CodeWalker/CodeWalker.Core/GameFiles/GameFileCache.cs
2021-06-12 01:23:15 +03:00

4945 lines
192 KiB
C#

using SharpDX;
using System;
using System.Collections.Concurrent;
using System.Collections.Generic;
using System.IO;
using System.Linq;
using System.Text;
using System.Threading;
using System.Threading.Tasks;
using System.Xml;
namespace CodeWalker.GameFiles
{
public class GameFileCache
{
public RpfManager RpfMan;
private Action<string> UpdateStatus;
private Action<string> ErrorLog;
public int MaxItemsPerLoop = 1; //to keep things flowing...
private ConcurrentQueue<GameFile> requestQueue = new ConcurrentQueue<GameFile>();
////dynamic cache
private Cache<GameFileCacheKey, GameFile> mainCache;
public volatile bool IsInited = false;
private volatile bool archetypesLoaded = false;
private Dictionary<uint, Archetype> archetypeDict = new Dictionary<uint, Archetype>();
private Dictionary<uint, RpfFileEntry> textureLookup = new Dictionary<uint, RpfFileEntry>();
private Dictionary<MetaHash, MetaHash> textureParents;
private Dictionary<MetaHash, MetaHash> hdtexturelookup;
private object updateSyncRoot = new object();
private object requestSyncRoot = new object();
private object textureSyncRoot = new object(); //for the texture lookup.
//static indexes
public Dictionary<uint, RpfFileEntry> YdrDict { get; private set; }
public Dictionary<uint, RpfFileEntry> YddDict { get; private set; }
public Dictionary<uint, RpfFileEntry> YtdDict { get; private set; }
public Dictionary<uint, RpfFileEntry> YmapDict { get; private set; }
public Dictionary<uint, RpfFileEntry> YftDict { get; private set; }
public Dictionary<uint, RpfFileEntry> YbnDict { get; private set; }
public Dictionary<uint, RpfFileEntry> YcdDict { get; private set; }
public Dictionary<uint, RpfFileEntry> YedDict { get; private set; }
public Dictionary<uint, RpfFileEntry> YnvDict { get; private set; }
public Dictionary<uint, RpfFileEntry> Gxt2Dict { get; private set; }
public Dictionary<uint, RpfFileEntry> AllYmapsDict { get; private set; }
//static cached data loaded at init
public Dictionary<uint, YtypFile> YtypDict { get; set; }
public List<CacheDatFile> AllCacheFiles { get; set; }
public Dictionary<uint, MapDataStoreNode> YmapHierarchyDict { get; set; }
public List<YmfFile> AllManifests { get; set; }
public bool EnableDlc { get; set; } = false;//true;//
public bool EnableMods { get; set; } = false;
public List<string> DlcPaths { get; set; } = new List<string>();
public List<RpfFile> DlcActiveRpfs { get; set; } = new List<RpfFile>();
public List<DlcSetupFile> DlcSetupFiles { get; set; } = new List<DlcSetupFile>();
public List<DlcExtraFolderMountFile> DlcExtraFolderMounts { get; set; } = new List<DlcExtraFolderMountFile>();
public Dictionary<string, string> DlcPatchedPaths { get; set; } = new Dictionary<string, string>();
public List<string> DlcCacheFileList { get; set; } = new List<string>();
public List<string> DlcNameList { get; set; } = new List<string>();
public string SelectedDlc { get; set; } = string.Empty;
public Dictionary<string, RpfFile> ActiveMapRpfFiles { get; set; } = new Dictionary<string, RpfFile>();
public Dictionary<uint, World.TimecycleMod> TimeCycleModsDict = new Dictionary<uint, World.TimecycleMod>();
public Dictionary<MetaHash, VehicleInitData> VehiclesInitDict { get; set; }
public Dictionary<MetaHash, CPedModelInfo__InitData> PedsInitDict { get; set; }
public Dictionary<MetaHash, PedFile> PedVariationsDict { get; set; }
public Dictionary<MetaHash, Dictionary<MetaHash, RpfFileEntry>> PedDrawableDicts { get; set; }
public Dictionary<MetaHash, Dictionary<MetaHash, RpfFileEntry>> PedTextureDicts { get; set; }
public Dictionary<MetaHash, Dictionary<MetaHash, RpfFileEntry>> PedClothDicts { get; set; }
public List<RpfFile> BaseRpfs { get; private set; }
public List<RpfFile> AllRpfs { get; private set; }
public List<RpfFile> DlcRpfs { get; private set; }
public bool DoFullStringIndex = false;
public bool BuildExtendedJenkIndex = true;
public bool LoadArchetypes = true;
public bool LoadVehicles = true;
public bool LoadPeds = true;
private bool PreloadedMode = false;
private string GTAFolder;
private string ExcludeFolders;
public int QueueLength
{
get
{
return requestQueue.Count;
}
}
public int ItemCount
{
get
{
return mainCache.Count;
}
}
public long MemoryUsage
{
get
{
return mainCache.CurrentMemoryUsage;
}
}
public GameFileCache(long size, double cacheTime, string folder, string dlc, bool mods, string excludeFolders)
{
mainCache = new Cache<GameFileCacheKey, GameFile>(size, cacheTime);//2GB is good as default
SelectedDlc = dlc;
EnableDlc = !string.IsNullOrEmpty(SelectedDlc);
EnableMods = mods;
GTAFolder = folder;
ExcludeFolders = excludeFolders;
}
public void Clear()
{
IsInited = false;
mainCache.Clear();
textureLookup.Clear();
GameFile queueclear;
while (requestQueue.TryDequeue(out queueclear))
{ } //empty the old queue out...
}
public void Init(Action<string> updateStatus, Action<string> errorLog)
{
UpdateStatus = updateStatus;
ErrorLog = errorLog;
Clear();
if (RpfMan == null)
{
//EnableDlc = !string.IsNullOrEmpty(SelectedDlc);
RpfMan = new RpfManager();
RpfMan.ExcludePaths = GetExcludePaths();
RpfMan.EnableMods = EnableMods;
RpfMan.BuildExtendedJenkIndex = BuildExtendedJenkIndex;
RpfMan.Init(GTAFolder, UpdateStatus, ErrorLog);//, true);
InitGlobal();
InitDlc();
//RE test area!
//TestAudioRels();
//TestAudioYmts();
//TestAudioAwcs();
//TestMetas();
//TestPsos();
//TestRbfs();
//TestCuts();
//TestYlds();
//TestYeds();
//TestYcds();
//TestYtds();
//TestYbns();
//TestYdrs();
//TestYdds();
//TestYfts();
//TestYpts();
//TestYnvs();
//TestYmaps();
//TestMrfs();
//TestPlacements();
//TestDrawables();
//TestHeightmaps();
//TestWatermaps();
//GetShadersXml();
//GetArchetypeTimesList();
//string typestr = PsoTypes.GetTypesString();
}
else
{
GC.Collect(); //try free up some of the previously used memory..
}
UpdateStatus("Scan complete");
IsInited = true;
}
public void Init(Action<string> updateStatus, Action<string> errorLog, List<RpfFile> allRpfs)
{
UpdateStatus = updateStatus;
ErrorLog = errorLog;
Clear();
PreloadedMode = true;
EnableDlc = true;//just so everything (mainly archetypes) will load..
EnableMods = false;
RpfMan = new RpfManager(); //try not to use this in this mode...
RpfMan.Init(allRpfs);
AllRpfs = allRpfs;
BaseRpfs = allRpfs;
DlcRpfs = new List<RpfFile>();
UpdateStatus("Building global dictionaries...");
InitGlobalDicts();
UpdateStatus("Loading manifests...");
InitManifestDicts();
UpdateStatus("Loading global texture list...");
InitGtxds();
UpdateStatus("Loading archetypes...");
InitArchetypeDicts();
UpdateStatus("Loading strings...");
InitStringDicts();
IsInited = true;
}
private void InitGlobal()
{
BaseRpfs = GetModdedRpfList(RpfMan.BaseRpfs);
AllRpfs = GetModdedRpfList(RpfMan.AllRpfs);
DlcRpfs = GetModdedRpfList(RpfMan.DlcRpfs);
UpdateStatus("Building global dictionaries...");
InitGlobalDicts();
}
private void InitDlc()
{
UpdateStatus("Building DLC List...");
InitDlcList();
UpdateStatus("Building active RPF dictionary...");
InitActiveMapRpfFiles();
UpdateStatus("Building map dictionaries...");
InitMapDicts();
UpdateStatus("Loading manifests...");
InitManifestDicts();
UpdateStatus("Loading global texture list...");
InitGtxds();
UpdateStatus("Loading cache...");
InitMapCaches();
UpdateStatus("Loading archetypes...");
InitArchetypeDicts();
UpdateStatus("Loading strings...");
InitStringDicts();
UpdateStatus("Loading vehicles...");
InitVehicles();
UpdateStatus("Loading peds...");
InitPeds();
}
private void InitDlcList()
{
//if (!EnableDlc) return;
string dlclistpath = "update\\update.rpf\\common\\data\\dlclist.xml";
//if (!EnableDlc)
//{
// dlclistpath = "common.rpf\\data\\dlclist.xml";
//}
var dlclistxml = RpfMan.GetFileXml(dlclistpath);
DlcPaths.Clear();
if ((dlclistxml == null) || (dlclistxml.DocumentElement == null))
{
ErrorLog("InitDlcList: Couldn't load " + dlclistpath + ".");
}
else
{
foreach (XmlNode pathsnode in dlclistxml.DocumentElement)
{
foreach (XmlNode itemnode in pathsnode.ChildNodes)
{
DlcPaths.Add(itemnode.InnerText.ToLowerInvariant().Replace('\\', '/').Replace("platform:", "x64"));
}
}
}
//get dlc path names in the appropriate format for reference by the dlclist paths
Dictionary<string, RpfFile> dlcDict = new Dictionary<string, RpfFile>();
Dictionary<string, RpfFile> dlcDict2 = new Dictionary<string, RpfFile>();
foreach (RpfFile dlcrpf in DlcRpfs)
{
if (dlcrpf == null) continue;
if (dlcrpf.NameLower == "dlc.rpf")
{
string path = GetDlcRpfVirtualPath(dlcrpf.Path);
string name = GetDlcNameFromPath(dlcrpf.Path);
dlcDict[path] = dlcrpf;
dlcDict2[name] = dlcrpf;
}
}
//find all the paths for patched files in update.rpf and build the dict
DlcPatchedPaths.Clear();
string updrpfpath = "update\\update.rpf";
var updrpffile = RpfMan.FindRpfFile(updrpfpath);
if (updrpffile != null)
{
XmlDocument updsetupdoc = RpfMan.GetFileXml(updrpfpath + "\\setup2.xml");
DlcSetupFile updsetupfile = new DlcSetupFile();
updsetupfile.Load(updsetupdoc);
XmlDocument updcontentdoc = RpfMan.GetFileXml(updrpfpath + "\\" + updsetupfile.datFile);
DlcContentFile updcontentfile = new DlcContentFile();
updcontentfile.Load(updcontentdoc);
updsetupfile.DlcFile = updrpffile;
updsetupfile.ContentFile = updcontentfile;
updcontentfile.DlcFile = updrpffile;
updsetupfile.deviceName = "update";
updcontentfile.LoadDicts(updsetupfile, RpfMan, this);
if (updcontentfile.ExtraTitleUpdates != null)
{
foreach (var tumount in updcontentfile.ExtraTitleUpdates.Mounts)
{
var lpath = tumount.path.ToLowerInvariant();
var relpath = lpath.Replace('/', '\\').Replace("update:\\", "");
var dlcname = GetDlcNameFromPath(relpath);
RpfFile dlcfile;
dlcDict2.TryGetValue(dlcname, out dlcfile);
if (dlcfile == null)
{ continue; }
var dlcpath = dlcfile.Path + "\\";
var files = updrpffile.GetFiles(relpath, true);
foreach (var file in files)
{
if (file == null) continue;
var fpath = file.Path;
var frelpath = fpath.Replace(updrpfpath, "update:").Replace('\\', '/').Replace(lpath, dlcpath).Replace('/', '\\');
if (frelpath.StartsWith("mods\\"))
{
frelpath = frelpath.Substring(5);
}
DlcPatchedPaths[frelpath] = fpath;
}
}
}
}
else
{
ErrorLog("InitDlcList: update.rpf not found!");
}
DlcSetupFiles.Clear();
DlcExtraFolderMounts.Clear();
foreach (string path in DlcPaths)
{
RpfFile dlcfile;
if (dlcDict.TryGetValue(path, out dlcfile))
{
try
{
string setuppath = GetDlcPatchedPath(dlcfile.Path + "\\setup2.xml");
XmlDocument setupdoc = RpfMan.GetFileXml(setuppath);
DlcSetupFile setupfile = new DlcSetupFile();
setupfile.Load(setupdoc);
string contentpath = GetDlcPatchedPath(dlcfile.Path + "\\" + setupfile.datFile);
XmlDocument contentdoc = RpfMan.GetFileXml(contentpath);
DlcContentFile contentfile = new DlcContentFile();
contentfile.Load(contentdoc);
setupfile.DlcFile = dlcfile;
setupfile.ContentFile = contentfile;
contentfile.DlcFile = dlcfile;
contentfile.LoadDicts(setupfile, RpfMan, this);
foreach (var extramount in contentfile.ExtraMounts.Values)
{
DlcExtraFolderMounts.Add(extramount);
}
DlcSetupFiles.Add(setupfile);
}
catch (Exception ex)
{
ErrorLog("InitDlcList: Error processing DLC " + path + "\n" + ex.ToString());
}
}
}
//load the DLC in the correct order....
DlcSetupFiles = DlcSetupFiles.OrderBy(o => o.order).ToList();
DlcNameList.Clear();
foreach (var sfile in DlcSetupFiles)
{
if ((sfile == null) || (sfile.DlcFile == null)) continue;
DlcNameList.Add(GetDlcNameFromPath(sfile.DlcFile.Path));
}
if (DlcNameList.Count > 0)
{
if (string.IsNullOrEmpty(SelectedDlc))
{
SelectedDlc = DlcNameList[DlcNameList.Count - 1];
}
}
}
private void InitImagesMetas()
{
//currently not used..
////parse images.meta
//string imagesmetapath = "common.rpf\\data\\levels\\gta5\\images.meta";
//if (EnableDlc)
//{
// imagesmetapath = "update\\update.rpf\\common\\data\\levels\\gta5\\images.meta";
//}
//var imagesmetaxml = RpfMan.GetFileXml(imagesmetapath);
//var imagesnodes = imagesmetaxml.DocumentElement.ChildNodes;
//List<DlcContentDataFile> imagedatafilelist = new List<DlcContentDataFile>();
//Dictionary<string, DlcContentDataFile> imagedatafiles = new Dictionary<string, DlcContentDataFile>();
//foreach (XmlNode node in imagesnodes)
//{
// DlcContentDataFile datafile = new DlcContentDataFile(node);
// string fname = datafile.filename.ToLower();
// fname = fname.Replace('\\', '/');
// imagedatafiles[fname] = datafile;
// imagedatafilelist.Add(datafile);
//}
//filter ActiveMapFiles based on images.meta?
//DlcContentDataFile imagesdata;
//if (imagedatafiles.TryGetValue(path, out imagesdata))
//{
// ActiveMapRpfFiles[path] = baserpf;
//}
}
private void InitActiveMapRpfFiles()
{
ActiveMapRpfFiles.Clear();
foreach (RpfFile baserpf in BaseRpfs) //start with all the base rpf's (eg x64a.rpf)
{
string path = baserpf.Path.Replace('\\', '/');
if (path == "common.rpf")
{
ActiveMapRpfFiles["common"] = baserpf;
}
else
{
int bsind = path.IndexOf('/');
if ((bsind > 0) && (bsind < path.Length))
{
path = "x64" + path.Substring(bsind);
//if (ActiveMapRpfFiles.ContainsKey(path))
//{ } //x64d.rpf\levels\gta5\generic\cutsobjects.rpf // x64g.rpf\levels\gta5\generic\cutsobjects.rpf - identical?
ActiveMapRpfFiles[path] = baserpf;
}
else
{
//do we need to include root rpf files? generally don't seem to contain map data?
ActiveMapRpfFiles[path] = baserpf;
}
}
}
if (!EnableDlc) return; //don't continue for base title only
foreach (var rpf in DlcRpfs)
{
if (rpf.NameLower == "update.rpf")//include this so that files not in child rpf's can be used..
