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/* emacs edit mode for this file is -*- C++ -*- */


/**

 * @file cf_algorithm.h

 * declarations of higher level algorithms.

 *

 * Header file corresponds to: cf_algorithm.cc, cf_chinese.cc,

 *   cf_factor.cc, cf_linsys.cc, cf_resultant.cc

 *

 * Hierarchy: mathematical algorithms on canonical forms

 *

 * Developers note:

 * ----------------

 * This header file collects declarations of most of the

 * functions in Factory which implement higher level algorithms

 * on canonical forms (factorization, gcd, etc.) and declarations

 * of some low level mathematical functions, too (absolute value,

 * euclidean norm, etc.).

 *

**/


#ifndef INCL_CF_ALGORITHM_H

#define INCL_CF_ALGORITHM_H


// #include "config.h"


#include "canonicalform.h"

#include "variable.h"


/*BEGINPUBLIC*/


//{{{ function declarations from cf_algorithm.cc

CanonicalForm psr ( const CanonicalForm & f, const CanonicalForm & g, const Variable & x );


CanonicalForm psq ( const CanonicalForm & f, const CanonicalForm & g, const Variable & x );


void psqr ( const CanonicalForm & f, const CanonicalForm & g, CanonicalForm & q, CanonicalForm & r, const Variable & x );


CanonicalForm FACTORY_PUBLIC bCommonDen ( const CanonicalForm & f );


bool fdivides ( const CanonicalForm & f, const CanonicalForm & g );


bool fdivides ( const CanonicalForm & f, const CanonicalForm & g, CanonicalForm& quot );


bool tryFdivides ( const CanonicalForm & f, const CanonicalForm & g, const CanonicalForm& M, bool& fail );


CanonicalForm maxNorm ( const CanonicalForm & f );


CanonicalForm euclideanNorm ( const CanonicalForm & f );

//}}}


//{{{ function declarations from cf_chinese.cc

void FACTORY_PUBLIC chineseRemainder ( const CanonicalForm & x1, const CanonicalForm & q1, const CanonicalForm & x2, const CanonicalForm & q2, CanonicalForm & xnew, CanonicalForm & qnew );


void FACTORY_PUBLIC chineseRemainder ( const CFArray & x, const CFArray & q, CanonicalForm & xnew, CanonicalForm & qnew );


void FACTORY_PUBLIC chineseRemainderCached ( const CanonicalForm & x1, const CanonicalForm & q1, const CanonicalForm & x2, const CanonicalForm & q2, CanonicalForm & xnew, CanonicalForm & qnew, CFArray &inv );

void FACTORY_PUBLIC chineseRemainderCached(const CFArray &a, const CFArray &n, CanonicalForm &xnew, CanonicalForm &prod, CFArray &inv);


CanonicalForm Farey ( const CanonicalForm & f, const CanonicalForm & q );

//}}}


//{{{ function declarations from cf_factor.cc

EXTERN_VAR int singular_homog_flag;


bool isPurePoly(const CanonicalForm & f);


bool isPurePoly_m(const CanonicalForm & f);


CFFList FACTORY_PUBLIC factorize ( const CanonicalForm & f, bool issqrfree = false );


CFFList FACTORY_PUBLIC factorize ( const CanonicalForm & f, const Variable & alpha );


CFFList FACTORY_PUBLIC sqrFree ( const CanonicalForm & f, bool sort= false );


CanonicalForm homogenize( const CanonicalForm & f, const Variable & x);

CanonicalForm homogenize( const CanonicalForm & f, const Variable & x,

                                const Variable & v1, const Variable & v2);

Variable get_max_degree_Variable(const CanonicalForm & f);

CFList get_Terms( const CanonicalForm & f );

void getTerms( const CanonicalForm & f, const CanonicalForm & t, CFList & result );


//}}}


//{{{ function declarations from cf_linsys.cc

bool linearSystemSolve ( CFMatrix & M );


CanonicalForm FACTORY_PUBLIC determinant ( const CFMatrix & M, int n );

//}}}


//{{{ function declarations from cf_resultant.cc

CFArray subResChain ( const CanonicalForm & f, const CanonicalForm & g, const Variable & x );


CanonicalForm FACTORY_PUBLIC resultant ( const CanonicalForm & f, const CanonicalForm & g, const Variable & x );

//}}}


/** inline CanonicalForm abs ( const CanonicalForm & f )

 *

 * abs() - return absolute value of `f'.

 *

 * The absolute value is defined in terms of the function

 * `sign()'.  If it reports negative sign for `f' than -`f' is

 * returned, otherwise `f'.

 *

 * This behaviour is most useful for integers and rationals.  But

 * it may be used to sign-normalize the leading coefficient of

 * arbitrary polynomials, too.

 *

 * Type info:

 * ----------

 * f: CurrentPP

 *

**/

inline CanonicalForm

abs ( const CanonicalForm & f )

{

    // it is not only more general to use `sign()' instead of a

    // direct comparison `f < 0', it is faster, too

    if ( sign( f ) < 0 )

        return -f;

    else

        return f;

}

//}}}


/*ENDPUBLIC*/


#endif /* ! INCL_CF_ALGORITHM_H */

canonicalform.h
Header for factory's main class CanonicalForm.

