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ruby--ruby/test/ruby/test_module.rb
Alan Wu 58e8220605 Check for cyclic prepend before making origin
It's important to only make the origin when the prepend goes
through, as the precense of the origin informs whether to do an
origin backfill.

This plus 2d877327e fix [Bug #17590].
2021-02-22 17:57:47 -05:00

2923 lines
75 KiB
Ruby

# frozen_string_literal: false
require 'test/unit'
require 'pp'
$m0 = Module.nesting
class TestModule < Test::Unit::TestCase
def _wrap_assertion
yield
end
def assert_method_defined?(klass, mid, message="")
message = build_message(message, "#{klass}\##{mid} expected to be defined.")
_wrap_assertion do
klass.method_defined?(mid) or
raise Test::Unit::AssertionFailedError, message, caller(3)
end
end
def assert_method_not_defined?(klass, mid, message="")
message = build_message(message, "#{klass}\##{mid} expected to not be defined.")
_wrap_assertion do
klass.method_defined?(mid) and
raise Test::Unit::AssertionFailedError, message, caller(3)
end
end
def setup
@verbose = $VERBOSE
@deprecated = Warning[:deprecated]
Warning[:deprecated] = true
end
def teardown
$VERBOSE = @verbose
Warning[:deprecated] = @deprecated
end
def test_LT_0
assert_equal true, String < Object
assert_equal false, Object < String
assert_nil String < Array
assert_equal true, Array < Enumerable
assert_equal false, Enumerable < Array
assert_nil Proc < Comparable
assert_nil Comparable < Proc
end
def test_GT_0
assert_equal false, String > Object
assert_equal true, Object > String
assert_nil String > Array
assert_equal false, Array > Enumerable
assert_equal true, Enumerable > Array
assert_nil Comparable > Proc
assert_nil Proc > Comparable
end
def test_CMP_0
assert_equal(-1, (String <=> Object))
assert_equal 1, (Object <=> String)
assert_nil(Array <=> String)
end
ExpectedException = NoMethodError
# Support stuff
module Mixin
MIXIN = 1
def mixin
end
end
module User
USER = 2
include Mixin
def user
end
def user2
end
protected :user2
def user3
end
private :user3
end
OtherSetup = -> do
remove_const :Other if defined? ::TestModule::Other
module Other
def other
end
end
end
class AClass
def AClass.cm1
"cm1"
end
def AClass.cm2
cm1 + "cm2" + cm3
end
def AClass.cm3
"cm3"
end
private_class_method :cm1, "cm3"
def aClass
:aClass
end
def aClass1
:aClass1
end
def aClass2
:aClass2
end
private :aClass1
protected :aClass2
end
class BClass < AClass
def bClass1
:bClass1
end
private
def bClass2
:bClass2
end
protected
def bClass3
:bClass3
end
end
class CClass < BClass
def self.cClass
end
end
MyClass = AClass.clone
class MyClass
public_class_method :cm1
end
# -----------------------------------------------------------
def test_CMP # '<=>'
assert_equal( 0, Mixin <=> Mixin)
assert_equal(-1, User <=> Mixin)
assert_equal( 1, Mixin <=> User)
assert_equal( 0, Object <=> Object)
assert_equal(-1, String <=> Object)
assert_equal( 1, Object <=> String)
end
def test_GE # '>='
assert_operator(Mixin, :>=, User)
assert_operator(Mixin, :>=, Mixin)
assert_not_operator(User, :>=, Mixin)
assert_operator(Object, :>=, String)
assert_operator(String, :>=, String)
assert_not_operator(String, :>=, Object)
end
def test_GT # '>'
assert_operator(Mixin, :>, User)
assert_not_operator(Mixin, :>, Mixin)
assert_not_operator(User, :>, Mixin)
assert_operator(Object, :>, String)
assert_not_operator(String, :>, String)
assert_not_operator(String, :>, Object)
end
def test_LE # '<='
assert_operator(User, :<=, Mixin)
assert_operator(Mixin, :<=, Mixin)
assert_not_operator(Mixin, :<=, User)
assert_operator(String, :<=, Object)
assert_operator(String, :<=, String)
assert_not_operator(Object, :<=, String)
end
def test_LT # '<'
assert_operator(User, :<, Mixin)
assert_not_operator(Mixin, :<, Mixin)
assert_not_operator(Mixin, :<, User)
assert_operator(String, :<, Object)
assert_not_operator(String, :<, String)
assert_not_operator(Object, :<, String)
end
def test_VERY_EQUAL # '==='
assert_operator(Object, :===, self)
assert_operator(Test::Unit::TestCase, :===, self)
assert_operator(TestModule, :===, self)
assert_not_operator(String, :===, self)
end
def test_ancestors
assert_equal([User, Mixin], User.ancestors)
assert_equal([Mixin], Mixin.ancestors)
ancestors = Object.ancestors
mixins = ancestors - [Object, Kernel, BasicObject]
mixins << JSON::Ext::Generator::GeneratorMethods::String if defined?(JSON::Ext::Generator::GeneratorMethods::String)
assert_equal([Object, Kernel, BasicObject], ancestors - mixins)
assert_equal([String, Comparable, Object, Kernel, BasicObject], String.ancestors - mixins)
end
CLASS_EVAL = 2
@@class_eval = 'b'
def test_class_eval
OtherSetup.call
Other.class_eval("CLASS_EVAL = 1")
assert_equal(1, Other::CLASS_EVAL)
assert_include(Other.constants, :CLASS_EVAL)
assert_equal(2, Other.class_eval { CLASS_EVAL })
Other.class_eval("@@class_eval = 'a'")
assert_equal('a', Other.class_variable_get(:@@class_eval))
assert_equal('b', Other.class_eval { @@class_eval })
Other.class_eval do
module_function
def class_eval_test
"foo"
end
end
assert_equal("foo", Other.class_eval_test)
assert_equal([Other], Other.class_eval { |*args| args })
end
def test_const_defined?
assert_operator(Math, :const_defined?, :PI)
assert_operator(Math, :const_defined?, "PI")
assert_not_operator(Math, :const_defined?, :IP)
assert_not_operator(Math, :const_defined?, "IP")
end
def each_bad_constants(m, &b)
[
"#<Class:0x7b8b718b>",
":Object",
"",
":",
["String::", "[Bug #7573]"],
"\u3042",
"Name?",
].each do |name, msg|
expected = "wrong constant name %s" % name
msg = "#{msg}#{': ' if msg}wrong constant name #{name.dump}"
assert_raise_with_message(NameError, expected, "#{msg} to #{m}") do
yield name
end
end
end
def test_bad_constants_get
each_bad_constants("get") {|name|
Object.const_get name
}
end
def test_bad_constants_defined
each_bad_constants("defined?") {|name|
Object.const_defined? name
}
end
def test_leading_colons
assert_equal Object, AClass.const_get('::Object')
end
def test_const_get
assert_equal(Math::PI, Math.const_get("PI"))
assert_equal(Math::PI, Math.const_get(:PI))
n = Object.new
def n.to_str; @count = defined?(@count) ? @count + 1 : 1; "PI"; end
def n.count; @count; end
assert_equal(Math::PI, Math.const_get(n))
assert_equal(1, n.count)
end
def test_nested_get
OtherSetup.call
assert_equal Other, Object.const_get([self.class, 'Other'].join('::'))
assert_equal User::USER, self.class.const_get([User, 'USER'].join('::'))
assert_raise(NameError) {
Object.const_get([self.class.name, 'String'].join('::'))
}
end
def test_nested_get_symbol
OtherSetup.call
const = [self.class, Other].join('::').to_sym
assert_raise(NameError) {Object.const_get(const)}
const = [User, 'USER'].join('::').to_sym
assert_raise(NameError) {self.class.const_get(const)}
end
def test_nested_get_const_missing
classes = []
klass = Class.new {
define_singleton_method(:const_missing) { |name|
classes << name
klass
}
}
klass.const_get("Foo::Bar::Baz")
assert_equal [:Foo, :Bar, :Baz], classes
end
def test_nested_get_bad_class
assert_raise(TypeError) do
self.class.const_get([User, 'USER', 'Foo'].join('::'))
end
end
def test_nested_defined
OtherSetup.call
assert_send([Object, :const_defined?, [self.class.name, 'Other'].join('::')])
assert_send([self.class, :const_defined?, 'User::USER'])
assert_not_send([self.class, :const_defined?, 'User::Foo'])
assert_not_send([Object, :const_defined?, [self.class.name, 'String'].join('::')])
end
def test_nested_defined_symbol
OtherSetup.call
const = [self.class, Other].join('::').to_sym
assert_raise(NameError) {Object.const_defined?(const)}
const = [User, 'USER'].join('::').to_sym
assert_raise(NameError) {self.class.const_defined?(const)}
end
def test_nested_defined_inheritance
assert_send([Object, :const_defined?, [self.class.name, 'User', 'MIXIN'].join('::')])
assert_send([self.class, :const_defined?, 'User::MIXIN'])
assert_send([Object, :const_defined?, 'File::SEEK_SET'])
