mirror of
https://github.com/italicsjenga/slang-shaders.git
synced 2024-11-24 00:21:31 +11:00
557 lines
21 KiB
Plaintext
557 lines
21 KiB
Plaintext
#version 450
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/* This pass:
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* Composes the previous passes
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* Does masks, spot, bezel, vignette, background image (anything else?)
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*/
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#include "config.inc"
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#pragma stage vertex
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layout(location = 0) in vec4 Position;
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layout(location = 1) in vec2 TexCoord;
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layout(location = 0) out vec2 vTexCoord;
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layout(location = 1) out vec2 vOutputCoord;
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layout(location = 2) out vec2 spot_offset;
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layout(location = 3) out vec2 vFragCoord;
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#include "includes/functions.include.slang"
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void main() {
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gl_Position = global.MVP * Position;
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vTexCoord = get_scaled_coords(TexCoord,global.FinalViewportSize, is_rotated())+vec2(0.00001);
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vOutputCoord = TexCoord;
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spot_offset = offsets_from_float(S_POSITION+420.0,40);
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spot_offset = spot_offset / 10.0 + vec2(0.0,1.0);
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vFragCoord = vec2( floor(vOutputCoord.x * params.OutputSize.x),
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floor(vOutputCoord.y * params.OutputSize.y));
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}
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#pragma stage fragment
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layout(location = 0) in vec2 vTexCoord;
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layout(location = 1) in vec2 vOutputCoord;
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layout(location = 2) in vec2 spot_offset;
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layout(location = 3) in vec2 vFragCoord;
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layout(location = 0) out vec4 FragColor;
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layout(set = 0, binding = 2) uniform sampler2D bloom_pass_final;
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layout(set = 0, binding = 3) uniform sampler2D reflected_blurred_pass2;
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layout(set = 0, binding = 4) uniform sampler2D ambi_temporal_pass;
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layout(set = 0, binding = 5) uniform sampler2D avglum_pass;
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layout(set = 0, binding = 6) uniform sampler2D monitor_body;
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layout(set = 0, binding = 7) uniform sampler2D bg_under;
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layout(set = 0, binding = 8) uniform sampler2D bg_over;
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layout(set = 0, binding = 9) uniform sampler2D first_pass;
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layout(set = 0, binding = 10) uniform sampler2D shift_and_bleed_pass;
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//Ex main_pass layouts:
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layout(set = 0, binding = 11) uniform sampler2D FXAA_pass;
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layout(set = 0, binding = 12) uniform sampler2D in_glow_pass;
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layout(set = 0, binding = 13) uniform sampler2D halo_pass;
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layout(set = 0, binding = 14) uniform sampler2D avglum_passFeedback;
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//Ex main_pass defines:
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#define half_pi 1.5707963267949
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#include "includes/functions.include.slang"
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vec3 pixel_vmask(vec3 source, vec3 white_reference, float over_white) {
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// Simple RGB mask emulation with or without horizontal gap
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float ooo = 1.0 - RGB_MASK_STRENGTH;
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// RGB mask: R G B
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vec3 m1 = vec3( 1.0 , ooo , ooo ); //col 1
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vec3 m2 = vec3( ooo , 1.0 , ooo ); //col 2
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vec3 m3 = vec3( ooo , ooo , 1.0 ); //col 3
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vec3 gap = vec3( ooo );
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int col = int( vOutputCoord.x * params.OutputSize.x );
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vec3 pixel_out;
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vec3 vmasked;
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vec4 vec_mod=(vec4(3,1,2,3) + vec4(VMASK_GAP,0.0,0.0,0.0))* VMASK_DARKLINE_SCALE ;
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if (mod(col, vec_mod.x) < vec_mod.y)
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vmasked = m1 * source;
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else if (mod(col, vec_mod.x) < vec_mod.z)
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vmasked = m2 * source;
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else if (mod(col, vec_mod.x) < vec_mod.w)
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vmasked = m3 * source;
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else vmasked = gap * source;
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if (over_white == 1.0) pixel_out = vmasked;
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else {
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float whiteness=max(max(white_reference.r,white_reference.g),white_reference.b);
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whiteness-= over_white;
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whiteness= clamp(whiteness,0.0,1.0);
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pixel_out= mix(vmasked,source,whiteness);
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}
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return pixel_out;
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}
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vec3 pixel_vmask_gm(vec3 source, vec3 white_reference, float over_white) {
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// Simple RGB mask emulation with or without horizontal gap
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float ooo = 1.0 - RGB_MASK_STRENGTH;
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// RGB mask: R G B
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vec3 m1 = vec3( ooo , 1.0 , ooo ); //col 1
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vec3 m2 = vec3( 1.0 , ooo , 1.0 ); //col 2
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vec3 gap = vec3( ooo );
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int col = int( vOutputCoord.x * params.OutputSize.x );
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vec3 pixel_out;
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vec3 vmasked;
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vec3 vec_mod=(vec3(2,1,2) + vec3(VMASK_GAP,0.0,0.0))* VMASK_DARKLINE_SCALE ;
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if (mod(col, vec_mod.x) < vec_mod.y)
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vmasked = m1 * source;
