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git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@520 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
498 lines
8.6 KiB
Ruby
498 lines
8.6 KiB
Ruby
#
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# complex.rb -
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# $Release Version: 0.5 $
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# $Revision: 1.3 $
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# $Date: 1998/07/08 10:05:28 $
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# by Keiju ISHITSUKA(SHL Japan Inc.)
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#
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# --
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# Usage:
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# class Complex < Numeric
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#
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# Complex(x, y) --> x + yi
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# y.im --> 0 + yi
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#
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# Complex::polar
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#
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# Complex::+
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# Complex::-
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# Complex::*
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# Complex::/
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# Complex::**
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# Complex::%
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# Complex::divmod
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# Complex::abs
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# Complex::abs2
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# Complex::arg
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# Complex::polar
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# Complex::conjugate
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# Complex::<=>
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# Complex::==
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# Complex::to_i
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# Complex::to_f
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# Complex::to_r
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# Complex::to_s
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#
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# Complex::I
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#
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# Numeric::im
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#
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# Math.sqrt
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# Math.exp
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# Math.cos
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# Math.sin
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# Math.tan
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# Math.log
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# Math.log10
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# Math.atan2
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#
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#
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def Complex(a, b = 0)
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if a.kind_of?(Complex) and b == 0
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a
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elsif b == 0 and defined? Complex::Unify
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a
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else
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Complex.new(a, b)
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end
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end
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class Complex < Numeric
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@RCS_ID='-$Id: complex.rb,v 1.3 1998/07/08 10:05:28 keiju Exp keiju $-'
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def Complex.generic?(other)
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other.kind_of?(Integer) or
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other.kind_of?(Float) or
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(defined?(Rational) and other.kind_of?(Rational))
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end
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def Complex.polar(r, theta)
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Complex(r*Math.cos(theta), r*Math.sin(theta))
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end
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def initialize(a, b = 0)
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raise "non numeric 1st arg `#{a.inspect}'" if !a.kind_of? Numeric
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raise "non numeric 2nd arg `#{b.inspect}'" if !b.kind_of? Numeric
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@real = a
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@image = b
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end
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def + (other)
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if other.kind_of?(Complex)
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re = @real + other.real
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im = @image + other.image
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Complex(re, im)
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elsif Complex.generic?(other)
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Complex(@real + other, @image)
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else
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x , y = other.coerce(self)
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x + y
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end
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end
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def - (other)
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if other.kind_of?(Complex)
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re = @real - other.real
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im = @image - other.image
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Complex(re, im)
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elsif Complex.generic?(other)
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Complex(@real - other, @image)
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else
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x , y = other.coerce(self)
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x - y
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end
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end
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def * (other)
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if other.kind_of?(Complex)
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re = @real*other.real - @image*other.image
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im = @real*other.image + @image*other.real
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Complex(re, im)
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elsif Complex.generic?(other)
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Complex(@real * other, @image * other)
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else
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x , y = other.coerce(self)
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x * y
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end
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end
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def / (other)
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if other.kind_of?(Complex)
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self * other.conjugate / other.abs2
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elsif Complex.generic?(other)
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Complex(@real / other, @image / other)
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else
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x , y = other.coerce(self)
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x / y
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end
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end
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def ** (other)
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if other == 0
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return Complex(1)
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end
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if other.kind_of?(Complex)
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r, theta = polar
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ore = other.real
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oim = other.image
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nr = Math.exp!(ore*Math.log!(r) - oim * theta)
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ntheta = theta*ore + oim*Math.log!(r)
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Complex.polar(nr, ntheta)
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elsif other.kind_of?(Integer)
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if other > 0
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x = self
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z = x
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n = other - 1
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while n != 0
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while (div, mod = n.divmod(2)
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mod == 0)
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x = Complex(x.real*x.real - x.image*x.image, 2*x.real*x.image)
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n = div
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end
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z *= x
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n -= 1
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end
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z
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else
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if defined? Rational
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(Rational(1) / self) ** -other
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else
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self ** Float(other)
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end
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end
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elsif Complex.generic?(other)
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r, theta = polar
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Complex.polar(r.power!(other), theta * other)
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else
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x , y = other.coerce(self)
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x / y
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end
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end
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def % (other)
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if other.kind_of?(Complex)
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Complex(@real % other.real, @image % other.image)
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elsif Complex.generic?(other)
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Complex(@real % other, @image % other)
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else
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x , y = other.coerce(self)
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x % y
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end
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end
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def divmod(other)
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if other.kind_of?(Complex)
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rdiv, rmod = @real.divmod(other.real)
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idiv, imod = @image.divmod(other.image)
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return Complex(rdiv, idiv), Complex(rmod, rdiv)
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elsif Complex.generic?(other)
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Complex(@real.divmod(other), @image.divmod(other))
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else
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x , y = other.coerce(self)
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x.divmod(y)
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end
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end
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def abs
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Math.sqrt!((@real*@real + @image*@image).to_f)
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end
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def abs2
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@real*@real + @image*@image
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end
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def arg
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Math.atan2(@image.to_f, @real.to_f)
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end
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def polar
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return abs, arg
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end
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def conjugate
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Complex(@real, -@image)
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end
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def <=> (other)
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self.abs <=> other.abs
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end
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def == (other)
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if other.kind_of?(Complex)
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@real == other.real and @image == other.image
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elsif Complex.generic?(other)
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@real == other and @image == 0
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else
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x , y = other.coerce(self)
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x == y
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end
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end
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def coerce(other)
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if Complex.generic?(other)
