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Since Embree v3.13.0 supports AARCH64, switch back to the official repo instead of using Embree-aarch64. `thirdparty/embree/patches/godot-changes.patch` should now contain an accurate diff of the changes done to the library.
322 lines
13 KiB
C++
322 lines
13 KiB
C++
// Copyright 2009-2021 Intel Corporation
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// SPDX-License-Identifier: Apache-2.0
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#pragma once
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#include "../common/ray.h"
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namespace embree
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{
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namespace isa
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{
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struct Cone
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{
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const Vec3fa p0; //!< start position of cone
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const Vec3fa p1; //!< end position of cone
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const float r0; //!< start radius of cone
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const float r1; //!< end radius of cone
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__forceinline Cone(const Vec3fa& p0, const float r0, const Vec3fa& p1, const float r1)
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: p0(p0), p1(p1), r0(r0), r1(r1) {}
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__forceinline bool intersect(const Vec3fa& org, const Vec3fa& dir,
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BBox1f& t_o,
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float& u0_o, Vec3fa& Ng0_o,
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float& u1_o, Vec3fa& Ng1_o) const
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{
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/* calculate quadratic equation to solve */
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const Vec3fa v0 = p0-org;
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const Vec3fa v1 = p1-org;
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const float rl = rcp_length(v1-v0);
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const Vec3fa P0 = v0, dP = (v1-v0)*rl;
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const float dr = (r1-r0)*rl;
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const Vec3fa O = -P0, dO = dir;
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const float dOdO = dot(dO,dO);
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const float OdO = dot(dO,O);
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const float OO = dot(O,O);
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const float dOz = dot(dP,dO);
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const float Oz = dot(dP,O);
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const float R = r0 + Oz*dr;
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const float A = dOdO - sqr(dOz) * (1.0f+sqr(dr));
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const float B = 2.0f * (OdO - dOz*(Oz + R*dr));
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const float C = OO - (sqr(Oz) + sqr(R));
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/* we miss the cone if determinant is smaller than zero */
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const float D = B*B - 4.0f*A*C;
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if (D < 0.0f) return false;
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/* special case for rays that are "parallel" to the cone */
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const float eps = float(1<<8)*float(ulp)*max(abs(dOdO),abs(sqr(dOz)));
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if (unlikely(abs(A) < eps))
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{
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/* cylinder case */
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if (abs(dr) < 16.0f*float(ulp)) {
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if (C <= 0.0f) { t_o = BBox1f(neg_inf,pos_inf); return true; }
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else { t_o = BBox1f(pos_inf,neg_inf); return false; }
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}
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/* cone case */
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else
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{
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/* if we hit the negative cone there cannot be a hit */
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const float t = -C/B;
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const float z0 = Oz+t*dOz;
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const float z0r = r0+z0*dr;
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if (z0r < 0.0f) return false;
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/* test if we start inside or outside the cone */
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if (dOz*dr > 0.0f) t_o = BBox1f(t,pos_inf);
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else t_o = BBox1f(neg_inf,t);
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}
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}
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/* standard case for "non-parallel" rays */
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else
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{
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const float Q = sqrt(D);
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const float rcp_2A = rcp(2.0f*A);
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t_o.lower = (-B-Q)*rcp_2A;
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t_o.upper = (-B+Q)*rcp_2A;
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/* standard case where both hits are on same cone */
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if (likely(A > 0.0f)) {
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const float z0 = Oz+t_o.lower*dOz;
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const float z0r = r0+z0*dr;
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if (z0r < 0.0f) return false;
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}
