gzdoom/src/textures/textures.h
Christoph Oelckers 4e4fd97950 - fixed: Multipatch textures may not set up their patch references until all textures have been loaded.
If done earlier they will not be able to detect overrides of sprites and graphics which are not part of the PATCHES lump. There was some fudging code to work around this problem but it was only partially working.
Now these textures only collect the texture name and use type during setup and resolve them after all textures have been created.
2016-10-24 23:35:18 +02:00

537 lines
15 KiB
C++

#ifndef __TEXTURES_H
#define __TEXTURES_H
#include "doomtype.h"
#include "vectors.h"
class FBitmap;
struct FRemapTable;
struct FCopyInfo;
class FScanner;
class PClassInventory;
// Texture IDs
class FTextureManager;
class FTerrainTypeArray;
class FNullTextureID : public FTextureID
{
public:
FNullTextureID() : FTextureID(0) {}
};
//
// Animating textures and planes
//
// [RH] Expanded to work with a Hexen ANIMDEFS lump
//
struct FAnimDef
{
FTextureID BasePic;
WORD NumFrames;
WORD CurFrame;
BYTE AnimType;
bool bDiscrete; // taken out of AnimType to have better control
DWORD SwitchTime; // Time to advance to next frame
struct FAnimFrame
{
DWORD SpeedMin; // Speeds are in ms, not tics
DWORD SpeedRange;
FTextureID FramePic;
} Frames[1];
enum
{
ANIM_Forward,
ANIM_Backward,
ANIM_OscillateUp,
ANIM_OscillateDown,
ANIM_Random
};
void SetSwitchTime (DWORD mstime);
};
struct FSwitchDef
{
FTextureID PreTexture; // texture to switch from
FSwitchDef *PairDef; // switch def to use to return to PreTexture
WORD NumFrames; // # of animation frames
bool QuestPanel; // Special texture for Strife mission
int Sound; // sound to play at start of animation. Changed to int to avoiud having to include s_sound here.
struct frame // Array of times followed by array of textures
{ // actual length of each array is <NumFrames>
WORD TimeMin;
WORD TimeRnd;
FTextureID Texture;
} frames[1];
};
struct FDoorAnimation
{
FTextureID BaseTexture;
FTextureID *TextureFrames;
int NumTextureFrames;
FName OpenSound;
FName CloseSound;
};
// Patches.
// A patch holds one or more columns.
// Patches are used for sprites and all masked pictures, and we compose
// textures from the TEXTURE1/2 lists of patches.
struct patch_t
{
SWORD width; // bounding box size
SWORD height;
SWORD leftoffset; // pixels to the left of origin
SWORD topoffset; // pixels below the origin
DWORD columnofs[]; // only [width] used
// the [0] is &columnofs[width]
};
class FileReader;
// All FTextures present their data to the world in 8-bit format, but if
// the source data is something else, this is it.
enum FTextureFormat
{
TEX_Pal,
TEX_Gray,
TEX_RGB, // Actually ARGB
TEX_DXT1,
TEX_DXT2,
TEX_DXT3,
TEX_DXT4,
TEX_DXT5,
};
class FNativeTexture;
// Base texture class
class FTexture
{
public:
static FTexture *CreateTexture(const char *name, int lumpnum, int usetype);
static FTexture *CreateTexture(int lumpnum, int usetype);
virtual ~FTexture ();
SWORD LeftOffset, TopOffset;
BYTE WidthBits, HeightBits;
DVector2 Scale;
int SourceLump;
FTextureID id;
FString Name;
BYTE UseType; // This texture's primary purpose
BYTE bNoDecals:1; // Decals should not stick to texture
BYTE bNoRemap0:1; // Do not remap color 0 (used by front layer of parallax skies)
BYTE bWorldPanning:1; // Texture is panned in world units rather than texels
BYTE bMasked:1; // Texture (might) have holes
BYTE bAlphaTexture:1; // Texture is an alpha channel without color information
BYTE bHasCanvas:1; // Texture is based off FCanvasTexture
BYTE bWarped:2; // This is a warped texture. Used to avoid multiple warps on one texture
BYTE bComplex:1; // Will be used to mark extended MultipatchTextures that have to be
// fully composited before subjected to any kind of postprocessing instead of
// doing it per patch.
BYTE bMultiPatch:1; // This is a multipatch texture (we really could use real type info for textures...)
BYTE bKeepAround:1; // This texture was used as part of a multi-patch texture. Do not free it.
