Python WC Beispiele

Beispiel #1

Datei: piecewise_linear.py Projekt: ca954bj/StructuralSymbolicSolver

def piecewise_linear(rubi):

    pattern1 = Pattern(
        Integral(u_**WC('m', S(1)), x_),
        CustomConstraint(lambda m, x: FreeQ(m, x)),
        CustomConstraint(lambda x, u: PiecewiseLinearQ(u, x)),
    )

    def With1(x, m, u):
        c = D(u, x)
        return Subst(Int(x**m, x), x, u) / c

    rule1 = ReplacementRule(pattern1, lambda x, m, u: With1(x, m, u))
    rubi.add(rule1)

    pattern2 = Pattern(
        Integral(v_ / u_, x_),
        CustomConstraint(lambda x, v, u: PiecewiseLinearQ(u, v, x)),
        CustomConstraint(lambda v, b, x, u, a: NonzeroQ(-a * v + b * u)))

    def With2(x, v, u):
        a = D(u, x)
        b = D(v, x)
        return b * x / a - (-a * v + b * u) * Int(1 / u, x) / a

    rule2 = ReplacementRule(pattern2, lambda x, v, u: With2(x, v, u))
    rubi.add(rule2)

    pattern3 = Pattern(
        Integral(v_**n_ / u_, x_),
        CustomConstraint(lambda x, v, u: PiecewiseLinearQ(u, v, x)),
        CustomConstraint(lambda n: RationalQ(n)),
        CustomConstraint(lambda n: Greater(n, S(0))),
        CustomConstraint(lambda n: Unequal(n, S(1))),
        CustomConstraint(lambda v, b, n, x, u, a: NonzeroQ(-a * v + b * u)))

    def With3(x, n, v, u):
        a = D(u, x)
        b = D(v, x)
        return -(-a * v + b * u) * Int(v**
                                       (n + S(-1)) / u, x) / a + v**n / (a * n)

    rule3 = ReplacementRule(pattern3, lambda x, n, v, u: With3(x, n, v, u))
    rubi.add(rule3)

    pattern4 = Pattern(
        Integral(S(1) / (u_ * v_), x_),
        CustomConstraint(lambda x, v, u: PiecewiseLinearQ(u, v, x)),
        CustomConstraint(lambda v, b, x, u, a: NonzeroQ(-a * v + b * u)))

    def With4(x, v, u):
        a = D(u, x)
        b = D(v, x)
        return -a * Int(1 / u, x) / (-a * v + b * u) + b * Int(
            1 / v, x) / (-a * v + b * u)

    rule4 = ReplacementRule(pattern4, lambda x, v, u: With4(x, v, u))
    rubi.add(rule4)

    pattern5 = Pattern(
        Integral(S(1) / (u_ * sqrt(v_)), x_),
        CustomConstraint(lambda x, v, u: PiecewiseLinearQ(u, v, x)),
        CustomConstraint(lambda v, b, u, a: NonzeroQ(-a * v + b * u) & PosQ(
            (-a * v + b * u) / a)))

    def With5(x, v, u):
        a = D(u, x)
        b = D(v, x)
        return S(2) * ArcTan(sqrt(v) / Rt(
            (-a * v + b * u) / a, S(2))) / (a * Rt((-a * v + b * u) / a, S(2)))

    rule5 = ReplacementRule(pattern5, lambda x, v, u: With5(x, v, u))
    rubi.add(rule5)

    pattern6 = Pattern(
        Integral(S(1) / (u_ * sqrt(v_)), x_),
        CustomConstraint(lambda x, v, u: PiecewiseLinearQ(u, v, x)),
        CustomConstraint(lambda v, b, u, a: NonzeroQ(-a * v + b * u) & NegQ(
            (-a * v + b * u) / a)))

    def With6(x, v, u):
        a = D(u, x)
        b = D(v, x)
        return -S(2) * atanh(sqrt(v) / Rt(
            (a * v - b * u) / a, S(2))) / (a * Rt((a * v - b * u) / a, S(2)))

    rule6 = ReplacementRule(pattern6, lambda x, v, u: With6(x, v, u))
    rubi.add(rule6)

    pattern7 = Pattern(
        Integral(v_**n_ / u_, x_),
        CustomConstraint(lambda x, v, u: PiecewiseLinearQ(u, v, x)),
        CustomConstraint(lambda n: RationalQ(n)),
        CustomConstraint(lambda n: Less(n, S(-1))),
        CustomConstraint(lambda v, b, n, x, u, a: NonzeroQ(-a * v + b * u)))

    def With7(x, n, v, u):
        a = D(u, x)
        b = D(v, x)
        return -a * Int(v**(n + S(1)) / u, x) / (-a * v + b * u) + v**(
            n + S(1)) / ((n + S(1)) * (-a * v + b * u))

    rule7 = ReplacementRule(pattern7, lambda x, n, v, u: With7(x, n, v, u))
    rubi.add(rule7)

    pattern8 = Pattern(
        Integral(v_**n_ / u_, x_),
        CustomConstraint(lambda x, v, u: PiecewiseLinearQ(u, v, x)),
        CustomConstraint(lambda n: Not(IntegerQ(n))),
        CustomConstraint(lambda v, b, n, u, a: NonzeroQ(-a * v + b * u)))

    def With8(x, n, v, u):
        a = D(u, x)
        b = D(v, x)
        return 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))

    rule8 = ReplacementRule(pattern8, lambda x, n, v, u: With8(x, n, v, u))
    rubi.add(rule8)

    pattern9 = Pattern(
        Integral(S(1) / (sqrt(u_) * sqrt(v_)), x_),
        CustomConstraint(lambda x, v, u: PiecewiseLinearQ(u, v, x)),
        CustomConstraint(
            lambda v, b, u, a: PosQ(a * b) & NonzeroQ(-a * v + b * u)))

    def With9(x, v, u):
        a = D(u, x)
        b = D(v, x)
        return S(2) * atanh(sqrt(u) * Rt(a * b, S(2)) /
                            (a * sqrt(v))) / Rt(a * b, S(2))

    rule9 = ReplacementRule(pattern9, lambda x, v, u: With9(x, v, u))
    rubi.add(rule9)

    pattern10 = Pattern(
        Integral(S(1) / (sqrt(u_) * sqrt(v_)), x_),
        CustomConstraint(lambda x, v, u: PiecewiseLinearQ(u, v, x)),
        CustomConstraint(
            lambda v, b, u, a: NegQ(a * b) & NonzeroQ(-a * v + b * u)))

    def With10(x, v, u):
        a = D(u, x)
        b = D(v, x)
        return S(2) * ArcTan(sqrt(u) * Rt(-a * b, S(2)) /
                             (a * sqrt(v))) / Rt(-a * b, S(2))

    rule10 = ReplacementRule(pattern10, lambda x, v, u: With10(x, v, u))
    rubi.add(rule10)

    pattern11 = Pattern(
        Integral(u_**m_ * v_**n_, x_),
        CustomConstraint(lambda m, x: FreeQ(m, x)),
        CustomConstraint(lambda n, x: FreeQ(n, x)),
        CustomConstraint(lambda x, v, u: PiecewiseLinearQ(u, v, x)),
        CustomConstraint(lambda n, m: ZeroQ(m + n + S(2))),
        CustomConstraint(lambda m: NonzeroQ(m + S(1))),
        CustomConstraint(lambda v, b, n, m, u, a: NonzeroQ(-a * v + b * u)))

    def With11(x, n, v, u, m):
        a = D(u, x)
        b = D(v, x)
        return -u**(m + S(1)) * v**(n + S(1)) / ((m + S(1)) * (-a * v + b * u))

    rule11 = ReplacementRule(pattern11,
                             lambda x, n, v, u, m: With11(x, n, v, u, m))
    rubi.add(rule11)

    pattern12 = Pattern(
        Integral(u_**m_ * v_**WC('n', S(1)), x_),
        CustomConstraint(lambda m, x: FreeQ(m, x)),
        CustomConstraint(lambda n, x: FreeQ(n, x)),
        CustomConstraint(lambda x, v, u: PiecewiseLinearQ(u, v, x)),
        CustomConstraint(lambda m: NonzeroQ(m + S(1))),
        CustomConstraint(lambda n, m: (NegativeIntegerQ(m) & Not(IntegerQ(
            n))) | (PositiveIntegerQ(n) & Not(IntegerQ(m))) | (
                LessEqual(n, m) & PositiveIntegerQ(n, m)
            ) | (Greater(n, S(0)) & Less(m, S(-1)) & RationalQ(m, n) & Not(
                IntegerQ(m + n) & Less(m + n + S(2), S(0)) &
                (FractionQ(m) | GreaterEqual(m + S(2) * n + S(1), S(0)))))),
        CustomConstraint(lambda v, b, n, x, m, u, a: NonzeroQ(-a * v + b * u)))

    def With12(x, n, v, u, m):
        a = D(u, x)
        b = D(v, x)
        return -b * n * Int(u**(m + S(1)) * v**(n + S(-1)), x) / (
            a * (m + S(1))) + u**(m + S(1)) * v**n / (a * (m + S(1)))

    rule12 = ReplacementRule(pattern12,
                             lambda x, n, v, u, m: With12(x, n, v, u, m))
    rubi.add(rule12)

    pattern13 = Pattern(
        Integral(u_**m_ * v_**WC('n', S(1)), x_),
        CustomConstraint(lambda x, v, u: PiecewiseLinearQ(u, v, x)),
        CustomConstraint(lambda n, m: NonzeroQ(m + n + S(2))),
        CustomConstraint(lambda n: RationalQ(n)),
        CustomConstraint(lambda n: Greater(n, S(0))),
        CustomConstraint(lambda n, m: NonzeroQ(m + n + S(1))),
        CustomConstraint(lambda n, m: Not(
            PositiveIntegerQ(m) & (Not(IntegerQ(n)) | Less(S(0), m, n)))),
        CustomConstraint(
            lambda n, m: Not(IntegerQ(m + n) & Less(m + n + S(2), S(0)))),
        CustomConstraint(lambda v, b, n, x, m, u, a: NonzeroQ(-a * v + b * u)))

    def With13(x, n, v, u, m):
        a = D(u, x)
        b = D(v, x)
        return -n * (-a * v + b * u) * Int(u**m * v**(n + S(-1)), x) / (
            a * (m + n + S(1))) + u**(m + S(1)) * v**n / (a * (m + n + S(1)))

    rule13 = ReplacementRule(pattern13,
                             lambda x, n, v, u, m: With13(x, n, v, u, m))
    rubi.add(rule13)

    pattern14 = Pattern(
        Integral(u_**m_ * v_**n_, x_),
        CustomConstraint(lambda x, v, u: PiecewiseLinearQ(u, v, x)),
        CustomConstraint(lambda n, m: NonzeroQ(m + n + S(1))),
        CustomConstraint(lambda n: Not(RationalQ(n))),
        CustomConstraint(lambda n: SumSimplerQ(n, S(-1))),
        CustomConstraint(lambda v, b, n, x, m, u, a: NonzeroQ(-a * v + b * u)))

    def With14(x, n, v, u, m):
        a = D(u, x)
        b = D(v, x)
        return -n * (-a * v + b * u) * Int(u**m * v**(n + S(-1)), x) / (
            a * (m + n + S(1))) + u**(m + S(1)) * v**n / (a * (m + n + S(1)))

    rule14 = ReplacementRule(pattern14,
                             lambda x, n, v, u, m: With14(x, n, v, u, m))
    rubi.add(rule14)

