godot/thirdparty/meshoptimizer/vcacheanalyzer.cpp

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// This file is part of meshoptimizer library; see meshoptimizer.h for version/license details
#include "meshoptimizer.h"
#include <assert.h>
#include <string.h>
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)
{
assert(index_count % 3 == 0);
assert(cache_size >= 3);
assert(warp_size == 0 || warp_size >= 3);
meshopt_Allocator allocator;
meshopt_VertexCacheStatistics result = {};
unsigned int warp_offset = 0;
unsigned int primgroup_offset = 0;
unsigned int* cache_timestamps = allocator.allocate<unsigned int>(vertex_count);
memset(cache_timestamps, 0, vertex_count * sizeof(unsigned int));
unsigned int timestamp = cache_size + 1;
for (size_t i = 0; i < index_count; i += 3)
{
unsigned int a = indices[i + 0], b = indices[i + 1], c = indices[i + 2];
assert(a < vertex_count && b < vertex_count && c < vertex_count);
bool ac = (timestamp - cache_timestamps[a]) > cache_size;
bool bc = (timestamp - cache_timestamps[b]) > cache_size;
bool cc = (timestamp - cache_timestamps[c]) > cache_size;
// flush cache if triangle doesn't fit into warp or into the primitive buffer
if ((primgroup_size && primgroup_offset == primgroup_size) || (warp_size && warp_offset + ac + bc + cc > warp_size))
{
result.warps_executed += warp_offset > 0;
warp_offset = 0;
primgroup_offset = 0;
// reset cache
timestamp += cache_size + 1;
}
// update cache and add vertices to warp
for (int j = 0; j < 3; ++j)
{
unsigned int index = indices[i + j];
if (timestamp - cache_timestamps[index] > cache_size)
{
cache_timestamps[index] = timestamp++;
result.vertices_transformed++;
warp_offset++;
}
}
primgroup_offset++;
}
size_t unique_vertex_count = 0;
for (size_t i = 0; i < vertex_count; ++i)
unique_vertex_count += cache_timestamps[i] > 0;
result.warps_executed += warp_offset > 0;
result.acmr = index_count == 0 ? 0 : float(result.vertices_transformed) / float(index_count / 3);
result.atvr = unique_vertex_count == 0 ? 0 : float(result.vertices_transformed) / float(unique_vertex_count);
return result;
}