UltimateZoneBuilder/Source/Core/Data/DataManager.cs
MaxED db42e17a86 Fixed a case when TEXTRES image was trying to load itself as a patch, which resulted in an infinite loop.
Cosmetic: standardized the way resource names are displayed in warning/error messages in the Errors and Warnings window.
2016-02-06 23:54:58 +00:00

2924 lines
89 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.Generic;
using System.Drawing;
using System.Drawing.Drawing2D;
using System.Drawing.Imaging;
using System.IO;
using System.Threading;
using System.Windows.Forms;
using CodeImp.DoomBuilder.Config;
using CodeImp.DoomBuilder.GZBuilder.Data;
using CodeImp.DoomBuilder.GZBuilder.GZDoom;
using CodeImp.DoomBuilder.GZBuilder.MD3;
using CodeImp.DoomBuilder.Geometry;
using CodeImp.DoomBuilder.IO;
using CodeImp.DoomBuilder.Map;
using CodeImp.DoomBuilder.Rendering;
using CodeImp.DoomBuilder.Windows;
using CodeImp.DoomBuilder.ZDoom;
using SlimDX;
using SlimDX.Direct3D9;
using Matrix = SlimDX.Matrix;
#endregion
namespace CodeImp.DoomBuilder.Data
{
public sealed class DataManager
{
#region ================== Constants
public const string INTERNAL_PREFIX = "internal:";
public const int CLASIC_IMAGE_NAME_LENGTH = 8; //mxd
#endregion
#region ================== Variables
// Data containers
private List<DataReader> containers;
private DataReader currentreader;
// Palette
private Playpal palette;
// Textures, Flats and Sprites
private Dictionary<long, ImageData> textures;
private Dictionary<long, long> texturenamesshorttofull; //mxd
private List<string> texturenames;
private Dictionary<long, ImageData> flats;
private Dictionary<long, long> flatnamesshorttofull; //mxd
private List<string> flatnames;
private Dictionary<long, ImageData> sprites;
private List<MatchingTextureSet> texturesets;
private List<ResourceTextureSet> resourcetextures;
private AllTextureSet alltextures;
//mxd
private Dictionary<int, ModelData> modeldefentries; //Thing.Type, Model entry
private readonly Dictionary<int, DynamicLightData> gldefsentries; //Thing.Type, Light entry
private MapInfo mapinfo;
private Dictionary<string, KeyValuePair<int, int>> reverbs; //<name, <arg1, arg2>
private Dictionary<long, GlowingFlatData> glowingflats; // Texture name hash, Glowing Flat Data
private Dictionary<string, SkyboxInfo> skyboxes;
private List<string> soundsequences;
// Background loading
private Queue<ImageData> imageque;
private Thread backgroundloader;
private volatile bool updatedusedtextures;
private bool notifiedbusy;
// Image previews
private PreviewManager previews;
// Special images
private ImageData missingtexture3d;
private ImageData unknowntexture3d;
private UnknownImage unknownimage; //mxd
private ImageData hourglass3d;
private ImageData crosshair;
private ImageData crosshairbusy;
private Dictionary<string, ImageData> internalsprites;
private ImageData whitetexture;
private ImageData blacktexture; //mxd
//mxd. Sky textures
private CubeTexture skybox; // GZDoom skybox
//mxd. Comment icons
private ImageData[] commenttextures;
// Used images
private Dictionary<long, long> usedtextures; //mxd
private Dictionary<long, long> usedflats; //mxd. Used only when MixTextursFlats is disabled
// Things combined with things created from Decorate
private DecorateParser decorate;
private List<ThingCategory> thingcategories;
private Dictionary<int, ThingTypeInfo> thingtypes;
// Timing
private float loadstarttime;
private float loadfinishtime;
// Disposing
private bool isdisposed;
#endregion
#region ================== Properties
//mxd
internal Dictionary<int, ModelData> ModeldefEntries { get { return modeldefentries; } }
internal Dictionary<int, DynamicLightData> GldefsEntries { get { return gldefsentries; } }
public MapInfo MapInfo { get { return mapinfo; } }
public Dictionary<string, KeyValuePair<int, int>> Reverbs { get { return reverbs; } }
public Dictionary<long, GlowingFlatData> GlowingFlats { get { return glowingflats; } }
public List<string> SoundSequences { get { return soundsequences; } }
internal List<DataReader> Containers { get { return containers; } } //mxd
public Playpal Palette { get { return palette; } }
public PreviewManager Previews { get { return previews; } }
public ICollection<ImageData> Textures { get { return textures.Values; } }
public ICollection<ImageData> Flats { get { return flats.Values; } }
public List<string> TextureNames { get { return texturenames; } }
public List<string> FlatNames { get { return flatnames; } }
public bool IsDisposed { get { return isdisposed; } }
public ImageData MissingTexture3D { get { return missingtexture3d; } }
public ImageData UnknownTexture3D { get { return unknowntexture3d; } }
public ImageData Hourglass3D { get { return hourglass3d; } }
public ImageData Crosshair3D { get { return crosshair; } }
public ImageData CrosshairBusy3D { get { return crosshairbusy; } }
public ImageData WhiteTexture { get { return whitetexture; } }
public ImageData BlackTexture { get { return blacktexture; } } //mxd
public ImageData[] CommentTextures { get { return commenttextures; } } //mxd
internal CubeTexture SkyBox { get { return skybox; } } //mxd
public List<ThingCategory> ThingCategories { get { return thingcategories; } }
public ICollection<ThingTypeInfo> ThingTypes { get { return thingtypes.Values; } }
public DecorateParser Decorate { get { return decorate; } }
internal ICollection<MatchingTextureSet> TextureSets { get { return texturesets; } }
internal ICollection<ResourceTextureSet> ResourceTextureSets { get { return resourcetextures; } }
internal AllTextureSet AllTextureSet { get { return alltextures; } }
public bool IsLoading
{
get
{
if(imageque != null)
return (backgroundloader != null) && backgroundloader.IsAlive && ((imageque.Count > 0) || previews.IsLoading);
return false;
}
}
#endregion
#region ================== Constructor / Disposer
// Constructor
internal DataManager()
{
// We have no destructor
GC.SuppressFinalize(this);
//mxd.
modeldefentries = new Dictionary<int, ModelData>();
gldefsentries = new Dictionary<int, DynamicLightData>();
reverbs = new Dictionary<string, KeyValuePair<int, int>>(StringComparer.Ordinal);
glowingflats = new Dictionary<long, GlowingFlatData>();
skyboxes = new Dictionary<string, SkyboxInfo>(StringComparer.Ordinal);
soundsequences = new List<string>();
// Load special images (mxd: the rest is loaded in LoadInternalTextures())
whitetexture = new ResourceImage("CodeImp.DoomBuilder.Resources.White.png") { UseColorCorrection = false };
whitetexture.LoadImage();
whitetexture.CreateTexture();
blacktexture = new ResourceImage("CodeImp.DoomBuilder.Resources.Black.png") { UseColorCorrection = false }; //mxd
blacktexture.LoadImage(); //mxd
blacktexture.CreateTexture(); //mxd
unknownimage = new UnknownImage(Properties.Resources.UnknownImage); //mxd. There should be only one!
//mxd. Create comment icons
commenttextures = new ImageData[]
{
new ResourceImage("CodeImp.DoomBuilder.Resources.CommentRegular.png"),
new ResourceImage("CodeImp.DoomBuilder.Resources.CommentInfo.png"),
new ResourceImage("CodeImp.DoomBuilder.Resources.CommentQuestion.png"),
new ResourceImage("CodeImp.DoomBuilder.Resources.CommentProblem.png"),
new ResourceImage("CodeImp.DoomBuilder.Resources.CommentSmile.png"),
};
//mxd. Load comment icons
foreach(ImageData data in commenttextures)
{
data.LoadImage();
data.CreateTexture();
}
}
// Disposer
internal void Dispose()
{
// Not already disposed?
if(!isdisposed)
{
// Clean up
Unload();
missingtexture3d.Dispose();
missingtexture3d = null;
unknowntexture3d.Dispose();
unknowntexture3d = null;
hourglass3d.Dispose();
hourglass3d = null;
crosshair.Dispose();
crosshair = null;
crosshairbusy.Dispose();
crosshairbusy = null;
whitetexture.Dispose();
whitetexture = null;
blacktexture.Dispose(); //mxd
blacktexture = null; //mxd
unknownimage.Dispose(); //mxd
unknownimage = null; //mxd
for(int i = 0; i < commenttextures.Length; i++) //mxd
{
commenttextures[i].Dispose();
commenttextures[i] = null;
}
commenttextures = null;
if(skybox != null) //mxd
{
skybox.Dispose();
skybox = null;
}
// Done
isdisposed = true;
}
}
#endregion
#region ================== Loading / Unloading
// This loads all data resources
internal void Load(DataLocationList configlist, DataLocationList maplist, DataLocation maplocation)
{
DataLocationList all = DataLocationList.Combined(configlist, maplist);
all.Add(maplocation);
Load(all);
}
// This loads all data resources
internal void Load(DataLocationList configlist, DataLocationList maplist)
{
DataLocationList all = DataLocationList.Combined(configlist, maplist);
Load(all);
}
// This loads all data resources
private void Load(DataLocationList locations)
{
Dictionary<long, ImageData> texturesonly = new Dictionary<long, ImageData>();
Dictionary<long, ImageData> colormapsonly = new Dictionary<long, ImageData>();
Dictionary<long, ImageData> flatsonly = new Dictionary<long, ImageData>();
// Create collections
containers = new List<DataReader>();
textures = new Dictionary<long, ImageData>();
flats = new Dictionary<long, ImageData>();
sprites = new Dictionary<long, ImageData>();
texturenames = new List<string>();
flatnames = new List<string>();
texturenamesshorttofull = new Dictionary<long, long>(); //mxd
flatnamesshorttofull = new Dictionary<long, long>(); //mxd
imageque = new Queue<ImageData>();
previews = new PreviewManager();
texturesets = new List<MatchingTextureSet>();
usedtextures = new Dictionary<long, long>(); //mxd
usedflats = new Dictionary<long, long>(); //mxd
internalsprites = new Dictionary<string, ImageData>(StringComparer.Ordinal);
thingcategories = General.Map.Config.GetThingCategories();
thingtypes = General.Map.Config.GetThingTypes();
// Load texture sets
foreach(DefinedTextureSet ts in General.Map.ConfigSettings.TextureSets)
texturesets.Add(new MatchingTextureSet(ts));
// Sort the texture sets
texturesets.Sort();
// Special textures sets
alltextures = new AllTextureSet();
resourcetextures = new List<ResourceTextureSet>();
// Go for all locations
foreach(DataLocation dl in locations)
{
// Nothing chosen yet
DataReader c = null;
// TODO: Make this work more elegant using reflection.
