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Python miscellaneous.sqrt函数代码示例

原作者: [db:作者] 来自: [db:来源] 收藏 邀请

本文整理汇总了Python中miscellaneous.sqrt函数的典型用法代码示例。如果您正苦于以下问题:Python sqrt函数的具体用法?Python sqrt怎么用?Python sqrt使用的例子?那么恭喜您, 这里精选的函数代码示例或许可以为您提供帮助。



在下文中一共展示了sqrt函数的8个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于我们的系统推荐出更棒的Python代码示例。

示例1: eval

    def eval(cls, arg):
        if arg.is_Number:
            if arg is S.NaN:
                return S.NaN
            elif arg is S.Zero:
                return S.Zero

        if arg.could_extract_minus_sign():
            return -cls(-arg)

        i_coeff = arg.as_coefficient(S.ImaginaryUnit)
        if i_coeff is not None:
            return S.ImaginaryUnit * C.tanh(i_coeff)

        pi_coeff = arg.as_coefficient(S.Pi)
        if pi_coeff is not None:
            if pi_coeff.is_integer:
                return S.Zero
            elif pi_coeff.is_Rational:
                cst_table = {
                   #2 : S.ComplexInfinity,
                    3 : sqrt(3),
                    4 : S.One,
                    6 : 1 / sqrt(3),
                }

                try:
                    result = cst_table[pi_coeff.q]

                    if (2*pi_coeff.p // pi_coeff.q) % 4 in (1, 3):
                        return -result
                    else:
                        return result
                except KeyError:
                    pass

        if arg.is_Add:
            x, m = _peeloff_pi(arg)
            if m:
                if (m*2/S.Pi) % 2 == 0:
                    return tan(x)
                else:
                    return -cot(x)

        if arg.func is atan:
            return arg.args[0]

        if arg.func is asin:
            x = arg.args[0]
            return x / sqrt(1 - x**2)

        if arg.func is acos:
            x = arg.args[0]
            return sqrt(1 - x**2) / x

        if arg.func is acot:
            x = arg.args[0]
            return 1 / x
开发者ID:fgrosshans,项目名称:sympy,代码行数:58,代码来源:trigonometric.py


示例2: canonize

    def canonize(cls, arg):
        if arg.is_Number:
            if arg is S.NaN:
                return S.NaN
            #elif arg is S.Zero:
            #    return S.ComplexInfinity
            elif arg.is_negative:
                return -cls(-arg)
        else:
            i_coeff = arg.as_coefficient(S.ImaginaryUnit)

            if i_coeff is not None:
                return -S.ImaginaryUnit * C.coth(i_coeff)
            else:
                pi_coeff = arg.as_coefficient(S.Pi)

                if pi_coeff is not None:
                    #if pi_coeff.is_integer:
                    #    return S.ComplexInfinity
                    if pi_coeff.is_Rational:
                        cst_table = {
                            2 : S.Zero,
                            3 : 1 / sqrt(3),
                            4 : S.One,
                            6 : sqrt(3)
                        }

                        try:
                            result = cst_table[pi_coeff.q]

                            if (2*pi_coeff.p // pi_coeff.q) % 4 in (1, 3):
                                return -result
                            else:
                                return result
                        except KeyError:
                            pass

                coeff, terms = arg.as_coeff_terms()

                if coeff.is_negative:
                    return -cls(-arg)

        if isinstance(arg, acot):
            return arg.args[0]

        if isinstance(arg, atan):
            x = arg.args[0]
            return 1 / x

        if isinstance(arg, asin):
            x = arg.args[0]
            return sqrt(1 - x**2) / x

        if isinstance(arg, acos):
            x = arg.args[0]
            return x / sqrt(1 - x**2)
开发者ID:jcockayne,项目名称:sympy-rkern,代码行数:56,代码来源:trigonometric.py


示例3: eval

    def eval(cls, arg):
        if arg.is_Number:
            if arg is S.NaN:
                return S.NaN
        if arg.could_extract_minus_sign():
            return -cls(-arg)

        i_coeff = arg.as_coefficient(S.ImaginaryUnit)
        if i_coeff is not None:
            return -S.ImaginaryUnit * C.coth(i_coeff)

        pi_coeff = arg.as_coefficient(S.Pi)
        if pi_coeff is not None:
            if pi_coeff.is_Rational:
                cst_table = {
                    2 : S.Zero,
                    3 : 1 / sqrt(3),
                    4 : S.One,
                    6 : sqrt(3)
                }

                try:
                    result = cst_table[pi_coeff.q]

                    if (2*pi_coeff.p // pi_coeff.q) % 4 in (1, 3):
                        return -result
                    else:
                        return result
                except KeyError:
                    pass

        if arg.func is acot:
            return arg.args[0]

        if arg.func is atan:
            x = arg.args[0]
            return 1 / x

        if arg.func is asin:
            x = arg.args[0]
            return sqrt(1 - x**2) / x

        if arg.func is acos:
            x = arg.args[0]
            return x / sqrt(1 - x**2)
开发者ID:pyc111,项目名称:sympy,代码行数:45,代码来源:trigonometric.py


