mirror of
https://github.com/ruby/ruby.git
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9b66922d7f
git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@31158 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
496 lines
13 KiB
Ruby
496 lines
13 KiB
Ruby
require 'test/unit'
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require_relative 'envutil'
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class TestFloat < Test::Unit::TestCase
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include EnvUtil
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def test_float
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assert_equal(2, 2.6.floor)
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assert_equal(-3, (-2.6).floor)
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assert_equal(3, 2.6.ceil)
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assert_equal(-2, (-2.6).ceil)
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assert_equal(2, 2.6.truncate)
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assert_equal(-2, (-2.6).truncate)
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assert_equal(3, 2.6.round)
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assert_equal(-2, (-2.4).truncate)
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assert((13.4 % 1 - 0.4).abs < 0.0001)
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assert_equal(36893488147419111424,
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36893488147419107329.0.to_i)
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end
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def nan_test(x,y)
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extend Test::Unit::Assertions
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assert(x != y)
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assert_equal(false, (x < y))
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assert_equal(false, (x > y))
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assert_equal(false, (x <= y))
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assert_equal(false, (x >= y))
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end
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def test_nan
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nan = Float::NAN
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nan_test(nan, nan)
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nan_test(nan, 0)
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nan_test(nan, 1)
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nan_test(nan, -1)
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nan_test(nan, 1000)
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nan_test(nan, -1000)
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nan_test(nan, 1_000_000_000_000)
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nan_test(nan, -1_000_000_000_000)
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nan_test(nan, 100.0);
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nan_test(nan, -100.0);
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nan_test(nan, 0.001);
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nan_test(nan, -0.001);
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nan_test(nan, 1.0/0);
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nan_test(nan, -1.0/0);
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end
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def test_precision
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u = 3.7517675036461267e+17
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v = sprintf("%.16e", u).to_f
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assert_in_delta(u, v, u.abs * Float::EPSILON)
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assert_in_delta(u, v, v.abs * Float::EPSILON)
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end
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def test_symmetry_bignum # [ruby-bugs-ja:118]
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a = 100000000000000000000000
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b = 100000000000000000000000.0
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assert_equal(a == b, b == a)
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end
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def test_strtod
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a = Float("0")
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assert(a.abs < Float::EPSILON)
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a = Float("0.0")
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assert(a.abs < Float::EPSILON)
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a = Float("+0.0")
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assert(a.abs < Float::EPSILON)
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a = Float("-0.0")
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assert(a.abs < Float::EPSILON)
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a = Float("0.0000000000000000001")
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assert(a != 0.0)
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a = Float("+0.0000000000000000001")
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assert(a != 0.0)
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a = Float("-0.0000000000000000001")
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assert(a != 0.0)
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a = Float(".0")
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assert(a.abs < Float::EPSILON)
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a = Float("+.0")
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assert(a.abs < Float::EPSILON)
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a = Float("-.0")
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assert(a.abs < Float::EPSILON)
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assert_raise(ArgumentError){Float("0.")}
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assert_raise(ArgumentError){Float("+0.")}
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assert_raise(ArgumentError){Float("-0.")}
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assert_raise(ArgumentError){Float(".")}
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assert_raise(ArgumentError){Float("+")}
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assert_raise(ArgumentError){Float("+.")}
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assert_raise(ArgumentError){Float("-")}
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assert_raise(ArgumentError){Float("-.")}
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assert_raise(ArgumentError){Float("1e")}
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assert_raise(ArgumentError){Float("1__1")}
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assert_raise(ArgumentError){Float("1.")}
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assert_raise(ArgumentError){Float("1.e+00")}
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assert_raise(ArgumentError){Float("0x1.p+0")}
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# add expected behaviour here.
