#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 CodeImp.DoomBuilder.IO; using CodeImp.DoomBuilder.Data; using System.IO; using System.Diagnostics; using System.Windows.Forms; #endregion namespace CodeImp.DoomBuilder.Config { public class GameConfiguration { #region ================== Constants #endregion #region ================== Variables // Original configuration private Configuration cfg; // General settings private float defaulttexturescale; private float defaultflatscale; private string formatinterface; private int soundlinedefflags; private int singlesidedflags; private int doublesidedflags; private int impassableflags; private bool mixtexturesflats; private bool generalizedactions; private bool generalizedeffects; private int start3dmodethingtype; // Map lumps private IDictionary maplumpnames; // Texture/flat sources private IDictionary textureranges; private IDictionary flatranges; // Things private List thingcategories; private Dictionary things; // Linedefs private Dictionary linedefflags; private Dictionary linedefactions; private List sortedlinedefactions; private List actioncategories; private List linedefactivates; private List genactioncategories; // Sectors private Dictionary sectoreffects; private List sortedsectoreffects; private List geneffectoptions; // Universal fields private List linedeffields; private List sectorfields; #endregion #region ================== Properties // General settings public float DefaultTextureScale { get { return defaulttexturescale; } } public float DefaultFlatScale { get { return defaultflatscale; } } public string FormatInterface { get { return formatinterface; } } public int SoundLinedefFlags { get { return soundlinedefflags; } } public int SingleSidedFlags { get { return singlesidedflags; } } public int DoubleSidedFlags { get { return doublesidedflags; } } public int ImpassableFlags { get { return impassableflags; } } public bool MixTexturesFlats { get { return mixtexturesflats; } } public bool GeneralizedActions { get { return generalizedactions; } } public bool GeneralizedEffects { get { return generalizedeffects; } } public int Start3DModeThingType { get { return start3dmodethingtype; } } // Map lumps public IDictionary MapLumpNames { get { return maplumpnames; } } // Texture/flat sources public IDictionary TextureRanges { get { return textureranges; } } public IDictionary FlatRanges { get { return flatranges; } } // Things public List ThingCategories { get { return thingcategories; } } public ICollection Things { get { return things.Values; } } // Linedefs public IDictionary LinedefFlags { get { return linedefflags; } } public IDictionary LinedefActions { get { return linedefactions; } } public List SortedLinedefActions { get { return sortedlinedefactions; } } public List ActionCategories { get { return actioncategories; } } public List LinedefActivates { get { return linedefactivates; } } public List GenActionCategories { get { return genactioncategories; } } // Sectors public IDictionary SectorEffects { get { return sectoreffects; } } public List SortedSectorEffects { get { return sortedsectoreffects; } } public List GenEffectOptions { get { return geneffectoptions; } } // Universal fields public List LinedefFields { get { return linedeffields; } } public List SectorFields { get { return sectorfields; } } #endregion #region ================== Constructor / Disposer // Constructor internal GameConfiguration(Configuration cfg) { // Initialize this.cfg = cfg; this.thingcategories = new List(); this.things = new Dictionary(); this.linedefflags = new Dictionary(); this.linedefactions = new Dictionary(); this.actioncategories = new List(); this.sortedlinedefactions = new List(); this.linedefactivates = new List(); this.genactioncategories = new List(); this.sectoreffects = new Dictionary(); this.sortedsectoreffects = new List(); this.geneffectoptions = new List(); // Read general settings defaulttexturescale = cfg.ReadSetting("defaulttexturescale", 1f); defaultflatscale = cfg.ReadSetting("defaultflatscale", 1f); formatinterface = cfg.ReadSetting("formatinterface", ""); soundlinedefflags = cfg.ReadSetting("soundlinedefflags", 0); singlesidedflags = cfg.ReadSetting("singlesidedflags", 0); doublesidedflags = cfg.ReadSetting("doublesidedflags", 0); impassableflags = cfg.ReadSetting("impassableflags", 0); mixtexturesflats = cfg.ReadSetting("mixtexturesflats", false); generalizedactions = cfg.ReadSetting("generalizedlinedefs", false); generalizedeffects = cfg.ReadSetting("generalizedsectors", false); start3dmodethingtype = cfg.ReadSetting("start3dmode", 0); // Get map lumps maplumpnames = cfg.ReadSetting("maplumpnames", new Hashtable()); // Get texture and flat sources textureranges = cfg.ReadSetting("textures", new Hashtable()); flatranges = cfg.ReadSetting("flats", new Hashtable()); // Things LoadThingCategories(); // Linedefs LoadLinedefFlags(); LoadLinedefActions(); LoadLinedefActivations(); LoadLinedefGeneralizedActions(); // Sectors LoadSectorEffects(); LoadSectorGeneralizedEffects(); // Universal fields linedeffields = LoadUniversalFields("linedefs"); sectorfields = LoadUniversalFields("sectors"); } // Destructor ~GameConfiguration() { foreach(ThingCategory tc in thingcategories) tc.Dispose(); foreach(LinedefActionCategory ac in actioncategories) ac.Dispose(); } #endregion #region ================== Loading // This loads a universal fields list private List LoadUniversalFields(string elementname) { List list = new List(); UniversalFieldInfo uf; IDictionary dic; // Get fields dic = cfg.ReadSetting("universalfields." + elementname, new Hashtable()); foreach(DictionaryEntry de in dic) { try { // Read the field info and add to list uf = new UniversalFieldInfo(elementname, de.Key.ToString(), cfg); list.Add(uf); } catch(Exception) { General.WriteLogLine("WARNING: Unable to read universal field definition 'universalfields." + elementname + "." + de.Key + "'!"); } } // Return result return list; } // Things and thing categories private void LoadThingCategories() { IDictionary dic; ThingCategory thingcat; // Get thing categories dic = cfg.ReadSetting("thingtypes", new Hashtable()); foreach(DictionaryEntry de in dic) { // Make a category thingcat = new ThingCategory(cfg, de.Key.ToString()); // Add all thing in category to the big list foreach(ThingTypeInfo t in thingcat.Things) things.Add(t.Index, t); } } // Linedef flags private void LoadLinedefFlags() { IDictionary dic; int bitflagscheck = 0; int bitvalue; // Get linedef flags dic = cfg.ReadSetting("linedefflags", new Hashtable()); foreach(DictionaryEntry de in dic) { // Try paring the bit value if(int.TryParse(de.Key.ToString(), NumberStyles.AllowLeadingWhite | NumberStyles.AllowTrailingWhite, CultureInfo.InvariantCulture, out bitvalue)) { // Check for conflict and add to list if((bitvalue & bitflagscheck) == 0) linedefflags.Add(bitvalue, de.Value.ToString()); else General.WriteLogLine("WARNING: Structure 'linedefflags' contains conflicting bit flag keys. Make sure all keys are unique integers and powers of 2!"); // Update bit flags checking value bitflagscheck |= bitvalue; } else { General.WriteLogLine("WARNING: Structure 'linedefflags' contains invalid keys!"); } } } // Linedef actions and action categories private void LoadLinedefActions() { Dictionary cats = new Dictionary(); IDictionary dic; LinedefActionInfo ai; LinedefActionCategory ac; int actionnumber; // Get linedef actions dic = cfg.ReadSetting("linedeftypes", new Hashtable()); foreach(DictionaryEntry de in dic) { // Try paring the action number if(int.TryParse(de.Key.ToString(), NumberStyles.AllowLeadingWhite | NumberStyles.AllowTrailingWhite, CultureInfo.InvariantCulture, out actionnumber)) { // Expanded type? if(de.Value is IDictionary) { // Let the class constructure read it ai = new LinedefActionInfo(actionnumber, cfg); } else { // We have all the information in one string (title/prefix only) ai = new LinedefActionInfo(actionnumber, de.Value.ToString()); } // Make or get a category if(cats.ContainsKey(ai.Category)) ac = cats[ai.Category]; else { ac = new LinedefActionCategory(ai.Category); cats.Add(ai.Category, ac); } // Add action to category and sorted list sortedlinedefactions.Add(ai); linedefactions.Add(actionnumber, ai); ac.Add(ai); } else { General.WriteLogLine("WARNING: Structure 'linedeftypes' contains invalid keys!"); } } // Sort the actions list sortedlinedefactions.Sort(); // Copy categories to final list actioncategories.Clear(); actioncategories.AddRange(cats.Values); // Sort the categories list actioncategories.Sort(); } // Linedef activates private void LoadLinedefActivations() { IDictionary dic; int bitvalue; // Get linedef activations dic = cfg.ReadSetting("linedefactivations", new Hashtable()); foreach(DictionaryEntry de in dic) { // Try paring the bit value