• file
• revisions
• annotate
• diff
• comparison
• raw

src/share/vm/utilities/stack.inline.hpp@1d1603768966 (annotated)

src/share/vm/utilities/stack.inline.hpp

Tue, 05 Apr 2011 14:12:31 -0700

author

trims

date

Tue, 05 Apr 2011 14:12:31 -0700

changeset 2708

1d1603768966

parent 2314

f95d63e2154a

child 3900

d2a62e0f25eb

permissions

-rw-r--r--

7010070: Update all 2010 Oracle-changed OpenJDK files to have the proper copyright dates - second pass
Summary: Update the copyright to be 2010 on all changed files in OpenJDK
Reviewed-by: ohair

jcoomes@2191	1	/*
stefank@2314	2	* Copyright (c) 2009, 2010, Oracle and/or its affiliates. All rights reserved.
jcoomes@2191	3	* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
jcoomes@2191	4	*
jcoomes@2191	5	* This code is free software; you can redistribute it and/or modify it
jcoomes@2191	6	* under the terms of the GNU General Public License version 2 only, as
jcoomes@2191	7	* published by the Free Software Foundation.
jcoomes@2191	8	*
jcoomes@2191	9	* This code is distributed in the hope that it will be useful, but WITHOUT
jcoomes@2191	10	* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
jcoomes@2191	11	* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
jcoomes@2191	12	* version 2 for more details (a copy is included in the LICENSE file that
jcoomes@2191	13	* accompanied this code).
jcoomes@2191	14	*
jcoomes@2191	15	* You should have received a copy of the GNU General Public License version
jcoomes@2191	16	* 2 along with this work; if not, write to the Free Software Foundation,
jcoomes@2191	17	* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
jcoomes@2191	18	*
stefank@2314	19	* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
stefank@2314	20	* or visit www.oracle.com if you need additional information or have any
stefank@2314	21	* questions.
jcoomes@2191	22	*
jcoomes@2191	23	*/
jcoomes@2191	24
stefank@2314	25	#ifndef SHARE_VM_UTILITIES_STACK_INLINE_HPP
stefank@2314	26	#define SHARE_VM_UTILITIES_STACK_INLINE_HPP
stefank@2314	27
stefank@2314	28	#include "utilities/stack.hpp"
stefank@2314	29
jcoomes@2191	30	StackBase::StackBase(size_t segment_size, size_t max_cache_size,
jcoomes@2191	31	size_t max_size):
jcoomes@2191	32	_seg_size(segment_size),
jcoomes@2191	33	_max_cache_size(max_cache_size),
jcoomes@2191	34	_max_size(adjust_max_size(max_size, segment_size))
jcoomes@2191	35	{
jcoomes@2191	36	assert(_max_size % _seg_size == 0, "not a multiple");
jcoomes@2191	37	}
jcoomes@2191	38
jcoomes@2191	39	size_t StackBase::adjust_max_size(size_t max_size, size_t seg_size)
jcoomes@2191	40	{
jcoomes@2191	41	assert(seg_size > 0, "cannot be 0");
jcoomes@2191	42	assert(max_size >= seg_size || max_size == 0, "max_size too small");
jcoomes@2191	43	const size_t limit = max_uintx - (seg_size - 1);
jcoomes@2191	44	if (max_size == 0 || max_size > limit) {
jcoomes@2191	45	max_size = limit;
jcoomes@2191	46	}
jcoomes@2191	47	return (max_size + seg_size - 1) / seg_size * seg_size;
jcoomes@2191	48	}
jcoomes@2191	49
