Merge pull request #37 from Monroe88/patch-4

Add parameters to sharp-bilinear and AANN shaders

retro/shaders/aann.slang

@@ -1,5 +1,12 @@
 #version 450
 
+layout(push_constant) uniform Push
+{
+  float NOGAMMA;
+  float MASKING;
+  float BILINEAR;
+} param;
+
 layout(std140, set = 0, binding = 0) uniform UBO
 {
     mat4 MVP;
@@ -13,14 +20,14 @@ layout(std140, set = 0, binding = 0) uniform UBO
 // Licensed MIT
 
 // set to true to interpolate in sRGB instead of a pseudo-perceptual colorspace
-#define NOGAMMA false
+#pragma parameter NOGAMMA "Interpolate in sRGB" 0.0 0.0 1.0 1.0
 
 // set to true to compensate for 8px overscan masking
 // Note: overscan compensation slightly alters (extremifies) the pixel aspect ratio of the game if said pixel aspect ratio is not exactly 1:1
-#define MASKING false
+#pragma parameter MASKING "8px Overscan Masking" 0.0 0.0 1.0 1.0
 
 // Do bilinear filtering instead of anti-aliased nearest neighbor filtering (used for debugging color)
-#define BILINEAR false
+#pragma parameter BILINEAR "Force Bilinear Filtering" 0.0 0.0 1.0 1.0
 
 // http://i.imgur.com/kzwZkVf.png
 
@@ -69,7 +76,7 @@ vec3 linear2srgb(vec3 linear) {
 #define BS 0.0722
 
 vec3 rgb2vry(vec3 rgb) {
-    if (NOGAMMA) 
+    if (param.NOGAMMA == 1.0)
         return rgb;
 
     // https://en.wikipedia.org/wiki/Opponent_process
@@ -87,7 +94,7 @@ vec3 rgb2vry(vec3 rgb) {
     return vry;
 }
 vec3 vry2rgb(vec3 vry) {
-    if (NOGAMMA)
+    if (param.NOGAMMA == 1.0)
         return vry;
 
     // Magic.
@@ -103,7 +110,7 @@ vec3 vry2rgb(vec3 vry) {
 }
 
 vec3 vry_interp(vec3 first, vec3 second, float frac) {
-    if (NOGAMMA) 
+    if (param.NOGAMMA == 1.0)
         return first*NOT(frac) + second*YES(frac);
     
     // Because the chroma values were generated on linear light, but the luma must be interpolated in perceptual gamma (3)
@@ -124,7 +131,7 @@ vec3 vry_interp(vec3 first, vec3 second, float frac) {
 }
 
 vec3 percent(float ssize, float tsize, float coord) {
-    if (BILINEAR) 
+    if (param.BILINEAR == 1.0)
         tsize = ssize;
     
     float minfull = (coord*tsize - 0.5)/tsize*ssize;
@@ -146,7 +153,7 @@ vec3 percent(float ssize, float tsize, float coord) {
 void main() {
     vec2 viewportSize = global.OutputSize.xy;
     vec2 gameCoord = vTexCoord;
-    if (MASKING) {
+    if (param.MASKING == 1.0) {
         float hscale = viewportSize.x/global.SourceSize.x;
         float vscale = viewportSize.y/global.SourceSize.y;
 

retro/shaders/sharp-bilinear.slang

@@ -1,5 +1,10 @@
 #version 450
 
+layout(push_constant) uniform Push
+{
+  float SHARP_BILINEAR_PRE_SCALE;
+} param;
+
 layout(std140, set = 0, binding = 0) uniform UBO
 {
    mat4 MVP;
@@ -9,15 +14,15 @@ layout(std140, set = 0, binding = 0) uniform UBO
 } global;
 
 /*
- * sharp-bilinear.cg
+ * sharp-bilinear.slang
  * Author: Themaister
  * License: Public domain
  * 
  * Does a bilinear stretch, with a preapplied Nx nearest-neighbor scale, giving a
  * sharper image than plain bilinear.
  */
- 
- #define SHARP_BILINEAR_PRE_SCALE 4.0
+
+#pragma parameter SHARP_BILINEAR_PRE_SCALE "Sharp Bilinear Prescale" 4.0 1.0 10.0 1.0
 
 #pragma stage vertex
 layout(location = 0) in vec4 Position;
@@ -40,13 +45,13 @@ void main()
    vec2 texel = vTexCoord * global.SourceSize.xy;
    vec2 texel_floored = floor(texel);
    vec2 s = fract(texel);
-   float region_range = 0.5 - 0.5 / SHARP_BILINEAR_PRE_SCALE;
+   float region_range = 0.5 - 0.5 / param.SHARP_BILINEAR_PRE_SCALE;
 
    // Figure out where in the texel to sample to get correct pre-scaled bilinear.
    // Uses the hardware bilinear interpolator to avoid having to sample 4 times manually.
 
    vec2 center_dist = s - 0.5;
-   vec2 f = (center_dist - clamp(center_dist, -region_range, region_range)) * SHARP_BILINEAR_PRE_SCALE + 0.5;
+   vec2 f = (center_dist - clamp(center_dist, -region_range, region_range)) * param.SHARP_BILINEAR_PRE_SCALE + 0.5;
 
    vec2 mod_texel = texel_floored + f;