WORD Rotations;
SWORD SkyOffset;
enum // UseTypes
{
TEX_Any,
TEX_Wall,
TEX_Flat,
TEX_Sprite,
TEX_WallPatch,
TEX_Build,
TEX_SkinSprite,
TEX_Decal,
TEX_MiscPatch,
TEX_FontChar,
TEX_Override, // For patches between TX_START/TX_END
TEX_Autopage, // Automap background - used to enable the use of FAutomapTexture
TEX_SkinGraphic,
TEX_Null,
TEX_FirstDefined,
};
struct Span
{
WORD TopOffset;
WORD Length; // A length of 0 terminates this column
};
// Returns a single column of the texture
virtual const BYTE *GetColumn (unsigned int column, const Span **spans_out) = 0;
// Returns the whole texture, stored in column-major order
virtual const BYTE *GetPixels () = 0;
virtual int CopyTrueColorPixels(FBitmap *bmp, int x, int y, int rotate=0, FCopyInfo *inf = NULL);
int CopyTrueColorTranslated(FBitmap *bmp, int x, int y, int rotate, FRemapTable *remap, FCopyInfo *inf = NULL);
virtual bool UseBasePalette();
virtual int GetSourceLump() { return SourceLump; }
virtual FTexture *GetRedirect(bool wantwarped);
virtual FTexture *GetRawTexture(); // for FMultiPatchTexture to override
virtual void Unload () = 0;
// Returns the native pixel format for this image
virtual FTextureFormat GetFormat();
// Returns a native 3D representation of the texture
FNativeTexture *GetNative(bool wrapping);
// Frees the native 3D representation of the texture
void KillNative();
// Fill the native texture buffer with pixel data for this image
virtual void FillBuffer(BYTE *buff, int pitch, int height, FTextureFormat fmt);
int GetWidth () { return Width; }
int GetHeight () { return Height; }
int GetScaledWidth () { int foo = int((Width * 2) / Scale.X); return (foo >> 1) + (foo & 1); }
int GetScaledHeight () { int foo = int((Height * 2) / Scale.Y); return (foo >> 1) + (foo & 1); }
double GetScaledWidthDouble () { return Width / Scale.X; }
double GetScaledHeightDouble () { return Height / Scale.Y; }
double GetScaleY() const { return Scale.Y; }
int GetScaledLeftOffset () { int foo = int((LeftOffset * 2) / Scale.X); return (foo >> 1) + (foo & 1); }
int GetScaledTopOffset () { int foo = int((TopOffset * 2) / Scale.Y); return (foo >> 1) + (foo & 1); }
double GetScaledLeftOffsetDouble() { return LeftOffset / Scale.X; }
double GetScaledTopOffsetDouble() { return TopOffset / Scale.Y; }
virtual void ResolvePatches() {}
virtual void SetFrontSkyLayer();
void CopyToBlock (BYTE *dest, int dwidth, int dheight, int x, int y, const BYTE *translation=NULL)
{
CopyToBlock(dest, dwidth, dheight, x, y, 0, translation);
}
void CopyToBlock (BYTE *dest, int dwidth, int dheight, int x, int y, int rotate, const BYTE *translation=NULL);
// Returns true if the next call to GetPixels() will return an image different from the
// last call to GetPixels(). This should be considered valid only if a call to CheckModified()
// is immediately followed by a call to GetPixels().
virtual bool CheckModified ();
static void InitGrayMap();
void CopySize(FTexture *BaseTexture)
{
Width = BaseTexture->GetWidth();
Height = BaseTexture->GetHeight();
TopOffset = BaseTexture->TopOffset;
LeftOffset = BaseTexture->LeftOffset;
WidthBits = BaseTexture->WidthBits;
HeightBits = BaseTexture->HeightBits;
Scale = BaseTexture->Scale;
WidthMask = (1 << WidthBits) - 1;
}
void SetScaledSize(int fitwidth, int fitheight);
PalEntry GetSkyCapColor(bool bottom);
virtual void HackHack (int newheight); // called by FMultipatchTexture to discover corrupt patches.
protected:
WORD Width, Height, WidthMask;
static BYTE GrayMap[256];
FNativeTexture *Native;
FTexture (const char *name = NULL, int lumpnum = -1);
Span **CreateSpans (const BYTE *pixels) const;
void FreeSpans (Span **spans) const;
void CalcBitSize ();
void CopyInfo(FTexture *other)
{
CopySize(other);
bNoDecals = other->bNoDecals;
Rotations = other->Rotations;
}
private:
bool bSWSkyColorDone = false;
PalEntry FloorSkyColor;
PalEntry CeilingSkyColor;
public:
static void FlipSquareBlock (BYTE *block, int x, int y);
static void FlipSquareBlockRemap (BYTE *block, int x, int y, const BYTE *remap);
static void FlipNonSquareBlock (BYTE *blockto, const BYTE *blockfrom, int x, int y, int srcpitch);
static void FlipNonSquareBlockRemap (BYTE *blockto, const BYTE *blockfrom, int x, int y, int srcpitch, const BYTE *remap);
friend class D3DTex;
};
// Texture manager
class FTextureManager
{
public:
FTextureManager ();
~FTextureManager ();
// Get texture without translation
FTexture *operator[] (FTextureID texnum)
{
if ((unsigned)texnum.GetIndex() >= Textures.Size()) return NULL;
return Textures[texnum.GetIndex()].Texture;
}
FTexture *operator[] (const char *texname)
{
FTextureID texnum = GetTexture (texname, FTexture::TEX_MiscPatch);
if (!texnum.Exists()) return NULL;
return Textures[texnum.GetIndex()].Texture;
}
FTexture *ByIndex(int i)
{
if (unsigned(i) >= Textures.Size()) return NULL;
return Textures[i].Texture;
}
FTexture *FindTexture(const char *texname, int usetype = FTexture::TEX_MiscPatch, BITFIELD flags = TEXMAN_TryAny);
// Get texture with translation
FTexture *operator() (FTextureID texnum, bool withpalcheck=false)
{
if ((size_t)texnum.texnum >= Textures.Size()) return NULL;
int picnum = Translation[texnum.texnum];
if (withpalcheck)
{
picnum = PalCheck(picnum).GetIndex();
}
return Textures[picnum].Texture;
}
FTexture *operator() (const char *texname)
{
FTextureID texnum = GetTexture (texname, FTexture::TEX_MiscPatch);
if (texnum.texnum == -1) return NULL;
return Textures[Translation[texnum.texnum]].Texture;
}
FTexture *ByIndexTranslated(int i)
{
if (unsigned(i) >= Textures.Size()) return NULL;
return Textures[Translation[i]].Texture;
}
FTextureID PalCheck(FTextureID tex);
enum
{
TEXMAN_TryAny = 1,
TEXMAN_Overridable = 2,
TEXMAN_ReturnFirst = 4,
TEXMAN_AllowSkins = 8,
TEXMAN_ShortNameOnly = 16,
TEXMAN_DontCreate = 32
};
enum
{
HIT_Wall = 1,
HIT_Flat = 2,
HIT_Sky = 4,
HIT_Sprite = 8,
HIT_Columnmode = HIT_Wall|HIT_Sky|HIT_Sprite
};
FTextureID CheckForTexture (const char *name, int usetype, BITFIELD flags=TEXMAN_TryAny);
FTextureID GetTexture (const char *name, int usetype, BITFIELD flags=0);
int ListTextures (const char *name, TArray<FTextureID> &list);
void AddTexturesLump (const void *lumpdata, int lumpsize, int deflumpnum, int patcheslump, int firstdup=0, bool texture1=false);
void AddTexturesLumps (int lump1, int lump2, int patcheslump);
void AddGroup(int wadnum, int ns, int usetype);
void AddPatches (int lumpnum);
void AddHiresTextures (int wadnum);
void LoadTextureDefs(int wadnum, const char *lumpname);
void ParseXTexture(FScanner &sc, int usetype);
void SortTexturesByType(int start, int end);
bool AreTexturesCompatible (FTextureID picnum1, FTextureID picnum2);
FTextureID CreateTexture (int lumpnum, int usetype=FTexture::TEX_Any); // Also calls AddTexture
FTextureID AddTexture (FTexture *texture);
FTextureID GetDefaultTexture() const { return DefaultTexture; }
void LoadTextureX(int wadnum);
void AddTexturesForWad(int wadnum);
void Init();
void DeleteAll();
// Replaces one texture with another. The new texture will be assigned
// the same name, slot, and use type as the texture it is replacing.
// The old texture will no longer be managed. Set free true if you want
// the old texture to be deleted or set it false if you want it to
// be left alone in memory. You will still need to delete it at some
// point, because the texture manager no longer knows about it.