示例4: eval

    def eval(cls, arg):
        if arg.is_Number:
            if arg is S.NaN:
                return S.NaN
            elif arg is S.Infinity:
                return S.Infinity * S.ImaginaryUnit
            elif arg is S.NegativeInfinity:
                return S.NegativeInfinity * S.ImaginaryUnit
            elif arg is S.Zero:
                return S.Pi / 2
            elif arg is S.One:
                return S.Zero
            elif arg is S.NegativeOne:
                return S.Pi

        if arg.is_number:
            cst_table = {
                S.Half     : S.Pi/3,
                -S.Half    : 2*S.Pi/3,
                sqrt(2)/2  : S.Pi/4,
                -sqrt(2)/2 : 3*S.Pi/4,
                1/sqrt(2)  : S.Pi/4,
                -1/sqrt(2) : 3*S.Pi/4,
                sqrt(3)/2  : S.Pi/6,
                -sqrt(3)/2 : 5*S.Pi/6,
                }

            if arg in cst_table:
                return cst_table[arg]
开发者ID:jcreus,项目名称:sympy,代码行数:29,代码来源:trigonometric.py


示例5: fdiff

 def fdiff(self, argindex=1):
     if argindex == 1:
         return 1/sqrt(1 - self.args[0]**2)
     else:
         raise ArgumentIndexError(self, argindex)
开发者ID:jcreus,项目名称:sympy,代码行数:5,代码来源:trigonometric.py


示例6: _eval_rewrite_as_atan

 def _eval_rewrite_as_atan(self, x):
     if x > -1 and x <= 1:
         return 2 * atan(sqrt(1 - x**2)/(1 + x))
     else:
         raise ValueError("The argument must be bounded in the interval (-1,1]")
开发者ID:jcreus,项目名称:sympy,代码行数:5,代码来源:trigonometric.py


示例7: _eval_rewrite_as_log

 def _eval_rewrite_as_log(self, x):
     return S.Pi/2 + S.ImaginaryUnit * C.log(S.ImaginaryUnit * x + sqrt(1 - x**2))
开发者ID:jcreus,项目名称:sympy,代码行数:2,代码来源:trigonometric.py


示例8: eval

    def eval(cls, arg):
        if arg.is_Number:
            if arg is S.NaN:
                return S.NaN
            elif arg is S.Zero:
                return S.Zero
            elif arg.is_negative:
                return -cls(-arg)
        else:
            i_coeff = arg.as_coefficient(S.ImaginaryUnit)

            if i_coeff is not None:
                return S.ImaginaryUnit * C.sinh(i_coeff)
            else:
                pi_coeff = arg.as_coefficient(S.Pi)

                if pi_coeff is not None:
                    if pi_coeff.is_integer:
                        return S.Zero
                    elif pi_coeff.is_Rational:
                        cst_table_some = {
                            2 : S.One,
                            3 : S.Half*sqrt(3),
                            4 : S.Half*sqrt(2),
                            6 : S.Half,
                        }

                        cst_table_more = {
                            (1, 5) : sqrt((5 - sqrt(5)) / 8),
                            (2, 5) : sqrt((5 + sqrt(5)) / 8)
                        }

                        p = pi_coeff.p
                        q = pi_coeff.q

                        Q, P = p // q, p % q

                        try:
                            result = cst_table_some[q]
                        except KeyError:
                            if abs(P) > q // 2:
                                P = q - P

                            try:
                                result = cst_table_more[(P, q)]
                            except KeyError:
                                if P != p:
                                    result = cls(C.Rational(P, q)*S.Pi)
                                else:
                                    return None

                        if Q % 2 == 1:
                            return -result
                        else:
                            return result

                if arg.is_Mul and arg.args[0].is_negative:
                    return -cls(-arg)
                if arg.is_Add:
                    x, m = arg.as_independent(S.Pi)
                    if m in [S.Pi/2, S.Pi]:
                        return sin(m)*cos(x)+cos(m)*sin(x)
                    # normalize sin(-x-y) to -sin(x+y)
                    if arg.args[0].is_Mul:
                        if arg.args[0].args[0].is_negative:
                            # e.g. arg = -x - y
                            if (-arg).args[0].is_Mul:
                                if (-arg).args[0].args[0].is_negative:
                                    # This is to prevent infinite recursion in
                                    # the case sin(-x+y), for which
                                    # -arg = -y + x. See also #838 for the
                                    # root of the problem here.
                                    return
                            # convert sin(-x-y) to -sin(x+y)
                            return -cls(-arg)
                    if arg.args[0].is_negative:
                        if (-arg).args[0].is_negative:
                            # This is to avoid infinite recursion in the case
                            # sin(-x-1)
                            return
                        return -cls(-arg)

            if isinstance(arg, asin):
                return arg.args[0]

            if isinstance(arg, atan):
                x = arg.args[0]
                return x / sqrt(1 + x**2)

            if isinstance(arg, acos):
                x = arg.args[0]
                return sqrt(1 - x**2)

            if isinstance(arg, acot):
                x = arg.args[0];
                return 1 / (sqrt(1 + 1 / x**2) * x)
开发者ID:gnulinooks,项目名称:sympy,代码行数:96,代码来源:trigonometric.py



注:本文中的miscellaneous.sqrt函数示例由纯净天空整理自Github/MSDocs等源码及文档管理平台,相关代码片段筛选自各路编程大神贡献的开源项目,源码版权归原作者所有,传播和使用请参考对应项目的License;未经允许,请勿转载。


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