UltimateZoneBuilder/Source/Core/Config/GameConfiguration.cs
MaxED 6b765f5a27 Added long texture names support (enabled when "longtexturenames" game configuration property is set to true and "Use long texture names" check box is checked in Map Options).
Open Map in Current WAD: resources are now reloaded when current and target map's resources don't match.
Added some boilerplate to UniversalParser and PK3FileImage.
Internal: ImageSelectorControl now has "UsePreviews" property.
Internal: added ConfigurablePictureBox.
Updated ZDoom_DECORATE.cfg.
2014-11-25 11:52:01 +00:00

1004 lines
37 KiB
C#

#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 CodeImp.DoomBuilder.IO;
using CodeImp.DoomBuilder.Map;
using CodeImp.DoomBuilder.Editing;
using CodeImp.DoomBuilder.GZBuilder.Data;
using CodeImp.DoomBuilder.Data;
#endregion
namespace CodeImp.DoomBuilder.Config
{
public class GameConfiguration
{
#region ================== Constants
#endregion
#region ================== Variables
// Original configuration
private readonly Configuration cfg;
// General settings
private readonly string configname;
private readonly string enginename;
private readonly float defaulttexturescale;
private readonly float defaultflatscale;
private readonly bool scaledtextureoffsets;
private readonly string defaultsavecompiler;
private readonly string defaulttestcompiler;
private readonly string formatinterface;
private readonly string defaultLinedefActivation; //mxd
private readonly string singlesidedflag;
private readonly string doublesidedflag;
private readonly string impassableflag;
private readonly string upperunpeggedflag;
private readonly string lowerunpeggedflag;
private readonly bool mixtexturesflats;
private readonly bool generalizedactions;
private readonly bool generalizedeffects;
private readonly int start3dmodethingtype;
private readonly int linedefactivationsfilter;
private readonly string testparameters;
private readonly bool testshortpaths;
private readonly string makedoortrack;
private readonly string makedoordoor; //mxd
private readonly int makedooraction;
private readonly int makedooractivate;
private readonly int[] makedoorargs;
private readonly Dictionary<string, bool> makedoorflags;
private readonly bool linetagindicatesectors;
private readonly string decorategames;
private readonly string skyflatname;
private readonly int maxtexturenamelength;
private readonly int leftboundary;
private readonly int rightboundary;
private readonly int topboundary;
private readonly int bottomboundary;
private readonly bool doomlightlevels;
// Skills
private readonly List<SkillInfo> skills;
// Map lumps
private readonly Dictionary<string, MapLumpInfo> maplumps;
// Texture/flat/voxel sources
private readonly IDictionary textureranges;
private readonly IDictionary flatranges;
private readonly IDictionary patchranges;
private readonly IDictionary spriteranges;
private readonly IDictionary colormapranges;
private readonly IDictionary voxelranges; //mxd
// Things
private readonly List<string> defaultthingflags;
private readonly Dictionary<string, string> thingflags;
private readonly List<ThingCategory> thingcategories;
private readonly Dictionary<int, ThingTypeInfo> things;
private readonly List<FlagTranslation> thingflagstranslation;
private readonly Dictionary<string, Dictionary<string, ThingFlagsCompare>> thingflagscompare; //mxd
private readonly Dictionary<string, string> thingrenderstyles; //mxd
// Linedefs
private readonly Dictionary<string, string> linedefflags;
private readonly List<string> sortedlinedefflags;
private readonly Dictionary<int, LinedefActionInfo> linedefactions;
private readonly List<LinedefActionInfo> sortedlinedefactions;
private readonly List<LinedefActionCategory> actioncategories;
private readonly List<LinedefActivateInfo> linedefactivates;
private readonly List<GeneralizedCategory> genactioncategories;
private readonly List<FlagTranslation> linedefflagstranslation;
private readonly Dictionary<string, string> linedefrenderstyles; //mxd
