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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 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 System.Reflection;
using OpenMetaverse;
using log4net;
namespace OpenSim.Framework
{
public abstract class TerrainData
{
// Terrain always is a square
public int SizeX { get; protected set; }
public int SizeY { get; protected set; }
public int SizeZ { get; protected set; }
// A height used when the user doesn't specify anything
public const float DefaultTerrainHeight = 21f;
public abstract float this[int x, int y] { get; set; }
// Someday terrain will have caves
public abstract float this[int x, int y, int z] { get; set; }
public abstract bool IsTaintedAt(int xx, int yy);
public abstract bool IsTaintedAt(int xx, int yy, bool clearOnTest);
public abstract void TaintAllTerrain();
public abstract void ClearTaint();
public abstract void ClearLand();
public abstract void ClearLand(float height);
// Return a representation of this terrain for storing as a blob in the database.
// Returns 'true' to say blob was stored in the 'out' locations.
public abstract bool GetDatabaseBlob(out int DBFormatRevisionCode, out Array blob);
// Given a revision code and a blob from the database, create and return the right type of TerrainData.
// The sizes passed are the expected size of the region. The database info will be used to
// initialize the heightmap of that sized region with as much data is in the blob.
// Return created TerrainData or 'null' if unsuccessful.
public static TerrainData CreateFromDatabaseBlobFactory(int pSizeX, int pSizeY, int pSizeZ, int pFormatCode, byte[] pBlob)
{
// For the moment, there is only one implementation class
return new HeightmapTerrainData(pSizeX, pSizeY, pSizeZ, pFormatCode, pBlob);
}
// return a special compressed representation of the heightmap in ints
public abstract int[] GetCompressedMap();
public abstract float CompressionFactor { get; }
public abstract float[] GetFloatsSerialized();
public abstract double[,] GetDoubles();
public abstract TerrainData Clone();
}
// The terrain is stored in the database as a blob with a 'revision' field.
// Some implementations of terrain storage would fill the revision field with
// the time the terrain was stored. When real revisions were added and this
// feature removed, that left some old entries with the time in the revision
// field.
// Thus, if revision is greater than 'RevisionHigh' then terrain db entry is
// left over and it is presumed to be 'Legacy256'.
// Numbers are arbitrary and are chosen to to reduce possible mis-interpretation.
// If a revision does not match any of these, it is assumed to be Legacy256.
public enum DBTerrainRevision
{
// Terrain is 'double[256,256]'
Legacy256 = 11,
// Terrain is 'int32, int32, float[,]' where the ints are X and Y dimensions
// The dimensions are presumed to be multiples of 16 and, more likely, multiples of 256.
Variable2D = 22,
// Terrain is 'int32, int32, int32, int16[]' where the ints are X and Y dimensions
// and third int is the 'compression factor'. The heights are compressed as
// "int compressedHeight = (int)(height * compressionFactor);"
// The dimensions are presumed to be multiples of 16 and, more likely, multiples of 256.
Compressed2D = 27,
// A revision that is not listed above or any revision greater than this value is 'Legacy256'.
RevisionHigh = 1234
}
// Version of terrain that is a heightmap.
// This should really be 'LLOptimizedHeightmapTerrainData' as it includes knowledge
// of 'patches' which are 16x16 terrain areas which can be sent separately to the viewer.
// The heighmap is kept as an array of integers. The integer values are converted to
// and from floats by TerrainCompressionFactor.
public class HeightmapTerrainData : TerrainData
{
private static readonly ILog m_log = LogManager.GetLogger(MethodBase.GetCurrentMethod().DeclaringType);
private static string LogHeader = "[HEIGHTMAP TERRAIN DATA]";
// TerrainData.this[x, y]
public override float this[int x, int y]
{
get { return FromCompressedHeight(m_heightmap[x, y]); }
set {
int newVal = ToCompressedHeight(value);
if (m_heightmap[x, y] != newVal)
{
m_heightmap[x, y] = newVal;
m_taint[x / Constants.TerrainPatchSize, y / Constants.TerrainPatchSize] = true;
}
}
}
// TerrainData.this[x, y, z]
public override float this[int x, int y, int z]
{
get { return this[x, y]; }
set { this[x, y] = value; }
}
// TerrainData.ClearTaint
public override void ClearTaint()
{
SetAllTaint(false);
}
// TerrainData.TaintAllTerrain
public override void TaintAllTerrain()
{
SetAllTaint(true);
}
private void SetAllTaint(bool setting)
{
for (int ii = 0; ii < m_taint.GetLength(0); ii++)
for (int jj = 0; jj < m_taint.GetLength(1); jj++)
m_taint[ii, jj] = setting;
}
// TerrainData.ClearLand
public override void ClearLand()
{
ClearLand(DefaultTerrainHeight);
}
// TerrainData.ClearLand(float)
public override void ClearLand(float pHeight)
{
int flatHeight = ToCompressedHeight(pHeight);
for (int xx = 0; xx < SizeX; xx++)
for (int yy = 0; yy < SizeY; yy++)
m_heightmap[xx, yy] = flatHeight;
}
// Return 'true' of the patch that contains these region coordinates has been modified.
