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7559d2fd7a
object. [ruby-dev:27156] * file.c (file_expand_path): allow pathnames to expand. [ruby-dev:27152] * numeric.c (Init_Numeric): should define Fixnum#div. [ruby-dev:27129] * file.c (rb_thread_flock): wrap flock(2) by TRAP_BEG and TRAP_END. [ruby-dev:27122] * file.c (rb_file_join): call FilePathValue() to all Pathnames to join. [ruby-dev:27127] * file.c (rb_get_path): call StringValueCStr() to ensure no nul bytes in path strings. * gc.c (garbage_collect): need value for return. [ruby-dev:27127] git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@9236 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
382 lines
6.8 KiB
Ruby
382 lines
6.8 KiB
Ruby
#
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# rational.rb -
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# $Release Version: 0.5 $
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# $Revision: 1.7 $
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# $Date: 1999/08/24 12:49:28 $
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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 Rational < Numeric
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# (include Comparable)
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#
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# Rational(a, b) --> a/b
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#
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# Rational::+
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# Rational::-
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# Rational::*
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# Rational::/
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# Rational::**
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# Rational::%
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# Rational::divmod
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# Rational::abs
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# Rational::<=>
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# Rational::to_i
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# Rational::to_f
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# Rational::to_s
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#
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# Integer::gcd
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# Integer::lcm
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# Integer::gcdlcm
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# Integer::to_r
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#
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# Fixnum::**
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# Fixnum::quo
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# Bignum::**
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# Bignum::quo
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#
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def Rational(a, b = 1)
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p [:Rational, a, b]
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if a.kind_of?(Rational) && b == 1
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a
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else
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Rational.reduce(a, b)
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end
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end
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class Rational < Numeric
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@RCS_ID='-$Id: rational.rb,v 1.7 1999/08/24 12:49:28 keiju Exp keiju $-'
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def Rational.reduce(num, den = 1)
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raise ZeroDivisionError, "denominator is zero" if den == 0
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if den < 0
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num = -num
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den = -den
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end
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p [:reduce, num, den]
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gcd = num.gcd(den)
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p [:div1, num, num.class, gcd]
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num = num.div(gcd)
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p [:div2, den, gcd]
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den = den.div(gcd)
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p [:gcd=, gcd]
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if den == 1 && defined?(Unify)
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num
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else
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new!(num, den)
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end
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end
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def Rational.new!(num, den = 1)
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new(num, den)
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end
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private_class_method :new
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def initialize(num, den)
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if den < 0
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num = -num
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den = -den
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end
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if num.kind_of?(Integer) and den.kind_of?(Integer)
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@numerator = num
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@denominator = den
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else
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@numerator = num.to_i
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@denominator = den.to_i
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end
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end
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def + (a)
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if a.kind_of?(Rational)
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num = @numerator * a.denominator
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num_a = a.numerator * @denominator
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Rational(num + num_a, @denominator * a.denominator)
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elsif a.kind_of?(Integer)
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self + Rational.new!(a, 1)
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elsif a.kind_of?(Float)
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Float(self) + a
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else
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x, y = a.coerce(self)
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x + y
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end
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end
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def - (a)
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if a.kind_of?(Rational)
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num = @numerator * a.denominator
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num_a = a.numerator * @denominator
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Rational(num - num_a, @denominator*a.denominator)
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elsif a.kind_of?(Integer)
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self - Rational.new!(a, 1)
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elsif a.kind_of?(Float)
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Float(self) - a
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else
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x, y = a.coerce(self)
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x - y
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end
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end
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def * (a)
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if a.kind_of?(Rational)
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num = @numerator * a.numerator
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den = @denominator * a.denominator
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Rational(num, den)
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elsif a.kind_of?(Integer)
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self * Rational.new!(a, 1)
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elsif a.kind_of?(Float)
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Float(self) * a
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else
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x, y = a.coerce(self)
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x * y
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end
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end
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def / (a)
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if a.kind_of?(Rational)
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num = @numerator * a.denominator
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den = @denominator * a.numerator
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Rational(num, den)
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elsif a.kind_of?(Integer)
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raise ZeroDivisionError, "division by zero" if a == 0
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self / Rational.new!(a, 1)
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elsif a.kind_of?(Float)
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Float(self) / a
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else
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x, y = a.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?(Rational)
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Float(self) ** other
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elsif other.kind_of?(Integer)
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if other > 0
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num = @numerator ** other
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den = @denominator ** other
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elsif other < 0
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num = @denominator ** -other
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den = @numerator ** -other
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elsif other == 0
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num = 1
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den = 1
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end
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Rational.new!(num, den)
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elsif other.kind_of?(Float)
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Float(self) ** 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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value = (self / other).to_i
