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proc.c
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proc.c
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/**********************************************************************
proc.c - Proc, Binding, Env
$Author$
created at: Wed Jan 17 12:13:14 2007
Copyright (C) 2004-2007 Koichi Sasada
**********************************************************************/
#include "eval_intern.h"
#include "internal.h"
#include "gc.h"
#include "iseq.h"
struct METHOD {
VALUE recv;
VALUE rclass;
ID id;
rb_method_entry_t *me;
struct unlinked_method_entry_list_entry *ume;
};
VALUE rb_cUnboundMethod;
VALUE rb_cMethod;
VALUE rb_cBinding;
VALUE rb_cProc;
static VALUE bmcall(VALUE, VALUE);
static int method_arity(VALUE);
static ID attached;
/* Proc */
#define IS_METHOD_PROC_NODE(node) (nd_type(node) == NODE_IFUNC && (node)->nd_cfnc == bmcall)
static void
proc_free(void *ptr)
{
RUBY_FREE_ENTER("proc");
if (ptr) {
ruby_xfree(ptr);
}
RUBY_FREE_LEAVE("proc");
}
static void
proc_mark(void *ptr)
{
rb_proc_t *proc;
RUBY_MARK_ENTER("proc");
if (ptr) {
proc = ptr;
RUBY_MARK_UNLESS_NULL(proc->envval);
RUBY_MARK_UNLESS_NULL(proc->blockprocval);
RUBY_MARK_UNLESS_NULL(proc->block.proc);
RUBY_MARK_UNLESS_NULL(proc->block.self);
if (proc->block.iseq && RUBY_VM_IFUNC_P(proc->block.iseq)) {
RUBY_MARK_UNLESS_NULL((VALUE)(proc->block.iseq));
}
}
RUBY_MARK_LEAVE("proc");
}
static size_t
proc_memsize(const void *ptr)
{
return ptr ? sizeof(rb_proc_t) : 0;
}
static const rb_data_type_t proc_data_type = {
"proc",
{
proc_mark,
proc_free,
proc_memsize,
},
};
VALUE
rb_proc_alloc(VALUE klass)
{
rb_proc_t *proc;
return TypedData_Make_Struct(klass, rb_proc_t, &proc_data_type, proc);
}
VALUE
rb_obj_is_proc(VALUE proc)
{
if (rb_typeddata_is_kind_of(proc, &proc_data_type)) {
return Qtrue;
}
else {
return Qfalse;
}
}
/* :nodoc: */
static VALUE
proc_dup(VALUE self)
{
VALUE procval = rb_proc_alloc(rb_cProc);
rb_proc_t *src, *dst;
GetProcPtr(self, src);
GetProcPtr(procval, dst);
dst->block = src->block;
dst->block.proc = procval;
dst->blockprocval = src->blockprocval;
dst->envval = src->envval;
dst->safe_level = src->safe_level;
dst->is_lambda = src->is_lambda;
return procval;
}
/* :nodoc: */
static VALUE
proc_clone(VALUE self)
{
VALUE procval = proc_dup(self);
CLONESETUP(procval, self);
return procval;
}
/*
* call-seq:
* prc.lambda? -> true or false
*
* Returns +true+ for a Proc object for which argument handling is rigid.
* Such procs are typically generated by +lambda+.
*
* A Proc object generated by +proc+ ignores extra arguments.
*
* proc {|a,b| [a,b] }.call(1,2,3) #=> [1,2]
*
* It provides +nil+ for missing arguments.
*
* proc {|a,b| [a,b] }.call(1) #=> [1,nil]
*
* It expands a single array argument.
*
* proc {|a,b| [a,b] }.call([1,2]) #=> [1,2]
*
* A Proc object generated by +lambda+ doesn't have such tricks.
*
* lambda {|a,b| [a,b] }.call(1,2,3) #=> ArgumentError
* lambda {|a,b| [a,b] }.call(1) #=> ArgumentError
* lambda {|a,b| [a,b] }.call([1,2]) #=> ArgumentError
*
* Proc#lambda? is a predicate for the tricks.
* It returns +true+ if no tricks apply.
*
* lambda {}.lambda? #=> true
* proc {}.lambda? #=> false
*
* Proc.new is the same as +proc+.
*
* Proc.new {}.lambda? #=> false
*
* +lambda+, +proc+ and Proc.new preserve the tricks of
* a Proc object given by <code>&</code> argument.