# const_defined? with `false`
assert_not_send([Object, :const_defined?, [self.class.name, 'User', 'MIXIN'].join('::'), false])
assert_not_send([self.class, :const_defined?, 'User::MIXIN', false])
assert_not_send([Object, :const_defined?, 'File::SEEK_SET', false])
end
def test_nested_defined_bad_class
assert_raise(TypeError) do
self.class.const_defined?('User::USER::Foo')
end
end
def test_const_set
OtherSetup.call
assert_not_operator(Other, :const_defined?, :KOALA)
Other.const_set(:KOALA, 99)
assert_operator(Other, :const_defined?, :KOALA)
assert_equal(99, Other::KOALA)
Other.const_set("WOMBAT", "Hi")
assert_equal("Hi", Other::WOMBAT)
n = Object.new
def n.to_str; @count = defined?(@count) ? @count + 1 : 1; "HOGE"; end
def n.count; @count; end
def n.count=(v); @count=v; end
assert_not_operator(Other, :const_defined?, :HOGE)
Other.const_set(n, 999)
assert_equal(1, n.count)
n.count = 0
assert_equal(999, Other.const_get(n))
assert_equal(1, n.count)
n.count = 0
assert_equal(true, Other.const_defined?(n))
assert_equal(1, n.count)
end
def test_constants
assert_equal([:MIXIN], Mixin.constants)
assert_equal([:MIXIN, :USER], User.constants.sort)
end
def test_self_initialize_copy
bug9535 = '[ruby-dev:47989] [Bug #9535]'
m = Module.new do
def foo
:ok
end
initialize_copy(self)
end
assert_equal(:ok, Object.new.extend(m).foo, bug9535)
end
def test_initialize_copy_empty
bug9813 = '[ruby-dev:48182] [Bug #9813]'
m = Module.new do
def x
end
const_set(:X, 1)
@x = 2
end
assert_equal([:x], m.instance_methods)
assert_equal([:@x], m.instance_variables)
assert_equal([:X], m.constants)
m.module_eval do
initialize_copy(Module.new)
end
assert_empty(m.instance_methods, bug9813)
assert_empty(m.instance_variables, bug9813)
assert_empty(m.constants, bug9813)
end
def test_dup
OtherSetup.call
bug6454 = '[ruby-core:45132]'
a = Module.new
Other.const_set :BUG6454, a
b = a.dup
Other.const_set :BUG6454_dup, b
assert_equal "TestModule::Other::BUG6454_dup", b.inspect, bug6454
end
def test_dup_anonymous
bug6454 = '[ruby-core:45132]'
a = Module.new
original = a.inspect
b = a.dup
assert_not_equal original, b.inspect, bug6454
end
def test_public_include
assert_nothing_raised('#8846') do
Module.new.include(Module.new { def foo; end }).instance_methods == [:foo]
end
end
def test_include_toplevel
assert_separately([], <<-EOS)
Mod = Module.new {def foo; :include_foo end}
TOPLEVEL_BINDING.eval('include Mod')
assert_equal(:include_foo, TOPLEVEL_BINDING.eval('foo'))
assert_equal([Object, Mod], Object.ancestors.slice(0, 2))
EOS
end
def test_include_with_no_args
assert_raise(ArgumentError) { Module.new { include } }
end
def test_prepend_self
m = Module.new
assert_equal([m], m.ancestors)
m.prepend(m) rescue nil
assert_equal([m], m.ancestors)
end
def test_bug17590
m = Module.new
c = Class.new
c.prepend(m)
c.include(m)
m.prepend(m) rescue nil
m2 = Module.new
m2.prepend(m)
c.include(m2)
assert_equal([m, c, m2] + Object.ancestors, c.ancestors)
end
def test_prepend_works_with_duped_classes
m = Module.new
a = Class.new do
def b; 2 end
prepend m
end
a2 = a.dup.new
a.class_eval do
alias _b b
def b; 1 end
end
assert_equal(2, a2.b)
end
def test_gc_prepend_chain
assert_separately([], <<-EOS)
10000.times { |i|
m1 = Module.new do
def foo; end
end
m2 = Module.new do
prepend m1
def bar; end
end
m3 = Module.new do
def baz; end
prepend m2
end
Class.new do
prepend m3
end
}
GC.start
EOS
end
def test_refine_module_then_include
assert_separately([], "#{<<~"end;"}\n")
module M
end
class C
include M
end
module RefinementBug
refine M do
def refined_method
:rm
end
end
end
using RefinementBug
class A
include M
end
assert_equal(:rm, C.new.refined_method)
end;
end
def test_include_into_module_already_included
c = Class.new{def foo; [:c] end}
modules = lambda do ||
sub = Class.new(c){def foo; [:sc] + super end}
[
Module.new{def foo; [:m1] + super end},
Module.new{def foo; [:m2] + super end},
Module.new{def foo; [:m3] + super end},
sub,
sub.new
]
end
m1, m2, m3, sc, o = modules.call
assert_equal([:sc, :c], o.foo)
sc.include m1
assert_equal([:sc, :m1, :c], o.foo)
m1.include m2
assert_equal([:sc, :m1, :m2, :c], o.foo)
m2.include m3
assert_equal([:sc, :m1, :m2, :m3, :c], o.foo)
m1, m2, m3, sc, o = modules.call
sc.prepend m1
assert_equal([:m1, :sc, :c], o.foo)
m1.include m2
assert_equal([:m1, :m2, :sc, :c], o.foo)
m2.include m3
assert_equal([:m1, :m2, :m3, :sc, :c], o.foo)
m1, m2, m3, sc, o = modules.call
sc.include m2
assert_equal([:sc, :m2, :c], o.foo)
sc.prepend m1
assert_equal([:m1, :sc, :m2, :c], o.foo)
m1.include m2
assert_equal([:m1, :sc, :m2, :c], o.foo)
m1.include m3
assert_equal([:m1, :m3, :sc, :m2, :c], o.foo)
m1, m2, m3, sc, o = modules.call
sc.include m3
sc.include m2
assert_equal([:sc, :m2, :m3, :c], o.foo)
sc.prepend m1
assert_equal([:m1, :sc, :m2, :m3, :c], o.foo)
m1.include m2
m1.include m3
assert_equal([:m1, :sc, :m2, :m3, :c], o.foo)
m1, m2, m3, sc, o = modules.call
assert_equal([:sc, :c], o.foo)
sc.prepend m1
assert_equal([:m1, :sc, :c], o.foo)
m1.prepend m2
assert_equal([:m2, :m1, :sc, :c], o.foo)
m2.prepend m3
assert_equal([:m3, :m2, :m1, :sc, :c], o.foo)
m1, m2, m3, sc, o = modules.call
sc.include m1
assert_equal([:sc, :m1, :c], o.foo)
sc.prepend m2
assert_equal([:m2, :sc, :m1, :c], o.foo)
sc.prepend m3
assert_equal([:m3, :m2, :sc, :m1, :c], o.foo)
m1, m2, m3, sc, o = modules.call
sc.include m1
assert_equal([:sc, :m1, :c], o.foo)
m2.prepend m3
m1.include m2
assert_equal([:sc, :m1, :m3, :m2, :c], o.foo)
end
def test_included_modules
assert_equal([], Mixin.included_modules)
assert_equal([Mixin], User.included_modules)
mixins = Object.included_modules - [Kernel]
mixins << JSON::Ext::Generator::GeneratorMethods::String if defined?(JSON::Ext::Generator::GeneratorMethods::String)
assert_equal([Kernel], Object.included_modules - mixins)
assert_equal([Comparable, Kernel], String.included_modules - mixins)
end
def test_included_modules_with_prepend
m1 = Module.new
m2 = Module.new
m3 = Module.new
m2.prepend m1
m3.include m2
assert_equal([m1, m2], m3.included_modules)
end
def test_include_with_prepend
c = Class.new{def m; [:c] end}
p = Module.new{def m; [:p] + super end}
q = Module.new{def m; [:q] + super end; include p}
r = Module.new{def m; [:r] + super end; prepend q}
s = Module.new{def m; [:s] + super end; include r}
a = Class.new(c){def m; [:a] + super end; prepend p; include s}
assert_equal([:p, :a, :s, :q, :r, :c], a.new.m)
end
def test_prepend_after_include
c = Class.new{def m; [:c] end}
sc = Class.new(c){def m; [:sc] + super end}
m = Module.new{def m; [:m] + super end}
sc.include m
sc.prepend m
sc.prepend m
assert_equal([:m, :sc, :m, :c], sc.new.m)
c = Class.new{def m; [:c] end}
sc = Class.new(c){def m; [:sc] + super end}
m0 = Module.new{def m; [:m0] + super end}
m1 = Module.new{def m; [:m1] + super end}
m1.prepend m0
sc.include m1
sc.prepend m1
assert_equal([:m0, :m1, :sc, :m0, :m1, :c], sc.new.m)
sc.prepend m
assert_equal([:m, :m0, :m1, :sc, :m0, :m1, :c], sc.new.m)
sc.prepend m1
assert_equal([:m, :m0, :m1, :sc, :m0, :m1, :c], sc.new.m)
c = Class.new{def m; [:c] end}
sc = Class.new(c){def m; [:sc] + super end}
m0 = Module.new{def m; [:m0] + super end}
m1 = Module.new{def m; [:m1] + super end}
m1.include m0
sc.include m1
sc.prepend m
sc.prepend m1
sc.prepend m1
assert_equal([:m1, :m0, :m, :sc, :m1, :m0, :c], sc.new.m)
end
def test_instance_methods
assert_equal([:user, :user2], User.instance_methods(false).sort)
assert_equal([:user, :user2, :mixin].sort, User.instance_methods(true).sort)
assert_equal([:mixin], Mixin.instance_methods)
assert_equal([:mixin], Mixin.instance_methods(true))
assert_equal([:cClass], (class << CClass; self; end).instance_methods(false))
assert_equal([], (class << BClass; self; end).instance_methods(false))
assert_equal([:cm2], (class << AClass; self; end).instance_methods(false))
assert_equal([:aClass, :aClass2], AClass.instance_methods(false).sort)
assert_equal([:aClass, :aClass2],
(AClass.instance_methods(true) - Object.instance_methods(true)).sort)
end
def test_method_defined?