//mxd. Sidedefs
private readonly Dictionary<string, string> sidedefflags; //mxd
// Sectors
private readonly Dictionary<string, string> sectorflags; //mxd
private readonly Dictionary<int, SectorEffectInfo> sectoreffects;
private readonly List<SectorEffectInfo> sortedsectoreffects;
private readonly List<GeneralizedOption> geneffectoptions;
private readonly StepsList brightnesslevels;
private readonly Dictionary<string, string> sectorrenderstyles; //mxd
// Universal fields
private readonly List<UniversalFieldInfo> linedeffields;
private readonly List<UniversalFieldInfo> sectorfields;
private readonly List<UniversalFieldInfo> sidedeffields;
private readonly List<UniversalFieldInfo> thingfields;
private readonly List<UniversalFieldInfo> vertexfields;
// Enums
private readonly Dictionary<string, EnumList> enums;
// Defaults
private readonly List<DefinedTextureSet> texturesets;
private readonly List<ThingsFilter> thingfilters;
//mxd. Holds base game type (doom, heretic, hexen or strife)
private readonly GameType gameType;
#endregion
#region ================== Properties
// General settings
public string Name { get { return configname; } }
public string EngineName { get { return enginename; } }
public string DefaultSaveCompiler { get { return defaultsavecompiler; } }
public string DefaultTestCompiler { get { return defaulttestcompiler; } }
public float DefaultTextureScale { get { return defaulttexturescale; } }
public float DefaultFlatScale { get { return defaultflatscale; } }
public bool ScaledTextureOffsets { get { return scaledtextureoffsets; } }
public string FormatInterface { get { return formatinterface; } }
public string DefaultLinedefActivationFlag { get { return defaultLinedefActivation; } } //mxd
public string SingleSidedFlag { get { return singlesidedflag; } }
public string DoubleSidedFlag { get { return doublesidedflag; } }
public string ImpassableFlag { get { return impassableflag; } }
public string UpperUnpeggedFlag { get { return upperunpeggedflag; } }
public string LowerUnpeggedFlag { get { return lowerunpeggedflag; } }
public bool MixTexturesFlats { get { return mixtexturesflats; } }
public bool GeneralizedActions { get { return generalizedactions; } }
public bool GeneralizedEffects { get { return generalizedeffects; } }
public int Start3DModeThingType { get { return start3dmodethingtype; } }
public int LinedefActivationsFilter { get { return linedefactivationsfilter; } }
public string TestParameters { get { return testparameters; } }
public bool TestShortPaths { get { return testshortpaths; } }
public string MakeDoorTrack { get { return makedoortrack; } }
public string MakeDoorDoor { get { return makedoordoor; } } //mxd
public int MakeDoorAction { get { return makedooraction; } }
public int MakeDoorActivate { get { return makedooractivate; } }
public Dictionary<string, bool> MakeDoorFlags { get { return makedoorflags; } }
public int[] MakeDoorArgs { get { return makedoorargs; } }
public bool LineTagIndicatesSectors { get { return linetagindicatesectors ; } }
public string DecorateGames { get { return decorategames; } }
public string SkyFlatName { get { return skyflatname; } }
public int MaxTextureNameLength { get { return maxtexturenamelength; } }
public int LeftBoundary { get { return leftboundary; } }
public int RightBoundary { get { return rightboundary; } }
public int TopBoundary { get { return topboundary; } }
public int BottomBoundary { get { return bottomboundary; } }
public bool DoomLightLevels { get { return doomlightlevels; } }
// Skills
public List<SkillInfo> Skills { get { return skills; } }
// Map lumps
public Dictionary<string, MapLumpInfo> MapLumps { get { return maplumps; } }
// Texture/flat/voxel sources
public IDictionary TextureRanges { get { return textureranges; } }
public IDictionary FlatRanges { get { return flatranges; } }
public IDictionary PatchRanges { get { return patchranges; } }
public IDictionary SpriteRanges { get { return spriteranges; } }
