Merge pull request #237 from MajorPainTheCactus/hdr_5_5

V5.5 Sony PVM 4K HDR Shader
2024-11-23 00:01:31 +11:00 · 2022-03-10 19:03:15 -06:00 · 2022-03-10 19:03:15 -06:00 · 87e63c8000
parent 938a476b13 b2162f07af
commit 87e63c8000
4 changed files with 65 additions and 57 deletions
--- a/hdr/crt-sony-pvm-4k-hdr.slangp
+++ b/hdr/crt-sony-pvm-4k-hdr.slangp
@ -35,16 +35,6 @@ alias0 = ""
 float_framebuffer0 = "false"
 srgb_framebuffer0 = "false"
 /*
 CRT Bright levels
 hcrt_brightness = "0.300000"
 hcrt_colour_system = "0.000000"
 hcrt_white_temperature = "2800.000000"
 hcrt_expand_gamut = "1.000000"
 hcrt_contrast = "0.800000"
 hcrt_gamma = "-0.200000"
 */
 hcrt_brightness = "0.150000"
 hcrt_colour_system = "0.000000"
 hcrt_white_temperature = "2800.000000"
--- a/hdr/shaders/crt-hdr.slang
+++ b/hdr/shaders/crt-hdr.slang
@ -33,8 +33,8 @@ layout(push_constant) uniform Push
   float hcrt_paper_white_nits;
   float hcrt_lcd_resolution;
   float hcrt_lcd_subpixel;
-   float hcrt_brightness;
+   float hcrt_colour_system;
-   float hcrt_contrast;
+   float hcrt_colour_space;
   float hcrt_expand_gamut;
   float hcrt_red_vertical_convergence;
   float hcrt_green_vertical_convergence;
@ -76,9 +76,10 @@ layout(std140, set = 0, binding = 0) uniform UBO
 	vec4 OutputSize;
 	uint FrameCount;
   float hcrt_colour_system;
   float hcrt_colour_space;
   float hcrt_white_temperature;
   float hcrt_brightness;
   float hcrt_contrast;
   float hcrt_saturation;
   float hcrt_gamma;
 } global;
@ -96,14 +97,12 @@ layout(std140, set = 0, binding = 0) uniform UBO
 #pragma parameter hcrt_instructions3                 "SCALING: Apect Ratio: Core Provided"                       0.0      0.0   0.0001   0.0
 #pragma parameter hcrt_space2                        " "                                                         0.0      0.0   0.0001   0.0
 #pragma parameter hcrt_user_settings                 "USER SETTINGS:"                                            0.0      0.0   0.0001   0.0
-#pragma parameter hcrt_hdr                           "    SDR | HDR"                                             1.0      0.0   1.0      1.0
+#pragma parameter hcrt_hdr                           "    HDR | SDR"                                             0.0      0.0   1.0      1.0
-#pragma parameter hcrt_max_nits                      "    Display's Peak Luminance"                              700.0    0.0   10000.0  10.0
+#pragma parameter hcrt_max_nits                      "    HDR: Display's Peak Luminance"                         700.0    0.0   10000.0  10.0
-#pragma parameter hcrt_paper_white_nits              "    Display's Paper White Luminance"                       700.0    0.0   10000.0  10.0
+#pragma parameter hcrt_paper_white_nits              "    HDR: Display's Paper White Luminance"                  700.0    0.0   10000.0  10.0
 #pragma parameter hcrt_colour_space                  "    SDR: Display's Colour Space: sRGB | DCI-P3"            0.0      0.0   1.0      1.0
 #pragma parameter hcrt_lcd_resolution                "    Display's Resolution: 4K | 8K"                         0.0      0.0   1.0      1.0
 #pragma parameter hcrt_lcd_subpixel                  "    Display's Subpixel Layout: RGB | BGR"                  0.0      0.0   1.0      1.0
 #pragma parameter hcrt_brightness                    "    Brightness"                                            0.0      -1.0  1.0      0.01
 #pragma parameter hcrt_contrast                      "    Contrast"                                              0.0      -1.0  1.0      0.01
 #pragma parameter hcrt_gamma                         "    Gamma"                                                 0.0      -1.0   1.0     0.01
 #pragma parameter hcrt_red_vertical_convergence      "    Red Vertical Convergence"                              0.00     -10.0 10.0     0.01
 #pragma parameter hcrt_green_vertical_convergence    "    Green Vertical Convergence"                            0.00     -10.0 10.0     0.01
