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* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
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*
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* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
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* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
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#ifndef SHARE_MEMORY_FREELIST_INLINE_HPP
#define SHARE_MEMORY_FREELIST_INLINE_HPP
#include "gc/shared/collectedHeap.hpp"
#include "memory/freeList.hpp"
#include "runtime/globals.hpp"
#include "runtime/mutex.hpp"
#include "runtime/vmThread.hpp"
#include "utilities/macros.hpp"
// Free list. A FreeList is used to access a linked list of chunks
// of space in the heap. The head and tail are maintained so that
// items can be (as in the current implementation) added at the
// at the tail of the list and removed from the head of the list to
// maintain a FIFO queue.
template <class Chunk>
FreeList<Chunk>::FreeList() :
_head(NULL), _tail(NULL)
#ifdef ASSERT
, _protecting_lock(NULL)
#endif
{
_size = 0;
_count = 0;
}
template <class Chunk>
void FreeList<Chunk>::link_head(Chunk* v) {
assert_proper_lock_protection();
set_head(v);
// If this method is not used (just set the head instead),
// this check can be avoided.
if (v != NULL) {
v->link_prev(NULL);
}
}
template <class Chunk>
void FreeList<Chunk>::reset() {
// Don't set the _size to 0 because this method is
// used with a existing list that has a size but which has
// been emptied.
// Don't clear the _protecting_lock of an existing list.
set_count(0);
set_head(NULL);
set_tail(NULL);
}
template <class Chunk>
void FreeList<Chunk>::initialize() {
#ifdef ASSERT
// Needed early because it might be checked in other initializing code.
set_protecting_lock(NULL);
#endif
reset();
set_size(0);
}
template <class Chunk_t>
Chunk_t* FreeList<Chunk_t>::get_chunk_at_head() {
assert_proper_lock_protection();
assert(head() == NULL || head()->prev() == NULL, "list invariant");
assert(tail() == NULL || tail()->next() == NULL, "list invariant");
Chunk_t* fc = head();
if (fc != NULL) {
Chunk_t* nextFC = fc->next();
if (nextFC != NULL) {
// The chunk fc being removed has a "next". Set the "next" to the
// "prev" of fc.
nextFC->link_prev(NULL);
} else { // removed tail of list
link_tail(NULL);
}
link_head(nextFC);
decrement_count();
}
assert(head() == NULL || head()->prev() == NULL, "list invariant");
assert(tail() == NULL || tail()->next() == NULL, "list invariant");
return fc;
}
template <class Chunk>
void FreeList<Chunk>::getFirstNChunksFromList(size_t n, FreeList<Chunk>* fl) {
assert_proper_lock_protection();
assert(fl->count() == 0, "Precondition");
if (count() > 0) {
int k = 1;
fl->set_head(head()); n--;
Chunk* tl = head();
while (tl->next() != NULL && n > 0) {
tl = tl->next(); n--; k++;
}
assert(tl != NULL, "Loop Inv.");
// First, fix up the list we took from.
Chunk* new_head = tl->next();
set_head(new_head);
set_count(count() - k);
if (new_head == NULL) {
set_tail(NULL);
} else {
new_head->link_prev(NULL);
}
// Now we can fix up the tail.
tl->link_next(NULL);
// And return the result.
fl->set_tail(tl);
fl->set_count(k);
}
}
// Remove this chunk from the list
template <class Chunk>
void FreeList<Chunk>::remove_chunk(Chunk*fc) {
assert_proper_lock_protection();
assert(head() != NULL, "Remove from empty list");
assert(fc != NULL, "Remove a NULL chunk");
assert(size() == fc->size(), "Wrong list");
assert(head() == NULL || head()->prev() == NULL, "list invariant");
assert(tail() == NULL || tail()->next() == NULL, "list invariant");
Chunk* prevFC = fc->prev();
Chunk* nextFC = fc->next();
if (nextFC != NULL) {
// The chunk fc being removed has a "next". Set the "next" to the
// "prev" of fc.
nextFC->link_prev(prevFC);
} else { // removed tail of list
link_tail(prevFC);
}
if (prevFC == NULL) { // removed head of list
link_head(nextFC);
assert(nextFC == NULL || nextFC->prev() == NULL,
"Prev of head should be NULL");
} else {
prevFC->link_next(nextFC);
assert(tail() != prevFC || prevFC->next() == NULL,
"Next of tail should be NULL");
}
decrement_count();
assert(((head() == NULL) + (tail() == NULL) + (count() == 0)) % 3 == 0,
"H/T/C Inconsistency");
// clear next and prev fields of fc, debug only
NOT_PRODUCT(
fc->link_prev(NULL);
fc->link_next(NULL);
)
assert(fc->is_free(), "Should still be a free chunk");
assert(head() == NULL || head()->prev() == NULL, "list invariant");
assert(tail() == NULL || tail()->next() == NULL, "list invariant");
assert(head() == NULL || head()->size() == size(), "wrong item on list");
assert(tail() == NULL || tail()->size() == size(), "wrong item on list");
}
// Add this chunk at the head of the list.
