#include <theory_arith_old.h>
Inheritance diagram for CVC3::TheoryArithOld:
Definition at line 30 of file theory_arith_old.h.
typedef ExprMap< std::set< std::pair<Rational, Expr> > > CVC3::TheoryArithOld::AtomsMap [private] |
Definition at line 445 of file theory_arith_old.h.
enum CVC3::TheoryArithOld::BoundsQueryType [private] |
Definition at line 910 of file theory_arith_old.h.
TheoryArithOld::TheoryArithOld | ( | TheoryCore * | core | ) |
Definition at line 2225 of file theory_arith_old.cpp.
References createProofRulesOld(), d_buffer_0, d_buffer_1, d_buffer_2, d_buffer_3, d_bufferIdx_1, d_bufferIdx_2, d_bufferIdx_3, d_diseq, CVC3::TheoryArith::d_intType, CVC3::TheoryArith::d_kinds, CVC3::TheoryArith::d_realType, d_rules, CVC3::DARK_SHADOW, diffLogicGraph, CVC3::DIVIDE, CVC3::GE, CVC3::Theory::getCommonRules(), CVC3::Theory::getEM(), CVC3::Theorem::getExpr(), CVC3::GRAY_SHADOW, CVC3::GT, IF_DEBUG, CVC3::INT, CVC3::INTDIV, CVC3::IS_INTEGER, CVC3::LE, CVC3::LT, CVC3::MINUS, CVC3::MOD, CVC3::MULT, CVC3::NEGINF, CVC3::ExprManager::newKind(), CVC3::PLUS, CVC3::POSINF, CVC3::POW, CVC3::TheoryArith::rat(), CVC3::RATIONAL_EXPR, CVC3::REAL, CVC3::REAL_CONST, CVC3::Theory::registerTheory(), CVC3::TheoryArithOld::DifferenceLogicGraph::setArith(), CVC3::TheoryArithOld::DifferenceLogicGraph::setRules(), CVC3::SUBRANGE, CVC3::UMINUS, CVC3::CommonProofRules::varIntroSkolem(), and zero.
TheoryArithOld::~TheoryArithOld | ( | ) |
Definition at line 2339 of file theory_arith_old.cpp.
References CVC3::ExprMap< Data >::begin(), d_inequalitiesLeftDB, d_inequalitiesRightDB, CVC3::TheoryArith::d_kinds, d_rules, CVC3::ExprMap< Data >::end(), and CVC3::Theory::unregisterTheory().
Check the term t for integrality.
Definition at line 70 of file theory_arith_old.cpp.
References CVC3::Expr::getType(), CVC3::IS_INTEGER, CVC3::isInt(), isIntegerDerive(), CVC3::isReal(), and CVC3::Theory::typePred().
Referenced by canPickEqMonomial(), checkIntegerEquality(), checkSat(), computeTermBounds(), isConstrained(), isInteger(), normalizeProjectIneqs(), processFiniteInterval(), processSimpleIntEq(), projectInequalities(), rafineInequalityToInteger(), and rewrite().
A helper method for isIntegerThm().
Check if IS_INTEGER(e) is easily derivable from the given 'thm'
Definition at line 81 of file theory_arith_old.cpp.
References CVC3::Expr::arity(), CVC3::Theory::getCommonRules(), CVC3::Theorem::getExpr(), CVC3::Expr::isAnd(), and CVC3::Theorem::isNull().
Referenced by isIntegerThm(), and rewrite().
Extract the free constant from an inequality.
Definition at line 98 of file theory_arith_old.cpp.
References DebugAssert, CVC3::isIneq(), CVC3::PLUS, CVC3::RATIONAL_EXPR, CVC3::Expr::toString(), and zero.
Referenced by isStale().
const TheoryArithOld::FreeConst & TheoryArithOld::updateSubsumptionDB | ( | const Expr & | ineq, | |
bool | varOnRHS, | |||
bool & | subsumed | |||
) | [private] |
Update the free constant subsumption database with new inequality.
Definition at line 116 of file theory_arith_old.cpp.
References CVC3::Expr::arity(), CVC3::Expr::begin(), canonSimplify(), d_freeConstDB, DebugAssert, CVC3::CDMap< Key, Data, HashFcn >::end(), CVC3::Expr::end(), CVC3::CDMap< Key, Data, HashFcn >::find(), CVC3::CDOmap< Key, Data, HashFcn >::get(), CVC3::TheoryArithOld::FreeConst::getConst(), CVC3::Expr::getRational(), CVC3::isLE(), CVC3::isLT(), CVC3::isPlus(), CVC3::isRational(), CVC3::leExpr(), CVC3::plusExpr(), CVC3::TheoryArith::rat(), CVC3::TheoryArithOld::FreeConst::strict(), CVC3::Expr::toString(), and CVC3::TRACE.
Referenced by projectInequalities().
bool TheoryArithOld::kidsCanonical | ( | const Expr & | e | ) | [private] |
Check if the kids of e are fully simplified and canonized (for debugging).
Definition at line 186 of file theory_arith_old.cpp.
References CVC3::Expr::arity(), canon(), std::endl(), IF_DEBUG, and CVC3::Theory::isLeaf().
Referenced by canon(), and canonSimplify().
Canonize the expression e, assuming, all children are canonical.
Implements CVC3::TheoryArith.
Definition at line 218 of file theory_arith_old.cpp.
References CVC3::Expr::arity(), CVC3::ArithProofRules::canonDivide(), CVC3::ArithProofRules::canonMult(), CVC3::ArithProofRules::canonPlus(), CVC3::ArithProofRules::canonPowConst(), CVC3::TheoryArith::canonThm(), d_rules, DebugAssert, CVC3::DIVIDE, CVC3::Expr::getKind(), CVC3::Theorem::getRHS(), CVC3::isRational(), kidsCanonical(), CVC3::MINUS, CVC3::ArithProofRules::minusToPlus(), CVC3::MULT, CVC3::PLUS, CVC3::POW, CVC3::ArithProofRules::powerOfOne(), CVC3::Theory::reflexivityRule(), CVC3::Theory::substitutivityRule(), CVC3::Expr::toString(), CVC3::TRACE, CVC3::Theory::transitivityRule(), CVC3::UMINUS, and CVC3::ArithProofRules::uMinusToMult().
Referenced by canonSimplify(), extractTermsFromInequality(), isolateVariable(), kidsCanonical(), processFiniteInterval(), rewrite(), and tryPropagate().
Canonize and reduce e w.r.t. union-find database; assume all children are canonical.
Definition at line 371 of file theory_arith_old.cpp.
References canon(), DebugAssert, CVC3::Theory::find(), CVC3::Theorem::getRHS(), CVC3::Expr::hasFind(), kidsCanonical(), CVC3::Theory::leavesAreSimp(), CVC3::Theory::simplifyExpr(), CVC3::Expr::toString(), CVC3::TRACE, and CVC3::Theory::transitivityRule().
Referenced by canonPred(), canonPredEquiv(), canonSimplify(), and updateSubsumptionDB().
Composition of canonSimplify(const Expr&) by transitivity: take e0 = e1, canonize and simplify e1 to e2, return e0 = e2.
Definition at line 191 of file theory_arith_old.h.
References canonSimplify(), CVC3::Theorem::getRHS(), and CVC3::Theory::transitivityRule().
Canonize predicate (x = y, x < y, etc.).
accepts a theorem, canonizes it, applies iffMP and substituvity to derive the canonized thm
Definition at line 401 of file theory_arith_old.cpp.
References CVC3::Expr::arity(), canonSimplify(), DebugAssert, CVC3::Theorem::getExpr(), CVC3::Expr::getOp(), CVC3::Theory::iffMP(), CVC3::Theory::substitutivityRule(), and CVC3::Theorem::toString().
Referenced by doSolve(), isolateVariable(), normalizeProjectIneqs(), processFiniteInterval(), processRealEq(), processSimpleIntEq(), projectInequalities(), and rafineInequalityToInteger().
Canonize predicate like canonPred except that the input theorem is an equivalent transformation.
Definition at line 417 of file theory_arith_old.cpp.
References CVC3::Expr::arity(), canonSimplify(), DebugAssert, CVC3::Expr::getOp(), CVC3::Theorem::getRHS(), CVC3::Theory::substitutivityRule(), CVC3::Theorem::toString(), and CVC3::Theory::transitivityRule().
Referenced by normalize(), rafineInequalityToInteger(), and rewrite().
Solve an equation and return an equivalent Theorem in the solved form.
Pseudo-code for doSolve. (Input is an equation) (output is a Theorem)
Definition at line 447 of file theory_arith_old.cpp.
References canonPred(), CVC3::ArithProofRules::constPredicate(), d_rules, DebugAssert, CVC3::Theory::enqueueFact(), FatalAssert, CVC3::Theory::getCommonRules(), CVC3::Theorem::getExpr(), CVC3::Theory::iffMP(), CVC3::Expr::isFalse(), isInteger(), CVC3::isMult(), CVC3::isPow(), CVC3::isRational(), CVC3::Expr::isTrue(), CVC3::ArithProofRules::multEqn(), CVC3::ArithProofRules::multEqZero(), normalize(), CVC3::ArithProofRules::powEqZero(), processIntEq(), processRealEq(), CVC3::TheoryArith::rat(), MiniSat::right(), CVC3::ArithProofRules::rightMinusLeft(), CVC3::ArithException::toString(), CVC3::TRACE, and CVC3::CommonProofRules::trueTheorem().
Referenced by solve().
takes in a conjunction equivalence Thm and canonizes it.
accepts an equivalence theorem whose RHS is a conjunction, canonizes it, applies iffMP and substituvity to derive the canonized thm
Definition at line 434 of file theory_arith_old.cpp.
bool TheoryArithOld::pickIntEqMonomial | ( | const Expr & | right, | |
Expr & | isolated, | |||
bool & | nonlin | |||
) | [private] |
picks the monomial with the smallest abs(coeff) from the input
pick a monomial for the input equation. This function is used only if the equation is an integer equation. Choose the monomial with the smallest absolute value of coefficient.
Definition at line 563 of file theory_arith_old.cpp.
References DebugAssert, CVC3::Theory::isLeaf(), CVC3::Theory::isLeafIn(), CVC3::isMult(), CVC3::isPlus(), CVC3::isRational(), MiniSat::min(), and MiniSat::right().
Referenced by processSimpleIntEq().
processes equalities with 1 or more vars of type REAL
input is 0=e' Theorem and some of the vars in e' are of type REAL. isolate one of them and send back to framework. output is "var = e''" Theorem.
Definition at line 615 of file theory_arith_old.cpp.