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return Complex.new(other), self
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else
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super
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end
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end
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def to_i
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Complex(@real.to_i, @image.to_i)
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end
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def to_f
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Complex(@real.to_f, @image.to_f)
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end
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def to_r
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Complex(@real.to_r, @image.to_r)
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end
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def denominator
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@real.denominator.lcm(@image.denominator)
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end
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def numerator
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cd = denominator
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Complex(@real.numerator*(cd/@real.denominator),
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@image.numerator*(cd/@image.denominator))
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end
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def to_s
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if @real != 0
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if defined?(Rational) and @image.kind_of?(Rational) and @image.denominator != 1
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if @image >= 0
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@real.to_s+"+("+@image.to_s+")i"
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else
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@real.to_s+"-("+(-@image).to_s+")i"
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end
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else
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if @image >= 0
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@real.to_s+"+"+@image.to_s+"i"
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else
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@real.to_s+"-"+(-@image).to_s+"i"
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end
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end
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else
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if defined?(Rational) and @image.kind_of?(Rational) and @image.denominator != 1
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"("+@image.to_s+")i"
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else
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@image.to_s+"i"
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end
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end
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end
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def hash
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@real ^ @image
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end
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def inspect
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sprintf("Complex(%s, %s)", @real.inspect, @image.inspect)
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end
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I = Complex(0,1)
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attr :real
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attr :image
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end
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class Numeric
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def im
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Complex(0, self)
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end
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def real
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self
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end
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def image
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0
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end
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def arg
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if self >= 0
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return 0
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else
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return Math.atan2(1,1)*4
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end
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end
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def polar
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return abs, arg
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end
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def conjugate
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self
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end
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end
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class Fixnum
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if not defined? Rational
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alias power! **
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end
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def ** (other)
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if self < 0
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Complex.new(self) ** other
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else
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if defined? Rational
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if other >= 0
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self.power!(other)
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else
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Rational.new!(self,1)**other
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end
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else
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self.power!(other)
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end
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end
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end
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end
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class Bignum
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if not defined? Rational
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alias power! **
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end
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end
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class Float
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alias power! **
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end
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module Math
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alias sqrt! sqrt
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alias exp! exp
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alias cos! cos
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alias sin! sin
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alias tan! tan
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alias log! log
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alias log10! log10
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alias atan2! atan2
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def sqrt(z)
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if Complex.generic?(z)
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if z >= 0
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sqrt!(z)
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else
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Complex(0,sqrt!(-z))
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end
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else
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z**Rational(1,2)
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end
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end
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def exp(z)
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if Complex.generic?(z)
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exp!(z)
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else
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Complex(exp!(z.real) * cos!(z.image), exp!(z.real) * sin!(z.image))
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end
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end
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def cosh!(x)
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(exp!(x) + exp!(-x))/2.0
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end
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def sinh!(x)
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(exp!(x) - exp!(-x))/2.0
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end
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def cos(z)
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if Complex.generic?(z)
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cos!(z)
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else
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Complex(cos!(z.real)*cosh!(z.image),
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-sin!(z.real)*sinh!(z.image))
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end
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end
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def sin(z)
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if Complex.generic?(z)
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sin!(z)
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else
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Complex(sin!(z.real)*cosh!(z.image),
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cos!(z.real)*sinh!(z.image))
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end
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end
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def tan(z)
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if Complex.generic?(z)
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tan!(z)
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else
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sin(z)/cos(z)
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end
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end
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def log(z)
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if Complex.generic?(z) and z >= 0
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log!(z)
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else
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r, theta = z.polar
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Complex(log!(r.abs), theta)
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end
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end
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def log10(z)
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if Complex.generic?(z)
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log10!(z)
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else
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log(z)/log!(10)
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end
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end
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def atan2(x, y)
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if Complex.generic?(x) and Complex.generic?(y)
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atan2!(x, y)
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else
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fail "Not yet implemented."
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end
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end
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def atanh!(x)
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log((1.0 + x.to_f) / ( 1.0 - x.to_f)) / 2.0
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end
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def atan(z)
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if Complex.generic?(z)
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atan2!(z, 1)
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elsif z.image == 0
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atan2(z.real,1)
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else
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a = z.real
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b = z.image
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c = (a*a + b*b - 1.0)
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d = (a*a + b*b + 1.0)
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Complex(atan2!((c + sqrt(c*c + 4.0*a*a)), 2.0*a),
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atanh!((-d + sqrt(d*d - 4.0*b*b))/(2.0*b)))
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end
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end
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module_function :sqrt
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module_function :sqrt!
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module_function :exp!
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module_function :exp
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module_function :cosh!
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module_function :cos!
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module_function :cos
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module_function :sinh!
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module_function :sin!
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module_function :sin
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module_function :tan!
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module_function :tan
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module_function :log!
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module_function :log
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module_function :log10!
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module_function :log
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module_function :atan2!
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module_function :atan2
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# module_function :atan!
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module_function :atan
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module_function :atanh!
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end
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