| addInequalities(const Theorem &thm1, const Theorem &thm2) | CVC3::ArithTheoremProducerOld | [virtual] |
| addInequalities(const std::vector< Theorem > &thms) | CVC3::ArithTheoremProducerOld | [virtual] |
| ArithTheoremProducerOld(TheoremManager *tm, TheoryArithOld *theoryArith) | CVC3::ArithTheoremProducerOld | [inline] |
| canonCombineLikeTerms(const std::vector< Expr > &sumExprs) | CVC3::ArithTheoremProducerOld | [virtual] |
| canonComboLikeTerms(const Expr &e) | CVC3::ArithTheoremProducerOld | [virtual] |
| canonDivide(const Expr &e) | CVC3::ArithTheoremProducerOld | [virtual] |
| canonDivideConst(const Expr &c, const Expr &d) | CVC3::ArithTheoremProducerOld | [virtual] |
| canonDivideMult(const Expr &cx, const Expr &d) | CVC3::ArithTheoremProducerOld | [virtual] |
| canonDividePlus(const Expr &e, const Expr &d) | CVC3::ArithTheoremProducerOld | [virtual] |
| canonDivideVar(const Expr &e1, const Expr &e2) | CVC3::ArithTheoremProducerOld | [virtual] |
| canonFlattenSum(const Expr &e) | CVC3::ArithTheoremProducerOld | [virtual] |
| canonInvert(const Expr &e) | CVC3::ArithTheoremProducerOld | [virtual] |
| canonInvertConst(const Expr &e) | CVC3::ArithTheoremProducerOld | [virtual] |
| canonInvertLeaf(const Expr &e) | CVC3::ArithTheoremProducerOld | [virtual] |
| canonInvertMult(const Expr &e) | CVC3::ArithTheoremProducerOld | [virtual] |
| canonInvertPow(const Expr &e) | CVC3::ArithTheoremProducerOld | [virtual] |
| canonMult(const Expr &e) | CVC3::ArithTheoremProducerOld | [virtual] |
| canonMultConstConst(const Expr &c1, const Expr &c2) | CVC3::ArithTheoremProducerOld | [virtual] |
| canonMultConstMult(const Expr &c, const Expr &e) | CVC3::ArithTheoremProducerOld | [virtual] |
| canonMultConstPlus(const Expr &e1, const Expr &e2) | CVC3::ArithTheoremProducerOld | [virtual] |
| canonMultConstSum(const Expr &c1, const Expr &sum) | CVC3::ArithTheoremProducerOld | [virtual] |
| canonMultConstTerm(const Expr &c1, const Expr &c2, const Expr &t) | CVC3::ArithTheoremProducerOld | [virtual] |
| canonMultLeafLeaf(const Expr &e1, const Expr &e2) | CVC3::ArithTheoremProducerOld | [virtual] |
| canonMultLeafOrPowMult(const Expr &e1, const Expr &e2) | CVC3::ArithTheoremProducerOld | [virtual] |
| canonMultLeafOrPowOrMultPlus(const Expr &e1, const Expr &e2) | CVC3::ArithTheoremProducerOld | [virtual] |
| canonMultMtermMterm(const Expr &e) | CVC3::ArithTheoremProducerOld | [virtual] |
| canonMultOne(const Expr &e) | CVC3::ArithTheoremProducerOld | [virtual] |
| canonMultPlusPlus(const Expr &e1, const Expr &e2) | CVC3::ArithTheoremProducerOld | [virtual] |
| canonMultPowLeaf(const Expr &e1, const Expr &e2) | CVC3::ArithTheoremProducerOld | [virtual] |
| canonMultPowPow(const Expr &e1, const Expr &e2) | CVC3::ArithTheoremProducerOld | [virtual] |
| canonMultTerm1Term2(const Expr &t1, const Expr &t2) | CVC3::ArithTheoremProducerOld | [virtual] |
| canonMultTermConst(const Expr &c, const Expr &t) | CVC3::ArithTheoremProducerOld | [virtual] |
| canonMultZero(const Expr &e) | CVC3::ArithTheoremProducerOld | [virtual] |