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/* special case where the hits are on the positive and negative cone */
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else
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{
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/* depending on the ray direction and the open direction
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* of the cone we have a hit from inside or outside the
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* cone */
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if (dOz*dr > 0) t_o.upper = pos_inf;
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else t_o.lower = neg_inf;
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}
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}
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/* calculates u and Ng for near hit */
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{
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u0_o = (Oz+t_o.lower*dOz)*rl;
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const Vec3fa Pr = t_o.lower*dir;
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const Vec3fa Pl = v0 + u0_o*(v1-v0);
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const Vec3fa R = normalize(Pr-Pl);
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const Vec3fa U = (p1-p0)+(r1-r0)*R;
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const Vec3fa V = cross(p1-p0,R);
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Ng0_o = cross(V,U);
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}
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/* calculates u and Ng for far hit */
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{
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u1_o = (Oz+t_o.upper*dOz)*rl;
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const Vec3fa Pr = t_o.upper*dir;
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const Vec3fa Pl = v0 + u1_o*(v1-v0);
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const Vec3fa R = normalize(Pr-Pl);
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const Vec3fa U = (p1-p0)+(r1-r0)*R;
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const Vec3fa V = cross(p1-p0,R);
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Ng1_o = cross(V,U);
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}
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return true;
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}
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__forceinline bool intersect(const Vec3fa& org, const Vec3fa& dir, BBox1f& t_o) const
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{
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float u0_o; Vec3fa Ng0_o; float u1_o; Vec3fa Ng1_o;
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return intersect(org,dir,t_o,u0_o,Ng0_o,u1_o,Ng1_o);
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}
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static bool verify(const size_t id, const Cone& cone, const Ray& ray, bool shouldhit, const float t0, const float t1)
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{
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float eps = 0.001f;
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BBox1f t; bool hit;
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hit = cone.intersect(ray.org,ray.dir,t);
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bool failed = hit != shouldhit;
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if (shouldhit) failed |= std::isinf(t0) ? t0 != t.lower : (t0 == -1E6) ? t.lower > -1E6f : abs(t0-t.lower) > eps;
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if (shouldhit) failed |= std::isinf(t1) ? t1 != t.upper : (t1 == +1E6) ? t.upper < +1E6f : abs(t1-t.upper) > eps;
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if (!failed) return true;
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embree_cout << "Cone test " << id << " failed: cone = " << cone << ", ray = " << ray << ", hit = " << hit << ", t = " << t << embree_endl;
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return false;
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}
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/* verify cone class */
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static bool verify()
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{
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bool passed = true;
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const Cone cone0(Vec3fa(0.0f,0.0f,0.0f),0.0f,Vec3fa(1.0f,0.0f,0.0f),1.0f);
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passed &= verify(0,cone0,Ray(Vec3fa(-2.0f,1.0f,0.0f),Vec3fa(+1.0f,+0.0f,+0.0f),0.0f,float(inf)),true,3.0f,pos_inf);
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passed &= verify(1,cone0,Ray(Vec3fa(+2.0f,1.0f,0.0f),Vec3fa(-1.0f,+0.0f,+0.0f),0.0f,float(inf)),true,neg_inf,1.0f);
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passed &= verify(2,cone0,Ray(Vec3fa(-1.0f,0.0f,2.0f),Vec3fa(+0.0f,+0.0f,-1.0f),0.0f,float(inf)),false,0.0f,0.0f);
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passed &= verify(3,cone0,Ray(Vec3fa(+1.0f,0.0f,2.0f),Vec3fa(+0.0f,+0.0f,-1.0f),0.0f,float(inf)),true,1.0f,3.0f);
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passed &= verify(4,cone0,Ray(Vec3fa(-1.0f,0.0f,0.0f),Vec3fa(+1.0f,+0.0f,+0.0f),0.0f,float(inf)),true,1.0f,pos_inf);
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passed &= verify(5,cone0,Ray(Vec3fa(+1.0f,0.0f,0.0f),Vec3fa(-1.0f,+0.0f,+0.0f),0.0f,float(inf)),true,neg_inf,1.0f);
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passed &= verify(6,cone0,Ray(Vec3fa(+0.0f,0.0f,1.0f),Vec3fa(+0.0f,+0.0f,-1.0f),0.0f,float(inf)),true,1.0f,1.0f);
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passed &= verify(7,cone0,Ray(Vec3fa(+0.0f,1.0f,0.0f),Vec3fa(-1.0f,-1.0f,+0.0f),0.0f,float(inf)),false,0.0f,0.0f);
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passed &= verify(8,cone0,Ray(Vec3fa(+0.0f,1.0f,0.0f),Vec3fa(+1.0f,-1.0f,+0.0f),0.0f,float(inf)),true,0.5f,+1E6);
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passed &= verify(9,cone0,Ray(Vec3fa(+0.0f,1.0f,0.0f),Vec3fa(-1.0f,+1.0f,+0.0f),0.0f,float(inf)),true,-1E6,-0.5f);
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const Cone cone1(Vec3fa(0.0f,0.0f,0.0f),1.0f,Vec3fa(1.0f,0.0f,0.0f),0.0f);