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else if (mod(col, vec_mod.x) < vec_mod.z)
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vmasked = m2 * source;
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else
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vmasked = gap * source;
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if (over_white == 1.0) pixel_out = vmasked;
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else {
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float whiteness=max(max(white_reference.r,white_reference.g),white_reference.b);
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whiteness-= over_white;
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whiteness= clamp(whiteness,0.0,1.0);
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pixel_out= mix(vmasked,source,whiteness);
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}
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return pixel_out;
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}
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vec3 pixel_darklines(vec3 source,float darkline_every, float darkline_trans,
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float do_offset, vec3 white_reference,float over_white) {
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/* "darklines" are vertical gaps that can be used to emulate aperturegrille
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* or slotmasks
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*/
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float Darkline_part_w = (3.0 - VMASK_USE_GM + VMASK_GAP) * VMASK_DARKLINE_SCALE;
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float Darkline_part_w_x2 = Darkline_part_w*2;
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darkline_every *= VMASK_DARKLINE_SCALE;
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if (over_white != 1.0) {
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//less effect on bright colors.
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float whiteness=max(max(white_reference.r,white_reference.g),white_reference.b);
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darkline_trans+=(whiteness-over_white);
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darkline_trans=clamp(darkline_trans,0.0,1.0);
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}
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//Slotmask (darklines are drawn with offset)
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if (do_offset == 1.0) {
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bool odd_line_meno_densa = mod(vFragCoord.y, darkline_every) > VMASK_DARKLINE_SCALE ;
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bool odd_line_piu_densa = !(mod(vFragCoord.y, darkline_every/2) < VMASK_DARKLINE_SCALE && odd_line_meno_densa);
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bool odd_column = mod(vFragCoord.x + Darkline_part_w , Darkline_part_w_x2) < Darkline_part_w;
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bool draw_mask = odd_line_piu_densa && !odd_column || odd_column && odd_line_meno_densa;
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return source * clamp(float(draw_mask),darkline_trans,1.0);
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}
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//Aperture grille (darklines are drawn straight)
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bool draw_dark = mod(vFragCoord.y, darkline_every) < VMASK_DARKLINE_SCALE;
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bool draw_color = !draw_dark;
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return source * ( float(draw_color) + float(draw_dark) * darkline_trans );
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}
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float scanline_shape(vec2 coords, bool do_flicker) {
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/* Produces a B/W scanline shape to be multiplicated by the source
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* pixel later on to emulate scanline effect.
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* scanlines can be drawn on odd and even fields alternating on odd and
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* even frames to emulate that aspect of interlacing.
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*/
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bool alternate = false;
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float period = 1.0;
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if (do_flicker) {
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if (params.FrameCount % 2 == 0.0) alternate = true;
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if (params.OriginalSize.y > MIN_LINES_INTERLACED ) period = 0.5;
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}
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float angle = coords.y * pi * params.OriginalSize.y * period;
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float lines;
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if (alternate)
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lines = -sin(angle+half_pi); //lines = abs(cos(angle));
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else
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lines = sin(angle);
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lines = (lines*lines);
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if (SCANLINE_DARK >= 0.0) {
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lines = lines * (1.0 - SCANLINE_DARK) + SCANLINE_DARK;
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} else {
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float deepness = -SCANLINE_DARK;
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lines = lines * ((1-SCANLINE_DARK) ) + SCANLINE_DARK ;
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}
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return lines;
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}
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vec4 pixel_main_pass(vec2 coords, bool bBorder_needed) {
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//Exit if we don't need a border (ambient light/background picture)
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//And we are outside the the border (unsure if this double check is good for performance) //FIXME
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if (bBorder_needed)
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if (vTexCoord.x < 0.0 || vTexCoord.x > 1.0 || vTexCoord.y < 0.0 || vTexCoord.y > 1.0) return vec4(0.0);
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bool isinterlaced = is_interlaced();
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bool flickering_scanlines = (DO_SCANLINES == 1.0) && scanline_have_to_flicker(isinterlaced) ;
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vec3 pixel_in;
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vec3 pixel_glowed;
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//Get the first available pixel_in:
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if (DO_IN_GLOW == 1.0) {
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pixel_glowed = texture(in_glow_pass,coords).rgb;
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pixel_in = pixel_glowed; }
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else if ( DO_SHIFT_RGB + DO_SAT_BLEED > 0.0)
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pixel_in = texture(shift_and_bleed_pass,coords).rgb ;
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else if (DO_FXAA > 0.0)
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pixel_in = texture(FXAA_pass,coords).rgb ;
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else
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pixel_in = texture(first_pass,coords).rgb ;
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vec3 pixel_out = pixel_in;
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vec3 pixel_in_clamped = min(pixel_in,vec3(1.0)); //Clamp here for both vmask and darklines.