// Note that checking the taint clears it.
// There is existing code that relies on this feature.
public override bool IsTaintedAt(int xx, int yy, bool clearOnTest)
{
int tx = xx / Constants.TerrainPatchSize;
int ty = yy / Constants.TerrainPatchSize;
bool ret = m_taint[tx, ty];
if (ret && clearOnTest)
m_taint[tx, ty] = false;
return ret;
}
// Old form that clears the taint flag when we check it.
public override bool IsTaintedAt(int xx, int yy)
{
return IsTaintedAt(xx, yy, true /* clearOnTest */);
}
// TerrainData.GetDatabaseBlob
// The user wants something to store in the database.
public override bool GetDatabaseBlob(out int DBRevisionCode, out Array blob)
{
bool ret = false;
if (SizeX == Constants.RegionSize && SizeY == Constants.RegionSize)
{
DBRevisionCode = (int)DBTerrainRevision.Legacy256;
blob = ToLegacyTerrainSerialization();
ret = true;
}
else
{
DBRevisionCode = (int)DBTerrainRevision.Compressed2D;
blob = ToCompressedTerrainSerialization();
ret = true;
}
return ret;
}
// TerrainData.CompressionFactor
private float m_compressionFactor = 100.0f;
public override float CompressionFactor { get { return m_compressionFactor; } }
// TerrainData.GetCompressedMap
public override int[] GetCompressedMap()
{
int[] newMap = new int[SizeX * SizeY];
int ind = 0;
for (int xx = 0; xx < SizeX; xx++)
for (int yy = 0; yy < SizeY; yy++)
newMap[ind++] = m_heightmap[xx, yy];
return newMap;
}
// TerrainData.Clone
public override TerrainData Clone()
{
HeightmapTerrainData ret = new HeightmapTerrainData(SizeX, SizeY, SizeZ);
ret.m_heightmap = (int[,])this.m_heightmap.Clone();
return ret;
}
// TerrainData.GetFloatsSerialized
// This one dimensional version is ordered so height = map[y*sizeX+x];
// DEPRECATED: don't use this function as it does not retain the dimensions of the terrain
// and the caller will probably do the wrong thing if the terrain is not the legacy 256x256.
public override float[] GetFloatsSerialized()
{
int points = SizeX * SizeY;
float[] heights = new float[points];
int idx = 0;
for (int jj = 0; jj < SizeY; jj++)
for (int ii = 0; ii < SizeX; ii++)
{
heights[idx++] = FromCompressedHeight(m_heightmap[ii, jj]);
}
return heights;
}
// TerrainData.GetDoubles
public override double[,] GetDoubles()
{
double[,] ret = new double[SizeX, SizeY];
for (int xx = 0; xx < SizeX; xx++)
for (int yy = 0; yy < SizeY; yy++)
ret[xx, yy] = FromCompressedHeight(m_heightmap[xx, yy]);
return ret;
}
// =============================================================
private int[,] m_heightmap;
// Remember subregions of the heightmap that has changed.
private bool[,] m_taint;
// To save space (especially for large regions), keep the height as a short integer
// that is coded as the float height times the compression factor (usually '100'
// to make for two decimal points).
public int ToCompressedHeight(double pHeight)
{
return (int)(pHeight * CompressionFactor);
}
public float FromCompressedHeight(int pHeight)
{
return ((float)pHeight) / CompressionFactor;
}
// To keep with the legacy theme, create an instance of this class based on the
// way terrain used to be passed around.
public HeightmapTerrainData(double[,] pTerrain)
{
SizeX = pTerrain.GetLength(0);
SizeY = pTerrain.GetLength(1);
SizeZ = (int)Constants.RegionHeight;
m_compressionFactor = 100.0f;
m_heightmap = new int[SizeX, SizeY];
for (int ii = 0; ii < SizeX; ii++)
{
for (int jj = 0; jj < SizeY; jj++)
{
m_heightmap[ii, jj] = ToCompressedHeight(pTerrain[ii, jj]);
}
}
// m_log.DebugFormat("{0} new by doubles. sizeX={1}, sizeY={2}, sizeZ={3}", LogHeader, SizeX, SizeY, SizeZ);
m_taint = new bool[SizeX / Constants.TerrainPatchSize, SizeY / Constants.TerrainPatchSize];
ClearTaint();
}
// Create underlying structures but don't initialize the heightmap assuming the caller will immediately do that
public HeightmapTerrainData(int pX, int pY, int pZ)
{
SizeX = pX;
SizeY = pY;
SizeZ = pZ;
m_compressionFactor = 100.0f;
m_heightmap = new int[SizeX, SizeY];
m_taint = new bool[SizeX / Constants.TerrainPatchSize, SizeY / Constants.TerrainPatchSize];
// m_log.DebugFormat("{0} new by dimensions. sizeX={1}, sizeY={2}, sizeZ={3}", LogHeader, SizeX, SizeY, SizeZ);
ClearTaint();
ClearLand(0f);
}
public HeightmapTerrainData(int[] cmap, float pCompressionFactor, int pX, int pY, int pZ) : this(pX, pY, pZ)
{
m_compressionFactor = pCompressionFactor;
int ind = 0;
for (int xx = 0; xx < SizeX; xx++)
for (int yy = 0; yy < SizeY; yy++)
m_heightmap[xx, yy] = cmap[ind++];
// m_log.DebugFormat("{0} new by compressed map. sizeX={1}, sizeY={2}, sizeZ={3}", LogHeader, SizeX, SizeY, SizeZ);
}
// Create a heighmap from a database blob
public HeightmapTerrainData(int pSizeX, int pSizeY, int pSizeZ, int pFormatCode, byte[] pBlob) : this(pSizeX, pSizeY, pSizeZ)
{
switch ((DBTerrainRevision)pFormatCode)
{
case DBTerrainRevision.Compressed2D:
FromCompressedTerrainSerialization(pBlob);
m_log.DebugFormat("{0} HeightmapTerrainData create from Compressed2D serialization. Size=<{1},{2}>", LogHeader, SizeX, SizeY);
break;
default:
FromLegacyTerrainSerialization(pBlob);
m_log.DebugFormat("{0} HeightmapTerrainData create from legacy serialization. Size=<{1},{2}>", LogHeader, SizeX, SizeY);
break;
}
}
// Just create an array of doubles. Presumes the caller implicitly knows the size.