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passed &= verify(10,cone1,Ray(Vec3fa(-2.0f,1.0f,0.0f),Vec3fa(+1.0f,+0.0f,+0.0f),0.0f,float(inf)),true,neg_inf,2.0f);
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passed &= verify(11,cone1,Ray(Vec3fa(-1.0f,0.0f,2.0f),Vec3fa(+0.0f,+0.0f,-1.0f),0.0f,float(inf)),true,0.0f,4.0f);
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const Cone cylinder(Vec3fa(0.0f,0.0f,0.0f),1.0f,Vec3fa(1.0f,0.0f,0.0f),1.0f);
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passed &= verify(12,cylinder,Ray(Vec3fa(-2.0f,1.0f,0.0f),Vec3fa( 0.0f,-1.0f,+0.0f),0.0f,float(inf)),true,0.0f,2.0f);
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passed &= verify(13,cylinder,Ray(Vec3fa(+2.0f,1.0f,0.0f),Vec3fa( 0.0f,-1.0f,+0.0f),0.0f,float(inf)),true,0.0f,2.0f);
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passed &= verify(14,cylinder,Ray(Vec3fa(+2.0f,1.0f,2.0f),Vec3fa( 0.0f,-1.0f,+0.0f),0.0f,float(inf)),false,0.0f,0.0f);
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passed &= verify(15,cylinder,Ray(Vec3fa(+0.0f,0.0f,0.0f),Vec3fa( 1.0f, 0.0f,+0.0f),0.0f,float(inf)),true,neg_inf,pos_inf);
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passed &= verify(16,cylinder,Ray(Vec3fa(+0.0f,0.0f,0.0f),Vec3fa(-1.0f, 0.0f,+0.0f),0.0f,float(inf)),true,neg_inf,pos_inf);
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passed &= verify(17,cylinder,Ray(Vec3fa(+0.0f,2.0f,0.0f),Vec3fa( 1.0f, 0.0f,+0.0f),0.0f,float(inf)),false,pos_inf,neg_inf);
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passed &= verify(18,cylinder,Ray(Vec3fa(+0.0f,2.0f,0.0f),Vec3fa(-1.0f, 0.0f,+0.0f),0.0f,float(inf)),false,pos_inf,neg_inf);
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return passed;
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}
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/*! output operator */
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friend __forceinline embree_ostream operator<<(embree_ostream cout, const Cone& c) {
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return cout << "Cone { p0 = " << c.p0 << ", r0 = " << c.r0 << ", p1 = " << c.p1 << ", r1 = " << c.r1 << "}";
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}
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};
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template<int N>
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struct ConeN
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{
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typedef Vec3<vfloat<N>> Vec3vfN;
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const Vec3vfN p0; //!< start position of cone
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const Vec3vfN p1; //!< end position of cone
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const vfloat<N> r0; //!< start radius of cone
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const vfloat<N> r1; //!< end radius of cone
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__forceinline ConeN(const Vec3vfN& p0, const vfloat<N>& r0, const Vec3vfN& p1, const vfloat<N>& r1)
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: p0(p0), p1(p1), r0(r0), r1(r1) {}
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__forceinline Cone operator[] (const size_t i) const
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{
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assert(i<N);
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return Cone(Vec3fa(p0.x[i],p0.y[i],p0.z[i]),r0[i],Vec3fa(p1.x[i],p1.y[i],p1.z[i]),r1[i]);
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}
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__forceinline vbool<N> intersect(const Vec3fa& org, const Vec3fa& dir,
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BBox<vfloat<N>>& t_o,
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vfloat<N>& u0_o, Vec3vfN& Ng0_o,
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vfloat<N>& u1_o, Vec3vfN& Ng1_o) const
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{
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/* calculate quadratic equation to solve */
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const Vec3vfN v0 = p0-Vec3vfN(org);
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const Vec3vfN v1 = p1-Vec3vfN(org);
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const vfloat<N> rl = rcp_length(v1-v0);
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const Vec3vfN P0 = v0, dP = (v1-v0)*rl;
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const vfloat<N> dr = (r1-r0)*rl;
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const Vec3vfN O = -P0, dO = dir;
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const vfloat<N> dOdO = dot(dO,dO);
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const vfloat<N> OdO = dot(dO,O);
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const vfloat<N> OO = dot(O,O);
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const vfloat<N> dOz = dot(dP,dO);
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const vfloat<N> Oz = dot(dP,O);
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const vfloat<N> R = r0 + Oz*dr;
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const vfloat<N> A = dOdO - sqr(dOz) * (vfloat<N>(1.0f)+sqr(dr));
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const vfloat<N> B = 2.0f * (OdO - dOz*(Oz + R*dr));
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const vfloat<N> C = OO - (sqr(Oz) + sqr(R));
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/* we miss the cone if determinant is smaller than zero */
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const vfloat<N> D = B*B - 4.0f*A*C;
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vbool<N> valid = D >= 0.0f;
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if (none(valid)) return valid;
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/* special case for rays that are "parallel" to the cone */
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const vfloat<N> eps = float(1<<8)*float(ulp)*max(abs(dOdO),abs(sqr(dOz)));
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const vbool<N> validt = valid & (abs(A) < eps);
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const vbool<N> validf = valid & !(abs(A) < eps);
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if (unlikely(any(validt)))
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{
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const vboolx validtt = validt & (abs(dr) < 16.0f*float(ulp));
