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#version 330
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//s_texture points to an indexed color texture
uniform sampler2D s_texture;
//s_palswap is the palette swap texture where u is the color index and v is the shade
uniform sampler2D s_palswap;
//s_palette is the base palette texture where u is the color index
uniform sampler2D s_palette;
uniform sampler2D s_detail;
uniform sampler2D s_glow;
uniform vec2 u_palswapPos;
uniform vec2 u_palswapSize;
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uniform vec2 u_clamp;
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uniform float u_shade;
uniform float u_numShades;
uniform float u_visFactor;
uniform float u_fogEnabled;
uniform float u_useColorOnly;
uniform float u_usePalette;
uniform float u_npotEmulation;
uniform float u_npotEmulationFactor;
uniform float u_npotEmulationXOffset;
uniform float u_shadeInterpolate;
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uniform float u_brightness;
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uniform vec4 u_fog;
uniform vec4 u_fogColor;
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uniform float u_useDetailMapping;
uniform float u_useGlowMapping;
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uniform int u_tinteffect;
uniform vec3 u_tintcolor;
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in vec4 v_color;
in float v_distance;
in vec4 v_texCoord;
in vec4 v_detailCoord;
in vec4 v_glowCoord;
in float v_fogCoord;
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const float c_basepalScale = 255.0/256.0;
const float c_basepalOffset = 0.5/256.0;
const float c_zero = 0.0;
const float c_one = 1.0;
const float c_two = 2.0;
const vec4 c_vec4_one = vec4(c_one);
const float c_wrapThreshold = 0.9;
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layout(location=0) out vec4 fragColor;
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layout(std140) uniform Palette {
vec4 palette[256];
};
layout(std140) uniform Palswap {
int palswap[256];
};
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//===========================================================================
//
// Color to grayscale
//
//===========================================================================
float grayscale(vec4 color)
{
return dot(color.rgb, vec3(0.3, 0.56, 0.14));
}
//===========================================================================
//
// Hightile tinting code. (hictinting[dapalnum]) This can be done inside the shader
// to avoid costly texture duplication (but needs a more modern GLSL than 1.10.)
//
//===========================================================================
vec4 convertColor(vec4 color, int effect, vec3 tint)
{
#if 0
if (effect & HICTINT_GRAYSCALE)
{
float g = grayscale(color);
color = vec4(g, g, g, color.a);
}
if (effect & HICTINT_INVERT)
{
color = vec4(1.0 - color.r, 1.0 - color.g, 1.0 - color.b);
}
vec3 tcol = color.rgb * 255.0; // * 255.0 to make it easier to reuse the integer math.
tint *= 255.0;
if (effect & HICTINT_COLORIZE)
{
tcol.b = min(((tcol.b) * tint.r) / 64.0, 255.0);
tcol.g = min(((tcol.g) * tint.g) / 64.0, 255.0);
tcol.r = min(((tcol.r) * tint.b) / 64.0, 255.0);
}
switch (effect & HICTINT_BLENDMASK)
{
case HICTINT_BLEND_SCREEN:
tcol.b = 255.0 - (((255.0 - tcol.b) * (255.0 - tint.r)) / 256.0);
tcol.g = 255.0 - (((255.0 - tcol.g) * (255.0 - tint.g)) / 256.0);
tcol.r = 255.0 - (((255.0 - tcol.r) * (255.0 - tint.b)) / 256.0);
break;
case HICTINT_BLEND_OVERLAY:
tcol.b = tcol.b < 128.0? (tcol.b * tint.r) / 128.0 : 255.0 - (((255.0 - tcol.b) * (255.0 - tint.r)) / 128.0);
tcol.g = tcol.g < 128.0? (tcol.g * tint.g) / 128.0 : 255.0 - (((255.0 - tcol.g) * (255.0 - tint.g)) / 128.0);
tcol.r = tcol.r < 128.0? (tcol.r * tint.b) / 128.0 : 255.0 - (((255.0 - tcol.r) * (255.0 - tint.b)) / 128.0);
break;
case HICTINT_BLEND_HARDLIGHT:
tcol.b = tint.r < 128.0 ? (tcol.b * tint.r) / 128.0 : 255.0 - (((255.0 - tcol.b) * (255.0 - r)) / 128.0);
tcol.g = tint.g < 128.0 ? (tcol.g * tint.g) / 128.0 : 255.0 - (((255.0 - tcol.g) * (255.0 - g)) / 128.0);
tcol.r = tint.b < 128.0 ? (tcol.r * tint.b) / 128.0 : 255.0 - (((255.0 - tcol.r) * (255.0 - b)) / 128.0);
break;
}
color.rgb = tcol / 255.0;
#endif
return color;
}
//===========================================================================
//
// Talk about all the wrong way of being 'efficient'... :(
//
//===========================================================================
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void main()
{
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float fullbright = 0.0;
vec4 color;
if (u_useColorOnly == 0.0)
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{
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float coordX = v_texCoord.x;
float coordY = v_texCoord.y;
vec2 newCoord;
// Coordinate adjustment for NPOT textures (something must have gone very wrong to make this necessary...)