*
* lambda(&lambda {}).lambda? #=> true
* proc(&lambda {}).lambda? #=> true
* Proc.new(&lambda {}).lambda? #=> true
*
* lambda(&proc {}).lambda? #=> false
* proc(&proc {}).lambda? #=> false
* Proc.new(&proc {}).lambda? #=> false
*
* A Proc object generated by <code>&</code> argument has the tricks
*
* def n(&b) b.lambda? end
* n {} #=> false
*
* The <code>&</code> argument preserves the tricks if a Proc object
* is given by <code>&</code> argument.
*
* n(&lambda {}) #=> true
* n(&proc {}) #=> false
* n(&Proc.new {}) #=> false
*
* A Proc object converted from a method has no tricks.
*
* def m() end
* method(:m).to_proc.lambda? #=> true
*
* n(&method(:m)) #=> true
* n(&method(:m).to_proc) #=> true
*
* +define_method+ is treated the same as method definition.
* The defined method has no tricks.
*
* class C
* define_method(:d) {}
* end
* C.new.d(1,2) #=> ArgumentError
* C.new.method(:d).to_proc.lambda? #=> true
*
* +define_method+ always defines a method without the tricks,
* even if a non-lambda Proc object is given.
* This is the only exception for which the tricks are not preserved.
*
* class C
* define_method(:e, &proc {})
* end
* C.new.e(1,2) #=> ArgumentError
* C.new.method(:e).to_proc.lambda? #=> true
*
* This exception insures that methods never have tricks
* and makes it easy to have wrappers to define methods that behave as usual.
*
* class C
* def self.def2(name, &body)
* define_method(name, &body)
* end
*
* def2(:f) {}
* end
* C.new.f(1,2) #=> ArgumentError
*
* The wrapper <i>def2</i> defines a method which has no tricks.
*
*/
VALUE
rb_proc_lambda_p(VALUE procval)
{
rb_proc_t *proc;
GetProcPtr(procval, proc);
return proc->is_lambda ? Qtrue : Qfalse;
}
/* Binding */
static void
binding_free(void *ptr)
{
rb_binding_t *bind;
RUBY_FREE_ENTER("binding");
if (ptr) {
bind = ptr;
ruby_xfree(ptr);
}
RUBY_FREE_LEAVE("binding");
}
static void
binding_mark(void *ptr)
{
rb_binding_t *bind;
RUBY_MARK_ENTER("binding");
if (ptr) {
bind = ptr;
RUBY_MARK_UNLESS_NULL(bind->env);
RUBY_MARK_UNLESS_NULL(bind->filename);
}
RUBY_MARK_LEAVE("binding");
}
static size_t
binding_memsize(const void *ptr)
{
return ptr ? sizeof(rb_binding_t) : 0;
}
static const rb_data_type_t binding_data_type = {
"binding",
{
binding_mark,
binding_free,
binding_memsize,
},
};
static VALUE
binding_alloc(VALUE klass)
{
VALUE obj;
rb_binding_t *bind;
obj = TypedData_Make_Struct(klass, rb_binding_t, &binding_data_type, bind);
return obj;
}
/* :nodoc: */
static VALUE
binding_dup(VALUE self)
{
VALUE bindval = binding_alloc(rb_cBinding);
rb_binding_t *src, *dst;
GetBindingPtr(self, src);
GetBindingPtr(bindval, dst);
dst->env = src->env;
dst->filename = src->filename;
dst->line_no = src->line_no;
return bindval;
}
/* :nodoc: */
static VALUE
binding_clone(VALUE self)
{
VALUE bindval = binding_dup(self);
CLONESETUP(bindval, self);
return bindval;
}
VALUE
rb_binding_new(void)
{
rb_thread_t *th = GET_THREAD();
rb_control_frame_t *cfp = rb_vm_get_ruby_level_next_cfp(th, th->cfp);
VALUE bindval = binding_alloc(rb_cBinding);
rb_binding_t *bind;
if (cfp == 0) {
rb_raise(rb_eRuntimeError, "Can't create Binding Object on top of Fiber.");
}
GetBindingPtr(bindval, bind);
bind->env = rb_vm_make_env_object(th, cfp);
bind->filename = cfp->iseq->filename;
bind->line_no = rb_vm_get_sourceline(cfp);
return bindval;
}
/*
* call-seq:
* binding -> a_binding
*
* Returns a +Binding+ object, describing the variable and
* method bindings at the point of call. This object can be used when
* calling +eval+ to execute the evaluated command in this
* environment. See also the description of class +Binding+.