    pattern15 = Pattern(
        Integral(u_**m_ * v_**n_, x_),
        CustomConstraint(lambda x, v, u: PiecewiseLinearQ(u, v, x)),
        CustomConstraint(lambda n, m: NonzeroQ(m + n + S(2))),
        CustomConstraint(lambda m: RationalQ(m)),
        CustomConstraint(lambda m: Less(m, S(-1))),
        CustomConstraint(lambda v, b, n, x, m, u, a: NonzeroQ(-a * v + b * u)))

    def With15(x, n, v, u, m):
        a = D(u, x)
        b = D(v, x)
        return b * (m + n + S(2)) * Int(u**(m + S(1)) * v**n, x) / (
            (m + S(1)) * (-a * v + b * u)) - u**(m + S(1)) * v**(n + S(1)) / (
                (m + S(1)) * (-a * v + b * u))

    rule15 = ReplacementRule(pattern15,
                             lambda x, n, v, u, m: With15(x, n, v, u, m))
    rubi.add(rule15)

    pattern16 = Pattern(
        Integral(u_**m_ * v_**n_, x_),
        CustomConstraint(lambda x, v, u: PiecewiseLinearQ(u, v, x)),
        CustomConstraint(lambda m: Not(RationalQ(m))),
        CustomConstraint(lambda m: SumSimplerQ(m, S(1))),
        CustomConstraint(lambda v, b, n, x, m, u, a: NonzeroQ(-a * v + b * u)))

    def With16(x, n, v, u, m):
        a = D(u, x)
        b = D(v, x)
        return b * (m + n + S(2)) * Int(u**(m + S(1)) * v**n, x) / (
            (m + S(1)) * (-a * v + b * u)) - u**(m + S(1)) * v**(n + S(1)) / (
                (m + S(1)) * (-a * v + b * u))

    rule16 = ReplacementRule(pattern16,
                             lambda x, n, v, u, m: With16(x, n, v, u, m))
    rubi.add(rule16)

    pattern17 = Pattern(
        Integral(u_**m_ * v_**n_, x_),
        CustomConstraint(lambda x, v, u: PiecewiseLinearQ(u, v, x)),
        CustomConstraint(lambda m: Not(IntegerQ(m))),
        CustomConstraint(lambda n: Not(IntegerQ(n))),
        CustomConstraint(lambda v, b, n, m, u, a: NonzeroQ(-a * v + b * u)))

    def With17(x, n, v, u, m):
        a = D(u, x)
        b = D(v, x)
        return 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)))

    rule17 = ReplacementRule(pattern17,
                             lambda x, n, v, u, m: With17(x, n, v, u, m))
    rubi.add(rule17)

    pattern18 = Pattern(
        Integral(u_**WC('n', S(1)) * log(x_ * WC('b', S(1)) + WC('a', S(0))),
                 x_),
        CustomConstraint(lambda a, x: FreeQ(a, x)),
        CustomConstraint(lambda b, x: FreeQ(b, x)),
        CustomConstraint(lambda x, u: PiecewiseLinearQ(u, x)),
        CustomConstraint(lambda x, u: Not(LinearQ(u, x))),
        CustomConstraint(lambda n: RationalQ(n)),
        CustomConstraint(lambda n: Greater(n, S(0))),
    )

    def With18(x, n, b, u, a):
        c = D(u, x)
        return -Int(u**n, x) - c * n * Int(
            u**(n + S(-1)) * (a + b * x) * log(a + b * x),
            x) / b + u**n * (a + b * x) * log(a + b * x) / b

    rule18 = ReplacementRule(pattern18,
                             lambda x, n, b, u, a: With18(x, n, b, u, a))
    rubi.add(rule18)

    pattern19 = 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_),
        CustomConstraint(lambda a, x: FreeQ(a, x)),
        CustomConstraint(lambda b, x: FreeQ(b, x)),
        CustomConstraint(lambda m, x: FreeQ(m, x)),
        CustomConstraint(lambda x, u: PiecewiseLinearQ(u, x)),
        CustomConstraint(lambda x, u: Not(LinearQ(u, x))),
        CustomConstraint(lambda n: RationalQ(n)),
        CustomConstraint(lambda n: Greater(n, S(0))),
        CustomConstraint(lambda m: NonzeroQ(m + S(1))),
    )

    def With19(x, n, b, u, a, m):
        c = D(u, x)
        return -Int(u**n * (a + b * x)**m, x) / (m + S(1)) - c * n * Int(
            u**(n + S(-1)) * (a + b * x)**
            (m + S(1)) * log(a + b * x), x) / (b * (m + S(1))) + u**n * (
                a + b * x)**(m + S(1)) * log(a + b * x) / (b * (m + S(1)))

    rule19 = ReplacementRule(pattern19,
                             lambda x, n, b, u, a, m: With19(x, n, b, u, a, m))
    rubi.add(rule19)

    return rubi

Beispiel #2

Datei: integrand_simplification.py Projekt: msgoff/sympy

def integrand_simplification():
    from sympy.integrals.rubi.constraints import (
        cons1,
        cons2,
        cons3,
        cons4,
        cons5,
        cons6,
        cons7,
        cons8,
        cons9,
        cons10,
        cons11,
        cons12,
        cons13,
        cons14,
        cons15,
        cons16,
        cons17,
        cons18,
        cons19,
        cons20,
        cons21,
        cons22,
        cons23,
        cons24,
        cons25,
        cons26,
        cons27,
        cons28,
        cons29,
        cons30,
        cons31,
        cons32,
        cons33,
        cons34,
        cons35,
        cons36,
        cons37,
        cons38,
        cons39,
        cons40,
        cons41,
        cons42,
        cons43,
        cons44,
        cons45,
        cons46,
        cons47,
        cons48,
        cons49,
        cons50,
        cons51,
        cons52,
        cons53,
        cons54,
        cons55,
        cons56,
        cons57,
        cons58,
        cons59,
        cons60,
        cons61,
        cons62,
        cons63,
        cons64,
        cons65,
        cons66,
        cons67,
    )

    pattern1 = Pattern(
        Integral(
            (a_ + x_**WC("n", S(1)) * WC("b", S(1)))**WC("p", S(1)) *
            WC("u", S(1)),
            x_,
        ),
        cons2,
        cons3,
        cons4,
        cons5,
        cons1,
    )
    rule1 = ReplacementRule(pattern1, replacement1)

    pattern2 = Pattern(
        Integral(
            (x_**WC("n", S(1)) * WC("b", S(1)) + WC("a", S(0)))**WC("p", S(1))
            * WC("u", S(1)),
            x_,
        ),
        cons2,
        cons3,
        cons4,
        cons5,
        cons6,
    )
    rule2 = ReplacementRule(pattern2, replacement2)

    pattern3 = Pattern(
        Integral(
            (a_ + x_**WC("j", S(1)) * WC("c", S(1)) +
             x_**WC("n", S(1)) * WC("b", S(1)))**WC("p", S(1)) * WC("u", S(1)),
            x_,
        ),
        cons2,
        cons3,
        cons8,
        cons4,
        cons5,
        cons7,
        cons1,
    )
    rule3 = ReplacementRule(pattern3, replacement3)

    pattern4 = Pattern(
        Integral(
            (x_**WC("j", S(1)) * WC("c", S(1)) + x_**WC("n", S(1)) *
             WC("b", S(1)) + WC("a", S(0)))**WC("p", S(1)) * WC("u", S(1)),
            x_,
        ),
        cons2,
        cons3,
        cons8,
        cons4,
        cons5,
        cons7,
        cons6,
    )
    rule4 = ReplacementRule(pattern4, replacement4)

    pattern5 = Pattern(
        Integral(
            (x_**WC("j", S(1)) * WC("c", S(1)) + x_**WC("n", S(1)) *
             WC("b", S(1)) + WC("a", S(0)))**WC("p", S(1)) * WC("u", S(1)),
            x_,
        ),
        cons2,
        cons3,
        cons8,
        cons4,
        cons5,
        cons7,
        cons9,
    )
    rule5 = ReplacementRule(pattern5, replacement5)

    pattern6 = Pattern(
        Integral(
            (v_ * WC("a", S(1)) + v_ * WC("b", S(1)) + WC("w", S(0)))**WC(
                "p", S(1)) * WC("u", S(1)),
            x_,
        ),
        cons2,
        cons3,
        cons10,
    )
    rule6 = ReplacementRule(pattern6, replacement6)

    pattern7 = Pattern(Integral(Pm_**p_ * WC("u", S(1)), x_), cons11, cons12,
                       cons13)
    rule7 = ReplacementRule(pattern7, replacement7)

    pattern8 = Pattern(Integral(a_, x_), cons2, cons2)
    rule8 = ReplacementRule(pattern8, replacement8)

    pattern9 = Pattern(Integral(a_ * (b_ + x_ * WC("c", S(1))), x_), cons2,
                       cons3, cons8, cons14)
    rule9 = ReplacementRule(pattern9, replacement9)

    pattern10 = Pattern(Integral(-u_, x_))
    rule10 = ReplacementRule(pattern10, replacement10)

    pattern11 = Pattern(Integral(u_ * Complex(S(0), a_), x_), cons2, cons15)
    rule11 = ReplacementRule(pattern11, replacement11)

    pattern12 = Pattern(Integral(a_ * u_, x_), cons2, cons16)
    rule12 = ReplacementRule(pattern12, replacement12)

    pattern13 = Pattern(Integral(u_, x_), cons17)
    rule13 = ReplacementRule(pattern13, replacement13)

    pattern14 = Pattern(
        Integral(u_ * (x_ * WC("c", S(1)))**WC("m", S(1)), x_),
        cons8,
        cons19,
        cons17,
        cons18,
    )
    rule14 = ReplacementRule(pattern14, replacement14)

    pattern15 = Pattern(
        Integral(v_**WC("m", S(1)) * (b_ * v_)**n_ * WC("u", S(1)), x_),
        cons3,
        cons4,
        cons20,
    )
    rule15 = ReplacementRule(pattern15, replacement15)

    pattern16 = Pattern(
        Integral((v_ * WC("a", S(1)))**m_ * (v_ * WC("b", S(1)))**n_ *
                 WC("u", S(1)), x_),
        cons2,
        cons3,
        cons19,
        cons21,
        cons22,
        cons23,
    )
    rule16 = ReplacementRule(pattern16, replacement16)

    pattern17 = Pattern(
        Integral((v_ * WC("a", S(1)))**m_ * (v_ * WC("b", S(1)))**n_ *
                 WC("u", S(1)), x_),
        cons2,
        cons3,
        cons19,
        cons21,
        cons24,
        cons23,
    )
    rule17 = ReplacementRule(pattern17, replacement17)

    pattern18 = Pattern(
        Integral((v_ * WC("a", S(1)))**m_ * (v_ * WC("b", S(1)))**n_ *
                 WC("u", S(1)), x_),
        cons2,
        cons3,
        cons19,
        cons4,
        cons21,
        cons25,
        cons23,
    )
    rule18 = ReplacementRule(pattern18, replacement18)

    pattern19 = Pattern(
        Integral((v_ * WC("a", S(1)))**m_ * (v_ * WC("b", S(1)))**n_ *
                 WC("u", S(1)), x_),
        cons2,
        cons3,
        cons19,
        cons4,
        cons21,
        cons25,
        cons26,
    )
    rule19 = ReplacementRule(pattern19, replacement19)

