bench/benchGeometry.cpp - mirror - Git at Google

 #include <iostream>
 #include <iomanip>
 #include <Eigen/Core>
 #include <Eigen/Geometry>
 #include <bench/BenchTimer.h>

 using namespace Eigen;
 using namespace std;

 #ifndef REPEAT
 #define REPEAT 1000000
 #endif

 enum func_opt {
   TV,
   TMATV,
   TMATVMAT,
 };

 template <class res, class arg1, class arg2, int opt>
 struct func;

 template <class res, class arg1, class arg2>
 struct func<res, arg1, arg2, TV> {
   static EIGEN_DONT_INLINE res run(arg1& a1, arg2& a2) {
     asm("");
     return a1 * a2;
   }
 };

 template <class res, class arg1, class arg2>
 struct func<res, arg1, arg2, TMATV> {
   static EIGEN_DONT_INLINE res run(arg1& a1, arg2& a2) {
     asm("");
     return a1.matrix() * a2;
   }
 };

 template <class res, class arg1, class arg2>
 struct func<res, arg1, arg2, TMATVMAT> {
   static EIGEN_DONT_INLINE res run(arg1& a1, arg2& a2) {
     asm("");
     return res(a1.matrix() * a2.matrix());
   }
 };

 template <class func, class arg1, class arg2>
 struct test_transform {
   static void run() {
     arg1 a1;
     a1.setIdentity();
     arg2 a2;
     a2.setIdentity();

     BenchTimer timer;
     timer.reset();
     for (int k = 0; k < 10; ++k) {
       timer.start();
       for (int k = 0; k < REPEAT; ++k) a2 = func::run(a1, a2);
       timer.stop();
     }
     cout << setprecision(4) << fixed << timer.value() << "s  " << endl;
     ;
   }
 };

 #define run_vec(op, scalar, mode, option, vsize)                                   \
   std::cout << #scalar << "\t " << #mode << "\t " << #option << " " << #vsize " "; \
   {                                                                                \
     typedef Transform<scalar, 3, mode, option> Trans;                              \
     typedef Matrix<scalar, vsize, 1, option> Vec;                                  \
     typedef func<Vec, Trans, Vec, op> Func;                                        \
     test_transform<Func, Trans, Vec>::run();                                       \
   }

 #define run_trans(op, scalar, mode, option)                            \
   std::cout << #scalar << "\t " << #mode << "\t " << #option << "   "; \
   {                                                                    \
     typedef Transform<scalar, 3, mode, option> Trans;                  \
     typedef func<Trans, Trans, Trans, op> Func;                        \
     test_transform<Func, Trans, Trans>::run();                         \
   }

 int main(int argc, char* argv[]) {
   cout << "vec = trans * vec" << endl;
   run_vec(TV, float, Isometry, AutoAlign, 3);
   run_vec(TV, float, Isometry, DontAlign, 3);
   run_vec(TV, float, Isometry, AutoAlign, 4);
   run_vec(TV, float, Isometry, DontAlign, 4);
   run_vec(TV, float, Projective, AutoAlign, 4);
   run_vec(TV, float, Projective, DontAlign, 4);
   run_vec(TV, double, Isometry, AutoAlign, 3);
   run_vec(TV, double, Isometry, DontAlign, 3);
   run_vec(TV, double, Isometry, AutoAlign, 4);
   run_vec(TV, double, Isometry, DontAlign, 4);
   run_vec(TV, double, Projective, AutoAlign, 4);
   run_vec(TV, double, Projective, DontAlign, 4);

   cout << "vec = trans.matrix() * vec" << endl;
   run_vec(TMATV, float, Isometry, AutoAlign, 4);
   run_vec(TMATV, float, Isometry, DontAlign, 4);
   run_vec(TMATV, double, Isometry, AutoAlign, 4);
   run_vec(TMATV, double, Isometry, DontAlign, 4);

   cout << "trans = trans1 * trans" << endl;
   run_trans(TV, float, Isometry, AutoAlign);
   run_trans(TV, float, Isometry, DontAlign);
   run_trans(TV, double, Isometry, AutoAlign);
   run_trans(TV, double, Isometry, DontAlign);
   run_trans(TV, float, Projective, AutoAlign);
   run_trans(TV, float, Projective, DontAlign);
   run_trans(TV, double, Projective, AutoAlign);
   run_trans(TV, double, Projective, DontAlign);

   cout << "trans = trans1.matrix() * trans.matrix()" << endl;
   run_trans(TMATVMAT, float, Isometry, AutoAlign);
   run_trans(TMATVMAT, float, Isometry, DontAlign);
   run_trans(TMATVMAT, double, Isometry, AutoAlign);
   run_trans(TMATVMAT, double, Isometry, DontAlign);
 }
	#include <iostream>
	#include <iomanip>
	#include <Eigen/Core>
	#include <Eigen/Geometry>
	#include <bench/BenchTimer.h>

	using namespace Eigen;
	using namespace std;

