetVector3Item ( idx + + ) ;
LSL_Vector offsets = rules . GetVector3Item ( idx + + ) ;
double rotation = ( double ) rules . GetLSLFloatItem ( idx + + ) ;
SetTexture ( part , tex , face ) ;
ScaleTexture ( part , repeats . x , repeats . y , face ) ;
OffsetTexture ( part , offsets . x , offsets . y , face ) ;
RotateTexture ( part , rotation , face ) ;
break ;
case ( int ) ScriptBaseClass . PRIM_COLOR :
if ( remain < 3 )
return ;
face = ( int ) rules . GetLSLIntegerItem ( idx + + ) ;
LSL_Vector color = rules . GetVector3Item ( idx + + ) ;
double alpha = ( double ) rules . GetLSLFloatItem ( idx + + ) ;
SetColor ( part , color , face ) ;
SetAlpha ( part , alpha , face ) ;
break ;
case ( int ) ScriptBaseClass . PRIM_FLEXIBLE :
if ( remain < 7 )
return ;
bool flexi = rules . GetLSLIntegerItem ( idx + + ) ;
int softness = rules . GetLSLIntegerItem ( idx + + ) ;
float gravity = ( float ) rules . GetLSLFloatItem ( idx + + ) ;
float friction = ( float ) rules . GetLSLFloatItem ( idx + + ) ;
float wind = ( float ) rules . GetLSLFloatItem ( idx + + ) ;
float tension = ( float ) rules . GetLSLFloatItem ( idx + + ) ;
LSL_Vector force = rules . GetVector3Item ( idx + + ) ;
SetFlexi ( part , flexi , softness , gravity , friction , wind , tension , force ) ;
break ;
case ( int ) ScriptBaseClass . PRIM_POINT_LIGHT :
if ( remain < 5 )
return ;
bool light = rules . GetLSLIntegerItem ( idx + + ) ;
LSL_Vector lightcolor = rules . GetVector3Item ( idx + + ) ;
float intensity = ( float ) rules . GetLSLFloatItem ( idx + + ) ;
float radius = ( float ) rules . GetLSLFloatItem ( idx + + ) ;
float falloff = ( float ) rules . GetLSLFloatItem ( idx + + ) ;
SetPointLight ( part , light , lightcolor , intensity , radius , falloff ) ;
break ;
case ( int ) ScriptBaseClass . PRIM_GLOW :
if ( remain < 2 )
return ;
face = rules . GetLSLIntegerItem ( idx + + ) ;
float glow = ( float ) rules . GetLSLFloatItem ( idx + + ) ;
SetGlow ( part , face , glow ) ;
break ;
case ( int ) ScriptBaseClass . PRIM_BUMP_SHINY :
if ( remain < 3 )
return ;
face = ( int ) rules . GetLSLIntegerItem ( idx + + ) ;
int shiny = ( int ) rules . GetLSLIntegerItem ( idx + + ) ;
Bumpiness bump = ( Bumpiness ) Convert . ToByte ( ( int ) rules . GetLSLIntegerItem ( idx + + ) ) ;
SetShiny ( part , face , shiny , bump ) ;
break ;
case ( int ) ScriptBaseClass . PRIM_FULLBRIGHT :
if ( remain < 2 )
return ;
face = rules . GetLSLIntegerItem ( idx + + ) ;
bool st = rules . GetLSLIntegerItem ( idx + + ) ;
SetFullBright ( part , face , st ) ;
break ;
case ( int ) ScriptBaseClass . PRIM_MATERIAL :
if ( remain < 1 )
return ;
if ( part ! = null )
{
/ * Unhandled at this time - sends "Unhandled" message
will enable when available
byte material = Convert . ToByte ( ( int ) rules . GetLSLIntegerItem ( idx + + ) ) ;
part . Material = material ;
* /
return ;
}
break ;
case ( int ) ScriptBaseClass . PRIM_PHANTOM :
if ( remain < 1 )
return ;
string ph = rules . Data [ idx + + ] . ToString ( ) ;
bool phantom ;
if ( ph . Equals ( "1" ) )
phantom = true ;
else
phantom = false ;
part . ScriptSetPhantomStatus ( phantom ) ;
part . ScheduleFullUpdate ( ) ;
break ;
case ( int ) ScriptBaseClass . PRIM_PHYSICS :
if ( remain < 1 )
return ;
string phy = rules . Data [ idx + + ] . ToString ( ) ;
bool physics ;
if ( phy . Equals ( "1" ) )
physics = true ;
else
physics = false ;
m_host . ScriptSetPhysicsStatus ( physics ) ;
part . ScheduleFullUpdate ( ) ;
break ;
}
}
}
public LSL_String llStringToBase64 ( string str )
{
m_host . AddScriptLPS ( 1 ) ;
try
{
byte [ ] encData_byte = new byte [ str . Length ] ;
encData_byte = Encoding . UTF8 . GetBytes ( str ) ;
string encodedData = Convert . ToBase64String ( encData_byte ) ;
return encodedData ;
}
catch ( Exception e )
{
throw new Exception ( "Error in base64Encode" + e . Message ) ;
}
}
public LSL_String llBase64ToString ( string str )
{
m_host . AddScriptLPS ( 1 ) ;
UTF8Encoding encoder = new UTF8Encoding ( ) ;
Decoder utf8Decode = encoder . GetDecoder ( ) ;
try
{
byte [ ] todecode_byte = Convert . FromBase64String ( str ) ;
int charCount = utf8Decode . GetCharCount ( todecode_byte , 0 , todecode_byte . Length ) ;
char [ ] decoded_char = new char [ charCount ] ;
utf8Decode . GetChars ( todecode_byte , 0 , todecode_byte . Length , decoded_char , 0 ) ;
string result = new String ( decoded_char ) ;
return result ;
}
catch ( Exception e )
{
throw new Exception ( "Error in base64Decode" + e . Message ) ;
}
}
public void llXorBase64Strings ( )
{
m_host . AddScriptLPS ( 1 ) ;
Deprecated ( "llXorBase64Strings" ) ;
// ScriptSleep(300);
}
public void llRemoteDataSetRegion ( )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llRemoteDataSetRegion" ) ;
}
public LSL_Float llLog10 ( double val )
{
m_host . AddScriptLPS ( 1 ) ;
return ( double ) Math . Log10 ( val ) ;
}
public LSL_Float llLog ( double val )
{
m_host . AddScriptLPS ( 1 ) ;
return ( double ) Math . Log ( val ) ;
}
public LSL_List llGetAnimationList ( string id )
{
m_host . AddScriptLPS ( 1 ) ;
LSL_List l = new LSL_List ( ) ;
ScenePresence av = World . GetScenePresence ( id ) ;
if ( av = = null )
return l ;
UUID [ ] anims ;
anims = av . GetAnimationArray ( ) ;
foreach ( UUID foo in anims )
l . Add ( foo . ToString ( ) ) ;
return l ;
}
public void llSetParcelMusicURL ( string url )
{
m_host . AddScriptLPS ( 1 ) ;
UUID landowner = World . GetLandOwner ( m_host . AbsolutePosition . X , m_host . AbsolutePosition . Y ) ;
if ( landowner = = UUID . Zero )
{
return ;
}
if ( landowner ! = m_host . ObjectOwner )
{
return ;
}
World . SetLandMusicURL ( m_host . AbsolutePosition . X , m_host . AbsolutePosition . Y , url ) ;
// ScriptSleep(2000);
}
public LSL_Vector llGetRootPosition ( )
{
m_host . AddScriptLPS ( 1 ) ;
return new LSL_Vector ( m_host . ParentGroup . AbsolutePosition . X , m_host . ParentGroup . AbsolutePosition . Y , m_host . ParentGroup . AbsolutePosition . Z ) ;
}
public LSL_Rotation llGetRootRotation ( )
{
m_host . AddScriptLPS ( 1 ) ;
return new LSL_Rotation ( m_host . ParentGroup . GroupRotation . X , m_host . ParentGroup . GroupRotation . Y , m_host . ParentGroup . GroupRotation . Z , m_host . ParentGroup . GroupRotation . W ) ;
}
public LSL_String llGetObjectDesc ( )
{
return m_host . Description ! = null ? m_host . Description : String . Empty ;
}
public void llSetObjectDesc ( string desc )
{
m_host . AddScriptLPS ( 1 ) ;
m_host . Description = desc ! = null ? desc : String . Empty ;
}
public LSL_String llGetCreator ( )
{
m_host . AddScriptLPS ( 1 ) ;
return m_host . ObjectCreator . ToString ( ) ;
}
public LSL_String llGetTimestamp ( )
{
m_host . AddScriptLPS ( 1 ) ;
return DateTime . Now . ToUniversalTime ( ) . ToString ( "yyyy-MM-ddTHH:mm:ss.fffffffZ" ) ;
}
public void llSetLinkAlpha ( int linknumber , double alpha , int face )
{
m_host . AddScriptLPS ( 1 ) ;
SceneObjectPart part = m_host . ParentGroup . GetLinkNumPart ( linknumber ) ;
if ( linknumber > - 1 )
{
Primitive . TextureEntry tex = part . Shape . Textures ;
Color4 texcolor ;
if ( face > = 0 & & face < GetNumberOfSides ( m_host ) )
{
texcolor = tex . CreateFace ( ( uint ) face ) . RGBA ;
texcolor . A = Util . Clip ( ( float ) alpha , 0.0f , 1.0f ) ;
tex . FaceTextures [ face ] . RGBA = texcolor ;
part . UpdateTexture ( tex ) ;
return ;
}
else if ( face = = ScriptBaseClass . ALL_SIDES )
{
texcolor = tex . DefaultTexture . RGBA ;
texcolor . A = Util . Clip ( ( float ) alpha , 0.0f , 1.0f ) ;
tex . DefaultTexture . RGBA = texcolor ;
for ( uint i = 0 ; i < GetNumberOfSides ( m_host ) ; i + + )
{
if ( tex . FaceTextures [ i ] ! = null )
{
texcolor = tex . FaceTextures [ i ] . RGBA ;
texcolor . A = Util . Clip ( ( float ) alpha , 0.0f , 1.0f ) ;
tex . FaceTextures [ i ] . RGBA = texcolor ;
}
}
texcolor = tex . DefaultTexture . RGBA ;
texcolor . A = Util . Clip ( ( float ) alpha , 0.0f , 1.0f ) ;
tex . DefaultTexture . RGBA = texcolor ;
part . UpdateTexture ( tex ) ;
return ;
}
return ;
}
