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ruby--ruby/test/ruby/test_hash.rb

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# -*- coding: us-ascii -*-
# frozen_string_literal: false
require 'test/unit'
EnvUtil.suppress_warning {require 'continuation'}
class TestHash < Test::Unit::TestCase
def test_hash
x = @cls[1=>2, 2=>4, 3=>6]
y = @cls[1=>2, 2=>4, 3=>6] # y = {1, 2, 2, 4, 3, 6} # 1.9 doesn't support
assert_equal(2, x[1])
assert(begin
for k,v in y
raise if k*2 != v
end
true
rescue
false
end)
assert_equal(3, x.length)
assert_send([x, :has_key?, 1])
assert_send([x, :has_value?, 4])
assert_equal([4,6], x.values_at(2,3))
assert_equal({1=>2, 2=>4, 3=>6}, x)
z = y.keys.join(":")
assert_equal("1:2:3", z)
z = y.values.join(":")
assert_equal("2:4:6", z)
assert_equal(x, y)
y.shift
assert_equal(2, y.length)
z = [1,2]
y[z] = 256
assert_equal(256, y[z])
x = Hash.new(0)
x[1] = 1
assert_equal(1, x[1])
assert_equal(0, x[2])
x = Hash.new([])
assert_equal([], x[22])
assert_same(x[22], x[22])
x = Hash.new{[]}
assert_equal([], x[22])
assert_not_same(x[22], x[22])
x = Hash.new{|h,kk| z = kk; h[kk] = kk*2}
z = 0
assert_equal(44, x[22])
assert_equal(22, z)
z = 0
assert_equal(44, x[22])
assert_equal(0, z)
x.default = 5
assert_equal(5, x[23])
x = Hash.new
def x.default(k)
$z = k
self[k] = k*2
end
$z = 0
assert_equal(44, x[22])
assert_equal(22, $z)
$z = 0
assert_equal(44, x[22])
assert_equal(0, $z)
end
# From rubicon
def setup
@cls ||= Hash
@h = @cls[
1 => 'one', 2 => 'two', 3 => 'three',
self => 'self', true => 'true', nil => 'nil',
'nil' => nil
]
@verbose = $VERBOSE
$VERBOSE = nil
end
def teardown
$VERBOSE = @verbose
end
def test_bad_initialize_copy
h = Class.new(Hash) {
def initialize_copy(h)
super(Object.new)
end
}.new
assert_raise(TypeError) { h.dup }
end
def test_clear_initialize_copy
h = @cls[1=>2]
h.instance_eval {initialize_copy({})}
assert_empty(h)
end
def test_self_initialize_copy
h = @cls[1=>2]
h.instance_eval {initialize_copy(h)}
assert_equal(2, h[1])
end
def test_dup_will_rehash
set1 = @cls[]
set2 = @cls[set1 => true]
set1[set1] = true
assert_equal set2, set2.dup
end
def test_s_AREF
h = @cls["a" => 100, "b" => 200]
assert_equal(100, h['a'])
assert_equal(200, h['b'])
assert_nil(h['c'])
h = @cls.[]("a" => 100, "b" => 200)
assert_equal(100, h['a'])
assert_equal(200, h['b'])
assert_nil(h['c'])
h = @cls["a", 100, "b", 200]
assert_equal(100, h['a'])
assert_equal(200, h['b'])
assert_nil(h['c'])
h = @cls[[["a", 100], ["b", 200]]]
assert_equal(100, h['a'])
assert_equal(200, h['b'])
assert_nil(h['c'])
h = @cls[[["a", 100], ["b"], ["c", 300]]]
assert_equal(100, h['a'])
assert_equal(nil, h['b'])
assert_equal(300, h['c'])
h = @cls[[["a", 100], "b", ["c", 300]]]
assert_equal(100, h['a'])
assert_equal(nil, h['b'])
assert_equal(300, h['c'])
end
def test_s_AREF_duplicated_key
alist = [["a", 100], ["b", 200], ["a", 300], ["a", 400]]
h = @cls[alist]
assert_equal(2, h.size)
assert_equal(400, h['a'])
assert_equal(200, h['b'])
assert_nil(h['c'])
assert_equal(nil, h.key('300'))
end
def test_s_AREF_frozen_key_id
key = "a".freeze
h = @cls[key, 100]
assert_equal(100, h['a'])
assert_same(key, *h.keys)
end
def test_s_AREF_key_tampering
key = "a".dup
h = @cls[key, 100]
key.upcase!
