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src/share/vm/oops/klass.cpp@a79cb7c55012 (annotated)

src/share/vm/oops/klass.cpp

Wed, 25 Jan 2012 17:40:51 -0500

author

jiangli

date

Wed, 25 Jan 2012 17:40:51 -0500

changeset 3526

a79cb7c55012

parent 3428

4f3ce9284781

child 3487

34e2e90e7182

permissions

-rw-r--r--

7132690: InstanceKlass:_reference_type should be u1 type
Summary: Change InstanceKlass::_reference_type to u1 type.
Reviewed-by: dholmes, coleenp, acorn
Contributed-by: Jiangli Zhou <jiangli.zhou@oracle.com>

duke@435	1	/*
trims@2708	2	* Copyright (c) 1997, 2011, Oracle and/or its affiliates. All rights reserved.
duke@435	3	* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
duke@435	4	*
duke@435	5	* This code is free software; you can redistribute it and/or modify it
duke@435	6	* under the terms of the GNU General Public License version 2 only, as
duke@435	7	* published by the Free Software Foundation.
duke@435	8	*
duke@435	9	* This code is distributed in the hope that it will be useful, but WITHOUT
duke@435	10	* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
duke@435	11	* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
duke@435	12	* version 2 for more details (a copy is included in the LICENSE file that
duke@435	13	* accompanied this code).
duke@435	14	*
duke@435	15	* You should have received a copy of the GNU General Public License version
duke@435	16	* 2 along with this work; if not, write to the Free Software Foundation,
duke@435	17	* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
duke@435	18	*
trims@1907	19	* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
trims@1907	20	* or visit www.oracle.com if you need additional information or have any
trims@1907	21	* questions.
duke@435	22	*
duke@435	23	*/
duke@435	24
stefank@2314	25	#include "precompiled.hpp"
stefank@2314	26	#include "classfile/systemDictionary.hpp"
stefank@2314	27	#include "classfile/vmSymbols.hpp"
stefank@2314	28	#include "gc_interface/collectedHeap.inline.hpp"
stefank@2314	29	#include "memory/oopFactory.hpp"
stefank@2314	30	#include "memory/resourceArea.hpp"
stefank@2314	31	#include "oops/instanceKlass.hpp"
stefank@2314	32	#include "oops/klass.inline.hpp"
stefank@2314	33	#include "oops/klassOop.hpp"
stefank@2314	34	#include "oops/oop.inline.hpp"
stefank@2314	35	#include "oops/oop.inline2.hpp"
stefank@2314	36	#include "runtime/atomic.hpp"
duke@435	37
coleenp@2497	38	void Klass::set_name(Symbol* n) {
coleenp@2497	39	_name = n;
coleenp@2497	40	if (_name != NULL) _name->increment_refcount();
coleenp@2497	41	}
duke@435	42
duke@435	43	bool Klass::is_subclass_of(klassOop k) const {
duke@435	44	// Run up the super chain and check
duke@435	45	klassOop t = as_klassOop();
duke@435	46
duke@435	47	if (t == k) return true;
duke@435	48	t = Klass::cast(t)->super();
duke@435	49
duke@435	50	while (t != NULL) {
duke@435	51	if (t == k) return true;
duke@435	52	t = Klass::cast(t)->super();
duke@435	53	}
duke@435	54	return false;
duke@435	55	}
duke@435	56
duke@435	57	bool Klass::search_secondary_supers(klassOop k) const {
duke@435	58	// Put some extra logic here out-of-line, before the search proper.
duke@435	59	// This cuts down the size of the inline method.
duke@435	60
duke@435	61	// This is necessary, since I am never in my own secondary_super list.
duke@435	62	if (this->as_klassOop() == k)
duke@435	63	return true;
duke@435	64	// Scan the array-of-objects for a match