else if ( linknumber = = - 1 )
{
int num = m_host . ParentGroup . PrimCount ;
for ( int w = 0 ; w < num ; w + + )
{
linknumber = w ;
part = m_host . ParentGroup . GetLinkNumPart ( linknumber ) ;
Primitive . TextureEntry tex = part . Shape . Textures ;
Color4 texcolor ;
if ( face > - 1 )
{
texcolor = tex . CreateFace ( ( uint ) face ) . RGBA ;
texcolor . A = Util . Clip ( ( float ) alpha , 0.0f , 1.0f ) ;
tex . FaceTextures [ face ] . RGBA = texcolor ;
part . UpdateTexture ( tex ) ;
}
else if ( face = = - 1 )
{
texcolor = tex . DefaultTexture . RGBA ;
texcolor . A = Util . Clip ( ( float ) alpha , 0.0f , 1.0f ) ;
tex . DefaultTexture . RGBA = texcolor ;
for ( uint i = 0 ; i < 32 ; i + + )
{
if ( tex . FaceTextures [ i ] ! = null )
{
texcolor = tex . FaceTextures [ i ] . RGBA ;
texcolor . A = Util . Clip ( ( float ) alpha , 0.0f , 1.0f ) ;
tex . FaceTextures [ i ] . RGBA = texcolor ;
}
}
texcolor = tex . DefaultTexture . RGBA ;
texcolor . A = Util . Clip ( ( float ) alpha , 0.0f , 1.0f ) ;
tex . DefaultTexture . RGBA = texcolor ;
part . UpdateTexture ( tex ) ;
}
}
return ;
}
}
public LSL_Integer llGetNumberOfPrims ( )
{
m_host . AddScriptLPS ( 1 ) ;
return m_host . ParentGroup . PrimCount ;
}
public LSL_List llGetBoundingBox ( string obj )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llGetBoundingBox" ) ;
return new LSL_List ( ) ;
}
public LSL_Vector llGetGeometricCenter ( )
{
return new LSL_Vector ( m_host . GetGeometricCenter ( ) . X , m_host . GetGeometricCenter ( ) . Y , m_host . GetGeometricCenter ( ) . Z ) ;
}
public LSL_List llGetPrimitiveParams ( LSL_List rules )
{
m_host . AddScriptLPS ( 1 ) ;
LSL_List res = new LSL_List ( ) ;
int idx = 0 ;
while ( idx < rules . Length )
{
int code = ( int ) rules . GetLSLIntegerItem ( idx + + ) ;
int remain = rules . Length - idx ;
switch ( code )
{
case ( int ) ScriptBaseClass . PRIM_MATERIAL :
res . Add ( new LSL_Integer ( m_host . Material ) ) ;
break ;
case ( int ) ScriptBaseClass . PRIM_PHYSICS :
if ( ( m_host . GetEffectiveObjectFlags ( ) & ( uint ) PrimFlags . Physics ) ! = 0 )
res . Add ( new LSL_Integer ( 1 ) ) ;
else
res . Add ( new LSL_Integer ( 0 ) ) ;
break ;
case ( int ) ScriptBaseClass . PRIM_TEMP_ON_REZ :
if ( ( m_host . GetEffectiveObjectFlags ( ) & ( uint ) PrimFlags . TemporaryOnRez ) ! = 0 )
res . Add ( new LSL_Integer ( 1 ) ) ;
else
res . Add ( new LSL_Integer ( 0 ) ) ;
break ;
case ( int ) ScriptBaseClass . PRIM_PHANTOM :
if ( ( m_host . GetEffectiveObjectFlags ( ) & ( uint ) PrimFlags . Phantom ) ! = 0 )
res . Add ( new LSL_Integer ( 1 ) ) ;
else
res . Add ( new LSL_Integer ( 0 ) ) ;
break ;
case ( int ) ScriptBaseClass . PRIM_POSITION :
res . Add ( new LSL_Vector ( m_host . AbsolutePosition . X ,
m_host . AbsolutePosition . Y ,
m_host . AbsolutePosition . Z ) ) ;
break ;
case ( int ) ScriptBaseClass . PRIM_SIZE :
res . Add ( new LSL_Vector ( m_host . Scale . X ,
m_host . Scale . Y ,
m_host . Scale . Z ) ) ;
break ;
case ( int ) ScriptBaseClass . PRIM_ROTATION :
res . Add ( new LSL_Rotation ( m_host . RotationOffset . X ,
m_host . RotationOffset . Y ,
m_host . RotationOffset . Z ,
m_host . RotationOffset . W ) ) ;
break ;
case ( int ) ScriptBaseClass . PRIM_TYPE :
// implementing box
PrimitiveBaseShape Shape = m_host . Shape ;
int primType = getScriptPrimType ( m_host . Shape ) ;
res . Add ( new LSL_Integer ( primType ) ) ;
switch ( primType )
{
case ScriptBaseClass . PRIM_TYPE_BOX :
case ScriptBaseClass . PRIM_TYPE_CYLINDER :
case ScriptBaseClass . PRIM_TYPE_PRISM :
res . Add ( new LSL_Integer ( Shape . ProfileCurve ) ) ;
res . Add ( new LSL_Vector ( Shape . ProfileBegin / 50000.0 , 1 - Shape . ProfileEnd / 50000.0 , 0 ) ) ;
res . Add ( new LSL_Float ( Shape . ProfileHollow / 50000.0 ) ) ;
res . Add ( new LSL_Vector ( Shape . PathTwistBegin / 100.0 , Shape . PathTwist / 100.0 , 0 ) ) ;
res . Add ( new LSL_Vector ( 1 - ( Shape . PathScaleX / 100.0 - 1 ) , 1 - ( Shape . PathScaleY / 100.0 - 1 ) , 0 ) ) ;
res . Add ( new LSL_Vector ( Shape . PathShearX / 100.0 , Shape . PathShearY / 100.0 , 0 ) ) ;
break ;
case ScriptBaseClass . PRIM_TYPE_SPHERE :
res . Add ( new LSL_Integer ( Shape . ProfileCurve ) ) ;
res . Add ( new LSL_Vector ( Shape . PathBegin / 50000.0 , 1 - Shape . PathEnd / 50000.0 , 0 ) ) ;
res . Add ( new LSL_Float ( Shape . ProfileHollow / 50000.0 ) ) ;
res . Add ( new LSL_Vector ( Shape . PathTwistBegin / 100.0 , Shape . PathTwist / 100.0 , 0 ) ) ;
res . Add ( new LSL_Vector ( Shape . ProfileBegin / 50000.0 , 1 - Shape . ProfileEnd / 50000.0 , 0 ) ) ;
break ;
case ScriptBaseClass . PRIM_TYPE_SCULPT :
res . Add ( Shape . SculptTexture . ToString ( ) ) ;
res . Add ( new LSL_Integer ( Shape . SculptType ) ) ;
break ;
case ScriptBaseClass . PRIM_TYPE_RING :
case ScriptBaseClass . PRIM_TYPE_TUBE :
case ScriptBaseClass . PRIM_TYPE_TORUS :
// holeshape
res . Add ( new LSL_Integer ( Shape . ProfileCurve ) ) ;
// cut
res . Add ( new LSL_Vector ( Shape . PathBegin / 50000.0 , 1 - Shape . PathEnd / 50000.0 , 0 ) ) ;
// hollow
res . Add ( new LSL_Float ( Shape . ProfileHollow / 50000.0 ) ) ;
// twist
res . Add ( new LSL_Vector ( Shape . PathTwistBegin / 100.0 , Shape . PathTwist / 100.0 , 0 ) ) ;
// vector holesize
res . Add ( new LSL_Vector ( 1 - ( Shape . PathScaleX / 100.0 - 1 ) , 1 - ( Shape . PathScaleY / 100.0 - 1 ) , 0 ) ) ;
// vector topshear
res . Add ( new LSL_Vector ( Shape . PathShearX / 100.0 , Shape . PathShearY / 100.0 , 0 ) ) ;
// vector profilecut
res . Add ( new LSL_Vector ( Shape . ProfileBegin / 50000.0 , 1 - Shape . ProfileEnd / 50000.0 , 0 ) ) ;
// vector tapera
res . Add ( new LSL_Vector ( Shape . PathTaperX / 100.0 , Shape . PathTaperY / 100.0 , 0 ) ) ;
// float revolutions,
res . Add ( new LSL_Float ( Shape . PathRevolutions / 50.0 ) ) ; // needs fixing :(
// float radiusoffset,
res . Add ( new LSL_Float ( Shape . PathRadiusOffset / 100.0 ) ) ;
// float skew
res . Add ( new LSL_Float ( Shape . PathSkew / 100.0 ) ) ;
break ;
}
break ;
case ( int ) ScriptBaseClass . PRIM_TEXTURE :
if ( remain < 1 )
return res ;
int face = ( int ) rules . GetLSLIntegerItem ( idx + + ) ;
Primitive . TextureEntry tex = m_host . Shape . Textures ;
if ( face = = ScriptBaseClass . ALL_SIDES )
{
for ( face = 0 ; face < GetNumberOfSides ( m_host ) ; face + + )
{
Primitive . TextureEntryFace texface = tex . GetFace ( ( uint ) face ) ;
res . Add ( new LSL_String ( texface . TextureID . ToString ( ) ) ) ;
res . Add ( new LSL_Vector ( texface . RepeatU ,
texface . RepeatV ,
0 ) ) ;
res . Add ( new LSL_Vector ( texface . OffsetU ,
texface . OffsetV ,
0 ) ) ;
res . Add ( new LSL_Float ( texface . Rotation ) ) ;
}
}
else
{
if ( face > = 0 & & face < GetNumberOfSides ( m_host ) )
{
Primitive . TextureEntryFace texface = tex . GetFace ( ( uint ) face ) ;
res . Add ( new LSL_String ( texface . TextureID . ToString ( ) ) ) ;
res . Add ( new LSL_Vector ( texface . RepeatU ,
texface . RepeatV ,
0 ) ) ;
res . Add ( new LSL_Vector ( texface . OffsetU ,
texface . OffsetV ,
0 ) ) ;
res . Add ( new LSL_Float ( texface . Rotation ) ) ;
}
}
break ;
case ( int ) ScriptBaseClass . PRIM_COLOR :
if ( remain < 1 )
return res ;
face = ( int ) rules . GetLSLIntegerItem ( idx + + ) ;
tex = m_host . Shape . Textures ;
Color4 texcolor ;
if ( face = = ScriptBaseClass . ALL_SIDES )
{
for ( face = 0 ; face < GetNumberOfSides ( m_host ) ; face + + )
{
texcolor = tex . GetFace ( ( uint ) face ) . RGBA ;
res . Add ( new LSL_Vector ( texcolor . R ,
texcolor . G ,
texcolor . B ) ) ;
res . Add ( new LSL_Float ( texcolor . A ) ) ;
}
}
else
{
texcolor = tex . GetFace ( ( uint ) face ) . RGBA ;
res . Add ( new LSL_Vector ( texcolor . R ,
texcolor . G ,
texcolor . B ) ) ;
res . Add ( new LSL_Float ( texcolor . A ) ) ;
}
break ;
case ( int ) ScriptBaseClass . PRIM_BUMP_SHINY :
// TODO--------------
if ( remain < 1 )
return res ;
face = ( int ) rules . GetLSLIntegerItem ( idx + + ) ;
res . Add ( new LSL_Integer ( 0 ) ) ;