    pattern20 = Pattern(
        Integral(
            (a_ + v_ * WC("b", S(1)))**WC("m", S(1)) *
            (c_ + v_ * WC("d", S(1)))**WC("n", S(1)) * WC("u", S(1)),
            x_,
        ),
        cons2,
        cons3,
        cons8,
        cons29,
        cons4,
        cons27,
        cons20,
        cons28,
    )
    rule20 = ReplacementRule(pattern20, replacement20)

    pattern21 = Pattern(
        Integral(
            (a_ + v_ * WC("b", S(1)))**m_ * (c_ + v_ * WC("d", S(1)))**n_ *
            WC("u", S(1)),
            x_,
        ),
        cons2,
        cons3,
        cons8,
        cons29,
        cons19,
        cons4,
        cons27,
        cons30,
        cons31,
    )
    rule21 = ReplacementRule(pattern21, replacement21)

    pattern22 = Pattern(
        Integral(
            (a_ + v_ * WC("b", S(1)))**m_ * (c_ + v_ * WC("d", S(1)))**n_ *
            WC("u", S(1)),
            x_,
        ),
        cons2,
        cons3,
        cons8,
        cons29,
        cons19,
        cons4,
        cons27,
        cons32,
    )
    rule22 = ReplacementRule(pattern22, replacement22)

    pattern23 = Pattern(
        Integral(
            (v_ * WC("a", S(1)))**m_ *
            (v_**S(2) * WC("c", S(1)) + v_ * WC("b", S(1))) * WC("u", S(1)),
            x_,
        ),
        cons2,
        cons3,
        cons8,
        cons33,
        cons34,
    )
    rule23 = ReplacementRule(pattern23, replacement23)

    pattern24 = Pattern(
        Integral(
            (a_ + v_ * WC("b", S(1)))**m_ *
            (v_**S(2) * WC("C", S(1)) + v_ * WC("B", S(1)) + WC("A", S(0))) *
            WC("u", S(1)),
            x_,
        ),
        cons2,
        cons3,
        cons36,
        cons37,
        cons38,
        cons35,
        cons33,
        cons34,
    )
    rule24 = ReplacementRule(pattern24, replacement24)

    pattern25 = Pattern(
        Integral(
            (a_ + x_**WC("n", S(1)) * WC("b", S(1)))**WC("m", S(1)) *
            (c_ + x_**WC("q", S(1)) * WC("d", S(1)))**WC("p", S(1)) *
            WC("u", S(1)),
            x_,
        ),
        cons2,
        cons3,
        cons8,
        cons29,
        cons19,
        cons4,
        cons39,
        cons40,
        cons41,
        cons42,
    )
    rule25 = ReplacementRule(pattern25, replacement25)

    pattern26 = Pattern(
        Integral(
            (a_ + x_**WC("n", S(1)) * WC("b", S(1)))**WC("m", S(1)) *
            (c_ + x_**j_ * WC("d", S(1)))**WC("p", S(1)) * WC("u", S(1)),
            x_,
        ),
        cons2,
        cons3,
        cons8,
        cons29,
        cons19,
        cons4,
        cons5,
        cons7,
        cons43,
        cons44,
        cons45,
        cons46,
    )
    rule26 = ReplacementRule(pattern26, replacement26)

    pattern27 = Pattern(
        Integral(
            (a_ + x_**S(2) * WC("c", S(1)) + x_ * WC("b", S(1)))**WC(
                "p", S(1)) * WC("u", S(1)),
            x_,
        ),
        cons2,
        cons3,
        cons8,
        cons47,
        cons40,
    )
    rule27 = ReplacementRule(pattern27, replacement27)

    pattern28 = Pattern(
        Integral(
            (a_ + x_**n_ * WC("b", S(1)) + x_**WC("n2", S(1)) * WC("c", S(1)))
            **WC("p", S(1)) * WC("u", S(1)),
            x_,
        ),
        cons2,
        cons3,
        cons8,
        cons4,
        cons48,
        cons47,
        cons40,
    )
    rule28 = ReplacementRule(pattern28, replacement28)

    pattern29 = Pattern(
        Integral(
            (d_ + x_ * WC("e", S(1))) *
            (x_**S(2) * WC("c", S(1)) + x_ * WC("b", S(1)) + WC("a", S(0)))**
            WC("p", S(1)),
            x_,
        ),
        cons2,
        cons3,
        cons8,
        cons29,
        cons50,
        cons5,
        cons49,
    )
    rule29 = ReplacementRule(pattern29, replacement29)

    pattern30 = Pattern(
        Integral(
            (x_**WC("p", S(1)) * WC("a", S(1)) +
             x_**WC("q", S(1)) * WC("b", S(1)))**WC("m", S(1)) * WC("u", S(1)),
            x_,
        ),
        cons2,
        cons3,
        cons5,
        cons52,
        cons20,
        cons51,
    )
    rule30 = ReplacementRule(pattern30, replacement30)

    pattern31 = Pattern(
        Integral(
            (x_**WC("p", S(1)) * WC("a", S(1)) +
             x_**WC("q", S(1)) * WC("b", S(1)) +
             x_**WC("r", S(1)) * WC("c", S(1)))**WC("m", S(1)) * WC("u", S(1)),
            x_,
        ),
        cons2,
        cons3,
        cons8,
        cons5,
        cons52,
        cons54,
        cons20,
        cons51,
        cons53,
    )
    rule31 = ReplacementRule(pattern31, replacement31)

    pattern32 = Pattern(
        Integral(x_**WC("m", S(1)) / (a_ + x_**n_ * WC("b", S(1))), x_),
        cons2,
        cons3,
        cons19,
        cons4,
        cons55,
    )
    rule32 = ReplacementRule(pattern32, replacement32)

    pattern33 = Pattern(
        Integral(x_**WC("m", S(1)) * (a_ + x_**n_ * WC("b", S(1)))**p_, x_),
        cons2,
        cons3,
        cons19,
        cons4,
        cons5,
        cons55,
        cons56,
    )
    rule33 = ReplacementRule(pattern33, replacement33)

    pattern34 = Pattern(
        Integral(
            x_**WC("m", S(1)) *
            (a1_ + x_**WC("n", S(1)) * WC("b1", S(1)))**p_ *
            (a2_ + x_**WC("n", S(1)) * WC("b2", S(1)))**p_,
            x_,
        ),
        cons59,
        cons60,
        cons61,
        cons62,
        cons19,
        cons4,
        cons5,
        cons57,
        cons58,
        cons56,
    )
    rule34 = ReplacementRule(pattern34, replacement34)

    pattern35 = Pattern(
        Integral(
            Qm_ * (Pm_**WC("n", S(1)) * WC("b", S(1)) + WC("a", S(0)))**WC(
                "p", S(1)),
            x_,
        ),
        cons2,
        cons3,
        cons4,
        cons5,
        cons11,
        cons63,
        CustomConstraint(With35),
    )
    rule35 = ReplacementRule(pattern35, replacement35)

    pattern36 = Pattern(
        Integral(
            Qm_ * (Pm_**WC("n", S(1)) * WC("b", S(1)) + Pm_**WC("n2", S(1)) *
                   WC("c", S(1)) + WC("a", S(0)))**WC("p", S(1)),
            x_,
        ),
        cons2,
        cons3,
        cons8,
        cons4,
        cons5,
        cons48,
        cons11,
        cons63,
        CustomConstraint(With36),
    )
    rule36 = ReplacementRule(pattern36, replacement36)

    pattern37 = Pattern(
        Integral(Pq_**m_ * Qr_**p_ * WC("u", S(1)), x_),
        cons64,
        cons65,
        cons66,
        cons67,
        CustomConstraint(With37),
    )
    rule37 = ReplacementRule(pattern37, replacement37)

    pattern38 = Pattern(
        Integral(Pq_ * Qr_**p_ * WC("u", S(1)), x_),
        cons65,
        cons66,
        cons67,
        CustomConstraint(With38),
    )
    rule38 = ReplacementRule(pattern38, replacement38)
    return [
        rule1,
        rule2,
        rule3,
        rule4,
        rule5,
        rule6,
        rule7,
        rule8,
        rule9,
        rule10,
        rule11,
        rule12,
        rule13,
        rule14,
        rule15,
        rule16,
        rule17,
        rule18,
        rule19,
        rule20,
        rule21,
        rule22,
        rule23,
        rule24,
        rule25,
        rule26,
        rule27,
        rule28,
        rule29,
        rule30,
        rule31,
        rule32,
        rule33,
        rule34,
        rule35,
        rule36,
        rule37,
        rule38,
    ]

Beispiel #3

Datei: piecewise_linear.py Projekt: ca954bj/StructuralSymbolicSolver

        _SimplifyAntiderivative, SimplifyAntiderivative, _TrigSimplifyAux,
        TrigSimplifyAux, Cancel, Part, PolyLog, D, Dist)
    from sympy import Integral, S, sqrt
    from sympy.integrals.rubi.symbol import WC
    from sympy.core.symbol import symbols, Symbol
    from sympy.functions import (log, sin, cos, tan, cot, csc, sec, sqrt, erf,
                                 exp, log)
    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)

    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'
        ]
    ]

    _UseGamma = False


def piecewise_linear(rubi):

    pattern1 = Pattern(

Beispiel #4

Datei: piecewise_linear.py Projekt: kalolad1/health-story

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,
    ]

Beispiel #5

Datei: integrand_simplification.py Projekt: msgoff/sympy

     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_,

Beispiel #6

import os
import matchpy
from sympy.integrals.rubi.utility_function import *
from sympy.integrals.rubi.symbol import WC, matchpyWC
from cpp_code_generation import CppCodeGenerator
from matchpy.matching.code_generation import CodeGenerator
from symengine_printer import symengine_print
from sympy import *

x, y, z = symbols("x y z")
a, b, c = symbols("a b c")
f = Function("f")
w = WC("w", commutative=True)
wo = WC("wo", commutative=True, optional=True)

GENERATED_TEST_DIR = "autogen_tests"

collection_of_expressions = [
    ([x], {
        x: (0, {}),
        y: None
    }),
    ([x**y], {
        x**y: (0, {}),
        x**z: None
    }),
    ([x**y, w], {
        x**y: (0, {}),
        x: (1, {
            w: x
        }),

