, including all inherited members.
| addBoundVar(const std::string &name, const Type &type) | CVC3::Theory | |
| addBoundVar(const std::string &name, const Type &type, const Expr &def) | CVC3::Theory | |
| addGlobalLemma(const Theorem &thm, int priority=0) | CVC3::Theory | |
| addMultiplicativeSignSplit(const Theorem &case_split_thm) | CVC3::TheoryArith | [inline, virtual] |
| addPairToArithOrder(const Expr &smaller, const Expr &bigger) | CVC3::TheoryArith | [inline, virtual] |
| addSharedTerm(const Expr &e)=0 | CVC3::TheoryArith | [pure virtual] |
| addSplitter(const Expr &e, int priority=0) | CVC3::Theory | |
| assertEqualities(const Theorem &e) | CVC3::Theory | [virtual] |
| assertFact(const Theorem &e)=0 | CVC3::TheoryArith | [pure virtual] |
| assertTypePred(const Expr &e, const Theorem &pred) | CVC3::Theory | [inline, virtual] |
| assignValue(const Expr &t, const Expr &val) | CVC3::Theory | [virtual] |
| assignValue(const Theorem &thm) | CVC3::Theory | [virtual] |
| boolType() | CVC3::Theory | [inline] |
| canon(const Expr &e)=0 | CVC3::TheoryArith | [protected, pure virtual] |
| canonRec(const Expr &e) | CVC3::TheoryArith | [protected] |
| canonSimp(const Expr &e) | CVC3::TheoryArith | [protected] |
| canonThm(const Theorem &thm) | CVC3::TheoryArith | [inline] |
| checkAssertEqInvariant(const Theorem &e)=0 | CVC3::TheoryArith | [pure virtual] |
| checkSat(bool fullEffort)=0 | CVC3::TheoryArith | [pure virtual] |
| checkType(const Expr &e)=0 | CVC3::TheoryArith | [pure virtual] |
| computeBaseType(const Type &t)=0 | CVC3::TheoryArith | [pure virtual] |
| computeModel(const Expr &e, std::vector< Expr > &vars)=0 | CVC3::TheoryArith | [pure virtual] |
| computeModelBasic(const std::vector< Expr > &v)=0 | CVC3::TheoryArith | [pure virtual] |
| computeModelTerm(const Expr &e, std::vector< Expr > &v)=0 | CVC3::TheoryArith | [pure virtual] |
| computeTCC(const Expr &e)=0 | CVC3::TheoryArith | [pure virtual] |
| computeType(const Expr &e)=0 | CVC3::TheoryArith | [pure virtual] |
| computeTypePred(const Type &t, const Expr &e)=0 | CVC3::TheoryArith | [pure virtual] |
| d_intType | CVC3::TheoryArith | [protected] |
| d_kinds | CVC3::TheoryArith | [protected] |
| d_realType | CVC3::TheoryArith | [protected] |
| d_theoryUsed | CVC3::Theory | [protected] |
| darkShadow(const Expr &lhs, const Expr &rhs) | CVC3::TheoryArith | [inline] |
| enqueueFact(const Theorem &e) | CVC3::Theory | [virtual] |
| enqueueSE(const Theorem &e) | CVC3::Theory | [virtual] |
| falseExpr() | CVC3::Theory | [inline] |
| find(const Expr &e) | CVC3::Theory | |
| findExpr(const Expr &e) | CVC3::Theory | [inline] |
| findReduce(const Expr &e) | CVC3::Theory | |
| findReduced(const Expr &e) | CVC3::Theory | |
| findRef(const Expr &e) | CVC3::Theory | |
| finiteTypeInfo(Expr &e, Unsigned &n, bool enumerate, bool computeSize)=0 | CVC3::TheoryArith | [pure virtual] |
| getBaseType(const Expr &e) | CVC3::Theory | |
| getBaseType(const Type &tp) | CVC3::Theory | |
| getCommonRules() | CVC3::Theory | [inline] |
| getEM() | CVC3::Theory | [inline] |
| getModelTerm(const Expr &e, std::vector< Expr > &v) | CVC3::Theory | |
| getModelValue(const Expr &e) | CVC3::Theory | |
| getName() const | CVC3::Theory | [inline] |
| getNumTheories() | CVC3::Theory | |
| getTCC(const Expr &e) | CVC3::Theory | |
| getTypePred(const Type &t, const Expr &e) | CVC3::Theory | |
| grayShadow(const Expr &v, const Expr &e, const Rational &c1, const Rational &c2) | CVC3::TheoryArith | [inline] |
| hasTheory(int kind) | CVC3::Theory | |
| iffMP(const Theorem &e1, const Theorem &e1_iff_e2) | CVC3::Theory | [inline] |
| inconsistent() | CVC3::Theory | [virtual] |
| installID(const std::string &name, const Expr &e) | CVC3::Theory | |
| intType() | CVC3::TheoryArith | [inline] |
| isAtomicArithFormula(const Expr &e) | CVC3::TheoryArith | |
| isAtomicArithTerm(const Expr &e) | CVC3::TheoryArith | [protected] |
| isLeaf(const Expr &e) | CVC3::Theory | [inline] |
| isLeafIn(const Expr &e1, const Expr &e2) | CVC3::Theory | |
| isSyntacticRational(const Expr &e, Rational &r) | CVC3::TheoryArith | |
| leavesAreNumConst(const Expr &e) | CVC3::TheoryArith | |
| leavesAreSimp(const Expr &e) | CVC3::Theory | |
| lookupFunction(const std::string &name, Type *type) | CVC3::Theory | |
| lookupTypeExpr(const std::string &name) | CVC3::Theory | |
| lookupVar(const std::string &name, Type *type) | CVC3::Theory | |