res . Add ( new LSL_Integer ( 0 ) ) ;
break ;
case ( int ) ScriptBaseClass . PRIM_FULLBRIGHT :
// TODO--------------
if ( remain < 1 )
return res ;
face = ( int ) rules . GetLSLIntegerItem ( idx + + ) ;
res . Add ( new LSL_Integer ( 0 ) ) ;
break ;
case ( int ) ScriptBaseClass . PRIM_FLEXIBLE :
PrimitiveBaseShape shape = m_host . Shape ;
if ( shape . FlexiEntry )
res . Add ( new LSL_Integer ( 1 ) ) ; // active
else
res . Add ( new LSL_Integer ( 0 ) ) ;
res . Add ( new LSL_Integer ( shape . FlexiSoftness ) ) ; // softness
res . Add ( new LSL_Float ( shape . FlexiGravity ) ) ; // gravity
res . Add ( new LSL_Float ( shape . FlexiDrag ) ) ; // friction
res . Add ( new LSL_Float ( shape . FlexiWind ) ) ; // wind
res . Add ( new LSL_Float ( shape . FlexiTension ) ) ; // tension
res . Add ( new LSL_Vector ( shape . FlexiForceX , // force
shape . FlexiForceY ,
shape . FlexiForceZ ) ) ;
break ;
case ( int ) ScriptBaseClass . PRIM_TEXGEN :
// TODO--------------
// (PRIM_TEXGEN_DEFAULT, PRIM_TEXGEN_PLANAR)
if ( remain < 1 )
return res ;
face = ( int ) rules . GetLSLIntegerItem ( idx + + ) ;
res . Add ( new LSL_Integer ( 0 ) ) ;
break ;
case ( int ) ScriptBaseClass . PRIM_POINT_LIGHT :
shape = m_host . Shape ;
if ( shape . LightEntry )
res . Add ( new LSL_Integer ( 1 ) ) ; // active
else
res . Add ( new LSL_Integer ( 0 ) ) ;
res . Add ( new LSL_Vector ( shape . LightColorR , // color
shape . LightColorG ,
shape . LightColorB ) ) ;
res . Add ( new LSL_Float ( shape . LightIntensity ) ) ; // intensity
res . Add ( new LSL_Float ( shape . LightRadius ) ) ; // radius
res . Add ( new LSL_Float ( shape . LightFalloff ) ) ; // falloff
break ;
case ( int ) ScriptBaseClass . PRIM_GLOW :
// TODO--------------
if ( remain < 1 )
return res ;
face = ( int ) rules . GetLSLIntegerItem ( idx + + ) ;
res . Add ( new LSL_Float ( 0 ) ) ;
break ;
}
}
return res ;
}
// <remarks>
// <para>
// The .NET definition of base 64 is:
// <list>
// <item>
// Significant: A-Z a-z 0-9 + -
// </item>
// <item>
// Whitespace: \t \n \r ' '
// </item>
// <item>
// Valueless: =
// </item>
// <item>
// End-of-string: \0 or '=='
// </item>
// </list>
// </para>
// <para>
// Each point in a base-64 string represents
// a 6 bit value. A 32-bit integer can be
// represented using 6 characters (with some
// redundancy).
// </para>
// <para>
// LSL requires a base64 string to be 8
// characters in length. LSL also uses '/'
// rather than '-' (MIME compliant).
// </para>
// <para>
// RFC 1341 used as a reference (as specified
// by the SecondLife Wiki).
// </para>
// <para>
// SL do not record any kind of exception for
// these functions, so the string to integer
// conversion returns '0' if an invalid
// character is encountered during conversion.
// </para>
// <para>
// References
// <list>
// <item>
// http://lslwiki.net/lslwiki/wakka.php?wakka=Base64
// </item>
// <item>
// </item>
// </list>
// </para>
// </remarks>
// <summary>
// Table for converting 6-bit integers into
// base-64 characters
// </summary>
private static readonly char [ ] i2ctable =
{
'A' , 'B' , 'C' , 'D' , 'E' , 'F' , 'G' , 'H' ,
'I' , 'J' , 'K' , 'L' , 'M' , 'N' , 'O' , 'P' ,
'Q' , 'R' , 'S' , 'T' , 'U' , 'V' , 'W' , 'X' ,
'Y' , 'Z' ,
'a' , 'b' , 'c' , 'd' , 'e' , 'f' , 'g' , 'h' ,
'i' , 'j' , 'k' , 'l' , 'm' , 'n' , 'o' , 'p' ,
'q' , 'r' , 's' , 't' , 'u' , 'v' , 'w' , 'x' ,
'y' , 'z' ,
'0' , '1' , '2' , '3' , '4' , '5' , '6' , '7' ,
'8' , '9' ,
'+' , '/'
} ;
// <summary>
// Table for converting base-64 characters
// into 6-bit integers.
// </summary>
private static readonly int [ ] c2itable =
{
- 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , // 0x
- 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 ,
- 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , // 1x
- 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 ,
- 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , // 2x
- 1 , - 1 , - 1 , 63 , - 1 , - 1 , - 1 , 64 ,
53 , 54 , 55 , 56 , 57 , 58 , 59 , 60 , // 3x
61 , 62 , - 1 , - 1 , - 1 , 0 , - 1 , - 1 ,
- 1 , 1 , 2 , 3 , 4 , 5 , 6 , 7 , // 4x
8 , 9 , 10 , 11 , 12 , 13 , 14 , 15 ,
16 , 17 , 18 , 19 , 20 , 21 , 22 , 23 , // 5x
24 , 25 , 26 , - 1 , - 1 , - 1 , - 1 , - 1 ,
- 1 , 27 , 28 , 29 , 30 , 31 , 32 , 33 , // 6x
34 , 35 , 36 , 37 , 38 , 39 , 40 , 41 ,
42 , 43 , 44 , 45 , 46 , 47 , 48 , 49 , // 7x
50 , 51 , 52 , - 1 , - 1 , - 1 , - 1 , - 1 ,
- 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , // 8x
- 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 ,
- 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , // 9x
- 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 ,
- 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , // Ax
- 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 ,
- 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , // Bx
- 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 ,
- 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , // Cx
- 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 ,
- 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , // Dx
- 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 ,
- 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , // Ex
- 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 ,
- 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , // Fx
- 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1
} ;
// <summary>
// Converts a 32-bit integer into a Base64
// character string. Base64 character strings
// are always 8 characters long. All iinteger
// values are acceptable.
// </summary>
// <param name="number">
// 32-bit integer to be converted.
// </param>
// <returns>
// 8 character string. The 1st six characters
// contain the encoded number, the last two
// characters are padded with "=".
// </returns>
public LSL_String llIntegerToBase64 ( int number )
{
// uninitialized string
char [ ] imdt = new char [ 8 ] ;
m_host . AddScriptLPS ( 1 ) ;
// Manually unroll the loop
imdt [ 7 ] = '=' ;
imdt [ 6 ] = '=' ;
imdt [ 5 ] = i2ctable [ number < < 4 & 0x3F ] ;
imdt [ 4 ] = i2ctable [ number > > 2 & 0x3F ] ;
imdt [ 3 ] = i2ctable [ number > > 8 & 0x3F ] ;
imdt [ 2 ] = i2ctable [ number > > 14 & 0x3F ] ;
imdt [ 1 ] = i2ctable [ number > > 20 & 0x3F ] ;
imdt [ 0 ] = i2ctable [ number > > 26 & 0x3F ] ;
return new string ( imdt ) ;
}
// <summary>
// Converts an eight character base-64 string
// into a 32-bit integer.
// </summary>
// <param name="str">
// 8 characters string to be converted. Other
// length strings return zero.
// </param>
// <returns>
// Returns an integer representing the
// encoded value providedint he 1st 6
// characters of the string.
// </returns>
// <remarks>
// This is coded to behave like LSL's
// implementation (I think), based upon the
// information available at the Wiki.
// If more than 8 characters are supplied,
// zero is returned.
// If a NULL string is supplied, zero will
// be returned.
// If fewer than 6 characters are supplied, then
// the answer will reflect a partial
// accumulation.
// <para>
// The 6-bit segments are
// extracted left-to-right in big-endian mode,
// which means that segment 6 only contains the
// two low-order bits of the 32 bit integer as
// its high order 2 bits. A short string therefore
// means loss of low-order information. E.g.
/ /
// |<---------------------- 32-bit integer ----------------------->|<-Pad->|
// |<--Byte 0----->|<--Byte 1----->|<--Byte 2----->|<--Byte 3----->|<-Pad->|
// |3|3|2|2|2|2|2|2|2|2|2|2|1|1|1|1|1|1|1|1|1|1| | | | | | | | | | |P|P|P|P|
// |1|0|9|8|7|6|5|4|3|2|1|0|9|8|7|6|5|4|3|2|1|0|9|8|7|6|5|4|3|2|1|0|P|P|P|P|
// | str[0] | str[1] | str[2] | str[3] | str[4] | str[6] |
/ /
// </para>
// </remarks>
public LSL_Integer llBase64ToInteger ( string str )
{
int number = 0 ;
int digit ;
m_host . AddScriptLPS ( 1 ) ;
// Require a well-fromed base64 string
if ( str . Length > 8 )
return 0 ;
// The loop is unrolled in the interests
// of performance and simple necessity.
