1.4.1
CCC
 
foxleg.cpp File Reference
#include "geoslib_old_f.h"
#include "Matrix/MatrixSquareSymmetric.hpp"
#include "Basic/VectorHelper.hpp"
#include "Basic/Utilities.hpp"
#include "Basic/String.hpp"
#include "Basic/OptDbg.hpp"
#include "Core/Keypair.hpp"
#include <math.h>

Functions

static void st_gradient (VectorDouble &param, VectorDouble &lower, VectorDouble &upper, VectorDouble &scale, VectorDouble &tabwgt, MatrixRectangular &Jr, VectorDouble &param1, VectorDouble &param2, VectorDouble &tabmod1, VectorDouble &tabmod2)
 
static double st_residuals (VectorDouble &param, VectorDouble &tabexp, VectorDouble &tabwgt, VectorDouble &tabmod, VectorDouble &residuals)
 
static void st_determine_gauss (MatrixRectangular &Jr, MatrixSquareGeneral &gauss)
 
static double st_norm_hgn (VectorDouble &hgn, VectorDouble &scale)
 
static double st_essai (VectorDouble &hgnadm, VectorDouble &grad_red, MatrixSquareGeneral &gauss_red)
 
static int st_solve_hgnc (int npar, const VectorDouble &grad, const MatrixSquareGeneral &gauss, VectorDouble &hgnc, int flaginvsign)
 
static void st_fill_constraints (const MatrixRectangular &acont, VectorDouble &grad, MatrixSquareGeneral &gauss)
 
static int st_calcul0 (VectorDouble &param, VectorDouble &lower, VectorDouble &upper, VectorDouble &scale, const MatrixRectangular &acont, VectorDouble &tabwgt, VectorDouble &residuals, MatrixRectangular &Jr, VectorDouble &grad, MatrixSquareGeneral &gauss, VectorDouble &hgnc, VectorDouble &param1, VectorDouble &param2, VectorDouble &tabmod1, VectorDouble &tabmod2)
 
static int st_possibilities (int npar, MatrixRectangular &bords, VectorDouble &ai, VectorDouble &hgnc, VectorInt &flag, VectorDouble &temp)
 
static int st_define_constraints (int mode, MatrixRectangular &bords_red, VectorDouble &ai_red, VectorDouble &hgnc, MatrixRectangular &consts, VectorInt &flag, VectorDouble &temp)
 
static void st_minimum (VectorInt &, VectorInt &flag, MatrixRectangular &bords_red, const VectorDouble &top, const VectorDouble &bot, VectorDouble &hgnc, VectorDouble &hgnadm)
 
static void st_update_bords (MatrixRectangular &bords, VectorInt &ind_util, MatrixRectangular &bords_red)
 
static int st_suppress_unused_constraints (MatrixRectangular &bords, VectorDouble &ai, VectorDouble &grad, MatrixSquareGeneral &gauss, VectorDouble &hgnc, VectorInt &ind_util, MatrixRectangular &bords_red, VectorDouble &ai_red, VectorDouble &grad_red, MatrixSquareGeneral &gauss_red, VectorInt &flag1, VectorInt &flag2, VectorDouble &temp)
 
static int st_establish_minimization (int nactive, VectorInt &ind_util, VectorInt &flag_active, MatrixRectangular &bords_red, VectorDouble &ai_red, VectorDouble &grad_red, MatrixSquareGeneral &gauss_red, int *lambda_neg, VectorDouble &hgnc, MatrixSquareGeneral &a, VectorDouble &b, VectorDouble &temp)
 
static void st_check (VectorInt &ind_util, VectorDouble &hgnc, const MatrixRectangular &acont)
 
static int st_minimization_under_constraints (VectorInt &ind_util, MatrixRectangular &bords_red, VectorDouble &ai_red, VectorDouble &grad_red, MatrixSquareGeneral &gauss_red, MatrixRectangular &consts, VectorDouble &hgnc, VectorDouble &hgnadm, VectorInt &flag_active, VectorInt &flag_actaux, MatrixSquareGeneral &a, VectorDouble &b1, VectorDouble &b2, VectorDouble &b3, VectorDouble &temp, const MatrixRectangular &acont)
 