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//Mask and darklines:
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if (DO_VMASK_AND_DARKLINES == 1.0 ) {
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vec3 pixel_in_compensated = pixel_in;
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pixel_in_compensated = pixel_push_luminance(pixel_in, RGB_MASK_STRENGTH * MASK_COMPENSATION);
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if (RGB_MASK_STRENGTH > 0.0) {
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//Use RGB pattern or exploit RGB layout with green and magenta?
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if (VMASK_USE_GM < 1.0)
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pixel_out = pixel_vmask(pixel_in_compensated, pixel_in_clamped, VMASK_OVERWHITE);
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else
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pixel_out = pixel_vmask_gm(pixel_in_compensated, pixel_in_clamped, VMASK_OVERWHITE);
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}
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pixel_out = pixel_push_luminance(pixel_out, DARKLINES_STRENGTH * (1.0/DARKLINES_PERIOD) * MASK_COMPENSATION);
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//Screen lines (slotmask aperture grille)
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if (DARKLINES_STRENGTH > 0.0 ) {
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float MYDARKLINES_TRANSPARENCY = 1.0 - DARKLINES_STRENGTH;
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pixel_out = pixel_darklines(pixel_out,DARKLINES_PERIOD,MYDARKLINES_TRANSPARENCY,DO_DARKLINES_VOFFSET,pixel_in_clamped,DRKLN_OVERWHITE);
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}
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}
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//Halo
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vec3 pixel_haloed;
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if (DO_HALO == 1.0 ) {
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pixel_haloed = texture(halo_pass,coords).rgb;
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pixel_out += pixel_haloed;
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}
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/* Non flickering scanlines, Don't do them if
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* - User doesn't want scanlines
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* - The screen is interlaced and the user doesn't want scanlines on it.
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*/
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if ( DO_SCANLINES == 1.0 &&
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!( isinterlaced && SCANLINE_DISABLE_ON_INTERLACE == 1.0 )
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) {
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/* pixel_bleed is the color that will bleed over scanline gap.
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* It is selected by the first available one depending on the shader
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* features enabled by the user */
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vec3 pixel_bleed;
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if (DO_HALO == 1.0)
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pixel_bleed = pixel_haloed;
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else if (DO_IN_GLOW == 1.0)
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pixel_bleed = pixel_glowed;
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else
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pixel_bleed = pixel_in;
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// Optionally apply a gamma correction to the scanline shape.
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if (SCANLINE_COMPENSATION > 0.0) {
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float mypow = mix(1.0, (0.33 * SCANLINE_DARK + 0.67), SCANLINE_COMPENSATION);
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pixel_out = pow(pixel_out,vec3(mypow));
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}
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float scanline_shape = scanline_shape(coords, flickering_scanlines);
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//Obtain the scanlines screen by multiplying the scanline shape by the pixel color.
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vec3 pixel_scanlined = pixel_out * scanline_shape;
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//Next, emulate the bleeding of the color over the dark part of the scanlined screen.