References canonPred(), d_rules, DebugAssert, CVC3::EQ, CVC3::Theory::getBaseType(), CVC3::Theorem::getExpr(), CVC3::Theorem::getLHS(), CVC3::Expr::getRational(), CVC3::Theorem::getRHS(), CVC3::Theory::iffMP(), isInteger(), CVC3::Theory::isLeaf(), CVC3::Theory::isLeafIn(), CVC3::isMult(), isNonlinearEq(), CVC3::isPlus(), CVC3::isRational(), CVC3::Expr::isRational(), CVC3::isReal(), MiniSat::left(), CVC3::ArithProofRules::multEqn(), CVC3::ArithProofRules::plusPredicate(), processIntEq(), CVC3::TheoryArith::rat(), MiniSat::right(), and CVC3::TRACE.
Referenced by doSolve().
processes equalities whose vars are all of type INT
input is 0=e' Theorem and all of the vars in e' are of type INT. isolate one of them and send back to framework. output is "var = e''" Theorem and some associated equations in solved form.
Definition at line 869 of file theory_arith_old.cpp.
References CVC3::CommonProofRules::andElim(), CVC3::Expr::arity(), DebugAssert, CVC3::Theory::getCommonRules(), CVC3::Theorem::getExpr(), CVC3::Expr::isAnd(), CVC3::Expr::isBoolConst(), CVC3::Expr::isFalse(), CVC3::Theorem::isRewrite(), processSimpleIntEq(), solvedForm(), CVC3::Expr::toString(), and CVC3::TRACE.
Referenced by doSolve(), and processRealEq().
One step of INT equality processing (aux. method for processIntEq()).
eqn | is a single equation 0 = e |
Definition at line 739 of file theory_arith_old.cpp.
References CVC3::CommonProofRules::andIntro(), CVC3::Expr::arity(), CVC3::Expr::begin(), canonPred(), d_rules, DebugAssert, CVC3::Expr::end(), CVC3::EQ, CVC3::ArithProofRules::eqElimIntRule(), CVC3::Theory::getCommonRules(), CVC3::Theorem::getExpr(), CVC3::Theorem::getLHS(), CVC3::Expr::getRational(), CVC3::Theorem::getRHS(), CVC3::Theory::iffMP(), CVC3::ArithProofRules::intVarEqnConst(), isIntegerThm(), isIntx(), CVC3::Theory::isLeaf(), CVC3::isMult(), CVC3::isPlus(), CVC3::isPow(), CVC3::Expr::isRational(), CVC3::Theorem::isRewrite(), CVC3::ArithProofRules::multEqn(), pickIntEqMonomial(), CVC3::ArithProofRules::plusPredicate(), CVC3::TheoryArith::rat(), MiniSat::right(), separateMonomial(), CVC3::CommonProofRules::skolemize(), CVC3::Theory::symmetryRule(), CVC3::Theorem::toString(), CVC3::Expr::toString(), and CVC3::TRACE.
Referenced by processIntEq().
void TheoryArithOld::processBuffer | ( | ) | [private] |
Process inequalities in the buffer.
Definition at line 1037 of file theory_arith_old.cpp.
References alreadyProjected, CVC3::Expr::begin(), d_buffer_0, d_buffer_1, d_buffer_2, d_buffer_3, d_bufferIdx_0, d_bufferIdx_1, d_bufferIdx_2, d_bufferIdx_3, DebugAssert, diffLogicOnly, CVC3::Expr::end(), CVC3::CDMap< Key, Data, HashFcn >::end(), extractTermsFromInequality(), CVC3::CDMap< Key, Data, HashFcn >::find(), CVC3::Theorem::getExpr(), CVC3::Theory::inconsistent(), inequalityToFind(), CVC3::Expr::isFalse(), CVC3::isIneq(), isolateVariable(), CVC3::isPlus(), CVC3::Expr::isTrue(), projectInequalities(), CVC3::Theory::setInconsistent(), CVC3::CDList< T >::size(), termLowerBound, termLowerBoundThm, CVC3::Expr::toString(), CVC3::TRACE, and updateStats().
Referenced by assertFact(), and checkSat().
Take an inequality and isolate a variable.
Definition at line 1497 of file theory_arith_old.cpp.
References alreadyProjected, canon(), canonPred(), computeNormalFactor(), CVC3::ArithProofRules::constPredicate(), d_rules, DebugAssert, CVC3::Theorem::getExpr(), CVC3::Expr::getKind(), CVC3::Expr::getRational(), CVC3::Theorem::getRHS(), CVC3::Theory::iffMP(), CVC3::isLE(), CVC3::isLT(), CVC3::isMult(), CVC3::isPlus(), CVC3::isRational(), CVC3::ArithProofRules::multIneqn(), pickMonomial(), CVC3::ArithProofRules::plusPredicate(), rafineInequalityToInteger(), CVC3::TheoryArith::rat(), MiniSat::right(), CVC3::Theorem::toString(), CVC3::Expr::toString(), CVC3::TRACE, and zero.
Referenced by processBuffer().
Update the statistics counters for the variable with a coeff. c.
Definition at line 1141 of file theory_arith_old.cpp.
References CVC3::CDMap< Key, Data, HashFcn >::count(), d_countLeft, d_countRight, CVC3::TheoryArith::d_realType, CVC3::ExprMap< Data >::end(), CVC3::ExprMap< Data >::find(), CVC3::Expr::getType(), CVC3::Expr::isRational(), maxCoefficientLeft, maxCoefficientRight, CVC3::Rational::toString(), and CVC3::TRACE.
Referenced by addToBuffer(), processBuffer(), and updateStats().
void TheoryArithOld::updateStats | ( | const Expr & | monomial | ) | [private] |
Update the statistics counters for the monomial.
Definition at line 1187 of file theory_arith_old.cpp.
References CVC3::Expr::getRational(), separateMonomial(), and updateStats().
bool TheoryArithOld::addToBuffer | ( | const Theorem & | thm, | |
bool | priority = false | |||
) | [private] |
Add an inequality to the input buffer. See also d_buffer.
Definition at line 1239 of file theory_arith_old.cpp.
References CVC3::TheoryArithOld::DifferenceLogicGraph::addEdge(), CVC3::ArithProofRules::addInequalities(), alreadyProjected, CVC3::Expr::begin(), bufferedInequalities, CVC3::ArithProofRules::compactNonLinearTerm(), d_buffer_0, d_buffer_1, d_buffer_2, d_buffer_3, d_rules, diff_logic_size, diffLogicGraph, diffLogicOnly, dontBuffer, CVC3::ExprMap< Data >::end(), CVC3::CDMap< Key, Data, HashFcn >::end(), CVC3::Expr::end(), CVC3::Theory::enqueueFact(), extractTermsFromInequality(), CVC3::Theory::find(), CVC3::ExprMap< Data >::find(), CVC3::CDMap< Key, Data, HashFcn >::find(), formulaAtomLowerBound, formulaAtoms, formulaAtomUpperBound, CVC3::Theory::getCommonRules(), CVC3::Theorem::getExpr(), CVC3::Expr::getKind(), CVC3::Expr::getRational(), CVC3::TheoryCore::getResource(), CVC3::Theorem::getRHS(), CVC3::TheoryArithOld::DifferenceLogicGraph::getUnsatTheorem(), CVC3::Theory::iffMP(), CVC3::CommonProofRules::implMP(), CVC3::ArithProofRules::implyNegatedInequality(), CVC3::ArithProofRules::implyWeakerInequality(), CVC3::Theory::isLeaf(), CVC3::isMult(), CVC3::isPlus(), CVC3::isPow(), CVC3::isRational(), CVC3::TheoryArithOld::DifferenceLogicGraph::isUnsat(), CVC3::LE, CVC3::LT, CVC3::ArithProofRules::nonLinearIneqSignSplit(), CVC3::CDList< T >::push_back(), CVC3::TheoryArith::rat(), CVC3::Theory::reflexivityRule(), separateMonomial(), CVC3::Theory::setIncomplete(), CVC3::Theory::setInconsistent(), CVC3::TheoryCore::setupTerm(), CVC3::Theory::substitutivityRule(), termLowerBound, termLowerBoundThm, termUpperBound, termUpperBoundThm, CVC3::Theory::theoryCore(), CVC3::Expr::toString(), CVC3::TRACE, updateStats(), and zero.
Referenced by assertFact(), and projectInequalities().
Given a canonized term, compute a factor to make all coefficients integer and relatively prime.
Definition at line 1577 of file theory_arith_old.cpp.
References CVC3::Rational::getDenominator(), CVC3::Rational::getNumerator(), CVC3::isMult(), CVC3::isPlus(), CVC3::MULT, CVC3::TheoryArith::rat(), CVC3::RATIONAL_EXPR, and MiniSat::right().
Referenced by isolateVariable(), and normalize().
Normalize an equation (make all coefficients rel. prime integers).
accepts a rewrite theorem over eqn|ineqn and normalizes it and returns a theorem to that effect. assumes e is non-trivial i.e. e is not '0=const' or 'const=0' or '0 <= const' etc.
Definition at line 3162 of file theory_arith_old.cpp.
References canonPredEquiv(), checkIntegerEquality(), computeNormalFactor(), d_rules, DebugAssert, CVC3::EQ, CVC3::GE, CVC3::Expr::getKind(), CVC3::GT, CVC3::Expr::isEq(), CVC3::isIneq(), CVC3::isRational(), CVC3::LE, CVC3::LT, CVC3::ArithProofRules::multEqn(), CVC3::ArithProofRules::multIneqn(), rafineInequalityToInteger(), CVC3::Theory::reflexivityRule(), CVC3::Expr::toString(), and CVC3::TRACE.
Referenced by doSolve(), inequalityToFind(), normalize(), normalizeProjectIneqs(), and rewrite().
Normalize an equation (make all coefficients rel. prime integers).
accepts a rewrite theorem over eqn|ineqn and normalizes it and returns a theorem to that effect.
Definition at line 3238 of file theory_arith_old.cpp.
References CVC3::Theory::iffMP(), CVC3::Theorem::isRewrite(), normalize(), and CVC3::Theory::transitivityRule().
Definition at line 2015 of file theory_arith_old.cpp.
References CVC3::TheoryArithOld::VarOrderGraph::addEdge(), CVC3::CDMap< Key, Data, HashFcn >::count(), d_countLeft, d_countRight, d_graph, DebugAssert, CVC3::isPlus(), lessThanVar(), MiniSat::right(), CVC3::TheoryArithOld::VarOrderGraph::selectLargest(), selectSmallestByCoefficient(), separateMonomial(), CVC3::Theory::theoryCore(), and CVC3::TRACE.
Referenced by isolateVariable().
Definition at line 705 of file theory_arith_old.cpp.
References CVC3::Expr::arity(), CVC3::Expr::begin(), DebugAssert, CVC3::Expr::end(), CVC3::Expr::getKind(), CVC3::isIntegerConst(), CVC3::Theory::isLeaf(), CVC3::MULT, CVC3::POW, CVC3::RATIONAL_EXPR, and CVC3::Expr::toString().