static void st_constraints_init (VectorInt &ind_util, VectorDouble &ai)
 
static void st_define_bounds (VectorDouble &param, VectorDouble &lower, VectorDouble &upper, VectorDouble &scale, double delta, MatrixRectangular &bords)
 
static void st_foxleg_debug_title (void)
 
static void st_foxleg_debug_current (double mscur, double delta, VectorDouble &param)
 
static void st_foxleg_score (const Option_AutoFit &mauto, double mscur, double delta, double arret)
 
static void st_linear_interpolate (double mscur, VectorDouble &param, const MatrixRectangular &acont, VectorDouble &tabexp, VectorDouble &tabwgt, MatrixRectangular &bords, VectorDouble &grad, double *msaux, VectorDouble &paramaux, VectorDouble &residuals, VectorDouble &tabmod1)
 
static int st_check_param (VectorDouble &param, VectorDouble &lower, VectorDouble &upper)
 
int foxleg_f (int ndat, int npar, int ncont, const MatrixRectangular &acont, VectorDouble &param, VectorDouble &lower, VectorDouble &upper, VectorDouble &scale, const Option_AutoFit &mauto, int flag_title, void(*func_evaluate)(int ndat, int npar, VectorDouble &param, VectorDouble &work), VectorDouble &tabexp, VectorDouble &tabwgt)
 

Variables

static int VERBOSE_GQO = 0
 
static int NPAR
 
static int NPAR2
 
static int NPARAC
 
static int NPARAC2
 
static int NDAT
 
static int NCONT
 
static int NPCT
 
static int NPCT2
 
static int ITERATION
 
static int SOUSITER
 
static void(* FUNC_EVALUATE )(int ndat, int npar, VectorDouble &param, VectorDouble &work)
 

Function Documentation

◆ foxleg_f()

int foxleg_f ( int  ndat,
int  npar,
int  ncont,
const MatrixRectangular acont,
VectorDouble param,
VectorDouble lower,
VectorDouble upper,
VectorDouble scale,
const Option_AutoFit mauto,
int  flag_title,
void(*)(int ndat, int npar, VectorDouble &param, VectorDouble &work)  func_evaluate,
VectorDouble tabexp,
VectorDouble tabwgt 
)

Foxleg algorithm

Returns
Error returned code
0 : Correct termination
-1 : The convergence has not been reached
1 : Core problem
Parameters
[in]ndatNumber of control points
[in]nparNumber of parameters to estimate
[in]ncontNumber of additional constraints
[in]acontMatrix of additional constraints (Dimension = ncont * npar)
[in]paramCurrent values of the parameters
[in]lowerArray of lower values
[in]upperArray of upper values
[in]scaleArray of scale
[in]mautoOption_AutoFit structure
[in]flag_titlePrint the title after func_evaluate()
[in]func_evaluateFunction for evaluating the model
[in]tabexpArray of values at control points
[in]tabwgtArray of weights at control points
Remarks
The evaluation function func_evaluate() is called with the
following arguments:
ndat : Number of control points
npar : Number of parameters
param : Vector of current values for the parameters
work : Output vector for the values at control points
evaluated using the current parameter values
Some additional constraints may be applied on the parameters
When not used, we must set: ncont=0, acont=empty()

◆ st_calcul0()

static int st_calcul0 ( VectorDouble param,
VectorDouble lower,
VectorDouble upper,
VectorDouble scale,
const MatrixRectangular acont,
VectorDouble tabwgt,
VectorDouble residuals,
MatrixRectangular Jr,
VectorDouble grad,
MatrixSquareGeneral gauss,
VectorDouble hgnc,
VectorDouble param1,
VectorDouble param2,
VectorDouble tabmod1,
VectorDouble tabmod2 
)
static