	#ifndef REPEAT
	#define REPEAT 1000000
	#endif

	enum func_opt {
	TV,
	TMATV,
	TMATVMAT,
	};

	template <class res, class arg1, class arg2, int opt>
	struct func;

	template <class res, class arg1, class arg2>
	struct func<res, arg1, arg2, TV> {
	static EIGEN_DONT_INLINE res run(arg1& a1, arg2& a2) {
	asm("");
	return a1 * a2;
	}
	};

	template <class res, class arg1, class arg2>
	struct func<res, arg1, arg2, TMATV> {
	static EIGEN_DONT_INLINE res run(arg1& a1, arg2& a2) {
	asm("");
	return a1.matrix() * a2;
	}
	};

	template <class res, class arg1, class arg2>
	struct func<res, arg1, arg2, TMATVMAT> {
	static EIGEN_DONT_INLINE res run(arg1& a1, arg2& a2) {
	asm("");
	return res(a1.matrix() * a2.matrix());
	}
	};

	template <class func, class arg1, class arg2>
	struct test_transform {
	static void run() {
	arg1 a1;
	a1.setIdentity();
	arg2 a2;
	a2.setIdentity();

	BenchTimer timer;
	timer.reset();
	for (int k = 0; k < 10; ++k) {
	timer.start();
	for (int k = 0; k < REPEAT; ++k) a2 = func::run(a1, a2);
	timer.stop();
	}
	cout << setprecision(4) << fixed << timer.value() << "s " << endl;
	;
	}
	};

	#define run_vec(op, scalar, mode, option, vsize) \
	std::cout << #scalar << "\t " << #mode << "\t " << #option << " " << #vsize " "; \
	{ \
	typedef Transform<scalar, 3, mode, option> Trans; \
	typedef Matrix<scalar, vsize, 1, option> Vec; \
	typedef func<Vec, Trans, Vec, op> Func; \
	test_transform<Func, Trans, Vec>::run(); \
	}

	#define run_trans(op, scalar, mode, option) \
	std::cout << #scalar << "\t " << #mode << "\t " << #option << " "; \
	{ \
	typedef Transform<scalar, 3, mode, option> Trans; \
	typedef func<Trans, Trans, Trans, op> Func; \
	test_transform<Func, Trans, Trans>::run(); \
	}

	int main(int argc, char* argv[]) {
	cout << "vec = trans * vec" << endl;
	run_vec(TV, float, Isometry, AutoAlign, 3);
	run_vec(TV, float, Isometry, DontAlign, 3);
	run_vec(TV, float, Isometry, AutoAlign, 4);
	run_vec(TV, float, Isometry, DontAlign, 4);
	run_vec(TV, float, Projective, AutoAlign, 4);
	run_vec(TV, float, Projective, DontAlign, 4);
	run_vec(TV, double, Isometry, AutoAlign, 3);
	run_vec(TV, double, Isometry, DontAlign, 3);
	run_vec(TV, double, Isometry, AutoAlign, 4);
	run_vec(TV, double, Isometry, DontAlign, 4);
	run_vec(TV, double, Projective, AutoAlign, 4);
	run_vec(TV, double, Projective, DontAlign, 4);

	cout << "vec = trans.matrix() * vec" << endl;
	run_vec(TMATV, float, Isometry, AutoAlign, 4);
	run_vec(TMATV, float, Isometry, DontAlign, 4);
	run_vec(TMATV, double, Isometry, AutoAlign, 4);
	run_vec(TMATV, double, Isometry, DontAlign, 4);

	cout << "trans = trans1 * trans" << endl;
	run_trans(TV, float, Isometry, AutoAlign);
	run_trans(TV, float, Isometry, DontAlign);
	run_trans(TV, double, Isometry, AutoAlign);
	run_trans(TV, double, Isometry, DontAlign);
	run_trans(TV, float, Projective, AutoAlign);
	run_trans(TV, float, Projective, DontAlign);
	run_trans(TV, double, Projective, AutoAlign);
	run_trans(TV, double, Projective, DontAlign);

	cout << "trans = trans1.matrix() * trans.matrix()" << endl;
	run_trans(TMATVMAT, float, Isometry, AutoAlign);
	run_trans(TMATVMAT, float, Isometry, DontAlign);
	run_trans(TMATVMAT, double, Isometry, AutoAlign);
	run_trans(TMATVMAT, double, Isometry, DontAlign);
	}