uniform sampler2D uTexMain;
+uniform sampler2D uTexSceneDepth;
uniform vec3 uCamera;
+uniform vec3 uInverseRatioDepth;
+uniform vec3 uInverseRatioMain;
+uniform bool uDepthCompare;
in vec4 aColour;
in vec2 aUv;
#include "common_world.glsl"
#include "motion_vectors_fs.glsl"
+float linear_depth( float depth, float near, float far )
+{
+ float z = depth * 2.0 - 1.0;
+ return (2.0 * near * far) / (far + near - z * (far - near));
+}
+
void main()
{
compute_motion_vectors();
- vec3 qnorm = normalize(floor(aNorm*2.0)*0.5) + vec3(0.001,0.0,0.0);
+ vec3 qnorm = aNorm;
vec3 diffuse = texture( uTexMain, aUv ).rgb;
vec3 composite = world_compute_lighting( diffuse, qnorm, aWorldCo, 1.0 );
float dist = distance( aWorldCo, uCamera ) - 0.08;
float opacity = clamp( dist*dist, 0.0, 1.0 );
+ if( uDepthCompare ){
+ vec2 back_coord = gl_FragCoord.xy * uInverseRatioMain.xy
+ * uInverseRatioDepth.xy;
+ float back_depth = texture( uTexSceneDepth, back_coord ).r;
+ float front_depth = gl_FragCoord.z/gl_FragCoord.w;
+
+ back_depth = linear_depth( back_depth, 0.1, 2100.0 );
+ float diff = back_depth - front_depth;
+
+ vec2 ssuv = gl_FragCoord.xy;
+ vec3 vDither = vec3( dot( vec2( 171.0, 231.0 ), ssuv) );
+ float dither = fract( vDither.g / 71.0 ) - 0.5;
+
+ if( step(0.0,diff)+dither<0.3 )
+ discard;
+ }
+
oColour = vec4( composite, opacity );
}