/* ** texturemanager.cpp ** The texture manager class ** **--------------------------------------------------------------------------- ** Copyright 2004-2008 Randy Heit ** Copyright 2006-2008 Christoph Oelckers ** All rights reserved. ** ** Redistribution and use in source and binary forms, with or without ** modification, are permitted provided that the following conditions ** are met: ** ** 1. Redistributions of source code must retain the above copyright ** notice, this list of conditions and the following disclaimer. ** 2. Redistributions in binary form must reproduce the above copyright ** notice, this list of conditions and the following disclaimer in the ** documentation and/or other materials provided with the distribution. ** 3. The name of the author may not be used to endorse or promote products ** derived from this software without specific prior written permission. ** ** THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR ** IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES ** OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. ** IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, ** INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT ** NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, ** DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY ** THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT ** (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF ** THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. **--------------------------------------------------------------------------- ** ** */ #include "filesystem.h" #include "printf.h" #include "c_cvars.h" #include "gstrings.h" #include "textures.h" #include "texturemanager.h" #include "c_dispatch.h" #include "sc_man.h" #include "image.h" #include "vectors.h" #include "animtexture.h" #include "formats/multipatchtexture.h" #include "basics.h" #include "cmdlib.h" using namespace FileSys; FTextureManager TexMan; //========================================================================== // // FTextureManager :: FTextureManager // //========================================================================== FTextureManager::FTextureManager () { memset (HashFirst, -1, sizeof(HashFirst)); for (int i = 0; i < 2048; ++i) { sintable[i] = short(sin(i*(pi::pi() / 1024)) * 16384); } } //========================================================================== // // FTextureManager :: ~FTextureManager // //========================================================================== FTextureManager::~FTextureManager () { DeleteAll(); } //========================================================================== // // FTextureManager :: DeleteAll // //========================================================================== void FTextureManager::DeleteAll() { for (unsigned int i = 0; i < Textures.Size(); ++i) { delete Textures[i].Texture; } FImageSource::ClearImages(); Textures.Clear(); Translation.Clear(); FirstTextureForFile.Clear(); memset (HashFirst, -1, sizeof(HashFirst)); DefaultTexture.SetInvalid(); BuildTileData.Clear(); tmanips.Clear(); } //========================================================================== // // Flushes all hardware dependent data. // This must not, under any circumstances, delete the wipe textures, because // all CCMDs triggering a flush can be executed while a wipe is in progress // // This now also deletes the software textures because the software // renderer can also use the texture scalers and that is the // main reason to call this outside of the destruction code. // //========================================================================== void FTextureManager::FlushAll() { for (int i = TexMan.NumTextures() - 1; i >= 0; i--) { for (int j = 0; j < 2; j++) { Textures[i].Texture->CleanHardwareData(); delete Textures[i].Texture->GetSoftwareTexture(); calcShouldUpscale(Textures[i].Texture); Textures[i].Texture->SetSoftwareTexture(nullptr); } } } //========================================================================== // // Examines the lump contents to decide what type of texture to create, // and creates the texture. // //========================================================================== static FTexture* CreateTextureFromLump(int lumpnum, bool allowflats = false) { if (lumpnum == -1) return nullptr; auto image = FImageSource::GetImage(lumpnum, allowflats); if (image != nullptr) { return new FImageTexture(image); } return nullptr; } //========================================================================== // // FTextureManager :: CheckForTexture // //========================================================================== FTextureID FTextureManager::CheckForTexture (const char *name, ETextureType usetype, BITFIELD flags) { int i; int firstfound = -1; auto firsttype = ETextureType::Null; if (name == NULL || name[0] == '\0') { return FTextureID(-1); } // [RH] Doom counted anything beginning with '-' as "no texture". // Hopefully nobody made use of that and had textures like "-EMPTY", // because -NOFLAT- is a valid graphic for ZDoom. if (name[0] == '-' && name[1] == '\0') { return FTextureID(0); } for(i = HashFirst[MakeKey(name) % HASH_SIZE]; i != HASH_END; i = Textures[i].HashNext) { auto tex = Textures[i].Texture; if (stricmp (tex->GetName(), name) == 0 ) { // If we look for short names, we must ignore any long name texture. if ((flags & TEXMAN_ShortNameOnly) && tex->isFullNameTexture()) { continue; } auto texUseType = tex->GetUseType(); // The name matches, so check the texture type if (usetype == ETextureType::Any) { if (flags & TEXMAN_ReturnAll) return FTextureID(i); // user asked to skip all checks, including null textures. // All NULL textures should actually return 0 if (texUseType == ETextureType::FirstDefined && !(flags & TEXMAN_ReturnFirst)) return 0; if (texUseType == ETextureType::SkinGraphic && !(flags & TEXMAN_AllowSkins)) return 0; return FTextureID(texUseType==ETextureType::Null ? 