[User, Class.new{include User}, Class.new{prepend User}].each do |klass|
[[], [true]].each do |args|
assert !klass.method_defined?(:wombat, *args)
assert klass.method_defined?(:mixin, *args)
assert klass.method_defined?(:user, *args)
assert klass.method_defined?(:user2, *args)
assert !klass.method_defined?(:user3, *args)
assert !klass.method_defined?("wombat", *args)
assert klass.method_defined?("mixin", *args)
assert klass.method_defined?("user", *args)
assert klass.method_defined?("user2", *args)
assert !klass.method_defined?("user3", *args)
end
end
end
def test_method_defined_without_include_super
assert User.method_defined?(:user, false)
assert !User.method_defined?(:mixin, false)
assert Mixin.method_defined?(:mixin, false)
User.const_set(:FOO, c = Class.new)
c.prepend(User)
assert !c.method_defined?(:user, false)
c.define_method(:user){}
assert c.method_defined?(:user, false)
assert !c.method_defined?(:mixin, false)
c.define_method(:mixin){}
assert c.method_defined?(:mixin, false)
assert !c.method_defined?(:userx, false)
c.define_method(:userx){}
assert c.method_defined?(:userx, false)
# cleanup
User.class_eval do
remove_const :FOO
end
end
def module_exec_aux
Proc.new do
def dynamically_added_method_3; end
end
end
def module_exec_aux_2(&block)
User.module_exec(&block)
end
def test_module_exec
User.module_exec do
def dynamically_added_method_1; end
end
assert_method_defined?(User, :dynamically_added_method_1)
block = Proc.new do
def dynamically_added_method_2; end
end
User.module_exec(&block)
assert_method_defined?(User, :dynamically_added_method_2)
User.module_exec(&module_exec_aux)
assert_method_defined?(User, :dynamically_added_method_3)
module_exec_aux_2 do
def dynamically_added_method_4; end
end
assert_method_defined?(User, :dynamically_added_method_4)
# cleanup
User.class_eval do
remove_method :dynamically_added_method_1
remove_method :dynamically_added_method_2
remove_method :dynamically_added_method_3
remove_method :dynamically_added_method_4
end
end
def test_module_eval
User.module_eval("MODULE_EVAL = 1")
assert_equal(1, User::MODULE_EVAL)
assert_include(User.constants, :MODULE_EVAL)
User.instance_eval("remove_const(:MODULE_EVAL)")
assert_not_include(User.constants, :MODULE_EVAL)
end
def test_name
assert_equal("Integer", Integer.name)
assert_equal("TestModule::Mixin", Mixin.name)
assert_equal("TestModule::User", User.name)
assert_predicate Integer.name, :frozen?
assert_predicate Mixin.name, :frozen?
assert_predicate User.name, :frozen?
end
def test_accidental_singleton_naming_with_module
o = Object.new
assert_nil(o.singleton_class.name)
class << o
module Hi; end
end
assert_nil(o.singleton_class.name)
end
def test_accidental_singleton_naming_with_class
o = Object.new
assert_nil(o.singleton_class.name)
class << o
class Hi; end
end
assert_nil(o.singleton_class.name)
end
def test_classpath
m = Module.new
n = Module.new
m.const_set(:N, n)
assert_nil(m.name)
assert_match(/::N$/, n.name)
assert_equal([:N], m.constants)
m.module_eval("module O end")
assert_equal([:N, :O], m.constants.sort)
m.module_eval("class C; end")
assert_equal([:C, :N, :O], m.constants.sort)
assert_match(/::N$/, m::N.name)
assert_match(/\A#<Module:.*>::O\z/, m::O.name)
assert_match(/\A#<Module:.*>::C\z/, m::C.name)
self.class.const_set(:M, m)
prefix = self.class.name + "::M::"
assert_equal(prefix+"N", m.const_get(:N).name)
assert_equal(prefix+"O", m.const_get(:O).name)
assert_equal(prefix+"C", m.const_get(:C).name)
c = m.class_eval("Bug15891 = Class.new.freeze")
assert_equal(prefix+"Bug15891", c.name)
ensure
self.class.class_eval {remove_const(:M)}
end
def test_private_class_method
assert_raise(ExpectedException) { AClass.cm1 }
assert_raise(ExpectedException) { AClass.cm3 }
assert_equal("cm1cm2cm3", AClass.cm2)
c = Class.new(AClass)
c.class_eval {private_class_method [:cm1, :cm2]}
assert_raise(NoMethodError, /private method/) {c.cm1}
assert_raise(NoMethodError, /private method/) {c.cm2}
end
def test_private_instance_methods
assert_equal([:aClass1], AClass.private_instance_methods(false))
assert_equal([:bClass2], BClass.private_instance_methods(false))
assert_equal([:aClass1, :bClass2],
(BClass.private_instance_methods(true) -
Object.private_instance_methods(true)).sort)
end
def test_protected_instance_methods
assert_equal([:aClass2], AClass.protected_instance_methods)
assert_equal([:bClass3], BClass.protected_instance_methods(false))
assert_equal([:bClass3, :aClass2].sort,
(BClass.protected_instance_methods(true) -
Object.protected_instance_methods(true)).sort)
end
def test_public_class_method
assert_equal("cm1", MyClass.cm1)
assert_equal("cm1cm2cm3", MyClass.cm2)
assert_raise(ExpectedException) { eval "MyClass.cm3" }
c = Class.new(AClass)
c.class_eval {public_class_method [:cm1, :cm2]}
assert_equal("cm1", c.cm1)
assert_equal("cm1cm2cm3", c.cm2)
end
def test_public_instance_methods
assert_equal([:aClass], AClass.public_instance_methods(false))
assert_equal([:bClass1], BClass.public_instance_methods(false))
end
def test_s_public
o = (c = Class.new(AClass)).new
assert_raise(NoMethodError, /private method/) {o.aClass1}
assert_raise(NoMethodError, /protected method/) {o.aClass2}
c.class_eval {public :aClass1}
assert_equal(:aClass1, o.aClass1)
o = (c = Class.new(AClass)).new
c.class_eval {public :aClass1, :aClass2}
assert_equal(:aClass1, o.aClass1)
assert_equal(:aClass2, o.aClass2)
o = (c = Class.new(AClass)).new
c.class_eval {public [:aClass1, :aClass2]}
assert_equal(:aClass1, o.aClass1)
assert_equal(:aClass2, o.aClass2)
o = AClass.new
assert_equal(:aClass, o.aClass)
assert_raise(NoMethodError, /private method/) {o.aClass1}
assert_raise(NoMethodError, /protected method/) {o.aClass2}
end
def test_s_private
o = (c = Class.new(AClass)).new
assert_equal(:aClass, o.aClass)
c.class_eval {private :aClass}
assert_raise(NoMethodError, /private method/) {o.aClass}
o = (c = Class.new(AClass)).new
c.class_eval {private :aClass, :aClass2}
assert_raise(NoMethodError, /private method/) {o.aClass}
assert_raise(NoMethodError, /private method/) {o.aClass2}
o = (c = Class.new(AClass)).new
c.class_eval {private [:aClass, :aClass2]}
assert_raise(NoMethodError, /private method/) {o.aClass}
assert_raise(NoMethodError, /private method/) {o.aClass2}
o = AClass.new
assert_equal(:aClass, o.aClass)
assert_raise(NoMethodError, /private method/) {o.aClass1}
assert_raise(NoMethodError, /protected method/) {o.aClass2}
end
def test_s_protected
aclass = Class.new(AClass) do
def _aClass(o) o.aClass; end
def _aClass1(o) o.aClass1; end
def _aClass2(o) o.aClass2; end
end
o = (c = Class.new(aclass)).new
assert_equal(:aClass, o.aClass)
c.class_eval {protected :aClass}
assert_raise(NoMethodError, /protected method/) {o.aClass}
assert_equal(:aClass, c.new._aClass(o))
o = (c = Class.new(aclass)).new
c.class_eval {protected :aClass, :aClass1}
assert_raise(NoMethodError, /protected method/) {o.aClass}
assert_raise(NoMethodError, /protected method/) {o.aClass1}
assert_equal(:aClass, c.new._aClass(o))
assert_equal(:aClass1, c.new._aClass1(o))
o = (c = Class.new(aclass)).new
c.class_eval {protected [:aClass, :aClass1]}
assert_raise(NoMethodError, /protected method/) {o.aClass}
assert_raise(NoMethodError, /protected method/) {o.aClass1}
assert_equal(:aClass, c.new._aClass(o))
assert_equal(:aClass1, c.new._aClass1(o))
o = AClass.new
assert_equal(:aClass, o.aClass)
assert_raise(NoMethodError, /private method/) {o.aClass1}
assert_raise(NoMethodError, /protected method/) {o.aClass2}
end
def test_s_constants
c1 = Module.constants
Object.module_eval "WALTER = 99"
c2 = Module.constants
assert_equal([:WALTER], c2 - c1)
Object.class_eval do
remove_const :WALTER
end
assert_equal([], Module.constants(true))
assert_equal([], Module.constants(false))
src = <<-INPUT
ary = Module.constants
module M
WALTER = 99
end
class Module
include M
end
p Module.constants - ary, Module.constants(true), Module.constants(false)
INPUT
assert_in_out_err([], src, %w([:M] [:WALTER] []), [])
klass = Class.new do
const_set(:X, 123)
end
assert_equal(false, klass.class_eval { Module.constants }.include?(:X))
assert_equal(false, Complex.constants(false).include?(:compatible))
end
module M1
$m1 = Module.nesting
module M2
$m2 = Module.nesting
end
end
def test_s_nesting
assert_equal([], $m0)
assert_equal([TestModule::M1, TestModule], $m1)