Beispiel #7

Datei: integrand_simplification.py Projekt: kalolad1/health-story

def integrand_simplification(rubi):
    from sympy.integrals.rubi.constraints import cons1, cons2, cons3, cons4, cons5, cons6, cons7, cons8, cons9, cons10, cons11, cons12, cons13, cons14, cons15, cons16, cons17, cons18, cons19, cons20, cons21, cons22, cons23, cons24, cons25, cons26, cons27, cons28, cons29, cons30, cons31, cons32, cons33, cons34, cons35, cons36, cons37, cons38, cons39, cons40, cons41, cons42, cons43, cons44, cons45, cons46, cons47, cons48, cons49, cons50, cons51, cons52, cons53, cons54, cons55, cons56, cons57, cons58, cons59, cons60, cons61, cons62, cons63, cons64, cons65

    pattern1 = Pattern(
        Integral((a_ + x_**WC('n', S(1)) * WC('b', S(1)))**WC('p', S(1)) *
                 WC('u', S(1)), x_), cons2, cons3, cons4, cons5, cons1)

    def replacement1(p, u, b, a, n, x):
        rubi.append(1)
        return Int(u * (b * x**n)**p, x)

    rule1 = ReplacementRule(pattern1, replacement1)
    pattern2 = Pattern(
        Integral(
            (a_ + x_**WC('j', S(1)) * WC('c', S(1)) +
             x_**WC('n', S(1)) * WC('b', S(1)))**WC('p', S(1)) * WC('u', S(1)),
            x_), cons2, cons3, cons7, cons4, cons5, cons6, cons1)

    def replacement2(p, u, j, b, c, n, a, x):
        rubi.append(2)
        return Int(u * (b * x**n + c * x**(S(2) * n))**p, x)

    rule2 = ReplacementRule(pattern2, replacement2)
    pattern3 = Pattern(
        Integral(
            (x_**WC('j', S(1)) * WC('c', S(1)) + x_**WC('n', S(1)) *
             WC('b', S(1)) + WC('a', S(0)))**WC('p', S(1)) * WC('u', S(1)),
            x_), cons2, cons3, cons7, cons4, cons5, cons6, cons8)

    def replacement3(p, u, j, b, a, c, n, x):
        rubi.append(3)
        return Int(u * (a + c * x**(S(2) * n))**p, x)

    rule3 = ReplacementRule(pattern3, replacement3)
    pattern4 = Pattern(
        Integral(
            (x_**WC('j', S(1)) * WC('c', S(1)) + x_**WC('n', S(1)) *
             WC('b', S(1)) + WC('a', S(0)))**WC('p', S(1)) * WC('u', S(1)),
            x_), cons2, cons3, cons7, cons4, cons5, cons6, cons9)

    def replacement4(p, u, j, b, a, c, n, x):
        rubi.append(4)
        return Int(u * (a + b * x**n)**p, x)

    rule4 = ReplacementRule(pattern4, replacement4)
    pattern5 = Pattern(
        Integral((v_ * WC('a', S(1)) + v_ * WC('b', S(1)) + WC('w', S(0)))**WC(
            'p', S(1)) * WC('u', S(1)), x_), cons2, cons3, cons10)

    def replacement5(v, w, p, u, b, a, x):
        rubi.append(5)
        return Int(u * (v * (a + b) + w)**p, x)

    rule5 = ReplacementRule(pattern5, replacement5)
    pattern6 = Pattern(Integral(Pm_**p_ * WC('u', S(1)), x_), cons11, cons12,
                       cons13)

    def replacement6(x, p, Pm, u):
        rubi.append(6)
        return Int(Pm**p * u, x)

    rule6 = ReplacementRule(pattern6, replacement6)
    pattern7 = Pattern(Integral(a_, x_), cons2, cons2)

    def replacement7(x, a):
        rubi.append(7)
        return Simp(a * x, x)

    rule7 = ReplacementRule(pattern7, replacement7)
    pattern8 = Pattern(Integral(a_ * (b_ + x_ * WC('c', S(1))), x_), cons2,
                       cons3, cons7, cons14)

    def replacement8(x, c, b, a):
        rubi.append(8)
        return Simp(a * (b + c * x)**S(2) / (S(2) * c), x)

    rule8 = ReplacementRule(pattern8, replacement8)
    pattern9 = Pattern(Integral(-u_, x_))

    def replacement9(x, u):
        rubi.append(9)
        return Dist(S(-1), Int(u, x), x)

    rule9 = ReplacementRule(pattern9, replacement9)
    pattern10 = Pattern(Integral(u_ * Complex(S(0), a_), x_), cons2, cons15)

    def replacement10(x, a, u):
        rubi.append(10)
        return Dist(Complex(S(0), a), Int(u, x), x)

    rule10 = ReplacementRule(pattern10, replacement10)
    pattern11 = Pattern(Integral(a_ * u_, x_), cons2, cons2)

    def replacement11(x, a, u):
        rubi.append(11)
        return Dist(a, Int(u, x), x)

    rule11 = ReplacementRule(pattern11, replacement11)
    pattern12 = Pattern(Integral(u_, x_), cons16)

    def replacement12(x, u):
        rubi.append(12)
        return Simp(IntSum(u, x), x)

    rule12 = ReplacementRule(pattern12, replacement12)
    pattern13 = Pattern(
        Integral(v_**WC('m', S(1)) * (b_ * v_)**n_ * WC('u', S(1)), x_), cons3,
        cons4, cons17)

    def replacement13(v, u, m, b, n, x):
        rubi.append(13)
        return Dist(b**(-m), Int(u * (b * v)**(m + n), x), x)

    rule13 = ReplacementRule(pattern13, replacement13)
    pattern14 = Pattern(
        Integral((v_ * WC('a', S(1)))**m_ * (v_ * WC('b', S(1)))**n_ *
                 WC('u', S(1)), x_), cons2, cons3, cons21, cons18, cons19,
        cons20)

    def replacement14(v, u, m, b, a, n, x):
        rubi.append(14)
        return Dist(
            a**(m + S(1) / 2) * b**(n + S(-1) / 2) * sqrt(b * v) / sqrt(a * v),
            Int(u * v**(m + n), x), x)

    rule14 = ReplacementRule(pattern14, replacement14)
    pattern15 = Pattern(
        Integral((v_ * WC('a', S(1)))**m_ * (v_ * WC('b', S(1)))**n_ *
                 WC('u', S(1)), x_), cons2, cons3, cons21, cons18, cons22,
        cons20)

    def replacement15(v, u, m, b, a, n, x):
        rubi.append(15)
        return Dist(
            a**(m + S(-1) / 2) * b**(n + S(1) / 2) * sqrt(a * v) / sqrt(b * v),
            Int(u * v**(m + n), x), x)

    rule15 = ReplacementRule(pattern15, replacement15)
    pattern16 = Pattern(
        Integral((v_ * WC('a', S(1)))**m_ * (v_ * WC('b', S(1)))**n_ *
                 WC('u', S(1)), x_), cons2, cons3, cons21, cons4, cons18,
        cons23, cons20)

    def replacement16(v, u, m, b, a, n, x):
        rubi.append(16)
        return Dist(a**(m + n) * (a * v)**(-n) * (b * v)**n,
                    Int(u * v**(m + n), x), x)

    rule16 = ReplacementRule(pattern16, replacement16)
    pattern17 = Pattern(
        Integral((v_ * WC('a', S(1)))**m_ * (v_ * WC('b', S(1)))**n_ *
                 WC('u', S(1)), x_), cons2, cons3, cons21, cons4, cons18,
        cons23, cons24)

    def replacement17(v, u, m, b, a, n, x):
        rubi.append(17)
        return Dist(
            a**(-IntPart(n)) * b**IntPart(n) * (a * v)**(-FracPart(n)) *
            (b * v)**FracPart(n), Int(u * (a * v)**(m + n), x), x)

    rule17 = ReplacementRule(pattern17, replacement17)
    pattern18 = Pattern(
        Integral((a_ + v_ * WC('b', S(1)))**WC('m', S(1)) *
                 (c_ + v_ * WC('d', S(1)))**WC('n', S(1)) * WC('u', S(1)), x_),
        cons2, cons3, cons7, cons27, cons4, cons25, cons17, cons26)

    def replacement18(v, u, m, b, d, a, n, c, x):
        rubi.append(18)
        return Dist((b / d)**m, Int(u * (c + d * v)**(m + n), x), x)

    rule18 = ReplacementRule(pattern18, replacement18)
    pattern19 = Pattern(
        Integral((a_ + v_ * WC('b', S(1)))**m_ *
                 (c_ + v_ * WC('d', S(1)))**n_ * WC('u', S(1)), x_), cons2,
        cons3, cons7, cons27, cons21, cons4, cons25, cons28, cons29)

    def replacement19(v, u, m, b, d, a, c, n, x):
        rubi.append(19)
        return Dist((b / d)**m, Int(u * (c + d * v)**(m + n), x), x)

    rule19 = ReplacementRule(pattern19, replacement19)
    pattern20 = Pattern(
        Integral((a_ + v_ * WC('b', S(1)))**m_ *
                 (c_ + v_ * WC('d', S(1)))**n_ * WC('u', S(1)), x_), cons2,
        cons3, cons7, cons27, cons21, cons4, cons25, cons30)

    def replacement20(v, u, m, b, d, a, c, n, x):
        rubi.append(20)
        return Dist((a + b * v)**m * (c + d * v)**(-m),
                    Int(u * (c + d * v)**(m + n), x), x)

    rule20 = ReplacementRule(pattern20, replacement20)
    pattern21 = Pattern(
        Integral(
            (v_ * WC('a', S(1)))**m_ *
            (v_**S(2) * WC('c', S(1)) + v_ * WC('b', S(1))) * WC('u', S(1)),
            x_), cons2, cons3, cons7, cons31, cons32)

    def replacement21(v, u, m, b, c, a, x):
        rubi.append(21)
        return Dist(S(1) / a, Int(u * (a * v)**(m + S(1)) * (b + c * v), x), x)

    rule21 = ReplacementRule(pattern21, replacement21)
    pattern22 = Pattern(
        Integral(
            (a_ + v_ * WC('b', S(1)))**m_ *
            (v_**S(2) * WC('C', S(1)) + v_ * WC('B', S(1)) + WC('A', S(0))) *
            WC('u', S(1)), x_), cons2, cons3, cons34, cons35, cons36, cons33,
        cons31, cons32)

    def replacement22(B, v, C, u, m, b, a, x, A):
        rubi.append(22)
        return Dist(
            b**(S(-2)),
            Int(
                u * (a + b * v)**(m + S(1)) *
                Simp(B * b - C * a + C * b * v, x), x), x)

    rule22 = ReplacementRule(pattern22, replacement22)
    pattern23 = Pattern(
        Integral((a_ + x_**WC('n', S(1)) * WC('b', S(1)))**WC('m', S(1)) *
                 (c_ + x_**WC('q', S(1)) * WC('d', S(1)))**WC('p', S(1)) *
                 WC('u', S(1)), x_), cons2, cons3, cons7, cons27, cons21,
        cons4, cons37, cons38, cons39, cons40)

    def replacement23(p, u, m, b, d, a, n, c, x, q):
        rubi.append(23)
        return Dist((d / a)**p,
                    Int(u * x**(-n * p) * (a + b * x**n)**(m + p), x), x)

    rule23 = ReplacementRule(pattern23, replacement23)
    pattern24 = Pattern(
        Integral((a_ + x_**WC('n', S(1)) * WC('b', S(1)))**WC('m', S(1)) *
                 (c_ + x_**j_ * WC('d', S(1)))**WC('p', S(1)) * WC('u', S(1)),
                 x_), cons2, cons3, cons7, cons27, cons21, cons4, cons5, cons6,
        cons41, cons42, cons43, cons44)

    def replacement24(p, u, j, m, b, d, a, n, c, x):
        rubi.append(24)
        return Dist((-b**S(2) / d)**m, Int(u * (a - b * x**n)**(-m), x), x)

    rule24 = ReplacementRule(pattern24, replacement24)
    pattern25 = Pattern(
        Integral((a_ + x_**S(2) * WC('c', S(1)) + x_ * WC('b', S(1)))**WC(
            'p', S(1)) * WC('u', S(1)), x_), cons2, cons3, cons7, cons45,
        cons38)

    def replacement25(p, u, b, c, a, x):
        rubi.append(25)
        return Int(
            S(2)**(-S(2) * p) * c**(-p) * u * (b + S(2) * c * x)**(S(2) * p),
            x)

