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247 lines
5.9 KiB
247 lines
5.9 KiB
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#include <iostream>
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#include <StormEigen/Geometry>
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#include <bench/BenchTimer.h>
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using namespace StormEigen;
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using namespace std;
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template<typename Q>
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STORMEIGEN_DONT_INLINE Q nlerp(const Q& a, const Q& b, typename Q::Scalar t)
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{
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return Q((a.coeffs() * (1.0-t) + b.coeffs() * t).normalized());
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}
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template<typename Q>
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STORMEIGEN_DONT_INLINE Q slerp_eigen(const Q& a, const Q& b, typename Q::Scalar t)
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{
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return a.slerp(t,b);
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}
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template<typename Q>
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STORMEIGEN_DONT_INLINE Q slerp_legacy(const Q& a, const Q& b, typename Q::Scalar t)
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{
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typedef typename Q::Scalar Scalar;
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static const Scalar one = Scalar(1) - dummy_precision<Scalar>();
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Scalar d = a.dot(b);
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Scalar absD = internal::abs(d);
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if (absD>=one)
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return a;
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// theta is the angle between the 2 quaternions
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Scalar theta = std::acos(absD);
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Scalar sinTheta = internal::sin(theta);
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Scalar scale0 = internal::sin( ( Scalar(1) - t ) * theta) / sinTheta;
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Scalar scale1 = internal::sin( ( t * theta) ) / sinTheta;
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if (d<0)
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scale1 = -scale1;
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return Q(scale0 * a.coeffs() + scale1 * b.coeffs());
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}
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template<typename Q>
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STORMEIGEN_DONT_INLINE Q slerp_legacy_nlerp(const Q& a, const Q& b, typename Q::Scalar t)
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{
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typedef typename Q::Scalar Scalar;
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static const Scalar one = Scalar(1) - epsilon<Scalar>();
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Scalar d = a.dot(b);
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Scalar absD = internal::abs(d);
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Scalar scale0;
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Scalar scale1;
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if (absD>=one)
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{
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scale0 = Scalar(1) - t;
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scale1 = t;
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}
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else
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{
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// theta is the angle between the 2 quaternions
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Scalar theta = std::acos(absD);
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Scalar sinTheta = internal::sin(theta);
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scale0 = internal::sin( ( Scalar(1) - t ) * theta) / sinTheta;
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scale1 = internal::sin( ( t * theta) ) / sinTheta;
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if (d<0)
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scale1 = -scale1;
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}
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return Q(scale0 * a.coeffs() + scale1 * b.coeffs());
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}
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template<typename T>
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inline T sin_over_x(T x)
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{
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if (T(1) + x*x == T(1))
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return T(1);
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else
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return std::sin(x)/x;
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}
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template<typename Q>
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STORMEIGEN_DONT_INLINE Q slerp_rw(const Q& a, const Q& b, typename Q::Scalar t)
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{
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typedef typename Q::Scalar Scalar;
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Scalar d = a.dot(b);
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Scalar theta;
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if (d<0.0)
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theta = /*M_PI -*/ Scalar(2)*std::asin( (a.coeffs()+b.coeffs()).norm()/2 );
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else
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theta = Scalar(2)*std::asin( (a.coeffs()-b.coeffs()).norm()/2 );
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// theta is the angle between the 2 quaternions
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// Scalar theta = std::acos(absD);
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Scalar sinOverTheta = sin_over_x(theta);
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Scalar scale0 = (Scalar(1)-t)*sin_over_x( ( Scalar(1) - t ) * theta) / sinOverTheta;
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Scalar scale1 = t * sin_over_x( ( t * theta) ) / sinOverTheta;
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if (d<0)
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scale1 = -scale1;
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return Quaternion<Scalar>(scale0 * a.coeffs() + scale1 * b.coeffs());
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}
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template<typename Q>
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STORMEIGEN_DONT_INLINE Q slerp_gael(const Q& a, const Q& b, typename Q::Scalar t)
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{
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typedef typename Q::Scalar Scalar;
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Scalar d = a.dot(b);
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Scalar theta;
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// theta = Scalar(2) * atan2((a.coeffs()-b.coeffs()).norm(),(a.coeffs()+b.coeffs()).norm());
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// if (d<0.0)
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// theta = M_PI-theta;
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if (d<0.0)
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theta = /*M_PI -*/ Scalar(2)*std::asin( (-a.coeffs()-b.coeffs()).norm()/2 );
