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object.c
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object.c
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/**********************************************************************
object.c -
$Author$
created at: Thu Jul 15 12:01:24 JST 1993
Copyright (C) 1993-2007 Yukihiro Matsumoto
Copyright (C) 2000 Network Applied Communication Laboratory, Inc.
Copyright (C) 2000 Information-technology Promotion Agency, Japan
**********************************************************************/
#include "ruby/ruby.h"
#include "ruby/st.h"
#include "ruby/util.h"
#include "ruby/encoding.h"
#include <stdio.h>
#include <errno.h>
#include <ctype.h>
#include <math.h>
#include <float.h>
#include "constant.h"
#include "internal.h"
#include "id.h"
#include "probes.h"
VALUE rb_cBasicObject;
VALUE rb_mKernel;
VALUE rb_cObject;
VALUE rb_cModule;
VALUE rb_cClass;
VALUE rb_cData;
VALUE rb_cNilClass;
VALUE rb_cTrueClass;
VALUE rb_cFalseClass;
#define id_eq idEq
#define id_eql idEqlP
#define id_match idEqTilde
#define id_inspect idInspect
#define id_init_copy idInitialize_copy
#define id_init_clone idInitialize_clone
#define id_init_dup idInitialize_dup
#define id_const_missing idConst_missing
#define CLASS_OR_MODULE_P(obj) \
(!SPECIAL_CONST_P(obj) && \
(BUILTIN_TYPE(obj) == T_CLASS || BUILTIN_TYPE(obj) == T_MODULE))
VALUE
rb_obj_hide(VALUE obj)
{
if (!SPECIAL_CONST_P(obj)) {
RBASIC_CLEAR_CLASS(obj);
}
return obj;
}
VALUE
rb_obj_reveal(VALUE obj, VALUE klass)
{
if (!SPECIAL_CONST_P(obj)) {
RBASIC_SET_CLASS(obj, klass);
}
return obj;
}
VALUE
rb_obj_setup(VALUE obj, VALUE klass, VALUE type)
{
RBASIC(obj)->flags = type;
RBASIC_SET_CLASS(obj, klass);
if (rb_safe_level() >= 3) FL_SET((obj), FL_TAINT);
return obj;
}
/*
* call-seq:
* obj === other -> true or false
*
* Case Equality -- For class Object, effectively the same as calling
* <code>#==</code>, but typically overridden by descendants to provide
* meaningful semantics in +case+ statements.
*/
VALUE
rb_equal(VALUE obj1, VALUE obj2)
{
VALUE result;
if (obj1 == obj2) return Qtrue;
result = rb_funcall(obj1, id_eq, 1, obj2);
if (RTEST(result)) return Qtrue;
return Qfalse;
}
int
rb_eql(VALUE obj1, VALUE obj2)
{
return RTEST(rb_funcall(obj1, id_eql, 1, obj2));
}
/*
* call-seq:
* obj == other -> true or false
* obj.equal?(other) -> true or false
* obj.eql?(other) -> true or false
*
* Equality --- At the <code>Object</code> level, <code>==</code> returns
* <code>true</code> only if +obj+ and +other+ are the same object.
* Typically, this method is overridden in descendant classes to provide
* class-specific meaning.
*
* Unlike <code>==</code>, the <code>equal?</code> method should never be
* overridden by subclasses as it is used to determine object identity
* (that is, <code>a.equal?(b)</code> if and only if <code>a</code> is the
* same object as <code>b</code>):
*
* obj = "a"
* other = obj.dup
*
* obj == other #=> true
* obj.equal? other #=> false
* obj.equal? obj #=> true
*
* The <code>eql?</code> method returns <code>true</code> if +obj+ and
* +other+ refer to the same hash key. This is used by Hash to test members
* for equality. For objects of class <code>Object</code>, <code>eql?</code>
* is synonymous with <code>==</code>. Subclasses normally continue this
* tradition by aliasing <code>eql?</code> to their overridden <code>==</code>
* method, but there are exceptions. <code>Numeric</code> types, for
* example, perform type conversion across <code>==</code>, but not across
* <code>eql?</code>, so:
*
* 1 == 1.0 #=> true
* 1.eql? 1.0 #=> false
*/
VALUE
rb_obj_equal(VALUE obj1, VALUE obj2)
{
if (obj1 == obj2) return Qtrue;
return Qfalse;
}
/*
* call-seq:
* obj.hash -> fixnum
*
* Generates a Fixnum hash value for this object. This function must have the
* property that <code>a.eql?(b)</code> implies <code>a.hash == b.hash</code>.