assert_equal(100, h['a'])
end
def test_s_new
h = @cls.new
assert_instance_of(@cls, h)
assert_nil(h.default)
assert_nil(h['spurious'])
h = @cls.new('default')
assert_instance_of(@cls, h)
assert_equal('default', h.default)
assert_equal('default', h['spurious'])
end
def test_try_convert
assert_equal({1=>2}, Hash.try_convert({1=>2}))
assert_equal(nil, Hash.try_convert("1=>2"))
o = Object.new
def o.to_hash; {3=>4} end
assert_equal({3=>4}, Hash.try_convert(o))
end
def test_AREF # '[]'
t = Time.now
h = @cls[
1 => 'one', 2 => 'two', 3 => 'three',
self => 'self', t => 'time', nil => 'nil',
'nil' => nil
]
assert_equal('one', h[1])
assert_equal('two', h[2])
assert_equal('three', h[3])
assert_equal('self', h[self])
assert_equal('time', h[t])
assert_equal('nil', h[nil])
assert_equal(nil, h['nil'])
assert_equal(nil, h['koala'])
h1 = h.dup
h1.default = :default
assert_equal('one', h1[1])
assert_equal('two', h1[2])
assert_equal('three', h1[3])
assert_equal('self', h1[self])
assert_equal('time', h1[t])
assert_equal('nil', h1[nil])
assert_equal(nil, h1['nil'])
assert_equal(:default, h1['koala'])
end
def test_ASET # '[]='
t = Time.now
h = @cls.new
h[1] = 'one'
h[2] = 'two'
h[3] = 'three'
h[self] = 'self'
h[t] = 'time'
h[nil] = 'nil'
h['nil'] = nil
assert_equal('one', h[1])
assert_equal('two', h[2])
assert_equal('three', h[3])
assert_equal('self', h[self])
assert_equal('time', h[t])
assert_equal('nil', h[nil])
assert_equal(nil, h['nil'])
assert_equal(nil, h['koala'])
h[1] = 1
h[nil] = 99
h['nil'] = nil
z = [1,2]
h[z] = 256
assert_equal(1, h[1])
assert_equal('two', h[2])
assert_equal('three', h[3])
assert_equal('self', h[self])
assert_equal('time', h[t])
assert_equal(99, h[nil])
assert_equal(nil, h['nil'])
assert_equal(nil, h['koala'])
assert_equal(256, h[z])
end
def test_AREF_fstring_key
h = {"abc" => 1}
before = GC.stat(:total_allocated_objects)
5.times{ h["abc"] }
assert_equal before, GC.stat(:total_allocated_objects)
end
def test_ASET_fstring_key
a, b = {}, {}
assert_equal 1, a["abc"] = 1
assert_equal 1, b["abc"] = 1
assert_same a.keys[0], b.keys[0]
end
def test_hash_aset_fstring_identity
h = {}.compare_by_identity
h['abc'] = 1
h['abc'] = 2
assert_equal 2, h.size, '[ruby-core:78783] [Bug #12855]'
end
def test_hash_aref_fstring_identity
h = {}.compare_by_identity
h['abc'] = 1
assert_nil h['abc'], '[ruby-core:78783] [Bug #12855]'
end
def test_NEWHASH_fstring_key
a = {"ABC" => :t}
b = {"ABC" => :t}
assert_same a.keys[0], b.keys[0]
assert_same "ABC".freeze, a.keys[0]
end
def test_EQUAL # '=='
h1 = @cls[ "a" => 1, "c" => 2 ]
h2 = @cls[ "a" => 1, "c" => 2, 7 => 35 ]
h3 = @cls[ "a" => 1, "c" => 2, 7 => 35 ]
h4 = @cls[ ]
assert_equal(h1, h1)
assert_equal(h2, h2)
assert_equal(h3, h3)
assert_equal(h4, h4)
assert_not_equal(h1, h2)
assert_equal(h2, h3)
assert_not_equal(h3, h4)
end
def test_clear
assert_operator(@h.size, :>, 0)
@h.clear
assert_equal(0, @h.size)
assert_nil(@h[1])
end
def test_clone
for taint in [ false, true ]
for frozen in [ false, true ]
a = @h.clone
a.taint if taint
a.freeze if frozen
b = a.clone
assert_equal(a, b)
assert_not_same(a, b)
assert_equal(a.frozen?, b.frozen?)
assert_equal(a.tainted?, b.tainted?)
end
end
end
def test_default
assert_nil(@h.default)
h = @cls.new(:xyzzy)
assert_equal(:xyzzy, h.default)
end
def test_default=
assert_nil(@h.default)
@h.default = :xyzzy
assert_equal(:xyzzy, @h.default)
end
def test_delete
h1 = @cls[ 1 => 'one', 2 => 'two', true => 'true' ]
h2 = @cls[ 1 => 'one', 2 => 'two' ]
h3 = @cls[ 2 => 'two' ]
assert_equal('true', h1.delete(true))
assert_equal(h2, h1)
assert_equal('one', h1.delete(1))
assert_equal(h3, h1)
assert_equal('two', h1.delete(2))
assert_equal(@cls[], h1)
assert_nil(h1.delete(99))
assert_equal(@cls[], h1)
assert_equal('default 99', h1.delete(99) {|i| "default #{i}" })
end
def test_delete_if
base = @cls[ 1 => 'one', 2 => false, true => 'true', 'cat' => 99 ]
h1 = @cls[ 1 => 'one', 2 => false, true => 'true' ]
h2 = @cls[ 2 => false, 'cat' => 99 ]
h3 = @cls[ 2 => false ]
h = base.dup
assert_equal(h, h.delete_if { false })
assert_equal(@cls[], h.delete_if { true })
h = base.dup
assert_equal(h1, h.delete_if {|k,v| k.instance_of?(String) })
assert_equal(h1, h)
h = base.dup
assert_equal(h2, h.delete_if {|k,v| v.instance_of?(String) })
assert_equal(h2, h)
h = base.dup
assert_equal(h3, h.delete_if {|k,v| v })
assert_equal(h3, h)
h = base.dup
n = 0
h.delete_if {|*a|
n += 1
assert_equal(2, a.size)
assert_equal(base[a[0]], a[1])
h.shift
true
}
assert_equal(base.size, n)
end
def test_keep_if
h = @cls[1=>2,3=>4,5=>6]
assert_equal({3=>4,5=>6}, h.keep_if {|k, v| k + v >= 7 })
h = @cls[1=>2,3=>4,5=>6]
assert_equal({1=>2,3=>4,5=>6}, h.keep_if{true})
end
def test_compact
h = @cls[a: 1, b: nil, c: false, d: true, e: nil]
assert_equal({a: 1, c: false, d: true}, h.compact)
assert_equal({a: 1, b: nil, c: false, d: true, e: nil}, h)
assert_same(h, h.compact!)