0 : i); } else if ((flags & TEXMAN_Overridable) && texUseType == ETextureType::Override) { return FTextureID(i); } else if (texUseType == usetype) { return FTextureID(i); } else if (texUseType == ETextureType::FirstDefined && usetype == ETextureType::Wall) { if (!(flags & TEXMAN_ReturnFirst)) return FTextureID(0); else return FTextureID(i); } else if (texUseType == ETextureType::Null && usetype == ETextureType::Wall) { // We found a NULL texture on a wall -> return 0 return FTextureID(0); } else { if (firsttype == ETextureType::Null || (firsttype == ETextureType::MiscPatch && texUseType != firsttype && texUseType != ETextureType::Null) ) { firstfound = i; firsttype = texUseType; } } } } if ((flags & TEXMAN_TryAny) && usetype != ETextureType::Any) { // Never return the index of NULL textures. if (firstfound != -1) { if (flags & TEXMAN_ReturnAll) return FTextureID(i); // user asked to skip all checks, including null textures. if (firsttype == ETextureType::Null) return FTextureID(0); if (firsttype == ETextureType::FirstDefined && !(flags & TEXMAN_ReturnFirst)) return FTextureID(0); return FTextureID(firstfound); } } if (!(flags & TEXMAN_ShortNameOnly)) { // We intentionally only look for textures in subdirectories. // Any graphic being placed in the zip's root directory can not be found by this. if (strchr(name, '/') || (flags & TEXMAN_ForceLookup)) { FGameTexture *const NO_TEXTURE = (FGameTexture*)-1; // marker for lumps we already checked that do not map to a texture. int lump = fileSystem.CheckNumForFullName(name); if (lump >= 0) { FGameTexture *tex = GetLinkedTexture(lump); if (tex == NO_TEXTURE) return FTextureID(-1); if (tex != NULL) return tex->GetID(); if (flags & TEXMAN_DontCreate) return FTextureID(-1); // we only want to check, there's no need to create a texture if we don't have one yet. tex = MakeGameTexture(CreateTextureFromLump(lump), nullptr, ETextureType::Override); if (tex != NULL) { tex->AddAutoMaterials(); SetLinkedTexture(lump, tex); return AddGameTexture(tex); } else { // mark this lump as having no valid texture so that we don't have to retry creating one later. SetLinkedTexture(lump, NO_TEXTURE); } } } } if (!(flags & TEXMAN_NoAlias)) { int* alias = aliases.CheckKey(name); if (alias) return FTextureID(*alias); } return FTextureID(-1); } //========================================================================== // // FTextureManager :: ListTextures // //========================================================================== int FTextureManager::ListTextures (const char *name, TArray &list, bool listall) { int i; if (name == NULL || name[0] == '\0') { return 0; } // [RH] Doom counted anything beginning with '-' as "no texture". // Hopefully nobody made use of that and had textures like "-EMPTY", // because -NOFLAT- is a valid graphic for ZDoom. if (name[0] == '-' && name[1] == '\0') { return 0; } i = HashFirst[MakeKey (name) % HASH_SIZE]; while (i != HASH_END) { auto tex = Textures[i].Texture; if (stricmp (tex->GetName(), name) == 0) { auto texUseType = tex->GetUseType(); // NULL textures must be ignored. if (texUseType!=ETextureType::Null) { unsigned int j = list.Size(); if (!listall) { for (j = 0; j < list.Size(); j++) { // Check for overriding definitions from newer WADs if (Textures[list[j].GetIndex()].Texture->GetUseType() == texUseType) break; } } if (j==list.Size()) list.Push(FTextureID(i)); } } i = Textures[i].HashNext; } return list.Size(); } //========================================================================== // // FTextureManager :: GetTextures // //========================================================================== FTextureID FTextureManager::GetTextureID (const char *name, ETextureType usetype, BITFIELD flags) { FTextureID i; if (name == NULL || name[0] == 0) { return FTextureID(0); } else { i = CheckForTexture (name, usetype, flags | TEXMAN_TryAny); } if (!i.Exists()) { // Use a default texture instead of aborting like Doom did Printf ("Unknown texture: \"%s\"\n", name); i = DefaultTexture; } return FTextureID(i); } //========================================================================== // // FTextureManager :: FindTexture // //========================================================================== FGameTexture *FTextureManager::FindGameTexture(const char *texname, ETextureType usetype, BITFIELD flags) { FTextureID texnum = CheckForTexture (texname, usetype, flags); return GetGameTexture(texnum.GetIndex()); } //========================================================================== // // FTextureManager :: OkForLocalization // //========================================================================== bool FTextureManager::OkForLocalization(FTextureID texnum, const char *substitute, int locmode) { uint32_t langtable = 0; if (*substitute == '$') substitute = GStrings.GetString(substitute+1, &langtable); else return true; // String literals from the source data should never override graphics from the same definition. if (substitute == nullptr) return true; // The text does not exist. // Modes 2, 3 and 4 must not replace localized textures. int localizedTex = ResolveLocalizedTexture(texnum.GetIndex()); if (localizedTex != texnum.GetIndex()) return true; // Do not substitute a localized variant of the graphics patch. // For mode 4 we are done now. if (locmode == 4) return false; // Mode 2 and 3 must reject any text replacement from the default language tables. if ((langtable & MAKE_ID(255,0,0,0)) == MAKE_ID('*', 0, 0, 0)) return true; // Do not substitute if the string comes from the default table. if (locmode == 2) return false; // Mode 3 must also reject substitutions for non-IWAD content. int file = fileSystem.GetFileContainer(Textures[texnum.GetIndex()].Texture->GetSourceLump()); if (file > fileSystem.GetMaxIwadNum()) return true; return false; } //========================================================================== // // FTextureManager :: AddTexture // //========================================================================== FTextureID FTextureManager::AddGameTexture (FGameTexture *texture, bool addtohash) { int bucket; int hash; if (texture == NULL) return FTextureID(-1); if (texture->GetTexture()) { // Later textures take precedence over earlier ones calcShouldUpscale(texture); // calculate this once at insertion } // Textures without name can't be looked for if (addtohash && texture->GetName().IsNotEmpty()) { bucket = int(MakeKey (texture->GetName()) % HASH_SIZE); hash = HashFirst[bucket]; } else { bucket = -1; hash = -1; } TextureDescriptor hasher = { texture, -1, -1, -1, hash }; int trans = Textures.Push (hasher); Translation.Push (trans); if (bucket >= 0) HashFirst[bucket] = trans; auto id = FTextureID(trans); texture->SetID(id); return id; } //========================================================================== // // FTextureManager :: CreateTexture // // Calls FTexture::CreateTexture and adds the texture to the manager. // //========================================================================== FTextureID FTextureManager::CreateTexture (int lumpnum, ETextureType usetype) { if (lumpnum != -1) { FString str; if (!usefullnames) str = fileSystem.GetFileShortName(lumpnum); else { auto fn = fileSystem.GetFileFullName(lumpnum); str = ExtractFileBase(fn); } auto out = MakeGameTexture(CreateTextureFromLump(lumpnum, usetype == ETextureType::Flat), str, usetype); if (out != NULL) { if (usetype == ETextureType::Flat) { int w = out->GetTexelWidth(); int h = out->GetTexelHeight(); // Auto-scale flats with dimensions 128x128 and 256x256. // In hindsight, a bad idea, but RandomLag made it sound better than it really is. // Now we're stuck with this stupid behaviour. if (w == 128 && h == 128) { out->SetScale(2, 2); out->SetWorldPanning(true); } else if (w == 256 && h == 256) { out->SetScale(4, 4); out->SetWorldPanning(true); } } return AddGameTexture(out); } else { Printf (TEXTCOLOR_ORANGE "Invalid data encountered for texture %s\n", fileSystem.GetFileFullPath(lumpnum).c_str()); return FTextureID(-1); } } return FTextureID(-1); } //========================================================================== // // FTextureManager :: ReplaceTexture // //========================================================================== void FTextureManager::ReplaceTexture (FTextureID texid, FGameTexture *newtexture, bool free) { int index = texid.GetIndex(); if (unsigned(index) >= Textures.Size()) return; if (newtexture->GetTexture()) { calcShouldUpscale(newtexture); // calculate this once at insertion } auto oldtexture = Textures[index].Texture; newtexture->SetName(oldtexture->GetName()); newtexture->SetUseType(oldtexture->GetUseType()); Textures[index].Texture = newtexture; newtexture->SetID(oldtexture->GetID()); oldtexture->SetName(""); AddGameTexture(oldtexture); } //========================================================================== // // FTextureManager :: AreTexturesCompatible // // Checks if 2 textures are compatible for a ranged animation // //========================================================================== bool FTextureManager::AreTexturesCompatible (FTextureID picnum1, FTextureID picnum2) { int index1 = picnum1.GetIndex(); int index2 = picnum2.GetIndex(); if (unsigned(index1) >= Textures.Size() || unsigned(index2) >= Textures.Size()) return false; auto texture1 = Textures[index1].Texture; auto texture2 = Textures[index2].Texture; // both textures must be the same type. if (texture1 == NULL || texture2 == NULL || texture1->GetUseType() != texture2->GetUseType()) return false; // both textures must be from the same file for(unsigned i = 0; i < FirstTextureForFile.Size() - 1; i++) { if (index1 >= FirstTextureForFile[i] && index1 < FirstTextureForFile[i+1]) { return (index2 >= FirstTextureForFile[i] && index2 < FirstTextureForFile[i+1]); } } return false; } //========================================================================== // // FTextureManager :: AddGroup // //========================================================================== void FTextureManager::AddGroup(int wadnum, int ns, ETextureType usetype) { int firsttx = fileSystem.GetFirstEntry(wadnum); int lasttx = fileSystem.GetLastEntry(wadnum); if (!usefullnames) { // Go from first to last so that ANIMDEFS work as expected. However, // to avoid duplicates (and to keep earlier entries from overriding // later ones), the texture is only inserted if it is the one returned // by doing a check by name in the list of wads. for (; firsttx <= lasttx; ++firsttx) { auto Name = fileSystem.GetFileShortName(firsttx); if (fileSystem.GetFileNamespace(firsttx) == ns) { if (fileSystem.CheckNumForName(Name, ns) == firsttx) { CreateTexture(firsttx, usetype); } progressFunc(); } else if (ns == ns_flats && fileSystem.GetFileFlags(firsttx) & LUMPF_MAYBEFLAT) { if (fileSystem.CheckNumForName(Name, ns) < firsttx) { CreateTexture(firsttx, usetype); } progressFunc(); } } } else { // The duplicate check does not work with this (yet.) for (; firsttx <= lasttx; ++firsttx) { if (fileSystem.GetFileNamespace(firsttx) == ns) { CreateTexture(firsttx, usetype); } } } } //========================================================================== // // Adds all hires texture definitions. // //========================================================================== void FTextureManager::AddHiresTextures (int wadnum) { int firsttx = fileSystem.GetFirstEntry(wadnum); int lasttx = fileSystem.GetLastEntry(wadnum); TArray tlist; if (firsttx == -1 || lasttx == -1) { return; } for (;firsttx <= lasttx; ++firsttx) { if (fileSystem.GetFileNamespace(firsttx) == ns_hires) { auto Name = fileSystem.GetFileShortName(firsttx); if (fileSystem.CheckNumForName (Name, ns_hires) == firsttx) { tlist.Clear(); int amount = ListTextures(Name, tlist); if (amount == 0) { // A texture with this name does not yet exist auto newtex = MakeGameTexture(CreateTextureFromLump(firsttx), Name, ETextureType::Override); if (newtex != NULL) { AddGameTexture(newtex); } } else { for(unsigned int i = 0; i < tlist.Size(); i++) { FTexture * newtex = CreateTextureFromLump(firsttx); if (newtex != NULL) { auto oldtex = Textures[tlist[i].GetIndex()].Texture; // Replace the entire texture and adjust the scaling and offset factors. auto gtex = MakeGameTexture(newtex, nullptr, ETextureType::Override); gtex->SetWorldPanning(true); gtex->SetDisplaySize(oldtex->GetDisplayWidth(), oldtex->GetDisplayHeight()); double xscale1 = oldtex->GetTexelLeftOffset(0) * gtex->GetScaleX() / oldtex->GetScaleX(); double xscale2 = oldtex->GetTexelLeftOffset(1) * gtex->GetScaleX() / oldtex->GetScaleX(); double yscale1 = oldtex->GetTexelTopOffset(0) * gtex->GetScaleY() / oldtex->GetScaleY(); double yscale2 = oldtex->GetTexelTopOffset(1) * gtex->GetScaleY() / oldtex->GetScaleY(); gtex->SetOffsets(0, xs_RoundToInt(xscale1), xs_RoundToInt(yscale1)); gtex->SetOffsets(1, xs_RoundToInt(xscale2), xs_RoundToInt(yscale2)); ReplaceTexture(tlist[i], gtex, true); } } } progressFunc(); } } } } //========================================================================== // // Loads the HIRESTEX lumps // //========================================================================== void FTextureManager::LoadTextureDefs(int wadnum, const char *lumpname, FMultipatchTextureBuilder &build) { int texLump, lastLump; lastLump = 0; while ((texLump = fileSystem.FindLump(lumpname, &lastLump)) != -1) { if (fileSystem.GetFileContainer(texLump) == wadnum) { ParseTextureDef(texLump, build); } } } void FTextureManager::ParseTextureDef(int lump, FMultipatchTextureBuilder &build) { TArray tlist; FScanner sc(lump); while (sc.GetString()) { if (sc.Compare("remap")) // remap an existing texture { sc.MustGetString(); // allow selection by type int mode; ETextureType type; if (sc.Compare("wall")) type=ETextureType::Wall, mode=FTextureManager::TEXMAN_Overridable; else if (sc.Compare("flat")) type=ETextureType::Flat, mode=FTextureManager::TEXMAN_Overridable; else if (sc.Compare("sprite")) type=ETextureType::Sprite, mode=0; else type = ETextureType::Any, mode = 0; if (type != ETextureType::Any) sc.MustGetString(); sc.String[8]=0; tlist.Clear(); ListTextures(sc.String, tlist); FName texname = sc.String; sc.MustGetString(); int lumpnum = fileSystem.CheckNumForFullName(sc.String, true, ns_patches); if (lumpnum == -1) lumpnum = fileSystem.CheckNumForFullName(sc.String, true, ns_graphics); if (tlist.Size() == 0) { Printf("Attempting to remap non-existent texture %s to %s\n", texname.GetChars(), sc.String); } else if (lumpnum == -1) { Printf("Attempting to remap texture %s to non-existent lump %s\n", texname.GetChars(), sc.String); } else { for(unsigned int i = 0; i < tlist.Size(); i++) { auto oldtex = Textures[tlist[i].GetIndex()].Texture; int sl; // only replace matching types. For sprites also replace any MiscPatches // based on the same lump. These can be created for icons. if (oldtex->GetUseType() == type || type == ETextureType::Any || (mode == TEXMAN_Overridable && oldtex->GetUseType() == ETextureType::Override) || (type == ETextureType::Sprite && oldtex->GetUseType() == ETextureType::MiscPatch && (sl=oldtex->GetSourceLump()) >= 0 && fileSystem.GetFileNamespace(sl) == ns_sprites) ) { FTexture * newtex = CreateTextureFromLump(lumpnum); if (newtex != NULL) { // Replace the entire texture and adjust the scaling and offset factors. auto gtex = MakeGameTexture(newtex, nullptr, ETextureType::Override); gtex->SetWorldPanning(true); gtex->SetDisplaySize(oldtex->GetDisplayWidth(), oldtex->GetDisplayHeight()); double xscale1 = oldtex->GetTexelLeftOffset(0) * gtex->GetScaleX() / oldtex->GetScaleX(); double xscale2 = oldtex->GetTexelLeftOffset(1) * gtex->GetScaleX() / oldtex->GetScaleX(); double yscale1 = oldtex->GetTexelTopOffset(0) * gtex->GetScaleY() / oldtex->GetScaleY(); double yscale2 = oldtex->GetTexelTopOffset(1) * gtex->GetScaleY() / oldtex->GetScaleY(); gtex->SetOffsets(0, xs_RoundToInt(xscale1), xs_RoundToInt(yscale1)); gtex->SetOffsets(1, xs_RoundToInt(xscale2), xs_RoundToInt(yscale2)); ReplaceTexture(tlist[i], gtex, true); } } } } } else if (sc.Compare("define")) // define a new "fake" texture { sc.GetString(); FString base = ExtractFileBase(sc.String, false); if (!base.IsEmpty()) { FString src = base.Left(8); int lumpnum = fileSystem.CheckNumForFullName(sc.String, true, ns_patches); if (lumpnum == -1) lumpnum = fileSystem.CheckNumForFullName(sc.String, true, ns_graphics); sc.GetString(); bool is32bit = !!sc.Compare("force32bit"); if (!is32bit) sc.UnGet(); sc.MustGetNumber(); int width = sc.Number; sc.MustGetNumber(); int height = sc.Number; if (lumpnum>=0) { auto newtex = MakeGameTexture(CreateTextureFromLump(lumpnum), src, ETextureType::Override); if (newtex != NULL) { // Replace the entire texture and adjust the scaling and offset factors. newtex->SetWorldPanning(true); newtex->SetDisplaySize((float)width, (float)height); FTextureID oldtex = TexMan.CheckForTexture(src, ETextureType::MiscPatch); if (oldtex.isValid()) { ReplaceTexture(oldtex, newtex, true); newtex->SetUseType(ETextureType::Override); } else AddGameTexture(newtex); } } } //else Printf("Unable to define hires texture '%s'\n", tex->Name); } else if (sc.Compare("notrim")) { sc.MustGetString(); FTextureID id = TexMan.CheckForTexture(sc.String, ETextureType::Sprite); if (id.isValid()) { FGameTexture *tex = TexMan.GetGameTexture(id); if (tex) tex->SetNoTrimming(true); else sc.ScriptError("NoTrim: %s not found", sc.String); } else sc.ScriptError("NoTrim: %s is not a sprite", sc.String); } else if (sc.Compare("texture")) { build.ParseTexture(sc, ETextureType::Override, lump); } else if (sc.Compare("sprite")) { build.ParseTexture(sc, ETextureType::Sprite, lump); } else if (sc.Compare("walltexture")) { build.ParseTexture(sc, ETextureType::Wall, lump); } else if (sc.Compare("flat")) { build.ParseTexture(sc, ETextureType::Flat, lump); } else if (sc.Compare("graphic")) { build.ParseTexture(sc, ETextureType::MiscPatch, lump); } else if (sc.Compare("#include")) { sc.MustGetString(); // This is not using sc.Open because it can print a more useful error message when done here int includelump = fileSystem.CheckNumForFullName(sc.String, true); if (includelump == -1) { sc.ScriptError("Lump '%s' not found", sc.String); } else { ParseTextureDef(includelump, build); } } else { sc.ScriptError("Texture definition expected, found '%s'", sc.String); } } } //========================================================================== // // FTextureManager :: AddPatches // //========================================================================== void FTextureManager::AddPatches (int lumpnum) { auto file = fileSystem.ReopenFileReader (lumpnum, true); uint32_t numpatches, i; char name[9]; numpatches = file.ReadUInt32(); name[8] = '\0'; for (i = 0; i < numpatches; ++i) { file.Read (name, 8); if (CheckForTexture (name, ETextureType::WallPatch, 0) == -1) { CreateTexture (fileSystem.CheckNumForName (name, ns_patches), ETextureType::WallPatch); } progressFunc(); } } //========================================================================== // // FTextureManager :: LoadTexturesX // // Initializes the texture list with the textures from the world map. // //========================================================================== void FTextureManager::LoadTextureX(int wadnum, FMultipatchTextureBuilder &build) { // Use the most recent PNAMES for this WAD. // Multiple PNAMES in a WAD will be ignored. int pnames = fileSystem.CheckNumForName("PNAMES", ns_global, wadnum, false); if (pnames < 0) { // should never happen except for zdoom.pk3 return; } // Only add the patches if the PNAMES come from the current file // Otherwise they have already been processed. if (fileSystem.GetFileContainer(pnames) == wadnum) TexMan.AddPatches (pnames); int texlump1 = fileSystem.CheckNumForName ("TEXTURE1", ns_global, wadnum); int texlump2 = fileSystem.CheckNumForName ("TEXTURE2", ns_global, wadnum); build.AddTexturesLumps (texlump1, texlump2, pnames); } //========================================================================== // // FTextureManager :: AddTexturesForWad // //========================================================================== void FTextureManager::AddTexturesForWad(int wadnum, FMultipatchTextureBuilder &build) { int firsttexture = Textures.Size(); bool iwad = wadnum >= fileSystem.GetIwadNum() && wadnum <= fileSystem.GetMaxIwadNum(); FirstTextureForFile.Push(firsttexture); // First step: Load sprites AddGroup(wadnum, ns_sprites, ETextureType::Sprite); // When loading a Zip, all graphics in the patches/ directory should be // added as well. AddGroup(wadnum, ns_patches, ETextureType::WallPatch); // Second step: TEXTUREx lumps LoadTextureX(wadnum, build); // Third step: Flats AddGroup(wadnum, ns_flats, ETextureType::Flat); // Fourth step: Textures (TX_) AddGroup(wadnum, ns_newtextures, ETextureType::Override); // Sixth step: Try to find any lump in the WAD that may be a texture and load as a TEX_MiscPatch int firsttx = fileSystem.GetFirstEntry(wadnum); int lasttx = fileSystem.GetLastEntry(wadnum); for (int i= firsttx; i <= lasttx; i++) { bool skin = false; auto Name = fileSystem.GetFileShortName(i); // Ignore anything not in the global namespace int ns = fileSystem.GetFileNamespace(i); if (ns == ns_global) { // In Zips all graphics must be in a separate namespace. if (fileSystem.GetFileFlags(i) & LUMPF_FULLPATH) continue; // Ignore lumps with empty names. if (fileSystem.CheckFileName(i, "")) continue; // Ignore anything belonging to a map if (fileSystem.CheckFileName(i, "THINGS")) continue; if (fileSystem.CheckFileName(i, "LINEDEFS")) continue; if (fileSystem.CheckFileName(i, "SIDEDEFS")) continue; if (fileSystem.CheckFileName(i, "VERTEXES")) continue; if (fileSystem.CheckFileName(i, "SEGS")) continue; if (fileSystem.CheckFileName(i, "SSECTORS")) continue; if (fileSystem.CheckFileName(i, "NODES")) continue; if (fileSystem.CheckFileName(i, "SECTORS")) continue; if (fileSystem.CheckFileName(i, "REJECT")) continue; if (fileSystem.CheckFileName(i, "BLOCKMAP")) continue; if (fileSystem.CheckFileName(i, "BEHAVIOR")) continue; bool force = false; // Don't bother looking at this lump if something later overrides it. if (fileSystem.CheckNumForName(Name, ns_graphics) != i) { if (iwad) { // We need to make an exception for font characters of the SmallFont coming from the IWAD to be able to construct the original font. if (strncmp(Name, "STCFN", 5) != 0 && strncmp(Name, "FONTA", 5) != 0) continue; force = true; } else continue; } // skip this if it has already been added as a wall patch. if (!force && CheckForTexture(Name, ETextureType::WallPatch, 0).Exists()) continue; } else if (ns == ns_graphics) { if (fileSystem.CheckNumForName(Name, ns_graphics) != i) { if (iwad) { // We need to make an exception for font characters of the SmallFont coming from the IWAD to be able to construct the original font. if (strncmp(Name, "STCFN", 5) != 0 && strncmp(Name, "FONTA", 5) != 0) continue; } else continue; } } else if (ns >= ns_firstskin) { // Don't bother looking this lump if something later overrides it. if (fileSystem.CheckNumForName(Name, ns) != i) continue; skin = true; } else continue; // Try to create a texture from this lump and add it. // Unfortunately we have to look at everything that comes through here... auto out = MakeGameTexture(CreateTextureFromLump(i), Name, skin ? ETextureType::SkinGraphic : ETextureType::MiscPatch); if (out != NULL) { AddGameTexture (out); } } // Check for text based texture definitions LoadTextureDefs(wadnum, "TEXTURES", build); LoadTextureDefs(wadnum, "HIRESTEX", build); // Seventh step: Check for hires replacements. AddHiresTextures(wadnum); SortTexturesByType(firsttexture, Textures.Size()); } //========================================================================== // // FTextureManager :: SortTexturesByType // sorts newly added textures by UseType so that anything defined // in TEXTURES and HIRESTEX gets in its proper place. // //========================================================================== void FTextureManager::SortTexturesByType(int start, int end) { TArray newtextures; // First unlink