blob: 35eee88c72a2e15dea0600e363faff3de2dd08df [file] [log] [blame]
#include <iostream>
#include <Eigen/Geometry>
#include <bench/BenchTimer.h>
using namespace std;
using namespace Eigen;
#ifndef SCALAR
#define SCALAR float
#endif
#ifndef SIZE
#define SIZE 8
#endif
typedef SCALAR Scalar;
typedef NumTraits<Scalar>::Real RealScalar;
typedef Matrix<RealScalar, Dynamic, Dynamic> A;
typedef Matrix</*Real*/ Scalar, Dynamic, Dynamic> B;
typedef Matrix<Scalar, Dynamic, Dynamic> C;
typedef Matrix<RealScalar, Dynamic, Dynamic> M;
template <typename Transformation, typename Data>
EIGEN_DONT_INLINE void transform(const Transformation& t, Data& data) {
EIGEN_ASM_COMMENT("begin");
data = t * data;
EIGEN_ASM_COMMENT("end");
}
template <typename Scalar, typename Data>
EIGEN_DONT_INLINE void transform(const Quaternion<Scalar>& t, Data& data) {
EIGEN_ASM_COMMENT("begin quat");
for (int i = 0; i < data.cols(); ++i) data.col(i) = t * data.col(i);
EIGEN_ASM_COMMENT("end quat");
}
template <typename T>
struct ToRotationMatrixWrapper {
enum { Dim = T::Dim };
typedef typename T::Scalar Scalar;
ToRotationMatrixWrapper(const T& o) : object(o) {}
T object;
};
template <typename QType, typename Data>
EIGEN_DONT_INLINE void transform(const ToRotationMatrixWrapper<QType>& t, Data& data) {
EIGEN_ASM_COMMENT("begin quat via mat");
data = t.object.toRotationMatrix() * data;
EIGEN_ASM_COMMENT("end quat via mat");
}
template <typename Scalar, int Dim, typename Data>
EIGEN_DONT_INLINE void transform(const Transform<Scalar, Dim, Projective>& t, Data& data) {
data = (t * data.colwise().homogeneous()).template block<Dim, Data::ColsAtCompileTime>(0, 0);
}
template <typename T>
struct get_dim {
enum { Dim = T::Dim };
};
template <typename S, int R, int C, int O, int MR, int MC>
struct get_dim<Matrix<S, R, C, O, MR, MC> > {
enum { Dim = R };
};
template <typename Transformation, int N>
struct bench_impl {
static EIGEN_DONT_INLINE void run(const Transformation& t) {
Matrix<typename Transformation::Scalar, get_dim<Transformation>::Dim, N> data;
data.setRandom();
bench_impl<Transformation, N - 1>::run(t);
BenchTimer timer;
BENCH(timer, 10, 100000, transform(t, data));
cout.width(9);
cout << timer.best() << " ";
}
};
template <typename Transformation>
struct bench_impl<Transformation, 0> {
static EIGEN_DONT_INLINE void run(const Transformation&) {}
};
template <typename Transformation>
EIGEN_DONT_INLINE void bench(const std::string& msg, const Transformation& t) {
cout << msg << " ";
bench_impl<Transformation, SIZE>::run(t);
std::cout << "\n";
}
int main(int argc, char** argv) {
Matrix<Scalar, 3, 4> mat34;
mat34.setRandom();
Transform<Scalar, 3, Isometry> iso3(mat34);
Transform<Scalar, 3, Affine> aff3(mat34);
Transform<Scalar, 3, AffineCompact> caff3(mat34);
Transform<Scalar, 3, Projective> proj3(mat34);
Quaternion<Scalar> quat;
quat.setIdentity();
ToRotationMatrixWrapper<Quaternion<Scalar> > quatmat(quat);
Matrix<Scalar, 3, 3> mat33;
mat33.setRandom();
cout.precision(4);
std::cout << "N ";
for (int i = 0; i < SIZE; ++i) {
cout.width(9);
cout << i + 1 << " ";
}
cout << "\n";
bench("matrix 3x3", mat33);
bench("quaternion", quat);
bench("quat-mat ", quatmat);
bench("isometry3 ", iso3);
bench("affine3 ", aff3);
bench("c affine3 ", caff3);
bench("proj3 ", proj3);
}