// Copyright 2009-2020 Intel Corporation // SPDX-License-Identifier: Apache-2.0 #pragma once #include "gregory_patch.h" namespace embree { class __aligned(64) DenseGregoryPatch3fa { typedef Vec3fa Vec3fa_4x4[4][4]; public: __forceinline DenseGregoryPatch3fa (const GregoryPatch3fa& patch) { for (size_t y=0; y<4; y++) for (size_t x=0; x<4; x++) matrix[y][x] = Vec3ff(patch.v[y][x], 0.0f); matrix[0][0].w = patch.f[0][0].x; matrix[0][1].w = patch.f[0][0].y; matrix[0][2].w = patch.f[0][0].z; matrix[0][3].w = 0.0f; matrix[1][0].w = patch.f[0][1].x; matrix[1][1].w = patch.f[0][1].y; matrix[1][2].w = patch.f[0][1].z; matrix[1][3].w = 0.0f; matrix[2][0].w = patch.f[1][1].x; matrix[2][1].w = patch.f[1][1].y; matrix[2][2].w = patch.f[1][1].z; matrix[2][3].w = 0.0f; matrix[3][0].w = patch.f[1][0].x; matrix[3][1].w = patch.f[1][0].y; matrix[3][2].w = patch.f[1][0].z; matrix[3][3].w = 0.0f; } __forceinline void extract_f_m(Vec3fa f_m[2][2]) const { f_m[0][0] = Vec3fa( matrix[0][0].w, matrix[0][1].w, matrix[0][2].w ); f_m[0][1] = Vec3fa( matrix[1][0].w, matrix[1][1].w, matrix[1][2].w ); f_m[1][1] = Vec3fa( matrix[2][0].w, matrix[2][1].w, matrix[2][2].w ); f_m[1][0] = Vec3fa( matrix[3][0].w, matrix[3][1].w, matrix[3][2].w ); } __forceinline Vec3fa eval(const float uu, const float vv) const { __aligned(64) Vec3fa f_m[2][2]; extract_f_m(f_m); return GregoryPatch3fa::eval(*(Vec3fa_4x4*)&matrix,f_m,uu,vv); } __forceinline Vec3fa normal(const float uu, const float vv) const { __aligned(64) Vec3fa f_m[2][2]; extract_f_m(f_m); return GregoryPatch3fa::normal(*(Vec3fa_4x4*)&matrix,f_m,uu,vv); } template __forceinline Vec3 eval(const T &uu, const T &vv) const { Vec3 f_m[2][2]; f_m[0][0] = Vec3( matrix[0][0].w, matrix[0][1].w, matrix[0][2].w ); f_m[0][1] = Vec3( matrix[1][0].w, matrix[1][1].w, matrix[1][2].w ); f_m[1][1] = Vec3( matrix[2][0].w, matrix[2][1].w, matrix[2][2].w ); f_m[1][0] = Vec3( matrix[3][0].w, matrix[3][1].w, matrix[3][2].w ); return GregoryPatch3fa::eval_t(*(Vec3fa_4x4*)&matrix,f_m,uu,vv); } template __forceinline Vec3 normal(const T &uu, const T &vv) const { Vec3 f_m[2][2]; f_m[0][0] = Vec3( matrix[0][0].w, matrix[0][1].w, matrix[0][2].w ); f_m[0][1] = Vec3( matrix[1][0].w, matrix[1][1].w, matrix[1][2].w ); f_m[1][1] = Vec3( matrix[2][0].w, matrix[2][1].w, matrix[2][2].w ); f_m[1][0] = Vec3( matrix[3][0].w, matrix[3][1].w, matrix[3][2].w ); return GregoryPatch3fa::normal_t(*(Vec3fa_4x4*)&matrix,f_m,uu,vv); } __forceinline void eval(const float u, const float v, Vec3fa* P, Vec3fa* dPdu, Vec3fa* dPdv, Vec3fa* ddPdudu, Vec3fa* ddPdvdv, Vec3fa* ddPdudv, const float dscale = 1.0f) const { __aligned(64) Vec3fa f_m[2][2]; extract_f_m(f_m); if (P) { *P = GregoryPatch3fa::eval(*(Vec3fa_4x4*)&matrix,f_m,u,v); } if (dPdu) { assert(dPdu); *dPdu = GregoryPatch3fa::eval_du(*(Vec3fa_4x4*)&matrix,f_m,u,v)*dscale; assert(dPdv); *dPdv = GregoryPatch3fa::eval_dv(*(Vec3fa_4x4*)&matrix,f_m,u,v)*dscale; } if (ddPdudu) { assert(ddPdudu); *ddPdudu = GregoryPatch3fa::eval_dudu(*(Vec3fa_4x4*)&matrix,f_m,u,v)*sqr(dscale); assert(ddPdvdv); *ddPdvdv = GregoryPatch3fa::eval_dvdv(*(Vec3fa_4x4*)&matrix,f_m,u,v)*sqr(dscale); assert(ddPdudv); *ddPdudv = GregoryPatch3fa::eval_dudv(*(Vec3fa_4x4*)&matrix,f_m,u,v)*sqr(dscale); } } template __forceinline void eval(const vbool& valid, const vfloat& uu, const vfloat& vv, float* P, float* dPdu, float* dPdv, const float dscale, const size_t dstride, const size_t N) const { __aligned(64) Vec3fa f_m[2][2]; extract_f_m(f_m); GregoryPatch3fa::eval(matrix,f_m,valid,uu,vv,P,dPdu,dPdv,dscale,dstride,N); } private: Vec3ff matrix[4][4]; // f_p/m points are stored in 4th component }; }