Referenced by rewrite().
Separate monomial e = c*p1*...*pn into c and 1*p1*...*pn.
Implements CVC3::TheoryArith.
Definition at line 1682 of file theory_arith_old.cpp.
References CVC3::Expr::arity(), DebugAssert, CVC3::Expr::getKids(), CVC3::isMult(), CVC3::isPlus(), CVC3::isRational(), CVC3::Expr::isRational(), CVC3::multExpr(), CVC3::TheoryArith::rat(), CVC3::Expr::toString(), and CVC3::TRACE.
Referenced by addToBuffer(), CVC3::ArithTheoremProducerOld::darkGrayShadow2ab(), CVC3::ArithTheoremProducerOld::darkGrayShadow2ba(), CVC3::ArithTheoremProducerOld::eqElimIntRule(), findRationalBound(), getLowerBound(), getUpperBound(), CVC3::ArithTheoremProducerOld::grayShadowConst(), CVC3::ArithTheoremProducerOld::intVarEqnConst(), isConstrainedAbove(), isConstrainedBelow(), lessThanVar(), normalizeProjectIneqs(), pickMonomial(), processSimpleIntEq(), projectInequalities(), and updateStats().
bool CVC3::TheoryArithOld::isInteger | ( | const Expr & | e | ) | [inline] |
Check the term t for integrality (return bool).
Definition at line 258 of file theory_arith_old.h.
References CVC3::Expr::getType(), CVC3::isInt(), isIntegerThm(), and CVC3::isReal().
Referenced by assertFact(), assignVariables(), computeType(), doSolve(), CVC3::ArithTheoremProducerOld::IsIntegerElim(), isPowerEquality(), print(), processFiniteInterval(), processFiniteIntervals(), processRealEq(), solve(), and update().
Definition at line 1621 of file theory_arith_old.cpp.
References DebugAssert, CVC3::isRational(), separateMonomial(), and CVC3::Expr::toString().
Referenced by pickMonomial().
bool TheoryArithOld::isStale | ( | const Expr & | e | ) | [private] |
Check if the term expression is "stale".
"Stale" means it contains non-simplified subexpressions. For terms, it checks the expression's find pointer; for formulas it checks the children recursively (no caching!). So, apply it with caution, and only to simple atomic formulas (like inequality).
Definition at line 1637 of file theory_arith_old.cpp.
References CVC3::Expr::begin(), CVC3::Expr::end(), CVC3::Theory::find(), CVC3::Theorem::getRHS(), and CVC3::Expr::isTerm().
Referenced by isStale(), and projectInequalities().
bool TheoryArithOld::isStale | ( | const Ineq & | ineq | ) | [private] |
Check if the inequality is "stale" or subsumed.
Definition at line 1649 of file theory_arith_old.cpp.
References CVC3::Theory::find(), freeConstIneq(), CVC3::TheoryArithOld::FreeConst::getConst(), CVC3::TheoryArithOld::Ineq::getConst(), CVC3::Theorem::getExpr(), CVC3::Theorem::getRHS(), CVC3::Expr::hasFind(), CVC3::TheoryArithOld::Ineq::ineq(), CVC3::isLT(), isStale(), CVC3::TheoryArithOld::FreeConst::strict(), CVC3::TRACE, and CVC3::TheoryArithOld::Ineq::varOnRHS().
void TheoryArithOld::projectInequalities | ( | const Theorem & | theInequality, | |
bool | isolatedVarOnRHS | |||
) | [private] |
Definition at line 1708 of file theory_arith_old.cpp.
References addToBuffer(), canonPred(), d_inequalitiesLeftDB, d_inequalitiesRightDB, d_rules, DebugAssert, CVC3::ExprMap< Data >::end(), CVC3::Theory::enqueueFact(), CVC3::ExprMap< Data >::find(), CVC3::TheoryCore::getCM(), CVC3::ContextManager::getCurrentContext(), CVC3::Theorem::getExpr(), IF_DEBUG, CVC3::Theory::iffMP(), CVC3::Theory::inconsistent(), CVC3::Expr::isEq(), CVC3::Expr::isFalse(), isIntegerThm(), CVC3::isLE(), CVC3::isLT(), CVC3::isMult(), CVC3::Theorem::isNull(), CVC3::isPow(), isStale(), CVC3::Expr::isTrue(), CVC3::ArithProofRules::lessThanToLE(), normalizeProjectIneqs(), separateMonomial(), CVC3::Theory::setIncomplete(), CVC3::Theory::setInconsistent(), CVC3::TheoryCore::setupTerm(), CVC3::CDList< T >::size(), CVC3::Theory::theoryCore(), CVC3::Theorem::toString(), CVC3::TRACE, TRACE_MSG, and updateSubsumptionDB().
Referenced by processBuffer().
void TheoryArithOld::assignVariables | ( | std::vector< Expr > & | v | ) | [private] |
Definition at line 2999 of file theory_arith_old.cpp.
References CVC3::Theory::assignValue(), CVC3::TheoryArithOld::DifferenceLogicGraph::computeModel(), d_graph, diffLogicGraph, diffLogicOnly, findBounds(), CVC3::Theory::findExpr(), CVC3::TheoryArithOld::DifferenceLogicGraph::getValuation(), CVC3::Theory::inconsistent(), CVC3::Rational::isInteger(), isInteger(), CVC3::TheoryArith::rat(), CVC3::TheoryArithOld::VarOrderGraph::selectSmallest(), and CVC3::TRACE.
Referenced by computeModelBasic().
void TheoryArithOld::findRationalBound | ( | const Expr & | varSide, | |
const Expr & | ratSide, | |||
const Expr & | var, | |||
Rational & | r | |||
) | [private] |
Definition at line 2927 of file theory_arith_old.cpp.
References DebugAssert, CVC3::Expr::eqExpr(), CVC3::Theory::findExpr(), CVC3::Expr::getRational(), isNonlinearEq(), CVC3::isRational(), CVC3::TheoryArith::rat(), separateMonomial(), and CVC3::Expr::toString().
Referenced by findBounds().
Definition at line 2948 of file theory_arith_old.cpp.
References CVC3::ExprMap< Data >::count(), d_inequalitiesLeftDB, d_inequalitiesRightDB, DebugAssert, findRationalBound(), CVC3::isLT(), MiniSat::left(), MiniSat::right(), CVC3::CDList< T >::size(), CVC3::ExprMap< Data >::size(), CVC3::Rational::toString(), and CVC3::TRACE.
Referenced by assignVariables().
Theorem TheoryArithOld::normalizeProjectIneqs | ( | const Theorem & | ineqThm1, | |
const Theorem & | ineqThm2 | |||
) | [private] |
Definition at line 1820 of file theory_arith_old.cpp.
References CVC3::Theory::addSplitter(), CVC3::Expr::arity(), canonPred(), CVC3::ArithProofRules::constPredicate(), d_rules, CVC3::ArithProofRules::darkGrayShadow2ab(), CVC3::ArithProofRules::darkGrayShadow2ba(), DebugAssert, CVC3::Theory::enqueueFact(), CVC3::Theorem::getExpr(), CVC3::GRAY_SHADOW, IF_DEBUG, CVC3::Theory::iffMP(), CVC3::isInt(), isIntegerThm(), isIntx(), CVC3::isLE(), CVC3::isLT(), CVC3::isMult(), CVC3::Theorem::isNull(), CVC3::Expr::isOr(), CVC3::isPlus(), CVC3::isRational(), CVC3::ArithProofRules::multIneqn(), normalize(), CVC3::TheoryArith::rat(), CVC3::ArithProofRules::realShadow(), CVC3::ArithProofRules::realShadowEq(), MiniSat::right(), CVC3::ArithProofRules::rightMinusLeft(), separateMonomial(), CVC3::Theory::simplifyExpr(), CVC3::Expr::toString(), and CVC3::TRACE.
Referenced by projectInequalities().
Take a system of equations and turn it into a solved form.
Takes a vector of equations and for every equation x_i=t_i substitutes t_j for x_j in t_i for all j>i. This turns the system of equations into a solved form.
Assumption: variables x_j may appear in the RHS terms t_i ONLY for i<j, but not for i>=j.
Definition at line 912 of file theory_arith_old.cpp.
References CVC3::CommonProofRules::andIntro(), CVC3::ExprMap< Data >::begin(), DebugAssert, CVC3::ExprMap< Data >::end(), CVC3::Theory::getCommonRules(), IF_DEBUG, substAndCanonize(), CVC3::TRACE, and TRACE_MSG.
Referenced by processIntEq().
Substitute all vars in term 't' according to the substitution 'subst' and canonize the result.
ASSUMPTION: 't' is a fully canonized arithmetic term, and every element of subst is a fully canonized equation of the form x=e, indexed by the LHS variable.
Definition at line 966 of file theory_arith_old.cpp.
References CVC3::Expr::arity(), CVC3::TheoryArith::canonThm(), CVC3::ExprMap< Data >::empty(), CVC3::ExprMap< Data >::end(), CVC3::ExprMap< Data >::find(), CVC3::Theory::isLeaf(), CVC3::Theory::reflexivityRule(), CVC3::Theory::substitutivityRule(), and CVC3::TRACE.
Referenced by solvedForm(), and substAndCanonize().
Theorem TheoryArithOld::substAndCanonize | ( | const Theorem & | eq, | |
ExprMap< Theorem > & | subst | |||
) | [private] |
Substitute all vars in the RHS of the equation 'eq' of the form (x = t) according to the substitution 'subst', and canonize the result.
ASSUMPTION: 't' is a fully canonized equation of the form x = t, and so is every element of subst, indexed by the LHS variable.
Definition at line 1017 of file theory_arith_old.cpp.
References DebugAssert, CVC3::ExprMap< Data >::empty(), CVC3::Theorem::getRHS(), CVC3::Theory::iffMP(), CVC3::Theorem::isRewrite(), substAndCanonize(), and CVC3::Theory::substitutivityRule().
void TheoryArithOld::collectVars | ( | const Expr & | e, | |
std::vector< Expr > & | vars, | |||
std::set< Expr > & | cache | |||
) | [private] |
Traverse 'e' and push all the i-leaves into 'vars' vector.
Definition at line 2355 of file theory_arith_old.cpp.
References CVC3::Theory::isLeaf().
void TheoryArithOld::processFiniteInterval | ( | const Theorem & | alphaLEax, | |
const Theorem & | bxLEbeta | |||
) | [private] |
Check if alpha <= ax & bx <= beta is a finite interval for integer var 'x', and assert the corresponding constraint.
Definition at line 2369 of file theory_arith_old.cpp.
