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src/share/vm/services/memBaseline.cpp@ed5a590835a4 (annotated)

src/share/vm/services/memBaseline.cpp

Tue, 30 Apr 2013 09:17:06 -0400

author

zgu

date

Tue, 30 Apr 2013 09:17:06 -0400

changeset 4992

ed5a590835a4

parent 4980

fbca7eaeac2e

child 5237

f2110083203d

permissions

-rw-r--r--

8013214: BigApps fails due to 'fatal error: Illegal threadstate encountered: 6'
Summary: Grab and drop SR_lock to get the thread to honor the safepoint protocol
Reviewed-by: dcubed, coleenp

zgu@3900	1	/*
zgu@4980	2	* Copyright (c) 2012, 2013, Oracle and/or its affiliates. All rights reserved.
zgu@3900	3	* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
zgu@3900	4	*
zgu@3900	5	* This code is free software; you can redistribute it and/or modify it
zgu@3900	6	* under the terms of the GNU General Public License version 2 only, as
zgu@3900	7	* published by the Free Software Foundation.
zgu@3900	8	*
zgu@3900	9	* This code is distributed in the hope that it will be useful, but WITHOUT
zgu@3900	10	* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
zgu@3900	11	* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
zgu@3900	12	* version 2 for more details (a copy is included in the LICENSE file that
zgu@3900	13	* accompanied this code).
zgu@3900	14	*
zgu@3900	15	* You should have received a copy of the GNU General Public License version
zgu@3900	16	* 2 along with this work; if not, write to the Free Software Foundation,
zgu@3900	17	* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
zgu@3900	18	*
zgu@3900	19	* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
zgu@3900	20	* or visit www.oracle.com if you need additional information or have any
zgu@3900	21	* questions.
zgu@3900	22	*
zgu@3900	23	*/
zgu@3900	24	#include "precompiled.hpp"
zgu@3900	25	#include "memory/allocation.hpp"
zgu@4980	26	#include "runtime/safepoint.hpp"
zgu@4980	27	#include "runtime/thread.inline.hpp"
zgu@3900	28	#include "services/memBaseline.hpp"
zgu@3900	29	#include "services/memTracker.hpp"
zgu@3900	30
zgu@4980	31
zgu@3900	32	MemType2Name MemBaseline::MemType2NameMap[NUMBER_OF_MEMORY_TYPE] = {
zgu@3900	33	{mtJavaHeap, "Java Heap"},
zgu@3900	34	{mtClass, "Class"},
zgu@3900	35	{mtThreadStack,"Thread Stack"},
zgu@3900	36	{mtThread, "Thread"},
zgu@3900	37	{mtCode, "Code"},
zgu@3900	38	{mtGC, "GC"},
zgu@3900	39	{mtCompiler, "Compiler"},
zgu@3900	40	{mtInternal, "Internal"},
zgu@3900	41	{mtOther, "Other"},
zgu@3900	42	{mtSymbol, "Symbol"},
zgu@3900	43	{mtNMT, "Memory Tracking"},
zgu@3900	44	{mtChunk, "Pooled Free Chunks"},
zgu@4193	45	{mtClassShared,"Shared spaces for classes"},
ctornqvi@4512	46	{mtTest, "Test"},
zgu@3900	47	{mtNone, "Unknown"} // It can happen when type tagging records are lagging
zgu@3900	48	// behind
zgu@3900	49	};
zgu@3900	50
zgu@3900	51	MemBaseline::MemBaseline() {
zgu@3900	52	_baselined = false;
zgu@3900	53
zgu@3900	54	for (int index = 0; index < NUMBER_OF_MEMORY_TYPE; index ++) {
zgu@3900	55	_malloc_data[index].set_type(MemType2NameMap[index]._flag);
zgu@3900	56	_vm_data[index].set_type(MemType2NameMap[index]._flag);