x
Variable x
Definition: cfModGcd.cc:4082

g
g
Definition: cfModGcd.cc:4090

sort
static void sort(int **points, int sizePoints)
Definition: cfNewtonPolygon.cc:100

get_max_degree_Variable
Variable get_max_degree_Variable(const CanonicalForm &f)
get_max_degree_Variable returns Variable with highest degree.
Definition: cf_factor.cc:260

isPurePoly
bool isPurePoly(const CanonicalForm &f)
Definition: cf_factor.cc:244

isPurePoly_m
bool isPurePoly_m(const CanonicalForm &f)
Definition: cf_factor.cc:234

psqr
void psqr(const CanonicalForm &f, const CanonicalForm &g, CanonicalForm &q, CanonicalForm &r, const Variable &x)
void psqr ( const CanonicalForm & f, const CanonicalForm & g, CanonicalForm & q, CanonicalForm & r,...
Definition: cf_algorithm.cc:223

determinant
CanonicalForm FACTORY_PUBLIC determinant(const CFMatrix &M, int n)
Definition: cf_linsys.cc:222

Farey
CanonicalForm Farey(const CanonicalForm &f, const CanonicalForm &q)
Farey rational reconstruction.
Definition: cf_chinese.cc:202

sqrFree
CFFList FACTORY_PUBLIC sqrFree(const CanonicalForm &f, bool sort=false)
squarefree factorization
Definition: cf_factor.cc:957

getTerms
void getTerms(const CanonicalForm &f, const CanonicalForm &t, CFList &result)
get_Terms: Split the polynomial in the containing terms.
Definition: cf_factor.cc:279

get_Terms
CFList get_Terms(const CanonicalForm &f)
Definition: cf_factor.cc:289

subResChain
CFArray subResChain(const CanonicalForm &f, const CanonicalForm &g, const Variable &x)
CFArray subResChain ( const CanonicalForm & f, const CanonicalForm & g, const Variable & x )
Definition: cf_resultant.cc:42

maxNorm
CanonicalForm maxNorm(const CanonicalForm &f)
CanonicalForm maxNorm ( const CanonicalForm & f )
Definition: cf_algorithm.cc:536

bCommonDen
CanonicalForm FACTORY_PUBLIC bCommonDen(const CanonicalForm &f)
CanonicalForm bCommonDen ( const CanonicalForm & f )
Definition: cf_algorithm.cc:293

fdivides
bool fdivides(const CanonicalForm &f, const CanonicalForm &g)
bool fdivides ( const CanonicalForm & f, const CanonicalForm & g )
Definition: cf_algorithm.cc:340

chineseRemainder
void FACTORY_PUBLIC chineseRemainder(const CanonicalForm &x1, const CanonicalForm &q1, const CanonicalForm &x2, const CanonicalForm &q2, CanonicalForm &xnew, CanonicalForm &qnew)
void chineseRemainder ( const CanonicalForm & x1, const CanonicalForm & q1, const CanonicalForm & x2,...
Definition: cf_chinese.cc:57

tryFdivides
bool tryFdivides(const CanonicalForm &f, const CanonicalForm &g, const CanonicalForm &M, bool &fail)
same as fdivides but handles zero divisors in Z_p[t]/(f)[x1,...,xn] for reducible f
Definition: cf_algorithm.cc:456

abs
CanonicalForm abs(const CanonicalForm &f)
inline CanonicalForm abs ( const CanonicalForm & f )
Definition: cf_algorithm.h:117

psr
CanonicalForm psr(const CanonicalForm &f, const CanonicalForm &g, const Variable &x)
CanonicalForm psr ( const CanonicalForm & f, const CanonicalForm & g, const Variable & x )
Definition: cf_algorithm.cc:117

homogenize
CanonicalForm homogenize(const CanonicalForm &f, const Variable &x)
homogenize homogenizes f with Variable x
Definition: cf_factor.cc:313

linearSystemSolve
bool linearSystemSolve(CFMatrix &M)
Definition: cf_linsys.cc:78

psq
CanonicalForm psq(const CanonicalForm &f, const CanonicalForm &g, const Variable &x)
CanonicalForm psq ( const CanonicalForm & f, const CanonicalForm & g, const Variable & x )
Definition: cf_algorithm.cc:172

singular_homog_flag
EXTERN_VAR int singular_homog_flag
Definition: cf_algorithm.h:65

euclideanNorm
CanonicalForm euclideanNorm(const CanonicalForm &f)
CanonicalForm euclideanNorm ( const CanonicalForm & f )
Definition: cf_algorithm.cc:565

factorize
CFFList FACTORY_PUBLIC factorize(const CanonicalForm &f, bool issqrfree=false)
factorization over  or
Definition: cf_factor.cc:405

chineseRemainderCached
void FACTORY_PUBLIC chineseRemainderCached(const CanonicalForm &x1, const CanonicalForm &q1, const CanonicalForm &x2, const CanonicalForm &q2, CanonicalForm &xnew, CanonicalForm &qnew, CFArray &inv)
Definition: cf_chinese.cc:308

resultant
CanonicalForm FACTORY_PUBLIC resultant(const CanonicalForm &f, const CanonicalForm &g, const Variable &x)
CanonicalForm resultant ( const CanonicalForm & f, const CanonicalForm & g, const Variable & x )
Definition: cf_resultant.cc:173

f
FILE * f
Definition: checklibs.c:9

Array< CanonicalForm >

CanonicalForm
factory's main class
Definition: canonicalform.h:86

List
Definition: ftmpl_list.h:52

Matrix
Definition: ftmpl_matrix.h:29

Variable
factory's class for variables
Definition: variable.h:33

alpha
Variable alpha
Definition: facAbsBiFact.cc:51

result
return result
Definition: facAbsBiFact.cc:75

prod
fq_nmod_poly_t prod
Definition: facHensel.cc:100

EXTERN_VAR
#define EXTERN_VAR
Definition: globaldefs.h:6

FACTORY_PUBLIC
#define FACTORY_PUBLIC
Definition: globaldefs.h:25

sign
static int sign(int x)
Definition: ring.cc:3427

M
#define M
Definition: sirandom.c:25

variable.h
operations on variables