References canon(), canonPred(), d_rules, d_sharedTerms, DebugAssert, CVC3::CDMap< Key, Data, HashFcn >::end(), CVC3::Theory::enqueueFact(), CVC3::CDMap< Key, Data, HashFcn >::find(), CVC3::ArithProofRules::finiteInterval(), CVC3::Theorem::getExpr(), CVC3::Expr::getRational(), CVC3::Theorem::getRHS(), CVC3::Theory::iffMP(), isInteger(), isIntegerThm(), CVC3::isLE(), CVC3::isMult(), CVC3::isPlus(), CVC3::Expr::isRational(), CVC3::isRational(), CVC3::ArithProofRules::multIneqn(), CVC3::TheoryArith::rat(), CVC3::Theory::substitutivityRule(), CVC3::Theory::symmetryRule(), and CVC3::Expr::toString().
Referenced by processFiniteIntervals().
void TheoryArithOld::processFiniteIntervals | ( | const Expr & | x | ) | [private] |
For an integer var 'x', find and process all constraints A <= ax <= A+c.
Definition at line 2428 of file theory_arith_old.cpp.
References d_inequalitiesLeftDB, d_inequalitiesRightDB, CVC3::ExprMap< Data >::end(), CVC3::ExprMap< Data >::find(), isInteger(), processFiniteInterval(), and CVC3::CDList< T >::size().
void TheoryArithOld::setupRec | ( | const Expr & | e | ) | [private] |
Recursive setup for isolated inequalities (and other new expressions).
This function recursively decends expression tree without caching until it hits a node that is already setup. Be careful on what expressions you are calling it.
Definition at line 2454 of file theory_arith_old.cpp.
References CVC3::Expr::arity(), CVC3::Expr::hasFind(), CVC3::Theory::reflexivityRule(), CVC3::Expr::setEqNext(), CVC3::Expr::setFind(), and setup().
ArithProofRules * TheoryArithOld::createProofRulesOld | ( | ) |
Definition at line 44 of file arith_theorem_producer_old.cpp.
References CVC3::Theory::theoryCore().
Referenced by TheoryArithOld().
void TheoryArithOld::addSharedTerm | ( | const Expr & | e | ) | [virtual] |
Notify theory of a new shared term.
When a term e associated with theory i occurs as a child of an expression associated with theory j, the framework calls i->addSharedTerm(e) and j->addSharedTerm(e)
Implements CVC3::TheoryArith.
Definition at line 2468 of file theory_arith_old.cpp.
References d_sharedTerms, d_sharedTermsList, CVC3::CDMap< Key, Data, HashFcn >::end(), CVC3::CDMap< Key, Data, HashFcn >::find(), and CVC3::CDList< T >::push_back().
Referenced by update().
void TheoryArithOld::assertFact | ( | const Theorem & | e | ) | [virtual] |
Assert a new fact to the decision procedure.
Each fact that makes it into the core framework is assigned to exactly one theory: the theory associated with that fact. assertFact is called to inform the theory that a new fact has been assigned to the theory.
Implements CVC3::TheoryArith.
Definition at line 2486 of file theory_arith_old.cpp.
References addToBuffer(), d_buffer_0, d_buffer_1, d_buffer_2, d_buffer_3, d_bufferIdx_0, d_bufferIdx_1, d_bufferIdx_2, d_bufferIdx_3, d_bufferThres, d_diseq, d_grayShadowThres, d_inModelCreation, d_rules, DebugAssert, diffLogicOnly, CVC3::Theory::enqueueFact(), CVC3::ArithProofRules::expandDarkShadow(), CVC3::ArithProofRules::expandGrayShadow(), CVC3::ArithProofRules::expandGrayShadow0(), CVC3::Theorem::getExpr(), CVC3::Expr::getRational(), CVC3::ArithProofRules::grayShadowConst(), IF_DEBUG, CVC3::IS_INTEGER, CVC3::isDarkShadow(), CVC3::Expr::isEq(), CVC3::Expr::isFalse(), CVC3::isGrayShadow(), isInteger(), CVC3::ArithProofRules::IsIntegerElim(), CVC3::isIntPred(), CVC3::isLE(), CVC3::isLT(), CVC3::isMult(), CVC3::Expr::isNot(), CVC3::Expr::isRational(), multiplicativeSignSplits, processBuffer(), CVC3::CDList< T >::push_back(), CVC3::Theory::setIncomplete(), CVC3::Theory::setInconsistent(), CVC3::CDList< T >::size(), CVC3::ArithProofRules::splitGrayShadow(), CVC3::ArithProofRules::splitGrayShadowSmall(), CVC3::Expr::toString(), and CVC3::TRACE.
void TheoryArithOld::refineCounterExample | ( | ) | [virtual] |
Process disequalities from the arrangement for model generation.
Implements CVC3::TheoryArith.
Definition at line 2894 of file theory_arith_old.cpp.
References CVC3::Theory::addSplitter(), CVC3::CDMap< Key, Data, HashFcn >::begin(), d_inModelCreation, d_sharedTerms, DebugAssert, CVC3::CDMap< Key, Data, HashFcn >::end(), CVC3::Theory::findExpr(), CVC3::Theory::getBaseType(), CVC3::isReal(), CVC3::Theory::simplifyExpr(), and CVC3::TRACE.
void TheoryArithOld::computeModelBasic | ( | const std::vector< Expr > & | v | ) | [virtual] |
Assign concrete values to basic-type variables in v.
Implements CVC3::TheoryArith.
Definition at line 3050 of file theory_arith_old.cpp.
References assignVariables(), d_inModelCreation, CVC3::Theory::findExpr(), and CVC3::TRACE.
Compute the value of a compound variable from the more primitive ones.
The more primitive variables for e are already assigned concrete values, and are available through getModelValue().
The new value for e must be assigned using assignValue() method.
e | is the compound type expression to assign a value; | |
vars | are the variables actually assigned. Normally, 'e' is the only element of vars. However, e.g. in the case of uninterpreted functions, assigning 'f' means assigning all relevant applications of 'f' to constant values (f(0), f(5), etc.). Such applications might not be known before the model is constructed (they may be of the form f(x), f(y+z), etc., where x,y,z are still unassigned). |
Implements CVC3::TheoryArith.
Definition at line 3073 of file theory_arith_old.cpp.
References CVC3::Theory::assignValue(), DebugAssert, CVC3::Theory::findExpr(), CVC3::isRational(), CVC3::Theory::simplify(), and CVC3::Expr::toString().
void TheoryArithOld::checkSat | ( | bool | fullEffort | ) | [virtual] |
Check for satisfiability in the theory.
fullEffort | when it is false, checkSat can do as much or as little work as it likes, though simple inferences and checks for consistency should be done to increase efficiency. If fullEffort is true, checkSat must check whether the set of facts given by assertFact together with the arrangement of shared terms (provided by addSharedTerm) induced by the global find database equivalence relation are satisfiable. If satisfiable, checkSat does nothing. |
Implements CVC3::TheoryArith.
Definition at line 2687 of file theory_arith_old.cpp.
References CVC3::Theory::addSplitter(), CVC3::TheoryArith::canonSimp(), computeTermBounds(), d_buffer_0, d_buffer_1, d_buffer_2, d_buffer_3, d_diseq, d_diseqIdx, d_inModelCreation, d_rules, d_sharedTermsList, DebugAssert, diseqSplitAlready, CVC3::ArithProofRules::diseqToIneq(), CVC3::CDMap< Key, Data, HashFcn >::end(), std::endl(), CVC3::Theory::enqueueFact(), CVC3::Theory::find(), CVC3::CDMap< Key, Data, HashFcn >::find(), CVC3::Theorem::getExpr(), getLowerBound(), CVC3::Theorem::getRHS(), getUpperBound(), CVC3::Expr::hasFind(), IF_DEBUG, CVC3::Theory::inconsistent(), CVC3::Expr::isBoolConst(), isConstrained(), CVC3::Expr::isFalse(), isIntegerThm(), isNonlinearEq(), CVC3::Expr::isNull(), CVC3::Expr::isRational(), processBuffer(), shared_index_1, shared_index_2, CVC3::CDList< T >::size(), CVC3::Expr::toString(), and CVC3::TRACE.
Theory-specific rewrite rules.
By default, rewrite just returns a reflexive theorem stating that the input expression is equivalent to itself. However, rewrite is allowed to return any theorem which describes how the input expression is equivalent to some new expression. rewrite should be used to perform simplifications, normalization, and any other preprocessing on theory-specific expressions that needs to be done.
Implements CVC3::TheoryArith.
Definition at line 3244 of file theory_arith_old.cpp.
References canon(), canonPredEquiv(), canPickEqMonomial(), CVC3::ArithProofRules::constPredicate(), d_rules, CVC3::DARK_SHADOW, DebugAssert, CVC3::ArithProofRules::divideEqnNonConst(), CVC3::ArithProofRules::elimPower(), CVC3::ArithProofRules::elimPowerConst(), CVC3::EQ, CVC3::ArithProofRules::eqToIneq(), CVC3::ArithProofRules::evenPowerEqNegConst(), CVC3::ArithProofRules::flipInequality(), CVC3::GE, CVC3::Theory::getCommonRules(), getFactors(), CVC3::Expr::getKind(), CVC3::Expr::getRational(), CVC3::Theorem::getRHS(), CVC3::Rational::getUnsigned(), CVC3::GRAY_SHADOW, CVC3::GT, CVC3::CommonProofRules::iffTrue(), CVC3::ArithProofRules::intEqIrrational(), CVC3::IS_INTEGER, CVC3::Expr::isAbsLiteral(), CVC3::Expr::isAtomic(), CVC3::Expr::isBoolConst(), CVC3::Expr::isEq(), CVC3::isGE(), CVC3::isGT(), CVC3::isIneq(), isIntegerDerive(), isIntegerThm(), CVC3::Theory::isLeaf(), CVC3::isLT(), isNonlinearEq(), isNonlinearSumTerm(), CVC3::Theorem::isNull(), CVC3::isPlus(), isPowerEquality(), isPowersEquality(), CVC3::Expr::isPropAtom(), CVC3::Expr::isRational(), CVC3::isRational(), CVC3::Theorem::isRefl(), CVC3::Expr::isTerm(), CVC3::LE, CVC3::TheoryArith::leavesAreNumConst(), CVC3::Theory::leavesAreSimp(), MiniSat::left(), CVC3::ArithProofRules::lessThanToLERewrite(), CVC3::LT, CVC3::ArithProofRules::multEqZero(), CVC3::ArithProofRules::negatedInequality(), normalize(), CVC3::NOT, CVC3::TheoryArith::rat(), CVC3::ratRoot(), CVC3::Theory::reflexivityRule(), CVC3::ArithProofRules::rewriteLeavesConst(), MiniSat::right(), CVC3::ArithProofRules::rightMinusLeft(), CVC3::Expr::setRewriteNormal(), CVC3::Theory::simplify(), CVC3::Theory::theoryCore(), CVC3::Theory::theoryOf(), CVC3::TRACE, CVC3::Theory::transitivityRule(), and CVC3::Theory::typePred().