*
* The hash value is used along with #eql? by the Hash class to determine if
* two objects reference the same hash key. Any hash value that exceeds the
* capacity of a Fixnum will be truncated before being used.
*
* The hash value for an object may not be identical across invocations or
* implementations of ruby. If you need a stable identifier across ruby
* invocations and implementations you will need to generate one with a custom
* method.
*/
VALUE
rb_obj_hash(VALUE obj)
{
long rb_objid_hash(st_index_t index);
VALUE oid = rb_obj_id(obj);
#if SIZEOF_LONG == SIZEOF_VOIDP
st_index_t index = NUM2LONG(oid);
#elif SIZEOF_LONG_LONG == SIZEOF_VOIDP
st_index_t index = NUM2LL(oid);
#else
# error not supported
#endif
return LONG2FIX(rb_objid_hash(index));
}
/*
* call-seq:
* !obj -> true or false
*
* Boolean negate.
*/
VALUE
rb_obj_not(VALUE obj)
{
return RTEST(obj) ? Qfalse : Qtrue;
}
/*
* call-seq:
* obj != other -> true or false
*
* Returns true if two objects are not-equal, otherwise false.
*/
VALUE
rb_obj_not_equal(VALUE obj1, VALUE obj2)
{
VALUE result = rb_funcall(obj1, id_eq, 1, obj2);
return RTEST(result) ? Qfalse : Qtrue;
}
VALUE
rb_class_real(VALUE cl)
{
while (cl &&
((RBASIC(cl)->flags & FL_SINGLETON) || BUILTIN_TYPE(cl) == T_ICLASS)) {
cl = RCLASS_SUPER(cl);
}
return cl;
}
/*
* call-seq:
* obj.class -> class
*
* Returns the class of <i>obj</i>. This method must always be
* called with an explicit receiver, as <code>class</code> is also a
* reserved word in Ruby.
*
* 1.class #=> Fixnum
* self.class #=> Object
*/
VALUE
rb_obj_class(VALUE obj)
{
return rb_class_real(CLASS_OF(obj));
}
/*
* call-seq:
* obj.singleton_class -> class
*
* Returns the singleton class of <i>obj</i>. This method creates
* a new singleton class if <i>obj</i> does not have it.
*
* If <i>obj</i> is <code>nil</code>, <code>true</code>, or
* <code>false</code>, it returns NilClass, TrueClass, or FalseClass,
* respectively.
* If <i>obj</i> is a Fixnum or a Symbol, it raises a TypeError.
*
* Object.new.singleton_class #=> #<Class:#<Object:0xb7ce1e24>>
* String.singleton_class #=> #<Class:String>
* nil.singleton_class #=> NilClass
*/
static VALUE
rb_obj_singleton_class(VALUE obj)
{
return rb_singleton_class(obj);
}
void
rb_obj_copy_ivar(VALUE dest, VALUE obj)
{
if (!(RBASIC(dest)->flags & ROBJECT_EMBED) && ROBJECT_IVPTR(dest)) {
xfree(ROBJECT_IVPTR(dest));
ROBJECT(dest)->as.heap.ivptr = 0;
ROBJECT(dest)->as.heap.numiv = 0;
ROBJECT(dest)->as.heap.iv_index_tbl = 0;
}
if (RBASIC(obj)->flags & ROBJECT_EMBED) {
MEMCPY(ROBJECT(dest)->as.ary, ROBJECT(obj)->as.ary, VALUE, ROBJECT_EMBED_LEN_MAX);
RBASIC(dest)->flags |= ROBJECT_EMBED;
}
else {
long len = ROBJECT(obj)->as.heap.numiv;
VALUE *ptr = 0;
if (len > 0) {
ptr = ALLOC_N(VALUE, len);
MEMCPY(ptr, ROBJECT(obj)->as.heap.ivptr, VALUE, len);
}
ROBJECT(dest)->as.heap.ivptr = ptr;
ROBJECT(dest)->as.heap.numiv = len;
ROBJECT(dest)->as.heap.iv_index_tbl = ROBJECT(obj)->as.heap.iv_index_tbl;
RBASIC(dest)->flags &= ~ROBJECT_EMBED;
}
}
void rb_copy_wb_protected_attribute(VALUE dest, VALUE obj);
static void
init_copy(VALUE dest, VALUE obj)
{
if (OBJ_FROZEN(dest)) {
rb_raise(rb_eTypeError, "[bug] frozen object (%s) allocated", rb_obj_classname(dest));
}
RBASIC(dest)->flags &= ~(T_MASK|FL_EXIVAR);
RBASIC(dest)->flags |= RBASIC(obj)->flags & (T_MASK|FL_EXIVAR|FL_TAINT);
rb_copy_wb_protected_attribute(dest, obj);
rb_copy_generic_ivar(dest, obj);
rb_gc_copy_finalizer(dest, obj);
if (RB_TYPE_P(obj, T_OBJECT)) {
rb_obj_copy_ivar(dest, obj);
}
}
/*
* call-seq:
* obj.clone -> an_object
*
* Produces a shallow copy of <i>obj</i>---the instance variables of
* <i>obj</i> are copied, but not the objects they reference. Copies
* the frozen and tainted state of <i>obj</i>. See also the discussion
* under <code>Object#dup</code>.
