## # Module ISO Test def labeled_module(name, &block) Module.new do singleton_class.class_eval do define_method(:to_s) { name } alias_method :inspect, :to_s end class_eval(&block) if block end end def labeled_class(name, supklass = Object, &block) Class.new(supklass) do singleton_class.class_eval do define_method(:to_s) { name } alias_method :inspect, :to_s end class_eval(&block) if block end end assert('Module', '15.2.2') do assert_equal Class, Module.class end # TODO not implemented ATM assert('Module.constants', '15.2.2.3.1') do # TODO not implemented ATM assert('Module.nesting', '15.2.2.3.2') do assert('Module#ancestors', '15.2.2.4.9') do class Test4ModuleAncestors end sc = Test4ModuleAncestors.singleton_class r = String.ancestors assert_equal Array, r.class assert_true r.include?(String) assert_true r.include?(Object) end assert('Module#append_features', '15.2.2.4.10') do module Test4AppendFeatures def self.append_features(mod) Test4AppendFeatures2.const_set(:Const4AppendFeatures2, mod) end end module Test4AppendFeatures2 include Test4AppendFeatures end assert_equal Test4AppendFeatures2, Test4AppendFeatures2.const_get(:Const4AppendFeatures2) end assert('Module#attr NameError') do %w[ foo? @foo @@foo $foo ].each do |name| module NameTest; end assert_raise(NameError) do NameTest.module_eval { attr_reader name.to_sym } end assert_raise(NameError) do NameTest.module_eval { attr_writer name.to_sym } end assert_raise(NameError) do NameTest.module_eval { attr name.to_sym } end assert_raise(NameError) do NameTest.module_eval { attr_accessor name.to_sym } end end end assert('Module#attr', '15.2.2.4.11') do class AttrTest class << self attr :cattr def cattr_val=(val) @cattr = val end end attr :iattr def iattr_val=(val) @iattr = val end end test = AttrTest.new assert_true AttrTest.respond_to?(:cattr) assert_true test.respond_to?(:iattr) assert_false AttrTest.respond_to?(:cattr=) assert_false test.respond_to?(:iattr=) test.iattr_val = 'test' assert_equal 'test', test.iattr AttrTest.cattr_val = 'test' assert_equal 'test', AttrTest.cattr end assert('Module#attr_accessor', '15.2.2.4.12') do class AttrTestAccessor class << self attr_accessor :cattr end attr_accessor :iattr, 'iattr2' end attr_instance = AttrTestAccessor.new assert_true AttrTestAccessor.respond_to?(:cattr=) assert_true attr_instance.respond_to?(:iattr=) assert_true attr_instance.respond_to?(:iattr2=) assert_true AttrTestAccessor.respond_to?(:cattr) assert_true attr_instance.respond_to?(:iattr) assert_true attr_instance.respond_to?(:iattr2) attr_instance.iattr = 'test' assert_equal 'test', attr_instance.iattr AttrTestAccessor.cattr = 'test' assert_equal 'test', AttrTestAccessor.cattr end assert('Module#attr_reader', '15.2.2.4.13') do class AttrTestReader class << self attr_reader :cattr def cattr_val=(val) @cattr = val end end attr_reader :iattr, 'iattr2' def iattr_val=(val) @iattr = val end end attr_instance = AttrTestReader.new assert_true AttrTestReader.respond_to?(:cattr) assert_true attr_instance.respond_to?(:iattr) assert_true attr_instance.respond_to?(:iattr2) assert_false AttrTestReader.respond_to?(:cattr=) assert_false attr_instance.respond_to?(:iattr=) assert_false attr_instance.respond_to?(:iattr2=) attr_instance.iattr_val = 'test' assert_equal 'test', attr_instance.iattr AttrTestReader.cattr_val = 'test' assert_equal 'test', AttrTestReader.cattr end assert('Module#attr_writer', '15.2.2.4.14') do class AttrTestWriter class << self attr_writer :cattr def cattr_val @cattr end end attr_writer :iattr, 'iattr2' def iattr_val @iattr end end attr_instance = AttrTestWriter.new assert_true AttrTestWriter.respond_to?(:cattr=) assert_true attr_instance.respond_to?(:iattr=) assert_true attr_instance.respond_to?(:iattr2=) assert_false AttrTestWriter.respond_to?(:cattr) assert_false attr_instance.respond_to?(:iattr) assert_false attr_instance.respond_to?