Merge pull request #7 from rz5/patch-1

Update crt-geom.slang
2024-11-26 01:11:32 +11:00 · 2016-07-18 13:18:57 -05:00 · 2016-07-18 13:18:57 -05:00 · 454e1ac131
parent cfa2d35646 b4a3d72ca5
commit 454e1ac131
1 changed files with 67 additions and 64 deletions
--- a/crt/crt-geom.slang
+++ b/crt/crt-geom.slang
@ -12,7 +12,7 @@ layout(std140, set = 0, binding = 0) uniform UBO
 #define CRTgamma 2.4
 #define monitorgamma 2.2
 #define d 1.5
-//#define CURVATURE 1.0
+#define CURVATURE 1.0
 #define R 2.0
 #define cornersize 0.03
 #define cornersmooth 1000.0
@ -71,7 +71,6 @@ layout(std140, set = 0, binding = 0) uniform UBO

 // aspect ratio
 vec2 aspect     = vec2(1.0,  0.75);
-vec2 angle      = vec2(0.0,  0.0);
 vec2 overscan   = vec2(1.01, 1.01);

 #pragma stage vertex
@ -84,6 +83,7 @@ layout(location = 3) out vec3 stretch;
 layout(location = 4) out vec2 ilfac;
 layout(location = 5) out vec2 one;
 layout(location = 6) out float mod_factor;
+layout(location = 7) out vec2 TextureSize;

 float intersect(vec2 xy)
 {
@ -96,20 +96,18 @@ float intersect(vec2 xy)

 vec2 bkwtrans(vec2 xy)
 {
-    float c = intersect(xy);
-    vec2 point = vec2(c)*xy;
-    point -= vec2(-R)*sinangle;
-    point /= vec2(R);
-    vec2 tang = sinangle/cosangle;
-    vec2 poc = point/cosangle;
+    float c     = intersect(xy);
+    vec2 point  = (vec2(c, c)*xy - vec2(-R, -R)*sinangle) / vec2(R, R);
+    vec2 poc    = point/cosangle;
    
-    float A = dot(tang,tang)+1.0;
-    float B = -2.0*dot(poc,tang);
-    float C = dot(poc,poc)-1.0;
+    vec2 tang   = sinangle/cosangle;
+    float A     = dot(tang, tang) + 1.0;
+    float B     = -2.0*dot(poc, tang);
+    float C     = dot(poc, poc) - 1.0;
    
-    float a = (-B+sqrt(B*B-4.0*A*C))/(2.0*A);
-    vec2 uv = (point-a*sinangle)/cosangle;
-    float r = R*acos(a);
+    float a     = (-B + sqrt(B*B - 4.0*A*C))/(2.0*A);
+    vec2 uv     = (point - a*sinangle)/cosangle;
+    float r     = R*acos(a);
    
    return uv*r/sin(r/R);
 }
@ -128,10 +126,12 @@ vec3 maxscale()
 {
    vec2 c  = bkwtrans(-R * sinangle / (1.0 + R/d*cosangle.x*cosangle.y));
    vec2 a  = vec2(0.5,0.5)*aspect;
-    vec2 lo = vec2(fwtrans(vec2(-a.x,c.y)).x,
-             fwtrans(vec2(c.x,-a.y)).y)/aspect;
-    vec2 hi = vec2(fwtrans(vec2(+a.x,c.y)).x,
-             fwtrans(vec2(c.x,+a.y)).y)/aspect;
+    
+    vec2 lo = vec2(fwtrans(vec2(-a.x,  c.y)).x,
+                   fwtrans(vec2( c.x, -a.y)).y)/aspect;
+
+    vec2 hi = vec2(fwtrans(vec2(+a.x,  c.y)).x,
+                   fwtrans(vec2( c.x, +a.y)).y)/aspect;
    
    return vec3((hi+lo)*aspect*0.5,max(hi.x-lo.x,hi.y-lo.y));
 }
@ -174,14 +174,19 @@ void main()

    // Precalculate a bunch of useful values we'll need in the fragment
    // shader.
-    sinangle = sin(angle);
-    cosangle = cos(angle);
-    stretch  = maxscale();
-
-    ilfac = vec2(1.0, 1.0000001);//vec2(1.0,(global.SourceSize.y/200.0));
+    sinangle    = sin(vec2(x_tilt, y_tilt));
+    cosangle    = cos(vec2(x_tilt, y_tilt));
+    stretch     = maxscale();
+    TextureSize = vec2(SHARPER * global.SourceSize.x, global.SourceSize.y);
+    
+#ifdef INTERLACED
+    ilfac = vec2(1.0, clamp(floor(global.SourceSize.y/200.0),  1.0, 2.0));
+#else
+    ilfac = vec2(1.0, clamp(floor(global.SourceSize.y/1000.0), 1.0, 2.0));
+#endif

