xatlas: Sync with upstream 470576d

(cherry picked from commit 59780fd046)
This commit is contained in:
Rémi Verschelde 2020-05-20 13:03:57 +02:00
parent 25ed0d4366
commit 1bd51883c0
6 changed files with 2890 additions and 2258 deletions

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@ -350,7 +350,7 @@ License: Expat
Files: ./thirdparty/xatlas/ Files: ./thirdparty/xatlas/
Comment: xatlas Comment: xatlas
Copyright: 2018, Jonathan Young Copyright: 2018-2020, Jonathan Young
2013, Thekla, Inc 2013, Thekla, Inc
2006, NVIDIA Corporation, Ignacio Castano 2006, NVIDIA Corporation, Ignacio Castano
License: Expat License: Expat

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@ -68,7 +68,7 @@ bool xatlas_mesh_lightmap_unwrap_callback(float p_texel_size, const float *p_ver
ERR_FAIL_COND_V_MSG(err != xatlas::AddMeshError::Enum::Success, false, xatlas::StringForEnum(err)); ERR_FAIL_COND_V_MSG(err != xatlas::AddMeshError::Enum::Success, false, xatlas::StringForEnum(err));
printf("Generate..\n"); printf("Generate..\n");
xatlas::Generate(atlas, chart_options, NULL, pack_options); xatlas::Generate(atlas, chart_options, xatlas::ParameterizeOptions(), pack_options);
*r_size_hint_x = atlas->width; *r_size_hint_x = atlas->width;
*r_size_hint_y = atlas->height; *r_size_hint_y = atlas->height;

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@ -507,7 +507,7 @@ File extracted from upstream release tarball:
## xatlas ## xatlas
- Upstream: https://github.com/jpcy/xatlas - Upstream: https://github.com/jpcy/xatlas
- Version: git (e12ea82, 2019) - Version: git (470576d3516f7e6d8b4554e7c941194a935969fd, 2020)
- License: MIT - License: MIT
Files extracted from upstream source: Files extracted from upstream source:

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@ -1,6 +1,6 @@
MIT License MIT License
Copyright (c) 2018-2019 Jonathan Young Copyright (c) 2018-2020 Jonathan Young
Permission is hereby granted, free of charge, to any person obtaining a copy Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal of this software and associated documentation files (the "Software"), to deal