duke@435	65	int cnt = secondary_supers()->length();
duke@435	66	for (int i = 0; i < cnt; i++) {
duke@435	67	if (secondary_supers()->obj_at(i) == k) {
duke@435	68	((Klass*)this)->set_secondary_super_cache(k);
duke@435	69	return true;
duke@435	70	}
duke@435	71	}
duke@435	72	return false;
duke@435	73	}
duke@435	74
duke@435	75	// Return self, except for abstract classes with exactly 1
duke@435	76	// implementor. Then return the 1 concrete implementation.
duke@435	77	Klass *Klass::up_cast_abstract() {
duke@435	78	Klass *r = this;
duke@435	79	while( r->is_abstract() ) { // Receiver is abstract?
duke@435	80	Klass *s = r->subklass(); // Check for exactly 1 subklass
duke@435	81	if( !s || s->next_sibling() ) // Oops; wrong count; give up
duke@435	82	return this; // Return 'this' as a no-progress flag
duke@435	83	r = s; // Loop till find concrete class
duke@435	84	}
duke@435	85	return r; // Return the 1 concrete class
duke@435	86	}
duke@435	87
twisti@1040	88	// Find LCA in class hierarchy
duke@435	89	Klass *Klass::LCA( Klass *k2 ) {
duke@435	90	Klass *k1 = this;
duke@435	91	while( 1 ) {
duke@435	92	if( k1->is_subtype_of(k2->as_klassOop()) ) return k2;
duke@435	93	if( k2->is_subtype_of(k1->as_klassOop()) ) return k1;
duke@435	94	k1 = k1->super()->klass_part();
duke@435	95	k2 = k2->super()->klass_part();
duke@435	96	}
duke@435	97	}
duke@435	98
duke@435	99
duke@435	100	void Klass::check_valid_for_instantiation(bool throwError, TRAPS) {
duke@435	101	ResourceMark rm(THREAD);
duke@435	102	THROW_MSG(throwError ? vmSymbols::java_lang_InstantiationError()
duke@435	103	: vmSymbols::java_lang_InstantiationException(), external_name());
duke@435	104	}
duke@435	105
duke@435	106
duke@435	107	void Klass::copy_array(arrayOop s, int src_pos, arrayOop d, int dst_pos, int length, TRAPS) {
duke@435	108	THROW(vmSymbols::java_lang_ArrayStoreException());
duke@435	109	}
duke@435	110
duke@435	111
duke@435	112	void Klass::initialize(TRAPS) {
duke@435	113	ShouldNotReachHere();
duke@435	114	}
duke@435	115
duke@435	116	bool Klass::compute_is_subtype_of(klassOop k) {
duke@435	117	assert(k->is_klass(), "argument must be a class");
duke@435	118	return is_subclass_of(k);
duke@435	119	}
duke@435	120
duke@435	121
coleenp@2497	122	methodOop Klass::uncached_lookup_method(Symbol* name, Symbol* signature) const {
duke@435	123	#ifdef ASSERT
duke@435	124	tty->print_cr("Error: uncached_lookup_method called on a klass oop."
duke@435	125	" Likely error: reflection method does not correctly"
duke@435	126	" wrap return value in a mirror object.");
duke@435	127	#endif
duke@435	128	ShouldNotReachHere();
duke@435	129	return NULL;
duke@435	130	}
duke@435	131
duke@435	132	klassOop Klass::base_create_klass_oop(KlassHandle& klass, int size,
duke@435	133	const Klass_vtbl& vtbl, TRAPS) {
duke@435	134	size = align_object_size(size);
duke@435	135	// allocate and initialize vtable
duke@435	136	Klass* kl = (Klass*) vtbl.allocate_permanent(klass, size, CHECK_NULL);
duke@435	137	klassOop k = kl->as_klassOop();
duke@435	138
duke@435	139	{ // Preinitialize supertype information.
duke@435	140	// A later call to initialize_supers() may update these settings:
duke@435	141	kl->set_super(NULL);
duke@435	142	for (juint i = 0; i < Klass::primary_super_limit(); i++) {
duke@435	143	kl->_primary_supers[i] = NULL;
duke@435	144	}
duke@435	145	kl->set_secondary_supers(NULL);
duke@435	146	oop_store_without_check((oop*) &kl->_primary_supers[0], k);