    rule25 = ReplacementRule(pattern25, replacement25)
    pattern26 = Pattern(
        Integral(
            (a_ + x_**n_ * WC('b', S(1)) + x_**WC('n2', S(1)) * WC('c', S(1)))
            **WC('p', S(1)) * WC('u', S(1)), x_), cons2, cons3, cons7, cons4,
        cons46, cons45, cons38)

    def replacement26(p, u, b, n2, c, a, n, x):
        rubi.append(26)
        return Dist(c**(-p), Int(u * (b / S(2) + c * x**n)**(S(2) * p), x), x)

    rule26 = ReplacementRule(pattern26, replacement26)
    pattern27 = Pattern(
        Integral(
            (d_ + x_ * WC('e', S(1))) *
            (x_**S(2) * WC('c', S(1)) + x_ * WC('b', S(1)) + WC('a', S(0)))**
            WC('p', S(1)), x_), cons2, cons3, cons7, cons27, cons48, cons5,
        cons47)

    def replacement27(p, b, d, c, a, x, e):
        rubi.append(27)
        return Dist(d / b, Subst(Int(x**p, x), x, a + b * x + c * x**S(2)), x)

    rule27 = ReplacementRule(pattern27, replacement27)
    pattern28 = Pattern(
        Integral(
            (x_**WC('p', S(1)) * WC('a', S(1)) +
             x_**WC('q', S(1)) * WC('b', S(1)))**WC('m', S(1)) * WC('u', S(1)),
            x_), cons2, cons3, cons5, cons50, cons17, cons49)

    def replacement28(p, u, m, b, a, x, q):
        rubi.append(28)
        return Int(u * x**(m * p) * (a + b * x**(-p + q))**m, x)

    rule28 = ReplacementRule(pattern28, replacement28)
    pattern29 = Pattern(
        Integral(
            (x_**WC('p', S(1)) * WC('a', S(1)) +
             x_**WC('q', S(1)) * WC('b', S(1)) +
             x_**WC('r', S(1)) * WC('c', S(1)))**WC('m', S(1)) * WC('u', S(1)),
            x_), cons2, cons3, cons7, cons5, cons50, cons52, cons17, cons49,
        cons51)

    def replacement29(p, u, m, b, r, a, c, x, q):
        rubi.append(29)
        return Int(u * x**(m * p) * (a + b * x**(-p + q) + c * x**(-p + r))**m,
                   x)

    rule29 = ReplacementRule(pattern29, replacement29)
    pattern30 = Pattern(
        Integral(x_**WC('m', S(1)) / (a_ + x_**n_ * WC('b', S(1))), x_), cons2,
        cons3, cons21, cons4, cons53)

    def replacement30(m, b, a, n, x):
        rubi.append(30)
        return Simp(log(RemoveContent(a + b * x**n, x)) / (b * n), x)

    rule30 = ReplacementRule(pattern30, replacement30)
    pattern31 = Pattern(
        Integral(x_**WC('m', S(1)) * (a_ + x_**n_ * WC('b', S(1)))**p_, x_),
        cons2, cons3, cons21, cons4, cons5, cons53, cons54)

    def replacement31(p, m, b, a, n, x):
        rubi.append(31)
        return Simp((a + b * x**n)**(p + S(1)) / (b * n * (p + S(1))), x)

    rule31 = ReplacementRule(pattern31, replacement31)
    pattern32 = Pattern(
        Integral(
            x_**WC('m', S(1)) *
            (a1_ + x_**WC('n', S(1)) * WC('b1', S(1)))**p_ *
            (a2_ + x_**WC('n', S(1)) * WC('b2', S(1)))**p_, x_), cons57,
        cons58, cons59, cons60, cons21, cons4, cons5, cons55, cons56, cons54)

    def replacement32(p, a2, m, b2, b1, n, x, a1):
        rubi.append(32)
        return Simp(
            (a1 + b1 * x**n)**(p + S(1)) * (a2 + b2 * x**n)**(p + S(1)) /
            (S(2) * b1 * b2 * n * (p + S(1))), x)

    rule32 = ReplacementRule(pattern32, replacement32)

    def With33(p, Pm, b, a, n, Qm, x):
        if isinstance(x, (int, Integer, float, Float)):
            return False
        m = Expon(Pm, x)
        if And(
                Equal(Expon(Qm, x), m + S(-1)),
                ZeroQ(-Qm * m * Coeff(Pm, x, m) +
                      Coeff(Qm, x, m + S(-1)) * D(Pm, x))):
            return True
        return False

    pattern33 = Pattern(
        Integral(
            Qm_ * (Pm_**WC('n', S(1)) * WC('b', S(1)) + WC('a', S(0)))**WC(
                'p', S(1)), x_), cons2, cons3, cons4, cons5, cons11, cons61,
        CustomConstraint(With33))

    def replacement33(p, Pm, b, a, n, Qm, x):

        m = Expon(Pm, x)
        rubi.append(33)
        return Dist(
            Coeff(Qm, x, m + S(-1)) / (m * Coeff(Pm, x, m)),
            Subst(Int((a + b * x**n)**p, x), x, Pm), x)

    rule33 = ReplacementRule(pattern33, replacement33)

    def With34(p, Pm, b, n2, c, a, n, Qm, x):
        if isinstance(x, (int, Integer, float, Float)):
            return False
        m = Expon(Pm, x)
        if And(
                Equal(Expon(Qm, x), m + S(-1)),
                ZeroQ(-Qm * m * Coeff(Pm, x, m) +
                      Coeff(Qm, x, m + S(-1)) * D(Pm, x))):
            return True
        return False

    pattern34 = Pattern(
        Integral(
            Qm_ * (Pm_**WC('n', S(1)) * WC('b', S(1)) + Pm_**WC('n2', S(1)) *
                   WC('c', S(1)) + WC('a', S(0)))**WC('p', S(1)), x_), cons2,
        cons3, cons7, cons4, cons5, cons46, cons11, cons61,
        CustomConstraint(With34))

    def replacement34(p, Pm, b, n2, c, a, n, Qm, x):

        m = Expon(Pm, x)
        rubi.append(34)
        return Dist(
            Coeff(Qm, x, m + S(-1)) / (m * Coeff(Pm, x, m)),
            Subst(Int((a + b * x**n + c * x**(S(2) * n))**p, x), x, Pm), x)

    rule34 = ReplacementRule(pattern34, replacement34)

    def With35(p, u, m, Pq, Qr, x):
        if isinstance(x, (int, Integer, float, Float)):
            return False
        gcd = PolyGCD(Pq, Qr, x)
        if NonzeroQ(gcd + S(-1)):
            return True
        return False

    pattern35 = Pattern(Integral(Pq_**m_ * Qr_**p_ * WC('u', S(1)),
                                 x_), cons62, cons63, cons64, cons65,
                        CustomConstraint(With35))

    def replacement35(p, u, m, Pq, Qr, x):

        gcd = PolyGCD(Pq, Qr, x)
        rubi.append(35)
        return Int(
            gcd**(m + p) * u * PolynomialQuotient(Pq, gcd, x)**m *
            PolynomialQuotient(Qr, gcd, x)**p, x)

    rule35 = ReplacementRule(pattern35, replacement35)

    def With36(p, u, Pq, Qr, x):
        if isinstance(x, (int, Integer, float, Float)):
            return False
        gcd = PolyGCD(Pq, Qr, x)
        if NonzeroQ(gcd + S(-1)):
            return True
        return False

    pattern36 = Pattern(Integral(Pq_ * Qr_**p_ * WC('u', S(1)), x_), cons63,
                        cons64, cons65, CustomConstraint(With36))

    def replacement36(p, u, Pq, Qr, x):

        gcd = PolyGCD(Pq, Qr, x)
        rubi.append(36)
        return Int(
            gcd**(p + S(1)) * u * PolynomialQuotient(Pq, gcd, x) *
            PolynomialQuotient(Qr, gcd, x)**p, x)

    rule36 = ReplacementRule(pattern36, replacement36)
    return [
        rule1,
        rule2,
        rule3,
        rule4,
        rule5,
        rule6,
        rule7,
        rule8,
        rule9,
        rule10,
        rule11,
        rule12,
        rule13,
        rule14,
        rule15,
        rule16,
        rule17,
        rule18,
        rule19,
        rule20,
        rule21,
        rule22,
        rule23,
        rule24,
        rule25,
        rule26,
        rule27,
        rule28,
        rule29,
        rule30,
        rule31,
        rule32,
        rule33,
        rule34,
        rule35,
        rule36,
    ]

Beispiel #8

def integrand_simplification(rubi):
    pattern1 = Pattern(
        Integral((a_ + x_**WC('n', S(1)) * WC('b', S(1)))**WC('p', S(1)) *
                 WC('u', S(1)), x_),
        CustomConstraint(lambda a, x: FreeQ(a, x)),
        CustomConstraint(lambda b, x: FreeQ(b, x)),
        CustomConstraint(lambda n, x: FreeQ(n, x)),
        CustomConstraint(lambda p, x: FreeQ(p, x)),
        CustomConstraint(lambda a: ZeroQ(a)))
    rule1 = ReplacementRule(pattern1,
                            lambda p, b, u, a, x, n: Int(u * (b * x**n)**p, x))
    rubi.add(rule1)

    pattern2 = Pattern(
        Integral(
            (a_ + x_**WC('j', S(1)) * WC('c', S(1)) +
             x_**WC('n', S(1)) * WC('b', S(1)))**WC('p', S(1)) * WC('u', S(1)),
            x_), CustomConstraint(lambda a, x: FreeQ(a, x)),
        CustomConstraint(lambda b, x: FreeQ(b, x)),
        CustomConstraint(lambda c, x: FreeQ(c, x)),
        CustomConstraint(lambda n, x: FreeQ(n, x)),
        CustomConstraint(lambda p, x: FreeQ(p, x)),
        CustomConstraint(lambda n, j: ZeroQ(j - S(2) * n)),
        CustomConstraint(lambda a: ZeroQ(a)))
    rule2 = ReplacementRule(
        pattern2, lambda j, b, p, u, a, x, n, c: Int(
            u * (b * x**n + c * x**(S(2) * n))**p, x))
    rubi.add(rule2)

    pattern3 = Pattern(
        Integral((x_**WC('j', S(1)) * WC('c', S(1)) +
                  x_**WC('n', S(1)) * WC('b', S(1)) + WC('a', S(0)))**WC(
                      'p', S(1)) * WC('u', S(1)), x_),
        CustomConstraint(lambda a, x: FreeQ(a, x)),
        CustomConstraint(lambda b, x: FreeQ(b, x)),
        CustomConstraint(lambda c, x: FreeQ(c, x)),
        CustomConstraint(lambda n, x: FreeQ(n, x)),
        CustomConstraint(lambda p, x: FreeQ(p, x)),
        CustomConstraint(lambda n, j: ZeroQ(j - S(2) * n)),
        CustomConstraint(lambda b: ZeroQ(b)))
    rule3 = ReplacementRule(
        pattern3,
        lambda j, b, p, u, a, x, n, c: Int(u * (a + c * x**(S(2) * n))**p, x))
    rubi.add(rule3)

    pattern4 = Pattern(
        Integral((x_**WC('j', S(1)) * WC('c', S(1)) +
                  x_**WC('n', S(1)) * WC('b', S(1)) + WC('a', S(0)))**WC(
                      'p', S(1)) * WC('u', S(1)), x_),
        CustomConstraint(lambda a, x: FreeQ(a, x)),
        CustomConstraint(lambda b, x: FreeQ(b, x)),
        CustomConstraint(lambda c, x: FreeQ(c, x)),
        CustomConstraint(lambda n, x: FreeQ(n, x)),
        CustomConstraint(lambda p, x: FreeQ(p, x)),
        CustomConstraint(lambda n, j: ZeroQ(j - S(2) * n)),
        CustomConstraint(lambda c: ZeroQ(c)))
    rule4 = ReplacementRule(
        pattern4, lambda j, b, p, u, a, x, n, c: Int(u * (a + b * x**n)**p, x))
    rubi.add(rule4)

