/*
* Copyright (c) Contributors, http://opensimulator.org/
* See CONTRIBUTORS.TXT for a full list of copyright holders.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* * Neither the name of the OpenSimulator Project nor the
* names of its contributors may be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE DEVELOPERS ``AS IS'' AND ANY
* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE CONTRIBUTORS BE LIABLE FOR ANY
* DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
using System;
using System.Collections.Generic;
using System.IO;
using OpenMetaverse;
using System.Runtime.Serialization;
namespace OpenSim.Framework
{
public struct SpawnPoint
{
public float Yaw;
public float Pitch;
public float Distance;
public void SetLocation(Vector3 pos, Quaternion rot, Vector3 point)
{
// The point is an absolute position, so we need the relative
// location to the spawn point
Vector3 offset = point - pos;
Distance = Vector3.Mag(offset);
// Next we need to rotate this vector into the spawn point's
// coordinate system
rot.W = -rot.W;
offset *= rot;
Vector3 dir = Vector3.Normalize(offset);
// Get the bearing (yaw)
Yaw = MathF.Atan2(dir.Y, dir.X);
// Get the elevation (pitch)
Pitch = -MathF.Atan2(dir.Z, MathF.Sqrt(dir.X * dir.X + dir.Y * dir.Y));
}
public Vector3 GetLocation(Vector3 pos, Quaternion rot)
{
Quaternion y = Quaternion.CreateFromEulers(0, 0, Yaw);
Quaternion p = Quaternion.CreateFromEulers(0, Pitch, 0);
Vector3 dir = new Vector3(1, 0, 0) * p * y;
Vector3 offset = dir * (float)Distance;
offset *= rot;
return pos + offset;
}
///
/// Returns a string representation of this SpawnPoint.
///
///
public override string ToString()
{
return string.Format("{0},{1},{2}", Yaw, Pitch, Distance);
}
///
/// Generate a SpawnPoint from a string
///
///
public static SpawnPoint Parse(string str)
{
string[] parts = str.Split(',');
if (parts.Length != 3)
throw new ArgumentException("Invalid string: " + str);
SpawnPoint sp = new()
{
Yaw = float.Parse(parts[0]),
Pitch = float.Parse(parts[1]),
Distance = float.Parse(parts[2])
};
return sp;
}
}
public class RegionSettings
{
public delegate void SaveDelegate(RegionSettings rs);
public event SaveDelegate OnSave;
///
/// These appear to be terrain textures that are shipped with the client.
///
public static readonly UUID DEFAULT_TERRAIN_TEXTURE_1 = new("b8d3965a-ad78-bf43-699b-bff8eca6c975");
public static readonly UUID DEFAULT_TERRAIN_TEXTURE_2 = new("abb783e6-3e93-26c0-248a-247666855da3");
public static readonly UUID DEFAULT_TERRAIN_TEXTURE_3 = new("179cdabd-398a-9b6b-1391-4dc333ba321f");
public static readonly UUID DEFAULT_TERRAIN_TEXTURE_4 = new("beb169c7-11ea-fff2-efe5-0f24dc881df2");
public static readonly UUID DEFAULT_TERRAIN_PBR_1 = new("b8d3965a-ad78-bf43-699b-bff8eca6c975");
public static readonly UUID DEFAULT_TERRAIN_PBR_2 = new("abb783e6-3e93-26c0-248a-247666855da3");
public static readonly UUID DEFAULT_TERRAIN_PBR_3 = new("179cdabd-398a-9b6b-1391-4dc333ba321f");
public static readonly UUID DEFAULT_TERRAIN_PBR_4 = new("beb169c7-11ea-fff2-efe5-0f24dc881df2");
public void Save()
{
OnSave?.Invoke(this);
}
private UUID m_RegionUUID = UUID.Zero;
public UUID RegionUUID
{
get { return m_RegionUUID; }
set { m_RegionUUID = value; }
}
public UUID CacheID { get; set; } = UUID.Random();
private bool m_BlockTerraform = false;
public bool BlockTerraform
{
get { return m_BlockTerraform; }
set { m_BlockTerraform = value; }
}
private bool m_BlockFly = false;
public bool BlockFly
{
get { return m_BlockFly; }
set { m_BlockFly = value; }
}
private bool m_AllowDamage = false;
public bool AllowDamage
{
get { return m_AllowDamage; }
set { m_AllowDamage = value; }
}
private bool m_RestrictPushing = false;