template <class Chunk>
void FreeList<Chunk>::return_chunk_at_head(Chunk* chunk, bool record_return) {
assert_proper_lock_protection();
assert(chunk != NULL, "insert a NULL chunk");
assert(size() == chunk->size(), "Wrong size");
assert(head() == NULL || head()->prev() == NULL, "list invariant");
assert(tail() == NULL || tail()->next() == NULL, "list invariant");
Chunk* oldHead = head();
assert(chunk != oldHead, "double insertion");
chunk->link_after(oldHead);
link_head(chunk);
if (oldHead == NULL) { // only chunk in list
assert(tail() == NULL, "inconsistent FreeList");
link_tail(chunk);
}
increment_count(); // of # of chunks in list
assert(head() == NULL || head()->prev() == NULL, "list invariant");
assert(tail() == NULL || tail()->next() == NULL, "list invariant");
assert(head() == NULL || head()->size() == size(), "wrong item on list");
assert(tail() == NULL || tail()->size() == size(), "wrong item on list");
}
template <class Chunk>
void FreeList<Chunk>::return_chunk_at_head(Chunk* chunk) {
assert_proper_lock_protection();
return_chunk_at_head(chunk, true);
}
// Add this chunk at the tail of the list.
template <class Chunk>
void FreeList<Chunk>::return_chunk_at_tail(Chunk* chunk, bool record_return) {
assert_proper_lock_protection();
assert(head() == NULL || head()->prev() == NULL, "list invariant");
assert(tail() == NULL || tail()->next() == NULL, "list invariant");
assert(chunk != NULL, "insert a NULL chunk");
assert(size() == chunk->size(), "wrong size");
Chunk* oldTail = tail();
assert(chunk != oldTail, "double insertion");
if (oldTail != NULL) {
oldTail->link_after(chunk);
} else { // only chunk in list
assert(head() == NULL, "inconsistent FreeList");
link_head(chunk);
}
link_tail(chunk);
increment_count(); // of # of chunks in list
assert(head() == NULL || head()->prev() == NULL, "list invariant");
assert(tail() == NULL || tail()->next() == NULL, "list invariant");
assert(head() == NULL || head()->size() == size(), "wrong item on list");
assert(tail() == NULL || tail()->size() == size(), "wrong item on list");
}
template <class Chunk>
void FreeList<Chunk>::return_chunk_at_tail(Chunk* chunk) {
return_chunk_at_tail(chunk, true);
}
template <class Chunk>
void FreeList<Chunk>::prepend(FreeList<Chunk>* fl) {
assert_proper_lock_protection();
if (fl->count() > 0) {
if (count() == 0) {
set_head(fl->head());
set_tail(fl->tail());
set_count(fl->count());
} else {
// Both are non-empty.
Chunk* fl_tail = fl->tail();
Chunk* this_head = head();
assert(fl_tail->next() == NULL, "Well-formedness of fl");
fl_tail->link_next(this_head);
this_head->link_prev(fl_tail);
set_head(fl->head());
set_count(count() + fl->count());
}
fl->set_head(NULL);
fl->set_tail(NULL);
fl->set_count(0);
}
}
// verify_chunk_in_free_lists() is used to verify that an item is in this free list.
// It is used as a debugging aid.
template <class Chunk>
bool FreeList<Chunk>::verify_chunk_in_free_list(Chunk* fc) const {
// This is an internal consistency check, not part of the check that the
// chunk is in the free lists.
guarantee(fc->size() == size(), "Wrong list is being searched");
Chunk* curFC = head();
while (curFC) {
// This is an internal consistency check.
guarantee(size() == curFC->size(), "Chunk is in wrong list.");
if (fc == curFC) {
return true;
}
curFC = curFC->next();
}
return false;
}
#ifdef ASSERT
template <class Chunk>
void FreeList<Chunk>::assert_proper_lock_protection_work() const {
// Nothing to do if the list has no assigned protecting lock
if (protecting_lock() == NULL) {
return;
}
Thread* thr = Thread::current();
if (thr->is_VM_thread() || thr->is_ConcurrentGC_thread()) {
// assert that we are holding the freelist lock
} else if (thr->is_GC_task_thread()) {
assert(protecting_lock()->owned_by_self(), "FreeList RACE DETECTED");
} else if (thr->is_Java_thread()) {
assert(!SafepointSynchronize::is_at_safepoint(), "Should not be executing");
} else {
ShouldNotReachHere(); // unaccounted thread type?
}
}
#endif
// Print the "label line" for free list stats.
template <class Chunk>
void FreeList<Chunk>::print_labels_on(outputStream* st, const char* c) {
st->print("%16s\t", c);
st->print("%14s\t" "%14s\t" "%14s\t" "%14s\t" "%14s\t"
"%14s\t" "%14s\t" "%14s\t" "%14s\t" "%14s\t" "\n",
"bfrsurp", "surplus", "desired", "prvSwep", "bfrSwep",
"count", "cBirths", "cDeaths", "sBirths", "sDeaths");
}
// Print the AllocationStats for the given free list. If the second argument
// to the call is a non-null string, it is printed in the first column;
// otherwise, if the argument is null (the default), then the size of the
// (free list) block is printed in the first column.
template <class Chunk_t>
void FreeList<Chunk_t>::print_on(outputStream* st, const char* c) const {
if (c != NULL) {
st->print("%16s", c);
} else {
st->print(SIZE_FORMAT_W(16), size());
}
}
#endif // SHARE_MEMORY_FREELIST_INLINE_HPP