*
* class Klass
* attr_accessor :str
* end
* s1 = Klass.new #=> #<Klass:0x401b3a38>
* s1.str = "Hello" #=> "Hello"
* s2 = s1.clone #=> #<Klass:0x401b3998 @str="Hello">
* s2.str[1,4] = "i" #=> "i"
* s1.inspect #=> "#<Klass:0x401b3a38 @str=\"Hi\">"
* s2.inspect #=> "#<Klass:0x401b3998 @str=\"Hi\">"
*
* This method may have class-specific behavior. If so, that
* behavior will be documented under the #+initialize_copy+ method of
* the class.
*/
VALUE
rb_obj_clone(VALUE obj)
{
VALUE clone;
VALUE singleton;
if (rb_special_const_p(obj)) {
rb_raise(rb_eTypeError, "can't clone %s", rb_obj_classname(obj));
}
clone = rb_obj_alloc(rb_obj_class(obj));
RBASIC(clone)->flags &= (FL_TAINT);
RBASIC(clone)->flags |= RBASIC(obj)->flags & ~(FL_PROMOTED0|FL_PROMOTED1|FL_FREEZE|FL_FINALIZE);
singleton = rb_singleton_class_clone_and_attach(obj, clone);
RBASIC_SET_CLASS(clone, singleton);
if (FL_TEST(singleton, FL_SINGLETON)) {
rb_singleton_class_attached(singleton, clone);
}
init_copy(clone, obj);
rb_funcall(clone, id_init_clone, 1, obj);
RBASIC(clone)->flags |= RBASIC(obj)->flags & FL_FREEZE;
return clone;
}
/*
* call-seq:
* obj.dup -> an_object
*
* Produces a shallow copy of <i>obj</i>---the instance variables of
* <i>obj</i> are copied, but not the objects they reference. <code>dup</code>
* copies the tainted state of <i>obj</i>.
*
* This method may have class-specific behavior. If so, that
* behavior will be documented under the #+initialize_copy+ method of
* the class.
*
* === on dup vs clone
*
* In general, <code>clone</code> and <code>dup</code> may have different
* semantics in descendant classes. While <code>clone</code> is used to
* duplicate an object, including its internal state, <code>dup</code>
* typically uses the class of the descendant object to create the new
* instance.
*
* When using #dup any modules that the object has been extended with will not
* be copied.
*
* class Klass
* attr_accessor :str
* end
*
* module Foo
* def foo; 'foo'; end
* end
*
* s1 = Klass.new #=> #<Klass:0x401b3a38>
* s1.extend(Foo) #=> #<Klass:0x401b3a38>
* s1.foo #=> "foo"
*
* s2 = s1.clone #=> #<Klass:0x401b3a38>
* s2.foo #=> "foo"
*
* s3 = s1.dup #=> #<Klass:0x401b3a38>
* s3.foo #=> NoMethodError: undefined method `foo' for #<Klass:0x401b3a38>
*
*/
VALUE
rb_obj_dup(VALUE obj)
{
VALUE dup;
if (rb_special_const_p(obj)) {
rb_raise(rb_eTypeError, "can't dup %s", rb_obj_classname(obj));
}
dup = rb_obj_alloc(rb_obj_class(obj));
init_copy(dup, obj);
rb_funcall(dup, id_init_dup, 1, obj);
return dup;
}
/*
* call-seq:
* obj.itself -> an_object
*
* Returns <i>obj</i>.
