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src/share/vm/code/dependencies.cpp@f2e12eb74117 (annotated)

src/share/vm/code/dependencies.cpp

Fri, 28 Sep 2012 10:16:29 -0700

author

kvn

date

Fri, 28 Sep 2012 10:16:29 -0700

changeset 4117

f2e12eb74117

parent 4052

75f33eecc1b3

child 4155

9a9b6e05ffb4

permissions

-rw-r--r--

Merge

duke@435	1	/*
jiangli@3701	2	* Copyright (c) 2005, 2012, 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 "ci/ciArrayKlass.hpp"
stefank@2314	27	#include "ci/ciEnv.hpp"
stefank@2314	28	#include "ci/ciKlass.hpp"
stefank@2314	29	#include "ci/ciMethod.hpp"
stefank@2314	30	#include "code/dependencies.hpp"
stefank@2314	31	#include "compiler/compileLog.hpp"
stefank@2314	32	#include "oops/oop.inline.hpp"
coleenp@4037	33	#include "runtime/handles.hpp"
stefank@2314	34	#include "runtime/handles.inline.hpp"
stefank@2314	35	#include "utilities/copy.hpp"
duke@435	36
duke@435	37
duke@435	38	#ifdef ASSERT
duke@435	39	static bool must_be_in_vm() {
duke@435	40	Thread* thread = Thread::current();
duke@435	41	if (thread->is_Java_thread())
duke@435	42	return ((JavaThread*)thread)->thread_state() == _thread_in_vm;
duke@435	43	else
duke@435	44	return true; //something like this: thread->is_VM_thread();
duke@435	45	}
duke@435	46	#endif //ASSERT
duke@435	47
duke@435	48	void Dependencies::initialize(ciEnv* env) {
duke@435	49	Arena* arena = env->arena();
duke@435	50	_oop_recorder = env->oop_recorder();
duke@435	51	_log = env->log();
duke@435	52	_dep_seen = new(arena) GrowableArray<int>(arena, 500, 0, 0);
duke@435	53	DEBUG_ONLY(_deps[end_marker] = NULL);
duke@435	54	for (int i = (int)FIRST_TYPE; i < (int)TYPE_LIMIT; i++) {
coleenp@4037	55	_deps[i] = new(arena) GrowableArray<ciBaseObject*>(arena, 10, 0, 0);
duke@435	56	}
duke@435	57	_content_bytes = NULL;
duke@435	58	_size_in_bytes = (size_t)-1;
duke@435	59
duke@435	60	assert(TYPE_LIMIT <= (1<<LG2_TYPE_LIMIT), "sanity");
duke@435	61	}
duke@435	62
duke@435	63	void Dependencies::assert_evol_method(ciMethod* m) {
duke@435	64	assert_common_1(evol_method, m);
duke@435	65	}
duke@435	66
duke@435	67	void Dependencies::assert_leaf_type(ciKlass* ctxk) {
duke@435	68	if (ctxk->is_array_klass()) {
duke@435	69	// As a special case, support this assertion on an array type,
duke@435	70	// which reduces to an assertion on its element type.
duke@435	71	// Note that this cannot be done with assertions that
duke@435	72	// relate to concreteness or abstractness.
duke@435	73	ciType* elemt = ctxk->as_array_klass()->base_element_type();
duke@435	74	if (!elemt->is_instance_klass()) return; // Ex: int[][]
duke@435	75	ctxk = elemt->as_instance_klass();
duke@435	76	//if (ctxk->is_final()) return; // Ex: String[][]
duke@435	77	}
duke@435	78	check_ctxk(ctxk);
duke@435	79	assert_common_1(leaf_type, ctxk);
duke@435	80	}
duke@435	81
duke@435	82	void Dependencies::assert_abstract_with_unique_concrete_subtype(ciKlass* ctxk, ciKlass* conck) {
duke@435	83	check_ctxk_abstract(ctxk);
duke@435	84	assert_common_2(abstract_with_unique_concrete_subtype, ctxk, conck);
duke@435	85	}
duke@435	86
duke@435	87	void Dependencies::assert_abstract_with_no_concrete_subtype(ciKlass* ctxk) {
duke@435	88	check_ctxk_abstract(ctxk);
duke@435	89	assert_common_1(abstract_with_no_concrete_subtype, ctxk);
duke@435	90	}
duke@435	91
duke@435	92	void Dependencies::assert_concrete_with_no_concrete_subtype(ciKlass* ctxk) {
duke@435	93	check_ctxk_concrete(ctxk);
duke@435	94	assert_common_1(concrete_with_no_concrete_subtype, ctxk);
duke@435	95	}
duke@435	96
duke@435	97	void Dependencies::assert_unique_concrete_method(ciKlass* ctxk, ciMethod* uniqm) {
duke@435	98	check_ctxk(ctxk);
duke@435	99	assert_common_2(unique_concrete_method, ctxk, uniqm);
duke@435	100	}
duke@435	101
duke@435	102	void Dependencies::assert_abstract_with_exclusive_concrete_subtypes(ciKlass* ctxk, ciKlass* k1, ciKlass* k2) {
duke@435	103	check_ctxk(ctxk);
duke@435	104	assert_common_3(abstract_with_exclusive_concrete_subtypes_2, ctxk, k1, k2);
duke@435	105	}
duke@435	106
duke@435	107	void Dependencies::assert_exclusive_concrete_methods(ciKlass* ctxk, ciMethod* m1, ciMethod* m2) {
duke@435	108	check_ctxk(ctxk);
duke@435	109	assert_common_3(exclusive_concrete_methods_2, ctxk, m1, m2);
duke@435	110	}
duke@435	111
duke@435	112	void Dependencies::assert_has_no_finalizable_subclasses(ciKlass* ctxk) {
duke@435	113	check_ctxk(ctxk);
duke@435	114	assert_common_1(no_finalizable_subclasses, ctxk);
duke@435	115	}
duke@435	116
twisti@3094	117	void Dependencies::assert_call_site_target_value(ciCallSite* call_site, ciMethodHandle* method_handle) {
twisti@3094	118	check_ctxk(call_site->klass());
twisti@3094	119	assert_common_2(call_site_target_value, call_site, method_handle);
twisti@3050	120	}
twisti@3050	121
duke@435	122	// Helper function. If we are adding a new dep. under ctxk2,
duke@435	123	// try to find an old dep. under a broader* ctxk1. If there is
duke@435	124	//
coleenp@4037	125	bool Dependencies::maybe_merge_ctxk(GrowableArray<ciBaseObject*>* deps,
duke@435	126	int ctxk_i, ciKlass* ctxk2) {
coleenp@4037	127	ciKlass* ctxk1 = deps->at(ctxk_i)->as_metadata()->as_klass();
duke@435	128	if (ctxk2->is_subtype_of(ctxk1)) {
duke@435	129	return true; // success, and no need to change
duke@435	130	} else if (ctxk1->is_subtype_of(ctxk2)) {
duke@435	131	// new context class fully subsumes previous one
duke@435	132	deps->at_put(ctxk_i, ctxk2);
duke@435	133	return true;
duke@435	134	} else {
duke@435	135	return false;
duke@435	136	}
duke@435	137	}
duke@435	138
coleenp@4037	139	void Dependencies::assert_common_1(DepType dept, ciBaseObject* x) {
duke@435	140	assert(dep_args(dept) == 1, "sanity");
duke@435	141	log_dependency(dept, x);
coleenp@4037	142	GrowableArray<ciBaseObject*>* deps = _deps[dept];
duke@435	143
duke@435	144	// see if the same (or a similar) dep is already recorded
duke@435	145	if (note_dep_seen(dept, x)) {
duke@435	146	assert(deps->find(x) >= 0, "sanity");
duke@435	147	} else {
duke@435	148	deps->append(x);
duke@435	149	}
duke@435	150	}
duke@435	151
twisti@3094	152	void Dependencies::assert_common_2(DepType dept,
coleenp@4037	153	ciBaseObject* x0, ciBaseObject* x1) {
duke@435	154	assert(dep_args(dept) == 2, "sanity");
twisti@3094	155	log_dependency(dept, x0, x1);
coleenp@4037	156	GrowableArray<ciBaseObject*>* deps = _deps[dept];
duke@435	157
duke@435	158	// see if the same (or a similar) dep is already recorded
twisti@3094	159	bool has_ctxk = has_explicit_context_arg(dept);
twisti@3094	160	if (has_ctxk) {
twisti@3094	161	assert(dep_context_arg(dept) == 0, "sanity");
twisti@3094	162	if (note_dep_seen(dept, x1)) {
twisti@3094	163	// look in this bucket for redundant assertions
twisti@3094	164	const int stride = 2;
twisti@3094	165	for (int i = deps->length(); (i -= stride) >= 0; ) {
coleenp@4037	166	ciBaseObject* y1 = deps->at(i+1);
twisti@3094	167	if (x1 == y1) { // same subject; check the context
coleenp@4037	168	if (maybe_merge_ctxk(deps, i+0, x0->as_metadata()->as_klass())) {
twisti@3094	169	return;
twisti@3094	170	}
twisti@3094	171	}
twisti@3094	172	}
twisti@3094	173	}
twisti@3094	174	} else {
twisti@3094	175	assert(dep_implicit_context_arg(dept) == 0, "sanity");
twisti@3094	176	if (note_dep_seen(dept, x0) && note_dep_seen(dept, x1)) {
twisti@3094	177	// look in this bucket for redundant assertions
twisti@3094	178	const int stride = 2;
twisti@3094	179	for (int i = deps->length(); (i -= stride) >= 0; ) {
coleenp@4037	180	ciBaseObject* y0 = deps->at(i+0);
coleenp@4037	181	ciBaseObject* y1 = deps->at(i+1);
twisti@3094	182	if (x0 == y0 && x1 == y1) {
duke@435	183	return;
duke@435	184	}
duke@435	185	}
duke@435	186	}
duke@435	187	}
duke@435	188
duke@435	189	// append the assertion in the correct bucket:
twisti@3094	190	deps->append(x0);
twisti@3094	191	deps->append(x1);
duke@435	192	}
duke@435	193
twisti@3094	194	void Dependencies::assert_common_3(DepType dept,
coleenp@4037	195	ciKlass* ctxk, ciBaseObject* x, ciBaseObject* x2) {
duke@435	196	assert(dep_context_arg(dept) == 0, "sanity");
duke@435	197	assert(dep_args(dept) == 3, "sanity");
duke@435	198	log_dependency(dept, ctxk, x, x2);
coleenp@4037	199	GrowableArray<ciBaseObject*>* deps = _deps[dept];
duke@435	200
duke@435	201	// try to normalize an unordered pair:
duke@435	202	bool swap = false;
duke@435	203	switch (dept) {
duke@435	204	case abstract_with_exclusive_concrete_subtypes_2:
coleenp@4037	205	swap = (x->ident() > x2->ident() && x->as_metadata()->as_klass() != ctxk);
duke@435	206	break;
duke@435	207	case exclusive_concrete_methods_2:
coleenp@4037	208	swap = (x->ident() > x2->ident() && x->as_metadata()->as_method()->holder() != ctxk);
duke@435	209	break;
duke@435	210	}
coleenp@4037	211	if (swap) { ciBaseObject* t = x; x = x2; x2 = t; }
duke@435	212
duke@435	213	// see if the same (or a similar) dep is already recorded
duke@435	214	if (note_dep_seen(dept, x) && note_dep_seen(dept, x2)) {
duke@435	215	// look in this bucket for redundant assertions
duke@435	216	const int stride = 3;
duke@435	217	for (int i = deps->length(); (i -= stride) >= 0; ) {
coleenp@4037	218	ciBaseObject* y = deps->at(i+1);
coleenp@4037	219	ciBaseObject* y2 = deps->at(i+2);
duke@435	220	if (x == y && x2 == y2) { // same subjects; check the context
duke@435	221	if (maybe_merge_ctxk(deps, i+0, ctxk)) {
duke@435	222	return;
duke@435	223	}
duke@435	224	}
duke@435	225	}
duke@435	226	}
duke@435	227	// append the assertion in the correct bucket:
duke@435	228	deps->append(ctxk);
duke@435	229	deps->append(x);
duke@435	230	deps->append(x2);
duke@435	231	}
duke@435	232