assert_equal({a: 1, c: false, d: true}, h)
assert_nil(h.compact!)
end
def test_dup
for taint in [ false, true ]
for frozen in [ false, true ]
a = @h.dup
a.taint if taint
a.freeze if frozen
b = a.dup
assert_equal(a, b)
assert_not_same(a, b)
assert_equal(false, b.frozen?)
assert_equal(a.tainted?, b.tainted?)
end
end
end
def test_dup_equality
h = @cls['k' => 'v']
assert_equal(h, h.dup)
h1 = @cls[h => 1]
assert_equal(h1, h1.dup)
h[1] = 2
assert_equal(h1, h1.dup)
end
def test_each
count = 0
@cls[].each { |k, v| count + 1 }
assert_equal(0, count)
h = @h
h.each do |k, v|
assert_equal(v, h.delete(k))
end
assert_equal(@cls[], h)
h = @cls[]
h[1] = 1
h[2] = 2
assert_equal([[1,1],[2,2]], h.each.to_a)
end
def test_each_key
count = 0
@cls[].each_key { |k| count + 1 }
assert_equal(0, count)
h = @h
h.each_key do |k|
h.delete(k)
end
assert_equal(@cls[], h)
end
def test_each_pair
count = 0
@cls[].each_pair { |k, v| count + 1 }
assert_equal(0, count)
h = @h
h.each_pair do |k, v|
assert_equal(v, h.delete(k))
end
assert_equal(@cls[], h)
end
def test_each_value
res = []
@cls[].each_value { |v| res << v }
assert_equal(0, [].length)
@h.each_value { |v| res << v }
assert_equal(0, [].length)
expected = []
@h.each { |k, v| expected << v }
assert_equal([], expected - res)
assert_equal([], res - expected)
end
def test_empty?
assert_empty(@cls[])
assert_not_empty(@h)
end
def test_fetch
assert_equal('gumbygumby', @h.fetch('gumby') {|k| k * 2 })
assert_equal('pokey', @h.fetch('gumby', 'pokey'))
assert_equal('one', @h.fetch(1))
assert_equal(nil, @h.fetch('nil'))
assert_equal('nil', @h.fetch(nil))
end
def test_fetch_error
assert_raise(KeyError) { @cls[].fetch(1) }
assert_raise(KeyError) { @h.fetch('gumby') }
e = assert_raise(KeyError) { @h.fetch('gumby'*20) }
assert_match(/key not found: "gumbygumby/, e.message)
assert_match(/\.\.\.\z/, e.message)
end
def test_key2?
assert_not_send([@cls[], :key?, 1])
assert_not_send([@cls[], :key?, nil])
assert_send([@h, :key?, nil])
assert_send([@h, :key?, 1])
assert_not_send([@h, :key?, 'gumby'])
end
def test_value?
assert_not_send([@cls[], :value?, 1])
assert_not_send([@cls[], :value?, nil])
assert_send([@h, :value?, 'one'])
assert_send([@h, :value?, nil])
assert_not_send([@h, :value?, 'gumby'])
end
def test_include?
assert_not_send([@cls[], :include?, 1])
assert_not_send([@cls[], :include?, nil])
assert_send([@h, :include?, nil])
assert_send([@h, :include?, 1])
assert_not_send([@h, :include?, 'gumby'])
end
def test_key
assert_equal(1, @h.key('one'))
assert_equal(nil, @h.key('nil'))
assert_equal('nil', @h.key(nil))
assert_equal(nil, @h.key('gumby'))
assert_equal(nil, @cls[].key('gumby'))
end
def test_values_at
res = @h.values_at('dog', 'cat', 'horse')
assert_equal(3, res.length)
assert_equal([nil, nil, nil], res)
res = @h.values_at
assert_equal(0, res.length)
res = @h.values_at(3, 2, 1, nil)
assert_equal 4, res.length
assert_equal %w( three two one nil ), res
res = @h.values_at(3, 99, 1, nil)
assert_equal 4, res.length
assert_equal ['three', nil, 'one', 'nil'], res
end
def test_fetch_values
res = @h.fetch_values
assert_equal(0, res.length)
res = @h.fetch_values(3, 2, 1, nil)
assert_equal(4, res.length)
assert_equal %w( three two one nil ), res
assert_raise KeyError do
@h.fetch_values(3, 'invalid')
end
res = @h.fetch_values(3, 'invalid') { |k| k.upcase }
assert_equal %w( three INVALID ), res
end
def test_invert
h = @h.invert
assert_equal(1, h['one'])
assert_equal(true, h['true'])
assert_equal(nil, h['nil'])
h.each do |k, v|
assert_send([@h, :key?, v]) # not true in general, but works here
end
h = @cls[ 'a' => 1, 'b' => 2, 'c' => 1].invert
assert_equal(2, h.length)
assert_include(%w[a c], h[1])
assert_equal('b', h[2])
end
def test_key?
assert_not_send([@cls[], :key?, 1])
assert_not_send([@cls[], :key?, nil])
assert_send([@h, :key?, nil])
assert_send([@h, :key?, 1])
assert_not_send([@h, :key?, 'gumby'])
end
def test_keys
assert_equal([], @cls[].keys)
keys = @h.keys
expected = []
@h.each { |k, v| expected << k }
assert_equal([], keys - expected)
assert_equal([], expected - keys)
end
def test_length
assert_equal(0, @cls[].length)
assert_equal(7, @h.length)
end
def test_member?