| canonPlus(const Expr &e) | CVC3::ArithTheoremProducerOld | [virtual] |
| canonPowConst(const Expr &pow) | CVC3::ArithTheoremProducerOld | [virtual] |
| canonUMinusToDivide(const Expr &e) | CVC3::ArithTheoremProducerOld | [virtual] |
| clashingBounds(const Theorem &lowerBound, const Theorem &upperBound) | CVC3::ArithTheoremProducerOld | [virtual] |
| compactNonLinearTerm(const Expr &nonLinear) | CVC3::ArithTheoremProducerOld | [virtual] |
| constPredicate(const Expr &e) | CVC3::ArithTheoremProducerOld | [virtual] |
| constRHSGrayShadow(const Rational &c, const Rational &b, const Rational &a) | CVC3::ArithTheoremProducerOld | |
| create_t(const Expr &eqn) | CVC3::ArithTheoremProducerOld | [private] |
| create_t2(const Expr &lhs, const Expr &rhs, const Expr &t) | CVC3::ArithTheoremProducerOld | [private] |
| create_t3(const Expr &lhs, const Expr &rhs, const Expr &t) | CVC3::ArithTheoremProducerOld | [private] |
| cycleConflict(const std::vector< Theorem > &inequalitites) | CVC3::ArithTheoremProducerOld | [virtual] |
| d_checkProofs | CVC3::TheoremProducer | [protected] |
| d_em | CVC3::TheoremProducer | [protected] |
| d_hole | CVC3::TheoremProducer | [protected] |
| d_pfOp | CVC3::TheoremProducer | [protected] |
| d_theoryArith | CVC3::ArithTheoremProducerOld | [private] |
| d_tm | CVC3::TheoremProducer | [protected] |
| darkGrayShadow2ab(const Theorem &betaLEbx, const Theorem &axLEalpha, const Theorem &isIntAlpha, const Theorem &isIntBeta, const Theorem &isIntx) | CVC3::ArithTheoremProducerOld | [virtual] |
| darkGrayShadow2ba(const Theorem &betaLEbx, const Theorem &axLEalpha, const Theorem &isIntAlpha, const Theorem &isIntBeta, const Theorem &isIntx) | CVC3::ArithTheoremProducerOld | [virtual] |
| darkShadow(const Expr &lhs, const Expr &rhs) | CVC3::ArithTheoremProducerOld | [inline] |
| diseqToIneq(const Theorem &diseq) | CVC3::ArithTheoremProducerOld | [virtual] |
| divideEqnNonConst(const Expr &x, const Expr &y, const Expr &z) | CVC3::ArithTheoremProducerOld | [virtual] |
| dummyTheorem(const Expr &e) | CVC3::ArithTheoremProducerOld | [virtual] |
| elimPower(const Expr &expr) | CVC3::ArithTheoremProducerOld | [virtual] |
| elimPowerConst(const Expr &expr, const Rational &root) | CVC3::ArithTheoremProducerOld | [virtual] |
| eqElimIntRule(const Theorem &eqn, const Theorem &isIntx, const std::vector< Theorem > &isIntVars) | CVC3::ArithTheoremProducerOld | [virtual] |
| eqToIneq(const Expr &e) | CVC3::ArithTheoremProducerOld | [virtual] |
| equalLeaves1(const Theorem &e) | CVC3::ArithTheoremProducerOld | [virtual] |
| equalLeaves2(const Theorem &e) | CVC3::ArithTheoremProducerOld | [virtual] |
| equalLeaves3(const Theorem &e) | CVC3::ArithTheoremProducerOld | [virtual] |
| equalLeaves4(const Theorem &e) | CVC3::ArithTheoremProducerOld | [virtual] |
| evenPowerEqNegConst(const Expr &expr) | CVC3::ArithTheoremProducerOld | [virtual] |
| expandDarkShadow(const Theorem &darkShadow) | CVC3::ArithTheoremProducerOld | [virtual] |
| expandGrayShadow(const Theorem &grayShadow) | CVC3::ArithTheoremProducerOld | [virtual] |