*
* def get_binding(param)
* return binding
* end
* b = get_binding("hello")
* eval("param", b) #=> "hello"
*/
static VALUE
rb_f_binding(VALUE self)
{
return rb_binding_new();
}
/*
* call-seq:
* binding.eval(string [, filename [,lineno]]) -> obj
*
* Evaluates the Ruby expression(s) in <em>string</em>, in the
* <em>binding</em>'s context. If the optional <em>filename</em> and
* <em>lineno</em> parameters are present, they will be used when
* reporting syntax errors.
*
* def get_binding(param)
* return binding
* end
* b = get_binding("hello")
* b.eval("param") #=> "hello"
*/
static VALUE
bind_eval(int argc, VALUE *argv, VALUE bindval)
{
VALUE args[4];
rb_scan_args(argc, argv, "12", &args[0], &args[2], &args[3]);
args[1] = bindval;
return rb_f_eval(argc+1, args, Qnil /* self will be searched in eval */);
}
static VALUE
proc_new(VALUE klass, int is_lambda)
{
VALUE procval = Qnil;
rb_thread_t *th = GET_THREAD();
rb_control_frame_t *cfp = th->cfp;
rb_block_t *block;
if ((GC_GUARDED_PTR_REF(cfp->lfp[0])) != 0) {
block = GC_GUARDED_PTR_REF(cfp->lfp[0]);
}
else {
cfp = RUBY_VM_PREVIOUS_CONTROL_FRAME(cfp);
if ((GC_GUARDED_PTR_REF(cfp->lfp[0])) != 0) {
block = GC_GUARDED_PTR_REF(cfp->lfp[0]);
if (is_lambda) {
rb_warn("tried to create Proc object without a block");
}
}
else {
rb_raise(rb_eArgError,
"tried to create Proc object without a block");
}
}
procval = block->proc;
if (procval) {
if (RBASIC(procval)->klass == klass) {
return procval;
}
else {
VALUE newprocval = proc_dup(procval);
RBASIC(newprocval)->klass = klass;
return newprocval;
}
}
procval = rb_vm_make_proc(th, block, klass);
rb_vm_rewrite_dfp_in_errinfo(th, cfp);
if (is_lambda) {
rb_proc_t *proc;
GetProcPtr(procval, proc);
proc->is_lambda = TRUE;
}
return procval;
}
/*
* call-seq:
* Proc.new {|...| block } -> a_proc
* Proc.new -> a_proc
*
* Creates a new <code>Proc</code> object, bound to the current
* context. <code>Proc::new</code> may be called without a block only
* within a method with an attached block, in which case that block is
* converted to the <code>Proc</code> object.
*
* def proc_from
* Proc.new
* end
* proc = proc_from { "hello" }
* proc.call #=> "hello"
*/
static VALUE
rb_proc_s_new(int argc, VALUE *argv, VALUE klass)
{
VALUE block = proc_new(klass, FALSE);
rb_obj_call_init(block, argc, argv);
return block;
}
/*
* call-seq:
* proc { |...| block } -> a_proc
*
* Equivalent to <code>Proc.new</code>.
*/
VALUE
rb_block_proc(void)
{
return proc_new(rb_cProc, FALSE);
}
VALUE
rb_block_lambda(void)
{
return proc_new(rb_cProc, TRUE);
}
VALUE
rb_f_lambda(void)
{
rb_warn("rb_f_lambda() is deprecated; use rb_block_proc() instead");
return rb_block_lambda();
}
/*
* call-seq:
* lambda { |...| block } -> a_proc
*
* Equivalent to <code>Proc.new</code>, except the resulting Proc objects
* check the number of parameters passed when called. The return statement
* returns only from the proc itself.
*
* sum = lambda { |a, b| a + b }
*
* sum.call(2, 3) #=> 5
* sum.call(2) # ArgumentError: wrong number of arguments (1 for 2)
*/
static VALUE
proc_lambda(void)
{
return rb_block_lambda();
}
/* CHECKME: are the argument checking semantics correct? */
/*
* call-seq:
* prc.call(params,...) -> obj
* prc[params,...] -> obj
* prc.(params,...) -> obj
*
* Invokes the block, setting the block's parameters to the values in
* <i>params</i> using something close to method calling semantics.
* Generates a warning if multiple values are passed to a proc that
* expects just one (previously this silently converted the parameters
* to an array). Note that prc.() invokes prc.call() with the parameters
* given. It's a syntax sugar to hide "call".
