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minpack.h
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#pragma once
#ifdef __cplusplus
#define MINPACK_EXTERN extern "C"
#else
#define MINPACK_EXTERN extern
#endif
// In case we have to add some attributes to all functions (e.g. for DLL exports)
#define MINPACK_CALL
MINPACK_EXTERN double MINPACK_CALL
minpack_dpmpar(int /* i */);
typedef void (*minpack_func)(
int /* n */,
const double* /* x */,
double* /* fvec */,
int* /* iflag */,
void* /* udata */);
#ifdef MINPACK_CFFI
extern "Python" void MINPACK_CALL
func(
int /* n */,
const double* /* x */,
double* /* fvec */,
int* /* iflag */,
void* /* udata */);
#endif
/*
* the purpose of hybrd is to find a zero of a system of
* n nonlinear functions in n variables by a modification
* of the powell hybrid method. the user must provide a
* subroutine which calculates the functions. the jacobian is
* then calculated by a forward-difference approximation.
*/
MINPACK_EXTERN void MINPACK_CALL
minpack_hybrd(
minpack_func /* fcn */,
int /* n */,
double* /* x */,
double* /* fvec */,
double /* xtol */,
int /* maxfev */,
int /* ml */,
int /* mu */,
double /* epsfcn */,
double* /* diag */,
int /* mode */,
double /* factor */,
int /* nprint */,
int* /* info */,
int* /* nfev */,
double* /* fjac */,
int /* ldfjac */,
double* /* r */,
int /* lr */,
double* /* qtf */,
double* /* wa1 */,
double* /* wa2 */,
double* /* wa3 */,
double* /* wa4 */,
void* /* udata */);
/*
* the purpose of hybrd1 is to find a zero of a system of
* n nonlinear functions in n variables by a modification
* of the powell hybrid method. this is done by using the
* more general nonlinear equation solver hybrd. the user
* must provide a subroutine which calculates the functions.
* the jacobian is then calculated by a forward-difference
* approximation.
*/
MINPACK_EXTERN void MINPACK_CALL
minpack_hybrd1(
minpack_func /* fcn */,
int /* n */,
double* /* x */,
double* /* fvec */,
double /* tol */,
int* /* info */,
double* /* wa */,
int /* lwa */,
void* /* udata */);
typedef void (*minpack_fcn_hybrj)(
int /* n */,
const double* /* x */,
double* /* fvec */,
double* /* fjac */,
int /* ldfjac */,
int* /* iflag */,
void* /* udata */);
#ifdef MINPACK_CFFI
extern "Python" void MINPACK_CALL
fcn_hybrj(
int /* n */,
const double* /* x */,
double* /* fvec */,
double* /* fjac */,
int /* ldfjac */,
int* /* iflag */,
void* /* udata */);
#endif
/*
* the purpose of hybrj is to find a zero of a system of
* n nonlinear functions in n variables by a modification
* of the powell hybrid method. the user must provide a
* subroutine which calculates the functions and the jacobian.
*/
MINPACK_EXTERN void MINPACK_CALL
minpack_hybrj(
minpack_fcn_hybrj /* fcn */,
int /* n */,
double* /* x */,
double* /* fvec */,
double* /* fjac */,
int /* ldfjac */,
double /* xtol */,
int /* maxfev */,
double* /* diag */,
int /* mode */,
double /* factor */,
int /* nprint */,
int* /* info */,
int* /* nfev */,
int* /* njev */,
double* /* r */,
int /* lr */,
double* /* qtf */,
double* /* wa1 */,
double* /* wa2 */,
double* /* wa3 */,
double* /* wa4 */,
void* /* udata */);
/*
* The purpose of hybrj1 is to find a zero of a system of
* n nonlinear functions in n variables by a modification
* of the powell hybrid method. this is done by using the
* more general nonlinear equation solver hybrj. the user
* must provide a subroutine which calculates the functions
* and the jacobian.
*/
MINPACK_EXTERN void MINPACK_CALL
minpack_hybrj1(
minpack_fcn_hybrj /* fcn */,
int /* n */,
double* /* x */,
double* /* fvec */,
double* /* fjac */,
int /* ldfjac */,
double /* tol */,
int* /* info */,
double* /* wa */,
int /* lwa */,
void* /* udata */);
typedef void (*minpack_fcn_lmder)(
int /* m */,
int /* n */,
const double* /* x */,
double* /* fvec */,
double* /* fjac */,
int /* ldfjac */,
int* /* iflag */,
void* /* udata */);
#ifdef MINPACK_CFFI
extern "Python" void MINPACK_CALL
fcn_lmder(
int /* m */,
int /* n */,
const double* /* x */,
double* /* fvec */,
double* /* fjac */,
int /* ldfjac */,
int* /* iflag */,
void* /* udata */);
#endif
/*
* the purpose of lmder is to minimize the sum of the squares of
* m nonlinear functions in n variables by a modification of
* the levenberg-marquardt algorithm. the user must provide a
* subroutine which calculates the functions and the jacobian.
*/
MINPACK_EXTERN void MINPACK_CALL
minpack_lmder(
minpack_fcn_lmder /* fcn */,
int /* m */,
int /* n */,
double* /* x */,
double* /* fvec */,
double* /* fjac */,
int /* ldfjac */,
double /* ftol */,
double /* xtol */,
double /* gtol */,
int /* maxfev */,
double* /* diag */,
int /* mode */,
double /* factor */,
int /* nprint */,
int* /* info */,
int* /* nfev */,
int* /* njev */,
int* /* ipvt */,
double* /* qtf */,
double* /* wa1 */,
double* /* wa2 */,
double* /* wa3 */,
double* /* wa4 */,
void* /* udata */);
/*
* the purpose of lmder1 is to minimize the sum of the squares of
* m nonlinear functions in n variables by a modification of the
* levenberg-marquardt algorithm. this is done by using the more
* general least-squares solver lmder. the user must provide a
* subroutine which calculates the functions and the jacobian.
