77a045e902
-Reworked how meshes are treated by importer by using EditorSceneImporterMesh and EditorSceneImporterMeshNode. Instead of Mesh and MeshInstance, this allows more efficient processing of meshes before they are actually registered in the RenderingServer. -Integrated MeshOptimizer -Reworked internals of SurfaceTool to use arrays, making it more performant and easy to run optimizatons on.
74 lines
2.2 KiB
C++
74 lines
2.2 KiB
C++
// This file is part of meshoptimizer library; see meshoptimizer.h for version/license details
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#include "meshoptimizer.h"
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#include <assert.h>
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#include <string.h>
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meshopt_VertexCacheStatistics meshopt_analyzeVertexCache(const unsigned int* indices, size_t index_count, size_t vertex_count, unsigned int cache_size, unsigned int warp_size, unsigned int primgroup_size)
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{
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assert(index_count % 3 == 0);
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assert(cache_size >= 3);
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assert(warp_size == 0 || warp_size >= 3);
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meshopt_Allocator allocator;
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meshopt_VertexCacheStatistics result = {};
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unsigned int warp_offset = 0;
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unsigned int primgroup_offset = 0;
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unsigned int* cache_timestamps = allocator.allocate<unsigned int>(vertex_count);
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memset(cache_timestamps, 0, vertex_count * sizeof(unsigned int));
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unsigned int timestamp = cache_size + 1;
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for (size_t i = 0; i < index_count; i += 3)
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{
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unsigned int a = indices[i + 0], b = indices[i + 1], c = indices[i + 2];
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assert(a < vertex_count && b < vertex_count && c < vertex_count);
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bool ac = (timestamp - cache_timestamps[a]) > cache_size;
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bool bc = (timestamp - cache_timestamps[b]) > cache_size;
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bool cc = (timestamp - cache_timestamps[c]) > cache_size;
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// flush cache if triangle doesn't fit into warp or into the primitive buffer
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if ((primgroup_size && primgroup_offset == primgroup_size) || (warp_size && warp_offset + ac + bc + cc > warp_size))
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{
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result.warps_executed += warp_offset > 0;
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warp_offset = 0;
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primgroup_offset = 0;
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// reset cache
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timestamp += cache_size + 1;
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}
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// update cache and add vertices to warp
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for (int j = 0; j < 3; ++j)
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{
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unsigned int index = indices[i + j];
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if (timestamp - cache_timestamps[index] > cache_size)
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{
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cache_timestamps[index] = timestamp++;
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result.vertices_transformed++;
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warp_offset++;
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}
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}
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primgroup_offset++;
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}
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size_t unique_vertex_count = 0;
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for (size_t i = 0; i < vertex_count; ++i)
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unique_vertex_count += cache_timestamps[i] > 0;
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result.warps_executed += warp_offset > 0;
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result.acmr = index_count == 0 ? 0 : float(result.vertices_transformed) / float(index_count / 3);
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result.atvr = unique_vertex_count == 0 ? 0 : float(result.vertices_transformed) / float(unique_vertex_count);
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return result;
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}
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