195 lines
4.5 KiB
Plaintext
195 lines
4.5 KiB
Plaintext
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[compute]
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#version 450
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VERSION_DEFINES
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layout(local_size_x = 4, local_size_y = 4, local_size_z = 4) in;
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#define MAX_DISTANCE 100000
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#define NO_CHILDREN 0xFFFFFFFF
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#define GREY_VEC vec3(0.33333,0.33333,0.33333)
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struct CellChildren {
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uint children[8];
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};
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layout(set=0,binding=1,std430) buffer CellChildrenBuffer {
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CellChildren data[];
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} cell_children;
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struct CellData {
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uint position; // xyz 10 bits
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uint albedo; //rgb albedo
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uint emission; //rgb normalized with e as multiplier
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uint normal; //RGB normal encoded
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};
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layout(set=0,binding=2,std430) buffer CellDataBuffer {
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CellData data[];
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} cell_data;
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layout (r8ui,set=0,binding=3) uniform restrict writeonly uimage3D sdf_tex;
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layout(push_constant, binding = 0, std430) uniform Params {
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uint offset;
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uint end;
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uint pad0;
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uint pad1;
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} params;
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void main() {
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vec3 pos = vec3(gl_GlobalInvocationID);
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float closest_dist = 100000.0;
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for(uint i=params.offset;i<params.end;i++) {
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vec3 posu = vec3(uvec3(cell_data.data[i].position&0x7FF,(cell_data.data[i].position>>11)&0x3FF,cell_data.data[i].position>>21));
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float dist = length(pos-posu);
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if (dist < closest_dist) {
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closest_dist = dist;
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}
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}
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uint dist_8;
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if (closest_dist<0.0001) { // same cell
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dist_8=0; //equals to -1
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} else {
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dist_8 = clamp(uint(closest_dist),0,254) + 1; //conservative, 0 is 1, so <1 is considered solid
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}
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imageStore(sdf_tex,ivec3(gl_GlobalInvocationID),uvec4(dist_8));
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//imageStore(sdf_tex,pos,uvec4(pos*2,0));
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}
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#if 0
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layout(push_constant, binding = 0, std430) uniform Params {
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ivec3 limits;
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uint stack_size;
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} params;
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float distance_to_aabb(ivec3 pos, ivec3 aabb_pos, ivec3 aabb_size) {
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vec3 delta = vec3(max(ivec3(0),max(aabb_pos - pos, pos - (aabb_pos + aabb_size - ivec3(1)))));
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return length(delta);
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}
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void main() {
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ivec3 pos = ivec3(gl_GlobalInvocationID);
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uint stack[10]=uint[](0,0,0,0,0,0,0,0,0,0);
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uint stack_indices[10]=uint[](0,0,0,0,0,0,0,0,0,0);
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ivec3 stack_positions[10]=ivec3[](ivec3(0),ivec3(0),ivec3(0),ivec3(0),ivec3(0),ivec3(0),ivec3(0),ivec3(0),ivec3(0),ivec3(0));
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const uint cell_orders[8]=uint[](
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0x11f58d1,
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0xe2e70a,
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0xd47463,
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0xbb829c,
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0x8d11f5,
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0x70ae2e,
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0x463d47,
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0x29cbb8
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);
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bool cell_found = false;
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bool cell_found_exact = false;
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ivec3 closest_cell_pos;
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float closest_distance = MAX_DISTANCE;
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int stack_pos = 0;
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while(true) {
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uint index = stack_indices[stack_pos]>>24;
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if (index == 8) {
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//go up
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if (stack_pos==0) {
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break; //done going through octree
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}
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stack_pos--;
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continue;
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}
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stack_indices[stack_pos] = (stack_indices[stack_pos]&((1<<24)-1))|((index + 1)<<24);
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uint cell_index = (stack_indices[stack_pos]>>(index*3))&0x7;
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uint child_cell = cell_children.data[stack[stack_pos]].children[cell_index];
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if (child_cell == NO_CHILDREN) {
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continue;
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}
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ivec3 child_cell_size = params.limits >> (stack_pos+1);
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ivec3 child_cell_pos = stack_positions[stack_pos];
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child_cell_pos+=mix(ivec3(0),child_cell_size,bvec3(uvec3(index&1,index&2,index&4)!=uvec3(0)));
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bool is_leaf = stack_pos == (params.stack_size-2);
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if (child_cell_pos==pos && is_leaf) {
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//we may actually end up in the exact cell.
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//if this happens, just abort
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cell_found_exact=true;
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break;
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}
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if (cell_found) {
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//discard by distance
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float distance = distance_to_aabb(pos,child_cell_pos,child_cell_size);
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if (distance >= closest_distance) {
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continue; //pointless, just test next child
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} else if (is_leaf) {
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//closer than what we have AND end of stack, save and continue
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closest_cell_pos = child_cell_pos;
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closest_distance = distance;
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continue;
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}
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} else if (is_leaf) {
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//first solid cell we find, save and continue
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closest_distance = distance_to_aabb(pos,child_cell_pos,child_cell_size);
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closest_cell_pos = child_cell_pos;
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cell_found=true;
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continue;
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}
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bvec3 direction = greaterThan(( pos - ( child_cell_pos + (child_cell_size >>1) ) ) , ivec3(0) );
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uint cell_order = 0;
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cell_order|=mix(0,1,direction.x);
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cell_order|=mix(0,2,direction.y);
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cell_order|=mix(0,4,direction.z);
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stack[stack_pos+1]=child_cell;
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stack_indices[stack_pos+1]=cell_orders[cell_order]; //start counting
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stack_positions[stack_pos+1]=child_cell_pos;
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stack_pos++; //go up stack
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}
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uint dist_8;
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if (cell_found_exact) {
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dist_8=0; //equals to -1
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} else {
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float closest_distance = length(vec3(pos-closest_cell_pos));
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dist_8 = clamp(uint(closest_distance),0,254) + 1; //conservative, 0 is 1, so <1 is considered solid
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}
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imageStore(sdf_tex,pos,uvec4(dist_8));
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}
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#endif
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