// Make DataLocation.type of type Type and assign the
// types of the desired reader classes.
try
{
// Choose container type
switch(dl.type)
{
// WAD file container
case DataLocation.RESOURCE_WAD:
c = new WADReader(dl);
break;
// Directory container
case DataLocation.RESOURCE_DIRECTORY:
c = new DirectoryReader(dl);
break;
// PK3 file container
case DataLocation.RESOURCE_PK3:
c = new PK3Reader(dl);
break;
}
}
catch(Exception e)
{
// Unable to load resource
General.ErrorLogger.Add(ErrorType.Error, "Unable to load resources from location \"" + dl.location + "\". Please make sure the location is accessible and not in use by another program. The resources will now be loaded with this location excluded. You may reload the resources to try again.\n" + e.GetType().Name + " when creating data reader: " + e.Message);
General.WriteLogLine(e.StackTrace);
continue;
}
// Add container
if(c != null)
{
containers.Add(c);
resourcetextures.Add(c.TextureSet);
}
}
// Load stuff
LoadPalette();
int texcount = LoadTextures(texturesonly, texturenamesshorttofull);
int flatcount = LoadFlats(flatsonly, flatnamesshorttofull);
int colormapcount = LoadColormaps(colormapsonly);
LoadSprites();
//mxd. Load MAPINFO. Should happen before parisng DECORATE
Dictionary<int, string> spawnnums, doomednums;
LoadMapInfo(out spawnnums, out doomednums);
int thingcount = LoadDecorateThings(spawnnums, doomednums);
int spritecount = LoadThingSprites();
LoadInternalSprites();
LoadInternalTextures(); //mxd
//mxd. Load more stuff
LoadReverbs();
LoadSndSeq();
LoadVoxels();
Dictionary<string, int> actorsbyclass = CreateActorsByClassList();
LoadModeldefs(actorsbyclass);
foreach(Thing t in General.Map.Map.Things) t.UpdateCache();
General.MainWindow.DisplayReady();
// Process colormaps (we just put them in as textures)
foreach(KeyValuePair<long, ImageData> t in colormapsonly)
{
textures.Add(t.Key, t.Value);
texturenames.Add(t.Value.Name);
}
// Process textures
foreach(KeyValuePair<long, ImageData> t in texturesonly)
{
if(!textures.ContainsKey(t.Key))
{
textures.Add(t.Key, t.Value);
//mxd. Add both short and long names?
if(t.Value.HasLongName) texturenames.Add(t.Value.ShortName);
texturenames.Add(t.Value.Name);
}
}
// Process flats
foreach(KeyValuePair<long, ImageData> f in flatsonly)
{
flats.Add(f.Key, f.Value);
//mxd. Add both short and long names?
if(f.Value.HasLongName) flatnames.Add(f.Value.ShortName);
flatnames.Add(f.Value.Name);
}
// Mixed textures and flats?
if(General.Map.Config.MixTexturesFlats)
{
// Add textures to flats
foreach(KeyValuePair<long, ImageData> t in texturesonly)
{
if(!flats.ContainsKey(t.Key))
{
flats.Add(t.Key, t.Value);
//mxd. Add both short and long names?
if(t.Value.HasLongName) flatnames.Add(t.Value.ShortName);
flatnames.Add(t.Value.Name);
}
else if(t.Value is HighResImage || t.Value is SimpleTextureImage) //mxd. Textures defined in TEXTURES or placed between TX_START and TX_END markers override "regular" flats in ZDoom
{
//TODO: check this!
flats[t.Key] = t.Value;
}
}
//mxd
foreach(KeyValuePair<long, long> t in texturenamesshorttofull)
if(!flatnamesshorttofull.ContainsKey(t.Key)) flatnamesshorttofull.Add(t.Key, t.Value);
// Add flats to textures
foreach(KeyValuePair<long, ImageData> f in flatsonly)
{
if(!textures.ContainsKey(f.Key))
{
textures.Add(f.Key, f.Value);
//mxd. Add both short and long names?
if(f.Value.HasLongName) texturenames.Add(f.Value.ShortName);
texturenames.Add(f.Value.Name);
}
}
//mxd
foreach(KeyValuePair<long, long> t in flatnamesshorttofull)
if(!texturenamesshorttofull.ContainsKey(t.Key)) texturenamesshorttofull.Add(t.Key, t.Value);
// Do the same on the data readers
foreach(DataReader dr in containers)
dr.TextureSet.MixTexturesAndFlats();
}
//mxd. Should be done after loading textures...
LoadGldefs(actorsbyclass);
//mxd. Create camera textures. Should be done after loading textures.
LoadAnimdefs();
// Sort names
texturenames.Sort();
flatnames.Sort();
// Sort things
foreach(ThingCategory tc in thingcategories) tc.SortIfNeeded();
// Update the used textures
General.Map.Data.UpdateUsedTextures();
// Add texture names to texture sets
foreach(KeyValuePair<long, ImageData> img in textures)
{
// Add to all sets
foreach(MatchingTextureSet ms in texturesets)
ms.AddTexture(img.Value);
// Add to all
alltextures.AddTexture(img.Value);
}
// Add flat names to texture sets
foreach(KeyValuePair<long, ImageData> img in flats)
{
// Add to all sets
foreach(MatchingTextureSet ms in texturesets)
ms.AddFlat(img.Value);
// Add to all
alltextures.AddFlat(img.Value);
}
//mxd. Create skybox texture(s)
SetupSkybox();
// Start background loading
StartBackgroundLoader();
// Output info
General.WriteLogLine("Loaded " + texcount + " textures, " + flatcount + " flats, " +
colormapcount + " colormaps, " + spritecount + " sprites, " +
thingcount + " decorate things, " + modeldefentries.Count + " model/voxel deinitions, " +
gldefsentries.Count + " dynamic light definitions, " +
glowingflats.Count + " glowing flat definitions, " + skyboxes.Count + " skybox definitions, " +
reverbs.Count + " sound environment definitions");
}
// This unloads all data
private void Unload()
{
// Stop background loader
StopBackgroundLoader();
// Dispose preview manager
previews.Dispose();
previews = null;
// Dispose decorate
decorate.Dispose();
// Dispose resources
foreach(KeyValuePair<long, ImageData> i in textures) i.Value.Dispose();
foreach(KeyValuePair<long, ImageData> i in flats) i.Value.Dispose();
foreach(KeyValuePair<long, ImageData> i in sprites) i.Value.Dispose();
foreach(KeyValuePair<string, ImageData> i in internalsprites) i.Value.Dispose(); //mxd
palette = null;
//mxd. Dispose models
foreach(KeyValuePair<int, ModelData> i in modeldefentries) i.Value.Dispose();
// Dispose containers
foreach(DataReader c in containers) c.Dispose();
containers.Clear();
// Trash collections
decorate = null;
containers = null;
textures = null;
flats = null;
sprites = null;
modeldefentries = null; //mxd
texturenames = null;
flatnames = null;
imageque = null;
internalsprites = null;
mapinfo = null; //mxd
}
#endregion
#region ================== Suspend / Resume
// This suspends data resources
internal void Suspend()
{
// Stop background loader
StopBackgroundLoader();
// Go for all containers
foreach(DataReader d in containers)
{
// Suspend
General.WriteLogLine("Suspended data resource '" + d.Location.location + "'");
d.Suspend();
}
}
// This resumes data resources
internal void Resume()
{
// Go for all containers
foreach(DataReader d in containers)
{
try
{
// Resume
General.WriteLogLine("Resumed data resource '" + d.Location.location + "'");
d.Resume();
}
catch(Exception e)
{
// Unable to load resource
General.ErrorLogger.Add(ErrorType.Error, "Unable to load resources from location \"" + d.Location.location + "\". Please make sure the location is accessible and not in use by another program. The resources will now be loaded with this location excluded. You may reload the resources to try again.\n" + e.GetType().Name + " when resuming data reader: " + e.Message + ")");
General.WriteLogLine(e.StackTrace);
}
}
// Start background loading
StartBackgroundLoader();
}
#endregion
#region ================== Background Loading
// This starts background loading
private void StartBackgroundLoader()
{
// Timing
loadstarttime = Clock.CurrentTime;
loadfinishtime = 0;
// If a loader is already running, stop it first
if(backgroundloader != null) StopBackgroundLoader();
// Start a low priority thread to load images in background
General.WriteLogLine("Starting background resource loading...");
backgroundloader = new Thread(BackgroundLoad);
backgroundloader.Name = "Background Loader";
backgroundloader.Priority = ThreadPriority.Lowest;
backgroundloader.IsBackground = true;
backgroundloader.Start();
}
// This stops background loading
private void StopBackgroundLoader()
{
General.WriteLogLine("Stopping background resource loading...");
if(backgroundloader != null)
{
// Stop the thread and wait for it to end
backgroundloader.Interrupt();
backgroundloader.Join();
// Reset load states on all images in the list
while(imageque.Count > 0)
{
ImageData img = imageque.Dequeue();
switch(img.ImageState)
{
case ImageLoadState.Loading:
img.ImageState = ImageLoadState.None;
break;
case ImageLoadState.Unloading:
img.ImageState = ImageLoadState.Ready;
break;
}
switch(img.PreviewState)
{
case ImageLoadState.Loading:
img.PreviewState = ImageLoadState.None;
break;
case ImageLoadState.Unloading:
img.PreviewState = ImageLoadState.Ready;
break;
}
}
// Done
notifiedbusy = false;
backgroundloader = null;
General.SendMessage(General.MainWindow.Handle, (int)MainForm.ThreadMessages.UpdateStatus, 0, 0);
}
}
// The background loader
private void BackgroundLoad()
{
try
{
do
{
// Do we have to update the used-in-map status?
if(updatedusedtextures) BackgroundUpdateUsedTextures();
// Get next item
ImageData image = null;
lock(imageque)
{
// Fetch next image to process
if(imageque.Count > 0) image = imageque.Dequeue();
}
// Any image to process?
if(image != null)
{
// Load this image?
if(image.IsReferenced && (image.ImageState != ImageLoadState.Ready))
{
image.LoadImage();
}
// Unload this image?
else if(!image.IsReferenced && image.AllowUnload && (image.ImageState != ImageLoadState.None))
{
// Still unreferenced?
image.UnloadImage();
}
}
// Doing something?
if(image != null)
{
// Wait a bit and update icon
if(!notifiedbusy)
{
notifiedbusy = true;
General.SendMessage(General.MainWindow.Handle, (int)MainForm.ThreadMessages.UpdateStatus, 0, 0);
}
Thread.Sleep(0);
}
else
{
// Process previews only when we don't have images to process
// because these are lower priority than the actual images
if(previews.BackgroundLoad())
{
// Wait a bit and update icon
if(!notifiedbusy)
{
notifiedbusy = true;
General.SendMessage(General.MainWindow.Handle, (int)MainForm.ThreadMessages.UpdateStatus, 0, 0);
}
Thread.Sleep(0);
}
else
{
if(notifiedbusy)
{
notifiedbusy = false;
General.SendMessage(General.MainWindow.Handle, (int)MainForm.ThreadMessages.UpdateStatus, 0, 0);
}
// Timing
if(loadfinishtime == 0)
{
//mxd. Release PK3 files
foreach(DataReader reader in containers)
{
if(reader is PK3Reader) (reader as PK3Reader).BathMode = false;
}
loadfinishtime = Clock.CurrentTime;
float deltatimesec = (loadfinishtime - loadstarttime) / 1000.0f;
General.WriteLogLine("Resources loading took " + deltatimesec.ToString("########0.00") + " seconds");
}
// Wait longer to release CPU resources
Thread.Sleep(50);
}
}
}
while(true);
}
catch(ThreadInterruptedException)
{
return;
}
}
// This adds an image for background loading or unloading
internal void ProcessImage(ImageData img)
{
// Load this image?