*
* For procs created using <code>Kernel.proc</code>, generates an
* error if the wrong number of parameters
* are passed to a proc with multiple parameters. For procs created using
* <code>Proc.new</code>, extra parameters are silently discarded.
*
* Returns the value of the last expression evaluated in the block. See
* also <code>Proc#yield</code>.
*
* a_proc = Proc.new {|a, *b| b.collect {|i| i*a }}
* a_proc.call(9, 1, 2, 3) #=> [9, 18, 27]
* a_proc[9, 1, 2, 3] #=> [9, 18, 27]
* a_proc = Proc.new {|a,b| a}
* a_proc.call(1,2,3)
*
* <em>produces:</em>
*
* prog.rb:5: wrong number of arguments (3 for 2) (ArgumentError)
* from prog.rb:4:in `call'
* from prog.rb:5
*/
/*
* call-seq:
* prc === obj -> result_of_proc
*
* Invokes the block, with <i>obj</i> as the block's parameter. It is
* to allow a proc object to be a target of +when+ clause in the case statement.
*/
static VALUE
proc_call(int argc, VALUE *argv, VALUE procval)
{
rb_proc_t *proc;
rb_block_t *blockptr = 0;
rb_iseq_t *iseq;
VALUE passed_procval;
GetProcPtr(procval, proc);
iseq = proc->block.iseq;
if (BUILTIN_TYPE(iseq) == T_NODE || iseq->arg_block != -1) {
if (rb_block_given_p()) {
rb_proc_t *passed_proc;
RB_GC_GUARD(passed_procval) = rb_block_proc();
GetProcPtr(passed_procval, passed_proc);
blockptr = &passed_proc->block;
}
}
return rb_vm_invoke_proc(GET_THREAD(), proc, proc->block.self,
argc, argv, blockptr);
}
#if SIZEOF_LONG > SIZEOF_INT
static inline int
check_argc(long argc)
{
if (argc > INT_MAX || argc < 0) {
rb_raise(rb_eArgError, "too many arguments (%lu)",
(unsigned long)argc);
}
return (int)argc;
}
#else
#define check_argc(argc) (argc)
#endif
VALUE
rb_proc_call(VALUE self, VALUE args)
{
rb_proc_t *proc;
GetProcPtr(self, proc);
return rb_vm_invoke_proc(GET_THREAD(), proc, proc->block.self,
check_argc(RARRAY_LEN(args)), RARRAY_PTR(args), 0);
}
VALUE
rb_proc_call_with_block(VALUE self, int argc, VALUE *argv, VALUE pass_procval)
{
rb_proc_t *proc;
rb_block_t *block = 0;
GetProcPtr(self, proc);
if (!NIL_P(pass_procval)) {
rb_proc_t *pass_proc;
GetProcPtr(pass_procval, pass_proc);
block = &pass_proc->block;
}
return rb_vm_invoke_proc(GET_THREAD(), proc, proc->block.self,
argc, argv, block);
}
/*
* call-seq:
* prc.arity -> fixnum
*
* Returns the number of arguments that would not be ignored. If the block
* is declared to take no arguments, returns 0. If the block is known
* to take exactly n arguments, returns n. If the block has optional
* arguments, return -n-1, where n is the number of mandatory
* arguments. A <code>proc</code> with no argument declarations
* is the same a block declaring <code>||</code> as its arguments.
