require_relative 'spec_helper' load_extension("object") # TODO: fix all these specs class CApiObjectSpecs class Alloc attr_reader :initialized, :arguments def initialize(*args) @initialized = true @arguments = args end end class SubArray < ::Array def to_array self end end end describe "CApiObject" do before do @o = CApiObjectSpecs.new end class ObjectTest def initialize @foo = 7 end def foo end def private_foo end private :private_foo end class AryChild < Array end class StrChild < String end class DescObjectTest < ObjectTest end class MethodArity def one; end def two(a); end def three(*a); end def four(a, b); end def five(a, b, *c); end def six(a, b, *c, &d); end end describe "rb_obj_alloc" do it "allocates a new uninitialized object" do o = @o.rb_obj_alloc(CApiObjectSpecs::Alloc) o.class.should == CApiObjectSpecs::Alloc o.initialized.should be_nil end end describe "rb_obj_dup" do it "duplicates an object" do obj1 = ObjectTest.new obj2 = @o.rb_obj_dup(obj1) obj2.class.should == obj1.class obj2.foo.should == obj1.foo obj2.should_not equal(obj1) end end describe "rb_obj_call_init" do it "sends #initialize" do o = @o.rb_obj_alloc(CApiObjectSpecs::Alloc) o.initialized.should be_nil @o.rb_obj_call_init(o, 2, [:one, :two]) o.initialized.should be_true o.arguments.should == [:one, :two] end end describe "rb_is_instance_of" do it "returns true if an object is an instance" do @o.rb_obj_is_instance_of(ObjectTest.new, ObjectTest).should == true @o.rb_obj_is_instance_of(DescObjectTest.new, ObjectTest).should == false end end describe "rb_is_kind_of" do it "returns true if an object is an instance or descendent" do @o.rb_obj_is_kind_of(ObjectTest.new, ObjectTest).should == true @o.rb_obj_is_kind_of(DescObjectTest.new, ObjectTest).should == true @o.rb_obj_is_kind_of(Object.new, ObjectTest).should == false end end describe "rb_respond_to" do it "returns 1 if respond_to? is true and 0 if respond_to? is false" do @o.rb_respond_to(ObjectTest.new, :foo).should == true @o.rb_respond_to(ObjectTest.new, :bar).should == false end it "can be used with primitives" do @o.rb_respond_to(true, :object_id).should == true @o.rb_respond_to(14, :succ).should == true end it "returns 0 if the method has been defined as rb_f_notimplement" do @o.respond_to?(:not_implemented_method).should == false @o.rb_respond_to(@o, :not_implemented_method).should == false end end describe "rb_obj_respond_to" do it "returns true if respond_to? is true and false if respond_to? is false" do @o.rb_obj_respond_to(ObjectTest.new, :foo, true).should == true @o.rb_obj_respond_to(ObjectTest.new, :bar, true).should == false @o.rb_obj_respond_to(ObjectTest.new, :private_foo, false).should == false @o.rb_obj_respond_to(ObjectTest.new, :private_foo, true).should == true end end describe "rb_obj_method_arity" do before :each do @obj = MethodArity.new end it "returns 0 when the method takes no arguments" do @o.rb_obj_method_arity(@obj, :one).should == 0 end it "returns 1 when the method takes a single, required argument" do @o.rb_obj_method_arity(@obj, :two).should == 1 end it "returns -1 when the method takes a variable number of arguments" do @o.rb_obj_method_arity(@obj, :three).should == -1 end it "returns 2 when the method takes two required arguments" do @o.rb_obj_method_arity(@obj, :four).should == 2 end it "returns -N-1 when the method takes N required and variable additional arguments" do @o.rb_obj_method_arity(@obj, :five).should == -3 end it "returns -N-1 when the method takes N required, variable additional, and a block argument" do @o.rb_obj_method_arity(@obj, :six).should == -3 end end describe "rb_obj_method" do it "returns the method object for a symbol" do method = @o.rb_obj_method("test", :size) method.owner.should == String method.name.to_sym.should == :size end it "returns the method object for a string" do method = @o.rb_obj_method("test", "size") method.owner.should == String method.name.to_sym.should == :size end end describe "rb_method_boundp" do it "returns true when the given method is bound" do @o.rb_method_boundp(Object, :class, true).should == true @o.rb_method_boundp(Object, :class, false).should == true @o.rb_method_boundp(Object, :initialize, true).should == false @o.rb_method_boundp(Object, :initialize, false).should == true end it "returns false when the given method is not bound" do @o.rb_method_boundp(Object, :foo, true).should == false @o.rb_method_boundp(Object, :foo, false).should == false end end describe "rb_to_id" do it "returns a symbol representation of the object" do @o.rb_to_id("foo").should == :foo @o.rb_to_id(:foo).should == :foo end end describe "rb_require" do before :each do @saved_loaded_features = $LOADED_FEATURES.dup $foo = nil end after :each do $foo = nil $LOADED_FEATURES.replace @saved_loaded_features end it "requires a ruby file" do $:.unshift File.dirname(__FILE__) @o.rb_require() $foo.should == 7 end end describe "rb_attr_get" do it "gets an instance variable" do o = ObjectTest.new @o.rb_attr_get(o, :@foo).should == 7 end end describe "rb_obj_instance_variables" do it "returns an array with instance variable names as symbols" do o = ObjectTest.new @o.rb_obj_instance_variables(o).should include(:@foo) end end describe "rb_check_convert_type" do it "returns the passed object and does not call the converting method if the object is the specified type" do ary = [1, 2] ary.should_not_receive(:to_ary) @o.rb_check_convert_type(ary, "Array", "to_ary").should equal(ary) end it "returns the passed object and does not call the converting method if the object is a subclass of the specified type" do obj = CApiObjectSpecs::SubArray.new obj.should_not_receive(:to_array) @o.rb_check_convert_type(obj, "Array", "to_array").should equal(obj) end it "returns nil if the converting method returns nil" do obj = mock("rb_check_convert_type") obj.should_receive(:to_array).and_return(nil) @o.rb_check_convert_type(obj, "Array", "to_array").should be_nil end it "raises a TypeError if the converting method returns an object that is not the specified type" do obj = mock("rb_check_convert_type") obj.should_receive(:to_array).and_return("string") -> do @o.rb_check_convert_type(obj, "Array", "to_array") end.should raise_error(TypeError) end end describe "rb_convert_type" do it "returns the passed object and does not call the converting method if the object is the specified type" do ary = [1, 2] ary.should_not_receive(:to_ary) @o.rb_convert_type(ary, "Array", "to_ary").should equal(ary) end it "returns the passed object and does not call the converting method if the object is a subclass of the specified type" do obj = CApiObjectSpecs::SubArray.new obj.should_not_receive(:to_array) @o.rb_convert_type(obj, "Array", "to_array").should equal(obj) end it "raises a TypeError if the converting method returns nil" do obj = mock("rb_convert_type") obj.should_receive(:to_array).and_return(nil) -> do @o.rb_convert_type(obj, "Array", "to_array") end.should raise_error(TypeError) end it "raises a TypeError if the converting method returns an object that is not the specified type" do obj = mock("rb_convert_type") obj.should_receive(:to_array).and_return("string") -> do @o.rb_convert_type(obj, "Array", "to_array") end.should raise_error(TypeError) end end describe "rb_check_array_type" do it "returns the argument if it's an Array" do x = Array.new @o.rb_check_array_type(x).should equal(x) end it "returns the argument if it's a kind of Array" do x = AryChild.new @o.rb_check_array_type(x).should equal(x) end it "returns nil when the argument does not respond to #to_ary" do @o.rb_check_array_type(Object.new).should be_nil end it "sends #to_ary to the argument and returns the result if it's nil" do obj = mock("to_ary") obj.should_receive(:to_ary).and_return(nil) @o.rb_check_array_type(obj).should be_nil end it "sends #to_ary to the argument and returns the result if it's an Array" do x = Array.new obj = mock("to_ary") obj.should_receive(:to_ary).and_return(x) @o.rb_check_array_type(obj).should equal(x) end it "sends #to_ary to the argument and returns the result if it's a kind of Array" do x = AryChild.new obj = mock("to_ary") obj.should_receive(:to_ary).and_return(x) @o.rb_check_array_type(obj).should equal(x) end it "sends #to_ary to the argument and raises TypeError if it's not a kind of Array" do obj = mock("to_ary") obj.should_receive(:to_ary).and_return(Object.new) -> { @o.rb_check_array_type obj }.should raise_error(TypeError) end it "does not rescue exceptions raised