test_pie/external/alglib-3.16.0/diffequations.h

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/*************************************************************************
ALGLIB 3.16.0 (source code generated 2019-12-19)
Copyright (c) Sergey Bochkanov (ALGLIB project).
>>> SOURCE LICENSE >>>
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation (www.fsf.org); either version 2 of the
License, or (at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
A copy of the GNU General Public License is available at
http://www.fsf.org/licensing/licenses
>>> END OF LICENSE >>>
*************************************************************************/
#ifndef _diffequations_pkg_h
#define _diffequations_pkg_h
#include "ap.h"
#include "alglibinternal.h"
/////////////////////////////////////////////////////////////////////////
//
// THIS SECTION CONTAINS COMPUTATIONAL CORE DECLARATIONS (DATATYPES)
//
/////////////////////////////////////////////////////////////////////////
namespace alglib_impl
{
#if defined(AE_COMPILE_ODESOLVER) || !defined(AE_PARTIAL_BUILD)
typedef struct
{
ae_int_t n;
ae_int_t m;
double xscale;
double h;
double eps;
ae_bool fraceps;
ae_vector yc;
ae_vector escale;
ae_vector xg;
ae_int_t solvertype;
ae_bool needdy;
double x;
ae_vector y;
ae_vector dy;
ae_matrix ytbl;
ae_int_t repterminationtype;
ae_int_t repnfev;
ae_vector yn;
ae_vector yns;
ae_vector rka;
ae_vector rkc;
ae_vector rkcs;
ae_matrix rkb;
ae_matrix rkk;
rcommstate rstate;
} odesolverstate;
typedef struct
{
ae_int_t nfev;
ae_int_t terminationtype;
} odesolverreport;
#endif
}
/////////////////////////////////////////////////////////////////////////
//
// THIS SECTION CONTAINS C++ INTERFACE
//
/////////////////////////////////////////////////////////////////////////
namespace alglib
{
#if defined(AE_COMPILE_ODESOLVER) || !defined(AE_PARTIAL_BUILD)
/*************************************************************************
*************************************************************************/
class _odesolverstate_owner
{
public:
_odesolverstate_owner();
_odesolverstate_owner(const _odesolverstate_owner &rhs);
_odesolverstate_owner& operator=(const _odesolverstate_owner &rhs);
virtual ~_odesolverstate_owner();
alglib_impl::odesolverstate* c_ptr();
alglib_impl::odesolverstate* c_ptr() const;
protected:
alglib_impl::odesolverstate *p_struct;
};
class odesolverstate : public _odesolverstate_owner
{
public:
odesolverstate();
odesolverstate(const odesolverstate &rhs);
odesolverstate& operator=(const odesolverstate &rhs);
virtual ~odesolverstate();
ae_bool &needdy;
real_1d_array y;
real_1d_array dy;
double &x;
};
/*************************************************************************
*************************************************************************/
class _odesolverreport_owner
{
public:
_odesolverreport_owner();
_odesolverreport_owner(const _odesolverreport_owner &rhs);
_odesolverreport_owner& operator=(const _odesolverreport_owner &rhs);
virtual ~_odesolverreport_owner();
alglib_impl::odesolverreport* c_ptr();
alglib_impl::odesolverreport* c_ptr() const;
protected:
alglib_impl::odesolverreport *p_struct;
};
class odesolverreport : public _odesolverreport_owner
{
public:
odesolverreport();
odesolverreport(const odesolverreport &rhs);
odesolverreport& operator=(const odesolverreport &rhs);
virtual ~odesolverreport();
ae_int_t &nfev;
ae_int_t &terminationtype;
};
#endif
#if defined(AE_COMPILE_ODESOLVER) || !defined(AE_PARTIAL_BUILD)
/*************************************************************************
Cash-Karp adaptive ODE solver.
This subroutine solves ODE Y'=f(Y,x) with initial conditions Y(xs)=Ys
(here Y may be single variable or vector of N variables).
INPUT PARAMETERS:
Y - initial conditions, array[0..N-1].
contains values of Y[] at X[0]
N - system size
X - points at which Y should be tabulated, array[0..M-1]
integrations starts at X[0], ends at X[M-1], intermediate
values at X[i] are returned too.
SHOULD BE ORDERED BY ASCENDING OR BY DESCENDING!
M - number of intermediate points + first point + last point:
* M>2 means that you need both Y(X[M-1]) and M-2 values at
intermediate points
* M=2 means that you want just to integrate from X[0] to
X[1] and don't interested in intermediate values.
* M=1 means that you don't want to integrate :)
it is degenerate case, but it will be handled correctly.