(:iattr2) attr_instance.iattr = 'test' assert_equal 'test', attr_instance.iattr_val AttrTestWriter.cattr = 'test' assert_equal 'test', AttrTestWriter.cattr_val end assert('Module#class_eval', '15.2.2.4.15') do class Test4ClassEval @a = 11 @b = 12 end Test4ClassEval.class_eval do def method1 end end r = Test4ClassEval.instance_methods assert_equal 11, Test4ClassEval.class_eval{ @a } assert_equal 12, Test4ClassEval.class_eval{ @b } assert_equal Array, r.class assert_true r.include?(:method1) end assert('Module#class_variable_defined?', '15.2.2.4.16') do class Test4ClassVariableDefined @@cv = 99 end assert_true Test4ClassVariableDefined.class_variable_defined?(:@@cv) assert_false Test4ClassVariableDefined.class_variable_defined?(:@@noexisting) end assert('Module#class_variable_get', '15.2.2.4.17') do class Test4ClassVariableGet @@cv = 99 end assert_equal 99, Test4ClassVariableGet.class_variable_get(:@@cv) end assert('Module#class_variable_set', '15.2.2.4.18') do class Test4ClassVariableSet @@foo = 100 def foo @@foo end end assert_true Test4ClassVariableSet.class_variable_set(:@@cv, 99) assert_true Test4ClassVariableSet.class_variable_set(:@@foo, 101) assert_true Test4ClassVariableSet.class_variables.include? :@@cv assert_equal 99, Test4ClassVariableSet.class_variable_get(:@@cv) assert_equal 101, Test4ClassVariableSet.new.foo end assert('Module#class_variables', '15.2.2.4.19') do class Test4ClassVariables1 @@var1 = 1 end class Test4ClassVariables2 < Test4ClassVariables1 @@var2 = 2 end assert_equal [:@@var1], Test4ClassVariables1.class_variables assert_equal [:@@var2, :@@var1], Test4ClassVariables2.class_variables end assert('Module#const_defined?', '15.2.2.4.20') do module Test4ConstDefined Const4Test4ConstDefined = true end assert_true Test4ConstDefined.const_defined?(:Const4Test4ConstDefined) assert_false Test4ConstDefined.const_defined?(:NotExisting) end assert('Module#const_get', '15.2.2.4.21') do module Test4ConstGet Const4Test4ConstGet = 42 end assert_equal 42, Test4ConstGet.const_get(:Const4Test4ConstGet) end assert('Module#const_missing', '15.2.2.4.22') do module Test4ConstMissing def self.const_missing(sym) 42 # the answer to everything end end assert_equal 42, Test4ConstMissing.const_get(:ConstDoesntExist) end assert('Module#const_get', '15.2.2.4.23') do module Test4ConstSet Const4Test4ConstSet = 42 end assert_true Test4ConstSet.const_set(:Const4Test4ConstSet, 23) assert_equal 23, Test4ConstSet.const_get(:Const4Test4ConstSet) end assert('Module#constants', '15.2.2.4.24') do $n = [] module TestA C = 1 end class TestB include TestA C2 = 1 $n = constants.sort end assert_equal [ :C ], TestA.constants assert_equal [ :C, :C2 ], $n end assert('Module#include', '15.2.2.4.27') do module Test4Include Const4Include = 42 end module Test4Include2 include Test4Include end assert_equal 42, Test4Include2.const_get(:Const4Include) end assert('Module#include?', '15.2.2.4.28') do module Test4IncludeP end class Test4IncludeP2 include Test4IncludeP end class Test4IncludeP3 < Test4IncludeP2 end assert_true Test4IncludeP2.include?(Test4IncludeP) assert_true Test4IncludeP3.include?(Test4IncludeP) assert_false Test4IncludeP.include?(Test4IncludeP) end assert('Module#included', '15.2.2.4.29') do module Test4Included Const4Included = 42 def self.included mod Test4Included.const_set(:Const4Included2, mod) end end module Test4Included2 include Test4Included end assert_equal 42, Test4Included2.const_get(:Const4Included) assert_equal Test4Included2, Test4Included2.const_get(:Const4Included2) end assert('Module#included_modules', '15.2.2.4.30') do module Test4includedModules end module Test4includedModules2 include Test4includedModules end r = Test4includedModules2.included_modules assert_equal Array, r.class assert_true r.include?