/ /
// MUST find 6 digits to be well formed
// -1 == invalid
// 0 == padding
if ( ( digit = c2itable [ str [ 0 ] ] ) < = 0 )
{
return digit < 0 ? ( int ) 0 : number ;
}
number + = - - digit < < 26 ;
if ( ( digit = c2itable [ str [ 1 ] ] ) < = 0 )
{
return digit < 0 ? ( int ) 0 : number ;
}
number + = - - digit < < 20 ;
if ( ( digit = c2itable [ str [ 2 ] ] ) < = 0 )
{
return digit < 0 ? ( int ) 0 : number ;
}
number + = - - digit < < 14 ;
if ( ( digit = c2itable [ str [ 3 ] ] ) < = 0 )
{
return digit < 0 ? ( int ) 0 : number ;
}
number + = - - digit < < 8 ;
if ( ( digit = c2itable [ str [ 4 ] ] ) < = 0 )
{
return digit < 0 ? ( int ) 0 : number ;
}
number + = - - digit < < 2 ;
if ( ( digit = c2itable [ str [ 5 ] ] ) < = 0 )
{
return digit < 0 ? ( int ) 0 : number ;
}
number + = - - digit > > 4 ;
// ignore trailing padding
return number ;
}
public LSL_Float llGetGMTclock ( )
{
m_host . AddScriptLPS ( 1 ) ;
return DateTime . UtcNow . TimeOfDay . TotalSeconds ;
}
public LSL_String llGetSimulatorHostname ( )
{
m_host . AddScriptLPS ( 1 ) ;
return System . Environment . MachineName ;
}
public void llSetLocalRot ( LSL_Rotation rot )
{
m_host . AddScriptLPS ( 1 ) ;
m_host . RotationOffset = new Quaternion ( ( float ) rot . x , ( float ) rot . y , ( float ) rot . z , ( float ) rot . s ) ;
// ScriptSleep(200);
}
// <summary>
// Scan the string supplied in 'src' and
// tokenize it based upon two sets of
// tokenizers provided in two lists,
// separators and spacers.
// </summary>
/ /
// <remarks>
// Separators demarcate tokens and are
// elided as they are encountered. Spacers
// also demarcate tokens, but are themselves
// retained as tokens.
/ /
// Both separators and spacers may be arbitrarily
// long strings. i.e. ":::".
/ /
// The function returns an ordered list
// representing the tokens found in the supplied
// sources string. If two successive tokenizers
// are encountered, then a NULL entry is added
// to the list.
/ /
// It is a precondition that the source and
// toekizer lisst are non-null. If they are null,
// then a null pointer exception will be thrown
// while their lengths are being determined.
/ /
// A small amount of working memoryis required
// of approximately 8*#tokenizers.
/ /
// There are many ways in which this function
// can be implemented, this implementation is
// fairly naive and assumes that when the
// function is invooked with a short source
// string and/or short lists of tokenizers, then
// performance will not be an issue.
/ /
// In order to minimize the perofrmance
// effects of long strings, or large numbers
// of tokeizers, the function skips as far as
// possible whenever a toekenizer is found,
// and eliminates redundant tokenizers as soon
// as is possible.
/ /
// The implementation tries to avoid any copying
// of arrays or other objects.
// </remarks>
public LSL_List llParseStringKeepNulls ( string src , LSL_List separators , LSL_List spacers )
{
int beginning = 0 ;
int srclen = src . Length ;
int seplen = separators . Length ;
object [ ] separray = separators . Data ;
int spclen = spacers . Length ;
object [ ] spcarray = spacers . Data ;
int mlen = seplen + spclen ;
int [ ] offset = new int [ mlen + 1 ] ;
bool [ ] active = new bool [ mlen ] ;
int best ;
int j ;
// Initial capacity reduces resize cost
LSL_List tokens = new LSL_List ( ) ;
m_host . AddScriptLPS ( 1 ) ;
// All entries are initially valid
for ( int i = 0 ; i < mlen ; i + + )
active [ i ] = true ;
offset [ mlen ] = srclen ;
while ( beginning < srclen )
{
best = mlen ; // as bad as it gets
// Scan for separators
for ( j = 0 ; j < seplen ; j + + )
{
if ( active [ j ] )
{
// scan all of the markers
if ( ( offset [ j ] = src . IndexOf ( separray [ j ] . ToString ( ) , beginning ) ) = = - 1 )
{
// not present at all
active [ j ] = false ;
}
else
{
// present and correct
if ( offset [ j ] < offset [ best ] )
{
// closest so far
best = j ;
if ( offset [ best ] = = beginning )
break ;
}
}
}
}
// Scan for spacers
if ( offset [ best ] ! = beginning )
{
for ( j = seplen ; ( j < mlen ) & & ( offset [ best ] > beginning ) ; j + + )
{
if ( active [ j ] )
{
// scan all of the markers
if ( ( offset [ j ] = src . IndexOf ( spcarray [ j - seplen ] . ToString ( ) , beginning ) ) = = - 1 )
{
// not present at all
active [ j ] = false ;
}
else
{
// present and correct
if ( offset [ j ] < offset [ best ] )
{
// closest so far
best = j ;
}
}
}
}
}
// This is the normal exit from the scanning loop
if ( best = = mlen )
{
// no markers were found on this pass
// so we're pretty much done
tokens . Add ( src . Substring ( beginning , srclen - beginning ) ) ;
break ;
}
// Otherwise we just add the newly delimited token
// and recalculate where the search should continue.
tokens . Add ( src . Substring ( beginning , offset [ best ] - beginning ) ) ;
if ( best < seplen )
{
beginning = offset [ best ] + ( separray [ best ] . ToString ( ) ) . Length ;
}
else
{
beginning = offset [ best ] + ( spcarray [ best - seplen ] . ToString ( ) ) . Length ;
tokens . Add ( spcarray [ best - seplen ] ) ;
}
}
// This an awkward an not very intuitive boundary case. If the
// last substring is a tokenizer, then there is an implied trailing
// null list entry. Hopefully the single comparison will not be too
// arduous. Alternatively the 'break' could be replced with a return
// but that's shabby programming.
if ( beginning = = srclen )
{
if ( srclen ! = 0 )
tokens . Add ( "" ) ;
}
return tokens ;
}
public LSL_Integer llGetObjectPermMask ( int mask )
{
m_host . AddScriptLPS ( 1 ) ;
int permmask = 0 ;
if ( mask = = ScriptBaseClass . MASK_BASE ) //0
{
permmask = ( int ) m_host . BaseMask ;
}
else if ( mask = = ScriptBaseClass . MASK_OWNER ) //1
{
permmask = ( int ) m_host . OwnerMask ;
}
else if ( mask = = ScriptBaseClass . MASK_GROUP ) //2
{
permmask = ( int ) m_host . GroupMask ;
}
else if ( mask = = ScriptBaseClass . MASK_EVERYONE ) //3
{
permmask = ( int ) m_host . EveryoneMask ;
}
else if ( mask = = ScriptBaseClass . MASK_NEXT ) //4
{
permmask = ( int ) m_host . NextOwnerMask ;
}
return permmask ;
}
public void llSetObjectPermMask ( int mask , int value )
{
m_host . AddScriptLPS ( 1 ) ;
IConfigSource config = new IniConfigSource ( Application . iniFilePath ) ;
if ( config . Configs [ "XEngine" ] = = null )
config . AddConfig ( "XEngine" ) ;
if ( config . Configs [ "XEngine" ] . GetBoolean ( "AllowGodFunctions" , false ) )
{
if ( World . ExternalChecks . ExternalChecksCanRunConsoleCommand ( m_host . OwnerID ) )
{
if ( mask = = ScriptBaseClass . MASK_BASE ) //0
{
m_host . BaseMask = ( uint ) value ;
}
else if ( mask = = ScriptBaseClass . MASK_OWNER ) //1
{
m_host . OwnerMask = ( uint ) value ;
}
else if ( mask = = ScriptBaseClass . MASK_GROUP ) //2
{
m_host . GroupMask = ( uint ) value ;
}
else if ( mask = = ScriptBaseClass . MASK_EVERYONE ) //3
{
m_host . EveryoneMask = ( uint ) value ;
}
else if ( mask = = ScriptBaseClass . MASK_NEXT ) //4
{
m_host . NextOwnerMask = ( uint ) value ;
}
}
}
}
public LSL_Integer llGetInventoryPermMask ( string item , int mask )
{
m_host . AddScriptLPS ( 1 ) ;
foreach ( KeyValuePair < UUID , TaskInventoryItem > inv in m_host . TaskInventory )
{
if ( inv . Value . Name = = item )
{
switch ( mask )
{
case 0 :
return ( int ) inv . Value . BasePermissions ;
case 1 :
return ( int ) inv . Value . CurrentPermissions ;
case 2 :
return ( int ) inv . Value . GroupPermissions ;
case 3 :
return ( int ) inv . Value . EveryonePermissions ;
case 4 :
return ( int ) inv . Value . NextPermissions ;
}
}
}
return - 1 ;
}
public void llSetInventoryPermMask ( string item , int mask , int value )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llSetInventoryPermMask" ) ;
}
public LSL_String llGetInventoryCreator ( string item )
{
m_host . AddScriptLPS ( 1 ) ;
foreach ( KeyValuePair < UUID , TaskInventoryItem > inv in m_host . TaskInventory )
{
if ( inv . Value . Name = = item )
{
return inv . Value . CreatorID . ToString ( ) ;
}
}
llSay ( 0 , "No item name '" + item + "'" ) ;
return String . Empty ;
}
public void llOwnerSay ( string msg )
{
m_host . AddScriptLPS ( 1 ) ;
World . SimChatBroadcast ( Utils . StringToBytes ( msg ) , ChatTypeEnum . Owner , 0 , m_host . AbsolutePosition , m_host . Name , m_host . UUID , false ) ;
// IWorldComm wComm = m_ScriptEngine.World.RequestModuleInterface<IWorldComm>();
// wComm.DeliverMessage(ChatTypeEnum.Owner, 0, m_host.Name, m_host.UUID, msg);
}
public LSL_String llRequestSimulatorData ( string simulator , int data )
{
try
{
m_host . AddScriptLPS ( 1 ) ;
string reply = String . Empty ;
RegionInfo info = m_ScriptEngine . World . RequestClosestRegion ( simulator ) ;
switch ( data )
{
case 5 : // DATA_SIM_POS
if ( info = = null )
{
// ScriptSleep(1000);
return UUID . Zero . ToString ( ) ;
}
reply = new LSL_Vector (
info . RegionLocX * Constants . RegionSize ,
info . RegionLocY * Constants . RegionSize ,
0 ) . ToString ( ) ;
break ;
case 6 : // DATA_SIM_STATUS
if ( info ! = null )
reply = "up" ; // Duh!
else
reply = "unknown" ;
break ;
case 7 : // DATA_SIM_RATING
if ( info = = null )
{
// ScriptSleep(1000);
return UUID . Zero . ToString ( ) ;
}
int access = info . RegionSettings . Maturity ;
if ( access = = 0 )
reply = "PG" ;
else if ( access = = 1 )
reply = "MATURE" ;
else
reply = "UNKNOWN" ;
break ;
case 128 : // SIM_RELEASE (not LSL conform, valid for OpenSim only)
reply = m_ScriptEngine . World . GetSimulatorVersion ( ) ;
break ;
default :
// ScriptSleep(1000);
return UUID . Zero . ToString ( ) ; // Raise no event
}
UUID rq = UUID . Random ( ) ;
UUID tid = AsyncCommands .