| expandGrayShadow0(const Theorem &grayShadow) | CVC3::ArithTheoremProducerOld | [virtual] |
| expandGrayShadowConst(const Theorem &grayShadow) | CVC3::ArithTheoremProducerOld | [virtual] |
| expandGrayShadowRewrite(const Expr &theShadow) | CVC3::ArithTheoremProducerOld | [virtual] |
| f(const Rational &i, const Rational &m) | CVC3::ArithTheoremProducerOld | [private] |
| finiteInterval(const Theorem &aLEt, const Theorem &tLEac, const Theorem &isInta, const Theorem &isIntt) | CVC3::ArithTheoremProducerOld | [virtual] |
| flipInequality(const Expr &e) | CVC3::ArithTheoremProducerOld | [virtual] |
| getLeaves(const Expr &e, std::set< Rational > &s, ExprHashMap< bool > &cache) | CVC3::ArithTheoremProducerOld | [private] |
| grayShadow(const Expr &v, const Expr &e, const Rational &c1, const Rational &c2) | CVC3::ArithTheoremProducerOld | [inline] |
| grayShadowConst(const Theorem &g) | CVC3::ArithTheoremProducerOld | [virtual] |
| greaterthan(const Expr &, const Expr &) | CVC3::ArithTheoremProducerOld | [static] |
| implyDiffLogicBothBounds(const Expr &x, std::vector< Theorem > &c1_le_x, Rational c1, std::vector< Theorem > &x_le_c2, Rational c2) | CVC3::ArithTheoremProducerOld | [virtual] |
| implyEqualities(const std::vector< Theorem > &inequalities) | CVC3::ArithTheoremProducerOld | [virtual] |
| implyNegatedInequality(const Expr &expr1, const Expr &expr2) | CVC3::ArithTheoremProducerOld | [virtual] |
| implyNegatedInequalityDiffLogic(const std::vector< Theorem > &antecedentThms, const Expr &implied) | CVC3::ArithTheoremProducerOld | [virtual] |
| implyWeakerInequality(const Expr &expr1, const Expr &expr2) | CVC3::ArithTheoremProducerOld | [virtual] |
| implyWeakerInequalityDiffLogic(const std::vector< Theorem > &antecedentThms, const Expr &implied) | CVC3::ArithTheoremProducerOld | [virtual] |
| integerSplit(const Expr &intVar, const Rational &intPoint) | CVC3::ArithTheoremProducerOld | [virtual] |
| intEqIrrational(const Expr &expr, const Theorem &isInt) | CVC3::ArithTheoremProducerOld | [virtual] |
| intEqualityRationalConstant(const Theorem &isIntConstrThm, const Expr &constr) | CVC3::ArithTheoremProducerOld | [virtual] |
| intType() | CVC3::ArithTheoremProducerOld | [inline] |
| intVarEqnConst(const Expr &eqn, const Theorem &isIntx) | CVC3::ArithTheoremProducerOld | [virtual] |
| isIntConst(const Expr &e) | CVC3::ArithTheoremProducerOld | [virtual] |
| IsIntegerElim(const Theorem &isIntx) | CVC3::ArithTheoremProducerOld | [virtual] |
| leftMinusRight(const Expr &e) | CVC3::ArithTheoremProducerOld | [virtual] |
| lessThanToLE(const Theorem &less, const Theorem &isIntLHS, const Theorem &isIntRHS, bool changeRight) | CVC3::ArithTheoremProducerOld | [virtual] |
| lessThanToLERewrite(const Expr &ineq, const Theorem &isIntLHS, const Theorem &isIntRHS, bool changeRight) | CVC3::ArithTheoremProducerOld | [virtual] |
| minusToPlus(const Expr &x, const Expr &y) | CVC3::ArithTheoremProducerOld | [virtual] |
| modEq(const Rational &i, const Rational &m) | CVC3::ArithTheoremProducerOld | [private] |
