Exemplo n.º 1
0
 public string GetText(FileHandler Files, params string[] pathAndVars)
 {
     if (pathAndVars.Length < 2)
     {
         return GetText(Files, "voxalia", "common.languages.badinput");
     }
     string category = pathAndVars[0].ToLowerFast();
     string defPath = pathAndVars[1].ToLowerFast();
     FDSSection lang = GetLangDoc(category, Files);
     FDSSection langen = GetLangDoc(category, Files, "en_us", EnglishDocuments);
     string str = null;
     if (lang != null)
     {
         str = lang.GetString(defPath, null);
         if (str != null)
         {
             return Handle(str, pathAndVars);
         }
     }
     if (langen != null)
     {
         str = langen.GetString(defPath, null);
         if (str != null)
         {
             return Handle(str, pathAndVars);
         }
     }
     if (defPath == badkey)
     {
         return "((Invalid key!))";
     }
     return GetText(Files, "voxalia", badkey);
 }
Exemplo n.º 2
0
 public FDSSection GetLangDoc(string id, FileHandler Files, string lang = null, Dictionary<string, FDSSection> confs = null)
 {
     if (lang == null)
     {
         lang = CurrentLanguage;
     }
     if (confs == null)
     {
         confs = LanguageDocuments;
     }
     string idlow = id.ToLowerFast();
     FDSSection doc;
     if (LanguageDocuments.TryGetValue(idlow, out doc))
     {
         return doc;
     }
     string path = "info/text/" + idlow + "_" + lang + ".fds";
     if (Files.Exists(path))
     {
         try
         {
             string dat = Files.ReadText(path);
             doc = new FDSSection(dat);
             LanguageDocuments[idlow] = doc;
             return doc;
         }
         catch (Exception ex)
         {
             Utilities.CheckException(ex);
             SysConsole.Output("Reading language documents", ex);
         }
     }
     LanguageDocuments[idlow] = null;
     return null;
 }
Exemplo n.º 3
0
 public static void Init()
 {
     FileHandler files = new FileHandler();
     files.Init();
     MaterialHelpers.Populate(files); // TODO: Non-static material helper data?!
     BlockShapeRegistry.Init();
     FullChunkObject.RegisterMe();
 }
Exemplo n.º 4
0
 public SingleAnimation GetAnimation(string name, FileHandler Files)
 {
     string namelow = name.ToLowerFast();
     SingleAnimation sa;
     if (Animations.TryGetValue(namelow, out sa))
     {
         return sa;
     }
     try
     {
         sa = LoadAnimation(namelow, Files);
         Animations.Add(sa.Name, sa);
         return sa;
     }
     catch (Exception ex)
     {
         SysConsole.Output(OutputType.ERROR, "Loading an animation: " + ex.ToString());
         sa = new SingleAnimation() { Name = namelow, Length = 1, Engine = this };
         Animations.Add(sa.Name, sa);
         return sa;
     }
 }
Exemplo n.º 5
0
 public static void Populate(FileHandler files)
 {
     List<string> fileList = files.ListFiles("info/blocks/");
     List<MaterialInfo> allmats = new List<MaterialInfo>((int)Material.NUM_DEFAULT);
     foreach (string file in fileList)
     {
         string f = file.ToLowerFast().After("/blocks/").Before(".blk");
         Material mat;
         if (TryGetFromNameOrNumber(allmats, f, out mat))
         {
             continue;
         }
         mat = (Material)Enum.Parse(typeof(Material), f.ToUpperInvariant());
         string data = files.ReadText("info/blocks/" + f + ".blk");
         string[] split = data.Replace("\r", "").Split('\n');
         MaterialInfo inf = new MaterialInfo((int)mat);
         for (int i = 0; i < split.Length; i++)
         {
             if (split[i].StartsWith("//") || !split[i].Contains("="))
             {
                 continue;
             }
             string[] opt = split[i].SplitFast('=', 1);
             switch (opt[0].ToLowerFast())
             {
                 case "name":
                     inf.SetName(opt[1]);
                     break;
                 case "plant":
                     inf.Plant = opt[1];
                     break;
                 case "sound":
                     inf.Sound = (MaterialSound)Enum.Parse(typeof(MaterialSound), opt[1].ToUpperInvariant());
                     break;
                 case "solidity":
                     inf.Solidity = (MaterialSolidity)Enum.Parse(typeof(MaterialSolidity), opt[1].ToUpperInvariant());
                     break;
                 case "speedmod":
                     inf.SpeedMod = double.Parse(opt[1]);
                     break;
                 case "frictionmod":
                     inf.FrictionMod = double.Parse(opt[1]);
                     break;
                 case "lightdamage":
                     inf.LightDamage = double.Parse(opt[1]);
                     break;
                 case "lightemitrange":
                     inf.LightEmitRange = double.Parse(opt[1]);
                     break;
                 case "lightemit":
                     inf.LightEmit = Location.FromString(opt[1]);
                     break;