stefank@3391	147	kl->set_super_check_offset(in_bytes(primary_supers_offset()));
duke@435	148	}
duke@435	149
duke@435	150	kl->set_java_mirror(NULL);
duke@435	151	kl->set_modifier_flags(0);
duke@435	152	kl->set_layout_helper(Klass::_lh_neutral_value);
duke@435	153	kl->set_name(NULL);
duke@435	154	AccessFlags af;
duke@435	155	af.set_flags(0);
duke@435	156	kl->set_access_flags(af);
duke@435	157	kl->set_subklass(NULL);
duke@435	158	kl->set_next_sibling(NULL);
duke@435	159	kl->set_alloc_count(0);
duke@435	160	kl->set_alloc_size(0);
phh@3427	161	#ifdef TRACE_SET_KLASS_TRACE_ID
phh@3427	162	TRACE_SET_KLASS_TRACE_ID(kl, 0);
phh@3427	163	#endif
duke@435	164
duke@435	165	kl->set_prototype_header(markOopDesc::prototype());
duke@435	166	kl->set_biased_lock_revocation_count(0);
duke@435	167	kl->set_last_biased_lock_bulk_revocation_time(0);
duke@435	168
duke@435	169	return k;
duke@435	170	}
duke@435	171
duke@435	172	KlassHandle Klass::base_create_klass(KlassHandle& klass, int size,
duke@435	173	const Klass_vtbl& vtbl, TRAPS) {
duke@435	174	klassOop ek = base_create_klass_oop(klass, size, vtbl, THREAD);
duke@435	175	return KlassHandle(THREAD, ek);
duke@435	176	}
duke@435	177
duke@435	178	void Klass_vtbl::post_new_init_klass(KlassHandle& klass,
duke@435	179	klassOop new_klass,
duke@435	180	int size) const {
duke@435	181	assert(!new_klass->klass_part()->null_vtbl(), "Not a complete klass");
duke@435	182	CollectedHeap::post_allocation_install_obj_klass(klass, new_klass, size);
duke@435	183	}
duke@435	184
duke@435	185	void* Klass_vtbl::operator new(size_t ignored, KlassHandle& klass,
duke@435	186	int size, TRAPS) {
duke@435	187	// The vtable pointer is installed during the execution of
duke@435	188	// constructors in the call to permanent_obj_allocate(). Delay
duke@435	189	// the installation of the klass pointer into the new klass "k"
duke@435	190	// until after the vtable pointer has been installed (i.e., until
duke@435	191	// after the return of permanent_obj_allocate().
duke@435	192	klassOop k =
duke@435	193	(klassOop) CollectedHeap::permanent_obj_allocate_no_klass_install(klass,
duke@435	194	size, CHECK_NULL);
duke@435	195	return k->klass_part();
duke@435	196	}
duke@435	197
duke@435	198	jint Klass::array_layout_helper(BasicType etype) {
duke@435	199	assert(etype >= T_BOOLEAN && etype <= T_OBJECT, "valid etype");
duke@435	200	// Note that T_ARRAY is not allowed here.
duke@435	201	int hsize = arrayOopDesc::base_offset_in_bytes(etype);
kvn@464	202	int esize = type2aelembytes(etype);
duke@435	203	bool isobj = (etype == T_OBJECT);
duke@435	204	int tag = isobj ? _lh_array_tag_obj_value : _lh_array_tag_type_value;
duke@435	205	int lh = array_layout_helper(tag, hsize, etype, exact_log2(esize));
duke@435	206
duke@435	207	assert(lh < (int)_lh_neutral_value, "must look like an array layout");
duke@435	208	assert(layout_helper_is_javaArray(lh), "correct kind");
duke@435	209	assert(layout_helper_is_objArray(lh) == isobj, "correct kind");
duke@435	210	assert(layout_helper_is_typeArray(lh) == !isobj, "correct kind");
duke@435	211	assert(layout_helper_header_size(lh) == hsize, "correct decode");
duke@435	212	assert(layout_helper_element_type(lh) == etype, "correct decode");
duke@435	213	assert(1 << layout_helper_log2_element_size(lh) == esize, "correct decode");
duke@435	214
duke@435	215	return lh;
duke@435	216	}
duke@435	217
duke@435	218	bool Klass::can_be_primary_super_slow() const {
duke@435	219	if (super() == NULL)
