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929e9713bb
* complex.c (f_divide): canonicalize rationals to simplify integer complex results. git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@64610 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
1015 lines
30 KiB
Ruby
1015 lines
30 KiB
Ruby
# frozen_string_literal: false
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require 'test/unit'
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class ComplexSub < Complex; end
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class Complex_Test < Test::Unit::TestCase
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def test_rationalize
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assert_equal(1.quo(3), Complex(1/3.0, 0).rationalize, '[ruby-core:38885]')
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assert_equal(1.quo(5), Complex(0.2, 0).rationalize, '[ruby-core:38885]')
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assert_equal(5.quo(2), Complex(2.5, 0).rationalize(0), '[ruby-core:40667]')
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end
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def test_compsub
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c = ComplexSub.__send__(:convert, 1)
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assert_kind_of(Numeric, c)
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assert_instance_of(ComplexSub, c)
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c2 = c + 1
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assert_instance_of(ComplexSub, c2)
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c2 = c - 1
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assert_instance_of(ComplexSub, c2)
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c3 = c - c2
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assert_instance_of(ComplexSub, c3)
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s = Marshal.dump(c)
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c5 = Marshal.load(s)
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assert_equal(c, c5)
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assert_instance_of(ComplexSub, c5)
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c1 = Complex(1)
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assert_equal(c1.hash, c.hash, '[ruby-dev:38850]')
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assert_equal([true, true], [c.eql?(c1), c1.eql?(c)])
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end
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def test_eql_p
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c = Complex(0)
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c2 = Complex(0)
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c3 = Complex(1)
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assert_operator(c, :eql?, c2)
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assert_not_operator(c, :eql?, c3)
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assert_not_operator(c, :eql?, 0)
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end
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def test_hash
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h = Complex(1,2).hash
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assert_kind_of(Integer, h)
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assert_nothing_raised {h.to_s}
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h = Complex(1.0,2.0).hash
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assert_kind_of(Integer, h)
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assert_nothing_raised {h.to_s}
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h = {}
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h[Complex(0)] = 0
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h[Complex(0,1)] = 1
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h[Complex(1,0)] = 2
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h[Complex(1,1)] = 3
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assert_equal(4, h.size)
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assert_equal(2, h[Complex(1,0)])
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h[Complex(0,0)] = 9
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assert_equal(4, h.size)
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h[Complex(0.0,0.0)] = 9.0
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assert_equal(5, h.size)
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if (0.0/0).nan? && !((0.0/0).eql?(0.0/0))
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h = {}
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3.times{h[Complex(0.0/0)] = 1}
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assert_equal(3, h.size)
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end
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end
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def test_freeze
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c = Complex(1)
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assert_predicate(c, :frozen?)
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assert_instance_of(String, c.to_s)
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end
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def test_conv
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c = Complex(0,0)
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assert_equal(Complex(0,0), c)
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c = Complex(2**32, 2**32)
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assert_equal(Complex(2**32,2**32), c)
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assert_equal([2**32,2**32], [c.real,c.imag])
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c = Complex(-2**32, 2**32)
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assert_equal(Complex(-2**32,2**32), c)
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assert_equal([-2**32,2**32], [c.real,c.imag])
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c = Complex(2**32, -2**32)
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assert_equal(Complex(2**32,-2**32), c)
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assert_equal([2**32,-2**32], [c.real,c.imag])
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c = Complex(-2**32, -2**32)
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assert_equal(Complex(-2**32,-2**32), c)
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assert_equal([-2**32,-2**32], [c.real,c.imag])
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c = Complex(Complex(1,2),2)
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assert_equal(Complex(1,4), c)
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c = Complex(2,Complex(1,2))
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assert_equal(Complex(0,1), c)
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c = Complex(Complex(1,2),Complex(1,2))
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assert_equal(Complex(-1,3), c)
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c = Complex::I
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assert_equal(Complex(0,1), c)
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assert_equal(Complex(1),Complex(1))
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assert_equal(Complex(1),Complex('1'))
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assert_equal(Complex(3.0,3.0),Complex('3.0','3.0'))
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assert_equal(Complex(1,1),Complex('3/3','3/3'))
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assert_raise(TypeError){Complex(nil)}
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assert_raise(TypeError){Complex(Object.new)}
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assert_raise(ArgumentError){Complex()}
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assert_raise(ArgumentError){Complex(1,2,3)}
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if (0.0/0).nan?
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assert_nothing_raised{Complex(0.0/0)}
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end
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if (1.0/0).infinite?
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assert_nothing_raised{Complex(1.0/0)}
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end
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end
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def test_attr
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c = Complex(4)
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assert_equal(4, c.real)
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assert_equal(0, c.imag)
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c = Complex(4,5)
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assert_equal(4, c.real)
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assert_equal(5, c.imag)
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if -0.0.to_s == '-0.0'
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c = Complex(-0.0,-0.0)
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assert_equal('-0.0', c.real.to_s)
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assert_equal('-0.0', c.imag.to_s)
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end
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c = Complex(4)
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assert_equal(4, c.real)
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assert_equal(0, c.imag)
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assert_equal(c.imag, c.imaginary)
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c = Complex(4,5)
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assert_equal(4, c.real)
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assert_equal(5, c.imag)
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assert_equal(c.imag, c.imaginary)
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if -0.0.to_s == '-0.0'
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c = Complex(-0.0,-0.0)
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assert_equal('-0.0', c.real.to_s)
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assert_equal('-0.0', c.imag.to_s)
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assert_equal(c.imag.to_s, c.imaginary.to_s)
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end
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c = Complex(4)
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assert_equal(4, c.real)
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assert_equal(c.imag, c.imaginary)
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assert_equal(0, c.imag)
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c = Complex(4,5)
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assert_equal(4, c.real)
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assert_equal(5, c.imag)
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assert_equal(c.imag, c.imaginary)
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c = Complex(-0.0,-0.0)
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assert_equal('-0.0', c.real.to_s)
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assert_equal('-0.0', c.imag.to_s)
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assert_equal(c.imag.to_s, c.imaginary.to_s)
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end
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def test_attr2
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c = Complex(1)
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assert_not_predicate(c, :integer?)
