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/*
** kernel.c - Kernel module
**
** See Copyright Notice in mruby.h
*/
#include "mruby.h"
#include "mruby/string.h"
#include "mruby/proc.h"
#include "mruby/array.h"
#include "mruby/class.h"
#include "mruby/variable.h"
#include "error.h"
typedef enum {
NOEX_PUBLIC = 0x00,
NOEX_NOSUPER = 0x01,
NOEX_PRIVATE = 0x02,
NOEX_PROTECTED = 0x04,
NOEX_MASK = 0x06,
NOEX_BASIC = 0x08,
NOEX_UNDEF = NOEX_NOSUPER,
NOEX_MODFUNC = 0x12,
NOEX_SUPER = 0x20,
NOEX_VCALL = 0x40,
NOEX_RESPONDS = 0x80
} mrb_method_flag_t;
struct obj_ivar_tag {
mrb_value obj;
int (*func)(mrb_sym key, mrb_value val, void * arg);
void * arg;
};
int
mrb_obj_basic_to_s_p(mrb_state *mrb, mrb_value obj)
{
struct RProc *me = mrb_method_search(mrb, mrb_class(mrb, obj), mrb_intern(mrb, "to_s"));
if (me && MRB_PROC_CFUNC_P(me) && (me->body.func == mrb_any_to_s))
return TRUE;
return FALSE;
}
/* 15.3.1.3.17 */
/*
* call-seq:
* obj.inspect -> string
*
* Returns a string containing a human-readable representation of
* <i>obj</i>. If not overridden and no instance variables, uses the
* <code>to_s</code> method to generate the string.
* <i>obj</i>. If not overridden, uses the <code>to_s</code> method to
* generate the string.
*
* [ 1, 2, 3..4, 'five' ].inspect #=> "[1, 2, 3..4, \"five\"]"
* Time.new.inspect #=> "2008-03-08 19:43:39 +0900"
*/
mrb_value
mrb_obj_inspect(mrb_state *mrb, mrb_value obj)
{
if ((mrb_type(obj) == MRB_TT_OBJECT) && mrb_obj_basic_to_s_p(mrb, obj)) {
return mrb_obj_iv_inspect(mrb, mrb_obj_ptr(obj));
}
else if (mrb_nil_p(obj)) {
return mrb_str_new(mrb, "nil", 3);
}
else if (mrb_type(obj) == MRB_TT_MAIN) {
return mrb_str_new(mrb, "main", 4);
}
return mrb_any_to_s(mrb, obj);
}
/* 15.3.1.3.1 */
/* 15.3.1.3.10 */
/* 15.3.1.3.11 */
/*
* 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 <i>obj</i> and <i>other</i> 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: it is used to determine object identity
* (that is, <code>a.equal?(b)</code> iff <code>a</code> is the same
* object as <code>b</code>).
*
* The <code>eql?</code> method returns <code>true</code> if
* <i>obj</i> and <i>anObject</i> have the same value. Used by
* <code>Hash</code> 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, 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
*/
static mrb_value
mrb_obj_equal_m(mrb_state *mrb, mrb_value self)
{
mrb_value arg;
mrb_get_args(mrb, "o", &arg);
if (mrb_obj_equal(mrb, self, arg)) {
return mrb_true_value();
}
else {
return mrb_false_value();
}
}
static mrb_value
mrb_obj_not_equal_m(mrb_state *mrb, mrb_value self)
{
mrb_value arg;
mrb_get_args(mrb, "o", &arg);
if (mrb_equal(mrb, self, arg)) {
return mrb_false_value();
}
else {
return mrb_true_value();
}
}
/* 15.3.1.3.2 */
/*
* call-seq:
* obj === other -> true or false
*
* Case Equality---For class <code>Object</code>, effectively the same
* as calling <code>#==</code>, but typically overridden by descendants
* to provide meaningful semantics in <code>case</code> statements.
*/
static mrb_value
mrb_equal_m(mrb_state *mrb, mrb_value self)
{
mrb_value arg;
mrb_get_args(mrb, "o", &arg);
if (mrb_equal(mrb, self, arg)){
return mrb_true_value();
}
else {
return mrb_false_value();
}
}
/* 15.3.1.3.3 */
/* 15.3.1.3.33 */
/*
* Document-method: __id__
* Document-method: object_id
*
* call-seq:
* obj.__id__ -> fixnum
* obj.object_id -> fixnum
*
* Returns an integer identifier for <i>obj</i>. The same number will
* be returned on all calls to <code>id</code> for a given object, and
* no two active objects will share an id.