duke@435	220	return true;
duke@435	221	else if (super()->klass_part()->super_depth() >= primary_super_limit()-1)
duke@435	222	return false;
duke@435	223	else
duke@435	224	return true;
duke@435	225	}
duke@435	226
duke@435	227	void Klass::initialize_supers(klassOop k, TRAPS) {
duke@435	228	if (FastSuperclassLimit == 0) {
duke@435	229	// None of the other machinery matters.
duke@435	230	set_super(k);
duke@435	231	return;
duke@435	232	}
duke@435	233	if (k == NULL) {
duke@435	234	set_super(NULL);
duke@435	235	oop_store_without_check((oop*) &_primary_supers[0], (oop) this->as_klassOop());
duke@435	236	assert(super_depth() == 0, "Object must already be initialized properly");
never@1577	237	} else if (k != super() || k == SystemDictionary::Object_klass()) {
never@1577	238	assert(super() == NULL || super() == SystemDictionary::Object_klass(),
duke@435	239	"initialize this only once to a non-trivial value");
duke@435	240	set_super(k);
duke@435	241	Klass* sup = k->klass_part();
duke@435	242	int sup_depth = sup->super_depth();
duke@435	243	juint my_depth = MIN2(sup_depth + 1, (int)primary_super_limit());
duke@435	244	if (!can_be_primary_super_slow())
duke@435	245	my_depth = primary_super_limit();
duke@435	246	for (juint i = 0; i < my_depth; i++) {
duke@435	247	oop_store_without_check((oop*) &_primary_supers[i], (oop) sup->_primary_supers[i]);
duke@435	248	}
duke@435	249	klassOop *super_check_cell;
duke@435	250	if (my_depth < primary_super_limit()) {
duke@435	251	oop_store_without_check((oop*) &_primary_supers[my_depth], (oop) this->as_klassOop());
duke@435	252	super_check_cell = &_primary_supers[my_depth];
duke@435	253	} else {
duke@435	254	// Overflow of the primary_supers array forces me to be secondary.
duke@435	255	super_check_cell = &_secondary_super_cache;
duke@435	256	}
duke@435	257	set_super_check_offset((address)super_check_cell - (address) this->as_klassOop());
duke@435	258
duke@435	259	#ifdef ASSERT
duke@435	260	{
duke@435	261	juint j = super_depth();
duke@435	262	assert(j == my_depth, "computed accessor gets right answer");
duke@435	263	klassOop t = as_klassOop();
duke@435	264	while (!Klass::cast(t)->can_be_primary_super()) {
duke@435	265	t = Klass::cast(t)->super();
duke@435	266	j = Klass::cast(t)->super_depth();
duke@435	267	}
duke@435	268	for (juint j1 = j+1; j1 < primary_super_limit(); j1++) {
duke@435	269	assert(primary_super_of_depth(j1) == NULL, "super list padding");
duke@435	270	}
duke@435	271	while (t != NULL) {
duke@435	272	assert(primary_super_of_depth(j) == t, "super list initialization");
duke@435	273	t = Klass::cast(t)->super();
duke@435	274	--j;
duke@435	275	}
duke@435	276	assert(j == (juint)-1, "correct depth count");
duke@435	277	}
duke@435	278	#endif
duke@435	279	}
duke@435	280
duke@435	281	if (secondary_supers() == NULL) {
duke@435	282	KlassHandle this_kh (THREAD, this);
duke@435	283
duke@435	284	// Now compute the list of secondary supertypes.
duke@435	285	// Secondaries can occasionally be on the super chain,
duke@435	286	// if the inline "_primary_supers" array overflows.
duke@435	287	int extras = 0;
duke@435	288	klassOop p;
duke@435	289	for (p = super(); !(p == NULL || p->klass_part()->can_be_primary_super()); p = p->klass_part()->super()) {
duke@435	290	++extras;
duke@435	291	}
duke@435	292
duke@435	293	// Compute the "real" non-extra secondaries.
duke@435	294	objArrayOop secondary_oops = compute_secondary_supers(extras, CHECK);