(Test4includedModules) end assert('Module#initialize', '15.2.2.4.31') do assert_kind_of Module, Module.new mod = Module.new { def hello; "hello"; end } assert_equal [:hello], mod.instance_methods a = nil mod = Module.new { |m| a = m } assert_equal mod, a end assert('Module#instance_methods', '15.2.2.4.33') do module Test4InstanceMethodsA def method1() end end class Test4InstanceMethodsB def method2() end end class Test4InstanceMethodsC < Test4InstanceMethodsB def method3() end end r = Test4InstanceMethodsC.instance_methods(true) assert_equal [:method1], Test4InstanceMethodsA.instance_methods assert_equal [:method2], Test4InstanceMethodsB.instance_methods(false) assert_equal [:method3], Test4InstanceMethodsC.instance_methods(false) assert_equal Array, r.class assert_true r.include?(:method3) assert_true r.include?(:method2) end assert('Module#method_defined?', '15.2.2.4.34') do module Test4MethodDefined module A def method1() end end class B def method2() end end class C < B include A def method3() end end end assert_true Test4MethodDefined::A.method_defined? :method1 assert_true Test4MethodDefined::C.method_defined? :method1 assert_true Test4MethodDefined::C.method_defined? "method2" assert_true Test4MethodDefined::C.method_defined? "method3" assert_false Test4MethodDefined::C.method_defined? "method4" end assert('Module#module_eval', '15.2.2.4.35') do module Test4ModuleEval @a = 11 @b = 12 end assert_equal 11, Test4ModuleEval.module_eval{ @a } assert_equal 12, Test4ModuleEval.module_eval{ @b } end assert('Module#remove_class_variable', '15.2.2.4.39') do class Test4RemoveClassVariable @@cv = 99 end assert_equal 99, Test4RemoveClassVariable.remove_class_variable(:@@cv) assert_false Test4RemoveClassVariable.class_variables.include? :@@cv end assert('Module#remove_const', '15.2.2.4.40') do module Test4RemoveConst ExistingConst = 23 end result = Test4RemoveConst.module_eval { remove_const :ExistingConst } name_error = false begin Test4RemoveConst.module_eval { remove_const :NonExistingConst } rescue NameError name_error = true end # Constant removed from Module assert_false Test4RemoveConst.const_defined? :ExistingConst # Return value of binding assert_equal 23, result # Name Error raised when Constant doesn't exist assert_true name_error end assert('Module#remove_method', '15.2.2.4.41') do module Test4RemoveMethod class Parent def hello end end class Child < Parent def hello end end end assert_true Test4RemoveMethod::Child.class_eval{ remove_method :hello } assert_true Test4RemoveMethod::Child.instance_methods.include? :hello assert_false Test4RemoveMethod::Child.instance_methods(false).include? :hello end assert('Module#undef_method', '15.2.2.4.42') do module Test4UndefMethod class Parent def hello end end class Child < Parent def hello end end class GrandChild < Child end end Test4UndefMethod::Child.class_eval{ undef_method :hello } assert_true Test4UndefMethod::Parent.new.respond_to?(:hello) assert_false Test4UndefMethod::Child.new.respond_to?(:hello) assert_false Test4UndefMethod::GrandChild.new.respond_to?(:hello) assert_false Test4UndefMethod::Child.instance_methods(false).include? :hello end # Not ISO specified assert('Module#define_method') do c = Class.new { define_method(:m1) { :ok } define_method(:m2, Proc.new { :ok }) } assert_equal c.new.m1, :ok assert_equal c.new.m2, :ok assert_raise(TypeError) do Class.new { define_method(:n1, nil) } end end # @!group prepend assert('Module#prepend') do module M0 def m1; [:M0] end end module M1 def m1; [:M1, super, :M1] end end module M2 def m1; [:M2, super, :M2] end end M3 = Module.new do def m1; [:M3, super, :M3] end end module M4 def m1; [:M4, super, :M4] end end class P0 include M0 prepend M1 def m1; [:C0, super, :C0] end end class P1 < P0 prepend M2, M3 include M4 def m1; [:C1, super, :C1] end end obj = P1.new expected = [:M2,[:M3,[:C1,[:M4,[:M1,[:C0,[:M0],:C0],:M1],:M4],:C1],:M3],:M2] assert_equal(expected, obj.m1) end # mruby shouldn't be affected by this since there is # no visibility control (yet) assert('Module#prepend public') do assert_nothing_raised('ruby/ruby #8846') do Class.new.prepend(Module.new) end end assert('Module#prepend inheritance') do bug6654 = '[ruby-core:45914]' a = labeled_module('a') b = labeled_module('b') { include a } c = labeled_module('c') { prepend b } #assert bug6654 do # the Module#< operator should be used here instead, but