public bool RestrictPushing
{
get { return m_RestrictPushing; }
set { m_RestrictPushing = value; }
}
private bool m_AllowLandResell = true;
public bool AllowLandResell
{
get { return m_AllowLandResell; }
set { m_AllowLandResell = value; }
}
private bool m_AllowLandJoinDivide = true;
public bool AllowLandJoinDivide
{
get { return m_AllowLandJoinDivide; }
set { m_AllowLandJoinDivide = value; }
}
private bool m_BlockShowInSearch = false;
public bool BlockShowInSearch
{
get { return m_BlockShowInSearch; }
set { m_BlockShowInSearch = value; }
}
private int m_AgentLimit = 40;
public int AgentLimit
{
get { return m_AgentLimit; }
set { m_AgentLimit = value; }
}
private double m_ObjectBonus = 1.0;
public double ObjectBonus
{
get { return m_ObjectBonus; }
set { m_ObjectBonus = value; }
}
private int m_Maturity = 0;
public int Maturity
{
get { return m_Maturity; }
set { m_Maturity = value; }
}
private bool m_DisableScripts = false;
public bool DisableScripts
{
get { return m_DisableScripts; }
set { m_DisableScripts = value; }
}
private bool m_DisableCollisions = false;
public bool DisableCollisions
{
get { return m_DisableCollisions; }
set { m_DisableCollisions = value; }
}
private bool m_DisablePhysics = false;
public bool DisablePhysics
{
get { return m_DisablePhysics; }
set { m_DisablePhysics = value; }
}
private UUID m_TerrainTexture1 = UUID.Zero;
public UUID TerrainTexture1
{
get { return m_TerrainTexture1; }
set { m_TerrainTexture1 = value.IsZero() ? DEFAULT_TERRAIN_TEXTURE_1 : value; }
}
private UUID m_TerrainTexture2 = UUID.Zero;
public UUID TerrainTexture2
{
get { return m_TerrainTexture2; }
set { m_TerrainTexture2 = value.IsZero() ? DEFAULT_TERRAIN_TEXTURE_2 : value; }
}
private UUID m_TerrainTexture3 = UUID.Zero;
public UUID TerrainTexture3
{
get { return m_TerrainTexture3; }
set { m_TerrainTexture3 = value.IsZero() ? DEFAULT_TERRAIN_TEXTURE_3 : value; }
}
private UUID m_TerrainTexture4 = UUID.Zero;
public UUID TerrainTexture4
{
get { return m_TerrainTexture4; }
set { m_TerrainTexture4 = value.IsZero() ? DEFAULT_TERRAIN_TEXTURE_4 : value; }
}
private UUID m_TerrainPBR1 = UUID.Zero;
public UUID TerrainPBR1
{
get { return m_TerrainPBR1; }
set { m_TerrainPBR1 = value;}
}
private UUID m_TerrainPBR2 = UUID.Zero;
public UUID TerrainPBR2
{
get { return m_TerrainPBR2; }
set { m_TerrainPBR2 = value; }
}
private UUID m_TerrainPBR3 = UUID.Zero;
public UUID TerrainPBR3
{
get { return m_TerrainPBR3; }
set { m_TerrainPBR3 = value; }
}
private UUID m_TerrainPBR4 = UUID.Zero;
public UUID TerrainPBR4
{
get { return m_TerrainPBR4; }
set { m_TerrainPBR4 = value; }
}
private double m_Elevation1NW = 10;
public double Elevation1NW
{
get { return m_Elevation1NW; }
set { m_Elevation1NW = Utils.Clamp(value, Constants.MinTerrainHeightmap, Constants.MaxTerrainHeightmap); ; }
}
private double m_Elevation2NW = 60;
public double Elevation2NW
{
get { return m_Elevation2NW; }
set { m_Elevation2NW = Utils.Clamp(value, Constants.MinTerrainHeightmap, Constants.MaxTerrainHeightmap);}
}
private double m_Elevation1NE = 10;
public double Elevation1NE
{
get { return m_Elevation1NE; }
set { m_Elevation1NE = Utils.Clamp(value, Constants.MinTerrainHeightmap, Constants.MaxTerrainHeightmap);}
}
private double m_Elevation2NE = 60;
public double Elevation2NE
{
get { return m_Elevation2NE; }
set { m_Elevation2NE = Utils.Clamp(value, Constants.MinTerrainHeightmap, Constants.MaxTerrainHeightmap);}
}
private double m_Elevation1SE = 10;
public double Elevation1SE
{
get { return m_Elevation1SE; }
set { m_Elevation1SE = Utils.Clamp(value, Constants.MinTerrainHeightmap, Constants.MaxTerrainHeightmap);}
}
private double m_Elevation2SE = 60;
public double Elevation2SE
{