    // The size of one texel, in texture-coordinates.
-    one = ilfac / global.SourceSize.xy;
+    one = ilfac / TextureSize;

    // Resulting X pixel-coordinate of the pixel we're drawing.
    mod_factor = vTexCoord.x * global.SourceSize.x * global.OutputSize.x / global.SourceSize.x;
@ -195,13 +200,14 @@ layout(location = 3) in vec3 stretch;
 layout(location = 4) in vec2 ilfac;
 layout(location = 5) in vec2 one;
 layout(location = 6) in float mod_factor;
+layout(location = 7) in vec2 TextureSize;
 layout(location = 0) out vec4 FragColor;
 layout(set = 0, binding = 2) uniform sampler2D Source;

 float intersect(vec2 xy)
 {
    float A = dot(xy,xy) + d*d;
-    float B = 2.0*(R*(dot(xy,sinangle)-d*cosangle.x*cosangle.y) - d*d);
+    float B = 2.0*(R*(dot(xy,sinangle) - d*cosangle.x*cosangle.y) - d*d);
    float C = d*d + 2.0*R*d*cosangle.x*cosangle.y;
    
    return (-B-sqrt(B*B - 4.0*A*C))/(2.0*A);
@ -209,45 +215,41 @@ float intersect(vec2 xy)

 vec2 bkwtrans(vec2 xy)
 {
-    float c = intersect(xy);
-    vec2 point = vec2(c)*xy;
+    float c     = intersect(xy);
+    vec2 point  = (vec2(c, c)*xy - vec2(-R, -R)*sinangle) / vec2(R, R);
+    vec2 poc    = point/cosangle;
+    vec2 tang   = sinangle/cosangle;

-    point -= vec2(-R)*sinangle;
-    point /= vec2(R);
+    float A     = dot(tang, tang) + 1.0;
+    float B     = -2.0*dot(poc, tang);
+    float C     = dot(poc, poc) - 1.0;

-    vec2 tang = sinangle/cosangle;
-    vec2 poc = point/cosangle;
-
-    float A = dot(tang,tang)+1.0;
-    float B = -2.0*dot(poc,tang);
-    float C = dot(poc,poc)-1.0;
-
-    float a = (-B+sqrt(B*B-4.0*A*C))/(2.0*A);
-    vec2 uv = (point-a*sinangle)/cosangle;
-    float r = R*acos(a);
+    float a     = (-B + sqrt(B*B - 4.0*A*C)) / (2.0*A);
+    vec2 uv     = (point - a*sinangle) / cosangle;
+    float r     = R*acos(a);
    
    return uv*r/sin(r/R);
 }

 vec2 fwtrans(vec2 uv)
 {
-    float r = FIX(sqrt(dot(uv,uv)));
+    float r = FIX(sqrt(dot(uv, uv)));
    uv *= sin(r/R)/r;
-    float x = 1.0-cos(r/R);
+    float x = 1.0 - cos(r/R);
    float D = d/R + x*cosangle.x*cosangle.y + dot(uv,sinangle);

-    return d*(uv*cosangle-x*sinangle)/D;
+    return d*(uv*cosangle - x*sinangle)/D;
 }

 vec3 maxscale()
 {
    vec2 c = bkwtrans(-R * sinangle / (1.0 + R/d*cosangle.x*cosangle.y));
-    vec2 a = vec2(0.5,0.5)*aspect;
+    vec2 a = vec2(0.5, 0.5)*aspect;

-    vec2 lo = vec2(fwtrans(vec2(-a.x,c.y)).x,
-             fwtrans(vec2(c.x, -a.y)).y)/aspect;
-    vec2 hi = vec2(fwtrans(vec2(+a.x,c.y)).x,
-             fwtrans(vec2(c.x, +a.y)).y)/aspect;
+    vec2 lo = vec2(fwtrans(vec2(-a.x,  c.y)).x,
+                   fwtrans(vec2( c.x, -a.y)).y)/aspect;
+    vec2 hi = vec2(fwtrans(vec2(+a.x,  c.y)).x,
+                   fwtrans(vec2( c.x, +a.y)).y)/aspect;

    return vec3((hi+lo)*aspect*0.5,max(hi.x-lo.x, hi.y-lo.y));
 }
@ -283,22 +285,21 @@ vec4 scanlineWeights(float distance, vec4 color)
    
 vec2 transform(vec2 coord)
 {
-    coord *= global.SourceSize.xy;
-    coord = (coord-vec2(0.5))*aspect*stretch.z+stretch.xy;
+    coord = (coord - vec2(0.5, 0.5))*aspect*stretch.z + stretch.xy;
    