* <code>Object#object_id</code> is a different concept from the
* <code>:name</code> notation, which returns the symbol id of
* <code>name</code>. Replaces the deprecated <code>Object#id</code>.
*/
static mrb_value
mrb_obj_id_m(mrb_state *mrb, mrb_value self)
{
return mrb_fixnum_value(mrb_obj_id(self));
}
/* 15.3.1.3.4 */
/* 15.3.1.3.44 */
/*
* call-seq:
* obj.send(symbol [, args...]) -> obj
* obj.__send__(symbol [, args...]) -> obj
*
* Invokes the method identified by _symbol_, passing it any
* arguments specified. You can use <code>__send__</code> if the name
* +send+ clashes with an existing method in _obj_.
*
* class Klass
* def hello(*args)
* "Hello " + args.join(' ')
* end
* end
* k = Klass.new
* k.send :hello, "gentle", "readers" #=> "Hello gentle readers"
*/
static mrb_value
mrb_f_send(mrb_state *mrb, mrb_value self)
{
mrb_sym name;
mrb_value block, *argv;
int argc;
mrb_get_args(mrb, "n*&", &name, &argv, &argc, &block);
return mrb_funcall_with_block(mrb,self, name, argc, argv, block);
}
/* 15.3.1.2.2 */
/* 15.3.1.2.5 */
/* 15.3.1.3.6 */
/* 15.3.1.3.25 */
/*
* call-seq:
* block_given? -> true or false
* iterator? -> true or false
*
* Returns <code>true</code> if <code>yield</code> would execute a
* block in the current context. The <code>iterator?</code> form
* is mildly deprecated.
*
* def try
* if block_given?
* yield
* else
* "no block"
* end
* end
* try #=> "no block"
* try { "hello" } #=> "hello"
* try do "hello" end #=> "hello"
*/
static mrb_value
mrb_f_block_given_p_m(mrb_state *mrb, mrb_value self)
{
mrb_callinfo *ci = mrb->ci;
mrb_value *bp;
bp = mrb->stbase + ci->stackidx + 1;
ci--;
if (ci <= mrb->cibase) return mrb_false_value();
if (ci->argc > 0) {
bp += ci->argc;
}
if (mrb_nil_p(*bp)) return mrb_false_value();
return mrb_true_value();
}
/* 15.3.1.3.7 */
/*
* 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
*/
static mrb_value
mrb_obj_class_m(mrb_state *mrb, mrb_value self)
{
return mrb_obj_value(mrb_obj_class(mrb, self));
}
struct RClass*
mrb_singleton_class_clone(mrb_state *mrb, mrb_value obj)
{
struct RClass *klass = RBASIC(obj)->c;
if (klass->tt != MRB_TT_SCLASS)
return klass;
else {
/* copy singleton(unnamed) class */
struct RClass *clone = (struct RClass*)mrb_obj_alloc(mrb, klass->tt, mrb->class_class);
if ((mrb_type(obj) == MRB_TT_CLASS) ||
(mrb_type(obj) == MRB_TT_SCLASS)) { /* BUILTIN_TYPE(obj) == T_CLASS */
clone->c = clone;
}
else {
clone->c = mrb_singleton_class_clone(mrb, mrb_obj_value(klass));
}
clone->super = klass->super;
if (klass->iv) {
clone->iv = klass->iv;
}
if (klass->mt) {
clone->mt = kh_copy(mt, mrb, klass->mt);
}
else {
clone->mt = kh_init(mt, mrb);
}
clone->tt = MRB_TT_SCLASS;
return clone;
}
}
static void
init_copy(mrb_state *mrb, mrb_value dest, mrb_value obj)
{
switch (mrb_type(obj)) {
case MRB_TT_OBJECT:
case MRB_TT_CLASS:
case MRB_TT_MODULE:
mrb_iv_copy(mrb, dest, obj);
break;
default:
break;
}
mrb_funcall(mrb, dest, "initialize_copy", 1, obj);
}
/* 15.3.1.3.8 */
/*
* 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 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.
*
* Some Class(True False Nil Symbol Fixnum Float) Object cannot clone.