public Array ToLegacyTerrainSerialization()
{
Array ret = null;
using (MemoryStream str = new MemoryStream((int)Constants.RegionSize * (int)Constants.RegionSize * sizeof(double)))
{
using (BinaryWriter bw = new BinaryWriter(str))
{
for (int xx = 0; xx < Constants.RegionSize; xx++)
{
for (int yy = 0; yy < Constants.RegionSize; yy++)
{
double height = this[xx, yy];
if (height == 0.0)
height = double.Epsilon;
bw.Write(height);
}
}
}
ret = str.ToArray();
}
return ret;
}
// Just create an array of doubles. Presumes the caller implicitly knows the size.
public void FromLegacyTerrainSerialization(byte[] pBlob)
{
// In case database info doesn't match real terrain size, initialize the whole terrain.
ClearLand();
using (MemoryStream mstr = new MemoryStream(pBlob))
{
using (BinaryReader br = new BinaryReader(mstr))
{
for (int xx = 0; xx < (int)Constants.RegionSize; xx++)
{
for (int yy = 0; yy < (int)Constants.RegionSize; yy++)
{
float val = (float)br.ReadDouble();
if (xx < SizeX && yy < SizeY)
m_heightmap[xx, yy] = ToCompressedHeight(val);
}
}
}
ClearTaint();
}
}
// See the reader below.
public Array ToCompressedTerrainSerialization()
{
Array ret = null;
using (MemoryStream str = new MemoryStream((3 * sizeof(Int32)) + (SizeX * SizeY * sizeof(Int16))))
{
using (BinaryWriter bw = new BinaryWriter(str))
{
bw.Write((Int32)DBTerrainRevision.Compressed2D);
bw.Write((Int32)SizeX);
bw.Write((Int32)SizeY);
bw.Write((Int32)CompressionFactor);
for (int yy = 0; yy < SizeY; yy++)
for (int xx = 0; xx < SizeX; xx++)
{
bw.Write((Int16)m_heightmap[xx, yy]);
}
}
ret = str.ToArray();
}
return ret;
}
// Initialize heightmap from blob consisting of:
// int32, int32, int32, int32, int16[]
// where the first int32 is format code, next two int32s are the X and y of heightmap data and
// the forth int is the compression factor for the following int16s
// This is just sets heightmap info. The actual size of the region was set on this instance's
// creation and any heights not initialized by theis blob are set to the default height.
public void FromCompressedTerrainSerialization(byte[] pBlob)
{
Int32 hmFormatCode, hmSizeX, hmSizeY, hmCompressionFactor;
using (MemoryStream mstr = new MemoryStream(pBlob))
{
using (BinaryReader br = new BinaryReader(mstr))
{
hmFormatCode = br.ReadInt32();
hmSizeX = br.ReadInt32();
hmSizeY = br.ReadInt32();
hmCompressionFactor = br.ReadInt32();
m_compressionFactor = hmCompressionFactor;
// In case database info doesn't match real terrain size, initialize the whole terrain.
ClearLand();
for (int yy = 0; yy < hmSizeY; yy++)
{
for (int xx = 0; xx < hmSizeX; xx++)
{
Int16 val = br.ReadInt16();
if (xx < SizeX && yy < SizeY)
m_heightmap[xx, yy] = val;
}
}
}
ClearTaint();
m_log.InfoFormat("{0} Read compressed 2d heightmap. Heightmap size=<{1},{2}>. Region size=<{3},{4}>. CompFact={5}",
LogHeader, hmSizeX, hmSizeY, SizeX, SizeY, hmCompressionFactor);
}
}
}
}
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