duke@435	233	/// Support for encoding dependencies into an nmethod:
duke@435	234
duke@435	235	void Dependencies::copy_to(nmethod* nm) {
duke@435	236	address beg = nm->dependencies_begin();
duke@435	237	address end = nm->dependencies_end();
duke@435	238	guarantee(end - beg >= (ptrdiff_t) size_in_bytes(), "bad sizing");
duke@435	239	Copy::disjoint_words((HeapWord*) content_bytes(),
duke@435	240	(HeapWord*) beg,
duke@435	241	size_in_bytes() / sizeof(HeapWord));
duke@435	242	assert(size_in_bytes() % sizeof(HeapWord) == 0, "copy by words");
duke@435	243	}
duke@435	244
coleenp@4037	245	static int sort_dep(ciBaseObject** p1, ciBaseObject** p2, int narg) {
duke@435	246	for (int i = 0; i < narg; i++) {
duke@435	247	int diff = p1[i]->ident() - p2[i]->ident();
duke@435	248	if (diff != 0) return diff;
duke@435	249	}
duke@435	250	return 0;
duke@435	251	}
coleenp@4037	252	static int sort_dep_arg_1(ciBaseObject** p1, ciBaseObject** p2)
duke@435	253	{ return sort_dep(p1, p2, 1); }
coleenp@4037	254	static int sort_dep_arg_2(ciBaseObject** p1, ciBaseObject** p2)
duke@435	255	{ return sort_dep(p1, p2, 2); }
coleenp@4037	256	static int sort_dep_arg_3(ciBaseObject** p1, ciBaseObject** p2)
duke@435	257	{ return sort_dep(p1, p2, 3); }
duke@435	258
duke@435	259	void Dependencies::sort_all_deps() {
duke@435	260	for (int deptv = (int)FIRST_TYPE; deptv < (int)TYPE_LIMIT; deptv++) {
duke@435	261	DepType dept = (DepType)deptv;
coleenp@4037	262	GrowableArray<ciBaseObject*>* deps = _deps[dept];
duke@435	263	if (deps->length() <= 1) continue;
duke@435	264	switch (dep_args(dept)) {
duke@435	265	case 1: deps->sort(sort_dep_arg_1, 1); break;
duke@435	266	case 2: deps->sort(sort_dep_arg_2, 2); break;
duke@435	267	case 3: deps->sort(sort_dep_arg_3, 3); break;
duke@435	268	default: ShouldNotReachHere();
duke@435	269	}
duke@435	270	}
duke@435	271	}
duke@435	272
duke@435	273	size_t Dependencies::estimate_size_in_bytes() {
duke@435	274	size_t est_size = 100;
duke@435	275	for (int deptv = (int)FIRST_TYPE; deptv < (int)TYPE_LIMIT; deptv++) {
duke@435	276	DepType dept = (DepType)deptv;
coleenp@4037	277	GrowableArray<ciBaseObject*>* deps = _deps[dept];
duke@435	278	est_size += deps->length()*2; // tags and argument(s)
duke@435	279	}
duke@435	280	return est_size;
duke@435	281	}
duke@435	282
coleenp@4037	283	ciKlass* Dependencies::ctxk_encoded_as_null(DepType dept, ciBaseObject* x) {
duke@435	284	switch (dept) {
duke@435	285	case abstract_with_exclusive_concrete_subtypes_2:
coleenp@4037	286	return x->as_metadata()->as_klass();
duke@435	287	case unique_concrete_method:
duke@435	288	case exclusive_concrete_methods_2:
coleenp@4037	289	return x->as_metadata()->as_method()->holder();
duke@435	290	}
duke@435	291	return NULL; // let NULL be NULL
duke@435	292	}
duke@435	293
coleenp@4037	294	Klass* Dependencies::ctxk_encoded_as_null(DepType dept, Metadata* x) {
duke@435	295	assert(must_be_in_vm(), "raw oops here");
duke@435	296	switch (dept) {
duke@435	297	case abstract_with_exclusive_concrete_subtypes_2:
duke@435	298	assert(x->is_klass(), "sanity");
coleenp@4037	299	return (Klass*) x;
duke@435	300	case unique_concrete_method:
duke@435	301	case exclusive_concrete_methods_2:
duke@435	302	assert(x->is_method(), "sanity");
coleenp@4037	303	return ((Method*)x)->method_holder();
duke@435	304	}
duke@435	305	return NULL; // let NULL be NULL
duke@435	306	}
duke@435	307
duke@435	308	void Dependencies::encode_content_bytes() {
duke@435	309	sort_all_deps();
duke@435	310
duke@435	311	// cast is safe, no deps can overflow INT_MAX
duke@435	312	CompressedWriteStream bytes((int)estimate_size_in_bytes());
duke@435	313
duke@435	314	for (int deptv = (int)FIRST_TYPE; deptv < (int)TYPE_LIMIT; deptv++) {
duke@435	315	DepType dept = (DepType)deptv;
coleenp@4037	316	GrowableArray<ciBaseObject*>* deps = _deps[dept];
duke@435	317	if (deps->length() == 0) continue;
duke@435	318	int stride = dep_args(dept);
duke@435	319	int ctxkj = dep_context_arg(dept); // -1 if no context arg
duke@435	320	assert(stride > 0, "sanity");
duke@435	321	for (int i = 0; i < deps->length(); i += stride) {
duke@435	322	jbyte code_byte = (jbyte)dept;
duke@435	323	int skipj = -1;
duke@435	324	if (ctxkj >= 0 && ctxkj+1 < stride) {
coleenp@4037	325	ciKlass* ctxk = deps->at(i+ctxkj+0)->as_metadata()->as_klass();
coleenp@4037	326	ciBaseObject* x = deps->at(i+ctxkj+1); // following argument
duke@435	327	if (ctxk == ctxk_encoded_as_null(dept, x)) {
duke@435	328	skipj = ctxkj; // we win: maybe one less oop to keep track of
duke@435	329	code_byte |= default_context_type_bit;
duke@435	330	}
duke@435	331	}
duke@435	332	bytes.write_byte(code_byte);
duke@435	333	for (int j = 0; j < stride; j++) {
duke@435	334	if (j == skipj) continue;
coleenp@4037	335	ciBaseObject* v = deps->at(i+j);
coleenp@4037	336	if (v->is_object()) {
coleenp@4037	337	bytes.write_int(_oop_recorder->find_index(v->as_object()->constant_encoding()));
coleenp@4037	338	} else {
coleenp@4037	339	ciMetadata* meta = v->as_metadata();
coleenp@4037	340	bytes.write_int(_oop_recorder->find_index(meta->constant_encoding()));
coleenp@4037	341	}
duke@435	342	}
duke@435	343	}
duke@435	344	}
duke@435	345
duke@435	346	// write a sentinel byte to mark the end
duke@435	347	bytes.write_byte(end_marker);
duke@435	348
duke@435	349	// round it out to a word boundary
duke@435	350	while (bytes.position() % sizeof(HeapWord) != 0) {
duke@435	351	bytes.write_byte(end_marker);
duke@435	352	}
duke@435	353
duke@435	354	// check whether the dept byte encoding really works
duke@435	355	assert((jbyte)default_context_type_bit != 0, "byte overflow");
duke@435	356
duke@435	357	_content_bytes = bytes.buffer();
duke@435	358	_size_in_bytes = bytes.position();
duke@435	359	}
duke@435	360
duke@435	361
duke@435	362	const char* Dependencies::_dep_name[TYPE_LIMIT] = {
duke@435	363	"end_marker",
duke@435	364	"evol_method",
duke@435	365	"leaf_type",
duke@435	366	"abstract_with_unique_concrete_subtype",
duke@435	367	"abstract_with_no_concrete_subtype",
duke@435	368	"concrete_with_no_concrete_subtype",
duke@435	369	"unique_concrete_method",
duke@435	370	"abstract_with_exclusive_concrete_subtypes_2",
duke@435	371	"exclusive_concrete_methods_2",
twisti@3050	372	"no_finalizable_subclasses",
twisti@3050	373	"call_site_target_value"
duke@435	374	};
duke@435	375
duke@435	376	int Dependencies::_dep_args[TYPE_LIMIT] = {
duke@435	377	-1,// end_marker
duke@435	378	1, // evol_method m
duke@435	379	1, // leaf_type ctxk
duke@435	380	2, // abstract_with_unique_concrete_subtype ctxk, k
duke@435	381	1, // abstract_with_no_concrete_subtype ctxk
duke@435	382	1, // concrete_with_no_concrete_subtype ctxk
duke@435	383	2, // unique_concrete_method ctxk, m
duke@435	384	3, // unique_concrete_subtypes_2 ctxk, k1, k2
duke@435	385	3, // unique_concrete_methods_2 ctxk, m1, m2
twisti@3050	386	1, // no_finalizable_subclasses ctxk
twisti@3094	387	2 // call_site_target_value call_site, method_handle
duke@435	388	};
duke@435	389
duke@435	390	const char* Dependencies::dep_name(Dependencies::DepType dept) {
duke@435	391	if (!dept_in_mask(dept, all_types)) return "?bad-dep?";
duke@435	392	return _dep_name[dept];
duke@435	393	}
duke@435	394
duke@435	395	int Dependencies::dep_args(Dependencies::DepType dept) {
duke@435	396	if (!dept_in_mask(dept, all_types)) return -1;
duke@435	397	return _dep_args[dept];
duke@435	398	}
duke@435	399
twisti@3050	400	void Dependencies::check_valid_dependency_type(DepType dept) {
twisti@3094	401	guarantee(FIRST_TYPE <= dept && dept < TYPE_LIMIT, err_msg("invalid dependency type: %d", (int) dept));
twisti@3050	402	}
twisti@3050	403
duke@435	404	// for the sake of the compiler log, print out current dependencies:
duke@435	405	void Dependencies::log_all_dependencies() {
duke@435	406	if (log() == NULL) return;
coleenp@4037	407	ciBaseObject* args[max_arg_count];
duke@435	408	for (int deptv = (int)FIRST_TYPE; deptv < (int)TYPE_LIMIT; deptv++) {
duke@435	409	DepType dept = (DepType)deptv;
coleenp@4037	410	GrowableArray<ciBaseObject*>* deps = _deps[dept];
duke@435	411	if (deps->length() == 0) continue;
duke@435	412	int stride = dep_args(dept);
duke@435	413	for (int i = 0; i < deps->length(); i += stride) {
duke@435	414	for (int j = 0; j < stride; j++) {
duke@435	415	// flush out the identities before printing
duke@435	416	args[j] = deps->at(i+j);
duke@435	417	}
duke@435	418	write_dependency_to(log(), dept, stride, args);
duke@435	419	}
duke@435	420	}
duke@435	421	}
duke@435	422
duke@435	423	void Dependencies::write_dependency_to(CompileLog* log,
duke@435	424	DepType dept,
coleenp@4037	425	int nargs, DepArgument args[],
coleenp@4037	426	Klass* witness) {
duke@435	427	if (log == NULL) {
duke@435	428	return;
duke@435	429	}
duke@435	430	ciEnv* env = ciEnv::current();
coleenp@4037	431	ciBaseObject* ciargs[max_arg_count];
duke@435	432	assert(nargs <= max_arg_count, "oob");
duke@435	433	for (int j = 0; j < nargs; j++) {
coleenp@4037	434	if (args[j].is_oop()) {
coleenp@4037	435	ciargs[j] = env->get_object(args[j].oop_value());
coleenp@4037	436	} else {
coleenp@4037	437	ciargs[j] = env->get_metadata(args[j].metadata_value());
coleenp@4037	438	}
duke@435	439	}
duke@435	440	Dependencies::write_dependency_to(log, dept, nargs, ciargs, witness);
duke@435	441	}
duke@435	442
duke@435	443	void Dependencies::write_dependency_to(CompileLog* log,
duke@435	444	DepType dept,
coleenp@4037	445	int nargs, ciBaseObject* args[],
coleenp@4037	446	Klass* witness) {
duke@435	447	if (log == NULL) return;
duke@435	448	assert(nargs <= max_arg_count, "oob");
duke@435	449	int argids[max_arg_count];
duke@435	450	int ctxkj = dep_context_arg(dept); // -1 if no context arg