 #pragma parameter hcrt_blue_vertical_convergence     "    Blue Vertical Convergence"                             0.00     -10.0 10.0     0.01
@ -116,9 +115,12 @@ layout(std140, set = 0, binding = 0) uniform UBO
 #pragma parameter hcrt_crt_screen_type               "    CRT Type: APERTURE GRILLE | SHADOW MASK | SLOT MASK"   0.0      0.0   2.0      1.0
 #pragma parameter hcrt_crt_resolution                "    CRT Resolution: 600TVL | 800TVL | 1000TVL"             0.0      0.0   2.0      1.0
 #pragma parameter hcrt_colour_system                 "    CRT Colour System: PAL | NTSC-U | NTSC-J"              1.0      0.0   2.0      1.0
 #pragma parameter hcrt_colour_space                  "    Colour Space: Rec.601/Rec.709 | sRGB"                  0.0      0.0   1.0      1.0
 #pragma parameter hcrt_white_temperature             "    White Point: (PAL:D65, NTSC-U:D65, NTSC-J:D93)"        0.0      -5000.0  12000.0      100.0
-#pragma parameter hcrt_expand_gamut                  "    Original/Vivid"                                        0.0      0.0   1.0      1.0
+#pragma parameter hcrt_expand_gamut                  "    HDR: Original/Vivid"                                   0.0      0.0   1.0      1.0
 #pragma parameter hcrt_brightness                    "    Brightness"                                            0.0      -1.0  1.0      0.01
 #pragma parameter hcrt_contrast                      "    Contrast"                                              0.0      -1.0  1.0      0.01
 #pragma parameter hcrt_saturation                    "    Saturation"                                            0.0      -1.0   1.0     0.01
 #pragma parameter hcrt_gamma                         "    Gamma"                                                 0.0      -1.0   1.0     0.01
 #pragma parameter hcrt_developer_settings0           "    VERTICAL SETTINGS:"                                    0.0      0.0   0.0001   0.0
 #pragma parameter hcrt_red_scanline_min              "        Red Scanline Min"                                  0.50     0.0   2.0      0.01 
@ -144,8 +146,6 @@ layout(std140, set = 0, binding = 0) uniform UBO
 #define HCRT_PAPER_WHITE_NITS               params.hcrt_paper_white_nits
 #define HCRT_LCD_RESOLUTION                 params.hcrt_lcd_resolution 
 #define HCRT_LCD_SUBPIXEL                   params.hcrt_lcd_subpixel
 #define HCRT_BRIGHTNESS                     params.hcrt_brightness
 #define HCRT_CONTRAST                       params.hcrt_contrast
 #define HCRT_EXPAND_GAMUT                   params.hcrt_expand_gamut
 #define HCRT_RED_VERTICAL_CONVERGENCE       params.hcrt_red_vertical_convergence
 #define HCRT_GREEN_VERTICAL_CONVERGENCE     params.hcrt_green_vertical_convergence
@ -156,9 +156,12 @@ layout(std140, set = 0, binding = 0) uniform UBO
 #define HCRT_CRT_SCREEN_TYPE                params.hcrt_crt_screen_type
 #define HCRT_CRT_RESOLUTION                 params.hcrt_crt_resolution
-#define HCRT_CRT_COLOUR_SPACE               global.hcrt_colour_space
+#define HCRT_CRT_COLOUR_SYSTEM              params.hcrt_colour_system
-#define HCRT_CRT_COLOUR_SYSTEM              global.hcrt_colour_system
+#define HCRT_OUTPUT_COLOUR_SPACE            params.hcrt_colour_space
 #define HCRT_WHITE_TEMPERATURE              global.hcrt_white_temperature
 #define HCRT_BRIGHTNESS                     global.hcrt_brightness
 #define HCRT_CONTRAST                       global.hcrt_contrast
 #define HCRT_SATURATION                     global.hcrt_saturation
 #define HCRT_GAMMA                          global.hcrt_gamma
 #define HCRT_RED_SCANLINE_MIN               params.hcrt_red_scanline_min
@ -401,20 +404,46 @@ float Bezier(const float t0, const vec4 control_points)
   return dot(t, control_points * kCubicBezier);
 }
 // SDR Colour output spaces
 float sRGBToLinear_1(const float channel)
 {
 	return (channel > 0.04045f) ? pow((channel + 0.055f) * (1.0f / 1.055f), 2.4f + HCRT_GAMMA) : channel * (1.0f / 12.92f);