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return self - other * value
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end
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def divmod(other)
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value = (self / other).to_i
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return value, self - other * value
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end
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def abs
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if @numerator > 0
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Rational.new!(@numerator, @denominator)
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else
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Rational.new!(-@numerator, @denominator)
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end
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end
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def == (other)
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if other.kind_of?(Rational)
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@numerator == other.numerator and @denominator == other.denominator
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elsif other.kind_of?(Integer)
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self == Rational.new!(other, 1)
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elsif other.kind_of?(Float)
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Float(self) == other
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else
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other == self
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end
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end
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def <=> (other)
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if other.kind_of?(Rational)
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num = @numerator * other.denominator
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num_a = other.numerator * @denominator
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v = num - num_a
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if v > 0
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return 1
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elsif v < 0
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return -1
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else
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return 0
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end
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elsif other.kind_of?(Integer)
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return self <=> Rational.new!(other, 1)
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elsif other.kind_of?(Float)
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return Float(self) <=> other
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elsif defined? other.coerce
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x, y = other.coerce(self)
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return x <=> y
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else
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return nil
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end
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end
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def coerce(other)
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if other.kind_of?(Float)
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return other, self.to_f
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elsif other.kind_of?(Integer)
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return Rational.new!(other, 1), 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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Integer(@numerator.div(@denominator))
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end
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def to_f
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@numerator.to_f/@denominator.to_f
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end
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def to_s
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if @denominator == 1
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@numerator.to_s
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else
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@numerator.to_s+"/"+@denominator.to_s
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end
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end
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def to_r
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self
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end
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def inspect
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sprintf("Rational(%s, %s)", @numerator.inspect, @denominator.inspect)
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end
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def hash
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@numerator.hash ^ @denominator.hash
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end
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attr :numerator
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attr :denominator
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private :initialize
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end
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class Integer
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def numerator
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self
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end
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def denominator
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1
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end
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def to_r
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Rational(self, 1)
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end
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def gcd(n)
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m = self.abs
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n = n.abs
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return n if m == 0
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return m if n == 0
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b = 0
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while n[0] == 0 && m[0] == 0
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b += 1; n >>= 1; m >>= 1
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end
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m >>= 1 while m[0] == 0
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n >>= 1 while n[0] == 0
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while m != n
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m, n = n, m if n > m
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m -= n; m >>= 1 while m[0] == 0
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end
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m << b
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end
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def gcd2(int)
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a = self.abs
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b = int.abs
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a, b = b, a if a < b
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while b != 0
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void, a = a.divmod(b)
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a, b = b, a
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end
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return a
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end
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def lcm(other)
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if self.zero? or other.zero?
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0
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else
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(self.div(self.gcd(other)) * other).abs
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end
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end
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def gcdlcm(other)
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gcd = self.gcd(other)
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if self.zero? or other.zero?
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[gcd, 0]
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else
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[gcd, (self.div(gcd) * other).abs]
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end
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end
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end
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class Fixnum
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undef quo
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def quo(other)
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p [:quo, self, other]
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Rational.new!(self,1) / other
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end
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alias rdiv quo
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def rpower (other)
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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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end
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unless defined? 1.power!
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alias power! **
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alias ** rpower
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end
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end
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class Bignum
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unless defined? Complex
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alias power! **
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end
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undef quo
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def quo(other)
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Rational.new!(self,1) / other
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end
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alias rdiv quo
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def rpower (other)
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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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end
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unless defined? Complex
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alias ** rpower
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end
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end
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