#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 CodeImp.DoomBuilder.Compilers; #endregion namespace CodeImp.DoomBuilder.ZDoom { public sealed class ActorStructure { #region ================== Constants private readonly string[] SPRITE_POSTFIXES = new string[] {"2C8", "2D8", "2A8", "2B8", "1C1", "1D1", "1A1", "1B1", "A2", "A1", "A0", "2", "1", "0" }; #endregion #region ================== Variables // Declaration private string classname; private string inheritclass; private string replaceclass; private int doomednum = -1; // Inheriting private ActorStructure baseclass; private bool skipsuper; // Flags private Dictionary flags; // Properties private Dictionary> props; // States private Dictionary states; #endregion #region ================== Properties public Dictionary Flags { get { return flags; } } public Dictionary> Properties { get { return props; } } public string ClassName { get { return classname; } } public string InheritsClass { get { return inheritclass; } } public string ReplacesClass { get { return replaceclass; } } public ActorStructure BaseClass { get { return baseclass; } } public int DoomEdNum { get { return doomednum; } } #endregion #region ================== Constructor / Disposer // Constructor internal ActorStructure(DecorateParser parser) { // Initialize flags = new Dictionary(); props = new Dictionary>(); states = new Dictionary(); // Always define a game property, but default to 0 values props["game"] = new List(); inheritclass = "actor"; replaceclass = null; baseclass = null; skipsuper = false; // First next token is the class name parser.SkipWhitespace(true); classname = parser.StripTokenQuotes(parser.ReadToken()); if(string.IsNullOrEmpty(classname)) { parser.ReportError("Expected actor class name"); return; } // Parse tokens before entering the actor scope while(parser.SkipWhitespace(true)) { string token = parser.ReadToken(); if(!string.IsNullOrEmpty(token)) { token = token.ToLowerInvariant(); if(token == ":") { // The next token must be the class to inherit from parser.SkipWhitespace(true); inheritclass = parser.StripTokenQuotes(parser.ReadToken()); if(string.IsNullOrEmpty(inheritclass) || parser.IsSpecialToken(inheritclass)) { parser.ReportError("Expected class name to inherit from"); return; } else { // Find the actor to inherit from baseclass = parser.GetArchivedActorByName(inheritclass); if(baseclass == null) General.ErrorLogger.Add(ErrorType.Warning, "Unable to find the DECORATE class '" + inheritclass + "' to inherit from, while parsing '" + classname + "'"); } } else if(token == "replaces") { // The next token must be the class to replace parser.SkipWhitespace(true); replaceclass = parser.StripTokenQuotes(parser.ReadToken()); if(string.IsNullOrEmpty(replaceclass) || parser.IsSpecialToken(replaceclass)) { parser.ReportError("Expected class name to replace"); return; } } else if(token == "native") { // Igore this token } else if(token == "{") { // Actor scope begins here, // break out of this parse loop break; } else if(token == "-") { // This could be a negative doomednum (but our parser sees the - as separate token) // So read whatever is after this token and ignore it (negative doomednum indicates no doomednum) parser.ReadToken(); } else { // Check if numeric if(!int.TryParse(token, NumberStyles.Integer, CultureInfo.InvariantCulture, out doomednum)) { // Not numeric! parser.ReportError("Expected numeric editor thing number or start of actor scope"); return; } } } else { parser.ReportError("Unexpected end of structure"); return; } } // Now parse the contents of actor structure string previoustoken = ""; while(parser.SkipWhitespace(true)) { string token = parser.ReadToken(); token = token.ToLowerInvariant(); if((token == "+") || (token == "-")) { // Next token is a flag (option) to set or remove bool flagvalue = (token == "+"); parser.SkipWhitespace(true); string flagname = parser.ReadToken(); if(!string.IsNullOrEmpty(flagname)) { // Add the flag with its value flagname = flagname.ToLowerInvariant(); flags[flagname] = flagvalue; } else { parser.ReportError("Expected flag name"); return; } } else if((token == "action") || (token == "native")) { // We don't need this, ignore up to the first next ; while(parser.SkipWhitespace(true)) { string t = parser.ReadToken(); if((t == ";") || (t == null)) break; } } else