*/
mrb_value
mrb_obj_clone(mrb_state *mrb, mrb_value self)
{
struct RObject *clone;
if (mrb_special_const_p(self)) {
mrb_raise(mrb, E_TYPE_ERROR, "can't clone %s", mrb_obj_classname(mrb, self));
}
clone = (struct RObject*)mrb_obj_alloc(mrb, mrb_type(self), mrb_obj_class(mrb, self));
clone->c = mrb_singleton_class_clone(mrb, self);
init_copy(mrb, mrb_obj_value(clone), self);
return mrb_obj_value(clone);
}
/* 15.3.1.3.9 */
/*
* 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 frozen state of <i>obj</i>. See also
* the discussion under <code>Object#clone</code>. 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.
*
* This method may have class-specific behavior. If so, that
* behavior will be documented under the #+initialize_copy+ method of
* the class.
*/
mrb_value
mrb_obj_dup(mrb_state *mrb, mrb_value obj)
{
struct RBasic *p;
mrb_value dup;
if (mrb_special_const_p(obj)) {
mrb_raise(mrb, E_TYPE_ERROR, "can't dup %s", mrb_obj_classname(mrb, obj));
}
p = mrb_obj_alloc(mrb, mrb_type(obj), mrb_obj_class(mrb, obj));
dup = mrb_obj_value(p);
init_copy(mrb, dup, obj);
return dup;
}
static mrb_value
mrb_obj_extend(mrb_state *mrb, int argc, mrb_value *argv, mrb_value obj)
{
int i;
if (argc == 0) {
mrb_raise(mrb, E_ARGUMENT_ERROR, "wrong number of arguments (at least 1)");
}
for (i = 0; i < argc; i++) {
mrb_check_type(mrb, argv[i], MRB_TT_MODULE);
}
while (argc--) {
mrb_funcall(mrb, argv[argc], "extend_object", 1, obj);
mrb_funcall(mrb, argv[argc], "extended", 1, obj);
}
return obj;
}
/* 15.3.1.3.13 */
/*
* call-seq:
* obj.extend(module, ...) -> obj
*
* Adds to _obj_ the instance methods from each module given as a
* parameter.
*
* module Mod
* def hello
* "Hello from Mod.\n"
* end
* end
*
* class Klass
* def hello
* "Hello from Klass.\n"
* end
* end
*
* k = Klass.new
* k.hello #=> "Hello from Klass.\n"
* k.extend(Mod) #=> #<Klass:0x401b3bc8>
* k.hello #=> "Hello from Mod.\n"
*/
mrb_value
mrb_obj_extend_m(mrb_state *mrb, mrb_value self)
{
mrb_value *argv;
int argc;
mrb_get_args(mrb, "*", &argv, &argc);
return mrb_obj_extend(mrb, argc, argv, self);
}
/* 15.3.1.3.15 */
/*
* call-seq:
* obj.hash -> fixnum
*
* Generates a <code>Fixnum</code> 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 by class
* <code>Hash</code>. Any hash value that exceeds the capacity of a
* <code>Fixnum</code> will be truncated before being used.
*/
mrb_value
mrb_obj_hash(mrb_state *mrb, mrb_value self)
{
return mrb_fixnum_value(mrb_obj_id(self));
}
/* 15.3.1.3.16 */
mrb_value
mrb_obj_init_copy(mrb_state *mrb, mrb_value self)
{
mrb_value orig;
mrb_get_args(mrb, "o", &orig);
if (mrb_obj_equal(mrb, self, orig)) return self;
if ((mrb_type(self) != mrb_type(orig)) || (mrb_obj_class(mrb, self) != mrb_obj_class(mrb, orig))) {
mrb_raise(mrb, E_TYPE_ERROR, "initialize_copy should take same class object");
}
return self;
}
mrb_value mrb_yield_internal(mrb_state *mrb, mrb_value b, int argc, mrb_value *argv, mrb_value self, struct RClass *c);
/* 15.3.1.3.18 */
/*
* call-seq:
* obj.instance_eval {| | block } -> obj
*
* Evaluates the given block,within the context of the receiver (_obj_).
* In order to set the context, the variable +self+ is set to _obj_ while
* the code is executing, giving the code access to _obj_'s
* instance variables. In the version of <code>instance_eval</code>
* that takes a +String+, the optional second and third
* parameters supply a filename and starting line number that are used
* when reporting compilation errors.