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assert_equal(10, Float("1_0"))
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assert_equal([ 0.0].pack('G'), [Float(" 0x0p+0").to_f].pack('G'))
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assert_equal([-0.0].pack('G'), [Float("-0x0p+0").to_f].pack('G'))
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assert_equal(255.0, Float("0Xff"))
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assert_equal(1024.0, Float("0x1p10"))
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assert_equal(1024.0, Float("0x1p+10"))
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assert_equal(0.0009765625, Float("0x1p-10"))
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assert_equal(2.6881171418161356e+43, Float("0x1.3494a9b171bf5p+144"))
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assert_equal(-3.720075976020836e-44, Float("-0x1.a8c1f14e2af5dp-145"))
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assert_equal(31.0*2**1019, Float("0x0."+("0"*268)+"1fp2099"))
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assert_equal(31.0*2**1019, Float("0x0."+("0"*600)+"1fp3427"))
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assert_equal(-31.0*2**1019, Float("-0x0."+("0"*268)+"1fp2099"))
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assert_equal(-31.0*2**1019, Float("-0x0."+("0"*600)+"1fp3427"))
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assert_equal(31.0*2**-1027, Float("0x1f"+("0"*268)+".0p-2099"))
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assert_equal(31.0*2**-1027, Float("0x1f"+("0"*600)+".0p-3427"))
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assert_equal(-31.0*2**-1027, Float("-0x1f"+("0"*268)+".0p-2099"))
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assert_equal(-31.0*2**-1027, Float("-0x1f"+("0"*600)+".0p-3427"))
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end
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def test_divmod
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assert_equal([2, 3.5], 11.5.divmod(4))
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assert_equal([-3, -0.5], 11.5.divmod(-4))
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assert_equal([-3, 0.5], (-11.5).divmod(4))
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assert_equal([2, -3.5], (-11.5).divmod(-4))
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end
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def test_div
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assert_equal(2, 11.5.div(4))
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assert_equal(-3, 11.5.div(-4))
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assert_equal(-3, (-11.5).div(4))
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assert_equal(2, (-11.5).div(-4))
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end
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def test_modulo
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assert_equal(3.5, 11.5.modulo(4))
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assert_equal(-0.5, 11.5.modulo(-4))
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assert_equal(0.5, (-11.5).modulo(4))
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assert_equal(-3.5, (-11.5).modulo(-4))
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end
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def test_remainder
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assert_equal(3.5, 11.5.remainder(4))
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assert_equal(3.5, 11.5.remainder(-4))
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assert_equal(-3.5, (-11.5).remainder(4))
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assert_equal(-3.5, (-11.5).remainder(-4))
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end
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def test_to_s
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inf = Float::INFINITY
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assert_equal("Infinity", inf.to_s)
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assert_equal("-Infinity", (-inf).to_s)
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assert_equal("NaN", (inf / inf).to_s)
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assert_equal("1.0e+18", 1000_00000_00000_00000.0.to_s)
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bug3273 = '[ruby-core:30145]'
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[0.21611564636388508, 0.56].each do |f|
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s = f.to_s
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assert_equal(f, s.to_f, bug3273)
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assert_not_equal(f, s.chop.to_f, bug3273)
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end
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end
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def test_coerce
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assert_equal(Float, 1.0.coerce(1).first.class)
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end
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def test_plus
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assert_equal(4.0, 2.0.send(:+, 2))
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assert_equal(4.0, 2.0.send(:+, (2**32).coerce(2).first))
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assert_equal(4.0, 2.0.send(:+, 2.0))
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assert_raise(TypeError) { 2.0.send(:+, nil) }
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end
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def test_minus
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assert_equal(0.0, 2.0.send(:-, 2))
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assert_equal(0.0, 2.0.send(:-, (2**32).coerce(2).first))
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assert_equal(0.0, 2.0.send(:-, 2.0))
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assert_raise(TypeError) { 2.0.send(:-, nil) }
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end
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def test_mul
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assert_equal(4.0, 2.0.send(:*, 2))
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assert_equal(4.0, 2.0.send(:*, (2**32).coerce(2).first))
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assert_equal(4.0, 2.0.send(:*, 2.0))
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assert_raise(TypeError) { 2.0.send(:*, nil) }
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end
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def test_div2
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assert_equal(1.0, 2.0.send(:/, 2))
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assert_equal(1.0, 2.0.send(:/, (2**32).coerce(2).first))
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assert_equal(1.0, 2.0.send(:/, 2.0))
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assert_raise(TypeError) { 2.0.send(:/, nil) }
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end
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def test_modulo2
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assert_equal(0.0, 2.0.send(:%, 2))
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assert_equal(0.0, 2.0.send(:%, (2**32).coerce(2).first))
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assert_equal(0.0, 2.0.send(:%, 2.0))
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assert_raise(TypeError) { 2.0.send(:%, nil) }
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end
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def test_divmod2
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assert_equal([1.0, 0.0], 2.0.divmod(2))
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assert_equal([1.0, 0.0], 2.0.divmod((2**32).coerce(2).first))
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assert_equal([1.0, 0.0], 2.0.divmod(2.0))
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assert_raise(TypeError) { 2.0.divmod(nil) }
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inf = Float::INFINITY
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assert_raise(ZeroDivisionError) {inf.divmod(0)}
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a, b = (2.0**32).divmod(1.0)
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assert_equal(2**32, a)
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assert_equal(0, b)
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end
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def test_pow