zgu@3900	57	_arena_data[index].set_type(MemType2NameMap[index]._flag);
zgu@3900	58	}
zgu@3900	59
zgu@3900	60	_malloc_cs = NULL;
zgu@3900	61	_vm_cs = NULL;
zgu@4193	62	_vm_map = NULL;
zgu@3900	63
zgu@3900	64	_number_of_classes = 0;
zgu@3900	65	_number_of_threads = 0;
zgu@3900	66	}
zgu@3900	67
zgu@3900	68
zgu@3900	69	void MemBaseline::clear() {
zgu@3900	70	if (_malloc_cs != NULL) {
zgu@3900	71	delete _malloc_cs;
zgu@3900	72	_malloc_cs = NULL;
zgu@3900	73	}
zgu@3900	74
zgu@3900	75	if (_vm_cs != NULL) {
zgu@3900	76	delete _vm_cs;
zgu@3900	77	_vm_cs = NULL;
zgu@3900	78	}
zgu@3900	79
zgu@4193	80	if (_vm_map != NULL) {
zgu@4193	81	delete _vm_map;
zgu@4193	82	_vm_map = NULL;
zgu@4193	83	}
zgu@4193	84
zgu@3900	85	reset();
zgu@3900	86	}
zgu@3900	87
zgu@3900	88
zgu@3900	89	void MemBaseline::reset() {
zgu@3900	90	_baselined = false;
zgu@3900	91	_total_vm_reserved = 0;
zgu@3900	92	_total_vm_committed = 0;
zgu@3900	93	_total_malloced = 0;
zgu@3900	94	_number_of_classes = 0;
zgu@3900	95
zgu@3900	96	if (_malloc_cs != NULL) _malloc_cs->clear();
zgu@3900	97	if (_vm_cs != NULL) _vm_cs->clear();
zgu@4193	98	if (_vm_map != NULL) _vm_map->clear();
zgu@3900	99
zgu@3900	100	for (int index = 0; index < NUMBER_OF_MEMORY_TYPE; index ++) {
zgu@3900	101	_malloc_data[index].clear();
zgu@3900	102	_vm_data[index].clear();
zgu@3900	103	_arena_data[index].clear();
zgu@3900	104	}
zgu@3900	105	}
zgu@3900	106
zgu@3900	107	MemBaseline::~MemBaseline() {
zgu@4193	108	clear();
zgu@3900	109	}
zgu@3900	110
zgu@3900	111	// baseline malloc'd memory records, generate overall summary and summaries by
zgu@3900	112	// memory types
zgu@3900	113	bool MemBaseline::baseline_malloc_summary(const MemPointerArray* malloc_records) {
zgu@4193	114	MemPointerArrayIteratorImpl malloc_itr((MemPointerArray*)malloc_records);
zgu@4193	115	MemPointerRecord* malloc_ptr = (MemPointerRecord*)malloc_itr.current();
zgu@3900	116	size_t used_arena_size = 0;
zgu@3900	117	int index;
zgu@4193	118	while (malloc_ptr != NULL) {
zgu@4193	119	index = flag2index(FLAGS_TO_MEMORY_TYPE(malloc_ptr->flags()));
zgu@4193	120	size_t size = malloc_ptr->size();
zgu@4274	121	if (malloc_ptr->is_arena_memory_record()) {
zgu@4274	122	// We do have anonymous arenas, they are either used as value objects,
zgu@4274	123	// which are embedded inside other objects, or used as stack objects.
zgu@4274	124	_arena_data[index].inc(size);
zgu@4274	125	used_arena_size += size;
zgu@4274	126	} else {
zgu@4274	127	_total_malloced += size;
zgu@4274	128	_malloc_data[index].inc(size);
zgu@4274	129	if (malloc_ptr->is_arena_record()) {
zgu@4274	130	// see if arena memory record present
zgu@4274	131	MemPointerRecord* next_malloc_ptr = (MemPointerRecordEx*)malloc_itr.peek_next();
zgu@4274	132	if (next_malloc_ptr->is_arena_memory_record()) {
zgu@4274	133	assert(next_malloc_ptr->is_memory_record_of_arena(malloc_ptr),
zgu@4274	134	"Arena records do not match");
zgu@4274	135	size = next_malloc_ptr->size();
zgu@4274	136	_arena_data[index].inc(size);
zgu@4274	137	used_arena_size += size;
zgu@4274	138	malloc_itr.next();
zgu@4274	139	}
zgu@3900	140	}
zgu@3900	141	}
zgu@4193	142	malloc_ptr = (MemPointerRecordEx*)malloc_itr.next();