*
* class KlassWithSecret
* def initialize
* @secret = 99
* end
* end
* k = KlassWithSecret.new
* k.instance_eval { @secret } #=> 99
*/
mrb_value
mrb_obj_instance_eval(mrb_state *mrb, mrb_value self)
{
mrb_value a, b;
mrb_value cv;
struct RClass *c;
if (mrb_get_args(mrb, "|S&", &a, &b) == 1) {
mrb_raise(mrb, E_NOTIMP_ERROR, "instance_eval with string not implemented");
}
switch (mrb_type(self)) {
case MRB_TT_SYMBOL:
case MRB_TT_FIXNUM:
case MRB_TT_FLOAT:
c = 0;
break;
default:
cv = mrb_singleton_class(mrb, self);
c = mrb_class_ptr(cv);
}
return mrb_yield_internal(mrb, b, 0, 0, self, c);
}
int
mrb_obj_is_instance_of(mrb_state *mrb, mrb_value obj, struct RClass* c)
{
if (mrb_obj_class(mrb, obj) == c) return TRUE;
return FALSE;
}
/* 15.3.1.3.19 */
/*
* 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>.
*/
static mrb_value
obj_is_instance_of(mrb_state *mrb, mrb_value self)
{
mrb_value arg;
mrb_get_args(mrb, "o", &arg);
if (mrb_obj_is_instance_of(mrb, self, mrb_class_ptr(arg))){
return mrb_true_value();
}
else {
return mrb_false_value();
}
}
static void
check_iv_name(mrb_state *mrb, mrb_sym id)
{
const char *s;
int len;
s = mrb_sym2name_len(mrb, id, &len);
if (len < 2 || s[0] != '@') {
mrb_name_error(mrb, id, "`%s' is not allowed as an instance variable name", s);
}
}
/* 15.3.1.3.20 */
/*
* call-seq:
* obj.instance_variable_defined?(symbol) -> true or false
*
* Returns <code>true</code> if the given instance variable is
* defined in <i>obj</i>.
*
* class Fred
* def initialize(p1, p2)
* @a, @b = p1, p2
* end
* end
* fred = Fred.new('cat', 99)
* fred.instance_variable_defined?(:@a) #=> true
* fred.instance_variable_defined?("@b") #=> true
* fred.instance_variable_defined?("@c") #=> false
*/
mrb_value
mrb_obj_ivar_defined(mrb_state *mrb, mrb_value self)
{
mrb_sym mid;
mrb_get_args(mrb, "n", &mid);
check_iv_name(mrb, mid);
if (mrb_obj_iv_defined(mrb, mrb_obj_ptr(self), mid))
return mrb_true_value();
return mrb_false_value();
}
/* 15.3.1.3.21 */
/*
* call-seq:
* obj.instance_variable_get(symbol) -> obj
*
* Returns the value of the given instance variable, or nil if the
* instance variable is not set. The <code>@</code> part of the
* variable name should be included for regular instance
* variables. Throws a <code>NameError</code> exception if the
* supplied symbol is not valid as an instance variable name.
*
* class Fred
* def initialize(p1, p2)
* @a, @b = p1, p2
* end
* end
* fred = Fred.new('cat', 99)
* fred.instance_variable_get(:@a) #=> "cat"
* fred.instance_variable_get("@b") #=> 99
*/
mrb_value
mrb_obj_ivar_get(mrb_state *mrb, mrb_value self)
{
mrb_sym id;
mrb_get_args(mrb, "n", &id);
check_iv_name(mrb, id);
return mrb_iv_get(mrb, self, id);
}
/* 15.3.1.3.22 */
/*
* call-seq:
* obj.instance_variable_set(symbol, obj) -> obj
*
* Sets the instance variable names by <i>symbol</i> to
* <i>object</i>, thereby frustrating the efforts of the class's
* author to attempt to provide proper encapsulation. The variable
* did not have to exist prior to this call.