if((img.ImageState == ImageLoadState.None) && img.IsReferenced)
{
// Add for loading
img.ImageState = ImageLoadState.Loading;
lock(imageque) { imageque.Enqueue(img); }
}
// Unload this image?
if((img.ImageState == ImageLoadState.Ready) && !img.IsReferenced && img.AllowUnload)
{
// Add for unloading
img.ImageState = ImageLoadState.Unloading;
lock(imageque) { imageque.Enqueue(img); }
}
// Update icon
General.SendMessage(General.MainWindow.Handle, (int)MainForm.ThreadMessages.UpdateStatus, 0, 0);
}
//mxd. This loads a model
internal bool ProcessModel(int type)
{
if(modeldefentries[type].LoadState != ModelLoadState.None) return true;
//create models
ModelReader.Load(modeldefentries[type], containers, General.Map.Graphics.Device);
if(modeldefentries[type].Model != null)
{
modeldefentries[type].LoadState = ModelLoadState.Ready;
return true;
}
modeldefentries.Remove(type);
return false;
}
// This updates the used-in-map status on all textures and flats
private void BackgroundUpdateUsedTextures()
{
if(General.Map.Config.MixTexturesFlats)
{
lock(usedtextures)
{
// Set used on all textures
foreach(KeyValuePair<long, ImageData> i in textures)
{
i.Value.SetUsedInMap(usedtextures.ContainsKey(i.Key));
if(i.Value.IsImageLoaded != i.Value.IsReferenced) ProcessImage(i.Value);
}
// Set used on all flats
foreach(KeyValuePair<long, ImageData> i in flats)
{
i.Value.SetUsedInMap(usedtextures.ContainsKey(i.Key));
if(i.Value.IsImageLoaded != i.Value.IsReferenced) ProcessImage(i.Value);
}
// Done
updatedusedtextures = false;
}
}
//mxd. Use separate collections
else
{
lock(usedtextures)
{
// Set used on all textures
foreach(KeyValuePair<long, ImageData> i in textures)
{
i.Value.SetUsedInMap(usedtextures.ContainsKey(i.Key));
if(i.Value.IsImageLoaded != i.Value.IsReferenced) ProcessImage(i.Value);
}
}
lock(usedflats)
{
// Set used on all flats
foreach(KeyValuePair<long, ImageData> i in flats)
{
i.Value.SetUsedInMap(usedflats.ContainsKey(i.Key));
if(i.Value.IsImageLoaded != i.Value.IsReferenced) ProcessImage(i.Value);
}
}
// Done
updatedusedtextures = false;
}
}
#endregion
#region ================== Palette
// This loads the PLAYPAL palette
private void LoadPalette()
{
// Go for all opened containers
for(int i = containers.Count - 1; i >= 0; i--)
{
// Load palette
palette = containers[i].LoadPalette();
if(palette != null) break;
}
// Make empty palette when still no palette found
if(palette == null)
{
General.ErrorLogger.Add(ErrorType.Warning, "None of the loaded resources define a color palette. Did you forget to configure an IWAD for this game configuration?");
palette = new Playpal();
}
}
#endregion
#region ================== Colormaps
// This loads the colormaps
private int LoadColormaps(Dictionary<long, ImageData> list)
{
int counter = 0;
// Go for all opened containers
foreach(DataReader dr in containers)
{
// Load colormaps
ICollection<ImageData> images = dr.LoadColormaps();
if(images != null)
{
// Go for all colormaps
foreach(ImageData img in images)
{
// Add or replace in flats list
list.Remove(img.LongName);
list.Add(img.LongName, img);
counter++;
// Add to preview manager
previews.AddImage(img);
}
}
}
// Output info
return counter;
}
// This returns a specific colormap stream
internal Stream GetColormapData(string pname)
{
// Go for all opened containers
for(int i = containers.Count - 1; i >= 0; i--)
{
// This contain provides this flat?
Stream colormap = containers[i].GetColormapData(pname);
if(colormap != null) return colormap;
}
// No such patch found
return null;
}
#endregion
#region ================== Textures
// This loads the textures
private int LoadTextures(Dictionary<long, ImageData> list, Dictionary<long, long> nametranslation)
{
PatchNames pnames = new PatchNames();
int counter = 0;
// Go for all opened containers
foreach(DataReader dr in containers)
{
// Load PNAMES info
// Note that pnames is NOT set to null in the loop
// because if a container has no pnames, the pnames
// of the previous (higher) container should be used.
PatchNames newpnames = dr.LoadPatchNames();
if(newpnames != null) pnames = newpnames;
// Load textures
ICollection<ImageData> images = dr.LoadTextures(pnames);
if(images != null)
{
// Go for all textures
foreach(ImageData img in images)
{
// Add or replace in textures list
list.Remove(img.LongName);
list.Add(img.LongName, img);
counter++;
//mxd. Also add as short name when texture name is longer than 8 chars
// Or remove when a wad image with short name overrides previously added
// resource image with long name
if(img.HasLongName)
{
long longshortname = Lump.MakeLongName(Path.GetFileNameWithoutExtension(img.Name), false);
nametranslation.Remove(longshortname);
nametranslation.Add(longshortname, img.LongName);
}
else if(img is TextureImage && nametranslation.ContainsKey(img.LongName))
{
nametranslation.Remove(img.LongName);
}
// Add to preview manager
previews.AddImage(img);
}
}
}
// Output info
return counter;
}
// This returns a specific patch stream
internal Stream GetPatchData(string pname, bool longname)
{
// Go for all opened containers
for(int i = containers.Count - 1; i > -1; i--)
{
// This contain provides this patch?
Stream patch = containers[i].GetPatchData(pname, longname);
if(patch != null) return patch;
}
// No such patch found
return null;
}
// This returns a specific texture stream
internal Stream GetTextureData(string pname, bool longname)
{
// Go for all opened containers
for(int i = containers.Count - 1; i >= 0; i--)
{
// This container provides this patch?
Stream patch = containers[i].GetTextureData(pname, longname);
if(patch != null) return patch;
}
// No such patch found
return null;
}
// This checks if a given texture is known
public bool GetTextureExists(string name)
{
return GetTextureExists(Lump.MakeLongName(name)); //mxd
}
// This checks if a given texture is known
public bool GetTextureExists(long longname)
{
return textures.ContainsKey(longname) || texturenamesshorttofull.ContainsKey(longname);
}
// This returns an image by string
public ImageData GetTextureImage(string name)
{
// Get the long name
long longname = Lump.MakeLongName(name);
return GetTextureImage(longname);
}
// This returns an image by long
public ImageData GetTextureImage(long longname)
{
// Does this texture exist?
if(textures.ContainsKey(longname) && textures[longname] is HighResImage) return textures[longname]; //TEXTURES textures should still override regular ones...
if(texturenamesshorttofull.ContainsKey(longname)) return textures[texturenamesshorttofull[longname]]; //mxd
if(textures.ContainsKey(longname)) return textures[longname];
// Return null image
return unknownimage; //mxd
}
//mxd. This tries to find and load any image with given name
internal Bitmap GetTextureBitmap(string name)
{
// Check the textures first...
ImageData img = GetTextureImage(name);
if(img is UnknownImage && !General.Map.Config.MixTexturesFlats)
img = GetFlatImage(name);
if(!(img is UnknownImage))
{
if(!img.IsImageLoaded) img.LoadImage();
if(!img.LoadFailed)
{
return new Bitmap(img.GetBitmap());
}
}
// Try to find any image...
for(int i = containers.Count - 1; i >= 0; i--)
{
// This container has a lump with given name?
if(containers[i] is PK3StructuredReader)
{
string foundname = ((PK3StructuredReader)containers[i]).FindFirstFile(name, true);
if(string.IsNullOrEmpty(foundname)) continue;
name = foundname;
}
else if(!(containers[i] is WADReader))
{
throw new NotImplementedException("Unsupported container type!");
}
if(!containers[i].FileExists(name)) continue;
MemoryStream mem = containers[i].LoadFile(name);
if(mem == null) continue;
// Is it an image?
IImageReader reader = ImageDataFormat.GetImageReader(mem, ImageDataFormat.DOOMPICTURE, General.Map.Data.Palette);
if(!(reader is UnknownImageReader))
{
// Load the image
mem.Seek(0, SeekOrigin.Begin);
Bitmap result;
try { result = reader.ReadAsBitmap(mem); }
catch(InvalidDataException)
{
// Data cannot be read!
result = null;
}
// Found it?
if(result != null) return result;
}
}
// No such image found
return null;
}
//mxd
public string GetFullTextureName(string name)
{
if(string.IsNullOrEmpty(name)) return name;
if(Path.GetFileNameWithoutExtension(name) == name && name.Length > CLASIC_IMAGE_NAME_LENGTH)
name = name.Substring(0, CLASIC_IMAGE_NAME_LENGTH);
long hash = MurmurHash2.Hash(name.Trim().ToUpperInvariant());
if(textures.ContainsKey(hash) && textures[hash] is HighResImage) return textures[hash].Name; //TEXTURES textures should still override regular ones...
if(texturenamesshorttofull.ContainsKey(hash)) return textures[texturenamesshorttofull[hash]].Name;
if(textures.ContainsKey(hash)) return textures[hash].Name;
return name;
}
//mxd
internal long GetFullLongTextureName(long hash)
{
if(textures.ContainsKey(hash) && textures[hash] is HighResImage) return hash; //TEXTURES textures should still override regular ones...
return (General.Map.Config.UseLongTextureNames && texturenamesshorttofull.ContainsKey(hash) ? texturenamesshorttofull[hash] : hash);
}
//mxd
private void LoadInternalTextures()
{
missingtexture3d = LoadInternalTexture("MissingTexture3D.png"); //mxd
unknowntexture3d = LoadInternalTexture("UnknownTexture3D.png"); //mxd
hourglass3d = LoadInternalTexture("Hourglass3D.png"); //mxd
crosshair = LoadInternalTexture("Crosshair.png"); //mxd
crosshairbusy = LoadInternalTexture("CrosshairBusy.png"); //mxd
}
//mxd
private static ImageData LoadInternalTexture(string name)
{
ImageData result;
string path = Path.Combine(General.TexturesPath, name);
if(File.Exists(path))
{
result = new FileImage(name, path) { AllowUnload = false };
}
else
{
General.ErrorLogger.Add(ErrorType.Warning, "Unable to load editor texture '" + name + "'. Using built-in one instead.");
result = new ResourceImage("CodeImp.DoomBuilder.Resources." + name);
}
result.LoadImage();
return result;
}
#endregion
#region ================== Flats
// This loads the flats
private int LoadFlats(Dictionary<long, ImageData> list, Dictionary<long, long> nametranslation)
{
int counter = 0;
// Go for all opened containers
foreach(DataReader dr in containers)
{
// Load flats
ICollection<ImageData> images = dr.LoadFlats();
if(images != null)
{
// Go for all flats
foreach(ImageData img in images)
{
// Add or replace in flats list
list.Remove(img.LongName);
list.Add(img.LongName, img);
counter++;
//mxd. Also add as short name when texture name is longer than 8 chars
// Or remove when a wad image with short name overrides previously added
// resource image with long name
if(img.HasLongName)
{
long longshortname = Lump.MakeLongName(Path.GetFileNameWithoutExtension(img.Name), false);
nametranslation.Remove(longshortname);
nametranslation.Add(longshortname, img.LongName);
}
else if(img is FlatImage && nametranslation.ContainsKey(img.LongName))
{
nametranslation.Remove(img.LongName);
}
// Add to preview manager
previews.AddImage(img);
}
}
}
// Output info
return counter;
}
// This returns a specific flat stream
internal Stream GetFlatData(string pname, bool longname)
{
// Go for all opened containers
for(int i = containers.Count - 1; i >= 0; i--)
{
// This contain provides this flat?