*/
MINPACK_EXTERN void MINPACK_CALL
minpack_lmder1(
minpack_fcn_lmder /* fcn */,
int /* m */,
int /* n */,
double* /* x */,
double* /* fvec */,
double* /* fjac */,
int /* ldfjac */,
double /* tol */,
int* /* info */,
int* /* ipvt */,
double* /* wa */,
int /* lwa */,
void* /* udata */);
typedef void (*minpack_func2)(
int /* m */,
int /* n */,
const double* /* x */,
double* /* fvec */,
int* /* iflag */,
void* /* udata */);
#ifdef MINPACK_CFFI
extern "Python" void MINPACK_CALL
func2(
int /* m */,
int /* n */,
const double* /* x */,
double* /* fvec */,
int* /* iflag */,
void* /* udata */);
#endif
/*
* the purpose of lmdif is to minimize the sum of the squares of
* m nonlinear functions in n variables by a modification of
* the levenberg-marquardt algorithm. the user must provide a
* subroutine which calculates the functions. the jacobian is
* then calculated by a forward-difference approximation.
*/
MINPACK_EXTERN void MINPACK_CALL
minpack_lmdif(
minpack_func2 /* fcn */,
int /* m */,
int /* n */,
double* /* x */,
double* /* fvec */,
double /* ftol */,
double /* xtol */,
double /* gtol */,
int /* maxfev */,
double /* epsfcn */,
double* /* diag */,
int /* mode */,
double /* factor */,
int /* nprint */,
int* /* info */,
int* /* nfev */,
double* /* fjac */,
int /* ldfjac */,
int* /* ipvt */,
double* /* qtf */,
double* /* wa1 */,
double* /* wa2 */,
double* /* wa3 */,
double* /* wa4 */,
void* /* udata */);
/*
* the purpose of lmdif1 is to minimize the sum of the squares of
* m nonlinear functions in n variables by a modification of the
* levenberg-marquardt algorithm. this is done by using the more
* general least-squares solver lmdif. the user must provide a
* subroutine which calculates the functions. the jacobian is
* then calculated by a forward-difference approximation.
*/
MINPACK_EXTERN void MINPACK_CALL
minpack_lmdif1(
minpack_func2 /* fcn */,
int /* m */,
int /* n */,
double* /* x */,
double* /* fvec */,
double /* tol */,
int* /* info */,
int* /* iwa */,
double* /* wa */,
int /* lwa */,
void* /* udata */);
typedef void (*minpack_fcn_lmstr)(
int /* m */,
int /* n */,
const double* /* x */,
double* /* fvec */,
double* /* fjrow */,
int* /* iflag */,
void* /* udata */);
#ifdef MINPACK_CFFI
extern "Python" void MINPACK_CALL
fcn_lmstr(
int /* m */,
int /* n */,
const double* /* x */,
double* /* fvec */,
double* /* fjrow */,
int* /* iflag */,
void* /* udata */);
#endif
/*
* the purpose of lmstr is to minimize the sum of the squares of
* m nonlinear functions in n variables by a modification of
* the levenberg-marquardt algorithm which uses minimal storage.
* the user must provide a subroutine which calculates the
* functions and the rows of the jacobian.
*/
MINPACK_EXTERN void MINPACK_CALL
minpack_lmstr(
minpack_fcn_lmstr /* fcn */,
int /* m */,
int /* n */,
double* /* x */,
double* /* fvec */,
double* /* fjac */,
int /* ldfjac */,
double /* ftol */,
double /* xtol */,
double /* gtol */,
int /* maxfev */,
double* /* diag */,
int /* mode */,
double /* factor */,
int /* nprint */,
int* /* info */,
int* /* nfev */,
int* /* njev */,
int* /* ipvt */,
double* /* qtf */,
double* /* wa1 */,
double* /* wa2 */,
double* /* wa3 */,
double* /* wa4 */,
void* /* udata */);
/*
* the purpose of lmstr1 is to minimize the sum of the squares of
* m nonlinear functions in n variables by a modification of
* the levenberg-marquardt algorithm which uses minimal storage.
* this is done by using the more general least-squares solver
* lmstr. the user must provide a subroutine which calculates
* the functions and the rows of the jacobian.
*/
MINPACK_EXTERN void MINPACK_CALL
minpack_lmstr1(
minpack_fcn_lmstr /* fcn */,
int /* m */,
int /* n */,
double* /* x */,
double* /* fvec */,
double* /* fjac */,
int /* ldfjac */,
double /* tol */,
int* /* info */,
int* /* ipvt */,
double* /* wa */,
int /* lwa */,
void* /* udata */);
/*
* this subroutine checks the gradients of m nonlinear functions
* in n variables, evaluated at a point x, for consistency with
* the functions themselves.
*
* the subroutine does not perform reliably if cancellation or
* rounding errors cause a severe loss of significance in the
* evaluation of a function. therefore, none of the components
* of x should be unusually small (in particular, zero) or any
* other value which may cause loss of significance.
*/
MINPACK_EXTERN void MINPACK_CALL
minpack_chkder(
int /* m */,
int /* n */,
const double* /* x */,
const double* /* fvec */,
const double* /* fjac */,
int /* ldfjac */,
double* /* xp */,
const double* /* fvecp */,
int /* mode */,
double* /* err */);