by #to_ary" do obj = mock("to_ary") obj.should_receive(:to_ary).and_raise(FrozenError) -> { @o.rb_check_array_type obj }.should raise_error(FrozenError) end end describe "rb_check_string_type" do it "returns the argument if it's a String" do x = String.new @o.rb_check_string_type(x).should equal(x) end it "returns the argument if it's a kind of String" do x = StrChild.new @o.rb_check_string_type(x).should equal(x) end it "returns nil when the argument does not respond to #to_str" do @o.rb_check_string_type(Object.new).should be_nil end it "sends #to_str to the argument and returns the result if it's nil" do obj = mock("to_str") obj.should_receive(:to_str).and_return(nil) @o.rb_check_string_type(obj).should be_nil end it "sends #to_str to the argument and returns the result if it's a String" do x = String.new obj = mock("to_str") obj.should_receive(:to_str).and_return(x) @o.rb_check_string_type(obj).should equal(x) end it "sends #to_str to the argument and returns the result if it's a kind of String" do x = StrChild.new obj = mock("to_str") obj.should_receive(:to_str).and_return(x) @o.rb_check_string_type(obj).should equal(x) end it "sends #to_str to the argument and raises TypeError if it's not a kind of String" do obj = mock("to_str") obj.should_receive(:to_str).and_return(Object.new) -> { @o.rb_check_string_type obj }.should raise_error(TypeError) end it "does not rescue exceptions raised by #to_str" do obj = mock("to_str") obj.should_receive(:to_str).and_raise(RuntimeError) -> { @o.rb_check_string_type obj }.should raise_error(RuntimeError) end end describe "rb_check_to_integer" do it "returns the object when passed a Fixnum" do @o.rb_check_to_integer(5, "to_int").should equal(5) end it "returns the object when passed a Bignum" do @o.rb_check_to_integer(bignum_value, "to_int").should == bignum_value end it "calls the converting method and returns a Fixnum value" do obj = mock("rb_check_to_integer") obj.should_receive(:to_integer).and_return(10) @o.rb_check_to_integer(obj, "to_integer").should equal(10) end it "calls the converting method and returns a Bignum value" do obj = mock("rb_check_to_integer") obj.should_receive(:to_integer).and_return(bignum_value) @o.rb_check_to_integer(obj, "to_integer").should == bignum_value end it "returns nil when the converting method returns nil" do obj = mock("rb_check_to_integer") obj.should_receive(:to_integer).and_return(nil) @o.rb_check_to_integer(obj, "to_integer").should be_nil end it "returns nil when the converting method does not return an Integer" do obj = mock("rb_check_to_integer") obj.should_receive(:to_integer).and_return("string") @o.rb_check_to_integer(obj, "to_integer").should be_nil end end describe "FL_ABLE" do it "returns correct boolean for type" do @o.FL_ABLE(Object.new).should be_true @o.FL_ABLE(true).should be_false @o.FL_ABLE(nil).should be_false @o.FL_ABLE(1).should be_false end end describe "FL_TEST" do ruby_version_is ''...'2.7' do it "returns correct status for FL_TAINT" do obj = Object.new @o.FL_TEST(obj, "FL_TAINT").should == 0 obj.taint @o.FL_TEST(obj, "FL_TAINT").should_not == 0 end end it "returns correct status for FL_FREEZE" do obj = Object.new @o.FL_TEST(obj, "FL_FREEZE").should == 0 obj.freeze @o.FL_TEST(obj, "FL_FREEZE").should_not == 0 end end describe "rb_inspect" do it "returns a string with the inspect representation" do @o.rb_inspect(nil).should == "nil" @o.rb_inspect(0).should == '0' @o.rb_inspect([1,2,3]).should == '[1, 2, 3]' @o.rb_inspect("0").should == '"0"' end end describe "rb_class_of" do it "returns the class of an object" do @o.rb_class_of(nil).should == NilClass @o.rb_class_of(0).should == Integer @o.rb_class_of(0.1).should == Float @o.rb_class_of(ObjectTest.new).should == ObjectTest end it "returns the singleton class if it exists" do o = ObjectTest.new @o.rb_class_of(o).should equal ObjectTest s = o.singleton_class @o.rb_class_of(o).should equal s end end describe "rb_obj_classname" do it "returns the class name of an object" do @o.rb_obj_classname(nil).should == 'NilClass' @o.rb_obj_classname(0).should == 'Integer' @o.rb_obj_classname(0.1).should == 'Float' @o.rb_obj_classname(ObjectTest.new).should == 'ObjectTest' end end describe "rb_type" do it "returns the type