zgu@3900	143	}
zgu@3900	144
zgu@3900	145	// substract used arena size to get size of arena chunk in free list
zgu@3900	146	index = flag2index(mtChunk);
zgu@3900	147	_malloc_data[index].reduce(used_arena_size);
zgu@3900	148	// we really don't know how many chunks in free list, so just set to
zgu@3900	149	// 0
zgu@3900	150	_malloc_data[index].overwrite_counter(0);
zgu@3900	151
zgu@3900	152	return true;
zgu@3900	153	}
zgu@3900	154
zgu@4980	155	// check if there is a safepoint in progress, if so, block the thread
zgu@4980	156	// for the safepoint
zgu@4980	157	void MemBaseline::check_safepoint(JavaThread* thr) {
zgu@4980	158	if (SafepointSynchronize::is_synchronizing()) {
zgu@4992	159	// grab and drop the SR_lock to honor the safepoint protocol
zgu@4992	160	MutexLocker ml(thr->SR_lock());
zgu@4980	161	}
zgu@4980	162	}
zgu@4980	163
zgu@3900	164	// baseline mmap'd memory records, generate overall summary and summaries by
zgu@3900	165	// memory types
zgu@3900	166	bool MemBaseline::baseline_vm_summary(const MemPointerArray* vm_records) {
zgu@4193	167	MemPointerArrayIteratorImpl vm_itr((MemPointerArray*)vm_records);
zgu@4193	168	VMMemRegion* vm_ptr = (VMMemRegion*)vm_itr.current();
zgu@3900	169	int index;
zgu@4193	170	while (vm_ptr != NULL) {
zgu@4193	171	if (vm_ptr->is_reserved_region()) {
zgu@4193	172	index = flag2index(FLAGS_TO_MEMORY_TYPE(vm_ptr->flags()));
zgu@3900	173	// we use the number of thread stack to count threads
zgu@4193	174	if (IS_MEMORY_TYPE(vm_ptr->flags(), mtThreadStack)) {
zgu@3900	175	_number_of_threads ++;
zgu@3900	176	}
zgu@4193	177	_total_vm_reserved += vm_ptr->size();
zgu@4193	178	_vm_data[index].inc(vm_ptr->size(), 0);
zgu@4193	179	} else {
zgu@4193	180	_total_vm_committed += vm_ptr->size();
zgu@4193	181	_vm_data[index].inc(0, vm_ptr->size());
zgu@4193	182	}
zgu@4193	183	vm_ptr = (VMMemRegion*)vm_itr.next();
zgu@3900	184	}
zgu@3900	185	return true;
zgu@3900	186	}
zgu@3900	187
zgu@3900	188	// baseline malloc'd memory by callsites, but only the callsites with memory allocation
zgu@3900	189	// over 1KB are stored.
zgu@3900	190	bool MemBaseline::baseline_malloc_details(const MemPointerArray* malloc_records) {
zgu@3900	191	assert(MemTracker::track_callsite(), "detail tracking is off");
zgu@3900	192
zgu@4193	193	MemPointerArrayIteratorImpl malloc_itr(const_cast<MemPointerArray*>(malloc_records));
zgu@4193	194	MemPointerRecordEx* malloc_ptr = (MemPointerRecordEx*)malloc_itr.current();
zgu@4193	195	MallocCallsitePointer malloc_callsite;
zgu@3900	196
zgu@4193	197	// initailize malloc callsite array
zgu@3900	198	if (_malloc_cs == NULL) {
zgu@3900	199	_malloc_cs = new (std::nothrow) MemPointerArrayImpl<MallocCallsitePointer>(64);
zgu@3900	200	// out of native memory
zgu@4193	201	if (_malloc_cs == NULL || _malloc_cs->out_of_memory()) {
zgu@3900	202	return false;
zgu@3900	203	}
zgu@3900	204	} else {
zgu@3900	205	_malloc_cs->clear();
zgu@3900	206	}
zgu@3900	207
zgu@4193	208	MemPointerArray* malloc_data = const_cast<MemPointerArray*>(malloc_records);
zgu@4193	209
zgu@4193	210	// sort into callsite pc order. Details are aggregated by callsites
zgu@4193	211	malloc_data->sort((FN_SORT)malloc_sort_by_pc);