-    return (bkwtrans(coord)/vec2(overscan_x / 100.0, overscan_y / 100.0)/aspect+vec2(0.5)) * global.SourceSize.xy;
+    return (bkwtrans(coord) /
+        vec2(overscan_x / 100.0, overscan_y / 100.0)/aspect + vec2(0.5, 0.5));
 }
    
 float corner(vec2 coord)
 {
-//       coord *= global.SourceSize.xy / global.SourceSize.zw;
-    coord = (coord - vec2(0.5)) * vec2(overscan_x / 100.0, overscan_y / 100.0) + vec2(0.5);
+    coord = (coord - vec2(0.5)) * vec2(overscan_x / 100.0, overscan_y / 100.0) + vec2(0.5, 0.5);
    coord = min(coord, vec2(1.0) - coord) * aspect;
    vec2 cdist = vec2(cornersize);
    coord = (cdist - min(coord, cdist));
    float dist = sqrt(dot(coord, coord));
    
-    return clamp((cdist.x-dist)*cornersmooth, 0.0, 1.0);
+    return clamp((cdist.x - dist)*cornersmooth, 0.0, 1.0);
 }
    
 void main()
@ -330,6 +331,7 @@ void main()
 #else
    vec2 xy = vTexCoord;
 #endif
+
    float cval = corner(xy);

    // Of all the pixels that are mapped onto the texel we are
@ -339,14 +341,12 @@ void main()
 #else
    vec2 ilvec = vec2(0.0, ilfac.y);
 #endif
-    vec2 ratio_scale = (xy * global.SourceSize.xy - vec2(0.5, 0.5) + ilvec)/ilfac;
-#ifdef OVERSAMPLE
-    float filter_ = fwidth(ratio_scale.y);//global.SourceSize.y / global.OutputSize.y;
-#endif
+
+    vec2 ratio_scale = (xy * TextureSize - vec2(0.5, 0.5) + ilvec) / ilfac;
    vec2 uv_ratio = fract(ratio_scale);

    // Snap to the center of the underlying texel.
-    xy = (floor(ratio_scale)*ilfac + vec2(0.5, 0.5) - ilvec) / global.SourceSize.xy;
+    xy = (floor(ratio_scale)*ilfac + vec2(0.5, 0.5) - ilvec) / TextureSize;

    // Calculate Lanczos scaling coefficients describing the effect
    // of various neighbour texels in a scanline on the current
@ -393,14 +393,17 @@ void main()
    // the current pixel.
    vec4 weights  = scanlineWeights(uv_ratio.y, col);
    vec4 weights2 = scanlineWeights(1.0 - uv_ratio.y, col2);
+
 #ifdef OVERSAMPLE
-    uv_ratio.y  = uv_ratio.y + 1.0/3.0*filter_;
-    weights     = (weights  + scanlineWeights(uv_ratio.y, col))/3.0;
-    weights2    = (weights2 + scanlineWeights(abs(1.0-uv_ratio.y), col2))/3.0;
-    uv_ratio.y  = uv_ratio.y - 2.0/3.0*filter_;
-    weights     = weights  + scanlineWeights(abs(uv_ratio.y), col)/3.0;
-    weights2    = weights2 + scanlineWeights(abs(1.0-uv_ratio.y), col2)/3.0;
+    float filter_ = fwidth(ratio_scale.y);
+    uv_ratio.y    = uv_ratio.y + 1.0/3.0*filter_;
+    weights       = (weights  + scanlineWeights(uv_ratio.y, col))/3.0;
+    weights2      = (weights2 + scanlineWeights(abs(1.0 - uv_ratio.y), col2))/3.0;
+    uv_ratio.y    = uv_ratio.y - 2.0/3.0*filter_;
+    weights       = weights  + scanlineWeights(abs(uv_ratio.y), col)/3.0;
+    weights2      = weights2 + scanlineWeights(abs(1.0 - uv_ratio.y), col2)/3.0;
 #endif
+
    vec3 mul_res  = (col * weights + col2 * weights2).rgb * vec3(cval);

    // dot-mask emulation: