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#include "gfanapplication.h"
#include <stdio.h>
#include <iostream>
#include "field.h"
#include "field_rationals.h"
#include "field_zmodpz.h"
#include "division.h"
#include "printer.h"
#include "symmetry.h"
#include "log.h"
#include "linalg.h"
#include "polymakefile.h"
GFanApplication::FieldOption::FieldOption():
IntegerOption("--mod","Set the field to Z / pZ. The value must be a prime number p between 2 and 32749.\n")
{
}
void GFanApplication::FieldOption::onOptionsParsed()
{
if(getValue())
{
fprintf(Stderr,"CANNOT CHANGE FIELD\n");
assert(0);
// Field::setField(new FieldZModPZ(getValue()));
// Field::setField(Field::find("Zmod2Z"));
}
}
GFanApplication::LogLevelOption::LogLevelOption():
IntegerOption("--log","Set the logging level.\n")
{
hide();
}
GFanApplication::XmlOption::XmlOption():
SimpleOption("--xml","Switch to XML polyhedral data format output.\n")
{
hide();
}
GFanApplication::StdinFileOption::StdinFileOption():
StringOption("--stdin","Set a file to be read as stdin.\n","")
{
hide();
}
void GFanApplication::StdinFileOption::onOptionsParsed()
{
if(strlen(getValue())>0)freopen(getValue(),"r",stdin);
}
GFanApplication::StdoutFileOption::StdoutFileOption():
StringOption("--stdout","Set a file to be read as stdin.\n","")
{
hide();
}
void GFanApplication::StdoutFileOption::onOptionsParsed()
{
if(strlen(getValue())>0)freopen(getValue(),"w",stdout);
}
void GFanApplication::LogLevelOption::onOptionsParsed()
{
if(getValue()==9)
{
Printer::setAssertOnPrinting(true);
}
else
if(getValue())
{
setLogLevel(getValue());
}
}
void GFanApplication::XmlOption::onOptionsParsed()
{
if(getValue())PolymakeFile::forceXml();
}
void GFanApplication::assertSymmetriesMatch(IntegerVectorList const &g, class PolynomialSet &markedGroebnerBasis, FieldMatrix const *torusActions, bool asPolynomials)
{
PolynomialSet markedGroebnerBasis2=markedGroebnerBasis;
markedGroebnerBasis2.sort_();
int n=markedGroebnerBasis2.numberOfVariablesInRing();
int I=0;
for(IntegerVectorList::const_iterator i=g.begin();i!=g.end();i++)
{
if(i->size()!=n)
{
fprintf(Stderr,"PERMUTATION ");
AsciiPrinter(Stderr).printVector(*i);
fprintf(Stderr," HAS WRONG LENGTH.\n");
assert(0);
}
if(!SymmetryGroup::isPermutation(*i))
{
fprintf(Stderr,"VECTOR ");
AsciiPrinter(Stderr).printVector(*i);
fprintf(Stderr," DOES NOT REPRESENT A PERMUTATION.\n");
assert(0);
}
//log0 AsciiPrinter(Stderr).printPolynomialSet(markedGroebnerBasis);
PolynomialSet b2=SymmetryGroup::permutePolynomialSet(markedGroebnerBasis2,*i);
//log0 AsciiPrinter(Stderr).printPolynomialSet(b2);
if(torusActions)b2=b2.torusAct((*torusActions)[I]);
//log0 AsciiPrinter(Stderr).printPolynomialSet(b2);
if(!asPolynomials)
{
if(!areIdealsEqual(markedGroebnerBasis2,b2))
{
fprintf(Stderr,"PERMUTATION ");
AsciiPrinter(Stderr).printVector(*i);
fprintf(Stderr," DOES NOT KEEP THE IDEAL FIXED.\n");
log1 fprintf(Stderr,"Original ideal:\n");
log1 AsciiPrinter(Stderr).printPolynomialSet(markedGroebnerBasis2);
log1 fprintf(Stderr,"Permuted ideal:\n");
log1 AsciiPrinter(Stderr).printPolynomialSet(b2);
log1
{
for(PolynomialSet::const_iterator i=b2.begin();i!=b2.end();i++)
{
Polynomial remainder=division(*i,markedGroebnerBasis2,LexicographicTermOrder());