Stream flat = containers[i].GetFlatData(pname, longname);
if(flat != null) return flat;
}
// No such patch found
return null;
}
// This checks if a flat is known
public bool GetFlatExists(string name)
{
return GetFlatExists(Lump.MakeLongName(name)); //mxd
}
// This checks if a flat is known
public bool GetFlatExists(long longname)
{
return flats.ContainsKey(longname) || flatnamesshorttofull.ContainsKey(longname);
}
// This returns an image by string
public ImageData GetFlatImage(string name)
{
// Get the long name
long longname = Lump.MakeLongName(name);
return GetFlatImage(longname);
}
// This returns an image by long
public ImageData GetFlatImage(long longname)
{
// Does this flat exist?
if(flats.ContainsKey(longname) && flats[longname] is HighResImage) return flats[longname]; //TEXTURES flats should still override regular ones...
if(flatnamesshorttofull.ContainsKey(longname)) return flats[flatnamesshorttofull[longname]]; //mxd
if(flats.ContainsKey(longname)) return flats[longname];
// Return null image
return unknownimage; //mxd
}
// This returns an image by long and doesn't check if it exists
/*public ImageData GetFlatImageKnown(long longname)
{
// Return flat
return flatnamesshorttofull.ContainsKey(longname) ? flats[flatnamesshorttofull[longname]] : flats[longname]; //mxd
}*/
//mxd. Gets full flat name by short flat name
public string GetFullFlatName(string name)
{
if(Path.GetFileNameWithoutExtension(name) == name && name.Length > CLASIC_IMAGE_NAME_LENGTH)
name = name.Substring(0, CLASIC_IMAGE_NAME_LENGTH);
long hash = MurmurHash2.Hash(name.ToUpperInvariant());
if(flats.ContainsKey(hash) && flats[hash] is HighResImage) return flats[hash].Name; //TEXTURES flats should still override regular ones...
if(flatnamesshorttofull.ContainsKey(hash)) return flats[flatnamesshorttofull[hash]].Name;
if(flats.ContainsKey(hash)) return flats[hash].Name;
return name;
}
//mxd
internal long GetFullLongFlatName(long hash)
{
if(flats.ContainsKey(hash) && flats[hash] is HighResImage) return hash; //TEXTURES flats should still override regular ones...
return (General.Map.Config.UseLongTextureNames && flatnamesshorttofull.ContainsKey(hash) ? flatnamesshorttofull[hash] : hash);
}
#endregion
#region ================== Sprites
// This loads the hard defined sprites (not all the lumps, we do that on a need-to-know basis, see LoadThingSprites)
private int LoadSprites()
{
int counter = 0;
// Load all defined sprites. Note that we do not use all sprites,
// so we don't add them for previews just yet.
foreach(DataReader dr in containers)
{
// Load sprites
ICollection<ImageData> images = dr.LoadSprites();
if(images != null)
{
// Add or replace in sprites list
foreach(ImageData img in images)
{
sprites[img.LongName] = img;
counter++;
}
}
}
// Output info
return counter;
}
// This loads the sprites that we really need for things
private int LoadThingSprites()
{
// Go for all things
foreach(ThingTypeInfo ti in General.Map.Data.ThingTypes)
{
// Valid sprite name?
if(ti.Sprite.Length == 0 || ti.Sprite.Length > CLASIC_IMAGE_NAME_LENGTH) continue; //mxd
ImageData image = null;
// Sprite not in our collection yet?
if(!sprites.ContainsKey(ti.SpriteLongName))
{
// Find sprite data
Stream spritedata = GetSpriteData(ti.Sprite);
if(spritedata != null)
{
// Make new sprite image
image = new SpriteImage(ti.Sprite);
// Add to collection
sprites.Add(ti.SpriteLongName, image);
}
else //mxd
{
General.ErrorLogger.Add(ErrorType.Error, "Missing sprite lump '" + ti.Sprite + "'. Forgot to include required resources?");
}
}
else
{
image = sprites[ti.SpriteLongName];
}
// Add to preview manager
if(image != null) previews.AddImage(image);
}
// Output info
return sprites.Count;
}
// This returns a specific patch stream
internal Stream GetSpriteData(string pname)
{
if(!string.IsNullOrEmpty(pname))
{
// Go for all opened containers
for(int i = containers.Count - 1; i >= 0; i--)
{
// This contain provides this patch?
Stream spritedata = containers[i].GetSpriteData(pname);
if(spritedata != null) return spritedata;
}
}
// No such patch found
return null;
}
// This tests if a given sprite can be found
internal bool GetSpriteExists(string pname)
{
if(!string.IsNullOrEmpty(pname))
{
long longname = Lump.MakeLongName(pname);
if(sprites.ContainsKey(longname)) return true;
// Go for all opened containers
for(int i = containers.Count - 1; i >= 0; i--)
{
// This contain provides this patch?
if(containers[i].GetSpriteExists(pname)) return true;
}
}
// No such patch found
return false;
}
// This loads the internal sprites
private void LoadInternalSprites()
{
// Add sprite icon files from directory
string[] files = Directory.GetFiles(General.SpritesPath, "*.png", SearchOption.TopDirectoryOnly);
foreach(string spritefile in files)
{
ImageData img = new FileImage(Path.GetFileNameWithoutExtension(spritefile).ToLowerInvariant(), spritefile);
img.LoadImage();
img.AllowUnload = false;
internalsprites.Add(img.Name, img);
}
// Add some internal resources
if(!internalsprites.ContainsKey("nothing"))
{
ImageData img = new ResourceImage("CodeImp.DoomBuilder.Resources.Nothing.png");
img.LoadImage();
img.AllowUnload = false;
internalsprites.Add("nothing", img);
}
if(!internalsprites.ContainsKey("unknownthing"))
{
ImageData img = new ResourceImage("CodeImp.DoomBuilder.Resources.UnknownThing.png");
img.LoadImage();
img.AllowUnload = false;
internalsprites.Add("unknownthing", img);
}
//mxd
if(!internalsprites.ContainsKey("missingthing"))
{
ImageData img = new ResourceImage("CodeImp.DoomBuilder.Resources.MissingThing.png");
img.LoadImage();
img.AllowUnload = false;
internalsprites.Add("missingthing", img);
}
}
// This returns an image by name
public ImageData GetSpriteImage(string name)
{
// Is this referring to an internal sprite image?
if((name.Length > INTERNAL_PREFIX.Length) && name.ToLowerInvariant().StartsWith(INTERNAL_PREFIX))
{
// Get the internal sprite
string internalname = name.Substring(INTERNAL_PREFIX.Length).ToLowerInvariant();
if(internalsprites.ContainsKey(internalname))
return internalsprites[internalname];
return internalsprites["unknownthing"]; //mxd
}
else
{
// Get the long name
long longname = Lump.MakeLongName(name);
// Sprite already loaded?
if(sprites.ContainsKey(longname))
{
// Return exiting sprite
return sprites[longname];
}
else
{
Stream spritedata = null;
// Go for all opened containers
for(int i = containers.Count - 1; i >= 0; i--)
{
// This container provides this sprite?
spritedata = containers[i].GetSpriteData(name);
if(spritedata != null) break;
}
// Found anything?
if(spritedata != null)
{
// Make new sprite image
SpriteImage image = new SpriteImage(name);
// Add to collection
sprites.Add(longname, image);
// Return result
return image;
}
else //mxd
{
ImageData img = string.IsNullOrEmpty(name) ? internalsprites["unknownthing"] : internalsprites["missingthing"];
// Add to collection
sprites.Add(longname, img);
// Return image
return img;
}
}
}
}
#endregion
#region ================== Things
// This loads the things from Decorate
private int LoadDecorateThings(Dictionary<int, string> spawnnumsoverride, Dictionary<int, string> doomednumsoverride)
{
int counter = 0;
char[] catsplitter = new[] {Path.AltDirectorySeparatorChar}; //mxd
// Create new parser
decorate = new DecorateParser { OnInclude = LoadDecorateFromLocation };
// Only load these when the game configuration supports the use of decorate
if(!string.IsNullOrEmpty(General.Map.Config.DecorateGames))
{
// Go for all opened containers
foreach(DataReader dr in containers)
{
// Load Decorate info cumulatively (the last Decorate is added to the previous)
// I'm not sure if this is the right thing to do though.
currentreader = dr;
Dictionary<string, Stream> decostreams = dr.GetDecorateData("DECORATE");
foreach(KeyValuePair<string, Stream> group in decostreams)
{
// Parse the data
group.Value.Seek(0, SeekOrigin.Begin);
decorate.Parse(group.Value, Path.Combine(currentreader.Location.GetShortName(), group.Key), true);
//mxd. DECORATE lumps are interdepandable. Can't carry on...
if(decorate.HasError)
{
decorate.LogError(); //mxd
return counter;
}
}
}
currentreader = null;
if(!decorate.HasError)
{
// Step 1. Go for all actors in the decorate to make things or update things
foreach(ActorStructure actor in decorate.Actors)
{
// Check if we want to add this actor
if(actor.DoomEdNum > 0)
{
string catname = ZDTextParser.StripQuotes(actor.GetPropertyAllValues("$category"));
string[] catnames; //mxd
if(string.IsNullOrEmpty(catname.Trim()))
catnames = new[] { "decorate" };
else
catnames = catname.Split(catsplitter, StringSplitOptions.RemoveEmptyEntries); //mxd
// Check if we can find this thing in our existing collection
if(thingtypes.ContainsKey(actor.DoomEdNum))
{
// Update the thing
thingtypes[actor.DoomEdNum].ModifyByDecorateActor(actor);
}
else
{
// Find the category to put the actor in
ThingCategory cat = GetThingCategory(null, thingcategories, catnames); //mxd
// Add new thing
ThingTypeInfo t = new ThingTypeInfo(cat, actor);
cat.AddThing(t);
thingtypes.Add(t.Index, t);
}
// Count
counter++;
}
}
//mxd. Step 2. Apply DoomEdNum MAPINFO overrides, remove actors disabled in MAPINFO
if(doomednumsoverride.Count > 0)
{
List<int> toremove = new List<int>();
Dictionary<string, ThingTypeInfo> thingtypesbyclass = new Dictionary<string, ThingTypeInfo>();
foreach(KeyValuePair<int, ThingTypeInfo> group in thingtypes)
{
if(string.IsNullOrEmpty(group.Value.ClassName)) continue;
thingtypesbyclass[group.Value.ClassName.ToLowerInvariant()] = group.Value;
}
foreach(KeyValuePair<int, string> group in doomednumsoverride)
{
// Remove thing from the list?
if(group.Value == "none")
{
toremove.Add(group.Key);
continue;
}
// Skip if already added.
if(thingtypes.ContainsKey(group.Key) && thingtypes[group.Key].ClassName.ToLowerInvariant() == group.Value)
{
continue;
}
// Try to find the actor...