if(token == "skip_super") { skipsuper = true; } else if(token == "states") { // Now parse actor states until we reach the end of the states structure while(parser.SkipWhitespace(true)) { string statetoken = parser.ReadToken(); if(!string.IsNullOrEmpty(statetoken)) { // Start of scope? if(statetoken == "{") { // This is fine } // End of scope? else if(statetoken == "}") { // Done with the states, // break out of this parse loop break; } // State label? else if(statetoken == ":") { if(!string.IsNullOrEmpty(previoustoken)) { // Parse actor state StateStructure st = new StateStructure(this, parser, previoustoken); if(parser.HasError) return; states[previoustoken.ToLowerInvariant()] = st; } else { parser.ReportError("Unexpected end of structure"); return; } } else { // Keep token previoustoken = statetoken; } } else { parser.ReportError("Unexpected end of structure"); return; } } } else if(token == "}") { // Actor scope ends here, // break out of this parse loop break; } // Monster property? else if(token == "monster") { // This sets certain flags we are interested in flags["shootable"] = true; flags["countkill"] = true; flags["solid"] = true; flags["canpushwalls"] = true; flags["canusewalls"] = true; flags["activatemcross"] = true; flags["canpass"] = true; flags["ismonster"] = true; } // Projectile property? else if(token == "projectile") { // This sets certain flags we are interested in flags["noblockmap"] = true; flags["nogravity"] = true; flags["dropoff"] = true; flags["missile"] = true; flags["activateimpact"] = true; flags["activatepcross"] = true; flags["noteleport"] = true; } // Clearflags property? else if(token == "clearflags") { // Clear all flags flags.Clear(); } // Game property? else if(token == "game") { // Include all tokens on the same line List games = new List(); while(parser.SkipWhitespace(false)) { string v = parser.ReadToken(); if(v == null) { parser.ReportError("Unexpected end of structure"); return; } if(v == "\n") break; if(v != ",") games.Add(v.ToLowerInvariant()); } props[token] = games; } // Property else { // Property begins with $? Then the whole line is a single value if(token.StartsWith("$")) { // This is for editor-only properties such as $sprite and $category List values = new List(); if(parser.SkipWhitespace(false)) values.Add(parser.ReadLine()); else values.Add(""); props[token] = values; } else { // Next tokens up until the next newline are values List values = new List(); while(parser.SkipWhitespace(false)) { string v = parser.ReadToken(); if(v == null) { parser.ReportError("Unexpected end of structure"); return; } if(v == "\n") break; if(v != ",") values.Add(v); } props[token] = values; } } // Keep token previoustoken = token; } } // Disposer public void Dispose() { baseclass = null; flags = null; props = null; states = null; } #endregion #region ================== Methods /// /// This checks if the actor has a specific property. /// public bool HasProperty(string propname) { if(props.ContainsKey(propname)) return true; else if(!skipsuper && (baseclass != null)) return baseclass.HasProperty(propname); else return false; } /// /// This checks if the actor has a specific property with at least one value. /// public bool HasPropertyWithValue(string propname) { if(props.ContainsKey(propname) && (props[propname].Count > 0)) return true; else if(!skipsuper && (baseclass != null)) return baseclass.HasPropertyWithValue(propname); else return false; } /// /// This returns values of a specific property as a complete string. Returns an empty string when the propery has no values. /// public string GetPropertyAllValues(string propname) { if(props.ContainsKey(propname) && (props[propname].Count > 0)) return string.Join(" ", props[propname].ToArray()); else if(!skipsuper && (baseclass != null)) return baseclass.GetPropertyAllValues(propname); else return ""; } /// /// This returns a specific value of a specific property as a string. Returns an empty string when the propery does not have the specified value. /// public string GetPropertyValueString(string propname, int valueindex) { if(props.ContainsKey(propname) && (props[propname].Count > valueindex)) return props[propname][valueindex]; else if(!skipsuper && (baseclass != null)) return baseclass.GetPropertyValueString(propname, valueindex); else return ""; } /// /// This