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@ -1,7 +1,7 @@
/* /*
MIT License MIT License
Copyright (c) 2018-2019 Jonathan Young Copyright (c) 2018-2020 Jonathan Young
Permission is hereby granted, free of charge, to any person obtaining a copy Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal of this software and associated documentation files (the "Software"), to deal
@ -42,18 +42,19 @@ struct ChartType
Planar, Planar,
Ortho, Ortho,
LSCM, LSCM,
Piecewise Piecewise,
Invalid
}; };
}; };
// A group of connected faces, belonging to a single atlas. // A group of connected faces, belonging to a single atlas.
struct Chart struct Chart
{ {
uint32_t atlasIndex; // Sub-atlas index.
uint32_t *faceArray; uint32_t *faceArray;
uint32_t atlasIndex; // Sub-atlas index.
uint32_t faceCount; uint32_t faceCount;
uint32_t material;
ChartType::Enum type; ChartType::Enum type;
uint32_t material;
}; };
// Output vertex. // Output vertex.
@ -69,10 +70,10 @@ struct Vertex
struct Mesh struct Mesh
{ {
Chart *chartArray; Chart *chartArray;
uint32_t chartCount;
uint32_t *indexArray; uint32_t *indexArray;
uint32_t indexCount;
Vertex *vertexArray; Vertex *vertexArray;
uint32_t chartCount;
uint32_t indexCount;
uint32_t vertexCount; uint32_t vertexCount;
}; };
@ -84,15 +85,15 @@ static const uint32_t kImageIsPaddingBit = 0x20000000;
// Empty on creation. Populated after charts are packed. // Empty on creation. Populated after charts are packed.
struct Atlas struct Atlas
{ {
uint32_t *image;
Mesh *meshes; // The output meshes, corresponding to each AddMesh call.
uint32_t width; // Atlas width in texels. uint32_t width; // Atlas width in texels.
uint32_t height; // Atlas height in texels. uint32_t height; // Atlas height in texels.
uint32_t atlasCount; // Number of sub-atlases. Equal to 0 unless PackOptions resolution is changed from default (0). uint32_t atlasCount; // Number of sub-atlases. Equal to 0 unless PackOptions resolution is changed from default (0).
uint32_t chartCount; // Total number of charts in all meshes. uint32_t chartCount; // Total number of charts in all meshes.
uint32_t meshCount; // Number of output meshes. Equal to the number of times AddMesh was called. uint32_t meshCount; // Number of output meshes. Equal to the number of times AddMesh was called.
Mesh *meshes; // The output meshes, corresponding to each AddMesh call.
float *utilization; // Normalized atlas texel utilization array. E.g. a value of 0.8 means 20% empty space. atlasCount in length. float *utilization; // Normalized atlas texel utilization array. E.g. a value of 0.8 means 20% empty space. atlasCount in length.
float texelsPerUnit; // Equal to PackOptions texelsPerUnit if texelsPerUnit > 0, otherwise an estimated value to match PackOptions resolution. float texelsPerUnit; // Equal to PackOptions texelsPerUnit if texelsPerUnit > 0, otherwise an estimated value to match PackOptions resolution.
uint32_t *image;
}; };
// Create an empty atlas. // Create an empty atlas.
@ -112,22 +113,23 @@ struct IndexFormat
// Input mesh declaration. // Input mesh declaration.
struct MeshDecl struct MeshDecl
{ {
uint32_t vertexCount = 0;
const void *vertexPositionData = nullptr; const void *vertexPositionData = nullptr;
uint32_t vertexPositionStride = 0;
const void *vertexNormalData = nullptr; // optional const void *vertexNormalData = nullptr; // optional
uint32_t vertexNormalStride = 0; // optional
const void *vertexUvData = nullptr; // optional. The input UVs are provided as a hint to the chart generator. const void *vertexUvData = nullptr; // optional. The input UVs are provided as a hint to the chart generator.
uint32_t vertexUvStride = 0; // optional
uint32_t indexCount = 0;
const void *indexData = nullptr; // optional const void *indexData = nullptr; // optional
int32_t indexOffset = 0; // optional. Add this offset to all indices.
IndexFormat::Enum indexFormat = IndexFormat::UInt16;
// Optional. indexCount / 3 (triangle count) in length. // Optional. indexCount / 3 (triangle count) in length.
// Don't atlas faces set to true. Ignored faces still exist in the output meshes, Vertex uv is set to (0, 0) and Vertex atlasIndex to -1. // Don't atlas faces set to true. Ignored faces still exist in the output meshes, Vertex uv is set to (0, 0) and Vertex atlasIndex to -1.
const bool *faceIgnoreData = nullptr; const bool *faceIgnoreData = nullptr;
uint32_t vertexCount = 0;
uint32_t vertexPositionStride = 0;
uint32_t vertexNormalStride = 0; // optional
uint32_t vertexUvStride = 0; // optional
uint32_t indexCount = 0;
int32_t indexOffset = 0; // optional. Add this offset to all indices.
IndexFormat::Enum indexFormat = IndexFormat::UInt16;
// Vertex positions within epsilon distance of each other are considered colocal. // Vertex positions within epsilon distance of each other are considered colocal.
float epsilon = 1.192092896e-07F; float epsilon = 1.192092896e-07F;
}; };
@ -151,14 +153,14 @@ void AddMeshJoin(Atlas *atlas);
struct UvMeshDecl struct UvMeshDecl