                 case "fogalpha":
                     inf.FogAlpha = double.Parse(opt[1]);
                     break;
                 case "opaque":
                     inf.Opaque = opt[1].ToLowerFast() == "true";
                     break;
                 case "spreads":
                     inf.Spreads = opt[1].ToLowerFast() == "true";
                     break;
                 case "rendersatall":
                     inf.RendersAtAll = opt[1].ToLowerFast() == "true";
                     break;
                 case "breaksfromothertools":
                     inf.BreaksFromOtherTools = opt[1].ToLowerFast() == "true";
                     break;
                 case "fogcolor":
                     inf.FogColor = Location.FromString(opt[1]);
                     break;
                 case "canrenderagainstself":
                     inf.CanRenderAgainstSelf = opt[1].ToLowerFast() == "true";
                     break;
                 case "spawntype":
                     inf.SpawnType = (MaterialSpawnType)Enum.Parse(typeof(MaterialSpawnType), opt[1].ToUpperInvariant());
                     break;
                 case "hardness":
                     inf.Hardness = double.Parse(opt[1]);
                     break;
                 case "breaktime":
                     inf.BreakTime = opt[1].ToLowerFast() == "infinity" ? double.PositiveInfinity : double.Parse(opt[1]);
                     break;
                 case "breaker":
                     inf.Breaker = (MaterialBreaker)Enum.Parse(typeof(MaterialBreaker), opt[1].ToUpperInvariant());
                     break;
                 case "breaksinto":
                     inf.BreaksInto = (Material)Enum.Parse(typeof(Material), opt[1].ToUpperInvariant());
                     break;
                 case "solidifiesinto":
                     inf.SolidifiesInto = (Material)Enum.Parse(typeof(Material), opt[1].ToUpperInvariant());
                     break;
                 case "bigspreadsas":
                     inf.BigSpreadsAs = (Material)Enum.Parse(typeof(Material), opt[1].ToUpperInvariant());
                     break;
                 case "texturebasic":
                     for (int t = 0; t < (int)MaterialSide.COUNT; t++)
                     {
                         if (inf.Texture[t] == null)
                         {
                             inf.Texture[t] = opt[1].ToLowerFast();
                         }
                     }
                     break;
                 case "texture_top":
                     inf.Texture[(int)MaterialSide.TOP] = opt[1].ToLowerFast();
                     break;
                 case "texture_bottom":
                     inf.Texture[(int)MaterialSide.BOTTOM] = opt[1].ToLowerFast();
                     break;
                 case "texture_xp":
                     inf.Texture[(int)MaterialSide.XP] = opt[1].ToLowerFast();
                     break;
                 case "texture_xm":
                     inf.Texture[(int)MaterialSide.XM] = opt[1].ToLowerFast();
                     break;
                 case "texture_yp":
                     inf.Texture[(int)MaterialSide.YP] = opt[1].ToLowerFast();
                     break;
                 case "texture_ym":
                     inf.Texture[(int)MaterialSide.YM] = opt[1].ToLowerFast();
                     break;
                 default:
                     SysConsole.Output(OutputType.WARNING, "Invalid material option: " + opt[0]);
                     break;
             }
         }
         while (allmats.Count <= (int)mat)
         {
             allmats.Add(null);
         }
         allmats[(int)mat] = inf;
     }
     int c = 0;
     Dictionary<string, int> TexturesToIDs = new Dictionary<string, int>();
     for (int i = 0; i < allmats.Count; i++)
     {
         for (int t = 0; t < (int)MaterialSide.COUNT; t++)
         {
             string tex = allmats[i].Texture[t];
             int res;
             if (TexturesToIDs.ContainsKey(tex))
             {
                 res = TexturesToIDs[tex];
             }
             else
             {
                 TexturesToIDs[tex] = c;
                 res = c;
                 c++;
             }
             allmats[i].TID[t] = res;
         }
     }
     Textures = new string[c];
     foreach (KeyValuePair<string, int> val in TexturesToIDs)
     {
         Textures[val.Value] = val.Key;
     }
     lock (ALL_MATS)
     {
         SysConsole.Output(OutputType.INIT, "Loaded: " + allmats.Count + " materials!");
         ALL_MATS = allmats;
     }
 }
Exemplo n.º 6
0
 SingleAnimation LoadAnimation(string name, FileHandler Files)
 {
     if (Files.Exists("animations/" + name + ".anim"))
     {
         SingleAnimation created = new SingleAnimation();
         created.Name = name;
         string[] data = Files.ReadText("animations/" + name + ".anim").SplitFast('\n');
         int entr = 0;
         for (int i = 0; i < data.Length; i++)
         {