duke@435	451	int j;
duke@435	452	for (j = 0; j < nargs; j++) {
coleenp@4037	453	if (args[j]->is_object()) {
coleenp@4037	454	argids[j] = log->identify(args[j]->as_object());
coleenp@4037	455	} else {
coleenp@4037	456	argids[j] = log->identify(args[j]->as_metadata());
coleenp@4037	457	}
duke@435	458	}
duke@435	459	if (witness != NULL) {
duke@435	460	log->begin_elem("dependency_failed");
duke@435	461	} else {
duke@435	462	log->begin_elem("dependency");
duke@435	463	}
duke@435	464	log->print(" type='%s'", dep_name(dept));
duke@435	465	if (ctxkj >= 0) {
duke@435	466	log->print(" ctxk='%d'", argids[ctxkj]);
duke@435	467	}
duke@435	468	// write remaining arguments, if any.
duke@435	469	for (j = 0; j < nargs; j++) {
duke@435	470	if (j == ctxkj) continue; // already logged
duke@435	471	if (j == 1) {
duke@435	472	log->print( " x='%d'", argids[j]);
duke@435	473	} else {
duke@435	474	log->print(" x%d='%d'", j, argids[j]);
duke@435	475	}
duke@435	476	}
duke@435	477	if (witness != NULL) {
duke@435	478	log->object("witness", witness);
duke@435	479	log->stamp();
duke@435	480	}
duke@435	481	log->end_elem();
duke@435	482	}
duke@435	483
duke@435	484	void Dependencies::write_dependency_to(xmlStream* xtty,
duke@435	485	DepType dept,
coleenp@4037	486	int nargs, DepArgument args[],
coleenp@4037	487	Klass* witness) {
duke@435	488	if (xtty == NULL) return;
duke@435	489	ttyLocker ttyl;
duke@435	490	int ctxkj = dep_context_arg(dept); // -1 if no context arg
duke@435	491	if (witness != NULL) {
duke@435	492	xtty->begin_elem("dependency_failed");
duke@435	493	} else {
duke@435	494	xtty->begin_elem("dependency");
duke@435	495	}
duke@435	496	xtty->print(" type='%s'", dep_name(dept));
duke@435	497	if (ctxkj >= 0) {
coleenp@4037	498	xtty->object("ctxk", args[ctxkj].metadata_value());
duke@435	499	}
duke@435	500	// write remaining arguments, if any.
duke@435	501	for (int j = 0; j < nargs; j++) {
duke@435	502	if (j == ctxkj) continue; // already logged
duke@435	503	if (j == 1) {
coleenp@4037	504	if (args[j].is_oop()) {
coleenp@4037	505	xtty->object("x", args[j].oop_value());
coleenp@4037	506	} else {
coleenp@4037	507	xtty->object("x", args[j].metadata_value());
coleenp@4037	508	}
duke@435	509	} else {
duke@435	510	char xn[10]; sprintf(xn, "x%d", j);
coleenp@4037	511	if (args[j].is_oop()) {
coleenp@4037	512	xtty->object(xn, args[j].oop_value());
coleenp@4037	513	} else {
coleenp@4037	514	xtty->object(xn, args[j].metadata_value());
coleenp@4037	515	}
duke@435	516	}
duke@435	517	}
duke@435	518	if (witness != NULL) {
duke@435	519	xtty->object("witness", witness);
duke@435	520	xtty->stamp();
duke@435	521	}
duke@435	522	xtty->end_elem();
duke@435	523	}
duke@435	524
coleenp@4037	525	void Dependencies::print_dependency(DepType dept, int nargs, DepArgument args[],
coleenp@4037	526	Klass* witness) {
duke@435	527	ResourceMark rm;
duke@435	528	ttyLocker ttyl; // keep the following output all in one block
duke@435	529	tty->print_cr("%s of type %s",
duke@435	530	(witness == NULL)? "Dependency": "Failed dependency",
duke@435	531	dep_name(dept));
duke@435	532	// print arguments
duke@435	533	int ctxkj = dep_context_arg(dept); // -1 if no context arg
duke@435	534	for (int j = 0; j < nargs; j++) {
coleenp@4037	535	DepArgument arg = args[j];
duke@435	536	bool put_star = false;
coleenp@4037	537	if (arg.is_null()) continue;
duke@435	538	const char* what;
duke@435	539	if (j == ctxkj) {
coleenp@4037	540	assert(arg.is_metadata(), "must be");
duke@435	541	what = "context";
coleenp@4037	542	put_star = !Dependencies::is_concrete_klass((Klass*)arg.metadata_value());
coleenp@4037	543	} else if (arg.is_method()) {
duke@435	544	what = "method ";
coleenp@4037	545	put_star = !Dependencies::is_concrete_method((Method*)arg.metadata_value());
coleenp@4037	546	} else if (arg.is_klass()) {
duke@435	547	what = "class ";
duke@435	548	} else {
duke@435	549	what = "object ";
duke@435	550	}
duke@435	551	tty->print(" %s = %s", what, (put_star? "*": ""));
coleenp@4037	552	if (arg.is_klass())
coleenp@4037	553	tty->print("%s", Klass::cast((Klass*)arg.metadata_value())->external_name());
coleenp@4037	554	else if (arg.is_method())
coleenp@4037	555	((Method*)arg.metadata_value())->print_value();
duke@435	556	else
coleenp@4037	557	ShouldNotReachHere(); // Provide impl for this type.
duke@435	558	tty->cr();
duke@435	559	}
duke@435	560	if (witness != NULL) {
duke@435	561	bool put_star = !Dependencies::is_concrete_klass(witness);
duke@435	562	tty->print_cr(" witness = %s%s",
duke@435	563	(put_star? "*": ""),
duke@435	564	Klass::cast(witness)->external_name());
duke@435	565	}
duke@435	566	}
duke@435	567
coleenp@4037	568	void Dependencies::DepStream::log_dependency(Klass* witness) {
duke@435	569	if (_deps == NULL && xtty == NULL) return; // fast cutout for runtime
duke@435	570	int nargs = argument_count();
coleenp@4037	571	DepArgument args[max_arg_count];
duke@435	572	for (int j = 0; j < nargs; j++) {
coleenp@4037	573	if (type() == call_site_target_value) {
coleenp@4037	574	args[j] = argument_oop(j);
coleenp@4037	575	} else {
duke@435	576	args[j] = argument(j);
duke@435	577	}
coleenp@4037	578	}
duke@435	579	if (_deps != NULL && _deps->log() != NULL) {
duke@435	580	Dependencies::write_dependency_to(_deps->log(),
duke@435	581	type(), nargs, args, witness);
duke@435	582	} else {
duke@435	583	Dependencies::write_dependency_to(xtty,
duke@435	584	type(), nargs, args, witness);
duke@435	585	}
duke@435	586	}
duke@435	587
coleenp@4037	588	void Dependencies::DepStream::print_dependency(Klass* witness, bool verbose) {
duke@435	589	int nargs = argument_count();
coleenp@4037	590	DepArgument args[max_arg_count];
duke@435	591	for (int j = 0; j < nargs; j++) {
duke@435	592	args[j] = argument(j);
duke@435	593	}
duke@435	594	Dependencies::print_dependency(type(), nargs, args, witness);
duke@435	595	if (verbose) {
duke@435	596	if (_code != NULL) {
duke@435	597	tty->print(" code: ");
duke@435	598	_code->print_value_on(tty);
duke@435	599	tty->cr();
duke@435	600	}
duke@435	601	}
duke@435	602	}
duke@435	603
duke@435	604
duke@435	605	/// Dependency stream support (decodes dependencies from an nmethod):
duke@435	606
duke@435	607	#ifdef ASSERT
duke@435	608	void Dependencies::DepStream::initial_asserts(size_t byte_limit) {
duke@435	609	assert(must_be_in_vm(), "raw oops here");
duke@435	610	_byte_limit = byte_limit;
duke@435	611	_type = (DepType)(end_marker-1); // defeat "already at end" assert
duke@435	612	assert((_code!=NULL) + (_deps!=NULL) == 1, "one or t'other");
duke@435	613	}
duke@435	614	#endif //ASSERT
duke@435	615
duke@435	616	bool Dependencies::DepStream::next() {
duke@435	617	assert(_type != end_marker, "already at end");
duke@435	618	if (_bytes.position() == 0 && _code != NULL
duke@435	619	&& _code->dependencies_size() == 0) {
duke@435	620	// Method has no dependencies at all.
duke@435	621	return false;
duke@435	622	}
duke@435	623	int code_byte = (_bytes.read_byte() & 0xFF);
duke@435	624	if (code_byte == end_marker) {
duke@435	625	DEBUG_ONLY(_type = end_marker);
duke@435	626	return false;
duke@435	627	} else {
duke@435	628	int ctxk_bit = (code_byte & Dependencies::default_context_type_bit);
duke@435	629	code_byte -= ctxk_bit;
duke@435	630	DepType dept = (DepType)code_byte;
duke@435	631	_type = dept;
twisti@3094	632	Dependencies::check_valid_dependency_type(dept);
duke@435	633	int stride = _dep_args[dept];
duke@435	634	assert(stride == dep_args(dept), "sanity");
duke@435	635	int skipj = -1;
duke@435	636	if (ctxk_bit != 0) {
duke@435	637	skipj = 0; // currently the only context argument is at zero
duke@435	638	assert(skipj == dep_context_arg(dept), "zero arg always ctxk");
duke@435	639	}
duke@435	640	for (int j = 0; j < stride; j++) {
duke@435	641	_xi[j] = (j == skipj)? 0: _bytes.read_int();
duke@435	642	}
duke@435	643	DEBUG_ONLY(_xi[stride] = -1); // help detect overruns
duke@435	644	return true;
duke@435	645	}
duke@435	646	}
duke@435	647
coleenp@4037	648	inline Metadata* Dependencies::DepStream::recorded_metadata_at(int i) {
coleenp@4037	649	Metadata* o = NULL;
coleenp@4037	650	if (_code != NULL) {
coleenp@4037	651	o = _code->metadata_at(i);
coleenp@4037	652	} else {
coleenp@4037	653	o = _deps->oop_recorder()->metadata_at(i);
coleenp@4037	654	}
coleenp@4037	655	assert(o == NULL || o->is_metadata(),
coleenp@4037	656	err_msg("Should be perm " PTR_FORMAT, o));
coleenp@4037	657	return o;
coleenp@4037	658	}
coleenp@4037	659
duke@435	660	inline oop Dependencies::DepStream::recorded_oop_at(int i) {
duke@435	661	return (_code != NULL)
duke@435	662	? _code->oop_at(i)
coleenp@4037	663	: JNIHandles::resolve(_deps->oop_recorder()->oop_at(i));
duke@435	664	}
duke@435	665
coleenp@4037	666	Metadata* Dependencies::DepStream::argument(int i) {
coleenp@4037	667	Metadata* result = recorded_metadata_at(argument_index(i));
coleenp@4037	668	assert(result == NULL || result->is_klass() || result->is_method(), "must be");
coleenp@4037	669	return result;
duke@435	670	}
duke@435	671
coleenp@4037	672	oop Dependencies::DepStream::argument_oop(int i) {
coleenp@4037	673	oop result = recorded_oop_at(argument_index(i));
coleenp@4037	674	assert(result == NULL || result->is_oop(), "must be");
coleenp@4037	675	return result;
coleenp@4037	676	}
coleenp@4037	677
coleenp@4037	678	Klass* Dependencies::DepStream::context_type() {
duke@435	679	assert(must_be_in_vm(), "raw oops here");
twisti@3094	680
twisti@3094	681	// Most dependencies have an explicit context type argument.
twisti@3094	682	{
twisti@3094	683	int ctxkj = dep_context_arg(_type); // -1 if no explicit context arg
twisti@3094	684	if (ctxkj >= 0) {
