зеркало из https://github.com/github/ruby.git
280 строки
7.6 KiB
Ruby
280 строки
7.6 KiB
Ruby
# frozen_string_literal: false
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require 'test/unit'
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require 'prime'
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require 'timeout'
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class TestPrime < Test::Unit::TestCase
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# The first 100 prime numbers
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PRIMES = [
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2, 3, 5, 7, 11, 13, 17, 19, 23, 29, 31, 37,
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41, 43, 47, 53, 59, 61, 67, 71, 73, 79, 83,
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89, 97, 101, 103, 107, 109, 113, 127, 131,
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137, 139, 149, 151, 157, 163, 167, 173, 179,
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181, 191, 193, 197, 199, 211, 223, 227, 229,
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233, 239, 241, 251, 257, 263, 269, 271, 277,
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281, 283, 293, 307, 311, 313, 317, 331, 337,
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347, 349, 353, 359, 367, 373, 379, 383, 389,
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397, 401, 409, 419, 421, 431, 433, 439, 443,
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449, 457, 461, 463, 467, 479, 487, 491, 499,
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503, 509, 521, 523, 541,
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]
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def test_each
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primes = []
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Prime.each do |p|
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break if p > 541
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primes << p
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end
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assert_equal PRIMES, primes
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end
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def test_integer_each_prime
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primes = []
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Integer.each_prime(1000) do |p|
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break if p > 541
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primes << p
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end
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assert_equal PRIMES, primes
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end
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def test_each_by_prime_number_theorem
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3.upto(15) do |i|
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max = 2**i
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primes = []
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Prime.each do |p|
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break if p >= max
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primes << p
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end
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# Prime number theorem
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assert_operator primes.length, :>=, max/Math.log(max)
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delta = 0.05
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li = (2..max).step(delta).inject(0){|sum,x| sum + delta/Math.log(x)}
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assert_operator primes.length, :<=, li
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end
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end
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def test_each_without_block
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enum = Prime.each
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assert_respond_to(enum, :each)
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assert_kind_of(Enumerable, enum)
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assert_respond_to(enum, :with_index)
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assert_respond_to(enum, :next)
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assert_respond_to(enum, :succ)
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assert_respond_to(enum, :rewind)
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end
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def test_instance_without_block
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enum = Prime.instance.each
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assert_respond_to(enum, :each)
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assert_kind_of(Enumerable, enum)
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assert_respond_to(enum, :with_index)
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assert_respond_to(enum, :next)
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assert_respond_to(enum, :succ)
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assert_respond_to(enum, :rewind)
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end
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def test_new
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exception = assert_raise(NoMethodError) { Prime.new }
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end
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def test_enumerator_succ
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enum = Prime.each
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assert_equal PRIMES[0, 50], 50.times.map{ enum.succ }
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assert_equal PRIMES[50, 50], 50.times.map{ enum.succ }
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enum.rewind
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assert_equal PRIMES[0, 100], 100.times.map{ enum.succ }
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end
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def test_enumerator_with_index
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enum = Prime.each
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last = -1
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enum.with_index do |p,i|
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break if i >= 100
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assert_equal last+1, i
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assert_equal PRIMES[i], p
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last = i
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end
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end
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def test_enumerator_with_index_with_offset
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enum = Prime.each
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last = 5-1
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enum.with_index(5).each do |p,i|
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break if i >= 100+5
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assert_equal last+1, i
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assert_equal PRIMES[i-5], p
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last = i
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end
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end
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def test_enumerator_with_object
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object = Object.new
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enum = Prime.each
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enum.with_object(object).each do |p, o|
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assert_equal object, o
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break
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end
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end
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def test_enumerator_size
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enum = Prime.each
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assert_equal Float::INFINITY, enum.size
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assert_equal Float::INFINITY, enum.with_object(nil).size
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assert_equal Float::INFINITY, enum.with_index(42).size
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end
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def test_default_instance_does_not_have_compatibility_methods
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assert_not_respond_to(Prime.instance, :succ)
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assert_not_respond_to(Prime.instance, :next)
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end
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def test_prime_each_basic_argument_checking
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assert_raise(ArgumentError) { Prime.prime?(1,2) }
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assert_raise(ArgumentError) { Prime.prime?(1.2) }
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end
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def test_prime?