zgu@4193	212	bool ret = true;
zgu@4193	213
zgu@3900	214	// baseline memory that is totaled over 1 KB
zgu@4193	215	while (malloc_ptr != NULL) {
zgu@4274	216	if (!MemPointerRecord::is_arena_memory_record(malloc_ptr->flags())) {
zgu@3900	217	// skip thread stacks
zgu@4193	218	if (!IS_MEMORY_TYPE(malloc_ptr->flags(), mtThreadStack)) {
zgu@4193	219	if (malloc_callsite.addr() != malloc_ptr->pc()) {
zgu@4193	220	if ((malloc_callsite.amount()/K) > 0) {
zgu@4193	221	if (!_malloc_cs->append(&malloc_callsite)) {
zgu@4193	222	ret = false;
zgu@4193	223	break;
zgu@4193	224	}
zgu@4193	225	}
zgu@4193	226	malloc_callsite = MallocCallsitePointer(malloc_ptr->pc());
zgu@4193	227	}
zgu@4193	228	malloc_callsite.inc(malloc_ptr->size());
zgu@4193	229	}
zgu@4193	230	}
zgu@4193	231	malloc_ptr = (MemPointerRecordEx*)malloc_itr.next();
zgu@4193	232	}
zgu@4193	233
zgu@4193	234	// restore to address order. Snapshot malloc data is maintained in memory
zgu@4193	235	// address order.
zgu@4193	236	malloc_data->sort((FN_SORT)malloc_sort_by_addr);
zgu@4193	237
zgu@4193	238	if (!ret) {
zgu@3900	239	return false;
zgu@3900	240	}
zgu@4193	241	// deal with last record
zgu@4193	242	if (malloc_callsite.addr() != 0 && (malloc_callsite.amount()/K) > 0) {
zgu@4193	243	if (!_malloc_cs->append(&malloc_callsite)) {
zgu@3900	244	return false;
zgu@3900	245	}
zgu@3900	246	}
zgu@3900	247	return true;
zgu@3900	248	}
zgu@3900	249
zgu@3900	250	// baseline mmap'd memory by callsites
zgu@3900	251	bool MemBaseline::baseline_vm_details(const MemPointerArray* vm_records) {
zgu@3900	252	assert(MemTracker::track_callsite(), "detail tracking is off");
zgu@3900	253
zgu@4193	254	VMCallsitePointer vm_callsite;
zgu@4193	255	VMCallsitePointer* cur_callsite = NULL;
zgu@4193	256	MemPointerArrayIteratorImpl vm_itr((MemPointerArray*)vm_records);
zgu@4193	257	VMMemRegionEx* vm_ptr = (VMMemRegionEx*)vm_itr.current();
zgu@3900	258
zgu@4193	259	// initialize virtual memory map array
zgu@4193	260	if (_vm_map == NULL) {
zgu@4193	261	_vm_map = new (std::nothrow) MemPointerArrayImpl<VMMemRegionEx>(vm_records->length());
zgu@4193	262	if (_vm_map == NULL || _vm_map->out_of_memory()) {
zgu@4193	263	return false;
zgu@4193	264	}
zgu@4193	265	} else {
zgu@4193	266	_vm_map->clear();
zgu@4193	267	}
zgu@4193	268
zgu@4193	269	// initialize virtual memory callsite array
zgu@3900	270	if (_vm_cs == NULL) {
zgu@3900	271	_vm_cs = new (std::nothrow) MemPointerArrayImpl<VMCallsitePointer>(64);
zgu@4193	272	if (_vm_cs == NULL || _vm_cs->out_of_memory()) {
zgu@3900	273	return false;
zgu@3900	274	}
zgu@3900	275	} else {
zgu@3900	276	_vm_cs->clear();
zgu@3900	277	}
zgu@3900	278
zgu@4193	279	// consolidate virtual memory data
zgu@4193	280	VMMemRegionEx* reserved_rec = NULL;
zgu@4193	281	VMMemRegionEx* committed_rec = NULL;
zgu@4193	282
zgu@4193	283	// vm_ptr is coming in increasing base address order
zgu@4193	284	while (vm_ptr != NULL) {
zgu@4193	285	if (vm_ptr->is_reserved_region()) {
zgu@4193	286	// consolidate reserved memory regions for virtual memory map.
zgu@4193	287	// The criteria for consolidation is:
zgu@4193	288	// 1. two adjacent reserved memory regions