DataserverPlugin . RegisterRequest ( m_localID , m_itemID , rq . ToString ( ) ) ;
AsyncCommands .
DataserverPlugin . DataserverReply ( rq . ToString ( ) , reply ) ;
// ScriptSleep(1000);
return tid . ToString ( ) ;
}
catch ( Exception e )
{
Console . WriteLine ( e . ToString ( ) ) ;
return UUID . Zero . ToString ( ) ;
}
}
public void llForceMouselook ( int mouselook )
{
m_host . AddScriptLPS ( 1 ) ;
m_host . SetForceMouselook ( mouselook ! = 0 ) ;
}
public LSL_Float llGetObjectMass ( string id )
{
m_host . AddScriptLPS ( 1 ) ;
UUID key = new UUID ( ) ;
if ( UUID . TryParse ( id , out key ) )
{
try
{
SceneObjectPart obj = World . GetSceneObjectPart ( World . Entities [ key ] . LocalId ) ;
if ( obj ! = null )
return ( double ) obj . GetMass ( ) ;
// the object is null so the key is for an avatar
ScenePresence avatar = World . GetScenePresence ( key ) ;
if ( avatar ! = null )
if ( avatar . IsChildAgent )
// reference http://www.lslwiki.net/lslwiki/wakka.php?wakka=llGetObjectMass
// child agents have a mass of 1.0
return 1 ;
else
return ( double ) avatar . PhysicsActor . Mass ;
}
catch ( KeyNotFoundException )
{
return 0 ; // The Object/Agent not in the region so just return zero
}
}
return 0 ;
}
/// <summary>
/// illListReplaceList removes the sub-list defined by the inclusive indices
/// start and end and inserts the src list in its place. The inclusive
/// nature of the indices means that at least one element must be deleted
/// if the indices are within the bounds of the existing list. I.e. 2,2
/// will remove the element at index 2 and replace it with the source
/// list. Both indices may be negative, with the usual interpretation. An
/// interesting case is where end is lower than start. As these indices
/// bound the list to be removed, then 0->end, and start->lim are removed
/// and the source list is added as a suffix.
/// </summary>
public LSL_List llListReplaceList ( LSL_List dest , LSL_List src , int start , int end )
{
LSL_List pref = null ;
m_host . AddScriptLPS ( 1 ) ;
// Note that although we have normalized, both
// indices could still be negative.
if ( start < 0 )
{
start = start + dest . Length ;
}
if ( end < 0 )
{
end = end + dest . Length ;
}
// The comventional case, remove a sequence starting with
// start and ending with end. And then insert the source
// list.
if ( start < = end )
{
// If greater than zero, then there is going to be a
// surviving prefix. Otherwise the inclusive nature
// of the indices mean that we're going to add the
// source list as a prefix.
if ( start > 0 )
{
pref = dest . GetSublist ( 0 , start - 1 ) ;
// Only add a suffix if there is something
// beyond the end index (it's inclusive too).
if ( end + 1 < dest . Length )
{
return pref + src + dest . GetSublist ( end + 1 , - 1 ) ;
}
else
{
return pref + src ;
}
}
// If start is less than or equal to zero, then
// the new list is simply a prefix. We still need to
// figure out any necessary surgery to the destination
// based upon end. Note that if end exceeds the upper
// bound in this case, the entire destination list
// is removed.
else
{
if ( end + 1 < dest . Length )
{
return src + dest . GetSublist ( end + 1 , - 1 ) ;
}
else
{
return src ;
}
}
}
// Finally, if start > end, we strip away a prefix and
// a suffix, to leave the list that sits <between> ens
// and start, and then tag on the src list. AT least
// that's my interpretation. We can get sublist to do
// this for us. Note that one, or both of the indices
// might have been negative.
else
{
return dest . GetSublist ( end + 1 , start - 1 ) + src ;
}
}
public void llLoadURL ( string avatar_id , string message , string url )
{
m_host . AddScriptLPS ( 1 ) ;
UUID avatarId = new UUID ( avatar_id ) ;
m_ScriptEngine . World . SendUrlToUser ( avatarId , m_host . Name , m_host . UUID , m_host . ObjectOwner , false , message ,
url ) ;
// ScriptSleep(10000);
}
public void llParcelMediaCommandList ( LSL_List commandList )
{
//TO DO: Implement the missing commands
//PARCEL_MEDIA_COMMAND_STOP Stop the media stream and go back to the first frame.
//PARCEL_MEDIA_COMMAND_PAUSE Pause the media stream (stop playing but stay on current frame).
//PARCEL_MEDIA_COMMAND_PLAY Start the media stream playing from the current frame and stop when the end is reached.
//PARCEL_MEDIA_COMMAND_LOOP Start the media stream playing from the current frame. When the end is reached, loop to the beginning and continue.
//PARCEL_MEDIA_COMMAND_TEXTURE key uuid Use this to get or set the parcel's media texture.
//PARCEL_MEDIA_COMMAND_URL string url Used to get or set the parcel's media url.
//PARCEL_MEDIA_COMMAND_TIME float time Move a media stream to a specific time.
//PARCEL_MEDIA_COMMAND_AGENT key uuid Applies the media command to the specified agent only.
//PARCEL_MEDIA_COMMAND_UNLOAD Completely unloads the movie and restores the original texture.
//PARCEL_MEDIA_COMMAND_AUTO_ALIGN integer boolean Sets the parcel option 'Auto scale content'.
//PARCEL_MEDIA_COMMAND_TYPE string mime_type Use this to get or set the parcel media MIME type (e.g. "text/html"). (1.19.1 RC0 or later)
//PARCEL_MEDIA_COMMAND_SIZE integer x, integer y Use this to get or set the parcel media pixel resolution. (1.19.1 RC0 or later)
//PARCEL_MEDIA_COMMAND_DESC string desc Use this to get or set the parcel media description. (1.19.1 RC0 or later)
//PARCEL_MEDIA_COMMAND_LOOP_SET float loop Use this to get or set the parcel's media loop duration. (1.19.1 RC0 or later)
m_host . AddScriptLPS ( 1 ) ;
for ( int i = 0 ; i < commandList . Data . Length ; i + + )
{
switch ( ( ParcelMediaCommandEnum ) commandList . Data [ i ] )
{
case ParcelMediaCommandEnum . Play :
List < ScenePresence > scenePresencePlayList = World . GetScenePresences ( ) ;
foreach ( ScenePresence agent in scenePresencePlayList )
{
if ( ! agent . IsChildAgent )
{
agent . ControllingClient . SendParcelMediaCommand ( ( uint ) ( 4 ) , ParcelMediaCommandEnum . Play , 0 ) ;
}
}
break ;
case ParcelMediaCommandEnum . Stop :
List < ScenePresence > scenePresenceStopList = World . GetScenePresences ( ) ;
foreach ( ScenePresence agent in scenePresenceStopList )
{
if ( ! agent . IsChildAgent )
{
agent . ControllingClient . SendParcelMediaCommand ( ( uint ) ( 4 ) , ParcelMediaCommandEnum . Stop , 0 ) ;
}
}
break ;
case ParcelMediaCommandEnum . Pause :
List < ScenePresence > scenePresencePauseList = World . GetScenePresences ( ) ;
foreach ( ScenePresence agent in scenePresencePauseList )
{
if ( ! agent . IsChildAgent )
{
agent . ControllingClient . SendParcelMediaCommand ( ( uint ) ( 4 ) , ParcelMediaCommandEnum . Pause , 0 ) ;
}
}
break ;
case ParcelMediaCommandEnum . Url :
if ( ( i + 1 ) < commandList . Length )
{
if ( commandList . Data [ i + 1 ] is string )
{
UUID landowner = World . GetLandOwner ( m_host . AbsolutePosition . X , m_host . AbsolutePosition . Y ) ;
if ( landowner = = UUID . Zero )
{
return ;
}
if ( landowner ! = m_host . ObjectOwner )
{
return ;
}
World . SetLandMediaURL ( m_host . AbsolutePosition . X , m_host . AbsolutePosition . Y , ( string ) commandList . GetLSLStringItem ( i + 1 ) ) ;
List < ScenePresence > scenePresenceList = World . GetScenePresences ( ) ;
LandData landData = World . GetLandData ( m_host . AbsolutePosition . X , m_host . AbsolutePosition . Y ) ;
//Send an update of the mediaURL to all the clients that are in the parcel
foreach ( ScenePresence agent in scenePresenceList )
{
if ( ! agent . IsChildAgent )
{
//Send parcel media update to the client
agent . ControllingClient . SendParcelMediaUpdate ( landData . MediaURL , landData . MediaID , landData . MediaAutoScale , "" , landData . Description , 0 , 0 , 1 ) ;
}
}
}
i + + ;
}
break ;
default :
ParcelMediaCommandEnum mediaCommandEnum = ParcelMediaCommandEnum . Url ;
NotImplemented ( "llParcelMediaCommandList parameter do not supported yet: " + Enum . Parse ( mediaCommandEnum . GetType ( ) , commandList . Data [ i ] . ToString ( ) ) . ToString ( ) ) ;
break ;
} //end switch
}
// ScriptSleep(2000);
}
public LSL_List llParcelMediaQuery ( LSL_List aList )
{
m_host . AddScriptLPS ( 1 ) ;
LSL_List list = new LSL_List ( ) ;
//TO DO: make the implementation for the missing commands
//PARCEL_MEDIA_COMMAND_TEXTURE key uuid Use this to get or set the parcel's media texture.
//PARCEL_MEDIA_COMMAND_URL string url Used to get or set the parcel's media url.