*
* string = 'my string' #=> "my string"
* string.itself.object_id == string.object_id #=> true
*
*/
static VALUE
rb_obj_itself(VALUE obj)
{
return obj;
}
/* :nodoc: */
VALUE
rb_obj_init_copy(VALUE obj, VALUE orig)
{
if (obj == orig) return obj;
rb_check_frozen(obj);
rb_check_trusted(obj);
if (TYPE(obj) != TYPE(orig) || rb_obj_class(obj) != rb_obj_class(orig)) {
rb_raise(rb_eTypeError, "initialize_copy should take same class object");
}
return obj;
}
/* :nodoc: */
VALUE
rb_obj_init_dup_clone(VALUE obj, VALUE orig)
{
rb_funcall(obj, id_init_copy, 1, orig);
return obj;
}
/*
* call-seq:
* obj.to_s -> string
*
* Returns a string representing <i>obj</i>. The default
* <code>to_s</code> prints the object's class and an encoding of the
* object id. As a special case, the top-level object that is the
* initial execution context of Ruby programs returns ``main.''
*/
VALUE
rb_any_to_s(VALUE obj)
{
VALUE str;
VALUE cname = rb_class_name(CLASS_OF(obj));
str = rb_sprintf("#<%"PRIsVALUE":%p>", cname, (void*)obj);
OBJ_INFECT(str, obj);
return str;
}
/*
* If the default external encoding is ASCII compatible, the encoding of
* inspected result must be compatible with it.
* If the default external encoding is ASCII incompatible,
* the result must be ASCII only.
*/
VALUE
rb_inspect(VALUE obj)
{
VALUE str = rb_obj_as_string(rb_funcall(obj, id_inspect, 0, 0));
rb_encoding *ext = rb_default_external_encoding();
if (!rb_enc_asciicompat(ext)) {
if (!rb_enc_str_asciionly_p(str))
rb_raise(rb_eEncCompatError, "inspected result must be ASCII only if default external encoding is ASCII incompatible");
return str;
}
if (rb_enc_get(str) != ext && !rb_enc_str_asciionly_p(str))
rb_raise(rb_eEncCompatError, "inspected result must be ASCII only or use the default external encoding");
return str;
}
static int
inspect_i(st_data_t k, st_data_t v, st_data_t a)
{
ID id = (ID)k;
VALUE value = (VALUE)v;
VALUE str = (VALUE)a;
VALUE str2;
const char *ivname;
/* need not to show internal data */
if (CLASS_OF(value) == 0) return ST_CONTINUE;
if (!rb_is_instance_id(id)) return ST_CONTINUE;
if (RSTRING_PTR(str)[0] == '-') { /* first element */
RSTRING_PTR(str)[0] = '#';
rb_str_cat2(str, " ");
}
else {
rb_str_cat2(str, ", ");
}
ivname = rb_id2name(id);
rb_str_cat2(str, ivname);
rb_str_cat2(str, "=");
str2 = rb_inspect(value);
rb_str_append(str, str2);
OBJ_INFECT(str, str2);
return ST_CONTINUE;
}
static VALUE
inspect_obj(VALUE obj, VALUE str, int recur)
{
if (recur) {
rb_str_cat2(str, " ...");
}
else {
rb_ivar_foreach(obj, inspect_i, str);
}
rb_str_cat2(str, ">");
RSTRING_PTR(str)[0] = '#';
OBJ_INFECT(str, obj);
return str;
}
/*
* call-seq:
* obj.inspect -> string
*
* Returns a string containing a human-readable representation of <i>obj</i>.
* By default, show the class name and the list of the instance variables and
* their values (by calling #inspect on each of them).
* User defined classes should override this method to make better
* representation of <i>obj</i>. When overriding this method, it should
* return a string whose encoding is compatible with the default external
* encoding.