zgu@4193	289	// 2. belong to the same memory type
zgu@4193	290	// 3. reserved from the same callsite
zgu@4193	291	if (reserved_rec == NULL ||
zgu@4193	292	reserved_rec->base() + reserved_rec->size() != vm_ptr->addr() ||
zgu@4193	293	FLAGS_TO_MEMORY_TYPE(reserved_rec->flags()) != FLAGS_TO_MEMORY_TYPE(vm_ptr->flags()) ||
zgu@4193	294	reserved_rec->pc() != vm_ptr->pc()) {
zgu@4193	295	if (!_vm_map->append(vm_ptr)) {
zgu@3900	296	return false;
zgu@3900	297	}
zgu@4193	298	// inserted reserved region, we need the pointer to the element in virtual
zgu@4193	299	// memory map array.
zgu@4193	300	reserved_rec = (VMMemRegionEx*)_vm_map->at(_vm_map->length() - 1);
zgu@4193	301	} else {
zgu@4193	302	reserved_rec->expand_region(vm_ptr->addr(), vm_ptr->size());
zgu@3900	303	}
zgu@4193	304
zgu@4193	305	if (cur_callsite != NULL && !_vm_cs->append(cur_callsite)) {
zgu@3900	306	return false;
zgu@3900	307	}
zgu@4193	308	vm_callsite = VMCallsitePointer(vm_ptr->pc());
zgu@4193	309	cur_callsite = &vm_callsite;
zgu@4193	310	vm_callsite.inc(vm_ptr->size(), 0);
zgu@4193	311	} else {
zgu@4193	312	// consolidate committed memory regions for virtual memory map
zgu@4193	313	// The criterial is:
zgu@4193	314	// 1. two adjacent committed memory regions
zgu@4193	315	// 2. committed from the same callsite
zgu@4193	316	if (committed_rec == NULL ||
zgu@4193	317	committed_rec->base() + committed_rec->size() != vm_ptr->addr() ||
zgu@4193	318	committed_rec->pc() != vm_ptr->pc()) {
zgu@4193	319	if (!_vm_map->append(vm_ptr)) {
zgu@4193	320	return false;
zgu@4980	321	}
zgu@4193	322	committed_rec = (VMMemRegionEx*)_vm_map->at(_vm_map->length() - 1);
zgu@4193	323	} else {
zgu@4193	324	committed_rec->expand_region(vm_ptr->addr(), vm_ptr->size());
zgu@4193	325	}
zgu@4193	326	vm_callsite.inc(0, vm_ptr->size());
zgu@4193	327	}
zgu@4193	328	vm_ptr = (VMMemRegionEx*)vm_itr.next();
zgu@4193	329	}
zgu@4193	330	// deal with last record
zgu@4193	331	if (cur_callsite != NULL && !_vm_cs->append(cur_callsite)) {
zgu@4193	332	return false;
zgu@4193	333	}
zgu@4193	334
zgu@4193	335	// sort it into callsite pc order. Details are aggregated by callsites
zgu@4193	336	_vm_cs->sort((FN_SORT)bl_vm_sort_by_pc);
zgu@4193	337
zgu@4193	338	// walk the array to consolidate record by pc
zgu@4193	339	MemPointerArrayIteratorImpl itr(_vm_cs);
zgu@4193	340	VMCallsitePointer* callsite_rec = (VMCallsitePointer*)itr.current();
zgu@4193	341	VMCallsitePointer* next_rec = (VMCallsitePointer*)itr.next();
zgu@4193	342	while (next_rec != NULL) {
zgu@4193	343	assert(callsite_rec != NULL, "Sanity check");
zgu@4193	344	if (next_rec->addr() == callsite_rec->addr()) {
zgu@4193	345	callsite_rec->inc(next_rec->reserved_amount(), next_rec->committed_amount());
zgu@4193	346	itr.remove();
zgu@4193	347	next_rec = (VMCallsitePointer*)itr.current();
zgu@4193	348	} else {
zgu@4193	349	callsite_rec = next_rec;
zgu@4193	350	next_rec = (VMCallsitePointer*)itr.next();
zgu@4193	351	}
zgu@4193	352	}
zgu@4193	353
zgu@3900	354	return true;
zgu@3900	355	}
zgu@3900	356
zgu@3900	357	// baseline a snapshot. If summary_only = false, memory usages aggregated by
zgu@3900	358	// callsites are also baselined.