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const vboolx validtf = validt & (abs(dr) >= 16.0f*float(ulp));
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/* cylinder case */
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if (unlikely(any(validtt)))
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{
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t_o.lower = select(validtt, select(C <= 0.0f, vfloat<N>(neg_inf), vfloat<N>(pos_inf)), t_o.lower);
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t_o.upper = select(validtt, select(C <= 0.0f, vfloat<N>(pos_inf), vfloat<N>(neg_inf)), t_o.upper);
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valid &= !validtt | C <= 0.0f;
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}
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/* cone case */
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if (any(validtf))
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{
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/* if we hit the negative cone there cannot be a hit */
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const vfloat<N> t = -C/B;
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const vfloat<N> z0 = Oz+t*dOz;
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const vfloat<N> z0r = r0+z0*dr;
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valid &= !validtf | z0r >= 0.0f;
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/* test if we start inside or outside the cone */
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t_o.lower = select(validtf, select(dOz*dr > 0.0f, t, vfloat<N>(neg_inf)), t_o.lower);
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t_o.upper = select(validtf, select(dOz*dr > 0.0f, vfloat<N>(pos_inf), t), t_o.upper);
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}
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}
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/* standard case for "non-parallel" rays */
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if (likely(any(validf)))
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{
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const vfloat<N> Q = sqrt(D);
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const vfloat<N> rcp_2A = 0.5f*rcp(A);
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t_o.lower = select(validf, (-B-Q)*rcp_2A, t_o.lower);
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t_o.upper = select(validf, (-B+Q)*rcp_2A, t_o.upper);
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/* standard case where both hits are on same cone */
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const vbool<N> validft = validf & A>0.0f;
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const vbool<N> validff = validf & !(A>0.0f);
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if (any(validft)) {
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const vfloat<N> z0 = Oz+t_o.lower*dOz;
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const vfloat<N> z0r = r0+z0*dr;
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valid &= !validft | z0r >= 0.0f;
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}
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/* special case where the hits are on the positive and negative cone */
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if (any(validff)) {
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/* depending on the ray direction and the open direction
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* of the cone we have a hit from inside or outside the
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* cone */
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t_o.lower = select(validff, select(dOz*dr > 0.0f, t_o.lower, float(neg_inf)), t_o.lower);
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t_o.upper = select(validff, select(dOz*dr > 0.0f, float(pos_inf), t_o.upper), t_o.upper);
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}
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}
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/* calculates u and Ng for near hit */
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{
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u0_o = (Oz+t_o.lower*dOz)*rl;
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const Vec3vfN Pr = t_o.lower*Vec3vfN(dir);
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const Vec3vfN Pl = v0 + u0_o*(v1-v0);
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const Vec3vfN R = normalize(Pr-Pl);
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const Vec3vfN U = (p1-p0)+(r1-r0)*R;
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const Vec3vfN V = cross(p1-p0,R);
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Ng0_o = cross(V,U);
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}
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/* calculates u and Ng for far hit */
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{
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u1_o = (Oz+t_o.upper*dOz)*rl;
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const Vec3vfN Pr = t_o.lower*Vec3vfN(dir);
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const Vec3vfN Pl = v0 + u1_o*(v1-v0);
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const Vec3vfN R = normalize(Pr-Pl);
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const Vec3vfN U = (p1-p0)+(r1-r0)*R;
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const Vec3vfN V = cross(p1-p0,R);
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Ng1_o = cross(V,U);
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}
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return valid;
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}
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__forceinline vbool<N> intersect(const Vec3fa& org, const Vec3fa& dir, BBox<vfloat<N>>& t_o) const
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{
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vfloat<N> u0_o; Vec3vfN Ng0_o; vfloat<N> u1_o; Vec3vfN Ng1_o;
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return intersect(org,dir,t_o,u0_o,Ng0_o,u1_o,Ng1_o);
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}
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};
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}
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}
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