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assert_equal(1.0, 1.0 ** (2**32))
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assert_equal(1.0, 1.0 ** 1.0)
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assert_raise(TypeError) { 1.0 ** nil }
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end
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def test_eql
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inf = Float::INFINITY
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nan = Float::NAN
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assert(1.0.eql?(1.0))
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assert(inf.eql?(inf))
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assert(!(nan.eql?(nan)))
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assert(!(1.0.eql?(nil)))
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assert(1.0 == 1)
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assert(1.0 != 2**32)
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assert(1.0 != nan)
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assert(1.0 != nil)
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end
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def test_cmp
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inf = Float::INFINITY
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nan = Float::NAN
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assert_equal(0, 1.0 <=> 1.0)
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assert_equal(1, 1.0 <=> 0.0)
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assert_equal(-1, 1.0 <=> 2.0)
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assert_nil(1.0 <=> nil)
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assert_nil(1.0 <=> nan)
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assert_nil(nan <=> 1.0)
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assert_equal(0, 1.0 <=> 1)
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assert_equal(1, 1.0 <=> 0)
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assert_equal(-1, 1.0 <=> 2)
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assert_equal(-1, 1.0 <=> 2**32)
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assert_equal(1, inf <=> (Float::MAX.to_i*2))
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assert_equal(-1, -inf <=> (-Float::MAX.to_i*2))
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assert_equal(-1, (Float::MAX.to_i*2) <=> inf)
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assert_equal(1, (-Float::MAX.to_i*2) <=> -inf)
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bug3609 = '[ruby-core:31470]'
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def (pinf = Object.new).infinite?; +1 end
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def (ninf = Object.new).infinite?; -1 end
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def (fin = Object.new).infinite?; nil end
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nonum = Object.new
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assert_equal(0, inf <=> pinf, bug3609)
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assert_equal(1, inf <=> fin, bug3609)
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assert_equal(1, inf <=> ninf, bug3609)
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assert_nil(inf <=> nonum, bug3609)
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assert_equal(-1, -inf <=> pinf, bug3609)
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assert_equal(-1, -inf <=> fin, bug3609)
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assert_equal(0, -inf <=> ninf, bug3609)
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assert_nil(-inf <=> nonum, bug3609)
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assert_raise(ArgumentError) { 1.0 > nil }
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assert_raise(ArgumentError) { 1.0 >= nil }
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assert_raise(ArgumentError) { 1.0 < nil }
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assert_raise(ArgumentError) { 1.0 <= nil }
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end
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def test_zero_p
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assert(0.0.zero?)
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assert(!(1.0.zero?))
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end
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def test_infinite_p
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inf = Float::INFINITY
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assert_equal(1, inf.infinite?)
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assert_equal(-1, (-inf).infinite?)
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assert_nil(1.0.infinite?)
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end
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def test_finite_p
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inf = Float::INFINITY
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assert(!(inf.finite?))
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assert(!((-inf).finite?))
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assert(1.0.finite?)
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end
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def test_floor_ceil_round_truncate
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assert_equal(1, 1.5.floor)
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assert_equal(2, 1.5.ceil)
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assert_equal(2, 1.5.round)
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assert_equal(1, 1.5.truncate)
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assert_equal(2, 2.0.floor)
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assert_equal(2, 2.0.ceil)
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assert_equal(2, 2.0.round)
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assert_equal(2, 2.0.truncate)
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assert_equal(-2, (-1.5).floor)
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assert_equal(-1, (-1.5).ceil)
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assert_equal(-2, (-1.5).round)
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assert_equal(-1, (-1.5).truncate)
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assert_equal(-2, (-2.0).floor)
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assert_equal(-2, (-2.0).ceil)
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assert_equal(-2, (-2.0).round)
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assert_equal(-2, (-2.0).truncate)
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inf = Float::INFINITY
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assert_raise(FloatDomainError) { inf.floor }
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assert_raise(FloatDomainError) { inf.ceil }
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assert_raise(FloatDomainError) { inf.round }
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assert_raise(FloatDomainError) { inf.truncate }
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assert_equal(1.100, 1.111.round(1))
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assert_equal(1.110, 1.111.round(2))
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assert_equal(11110.0, 11111.1.round(-1))
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assert_equal(11100.0, 11111.1.round(-2))
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assert_equal(10**300, 1.1e300.round(-300))
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end
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VS = [
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18446744073709551617.0,
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18446744073709551616.0,
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18446744073709551615.8,
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18446744073709551615.5,
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18446744073709551615.2,
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18446744073709551615.0,
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18446744073709551614.0,
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4611686018427387905.0,
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4611686018427387904.0,
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4611686018427387903.8,
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4611686018427387903.5,
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4611686018427387903.2,
