8087333: Optionally Pre-Generate the HotSpot Template Interpreter
Summary: Optional support for pregenerated template interpreter
Reviewed-by: coleenp, dholmes, kvn
/*
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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).
*
* You should have received a copy of the GNU General Public License version
* 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_VM_CODE_OOPRECORDER_HPP
#define SHARE_VM_CODE_OOPRECORDER_HPP
#include "memory/universe.hpp"
#include "runtime/handles.hpp"
#include "utilities/growableArray.hpp"
// Recording and retrieval of either oop relocations or metadata in compiled code.
class CodeBlob;
template <class T> class ValueRecorder : public StackObj {
public:
// A two-way mapping from positive indexes to oop handles.
// The zero index is reserved for a constant (sharable) null.
// Indexes may not be negative.
// Use the given arena to manage storage, if not NULL.
// By default, uses the current ResourceArea.
ValueRecorder(Arena* arena = NULL);
// Generate a new index on which nmethod::oop_addr_at will work.
// allocate_index and find_index never return the same index,
// and allocate_index never returns the same index twice.
// In fact, two successive calls to allocate_index return successive ints.
int allocate_index(T h) {
return add_handle(h, false);
}
// For a given jobject or Metadata*, this will return the same index
// repeatedly. The index can later be given to nmethod::oop_at or
// metadata_at to retrieve the oop.
// However, the oop must not be changed via nmethod::oop_addr_at.
int find_index(T h) {
int index = maybe_find_index(h);
if (index < 0) { // previously unallocated
index = add_handle(h, true);
}
return index;
}
// returns the size of the generated oop/metadata table, for sizing the
// CodeBlob. Must be called after all oops are allocated!
int size();
// Retrieve the value at a given index.
T at(int index);
int count() {
if (_handles == NULL) return 0;
// there is always a NULL virtually present as first object
return _handles->length() + first_index;
}
// Helper function; returns false for NULL or Universe::non_oop_word().
bool is_real(T h) {
return h != NULL && h != (T)Universe::non_oop_word();
}
// copy the generated table to nmethod
void copy_values_to(nmethod* nm);
bool is_unused() { return _handles == NULL && !_complete; }
#ifdef ASSERT
bool is_complete() { return _complete; }
#endif
private:
// variant of find_index which does not allocate if not found (yields -1)
int maybe_find_index(T h);
// leaky hash table of handle => index, to help detect duplicate insertion
template <class X> class IndexCache : public ResourceObj {
// This class is only used by the ValueRecorder class.
friend class ValueRecorder;
enum {
_log_cache_size = 9,
_cache_size = (1<<_log_cache_size),
// Index entries are ints. The LSBit is a collision indicator.
_collision_bit_shift = 0,
_collision_bit = 1,
_index_shift = _collision_bit_shift+1
};
int _cache[_cache_size];
static juint cache_index(X handle) {
juint ci = (int) (intptr_t) handle;
ci ^= ci >> (BitsPerByte*2);
ci += ci >> (BitsPerByte*1);
return ci & (_cache_size-1);
}
int* cache_location(X handle) {
return &_cache[ cache_index(handle) ];
}
static bool cache_location_collision(int* cloc) {
return ((*cloc) & _collision_bit) != 0;
}
static int cache_location_index(int* cloc) {
return (*cloc) >> _index_shift;
}
static void set_cache_location_index(int* cloc, int index) {
int cval0 = (*cloc);
int cval1 = (index << _index_shift);
if (cval0 != 0 && cval1 != cval0) cval1 += _collision_bit;
(*cloc) = cval1;
}
IndexCache();
};
void maybe_initialize();
int add_handle(T h, bool make_findable);
enum { null_index = 0, first_index = 1, index_cache_threshold = 20 };
GrowableArray<T>* _handles; // ordered list (first is always NULL)
GrowableArray<int>* _no_finds; // all unfindable indexes; usually empty
IndexCache<T>* _indexes; // map: handle -> its probable index
Arena* _arena;
bool _complete;
#ifdef ASSERT
static int _find_index_calls, _hit_indexes, _missed_indexes;
#endif
};
class OopRecorder : public ResourceObj {
private:
ValueRecorder<jobject> _oops;
ValueRecorder<Metadata*> _metadata;
public:
OopRecorder(Arena* arena = NULL): _oops(arena), _metadata(arena) {}
int allocate_oop_index(jobject h) {
return _oops.allocate_index(h);
}
int find_index(jobject h) {
return _oops.find_index(h);
}
jobject oop_at(int index) {
return _oops.at(index);
}
int oop_size() {
return _oops.size();
}
int oop_count() {
return _oops.count();
}
bool is_real(jobject h) {
return _oops.is_real(h);
}
int allocate_metadata_index(Metadata* oop) {
return _metadata.allocate_index(oop);
}
int find_index(Metadata* h) {
return _metadata.find_index(h);
}
Metadata* metadata_at(int index) {
return _metadata.at(index);
}
int metadata_size() {
return _metadata.size();
}
int metadata_count() {
return _metadata.count();
}
bool is_real(Metadata* h) {
return _metadata.is_real(h);
}
bool is_unused() {
return _oops.is_unused() && _metadata.is_unused();
}
void freeze() {
_oops.size();
_metadata.size();
}
void copy_values_to(nmethod* nm) {
if (!_oops.is_unused()) {
_oops.copy_values_to(nm);
}
if (!_metadata.is_unused()) {
_metadata.copy_values_to(nm);
}
}
#ifdef ASSERT
bool is_complete() {
assert(_oops.is_complete() == _metadata.is_complete(), "must agree");
return _oops.is_complete();
}
#endif
};
#endif // SHARE_VM_CODE_OOPRECORDER_HPP