jcoomes@2191	50	template <class E>
jcoomes@2191	51	Stack<E>::Stack(size_t segment_size, size_t max_cache_size, size_t max_size):
jcoomes@2191	52	StackBase(adjust_segment_size(segment_size), max_cache_size, max_size)
jcoomes@2191	53	{
jcoomes@2191	54	reset(true);
jcoomes@2191	55	}
jcoomes@2191	56
jcoomes@2191	57	template <class E>
jcoomes@2191	58	void Stack<E>::push(E item)
jcoomes@2191	59	{
jcoomes@2191	60	assert(!is_full(), "pushing onto a full stack");
jcoomes@2191	61	if (_cur_seg_size == _seg_size) {
jcoomes@2191	62	push_segment();
jcoomes@2191	63	}
jcoomes@2191	64	_cur_seg[_cur_seg_size] = item;
jcoomes@2191	65	++_cur_seg_size;
jcoomes@2191	66	}
jcoomes@2191	67
jcoomes@2191	68	template <class E>
jcoomes@2191	69	E Stack<E>::pop()
jcoomes@2191	70	{
jcoomes@2191	71	assert(!is_empty(), "popping from an empty stack");
jcoomes@2191	72	if (_cur_seg_size == 1) {
jcoomes@2191	73	E tmp = _cur_seg[--_cur_seg_size];
jcoomes@2191	74	pop_segment();
jcoomes@2191	75	return tmp;
jcoomes@2191	76	}
jcoomes@2191	77	return _cur_seg[--_cur_seg_size];
jcoomes@2191	78	}
jcoomes@2191	79
jcoomes@2191	80	template <class E>
jcoomes@2191	81	void Stack<E>::clear(bool clear_cache)
jcoomes@2191	82	{
jcoomes@2191	83	free_segments(_cur_seg);
jcoomes@2191	84	if (clear_cache) free_segments(_cache);
jcoomes@2191	85	reset(clear_cache);
jcoomes@2191	86	}
jcoomes@2191	87
jcoomes@2191	88	template <class E>
jcoomes@2191	89	size_t Stack<E>::default_segment_size()
jcoomes@2191	90	{
jcoomes@2191	91	// Number of elements that fit in 4K bytes minus the size of two pointers
jcoomes@2191	92	// (link field and malloc header).
jcoomes@2191	93	return (4096 - 2 * sizeof(E*)) / sizeof(E);
jcoomes@2191	94	}
jcoomes@2191	95
jcoomes@2191	96	template <class E>
jcoomes@2191	97	size_t Stack<E>::adjust_segment_size(size_t seg_size)
jcoomes@2191	98	{
jcoomes@2191	99	const size_t elem_sz = sizeof(E);
jcoomes@2191	100	const size_t ptr_sz = sizeof(E*);
jcoomes@2191	101	assert(elem_sz % ptr_sz == 0 || ptr_sz % elem_sz == 0, "bad element size");
jcoomes@2191	102	if (elem_sz < ptr_sz) {
jcoomes@2191	103	return align_size_up(seg_size * elem_sz, ptr_sz) / elem_sz;
jcoomes@2191	104	}
jcoomes@2191	105	return seg_size;
jcoomes@2191	106	}
jcoomes@2191	107
jcoomes@2191	108	template <class E>
jcoomes@2191	109	size_t Stack<E>::link_offset() const
jcoomes@2191	110	{
jcoomes@2191	111	return align_size_up(_seg_size * sizeof(E), sizeof(E*));
jcoomes@2191	112	}
jcoomes@2191	113
jcoomes@2191	114	template <class E>
jcoomes@2191	115	size_t Stack<E>::segment_bytes() const
jcoomes@2191	116	{
jcoomes@2191	117	return link_offset() + sizeof(E*);
jcoomes@2191	118	}
jcoomes@2191	119
jcoomes@2191	120	template <class E>
jcoomes@2191	121	E** Stack<E>::link_addr(E* seg) const
jcoomes@2191	122	{
jcoomes@2191	123	return (E**) ((char*)seg + link_offset());
jcoomes@2191	124	}
jcoomes@2191	125
jcoomes@2191	126	template <class E>
jcoomes@2191	127	E* Stack<E>::get_link(E* seg) const
jcoomes@2191	128	{
jcoomes@2191	129	return *link_addr(seg);