coleenp@4037	685	Metadata* k = argument(ctxkj);
twisti@3094	686	if (k != NULL) { // context type was not compressed away
twisti@3094	687	assert(k->is_klass(), "type check");
coleenp@4037	688	return (Klass*) k;
twisti@3094	689	}
twisti@3094	690	// recompute "default" context type
twisti@3094	691	return ctxk_encoded_as_null(_type, argument(ctxkj+1));
twisti@3094	692	}
twisti@3094	693	}
twisti@3094	694
twisti@3094	695	// Some dependencies are using the klass of the first object
twisti@3094	696	// argument as implicit context type (e.g. call_site_target_value).
twisti@3094	697	{
twisti@3094	698	int ctxkj = dep_implicit_context_arg(_type);
twisti@3094	699	if (ctxkj >= 0) {
coleenp@4037	700	Klass* k = argument_oop(ctxkj)->klass();
duke@435	701	assert(k->is_klass(), "type check");
coleenp@4037	702	return (Klass*) k;
duke@435	703	}
duke@435	704	}
twisti@3094	705
twisti@3094	706	// And some dependencies don't have a context type at all,
twisti@3094	707	// e.g. evol_method.
twisti@3094	708	return NULL;
duke@435	709	}
duke@435	710
duke@435	711	/// Checking dependencies:
duke@435	712
duke@435	713	// This hierarchy walker inspects subtypes of a given type,
duke@435	714	// trying to find a "bad" class which breaks a dependency.
duke@435	715	// Such a class is called a "witness" to the broken dependency.
duke@435	716	// While searching around, we ignore "participants", which
duke@435	717	// are already known to the dependency.
duke@435	718	class ClassHierarchyWalker {
duke@435	719	public:
duke@435	720	enum { PARTICIPANT_LIMIT = 3 };
duke@435	721
duke@435	722	private:
duke@435	723	// optional method descriptor to check for:
coleenp@2497	724	Symbol* _name;
coleenp@2497	725	Symbol* _signature;
duke@435	726
duke@435	727	// special classes which are not allowed to be witnesses:
coleenp@4037	728	Klass* _participants[PARTICIPANT_LIMIT+1];
duke@435	729	int _num_participants;
duke@435	730
duke@435	731	// cache of method lookups
coleenp@4037	732	Method* _found_methods[PARTICIPANT_LIMIT+1];
duke@435	733
duke@435	734	// if non-zero, tells how many witnesses to convert to participants
duke@435	735	int _record_witnesses;
duke@435	736
coleenp@4037	737	void initialize(Klass* participant) {
duke@435	738	_record_witnesses = 0;
duke@435	739	_participants[0] = participant;
duke@435	740	_found_methods[0] = NULL;
duke@435	741	_num_participants = 0;
duke@435	742	if (participant != NULL) {
duke@435	743	// Terminating NULL.
duke@435	744	_participants[1] = NULL;
duke@435	745	_found_methods[1] = NULL;
duke@435	746	_num_participants = 1;
duke@435	747	}
duke@435	748	}
duke@435	749
coleenp@4037	750	void initialize_from_method(Method* m) {
duke@435	751	assert(m != NULL && m->is_method(), "sanity");
duke@435	752	_name = m->name();
duke@435	753	_signature = m->signature();
duke@435	754	}
duke@435	755
duke@435	756	public:
duke@435	757	// The walker is initialized to recognize certain methods and/or types
duke@435	758	// as friendly participants.
coleenp@4037	759	ClassHierarchyWalker(Klass* participant, Method* m) {
duke@435	760	initialize_from_method(m);
duke@435	761	initialize(participant);
duke@435	762	}
coleenp@4037	763	ClassHierarchyWalker(Method* m) {
duke@435	764	initialize_from_method(m);
duke@435	765	initialize(NULL);
duke@435	766	}
coleenp@4037	767	ClassHierarchyWalker(Klass* participant = NULL) {
duke@435	768	_name = NULL;
duke@435	769	_signature = NULL;
duke@435	770	initialize(participant);
duke@435	771	}
duke@435	772
duke@435	773	// This is common code for two searches: One for concrete subtypes,
duke@435	774	// the other for concrete method implementations and overrides.
duke@435	775	bool doing_subtype_search() {
duke@435	776	return _name == NULL;
duke@435	777	}
duke@435	778
duke@435	779	int num_participants() { return _num_participants; }
coleenp@4037	780	Klass* participant(int n) {
duke@435	781	assert((uint)n <= (uint)_num_participants, "oob");
duke@435	782	return _participants[n];
duke@435	783	}
duke@435	784
duke@435	785	// Note: If n==num_participants, returns NULL.
coleenp@4037	786	Method* found_method(int n) {
duke@435	787	assert((uint)n <= (uint)_num_participants, "oob");
coleenp@4037	788	Method* fm = _found_methods[n];
duke@435	789	assert(n == _num_participants || fm != NULL, "proper usage");
duke@435	790	assert(fm == NULL || fm->method_holder() == _participants[n], "sanity");
duke@435	791	return fm;
duke@435	792	}
duke@435	793
duke@435	794	#ifdef ASSERT
duke@435	795	// Assert that m is inherited into ctxk, without intervening overrides.
duke@435	796	// (May return true even if this is not true, in corner cases where we punt.)
coleenp@4037	797	bool check_method_context(Klass* ctxk, Method* m) {
duke@435	798	if (m->method_holder() == ctxk)
duke@435	799	return true; // Quick win.
duke@435	800	if (m->is_private())
duke@435	801	return false; // Quick lose. Should not happen.
duke@435	802	if (!(m->is_public() || m->is_protected()))
duke@435	803	// The override story is complex when packages get involved.
duke@435	804	return true; // Must punt the assertion to true.
duke@435	805	Klass* k = Klass::cast(ctxk);
coleenp@4037	806	Method* lm = k->lookup_method(m->name(), m->signature());
duke@435	807	if (lm == NULL && k->oop_is_instance()) {
duke@435	808	// It might be an abstract interface method, devoid of mirandas.
coleenp@4037	809	lm = ((InstanceKlass*)k)->lookup_method_in_all_interfaces(m->name(),
duke@435	810	m->signature());
duke@435	811	}
duke@435	812	if (lm == m)
duke@435	813	// Method m is inherited into ctxk.
duke@435	814	return true;
duke@435	815	if (lm != NULL) {
never@3256	816	if (!(lm->is_public() || lm->is_protected())) {
duke@435	817	// Method is [package-]private, so the override story is complex.
duke@435	818	return true; // Must punt the assertion to true.
never@3256	819	}
never@3256	820	if (lm->is_static()) {
never@3256	821	// Static methods don't override non-static so punt
never@3256	822	return true;
never@3256	823	}
duke@435	824	if ( !Dependencies::is_concrete_method(lm)
duke@435	825	&& !Dependencies::is_concrete_method(m)
duke@435	826	&& Klass::cast(lm->method_holder())->is_subtype_of(m->method_holder()))
duke@435	827	// Method m is overridden by lm, but both are non-concrete.
duke@435	828	return true;
duke@435	829	}
duke@435	830	ResourceMark rm;
duke@435	831	tty->print_cr("Dependency method not found in the associated context:");
duke@435	832	tty->print_cr(" context = %s", Klass::cast(ctxk)->external_name());
duke@435	833	tty->print( " method = "); m->print_short_name(tty); tty->cr();
duke@435	834	if (lm != NULL) {
duke@435	835	tty->print( " found = "); lm->print_short_name(tty); tty->cr();
duke@435	836	}
duke@435	837	return false;
duke@435	838	}
duke@435	839	#endif
duke@435	840
coleenp@4037	841	void add_participant(Klass* participant) {
duke@435	842	assert(_num_participants + _record_witnesses < PARTICIPANT_LIMIT, "oob");
duke@435	843	int np = _num_participants++;
duke@435	844	_participants[np] = participant;
duke@435	845	_participants[np+1] = NULL;
duke@435	846	_found_methods[np+1] = NULL;
duke@435	847	}
duke@435	848
duke@435	849	void record_witnesses(int add) {
duke@435	850	if (add > PARTICIPANT_LIMIT) add = PARTICIPANT_LIMIT;
duke@435	851	assert(_num_participants + add < PARTICIPANT_LIMIT, "oob");
duke@435	852	_record_witnesses = add;
duke@435	853	}
duke@435	854
coleenp@4037	855	bool is_witness(Klass* k) {
duke@435	856	if (doing_subtype_search()) {
duke@435	857	return Dependencies::is_concrete_klass(k);
duke@435	858	} else {
coleenp@4037	859	Method* m = InstanceKlass::cast(k)->find_method(_name, _signature);
duke@435	860	if (m == NULL || !Dependencies::is_concrete_method(m)) return false;
duke@435	861	_found_methods[_num_participants] = m;
duke@435	862	// Note: If add_participant(k) is called,
duke@435	863	// the method m will already be memoized for it.
duke@435	864	return true;
duke@435	865	}
duke@435	866	}
duke@435	867
coleenp@4037	868	bool is_participant(Klass* k) {
duke@435	869	if (k == _participants[0]) {
duke@435	870	return true;
duke@435	871	} else if (_num_participants <= 1) {
duke@435	872	return false;
duke@435	873	} else {
duke@435	874	return in_list(k, &_participants[1]);
duke@435	875	}
duke@435	876	}
coleenp@4037	877	bool ignore_witness(Klass* witness) {
duke@435	878	if (_record_witnesses == 0) {
duke@435	879	return false;
duke@435	880	} else {
duke@435	881	--_record_witnesses;
duke@435	882	add_participant(witness);
duke@435	883	return true;
duke@435	884	}
duke@435	885	}
coleenp@4037	886	static bool in_list(Klass* x, Klass** list) {
duke@435	887	for (int i = 0; ; i++) {
coleenp@4037	888	Klass* y = list[i];
duke@435	889	if (y == NULL) break;
duke@435	890	if (y == x) return true;
duke@435	891	}
duke@435	892	return false; // not in list
duke@435	893	}
duke@435	894
duke@435	895	private:
duke@435	896	// the actual search method:
coleenp@4037	897	Klass* find_witness_anywhere(Klass* context_type,
duke@435	898	bool participants_hide_witnesses,
duke@435	899	bool top_level_call = true);
duke@435	900	// the spot-checking version:
coleenp@4037	901	Klass* find_witness_in(KlassDepChange& changes,
coleenp@4037	902	Klass* context_type,
duke@435	903	bool participants_hide_witnesses);
duke@435	904	public:
coleenp@4037	905	Klass* find_witness_subtype(Klass* context_type, KlassDepChange* changes = NULL) {
duke@435	906	assert(doing_subtype_search(), "must set up a subtype search");
duke@435	907	// When looking for unexpected concrete types,
duke@435	908	// do not look beneath expected ones.
duke@435	909	const bool participants_hide_witnesses = true;
duke@435	910	// CX > CC > C' is OK, even if C' is new.