Referenced by checkIntegerEquality(), and rafineInequalityToInteger().
void TheoryArithOld::setup | ( | const Expr & | e | ) | [virtual] |
Set up the term e for call-backs when e or its children change.
setup is called once for each expression associated with the theory. It is typically used to setup theory-specific data for an expression and to add call-back information for use with update.
Implements CVC3::TheoryArith.
Definition at line 3522 of file theory_arith_old.cpp.
References CVC3::Expr::arity(), DebugAssert, CVC3::isIneq(), CVC3::isLE(), CVC3::isLT(), CVC3::Expr::isNot(), CVC3::isRational(), CVC3::Expr::isTerm(), and CVC3::TRACE.
Referenced by setupRec().
Notify a theory of a new equality.
update is a call-back used by the notify mechanism of the core theory. It works as follows. When an equation t1 = t2 makes it into the core framework, the two find equivalence classes for t1 and t2 are merged. The result is that t2 is the new equivalence class representative and t1 is no longer an equivalence class representative. When this happens, the notify list of t1 is traversed. Notify list entries consist of a theory and an expression d. For each entry (i,d), i->update(e, d) is called, where e is the theorem corresponding to the equality t1=t2.
To add the entry (i,d) to a term t1's notify list, a call must be made to t1.addNotify(i,d). This is typically done in setup.
Implements CVC3::TheoryArith.
Definition at line 3557 of file theory_arith_old.cpp.
References addSharedTerm(), CVC3::Expr::addToNotify(), alreadyProjected, CVC3::Theory::assertEqualities(), bufferedInequalities, d_sharedTerms, DebugAssert, dontBuffer, CVC3::CDMap< Key, Data, HashFcn >::end(), CVC3::Theory::enqueueFact(), CVC3::Theory::falseExpr(), CVC3::CDMap< Key, Data, HashFcn >::find(), CVC3::Theory::find(), CVC3::Theory::findExpr(), CVC3::Theory::getCommonRules(), CVC3::Theorem::getExpr(), CVC3::Theorem::getLHS(), CVC3::Theorem::getRHS(), CVC3::Expr::hasFind(), IF_DEBUG, CVC3::Theory::iffMP(), CVC3::Theory::inconsistent(), CVC3::IS_INTEGER, CVC3::Expr::isAtomic(), CVC3::isIneq(), isInteger(), CVC3::isRational(), CVC3::Expr::isRational(), CVC3::Theory::setInconsistent(), CVC3::Theory::simplify(), CVC3::Theory::substitutivityRule(), CVC3::Theory::symmetryRule(), CVC3::Expr::toString(), CVC3::TRACE, CVC3::Theory::transitivityRule(), and CVC3::Theory::trueExpr().
An optional solver.
The solve method can be used to implement a Shostak-style solver. Since solvers do not in general combine, the following technique is used. One theory is designated as the primary solver (in our case, it is the theory of arithmetic). For each equation that enters the core framework, the primary solver is called to ensure that the equation is in solved form with respect to the primary theory.
After the primary solver, the solver for the theory associated with the equation is called. This solver can do whatever it likes, as long as the result is still in solved form with respect to the primary solver. This is a slight generalization of what is described in my (Clark)'s PhD thesis.
Implements CVC3::TheoryArith.
Definition at line 3714 of file theory_arith_old.cpp.
References DebugAssert, doSolve(), CVC3::Theorem::getLHS(), CVC3::Theorem::getRHS(), isInteger(), CVC3::Theory::isLeaf(), CVC3::Theory::isLeafIn(), CVC3::Theorem::isRewrite(), CVC3::Expr::isTerm(), and CVC3::Theory::symmetryRule().
void TheoryArithOld::checkAssertEqInvariant | ( | const Theorem & | e | ) | [virtual] |
A debug check used by the primary solver.
Implements CVC3::TheoryArith.
Definition at line 3788 of file theory_arith_old.cpp.
References CVC3::CommonProofRules::andElim(), CVC3::Expr::arity(), CVC3::TheoryArith::canonSimp(), DebugAssert, CVC3::Theory::getCommonRules(), CVC3::Theorem::getExpr(), CVC3::Theorem::getLHS(), CVC3::Theorem::getRHS(), CVC3::Expr::hasFind(), CVC3::Expr::isFalse(), CVC3::Theory::isLeaf(), CVC3::Theory::isLeafIn(), CVC3::Theorem::isRewrite(), CVC3::Expr::isTerm(), CVC3::Theory::leavesAreSimp(), and CVC3::TheoryArith::recursiveCanonSimpCheck().
void TheoryArithOld::checkType | ( | const Expr & | e | ) | [virtual] |
Check that e is a valid Type expr.
Implements CVC3::TheoryArith.
Definition at line 3840 of file theory_arith_old.cpp.
References CVC3::Expr::arity(), DebugAssert, CVC3::Theory::getEM(), CVC3::Expr::getKind(), CVC3::Expr::getRational(), CVC3::INT, CVC3::isIntegerConst(), CVC3::REAL, CVC3::SUBRANGE, and CVC3::Expr::toString().
Cardinality TheoryArithOld::finiteTypeInfo | ( | Expr & | e, | |
Unsigned & | n, | |||
bool | enumerate, | |||
bool | computeSize | |||
) | [virtual] |
Compute information related to finiteness of types.
Used by the TypeComputer defined in TheoryCore (theories should not call this funtion directly -- they should use the methods in Type instead). Each theory should implement this if it contains any types that could be non-infinite.
1. Returns Cardinality of the type (finite, infinite, or unknown) 2. If cardinality = finite and enumerate is true, sets e to the nth element of the type if it can sets e to NULL if n is out of bounds or if unable to compute nth element 3. If cardinality = finite and computeSize is true, sets n to the size of the type if it can sets n to 0 otherwise
Implements CVC3::TheoryArith.
Definition at line 3864 of file theory_arith_old.cpp.
References CVC3::CARD_FINITE, CVC3::CARD_INFINITE, CVC3::Expr::getKind(), CVC3::Expr::getRational(), CVC3::Rational::getUnsigned(), CVC3::TheoryArith::rat(), and CVC3::SUBRANGE.
void TheoryArithOld::computeType | ( | const Expr & | e | ) | [virtual] |
Compute and store the type of e.
e | is the expression whose type is computed. |
Implements CVC3::TheoryArith.
Definition at line 3892 of file theory_arith_old.cpp.
References CVC3::Expr::arity(), CVC3::Theory::boolType(), CVC3::TheoryArith::d_intType, CVC3::TheoryArith::d_realType, CVC3::DARK_SHADOW, DebugAssert, CVC3::DIVIDE, CVC3::GE, CVC3::Theory::getBaseType(), CVC3::Theory::getEM(), CVC3::Expr::getKind(), CVC3::Expr::getRational(), CVC3::Expr::getType(), CVC3::GRAY_SHADOW, CVC3::GT, CVC3::IS_INTEGER, isInteger(), CVC3::Rational::isInteger(), CVC3::Expr::isRational(), CVC3::LE, CVC3::LT, CVC3::MINUS, CVC3::MULT, CVC3::PLUS, CVC3::POW, CVC3::RATIONAL_EXPR, CVC3::REAL_CONST, CVC3::Expr::setType(), CVC3::Expr::toString(), CVC3::Type::toString(), and CVC3::UMINUS.
Compute the base type of the top-level operator of an arbitrary type.
Implements CVC3::TheoryArith.
Definition at line 3975 of file theory_arith_old.cpp.
References DebugAssert, CVC3::Type::getExpr(), CVC3::Expr::getKind(), IF_DEBUG, CVC3::INT, CVC3::REAL, CVC3::TheoryArith::realType(), CVC3::SUBRANGE, and CVC3::Type::toString().
Add variables from 'e' to 'v' for constructing a concrete model.
If e is already of primitive type, do NOT add it to v.
Implements CVC3::TheoryArith.
Definition at line 3742 of file theory_arith_old.cpp.
References CVC3::Expr::begin(), CVC3::DIVIDE, CVC3::Expr::end(), CVC3::Theory::findExpr(), CVC3::Expr::getKind(), CVC3::MULT, CVC3::PLUS, CVC3::POW, CVC3::RATIONAL_EXPR, CVC3::Expr::toString(), and CVC3::TRACE.
Theory specific computation of the subtyping predicate for type t applied to the expression e.
By default returns true. Each theory needs to compute subtype predicates for the types associated with it. So, for example, the theory of records will take a record type [# f1: T1, f2: T2 #] and an expression e and will return the subtyping predicate for e, namely: computeTypePred(T1, e.f1) AND computeTypePred(T2, e.f2)
Implements CVC3::TheoryArith.
Definition at line 3770 of file theory_arith_old.cpp.
References CVC3::andExpr(), CVC3::Expr::getEM(), CVC3::Type::getExpr(), CVC3::Expr::getKind(), CVC3::INT, CVC3::IS_INTEGER, CVC3::leExpr(), CVC3::SUBRANGE, and CVC3::ExprManager::trueExpr().
Compute and cache the TCC of e.
e | is an expression (term or formula). This function computes the TCC of e which is true iff the expression is defined. |
The default implementation is to compute TCCs recursively for all children, and return their conjunction.
Implements CVC3::TheoryArith.
Definition at line 3984 of file theory_arith_old.cpp.
References CVC3::Expr::andExpr(), CVC3::Theory::computeTCC(), DebugAssert, CVC3::DIVIDE, and CVC3::TheoryArith::rat().
ExprStream & TheoryArithOld::print | ( | ExprStream & | os, | |
const Expr & | e | |||
) | [virtual] |
Theory-specific pretty-printing.
By default, print the top node in AST, and resume pretty-printing the children. The same call e.print(os) can be used in DP-specific printers to use AST printing for the given node. In fact, it is strongly recommended to add e.print(os) as the default for all the cases/kinds that are not handled by the particular pretty-printer.
Implements CVC3::TheoryArith.
Definition at line 4118 of file theory_arith_old.cpp.
References CVC3::Expr::arity(), CVC3::DARK_SHADOW, CVC3::DIVIDE, CVC3::GE, CVC3::Expr::getKind(), CVC3::GRAY_SHADOW, CVC3::GT, CVC3::INT, CVC3::IS_INTEGER, CVC3::isInt(), isInteger(), CVC3::isRational(), CVC3::ExprStream::lang(), CVC3::LE, CVC3::LISP_LANG, CVC3::LT, CVC3::MINUS, CVC3::MULT, CVC3::NEGINF, CVC3::PLUS, CVC3::POSINF, CVC3::POW, CVC3::PRESENTATION_LANG, CVC3::Expr::print(), CVC3::TheoryArith::printRational(), CVC3::push(), CVC3::RATIONAL_EXPR, CVC3::REAL, CVC3::REAL_CONST, CVC3::SIMPLIFY_LANG, CVC3::SMTLIB_LANG, CVC3::space(), CVC3::SUBRANGE, CVC3::TPTP_LANG, and CVC3::UMINUS.
Theory-specific parsing implemented by the DP.
Implements CVC3::TheoryArith.
Definition at line 4000 of file theory_arith_old.cpp.
References CVC3::Expr::arity(), CVC3::Expr::begin(), DebugAssert, CVC3::DIVIDE, CVC3::divideExpr(), CVC3::Expr::end(), CVC3::GE, CVC3::geExpr(), CVC3::Expr::getEM(), CVC3::Theory::getEM(), CVC3::ExprManager::getKind(), CVC3::Expr::getKind(), CVC3::GT, CVC3::gtExpr(), CVC3::ID, CVC3::INT, CVC3::INTDIV, CVC3::IS_INTEGER, CVC3::LE, CVC3::leExpr(), CVC3::LT, CVC3::ltExpr(), CVC3::MINUS, CVC3::minusExpr(), CVC3::MOD, CVC3::MULT, CVC3::multExpr(), CVC3::NEGINF, CVC3::ExprManager::newLeafExpr(), CVC3::NULL_KIND, CVC3::Theory::parseExpr(), CVC3::PLUS, CVC3::plusExpr(), CVC3::POSINF, CVC3::POW, CVC3::powExpr(), CVC3::RAW_LIST, CVC3::REAL, CVC3::SMTLIB_LANG, CVC3::SUBRANGE, CVC3::Expr::toString(), CVC3::TRACE, CVC3::UMINUS, and CVC3::uminusExpr().
Returns the current maximal coefficient of the variable.
var | the variable. |
Definition at line 1946 of file theory_arith_old.cpp.
References CVC3::TheoryArith::d_realType, CVC3::ExprMap< Data >::end(), CVC3::ExprMap< Data >::find(), CVC3::Expr::getType(), maxCoefficientLeft, maxCoefficientRight, CVC3::Rational::toString(), CVC3::Expr::toString(), and CVC3::TRACE.
Referenced by selectSmallestByCoefficient().
Fixes the current max coefficient to be used in the ordering. If the maximal coefficient changes in the future, it will not be used in the ordering.
variable | the variable | |
max | the value to set it to |
Definition at line 1978 of file theory_arith_old.cpp.
References fixedMaxCoefficient, and MiniSat::max().
void TheoryArithOld::selectSmallestByCoefficient | ( | const std::vector< Expr > & | input, | |
std::vector< Expr > & | output | |||
) | [private] |
Among given input variables, select the smallest ones with respect to the coefficients.
Definition at line 1982 of file theory_arith_old.cpp.
References currentMaxCoefficient().
Referenced by pickMonomial().
Given an inequality theorem check if it is on integers and get rid of the non-integer constants.
Definition at line 3121 of file theory_arith_old.cpp.
References CVC3::Expr::arity(), canonPred(), canonPredEquiv(), d_rules, DebugAssert, CVC3::Theorem::getExpr(), CVC3::Theorem::getRHS(), CVC3::Theory::iffMP(), CVC3::isIneq(), isIntegerThm(), CVC3::Theorem::isNull(), CVC3::isPlus(), CVC3::isRational(), CVC3::Theorem::isRewrite(), CVC3::plusExpr(), CVC3::ArithProofRules::rafineStrictInteger(), rewrite(), CVC3::TRACE, and CVC3::Theory::transitivityRule().
Referenced by isolateVariable(), and normalize().
Given an equality theorem check if it is on integers with a non-integer constant. If yes, return a theorem 0 = 1
Definition at line 3081 of file theory_arith_old.cpp.
References CVC3::Expr::arity(), d_rules, DebugAssert, CVC3::EQ, CVC3::Theorem::getExpr(), CVC3::Expr::getKind(), CVC3::Expr::getRational(), CVC3::Theorem::getRHS(), CVC3::Theory::iffMP(), CVC3::ArithProofRules::intEqualityRationalConstant(), CVC3::Rational::isInteger(), isIntegerThm(), CVC3::Theorem::isNull(), CVC3::isPlus(), CVC3::isRational(), CVC3::Theorem::isRewrite(), CVC3::plusExpr(), rewrite(), CVC3::TRACE, and CVC3::Theory::transitivityRule().
Referenced by normalize().
Theorem TheoryArithOld::inequalityToFind | ( | const Theorem & | inequalityThm, | |
bool | normalizeRHS | |||
) | [private] |
Takes an inequality theorem and substitutes the rhs for it's find. It also get's normalized.
Definition at line 4626 of file theory_arith_old.cpp.
References CVC3::Theorem::getExpr(), CVC3::Expr::getFind(), CVC3::Theorem::getRHS(), CVC3::Theory::iffMP(), CVC3::isRational(), normalize(), CVC3::Theory::simplify(), CVC3::Theory::substitutivityRule(), CVC3::Expr::toString(), CVC3::TRACE, and CVC3::Theory::transitivityRule().
Referenced by processBuffer().
int TheoryArithOld::extractTermsFromInequality | ( | const Expr & | inequality, | |
Rational & | c1, | |||
Expr & | t1, | |||
Rational & | c2, | |||
Expr & | t2 | |||
) | [private] |
Take inequality of the form 0 op t and extract the c1, t1, c2 and t2, such that c1 <= t1 and t2 <= c2, where c1 and c2 are constants, and t1 and t2 are either sums of monomials or a monomial.
Definition at line 1194 of file theory_arith_old.cpp.
References canon(), DebugAssert, CVC3::Theorem::getRHS(), CVC3::Expr::getString(), CVC3::isIneq(), CVC3::isPlus(), CVC3::isRational(), CVC3::multExpr(), CVC3::plusExpr(), CVC3::TheoryArith::rat(), CVC3::Rational::toString(), CVC3::Expr::toString(), and CVC3::TRACE.
Referenced by addToBuffer(), processBuffer(), and registerAtom().
void TheoryArithOld::registerAtom | ( | const Expr & | e | ) | [private, virtual] |
Theory-specific registration of atoms.
If a theory wants to implement its own theory propagation, it should implement this method and use it to collect all atoms that the core is interested in. If the theory can deduce the atom or its negation, it should do so (using enqueueFact).
Reimplemented from CVC3::Theory.
Definition at line 4675 of file theory_arith_old.cpp.
References d_rules, CVC3::CDMap< Key, Data, HashFcn >::end(), CVC3::Theory::enqueueFact(), extractTermsFromInequality(), CVC3::CDMap< Key, Data, HashFcn >::find(), formulaAtomLowerBound, formulaAtoms, formulaAtomUpperBound, CVC3::Theory::getCommonRules(), CVC3::Expr::getKind(), CVC3::Expr::getRational(), CVC3::CommonProofRules::implMP(), CVC3::ArithProofRules::implyNegatedInequality(), CVC3::ArithProofRules::implyWeakerInequality(), CVC3::ExprMap< Data >::insert(), CVC3::Expr::isAbsAtomicFormula(), CVC3::isIneq(), CVC3::LE, CVC3::LT, termLowerBound, termLowerBoundThm, termUpperBound, termUpperBoundThm, CVC3::Rational::toString(), CVC3::Expr::toString(), and CVC3::TRACE.
int TheoryArithOld::termDegree | ( | const Expr & | e | ) | [private] |
Definition at line 5347 of file theory_arith_old.cpp.
References CVC3::Theory::isLeaf(), CVC3::isMult(), and CVC3::isPow().
bool TheoryArithOld::canPickEqMonomial | ( | const Expr & | right | ) | [private] |
Definition at line 5358 of file theory_arith_old.cpp.
References isIntegerThm(), CVC3::Theory::isLeaf(), CVC3::Theory::isLeafIn(), CVC3::isMult(), and MiniSat::right().
Referenced by rewrite().
bool TheoryArithOld::isBounded | ( | const Expr & | t, | |
BoundsQueryType | queryType = QueryWithCacheLeaves | |||
) | [private] |
Check if the term is bounded. If the term is non-linear, just returns false.
Definition at line 5397 of file theory_arith_old.cpp.
References hasLowerBound(), hasUpperBound(), CVC3::Expr::toString(), and CVC3::TRACE.
bool CVC3::TheoryArithOld::hasLowerBound | ( | const Expr & | t, | |
BoundsQueryType | queryType = QueryWithCacheLeaves | |||
) | [inline, private] |
Definition at line 923 of file theory_arith_old.h.
References getLowerBound(), and CVC3::TheoryArithOld::DifferenceLogicGraph::EpsRational::isFinite().
Referenced by isBounded().
bool CVC3::TheoryArithOld::hasUpperBound | ( | const Expr & | t, | |
BoundsQueryType | queryType = QueryWithCacheLeaves | |||
) | [inline, private] |
Definition at line 924 of file theory_arith_old.h.
References getUpperBound(), and CVC3::TheoryArithOld::DifferenceLogicGraph::EpsRational::isFinite().
Referenced by isBounded().
bool TheoryArithOld::isConstrained | ( | const Expr & | t, | |
bool | intOnly = true , |
|||
BoundsQueryType | queryType = QueryWithCacheLeaves | |||
) | [private] |
Definition at line 5810 of file theory_arith_old.cpp.
References isConstrainedAbove(), isConstrainedBelow(), isIntegerThm(), CVC3::Expr::toString(), and CVC3::TRACE.
Referenced by checkSat(), and computeTermBounds().
bool TheoryArithOld::isConstrainedAbove | ( | const Expr & | t, | |
BoundsQueryType | queryType = QueryWithCacheLeaves | |||
) | [private] |
Definition at line 5703 of file theory_arith_old.cpp.
References CVC3::Expr::arity(), CVC3::CDMap< Key, Data, HashFcn >::end(), CVC3::CDMap< Key, Data, HashFcn >::find(), CVC3::Expr::getRational(), isConstrainedBelow(), CVC3::Theory::isLeaf(), CVC3::isMult(), isNonlinearSumTerm(), CVC3::isPlus(), CVC3::Expr::isRational(), QueryWithCacheAll, separateMonomial(), termConstrainedAbove, CVC3::Expr::toString(), and CVC3::TRACE.
Referenced by computeTermBounds(), getUpperBound(), isConstrained(), and isConstrainedBelow().
bool TheoryArithOld::isConstrainedBelow | ( | const Expr & | t, | |
BoundsQueryType | queryType = QueryWithCacheLeaves | |||
) | [private] |
Definition at line 5757 of file theory_arith_old.cpp.
