From 54ec1c4fe81672ca66f327ef6ae170f458cd79e5 Mon Sep 17 00:00:00 2001 From: shyouhei Date: Wed, 15 Aug 2007 20:57:30 +0000 Subject: sorry. I made wrong tags. git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/tags/v1_8_5_54@13009 b2dd03c8-39d4-4d8f-98ff-823fe69b080e --- ruby_1_8_5/lib/complex.rb | 631 ---------------------------------------------- 1 file changed, 631 deletions(-) delete mode 100644 ruby_1_8_5/lib/complex.rb (limited to 'ruby_1_8_5/lib/complex.rb') diff --git a/ruby_1_8_5/lib/complex.rb b/ruby_1_8_5/lib/complex.rb deleted file mode 100644 index 9300f391e8..0000000000 --- a/ruby_1_8_5/lib/complex.rb +++ /dev/null @@ -1,631 +0,0 @@ -# -# complex.rb - -# $Release Version: 0.5 $ -# $Revision: 1.3 $ -# $Date: 1998/07/08 10:05:28 $ -# by Keiju ISHITSUKA(SHL Japan Inc.) -# -# ---- -# -# complex.rb implements the Complex class for complex numbers. Additionally, -# some methods in other Numeric classes are redefined or added to allow greater -# interoperability with Complex numbers. -# -# Complex numbers can be created in the following manner: -# - Complex(a, b) -# - Complex.polar(radius, theta) -# -# Additionally, note the following: -# - Complex::I (the mathematical constant i) -# - Numeric#im (e.g. 5.im -> 0+5i) -# -# The following +Math+ module methods are redefined to handle Complex arguments. -# They will work as normal with non-Complex arguments. -# sqrt exp cos sin tan log log10 -# cosh sinh tanh acos asin atan atan2 acosh asinh atanh -# - - -# -# Numeric is a built-in class on which Fixnum, Bignum, etc., are based. Here -# some methods are added so that all number types can be treated to some extent -# as Complex numbers. -# -class Numeric - # - # Returns a Complex number (0,self). - # - def im - Complex(0, self) - end - - # - # The real part of a complex number, i.e. self. - # - def real - self - end - - # - # The imaginary part of a complex number, i.e. 0. - # - def image - 0 - end - alias imag image - - # - # See Complex#arg. - # - def arg - if self >= 0 - return 0 - else - return Math::PI - end - end - alias angle arg - - # - # See Complex#polar. - # - def polar - return abs, arg - end - - # - # See Complex#conjugate (short answer: returns self). - # - def conjugate - self - end - alias conj conjugate -end - - -# -# Creates a Complex number. +a+ and +b+ should be Numeric. The result will be -# a+bi. -# -def Complex(a, b = 0) - if b == 0 and (a.kind_of?(Complex) or defined? Complex::Unify) - a - else - Complex.new( a.real-b.imag, a.imag+b.real ) - end -end - -# -# The complex number class. See complex.rb for an overview. -# -class Complex < Numeric - @RCS_ID='-$Id: complex.rb,v 1.3 1998/07/08 10:05:28 keiju Exp keiju $-' - - undef step - - def Complex.generic?(other) # :nodoc: - other.kind_of?(Integer) or - other.kind_of?(Float) or - (defined?(Rational) and other.kind_of?(Rational)) - end - - # - # Creates a +Complex+ number in terms of +r+ (radius) and +theta+ (angle). - # - def Complex.polar(r, theta) - Complex(r*Math.cos(theta), r*Math.sin(theta)) - end - - # - # Creates a +Complex+ number a+bi. - # - def Complex.new!(a, b=0) - new(a,b) - end - - def initialize(a, b) - raise TypeError, "non numeric 1st arg `#{a.inspect}'" if !a.kind_of? Numeric - raise TypeError, "`#{a.inspect}' for 1st arg" if a.kind_of? Complex - raise TypeError, "non numeric 2nd arg `#{b.inspect}'" if !b.kind_of? Numeric - raise TypeError, "`#{b.inspect}' for 2nd arg" if b.kind_of? Complex - @real = a - @image = b - end - - # - # Addition with real or complex number. - # - def + (other) - if other.kind_of?(Complex) - re = @real + other.real - im = @image + other.image - Complex(re, im) - elsif Complex.generic?(other) - Complex(@real + other, @image) - else - x , y = other.coerce(self) - x + y - end - end - - # - # Subtraction with real or complex number. - # - def - (other) - if other.kind_of?(Complex) - re = @real - other.real - im = @image - other.image - Complex(re, im) - elsif Complex.generic?(other) - Complex(@real - other, @image) - else - x , y = other.coerce(self) - x - y - end - end - - # - # Multiplication with real or complex number. - # - def * (other) - if other.kind_of?