Evaluate Gradient and Hermitian matrices

Parameters
[in]paramCurrent values of the parameters
[in]lowerArray of lower values
[in]upperArray of upper values
[in]scaleArray of scaling values
[in]acontArray of constraints
[in]tabwgtArray of weights at control points
[out]residualsArray of residuals
[out]JrArray of gradients
[out]gradGradient matrix
[out]gaussGauss matrix
[out]hgncResulting hgnc array
[out]param1Working array (Dimension: NPAR)
[out]param2Working array (Dimension: NPAR)
[out]tabmod1Working array (Dimension: NDAT)
[out]tabmod2Working array (Dimension: NDAT)

◆ st_check()

static void st_check ( VectorInt ind_util,
VectorDouble hgnc,
const MatrixRectangular acont 
)
static

Check that the algorithm is valid

Parameters
[in]ind_utilList of retained constraint indices
[in]hgncWorking vector
[in]acontMatrix of additional constraints

◆ st_check_param()

static int st_check_param ( VectorDouble param,
VectorDouble lower,
VectorDouble upper 
)
static

Check if the default, lower and upper bounds of the parameters are consistent or not

Returns
Error returned code
Parameters
[in]paramCurrent values of the parameters
[in]lowerArray of lower values
[in]upperArray of upper values

◆ st_constraints_init()

static void st_constraints_init ( VectorInt ind_util,
VectorDouble ai 
)
static

Initialize the constraints

Parameters
[in]ind_utilList of retained constraint indices
[in]aiAI matrix

◆ st_define_bounds()

static void st_define_bounds ( VectorDouble param,
VectorDouble lower,
VectorDouble upper,
VectorDouble scale,
double  delta,
MatrixRectangular bords 
)
static

Evaluate the bounds and check if one constraint is on its boudn

Parameters
[in]paramCurrent values of the parameters
[in]lowerArray of lower values
[in]upperArray of upper values
[in]scaleArray of scaling values
[in]deltaRadius of the trusting area
[out]bordsValue for the bounds

◆ st_define_constraints()

static int st_define_constraints ( int  mode,
MatrixRectangular bords_red,
VectorDouble ai_red,
VectorDouble hgnc,
MatrixRectangular consts,
VectorInt flag,
VectorDouble temp 
)
static

Calculate the number of constraints

Parameters
[in]modeType of constraints
  • -1 : the constraints which are non positive
  • 0 : the constraints must be zero
  • 1 : the constraints must be zero (cumul)
[in]bords_redReduced array containing the bounds
[in]ai_redReduced AI matrix
[in]hgncResulting hgnc array
[out]constsArray of constraints
[out]flagArray of indices with zero valid constraint
[out]tempWorking array

◆ st_determine_gauss()

static void st_determine_gauss ( MatrixRectangular Jr,
MatrixSquareGeneral gauss 
)
static

Calculate the Gauss matrix

Parameters
[in]JrArray of gradients
[out]gaussGaussian matrix

◆ st_essai()

static double st_essai ( VectorDouble hgnadm,
VectorDouble grad_red,
MatrixSquareGeneral gauss_red 
)
static

Score of the Minimization under constraints

Parameters
[in]hgnadmAdmissible vector
[in]grad_redReduced Gradient matrix
[in]gauss_redReduced Gauss matrix

◆ st_establish_minimization()

static int st_establish_minimization ( int  nactive,
VectorInt ind_util,
VectorInt flag_active,
MatrixRectangular bords_red,
VectorDouble ai_red,
VectorDouble grad_red,
MatrixSquareGeneral gauss_red,
int *  lambda_neg,
VectorDouble hgnc,
MatrixSquareGeneral a,
VectorDouble b,
VectorDouble temp 
)
static

Minimization under constraints

Returns
Error returned code
Parameters
[in]nactiveNumber of active constraints
[in]ind_utilList of retained constraint indices
[in]flag_activeArray of indices with zero valid constraint
[in]bords_redReduced array containing the bounds
[in]ai_redReduced AI matrix
[in]grad_redReduced Gradient matrix
[in]gauss_redReduced Gauss matrix
[out]lambda_negIndex of the first negative lambda value
[out]hgncResulting Hgnc array
[out]aMinimization L.H.S. matrix
[out]bMinimization R.H.S. matrix
[out]tempWorking array

◆ st_fill_constraints()

static void st_fill_constraints ( const MatrixRectangular acont,
VectorDouble grad,
MatrixSquareGeneral gauss 
)
static

