327 lines
10 KiB
C++
327 lines
10 KiB
C++
// Copyright 2009-2020 Intel Corporation
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// SPDX-License-Identifier: Apache-2.0
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#pragma once
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#include "geometry.h"
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#include "buffer.h"
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#include "../subdiv/half_edge.h"
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#include "../subdiv/tessellation_cache.h"
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#include "../subdiv/catmullclark_coefficients.h"
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#include "../subdiv/patch.h"
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#include "../../common/algorithms/parallel_map.h"
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#include "../../common/algorithms/parallel_set.h"
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namespace embree
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{
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class SubdivMesh : public Geometry
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{
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ALIGNED_CLASS_(16);
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public:
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typedef HalfEdge::Edge Edge;
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/*! type of this geometry */
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static const Geometry::GTypeMask geom_type = Geometry::MTY_SUBDIV_MESH;
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/*! structure used to sort half edges using radix sort by their key */
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struct KeyHalfEdge
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{
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KeyHalfEdge() {}
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KeyHalfEdge (uint64_t key, HalfEdge* edge)
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: key(key), edge(edge) {}
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__forceinline operator uint64_t() const {
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return key;
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}
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friend __forceinline bool operator<(const KeyHalfEdge& e0, const KeyHalfEdge& e1) {
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return e0.key < e1.key;
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}
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public:
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uint64_t key;
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HalfEdge* edge;
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};
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public:
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/*! subdiv mesh construction */
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SubdivMesh(Device* device);
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public:
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void setMask (unsigned mask);
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void setSubdivisionMode (unsigned int topologyID, RTCSubdivisionMode mode);
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void setVertexAttributeTopology(unsigned int vertexAttribID, unsigned int topologyID);
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void setNumTimeSteps (unsigned int numTimeSteps);
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void setVertexAttributeCount (unsigned int N);
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void setTopologyCount (unsigned int N);
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void setBuffer(RTCBufferType type, unsigned int slot, RTCFormat format, const Ref<Buffer>& buffer, size_t offset, size_t stride, unsigned int num);
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void* getBuffer(RTCBufferType type, unsigned int slot);
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void updateBuffer(RTCBufferType type, unsigned int slot);
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void setTessellationRate(float N);
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bool verify();
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void commit();
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void addElementsToCount (GeometryCounts & counts) const;
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void setDisplacementFunction (RTCDisplacementFunctionN func);
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unsigned int getFirstHalfEdge(unsigned int faceID);
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unsigned int getFace(unsigned int edgeID);
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unsigned int getNextHalfEdge(unsigned int edgeID);
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unsigned int getPreviousHalfEdge(unsigned int edgeID);
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unsigned int getOppositeHalfEdge(unsigned int topologyID, unsigned int edgeID);
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public:
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/*! return the number of faces */
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size_t numFaces() const {
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return faceVertices.size();
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}
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/*! return the number of edges */
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size_t numEdges() const {
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return topology[0].vertexIndices.size();
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}
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/*! return the number of vertices */
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size_t numVertices() const {
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return vertices[0].size();
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}
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/*! calculates the bounds of the i'th subdivision patch at the j'th timestep */
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__forceinline BBox3fa bounds(size_t i, size_t j = 0) const {
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return topology[0].getHalfEdge(i)->bounds(vertices[j]);
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}
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/*! check if the i'th primitive is valid */
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__forceinline bool valid(size_t i) const {
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return topology[0].valid(i) && !invalidFace(i);
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}
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/*! check if the i'th primitive is valid for the j'th time range */
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__forceinline bool valid(size_t i, size_t j) const {
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return topology[0].valid(i) && !invalidFace(i,j);
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}
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/*! prints some statistics */
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void printStatistics();
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/*! initializes the half edge data structure */
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void initializeHalfEdgeStructures ();
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public:
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/*! returns the vertex buffer for some time step */
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__forceinline const BufferView<Vec3fa>& getVertexBuffer( const size_t t = 0 ) const {
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return vertices[t];
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}
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/* returns tessellation level of edge */
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__forceinline float getEdgeLevel(const size_t i) const
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{
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if (levels) return clamp(levels[i],1.0f,4096.0f); // FIXME: do we want to limit edge level?
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else return clamp(tessellationRate,1.0f,4096.0f); // FIXME: do we want to limit edge level?