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assert_not_predicate(c, :real?)
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assert_predicate(Complex(0), :zero?)
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assert_predicate(Complex(0,0), :zero?)
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assert_not_predicate(Complex(1,0), :zero?)
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assert_not_predicate(Complex(0,1), :zero?)
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assert_not_predicate(Complex(1,1), :zero?)
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assert_equal(nil, Complex(0).nonzero?)
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assert_equal(nil, Complex(0,0).nonzero?)
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assert_equal(Complex(1,0), Complex(1,0).nonzero?)
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assert_equal(Complex(0,1), Complex(0,1).nonzero?)
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assert_equal(Complex(1,1), Complex(1,1).nonzero?)
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end
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def test_rect
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assert_equal([1,2], Complex.rectangular(1,2).rectangular)
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assert_equal([1,2], Complex.rect(1,2).rect)
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end
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def test_polar
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assert_equal([1,2], Complex.polar(1,2).polar)
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assert_equal(Complex.polar(1.0, Math::PI * 2 / 3), Complex.polar(1, Math::PI * 2 / 3))
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end
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def test_uplus
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assert_equal(Complex(1), +Complex(1))
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assert_equal(Complex(-1), +Complex(-1))
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assert_equal(Complex(1,1), +Complex(1,1))
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assert_equal(Complex(-1,1), +Complex(-1,1))
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assert_equal(Complex(1,-1), +Complex(1,-1))
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assert_equal(Complex(-1,-1), +Complex(-1,-1))
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if -0.0.to_s == '-0.0'
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c = +Complex(0.0,0.0)
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assert_equal('0.0', c.real.to_s)
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assert_equal('0.0', c.imag.to_s)
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c = +Complex(-0.0,-0.0)
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assert_equal('-0.0', c.real.to_s)
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assert_equal('-0.0', c.imag.to_s)
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end
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end
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def test_negate
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assert_equal(Complex(-1), -Complex(1))
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assert_equal(Complex(1), -Complex(-1))
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assert_equal(Complex(-1,-1), -Complex(1,1))
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assert_equal(Complex(1,-1), -Complex(-1,1))
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assert_equal(Complex(-1,1), -Complex(1,-1))
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assert_equal(Complex(1,1), -Complex(-1,-1))
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if -0.0.to_s == '-0.0'
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c = -Complex(0.0,0.0)
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assert_equal('-0.0', c.real.to_s)
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assert_equal('-0.0', c.imag.to_s)
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c = -Complex(-0.0,-0.0)
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assert_equal('0.0', c.real.to_s)
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assert_equal('0.0', c.imag.to_s)
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end
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end
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def test_add
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c = Complex(1,2)
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c2 = Complex(2,3)
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assert_equal(Complex(3,5), c + c2)
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assert_equal(Complex(3,2), c + 2)
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assert_equal(Complex(3.0,2), c + 2.0)
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assert_equal(Complex(Rational(3,1),Rational(2)), c + Rational(2))
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assert_equal(Complex(Rational(5,3),Rational(2)), c + Rational(2,3))
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end
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def test_sub
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c = Complex(1,2)
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c2 = Complex(2,3)
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assert_equal(Complex(-1,-1), c - c2)
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assert_equal(Complex(-1,2), c - 2)
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assert_equal(Complex(-1.0,2), c - 2.0)
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assert_equal(Complex(Rational(-1,1),Rational(2)), c - Rational(2))
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assert_equal(Complex(Rational(1,3),Rational(2)), c - Rational(2,3))
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end
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def test_mul
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c = Complex(1,2)
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c2 = Complex(2,3)
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assert_equal(Complex(-4,7), c * c2)
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assert_equal(Complex(2,4), c * 2)
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assert_equal(Complex(2.0,4.0), c * 2.0)
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assert_equal(Complex(Rational(2,1),Rational(4)), c * Rational(2))
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assert_equal(Complex(Rational(2,3),Rational(4,3)), c * Rational(2,3))
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c = Complex(Float::INFINITY, 0)
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assert_equal(Complex(Float::INFINITY, 0), c * Complex(1, 0))
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assert_equal(Complex(0, Float::INFINITY), c * Complex(0, 1))
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c = Complex(0, Float::INFINITY)
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assert_equal(Complex(0, Float::INFINITY), c * Complex(1, 0))
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assert_equal(Complex(-Float::INFINITY, 0), c * Complex(0, 1))
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end
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def test_div
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c = Complex(1,2)
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c2 = Complex(2,3)
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assert_equal(Complex(Rational(8,13),Rational(1,13)), c / c2)
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c = Complex(1.0,2.0)
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c2 = Complex(2.0,3.0)
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r = c / c2
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assert_in_delta(0.615, r.real, 0.001)
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assert_in_delta(0.076, r.imag, 0.001)
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c = Complex(1,2)
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c2 = Complex(2,3)
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assert_equal(Complex(Rational(1,2),1), c / 2)
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assert_equal(Complex(0.5,1.0), c / 2.0)
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assert_equal(Complex(Rational(1,2),Rational(1)), c / Rational(2))
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assert_equal(Complex(Rational(3,2),Rational(3)), c / Rational(2,3))
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c = Complex(1)
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r = c / c
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assert_instance_of(Complex, r)
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assert_equal(1, r)
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assert_predicate(r.real, :integer?)
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assert_predicate(r.imag, :integer?)