constant for the object" do class DescArray < Array end @o.rb_is_type_nil(nil).should == true @o.rb_is_type_object([]).should == false @o.rb_is_type_object(ObjectTest.new).should == true @o.rb_is_type_array([]).should == true @o.rb_is_type_array(DescArray.new).should == true @o.rb_is_type_module(ObjectTest).should == false @o.rb_is_type_class(ObjectTest).should == true @o.rb_is_type_data(Time.now).should == true end end describe "rb_type_p" do it "returns whether object is of the given type" do class DescArray < Array end @o.rb_is_rb_type_p_nil(nil).should == true @o.rb_is_rb_type_p_object([]).should == false @o.rb_is_rb_type_p_object(ObjectTest.new).should == true @o.rb_is_rb_type_p_array([]).should == true @o.rb_is_rb_type_p_array(DescArray.new).should == true @o.rb_is_rb_type_p_module(ObjectTest).should == false @o.rb_is_rb_type_p_class(ObjectTest).should == true @o.rb_is_rb_type_p_data(Time.now).should == true end end describe "BUILTIN_TYPE" do it "returns the type constant for the object" do class DescArray < Array end @o.rb_is_builtin_type_object([]).should == false @o.rb_is_builtin_type_object(ObjectTest.new).should == true @o.rb_is_builtin_type_array([]).should == true @o.rb_is_builtin_type_array(DescArray.new).should == true @o.rb_is_builtin_type_module(ObjectTest).should == false @o.rb_is_builtin_type_class(ObjectTest).should == true @o.rb_is_builtin_type_data(Time.now).should == true end end describe "RTEST" do it "returns C false if passed Qfalse" do @o.RTEST(false).should be_false end it "returns C false if passed Qnil" do @o.RTEST(nil).should be_false end it "returns C true if passed Qtrue" do @o.RTEST(true).should be_true end it "returns C true if passed a Symbol" do @o.RTEST(:test).should be_true end it "returns C true if passed an Object" do @o.RTEST(Object.new).should be_true end end describe "rb_special_const_p" do it "returns true if passed Qfalse" do @o.rb_special_const_p(false).should be_true end it "returns true if passed Qtrue" do @o.rb_special_const_p(true).should be_true end it "returns true if passed Qnil" do @o.rb_special_const_p(nil).should be_true end it "returns true if passed a Symbol" do @o.rb_special_const_p(:test).should be_true end it "returns true if passed a Fixnum" do @o.rb_special_const_p(10).should be_true end it "returns false if passed an Object" do @o.rb_special_const_p(Object.new).should be_false end end describe "rb_extend_object" do it "adds the module's instance methods to the object" do module CApiObjectSpecs::Extend def reach :extended end end obj = mock("extended object") @o.rb_extend_object(obj, CApiObjectSpecs::Extend) obj.reach.should == :extended end end describe "OBJ_TAINT" do ruby_version_is ''...'2.7' do it "taints the object" do obj = mock("tainted") @o.OBJ_TAINT(obj) obj.tainted?.should be_true end end end describe "OBJ_TAINTED" do ruby_version_is ''...'2.7' do it "returns C true if the object is tainted" do obj = mock("tainted") obj.taint @o.OBJ_TAINTED(obj).should be_true end it "returns C false if the object is not tainted" do obj = mock("untainted") @o.OBJ_TAINTED(obj).should be_false end end end describe "OBJ_INFECT" do ruby_version_is ''...'2.7' do it "does not taint the first argument if the second argument is not tainted" do host = mock("host") source = mock("source") @o.OBJ_INFECT(host, source) host.tainted?.should be_false end it "taints the first argument if the second argument is tainted" do host = mock("host") source = mock("source").taint @o.OBJ_INFECT(host, source) host.tainted?.should be_true end it "does not untrust the first argument if the second argument is trusted" do host = mock("host") source = mock("source") @o.OBJ_INFECT(host, source) host.untrusted?.should be_false end it "untrusts the first argument if the second argument is untrusted" do host = mock("host") source = mock("source").untrust @o.OBJ_INFECT(host, source) host.untrusted?.should be_true end it "propagates both taint and distrust" do host = mock("host") source = mock("source").taint.untrust @o.OBJ_INFECT(host, source) host.tainted?.should be_true host.untrusted?.should be_true end end end describe "rb_obj_freeze" do it "freezes the object passed to it" do obj = "" @o.rb_obj_freeze(obj).should == obj obj.frozen?.should