gtsam/timing/timeSchurFactors.cpp

/**
 * @file    timeSchurFactors.cpp
 * @brief   Time various Schur-complement Jacobian factors
 * @author  Frank Dellaert
 * @date    Oct 27, 2013
 */

#include "DummyFactor.h"
#include <gtsam/base/timing.h>

#include <gtsam/slam/JacobianFactorQ.h>
#include "gtsam/slam/JacobianFactorQR.h"
#include <gtsam/slam/RegularImplicitSchurFactor.h>
#include <gtsam/geometry/Cal3Bundler.h>
#include <gtsam/geometry/PinholePose.h>

#include <fstream>

using namespace std;
using namespace gtsam;

#define SLOW
#define RAW
#define HESSIAN
#define NUM_ITERATIONS 1000

// Create CSV file for results
ofstream os("timeSchurFactors.csv");

/*************************************************************************************/
template<typename CAMERA>
void timeAll(size_t m, size_t N) {

  cout << m << endl;

  // create F
  static const int D = CAMERA::dimension;
  typedef Eigen::Matrix<double, 2, D> Matrix2D;
  KeyVector keys;
  vector <Matrix2D, Eigen::aligned_allocator<Matrix2D>> Fblocks;
  for (size_t i = 0; i < m; i++) {
    keys.push_back(i);
    Fblocks.push_back((i + 1) * Matrix::Ones(2, D));
  }

  // create E
  Matrix E(2 * m, 3);
  for (size_t i = 0; i < m; i++)
    E.block < 2, 3 > (2 * i, 0) = Matrix::Ones(2, 3);

  // Calculate point covariance
  Matrix P = (E.transpose() * E).inverse();

  // RHS and sigmas
  const Vector b = Vector::Constant(2*m,1);
  const SharedDiagonal model;

  // parameters for multiplyHessianAdd
  double alpha = 0.5;
  VectorValues xvalues, yvalues;
  for (size_t i = 0; i < m; i++)
    xvalues.insert(i, Vector::Constant(D,2));

  // Implicit
  RegularImplicitSchurFactor<CAMERA> implicitFactor(keys, Fblocks, E, P, b);
  // JacobianFactor with same error
  JacobianFactorQ<D, 2> jf(keys, Fblocks, E, P, b, model);
  // JacobianFactorQR with same error
  JacobianFactorQR<D, 2> jqr(keys, Fblocks, E, P, b, model);
  // Hessian
  HessianFactor hessianFactor(jqr);

#define TIME(label,factor,xx,yy) {\
     for (size_t t = 0; t < N; t++) \
     factor.multiplyHessianAdd(alpha, xx, yy);\
     gttic_(label);\
     for (size_t t = 0; t < N; t++) {\
       factor.multiplyHessianAdd(alpha, xx, yy);\
     }\
     gttoc_(label);\
     tictoc_getNode(timer, label)\
     os << timer->secs()/NUM_ITERATIONS << ", ";\
   }

#ifdef SLOW
  TIME(Implicit, implicitFactor, xvalues, yvalues)
  TIME(Jacobian, jf, xvalues, yvalues)
  TIME(JacobianQR, jqr, xvalues, yvalues)
#endif

#ifdef HESSIAN
  TIME(Hessian, hessianFactor, xvalues, yvalues)
#endif

#ifdef OVERHEAD
  DummyFactor<D> dummy(Fblocks, E, P, b);
  TIME(Overhead,dummy,xvalues,yvalues)
#endif

#ifdef RAW
  { // Raw memory Version
    FastVector < Key > keys;
    for (size_t i = 0; i < m; i++)
      keys.push_back(i);
    Vector x = xvalues.vector(keys);
    double* xdata = x.data();

    // create a y
    Vector y = Vector::Zero(m * D);
    TIME(RawImplicit, implicitFactor, xdata, y.data())
    TIME(RawJacobianQ, jf, xdata, y.data())
    TIME(RawJacobianQR, jqr, xdata, y.data())
  }
#endif

  os << m << endl;

