The source code and dockerfile for the GSW2024 AI Lab.
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%module Rational %{ #include <carl/core/Monomial.h> #include <carl/core/Term.h> #include <carl/core/MultivariatePolynomial.h> #include <carl/core/RationalFunction.h> #include <carl/numbers/numbers.h> #include "gmp.h" #include "gmpxx.h"
typedef mpq_class Rational;
typedef carl::Term<Rational> Term;
typedef carl::MultivariatePolynomial<Rational> Polynomial; typedef carl::RationalFunction<Polynomial> RationalFunction;
%}
%include "std_string.i" %import "monomial.i" %import "variable.i" %import "term.i" %import "polynomial.i" %import "rationalfunction.i"
namespace carl { typedef long sint; }
%rename(Rational) mpq_class;
class mpq_class { //NOTE: maybe change this to getDouble or whatever.. %rename(toDouble) get_d; public: mpq_class(signed int i) { mpq_init(mp); mpq_set_si(mp, i, 1); } mpq_class(double d) { mpq_init(mp); mpq_set_d(mp, d); } explicit mpq_class(const std::string &s, int base = 0) { mpq_init(mp); if (mpq_set_str (mp, s.c_str(), base) != 0) { mpq_clear (mp); throw std::invalid_argument ("mpq_set_str"); } }
double get_d() const;
%extend{ std::string toString() { return carl::toString(*$self,true); }
int nominator() { return carl::toInt<carl::sint>(carl::getNum(*$self)); }
int numerator() { return carl::toInt<carl::sint>(carl::getNum(*$self)); }
int denominator() { return carl::toInt<carl::sint>(carl::getDenom(*$self)); }
carl::sint toInt() { double d = carl::toDouble(*$self); return static_cast<carl::sint>(d); }
Polynomial add(const Polynomial & rhs) { return *$self+rhs; }
Polynomial add(const Term& rhs) { return *$self+rhs; }
Polynomial add(const carl::Monomial::Arg& rhs) { return *$self+rhs; }
Polynomial add(carl::Variable::Arg rhs) { return *$self+rhs; }
Rational add(const Rational& rhs) { return *$self+rhs; }
Polynomial sub(const Polynomial & rhs) { return *$self-rhs; }
Polynomial sub(const Term& rhs) { return *$self-rhs; }
Polynomial sub(const carl::Monomial::Arg& rhs) { return *$self-rhs; }
Polynomial sub(carl::Variable::Arg rhs) { return *$self-rhs; }
Rational sub(const Rational& rhs) { return *$self-rhs; }
Polynomial mul(const Polynomial & rhs) { return *$self*rhs; }
Term mul(const Term& rhs) { return *$self*rhs; }
Term mul(const carl::Monomial::Arg& rhs) { return *$self*rhs; }
Term mul(carl::Variable::Arg rhs) { return *$self*rhs; }
Rational mul(const Rational& rhs) { return *$self*rhs; }
RationalFunction div(const RationalFunction& rhs) { return RationalFunction(*$self) / rhs; }
RationalFunction div(const Polynomial& rhs) { return RationalFunction(*$self) / rhs; }
RationalFunction div(const Term& rhs) { return RationalFunction(*$self) / rhs; }
RationalFunction div(const carl::Monomial::Arg& rhs) { return RationalFunction(*$self) / rhs; }
RationalFunction div(carl::Variable::Arg rhs) { return RationalFunction(*$self) / rhs; }
Rational div(const Rational& rhs) { if (carl::isZero(rhs)) throw std::runtime_error("Div by zero"); return *$self / rhs; }
Rational pow(std::size_t exp) { return pow($self->get_d(),exp); }
Rational neg() { return -(*$self); }
Rational abs() { return abs(*$self); }
bool equals(const Rational& rhs) { return *$self==rhs; }
bool notEquals(const Rational& rhs) { return *$self!=rhs; }
bool lessEquals(const Rational& rhs) { return *$self<=rhs; }
bool greaterEquals(const Rational& rhs) { return *$self>=rhs; }
bool less(const Rational& rhs) { return *$self<rhs; }
bool greater(const Rational& rhs) { return *$self>rhs; }
}
};
typedef mpq_class Rational;
/* typedef carl::Term<Rational> Term;
typedef carl::MultivariatePolynomial<Rational> Polynomial; typedef carl::RationalFunction<Polynomial> RationalFunction; */
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