be_true end end describe "rb_obj_instance_eval" do it "evaluates the block in the object context, that includes private methods" do obj = ObjectTest -> do @o.rb_obj_instance_eval(obj) { include Kernel } end.should_not raise_error(NoMethodError) end end describe "rb_obj_frozen_p" do it "returns true if object passed to it is frozen" do obj = "" obj.freeze @o.rb_obj_frozen_p(obj).should == true end it "returns false if object passed to it is not frozen" do obj = "" @o.rb_obj_frozen_p(obj).should == false end end describe "rb_obj_taint" do ruby_version_is ''...'2.7' do it "marks the object passed as tainted" do obj = "" obj.should_not.tainted? @o.rb_obj_taint(obj) obj.should.tainted? end it "raises a FrozenError if the object passed is frozen" do -> { @o.rb_obj_taint("".freeze) }.should raise_error(FrozenError) end end end describe "rb_check_frozen" do it "raises a FrozenError if the obj is frozen" do -> { @o.rb_check_frozen("".freeze) }.should raise_error(FrozenError) end it "does nothing when object isn't frozen" do obj = "" -> { @o.rb_check_frozen(obj) }.should_not raise_error(TypeError) end end describe "rb_any_to_s" do it "converts an Integer to string" do obj = 1 i = @o.rb_any_to_s(obj) i.should be_kind_of(String) end it "converts an Object to string" do obj = Object.new i = @o.rb_any_to_s(obj) i.should be_kind_of(String) end end describe "rb_to_int" do it "returns self when called on an Integer" do @o.rb_to_int(5).should == 5 end it "returns self when called on a Bignum" do @o.rb_to_int(bignum_value).should == bignum_value end it "calls #to_int to convert and object to an integer" do x = mock("to_int") x.should_receive(:to_int).and_return(5) @o.rb_to_int(x).should == 5 end it "converts a Float to an Integer by truncation" do @o.rb_to_int(1.35).should == 1 end it "raises a TypeError if #to_int does not return an Integer" do x = mock("to_int") x.should_receive(:to_int).and_return("5") -> { @o.rb_to_int(x) }.should raise_error(TypeError) end it "raises a TypeError if called with nil" do -> { @o.rb_to_int(nil) }.should raise_error(TypeError) end it "raises a TypeError if called with true" do -> { @o.rb_to_int(true) }.should raise_error(TypeError) end it "raises a TypeError if called with false" do -> { @o.rb_to_int(false) }.should raise_error(TypeError) end it "raises a TypeError if called with a String" do -> { @o.rb_to_int("1") }.should raise_error(TypeError) end end describe "rb_equal" do it "returns true if the arguments are the same exact object" do s = "hello" @o.rb_equal(s, s).should be_true end it "calls == to check equality and coerces to true/false" do m = mock("string") m.should_receive(:==).and_return(8) @o.rb_equal(m, "hello").should be_true m2 = mock("string") m2.should_receive(:==).and_return(nil) @o.rb_equal(m2, "hello").should be_false end end describe "rb_class_inherited_p" do it "returns true if mod equals arg" do @o.rb_class_inherited_p(Array, Array).should be_true end it "returns true if mod is a subclass of arg" do @o.rb_class_inherited_p(Array, Object).should be_true end it "returns nil if mod is not a subclass of arg" do @o.rb_class_inherited_p(Array, Hash).should be_nil end it "raises a TypeError if arg is no class or module" do ->{ @o.rb_class_inherited_p(1, 2) }.should raise_error(TypeError) end end describe "instance variable access" do before do @test = ObjectTest.new end describe "rb_iv_get" do it "returns the instance variable on an object" do @o.rb_iv_get(@test, "@foo").should == @test.instance_eval { @foo } end it "returns nil if the instance variable has not been initialized" do @o.rb_iv_get(@test, "@bar").should == nil end end describe "rb_iv_set" do it "sets and returns the instance variable on an object" do @o.rb_iv_set(@test, "@foo", 42).should == 42 @test.instance_eval { @foo }.should == 42 end it "sets and returns the instance variable with a bare name" do @o.rb_iv_set(@test, "foo", 42).should == 42 @o.rb_iv_get(@test, "foo").should == 42 @test.instance_eval { @foo }.should == 7 end end describe "rb_ivar_count" do it "returns the number of instance variables" do obj = Object.new @o.rb_ivar_count(obj).should == 0 obj.instance_variable_set(:@foo, 42) @o.rb_ivar_count(obj).should == 1 end end describe "rb_ivar_get" do it "returns