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- // Copyright 2009-2021 Intel Corporation
- // SPDX-License-Identifier: Apache-2.0
- #pragma once
- #include "catmullclark_patch.h"
- #include "bezier_curve.h"
- namespace embree
- {
- template<typename Vertex, typename Vertex_t = Vertex>
- class __aligned(64) BilinearPatchT
- {
- typedef CatmullClark1RingT<Vertex,Vertex_t> CatmullClarkRing;
- typedef CatmullClarkPatchT<Vertex,Vertex_t> CatmullClarkPatch;
-
- public:
- Vertex v[4];
-
- public:
-
- __forceinline BilinearPatchT () {}
- __forceinline BilinearPatchT (const HalfEdge* edge, const BufferView<Vertex>& vertices) {
- init(edge,vertices.getPtr(),vertices.getStride());
- }
-
- __forceinline BilinearPatchT (const HalfEdge* edge, const char* vertices, size_t stride) {
- init(edge,vertices,stride);
- }
- __forceinline void init (const HalfEdge* edge, const char* vertices, size_t stride)
- {
- v[0] = Vertex::loadu(vertices+edge->getStartVertexIndex()*stride); edge = edge->next();
- v[1] = Vertex::loadu(vertices+edge->getStartVertexIndex()*stride); edge = edge->next();
- v[2] = Vertex::loadu(vertices+edge->getStartVertexIndex()*stride); edge = edge->next();
- v[3] = Vertex::loadu(vertices+edge->getStartVertexIndex()*stride); edge = edge->next();
- }
- __forceinline BilinearPatchT (const CatmullClarkPatch& patch)
- {
- v[0] = patch.ring[0].getLimitVertex();
- v[1] = patch.ring[1].getLimitVertex();
- v[2] = patch.ring[2].getLimitVertex();
- v[3] = patch.ring[3].getLimitVertex();
- }
- __forceinline BBox<Vertex> bounds() const
- {
-
- BBox<Vertex> bounds (v[0]);
- bounds.extend(v[1]);
- bounds.extend(v[2]);
- bounds.extend(v[3]);
- return bounds;
- }
-
- __forceinline Vertex eval(const float uu, const float vv) const {
- return lerp(lerp(v[0],v[1],uu),lerp(v[3],v[2],uu),vv);
- }
- __forceinline Vertex eval_du(const float uu, const float vv) const {
- return lerp(v[1]-v[0],v[2]-v[3],vv);
- }
- __forceinline Vertex eval_dv(const float uu, const float vv) const {
- return lerp(v[3]-v[0],v[2]-v[1],uu);
- }
- __forceinline Vertex eval_dudu(const float uu, const float vv) const {
- return Vertex(zero);
- }
- __forceinline Vertex eval_dvdv(const float uu, const float vv) const {
- return Vertex(zero);
- }
- __forceinline Vertex eval_dudv(const float uu, const float vv) const {
- return (v[2]-v[3]) - (v[1]-v[0]);
- }
- __forceinline Vertex normal(const float uu, const float vv) const {
- return cross(eval_du(uu,vv),eval_dv(uu,vv));
- }
-
- __forceinline void eval(const float u, const float v,
- Vertex* P, Vertex* dPdu, Vertex* dPdv, Vertex* ddPdudu, Vertex* ddPdvdv, Vertex* ddPdudv,
- const float dscale = 1.0f) const
- {
- if (P) {
- *P = eval(u,v);
- }
- if (dPdu) {
- assert(dPdu); *dPdu = eval_du(u,v)*dscale;
- assert(dPdv); *dPdv = eval_dv(u,v)*dscale;
- }
- if (ddPdudu) {
- assert(ddPdudu); *ddPdudu = eval_dudu(u,v)*sqr(dscale);
- assert(ddPdvdv); *ddPdvdv = eval_dvdv(u,v)*sqr(dscale);
- assert(ddPdudv); *ddPdudv = eval_dudv(u,v)*sqr(dscale);
- }
- }
- template<class vfloat>
- __forceinline Vec3<vfloat> eval(const vfloat& uu, const vfloat& vv) const
