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00022 #ifndef _cvc3__arith_theorem_producer3_h_
00023 #define _cvc3__arith_theorem_producer3_h_
00024
00025 #include "arith_proof_rules.h"
00026 #include "theorem_producer.h"
00027 #include "theory_arith3.h"
00028
00029 namespace CVC3 {
00030 class TheoryArith3;
00031
00032 class ArithTheoremProducer3: public ArithProofRules, public TheoremProducer {
00033 TheoryArith3* d_theoryArith;
00034 private:
00035
00036
00037
00038
00039
00040 Rational modEq(const Rational& i, const Rational& m);
00041
00042 Expr create_t(const Expr& eqn);
00043
00044 Expr create_t2(const Expr& lhs, const Expr& rhs, const Expr& t);
00045
00046 Expr create_t3(const Expr& lhs, const Expr& rhs, const Expr& t);
00047
00048
00049
00050
00051
00052 void sumModM(std::vector<Expr>& summands, const Expr& sum,
00053 const Rational& m, const Rational& divisor);
00054 Expr monomialModM(const Expr& e,
00055 const Rational& m, const Rational& divisor);
00056 void sumMulF(std::vector<Expr>& summands, const Expr& sum,
00057 const Rational& m, const Rational& divisor);
00058 Expr monomialMulF(const Expr& e,
00059 const Rational& m, const Rational& divisor);
00060
00061 Rational f(const Rational& i, const Rational& m);
00062 Expr substitute(const Expr& term, ExprMap<Expr>& eMap);
00063
00064 public:
00065
00066 ArithTheoremProducer3(TheoremManager* tm, TheoryArith3* theoryArith):
00067 TheoremProducer(tm), d_theoryArith(theoryArith) { }
00068
00069
00070 Expr rat(Rational r) { return d_em->newRatExpr(r); }
00071 Type realType() { return d_theoryArith->realType(); }
00072 Type intType() { return d_theoryArith->intType(); }
00073
00074 Expr darkShadow(const Expr& lhs, const Expr& rhs) {
00075 return d_theoryArith->darkShadow(lhs, rhs);
00076 }
00077
00078
00079
00080 Expr grayShadow(const Expr& v, const Expr& e,
00081 const Rational& c1, const Rational& c2) {
00082 return d_theoryArith->grayShadow(v, e, c1, c2);
00083 }
00084
00085
00086
00087
00088
00089
00090 virtual Theorem varToMult(const Expr& e);
00091
00092
00093 virtual Theorem uMinusToMult(const Expr& e);
00094
00095
00096 virtual Theorem minusToPlus(const Expr& x, const Expr& y);
00097
00098
00099 virtual Theorem canonUMinusToDivide(const Expr& e);
00100
00101
00102
00103 virtual Theorem canonDivideConst(const Expr& c, const Expr& d);
00104
00105 virtual Theorem canonDivideMult(const Expr& cx, const Expr& d);
00106
00107
00108
00109
00110 virtual Theorem canonDividePlus(const Expr& e, const Expr& d);
00111
00112 virtual Theorem canonDivideVar(const Expr& e1, const Expr& e2);
00113
00114
00115
00116
00117
00118
00119
00120
00121
00122
00123
00124
00125 static bool greaterthan(const Expr &, const Expr &);
00126 virtual Expr simplifiedMultExpr(std::vector<Expr> & mulKids);
00127 virtual Expr canonMultConstMult(const Expr & c, const Expr & e);
00128 virtual Expr canonMultConstPlus(const Expr & e1, const Expr & e2);
00129 virtual Expr canonMultPowPow(const Expr & e1, const Expr & e2);
00130 virtual Expr canonMultPowLeaf(const Expr & e1, const Expr & e2);
00131 virtual Expr canonMultLeafLeaf(const Expr & e1, const Expr & e2);
00132 virtual Expr canonMultLeafOrPowMult(const Expr & e1, const Expr & e2);
00133 virtual Expr canonCombineLikeTerms(const std::vector<Expr> & sumExprs);
