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4937848123
This removes 3 uniforms, consisting of 9 floats. Those were merged into other values that never get used at the same time. It also moves the costly setup of the fixed colormap out of the render state into the 2D processing code. Since 3D forces use of render buffers now, it is no longer necessary to draw the entire scene with the colormap active, meaning it can be handled more efficiently.
142 lines
3 KiB
C
142 lines
3 KiB
C
#ifndef __RES_CMAP_H
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#define __RES_CMAP_H
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struct lightlist_t;
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void R_InitColormaps ();
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void R_DeinitColormaps ();
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uint32_t R_ColormapNumForName(const char *name); // killough 4/4/98
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void R_SetDefaultColormap (const char *name); // [RH] change normal fadetable
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uint32_t R_BlendForColormap (uint32_t map); // [RH] return calculated blend for a colormap
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struct FakeCmap
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{
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char name[8];
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PalEntry blend;
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int lump;
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};
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extern TArray<FakeCmap> fakecmaps;
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// for internal use
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struct FColormap
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{
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PalEntry LightColor; // a is saturation (0 full, 31=b/w, other=custom colormap)
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PalEntry FadeColor; // a is fadedensity>>1
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uint8_t Desaturation;
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uint8_t BlendFactor; // This is for handling Legacy-style colormaps which use a different formula to calculate how the color affects lighting.
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uint16_t FogDensity;
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void Clear()
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{
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LightColor = 0xffffff;
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FadeColor = 0;
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Desaturation = 0;
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BlendFactor = 0;
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FogDensity = 0;
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}
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void MakeWhite()
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{
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LightColor = 0xffffff;
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}
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void ClearColor()
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{
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LightColor = 0xffffff;
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BlendFactor = 0;
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Desaturation = 0;
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}
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void CopyLight(FColormap &from)
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{
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LightColor = from.LightColor;
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Desaturation = from.Desaturation;
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BlendFactor = from.BlendFactor;
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}
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void CopyFog(FColormap &from)
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{
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FadeColor = from.FadeColor;
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FogDensity = from.FogDensity;
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}
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void CopyFrom3DLight(lightlist_t *light);
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void Decolorize()
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{
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LightColor.Decolorize();
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}
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bool operator == (const FColormap &other)
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{
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return LightColor == other.LightColor && FadeColor == other.FadeColor && Desaturation == other.Desaturation &&
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BlendFactor == other.BlendFactor && FogDensity == other.FogDensity;
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}
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bool operator != (const FColormap &other)
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{
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return !operator==(other);
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}
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};
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// For hardware-accelerated weapon sprites in colored sectors
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struct FColormapStyle
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{
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PalEntry Color;
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PalEntry Fade;
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int Desaturate;
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float FadeLevel;
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};
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enum
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{
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NOFIXEDCOLORMAP = -1,
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INVERSECOLORMAP, // the inverse map is used explicitly in a few places.
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};
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struct FSpecialColormap
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{
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float ColorizeStart[3];
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float ColorizeEnd[3];
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uint8_t Colormap[256];
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PalEntry GrayscaleToColor[256];
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};
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extern TArray<FSpecialColormap> SpecialColormaps;
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// some utility functions to store special colormaps in powerup blends
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#define SPECIALCOLORMAP_MASK 0x00b60000
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inline uint32_t MakeSpecialColormap(int index)
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{
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assert(index >= 0 && index < 65536);
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return index | SPECIALCOLORMAP_MASK;
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}
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int AddSpecialColormap(float r1, float g1, float b1, float r2, float g2, float b2);
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extern uint8_t DesaturateColormap[31][256];
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enum EColorManipulation
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{
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CM_PLAIN2D = -2, // regular 2D drawing.
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CM_INVALID = -1,
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CM_DEFAULT = 0, // untranslated
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CM_FIRSTSPECIALCOLORMAP, // first special fixed colormap
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CM_FIRSTSPECIALCOLORMAPFORCED = 0x08000000, // first special fixed colormap, application forced (for 2D overlays)
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};
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#define CM_MAXCOLORMAP int(CM_FIRSTSPECIALCOLORMAP + SpecialColormaps.Size())
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#define CM_MAXCOLORMAPFORCED int(CM_FIRSTSPECIALCOLORMAPFORCED + SpecialColormaps.Size())
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#endif
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