* M<1 means error
Eps - tolerance (absolute/relative error on each step will be
less than Eps). When passing:
* Eps>0, it means desired ABSOLUTE error
* Eps<0, it means desired RELATIVE error. Relative errors
are calculated with respect to maximum values of Y seen
so far. Be careful to use this criterion when starting
from Y[] that are close to zero.
H - initial step lenth, it will be adjusted automatically
after the first step. If H=0, step will be selected
automatically (usualy it will be equal to 0.001 of
min(x[i]-x[j])).
OUTPUT PARAMETERS
State - structure which stores algorithm state between subsequent
calls of OdeSolverIteration. Used for reverse communication.
This structure should be passed to the OdeSolverIteration
subroutine.
SEE ALSO
AutoGKSmoothW, AutoGKSingular, AutoGKIteration, AutoGKResults.
-- ALGLIB --
Copyright 01.09.2009 by Bochkanov Sergey
*************************************************************************/
void odesolverrkck(const real_1d_array &y, const ae_int_t n, const real_1d_array &x, const ae_int_t m, const double eps, const double h, odesolverstate &state, const xparams _xparams = alglib::xdefault);
void odesolverrkck(const real_1d_array &y, const real_1d_array &x, const double eps, const double h, odesolverstate &state, const xparams _xparams = alglib::xdefault);
/*************************************************************************
This function provides reverse communication interface
Reverse communication interface is not documented or recommended to use.
See below for functions which provide better documented API
*************************************************************************/
bool odesolveriteration(const odesolverstate &state, const xparams _xparams = alglib::xdefault);
/*************************************************************************
This function is used to launcn iterations of ODE solver
It accepts following parameters:
diff - callback which calculates dy/dx for given y and x
ptr - optional pointer which is passed to diff; can be NULL
-- ALGLIB --
Copyright 01.09.2009 by Bochkanov Sergey
*************************************************************************/
void odesolversolve(odesolverstate &state,
void (*diff)(const real_1d_array &y, double x, real_1d_array &dy, void *ptr),
void *ptr = NULL, const xparams _xparams = alglib::xdefault);
/*************************************************************************
ODE solver results
Called after OdeSolverIteration returned False.
INPUT PARAMETERS:
State - algorithm state (used by OdeSolverIteration).
OUTPUT PARAMETERS:
M - number of tabulated values, M>=1
XTbl - array[0..M-1], values of X
YTbl - array[0..M-1,0..N-1], values of Y in X[i]
Rep - solver report:
* Rep.TerminationType completetion code:
* -2 X is not ordered by ascending/descending or
there are non-distinct X[], i.e. X[i]=X[i+1]
* -1 incorrect parameters were specified
* 1 task has been solved
* Rep.NFEV contains number of function calculations
-- ALGLIB --
Copyright 01.09.2009 by Bochkanov Sergey
*************************************************************************/
void odesolverresults(const odesolverstate &state, ae_int_t &m, real_1d_array &xtbl, real_2d_array &ytbl, odesolverreport &rep, const xparams _xparams = alglib::xdefault);
#endif
}
/////////////////////////////////////////////////////////////////////////
//
// THIS SECTION CONTAINS COMPUTATIONAL CORE DECLARATIONS (FUNCTIONS)
//
/////////////////////////////////////////////////////////////////////////
namespace alglib_impl
{
#if defined(AE_COMPILE_ODESOLVER) || !defined(AE_PARTIAL_BUILD)
void odesolverrkck(/* Real */ ae_vector* y,
ae_int_t n,
/* Real */ ae_vector* x,
ae_int_t m,
double eps,
double h,
odesolverstate* state,
ae_state *_state);
ae_bool odesolveriteration(odesolverstate* state, ae_state *_state);
void odesolverresults(odesolverstate* state,
ae_int_t* m,
/* Real */ ae_vector* xtbl,
/* Real */ ae_matrix* ytbl,
odesolverreport* rep,
ae_state *_state);
void _odesolverstate_init(void* _p, ae_state *_state, ae_bool make_automatic);
void _odesolverstate_init_copy(void* _dst, void* _src, ae_state *_state, ae_bool make_automatic);
void _odesolverstate_clear(void* _p);
void _odesolverstate_destroy(void* _p);
void _odesolverreport_init(void* _p, ae_state *_state, ae_bool make_automatic);
void _odesolverreport_init_copy(void* _dst, void* _src, ae_state *_state, ae_bool make_automatic);
void _odesolverreport_clear(void* _p);
void _odesolverreport_destroy(void* _p);
#endif
}
#endif