returns a specific value of a specific property as an integer. Returns 0 when the propery does not have the specified value. /// public int GetPropertyValueInt(string propname, int valueindex) { string str = GetPropertyValueString(propname, valueindex); int intvalue; if(int.TryParse(str, NumberStyles.Integer, CultureInfo.InvariantCulture, out intvalue)) return intvalue; else return 0; } /// /// This returns a specific value of a specific property as a float. Returns 0.0f when the propery does not have the specified value. /// public float GetPropertyValueFloat(string propname, int valueindex) { string str = GetPropertyValueString(propname, valueindex); float fvalue; if(float.TryParse(str, NumberStyles.Float, CultureInfo.InvariantCulture, out fvalue)) return fvalue; else return 0.0f; } /// /// This returns the status of a flag. /// public bool HasFlagValue(string flag) { if(flags.ContainsKey(flag)) return true; else if(!skipsuper && (baseclass != null)) return baseclass.HasFlagValue(flag); else return false; } /// /// This returns the status of a flag. /// public bool GetFlagValue(string flag, bool defaultvalue) { if(flags.ContainsKey(flag)) return flags[flag]; else if(!skipsuper && (baseclass != null)) return baseclass.GetFlagValue(flag, defaultvalue); else return defaultvalue; } /// /// This checks if a state has been defined. /// public bool HasState(string statename) { if(states.ContainsKey(statename)) return true; else if(!skipsuper && (baseclass != null)) return baseclass.HasState(statename); else return false; } /// /// This returns a specific state, or null when the state can't be found. /// public StateStructure GetState(string statename) { if(states.ContainsKey(statename)) return states[statename]; else if(!skipsuper && (baseclass != null)) return baseclass.GetState(statename); else return null; } /// /// This creates a list of all states, also those inherited from the base class. /// public Dictionary GetAllStates() { Dictionary list = new Dictionary(states); if(!skipsuper && (baseclass != null)) { Dictionary baselist = baseclass.GetAllStates(); foreach(KeyValuePair s in baselist) if(!list.ContainsKey(s.Key)) list.Add(s.Key, s.Value); } return list; } /// /// This checks if this actor is meant for the current decorate game support /// public bool CheckActorSupported() { // Check if we want to include this actor string includegames = General.Map.Config.DecorateGames.ToLowerInvariant(); bool includeactor = (props["game"].Count == 0); foreach(string g in props["game"]) includeactor |= includegames.Contains(g); return includeactor; } /// /// This finds the best suitable sprite to use when presenting this actor to the user. /// public string FindSuitableSprite() { string result = ""; // Sprite forced? if(HasPropertyWithValue("$sprite")) { return GetPropertyValueString("$sprite", 0); } else { // Try the idle state if(HasState("idle")) { StateStructure s = GetState("idle"); string spritename = s.GetSprite(0); if(!string.IsNullOrEmpty(spritename)) result = spritename; } // Try the see state if(string.IsNullOrEmpty(result) && HasState("see")) { StateStructure s = GetState("see"); string spritename = s.GetSprite(0); if(!string.IsNullOrEmpty(spritename)) result = spritename; } // Try the inactive state if(string.IsNullOrEmpty(result) && HasState("inactive")) { StateStructure s = GetState("inactive"); string spritename = s.GetSprite(0); if(!string.IsNullOrEmpty(spritename)) result = spritename; } // Try the spawn state if(string.IsNullOrEmpty(result) && HasState("spawn")) { StateStructure s = GetState("spawn"); string spritename = s.GetSprite(0); if(!string.IsNullOrEmpty(spritename)) result = spritename; } // Still no sprite found? then just pick the first we can find if(string.IsNullOrEmpty(result)) { Dictionary list = GetAllStates(); foreach(StateStructure s in list.Values) { string spritename = s.GetSprite(0); if(!string.IsNullOrEmpty(spritename)) { result = spritename; break; } } } if(!string.IsNullOrEmpty(result)) { // The sprite name is not actually complete, we still have to append // the direction characters to it. Find an existing sprite with direction. foreach(string postfix in SPRITE_POSTFIXES) { if(General.Map.Data.GetSpriteExists(result + postfix)) return result + postfix; } } } // No sprite found return ""; } #endregion } }