duke@435	911	// CX > { CC, C' } is not OK if C' is new, and C' is the witness.
duke@435	912	if (changes != NULL) {
duke@435	913	return find_witness_in(*changes, context_type, participants_hide_witnesses);
duke@435	914	} else {
duke@435	915	return find_witness_anywhere(context_type, participants_hide_witnesses);
duke@435	916	}
duke@435	917	}
coleenp@4037	918	Klass* find_witness_definer(Klass* context_type, KlassDepChange* changes = NULL) {
duke@435	919	assert(!doing_subtype_search(), "must set up a method definer search");
duke@435	920	// When looking for unexpected concrete methods,
duke@435	921	// look beneath expected ones, to see if there are overrides.
duke@435	922	const bool participants_hide_witnesses = true;
duke@435	923	// CX.m > CC.m > C'.m is not OK, if C'.m is new, and C' is the witness.
duke@435	924	if (changes != NULL) {
duke@435	925	return find_witness_in(*changes, context_type, !participants_hide_witnesses);
duke@435	926	} else {
duke@435	927	return find_witness_anywhere(context_type, !participants_hide_witnesses);
duke@435	928	}
duke@435	929	}
duke@435	930	};
duke@435	931
duke@435	932	#ifndef PRODUCT
duke@435	933	static int deps_find_witness_calls = 0;
duke@435	934	static int deps_find_witness_steps = 0;
duke@435	935	static int deps_find_witness_recursions = 0;
duke@435	936	static int deps_find_witness_singles = 0;
duke@435	937	static int deps_find_witness_print = 0; // set to -1 to force a final print
duke@435	938	static bool count_find_witness_calls() {
duke@435	939	if (TraceDependencies || LogCompilation) {
duke@435	940	int pcount = deps_find_witness_print + 1;
duke@435	941	bool final_stats = (pcount == 0);
duke@435	942	bool initial_call = (pcount == 1);
duke@435	943	bool occasional_print = ((pcount & ((1<<10) - 1)) == 0);
duke@435	944	if (pcount < 0) pcount = 1; // crude overflow protection
duke@435	945	deps_find_witness_print = pcount;
duke@435	946	if (VerifyDependencies && initial_call) {
duke@435	947	tty->print_cr("Warning: TraceDependencies results may be inflated by VerifyDependencies");
duke@435	948	}
duke@435	949	if (occasional_print || final_stats) {
duke@435	950	// Every now and then dump a little info about dependency searching.
duke@435	951	if (xtty != NULL) {
kvn@1641	952	ttyLocker ttyl;
kvn@1641	953	xtty->elem("deps_find_witness calls='%d' steps='%d' recursions='%d' singles='%d'",
duke@435	954	deps_find_witness_calls,
duke@435	955	deps_find_witness_steps,
duke@435	956	deps_find_witness_recursions,
duke@435	957	deps_find_witness_singles);
duke@435	958	}
duke@435	959	if (final_stats || (TraceDependencies && WizardMode)) {
kvn@1641	960	ttyLocker ttyl;
duke@435	961	tty->print_cr("Dependency check (find_witness) "
duke@435	962	"calls=%d, steps=%d (avg=%.1f), recursions=%d, singles=%d",
duke@435	963	deps_find_witness_calls,
duke@435	964	deps_find_witness_steps,
duke@435	965	(double)deps_find_witness_steps / deps_find_witness_calls,
duke@435	966	deps_find_witness_recursions,
duke@435	967	deps_find_witness_singles);
duke@435	968	}
duke@435	969	}
duke@435	970	return true;
duke@435	971	}
duke@435	972	return false;
duke@435	973	}
duke@435	974	#else
duke@435	975	#define count_find_witness_calls() (0)
duke@435	976	#endif //PRODUCT
duke@435	977
duke@435	978
coleenp@4037	979	Klass* ClassHierarchyWalker::find_witness_in(KlassDepChange& changes,
coleenp@4037	980	Klass* context_type,
duke@435	981	bool participants_hide_witnesses) {
duke@435	982	assert(changes.involves_context(context_type), "irrelevant dependency");
coleenp@4037	983	Klass* new_type = changes.new_type();
duke@435	984
duke@435	985	count_find_witness_calls();
duke@435	986	NOT_PRODUCT(deps_find_witness_singles++);
duke@435	987
duke@435	988	// Current thread must be in VM (not native mode, as in CI):
duke@435	989	assert(must_be_in_vm(), "raw oops here");
duke@435	990	// Must not move the class hierarchy during this check:
duke@435	991	assert_locked_or_safepoint(Compile_lock);
duke@435	992
coleenp@4037	993	int nof_impls = InstanceKlass::cast(context_type)->nof_implementors();
jrose@465	994	if (nof_impls > 1) {
jrose@465	995	// Avoid this case: *I.m > { A.m, C }; B.m > C
jrose@465	996	// %%% Until this is fixed more systematically, bail out.
jrose@465	997	// See corresponding comment in find_witness_anywhere.
jrose@465	998	return context_type;
jrose@465	999	}
jrose@465	1000
duke@435	1001	assert(!is_participant(new_type), "only old classes are participants");
duke@435	1002	if (participants_hide_witnesses) {
duke@435	1003	// If the new type is a subtype of a participant, we are done.
duke@435	1004	for (int i = 0; i < num_participants(); i++) {
coleenp@4037	1005	Klass* part = participant(i);
duke@435	1006	if (part == NULL) continue;
duke@435	1007	assert(changes.involves_context(part) == Klass::cast(new_type)->is_subtype_of(part),
duke@435	1008	"correct marking of participants, b/c new_type is unique");
duke@435	1009	if (changes.involves_context(part)) {
duke@435	1010	// new guy is protected from this check by previous participant
duke@435	1011	return NULL;
duke@435	1012	}
duke@435	1013	}
duke@435	1014	}
duke@435	1015
duke@435	1016	if (is_witness(new_type) &&
duke@435	1017	!ignore_witness(new_type)) {
duke@435	1018	return new_type;
duke@435	1019	}
duke@435	1020
duke@435	1021	return NULL;
duke@435	1022	}
duke@435	1023
duke@435	1024
duke@435	1025	// Walk hierarchy under a context type, looking for unexpected types.
duke@435	1026	// Do not report participant types, and recursively walk beneath
duke@435	1027	// them only if participants_hide_witnesses is false.
duke@435	1028	// If top_level_call is false, skip testing the context type,
duke@435	1029	// because the caller has already considered it.
coleenp@4037	1030	Klass* ClassHierarchyWalker::find_witness_anywhere(Klass* context_type,
duke@435	1031	bool participants_hide_witnesses,
duke@435	1032	bool top_level_call) {
duke@435	1033	// Current thread must be in VM (not native mode, as in CI):
duke@435	1034	assert(must_be_in_vm(), "raw oops here");
duke@435	1035	// Must not move the class hierarchy during this check:
duke@435	1036	assert_locked_or_safepoint(Compile_lock);
duke@435	1037
duke@435	1038	bool do_counts = count_find_witness_calls();
duke@435	1039
duke@435	1040	// Check the root of the sub-hierarchy first.
duke@435	1041	if (top_level_call) {
duke@435	1042	if (do_counts) {
duke@435	1043	NOT_PRODUCT(deps_find_witness_calls++);
duke@435	1044	NOT_PRODUCT(deps_find_witness_steps++);
duke@435	1045	}
duke@435	1046	if (is_participant(context_type)) {
duke@435	1047	if (participants_hide_witnesses) return NULL;
duke@435	1048	// else fall through to search loop...
duke@435	1049	} else if (is_witness(context_type) && !ignore_witness(context_type)) {
duke@435	1050	// The context is an abstract class or interface, to start with.
duke@435	1051	return context_type;
duke@435	1052	}
duke@435	1053	}
duke@435	1054
duke@435	1055	// Now we must check each implementor and each subclass.
duke@435	1056	// Use a short worklist to avoid blowing the stack.
duke@435	1057	// Each worklist entry is a *chain* of subklass siblings to process.
coleenp@4037	1058	const int CHAINMAX = 100; // >= 1 + InstanceKlass::implementors_limit
duke@435	1059	Klass* chains[CHAINMAX];
duke@435	1060	int chaini = 0; // index into worklist
duke@435	1061	Klass* chain; // scratch variable
duke@435	1062	#define ADD_SUBCLASS_CHAIN(k) { \
duke@435	1063	assert(chaini < CHAINMAX, "oob"); \
coleenp@4037	1064	chain = InstanceKlass::cast(k)->subklass(); \
duke@435	1065	if (chain != NULL) chains[chaini++] = chain; }
duke@435	1066
duke@435	1067	// Look for non-abstract subclasses.
duke@435	1068	// (Note: Interfaces do not have subclasses.)
duke@435	1069	ADD_SUBCLASS_CHAIN(context_type);
duke@435	1070
duke@435	1071	// If it is an interface, search its direct implementors.
duke@435	1072	// (Their subclasses are additional indirect implementors.
coleenp@4037	1073	// See InstanceKlass::add_implementor.)
duke@435	1074	// (Note: nof_implementors is always zero for non-interfaces.)
coleenp@4037	1075	int nof_impls = InstanceKlass::cast(context_type)->nof_implementors();
duke@435	1076	if (nof_impls > 1) {
duke@435	1077	// Avoid this case: *I.m > { A.m, C }; B.m > C
duke@435	1078	// Here, I.m has 2 concrete implementations, but m appears unique
duke@435	1079	// as A.m, because the search misses B.m when checking C.
duke@435	1080	// The inherited method B.m was getting missed by the walker
duke@435	1081	// when interface 'I' was the starting point.
duke@435	1082	// %%% Until this is fixed more systematically, bail out.
duke@435	1083	// (Old CHA had the same limitation.)
duke@435	1084	return context_type;
duke@435	1085	}
jiangli@3701	1086	if (nof_impls > 0) {
coleenp@4037	1087	Klass* impl = InstanceKlass::cast(context_type)->implementor();
jiangli@3701	1088	assert(impl != NULL, "just checking");
jiangli@3701	1089	// If impl is the same as the context_type, then more than one
jiangli@3701	1090	// implementor has seen. No exact info in this case.
jiangli@3701	1091	if (impl == context_type) {
duke@435	1092	return context_type; // report an inexact witness to this sad affair
duke@435	1093	}
duke@435	1094	if (do_counts)
duke@435	1095	{ NOT_PRODUCT(deps_find_witness_steps++); }
duke@435	1096	if (is_participant(impl)) {
jiangli@3701	1097	if (!participants_hide_witnesses) {
jiangli@3701	1098	ADD_SUBCLASS_CHAIN(impl);
jiangli@3701	1099	}
duke@435	1100	} else if (is_witness(impl) && !ignore_witness(impl)) {
duke@435	1101	return impl;
jiangli@3701	1102	} else {
jiangli@3701	1103	ADD_SUBCLASS_CHAIN(impl);
duke@435	1104	}
duke@435	1105	}
duke@435	1106