| newFunction(const std::string &name, const Type &type, bool computeTransClosure) | CVC3::Theory | |
| newFunction(const std::string &name, const Type &type, const Expr &def) | CVC3::Theory | |
| newSubtypeExpr(const Expr &pred, const Expr &witness) | CVC3::Theory | |
| newTypeExpr(const std::string &name) | CVC3::Theory | |
| newTypeExpr(const std::string &name, const Type &def) | CVC3::Theory | |
| newVar(const std::string &name, const Type &type) | CVC3::Theory | |
| newVar(const std::string &name, const Type &type, const Expr &def) | CVC3::Theory | |
| notifyInconsistent(const Theorem &thm) | CVC3::Theory | [inline, virtual] |
| parseExpr(const Expr &e) | CVC3::Theory | [virtual] |
| parseExprOp(const Expr &e)=0 | CVC3::TheoryArith | [pure virtual] |
| print(ExprStream &os, const Expr &e)=0 | CVC3::TheoryArith | [pure virtual] |
| printRational(ExprStream &os, const Rational &r, bool printAsReal=false) | CVC3::TheoryArith | [protected] |
| rat(Rational r) | CVC3::TheoryArith | [inline] |
| realType() | CVC3::TheoryArith | [inline] |
| recursiveCanonSimpCheck(const Expr &e) | CVC3::TheoryArith | [protected] |
| refineCounterExample()=0 | CVC3::TheoryArith | [pure virtual] |
| reflexivityRule(const Expr &a) | CVC3::Theory | [inline] |
| registerAtom(const Expr &e, const Theorem &thm) | CVC3::Theory | [virtual] |
| registerAtom(const Expr &e) | CVC3::Theory | [inline, virtual] |
| registerKinds(Theory *theory, std::vector< int > &kinds) | CVC3::Theory | |
| registerTheory(Theory *theory, std::vector< int > &kinds, bool hasSolver=false) | CVC3::Theory | |
| renameExpr(const Expr &e) | CVC3::Theory | |
| resolveID(const std::string &name) | CVC3::Theory | |
| rewrite(const Expr &e)=0 | CVC3::TheoryArith | [pure virtual] |
| rewriteAnd(const Expr &e) | CVC3::Theory | [inline] |
| rewriteAtomic(const Expr &e) | CVC3::Theory | [inline, virtual] |
| rewriteCC(const Expr &e) | CVC3::Theory | |
| rewriteIte(const Expr &e) | CVC3::Theory | |
| rewriteOr(const Expr &e) | CVC3::Theory | [inline] |
| rewriteToDiff(const Expr &e) | CVC3::TheoryArith | |
| separateMonomial(const Expr &e, Expr &c, Expr &var)=0 | CVC3::TheoryArith | [pure virtual] |
| setIncomplete(const std::string &reason) | CVC3::Theory | [virtual] |
| setInconsistent(const Theorem &e) | CVC3::Theory | [virtual] |
| setup(const Expr &e)=0 | CVC3::TheoryArith | [pure virtual] |
| setupCC(const Expr &e) | CVC3::Theory | |
| setUsed() | CVC3::Theory | [inline, virtual] |
| simplify(const Expr &e) | CVC3::Theory | [virtual] |
| simplifyExpr(const Expr &e) | CVC3::Theory | [inline] |
| simplifyOp(const Expr &e) | CVC3::Theory | [virtual] |
| solve(const Theorem &e)=0 | CVC3::TheoryArith | [pure virtual] |
| subrangeType(const Expr &l, const Expr &r) | CVC3::TheoryArith | [inline] |
| substitutivityRule(const Op &op, const std::vector< Theorem > &thms) | CVC3::Theory | [inline] |
| substitutivityRule(const Expr &e, const Theorem &t) | CVC3::Theory | [inline] |
| substitutivityRule(const Expr &e, const Theorem &t1, const Theorem &t2) | CVC3::Theory | [inline] |
| substitutivityRule(const Expr &e, const std::vector< unsigned > &changed, const std::vector< Theorem > &thms) | CVC3::Theory | [inline] |
| substitutivityRule(const Expr &e, int changed, const Theorem &thm) | CVC3::Theory | [inline] |
| symmetryRule(const Theorem &a1_eq_a2) | CVC3::Theory | [inline] |
| Theory(TheoryCore *theoryCore, const std::string &name) | CVC3::Theory | |
| TheoryArith(TheoryCore *core, const std::string &name) | CVC3::TheoryArith | [inline] |
| theoryCore() | CVC3::Theory | [inline] |
| theoryOf(int kind) | CVC3::Theory | |
| theoryOf(const Type &e) | CVC3::Theory | |
| theoryOf(const Expr &e) | CVC3::Theory | |
| theoryPreprocess(const Expr &e) | CVC3::Theory | [inline, virtual] |
| theoryUsed() | CVC3::Theory | [inline, virtual] |
| transitivityRule(const Theorem &a1_eq_a2, const Theorem &a2_eq_a3) | CVC3::Theory | [inline] |
| trueExpr() | CVC3::Theory | [inline] |
| typePred(const Expr &e) | CVC3::Theory | |
| unregisterKinds(Theory *theory, std::vector< int > &kinds) | CVC3::Theory | |
| unregisterTheory(Theory *theory, std::vector< int > &kinds, bool hasSolver) | CVC3::Theory | |
| update(const Theorem &e, const Expr &d)=0 | CVC3::TheoryArith | [pure virtual] |
| updateCC(const Theorem &e, const Expr &d) | CVC3::Theory | |
| updateHelper(const Expr &e) | CVC3::Theory | |
| ~Theory(void) | CVC3::Theory | [virtual] |
| ~TheoryArith() | CVC3::TheoryArith | [inline] |