jcoomes@2191	130	}
jcoomes@2191	131
jcoomes@2191	132	template <class E>
jcoomes@2191	133	E* Stack<E>::set_link(E* new_seg, E* old_seg)
jcoomes@2191	134	{
jcoomes@2191	135	*link_addr(new_seg) = old_seg;
jcoomes@2191	136	return new_seg;
jcoomes@2191	137	}
jcoomes@2191	138
jcoomes@2191	139	template <class E>
jcoomes@2191	140	E* Stack<E>::alloc(size_t bytes)
jcoomes@2191	141	{
jcoomes@2191	142	return (E*) NEW_C_HEAP_ARRAY(char, bytes);
jcoomes@2191	143	}
jcoomes@2191	144
jcoomes@2191	145	template <class E>
jcoomes@2191	146	void Stack<E>::free(E* addr, size_t bytes)
jcoomes@2191	147	{
jcoomes@2191	148	FREE_C_HEAP_ARRAY(char, (char*) addr);
jcoomes@2191	149	}
jcoomes@2191	150
jcoomes@2191	151	template <class E>
jcoomes@2191	152	void Stack<E>::push_segment()
jcoomes@2191	153	{
jcoomes@2191	154	assert(_cur_seg_size == _seg_size, "current segment is not full");
jcoomes@2191	155	E* next;
jcoomes@2191	156	if (_cache_size > 0) {
jcoomes@2191	157	// Use a cached segment.
jcoomes@2191	158	next = _cache;
jcoomes@2191	159	_cache = get_link(_cache);
jcoomes@2191	160	--_cache_size;
jcoomes@2191	161	} else {
jcoomes@2191	162	next = alloc(segment_bytes());
jcoomes@2191	163	DEBUG_ONLY(zap_segment(next, true);)
jcoomes@2191	164	}
jcoomes@2191	165	const bool at_empty_transition = is_empty();
jcoomes@2191	166	_cur_seg = set_link(next, _cur_seg);
jcoomes@2191	167	_cur_seg_size = 0;
jcoomes@2191	168	_full_seg_size += at_empty_transition ? 0 : _seg_size;
jcoomes@2191	169	DEBUG_ONLY(verify(at_empty_transition);)
jcoomes@2191	170	}
jcoomes@2191	171
jcoomes@2191	172	template <class E>
jcoomes@2191	173	void Stack<E>::pop_segment()
jcoomes@2191	174	{
jcoomes@2191	175	assert(_cur_seg_size == 0, "current segment is not empty");
jcoomes@2191	176	E* const prev = get_link(_cur_seg);
jcoomes@2191	177	if (_cache_size < _max_cache_size) {
jcoomes@2191	178	// Add the current segment to the cache.
jcoomes@2191	179	DEBUG_ONLY(zap_segment(_cur_seg, false);)
jcoomes@2191	180	_cache = set_link(_cur_seg, _cache);
jcoomes@2191	181	++_cache_size;
jcoomes@2191	182	} else {
jcoomes@2191	183	DEBUG_ONLY(zap_segment(_cur_seg, true);)
jcoomes@2191	184	free(_cur_seg, segment_bytes());
jcoomes@2191	185	}
jcoomes@2191	186	const bool at_empty_transition = prev == NULL;
jcoomes@2191	187	_cur_seg = prev;
jcoomes@2191	188	_cur_seg_size = _seg_size;
jcoomes@2191	189	_full_seg_size -= at_empty_transition ? 0 : _seg_size;
jcoomes@2191	190	DEBUG_ONLY(verify(at_empty_transition);)
jcoomes@2191	191	}
jcoomes@2191	192
jcoomes@2191	193	template <class E>
jcoomes@2191	194	void Stack<E>::free_segments(E* seg)
jcoomes@2191	195	{
jcoomes@2191	196	const size_t bytes = segment_bytes();
jcoomes@2191	197	while (seg != NULL) {
jcoomes@2191	198	E* const prev = get_link(seg);
jcoomes@2191	199	free(seg, bytes);
jcoomes@2191	200	seg = prev;
jcoomes@2191	201	}
jcoomes@2191	202	}
jcoomes@2191	203
jcoomes@2191	204	template <class E>
jcoomes@2191	205	void Stack<E>::reset(bool reset_cache)
jcoomes@2191	206	{