duke@435	1107	// Recursively process each non-trivial sibling chain.
duke@435	1108	while (chaini > 0) {
duke@435	1109	Klass* chain = chains[--chaini];
coleenp@4037	1110	for (Klass* sub = chain; sub != NULL; sub = sub->next_sibling()) {
duke@435	1111	if (do_counts) { NOT_PRODUCT(deps_find_witness_steps++); }
duke@435	1112	if (is_participant(sub)) {
duke@435	1113	if (participants_hide_witnesses) continue;
duke@435	1114	// else fall through to process this guy's subclasses
duke@435	1115	} else if (is_witness(sub) && !ignore_witness(sub)) {
duke@435	1116	return sub;
duke@435	1117	}
duke@435	1118	if (chaini < (VerifyDependencies? 2: CHAINMAX)) {
duke@435	1119	// Fast path. (Partially disabled if VerifyDependencies.)
duke@435	1120	ADD_SUBCLASS_CHAIN(sub);
duke@435	1121	} else {
duke@435	1122	// Worklist overflow. Do a recursive call. Should be rare.
duke@435	1123	// The recursive call will have its own worklist, of course.
duke@435	1124	// (Note that sub has already been tested, so that there is
duke@435	1125	// no need for the recursive call to re-test. That's handy,
duke@435	1126	// since the recursive call sees sub as the context_type.)
duke@435	1127	if (do_counts) { NOT_PRODUCT(deps_find_witness_recursions++); }
coleenp@4037	1128	Klass* witness = find_witness_anywhere(sub,
duke@435	1129	participants_hide_witnesses,
duke@435	1130	/*top_level_call=*/ false);
duke@435	1131	if (witness != NULL) return witness;
duke@435	1132	}
duke@435	1133	}
duke@435	1134	}
duke@435	1135
duke@435	1136	// No witness found. The dependency remains unbroken.
duke@435	1137	return NULL;
duke@435	1138	#undef ADD_SUBCLASS_CHAIN
duke@435	1139	}
duke@435	1140
duke@435	1141
coleenp@4037	1142	bool Dependencies::is_concrete_klass(Klass* k) {
duke@435	1143	if (Klass::cast(k)->is_abstract()) return false;
duke@435	1144	// %%% We could treat classes which are concrete but
duke@435	1145	// have not yet been instantiated as virtually abstract.
duke@435	1146	// This would require a deoptimization barrier on first instantiation.
duke@435	1147	//if (k->is_not_instantiated()) return false;
duke@435	1148	return true;
duke@435	1149	}
duke@435	1150
coleenp@4037	1151	bool Dependencies::is_concrete_method(Method* m) {
never@3256	1152	// Statics are irrelevant to virtual call sites.
never@3256	1153	if (m->is_static()) return false;
never@3256	1154
never@3256	1155	// We could also return false if m does not yet appear to be
never@3256	1156	// executed, if the VM version supports this distinction also.
duke@435	1157	return !m->is_abstract();
duke@435	1158	}
duke@435	1159
duke@435	1160
duke@435	1161	Klass* Dependencies::find_finalizable_subclass(Klass* k) {
duke@435	1162	if (k->is_interface()) return NULL;
duke@435	1163	if (k->has_finalizer()) return k;
duke@435	1164	k = k->subklass();
duke@435	1165	while (k != NULL) {
duke@435	1166	Klass* result = find_finalizable_subclass(k);
duke@435	1167	if (result != NULL) return result;
duke@435	1168	k = k->next_sibling();
duke@435	1169	}
duke@435	1170	return NULL;
duke@435	1171	}
duke@435	1172
duke@435	1173
duke@435	1174	bool Dependencies::is_concrete_klass(ciInstanceKlass* k) {
duke@435	1175	if (k->is_abstract()) return false;
never@3256	1176	// We could also return false if k does not yet appear to be
duke@435	1177	// instantiated, if the VM version supports this distinction also.
duke@435	1178	//if (k->is_not_instantiated()) return false;
duke@435	1179	return true;
duke@435	1180	}
duke@435	1181
duke@435	1182	bool Dependencies::is_concrete_method(ciMethod* m) {
duke@435	1183	// Statics are irrelevant to virtual call sites.
duke@435	1184	if (m->is_static()) return false;
duke@435	1185
never@3256	1186	// We could also return false if m does not yet appear to be
duke@435	1187	// executed, if the VM version supports this distinction also.
duke@435	1188	return !m->is_abstract();
duke@435	1189	}
duke@435	1190
duke@435	1191
duke@435	1192	bool Dependencies::has_finalizable_subclass(ciInstanceKlass* k) {
duke@435	1193	return k->has_finalizable_subclass();
duke@435	1194	}
duke@435	1195
duke@435	1196
duke@435	1197	// Any use of the contents (bytecodes) of a method must be
duke@435	1198	// marked by an "evol_method" dependency, if those contents
duke@435	1199	// can change. (Note: A method is always dependent on itself.)
coleenp@4037	1200	Klass* Dependencies::check_evol_method(Method* m) {
duke@435	1201	assert(must_be_in_vm(), "raw oops here");
duke@435	1202	// Did somebody do a JVMTI RedefineClasses while our backs were turned?
duke@435	1203	// Or is there a now a breakpoint?
duke@435	1204	// (Assumes compiled code cannot handle bkpts; change if UseFastBreakpoints.)
duke@435	1205	if (m->is_old()
duke@435	1206	|| m->number_of_breakpoints() > 0) {
duke@435	1207	return m->method_holder();
duke@435	1208	} else {
duke@435	1209	return NULL;
duke@435	1210	}
duke@435	1211	}
duke@435	1212
duke@435	1213	// This is a strong assertion: It is that the given type
duke@435	1214	// has no subtypes whatever. It is most useful for
duke@435	1215	// optimizing checks on reflected types or on array types.
duke@435	1216	// (Checks on types which are derived from real instances
duke@435	1217	// can be optimized more strongly than this, because we
duke@435	1218	// know that the checked type comes from a concrete type,
duke@435	1219	// and therefore we can disregard abstract types.)
coleenp@4037	1220	Klass* Dependencies::check_leaf_type(Klass* ctxk) {
duke@435	1221	assert(must_be_in_vm(), "raw oops here");
duke@435	1222	assert_locked_or_safepoint(Compile_lock);
coleenp@4037	1223	InstanceKlass* ctx = InstanceKlass::cast(ctxk);
duke@435	1224	Klass* sub = ctx->subklass();
duke@435	1225	if (sub != NULL) {
coleenp@4037	1226	return sub;
duke@435	1227	} else if (ctx->nof_implementors() != 0) {
duke@435	1228	// if it is an interface, it must be unimplemented
duke@435	1229	// (if it is not an interface, nof_implementors is always zero)
coleenp@4037	1230	Klass* impl = ctx->implementor();
jiangli@3701	1231	assert(impl != NULL, "must be set");
jiangli@3701	1232	return impl;
duke@435	1233	} else {
duke@435	1234	return NULL;
duke@435	1235	}
duke@435	1236	}
duke@435	1237
duke@435	1238	// Test the assertion that conck is the only concrete subtype* of ctxk.
duke@435	1239	// The type conck itself is allowed to have have further concrete subtypes.
duke@435	1240	// This allows the compiler to narrow occurrences of ctxk by conck,
duke@435	1241	// when dealing with the types of actual instances.
coleenp@4037	1242	Klass* Dependencies::check_abstract_with_unique_concrete_subtype(Klass* ctxk,
coleenp@4037	1243	Klass* conck,
twisti@3050	1244	KlassDepChange* changes) {
duke@435	1245	ClassHierarchyWalker wf(conck);
duke@435	1246	return wf.find_witness_subtype(ctxk, changes);
duke@435	1247	}
duke@435	1248
duke@435	1249	// If a non-concrete class has no concrete subtypes, it is not (yet)
duke@435	1250	// instantiatable. This can allow the compiler to make some paths go
duke@435	1251	// dead, if they are gated by a test of the type.
coleenp@4037	1252	Klass* Dependencies::check_abstract_with_no_concrete_subtype(Klass* ctxk,
twisti@3050	1253	KlassDepChange* changes) {
duke@435	1254	// Find any concrete subtype, with no participants:
duke@435	1255	ClassHierarchyWalker wf;
duke@435	1256	return wf.find_witness_subtype(ctxk, changes);
duke@435	1257	}
duke@435	1258
duke@435	1259
duke@435	1260	// If a concrete class has no concrete subtypes, it can always be
duke@435	1261	// exactly typed. This allows the use of a cheaper type test.
coleenp@4037	1262	Klass* Dependencies::check_concrete_with_no_concrete_subtype(Klass* ctxk,
twisti@3050	1263	KlassDepChange* changes) {
duke@435	1264	// Find any concrete subtype, with only the ctxk as participant:
duke@435	1265	ClassHierarchyWalker wf(ctxk);
duke@435	1266	return wf.find_witness_subtype(ctxk, changes);
duke@435	1267	}
duke@435	1268
duke@435	1269
duke@435	1270	// Find the unique concrete proper subtype of ctxk, or NULL if there
duke@435	1271	// is more than one concrete proper subtype. If there are no concrete
duke@435	1272	// proper subtypes, return ctxk itself, whether it is concrete or not.
duke@435	1273	// The returned subtype is allowed to have have further concrete subtypes.
duke@435	1274	// That is, return CC1 for CX > CC1 > CC2, but NULL for CX > { CC1, CC2 }.
coleenp@4037	1275	Klass* Dependencies::find_unique_concrete_subtype(Klass* ctxk) {
duke@435	1276	ClassHierarchyWalker wf(ctxk); // Ignore ctxk when walking.
duke@435	1277	wf.record_witnesses(1); // Record one other witness when walking.
coleenp@4037	1278	Klass* wit = wf.find_witness_subtype(ctxk);
duke@435	1279	if (wit != NULL) return NULL; // Too many witnesses.
coleenp@4037	1280	Klass* conck = wf.participant(0);
duke@435	1281	if (conck == NULL) {
duke@435	1282	#ifndef PRODUCT
duke@435	1283	// Make sure the dependency mechanism will pass this discovery:
duke@435	1284	if (VerifyDependencies) {
duke@435	1285	// Turn off dependency tracing while actually testing deps.
duke@435	1286	FlagSetting fs(TraceDependencies, false);
duke@435	1287	if (!Dependencies::is_concrete_klass(ctxk)) {
duke@435	1288	guarantee(NULL ==
duke@435	1289	(void *)check_abstract_with_no_concrete_subtype(ctxk),
duke@435	1290	"verify dep.");
duke@435	1291	} else {
duke@435	1292	guarantee(NULL ==
duke@435	1293	(void *)check_concrete_with_no_concrete_subtype(ctxk),
duke@435	1294	"verify dep.");
duke@435	1295	}
duke@435	1296	}
duke@435	1297	#endif //PRODUCT
duke@435	1298	return ctxk; // Return ctxk as a flag for "no subtypes".
duke@435	1299	} else {
duke@435	1300	#ifndef PRODUCT
