fix shader output alpha
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@@ -65,7 +65,9 @@ fn fs_main(
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let dir_view = view.transform * vec4<f32>(normalize(pixel_pos + vec3<f32>(0.0, 0.0, 1.0)), 0.0);
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let pos_view = view.transform * vec4<f32>(pixel_pos, 1.0);
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return trace_full(pos_view, dir_view);
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var color = trace_full(pos_view, dir_view);
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color.a = 1.0;
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return color;
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}
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fn trace_one(gi: u32, pos_view: vec4<f32>, dir_view: vec4<f32>) -> vec4<f32> {
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@@ -133,6 +135,89 @@ fn trace_one(gi: u32, pos_view: vec4<f32>, dir_view: vec4<f32>) -> vec4<f32> {
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return color;
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}
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fn trace_opaque(pos_view: vec4<f32>, dir_view: vec4<f32>) -> vec4<f32> {
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var depth = 9999999999999.0;
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var result = vec4<f32>(0.0);
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for (var gi: u32 = 0; gi < arrayLength(&voxel_groups); gi = gi + 1) {
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let group = voxel_groups[gi];
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let dim_f = vec3<f32>(group.dimensions);
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let dim_i = vec3<i32>(group.dimensions);
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// transform so that group is at 0,0
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var pos = (group.transform * pos_view).xyz;
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let dir = (group.transform * dir_view).xyz;
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let dir_if = sign(dir);
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// find where ray intersects with group
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let plane_point = (vec3<f32>(1.0) - dir_if) / 2.0 * dim_f;
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var t_offset = 0.0;
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if outside3f(pos, ZERO3F, dim_f) {
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// time of intersection; x = td + p, solve for t
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let t_i = (plane_point - pos) / dir;
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// points of intersection
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let px = pos + t_i.x * dir;
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let py = pos + t_i.y * dir;
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let pz = pos + t_i.z * dir;
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// check if point is in bounds
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let hit = vec3<bool>(
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inside2f(px.yz, ZERO2F, dim_f.yz),
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inside2f(py.xz, ZERO2F, dim_f.xz),
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inside2f(pz.xy, ZERO2F, dim_f.xy),
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) && (t_i > ZERO3F);
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if !any(hit) {
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continue;
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}
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pos = select(select(pz, py, hit.y), px, hit.x);
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t_offset = select(select(t_i.z, t_i.y, hit.y), t_i.x, hit.x);
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}
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var vox_pos = clamp(vec3<i32>(pos), vec3<i32>(0), dim_i - vec3<i32>(1));
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let dir_i = vec3<i32>(dir_if);
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// time to move 1 unit using dir
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let inc_t = abs(1.0 / dir);
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let corner = vec3<f32>(vox_pos) + vec3<f32>(0.5) + dir_if / 2.0;
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// time of next plane hit for each direction
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var next_t = inc_t * abs(pos - corner);
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var t = 0.0;
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var prev_t = t;
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var color = vec4<f32>(0.0);
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var gdepth = 9999999999999.0;
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loop {
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let i = u32(vox_pos.x + vox_pos.y * dim_i.x + vox_pos.z * dim_i.x * dim_i.y) + group.offset;
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var vcolor = unpack4x8unorm(voxels[i]);
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// select next voxel to move to next based on least time
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let axis = select(select(2, 1, next_t.y < next_t.z), 0, next_t.x < next_t.y && next_t.x < next_t.z);
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prev_t = t;
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t = next_t[axis];
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vox_pos[axis] += dir_i[axis];
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next_t[axis] += inc_t[axis];
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// hit a voxel
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if vcolor.a > 0.0 {
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let full_t = t_offset + prev_t;
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gdepth = min(gdepth, full_t);
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color = vcolor;
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break;
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}
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if vox_pos[axis] < 0 || vox_pos[axis] >= dim_i[axis] {
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break;
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}
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}
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result = select(result, color, gdepth < depth);
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depth = min(gdepth, depth);
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}
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return result;
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}
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fn trace_first(pos_view: vec4<f32>, dir_view: vec4<f32>) -> vec4<f32> {
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var depth = 9999999999999.0;
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var result = vec4<f32>(0.0);
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