slang-shaders/bezel/Mega_Bezel/shaders/base/common/helper-functions.inc

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2022-06-25 10:06:45 +10:00
/*
Mega Bezel - Creates a graphic treatment for the game play area to give a retro feel
Copyright (C) 2019-2022 HyperspaceMadness - HyperspaceMadness@outlook.com
2022-06-25 10:06:45 +10:00
Texture interpolation based on "Improved texture interpolation" by Inigo Quilez
Original description: http://www.iquilezles.org/www/articles/texture/texture.htm
Expects the texture to be using linear filtering
See more at the libretro forum
https://forums.libretro.com/t/hsm-mega-bezel-reflection-shader-feedback-and-updates
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <https://www.gnu.org/licenses/>.
*/
2022-10-11 07:26:21 +11:00
float SOURCE_MATTE_PREMULTIPLIED = 0;
float SOURCE_MATTE_WHITE = 1;
float SOURCE_MATTE_NONE = 2;
float BLEND_MODE_OFF = 0;
float BLEND_MODE_NORMAL = 1;
float BLEND_MODE_ADD = 2;
float BLEND_MODE_MULTIPLY = 3;
2022-06-25 10:06:45 +10:00
vec4 HSM_ApplyGamma(vec4 in_color, float in_gamma)
{
vec3 out_color = pow(in_color.rgb, vec3(1 / in_gamma));
return vec4(out_color, in_color.a);
}
// 'Removes' encoded gamma from color to put the color in linear space
vec4 HSM_Linearize(vec4 in_color, float encoded_gamma)
{
return HSM_ApplyGamma(in_color, 1 / encoded_gamma);
}
// Adds gamma onto color in linear space to get a color with encoded gamma
vec4 HSM_Delinearize(vec4 in_color, float in_gamma)
{
return HSM_ApplyGamma(in_color, in_gamma);
}
vec3 HSM_RGBtoHSV(vec3 c)
{
vec4 K = vec4(0.0, -1.0 / 3.0, 2.0 / 3.0, -1.0);
vec4 p = c.g < c.b ? vec4(c.bg, K.wz) : vec4(c.gb, K.xy);
vec4 q = c.r < p.x ? vec4(p.xyw, c.r) : vec4(c.r, p.yzx);
float d = q.x - min(q.w, q.y);
float e = 1.0e-10;
return vec3(abs(q.z + (q.w - q.y) / (6.0 * d + e)), d / (q.x + e), q.x);
}
vec3 HSM_HSVtoRGB(vec3 c)
{
vec4 K = vec4(1.0, 2.0 / 3.0, 1.0 / 3.0, 3.0);
vec3 p = abs(fract(c.xxx + K.xyz) * 6.0 - K.www);
return c.z * mix(K.xxx, clamp(p - K.xxx, 0.0, 1.0), c.y);
}
vec3 HSM_ApplyHSVAdjustment(vec3 in_color_rgb, float in_hue, float in_saturation, float in_brightness, float in_colorize_on, float in_gamma_adjust)
{
if (!(in_colorize_on == 1 || in_hue != 0 || in_saturation != 1 || in_brightness != 1 || in_gamma_adjust != 1))
return in_color_rgb;
vec3 color_hsv = HSM_RGBtoHSV(in_color_rgb);
if (in_colorize_on > 0.5)
{
color_hsv.x = in_hue;
color_hsv.y = mix(mix(0, color_hsv.y, clamp(in_saturation, 0, 1)), 1, clamp(in_saturation - 1, 0, 1) );
}
else
{
color_hsv.x += in_hue;
color_hsv.y *= in_saturation;
}
color_hsv.z *= in_brightness;
vec3 color_rgb = HSM_HSVtoRGB(color_hsv);
if (in_gamma_adjust != 1)
color_rgb = HSM_ApplyGamma(vec4(color_rgb.r, color_rgb.g, color_rgb.b, 1), in_gamma_adjust).rgb;