Add ncont linear constraints (AX=B) to the linear system (of size npar) used for quadratic optimization

Parameters
[in]acontMatrix A
[out]gradleft hand-side of the system
[out]gaussmatrix of the system

◆ st_foxleg_debug_current()

static void st_foxleg_debug_current ( double  mscur,
double  delta,
VectorDouble param 
)
static

Display the current status for FOXLEG trace

◆ st_foxleg_debug_title()

static void st_foxleg_debug_title ( void  )
static

Display the title for FOXLEG trace

◆ st_foxleg_score()

static void st_foxleg_score ( const Option_AutoFit mauto,
double  mscur,
double  delta,
double  arret 
)
static

Display the FOXLEG score

◆ st_gradient()

static void st_gradient ( VectorDouble param,
VectorDouble lower,
VectorDouble upper,
VectorDouble scale,
VectorDouble tabwgt,
MatrixRectangular Jr,
VectorDouble param1,
VectorDouble param2,
VectorDouble tabmod1,
VectorDouble tabmod2 
)
static

Calculate the gradient

Parameters
[in]paramCurrent values of the parameters
[in]lowerArray of lower values
[in]upperArray of upper values
[in]scaleArray of scaling values
[in]tabwgtArray of weights
[out]JrArray of gradients
[out]param1Working array (Dimension: NPAR)
[out]param2Working array (Dimension: NPAR)
[out]tabmod1Working array (Dimension: NDAT)
[out]tabmod2Working array (Dimension: NDAT)

◆ st_linear_interpolate()

static void st_linear_interpolate ( double  mscur,
VectorDouble param,
const MatrixRectangular acont,
VectorDouble tabexp,
VectorDouble tabwgt,
MatrixRectangular bords,
VectorDouble grad,
double *  msaux,
VectorDouble paramaux,
VectorDouble residuals,
VectorDouble tabmod1 
)
static

Interpolate linearly the vector of parameters

Parameters
[in]mscurCurrent minimization value
[in]paramCurrent values of the parameters
[in]acontArray of constraints
[in]tabexpArray of values at control points
[in]tabwgtArray of weights at control points
[in]bordsArray containing the bounds
[in]gradGradient matrix
[out]msauxNew minimization value
[out]paramauxNew vector of parameters
[out]residualsArray of residuals
[out]tabmod1Working array (Dimension: NDAT)

◆ st_minimization_under_constraints()

static int st_minimization_under_constraints ( VectorInt ind_util,
MatrixRectangular bords_red,
VectorDouble ai_red,
VectorDouble grad_red,
MatrixSquareGeneral gauss_red,
MatrixRectangular consts,
VectorDouble hgnc,
VectorDouble hgnadm,
VectorInt flag_active,
VectorInt flag_actaux,
MatrixSquareGeneral a,
VectorDouble b1,
VectorDouble b2,
VectorDouble b3,
VectorDouble temp,
const MatrixRectangular acont 
)
static

Minimization under constraints

Returns
1 if the optimum has not been reached (various reasons)
Parameters
[in]ind_utilList of retained constraint indices
[in]bords_redReduced array containing the bounds
[in]ai_redReduced AI matrix
[in]grad_redReduced Gradient matrix
[in]gauss_redReduced Gauss matrix
[out]constsArray of constraints
[out]hgncWorking vector
[out]hgnadmWorking array
[out]flag_activeArray of indices with zero valid constraint
[out]flag_actauxArray of indices with negative valid constraint
[out]aMinimization L.H.S. matrix
[out]b1Minimization R.H.S. matrix
[out]b2Minimization R.H.S. matrix
[out]b3Minimization R.H.S. matrix
[out]tempWorking array
[out]acontConstraint array

◆ st_minimum()

static void st_minimum ( VectorInt ,
VectorInt flag,
MatrixRectangular bords_red,
const VectorDouble top,
const VectorDouble bot,
VectorDouble hgnc,
VectorDouble hgnadm 
)
static

