''' This code is automatically generated. Never edit it manually. For details of generating the code see `rubi_parsing_guide.md` in `parsetools`. ''' from sympy.external import import_module matchpy = import_module("matchpy") from sympy.utilities.decorator import doctest_depends_on if matchpy: from matchpy import Pattern, ReplacementRule, CustomConstraint, is_match from sympy.integrals.rubi.utility_function import ( Int, Sum, Set, With, Module, Scan, MapAnd, FalseQ, ZeroQ, NegativeQ, NonzeroQ, FreeQ, NFreeQ, List, Log, PositiveQ, PositiveIntegerQ, NegativeIntegerQ, IntegerQ, IntegersQ, ComplexNumberQ, PureComplexNumberQ, RealNumericQ, PositiveOrZeroQ, NegativeOrZeroQ, FractionOrNegativeQ, NegQ, Equal, Unequal, IntPart, FracPart, RationalQ, ProductQ, SumQ, NonsumQ, Subst, First, Rest, SqrtNumberQ, SqrtNumberSumQ, LinearQ, Sqrt, ArcCosh, Coefficient, Denominator, Hypergeometric2F1, Not, Simplify, FractionalPart, IntegerPart, AppellF1, EllipticPi, EllipticE, EllipticF, ArcTan, ArcCot, ArcCoth, ArcTanh, ArcSin, ArcSinh, ArcCos, ArcCsc, ArcSec, ArcCsch, ArcSech, Sinh, Tanh, Cosh, Sech, Csch, Coth, LessEqual, Less, Greater, GreaterEqual, FractionQ, IntLinearcQ, Expand, IndependentQ, PowerQ, IntegerPowerQ, PositiveIntegerPowerQ, FractionalPowerQ, AtomQ, ExpQ, LogQ, Head, MemberQ, TrigQ, SinQ, CosQ, TanQ, CotQ, SecQ, CscQ, Sin, Cos, Tan, Cot, Sec, Csc, HyperbolicQ, SinhQ, CoshQ, TanhQ, CothQ, SechQ, CschQ, InverseTrigQ, SinCosQ, SinhCoshQ, LeafCount, Numerator, NumberQ, NumericQ, Length, ListQ, Im, Re, InverseHyperbolicQ, InverseFunctionQ, TrigHyperbolicFreeQ, InverseFunctionFreeQ, RealQ, EqQ, FractionalPowerFreeQ, ComplexFreeQ, PolynomialQ, FactorSquareFree, PowerOfLinearQ, Exponent, QuadraticQ, LinearPairQ, BinomialParts, TrinomialParts, PolyQ, EvenQ, OddQ, PerfectSquareQ, NiceSqrtAuxQ, NiceSqrtQ, Together, PosAux, PosQ, CoefficientList, ReplaceAll, ExpandLinearProduct, GCD, ContentFactor, NumericFactor, NonnumericFactors, MakeAssocList, GensymSubst, KernelSubst, ExpandExpression, Apart, SmartApart, MatchQ, PolynomialQuotientRemainder, FreeFactors, NonfreeFactors, RemoveContentAux, RemoveContent, FreeTerms, NonfreeTerms, ExpandAlgebraicFunction, CollectReciprocals, ExpandCleanup, AlgebraicFunctionQ, Coeff, LeadTerm, RemainingTerms, LeadFactor, RemainingFactors, LeadBase, LeadDegree, Numer, Denom, hypergeom, Expon, MergeMonomials, PolynomialDivide, BinomialQ, TrinomialQ, GeneralizedBinomialQ, GeneralizedTrinomialQ, FactorSquareFreeList, PerfectPowerTest, SquareFreeFactorTest, RationalFunctionQ, RationalFunctionFactors, NonrationalFunctionFactors, Reverse, RationalFunctionExponents, RationalFunctionExpand, ExpandIntegrand, SimplerQ, SimplerSqrtQ, SumSimplerQ, BinomialDegree, TrinomialDegree, CancelCommonFactors, SimplerIntegrandQ, GeneralizedBinomialDegree, GeneralizedBinomialParts, GeneralizedTrinomialDegree, GeneralizedTrinomialParts, MonomialQ, MonomialSumQ, MinimumMonomialExponent, MonomialExponent, LinearMatchQ, PowerOfLinearMatchQ, QuadraticMatchQ, CubicMatchQ, BinomialMatchQ, TrinomialMatchQ, GeneralizedBinomialMatchQ, GeneralizedTrinomialMatchQ, QuotientOfLinearsMatchQ, PolynomialTermQ, PolynomialTerms, NonpolynomialTerms, PseudoBinomialParts, NormalizePseudoBinomial, PseudoBinomialPairQ, PseudoBinomialQ, PolynomialGCD, PolyGCD, AlgebraicFunctionFactors, NonalgebraicFunctionFactors, QuotientOfLinearsP, QuotientOfLinearsParts, QuotientOfLinearsQ, Flatten, Sort, AbsurdNumberQ, AbsurdNumberFactors, NonabsurdNumberFactors, SumSimplerAuxQ, Prepend, Drop, CombineExponents, FactorInteger, FactorAbsurdNumber, SubstForInverseFunction, SubstForFractionalPower, SubstForFractionalPowerOfQuotientOfLinears, FractionalPowerOfQuotientOfLinears, SubstForFractionalPowerQ, SubstForFractionalPowerAuxQ, FractionalPowerOfSquareQ, FractionalPowerSubexpressionQ, Apply, FactorNumericGcd, MergeableFactorQ, MergeFactor, MergeFactors, TrigSimplifyQ, TrigSimplify, TrigSimplifyRecur, Order, FactorOrder, Smallest, OrderedQ, MinimumDegree, PositiveFactors, Sign, NonpositiveFactors, PolynomialInAuxQ, PolynomialInQ, ExponentInAux, ExponentIn, PolynomialInSubstAux, PolynomialInSubst, Distrib, DistributeDegree, FunctionOfPower, DivideDegreesOfFactors, MonomialFactor, FullSimplify, FunctionOfLinearSubst, FunctionOfLinear, NormalizeIntegrand, NormalizeIntegrandAux, NormalizeIntegrandFactor, NormalizeIntegrandFactorBase, NormalizeTogether, NormalizeLeadTermSigns, AbsorbMinusSign, NormalizeSumFactors, SignOfFactor, NormalizePowerOfLinear, SimplifyIntegrand, SimplifyTerm, TogetherSimplify, SmartSimplify, SubstForExpn, ExpandToSum, UnifySum, UnifyTerms, UnifyTerm, CalculusQ, FunctionOfInverseLinear, PureFunctionOfSinhQ, PureFunctionOfTanhQ, PureFunctionOfCoshQ, IntegerQuotientQ, OddQuotientQ, EvenQuotientQ, FindTrigFactor, FunctionOfSinhQ, FunctionOfCoshQ, OddHyperbolicPowerQ, FunctionOfTanhQ, FunctionOfTanhWeight, FunctionOfHyperbolicQ, SmartNumerator, SmartDenominator, SubstForAux, ActivateTrig, ExpandTrig, TrigExpand, SubstForTrig, SubstForHyperbolic, InertTrigFreeQ, LCM, SubstForFractionalPowerOfLinear, FractionalPowerOfLinear, InverseFunctionOfLinear, InertTrigQ, InertReciprocalQ, DeactivateTrig, FixInertTrigFunction, DeactivateTrigAux, PowerOfInertTrigSumQ, PiecewiseLinearQ, KnownTrigIntegrandQ, KnownSineIntegrandQ, KnownTangentIntegrandQ, KnownCotangentIntegrandQ, KnownSecantIntegrandQ, TryPureTanSubst, TryTanhSubst, TryPureTanhSubst, AbsurdNumberGCD, AbsurdNumberGCDList, ExpandTrigExpand, ExpandTrigReduce, ExpandTrigReduceAux, NormalizeTrig, TrigToExp, ExpandTrigToExp, TrigReduce, FunctionOfTrig, AlgebraicTrigFunctionQ, FunctionOfHyperbolic, FunctionOfQ, FunctionOfExpnQ, PureFunctionOfSinQ, PureFunctionOfCosQ, PureFunctionOfTanQ, PureFunctionOfCotQ, FunctionOfCosQ, FunctionOfSinQ, OddTrigPowerQ, FunctionOfTanQ, FunctionOfTanWeight, FunctionOfTrigQ, FunctionOfDensePolynomialsQ, FunctionOfLog, PowerVariableExpn, PowerVariableDegree, PowerVariableSubst, EulerIntegrandQ, FunctionOfSquareRootOfQuadratic, SquareRootOfQuadraticSubst, Divides, EasyDQ, ProductOfLinearPowersQ, Rt, NthRoot, AtomBaseQ, SumBaseQ, NegSumBaseQ, AllNegTermQ, SomeNegTermQ, TrigSquareQ, RtAux, TrigSquare, IntSum, IntTerm, Map2, ConstantFactor, SameQ, ReplacePart, CommonFactors, MostMainFactorPosition, FunctionOfExponentialQ, FunctionOfExponential, FunctionOfExponentialFunction, FunctionOfExponentialFunctionAux, FunctionOfExponentialTest, FunctionOfExponentialTestAux, stdev, rubi_test, If, IntQuadraticQ, IntBinomialQ, RectifyTangent, RectifyCotangent, Inequality, Condition, Simp, SimpHelp, SplitProduct, SplitSum, SubstFor, SubstForAux, FresnelS, FresnelC, Erfc, Erfi, Gamma, FunctionOfTrigOfLinearQ, ElementaryFunctionQ, Complex, UnsameQ, _SimpFixFactor, SimpFixFactor, _FixSimplify, FixSimplify, _SimplifyAntiderivativeSum, SimplifyAntiderivativeSum, _SimplifyAntiderivative, SimplifyAntiderivative, _TrigSimplifyAux, TrigSimplifyAux, Cancel, Part, PolyLog, D, Dist, Sum_doit, PolynomialQuotient, Floor, PolynomialRemainder, Factor, PolyLog, CosIntegral, SinIntegral, LogIntegral, SinhIntegral, CoshIntegral, Rule, Erf, PolyGamma, ExpIntegralEi, ExpIntegralE, LogGamma , UtilityOperator, Factorial, Zeta, ProductLog, DerivativeDivides, HypergeometricPFQ, IntHide, OneQ, Null, rubi_exp as exp, rubi_log as log, Discriminant, Negative, Quotient ) from sympy import (Integral, S, sqrt, And, Or, Integer, Float, Mod, I, Abs, simplify, Mul, Add, Pow, sign, EulerGamma) from sympy.integrals.rubi.symbol import WC from sympy.core.symbol import symbols, Symbol from sympy.functions import (sin, cos, tan, cot, csc, sec, sqrt, erf) from sympy.functions.elementary.hyperbolic import (acosh, asinh, atanh, acoth, acsch, asech, cosh, sinh, tanh, coth, sech, csch) from sympy.functions.elementary.trigonometric import (atan, acsc, asin, acot, acos, asec, atan2) from sympy import pi as Pi A_, B_, C_, F_, G_, H_, a_, b_, c_, d_, e_, f_, g_, h_, i_, j_, k_, l_, m_, n_, p_, q_, r_, t_, u_, v_, s_, w_, x_, y_, z_ = [WC(i) for i in 'ABCFGHabcdefghijklmnpqrtuvswxyz'] a1_, a2_, b1_, b2_, c1_, c2_, d1_, d2_, n1_, n2_, e1_, e2_, f1_, f2_, g1_, g2_, n1_, n2_, n3_, Pq_, Pm_, Px_, Qm_, Qr_, Qx_, jn_, mn_, non2_, RFx_, RGx_ = [WC(i) for i in ['a1', 'a2', 'b1', 'b2', 'c1', 'c2', 'd1', 'd2', 'n1', 'n2', 'e1', 'e2', 'f1', 'f2', 'g1', 'g2', 'n1', 'n2', 'n3', 'Pq', 'Pm', 'Px', 'Qm', 'Qr', 'Qx', 'jn', 'mn', 'non2', 'RFx', 'RGx']] i, ii , Pqq, Q, R, r, C, k, u = symbols('i ii Pqq Q R r C k u') _UseGamma = False ShowSteps = False StepCounter = None def piecewise_linear(rubi): from sympy.integrals.rubi.constraints import cons1090, cons21, cons1091, cons87, cons88, cons1092, cons89, cons23, cons72, cons66, cons4, cons1093, cons214, cons683, cons100, cons101, cons1094, cons1095, cons31, cons94, cons356, cons1096, cons18, cons1097, cons2, cons3 def With1882(x, m, u): c = D(u, x) rubi.append(1882) return Dist(S(1)/c, Subst(Int(x**m, x), x, u), x) pattern1882 = Pattern(Integral(u_**WC('m', S(1)), x_), cons21, cons1090) rule1882 = ReplacementRule(pattern1882, With1882) def With1883(v, x, u): if isinstance(x, (int, Integer, float, Float)): return False a = D(u, x) b = D(v, x) if NonzeroQ(-a*v + b*u): return