/* ** class.c - Class class ** ** See Copyright Notice in mruby.h */ #include #include #include #include #include #include #include #include #include #include #include #include #include KHASH_DEFINE(mt, mrb_sym, mrb_method_t, TRUE, kh_int_hash_func, kh_int_hash_equal) void mrb_gc_mark_mt(mrb_state *mrb, struct RClass *c) { khiter_t k; khash_t(mt) *h = c->mt; if (!h) return; for (k = kh_begin(h); k != kh_end(h); k++) { if (kh_exist(h, k)) { mrb_method_t m = kh_value(h, k); if (MRB_METHOD_PROC_P(m)) { struct RProc *p = MRB_METHOD_PROC(m); mrb_gc_mark(mrb, (struct RBasic*)p); } } } } size_t mrb_gc_mark_mt_size(mrb_state *mrb, struct RClass *c) { khash_t(mt) *h = c->mt; if (!h) return 0; return kh_size(h); } void mrb_gc_free_mt(mrb_state *mrb, struct RClass *c) { kh_destroy(mt, mrb, c->mt); } void mrb_class_name_class(mrb_state *mrb, struct RClass *outer, struct RClass *c, mrb_sym id) { mrb_value name; mrb_sym nsym = mrb_intern_lit(mrb, "__classname__"); if (mrb_obj_iv_defined(mrb, (struct RObject*)c, nsym)) return; if (outer == NULL || outer == mrb->object_class) { name = mrb_symbol_value(id); } else { name = mrb_class_path(mrb, outer); if (mrb_nil_p(name)) { /* unnamed outer class */ if (outer != mrb->object_class && outer != c) { mrb_obj_iv_set_force(mrb, (struct RObject*)c, mrb_intern_lit(mrb, "__outer__"), mrb_obj_value(outer)); } return; } else { mrb_int len; const char *n = mrb_sym_name_len(mrb, id, &len); mrb_str_cat_lit(mrb, name, "::"); mrb_str_cat(mrb, name, n, len); } } mrb_obj_iv_set_force(mrb, (struct RObject*)c, nsym, name); } mrb_bool mrb_const_name_p(mrb_state *mrb, const char *name, mrb_int len) { return len > 0 && ISUPPER(name[0]) && mrb_ident_p(name+1, len-1); } static void setup_class(mrb_state *mrb, struct RClass *outer, struct RClass *c, mrb_sym id) { mrb_class_name_class(mrb, outer, c, id); mrb_obj_iv_set(mrb, (struct RObject*)outer, id, mrb_obj_value(c)); } #define make_metaclass(mrb, c) prepare_singleton_class((mrb), (struct RBasic*)(c)) static void prepare_singleton_class(mrb_state *mrb, struct RBasic *o) { struct RClass *sc, *c; if (o->c->tt == MRB_TT_SCLASS) return; sc = (struct RClass*)mrb_obj_alloc(mrb, MRB_TT_SCLASS, mrb->class_class); sc->flags |= MRB_FL_CLASS_IS_INHERITED; sc->mt = kh_init(mt, mrb); sc->iv = 0; if (o->tt == MRB_TT_CLASS) { c = (struct RClass*)o; if (!c->super) { sc->super = mrb->class_class; } else { sc->super = c->super->c; } } else if (o->tt == MRB_TT_SCLASS) { c = (struct RClass*)o; while (c->super->tt == MRB_TT_ICLASS) c = c->super; make_metaclass(mrb, c->super); sc->super = c->super->c; } else { sc->super = o->c; prepare_singleton_class(mrb, (struct RBasic*)sc); } o->c = sc; mrb_field_write_barrier(mrb, (struct RBasic*)o, (struct RBasic*)sc); mrb_field_write_barrier(mrb, (struct RBasic*)sc, (struct RBasic*)o); mrb_obj_iv_set(mrb, (struct RObject*)sc, mrb_intern_lit(mrb, "__attached__"), mrb_obj_value(o)); sc->flags |= o->flags & MRB_FL_OBJ_IS_FROZEN; } static mrb_value class_name_str(mrb_state *mrb, struct RClass* c) { mrb_value path = mrb_class_path(mrb, c); if (mrb_nil_p(path)) { path = c->tt == MRB_TT_MODULE ? mrb_str_new_lit(mrb, "#"); } return path; } static struct RClass* class_from_sym(mrb_state *mrb, struct RClass *klass, mrb_sym id) { mrb_value c = mrb_const_get(mrb, mrb_obj_value(klass), id); mrb_check_type(mrb, c, MRB_TT_CLASS); return mrb_class_ptr(c); } static struct RClass* module_from_sym(mrb_state *mrb, struct RClass *klass, mrb_sym id) { mrb_value c = mrb_const_get(mrb, mrb_obj_value(klass), id); mrb_check_type(mrb, c, MRB_TT_MODULE); return mrb_class_ptr(c); } static mrb_bool class_ptr_p(mrb_value obj) { switch (mrb_type(obj)) { case MRB_TT_CLASS: case MRB_TT_SCLASS: case MRB_TT_MODULE: return TRUE; default: return FALSE; } } static void check_if_class_or_module(mrb_state *mrb, mrb_value obj) { if (!class_ptr_p(obj)) { mrb_raisef(mrb, E_TYPE_ERROR, "%!v is not a class/module", obj); } } static struct RClass* define_module(mrb_state *mrb, mrb_sym name, struct RClass *outer) { struct RClass *m; if (mrb_const_defined_at(mrb, mrb_obj_value(outer), name)) { return module_from_sym(mrb, outer, name); } m = mrb_module_new(mrb); setup_class(mrb, outer, m, name); return m; } MRB_API struct RClass* mrb_define_module_id(mrb_state *mrb, mrb_sym name) { return define_module(mrb, name, mrb->object_class); } MRB_API struct RClass* mrb_define_module(mrb_state *mrb, const char *name) { return define_module(mrb, mrb_intern_cstr(mrb, name), mrb->object_class); } struct RClass* mrb_vm_define_module(mrb_state *mrb, mrb_value outer, mrb_sym id) { check_if_class_or_module(mrb, outer); if (mrb_const_defined_at(mrb, outer, id)) { mrb_value old = mrb_const_get(mrb, outer, id); if (!mrb_module_p(old)) { mrb_raisef(mrb, E_TYPE_ERROR, "%!v is not a module", old); } return mrb_class_ptr(old); } return define_module(mrb, id, mrb_class_ptr(outer)); } MRB_API struct RClass* mrb_define_module_under(mrb_state *mrb, struct RClass *outer, const char *name) { mrb_sym id = mrb_intern_cstr(mrb, name); struct RClass * c = define_module(mrb, id, outer); setup_class(mrb, outer, c, id); return c; } static struct RClass* find_origin(struct RClass *c) { MRB_CLASS_ORIGIN(c); return c; } static struct RClass* define_class(mrb_state *mrb, mrb_sym name, struct RClass *super, struct RClass *outer) { struct RClass * c; if (mrb_const_defined_at(mrb, mrb_obj_value(outer), name)) { c = class_from_sym(mrb, outer, name); MRB_CLASS_ORIGIN(c); if (super && mrb_class_real(c->super) != super) { mrb_raisef(mrb, E_TYPE_ERROR, "superclass mismatch for Class %n (%C not %C)", name, c->super, super); } return c; } c = mrb_class_new(mrb, super); setup_class(mrb, outer, c, name); return c; } MRB_API struct RClass* mrb_define_class_id(mrb_state *mrb, mrb_sym name, struct RClass *super) { if (!super) { mrb_warn(mrb, "no super class for '%n', Object assumed", name); } return define_class(mrb, name, super, mrb->object_class); } MRB_API struct RClass* mrb_define_class(mrb_state *mrb, const char *name, struct RClass *super) { return mrb_define_class_id(mrb, mrb_intern_cstr(mrb, name), super); } static mrb_value mrb_bob_init(mrb_state *mrb, mrb_value); #ifdef MRB_METHOD_CACHE static void mc_clear_all(mrb_state *mrb); static void mc_clear_by_id(mrb_state *mrb, struct RClass*, mrb_sym); #else #define mc_clear_all(mrb) #define mc_clear_by_id(mrb,c,s) #endif static void mrb_class_inherited(mrb_state *mrb, struct RClass *super, struct RClass *klass) { mrb_value s; mrb_sym mid; if (!super) super = mrb->object_class; super->flags |= MRB_FL_CLASS_IS_INHERITED; s = mrb_obj_value(super); mrb_mc_clear_by_class(mrb, klass); mid = mrb_intern_lit(mrb, "inherited"); if (!mrb_func_basic_p(mrb, s, mid, mrb_bob_init)) { mrb_value c = mrb_obj_value(klass); mrb_funcall_argv(mrb, s, mid, 1, &c); } } struct RClass* mrb_vm_define_class(mrb_state *mrb, mrb_value outer, mrb_value super, mrb_sym id) { struct RClass *s; struct RClass *c; if (!mrb_nil_p(super)) { if (!mrb_class_p(super)) { mrb_raisef(mrb, E_TYPE_ERROR, "superclass must be a Class (%!v given)", super); } s = mrb_class_ptr(super); } else { s = 0; } check_if_class_or_module(mrb, outer); if (mrb_const_defined_at(mrb, outer, id)) { mrb_value old = mrb_const_get(mrb, outer, id); if (!mrb_class_p(old)) { mrb_raisef(mrb, E_TYPE_ERROR, "%!v is not a class", old); } c = mrb_class_ptr(old); if (s) { /* check super class */ if (mrb_class_real(c->super) != s) { mrb_raisef(mrb, E_TYPE_ERROR, "superclass mismatch for class %v", old); } } return c; } c = define_class(mrb, id, s, mrb_class_ptr(outer)); mrb_class_inherited(mrb, mrb_class_real(c->super), c); return c; } MRB_API mrb_bool mrb_class_defined(mrb_state *mrb, const char *name) { mrb_value sym = mrb_check_intern_cstr(mrb, name); if (mrb_nil_p(sym)) { return FALSE; } return mrb_const_defined(mrb, mrb_obj_value(mrb->object_class), mrb_symbol(sym)); } MRB_API mrb_bool mrb_class_defined_under(mrb_state *mrb, struct RClass *outer, const char *name) { mrb_value sym = mrb_check_intern_cstr(mrb, name); if (mrb_nil_p(sym)) { return FALSE; } return mrb_const_defined_at(mrb, mrb_obj_value(outer), mrb_symbol(sym)); } MRB_API struct RClass* mrb_class_get_under(mrb_state *mrb, struct RClass *outer, const char *name) { return class_from_sym(mrb, outer, mrb_intern_cstr(mrb, name)); } MRB_API struct RClass* mrb_class_get(mrb_state *mrb, const char *name) { return mrb_class_get_under(mrb, mrb->object_class, name); } MRB_API struct RClass* mrb_exc_get(mrb_state *mrb, const char *name) { struct RClass *exc, *e; mrb_value c = mrb_const_get(mrb, mrb_obj_value(mrb->object_class), mrb_intern_cstr(mrb, name)); if (!mrb_class_p(c)) { mrb_raise(mrb, mrb->eException_class, "exception corrupted"); } exc = e = mrb_class_ptr(c); while (e) { if (e == mrb->eException_class) return exc; e = e->super; } return mrb->eException_class; } MRB_API struct RClass* mrb_module_get_under(mrb_state *mrb, struct RClass *outer, const char *name) { return module_from_sym(mrb, outer, mrb_intern_cstr(mrb, name)); } MRB_API struct RClass* mrb_module_get(mrb_state *mrb, const char *name) { return mrb_module_get_under(mrb, mrb->object_class, name); } /*! * Defines a class under the namespace of \a outer. * \param outer a class which contains the new class. * \param name name of the new class * \param super a class from which the new class will derive. * NULL means \c Object class. * \return the created class * \throw TypeError if the constant name \a name is already taken but * the constant is not a \c Class. * \throw NameError if the class is already defined but the class can not * be reopened because its superclass is not \a super. * \post top-level constant named \a name refers the returned class. * * \note if a class named \a name is already defined and its superclass is * \a super, the function just returns the defined class. */ MRB_API struct RClass* mrb_define_class_under(mrb_state *mrb, struct RClass *outer, const char *name, struct RClass *super) { mrb_sym id = mrb_intern_cstr(mrb, name); struct RClass * c; #if 0 if (!super) { mrb_warn(mrb, "no super class for '%C::%n', Object assumed", outer, id); } #endif c = define_class(mrb, id, super, outer); setup_class(mrb, outer, c, id); return c; } MRB_API void mrb_define_method_raw(mrb_state *mrb, struct RClass *c, mrb_sym mid, mrb_method_t m) { khash_t(mt) *h; khiter_t k; MRB_CLASS_ORIGIN(c); h = c->mt; mrb_check_frozen(mrb, c); if (!h) h = c->mt = kh_init(mt, mrb); k = kh_put(mt, mrb, h, mid); kh_value(h, k) = m; if (MRB_METHOD_PROC_P(m) && !MRB_METHOD_UNDEF_P(m)) { struct RProc *p = MRB_METHOD_PROC(m); p->flags |= MRB_PROC_SCOPE; p->c = NULL; mrb_field_write_barrier(mrb, (struct RBasic*)c, (struct RBasic*)p); if (!MRB_PROC_ENV_P(p)) { MRB_PROC_SET_TARGET_CLASS(p, c); } } mc_clear_by_id(mrb, c, mid); } MRB_API void mrb_define_method_id(mrb_state *mrb, struct RClass *c, mrb_sym mid, mrb_func_t func, mrb_aspec aspec) { mrb_method_t m; int ai = mrb_gc_arena_save(mrb); MRB_METHOD_FROM_FUNC(m, func); if (aspec == MRB_ARGS_NONE()) { MRB_METHOD_NOARG_SET(m); } mrb_define_method_raw(mrb, c, mid, m); mrb_gc_arena_restore(mrb, ai); } MRB_API void mrb_define_method(mrb_state *mrb, struct RClass *c, const char *name, mrb_func_t func, mrb_aspec aspec) { mrb_define_method_id(mrb, c, mrb_intern_cstr(mrb, name), func, aspec); } /* a function to raise NotImplementedError with current method name */ MRB_API void mrb_notimplement(mrb_state *mrb) { mrb_callinfo *ci = mrb->c->ci; if (ci->mid) { mrb_raisef(mrb, E_NOTIMP_ERROR, "%n() function is unimplemented on this machine", ci->mid); } } /* a function to be replacement of unimplemented method */ MRB_API mrb_value mrb_notimplement_m(mrb_state *mrb, mrb_value self) { mrb_notimplement(mrb); /* not reached */ return mrb_nil_value(); } static mrb_value to_ary(mrb_state *mrb, mrb_value val) { mrb_check_type(mrb, val, MRB_TT_ARRAY); return val; } static mrb_value to_hash(mrb_state *mrb, mrb_value val) { mrb_check_type(mrb, val, MRB_TT_HASH); return val; } #define to_sym(mrb, ss) mrb_obj_to_sym(mrb, ss) MRB_API mrb_int mrb_get_argc(mrb_state *mrb) { mrb_int argc = mrb->c->ci->argc; if (argc < 0) { struct RArray *a = mrb_ary_ptr(mrb->c->stack[1]); argc = ARY_LEN(a); } return argc; } MRB_API mrb_value* mrb_get_argv(mrb_state *mrb) { mrb_int argc = mrb->c->ci->argc; mrb_value *array_argv = mrb->c->stack + 1; if (argc < 0) { struct RArray *a = mrb_ary_ptr(*array_argv); array_argv = ARY_PTR(a); } return array_argv; } void mrb_hash_check_kdict(mrb_state *mrb, mrb_value self); /* retrieve arguments from mrb_state. mrb_get_args(mrb, format, ...) returns