if(int.TryParse(de.Key.ToString(), NumberStyles.AllowLeadingWhite | NumberStyles.AllowTrailingWhite, CultureInfo.InvariantCulture, out bitvalue)) { // Add to the list linedefactivates.Add(new LinedefActivateInfo(bitvalue, de.Value.ToString())); } else { General.WriteLogLine("WARNING: Structure 'linedefactivations' contains invalid keys!"); } } // Sort the list linedefactivates.Sort(); } // Linedef generalized actions private void LoadLinedefGeneralizedActions() { IDictionary dic; // Get linedef activations dic = cfg.ReadSetting("gen_linedeftypes", new Hashtable()); foreach(DictionaryEntry de in dic) { // Check for valid structure if(de.Value is IDictionary) { // Add category genactioncategories.Add(new GeneralizedCategory("gen_linedeftypes", de.Key.ToString(), cfg)); } else { General.WriteLogLine("WARNING: Structure 'gen_linedeftypes' contains invalid entries!"); } } } // Sector effects private void LoadSectorEffects() { IDictionary dic; SectorEffectInfo si; int actionnumber; // Get sector effects dic = cfg.ReadSetting("sectortypes", new Hashtable()); foreach(DictionaryEntry de in dic) { // Try paring the action number if(int.TryParse(de.Key.ToString(), NumberStyles.AllowLeadingWhite | NumberStyles.AllowTrailingWhite, CultureInfo.InvariantCulture, out actionnumber)) { // Make effects si = new SectorEffectInfo(actionnumber, de.Value.ToString()); // Add action to category and sorted list sortedsectoreffects.Add(si); sectoreffects.Add(actionnumber, si); } else { General.WriteLogLine("WARNING: Structure 'sectortypes' contains invalid keys!"); } } // Sort the actions list sortedsectoreffects.Sort(); } // Sector generalized effects private void LoadSectorGeneralizedEffects() { IDictionary dic; // Get sector effects dic = cfg.ReadSetting("gen_sectortypes", new Hashtable()); foreach(DictionaryEntry de in dic) { // Check for valid structure if(de.Value is IDictionary) { // Add option geneffectoptions.Add(new GeneralizedOption("gen_sectortypes", "", de.Key.ToString(), de.Value as IDictionary)); } else { General.WriteLogLine("WARNING: Structure 'gen_sectortypes' contains invalid entries!"); } } } #endregion #region ================== Methods // ReadSetting public string ReadSetting(string setting, string defaultsetting) { return cfg.ReadSetting(setting, defaultsetting); } public int ReadSetting(string setting, int defaultsetting) { return cfg.ReadSetting(setting, defaultsetting); } public float ReadSetting(string setting, float defaultsetting) { return cfg.ReadSetting(setting, defaultsetting); } public short ReadSetting(string setting, short defaultsetting) { return cfg.ReadSetting(setting, defaultsetting); } public long ReadSetting(string setting, long defaultsetting) { return cfg.ReadSetting(setting, defaultsetting); } public bool ReadSetting(string setting, bool defaultsetting) { return cfg.ReadSetting(setting, defaultsetting); } public byte ReadSetting(string setting, byte defaultsetting) { return cfg.ReadSetting(setting, defaultsetting); } public IDictionary ReadSetting(string setting, IDictionary defaultsetting) { return cfg.ReadSetting(setting, defaultsetting); } // This gets thing information by index public ThingTypeInfo GetThingInfo(int thingtype) { // Index in config? if(things.ContainsKey(thingtype)) { // Return from config return things[thingtype]; } else { // Create unknown thing info return new ThingTypeInfo(thingtype); } } // This checks if an action is generalized or predefined public static bool IsGeneralized(int action, List categories) { // Only actions above 0 if(action > 0) { // Go for all categories foreach(GeneralizedCategory ac in categories) { // Check if the action is within range of this category if((action >= ac.Offset) && (action < (ac.Offset + ac.Length))) return true; } } // Not generalized return false; } // This gets the generalized action category from action number public GeneralizedCategory GetGeneralizedActionCategory(int action) { // Only actions above 0 if(action > 0) { // Go for all categories foreach(GeneralizedCategory ac in genactioncategories) { // Check if the action is within range of this category if((action >= ac.Offset) && (action < (ac.Offset + ac.Length))) return ac; } } // Not generalized return null; } // This checks if a specific edit mode class is listed public bool IsEditModeSpecified(string classname) { return cfg.SettingExists("additionalmodes." + classname.ToString(CultureInfo.InvariantCulture)); } #endregion } }