{
string path = rpf.Path.Replace('\\', '/');
ActiveMapRpfFiles[path] = rpf;
break;
}
}
DlcActiveRpfs.Clear();
DlcCacheFileList.Clear();
//int maxdlcorder = 10000000;
Dictionary<string, List<string>> overlays = new Dictionary<string, List<string>>();
foreach (var setupfile in DlcSetupFiles)
{
if (setupfile.DlcFile != null)
{
//if (setupfile.order > maxdlcorder)
// break;
var contentfile = setupfile.ContentFile;
var dlcfile = setupfile.DlcFile;
DlcActiveRpfs.Add(dlcfile);
for (int i = 1; i <= setupfile.subPackCount; i++)
{
var subpackPath = dlcfile.Path.Replace("\\dlc.rpf", "\\dlc" + i.ToString() + ".rpf");
var subpack = RpfMan.FindRpfFile(subpackPath);
if (subpack != null)
{
DlcActiveRpfs.Add(subpack);
if (setupfile.DlcSubpacks == null) setupfile.DlcSubpacks = new List<RpfFile>();
setupfile.DlcSubpacks.Add(subpack);
}
}
string dlcname = GetDlcNameFromPath(dlcfile.Path);
foreach (var rpfkvp in contentfile.RpfDataFiles)
{
string umpath = GetDlcUnmountedPath(rpfkvp.Value.filename);
string phpath = GetDlcRpfPhysicalPath(umpath, setupfile);
//if (rpfkvp.Value.overlay)
AddDlcOverlayRpf(rpfkvp.Key, umpath, setupfile, overlays);
AddDlcActiveMapRpfFile(rpfkvp.Key, phpath, setupfile);
}
DlcExtraFolderMountFile extramount;
DlcContentDataFile rpfdatafile;
foreach (var changeset in contentfile.contentChangeSets)
{
if (changeset.useCacheLoader)
{
uint cachehash = JenkHash.GenHash(changeset.changeSetName.ToLowerInvariant());
string cachefilename = dlcname + "_" + cachehash.ToString() + "_cache_y.dat";
string cachefilepath = dlcfile.Path + "\\x64\\data\\cacheloaderdata_dlc\\" + cachefilename;
string cachefilepathpatched = GetDlcPatchedPath(cachefilepath);
DlcCacheFileList.Add(cachefilepathpatched);
//if ((changeset.mapChangeSetData != null) && (changeset.mapChangeSetData.Count > 0))
//{ }
//else
//{ }
}
else
{
//if ((changeset.mapChangeSetData != null) && (changeset.mapChangeSetData.Count > 0))
//{ }
//if (changeset.executionConditions != null)
//{ }
}
//if (changeset.filesToInvalidate != null)
//{ }//not used
//if (changeset.filesToDisable != null)
//{ }//not used
if (changeset.filesToEnable != null)
{
foreach (string file in changeset.filesToEnable)
{
string dfn = GetDlcPlatformPath(file).ToLowerInvariant();
if (contentfile.ExtraMounts.TryGetValue(dfn, out extramount))
{
//foreach (var rpfkvp in contentfile.RpfDataFiles)
//{
// string umpath = GetDlcUnmountedPath(rpfkvp.Value.filename);
// string phpath = GetDlcRpfPhysicalPath(umpath, setupfile);
// //if (rpfkvp.Value.overlay)
// AddDlcOverlayRpf(rpfkvp.Key, umpath, setupfile, overlays);
// AddDlcActiveMapRpfFile(rpfkvp.Key, phpath);
//}
}
else if (contentfile.RpfDataFiles.TryGetValue(dfn, out rpfdatafile))
{
string phpath = GetDlcRpfPhysicalPath(rpfdatafile.filename, setupfile);
//if (rpfdatafile.overlay)
AddDlcOverlayRpf(dfn, rpfdatafile.filename, setupfile, overlays);
AddDlcActiveMapRpfFile(dfn, phpath, setupfile);
}
else
{
if (dfn.EndsWith(".rpf"))
{ }
}
}
}
if (changeset.executionConditions != null)
{ }
if (changeset.mapChangeSetData != null)
{
foreach (var mapcs in changeset.mapChangeSetData)
{
//if (mapcs.mapChangeSetData != null)
//{ }//not used
if (mapcs.filesToInvalidate != null)
{
foreach (string file in mapcs.filesToInvalidate)
{
string upath = GetDlcMountedPath(file);
string fpath = GetDlcPlatformPath(upath);
if (fpath.EndsWith(".rpf"))
{
RemoveDlcActiveMapRpfFile(fpath, overlays);
}
else
{ } //how to deal with individual files? milo_.interior
}
}
if (mapcs.filesToDisable != null)
{ }
if (mapcs.filesToEnable != null)
{
foreach (string file in mapcs.filesToEnable)
{
string fpath = GetDlcPlatformPath(file);
string umpath = GetDlcUnmountedPath(fpath);
string phpath = GetDlcRpfPhysicalPath(umpath, setupfile);
if (fpath != umpath)
{ }
AddDlcOverlayRpf(fpath, umpath, setupfile, overlays);
AddDlcActiveMapRpfFile(fpath, phpath, setupfile);
}
}
}
}
}
if (dlcname == SelectedDlc)
{
break; //everything's loaded up to the selected DLC.
}
}
}
}
private void AddDlcActiveMapRpfFile(string vpath, string phpath, DlcSetupFile setupfile)
{
vpath = vpath.ToLowerInvariant();
phpath = phpath.ToLowerInvariant();
if (phpath.EndsWith(".rpf"))
{
RpfFile rpffile = RpfMan.FindRpfFile(phpath);
if (rpffile != null)
{
ActiveMapRpfFiles[vpath] = rpffile;
}
else
{ }
}
else
{ } //how to handle individual files? eg interiorProxies.meta
}
private void AddDlcOverlayRpf(string path, string umpath, DlcSetupFile setupfile, Dictionary<string, List<string>> overlays)
{
string opath = GetDlcOverlayPath(umpath, setupfile);
if (opath == path) return;
List<string> overlayList;
if (!overlays.TryGetValue(opath, out overlayList))
{
overlayList = new List<string>();
overlays[opath] = overlayList;
}
overlayList.Add(path);
}
private void RemoveDlcActiveMapRpfFile(string vpath, Dictionary<string, List<string>> overlays)
{
List<string> overlayList;
if (overlays.TryGetValue(vpath, out overlayList))
{
foreach (string overlayPath in overlayList)
{
if (ActiveMapRpfFiles.ContainsKey(overlayPath))
{
ActiveMapRpfFiles.Remove(overlayPath);
}
else
{ }
}
overlays.Remove(vpath);
}
if (ActiveMapRpfFiles.ContainsKey(vpath))
{
ActiveMapRpfFiles.Remove(vpath);
}
else
{ } //nothing to remove?
}
private string GetDlcRpfPhysicalPath(string path, DlcSetupFile setupfile)
{
string devname = setupfile.deviceName.ToLowerInvariant();
string fpath = GetDlcPlatformPath(path).ToLowerInvariant();
string kpath = fpath;//.Replace(devname + ":\\", "");
string dlcpath = setupfile.DlcFile.Path;
fpath = fpath.Replace(devname + ":", dlcpath);
fpath = fpath.Replace("x64:", dlcpath + "\\x64").Replace('/', '\\');
if (setupfile.DlcSubpacks != null)
{
if (RpfMan.FindRpfFile(fpath) == null)
{
foreach (var subpack in setupfile.DlcSubpacks)
{
dlcpath = subpack.Path;
var tpath = kpath.Replace(devname + ":", dlcpath);
tpath = tpath.Replace("x64:", dlcpath + "\\x64").Replace('/', '\\');
if (RpfMan.FindRpfFile(tpath) != null)
{
return GetDlcPatchedPath(tpath);
}
}
}
}
return GetDlcPatchedPath(fpath);
}
private string GetDlcOverlayPath(string path, DlcSetupFile setupfile)
{
string devname = setupfile.deviceName.ToLowerInvariant();
string fpath = path.Replace("%PLATFORM%", "x64").Replace('\\', '/').ToLowerInvariant();
string opath = fpath.Replace(devname + ":/", "");
return opath;
}
private string GetDlcRpfVirtualPath(string path)
{
path = path.Replace('\\', '/');
if (path.StartsWith("mods/"))
{
path = path.Substring(5);
}
if (path.Length > 7)
{
path = path.Substring(0, path.Length - 7);//trim off "dlc.rpf"
}
if (path.StartsWith("x64"))
{
int bsind = path.IndexOf('/'); //replace x64*.rpf
if ((bsind > 0) && (bsind < path.Length))
{
path = "x64" + path.Substring(bsind);
}
else
{ } //no hits here
}
else if (path.StartsWith("update/x64/dlcpacks"))
{
path = path.Replace("update/x64/dlcpacks", "dlcpacks:");
}
else
{ } //no hits here
return path;
}
private string GetDlcNameFromPath(string path)
{
string[] parts = path.ToLowerInvariant().Split('\\');
if (parts.Length > 1)
{
return parts[parts.Length - 2].ToLowerInvariant();
}
return path;
}
public static string GetDlcPlatformPath(string path)
{
return path.Replace("%PLATFORM%", "x64").Replace('\\', '/').Replace("platform:", "x64").ToLowerInvariant();
}
private string GetDlcMountedPath(string path)
{
foreach (var efm in DlcExtraFolderMounts)
{
foreach (var fm in efm.FolderMounts)
{
if ((fm.platform == null) || (fm.platform == "x64"))
{
if (path.StartsWith(fm.path))
{
path = path.Replace(fm.path, fm.mountAs);
}
}
}
}
return path;
}
private string GetDlcUnmountedPath(string path)
{
foreach (var efm in DlcExtraFolderMounts)
{
foreach (var fm in efm.FolderMounts)
{
if ((fm.platform == null) || (fm.platform == "x64"))
{
if (path.StartsWith(fm.mountAs))
{
path = path.Replace(fm.mountAs, fm.path);
}
}
}
}
return path;
}
public string GetDlcPatchedPath(string path)
{
string p;
if (DlcPatchedPaths.TryGetValue(path, out p))
{
return p;
}
return path;
}
private List<RpfFile> GetModdedRpfList(List<RpfFile> list)
{
//if (!EnableMods) return new List<RpfFile>(list);
List<RpfFile> rlist = new List<RpfFile>();
RpfFile f;
if (!EnableMods)
{
foreach (var file in list)
{
if (!file.Path.StartsWith("mods"))
{
rlist.Add(file);
}
}
}
else
{
foreach (var file in list)
{
if (RpfMan.ModRpfDict.TryGetValue(file.Path, out f))
{
rlist.Add(f);
}
else
{
if (file.Path.StartsWith("mods"))
{
var basepath = file.Path.Substring(5);
if (!RpfMan.RpfDict.ContainsKey(basepath)) //this file isn't overriding anything
{
rlist.Add(file);
}
}
else
{
rlist.Add(file);
}
}
}
}
return rlist;
}
private void InitGlobalDicts()
{
YdrDict = new Dictionary<uint, RpfFileEntry>();
YddDict = new Dictionary<uint, RpfFileEntry>();
YtdDict = new Dictionary<uint, RpfFileEntry>();
YftDict = new Dictionary<uint, RpfFileEntry>();
YcdDict = new Dictionary<uint, RpfFileEntry>();
YedDict = new Dictionary<uint, RpfFileEntry>();
foreach (var rpffile in AllRpfs)
{
if (rpffile.AllEntries == null) continue;
foreach (var entry in rpffile.AllEntries)
{
if (entry is RpfFileEntry)
{
RpfFileEntry fentry = entry as RpfFileEntry;
if (entry.NameLower.EndsWith(".ydr"))
{
YdrDict[entry.NameHash] = fentry; //replaces any existing entries...
YdrDict[entry.ShortNameHash] = fentry;
}
else if (entry.NameLower.EndsWith(".ydd"))
{
YddDict[entry.NameHash] = fentry; //replaces any existing entries...
YddDict[entry.ShortNameHash] = fentry;
}
else if (entry.NameLower.EndsWith(".ytd"))
{
YtdDict[entry.NameHash] = fentry; //replaces any existing entries...
YtdDict[entry.ShortNameHash] = fentry;
}
else if (entry.NameLower.EndsWith(".yft"))
{
YftDict[entry.NameHash] = fentry;
YftDict[entry.ShortNameHash] = fentry;
}
else if (entry.NameLower.EndsWith(".ycd"))
{
YcdDict[entry.NameHash] = fentry;
YcdDict[entry.ShortNameHash] = fentry;
}
else if (entry.NameLower.EndsWith(".yed"))
{
YedDict[entry.NameHash] = fentry;
YedDict[entry.ShortNameHash] = fentry;
}
}
}
}
}
private void InitMapDicts()
{
YmapDict = new Dictionary<uint, RpfFileEntry>();
YbnDict = new Dictionary<uint, RpfFileEntry>();
YnvDict = new Dictionary<uint, RpfFileEntry>();
foreach (var rpffile in ActiveMapRpfFiles.Values) //RpfMan.BaseRpfs)
{
if (rpffile.AllEntries == null) continue;
foreach (var entry in rpffile.AllEntries)
{
if (entry is RpfFileEntry)
{
RpfFileEntry fentry = entry as RpfFileEntry;
if (entry.NameLower.EndsWith(".ymap"))
{
//YmapDict[entry.NameHash] = fentry;
YmapDict[entry.ShortNameHash] = fentry;
}
else if (entry.NameLower.EndsWith(".ybn"))
{
//YbnDict[entry.NameHash] = fentry;
YbnDict[entry.ShortNameHash] = fentry;
}
else if (entry.NameLower.EndsWith(".ynv"))
{
YnvDict[entry.ShortNameHash] = fentry;
}
}
}
}
AllYmapsDict = new Dictionary<uint, RpfFileEntry>();
foreach (var rpffile in AllRpfs)
{
if (rpffile.AllEntries == null) continue;
foreach (var entry in rpffile.AllEntries)
{
if (entry is RpfFileEntry)
{
RpfFileEntry fentry = entry as RpfFileEntry;
if (entry.NameLower.EndsWith(".ymap"))
{
AllYmapsDict[entry.ShortNameHash] = fentry;
}
}
}
}
}
private void InitManifestDicts()
{
AllManifests = new List<YmfFile>();
hdtexturelookup = new Dictionary<MetaHash, MetaHash>();
IEnumerable<RpfFile> rpfs = PreloadedMode ? AllRpfs : (IEnumerable<RpfFile>)ActiveMapRpfFiles.Values;
foreach (RpfFile file in rpfs)
{
if (file.AllEntries == null) continue;
//manifest and meta parsing..
foreach (RpfEntry entry in file.AllEntries)
{
//sp_manifest.ymt
//if (entry.NameLower.EndsWith("zonebind.ymt")/* || entry.Name.EndsWith("vinewood.ymt")*/)
//{
// YmtFile ymt = GetFile<YmtFile>(entry);
//}
if (entry.Name.EndsWith(".ymf"))// || entry.Name.EndsWith(".ymt"))
{
try
{
UpdateStatus(string.Format(entry.Path));
YmfFile ymffile = RpfMan.GetFile<YmfFile>(entry);
if (ymffile != null)
{
AllManifests.Add(ymffile);
if (ymffile.Pso != null)
{ }
else if (ymffile.Rbf != null)
{ }
else if (ymffile.Meta != null)
{ }
else
{ }
if (ymffile.HDTxdAssetBindings != null)
{
for (int i = 0; i < ymffile.HDTxdAssetBindings.Length; i++)
{
var b = ymffile.HDTxdAssetBindings[i];
var targetasset = JenkHash.GenHash(b.targetAsset.ToString().ToLowerInvariant());
var hdtxd = JenkHash.GenHash(b.HDTxd.ToString().ToLowerInvariant());
hdtexturelookup[targetasset] = hdtxd;
}
}
}
}
catch (Exception ex)
{
string errstr = entry.Path + "\n" + ex.ToString();
ErrorLog(errstr);
}
}
}
}
}
private void InitGtxds()
{
var parentTxds = new Dictionary<MetaHash, MetaHash>();
IEnumerable<RpfFile> rpfs = PreloadedMode ? AllRpfs : (IEnumerable<RpfFile>)ActiveMapRpfFiles.Values;
var addTxdRelationships = new Action<Dictionary<string, string>>((from) =>
{
foreach (var kvp in from)
{
uint chash = JenkHash.GenHash(kvp.Key.ToLowerInvariant());
uint phash = JenkHash.GenHash(kvp.Value.ToLowerInvariant());
if (!parentTxds.ContainsKey(chash))
{
parentTxds.Add(chash, phash);
}
else
{
}
}
});
var addRpfTxdRelationships = new Action<IEnumerable<RpfFile>>((from) =>
{
foreach (RpfFile file in from)
{
if (file.AllEntries == null) continue;
foreach (RpfEntry entry in file.AllEntries)
{
try
{
if ((entry.NameLower == "gtxd.ymt") || (entry.NameLower == "gtxd.meta") || (entry.NameLower == "mph4_gtxd.ymt"))
{
GtxdFile ymt = RpfMan.GetFile<GtxdFile>(entry);
if (ymt.TxdRelationships != null)
{
addTxdRelationships(ymt.TxdRelationships);
}
}
else if (entry.NameLower == "vehicles.meta")
{
VehiclesFile vf = RpfMan.GetFile<VehiclesFile>(entry);//could also get loaded in InitVehicles...
if (vf.TxdRelationships != null)
{
addTxdRelationships(vf.TxdRelationships);
}
}
}
catch (Exception ex)
{
string errstr = entry.Path + "\n" + ex.ToString();
ErrorLog(errstr);
}
}
}
});
addRpfTxdRelationships(rpfs);
if (EnableDlc)
{
addRpfTxdRelationships(DlcActiveRpfs);
}
textureParents = parentTxds;
//ensure resident global texture dicts:
YtdFile ytd1 = new YtdFile(GetYtdEntry(JenkHash.GenHash("mapdetail")));
LoadFile(ytd1);
AddTextureLookups(ytd1);
YtdFile ytd2 = new YtdFile(GetYtdEntry(JenkHash.GenHash("vehshare")));
LoadFile(ytd2);
AddTextureLookups(ytd2);
}
private void InitMapCaches()
{
AllCacheFiles = new List<CacheDatFile>();
YmapHierarchyDict = new Dictionary<uint, MapDataStoreNode>();
string cachefilepath = "common.rpf\\data\\gta5_cache_y.dat";
if (EnableDlc)
{
cachefilepath = "update\\update.rpf\\common\\data\\gta5_cache_y.dat";
}
try
{
var maincache = RpfMan.GetFile<CacheDatFile>(cachefilepath);
if (maincache != null)
{
AllCacheFiles.Add(maincache);
foreach (var node in maincache.AllMapNodes)
{
if (YmapDict.ContainsKey(node.Name))
{
YmapHierarchyDict[node.Name] = node;
}
else
{ } //ymap not found...