{ {
const void *vertexUvData = nullptr;
const void *indexData = nullptr; // optional
const uint32_t *faceMaterialData = nullptr; // Optional. Faces with different materials won't be assigned to the same chart. Must be indexCount / 3 in length.
uint32_t vertexCount = 0; uint32_t vertexCount = 0;
uint32_t vertexStride = 0; uint32_t vertexStride = 0;
const void *vertexUvData = nullptr;
uint32_t indexCount = 0; uint32_t indexCount = 0;
const void *indexData = nullptr; // optional
int32_t indexOffset = 0; // optional. Add this offset to all indices. int32_t indexOffset = 0; // optional. Add this offset to all indices.
IndexFormat::Enum indexFormat = IndexFormat::UInt16; IndexFormat::Enum indexFormat = IndexFormat::UInt16;
const uint32_t *faceMaterialData = nullptr; // Optional. Faces with different materials won't be assigned to the same chart. Must be indexCount / 3 in length.
bool rotateCharts = true; bool rotateCharts = true;
}; };
@ -170,24 +172,31 @@ struct ChartOptions
float maxBoundaryLength = 0.0f; // Don't grow charts to have a longer boundary than this. 0 means no limit. float maxBoundaryLength = 0.0f; // Don't grow charts to have a longer boundary than this. 0 means no limit.
// Weights determine chart growth. Higher weights mean higher cost for that metric. // Weights determine chart growth. Higher weights mean higher cost for that metric.
float proxyFitMetricWeight = 2.0f; // Angle between face and average chart normal. float normalDeviationWeight = 2.0f; // Angle between face and average chart normal.
float roundnessMetricWeight = 0.01f; float roundnessWeight = 0.01f;
float straightnessMetricWeight = 6.0f; float straightnessWeight = 6.0f;
float normalSeamMetricWeight = 4.0f; // If > 1000, normal seams are fully respected. float normalSeamWeight = 4.0f; // If > 1000, normal seams are fully respected.
float textureSeamMetricWeight = 0.5f; float textureSeamWeight = 0.5f;
float maxThreshold = 2.0f; // If total of all metrics * weights > maxThreshold, don't grow chart. Lower values result in more charts. float maxCost = 2.0f; // If total of all metrics * weights > maxCost, don't grow chart. Lower values result in more charts.
uint32_t maxIterations = 1; // Number of iterations of the chart growing and seeding phases. Higher values result in better charts. uint32_t maxIterations = 1; // Number of iterations of the chart growing and seeding phases. Higher values result in better charts.
}; };
// Call after all AddMesh calls. Can be called multiple times to recompute charts with different options. // Call after all AddMesh calls. Can be called multiple times to recompute charts with different options.
void ComputeCharts(Atlas *atlas, ChartOptions chartOptions = ChartOptions()); void ComputeCharts(Atlas *atlas, ChartOptions options = ChartOptions());
// Custom parameterization function. texcoords initial values are an orthogonal parameterization. // Custom parameterization function. texcoords initial values are an orthogonal parameterization.
typedef void (*ParameterizeFunc)(const float *positions, float *texcoords, uint32_t vertexCount, const uint32_t *indices, uint32_t indexCount); typedef void (*ParameterizeFunc)(const float *positions, float *texcoords, uint32_t vertexCount, const uint32_t *indices, uint32_t indexCount);
struct ParameterizeOptions
{
ParameterizeFunc func = nullptr;
bool closeHoles = true; // If the custom parameterization function works with multiple boundaries, this can be set to false to improve performance.
bool fixTJunctions = true; // If meshes don't have T-junctions, this can be set to false to improve performance.
};
// Call after ComputeCharts. Can be called multiple times to re-parameterize charts with a different ParameterizeFunc. // Call after ComputeCharts. Can be called multiple times to re-parameterize charts with a different ParameterizeFunc.
void ParameterizeCharts(Atlas *atlas, ParameterizeFunc func = nullptr); void ParameterizeCharts(Atlas *atlas, ParameterizeOptions options = ParameterizeOptions());
struct PackOptions struct PackOptions
{ {
@ -224,7 +233,7 @@ struct PackOptions
void PackCharts(Atlas *atlas, PackOptions packOptions = PackOptions()); void PackCharts(Atlas *atlas, PackOptions packOptions = PackOptions());
// Equivalent to calling ComputeCharts, ParameterizeCharts and PackCharts in sequence. Can be called multiple times to regenerate with different options. // Equivalent to calling ComputeCharts, ParameterizeCharts and PackCharts in sequence. Can be called multiple times to regenerate with different options.
void Generate(Atlas *atlas, ChartOptions chartOptions = ChartOptions(), ParameterizeFunc paramFunc = nullptr, PackOptions packOptions = PackOptions()); void Generate(Atlas *atlas, ChartOptions chartOptions = ChartOptions(), ParameterizeOptions parameterizeOptions = ParameterizeOptions(), PackOptions packOptions = PackOptions());
// Progress tracking. // Progress tracking.
struct ProgressCategory struct ProgressCategory