#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; using System.Collections; using System.Collections.Generic; using System.Globalization; using System.Text; using System.IO; #endregion namespace CodeImp.DoomBuilder.IO { internal class WAD { #region ================== Constants // WAD types public const string TYPE_IWAD = "IWAD"; public const string TYPE_PWAD = "PWAD"; // Encoder public static readonly Encoding ENCODING = Encoding.ASCII; #endregion #region ================== Variables // File objects private string filename; private FileStream file; private BinaryReader reader; private BinaryWriter writer; // Header private string type; private int numlumps; private int lumpsoffset; // Lumps private List lumps; // Status private bool isreadonly = false; private bool isdisposed = false; #endregion #region ================== Properties public string Filename { get { return filename; } } public string Type { get { return type; } } public Encoding Encoding { get { return ENCODING; } } public bool IsReadOnly { get { return isreadonly; } } public bool IsDisposed { get { return isdisposed; } } public List Lumps { get { return lumps; } } #endregion #region ================== Constructor / Disposer // Constructor to open or create a WAD file public WAD(string pathfilename) { // Initialize this.isreadonly = false; this.Open(pathfilename); } // Constructor to open or create a WAD file public WAD(string pathfilename, bool openreadonly) { // Initialize this.isreadonly = openreadonly; this.Open(pathfilename); } // Destructor ~WAD() { // Make sure everything is disposed this.Dispose(); } // Disposer public void Dispose() { // Not already disposed? if(!isdisposed) { // Flush all changes Flush(); // Clean up if(lumps != null) foreach(Lump l in lumps) l.Dispose(); if(writer != null) writer.Close(); if(reader != null) reader.Close(); if(file != null) file.Dispose(); // Done isdisposed = true; } } #endregion #region ================== IO // Open a WAD file private void Open(string pathfilename) { FileAccess access; FileShare share; // Determine if opening for read only if(isreadonly) { // Read only access = FileAccess.Read; share = FileShare.ReadWrite; } else { // Private access access = FileAccess.ReadWrite; share = FileShare.Read; } // Keep filename filename = pathfilename; // Open the file stream file = File.Open(pathfilename, FileMode.OpenOrCreate, access, share); // Create file handling tools reader = new BinaryReader(file, ENCODING); if(!isreadonly) writer = new BinaryWriter(file, ENCODING); // Is the WAD file zero length? if(file.Length == 0) { // Create the headers in file CreateHeaders(); } else { // Read information from file ReadHeaders(); } } // This creates new file headers private void CreateHeaders() { // Default settings type = TYPE_PWAD; lumpsoffset = 12; // New lumps array lumps = new List(numlumps); // Write the headers WriteHeaders(); } // This reads the WAD header and lumps table private void ReadHeaders() { int offset, length; byte[] fixedname; // Make sure the write is finished writing if(!isreadonly) writer.Flush(); // Seek to beginning file.Seek(0, SeekOrigin.Begin); // Read WAD type type = ENCODING.GetString(reader.ReadBytes(4)); // Number of lumps numlumps = reader.ReadInt32(); // Lumps table offset lumpsoffset = reader.ReadInt32(); // Seek to the lumps table file.Seek(lumpsoffset, SeekOrigin.Begin); // Dispose old lumps and create new list if(lumps != null) foreach(Lump l in lumps) l.Dispose(); lumps = new List(numlumps); // Go for all lumps for(int i = 0; i < numlumps; i++) { // Read lump information offset = reader.ReadInt32(); length = reader.ReadInt32(); fixedname = reader.ReadBytes(8); // Create the lump lumps.Add(new Lump(file, this, fixedname, offset, length)); } } // This reads the WAD header and lumps table public void WriteHeaders() { // Seek to beginning file.Seek(0, SeekOrigin.Begin); // Write WAD type writer.Write(ENCODING.GetBytes(type)); // Number of lumps writer.Write(numlumps); // Lumps table offset writer.Write(lumpsoffset); // Seek to the lumps table file.Seek(lumpsoffset, SeekOrigin.Begin); // Go for all lumps for(int i = 0; i < lumps.Count; i++) { // Write lump information writer.Write(lumps[i].Offset); writer.Write(lumps[i].Length); writer.Write(lumps[i].FixedName); } } // This flushes writing changes public void Flush() { // Only possible when not read-only if(!isreadonly) { // Flush writing changes if(writer != null) writer.Flush(); if(file != null) file.Flush(); } } #endregion #region ================== Lumps // This creates a new lump in the WAD file public Lump Insert(string name, int position, int datalength) { Lump lump; // We will be adding a lump numlumps++; // Extend the file file.SetLength(file.Length + datalength + 16); // Create the lump lump = new Lump(file, this, Lump.MakeFixedName(name, ENCODING), lumpsoffset, datalength); lumps.Insert(position, lump); // Advance lumps table offset lumpsoffset += datalength; // Write the new headers WriteHeaders(); // Return the new lump return lump; } // This removes a lump from the WAD file by index public void RemoveAt(int index) { Lump l; // Remove from list l = lumps[index]; lumps.RemoveAt(index); l.Dispose(); numlumps--; // Write the new headers WriteHeaders(); } // This removes a lump from the WAD file public void Remove(Lump lump) { // Remove from list lumps.Remove(lump); lump.Dispose(); numlumps--; // Write the new headers WriteHeaders(); } // This finds a lump by name, returns null when not found public Lump FindLump(string name) { int index = FindLumpIndex(name); if(index == -1) return null; else return lumps[index]; } // This finds a lump by name, returns null when not found public Lump FindLump(string name, int start) { int index = FindLumpIndex(name, start); if(index == -1) return null; else return lumps[index]; } // This finds a lump by name, returns null when not found public Lump FindLump(string name, int start, int end) { int index = FindLumpIndex(name, start, end); if(index == -1) return null; else return lumps[index]; } // This finds a lump by name, returns -1 when not found public int FindLumpIndex(string name) { // Do search return FindLumpIndex(name, 0, lumps.Count - 1); } // This finds a lump by name, returns -1 when not found public int FindLumpIndex(string name, int start) { // Do search return FindLumpIndex(name, start, lumps.Count - 1); } // This finds a lump by name, returns -1 when not found public int FindLumpIndex(string name, int start, int end) { byte[] fixedname; long longname = Lump.MakeLongName(name); // Fix end when it exceeds length if(end > (lumps.Count - 1)) end = lumps.Count - 1; // Make sure name is in uppercase name = name.ToUpperInvariant(); // Make fixed name fixedname = Lump.MakeFixedName(name, ENCODING); // Loop through the lumps for(int i = start; i <= end; i++) { /* // Check if first byte matches if(lumps[i].FixedName[0] == fixedname[0]) { // Check if the lump name matches if(lumps[i].Name.StartsWith(name, false, CultureInfo.InvariantCulture)) { // Found the lump! return i; } } */ // Check if the lump name matches if(lumps[i].LongName == longname) { // Found the lump! return i; } } // Nothing found return -1; } #endregion } }