ActorStructure actor = null;
//... in ActorsByClass
if(decorate.ActorsByClass.ContainsKey(group.Value))
{
actor = decorate.ActorsByClass[group.Value];
}
// Try finding in ArchivedActors
else if(decorate.AllActorsByClass.ContainsKey(group.Value))
{
actor = decorate.AllActorsByClass[group.Value];
}
if(actor != null)
{
// Find the category to put the actor in
string catname = ZDTextParser.StripQuotes(actor.GetPropertyAllValues("$category"));
string[] catnames; //mxd
if(string.IsNullOrEmpty(catname.Trim()))
catnames = new[] { "decorate" };
else
catnames = catname.Split(catsplitter, StringSplitOptions.RemoveEmptyEntries); //mxd
ThingCategory cat = GetThingCategory(null, thingcategories, catnames); //mxd
// Add a new ThingTypeInfo, replacing already existing one if necessary
ThingTypeInfo info = new ThingTypeInfo(cat, actor, group.Key);
thingtypes[group.Key] = info;
cat.AddThing(info);
}
// Check thingtypes...
else if(thingtypesbyclass.ContainsKey(group.Value))
{
ThingTypeInfo t = new ThingTypeInfo(group.Key, thingtypesbyclass[group.Value]);
// Add new thing, replacing already existing one if necessary
t.Category.AddThing(t);
thingtypes[group.Key] = t;
}
// Loudly give up...
else
{
General.ErrorLogger.Add(ErrorType.Warning, "Failed to apply MAPINFO DoomEdNum override '" + group.Key + " = " + group.Value + ": failed to find corresponding actor class...");
}
}
// Remove items
foreach(int id in toremove)
{
if(thingtypes.ContainsKey(id))
{
thingtypes[id].Category.RemoveThing(thingtypes[id]);
thingtypes.Remove(id);
}
}
}
//mxd. Step 3. Gather DECORATE SpawnIDs
Dictionary<int, EnumItem> configspawnnums = new Dictionary<int, EnumItem>();
// Update or create the main enums list
if(General.Map.Config.Enums.ContainsKey("spawnthing"))
{
foreach(EnumItem item in General.Map.Config.Enums["spawnthing"])
configspawnnums.Add(item.GetIntValue(), item);
}
bool spawnidschanged = false;
if(!decorate.HasError)
{
foreach(ActorStructure actor in decorate.Actors)
{
int spawnid = actor.GetPropertyValueInt("spawnid", 0);
if(spawnid != 0)
{
configspawnnums[spawnid] = new EnumItem(spawnid.ToString(), (actor.HasPropertyWithValue("$title") ? actor.GetPropertyAllValues("$title") : actor.ClassName));
spawnidschanged = true;
}
}
}
//mxd. Step 4. Update SpawnNums using MAPINFO overrides
if(spawnnumsoverride.Count > 0)
{
// Modify by MAPINFO data
foreach(KeyValuePair<int, string> group in spawnnumsoverride)
{
configspawnnums[group.Key] = new EnumItem(group.Key.ToString(), (thingtypes.ContainsKey(group.Key) ? thingtypes[group.Key].Title : group.Value));
}
spawnidschanged = true;
}
if(spawnidschanged)
{
// Update the main collection
EnumList newenums = new EnumList();
newenums.AddRange(configspawnnums.Values);
newenums.Sort();
General.Map.Config.Enums["spawnthing"] = newenums;
// Update all ArgumentInfos...
foreach(ThingTypeInfo info in thingtypes.Values)
{
foreach(ArgumentInfo ai in info.Args)
if(ai.Enum.Name == "spawnthing") ai.Enum = newenums;
}
foreach(LinedefActionInfo info in General.Map.Config.LinedefActions.Values)
{
foreach(ArgumentInfo ai in info.Args)
if(ai.Enum.Name == "spawnthing") ai.Enum = newenums;
}
}
}
}
// Output info
return counter;
}
//mxd
private static ThingCategory GetThingCategory(ThingCategory parent, List<ThingCategory> categories, string[] catnames)
{
// Find the category to put the actor in
ThingCategory cat = null;
string catname = catnames[0].ToLowerInvariant().Trim();
if(string.IsNullOrEmpty(catname)) catname = "decorate";
// First search by Title...
foreach(ThingCategory c in categories)
{
if(c.Title.ToLowerInvariant() == catname) cat = c;
}
// Make full name
if(parent != null) catname = parent.Name.ToLowerInvariant() + "." + catname;
//...then - by Name
if(cat == null)
{
foreach(ThingCategory c in categories)
{
if(c.Name.ToLowerInvariant() == catname) cat = c;
}
}
// Make the category if needed
if(cat == null)
{
string cattitle = catnames[0].Trim();
if(string.IsNullOrEmpty(cattitle)) cattitle = "Decorate";
cat = new ThingCategory(parent, catname, cattitle);
categories.Add(cat); // ^.^
}
// Still have subcategories?
if(catnames.Length > 1)
{
string[] remainingnames = new string[catnames.Length - 1];
Array.Copy(catnames, 1, remainingnames, 0, remainingnames.Length);
return GetThingCategory(cat, cat.Children, remainingnames);
}
return cat;
}
// This loads Decorate data from a specific file or lump name
private void LoadDecorateFromLocation(DecorateParser parser, string location)
{
//General.WriteLogLine("Including DECORATE resource '" + location + "'...");
Dictionary<string, Stream> decostreams = currentreader.GetDecorateData(location);
foreach(KeyValuePair<string, Stream> group in decostreams)
{
// Parse this data
parser.Parse(group.Value, group.Key, false);
//mxd. DECORATE lumps are interdepandable. Can't carry on...
if(parser.HasError)
{
parser.LogError();
return;
}
}
}
// This gets thing information by index
public ThingTypeInfo GetThingInfo(int thingtype)
{
// Index in config?
if(thingtypes.ContainsKey(thingtype))
{
// Return from config
return thingtypes[thingtype];
}
// Create unknown thing info
return new ThingTypeInfo(thingtype);
}
// This gets thing information by index
// Returns null when thing type info could not be found
public ThingTypeInfo GetThingInfoEx(int thingtype)
{
// Index in config?
if(thingtypes.ContainsKey(thingtype))
{
// Return from config
return thingtypes[thingtype];
}
// No such thing type known
return null;
}
#endregion
#region ================== mxd. Modeldef, Voxeldef, Gldefs, Mapinfo
//mxd. This creates <Actor Class, Thing.Type> dictionary. Should be called after all DECORATE actors are parsed
private Dictionary<string, int> CreateActorsByClassList()
{
Dictionary<string, int> actors = new Dictionary<string, int>(StringComparer.OrdinalIgnoreCase);
if(string.IsNullOrEmpty(General.Map.Config.DecorateGames)) return actors;
//read our new shiny ClassNames for default game things
foreach(KeyValuePair<int, ThingTypeInfo> ti in thingtypes)
{
if(!string.IsNullOrEmpty(ti.Value.ClassName))
{
if(actors.ContainsKey(ti.Value.ClassName) && actors[ti.Value.ClassName] != ti.Key)
General.ErrorLogger.Add(ErrorType.Warning, "actor '" + ti.Value.ClassName + "' has several editor numbers! Only the last one (" + ti.Key + ") will be used.");
actors[ti.Value.ClassName] = ti.Key;
}
}
if(actors.Count == 0)
General.ErrorLogger.Add(ErrorType.Warning, "unable to find any DECORATE actor definitions!");
return actors;
}
//mxd
public void ReloadModeldef()
{
if(modeldefentries != null)
{
foreach(KeyValuePair<int, ModelData> group in modeldefentries)
group.Value.Dispose();
}
// Bail out when not supported by current game configuration
if(string.IsNullOrEmpty(General.Map.Config.DecorateGames)) return;
General.MainWindow.DisplayStatus(StatusType.Busy, "Reloading model definitions...");
LoadModeldefs(CreateActorsByClassList());
General.MainWindow.DisplayStatus(StatusType.Busy, "Reloading voxel definitions...");
LoadVoxels();
foreach(Thing t in General.Map.Map.Things) t.UpdateCache();
//rebuild geometry if in Visual mode
if(General.Editing.Mode != null && General.Editing.Mode.GetType().Name == "BaseVisualMode")
{
General.Editing.Mode.OnReloadResources();
}
General.MainWindow.DisplayReady();
}
//mxd
public void ReloadGldefs()
{
// Bail out when not supported by current game configuration
if(string.IsNullOrEmpty(General.Map.Config.DecorateGames)) return;
General.MainWindow.DisplayStatus(StatusType.Busy, "Reloading GLDEFS...");
try
{
LoadGldefs(CreateActorsByClassList());
}
catch(ArgumentNullException)
{
MessageBox.Show("GLDEFS reload failed. Try using 'Reload Resources' instead.\nCheck 'Errors and Warnings' window for more details.");
General.MainWindow.DisplayReady();
return;
}
// Rebuild skybox texture
SetupSkybox();
// Rebuild geometry if in Visual mode
if(General.Editing.Mode != null && General.Editing.Mode.GetType().Name == "BaseVisualMode")
{
General.Editing.Mode.OnReloadResources();
}
General.MainWindow.DisplayReady();
}
//mxd. This parses modeldefs. Should be called after all DECORATE actors are parsed and actorsByClass dictionary created
private void LoadModeldefs(Dictionary<string, int> actorsbyclass)
{
//if no actors defined in DECORATE or game config...