assert_not_send([@cls[], :member?, 1])
assert_not_send([@cls[], :member?, nil])
assert_send([@h, :member?, nil])
assert_send([@h, :member?, 1])
assert_not_send([@h, :member?, 'gumby'])
end
def test_rehash
a = [ "a", "b" ]
c = [ "c", "d" ]
h = @cls[ a => 100, c => 300 ]
assert_equal(100, h[a])
a[0] = "z"
assert_nil(h[a])
h.rehash
assert_equal(100, h[a])
end
def test_reject
assert_equal({3=>4,5=>6}, @cls[1=>2,3=>4,5=>6].reject {|k, v| k + v < 7 })
base = @cls[ 1 => 'one', 2 => false, true => 'true', 'cat' => 99 ]
h1 = @cls[ 1 => 'one', 2 => false, true => 'true' ]
h2 = @cls[ 2 => false, 'cat' => 99 ]
h3 = @cls[ 2 => false ]
h = base.dup
assert_equal(h, h.reject { false })
assert_equal(@cls[], h.reject { true })
h = base.dup
assert_equal(h1, h.reject {|k,v| k.instance_of?(String) })
assert_equal(h2, h.reject {|k,v| v.instance_of?(String) })
assert_equal(h3, h.reject {|k,v| v })
assert_equal(base, h)
h.instance_variable_set(:@foo, :foo)
h.default = 42
h.taint
h = EnvUtil.suppress_warning {h.reject {false}}
assert_instance_of(Hash, h)
assert_not_predicate(h, :tainted?)
assert_nil(h.default)
assert_not_send([h, :instance_variable_defined?, :@foo])
end
def test_reject!
base = @cls[ 1 => 'one', 2 => false, true => 'true', 'cat' => 99 ]
h1 = @cls[ 1 => 'one', 2 => false, true => 'true' ]
h2 = @cls[ 2 => false, 'cat' => 99 ]
h3 = @cls[ 2 => false ]
h = base.dup
assert_equal(nil, h.reject! { false })
assert_equal(@cls[], h.reject! { true })
h = base.dup
assert_equal(h1, h.reject! {|k,v| k.instance_of?(String) })
assert_equal(h1, h)
h = base.dup
assert_equal(h2, h.reject! {|k,v| v.instance_of?(String) })
assert_equal(h2, h)
h = base.dup
assert_equal(h3, h.reject! {|k,v| v })
assert_equal(h3, h)
end
def test_replace
h = @cls[ 1 => 2, 3 => 4 ]
h1 = h.replace(@cls[ 9 => 8, 7 => 6 ])
assert_equal(h, h1)
assert_equal(8, h[9])
assert_equal(6, h[7])
assert_nil(h[1])
assert_nil(h[2])
end
def test_replace_bug9230
h = @cls[]
h.replace(@cls[])
assert_empty h
h = @cls[]
h.replace(@cls[].compare_by_identity)
assert_predicate(h, :compare_by_identity?)
end
def test_shift
h = @h.dup
@h.length.times {
k, v = h.shift
assert_send([@h, :key?, k])
assert_equal(@h[k], v)
}
assert_equal(0, h.length)
end
def test_size
assert_equal(0, @cls[].length)
assert_equal(7, @h.length)
end
def test_sort
h = @cls[].sort
assert_equal([], h)
h = @cls[ 1 => 1, 2 => 1 ].sort
assert_equal([[1,1], [2,1]], h)
h = @cls[ 'cat' => 'feline', 'ass' => 'asinine', 'bee' => 'beeline' ]
h1 = h.sort
assert_equal([ %w(ass asinine), %w(bee beeline), %w(cat feline)], h1)
end
def test_store
t = Time.now
h = @cls.new
h.store(1, 'one')
h.store(2, 'two')
h.store(3, 'three')
h.store(self, 'self')
h.store(t, 'time')
h.store(nil, 'nil')
h.store('nil', nil)
assert_equal('one', h[1])
assert_equal('two', h[2])
assert_equal('three', h[3])
assert_equal('self', h[self])
assert_equal('time', h[t])
assert_equal('nil', h[nil])
assert_equal(nil, h['nil'])
assert_equal(nil, h['koala'])
h.store(1, 1)
h.store(nil, 99)
h.store('nil', nil)
assert_equal(1, h[1])
assert_equal('two', h[2])
assert_equal('three', h[3])
assert_equal('self', h[self])
assert_equal('time', h[t])
assert_equal(99, h[nil])
assert_equal(nil, h['nil'])
assert_equal(nil, h['koala'])
end
def test_to_a
assert_equal([], @cls[].to_a)
assert_equal([[1,2]], @cls[ 1=>2 ].to_a)
a = @cls[ 1=>2, 3=>4, 5=>6 ].to_a
assert_equal([1,2], a.delete([1,2]))
assert_equal([3,4], a.delete([3,4]))
assert_equal([5,6], a.delete([5,6]))
assert_equal(0, a.length)
h = @cls[ 1=>2, 3=>4, 5=>6 ]
h.taint
a = h.to_a
assert_equal(true, a.tainted?)
