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*
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* 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_JFR_UTILITIES_JFRHASHTABLE_HPP
#define SHARE_JFR_UTILITIES_JFRHASHTABLE_HPP
#include "jfr/utilities/jfrAllocation.hpp"
#include "runtime/atomic.hpp"
#include "utilities/debug.hpp"
#include "utilities/macros.hpp"
template <typename T>
class JfrBasicHashtableEntry : public JfrCHeapObj {
private:
typedef JfrBasicHashtableEntry<T> Entry;
Entry* _next;
T _literal; // ref to item in table.
uintptr_t _hash;
public:
JfrBasicHashtableEntry(uintptr_t hash, const T& data) : _next(NULL), _literal(data), _hash(hash) {}
uintptr_t hash() const { return _hash; }
T literal() const { return _literal; }
T* literal_addr() { return &_literal; }
void set_literal(T s) { _literal = s; }
void set_next(Entry* next) { _next = next; }
Entry* next() const { return _next; }
Entry** next_addr() { return &_next; }
};
template <typename T>
class JfrHashtableBucket : public CHeapObj<mtTracing> {
template <typename>
friend class JfrBasicHashtable;
private:
typedef JfrBasicHashtableEntry<T> TableEntry;
TableEntry* _entry;
TableEntry* get_entry() const {
return (TableEntry*)Atomic::load_acquire(&_entry);
}
void set_entry(TableEntry* entry) { Atomic::release_store(&_entry, entry);}
TableEntry** entry_addr() { return &_entry; }
};
template <typename T>
class JfrBasicHashtable : public CHeapObj<mtTracing> {
private:
typedef JfrHashtableBucket<T> Bucket;
typedef JfrBasicHashtableEntry<T> TableEntry;
Bucket* _buckets;
uintptr_t _table_size;
const size_t _entry_size;
size_t _number_of_entries;
protected:
JfrBasicHashtable(uintptr_t table_size, size_t entry_size) :
_buckets(NULL), _table_size(table_size), _entry_size(entry_size), _number_of_entries(0) {
_buckets = NEW_C_HEAP_ARRAY2(Bucket, table_size, mtTracing, CURRENT_PC);
memset((void*)_buckets, 0, table_size * sizeof(Bucket));
}
size_t hash_to_index(uintptr_t full_hash) const {
const uintptr_t h = full_hash % _table_size;
assert(h >= 0 && h < _table_size, "Illegal hash value");
return (size_t)h;
}
size_t entry_size() const { return _entry_size; }
void unlink_entry(TableEntry* entry) {
entry->set_next(NULL);
--_number_of_entries;
}
void free_buckets() {
FREE_C_HEAP_ARRAY(Bucket, _buckets);
}
TableEntry* bucket(size_t i) { return _buckets[i].get_entry();}
TableEntry** bucket_addr(size_t i) { return _buckets[i].entry_addr(); }
uintptr_t table_size() const { return _table_size; }
size_t number_of_entries() const { return _number_of_entries; }
void add_entry(size_t index, TableEntry* entry) {
assert(entry != NULL, "invariant");
entry->set_next(bucket(index));
_buckets[index].set_entry(entry);
++_number_of_entries;
}
};
template <typename IdType, typename Entry, typename T>
class AscendingId : public JfrCHeapObj {
private:
IdType _id;
public:
AscendingId() : _id(0) {}
// callbacks
void on_link(Entry* entry) {
assert(entry != NULL, "invariant");
assert(entry->id() == 0, "invariant");
entry->set_id(++_id);
}
bool on_equals(uintptr_t hash, const Entry* entry) {
assert(entry->hash() == hash, "invariant");
return true;
}
};
// IdType must be scalar
template <typename T, typename IdType>
class JfrHashtableEntry : public JfrBasicHashtableEntry<T> {
public:
JfrHashtableEntry(uintptr_t hash, const T& data) : JfrBasicHashtableEntry<T>(hash, data), _id(0) {}
typedef IdType ID;
ID id() const { return _id; }
void set_id(ID id) const { _id = id; }
T& value() const { return *const_cast<JfrHashtableEntry*>(this)->literal_addr();}
const T* value_addr() const { return const_cast<JfrHashtableEntry*>(this)->literal_addr(); }
private:
mutable ID _id;
};