| monomialModM(const Expr &e, const Rational &m, const Rational &divisor) | CVC3::ArithTheoremProducerOld | [private] |
| monomialMulF(const Expr &e, const Rational &m, const Rational &divisor) | CVC3::ArithTheoremProducerOld | [private] |
| moveSumConstantRight(const Expr &e) | CVC3::ArithTheoremProducerOld | [virtual] |
| multEqn(const Expr &x, const Expr &y, const Expr &z) | CVC3::ArithTheoremProducerOld | [virtual] |
| multEqZero(const Expr &expr) | CVC3::ArithTheoremProducerOld | [virtual] |
| multIneqn(const Expr &e, const Expr &z) | CVC3::ArithTheoremProducerOld | [virtual] |
| negatedInequality(const Expr &e) | CVC3::ArithTheoremProducerOld | [virtual] |
| newAssumption(const Expr &thm, const Proof &pf, int scope=-1) | CVC3::TheoremProducer | [inline, protected] |
| newLabel(const Expr &e) | CVC3::TheoremProducer | |
| newPf(const std::string &name) | CVC3::TheoremProducer | |
| newPf(const std::string &name, const Expr &e) | CVC3::TheoremProducer | |
| newPf(const std::string &name, const Proof &pf) | CVC3::TheoremProducer | |
| newPf(const std::string &name, const Expr &e1, const Expr &e2) | CVC3::TheoremProducer | |
| newPf(const std::string &name, const Expr &e, const Proof &pf) | CVC3::TheoremProducer | |
| newPf(const std::string &name, const Expr &e1, const Expr &e2, const Expr &e3) | CVC3::TheoremProducer | |
| newPf(const std::string &name, const Expr &e1, const Expr &e2, const Proof &pf) | CVC3::TheoremProducer | |
| newPf(const std::string &name, Expr::iterator begin, const Expr::iterator &end) | CVC3::TheoremProducer | |
| newPf(const std::string &name, const Expr &e, Expr::iterator begin, const Expr::iterator &end) | CVC3::TheoremProducer | |
| newPf(const std::string &name, Expr::iterator begin, const Expr::iterator &end, const std::vector< Proof > &pfs) | CVC3::TheoremProducer | |
| newPf(const std::string &name, const std::vector< Expr > &args) | CVC3::TheoremProducer | |
| newPf(const std::string &name, const Expr &e, const std::vector< Expr > &args) | CVC3::TheoremProducer | |
| newPf(const std::string &name, const Expr &e, const std::vector< Proof > &pfs) | CVC3::TheoremProducer | |
| newPf(const std::string &name, const Expr &e1, const Expr &e2, const std::vector< Proof > &pfs) | CVC3::TheoremProducer | |
| newPf(const std::string &name, const std::vector< Proof > &pfs) | CVC3::TheoremProducer | |
| newPf(const std::string &name, const std::vector< Expr > &args, const Proof &pf) | CVC3::TheoremProducer | |
| newPf(const std::string &name, const std::vector< Expr > &args, const std::vector< Proof > &pfs) | CVC3::TheoremProducer | |
| newPf(const Proof &label, const Expr &frm, const Proof &pf) | CVC3::TheoremProducer | |
| newPf(const Proof &label, const Proof &pf) | CVC3::TheoremProducer | |
| newPf(const std::vector< Proof > &labels, const std::vector< Expr > &frms, const Proof &pf) | CVC3::TheoremProducer | |
| newPf(const std::vector< Proof > &labels, const Proof &pf) | CVC3::TheoremProducer | |
| newReflTheorem(const Expr &e) | CVC3::TheoremProducer | [inline, protected] |