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end
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def test_quo
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c = Complex(1,2)
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c2 = Complex(2,3)
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assert_equal(Complex(Rational(8,13),Rational(1,13)), c.quo(c2))
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c = Complex(1.0,2.0)
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c2 = Complex(2.0,3.0)
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r = c.quo(c2)
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assert_in_delta(0.615, r.real, 0.001)
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assert_in_delta(0.076, r.imag, 0.001)
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c = Complex(1,2)
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c2 = Complex(2,3)
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assert_equal(Complex(Rational(1,2),1), c.quo(2))
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assert_equal(Complex(0.5,1.0), c.quo(2.0))
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assert_equal(Complex(Rational(1,2),Rational(1)), c / Rational(2))
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assert_equal(Complex(Rational(3,2),Rational(3)), c / Rational(2,3))
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end
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def test_fdiv
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c = Complex(1,2)
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c2 = Complex(2,3)
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r = c.fdiv(c2)
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assert_in_delta(0.615, r.real, 0.001)
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assert_in_delta(0.076, r.imag, 0.001)
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c = Complex(1.0,2.0)
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c2 = Complex(2.0,3.0)
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r = c.fdiv(c2)
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assert_in_delta(0.615, r.real, 0.001)
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assert_in_delta(0.076, r.imag, 0.001)
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c = Complex(1,2)
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c2 = Complex(2,3)
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assert_equal(Complex(0.5,1.0), c.fdiv(2))
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assert_equal(Complex(0.5,1.0), c.fdiv(2.0))
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end
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def test_expt
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c = Complex(1,2)
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c2 = Complex(2,3)
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r = c ** c2
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assert_in_delta(-0.015, r.real, 0.001)
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assert_in_delta(-0.179, r.imag, 0.001)
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assert_equal(Complex(-3,4), c ** 2)
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assert_equal(Complex(Rational(-3,25),Rational(-4,25)), c ** -2)
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r = c ** 2.0
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assert_in_delta(-3.0, r.real, 0.001)
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assert_in_delta(4.0, r.imag, 0.001)
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r = c ** -2.0
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assert_in_delta(-0.12, r.real, 0.001)
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assert_in_delta(-0.16, r.imag, 0.001)
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assert_equal(Complex(-3,4), c ** Rational(2))
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assert_equal(Complex(Rational(-3,25),Rational(-4,25)),
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c ** Rational(-2)) # why failed?
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r = c ** Rational(2,3)
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assert_in_delta(1.264, r.real, 0.001)
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assert_in_delta(1.150, r.imag, 0.001)
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r = c ** Rational(-2,3)
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assert_in_delta(0.432, r.real, 0.001)
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assert_in_delta(-0.393, r.imag, 0.001)
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end
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def test_cmp
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assert_raise(NoMethodError){1 <=> Complex(1,1)}
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assert_raise(NoMethodError){Complex(1,1) <=> 1}
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assert_raise(NoMethodError){Complex(1,1) <=> Complex(1,1)}
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end
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def test_eqeq
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assert_equal(Complex(1), Complex(1,0))
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assert_equal(Complex(-1), Complex(-1,0))
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assert_not_equal(Complex(1), Complex(2,1))