//PARCEL_MEDIA_COMMAND_TYPE string mime_type Use this to get or set the parcel media MIME type (e.g. "text/html"). (1.19.1 RC0 or later)
//PARCEL_MEDIA_COMMAND_SIZE integer x, integer y Use this to get or set the parcel media pixel resolution. (1.19.1 RC0 or later)
//PARCEL_MEDIA_COMMAND_DESC string desc Use this to get or set the parcel media description. (1.19.1 RC0 or later)
//PARCEL_MEDIA_COMMAND_LOOP_SET float loop Use this to get or set the parcel's media loop duration. (1.19.1 RC0 or later)
for ( int i = 0 ; i < aList . Data . Length ; i + + )
{
if ( aList . Data [ i ] ! = null )
{
switch ( ( ParcelMediaCommandEnum ) aList . Data [ i ] )
{
case ParcelMediaCommandEnum . Url :
list . Add ( new LSL_String ( World . GetLandData ( m_host . AbsolutePosition . X , m_host . AbsolutePosition . Y ) . MediaURL ) ) ;
break ;
case ParcelMediaCommandEnum . Desc :
list . Add ( new LSL_String ( World . GetLandData ( m_host . AbsolutePosition . X , m_host . AbsolutePosition . Y ) . Description ) ) ;
break ;
case ParcelMediaCommandEnum . Texture :
list . Add ( new LSL_String ( World . GetLandData ( m_host . AbsolutePosition . X , m_host . AbsolutePosition . Y ) . MediaID . ToString ( ) ) ) ;
break ;
default :
ParcelMediaCommandEnum mediaCommandEnum = ParcelMediaCommandEnum . Url ;
NotImplemented ( "llParcelMediaQuery parameter do not supported yet: " + Enum . Parse ( mediaCommandEnum . GetType ( ) , aList . Data [ i ] . ToString ( ) ) . ToString ( ) ) ;
break ;
}
}
}
// ScriptSleep(2000);
return list ;
}
public LSL_Integer llModPow ( int a , int b , int c )
{
m_host . AddScriptLPS ( 1 ) ;
Int64 tmp = 0 ;
Math . DivRem ( Convert . ToInt64 ( Math . Pow ( a , b ) ) , c , out tmp ) ;
// ScriptSleep(1000);
return Convert . ToInt32 ( tmp ) ;
}
public LSL_Integer llGetInventoryType ( string name )
{
m_host . AddScriptLPS ( 1 ) ;
foreach ( KeyValuePair < UUID , TaskInventoryItem > inv in m_host . TaskInventory )
{
if ( inv . Value . Name = = name )
{
return inv . Value . InvType ;
}
}
return - 1 ;
}
public void llSetPayPrice ( int price , LSL_List quick_pay_buttons )
{
m_host . AddScriptLPS ( 1 ) ;
if ( quick_pay_buttons . Data . Length < 4 )
{
LSLError ( "List must have at least 4 elements" ) ;
return ;
}
m_host . ParentGroup . RootPart . PayPrice [ 0 ] = price ;
m_host . ParentGroup . RootPart . PayPrice [ 1 ] = ( LSL_Integer ) quick_pay_buttons . Data [ 0 ] ;
m_host . ParentGroup . RootPart . PayPrice [ 2 ] = ( LSL_Integer ) quick_pay_buttons . Data [ 1 ] ;
m_host . ParentGroup . RootPart . PayPrice [ 3 ] = ( LSL_Integer ) quick_pay_buttons . Data [ 2 ] ;
m_host . ParentGroup . RootPart . PayPrice [ 4 ] = ( LSL_Integer ) quick_pay_buttons . Data [ 3 ] ;
m_host . ParentGroup . HasGroupChanged = true ;
}
public LSL_Vector llGetCameraPos ( )
{
m_host . AddScriptLPS ( 1 ) ;
UUID invItemID = InventorySelf ( ) ;
if ( invItemID = = UUID . Zero )
return new LSL_Vector ( ) ;
if ( m_host . TaskInventory [ invItemID ] . PermsGranter = = UUID . Zero )
return new LSL_Vector ( ) ;
if ( ( m_host . TaskInventory [ invItemID ] . PermsMask & ScriptBaseClass . PERMISSION_TRACK_CAMERA ) = = 0 )
{
ShoutError ( "No permissions to track the camera" ) ;
return new LSL_Vector ( ) ;
}
ScenePresence presence = World . GetScenePresence ( m_host . OwnerID ) ;
if ( presence ! = null )
{
LSL_Vector pos = new LSL_Vector ( presence . CameraPosition . X , presence . CameraPosition . Y , presence . CameraPosition . Z ) ;
return pos ;
}
return new LSL_Vector ( ) ;
}
public LSL_Rotation llGetCameraRot ( )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llGetCameraRot" ) ;
return new LSL_Rotation ( ) ;
}
public void llSetPrimURL ( )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llSetPrimURL" ) ;
// ScriptSleep(2000);
}
public void llRefreshPrimURL ( )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llRefreshPrimURL" ) ;
// ScriptSleep(20000);
}
public LSL_String llEscapeURL ( string url )
{
m_host . AddScriptLPS ( 1 ) ;
try
{
return Uri . EscapeUriString ( url ) ;
}
catch ( Exception ex )
{
return "llEscapeURL: " + ex . ToString ( ) ;
}
}
public LSL_String llUnescapeURL ( string url )
{
m_host . AddScriptLPS ( 1 ) ;
try
{
return Uri . UnescapeDataString ( url ) ;
}
catch ( Exception ex )
{
return "llUnescapeURL: " + ex . ToString ( ) ;
}
}
public void llMapDestination ( string simname , LSL_Vector pos , LSL_Vector look_at )
{
m_host . AddScriptLPS ( 1 ) ;
NotImplemented ( "llMapDestination" ) ;
// ScriptSleep(1000);
}
public void llAddToLandBanList ( string avatar , double hours )
{
m_host . AddScriptLPS ( 1 ) ;
UUID key ;
LandData land = World . LandChannel . GetLandObject ( m_host . AbsolutePosition . X , m_host . AbsolutePosition . Y ) . landData ;
if ( land . OwnerID = = m_host . OwnerID )
{
ParcelManager . ParcelAccessEntry entry = new ParcelManager . ParcelAccessEntry ( ) ;
if ( UUID . TryParse ( avatar , out key ) )
{
entry . AgentID = key ;
entry . Flags = ParcelManager . AccessList . Ban ;
entry . Time = DateTime . Now . AddHours ( hours ) ;
land . ParcelAccessList . Add ( entry ) ;
}
}
// ScriptSleep(100);
}
public void llRemoveFromLandPassList ( string avatar )
{
m_host . AddScriptLPS ( 1 ) ;
UUID key ;
LandData land = World . LandChannel . GetLandObject ( m_host . AbsolutePosition . X , m_host . AbsolutePosition . Y ) . landData ;
if ( land . OwnerID = = m_host . OwnerID )
{
if ( UUID . TryParse ( avatar , out key ) )
{
foreach ( ParcelManager . ParcelAccessEntry entry in land . ParcelAccessList )
{
if ( entry . AgentID = = key & & entry . Flags = = ParcelManager . AccessList . Access )
{
land . ParcelAccessList . Remove ( entry ) ;
break ;
}
}
}
}
// ScriptSleep(100);
}
public void llRemoveFromLandBanList ( string avatar )
{
m_host . AddScriptLPS ( 1 ) ;
UUID key ;
LandData land = World . LandChannel . GetLandObject ( m_host . AbsolutePosition . X , m_host . AbsolutePosition . Y ) . landData ;
if ( land . OwnerID = = m_host . OwnerID )
{
if ( UUID . TryParse ( avatar , out key ) )
{
foreach ( ParcelManager . ParcelAccessEntry entry in land . ParcelAccessList )
{
if ( entry . AgentID = = key & & entry . Flags = = ParcelManager . AccessList . Ban )
{
land . ParcelAccessList . Remove ( entry ) ;
break ;
}
}
}
}
// ScriptSleep(100);
}
public void llSetCameraParams ( LSL_List rules )
{
m_host . AddScriptLPS ( 1 ) ;
// our key in the object we are in
UUID invItemID = InventorySelf ( ) ;
if ( invItemID = = UUID . Zero ) return ;
// the object we are in
UUID objectID = m_host . ParentUUID ;
if ( objectID = = UUID . Zero ) return ;
// we need the permission first, to know which avatar we want to set the camera for
UUID agentID = m_host . TaskInventory [ invItemID ] . PermsGranter ;
if ( agentID = = UUID . Zero ) return ;
if ( ( m_host . TaskInventory [ invItemID ] . PermsMask & ScriptBaseClass . PERMISSION_CONTROL_CAMERA ) = = 0 ) return ;
ScenePresence presence = World . GetScenePresence ( agentID ) ;
// we are not interested in child-agents
if ( presence . IsChildAgent ) return ;
SortedDictionary < int , float > parameters = new SortedDictionary < int , float > ( ) ;
object [ ] data = rules . Data ;
for ( int i = 0 ; i < data . Length ; + + i ) {
int type = Convert . ToInt32 ( data [ i + + ] . ToString ( ) ) ;
if ( i > = data . Length ) break ; // odd number of entries => ignore the last
// some special cases: Vector parameters are split into 3 float parameters (with type+1, type+2, type+3)
switch ( type ) {
case ScriptBaseClass . CAMERA_FOCUS :
case ScriptBaseClass . CAMERA_FOCUS_OFFSET :
case ScriptBaseClass . CAMERA_POSITION :
LSL_Vector v = ( LSL_Vector ) data [ i ] ;
parameters . Add ( type + 1 , ( float ) v . x ) ;
parameters . Add ( type + 2 , ( float ) v . y ) ;
parameters . Add ( type + 3 , ( float ) v . z ) ;
break ;
default :
// TODO: clean that up as soon as the implicit casts are in
if ( data [ i ] is LSL_Float )
parameters . Add ( type , ( float ) ( ( LSL_Float ) data [ i ] ) . value ) ;
