#region ================== Copyright (c) 2007 Pascal vd Heiden /* * Copyright (c) 2007 Pascal vd Heiden, www.codeimp.com * This program is released under GNU General Public License * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * */ #endregion #region ================== Namespaces using System.Collections.Generic; using CodeImp.DoomBuilder.Geometry; using System.IO; #endregion namespace CodeImp.DoomBuilder.IO { internal sealed class DeserializerStream : IReadWriteStream { #region ================== Constants #endregion #region ================== Variables private Stream stream; private BinaryReader reader; private string[] stringstable; private int stringtablepos; #endregion #region ================== Properties public bool IsWriting { get { return false; } } public int EndPosition { get { return stringtablepos; } } #endregion #region ================== Constructor / Destructor // Constructor public DeserializerStream(Stream stream) { // Initialize this.stream = stream; this.reader = new BinaryReader(stream); } #endregion #region ================== Methods // Management public void Begin() { // First 4 bytes are reserved for the offset of the strings table stringtablepos = reader.ReadInt32(); stream.Seek(stringtablepos, SeekOrigin.Begin); // Read the strings List strings = new List(); while(stream.Position < (int)stream.Length) strings.Add(reader.ReadString()); stringstable = strings.ToArray(); // Back to start stream.Seek(4, SeekOrigin.Begin); } public void End() { } // Bidirectional public void rwInt(ref int v) { v = reader.ReadInt32(); } public void rwByte(ref byte v) { v = reader.ReadByte(); } public void rwShort(ref short v) { v = reader.ReadInt16(); } public void rwString(ref string v) { ushort index = reader.ReadUInt16(); v = stringstable[index]; } public void rwLong(ref long v) { v = reader.ReadInt64(); } public void rwUInt(ref uint v) { v = reader.ReadUInt32(); } public void rwUShort(ref ushort v) { v = reader.ReadUInt16(); } public void rwULong(ref ulong v) { v = reader.ReadUInt64(); } public void rwFloat(ref float v) { v = reader.ReadSingle(); } public void rwBool(ref bool v) { v = reader.ReadBoolean(); } public void rwVector2D(ref Vector2D v) { v.x = reader.ReadSingle(); v.y = reader.ReadSingle(); } public void rwVector3D(ref Vector3D v) { v.x = reader.ReadSingle(); v.y = reader.ReadSingle(); v.z = reader.ReadSingle(); } // Write-only is not supported public void wInt(int v) { General.Fail("Write-only is not supported on deserialization stream. Consider passing the element by reference for bidirectional support."); } public void wByte(byte v) { General.Fail("Write-only is not supported on deserialization stream. Consider passing the element by reference for bidirectional support."); } public void wShort(short v) { General.Fail("Write-only is not supported on deserialization stream. Consider passing the element by reference for bidirectional support."); } public void wString(string v) { General.Fail("Write-only is not supported on deserialization stream. Consider passing the element by reference for bidirectional support."); } public void wLong(long v) { General.Fail("Write-only is not supported on deserialization stream. Consider passing the element by reference for bidirectional support."); } public void wUInt(uint v) { General.Fail("Write-only is not supported on deserialization stream. Consider passing the element by reference for bidirectional support."); } public void wUShort(ushort v) { General.Fail("Write-only is not supported on deserialization stream. Consider passing the element by reference for bidirectional support."); } public void wULong(ulong v) { General.Fail("Write-only is not supported on deserialization stream. Consider passing the element by reference for bidirectional support."); } public void wFloat(float v) { General.Fail("Write-only is not supported on deserialization stream. Consider passing the element by reference for bidirectional support."); } public void wBool(bool v) { General.Fail("Write-only is not supported on deserialization stream. Consider passing the element by reference for bidirectional support."); } public void wVector2D(Vector2D v) { General.Fail("Write-only is not supported on deserialization stream. Consider passing the element by reference for bidirectional support."); } public void wVector3D(Vector3D v) { General.Fail("Write-only is not supported on deserialization stream. Consider passing the element by reference for bidirectional support."); } // Read-only public void rInt(out int v) { v = reader.ReadInt32(); } public void rByte(out byte v) { v = reader.ReadByte(); } public void rShort(out short v) { v = reader.ReadInt16(); } public void rString(out string v) { ushort index = reader.ReadUInt16(); v = stringstable[index]; } public void rLong(out long v) { v = reader.ReadInt64(); } public void rUInt(out uint v) { v = reader.ReadUInt32(); } public void rUShort(out ushort v) { v = reader.ReadUInt16(); } public void rULong(out ulong v) { v = reader.ReadUInt64(); } public void rFloat(out float v) { v = reader.ReadSingle(); } public void rBool(out bool v) { v = reader.ReadBoolean(); } public void rVector2D(out Vector2D v) { v = new Vector2D(); v.x = reader.ReadSingle(); v.y = reader.ReadSingle(); } public void rVector3D(out Vector3D v) { v = new Vector3D(); v.x = reader.ReadSingle(); v.y = reader.ReadSingle(); v.z = reader.ReadSingle(); } #endregion } }