#[vertex] #version 450 VERSION_DEFINES layout(location = 0) in vec3 vertex_attrib; layout(location = 0) out float depth_interp; layout(location = 1) out flat uint element_index; layout(push_constant, binding = 0, std430) uniform Params { uint base_index; uint pad0; uint pad1; uint pad2; } params; layout(set = 0, binding = 1, std140) uniform State { mat4 projection; float inv_z_far; uint screen_to_clusters_shift; // shift to obtain coordinates in block indices uint cluster_screen_width; // uint cluster_data_size; // how much data for a single cluster takes uint cluster_depth_offset; uint pad0; uint pad1; uint pad2; } state; struct RenderElement { uint type; //0-4 bool touches_near; bool touches_far; uint original_index; mat3x4 transform_inv; vec3 scale; uint pad; }; layout(set = 0, binding = 2, std430) buffer restrict readonly RenderElements { RenderElement data[]; } render_elements; void main() { element_index = params.base_index + gl_InstanceIndex; vec3 vertex = vertex_attrib; vertex *= render_elements.data[element_index].scale; vertex = vec4(vertex, 1.0) * render_elements.data[element_index].transform_inv; depth_interp = -vertex.z; gl_Position = state.projection * vec4(vertex, 1.0); } #[fragment] #version 450 VERSION_DEFINES #if defined(GL_KHR_shader_subgroup_ballot) && defined(GL_KHR_shader_subgroup_arithmetic) && defined(GL_KHR_shader_subgroup_vote) #extension GL_KHR_shader_subgroup_ballot : enable #extension GL_KHR_shader_subgroup_arithmetic : enable #extension GL_KHR_shader_subgroup_vote : enable #define USE_SUBGROUPS #endif layout(location = 0) in float depth_interp; layout(location = 1) in flat uint element_index; layout(set = 0, binding = 1, std140) uniform State { mat4 projection; float inv_z_far; uint screen_to_clusters_shift; // shift to obtain coordinates in block indices uint cluster_screen_width; // uint cluster_data_size; // how much data for a single cluster takes uint cluster_depth_offset; uint pad0; uint pad1; uint pad2; } state; //cluster data is layout linearly, each cell contains the follow information: // - list of bits for every element to mark as used, so (max_elem_count/32)*4 uints // - a uint for each element to mark the depth bits used when rendering (0-31) layout(set = 0, binding = 3, std430) buffer restrict ClusterRender { uint data[]; } cluster_render; void main() { //convert from screen to cluster uvec2 cluster = uvec2(gl_FragCoord.xy) >> state.screen_to_clusters_shift; //get linear cluster offset from screen poss uint cluster_offset = cluster.x + state.cluster_screen_width * cluster.y; //multiply by data size to position at the beginning of the element list for this cluster cluster_offset *= state.cluster_data_size; //find the current element in the list and plot the bit to mark it as used uint usage_write_offset = cluster_offset + (element_index >> 5); uint usage_write_bit = 1 << (element_index & 0x1F); #ifdef USE_SUBGROUPS uint cluster_thread_group_index; if (!gl_HelperInvocation) { //http://advances.realtimerendering.com/s2017/2017_Sig_Improved_Culling_final.pdf uvec4 mask; while (true) { // find the cluster offset of the first active thread // threads that did break; go inactive and no longer count uint first = subgroupBroadcastFirst(cluster_offset); // update the mask for thread that match this cluster mask = subgroupBallot(first == cluster_offset); if (first == cluster_offset) { // This thread belongs to the group of threads that match this offset, // so exit the loop. break; } } cluster_thread_group_index = subgroupBallotExclusiveBitCount(mask); if (cluster_thread_group_index == 0) { atomicOr(cluster_render.data[usage_write_offset], usage_write_bit); } } #else if (!gl_HelperInvocation) { atomicOr(cluster_render.data[usage_write_offset], usage_write_bit); } #endif //find the current element in the depth usage list and mark the current depth as used float unit_depth = depth_interp * state.inv_z_far; uint z_bit = clamp(uint(floor(unit_depth * 32.0)), 0, 31); uint z_write_offset = cluster_offset + state.cluster_depth_offset + element_index; uint z_write_bit = 1 << z_bit; #ifdef USE_SUBGROUPS if (!gl_HelperInvocation) { z_write_bit = subgroupOr(z_write_bit); //merge all Zs if (cluster_thread_group_index == 0) { atomicOr(cluster_render.data[z_write_offset], z_write_bit); } } #else if (!gl_HelperInvocation) { atomicOr(cluster_render.data[z_write_offset], z_write_bit); } #endif }