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pixel_out = pixel_scanlined + (pixel_out * pixel_bleed * SCANLINES_BLEEDING * (1-scanline_shape));
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}
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// Apply color correction (in this pass it is just the final output gamma)
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if (DO_CCORRECTION == 1.0) pixel_out = pow(pixel_out,vec3(GAMMA_OUT));
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//Out
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return vec4(pixel_out,1.0) ; //* border(border_coords);
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}
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float global_noise;
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vec4 pixel_background_image(bool over){
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//return the aspect corrected background image:
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vec2 bg_image_offset=vec2(BG_IMAGE_OFFX,BG_IMAGE_OFFY);
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if (over) {
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vec2 tex_size = textureSize(bg_over, 0); // * BG_ZOOM;
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float bg_over_lod = log2(tex_size.y / global.FinalViewportSize.y);
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vec2 back_coords = get_scaled_coords_aspect(vOutputCoord+bg_image_offset,global.FinalViewportSize, tex_size.x/tex_size.y, is_rotated());
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back_coords=zoom(back_coords, BG_IMAGE_ZOOM);
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return textureLod(bg_over,back_coords,bg_over_lod);
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}
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//under
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vec2 tex_size = textureSize(bg_under, 0); // * BG_ZOOM;
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float bg_under_lod = log2(tex_size.y / global.FinalViewportSize.y);
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vec2 back_coords = get_scaled_coords_aspect(vOutputCoord+bg_image_offset,global.FinalViewportSize, tex_size.x/tex_size.y, is_rotated());
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back_coords=zoom(back_coords, BG_IMAGE_ZOOM);
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return textureLod(bg_under,back_coords,bg_under_lod);
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}
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vec3 pixel_border(bool image_over) {
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/* Returns the surrounding of the tube/bezel:
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* The led light alone
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* the led light "under" a background image (alpha driven)
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*/
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vec3 pixel_out = vec3(1.0);
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if (DO_AMBILIGHT == 1.0)
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pixel_out = texture(ambi_temporal_pass, vOutputCoord + global_noise ).rgb;
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if (DO_BG_IMAGE == 1.0 && !image_over) {
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vec4 bg_image = pixel_background_image(false);
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pixel_out = mix(pixel_out,bg_image.rgb,bg_image.a);
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}
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return pixel_out;
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}
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vec3 pixel_alternate(vec3 source, float whiteness) {
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// Emulate the low crt persistance by only drawing odd/even lines
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// on odd/even frames
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float line = vTexCoord.y * params.OutputSize.y;
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vec3 pixel_out = source;
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float l_period_half = ALT_BLANK_PERIOD / 2;
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if (mod(float(params.FrameCount),2.0 ) == 1) {
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if (mod(line,ALT_BLANK_PERIOD) > l_period_half) pixel_out=mix(source,vec3(0), whiteness) ;
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} else {
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if (mod(line,ALT_BLANK_PERIOD) <= l_period_half) pixel_out=mix(source,vec3(0), whiteness) ;
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}
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return pixel_out;
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}
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#define bezel_luminance bezel.r
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vec3 bezel_color(float lum) {
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//Colorize bezel frame
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vec3 col = vec3(BEZEL_R,BEZEL_G,BEZEL_B) + lum;
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float con_max = 0.5 * BEZEL_CON + 0.5;
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col.r = scale_to_range(col.r, -con_max+1, con_max); //contrast
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col.g = scale_to_range(col.g, -con_max+1, con_max); //contrast
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col.b = scale_to_range(col.b, -con_max+1, con_max); //contrast
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return clamp(col,0.0,1.0);
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}
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vec3 compose_bezel_over(vec3 full_viewport) {
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vec2 bezel_lut_size = textureSize(monitor_body,0);
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float bezel_frame_lod = log2(bezel_lut_size.y * (BEZEL_FRAME_ZOOM+1.0) /global.FinalViewportSize.y);
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vec2 coords_for_bezel = vTexCoord;
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if (BEZEL_FRAME_ZOOM != 0.0)
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coords_for_bezel = zoomout_coords(vTexCoord,-BEZEL_FRAME_ZOOM,1.0);
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vec2 coords_for_mirror = coords_for_bezel;
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//No need to draw anything outside this:
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if (coords_for_bezel.x < 0 || coords_for_bezel.y < 0 || coords_for_bezel.x > 1.0 || coords_for_bezel.y > 1.0) return full_viewport;
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//Main lut:
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vec4 bezel = textureLod(monitor_body,coords_for_bezel,bezel_frame_lod);
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//No need to draw anything on full alpha:
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if (bezel.a == 0.0) return full_viewport;
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//We use the red component of the bezel to express its luminance (define bezel_luminance bezel.r)
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vec3 bezel_colored = bezel_color(bezel_luminance);
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//This is the reflection to be composed over the bezel);
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vec3 pixel_mirrored = texture(reflected_blurred_pass2,
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coords_for_mirror + random( min(global.FinalViewportSize.z,global.FinalViewportSize.w), vTexCoord ) ).rgb;
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//Take the reflection modifier from the texture blue component into account; it is/may be used to lower the reflection in the corners.