the instance variable on an object" do @o.rb_ivar_get(@test, :@foo).should == @test.instance_eval { @foo } end it "returns nil if the instance variable has not been initialized" do @o.rb_ivar_get(@test, :@bar).should == nil end it "returns nil if the instance variable has not been initialized and is not a valid Ruby name" do @o.rb_ivar_get(@test, :bar).should == nil @o.rb_ivar_get(@test, :mesg).should == nil end it 'returns the instance variable when it is not a valid Ruby name' do @o.rb_ivar_set(@test, :foo, 27) @o.rb_ivar_get(@test, :foo).should == 27 end end describe "rb_ivar_set" do it "sets and returns the instance variable on an object" do @o.rb_ivar_set(@test, :@foo, 42).should == 42 @test.instance_eval { @foo }.should == 42 end it "sets and returns the instance variable on an object" do @o.rb_ivar_set(@test, :@foo, 42).should == 42 @test.instance_eval { @foo }.should == 42 end it 'sets and returns the instance variable when it is not a valid Ruby name' do @o.rb_ivar_set(@test, :foo, 27).should == 27 end end describe "rb_ivar_defined" do it "returns true if the instance variable is defined" do @o.rb_ivar_defined(@test, :@foo).should == true end it "returns false if the instance variable is not defined" do @o.rb_ivar_defined(@test, :@bar).should == false end it "does not throw an error if the instance variable is not a valid Ruby name" do @o.rb_ivar_defined(@test, :bar).should == false @o.rb_ivar_defined(@test, :mesg).should == false end end # The `generic_iv_tbl` table and `*_generic_ivar` functions are for mutable # objects which do not store ivars directly in MRI such as RString, because # there is no member iv_index_tbl (ivar table) such as in RObject and RClass. describe "rb_copy_generic_ivar for objects which do not store ivars directly" do it "copies the instance variables from one object to another" do original = "abc" original.instance_variable_set(:@foo, :bar) clone = "def" @o.rb_copy_generic_ivar(clone, original) clone.instance_variable_get(:@foo).should == :bar end end describe "rb_free_generic_ivar for objects which do not store ivars directly" do it "removes the instance variables from an object" do o = "abc" o.instance_variable_set(:@baz, :flibble) @o.rb_free_generic_ivar(o) o.instance_variables.should == [] end end end describe "allocator accessors" do describe "rb_define_alloc_func" do it "sets up the allocator" do klass = Class.new @o.rb_define_alloc_func(klass) obj = klass.allocate obj.class.should.equal?(klass) obj.should have_instance_variable(:@from_custom_allocator) end it "sets up the allocator for a subclass of String" do klass = Class.new(String) @o.rb_define_alloc_func(klass) obj = klass.allocate obj.class.should.equal?(klass) obj.should have_instance_variable(:@from_custom_allocator) obj.should == "" end it "sets up the allocator for a subclass of Array" do klass = Class.new(Array) @o.rb_define_alloc_func(klass) obj = klass.allocate obj.class.should.equal?(klass) obj.should have_instance_variable(:@from_custom_allocator) obj.should == [] end end describe "rb_get_alloc_func" do it "gets the allocator that is defined directly on a class" do klass = Class.new @o.rb_define_alloc_func(klass) @o.speced_allocator?(Object).should == false @o.speced_allocator?(klass).should == true end it "gets the allocator that is inherited" do parent = Class.new @o.rb_define_alloc_func(parent) klass = Class.new(parent) @o.speced_allocator?(Object).should == false @o.speced_allocator?(klass).should == true end end describe "rb_undef_alloc_func" do it "makes rb_get_alloc_func() return NULL for a class without a custom allocator" do klass = Class.new @o.rb_undef_alloc_func(klass) @o.custom_alloc_func?(klass).should == false end it "undefs the allocator for the class" do klass = Class.new @o.rb_define_alloc_func(klass) @o.speced_allocator?(klass).should == true @o.rb_undef_alloc_func(klass) @o.custom_alloc_func?(klass).should == false end it "undefs the allocator for a class that inherits a allocator" do parent = Class.new @o.rb_define_alloc_func(parent) klass = Class.new(parent) @o.speced_allocator?(klass).should == true @o.rb_undef_alloc_func(klass) @o.custom_alloc_func?(klass).should == false @o.speced_allocator?(parent).should == true end end end end