zgu@4980	359	// The method call can be lengthy, especially when detail tracking info is
zgu@4980	360	// requested. So the method checks for safepoint explicitly.
zgu@3900	361	bool MemBaseline::baseline(MemSnapshot& snapshot, bool summary_only) {
zgu@4980	362	Thread* THREAD = Thread::current();
zgu@4980	363	assert(THREAD->is_Java_thread(), "must be a JavaThread");
zgu@4980	364	MutexLocker snapshot_locker(snapshot._lock);
zgu@3900	365	reset();
zgu@4980	366	_baselined = baseline_malloc_summary(snapshot._alloc_ptrs);
zgu@4980	367	if (_baselined) {
zgu@4980	368	check_safepoint((JavaThread*)THREAD);
zgu@4980	369	_baselined = baseline_vm_summary(snapshot._vm_ptrs);
zgu@4980	370	}
zgu@4400	371	_number_of_classes = snapshot.number_of_classes();
zgu@3900	372
zgu@3900	373	if (!summary_only && MemTracker::track_callsite() && _baselined) {
zgu@4980	374	check_safepoint((JavaThread*)THREAD);
zgu@4980	375	_baselined = baseline_malloc_details(snapshot._alloc_ptrs);
zgu@4980	376	if (_baselined) {
zgu@4980	377	check_safepoint((JavaThread*)THREAD);
zgu@4980	378	_baselined = baseline_vm_details(snapshot._vm_ptrs);
zgu@4980	379	}
zgu@3900	380	}
zgu@3900	381	return _baselined;
zgu@3900	382	}
zgu@3900	383
zgu@3900	384
zgu@3900	385	int MemBaseline::flag2index(MEMFLAGS flag) const {
zgu@3900	386	for (int index = 0; index < NUMBER_OF_MEMORY_TYPE; index ++) {
zgu@3900	387	if (MemType2NameMap[index]._flag == flag) {
zgu@3900	388	return index;
zgu@3900	389	}
zgu@3900	390	}
zgu@3900	391	assert(false, "no type");
zgu@3900	392	return -1;
zgu@3900	393	}
zgu@3900	394
zgu@3900	395	const char* MemBaseline::type2name(MEMFLAGS type) {
zgu@3900	396	for (int index = 0; index < NUMBER_OF_MEMORY_TYPE; index ++) {
zgu@3900	397	if (MemType2NameMap[index]._flag == type) {
zgu@3900	398	return MemType2NameMap[index]._name;
zgu@3900	399	}
zgu@3900	400	}
zgu@4193	401	assert(false, err_msg("bad type %x", type));
zgu@3900	402	return NULL;
zgu@3900	403	}
zgu@3900	404
zgu@3900	405
zgu@3900	406	MemBaseline& MemBaseline::operator=(const MemBaseline& other) {
zgu@3900	407	_total_malloced = other._total_malloced;
zgu@3900	408	_total_vm_reserved = other._total_vm_reserved;
zgu@3900	409	_total_vm_committed = other._total_vm_committed;
zgu@3900	410
zgu@3900	411	_baselined = other._baselined;
zgu@3900	412	_number_of_classes = other._number_of_classes;
zgu@3900	413
zgu@3900	414	for (int index = 0; index < NUMBER_OF_MEMORY_TYPE; index ++) {
zgu@3900	415	_malloc_data[index] = other._malloc_data[index];
zgu@3900	416	_vm_data[index] = other._vm_data[index];
zgu@3900	417	_arena_data[index] = other._arena_data[index];
zgu@3900	418	}
zgu@3900	419
zgu@3900	420	if (MemTracker::track_callsite()) {
zgu@3900	421	assert(_malloc_cs != NULL && _vm_cs != NULL, "out of memory");
zgu@3900	422	assert(other._malloc_cs != NULL && other._vm_cs != NULL,
zgu@3900	423	"not properly baselined");
zgu@3900	424	_malloc_cs->clear();
zgu@3900	425	_vm_cs->clear();
zgu@3900	426	int index;
zgu@3900	427	for (index = 0; index < other._malloc_cs->length(); index ++) {
zgu@3900	428	_malloc_cs->append(other._malloc_cs->at(index));
zgu@3900	429	}
zgu@3900	430