public IDictionary ColormapRanges { get { return colormapranges; } }
public IDictionary VoxelRanges { get { return voxelranges; } } //mxd
// Things
public ICollection<string> DefaultThingFlags { get { return defaultthingflags; } }
public IDictionary<string, string> ThingFlags { get { return thingflags; } }
public List<FlagTranslation> ThingFlagsTranslation { get { return thingflagstranslation; } }
public Dictionary<string, Dictionary<string, ThingFlagsCompare>> ThingFlagsCompare { get { return thingflagscompare; } } //mxd
public Dictionary<string, string> ThingRenderStyles { get { return thingrenderstyles; } } //mxd
// Linedefs
public IDictionary<string, string> LinedefFlags { get { return linedefflags; } }
public List<string> SortedLinedefFlags { get { return sortedlinedefflags; } }
public IDictionary<int, LinedefActionInfo> LinedefActions { get { return linedefactions; } }
public List<LinedefActionInfo> SortedLinedefActions { get { return sortedlinedefactions; } }
public List<LinedefActionCategory> ActionCategories { get { return actioncategories; } }
public List<LinedefActivateInfo> LinedefActivates { get { return linedefactivates; } }
public List<GeneralizedCategory> GenActionCategories { get { return genactioncategories; } }
public List<FlagTranslation> LinedefFlagsTranslation { get { return linedefflagstranslation; } }
public Dictionary<string, string> LinedefRenderStyles { get { return linedefrenderstyles; } } //mxd
//mxd. Sidedefs
public IDictionary<string, string> SidedefFlags { get { return sidedefflags; } }
// Sectors
public IDictionary<string, string> SectorFlags { get { return sectorflags; } } //mxd
public IDictionary<int, SectorEffectInfo> SectorEffects { get { return sectoreffects; } }
public List<SectorEffectInfo> SortedSectorEffects { get { return sortedsectoreffects; } }
public List<GeneralizedOption> GenEffectOptions { get { return geneffectoptions; } }
public StepsList BrightnessLevels { get { return brightnesslevels; } }
public Dictionary<string, string> SectorRenderStyles { get { return sectorrenderstyles; } } //mxd
// Universal fields
public List<UniversalFieldInfo> LinedefFields { get { return linedeffields; } }
public List<UniversalFieldInfo> SectorFields { get { return sectorfields; } }
public List<UniversalFieldInfo> SidedefFields { get { return sidedeffields; } }
public List<UniversalFieldInfo> ThingFields { get { return thingfields; } }
public List<UniversalFieldInfo> VertexFields { get { return vertexfields; } }
// Enums
public IDictionary<string, EnumList> Enums { get { return enums; } }
// Defaults
internal List<DefinedTextureSet> TextureSets { get { return texturesets; } }
public List<ThingsFilter> ThingsFilters { get { return thingfilters; } }
//mxd
public GameType GameType { get { return gameType; } }
#endregion
#region ================== Constructor / Disposer
// Constructor
internal GameConfiguration(Configuration cfg)
{
// Initialize
this.cfg = cfg;
this.thingflags = new Dictionary<string, string>(StringComparer.Ordinal);
this.defaultthingflags = new List<string>();
this.thingcategories = new List<ThingCategory>();
this.things = new Dictionary<int, ThingTypeInfo>();
this.linedefflags = new Dictionary<string, string>(StringComparer.Ordinal);
this.sortedlinedefflags = new List<string>();
this.linedefactions = new Dictionary<int, LinedefActionInfo>();
this.actioncategories = new List<LinedefActionCategory>();
this.sortedlinedefactions = new List<LinedefActionInfo>();
this.linedefactivates = new List<LinedefActivateInfo>();
this.sidedefflags = new Dictionary<string, string>(StringComparer.Ordinal); //mxd
this.genactioncategories = new List<GeneralizedCategory>();
this.sectorflags = new Dictionary<string, string>(StringComparer.Ordinal); //mxd
this.sectoreffects = new Dictionary<int, SectorEffectInfo>();
this.sortedsectoreffects = new List<SectorEffectInfo>();
this.geneffectoptions = new List<GeneralizedOption>();
this.enums = new Dictionary<string, EnumList>(StringComparer.Ordinal);