00134 virtual Expr
00135 canonMultLeafOrPowOrMultPlus(const Expr & e1, const Expr & e2);
00136 virtual Expr canonMultPlusPlus(const Expr & e1, const Expr & e2);
00137 virtual Theorem canonMultMtermMterm(const Expr& e);
00138 virtual Theorem canonPlus(const Expr & e);
00139 virtual Theorem canonInvertConst(const Expr & e);
00140 virtual Theorem canonInvertLeaf(const Expr & e);
00141 virtual Theorem canonInvertPow(const Expr & e);
00142 virtual Theorem canonInvertMult(const Expr & e);
00143 virtual Theorem canonInvert(const Expr & e);
00144
00145
00146
00147
00148
00149
00150
00151
00152 virtual Theorem moveSumConstantRight(const Expr& e);
00153
00154
00155 virtual Theorem canonDivide(const Expr & e);
00156
00157
00158 virtual Theorem canonMult(const Expr & e);
00159
00160
00161 virtual Theorem canonMultTermConst(const Expr& c, const Expr& t);
00162
00163 virtual Theorem canonMultTerm1Term2(const Expr& t1, const Expr& t2);
00164
00165 virtual Theorem canonMultZero(const Expr& e);
00166
00167 virtual Theorem canonMultOne(const Expr& e);
00168
00169 virtual Theorem canonMultConstConst(const Expr& c1, const Expr& c2);
00170
00171 virtual Theorem
00172 canonMultConstTerm(const Expr& c1, const Expr& c2, const Expr&t);
00173
00174 virtual Theorem canonMultConstSum(const Expr& c1, const Expr& sum);
00175
00176 virtual Theorem canonPowConst(const Expr& pow);
00177
00178
00179
00180 virtual Theorem canonFlattenSum(const Expr& e);
00181
00182
00183
00184 virtual Theorem canonComboLikeTerms(const Expr& e);
00185
00186
00187 virtual Theorem multEqZero(const Expr& expr);
00188
00189
00190
00191 virtual Theorem powEqZero(const Expr& expr);
00192
00193
00194
00195 virtual Theorem elimPower(const Expr& expr);
00196
00197
00198
00199 virtual Theorem elimPowerConst(const Expr& expr, const Rational& root);
00200
00201
00202 virtual Theorem evenPowerEqNegConst(const Expr& expr);
00203
00204
00205 virtual Theorem intEqIrrational(const Expr& expr, const Theorem& isInt);
00206
00207
00208
00209 virtual Theorem constPredicate(const Expr& e);
00210
00211
00212 virtual Theorem rightMinusLeft(const Expr& e);
00213
00214
00215 virtual Theorem leftMinusRight(const Expr& e);
00216
00217
00218 virtual Theorem plusPredicate(const Expr& x,
00219 const Expr& y,
00220 const Expr& z, int kind);
00221
00222
00223 virtual Theorem multEqn(const Expr& x, const Expr& y, const Expr& z);
00224
00225
00226 virtual Theorem divideEqnNonConst(const Expr& x, const Expr& y, const Expr& z);
00227
00228
00229
00230 virtual Theorem multIneqn(const Expr& e, const Expr& z);
00231
00232
00233 virtual Theorem eqToIneq(const Expr& e);
00234
00235
00236 virtual Theorem flipInequality(const Expr& e);
00237
00238
00239
00240
00241
00242 Theorem negatedInequality(const Expr& e);
00243
00244 Theorem realShadow(const Theorem& alphaLTt, const Theorem& tLTbeta);
00245 Theorem realShadowEq(const Theorem& alphaLEt, const Theorem& tLEalpha);
00246 Theorem finiteInterval(const Theorem& aLEt, const Theorem& tLEac,
00247 const Theorem& isInta, const Theorem& isIntt);
00248
00249 Theorem darkGrayShadow2ab(const Theorem& betaLEbx,
00250 const Theorem& axLEalpha,
00251 const Theorem& isIntAlpha,
00252 const Theorem& isIntBeta,
00253 const Theorem& isIntx);
00254