- {
- const vfloat x = lerp(lerp(v[0].x,v[1].x,uu),lerp(v[3].x,v[2].x,uu),vv);
- const vfloat y = lerp(lerp(v[0].y,v[1].y,uu),lerp(v[3].y,v[2].y,uu),vv);
- const vfloat z = lerp(lerp(v[0].z,v[1].z,uu),lerp(v[3].z,v[2].z,uu),vv);
- return Vec3<vfloat>(x,y,z);
- }
- template<class vfloat>
- __forceinline Vec3<vfloat> eval_du(const vfloat& uu, const vfloat& vv) const
- {
- const vfloat x = lerp(v[1].x-v[0].x,v[2].x-v[3].x,vv);
- const vfloat y = lerp(v[1].y-v[0].y,v[2].y-v[3].y,vv);
- const vfloat z = lerp(v[1].z-v[0].z,v[2].z-v[3].z,vv);
- return Vec3<vfloat>(x,y,z);
- }
- template<class vfloat>
- __forceinline Vec3<vfloat> eval_dv(const vfloat& uu, const vfloat& vv) const
- {
- const vfloat x = lerp(v[3].x-v[0].x,v[2].x-v[1].x,uu);
- const vfloat y = lerp(v[3].y-v[0].y,v[2].y-v[1].y,uu);
- const vfloat z = lerp(v[3].z-v[0].z,v[2].z-v[1].z,uu);
- return Vec3<vfloat>(x,y,z);
- }
- template<typename vfloat>
- __forceinline Vec3<vfloat> normal(const vfloat& uu, const vfloat& vv) const {
- return cross(eval_du(uu,vv),eval_dv(uu,vv));
- }
- template<class vfloat>
- __forceinline vfloat eval(const size_t i, const vfloat& uu, const vfloat& vv) const {
- return lerp(lerp(v[0][i],v[1][i],uu),lerp(v[3][i],v[2][i],uu),vv);
- }
- template<class vfloat>
- __forceinline vfloat eval_du(const size_t i, const vfloat& uu, const vfloat& vv) const {
- return lerp(v[1][i]-v[0][i],v[2][i]-v[3][i],vv);
- }
- template<class vfloat>
- __forceinline vfloat eval_dv(const size_t i, const vfloat& uu, const vfloat& vv) const {
- return lerp(v[3][i]-v[0][i],v[2][i]-v[1][i],uu);
- }
-
- template<class vfloat>
- __forceinline vfloat eval_dudu(const size_t i, const vfloat& uu, const vfloat& vv) const {
- return vfloat(zero);
- }
- template<class vfloat>
- __forceinline vfloat eval_dvdv(const size_t i, const vfloat& uu, const vfloat& vv) const {
- return vfloat(zero);
- }
- template<class vfloat>
- __forceinline vfloat eval_dudv(const size_t i, const vfloat& uu, const vfloat& vv) const {
- return (v[2][i]-v[3][i]) - (v[1][i]-v[0][i]);
- }
- template<typename vbool, typename vfloat>
- __forceinline void eval(const vbool& valid, const vfloat& uu, const vfloat& vv,
- float* P, float* dPdu, float* dPdv, float* ddPdudu, float* ddPdvdv, float* ddPdudv,
- const float dscale, const size_t dstride, const size_t N) const
- {
- if (P) {
- for (size_t i=0; i<N; i++) vfloat::store(valid,P+i*dstride,eval(i,uu,vv));
- }
- if (dPdu) {
- for (size_t i=0; i<N; i++) {
- assert(dPdu); vfloat::store(valid,dPdu+i*dstride,eval_du(i,uu,vv)*dscale);
- assert(dPdv); vfloat::store(valid,dPdv+i*dstride,eval_dv(i,uu,vv)*dscale);
- }
- }
- if (ddPdudu) {
- for (size_t i=0; i<N; i++) {
- assert(ddPdudu); vfloat::store(valid,ddPdudu+i*dstride,eval_dudu(i,uu,vv)*sqr(dscale));
- assert(ddPdvdv); vfloat::store(valid,ddPdvdv+i*dstride,eval_dvdv(i,uu,vv)*sqr(dscale));
- assert(ddPdudv); vfloat::store(valid,ddPdudv+i*dstride,eval_dudv(i,uu,vv)*sqr(dscale));
- }
- }
- }
- };
-
- typedef BilinearPatchT<Vec3fa,Vec3fa_t> BilinearPatch3fa;
- }
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