gzdoom-gles/src/swrenderer/scene/r_light.h

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//
// Copyright (C) 1993-1996 by id Software, Inc.
//
// This source is available for distribution and/or modification
// only under the terms of the DOOM Source Code License as
// published by id Software. All rights reserved.
//
// The source is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// FITNESS FOR A PARTICULAR PURPOSE. See the DOOM Source Code License
// for more details.
//
#pragma once
#include <stddef.h>
#include "r_defs.h"
#include "v_palette.h"
#include "r_data/colormaps.h"
#include "r_utility.h"
#include "r_viewport.h"
// Lighting.
//
// [RH] This has changed significantly from Doom, which used lookup
// tables based on 1/z for walls and z for flats and only recognized
// 16 discrete light levels. The terminology I use is borrowed from Build.
// The size of a single colormap, in bits
#define COLORMAPSHIFT 8
// Convert a light level into an unbounded colormap index (shade). Result is
// fixed point. Why the +12? I wish I knew, but experimentation indicates it
// is necessary in order to best reproduce Doom's original lighting.
#define LIGHT2SHADE(l) ((NUMCOLORMAPS*2*FRACUNIT)-(((l)+12)*(FRACUNIT*NUMCOLORMAPS/128)))
// MAXLIGHTSCALE from original DOOM, divided by 2.
#define MAXLIGHTVIS (24.0)
// Convert a shade and visibility to a clamped colormap index.
// Result is not fixed point.
// Change R_CalcTiltedLighting() when this changes.
#define GETPALOOKUP(vis,shade) (clamp<int> (((shade)-FLOAT2FIXED(MIN(MAXLIGHTVIS,double(vis))))>>FRACBITS, 0, NUMCOLORMAPS-1))
// Calculate the light multiplier for dc_light/ds_light
// This is used instead of GETPALOOKUP when ds_colormap/dc_colormap is set to the base colormap
// Returns a value between 0 and 1 in fixed point
#define LIGHTSCALE(vis,shade) FLOAT2FIXED(clamp((FIXED2DBL(shade) - (MIN(MAXLIGHTVIS,double(vis)))) / NUMCOLORMAPS, 0.0, (NUMCOLORMAPS-1)/(double)NUMCOLORMAPS))
// Converts fixedlightlev into a shade value
#define FIXEDLIGHT2SHADE(lightlev) (((lightlev) >> COLORMAPSHIFT) << FRACBITS)
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struct FSWColormap;
namespace swrenderer
{
extern int fixedlightlev;
extern FSWColormap *fixedcolormap;
extern FSpecialColormap *realfixedcolormap;
void R_SetupColormap(AActor *actor);
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class LightVisibility
{
public:
static LightVisibility *Instance();
void SetVisibility(double visibility);
double GetVisibility() const { return CurrentVisibility; }
double WallGlobVis() const { return WallVisibility; }
double SpriteGlobVis() const { return WallVisibility; }
double ParticleGlobVis() const { return WallVisibility * 0.5; }
double FlatPlaneGlobVis() const { return FloorVisibility; }
double SlopePlaneGlobVis() const { return TiltVisibility; }
// The vis value to pass into the GETPALOOKUP or LIGHTSCALE macros
double WallVis(double screenZ) const { return WallGlobVis() / screenZ; }
double SpriteVis(double screenZ) const { return WallGlobVis() / screenZ; }
double ParticleVis(double screenZ) const { return WallGlobVis() / screenZ; }
double FlatPlaneVis(int screenY, double planeZ) const { return FlatPlaneGlobVis() / fabs(planeZ - ViewPos.Z) * fabs(CenterY - screenY); }
private:
double BaseVisibility = 0.0;
double WallVisibility = 0.0;
double FloorVisibility = 0.0;
float TiltVisibility = 0.0f;
double CurrentVisibility = 8.f;
double MaxVisForWall = 0.0;
double MaxVisForFloor = 0.0;
};
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class ColormapLight
{
public:
int ColormapNum = 0;
FSWColormap *BaseColormap = nullptr;
void SetColormap(double visibility, int shade, FDynamicColormap *basecolormap, bool fullbright, bool invertColormap, bool fadeToBlack);
};
inline int R_ActualExtraLight(bool fog) { return fog ? 0 : extralight << 4; }
}