} // timeAll

/*************************************************************************************/
int main(void) {
#ifdef SLOW
  os << "Implicit,";
  os << "JacobianQ,";
  os << "JacobianQR,";
#endif
#ifdef HESSIAN
  os << "Hessian,";
#endif
#ifdef OVERHEAD
  os << "Overhead,";
#endif
#ifdef RAW
  os << "RawImplicit,";
  os << "RawJacobianQ,";
  os << "RawJacobianQR,";
#endif
  os << "m" << endl;
  // define images
  vector < size_t > ms;
  //  ms += 2;
  //  ms += 3, 4, 5, 6, 7, 8, 9, 10;
  // ms += 11,12,13,14,15,16,17,18,19;
  //  ms += 20, 30, 40, 50;
  // ms += 20,30,40,50,60,70,80,90,100;
  for (size_t m = 2; m <= 50; m += 2)
    ms.push_back(m);
  //for (size_t m=10;m<=100;m+=10) ms += m;
  // loop over number of images
  for(size_t m: ms)
    timeAll<PinholePose<Cal3Bundler> >(m, NUM_ITERATIONS);
}

//*************************************************************************************
Moved from smartfactors_ceres 2015-02-22 21:03:13 +08:00			`/**`
			`* @file timeSchurFactors.cpp`
			`* @brief Time various Schur-complement Jacobian factors`
			`* @author Frank Dellaert`
			`* @date Oct 27, 2013`
			`*/`

			`#include "DummyFactor.h"`
			`#include <gtsam/base/timing.h>`

			`#include <gtsam/slam/JacobianFactorQ.h>`
			`#include "gtsam/slam/JacobianFactorQR.h"`
			`#include <gtsam/slam/RegularImplicitSchurFactor.h>`
Fixed compilation errors 2015-06-28 04:29:54 +08:00			`#include <gtsam/geometry/Cal3Bundler.h>`
			`#include <gtsam/geometry/PinholePose.h>`
Moved from smartfactors_ceres 2015-02-22 21:03:13 +08:00
			`#include <fstream>`

			`using namespace std;`
			`using namespace gtsam;`

			`#define SLOW`
			`#define RAW`
			`#define HESSIAN`
			`#define NUM_ITERATIONS 1000`

			`// Create CSV file for results`
			`ofstream os("timeSchurFactors.csv");`

			`/*************************************************************************************/`
Fixed compilation errors 2015-06-28 04:29:54 +08:00			`template<typename CAMERA>`
Moved from smartfactors_ceres 2015-02-22 21:03:13 +08:00			`void timeAll(size_t m, size_t N) {`

			`cout << m << endl;`

			`// create F`
Fixed compilation errors 2015-06-28 04:29:54 +08:00			`static const int D = CAMERA::dimension;`
Moved from smartfactors_ceres 2015-02-22 21:03:13 +08:00			`typedef Eigen::Matrix<double, 2, D> Matrix2D;`
Use KeyVector everywhere to avoid conversions 2018-11-08 13:58:50 +08:00			`KeyVector keys;`
Fixed 'make timing' compile errors 2018-11-09 06:17:13 +08:00			`vector <Matrix2D, Eigen::aligned_allocator<Matrix2D>> Fblocks;`
Fixed compilation errors 2015-06-28 04:29:54 +08:00			`for (size_t i = 0; i < m; i++) {`
			`keys.push_back(i);`
			`Fblocks.push_back((i + 1) * Matrix::Ones(2, D));`
			`}`
Moved from smartfactors_ceres 2015-02-22 21:03:13 +08:00
			`// create E`
			`Matrix E(2 * m, 3);`
			`for (size_t i = 0; i < m; i++)`
			`E.block < 2, 3 > (2 * i, 0) = Matrix::Ones(2, 3);`

			`// Calculate point covariance`
			`Matrix P = (E.transpose() * E).inverse();`

			`// RHS and sigmas`
Replaced repeat() with Vector::Constant to please Jenkins. 2016-03-13 09:00:42 +08:00			`const Vector b = Vector::Constant(2*m,1);`
Moved from smartfactors_ceres 2015-02-22 21:03:13 +08:00			`const SharedDiagonal model;`

			`// parameters for multiplyHessianAdd`
			`double alpha = 0.5;`
			`VectorValues xvalues, yvalues;`
			`for (size_t i = 0; i < m; i++)`
Fixed stupid mistake. 2016-03-13 09:08:14 +08:00			`xvalues.insert(i, Vector::Constant(D,2));`
Moved from smartfactors_ceres 2015-02-22 21:03:13 +08:00
			`// Implicit`
Fixed compilation errors 2015-06-28 04:29:54 +08:00			`RegularImplicitSchurFactor<CAMERA> implicitFactor(keys, Fblocks, E, P, b);`
Moved from smartfactors_ceres 2015-02-22 21:03:13 +08:00			`// JacobianFactor with same error`
Fixed compilation errors 2015-06-28 04:29:54 +08:00			`JacobianFactorQ<D, 2> jf(keys, Fblocks, E, P, b, model);`
Moved from smartfactors_ceres 2015-02-22 21:03:13 +08:00			`// JacobianFactorQR with same error`
Fixed compilation errors 2015-06-28 04:29:54 +08:00			`JacobianFactorQR<D, 2> jqr(keys, Fblocks, E, P, b, model);`
Moved from smartfactors_ceres 2015-02-22 21:03:13 +08:00			`// Hessian`
			`HessianFactor hessianFactor(jqr);`