}
}
else
{
ErrorLog(cachefilepath + ": cache not loaded! Possibly an unsupported GTAV installation version.");
}
}
catch (Exception ex)
{
ErrorLog(cachefilepath + ": " + ex.ToString());
}
if (EnableDlc)
{
foreach (string dlccachefile in DlcCacheFileList)
{
try
{
var dat = RpfMan.GetFile<CacheDatFile>(dlccachefile);
if (dat == null)
{ continue; } //update\\x64\\dlcpacks\\mpspecialraces\\dlc.rpf\\x64\\data\\cacheloaderdata_dlc\\mpspecialraces_3336915258_cache_y.dat (hash of: mpspecialraces_interior_additions)
AllCacheFiles.Add(dat);
foreach (var node in dat.AllMapNodes)
{
if (YmapDict.ContainsKey(node.Name))
{
YmapHierarchyDict[node.Name] = node;
}
else
{ } //ymap not found...
}
}
catch (Exception ex)
{
string errstr = dlccachefile + "\n" + ex.ToString();
ErrorLog(errstr);
}
}
//foreach (var dlcfile in DlcActiveRpfs)
//{
// foreach (RpfEntry entry in dlcfile.AllEntries)
// {
// try
// {
// if (entry.NameLower.EndsWith("_cache_y.dat"))
// {
// var dat = RpfMan.GetFile<CacheDatFile>(entry);
// AllCacheFiles.Add(dat);
// foreach (var node in dat.AllMapNodes)
// {
// if (YmapDict.ContainsKey(node.Name))
// {
// YmapHierarchyDict[node.Name] = node;
// }
// else
// { } //ymap not found...
// }
// }
// }
// catch (Exception ex)
// {
// string errstr = entry.Path + "\n" + ex.ToString();
// ErrorLog(errstr);
// }
// }
//}
}
//foreach (RpfFile file in RpfMan.BaseRpfs)
//{
// if (file.AllEntries == null) continue;
// foreach (RpfEntry entry in file.AllEntries)
// {
// try
// {
// //if (entry.Name.EndsWith("_manifest.ymf"))
// //{
// // var ymf = GetFile<YmfFile>(entry);
// //}
// //else
// if (entry.NameLower.EndsWith("_cache_y.dat"))
// {
// //parse the cache dat files.
// var dat = RpfMan.GetFile<CacheDatFile>(entry);
// AllCacheFiles.Add(dat);
// foreach (var node in dat.AllMapNodes)
// {
// YmapHierarchyDict[node.Name] = node;
// }
// }
// }
// catch (Exception ex)
// {
// string errstr = entry.Path + "\n" + ex.ToString();
// ErrorLog(errstr);
// }
// }
//}
}
private void InitArchetypeDicts()
{
YtypDict = new Dictionary<uint, YtypFile>();
archetypesLoaded = false;
archetypeDict.Clear();
if (!LoadArchetypes) return;
var rpfs = EnableDlc ? AllRpfs : BaseRpfs;
foreach (RpfFile file in rpfs) //RpfMan.BaseRpfs)RpfMan.AllRpfs)//ActiveMapRpfFiles.Values) //
{
if (file.AllEntries == null) continue;
if (!EnableDlc && file.Path.StartsWith("update")) continue;
//parse ytyps
foreach (RpfEntry entry in file.AllEntries)
{
try
{
if (entry.NameLower.EndsWith(".ytyp"))
{
AddYtypToDictionary(entry);
}
}
catch (Exception ex)
{
ErrorLog(entry.Path + ": " + ex.Message);
}
}
}
archetypesLoaded = true;
}
private void AddYtypToDictionary(RpfEntry entry)
{
UpdateStatus(string.Format(entry.Path));
YtypFile ytypfile = RpfMan.GetFile<YtypFile>(entry);
if (ytypfile == null)
{
throw new Exception("Couldn't load ytyp file."); //couldn't load the file for some reason... shouldn't happen..
}
if (ytypfile.Meta == null)
{
throw new Exception("ytyp file was not in meta format.");
}
if (YtypDict.ContainsKey(ytypfile.NameHash))
{
//throw new Exception("ytyp " + JenkIndex.GetString(ytypfile.NameHash) + " already loaded.");
//errorAction(entry.Path + ": ytyp " + JenkIndex.GetString(ytypfile.NameHash) + " already loaded.");
YtypDict[ytypfile.NameHash] = ytypfile; //override ytyp and continue anyway, could be unique archetypes in here still...
}
else
{
YtypDict.Add(ytypfile.NameHash, ytypfile);
}
if ((ytypfile.AllArchetypes == null) || (ytypfile.AllArchetypes.Length == 0))
{
ErrorLog(entry.Path + ": no archetypes found");
}
else
{
foreach (var arch in ytypfile.AllArchetypes)
{
uint hash = arch.Hash;
if (hash == 0) continue;
if (archetypeDict.ContainsKey(hash))
{
var oldval = archetypeDict[hash]; //replace old archetype?
}
archetypeDict[hash] = arch;
}
}
////if (ytypfile.AudioEmitters != null)
////{
//// foreach (CExtensionDefAudioEmitter emitter in ytypfile.AudioEmitters)
//// {
//// //audioind++;
//// //uint hash = emitter.name;
//// //if (hash == 0) hash = archetype.name;
//// //if (hash == 0)
//// // continue;
//// //if (AudioArchetypes.ContainsKey(hash))
//// //{
//// // var oldval = AudioArchetypes[hash];
//// // //errorAction(entry.Path + ": " + emitter.ToString() + ": (CTimeArchetypeDef) Already in archetype dict. Was in: " + oldval.ToString());
//// // //overwrite with new definition? how to tell?
//// // AudioArchetypes[hash] = new Tuple<YtypFile, int>(ytypfile, audioind);
//// //}
//// //else
//// //{
//// // AudioArchetypes.Add(hash, new Tuple<YtypFile, int>(ytypfile, audioind));
//// //}
//// }
////}
}
public void InitStringDicts()
{
string langstr = "american_rel"; //todo: make this variable?
string langstr2 = "americandlc.rpf";
string langstr3 = "american.rpf";
Gxt2Dict = new Dictionary<uint, RpfFileEntry>();
var gxt2files = new List<Gxt2File>();
foreach (var rpf in AllRpfs)
{
foreach (var entry in rpf.AllEntries)
{
if (entry is RpfFileEntry fentry)
{
var p = entry.Path;
if (entry.NameLower.EndsWith(".gxt2") && (p.Contains(langstr) || p.Contains(langstr2) || p.Contains(langstr3)))
{
Gxt2Dict[entry.ShortNameHash] = fentry;
if (DoFullStringIndex)
{
var gxt2 = RpfMan.GetFile<Gxt2File>(entry);
if (gxt2 != null)
{
for (int i = 0; i < gxt2.TextEntries.Length; i++)
{
var e = gxt2.TextEntries[i];
GlobalText.Ensure(e.Text, e.Hash);
}
gxt2files.Add(gxt2);
}
}
}
}
}
}
if (!DoFullStringIndex)
{
string globalgxt2path = "x64b.rpf\\data\\lang\\" + langstr + ".rpf\\global.gxt2";
var globalgxt2 = RpfMan.GetFile<Gxt2File>(globalgxt2path);
if (globalgxt2 != null)
{
for (int i = 0; i < globalgxt2.TextEntries.Length; i++)
{
var e = globalgxt2.TextEntries[i];
GlobalText.Ensure(e.Text, e.Hash);
}
}
return;
}
GlobalText.FullIndexBuilt = true;
foreach (var rpf in AllRpfs)
{
foreach (var entry in rpf.AllEntries)
{
if (entry.NameLower.EndsWith("statssetup.xml"))
{
var xml = RpfMan.GetFileXml(entry.Path);
if (xml == null)
{ continue; }
var statnodes = xml.SelectNodes("StatsSetup/stats/stat");
foreach (XmlNode statnode in statnodes)
{
if (statnode == null)
{ continue; }
var statname = Xml.GetStringAttribute(statnode, "Name");
if (string.IsNullOrEmpty(statname))
{ continue; }
var statnamel = statname.ToLowerInvariant();
StatsNames.Ensure(statname);
StatsNames.Ensure(statnamel);
StatsNames.Ensure("sp_" + statnamel);
StatsNames.Ensure("mp0_" + statnamel);
StatsNames.Ensure("mp1_" + statnamel);
}
}
}
}
StatsNames.FullIndexBuilt = true;
}
public void InitVehicles()
{
if (!LoadVehicles) return;
//Neos7
//Involved files(at least for rendering purpose )
//Vehicles.meta
//Carcols.meta
//Carvariations.meta
//Vehiclelayouts.meta
//The other metas shouldn't be important for rendering
//Then the global carcols.ymt is required too
//As it contains the general shared tuning options
//Carcols for modkits and lights kits definitions
//Carvariations links such modkits and lights kits to each vehicle plus defines colours combinations of spawned vehicles
//Vehiclelayouts mostly to handle ped interactions with the vehicle
IEnumerable<RpfFile> rpfs = PreloadedMode ? AllRpfs : (IEnumerable<RpfFile>)ActiveMapRpfFiles.Values;
var allVehicles = new Dictionary<MetaHash, VehicleInitData>();
var allCarCols = new List<CarColsFile>();
var allCarModCols = new List<CarModColsFile>();
var allCarVariations = new List<CarVariationsFile>();
var allCarVariationsDict = new Dictionary<MetaHash, CVehicleModelInfoVariation_418053801>();
var allVehicleLayouts = new List<VehicleLayoutsFile>();
var addVehicleFiles = new Action<IEnumerable<RpfFile>>((from) =>
{
foreach (RpfFile file in from)
{
if (file.AllEntries == null) continue;
foreach (RpfEntry entry in file.AllEntries)
{
#if !DEBUG
try
#endif
{
if (entry.NameLower == "vehicles.meta")
{
VehiclesFile vf = RpfMan.GetFile<VehiclesFile>(entry);
if (vf.InitDatas != null)
{
foreach (var initData in vf.InitDatas)
{
var name = initData.modelName.ToLowerInvariant();
var hash = JenkHash.GenHash(name);
if (allVehicles.ContainsKey(hash))
{ }
allVehicles[hash] = initData;
}
}
}
if ((entry.NameLower == "carcols.ymt") || (entry.NameLower == "carcols.meta"))
{
var cf = RpfMan.GetFile<CarColsFile>(entry);
if (cf.VehicleModelInfo != null)
{ }
allCarCols.Add(cf);
}
if (entry.NameLower == "carmodcols.ymt")
{
var cf = RpfMan.GetFile<CarModColsFile>(entry);
if (cf.VehicleModColours != null)
{ }
allCarModCols.Add(cf);
}
if ((entry.NameLower == "carvariations.ymt") || (entry.NameLower == "carvariations.meta"))
{
var cf = RpfMan.GetFile<CarVariationsFile>(entry);
if (cf.VehicleModelInfo?.variationData != null)
{
foreach (var variation in cf.VehicleModelInfo.variationData)
{
var name = variation.modelName.ToLowerInvariant();
var hash = JenkHash.GenHash(name);
allCarVariationsDict[hash] = variation;
}
}
allCarVariations.Add(cf);
}
if (entry.NameLower.StartsWith("vehiclelayouts") && entry.NameLower.EndsWith(".meta"))
{
var lf = RpfMan.GetFile<VehicleLayoutsFile>(entry);
if (lf.Xml != null)
{ }
allVehicleLayouts.Add(lf);
}
}
#if !DEBUG
catch (Exception ex)
{
string errstr = entry.Path + "\n" + ex.ToString();
ErrorLog(errstr);
}
#endif
}
}
});
addVehicleFiles(rpfs);
if (EnableDlc)
{
addVehicleFiles(DlcActiveRpfs);
}
VehiclesInitDict = allVehicles;
}
public void InitPeds()
{
if (!LoadPeds) return;
IEnumerable<RpfFile> rpfs = PreloadedMode ? AllRpfs : (IEnumerable<RpfFile>)ActiveMapRpfFiles.Values;
List<RpfFile> dlcrpfs = new List<RpfFile>();
if (EnableDlc)
{
foreach (var rpf in DlcActiveRpfs)
{
dlcrpfs.Add(rpf);
if (rpf.Children == null) continue;
foreach (var crpf in rpf.Children)
{
dlcrpfs.Add(crpf);
if (crpf.Children?.Count > 0)
{ }
}
}
}
var allPeds = new Dictionary<MetaHash, CPedModelInfo__InitData>();
var allPedsFiles = new List<PedsFile>();
var allPedYmts = new Dictionary<MetaHash, PedFile>();
var allPedDrwDicts = new Dictionary<MetaHash, Dictionary<MetaHash, RpfFileEntry>>();
var allPedTexDicts = new Dictionary<MetaHash, Dictionary<MetaHash, RpfFileEntry>>();
var allPedClothDicts = new Dictionary<MetaHash, Dictionary<MetaHash, RpfFileEntry>>();
Dictionary<MetaHash, RpfFileEntry> ensureDict(Dictionary<MetaHash, Dictionary<MetaHash, RpfFileEntry>> coll, MetaHash hash)
{
Dictionary<MetaHash, RpfFileEntry> dict;
if (!coll.TryGetValue(hash, out dict))
{
dict = new Dictionary<MetaHash, RpfFileEntry>();
coll[hash] = dict;
}
return dict;
}
var addPedDicts = new Action<string, MetaHash, RpfDirectoryEntry>((namel, hash, dir) =>
{
Dictionary<MetaHash, RpfFileEntry> dict = null;
var files = dir?.Files;
if (files != null)
{
foreach (var file in files)
{
if (file.NameLower == namel + ".yld")
{
dict = ensureDict(allPedClothDicts, hash);
dict[file.ShortNameHash] = file;
}
}
}
if (dir?.Directories != null)
{
foreach (var cdir in dir.Directories)
{
if (cdir.NameLower == namel)
{
dir = cdir;
break;
}
}
files = dir?.Files;
if (files != null)
{
foreach (var file in files)
{
if (file?.NameLower == null) continue;
if (file.NameLower.EndsWith(".ydd"))
{
dict = ensureDict(allPedDrwDicts, hash);
dict[file.ShortNameHash] = file;
}
else if (file.NameLower.EndsWith(".ytd"))
{
dict = ensureDict(allPedTexDicts, hash);
dict[file.ShortNameHash] = file;
}
else if (file.NameLower.EndsWith(".yld"))
{
dict = ensureDict(allPedClothDicts, hash);
dict[file.ShortNameHash] = file;
}
}
}
}
});
var addPedsFiles = new Action<IEnumerable<RpfFile>>((from) =>
{
foreach (RpfFile file in from)
{
if (file.AllEntries == null) continue;
foreach (RpfEntry entry in file.AllEntries)
{
#if !DEBUG
try
#endif
{
if ((entry.NameLower == "peds.ymt") || (entry.NameLower == "peds.meta"))
{
var pf = RpfMan.GetFile<PedsFile>(entry);
if (pf.InitDataList?.InitDatas != null)
{
foreach (var initData in pf.InitDataList.InitDatas)
{
var name = initData.Name.ToLowerInvariant();
var hash = JenkHash.GenHash(name);
if (allPeds.ContainsKey(hash))
{ }
allPeds[hash] = initData;
}
}
allPedsFiles.Add(pf);
}
}
#if !DEBUG
catch (Exception ex)
{
string errstr = entry.Path + "\n" + ex.ToString();
ErrorLog(errstr);
}
#endif
}
}
});
var addPedFiles = new Action<IEnumerable<RpfFile>>((from) =>
{
foreach (RpfFile file in from)
{
if (file.AllEntries == null) continue;
foreach (RpfEntry entry in file.AllEntries)
{
#if !DEBUG
try
#endif
{
if (entry.NameLower.EndsWith(".ymt"))
{
var testname = entry.GetShortNameLower();
var testhash = JenkHash.GenHash(testname);
if (allPeds.ContainsKey(testhash))
{
var pf = RpfMan.GetFile<PedFile>(entry);
if (pf != null)
{
allPedYmts[testhash] = pf;
addPedDicts(testname, testhash, entry.Parent);
}
}
}
}
#if !DEBUG
catch (Exception ex)
{
string errstr = entry.Path + "\n" + ex.ToString();
ErrorLog(errstr);
}
#endif
}
}
});
addPedsFiles(rpfs);
addPedsFiles(dlcrpfs);
addPedFiles(rpfs);
addPedFiles(dlcrpfs);
PedsInitDict = allPeds;
PedVariationsDict = allPedYmts;
PedDrawableDicts = allPedDrwDicts;
PedTextureDicts = allPedTexDicts;
PedClothDicts = allPedClothDicts;
foreach (var kvp in PedsInitDict)
{
if (!PedVariationsDict.ContainsKey(kvp.Key))
{ }//checking we found them all!