True return False pattern1883 = Pattern(Integral(v_/u_, x_), cons1091, CustomConstraint(With1883)) def replacement1883(v, x, u): a = D(u, x) b = D(v, x) rubi.append(1883) return -Dist((-a*v + b*u)/a, Int(S(1)/u, x), x) + Simp(b*x/a, x) rule1883 = ReplacementRule(pattern1883, replacement1883) def With1884(v, x, n, u): if isinstance(x, (int, Integer, float, Float)): return False a = D(u, x) b = D(v, x) if NonzeroQ(-a*v + b*u): return True return False pattern1884 = Pattern(Integral(v_**n_/u_, x_), cons1091, cons87, cons88, cons1092, CustomConstraint(With1884)) def replacement1884(v, x, n, u): a = D(u, x) b = D(v, x) rubi.append(1884) return -Dist((-a*v + b*u)/a, Int(v**(n + S(-1))/u, x), x) + Simp(v**n/(a*n), x) rule1884 = ReplacementRule(pattern1884, replacement1884) def With1885(v, x, u): if isinstance(x, (int, Integer, float, Float)): return False a = D(u, x) b = D(v, x) if NonzeroQ(-a*v + b*u): return True return False pattern1885 = Pattern(Integral(S(1)/(u_*v_), x_), cons1091, CustomConstraint(With1885)) def replacement1885(v, x, u): a = D(u, x) b = D(v, x) rubi.append(1885) return -Dist(a/(-a*v + b*u), Int(S(1)/u, x), x) + Dist(b/(-a*v + b*u), Int(S(1)/v, x), x) rule1885 = ReplacementRule(pattern1885, replacement1885) def With1886(v, x, u): if isinstance(x, (int, Integer, float, Float)): return False a = D(u, x) b = D(v, x) if And(NonzeroQ(-a*v + b*u), PosQ((-a*v + b*u)/a)): return True return False pattern1886 = Pattern(Integral(S(1)/(u_*sqrt(v_)), x_), cons1091, CustomConstraint(With1886)) def replacement1886(v, x, u): a = D(u, x) b = D(v, x) rubi.append(1886) return Simp(S(2)*ArcTan(sqrt(v)/Rt((-a*v + b*u)/a, S(2)))/(a*Rt((-a*v + b*u)/a, S(2))), x) rule1886 = ReplacementRule(pattern1886, replacement1886) def With1887(v, x, u): if isinstance(x, (int, Integer, float, Float)): return False a = D(u, x) b = D(v, x) if And(NonzeroQ(-a*v + b*u), NegQ((-a*v + b*u)/a)): return True return False pattern1887 = Pattern(Integral(S(1)/(u_*sqrt(v_)), x_), cons1091, CustomConstraint(With1887)) def replacement1887(v, x, u): a = D(u, x) b = D(v, x) rubi.append(1887) return Simp(-S(2)*atanh(sqrt(v)/Rt(-(-a*v + b*u)/a, S(2)))/(a*Rt(-(-a*v + b*u)/a, S(2))), x) rule1887 = ReplacementRule(pattern1887, replacement1887) def With1888(v, x, n, u): if isinstance(x, (int, Integer, float, Float)): return False a = D(u, x) b = D(v, x) if NonzeroQ(-a*v + b*u): return True return False pattern1888 = Pattern(Integral(v_**n_/u_, x_), cons1091, cons87, cons89, CustomConstraint(With1888)) def replacement1888(v, x, n, u): a = D(u, x) b = D(v, x) rubi.append(1888) return -Dist(a/(-a*v + b*u), Int(v**(n + S(1))/u, x), x) + Simp(v**(n + S(1))/((n + S(1))*(-a*v + b*u)), x) rule1888 = ReplacementRule(pattern1888, replacement1888) def With1889(v, x, n, u): if isinstance(x, (int, Integer, float, Float)): return False a = D(u, x) b = D(v, x) if NonzeroQ(-a*v + b*u): return True return False pattern1889 = Pattern(Integral(v_**n_/u_, x_), cons1091, cons23, CustomConstraint(With1889)) def replacement1889(v, x, n, u): a = D(u, x) b = D(v, x) rubi.append(1889) return Simp(v**(n + S(1))*Hypergeometric2F1(S(1), n + S(1), n + S(2), -a*v/(-a*v + b*u))/((n + S(1))*(-a*v + b*u)), x) rule1889 = ReplacementRule(pattern1889, replacement1889) def With1890(v, x, u): if isinstance(x, (int, Integer, float, Float)): return False a = D(u, x) b = D(v, x) if And(NonzeroQ(-a*v + b*u), PosQ(a*b)): return True return False pattern1890 = Pattern(Integral(S(1)/(sqrt(u_)*sqrt(v_)), x_), cons1091, CustomConstraint(With1890)) def replacement1890(v, x, u): a = D(u, x) b = D(v, x) rubi.append(1890) return Simp(S(2)*atanh(sqrt(u)*Rt(a*b, S(2))/(a*sqrt(v)))/Rt(a*b, S(2)), x) rule1890 = ReplacementRule(pattern1890, replacement1890) def With1891(v, x, u): if isinstance(x, (int, Integer, float, Float)): return False a = D(u, x) b = D(v, x) if And(NonzeroQ(-a*v + b*u), NegQ(a*b)): return True return False pattern1891 = Pattern(Integral(S(1)/(sqrt(u_)*sqrt(v_)), x_), cons1091, CustomConstraint(With1891)) def replacement1891(v, x, u): a = D(u, x) b = D(v, x) rubi.append(1891) return Simp(S(2)*ArcTan(sqrt(u)*Rt(-a*b, S(2))/(a*sqrt(v)))/Rt(-a*b, S(2)), x) rule1891 = ReplacementRule(pattern1891, replacement1891) def With1892(v, u, m, n, x): if isinstance(x, (int, Integer, float, Float)): return False a = D(u, x) b = D(v, x) if NonzeroQ(-a*v + b*u): return True return False pattern1892 = Pattern(Integral(u_**m_*v_**n_, x_), cons21, cons4, cons1091, cons72, cons66, CustomConstraint(With1892)) def replacement1892(v, u, m, n, x): a = D(u, x) b = D(v, x) rubi.append(1892) return -Simp(u**(m + S(1))*v**(n + S(1))/((m + S(1))*(-a*v + b*u)), x) rule1892 = ReplacementRule(pattern1892, replacement1892) def With1893(v, u, m, n, x): if isinstance(x, (int, Integer, float, Float)): return False a = D(u, x) b = D(v, x) if NonzeroQ(-a*v + b*u): return True return False pattern1893 = Pattern(Integral(u_**m_*v_**WC('n', S(1)), x_), cons21, cons4, cons1091, cons66, cons1093, CustomConstraint(With1893)) def replacement1893(v, u, m, n, x): a = D(u, x) b = D(v, x) rubi.append(1893) return -Dist(b*n/(a*(m + S(1))), Int(u**(m + S(1))*v**(n + S(-1)), x), x) + Simp(u**(m + S(1))*v**n/(a*(m + S(1))), x) rule1893 = ReplacementRule(pattern1893, replacement1893) def With1894(v, u, m, n, x): if isinstance(x, (int, Integer, float, Float)): return False a = D(u, x) b = D(v, x) if NonzeroQ(-a*v + b*u): return True return False pattern1894 = Pattern(Integral(u_**m_*v_**WC('n', S(1)), x_), cons1091, cons214, cons87, cons88, cons683, cons100, cons101, CustomConstraint(With1894)) def replacement1894(v, u, m, n, x): a = D(u, x) b = D(v, x) rubi.append(1894) return -Dist(n*(-a*v + b*u)/(a*(m + n + S(1))), Int(u**m*v**(n + S(-1)), x), x) + Simp(u**(m + S(1))*v**n/(a*(m + n + S(1))), x) rule1894 = ReplacementRule(pattern1894, replacement1894) def With1895(v, u, m, n, x): if isinstance(x, (int, Integer, float, Float)): return False a = D(u, x) b = D(v, x) if NonzeroQ(-a*v + b*u): return True return False pattern1895 = Pattern(Integral(u_**m_*v_**n_, x_), cons1091, cons683, cons1094, cons1095, CustomConstraint(With1895)) def