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/*
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 * Copyright (c) 1997, 2018, Oracle and/or its affiliates. All rights reserved.
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 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
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 *
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 * This code is free software; you can redistribute it and/or modify it
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 * under the terms of the GNU General Public License version 2 only, as
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 * published by the Free Software Foundation.
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 *
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 * This code is distributed in the hope that it will be useful, but WITHOUT
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 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
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 * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
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 * version 2 for more details (a copy is included in the LICENSE file that
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 * accompanied this code).
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 *
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 * You should have received a copy of the GNU General Public License version
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 * 2 along with this work; if not, write to the Free Software Foundation,
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 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
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 *
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 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
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 * or visit www.oracle.com if you need additional information or have any
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 * questions.
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 *
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 */
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#ifndef SHARE_VM_INTERPRETER_OOPMAPCACHE_HPP
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#define SHARE_VM_INTERPRETER_OOPMAPCACHE_HPP
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#include "oops/generateOopMap.hpp"
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#include "runtime/mutex.hpp"
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// A Cache for storing (method, bci) -> oopMap.
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// The memory management system uses the cache when locating object
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// references in an interpreted frame.
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//
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// OopMapCache's are allocated lazily per InstanceKlass.
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// The oopMap (InterpreterOopMap) is stored as a bit mask. If the
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// bit_mask can fit into two words it is stored in
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// the _bit_mask array, otherwise it is allocated on the heap.
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// For OopMapCacheEntry the bit_mask is allocated in the C heap
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// because these entries persist between garbage collections.
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// For InterpreterOopMap the bit_mask is allocated in
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// a resource area for better performance.  InterpreterOopMap
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// should only be created and deleted during same garbage collection.
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//
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// If ENABBLE_ZAP_DEAD_LOCALS is defined, two bits are used
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// per entry instead of one. In all cases,
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// the first bit is set to indicate oops as opposed to other
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// values. If the second bit is available,
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// it is set for dead values. We get the following encoding:
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//
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// 00 live value
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// 01 live oop
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// 10 dead value
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// 11 <unused>                                   (we cannot distinguish between dead oops or values with the current oop map generator)
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class OffsetClosure  {
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 public:
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  virtual void offset_do(int offset) = 0;
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};
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class InterpreterOopMap: ResourceObj {
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  friend class OopMapCache;
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 public:
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  enum {
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    N                = 4,                // the number of words reserved
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                                         // for inlined mask storage
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    small_mask_limit = N * BitsPerWord,  // the maximum number of bits
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                                         // available for small masks,
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                                         // small_mask_limit can be set to 0
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                                         // for testing bit_mask allocation
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    bits_per_entry   = 2,
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    dead_bit_number  = 1,
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    oop_bit_number   = 0
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  };
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 private:
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  Method*        _method;         // the method for which the mask is valid
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  unsigned short _bci;            // the bci    for which the mask is valid
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  int            _mask_size;      // the mask size in bits
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  int            _expression_stack_size; // the size of the expression stack in slots
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 protected:
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  intptr_t       _bit_mask[N];    // the bit mask if
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                                  // mask_size <= small_mask_limit,
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                                  // ptr to bit mask otherwise
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                                  // "protected" so that sub classes can
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                                  // access it without using trickery in
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                                  // methd bit_mask().
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#ifdef ASSERT
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  bool _resource_allocate_bit_mask;
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#endif
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  // access methods
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  Method*        method() const                  { return _method; }
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  void           set_method(Method* v)           { _method = v; }
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  int            bci() const                     { return _bci; }
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  void           set_bci(int v)                  { _bci = v; }
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  int            mask_size() const               { return _mask_size; }
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  void           set_mask_size(int v)            { _mask_size = v; }
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  // Test bit mask size and return either the in-line bit mask or allocated
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  // bit mask.
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  uintptr_t*  bit_mask() const                   { return (uintptr_t*)(mask_size() <= small_mask_limit ? (intptr_t)_bit_mask : _bit_mask[0]); }
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  // return the word size of_bit_mask.  mask_size() <= 4 * MAX_USHORT
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  size_t mask_word_size() const {
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    return (mask_size() + BitsPerWord - 1) / BitsPerWord;
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  }
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  uintptr_t entry_at(int offset) const           { int i = offset * bits_per_entry; return bit_mask()[i / BitsPerWord] >> (i % BitsPerWord); }
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  void set_expression_stack_size(int sz)         { _expression_stack_size = sz; }
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  // Lookup
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  bool match(methodHandle method, int bci) const { return _method == method() && _bci == bci; }
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  bool is_empty() const;
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  // Initialization
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  void initialize();
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 public:
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  InterpreterOopMap();
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  ~InterpreterOopMap();
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  // Copy the OopMapCacheEntry in parameter "from" into this
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  // InterpreterOopMap.  If the _bit_mask[0] in "from" points to
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  // allocated space (i.e., the bit mask was to large to hold
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  // in-line), allocate the space from a Resource area.
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  void resource_copy(OopMapCacheEntry* from);
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  void iterate_oop(OffsetClosure* oop_closure) const;
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  void print() const;
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  int number_of_entries() const                  { return mask_size() / bits_per_entry; }
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  bool is_dead(int offset) const                 { return (entry_at(offset) & (1 << dead_bit_number)) != 0; }
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  bool is_oop (int offset) const                 { return (entry_at(offset) & (1 << oop_bit_number )) != 0; }
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  int expression_stack_size() const              { return _expression_stack_size; }
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#ifdef ENABLE_ZAP_DEAD_LOCALS
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  void iterate_all(OffsetClosure* oop_closure, OffsetClosure* value_closure, OffsetClosure* dead_closure);
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#endif
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};
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class OopMapCache : public CHeapObj<mtClass> {
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 private:
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  enum { _size        = 32,     // Use fixed size for now
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         _probe_depth = 3       // probe depth in case of collisions
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  };
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  OopMapCacheEntry* _array;
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  unsigned int hash_value_for(methodHandle method, int bci) const;
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  OopMapCacheEntry* entry_at(int i) const;
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  mutable Mutex _mut;
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  void flush();
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 public:
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  OopMapCache();
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  ~OopMapCache();                                // free up memory
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  // flush cache entry is occupied by an obsolete method
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  void flush_obsolete_entries();
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  // Returns the oopMap for (method, bci) in parameter "entry".
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  // Returns false if an oop map was not found.
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  void lookup(methodHandle method, int bci, InterpreterOopMap* entry) const;
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  // Compute an oop map without updating the cache or grabbing any locks (for debugging)
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  static void compute_one_oop_map(methodHandle method, int bci, InterpreterOopMap* entry);
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  // Returns total no. of bytes allocated as part of OopMapCache's
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  static size_t memory_usage()                     PRODUCT_RETURN0;
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};
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#endif // SHARE_VM_INTERPRETER_OOPMAPCACHE_HPP
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