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assert_operator(Complex(2,1), :!=, Complex(1))
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assert_not_equal(nil, Complex(1))
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assert_not_equal('', Complex(1))
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nan = 0.0 / 0
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if nan.nan? && nan != nan
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assert_not_equal(Complex(nan, 0), Complex(nan, 0))
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assert_not_equal(Complex(0, nan), Complex(0, nan))
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assert_not_equal(Complex(nan, nan), Complex(nan, nan))
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end
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end
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def test_coerce
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assert_equal([Complex(2),Complex(1)], Complex(1).coerce(2))
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assert_equal([Complex(2.2),Complex(1)], Complex(1).coerce(2.2))
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assert_equal([Complex(Rational(2)),Complex(1)],
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Complex(1).coerce(Rational(2)))
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assert_equal([Complex(2),Complex(1)], Complex(1).coerce(Complex(2)))
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obj = eval("class C\u{1f5ff}; self; end").new
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assert_raise_with_message(TypeError, /C\u{1f5ff}/) { Complex(1).coerce(obj) }
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end
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class ObjectX
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def +(x) Rational(1) end
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alias - +
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alias * +
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alias / +
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alias quo +
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alias ** +
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def coerce(x) [x, Complex(1)] end
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end
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def test_coerce2
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x = ObjectX.new
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%w(+ - * / quo **).each do |op|
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assert_kind_of(Numeric, Complex(1).__send__(op, x))
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end
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end
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def test_math
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c = Complex(1,2)
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assert_in_delta(2.236, c.abs, 0.001)
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assert_in_delta(2.236, c.magnitude, 0.001)
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assert_equal(5, c.abs2)
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assert_equal(c.abs, Math.sqrt(c * c.conj))
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assert_equal(c.abs, Math.sqrt(c.real**2 + c.imag**2))
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assert_equal(c.abs2, c * c.conj)
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assert_equal(c.abs2, c.real**2 + c.imag**2)
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assert_in_delta(1.107, c.arg, 0.001)
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assert_in_delta(1.107, c.angle, 0.001)
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assert_in_delta(1.107, c.phase, 0.001)
|
|
|
|
r = c.polar
|
|
assert_in_delta(2.236, r[0], 0.001)
|
|
assert_in_delta(1.107, r[1], 0.001)
|
|
assert_equal(Complex(1,-2), c.conjugate)
|
|
assert_equal(Complex(1,-2), c.conj)
|
|
|
|
assert_equal(Complex(1,2), c.numerator)
|
|
assert_equal(1, c.denominator)
|
|
end
|
|
|
|
def test_to_s
|
|
c = Complex(1,2)
|
|
|
|
assert_instance_of(String, c.to_s)
|
|
assert_equal('1+2i', c.to_s)
|
|
|
|
assert_equal('0+2i', Complex(0,2).to_s)
|
|
assert_equal('0-2i', Complex(0,-2).to_s)
|
|
assert_equal('1+2i', Complex(1,2).to_s)
|
|
assert_equal('-1+2i', Complex(-1,2).to_s)
|
|
assert_equal('-1-2i', Complex(-1,-2).to_s)
|
|
assert_equal('1-2i', Complex(1,-2).to_s)
|
|
assert_equal('-1-2i', Complex(-1,-2).to_s)
|
|
|
|
assert_equal('0+2.0i', Complex(0,2.0).to_s)
|
|
assert_equal('0-2.0i', Complex(0,-2.0).to_s)
|
|
assert_equal('1.0+2.0i', Complex(1.0,2.0).to_s)
|
|
assert_equal('-1.0+2.0i', Complex(-1.0,2.0).to_s)
|
|
assert_equal('-1.0-2.0i', Complex(-1.0,-2.0).to_s)
|
|
assert_equal('1.0-2.0i', Complex(1.0,-2.0).to_s)
|
|
assert_equal('-1.0-2.0i', Complex(-1.0,-2.0).to_s)
|
|
|
|
assert_equal('0+2/1i', Complex(0,Rational(2)).to_s)
|
|
assert_equal('0-2/1i', Complex(0,Rational(-2)).to_s)
|
|
assert_equal('1+2/1i', Complex(1,Rational(2)).to_s)
|
|
assert_equal('-1+2/1i', Complex(-1,Rational(2)).to_s)
|
|
assert_equal('-1-2/1i', Complex(-1,Rational(-2)).to_s)
|
|
assert_equal('1-2/1i', Complex(1,Rational(-2)).to_s)
|
|
assert_equal('-1-2/1i', Complex(-1,Rational(-2)).to_s)
|
|
|
|
assert_equal('0+2/3i', Complex(0,Rational(2,3)).to_s)
|
|
assert_equal('0-2/3i', Complex(0,Rational(-2,3)).to_s)