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else
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theta = Scalar(2)*std::asin( (a.coeffs()-b.coeffs()).norm()/2 );
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Scalar scale0;
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Scalar scale1;
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if(theta*theta-Scalar(6)==-Scalar(6))
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{
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scale0 = Scalar(1) - t;
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scale1 = t;
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}
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else
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{
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Scalar sinTheta = std::sin(theta);
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scale0 = internal::sin( ( Scalar(1) - t ) * theta) / sinTheta;
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scale1 = internal::sin( ( t * theta) ) / sinTheta;
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if (d<0)
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scale1 = -scale1;
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}
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return Quaternion<Scalar>(scale0 * a.coeffs() + scale1 * b.coeffs());
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}
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int main()
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{
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typedef double RefScalar;
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typedef float TestScalar;
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typedef Quaternion<RefScalar> Qd;
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typedef Quaternion<TestScalar> Qf;
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unsigned int g_seed = (unsigned int) time(NULL);
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std::cout << g_seed << "\n";
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// g_seed = 1259932496;
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srand(g_seed);
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Matrix<RefScalar,Dynamic,1> maxerr(7);
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maxerr.setZero();
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Matrix<RefScalar,Dynamic,1> avgerr(7);
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avgerr.setZero();
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cout << "double=>float=>double nlerp eigen legacy(snap) legacy(nlerp) rightway gael's criteria\n";
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int rep = 100;
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int iters = 40;
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for (int w=0; w<rep; ++w)
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{
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Qf a, b;
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a.coeffs().setRandom();
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a.normalize();
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b.coeffs().setRandom();
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b.normalize();
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Qf c[6];
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Qd ar(a.cast<RefScalar>());
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Qd br(b.cast<RefScalar>());
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Qd cr;
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cout.precision(8);
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cout << std::scientific;
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for (int i=0; i<iters; ++i)
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{
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RefScalar t = 0.65;
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cr = slerp_rw(ar,br,t);
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Qf refc = cr.cast<TestScalar>();
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c[0] = nlerp(a,b,t);
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c[1] = slerp_eigen(a,b,t);
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c[2] = slerp_legacy(a,b,t);
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c[3] = slerp_legacy_nlerp(a,b,t);
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c[4] = slerp_rw(a,b,t);
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c[5] = slerp_gael(a,b,t);
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VectorXd err(7);
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err[0] = (cr.coeffs()-refc.cast<RefScalar>().coeffs()).norm();
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// std::cout << err[0] << " ";
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for (int k=0; k<6; ++k)
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{
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err[k+1] = (c[k].coeffs()-refc.coeffs()).norm();
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// std::cout << err[k+1] << " ";
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}
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maxerr = maxerr.cwise().max(err);
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avgerr += err;
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// std::cout << "\n";
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b = cr.cast<TestScalar>();
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br = cr;
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}
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// std::cout << "\n";
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}
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avgerr /= RefScalar(rep*iters);
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cout << "\n\nAccuracy:\n"
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<< " max: " << maxerr.transpose() << "\n";
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cout << " avg: " << avgerr.transpose() << "\n";
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// perf bench
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Quaternionf a,b;
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a.coeffs().setRandom();
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a.normalize();
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b.coeffs().setRandom();
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b.normalize();
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//b = a;
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float s = 0.65;
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#define BENCH(FUNC) {\
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BenchTimer t; \
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for(int k=0; k<2; ++k) {\
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t.start(); \
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for(int i=0; i<1000000; ++i) \
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FUNC(a,b,s); \
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t.stop(); \
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} \
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cout << " " << #FUNC << " => \t " << t.value() << "s\n"; \
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}
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cout << "\nSpeed:\n" << std::fixed;
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BENCH(nlerp);
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BENCH(slerp_eigen);
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BENCH(slerp_legacy);
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BENCH(slerp_legacy_nlerp);
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BENCH(slerp_rw);
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BENCH(slerp_gael);
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}
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