			`#define TIME(label,factor,xx,yy) {\`
			`for (size_t t = 0; t < N; t++) \`
			`factor.multiplyHessianAdd(alpha, xx, yy);\`
			`gttic_(label);\`
			`for (size_t t = 0; t < N; t++) {\`
			`factor.multiplyHessianAdd(alpha, xx, yy);\`
			`}\`
			`gttoc_(label);\`
			`tictoc_getNode(timer, label)\`
			`os << timer->secs()/NUM_ITERATIONS << ", ";\`
			`}`

			`#ifdef SLOW`
			`TIME(Implicit, implicitFactor, xvalues, yvalues)`
			`TIME(Jacobian, jf, xvalues, yvalues)`
			`TIME(JacobianQR, jqr, xvalues, yvalues)`
			`#endif`

			`#ifdef HESSIAN`
			`TIME(Hessian, hessianFactor, xvalues, yvalues)`
			`#endif`

			`#ifdef OVERHEAD`
			`DummyFactor<D> dummy(Fblocks, E, P, b);`
			`TIME(Overhead,dummy,xvalues,yvalues)`
			`#endif`

			`#ifdef RAW`
			`{ // Raw memory Version`
			`FastVector < Key > keys;`
			`for (size_t i = 0; i < m; i++)`
Fixed some stragglers in timing 2023-01-22 12:26:06 +08:00			`keys.push_back(i);`
Moved from smartfactors_ceres 2015-02-22 21:03:13 +08:00			`Vector x = xvalues.vector(keys);`
			`double* xdata = x.data();`

			`// create a y`
Deprecated Vector zero(size_t n). All unit tests pass. 2016-04-16 04:54:46 +08:00			`Vector y = Vector::Zero(m * D);`
Moved from smartfactors_ceres 2015-02-22 21:03:13 +08:00			`TIME(RawImplicit, implicitFactor, xdata, y.data())`
			`TIME(RawJacobianQ, jf, xdata, y.data())`
			`TIME(RawJacobianQR, jqr, xdata, y.data())`
			`}`
			`#endif`

			`os << m << endl;`

			`} // timeAll`

			`/*************************************************************************************/`
			`int main(void) {`
			`#ifdef SLOW`
			`os << "Implicit,";`
			`os << "JacobianQ,";`
			`os << "JacobianQR,";`
			`#endif`
			`#ifdef HESSIAN`
			`os << "Hessian,";`
			`#endif`
			`#ifdef OVERHEAD`
			`os << "Overhead,";`
			`#endif`
			`#ifdef RAW`
			`os << "RawImplicit,";`
			`os << "RawJacobianQ,";`
			`os << "RawJacobianQR,";`
			`#endif`
			`os << "m" << endl;`
			`// define images`
			`vector < size_t > ms;`
			`// ms += 2;`
			`// ms += 3, 4, 5, 6, 7, 8, 9, 10;`
			`// ms += 11,12,13,14,15,16,17,18,19;`
			`// ms += 20, 30, 40, 50;`
			`// ms += 20,30,40,50,60,70,80,90,100;`
			`for (size_t m = 2; m <= 50; m += 2)`
Fixed some stragglers in timing 2023-01-22 12:26:06 +08:00			`ms.push_back(m);`
Moved from smartfactors_ceres 2015-02-22 21:03:13 +08:00			`//for (size_t m=10;m<=100;m+=10) ms += m;`
			`// loop over number of images`
Replaced BOOSE_FOREACH with for in timing folder. Tested the changed code locally: successful. 2016-05-21 09:22:30 +08:00			`for(size_t m: ms)`
Fixed compilation errors 2015-06-28 04:29:54 +08:00			`timeAll<PinholePose<Cal3Bundler> >(m, NUM_ITERATIONS);`
Moved from smartfactors_ceres 2015-02-22 21:03:13 +08:00			`}`

			`//*************************************************************************************`