}
}
public bool SetDlcLevel(string dlc, bool enable)
{
bool dlcchange = (dlc != SelectedDlc);
bool enablechange = (enable != EnableDlc);
bool change = (dlcchange && enable) || enablechange;
if (change)
{
lock (updateSyncRoot)
{
//lock (textureSyncRoot)
{
SelectedDlc = dlc;
EnableDlc = enable;
//mainCache.Clear();
ClearCachedMaps();
InitDlc();
}
}
}
return change;
}
public bool SetModsEnabled(bool enable)
{
bool change = (enable != EnableMods);
if (change)
{
lock (updateSyncRoot)
{
//lock (textureSyncRoot)
{
EnableMods = enable;
RpfMan.EnableMods = enable;
mainCache.Clear();
InitGlobal();
InitDlc();
}
}
}
return change;
}
private void ClearCachedMaps()
{
if (AllYmapsDict != null)
{
foreach (var ymap in AllYmapsDict.Values)
{
GameFileCacheKey k = new GameFileCacheKey(ymap.ShortNameHash, GameFileType.Ymap);
mainCache.Remove(k);
}
}
}
public void TryLoadEnqueue(GameFile gf)
{
if (((!gf.Loaded)) && (requestQueue.Count < 10))// && (!gf.LoadQueued)
{
requestQueue.Enqueue(gf);
gf.LoadQueued = true;
}
}
public Archetype GetArchetype(uint hash)
{
if (!archetypesLoaded) return null;
Archetype arch = null;
archetypeDict.TryGetValue(hash, out arch);
return arch;
}
public MapDataStoreNode GetMapNode(uint hash)
{
if (!IsInited) return null;
MapDataStoreNode node = null;
YmapHierarchyDict.TryGetValue(hash, out node);
return node;
}
public YdrFile GetYdr(uint hash)
{
if (!IsInited) return null;
lock (requestSyncRoot)
{
var key = new GameFileCacheKey(hash, GameFileType.Ydr);
YdrFile ydr = mainCache.TryGet(key) as YdrFile;
if (ydr == null)
{
var e = GetYdrEntry(hash);
if (e != null)
{
ydr = new YdrFile(e);
if (mainCache.TryAdd(key, ydr))
{
TryLoadEnqueue(ydr);
}
else
{
ydr.LoadQueued = false;
//ErrorLog("Out of cache space - couldn't load drawable: " + JenkIndex.GetString(hash)); //too spammy...
}
}
else
{
//ErrorLog("Drawable not found: " + JenkIndex.GetString(hash)); //too spammy...
}
}
else if (!ydr.Loaded)
{
TryLoadEnqueue(ydr);
}
return ydr;
}
}
public YddFile GetYdd(uint hash)
{
if (!IsInited) return null;
lock (requestSyncRoot)
{
var key = new GameFileCacheKey(hash, GameFileType.Ydd);
YddFile ydd = mainCache.TryGet(key) as YddFile;
if (ydd == null)
{
var e = GetYddEntry(hash);
if (e != null)
{
ydd = new YddFile(e);
if (mainCache.TryAdd(key, ydd))
{
TryLoadEnqueue(ydd);
}
else
{
ydd.LoadQueued = false;
//ErrorLog("Out of cache space - couldn't load drawable dictionary: " + JenkIndex.GetString(hash)); //too spammy...
}
}
else
{
//ErrorLog("Drawable dictionary not found: " + JenkIndex.GetString(hash)); //too spammy...
}
}
else if (!ydd.Loaded)
{
TryLoadEnqueue(ydd);
}
return ydd;
}
}
public YtdFile GetYtd(uint hash)
{
if (!IsInited) return null;
lock (requestSyncRoot)
{
var key = new GameFileCacheKey(hash, GameFileType.Ytd);
YtdFile ytd = mainCache.TryGet(key) as YtdFile;
if (ytd == null)
{
var e = GetYtdEntry(hash);
if (e != null)
{
ytd = new YtdFile(e);
if (mainCache.TryAdd(key, ytd))
{
TryLoadEnqueue(ytd);
}
else
{
ytd.LoadQueued = false;
//ErrorLog("Out of cache space - couldn't load texture dictionary: " + JenkIndex.GetString(hash)); //too spammy...
}
}
else
{
//ErrorLog("Texture dictionary not found: " + JenkIndex.GetString(hash)); //too spammy...
}
}
else if (!ytd.Loaded)
{
TryLoadEnqueue(ytd);
}
return ytd;
}
}
public YmapFile GetYmap(uint hash)
{
if (!IsInited) return null;
lock (requestSyncRoot)
{
var key = new GameFileCacheKey(hash, GameFileType.Ymap);
YmapFile ymap = mainCache.TryGet(key) as YmapFile;
if (ymap == null)
{
var e = GetYmapEntry(hash);
if (e != null)
{
ymap = new YmapFile(e);
if (mainCache.TryAdd(key, ymap))
{
TryLoadEnqueue(ymap);
}
else
{
ymap.LoadQueued = false;
//ErrorLog("Out of cache space - couldn't load ymap: " + JenkIndex.GetString(hash));
}
}
else
{
//ErrorLog("Ymap not found: " + JenkIndex.GetString(hash)); //too spammy...
}
}
else if (!ymap.Loaded)
{
TryLoadEnqueue(ymap);
}
return ymap;
}
}
public YftFile GetYft(uint hash)
{
if (!IsInited) return null;
lock (requestSyncRoot)
{
var key = new GameFileCacheKey(hash, GameFileType.Yft);
YftFile yft = mainCache.TryGet(key) as YftFile;
if (yft == null)
{
var e = GetYftEntry(hash);
if (e != null)
{
yft = new YftFile(e);
if (mainCache.TryAdd(key, yft))
{
TryLoadEnqueue(yft);
}
else
{
yft.LoadQueued = false;
//ErrorLog("Out of cache space - couldn't load yft: " + JenkIndex.GetString(hash)); //too spammy...
}
}
else
{
//ErrorLog("Yft not found: " + JenkIndex.GetString(hash)); //too spammy...
}
}
else if (!yft.Loaded)
{
TryLoadEnqueue(yft);
}
return yft;
}
}
public YbnFile GetYbn(uint hash)
{
if (!IsInited) return null;
lock (requestSyncRoot)
{
var key = new GameFileCacheKey(hash, GameFileType.Ybn);
YbnFile ybn = mainCache.TryGet(key) as YbnFile;
if (ybn == null)
{
var e = GetYbnEntry(hash);
if (e != null)
{
ybn = new YbnFile(e);
if (mainCache.TryAdd(key, ybn))
{
TryLoadEnqueue(ybn);
}
else
{
ybn.LoadQueued = false;
//ErrorLog("Out of cache space - couldn't load ybn: " + JenkIndex.GetString(hash)); //too spammy...
}
}
else
{
//ErrorLog("Ybn not found: " + JenkIndex.GetString(hash)); //too spammy...
}
}
else if (!ybn.Loaded)
{
TryLoadEnqueue(ybn);
}
return ybn;
}
}
public YcdFile GetYcd(uint hash)
{
if (!IsInited) return null;
lock (requestSyncRoot)
{
var key = new GameFileCacheKey(hash, GameFileType.Ycd);
YcdFile ycd = mainCache.TryGet(key) as YcdFile;
if (ycd == null)
{
var e = GetYcdEntry(hash);
if (e != null)
{
ycd = new YcdFile(e);
if (mainCache.TryAdd(key, ycd))
{
TryLoadEnqueue(ycd);
}
else
{
ycd.LoadQueued = false;
//ErrorLog("Out of cache space - couldn't load ycd: " + JenkIndex.GetString(hash)); //too spammy...
}
}
else
{
//ErrorLog("Ycd not found: " + JenkIndex.GetString(hash)); //too spammy...
}
}
else if (!ycd.Loaded)
{
TryLoadEnqueue(ycd);
}
return ycd;
}
}
public YedFile GetYed(uint hash)
{
if (!IsInited) return null;
lock (requestSyncRoot)
{
var key = new GameFileCacheKey(hash, GameFileType.Yed);
YedFile yed = mainCache.TryGet(key) as YedFile;
if (yed == null)
{
var e = GetYedEntry(hash);
if (e != null)
{
yed = new YedFile(e);
if (mainCache.TryAdd(key, yed))
{
TryLoadEnqueue(yed);
}
else
{
yed.LoadQueued = false;
//ErrorLog("Out of cache space - couldn't load yed: " + JenkIndex.GetString(hash)); //too spammy...
}
}
else
{
//ErrorLog("Yed not found: " + JenkIndex.GetString(hash)); //too spammy...
}
}
else if (!yed.Loaded)
{
TryLoadEnqueue(yed);
}
return yed;
}
}
public YnvFile GetYnv(uint hash)
{
if (!IsInited) return null;
lock (requestSyncRoot)
{
var key = new GameFileCacheKey(hash, GameFileType.Ynv);
YnvFile ynv = mainCache.TryGet(key) as YnvFile;
if (ynv == null)
{
var e = GetYnvEntry(hash);
if (e != null)
{
ynv = new YnvFile(e);
if (mainCache.TryAdd(key, ynv))
{
TryLoadEnqueue(ynv);
}
else
{
ynv.LoadQueued = false;
//ErrorLog("Out of cache space - couldn't load ycd: " + JenkIndex.GetString(hash)); //too spammy...
}
}
else
{
//ErrorLog("Ycd not found: " + JenkIndex.GetString(hash)); //too spammy...
}
}
else if (!ynv.Loaded)
{
TryLoadEnqueue(ynv);
}
return ynv;
}
}
public RpfFileEntry GetYdrEntry(uint hash)
{
RpfFileEntry entry;
YdrDict.TryGetValue(hash, out entry);
return entry;
}
public RpfFileEntry GetYddEntry(uint hash)
{
RpfFileEntry entry;
YddDict.TryGetValue(hash, out entry);
return entry;
}
public RpfFileEntry GetYtdEntry(uint hash)
{
RpfFileEntry entry;
YtdDict.TryGetValue(hash, out entry);
return entry;
}
public RpfFileEntry GetYmapEntry(uint hash)
{
RpfFileEntry entry;
if (!YmapDict.TryGetValue(hash, out entry))
{
AllYmapsDict.TryGetValue(hash, out entry);
}
return entry;
}
public RpfFileEntry GetYftEntry(uint hash)
{
RpfFileEntry entry;
YftDict.TryGetValue(hash, out entry);
return entry;
}
public RpfFileEntry GetYbnEntry(uint hash)
{
RpfFileEntry entry;
YbnDict.TryGetValue(hash, out entry);
return entry;
}
public RpfFileEntry GetYcdEntry(uint hash)
{
RpfFileEntry entry;
YcdDict.TryGetValue(hash, out entry);
return entry;
}
public RpfFileEntry GetYedEntry(uint hash)
{
RpfFileEntry entry;
YedDict.TryGetValue(hash, out entry);
return entry;
}
public RpfFileEntry GetYnvEntry(uint hash)
{
RpfFileEntry entry;
YnvDict.TryGetValue(hash, out entry);
return entry;
}
public bool LoadFile<T>(T file) where T : GameFile, PackedFile
{
if (file == null) return false;
RpfFileEntry entry = file.RpfFileEntry;
if (entry != null)
{
return RpfMan.LoadFile(file, entry);
}
return false;
}
public T GetFileUncached<T>(RpfFileEntry e) where T : GameFile, new()
{
var f = new T();
f.RpfFileEntry = e;
TryLoadEnqueue(f);
return f;
}
public void BeginFrame()
{
lock (requestSyncRoot)
{
mainCache.BeginFrame();
}
}
public bool ContentThreadProc()
{
Monitor.Enter(updateSyncRoot);
GameFile req;
//bool loadedsomething = false;
int itemcount = 0;
while (requestQueue.TryDequeue(out req) && (itemcount < MaxItemsPerLoop))
{
//process content requests.
if (req.Loaded)
continue; //it's already loaded... (somehow)
if ((req.LastUseTime - DateTime.Now).TotalSeconds > 0.5)
continue; //hasn't been requested lately..! ignore, will try again later if necessary
itemcount++;
//if (!loadedsomething)
//{
//UpdateStatus("Loading " + req.RpfFileEntry.Name + "...");
//}
switch (req.Type)
{
case GameFileType.Ydr:
req.Loaded = LoadFile(req as YdrFile);
break;
case GameFileType.Ydd:
req.Loaded = LoadFile(req as YddFile);
break;
case GameFileType.Ytd:
req.Loaded = LoadFile(req as YtdFile);
//if (req.Loaded) AddTextureLookups(req as YtdFile);
break;
case GameFileType.Ymap:
YmapFile y = req as YmapFile;
req.Loaded = LoadFile(y);
if (req.Loaded) y.InitYmapEntityArchetypes(this);
break;
case GameFileType.Yft:
req.Loaded = LoadFile(req as YftFile);
break;
case GameFileType.Ybn:
req.Loaded = LoadFile(req as YbnFile);
break;
case GameFileType.Ycd:
req.Loaded = LoadFile(req as YcdFile);
break;
case GameFileType.Yed:
req.Loaded = LoadFile(req as YedFile);
break;
case GameFileType.Ynv:
req.Loaded = LoadFile(req as YnvFile);
break;
case GameFileType.Yld:
req.Loaded = LoadFile(req as YldFile);
break;
default:
break;
}
string str = (req.Loaded ? "Loaded " : "Error loading ") + req.ToString();
//string str = string.Format("{0}: {1}: {2}", requestQueue.Count, (req.Loaded ? "Loaded" : "Error loading"), req);
UpdateStatus(str);
//ErrorLog(str);
if (!req.Loaded)
{
ErrorLog("Error loading " + req.ToString());
}
//loadedsomething = true;
}
//whether or not we need another content thread loop
bool itemsStillPending = (itemcount >= MaxItemsPerLoop);
Monitor.Exit(updateSyncRoot);
return itemsStillPending;
}
private void AddTextureLookups(YtdFile ytd)
{
if (ytd?.TextureDict?.TextureNameHashes?.data_items == null) return;
lock (textureSyncRoot)
{
foreach (uint hash in ytd.TextureDict.TextureNameHashes.data_items)
{
textureLookup[hash] = ytd.RpfFileEntry;
}
}
}
public YtdFile TryGetTextureDictForTexture(uint hash)
{
lock (textureSyncRoot)
{
RpfFileEntry e;
if (textureLookup.TryGetValue(hash, out e))
{
return GetYtd(e.ShortNameHash);
}
}
return null;
}
public YtdFile TryGetParentYtd(uint hash)
{
MetaHash phash;
if (textureParents.TryGetValue(hash, out phash))
{
return GetYtd(phash);
}
return null;
}
public uint TryGetParentYtdHash(uint hash)
{
MetaHash phash = 0;
textureParents.TryGetValue(hash, out phash);
return phash;
}
public uint TryGetHDTextureHash(uint txdhash)
{
MetaHash hdhash = 0;
if (hdtexturelookup?.TryGetValue(txdhash, out hdhash) ?? false)
{
return hdhash;
}
return txdhash;
}
public Texture TryFindTextureInParent(uint texhash, uint txdhash)
{
Texture tex = null;
var ytd = TryGetParentYtd(txdhash);
while ((ytd != null) && (tex == null))
{
if (ytd.Loaded && (ytd.TextureDict != null))
{
tex = ytd.TextureDict.Lookup(texhash);
}
if (tex == null)
{
ytd = TryGetParentYtd(ytd.Key.Hash);
}
}
return tex;
}
public DrawableBase TryGetDrawable(Archetype arche)
{
if (arche == null) return null;
uint drawhash = arche.Hash;
DrawableBase drawable = null;
if ((arche.DrawableDict != 0))// && (arche.DrawableDict != arche.Hash))
{
//try get drawable from ydd...