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//float reflection = (reflection_shade * 1.4 - 0.4) * bezel.b ;
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//reflection = clamp (reflection, 0.0, 1.0);
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float reflection = bezel.b;
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vec3 bezel_out = bezel_colored + (pixel_mirrored * reflection * 0.5) ;
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//Mix a bit of ambient light over the bezel
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vec4 pixel_avglum = texture(avglum_pass,vOutputCoord);
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bezel_out = bezel_out + (pixel_avglum.rgb * 0.05);
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//We use the green component to express Hardness/Specularity; there the reflection will be completely diffused.
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//For the task, we use a mipmap whit adeguate precision.
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float lut_hardness = bezel.g;
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if (lut_hardness > 0.0) {
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bezel_out = bezel_out + ( ( pixel_avglum.rgb + pixel_avglum.a*0.5) * lut_hardness/3.5);
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}
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return mix(full_viewport, bezel_out, bezel.a);
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}
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vec4 pixel_inner_frame(vec2 coords, bool bBorder_needed) {
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//This takes care of drawing the main content.
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vec4 pixel_in = pixel_main_pass(coords, bBorder_needed);
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vec3 pixel_out = pixel_in.rgb;
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vec3 bloomed;
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//Mix bloom texture
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if (DO_BLOOM == 1.0 ) {
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|
bloomed=texture(bloom_pass_final, coords).rgb ;
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|
if (BLOOM_BYPASS == 1.0)
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|
pixel_out = bloomed;
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|
else {
|
|
float over_white_correction = 1.0;
|
|
if (BLOOM_OVER_WHITE < 1.0) {
|
|
//Use mipmap to identify bright areas.
|
|
vec3 avglum = texture(avglum_pass,coords).rgb;
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|
//avglum = apply_fuzzy_main_pass(avglum);
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|
float b_brightness = max(avglum.b,max(avglum.r,avglum.g));
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//b_brightness = max(pixel_out.b,max(pixel_out.r,pixel_out.g));
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|
|
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b_brightness *= 1-BLOOM_OVER_WHITE;
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|
over_white_correction =1- b_brightness;
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|
}
|
|
|
|
pixel_out = pixel_out + (bloomed * BLOOM_MIX * over_white_correction);
|
|
}
|
|
}
|
|
|
|
//Black frame insertion
|
|
if (DO_ALT_BLANK == 1.0 ) {
|
|
pixel_out = pixel_alternate(pixel_out.rgb, ALT_BLANK_STRENGTH );
|
|
}
|
|
|
|
//vignette and spot
|
|
if (DO_VIGNETTE + DO_SPOT >0.0) {
|
|
float in_aspect = get_in_aspect();
|
|
|
|
if (DO_VIGNETTE == 1.0) {
|
|
float vignette;
|
|
float dist = length(vec2((coords.x-0.5)*in_aspect,coords.y-0.5));
|
|
vignette = smoothstep(V_SIZE,0.0,dist)*V_POWER+global_noise;
|
|
if (V_BYPASS < 1.0) pixel_out = vignette * clamp(pixel_out,0.0,1.0);
|
|
else
|
|
pixel_out = vec3(vignette);
|
|
}
|
|
|
|
if (DO_SPOT == 1.0) {
|
|
float spot;
|
|
float dist = length(vec2((coords.x-0.5)*in_aspect,coords.y-0.5)+spot_offset);
|
|
spot = smoothstep(S_SIZE,0.0,dist)*S_POWER+global_noise;
|
|
if (S_BYPASS < 1.0) pixel_out = spot + pixel_out;
|
|
else
|
|
pixel_out = vec3(spot);
|
|
}
|
|
}
|
|
|
|
//smooth border (edge)
|
|
float border_inner_frame = 1.0;
|
|
if (DO_BEZEL==1.0 || DO_CURVATURE == 1.0)
|
|
border_inner_frame = border(coords);
|
|
|
|
float pixel_out_alpha = pixel_in.a * border_inner_frame;
|
|
|
|
//Out
|
|
return vec4(pixel_out,pixel_out_alpha) * border_inner_frame;
|
|
}
|
|
|
|
|
|
vec4 main_wrap(vec2 coords){
|
|
/* Handle inner border and outer border, not bezel */
|
|
if (DO_VIGNETTE + DO_SPOT + DO_AMBILIGHT >0.0) global_noise = random(NOISEPOWER, vTexCoord * params.FrameCount);
|
|
|
|
//Just do pixel_inner_frame() and exit when there is no need to paint border.
