// This code is in the public domain -- castanyo@yahoo.es #pragma once #ifndef XATLAS_H #define XATLAS_H #include // FLT_MAX // -- GODOT start -- #include // INT_MAX, UINT_MAX // -- GODOT end -- namespace xatlas { typedef void (*PrintFunc)(const char *, ...); struct Atlas; struct CharterOptions { float proxyFitMetricWeight; float roundnessMetricWeight; float straightnessMetricWeight; float normalSeamMetricWeight; float textureSeamMetricWeight; float maxChartArea; float maxBoundaryLength; CharterOptions() { // These are the default values we use on The Witness. proxyFitMetricWeight = 2.0f; roundnessMetricWeight = 0.01f; straightnessMetricWeight = 6.0f; normalSeamMetricWeight = 4.0f; textureSeamMetricWeight = 0.5f; /* proxyFitMetricWeight = 1.0f; roundnessMetricWeight = 0.1f; straightnessMetricWeight = 0.25f; normalSeamMetricWeight = 1.0f; textureSeamMetricWeight = 0.1f; */ maxChartArea = FLT_MAX; maxBoundaryLength = FLT_MAX; } }; struct PackMethod { enum Enum { TexelArea, // texel_area determines resolution ApproximateResolution, // guess texel_area to approximately match desired resolution ExactResolution // run the packer multiple times to exactly match the desired resolution (slow) }; }; struct PackerOptions { PackMethod::Enum method; // 0 - brute force // 1 - 4096 attempts // 2 - 2048 // 3 - 1024 // 4 - 512 // other - 256 // Avoid brute force packing, since it can be unusably slow in some situations. int quality; float texelArea; // This is not really texel area, but 1 / texel width? uint32_t resolution; bool blockAlign; // Align charts to 4x4 blocks. bool conservative; // Pack charts with extra padding. int padding; PackerOptions() { method = PackMethod::ApproximateResolution; quality = 1; texelArea = 8; resolution = 512; blockAlign = false; conservative = false; padding = 0; } }; struct AddMeshErrorCode { enum Enum { Success, AlreadyAddedEdge, // index0 and index1 are the edge indices DegenerateColocalEdge, // index0 and index1 are the edge indices DegenerateEdge, // index0 and index1 are the edge indices DuplicateEdge, // index0 and index1 are the edge indices IndexOutOfRange, // index0 is the index InvalidIndexCount, // not evenly divisible by 3 - expecting triangles ZeroAreaFace, ZeroLengthEdge // index0 and index1 are the edge indices }; }; struct AddMeshError { AddMeshErrorCode::Enum code; uint32_t face; uint32_t index0, index1; }; struct IndexFormat { enum Enum { HalfFloat, Float }; }; struct InputMesh { uint32_t vertexCount; const void *vertexPositionData; uint32_t vertexPositionStride; const void *vertexNormalData; // optional uint32_t vertexNormalStride; // optional // optional // The input UVs are provided as a hint to the chart generator. const void *vertexUvData; uint32_t vertexUvStride; uint32_t indexCount; const void *indexData; IndexFormat::Enum indexFormat; // optional. indexCount / 3 in length. // Charter also uses material boundaries as a hint to cut charts. const uint16_t *faceMaterialData; }; struct OutputChart { uint32_t *indexArray; uint32_t indexCount; }; struct OutputVertex { float uv[2]; uint32_t xref; // Index of input vertex from which this output vertex originated. }; struct OutputMesh { OutputChart *chartArray; uint32_t chartCount; uint32_t *indexArray; uint32_t indexCount; OutputVertex *vertexArray; uint32_t vertexCount; }; void SetPrint(PrintFunc print); Atlas *Create(); void Destroy(Atlas *atlas); // useColocalVertices - generates fewer charts (good), but is more sensitive to bad geometry. AddMeshError AddMesh(Atlas *atlas, const InputMesh &mesh, bool useColocalVertices = true); void Generate(Atlas *atlas, CharterOptions charterOptions = CharterOptions(), PackerOptions packerOptions = PackerOptions()); uint32_t GetWidth(const Atlas *atlas); uint32_t GetHeight(const Atlas *atlas); uint32_t GetNumCharts(const Atlas *atlas); const OutputMesh * const *GetOutputMeshes(const Atlas *atlas); const char *StringForEnum(AddMeshErrorCode::Enum error); } // namespace xatlas #endif // XATLAS_H