if(actorsbyclass.Count == 0) return;
Dictionary<string, ModelData> modeldefentriesbyname = new Dictionary<string, ModelData>(StringComparer.Ordinal);
ModeldefParser parser = new ModeldefParser(actorsbyclass);
foreach(DataReader dr in containers)
{
currentreader = dr;
Dictionary<string, Stream> streams = dr.GetModeldefData();
foreach(KeyValuePair<string, Stream> group in streams)
{
// Parse the data
if(parser.Parse(group.Value, Path.Combine(currentreader.Location.GetShortName(), group.Key), true))
{
foreach(KeyValuePair<string, ModelData> g in parser.Entries)
{
if(modeldefentriesbyname.ContainsKey(g.Key))
General.ErrorLogger.Add(ErrorType.Warning, "Model definition for actor '" + g.Key + "' is double-defined in '" + group.Key + "'");
modeldefentriesbyname[g.Key] = g.Value;
}
}
// Modeldefs are independable, so parsing fail in one file should not affect the others
if(parser.HasError) parser.LogError();
}
}
currentreader = null;
foreach(KeyValuePair<string, ModelData> e in modeldefentriesbyname)
{
if(actorsbyclass.ContainsKey(e.Key))
modeldefentries[actorsbyclass[e.Key]] = modeldefentriesbyname[e.Key];
else if(!decorate.ActorsByClass.ContainsKey(e.Key))
General.ErrorLogger.Add(ErrorType.Warning, "Got MODELDEF override for class '" + e.Key + "', but haven't found such class in Decorate");
}
}
//mxd
private void LoadVoxels()
{
// Bail out when not supported by current game configuration
if(string.IsNullOrEmpty(General.Map.Config.DecorateGames)) return;
//Get names of all voxel models, which can be used "as is"
Dictionary<string, bool> voxelNames = new Dictionary<string, bool>(StringComparer.Ordinal);
foreach(DataReader dr in containers)
{
currentreader = dr;
IEnumerable<string> result = dr.GetVoxelNames();
if(result == null) continue;
foreach(string s in result)
{
if(!voxelNames.ContainsKey(s)) voxelNames.Add(s, false);
}
}
Dictionary<string, List<int>> sprites = new Dictionary<string, List<int>>(StringComparer.Ordinal);
// Go for all things
foreach(ThingTypeInfo ti in thingtypes.Values)
{
// Valid sprite name?
string sprite;
if(ti.Sprite.Length == 0 || ti.Sprite.Length > CLASIC_IMAGE_NAME_LENGTH)
{
if(ti.Actor == null) continue;
sprite = ti.Actor.FindSuitableVoxel(voxelNames);
}
else
{
sprite = ti.Sprite;
}
if(string.IsNullOrEmpty(sprite)) continue;
if(!sprites.ContainsKey(sprite)) sprites.Add(sprite, new List<int>());
sprites[sprite].Add(ti.Index);
}
VoxeldefParser parser = new VoxeldefParser();
Dictionary<string, bool> processed = new Dictionary<string, bool>(StringComparer.Ordinal);
//parse VOXLEDEF
foreach(DataReader dr in containers)
{
currentreader = dr;
KeyValuePair<string, Stream> group = dr.GetVoxeldefData();
if(group.Value != null)
{
if(parser.Parse(group.Value, Path.Combine(currentreader.Location.GetShortName(), group.Key), true))
{
foreach(KeyValuePair<string, ModelData> entry in parser.Entries)
{
foreach(KeyValuePair<string, List<int>> sc in sprites)
{
if(sc.Key.Contains(entry.Key))
{
foreach(int id in sc.Value) modeldefentries[id] = entry.Value;
processed.Add(entry.Key, false);
}
}
}
}
// Report errors?
if(parser.HasError) parser.LogError();
}
}
currentreader = null;
//get voxel models
foreach(KeyValuePair<string, bool> group in voxelNames)
{
if(processed.ContainsKey(group.Key)) continue;
foreach(KeyValuePair<string, List<int>> sc in sprites)
{
if(sc.Key.Contains(group.Key))
{
//it's a model without a definition, and it corresponds to a sprite we can display, so let's add it
ModelData data = new ModelData { IsVoxel = true };
data.ModelNames.Add(group.Key);
foreach(int id in sprites[sc.Key]) modeldefentries[id] = data;
}
}
}
}
//mxd. This parses gldefs. Should be called after all DECORATE actors are parsed
private void LoadGldefs(Dictionary<string, int> actorsbyclass)
{
// Skip if no actors defined in DECORATE or game config...
if(actorsbyclass.Count == 0) return;
GldefsParser parser = new GldefsParser { OnInclude = ParseFromLocation };
// Load gldefs from resources
foreach(DataReader dr in containers)
{
currentreader = dr;
parser.ClearIncludesList();
Dictionary<string, Stream> streams = dr.GetGldefsData(General.Map.Config.GameType);
foreach(KeyValuePair<string, Stream> group in streams)
{
parser.Parse(group.Value, Path.Combine(currentreader.Location.GetShortName(), group.Key), false);
// Gldefs can be interdependable. Can't carry on
if(parser.HasError)
{
parser.LogError();
return;
}
}
}
// Create Gldefs Entries dictionary
foreach(KeyValuePair<string, string> e in parser.Objects) //<ClassName, Light name>
{
// If we have decorate actor and light definition for given ClassName...
if(actorsbyclass.ContainsKey(e.Key) && parser.LightsByName.ContainsKey(e.Value))
gldefsentries[actorsbyclass[e.Key]] = parser.LightsByName[e.Value];
else if(!decorate.AllActorsByClass.ContainsKey(e.Key))
General.ErrorLogger.Add(ErrorType.Warning, "Got GLDEFS light for class '" + e.Key + "', but haven't found such class in DECORATE");
}
// Grab them glowy flats!
glowingflats = parser.GlowingFlats;
// And skyboxes
skyboxes = parser.Skyboxes;
}
//mxd. This updates mapinfo class only
internal void ReloadMapInfoPartial()
{
Dictionary<int, string> spawnnums, doomednums;
LoadMapInfo(out spawnnums, out doomednums);
}
//mxd. This loads (Z)MAPINFO
private void LoadMapInfo(out Dictionary<int, string> spawnnums, out Dictionary<int, string> doomednums)
{
MapinfoParser parser = new MapinfoParser { OnInclude = ParseFromLocation };
// Parse mapinfo
foreach(DataReader dr in containers)
{
currentreader = dr;
Dictionary<string, Stream> streams = dr.GetMapinfoData();
foreach(KeyValuePair<string, Stream> group in streams)
{
// Parse the data
parser.Parse(group.Value, Path.Combine(dr.Location.location, group.Key), General.Map.Options.LevelName, false);
//MAPINFO lumps are interdependable. Can't carry on...
if(parser.HasError)
{
parser.LogError();
break;
}
}
}
if(!parser.HasError)
{
// Store parsed data
spawnnums = parser.SpawnNums;
doomednums = parser.DoomEdNums;
mapinfo = parser.MapInfo;
}
else
{
// No nulls allowed!
spawnnums = new Dictionary<int, string>();
doomednums = new Dictionary<int, string>();
mapinfo = new MapInfo();
}
currentreader = null;
}
private void ParseFromLocation(ZDTextParser parser, string location, bool clearerrors)
{
if(currentreader.IsSuspended) throw new Exception("Data reader is suspended");
parser.Parse(currentreader.LoadFile(location), location, clearerrors);
}
//mxd. This loads REVERBS
private void LoadReverbs()
{
reverbs.Clear();
// Bail out when not supported by current game configuration
if(string.IsNullOrEmpty(General.Map.Config.DecorateGames)) return;
ReverbsParser parser = new ReverbsParser();
foreach(DataReader dr in containers)
{
currentreader = dr;
Dictionary<string, Stream> streams = dr.GetReverbsData();
foreach(KeyValuePair<string, Stream> group in streams)
{
// Parse the data
parser.Parse(group.Value, Path.Combine(currentreader.Location.GetShortName(), group.Key), true);
// Report errors?
if(parser.HasError) parser.LogError();
}
}
currentreader = null;
reverbs = parser.GetReverbs();
}
//mxd. This loads SNDSEQ
private void LoadSndSeq()
{
soundsequences.Clear();
// Bail out when not supported by current game configuration
if(string.IsNullOrEmpty(General.Map.Config.DecorateGames)) return;
SndSeqParser parser = new SndSeqParser();
foreach(DataReader dr in containers)
{
currentreader = dr;
Dictionary<string, Stream> streams = dr.GetSndSeqData();
// Parse the data
foreach(KeyValuePair<string, Stream> group in streams)
{
parser.Parse(group.Value, Path.Combine(currentreader.Location.GetShortName(), group.Key), true);
// Report errors?
if(parser.HasError) parser.LogError();
}
}
currentreader = null;
soundsequences = parser.GetSoundSequences();
}
//mxd. This loads cameratextures from ANIMDEFS
private void LoadAnimdefs()
{
// Bail out when not supported by current game configuration
if(string.IsNullOrEmpty(General.Map.Config.DecorateGames)) return;
AnimdefsParser parser = new AnimdefsParser();
foreach(DataReader dr in containers)
{
currentreader = dr;
Dictionary<string, Stream> streams = dr.GetAnimdefsData();
// Parse the data
foreach(KeyValuePair<string, Stream> group in streams)
{
parser.Parse(group.Value, Path.Combine(currentreader.Location.GetShortName(), group.Key), true);
// Report errors?
if(parser.HasError) parser.LogError();
// Create images
foreach(var g in parser.CameraTextures)
{
// Grab a local copy
CameraTextureData data = g.Value;
// Apply texture size override?
if(!data.FitTexture)
{
long longname = Lump.MakeLongName(data.Name);
if(textures.ContainsKey(longname))
{
data.ScaleX = (float)textures[longname].Width / data.Width;
data.ScaleY = (float)textures[longname].Height / data.Height;
}
else if(flats.ContainsKey(longname))
{
data.ScaleX = (float)flats[longname].Width / data.Width;
data.ScaleY = (float)flats[longname].Height / data.Height;
}
}
// Create texture
CameraTextureImage camteximage = new CameraTextureImage(data);
// Add to flats and textures
texturenames.Add(camteximage.Name);
flatnames.Add(camteximage.Name);
//TODO: Do cameratextures override stuff like this?..
textures[camteximage.LongName] = camteximage;
flats[camteximage.LongName] = camteximage;
// Add to preview manager
previews.AddImage(camteximage);
// Add to container's texture set
currentreader.TextureSet.AddFlat(camteximage);
currentreader.TextureSet.AddTexture(camteximage);
}
}
}
currentreader = null;
}
//mxd
internal Stream LoadFile(string name)
{
// Filesystem path?
if(Path.IsPathRooted(name))
return (File.Exists(name) ? File.OpenRead(name) : null);
foreach(DataReader dr in containers)
if(dr.FileExists(name)) return dr.LoadFile(name);
return null;
}
#endregion
#region ================== Tools
// This finds the first IWAD resource
// Returns false when not found
public bool FindFirstIWAD(out DataLocation result)
{
// Go for all data containers
foreach(DataReader dr in containers)
{
// Container is a WAD file?
if(dr is WADReader)
{
// Check if it is an IWAD
WADReader wr = dr as WADReader;
if(wr.IsIWAD)
{
// Return location!