assert_equal([TestModule::M1::M2,
TestModule::M1, TestModule], $m2)
end
def test_s_new
m = Module.new
assert_instance_of(Module, m)
end
def test_freeze
m = Module.new do
def self.baz; end
def bar; end
end
m.freeze
assert_raise(FrozenError) do
m.module_eval do
def foo; end
end
end
assert_raise(FrozenError) do
m.__send__ :private, :bar
end
assert_raise(FrozenError) do
m.private_class_method :baz
end
end
def test_attr_obsoleted_flag
c = Class.new do
extend Test::Unit::Assertions
def initialize
@foo = :foo
@bar = :bar
end
assert_deprecated_warning(/optional boolean argument/) do
attr :foo, true
end
assert_deprecated_warning(/optional boolean argument/) do
attr :bar, false
end
end
o = c.new
assert_equal(true, o.respond_to?(:foo))
assert_equal(true, o.respond_to?(:foo=))
assert_equal(true, o.respond_to?(:bar))
assert_equal(false, o.respond_to?(:bar=))
end
def test_attr_public_at_toplevel
s = Object.new
TOPLEVEL_BINDING.eval(<<-END).call(s.singleton_class)
proc do |c|
c.send(:attr_accessor, :x)
c.send(:attr, :y)
c.send(:attr_reader, :z)
c.send(:attr_writer, :w)
end
END
assert_nil s.x
s.x = 1
assert_equal 1, s.x
assert_nil s.y
s.instance_variable_set(:@y, 2)
assert_equal 2, s.y
assert_nil s.z
s.instance_variable_set(:@z, 3)
assert_equal 3, s.z
s.w = 4
assert_equal 4, s.instance_variable_get(:@w)
end
def test_const_get_evaled
c1 = Class.new
c2 = Class.new(c1)
eval("c1::Foo = :foo")
assert_equal(:foo, c1::Foo)
assert_equal(:foo, c2::Foo)
assert_equal(:foo, c2.const_get(:Foo))
assert_raise(NameError) { c2.const_get(:Foo, false) }
c1.__send__(:remove_const, :Foo)
eval("c1::Foo = :foo")
assert_raise(NameError) { c1::Bar }
assert_raise(NameError) { c2::Bar }
assert_raise(NameError) { c2.const_get(:Bar) }
assert_raise(NameError) { c2.const_get(:Bar, false) }
assert_raise(NameError) { c2.const_get("Bar", false) }
assert_raise(NameError) { c2.const_get("BaR11", false) }
assert_raise(NameError) { Object.const_get("BaR11", false) }
c1.instance_eval do
def const_missing(x)
x
end
end
assert_equal(:Bar, c1::Bar)
assert_equal(:Bar, c2::Bar)
assert_equal(:Bar, c2.const_get(:Bar))
assert_equal(:Bar, c2.const_get(:Bar, false))
assert_equal(:Bar, c2.const_get("Bar"))
assert_equal(:Bar, c2.const_get("Bar", false))
v = c2.const_get("Bar11", false)
assert_equal("Bar11".to_sym, v)
assert_raise(NameError) { c1.const_get(:foo) }
end
def test_const_set_invalid_name
c1 = Class.new
assert_raise_with_message(NameError, /foo/) { c1.const_set(:foo, :foo) }
assert_raise_with_message(NameError, /bar/) { c1.const_set("bar", :foo) }
assert_raise_with_message(TypeError, /1/) { c1.const_set(1, :foo) }
assert_nothing_raised(NameError) { c1.const_set("X\u{3042}", :foo) }
assert_raise(NameError) { c1.const_set("X\u{3042}".encode("utf-16be"), :foo) }
assert_raise(NameError) { c1.const_set("X\u{3042}".encode("utf-16le"), :foo) }
assert_raise(NameError) { c1.const_set("X\u{3042}".encode("utf-32be"), :foo) }
assert_raise(NameError) { c1.const_set("X\u{3042}".encode("utf-32le"), :foo) }
cx = EnvUtil.labeled_class("X\u{3042}")
assert_raise_with_message(TypeError, /X\u{3042}/) { c1.const_set(cx, :foo) }
end
def test_const_get_invalid_name
c1 = Class.new
assert_raise(NameError) { c1.const_get(:foo) }
bug5084 = '[ruby-dev:44200]'
assert_raise(TypeError, bug5084) { c1.const_get(1) }
end
def test_const_defined_invalid_name
c1 = Class.new
assert_raise(NameError) { c1.const_defined?(:foo) }
bug5084 = '[ruby-dev:44200]'
assert_raise(TypeError, bug5084) { c1.const_defined?(1) }
end
def test_const_get_no_inherited
bug3422 = '[ruby-core:30719]'
assert_in_out_err([], <<-INPUT, %w[1 NameError A], [], bug3422)
BasicObject::A = 1
puts [true, false].map {|inh|
begin
Object.const_get(:A, inh)
rescue NameError => e
[e.class, e.name]
end
}
INPUT
end
def test_const_get_inherited
bug3423 = '[ruby-core:30720]'
assert_in_out_err([], <<-INPUT, %w[NameError A NameError A], [], bug3423)
module Foo; A = 1; end
class Object; include Foo; end
class Bar; include Foo; end
puts [Object, Bar].map {|klass|
begin
klass.const_get(:A, false)
rescue NameError => e
[e.class, e.name]
end
}
INPUT
end
def test_const_in_module
bug3423 = '[ruby-core:37698]'
assert_in_out_err([], <<-INPUT, %w[ok], [], bug3423)
module LangModuleSpecInObject
module LangModuleTop
end
end
include LangModuleSpecInObject
module LangModuleTop
end
puts "ok" if LangModuleSpecInObject::LangModuleTop == LangModuleTop
INPUT
bug5264 = '[ruby-core:39227]'
assert_in_out_err([], <<-'INPUT', [], [], bug5264)
class A
class X; end
end
class B < A
module X; end
end
INPUT
end
def test_class_variable_get
c = Class.new
c.class_eval('@@foo = :foo')
assert_equal(:foo, c.class_variable_get(:@@foo))
assert_raise(NameError) { c.class_variable_get(:@@bar) } # c.f. instance_variable_get
assert_raise(NameError) { c.class_variable_get(:'@@') }
assert_raise(NameError) { c.class_variable_get('@@') }
assert_raise(NameError) { c.class_variable_get(:foo) }
assert_raise(NameError) { c.class_variable_get("bar") }
assert_raise(TypeError) { c.class_variable_get(1) }
n = Object.new
def n.to_str; @count = defined?(@count) ? @count + 1 : 1; "@@foo"; end
def n.count; @count; end
assert_equal(:foo, c.class_variable_get(n))
assert_equal(1, n.count)
end
def test_class_variable_set
c = Class.new
c.class_variable_set(:@@foo, :foo)
assert_equal(:foo, c.class_eval('@@foo'))
assert_raise(NameError) { c.class_variable_set(:'@@', 1) }
assert_raise(NameError) { c.class_variable_set('@@', 1) }
assert_raise(NameError) { c.class_variable_set(:foo, 1) }
assert_raise(NameError) { c.class_variable_set("bar", 1) }
assert_raise(TypeError) { c.class_variable_set(1, 1) }
n = Object.new
def n.to_str; @count = defined?(@count) ? @count + 1 : 1; "@@foo"; end
def n.count; @count; end
c.class_variable_set(n, :bar)
assert_equal(:bar, c.class_eval('@@foo'))
assert_equal(1, n.count)
end
def test_class_variable_defined
c = Class.new
c.class_eval('@@foo = :foo')
assert_equal(true, c.class_variable_defined?(:@@foo))
assert_equal(false, c.class_variable_defined?(:@@bar))
assert_raise(NameError) { c.class_variable_defined?(:'@@') }
assert_raise(NameError) { c.class_variable_defined?('@@') }
assert_raise(NameError) { c.class_variable_defined?(:foo) }
assert_raise(NameError) { c.class_variable_defined?("bar") }
assert_raise(TypeError) { c.class_variable_defined?(1) }
n = Object.new
def n.to_str; @count = defined?(@count) ? @count + 1 : 1; "@@foo"; end
def n.count; @count; end
assert_equal(true, c.class_variable_defined?(n))
assert_equal(1, n.count)
end
def test_remove_class_variable
c = Class.new
c.class_eval('@@foo = :foo')
c.class_eval { remove_class_variable(:@@foo) }
assert_equal(false, c.class_variable_defined?(:@@foo))
assert_raise(NameError) do
c.class_eval { remove_class_variable(:@var) }
end
end
def test_export_method
m = Module.new
assert_raise(NameError) do
m.instance_eval { public(:foo) }
end
end
def test_attr
assert_in_out_err([], <<-INPUT, %w(nil))
$VERBOSE = true
c = Class.new
c.instance_eval do
private
attr_reader :foo
end
o = c.new
p(o.instance_eval { foo })
INPUT
c = Class.new
assert_raise(NameError) do
c.instance_eval { attr_reader :"." }
end
assert_equal([:a], c.class_eval { attr :a })
assert_equal([:b, :c], c.class_eval { attr :b, :c })
assert_equal([:d], c.class_eval { attr_reader :d })
assert_equal([:e, :f], c.class_eval { attr_reader :e, :f })
assert_equal([:g=], c.class_eval { attr_writer :g })
assert_equal([:h=, :i=], c.class_eval { attr_writer :h, :i })
assert_equal([:j, :j=], c.class_eval { attr_accessor :j })
assert_equal([:k, :k=, :l, :l=], c.class_eval { attr_accessor :k, :l })
end
def test_alias_method
c = Class.new do
def foo; :foo end
end
o = c.new
assert_respond_to(o, :foo)
assert_not_respond_to(o, :bar)
r = c.class_eval {alias_method :bar, :foo}
assert_respond_to(o, :bar)
assert_equal(:foo, o.bar)
assert_equal(:bar, r)
end
def test_undef
c = Class.new
assert_raise(NameError) do
c.instance_eval { undef_method(:foo) }
end
m = Module.new
assert_raise(NameError) do
m.instance_eval { undef_method(:foo) }
end
o = Object.new
assert_raise(NameError) do
class << o; self; end.instance_eval { undef_method(:foo) }
end
%w(object_id __send__ initialize).each do |n|
assert_in_out_err([], <<-INPUT, [], %r"warning: undefining `#{n}' may cause serious problems$")
$VERBOSE = false
Class.new.instance_eval { undef_method(:#{n}) }