(Complex) - re = @real*other.real - @image*other.image - im = @real*other.image + @image*other.real - Complex(re, im) - elsif Complex.generic?(other) - Complex(@real * other, @image * other) - else - x , y = other.coerce(self) - x * y - end - end - - # - # Division by real or complex number. - # - def / (other) - if other.kind_of?(Complex) - self*other.conjugate/other.abs2 - elsif Complex.generic?(other) - Complex(@real/other, @image/other) - else - x, y = other.coerce(self) - x/y - end - end - - # - # Raise this complex number to the given (real or complex) power. - # - def ** (other) - if other == 0 - return Complex(1) - end - if other.kind_of?(Complex) - r, theta = polar - ore = other.real - oim = other.image - nr = Math.exp!(ore*Math.log!(r) - oim * theta) - ntheta = theta*ore + oim*Math.log!(r) - Complex.polar(nr, ntheta) - elsif other.kind_of?(Integer) - if other > 0 - x = self - z = x - n = other - 1 - while n != 0 - while (div, mod = n.divmod(2) - mod == 0) - x = Complex(x.real*x.real - x.image*x.image, 2*x.real*x.image) - n = div - end - z *= x - n -= 1 - end - z - else - if defined? Rational - (Rational(1) / self) ** -other - else - self ** Float(other) - end - end - elsif Complex.generic?(other) - r, theta = polar - Complex.polar(r**other, theta*other) - else - x, y = other.coerce(self) - x**y - end - end - - # - # Remainder after division by a real or complex number. - # - def % (other) - if other.kind_of?(Complex) - Complex(@real % other.real, @image % other.image) - elsif Complex.generic?(other) - Complex(@real % other, @image % other) - else - x , y = other.coerce(self) - x % y - end - end - -#-- -# def divmod(other) -# if other.kind_of?(Complex) -# rdiv, rmod = @real.divmod(other.real) -# idiv, imod = @image.divmod(other.image) -# return Complex(rdiv, idiv), Complex(rmod, rmod) -# elsif Complex.generic?(other) -# Complex(@real.divmod(other), @image.divmod(other)) -# else -# x , y = other.coerce(self) -# x.divmod(y) -# end -# end -#++ - - # - # Absolute value (aka modulus): distance from the zero point on the complex - # plane. - # - def abs - Math.hypot(@real, @image) - end - - # - # Square of the absolute value. - # - def abs2 - @real*@real + @image*@image - end - - # - # Argument (angle from (1,0) on the complex plane). - # - def arg - Math.atan2!(@image, @real) - end - alias angle arg - - # - # Returns the absolute value _and_ the argument. - # - def polar - return abs, arg - end - - # - # Complex conjugate (z + z.conjugate = 2 * z.real). - # - def conjugate - Complex(@real, -@image) - end - alias conj conjugate - - # - # Compares the absolute values of the two numbers. - # - def <=> (other) - self.abs <=> other.abs - end - - # - # Test for numerical equality (a == a + 0i). - # - def == (other) - if other.kind_of?(Complex) - @real == other.real and @image == other.image - elsif Complex.generic?(other) - @real == other and @image == 0 - else - other == self - end - end - - # - # Attempts to coerce +other+ to a Complex number. - # - def coerce(other) - if Complex.generic?(other) - return Complex.new!(other), self - else - super - end - end - - # - # FIXME - # - def denominator - @real.denominator.lcm(@image.denominator) - end - - # - # FIXME - # - def numerator - cd = denominator - Complex(@real.numerator*(cd/@real.denominator), - @image.numerator*(cd/@image.denominator)) - end - - # - # Standard string representation of the complex number. - # - def to_s - if @real != 0 - if defined?(Rational) and @image.kind_of?(Rational) and @image.denominator != 1 - if @image >= 0 - @real.to_s+"+("+@image.to_s+")i" - else - @real.to_s+"-("+(-@image).to_s+")i" - end - else - if @image >= 0 - @real.to_s+"+"+@image.to_s+"i" - else - @real.to_s+"-"+(-@image).to_s+"i" - end - end - else - if defined?(Rational) and @image.kind_of?