References CVC3::Expr::arity(), CVC3::CDMap< Key, Data, HashFcn >::end(), CVC3::CDMap< Key, Data, HashFcn >::find(), CVC3::Expr::getRational(), isConstrainedAbove(), CVC3::Theory::isLeaf(), CVC3::isMult(), isNonlinearSumTerm(), CVC3::isPlus(), CVC3::Expr::isRational(), QueryWithCacheAll, separateMonomial(), termConstrainedBelow, CVC3::Expr::toString(), and CVC3::TRACE.
Referenced by computeTermBounds(), getLowerBound(), isConstrained(), and isConstrainedAbove().
TheoryArithOld::DifferenceLogicGraph::EpsRational TheoryArithOld::getUpperBound | ( | const Expr & | t, | |
BoundsQueryType | queryType = QueryWithCacheLeaves | |||
) | [private] |
Check if the term is bounded from above. If the term is non-linear, just returns false.
Definition at line 5402 of file theory_arith_old.cpp.
References CVC3::CDMap< Key, Data, HashFcn >::end(), CVC3::CDMap< Key, Data, HashFcn >::find(), getLowerBound(), CVC3::Expr::getRational(), isConstrainedAbove(), CVC3::TheoryArithOld::DifferenceLogicGraph::EpsRational::isFinite(), CVC3::Theory::isLeaf(), CVC3::isMult(), isNonlinearSumTerm(), CVC3::isPlus(), CVC3::Expr::isRational(), CVC3::TheoryArithOld::DifferenceLogicGraph::EpsRational::PlusInfinity, QueryWithCacheAll, QueryWithCacheLeaves, QueryWithCacheLeavesAndConstrainedComputation, separateMonomial(), termConstrainedAbove, termUpperBounded, CVC3::TheoryArithOld::DifferenceLogicGraph::EpsRational::toString(), CVC3::Rational::toString(), CVC3::Expr::toString(), CVC3::TRACE, and CVC3::TheoryArithOld::DifferenceLogicGraph::EpsRational::Zero.
Referenced by checkSat(), computeTermBounds(), getLowerBound(), and hasUpperBound().
TheoryArithOld::DifferenceLogicGraph::EpsRational TheoryArithOld::getLowerBound | ( | const Expr & | t, | |
BoundsQueryType | queryType = QueryWithCacheLeaves | |||
) | [private] |
Check if the term is bouned from below. If the term is non-linear, just return false.
Definition at line 5474 of file theory_arith_old.cpp.
References CVC3::CDMap< Key, Data, HashFcn >::end(), CVC3::CDMap< Key, Data, HashFcn >::find(), CVC3::Expr::getRational(), getUpperBound(), isConstrainedBelow(), CVC3::TheoryArithOld::DifferenceLogicGraph::EpsRational::isFinite(), CVC3::Theory::isLeaf(), CVC3::isMult(), isNonlinearSumTerm(), CVC3::isPlus(), CVC3::Expr::isRational(), CVC3::TheoryArithOld::DifferenceLogicGraph::EpsRational::MinusInfinity, QueryWithCacheAll, QueryWithCacheLeaves, QueryWithCacheLeavesAndConstrainedComputation, separateMonomial(), termConstrainedBelow, termLowerBounded, CVC3::TheoryArithOld::DifferenceLogicGraph::EpsRational::toString(), CVC3::Rational::toString(), CVC3::Expr::toString(), CVC3::TRACE, and CVC3::TheoryArithOld::DifferenceLogicGraph::EpsRational::Zero.
Referenced by checkSat(), computeTermBounds(), getUpperBound(), and hasLowerBound().
int TheoryArithOld::computeTermBounds | ( | ) | [private] |
See whether and which terms are bounded.
Definition at line 5546 of file theory_arith_old.cpp.
References d_graph, d_inequalitiesLeftDB, d_inequalitiesRightDB, d_inModelCreation, diffLogicGraph, diffLogicOnly, CVC3::ExprMap< Data >::end(), CVC3::ExprMap< Data >::find(), CVC3::Theory::find(), CVC3::TheoryArithOld::DifferenceLogicGraph::getEdgeWeight(), getLowerBound(), CVC3::Theorem::getRHS(), getUpperBound(), CVC3::TheoryArithOld::DifferenceLogicGraph::getVariables(), CVC3::TheoryArithOld::VarOrderGraph::getVerticesTopological(), CVC3::Expr::hasFind(), CVC3::TheoryArithOld::DifferenceLogicGraph::hasIncoming(), CVC3::TheoryArithOld::DifferenceLogicGraph::hasOutgoing(), IF_DEBUG, CVC3::TheoryArithOld::DifferenceLogicGraph::inCycle(), isConstrained(), isConstrainedAbove(), isConstrainedBelow(), CVC3::TheoryArithOld::DifferenceLogicGraph::EpsRational::isFinite(), isIntegerThm(), CVC3::TheoryArithOld::DifferenceLogicGraph::EpsRational::MinusInfinity, QueryWithCacheAll, QueryWithCacheLeaves, QueryWithCacheLeavesAndConstrainedComputation, termConstrainedAbove, termConstrainedBelow, termLowerBounded, termUpperBounded, CVC3::TRACE, CVC3::TheoryArithOld::DifferenceLogicGraph::writeGraph(), and zero.
Referenced by checkSat().
void TheoryArithOld::tryPropagate | ( | const Expr & | x, | |
const Expr & | y, | |||
const DifferenceLogicGraph::EdgeInfo & | x_y_edge, | |||
int | kind | |||
) |
Definition at line 5052 of file theory_arith_old.cpp.
References canon(), d_rules, diffLogicGraph, CVC3::ExprMap< Data >::end(), CVC3::Theory::enqueueFact(), CVC3::ExprMap< Data >::find(), CVC3::Theory::find(), formulaAtomLowerBound, formulaAtomUpperBound, CVC3::TheoryArithOld::DifferenceLogicGraph::getEdgeTheorems(), CVC3::Expr::getKind(), CVC3::Theorem::getRHS(), CVC3::ArithProofRules::implyNegatedInequalityDiffLogic(), CVC3::ArithProofRules::implyWeakerInequalityDiffLogic(), CVC3::LE, CVC3::TheoryArithOld::DifferenceLogicGraph::EdgeInfo::length, CVC3::plusExpr(), CVC3::TheoryArith::rat(), CVC3::Expr::toString(), CVC3::TRACE, and zero.
Referenced by CVC3::TheoryArithOld::DifferenceLogicGraph::tryUpdate().
void TheoryArithOld::addMultiplicativeSignSplit | ( | const Theorem & | case_split_thm | ) | [virtual] |
Reimplemented from CVC3::TheoryArith.
Definition at line 5207 of file theory_arith_old.cpp.
References multiplicativeSignSplits.
Referenced by CVC3::ArithTheoremProducerOld::canonMult().
Record that smaller should be smaller than bigger in the variable order. Should be implemented in decision procedures that support it.
Reimplemented from CVC3::TheoryArith.
Definition at line 5211 of file theory_arith_old.cpp.
References CVC3::TheoryArithOld::VarOrderGraph::addEdge(), d_graph, FatalAssert, CVC3::Expr::getType(), CVC3::isInt(), CVC3::isReal(), CVC3::TheoryArithOld::VarOrderGraph::lessThan(), CVC3::Expr::toString(), and CVC3::TRACE.
bool CVC3::TheoryArithOld::nonlinearSignSplit | ( | ) | const [inline] |
Definition at line 953 of file theory_arith_old.h.
References d_splitSign.
Referenced by CVC3::ArithTheoremProducerOld::canonMult().
bool TheoryArithOld::isNonlinearEq | ( | const Expr & | e | ) |
Check if equation is nonlinear. An equation is nonlinear if there is at least one nonlinear term in the sum on either side of the equation.
Definition at line 5236 of file theory_arith_old.cpp.
References CVC3::Expr::arity(), DebugAssert, CVC3::Expr::isEq(), isNonlinearSumTerm(), and CVC3::Expr::toString().
Referenced by checkSat(), findRationalBound(), processRealEq(), and rewrite().
bool TheoryArithOld::isNonlinearSumTerm | ( | const Expr & | term | ) |
Check if a sum term is nonlinear
Definition at line 5223 of file theory_arith_old.cpp.
References CVC3::Expr::arity(), CVC3::Theory::isLeaf(), CVC3::isMult(), and CVC3::isPow().
Referenced by getLowerBound(), getUpperBound(), isConstrainedAbove(), isConstrainedBelow(), isNonlinearEq(), and rewrite().
Check if the equality is of the form c + power1^n - power2^n = 0;
Definition at line 5257 of file theory_arith_old.cpp.
References CVC3::Expr::arity(), DebugAssert, CVC3::Expr::isEq(), CVC3::isMult(), CVC3::isPlus(), CVC3::isPow(), CVC3::isRational(), and CVC3::Expr::toString().
Referenced by CVC3::ArithTheoremProducerOld::elimPower(), and rewrite().
bool TheoryArithOld::isPowerEquality | ( | const Expr & | nonlinearEq, | |
Rational & | constant, | |||
Expr & | power1 | |||
) |
Check if the equality is of the form c - x^n = 0
Definition at line 5313 of file theory_arith_old.cpp.
References CVC3::Expr::arity(), DebugAssert, CVC3::Expr::getRational(), CVC3::Expr::isEq(), isInteger(), CVC3::isMult(), CVC3::isPlus(), CVC3::isPow(), CVC3::isRational(), and CVC3::Expr::toString().
Referenced by CVC3::ArithTheoremProducerOld::elimPowerConst(), CVC3::ArithTheoremProducerOld::evenPowerEqNegConst(), CVC3::ArithTheoremProducerOld::intEqIrrational(), and rewrite().
std::ostream& operator<< | ( | std::ostream & | os, | |
const FreeConst & | fc | |||
) | [friend] |
std::ostream& operator<< | ( | std::ostream & | os, | |
const Ineq & | ineq | |||
) | [friend] |
CDList<Theorem> CVC3::TheoryArithOld::d_diseq [private] |
Definition at line 31 of file theory_arith_old.h.
Referenced by assertFact(), checkSat(), and TheoryArithOld().
CDO<size_t> CVC3::TheoryArithOld::d_diseqIdx [private] |
CDMap<Expr, bool> CVC3::TheoryArithOld::diseqSplitAlready [private] |
ArithProofRules* CVC3::TheoryArithOld::d_rules [private] |
Definition at line 34 of file theory_arith_old.h.
Referenced by addToBuffer(), assertFact(), canon(), checkIntegerEquality(), checkSat(), doSolve(), isolateVariable(), normalize(), normalizeProjectIneqs(), processFiniteInterval(), processRealEq(), processSimpleIntEq(), projectInequalities(), rafineInequalityToInteger(), registerAtom(), rewrite(), TheoryArithOld(), tryPropagate(), and ~TheoryArithOld().