if (u_npotEmulation != 0.0)
{
float period = floor(coordY / u_npotEmulationFactor);
coordX += u_npotEmulationXOffset * floor(mod(coordY, u_npotEmulationFactor));
coordY = period + mod(coordY, u_npotEmulationFactor);
}
newCoord = vec2(coordX, coordY);
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#if 1
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if (u_clamp != 0.0) newCoord = clamp(newCoord.xy, 0.0, 1.0);
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#else
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// what is this for? The only effect I could observe was a significant degradation of anisotropic filtering.
vec2 transitionBlend = fwidth(floor(newCoord.xy));
transitionBlend = fwidth(transitionBlend) + transitionBlend;
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vec2 val1 = mix(fract(newCoord.xy), abs(1.0-mod(newCoord.xy+1.0, 2.0)), transitionBlend);
vec2 clampedCoord = clamp(newCoord.xy, 0.0, 1.0);
newCoord = mix(val1, clampedCoord, u_clamp);
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#endif
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color = texture2D(s_texture, newCoord);
// This was further down but it really should be done before applying any kind of depth fading, not afterward.
vec4 detailColor = vec4(1.0);
if (u_useDetailMapping != 0.0)
{
detailColor = texture2D(s_detail, v_detailCoord.xy);
detailColor = mix(vec4(1.0), 2.0 * detailColor, detailColor.a);
// Application of this differs of render mode because for paletted rendering with palettized shade tables it can only be done after processing the shade table. We only have a palette index before.
}
float visibility = max(u_visFactor * v_distance - 0.5 * u_shadeInterpolate, 0.0);
float shade = clamp((u_shade + visibility), 0.0, u_numShades - 1.0);
if (u_usePalette != 0.0)
{
// Get the shaded palette index
float colorIndex = texture2D(s_palswap, u_palswapPos + u_palswapSize*vec2(color.r, floor(shade)/u_numShades)).r;
colorIndex = c_basepalOffset + c_basepalScale*colorIndex; // this is for compensating roundoff errors.
vec4 palettedColor = texture2D(s_palette, vec2(colorIndex, c_zero));
if (u_shadeInterpolate != 0.0)
{
// Get the next shaded palette index for interpolation
colorIndex = texture2D(s_palswap, u_palswapPos+u_palswapSize*vec2(color.r, (floor(shade)+1.0)/u_numShades)).r;
colorIndex = c_basepalOffset + c_basepalScale*colorIndex; // this is for compensating roundoff errors.
vec4 palettedColorNext = texture2D(s_palette, vec2(colorIndex, c_zero));
float shadeFrac = mod(shade, 1.0);
palettedColor.rgb = mix(palettedColor.rgb, palettedColorNext.rgb, shadeFrac*u_shadeInterpolate);
}
fullbright = palettedColor.a; // This only gets set for paletted rendering.
palettedColor.a = c_one-floor(color.r);
color = mix(color, palettedColor, u_usePalette);
color.rgb *= detailColor.rgb; // with all this palettizing, this can only be applied afterward, even though it is wrong to do it this way.
}
else
{
color.rgb *= detailColor.rgb;
// todo: For True Color, calculate a shade value from the table and apply that to the color directly.
}
if (fullbright == 0.0) color.rgb *= v_color.rgb;
color.a *= v_color.a;
if (u_fogEnabled != 0.0)// the following would make sense if 'fullbright' could ever be true in non-paletted rendering: && (fullbright != 0.0 || u_fogColor.rgb != vec3(0.0) ))
{
float fogFactor;
color.rgb *= detailColor.rgb;
if (u_fog.z == 0) fogFactor = (u_fog.x-v_fogCoord)*u_fog.y; // linear fog
else fogFactor = exp2 (u_fog.z * v_fogCoord); // exponential fog
fogFactor = clamp(fogFactor, 0.0, 1.0);
color.rgb = mix(u_fogColor.rgb, color.rgb, fogFactor);
}
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}
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else
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{
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// untextured rendering
color = v_color;
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}
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if (u_useGlowMapping != 0.0 && u_useColorOnly == 0.0)
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{
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vec4 glowColor = texture2D(s_glow, v_glowCoord.xy);
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color.rgb = mix(color.rgb, glowColor.rgb, glowColor.a);
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}
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color.rgb = pow(color.rgb, vec3(u_brightness));
fragColor = color;
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}