|
|
assert_equal('1+2/3i', Complex(1,Rational(2,3)).to_s)
|
|
assert_equal('-1+2/3i', Complex(-1,Rational(2,3)).to_s)
|
|
assert_equal('-1-2/3i', Complex(-1,Rational(-2,3)).to_s)
|
|
assert_equal('1-2/3i', Complex(1,Rational(-2,3)).to_s)
|
|
assert_equal('-1-2/3i', Complex(-1,Rational(-2,3)).to_s)
|
|
|
|
nan = 0.0 / 0
|
|
inf = 1.0 / 0
|
|
if nan.nan?
|
|
assert_equal('NaN+NaN*i', Complex(nan,nan).to_s)
|
|
end
|
|
if inf.infinite?
|
|
assert_equal('Infinity+Infinity*i', Complex(inf,inf).to_s)
|
|
assert_equal('Infinity-Infinity*i', Complex(inf,-inf).to_s)
|
|
end
|
|
end
|
|
|
|
def test_inspect
|
|
c = Complex(1,2)
|
|
|
|
assert_instance_of(String, c.inspect)
|
|
assert_equal('(1+2i)', c.inspect)
|
|
end
|
|
|
|
def test_marshal
|
|
c = Complex(1,2)
|
|
|
|
s = Marshal.dump(c)
|
|
c2 = Marshal.load(s)
|
|
assert_equal(c, c2)
|
|
assert_instance_of(Complex, c2)
|
|
|
|
c = Complex(Rational(1,2),Rational(2,3))
|
|
|
|
s = Marshal.dump(c)
|
|
c2 = Marshal.load(s)
|
|
assert_equal(c, c2)
|
|
assert_instance_of(Complex, c2)
|
|
|
|
bug3656 = '[ruby-core:31622]'
|
|
c = Complex(1,2)
|
|
assert_predicate(c, :frozen?)
|
|
result = c.marshal_load([2,3]) rescue :fail
|
|
assert_equal(:fail, result, bug3656)
|
|
assert_equal(Complex(1,2), c)
|
|
end
|
|
|
|
def test_marshal_compatibility
|
|
bug6625 = '[ruby-core:45775]'
|
|
dump = "\x04\x08o:\x0cComplex\x07:\x0a@reali\x06:\x0b@imagei\x07"
|
|
assert_nothing_raised(bug6625) do
|
|
assert_equal(Complex(1, 2), Marshal.load(dump), bug6625)
|
|
end
|
|
end
|
|
|
|
def test_parse
|
|
assert_equal(Complex(5), '5'.to_c)
|
|
assert_equal(Complex(-5), '-5'.to_c)
|
|
assert_equal(Complex(5,3), '5+3i'.to_c)
|
|
assert_equal(Complex(-5,3), '-5+3i'.to_c)
|
|
assert_equal(Complex(5,-3), '5-3i'.to_c)
|
|
assert_equal(Complex(-5,-3), '-5-3i'.to_c)
|
|
assert_equal(Complex(0,3), '3i'.to_c)
|
|
assert_equal(Complex(0,-3), '-3i'.to_c)
|
|
assert_equal(Complex(5,1), '5+i'.to_c)
|
|
assert_equal(Complex(0,1), 'i'.to_c)
|
|
assert_equal(Complex(0,1), '+i'.to_c)
|
|
assert_equal(Complex(0,-1), '-i'.to_c)
|
|
|
|
assert_equal(Complex(5,3), '5+3I'.to_c)
|
|
assert_equal(Complex(5,3), '5+3j'.to_c)
|
|
assert_equal(Complex(5,3), '5+3J'.to_c)
|
|
assert_equal(Complex(0,3), '3I'.to_c)
|
|
assert_equal(Complex(0,3), '3j'.to_c)
|
|
assert_equal(Complex(0,3), '3J'.to_c)
|
|
assert_equal(Complex(0,1), 'I'.to_c)
|
|
assert_equal(Complex(0,1), 'J'.to_c)
|
|
|
|
assert_equal(Complex(5.0), '5.0'.to_c)
|
|
assert_equal(Complex(-5.0), '-5.0'.to_c)
|
|
assert_equal(Complex(5.0,3.0), '5.0+3.0i'.to_c)
|
|
assert_equal(Complex(-5.0,3.0), '-5.0+3.0i'.to_c)
|
|
assert_equal(Complex(5.0,-3.0), '5.0-3.0i'.to_c)
|
|
assert_equal(Complex(-5.0,-3.0), '-5.0-3.0i'.to_c)
|
|
assert_equal(Complex(0.0,3.0), '3.0i'.to_c)
|
|
assert_equal(Complex(0.0,-3.0), '-3.0i'.to_c)
|
|
|
|
assert_equal(Complex(5.1), '5.1'.to_c)
|
|
assert_equal(Complex(-5.2), '-5.2'.to_c)
|
|
assert_equal(Complex(5.3,3.4), '5.3+3.4i'.to_c)
|
|
assert_equal(Complex(-5.5,3.6), '-5.5+3.6i'.to_c)
|
|
assert_equal(Complex(5.3,-3.4), '5.3-3.4i'.to_c)
|
|
assert_equal(Complex(-5.5,-3.6), '-5.5-3.6i'.to_c)
|
|
assert_equal(Complex(0.0,3.1), '3.1i'.to_c)
|
|
assert_equal(Complex(0.0,-3.2), '-3.2i'.to_c)
|
|
|
|
assert_equal(Complex(5.0), '5e0'.to_c)
|
|
assert_equal(Complex(-5.0), '-5e0'.to_c)
|
|
assert_equal(Complex(5.0,3.0), '5e0+3e0i'.to_c)
|
|
assert_equal(Complex(-5.0,3.0), '-5e0+3e0i'.to_c)
|
|
assert_equal(Complex(5.0,-3.0), '5e0-3e0i'.to_c)
|
|
assert_equal(Complex(-5.0,-3.0), '-5e0-3e0i'.to_c)
|
|
assert_equal(Complex(0.0,3.0), '3e0i'.to_c)
|
|
assert_equal(Complex(0.0,-3.0), '-3e0i'.to_c)
|
|
|
|
assert_equal(Complex(5e1), '5e1'.to_c)
|
|
assert_equal(Complex(-5e2), '-5e2'.to_c)
|
|
assert_equal(Complex(5e3,3e4), '5e003+3e4i'.to_c)
|
|
assert_equal(Complex(-5e5,3e6), '-5e5+3e006i'.to_c)
|
|
assert_equal(Complex(5e3,-3e4), '5e003-3e4i'.to_c)
|
|
assert_equal(Complex(-5e5,-3e6), '-5e5-3e006i'.to_c)
|
|
assert_equal(Complex(0.0,3e1), '3e1i'.to_c)
|
|
assert_equal(Complex(0.0,-3e2), '-3e2i'.to_c)
|
|
|
|
assert_equal(Complex(0.33), '.33'.to_c)
|
|
assert_equal(Complex(0.33), '0.33'.to_c)
|
|
assert_equal(Complex(-0.33), '-.33'.to_c)
|
|
assert_equal(Complex(-0.33), '-0.33'.to_c)
|
|
assert_equal(Complex(-0.33), '-0.3_3'.to_c)
|
|
|
|
assert_equal(Complex.polar(10,10), '10@10'.to_c)
|
|
assert_equal(Complex.polar(-10,-10), '-10@-10'.to_c)
|
|
assert_equal(Complex.polar(10.5,10.5), '10.5@10.5'.to_c)
|
|
assert_equal(Complex.polar(-10.5,-10.5), '-10.5@-10.5'.to_c)
|
|
|
|
assert_equal(Complex(5), Complex('5'))
|
|
assert_equal(Complex(-5), Complex('-5'))
|
|
assert_equal(Complex(5,3), Complex('5+3i'))
|
|
assert_equal(Complex(-5,3), Complex('-5+3i'))
|
|
assert_equal(Complex(5,-3), Complex('5-3i'))
|
|
assert_equal(Complex(-5,-3), Complex('-5-3i'))
|
|
assert_equal(Complex(0,3), Complex('3i'))
|
|
assert_equal(Complex(0,-3), Complex('-3i'))
|
|
assert_equal(Complex(5,1), Complex('5+i'))
|
|
assert_equal(Complex(0,1), Complex('i'))
|
|
assert_equal(Complex(0,1), Complex('+i'))
|
|
assert_equal(Complex(0,-1), Complex('-i'))
|
|
|
|
assert_equal(Complex(5,3), Complex('5+3I'))
|
|
assert_equal(Complex(5,3), Complex('5+3j'))
|
|
assert_equal(Complex(5,3), Complex('5+3J'))
|
|
assert_equal(Complex(0,3), Complex('3I'))
|
|
assert_equal(Complex(0,3), Complex('3j'))
|
|
assert_equal(Complex(0,3), Complex('3J'))
|
|
assert_equal(Complex(0,1), Complex('I'))
|
|
assert_equal(Complex(0,1), Complex('J'))
|
|
|