duke@435	295	objArrayHandle secondaries (THREAD, secondary_oops);
duke@435	296
duke@435	297	// Store the extra secondaries in the first array positions:
duke@435	298	int fillp = extras;
duke@435	299	for (p = this_kh->super(); !(p == NULL || p->klass_part()->can_be_primary_super()); p = p->klass_part()->super()) {
duke@435	300	int i; // Scan for overflow primaries being duplicates of 2nd'arys
duke@435	301
duke@435	302	// This happens frequently for very deeply nested arrays: the
duke@435	303	// primary superclass chain overflows into the secondary. The
duke@435	304	// secondary list contains the element_klass's secondaries with
duke@435	305	// an extra array dimension added. If the element_klass's
duke@435	306	// secondary list already contains some primary overflows, they
duke@435	307	// (with the extra level of array-ness) will collide with the
duke@435	308	// normal primary superclass overflows.
duke@435	309	for( i = extras; i < secondaries->length(); i++ )
duke@435	310	if( secondaries->obj_at(i) == p )
duke@435	311	break;
duke@435	312	if( i < secondaries->length() )
duke@435	313	continue; // It's a dup, don't put it in
duke@435	314	secondaries->obj_at_put(--fillp, p);
duke@435	315	}
duke@435	316	// See if we had some dup's, so the array has holes in it.
duke@435	317	if( fillp > 0 ) {
duke@435	318	// Pack the array. Drop the old secondaries array on the floor
duke@435	319	// and let GC reclaim it.
duke@435	320	objArrayOop s2 = oopFactory::new_system_objArray(secondaries->length() - fillp, CHECK);
duke@435	321	for( int i = 0; i < s2->length(); i++ )
duke@435	322	s2->obj_at_put( i, secondaries->obj_at(i+fillp) );
duke@435	323	secondaries = objArrayHandle(THREAD, s2);
duke@435	324	}
duke@435	325
duke@435	326	#ifdef ASSERT
duke@435	327	if (secondaries() != Universe::the_array_interfaces_array()) {
duke@435	328	// We must not copy any NULL placeholders left over from bootstrap.
duke@435	329	for (int j = 0; j < secondaries->length(); j++) {
duke@435	330	assert(secondaries->obj_at(j) != NULL, "correct bootstrapping order");
duke@435	331	}
duke@435	332	}
duke@435	333	#endif
duke@435	334
duke@435	335	this_kh->set_secondary_supers(secondaries());
duke@435	336	}
duke@435	337	}
duke@435	338
duke@435	339	objArrayOop Klass::compute_secondary_supers(int num_extra_slots, TRAPS) {
duke@435	340	assert(num_extra_slots == 0, "override for complex klasses");
duke@435	341	return Universe::the_empty_system_obj_array();
duke@435	342	}
duke@435	343
duke@435	344
duke@435	345	Klass* Klass::subklass() const {
duke@435	346	return _subklass == NULL ? NULL : Klass::cast(_subklass);
duke@435	347	}
duke@435	348
duke@435	349	instanceKlass* Klass::superklass() const {
duke@435	350	assert(super() == NULL || super()->klass_part()->oop_is_instance(), "must be instance klass");
duke@435	351	return _super == NULL ? NULL : instanceKlass::cast(_super);
duke@435	352	}
duke@435	353
duke@435	354	Klass* Klass::next_sibling() const {
duke@435	355	return _next_sibling == NULL ? NULL : Klass::cast(_next_sibling);
duke@435	356	}
duke@435	357
duke@435	358	void Klass::set_subklass(klassOop s) {
duke@435	359	assert(s != as_klassOop(), "sanity check");
duke@435	360	oop_store_without_check((oop*)&_subklass, s);
duke@435	361	}
duke@435	362
duke@435	363	void Klass::set_next_sibling(klassOop s) {
duke@435	364	assert(s != as_klassOop(), "sanity check");
duke@435	365	oop_store_without_check((oop*)&_next_sibling, s);
duke@435	366	}