return color_rgb;
}
vec4 HSM_GetPreMultipliedColorLinear(vec4 in_color, float matte_type, float encoded_gamma)
{
vec4 out_color = in_color;
if (matte_type == SOURCE_MATTE_WHITE)
out_color.rgb = clamp(out_color.rgb - (1 - out_color.a), 0, 1);
out_color = HSM_Linearize(out_color, encoded_gamma);
// If the color was not already premultiplied (matted with black) premultiply it now
if (matte_type == SOURCE_MATTE_NONE)
out_color.rgb *= out_color.a;
return out_color;
}
/* Composite one image over top another using the alpha to blend
* It is expected that the input colors have been already premultiplied
* which means their rgb has already been multiplied by their alpha */
vec4 HSM_PreMultAlphaBlend(vec4 color_under, vec4 color_over)
{
vec4 out_color = vec4(color_over.rgb + (color_under.rgb * (1 - color_over.a)), clamp(color_under.a + color_over.a, 0, 1));
return out_color;
}
vec4 HSM_BlendMultiply(vec4 color_under, vec4 color_over, float opacity)
{
float final_opacity = color_over.a * opacity;
return vec4(color_under.rgb * (final_opacity * color_over.rgb + (1 - final_opacity) * vec3(1)), color_under.a);
}
// Assumes Opacity is already encoded in alpha
vec4 HSM_BlendModeLayerMix(vec4 color_under, vec4 color_over, float blend_mode, float layer_opacity)
{
if (blend_mode == 0)
return color_under;
if (blend_mode == BLEND_MODE_OFF)
return color_under;
color_over.a *= layer_opacity;
vec4 out_color = vec4(0);
if (blend_mode == BLEND_MODE_NORMAL)
{
color_over.rgb *= color_over.a;
out_color = HSM_PreMultAlphaBlend(color_under, color_over);
}
else
{
vec4 blend_color = color_under;
if (blend_mode == BLEND_MODE_ADD) blend_color.rgb = color_under.rgb + color_over.rgb ;
if (blend_mode == BLEND_MODE_MULTIPLY) blend_color.rgb = color_under.rgb * color_over.rgb ;
out_color = vec4(clamp(mix(color_under.rgb, blend_color.rgb, color_over.a), 0, 1), color_under.a);
}
return out_color;
}
vec4 HSM_TextureQuilez(sampler2D in_sampler_2D, vec2 in_texture_size, vec2 p)
{
vec2 tex_size = textureSize(in_sampler_2D, 0);
p = p * in_texture_size + vec2(0.5, 0.5);
vec2 i = floor(p);
vec2 f = p - i;
f = f * f * f * (f * (f * 6.0 - vec2(15.0, 15.0)) + vec2(10.0, 10.0));
p = i + f;
p = (p - vec2(0.5, 0.5)) * (1/in_texture_size);
// final sum and weight normalization
return texture(in_sampler_2D, p);
}
float HHLP_GetMaskCenteredOnValue(float in_value, float value_to_match, float threshold)
{
float edge_0 = value_to_match - threshold;
float edge_1 = value_to_match - 0.5 * threshold;
float edge_2 = value_to_match + 0.5 * threshold;
float edge_3 = value_to_match + threshold;
float out_mask = 1.0;
out_mask *= smoothstep(edge_0, edge_1, in_value);
out_mask *= smoothstep(edge_3, edge_2, in_value);
return out_mask;
}