CDO<bool> CVC3::TheoryArithOld::d_inModelCreation [private] |
Definition at line 35 of file theory_arith_old.h.
Referenced by assertFact(), checkSat(), computeModelBasic(), computeTermBounds(), and refineCounterExample().
ExprMap<CDList<Ineq> *> CVC3::TheoryArithOld::d_inequalitiesRightDB [private] |
Database of inequalities with a variable isolated on the right.
Definition at line 78 of file theory_arith_old.h.
Referenced by computeTermBounds(), findBounds(), processFiniteIntervals(), projectInequalities(), and ~TheoryArithOld().
ExprMap<CDList<Ineq> *> CVC3::TheoryArithOld::d_inequalitiesLeftDB [private] |
Database of inequalities with a variable isolated on the left.
Definition at line 81 of file theory_arith_old.h.
Referenced by computeTermBounds(), findBounds(), processFiniteIntervals(), projectInequalities(), and ~TheoryArithOld().
CDMap<Expr, FreeConst> CVC3::TheoryArithOld::d_freeConstDB [private] |
Mapping of inequalities to the largest/smallest free constant.
The Expr is the original inequality with the free constant removed and inequality converted to non-strict (for indexing purposes). I.e. ax<c+t becomes ax<=t. This inequality is mapped to a pair<c,strict>, the smallest (largest for c+t<ax) constant among inequalities with the same 'a', 'x', and 't', and a boolean flag indicating whether the strongest inequality is strict.
Definition at line 91 of file theory_arith_old.h.
Referenced by updateSubsumptionDB().
CDList<Theorem> CVC3::TheoryArithOld::d_buffer_0 [private] |
Buffer of input inequalities (high priority).
Is the problem only difference logic
Definition at line 99 of file theory_arith_old.h.
Referenced by addToBuffer(), assertFact(), checkSat(), processBuffer(), and TheoryArithOld().
CDList<Theorem> CVC3::TheoryArithOld::d_buffer_1 [private] |
Buffer of input inequalities (one variable).
Definition at line 100 of file theory_arith_old.h.
Referenced by addToBuffer(), assertFact(), checkSat(), processBuffer(), and TheoryArithOld().
CDList<Theorem> CVC3::TheoryArithOld::d_buffer_2 [private] |
Buffer of input inequalities (small constraints).
Definition at line 101 of file theory_arith_old.h.
Referenced by addToBuffer(), assertFact(), checkSat(), processBuffer(), and TheoryArithOld().
CDList<Theorem> CVC3::TheoryArithOld::d_buffer_3 [private] |
Buffer of input inequalities (big constraint).
Definition at line 102 of file theory_arith_old.h.
Referenced by addToBuffer(), assertFact(), checkSat(), processBuffer(), and TheoryArithOld().
CDO<size_t> CVC3::TheoryArithOld::d_bufferIdx_0 [private] |
Buffer index of the next unprocessed inequality.
Definition at line 104 of file theory_arith_old.h.
Referenced by assertFact(), and processBuffer().
CDO<size_t> CVC3::TheoryArithOld::d_bufferIdx_1 [private] |
Buffer index of the next unprocessed inequality.
Definition at line 105 of file theory_arith_old.h.
Referenced by assertFact(), processBuffer(), and TheoryArithOld().
CDO<size_t> CVC3::TheoryArithOld::d_bufferIdx_2 [private] |
Buffer index of the next unprocessed inequality.
Definition at line 106 of file theory_arith_old.h.
Referenced by assertFact(), processBuffer(), and TheoryArithOld().
CDO<size_t> CVC3::TheoryArithOld::d_bufferIdx_3 [private] |
Buffer index of the next unprocessed inequality.
Definition at line 107 of file theory_arith_old.h.
Referenced by assertFact(), processBuffer(), and TheoryArithOld().
CDO<size_t> CVC3::TheoryArithOld::diff_logic_size [private] |
Number of queries that are just difference logic.
Definition at line 109 of file theory_arith_old.h.
Referenced by addToBuffer().
const int* CVC3::TheoryArithOld::d_bufferThres [private] |
Threshold when the buffer must be processed.
Definition at line 111 of file theory_arith_old.h.
Referenced by assertFact().
const bool* CVC3::TheoryArithOld::d_splitSign [private] |
const int* CVC3::TheoryArithOld::d_grayShadowThres [private] |
Threshold on gray shadow size (ignore it and set incomplete).
Definition at line 115 of file theory_arith_old.h.
Referenced by assertFact().
CDMap<Expr, int> CVC3::TheoryArithOld::d_countRight [private] |
Mapping of a variable to the number of inequalities where the variable would be isolated on the right.
Definition at line 121 of file theory_arith_old.h.
Referenced by pickMonomial(), and updateStats().
CDMap<Expr, int> CVC3::TheoryArithOld::d_countLeft [private] |
Mapping of a variable to the number of inequalities where the variable would be isolated on the left.
Definition at line 125 of file theory_arith_old.h.
Referenced by pickMonomial(), and updateStats().
CDMap<Expr, bool> CVC3::TheoryArithOld::d_sharedTerms [private] |
Set of shared terms (for counterexample generation).
Definition at line 128 of file theory_arith_old.h.
Referenced by addSharedTerm(), processFiniteInterval(), refineCounterExample(), and update().
CDList<Expr> CVC3::TheoryArithOld::d_sharedTermsList [private] |
CDMap<Expr, bool> CVC3::TheoryArithOld::d_sharedVars [private] |
VarOrderGraph CVC3::TheoryArithOld::d_graph [private] |
Definition at line 155 of file theory_arith_old.h.
Referenced by addPairToArithOrder(), assignVariables(), computeTermBounds(), and pickMonomial().
Map from variables to the maximal (by absolute value) of one of it's coefficients
Definition at line 350 of file theory_arith_old.h.
Referenced by currentMaxCoefficient(), and updateStats().
Definition at line 351 of file theory_arith_old.h.
Referenced by currentMaxCoefficient(), and updateStats().
Map from variables to the fixed value of one of it's coefficients
Definition at line 354 of file theory_arith_old.h.
Referenced by fixCurrentMaxCoefficient().
CDMap<Expr, Theorem> CVC3::TheoryArithOld::bufferedInequalities [private] |
Keep the expressions that are already in the buffer
Definition at line 390 of file theory_arith_old.h.
Referenced by addToBuffer(), and update().
CDMap<Expr, Rational> CVC3::TheoryArithOld::termLowerBound [private] |
Strict lower bounds on terms, so that we don't add inequalities to the buffer
Definition at line 393 of file theory_arith_old.h.
Referenced by addToBuffer(), processBuffer(), and registerAtom().
CDMap<Expr, Theorem> CVC3::TheoryArithOld::termLowerBoundThm [private] |
Definition at line 394 of file theory_arith_old.h.
Referenced by addToBuffer(), processBuffer(), and registerAtom().
CDMap<Expr, Rational> CVC3::TheoryArithOld::termUpperBound [private] |
Strict upper bounds on terms, so that we don't add inequalities to the buffer
Definition at line 396 of file theory_arith_old.h.
Referenced by addToBuffer(), and registerAtom().
CDMap<Expr, Theorem> CVC3::TheoryArithOld::termUpperBoundThm [private] |
CDMap<Expr, Expr> CVC3::TheoryArithOld::alreadyProjected [private] |
Which inequalities have already been projected (on which monomial).
Definition at line 406 of file theory_arith_old.h.
Referenced by addToBuffer(), isolateVariable(), processBuffer(), and update().
CDMap<Expr, bool> CVC3::TheoryArithOld::dontBuffer [private] |
Sometimes we know an inequality is in the buffer (as a find of something) and we don't want it in the buffer, but we do want to pre-process it, so we put it here.
Definition at line 413 of file theory_arith_old.h.
Referenced by addToBuffer(), and update().
CDO<bool> CVC3::TheoryArithOld::diffLogicOnly [private] |
Are we doing only difference logic?
Definition at line 418 of file theory_arith_old.h.
Referenced by addToBuffer(), assertFact(), assignVariables(), computeTermBounds(), and processBuffer().
Map from terms to their lower bound (and the original formula expression)
Definition at line 448 of file theory_arith_old.h.
Referenced by addToBuffer(), registerAtom(), and tryPropagate().
Map from terms to their upper bound (and the original formula expression)
Definition at line 451 of file theory_arith_old.h.
Referenced by addToBuffer(), registerAtom(), and tryPropagate().
ExprMap<bool> CVC3::TheoryArithOld::formulaAtoms [private] |
Map of all the atoms in the formula
Definition at line 454 of file theory_arith_old.h.
Referenced by addToBuffer(), and registerAtom().
The graph for difference logic
Definition at line 885 of file theory_arith_old.h.
Referenced by addToBuffer(), assignVariables(), computeTermBounds(), TheoryArithOld(), and tryPropagate().
Expr CVC3::TheoryArithOld::zero [private] |
Definition at line 887 of file theory_arith_old.h.
Referenced by CVC3::TheoryArithOld::DifferenceLogicGraph::addEdge(), addToBuffer(), CVC3::TheoryArithOld::DifferenceLogicGraph::computeModel(), computeTermBounds(), freeConstIneq(), CVC3::TheoryArithOld::DifferenceLogicGraph::getValuation(), isolateVariable(), TheoryArithOld(), and tryPropagate().
CDO<unsigned> CVC3::TheoryArithOld::shared_index_1 [private] |
Index for expanding on shared term equalities
Definition at line 890 of file theory_arith_old.h.
Referenced by checkSat().
CDO<unsigned> CVC3::TheoryArithOld::shared_index_2 [private] |
Index for expanding on shared term equalities
Definition at line 892 of file theory_arith_old.h.
Referenced by checkSat().
std::vector<Theorem> CVC3::TheoryArithOld::multiplicativeSignSplits [private] |
Definition at line 894 of file theory_arith_old.h.
Referenced by addMultiplicativeSignSplit(), and assertFact().
Definition at line 903 of file theory_arith_old.h.
Referenced by computeTermBounds(), and getUpperBound().
Definition at line 904 of file theory_arith_old.h.
Referenced by computeTermBounds(), and getLowerBound().
CDMap<Expr, bool> CVC3::TheoryArithOld::termConstrainedBelow [private] |
Definition at line 907 of file theory_arith_old.h.
Referenced by computeTermBounds(), getLowerBound(), and isConstrainedBelow().
CDMap<Expr, bool> CVC3::TheoryArithOld::termConstrainedAbove [private] |
Definition at line 908 of file theory_arith_old.h.
Referenced by computeTermBounds(), getUpperBound(), and isConstrainedAbove().