*
* class Fred
* def initialize(p1, p2)
* @a, @b = p1, p2
* end
* end
* fred = Fred.new('cat', 99)
* fred.instance_variable_set(:@a, 'dog') #=> "dog"
* fred.instance_variable_set(:@c, 'cat') #=> "cat"
* fred.inspect #=> "#<Fred:0x401b3da8 @a=\"dog\", @b=99, @c=\"cat\">"
*/
mrb_value
mrb_obj_ivar_set(mrb_state *mrb, mrb_value self)
{
mrb_sym id;
mrb_value val;
mrb_get_args(mrb, "no", &id, &val);
check_iv_name(mrb, id);
mrb_iv_set(mrb, self, id, val);
return val;
}
/* 15.3.1.3.24 */
/* 15.3.1.3.26 */
/*
* 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.instance_of? A #=> false
* b.instance_of? B #=> true
* b.instance_of? C #=> false
* b.instance_of? M #=> false
* b.kind_of? A #=> true
* b.kind_of? B #=> true
* b.kind_of? C #=> false
* b.kind_of? M #=> true
*/
mrb_value
mrb_obj_is_kind_of_m(mrb_state *mrb, mrb_value self)
{
mrb_value arg;
mrb_get_args(mrb, "o", &arg);
if (mrb_obj_is_kind_of(mrb, self, mrb_class_ptr(arg))) {
return mrb_true_value();
}
else {
return mrb_false_value();
}
}
static void
method_entry_loop(mrb_state *mrb, struct RClass* klass, mrb_value ary)
{
khint_t i;
khash_t(mt) *h = klass->mt;
if (!h) return;
for (i=0;i<kh_end(h);i++) {
if (kh_exist(h, i)) {
mrb_ary_push(mrb, ary, mrb_symbol_value(kh_key(h,i)));
}
}
}
static mrb_value
class_instance_method_list(mrb_state *mrb, int argc, mrb_value *argv, struct RClass* klass, int obj)
{
mrb_value ary;
int recur;
struct RClass* oldklass;
if (argc == 0) {
recur = TRUE;
}
else {
mrb_value r;
mrb_get_args(mrb, "o", &r);
recur = mrb_test(r);
}
ary = mrb_ary_new(mrb);
oldklass = 0;
while (klass && (klass != oldklass)) {
method_entry_loop(mrb, klass, ary);
if ((klass->tt == MRB_TT_ICLASS) ||
(klass->tt == MRB_TT_SCLASS)) {
}
else {
if (!recur) break;
}
oldklass = klass;
klass = klass->super;
}
return ary;
}
mrb_value
mrb_obj_singleton_methods(mrb_state *mrb, int argc, mrb_value *argv, mrb_value obj)
{
mrb_value recur, ary;
struct RClass* klass;
if (argc == 0) {
recur = mrb_true_value();
}
else {
recur = argv[0];
}
klass = mrb_class(mrb, obj);
ary = mrb_ary_new(mrb);
if (klass && (klass->tt == MRB_TT_SCLASS)) {
method_entry_loop(mrb, klass, ary);
klass = klass->super;
}
if (RTEST(recur)) {
while (klass && ((klass->tt == MRB_TT_SCLASS) || (klass->tt == MRB_TT_ICLASS))) {
method_entry_loop(mrb, klass, ary);
klass = klass->super;
}
}
return ary;
}
mrb_value
mrb_obj_methods(mrb_state *mrb, int argc, mrb_value *argv, mrb_value obj, mrb_method_flag_t flag)
{
retry:
if (argc == 0) {
return class_instance_method_list(mrb, argc, argv, mrb_class(mrb, obj), 0);
}
else {
mrb_value recur;
recur = argv[0];
if (mrb_test(recur)) {
argc = 0;
goto retry;
}
return mrb_obj_singleton_methods(mrb, argc, argv, obj);
}
}
/* 15.3.1.3.31 */
/*
* call-seq:
* obj.methods -> array
*
* Returns a list of the names of methods publicly accessible in
* <i>obj</i>. This will include all the methods accessible in
* <i>obj</i>'s ancestors.
*
* class Klass
* def kMethod()
* end
* end
* k = Klass.new
* k.methods[0..9] #=> [:kMethod, :freeze, :nil?, :is_a?,
* # :class, :instance_variable_set,
* # :methods, :extend, :__send__, :instance_eval]
* k.methods.length #=> 42
*/
mrb_value
mrb_obj_methods_m(mrb_state *mrb, mrb_value self)
{
mrb_value *argv;
int argc;
mrb_get_args(mrb, "*", &argv, &argc);
return mrb_obj_methods(mrb, argc, argv, self, (mrb_method_flag_t)0); /* everything but private */
}
/* 15.3.1.3.32 */
/*
* call_seq:
* nil.nil? -> true
* <anything_else>.nil? -> false
*
* Only the object <i>nil</i> responds <code>true</code> to <code>nil?</code>.
