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#include <iostream> |
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#include <Eigen/Geometry> |
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#include <bench/BenchTimer.h> |
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using namespace std; |
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using namespace Eigen; |
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#ifndef SCALAR |
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#define SCALAR float |
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#endif |
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#ifndef SIZE |
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#define SIZE 8 |
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#endif |
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typedef SCALAR Scalar; |
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typedef NumTraits<Scalar>::Real RealScalar; |
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typedef Matrix<RealScalar,Dynamic,Dynamic> A; |
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typedef Matrix</*Real*/Scalar,Dynamic,Dynamic> B; |
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typedef Matrix<Scalar,Dynamic,Dynamic> C; |
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typedef Matrix<RealScalar,Dynamic,Dynamic> M; |
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template<typename Transformation, typename Data> |
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EIGEN_DONT_INLINE void transform(const Transformation& t, Data& data) |
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{ |
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EIGEN_ASM_COMMENT("begin"); |
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data = t * data; |
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EIGEN_ASM_COMMENT("end"); |
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} |
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template<typename Scalar, typename Data> |
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EIGEN_DONT_INLINE void transform(const Quaternion<Scalar>& t, Data& data) |
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{ |
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EIGEN_ASM_COMMENT("begin quat"); |
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for(int i=0;i<data.cols();++i) |
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data.col(i) = t * data.col(i); |
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EIGEN_ASM_COMMENT("end quat"); |
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} |
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template<typename T> struct ToRotationMatrixWrapper |
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{ |
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enum {Dim = T::Dim}; |
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typedef typename T::Scalar Scalar; |
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ToRotationMatrixWrapper(const T& o) : object(o) {} |
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T object; |
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}; |
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template<typename QType, typename Data> |
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EIGEN_DONT_INLINE void transform(const ToRotationMatrixWrapper<QType>& t, Data& data) |
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{ |
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EIGEN_ASM_COMMENT("begin quat via mat"); |
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data = t.object.toRotationMatrix() * data; |
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EIGEN_ASM_COMMENT("end quat via mat"); |
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} |
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template<typename Scalar, int Dim, typename Data> |
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EIGEN_DONT_INLINE void transform(const Transform<Scalar,Dim,Projective>& t, Data& data) |
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{ |
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data = (t * data.colwise().homogeneous()).template block<Dim,Data::ColsAtCompileTime>(0,0); |
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} |
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template<typename T> struct get_dim { enum { Dim = T::Dim }; }; |
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template<typename S, int R, int C, int O, int MR, int MC> |
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struct get_dim<Matrix<S,R,C,O,MR,MC> > { enum { Dim = R }; }; |
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template<typename Transformation, int N> |
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struct bench_impl |
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{ |
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static EIGEN_DONT_INLINE void run(const Transformation& t) |
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{ |
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Matrix<typename Transformation::Scalar,get_dim<Transformation>::Dim,N> data; |
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data.setRandom(); |
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bench_impl<Transformation,N-1>::run(t); |
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BenchTimer timer; |
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BENCH(timer,10,100000,transform(t,data)); |
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cout.width(9); |
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cout << timer.best() << " "; |
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} |
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}; |
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template<typename Transformation> |
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struct bench_impl<Transformation,0> |
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{ |
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static EIGEN_DONT_INLINE void run(const Transformation&) {} |
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}; |
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template<typename Transformation> |
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EIGEN_DONT_INLINE void bench(const std::string& msg, const Transformation& t) |
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{ |
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cout << msg << " "; |
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bench_impl<Transformation,SIZE>::run(t); |
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std::cout << "\n"; |
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} |
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int main(int argc, char ** argv) |
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{ |
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Matrix<Scalar,3,4> mat34; mat34.setRandom(); |
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Transform<Scalar,3,Isometry> iso3(mat34); |
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Transform<Scalar,3,Affine> aff3(mat34); |
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Transform<Scalar,3,AffineCompact> caff3(mat34); |
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Transform<Scalar,3,Projective> proj3(mat34); |
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Quaternion<Scalar> quat;quat.setIdentity(); |
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ToRotationMatrixWrapper<Quaternion<Scalar> > quatmat(quat); |
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Matrix<Scalar,3,3> mat33; mat33.setRandom(); |
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cout.precision(4); |
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std::cout |
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<< "N "; |
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for(int i=0;i<SIZE;++i) |
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{ |
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cout.width(9); |
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cout << i+1 << " "; |
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} |
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cout << "\n"; |
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bench("matrix 3x3", mat33); |
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bench("quaternion", quat); |
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bench("quat-mat ", quatmat); |
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bench("isometry3 ", iso3); |
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bench("affine3 ", aff3); |
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bench("c affine3 ", caff3); |
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bench("proj3 ", proj3); |
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} |
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