 }
 vec3 sRGBToLinear(const vec3 colour)
 {
 	return vec3(sRGBToLinear_1(colour.r), sRGBToLinear_1(colour.g), sRGBToLinear_1(colour.b));
 }
 float LinearTosRGB_1(const float channel)
 {
 	return (channel > 0.0031308f) ? (1.055f * pow(channel, 1.0f / 2.4f)) - 0.055f : channel * 12.92f;
 }
 vec3 LinearTosRGB(const vec3 colour)
 {
 	return vec3(LinearTosRGB_1(colour.r), LinearTosRGB_1(colour.g), LinearTosRGB_1(colour.b));
 }
 vec3 LinearToDCIP3(const vec3 colour)
 {
 	return pow(colour, vec3(1.0f / 2.6f));
 }
 #include "include\hdr10.h"
 #include "include\inverse_tonemap.h"
 #include "include\colour_grade.h"
 #include "include\scanline_generation.h"
-vec3 Hdr10Conditional(const vec3 scanline_colour)
+vec3 GammaCorrect(const vec3 scanline_colour)
 {
   if(HCRT_HDR > 0.0f)
   {
-      return Hdr10(scanline_colour, HCRT_PAPER_WHITE_NITS, HCRT_EXPAND_GAMUT);
+      return HCRT_OUTPUT_COLOUR_SPACE == 0.0f ? LinearTosRGB(scanline_colour) : LinearToDCIP3(scanline_colour);
   }
   else
   {
-      return scanline_colour;
+      return Hdr10(scanline_colour, HCRT_PAPER_WHITE_NITS, HCRT_EXPAND_GAMUT);
   }
 }
@ -467,8 +496,7 @@ void main()
      }
   }
-   const vec3 hdr10 = Hdr10Conditional(scanline_colour);
+   const vec3 hdr10 = GammaCorrect(scanline_colour);
   //FragColor = vec4(scanline_colour, 1.0);
   FragColor = vec4(hdr10, 1.0);
 }
--- a/hdr/shaders/include/colour_grade.h
+++ b/hdr/shaders/include/colour_grade.h
@ -95,26 +95,6 @@ vec3 LinearTor601r709(const vec3 colour)
 	return vec3(LinearTor601r709_1(colour.r), LinearTor601r709_1(colour.g), LinearTor601r709_1(colour.b));
 }
 float sRGBToLinear_1(const float channel)
 {
 	return (channel > 0.04045f) ? pow((channel + 0.055f) * (1.0f / 1.055f), 2.4f + HCRT_GAMMA) : channel * (1.0f / 12.92f);
 }
 vec3 sRGBToLinear(const vec3 colour)
 {
 	return vec3(sRGBToLinear_1(colour.r), sRGBToLinear_1(colour.g), sRGBToLinear_1(colour.b));
 }
 float LinearTosRGB_1(const float channel)
 {
 	return (channel > 0.0031308f) ? (1.055f * pow(channel, 1.0f / 2.4f)) - 0.055f : channel * 12.92f;
 }
 vec3 LinearTosRGB(const vec3 colour)
 {
 	return vec3(LinearTosRGB_1(colour.r), LinearTosRGB_1(colour.g), LinearTosRGB_1(colour.b));
 }
 // XYZ Yxy transforms found in Dogway's Grade.slang shader
 vec3 XYZtoYxy(const vec3 XYZ)
@ -165,11 +145,19 @@ float Contrast(const float luminance)
   }
 }
 vec3 Saturation(const vec3 colour)
 {
   const float luma           = dot(colour, vec3(0.2125, 0.7154, 0.0721));
   const float saturation     = 0.5f + HCRT_SATURATION * 0.5f;
   return clamp(mix(vec3(luma), colour, vec3(saturation) * 2.0f), 0.0f, 1.0f);
 }
 vec3 ColourGrade(const vec3 colour)
 {
   const uint colour_system   = uint(HCRT_CRT_COLOUR_SYSTEM);
-   const vec3 linear          = HCRT_CRT_COLOUR_SPACE == 0.0f ? r601r709ToLinear(colour) : sRGBToLinear(colour);
+   const vec3 linear          = r601r709ToLinear(colour);
   const vec3 xyz             = sRGB_to_XYZ * linear;
   const vec3 Yxy             = XYZtoYxy(xyz);
@ -183,7 +171,9 @@ vec3 ColourGrade(const vec3 colour)
   const vec3 contrast_xyz    = YxytoXYZ(contrast_linear);
   const vec3 contrast        = clamp(XYZ_to_sRGB * contrast_xyz, 0.0f, 1.0f);
-   const vec3 gamut           = kPhosphorGamut[colour_system] * contrast;
+   const vec3 saturation      = Saturation(contrast);
   const vec3 gamut           = kPhosphorGamut[colour_system] * saturation;
   const vec3 white_point     = WhiteBalance(kTemperatures[colour_system] + HCRT_WHITE_TEMPERATURE, gamut);
--- a/hdr/shaders/include/scanline_generation.h
+++ b/hdr/shaders/include/scanline_generation.h
@ -38,11 +38,11 @@ vec3 InverseTonemapConditional(const vec3 linear)
 {
   if(HCRT_HDR > 0.0f)
   {
-      return InverseTonemap(linear, HCRT_MAX_NITS, HCRT_PAPER_WHITE_NITS, kLumaRatio);
+      return linear;
   }
   else
   {
-      return linear;
+      return InverseTonemap(linear, HCRT_MAX_NITS, HCRT_PAPER_WHITE_NITS, kLumaRatio);
   }
 }