number of arguments parsed. format specifiers: string mruby type C type note ---------------------------------------------------------------------------------------------- o: Object [mrb_value] C: Class/Module [mrb_value] S: String [mrb_value] when ! follows, the value may be nil A: Array [mrb_value] when ! follows, the value may be nil H: Hash [mrb_value] when ! follows, the value may be nil s: String [char*,mrb_int] Receive two arguments; s! gives (NULL,0) for nil z: String [char*] NUL terminated string; z! gives NULL for nil a: Array [mrb_value*,mrb_int] Receive two arguments; a! gives (NULL,0) for nil f: Fixnum/Float [mrb_float] i: Fixnum/Float [mrb_int] b: boolean [mrb_bool] n: String/Symbol [mrb_sym] d: data [void*,mrb_data_type const] 2nd argument will be used to check data type so it won't be modified; when ! follows, the value may be nil I: inline struct [void*] &: block [mrb_value] &! raises exception if no block given *: rest argument [mrb_value*,mrb_int] The rest of the arguments as an array; *! avoid copy of the stack |: optional Following arguments are optional ?: optional given [mrb_bool] true if preceding argument (optional) is given ':': keyword args [mrb_kwargs const] Get keyword arguments */ MRB_API mrb_int mrb_get_args(mrb_state *mrb, const char *format, ...) { const char *fmt = format; char c; mrb_int i = 0; va_list ap; mrb_int argc = mrb->c->ci->argc; mrb_value *array_argv = mrb->c->stack+1; mrb_bool argv_on_stack = argc >= 0; mrb_bool opt = FALSE; mrb_bool opt_skip = TRUE; mrb_bool given = TRUE; mrb_value kdict; mrb_bool reqkarg = FALSE; mrb_int needargc = 0; if (!argv_on_stack) { struct RArray *a = mrb_ary_ptr(*array_argv); array_argv = ARY_PTR(a); argc = ARY_LEN(a); } va_start(ap, format); #define ARGV array_argv while ((c = *fmt++)) { switch (c) { case '|': opt = TRUE; break; case '*': opt_skip = FALSE; if (!reqkarg) reqkarg = strchr(fmt, ':') ? TRUE : FALSE; goto check_exit; case '!': break; case ':': reqkarg = TRUE; /* fall through */ case '&': case '?': if (opt) opt_skip = FALSE; break; default: if (!opt) needargc ++; break; } } check_exit: if (reqkarg && argc > needargc && mrb_hash_p(kdict = ARGV[argc - 1])) { mrb_hash_check_kdict(mrb, kdict); argc --; } else { kdict = mrb_nil_value(); } opt = FALSE; i = 0; while ((c = *format++)) { mrb_value *argv = ARGV; mrb_bool altmode; switch (c) { case '|': case '*': case '&': case '?': case ':': break; default: if (argc <= i) { if (opt) { given = FALSE; } else { mrb_raise(mrb, E_ARGUMENT_ERROR, "wrong number of arguments"); } } break; } if (*format == '!') { format ++; altmode = TRUE; } else { altmode = FALSE; } switch (c) { case 'o': { mrb_value *p; p = va_arg(ap, mrb_value*); if (i < argc) { *p = argv[i++]; } } break; case 'C': { mrb_value *p; p = va_arg(ap, mrb_value*); if (i < argc) { mrb_value ss; ss = argv[i++]; if (!class_ptr_p(ss)) { mrb_raisef(mrb, E_TYPE_ERROR, "%v is not class/module", ss); } *p = ss; } } break; case 'S': { mrb_value *p; p = va_arg(ap, mrb_value*); if (i < argc) { *p = argv[i++]; if (!(altmode && mrb_nil_p(*p))) { mrb_to_str(mrb, *p); } } } break; case 'A': { mrb_value *p; p = va_arg(ap, mrb_value*); if (i < argc) { *p = argv[i++]; if (!(altmode && mrb_nil_p(*p))) { *p = to_ary(mrb, *p); } } } break; case 'H': { mrb_value *p; p = va_arg(ap, mrb_value*); if (i < argc) { *p = argv[i++]; if (!(altmode && mrb_nil_p(*p))) { *p = to_hash(mrb, *p); } } } break; case 's': { mrb_value ss; char **ps = 0; mrb_int *pl = 0; ps = va_arg(ap, char**); pl = va_arg(ap, mrb_int*); if (i < argc) { ss = argv[i++]; if (altmode && mrb_nil_p(ss)) { *ps = NULL; *pl = 0; } else { mrb_to_str(mrb, ss); *ps = RSTRING_PTR(ss); *pl = RSTRING_LEN(ss); } } } break; case 'z': { mrb_value ss; const char **ps; ps = va_arg(ap, const char**); if (i < argc) { ss = argv[i++]; if (altmode && mrb_nil_p(ss)) { *ps = NULL; } else { mrb_to_str(mrb, ss); *ps = RSTRING_CSTR(mrb, ss); } } } break; case 'a': { mrb_value aa; struct RArray *a; mrb_value **pb; mrb_int *pl; pb = va_arg(ap, mrb_value**); pl = va_arg(ap, mrb_int*); if (i < argc) { aa = argv[i++]; if (altmode && mrb_nil_p(aa)) { *pb = 0; *pl = 0; } else { aa = to_ary(mrb, aa); a = mrb_ary_ptr(aa); *pb = ARY_PTR(a); *pl = ARY_LEN(a); } } } break; case 'I': { void* *p; mrb_value ss; p = va_arg(ap, void**); if (i < argc) { ss = argv[i++]; if (!mrb_istruct_p(ss)) { mrb_raisef(mrb, E_TYPE_ERROR, "%v is not inline struct", ss); } *p = mrb_istruct_ptr(ss); } } break; #ifndef MRB_WITHOUT_FLOAT case 'f': { mrb_float *p; p = va_arg(ap, mrb_float*); if (i < argc) { *p = mrb_to_flo(mrb, argv[i++]); } } break; #endif case 'i': { mrb_int *p; p = va_arg(ap, mrb_int*); if (i < argc) { *p = mrb_fixnum(mrb_to_int(mrb, argv[i++])); } } break; case 'b': { mrb_bool *boolp = va_arg(ap, mrb_bool*); if (i < argc) { mrb_value b = argv[i++]; *boolp = mrb_test(b); } } break; case 'n': { mrb_sym *symp; symp = va_arg(ap, mrb_sym*); if (i < argc) { mrb_value ss; ss = argv[i++]; *symp = to_sym(mrb, ss); } } break; case 'd': { void** datap; struct mrb_data_type const* type; datap = va_arg(ap, void**); type = va_arg(ap, struct mrb_data_type const*); if (i < argc) { mrb_value dd = argv[i++]; if (altmode && mrb_nil_p(dd)) { *datap = 0; } else { *datap = mrb_data_get_ptr(mrb, dd, type); } } } break; case '&': { mrb_value *p, *bp; p = va_arg(ap, mrb_value*); if (mrb->c->ci->argc < 0) { bp = mrb->c->stack + 2; } else { bp = mrb->c->stack + mrb->c->ci->argc + 1; } if (altmode && mrb_nil_p(*bp)) { mrb_raise(mrb, E_ARGUMENT_ERROR, "no block given"); } *p = *bp; } break; case '|': if (opt_skip && i == argc) goto finish; opt = TRUE; break; case '?': { mrb_bool *p; p = va_arg(ap, mrb_bool*); *p = given; } break; case '*': { mrb_value **var; mrb_int *pl; mrb_bool nocopy = (altmode || !argv_on_stack) ? TRUE : FALSE; var = va_arg(ap, mrb_value**); pl = va_arg(ap, mrb_int*); if (argc > i) { *pl = argc-i; if (*pl > 0) { if (nocopy) { *var = argv+i; } else { mrb_value args = mrb_ary_new_from_values(mrb, *pl, argv+i); RARRAY(args)->c = NULL; *var = RARRAY_PTR(args); } } i = argc; } else { *pl = 0; *var = NULL; } } break; case ':': { mrb_value ksrc = mrb_hash_p(kdict) ? mrb_hash_dup(mrb, kdict) : mrb_hash_new(mrb); const mrb_kwargs *kwargs = va_arg(ap, const mrb_kwargs*); mrb_value *rest; if (kwargs == NULL) { rest = NULL; } else { uint32_t kwnum = kwargs->num; uint32_t required = kwargs->required; const char *const *kname = kwargs->table; mrb_value *values = kwargs->values; uint32_t j; const uint32_t keyword_max = 40; if (kwnum > keyword_max || required > kwnum) { mrb_raise(mrb, E_ARGUMENT_ERROR, "keyword number is too large"); } for (j = required; j > 0; j --, kname ++, values ++) { mrb_value k = mrb_symbol_value(mrb_intern_cstr(mrb, *kname)); if (!mrb_hash_key_p(mrb, ksrc, k)) { mrb_raisef(mrb, E_ARGUMENT_ERROR, "missing keyword: %s", *kname); } *values = mrb_hash_delete_key(mrb, ksrc, k); mrb_gc_protect(mrb, *values); } for (j = kwnum - required; j > 0; j --, kname ++, values ++) { mrb_value k = mrb_symbol_value(mrb_intern_cstr(mrb, *kname)); if (mrb_hash_key_p(mrb, ksrc, k)) { *values = mrb_hash_delete_key(mrb, ksrc, k); mrb_gc_protect(mrb, *values); } else { *values = mrb_undef_value(); } } rest = kwargs->rest; } if (rest) { *rest = ksrc; } else if (!mrb_hash_empty_p(mrb, ksrc)) { ksrc = mrb_hash_keys(mrb, ksrc); ksrc = RARRAY_PTR(ksrc)[0]; mrb_raisef(mrb, E_ARGUMENT_ERROR, "unknown keyword: %v", ksrc); } } break; default: mrb_raisef(mrb, E_ARGUMENT_ERROR, "invalid argument specifier %c", c); break; } } #undef ARGV if (!c && argc > i) { mrb_raise(mrb, E_ARGUMENT_ERROR, "wrong number of arguments"); } finish: va_end(ap); return i; } static struct RClass* boot_defclass(mrb_state *mrb, struct RClass *super) { struct RClass *c; c = (struct RClass*)mrb_obj_alloc(mrb, MRB_TT_CLASS, mrb->class_class); if (super) { c->super = super; mrb_field_write_barrier(mrb, (struct RBasic*)c, (struct RBasic*)super); } else { c->super = mrb->object_class; } c->mt = kh_init(mt, mrb); return c; } static void boot_initmod(mrb_state *mrb, struct RClass *mod) { if (!mod->mt) { mod->mt = kh_init(mt, mrb); } } static struct RClass* include_class_new(mrb_state *mrb, struct RClass *m, struct RClass *super) { struct RClass *ic = (struct RClass*)mrb_obj_alloc(mrb, MRB_TT_ICLASS, mrb->class_class); if (m->tt == MRB_TT_ICLASS) { m = m->c; } MRB_CLASS_ORIGIN(m); ic->iv = m->iv; ic->mt = m->mt; ic->super = super; if (m->tt == MRB_TT_ICLASS) { ic->c = m->c; } else { ic->c = m; } return ic; } static int include_module_at(mrb_state *mrb, struct RClass *c, struct RClass *ins_pos, struct RClass *m, int search_super) { struct RClass *p, *ic; void *klass_mt = find_origin(c)->mt; while (m) { int superclass_seen = 0; if (m->flags & MRB_FL_CLASS_IS_PREPENDED) goto skip; if (klass_mt && klass_mt == m->mt) return -1; p = c->super; while (p) { if (p->tt == MRB_TT_ICLASS) { if (p->mt == m->mt) { if (!superclass_seen) { ins_pos = p; /* move insert point */ } goto skip; } } else if (p->tt == MRB_TT_CLASS) { if (!search_super) break; superclass_seen = 1; } p = p->super; } ic = include_class_new(mrb, m, ins_pos->super); m->flags |= MRB_FL_CLASS_IS_INHERITED; ins_pos->super = ic; mrb_field_write_barrier(mrb, (struct RBasic*)ins_pos, (struct RBasic*)ic); mrb_mc_clear_by_class(mrb, ins_pos); ins_pos = ic; skip: m = m->super; } mc_clear_all(mrb); return 0; } MRB_API void mrb_include_module(mrb_state *mrb, struct RClass *c, struct RClass *m) { mrb_check_frozen(mrb, c); if (include_module_at(mrb, c, find_origin(c), m, 1) < 0) { mrb_raise(mrb, E_ARGUMENT_ERROR, "cyclic include detected"); } } MRB_API void mrb_prepend_module(mrb_state *mrb, struct RClass *c, struct RClass *m) { struct RClass *origin; int changed = 0; mrb_check_frozen(mrb, c); if (!(c->flags & MRB_FL_CLASS_IS_PREPENDED)) { origin = (struct RClass*)mrb_obj_alloc(mrb, MRB_TT_ICLASS, c); origin->flags |= MRB_FL_CLASS_IS_ORIGIN | MRB_FL_CLASS_IS_INHERITED; origin->super = c->super; c->super = origin; origin->mt = c->mt; c->mt = kh_init(mt, mrb); mrb_field_write_barrier(mrb, (struct RBasic*)c, (struct RBasic*)origin); c->flags |= MRB_FL_CLASS_IS_PREPENDED; } changed = include_module_at(mrb, c, c, m, 0); if (changed < 0) { mrb_raise(mrb, E_ARGUMENT_ERROR, "cyclic prepend detected"); } } static mrb_value mrb_mod_prepend_features(mrb_state *mrb, mrb_value mod) { mrb_value klass; mrb_check_type(mrb, mod, MRB_TT_MODULE); mrb_get_args(mrb, "C", &klass); mrb_prepend_module(mrb, mrb_class_ptr(klass), mrb_class_ptr(mod)); return mod; } static mrb_value mrb_mod_append_features(mrb_state *mrb, mrb_value mod) { mrb_value klass; mrb_check_type(mrb, mod, MRB_TT_MODULE); mrb_get_args(mrb, "C", &klass); mrb_include_module(mrb, mrb_class_ptr(klass), mrb_class_ptr(mod)); return mod; } /* 15.2.2.4.28 */ /* * call-seq: * mod.include?(module) -> true or false * * Returns true if module is included in * mod or one of mod's ancestors. * * module A * end * class B * include A * end * class C < B * end * B.include?(A) #=> true * C.include?(A) #=> true * A.include?(A) #=> false */ static mrb_value mrb_mod_include_p(mrb_state *mrb, mrb_value mod) { mrb_value mod2; struct RClass *c = mrb_class_ptr(mod); mrb_get_args(mrb, "C", &mod2); mrb_check_type(mrb, mod2, MRB_TT_MODULE); while (c) { if (c->tt == MRB_TT_ICLASS) { if (c->c == mrb_class_ptr(mod2)) return mrb_true_value(); } c = c->super; } return mrb_false_value(); } static mrb_value mrb_mod_ancestors(mrb_state *mrb, mrb_value self) { mrb_value result; struct RClass *c = mrb_class_ptr(self); result = mrb_ary_new(mrb); while (c) { if (c->tt == MRB_TT_ICLASS) { mrb_ary_push(mrb, result, mrb_obj_value(c->c)); } else if (!