(Rational) and @image.denominator != 1 - "("+@image.to_s+")i" - else - @image.to_s+"i" - end - end - end - - # - # Returns a hash code for the complex number. - # - def hash - @real.hash ^ @image.hash - end - - # - # Returns "Complex(real, image)". - # - def inspect - sprintf("Complex(%s, %s)", @real.inspect, @image.inspect) - end - - - # - # +I+ is the imaginary number. It exists at point (0,1) on the complex plane. - # - I = Complex(0,1) - - # The real part of a complex number. - attr :real - - # The imaginary part of a complex number. - attr :image - alias imag image - -end - - - - -module Math - alias sqrt! sqrt - alias exp! exp - alias log! log - alias log10! log10 - alias cos! cos - alias sin! sin - alias tan! tan - alias cosh! cosh - alias sinh! sinh - alias tanh! tanh - alias acos! acos - alias asin! asin - alias atan! atan - alias atan2! atan2 - alias acosh! acosh - alias asinh! asinh - alias atanh! atanh - - # Redefined to handle a Complex argument. - def sqrt(z) - if Complex.generic?(z) - if z >= 0 - sqrt!(z) - else - Complex(0,sqrt!(-z)) - end - else - if z.image < 0 - sqrt(z.conjugate).conjugate - else - r = z.abs - x = z.real - Complex( sqrt!((r+x)/2), sqrt!((r-x)/2) ) - end - end - end - - # Redefined to handle a Complex argument. - def exp(z) - if Complex.generic?(z) - exp!(z) - else - Complex(exp!(z.real) * cos!(z.image), exp!(z.real) * sin!(z.image)) - end - end - - # Redefined to handle a Complex argument. - def cos(z) - if Complex.generic?(z) - cos!(z) - else - Complex(cos!(z.real)*cosh!(z.image), - -sin!(z.real)*sinh!(z.image)) - end - end - - # Redefined to handle a Complex argument. - def sin(z) - if Complex.generic?(z) - sin!(z) - else - Complex(sin!(z.real)*cosh!(z.image), - cos!(z.real)*sinh!(z.image)) - end - end - - # Redefined to handle a Complex argument. - def tan(z) - if Complex.generic?(z) - tan!(z) - else - sin(z)/cos(z) - end - end - - def sinh(z) - if Complex.generic?(z) - sinh!(z) - else - Complex( sinh!(z.real)*cos!(z.image), cosh!(z.real)*sin!(z.image) ) - end - end - - def cosh(z) - if Complex.generic?(z) - cosh!(z) - else - Complex( cosh!(z.real)*cos!(z.image), sinh!(z.real)*sin!(z.image) ) - end - end - - def tanh(z) - if Complex.generic?(z) - tanh!(z) - else - sinh(z)/cosh(z) - end - end - - # Redefined to handle a Complex argument. - def log(z) - if Complex.generic?(z) and z >= 0 - log!(z) - else - r, theta = z.polar - Complex(log!(r.abs), theta) - end - end - - # Redefined to handle a Complex argument. - def log10(z) - if Complex.generic?(z) - log10!(z) - else - log(z)/log!(10) - end - end - - def acos(z) - if Complex.generic?(z) and z >= -1 and z <= 1 - acos!(z) - else - -1.0.im * log( z + 1.0.im * sqrt(1.0-z*z) ) - end - end - - def asin(z) - if Complex.generic?(z) and z >= -1 and z <= 1 - asin!(z) - else - -1.0.im * log( 1.0.im * z + sqrt(1.0-z*z) ) - end - end - - def atan(z) - if Complex.generic?(z) - atan!(z) - else - 1.0.im * log( (1.0.im+z) / (1.0.im-z) ) / 2.0 - end - end - - def atan2(y,x) - if Complex.generic?(y) and Complex.generic?(x) - atan2!(y,x) - else - -1.0.im * log( (x+1.0.im*y) / sqrt(x*x+y*y) ) - end - end - - def acosh(z) - if Complex.generic?(z) and z >= 1 - acosh!(z) - else - log( z + sqrt(z*z-1.0) ) - end - end - - def asinh(z) - if Complex.generic?(z) - asinh!(z) - else - log( z + sqrt(1.0+z*z) ) - end - end - - def atanh(z) - if Complex.generic?(z) and z >= -1 and z <= 1 - atanh!(z) - else - log( (1.0+z) / (1.0-z) ) / 2.0 - end - end - - module_function :sqrt! - module_function :sqrt - module_function :exp! - module_function :exp - module_function :log! - module_function :log - module_function :log10! - module_function :log10 - module_function :cosh! - module_function :cosh - module_function :cos! - module_function :cos - module_function :sinh! - module_function :sinh - module_function :sin! - module_function :sin - module_function :tan! - module_function :tan - module_function :tanh! - module_function :tanh - module_function :acos! - module_function :acos - module_function :asin! - module_function :asin - module_function :atan! - module_function :atan - module_function :atan2! - module_function :atan2 - module_function :acosh! - module_function :acosh - module_function :asinh! - module_function :asinh - module_function :atanh! - module_function :atanh - -end - -# Documentation comments: -# - source: original (researched from pickaxe) -# - a couple of fixme's -# - RDoc output for Bignum etc. is a bit short, with nothing but an -# (undocumented) alias. No big deal. -- cgit v1.2.3