зеркало из https://github.com/github/ruby.git
319 строки
6.8 KiB
Ruby
319 строки
6.8 KiB
Ruby
#
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# mathn.rb -
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# $Release Version: 0.5 $
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# $Revision: 1.1.1.1.4.1 $
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# $Date: 1998/01/16 12:36:05 $
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# by Keiju ISHITSUKA(SHL Japan Inc.)
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#
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# --
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#
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#
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#
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require "complex.rb"
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require "rational.rb"
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require "matrix.rb"
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class Integer
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remove_method(:gcd2)
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def gcd2(other)
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min = self.abs
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max = other.abs
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min, max = max % min, min while min > 0
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max
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end
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def Integer.from_prime_division(pd)
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value = 1
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for prime, index in pd
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value *= prime**index
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end
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value
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end
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def prime_division
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ps = Prime.new
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value = self
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pv = []
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for prime in ps
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count = 0
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while (value1, mod = value.divmod(prime)
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mod) == 0
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value = value1
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count += 1
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end
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if count != 0
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pv.push [prime, count]
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end
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break if prime * prime >= value
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end
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if value > 1
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pv.push [value, 1]
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end
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return pv
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end
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end
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class Prime
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include Enumerable
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# These are included as class variables to cache them for later uses. If memory
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# usage is a problem, they can be put in Prime#initialize as instance variables.
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# There must be no primes between @@primes[-1] and @@next_to_check.
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@@primes = [2, 3, 5, 7, 11, 13, 17, 19, 23, 29, 31, 37, 41, 43, 47, 53, 59, 61, 67, 71, 73, 79, 83, 89, 97, 101]
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# @@next_to_check % 6 must be 1.
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@@next_to_check = 103 # @@primes[-1] - @@primes[-1] % 6 + 7
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@@ulticheck_index = 3 # @@primes.index(@@primes.reverse.find {|n|
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# n < Math.sqrt(@@next_to_check) })
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@@ulticheck_next_squared = 121 # @@primes[@@ulticheck_index + 1] ** 2
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class << self
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# Return the prime cache.
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def cache
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return @@primes
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end
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alias primes cache
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alias primes_so_far cache
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end
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def initialize
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@index = -1
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end
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# Return primes given by this instance so far.
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def primes
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return @@primes[0, @index + 1]
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end
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alias primes_so_far primes
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def succ
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@index += 1
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while @index >= @@primes.length
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# Only check for prime factors up to the square root of the potential primes,
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# but without the performance hit of an actual square root calculation.
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if @@next_to_check + 4 > @@ulticheck_next_squared
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@@ulticheck_index += 1
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@@ulticheck_next_squared = @@primes.at(@@ulticheck_index + 1) ** 2
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end
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# Only check numbers congruent to one and five, modulo six. All others
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# are divisible by two or three. This also allows us to skip checking against
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# two and three.
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@@primes.push @@next_to_check if @@primes[2..@@ulticheck_index].find {|prime| @@next_to_check % prime == 0 }.nil?
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@@next_to_check += 4
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@@primes.push @@next_to_check if @@primes[2..@@ulticheck_index].find {|prime| @@next_to_check % prime == 0 }.nil?
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@@next_to_check += 2
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end
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return @@primes[@index]
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end
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alias next succ
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def each
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loop do
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yield succ
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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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alias / quo
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end
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class Bignum
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alias / quo
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end
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class Rational
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Unify = true
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remove_method(:inspect)
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def inspect
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format "%s/%s", numerator.inspect, denominator.inspect
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end
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alias power! **
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def ** (other)
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if other.kind_of?(Rational)
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if self < 0
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return Complex.new!(self, 0) ** other
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elsif other == 0
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return Rational(1,1)
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elsif self == 0
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return Rational(0,1)
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elsif self == 1
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return Rational(1,1)
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end
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npd = numerator.prime_division
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dpd = denominator.prime_division
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if other < 0
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other = -other
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npd, dpd = dpd, npd
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end
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for elm in npd
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elm[1] = elm[1] * other
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if !elm[1].kind_of?(Integer) and elm[1].denominator != 1
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return Float(self) ** other
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end
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elm[1] = elm[1].to_i
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end
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for elm in dpd
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elm[1] = elm[1] * other
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if !elm[1].kind_of?(Integer) and elm[1].denominator != 1
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return Float(self) ** other
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end
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elm[1] = elm[1].to_i
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end
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num = Integer.from_prime_division(npd)
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den = Integer.from_prime_division(dpd)
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Rational(num,den)
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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 power2(other)
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if other.kind_of?(Rational)
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if self < 0
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return Complex(self, 0) ** other
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elsif other == 0
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return Rational(1,1)
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elsif self == 0
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return Rational(0,1)
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elsif self == 1
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return Rational(1,1)
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end
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dem = nil
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x = self.denominator.to_f.to_i
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neard = self.denominator.to_f ** (1.0/other.denominator.to_f)
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loop do
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if (neard**other.denominator == self.denominator)
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dem = neaed
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break
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end
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end
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nearn = self.numerator.to_f ** (1.0/other.denominator.to_f)
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Rational(num,den)
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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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end
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module Math
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remove_method(:sqrt)
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def sqrt(a)
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if a.kind_of?(Complex)
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abs = sqrt(a.real*a.real + a.image*a.image)
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# if not abs.kind_of?(Rational)
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# return a**Rational(1,2)
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# end
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x = sqrt((a.real + abs)/Rational(2))
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y = sqrt((-a.real + abs)/Rational(2))
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# if !(x.kind_of?(Rational) and y.kind_of?(Rational))
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# return a**Rational(1,2)
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# end
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if a.image >= 0
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Complex(x, y)
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else
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Complex(x, -y)
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end
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elsif a >= 0
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rsqrt(a)
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else
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Complex(0,rsqrt(-a))
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end
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end
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def rsqrt(a)
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if a.kind_of?(Float)
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sqrt!(a)
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elsif a.kind_of?(Rational)
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rsqrt(a.numerator)/rsqrt(a.denominator)
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else
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src = a
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max = 2 ** 32
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byte_a = [src & 0xffffffff]
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# ruby's bug
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while (src >= max) and (src >>= 32)
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byte_a.unshift src & 0xffffffff
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end
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answer = 0
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main = 0
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side = 0
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for elm in byte_a
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main = (main << 32) + elm
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side <<= 16
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if answer != 0
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if main * 4 < side * side
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applo = main.div(side)
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else
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applo = ((sqrt!(side * side + 4 * main) - side)/2.0).to_i + 1
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end
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else
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applo = sqrt!(main).to_i + 1
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end
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while (x = (side + applo) * applo) > main
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applo -= 1
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end
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main -= x
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answer = (answer << 16) + applo
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side += applo * 2
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end
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if main == 0
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answer
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else
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sqrt!(a)
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end
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end
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end
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module_function :sqrt
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module_function :rsqrt
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end
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class Complex
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Unify = true
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end
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