result = wr.Location;
return true;
}
}
}
// No IWAD found
result = new DataLocation();
return false;
}
// This signals the background thread to update the
// used-in-map status on all textures and flats
public void UpdateUsedTextures()
{
if(General.Map.Config.MixTexturesFlats)
{
lock(usedtextures)
{
usedtextures.Clear();
// Go through the map to find the used textures
foreach(Sidedef sd in General.Map.Map.Sidedefs)
{
// Add used textures to dictionary
if(sd.LongHighTexture != MapSet.EmptyLongName) usedtextures[sd.LongHighTexture] = 0;
if(sd.LongMiddleTexture != MapSet.EmptyLongName) usedtextures[sd.LongMiddleTexture] = 0;
if(sd.LongLowTexture != MapSet.EmptyLongName) usedtextures[sd.LongLowTexture] = 0;
}
// Go through the map to find the used flats
foreach(Sector s in General.Map.Map.Sectors)
{
// Add used flats to dictionary
usedtextures[s.LongFloorTexture] = 0;
usedtextures[s.LongCeilTexture] = 0;
}
// Notify the background thread that it needs to update the images
updatedusedtextures = true;
}
}
//mxd. Use separate collections
else
{
lock(usedtextures)
{
usedtextures.Clear();
// Go through the map to find the used textures
foreach(Sidedef sd in General.Map.Map.Sidedefs)
{
// Add used textures to dictionary
if(sd.LongHighTexture != MapSet.EmptyLongName) usedtextures[sd.LongHighTexture] = 0;
if(sd.LongMiddleTexture != MapSet.EmptyLongName) usedtextures[sd.LongMiddleTexture] = 0;
if(sd.LongLowTexture != MapSet.EmptyLongName) usedtextures[sd.LongLowTexture] = 0;
}
}
lock(usedflats)
{
usedflats.Clear();
// Go through the map to find the used flats
foreach(Sector s in General.Map.Map.Sectors)
{
// Add used flats to dictionary
usedflats[s.LongFloorTexture] = 0;
usedflats[s.LongCeilTexture] = 0;
}
}
// Notify the background thread that it needs to update the images
updatedusedtextures = true;
}
}
#endregion
#region ================== mxd. Skybox Making
internal void SetupSkybox()
{
// Get rid of old texture
if(skybox != null) skybox.Dispose(); skybox = null;
// Determine which texture name to use
string skytex = string.Empty;
if(!string.IsNullOrEmpty(mapinfo.Sky1))
{
skytex = mapinfo.Sky1;
}
// Use vanilla sky only when current map doesn't have a MAPINFO entry
else if(!mapinfo.IsDefined)
{
if(General.Map.Config.DefaultSkyTextures.ContainsKey(General.Map.Options.CurrentName))
skytex = General.Map.Config.DefaultSkyTextures[General.Map.Options.CurrentName];
else
skytex = General.GetByIndex(General.Map.Config.DefaultSkyTextures, 0).Value;
}
// Create sky texture
if(!string.IsNullOrEmpty(skytex))
{
if(skyboxes.ContainsKey(skytex))
{
// Create cubemap texture
skybox = (skyboxes[skytex].Textures.Count == 6 ? MakeSkyBox6(skyboxes[skytex]) : MakeSkyBox3(skyboxes[skytex]));
}
else
{
// Create classic texture
Bitmap img = GetTextureBitmap(skytex);
if(img != null)
{
skybox = MakeClassicSkyBox(img);
}
}
}
// Sky texture will be missing in ZDoom. Use internal texture
if(skybox == null)
{
// Whine and moan
if(string.IsNullOrEmpty(skytex))
General.ErrorLogger.Add(ErrorType.Warning, "Skybox creation failed: Sky1 property is missing from the MAPINFO map definition");
else
General.ErrorLogger.Add(ErrorType.Warning, "Skybox creation failed: unable to load \"" + skytex + "\" texture");
// Use the built-in texture
ImageData tex = LoadInternalTexture("MissingSky3D.png");
tex.CreateTexture();
Bitmap sky = new Bitmap(tex.GetBitmap());
sky.RotateFlip(RotateFlipType.RotateNoneFlipX); // We don't want our built-in image mirrored...
skybox = MakeClassicSkyBox(sky);
tex.Dispose();
}
}
//INFO: 1. Looks like GZDoom tries to tile a sky texture into a 1024 pixel width texture.
//INFO: 2. If sky texture width <= height, it will be tiled to fit into 512 pixel height texture vertically.
private static CubeTexture MakeClassicSkyBox(Bitmap img)
{
// Get averaged top and bottom colors from the original image
int tr = 0, tg = 0, tb = 0, br = 0, bg = 0, bb = 0;
const int defaultcolorsampleheight = 28;
int colorsampleheight = Math.Max(1, Math.Min(defaultcolorsampleheight, img.Height / 2)); // TODO: is this value calculated from the image's height?
bool dogradients = colorsampleheight < img.Height / 2;
for(int w = 0; w < img.Width; w++)
{
for(int h = 0; h < colorsampleheight; h++)
{
Color c = img.GetPixel(w, h);
tr += c.R;
tg += c.G;
tb += c.B;
c = img.GetPixel(w, img.Height - 1 - h);
br += c.R;
bg += c.G;
bb += c.B;
}
}
int pixelscount = img.Width * colorsampleheight;
Color topcolor = Color.FromArgb(255, tr / pixelscount, tg / pixelscount, tb / pixelscount);
Color bottomcolor = Color.FromArgb(255, br / pixelscount, bg / pixelscount, bb / pixelscount);
// Make tiling image
int horiztiles = (int)Math.Ceiling(1024.0f / img.Width);
int verttiles = img.Height > 256 ? 1 : 2;
Bitmap skyimage = new Bitmap(1024, img.Height * verttiles, img.PixelFormat);
// Draw original image
using(Graphics g = Graphics.FromImage(skyimage))
{
for(int w = 0; w < horiztiles; w++)
{
for(int h = 0; h < verttiles; h++)
{
g.DrawImage(img, img.Width * w, img.Height * h);
}
}
}
// Make top and bottom images
const int capsimgsize = 16;
Bitmap topimg = new Bitmap(capsimgsize, capsimgsize);
using(Graphics g = Graphics.FromImage(topimg))
{
using(SolidBrush b = new SolidBrush(topcolor))
g.FillRectangle(b, 0, 0, capsimgsize, capsimgsize);
}
Bitmap bottomimg = new Bitmap(capsimgsize, capsimgsize);
using(Graphics g = Graphics.FromImage(bottomimg))
{
using(SolidBrush b = new SolidBrush(bottomcolor))
g.FillRectangle(b, 0, 0, capsimgsize, capsimgsize);
}
// Apply top/bottom gradients
if(dogradients)
{
using(Graphics g = Graphics.FromImage(skyimage))
{
Rectangle area = new Rectangle(0, 0, skyimage.Width, colorsampleheight);
using(LinearGradientBrush b = new LinearGradientBrush(area, topcolor, Color.FromArgb(0, topcolor), 90f))
{
g.FillRectangle(b, area);
}
area = new Rectangle(0, skyimage.Height - colorsampleheight, skyimage.Width, colorsampleheight);
using(LinearGradientBrush b = new LinearGradientBrush(area, Color.FromArgb(0, bottomcolor), bottomcolor, 90f))
{
area.Y += 1;
g.FillRectangle(b, area);
}
}
}
// Get Device and shader...
Device device = General.Map.Graphics.Device;
World3DShader effect = General.Map.Graphics.Shaders.World3D;
// Make custom rendertarget
const int cubemaptexsize = 1024;
Surface rendertarget = Surface.CreateRenderTarget(device, cubemaptexsize, cubemaptexsize, Format.A8R8G8B8, MultisampleType.None, 0, false);
Surface depthbuffer = Surface.CreateDepthStencil(device, cubemaptexsize, cubemaptexsize, General.Map.Graphics.DepthBuffer.Description.Format, MultisampleType.None, 0, false);
// Start rendering
if(!General.Map.Graphics.StartRendering(true, new Color4(), rendertarget, depthbuffer))
{
General.ErrorLogger.Add(ErrorType.Error, "Skybox creation failed: unable to start rendering...");
// Get rid of unmanaged stuff...
rendertarget.Dispose();
depthbuffer.Dispose();
// No dice...
return null;
}
// Load the skysphere model...
BoundingBoxSizes bbs = new BoundingBoxSizes();
Stream modeldata = General.ThisAssembly.GetManifestResourceStream("CodeImp.DoomBuilder.Resources.SkySphere.md3");
ModelReader.MD3LoadResult meshes = ModelReader.ReadMD3Model(ref bbs, true, modeldata, device, 0);
if(meshes.Meshes.Count != 3) throw new Exception("Skybox creation failed: " + meshes.Errors);
// Make skysphere textures...
Texture texside = TextureFromBitmap(device, skyimage);
Texture textop = TextureFromBitmap(device, topimg);
Texture texbottom = TextureFromBitmap(device, bottomimg);
// Calculate model scaling (gl.skydone.cpp:RenderDome() in GZDoom)
float yscale;
if(img.Height < 128) yscale = 128 / 230.0f;
else if(img.Height < 200) yscale = img.Height / 230.0f;
else if(img.Height < 241) yscale = 1.0f + ((img.Height - 200.0f) / 200.0f) * 1.17f;
else yscale = 1.2f * 1.17f;
// I guess my sky model doesn't exactly match the one GZDoom generates...
yscale *= 1.65f;
// Make cubemap texture
CubeTexture cubemap = new CubeTexture(device, cubemaptexsize, 1, Usage.None, Format.A8R8G8B8, Pool.Managed);
Surface sysmemsurf = Surface.CreateOffscreenPlain(device, cubemaptexsize, cubemaptexsize, Format.A8R8G8B8, Pool.SystemMemory);
// Set render settings...
device.SetRenderState(RenderState.ZEnable, false);
device.SetRenderState(RenderState.CullMode, Cull.None);
device.SetSamplerState(0, SamplerState.AddressU, TextureAddress.Clamp);
device.SetSamplerState(0, SamplerState.AddressV, TextureAddress.Clamp);
// Setup matrices
Vector3 offset = new Vector3(0f, 0f, -1.8f); // Sphere size is 10 mu
Matrix mworld = Matrix.Multiply(Matrix.Identity, Matrix.Translation(offset) * Matrix.Scaling(1.0f, 1.0f, yscale));
Matrix mprojection = Matrix.PerspectiveFovLH(Angle2D.PIHALF, 1.0f, 0.5f, 100.0f);
// Place camera at origin
effect.CameraPosition = new Vector4();
// Begin fullbright shaderpass
effect.Begin();
effect.BeginPass(1);
// Render to the six faces of the cube map
for(int i = 0; i < 6; i++)
{
Matrix faceview = GetCubeMapViewMatrix((CubeMapFace)i);
effect.WorldViewProj = mworld * faceview * mprojection;
// Render the skysphere meshes
for(int j = 0; j < meshes.Meshes.Count; j++)
{
// Set appropriate texture
switch(meshes.Skins[j])
{
case "top.png": effect.Texture1 = textop; break;
case "bottom.png": effect.Texture1 = texbottom; break;
case "side.png": effect.Texture1 = texside; break;
default: throw new Exception("Unexpected skin!");
}
// Commit changes
effect.ApplySettings();
// Render mesh
meshes.Meshes[j].DrawSubset(0);
}
// Get rendered data from video memory...