INPUT
end
end
def test_alias
m = Module.new
assert_raise(NameError) do
m.class_eval { alias foo bar }
end
assert_in_out_err([], <<-INPUT, %w(2), /discarding old foo$/)
$VERBOSE = true
c = Class.new
c.class_eval do
def foo; 1; end
def bar; 2; end
end
c.class_eval { alias foo bar }
p c.new.foo
INPUT
end
def test_mod_constants
m = Module.new
m.const_set(:Foo, :foo)
assert_equal([:Foo], m.constants(true))
assert_equal([:Foo], m.constants(false))
m.instance_eval { remove_const(:Foo) }
end
class Bug9413
class << self
Foo = :foo
end
end
def test_singleton_constants
bug9413 = '[ruby-core:59763] [Bug #9413]'
c = Bug9413.singleton_class
assert_include(c.constants(true), :Foo, bug9413)
assert_include(c.constants(false), :Foo, bug9413)
end
def test_frozen_module
m = Module.new
m.freeze
assert_raise(FrozenError) do
m.instance_eval { undef_method(:foo) }
end
end
def test_frozen_class
c = Class.new
c.freeze
assert_raise(FrozenError) do
c.instance_eval { undef_method(:foo) }
end
end
def test_frozen_singleton_class
klass = Class.new
o = klass.new
c = class << o; self; end
c.freeze
assert_raise_with_message(FrozenError, /frozen/) do
c.instance_eval { undef_method(:foo) }
end
klass.class_eval do
def self.foo
end
end
end
def test_method_defined
cl = Class.new
def_methods = proc do
def foo; end
def bar; end
def baz; end
public :foo
protected :bar
private :baz
end
cl.class_eval(&def_methods)
sc = Class.new(cl)
mod = Module.new(&def_methods)
only_prepend = Class.new{prepend(mod)}
empty_prepend = cl.clone
empty_prepend.prepend(Module.new)
overlap_prepend = cl.clone
overlap_prepend.prepend(mod)
[[], [true], [false]].each do |args|
[cl, sc, only_prepend, empty_prepend, overlap_prepend].each do |c|
always_false = [sc, only_prepend].include?(c) && args == [false]
assert_equal(always_false ? false : true, c.public_method_defined?(:foo, *args))
assert_equal(always_false ? false : false, c.public_method_defined?(:bar, *args))
assert_equal(always_false ? false : false, c.public_method_defined?(:baz, *args))
# Test if string arguments are converted to symbols
assert_equal(always_false ? false : true, c.public_method_defined?("foo", *args))
assert_equal(always_false ? false : false, c.public_method_defined?("bar", *args))
assert_equal(always_false ? false : false, c.public_method_defined?("baz", *args))
assert_equal(always_false ? false : false, c.protected_method_defined?(:foo, *args))
assert_equal(always_false ? false : true, c.protected_method_defined?(:bar, *args))
assert_equal(always_false ? false : false, c.protected_method_defined?(:baz, *args))
# Test if string arguments are converted to symbols
assert_equal(always_false ? false : false, c.protected_method_defined?("foo", *args))
assert_equal(always_false ? false : true, c.protected_method_defined?("bar", *args))
assert_equal(always_false ? false : false, c.protected_method_defined?("baz", *args))
assert_equal(always_false ? false : false, c.private_method_defined?(:foo, *args))
assert_equal(always_false ? false : false, c.private_method_defined?(:bar, *args))
assert_equal(always_false ? false : true, c.private_method_defined?(:baz, *args))
# Test if string arguments are converted to symbols
assert_equal(always_false ? false : false, c.private_method_defined?("foo", *args))
assert_equal(always_false ? false : false, c.private_method_defined?("bar", *args))
assert_equal(always_false ? false : true, c.private_method_defined?("baz", *args))
end
end
end
def test_top_public_private
assert_in_out_err([], <<-INPUT, %w([:foo] [:bar] [:bar,\ :foo] [] [:bar,\ :foo] []), [])
private
def foo; :foo; end
public
def bar; :bar; end
p self.private_methods.grep(/^foo$|^bar$/)
p self.methods.grep(/^foo$|^bar$/)
private :foo, :bar
p self.private_methods.grep(/^foo$|^bar$/).sort
public :foo, :bar
p self.private_methods.grep(/^foo$|^bar$/).sort
private [:foo, :bar]
p self.private_methods.grep(/^foo$|^bar$/).sort
public [:foo, :bar]
p self.private_methods.grep(/^foo$|^bar$/).sort
INPUT
end
def test_append_features
t = nil
m = Module.new
m.module_eval do
def foo; :foo; end
end
class << m; self; end.class_eval do
define_method(:append_features) do |mod|
t = mod
super(mod)
end
end
m2 = Module.new
m2.module_eval { include(m) }
assert_equal(m2, t)
o = Object.new
o.extend(m2)
assert_equal(true, o.respond_to?(:foo))
end
def test_append_features_raise
m = Module.new
m.module_eval do
def foo; :foo; end
end
class << m; self; end.class_eval do
define_method(:append_features) {|mod| raise }
end
m2 = Module.new
assert_raise(RuntimeError) do
m2.module_eval { include(m) }
end
o = Object.new
o.extend(m2)
assert_equal(false, o.respond_to?(:foo))
end
def test_append_features_type_error
assert_raise(TypeError) do
Module.new.instance_eval { append_features(1) }
end
end
def test_included
m = Module.new
m.module_eval do
def foo; :foo; end
end
class << m; self; end.class_eval do
define_method(:included) {|mod| raise }
end
m2 = Module.new
assert_raise(RuntimeError) do
m2.module_eval { include(m) }
end
o = Object.new
o.extend(m2)
assert_equal(true, o.respond_to?(:foo))
end
def test_cyclic_include
m1 = Module.new
m2 = Module.new
m1.instance_eval { include(m2) }
assert_raise(ArgumentError) do
m2.instance_eval { include(m1) }
end
end
def test_include_p
m = Module.new
c1 = Class.new
c1.instance_eval { include(m) }
c2 = Class.new(c1)
assert_equal(true, c1.include?(m))
assert_equal(true, c2.include?(m))
assert_equal(false, m.include?(m))
end
def test_send
a = AClass.new
assert_equal(:aClass, a.__send__(:aClass))
assert_equal(:aClass1, a.__send__(:aClass1))
assert_equal(:aClass2, a.__send__(:aClass2))
b = BClass.new
assert_equal(:aClass, b.__send__(:aClass))
assert_equal(:aClass1, b.__send__(:aClass1))
assert_equal(:aClass2, b.__send__(:aClass2))
assert_equal(:bClass1, b.__send__(:bClass1))
assert_equal(:bClass2, b.__send__(:bClass2))
assert_equal(:bClass3, b.__send__(:bClass3))
end
def test_nonascii_name
c = eval("class ::C\u{df}; self; end")
assert_equal("C\u{df}", c.name, '[ruby-core:24600]')
c = eval("class C\u{df}; self; end")
assert_equal("TestModule::C\u{df}", c.name, '[ruby-core:24600]')
c = Module.new.module_eval("class X\u{df} < Module; self; end")
assert_match(/::X\u{df}:/, c.new.to_s)
end
def test_method_added
memo = []
mod = Module.new do
mod = self
(class << self ; self ; end).class_eval do
define_method :method_added do |sym|
memo << sym
memo << mod.instance_methods(false)
memo << (mod.instance_method(sym) rescue nil)
end
end
def f
end
alias g f
attr_reader :a
attr_writer :a
end
assert_equal :f, memo.shift
assert_equal [:f], memo.shift, '[ruby-core:25536]'
assert_equal mod.instance_method(:f), memo.shift
assert_equal :g, memo.shift
assert_equal [:f, :g].sort, memo.shift.sort
assert_equal mod.instance_method(:f), memo.shift
assert_equal :a, memo.shift
assert_equal [:f, :g, :a].sort, memo.shift.sort
assert_equal mod.instance_method(:a), memo.shift
assert_equal :a=, memo.shift
assert_equal [:f, :g, :a, :a=].sort, memo.shift.sort
assert_equal mod.instance_method(:a=), memo.shift
end
def test_method_undefined
added = []
undefed = []
removed = []
mod = Module.new do
mod = self
def f
end
(class << self ; self ; end).class_eval do
define_method :method_added do |sym|
added << sym
end
define_method :method_undefined do |sym|
undefed << sym
end
define_method :method_removed do |sym|
removed << sym
end
end
end
assert_method_defined?(mod, :f)
mod.module_eval do
undef :f
end
assert_equal [], added
assert_equal [:f], undefed
assert_equal [], removed
end
def test_method_removed
added = []
undefed = []
removed = []
mod = Module.new do
mod = self
def f
end
(class << self ; self ; end).class_eval do
define_method :method_added do |sym|
added << sym
end
define_method :method_undefined do |sym|
undefed << sym
end
define_method :method_removed do |sym|
removed << sym
end
end
end
assert_method_defined?(mod, :f)
mod.module_eval do
remove_method :f
end
assert_equal [], added
assert_equal [], undefed
assert_equal [:f], removed
end
def test_method_redefinition
feature2155 = '[ruby-dev:39400]'
line = __LINE__+4
stderr = EnvUtil.verbose_warning do
Module.new do
def foo; end
def foo; end
end
end
assert_match(/:#{line}: warning: method redefined; discarding old foo/, stderr)
assert_match(/:#{line-1}: warning: previous definition of foo/, stderr, feature2155)
