199 lines
6.2 KiB
C++
199 lines
6.2 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 "../default.h"
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namespace embree
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{
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namespace SceneGraph
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{
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enum LightType
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{
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LIGHT_AMBIENT,
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LIGHT_POINT,
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LIGHT_DIRECTIONAL,
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LIGHT_SPOT,
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LIGHT_DISTANT,
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LIGHT_TRIANGLE,
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LIGHT_QUAD,
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};
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class Light
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{
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ALIGNED_CLASS_(16)
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public:
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Light(LightType type) : type(type) {}
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LightType getType() const { return type; }
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private:
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LightType type;
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};
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class AmbientLight : public Light
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{
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public:
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AmbientLight (const Vec3fa& L)
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: Light(LIGHT_AMBIENT), L(L) {}
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AmbientLight transform(const AffineSpace3fa& space) const {
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return AmbientLight(L);
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}
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static AmbientLight lerp(const AmbientLight& light0, const AmbientLight& light1, const float f) {
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return AmbientLight(embree::lerp(light0.L,light1.L,f));
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}
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public:
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Vec3fa L; //!< radiance of ambient light
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};
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class PointLight : public Light
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{
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public:
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PointLight (const Vec3fa& P, const Vec3fa& I)
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: Light(LIGHT_POINT), P(P), I(I) {}
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PointLight transform(const AffineSpace3fa& space) const {
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return PointLight(xfmPoint(space,P),I);
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}
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static PointLight lerp(const PointLight& light0, const PointLight& light1, const float f)
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{
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return PointLight(embree::lerp(light0.P,light1.P,f),
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embree::lerp(light0.I,light1.I,f));
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}
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public:
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Vec3fa P; //!< position of point light
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Vec3fa I; //!< radiant intensity of point light
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};
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class DirectionalLight : public Light
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{
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public:
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DirectionalLight (const Vec3fa& D, const Vec3fa& E)
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: Light(LIGHT_DIRECTIONAL), D(D), E(E) {}
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DirectionalLight transform(const AffineSpace3fa& space) const {
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return DirectionalLight(xfmVector(space,D),E);
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}
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static DirectionalLight lerp(const DirectionalLight& light0, const DirectionalLight& light1, const float f)
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{
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return DirectionalLight(embree::lerp(light0.D,light1.D,f),
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embree::lerp(light0.E,light1.E,f));
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}
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public:
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Vec3fa D; //!< Light direction
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Vec3fa E; //!< Irradiance (W/m^2)
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};
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class SpotLight : public Light
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{
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public:
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SpotLight (const Vec3fa& P, const Vec3fa& D, const Vec3fa& I, float angleMin, float angleMax)
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: Light(LIGHT_SPOT), P(P), D(D), I(I), angleMin(angleMin), angleMax(angleMax) {}
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SpotLight transform(const AffineSpace3fa& space) const {
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return SpotLight(xfmPoint(space,P),xfmVector(space,D),I,angleMin,angleMax);
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}
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static SpotLight lerp(const SpotLight& light0, const SpotLight& light1, const float f)
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{
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return SpotLight(embree::lerp(light0.P,light1.P,f),
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embree::lerp(light0.D,light1.D,f),
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embree::lerp(light0.I,light1.I,f),
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embree::lerp(light0.angleMin,light1.angleMin,f),
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embree::lerp(light0.angleMax,light1.angleMax,f));
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}
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public:
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Vec3fa P; //!< Position of the spot light
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Vec3fa D; //!< Light direction of the spot light
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Vec3fa I; //!< Radiant intensity (W/sr)
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float angleMin, angleMax; //!< Linear falloff region
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};
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class DistantLight : public Light
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{
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public:
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DistantLight (const Vec3fa& D, const Vec3fa& L, const float halfAngle)
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: Light(LIGHT_DISTANT), D(D), L(L), halfAngle(halfAngle), radHalfAngle(deg2rad(halfAngle)), cosHalfAngle(cos(deg2rad(halfAngle))) {}
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DistantLight transform(const AffineSpace3fa& space) const {
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return DistantLight(xfmVector(space,D),L,halfAngle);
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}
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static DistantLight lerp(const DistantLight& light0, const DistantLight& light1, const float f)
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{
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return DistantLight(embree::lerp(light0.D,light1.D,f),
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embree::lerp(light0.L,light1.L,f),
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embree::lerp(light0.halfAngle,light1.halfAngle,f));
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}
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public:
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Vec3fa D; //!< Light direction
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Vec3fa L; //!< Radiance (W/(m^2*sr))
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float halfAngle; //!< Half illumination angle
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float radHalfAngle; //!< Half illumination angle in radians
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float cosHalfAngle; //!< Cosine of half illumination angle
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};
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class TriangleLight : public Light
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{
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public:
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TriangleLight (const Vec3fa& v0, const Vec3fa& v1, const Vec3fa& v2, const Vec3fa& L)
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: Light(LIGHT_TRIANGLE), v0(v0), v1(v1), v2(v2), L(L) {}
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TriangleLight transform(const AffineSpace3fa& space) const {
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return TriangleLight(xfmPoint(space,v0),xfmPoint(space,v1),xfmPoint(space,v2),L);
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}
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static TriangleLight lerp(const TriangleLight& light0, const TriangleLight& light1, const float f)
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{
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return TriangleLight(embree::lerp(light0.v0,light1.v0,f),
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embree::lerp(light0.v1,light1.v1,f),
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embree::lerp(light0.v2,light1.v2,f),
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embree::lerp(light0.L,light1.L,f));
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}
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public:
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Vec3fa v0;
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Vec3fa v1;
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Vec3fa v2;
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Vec3fa L;
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};
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class QuadLight : public Light
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{
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public:
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QuadLight (const Vec3fa& v0, const Vec3fa& v1, const Vec3fa& v2, const Vec3fa& v3, const Vec3fa& L)
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: Light(LIGHT_QUAD), v0(v0), v1(v1), v2(v2), v3(v3), L(L) {}
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QuadLight transform(const AffineSpace3fa& space) const {
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return QuadLight(xfmPoint(space,v0),xfmPoint(space,v1),xfmPoint(space,v2),xfmPoint(space,v3),L);
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}
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static QuadLight lerp(const QuadLight& light0, const QuadLight& light1, const float f)
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{
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return QuadLight(embree::lerp(light0.v0,light1.v0,f),
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embree::lerp(light0.v1,light1.v1,f),
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embree::lerp(light0.v2,light1.v2,f),
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embree::lerp(light0.v3,light1.v3,f),
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embree::lerp(light0.L,light1.L,f));
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}
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public:
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Vec3fa v0;
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Vec3fa v1;
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Vec3fa v2;
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Vec3fa v3;
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Vec3fa L;
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};
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}
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}
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