(c->flags & MRB_FL_CLASS_IS_PREPENDED)) { mrb_ary_push(mrb, result, mrb_obj_value(c)); } c = c->super; } return result; } static mrb_value mrb_mod_extend_object(mrb_state *mrb, mrb_value mod) { mrb_value obj; mrb_check_type(mrb, mod, MRB_TT_MODULE); mrb_get_args(mrb, "o", &obj); mrb_include_module(mrb, mrb_class_ptr(mrb_singleton_class(mrb, obj)), mrb_class_ptr(mod)); return mod; } static mrb_value mrb_mod_initialize(mrb_state *mrb, mrb_value mod) { mrb_value b; struct RClass *m = mrb_class_ptr(mod); boot_initmod(mrb, m); /* bootstrap a newly initialized module */ mrb_get_args(mrb, "|&", &b); if (!mrb_nil_p(b)) { mrb_yield_with_class(mrb, b, 1, &mod, mod, m); } return mod; } /* implementation of module_eval/class_eval */ mrb_value mrb_mod_module_eval(mrb_state*, mrb_value); static mrb_value mrb_mod_dummy_visibility(mrb_state *mrb, mrb_value mod) { return mod; } MRB_API mrb_value mrb_singleton_class(mrb_state *mrb, mrb_value v) { struct RBasic *obj; switch (mrb_type(v)) { case MRB_TT_FALSE: if (mrb_nil_p(v)) return mrb_obj_value(mrb->nil_class); return mrb_obj_value(mrb->false_class); case MRB_TT_TRUE: return mrb_obj_value(mrb->true_class); case MRB_TT_CPTR: return mrb_obj_value(mrb->object_class); case MRB_TT_SYMBOL: case MRB_TT_FIXNUM: #ifndef MRB_WITHOUT_FLOAT case MRB_TT_FLOAT: #endif mrb_raise(mrb, E_TYPE_ERROR, "can't define singleton"); return mrb_nil_value(); /* not reached */ default: break; } obj = mrb_basic_ptr(v); prepare_singleton_class(mrb, obj); return mrb_obj_value(obj->c); } MRB_API void mrb_define_singleton_method(mrb_state *mrb, struct RObject *o, const char *name, mrb_func_t func, mrb_aspec aspec) { prepare_singleton_class(mrb, (struct RBasic*)o); mrb_define_method_id(mrb, o->c, mrb_intern_cstr(mrb, name), func, aspec); } MRB_API void mrb_define_class_method(mrb_state *mrb, struct RClass *c, const char *name, mrb_func_t func, mrb_aspec aspec) { mrb_define_singleton_method(mrb, (struct RObject*)c, name, func, aspec); } MRB_API void mrb_define_module_function(mrb_state *mrb, struct RClass *c, const char *name, mrb_func_t func, mrb_aspec aspec) { mrb_define_class_method(mrb, c, name, func, aspec); mrb_define_method(mrb, c, name, func, aspec); } #ifdef MRB_METHOD_CACHE static void mc_clear_all(mrb_state *mrb) { struct mrb_cache_entry *mc = mrb->cache; int i; for (i=0; icache; int i; if (c->flags & MRB_FL_CLASS_IS_INHERITED) { mc_clear_all(mrb); c->flags &= ~MRB_FL_CLASS_IS_INHERITED; return; } for (i=0; icache; int i; if (c->flags & MRB_FL_CLASS_IS_INHERITED) { mc_clear_all(mrb); c->flags &= ~MRB_FL_CLASS_IS_INHERITED; return; } for (i=0; icache[h]; if (mc->c == c && mc->mid == mid) { *cp = mc->c0; return mc->m; } #endif while (c) { khash_t(mt) *h = c->mt; if (h) { k = kh_get(mt, mrb, h, mid); if (k != kh_end(h)) { m = kh_value(h, k); if (MRB_METHOD_UNDEF_P(m)) break; *cp = c; #ifdef MRB_METHOD_CACHE mc->c = oc; mc->c0 = c; mc->mid = mid; mc->m = m; #endif return m; } } c = c->super; } MRB_METHOD_FROM_PROC(m, NULL); return m; /* no method */ } MRB_API mrb_method_t mrb_method_search(mrb_state *mrb, struct RClass* c, mrb_sym mid) { mrb_method_t m; m = mrb_method_search_vm(mrb, &c, mid); if (MRB_METHOD_UNDEF_P(m)) { mrb_name_error(mrb, mid, "undefined method '%n' for class %C", mid, c); } return m; } #define ONSTACK_ALLOC_MAX 32 static mrb_sym prepare_name_common(mrb_state *mrb, mrb_sym sym, const char *prefix, const char *suffix) { char onstack[ONSTACK_ALLOC_MAX]; mrb_int sym_len; const char *sym_str = mrb_sym_name_len(mrb, sym, &sym_len); size_t prefix_len = prefix ? strlen(prefix) : 0; size_t suffix_len = suffix ? strlen(suffix) : 0; size_t name_len = sym_len + prefix_len + suffix_len; char *buf = name_len > sizeof(onstack) ? (char *)mrb_alloca(mrb, name_len) : onstack; char *p = buf; if (prefix_len > 0) { memcpy(p, prefix, prefix_len); p += prefix_len; } memcpy(p, sym_str, sym_len); p += sym_len; if (suffix_len > 0) { memcpy(p, suffix, suffix_len); p += suffix_len; } return mrb_intern(mrb, buf, name_len); } static mrb_value prepare_ivar_name(mrb_state *mrb, mrb_sym sym) { sym = prepare_name_common(mrb, sym, "@", NULL); mrb_iv_name_sym_check(mrb, sym); return mrb_symbol_value(sym); } static mrb_sym prepare_writer_name(mrb_state *mrb, mrb_sym sym) { return prepare_name_common(mrb, sym, NULL, "="); } static mrb_value mod_attr_define(mrb_state *mrb, mrb_value mod, mrb_value (*accessor)(mrb_state *, mrb_value), mrb_sym (*access_name)(mrb_state *, mrb_sym)) { struct RClass *c = mrb_class_ptr(mod); mrb_value *argv; mrb_int argc, i; int ai; mrb_get_args(mrb, "*", &argv, &argc); ai = mrb_gc_arena_save(mrb); for (i=0; itt == MRB_TT_SCLASS) mrb_raise(mrb, E_TYPE_ERROR, "can't create instance of singleton class"); if (ttype == 0) ttype = MRB_TT_OBJECT; if (ttype <= MRB_TT_CPTR) { mrb_raisef(mrb, E_TYPE_ERROR, "can't create instance of %v", cv); } o = (struct RObject*)mrb_obj_alloc(mrb, ttype, c); return mrb_obj_value(o); } /* * call-seq: * class.new(args, ...) -> obj * * Creates a new object of class's class, then * invokes that object's initialize method, * passing it args. This is the method that ends * up getting called whenever an object is constructed using * `.new`. * */ mrb_value mrb_instance_new(mrb_state *mrb, mrb_value cv) { mrb_value obj, blk; mrb_value *argv; mrb_int argc; mrb_sym init; mrb_get_args(mrb, "*!&", &argv, &argc, &blk); obj = mrb_instance_alloc(mrb, cv); init = mrb_intern_lit(mrb, "initialize"); if (!mrb_func_basic_p(mrb, obj, init, mrb_bob_init)) { mrb_funcall_with_block(mrb, obj, init, argc, argv, blk); } return obj; } MRB_API mrb_value mrb_obj_new(mrb_state *mrb, struct RClass *c, mrb_int argc, const mrb_value *argv) { mrb_value obj; mrb_sym mid; obj = mrb_instance_alloc(mrb, mrb_obj_value(c)); mid = mrb_intern_lit(mrb, "initialize"); if (!mrb_func_basic_p(mrb, obj, mid, mrb_bob_init)) { mrb_funcall_argv(mrb, obj, mid, argc, argv); } return obj; } static mrb_value mrb_class_initialize(mrb_state *mrb, mrb_value c) { mrb_value a, b; mrb_get_args(mrb, "|C&", &a, &b); if (!mrb_nil_p(b)) { mrb_yield_with_class(mrb, b, 1, &c, c, mrb_class_ptr(c)); } return c; } static mrb_value mrb_class_new_class(mrb_state *mrb, mrb_value cv) { mrb_int n; mrb_value super, blk; mrb_value new_class; mrb_sym mid; n = mrb_get_args(mrb, "|C&", &super, &blk); if (n == 0) { super = mrb_obj_value(mrb->object_class); } new_class = mrb_obj_value(mrb_class_new(mrb, mrb_class_ptr(super))); mid = mrb_intern_lit(mrb, "initialize"); if (mrb_func_basic_p(mrb, new_class, mid, mrb_class_initialize)) { mrb_class_initialize(mrb, new_class); } else { mrb_funcall_with_block(mrb, new_class, mid, n, &super, blk); } mrb_class_inherited(mrb, mrb_class_ptr(super), mrb_class_ptr(new_class)); return new_class; } static mrb_value mrb_class_superclass(mrb_state *mrb, mrb_value klass) { struct RClass *c; c = mrb_class_ptr(klass); c = find_origin(c)->super; while (c && c->tt == MRB_TT_ICLASS) { c = find_origin(c)->super; } if (!c) return mrb_nil_value(); return mrb_obj_value(c); } static mrb_value mrb_bob_init(mrb_state *mrb, mrb_value cv) { return mrb_nil_value(); } static mrb_value mrb_bob_not(mrb_state *mrb, mrb_value cv) { return mrb_bool_value(!mrb_test(cv)); } /* 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 Object level, == returns * true only if obj and other are the * same object. Typically, this method is overridden in descendant * classes to provide class-specific meaning. * * Unlike ==, the equal? method should never be * overridden by subclasses: it is used to determine object identity * (that is, a.equal?