*
* [ 1, 2, 3..4, 'five' ].inspect #=> "[1, 2, 3..4, \"five\"]"
* Time.new.inspect #=> "2008-03-08 19:43:39 +0900"
*
* class Foo
* end
* Foo.new.inspect #=> "#<Foo:0x0300c868>"
*
* class Bar
* def initialize
* @bar = 1
* end
* end
* Bar.new.inspect #=> "#<Bar:0x0300c868 @bar=1>"
*
* class Baz
* def to_s
* "baz"
* end
* end
* Baz.new.inspect #=> "#<Baz:0x0300c868>"
*/
static VALUE
rb_obj_inspect(VALUE obj)
{
if (rb_ivar_count(obj) > 0) {
VALUE str;
VALUE c = rb_class_name(CLASS_OF(obj));
str = rb_sprintf("-<%"PRIsVALUE":%p", c, (void*)obj);
return rb_exec_recursive(inspect_obj, obj, str);
}
else {
return rb_any_to_s(obj);
}
}
static VALUE
class_or_module_required(VALUE c)
{
if (SPECIAL_CONST_P(c)) goto not_class;
switch (BUILTIN_TYPE(c)) {
case T_MODULE:
case T_CLASS:
case T_ICLASS:
break;
default:
not_class:
rb_raise(rb_eTypeError, "class or module required");
}
return c;
}
static VALUE class_search_ancestor(VALUE cl, VALUE c);
/*
* call-seq:
* obj.instance_of?(class) -> true or false
*
* Returns <code>true</code> if <i>obj</i> is an instance of the given
* class. See also <code>Object#kind_of?</code>.
*
* class A; end
* class B < A; end
* class C < B; end
*
* b = B.new
* b.instance_of? A #=> false
* b.instance_of? B #=> true
* b.instance_of? C #=> false
*/
VALUE
rb_obj_is_instance_of(VALUE obj, VALUE c)
{
c = class_or_module_required(c);
if (rb_obj_class(obj) == c) return Qtrue;
return Qfalse;
}
/*
* call-seq:
* obj.is_a?(class) -> true or false
* obj.kind_of?(class) -> true or false
*
* Returns <code>true</code> if <i>class</i> is the class of
* <i>obj</i>, or if <i>class</i> is one of the superclasses of
* <i>obj</i> or modules included in <i>obj</i>.
*
* module M; end
* class A
* include M
* end
* class B < A; end
* class C < B; end
*
* b = B.new
* b.is_a? A #=> true
* b.is_a? B #=> true
* b.is_a? C #=> false
* b.is_a? M #=> true
*
* b.kind_of? A #=> true
* b.kind_of? B #=> true
* b.kind_of? C #=> false
* b.kind_of? M #=> true
*/
VALUE
rb_obj_is_kind_of(VALUE obj, VALUE c)
{
VALUE cl = CLASS_OF(obj);
c = class_or_module_required(c);
return class_search_ancestor(cl, RCLASS_ORIGIN(c)) ? Qtrue : Qfalse;
}
static VALUE
class_search_ancestor(VALUE cl, VALUE c)
{
while (cl) {
if (cl == c || RCLASS_M_TBL_WRAPPER(cl) == RCLASS_M_TBL_WRAPPER(c))
return cl;
cl = RCLASS_SUPER(cl);
}
return 0;
}
VALUE
rb_class_search_ancestor(VALUE cl, VALUE c)
{
cl = class_or_module_required(cl);
c = class_or_module_required(c);
return class_search_ancestor(cl, RCLASS_ORIGIN(c));
}
/*
* call-seq:
* obj.tap{|x|...} -> obj
*
* Yields <code>x</code> to the block, and then returns <code>x</code>.
* The primary purpose of this method is to "tap into" a method chain,
* in order to perform operations on intermediate results within the chain.
*
* (1..10) .tap {|x| puts "original: #{x.inspect}"}
* .to_a .tap {|x| puts "array: #{x.inspect}"}
* .select {|x| x%2==0} .tap {|x| puts "evens: #{x.inspect}"}
* .map { |x| x*x } .tap {|x| puts "squares: #{x.inspect}"}
*
*/
VALUE
rb_obj_tap(VALUE obj)
{
rb_yield(obj);
return obj;
}
/*
* Document-method: inherited
*
* call-seq:
* inherited(subclass)
*
* Callback invoked whenever a subclass of the current class is created.
*
* Example:
*
* class Foo
* def self.inherited(subclass)
* puts "New subclass: #{subclass}"
* end
* end
*
* class Bar < Foo
* end
*
* class Baz < Bar
* end
*
* produces:
*
* New subclass: Bar
* New subclass: Baz
*/
/* Document-method: method_added
*
* call-seq:
* method_added(method_name)
*
* Invoked as a callback whenever an instance method is added to the
* receiver.
*
* module Chatty
* def self.method_added(method_name)
* puts "Adding #{method_name.inspect}"
* end
* def self.some_class_method() end
* def some_instance_method() end
* end
*
* produces:
*
* Adding :some_instance_method
*
*/
/* Document-method: method_removed
*
* call-seq:
* method_removed(method_name)
*
* Invoked as a callback whenever an instance method is removed from the
* receiver.