duke@435	367
duke@435	368	void Klass::append_to_sibling_list() {
duke@435	369	debug_only(if (!SharedSkipVerify) as_klassOop()->verify();)
duke@435	370	// add ourselves to superklass' subklass list
duke@435	371	instanceKlass* super = superklass();
duke@435	372	if (super == NULL) return; // special case: class Object
duke@435	373	assert(SharedSkipVerify ||
duke@435	374	(!super->is_interface() // interfaces cannot be supers
duke@435	375	&& (super->superklass() == NULL || !is_interface())),
duke@435	376	"an interface can only be a subklass of Object");
duke@435	377	klassOop prev_first_subklass = super->subklass_oop();
duke@435	378	if (prev_first_subklass != NULL) {
duke@435	379	// set our sibling to be the superklass' previous first subklass
duke@435	380	set_next_sibling(prev_first_subklass);
duke@435	381	}
duke@435	382	// make ourselves the superklass' first subklass
duke@435	383	super->set_subklass(as_klassOop());
duke@435	384	debug_only(if (!SharedSkipVerify) as_klassOop()->verify();)
duke@435	385	}
duke@435	386
duke@435	387	void Klass::remove_from_sibling_list() {
duke@435	388	// remove receiver from sibling list
duke@435	389	instanceKlass* super = superklass();
never@1577	390	assert(super != NULL || as_klassOop() == SystemDictionary::Object_klass(), "should have super");
duke@435	391	if (super == NULL) return; // special case: class Object
duke@435	392	if (super->subklass() == this) {
duke@435	393	// first subklass
duke@435	394	super->set_subklass(_next_sibling);
duke@435	395	} else {
duke@435	396	Klass* sib = super->subklass();
duke@435	397	while (sib->next_sibling() != this) {
duke@435	398	sib = sib->next_sibling();
duke@435	399	};
duke@435	400	sib->set_next_sibling(_next_sibling);
duke@435	401	}
duke@435	402	}
duke@435	403
duke@435	404	void Klass::follow_weak_klass_links( BoolObjectClosure* is_alive, OopClosure* keep_alive) {
duke@435	405	// This klass is alive but the subklass and siblings are not followed/updated.
duke@435	406	// We update the subklass link and the subklass' sibling links here.
duke@435	407	// Our own sibling link will be updated by our superclass (which must be alive
duke@435	408	// since we are).
duke@435	409	assert(is_alive->do_object_b(as_klassOop()), "just checking, this should be live");
duke@435	410	if (ClassUnloading) {
duke@435	411	klassOop sub = subklass_oop();
duke@435	412	if (sub != NULL && !is_alive->do_object_b(sub)) {
duke@435	413	// first subklass not alive, find first one alive
duke@435	414	do {
duke@435	415	#ifndef PRODUCT
duke@435	416	if (TraceClassUnloading && WizardMode) {
duke@435	417	ResourceMark rm;
duke@435	418	tty->print_cr("[Unlinking class (subclass) %s]", sub->klass_part()->external_name());
duke@435	419	}
duke@435	420	#endif
duke@435	421	sub = sub->klass_part()->next_sibling_oop();
duke@435	422	} while (sub != NULL && !is_alive->do_object_b(sub));
duke@435	423	set_subklass(sub);
duke@435	424	}
duke@435	425	// now update the subklass' sibling list
duke@435	426	while (sub != NULL) {
duke@435	427	klassOop next = sub->klass_part()->next_sibling_oop();
duke@435	428	if (next != NULL && !is_alive->do_object_b(next)) {
duke@435	429	// first sibling not alive, find first one alive
duke@435	430	do {
duke@435	431	#ifndef PRODUCT
duke@435	432	if (TraceClassUnloading && WizardMode) {
duke@435	433	ResourceMark rm;
duke@435	434	tty->print_cr("[Unlinking class (sibling) %s]", next->klass_part()->external_name());
duke@435	435	}