end
def test_to_hash
h = @h.to_hash
assert_equal(@h, h)
assert_instance_of(@cls, h)
end
def test_to_h
h = @h.to_h
assert_equal(@h, h)
assert_instance_of(Hash, h)
end
def test_to_h_instance_variable
@h.instance_variable_set(:@x, 42)
h = @h.to_h
if @cls == Hash
assert_equal(42, h.instance_variable_get(:@x))
else
assert_not_send([h, :instance_variable_defined?, :@x])
end
end
def test_to_h_default_value
@h.default = :foo
h = @h.to_h
assert_equal(:foo, h.default)
end
def test_to_h_default_proc
@h.default_proc = ->(_,k) {"nope#{k}"}
h = @h.to_h
assert_equal("nope42", h[42])
end
def test_nil_to_h
h = nil.to_h
assert_equal({}, h)
assert_nil(h.default)
assert_nil(h.default_proc)
end
def test_to_s
h = @cls[ 1 => 2, "cat" => "dog", 1.5 => :fred ]
assert_equal(h.inspect, h.to_s)
$, = ":"
assert_equal(h.inspect, h.to_s)
h = @cls[]
assert_equal(h.inspect, h.to_s)
ensure
$, = nil
end
def test_update
h1 = @cls[ 1 => 2, 2 => 3, 3 => 4 ]
h2 = @cls[ 2 => 'two', 4 => 'four' ]
ha = @cls[ 1 => 2, 2 => 'two', 3 => 4, 4 => 'four' ]
hb = @cls[ 1 => 2, 2 => 3, 3 => 4, 4 => 'four' ]
assert_equal(ha, h1.update(h2))
assert_equal(ha, h1)
h1 = @cls[ 1 => 2, 2 => 3, 3 => 4 ]
h2 = @cls[ 2 => 'two', 4 => 'four' ]
assert_equal(hb, h2.update(h1))
assert_equal(hb, h2)
end
def test_value2?
assert_not_send([@cls[], :value?, 1])
assert_not_send([@cls[], :value?, nil])
assert_send([@h, :value?, nil])
assert_send([@h, :value?, 'one'])
assert_not_send([@h, :value?, 'gumby'])
end
def test_values
assert_equal([], @cls[].values)
vals = @h.values
expected = []
@h.each { |k, v| expected << v }
assert_equal([], vals - expected)
assert_equal([], expected - vals)
end
def test_initialize_wrong_arguments
assert_raise(ArgumentError) do
Hash.new(0) { }
end
end
def test_create
assert_equal({1=>2, 3=>4}, @cls[[[1,2],[3,4]]])
assert_raise(ArgumentError) { Hash[0, 1, 2] }
assert_warning(/wrong element type Integer at 1 /) {@cls[[[1, 2], 3]]}
bug5406 = '[ruby-core:39945]'
assert_raise(ArgumentError, bug5406) { @cls[[[1, 2], [3, 4, 5]]] }
assert_equal({1=>2, 3=>4}, @cls[1,2,3,4])
o = Object.new
def o.to_hash() {1=>2} end
assert_equal({1=>2}, @cls[o], "[ruby-dev:34555]")
end
def test_rehash2
h = @cls[1 => 2, 3 => 4]
assert_equal(h.dup, h.rehash)
assert_raise(RuntimeError) { h.each { h.rehash } }
assert_equal({}, @cls[].rehash)
end
def test_fetch2
assert_equal(:bar, @h.fetch(0, :foo) { :bar })
end
def test_default_proc
h = @cls.new {|hh, k| hh + k + "baz" }
assert_equal("foobarbaz", h.default_proc.call("foo", "bar"))
assert_nil(h.default_proc = nil)
assert_nil(h.default_proc)
h.default_proc = ->(_,_){ true }
assert_equal(true, h[:nope])
h = @cls[]
assert_nil(h.default_proc)
end
def test_shift2
h = @cls.new {|hh, k| :foo }
h[1] = 2
assert_equal([1, 2], h.shift)
assert_equal(:foo, h.shift)
assert_equal(:foo, h.shift)
h = @cls.new(:foo)
h[1] = 2
assert_equal([1, 2], h.shift)
assert_equal(:foo, h.shift)
assert_equal(:foo, h.shift)
h =@cls[1=>2]
h.each { assert_equal([1, 2], h.shift) }
end
def test_shift_none
h = @cls.new {|hh, k| "foo"}
def h.default(k = nil)
super.upcase
end
assert_equal("FOO", h.shift)
end
def test_reject_bang2
assert_equal({1=>2}, @cls[1=>2,3=>4].reject! {|k, v| k + v == 7 })
assert_nil(@cls[1=>2,3=>4].reject! {|k, v| k == 5 })
assert_nil(@cls[].reject! { })
end
def test_select
assert_equal({3=>4,5=>6}, @cls[1=>2,3=>4,5=>6].select {|k, v| k + v >= 7 })
base = @cls[ 1 => 'one', '2' => false, true => 'true', 'cat' => 99 ]
h1 = @cls[ '2' => false, 'cat' => 99 ]
h2 = @cls[ 1 => 'one', true => 'true' ]
h3 = @cls[ 1 => 'one', true => 'true', 'cat' => 99 ]
h = base.dup
assert_equal(h, h.select { true })
assert_equal(@cls[], h.select { false })
h = base.dup
assert_equal(h1, h.select {|k,v| k.instance_of?(String) })
assert_equal(h2, h.select {|k,v| v.instance_of?(String) })
assert_equal(h3, h.select {|k,v| v })
assert_equal(base, h)
h.instance_variable_set(:@foo, :foo)
h.default = 42
h.taint
h = h.select {true}
assert_instance_of(Hash, h)
assert_not_predicate(h, :tainted?)