|
assert_equal(Complex(5.0), Complex('5.0'))
|
|
assert_equal(Complex(-5.0), Complex('-5.0'))
|
|
assert_equal(Complex(5.0,3.0), Complex('5.0+3.0i'))
|
|
assert_equal(Complex(-5.0,3.0), Complex('-5.0+3.0i'))
|
|
assert_equal(Complex(5.0,-3.0), Complex('5.0-3.0i'))
|
|
assert_equal(Complex(-5.0,-3.0), Complex('-5.0-3.0i'))
|
|
assert_equal(Complex(0.0,3.0), Complex('3.0i'))
|
|
assert_equal(Complex(0.0,-3.0), Complex('-3.0i'))
|
|
|
|
assert_equal(Complex(5.1), Complex('5.1'))
|
|
assert_equal(Complex(-5.2), Complex('-5.2'))
|
|
assert_equal(Complex(5.3,3.4), Complex('5.3+3.4i'))
|
|
assert_equal(Complex(-5.5,3.6), Complex('-5.5+3.6i'))
|
|
assert_equal(Complex(5.3,-3.4), Complex('5.3-3.4i'))
|
|
assert_equal(Complex(-5.5,-3.6), Complex('-5.5-3.6i'))
|
|
assert_equal(Complex(0.0,3.1), Complex('3.1i'))
|
|
assert_equal(Complex(0.0,-3.2), Complex('-3.2i'))
|
|
|
|
assert_equal(Complex(5.0), Complex('5e0'))
|
|
assert_equal(Complex(-5.0), Complex('-5e0'))
|
|
assert_equal(Complex(5.0,3.0), Complex('5e0+3e0i'))
|
|
assert_equal(Complex(-5.0,3.0), Complex('-5e0+3e0i'))
|
|
assert_equal(Complex(5.0,-3.0), Complex('5e0-3e0i'))
|
|
assert_equal(Complex(-5.0,-3.0), Complex('-5e0-3e0i'))
|
|
assert_equal(Complex(0.0,3.0), Complex('3e0i'))
|
|
assert_equal(Complex(0.0,-3.0), Complex('-3e0i'))
|
|
|
|
assert_equal(Complex(5e1), Complex('5e1'))
|
|
assert_equal(Complex(-5e2), Complex('-5e2'))
|
|
assert_equal(Complex(5e3,3e4), Complex('5e003+3e4i'))
|
|
assert_equal(Complex(-5e5,3e6), Complex('-5e5+3e006i'))
|
|
assert_equal(Complex(5e3,-3e4), Complex('5e003-3e4i'))
|
|
assert_equal(Complex(-5e5,-3e6), Complex('-5e5-3e006i'))
|
|
assert_equal(Complex(0.0,3e1), Complex('3e1i'))
|
|
assert_equal(Complex(0.0,-3e2), Complex('-3e2i'))
|
|
|
|
assert_equal(Complex(0.33), Complex('.33'))
|
|
assert_equal(Complex(0.33), Complex('0.33'))
|
|
assert_equal(Complex(-0.33), Complex('-.33'))
|
|
assert_equal(Complex(-0.33), Complex('-0.33'))
|
|
assert_equal(Complex(-0.33), Complex('-0.3_3'))
|
|
|
|
assert_equal(Complex.polar(10,10), Complex('10@10'))
|
|
assert_equal(Complex.polar(-10,-10), Complex('-10@-10'))
|
|
assert_equal(Complex.polar(10.5,10.5), Complex('10.5@10.5'))
|
|
assert_equal(Complex.polar(-10.5,-10.5), Complex('-10.5@-10.5'))
|
|
|
|
assert_equal(Complex(0), ''.to_c)
|
|
assert_equal(Complex(0), ' '.to_c)
|
|
assert_equal(Complex(5), "\f\n\r\t\v5\0".to_c)
|
|
assert_equal(Complex(0), '_'.to_c)
|
|
assert_equal(Complex(0), '_5'.to_c)
|
|
assert_equal(Complex(5), '5_'.to_c)
|
|
assert_equal(Complex(5), '5x'.to_c)
|
|
assert_equal(Complex(5), '5+_3i'.to_c)
|
|
assert_equal(Complex(5), '5+3_i'.to_c)
|
|
assert_equal(Complex(5,3), '5+3i_'.to_c)
|
|
assert_equal(Complex(5,3), '5+3ix'.to_c)
|
|
assert_raise(ArgumentError){ Complex('')}
|
|
assert_raise(ArgumentError){ Complex('_')}
|
|
assert_raise(ArgumentError){ Complex("\f\n\r\t\v5\0")}
|
|
assert_raise(ArgumentError){ Complex('_5')}
|
|
assert_raise(ArgumentError){ Complex('5_')}
|
|
assert_raise(ArgumentError){ Complex('5x')}
|
|
assert_raise(ArgumentError){ Complex('5+_3i')}
|
|
assert_raise(ArgumentError){ Complex('5+3_i')}
|
|
assert_raise(ArgumentError){ Complex('5+3i_')}
|
|
assert_raise(ArgumentError){ Complex('5+3ix')}
|
|
|
|
assert_equal(Complex(Rational(1,5)), '1/5'.to_c)
|
|
assert_equal(Complex(Rational(-1,5)), '-1/5'.to_c)
|
|
assert_equal(Complex(Rational(1,5),3), '1/5+3i'.to_c)
|
|
assert_equal(Complex(Rational(1,5),-3), '1/5-3i'.to_c)
|
|
assert_equal(Complex(Rational(-1,5),3), '-1/5+3i'.to_c)
|
|
assert_equal(Complex(Rational(-1,5),-3), '-1/5-3i'.to_c)
|
|
assert_equal(Complex(Rational(1,5),Rational(3,2)), '1/5+3/2i'.to_c)
|
|
assert_equal(Complex(Rational(1,5),Rational(-3,2)), '1/5-3/2i'.to_c)
|
|
assert_equal(Complex(Rational(-1,5),Rational(3,2)), '-1/5+3/2i'.to_c)
|
|
assert_equal(Complex(Rational(-1,5),Rational(-3,2)), '-1/5-3/2i'.to_c)
|
|
assert_equal(Complex(Rational(1,5),Rational(3,2)), '1/5+3/2i'.to_c)
|
|
assert_equal(Complex(Rational(1,5),Rational(-3,2)), '1/5-3/2i'.to_c)
|
|
assert_equal(Complex(Rational(-1,5),Rational(3,2)), '-1/5+3/2i'.to_c)
|
|
assert_equal(Complex(Rational(-1,5),Rational(-3,2)), '-1/5-3/2i'.to_c)
|
|
assert_equal(Complex.polar(Rational(1,5),Rational(3,2)), Complex('1/5@3/2'))
|
|
assert_equal(Complex.polar(Rational(-1,5),Rational(-3,2)), Complex('-1/5@-3/2'))
|
|
|
|
end
|
|
|
|
def test_Complex_without_exception
|
|
assert_nothing_raised(ArgumentError){
|
|
assert_equal(nil, Complex('5x', exception: false))
|
|
}
|
|
assert_nothing_raised(ArgumentError){
|
|
assert_equal(nil, Complex(Object.new, exception: false))
|
|
}
|
|
assert_nothing_raised(ArgumentError){
|
|
assert_equal(nil, Complex(1, Object.new, exception: false))
|
|
}
|
|
|
|
o = Object.new
|
|
def o.to_c; raise; end
|
|
assert_nothing_raised(ArgumentError){
|
|
assert_equal(nil, Complex(o, exception: false))
|
|
}
|
|
assert_nothing_raised(ArgumentError){
|
|
assert_equal(nil, Complex(1, o, exception: false))
|
|
}
|
|
end
|
|
|
|
def test_respond
|
|
c = Complex(1,1)
|
|
assert_not_respond_to(c, :%)
|
|
assert_not_respond_to(c, :<=>)
|
|
assert_not_respond_to(c, :div)
|
|
assert_not_respond_to(c, :divmod)
|
|
assert_not_respond_to(c, :floor)
|
|
assert_not_respond_to(c, :ceil)
|
|
assert_not_respond_to(c, :modulo)
|
|
assert_not_respond_to(c, :remainder)
|
|
assert_not_respond_to(c, :round)
|
|
assert_not_respond_to(c, :step)
|
|
assert_not_respond_to(c, :tunrcate)
|
|
|
|
assert_not_respond_to(c, :positive?)