duke@435	436	#endif
duke@435	437	next = next->klass_part()->next_sibling_oop();
duke@435	438	} while (next != NULL && !is_alive->do_object_b(next));
duke@435	439	sub->klass_part()->set_next_sibling(next);
duke@435	440	}
duke@435	441	sub = next;
duke@435	442	}
duke@435	443	} else {
duke@435	444	// Always follow subklass and sibling link. This will prevent any klasses from
duke@435	445	// being unloaded (all classes are transitively linked from java.lang.Object).
duke@435	446	keep_alive->do_oop(adr_subklass());
duke@435	447	keep_alive->do_oop(adr_next_sibling());
duke@435	448	}
duke@435	449	}
duke@435	450
duke@435	451
duke@435	452	void Klass::remove_unshareable_info() {
duke@435	453	if (oop_is_instance()) {
duke@435	454	instanceKlass* ik = (instanceKlass*)this;
duke@435	455	if (ik->is_linked()) {
duke@435	456	ik->unlink_class();
duke@435	457	}
duke@435	458	}
coleenp@2777	459	// Clear the Java vtable if the oop has one.
coleenp@2777	460	// The vtable isn't shareable because it's in the wrong order wrt the methods
coleenp@2777	461	// once the method names get moved and resorted.
coleenp@2777	462	klassVtable* vt = vtable();
coleenp@2777	463	if (vt != NULL) {
coleenp@2777	464	assert(oop_is_instance() || oop_is_array(), "nothing else has vtable");
coleenp@2777	465	vt->clear_vtable();
coleenp@2777	466	}
duke@435	467	set_subklass(NULL);
duke@435	468	set_next_sibling(NULL);
duke@435	469	}
duke@435	470
duke@435	471
coleenp@2497	472	void Klass::shared_symbols_iterate(SymbolClosure* closure) {
coleenp@2497	473	closure->do_symbol(&_name);
coleenp@2497	474	}
coleenp@2497	475
coleenp@2497	476
duke@435	477	klassOop Klass::array_klass_or_null(int rank) {
duke@435	478	EXCEPTION_MARK;
duke@435	479	// No exception can be thrown by array_klass_impl when called with or_null == true.
duke@435	480	// (In anycase, the execption mark will fail if it do so)
duke@435	481	return array_klass_impl(true, rank, THREAD);
duke@435	482	}
duke@435	483
duke@435	484
duke@435	485	klassOop Klass::array_klass_or_null() {
duke@435	486	EXCEPTION_MARK;
duke@435	487	// No exception can be thrown by array_klass_impl when called with or_null == true.
duke@435	488	// (In anycase, the execption mark will fail if it do so)
duke@435	489	return array_klass_impl(true, THREAD);
duke@435	490	}
duke@435	491
duke@435	492
duke@435	493	klassOop Klass::array_klass_impl(bool or_null, int rank, TRAPS) {
duke@435	494	fatal("array_klass should be dispatched to instanceKlass, objArrayKlass or typeArrayKlass");
duke@435	495	return NULL;
duke@435	496	}
duke@435	497
duke@435	498
duke@435	499	klassOop Klass::array_klass_impl(bool or_null, TRAPS) {
duke@435	500	fatal("array_klass should be dispatched to instanceKlass, objArrayKlass or typeArrayKlass");
duke@435	501	return NULL;
duke@435	502	}
duke@435	503
duke@435	504
duke@435	505	void Klass::with_array_klasses_do(void f(klassOop k)) {
duke@435	506	f(as_klassOop());
duke@435	507	}
duke@435	508
duke@435	509
duke@435	510	const char* Klass::external_name() const {
jrose@866	511	if (oop_is_instance()) {
jrose@866	512	instanceKlass* ik = (instanceKlass*) this;
jrose@866	513	if (ik->is_anonymous()) {
twisti@2698	514	assert(EnableInvokeDynamic, "");
jrose@866	515	intptr_t hash = ik->java_mirror()->identity_hash();
jrose@866	516	char hash_buf[40];
jrose@866	517	sprintf(hash_buf, "/" UINTX_FORMAT, (uintx)hash);
jrose@866	518	size_t hash_len = strlen(hash_buf);
jrose@866	519