YddFile ydd = GetYdd(arche.DrawableDict);
if (ydd != null)
{
if (ydd.Loaded && (ydd.Dict != null))
{
Drawable d;
ydd.Dict.TryGetValue(drawhash, out d); //can't out to base class?
drawable = d;
if (drawable == null)
{
return null; //drawable wasn't in dict!!
}
}
else
{
return null; //ydd not loaded yet, or has no dict
}
}
else
{
//return null; //couldn't find drawable dict... quit now?
}
}
if (drawable == null)
{
//try get drawable from ydr.
YdrFile ydr = GetYdr(drawhash);
if (ydr != null)
{
if (ydr.Loaded)
{
drawable = ydr.Drawable;
}
}
else
{
YftFile yft = GetYft(drawhash);
if (yft != null)
{
if (yft.Loaded)
{
if (yft.Fragment != null)
{
drawable = yft.Fragment.Drawable;
}
}
}
}
}
return drawable;
}
public DrawableBase TryGetDrawable(Archetype arche, out bool waitingForLoad)
{
waitingForLoad = false;
if (arche == null) return null;
uint drawhash = arche.Hash;
DrawableBase drawable = null;
if ((arche.DrawableDict != 0))// && (arche.DrawableDict != arche.Hash))
{
//try get drawable from ydd...
YddFile ydd = GetYdd(arche.DrawableDict);
if (ydd != null)
{
if (ydd.Loaded)
{
if (ydd.Dict != null)
{
Drawable d;
ydd.Dict.TryGetValue(drawhash, out d); //can't out to base class?
drawable = d;
if (drawable == null)
{
return null; //drawable wasn't in dict!!
}
}
else
{
return null; //ydd has no dict
}
}
else
{
waitingForLoad = true;
return null; //ydd not loaded yet
}
}
else
{
//return null; //couldn't find drawable dict... quit now?
}
}
if (drawable == null)
{
//try get drawable from ydr.
YdrFile ydr = GetYdr(drawhash);
if (ydr != null)
{
if (ydr.Loaded)
{
drawable = ydr.Drawable;
}
else
{
waitingForLoad = true;
}
}
else
{
YftFile yft = GetYft(drawhash);
if (yft != null)
{
if (yft.Loaded)
{
if (yft.Fragment != null)
{
drawable = yft.Fragment.Drawable;
}
}
else
{
waitingForLoad = true;
}
}
}
}
return drawable;
}
private string[] GetExcludePaths()
{
string[] exclpaths = ExcludeFolders.Split(new[] { ';' }, StringSplitOptions.RemoveEmptyEntries);
if (exclpaths.Length > 0)
{
for (int i = 0; i < exclpaths.Length; i++)
{
exclpaths[i] = exclpaths[i].ToLowerInvariant();
}
}
else
{
exclpaths = null;
}
return exclpaths;
}
public void TestAudioRels()
{
UpdateStatus("Testing Audio REL files");
bool savetest = true;
bool xmltest = true;
foreach (RpfFile rpf in RpfMan.AllRpfs)
{
foreach (RpfEntry entry in rpf.AllEntries)
{
var rfe = entry as RpfFileEntry;
var rbfe = rfe as RpfBinaryFileEntry;
if ((rfe == null) || (rbfe == null)) continue;
if (rfe.NameLower.EndsWith(".rel"))
{
UpdateStatus(string.Format(entry.Path));
RelFile rel = new RelFile(rfe);
RpfMan.LoadFile(rel, rfe);
byte[] data;
if (savetest)
{
data = rel.Save();
if (data != null)
{
if (data.Length != rbfe.FileUncompressedSize)
{ }
else if (data.Length != rel.RawFileData.Length)
{ }
else
{
for (int i = 0; i < data.Length; i++) //raw file test
if (data[i] != rel.RawFileData[i])
{ break; }
}
RelFile rel2 = new RelFile();
rel2.Load(data, rfe);//roundtrip test
if (rel2.IndexCount != rel.IndexCount)
{ }
if (rel2.RelDatas == null)
{ }
}
else
{ }
}
if (xmltest)
{
var relxml = RelXml.GetXml(rel); //XML test...
var rel3 = XmlRel.GetRel(relxml);
if (rel3 != null)
{
if (rel3.RelDatasSorted?.Length != rel.RelDatasSorted?.Length)
{ } //check nothing went missing...
data = rel3.Save(); //full roundtrip!
if (data != null)
{
var rel4 = new RelFile();
rel4.Load(data, rfe); //insanity check
if (data.Length != rbfe.FileUncompressedSize)
{ }
else if (data.Length != rel.RawFileData.Length)
{ }
else
{
for (int i = 0; i < data.Length; i++) //raw file test
if (data[i] != rel.RawFileData[i])
{ break; }
}
var relxml2 = RelXml.GetXml(rel4); //full insanity
if (relxml2.Length != relxml.Length)
{ }
if (relxml2 != relxml)
{ }
}
else
{ }
}
else
{ }
}
}
}
}
var hashmap = RelFile.HashesMap;
if (hashmap.Count > 0)
{ }
var sb2 = new StringBuilder();
foreach (var kvp in hashmap)
{
string itemtype = kvp.Key.ItemType.ToString();
if (kvp.Key.FileType == RelDatFileType.Dat151)
{
itemtype = ((Dat151RelType)kvp.Key.ItemType).ToString();
}
else if (kvp.Key.FileType == RelDatFileType.Dat54DataEntries)
{
itemtype = ((Dat54SoundType)kvp.Key.ItemType).ToString();
}
else
{
itemtype = kvp.Key.FileType.ToString() + ".Unk" + kvp.Key.ItemType.ToString();
}
if (kvp.Key.IsContainer)
{
itemtype += " (container)";
}
//if (kvp.Key.FileType == RelDatFileType.Dat151)
{
sb2.Append(itemtype);
sb2.Append(" ");
foreach (var val in kvp.Value)
{
sb2.Append(val.ToString());
sb2.Append(" ");
}
sb2.AppendLine();
}
}
var hashmapstr = sb2.ToString();
if (!string.IsNullOrEmpty(hashmapstr))
{ }
}
public void TestAudioYmts()
{
StringBuilder sb = new StringBuilder();
Dictionary<uint, int> allids = new Dictionary<uint, int>();
foreach (RpfFile file in AllRpfs)
{
foreach (RpfEntry entry in file.AllEntries)
{
try
{
var n = entry.NameLower;
if (n.EndsWith(".ymt"))
{
UpdateStatus(string.Format(entry.Path));
//YmtFile ymtfile = RpfMan.GetFile<YmtFile>(entry);
//if ((ymtfile != null))
//{
//}
var sn = entry.GetShortName();
uint un;
if (uint.TryParse(sn, out un))
{
if (allids.ContainsKey(un))
{
allids[un] = allids[un] + 1;
}
else
{
allids[un] = 1;
//ushort s1 = (ushort)(un & 0x1FFFu);
//ushort s2 = (ushort)((un >> 13) & 0x1FFFu);
uint s1 = un % 80000;
uint s2 = (un / 80000);
float f1 = s1 / 5000.0f;
float f2 = s2 / 5000.0f;
sb.AppendFormat("{0}, {1}, 0, {2}\r\n", f1, f2, sn);
}
}
}
}
catch (Exception ex)
{
UpdateStatus("Error! " + ex.ToString());
}
}
}
var skeys = allids.Keys.ToList();
skeys.Sort();
var hkeys = new List<string>();
foreach (var skey in skeys)
{
FlagsUint fu = new FlagsUint(skey);
//hkeys.Add(skey.ToString("X"));
hkeys.Add(fu.Bin);
}
string nstr = string.Join("\r\n", hkeys.ToArray());
string pstr = sb.ToString();
if (pstr.Length > 0)
{ }
}
public void TestAudioAwcs()
{
StringBuilder sb = new StringBuilder();
Dictionary<uint, int> allids = new Dictionary<uint, int>();
foreach (RpfFile file in AllRpfs)
{
foreach (RpfEntry entry in file.AllEntries)
{
//try
//{
var n = entry.NameLower;
if (n.EndsWith(".awc"))
{
UpdateStatus(string.Format(entry.Path));
var awcfile = RpfMan.GetFile<AwcFile>(entry);
if (awcfile != null)
{ }
}
//}
//catch (Exception ex)
//{
// UpdateStatus("Error! " + ex.ToString());
//}
}
}
}
public void TestMetas()
{
//find all RSC meta files and generate the MetaTypes init code
MetaTypes.Clear();
foreach (RpfFile file in AllRpfs)
{
foreach (RpfEntry entry in file.AllEntries)
{
//try
{
var n = entry.NameLower;
//if (n.EndsWith(".ymap"))
//{
// UpdateStatus(string.Format(entry.Path));
// YmapFile ymapfile = RpfMan.GetFile<YmapFile>(entry);
// if ((ymapfile != null) && (ymapfile.Meta != null))
// {
// MetaTypes.EnsureMetaTypes(ymapfile.Meta);
// }
//}
//else if (n.EndsWith(".ytyp"))
//{
// UpdateStatus(string.Format(entry.Path));
// YtypFile ytypfile = RpfMan.GetFile<YtypFile>(entry);
// if ((ytypfile != null) && (ytypfile.Meta != null))
// {
// MetaTypes.EnsureMetaTypes(ytypfile.Meta);
// }
//}
//else if (n.EndsWith(".ymt"))
//{
// UpdateStatus(string.Format(entry.Path));
// YmtFile ymtfile = RpfMan.GetFile<YmtFile>(entry);
// if ((ymtfile != null) && (ymtfile.Meta != null))
// {
// MetaTypes.EnsureMetaTypes(ymtfile.Meta);
// }
//}
if (n.EndsWith(".ymap") || n.EndsWith(".ytyp") || n.EndsWith(".ymt"))
{
var rfe = entry as RpfResourceFileEntry;
if (rfe == null) continue;
UpdateStatus(string.Format(entry.Path));
var data = rfe.File.ExtractFile(rfe);
ResourceDataReader rd = new ResourceDataReader(rfe, data);
var meta = rd.ReadBlock<Meta>();
var xml = MetaXml.GetXml(meta);
var xdoc = new XmlDocument();
xdoc.LoadXml(xml);
var meta2 = XmlMeta.GetMeta(xdoc);
var xml2 = MetaXml.GetXml(meta2);
if (xml.Length != xml2.Length)
{ }
if ((xml != xml2) && (!n.EndsWith("srl.ymt") && !n.StartsWith("des_")))
{ }
}
}
//catch (Exception ex)
//{
// UpdateStatus("Error! " + ex.ToString());
//}
}
}
string str = MetaTypes.GetTypesInitString();
}
public void TestPsos()
{
//find all PSO meta files and generate the PsoTypes init code
PsoTypes.Clear();
var exceptions = new List<Exception>();
var allpsos = new List<string>();
var diffpsos = new List<string>();
foreach (RpfFile file in AllRpfs)
{
foreach (RpfEntry entry in file.AllEntries)
{
#if !DEBUG
try
#endif
{
var n = entry.NameLower;
if (!(n.EndsWith(".pso") ||
n.EndsWith(".ymt") ||
n.EndsWith(".ymf") ||
n.EndsWith(".ymap") ||
n.EndsWith(".ytyp") ||
n.EndsWith(".cut")))
continue; //PSO files seem to only have these extensions
var fentry = entry as RpfFileEntry;
var data = entry.File.ExtractFile(fentry);
if (data != null)
{
using (MemoryStream ms = new MemoryStream(data))
{
if (PsoFile.IsPSO(ms))
{
UpdateStatus(string.Format(entry.Path));
var pso = new PsoFile();
pso.Load(ms);
allpsos.Add(fentry.Path);
PsoTypes.EnsurePsoTypes(pso);
var xml = PsoXml.GetXml(pso);
if (!string.IsNullOrEmpty(xml))
{ }
var xdoc = new XmlDocument();
xdoc.LoadXml(xml);
var pso2 = XmlPso.GetPso(xdoc);
var pso2b = pso2.Save();
var pso3 = new PsoFile();
pso3.Load(pso2b);
var xml3 = PsoXml.GetXml(pso3);
if (xml.Length != xml3.Length)
{ }
if (xml != xml3)
{
diffpsos.Add(fentry.Path);
}
//if (entry.NameLower == "clip_sets.ymt")
//{ }
//if (entry.NameLower == "vfxinteriorinfo.ymt")
//{ }
//if (entry.NameLower == "vfxvehicleinfo.ymt")
//{ }
//if (entry.NameLower == "vfxpedinfo.ymt")
//{ }
//if (entry.NameLower == "vfxregioninfo.ymt")
//{ }
//if (entry.NameLower == "vfxweaponinfo.ymt")
//{ }
//if (entry.NameLower == "physicstasks.ymt")
//{ }
}
}
}
}
#if !DEBUG
catch (Exception ex)
{
UpdateStatus("Error! " + ex.ToString());
exceptions.Add(ex);
}
#endif
}
}
string allpsopaths = string.Join("\r\n", allpsos);
string diffpsopaths = string.Join("\r\n", diffpsos);
string str = PsoTypes.GetTypesInitString();
if (!string.IsNullOrEmpty(str))
{
}
}
public void TestRbfs()
{
var exceptions = new List<Exception>();
var allrbfs = new List<string>();
var diffrbfs = new List<string>();
foreach (RpfFile file in AllRpfs)
{
foreach (RpfEntry entry in file.AllEntries)
{
var n = entry.NameLower;
if (!(n.EndsWith(".ymt") ||
n.EndsWith(".ymf") ||
n.EndsWith(".ymap") ||
n.EndsWith(".ytyp") ||
n.EndsWith(".cut")))
continue; //PSO files seem to only have these extensions
var fentry = entry as RpfFileEntry;
var data = entry.File.ExtractFile(fentry);
if (data != null)
{
using (MemoryStream ms = new MemoryStream(data))
{
if (RbfFile.IsRBF(ms))
{
UpdateStatus(string.Format(entry.Path));
var rbf = new RbfFile();
rbf.Load(ms);
allrbfs.Add(fentry.Path);
var xml = RbfXml.GetXml(rbf);
if (!string.IsNullOrEmpty(xml))
{ }
var xdoc = new XmlDocument();
xdoc.LoadXml(xml);
var rbf2 = XmlRbf.GetRbf(xdoc);
var rbf2b = rbf2.Save();
var rbf3 = new RbfFile();
rbf3.Load(rbf2b);
var xml3 = RbfXml.GetXml(rbf3);
if (xml.Length != xml3.Length)
{ }
if (xml != xml3)
{
diffrbfs.Add(fentry.Path);
}
if (data.Length != rbf2b.Length)
{
//File.WriteAllBytes("C:\\GitHub\\CodeWalkerResearch\\RBF\\" + fentry.Name + ".dat0", data);
//File.WriteAllBytes("C:\\GitHub\\CodeWalkerResearch\\RBF\\" + fentry.Name + ".dat1", rbf2b);
}
else
{
for (int i = 0; i < data.Length; i++)
{
if (data[i] != rbf2b[i])
{
diffrbfs.Add(fentry.Path);
break;
}
}
}
}
}
}
}
}
string allrbfpaths = string.Join("\r\n", allrbfs);
string diffrbfpaths = string.Join("\r\n", diffrbfs);
}
public void TestCuts()
{
var exceptions = new List<Exception>();
foreach (RpfFile file in AllRpfs)
{
foreach (RpfEntry entry in file.AllEntries)
{
#if !DEBUG
try
#endif
{
var rfe = entry as RpfFileEntry;
if (rfe == null) continue;
if (rfe.NameLower.EndsWith(".cut"))
{
UpdateStatus(string.Format(entry.Path));
CutFile cut = new CutFile(rfe);
RpfMan.LoadFile(cut, rfe);
//PsoTypes.EnsurePsoTypes(cut.Pso);
}
}
#if !DEBUG
catch (Exception ex)
{
UpdateStatus("Error! " + ex.ToString());
exceptions.Add(ex);
}
#endif
}
}
string str = PsoTypes.GetTypesInitString();
if (!string.IsNullOrEmpty(str))
{
}
}
public void TestYlds()
{
var exceptions = new List<Exception>();
foreach (RpfFile file in AllRpfs)
{
foreach (RpfEntry entry in file.AllEntries)
{
#if !DEBUG
try
#endif
{
var rfe = entry as RpfFileEntry;
if (rfe == null) continue;
if (rfe.NameLower.EndsWith(".yld"))
{
UpdateStatus(string.Format(entry.Path));
YldFile yld = new YldFile(rfe);
RpfMan.LoadFile(yld, rfe);
}
}
#if !DEBUG
catch (Exception ex)
{
UpdateStatus("Error! " + ex.ToString());
exceptions.Add(ex);
}
#endif
}
}
if (exceptions.Count > 0)
{ }
}
public void TestYeds()
{
var exceptions = new List<Exception>();
foreach (RpfFile file in AllRpfs)
{
foreach (RpfEntry entry in file.AllEntries)
{
#if !DEBUG
try
#endif
{
var rfe = entry as RpfFileEntry;
if (rfe == null) continue;
if (rfe.NameLower.EndsWith(".yed"))
{
UpdateStatus(string.Format(entry.Path));
YedFile yed = new YedFile(rfe);
RpfMan.LoadFile(yed, rfe);
}
}
#if !DEBUG
catch (Exception ex)
{
UpdateStatus("Error! " + ex.ToString());
exceptions.Add(ex);
}
#endif
}
}
if (exceptions.Count > 0)
{ }
}
public void TestYcds()
{
bool savetest = false;
var errorfiles = new List<YcdFile>();
var errorentries = new List<RpfEntry>();
foreach (RpfFile file in AllRpfs)
{
foreach (RpfEntry entry in file.AllEntries)
{
//try
//{
if (entry.NameLower.EndsWith(".ycd"))
{
UpdateStatus(string.Format(entry.Path));
YcdFile ycd1 = RpfMan.GetFile<YcdFile>(entry);
if (ycd1 == null)
{
errorentries.Add(entry);
}
else if (ycd1?.LoadException != null)
{
errorfiles.Add(ycd1);//these ones have file corruption issues and won't load as resource...