assert_nil(h.default)
assert_not_send([h, :instance_variable_defined?, :@foo])
end
def test_select!
h = @cls[1=>2,3=>4,5=>6]
assert_equal(h, h.select! {|k, v| k + v >= 7 })
assert_equal({3=>4,5=>6}, h)
h = @cls[1=>2,3=>4,5=>6]
assert_equal(nil, h.select!{true})
end
def test_clear2
assert_equal({}, @cls[1=>2,3=>4,5=>6].clear)
h = @cls[1=>2,3=>4,5=>6]
h.each { h.clear }
assert_equal({}, h)
end
def test_replace2
h1 = @cls.new { :foo }
h2 = @cls.new
h2.replace h1
assert_equal(:foo, h2[0])
assert_raise(ArgumentError) { h2.replace() }
assert_raise(TypeError) { h2.replace(1) }
h2.freeze
assert_raise(ArgumentError) { h2.replace() }
assert_raise(RuntimeError) { h2.replace(h1) }
assert_raise(RuntimeError) { h2.replace(42) }
end
def test_size2
assert_equal(0, @cls[].size)
end
def test_equal2
assert_not_equal(0, @cls[])
o = Object.new
o.instance_variable_set(:@cls, @cls)
def o.to_hash; @cls[]; end
def o.==(x); true; end
assert_equal({}, o)
def o.==(x); false; end
assert_not_equal({}, o)
h1 = @cls[1=>2]; h2 = @cls[3=>4]
assert_not_equal(h1, h2)
h1 = @cls[1=>2]; h2 = @cls[1=>4]
assert_not_equal(h1, h2)
end
def test_eql
assert_not_send([@cls[], :eql?, 0])
o = Object.new
o.instance_variable_set(:@cls, @cls)
def o.to_hash; @cls[]; end
def o.eql?(x); true; end
assert_send([@cls[], :eql?, o])
def o.eql?(x); false; end
assert_not_send([@cls[], :eql?, o])
end
def test_hash2
assert_kind_of(Integer, @cls[].hash)
h = @cls[1=>2]
h.shift
assert_equal({}.hash, h.hash, '[ruby-core:38650]')
bug9231 = '[ruby-core:58993] [Bug #9231]'
assert_not_equal(0, @cls[].hash, bug9231)
end
def test_update2
h1 = @cls[1=>2, 3=>4]
h2 = {1=>3, 5=>7}
h1.update(h2) {|k, v1, v2| k + v1 + v2 }
assert_equal({1=>6, 3=>4, 5=>7}, h1)
end
def test_merge
h1 = @cls[1=>2, 3=>4]
h2 = {1=>3, 5=>7}
assert_equal({1=>3, 3=>4, 5=>7}, h1.merge(h2))
assert_equal({1=>6, 3=>4, 5=>7}, h1.merge(h2) {|k, v1, v2| k + v1 + v2 })
end
def test_assoc
assert_equal([3,4], @cls[1=>2, 3=>4, 5=>6].assoc(3))
assert_nil(@cls[1=>2, 3=>4, 5=>6].assoc(4))
assert_equal([1.0,1], @cls[1.0=>1].assoc(1))
end
def test_assoc_compare_by_identity
h = @cls[]
h.compare_by_identity
h["a"] = 1
h["a".dup] = 2
assert_equal(["a",1], h.assoc("a"))
end
def test_rassoc
assert_equal([3,4], @cls[1=>2, 3=>4, 5=>6].rassoc(4))
assert_nil({1=>2, 3=>4, 5=>6}.rassoc(3))
end
def test_flatten
assert_equal([[1], [2]], @cls[[1] => [2]].flatten)
a = @cls[1=> "one", 2 => [2,"two"], 3 => [3, ["three"]]]
assert_equal([1, "one", 2, [2, "two"], 3, [3, ["three"]]], a.flatten)
assert_equal([[1, "one"], [2, [2, "two"]], [3, [3, ["three"]]]], a.flatten(0))
assert_equal([1, "one", 2, [2, "two"], 3, [3, ["three"]]], a.flatten(1))
assert_equal([1, "one", 2, 2, "two", 3, 3, ["three"]], a.flatten(2))
assert_equal([1, "one", 2, 2, "two", 3, 3, "three"], a.flatten(3))
assert_equal([1, "one", 2, 2, "two", 3, 3, "three"], a.flatten(-1))
assert_raise(TypeError){ a.flatten(Object) }
end
def test_callcc
h = @cls[1=>2]
c = nil
f = false
h.each { callcc {|c2| c = c2 } }
unless f
f = true
c.call
end
assert_raise(RuntimeError) { h.each { h.rehash } }
h = @cls[1=>2]
c = nil
assert_raise(RuntimeError) do
h.each { callcc {|c2| c = c2 } }
h.clear
c.call
end
end
def test_callcc_iter_level
bug9105 = '[ruby-dev:47803] [Bug #9105]'
h = @cls[1=>2, 3=>4]
c = nil
f = false
h.each {callcc {|c2| c = c2}}
unless f
f = true
c.call
end
assert_nothing_raised(RuntimeError, bug9105) do
h.each {|i, j|
h.delete(i);
assert_not_equal(false, i, bug9105)
}
end
end
def test_callcc_escape
bug9105 = '[ruby-dev:47803] [Bug #9105]'
assert_nothing_raised(RuntimeError, bug9105) do
h=@cls[]
cnt=0
c = callcc {|cc|cc}
h[cnt] = true
h.each{|i|
cnt+=1
c.call if cnt == 1
}
end
end
def test_callcc_reenter
bug9105 = '[ruby-dev:47803] [Bug #9105]'
assert_nothing_raised(RuntimeError, bug9105) do
h = @cls[1=>2,3=>4]
c = nil
f = false
h.each { |i|
callcc {|c2| c = c2 } unless c
h.delete(1) if f
}
unless f
f = true
c.call
end
end
end
def test_threaded_iter_level
bug9105 = '[ruby-dev:47807] [Bug #9105]'
h = @cls[1=>2]
2.times.map {
f = false
th = Thread.start {h.each {f = true; sleep}}
Thread.pass until f
Thread.pass until th.stop?