replacement1895(v, u, m, n, x): a = D(u, x) b = D(v, x) rubi.append(1895) return -Dist(n*(-a*v + b*u)/(a*(m + n + S(1))), Int(u**m*v**(n + S(-1)), x), x) + Simp(u**(m + S(1))*v**n/(a*(m + n + S(1))), x) rule1895 = ReplacementRule(pattern1895, replacement1895) def With1896(v, u, m, n, x): if isinstance(x, (int, Integer, float, Float)): return False a = D(u, x) b = D(v, x) if NonzeroQ(-a*v + b*u): return True return False pattern1896 = Pattern(Integral(u_**m_*v_**n_, x_), cons1091, cons214, cons31, cons94, CustomConstraint(With1896)) def replacement1896(v, u, m, n, x): a = D(u, x) b = D(v, x) rubi.append(1896) return Dist(b*(m + n + S(2))/((m + S(1))*(-a*v + b*u)), Int(u**(m + S(1))*v**n, x), x) - Simp(u**(m + S(1))*v**(n + S(1))/((m + S(1))*(-a*v + b*u)), x) rule1896 = ReplacementRule(pattern1896, replacement1896) def With1897(v, u, m, n, x): if isinstance(x, (int, Integer, float, Float)): return False a = D(u, x) b = D(v, x) if NonzeroQ(-a*v + b*u): return True return False pattern1897 = Pattern(Integral(u_**m_*v_**n_, x_), cons1091, cons356, cons1096, CustomConstraint(With1897)) def replacement1897(v, u, m, n, x): a = D(u, x) b = D(v, x) rubi.append(1897) return Dist(b*(m + n + S(2))/((m + S(1))*(-a*v + b*u)), Int(u**(m + S(1))*v**n, x), x) - Simp(u**(m + S(1))*v**(n + S(1))/((m + S(1))*(-a*v + b*u)), x) rule1897 = ReplacementRule(pattern1897, replacement1897) def With1898(v, u, m, n, x): if isinstance(x, (int, Integer, float, Float)): return False a = D(u, x) b = D(v, x) if NonzeroQ(-a*v + b*u): return True return False pattern1898 = Pattern(Integral(u_**m_*v_**n_, x_), cons1091, cons18, cons23, CustomConstraint(With1898)) def replacement1898(v, u, m, n, x): a = D(u, x) b = D(v, x) rubi.append(1898) return Simp(u**m*v**(n + S(1))*(b*u/(-a*v + b*u))**(-m)*Hypergeometric2F1(-m, n + S(1), n + S(2), -a*v/(-a*v + b*u))/(b*(n + S(1))), x) rule1898 = ReplacementRule(pattern1898, replacement1898) def With1899(u, b, a, n, x): c = D(u, x) rubi.append(1899) return -Dist(c*n/b, Int(u**(n + S(-1))*(a + b*x)*log(a + b*x), x), x) - Int(u**n, x) + Simp(u**n*(a + b*x)*log(a + b*x)/b, x) pattern1899 = Pattern(Integral(u_**WC('n', S(1))*log(x_*WC('b', S(1)) + WC('a', S(0))), x_), cons2, cons3, cons1090, cons1097, cons87, cons88) rule1899 = ReplacementRule(pattern1899, With1899) def With1900(u, m, b, a, n, x): c = D(u, x) rubi.append(1900) return -Dist(c*n/(b*(m + S(1))), Int(u**(n + S(-1))*(a + b*x)**(m + S(1))*log(a + b*x), x), x) - Dist(S(1)/(m + S(1)), Int(u**n*(a + b*x)**m, x), x) + Simp(u**n*(a + b*x)**(m + S(1))*log(a + b*x)/(b*(m + S(1))), x) pattern1900 = Pattern(Integral(u_**WC('n', S(1))*(x_*WC('b', S(1)) + WC('a', S(0)))**WC('m', S(1))*log(x_*WC('b', S(1)) + WC('a', S(0))), x_), cons2, cons3, cons21, cons1090, cons1097, cons87, cons88, cons66) rule1900 = ReplacementRule(pattern1900, With1900) return [rule1882, rule1883, rule1884, rule1885, rule1886, rule1887, rule1888, rule1889, rule1890, rule1891, rule1892, rule1893, rule1894, rule1895, rule1896, rule1897, rule1898, rule1899, rule1900, ]