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}
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public:
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RTCDisplacementFunctionN displFunc; //!< displacement function
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/*! all buffers in this section are provided by the application */
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public:
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/*! the topology contains all data that may differ when
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* interpolating different user data buffers */
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struct Topology
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{
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public:
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/*! Default topology construction */
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Topology () : halfEdges(nullptr,0) {}
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/*! Topology initialization */
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Topology (SubdivMesh* mesh);
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/*! make the class movable */
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public:
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Topology (Topology&& other) // FIXME: this is only required to workaround compilation issues under Windows
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: mesh(std::move(other.mesh)),
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vertexIndices(std::move(other.vertexIndices)),
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subdiv_mode(std::move(other.subdiv_mode)),
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halfEdges(std::move(other.halfEdges)),
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halfEdges0(std::move(other.halfEdges0)),
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halfEdges1(std::move(other.halfEdges1)) {}
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Topology& operator= (Topology&& other) // FIXME: this is only required to workaround compilation issues under Windows
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{
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mesh = std::move(other.mesh);
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vertexIndices = std::move(other.vertexIndices);
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subdiv_mode = std::move(other.subdiv_mode);
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halfEdges = std::move(other.halfEdges);
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halfEdges0 = std::move(other.halfEdges0);
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halfEdges1 = std::move(other.halfEdges1);
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return *this;
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}
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public:
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/*! check if the i'th primitive is valid in this topology */
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__forceinline bool valid(size_t i) const
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{
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if (unlikely(subdiv_mode == RTC_SUBDIVISION_MODE_NO_BOUNDARY)) {
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if (getHalfEdge(i)->faceHasBorder()) return false;
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}
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return true;
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}
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/*! updates the interpolation mode for the topology */
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void setSubdivisionMode (RTCSubdivisionMode mode);
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/*! marks all buffers as modified */
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void update ();
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/*! verifies index array */
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bool verify (size_t numVertices);
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/*! initializes the half edge data structure */
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void initializeHalfEdgeStructures ();
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private:
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/*! recalculates the half edges */
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void calculateHalfEdges();
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/*! updates half edges when recalculation is not necessary */
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void updateHalfEdges();
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/*! user input data */
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public:
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SubdivMesh* mesh;
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/*! indices of the vertices composing each face */
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BufferView<unsigned int> vertexIndices;
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/*! subdiv interpolation mode */
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RTCSubdivisionMode subdiv_mode;
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/*! generated data */
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public:
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/*! returns the start half edge for face f */
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__forceinline const HalfEdge* getHalfEdge ( const size_t f ) const {
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return &halfEdges[mesh->faceStartEdge[f]];
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}
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/*! Half edge structure, generated by initHalfEdgeStructures */
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mvector<HalfEdge> halfEdges;
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/*! the following data is only required during construction of the
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* half edge structure and can be cleared for static scenes */
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private:
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/*! two arrays used to sort the half edges */
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std::vector<KeyHalfEdge> halfEdges0;
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std::vector<KeyHalfEdge> halfEdges1;
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};
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/*! returns the start half edge for topology t and face f */
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__forceinline const HalfEdge* getHalfEdge ( const size_t t , const size_t f ) const {
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return topology[t].getHalfEdge(f);
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}
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/*! buffer containing the number of vertices for each face */
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BufferView<unsigned int> faceVertices;
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/*! array of topologies */
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vector<Topology> topology;
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/*! vertex buffer (one buffer for each time step) */
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vector<BufferView<Vec3fa>> vertices;
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/*! user data buffers */
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vector<RawBufferView> vertexAttribs;
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/*! edge crease buffer containing edges (pairs of vertices) that carry edge crease weights */
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BufferView<Edge> edge_creases;
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/*! edge crease weights for each edge of the edge_creases buffer */
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BufferView<float> edge_crease_weights;
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/*! vertex crease buffer containing all vertices that carry vertex crease weights */
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BufferView<unsigned int> vertex_creases;
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/*! vertex crease weights for each vertex of the vertex_creases buffer */
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BufferView<float> vertex_crease_weights;
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/*! subdivision level for each half edge of the vertexIndices buffer */
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BufferView<float> levels;
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float tessellationRate; // constant rate that is used when levels is not set
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/*! buffer that marks specific faces as holes */
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BufferView<unsigned> holes;
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/*! all data in this section is generated by initializeHalfEdgeStructures function */
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private:
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/*! number of half edges used by faces */
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size_t numHalfEdges;
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/*! fast lookup table to find the first half edge for some face */
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mvector<uint32_t> faceStartEdge;
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/*! fast lookup table to find the face for some half edge */
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mvector<uint32_t> halfEdgeFace;
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/*! set with all holes */
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parallel_set<uint32_t> holeSet;
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/*! fast lookup table to detect invalid faces */
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mvector<char> invalid_face;
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/*! test if face i is invalid in timestep j */
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__forceinline char& invalidFace(size_t i, size_t j = 0) { return invalid_face[i*numTimeSteps+j]; }
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__forceinline const char& invalidFace(size_t i, size_t j = 0) const { return invalid_face[i*numTimeSteps+j]; }
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/*! interpolation cache */
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public:
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static __forceinline size_t numInterpolationSlots4(size_t stride) { return (stride+15)/16; }
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static __forceinline size_t numInterpolationSlots8(size_t stride) { return (stride+31)/32; }
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static __forceinline size_t interpolationSlot(size_t prim, size_t slot, size_t stride) {
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const size_t slots = numInterpolationSlots4(stride);
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assert(slot < slots);
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return slots*prim+slot;
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}
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std::vector<std::vector<SharedLazyTessellationCache::CacheEntry>> vertex_buffer_tags;
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std::vector<std::vector<SharedLazyTessellationCache::CacheEntry>> vertex_attrib_buffer_tags;
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std::vector<Patch3fa::Ref> patch_eval_trees;
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/*! the following data is only required during construction of the
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* half edge structure and can be cleared for static scenes */
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private:
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/*! map with all vertex creases */
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parallel_map<uint32_t,float> vertexCreaseMap;
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/*! map with all edge creases */
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parallel_map<uint64_t,float> edgeCreaseMap;
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protected:
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/*! counts number of geometry commits */
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size_t commitCounter;
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};
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namespace isa
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{
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struct SubdivMeshISA : public SubdivMesh
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{
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SubdivMeshISA (Device* device)
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: SubdivMesh(device) {}
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void interpolate(const RTCInterpolateArguments* const args);
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void interpolateN(const RTCInterpolateNArguments* const args);
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};
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}
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DECLARE_ISA_FUNCTION(SubdivMesh*, createSubdivMesh, Device*);
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};
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