             if (data[i].StartsWith("//"))
             {
                 continue;
             }
             string type = data[i];
             if (data.Length <= i + 1 || data[i + 1] != "{")
             {
                 break;
             }
             List<KeyValuePair<string, string>> entries = new List<KeyValuePair<string, string>>();
             for (i += 2; i < data.Length; i++)
             {
                 if (data[i].Trim().StartsWith("//"))
                 {
                     continue;
                 }
                 if (data[i] == "}")
                 {
                     break;
                 }
                 string[] dat = data[i].SplitFast(':');
                 if (dat.Length <= 1)
                 {
                     SysConsole.Output(OutputType.WARNING, "Invalid key dat: " + dat[0]);
                 }
                 else
                 {
                 string key = dat[0].Trim();
                 string value = dat[1].Substring(0, dat[1].Length - 1).Trim();
                 entries.Add(new KeyValuePair<string, string>(key, value));
                 }
             }
             bool isgeneral = type == "general" && entr == 0;
             SingleAnimationNode node = null;
             if (!isgeneral)
             {
                 node = new SingleAnimationNode();
                 node.Name = type.ToLowerFast();
             }
             foreach (KeyValuePair<string, string> entry in entries)
             {
                 if (isgeneral)
                 {
                     if (entry.Key == "length")
                     {
                         created.Length = Utilities.StringToDouble(entry.Value);
                     }
                     else
                     {
                         SysConsole.Output(OutputType.WARNING, "Unknown GENERAL key: " + entry.Key);
                     }
                 }
                 else
                 {
                     if (entry.Key == "positions")
                     {
                         string[] poses = entry.Value.SplitFast(' ');
                         for (int x = 0; x < poses.Length; x++)
                         {
                             if (poses[x].Length > 0)
                             {
                                 string[] posdata = poses[x].SplitFast('=');
                                 node.PosTimes.Add(Utilities.StringToDouble(posdata[0]));
                                 node.Positions.Add(new Location(Utilities.StringToFloat(posdata[1]),
                                     Utilities.StringToFloat(posdata[2]), Utilities.StringToFloat(posdata[3])));
                             }
                         }
                     }
                     else if (entry.Key == "rotations")
                     {
                         string[] rots = entry.Value.SplitFast(' ');
                         for (int x = 0; x < rots.Length; x++)
                         {
                             if (rots[x].Length > 0)
                             {
                                 string[] posdata = rots[x].SplitFast('=');
                                 node.RotTimes.Add(Utilities.StringToDouble(posdata[0]));
                                 node.Rotations.Add(new Quaternion(Utilities.StringToFloat(posdata[1]), Utilities.StringToFloat(posdata[2]),
                                     Utilities.StringToFloat(posdata[3]), Utilities.StringToFloat(posdata[4])));
                             }
                         }
                     }
                     else if (entry.Key == "parent")
                     {
                         node.ParentName = entry.Value.ToLowerFast();
                     }
                     else if (entry.Key == "offset")
                     {
                         string[] posdata = entry.Value.SplitFast('=');
                         node.Offset = new Location(Utilities.StringToFloat(posdata[0]),
                             Utilities.StringToFloat(posdata[1]), Utilities.StringToFloat(posdata[2]));
                     }
                     else
                     {
                         SysConsole.Output(OutputType.WARNING, "Unknown NODE key: " + entry.Key);
                     }
                 }
             }
             if (!isgeneral)
             {
                 created.Nodes.Add(node);
                 created.node_map.Add(node.Name, node);
             }
             entr++;
         }
         foreach (SingleAnimationNode node in created.Nodes)
         {
             for (int i = 0; i < created.Nodes.Count; i++)
             {
                 if (created.Nodes[i].Name == node.ParentName)
                 {
                     node.Parent = created.Nodes[i];
                     break;
                 }
             }
         }
         created.Engine = this;
         return created;
     }
     else
     {
         throw new Exception("Invalid animation file - file not found: animations/" + name + ".anim");
     }
 }