Calculate the minimum of the criterion and update hgnadm

Parameters
[in]flagArray of indices with negative valid constraint
[in]bords_redReduced array containing the bounds
[in]topCalculated top of the fraction
[in]botCalculated bottom of the fraction
[in]hgncHgnc array
[out]hgnadmAdmissible Hgn array

◆ st_norm_hgn()

static double st_norm_hgn ( VectorDouble hgn,
VectorDouble scale 
)
static

Calculate the Norm of the HGN vector

Returns
The norm value
Parameters
[in]hgnWorking vector
[in]scaleScaling values

◆ st_possibilities()

static int st_possibilities ( int  npar,
MatrixRectangular bords,
VectorDouble ai,
VectorDouble hgnc,
VectorInt flag,
VectorDouble temp 
)
static

Calculate the number of new inactive constraints

Returns
Number of highlited constraints
Parameters
[in]nparCurrent number of parameters
[in]bordsArray containing the bounds
[in]aiAI matrix
[in]hgncResulting hgnc array
[out]flagWorking array
[out]tempWorking array

◆ st_residuals()

static double st_residuals ( VectorDouble param,
VectorDouble tabexp,
VectorDouble tabwgt,
VectorDouble tabmod,
VectorDouble residuals 
)
static

Calculate the residuals between the model and the experimental

Returns
The weighted mean squared error
Parameters
[in]paramCurrent values of the parameters
[in]tabexpArray of values at control points
[in]tabwgtArray of weights at control points
[out]tabmodWorking array (Dimension: NDAT)
[out]residualsArray of residuals

◆ st_solve_hgnc()

static int st_solve_hgnc ( int  npar,
const VectorDouble grad,
const MatrixSquareGeneral gauss,
VectorDouble hgnc,
int  flaginvsign 
)
static

Solve the direct minimization problem

Returns
Error return code
Parameters
[in]nparCurrent number of parameters
[in]gradGradient matrix
[in]gaussGauss matrix
[in]hgncResulting hgnc array
[in]flaginvsignif 1, the result is multiplied by -1

◆ st_suppress_unused_constraints()

static int st_suppress_unused_constraints ( MatrixRectangular bords,
VectorDouble ai,
VectorDouble grad,
MatrixSquareGeneral gauss,
VectorDouble hgnc,
VectorInt ind_util,
MatrixRectangular bords_red,
VectorDouble ai_red,
VectorDouble grad_red,
MatrixSquareGeneral gauss_red,
VectorInt flag1,
VectorInt flag2,
VectorDouble temp 
)
static

Eliminate the useless constraints

Returns
1 if the number of possibilities is reduced down to zero
or when the Generalized Inverse calculation failed
Parameters
[in]bordsArray containing the bounds
[in]aiAI matrix
[in]gradGradient matrix
[in]gaussGaussian matrix
[in]hgnchgnc array
[out]ind_utilList of retained constraint indices
[out]bords_redReduced Bounds array
[out]ai_redReduced AI matrix
[out]grad_redReduced Gradient matrix
[out]gauss_redReduced Gauss matrix
[out]flag1Working array
[out]flag2Working array
[out]tempWorking array

◆ st_update_bords()

static void st_update_bords ( MatrixRectangular bords,
VectorInt ind_util,
MatrixRectangular bords_red 
)
static

Update the constraints when no move has been performed

Parameters
[in]bordsArray containing the bounds
[in]ind_utilList of retained constraint indices
[out]bords_redReduced Bounds array

Variable Documentation

◆ FUNC_EVALUATE

void(* FUNC_EVALUATE) (int ndat, int npar, VectorDouble &param, VectorDouble &work) ( int  ndat,
int  npar,
VectorDouble param,
VectorDouble work 
)
static

◆ ITERATION

int ITERATION
static

◆ NCONT

int NCONT
static

◆ NDAT

int NDAT
static

◆ NPAR

int NPAR
static

◆ NPAR2

int NPAR2
static

◆ NPARAC

int NPARAC
static

◆ NPARAC2

int NPARAC2
static

◆ NPCT

int NPCT
static

◆ NPCT2

int NPCT2
static

◆ SOUSITER

int SOUSITER
static

◆ VERBOSE_GQO

int VERBOSE_GQO = 0
static