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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
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*
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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_METASPACE_VIRTUALSPACELIST_HPP
#define SHARE_MEMORY_METASPACE_VIRTUALSPACELIST_HPP
#include "memory/allocation.hpp"
#include "memory/metaspace/virtualSpaceNode.hpp"
#include "utilities/globalDefinitions.hpp"
namespace metaspace {
class Metachunk;
class ChunkManager;
// List of VirtualSpaces for metadata allocation.
class VirtualSpaceList : public CHeapObj<mtClass> {
friend class VirtualSpaceNode;
enum VirtualSpaceSizes {
VirtualSpaceSize = 256 * K
};
// Head of the list
VirtualSpaceNode* _virtual_space_list;
// virtual space currently being used for allocations
VirtualSpaceNode* _current_virtual_space;
// Is this VirtualSpaceList used for the compressed class space
bool _is_class;
// Sum of reserved and committed memory in the virtual spaces
size_t _reserved_words;
size_t _committed_words;
// Number of virtual spaces
size_t _virtual_space_count;
// Optimization: we keep an address range to quickly exclude pointers
// which are clearly not pointing into metaspace. This is an optimization for
// VirtualSpaceList::contains().
address _envelope_lo;
address _envelope_hi;
bool is_within_envelope(address p) const {
return p >= _envelope_lo && p < _envelope_hi;
}
// Given a node, expand range such that it includes the node.
void expand_envelope_to_include_node(const VirtualSpaceNode* node);
~VirtualSpaceList();
VirtualSpaceNode* virtual_space_list() const { return _virtual_space_list; }
void set_virtual_space_list(VirtualSpaceNode* v) {
_virtual_space_list = v;
}
void set_current_virtual_space(VirtualSpaceNode* v) {
_current_virtual_space = v;
}
void link_vs(VirtualSpaceNode* new_entry);
// Get another virtual space and add it to the list. This
// is typically prompted by a failed attempt to allocate a chunk
// and is typically followed by the allocation of a chunk.
bool create_new_virtual_space(size_t vs_word_size);
// Chunk up the unused committed space in the current
// virtual space and add the chunks to the free list.
void retire_current_virtual_space();
DEBUG_ONLY(bool contains_node(const VirtualSpaceNode* node) const;)
public:
VirtualSpaceList(size_t word_size);
VirtualSpaceList(ReservedSpace rs);
size_t free_bytes();
Metachunk* get_new_chunk(size_t chunk_word_size,
size_t suggested_commit_granularity);
bool expand_node_by(VirtualSpaceNode* node,
size_t min_words,
size_t preferred_words);
bool expand_by(size_t min_words,
size_t preferred_words);
VirtualSpaceNode* current_virtual_space() {
return _current_virtual_space;
}
bool is_class() const { return _is_class; }
bool initialization_succeeded() { return _virtual_space_list != NULL; }
size_t reserved_words() { return _reserved_words; }
size_t reserved_bytes() { return reserved_words() * BytesPerWord; }
size_t committed_words() { return _committed_words; }
size_t committed_bytes() { return committed_words() * BytesPerWord; }
void inc_reserved_words(size_t v);
void dec_reserved_words(size_t v);
void inc_committed_words(size_t v);
void dec_committed_words(size_t v);
void inc_virtual_space_count();
void dec_virtual_space_count();
VirtualSpaceNode* find_enclosing_space(const void* ptr);
bool contains(const void* ptr) { return find_enclosing_space(ptr) != NULL; }
// Unlink empty VirtualSpaceNodes and free it.
void purge(ChunkManager* chunk_manager);
void print_on(outputStream* st) const { print_on(st, K); }
void print_on(outputStream* st, size_t scale) const;
void print_map(outputStream* st) const;
DEBUG_ONLY(void verify(bool slow);)
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