this.skills = new List<SkillInfo>();
this.texturesets = new List<DefinedTextureSet>();
this.makedoorargs = new int[Linedef.NUM_ARGS];
this.maplumps = new Dictionary<string, MapLumpInfo>(StringComparer.Ordinal);
this.thingflagstranslation = new List<FlagTranslation>();
this.linedefflagstranslation = new List<FlagTranslation>();
this.thingfilters = new List<ThingsFilter>();
this.thingflagscompare = new Dictionary<string, Dictionary<string, ThingFlagsCompare>>(); //mxd
this.brightnesslevels = new StepsList();
this.makedoorflags = new Dictionary<string, bool>(StringComparer.Ordinal);
this.linedefrenderstyles = new Dictionary<string, string>(StringComparer.Ordinal); //mxd
this.sectorrenderstyles = new Dictionary<string, string>(StringComparer.Ordinal); //mxd
this.thingrenderstyles = new Dictionary<string, string>(StringComparer.Ordinal); //mxd
// Read general settings
configname = cfg.ReadSetting("game", "<unnamed game>");
//mxd
int gt = (cfg.ReadSetting("basegame", (int)GameType.UNKNOWN));
gameType = ( (gt > -1 && gt < Gldefs.GLDEFS_LUMPS_PER_GAME.Length) ? (GameType)gt : GameType.UNKNOWN);
enginename = cfg.ReadSetting("engine", "");
defaultsavecompiler = cfg.ReadSetting("defaultsavecompiler", "");
defaulttestcompiler = cfg.ReadSetting("defaulttestcompiler", "");
defaulttexturescale = cfg.ReadSetting("defaulttexturescale", 1f);
defaultflatscale = cfg.ReadSetting("defaultflatscale", 1f);
scaledtextureoffsets = cfg.ReadSetting("scaledtextureoffsets", true);
formatinterface = cfg.ReadSetting("formatinterface", "");
mixtexturesflats = cfg.ReadSetting("mixtexturesflats", false);
generalizedactions = cfg.ReadSetting("generalizedlinedefs", false);
generalizedeffects = cfg.ReadSetting("generalizedsectors", false);
start3dmodethingtype = cfg.ReadSetting("start3dmode", 0);
linedefactivationsfilter = cfg.ReadSetting("linedefactivationsfilter", 0);
testparameters = cfg.ReadSetting("testparameters", "");
testshortpaths = cfg.ReadSetting("testshortpaths", false);
makedoortrack = cfg.ReadSetting("makedoortrack", "-");
makedoordoor = cfg.ReadSetting("makedoordoor", "-"); //mxd
makedooraction = cfg.ReadSetting("makedooraction", 0);
makedooractivate = cfg.ReadSetting("makedooractivate", 0);
linetagindicatesectors = cfg.ReadSetting("linetagindicatesectors", false);
decorategames = cfg.ReadSetting("decorategames", "");
skyflatname = cfg.ReadSetting("skyflatname", "F_SKY1");
leftboundary = cfg.ReadSetting("leftboundary", -32768);
rightboundary = cfg.ReadSetting("rightboundary", 32767);
topboundary = cfg.ReadSetting("topboundary", 32767);
bottomboundary = cfg.ReadSetting("bottomboundary", -32768);
doomlightlevels = cfg.ReadSetting("doomlightlevels", true);
defaultLinedefActivation = cfg.ReadSetting("defaultlinedefactivation", ""); //mxd
for(int i = 0; i < Linedef.NUM_ARGS; i++) makedoorargs[i] = cfg.ReadSetting("makedoorarg" + i.ToString(CultureInfo.InvariantCulture), 0);
//mxd. Texture names length
bool uselongtexturenames = cfg.ReadSetting("longtexturenames", false);
maxtexturenamelength = (uselongtexturenames ? short.MaxValue : DataManager.CLASIC_IMAGE_NAME_LENGTH);
// Flags have special (invariant culture) conversion
// because they are allowed to be written as integers in the configs
object obj = cfg.ReadSettingObject("singlesidedflag", 0);
if(obj is int) singlesidedflag = ((int)obj).ToString(CultureInfo.InvariantCulture); else singlesidedflag = obj.ToString();
obj = cfg.ReadSettingObject("doublesidedflag", 0);
if(obj is int) doublesidedflag = ((int)obj).ToString(CultureInfo.InvariantCulture); else doublesidedflag = obj.ToString();
obj = cfg.ReadSettingObject("impassableflag", 0);
if(obj is int) impassableflag = ((int)obj).ToString(CultureInfo.InvariantCulture); else impassableflag = obj.ToString();
obj = cfg.ReadSettingObject("upperunpeggedflag", 0);
if(obj is int) upperunpeggedflag = ((int)obj).ToString(CultureInfo.InvariantCulture); else upperunpeggedflag = obj.ToString();
obj = cfg.ReadSettingObject("lowerunpeggedflag", 0);