duke@435	1301	// Make sure the dependency mechanism will pass this discovery:
duke@435	1302	if (VerifyDependencies) {
duke@435	1303	// Turn off dependency tracing while actually testing deps.
duke@435	1304	FlagSetting fs(TraceDependencies, false);
duke@435	1305	if (!Dependencies::is_concrete_klass(ctxk)) {
duke@435	1306	guarantee(NULL == (void *)
duke@435	1307	check_abstract_with_unique_concrete_subtype(ctxk, conck),
duke@435	1308	"verify dep.");
duke@435	1309	}
duke@435	1310	}
duke@435	1311	#endif //PRODUCT
duke@435	1312	return conck;
duke@435	1313	}
duke@435	1314	}
duke@435	1315
duke@435	1316	// Test the assertion that the k[12] are the only concrete subtypes of ctxk,
duke@435	1317	// except possibly for further subtypes of k[12] themselves.
duke@435	1318	// The context type must be abstract. The types k1 and k2 are themselves
duke@435	1319	// allowed to have further concrete subtypes.
coleenp@4037	1320	Klass* Dependencies::check_abstract_with_exclusive_concrete_subtypes(
coleenp@4037	1321	Klass* ctxk,
coleenp@4037	1322	Klass* k1,
coleenp@4037	1323	Klass* k2,
twisti@3050	1324	KlassDepChange* changes) {
duke@435	1325	ClassHierarchyWalker wf;
duke@435	1326	wf.add_participant(k1);
duke@435	1327	wf.add_participant(k2);
duke@435	1328	return wf.find_witness_subtype(ctxk, changes);
duke@435	1329	}
duke@435	1330
duke@435	1331	// Search ctxk for concrete implementations. If there are klen or fewer,
duke@435	1332	// pack them into the given array and return the number.
duke@435	1333	// Otherwise, return -1, meaning the given array would overflow.
duke@435	1334	// (Note that a return of 0 means there are exactly no concrete subtypes.)
duke@435	1335	// In this search, if ctxk is concrete, it will be reported alone.
duke@435	1336	// For any type CC reported, no proper subtypes of CC will be reported.
coleenp@4037	1337	int Dependencies::find_exclusive_concrete_subtypes(Klass* ctxk,
duke@435	1338	int klen,
coleenp@4037	1339	Klass* karray[]) {
duke@435	1340	ClassHierarchyWalker wf;
duke@435	1341	wf.record_witnesses(klen);
coleenp@4037	1342	Klass* wit = wf.find_witness_subtype(ctxk);
duke@435	1343	if (wit != NULL) return -1; // Too many witnesses.
duke@435	1344	int num = wf.num_participants();
duke@435	1345	assert(num <= klen, "oob");
duke@435	1346	// Pack the result array with the good news.
duke@435	1347	for (int i = 0; i < num; i++)
duke@435	1348	karray[i] = wf.participant(i);
duke@435	1349	#ifndef PRODUCT
duke@435	1350	// Make sure the dependency mechanism will pass this discovery:
duke@435	1351	if (VerifyDependencies) {
duke@435	1352	// Turn off dependency tracing while actually testing deps.
duke@435	1353	FlagSetting fs(TraceDependencies, false);
duke@435	1354	switch (Dependencies::is_concrete_klass(ctxk)? -1: num) {
duke@435	1355	case -1: // ctxk was itself concrete
duke@435	1356	guarantee(num == 1 && karray[0] == ctxk, "verify dep.");
duke@435	1357	break;
duke@435	1358	case 0:
duke@435	1359	guarantee(NULL == (void *)check_abstract_with_no_concrete_subtype(ctxk),
duke@435	1360	"verify dep.");
duke@435	1361	break;
duke@435	1362	case 1:
duke@435	1363	guarantee(NULL == (void *)
duke@435	1364	check_abstract_with_unique_concrete_subtype(ctxk, karray[0]),
duke@435	1365	"verify dep.");
duke@435	1366	break;
duke@435	1367	case 2:
duke@435	1368	guarantee(NULL == (void *)
duke@435	1369	check_abstract_with_exclusive_concrete_subtypes(ctxk,
duke@435	1370	karray[0],
duke@435	1371	karray[1]),
duke@435	1372	"verify dep.");
duke@435	1373	break;
duke@435	1374	default:
duke@435	1375	ShouldNotReachHere(); // klen > 2 yet supported
duke@435	1376	}
duke@435	1377	}
duke@435	1378	#endif //PRODUCT
duke@435	1379	return num;
duke@435	1380	}
duke@435	1381
duke@435	1382	// If a class (or interface) has a unique concrete method uniqm, return NULL.
duke@435	1383	// Otherwise, return a class that contains an interfering method.
coleenp@4037	1384	Klass* Dependencies::check_unique_concrete_method(Klass* ctxk, Method* uniqm,
twisti@3050	1385	KlassDepChange* changes) {
duke@435	1386	// Here is a missing optimization: If uniqm->is_final(),
duke@435	1387	// we don't really need to search beneath it for overrides.
duke@435	1388	// This is probably not important, since we don't use dependencies
duke@435	1389	// to track final methods. (They can't be "definalized".)
duke@435	1390	ClassHierarchyWalker wf(uniqm->method_holder(), uniqm);
duke@435	1391	return wf.find_witness_definer(ctxk, changes);
duke@435	1392	}
duke@435	1393
duke@435	1394	// Find the set of all non-abstract methods under ctxk that match m.
duke@435	1395	// (The method m must be defined or inherited in ctxk.)
duke@435	1396	// Include m itself in the set, unless it is abstract.
duke@435	1397	// If this set has exactly one element, return that element.
coleenp@4037	1398	Method* Dependencies::find_unique_concrete_method(Klass* ctxk, Method* m) {
duke@435	1399	ClassHierarchyWalker wf(m);
duke@435	1400	assert(wf.check_method_context(ctxk, m), "proper context");
duke@435	1401	wf.record_witnesses(1);
coleenp@4037	1402	Klass* wit = wf.find_witness_definer(ctxk);
duke@435	1403	if (wit != NULL) return NULL; // Too many witnesses.
coleenp@4037	1404	Method* fm = wf.found_method(0); // Will be NULL if num_parts == 0.
duke@435	1405	if (Dependencies::is_concrete_method(m)) {
duke@435	1406	if (fm == NULL) {
duke@435	1407	// It turns out that m was always the only implementation.
duke@435	1408	fm = m;
duke@435	1409	} else if (fm != m) {
duke@435	1410	// Two conflicting implementations after all.
duke@435	1411	// (This can happen if m is inherited into ctxk and fm overrides it.)
duke@435	1412	return NULL;
duke@435	1413	}
duke@435	1414	}
duke@435	1415	#ifndef PRODUCT
duke@435	1416	// Make sure the dependency mechanism will pass this discovery:
duke@435	1417	if (VerifyDependencies && fm != NULL) {
duke@435	1418	guarantee(NULL == (void *)check_unique_concrete_method(ctxk, fm),
duke@435	1419	"verify dep.");
duke@435	1420	}
duke@435	1421	#endif //PRODUCT
duke@435	1422	return fm;
duke@435	1423	}
duke@435	1424
coleenp@4037	1425	Klass* Dependencies::check_exclusive_concrete_methods(Klass* ctxk,
coleenp@4037	1426	Method* m1,
coleenp@4037	1427	Method* m2,
twisti@3050	1428	KlassDepChange* changes) {
duke@435	1429	ClassHierarchyWalker wf(m1);
duke@435	1430	wf.add_participant(m1->method_holder());
duke@435	1431	wf.add_participant(m2->method_holder());
duke@435	1432	return wf.find_witness_definer(ctxk, changes);
duke@435	1433	}
duke@435	1434
duke@435	1435	// Find the set of all non-abstract methods under ctxk that match m[0].
duke@435	1436	// (The method m[0] must be defined or inherited in ctxk.)
duke@435	1437	// Include m itself in the set, unless it is abstract.
duke@435	1438	// Fill the given array m[0..(mlen-1)] with this set, and return the length.
duke@435	1439	// (The length may be zero if no concrete methods are found anywhere.)
duke@435	1440	// If there are too many concrete methods to fit in marray, return -1.
coleenp@4037	1441	int Dependencies::find_exclusive_concrete_methods(Klass* ctxk,
duke@435	1442	int mlen,
coleenp@4037	1443	Method* marray[]) {
coleenp@4037	1444	Method* m0 = marray[0];
duke@435	1445	ClassHierarchyWalker wf(m0);
duke@435	1446	assert(wf.check_method_context(ctxk, m0), "proper context");
duke@435	1447	wf.record_witnesses(mlen);
duke@435	1448	bool participants_hide_witnesses = true;
coleenp@4037	1449	Klass* wit = wf.find_witness_definer(ctxk);
duke@435	1450	if (wit != NULL) return -1; // Too many witnesses.
duke@435	1451	int num = wf.num_participants();
duke@435	1452	assert(num <= mlen, "oob");
duke@435	1453	// Keep track of whether m is also part of the result set.
duke@435	1454	int mfill = 0;
duke@435	1455	assert(marray[mfill] == m0, "sanity");
duke@435	1456	if (Dependencies::is_concrete_method(m0))
duke@435	1457	mfill++; // keep m0 as marray[0], the first result
duke@435	1458	for (int i = 0; i < num; i++) {
coleenp@4037	1459	Method* fm = wf.found_method(i);
duke@435	1460	if (fm == m0) continue; // Already put this guy in the list.
duke@435	1461	if (mfill == mlen) {
duke@435	1462	return -1; // Oops. Too many methods after all!
duke@435	1463	}
duke@435	1464	marray[mfill++] = fm;
duke@435	1465	}
duke@435	1466	#ifndef PRODUCT
duke@435	1467	// Make sure the dependency mechanism will pass this discovery:
duke@435	1468	if (VerifyDependencies) {
duke@435	1469	// Turn off dependency tracing while actually testing deps.
duke@435	1470	FlagSetting fs(TraceDependencies, false);
duke@435	1471	switch (mfill) {
duke@435	1472	case 1:
duke@435	1473	guarantee(NULL == (void *)check_unique_concrete_method(ctxk, marray[0]),
duke@435	1474	"verify dep.");
duke@435	1475	break;
duke@435	1476	case 2:
duke@435	1477	guarantee(NULL == (void *)
duke@435	1478	check_exclusive_concrete_methods(ctxk, marray[0], marray[1]),
duke@435	1479	"verify dep.");
duke@435	1480	break;
duke@435	1481	default:
duke@435	1482	ShouldNotReachHere(); // mlen > 2 yet supported
duke@435	1483	}
duke@435	1484	}
duke@435	1485	#endif //PRODUCT
duke@435	1486	return mfill;
duke@435	1487	}
duke@435	1488
duke@435	1489
coleenp@4037	1490	Klass* Dependencies::check_has_no_finalizable_subclasses(Klass* ctxk, KlassDepChange* changes) {
coleenp@4037	1491	Klass* search_at = ctxk;
duke@435	1492	if (changes != NULL)
coleenp@4037	1493	search_at = changes->new_type(); // just look at the new bit
coleenp@4037	1494	return find_finalizable_subclass(search_at);
duke@435	1495	}
duke@435	1496
duke@435	1497
coleenp@4037	1498	Klass* Dependencies::check_call_site_target_value(oop call_site, oop method_handle, CallSiteDepChange* changes) {