(b) iff a is the same * object as b). * * The eql? method returns true if * obj and anObject have the same value. Used by * Hash to test members for equality. For objects of * class Object, eql? is synonymous with * ==. Subclasses normally continue this tradition, but * there are exceptions. Numeric types, for example, * perform type conversion across ==, but not across * eql?, so: * * 1 == 1.0 #=> true * 1.eql? 1.0 #=> false */ mrb_value mrb_obj_equal_m(mrb_state *mrb, mrb_value self) { mrb_value arg; mrb_get_args(mrb, "o", &arg); return mrb_bool_value(mrb_obj_equal(mrb, self, arg)); } static mrb_value mrb_obj_not_equal_m(mrb_state *mrb, mrb_value self) { mrb_value arg; mrb_get_args(mrb, "o", &arg); return mrb_bool_value(!mrb_equal(mrb, self, arg)); } MRB_API mrb_bool mrb_obj_respond_to(mrb_state *mrb, struct RClass* c, mrb_sym mid) { mrb_method_t m; m = mrb_method_search_vm(mrb, &c, mid); if (MRB_METHOD_UNDEF_P(m)) { return FALSE; } return TRUE; } MRB_API mrb_bool mrb_respond_to(mrb_state *mrb, mrb_value obj, mrb_sym mid) { return mrb_obj_respond_to(mrb, mrb_class(mrb, obj), mid); } MRB_API mrb_value mrb_class_path(mrb_state *mrb, struct RClass *c) { mrb_value path; mrb_sym nsym = mrb_intern_lit(mrb, "__classname__"); path = mrb_obj_iv_get(mrb, (struct RObject*)c, nsym); if (mrb_nil_p(path)) { /* no name (yet) */ return mrb_class_find_path(mrb, c); } else if (mrb_symbol_p(path)) { /* toplevel class/module */ return mrb_sym_str(mrb, mrb_symbol(path)); } return mrb_str_dup(mrb, path); } MRB_API struct RClass* mrb_class_real(struct RClass* cl) { if (cl == 0) return NULL; while ((cl->tt == MRB_TT_SCLASS) || (cl->tt == MRB_TT_ICLASS)) { cl = cl->super; if (cl == 0) return NULL; } return cl; } MRB_API const char* mrb_class_name(mrb_state *mrb, struct RClass* c) { mrb_value name = class_name_str(mrb, c); return RSTRING_PTR(name); } MRB_API const char* mrb_obj_classname(mrb_state *mrb, mrb_value obj) { return mrb_class_name(mrb, mrb_obj_class(mrb, obj)); } /*! * Ensures a class can be derived from super. * * \param super a reference to an object. * \exception TypeError if \a super is not a Class or \a super is a singleton class. */ static void mrb_check_inheritable(mrb_state *mrb, struct RClass *super) { if (super->tt != MRB_TT_CLASS) { mrb_raisef(mrb, E_TYPE_ERROR, "superclass must be a Class (%C given)", super); } if (super->tt == MRB_TT_SCLASS) { mrb_raise(mrb, E_TYPE_ERROR, "can't make subclass of singleton class"); } if (super == mrb->class_class) { mrb_raise(mrb, E_TYPE_ERROR, "can't make subclass of Class"); } } /*! * Creates a new class. * \param super a class from which the new class derives. * \exception TypeError \a super is not inheritable. * \exception TypeError \a super is the Class class. */ MRB_API struct RClass* mrb_class_new(mrb_state *mrb, struct RClass *super) { struct RClass *c; if (super) { mrb_check_inheritable(mrb, super); } c = boot_defclass(mrb, super); if (super) { MRB_SET_INSTANCE_TT(c, MRB_INSTANCE_TT(super)); } make_metaclass(mrb, c); return c; } /*! * Creates a new module. */ MRB_API struct RClass* mrb_module_new(mrb_state *mrb) { struct RClass *m = (struct RClass*)mrb_obj_alloc(mrb, MRB_TT_MODULE, mrb->module_class); boot_initmod(mrb, m); return m; } /* * call-seq: * obj.class => class * * Returns the class of obj, now preferred over * Object#type, as an object's type in Ruby is only * loosely tied to that object's class. This method must always be * called with an explicit receiver, as class is also a * reserved word in Ruby. * * 1.class #=> Fixnum * self.class #=> Object */ MRB_API struct RClass* mrb_obj_class(mrb_state *mrb, mrb_value obj) { return mrb_class_real(mrb_class(mrb, obj)); } MRB_API void mrb_alias_method(mrb_state *mrb, struct RClass *c, mrb_sym a, mrb_sym b) { mrb_method_t m = mrb_method_search(mrb, c, b); if (!MRB_METHOD_CFUNC_P(m)) { struct RProc *p = MRB_METHOD_PROC(m); if (MRB_PROC_ENV_P(p)) { MRB_PROC_ENV(p)->mid = b; } else { struct RClass *tc = MRB_PROC_TARGET_CLASS(p); struct REnv *e = (struct REnv*)mrb_obj_alloc(mrb, MRB_TT_ENV, NULL); e->mid = b; if (tc) { e->c = tc; mrb_field_write_barrier(mrb, (struct RBasic*)e, (struct RBasic*)tc); } p->e.env = e; p->flags |= MRB_PROC_ENVSET; } } mrb_define_method_raw(mrb, c, a, m); } /*! * Defines an alias of a method. * \param mrb the mruby state * \param klass the class which the original method belongs to * \param name1 a new name for the method * \param name2 the original name of the method */ MRB_API void mrb_define_alias(mrb_state *mrb, struct RClass *klass, const char *name1, const char *name2) { mrb_alias_method(mrb, klass, mrb_intern_cstr(mrb, name1), mrb_intern_cstr(mrb, name2)); } /* * call-seq: * mod.to_s -> string * * Return a string representing this module or class. For basic * classes and modules, this is the name. For singletons, we * show information on the thing we're attached to as well. */ mrb_value mrb_mod_to_s(mrb_state *mrb, mrb_value klass) { if (mrb_sclass_p(klass)) { mrb_value v = mrb_iv_get(mrb, klass, mrb_intern_lit(mrb, "__attached__")); mrb_value str = mrb_str_new_lit(mrb, "#"); } else { return class_name_str(mrb, mrb_class_ptr(klass)); } } static mrb_value mrb_mod_alias(mrb_state *mrb, mrb_value mod) { struct RClass *c = mrb_class_ptr(mod); mrb_sym new_name, old_name; mrb_get_args(mrb, "nn", &new_name, &old_name); mrb_alias_method(mrb, c, new_name, old_name); return mod; } static void undef_method(mrb_state *mrb, struct RClass *c, mrb_sym a) { mrb_method_t m; MRB_METHOD_FROM_PROC(m, NULL); mrb_define_method_raw(mrb, c, a, m); } void mrb_undef_method_id(mrb_state *mrb, struct RClass *c, mrb_sym a) { if (!mrb_obj_respond_to(mrb, c, a)) { mrb_name_error(mrb, a, "undefined method '%n' for class '%C'", a, c); } undef_method(mrb, c, a); } MRB_API void mrb_undef_method(mrb_state *mrb, struct RClass *c, const char *name) { undef_method(mrb, c, mrb_intern_cstr(mrb, name)); } MRB_API void mrb_undef_class_method(mrb_state *mrb, struct RClass *c, const char *name) { mrb_undef_method(mrb, mrb_class_ptr(mrb_singleton_class(mrb, mrb_obj_value(c))), name); } static mrb_value mrb_mod_undef(mrb_state *mrb, mrb_value mod) { struct RClass *c = mrb_class_ptr(mod); mrb_int argc; mrb_value *argv; mrb_get_args(mrb, "*", &argv, &argc); while (argc--) { mrb_undef_method_id(mrb, c, to_sym(mrb, *argv)); argv++; } return mrb_nil_value(); } static void check_const_name_sym(mrb_state *mrb, mrb_sym id) { mrb_int len; const char *name = mrb_sym_name_len(mrb, id, &len); if (!mrb_const_name_p(mrb, name, len)) { mrb_name_error(mrb, id, "wrong constant name %n", id); } } static mrb_value mrb_mod_const_defined(mrb_state *mrb, mrb_value mod) { mrb_sym id; mrb_bool inherit = TRUE; mrb_get_args(mrb, "n|b", &id, &inherit); check_const_name_sym(mrb, id); if (inherit) { return mrb_bool_value(mrb_const_defined(mrb, mod, id)); } return mrb_bool_value(mrb_const_defined_at(mrb, mod, id)); } static mrb_value mrb_const_get_sym(mrb_state *mrb, mrb_value mod, mrb_sym id) { check_const_name_sym(mrb, id); return mrb_const_get(mrb, mod, id); } static mrb_value mrb_mod_const_get(mrb_state *mrb, mrb_value mod) { mrb_value path; mrb_sym id; char *ptr; mrb_int off, end, len; mrb_get_args(mrb, "o", &path); if (mrb_symbol_p(path)) { /* const get with symbol */ id = mrb_symbol(path); return mrb_const_get_sym(mrb, mod, id); } /* const get with class path string */ path = mrb_ensure_string_type(mrb, path); ptr = RSTRING_PTR(path); len = RSTRING_LEN(path); off = 0; while (off < len) { end = mrb_str_index_lit(mrb, path, "::", off); end = (end == -1) ? len : end; id = mrb_intern(mrb, ptr+off, end-off); mod = mrb_const_get_sym(mrb, mod, id); if (end == len) off = end; else { off = end + 2; if (off == len) { /* trailing "::" */ mrb_name_error(mrb, id, "wrong constant name '%v'", path); } } } return mod; } static mrb_value mrb_mod_const_set(mrb_state *mrb, mrb_value mod) { mrb_sym id; mrb_value value; mrb_get_args(mrb, "no", &id, &value); check_const_name_sym(mrb, id); mrb_const_set(mrb, mod, id, value); return value; } static mrb_value mrb_mod_remove_const(mrb_state *mrb, mrb_value mod) { mrb_sym id; mrb_value val; mrb_get_args(mrb, "n", &id); check_const_name_sym(mrb, id); val = mrb_iv_remove(mrb, mod, id); if (mrb_undef_p(val)) { mrb_name_error(mrb, id, "constant %n not defined", id); } return val; } static mrb_value mrb_mod_const_missing(mrb_state *mrb, mrb_value mod) { mrb_sym sym; mrb_get_args(mrb, "n", &sym); if (mrb_class_real(mrb_class_ptr(mod)) != mrb->object_class) { mrb_name_error(mrb, sym, "uninitialized constant %v::%n", mod, sym); } else { mrb_name_error(mrb, sym, "uninitialized constant %n", sym); } /* not reached */ return mrb_nil_value(); } /* 15.2.2.4.34 */ /* * call-seq: * mod.method_defined?(symbol) -> true or false * * Returns +true+ if the named method is defined by * _mod_ (or its included modules and, if _mod_ is a class, * its ancestors). Public and protected methods are matched. * * module A * def method1() end * end * class B * def method2() end * end * class C < B * include A * def method3() end * end * * A.method_defined? :method1 #=> true * C.method_defined? "method1" #=> true * C.method_defined? "method2" #=> true * C.method_defined? "method3" #=> true * C.method_defined? "method4" #=> false */ static mrb_value mrb_mod_method_defined(mrb_state *mrb, mrb_value mod) { mrb_sym id; mrb_get_args(mrb, "n", &id); return mrb_bool_value(mrb_obj_respond_to(mrb, mrb_class_ptr(mod), id)); } static mrb_value mod_define_method(mrb_state *mrb, mrb_value self) { struct RClass *c = mrb_class_ptr(self); struct RProc *p; mrb_method_t m; mrb_sym mid; mrb_value proc = mrb_undef_value(); mrb_value blk; mrb_get_args(mrb, "n|o&", &mid, &proc, &blk); switch (mrb_type(proc)) { case MRB_TT_PROC: blk = proc; break; case MRB_TT_UNDEF: /* ignored */ break; default: mrb_raisef(mrb, E_TYPE_ERROR, "wrong argument type %T (expected Proc)", proc); break; } if (mrb_nil_p(blk)) { mrb_raise(mrb, E_ARGUMENT_ERROR, "no block given"); } p = (struct RProc*)mrb_obj_alloc(mrb, MRB_TT_PROC, mrb->proc_class); mrb_proc_copy(p, mrb_proc_ptr(blk)); p->flags |= MRB_PROC_STRICT; MRB_METHOD_FROM_PROC(m, p); mrb_define_method_raw(mrb, c, mid, m); return mrb_symbol_value(mid); } static mrb_value top_define_method(mrb_state *mrb, mrb_value self) { return mod_define_method(mrb, mrb_obj_value(mrb->object_class)); } static mrb_value mrb_mod_eqq(mrb_state *mrb, mrb_value mod) { mrb_value obj; mrb_bool eqq; mrb_get_args(mrb, "o", &obj); eqq = mrb_obj_is_kind_of(mrb, obj, mrb_class_ptr(mod)); return mrb_bool_value(eqq); } static mrb_value mrb_mod_dup(mrb_state *mrb, mrb_value self) { mrb_value mod = mrb_obj_clone(mrb, self); MRB_UNSET_FROZEN_FLAG(mrb_obj_ptr(mod)); return mod; } static mrb_value mrb_mod_module_function(mrb_state *mrb, mrb_value mod) { mrb_value *argv; mrb_int argc, i; mrb_sym mid; mrb_method_t m; struct RClass *rclass; int ai; mrb_check_type(mrb, mod, MRB_TT_MODULE); mrb_get_args(mrb, "*", &argv, &argc); if (argc == 0) { /* set MODFUNC SCOPE if implemented */ return mod; } /* set PRIVATE method visibility if implemented */ /* mrb_mod_dummy_visibility(mrb, mod); */ for (i=0; ic, mid, m); mrb_gc_arena_restore(mrb, ai); } return mod; } /* implementation of __id__ */ mrb_value mrb_obj_id_m(mrb_state *mrb, mrb_value self); /* implementation of instance_eval */ mrb_value mrb_obj_instance_eval(mrb_state*, mrb_value); static mrb_value inspect_main(mrb_state *mrb, mrb_value mod) { return mrb_str_new_lit(mrb, "main"); } static const mrb_code new_iseq[] = { OP_ENTER, 0x0, 0x10, 0x1, /* OP_ENTER 0:0:1:0:0:0:1 */ OP_LOADSELF, 0x3, /* OP_LOADSELF R3 */ OP_SEND, 0x3, 0x0, 0x0, /* OP_SEND R3 :allocate 0 */ OP_MOVE, 0x0, 0x3, /* OP_MOVE R0 R3 */ OP_MOVE, 0x4, 0x1, /* OP_MOVE R4 R1 */ OP_MOVE, 0x5, 0x2, /* OP_MOVE R5 R2 */ OP_SENDVB, 0x3, 0x1, /* OP_SENDVB R4 :initialize */ OP_RETURN, 0x0 /* OP_RETURN R0 */ }; static void init_class_new(mrb_state *mrb, struct RClass *cls) { struct RProc *p; mrb_method_t m; mrb_irep *new_irep = (mrb_irep*)mrb_malloc(mrb, sizeof(mrb_irep)); static const mrb_irep mrb_irep_zero = { 0 }; *new_irep = mrb_irep_zero; new_irep->syms = (mrb_sym*)mrb_malloc(mrb, sizeof(mrb_sym)*2); new_irep->syms[0] = mrb_intern_lit(mrb, "allocate"); new_irep->syms[1] = mrb_intern_lit(mrb, "initialize"); new_irep->slen = 2; new_irep->flags = MRB_ISEQ_NO_FREE; new_irep->iseq = new_iseq; new_irep->ilen = sizeof(new_iseq); new_irep->nregs = 6; new_irep->nlocals = 3; p = mrb_proc_new(mrb, new_irep); MRB_METHOD_FROM_PROC(m, p); mrb_define_method_raw(mrb, cls, mrb_intern_lit(mrb, "new"), m); } void mrb_init_class(mrb_state *mrb) { struct RClass *bob; /* BasicObject */ struct RClass *obj; /* Object */ struct RClass *mod; /* Module */ struct RClass *cls; /* Class */ /* boot class hierarchy */ bob = boot_defclass(mrb, 0); obj = boot_defclass(mrb, bob); mrb->object_class = obj; mod = boot_defclass(mrb, obj); mrb->module_class = mod;/* obj -> mod */ cls = boot_defclass(mrb, mod); mrb->class_class = cls; /* obj -> cls */ /* fix-up loose ends */ bob->c = obj->c = mod->c = cls->c = cls; make_metaclass(mrb, bob); make_metaclass(mrb, obj); make_metaclass(mrb, mod); make_metaclass(mrb, cls); /* name basic classes */ mrb_define_const(mrb, bob, "BasicObject", mrb_obj_value(bob)); mrb_define_const(mrb, obj, "Object", mrb_obj_value(obj)); mrb_define_const(mrb, obj, "Module", mrb_obj_value(mod)); mrb_define_const(mrb, obj, "Class", mrb_obj_value(cls)); /* name each classes */ mrb_class_name_class(mrb, NULL, bob, mrb_intern_lit(mrb, "BasicObject")); mrb_class_name_class(mrb, NULL, obj, mrb_intern_lit(mrb, "Object")); /* 15.2.1 */ mrb_class_name_class(mrb, NULL, mod, mrb_intern_lit(mrb, "Module")); /* 15.2.2 */ mrb_class_name_class(mrb, NULL, cls, mrb_intern_lit(mrb, "Class")); /* 15.2.3 */ mrb->proc_class = mrb_define_class(mrb, "Proc", mrb->object_class); /* 15.2.17 */ MRB_SET_INSTANCE_TT(mrb->proc_class, MRB_TT_PROC); MRB_SET_INSTANCE_TT(cls, MRB_TT_CLASS); mrb_define_method(mrb, bob, "initialize", mrb_bob_init, MRB_ARGS_NONE()); mrb_define_method(mrb, bob, "!", mrb_bob_not, MRB_ARGS_NONE()); mrb_define_method(mrb, bob, "==", mrb_obj_equal_m, MRB_ARGS_REQ(1)); /* 15.3.1.3.1 */ mrb_define_method(mrb, bob, "!=", mrb_obj_not_equal_m, MRB_ARGS_REQ(1)); mrb_define_method(mrb, bob, "__id__", mrb_obj_id_m, MRB_ARGS_NONE()); /* 15.3.1.3.4 */ mrb_define_method(mrb, bob, "__send__", mrb_f_send, MRB_ARGS_REQ(1)|MRB_ARGS_REST()|MRB_ARGS_BLOCK()); /* 15.3.1.3.5 */ mrb_define_method(mrb, bob, "equal?", mrb_obj_equal_m, MRB_ARGS_REQ(1)); /* 15.3.1.3.11 */ mrb_define_method(mrb, bob, "instance_eval", mrb_obj_instance_eval, MRB_ARGS_OPT(1)|MRB_ARGS_BLOCK()); /* 15.3.1.3.18 */ mrb_define_class_method(mrb, cls, "new", mrb_class_new_class, MRB_ARGS_OPT(1)|MRB_ARGS_BLOCK()); mrb_define_method(mrb, cls, "allocate", mrb_instance_alloc, MRB_ARGS_NONE()); mrb_define_method(mrb, cls, "superclass", mrb_class_superclass, MRB_ARGS_NONE()); /* 15.2.3.3.4 */ mrb_define_method(mrb, cls, "initialize", mrb_class_initialize, MRB_ARGS_OPT(1)); /* 15.2.3.3.1 */ mrb_define_method(mrb, cls, "inherited", mrb_bob_init, MRB_ARGS_REQ(1)); init_class_new(mrb, cls); MRB_SET_INSTANCE_TT(mod, MRB_TT_MODULE); mrb_define_method(mrb, mod, "extend_object", mrb_mod_extend_object, MRB_ARGS_REQ(1)); /* 15.2.2.4.25 */ mrb_define_method(mrb, mod, "extended", mrb_bob_init, MRB_ARGS_REQ(1)); /* 15.2.2.4.26 */ mrb_define_method(mrb, mod, "prepended", mrb_bob_init, MRB_ARGS_REQ(1)); mrb_define_method(mrb, mod, "prepend_features", mrb_mod_prepend_features, MRB_ARGS_REQ(1)); mrb_define_method(mrb, mod, "include?", mrb_mod_include_p, MRB_ARGS_REQ(1)); /* 15.2.2.4.28 */ mrb_define_method(mrb, mod, "append_features", mrb_mod_append_features, MRB_ARGS_REQ(1)); /* 15.2.2.4.10 */ mrb_define_method(mrb, mod, "class_eval", mrb_mod_module_eval, MRB_ARGS_ANY()); /* 15.2.2.4.15 */ mrb_define_method(mrb, mod, "included", mrb_bob_init, MRB_ARGS_REQ(1)); /* 15.2.2.4.29 */ mrb_define_method(mrb, mod, "initialize", mrb_mod_initialize, MRB_ARGS_NONE()); /* 15.2.2.4.31 */ mrb_define_method(mrb, mod, "module_eval", mrb_mod_module_eval, MRB_ARGS_ANY()); /* 15.2.2.4.35 */ mrb_define_method(mrb, mod, "module_function", mrb_mod_module_function, MRB_ARGS_ANY()); mrb_define_method(mrb, mod, "private", mrb_mod_dummy_visibility, MRB_ARGS_ANY()); /* 15.2.2.4.36 */ mrb_define_method(mrb, mod, "protected", mrb_mod_dummy_visibility, MRB_ARGS_ANY()); /* 15.2.2.4.37 */ mrb_define_method(mrb, mod, "public", mrb_mod_dummy_visibility, MRB_ARGS_ANY()); /* 15.2.2.4.38 */ mrb_define_method(mrb, mod, "attr_reader", mrb_mod_attr_reader, MRB_ARGS_ANY()); /* 15.2.2.4.13 */ mrb_define_method(mrb, mod, "attr_writer", mrb_mod_attr_writer, MRB_ARGS_ANY()); /* 15.2.2.4.14 */ mrb_define_method(mrb, mod, "to_s", mrb_mod_to_s, MRB_ARGS_NONE()); mrb_define_method(mrb, mod, "inspect", mrb_mod_to_s, MRB_ARGS_NONE()); mrb_define_method(mrb, mod, "alias_method", mrb_mod_alias, MRB_ARGS_ANY()); /* 15.2.2.4.8 */ mrb_define_method(mrb, mod, "ancestors", mrb_mod_ancestors, MRB_ARGS_NONE()); /* 15.2.2.4.9 */ mrb_define_method(mrb, mod, "undef_method", mrb_mod_undef, MRB_ARGS_ANY()); /* 15.2.2.4.41 */ mrb_define_method(mrb, mod, "const_defined?", mrb_mod_const_defined, MRB_ARGS_ARG(1,1)); /* 15.2.2.4.20 */ mrb_define_method(mrb, mod, "const_get", mrb_mod_const_get, MRB_ARGS_REQ(1)); /* 15.2.2.4.21 */ mrb_define_method(mrb, mod, "const_set", mrb_mod_const_set, MRB_ARGS_REQ(2)); /* 15.2.2.4.23 */ mrb_define_method(mrb, mod, "remove_const", mrb_mod_remove_const, MRB_ARGS_REQ(1)); /* 15.2.2.4.40 */ mrb_define_method(mrb, mod, "const_missing", mrb_mod_const_missing, MRB_ARGS_REQ(1)); mrb_define_method(mrb, mod, "method_defined?", mrb_mod_method_defined, MRB_ARGS_REQ(1)); /* 15.2.2.4.34 */ mrb_define_method(mrb, mod, "define_method", mod_define_method, MRB_ARGS_ARG(1,1)); mrb_define_method(mrb, mod, "===", mrb_mod_eqq, MRB_ARGS_REQ(1)); /* 15.2.2.4.7 */ mrb_define_method(mrb, mod, "dup", mrb_mod_dup, MRB_ARGS_NONE()); mrb_undef_method(mrb, cls, "append_features"); mrb_undef_method(mrb, cls, "prepend_features"); mrb_undef_method(mrb, cls, "extend_object"); mrb_undef_method(mrb, cls, "module_function"); mrb->top_self = (struct RObject*)mrb_obj_alloc(mrb, MRB_TT_OBJECT, mrb->object_class); mrb_define_singleton_method(mrb, mrb->top_self, "inspect", inspect_main, MRB_ARGS_NONE()); mrb_define_singleton_method(mrb, mrb->top_self, "to_s", inspect_main, MRB_ARGS_NONE()); mrb_define_singleton_method(mrb, mrb->top_self, "define_method", top_define_method, MRB_ARGS_ARG(1,1)); }