@ -39,7 +39,7 @@ bool cast_light_intersection_ray(
// Intersection T is the collection of the next intersection points
// Intersection T is the collection of the next intersection points
// for all 3 axis XYZ.
// for all 3 axis XYZ.
float3 intersection_t = delta_t * offset;
float3 intersection_t = delta_t * offset;
// for negative values, wrap around the delta_t, rather not do this
// for negative values, wrap around the delta_t, rather not do this
// component wise, but it doesn 't appear to want to work
// component wise, but it doesn 't appear to want to work
@ -109,7 +109,7 @@ float4 view_light(float4 in_color, float3 light, float3 view, int3 mask) {
//float3 halfwayDir = normalize ( normalize ( view ) + normalize ( light ) ) ;
//float3 halfwayDir = normalize ( normalize ( view ) + normalize ( light ) ) ;
//float spec = pow ( max ( dot ( normalize ( convert_float3 ( mask ) ) , halfwayDir ) , 0.0f ) , 32.0f ) ;
//float spec = pow ( max ( dot ( normalize ( convert_float3 ( mask ) ) , halfwayDir ) , 0.0f ) , 32.0f ) ;
in_color .w += 0. 2;
in_color += 0. 0 2;
return in_color ;
return in_color ;
}
}
@ -274,7 +274,7 @@ __kernel void raycaster(
int3 face_mask = { 0 , 0 , 0 } ;
int3 face_mask = { 0 , 0 , 0 } ;
float4 fog_color = { 0.73 , 0.81 , 0.89 , 0.8 } ;
float4 fog_color = { 0.73 , 0.81 , 0.89 , 0.8 } ;
float4 voxel_color = ( float4 ) ( 0. 25, 0.52 , 0.3 0, 0.1 ) ;
float4 voxel_color = ( float4 ) ( 0. 50, 0.0 , 0.5 0, 0.1 ) ;
float4 overshoot_color = { 0.25 , 0.48 , 0.52 , 0.8 } ;
float4 overshoot_color = { 0.25 , 0.48 , 0.52 , 0.8 } ;
@ -305,66 +305,44 @@ __kernel void raycaster(
if ( voxel_data != 0 ) {
if ( voxel_data != 0 ) {
switch ( voxel_data ) {
// write_imagef ( image, pixel, ( float4 ) ( 0.90 , 0.00 , 0.40 , 0.9 ) ) ;
case 5:
// write_imagef ( image, pixel, ( float4 ) ( 0.90 , 0.00 , 0.40 , 0.9 ) ) ;
if ( !cast_light_intersection_ray (
map,
map_dim,
( float3 ) ( lights[4], lights[5], lights[6] ) - ( convert_float3 ( voxel ) + offset ) ,
( convert_float3 ( voxel ) + offset + convert_float3 ( face_mask ) /10.0f ) ,
lights,
light_count
) ) {
write_imagef ( image, pixel, ( float4 ) ( 0.90 , 0.00 , 0.40 , 0.9 ) ) ;
return ;
}
write_imagef (
image,
pixel,
view_light (
voxel_color,
( convert_float3 ( voxel ) + offset ) - ( float3 ) ( lights[4], lights[5], lights[6] ) ,
( convert_float3 ( voxel ) + offset ) - ( *cam_pos ) ,
face_mask * voxel_step
)
) ;
return ;
float3 vox = convert_float3 ( voxel ) ;
if ( voxel_data == 6 ) {
float3 norm = normalize ( convert_float3 ( face_mask ) * convert_float3 ( voxel_step ) ) ;
voxel_color = ( float4 ) ( 0.0 , 0.239 , 0.419 , 0.3 ) ;
float4 color = ( float4 ) ( 0.95 , 0.00 , 0.25 , 1.00 ) ;
}
else if ( voxel_data == 5 ) {
voxel_color = ( float4 ) ( 0.25 , 0.52 , 0.30 , 0.1 ) ;
}
write_imagef ( image, pixel,
if ( cast_light_intersection_ray (
cast_light_rays (
map,
ray_dir,
map_dim,
vox,
( float3 ) ( lights[4], lights[5], lights[6] ) - ( convert_float3 ( voxel ) ) ,
color,
( convert_float3 ( voxel ) - convert_float3 ( face_mask * voxel_step ) ) ,
norm ,
lights,
lights,
light_count
light_count
) ) {
) ) ;
write_imagef ( image, pixel, voxel_color ) ;
//write_imagef ( image, pixel, voxel_color ) ;
return ;
return ;
}
write_imagef (
image,
pixel,
view_light (
voxel_color,
( convert_float3 ( voxel ) + offset ) - ( float3 ) ( lights[4], lights[5], lights[6] ) ,
( convert_float3 ( voxel ) + offset ) - ( *cam_pos ) ,
face_mask * voxel_step
)
) ;
return ;
case 6:
write_imagef ( image, pixel, view_light ( ( float4 ) ( 0.0 , 0.239 , 0.419 , 0.3 ) , ( convert_float3 ( voxel ) + offset ) - ( float3 ) ( lights[4], lights[5], lights[6] ) , ( convert_float3 ( voxel ) + offset ) - ( *cam_pos ) , face_mask * voxel_step ) ) ;
//write_imagef ( image, pixel, white_light ( mix ( ( float4 ) ( 0.73 , 0.81 , 0.89 , 0.6 ) , ( float4 ) ( 0.0 , 0.239 , 0.419 , 0.3 ) , 1.0 - max ( ( dist / 700.0f ) - 0.3f, ( float ) 0 ) ) , ( float3 ) ( lights[7], lights[8], lights[9] ) , face_mask ) ) ;
return ;
default:
write_imagef ( image, pixel, ( float4 ) ( .30 , .10 , .10 , 1.00 ) ) ;
continue ;
}
}
}
dist++ ;
dist++ ;