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assert_equal Prime.prime?(1), false
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assert_equal Prime.prime?(2), true
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assert_equal Prime.prime?(4), false
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end
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class TestPseudoPrimeGenerator < Test::Unit::TestCase
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def test_upper_bound
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pseudo_prime_generator = Prime::PseudoPrimeGenerator.new(42)
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assert_equal pseudo_prime_generator.upper_bound, 42
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end
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def test_succ
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pseudo_prime_generator = Prime::PseudoPrimeGenerator.new(42)
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assert_raise(NotImplementedError) { pseudo_prime_generator.succ }
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end
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def test_next
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pseudo_prime_generator = Prime::PseudoPrimeGenerator.new(42)
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assert_raise(NotImplementedError) { pseudo_prime_generator.next }
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end
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def test_rewind
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pseudo_prime_generator = Prime::PseudoPrimeGenerator.new(42)
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assert_raise(NotImplementedError) { pseudo_prime_generator.rewind }
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end
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end
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class TestTrialDivisionGenerator < Test::Unit::TestCase
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# The first 100 prime numbers
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PRIMES = [
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2, 3, 5, 7, 11, 13, 17, 19, 23, 29, 31, 37,
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41, 43, 47, 53, 59, 61, 67, 71, 73, 79, 83,
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89, 97, 101, 103, 107, 109, 113, 127, 131,
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137, 139, 149, 151, 157, 163, 167, 173, 179,
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181, 191, 193, 197, 199, 211, 223, 227, 229,
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233, 239, 241, 251, 257, 263, 269, 271, 277,
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281, 283, 293, 307, 311, 313, 317, 331, 337,
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347, 349, 353, 359, 367, 373, 379, 383, 389,
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397, 401, 409, 419, 421, 431, 433, 439, 443,
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449, 457, 461, 463, 467, 479, 487, 491, 499,
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503, 509, 521, 523, 541,
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]
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def test_each
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primes = []
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Prime.each(nil, Prime::TrialDivisionGenerator.new) do |p|
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break if p > 541
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primes << p
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end
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assert_equal PRIMES, primes
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end
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def test_rewind
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generator = Prime::TrialDivisionGenerator.new
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assert_equal generator.next, 2
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assert_equal generator.next, 3
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generator.rewind
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assert_equal generator.next, 2
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end
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end
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class TestGenerator23 < Test::Unit::TestCase
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def test_rewind
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generator = Prime::Generator23.new
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assert_equal generator.next, 2
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assert_equal generator.next, 3
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generator.rewind
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assert_equal generator.next, 2
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end
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end
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class TestInteger < Test::Unit::TestCase
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def test_prime_division
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pd = PRIMES.inject(&:*).prime_division
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assert_equal PRIMES.map{|p| [p, 1]}, pd
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pd = (-PRIMES.inject(&:*)).prime_division
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assert_equal [-1, *PRIMES].map{|p| [p, 1]}, pd
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end
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def test_from_prime_division
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assert_equal PRIMES.inject(&:*), Integer.from_prime_division(PRIMES.map{|p| [p,1]})
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assert_equal(-PRIMES.inject(&:*), Integer.from_prime_division([[-1, 1]] + PRIMES.map{|p| [p,1]}))
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end
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def test_prime?
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PRIMES.each do |p|
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assert_predicate(p, :prime?)
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end
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composites = (0..PRIMES.last).to_a - PRIMES
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composites.each do |c|
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assert_not_predicate(c, :prime?)
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end
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# mersenne numbers
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assert_predicate((2**31-1), :prime?)
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assert_not_predicate((2**32-1), :prime?)
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# fermat numbers
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assert_predicate((2**(2**4)+1), :prime?)
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assert_not_predicate((2**(2**5)+1), :prime?) # Euler!
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# large composite
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assert_not_predicate(((2**13-1) * (2**17-1)), :prime?)
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# factorial
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assert_not_predicate((2...100).inject(&:*), :prime?)
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# negative
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assert_not_predicate(-1, :prime?)
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assert_not_predicate(-2, :prime?)
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assert_not_predicate(-3, :prime?)
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assert_not_predicate(-4, :prime?)
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end
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end
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def test_eratosthenes_works_fine_after_timeout
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sieve = Prime::EratosthenesSieve.instance
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sieve.send(:initialize)
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# simulates that Timeout.timeout interrupts Prime::EratosthenesSieve#compute_primes
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class << Integer
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alias_method :org_sqrt, :sqrt
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end
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begin
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def Integer.sqrt(n)
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sleep 10 if /compute_primes/ =~ caller.first
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org_sqrt(n)
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end
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assert_raise(Timeout::Error) do
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Timeout.timeout(0.5) { Prime.each(7*37){} }
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end
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ensure
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class << Integer
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alias_method :sqrt, :org_sqrt
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remove_method :org_sqrt
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end
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end
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assert_not_include Prime.each(7*37).to_a, 7*37, "[ruby-dev:39465]"
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end
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end
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