assert_warning '' do
Module.new do
def foo; end
alias bar foo
def foo; end
end
end
assert_warning '' do
Module.new do
def foo; end
alias bar foo
alias bar foo
end
end
line = __LINE__+4
stderr = EnvUtil.verbose_warning do
Module.new do
define_method(:foo) do end
def foo; end
end
end
assert_match(/:#{line}: warning: method redefined; discarding old foo/, stderr)
assert_match(/:#{line-1}: warning: previous definition of foo/, stderr, feature2155)
assert_warning '' do
Module.new do
define_method(:foo) do end
alias bar foo
alias bar foo
end
end
assert_warning('', '[ruby-dev:39397]') do
Module.new do
module_function
def foo; end
module_function :foo
end
end
assert_warning '' do
Module.new do
def foo; end
undef foo
end
end
stderr = EnvUtil.verbose_warning do
Module.new do
def foo; end
mod = self
c = Class.new do
include mod
end
c.new.foo
def foo; end
end
end
assert_match(/: warning: method redefined; discarding old foo/, stderr)
assert_match(/: warning: previous definition of foo/, stderr)
end
def test_module_function_inside_method
assert_warn(/calling module_function without arguments inside a method may not have the intended effect/, '[ruby-core:79751]') do
Module.new do
def self.foo
module_function
end
foo
end
end
end
def test_protected_singleton_method
klass = Class.new
x = klass.new
class << x
protected
def foo
end
end
assert_raise(NoMethodError) do
x.foo
end
klass.send(:define_method, :bar) do
x.foo
end
assert_nothing_raised do
x.bar
end
y = klass.new
assert_raise(NoMethodError) do
y.bar
end
end
def test_uninitialized_toplevel_constant
bug3123 = '[ruby-dev:40951]'
e = assert_raise(NameError) {eval("Bug3123", TOPLEVEL_BINDING)}
assert_not_match(/Object::/, e.message, bug3123)
end
def test_attr_inherited_visibility
bug3406 = '[ruby-core:30638]'
c = Class.new do
class << self
private
def attr_accessor(*); super; end
end
attr_accessor :x
end.new
assert_nothing_raised(bug3406) {c.x = 1}
assert_equal(1, c.x, bug3406)
end
def test_attr_writer_with_no_arguments
bug8540 = "[ruby-core:55543]"
c = Class.new do
attr_writer :foo
end
assert_raise(ArgumentError, bug8540) { c.new.send :foo= }
end
def test_private_constant_in_class
c = Class.new
c.const_set(:FOO, "foo")
assert_equal("foo", c::FOO)
c.private_constant(:FOO)
e = assert_raise(NameError) {c::FOO}
assert_equal(c, e.receiver)
assert_equal(:FOO, e.name)
assert_equal("foo", c.class_eval("FOO"))
assert_equal("foo", c.const_get("FOO"))
$VERBOSE, verbose = nil, $VERBOSE
c.const_set(:FOO, "foo")
$VERBOSE = verbose
e = assert_raise(NameError) {c::FOO}
assert_equal(c, e.receiver)
assert_equal(:FOO, e.name)
e = assert_raise_with_message(NameError, /#{c}::FOO/) do
Class.new(c)::FOO
end
assert_equal(c, e.receiver)
assert_equal(:FOO, e.name)
end
def test_private_constant_in_module
m = Module.new
m.const_set(:FOO, "foo")
assert_equal("foo", m::FOO)
m.private_constant(:FOO)
e = assert_raise(NameError) {m::FOO}
assert_equal(m, e.receiver)
assert_equal(:FOO, e.name)
assert_equal("foo", m.class_eval("FOO"))
assert_equal("foo", m.const_get("FOO"))
$VERBOSE, verbose = nil, $VERBOSE
m.const_set(:FOO, "foo")
$VERBOSE = verbose
e = assert_raise(NameError) {m::FOO}
assert_equal(m, e.receiver)
assert_equal(:FOO, e.name)
e = assert_raise(NameError, /#{m}::FOO/) do
Module.new {include m}::FOO
end
assert_equal(m, e.receiver)
assert_equal(:FOO, e.name)
e = assert_raise(NameError, /#{m}::FOO/) do
Class.new {include m}::FOO
end
assert_equal(m, e.receiver)
assert_equal(:FOO, e.name)
end
def test_private_constant2
c = Class.new
c.const_set(:FOO, "foo")
c.const_set(:BAR, "bar")
assert_equal("foo", c::FOO)
assert_equal("bar", c::BAR)
c.private_constant(:FOO, :BAR)
assert_raise(NameError) { c::FOO }
assert_raise(NameError) { c::BAR }
assert_equal("foo", c.class_eval("FOO"))
assert_equal("bar", c.class_eval("BAR"))
end
def test_private_constant_with_no_args
assert_in_out_err([], <<-RUBY, [], ["-:3: warning: private_constant with no argument is just ignored"])
$-w = true
class X
private_constant
end
RUBY
end
def test_private_constant_const_missing
c = Class.new
c.const_set(:FOO, "foo")
c.private_constant(:FOO)
class << c
attr_reader :const_missing_arg
def const_missing(name)
@const_missing_arg = name
name == :FOO ? const_get(:FOO) : super
end
end
assert_equal("foo", c::FOO)
assert_equal(:FOO, c.const_missing_arg)
end
class PrivateClass
end
private_constant :PrivateClass
def test_define_module_under_private_constant
assert_raise(NameError) do
eval %q{class TestModule::PrivateClass; end}
end
assert_raise(NameError) do
eval %q{module TestModule::PrivateClass::TestModule; end}
end
eval %q{class PrivateClass; end}
eval %q{module PrivateClass::TestModule; end}
assert_instance_of(Module, PrivateClass::TestModule)
PrivateClass.class_eval { remove_const(:TestModule) }
end
def test_public_constant
c = Class.new
c.const_set(:FOO, "foo")
assert_equal("foo", c::FOO)
c.private_constant(:FOO)
assert_raise(NameError) { c::FOO }
assert_equal("foo", c.class_eval("FOO"))
c.public_constant(:FOO)
assert_equal("foo", c::FOO)
end
def test_deprecate_constant
c = Class.new
c.const_set(:FOO, "foo")
c.deprecate_constant(:FOO)
assert_warn(/deprecated/) do
Warning[:deprecated] = true
c::FOO
end
assert_warn(/#{c}::FOO is deprecated/) do
Warning[:deprecated] = true
Class.new(c)::FOO
end
bug12382 = '[ruby-core:75505] [Bug #12382]'
assert_warn(/deprecated/, bug12382) do
Warning[:deprecated] = true
c.class_eval "FOO"
end
assert_warn('') do
Warning[:deprecated] = false
c::FOO
end
assert_warn('') do
Warning[:deprecated] = false
Class.new(c)::FOO
end
assert_warn('') do
Warning[:deprecated] = false
c.class_eval "FOO"
end
end
def test_constants_with_private_constant
assert_not_include(::TestModule.constants, :PrivateClass)
assert_not_include(::TestModule.constants(true), :PrivateClass)
assert_not_include(::TestModule.constants(false), :PrivateClass)
end
def test_toplevel_private_constant
src = <<-INPUT
class Object
private_constant :Object
end
p Object
begin
p ::Object
rescue
p :ok
end
INPUT
assert_in_out_err([], src, %w(Object :ok), [])
end
def test_private_constants_clear_inlinecache
bug5702 = '[ruby-dev:44929]'
src = <<-INPUT
class A
C = :Const
def self.get_C
A::C
end
# fill cache
A.get_C
private_constant :C, :D rescue nil
begin
A.get_C
rescue NameError
puts "A.get_C"
end
end
INPUT
assert_in_out_err([], src, %w(A.get_C), [], bug5702)
end
def test_constant_lookup_in_method_defined_by_class_eval
src = <<-INPUT
class A
B = 42
end
A.class_eval do
def self.f
B
end
def f
B
end
end
begin
A.f
rescue NameError
puts "A.f"
end
begin
A.new.f
rescue NameError
puts "A.new.f"
end
INPUT
assert_in_out_err([], src, %w(A.f A.new.f), [])
end
def test_constant_lookup_in_toplevel_class_eval
src = <<-INPUT
module X
A = 123
end
begin
X.class_eval { A }
rescue NameError => e
puts e
end
INPUT
assert_in_out_err([], src, ["uninitialized constant A"], [])
end
def test_constant_lookup_in_module_in_class_eval
src = <<-INPUT
class A
B = 42
end
A.class_eval do
module C
begin
B
rescue NameError
puts "NameError"
end
end
end
INPUT
assert_in_out_err([], src, ["NameError"], [])
end
module M0
def m1; [:M0] end
end
module M1
def m1; [:M1, *super] end
end
module M2
def m1; [:M2, *super] end
end
M3 = Module.new do
def m1; [:M3, *super] end
end
module M4
def m1; [:M4, *super] end
end
class C
def m1; end
end
class C0 < C
include M0
prepend M1
def m1; [:C0, *super] end
end
class C1 < C0
prepend M2, M3
include M4
def m1; [:C1, *super] end
end
def test_prepend
obj = C0.new
expected = [:M1,:C0,:M0]
assert_equal(expected, obj.m1)
obj = C1.new
expected = [:M2,:M3,:C1,:M4,:M1,:C0,:M0]
assert_equal(expected, obj.m1)
end
def test_public_prepend
assert_nothing_raised('#8846') do
Class.new.prepend(Module.new)
end
end
def test_prepend_CMP
bug11878 = '[ruby-core:72493] [Bug #11878]'
assert_equal(-1, C1 <=> M2)
assert_equal(+1, M2 <=> C1, bug11878)
end
def test_prepend_inheritance
bug6654 = '[ruby-core:45914]'
a = labeled_module("a")
b = labeled_module("b") {include a}
c = labeled_class("c") {prepend b}
assert_operator(c, :<, b, bug6654)
assert_operator(c, :<, a, bug6654)
bug8357 = '[ruby-core:54736] [Bug #8357]'
b = labeled_module("b") {prepend a}
c = labeled_class("c") {include b}
assert_operator(c, :<, b, bug8357)
assert_operator(c, :<, a, bug8357)
bug8357 = '[ruby-core:54742] [Bug #8357]'
assert_kind_of(b, c.new, bug8357)