// Quadratic Bezier allows us to have a controlled falloff between 0 and 1
// One use is to avoid the perception of discontinuity at the outer edge experienced with a linear gradients
float HHLP_QuadraticBezier (float x, vec2 a)
{
// Originally adapted by @kyndinfo from BEZMATH.PS (1993) by Don Lancaster
// http://www.tinaja.com/text/bezmath.html
float epsilon = 0.00001;
a.x = clamp(a.x,0.0,1.0);
a.y = clamp(a.y,0.0,1.0);
if (a.x == 0.5){
a += epsilon;
}
// solve t from x (an inverse operation)
float om2a = 1.0 - 2.0 * a.x;
float t = (sqrt(a.x*a.x + om2a*x) - a.x)/om2a;
float y = (1.0-2.0*a.y)*(t*t) + (2.0*a.y)*t;
return y;
}
float HHLP_EasePowerIn(float x, float in_exponent)
{
x = max(0, min(x, 1));
return pow(x, in_exponent);
}
float HHLP_EasePowerOut(float x, float in_exponent)
{
x = 1.0 - max(0, min(x, 1));
return 1.0 - pow(x, in_exponent);
}
float HHLP_EasePowerInOut(float x, float in_exponent)
{
x = max(0, min(x, 1));
if (x < 0.5)
{
return pow(x * 2, in_exponent) * 0.5;
}
else
{
return 1.0 - pow((1 - x) * 2, in_exponent) * 0.5;
}
}
float HHLP_GetDistanceToLine(float x1, float y1, float a, float b, float c)
{
float d = abs((a * x1 + b * y1 + c)) /
(sqrt(a * a + b * b));
return d;
}
// Returns 1 if in_value < compare_value
// Useful when ifs are bad for performance
float HHLP_IsUnderValue(float in_value, float compare_value)
{
return clamp((compare_value - in_value) * 100000, 0, 1);
}
// Returns 1 if in_value > compare_value
// Useful when ifs are bad for performance
float HHLP_IsOverValue(float in_value, float compare_value)
{
return clamp(-1 * (compare_value - in_value) * 100000, 0, 1);
}
// Returns 1 if in_value == compare_value within the epsilon value provided
// Useful when ifs are bad for performance
float HHLP_EqualsValue(float in_value, float compare_value, float epsilon)
{
return HHLP_IsUnderValue(in_value, compare_value + epsilon) * HHLP_IsOverValue(in_value, compare_value - epsilon);
}
float HHLP_EqualsResolution(vec2 in_res, vec2 test_res)
{
float hardcoded_epsilon = 0.001;
return HHLP_EqualsValue(in_res.x, test_res.x, hardcoded_epsilon) *
HHLP_EqualsValue(in_res.y, test_res.y, hardcoded_epsilon);
}
vec4 HHLP_GetBilinearTextureSample(sampler2D in_sampler, vec2 in_coord, vec4 in_size)
{
vec2 uv = in_coord * in_size.xy - 0.5; // Shift by 0.5 since the texel sampling points are in the texel center.
vec2 a = fract(uv);
vec2 tex = (floor(uv) + 0.5) * in_size.zw; // Build a sampling point which is in the center of the texel.
// Sample the bilinear footprint.
vec4 t0 = textureLodOffset(in_sampler, tex, 0.0, ivec2(0, 0));
vec4 t1 = textureLodOffset(in_sampler, tex, 0.0, ivec2(1, 0));
vec4 t2 = textureLodOffset(in_sampler, tex, 0.0, ivec2(0, 1));
vec4 t3 = textureLodOffset(in_sampler, tex, 0.0, ivec2(1, 1));
// Bilinear filter.