}
else if (savetest)
{
if (ycd1.ClipDictionary == null)
{ continue; }
//var data1 = ycd1.Save();
var xml = YcdXml.GetXml(ycd1);
var ycdX = XmlYcd.GetYcd(xml);
var data = ycdX.Save();
var ycd2 = new YcdFile();
RpfFile.LoadResourceFile(ycd2, data, 46);//full roundtrip
{
if (ycd2 == null)
{ continue; }
if (ycd2.ClipDictionary == null)
{ continue; }
var c1 = ycd1.ClipDictionary.Clips?.data_items;
var c2 = ycd2.ClipDictionary.Clips?.data_items;
if ((c1 == null) || (c2 == null))
{ continue; }
if (c1.Length != c2.Length)
{ continue; }
var a1 = ycd1.ClipDictionary.Animations?.Animations?.data_items;
var a2 = ycd2.ClipDictionary.Animations?.Animations?.data_items;
if ((a1 == null) || (a2 == null))
{ continue; }
if (a1.Length != a2.Length)
{ continue; }
var m1 = ycd1.AnimMap;
var m2 = ycd2.AnimMap;
if ((m1 == null) || (m2 == null))
{ continue; }
if (m1.Count != m2.Count)
{ continue; }
foreach (var kvp1 in m1)
{
var an1 = kvp1.Value;
var an2 = an1;
if (!m2.TryGetValue(kvp1.Key, out an2))
{ continue; }
var sa1 = an1?.Animation?.Sequences?.data_items;
var sa2 = an2?.Animation?.Sequences?.data_items;
if ((sa1 == null) || (sa2 == null))
{ continue; }
if (sa1.Length != sa2.Length)
{ continue; }
for (int s = 0; s < sa1.Length; s++)
{
var s1 = sa1[s];
var s2 = sa2[s];
if ((s1?.Sequences == null) || (s2?.Sequences == null))
{ continue; }
if (s1.NumFrames != s2.NumFrames)
{ }
if (s1.ChunkSize != s2.ChunkSize)
{ }
if (s1.FrameOffset != s2.FrameOffset)
{ }
if (s1.DataLength != s2.DataLength)
{ }
else
{
//for (int b = 0; b < s1.DataLength; b++)
//{
// var b1 = s1.Data[b];
// var b2 = s2.Data[b];
// if (b1 != b2)
// { }
//}
}
for (int ss = 0; ss < s1.Sequences.Length; ss++)
{
var ss1 = s1.Sequences[ss];
var ss2 = s2.Sequences[ss];
if ((ss1?.Channels == null) || (ss2?.Channels == null))
{ continue; }
if (ss1.Channels.Length != ss2.Channels.Length)
{ continue; }
for (int c = 0; c < ss1.Channels.Length; c++)
{
var sc1 = ss1.Channels[c];
var sc2 = ss2.Channels[c];
if ((sc1 == null) || (sc2 == null))
{ continue; }
if (sc1.Type == AnimChannelType.LinearFloat)
{ continue; }
if (sc1.Type != sc2.Type)
{ continue; }
if (sc1.Index != sc2.Index)
{ continue; }
if (sc1.Type == AnimChannelType.StaticQuaternion)
{
var acsq1 = sc1 as AnimChannelStaticQuaternion;
var acsq2 = sc2 as AnimChannelStaticQuaternion;
var vdiff = acsq1.Value - acsq2.Value;
var len = vdiff.Length();
var v1len = Math.Max(acsq1.Value.Length(), 1);
if (len > 1e-2f * v1len)
{ continue; }
}
else if (sc1.Type == AnimChannelType.StaticVector3)
{
var acsv1 = sc1 as AnimChannelStaticVector3;
var acsv2 = sc2 as AnimChannelStaticVector3;
var vdiff = acsv1.Value - acsv2.Value;
var len = vdiff.Length();
var v1len = Math.Max(acsv1.Value.Length(), 1);
if (len > 1e-2f * v1len)
{ continue; }
}
else if (sc1.Type == AnimChannelType.StaticFloat)
{
var acsf1 = sc1 as AnimChannelStaticFloat;
var acsf2 = sc2 as AnimChannelStaticFloat;
var vdiff = Math.Abs(acsf1.Value - acsf2.Value);
var v1len = Math.Max(Math.Abs(acsf1.Value), 1);
if (vdiff > 1e-2f * v1len)
{ continue; }
}
else if (sc1.Type == AnimChannelType.RawFloat)
{
var acrf1 = sc1 as AnimChannelRawFloat;
var acrf2 = sc2 as AnimChannelRawFloat;
for (int v = 0; v < acrf1.Values.Length; v++)
{
var v1 = acrf1.Values[v];
var v2 = acrf2.Values[v];
var vdiff = Math.Abs(v1 - v2);
var v1len = Math.Max(Math.Abs(v1), 1);
if (vdiff > 1e-2f * v1len)
{ break; }
}
}
else if (sc1.Type == AnimChannelType.QuantizeFloat)
{
var acqf1 = sc1 as AnimChannelQuantizeFloat;
var acqf2 = sc2 as AnimChannelQuantizeFloat;
if (acqf1.ValueBits != acqf2.ValueBits)
{ continue; }
if (Math.Abs(acqf1.Offset - acqf2.Offset) > (0.001f * Math.Abs(acqf1.Offset)))
{ continue; }
if (Math.Abs(acqf1.Quantum - acqf2.Quantum) > 0.00001f)
{ continue; }
for (int v = 0; v < acqf1.Values.Length; v++)
{
var v1 = acqf1.Values[v];
var v2 = acqf2.Values[v];
var vdiff = Math.Abs(v1 - v2);
var v1len = Math.Max(Math.Abs(v1), 1);
if (vdiff > 1e-2f * v1len)
{ break; }
}
}
else if (sc1.Type == AnimChannelType.IndirectQuantizeFloat)
{
var aciqf1 = sc1 as AnimChannelIndirectQuantizeFloat;
var aciqf2 = sc2 as AnimChannelIndirectQuantizeFloat;
if (aciqf1.FrameBits != aciqf2.FrameBits)
{ continue; }
if (aciqf1.ValueBits != aciqf2.ValueBits)
{ continue; }
if (Math.Abs(aciqf1.Offset - aciqf2.Offset) > (0.001f * Math.Abs(aciqf1.Offset)))
{ continue; }
if (Math.Abs(aciqf1.Quantum - aciqf2.Quantum) > 0.00001f)
{ continue; }
for (int f = 0; f < aciqf1.Frames.Length; f++)
{
if (aciqf1.Frames[f] != aciqf2.Frames[f])
{ break; }
}
for (int v = 0; v < aciqf1.Values.Length; v++)
{
var v1 = aciqf1.Values[v];
var v2 = aciqf2.Values[v];
var vdiff = Math.Abs(v1 - v2);
var v1len = Math.Max(Math.Abs(v1), 1);
if (vdiff > 1e-2f * v1len)
{ break; }
}
}
else if ((sc1.Type == AnimChannelType.CachedQuaternion1) || (sc1.Type == AnimChannelType.CachedQuaternion2))
{
var acrf1 = sc1 as AnimChannelCachedQuaternion;
var acrf2 = sc2 as AnimChannelCachedQuaternion;
if (acrf1.QuatIndex != acrf2.QuatIndex)
{ continue; }
}
}
//for (int f = 0; f < s1.NumFrames; f++)
//{
// var v1 = ss1.EvaluateVector(f);
// var v2 = ss2.EvaluateVector(f);
// var vdiff = v1 - v2;
// var len = vdiff.Length();
// var v1len = Math.Max(v1.Length(), 1);
// if (len > 1e-2f*v1len)
// { }
//}
}
}
}
}
}
}
//if (entry.NameLower.EndsWith(".awc")) //awcs can also contain clip dicts..
//{
// UpdateStatus(string.Format(entry.Path));
// AwcFile awcfile = RpfMan.GetFile<AwcFile>(entry);
// if ((awcfile != null))
// { }
//}
//}
//catch (Exception ex)
//{
// UpdateStatus("Error! " + ex.ToString());
//}
}
}
if (errorfiles.Count > 0)
{ }
}
public void TestYtds()
{
bool ddstest = false;
bool savetest = false;
var errorfiles = new List<RpfEntry>();
foreach (RpfFile file in AllRpfs)
{
foreach (RpfEntry entry in file.AllEntries)
{
//try
{
if (entry.NameLower.EndsWith(".ytd"))
{
UpdateStatus(string.Format(entry.Path));
YtdFile ytdfile = null;
try
{
ytdfile = RpfMan.GetFile<YtdFile>(entry);
}
catch(Exception ex)
{
UpdateStatus("Error! " + ex.ToString());
errorfiles.Add(entry);
}
if (ddstest && (ytdfile != null) && (ytdfile.TextureDict != null))
{
foreach (var tex in ytdfile.TextureDict.Textures.data_items)
{
var dds = Utils.DDSIO.GetDDSFile(tex);
var tex2 = Utils.DDSIO.GetTexture(dds);
if (!tex.Name.StartsWith("script_rt"))
{
if (tex.Data?.FullData?.Length != tex2.Data?.FullData?.Length)
{ }
if (tex.Stride != tex2.Stride)
{ }
}
if ((tex.Format != tex2.Format) || (tex.Width != tex2.Width) || (tex.Height != tex2.Height) || (tex.Depth != tex2.Depth) || (tex.Levels != tex2.Levels))
{ }
}
}
if (savetest && (ytdfile != null) && (ytdfile.TextureDict != null))
{
var fentry = entry as RpfFileEntry;
if (fentry == null)
{ continue; } //shouldn't happen
var bytes = ytdfile.Save();
string origlen = TextUtil.GetBytesReadable(fentry.FileSize);
string bytelen = TextUtil.GetBytesReadable(bytes.Length);
if (ytdfile.TextureDict.Textures?.Count == 0)
{ }
var ytd2 = new YtdFile();
//ytd2.Load(bytes, fentry);
RpfFile.LoadResourceFile(ytd2, bytes, 13);
if (ytd2.TextureDict == null)
{ continue; }
if (ytd2.TextureDict.Textures?.Count != ytdfile.TextureDict.Textures?.Count)
{ continue; }
for (int i = 0; i < ytdfile.TextureDict.Textures.Count; i++)
{
var tx1 = ytdfile.TextureDict.Textures[i];
var tx2 = ytd2.TextureDict.Textures[i];
var td1 = tx1.Data;
var td2 = tx2.Data;
if (td1.FullData.Length != td2.FullData.Length)
{ continue; }
for (int j = 0; j < td1.FullData.Length; j++)
{
if (td1.FullData[j] != td2.FullData[j])
{ break; }
}
}
}
}
}
//catch (Exception ex)
//{
// UpdateStatus("Error! " + ex.ToString());
//}
}
}
if (errorfiles.Count > 0)
{ }
}
public void TestYbns()
{
bool xmltest = false;
bool savetest = false;
bool reloadtest = false;
var errorfiles = new List<RpfEntry>();
foreach (RpfFile file in AllRpfs)
{
foreach (RpfEntry entry in file.AllEntries)
{
//try
{
if (entry.NameLower.EndsWith(".ybn"))
{
UpdateStatus(string.Format(entry.Path));
YbnFile ybn = null;
try
{
ybn = RpfMan.GetFile<YbnFile>(entry);
}
catch (Exception ex)
{
UpdateStatus("Error! " + ex.ToString());
errorfiles.Add(entry);
}
if (xmltest && (ybn != null) && (ybn.Bounds != null))
{
var xml = YbnXml.GetXml(ybn);
var ybn2 = XmlYbn.GetYbn(xml);
var xml2 = YbnXml.GetXml(ybn2);
if (xml.Length != xml2.Length)
{ }
}
if (savetest && (ybn != null) && (ybn.Bounds != null))
{
var fentry = entry as RpfFileEntry;
if (fentry == null)
{ continue; } //shouldn't happen
var bytes = ybn.Save();
if (!reloadtest)
{ continue; }
string origlen = TextUtil.GetBytesReadable(fentry.FileSize);
string bytelen = TextUtil.GetBytesReadable(bytes.Length);
var ybn2 = new YbnFile();
RpfFile.LoadResourceFile(ybn2, bytes, 43);
if (ybn2.Bounds == null)
{ continue; }
if (ybn2.Bounds.Type != ybn.Bounds.Type)
{ continue; }
//quick check of roundtrip
switch (ybn2.Bounds.Type)
{
case BoundsType.Sphere:
{
var a = ybn.Bounds as BoundSphere;
var b = ybn2.Bounds as BoundSphere;
if (b == null)
{ continue; }
break;
}
case BoundsType.Capsule:
{
var a = ybn.Bounds as BoundCapsule;
var b = ybn2.Bounds as BoundCapsule;
if (b == null)
{ continue; }
break;
}
case BoundsType.Box:
{
var a = ybn.Bounds as BoundBox;
var b = ybn2.Bounds as BoundBox;
if (b == null)
{ continue; }
break;
}
case BoundsType.Geometry:
{
var a = ybn.Bounds as BoundGeometry;
var b = ybn2.Bounds as BoundGeometry;
if (b == null)
{ continue; }
if (a.Polygons?.Length != b.Polygons?.Length)
{ continue; }
for (int i = 0; i < a.Polygons.Length; i++)
{
var pa = a.Polygons[i];
var pb = b.Polygons[i];
if (pa.Type != pb.Type)
{ }
}
break;
}
case BoundsType.GeometryBVH:
{
var a = ybn.Bounds as BoundBVH;
var b = ybn2.Bounds as BoundBVH;
if (b == null)
{ continue; }
if (a.BVH?.Nodes?.data_items?.Length != b.BVH?.Nodes?.data_items?.Length)
{ }