get { return m_Elevation2SE; }
set { m_Elevation2SE = Utils.Clamp(value, Constants.MinTerrainHeightmap, Constants.MaxTerrainHeightmap);}
}
private double m_Elevation1SW = 10;
public double Elevation1SW
{
get { return m_Elevation1SW; }
set { m_Elevation1SW = Utils.Clamp(value, Constants.MinTerrainHeightmap, Constants.MaxTerrainHeightmap);}
}
private double m_Elevation2SW = 60;
public double Elevation2SW
{
get { return m_Elevation2SW; }
set { m_Elevation2SW = Utils.Clamp(value, Constants.MinTerrainHeightmap, Constants.MaxTerrainHeightmap);}
}
private double m_WaterHeight = 20;
public double WaterHeight
{
get { return m_WaterHeight; }
set { m_WaterHeight = Utils.Clamp(value, Constants.MinWaterHeight, Constants.MaxWaterHeight);}
}
private double m_TerrainRaiseLimit = 100;
public double TerrainRaiseLimit
{
get { return m_TerrainRaiseLimit; }
set { m_TerrainRaiseLimit = Utils.Clamp(value, 0, 200f); }
}
private double m_TerrainLowerLimit = -100;
public double TerrainLowerLimit
{
get { return m_TerrainLowerLimit; }
set { m_TerrainLowerLimit = Utils.Clamp(value, -200f, 0);}
}
private bool m_UseEstateSun = true;
public bool UseEstateSun
{
get { return m_UseEstateSun; }
set { m_UseEstateSun = value; }
}
private bool m_Sandbox = false;
public bool Sandbox
{
get { return m_Sandbox; }
set { m_Sandbox = value; }
}
public Vector3 SunVector
{
get { return Vector3.Zero; }
set { }
}
private UUID m_ParcelImageID;
public UUID ParcelImageID
{
get { return m_ParcelImageID; }
set { m_ParcelImageID = value; }
}
private UUID m_TerrainImageID;
public UUID TerrainImageID
{
get { return m_TerrainImageID; }
set { m_TerrainImageID = value; }
}
public bool FixedSun
{
get { return false; }
set { }
}
public double SunPosition
{
get { return 0; }
set { }
}
private UUID m_Covenant = UUID.Zero;
public UUID Covenant
{
get { return m_Covenant; }
set { m_Covenant = value; }
}
private int m_CovenantChanged = 0;
public int CovenantChangedDateTime
{
get { return m_CovenantChanged; }
set { m_CovenantChanged = value; }
}
private int m_LoadedCreationDateTime;
public int LoadedCreationDateTime
{
get { return m_LoadedCreationDateTime; }
set { m_LoadedCreationDateTime = value; }
}
public String LoadedCreationDate
{
get
{
TimeSpan ts = new(0, 0, LoadedCreationDateTime);
DateTime stamp = new DateTime(1970, 1, 1) + ts;
return stamp.ToLongDateString();
}
}
public String LoadedCreationTime
{
get
{
TimeSpan ts = new(0, 0, LoadedCreationDateTime);
DateTime stamp = new DateTime(1970, 1, 1) + ts;
return stamp.ToLongTimeString();
}
}
private String m_LoadedCreationID;
public String LoadedCreationID
{
get { return m_LoadedCreationID; }
set { m_LoadedCreationID = value; }
}
private bool m_GodBlockSearch = false;
public bool GodBlockSearch
{
get { return m_GodBlockSearch; }
set { m_GodBlockSearch = value; }
}
private bool m_Casino = false;
public bool Casino
{
get { return m_Casino; }
set { m_Casino = value; }
}
// Telehub support
private bool m_TelehubEnabled = false;
public bool HasTelehub
{
get { return m_TelehubEnabled; }
set { m_TelehubEnabled = value; }
}
///
/// Connected Telehub object
///
public UUID TelehubObject { get; set; }
///
/// Our connected Telehub's SpawnPoints
///
public List l_SpawnPoints = new();
// Add a SpawnPoint
// ** These are not region coordinates **
// They are relative to the Telehub coordinates
//
public void AddSpawnPoint(SpawnPoint point)
{
l_SpawnPoints.Add(point);
}
// Remove a SpawnPoint
public void RemoveSpawnPoint(int point_index)
{
l_SpawnPoints.RemoveAt(point_index);
}
// Return the List of SpawnPoints
public List SpawnPoints()
{
return l_SpawnPoints;
}
// Clear the SpawnPoints List of all entries
public void ClearSpawnPoints()
{
l_SpawnPoints.Clear();
}
}
}