if(obj is int) lowerunpeggedflag = ((int)obj).ToString(CultureInfo.InvariantCulture); else lowerunpeggedflag = obj.ToString();
// Get texture and flat sources
textureranges = cfg.ReadSetting("textures", new Hashtable());
flatranges = cfg.ReadSetting("flats", new Hashtable());
patchranges = cfg.ReadSetting("patches", new Hashtable());
spriteranges = cfg.ReadSetting("sprites", new Hashtable());
colormapranges = cfg.ReadSetting("colormaps", new Hashtable());
voxelranges = cfg.ReadSetting("voxels", new Hashtable()); //mxd
// Map lumps
LoadMapLumps();
// Skills
LoadSkills();
// Enums
LoadEnums();
// Things
LoadThingFlags();
LoadDefaultThingFlags();
LoadThingCategories();
LoadStringDictionary(thingrenderstyles, "thingrenderstyles"); //mxd
// Linedefs
LoadLinedefFlags();
LoadLinedefActions();
LoadLinedefActivations();
LoadLinedefGeneralizedActions();
LoadStringDictionary(linedefrenderstyles, "linedefrenderstyles"); //mxd
//mxd. Sidedefs
LoadStringDictionary(sidedefflags, "sidedefflags");
// Sectors
LoadStringDictionary(sectorflags, "sectorflags"); //mxd
LoadBrightnessLevels();
LoadSectorEffects();
LoadSectorGeneralizedEffects();
LoadStringDictionary(sectorrenderstyles, "sectorrenderstyles"); //mxd
// Universal fields
linedeffields = LoadUniversalFields("linedef");
sectorfields = LoadUniversalFields("sector");
sidedeffields = LoadUniversalFields("sidedef");
thingfields = LoadUniversalFields("thing");
vertexfields = LoadUniversalFields("vertex");
// Defaults
LoadTextureSets();
LoadThingFilters();
// Make door flags
LoadMakeDoorFlags();
}
// Destructor
~GameConfiguration()
{
foreach(ThingCategory tc in thingcategories) tc.Dispose();
foreach(LinedefActionCategory ac in actioncategories) ac.Dispose();
}
#endregion
#region ================== Loading
// This loads the map lumps
private void LoadMapLumps() {
// Get map lumps list
IDictionary dic = cfg.ReadSetting("maplumpnames", new Hashtable());
foreach(DictionaryEntry de in dic)
{
// Make map lumps
MapLumpInfo lumpinfo = new MapLumpInfo(de.Key.ToString(), cfg);
maplumps.Add(de.Key.ToString(), lumpinfo);
}
}
// This loads the enumerations
private void LoadEnums() {
// Get enums list
IDictionary dic = cfg.ReadSetting("enums", new Hashtable());
foreach(DictionaryEntry de in dic)
{
// Make new enum
EnumList list = new EnumList(de.Key.ToString(), cfg);
enums.Add(de.Key.ToString(), list);
}
}
// This loads a universal fields list
private List<UniversalFieldInfo> LoadUniversalFields(string elementname)
{
List<UniversalFieldInfo> list = new List<UniversalFieldInfo>();
UniversalFieldInfo uf;
// Get fields
IDictionary 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, enums);
list.Add(uf);
}
catch(Exception)
{
General.ErrorLogger.Add(ErrorType.Warning, "Unable to read universal field definition 'universalfields." + elementname + "." + de.Key + "' from game configuration '" + this.Name + "'");
}
}
// Return result
return list;
}
// Things and thing categories
private void LoadThingCategories()
{
ThingCategory thingcat;
// Get thing categories
IDictionary dic = cfg.ReadSetting("thingtypes", new Hashtable());
foreach(DictionaryEntry de in dic)
{
if(de.Value is IDictionary)
{
// Make a category
thingcat = new ThingCategory(cfg, de.Key.ToString(), enums);
// Add all things in category to the big list
foreach(ThingTypeInfo t in thingcat.Things)
{
if(!things.ContainsKey(t.Index))
{
things.Add(t.Index, t);
}
else
{
General.ErrorLogger.Add(ErrorType.Warning, "Thing number " + t.Index + " is defined more than once (as '" + things[t.Index].Title + "' and '" + t.Title + "') in game configuration '" + this.Name + "'");
}
}
// Add category to list
thingcategories.Add(thingcat);
}
}
}
// Linedef flags
private void LoadLinedefFlags()
{
// Get linedef flags
LoadStringDictionary(linedefflags, "linedefflags"); //mxd
// Get translations
IDictionary dic = cfg.ReadSetting("linedefflagstranslation", new Hashtable());
foreach(DictionaryEntry de in dic)
linedefflagstranslation.Add(new FlagTranslation(de));
// Sort flags?