if (a.Polygons?.Length != b.Polygons?.Length)
{ continue; }
for (int i = 0; i < a.Polygons.Length; i++)
{
var pa = a.Polygons[i];
var pb = b.Polygons[i];
if (pa.Type != pb.Type)
{ }
}
break;
}
case BoundsType.Composite:
{
var a = ybn.Bounds as BoundComposite;
var b = ybn2.Bounds as BoundComposite;
if (b == null)
{ continue; }
if (a.Children?.data_items?.Length != b.Children?.data_items?.Length)
{ }
break;
}
case BoundsType.Disc:
{
var a = ybn.Bounds as BoundDisc;
var b = ybn2.Bounds as BoundDisc;
if (b == null)
{ continue; }
break;
}
case BoundsType.Cylinder:
{
var a = ybn.Bounds as BoundCylinder;
var b = ybn2.Bounds as BoundCylinder;
if (b == null)
{ continue; }
break;
}
case BoundsType.Cloth:
{
var a = ybn.Bounds as BoundCloth;
var b = ybn2.Bounds as BoundCloth;
if (b == null)
{ continue; }
break;
}
default: //return null; // throw new Exception("Unknown bound type");
break;
}
}
}
}
//catch (Exception ex)
//{
// UpdateStatus("Error! " + ex.ToString());
//}
}
}
if (errorfiles.Count > 0)
{ }
}
public void TestYdrs()
{
bool savetest = false;
bool boundsonly = true;
var errorfiles = new List<RpfEntry>();
foreach (RpfFile file in AllRpfs)
{
foreach (RpfEntry entry in file.AllEntries)
{
//try
{
if (entry.NameLower.EndsWith(".ydr"))
{
UpdateStatus(string.Format(entry.Path));
YdrFile ydr = null;
try
{
ydr = RpfMan.GetFile<YdrFile>(entry);
}
catch (Exception ex)
{
UpdateStatus("Error! " + ex.ToString());
errorfiles.Add(entry);
}
if (savetest && (ydr != null) && (ydr.Drawable != null))
{
var fentry = entry as RpfFileEntry;
if (fentry == null)
{ continue; } //shouldn't happen
if (boundsonly && (ydr.Drawable.Bound == null))
{ continue; }
var bytes = ydr.Save();
string origlen = TextUtil.GetBytesReadable(fentry.FileSize);
string bytelen = TextUtil.GetBytesReadable(bytes.Length);
var ydr2 = new YdrFile();
RpfFile.LoadResourceFile(ydr2, bytes, 165);
if (ydr2.Drawable == null)
{ continue; }
if (ydr2.Drawable.AllModels?.Length != ydr.Drawable.AllModels?.Length)
{ continue; }
}
}
}
//catch (Exception ex)
//{
// UpdateStatus("Error! " + ex.ToString());
//}
}
}
if (errorfiles.Count != 13)
{ }
}
public void TestYdds()
{
bool savetest = false;
var errorfiles = new List<RpfEntry>();
foreach (RpfFile file in AllRpfs)
{
foreach (RpfEntry entry in file.AllEntries)
{
//try
{
if (entry.NameLower.EndsWith(".ydd"))
{
UpdateStatus(string.Format(entry.Path));
YddFile ydd = null;
try
{
ydd = RpfMan.GetFile<YddFile>(entry);
}
catch (Exception ex)
{
UpdateStatus("Error! " + ex.ToString());
errorfiles.Add(entry);
}
if (savetest && (ydd != null) && (ydd.DrawableDict != null))
{
var fentry = entry as RpfFileEntry;
if (fentry == null)
{ continue; } //shouldn't happen
var bytes = ydd.Save();
string origlen = TextUtil.GetBytesReadable(fentry.FileSize);
string bytelen = TextUtil.GetBytesReadable(bytes.Length);
var ydd2 = new YddFile();
RpfFile.LoadResourceFile(ydd2, bytes, 165);
if (ydd2.DrawableDict == null)
{ continue; }
if (ydd2.DrawableDict.Drawables?.Count != ydd.DrawableDict.Drawables?.Count)
{ continue; }
}
if (ydd?.DrawableDict?.Hashes != null)
{
uint h = 0;
foreach (uint th in ydd.DrawableDict.Hashes)
{
if (th <= h)
{ } //should never happen
h = th;
}
}
}
}
//catch (Exception ex)
//{
// UpdateStatus("Error! " + ex.ToString());
//}
}
}
if (errorfiles.Count > 0)
{ }
}
public void TestYfts()
{
bool savetest = false;
var errorfiles = new List<RpfEntry>();
var sb = new StringBuilder();
var flagdict = new Dictionary<uint, int>();
foreach (RpfFile file in AllRpfs)
{
foreach (RpfEntry entry in file.AllEntries)
{
//try
{
if (entry.NameLower.EndsWith(".yft"))
{
UpdateStatus(string.Format(entry.Path));
YftFile yft = null;
try
{
yft = RpfMan.GetFile<YftFile>(entry);
}
catch (Exception ex)
{
UpdateStatus("Error! " + ex.ToString());
errorfiles.Add(entry);
}
if (savetest && (yft != null) && (yft.Fragment != null))
{
var fentry = entry as RpfFileEntry;
if (fentry == null)
{ continue; } //shouldn't happen
var bytes = yft.Save();
string origlen = TextUtil.GetBytesReadable(fentry.FileSize);
string bytelen = TextUtil.GetBytesReadable(bytes.Length);
var yft2 = new YftFile();
RpfFile.LoadResourceFile(yft2, bytes, 162);
if (yft2.Fragment == null)
{ continue; }
if (yft2.Fragment.Drawable?.AllModels?.Length != yft.Fragment.Drawable?.AllModels?.Length)
{ continue; }
}
if (yft?.Fragment?.GlassWindows?.data_items != null)
{
var lastf = -1;
for (int i = 0; i < yft.Fragment.GlassWindows.data_items.Length; i++)
{
var w = yft.Fragment.GlassWindows.data_items[i];
if (w.Flags == lastf) continue;
lastf = w.Flags;
flagdict.TryGetValue(w.Flags, out int n);
if (n < 10)
{
flagdict[w.Flags] = n + 1;
sb.AppendLine(entry.Path + " Window " + i.ToString() + ": Flags " + w.Flags.ToString() + ", Low:" + w.FlagsLo.ToString() + ", High:" + w.FlagsHi.ToString());
}
}
}
}
}
//catch (Exception ex)
//{
// UpdateStatus("Error! " + ex.ToString());
//}
}
}
var teststr = sb.ToString();
if (errorfiles.Count > 0)
{ }
}
public void TestYpts()
{
var savetest = false;
var errorfiles = new List<RpfEntry>();
foreach (RpfFile file in AllRpfs)
{
foreach (RpfEntry entry in file.AllEntries)
{
//try
{
if (entry.NameLower.EndsWith(".ypt"))
{
UpdateStatus(string.Format(entry.Path));
YptFile ypt = null;
try
{
ypt = RpfMan.GetFile<YptFile>(entry);
}
catch (Exception ex)
{
UpdateStatus("Error! " + ex.ToString());
errorfiles.Add(entry);
}
if (savetest && (ypt != null) && (ypt.PtfxList != null))
{
var fentry = entry as RpfFileEntry;
if (fentry == null)
{ continue; } //shouldn't happen
var bytes = ypt.Save();
string origlen = TextUtil.GetBytesReadable(fentry.FileSize);
string bytelen = TextUtil.GetBytesReadable(bytes.Length);
var ypt2 = new YptFile();
RpfFile.LoadResourceFile(ypt2, bytes, 68);
if (ypt2.PtfxList == null)
{ continue; }
if (ypt2.PtfxList.Name?.Value != ypt.PtfxList.Name?.Value)
{ continue; }
}
}
}
//catch (Exception ex)
//{
// UpdateStatus("Error! " + ex.ToString());
//}
}
}
if (errorfiles.Count > 0)
{ }
}
public void TestYnvs()
{
bool xmltest = true;
var savetest = false;
var errorfiles = new List<RpfEntry>();
foreach (RpfFile file in AllRpfs)
{
foreach (RpfEntry entry in file.AllEntries)
{
//try
{
if (entry.NameLower.EndsWith(".ynv"))
{
UpdateStatus(string.Format(entry.Path));
YnvFile ynv = null;
try
{
ynv = RpfMan.GetFile<YnvFile>(entry);
}
catch (Exception ex)
{
UpdateStatus("Error! " + ex.ToString());
errorfiles.Add(entry);
}
if (xmltest && (ynv != null) && (ynv.Nav != null))
{
var xml = YnvXml.GetXml(ynv);
if (xml != null)
{ }
var ynv2 = XmlYnv.GetYnv(xml);
if (ynv2 != null)
{ }
var ynv2b = ynv2.Save();
if (ynv2b != null)
{ }
var ynv3 = new YnvFile();
RpfFile.LoadResourceFile(ynv3, ynv2b, 2);
var xml3 = YnvXml.GetXml(ynv3);
if (xml.Length != xml3.Length)
{ }
var xmllines = xml.Split('\n');
var xml3lines = xml3.Split('\n');
if (xmllines.Length != xml3lines.Length)
{ }
}
if (savetest && (ynv != null) && (ynv.Nav != null))
{
var fentry = entry as RpfFileEntry;
if (fentry == null)
{ continue; } //shouldn't happen
var bytes = ynv.Save();
string origlen = TextUtil.GetBytesReadable(fentry.FileSize);
string bytelen = TextUtil.GetBytesReadable(bytes.Length);
var ynv2 = new YnvFile();
RpfFile.LoadResourceFile(ynv2, bytes, 2);
if (ynv2.Nav == null)
{ continue; }
}
}
}
//catch (Exception ex)
//{
// UpdateStatus("Error! " + ex.ToString());
//}
}
}
if (errorfiles.Count > 0)
{ }
}
public void TestYmaps()
{
foreach (RpfFile file in AllRpfs)
{
foreach (RpfEntry entry in file.AllEntries)
{
try
{
if (entry.NameLower.EndsWith(".ymap"))
{
UpdateStatus(string.Format(entry.Path));
YmapFile ymapfile = RpfMan.GetFile<YmapFile>(entry);
if ((ymapfile != null))// && (ymapfile.Meta != null))
{ }
}
}
catch (Exception ex)
{
UpdateStatus("Error! " + ex.ToString());
}
}
}
}
public void TestMrfs()
{
foreach (RpfFile file in AllRpfs)
{
foreach (RpfEntry entry in file.AllEntries)
{
try
{
if (entry.NameLower.EndsWith(".mrf"))
{
UpdateStatus(string.Format(entry.Path));
MrfFile mrffile = RpfMan.GetFile<MrfFile>(entry);
if (mrffile != null)
{ }
}
}
catch (Exception ex)
{
UpdateStatus("Error! " + ex.ToString());
}
}
}
}
public void TestPlacements()
{
//int totplacements = 0;
//int tottimedplacements = 0;
//int totaudioplacements = 0;
//StringBuilder sbtest = new StringBuilder();
//StringBuilder sbterr = new StringBuilder();
//sbtest.AppendLine("X, Y, Z, name, assetName, drawableDictionary, textureDictionary, ymap");
//foreach (RpfFile file in RpfMan.AllRpfs)
//{
// foreach (RpfEntry entry in file.AllEntries)
// {
// try
// {
// if (entry.NameLower.EndsWith(".ymap"))
// {
// UpdateStatus(string.Format(entry.Path));
// YmapFile ymapfile = RpfMan.GetFile<YmapFile>(entry);
// if ((ymapfile != null))// && (ymapfile.Meta != null))
// {
// //if (ymapfile.CMapData.parent == 0) //root ymap output
// //{
// // sbtest.AppendLine(JenkIndex.GetString(ymapfile.CMapData.name) + ": " + entry.Path);
// //}
// if (ymapfile.CEntityDefs != null)
// {
// for (int n = 0; n < ymapfile.CEntityDefs.Length; n++)
// {
// //find ytyp...
// var entdef = ymapfile.CEntityDefs[n];
// var pos = entdef.position;
// bool istimed = false;
// Tuple<YtypFile, int> archetyp;
// if (!BaseArchetypes.TryGetValue(entdef.archetypeName, out archetyp))
// {
// sbterr.AppendLine("Couldn't find ytyp for " + entdef.ToString());
// }
// else
// {
// int ymapbasecount = (archetyp.Item1.CBaseArchetypeDefs != null) ? archetyp.Item1.CBaseArchetypeDefs.Length : 0;
// int baseoffset = archetyp.Item2 - ymapbasecount;
// if (baseoffset >= 0)
// {
// if ((archetyp.Item1.CTimeArchetypeDefs == null) || (baseoffset > archetyp.Item1.CTimeArchetypeDefs.Length))
// {
// sbterr.AppendLine("Couldn't lookup CTimeArchetypeDef... " + archetyp.ToString());
// continue;
// }
// istimed = true;
// //it's a CTimeArchetypeDef...
