// Copyright 2009-2020 Intel Corporation // SPDX-License-Identifier: Apache-2.0 #pragma once #include "curveNi.h" namespace embree { template struct CurveNv : public CurveNi { using CurveNi::N; struct Type : public PrimitiveType { const char* name() const; size_t sizeActive(const char* This) const; size_t sizeTotal(const char* This) const; size_t getBytes(const char* This) const; }; static Type type; public: /* Returns maximum number of stored primitives */ static __forceinline size_t max_size() { return M; } /* Returns required number of primitive blocks for N primitives */ static __forceinline size_t blocks(size_t N) { return (N+M-1)/M; } static __forceinline size_t bytes(size_t N) { const size_t f = N/M, r = N%M; static_assert(sizeof(CurveNv) == 22+25*M+4*16*M, "internal data layout issue"); return f*sizeof(CurveNv) + (r!=0)*(22 + 25*r + 4*16*r); } public: /*! Default constructor. */ __forceinline CurveNv () {} /*! fill curve from curve list */ __forceinline void fill(const PrimRef* prims, size_t& begin, size_t _end, Scene* scene) { size_t end = min(begin+M,_end); size_t N = end-begin; /* encode all primitives */ for (size_t i=0; iget(geomID); const unsigned vtxID = mesh->curve(primID); Vec3fa::storeu(&this->vertices(i,N)[0],mesh->vertex(vtxID+0)); Vec3fa::storeu(&this->vertices(i,N)[1],mesh->vertex(vtxID+1)); Vec3fa::storeu(&this->vertices(i,N)[2],mesh->vertex(vtxID+2)); Vec3fa::storeu(&this->vertices(i,N)[3],mesh->vertex(vtxID+3)); } } template __forceinline static typename BVH::NodeRef createLeaf (BVH* bvh, const PrimRef* prims, const range& set, const Allocator& alloc) { if (set.size() == 0) return BVH::emptyNode; /* fall back to CurveNi for oriented curves */ unsigned int geomID = prims[set.begin()].geomID(); if (bvh->scene->get(geomID)->getCurveType() == Geometry::GTY_SUBTYPE_ORIENTED_CURVE) { return CurveNi::createLeaf(bvh,prims,set,alloc); } if (bvh->scene->get(geomID)->getCurveBasis() == Geometry::GTY_BASIS_HERMITE) { return CurveNi::createLeaf(bvh,prims,set,alloc); } size_t start = set.begin(); size_t items = CurveNv::blocks(set.size()); size_t numbytes = CurveNv::bytes(set.size()); CurveNv* accel = (CurveNv*) alloc.malloc1(numbytes,BVH::byteAlignment); for (size_t i=0; i::fill(prims,start,set.end(),bvh->scene); accel[i].CurveNi::fill(prims,start,set.end(),bvh->scene); } return bvh->encodeLeaf((char*)accel,items); }; public: unsigned char data[4*16*M]; __forceinline Vec3fa* vertices(size_t i, size_t N) { return (Vec3fa*)CurveNi::end(N)+4*i; } __forceinline const Vec3fa* vertices(size_t i, size_t N) const { return (Vec3fa*)CurveNi::end(N)+4*i; } }; template typename CurveNv::Type CurveNv::type; typedef CurveNv<4> Curve4v; typedef CurveNv<8> Curve8v; }