zgu@3900	431	for (index = 0; index < other._vm_cs->length(); index ++) {
zgu@3900	432	_vm_cs->append(other._vm_cs->at(index));
zgu@3900	433	}
zgu@3900	434	}
zgu@3900	435	return *this;
zgu@3900	436	}
zgu@3900	437
zgu@3900	438	/* compare functions for sorting */
zgu@3900	439
zgu@3900	440	// sort snapshot malloc'd records in callsite pc order
zgu@3900	441	int MemBaseline::malloc_sort_by_pc(const void* p1, const void* p2) {
zgu@3900	442	assert(MemTracker::track_callsite(),"Just check");
zgu@3900	443	const MemPointerRecordEx* mp1 = (const MemPointerRecordEx*)p1;
zgu@3900	444	const MemPointerRecordEx* mp2 = (const MemPointerRecordEx*)p2;
zgu@3900	445	return UNSIGNED_COMPARE(mp1->pc(), mp2->pc());
zgu@3900	446	}
zgu@3900	447
zgu@3900	448	// sort baselined malloc'd records in size order
zgu@3900	449	int MemBaseline::bl_malloc_sort_by_size(const void* p1, const void* p2) {
zgu@3900	450	assert(MemTracker::is_on(), "Just check");
zgu@3900	451	const MallocCallsitePointer* mp1 = (const MallocCallsitePointer*)p1;
zgu@3900	452	const MallocCallsitePointer* mp2 = (const MallocCallsitePointer*)p2;
zgu@3900	453	return UNSIGNED_COMPARE(mp2->amount(), mp1->amount());
zgu@3900	454	}
zgu@3900	455
zgu@3900	456	// sort baselined malloc'd records in callsite pc order
zgu@3900	457	int MemBaseline::bl_malloc_sort_by_pc(const void* p1, const void* p2) {
zgu@3900	458	assert(MemTracker::is_on(), "Just check");
zgu@3900	459	const MallocCallsitePointer* mp1 = (const MallocCallsitePointer*)p1;
zgu@3900	460	const MallocCallsitePointer* mp2 = (const MallocCallsitePointer*)p2;
zgu@3900	461	return UNSIGNED_COMPARE(mp1->addr(), mp2->addr());
zgu@3900	462	}
zgu@3900	463
zgu@3900	464
zgu@3900	465	// sort baselined mmap'd records in size (reserved size) order
zgu@3900	466	int MemBaseline::bl_vm_sort_by_size(const void* p1, const void* p2) {
zgu@3900	467	assert(MemTracker::is_on(), "Just check");
zgu@3900	468	const VMCallsitePointer* mp1 = (const VMCallsitePointer*)p1;
zgu@3900	469	const VMCallsitePointer* mp2 = (const VMCallsitePointer*)p2;
zgu@3900	470	return UNSIGNED_COMPARE(mp2->reserved_amount(), mp1->reserved_amount());
zgu@3900	471	}
zgu@3900	472
zgu@3900	473	// sort baselined mmap'd records in callsite pc order
zgu@3900	474	int MemBaseline::bl_vm_sort_by_pc(const void* p1, const void* p2) {
zgu@3900	475	assert(MemTracker::is_on(), "Just check");
zgu@3900	476	const VMCallsitePointer* mp1 = (const VMCallsitePointer*)p1;
zgu@3900	477	const VMCallsitePointer* mp2 = (const VMCallsitePointer*)p2;
zgu@3900	478	return UNSIGNED_COMPARE(mp1->addr(), mp2->addr());
zgu@3900	479	}
zgu@3900	480
zgu@3900	481
zgu@3900	482	// sort snapshot malloc'd records in memory block address order
zgu@3900	483	int MemBaseline::malloc_sort_by_addr(const void* p1, const void* p2) {
zgu@3900	484	assert(MemTracker::is_on(), "Just check");
zgu@3900	485	const MemPointerRecord* mp1 = (const MemPointerRecord*)p1;
zgu@3900	486	const MemPointerRecord* mp2 = (const MemPointerRecord*)p2;
zgu@3900	487	int delta = UNSIGNED_COMPARE(mp1->addr(), mp2->addr());
zgu@3900	488	assert(delta != 0, "dup pointer");
zgu@3900	489	return delta;
zgu@3900	490	}
zgu@3900	491