    pattern5 = Pattern(
        Integral((v_ * WC('a', S(1)) + v_ * WC('b', S(1)) + WC('w', S(0)))**WC(
            'p', S(1)) * WC('u', S(1)), x_),
        CustomConstraint(lambda a, x: FreeQ(a, x)),
        CustomConstraint(lambda b, x: FreeQ(b, x)),
        CustomConstraint(lambda x, v: NFreeQ(v, x)))
    rule5 = ReplacementRule(
        pattern5, lambda p, b, v, u, a, x, w: Int(u * (v * (a + b) + w)**p, x))
    rubi.add(rule5)

    pattern6 = Pattern(Integral(Pm_**p_ * WC('u', S(1)), x_),
                       CustomConstraint(lambda p, x: FreeQ(p, x)),
                       CustomConstraint(lambda x, Pm: PolyQ(Pm, x)),
                       CustomConstraint(lambda p: Not(RationalQ(p))),
                       CustomConstraint(lambda p: RationalQ(p)))
    rule6 = ReplacementRule(pattern6, lambda u, x, p, Pm: Int(Pm**p * u, x))
    rubi.add(rule6)

    pattern7 = Pattern(Integral(a_, x_),
                       CustomConstraint(lambda a, x: FreeQ(a, x)),
                       CustomConstraint(lambda a, x: FreeQ(a, x)))
    rule7 = ReplacementRule(pattern7, lambda a, x: a * x)
    rubi.add(rule7)

    pattern8 = Pattern(
        Integral(a_ * (b_ + x_ * WC('c', S(1))), x_),
        CustomConstraint(lambda a, x: FreeQ(a, x)),
        CustomConstraint(lambda b, x: FreeQ(b, x)),
        CustomConstraint(lambda c, x: FreeQ(c, x)),
        CustomConstraint(lambda a, c, b, x: FreeQ(List(a, b, c), x)))
    rule8 = ReplacementRule(
        pattern8, lambda a, c, b, x: a * (b + c * x)**S(2) / (S(2) * c))
    rubi.add(rule8)

    pattern9 = Pattern(Integral(-u_, x_))
    rule9 = ReplacementRule(pattern9, lambda u, x: I * Int(u, x))
    rubi.add(rule9)

    pattern10 = Pattern(Integral(u_ * Complex(S(0), a_), x_),
                        CustomConstraint(lambda a, x: FreeQ(a, x)),
                        CustomConstraint(lambda a: EqQ(a**S(2), S(1))))
    rule10 = ReplacementRule(pattern10,
                             lambda u, a, x: Int(u, x) * Complex(I, a))
    rubi.add(rule10)

    pattern11 = Pattern(Integral(a_ * u_, x_),
                        CustomConstraint(lambda a, x: FreeQ(a, x)),
                        CustomConstraint(lambda a, x: FreeQ(a, x)))
    rule11 = ReplacementRule(pattern11, lambda u, a, x: a * Int(u, x))
    rubi.add(rule11)

    pattern12 = Pattern(Integral(u_, x_), CustomConstraint(lambda u: SumQ(u)))
    rule12 = ReplacementRule(pattern12, lambda u, x: IntSum(u, x))
    rubi.add(rule12)

    pattern13 = Pattern(
        Integral(v_**WC('m', S(1)) * (b_ * v_)**n_ * WC('u', S(1)), x_),
        CustomConstraint(lambda b, x: FreeQ(b, x)),
        CustomConstraint(lambda n, x: FreeQ(n, x)),
        CustomConstraint(lambda m: IntegerQ(m)))
    rule13 = ReplacementRule(
        pattern13,
        lambda b, v, u, m, x, n: b**(-m) * Int(u * (b * v)**(m + n), x))
    rubi.add(rule13)

    pattern14 = Pattern(
        Integral((v_ * WC('a', S(1)))**m_ *
                 (v_ * WC('b', S(1)))**n_ * WC('u', S(1)), x_),
        CustomConstraint(lambda a, x: FreeQ(a, x)),
        CustomConstraint(lambda b, x: FreeQ(b, x)),
        CustomConstraint(lambda m, x: FreeQ(m, x)),
        CustomConstraint(lambda m: Not(IntegerQ(m))),
        CustomConstraint(lambda n: PositiveIntegerQ(n + S(1) / 2)),
        CustomConstraint(lambda m, n: IntegerQ(m + n)))
    rule14 = ReplacementRule(
        pattern14, lambda b, v, u, m, a, x, n: a**(m + S(1) / 2) * b**
        (n + S(-1) / 2) * sqrt(b * v) * Int(u * v**(m + n), x) / sqrt(a * v))
    rubi.add(rule14)

    pattern15 = Pattern(
        Integral((v_ * WC('a', S(1)))**m_ *
                 (v_ * WC('b', S(1)))**n_ * WC('u', S(1)), x_),
        CustomConstraint(lambda a, x: FreeQ(a, x)),
        CustomConstraint(lambda b, x: FreeQ(b, x)),
        CustomConstraint(lambda m, x: FreeQ(m, x)),
        CustomConstraint(lambda m: Not(IntegerQ(m))),
        CustomConstraint(lambda n: NegativeIntegerQ(n + S(-1) / 2)),
        CustomConstraint(lambda m, n: IntegerQ(m + n)))
    rule15 = ReplacementRule(
        pattern15, lambda b, v, u, m, a, x, n: a**(m + S(-1) / 2) * b**
        (n + S(1) / 2) * sqrt(a * v) * Int(u * v**(m + n), x) / sqrt(b * v))
    rubi.add(rule15)

    pattern16 = Pattern(
        Integral((v_ * WC('a', S(1)))**m_ *
                 (v_ * WC('b', S(1)))**n_ * WC('u', S(1)), x_),
        CustomConstraint(lambda a, x: FreeQ(a, x)),
        CustomConstraint(lambda b, x: FreeQ(b, x)),
        CustomConstraint(lambda m, x: FreeQ(m, x)),
        CustomConstraint(lambda n, x: FreeQ(n, x)),
        CustomConstraint(lambda m: Not(IntegerQ(m))),
        CustomConstraint(lambda n: Not(IntegerQ(n))),
        CustomConstraint(lambda m, n: IntegerQ(m + n)))
    rule16 = ReplacementRule(
        pattern16, lambda b, v, u, m, a, x, n: a**(m + n) * (a * v)**(-n) *
        (b * v)**n * Int(u * v**(m + n), x))
    rubi.add(rule16)

    pattern17 = Pattern(
        Integral((v_ * WC('a', S(1)))**m_ *
                 (v_ * WC('b', S(1)))**n_ * WC('u', S(1)), x_),
        CustomConstraint(lambda a, x: FreeQ(a, x)),
        CustomConstraint(lambda b, x: FreeQ(b, x)),
        CustomConstraint(lambda m, x: FreeQ(m, x)),
        CustomConstraint(lambda n, x: FreeQ(n, x)),
        CustomConstraint(lambda m: Not(IntegerQ(m))),
        CustomConstraint(lambda n: Not(IntegerQ(n))),
        CustomConstraint(lambda m, n: Not(IntegerQ(m + n))))
    rule17 = ReplacementRule(
        pattern17,
        lambda b, v, u, m, a, x, n: a**(-IntPart(n)) * b**IntPart(n) *
        (a * v)**(-FracPart(n)) *
        (b * v)**FracPart(n) * Int(u * (a * v)**(m + n), x))
    rubi.add(rule17)

    pattern18 = Pattern(
        Integral((a_ + v_ * WC('b', S(1)))**WC('m', S(1)) *
                 (c_ + v_ * WC('d', S(1)))**WC('n', S(1)) * WC('u', S(1)), x_),
        CustomConstraint(lambda a, x: FreeQ(a, x)),
        CustomConstraint(lambda b, x: FreeQ(b, x)),
        CustomConstraint(lambda c, x: FreeQ(c, x)),
        CustomConstraint(lambda d, x: FreeQ(d, x)),
        CustomConstraint(lambda n, x: FreeQ(n, x)),
        CustomConstraint(lambda a, c, b, d: ZeroQ(-a * d + b * c)),
        CustomConstraint(lambda m: IntegerQ(m)),
        CustomConstraint(lambda b, a, x, d, n, c: Not(IntegerQ(n)) | SimplerQ(
            c + d * x, a + b * x)))
    rule18 = ReplacementRule(
        pattern18, lambda b, v, u, m, a, x, d, n, c:
        (b / d)**m * Int(u * (c + d * v)**(m + n), x))
    rubi.add(rule18)

    pattern19 = Pattern(
        Integral((a_ + v_ * WC('b', S(1)))**m_ *
                 (c_ + v_ * WC('d', S(1)))**n_ * WC('u', S(1)), x_),
        CustomConstraint(lambda a, x: FreeQ(a, x)),
        CustomConstraint(lambda b, x: FreeQ(b, x)),
        CustomConstraint(lambda c, x: FreeQ(c, x)),
        CustomConstraint(lambda d, x: FreeQ(d, x)),
        CustomConstraint(lambda m, x: FreeQ(m, x)),
        CustomConstraint(lambda n, x: FreeQ(n, x)),
        CustomConstraint(lambda a, c, b, d: ZeroQ(-a * d + b * c)),
        CustomConstraint(lambda b, d: PositiveQ(b / d)),
        CustomConstraint(lambda m, n: Not(IntegerQ(m) | IntegerQ(n))))
    rule19 = ReplacementRule(
        pattern19, lambda b, v, u, m, a, x, d, n, c:
        (b / d)**m * Int(u * (c + d * v)**(m + n), x))
    rubi.add(rule19)

    pattern20 = Pattern(
        Integral((a_ + v_ * WC('b', S(1)))**m_ *
                 (c_ + v_ * WC('d', S(1)))**n_ * WC('u', S(1)), x_),
        CustomConstraint(lambda a, x: FreeQ(a, x)),
        CustomConstraint(lambda b, x: FreeQ(b, x)),
        CustomConstraint(lambda c, x: FreeQ(c, x)),
        CustomConstraint(lambda d, x: FreeQ(d, x)),
        CustomConstraint(lambda m, x: FreeQ(m, x)),
        CustomConstraint(lambda n, x: FreeQ(n, x)),
        CustomConstraint(lambda a, c, b, d: ZeroQ(-a * d + b * c)),
        CustomConstraint(lambda m, n, b, d: Not(
            IntegerQ(m) | IntegerQ(n) | PositiveQ(b / d))))
    rule20 = ReplacementRule(
        pattern20, lambda b, v, u, m, a, x, d, n, c: (a + b * v)**m *
        (c + d * v)**(-m) * Int(u * (c + d * v)**(m + n), x))
    rubi.add(rule20)