*
* Proc.new {}.arity #=> 0
* Proc.new {||}.arity #=> 0
* Proc.new {|a|}.arity #=> 1
* Proc.new {|a,b|}.arity #=> 2
* Proc.new {|a,b,c|}.arity #=> 3
* Proc.new {|*a|}.arity #=> -1
* Proc.new {|a,*b|}.arity #=> -2
* Proc.new {|a,*b, c|}.arity #=> -3
*/
static VALUE
proc_arity(VALUE self)
{
int arity = rb_proc_arity(self);
return INT2FIX(arity);
}
int
rb_proc_arity(VALUE self)
{
rb_proc_t *proc;
rb_iseq_t *iseq;
GetProcPtr(self, proc);
iseq = proc->block.iseq;
if (iseq) {
if (BUILTIN_TYPE(iseq) != T_NODE) {
if (iseq->arg_rest < 0) {
return iseq->argc;
}
else {
return -(iseq->argc + 1 + iseq->arg_post_len);
}
}
else {
NODE *node = (NODE *)iseq;
if (IS_METHOD_PROC_NODE(node)) {
/* method(:foo).to_proc.arity */
return method_arity(node->nd_tval);
}
}
}
return -1;
}
#define get_proc_iseq rb_proc_get_iseq
rb_iseq_t *
rb_proc_get_iseq(VALUE self, int *is_proc)
{
rb_proc_t *proc;
rb_iseq_t *iseq;
GetProcPtr(self, proc);
iseq = proc->block.iseq;
if (is_proc) *is_proc = !proc->is_lambda;
if (!RUBY_VM_NORMAL_ISEQ_P(iseq)) {
NODE *node = (NODE *)iseq;
iseq = 0;
if (IS_METHOD_PROC_NODE(node)) {
/* method(:foo).to_proc */
iseq = rb_method_get_iseq(node->nd_tval);
if (is_proc) *is_proc = 0;
}
}
return iseq;
}
static VALUE
iseq_location(rb_iseq_t *iseq)
{
VALUE loc[2];
if (!iseq) return Qnil;
loc[0] = iseq->filename;
if (iseq->line_info_table) {
loc[1] = INT2FIX(rb_iseq_first_lineno(iseq));
}
else {
loc[1] = Qnil;
}
return rb_ary_new4(2, loc);
}
/*
* call-seq:
* prc.source_location -> [String, Fixnum]
*
* Returns the Ruby source filename and line number containing this proc
* or +nil+ if this proc was not defined in Ruby (i.e. native)
*/
VALUE
rb_proc_location(VALUE self)
{
return iseq_location(get_proc_iseq(self, 0));
}
static VALUE
unnamed_parameters(int arity)
{
VALUE a, param = rb_ary_new2((arity < 0) ? -arity : arity);
int n = (arity < 0) ? ~arity : arity;
ID req, rest;
CONST_ID(req, "req");
a = rb_ary_new3(1, ID2SYM(req));
OBJ_FREEZE(a);
for (; n; --n) {
rb_ary_push(param, a);
}
if (arity < 0) {
CONST_ID(rest, "rest");
rb_ary_store(param, ~arity, rb_ary_new3(1, ID2SYM(rest)));
}
return param;
}
/*
* call-seq:
* prc.parameters -> array
*
* Returns the parameter information of this proc.
*
* prc = lambda{|x, y=42, *other|}
* prc.parameters #=> [[:req, :x], [:opt, :y], [:rest, :other]]
*/
static VALUE
rb_proc_parameters(VALUE self)
{
int is_proc;
rb_iseq_t *iseq = get_proc_iseq(self, &is_proc);
if (!iseq) {
return unnamed_parameters(rb_proc_arity(self));
}
return rb_iseq_parameters(iseq, is_proc);
}
/*
* call-seq:
* prc == other_proc -> true or false
*
* Returns <code>true</code> if <i>prc</i> is the same object as
* <i>other_proc</i>, or if they are both procs with the same body.
*/
static VALUE
proc_eq(VALUE self, VALUE other)
{
if (self == other) {
return Qtrue;
}
else {
if (rb_obj_is_proc(other)) {
rb_proc_t *p1, *p2;
GetProcPtr(self, p1);
GetProcPtr(other, p2);
if (p1->envval == p2->envval &&
p1->block.iseq->iseq_size == p2->block.iseq->iseq_size &&
p1->block.iseq->local_size == p2->block.iseq->local_size &&
MEMCMP(p1->block.iseq->iseq, p2->block.iseq->iseq, VALUE,
p1->block.iseq->iseq_size) == 0) {
return Qtrue;
}
}
}
return Qfalse;
}
/*
* call-seq:
* prc.hash -> integer
*
* Returns a hash value corresponding to proc body.
*/
static VALUE
proc_hash(VALUE self)
{
st_index_t hash;
rb_proc_t *proc;
GetProcPtr(self, proc);
hash = rb_hash_start((st_index_t)proc->block.iseq);
hash = rb_hash_uint(hash, (st_index_t)proc->envval);
hash = rb_hash_uint(hash, (st_index_t)proc->block.lfp >> 16);
hash = rb_hash_end(hash);
return LONG2FIX(hash);
}
/*
* call-seq:
* prc.to_s -> string
*
* Returns the unique identifier for this proc, along with
* an indication of where the proc was defined.