all newly added textures from the hash chain for (int i = 0; i < HASH_SIZE; i++) { while (HashFirst[i] >= start && HashFirst[i] != HASH_END) { HashFirst[i] = Textures[HashFirst[i]].HashNext; } } newtextures.Resize(end-start); for(int i=start; iGetUseType() == texturetypes[i]) { AddGameTexture(newtextures[j]); newtextures[j] = NULL; } } } // This should never happen. All other UseTypes are only used outside for(unsigned j = 0; jGetName().GetChars()); AddGameTexture(newtextures[j]); } } } //========================================================================== // // FTextureManager :: AddLocalizedVariants // //========================================================================== void FTextureManager::AddLocalizedVariants() { std::vector content; fileSystem.GetFilesInFolder("localized/textures/", content, false); for (auto &entry : content) { FString name = entry.name; auto tokens = name.Split(".", FString::TOK_SKIPEMPTY); if (tokens.Size() == 2) { auto ext = tokens[1]; // Do not interpret common extensions for images as language IDs. if (ext.CompareNoCase("png") == 0 || ext.CompareNoCase("jpg") == 0 || ext.CompareNoCase("gfx") == 0 || ext.CompareNoCase("tga") == 0 || ext.CompareNoCase("lmp") == 0) { Printf("%s contains no language IDs and will be ignored\n", entry.name); continue; } } if (tokens.Size() >= 2) { FString base = ExtractFileBase(tokens[0]); FTextureID origTex = CheckForTexture(base, ETextureType::MiscPatch); if (origTex.isValid()) { FTextureID tex = CheckForTexture(entry.name, ETextureType::MiscPatch); if (tex.isValid()) { auto otex = GetGameTexture(origTex); auto ntex = GetGameTexture(tex); if (otex->GetDisplayWidth() != ntex->GetDisplayWidth() || otex->GetDisplayHeight() != ntex->GetDisplayHeight()) { Printf("Localized texture %s must be the same size as the one it replaces\n", entry.name); } else { tokens[1].ToLower(); auto langids = tokens[1].Split("-", FString::TOK_SKIPEMPTY); for (auto &lang : langids) { if (lang.Len() == 2 || lang.Len() == 3) { uint32_t langid = MAKE_ID(lang[0], lang[1], lang[2], 0); uint64_t comboid = (uint64_t(langid) << 32) | origTex.GetIndex(); LocalizedTextures.Insert(comboid, tex.GetIndex()); Textures[origTex.GetIndex()].Flags |= TEXFLAG_HASLOCALIZATION; } else { Printf("Invalid language ID in texture %s\n", entry.name); } } } } else { Printf("%s is not a texture\n", entry.name); } } else { Printf("Unknown texture %s for localized variant %s\n", tokens[0].GetChars(), entry.name); } } else { Printf("%s contains no language IDs and will be ignored\n", entry.name); } } } //========================================================================== // // FTextureManager :: Init // //========================================================================== FGameTexture *CreateShaderTexture(bool, bool); FImageSource* CreateEmptyTexture(); void FTextureManager::Init() { DeleteAll(); // Add all the static content auto nulltex = MakeGameTexture(new FImageTexture(CreateEmptyTexture()), nullptr, ETextureType::Null); AddGameTexture(nulltex); // This is for binding to unused texture units, because accessing an unbound texture unit is undefined. It's a one pixel empty texture. auto emptytex = MakeGameTexture(new FImageTexture(CreateEmptyTexture()), nullptr, ETextureType::Override); emptytex->SetSize(1, 1); AddGameTexture(emptytex); // some special textures used in the game. AddGameTexture(CreateShaderTexture(false, false)); AddGameTexture(CreateShaderTexture(false, true)); AddGameTexture(CreateShaderTexture(true, false)); AddGameTexture(CreateShaderTexture(true, true)); // Add two animtexture entries so that movie playback can call functions using texture IDs. auto mt = MakeGameTexture(new AnimTexture(), "AnimTextureFrame1", ETextureType::Override); mt->SetUpscaleFlag(false, true); AddGameTexture(mt); mt = MakeGameTexture(new AnimTexture(), "AnimTextureFrame2", ETextureType::Override); mt->SetUpscaleFlag(false, true); AddGameTexture(mt); } void FTextureManager::AddTextures(void (*progressFunc_)(), void (*checkForHacks)(BuildInfo&), void (*customtexturehandler)()) { progressFunc = progressFunc_; //if (BuildTileFiles.Size() == 0) CountBuildTiles (); int wadcnt = fileSystem.GetNumWads(); FMultipatchTextureBuilder build(*this, progressFunc_, checkForHacks); for(int i = 0; i< wadcnt; i++) { AddTexturesForWad(i, build); } build.ResolveAllPatches(); // Add one marker so that the last WAD is easier to handle and treat // custom textures as a completely separate block. FirstTextureForFile.Push(Textures.Size()); if (customtexturehandler) customtexturehandler(); FirstTextureForFile.Push(Textures.Size()); DefaultTexture = CheckForTexture ("-NOFLAT-", ETextureType::Override, 0); InitPalettedVersions(); AdjustSpriteOffsets(); // Add auto materials to each texture after everything has been set up. // Textures array can be reallocated in process, so ranged for loop is not suitable. // There is no need to process discovered material textures here, // CheckForTexture() did this already. for (unsigned int i = 0, count = Textures.Size(); i < count; ++i) { Textures[i].Texture->AddAutoMaterials(); } glPart2 = TexMan.CheckForTexture("glstuff/glpart2.png", ETextureType::MiscPatch); glPart = TexMan.CheckForTexture("glstuff/glpart.png", ETextureType::MiscPatch); mirrorTexture = TexMan.CheckForTexture("glstuff/mirror.png", ETextureType::MiscPatch); AddLocalizedVariants(); // Make sure all ID's are correct by resetting them here to the proper index. for (unsigned int i = 0, count = Textures.Size(); i < count; ++i) { Textures[i].Texture->SetID(i); } } //========================================================================== // // FTextureManager :: InitPalettedVersions // //========================================================================== void FTextureManager::InitPalettedVersions() { int lump, lastlump = 0; while ((lump = fileSystem.FindLump("PALVERS", &lastlump)) != -1) { FScanner sc(lump); while (sc.GetString()) { FTextureID pic1 = CheckForTexture(sc.String, ETextureType::Any); if (!pic1.isValid()) { sc.ScriptMessage("Unknown texture %s to replace", sc.String); } sc.MustGetString(); FTextureID pic2 = CheckForTexture(sc.String, ETextureType::Any); if (!pic2.isValid()) { sc.ScriptMessage("Unknown texture %s to use as paletted replacement", sc.String); } if (pic1.isValid() && pic2.isValid()) { Textures[pic1.GetIndex()].Paletted = pic2.GetIndex(); } } } } //========================================================================== // // // //========================================================================== FTextureID FTextureManager::GetRawTexture(FTextureID texid, bool dontlookup) { int texidx = texid.GetIndex(); if ((unsigned)texidx >= Textures.Size()) return texid; if (Textures[texidx].RawTexture != -1) return FSetTextureID(Textures[texidx].RawTexture); if (dontlookup) return texid; // Reject anything that cannot have been a front layer for the sky in original Hexen, i.e. it needs to be an unscaled wall texture only using Doom patches. auto tex = Textures[texidx].Texture; auto ttex = tex->GetTexture(); auto image = ttex->GetImage(); // Reject anything that cannot have been a single-patch multipatch texture in vanilla. if (image == nullptr || image->IsRawCompatible() || tex->GetUseType() != ETextureType::Wall || ttex->GetWidth() != tex->GetDisplayWidth() || ttex->GetHeight() != tex->GetDisplayHeight()) { Textures[texidx].RawTexture = texidx; return texid; } // Let the hackery begin auto mptimage = static_cast(image); auto source = mptimage->GetImageForPart(0); // Size must match for this to work as intended if (source->GetWidth() != ttex->GetWidth() || source->GetHeight() != ttex->GetHeight()) { Textures[texidx].RawTexture = texidx; return texid; } // Todo: later this can just link to the already existing texture for this source graphic, once it can be retrieved through the image's SourceLump index auto RawTexture = MakeGameTexture(new FImageTexture(source), nullptr, ETextureType::Wall); texid = TexMan.AddGameTexture(RawTexture); Textures[texidx].RawTexture = texid.GetIndex(); Textures[texid.GetIndex()].RawTexture = texid.GetIndex(); return texid; } //========================================================================== // // Same shit for a different hack, this time Hexen's front sky layers. // //========================================================================== FTextureID FTextureManager::GetFrontSkyLayer(FTextureID texid) { int texidx = texid.GetIndex(); if ((unsigned)texidx >= Textures.Size()) return texid; if (Textures[texidx].FrontSkyLayer != -1) return FSetTextureID(Textures[texidx].FrontSkyLayer); // Reject anything that cannot have been a front layer for the sky in original Hexen, i.e. it needs to be an unscaled wall texture only using Doom patches. auto tex = Textures[texidx].Texture; auto ttex = tex->GetTexture(); auto image = ttex->GetImage(); if (image == nullptr || !image->SupportRemap0() || tex->GetUseType() != ETextureType::Wall || tex->useWorldPanning() || tex->GetTexelTopOffset() != 0 || ttex->GetWidth() != tex->GetDisplayWidth() || ttex->GetHeight() != tex->GetDisplayHeight()) { Textures[texidx].FrontSkyLayer = texidx; return texid; } // Set this up so that it serializes to the same info as the base texture - this is needed to restore it on load. // But do not link the new texture into the hash chain! auto itex = new FImageTexture(image); itex->SetNoRemap0(); auto FrontSkyLayer = MakeGameTexture(itex, tex->GetName(), ETextureType::Wall); FrontSkyLayer->SetUseType(tex->GetUseType()); texid = TexMan.AddGameTexture(FrontSkyLayer, false); Textures[texidx].FrontSkyLayer = texid.GetIndex(); Textures[texid.GetIndex()].FrontSkyLayer = texid.GetIndex(); // also let it refer to itself as its front sky layer, in case for repeated InitSkyMap calls. return texid; } //========================================================================== // // // //========================================================================== EXTERN_CVAR(String, language) int FTextureManager::ResolveLocalizedTexture(int tex) { size_t langlen = strlen(language); int lang = (langlen < 2 || langlen > 3) ? MAKE_ID('e', 'n', 'u', '\0') : MAKE_ID(language[0], language[1], language[2], '\0'); uint64_t index = (uint64_t(lang) << 32) + tex; if (auto pTex = LocalizedTextures.CheckKey(index)) return *pTex; index = (uint64_t(lang & MAKE_ID(255, 255, 0, 0)) << 32) + tex; if (auto pTex = LocalizedTextures.CheckKey(index)) return *pTex; return tex; } //=========================================================================== // // R_GuesstimateNumTextures // // Returns an estimate of the number of textures R_InitData will have to // process. Used by D_DoomMain() when it calls ST_Init(). // //=========================================================================== int FTextureManager::GuesstimateNumTextures () { int numtex = 0; for(int i = fileSystem.GetNumEntries()-1; i>=0; i--) { int space = fileSystem.GetFileNamespace(i); switch(space) { case ns_flats: case ns_sprites: case ns_newtextures: case ns_hires: case ns_patches: case ns_graphics: numtex++; break; default: if (fileSystem.GetFileFlags(i) & LUMPF_MAYBEFLAT) numtex++; break; } } //numtex += CountBuildTiles (); // this cannot be done with a lot of overhead so just leave it out. numtex += CountTexturesX (); return numtex; } //=========================================================================== // // R_CountTexturesX // // See R_InitTextures() for the logic in deciding what lumps to check. // //=========================================================================== int FTextureManager::CountTexturesX () { int count = 0; int wadcount = fileSystem.GetNumWads(); for (int wadnum = 0; wadnum < wadcount; wadnum++) { // Use the most recent PNAMES for this WAD. // Multiple PNAMES in a WAD will be ignored. int pnames = fileSystem.CheckNumForName("PNAMES", ns_global, wadnum, false); // should never happen except for zdoom.pk3 if (pnames < 0) continue; // Only count the patches if the PNAMES come from the current file // Otherwise they have already been counted. if (fileSystem.GetFileContainer(pnames) == wadnum) { count += CountLumpTextures (pnames); } int texlump1 = fileSystem.CheckNumForName ("TEXTURE1", ns_global, wadnum); int texlump2 = fileSystem.CheckNumForName ("TEXTURE2", ns_global, wadnum); count += CountLumpTextures (texlump1) - 1; count += CountLumpTextures (texlump2) - 1; } return count; } //=========================================================================== // // R_CountLumpTextures // // Returns the number of patches in a PNAMES/TEXTURE1/TEXTURE2 lump. // //=========================================================================== int FTextureManager::CountLumpTextures (int lumpnum) { if (lumpnum >= 0) { auto file = fileSystem.OpenFileReader (lumpnum); uint32_t numtex = file.ReadUInt32(); return int(numtex) >= 0 ? numtex : 0; } return 0; } //----------------------------------------------------------------------------- // // Adjust sprite offsets for GL rendering (IWAD resources only) // //----------------------------------------------------------------------------- void FTextureManager::AdjustSpriteOffsets() { int lump, lastlump = 0; int sprid; TMap donotprocess; int numtex = fileSystem.GetNumEntries(); for (int i = 0; i < numtex; i++) { if (fileSystem.GetFileContainer(i) > fileSystem.GetMaxIwadNum()) break; // we are past the IWAD if (fileSystem.GetFileNamespace(i) == ns_sprites && fileSystem.GetFileContainer(i) >= fileSystem.GetIwadNum() && fileSystem.GetFileContainer(i) <= fileSystem.GetMaxIwadNum()) { const char *str = fileSystem.GetFileShortName(i); FTextureID texid = TexMan.CheckForTexture(str, ETextureType::Sprite, 0); if (texid.isValid() && fileSystem.GetFileContainer(GetGameTexture(texid)->GetSourceLump()) > fileSystem.GetMaxIwadNum()) { // This texture has been replaced by some PWAD. memcpy(&sprid, str, 4); donotprocess[sprid] = true; } } } while ((lump = fileSystem.FindLump("SPROFS", &lastlump, false)) != -1) { FScanner sc; sc.OpenLumpNum(lump); sc.SetCMode(true); int ofslumpno = fileSystem.GetFileContainer(lump); while (sc.GetString()) { int x, y; bool iwadonly = false; bool forced = false; FTextureID texno = TexMan.CheckForTexture(sc.String, ETextureType::Sprite); sc.MustGetStringName(","); sc.MustGetNumber(); x = sc.Number; sc.MustGetStringName(","); sc.MustGetNumber(); y = sc.Number; if (sc.CheckString(",")) { sc.MustGetString(); if (sc.Compare("iwad")) iwadonly = true; if (sc.Compare("iwadforced")) forced = iwadonly = true; } if (texno.isValid()) { auto tex = GetGameTexture(texno); int lumpnum = tex->GetSourceLump(); // We only want to change texture offsets for sprites in the IWAD or the file this lump originated from. if (lumpnum >= 0 && lumpnum < fileSystem.GetNumEntries()) { int wadno = fileSystem.GetFileContainer(lumpnum); if ((iwadonly && wadno >= fileSystem.GetIwadNum() && wadno <= fileSystem.GetMaxIwadNum()) || (!iwadonly && wadno == ofslumpno)) { if (wadno >= fileSystem.GetIwadNum() && wadno <= fileSystem.GetMaxIwadNum() && !forced && iwadonly) { memcpy(&sprid, tex->GetName().GetChars(), 4); if (donotprocess.CheckKey(sprid)) continue; // do not alter sprites that only get partially replaced. } tex->SetOffsets(1, x, y); } } } } } } //========================================================================== // // FTextureAnimator :: SetTranslation // // Sets animation translation for a texture // //========================================================================== void FTextureManager::SetTranslation(FTextureID fromtexnum, FTextureID totexnum) { if ((size_t)fromtexnum.texnum < Translation.Size()) { if ((size_t)totexnum.texnum >= Textures.Size()) { totexnum.texnum = fromtexnum.texnum; } Translation[fromtexnum.texnum] = totexnum.texnum; } } //----------------------------------------------------------------------------- // // Adds an alias name to the texture manager. // Aliases are only checked if no real texture with the given name exists. // //----------------------------------------------------------------------------- void FTextureManager::AddAlias(const char* name, int texindex) { if (texindex < 0 || texindex >= NumTextures()) return; // Whatever got passed in here was not valid, so ignore the alias. aliases.Insert(name, texindex); } void FTextureManager::Listaliases() { decltype(aliases)::Iterator it(aliases); decltype(aliases)::Pair* pair; TArray list; while (it.NextPair(pair)) { auto tex = GetGameTexture(pair->Value); list.Push(FStringf("%s -> %s%s", pair->Key.GetChars(), tex ? tex->GetName().GetChars() : "(null)", ((tex && tex->GetUseType() == ETextureType::Null) ? ", null" : ""))); } std::sort(list.begin(), list.end(), [](const FString& l, const FString& r) { return l.CompareNoCase(r) < 0; }); for (auto& s : list) { Printf("%s\n", s.GetChars()); } } //========================================================================== // // link a texture with a given lump // //========================================================================== void FTextureManager::SetLinkedTexture(int lump, FGameTexture* tex) { if (lump < fileSystem.GetNumEntries()) { linkedMap.Insert(lump, tex); } } //========================================================================== // // retrieve linked texture // //========================================================================== FGameTexture* FTextureManager::GetLinkedTexture(int lump) { if (lump < fileSystem.GetNumEntries()) { auto check = linkedMap.CheckKey(lump); if (check) return *check; } return nullptr; } //========================================================================== // // FTextureID::operator+ // Does not return invalid texture IDs // //========================================================================== FTextureID FTextureID::operator +(int offset) const noexcept(true) { if (!isValid()) return *this; if (texnum + offset >= TexMan.NumTextures()) return FTextureID(-1); return FTextureID(texnum + offset); } CCMD(flushtextures) { TexMan.FlushAll(); } CCMD(listtexturealiases) { TexMan.Listaliases(); }