|
|
assert_not_respond_to(c, :negative?)
|
|
assert_not_respond_to(c, :sign)
|
|
|
|
assert_not_respond_to(c, :quotient)
|
|
assert_not_respond_to(c, :quot)
|
|
assert_not_respond_to(c, :quotrem)
|
|
|
|
assert_not_respond_to(c, :gcd)
|
|
assert_not_respond_to(c, :lcm)
|
|
assert_not_respond_to(c, :gcdlcm)
|
|
|
|
(Comparable.instance_methods(false) - Complex.instance_methods(false)).each do |n|
|
|
assert_not_respond_to(c, n, "Complex##{n}")
|
|
end
|
|
end
|
|
|
|
def test_to_i
|
|
assert_equal(3, Complex(3).to_i)
|
|
assert_equal(3, Integer(Complex(3)))
|
|
assert_raise(RangeError){Complex(3,2).to_i}
|
|
assert_raise(RangeError){Integer(Complex(3,2))}
|
|
end
|
|
|
|
def test_to_f
|
|
assert_equal(3.0, Complex(3).to_f)
|
|
assert_equal(3.0, Float(Complex(3)))
|
|
assert_raise(RangeError){Complex(3,2).to_f}
|
|
assert_raise(RangeError){Float(Complex(3,2))}
|
|
end
|
|
|
|
def test_to_r
|
|
assert_equal(Rational(3), Complex(3).to_r)
|
|
assert_equal(Rational(3), Rational(Complex(3)))
|
|
assert_raise(RangeError){Complex(3,2).to_r}
|
|
assert_raise(RangeError){Rational(Complex(3,2))}
|
|
end
|
|
|
|
def test_to_c
|
|
c = nil.to_c
|
|
assert_equal([0,0], [c.real, c.imag])
|
|
|
|
c = 0.to_c
|
|
assert_equal([0,0], [c.real, c.imag])
|
|
|
|
c = 1.to_c
|
|
assert_equal([1,0], [c.real, c.imag])
|
|
|
|
c = 1.1.to_c
|
|
assert_equal([1.1, 0], [c.real, c.imag])
|
|
|
|
c = Rational(1,2).to_c
|
|
assert_equal([Rational(1,2), 0], [c.real, c.imag])
|
|
|
|
c = Complex(1,2).to_c
|
|
assert_equal([1, 2], [c.real, c.imag])
|
|
|
|
if (0.0/0).nan?
|
|
assert_nothing_raised{(0.0/0).to_c}
|
|
end
|
|
if (1.0/0).infinite?
|
|
assert_nothing_raised{(1.0/0).to_c}
|
|
end
|
|
end
|
|
|
|
def test_finite_p
|
|
assert_predicate(1+1i, :finite?)
|
|
assert_predicate(1-1i, :finite?)
|
|
assert_predicate(-1+1i, :finite?)
|
|
assert_predicate(-1-1i, :finite?)
|
|
assert_not_predicate(Float::INFINITY + 1i, :finite?)
|
|
assert_not_predicate(Complex(1, Float::INFINITY), :finite?)
|
|
assert_predicate(Complex(Float::MAX, 0.0), :finite?)
|
|
assert_predicate(Complex(0.0, Float::MAX), :finite?)
|
|
assert_predicate(Complex(Float::MAX, Float::MAX), :finite?)
|
|
assert_not_predicate(Complex(Float::NAN, 0), :finite?)
|
|
assert_not_predicate(Complex(0, Float::NAN), :finite?)
|
|
assert_not_predicate(Complex(Float::NAN, Float::NAN), :finite?)
|
|
end
|
|
|
|
def test_infinite_p
|
|
assert_nil((1+1i).infinite?)
|
|
assert_nil((1-1i).infinite?)
|
|
assert_nil((-1+1i).infinite?)
|
|
assert_nil((-1-1i).infinite?)
|
|
assert_equal(1, (Float::INFINITY + 1i).infinite?)
|
|
assert_equal(1, (Float::INFINITY - 1i).infinite?)
|
|
assert_equal(1, (-Float::INFINITY + 1i).infinite?)
|
|
assert_equal(1, (-Float::INFINITY - 1i).infinite?)
|
|
assert_equal(1, Complex(1, Float::INFINITY).infinite?)
|
|
assert_equal(1, Complex(-1, Float::INFINITY).infinite?)