end
def test_prepend_instance_methods
bug6655 = '[ruby-core:45915]'
assert_equal(Object.instance_methods, Class.new {prepend Module.new}.instance_methods, bug6655)
end
def test_prepend_singleton_methods
o = Object.new
o.singleton_class.class_eval {prepend Module.new}
assert_equal([], o.singleton_methods)
end
def test_prepend_remove_method
c = Class.new do
prepend Module.new {def foo; end}
end
assert_raise(NameError) do
c.class_eval do
remove_method(:foo)
end
end
c.class_eval do
def foo; end
end
removed = nil
c.singleton_class.class_eval do
define_method(:method_removed) {|id| removed = id}
end
assert_nothing_raised(NoMethodError, NameError, '[Bug #7843]') do
c.class_eval do
remove_method(:foo)
end
end
assert_equal(:foo, removed)
end
def test_prepend_class_ancestors
bug6658 = '[ruby-core:45919]'
m = labeled_module("m")
c = labeled_class("c") {prepend m}
assert_equal([m, c], c.ancestors[0, 2], bug6658)
bug6662 = '[ruby-dev:45868]'
c2 = labeled_class("c2", c)
anc = c2.ancestors
assert_equal([c2, m, c, Object], anc[0..anc.index(Object)], bug6662)
end
def test_prepend_module_ancestors
bug6659 = '[ruby-dev:45861]'
m0 = labeled_module("m0") {def x; [:m0, *super] end}
m1 = labeled_module("m1") {def x; [:m1, *super] end; prepend m0}
m2 = labeled_module("m2") {def x; [:m2, *super] end; prepend m1}
c0 = labeled_class("c0") {def x; [:c0] end}
c1 = labeled_class("c1") {def x; [:c1] end; prepend m2}
c2 = labeled_class("c2", c0) {def x; [:c2, *super] end; include m2}
assert_equal([m0, m1], m1.ancestors, bug6659)
bug6662 = '[ruby-dev:45868]'
assert_equal([m0, m1, m2], m2.ancestors, bug6662)
assert_equal([m0, m1, m2, c1], c1.ancestors[0, 4], bug6662)
assert_equal([:m0, :m1, :m2, :c1], c1.new.x)
assert_equal([c2, m0, m1, m2, c0], c2.ancestors[0, 5], bug6662)
assert_equal([:c2, :m0, :m1, :m2, :c0], c2.new.x)
m3 = labeled_module("m3") {include m1; prepend m1}
assert_equal([m0, m1, m3, m0, m1], m3.ancestors)
m3 = labeled_module("m3") {prepend m1; include m1}
assert_equal([m0, m1, m3], m3.ancestors)
m3 = labeled_module("m3") {prepend m1; prepend m1}
assert_equal([m0, m1, m3], m3.ancestors)
m3 = labeled_module("m3") {include m1; include m1}
assert_equal([m3, m0, m1], m3.ancestors)
end
def labeled_module(name, &block)
EnvUtil.labeled_module(name, &block)
end
def labeled_class(name, superclass = Object, &block)
EnvUtil.labeled_class(name, superclass, &block)
end
def test_prepend_instance_methods_false
bug6660 = '[ruby-dev:45863]'
assert_equal([:m1], Class.new{ prepend Module.new; def m1; end }.instance_methods(false), bug6660)
assert_equal([:m1], Class.new(Class.new{def m2;end}){ prepend Module.new; def m1; end }.instance_methods(false), bug6660)
end
def test_cyclic_prepend
bug7841 = '[ruby-core:52205] [Bug #7841]'
m1 = Module.new
m2 = Module.new
m1.instance_eval { prepend(m2) }
assert_raise(ArgumentError, bug7841) do
m2.instance_eval { prepend(m1) }
end
end
def test_prepend_optmethod
bug7983 = '[ruby-dev:47124] [Bug #7983]'
assert_separately [], %{
module M
def /(other)
to_f / other
end
end
Integer.send(:prepend, M)
assert_equal(0.5, 1 / 2, "#{bug7983}")
}
assert_equal(0, 1 / 2)
end
def test_redefine_optmethod_after_prepend
bug11826 = '[ruby-core:72188] [Bug #11826]'
assert_separately [], %{
module M
end
class Integer
prepend M
def /(other)
quo(other)
end
end
assert_equal(1 / 2r, 1 / 2, "#{bug11826}")
}, ignore_stderr: true
assert_equal(0, 1 / 2)
end
def test_override_optmethod_after_prepend
bug11836 = '[ruby-core:72226] [Bug #11836]'
assert_separately [], %{
module M
end
class Integer
prepend M
end
module M
def /(other)
quo(other)
end
end
assert_equal(1 / 2r, 1 / 2, "#{bug11836}")
}, ignore_stderr: true
assert_equal(0, 1 / 2)
end
def test_prepend_visibility
bug8005 = '[ruby-core:53106] [Bug #8005]'
c = Class.new do
prepend Module.new {}
def foo() end
protected :foo
end
a = c.new
assert_respond_to a, [:foo, true], bug8005
assert_nothing_raised(NoMethodError, bug8005) {a.send :foo}
end
def test_prepend_visibility_inherited
bug8238 = '[ruby-core:54105] [Bug #8238]'
assert_separately [], <<-"end;", timeout: 20
class A
def foo() A; end
private :foo
end
class B < A
public :foo
prepend Module.new
end
assert_equal(A, B.new.foo, "#{bug8238}")
end;
end
def test_prepend_included_modules
bug8025 = '[ruby-core:53158] [Bug #8025]'
mixin = labeled_module("mixin")
c = labeled_module("c") {prepend mixin}
im = c.included_modules
assert_not_include(im, c, bug8025)
assert_include(im, mixin, bug8025)
c1 = labeled_class("c1") {prepend mixin}
c2 = labeled_class("c2", c1)
im = c2.included_modules
assert_not_include(im, c1, bug8025)
assert_not_include(im, c2, bug8025)
assert_include(im, mixin, bug8025)
end
def test_prepended_module_with_super_and_alias
bug16736 = '[Bug #16736]'
a = labeled_class("A") do
def m; "A"; end
end
m = labeled_module("M") do
prepend Module.new
def self.included(base)
base.alias_method :base_m, :m
end
def m
super + "M"
end
def m2
base_m
end
end
b = labeled_class("B", a) do
include m
end
assert_equal("AM", b.new.m2, bug16736)
end
def test_prepend_super_in_alias
bug7842 = '[Bug #7842]'
p = labeled_module("P") do
def m; "P"+super; end
end
a = labeled_class("A") do
def m; "A"; end
end
b = labeled_class("B", a) do
def m; "B"+super; end
alias m2 m
prepend p
alias m3 m
end
assert_equal("BA", b.new.m2, bug7842)
assert_equal("PBA", b.new.m3, bug7842)
end
def test_include_super_in_alias
bug9236 = '[Bug #9236]'
fun = labeled_module("Fun") do
def hello
orig_hello
end
end
m1 = labeled_module("M1") do
def hello
'hello!'
end
end
m2 = labeled_module("M2") do
def hello
super
end
end
foo = labeled_class("Foo") do
include m1
include m2
alias orig_hello hello
include fun
end
assert_equal('hello!', foo.new.hello, bug9236)
end
def test_prepend_each_classes
m = labeled_module("M")
c1 = labeled_class("C1") {prepend m}
c2 = labeled_class("C2", c1) {prepend m}
assert_equal([m, c2, m, c1], c2.ancestors[0, 4], "should be able to prepend each classes")
end
def test_prepend_no_duplication
m = labeled_module("M")
c = labeled_class("C") {prepend m; prepend m}
assert_equal([m, c], c.ancestors[0, 2], "should never duplicate")
end
def test_prepend_in_superclass
m = labeled_module("M")
c1 = labeled_class("C1")
c2 = labeled_class("C2", c1) {prepend m}
c1.class_eval {prepend m}
assert_equal([m, c2, m, c1], c2.ancestors[0, 4], "should accesisble prepended module in superclass")
end
def test_prepend_call_super
assert_separately([], <<-'end;') #do
bug10847 = '[ruby-core:68093] [Bug #10847]'
module M; end
Float.prepend M
assert_nothing_raised(SystemStackError, bug10847) do
0.3.numerator
end
end;
end
def test_prepend_module_with_no_args
assert_raise(ArgumentError) { Module.new { prepend } }
end
def test_prepend_private_super
wrapper = Module.new do
def wrapped
super + 1
end
end
klass = Class.new do
prepend wrapper
def wrapped
1
end
private :wrapped
end
assert_equal(2, klass.new.wrapped)
end
def test_class_variables
m = Module.new
m.class_variable_set(:@@foo, 1)
m2 = Module.new
m2.send(:include, m)
m2.class_variable_set(:@@bar, 2)
assert_equal([:@@foo], m.class_variables)
assert_equal([:@@bar, :@@foo], m2.class_variables.sort)
assert_equal([:@@bar, :@@foo], m2.class_variables(true).sort)
assert_equal([:@@bar], m2.class_variables(false))
end
def test_class_variable_in_dup_class
a = Class.new do
@@a = 'A'
def a=(x)
@@a = x
end
def a
@@a
end
end
b = a.dup
b.new.a = 'B'
assert_equal 'A', a.new.a, '[ruby-core:17019]'
end
Bug6891 = '[ruby-core:47241]'
def test_extend_module_with_protected_method
list = []
x = Class.new {
@list = list
extend Module.new {
protected
def inherited(klass)
@list << "protected"
super(klass)
end
}
extend Module.new {
def inherited(klass)
@list << "public"
super(klass)
end
}
}
assert_nothing_raised(NoMethodError, Bug6891) {Class.new(x)}
assert_equal(['public', 'protected'], list)
end
def test_extend_module_with_protected_bmethod
list = []
x = Class.new {
extend Module.new {
protected
define_method(:inherited) do |klass|
list << "protected"
super(klass)
end
}
extend Module.new {
define_method(:inherited) do |klass|
list << "public"
super(klass)
end
}
}
assert_nothing_raised(NoMethodError, Bug6891) {Class.new(x)}
assert_equal(['public', 'protected'], list)
end
def test_extend_module_with_no_args
assert_raise(ArgumentError) { Module.new { extend } }
end
def test_invalid_attr
%W[
foo?