jcoomes@2191	207	_cur_seg_size = _seg_size; // So push() will alloc a new segment.
jcoomes@2191	208	_full_seg_size = 0;
jcoomes@2191	209	_cur_seg = NULL;
jcoomes@2191	210	if (reset_cache) {
jcoomes@2191	211	_cache_size = 0;
jcoomes@2191	212	_cache = NULL;
jcoomes@2191	213	}
jcoomes@2191	214	}
jcoomes@2191	215
jcoomes@2191	216	#ifdef ASSERT
jcoomes@2191	217	template <class E>
jcoomes@2191	218	void Stack<E>::verify(bool at_empty_transition) const
jcoomes@2191	219	{
jcoomes@2191	220	assert(size() <= max_size(), "stack exceeded bounds");
jcoomes@2191	221	assert(cache_size() <= max_cache_size(), "cache exceeded bounds");
jcoomes@2191	222	assert(_cur_seg_size <= segment_size(), "segment index exceeded bounds");
jcoomes@2191	223
jcoomes@2191	224	assert(_full_seg_size % _seg_size == 0, "not a multiple");
jcoomes@2191	225	assert(at_empty_transition || is_empty() == (size() == 0), "mismatch");
jcoomes@2191	226	assert((_cache == NULL) == (cache_size() == 0), "mismatch");
jcoomes@2191	227
jcoomes@2191	228	if (is_empty()) {
jcoomes@2191	229	assert(_cur_seg_size == segment_size(), "sanity");
jcoomes@2191	230	}
jcoomes@2191	231	}
jcoomes@2191	232
jcoomes@2191	233	template <class E>
jcoomes@2191	234	void Stack<E>::zap_segment(E* seg, bool zap_link_field) const
jcoomes@2191	235	{
jcoomes@2191	236	if (!ZapStackSegments) return;
jcoomes@2191	237	const size_t zap_bytes = segment_bytes() - (zap_link_field ? 0 : sizeof(E*));
jcoomes@2191	238	uint32_t* cur = (uint32_t*)seg;
jcoomes@2191	239	const uint32_t* end = cur + zap_bytes / sizeof(uint32_t);
jcoomes@2191	240	while (cur < end) {
jcoomes@2191	241	*cur++ = 0xfadfaded;
jcoomes@2191	242	}
jcoomes@2191	243	}
jcoomes@2191	244	#endif
jcoomes@2191	245
jcoomes@2191	246	template <class E>
jcoomes@2191	247	E* ResourceStack<E>::alloc(size_t bytes)
jcoomes@2191	248	{
jcoomes@2191	249	return (E*) resource_allocate_bytes(bytes);
jcoomes@2191	250	}
jcoomes@2191	251
jcoomes@2191	252	template <class E>
jcoomes@2191	253	void ResourceStack<E>::free(E* addr, size_t bytes)
jcoomes@2191	254	{
jcoomes@2191	255	resource_free_bytes((char*) addr, bytes);
jcoomes@2191	256	}
jcoomes@2191	257
jcoomes@2191	258	template <class E>
jcoomes@2191	259	void StackIterator<E>::sync()
jcoomes@2191	260	{
jcoomes@2191	261	_full_seg_size = _stack._full_seg_size;
jcoomes@2191	262	_cur_seg_size = _stack._cur_seg_size;
jcoomes@2191	263	_cur_seg = _stack._cur_seg;
jcoomes@2191	264	}
jcoomes@2191	265
jcoomes@2191	266	template <class E>
jcoomes@2191	267	E* StackIterator<E>::next_addr()
jcoomes@2191	268	{
jcoomes@2191	269	assert(!is_empty(), "no items left");
jcoomes@2191	270	if (_cur_seg_size == 1) {
jcoomes@2191	271	E* addr = _cur_seg;
jcoomes@2191	272	_cur_seg = _stack.get_link(_cur_seg);
jcoomes@2191	273	_cur_seg_size = _stack.segment_size();
jcoomes@2191	274	_full_seg_size -= _stack.segment_size();
jcoomes@2191	275	return addr;
jcoomes@2191	276	}
jcoomes@2191	277	return _cur_seg + --_cur_seg_size;
jcoomes@2191	278	}
stefank@2314	279
stefank@2314	280	#endif // SHARE_VM_UTILITIES_STACK_INLINE_HPP