MapSetIO io = MapSetIO.Create(formatinterface);
if(io.HasNumericLinedefFlags)
{
// Make list for integers that we can sort
List<int> sortlist = new List<int>(linedefflags.Count);
foreach(KeyValuePair<string, string> f in linedefflags)
{
int num;
if(int.TryParse(f.Key, NumberStyles.Integer, CultureInfo.InvariantCulture, out num)) sortlist.Add(num);
}
// Sort
sortlist.Sort();
// Make list of strings
foreach(int i in sortlist)
sortedlinedefflags.Add(i.ToString(CultureInfo.InvariantCulture));
}
// Sort the flags, because they must be compared highest first!
linedefflagstranslation.Sort();
}
// Linedef actions and action categories
private void LoadLinedefActions()
{
Dictionary<string, LinedefActionCategory> cats = new Dictionary<string, LinedefActionCategory>(StringComparer.Ordinal);
LinedefActionInfo ai;
LinedefActionCategory ac;
int actionnumber;
// Get linedef categories
IDictionary dic = cfg.ReadSetting("linedeftypes", new Hashtable());
foreach(DictionaryEntry cde in dic)
{
if(cde.Value is IDictionary)
{
// Read category title
string cattitle = cfg.ReadSetting("linedeftypes." + cde.Key + ".title", "");
// Make or get category
if(cats.ContainsKey(cde.Key.ToString()))
ac = cats[cde.Key.ToString()];
else
{
ac = new LinedefActionCategory(cde.Key.ToString(), cattitle);
cats.Add(cde.Key.ToString(), ac);
}
// Go for all line types in category
IDictionary catdic = cfg.ReadSetting("linedeftypes." + cde.Key, new Hashtable());
foreach(DictionaryEntry de in catdic)
{
// Check if the item key is numeric
if(int.TryParse(de.Key.ToString(),
NumberStyles.AllowLeadingWhite | NumberStyles.AllowTrailingWhite,
CultureInfo.InvariantCulture, out actionnumber))
{
// Check if the item value is a structure
if(de.Value is IDictionary)
{
// Make the line type
ai = new LinedefActionInfo(actionnumber, cfg, cde.Key.ToString(), enums);
// Add action to category and sorted list
sortedlinedefactions.Add(ai);
linedefactions.Add(actionnumber, ai);
ac.Add(ai);
}
else
{
// Failure
if(de.Value != null)
General.ErrorLogger.Add(ErrorType.Warning, "Structure 'linedeftypes' contains invalid types in game configuration '" + this.Name + "'. All types must be expanded structures.");
}
}
}
}
}
// 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()
{
// Get linedef activations
IDictionary dic = cfg.ReadSetting("linedefactivations", new Hashtable());
foreach(DictionaryEntry de in dic)
{
// Add to the list
linedefactivates.Add(new LinedefActivateInfo(de.Key.ToString(), de.Value.ToString()));
}
// Sort the list
linedefactivates.Sort();
}
// Linedef generalized actions
private void LoadLinedefGeneralizedActions()
{
// Get linedef activations
IDictionary 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.ErrorLogger.Add(ErrorType.Warning, "Structure 'gen_linedeftypes' contains invalid entries in game configuration '" + this.Name + "'");
}
}
}
// Sector effects
private void LoadSectorEffects()
{
SectorEffectInfo si;
int actionnumber;
// Get sector effects
IDictionary 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(), true, false);
// Add action to category and sorted list
sortedsectoreffects.Add(si);
sectoreffects.Add(actionnumber, si);
}
else
{
General.ErrorLogger.Add(ErrorType.Warning, "Structure 'sectortypes' contains invalid keys in game configuration '" + this.Name + "'");