else if ( data [ i ] is LSL_Integer )
parameters . Add ( type , ( float ) ( ( LSL_Integer ) data [ i ] ) . value ) ;
else parameters . Add ( type , Convert . ToSingle ( data [ i ] ) ) ;
break ;
}
}
if ( parameters . Count > 0 ) presence . ControllingClient . SendSetFollowCamProperties ( objectID , parameters ) ;
}
public void llClearCameraParams ( )
{
m_host . AddScriptLPS ( 1 ) ;
// our key in the object we are in
UUID invItemID = InventorySelf ( ) ;
if ( invItemID = = UUID . Zero ) return ;
// the object we are in
UUID objectID = m_host . ParentUUID ;
if ( objectID = = UUID . Zero ) return ;
// we need the permission first, to know which avatar we want to clear the camera for
UUID agentID = m_host . TaskInventory [ invItemID ] . PermsGranter ;
if ( agentID = = UUID . Zero ) return ;
if ( ( m_host . TaskInventory [ invItemID ] . PermsMask & ScriptBaseClass . PERMISSION_CONTROL_CAMERA ) = = 0 ) return ;
ScenePresence presence = World . GetScenePresence ( agentID ) ;
// we are not interested in child-agents
if ( presence . IsChildAgent ) return ;
presence . ControllingClient . SendClearFollowCamProperties ( objectID ) ;
}
public LSL_Float llListStatistics ( int operation , LSL_List src )
{
m_host . AddScriptLPS ( 1 ) ;
LSL_List nums = LSL_List . ToDoubleList ( src ) ;
switch ( operation )
{
case ScriptBaseClass . LIST_STAT_RANGE :
return nums . Range ( ) ;
case ScriptBaseClass . LIST_STAT_MIN :
return nums . Min ( ) ;
case ScriptBaseClass . LIST_STAT_MAX :
return nums . Max ( ) ;
case ScriptBaseClass . LIST_STAT_MEAN :
return nums . Mean ( ) ;
case ScriptBaseClass . LIST_STAT_MEDIAN :
return nums . Median ( ) ;
case ScriptBaseClass . LIST_STAT_NUM_COUNT :
return nums . NumericLength ( ) ;
case ScriptBaseClass . LIST_STAT_STD_DEV :
return nums . StdDev ( ) ;
case ScriptBaseClass . LIST_STAT_SUM :
return nums . Sum ( ) ;
case ScriptBaseClass . LIST_STAT_SUM_SQUARES :
return nums . SumSqrs ( ) ;
case ScriptBaseClass . LIST_STAT_GEOMETRIC_MEAN :
return nums . GeometricMean ( ) ;
case ScriptBaseClass . LIST_STAT_HARMONIC_MEAN :
return nums . HarmonicMean ( ) ;
default :
return 0.0 ;
}
}
public LSL_Integer llGetUnixTime ( )
{
m_host . AddScriptLPS ( 1 ) ;
return Util . UnixTimeSinceEpoch ( ) ;
}
public LSL_Integer llGetParcelFlags ( LSL_Vector pos )
{
m_host . AddScriptLPS ( 1 ) ;
return ( int ) World . LandChannel . GetLandObject ( ( float ) pos . x , ( float ) pos . y ) . landData . Flags ;
}
public LSL_Integer llGetRegionFlags ( )
{
m_host . AddScriptLPS ( 1 ) ;
IEstateModule estate = World . RequestModuleInterface < IEstateModule > ( ) ;
if ( estate = = null )
return 67108864 ;
return ( int ) estate . GetRegionFlags ( ) ;
}
public LSL_String llXorBase64StringsCorrect ( string str1 , string str2 )
{
m_host . AddScriptLPS ( 1 ) ;
string ret = String . Empty ;
string src1 = llBase64ToString ( str1 ) ;
string src2 = llBase64ToString ( str2 ) ;
int c = 0 ;
for ( int i = 0 ; i < src1 . Length ; i + + )
{
ret + = src1 [ i ] ^ src2 [ c ] ;
c + + ;
if ( c > = src2 . Length )
c = 0 ;
}
return llStringToBase64 ( ret ) ;
}
public LSL_String llHTTPRequest ( string url , LSL_List parameters , string body )
{
// Partial implementation: support for parameter flags needed
// see http://wiki.secondlife.com/wiki/LlHTTPRequest
// parameter flags support are implemented in ScriptsHttpRequests.cs
// in StartHttpRequest
m_host . AddScriptLPS ( 1 ) ;
IHttpRequests httpScriptMod =
m_ScriptEngine . World . RequestModuleInterface < IHttpRequests > ( ) ;
List < string > param = new List < string > ( ) ;
foreach ( object o in parameters . Data )
{
param . Add ( o . ToString ( ) ) ;
}
Vector3 position = m_host . AbsolutePosition ;
Vector3 velocity = m_host . Velocity ;
Quaternion rotation = m_host . RotationOffset ;
ScenePresence scenePresence = World . GetScenePresence ( m_host . ObjectOwner ) ;
RegionInfo regionInfo = World . RegionInfo ;
Dictionary < string , string > httpHeaders = new Dictionary < string , string > ( ) ;
httpHeaders [ "X-SecondLife-Shard" ] = "OpenSim" ;
httpHeaders [ "X-SecondLife-Object-Name" ] = m_host . Name ;
httpHeaders [ "X-SecondLife-Object-Key" ] = m_itemID . ToString ( ) ;
httpHeaders [ "X-SecondLife-Region" ] = string . Format ( "{0} ({1}, {2})" , regionInfo . RegionName , regionInfo . RegionLocX , regionInfo . RegionLocY ) ;
httpHeaders [ "X-SecondLife-Local-Position" ] = string . Format ( "({0:0.000000}, {1:0.000000}, {2:0.000000})" , position . X , position . Y , position . Z ) ;
httpHeaders [ "X-SecondLife-Local-Velocity" ] = string . Format ( "({0:0.000000}, {1:0.000000}, {2:0.000000})" , velocity . X , velocity . Y , velocity . Z ) ;
httpHeaders [ "X-SecondLife-Local-Rotation" ] = string . Format ( "({0:0.000000}, {1:0.000000}, {2:0.000000}, {3:0.000000})" , rotation . X , rotation . Y , rotation . Z , rotation . W ) ;
httpHeaders [ "X-SecondLife-Owner-Name" ] = scenePresence = = null ? string . Empty : scenePresence . ControllingClient . Name ;
httpHeaders [ "X-SecondLife-Owner-Key" ] = m_host . ObjectOwner . ToString ( ) ;
UUID reqID = httpScriptMod .
StartHttpRequest ( m_localID , m_itemID , url , param , httpHeaders , body ) ;
if ( reqID ! = UUID . Zero )
return reqID . ToString ( ) ;
else
return null ;
}
public void llResetLandBanList ( )
{
m_host . AddScriptLPS ( 1 ) ;
LandData land = World . LandChannel . GetLandObject ( m_host . AbsolutePosition . X , m_host . AbsolutePosition . Y ) . landData ;
if ( land . OwnerID = = m_host . OwnerID )
{
foreach ( ParcelManager . ParcelAccessEntry entry in land . ParcelAccessList )
{
if ( entry . Flags = = ParcelManager . AccessList . Ban )
{
land . ParcelAccessList . Remove ( entry ) ;
}
}
}
// ScriptSleep(100);
}
public void llResetLandPassList ( )
{
m_host . AddScriptLPS ( 1 ) ;
LandData land = World . LandChannel . GetLandObject ( m_host . AbsolutePosition . X , m_host . AbsolutePosition . Y ) . landData ;
if ( land . OwnerID = = m_host . OwnerID )
{
foreach ( ParcelManager . ParcelAccessEntry entry in land . ParcelAccessList )
{
if ( entry . Flags = = ParcelManager . AccessList . Access )
{
land . ParcelAccessList . Remove ( entry ) ;
}
}
}
// ScriptSleep(100);
}
public LSL_Integer llGetParcelPrimCount ( LSL_Vector pos , int category , int sim_wide )
{
m_host . AddScriptLPS ( 1 ) ;
LandData land = World . GetLandData ( ( float ) pos . x , ( float ) pos . y ) ;
if ( land = = null )
{
return 0 ;
}
else
{
if ( sim_wide = = 1 )
{
if ( category = = 0 )
{
return land . SimwidePrims ;
}
else
{
//public int simwideArea = 0;
return 0 ;
}
}
else
{
if ( category = = 0 ) //Total Prims
{
return 0 ; //land.
}
else if ( category = = 1 ) //Owner Prims
{
return land . OwnerPrims ;
}
else if ( category = = 2 ) //Group Prims
{
return land . GroupPrims ;
}
else if ( category = = 3 ) //Other Prims
{
return land . OtherPrims ;
}
else if ( category = = 4 ) //Selected
{
return land . SelectedPrims ;
}
else if ( category = = 5 ) //Temp
{
return 0 ; //land.
}
}
}
return 0 ;
}
public LSL_List llGetParcelPrimOwners ( LSL_Vector pos )
{
m_host . AddScriptLPS ( 1 ) ;
LandObject land = ( LandObject ) World . LandChannel . GetLandObject ( ( float ) pos . x , ( float ) pos . y ) ;
LSL_List ret = new LSL_List ( ) ;
if ( land ! = null )
{
foreach ( KeyValuePair < UUID , int > d in land . getLandObjectOwners ( ) )
{
ret . Add ( d . Key . ToString ( ) ) ;
ret . Add ( d . Value ) ;
}
}
// ScriptSleep(2000);
return ret ;
}
public LSL_Integer llGetObjectPrimCount ( string object_id )
{
m_host . AddScriptLPS ( 1 ) ;
SceneObjectPart part = World . GetSceneObjectPart ( new UUID ( object_id ) ) ;
if ( part = = null )
{
return 0 ;
}
else
{
return part . ParentGroup . Children . Count ;
}
}
public LSL_Integer llGetParcelMaxPrims ( LSL_Vector pos , int sim_wide )
{
m_host . AddScriptLPS ( 1 ) ;
// Alondria: This currently just is utilizing the normal grid's 0.22 prims/m2 calculation
// Which probably will be irrelevent in OpenSim....
