OpenMS
EmgGradientDescent.h
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1 // Copyright (c) 2002-present, OpenMS Inc. -- EKU Tuebingen, ETH Zurich, and FU Berlin
2 // SPDX-License-Identifier: BSD-3-Clause
3 //
4 // --------------------------------------------------------------------------
5 // $Maintainer: Douglas McCloskey, Pasquale Domenico Colaianni $
6 // $Authors: Douglas McCloskey, Pasquale Domenico Colaianni $
7 // --------------------------------------------------------------------------
8 
9 #pragma once
10 
11 #include <OpenMS/config.h> // OPENMS_DLLAPI
15 
16 namespace OpenMS
17 {
38  class OPENMS_DLLAPI EmgGradientDescent :
39  public DefaultParamHandler
40  {
41 public:
45  ~EmgGradientDescent() override = default;
46 
47  void getDefaultParameters(Param& params);
48 
51 
85  template <typename PeakContainerT>
87  const PeakContainerT& input_peak,
88  PeakContainerT& output_peak,
89  const double left_pos = 0.0,
90  const double right_pos = 0.0
91  ) const;
92 
106  const std::vector<double>& xs,
107  const std::vector<double>& ys,
108  double& best_h,
109  double& best_mu,
110  double& best_sigma,
111  double& best_tau
112  ) const;
113 
129  const std::vector<double>& xs,
130  const double h,
131  const double mu,
132  const double sigma,
133  const double tau,
134  std::vector<double>& out_xs,
135  std::vector<double>& out_ys
136  ) const;
137 
138 protected:
139  void updateMembers_() override;
140 
164  const std::vector<double>& xs,
165  const std::vector<double>& ys,
166  std::vector<double>& TrX,
167  std::vector<double>& TrY
168  ) const;
169 
182  double computeMuMaxDistance(const std::vector<double>& xs) const;
183 
198  const std::vector<double>& xs,
199  const std::vector<double>& ys
200  ) const;
201 
202 private:
221  const double prev_diff_E_param,
222  double& diff_E_param,
223  double& param_lr,
224  double& param_update,
225  double& param,
226  const double current_E,
227  const double previous_E
228  ) const;
229 
246  const std::vector<double>& xs,
247  const std::vector<double>& ys,
248  const double h,
249  const double mu,
250  const double sigma,
251  const double tau
252  ) const;
253 
269  double E_wrt_h(
270  const std::vector<double>& xs,
271  const std::vector<double>& ys,
272  const double h,
273  const double mu,
274  const double sigma,
275  const double tau
276  ) const;
277 
293  double E_wrt_mu(
294  const std::vector<double>& xs,
295  const std::vector<double>& ys,
296  const double h,
297  const double mu,
298  const double sigma,
299  const double tau
300  ) const;
301 
317  double E_wrt_sigma(
318  const std::vector<double>& xs,
319  const std::vector<double>& ys,
320  const double h,
321  const double mu,
322  const double sigma,
323  const double tau
324  ) const;
325 
341  double E_wrt_tau(
342  const std::vector<double>& xs,
343  const std::vector<double>& ys,
344  const double h,
345  const double mu,
346  const double sigma,
347  const double tau
348  ) const;
349 
370  double compute_z(
371  const double x,
372  const double mu,
373  const double sigma,
374  const double tau
375  ) const;
376 
388  double emg_point(
389  const double x,
390  const double h,
391  const double mu,
392  const double sigma,
393  const double tau
394  ) const;
395 
397  const double PI = OpenMS::Constants::PI;
398 
405 
408 
414  };
415 
417  {
418 public:
421 
423  const std::vector<double>& xs,
424  const std::vector<double>& ys,
425  const double h,
426  const double mu,
427  const double sigma,
428  const double tau
429  ) const
430  {
431  return emg_gd_.Loss_function(xs, ys, h, mu, sigma, tau);
432  }
433 
434  double computeMuMaxDistance(const std::vector<double>& xs) const
435  {
436  return emg_gd_.computeMuMaxDistance(xs);
437  }
438 
440  const std::vector<double>& xs,
441  const std::vector<double>& ys,
442  std::vector<double>& TrX,
443  std::vector<double>& TrY
444  ) const
445  {
446  emg_gd_.extractTrainingSet(xs, ys, TrX, TrY);
447  }
448 
450  const std::vector<double>& xs,
451  const std::vector<double>& ys
452  ) const
453  {
454  return emg_gd_.computeInitialMean(xs, ys);
455  }
456 
458  const double prev_diff_E_param,
459  double& diff_E_param,
460  double& param_lr,
461  double& param_update,
462  double& param,
463  const double current_E,
464  const double previous_E
465  ) const
466  {
468  prev_diff_E_param, diff_E_param, param_lr,
469  param_update, param, current_E, previous_E
470  );
471  }
472 
473  double compute_z(
474  const double x,
475  const double mu,
476  const double sigma,
477  const double tau
478  ) const
479  {
480  return emg_gd_.compute_z(x, mu, sigma, tau);
481  }
482 
484  const std::vector<double>& xs,
485  const double h,
486  const double mu,
487  const double sigma,
488  const double tau,
489  std::vector<double>& out_xs,
490  std::vector<double>& out_ys
491  ) const
492  {
493  emg_gd_.applyEstimatedParameters(xs, h, mu, sigma, tau, out_xs, out_ys);
494  }
495 
496  double emg_point(
497  const double x,
498  const double h,
499  const double mu,
500  const double sigma,
501  const double tau
502  ) const
503  {
504  return emg_gd_.emg_point(x, h, mu, sigma, tau);
505  }
506 
508  };
509 }
A base class for all classes handling default parameters.