vec4 result = mix(mix(t0, t1, a.x), mix(t2, t3, a.x), a.y);
return result;
}
bool HHLP_IsOutsideCoordSpace(vec2 in_coord)
{
return (abs(in_coord.x - 0.5) > 0.501 || abs(in_coord.y - 0.5) > 0.501);
Mega Bezel update to V1.0.003_2022-07-28_Rev-1 * Updated to the latest guest release: crt-guest-advanced-2022-07-27-release1 * Changed Guest mask size to 1 by default so that there isn't inconsistency using guest settings in the Mega Bezel * Adjusted the default SMOOTH-ADV scaling parameters for a sharper smooth look: * HSM_CORE_RES_SAMPLING_MULT_SCANLINE_DIR = 300 * HSM_CORE_RES_SAMPLING_MULT_OPPOSITE_DIR = 125 * HSM_DOWNSAMPLE_BLUR_SCANLINE_DIR = 0 * HSM_DOWNSAMPLE_BLUR_OPPOSITE_DIR = 0 * Added **Shift Sampling Relative to Scanlines** to shift the image relative to the scanlines * The ScaleFx settings now only appear on the SMOOTH-ADV preset nearer the bottom of the parameter list * Fixed Double image when using cropping in NTSC presets reported by @JHorbach1 * Updated to crt-guest-advanced-2022-07-17-release1 * Includes Scanline Gamma * Tube Gel and Diffuse Fixes * Gel is now mapped to the tube, independent of the black edge * Added a feature to add a bit of tube diffuse shading to the GEL this should make it look a little more natural * [ TUBE COLORED GEL IMAGE ] > Normal Multiply by Tube Diffuse Shading * HSM_TUBE_BLACK_EDGE_LAYERING_MODE has been removed as it's not needed anymore * CRT Multiply blend mode now works better when there is extra tube thickness * Changed HSM_TUBE_DIFFUSE_IMAGE_SCALE to 120 by default to have a less rounded look * If you want a stronger rounded shaded look reset it to 100 * Fixed Scale discrepancy when using the Cab Glass Image * Added Shadow Opacity param to control shadow being applied to the static tube highlight
2022-07-29 11:56:28 +10:00
}
Mega Bezel V1.11.0_2023-02-25 Changes: * Guest Advanced updated to crt-guest-advanced-2023-02-25-release1 * Improvements to the new Magic Glow feature * Turn Magic Glow on and Increase the Glow amount to see the effect * New Slot Mask Mitigation option to reduce moire * Added/Restored Guest's Raster Bloom as well as Overscan control * Updated Comments in presets to use # instead of // as per @hunterk's request * Added rotation option for Rotate CRT Tube: * -1 = 90 Degrees Clockwise (or 270 Counter Clockwise) * 0 = No Rotation * 1 = 90 Degrees Counter Clockwise * Added groundwork for the wildcard replacement feature so presets will auto rotate and not flip in the future * Added DREZ presets which keep the horizontal resolution * Helpful for applying to modern games, these two are good to try * `Presets\Base_CRT_Presets_DREZ\MBZ__3__STD__GDV__DREZ_X-VIEWPORT_Y-240p.slangp` * `Presets\Base_CRT_Presets_DREZ\MBZ__3__STD__GDV__DREZ_X-VIEWPORT_Y-480p.slangp` * Also looks good on MVC2, try `Presets\Base_CRT_Presets_DREZ\MBZ__3__STD__GDV__DREZ_X-VIEWPORT_Y-240p.slangp` * Updated preset capability and performance table * Added contrast for signal noise * Added some more Sinden presets for SCREEN-ONLY and POTATO * Added Screen Region to Resolution Debug text * Good for getting the screen region pixel coordinates if you need them * Adjusted Ambient Lighting Scaling when using the Inherit Zoom scale mode * Now when you zoom out it is much less likely to generate a black frame covering the outer parts of the background image * The minimum size of the lighting texture will be close to the height of the current viewport * This reduces the likelihood that we will see the cutoff * ScaleFx: Exposed more of the settings so they can be tweaked * Default Settings changed: * ScaleFx Threshold: now 0.43 (was 0.5) * ScaleFx Filter Corners: now 0 (was 1) * These settings result in a slighly clearer picture and less rounding of square corners * SMOOTH-ADV ntsc presets: ntsc_scale adjusted so it visually matches the regular ADV ntsc presets
2023-03-01 00:02:52 +11:00
float rand(vec2 co, float size){
return fract(sin(dot(co, vec2(12.9898, 78.233))) * 43758.5453) * size;
}