|
|
if (!border_needed()) return pixel_inner_frame(coords, false);
|
|
|
|
//From now on, we need a border.
|
|
bool bIs_outer_frame = ((vTexCoord.x < 0.0) || (vTexCoord.x > 1.0));
|
|
|
|
//Handle outer frame cases
|
|
//if we want ambilights in the outer frame, draw it and return
|
|
if (bIs_outer_frame)
|
|
return vec4(pixel_border(BG_IMAGE_OVER == 1.0),1.0);
|
|
|
|
//But if it is just outer frame, just make it black.
|
|
if (bIs_outer_frame) return vec4(0.0);
|
|
|
|
|
|
//Handle inner frame cases
|
|
vec4 vPixel_inner_frame = pixel_inner_frame(coords, true);
|
|
//mix ambilight in the inner frame too, as curvature could shrink into the inner frame.
|
|
bool draw_border = true;
|
|
//Not painting ambilights here is the best way to cheaply draw a border around the frame
|
|
if (DO_BEZEL == 1.0) {
|
|
vec2 vTexCoord_zoomout = zoomout_coords(vTexCoord, -BEZEL_INNER_ZOOM , 1.0);
|
|
float border_start = 1-BEZEL_IMAGE_BORDER;
|
|
//Not using curved coords here because crazy things would happen with vertical games
|
|
draw_border = vTexCoord_zoomout.x < border_start || vTexCoord_zoomout.x > BEZEL_IMAGE_BORDER ||
|
|
vTexCoord_zoomout.y < border_start || vTexCoord_zoomout.y > BEZEL_IMAGE_BORDER ;
|
|
}
|
|
if (draw_border)
|
|
return vec4(mix(pixel_border(BG_IMAGE_OVER == 1.0).rgb,vPixel_inner_frame.rgb,min(vPixel_inner_frame.a*1.5,1.0)),vPixel_inner_frame.a);
|
|
//return vec4(1.0,0.0,0.0,1.0);
|
|
|
|
//Last case, inner border without ambilight:
|
|
return vPixel_inner_frame;
|
|
}
|
|
|
|
|
|
void main() {
|
|
|
|
vec2 coords = vTexCoord;
|
|
//Luminosity dependant zoom
|
|
if (DO_DYNZOOM == 1.0) {
|
|
float zoomin = 1.0 + (texture(avglum_passFeedback, vec2(0.25,0.25) ).a/ DYNZOOM_FACTOR);
|
|
coords = zoom(coords, zoomin);
|
|
}
|
|
|
|
//Curvature
|
|
if (DO_CURVATURE == 1.0) {
|
|
if ((GEOM_WARP_X > 0.0) || (GEOM_WARP_Y > 0.0))
|
|
coords = Warp(coords,GEOM_WARP_X,GEOM_WARP_Y);
|
|
}
|
|
|
|
//Scale coords according to bezel settings?
|
|
if (DO_BEZEL == 1.0) {
|
|
coords = zoomout_coords(coords, -BEZEL_INNER_ZOOM , 1.0);
|
|
}
|
|
|
|
//"Just" handle inner and outer frame here:
|
|
vec4 pixel_out = main_wrap(coords);
|
|
|
|
//Draw bezel
|
|
if (DO_BEZEL == 1.0) {
|
|
pixel_out = vec4(compose_bezel_over(pixel_out.rgb),1.0);
|
|
}
|
|
|
|
//Draw an image "Over" the bezel with an hole inside by the alpha channel
|
|
if (DO_BG_IMAGE == 1.0 && BG_IMAGE_OVER==1.0) {
|
|
vec4 bg_image = pixel_background_image(true);
|
|
pixel_out = mix(pixel_out,bg_image,bg_image.a);
|
|
}
|
|
|
|
//For debug purposes:
|
|
//quad split screen
|
|
//if ( (vOutputCoord.x < 0.5 && vOutputCoord.y > 0.5) || (vOutputCoord.x > 0.5 && vOutputCoord.y < 0.5) ) pixel_out = texture(first_pass,vOutputCoord);
|
|
//split screen
|
|
//if (vTexCoord.y < 0.5) pixel_out = texture(first_pass,vTexCoord);
|
|
//pixel_out = texture(avglum_pass,vTexCoord);
|
|
|
|
FragColor = pixel_out;
|
|
}
|