}
}
// Sort the actions list
sortedsectoreffects.Sort();
}
// Brightness levels
private void LoadBrightnessLevels()
{
int level;
// Get brightness levels structure
IDictionary dic = cfg.ReadSetting("sectorbrightness", new Hashtable());
foreach(DictionaryEntry de in dic)
{
// Try paring the level
if(int.TryParse(de.Key.ToString(),
NumberStyles.AllowLeadingWhite | NumberStyles.AllowTrailingWhite,
CultureInfo.InvariantCulture, out level))
{
brightnesslevels.Add(level);
}
else
{
General.ErrorLogger.Add(ErrorType.Warning, "Structure 'sectorbrightness' contains invalid keys in game configuration '" + this.Name + "'");
}
}
// Sort the list
brightnesslevels.Sort();
}
// Sector generalized effects
private void LoadSectorGeneralizedEffects()
{
// Get sector effects
IDictionary 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.ErrorLogger.Add(ErrorType.Warning, "Structure 'gen_sectortypes' contains invalid entries in game configuration '" + this.Name + "'");
}
}
}
// Thing flags
private void LoadThingFlags()
{
// Get thing flags
LoadStringDictionary(thingflags, "thingflags"); //mxd
// Get translations
IDictionary dic = cfg.ReadSetting("thingflagstranslation", new Hashtable());
foreach(DictionaryEntry de in dic)
thingflagstranslation.Add(new FlagTranslation(de));
// Get thing compare flag info (for the stuck thing error checker
dic = cfg.ReadSetting("thingflagscompare", new Hashtable());
foreach(DictionaryEntry de in dic)
{
IDictionary gdic = cfg.ReadSetting("thingflagscompare." + de.Key, new Hashtable());
foreach(DictionaryEntry gde in gdic)
{
string group = de.Key.ToString(); //mxd
string flag = gde.Key.ToString(); //mxd
if(!thingflagscompare.ContainsKey(group)) //mxd
thingflagscompare.Add(group, new Dictionary<string, ThingFlagsCompare>());
if(!thingflagscompare[group].ContainsKey(flag)) //mxd
thingflagscompare[group].Add(flag, new ThingFlagsCompare(cfg, group, flag));
}
}
//mxd. Integrity check
foreach (KeyValuePair<string, Dictionary<string, ThingFlagsCompare>> group in thingflagscompare)
{
foreach (KeyValuePair<string, ThingFlagsCompare> flaggrp in group.Value)
{
// Required group is missing?
if (!string.IsNullOrEmpty(flaggrp.Value.RequiredGroup) && !thingflagscompare.ContainsKey(flaggrp.Value.RequiredGroup))
{
General.ErrorLogger.Add(ErrorType.Warning, "thingflagscompare group '" + flaggrp.Value.RequiredGroup + "', required by flag '" + flaggrp.Key + "' does not exist!");
flaggrp.Value.RequiredGroup = string.Empty;
}
// Ignored group is missing?
if(!string.IsNullOrEmpty(flaggrp.Value.IgnoredGroup) && !thingflagscompare.ContainsKey(flaggrp.Value.IgnoredGroup))
{
General.ErrorLogger.Add(ErrorType.Warning, "thingflagscompare group '" + flaggrp.Value.IgnoredGroup + "', ignored by flag '" + flaggrp.Key + "' does not exist!");
flaggrp.Value.IgnoredGroup = string.Empty;
}
// Required flag is missing?
if(!string.IsNullOrEmpty(flaggrp.Value.RequiredFlag) && !group.Value.ContainsKey(flaggrp.Value.RequiredFlag))
{
General.ErrorLogger.Add(ErrorType.Warning, "thingflagscompare flag '" + flaggrp.Value.RequiredFlag + "', required by flag '" + flaggrp.Key + "' does not exist!");
flaggrp.Value.RequiredFlag = string.Empty;
}
}
}
// Sort the translation flags, because they must be compared highest first!
