require_relative '../spec_helper' require_relative '../fixtures/class' ClassSpecsNumber = 12 module ClassSpecs Number = 12 end describe "The class keyword" do it "creates a new class with semicolon" do class ClassSpecsKeywordWithSemicolon; end ClassSpecsKeywordWithSemicolon.should be_an_instance_of(Class) end it "does not raise a SyntaxError when opening a class without a semicolon" do eval "class ClassSpecsKeywordWithoutSemicolon end" ClassSpecsKeywordWithoutSemicolon.should be_an_instance_of(Class) end end describe "A class definition" do it "creates a new class" do ClassSpecs::A.should be_kind_of(Class) ClassSpecs::A.new.should be_kind_of(ClassSpecs::A) end it "has no class variables" do ClassSpecs::A.class_variables.should == [] end it "raises TypeError if constant given as class name exists and is not a Module" do lambda { class ClassSpecsNumber end }.should raise_error(TypeError) end # test case known to be detecting bugs (JRuby, MRI) it "raises TypeError if the constant qualifying the class is nil" do lambda { class nil::Foo end }.should raise_error(TypeError) end it "raises TypeError if any constant qualifying the class is not a Module" do lambda { class ClassSpecs::Number::MyClass end }.should raise_error(TypeError) lambda { class ClassSpecsNumber::MyClass end }.should raise_error(TypeError) end it "inherits from Object by default" do ClassSpecs::A.superclass.should == Object end it "raises an error when trying to change the superclass" do module ClassSpecs class SuperclassResetToSubclass < L end lambda { class SuperclassResetToSubclass < M end }.should raise_error(TypeError, /superclass mismatch/) end end it "raises an error when reopening a class with BasicObject as superclass" do module ClassSpecs class SuperclassReopenedBasicObject < A end SuperclassReopenedBasicObject.superclass.should == A lambda { class SuperclassReopenedBasicObject < BasicObject end }.should raise_error(TypeError, /superclass mismatch/) SuperclassReopenedBasicObject.superclass.should == A end end # [Bug #12367] [ruby-core:75446] it "raises an error when reopening a class with Object as superclass" do module ClassSpecs class SuperclassReopenedObject < A end SuperclassReopenedObject.superclass.should == A lambda { class SuperclassReopenedObject < Object end }.should raise_error(TypeError, /superclass mismatch/) SuperclassReopenedObject.superclass.should == A end end it "allows reopening a class without specifying the superclass" do module ClassSpecs class SuperclassNotGiven < A end SuperclassNotGiven.superclass.should == A class SuperclassNotGiven end SuperclassNotGiven.superclass.should == A end end it "does not allow to set the superclass even if it was not specified by the first declaration" do module ClassSpecs class NoSuperclassSet end lambda { class NoSuperclassSet < String end }.should raise_error(TypeError, /superclass mismatch/) end end it "allows using self as the superclass if self is a class" do ClassSpecs::I::J.superclass.should == ClassSpecs::I lambda { class ShouldNotWork < self; end }.should raise_error(TypeError) end it "first evaluates the superclass before checking if the class already exists" do module ClassSpecs class SuperclassEvaluatedFirst end a = SuperclassEvaluatedFirst class SuperclassEvaluatedFirst < remove_const(:SuperclassEvaluatedFirst) end b = SuperclassEvaluatedFirst b.superclass.should == a end end it "raises a TypeError if inheriting from a metaclass" do obj = mock("metaclass super") meta = obj.singleton_class lambda { class ClassSpecs::MetaclassSuper < meta; end }.should raise_error(TypeError) end it "allows the declaration of class variables in the body" do ClassSpecs.string_class_variables(ClassSpecs::B).should == ["@@cvar"] ClassSpecs::B.send(:class_variable_get, :@@cvar).should == :cvar end it "stores instance variables defined in the class body in the class object" do ClassSpecs.string_instance_variables(ClassSpecs::B).should include("@ivar") ClassSpecs::B.instance_variable_get(:@ivar).should == :ivar end it "allows the declaration of class variables in a class method" do ClassSpecs::C.class_variables.should == [] ClassSpecs::C.make_class_variable ClassSpecs.string_class_variables(ClassSpecs::C).should == ["@@cvar"] ClassSpecs::C.remove_class_variable :@@cvar end it "allows the definition of class-level instance variables in a class method" do ClassSpecs.string_instance_variables(ClassSpecs::C).should_not include("@civ") ClassSpecs::C.make_class_instance_variable ClassSpecs.string_instance_variables(ClassSpecs::C).should include("@civ") ClassSpecs::C.remove_instance_variable :@civ end it "allows the declaration of class variables in an instance method" do ClassSpecs::D.class_variables.should == [] ClassSpecs::D.new.make_class_variable ClassSpecs.string_class_variables(ClassSpecs::D).should == ["@@cvar"] ClassSpecs::D.remove_class_variable :@@cvar end it "allows the definition of instance methods" do ClassSpecs::E.new.meth.should == :meth end it "allows the definition of class methods" do ClassSpecs::E.cmeth.should == :cmeth end it "allows the definition of class methods using class << self" do ClassSpecs::E.smeth.should == :smeth end it "allows the definition of Constants" do Object.const_defined?('CONSTANT').should == false ClassSpecs::E.const_defined?('CONSTANT').should == true ClassSpecs::E::CONSTANT.should == :constant! end it "returns the value of the last statement in the body" do class ClassSpecs::Empty; end.should == nil class ClassSpecs::Twenty; 20; end.should == 20 class ClassSpecs::Plus; 10 + 20; end.should == 30 class ClassSpecs::Singleton; class << self; :singleton; end; end.should == :singleton end describe "within a block creates a new class in the lexical scope" do it "for named classes at the toplevel" do klass = Class.new do class Howdy end def self.get_class_name Howdy.name end end Howdy.name.should == 'Howdy' klass.get_class_name.should == 'Howdy' end it "for named classes in a module" do klass = ClassSpecs::ANON_CLASS_FOR_NEW.call ClassSpecs::NamedInModule.name.should == 'ClassSpecs::NamedInModule' klass.get_class_name.should == 'ClassSpecs::NamedInModule' end it "for anonymous classes" do klass = Class.new do def self.get_class Class.new do def self.foo 'bar' end end end def self.get_result get_class.foo end end klass.get_result.should == 'bar' end it "for anonymous classes assigned to a constant" do klass = Class.new do AnonWithConstant = Class.new def self.get_class_name AnonWithConstant.name end end AnonWithConstant.name.should == 'AnonWithConstant' klass.get_class_name.should == 'AnonWithConstant' end end end describe "An outer class definition" do it "contains the inner classes" do ClassSpecs::Container.constants.should include(:A, :B) end end describe "A class definition extending an object (sclass)" do it "allows adding methods" do ClassSpecs::O.smeth.should == :smeth end it "raises a TypeError when trying to extend numbers" do lambda { eval <<-CODE class << 1 def xyz self end end CODE }.should raise_error(TypeError) end it "allows accessing the block of the original scope" do ClassSpecs.sclass_with_block { 123 }.should == 123 end it "can use return to cause the enclosing method to return" do ClassSpecs.sclass_with_return.should == :inner end end describe "Reopening a class" do it "extends the previous definitions" do c = ClassSpecs::F.new c.meth.should == :meth c.another.should == :another end it "overwrites existing methods" do ClassSpecs::G.new.override.should == :override end it "raises a TypeError when superclasses mismatch" do lambda { class ClassSpecs::A < Array; end }.should raise_error(TypeError) end it "adds new methods to subclasses" do lambda { ClassSpecs::M.m }.should raise_error(NoMethodError) class ClassSpecs::L def self.m 1 end end ClassSpecs::M.m.should == 1 ClassSpecs::L.singleton_class.send(:remove_method, :m) end end describe "class provides hooks" do it "calls inherited when a class is created" do ClassSpecs::H.track_inherited.should == [ClassSpecs::K] end end