jrose@866	520	size_t result_len = name()->utf8_length();
jrose@866	521	char* result = NEW_RESOURCE_ARRAY(char, result_len + hash_len + 1);
jrose@866	522	name()->as_klass_external_name(result, (int) result_len + 1);
jrose@866	523	assert(strlen(result) == result_len, "");
jrose@866	524	strcpy(result + result_len, hash_buf);
jrose@866	525	assert(strlen(result) == result_len + hash_len, "");
jrose@866	526	return result;
jrose@866	527	}
jrose@866	528	}
jrose@1474	529	if (name() == NULL) return "<unknown>";
duke@435	530	return name()->as_klass_external_name();
duke@435	531	}
duke@435	532
duke@435	533
jrose@1474	534	const char* Klass::signature_name() const {
jrose@1474	535	if (name() == NULL) return "<unknown>";
duke@435	536	return name()->as_C_string();
duke@435	537	}
duke@435	538
duke@435	539	// Unless overridden, modifier_flags is 0.
duke@435	540	jint Klass::compute_modifier_flags(TRAPS) const {
duke@435	541	return 0;
duke@435	542	}
duke@435	543
duke@435	544	int Klass::atomic_incr_biased_lock_revocation_count() {
duke@435	545	return (int) Atomic::add(1, &_biased_lock_revocation_count);
duke@435	546	}
duke@435	547
duke@435	548	// Unless overridden, jvmti_class_status has no flags set.
duke@435	549	jint Klass::jvmti_class_status() const {
duke@435	550	return 0;
duke@435	551	}
duke@435	552
duke@435	553	// Printing
duke@435	554
duke@435	555	void Klass::oop_print_on(oop obj, outputStream* st) {
duke@435	556	ResourceMark rm;
duke@435	557	// print title
duke@435	558	st->print_cr("%s ", internal_name());
duke@435	559	obj->print_address_on(st);
duke@435	560
duke@435	561	if (WizardMode) {
duke@435	562	// print header
duke@435	563	obj->mark()->print_on(st);
duke@435	564	}
duke@435	565
duke@435	566	// print class
duke@435	567	st->print(" - klass: ");
duke@435	568	obj->klass()->print_value_on(st);
duke@435	569	st->cr();
duke@435	570	}
duke@435	571
duke@435	572	void Klass::oop_print_value_on(oop obj, outputStream* st) {
duke@435	573	// print title
duke@435	574	ResourceMark rm; // Cannot print in debug mode without this
duke@435	575	st->print("%s", internal_name());
duke@435	576	obj->print_address_on(st);
duke@435	577	}
duke@435	578
duke@435	579	// Verification
duke@435	580
duke@435	581	void Klass::oop_verify_on(oop obj, outputStream* st) {
duke@435	582	guarantee(obj->is_oop(), "should be oop");
duke@435	583	guarantee(obj->klass()->is_perm(), "should be in permspace");
duke@435	584	guarantee(obj->klass()->is_klass(), "klass field is not a klass");
duke@435	585	}
duke@435	586
duke@435	587
duke@435	588	void Klass::oop_verify_old_oop(oop obj, oop* p, bool allow_dirty) {
duke@435	589	/* $$$ I think this functionality should be handled by verification of
duke@435	590	RememberedSet::verify_old_oop(obj, p, allow_dirty, false);
duke@435	591	the card table. */
duke@435	592	}
coleenp@548	593	void Klass::oop_verify_old_oop(oop obj, narrowOop* p, bool allow_dirty) { }
duke@435	594
duke@435	595	#ifndef PRODUCT
duke@435	596
duke@435	597	void Klass::verify_vtable_index(int i) {
duke@435	598	assert(oop_is_instance() || oop_is_array(), "only instanceKlass and arrayKlass have vtables");
duke@435	599	if (oop_is_instance()) {
duke@435	600	assert(i>=0 && i<((instanceKlass*)this)->vtable_length()/vtableEntry::size(), "index out of bounds");
duke@435	601	} else {
duke@435	602	assert(i>=0 && i<((arrayKlass*)this)->vtable_length()/vtableEntry::size(), "index out of bounds");
duke@435	603	}
duke@435	604	}
duke@435	605
duke@435	606	#endif