// This function can be used for such things as warping textures.
void ReplaceTexture (FTextureID picnum, FTexture *newtexture, bool free);
void UnloadAll ();
int NumTextures () const { return (int)Textures.Size(); }
void UpdateAnimations (DWORD mstime);
int GuesstimateNumTextures ();
FSwitchDef *FindSwitch (FTextureID texture);
FDoorAnimation *FindAnimatedDoor (FTextureID picnum);
private:
// texture counting
int CountTexturesX ();
int CountLumpTextures (int lumpnum);
// Build tiles
void AddTiles (void *tiles);
int CountTiles (void *tiles);
int CountBuildTiles ();
void InitBuildTiles ();
// Animation stuff
FAnimDef *AddAnim (FAnimDef *anim);
void FixAnimations ();
void InitAnimated ();
void InitAnimDefs ();
FAnimDef *AddSimpleAnim (FTextureID picnum, int animcount, DWORD speedmin, DWORD speedrange=0);
FAnimDef *AddComplexAnim (FTextureID picnum, const TArray<FAnimDef::FAnimFrame> &frames);
void ParseAnim (FScanner &sc, int usetype);
FAnimDef *ParseRangeAnim (FScanner &sc, FTextureID picnum, int usetype, bool missing);
void ParsePicAnim (FScanner &sc, FTextureID picnum, int usetype, bool missing, TArray<FAnimDef::FAnimFrame> &frames);
void ParseWarp(FScanner &sc);
void ParseCameraTexture(FScanner &sc);
FTextureID ParseFramenum (FScanner &sc, FTextureID basepicnum, int usetype, bool allowMissing);
void ParseTime (FScanner &sc, DWORD &min, DWORD &max);
FTexture *Texture(FTextureID id) { return Textures[id.GetIndex()].Texture; }
void SetTranslation (FTextureID fromtexnum, FTextureID totexnum);
void ParseAnimatedDoor(FScanner &sc);
void InitPalettedVersions();
// Switches
void InitSwitchList ();
void ProcessSwitchDef (FScanner &sc);
FSwitchDef *ParseSwitchDef (FScanner &sc, bool ignoreBad);
void AddSwitchPair (FSwitchDef *def1, FSwitchDef *def2);
struct TextureHash
{
FTexture *Texture;
int HashNext;
};
enum { HASH_END = -1, HASH_SIZE = 1027 };
TArray<TextureHash> Textures;
TArray<int> Translation;
int HashFirst[HASH_SIZE];
FTextureID DefaultTexture;
TArray<int> FirstTextureForFile;
TMap<int,int> PalettedVersions; // maps from normal -> paletted version
TArray<FAnimDef *> mAnimations;
TArray<FSwitchDef *> mSwitchDefs;
TArray<FDoorAnimation> mAnimatedDoors;
TArray<BYTE *> BuildTileFiles;
public:
short sintable[2048]; // for texture warping
enum
{
SINMASK = 2047
};
};
// A texture that doesn't really exist
class FDummyTexture : public FTexture
{
public:
FDummyTexture ();
const BYTE *GetColumn (unsigned int column, const Span **spans_out);
const BYTE *GetPixels ();
void Unload ();
void SetSize (int width, int height);
};
// A texture that returns a wiggly version of another texture.
class FWarpTexture : public FTexture
{
public:
FWarpTexture (FTexture *source, int warptype);
~FWarpTexture ();
virtual int CopyTrueColorPixels(FBitmap *bmp, int x, int y, int rotate=0, FCopyInfo *inf = NULL);
const BYTE *GetColumn (unsigned int column, const Span **spans_out);
const BYTE *GetPixels ();
void Unload ();
bool CheckModified ();
float GetSpeed() const { return Speed; }
int GetSourceLump() { return SourcePic->GetSourceLump(); }
void SetSpeed(float fac) { Speed = fac; }
FTexture *GetRedirect(bool wantwarped);
DWORD GenTime;
protected:
FTexture *SourcePic;
BYTE *Pixels;
Span **Spans;
float Speed;
int WidthOffsetMultiplier, HeightOffsetMultiplier; // [mxd]
virtual void MakeTexture (DWORD time);
int NextPo2 (int v); // [mxd]
void SetupMultipliers (int width, int height); // [mxd]
};
// A texture that can be drawn to.
class DSimpleCanvas;
class AActor;
class FCanvasTexture : public FTexture
{
public:
FCanvasTexture (const char *name, int width, int height);
~FCanvasTexture ();
const BYTE *GetColumn (unsigned int column, const Span **spans_out);
const BYTE *GetPixels ();
void Unload ();
bool CheckModified ();
void NeedUpdate() { bNeedsUpdate=true; }
void SetUpdated() { bNeedsUpdate = false; bDidUpdate = true; bFirstUpdate = false; }
DSimpleCanvas *GetCanvas() { return Canvas; }
void MakeTexture ();
protected:
DSimpleCanvas *Canvas;
BYTE *Pixels;
Span DummySpans[2];
bool bNeedsUpdate;
bool bDidUpdate;
bool bPixelsAllocated;
public:
bool bFirstUpdate;
friend struct FCanvasTextureInfo;
};
extern FTextureManager TexMan;
#endif