    pattern21 = Pattern(
        Integral(
            (v_ * WC('a', S(1)))**m_ *
            (v_**S(2) * WC('c', S(1)) + v_ * WC('b', S(1))) * WC('u', S(1)),
            x_), CustomConstraint(lambda a, x: FreeQ(a, x)),
        CustomConstraint(lambda b, x: FreeQ(b, x)),
        CustomConstraint(lambda c, x: FreeQ(c, x)),
        CustomConstraint(lambda m: RationalQ(m)),
        CustomConstraint(lambda m: LessEqual(m, S(-1))))
    rule21 = ReplacementRule(
        pattern21,
        lambda b, v, u, m, a, x, c: Int(u * (a * v)**(m + S(1)) *
                                        (b + c * v), x) / a)
    rubi.add(rule21)

    pattern22 = Pattern(
        Integral(
            (a_ + v_ * WC('b', S(1)))**m_ *
            (v_**S(2) * WC('C', S(1)) + v_ * WC('B', S(1)) + WC('A', S(0))) *
            WC('u', S(1)), x_), CustomConstraint(lambda a, x: FreeQ(a, x)),
        CustomConstraint(lambda b, x: FreeQ(b, x)),
        CustomConstraint(lambda A, x: FreeQ(A, x)),
        CustomConstraint(lambda B, x: FreeQ(B, x)),
        CustomConstraint(lambda C, x: FreeQ(C, x)),
        CustomConstraint(lambda b, A, B, a, C: ZeroQ(A * b**S(2) - B * a * b +
                                                     C * a**S(2))),
        CustomConstraint(lambda m: RationalQ(m)),
        CustomConstraint(lambda m: LessEqual(m, S(-1))))
    rule22 = ReplacementRule(
        pattern22, lambda b, v, u, A, B, m, a, x, C: Int(
            u * (a + b * v)**
            (m + S(1)) * Simp(B * b - C * a + C * b * v, x), x) / b**S(2))
    rubi.add(rule22)

    pattern23 = Pattern(
        Integral((a_ + x_**WC('n', S(1)) * WC('b', S(1)))**WC('m', S(1)) *
                 (c_ + x_**WC('q', S(1)) * WC('d', S(1)))**WC('p', S(1)) *
                 WC('u', S(1)), x_),
        CustomConstraint(lambda a, x: FreeQ(a, x)),
        CustomConstraint(lambda b, x: FreeQ(b, x)),
        CustomConstraint(lambda c, x: FreeQ(c, x)),
        CustomConstraint(lambda d, x: FreeQ(d, x)),
        CustomConstraint(lambda m, x: FreeQ(m, x)),
        CustomConstraint(lambda n, x: FreeQ(n, x)),
        CustomConstraint(lambda n, q: ZeroQ(n + q)),
        CustomConstraint(lambda p: IntegerQ(p)),
        CustomConstraint(lambda a, c, b, d: ZeroQ(a * c - b * d)),
        CustomConstraint(lambda m, n: Not(IntegerQ(m) & NegQ(n))))
    rule23 = ReplacementRule(
        pattern23, lambda q, p, b, u, m, a, x, d, n, c:
        (d / a)**p * Int(u * x**(-n * p) * (a + b * x**n)**(m + p), x))
    rubi.add(rule23)

    pattern24 = Pattern(
        Integral((a_ + x_**WC('n', S(1)) * WC('b', S(1)))**WC('m', S(1)) *
                 (c_ + x_**j_ * WC('d', S(1)))**WC('p', S(1)) * WC('u', S(1)),
                 x_), CustomConstraint(lambda a, x: FreeQ(a, x)),
        CustomConstraint(lambda b, x: FreeQ(b, x)),
        CustomConstraint(lambda c, x: FreeQ(c, x)),
        CustomConstraint(lambda d, x: FreeQ(d, x)),
        CustomConstraint(lambda m, x: FreeQ(m, x)),
        CustomConstraint(lambda n, x: FreeQ(n, x)),
        CustomConstraint(lambda p, x: FreeQ(p, x)),
        CustomConstraint(lambda n, j: ZeroQ(j - S(2) * n)),
        CustomConstraint(lambda m, p: ZeroQ(m + p)),
        CustomConstraint(lambda a, c, b, d: ZeroQ(a**S(2) * d + b**S(2) * c)),
        CustomConstraint(lambda a: PositiveQ(a)),
        CustomConstraint(lambda d: NegativeQ(d)))
    rule24 = ReplacementRule(
        pattern24, lambda p, b, j, u, m, a, x, d, n, c:
        (-b**S(2) / d)**m * Int(u * (a - b * x**n)**(-m), x))
    rubi.add(rule24)

    pattern25 = Pattern(
        Integral((a_ + x_**S(2) * WC('c', S(1)) + x_ * WC('b', S(1)))**WC(
            'p', S(1)) * WC('u', S(1)), x_),
        CustomConstraint(lambda a, x: FreeQ(a, x)),
        CustomConstraint(lambda b, x: FreeQ(b, x)),
        CustomConstraint(lambda c, x: FreeQ(c, x)),
        CustomConstraint(lambda a, c, b: ZeroQ(-S(4) * a * c + b**S(2))),
        CustomConstraint(lambda p: IntegerQ(p)))
    rule25 = ReplacementRule(
        pattern25, lambda p, b, u, a, x, c: Int(
            S(2)**(-S(2) * p) * c**(-p) * u *
            (b + S(2) * c * x)**(S(2) * p), x))
    rubi.add(rule25)

    pattern26 = Pattern(
        Integral(
            (a_ + x_**n_ * WC('b', S(1)) + x_**WC('n2', S(1)) * WC('c', S(1)))
            **WC('p', S(1)) * WC('u', S(1)), x_),
        CustomConstraint(lambda a, x: FreeQ(a, x)),
        CustomConstraint(lambda b, x: FreeQ(b, x)),
        CustomConstraint(lambda c, x: FreeQ(c, x)),
        CustomConstraint(lambda n, x: FreeQ(n, x)),
        CustomConstraint(lambda n, n2: ZeroQ(-S(2) * n + n2)),
        CustomConstraint(lambda a, c, b: ZeroQ(-S(4) * a * c + b**S(2))),
        CustomConstraint(lambda p: IntegerQ(p)))
    rule26 = ReplacementRule(
        pattern26, lambda n2, p, b, u, a, x, n, c: c**
        (-p) * Int(u * (b / S(2) + c * x**n)**(S(2) * p), x))
    rubi.add(rule26)

    pattern27 = Pattern(
        Integral(
            (d_ + x_ * WC('e', S(1))) *
            (x_**S(2) * WC('c', S(1)) + x_ * WC('b', S(1)) + WC('a', S(0)))**
            WC('p', S(1)), x_), CustomConstraint(lambda a, x: FreeQ(a, x)),
        CustomConstraint(lambda b, x: FreeQ(b, x)),
        CustomConstraint(lambda c, x: FreeQ(c, x)),
        CustomConstraint(lambda d, x: FreeQ(d, x)),
        CustomConstraint(lambda e, x: FreeQ(e, x)),
        CustomConstraint(lambda p, x: FreeQ(p, x)),
        CustomConstraint(lambda e, c, b, d: ZeroQ(-b * e + S(2) * c * d)))
    rule27 = ReplacementRule(
        pattern27, lambda p, b, a, x, d, e, c: d * Subst(
            Int(x**p, x), x, a + b * x + c * x**S(2)) / b)
    rubi.add(rule27)

    pattern28 = Pattern(
        Integral(
            (x_**WC('p', S(1)) * WC('a', S(1)) +
             x_**WC('q', S(1)) * WC('b', S(1)))**WC('m', S(1)) * WC('u', S(1)),
            x_), CustomConstraint(lambda a, x: FreeQ(a, x)),
        CustomConstraint(lambda b, x: FreeQ(b, x)),
        CustomConstraint(lambda p, x: FreeQ(p, x)),
        CustomConstraint(lambda q, x: FreeQ(q, x)),
        CustomConstraint(lambda m: IntegerQ(m)),
        CustomConstraint(lambda q, p: PosQ(-p + q)))
    rule28 = ReplacementRule(
        pattern28, lambda q, p, b, u, m, a, x: Int(
            u * x**(m * p) * (a + b * x**(-p + q))**m, x))
    rubi.add(rule28)

    pattern29 = Pattern(
        Integral(
            (x_**WC('p', S(1)) * WC('a', S(1)) +
             x_**WC('q', S(1)) * WC('b', S(1)) +
             x_**WC('r', S(1)) * WC('c', S(1)))**WC('m', S(1)) * WC('u', S(1)),
            x_), CustomConstraint(lambda a, x: FreeQ(a, x)),
        CustomConstraint(lambda b, x: FreeQ(b, x)),
        CustomConstraint(lambda c, x: FreeQ(c, x)),
        CustomConstraint(lambda p, x: FreeQ(p, x)),
        CustomConstraint(lambda q, x: FreeQ(q, x)),
        CustomConstraint(lambda r, x: FreeQ(r, x)),
        CustomConstraint(lambda m: IntegerQ(m)),
        CustomConstraint(lambda q, p: PosQ(-p + q)),
        CustomConstraint(lambda r, p: PosQ(-p + r)))
    rule29 = ReplacementRule(
        pattern29, lambda q, r, p, b, u, m, a, x, c: Int(
            u * x**(m * p) * (a + b * x**(-p + q) + c * x**(-p + r))**m, x))
    rubi.add(rule29)

    pattern30 = Pattern(
        Integral(x_**WC('m', S(1)) / (a_ + x_**n_ * WC('b', S(1))), x_),
        CustomConstraint(lambda a, x: FreeQ(a, x)),
        CustomConstraint(lambda b, x: FreeQ(b, x)),
        CustomConstraint(lambda m, x: FreeQ(m, x)),
        CustomConstraint(lambda n, x: FreeQ(n, x)),
        CustomConstraint(lambda m, n: ZeroQ(m - n + S(1))))
    rule30 = ReplacementRule(
        pattern30, lambda b, m, a, x, n: log(RemoveContent(a + b * x**n, x)) /
        (b * n))
    rubi.add(rule30)

    pattern31 = Pattern(
        Integral(x_**WC('m', S(1)) * (a_ + x_**n_ * WC('b', S(1)))**p_, x_),
        CustomConstraint(lambda a, x: FreeQ(a, x)),
        CustomConstraint(lambda b, x: FreeQ(b, x)),
        CustomConstraint(lambda m, x: FreeQ(m, x)),
        CustomConstraint(lambda n, x: FreeQ(n, x)),
        CustomConstraint(lambda p, x: FreeQ(p, x)),
        CustomConstraint(lambda m, n: ZeroQ(m - n + S(1))),
        CustomConstraint(lambda p: NonzeroQ(p + S(1))))
    rule31 = ReplacementRule(
        pattern31, lambda p, b, m, a, x, n: (a + b * x**n)**(p + S(1)) /
        (b * n * (p + S(1))))
    rubi.add(rule31)