we don't have it assert_include(c.ancestors, a) assert_include(c.ancestors, b) #end bug8357 = '[ruby-core:54736] [Bug #8357]' b = labeled_module('b') { prepend a } c = labeled_class('c') { include b } #assert bug8357 do # the Module#< operator should be used here instead, but we don't have it assert_include(c.ancestors, a) assert_include(c.ancestors, b) #end bug8357 = '[ruby-core:54742] [Bug #8357]' assert_kind_of(b, c.new, bug8357) end assert('Moduler#prepend + #instance_methods') do bug6655 = '[ruby-core:45915]' assert_equal(Object.instance_methods, Class.new {prepend Module.new}.instance_methods, bug6655) end assert 'Module#prepend + #singleton_methods' do o = Object.new o.singleton_class.class_eval {prepend Module.new} assert_equal([], o.singleton_methods) end assert 'Module#prepend + #remove_method' do 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 assert 'Module#prepend + Class#ancestors' do 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 assert 'Module#prepend + Module#ancestors' do 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([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 assert 'Module#prepend #instance_methods(false)' do 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 assert 'cyclic Module#prepend' do 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 # these assertions will not run without a #assert_seperately method #assert 'test_prepend_optmethod' do # bug7983 = '[ruby-dev:47124] [Bug #7983]' # assert_separately [], %{ # module M # def /(other) # to_f / other # end # end # Fixnum.send(:prepend, M) # assert_equal(0.5, 1 / 2, "#{bug7983}") # } # assert_equal(0, 1 / 2) #end # mruby has no visibility control assert 'Module#prepend visibility' do bug8005 = '[ruby-core:53106] [Bug #8005]' c = Class.new do prepend Module.new {} def foo() end protected :foo end a = c.new assert_true a.respond_to?(:foo), bug8005 assert_nothing_raised(NoMethodError, bug8005) {a.send :foo} end # mruby has no visibility control assert 'Module#prepend inherited visibility' do bug8238 = '[ruby-core:54105] [Bug #8238]' module Test4PrependVisibilityInherited class A def foo() A; end private :foo end class B < A public :foo prepend Module.new end end assert_equal(Test4PrependVisibilityInherited::A, Test4PrependVisibilityInherited::B.new.foo, "#{bug8238}") end assert 'Module#prepend + #included_modules' do 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 assert 'Module#prepend super in alias' do skip "super does not currently work in aliased methods" 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_nothing_raised do assert_equal("BA", b.new.m2, bug7842) end assert_nothing_raised do assert_equal("PBA", b.new.m3, bug7842) end end assert 'Module#prepend each class' do 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 class") end assert 'Module#prepend no duplication' do m = labeled_module("M") c = labeled_class("C") {prepend m; prepend m} assert_equal([m, c], c.ancestors[0, 2], "should never duplicate") end assert 'Module#prepend in superclass' do 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 # requires #assert_seperately #assert 'Module#prepend call super' do # 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 # @!endgroup prepend assert('Module#to_s') do module Test4to_sModules end assert_equal 'Test4to_sModules', Test4to_sModules.to_s end assert('Module#inspect') do module Test4to_sModules end assert_equal 'Test4to_sModules', Test4to_sModules.inspect end assert('Issue 1467') do module M1 def initialize() super() end end class C1 include M1 def initialize() super() end end class C2 include M1 end C1.new C2.new end assert('clone Module') do module M1 def foo true end end class B include M1.clone end B.new.foo end assert('Module#module_function') do module M def modfunc; end module_function :modfunc end assert_true M.respond_to?(:modfunc) end assert('module with non-class/module outer raises TypeError') do assert_raise(TypeError) { module 0::M1 end } assert_raise(TypeError) { module []::M2 end } end