*/
mrb_value
mrb_false(mrb_state *mrb, mrb_value self)
{
return mrb_false_value();
}
/* 15.3.1.3.36 */
/*
* call-seq:
* obj.private_methods(all=true) -> array
*
* Returns the list of private methods accessible to <i>obj</i>. If
* the <i>all</i> parameter is set to <code>false</code>, only those methods
* in the receiver will be listed.
*/
mrb_value
mrb_obj_private_methods(mrb_state *mrb, mrb_value self)
{
mrb_value *argv;
int argc;
mrb_get_args(mrb, "*", &argv, &argc);
return mrb_obj_methods(mrb, argc, argv, self, NOEX_PRIVATE); /* private attribute not define */
}
/* 15.3.1.3.37 */
/*
* call-seq:
* obj.protected_methods(all=true) -> array
*
* Returns the list of protected methods accessible to <i>obj</i>. If
* the <i>all</i> parameter is set to <code>false</code>, only those methods
* in the receiver will be listed.
*/
mrb_value
mrb_obj_protected_methods(mrb_state *mrb, mrb_value self)
{
mrb_value *argv;
int argc;
mrb_get_args(mrb, "*", &argv, &argc);
return mrb_obj_methods(mrb, argc, argv, self, NOEX_PROTECTED); /* protected attribute not define */
}
/* 15.3.1.3.38 */
/*
* call-seq:
* obj.public_methods(all=true) -> array
*
* Returns the list of public methods accessible to <i>obj</i>. If
* the <i>all</i> parameter is set to <code>false</code>, only those methods
* in the receiver will be listed.
*/
mrb_value
mrb_obj_public_methods(mrb_state *mrb, mrb_value self)
{
mrb_value *argv;
int argc;
mrb_get_args(mrb, "*", &argv, &argc);
return mrb_obj_methods(mrb, argc, argv, self, NOEX_PUBLIC); /* public attribute not define */
}
/* 15.3.1.2.12 */
/* 15.3.1.3.40 */
/*
* call-seq:
* raise
* raise(string)
* raise(exception [, string])
*
* With no arguments, raises a <code>RuntimeError</code>
* With a single +String+ argument, raises a
* +RuntimeError+ with the string as a message. Otherwise,
* the first parameter should be the name of an +Exception+
* class (or an object that returns an +Exception+ object when sent
* an +exception+ message). The optional second parameter sets the
* message associated with the exception, and the third parameter is an
* array of callback information. Exceptions are caught by the
* +rescue+ clause of <code>begin...end</code> blocks.
*
* raise "Failed to create socket"
* raise ArgumentError, "No parameters", caller
*/
mrb_value
mrb_f_raise(mrb_state *mrb, mrb_value self)
{
mrb_value a[2];
int argc;
argc = mrb_get_args(mrb, "|oo", &a[0], &a[1]);
switch (argc) {
case 0:
mrb_raise(mrb, E_RUNTIME_ERROR, "");
break;
case 1:
a[1] = mrb_check_string_type(mrb, a[0]);
if (!mrb_nil_p(a[1])) {
argc = 2;
a[0] = mrb_obj_value(E_RUNTIME_ERROR);
}
/* fall through */
default:
mrb_exc_raise(mrb, mrb_make_exception(mrb, argc, a));
}
return mrb_nil_value(); /* not reached */
}
/* 15.3.1.3.41 */
/*
* call-seq:
* obj.remove_instance_variable(symbol) -> obj
*
* Removes the named instance variable from <i>obj</i>, returning that
* variable's value.
*
* class Dummy
* attr_reader :var
* def initialize
* @var = 99
* end
* def remove
* remove_instance_variable(:@var)
* end
* end
* d = Dummy.new
* d.var #=> 99
* d.remove #=> 99
* d.var #=> nil
*/
mrb_value
mrb_obj_remove_instance_variable(mrb_state *mrb, mrb_value self)
{
mrb_sym sym;
mrb_value val;
mrb_get_args(mrb, "n", &sym);
check_iv_name(mrb, sym);
val = mrb_iv_remove(mrb, self, sym);
if (mrb_undef_p(val)) {
mrb_name_error(mrb, sym, "instance variable %s not defined", mrb_sym2name(mrb, sym));
}
return val;
}
static inline int
basic_obj_respond_to(mrb_state *mrb, mrb_value obj, mrb_sym id, int pub)
{
return mrb_respond_to(mrb, obj, id);
}
/* 15.3.1.3.43 */
/*
* call-seq:
* obj.respond_to?(symbol, include_private=false) -> true or false
*
* Returns +true+ if _obj_ responds to the given
* method. Private methods are included in the search only if the
* optional second parameter evaluates to +true+.