| newRWTheorem(const Expr &lhs, const Expr &rhs, const Assumptions &assump, const Proof &pf) | CVC3::TheoremProducer | [inline, protected] |
| newRWTheorem3(const Expr &lhs, const Expr &rhs, const Assumptions &assump, const Proof &pf) | CVC3::TheoremProducer | [inline, protected] |
| newTheorem(const Expr &thm, const Assumptions &assump, const Proof &pf) | CVC3::TheoremProducer | [inline, protected] |
| newTheorem3(const Expr &thm, const Assumptions &assump, const Proof &pf) | CVC3::TheoremProducer | [inline, protected] |
| nonLinearIneqSignSplit(const Theorem &ineqThm) | CVC3::ArithTheoremProducerOld | [virtual] |
| oneElimination(const Expr &x) | CVC3::ArithTheoremProducerOld | [virtual] |
| plusPredicate(const Expr &x, const Expr &y, const Expr &z, int kind) | CVC3::ArithTheoremProducerOld | [virtual] |
| powEqZero(const Expr &expr) | CVC3::ArithTheoremProducerOld | [virtual] |
| powerOfOne(const Expr &e) | CVC3::ArithTheoremProducerOld | [virtual] |
| rafineStrictInteger(const Theorem &isIntConstrThm, const Expr &constr) | CVC3::ArithTheoremProducerOld | [virtual] |
| rat(Rational r) | CVC3::ArithTheoremProducerOld | [inline] |
| realShadow(const Theorem &alphaLTt, const Theorem &tLTbeta) | CVC3::ArithTheoremProducerOld | [virtual] |
| realShadowEq(const Theorem &alphaLEt, const Theorem &tLEalpha) | CVC3::ArithTheoremProducerOld | [virtual] |
| realType() | CVC3::ArithTheoremProducerOld | [inline] |
| rewriteLeavesConst(const Expr &e) | CVC3::ArithTheoremProducerOld | [virtual] |
| rightMinusLeft(const Expr &e) | CVC3::ArithTheoremProducerOld | [virtual] |
| simpleIneqInt(const Expr &ineq, const Theorem &isIntRHS) | CVC3::ArithTheoremProducerOld | [virtual] |
| simplifiedMultExpr(std::vector< Expr > &mulKids) | CVC3::ArithTheoremProducerOld | [virtual] |
| soundError(const std::string &file, int line, const std::string &cond, const std::string &msg) | CVC3::TheoremProducer | [protected] |
| splitGrayShadow(const Theorem &grayShadow) | CVC3::ArithTheoremProducerOld | [virtual] |
| splitGrayShadowSmall(const Theorem &grayShadow) | CVC3::ArithTheoremProducerOld | [virtual] |
| substitute(const Expr &term, ExprMap< Expr > &eMap) | CVC3::ArithTheoremProducerOld | [private] |
| sumModM(std::vector< Expr > &summands, const Expr &sum, const Rational &m, const Rational &divisor) | CVC3::ArithTheoremProducerOld | [private] |
| sumMulF(std::vector< Expr > &summands, const Expr &sum, const Rational &m, const Rational &divisor) | CVC3::ArithTheoremProducerOld | [private] |
| TheoremProducer(TheoremManager *tm) | CVC3::TheoremProducer | |
| trustedRewrite(const Expr &expr1, const Expr &expr2) | CVC3::ArithTheoremProducerOld | [virtual] |
| uMinusToMult(const Expr &e) | CVC3::ArithTheoremProducerOld | [virtual] |
| varToMult(const Expr &e) | CVC3::ArithTheoremProducerOld | [virtual] |
| withAssumptions() | CVC3::TheoremProducer | [inline] |
| withProof() | CVC3::TheoremProducer | [inline] |
| ~ArithProofRules() | CVC3::ArithProofRules | [inline, virtual] |
| ~TheoremProducer() | CVC3::TheoremProducer | [inline, virtual] |
