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The source code and dockerfile for the GSW2024 AI Lab.
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GSW_AI_LAB/carl/bindings/swig/formula.i~

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  3. %module FormulaPolynomialT
  4. %{
  5. #include <carl/formula/Formula.h>
  6. #include <carl/formula/Constraint.h>
  7. #include <carl/core/SimpleConstraint.h>
  8. #include "gmpxx.h"
  9. #include <carl/core/RationalFunction.h>
  10. #include <carl/core/Relation.h>
  13. typedef mpq_class Rational;
  15. typedef carl::Monomial::Arg Monomial;
  16. typedef carl::Term<Rational> Term;
  17. typedef carl::MultivariatePolynomial<Rational> Polynomial;
  18. typedef carl::FactorizedPolynomial<Polynomial> FactorizedPolynomial;
  19. typedef carl::RationalFunction<Polynomial> RationalFunction;
  20. typedef carl::RationalFunction<FactorizedPolynomial> FactorizedRationalFunction;
  21. typedef carl::PolynomialFactorizationPair<Polynomial> FactorizationPair;
  23. typedef carl::Formula<Polynomial> FormulaPolynomial;
  24. typedef std::vector<FormulaPolynomial> FormulaVector;
  29. %}
  31. %import "constraint.i"
  33. %include "std_string.i"
  34. %import "variable.i"
  35. %import "polynomial.i"
  36. %import "rationalfunction.i"
  37. %import "factorizedpolynomial.i"
  38. %include "std_vector.i"
  39. %include "std_map.i"
  42. typedef carl::MultivariatePolynomial<Rational> Polynomial;
  43. typedef std::vector<FormulaPolynomial> FormulaVector;
  47. %template(FormulaVector) std::vector<carl::Formula<carl::MultivariatePolynomial<Rational>>>;
  50. typedef carl::Formula<Polynomial> FormulaPolynomial;
  55. typedef mpq_class Rational;
  57. typedef carl::Monomial::Arg Monomial;
  58. typedef carl::Term<Rational> Term;
  59. typedef carl::FactorizedPolynomial<Polynomial> FactorizedPolynomial;
  60. typedef carl::RationalFunction<Polynomial> RationalFunction;
  61. typedef carl::RationalFunction<FactorizedPolynomial> FactorizedRationalFunction;
  62. typedef carl::PolynomialFactorizationPair<Polynomial> FactorizationPair;
  68. namespace carl {
  71. enum FormulaType {
  72. // Generic
  73. ITE, EXISTS, FORALL,
  75. // Core Theory
  76. TRUE, FALSE,
  77. BOOL,
  78. NOT, IMPLIES, AND, OR, XOR,
  79. IFF,
  81. // Arithmetic Theory
  82. CONSTRAINT,
  84. // Bitvector Theory
  85. BITVECTOR,
  87. // Uninterpreted Theory
  88. UEQ
  89. };
  92. template<typename Pol> class Formula {
  93. public:
  94. explicit Formula( carl::Variable::Arg _booleanVar ):
  95. Formula( carl::FormulaPool<Pol>::getInstance().create( _booleanVar ) )
  96. {}
  98. explicit Formula( const carl::Constraint<Pol>& _constraint ):
  99. Formula( carl::FormulaPool<Pol>::getInstance().create( _constraint ) )
  100. {}
  102. explicit Formula( carl::FormulaType _type, const Formula& _subformula ):
  103. Formula(carl::FormulaPool<Pol>::getInstance().create(_type, std::move(Formula(_subformula))))
  104. {}
  106. //explicit Formula( carl::FormulaType _type, const std::vector<Formula<Pol>>& _subasts ):
  107. // Formula( carl::FormulaPool<Pol>::getInstance().create( _type, _subasts ) )
  108. //{}
  110. //Apparently satisfiedBy no longer exists
  111. //unsigned satisfiedBy( const carl::EvaluationMap<typename Pol::NumberType>& _assignment ) const;
  113. std::string toString( bool _withActivity = false, unsigned _resolveUnequal = 0, const std::string _init = "", bool _oneline = true, bool _infix = false, bool _friendlyNames = true, bool _withVariableDefinition = false ) const;
  115. size_t size() const;
  119. carl::FormulaType getType() const;
  122. //TODO: maybe find fix for the weird underscore names
  124. %extend {
  125. carl::Formula<Pol> not_() {
  126. return carl::Formula<Pol>(carl::FormulaType::NOT, carl::Formula<Pol>(*$self));
  127. }
  129. carl::Formula<Pol> and_(const carl::Constraint<Pol>& rhs) {
  130. return carl::Formula<Pol>(carl::FormulaType::AND, carl::Formula<Pol>(*$self), carl::Formula<Pol>(rhs));
  131. }
  133. carl::Formula<Pol> and_(const carl::Formula<Pol>& rhs) {
  134. return carl::Formula<Pol>(carl::FormulaType::AND, carl::Formula<Pol>(*$self), rhs);
  135. }
  137. carl::Formula<Pol> or_(const carl::Constraint<Pol>& rhs) {
  138. return carl::Formula<Pol>(carl::FormulaType::OR, carl::Formula<Pol>(*$self), carl::Formula<Pol>(rhs));
  139. }
  141. carl::Formula<Pol> or_(const carl::Formula<Pol>& rhs) {
  142. return carl::Formula<Pol>(carl::FormulaType::OR, carl::Formula<Pol>(*$self), rhs);
  143. }
  145. carl::Formula<Pol> xor_(const carl::Constraint<Pol>& rhs) {
  146. return carl::Formula<Pol>(carl::FormulaType::XOR, carl::Formula<Pol>(*$self), carl::Formula<Pol>(rhs));
  147. }
  149. carl::Formula<Pol> xor_(const carl::Formula<Pol>& rhs) {
  150. return carl::Formula<Pol>(carl::FormulaType::XOR, carl::Formula<Pol>(*$self), rhs);
  151. }
  153. //instead of iterator
  155. carl::Formula<Pol> getItem(int i) {
  156. return $self->subformulas().at(i);
  157. }
  159. bool equals(const carl::Formula<Pol>& rhs) {
  160. return *$self == rhs;
  161. }
  164. }
  167. };
  169. }
  172. %template(FormulaPolynomial) carl::Formula<Polynomial>;