device.GetRenderTargetData(rendertarget, sysmemsurf);
// ...Then copy it to destination texture
Surface targetsurf = cubemap.GetCubeMapSurface((CubeMapFace)i, 0);
DataRectangle sourcerect = sysmemsurf.LockRectangle(LockFlags.NoSystemLock);
DataRectangle targetrect = targetsurf.LockRectangle(LockFlags.NoSystemLock);
if(sourcerect.Data.CanRead && targetrect.Data.CanWrite)
{
byte[] data = new byte[sourcerect.Data.Length];
sourcerect.Data.ReadRange(data, 0, (int)sourcerect.Data.Length);
targetrect.Data.Write(data, 0, data.Length);
}
else
{
General.ErrorLogger.Add(ErrorType.Error, "Skybox creation failed: unable to copy to CubeTexture surface...");
}
// Unlock and dispose
sysmemsurf.UnlockRectangle();
targetsurf.UnlockRectangle();
targetsurf.Dispose();
}
// End rendering
effect.EndPass();
effect.End();
General.Map.Graphics.FinishRendering();
// Dispose unneeded stuff
rendertarget.Dispose();
depthbuffer.Dispose();
sysmemsurf.Dispose();
textop.Dispose();
texside.Dispose();
texbottom.Dispose();
// Dispose skybox meshes
foreach(Mesh m in meshes.Meshes) m.Dispose();
// All done...
return cubemap;
}
// Makes CubeTexture from 6 images
private CubeTexture MakeSkyBox6(SkyboxInfo info)
{
// Gather images. They should be defined in this order: North, East, South, West, Top, Bottom
Bitmap[] sides = new Bitmap[6];
int targetsize = 0;
for(int i = 0; i < info.Textures.Count; i++)
{
sides[i] = GetTextureBitmap(info.Textures[i]);
if(sides[i] != null)
{
targetsize = Math.Max(targetsize, Math.Max(sides[i].Width, sides[i].Height));
}
else
{
General.ErrorLogger.Add(ErrorType.Error, "Unable to create \"" + info.Name + "\" skybox: unable to find \"" + info.Textures[i] + "\" texture");
return null;
}
}
// All images must be square and have the same size
if(targetsize == 0)
{
General.ErrorLogger.Add(ErrorType.Error, "Unable to create \"" + info.Name + "\" skybox: invalid texture size");
return null;
}
// Make it Po2
targetsize = General.NextPowerOf2(targetsize);
for(int i = 0; i < sides.Length; i++)
{
if(sides[i].Width != targetsize || sides[i].Height != targetsize)
sides[i] = ResizeImage(sides[i], targetsize, targetsize);
}
// Return cubemap texture
return MakeSkyBox(sides, targetsize, info.FlipTop);
}
// Makes CubeTexture from 3 images
private CubeTexture MakeSkyBox3(SkyboxInfo info)
{
// Gather images. They should be defined in this order: Sides, Top, Bottom
Bitmap[] sides = new Bitmap[6];
int targetsize = 0;
// Create NWSE images from the side texture
Bitmap sideimg = GetTextureBitmap(info.Textures[0]);
if(sideimg != null)
{
// This should be 4x1 format image. If it's not, we'll need to resize it
targetsize = Math.Max(sideimg.Width / 4, sideimg.Height);
if(targetsize == 0)
{
General.ErrorLogger.Add(ErrorType.Error, "Unable to create \"" + info.Name + "\" skybox: invalid texture size");
return null;
}
// Make it Po2
targetsize = General.NextPowerOf2(targetsize);
// Resize if needed
if(sideimg.Width != targetsize * 4 || sideimg.Height != targetsize)
{
sideimg = ResizeImage(sideimg, targetsize * 4, targetsize);
}
// Chop into tiny pieces
for(int i = 0; i < 4; i++)
{
// Create square image
Bitmap img = new Bitmap(targetsize, targetsize);
using(Graphics g = Graphics.FromImage(img))
{
// Copy area from the side image
g.DrawImage(sideimg, 0, 0, new Rectangle(targetsize * i, 0, targetsize, targetsize), GraphicsUnit.Pixel);
}
// Add to collection
sides[i] = img;
}
}
// Sanity check...
if(sides[0] == null || sides[1] == null || sides[2] == null || sides[3] == null)
{
General.ErrorLogger.Add(ErrorType.Error, "Unable to create \"" + info.Name + "\" skybox: unable to find \"" + info.Textures[0] + "\" texture");
return null;
}
// Create top
Bitmap topimg = GetTextureBitmap(info.Textures[1]);
if(topimg != null)
{
// Resize if needed
if(topimg.Width != targetsize || topimg.Height != targetsize)
topimg = ResizeImage(topimg, targetsize, targetsize);
// Add to collection
sides[4] = topimg;
}
else
{
General.ErrorLogger.Add(ErrorType.Error, "Unable to create \"" + info.Name + "\" skybox: unable to find \"" + info.Textures[1] + "\" texture");
return null;
}
// Create bottom
Bitmap bottomimg = GetTextureBitmap(info.Textures[2]);
if(bottomimg != null)
{
// Resize if needed
if(bottomimg.Width != targetsize || bottomimg.Height != targetsize)
bottomimg = ResizeImage(bottomimg, targetsize, targetsize);
// Add to collection
sides[5] = bottomimg;
}
else
{
General.ErrorLogger.Add(ErrorType.Error, "Unable to create \"" + info.Name + "\" skybox: unable to find \"" + info.Textures[2] + "\" texture");
return null;
}
// Return cubemap texture
return MakeSkyBox(sides, targetsize, info.FlipTop);
}
// Makes CubeTexture from 6 images.
// sides[] must contain 6 square Po2 images in this order: North, East, South, West, Top, Bottom
private static CubeTexture MakeSkyBox(Bitmap[] sides, int targetsize, bool fliptop)
{
CubeTexture cubemap = new CubeTexture(General.Map.Graphics.Device, targetsize, 1, Usage.None, Format.A8R8G8B8, Pool.Managed);
// Draw faces
sides[3].RotateFlip(RotateFlipType.Rotate180FlipX);
DrawCubemapFace(cubemap, CubeMapFace.NegativeX, sides[3]); // West
sides[0].RotateFlip(RotateFlipType.Rotate90FlipX);
DrawCubemapFace(cubemap, CubeMapFace.NegativeY, sides[0]); // North
sides[1].RotateFlip(RotateFlipType.RotateNoneFlipX);
DrawCubemapFace(cubemap, CubeMapFace.PositiveX, sides[1]); // East
sides[2].RotateFlip(RotateFlipType.Rotate270FlipX);
DrawCubemapFace(cubemap, CubeMapFace.PositiveY, sides[2]); // South
sides[4].RotateFlip(fliptop ? RotateFlipType.Rotate90FlipX : RotateFlipType.Rotate90FlipNone);
DrawCubemapFace(cubemap, CubeMapFace.PositiveZ, sides[4]); // Top
sides[5].RotateFlip(RotateFlipType.Rotate270FlipX);
DrawCubemapFace(cubemap, CubeMapFace.NegativeZ, sides[5]); // Bottom
// All done...
return cubemap;
}
private static void DrawCubemapFace(CubeTexture texture, CubeMapFace face, Bitmap image)
{
DataRectangle rect = texture.LockRectangle(face, 0, LockFlags.NoSystemLock);
SurfaceDescription desc = texture.GetLevelDescription(0);
if(rect.Data.CanWrite)
{
for(int row = 0; row < desc.Height; row++)
{
int rowstart = row * rect.Pitch;
rect.Data.Seek(rowstart, SeekOrigin.Begin);
for(int col = 0; col < desc.Width; col++)
{
Color color = image.GetPixel(row, col);
rect.Data.WriteByte(color.B);
rect.Data.WriteByte(color.G);
rect.Data.WriteByte(color.R);
rect.Data.WriteByte(color.A);
}
}
}
else
{
General.ErrorLogger.Add(ErrorType.Error, "Skybox creation failed: CubeTexture is unwritable...");
}
texture.UnlockRectangle(face, 0);
}
private static Bitmap ResizeImage(Image image, int width, int height)
{
var destrect = new Rectangle(0, 0, width, height);
var destimage = new Bitmap(width, height);
destimage.SetResolution(image.HorizontalResolution, image.VerticalResolution);
using(var graphics = Graphics.FromImage(destimage))
{
graphics.CompositingMode = CompositingMode.SourceCopy;
graphics.CompositingQuality = CompositingQuality.HighQuality;
graphics.InterpolationMode = InterpolationMode.HighQualityBicubic;
graphics.SmoothingMode = SmoothingMode.HighQuality;
graphics.PixelOffsetMode = PixelOffsetMode.HighQuality;
using(var wrapmode = new ImageAttributes())
{
wrapmode.SetWrapMode(WrapMode.TileFlipXY);
graphics.DrawImage(image, destrect, 0, 0, image.Width, image.Height, GraphicsUnit.Pixel, wrapmode);
}
}
return destimage;
}
private static Matrix GetCubeMapViewMatrix(CubeMapFace face)
{
Vector3 lookdir, updir;
switch(face)
{
case CubeMapFace.PositiveX:
lookdir = new Vector3(1.0f, 0.0f, 0.0f);
updir = new Vector3(0.0f, 1.0f, 0.0f);
break;
case CubeMapFace.NegativeX:
lookdir = new Vector3(-1.0f, 0.0f, 0.0f);
updir = new Vector3(0.0f, 1.0f, 0.0f);
break;
case CubeMapFace.PositiveY:
lookdir = new Vector3(0.0f, 1.0f, 0.0f);
updir = new Vector3(0.0f, 0.0f, -1.0f);
break;
case CubeMapFace.NegativeY:
lookdir = new Vector3(0.0f, -1.0f, 0.0f);
updir = new Vector3(0.0f, 0.0f, 1.0f);
break;
case CubeMapFace.PositiveZ:
lookdir = new Vector3(0.0f, 0.0f, 1.0f);
updir = new Vector3(0.0f, 1.0f, 0.0f);
break;
case CubeMapFace.NegativeZ:
lookdir = new Vector3(0.0f, 0.0f, -1.0f);
updir = new Vector3(0.0f, 1.0f, 0.0f);
break;
default:
throw new Exception("Unknown CubeMapFace!");
}
Vector3 eye = new Vector3();
return Matrix.LookAtLH(eye, lookdir, updir);
}
private static Texture TextureFromBitmap(Device device, Image image)
{
using(MemoryStream ms = new MemoryStream())
{
image.Save(ms, ImageFormat.Png);
ms.Seek(0, SeekOrigin.Begin);
// Classic skies textures can be NPo2 (and D3D Texture is resized to Po2 by default),
// so we need to explicitly specify the size
return Texture.FromStream(device, ms, (int) ms.Length,
image.Size.Width, image.Size.Height, 0, Usage.None, Format.Unknown,
Pool.Managed, Filter.None, Filter.None, 0);
}
}
#endregion
}
}