thingflagstranslation.Sort();
}
// Default thing flags
private void LoadDefaultThingFlags()
{
// Get linedef flags
IDictionary dic = cfg.ReadSetting("defaultthingflags", new Hashtable());
foreach(DictionaryEntry de in dic)
{
// Check if flag exists
if(thingflags.ContainsKey(de.Key.ToString()))
{
defaultthingflags.Add(de.Key.ToString());
}
else
{
General.ErrorLogger.Add(ErrorType.Warning, "Structure 'defaultthingflags' contains unknown thing flags in game configuration '" + this.Name + "'");
}
}
}
// Skills
private void LoadSkills()
{
// Get skills
IDictionary dic = cfg.ReadSetting("skills", new Hashtable());
foreach(DictionaryEntry de in dic)
{
int num;
if(int.TryParse(de.Key.ToString(), out num))
{
skills.Add(new SkillInfo(num, de.Value.ToString()));
}
else
{
General.ErrorLogger.Add(ErrorType.Warning, "Structure 'skills' contains invalid skill numbers in game configuration '" + this.Name + "'");
}
}
}
// Texture Sets
private void LoadTextureSets() {
// Get sets
IDictionary dic = cfg.ReadSetting("texturesets", new Hashtable());
foreach(DictionaryEntry de in dic)
{
DefinedTextureSet s = new DefinedTextureSet(cfg, "texturesets." + de.Key);
texturesets.Add(s);
}
}
// Thing Filters
private void LoadThingFilters()
{
// Get sets
IDictionary dic = cfg.ReadSetting("thingsfilters", new Hashtable());
foreach(DictionaryEntry de in dic)
{
ThingsFilter f = new ThingsFilter(cfg, "thingsfilters." + de.Key);
thingfilters.Add(f);
}
}
// Make door flags
private void LoadMakeDoorFlags()
{
IDictionary dic = cfg.ReadSetting("makedoorflags", new Hashtable());
foreach (DictionaryEntry de in dic)
{
// Using minus will unset the flag
if (de.Key.ToString()[0] == '-')
{
makedoorflags[de.Key.ToString().TrimStart('-')] = false;
}
else
{
makedoorflags[de.Key.ToString()] = true;
}
}
}
//mxd
private void LoadStringDictionary(Dictionary<string, string> target, string settingname) {
IDictionary dic = cfg.ReadSetting(settingname, new Hashtable());
foreach(DictionaryEntry de in dic)
target.Add(de.Key.ToString(), de.Value.ToString());
}
#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 a list of things categories
internal List<ThingCategory> GetThingCategories()
{
return new List<ThingCategory>(thingcategories);
}
// This gets a list of things
internal Dictionary<int, ThingTypeInfo> GetThingTypes()
{
return new Dictionary<int, ThingTypeInfo>(things);
}
// This checks if an action is generalized or predefined
public static bool IsGeneralized(int action, List<GeneralizedCategory> 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;
}
//mxd
public static bool IsGeneralizedSectorEffect(int effect, IEnumerable<GeneralizedOption> options)
{
if (effect == 0) return false;
foreach (GeneralizedOption option in options)
{
foreach(GeneralizedBit bit in option.Bits)
{
if(bit.Index > 0 && (effect & bit.Index) == bit.Index) return true;
}
}
return false;
}
//mxd
public string GetGeneralizedSectorEffectName(int effect)
{
if (effect == 0) return "None";
string title = "Unknown";
int matches = 0;
foreach(GeneralizedOption option in geneffectoptions)
{
foreach(GeneralizedBit bit in option.Bits)
{
if(bit.Index > 0 && (effect & bit.Index) == bit.Index)
{
title = option.Name + ": " + bit.Title;
matches++;
}
}
}
return (matches > 1 ? "Generalized (" + matches + " effects)" : title);
}
// This checks if a specific edit mode class is listed
public bool IsEditModeSpecified(string classname)
{
return cfg.SettingExists("editingmodes." + classname.ToString(CultureInfo.InvariantCulture));
}
// This returns information on a linedef type
public LinedefActionInfo GetLinedefActionInfo(int action)
{
// Known type?
if(linedefactions.ContainsKey(action))
{
return linedefactions[action];
}
else if(action == 0)
{
return new LinedefActionInfo(0, "None", true, false);
}
else if(IsGeneralized(action, genactioncategories))
{
return new LinedefActionInfo(action, "Generalized (" + GetGeneralizedActionCategory(action) + ")", true, true);
}
else
{
return new LinedefActionInfo(action, "Unknown", false, false);
}
}
// This returns information on a sector effect
public SectorEffectInfo GetSectorEffectInfo(int effect)
{
// Known type?
if(sectoreffects.ContainsKey(effect))
{
return sectoreffects[effect];
}
else if(effect == 0)
{
return new SectorEffectInfo(0, "None", true, false);
}
else if(IsGeneralizedSectorEffect(effect, geneffectoptions)) //mxd
{
return new SectorEffectInfo(effect, GetGeneralizedSectorEffectName(effect), true, true);
}
else
{
return new SectorEffectInfo(effect, "Unknown", false, false);
}
}
#endregion
}
}