*/
static VALUE
proc_to_s(VALUE self)
{
VALUE str = 0;
rb_proc_t *proc;
const char *cname = rb_obj_classname(self);
rb_iseq_t *iseq;
const char *is_lambda;
GetProcPtr(self, proc);
iseq = proc->block.iseq;
is_lambda = proc->is_lambda ? " (lambda)" : "";
if (RUBY_VM_NORMAL_ISEQ_P(iseq)) {
int line_no = 0;
if (iseq->line_info_table) {
line_no = rb_iseq_first_lineno(iseq);
}
str = rb_sprintf("#<%s:%p@%s:%d%s>", cname, (void *)self,
RSTRING_PTR(iseq->filename),
line_no, is_lambda);
}
else {
str = rb_sprintf("#<%s:%p%s>", cname, (void *)proc->block.iseq,
is_lambda);
}
if (OBJ_TAINTED(self)) {
OBJ_TAINT(str);
}
return str;
}
/*
* call-seq:
* prc.to_proc -> prc
*
* Part of the protocol for converting objects to <code>Proc</code>
* objects. Instances of class <code>Proc</code> simply return
* themselves.
*/
static VALUE
proc_to_proc(VALUE self)
{
return self;
}
static void
bm_mark(void *ptr)
{
struct METHOD *data = ptr;
rb_gc_mark(data->rclass);
rb_gc_mark(data->recv);
if (data->me) rb_mark_method_entry(data->me);
}
static void
bm_free(void *ptr)
{
struct METHOD *data = ptr;
struct unlinked_method_entry_list_entry *ume = data->ume;
ume->me = data->me;
ume->next = GET_VM()->unlinked_method_entry_list;
GET_VM()->unlinked_method_entry_list = ume;
xfree(ptr);
}
static size_t
bm_memsize(const void *ptr)
{
return ptr ? sizeof(struct METHOD) : 0;
}
static const rb_data_type_t method_data_type = {
"method",
{
bm_mark,
bm_free,
bm_memsize,
},
};
VALUE
rb_obj_is_method(VALUE m)
{
if (rb_typeddata_is_kind_of(m, &method_data_type)) {
return Qtrue;
}
else {
return Qfalse;
}
}
static VALUE
mnew(VALUE klass, VALUE obj, ID id, VALUE mclass, int scope)
{
VALUE method;
VALUE rclass = klass;
ID rid = id;
struct METHOD *data;
rb_method_entry_t *me, meb;
rb_method_definition_t *def = 0;
rb_method_flag_t flag = NOEX_UNDEF;
again:
me = rb_method_entry(klass, id);
if (UNDEFINED_METHOD_ENTRY_P(me)) {
ID rmiss = rb_intern("respond_to_missing?");
VALUE sym = ID2SYM(id);
if (obj != Qundef && !rb_method_basic_definition_p(klass, rmiss)) {
if (RTEST(rb_funcall(obj, rmiss, 2, sym, scope ? Qfalse : Qtrue))) {
def = ALLOC(rb_method_definition_t);
def->type = VM_METHOD_TYPE_MISSING;
def->original_id = id;
def->alias_count = 0;
meb.flag = 0;
meb.mark = 0;
meb.called_id = id;
meb.klass = klass;
meb.def = def;
me = &meb;
def = 0;
goto gen_method;
}
}
rb_print_undef(klass, id, 0);
}
def = me->def;
if (flag == NOEX_UNDEF) {
flag = me->flag;
if (scope && (flag & NOEX_MASK) != NOEX_PUBLIC) {
const char *v = "";
switch (flag & NOEX_MASK) {
case NOEX_PRIVATE: v = "private"; break;
case NOEX_PROTECTED: v = "protected"; break;
}
rb_name_error(id, "method `%s' for %s `%s' is %s",
rb_id2name(id),
(RB_TYPE_P(klass, T_MODULE)) ? "module" : "class",
rb_class2name(klass),
v);
}
}
if (def && def->type == VM_METHOD_TYPE_ZSUPER) {
klass = RCLASS_SUPER(me->klass);
id = def->original_id;
goto again;
}
klass = me->klass;
while (rclass != klass &&
(FL_TEST(rclass, FL_SINGLETON) || RB_TYPE_P(rclass, T_ICLASS))) {
rclass = RCLASS_SUPER(rclass);
}
if (RB_TYPE_P(klass, T_ICLASS)) {
klass = RBASIC(klass)->klass;
}
gen_method:
method = TypedData_Make_Struct(mclass, struct METHOD, &method_data_type, data);
data->recv = obj;
data->rclass = rclass;
data->id = rid;
data->me = ALLOC(rb_method_entry_t);
*data->me = *me;
data->me->def->alias_count++;
data->ume = ALLOC(struct unlinked_method_entry_list_entry);
OBJ_INFECT(method, klass);
return method;
}
/**********************************************************************
*