log1 AsciiPrinter(Stderr).printString("Remainder: ");
log1 AsciiPrinter(Stderr).printPolynomial(remainder);
log1 AsciiPrinter(Stderr).printNewLine();
if(!remainder.isZero())
{
log1 AsciiPrinter(Stderr).printString("Polynomial not in ideal: ");
log1 AsciiPrinter(Stderr).printPolynomial(*i);
log1 AsciiPrinter(Stderr).printNewLine();
break;
}
}
}
assert(0);
}
}
else
{
b2.markAndScale(LexicographicTermOrder());
markedGroebnerBasis2.markAndScale(LexicographicTermOrder());
b2.sort_();
if(!(markedGroebnerBasis2==b2))
{
fprintf(Stderr,"PERMUTATION ");
AsciiPrinter(Stderr).printVector(*i);
fprintf(Stderr," DOES NOT KEEP POLYNOMIAL SET FIXED.\n");
log1
{
AsciiPrinter(Stderr).printPolynomialSet(markedGroebnerBasis2);
AsciiPrinter(Stderr).printPolynomialSet(b2);
PolynomialSet::const_iterator j=markedGroebnerBasis2.begin();
for(PolynomialSet::const_iterator i=b2.begin();i!=b2.end();i++)
{
if(!(*j-*i).isZero())
{
fprintf(Stderr,"Polynomials are different:\n");
AsciiPrinter(Stderr).printPolynomial(*i);
fprintf(Stderr,"\n");
AsciiPrinter(Stderr).printPolynomial(*j);
fprintf(Stderr,"\nDifference:\n");
AsciiPrinter(Stderr).printPolynomial(*i-*j);
fprintf(Stderr,"\n");
break;
}
j++;
}
}
assert(0);
}
}
I++;
}
}
void GFanApplication::onExit()
{
log1
{
fprintf(Stderr,"Number of living FieldImplementation objects:%i\n",FieldImplementation::getNumberOfLivingFieldImplementations());
fprintf(Stderr,"Number of living FieldElementImplementation objects:%i\n",FieldElementImplementation::getNumberOfLivingFieldElementImplementations());
}
}
#include "gmp.h"
#include "versioninfo.h"
#include "lp.h"
#include "groebnerengine.h"
class VersionApplication : public Application
{
bool includeInDefaultInstallation()
{
return true;
}
const char *helpText()
{
return "This program writes out version information of the Gfan installation.\n";
}
const char *name()
{
return "_version";
}
int main()
{
cout<<"Gfan version:\n"<<GFAN_RELEASEDIR<<endl<<endl;
cout<<"Forked from source tree on:\n"<<GFAN_FORKTIME<<endl<<endl;
cout<<"Linked libraries:"<<endl;
cout<<"GMP "<<gmp_version<<endl;
cout<<"Cddlib YES"<<endl;
cout<<"SoPlex "<<((LpSolver::find("SoPlexCddGmp"))?"YES":" NO")<<endl;
cout<<"Singular "<<((GroebnerEngine::find("singular"))?"YES":" NO")<<endl;
return 0;
}
};
VersionApplication theVersionApplication;
class ListApplication : public Application
{
SimpleOption hiddenOption;
bool includeInDefaultInstallation()
{
return true;
}
public:
ListApplication():
hiddenOption("--hidden","Show hidden commands which are not officially supported.")
{
registerOptions();
}
const char *helpText()
{
return "This program lists all subcommands of the Gfan installation.\n";
}
const char *name()
{
return "_list";
}
int main()
{
cout<<"Available subcommands:"<<endl;
std::list<Application*> alist2=getSortedApplicationList();
for(std::list<Application*>::const_iterator p=alist2.begin();p!=alist2.end();p++)
{
if(((*p)->includeInDefaultInstallation())^hiddenOption.getValue())
cout << "gfan"<<(*p)->name()<<"\n";
}
cout<<"\nTo get info on a command run the command with option --help.\nFor example run \"gfan _basis --help\".\n";
return 0;
}
};
ListApplication theListApplication;
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