*
* If the method is not implemented,
* as Process.fork on Windows, File.lchmod on GNU/Linux, etc.,
* false is returned.
*
* If the method is not defined, <code>respond_to_missing?</code>
* method is called and the result is returned.
*/
mrb_value
obj_respond_to(mrb_state *mrb, mrb_value self)
{
mrb_value *argv;
int argc;
mrb_value mid, priv;
mrb_sym id;
mrb_get_args(mrb, "*", &argv, &argc);
mid = argv[0];
if (argc > 1) priv = argv[1];
else priv = mrb_nil_value();
id = mrb_to_id(mrb, mid);
if (basic_obj_respond_to(mrb, self, id, !RTEST(priv)))
return mrb_true_value();
return mrb_false_value();
}
/* 15.3.1.3.45 */
/*
* call-seq:
* obj.singleton_methods(all=true) -> array
*
* Returns an array of the names of singleton methods for <i>obj</i>.
* If the optional <i>all</i> parameter is true, the list will include
* methods in modules included in <i>obj</i>.
* Only public and protected singleton methods are returned.
*
* module Other
* def three() end
* end
*
* class Single
* def Single.four() end
* end
*
* a = Single.new
*
* def a.one()
* end
*
* class << a
* include Other
* def two()
* end
* end
*
* Single.singleton_methods #=> [:four]
* a.singleton_methods(false) #=> [:two, :one]
* a.singleton_methods #=> [:two, :one, :three]
*/
mrb_value
mrb_obj_singleton_methods_m(mrb_state *mrb, mrb_value self)
{
mrb_value *argv;
int argc;
mrb_get_args(mrb, "*", &argv, &argc);
return mrb_obj_singleton_methods(mrb, argc, argv, self);
}
mrb_value mrb_f_sprintf(mrb_state *mrb, mrb_value obj); /* in sprintf.c */
void
mrb_init_kernel(mrb_state *mrb)
{
struct RClass *krn;
krn = mrb->kernel_module = mrb_define_module(mrb, "Kernel");
mrb_define_class_method(mrb, krn, "block_given?", mrb_f_block_given_p_m, ARGS_NONE()); /* 15.3.1.2.2 */
mrb_define_class_method(mrb, krn, "global_variables", mrb_f_global_variables, ARGS_NONE()); /* 15.3.1.2.4 */
mrb_define_class_method(mrb, krn, "iterator?", mrb_f_block_given_p_m, ARGS_NONE()); /* 15.3.1.2.5 */
; /* 15.3.1.2.11 */
mrb_define_class_method(mrb, krn, "raise", mrb_f_raise, ARGS_ANY()); /* 15.3.1.2.12 */
mrb_define_method(mrb, krn, "singleton_class", mrb_singleton_class, ARGS_NONE());
mrb_define_method(mrb, krn, "==", mrb_obj_equal_m, ARGS_REQ(1)); /* 15.3.1.3.1 */
mrb_define_method(mrb, krn, "!=", mrb_obj_not_equal_m, ARGS_REQ(1));
mrb_define_method(mrb, krn, "===", mrb_equal_m, ARGS_REQ(1)); /* 15.3.1.3.2 */
mrb_define_method(mrb, krn, "__id__", mrb_obj_id_m, ARGS_NONE()); /* 15.3.1.3.3 */
mrb_define_method(mrb, krn, "__send__", mrb_f_send, ARGS_ANY()); /* 15.3.1.3.4 */
mrb_define_method(mrb, krn, "block_given?", mrb_f_block_given_p_m, ARGS_NONE()); /* 15.3.1.3.6 */
mrb_define_method(mrb, krn, "class", mrb_obj_class_m, ARGS_NONE()); /* 15.3.1.3.7 */
mrb_define_method(mrb, krn, "clone", mrb_obj_clone, ARGS_NONE()); /* 15.3.1.3.8 */
mrb_define_method(mrb, krn, "dup", mrb_obj_dup, ARGS_NONE()); /* 15.3.1.3.9 */
mrb_define_method(mrb, krn, "eql?", mrb_obj_equal_m, ARGS_REQ(1)); /* 15.3.1.3.10 */