LandData land = World . GetLandData ( ( float ) pos . x , ( float ) pos . y ) ;
float bonusfactor = ( float ) World . RegionInfo . RegionSettings . ObjectBonus ;
if ( land = = null )
{
return 0 ;
}
if ( sim_wide = = 1 )
{
decimal v = land . SimwideArea * ( decimal ) ( 0.22 ) * ( decimal ) bonusfactor ;
return ( int ) v ;
}
else
{
decimal v = land . Area * ( decimal ) ( 0.22 ) * ( decimal ) bonusfactor ;
return ( int ) v ;
}
}
public LSL_List llGetParcelDetails ( LSL_Vector pos , LSL_List param )
{
m_host . AddScriptLPS ( 1 ) ;
LandData land = World . GetLandData ( ( float ) pos . x , ( float ) pos . y ) ;
if ( land = = null )
{
return new LSL_List ( 0 ) ;
}
LSL_List ret = new LSL_List ( ) ;
foreach ( object o in param . Data )
{
switch ( o . ToString ( ) )
{
case "0" :
ret = ret + new LSL_List ( land . Name ) ;
break ;
case "1" :
ret = ret + new LSL_List ( land . Description ) ;
break ;
case "2" :
ret = ret + new LSL_List ( land . OwnerID . ToString ( ) ) ;
break ;
case "3" :
ret = ret + new LSL_List ( land . GroupID . ToString ( ) ) ;
break ;
case "4" :
ret = ret + new LSL_List ( land . Area ) ;
break ;
default :
ret = ret + new LSL_List ( 0 ) ;
break ;
}
}
return ret ;
}
public void llSetLinkTexture ( int linknumber , string texture , int face )
{
m_host . AddScriptLPS ( 1 ) ;
if ( m_host . ParentGroup = = null )
return ;
SceneObjectPart part = m_host . ParentGroup . GetLinkNumPart ( linknumber ) ;
if ( part = = null )
return ;
SetTexture ( part , texture , face ) ;
// ScriptSleep(200);
}
public LSL_String llStringTrim ( string src , int type )
{
m_host . AddScriptLPS ( 1 ) ;
if ( type = = ( int ) ScriptBaseClass . STRING_TRIM_HEAD ) { return src . TrimStart ( ) ; }
if ( type = = ( int ) ScriptBaseClass . STRING_TRIM_TAIL ) { return src . TrimEnd ( ) ; }
if ( type = = ( int ) ScriptBaseClass . STRING_TRIM ) { return src . Trim ( ) ; }
return src ;
}
public LSL_List llGetObjectDetails ( string id , LSL_List args )
{
m_host . AddScriptLPS ( 1 ) ;
LSL_List ret = new LSL_List ( ) ;
UUID key = new UUID ( ) ;
if ( UUID . TryParse ( id , out key ) )
{
ScenePresence av = World . GetScenePresence ( key ) ;
if ( av ! = null )
{
foreach ( object o in args . Data )
{
switch ( o . ToString ( ) )
{
case "1" :
ret . Add ( av . Firstname + " " + av . Lastname ) ;
break ;
case "2" :
ret . Add ( "" ) ;
break ;
case "3" :
ret . Add ( new LSL_Vector ( ( double ) av . AbsolutePosition . X , ( double ) av . AbsolutePosition . Y , ( double ) av . AbsolutePosition . Z ) ) ;
break ;
case "4" :
ret . Add ( new LSL_Rotation ( ( double ) av . Rotation . X , ( double ) av . Rotation . Y , ( double ) av . Rotation . Z , ( double ) av . Rotation . W ) ) ;
break ;
case "5" :
ret . Add ( new LSL_Vector ( av . Velocity . X , av . Velocity . Y , av . Velocity . Z ) ) ;
break ;
case "6" :
ret . Add ( id ) ;
break ;
case "7" :
ret . Add ( UUID . Zero . ToString ( ) ) ;
break ;
case "8" :
ret . Add ( UUID . Zero . ToString ( ) ) ;
break ;
}
}
return ret ;
}
SceneObjectPart obj = World . GetSceneObjectPart ( key ) ;
if ( obj ! = null )
{
foreach ( object o in args . Data )
{
switch ( o . ToString ( ) )
{
case "1" :
ret . Add ( obj . Name ) ;
break ;
case "2" :
ret . Add ( obj . Description ) ;
break ;
case "3" :
ret . Add ( new LSL_Vector ( obj . AbsolutePosition . X , obj . AbsolutePosition . Y , obj . AbsolutePosition . Z ) ) ;
break ;
case "4" :
ret . Add ( new LSL_Rotation ( obj . RotationOffset . X , obj . RotationOffset . Y , obj . RotationOffset . Z , obj . RotationOffset . W ) ) ;
break ;
case "5" :
ret . Add ( new LSL_Vector ( obj . Velocity . X , obj . Velocity . Y , obj . Velocity . Z ) ) ;
break ;
case "6" :
ret . Add ( obj . OwnerID . ToString ( ) ) ;
break ;
case "7" :
ret . Add ( obj . GroupID . ToString ( ) ) ;
break ;
case "8" :
ret . Add ( obj . CreatorID . ToString ( ) ) ;
break ;
}
}
return ret ;
}
}
return new LSL_List ( ) ;
}
internal UUID ScriptByName ( string name )
{
foreach ( TaskInventoryItem item in m_host . TaskInventory . Values )
{
if ( item . Type = = 10 & & item . Name = = name )
return item . ItemID ;
}
return UUID . Zero ;
}
internal void ShoutError ( string msg )
{
llShout ( ScriptBaseClass . DEBUG_CHANNEL , msg ) ;
}
internal void NotImplemented ( string command )
{
if ( throwErrorOnNotImplemented )
throw new NotImplementedException ( "Command not implemented: " + command ) ;
}
internal void Deprecated ( string command )
{
throw new Exception ( "Command deprecated: " + command ) ;
}
internal void LSLError ( string msg )
{
throw new Exception ( "LSL Runtime Error: " + msg ) ;
}
public delegate void AssetRequestCallback ( UUID assetID , AssetBase asset ) ;
private void WithNotecard ( UUID assetID , AssetRequestCallback cb )
{
World . AssetCache . GetAsset ( assetID , delegate ( UUID i , AssetBase a ) { cb ( i , a ) ; } , false ) ;
}
public LSL_String llGetNumberOfNotecardLines ( string name )
{
m_host . AddScriptLPS ( 1 ) ;
foreach ( TaskInventoryItem item in m_host . TaskInventory . Values )
{
if ( item . Type = = 7 & & item . Name = = name )
{
UUID tid = AsyncCommands .
DataserverPlugin . RegisterRequest ( m_localID ,
m_itemID , item . AssetID . ToString ( ) ) ;
if ( NotecardCache . IsCached ( item . AssetID ) )
{
AsyncCommands .
DataserverPlugin . DataserverReply ( item . AssetID . ToString ( ) ,
NotecardCache . GetLines ( item . AssetID ) . ToString ( ) ) ;
// ScriptSleep(100);
return tid . ToString ( ) ;
}
WithNotecard ( item . AssetID , delegate ( UUID id , AssetBase a )
{
System . Text . ASCIIEncoding enc =
new System . Text . ASCIIEncoding ( ) ;
string data = enc . GetString ( a . Data ) ;
//Console.WriteLine(data);
NotecardCache . Cache ( id , data ) ;
AsyncCommands .
DataserverPlugin . DataserverReply ( id . ToString ( ) ,
NotecardCache . GetLines ( id ) . ToString ( ) ) ;
} ) ;
// ScriptSleep(100);
return tid . ToString ( ) ;
}
}
// if we got to here, we didn't find the notecard the script was asking for
// => complain loudly, as specified by the LSL docs
ShoutError ( "Notecard '" + name + "' could not be found." ) ;
// ScriptSleep(100);
return UUID . Zero . ToString ( ) ;
}
public LSL_String llGetNotecardLine ( string name , int line )
{
m_host . AddScriptLPS ( 1 ) ;
foreach ( TaskInventoryItem item in m_host . TaskInventory . Values )
{
if ( item . Type = = 7 & & item . Name = = name )
{
UUID tid = AsyncCommands .
DataserverPlugin . RegisterRequest ( m_localID ,
m_itemID , item . AssetID . ToString ( ) ) ;
if ( NotecardCache . IsCached ( item . AssetID ) )
{
AsyncCommands .
DataserverPlugin . DataserverReply ( item . AssetID . ToString ( ) ,
NotecardCache . GetLine ( item . AssetID , line ) ) ;
// ScriptSleep(100);
return tid . ToString ( ) ;
}
WithNotecard ( item . AssetID , delegate ( UUID id , AssetBase a )
{
System . Text . ASCIIEncoding enc =
new System . Text . ASCIIEncoding ( ) ;
string data = enc . GetString ( a . Data ) ;
//Console.WriteLine(data);
NotecardCache . Cache ( id , data ) ;
AsyncCommands .
DataserverPlugin . DataserverReply ( id . ToString ( ) ,
NotecardCache . GetLine ( id , line ) ) ;
} ) ;
// ScriptSleep(100);
return tid . ToString ( ) ;
}
}
// if we got to here, we didn't find the notecard the script was asking for
// => complain loudly, as specified by the LSL docs
ShoutError ( "Notecard '" + name + "' could not be found." ) ;
// ScriptSleep(100);
return UUID . Zero . ToString ( ) ;
}
}
public class NotecardCache
{
private class Notecard
{
public string [ ] text ;
public DateTime lastRef ;
}
private static Dictionary < UUID , Notecard > m_Notecards =
new Dictionary < UUID , Notecard > ( ) ;
public static void Cache ( UUID assetID , string text )
{
CacheCheck ( ) ;
lock ( m_Notecards )
{
if ( m_Notecards . ContainsKey ( assetID ) )
return ;
Notecard nc = new Notecard ( ) ;
nc . lastRef = DateTime . Now ;
nc . text = ParseText ( text . Replace ( "\r" , "" ) . Split ( '\n' ) ) ;
m_Notecards [ assetID ] = nc ;
}
}
private static string [ ] ParseText ( string [ ] input )
{
int idx = 0 ;
int level = 0 ;
List < string > output = new List < string > ( ) ;
string [ ] words ;
while ( idx < input . Length )
{
if ( input [ idx ] = = "{" )
{
level + + ;
idx + + ;
continue ;
}
if ( input [ idx ] = = "}" )
{
level - - ;
idx + + ;
continue ;
}
switch ( level )
{
case 0 :
words = input [ idx ] . Split ( ' ' ) ; // Linden text ver
// Notecards are created *really* empty. Treat that as "no text" (just like after saving an empty notecard)
if ( words . Length < 3 )
return new String [ 0 ] ;
int version = int . Parse ( words [ 3 ] ) ;
if ( version ! = 2 )
return new String [ 0 ] ;
break ;
case 1 :
words = input [ idx ] . Split ( ' ' ) ;
if ( words [ 0 ] = = "LLEmbeddedItems" )
break ;
if ( words [ 0 ] = = "Text" )
{
int len = int . Parse ( words [ 2 ] ) ;
idx + + ;
int count = - 1 ;
while ( count < len )
{
// int l = input[idx].Length;
string ln = input [ idx ] ;
int need = len - count - 1 ;
if ( ln . Length > need )
ln = ln . Substring ( 0 , need ) ;
output . Add ( ln ) ;
count + = ln . Length + 1 ;
idx + + ;
}
return output . ToArray ( ) ;
}
break ;
case 2 :
words = input [ idx ] . Split ( ' ' ) ; // count
if ( words [ 0 ] = = "count" )
{
int c = int . Parse ( words [ 1 ] ) ;
if ( c > 0 )
return new String [ 0 ] ;
break ;
}
break ;
}
idx + + ;
}
return output . ToArray ( ) ;
}
public static bool IsCached ( UUID assetID )
{
lock ( m_Notecards )
{
return m_Notecards . ContainsKey ( assetID ) ;
}
}
public static int GetLines ( UUID assetID )
{
if ( ! IsCached ( assetID ) )
return - 1 ;
lock ( m_Notecards )
{
m_Notecards [ assetID ] . lastRef = DateTime . Now ;
return m_Notecards [ assetID ] . text . Length ;
}
}
public static string GetLine ( UUID assetID , int line )
{
if ( line < 0 )
return "" ;
string data ;
if ( ! IsCached ( assetID ) )
return "" ;
lock ( m_Notecards )
{
m_Notecards [ assetID ] . lastRef = DateTime . Now ;
if ( line > = m_Notecards [ assetID ] . text . Length )
return "\n\n\n" ;
data = m_Notecards [ assetID ] . text [ line ] ;
if ( data . Length > 255 )
data = data . Substring ( 0 , 255 ) ;
return data ;
}
}
public static void CacheCheck ( )
{
foreach ( UUID key in new List < UUID > ( m_Notecards . Keys ) )
{
Notecard nc = m_Notecards [ key ] ;
if ( nc . lastRef . AddSeconds ( 30 ) < DateTime . Now )
m_Notecards . Remove ( key ) ;
2008-05-30 12:27:06 +00:00
}
}
}
}