th
}.each {|th| th.run; th.join}
assert_nothing_raised(RuntimeError, bug9105) do
h[5] = 6
end
assert_equal(6, h[5], bug9105)
end
def test_compare_by_identity
a = "foo"
assert_not_predicate(@cls[], :compare_by_identity?)
h = @cls[a => "bar"]
assert_not_predicate(h, :compare_by_identity?)
h.compare_by_identity
assert_predicate(h, :compare_by_identity?)
#assert_equal("bar", h[a])
assert_nil(h["foo"])
bug8703 = '[ruby-core:56256] [Bug #8703] copied identhash'
h.clear
assert_predicate(h.dup, :compare_by_identity?, bug8703)
end
def test_same_key
bug9646 = '[ruby-dev:48047] [Bug #9646] Infinite loop at Hash#each'
h = @cls[a=[], 1]
a << 1
h[[]] = 2
a.clear
cnt = 0
r = h.each{ break nil if (cnt+=1) > 100 }
assert_not_nil(r,bug9646)
end
class ObjWithHash
def initialize(value, hash)
@value = value
@hash = hash
end
attr_reader :value, :hash
def eql?(other)
@value == other.value
end
end
def test_hash_hash
assert_equal({0=>2,11=>1}.hash, @cls[11=>1,0=>2].hash)
o1 = ObjWithHash.new(0,1)
o2 = ObjWithHash.new(11,1)
assert_equal({o1=>1,o2=>2}.hash, @cls[o2=>2,o1=>1].hash)
end
def test_hash_bignum_hash
x = 2<<(32-3)-1
assert_equal({x=>1}.hash, @cls[x=>1].hash)
x = 2<<(64-3)-1
assert_equal({x=>1}.hash, @cls[x=>1].hash)
o = Object.new
def o.hash; 2 << 100; end
assert_equal({o=>1}.hash, @cls[o=>1].hash)
end
def test_hash_popped
assert_nothing_raised { eval("a = 1; @cls[a => a]; a") }
end
def test_recursive_key
h = @cls[]
assert_nothing_raised { h[h] = :foo }
h.rehash
assert_equal(:foo, h[h])
end
def test_inverse_hash
feature4262 = '[ruby-core:34334]'
[@cls[1=>2], @cls[123=>"abc"]].each do |h|
assert_not_equal(h.hash, h.invert.hash, feature4262)
end
end
def test_recursive_hash_value_struct
bug9151 = '[ruby-core:58567] [Bug #9151]'
s = Struct.new(:x) {def hash; [x,""].hash; end}
a = s.new
b = s.new
a.x = b
b.x = a
assert_nothing_raised(SystemStackError, bug9151) {a.hash}
assert_nothing_raised(SystemStackError, bug9151) {b.hash}
h = @cls[]
h[[a,"hello"]] = 1
assert_equal(1, h.size)
h[[b,"world"]] = 2
assert_equal(2, h.size)
obj = Object.new
h = @cls[a => obj]
assert_same(obj, h[b])
end
def test_recursive_hash_value_array
h = @cls[]
h[[[1]]] = 1
assert_equal(1, h.size)
h[[[2]]] = 1
assert_equal(2, h.size)
a = []
a << a
h = @cls[]
h[[a, 1]] = 1
assert_equal(1, h.size)
h[[a, 2]] = 2
assert_equal(2, h.size)
h[[a, a]] = 3
assert_equal(3, h.size)
obj = Object.new
h = @cls[a => obj]
assert_same(obj, h[[[a]]])
end
def test_recursive_hash_value_array_hash
h = @cls[]
rec = [h]
h[:x] = rec
obj = Object.new
h2 = {rec => obj}
[h, {x: rec}].each do |k|
k = [k]
assert_same(obj, h2[k], ->{k.inspect})
end
end
def test_recursive_hash_value_hash_array
h = @cls[]
rec = [h]
h[:x] = rec
obj = Object.new
h2 = {h => obj}
[rec, [h]].each do |k|
k = {x: k}
assert_same(obj, h2[k], ->{k.inspect})
end
end
def test_exception_in_rehash_memory_leak
return unless @cls == Hash
bug9187 = '[ruby-core:58728] [Bug #9187]'
prepare = <<-EOS
class Foo
def initialize
@raise = false
end
def hash
raise if @raise
@raise = true
return 0
end
end
h = {Foo.new => true}
EOS
code = <<-EOS
10_0000.times do
h.rehash rescue nil
end
GC.start
EOS
assert_no_memory_leak([], prepare, code, bug9187)
end
def test_wrapper
bug9381 = '[ruby-core:59638] [Bug #9381]'
wrapper = Class.new do
def initialize(obj)
@obj = obj
end
def hash
@obj.hash
end
def eql?(other)
@obj.eql?(other)
end
end
bad = [
5, true, false, nil,
0.0, 1.72723e-77,
:foo, "dsym_#{self.object_id.to_s(16)}_#{Time.now.to_i.to_s(16)}".to_sym,
"str",
].select do |x|
hash = {x => bug9381}
hash[wrapper.new(x)] != bug9381
end
assert_empty(bad, bug9381)
end