// CTimeArchetypeDef ctad = archetyp.Item1.CTimeArchetypeDefs[baseoffset];
// //if (ctad.ToString().Contains("spider"))
// //{
// //}
// //sbtest.AppendFormat("{0}, {1}, {2}, {3}, {4}", pos.X, pos.Y, pos.Z, ctad.ToString(), entry.Name);
// //sbtest.AppendLine();
// tottimedplacements++;
// }
// totplacements++;
// }
// Tuple<YtypFile, int> audiotyp;
// if (AudioArchetypes.TryGetValue(entdef.archetypeName, out audiotyp))
// {
// if (istimed)
// {
// }
// if (!BaseArchetypes.TryGetValue(entdef.archetypeName, out archetyp))
// {
// sbterr.AppendLine("Couldn't find ytyp for " + entdef.ToString());
// }
// if (audiotyp.Item1 != archetyp.Item1)
// {
// }
// CBaseArchetypeDef cbad = archetyp.Item1.CBaseArchetypeDefs[archetyp.Item2];
// CExtensionDefAudioEmitter emitr = audiotyp.Item1.AudioEmitters[audiotyp.Item2];
// if (emitr.name != cbad.name)
// {
// }
// string hashtest = JenkIndex.GetString(emitr.effectHash);
// sbtest.AppendFormat("{0}, {1}, {2}, {3}, {4}, {5}", pos.X, pos.Y, pos.Z, cbad.ToString(), entry.Name, hashtest);
// sbtest.AppendLine();
// totaudioplacements++;
// }
// }
// }
// //if (ymapfile.TimeCycleModifiers != null)
// //{
// // for (int n = 0; n < ymapfile.TimeCycleModifiers.Length; n++)
// // {
// // var tcmod = ymapfile.TimeCycleModifiers[n];
// // Tuple<YtypFile, int> archetyp;
// // if (BaseArchetypes.TryGetValue(tcmod.name, out archetyp))
// // {
// // }
// // else
// // {
// // }
// // }
// //}
// }
// }
// }
// catch (Exception ex)
// {
// sbterr.AppendLine(entry.Path + ": " + ex.ToString());
// }
// }
//}
//UpdateStatus("Ymap scan finished.");
//sbtest.AppendLine();
//sbtest.AppendLine(totplacements.ToString() + " total CEntityDef placements parsed");
//sbtest.AppendLine(tottimedplacements.ToString() + " total CTimeArchetypeDef placements");
//sbtest.AppendLine(totaudioplacements.ToString() + " total CExtensionDefAudioEmitter placements");
//string teststr = sbtest.ToString();
//string testerr = sbterr.ToString();
//return;
}
public void TestDrawables()
{
DateTime starttime = DateTime.Now;
bool doydr = false;
bool doydd = false;
bool doyft = true;
List<string> errs = new List<string>();
Dictionary<ulong, VertexDeclaration> vdecls = new Dictionary<ulong, VertexDeclaration>();
Dictionary<ulong, int> vdecluse = new Dictionary<ulong, int>();
int drawablecount = 0;
foreach (RpfFile file in AllRpfs)
{
foreach (RpfEntry entry in file.AllEntries)
{
try
{
if (doydr && entry.NameLower.EndsWith(".ydr"))
{
UpdateStatus(entry.Path);
YdrFile ydr = RpfMan.GetFile<YdrFile>(entry);
if (ydr == null)
{
errs.Add(entry.Path + ": Couldn't read file");
continue;
}
if (ydr.Drawable == null)
{
errs.Add(entry.Path + ": Couldn't read drawable data");
continue;
}
drawablecount++;
foreach (var kvp in ydr.Drawable.VertexDecls)
{
if (!vdecls.ContainsKey(kvp.Key))
{
vdecls.Add(kvp.Key, kvp.Value);
vdecluse.Add(kvp.Key, 1);
}
else
{
vdecluse[kvp.Key]++;
}
}
}
else if (doydd & entry.NameLower.EndsWith(".ydd"))
{
UpdateStatus(entry.Path);
YddFile ydd = RpfMan.GetFile<YddFile>(entry);
if (ydd == null)
{
errs.Add(entry.Path + ": Couldn't read file");
continue;
}
if (ydd.Dict == null)
{
errs.Add(entry.Path + ": Couldn't read drawable dictionary data");
continue;
}
foreach (var drawable in ydd.Dict.Values)
{
drawablecount++;
foreach (var kvp in drawable.VertexDecls)
{
if (!vdecls.ContainsKey(kvp.Key))
{
vdecls.Add(kvp.Key, kvp.Value);
vdecluse.Add(kvp.Key, 1);
}
else
{
vdecluse[kvp.Key]++;
}
}
}
}
else if (doyft && entry.NameLower.EndsWith(".yft"))
{
UpdateStatus(entry.Path);
YftFile yft = RpfMan.GetFile<YftFile>(entry);
if (yft == null)
{
errs.Add(entry.Path + ": Couldn't read file");
continue;
}
if (yft.Fragment == null)
{
errs.Add(entry.Path + ": Couldn't read fragment data");
continue;
}
if (yft.Fragment.Drawable != null)
{
drawablecount++;
foreach (var kvp in yft.Fragment.Drawable.VertexDecls)
{
if (!vdecls.ContainsKey(kvp.Key))
{
vdecls.Add(kvp.Key, kvp.Value);
vdecluse.Add(kvp.Key, 1);
}
else
{
vdecluse[kvp.Key]++;
}
}
}
if ((yft.Fragment.Cloths != null) && (yft.Fragment.Cloths.data_items != null))
{
foreach (var cloth in yft.Fragment.Cloths.data_items)
{
drawablecount++;
foreach (var kvp in cloth.Drawable.VertexDecls)
{
if (!vdecls.ContainsKey(kvp.Key))
{
vdecls.Add(kvp.Key, kvp.Value);
vdecluse.Add(kvp.Key, 1);
}
else
{
vdecluse[kvp.Key]++;
}
}
}
}
if ((yft.Fragment.DrawableArray != null) && (yft.Fragment.DrawableArray.data_items != null))
{
foreach (var drawable in yft.Fragment.DrawableArray.data_items)
{
drawablecount++;
foreach (var kvp in drawable.VertexDecls)
{
if (!vdecls.ContainsKey(kvp.Key))
{
vdecls.Add(kvp.Key, kvp.Value);
vdecluse.Add(kvp.Key, 1);
}
else
{
vdecluse[kvp.Key]++;
}
}
}
}
}
}
catch (Exception ex)
{
errs.Add(entry.Path + ": " + ex.ToString());
}
}
}
string errstr = string.Join("\r\n", errs);
//build vertex types code string
errs.Clear();
StringBuilder sbverts = new StringBuilder();
foreach (var kvp in vdecls)
{
var vd = kvp.Value;
int usage = vdecluse[kvp.Key];
sbverts.AppendFormat("public struct VertexType{0} //id: {1}, stride: {2}, flags: {3}, types: {4}, refs: {5}", vd.Flags, kvp.Key, vd.Stride, vd.Flags, vd.Types, usage);
sbverts.AppendLine();
sbverts.AppendLine("{");
uint compid = 1;
for (int i = 0; i < 16; i++)
{
if (((vd.Flags >> i) & 1) == 1)
{
string typestr = "Unknown";
uint type = (uint)(((ulong)vd.Types >> (4 * i)) & 0xF);
switch (type)
{
case 0: typestr = "ushort"; break;// Data[i] = new ushort[1 * count]; break;
case 1: typestr = "ushort2"; break;// Data[i] = new ushort[2 * count]; break;
case 2: typestr = "ushort3"; break;// Data[i] = new ushort[3 * count]; break;
case 3: typestr = "ushort4"; break;// Data[i] = new ushort[4 * count]; break;
case 4: typestr = "float"; break;// Data[i] = new float[1 * count]; break;
case 5: typestr = "Vector2"; break;// Data[i] = new float[2 * count]; break;
case 6: typestr = "Vector3"; break;// Data[i] = new float[3 * count]; break;
case 7: typestr = "Vector4"; break;// Data[i] = new float[4 * count]; break;
case 8: typestr = "uint"; break;// Data[i] = new uint[count]; break;
case 9: typestr = "uint"; break;// Data[i] = new uint[count]; break;
case 10: typestr = "uint"; break;// Data[i] = new uint[count]; break;
default:
break;
}
sbverts.AppendLine(" public " + typestr + " Component" + compid.ToString() + ";");
compid++;
}
}
sbverts.AppendLine("}");
sbverts.AppendLine();
}
string vertstr = sbverts.ToString();
string verrstr = string.Join("\r\n", errs);
UpdateStatus((DateTime.Now - starttime).ToString() + " elapsed, " + drawablecount.ToString() + " drawables, " + errs.Count.ToString() + " errors.");
}
public void TestHeightmaps()
{
var errorfiles = new List<RpfEntry>();
foreach (RpfFile file in AllRpfs)
{
foreach (RpfEntry entry in file.AllEntries)
{
if (entry.NameLower.EndsWith(".dat") && entry.NameLower.StartsWith("heightmap"))
{
UpdateStatus(string.Format(entry.Path));
HeightmapFile hmf = null;
hmf = RpfMan.GetFile<HeightmapFile>(entry);
var d1 = hmf.RawFileData;
//var d2 = hmf.Save();
var xml = HmapXml.GetXml(hmf);
var hmf2 = XmlHmap.GetHeightmap(xml);
var d2 = hmf2.Save();
if (d1.Length == d2.Length)
{
for (int i = 0; i < d1.Length; i++)
{
if (d1[i] != d2[i])
{ }
}
}
else
{ }
}
}
}
if (errorfiles.Count > 0)
{ }
}
public void TestWatermaps()
{
var errorfiles = new List<RpfEntry>();
foreach (RpfFile file in AllRpfs)
{
foreach (RpfEntry entry in file.AllEntries)
{
if (entry.NameLower.EndsWith(".dat") && entry.NameLower.StartsWith("waterheight"))
{
UpdateStatus(string.Format(entry.Path));
WatermapFile wmf = null;
wmf = RpfMan.GetFile<WatermapFile>(entry);
//var d1 = wmf.RawFileData;
//var d2 = wmf.Save();
//var xml = WatermapXml.GetXml(wmf);
//var wmf2 = XmlWatermap.GetWatermap(xml);
//var d2 = wmf2.Save();
//if (d1.Length == d2.Length)
//{
// for (int i = 0; i < d1.Length; i++)
// {
// if (d1[i] != d2[i])
// { }
// }
//}
//else
//{ }
}
}
}
if (errorfiles.Count > 0)
{ }
}
public void GetShadersXml()
{
bool doydr = true;
bool doydd = true;
bool doyft = true;
bool doypt = true;
var data = new Dictionary<MetaHash, ShaderXmlDataCollection>();
void collectDrawable(DrawableBase d)
{
if (d?.AllModels == null) return;
foreach (var model in d.AllModels)
{
if (model?.Geometries == null) continue;
foreach (var geom in model.Geometries)
{
var s = geom?.Shader;
if (s == null) continue;
ShaderXmlDataCollection dc = null;
if (!data.TryGetValue(s.Name, out dc))
{
dc = new ShaderXmlDataCollection();
dc.Name = s.Name;
data.Add(s.Name, dc);
}
dc.AddShaderUse(s, geom);
}
}
}
foreach (RpfFile file in AllRpfs)
{
foreach (RpfEntry entry in file.AllEntries)
{
try
{
if (doydr && entry.NameLower.EndsWith(".ydr"))
{
UpdateStatus(entry.Path);
YdrFile ydr = RpfMan.GetFile<YdrFile>(entry);
if (ydr == null) { continue; }
if (ydr.Drawable == null) { continue; }
collectDrawable(ydr.Drawable);
}
else if (doydd & entry.NameLower.EndsWith(".ydd"))
{
UpdateStatus(entry.Path);
YddFile ydd = RpfMan.GetFile<YddFile>(entry);
if (ydd == null) { continue; }
if (ydd.Dict == null) { continue; }
foreach (var drawable in ydd.Dict.Values)
{
collectDrawable(drawable);
}
}
else if (doyft && entry.NameLower.EndsWith(".yft"))
{
UpdateStatus(entry.Path);
YftFile yft = RpfMan.GetFile<YftFile>(entry);
if (yft == null) { continue; }
if (yft.Fragment == null) { continue; }
if (yft.Fragment.Drawable != null)
{
collectDrawable(yft.Fragment.Drawable);
}
if ((yft.Fragment.Cloths != null) && (yft.Fragment.Cloths.data_items != null))
{
foreach (var cloth in yft.Fragment.Cloths.data_items)
{
collectDrawable(cloth.Drawable);
}
}
if ((yft.Fragment.DrawableArray != null) && (yft.Fragment.DrawableArray.data_items != null))
{
foreach (var drawable in yft.Fragment.DrawableArray.data_items)
{
collectDrawable(drawable);
}
}
}
else if (doypt && entry.NameLower.EndsWith(".ypt"))
{
UpdateStatus(entry.Path);
YptFile ypt = RpfMan.GetFile<YptFile>(entry);
if (ypt == null) { continue; }
if (ypt.DrawableDict == null) { continue; }
foreach (var drawable in ypt.DrawableDict.Values)
{
collectDrawable(drawable);
}
}
}
catch //(Exception ex)
{ }
}
}
var shaders = data.Values.ToList();
shaders.Sort((a, b) => { return b.GeomCount.CompareTo(a.GeomCount); });
StringBuilder sb = new StringBuilder();
sb.AppendLine(MetaXml.XmlHeader);
MetaXml.OpenTag(sb, 0, "Shaders");
foreach (var s in shaders)
{
MetaXml.OpenTag(sb, 1, "Item");
MetaXml.StringTag(sb, 2, "Name", MetaXml.HashString(s.Name));
MetaXml.WriteHashItemArray(sb, s.GetSortedList(s.FileNames).ToArray(), 2, "FileName");
MetaXml.WriteRawArray(sb, s.GetSortedList(s.RenderBuckets).ToArray(), 2, "RenderBucket", "");
MetaXml.OpenTag(sb, 2, "Layout");
var layouts = s.GetSortedList(s.VertexLayouts);
foreach (var l in layouts)
{
var vd = new VertexDeclaration();
vd.Types = l.Types;
vd.Flags = l.Flags;
vd.WriteXml(sb, 3, "Item");
}
MetaXml.CloseTag(sb, 2, "Layout");
MetaXml.OpenTag(sb, 2, "Parameters");
var otstr = "Item name=\"{0}\" type=\"{1}\"";
var texparams = s.GetSortedList(s.TexParams);
var valparams = s.ValParams;
var arrparams = s.ArrParams;
foreach (var tp in texparams)
{
MetaXml.SelfClosingTag(sb, 3, string.Format(otstr, ((ShaderParamNames)tp).ToString(), "Texture"));
}
foreach (var vp in valparams)
{
var svp = s.GetSortedList(vp.Value);
var defval = svp.FirstOrDefault();
MetaXml.SelfClosingTag(sb, 3, string.Format(otstr, ((ShaderParamNames)vp.Key).ToString(), "Vector") + " " + FloatUtil.GetVector4XmlString(defval));
}
foreach (var ap in arrparams)
{
var defval = ap.Value.FirstOrDefault();
MetaXml.OpenTag(sb, 3, string.Format(otstr, ((ShaderParamNames)ap.Key).ToString(), "Array"));
foreach (var vec in defval)
{
MetaXml.SelfClosingTag(sb, 4, "Value " + FloatUtil.GetVector4XmlString(vec));
}
MetaXml.CloseTag(sb, 3, "Item");
}
MetaXml.CloseTag(sb, 2, "Parameters");
MetaXml.CloseTag(sb, 1, "Item");
}
MetaXml.CloseTag(sb, 0, "Shaders");
var xml = sb.ToString();
File.WriteAllText("C:\\Shaders.xml", xml);
}
public void GetArchetypeTimesList()
{
StringBuilder sb = new StringBuilder();
sb.AppendLine("Name,AssetName,12am,1am,2am,3am,4am,5am,6am,7am,8am,9am,10am,11am,12pm,1pm,2pm,3pm,4pm,5pm,6pm,7pm,8pm,9pm,10pm,11pm,+12am,+1am,+2am,+3am,+4am,+5am,+6am,+7am");
foreach (var ytyp in YtypDict.Values)
{
foreach (var arch in ytyp.AllArchetypes)
{
if (arch.Type == MetaName.CTimeArchetypeDef)
{
var ta = arch as TimeArchetype;
var t = ta.TimeFlags;
sb.Append(arch.Name);
sb.Append(",");
sb.Append(arch.AssetName);
sb.Append(",");
for (int i = 0; i < 32; i++)
{
bool v = ((t >> i) & 1) == 1;
sb.Append(v ? "1" : "0");
sb.Append(",");
}
sb.AppendLine();
}
}
}
var csv = sb.ToString();
}
private class ShaderXmlDataCollection
{
public MetaHash Name { get; set; }
public Dictionary<MetaHash, int> FileNames { get; set; } = new Dictionary<MetaHash, int>();
public Dictionary<byte, int> RenderBuckets { get; set; } = new Dictionary<byte, int>();
public Dictionary<ShaderXmlVertexLayout, int> VertexLayouts { get; set; } = new Dictionary<ShaderXmlVertexLayout, int>();
public Dictionary<MetaName, int> TexParams { get; set; } = new Dictionary<MetaName, int>();
public Dictionary<MetaName, Dictionary<Vector4, int>> ValParams { get; set; } = new Dictionary<MetaName, Dictionary<Vector4, int>>();
public Dictionary<MetaName, List<Vector4[]>> ArrParams { get; set; } = new Dictionary<MetaName, List<Vector4[]>>();
public int GeomCount { get; set; } = 0;
public void AddShaderUse(ShaderFX s, DrawableGeometry g)
{
GeomCount++;
AddItem(s.FileName, FileNames);
AddItem(s.RenderBucket, RenderBuckets);
var info = g.VertexBuffer?.Info;
if (info != null)
{
AddItem(new ShaderXmlVertexLayout() { Flags = info.Flags, Types = info.Types }, VertexLayouts);
}
if (s.ParametersList?.Parameters == null) return;
if (s.ParametersList?.Hashes == null) return;
for (int i = 0; i < s.ParametersList.Count; i++)
{
var h = s.ParametersList.Hashes[i];
var p = s.ParametersList.Parameters[i];
if (p.DataType == 0)//texture
{
AddItem(h, TexParams);
}
else if (p.DataType == 1)//vector
{
var vp = GetItem(h, ValParams);
if (p.Data is Vector4 vec)
{
AddItem(vec, vp);
}
}
else if (p.DataType > 1)//array
{
var ap = GetItem(h, ArrParams);
if (p.Data is Vector4[] arr)
{
bool found = false;
foreach (var exarr in ap)
{
if (exarr.Length != arr.Length) continue;
bool match = true;
for (int j = 0; j < exarr.Length; j++)
{
if (exarr[j] != arr[j])
{
match = false;
break;
}
}
if (match)
{
found = true;
break;
}
}
if (!found)
{
ap.Add(arr);
}
}
}
}
}
public void AddItem<T>(T t, Dictionary<T, int> d)
{
if (d.ContainsKey(t))
{
d[t]++;
}
else
{
d[t] = 1;
}
}
public U GetItem<T, U>(T t, Dictionary<T, U> d) where U:new()
{
U r = default(U);
if (!d.TryGetValue(t, out r))
{
r = new U();
d[t] = r;
}
return r;
}
public List<T> GetSortedList<T>(Dictionary<T, int> d)
{
var kvps = d.ToList();
kvps.Sort((a, b) => { return b.Value.CompareTo(a.Value); });
return kvps.Select((a) => { return a.Key; }).ToList();
}
}
private struct ShaderXmlVertexLayout
{
public VertexDeclarationTypes Types { get; set; }
public uint Flags { get; set; }
public VertexType VertexType { get { return (VertexType)Flags; } }
public override string ToString()
{
return Types.ToString() + ", " + VertexType.ToString();
}
}
}
}