    pattern32 = Pattern(
        Integral(
            x_**WC('m', S(1)) *
            (a1_ + x_**WC('n', S(1)) * WC('b1', S(1)))**p_ *
            (a2_ + x_**WC('n', S(1)) * WC('b2', S(1)))**p_, x_),
        CustomConstraint(lambda a1, x: FreeQ(a1, x)),
        CustomConstraint(lambda b1, x: FreeQ(b1, x)),
        CustomConstraint(lambda a2, x: FreeQ(a2, x)),
        CustomConstraint(lambda b2, x: FreeQ(b2, x)),
        CustomConstraint(lambda m, x: FreeQ(m, x)),
        CustomConstraint(lambda n, x: FreeQ(n, x)),
        CustomConstraint(lambda p, x: FreeQ(p, x)),
        CustomConstraint(lambda b2, b1, a1, a2: ZeroQ(a1 * b2 + a2 * b1)),
        CustomConstraint(lambda m, n: ZeroQ(m - S(2) * n + S(1))),
        CustomConstraint(lambda p: NonzeroQ(p + S(1))))
    rule32 = ReplacementRule(
        pattern32, lambda p, a1, b2, m, x, a2, n, b1:
        (a1 + b1 * x**n)**(p + S(1)) * (a2 + b2 * x**n)**(p + S(1)) /
        (S(2) * b1 * b2 * n * (p + S(1))))
    rubi.add(rule32)
    '''
    pattern33 = Pattern(Integral(Qm_*(Pm_**WC('n', S(1))*WC('b', S(1)) + WC('a', S(0)))**WC('p', S(1)), x_), CustomConstraint(lambda a, x: FreeQ(a, x)), CustomConstraint(lambda b, x: FreeQ(b, x)), CustomConstraint(lambda n, x: FreeQ(n, x)), CustomConstraint(lambda p, x: FreeQ(p, x)), CustomConstraint(lambda x, Pm: PolyQ(Pm, x)), CustomConstraint(lambda Qm, x: PolyQ(Qm, x)), )
    def With33(p, b, a, x, n, Qm, Pm):
        m = Expon(Pm, x)
        if Equal(Expon(Qm, x), m + S(-1)) & ZeroQ(-Qm*m*Coeff(Pm, x, m) + Coeff(Qm, x, m + S(-1))*D(Pm, x)):
            return Coeff(Qm, x, m + S(-1))*Subst(Int((a + b*x**n)**p, x), x, Pm)/(m*Coeff(Pm, x, m))
        print("Unable to Integrate")
    rule33 = ReplacementRule(pattern33, lambda p, b, a, x, n, Qm, Pm : With33(p, b, a, x, n, Qm, Pm))
    rubi.add(rule33)

    pattern34 = Pattern(Integral(Qm_*(Pm_**WC('n', S(1))*WC('b', S(1)) + Pm_**WC('n2', S(1))*WC('c', S(1)) + WC('a', S(0)))**WC('p', S(1)), x_), CustomConstraint(lambda a, x: FreeQ(a, x)), CustomConstraint(lambda b, x: FreeQ(b, x)), CustomConstraint(lambda c, x: FreeQ(c, x)), CustomConstraint(lambda n, x: FreeQ(n, x)), CustomConstraint(lambda p, x: FreeQ(p, x)), CustomConstraint(lambda n, n2: ZeroQ(-S(2)*n + n2)), CustomConstraint(lambda x, Pm: PolyQ(Pm, x)), CustomConstraint(lambda Qm, x: PolyQ(Qm, x)), )
    def With34(n2, p, b, a, x, n, Qm, c, Pm):
        m = Expon(Pm, x)
        if Equal(Expon(Qm, x), m + S(-1)) & ZeroQ(-Qm*m*Coeff(Pm, x, m) + Coeff(Qm, x, m + S(-1))*D(Pm, x)):
            return Coeff(Qm, x, m + S(-1))*Subst(Int((a + b*x**n + c*x**(S(2)*n))**p, x), x, Pm)/(m*Coeff(Pm, x, m))
        print("Unable to Integrate")
    rule34 = ReplacementRule(pattern34, lambda n2, p, b, a, x, n, Qm, c, Pm : With34(n2, p, b, a, x, n, Qm, c, Pm))
    rubi.add(rule34)

    pattern35 = Pattern(Integral(Pq_**m_*Qr_**p_*WC('u', S(1)), x_), CustomConstraint(lambda m: PositiveIntegerQ(m)), CustomConstraint(lambda p: NegativeIntegerQ(p)), CustomConstraint(lambda Pq, x: PolyQ(Pq, x)), CustomConstraint(lambda Qr, x: PolyQ(Qr, x)), )
    def With35(Qr, p, u, Pq, m, x):
        gcd = PolyGCD(Pq, Qr, x)
        if NonzeroQ(gcd + S(-1)):
            return Int(gcd**(m + p)*u*PolynomialQuotient(Pq, gcd, x)**m*PolynomialQuotient(Qr, gcd, x)**p, x)
        print("Unable to Integrate")
    rule35 = ReplacementRule(pattern35, lambda Qr, p, u, Pq, m, x : With35(Qr, p, u, Pq, m, x))
    rubi.add(rule35)

    pattern36 = Pattern(Integral(Pq_*Qr_**p_*WC('u', S(1)), x_), CustomConstraint(lambda p: NegativeIntegerQ(p)), CustomConstraint(lambda Pq, x: PolyQ(Pq, x)), CustomConstraint(lambda Qr, x: PolyQ(Qr, x)), )
    def With36(Qr, p, u, Pq, x):
        gcd = PolyGCD(Pq, Qr, x)
        if NonzeroQ(gcd + S(-1)):
            return Int(gcd**(p + S(1))*u*PolynomialQuotient(Pq, gcd, x)*PolynomialQuotient(Qr, gcd, x)**p, x)
        print("Unable to Integrate")
    rule36 = ReplacementRule(pattern36, lambda Qr, p, u, Pq, x : With36(Qr, p, u, Pq, x))
    rubi.add(rule36)
    '''
    return rubi

Beispiel #9

Datei: integrand_simplification.py Projekt: PWJ1900/Rlearncirq

        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 integrand_simplification():
    from sympy.integrals.rubi.constraints import cons1, cons2, cons3, cons4, cons5, cons6, cons7, cons8, cons9, cons10, cons11, cons12, cons13, cons14, cons15, cons16, cons17, cons18, cons19, cons20, cons21, cons22, cons23, cons24, cons25, cons26, cons27, cons28, cons29, cons30, cons31, cons32, cons33, cons34, cons35, cons36, cons37, cons38, cons39, cons40, cons41, cons42, cons43, cons44, cons45, cons46, cons47, cons48, cons49, cons50, cons51, cons52, cons53, cons54, cons55, cons56, cons57, cons58, cons59, cons60, cons61, cons62, cons63, cons64, cons65, cons66, cons67


    pattern1 = Pattern(Integral((a_ + x_**WC('n', S(1))*WC('b', S(1)))**WC('p', S(1))*WC('u', S(1)), x_), cons2, cons3, cons4, cons5, cons1)
    rule1 = ReplacementRule(pattern1, replacement1)

    pattern2 = Pattern(Integral((x_**WC('n', S(1))*WC('b', S(1)) + WC('a', S(0)))**WC('p', S(1))*WC('u', S(1)), x_), cons2, cons3, cons4, cons5, cons6)

Beispiel #10

def piecewise_linear():
    from sympy.integrals.rubi.constraints import cons1092, cons19, cons1093, cons89, cons90, cons1094, cons91, cons25, cons74, cons68, cons4, cons1095, cons216, cons685, cons102, cons103, cons1096, cons1097, cons33, cons96, cons358, cons1098, cons21, cons1099, cons2, cons3

    pattern1885 = Pattern(Integral(u_**WC('m', S(1)), x_), cons19, cons1092)
    rule1885 = ReplacementRule(pattern1885, With1885)

    pattern1886 = Pattern(Integral(v_ / u_, x_), cons1093,
                          CustomConstraint(With1886))
    rule1886 = ReplacementRule(pattern1886, replacement1886)

    pattern1887 = Pattern(Integral(v_**n_ / u_, x_), cons1093, cons89, cons90,
                          cons1094, CustomConstraint(With1887))
    rule1887 = ReplacementRule(pattern1887, replacement1887)

    pattern1888 = Pattern(Integral(S(1) / (u_ * v_), x_), cons1093,
                          CustomConstraint(With1888))
    rule1888 = ReplacementRule(pattern1888, replacement1888)

    pattern1889 = Pattern(Integral(S(1) / (u_ * sqrt(v_)), x_), cons1093,
                          CustomConstraint(With1889))
    rule1889 = ReplacementRule(pattern1889, replacement1889)

    pattern1890 = Pattern(Integral(S(1) / (u_ * sqrt(v_)), x_), cons1093,
                          CustomConstraint(With1890))
    rule1890 = ReplacementRule(pattern1890, replacement1890)

    pattern1891 = Pattern(Integral(v_**n_ / u_, x_), cons1093, cons89, cons91,
                          CustomConstraint(With1891))
    rule1891 = ReplacementRule(pattern1891, replacement1891)

    pattern1892 = Pattern(Integral(v_**n_ / u_, x_), cons1093, cons25,
                          CustomConstraint(With1892))
    rule1892 = ReplacementRule(pattern1892, replacement1892)

    pattern1893 = Pattern(Integral(S(1) / (sqrt(u_) * sqrt(v_)), x_), cons1093,
                          CustomConstraint(With1893))
    rule1893 = ReplacementRule(pattern1893, replacement1893)

    pattern1894 = Pattern(Integral(S(1) / (sqrt(u_) * sqrt(v_)), x_), cons1093,
                          CustomConstraint(With1894))
    rule1894 = ReplacementRule(pattern1894, replacement1894)

    pattern1895 = Pattern(Integral(u_**m_ * v_**n_, x_), cons19, cons4,
                          cons1093, cons74, cons68, CustomConstraint(With1895))
    rule1895 = ReplacementRule(pattern1895, replacement1895)

    pattern1896 = Pattern(Integral(u_**m_ * v_**WC('n', S(1)), x_), cons19,
                          cons4, cons1093, cons68, cons1095,
                          CustomConstraint(With1896))
    rule1896 = ReplacementRule(pattern1896, replacement1896)

    pattern1897 = Pattern(Integral(u_**m_ * v_**WC('n', S(1)), x_), cons1093,
                          cons216, cons89, cons90, cons685, cons102, cons103,
                          CustomConstraint(With1897))
    rule1897 = ReplacementRule(pattern1897, replacement1897)

    pattern1898 = Pattern(Integral(u_**m_ * v_**n_, x_), cons1093, cons685,
                          cons1096, cons1097, CustomConstraint(With1898))
    rule1898 = ReplacementRule(pattern1898, replacement1898)

    pattern1899 = Pattern(Integral(u_**m_ * v_**n_, x_), cons1093, cons216,
                          cons33, cons96, CustomConstraint(With1899))
    rule1899 = ReplacementRule(pattern1899, replacement1899)

    pattern1900 = Pattern(Integral(u_**m_ * v_**n_, x_), cons1093, cons358,
                          cons1098, CustomConstraint(With1900))
    rule1900 = ReplacementRule(pattern1900, replacement1900)

    pattern1901 = Pattern(Integral(u_**m_ * v_**n_, x_), cons1093, cons21,
                          cons25, CustomConstraint(With1901))
    rule1901 = ReplacementRule(pattern1901, replacement1901)

    pattern1902 = Pattern(
        Integral(u_**WC('n', S(1)) * log(x_ * WC('b', S(1)) + WC('a', S(0))),
                 x_), cons2, cons3, cons1092, cons1099, cons89, cons90)
    rule1902 = ReplacementRule(pattern1902, With1902)

    pattern1903 = 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, cons19,
        cons1092, cons1099, cons89, cons90, cons68)
    rule1903 = ReplacementRule(pattern1903, With1903)
    return [
        rule1885,
        rule1886,
        rule1887,
        rule1888,
        rule1889,
        rule1890,
        rule1891,
        rule1892,
        rule1893,
        rule1894,
        rule1895,
        rule1896,
        rule1897,
        rule1898,
        rule1899,
        rule1900,
        rule1901,
        rule1902,
        rule1903,
    ]