@foo
@@foo
$foo
\u3042$
].each do |name|
e = assert_raise(NameError) do
Module.new { attr_accessor name.to_sym }
end
assert_equal(name, e.name.to_s)
end
end
class AttrTest
class << self
attr_accessor :cattr
def reset
self.cattr = nil
end
end
attr_accessor :iattr
def ivar
@ivar
end
end
def test_uninitialized_instance_variable
a = AttrTest.new
assert_warning('') do
assert_nil(a.ivar)
end
a.instance_variable_set(:@ivar, 42)
assert_warning '' do
assert_equal(42, a.ivar)
end
name = "@\u{5909 6570}"
assert_warning('') do
assert_nil(a.instance_eval(name))
end
end
def test_uninitialized_attr
a = AttrTest.new
assert_warning '' do
assert_nil(a.iattr)
end
a.iattr = 42
assert_warning '' do
assert_equal(42, a.iattr)
end
end
def test_uninitialized_attr_class
assert_warning '' do
assert_nil(AttrTest.cattr)
end
AttrTest.cattr = 42
assert_warning '' do
assert_equal(42, AttrTest.cattr)
end
AttrTest.reset
end
def test_uninitialized_attr_non_object
a = Class.new(Array) do
attr_accessor :iattr
end.new
assert_warning '' do
assert_nil(a.iattr)
end
a.iattr = 42
assert_warning '' do
assert_equal(42, a.iattr)
end
end
def test_remove_const
m = Module.new
assert_raise(NameError){ m.instance_eval { remove_const(:__FOO__) } }
end
def test_public_methods
public_methods = %i[
include
prepend
attr
attr_accessor
attr_reader
attr_writer
define_method
alias_method
undef_method
remove_method
]
assert_equal public_methods.sort, (Module.public_methods & public_methods).sort
end
def test_private_top_methods
assert_top_method_is_private(:include)
assert_top_method_is_private(:public)
assert_top_method_is_private(:private)
assert_top_method_is_private(:define_method)
end
module PrivateConstantReopen
PRIVATE_CONSTANT = true
private_constant :PRIVATE_CONSTANT
end
def test_private_constant_reopen
assert_raise(NameError) do
eval <<-EOS, TOPLEVEL_BINDING
module TestModule::PrivateConstantReopen::PRIVATE_CONSTANT
end
EOS
end
assert_raise(NameError) do
eval <<-EOS, TOPLEVEL_BINDING
class TestModule::PrivateConstantReopen::PRIVATE_CONSTANT
end
EOS
end
end
def test_frozen_visibility
bug11532 = '[ruby-core:70828] [Bug #11532]'
c = Class.new {const_set(:A, 1)}.freeze
assert_raise_with_message(FrozenError, /frozen class/, bug11532) {
c.class_eval {private_constant :A}
}
c = Class.new {const_set(:A, 1); private_constant :A}.freeze
assert_raise_with_message(FrozenError, /frozen class/, bug11532) {
c.class_eval {public_constant :A}
}
c = Class.new {const_set(:A, 1)}.freeze
assert_raise_with_message(FrozenError, /frozen class/, bug11532) {
c.class_eval {deprecate_constant :A}
}
end
def test_singleton_class_ancestors
feature8035 = '[ruby-core:53171]'
obj = Object.new
assert_equal [obj.singleton_class, Object], obj.singleton_class.ancestors.first(2), feature8035
mod = Module.new
obj.extend mod
assert_equal [obj.singleton_class, mod, Object], obj.singleton_class.ancestors.first(3)
obj = Object.new
obj.singleton_class.send :prepend, mod
assert_equal [mod, obj.singleton_class, Object], obj.singleton_class.ancestors.first(3)
end
def test_visibility_by_public_class_method
bug8284 = '[ruby-core:54404] [Bug #8284]'
assert_raise(NoMethodError) {Object.remove_const}
Module.new.public_class_method(:remove_const)
assert_raise(NoMethodError, bug8284) {Object.remove_const}
end
def test_return_value_of_define_method
retvals = []
Class.new.class_eval do
retvals << define_method(:foo){}
retvals << define_method(:bar, instance_method(:foo))
end
assert_equal :foo, retvals[0]
assert_equal :bar, retvals[1]
end
def test_return_value_of_define_singleton_method
retvals = []
Class.new do
retvals << define_singleton_method(:foo){}
retvals << define_singleton_method(:bar, method(:foo))
end
assert_equal :foo, retvals[0]
assert_equal :bar, retvals[1]
end
def test_prepend_gc
assert_separately [], %{
module Foo
end
class Object
prepend Foo
end
GC.start # make created T_ICLASS old (or remembered shady)
class Object # add methods into T_ICLASS (need WB if it is old)
def foo; end
attr_reader :bar
end
1_000_000.times{''} # cause GC
}
end
def test_inspect_segfault
bug_10282 = '[ruby-core:65214] [Bug #10282]'
assert_separately [], "#{<<~"begin;"}\n#{<<~'end;'}"
bug_10282 = "#{bug_10282}"
begin;
line = __LINE__ + 2
module ShallowInspect
def shallow_inspect
"foo"
end
end
module InspectIsShallow
include ShallowInspect
alias_method :inspect, :shallow_inspect
end
class A
end
A.prepend InspectIsShallow
expect = "#<Method: A(ShallowInspect)#inspect(shallow_inspect)() -:#{line}>"
assert_equal expect, A.new.method(:inspect).inspect, bug_10282
end;
end
def test_define_method_with_unbound_method
# Passing an UnboundMethod to define_method succeeds if it is from an ancestor
assert_nothing_raised do
cls = Class.new(String) do
define_method('foo', String.instance_method(:to_s))
end
obj = cls.new('bar')
assert_equal('bar', obj.foo)
end
# Passing an UnboundMethod to define_method fails if it is not from an ancestor
assert_raise(TypeError) do
Class.new do
define_method('foo', String.instance_method(:to_s))
end
end
end
def test_redefinition_mismatch
m = Module.new
m.module_eval "A = 1", __FILE__, line = __LINE__
e = assert_raise_with_message(TypeError, /is not a module/) {
m.module_eval "module A; end"
}
assert_include(e.message, "#{__FILE__}:#{line}: previous definition")
n = "M\u{1f5ff}"
m.module_eval "#{n} = 42", __FILE__, line = __LINE__
e = assert_raise_with_message(TypeError, /#{n} is not a module/) {
m.module_eval "module #{n}; end"
}
assert_include(e.message, "#{__FILE__}:#{line}: previous definition")
assert_separately([], <<-"end;")
Etc = (class C\u{1f5ff}; self; end).new
assert_raise_with_message(TypeError, /C\u{1f5ff}/) {
require 'etc'
}
end;
end
def test_private_extended_module
assert_separately [], %q{
class Object
def bar; "Object#bar"; end
end
module M1
def bar; super; end
end
module M2
include M1
private(:bar)
def foo; bar; end
end
extend M2
assert_equal 'Object#bar', foo
}
end
ConstLocation = [__FILE__, __LINE__]
def test_const_source_location
assert_equal(ConstLocation, self.class.const_source_location(:ConstLocation))
assert_equal(ConstLocation, self.class.const_source_location("ConstLocation"))
assert_equal(ConstLocation, Object.const_source_location("#{self.class.name}::ConstLocation"))
assert_raise(TypeError) {
self.class.const_source_location(nil)
}
assert_raise_with_message(NameError, /wrong constant name/) {
self.class.const_source_location("xxx")
}
assert_raise_with_message(TypeError, %r'does not refer to class/module') {
self.class.const_source_location("ConstLocation::FILE")
}
end
module CloneTestM_simple
C = 1
def self.m; C; end
end
module CloneTestM0
def foo; TEST; end
end
CloneTestM1 = CloneTestM0.clone
CloneTestM2 = CloneTestM0.clone
module CloneTestM1
TEST = :M1
end
module CloneTestM2
TEST = :M2
end
class CloneTestC1
include CloneTestM1
end
class CloneTestC2
include CloneTestM2
end
def test_constant_access_from_method_in_cloned_module
m = CloneTestM_simple.dup
assert_equal 1, m::C, '[ruby-core:47834]'
assert_equal 1, m.m, '[ruby-core:47834]'
assert_equal :M1, CloneTestC1.new.foo, '[Bug #15877]'
assert_equal :M2, CloneTestC2.new.foo, '[Bug #15877]'
end
def test_clone_freeze
m = Module.new.freeze
assert_predicate m.clone, :frozen?
assert_not_predicate m.clone(freeze: false), :frozen?
end
def test_module_name_in_singleton_method
s = Object.new.singleton_class
mod = s.const_set(:Foo, Module.new)
assert_match(/::Foo$/, mod.name, '[Bug #14895]')
end
private
def assert_top_method_is_private(method)
assert_separately [], %{
methods = singleton_class.private_instance_methods(false)
assert_include(methods, :#{method}, ":#{method} should be private")
assert_raise_with_message(NoMethodError, "private method `#{method}' called for main:Object") {
recv = self
recv.#{method}
}
}
end
end