Definition: DefaultParamHandler.h:66
Definition: EmgGradientDescent.h:417
double computeInitialMean(const std::vector< double > &xs, const std::vector< double > &ys) const
Definition: EmgGradientDescent.h:449
void iRpropPlus(const double prev_diff_E_param, double &diff_E_param, double &param_lr, double &param_update, double &param, const double current_E, const double previous_E) const
Definition: EmgGradientDescent.h:457
double Loss_function(const std::vector< double > &xs, const std::vector< double > &ys, const double h, const double mu, const double sigma, const double tau) const
Definition: EmgGradientDescent.h:422
double emg_point(const double x, const double h, const double mu, const double sigma, const double tau) const
Definition: EmgGradientDescent.h:496
void extractTrainingSet(const std::vector< double > &xs, const std::vector< double > &ys, std::vector< double > &TrX, std::vector< double > &TrY) const
Definition: EmgGradientDescent.h:439
double computeMuMaxDistance(const std::vector< double > &xs) const
Definition: EmgGradientDescent.h:434
void applyEstimatedParameters(const std::vector< double > &xs, const double h, const double mu, const double sigma, const double tau, std::vector< double > &out_xs, std::vector< double > &out_ys) const
Definition: EmgGradientDescent.h:483
double compute_z(const double x, const double mu, const double sigma, const double tau) const
Definition: EmgGradientDescent.h:473
EmgGradientDescent emg_gd_
Definition: EmgGradientDescent.h:507
Compute the area, background and shape metrics of a peak.
Definition: EmgGradientDescent.h:40
double E_wrt_mu(const std::vector< double > &xs, const std::vector< double > &ys, const double h, const double mu, const double sigma, const double tau) const
Compute the cost given by the partial derivative of the loss function E, with respect to mu (the mean...
UInt print_debug_
Definition: EmgGradientDescent.h:404
double computeInitialMean(const std::vector< double > &xs, const std::vector< double > &ys) const
Compute an estimation of the mean of a peak.
void iRpropPlus(const double prev_diff_E_param, double &diff_E_param, double &param_lr, double &param_update, double &param, const double current_E, const double previous_E) const
Apply the iRprop+ algorithm for gradient descent.
double Loss_function(const std::vector< double > &xs, const std::vector< double > &ys, const double h, const double mu, const double sigma, const double tau) const
Compute the cost given by loss function E.
void fitEMGPeakModel(const PeakContainerT &input_peak, PeakContainerT &output_peak, const double left_pos=0.0, const double right_pos=0.0) const
Fit the given peak (either MSChromatogram or MSSpectrum) to the EMG peak model.
double E_wrt_tau(const std::vector< double > &xs, const std::vector< double > &ys, const double h, const double mu, const double sigma, const double tau) const
Compute the cost given by the partial derivative of the loss function E, with respect to tau (the exp...
double emg_point(const double x, const double h, const double mu, const double sigma, const double tau) const
Compute the EMG function on a single point.
void extractTrainingSet(const std::vector< double > &xs, const std::vector< double > &ys, std::vector< double > &TrX, std::vector< double > &TrY) const
Given a peak, extract a training set to be used with the gradient descent algorithm.
UInt max_gd_iter_
Maximum number of gradient descent iterations in fitEMGPeakModel()
Definition: EmgGradientDescent.h:407
double E_wrt_h(const std::vector< double > &xs, const std::vector< double > &ys, const double h, const double mu, const double sigma, const double tau) const
Compute the cost given by the partial derivative of the loss function E, with respect to h (the ampli...
EmgGradientDescent()
Constructor.
bool compute_additional_points_
Definition: EmgGradientDescent.h:413
void updateMembers_() override
This method is used to update extra member variables at the end of the setParameters() method.
void getDefaultParameters(Param &params)
double computeMuMaxDistance(const std::vector< double > &xs) const
Compute the boundary for the mean (mu) parameter in gradient descent.
void applyEstimatedParameters(const std::vector< double > &xs, const double h, const double mu, const double sigma, const double tau, std::vector< double > &out_xs, std::vector< double > &out_ys) const
Compute the EMG function on a set of points.
~EmgGradientDescent() override=default
Destructor.
double compute_z(const double x, const double mu, const double sigma, const double tau) const
Compute EMG's z parameter.
double E_wrt_sigma(const std::vector< double > &xs, const std::vector< double > &ys, const double h, const double mu, const double sigma, const double tau) const
Compute the cost given by the partial derivative of the loss function E, with respect to sigma (the s...
UInt estimateEmgParameters(const std::vector< double > &xs, const std::vector< double > &ys, double &best_h, double &best_mu, double &best_sigma, double &best_tau) const
The implementation of the gradient descent algorithm for the EMG peak model.
Management and storage of parameters / INI files.
Definition: Param.h:44
unsigned int UInt
Unsigned integer type.
Definition: Types.h:64
const double PI
PI.
Definition: Constants.h:49
const double h
Definition: Constants.h:141
Main OpenMS namespace.
Definition: openswathalgo/include/OpenMS/OPENSWATHALGO/DATAACCESS/ISpectrumAccess.h:19