|
|
assert_equal(1, Complex(1, -Float::INFINITY).infinite?)
|
|
assert_equal(1, Complex(-1, -Float::INFINITY).infinite?)
|
|
assert_nil(Complex(Float::MAX, 0.0).infinite?)
|
|
assert_nil(Complex(0.0, Float::MAX).infinite?)
|
|
assert_nil(Complex(Float::MAX, Float::MAX).infinite?)
|
|
assert_nil(Complex(Float::NAN, 0).infinite?)
|
|
assert_nil(Complex(0, Float::NAN).infinite?)
|
|
assert_nil(Complex(Float::NAN, Float::NAN).infinite?)
|
|
end
|
|
|
|
def test_supp
|
|
assert_predicate(1, :real?)
|
|
assert_predicate(1.1, :real?)
|
|
|
|
assert_equal(1, 1.real)
|
|
assert_equal(0, 1.imag)
|
|
assert_equal(0, 1.imaginary)
|
|
|
|
assert_equal(1.1, 1.1.real)
|
|
assert_equal(0, 1.1.imag)
|
|
assert_equal(0, 1.1.imaginary)
|
|
|
|
assert_equal(1, 1.magnitude)
|
|
assert_equal(1, -1.magnitude)
|
|
assert_equal(1, 1.0.magnitude)
|
|
assert_equal(1, -1.0.magnitude)
|
|
|
|
assert_equal(4, 2.abs2)
|
|
assert_equal(4, -2.abs2)
|
|
assert_equal(4.0, 2.0.abs2)
|
|
assert_equal(4.0, -2.0.abs2)
|
|
|
|
assert_equal(0, 1.arg)
|
|
assert_equal(0, 1.angle)
|
|
assert_equal(0, 1.phase)
|
|
|
|
assert_equal(0, 1.0.arg)
|
|
assert_equal(0, 1.0.angle)
|
|
assert_equal(0, 1.0.phase)
|
|
|
|
if (0.0/0).nan?
|
|
nan = 0.0/0
|
|
assert_same(nan, nan.arg)
|
|
assert_same(nan, nan.angle)
|
|
assert_same(nan, nan.phase)
|
|
end
|
|
|
|
assert_equal(Math::PI, -1.arg)
|
|
assert_equal(Math::PI, -1.angle)
|
|
assert_equal(Math::PI, -1.phase)
|
|
|
|
assert_equal(Math::PI, -1.0.arg)
|
|
assert_equal(Math::PI, -1.0.angle)
|
|
assert_equal(Math::PI, -1.0.phase)
|
|
|
|
assert_equal([1,0], 1.rect)
|
|
assert_equal([-1,0], -1.rect)
|
|
assert_equal([1,0], 1.rectangular)
|
|
assert_equal([-1,0], -1.rectangular)
|
|
|
|
assert_equal([1.0,0], 1.0.rect)
|
|
assert_equal([-1.0,0], -1.0.rect)
|
|
assert_equal([1.0,0], 1.0.rectangular)
|
|
assert_equal([-1.0,0], -1.0.rectangular)
|
|
|
|
assert_equal([1,0], 1.polar)
|
|
assert_equal([1, Math::PI], -1.polar)
|
|
|
|
assert_equal([1.0,0], 1.0.polar)
|
|
assert_equal([1.0, Math::PI], -1.0.polar)
|
|
|
|
assert_equal(1, 1.conjugate)
|
|
assert_equal(-1, -1.conjugate)
|
|
assert_equal(1, 1.conj)
|
|
assert_equal(-1, -1.conj)
|
|
|
|
assert_equal(1.1, 1.1.conjugate)
|
|
assert_equal(-1.1, -1.1.conjugate)
|
|
assert_equal(1.1, 1.1.conj)
|
|
assert_equal(-1.1, -1.1.conj)
|
|
|
|
assert_equal(Complex(Rational(1,2),Rational(1)), Complex(1,2).quo(2))
|
|
|
|
assert_equal(0.5, 1.fdiv(2))
|
|
assert_equal(5000000000.0, 10000000000.fdiv(2))
|
|
assert_equal(0.5, 1.0.fdiv(2))
|
|
assert_equal(0.25, Rational(1,2).fdiv(2))
|
|
assert_equal(Complex(0.5,1.0), Complex(1,2).quo(2))
|
|
end
|
|
|
|
def test_ruby19
|
|
assert_raise(NoMethodError){ Complex.new(1) }
|
|
assert_raise(NoMethodError){ Complex.new!(1) }
|
|
assert_raise(NoMethodError){ Complex.reduce(1) }
|
|
end
|
|
|
|
def test_fixed_bug
|
|
assert_equal(Complex(1), 1 ** Complex(1))
|
|
assert_equal('-1.0-0.0i', Complex(-1.0, -0.0).to_s)
|
|
assert_in_delta(Math::PI, Complex(-0.0).arg, 0.001)
|
|
assert_equal(Complex(2e3, 2e4), '2e3+2e4i'.to_c)
|
|
assert_raise(ArgumentError){ Complex('--8i')}
|
|
end
|
|
|
|
def test_known_bug
|
|
end
|
|
|
|
def test_canonicalize_internal
|
|
obj = Class.new(Numeric) do
|
|
attr_accessor :real
|
|
alias real? real
|
|
end.new
|
|
obj.real = true
|
|
c = Complex.rect(obj, 1);
|
|
obj.real = false
|
|
c = c.conj
|
|
assert_equal(obj, c.real)
|
|
assert_equal(-1, c.imag)
|
|
end
|
|
|
|
def test_canonicalize_polar
|
|
obj = Class.new(Numeric) do
|
|
def initialize
|
|
@x = 2
|
|
end
|
|
def real?
|
|
(@x -= 1) > 0
|
|
end
|
|
end.new
|
|
assert_raise(TypeError) do
|
|
Complex.polar(1, obj)
|
|
end
|
|
end
|
|
end
|