template <typename T, typename IdType, template <typename, typename> class Entry,
typename Callback = AscendingId<IdType, Entry<T, IdType>, T> ,
size_t TABLE_SIZE = 1009>
class HashTableHost : public JfrBasicHashtable<T> {
public:
typedef Entry<T, IdType> HashEntry;
HashTableHost(size_t size = 0) : JfrBasicHashtable<T>(size == 0 ? TABLE_SIZE : size, sizeof(HashEntry)), _callback(new Callback()) {}
HashTableHost(Callback* cb, size_t size = 0) : JfrBasicHashtable<T>(size == 0 ? TABLE_SIZE : size, sizeof(HashEntry)), _callback(cb) {}
~HashTableHost() {
this->clear_entries();
this->free_buckets();
}
// direct insert assumes non-existing entry
HashEntry& put(uintptr_t hash, const T& data);
// lookup entry, will put if not found
HashEntry& lookup_put(uintptr_t hash, const T& data) {
HashEntry* entry = lookup_only(hash);
return entry == NULL ? put(hash, data) : *entry;
}
HashEntry* lookup_only(uintptr_t hash);
// id retrieval
IdType id(uintptr_t hash, const T& data) {
assert(data != NULL, "invariant");
const HashEntry& entry = lookup_put(hash, data);
assert(entry.id() > 0, "invariant");
return entry.id();
}
template <typename Functor>
void iterate_value(Functor& f);
template <typename Functor>
void iterate_entry(Functor& f);
size_t cardinality() const { return this->number_of_entries(); }
bool has_entries() const { return this->cardinality() > 0; }
void clear_entries();
// removal and deallocation
void free_entry(HashEntry* entry) {
assert(entry != NULL, "invariant");
JfrBasicHashtable<T>::unlink_entry(entry);
_callback->on_unlink(entry);
delete entry;
}
private:
Callback* _callback;
size_t index_for(uintptr_t hash) { return this->hash_to_index(hash); }
HashEntry* new_entry(uintptr_t hash, const T& data);
void add_entry(size_t index, HashEntry* new_entry) {
assert(new_entry != NULL, "invariant");
_callback->on_link(new_entry);
assert(new_entry->id() > 0, "invariant");
JfrBasicHashtable<T>::add_entry(index, new_entry);
}
};
template <typename T, typename IdType, template <typename, typename> class Entry, typename Callback, size_t TABLE_SIZE>
Entry<T, IdType>& HashTableHost<T, IdType, Entry, Callback, TABLE_SIZE>::put(uintptr_t hash, const T& data) {
assert(lookup_only(hash) == NULL, "use lookup_put()");
HashEntry* const entry = new_entry(hash, data);
add_entry(index_for(hash), entry);
return *entry;
}
template <typename T, typename IdType, template <typename, typename> class Entry, typename Callback, size_t TABLE_SIZE>
Entry<T, IdType>* HashTableHost<T, IdType, Entry, Callback, TABLE_SIZE>::lookup_only(uintptr_t hash) {
HashEntry* entry = (HashEntry*)this->bucket(index_for(hash));
while (entry != NULL) {
if (entry->hash() == hash && _callback->on_equals(hash, entry)) {
return entry;
}
entry = (HashEntry*)entry->next();
}
return NULL;
}
template <typename T, typename IdType, template <typename, typename> class Entry, typename Callback, size_t TABLE_SIZE>
template <typename Functor>
void HashTableHost<T, IdType, Entry, Callback, TABLE_SIZE>::iterate_value(Functor& f) {
for (size_t i = 0; i < this->table_size(); ++i) {
const HashEntry* entry = (const HashEntry*)this->bucket(i);
while (entry != NULL) {
if (!f(entry->value())) {
break;
}
entry = (HashEntry*)entry->next();
}
}
}
template <typename T, typename IdType, template <typename, typename> class Entry, typename Callback, size_t TABLE_SIZE>
template <typename Functor>
void HashTableHost<T, IdType, Entry, Callback, TABLE_SIZE>::iterate_entry(Functor& f) {
for (size_t i = 0; i < this->table_size(); ++i) {
const HashEntry* entry = (const HashEntry*)this->bucket(i);
while (entry != NULL) {
if (!f(entry)) {
break;
}
entry = (const HashEntry*)entry->next();
}
}
}
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