twisti@3050	1499	assert(call_site ->is_a(SystemDictionary::CallSite_klass()), "sanity");
twisti@3050	1500	assert(method_handle->is_a(SystemDictionary::MethodHandle_klass()), "sanity");
twisti@3050	1501	if (changes == NULL) {
twisti@3050	1502	// Validate all CallSites
twisti@3050	1503	if (java_lang_invoke_CallSite::target(call_site) != method_handle)
twisti@3094	1504	return call_site->klass(); // assertion failed
twisti@3050	1505	} else {
twisti@3050	1506	// Validate the given CallSite
twisti@3050	1507	if (call_site == changes->call_site() && java_lang_invoke_CallSite::target(call_site) != changes->method_handle()) {
twisti@3050	1508	assert(method_handle != changes->method_handle(), "must be");
twisti@3094	1509	return call_site->klass(); // assertion failed
twisti@3050	1510	}
twisti@3050	1511	}
twisti@3050	1512	return NULL; // assertion still valid
twisti@3050	1513	}
twisti@3050	1514
twisti@3050	1515
coleenp@4037	1516	void Dependencies::DepStream::trace_and_log_witness(Klass* witness) {
twisti@3050	1517	if (witness != NULL) {
twisti@3050	1518	if (TraceDependencies) {
twisti@3050	1519	print_dependency(witness, /*verbose=*/ true);
twisti@3050	1520	}
twisti@3050	1521	// The following is a no-op unless logging is enabled:
twisti@3050	1522	log_dependency(witness);
twisti@3050	1523	}
twisti@3050	1524	}
twisti@3050	1525
twisti@3050	1526
coleenp@4037	1527	Klass* Dependencies::DepStream::check_klass_dependency(KlassDepChange* changes) {
duke@435	1528	assert_locked_or_safepoint(Compile_lock);
twisti@3050	1529	Dependencies::check_valid_dependency_type(type());
duke@435	1530
coleenp@4037	1531	Klass* witness = NULL;
duke@435	1532	switch (type()) {
duke@435	1533	case evol_method:
duke@435	1534	witness = check_evol_method(method_argument(0));
duke@435	1535	break;
duke@435	1536	case leaf_type:
duke@435	1537	witness = check_leaf_type(context_type());
duke@435	1538	break;
duke@435	1539	case abstract_with_unique_concrete_subtype:
twisti@3050	1540	witness = check_abstract_with_unique_concrete_subtype(context_type(), type_argument(1), changes);
duke@435	1541	break;
duke@435	1542	case abstract_with_no_concrete_subtype:
twisti@3050	1543	witness = check_abstract_with_no_concrete_subtype(context_type(), changes);
duke@435	1544	break;
duke@435	1545	case concrete_with_no_concrete_subtype:
twisti@3050	1546	witness = check_concrete_with_no_concrete_subtype(context_type(), changes);
duke@435	1547	break;
duke@435	1548	case unique_concrete_method:
twisti@3050	1549	witness = check_unique_concrete_method(context_type(), method_argument(1), changes);
duke@435	1550	break;
duke@435	1551	case abstract_with_exclusive_concrete_subtypes_2:
twisti@3050	1552	witness = check_abstract_with_exclusive_concrete_subtypes(context_type(), type_argument(1), type_argument(2), changes);
duke@435	1553	break;
duke@435	1554	case exclusive_concrete_methods_2:
twisti@3050	1555	witness = check_exclusive_concrete_methods(context_type(), method_argument(1), method_argument(2), changes);
duke@435	1556	break;
duke@435	1557	case no_finalizable_subclasses:
twisti@3050	1558	witness = check_has_no_finalizable_subclasses(context_type(), changes);
duke@435	1559	break;
twisti@3050	1560	default:
duke@435	1561	witness = NULL;
duke@435	1562	break;
duke@435	1563	}
twisti@3050	1564	trace_and_log_witness(witness);
duke@435	1565	return witness;
duke@435	1566	}
duke@435	1567
duke@435	1568
coleenp@4037	1569	Klass* Dependencies::DepStream::check_call_site_dependency(CallSiteDepChange* changes) {
twisti@3050	1570	assert_locked_or_safepoint(Compile_lock);
twisti@3050	1571	Dependencies::check_valid_dependency_type(type());
duke@435	1572
coleenp@4037	1573	Klass* witness = NULL;
twisti@3050	1574	switch (type()) {
twisti@3050	1575	case call_site_target_value:
coleenp@4037	1576	witness = check_call_site_target_value(argument_oop(0), argument_oop(1), changes);
twisti@3050	1577	break;
twisti@3050	1578	default:
twisti@3050	1579	witness = NULL;
twisti@3050	1580	break;
twisti@3050	1581	}
twisti@3050	1582	trace_and_log_witness(witness);
twisti@3050	1583	return witness;
duke@435	1584	}
duke@435	1585
duke@435	1586
coleenp@4037	1587	Klass* Dependencies::DepStream::spot_check_dependency_at(DepChange& changes) {
twisti@3050	1588	// Handle klass dependency
twisti@3050	1589	if (changes.is_klass_change() && changes.as_klass_change()->involves_context(context_type()))
twisti@3050	1590	return check_klass_dependency(changes.as_klass_change());
duke@435	1591
twisti@3050	1592	// Handle CallSite dependency
twisti@3050	1593	if (changes.is_call_site_change())
twisti@3050	1594	return check_call_site_dependency(changes.as_call_site_change());
twisti@3050	1595
twisti@3050	1596	// irrelevant dependency; skip it
twisti@3050	1597	return NULL;
twisti@3050	1598	}
twisti@3050	1599
twisti@3050	1600
twisti@3050	1601	void DepChange::print() {
twisti@3050	1602	int nsup = 0, nint = 0;
duke@435	1603	for (ContextStream str(*this); str.next(); ) {
coleenp@4037	1604	Klass* k = str.klass();
twisti@3050	1605	switch (str.change_type()) {
twisti@3050	1606	case Change_new_type:
coleenp@4037	1607	tty->print_cr(" dependee = %s", InstanceKlass::cast(k)->external_name());
twisti@3050	1608	break;
twisti@3050	1609	case Change_new_sub:
twisti@3050	1610	if (!WizardMode) {
twisti@3050	1611	++nsup;
twisti@3050	1612	} else {
coleenp@4037	1613	tty->print_cr(" context super = %s", InstanceKlass::cast(k)->external_name());
twisti@3050	1614	}
twisti@3050	1615	break;
twisti@3050	1616	case Change_new_impl:
twisti@3050	1617	if (!WizardMode) {
twisti@3050	1618	++nint;
twisti@3050	1619	} else {
coleenp@4037	1620	tty->print_cr(" context interface = %s", InstanceKlass::cast(k)->external_name());
twisti@3050	1621	}
twisti@3050	1622	break;
twisti@3050	1623	}
twisti@3050	1624	}
twisti@3050	1625	if (nsup + nint != 0) {
twisti@3050	1626	tty->print_cr(" context supers = %d, interfaces = %d", nsup, nint);
duke@435	1627	}
duke@435	1628	}
duke@435	1629
twisti@3050	1630	void DepChange::ContextStream::start() {
coleenp@4037	1631	Klass* new_type = _changes.is_klass_change() ? _changes.as_klass_change()->new_type() : (Klass*) NULL;
twisti@3050	1632	_change_type = (new_type == NULL ? NO_CHANGE : Start_Klass);
twisti@3050	1633	_klass = new_type;
twisti@3050	1634	_ti_base = NULL;
twisti@3050	1635	_ti_index = 0;
twisti@3050	1636	_ti_limit = 0;
duke@435	1637	}
duke@435	1638
duke@435	1639	bool DepChange::ContextStream::next() {
duke@435	1640	switch (_change_type) {
duke@435	1641	case Start_Klass: // initial state; _klass is the new type
coleenp@4037	1642	_ti_base = InstanceKlass::cast(_klass)->transitive_interfaces();
duke@435	1643	_ti_index = 0;
duke@435	1644	_change_type = Change_new_type;
duke@435	1645	return true;
duke@435	1646	case Change_new_type:
duke@435	1647	// fall through:
duke@435	1648	_change_type = Change_new_sub;
duke@435	1649	case Change_new_sub:
sbohne@489	1650	// 6598190: brackets workaround Sun Studio C++ compiler bug 6629277
sbohne@489	1651	{
coleenp@4037	1652	_klass = InstanceKlass::cast(_klass)->super();
sbohne@489	1653	if (_klass != NULL) {
sbohne@489	1654	return true;
sbohne@489	1655	}
duke@435	1656	}
duke@435	1657	// else set up _ti_limit and fall through:
duke@435	1658	_ti_limit = (_ti_base == NULL) ? 0 : _ti_base->length();
duke@435	1659	_change_type = Change_new_impl;
duke@435	1660	case Change_new_impl:
duke@435	1661	if (_ti_index < _ti_limit) {
coleenp@4037	1662	_klass = _ti_base->at(_ti_index++);
duke@435	1663	return true;
duke@435	1664	}
duke@435	1665	// fall through:
duke@435	1666	_change_type = NO_CHANGE; // iterator is exhausted
duke@435	1667	case NO_CHANGE:
duke@435	1668	break;
duke@435	1669	default:
duke@435	1670	ShouldNotReachHere();
duke@435	1671	}
duke@435	1672	return false;
duke@435	1673	}
duke@435	1674
twisti@3050	1675	void KlassDepChange::initialize() {
twisti@3050	1676	// entire transaction must be under this lock:
twisti@3050	1677	assert_lock_strong(Compile_lock);
twisti@3050	1678
twisti@3050	1679	// Mark all dependee and all its superclasses
twisti@3050	1680	// Mark transitive interfaces
duke@435	1681	for (ContextStream str(*this); str.next(); ) {
coleenp@4037	1682	Klass* d = str.klass();
coleenp@4037	1683	assert(!InstanceKlass::cast(d)->is_marked_dependent(), "checking");
coleenp@4037	1684	InstanceKlass::cast(d)->set_is_marked_dependent(true);
duke@435	1685	}
twisti@3050	1686	}
twisti@3050	1687
twisti@3050	1688	KlassDepChange::~KlassDepChange() {
twisti@3050	1689	// Unmark all dependee and all its superclasses
twisti@3050	1690	// Unmark transitive interfaces
twisti@3050	1691	for (ContextStream str(*this); str.next(); ) {
coleenp@4037	1692	Klass* d = str.klass();
coleenp@4037	1693	InstanceKlass::cast(d)->set_is_marked_dependent(false);
duke@435	1694	}
duke@435	1695	}
duke@435	1696
coleenp@4037	1697	bool KlassDepChange::involves_context(Klass* k) {
twisti@3050	1698	if (k == NULL || !Klass::cast(k)->oop_is_instance()) {
twisti@3050	1699	return false;
twisti@3050	1700	}
coleenp@4037	1701	InstanceKlass* ik = InstanceKlass::cast(k);
twisti@3050	1702	bool is_contained = ik->is_marked_dependent();
twisti@3050	1703	assert(is_contained == Klass::cast(new_type())->is_subtype_of(k),
twisti@3050	1704	"correct marking of potential context types");
twisti@3050	1705	return is_contained;
twisti@3050	1706	}
twisti@3050	1707
duke@435	1708	#ifndef PRODUCT
duke@435	1709	void Dependencies::print_statistics() {
duke@435	1710	if (deps_find_witness_print != 0) {
duke@435	1711	// Call one final time, to flush out the data.
duke@435	1712	deps_find_witness_print = -1;
duke@435	1713	count_find_witness_calls();
duke@435	1714	}
duke@435	1715	}
duke@435	1716	#endif