00255 Theorem darkGrayShadow2ba(const Theorem& betaLEbx,
00256 const Theorem& axLEalpha,
00257 const Theorem& isIntAlpha,
00258 const Theorem& isIntBeta,
00259 const Theorem& isIntx);
00260
00261 Theorem expandDarkShadow(const Theorem& darkShadow);
00262 Theorem expandGrayShadow0(const Theorem& grayShadow);
00263 Theorem splitGrayShadow(const Theorem& grayShadow);
00264 Theorem splitGrayShadowSmall(const Theorem& grayShadow);
00265 Theorem expandGrayShadow(const Theorem& grayShadow);
00266 Theorem expandGrayShadowConst(const Theorem& grayShadow);
00267 Theorem grayShadowConst(const Theorem& g);
00268
00269
00270
00271
00272
00273 Rational constRHSGrayShadow(const Rational& c,
00274 const Rational& b,
00275 const Rational& a);
00276
00277 Theorem lessThanToLE(const Theorem& less, const Theorem& isIntLHS,
00278 const Theorem& isIntRHS, bool changeRight);
00279
00280 Theorem lessThanToLERewrite(const Expr& ineq, const Theorem& isIntLHS,
00281 const Theorem& isIntRHS, bool changeRight);
00282
00283 Theorem intVarEqnConst(const Expr& eqn, const Theorem& isIntx);
00284 Theorem IsIntegerElim(const Theorem& isIntx);
00285
00286 Theorem eqElimIntRule(const Theorem& eqn, const Theorem& isIntx,
00287 const std::vector<Theorem>& isIntVars);
00288
00289 Theorem isIntConst(const Expr& e);
00290
00291 Theorem equalLeaves1(const Theorem& e);
00292 Theorem equalLeaves2(const Theorem& e);
00293 Theorem equalLeaves3(const Theorem& e);
00294 Theorem equalLeaves4(const Theorem& e);
00295
00296 Theorem diseqToIneq(const Theorem& diseq);
00297
00298 Theorem dummyTheorem(const Expr& e);
00299
00300 Theorem oneElimination(const Expr& x);
00301
00302 Theorem clashingBounds(const Theorem& lowerBound, const Theorem& upperBound);
00303
00304 Theorem addInequalities(const Theorem& thm1, const Theorem& thm2);
00305 Theorem addInequalities(const std::vector<Theorem>& thms);
00306
00307 Theorem implyWeakerInequality(const Expr& expr1, const Expr& expr2);
00308
00309 Theorem implyNegatedInequality(const Expr& expr1, const Expr& expr2);
00310
00311 Theorem integerSplit(const Expr& intVar, const Rational& intPoint);
00312
00313 Theorem trustedRewrite(const Expr& expr1, const Expr& expr2);
00314
00315 Theorem rafineStrictInteger(const Theorem& isIntConstrThm, const Expr& constr);
00316
00317 Theorem simpleIneqInt(const Expr& ineq, const Theorem& isIntRHS);
00318
00319 Theorem intEqualityRationalConstant(const Theorem& isIntConstrThm, const Expr& constr);
00320
00321 Theorem cycleConflict(const std::vector<Theorem>& inequalitites);
00322
00323 Theorem implyEqualities(const std::vector<Theorem>& inequalities);
00324
00325 Theorem implyWeakerInequalityDiffLogic(const std::vector<Theorem>& antecedentThms, const Expr& implied);
00326
00327 Theorem implyNegatedInequalityDiffLogic(const std::vector<Theorem>& antecedentThms, const Expr& implied);
00328
00329 Theorem expandGrayShadowRewrite(const Expr& theShadow);
00330
00331 Theorem compactNonLinearTerm(const Expr& nonLinear);
00332
00333 Theorem nonLinearIneqSignSplit(const Theorem& ineqThm);
00334
00335 Theorem implyDiffLogicBothBounds(const Expr& x, std::vector<Theorem>& c1_le_x, Rational c1,
00336 std::vector<Theorem>& x_le_c2, Rational c2);
00337
00338 Theorem powerOfOne(const Expr& e);
00339
00340 };
00341
00342 }
00343
00344 #endif