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4611686018427387903.0,
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4611686018427387902.0,
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4294967297.0,
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4294967296.0,
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4294967295.8,
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4294967295.5,
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4294967295.2,
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4294967295.0,
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4294967294.0,
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1073741825.0,
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1073741824.0,
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1073741823.8,
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1073741823.5,
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1073741823.2,
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1073741823.0,
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1073741822.0,
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-1073741823.0,
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-1073741824.0,
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-1073741824.2,
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-1073741824.5,
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-1073741824.8,
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-1073741825.0,
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-1073741826.0,
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-4294967295.0,
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-4294967296.0,
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-4294967296.2,
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-4294967296.5,
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-4294967296.8,
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-4294967297.0,
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-4294967298.0,
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-4611686018427387903.0,
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-4611686018427387904.0,
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-4611686018427387904.2,
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-4611686018427387904.5,
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-4611686018427387904.8,
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-4611686018427387905.0,
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-4611686018427387906.0,
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-18446744073709551615.0,
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-18446744073709551616.0,
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-18446744073709551616.2,
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-18446744073709551616.5,
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-18446744073709551616.8,
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-18446744073709551617.0,
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-18446744073709551618.0,
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]
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def test_truncate
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VS.each {|f|
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i = f.truncate
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assert_equal(i, f.to_i)
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if f < 0
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assert_operator(i, :<, 0)
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else
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assert_operator(i, :>, 0)
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end
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assert_operator(i.abs, :<=, f.abs)
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d = f.abs - i.abs
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assert_operator(0, :<=, d)
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assert_operator(d, :<, 1)
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}
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end
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def test_ceil
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VS.each {|f|
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i = f.ceil
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if f < 0
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assert_operator(i, :<, 0)
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else
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assert_operator(i, :>, 0)
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end
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assert_operator(i, :>=, f)
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d = f - i
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assert_operator(-1, :<, d)
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assert_operator(d, :<=, 0)
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}
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end
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def test_floor
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VS.each {|f|
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i = f.floor
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if f < 0
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assert_operator(i, :<, 0)
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else
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assert_operator(i, :>, 0)
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end
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assert_operator(i, :<=, f)
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d = f - i
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assert_operator(0, :<=, d)
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assert_operator(d, :<, 1)
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}
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end
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def test_round
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VS.each {|f|
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i = f.round
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if f < 0
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assert_operator(i, :<, 0)
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else
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assert_operator(i, :>, 0)
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end
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d = f - i
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assert_operator(-0.5, :<=, d)
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assert_operator(d, :<=, 0.5)
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}
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end
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def test_Float
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assert_in_delta(0.125, Float("0.1_2_5"), 0.00001)
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assert_in_delta(0.125, "0.1_2_5__".to_f, 0.00001)
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assert_equal(1, suppress_warning {Float(([1] * 10000).join)}.infinite?)
|
|
assert(!Float(([1] * 10000).join("_")).infinite?) # is it really OK?
|
|
assert_raise(ArgumentError) { Float("1.0\x001") }
|
|
assert_equal(15.9375, Float('0xf.fp0'))
|
|
assert_raise(ArgumentError) { Float('0x') }
|
|
assert_equal(15, Float('0xf'))
|
|
assert_equal(15, Float('0xfp0'))
|
|
assert_raise(ArgumentError) { Float('0xfp') }
|
|
assert_raise(ArgumentError) { Float('0xf.') }
|
|
assert_raise(ArgumentError) { Float('0xf.p') }
|
|
assert_raise(ArgumentError) { Float('0xf.p0') }
|
|
assert_raise(ArgumentError) { Float('0xf.f') }
|
|
assert_raise(ArgumentError) { Float('0xf.fp') }
|
|
assert_equal(Float::INFINITY, Float('0xf.fp1000000000000000'))
|
|
assert_equal(1, suppress_warning {Float("1e10_00")}.infinite?)
|
|
assert_raise(TypeError) { Float(nil) }
|
|
o = Object.new
|
|
def o.to_f; inf = Float::INFINITY; inf/inf; end
|
|
assert(Float(o).nan?)
|
|
end
|
|
|
|
def test_invalid_str
|
|
bug4310 = '[ruby-core:34820]'
|
|
assert_raise(ArgumentError, bug4310) {under_gc_stress {Float('a'*10000)}}
|
|
end
|
|
|
|
def test_num2dbl
|
|
assert_raise(TypeError) do
|
|
1.0.step(2.0, "0.5") {}
|
|
end
|
|
assert_raise(TypeError) do
|
|
1.0.step(2.0, nil) {}
|
|
end
|
|
end
|
|
|
|
def test_sleep_with_Float
|
|
assert_nothing_raised("[ruby-core:23282]") do
|
|
sleep(0.1+0.1+0.1+0.1+0.1+0.1+0.1+0.1+0.1+0.1)
|
|
end
|
|
end
|
|
end
|