def assert_hash_random(obj, dump = obj.inspect)
a = [obj.hash.to_s]
3.times {
assert_in_out_err(["-e", "print (#{dump}).hash"], "") do |r, e|
a += r
assert_equal([], e)
end
}
assert_not_equal([obj.hash.to_s], a.uniq)
assert_operator(a.uniq.size, :>, 2, proc {a.inspect})
end
def test_string_hash_random
assert_hash_random('abc')
end
def test_symbol_hash_random
assert_hash_random(:-)
assert_hash_random(:foo)
assert_hash_random("dsym_#{self.object_id.to_s(16)}_#{Time.now.to_i.to_s(16)}".to_sym)
end
def test_integer_hash_random
assert_hash_random(0)
assert_hash_random(+1)
assert_hash_random(-1)
assert_hash_random(+(1<<100))
assert_hash_random(-(1<<100))
end
def test_float_hash_random
assert_hash_random(0.0)
assert_hash_random(+1.0)
assert_hash_random(-1.0)
assert_hash_random(1.72723e-77)
assert_hash_random(Float::INFINITY, "Float::INFINITY")
end
def test_label_syntax
return unless @cls == Hash
feature4935 = '[ruby-core:37553] [Feature #4935]'
x = 'world'
hash = assert_nothing_raised(SyntaxError, feature4935) do
break eval(%q({foo: 1, "foo-bar": 2, "hello-#{x}": 3, 'hello-#{x}': 4, 'bar': {}}))
end
assert_equal({:foo => 1, :'foo-bar' => 2, :'hello-world' => 3, :'hello-#{x}' => 4, :bar => {}}, hash, feature4935)
x = x
end
def test_dig
h = @cls[a: @cls[b: [1, 2, 3]], c: 4]
assert_equal(1, h.dig(:a, :b, 0))
assert_nil(h.dig(:b, 1))
assert_raise(TypeError) {h.dig(:c, 1)}
o = Object.new
def o.dig(*args)
{dug: args}
end
h[:d] = o
assert_equal({dug: [:foo, :bar]}, h.dig(:d, :foo, :bar))
end
def test_dig_with_respond_to
bug12030 = '[ruby-core:73556] [Bug #12030]'
o = Object.new
def o.respond_to?(*args)
super
end
assert_raise(TypeError, bug12030) {{foo: o}.dig(:foo, :foo)}
end
def test_cmp
h1 = {a:1, b:2}
h2 = {a:1, b:2, c:3}
assert_operator(h1, :<=, h1)
assert_operator(h1, :<=, h2)
assert_not_operator(h2, :<=, h1)
assert_operator(h2, :<=, h2)
assert_operator(h1, :>=, h1)
assert_not_operator(h1, :>=, h2)
assert_operator(h2, :>=, h1)
assert_operator(h2, :>=, h2)
assert_not_operator(h1, :<, h1)
assert_operator(h1, :<, h2)
assert_not_operator(h2, :<, h1)
assert_not_operator(h2, :<, h2)
assert_not_operator(h1, :>, h1)
assert_not_operator(h1, :>, h2)
assert_operator(h2, :>, h1)
assert_not_operator(h2, :>, h2)
end
def test_cmp_samekeys
h1 = {a:1}
h2 = {a:2}
assert_operator(h1, :<=, h1)
assert_not_operator(h1, :<=, h2)
assert_not_operator(h2, :<=, h1)
assert_operator(h2, :<=, h2)
assert_operator(h1, :>=, h1)
assert_not_operator(h1, :>=, h2)
assert_not_operator(h2, :>=, h1)
assert_operator(h2, :>=, h2)
assert_not_operator(h1, :<, h1)
assert_not_operator(h1, :<, h2)
assert_not_operator(h2, :<, h1)
assert_not_operator(h2, :<, h2)
assert_not_operator(h1, :>, h1)
assert_not_operator(h1, :>, h2)
assert_not_operator(h2, :>, h1)
assert_not_operator(h2, :>, h2)
end
def test_to_proc
h = {
1 => 10,
2 => 20,
3 => 30,
}
assert_equal([10, 20, 30], [1, 2, 3].map(&h))
end
def test_transform_values
x = @cls[a: 1, b: 2, c: 3]
y = x.transform_values {|v| v ** 2 }
assert_equal([1, 4, 9], y.values_at(:a, :b, :c))
assert_not_same(x, y)
y = x.transform_values.with_index {|v, i| "#{v}.#{i}" }
assert_equal(%w(1.0 2.1 3.2), y.values_at(:a, :b, :c))
end
def test_transform_values_bang
x = @cls[a: 1, b: 2, c: 3]
y = x.transform_values! {|v| v ** 2 }
assert_equal([1, 4, 9], y.values_at(:a, :b, :c))
assert_same(x, y)
x = @cls[a: 1, b: 2, c: 3]
y = x.transform_values!.with_index {|v, i| "#{v}.#{i}" }
assert_equal(%w(1.0 2.1 3.2), y.values_at(:a, :b, :c))
end
class TestSubHash < TestHash
class SubHash < Hash
def reject(*)
super
end
end
def setup
@cls = SubHash
super
end
end
end