mrb_define_method(mrb, krn, "equal?", mrb_obj_equal_m, ARGS_REQ(1)); /* 15.3.1.3.11 */
mrb_define_method(mrb, krn, "extend", mrb_obj_extend_m, ARGS_ANY()); /* 15.3.1.3.13 */
mrb_define_method(mrb, krn, "global_variables", mrb_f_global_variables, ARGS_NONE()); /* 15.3.1.3.14 */
mrb_define_method(mrb, krn, "hash", mrb_obj_hash, ARGS_NONE()); /* 15.3.1.3.15 */
mrb_define_method(mrb, krn, "initialize_copy", mrb_obj_init_copy, ARGS_REQ(1)); /* 15.3.1.3.16 */
mrb_define_method(mrb, krn, "inspect", mrb_obj_inspect, ARGS_NONE()); /* 15.3.1.3.17 */
mrb_define_method(mrb, krn, "instance_eval", mrb_obj_instance_eval, ARGS_ANY()); /* 15.3.1.3.18 */
mrb_define_method(mrb, krn, "instance_of?", obj_is_instance_of, ARGS_REQ(1)); /* 15.3.1.3.19 */
mrb_define_method(mrb, krn, "instance_variable_defined?", mrb_obj_ivar_defined, ARGS_REQ(1)); /* 15.3.1.3.20 */
mrb_define_method(mrb, krn, "instance_variable_get", mrb_obj_ivar_get, ARGS_REQ(1)); /* 15.3.1.3.21 */
mrb_define_method(mrb, krn, "instance_variable_set", mrb_obj_ivar_set, ARGS_REQ(2)); /* 15.3.1.3.22 */
mrb_define_method(mrb, krn, "instance_variables", mrb_obj_instance_variables, ARGS_NONE()); /* 15.3.1.3.23 */
mrb_define_method(mrb, krn, "is_a?", mrb_obj_is_kind_of_m, ARGS_REQ(1)); /* 15.3.1.3.24 */
mrb_define_method(mrb, krn, "iterator?", mrb_f_block_given_p_m, ARGS_NONE()); /* 15.3.1.3.25 */
mrb_define_method(mrb, krn, "kind_of?", mrb_obj_is_kind_of_m, ARGS_REQ(1)); /* 15.3.1.3.26 */
mrb_define_method(mrb, krn, "methods", mrb_obj_methods_m, ARGS_ANY()); /* 15.3.1.3.31 */
mrb_define_method(mrb, krn, "nil?", mrb_false, ARGS_NONE()); /* 15.3.1.3.32 */
mrb_define_method(mrb, krn, "object_id", mrb_obj_id_m, ARGS_NONE()); /* 15.3.1.3.33 */
mrb_define_method(mrb, krn, "private_methods", mrb_obj_private_methods, ARGS_ANY()); /* 15.3.1.3.36 */
mrb_define_method(mrb, krn, "protected_methods", mrb_obj_protected_methods, ARGS_ANY()); /* 15.3.1.3.37 */
mrb_define_method(mrb, krn, "public_methods", mrb_obj_public_methods, ARGS_ANY()); /* 15.3.1.3.38 */
mrb_define_method(mrb, krn, "raise", mrb_f_raise, ARGS_ANY()); /* 15.3.1.3.40 */
mrb_define_method(mrb, krn, "remove_instance_variable", mrb_obj_remove_instance_variable,ARGS_REQ(1)); /* 15.3.1.3.41 */
mrb_define_method(mrb, krn, "respond_to?", obj_respond_to, ARGS_ANY()); /* 15.3.1.3.43 */
mrb_define_method(mrb, krn, "send", mrb_f_send, ARGS_ANY()); /* 15.3.1.3.44 */
mrb_define_method(mrb, krn, "__send__", mrb_f_send, ARGS_ANY()); /* 15.3.1.3.4 */
mrb_define_method(mrb, krn, "singleton_methods", mrb_obj_singleton_methods_m, ARGS_ANY()); /* 15.3.1.3.45 */
mrb_define_method(mrb, krn, "to_s", mrb_any_to_s, ARGS_NONE()); /* 15.3.1.3.46 */
#ifdef ENABLE_SPRINTF
mrb_define_method(mrb, krn, "sprintf", mrb_f_sprintf, ARGS_ANY()); /* in sprintf.c */
mrb_define_method(mrb, krn, "format", mrb_f_sprintf, ARGS_ANY()); /* in sprintf.c */
#endif
mrb_include_module(mrb, mrb->object_class, mrb->kernel_module);
}
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