*
* module Chatty
* def self.method_removed(method_name)
* puts "Removing #{method_name.inspect}"
* end
* def self.some_class_method() end
* def some_instance_method() end
* class << self
* remove_method :some_class_method
* end
* remove_method :some_instance_method
* end
*
* produces:
*
* Removing :some_instance_method
*
*/
/*
* Document-method: singleton_method_added
*
* call-seq:
* singleton_method_added(symbol)
*
* Invoked as a callback whenever a singleton method is added to the
* receiver.
*
* module Chatty
* def Chatty.singleton_method_added(id)
* puts "Adding #{id.id2name}"
* end
* def self.one() end
* def two() end
* def Chatty.three() end
* end
*
* <em>produces:</em>
*
* Adding singleton_method_added
* Adding one
* Adding three
*
*/
/*
* Document-method: singleton_method_removed
*
* call-seq:
* singleton_method_removed(symbol)
*
* Invoked as a callback whenever a singleton method is removed from
* the receiver.
*
* module Chatty
* def Chatty.singleton_method_removed(id)
* puts "Removing #{id.id2name}"
* end
* def self.one() end
* def two() end
* def Chatty.three() end
* class << self
* remove_method :three
* remove_method :one
* end
* end
*
* <em>produces:</em>
*
* Removing three
* Removing one
*/
/*
* Document-method: singleton_method_undefined
*
* call-seq:
* singleton_method_undefined(symbol)
*
* Invoked as a callback whenever a singleton method is undefined in
* the receiver.
*
* module Chatty
* def Chatty.singleton_method_undefined(id)
* puts "Undefining #{id.id2name}"
* end
* def Chatty.one() end
* class << self
* undef_method(:one)
* end
* end
*
* <em>produces:</em>
*
* Undefining one
*/
/*
* Document-method: extended
*
* call-seq:
* extended(othermod)
*
* The equivalent of <tt>included</tt>, but for extended modules.
*
* module A
* def self.extended(mod)
* puts "#{self} extended in #{mod}"
* end
* end
* module Enumerable
* extend A
* end
* # => prints "A extended in Enumerable"
*/
/*
* Document-method: included
*
* call-seq:
* included(othermod)
*
* Callback invoked whenever the receiver is included in another
* module or class. This should be used in preference to
* <tt>Module.append_features</tt> if your code wants to perform some
* action when a module is included in another.
*
* module A
* def A.included(mod)
* puts "#{self} included in #{mod}"
* end
* end
* module Enumerable
* include A
* end
* # => prints "A included in Enumerable"
*/
/*
* Document-method: prepended
*
* call-seq:
* prepended(othermod)
*
* The equivalent of <tt>included</tt>, but for prepended modules.
*
* module A
* def self.prepended(mod)
* puts "#{self} prepended to #{mod}"
* end
* end
* module Enumerable
* prepend A
* end
* # => prints "A prepended to Enumerable"
*/
/*
* Document-method: initialize
*
* call-seq:
* BasicObject.new
*
* Returns a new BasicObject.
*/
/*
* Not documented
*/
static VALUE
rb_obj_dummy(void)
{
return Qnil;
}
/*
* call-seq:
* obj.tainted? -> true or false
*
* Returns true if the object is tainted.
*
* See #taint for more information.
*/
VALUE
rb_obj_tainted(VALUE obj)
{
if (OBJ_TAINTED(obj))
return Qtrue;
return Qfalse;
}
/*
* call-seq:
* obj.taint -> obj
*
* Mark the object as tainted.
*
* Objects that are marked as tainted will be restricted from various built-in
* methods. This is to prevent insecure data, such as command-line arguments
* or strings read from Kernel#gets, from inadvertently compromising the users
* system.
*
* To check whether an object is tainted, use #tainted?
*
* You should only untaint a tainted object if your code has inspected it and
* determined that it is safe. To do so use #untaint
*
* In $SAFE level 3, all newly created objects are tainted and you can't untaint
* objects.
*/
VALUE
rb_obj_taint(VALUE obj)
{
if (!OBJ_TAINTED(obj) && OBJ_TAINTABLE(obj)) {
rb_check_frozen(obj);
OBJ_TAINT(obj);
}
return obj;
}
/*
* call-seq:
* obj.untaint -> obj
*
* Removes the tainted mark from the object.
*
* See #taint for more information.
*/
VALUE
rb_obj_untaint(VALUE obj)